diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/.gitignore b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/.gitignore new file mode 100644 index 00000000..73326b8f --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/.gitignore @@ -0,0 +1,2 @@ +*x86*64*inventec*d5264q28b*.mk +onlpdump.mk diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/Makefile new file mode 100644 index 00000000..003238cf --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/Makefile @@ -0,0 +1 @@ +include $(ONL)/make/pkg.mk \ No newline at end of file diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/Makefile new file mode 100644 index 00000000..003238cf --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/Makefile @@ -0,0 +1 @@ +include $(ONL)/make/pkg.mk \ No newline at end of file diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/PKG.yml b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/PKG.yml new file mode 100644 index 00000000..02c71a93 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/PKG.yml @@ -0,0 +1 @@ +!include $ONL_TEMPLATES/platform-modules.yml VENDOR=inventec BASENAME=x86-64-inventec-d5264q28b ARCH=amd64 KERNELS="onl-kernel-3.16-lts-x86-64-all:amd64" diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/.gitignore b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/.gitignore new file mode 100644 index 00000000..a65b4177 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/.gitignore @@ -0,0 +1 @@ +lib diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/Makefile new file mode 100644 index 00000000..740ae3a3 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/Makefile @@ -0,0 +1,6 @@ +KERNELS := onl-kernel-3.16-lts-x86-64-all:amd64 +KMODULES := src +VENDOR := inventec +BASENAME := x86-64-inventec-d5264q28b +ARCH := x86_64 +include $(ONL)/make/kmodule.mk diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/Makefile new file mode 100644 index 00000000..754b0b21 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/Makefile @@ -0,0 +1,10 @@ +#obj-m += gpio-ich.o +obj-m += inv_cpld.o +obj-m += inv_mux.o +obj-m += inv_platform.o +obj-m += inv_psoc.o +obj-m += inv_swps.o +obj-m += inv_vpd.o +obj-m += io_expander.o +obj-m += onie_tlvinfo.o +obj-m += transceiver.o diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/gpio-ich.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/gpio-ich.c new file mode 100644 index 00000000..70304220 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/gpio-ich.c @@ -0,0 +1,548 @@ +/* + * Intel ICH6-10, Series 5 and 6, Atom C2000 (Avoton/Rangeley) GPIO driver + * + * Copyright (C) 2010 Extreme Engineering Solutions. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. + */ + +#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt + +#include +#include +#include +#include +#include + +#define DRV_NAME "gpio_ich" + +/* + * GPIO register offsets in GPIO I/O space. + * Each chunk of 32 GPIOs is manipulated via its own USE_SELx, IO_SELx, and + * LVLx registers. Logic in the read/write functions takes a register and + * an absolute bit number and determines the proper register offset and bit + * number in that register. For example, to read the value of GPIO bit 50 + * the code would access offset ichx_regs[2(=GPIO_LVL)][1(=50/32)], + * bit 18 (50%32). + */ +enum GPIO_REG { + GPIO_USE_SEL = 0, + GPIO_IO_SEL, + GPIO_LVL, + GPO_BLINK +}; + +static const u8 ichx_regs[4][3] = { + {0x00, 0x30, 0x40}, /* USE_SEL[1-3] offsets */ + {0x04, 0x34, 0x44}, /* IO_SEL[1-3] offsets */ + {0x0c, 0x38, 0x48}, /* LVL[1-3] offsets */ + {0x18, 0x18, 0x18}, /* BLINK offset */ +}; + +static const u8 ichx_reglen[3] = { + 0x30, 0x10, 0x10, +}; + +static const u8 avoton_regs[4][3] = { + {0x00, 0x80, 0x00}, + {0x04, 0x84, 0x00}, + {0x08, 0x88, 0x00}, +}; + +static const u8 avoton_reglen[3] = { + 0x10, 0x10, 0x00, +}; + +#define ICHX_WRITE(val, reg, base_res) outl(val, (reg) + (base_res)->start) +#define ICHX_READ(reg, base_res) inl((reg) + (base_res)->start) + +struct ichx_desc { + /* Max GPIO pins the chipset can have */ + uint ngpio; + + /* chipset registers */ + const u8 (*regs)[3]; + const u8 *reglen; + + /* GPO_BLINK is available on this chipset */ + bool have_blink; + + /* Whether the chipset has GPIO in GPE0_STS in the PM IO region */ + bool uses_gpe0; + + /* USE_SEL is bogus on some chipsets, eg 3100 */ + u32 use_sel_ignore[3]; + + /* Some chipsets have quirks, let these use their own request/get */ + int (*request)(struct gpio_chip *chip, unsigned offset); + int (*get)(struct gpio_chip *chip, unsigned offset); + + /* + * Some chipsets don't let reading output values on GPIO_LVL register + * this option allows driver caching written output values + */ + bool use_outlvl_cache; +}; + +static struct { + spinlock_t lock; + struct platform_device *dev; + struct gpio_chip chip; + struct resource *gpio_base; /* GPIO IO base */ + struct resource *pm_base; /* Power Mangagment IO base */ + struct ichx_desc *desc; /* Pointer to chipset-specific description */ + u32 orig_gpio_ctrl; /* Orig CTRL value, used to restore on exit */ + u8 use_gpio; /* Which GPIO groups are usable */ + int outlvl_cache[3]; /* cached output values */ +} ichx_priv; + +static int modparam_gpiobase = -1; /* dynamic */ +module_param_named(gpiobase, modparam_gpiobase, int, 0444); +MODULE_PARM_DESC(gpiobase, "The GPIO number base. -1 means dynamic, " + "which is the default."); + +static int ichx_write_bit(int reg, unsigned nr, int val, int verify) +{ + unsigned long flags; + u32 data, tmp; + int reg_nr = nr / 32; + int bit = nr & 0x1f; + int ret = 0; + + spin_lock_irqsave(&ichx_priv.lock, flags); + + if (reg == GPIO_LVL && ichx_priv.desc->use_outlvl_cache) + data = ichx_priv.outlvl_cache[reg_nr]; + else + data = ICHX_READ(ichx_priv.desc->regs[reg][reg_nr], + ichx_priv.gpio_base); + + if (val) + data |= 1 << bit; + else + data &= ~(1 << bit); + ICHX_WRITE(data, ichx_priv.desc->regs[reg][reg_nr], + ichx_priv.gpio_base); + if (reg == GPIO_LVL && ichx_priv.desc->use_outlvl_cache) + ichx_priv.outlvl_cache[reg_nr] = data; + + tmp = ICHX_READ(ichx_priv.desc->regs[reg][reg_nr], + ichx_priv.gpio_base); + if (verify && data != tmp) + ret = -EPERM; + + spin_unlock_irqrestore(&ichx_priv.lock, flags); + + return ret; +} + +static int ichx_read_bit(int reg, unsigned nr) +{ + unsigned long flags; + u32 data; + int reg_nr = nr / 32; + int bit = nr & 0x1f; + + spin_lock_irqsave(&ichx_priv.lock, flags); + + data = ICHX_READ(ichx_priv.desc->regs[reg][reg_nr], + ichx_priv.gpio_base); + + if (reg == GPIO_LVL && ichx_priv.desc->use_outlvl_cache) + data = ichx_priv.outlvl_cache[reg_nr] | data; + + spin_unlock_irqrestore(&ichx_priv.lock, flags); + + return data & (1 << bit) ? 1 : 0; +} + +static bool ichx_gpio_check_available(struct gpio_chip *gpio, unsigned nr) +{ + return !!(ichx_priv.use_gpio & (1 << (nr / 32))); +} + +static int ichx_gpio_direction_input(struct gpio_chip *gpio, unsigned nr) +{ + /* + * Try setting pin as an input and verify it worked since many pins + * are output-only. + */ + if (ichx_write_bit(GPIO_IO_SEL, nr, 1, 1)) + return -EINVAL; + + return 0; +} + +static int ichx_gpio_direction_output(struct gpio_chip *gpio, unsigned nr, + int val) +{ + /* Disable blink hardware which is available for GPIOs from 0 to 31. */ + if (nr < 32 && ichx_priv.desc->have_blink) + ichx_write_bit(GPO_BLINK, nr, 0, 0); + + /* Set GPIO output value. */ + ichx_write_bit(GPIO_LVL, nr, val, 0); + + /* + * Try setting pin as an output and verify it worked since many pins + * are input-only. + */ + if (ichx_write_bit(GPIO_IO_SEL, nr, 0, 1)) + return -EINVAL; + + return 0; +} + +static int ichx_gpio_get(struct gpio_chip *chip, unsigned nr) +{ + return ichx_read_bit(GPIO_LVL, nr); +} + +static int ich6_gpio_get(struct gpio_chip *chip, unsigned nr) +{ + unsigned long flags; + u32 data; + + /* + * GPI 0 - 15 need to be read from the power management registers on + * a ICH6/3100 bridge. + */ + if (nr < 16) { + if (!ichx_priv.pm_base) + return -ENXIO; + + spin_lock_irqsave(&ichx_priv.lock, flags); + + /* GPI 0 - 15 are latched, write 1 to clear*/ + ICHX_WRITE(1 << (16 + nr), 0, ichx_priv.pm_base); + data = ICHX_READ(0, ichx_priv.pm_base); + + spin_unlock_irqrestore(&ichx_priv.lock, flags); + + return (data >> 16) & (1 << nr) ? 1 : 0; + } else { + return ichx_gpio_get(chip, nr); + } +} + +static int ichx_gpio_request(struct gpio_chip *chip, unsigned nr) +{ + if (!ichx_gpio_check_available(chip, nr)) + return -ENXIO; + + /* + * Note we assume the BIOS properly set a bridge's USE value. Some + * chips (eg Intel 3100) have bogus USE values though, so first see if + * the chipset's USE value can be trusted for this specific bit. + * If it can't be trusted, assume that the pin can be used as a GPIO. + */ + if (ichx_priv.desc->use_sel_ignore[nr / 32] & (1 << (nr & 0x1f))) + return 0; + + return ichx_read_bit(GPIO_USE_SEL, nr) ? 0 : -ENODEV; +} + +static int ich6_gpio_request(struct gpio_chip *chip, unsigned nr) +{ + /* + * Fixups for bits 16 and 17 are necessary on the Intel ICH6/3100 + * bridge as they are controlled by USE register bits 0 and 1. See + * "Table 704 GPIO_USE_SEL1 register" in the i3100 datasheet for + * additional info. + */ + if (nr == 16 || nr == 17) + nr -= 16; + + return ichx_gpio_request(chip, nr); +} + +static void ichx_gpio_set(struct gpio_chip *chip, unsigned nr, int val) +{ + ichx_write_bit(GPIO_LVL, nr, val, 0); +} + +static void ichx_gpiolib_setup(struct gpio_chip *chip) +{ + chip->owner = THIS_MODULE; + chip->label = DRV_NAME; + chip->dev = &ichx_priv.dev->dev; + + /* Allow chip-specific overrides of request()/get() */ + chip->request = ichx_priv.desc->request ? + ichx_priv.desc->request : ichx_gpio_request; + chip->get = ichx_priv.desc->get ? + ichx_priv.desc->get : ichx_gpio_get; + + chip->set = ichx_gpio_set; + chip->direction_input = ichx_gpio_direction_input; + chip->direction_output = ichx_gpio_direction_output; + chip->base = modparam_gpiobase; + chip->ngpio = ichx_priv.desc->ngpio; + chip->can_sleep = false; + chip->dbg_show = NULL; +} + +/* ICH6-based, 631xesb-based */ +static struct ichx_desc ich6_desc = { + /* Bridges using the ICH6 controller need fixups for GPIO 0 - 17 */ + .request = ich6_gpio_request, + .get = ich6_gpio_get, + + /* GPIO 0-15 are read in the GPE0_STS PM register */ + .uses_gpe0 = true, + + .ngpio = 50, + .have_blink = true, + .regs = ichx_regs, + .reglen = ichx_reglen, +}; + +/* Intel 3100 */ +static struct ichx_desc i3100_desc = { + /* + * Bits 16,17, 20 of USE_SEL and bit 16 of USE_SEL2 always read 0 on + * the Intel 3100. See "Table 712. GPIO Summary Table" of 3100 + * Datasheet for more info. + */ + .use_sel_ignore = {0x00130000, 0x00010000, 0x0}, + + /* The 3100 needs fixups for GPIO 0 - 17 */ + .request = ich6_gpio_request, + .get = ich6_gpio_get, + + /* GPIO 0-15 are read in the GPE0_STS PM register */ + .uses_gpe0 = true, + + .ngpio = 50, + .regs = ichx_regs, + .reglen = ichx_reglen, +}; + +/* ICH7 and ICH8-based */ +static struct ichx_desc ich7_desc = { + .ngpio = 50, + .have_blink = true, + .regs = ichx_regs, + .reglen = ichx_reglen, +}; + +/* ICH9-based */ +static struct ichx_desc ich9_desc = { + .ngpio = 61, + .have_blink = true, + .regs = ichx_regs, + .reglen = ichx_reglen, +}; + +/* ICH10-based - Consumer/corporate versions have different amount of GPIO */ +static struct ichx_desc ich10_cons_desc = { + .ngpio = 61, + .have_blink = true, + .regs = ichx_regs, + .reglen = ichx_reglen, +}; +static struct ichx_desc ich10_corp_desc = { + .ngpio = 72, + .have_blink = true, + .regs = ichx_regs, + .reglen = ichx_reglen, +}; + +/* Intel 5 series, 6 series, 3400 series, and C200 series */ +static struct ichx_desc intel5_desc = { + .ngpio = 76, + .regs = ichx_regs, + .reglen = ichx_reglen, +}; + +/* Avoton */ +static struct ichx_desc avoton_desc = { + /* Avoton has only 59 GPIOs, but we assume the first set of register + * (Core) has 32 instead of 31 to keep gpio-ich compliance + */ + .ngpio = 60, + .regs = avoton_regs, + .reglen = avoton_reglen, + .use_outlvl_cache = true, +}; + +static int ichx_gpio_request_regions(struct resource *res_base, + const char *name, u8 use_gpio) +{ + int i; + + if (!res_base || !res_base->start || !res_base->end) + return -ENODEV; + + for (i = 0; i < ARRAY_SIZE(ichx_priv.desc->regs[0]); i++) { + if (!(use_gpio & (1 << i))) + continue; + if (!request_region( + res_base->start + ichx_priv.desc->regs[0][i], + ichx_priv.desc->reglen[i], name)) + goto request_err; + } + return 0; + +request_err: + /* Clean up: release already requested regions, if any */ + for (i--; i >= 0; i--) { + if (!(use_gpio & (1 << i))) + continue; + release_region(res_base->start + ichx_priv.desc->regs[0][i], + ichx_priv.desc->reglen[i]); + } + return -EBUSY; +} + +static void ichx_gpio_release_regions(struct resource *res_base, u8 use_gpio) +{ + int i; + + for (i = 0; i < ARRAY_SIZE(ichx_priv.desc->regs[0]); i++) { + if (!(use_gpio & (1 << i))) + continue; + release_region(res_base->start + ichx_priv.desc->regs[0][i], + ichx_priv.desc->reglen[i]); + } +} + +static int ichx_gpio_probe(struct platform_device *pdev) +{ + struct resource *res_base, *res_pm; + int err; + struct lpc_ich_info *ich_info = dev_get_platdata(&pdev->dev); + + if (!ich_info) + return -ENODEV; + + ichx_priv.dev = pdev; + + switch (ich_info->gpio_version) { + case ICH_I3100_GPIO: + ichx_priv.desc = &i3100_desc; + break; + case ICH_V5_GPIO: + ichx_priv.desc = &intel5_desc; + break; + case ICH_V6_GPIO: + ichx_priv.desc = &ich6_desc; + break; + case ICH_V7_GPIO: + ichx_priv.desc = &ich7_desc; + break; + case ICH_V9_GPIO: + ichx_priv.desc = &ich9_desc; + break; + case ICH_V10CORP_GPIO: + ichx_priv.desc = &ich10_corp_desc; + break; + case ICH_V10CONS_GPIO: + ichx_priv.desc = &ich10_cons_desc; + break; + case AVOTON_GPIO: + ichx_priv.desc = &avoton_desc; + break; + default: + return -ENODEV; + } + + spin_lock_init(&ichx_priv.lock); + res_base = platform_get_resource(pdev, IORESOURCE_IO, ICH_RES_GPIO); + ichx_priv.use_gpio = ich_info->use_gpio; + err = ichx_gpio_request_regions(res_base, pdev->name, + ichx_priv.use_gpio); + if (err) + return err; + + ichx_priv.gpio_base = res_base; + + /* + * If necessary, determine the I/O address of ACPI/power management + * registers which are needed to read the the GPE0 register for GPI pins + * 0 - 15 on some chipsets. + */ + if (!ichx_priv.desc->uses_gpe0) + goto init; + + res_pm = platform_get_resource(pdev, IORESOURCE_IO, ICH_RES_GPE0); + if (!res_pm) { + pr_warn("ACPI BAR is unavailable, GPI 0 - 15 unavailable\n"); + goto init; + } + + if (!request_region(res_pm->start, resource_size(res_pm), + pdev->name)) { + pr_warn("ACPI BAR is busy, GPI 0 - 15 unavailable\n"); + goto init; + } + + ichx_priv.pm_base = res_pm; + +init: + ichx_gpiolib_setup(&ichx_priv.chip); + err = gpiochip_add(&ichx_priv.chip); + if (err) { + pr_err("Failed to register GPIOs\n"); + goto add_err; + } + + pr_info("GPIO from %d to %d on %s\n", ichx_priv.chip.base, + ichx_priv.chip.base + ichx_priv.chip.ngpio - 1, DRV_NAME); + + return 0; + +add_err: + ichx_gpio_release_regions(ichx_priv.gpio_base, ichx_priv.use_gpio); + if (ichx_priv.pm_base) + release_region(ichx_priv.pm_base->start, + resource_size(ichx_priv.pm_base)); + return err; +} + +static int ichx_gpio_remove(struct platform_device *pdev) +{ + int err; + + err = gpiochip_remove(&ichx_priv.chip); + if (err) { + dev_err(&pdev->dev, "%s failed, %d\n", + "gpiochip_remove()", err); + return err; + } + + ichx_gpio_release_regions(ichx_priv.gpio_base, ichx_priv.use_gpio); + if (ichx_priv.pm_base) + release_region(ichx_priv.pm_base->start, + resource_size(ichx_priv.pm_base)); + + return 0; +} + +static struct platform_driver ichx_gpio_driver = { + .driver = { + .owner = THIS_MODULE, + .name = DRV_NAME, + }, + .probe = ichx_gpio_probe, + .remove = ichx_gpio_remove, +}; + +module_platform_driver(ichx_gpio_driver); + +MODULE_AUTHOR("Peter Tyser "); +MODULE_DESCRIPTION("GPIO interface for Intel ICH series"); +MODULE_LICENSE("GPL"); +MODULE_ALIAS("platform:"DRV_NAME); diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_cpld.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_cpld.c new file mode 100644 index 00000000..57791f62 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_cpld.c @@ -0,0 +1,463 @@ +/* + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +//#include "I2CHostCommunication.h" + +#define USE_SMBUS 1 + +/* definition */ +#define CPLD_INFO_OFFSET 0x00 +#define CPLD_PSU_OFFSET 0x08 +#define CPLD_LED_OFFSET 0x0E +#define CPLD_LED_STATU_OFFSET 0x0D +#define CPLD_CTL_OFFSET 0x0C +#define CPLD_BIOSCS_OFFSET 0x04 + + +/* Each client has this additional data */ +struct cpld_data { + struct device *hwmon_dev; + struct mutex update_lock; +}; + +/*-----------------------------------------------------------------------*/ + +static ssize_t cpld_i2c_read(struct i2c_client *client, u8 *buf, u8 offset, size_t count) +{ +#if USE_SMBUS + int i; + + for(i=0; iaddr; + msg[0].buf = msgbuf; + msg[0].len = 1; + + msg[1].addr = client->addr; + msg[1].flags = I2C_M_RD; + msg[1].buf = buf; + msg[1].len = count; + + status = i2c_transfer(client->adapter, msg, 2); + + if(status == 2) + status = count; + + return status; +#endif +} + +static ssize_t cpld_i2c_write(struct i2c_client *client, char *buf, unsigned offset, size_t count) +{ +#if USE_SMBUS + int i; + + for(i=0; iaddr; + msg.flags = 0; + + /* msg.buf is u8 and casts will mask the values */ + msg.buf = writebuf; + + msg.buf[i++] = offset; + memcpy(&msg.buf[i], buf, count); + msg.len = i + count; + + status = i2c_transfer(client->adapter, &msg, 1); + if (status == 1) + status = count; + + return status; +#endif +} + +/*-----------------------------------------------------------------------*/ + +/* sysfs attributes for hwmon */ + +static ssize_t show_info(struct device *dev, struct device_attribute *da, + char *buf) +{ + u32 status; + //struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + struct i2c_client *client = to_i2c_client(dev); + struct cpld_data *data = i2c_get_clientdata(client); + u8 b[4]; + + memset(b, 0, 4); + + mutex_lock(&data->update_lock); + status = cpld_i2c_read(client, b, CPLD_INFO_OFFSET, 4); + mutex_unlock(&data->update_lock); + + if(status != 4) return sprintf(buf, "read cpld info fail\n"); + + status = sprintf (buf, "The CPLD release date is %02d/%02d/%d.\n", b[2] & 0xf, (b[3] & 0x1f), 2014+(b[2] >> 4)); /* mm/dd/yyyy*/ + status = sprintf (buf, "%sThe PCB version is %X%X\n", buf, b[0]>>4, b[0]&0xf); + status = sprintf (buf, "%sThe CPLD version is %d.%d\n", buf, b[1]>>4, b[1]&0xf); + + return strlen(buf); +} + + +static ssize_t show_ctl(struct device *dev, struct device_attribute *da, + char *buf) +{ + u32 status; + //struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + struct i2c_client *client = to_i2c_client(dev); + struct cpld_data *data = i2c_get_clientdata(client); + u8 b[1]; + + mutex_lock(&data->update_lock); + + status = cpld_i2c_read(client, b, CPLD_CTL_OFFSET, 1); + + mutex_unlock(&data->update_lock); + + if(status != 1) return sprintf(buf, "read cpld ctl fail\n"); + + + status = sprintf (buf, "0x%X\n", b[0]); + + return strlen(buf); +} + +static ssize_t set_ctl(struct device *dev, + struct device_attribute *devattr, + const char *buf, size_t count) +{ + //struct sensor_device_attribute *attr = to_sensor_dev_attr(devattr); + struct i2c_client *client = to_i2c_client(dev); + struct cpld_data *data = i2c_get_clientdata(client); + u8 byte; + + u8 temp = simple_strtol(buf, NULL, 10); + + mutex_lock(&data->update_lock); + cpld_i2c_read(client, &byte, CPLD_CTL_OFFSET, 1); + if(temp) byte |= (1<<0); + else byte &= ~(1<<0); + cpld_i2c_write(client, &byte, CPLD_CTL_OFFSET, 1); + mutex_unlock(&data->update_lock); + + return count; +} + +static ssize_t show_bios_cs(struct device *dev, struct device_attribute *da, + char *buf) +{ + u32 status; + //struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + struct i2c_client *client = to_i2c_client(dev); + struct cpld_data *data = i2c_get_clientdata(client); + u8 b[1]; + + mutex_lock(&data->update_lock); + + status = cpld_i2c_read(client, b, CPLD_BIOSCS_OFFSET, 1); + + mutex_unlock(&data->update_lock); + + if(status != 1) return sprintf(buf, "read cpld BIOS_CS fail\n"); + + + status = sprintf (buf, "0x%X\n", b[0] & 0x01); + + return strlen(buf); +} + +static ssize_t set_bios_cs(struct device *dev, + struct device_attribute *devattr, + const char *buf, size_t count) +{ + //struct sensor_device_attribute *attr = to_sensor_dev_attr(devattr); + struct i2c_client *client = to_i2c_client(dev); + struct cpld_data *data = i2c_get_clientdata(client); + u8 byte; + + u8 temp = simple_strtol(buf, NULL, 10); + + mutex_lock(&data->update_lock); + cpld_i2c_read(client, &byte, CPLD_BIOSCS_OFFSET, 1); + if(temp) byte |= 0x01; + else byte &= ~(0x01); + cpld_i2c_write(client, &byte, CPLD_BIOSCS_OFFSET, 1); + mutex_unlock(&data->update_lock); + + return count; +} + + +static char* led_str[] = { + "OFF", //000 + "0.5 Hz", //001 + "1 Hz", //010 + "2 Hz", //011 + "NA", //100 + "NA", //101 + "NA", //110 + "ON", //111 +}; + +static ssize_t show_led(struct device *dev, struct device_attribute *da, + char *buf) +{ + u32 status; + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + struct i2c_client *client = to_i2c_client(dev); + struct cpld_data *data = i2c_get_clientdata(client); + u8 byte; + int shift = (attr->index == 0)?3:0; + + mutex_lock(&data->update_lock); + status = cpld_i2c_read(client, &byte, CPLD_LED_OFFSET, 1); + mutex_unlock(&data->update_lock); + + if(status != 1) return sprintf(buf, "read cpld offset 0x%x\n", CPLD_LED_OFFSET); + + byte = (byte >> shift) & 0x7; + + /* + 0: off + 1: 0.5hz + 2: 1 hz + 3: 2 hz + 4~6: not define + 7: on + */ + + status = sprintf (buf, "%d: %s\n", byte, led_str[byte]); + + return strlen(buf); +} + +static ssize_t set_led(struct device *dev, + struct device_attribute *devattr, + const char *buf, size_t count) +{ + struct sensor_device_attribute *attr = to_sensor_dev_attr(devattr); + struct i2c_client *client = to_i2c_client(dev); + struct cpld_data *data = i2c_get_clientdata(client); + + u8 temp = simple_strtol(buf, NULL, 16); + u8 byte; + int shift = (attr->index == 0)?3:0; + + temp &= 0x7; + //validate temp value: 0,1,2,3,7, TBD + + mutex_lock(&data->update_lock); + cpld_i2c_read(client, &byte, CPLD_LED_OFFSET, 1); + byte &= ~(0x7<update_lock); + + return count; +} + +/* +CPLD report the PSU0 status +000 = PSU normal operation +100 = PSU fault +010 = PSU unpowered +111 = PSU not installed + +7 6 | 5 4 3 | 2 1 0 +---------------------- + | psu0 | psu1 +*/ +static char* psu_str[] = { + "normal", //000 + "NA", //001 + "unpowered", //010 + "NA", //011 + "fault", //100 + "NA", //101 + "NA", //110 + "not installed", //111 +}; + +static ssize_t show_psu(struct device *dev, struct device_attribute *da, + char *buf) +{ + u32 status; + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + struct i2c_client *client = to_i2c_client(dev); + struct cpld_data *data = i2c_get_clientdata(client); + u8 byte; + int shift = (attr->index == 1)?0:3; + + mutex_lock(&data->update_lock); + status = cpld_i2c_read(client, &byte, CPLD_PSU_OFFSET, 1); + mutex_unlock(&data->update_lock); + + byte = (byte >> shift) & 0x7; + + status = sprintf (buf, "%d : %s\n", byte, psu_str[byte]); + + return strlen(buf); +} + + +static SENSOR_DEVICE_ATTR(info, S_IRUGO, show_info, 0, 0); +static SENSOR_DEVICE_ATTR(ctl, S_IWUSR|S_IRUGO, show_ctl, set_ctl, 0); + +static SENSOR_DEVICE_ATTR(grn_led, S_IWUSR|S_IRUGO, show_led, set_led, 0); +static SENSOR_DEVICE_ATTR(red_led, S_IWUSR|S_IRUGO, show_led, set_led, 1); + +static SENSOR_DEVICE_ATTR(psu0, S_IRUGO, show_psu, 0, 0); +static SENSOR_DEVICE_ATTR(psu1, S_IRUGO, show_psu, 0, 1); + +static SENSOR_DEVICE_ATTR(bios_cs, S_IWUSR|S_IRUGO, show_bios_cs, set_bios_cs, 0); + +static struct attribute *cpld_attributes[] = { + //info + &sensor_dev_attr_info.dev_attr.attr, + &sensor_dev_attr_ctl.dev_attr.attr, + + &sensor_dev_attr_grn_led.dev_attr.attr, + &sensor_dev_attr_red_led.dev_attr.attr, + + &sensor_dev_attr_psu0.dev_attr.attr, + &sensor_dev_attr_psu1.dev_attr.attr, + + &sensor_dev_attr_bios_cs.dev_attr.attr, + + NULL +}; + +static const struct attribute_group cpld_group = { + .attrs = cpld_attributes, +}; + +/*-----------------------------------------------------------------------*/ + +/* device probe and removal */ + +static int +cpld_probe(struct i2c_client *client, const struct i2c_device_id *id) +{ + struct cpld_data *data; + int status; + + printk("+%s\n", __func__); + + if (!i2c_check_functionality(client->adapter, + I2C_FUNC_SMBUS_BYTE_DATA | I2C_FUNC_SMBUS_WORD_DATA)) + return -EIO; + + data = kzalloc(sizeof(struct cpld_data), GFP_KERNEL); + if (!data) + return -ENOMEM; + + i2c_set_clientdata(client, data); + mutex_init(&data->update_lock); + + /* Register sysfs hooks */ + status = sysfs_create_group(&client->dev.kobj, &cpld_group); + if (status) + goto exit_free; + + data->hwmon_dev = hwmon_device_register(&client->dev); + if (IS_ERR(data->hwmon_dev)) { + status = PTR_ERR(data->hwmon_dev); + goto exit_remove; + } + + dev_info(&client->dev, "%s: sensor '%s'\n", + dev_name(data->hwmon_dev), client->name); + + return 0; + +exit_remove: + sysfs_remove_group(&client->dev.kobj, &cpld_group); +exit_free: + i2c_set_clientdata(client, NULL); + kfree(data); + return status; +} + +static int cpld_remove(struct i2c_client *client) +{ + struct cpld_data *data = i2c_get_clientdata(client); + + hwmon_device_unregister(data->hwmon_dev); + sysfs_remove_group(&client->dev.kobj, &cpld_group); + i2c_set_clientdata(client, NULL); + kfree(data); + return 0; +} + +static const struct i2c_device_id cpld_ids[] = { + { "inv_cpld", 0, }, + { /* LIST END */ } +}; +MODULE_DEVICE_TABLE(i2c, cpld_ids); + +static struct i2c_driver cpld_driver = { + .class = I2C_CLASS_HWMON, + .driver = { + .name = "inv_cpld", + }, + .probe = cpld_probe, + .remove = cpld_remove, + .id_table = cpld_ids, +}; + +/*-----------------------------------------------------------------------*/ + +/* module glue */ + +static int __init inv_cpld_init(void) +{ + return i2c_add_driver(&cpld_driver); +} + +static void __exit inv_cpld_exit(void) +{ + i2c_del_driver(&cpld_driver); +} + +MODULE_AUTHOR("eddie.lan "); +MODULE_DESCRIPTION("inv cpld driver"); +MODULE_LICENSE("GPL"); + +module_init(inv_cpld_init); +module_exit(inv_cpld_exit); diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_mux.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_mux.c new file mode 100644 index 00000000..a0f5ce34 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_mux.c @@ -0,0 +1,281 @@ +#include +#include +#include +#include +#include +#include +#include "io_expander.h" +#include "inv_mux.h" + +static struct mux_obj_s *mux_head_p = NULL; + + +/* ========== MUX object functions ========== + */ +int +_common_force_pull_gpio(int mem_addr, + int input, + int bit_offset){ + + unsigned int val = 0; + unsigned int targ = 0; + + /* Get current value */ + val = inl(mem_addr); + if (val == 0) { + SWPS_ERR("%s: inl:%d fail!\n", __func__, val); + return -1; + } + /* Count target value */ + switch (input) { + case 0: /* Pull Low */ + targ = (val & (~(1 << bit_offset))); + break; + case 1: /* Pull high */ + targ = (val | (1 << bit_offset)); + break; + default: + SWPS_ERR("%s: input state:%d incorrect!\n", + __func__, input); + return -1; + } + /* Setup gpio */ + outl(targ, mem_addr); + if (targ != inl(mem_addr)){ + SWPS_ERR("%s: outl:%d fail!\n", __func__, targ); + return -1; + } + SWPS_DEBUG("%s: done.\n", __func__); + return 0; +} + + +int +rangeley_force_pull_high(struct mux_obj_s *self){ + SWPS_ERR("%s: not ready!\n", __func__); + return -1; +} + + +int +rangeley_force_pull_low(struct mux_obj_s *self){ + SWPS_ERR("%s: not ready!\n", __func__); + return -1; +} + + +int +hedera_force_pull_high(struct mux_obj_s *self){ + return _common_force_pull_gpio(MUX_RST_MEM_ADDR_HEDERA, 1, 5); +} + + +int +hedera_force_pull_low(struct mux_obj_s *self){ + return _common_force_pull_gpio(MUX_RST_MEM_ADDR_HEDERA, 0, 5); +} + + +int +normal_gpio_pull_high(struct mux_obj_s *self){ + return gpio_direction_output(self->gpio_num, 1); +} + + +int +normal_gpio_pull_low(struct mux_obj_s *self){ + return gpio_direction_output(self->gpio_num, 0); +} + + +int +pca9548_reset_mux_all(struct mux_obj_s *self){ + /* [Note] Power-on reset (PCA9548A-NXP) + * When power is applied to VDD, an internal Power-On Reset (POR) + * holds the PCA9548A in a reset condition until VDD has reached + * VPOR. At this point, the reset condition is released and the + * PCA9548A register and I2C-bus state machine are initialized to + * their default states (all zeroes) causing all the channels to + * be deselected. Thereafter, VDD must be lowered below 0.2 V for + * at least 5 us in order to reset the device. + */ + if (self->_pull_low(self) < 0) { + SWPS_ERR("%s: _pull_low fail!\n", __func__); + return -1; + } + mdelay(MUX_RST_WAIT_MS); + if (self->_pull_high(self) < 0) { + SWPS_ERR("%s: _pull_high fail!\n", __func__); + return -1; + } + mdelay(MUX_RST_WAIT_MS); + return 0; +} + + +int +common_reset_mux_all(struct mux_obj_s *self){ + SWPS_ERR("%s: not ready!\n", __func__); + return -1; +} + + +int +init_gpio_4_force(struct mux_obj_s *self){ + return 0; +} + + +int +init_gpio_4_normal(struct mux_obj_s *self){ + + int err = 0; + + if (!gpio_is_valid(self->gpio_num)) { + SWPS_ERR("%s: GIPO:%d isn't valid\n", __func__, self->gpio_num); + return -1; + } + err = gpio_request(self->gpio_num, MUX_GPIO_LABEL); + if (err < 0) { + SWPS_ERR("%s: gpio_request fail :%d :%d\n", + __func__, err, self->gpio_num); + return -1; + } + SWPS_DEBUG("%s: gpio_request:%d ok.\n", __func__, self->gpio_num); + return 0; +} + + +static int +_setup_muxctl_cb(struct mux_obj_s *self, + unsigned gpio){ + + char *mod_dsc = "ERR"; + + switch (gpio) { + case MUX_RST_GPIO_FORCE_RANGELEY: + self->gpio_num = gpio; + self->_pull_low = rangeley_force_pull_low; + self->_pull_high = rangeley_force_pull_high; + self->_init = init_gpio_4_force; + self->reset = pca9548_reset_mux_all; + mod_dsc = "Rangeley force mode"; + goto ok_setup_muxctl_cb; + + case MUX_RST_GPIO_FORCE_HEDERA: + self->gpio_num = gpio; + self->_pull_low = hedera_force_pull_low; + self->_pull_high = hedera_force_pull_high; + self->_init = init_gpio_4_force; + self->reset = pca9548_reset_mux_all; + mod_dsc = "Hedera force mode"; + goto ok_setup_muxctl_cb; + + case MUX_RST_GPIO_48_PAC9548: + self->gpio_num = gpio; + self->_pull_low = normal_gpio_pull_low; + self->_pull_high = normal_gpio_pull_high; + self->_init = init_gpio_4_normal; + self->reset = pca9548_reset_mux_all; + mod_dsc = "Normal mode :48"; + goto ok_setup_muxctl_cb; + + case MUX_RST_GPIO_69_PAC9548: + self->gpio_num = gpio; + self->_pull_low = normal_gpio_pull_low; + self->_pull_high = normal_gpio_pull_high; + self->_init = init_gpio_4_normal; + self->reset = pca9548_reset_mux_all; + mod_dsc = "Normal mode :69"; + goto ok_setup_muxctl_cb; + + default: + break; + } + SWPS_ERR("%s: Unexpected GPIO:%d\n", __func__, gpio); + return -1; + +ok_setup_muxctl_cb: + SWPS_INFO("muxctl: %s.\n", mod_dsc); + return 0; +} + + +/* ========== MUX public functions ========== + */ +void +clean_mux_gpio(void){ + + if (!mux_head_p) { + SWPS_DEBUG("%s: mux_head_p is NULL\n", __func__); + return; + } + if (gpio_is_valid(mux_head_p->gpio_num)) { + gpio_free(mux_head_p->gpio_num); + } + kfree(mux_head_p); + mux_head_p = NULL; + SWPS_DEBUG("%s: done.\n", __func__); +} +EXPORT_SYMBOL(clean_mux_gpio); + + +int +reset_mux_gpio(void){ + + if (!mux_head_p) { + SWPS_ERR("%s: MUX ctl object doesn't exist!\n", __func__); + return -1; + } + if (mux_head_p->reset(mux_head_p) < 0){ + SWPS_ERR("%s: reset fail!\n", __func__); + return -1; + } + return 0; +} +EXPORT_SYMBOL(reset_mux_gpio); + + +int +init_mux_gpio(unsigned gpio){ + + /* Create MUX control object */ + if (mux_head_p) { + SWPS_DEBUG("%s: mux_head_p is not NULL!\n", __func__); + clean_mux_gpio(); + } + /* Currently, it is using single muxctl architecture. + * In the future, it may use the multi-muxctl if HW add new features. + * (Ex: Port power-status control) + */ + mux_head_p = kzalloc(sizeof(struct mux_obj_s), GFP_KERNEL); + if (!mux_head_p) { + SWPS_ERR("%s: kzalloc fail!\n", __func__); + return -1; + } + /* Initial MUX controller */ + if (_setup_muxctl_cb(mux_head_p, gpio) < 0){ + SWPS_ERR("%s: _setup_muxctl_cb fail!\n", __func__); + return -1; + } + if (mux_head_p->_init(mux_head_p) < 0) { + SWPS_ERR("%s: init() fail\n", __func__); + goto err_init_mux_gpio; + } + /* Setup default value */ + if (mux_head_p->_pull_high(mux_head_p) < 0) { + SWPS_ERR("%s: setup default fail!\n", __func__); + goto err_init_mux_gpio; + } + return 0; + +err_init_mux_gpio: + clean_mux_gpio(); + return -1; +} +EXPORT_SYMBOL(init_mux_gpio); + + + +MODULE_LICENSE("GPL"); + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_mux.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_mux.h new file mode 100644 index 00000000..429754a8 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_mux.h @@ -0,0 +1,36 @@ +#ifndef INV_MUX_H +#define INV_MUX_H + + +/* MUX basic information */ +#define MUX_GPIO_LABEL "SWPS_RST_MUX" + +/* MUX reset GPIO define */ +#define MUX_RST_GPIO_FORCE (30100) +#define MUX_RST_GPIO_FORCE_RANGELEY (30101) +#define MUX_RST_GPIO_FORCE_HEDERA (30102) +#define MUX_RST_GPIO_48_PAC9548 (48) +#define MUX_RST_GPIO_69_PAC9548 (69) + +/* MUX relate value define */ +#define MUX_RST_WAIT_MS (1) +#define MUX_RST_MEM_ADDR_RANGELEY (0) // TBD +#define MUX_RST_MEM_ADDR_HEDERA (0x548) + +struct mux_obj_s { + unsigned gpio_num; + int (*_pull_high)(struct mux_obj_s *self); + int (*_pull_low)(struct mux_obj_s *self); + int (*_init)(struct mux_obj_s *self); + int (*reset)(struct mux_obj_s *self); +}; + + +void clean_mux_gpio(void); +int reset_mux_gpio(void); +int init_mux_gpio(unsigned gpio); + + +#endif /* INV_MUX_H */ + + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_platform.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_platform.c new file mode 100644 index 00000000..3da78567 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_platform.c @@ -0,0 +1,280 @@ +#include +//#include +#include +#include +#include +#include +#include + +#include +#include +#include + +//#include +#define IO_EXPAND_BASE 64 +#define IO_EXPAND_NGPIO 16 + +struct inv_i2c_board_info { + int ch; + int size; + struct i2c_board_info *board_info; +}; + +#define bus_id(id) (id) +static struct pca954x_platform_mode mux_modes_0[] = { + {.adap_id = bus_id(1),}, {.adap_id = bus_id(2),}, + {.adap_id = bus_id(3),}, {.adap_id = bus_id(4),}, + {.adap_id = bus_id(5),}, {.adap_id = bus_id(8),}, +}; +static struct pca954x_platform_mode mux_modes_0_0[] = { + {.adap_id = bus_id(17),}, {.adap_id = bus_id(18),}, + {.adap_id = bus_id(19),}, {.adap_id = bus_id(20),}, + {.adap_id = bus_id(21),}, {.adap_id = bus_id(22),}, + {.adap_id = bus_id(23),}, {.adap_id = bus_id(24),}, +}; + +static struct pca954x_platform_mode mux_modes_0_1[] = { + {.adap_id = bus_id(25),}, {.adap_id = bus_id(26),}, + {.adap_id = bus_id(27),}, {.adap_id = bus_id(28),}, + {.adap_id = bus_id(29),}, {.adap_id = bus_id(30),}, + {.adap_id = bus_id(31),}, {.adap_id = bus_id(32),}, +}; + +static struct pca954x_platform_mode mux_modes_0_2[] = { + {.adap_id = bus_id(33),}, {.adap_id = bus_id(34),}, + {.adap_id = bus_id(35),}, {.adap_id = bus_id(36),}, + {.adap_id = bus_id(37),}, {.adap_id = bus_id(38),}, + {.adap_id = bus_id(39),}, {.adap_id = bus_id(40),}, +}; + +static struct pca954x_platform_mode mux_modes_0_3[] = { + {.adap_id = bus_id(41),}, {.adap_id = bus_id(42),}, + {.adap_id = bus_id(43),}, {.adap_id = bus_id(44),}, + {.adap_id = bus_id(45),}, {.adap_id = bus_id(46),}, + {.adap_id = bus_id(47),}, {.adap_id = bus_id(48),}, +}; + + +static struct pca954x_platform_mode mux_modes_0_7[] = { + {.adap_id = bus_id(9),}, {.adap_id = bus_id(10),}, + {.adap_id = bus_id(11),}, {.adap_id = bus_id(12),}, +}; +static struct pca954x_platform_mode mux_modes_0_7_0[] = { + {.adap_id = bus_id(49),}, {.adap_id = bus_id(50),}, + {.adap_id = bus_id(51),}, {.adap_id = bus_id(52),}, + {.adap_id = bus_id(53),}, {.adap_id = bus_id(54),}, + {.adap_id = bus_id(55),}, {.adap_id = bus_id(56),}, +}; + +static struct pca954x_platform_mode mux_modes_0_7_1[] = { + {.adap_id = bus_id(57),}, {.adap_id = bus_id(58),}, + {.adap_id = bus_id(59),}, {.adap_id = bus_id(60),}, + {.adap_id = bus_id(61),}, {.adap_id = bus_id(62),}, + {.adap_id = bus_id(63),}, {.adap_id = bus_id(64),}, +}; + +static struct pca954x_platform_mode mux_modes_0_7_2[] = { + {.adap_id = bus_id(65),}, {.adap_id = bus_id(66),}, + {.adap_id = bus_id(67),}, {.adap_id = bus_id(68),}, + {.adap_id = bus_id(69),}, {.adap_id = bus_id(70),}, + {.adap_id = bus_id(71),}, {.adap_id = bus_id(72),}, +}; + +static struct pca954x_platform_mode mux_modes_0_7_3[] = { + {.adap_id = bus_id(73),}, {.adap_id = bus_id(74),}, + {.adap_id = bus_id(75),}, {.adap_id = bus_id(76),}, + {.adap_id = bus_id(77),}, {.adap_id = bus_id(78),}, + {.adap_id = bus_id(79),}, {.adap_id = bus_id(80),}, +}; + + +static struct pca954x_platform_data mux_data_0 = { + .modes = mux_modes_0, + .num_modes = 6, +}; +static struct pca954x_platform_data mux_data_0_0 = { + .modes = mux_modes_0_0, + .num_modes = 8, +}; +static struct pca954x_platform_data mux_data_0_1 = { + .modes = mux_modes_0_1, + .num_modes = 8, +}; +static struct pca954x_platform_data mux_data_0_2 = { + .modes = mux_modes_0_2, + .num_modes = 8, +}; +static struct pca954x_platform_data mux_data_0_3 = { + .modes = mux_modes_0_3, + .num_modes = 8, +}; + + +static struct pca954x_platform_data mux_data_0_7 = { + .modes = mux_modes_0_7, + .num_modes = 4, +}; +static struct pca954x_platform_data mux_data_0_7_0 = { + .modes = mux_modes_0_7_0, + .num_modes = 8, +}; +static struct pca954x_platform_data mux_data_0_7_1 = { + .modes = mux_modes_0_7_1, + .num_modes = 8, +}; +static struct pca954x_platform_data mux_data_0_7_2 = { + .modes = mux_modes_0_7_2, + .num_modes = 8, +}; +static struct pca954x_platform_data mux_data_0_7_3 = { + .modes = mux_modes_0_7_3, + .num_modes = 8, +}; + + +static struct i2c_board_info i2c_device_info0[] __initdata = { + {"inv_cpld", 0, 0x55, 0, 0, 0}, + {"pca9548", 0, 0x70, &mux_data_0, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info1[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_0, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info2[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_1, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info3[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_2, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info4[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_3, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info5[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_3, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info8[] __initdata = { + {"inv_cpld", 0, 0x77, 0, 0, 0}, + {"pca9548", 0, 0x71, &mux_data_0_7, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info9[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_7_0, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info10[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_7_1, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info11[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_7_2, 0, 0}, +}; + +static struct i2c_board_info i2c_device_info12[] __initdata = { + {"pca9548", 0, 0x72, &mux_data_0_7_3, 0, 0}, +}; + +static struct inv_i2c_board_info i2cdev_list[] = { + {0, ARRAY_SIZE(i2c_device_info0), i2c_device_info0 }, //smbus 0, mux0 + {8, ARRAY_SIZE(i2c_device_info8), i2c_device_info8 }, //mux9 + + {bus_id(1), ARRAY_SIZE(i2c_device_info1), i2c_device_info1 }, //mux1 + {bus_id(2), ARRAY_SIZE(i2c_device_info2), i2c_device_info2 }, //mux2 + {bus_id(3), ARRAY_SIZE(i2c_device_info3), i2c_device_info3 }, //mux3 + {bus_id(4), ARRAY_SIZE(i2c_device_info4), i2c_device_info4 }, //mux4 + {bus_id(5), ARRAY_SIZE(i2c_device_info5), i2c_device_info5 }, + + {bus_id(9), ARRAY_SIZE(i2c_device_info9), i2c_device_info9 }, //mux5 + {bus_id(10), ARRAY_SIZE(i2c_device_info10), i2c_device_info10 }, //mux6 + {bus_id(11), ARRAY_SIZE(i2c_device_info11), i2c_device_info11 }, //mux7 + {bus_id(12), ARRAY_SIZE(i2c_device_info12), i2c_device_info12 }, //mux8 +}; + +///////////////////////////////////////////////////////////////////////////////////////// +static struct i2c_gpio_platform_data i2c_gpio_platdata0 = { + .scl_pin = 8, + .sda_pin = 9, + + .udelay = 5, //5:100kHz + .sda_is_open_drain = 0, + .scl_is_open_drain = 0, + .scl_is_output_only = 0 +}; + +static struct i2c_gpio_platform_data i2c_gpio_platdata1 = { + .scl_pin = 12, + .sda_pin = 11, + + .udelay = 5, //5:100kHz + .sda_is_open_drain = 0, + .scl_is_open_drain = 0, + .scl_is_output_only = 0 +}; + +static struct platform_device device_i2c_gpio0 = { + .name = "i2c-gpio", + .id = 0, // adapter number + .dev.platform_data = &i2c_gpio_platdata0, +}; + +static struct platform_device device_i2c_gpio1 = { + .name = "i2c-gpio", + .id = 1, // adapter number + .dev.platform_data = &i2c_gpio_platdata1, +}; + +static int __init plat_lavender_x86_init(void) +{ + struct i2c_adapter *adap = NULL; + struct i2c_client *e = NULL; + int ret = 0; + int i,j; + + printk("el6661 plat_lavender_x86_init \n"); + +#if 0 //disable for ICOS + //use i2c-gpio + //register i2c gpio + //config gpio8,9 to gpio function + outl( inl(0x500) | (1<<8 | 1<<9), 0x500); + + ret = platform_device_register(&device_i2c_gpio0); + if (ret) { + printk(KERN_ERR "i2c-gpio: device_i2c_gpio0 register fail %d\n", ret); + } + + outl( inl(0x500) | (1<<11 | 1<<12), 0x500); + ret = platform_device_register(&device_i2c_gpio1); + if (ret) { + printk(KERN_ERR "i2c-gpio: device_i2c_gpio1 register fail %d\n", ret); + } +#endif + + for(i=0; i +#include +#include +#include +#include +#include +#include +#include +#include +#include + +//================================= +#include +#include +#include +#include + +#define IPMI_MAX_INTF (4) +#define NETFN_OEM 0x30 +#define CMD_GETDATA 0x31 +#define CMD_SETDATA 0x32 +#define FAN_NUM 4 +#define PSU_NUM 2 + +#define PSU1 0x5800 +#define PSU2 0x5900 +#define BMC_PMBusNumber 3 +#define PMBus_Vender 0x99 +#define PMBus_Serial 0x9E +#define PMBus_Temp2 0x8E +#define PMBus_Version 0x9B +#define MaxLeng_Result 0x20 + +#define MAX_IPMI_RECV_LENGTH 0xff + +static long pmbus_reg2data_linear(int data, int linear16); +struct ipmi_result{ + char result[MAX_IPMI_RECV_LENGTH]; + int result_length; +}; + +DEFINE_MUTEX(ipmi_mutex); +DEFINE_MUTEX(ipmi2_mutex); +static struct ipmi_result ipmiresult; +static struct device *hwmon_dev; +static struct kobject *device_kobj; +static ipmi_user_t ipmi_mh_user = NULL; +static void msg_handler(struct ipmi_recv_msg *msg,void* handler_data); +static struct ipmi_user_hndl ipmi_hndlrs = { .ipmi_recv_hndl = msg_handler,}; + +static atomic_t dummy_count = ATOMIC_INIT(0); +static void dummy_smi_free(struct ipmi_smi_msg *msg) +{ + atomic_dec(&dummy_count); +} +static void dummy_recv_free(struct ipmi_recv_msg *msg) +{ + atomic_dec(&dummy_count); +} +static struct ipmi_smi_msg halt_smi_msg = { + .done = dummy_smi_free +}; +static struct ipmi_recv_msg halt_recv_msg = { + .done = dummy_recv_free +}; + +struct __attribute__ ((__packed__)) psoc_psu_layout { + u16 psu1_iin; + u16 psu2_iin; + u16 psu1_iout; + u16 psu2_iout; + + u16 psu1_pin; + u16 psu2_pin; + u16 psu1_pout; + u16 psu2_pout; + + u16 psu1_vin; + u16 psu2_vin; + u16 psu1_vout; + u16 psu2_vout; +}; + +struct __attribute__ ((__packed__)) psoc_layout { + u8 ctl; //offset: 0 + u16 switch_temp; //offset: 1 + u8 reserve0; //offset: 3 + + u8 fw_upgrade; //offset: 4 + + //i2c bridge + u8 i2c_st; //offset: 5 + u8 i2c_ctl; //offset: 6 + u8 i2c_addr; //offset: 7 + u8 i2c_data[0x20]; //offset: 8 + + //gpo + u8 led_ctl; //offset: 28 + + u8 gpio; //offset: 29 + + //pwm duty + u8 pwm[FAN_NUM]; //offset: 2a + u8 pwm_psu[PSU_NUM]; //offset: 2e + + //fan rpm + u16 fan[FAN_NUM*2]; //offset: 30 + + u8 reserve1[4]; //offset: 40 + + //gpi + u8 gpi_fan; //offset: 44 + + //psu state + u8 psu_state; //offset: 45 + + //temperature + u16 temp[5]; //offset: 46 + u16 temp_psu[PSU_NUM]; //offset: 50 + + //version + u8 version[2]; //offset: 54 + + u8 reserve2[4]; //offset: 56 + struct psoc_psu_layout psu_info; //offset: 5a +}; + +/* definition */ +/* definition */ +#define PSOC_OFF(m) offsetof(struct psoc_layout, m) +#define PSOC_PSU_OFF(m) offsetof(struct psoc_psu_layout, m) + +#define SWITCH_TMP_OFFSET PSOC_OFF(switch_temp) +#define PWM_OFFSET PSOC_OFF(pwm) +#define THERMAL_OFFSET PSOC_OFF(temp) +#define RPM_OFFSET PSOC_OFF(fan) +#define DIAG_FLAG_OFFSET PSOC_OFF(ctl) +#define FAN_LED_OFFSET PSOC_OFF(led_ctl) +#define FAN_GPI_OFFSET PSOC_OFF(gpi_fan) +#define PSOC_PSU_OFFSET PSOC_OFF(psu_state) +#define VERSION_OFFSET PSOC_OFF(version) +#define PSU_INFO_OFFSET PSOC_OFF(psu_info) + + +static void msg_handler(struct ipmi_recv_msg *recv_msg,void* handler_data) +{ + struct ipmi_result *msg_result = recv_msg->user_msg_data; + + if(recv_msg->msg.data[0]==0 && recv_msg->msg.data_len>0) { + msg_result->result_length=recv_msg->msg.data_len-1; + memcpy(msg_result->result, &recv_msg->msg.data[1], recv_msg->msg.data_len-1); + } + ipmi_free_recv_msg(recv_msg); + mutex_unlock(&ipmi_mutex); + + return; +} + +int start_ipmi_command(char NetFn, char cmd,char *data,int data_length, char* result, int* result_length) +{ + int rv=0,i; + int timeout; + + //wait previous command finish at least 50msec + timeout=50; + while((mutex_is_locked(&ipmi_mutex) == 1 || (mutex_is_locked(&ipmi2_mutex) == 1)) && (--timeout)>0) { usleep_range(1000,1010); } + if(timeout==0) { return -1; } + mutex_lock(&ipmi_mutex); + mutex_lock(&ipmi2_mutex); + + if(ipmi_mh_user == NULL) { + for (i=0,rv=1; i0) { usleep_range(1000,1100);} + if(timeout==0) { + mutex_unlock(&ipmi2_mutex); + return -1; + } + else { + *result_length=ipmiresult.result_length; + memcpy(result,ipmiresult.result,*result_length); + mutex_unlock(&ipmi2_mutex); + return 0; + } + } + return 0; +} +EXPORT_SYMBOL(start_ipmi_command); + +static ssize_t psoc_ipmi_read(u8 *buf, u8 offset, size_t count) +{ + uint8_t data[2]; + int result_len=0; + int rv; + + data[0] = offset; + data[1] = count; + + rv=start_ipmi_command(NETFN_OEM, CMD_GETDATA,data,2, buf, &result_len); + + return result_len; +} + +static ssize_t psoc_ipmi_write(char *buf, unsigned offset, size_t count) +{ + uint8_t data[count+1],result[1]; + int result_len; + + data[0] = offset; + memcpy(&data[1],buf,count); + + start_ipmi_command(NETFN_OEM, CMD_SETDATA,data,count+1, result, &result_len); + return count; +} + + +static u16 psoc_read16(u8 offset) +{ + u16 value = 0; + u8 buf[]={0,0}; + + if(psoc_ipmi_read(buf, offset, 2) == 2) + value = (buf[0]<<8 | buf[1]<<0); + + return value; +} + +static u8 psoc_read8(u8 offset) +{ + u8 value = 0; + u8 buf = 0; + + if(psoc_ipmi_read(&buf, offset, 1) == 1) + value = buf; + + return value; +} + +/* +CPLD report the PSU0 status +000 = PSU normal operation +100 = PSU fault +010 = PSU unpowered +111 = PSU not installed + +7 6 | 5 4 3 | 2 1 0 +---------------------- + | psu1 | psu0 +*/ +static char* psu_str[] = { + "normal", //000 + "NA", //001 + "unpowered", //010 + "NA", //011 + "fault", //100 + "NA", //101 + "NA", //110 + "not installed", //111 +}; + +static ssize_t show_psu_st(struct device *dev, struct device_attribute *da, + char *buf) +{ + u32 status=0; + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + u8 byte=0; + int shift = (attr->index == 0)?3:0; + + status = psoc_ipmi_read(&byte, PSOC_PSU_OFFSET, 1); + + byte = (byte >> shift) & 0x7; + + status = sprintf (buf, "%d : %s\n", byte, psu_str[byte]); + + return strlen(buf); +} + +static ssize_t show_ipmi_pmbus(struct device *dev, struct device_attribute *da, + char *buf) +{ + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + uint8_t data[4],result[MaxLeng_Result]; + int result_len=0; + + data[0] = BMC_PMBusNumber; + data[1] = (attr->index & 0xFF00 ) >>7; + data[3] = attr->index & 0xff; + if(data[3]==PMBus_Temp2) + {data[2]=2;} + else + {data[2]=MaxLeng_Result;} + + if(start_ipmi_command(0x06, 0x52,data,4, result, &result_len)==0) + { + if(data[3]==PMBus_Temp2) + { + return sprintf(buf, "%ld \n", pmbus_reg2data_linear(result[0] | (result[1]<<8), 0 )); + } + result[result[0]+1]='\0'; + return sprintf(buf, "%s\n",&result[1] ); + } + else + { + return 0; + } +} + +static ssize_t show_thermal(struct device *dev, struct device_attribute *da, + char *buf) +{ + int status=0; + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + u8 offset = attr->index * 2 + THERMAL_OFFSET; + + status = psoc_read16(offset); + + return sprintf(buf, "%d\n", + (s8)(status>>8) * 1000 ); +} + +static ssize_t show_pwm(struct device *dev, struct device_attribute *da, + char *buf) +{ + int status=0; + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + u8 offset = attr->index + PWM_OFFSET; + + status = psoc_read8(offset); + + return sprintf(buf, "%d\n", + status); +} + +static ssize_t set_pwm(struct device *dev, + struct device_attribute *da, + const char *buf, size_t count) +{ + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + u8 offset = attr->index + PWM_OFFSET; + + u8 pwm = simple_strtol(buf, NULL, 10); + if(pwm > 255) pwm = 255; + + psoc_ipmi_write(&pwm, offset, 1); + + return count; +} + + +static ssize_t show_rpm(struct device *dev, struct device_attribute *da, + char *buf) +{ + int status=0; + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + u8 offset = attr->index*2 + RPM_OFFSET; + + status = psoc_read16(offset); + + return sprintf(buf, "%d\n", + status); +} + +static ssize_t show_switch_tmp(struct device *dev, struct device_attribute *da, + char *buf) +{ + u16 status=0; + u16 temp = 0; + + status = psoc_ipmi_read((u8*)&temp, SWITCH_TMP_OFFSET, 2); + + status = sprintf (buf, "%d\n", (s8)(temp>>8) * 1000 ); + + return strlen(buf); +} + +static ssize_t set_switch_tmp(struct device *dev, + struct device_attribute *devattr, + const char *buf, size_t count) +{ + long temp = simple_strtol(buf, NULL, 10); + u16 temp2 = ( (temp/1000) <<8 ) & 0xFF00 ; + + //printk("set_switch_tmp temp=%d, temp2=0x%x (%x,%x)\n", temp, temp2, ( ( (temp/1000) <<8 ) & 0xFF00 ), (( (temp%1000) / 10 ) & 0xFF)); + psoc_ipmi_write((u8*)&temp2, SWITCH_TMP_OFFSET, 2); + + + return count; +} + +static ssize_t show_diag(struct device *dev, struct device_attribute *da, + char *buf) +{ + u16 status=0; + u8 diag_flag = 0; + + status = psoc_ipmi_read((u8*)&diag_flag, DIAG_FLAG_OFFSET, 1); + + status = sprintf (buf, "%d\n", ((diag_flag & 0x80)?1:0)); + + return strlen(buf); +} + +static ssize_t set_diag(struct device *dev, + struct device_attribute *devattr, + const char *buf, size_t count) +{ + u8 value = 0; + u8 diag = simple_strtol(buf, NULL, 10); + + diag = diag?1:0; + + psoc_ipmi_read((u8*)&value, DIAG_FLAG_OFFSET, 1); + if(diag) value |= (1<<7); + else value &= ~(1<<7); + psoc_ipmi_write((u8*)&value, DIAG_FLAG_OFFSET, 1); + + return count; +} + +static ssize_t show_version(struct device *dev, struct device_attribute *da, + char *buf) +{ + u16 status=0; + + status = psoc_read16(VERSION_OFFSET); + + return sprintf(buf, "ver: %x.%x\n", (status & 0xFF00)>>8, (status & 0xFF) ); +} + + +static ssize_t show_fan_led(struct device *dev, struct device_attribute *da, + char *buf) +{ + int status=0; + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + u8 bit = attr->index; + + status = psoc_read8(FAN_LED_OFFSET); + + return sprintf(buf, "%d\n", + (status & (1<index; + u8 led_state = 0; + + u8 v = simple_strtol(buf, NULL, 10); + + led_state = psoc_read8(FAN_LED_OFFSET); + if(v) led_state |= (1<index; + + status = psoc_read8(offset); + + return sprintf(buf, "0x%02X\n", status ); +} + +static long pmbus_reg2data_linear(int data, int linear16) +{ + s16 exponent; + s32 mantissa; + long val; + + if (linear16) { /* LINEAR16 */ + exponent = -9; + mantissa = (u16) data; + } else { /* LINEAR11 */ + exponent = ((s16)data) >> 11; + exponent = ((s16)( data & 0xF800) ) >> 11; + mantissa = ((s32)((data & 0x7ff) << 5)) >> 5; + } + + //printk("data=%d, m=%d, e=%d\n", data, exponent, mantissa); + val = mantissa; + + /* scale result to micro-units for power sensors */ + val = val * 1000L; + + if (exponent >= 0) + val <<= exponent; + else + val >>= -exponent; + + return val; +} + +static ssize_t show_psu_psoc(struct device *dev, struct device_attribute *da, + char *buf) +{ + u16 status=0; + struct sensor_device_attribute *attr = to_sensor_dev_attr(da); + u8 offset = attr->index + PSU_INFO_OFFSET; + + status = psoc_read16(offset); + + return sprintf(buf, "%ld \n", pmbus_reg2data_linear(status, strstr(attr->dev_attr.attr.name, "vout")? 1:0 )); +} + + +static SENSOR_DEVICE_ATTR(temp1_input, S_IRUGO, show_thermal, 0, 0); +static SENSOR_DEVICE_ATTR(temp2_input, S_IRUGO, show_thermal, 0, 1); +static SENSOR_DEVICE_ATTR(temp3_input, S_IRUGO, show_thermal, 0, 2); +static SENSOR_DEVICE_ATTR(temp4_input, S_IRUGO, show_thermal, 0, 3); +static SENSOR_DEVICE_ATTR(temp5_input, S_IRUGO, show_thermal, 0, 4); +static SENSOR_DEVICE_ATTR(thermal_psu1, S_IRUGO, show_thermal, 0, 5); +static SENSOR_DEVICE_ATTR(thermal_psu2, S_IRUGO, show_thermal, 0, 6); + +static SENSOR_DEVICE_ATTR(pwm1, S_IWUSR|S_IRUGO, show_pwm, set_pwm, 0); +static SENSOR_DEVICE_ATTR(pwm2, S_IWUSR|S_IRUGO, show_pwm, set_pwm, 1); +static SENSOR_DEVICE_ATTR(pwm3, S_IWUSR|S_IRUGO, show_pwm, set_pwm, 2); +static SENSOR_DEVICE_ATTR(pwm4, S_IWUSR|S_IRUGO, show_pwm, set_pwm, 3); +static SENSOR_DEVICE_ATTR(pwm_psu1, S_IWUSR|S_IRUGO, show_pwm, set_pwm, 4); +static SENSOR_DEVICE_ATTR(pwm_psu2, S_IWUSR|S_IRUGO, show_pwm, set_pwm, 5); + +static SENSOR_DEVICE_ATTR(psu0, S_IRUGO, show_psu_st, 0, 0); +static SENSOR_DEVICE_ATTR(psu1, S_IRUGO, show_psu_st, 0, 1); + +static SENSOR_DEVICE_ATTR(fan1_input, S_IRUGO, show_rpm, 0, 0); +static SENSOR_DEVICE_ATTR(fan2_input, S_IRUGO, show_rpm, 0, 1); +static SENSOR_DEVICE_ATTR(fan3_input, S_IRUGO, show_rpm, 0, 2); +static SENSOR_DEVICE_ATTR(fan4_input, S_IRUGO, show_rpm, 0, 3); +static SENSOR_DEVICE_ATTR(fan5_input, S_IRUGO, show_rpm, 0, 4); +static SENSOR_DEVICE_ATTR(fan6_input, S_IRUGO, show_rpm, 0, 5); +static SENSOR_DEVICE_ATTR(fan7_input, S_IRUGO, show_rpm, 0, 6); +static SENSOR_DEVICE_ATTR(fan8_input, S_IRUGO, show_rpm, 0, 7); +static SENSOR_DEVICE_ATTR(rpm_psu1, S_IRUGO, show_rpm, 0, 8); +static SENSOR_DEVICE_ATTR(rpm_psu2, S_IRUGO, show_rpm, 0, 9); + +static SENSOR_DEVICE_ATTR(switch_tmp, S_IWUSR|S_IRUGO, show_switch_tmp, set_switch_tmp, 0); + +static SENSOR_DEVICE_ATTR(diag, S_IWUSR|S_IRUGO, show_diag, set_diag, 0); +static SENSOR_DEVICE_ATTR(version, S_IRUGO, show_version, 0, 0); + +static SENSOR_DEVICE_ATTR(fan_led_grn1, S_IWUSR|S_IRUGO, show_fan_led, set_fan_led, 0); +static SENSOR_DEVICE_ATTR(fan_led_grn2, S_IWUSR|S_IRUGO, show_fan_led, set_fan_led, 1); +static SENSOR_DEVICE_ATTR(fan_led_grn3, S_IWUSR|S_IRUGO, show_fan_led, set_fan_led, 2); +static SENSOR_DEVICE_ATTR(fan_led_grn4, S_IWUSR|S_IRUGO, show_fan_led, set_fan_led, 3); +static SENSOR_DEVICE_ATTR(fan_led_red1, S_IWUSR|S_IRUGO, show_fan_led, set_fan_led, 4); +static SENSOR_DEVICE_ATTR(fan_led_red2, S_IWUSR|S_IRUGO, show_fan_led, set_fan_led, 5); +static SENSOR_DEVICE_ATTR(fan_led_red3, S_IWUSR|S_IRUGO, show_fan_led, set_fan_led, 6); +static SENSOR_DEVICE_ATTR(fan_led_red4, S_IWUSR|S_IRUGO, show_fan_led, set_fan_led, 7); + +static SENSOR_DEVICE_ATTR(fan_gpi, S_IRUGO, show_value8, 0, FAN_GPI_OFFSET); +static SENSOR_DEVICE_ATTR(psoc_psu1_vin, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu1_vin)); +static SENSOR_DEVICE_ATTR(psoc_psu1_vout, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu1_vout)); +static SENSOR_DEVICE_ATTR(psoc_psu1_iin, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu1_iin)); +static SENSOR_DEVICE_ATTR(psoc_psu1_iout, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu1_iout)); +static SENSOR_DEVICE_ATTR(psoc_psu1_pin, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu1_pin)); +static SENSOR_DEVICE_ATTR(psoc_psu1_pout, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu1_pout)); + + +static SENSOR_DEVICE_ATTR(psoc_psu2_vin, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu2_vin)); +static SENSOR_DEVICE_ATTR(psoc_psu2_vout, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu2_vout)); +static SENSOR_DEVICE_ATTR(psoc_psu2_iin, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu2_iin)); +static SENSOR_DEVICE_ATTR(psoc_psu2_iout, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu2_iout)); +static SENSOR_DEVICE_ATTR(psoc_psu2_pin, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu2_pin)); +static SENSOR_DEVICE_ATTR(psoc_psu2_pout, S_IRUGO, show_psu_psoc, 0, PSOC_PSU_OFF(psu2_pout)); + +//IPMI +static SENSOR_DEVICE_ATTR(thermal2_psu1, S_IRUGO, show_ipmi_pmbus, 0, PSU1 | PMBus_Temp2); +static SENSOR_DEVICE_ATTR(psoc_psu1_vender, S_IRUGO, show_ipmi_pmbus, 0, PSU1 | PMBus_Vender); +static SENSOR_DEVICE_ATTR(psoc_psu1_serial, S_IRUGO, show_ipmi_pmbus, 0, PSU1 | PMBus_Serial); +static SENSOR_DEVICE_ATTR(psoc_psu1_version, S_IRUGO, show_ipmi_pmbus, 0, PSU1 | PMBus_Version); + +static SENSOR_DEVICE_ATTR(thermal2_psu2, S_IRUGO, show_ipmi_pmbus, 0, PSU2 | PMBus_Temp2); +static SENSOR_DEVICE_ATTR(psoc_psu2_vender, S_IRUGO, show_ipmi_pmbus, 0, PSU2 | PMBus_Vender); +static SENSOR_DEVICE_ATTR(psoc_psu2_serial, S_IRUGO, show_ipmi_pmbus, 0, PSU2 | PMBus_Serial); +static SENSOR_DEVICE_ATTR(psoc_psu2_version, S_IRUGO, show_ipmi_pmbus, 0, PSU2 | PMBus_Version); + + +static struct attribute *psoc_attributes[] = { + //thermal + &sensor_dev_attr_temp1_input.dev_attr.attr, + &sensor_dev_attr_temp2_input.dev_attr.attr, + &sensor_dev_attr_temp3_input.dev_attr.attr, + &sensor_dev_attr_temp4_input.dev_attr.attr, + &sensor_dev_attr_temp5_input.dev_attr.attr, + + &sensor_dev_attr_thermal_psu1.dev_attr.attr, + &sensor_dev_attr_thermal_psu2.dev_attr.attr, + + + //pwm + &sensor_dev_attr_pwm1.dev_attr.attr, + &sensor_dev_attr_pwm2.dev_attr.attr, + &sensor_dev_attr_pwm3.dev_attr.attr, + &sensor_dev_attr_pwm4.dev_attr.attr, + &sensor_dev_attr_pwm_psu1.dev_attr.attr, + &sensor_dev_attr_pwm_psu2.dev_attr.attr, + + //rpm + &sensor_dev_attr_fan1_input.dev_attr.attr, + &sensor_dev_attr_fan2_input.dev_attr.attr, + &sensor_dev_attr_fan3_input.dev_attr.attr, + &sensor_dev_attr_fan4_input.dev_attr.attr, + &sensor_dev_attr_fan5_input.dev_attr.attr, + &sensor_dev_attr_fan6_input.dev_attr.attr, + &sensor_dev_attr_fan7_input.dev_attr.attr, + &sensor_dev_attr_fan8_input.dev_attr.attr, + + &sensor_dev_attr_rpm_psu1.dev_attr.attr, + &sensor_dev_attr_rpm_psu2.dev_attr.attr, + + //switch temperature + &sensor_dev_attr_switch_tmp.dev_attr.attr, + + //diag flag + &sensor_dev_attr_diag.dev_attr.attr, + + //version + &sensor_dev_attr_version.dev_attr.attr, + + //fan led + &sensor_dev_attr_fan_led_grn1.dev_attr.attr, + &sensor_dev_attr_fan_led_grn2.dev_attr.attr, + &sensor_dev_attr_fan_led_grn3.dev_attr.attr, + &sensor_dev_attr_fan_led_grn4.dev_attr.attr, + &sensor_dev_attr_fan_led_red1.dev_attr.attr, + &sensor_dev_attr_fan_led_red2.dev_attr.attr, + &sensor_dev_attr_fan_led_red3.dev_attr.attr, + &sensor_dev_attr_fan_led_red4.dev_attr.attr, + + //fan GPI + &sensor_dev_attr_fan_gpi.dev_attr.attr, + &sensor_dev_attr_psu0.dev_attr.attr, + &sensor_dev_attr_psu1.dev_attr.attr, + + + //psu_psoc + &sensor_dev_attr_psoc_psu1_vin.dev_attr.attr, + &sensor_dev_attr_psoc_psu1_vout.dev_attr.attr, + &sensor_dev_attr_psoc_psu1_iin.dev_attr.attr, + &sensor_dev_attr_psoc_psu1_iout.dev_attr.attr, + &sensor_dev_attr_psoc_psu1_pin.dev_attr.attr, + &sensor_dev_attr_psoc_psu1_pout.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_vin.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_vout.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_iin.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_iout.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_pin.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_pout.dev_attr.attr, + + //ipmi_i2c_command + &sensor_dev_attr_thermal2_psu1.dev_attr.attr, + &sensor_dev_attr_psoc_psu1_vender.dev_attr.attr, + &sensor_dev_attr_psoc_psu1_serial.dev_attr.attr, + &sensor_dev_attr_psoc_psu1_version.dev_attr.attr, + + &sensor_dev_attr_thermal2_psu2.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_vender.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_serial.dev_attr.attr, + &sensor_dev_attr_psoc_psu2_version.dev_attr.attr, + + + NULL +}; + +static const struct attribute_group psoc_group = { + .attrs = psoc_attributes, +}; + +static int __init inv_psoc_init(void) +{ + int ret; + + printk("+%s\n", __func__); + + hwmon_dev = hwmon_device_register(NULL); + if (IS_ERR(hwmon_dev)) { + goto fail_hwmon_device_register; + } + + device_kobj = kobject_create_and_add("device", &hwmon_dev->kobj); + if(!device_kobj) { + goto fail_hwmon_device_register; + } + + ret = sysfs_create_group(device_kobj, &psoc_group); + if (ret) { + goto fail_create_group_hwmon; + } + + printk(" Enable IPMI PSoC protocol.\n"); + return ret; + +fail_create_group_hwmon: + hwmon_device_unregister(hwmon_dev); +fail_hwmon_device_register: + return -ENOMEM; +} + +static void __exit inv_psoc_exit(void) +{ + if(ipmi_mh_user!=NULL) {ipmi_destroy_user(ipmi_mh_user);} + if(hwmon_dev != NULL) hwmon_device_unregister(hwmon_dev); + sysfs_remove_group(device_kobj, &psoc_group); +} + +MODULE_AUTHOR("Ting.Jack "); +MODULE_DESCRIPTION("inv psoc driver"); +MODULE_LICENSE("GPL"); + +module_init(inv_psoc_init); +module_exit(inv_psoc_exit); + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_swps.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_swps.c new file mode 100644 index 00000000..723d664c --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_swps.c @@ -0,0 +1,2912 @@ +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "inv_swps.h" + +static int ctl_major; +static int port_major; +static int ioexp_total; +static int port_total; +static int auto_config; +static int flag_i2c_reset; +static int flag_mod_state; +static unsigned gpio_rest_mux; +static struct class *swp_class_p = NULL; +static struct inv_platform_s *platform_p = NULL; +static struct inv_ioexp_layout_s *ioexp_layout = NULL; +static struct inv_port_layout_s *port_layout = NULL; + +static void swp_polling_worker(struct work_struct *work); +static DECLARE_DELAYED_WORK(swp_polling, swp_polling_worker); + +static int reset_i2c_topology(void); + + +static int +__swp_match(struct device *dev, +#ifdef SWPS_KERN_VER_AF_3_10 + + const void *data){ +#else + void *data){ +#endif + + char *name = (char *)data; + if (strcmp(dev_name(dev), name) == 0) + return 1; + return 0; +} + + +struct device * +get_swpdev_by_name(char *name){ + struct device *dev = class_find_device(swp_class_p, + NULL, + name, + (const void *)__swp_match); + return dev; +} + + +static int +sscanf_2_int(const char *buf) { + + int result = -EBFONT; + char *hex_tag = "0x"; + + if (strcspn(buf, hex_tag) == 0) { + if (sscanf(buf,"%x",&result)) { + return result; + } + } else { + if (sscanf(buf,"%d",&result)) { + return result; + } + if(sscanf(buf,"-%d",&result)) { + return -result; + } + if (sscanf(buf,"%x",&result)) { + return result; + } + } + return -EBFONT; +} + + +static int +sscanf_2_binary(const char *buf) { + + int result = sscanf_2_int(buf); + + if (result < 0){ + return -EBFONT; + } + switch (result) { + case 0: + case 1: + return result; + default: + break; + } + return -EBFONT; +} + + +static int +_get_polling_period(void) { + + int retval = 0; + + if (SWP_POLLING_PERIOD == 0) { + return 0; + } + retval = ((SWP_POLLING_PERIOD * HZ) / 1000); + if (retval == 0) { + return 1; + } + return retval; +} + + +static struct transvr_obj_s * +_get_transvr_obj(char *dev_name) { + + struct device *dev_p = NULL; + struct transvr_obj_s *transvr_obj_p = NULL; + + dev_p = get_swpdev_by_name(dev_name); + if (!dev_p){ + return NULL; + } + transvr_obj_p = dev_get_drvdata(dev_p); + if (!transvr_obj_p){ + return NULL; + } + return transvr_obj_p; +} + + +static void +unlock_tobj_all(void) { + + struct transvr_obj_s *tobj_p; + char port_name[32]; + int port_id = 0; + int minor_curr = 0; + + for (minor_curr=0; minor_currauto_config = auto_config; + unlock_transvr_obj(tobj_p); + SWPS_DEBUG("%s: Set %s auto_config=%d\n", + __func__, tobj_p->swp_name, auto_config); + } + return retval; +} + + +/* ========== R/W Functions module control attribute ========== + */ +static ssize_t +show_attr_platform(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + return snprintf(buf_p, 32, "%s\n", platform_p->name); +} + + +static ssize_t +show_attr_version(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + return snprintf(buf_p, 8, "%s\n", SWP_VERSION); +} + + +static ssize_t +show_attr_status(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + return snprintf(buf_p, 8, "%d\n", flag_mod_state); +} + + +static ssize_t +show_attr_auto_config(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + return snprintf(buf_p, 8, "%d\n", auto_config); +} + + +static int +_check_reset_pwd(const char *buf_p, + size_t count) { + + int in_max = 64; + int in_len = (int)count; + char in_val[64] = "ERR"; + char *emsg = "ERR"; + + if (in_len >= in_max) { + emsg = "input too much"; + goto err_check_reset_pwd; + } + if (!sscanf(buf_p,"%s",in_val)) { + emsg = "format incorrect"; + goto err_check_reset_pwd; + } + if (strcmp(in_val, SWP_RESET_PWD) != 0) { + emsg = "password incorrect"; + goto err_check_reset_pwd; + } + return 0; + +err_check_reset_pwd: + SWPS_ERR("%s: %s\n", __func__, emsg); + return -1; +} + + +static ssize_t +store_attr_reset_i2c(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + if (_check_reset_pwd(buf_p, count) < 0) { + return -EBFONT; + } + /* Polling mode */ + if (SWP_POLLING_ENABLE) { + SWPS_INFO("%s: reset I2C :polling\n", __func__); + flag_i2c_reset = 1; + return count; + } + /* Direct mode */ + SWPS_INFO("%s: reset I2C go. :direct\n", __func__); + if (reset_i2c_topology() < 0) { + SWPS_ERR("%s: reset fail!\n", __func__); + return -EIO; + } + SWPS_INFO("%s: reset I2C ok. :direct\n", __func__); + return count; +} + + +static ssize_t +store_attr_reset_swps(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p; + char port_name[32] = "ERR"; + int port_id = 0; + int minor_curr = 0; + + if (_check_reset_pwd(buf_p, count) < 0) { + return -EBFONT; + } + for (minor_curr=0; minor_currstate = STATE_TRANSVR_DISCONNECTED; + unlock_transvr_obj(tobj_p); + SWPS_INFO("%s: reset:%s\n", __func__, tobj_p->swp_name); + } + return count; +} + + +static ssize_t +store_attr_auto_config(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + int input_val = sscanf_2_int(buf_p); + + if (input_val < 0){ + return -EBFONT; + } + if ((input_val != 0) && (input_val != 1)) { + return -EBFONT; + } + auto_config = input_val; + _update_auto_config_2_trnasvr(); + return count; +} + + +/* ========== Show functions: For transceiver attribute ========== + */ +static ssize_t +_show_transvr_hex_attr(struct transvr_obj_s* tobj_p, + int (*get_func)(struct transvr_obj_s* tobj_p), + char *buf_p) { + size_t len; + int result; + + lock_transvr_obj(tobj_p); + result = get_func(tobj_p); + unlock_transvr_obj(tobj_p); + if (result < 0){ + len = snprintf(buf_p, 8, "%d\n", result); + } else { + len = snprintf(buf_p, 8, "0x%02x\n", result); + } + return len; +} + + +static ssize_t +_show_transvr_int_attr(struct transvr_obj_s* tobj_p, + int (*get_func)(struct transvr_obj_s* tobj_p), + char *buf_p) { + size_t len; + + lock_transvr_obj(tobj_p); + len = snprintf(buf_p, 16, "%d\n", get_func(tobj_p)); + unlock_transvr_obj(tobj_p); + return len; +} + + +static ssize_t +_show_transvr_str_attr(struct transvr_obj_s* tobj_p, + int (*get_func)(struct transvr_obj_s* tobj_p, char* buf), + char *buf_p) { + size_t len; + + lock_transvr_obj(tobj_p); + len = get_func(tobj_p, buf_p); + unlock_transvr_obj(tobj_p); + return len; +} + + +static ssize_t +show_attr_id(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_id, + buf_p); +} + + +static ssize_t +show_attr_ext_id(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_ext_id, + buf_p); +} + + +static ssize_t +show_attr_connector(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_connector, + buf_p); +} + + +static ssize_t +show_attr_vendor_name(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_vendor_name, + buf_p); +} + + +static ssize_t +show_attr_vendor_pn(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_vendor_pn, + buf_p); +} + + +static ssize_t +show_attr_vendor_rev(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_vendor_rev, + buf_p); +} + + +static ssize_t +show_attr_vendor_sn(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_vendor_sn, + buf_p); +} + + +static ssize_t +show_attr_power_cls(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + size_t len; + int result; + struct transvr_obj_s *tobj_p; + + tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + lock_transvr_obj(tobj_p); + result = tobj_p->get_power_cls(tobj_p); + unlock_transvr_obj(tobj_p); + if (result < 0){ + len = snprintf(buf_p, 16, "%d\n", result); + } else { + len = snprintf(buf_p, 16, "Power Class %d\n", result); + } + return len; +} + + +static ssize_t +show_attr_br(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_br, + buf_p); +} + + +static ssize_t +show_attr_len_sm(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_len_sm, + buf_p); +} + + +static ssize_t +show_attr_len_smf(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_len_smf, + buf_p); +} + + +static ssize_t +show_attr_len_om1(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_len_om1, + buf_p); +} + + +static ssize_t +show_attr_len_om2(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_len_om2, + buf_p); +} + + +static ssize_t +show_attr_len_om3(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_len_om3, + buf_p); +} + + +static ssize_t +show_attr_len_om4(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_len_om4, + buf_p); +} + + +static ssize_t +show_attr_comp_rev(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_comp_rev, + buf_p); +} + + +static ssize_t +show_attr_comp_eth(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_comp_eth_1, + buf_p); +} + + +static ssize_t +show_attr_comp_eth_10(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_comp_eth_10, + buf_p); +} + + +static ssize_t +show_attr_comp_eth_10_40(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_comp_eth_10_40, + buf_p); +} + + +static ssize_t +show_attr_comp_extend(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_comp_extend, + buf_p); +} + + +static ssize_t +show_attr_rate_id(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_rate_id, + buf_p); +} + + +static ssize_t +show_attr_temperature(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_curr_temp, + buf_p); +} + + +static ssize_t +show_attr_voltage(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_curr_vol, + buf_p); +} + + +static ssize_t +show_attr_tx_bias(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_tx_bias, + buf_p); +} + + +static ssize_t +show_attr_tx_power(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_tx_power, + buf_p); +} + + +static ssize_t +show_attr_tx_eq(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_tx_eq, + buf_p); +} + + +static ssize_t +show_attr_rx_power(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_rx_power, + buf_p); +} + + +static ssize_t +show_attr_rx_am(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_rx_am, + buf_p); +} + + +static ssize_t +show_attr_rx_em(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_rx_em, + buf_p); +} + + +static ssize_t +show_attr_wavelength(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_wavelength, + buf_p); +} + + +static ssize_t +show_attr_info(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_info, + buf_p); +} + + +static ssize_t +show_attr_if_type(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_if_type, + buf_p); +} + + +static ssize_t +show_attr_if_speed(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_if_speed, + buf_p); +} + + +static ssize_t +show_attr_if_lane(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_if_lane, + buf_p); +} + + +static ssize_t +show_attr_cdr(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_hex_attr(tobj_p, + tobj_p->get_cdr, + buf_p); +} + + +static ssize_t +show_attr_soft_rs0(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_soft_rs0, + buf_p); +} + + +static ssize_t +show_attr_soft_rs1(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_int_attr(tobj_p, + tobj_p->get_soft_rs1, + buf_p); +} + + +static ssize_t +show_attr_soft_rx_los(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_soft_rx_los, + buf_p); +} + + +static ssize_t +show_attr_soft_tx_disable(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_soft_tx_disable, + buf_p); +} + + +static ssize_t +show_attr_soft_tx_fault(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_soft_tx_fault, + buf_p); +} + + +static ssize_t +show_attr_auto_tx_disable(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if(!tobj_p){ + return -ENODEV; + } + return _show_transvr_str_attr(tobj_p, + tobj_p->get_auto_tx_disable, + buf_p); +} + + +/* ========== Store functions: transceiver (R/W) attribute ========== + */ +static ssize_t +_store_transvr_int_attr(struct transvr_obj_s* tobj_p, + int (*set_func)(struct transvr_obj_s *tobj_p, int input_val), + const char *buf_p, + size_t count) { + int input, err; + + input = sscanf_2_int(buf_p); + if (input < 0){ + return -EBFONT; + } + lock_transvr_obj(tobj_p); + err = set_func(tobj_p, input); + unlock_transvr_obj(tobj_p); + if (err < 0){ + return err; + } + return count; +} + + +static ssize_t +_store_transvr_byte_hex_attr(struct transvr_obj_s* tobj_p, + int (*set_func)(struct transvr_obj_s *tobj_p, int input_val), + const char *buf_p, + size_t count) { + int input, err; + + input = sscanf_2_int(buf_p); + if ((input < 0) || (input > 0xff)){ + return -EBFONT; + } + lock_transvr_obj(tobj_p); + err = set_func(tobj_p, input); + unlock_transvr_obj(tobj_p); + if (err < 0){ + return err; + } + return count; +} + + +static ssize_t +_store_transvr_binary_attr(struct transvr_obj_s* tobj_p, + int (*set_func)(struct transvr_obj_s *tobj_p, int input_val), + const char *buf_p, + size_t count) { + int input, err; + + input = sscanf_2_binary(buf_p); + if (input < 0){ + return -EBFONT; + } + lock_transvr_obj(tobj_p); + err = set_func(tobj_p, input); + unlock_transvr_obj(tobj_p); + if (err < 0){ + return err; + } + return count; +} + + +static ssize_t +store_attr_cdr(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _store_transvr_byte_hex_attr(tobj_p, + tobj_p->set_cdr, + buf_p, + count); +} + + +static ssize_t +store_attr_soft_rs0(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _store_transvr_binary_attr(tobj_p, + tobj_p->set_soft_rs0, + buf_p, + count); +} + + +static ssize_t +store_attr_soft_rs1(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _store_transvr_binary_attr(tobj_p, + tobj_p->set_soft_rs1, + buf_p, + count); +} + + +static ssize_t +store_attr_soft_tx_disable(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count) { + + int check = sscanf_2_int(buf_p); + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + if ((check < 0) || (check > 0xf)){ + return -EBFONT; + } + return _store_transvr_byte_hex_attr(tobj_p, + tobj_p->set_soft_tx_disable, + buf_p, + count); +} + + +static ssize_t +store_attr_auto_tx_disable(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count) { + + int err = -EPERM; + int input = sscanf_2_int(buf_p); + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + if ((input < 0) || (input > 0xf)){ + if (input != VAL_TRANSVR_FUNCTION_DISABLE) { + return -EBFONT; + } + } + lock_transvr_obj(tobj_p); + err = tobj_p->set_auto_tx_disable(tobj_p, input); + unlock_transvr_obj(tobj_p); + if (err < 0){ + return err; + } + return count; +} + + +static ssize_t +store_attr_tx_eq(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _store_transvr_int_attr(tobj_p, + tobj_p->set_tx_eq, + buf_p, + count); +} + + +static ssize_t +store_attr_rx_am(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _store_transvr_int_attr(tobj_p, + tobj_p->set_rx_am, + buf_p, + count); +} + + +static ssize_t +store_attr_rx_em(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _store_transvr_int_attr(tobj_p, + tobj_p->set_rx_em, + buf_p, + count); +} + +/* ========== Show functions: For I/O Expander attribute ========== + */ +static ssize_t +_show_ioexp_binary_attr(struct transvr_obj_s *tobj_p, + int (*get_func)(struct ioexp_obj_s *ioexp_p, int voffset), + char *buf_p) { + size_t len; + struct ioexp_obj_s *ioexp_p = tobj_p->ioexp_obj_p; + + if (!ioexp_p) { + SWPS_ERR(" %s: data corruption! :%s\n", __func__, tobj_p->swp_name); + return -ENODATA; + } + mutex_lock(&ioexp_p->lock); + len = snprintf(buf_p, 8, "%d\n", get_func(ioexp_p, tobj_p->ioexp_virt_offset)); + mutex_unlock(&ioexp_p->lock); + return len; +} + + +static ssize_t +show_attr_present(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_present, + buf_p); +} + + +static ssize_t +show_attr_tx_fault(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_tx_fault, + buf_p); +} + + +static ssize_t +show_attr_rxlos(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_rxlos, + buf_p); +} + + +static ssize_t +show_attr_tx_disable(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_tx_disable, + buf_p); +} + + +static ssize_t +show_attr_reset(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_reset, + buf_p); +} + + +static ssize_t +show_attr_lpmod(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_lpmod, + buf_p); +} + + +static ssize_t +show_attr_modsel(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_modsel, + buf_p); +} + + +static ssize_t +show_attr_hard_rs0(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_hard_rs0, + buf_p); +} + + +static ssize_t +show_attr_hard_rs1(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p){ + return -ENODEV; + } + return _show_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->get_hard_rs1, + buf_p); +} + + +/* ========== Store functions: For I/O Expander (R/W) attribute ========== + */ +static ssize_t +_store_ioexp_binary_attr(struct transvr_obj_s *tobj_p, + int (*set_func)(struct ioexp_obj_s *ioexp_p, + int virt_offset, int input_val), + const char *buf_p, + size_t count) { + + int input, err; + struct ioexp_obj_s *ioexp_p = tobj_p->ioexp_obj_p; + + if (!ioexp_p) { + SWPS_ERR("%s: data corruption! :%s\n", + __func__, tobj_p->swp_name); + return -ENODATA; + } + input = sscanf_2_binary(buf_p); + if (input < 0) { + return -EBFONT; + } + mutex_lock(&ioexp_p->lock); + err = set_func(ioexp_p, tobj_p->ioexp_virt_offset, input); + mutex_unlock(&ioexp_p->lock); + if (err < 0){ + return err; + } + return count; +} + +static ssize_t +store_attr_tx_disable(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p) { + return -ENODEV; + } + return _store_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->set_tx_disable, + buf_p, + count); +} + + +static ssize_t +store_attr_reset(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p) { + return -ENODEV; + } + return _store_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->set_reset, + buf_p, + count); +} + + +static ssize_t +store_attr_lpmod(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p) { + return -ENODEV; + } + return _store_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->set_lpmod, + buf_p, + count); +} + + +static ssize_t +store_attr_modsel(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p) { + return -ENODEV; + } + return _store_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->set_modsel, + buf_p, + count); +} + + +static ssize_t +store_attr_hard_rs0(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p) { + return -ENODEV; + } + return _store_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->set_hard_rs0, + buf_p, + count); +} + + +static ssize_t +store_attr_hard_rs1(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + + struct transvr_obj_s *tobj_p = dev_get_drvdata(dev_p); + if (!tobj_p) { + return -ENODEV; + } + return _store_ioexp_binary_attr(tobj_p, + tobj_p->ioexp_obj_p->set_hard_rs1, + buf_p, + count); +} + + +/* ========== SWPS attribute: For module control ========== + */ +static DEVICE_ATTR(platform, S_IRUGO, show_attr_platform, NULL); +static DEVICE_ATTR(version, S_IRUGO, show_attr_version, NULL); +static DEVICE_ATTR(status, S_IRUGO, show_attr_status, NULL); +static DEVICE_ATTR(reset_i2c, S_IWUSR, NULL, store_attr_reset_i2c); +static DEVICE_ATTR(reset_swps, S_IWUSR, NULL, store_attr_reset_swps); +static DEVICE_ATTR(auto_config, S_IRUGO|S_IWUSR, show_attr_auto_config, store_attr_auto_config); + +/* ========== Transceiver attribute: from eeprom ========== + */ +static DEVICE_ATTR(id, S_IRUGO, show_attr_id, NULL); +static DEVICE_ATTR(ext_id, S_IRUGO, show_attr_ext_id, NULL); +static DEVICE_ATTR(connector, S_IRUGO, show_attr_connector, NULL); +static DEVICE_ATTR(vendor_name, S_IRUGO, show_attr_vendor_name, NULL); +static DEVICE_ATTR(vendor_pn, S_IRUGO, show_attr_vendor_pn, NULL); +static DEVICE_ATTR(vendor_rev, S_IRUGO, show_attr_vendor_rev, NULL); +static DEVICE_ATTR(vendor_sn, S_IRUGO, show_attr_vendor_sn, NULL); +static DEVICE_ATTR(power_cls, S_IRUGO, show_attr_power_cls, NULL); +static DEVICE_ATTR(br, S_IRUGO, show_attr_br, NULL); +static DEVICE_ATTR(len_sm, S_IRUGO, show_attr_len_sm, NULL); +static DEVICE_ATTR(len_smf, S_IRUGO, show_attr_len_smf, NULL); +static DEVICE_ATTR(len_om1, S_IRUGO, show_attr_len_om1, NULL); +static DEVICE_ATTR(len_om2, S_IRUGO, show_attr_len_om2, NULL); +static DEVICE_ATTR(len_om3, S_IRUGO, show_attr_len_om3, NULL); +static DEVICE_ATTR(len_om4, S_IRUGO, show_attr_len_om4, NULL); +static DEVICE_ATTR(comp_rev, S_IRUGO, show_attr_comp_rev, NULL); +static DEVICE_ATTR(comp_eth, S_IRUGO, show_attr_comp_eth, NULL); +static DEVICE_ATTR(comp_eth_10, S_IRUGO, show_attr_comp_eth_10, NULL); +static DEVICE_ATTR(comp_eth_10_40, S_IRUGO, show_attr_comp_eth_10_40, NULL); +static DEVICE_ATTR(comp_extend, S_IRUGO, show_attr_comp_extend, NULL); +static DEVICE_ATTR(rate_id, S_IRUGO, show_attr_rate_id, NULL); +static DEVICE_ATTR(temperature, S_IRUGO, show_attr_temperature, NULL); +static DEVICE_ATTR(voltage, S_IRUGO, show_attr_voltage, NULL); +static DEVICE_ATTR(tx_bias, S_IRUGO, show_attr_tx_bias, NULL); +static DEVICE_ATTR(tx_power, S_IRUGO, show_attr_tx_power, NULL); +static DEVICE_ATTR(rx_power, S_IRUGO, show_attr_rx_power, NULL); +static DEVICE_ATTR(info, S_IRUGO, show_attr_info, NULL); +static DEVICE_ATTR(if_type, S_IRUGO, show_attr_if_type, NULL); +static DEVICE_ATTR(if_speed, S_IRUGO, show_attr_if_speed, NULL); +static DEVICE_ATTR(if_lane, S_IRUGO, show_attr_if_lane, NULL); +static DEVICE_ATTR(soft_rx_los, S_IRUGO, show_attr_soft_rx_los, NULL); +static DEVICE_ATTR(soft_tx_fault, S_IRUGO, show_attr_soft_tx_fault, NULL); +static DEVICE_ATTR(wavelength, S_IRUGO, show_attr_wavelength, NULL); +static DEVICE_ATTR(tx_eq, S_IRUGO|S_IWUSR, show_attr_tx_eq, store_attr_tx_eq); +static DEVICE_ATTR(rx_am, S_IRUGO|S_IWUSR, show_attr_rx_am, store_attr_rx_am); +static DEVICE_ATTR(rx_em, S_IRUGO|S_IWUSR, show_attr_rx_em, store_attr_rx_em); +static DEVICE_ATTR(cdr, S_IRUGO|S_IWUSR, show_attr_cdr, store_attr_cdr); +static DEVICE_ATTR(soft_rs0, S_IRUGO|S_IWUSR, show_attr_soft_rs0, store_attr_soft_rs0); +static DEVICE_ATTR(soft_rs1, S_IRUGO|S_IWUSR, show_attr_soft_rs1, store_attr_soft_rs1); +static DEVICE_ATTR(soft_tx_disable, S_IRUGO|S_IWUSR, show_attr_soft_tx_disable, store_attr_soft_tx_disable); +static DEVICE_ATTR(auto_tx_disable, S_IRUGO|S_IWUSR, show_attr_auto_tx_disable, store_attr_auto_tx_disable); + +/* ========== IO Expander attribute: from expander ========== + */ +static DEVICE_ATTR(present, S_IRUGO, show_attr_present, NULL); +static DEVICE_ATTR(tx_fault, S_IRUGO, show_attr_tx_fault, NULL); +static DEVICE_ATTR(rxlos, S_IRUGO, show_attr_rxlos, NULL); +static DEVICE_ATTR(tx_disable, S_IRUGO|S_IWUSR, show_attr_tx_disable, store_attr_tx_disable); +static DEVICE_ATTR(reset, S_IRUGO|S_IWUSR, show_attr_reset, store_attr_reset); +static DEVICE_ATTR(lpmod, S_IRUGO|S_IWUSR, show_attr_lpmod, store_attr_lpmod); +static DEVICE_ATTR(modsel, S_IRUGO|S_IWUSR, show_attr_modsel, store_attr_modsel); +static DEVICE_ATTR(hard_rs0, S_IRUGO|S_IWUSR, show_attr_hard_rs0, store_attr_hard_rs0); +static DEVICE_ATTR(hard_rs1, S_IRUGO|S_IWUSR, show_attr_hard_rs1, store_attr_hard_rs1); + +/* ========== Functions for module handling ========== + */ +static void +clean_port_obj(void){ + + dev_t dev_num; + char dev_name[32]; + struct device *device_p; + struct transvr_obj_s *transvr_obj_p; + int minor_curr, port_id; + + for (minor_curr=0; minor_curri2c_client_p); + kfree(transvr_obj_p->vendor_name); + kfree(transvr_obj_p->vendor_pn); + kfree(transvr_obj_p->vendor_rev); + kfree(transvr_obj_p->vendor_sn); + kfree(transvr_obj_p->worker_p); + kfree(transvr_obj_p); + } + dev_num = MKDEV(port_major, minor_curr); + device_unregister(device_p); + device_destroy(swp_class_p, dev_num); + } + SWPS_DEBUG("%s: done.\n", __func__); +} + + +static void +clean_swps_common(void){ + + dev_t dev_num; + struct device *device_p; + + device_p = get_swpdev_by_name(SWP_DEV_MODCTL); + if (device_p){ + dev_num = MKDEV(ctl_major, 1); + device_unregister(device_p); + device_destroy(swp_class_p, dev_num); + } + cancel_delayed_work_sync(&swp_polling); + SWPS_DEBUG("%s: done.\n", __func__); +} + + +static int +get_platform_type(void){ + + int i; + int pf_total = ARRAY_SIZE(platform_map); + char log_msg[64] = "ERROR"; + + platform_p = kzalloc(sizeof(struct inv_platform_s), GFP_KERNEL); + if (!platform_p){ + snprintf(log_msg, sizeof(log_msg), "kzalloc fail"); + goto err_get_platform_type_1; + } + memset(platform_p->name, 0, sizeof(platform_p->name)); + + switch (PLATFORM_SETTINGS) { + case PLATFORM_TYPE_AUTO: + snprintf(platform_p->name, (sizeof(platform_p->name) - 1), + "%s", dmi_get_system_info(DMI_BOARD_NAME)); + for (i=0; iname, platform_map[i].name) == 0) { + platform_p->id = platform_map[i].id; + snprintf(log_msg, sizeof(log_msg), + "Auto detect platform: %d (%s)", + platform_p->id, platform_p->name); + goto ok_get_platform_type_1; + } + } + snprintf(log_msg, sizeof(log_msg), + "Auto detect fail! detect platform: %s", + platform_p->name); + goto err_get_platform_type_2; + + case PLATFORM_TYPE_MAGNOLIA: + case PLATFORM_TYPE_MAGNOLIA_FNC: + case PLATFORM_TYPE_REDWOOD: + case PLATFORM_TYPE_REDWOOD_FSL: + case PLATFORM_TYPE_HUDSON32I_GA: + case PLATFORM_TYPE_SPRUCE: + case PLATFORM_TYPE_CYPRESS_GA1: + case PLATFORM_TYPE_CYPRESS_GA2: + case PLATFORM_TYPE_LAVENDER: + platform_p->id = PLATFORM_SETTINGS; + for (i=0; iname, (sizeof(platform_p->name) - 1), + "%s", platform_map[i].name); + snprintf(log_msg, sizeof(log_msg), + "User setup platform: %d (%s)", + platform_p->id, platform_p->name); + goto ok_get_platform_type_1; + } + } + snprintf(log_msg, sizeof(log_msg), + "Internal error, can not map id:%d", + PLATFORM_SETTINGS); + goto err_get_platform_type_2; + + default: + break; + } + snprintf(log_msg, sizeof(log_msg), + "PLATFORM_SETTINGS:%d undefined", PLATFORM_SETTINGS); + goto err_get_platform_type_2; + +ok_get_platform_type_1: + SWPS_DEBUG("%s: %s, :%d\n", __func__, log_msg, PLATFORM_SETTINGS); + return 0; + +err_get_platform_type_2: + kfree(platform_p); +err_get_platform_type_1: + SWPS_ERR("%s: %s :%d\n", __func__, log_msg, PLATFORM_SETTINGS); + return -1; +} + + +static int +get_layout_info(void){ + + switch (platform_p->id) { +#ifdef SWPS_MAGNOLIA + case PLATFORM_TYPE_MAGNOLIA: + case PLATFORM_TYPE_MAGNOLIA_FNC: + gpio_rest_mux = magnolia_gpio_rest_mux; + ioexp_layout = magnolia_ioexp_layout; + port_layout = magnolia_port_layout; + ioexp_total = ARRAY_SIZE(magnolia_ioexp_layout); + port_total = ARRAY_SIZE(magnolia_port_layout); + break; +#endif +#ifdef SWPS_REDWOOD + case PLATFORM_TYPE_REDWOOD: + gpio_rest_mux = redwood_gpio_rest_mux; + ioexp_layout = redwood_ioexp_layout; + port_layout = redwood_port_layout; + ioexp_total = ARRAY_SIZE(redwood_ioexp_layout); + port_total = ARRAY_SIZE(redwood_port_layout); + break; +#endif +#ifdef SWPS_HUDSON32I_GA + case PLATFORM_TYPE_HUDSON32I_GA: + gpio_rest_mux = hudsin32iga_gpio_rest_mux; + ioexp_layout = hudson32iga_ioexp_layout; + port_layout = hudson32iga_port_layout; + ioexp_total = ARRAY_SIZE(hudson32iga_ioexp_layout); + port_total = ARRAY_SIZE(hudson32iga_port_layout); + break; +#endif +#ifdef SWPS_SPRUCE + case PLATFORM_TYPE_SPRUCE: + gpio_rest_mux = spruce_gpio_rest_mux; + ioexp_layout = spruce_ioexp_layout; + port_layout = spruce_port_layout; + ioexp_total = ARRAY_SIZE(spruce_ioexp_layout); + port_total = ARRAY_SIZE(spruce_port_layout); + break; +#endif +#ifdef SWPS_CYPRESS_GA1 + case PLATFORM_TYPE_CYPRESS_GA1: + gpio_rest_mux = cypress_ga1_gpio_rest_mux; + ioexp_layout = cypress_ga1_ioexp_layout; + port_layout = cypress_ga1_port_layout; + ioexp_total = ARRAY_SIZE(cypress_ga1_ioexp_layout); + port_total = ARRAY_SIZE(cypress_ga1_port_layout); + break; +#endif +#ifdef SWPS_CYPRESS_GA2 + case PLATFORM_TYPE_CYPRESS_GA2: + gpio_rest_mux = cypress_ga2_gpio_rest_mux; + ioexp_layout = cypress_ga2_ioexp_layout; + port_layout = cypress_ga2_port_layout; + ioexp_total = ARRAY_SIZE(cypress_ga2_ioexp_layout); + port_total = ARRAY_SIZE(cypress_ga2_port_layout); + break; +#endif +#ifdef SWPS_REDWOOD_FSL + case PLATFORM_TYPE_REDWOOD_FSL: + gpio_rest_mux = redwood_fsl_gpio_rest_mux; + ioexp_layout = redwood_fsl_ioexp_layout; + port_layout = redwood_fsl_port_layout; + ioexp_total = ARRAY_SIZE(redwood_fsl_ioexp_layout); + port_total = ARRAY_SIZE(redwood_fsl_port_layout); + break; +#endif +#ifdef SWPS_LAVENDER + case PLATFORM_TYPE_LAVENDER: + gpio_rest_mux = lavender_gpio_rest_mux; + ioexp_layout = lavender_ioexp_layout; + port_layout = lavender_port_layout; + ioexp_total = ARRAY_SIZE(lavender_ioexp_layout); + port_total = ARRAY_SIZE(lavender_port_layout); + break; +#endif + + default: + SWPS_ERR(" Invalid platform: %d (%s)\n", + platform_p->id, platform_p->name); + return -1; + } + SWPS_INFO("Start to initial platform: %d (%s)\n", + platform_p->id, platform_p->name); + return 0; +} + + +/* ========== Functions for objects operations ========== + */ +static int +__detect_issues_port(int minor_num) { + + struct transvr_obj_s *tobj_p; + int port_id = port_layout[minor_num].port_id; + char port_name[32] = "ERR"; + char *i2c_emsg = "detected bad transceiver/cable"; + + memset(port_name, 0, sizeof(port_name)); + snprintf(port_name, sizeof(port_name), "%s%d", SWP_DEV_PORT, port_id); + tobj_p = _get_transvr_obj(port_name); + if (!tobj_p) { + SWPS_INFO("%s: tobj_p is NULL :%d\n", __func__, minor_num); + return -1; + } + if (resync_channel_tier_2(tobj_p) < 0) { + if (check_channel_tier_1() < 0) { + alarm_msg_2_user(tobj_p, i2c_emsg); + return -2;; + } + } + return 0; +} + + +static int +_detect_issues_port(void) { + /* OK : retrun -1; + * Fail: return fail at which minor number (0~N) + */ + char *emsg = "ERR"; + int minor = 0; + int minor_2st = 1; + + /* Force moving the initial channel pointer + * Filter out case of fail at minor-0 port + */ + while (minor_2st < port_total) { + minor = minor_2st; + if (__detect_issues_port(minor_2st) < 0) { + emsg = "detect minor_2st fail"; + goto err_p_detect_issues_port; + } + minor_2st += 8; + } + /* Scan all port */ + for (minor=0; minor:%d\n", __func__, emsg, minor_err); + return -1; +} + + +static int +check_transvr_obj_one(char *dev_name){ + /* [Return] + * 0 : Doesn't need to take care + * -1 : Single error + * -2 : Critical error (I2C topology die) + * -9 : Internal error + */ + struct transvr_obj_s *tobj_p = NULL; + int retval = -9; + + tobj_p = _get_transvr_obj(dev_name); + if (!tobj_p) { + SWPS_ERR("%s: %s _get_transvr_obj fail\n", + __func__, dev_name); + return -9; + } + /* Check transceiver current status */ + lock_transvr_obj(tobj_p); + retval = tobj_p->check(tobj_p); + unlock_transvr_obj(tobj_p); + switch (retval) { + case 0: + case ERR_TRANSVR_UNPLUGGED: + case ERR_TRNASVR_BE_ISOLATED: + case ERR_TRANSVR_TASK_BUSY: + return 0; + + case ERR_TRANSVR_I2C_CRASH: + default: + break; + } + /* Identify abnormal case */ + if (check_channel_tier_1() < 0) { + SWPS_DEBUG("%s: %s critical error :%d\n", + __func__, dev_name, retval); + return -2; + } + SWPS_DEBUG("%s: %s single error :%d\n", + __func__, dev_name, retval); + return -1; +} + + +static int +check_transvr_objs(void){ + + char dev_name[32]; + int port_id, err_code; + int minor_curr = 0; + + for (minor_curr=0; minor_curr:%d\n", + __func__, dev_name, err_code); + break; + } + } + return 0; + +err_check_transvr_objs: + SWPS_ERR("%s: %s reset_i2c_topology fail.\n", + __func__, dev_name); + return -1; +} + + +static void +swp_polling_worker(struct work_struct *work){ + + /* Reset I2C */ + if (flag_i2c_reset) { + goto polling_reset_i2c; + } + /* Check IOEXP */ + if (check_ioexp_objs() < 0) { + goto polling_reset_i2c; + } + /* Check transceiver */ + if (check_transvr_objs() < 0) { + SWPS_DEBUG("%s: check_transvr_objs fail.\n", __func__); + flag_i2c_reset = 1; + } + goto polling_schedule_round; + +polling_reset_i2c: + SWPS_DEBUG("%s: reset_i2c_topology start.\n", __func__); + if (reset_i2c_topology() < 0) { + SWPS_ERR("%s: reset i2c fail!\n", __func__); + flag_i2c_reset = 1; + } else { + SWPS_DEBUG("%s: reset_i2c_topology OK.\n", __func__); + flag_i2c_reset = 0; + } +polling_schedule_round: + schedule_delayed_work(&swp_polling, _get_polling_period()); +} + + +/* ========== Functions for register something ========== + */ +static int +register_transvr_common_attr(struct device *device_p){ + + char *err_attr = NULL; + + if (device_create_file(device_p, &dev_attr_id) < 0) { + err_attr = "dev_attr_id"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_ext_id) < 0) { + err_attr = "dev_attr_ext_id"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_connector) < 0) { + err_attr = "dev_attr_connector"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_vendor_name) < 0) { + err_attr = "dev_attr_vendor_name"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_vendor_pn) < 0) { + err_attr = "dev_attr_vendor_pn"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_vendor_rev) < 0) { + err_attr = "dev_attr_vendor_rev"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_vendor_sn) < 0) { + err_attr = "dev_attr_vendor_sn"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_br) < 0) { + err_attr = "dev_attr_br"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_len_smf) < 0) { + err_attr = "dev_attr_len_smf"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_len_om1) < 0) { + err_attr = "dev_attr_len_om1"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_len_om2) < 0) { + err_attr = "dev_attr_len_om2"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_len_om3) < 0) { + err_attr = "dev_attr_len_om3"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_len_om4) < 0) { + err_attr = "dev_attr_len_om4"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_comp_extend) < 0) { + err_attr = "dev_attr_comp_extend"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_comp_eth) < 0) { + err_attr = "dev_attr_comp_eth"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_comp_rev) < 0) { + err_attr = "dev_attr_comp_rev"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_info) < 0) { + err_attr = "dev_attr_info"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_if_type) < 0) { + err_attr = "dev_attr_if_type"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_if_speed) < 0) { + err_attr = "dev_attr_if_speed"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_if_lane) < 0) { + err_attr = "dev_attr_if_lane"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_temperature) < 0) { + err_attr = "dev_attr_temperature"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_voltage) < 0) { + err_attr = "dev_attr_voltage"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_tx_bias) < 0) { + err_attr = "dev_attr_tx_bias"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_tx_power) < 0) { + err_attr = "dev_attr_tx_power"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_rx_power) < 0) { + err_attr = "dev_attr_rx_power"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_tx_eq) < 0) { + err_attr = "dev_attr_tx_eq"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_rx_em) < 0) { + err_attr = "dev_attr_rx_em"; + goto err_transvr_comm_attr; + } + if (device_create_file(device_p, &dev_attr_wavelength) < 0) { + err_attr = "dev_attr_wavelength"; + goto err_transvr_comm_attr; + } + return 0; + +err_transvr_comm_attr: + SWPS_ERR("%s: %s\n", __func__, err_attr); + return -1; +} + +static int +register_transvr_sfp_attr(struct device *device_p){ + + char *err_attr = NULL; + + if (register_transvr_common_attr(device_p) < 0) { + err_attr = "register_transvr_common_attr"; + goto err_transvr_sfp_attr; + } + if (device_create_file(device_p, &dev_attr_comp_eth_10) < 0) { + err_attr = "dev_attr_comp_eth_10"; + goto err_transvr_sfp_attr; + } + if (device_create_file(device_p, &dev_attr_len_sm) < 0) { + err_attr = "dev_attr_len_sm"; + goto err_transvr_sfp_attr; + } + if (device_create_file(device_p, &dev_attr_rate_id) < 0) { + err_attr = "dev_attr_rate_id"; + goto err_transvr_sfp_attr; + } + if (device_create_file(device_p, &dev_attr_soft_rs0) < 0) { + err_attr = "dev_attr_soft_rs0"; + goto err_transvr_sfp_attr; + } + if (device_create_file(device_p, &dev_attr_soft_rs1) < 0) { + err_attr = "dev_attr_soft_rs1"; + goto err_transvr_sfp_attr; + } + return 0; + +err_transvr_sfp_attr: + SWPS_ERR("%s: %s\n", __func__, err_attr); + return -1; +} + + +static int +register_transvr_qsfp_attr(struct device *device_p){ + + char *err_attr = NULL; + + if (register_transvr_common_attr(device_p) < 0) { + err_attr = "register_transvr_common_attr"; + goto err_transvr_qsfp_attr; + } + if (device_create_file(device_p, &dev_attr_comp_eth_10_40) < 0) { + err_attr = "dev_attr_comp_eth_10_40"; + goto err_transvr_qsfp_attr; + } + if (device_create_file(device_p, &dev_attr_power_cls) < 0) { + err_attr = "dev_attr_power_cls"; + goto err_transvr_qsfp_attr; + } + if (device_create_file(device_p, &dev_attr_soft_rx_los) < 0) { + err_attr = "soft_rx_los"; + goto err_transvr_qsfp_attr; + } + if (device_create_file(device_p, &dev_attr_soft_tx_disable) < 0) { + err_attr = "soft_tx_disable"; + goto err_transvr_qsfp_attr; + } + if (device_create_file(device_p, &dev_attr_auto_tx_disable) < 0) { + err_attr = "auto_tx_disable"; + goto err_transvr_qsfp_attr; + } + if (device_create_file(device_p, &dev_attr_soft_tx_fault) < 0) { + err_attr = "soft_tx_fault"; + goto err_transvr_qsfp_attr; + } + return 0; + +err_transvr_qsfp_attr: + SWPS_ERR("%s: %s\n", __func__, err_attr); + return -1; +} + + +static int +register_transvr_qsfp28_attr(struct device *device_p){ + + char *err_attr = NULL; + + if (register_transvr_qsfp_attr(device_p) < 0){ + err_attr = "register_transvr_qsfp_attr"; + goto err_transvr_qsfp28_attr; + } + if (device_create_file(device_p, &dev_attr_cdr) < 0) { + err_attr = "dev_attr_cdr"; + goto err_transvr_qsfp28_attr; + } + if (device_create_file(device_p, &dev_attr_rx_am) < 0) { + err_attr = "dev_attr_rx_am"; + goto err_transvr_qsfp28_attr; + } + return 0; + +err_transvr_qsfp28_attr: + SWPS_ERR("%s: %s\n", __func__, err_attr); + return -1; +} + + +static int +register_transvr_attr(struct device *device_p, + struct transvr_obj_s *transvr_obj){ + + switch (transvr_obj->layout){ + case TRANSVR_TYPE_SFP: + if (register_transvr_sfp_attr(device_p) < 0){ + goto err_reg_tvr_attr; + } + break; + case TRANSVR_TYPE_QSFP: + case TRANSVR_TYPE_QSFP_PLUS: + if (register_transvr_qsfp_attr(device_p) < 0){ + goto err_reg_tvr_attr; + } + break; + case TRANSVR_TYPE_QSFP_28: + if (register_transvr_qsfp28_attr(device_p) < 0){ + goto err_reg_tvr_attr; + } + break; + default: + goto err_reg_tvr_attr; + } + return 0; + +err_reg_tvr_attr: + SWPS_ERR("%s: fail! type=%d \n", __func__, transvr_obj->type); + return -1; +} + + +static int +register_ioexp_attr_sfp_1(struct device *device_p){ + /* Support machine type: + * - SFP : Magnolia + */ + char *err_attr = NULL; + + if (device_create_file(device_p, &dev_attr_present) < 0) { + err_attr = "dev_attr_present"; + goto err_ioexp_sfp1_attr; + } + if (device_create_file(device_p, &dev_attr_tx_fault) < 0) { + err_attr = "dev_attr_tx_fault"; + goto err_ioexp_sfp1_attr; + } + if (device_create_file(device_p, &dev_attr_rxlos) < 0) { + err_attr = "dev_attr_rxlos"; + goto err_ioexp_sfp1_attr; + } + if (device_create_file(device_p, &dev_attr_tx_disable) < 0) { + err_attr = "dev_attr_tx_disable"; + goto err_ioexp_sfp1_attr; + } + return 0; + +err_ioexp_sfp1_attr: + SWPS_ERR("Add device attribute:%s failure! \n",err_attr); + return -1; +} + + +static int +register_ioexp_attr_sfp_2(struct device *device_p){ + /* Support machine type: + * - SFP28 : Cypress + */ + char *err_attr = NULL; + + if (register_ioexp_attr_sfp_1(device_p) < 0){ + goto err_ioexp_sfp2_attr; + } + if (device_create_file(device_p, &dev_attr_hard_rs0) < 0) { + err_attr = "dev_attr_hard_rs0"; + goto err_ioexp_sfp2_attr; + } + if (device_create_file(device_p, &dev_attr_hard_rs1) < 0) { + err_attr = "dev_attr_hard_rs1"; + goto err_ioexp_sfp2_attr; + } + return 0; + +err_ioexp_sfp2_attr: + SWPS_ERR("Add device attribute:%s failure! \n",err_attr); + return -1; +} + + +static int +register_ioexp_attr_qsfp_1(struct device *device_p){ + /* Support machine type: + * - QSFP : Magnolia, Redwood, Hudson32i + * - QSFP+ : Magnolia, Redwood, Hudson32i + * - QSFP28: Redwood + */ + char *err_attr = NULL; + + if (device_create_file(device_p, &dev_attr_present) < 0) { + err_attr = "dev_attr_present"; + goto err_ioexp_qsfp1_attr; + } + if (device_create_file(device_p, &dev_attr_reset) < 0) { + err_attr = "dev_attr_reset"; + goto err_ioexp_qsfp1_attr; + } + if (device_create_file(device_p, &dev_attr_lpmod) < 0) { + err_attr = "dev_attr_lpmod"; + goto err_ioexp_qsfp1_attr; + } + if (device_create_file(device_p, &dev_attr_modsel) < 0) { + err_attr = "dev_attr_modsel"; + goto err_ioexp_qsfp1_attr; + } + return 0; + +err_ioexp_qsfp1_attr: + SWPS_ERR("Add device attribute:%s failure! \n",err_attr); + return -1; +} + + +static int +register_modctl_attr(struct device *device_p){ + + char *err_msg = NULL; + + if (device_create_file(device_p, &dev_attr_platform) < 0) { + err_msg = "dev_attr_platform"; + goto err_reg_modctl_attr; + } + if (device_create_file(device_p, &dev_attr_version) < 0) { + err_msg = "dev_attr_version"; + goto err_reg_modctl_attr; + } + if (device_create_file(device_p, &dev_attr_status) < 0) { + err_msg = "dev_attr_status"; + goto err_reg_modctl_attr; + } + if (device_create_file(device_p, &dev_attr_reset_i2c) < 0) { + err_msg = "dev_attr_reset_i2c"; + goto err_reg_modctl_attr; + } + if (device_create_file(device_p, &dev_attr_reset_swps) < 0) { + err_msg = "dev_attr_reset_swps"; + goto err_reg_modctl_attr; + } + if (device_create_file(device_p, &dev_attr_auto_config) < 0) { + err_msg = "dev_attr_auto_config"; + goto err_reg_modctl_attr; + } + return 0; + +err_reg_modctl_attr: + SWPS_ERR("%s: %s\n", __func__, err_msg); + return -1; +} + + +static int +register_ioexp_attr(struct device *device_p, + struct transvr_obj_s *transvr_obj){ + + char *err_msg = "ERR"; + + switch (transvr_obj->ioexp_obj_p->ioexp_type){ + case IOEXP_TYPE_MAGINOLIA_NAB: + if (register_ioexp_attr_sfp_1(device_p) < 0){ + err_msg = "register_ioexp_attr_sfp_1 fail"; + goto err_reg_ioexp_attr; + } + break; + case IOEXP_TYPE_CYPRESS_NABC: + if (register_ioexp_attr_sfp_2(device_p) < 0){ + err_msg = "register_ioexp_attr_sfp_2 fail"; + goto err_reg_ioexp_attr; + } + break; + case IOEXP_TYPE_MAGINOLIA_7AB: + case IOEXP_TYPE_SPRUCE_7AB: + case IOEXP_TYPE_CYPRESS_7ABC: + case IOEXP_TYPE_REDWOOD_P01P08: + case IOEXP_TYPE_REDWOOD_P09P16: + case IOEXP_TYPE_HUDSON32IGA_P01P08: + case IOEXP_TYPE_HUDSON32IGA_P09P16: + case IOEXP_TYPE_LAVENDER_P01P08: + case IOEXP_TYPE_LAVENDER_P09P16: + case IOEXP_TYPE_LAVENDER_P65: + if (register_ioexp_attr_qsfp_1(device_p) < 0){ + err_msg = "register_ioexp_attr_qsfp_1 fail"; + goto err_reg_ioexp_attr; + } + break; + + default: + err_msg = "Unknow type"; + goto err_reg_ioexp_attr; + } + return 0; + +err_reg_ioexp_attr: + SWPS_ERR("%s: %s :%d \n", + __func__, err_msg, transvr_obj->ioexp_obj_p->ioexp_type); + return -1; +} + + +static int +register_modctl_device(void) { + + struct device *device_p = NULL; + int minor_comm = 0; /* Default minor number for common device */ + dev_t dev_num = MKDEV(ctl_major, minor_comm); + char *err_msg = "ERROR"; + + device_p = device_create(swp_class_p, /* struct class *cls */ + NULL, /* struct device *parent */ + dev_num, /* dev_t devt */ + NULL, /* void *private_data */ + SWP_DEV_MODCTL); /* const char *fmt */ + if (IS_ERR(device_p)){ + err_msg = "device_create fail"; + goto err_register_modctl_device_1; + } + if (register_modctl_attr(device_p) < 0) { + err_msg = "register_modctl_attr fail"; + goto err_register_modctl_device_2; + } + return 0; + +err_register_modctl_device_2: + device_unregister(device_p); + device_destroy(swp_class_p, dev_num); +err_register_modctl_device_1: + SWPS_ERR("%s: %s\n", __func__, err_msg); + return -1; +} + + +static int +register_port_device(char *dev_name, + dev_t dev_num, + struct transvr_obj_s *transvr_obj){ + + struct device *device_p = NULL; + device_p = device_create(swp_class_p, /* struct class *cls */ + NULL, /* struct device *parent */ + dev_num, /* dev_t devt */ + transvr_obj, /* void *private_data */ + dev_name); /* const char *fmt */ + if (IS_ERR(device_p)){ + goto err_regswp_create_dev; + } + if (register_transvr_attr(device_p, transvr_obj) < 0){ + goto err_regswp_reg_attr; + } + if (register_ioexp_attr(device_p, transvr_obj) < 0){ + goto err_regswp_reg_attr; + } + return 0; + +err_regswp_reg_attr: + device_unregister(device_p); + device_destroy(swp_class_p, dev_num); +err_regswp_create_dev: + SWPS_ERR("%s fail! :%s\n", __func__, dev_name); + return -1; +} + + +static int +register_swp_module(void){ + + dev_t ctl_devt = 0; + dev_t port_devt = 0; + int dev_total = port_total + 1; /* char_dev for module control */ + + /* Register device number */ + if (alloc_chrdev_region(&ctl_devt, 0, 1, SWP_DEV_MODCTL) < 0){ + SWPS_WARN("Allocate CTL MAJOR failure! \n"); + goto err_register_swp_module_1; + } + if (alloc_chrdev_region(&port_devt, 0, dev_total, SWP_CLS_NAME) < 0){ + SWPS_WARN("Allocate PORT MAJOR failure! \n"); + goto err_register_swp_module_2; + } + ctl_major = MAJOR(ctl_devt); + port_major = MAJOR(port_devt); + + /* Create class object */ + swp_class_p = class_create(THIS_MODULE, SWP_CLS_NAME); + if (IS_ERR(swp_class_p)) { + SWPS_ERR("Create class failure! \n"); + goto err_register_swp_module_3; + } + return 0; + +err_register_swp_module_3: + unregister_chrdev_region(MKDEV(port_major, 0), port_total); +err_register_swp_module_2: + unregister_chrdev_region(MKDEV(ctl_major, 0), 1); +err_register_swp_module_1: + return -1; +} + + +/* ========== Module initial relate ========== + */ +static int +create_ioexp_objs(void) { + + int i, run_mod; + + /* Clean IOEXP object */ + clean_ioexp_objs(); + /* Get running mode */ + run_mod = IOEXP_MODE_DIRECT; + if (SWP_POLLING_ENABLE){ + run_mod = IOEXP_MODE_POLLING; + } + /* Create IOEXP object */ + for(i=0; i devlen_max) { + snprintf(err_msg, sizeof(err_msg), + "SWP_DEV_PORT too long!"); + goto err_initport_create_tranobj; + } + memset(dev_name, 0, sizeof(dev_name)); + snprintf(dev_name, devlen_max, "%s%d", SWP_DEV_PORT, port_id); + /* Create transceiver object */ + ioexp_obj_p = get_ioexp_obj(ioexp_id); + if (!ioexp_obj_p){ + snprintf(err_msg, sizeof(err_msg), + "IOEXP object:%d not exist", ioexp_id); + goto err_initport_create_tranobj; + } + transvr_obj_p = create_transvr_obj(dev_name, chan_id, ioexp_obj_p, + ioexp_virt_offset, transvr_type, + chipset_type, run_mod); + if (!transvr_obj_p){ + snprintf(err_msg, sizeof(err_msg), + "Create transceiver object fail :%s", dev_name); + goto err_initport_create_tranobj; + } + /* Setup Lane_ID mapping */ + i = ARRAY_SIZE(port_layout[minor_curr].lane_id); + j = ARRAY_SIZE(transvr_obj_p->lane_id); + if (i != j) { + snprintf(err_msg, sizeof(err_msg), + "Lane_id size inconsistent %d/%d", i, j); + goto err_initport_reg_device; + } + memcpy(transvr_obj_p->lane_id, port_layout[minor_curr].lane_id, i*sizeof(int)); + /* Create and register device object */ + if (register_port_device(dev_name, MKDEV(port_major, minor_curr), transvr_obj_p) < 0){ + snprintf(err_msg, sizeof(err_msg), + "register_port_device fail"); + goto err_initport_reg_device; + } + /* Setup device_ptr of transvr_obj */ + dev_p = get_swpdev_by_name(dev_name); + if (!dev_p){ + snprintf(err_msg, sizeof(err_msg), + "get_swpdev_by_name fail"); + goto err_initport_reg_device; + } + transvr_obj_p->transvr_dev_p = dev_p; + /* Success */ + ok_count++; + } + SWPS_INFO("%s: initialed %d port-dev",__func__, ok_count); + return 0; + +err_initport_reg_device: + kfree(transvr_obj_p); +err_initport_create_tranobj: + clean_port_obj(); + SWPS_ERR("%s: %s", __func__, err_msg); + SWPS_ERR("Dump: :%d :%d :%d :%d :%d :%d\n", + port_id, chan_id, ioexp_id, ioexp_virt_offset, transvr_type, run_mod); + return -1; +} + + +static int +init_dev_topology(void){ + + int err; + char *emsg = "ERR"; + flag_mod_state = SWP_STATE_NORMAL; + + err = init_ioexp_objs(); + switch(err){ + case 0: /* Normal */ + SWPS_DEBUG("%s: normal case\n", __func__); + break; + + case -1: /* topology error */ + SWPS_DEBUG("%s: detect tier-1 topology initial failure :%d\n", + __func__, err); + /* Reset and isolate */ + err = reset_i2c_topology(); + if (err < 0) { + emsg = "reset i2c topology fail"; + goto err_init_dev_topology; + } + /* Re-initial again */ + err = init_ioexp_objs(); + if (err < 0) { + emsg = "re-init ioexp objects fail"; + goto err_init_dev_topology; + } + break; + + case -2: /* Internal error */ + SWPS_DEBUG("%s: internal error case\n", __func__); + err = -2; + emsg = "internal error"; + goto err_init_dev_topology; + + default: + SWPS_DEBUG("%s: undefined error case\n", __func__); + emsg = "undefined error case"; + goto err_init_dev_topology; + } + SWPS_DEBUG("%s: initial I2C topology success\n", __func__); + return 0; + +err_init_dev_topology: + SWPS_ERR("%s: %s :%d\n", __func__, emsg, err); + return -1; +} + + +static int +init_polling_task(void){ + + if (SWP_POLLING_ENABLE){ + schedule_delayed_work(&swp_polling, _get_polling_period()); + } + return 0; +} + + +static int +init_swps_common(void){ + + char *err_msg = "ERR"; + + auto_config = 0; + if ((SWP_AUTOCONFIG_ENABLE) && (SWP_POLLING_ENABLE)){ + auto_config = 1; + } + if (register_modctl_device() < 0) { + err_msg = "register_modctl_device fail"; + goto err_init_swps_common_1; + } + if (_update_auto_config_2_trnasvr() < 0) { + err_msg = "_update_auto_config_2_trnasvr fail"; + goto err_init_swps_common_1; + } + if (init_polling_task() < 0){ + err_msg = "init_polling_task fail"; + goto err_init_swps_common_1; + } + return 0; + +err_init_swps_common_1: + clean_swps_common(); + SWPS_ERR("%s: %s\n", __func__, err_msg); + return -1; +} + + +static int __init +swp_module_init(void){ + + if (get_platform_type() < 0){ + goto err_init_out; + } + if (get_layout_info() < 0){ + goto err_init_out; + } + if (register_swp_module() < 0){ + goto err_init_out; + } + if (create_ioexp_objs() < 0){ + goto err_init_ioexp; + } + if (create_port_objs() < 0){ + goto err_init_portobj; + } +#if 0 + if (init_mux_gpio(gpio_rest_mux) < 0){ + goto err_init_mux; + } +#endif + if (init_dev_topology() < 0){ + goto err_init_topology; + } + if (init_swps_common() < 0){ + goto err_init_topology; + } + SWPS_INFO("Inventec switch-port module V.%s initial success.\n", SWP_VERSION); + return 0; + + +err_init_topology: + clean_mux_gpio(); +err_init_mux: + clean_port_obj(); +err_init_portobj: + clean_ioexp_objs(); +err_init_ioexp: + class_unregister(swp_class_p); + class_destroy(swp_class_p); + unregister_chrdev_region(MKDEV(ctl_major, 0), 1); + unregister_chrdev_region(MKDEV(port_major, 0), port_total); +err_init_out: + SWPS_ERR("Inventec switch-port module V.%s initial failure.\n", SWP_VERSION); + return -1; +} + + +static void __exit +swp_module_exit(void){ + + clean_swps_common(); + clean_port_obj(); + clean_ioexp_objs(); + clean_mux_gpio(); + class_unregister(swp_class_p); + class_destroy(swp_class_p); + unregister_chrdev_region(MKDEV(ctl_major, 0), 1); + unregister_chrdev_region(MKDEV(port_major, 0), port_total); + SWPS_INFO("Remove Inventec switch-port module success.\n"); +} + + +/* Module information */ +MODULE_AUTHOR(SWP_AUTHOR); +MODULE_DESCRIPTION(SWP_DESC); +MODULE_VERSION(SWP_VERSION); +MODULE_LICENSE(SWP_LICENSE); + +module_init(swp_module_init); +module_exit(swp_module_exit); + + + + + + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_swps.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_swps.h new file mode 100644 index 00000000..3a937f04 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_swps.h @@ -0,0 +1,762 @@ +#ifndef INV_SWPS_H +#define INV_SWPS_H + +#include "transceiver.h" +#include "io_expander.h" +#include "inv_mux.h" + +/* Module settings */ +#define SWP_CLS_NAME "swps" +#define SWP_DEV_PORT "port" +#define SWP_DEV_MODCTL "module" +#define SWP_RESET_PWD "inventec" +#define SWP_POLLING_PERIOD (300) /* msec */ +#define SWP_POLLING_ENABLE (1) +#define SWP_AUTOCONFIG_ENABLE (1) + +/* Module information */ +#define SWP_AUTHOR "Neil " +#define SWP_DESC "Inventec port and transceiver driver" +#define SWP_VERSION "4.2.3" +#define SWP_LICENSE "GPL" + +/* Module status define */ +#define SWP_STATE_NORMAL (0) +#define SWP_STATE_I2C_DIE (-91) + +/* [Note]: + * Functions and mechanism for auto-detect platform type is ready, + * But HW and BIOS not ready! We need to wait them. + * So, please do not use PLATFORM_TYPE_AUTO until they are ready. + * (2016.06.13) + */ +#define PLATFORM_TYPE_AUTO (100) +#define PLATFORM_TYPE_MAGNOLIA (111) +#define PLATFORM_TYPE_MAGNOLIA_FNC (112) +#define PLATFORM_TYPE_REDWOOD (121) +#define PLATFORM_TYPE_REDWOOD_FSL (122) +#define PLATFORM_TYPE_HUDSON32I_GA (131) +#define PLATFORM_TYPE_SPRUCE (141) +#define PLATFORM_TYPE_CYPRESS_GA1 (151) /* Up -> Down */ +#define PLATFORM_TYPE_CYPRESS_GA2 (152) /* Down -> Up */ +#define PLATFORM_TYPE_LAVENDER (161) +/* Current running platfrom */ +#define PLATFORM_SETTINGS PLATFORM_TYPE_LAVENDER + +/* Define platform flag and kernel version */ +#if (PLATFORM_SETTINGS == PLATFORM_TYPE_MAGNOLIA) + #define SWPS_MAGNOLIA (1) + #define SWPS_KERN_VER_BF_3_8 (1) +#elif (PLATFORM_SETTINGS == PLATFORM_TYPE_MAGNOLIA_FNC) + #define SWPS_MAGNOLIA (1) + #define SWPS_KERN_VER_AF_3_10 (1) +#elif (PLATFORM_SETTINGS == PLATFORM_TYPE_REDWOOD) + #define SWPS_REDWOOD (1) + #define SWPS_KERN_VER_BF_3_8 (1) +#elif (PLATFORM_SETTINGS == PLATFORM_TYPE_REDWOOD_FSL) + #define SWPS_REDWOOD_FSL (1) + #define SWPS_KERN_VER_BF_3_8 (1) +#elif (PLATFORM_SETTINGS == PLATFORM_TYPE_HUDSON32I_GA) + #define SWPS_HUDSON32I_GA (1) + #define SWPS_KERN_VER_BF_3_8 (1) +#elif (PLATFORM_SETTINGS == PLATFORM_TYPE_SPRUCE) + #define SWPS_SPRUCE (1) + #define SWPS_KERN_VER_BF_3_8 (1) +#elif (PLATFORM_SETTINGS == PLATFORM_TYPE_CYPRESS_GA1) + #define SWPS_CYPRESS_GA1 (1) + #define SWPS_KERN_VER_BF_3_8 (1) +#elif (PLATFORM_SETTINGS == PLATFORM_TYPE_CYPRESS_GA2) + #define SWPS_CYPRESS_GA2 (1) + #define SWPS_KERN_VER_BF_3_8 (1) +#elif (PLATFORM_SETTINGS == PLATFORM_TYPE_LAVENDER) + #define SWPS_LAVENDER (1) + #define SWPS_KERN_VER_BF_3_8 (1) +#endif + + +struct inv_platform_s { + int id; + char name[64]; +}; + +struct inv_ioexp_layout_s { + int ioexp_id; + int ioexp_type; + struct ioexp_addr_s addr[4]; +}; + +struct inv_port_layout_s { + int port_id; + int chan_id; + int ioexp_id; + int ioexp_offset; + int transvr_type; + int chipset_type; + int lane_id[8]; +}; + + +/* ========================================== + * Inventec Platform Settings + * ========================================== + */ +struct inv_platform_s platform_map[] = { + {PLATFORM_TYPE_AUTO, "Auto-Detect" }, + {PLATFORM_TYPE_MAGNOLIA, "Magnolia" }, + {PLATFORM_TYPE_MAGNOLIA_FNC, "Magnolia_FNC" }, + {PLATFORM_TYPE_REDWOOD, "Redwood" }, + {PLATFORM_TYPE_REDWOOD_FSL, "Redwood_FSL" }, + {PLATFORM_TYPE_HUDSON32I_GA, "Hudson32i" }, + {PLATFORM_TYPE_SPRUCE, "Spruce" }, + {PLATFORM_TYPE_CYPRESS_GA1, "Cypress_GA1" }, + {PLATFORM_TYPE_CYPRESS_GA2, "Cypress_GA2" }, + {PLATFORM_TYPE_LAVENDER, "Lavender" }, +}; + + +/* ========================================== + * Magnolia Layout configuration + * ========================================== + */ +#ifdef SWPS_MAGNOLIA +unsigned magnolia_gpio_rest_mux = MUX_RST_GPIO_48_PAC9548; + +struct inv_ioexp_layout_s magnolia_ioexp_layout[] = { + /* IOEXP_ID / IOEXP_TYPE / { Chan_ID, Chip_addr, Read_offset, Write_offset, config_offset, data_default, conf_default } */ + {0, IOEXP_TYPE_MAGINOLIA_NAB, { {2, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {2, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, }, /* addr[1] = I/O Expander N B */ + }, + {1, IOEXP_TYPE_MAGINOLIA_NAB, { {3, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {3, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, }, /* addr[1] = I/O Expander N B */ + }, + {2, IOEXP_TYPE_MAGINOLIA_NAB, { {4, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {4, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, }, /* addr[1] = I/O Expander N B */ + }, + {3, IOEXP_TYPE_MAGINOLIA_NAB, { {5, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {5, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, }, /* addr[1] = I/O Expander N B */ + }, + {4, IOEXP_TYPE_MAGINOLIA_NAB, { {6, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {6, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, }, /* addr[1] = I/O Expander N B */ + }, + {5, IOEXP_TYPE_MAGINOLIA_NAB, { {7, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {7, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, }, /* addr[1] = I/O Expander N B */ + }, + {6, IOEXP_TYPE_MAGINOLIA_7AB, { {8, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 7 A */ + {8, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xf0, 0x33}, }, }, /* addr[1] = I/O Expander 7 B */ + }, +}; + +struct inv_port_layout_s magnolia_port_layout[] = { + /* Port_ID / Chan_ID / IOEXP_ID / IOEXP_VIRT_OFFSET / TRANSCEIVER_TYPE / BCM_CHIP_TYPE / LANE_ID */ + { 0, 10, 0, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 16} }, + { 1, 11, 0, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 15} }, + { 2, 12, 0, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 14} }, + { 3, 13, 0, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 13} }, + { 4, 14, 0, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 24} }, + { 5, 15, 0, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 23} }, + { 6, 16, 0, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 22} }, + { 7, 17, 0, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 21} }, + { 8, 18, 1, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 28} }, + { 9, 19, 1, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 27} }, + {10, 20, 1, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 26} }, + {11, 21, 1, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 25} }, + {12, 22, 1, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 32} }, + {13, 23, 1, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 31} }, + {14, 24, 1, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 30} }, + {15, 25, 1, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 29} }, + {16, 26, 2, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 48} }, + {17, 27, 2, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 47} }, + {18, 28, 2, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 46} }, + {19, 29, 2, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 45} }, + {20, 30, 2, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 52} }, + {21, 31, 2, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 51} }, + {22, 32, 2, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 50} }, + {23, 33, 2, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 49} }, + {24, 34, 3, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 56} }, + {25, 35, 3, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 55} }, + {26, 36, 3, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 54} }, + {27, 37, 3, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 53} }, + {28, 38, 3, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 60} }, + {29, 39, 3, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 59} }, + {30, 40, 3, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 58} }, + {31, 41, 3, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 57} }, + {32, 42, 4, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 64} }, + {33, 43, 4, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 63} }, + {34, 44, 4, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 62} }, + {35, 45, 4, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 61} }, + {36, 46, 4, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 68} }, + {37, 47, 4, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 67} }, + {38, 48, 4, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 66} }, + {39, 49, 4, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 65} }, + {40, 50, 5, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 72} }, + {41, 51, 5, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 71} }, + {42, 52, 5, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 70} }, + {43, 53, 5, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 69} }, + {44, 54, 5, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 76} }, + {45, 55, 5, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 75} }, + {46, 56, 5, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 74} }, + {47, 57, 5, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TRIDENT_2, { 73} }, + {48, 58, 6, 0, TRANSVR_TYPE_QSFP, BCM_CHIP_TYPE_TRIDENT_2, { 81, 82, 83, 84} }, + {49, 59, 6, 1, TRANSVR_TYPE_QSFP, BCM_CHIP_TYPE_TRIDENT_2, { 77, 78, 79, 80} }, + {50, 60, 6, 2, TRANSVR_TYPE_QSFP, BCM_CHIP_TYPE_TRIDENT_2, { 97, 98, 99,100} }, + {51, 61, 6, 3, TRANSVR_TYPE_QSFP, BCM_CHIP_TYPE_TRIDENT_2, {101,102,103,104} }, + {52, 62, 6, 4, TRANSVR_TYPE_QSFP, BCM_CHIP_TYPE_TRIDENT_2, {105,106,107,108} }, + {53, 63, 6, 5, TRANSVR_TYPE_QSFP, BCM_CHIP_TYPE_TRIDENT_2, {109,110,111,112} }, +}; +#endif + + +/* ========================================== + * Redwood Layout configuration + * ========================================== + */ +#ifdef SWPS_REDWOOD +unsigned redwood_gpio_rest_mux = MUX_RST_GPIO_48_PAC9548; + +struct inv_ioexp_layout_s redwood_ioexp_layout[] = { + /* IOEXP_ID / IOEXP_TYPE / { Chan_ID, Chip_addr, Read_offset, Write_offset, config_offset, data_default, conf_default } */ + {0, IOEXP_TYPE_REDWOOD_P01P08, { {4, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 1-4 A */ + {4, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander 1-4 B */ + {0, 0x25, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 5 B */ + }, + {1, IOEXP_TYPE_REDWOOD_P09P16, { {5, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 1-4 A */ + {5, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander 1-4 B */ + {0, 0x25, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 5 B */ + }, + {2, IOEXP_TYPE_REDWOOD_P01P08, { {2, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 1-4 A */ + {2, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander 1-4 B */ + {0, 0x24, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 5 B */ + }, + {3, IOEXP_TYPE_REDWOOD_P09P16, { {3, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 1-4 A */ + {3, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander 1-4 B */ + {0, 0x24, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 5 B */ + }, +}; + +struct inv_port_layout_s redwood_port_layout[] = { + /* Port_ID / Chan_ID / IOEXP_ID / IOEXP_VIRT_OFFSET / TRANSCEIVER_TYPE / BCM_CHIP_TYPE / LANE_ID */ + { 0, 22, 0, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 1, 2, 3, 4} }, + { 1, 23, 0, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 5, 6, 7, 8} }, + { 2, 24, 0, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 9, 10, 11, 12} }, + { 3, 25, 0, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 13, 14, 15, 16} }, + { 4, 26, 0, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 17, 18, 19, 20} }, + { 5, 27, 0, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 21, 22, 23, 24} }, + { 6, 28, 0, 6, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 25, 26, 27, 28} }, + { 7, 29, 0, 7, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 29, 30, 31, 32} }, + { 8, 30, 1, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 33, 34, 35, 36} }, + { 9, 31, 1, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 37, 38, 39, 40} }, + {10, 32, 1, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 41, 42, 43, 44} }, + {11, 33, 1, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 45, 46, 47, 48} }, + {12, 34, 1, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 49, 50, 51, 52} }, + {13, 35, 1, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 53, 54, 55, 56} }, + {14, 36, 1, 6, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 57, 58, 59, 60} }, + {15, 37, 1, 7, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 61, 62, 63, 64} }, + {16, 6, 2, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 65, 66, 67, 68} }, + {17, 7, 2, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 69, 70, 71, 72} }, + {18, 8, 2, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 73, 74, 75, 76} }, + {19, 9, 2, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 77, 78, 79, 80} }, + {20, 10, 2, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 81, 82, 83, 84} }, + {21, 11, 2, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 85, 86, 87, 88} }, + {22, 12, 2, 6, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 89, 90, 91, 92} }, + {23, 13, 2, 7, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 93, 94, 95, 96} }, + {24, 14, 3, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 97, 98, 99,100} }, + {25, 15, 3, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {101,102,103,104} }, + {26, 16, 3, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {105,106,107,108} }, + {27, 17, 3, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {109,110,111,112} }, + {28, 18, 3, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {113,114,115,116} }, + {29, 19, 3, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {117,118,119,120} }, + {30, 20, 3, 6, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {121,122,123,124} }, + {31, 21, 3, 7, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {125,126,127,128} }, +}; +#endif + + +/* ========================================== + * Hudson32i Layout configuration + * ========================================== + */ +#ifdef SWPS_HUDSON32I_GA +unsigned hudsin32iga_gpio_rest_mux = MUX_RST_GPIO_48_PAC9548; + +struct inv_ioexp_layout_s hudson32iga_ioexp_layout[] = { + /* IOEXP_ID / IOEXP_TYPE / { Chan_ID, Chip_addr, Read_offset, Write_offset, config_offset, data_default, conf_default } */ + {0, IOEXP_TYPE_HUDSON32IGA_P01P08, { {2, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander A */ + {2, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander B */ + {0, 0x24, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 0x24 */ + }, + {1, IOEXP_TYPE_HUDSON32IGA_P09P16, { {3, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander A */ + {3, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander B */ + {0, 0x24, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 0x24 */ + }, + {2, IOEXP_TYPE_HUDSON32IGA_P01P08, { {4, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander A */ + {4, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander B */ + {0, 0x25, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 0x25 */ + }, + {3, IOEXP_TYPE_HUDSON32IGA_P09P16, { {5, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander A */ + {5, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander B */ + {0, 0x25, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 0x25 */ + }, +}; + +struct inv_port_layout_s hudson32iga_port_layout[] = { + /* Port_ID / Chan_ID / IOEXP_ID / IOEXP_VIRT_OFFSET / TRANSCEIVER_TYPE / BCM_CHIP_TYPE / LANE_ID */ + { 0, 6, 0, 0, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 1, 2, 3, 4} }, + { 1, 7, 0, 1, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 5, 6, 7, 8} }, + { 2, 8, 0, 2, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 9, 10, 11, 12} }, + { 3, 9, 0, 3, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 13, 14, 15, 16} }, + { 4, 10, 0, 4, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 17, 18, 19, 20} }, + { 5, 11, 0, 5, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 21, 22, 23, 24} }, + { 6, 12, 0, 6, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 25, 26, 27, 28} }, + { 7, 13, 0, 7, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 29, 30, 31, 32} }, + { 8, 14, 1, 0, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 33, 34, 35, 36} }, + { 9, 15, 1, 1, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 37, 38, 39, 40} }, + {10, 16, 1, 2, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 41, 42, 43, 44} }, + {11, 17, 1, 3, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 45, 46, 47, 48} }, + {12, 18, 1, 4, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 49, 50, 51, 52} }, + {13, 19, 1, 5, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 53, 54, 55, 56} }, + {14, 20, 1, 6, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 57, 58, 59, 60} }, + {15, 21, 1, 7, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 61, 62, 63, 64} }, + {16, 22, 2, 0, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 65, 66, 67, 68} }, + {17, 23, 2, 1, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 69, 70, 71, 72} }, + {18, 24, 2, 2, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 73, 74, 75, 76} }, + {19, 25, 2, 3, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 77, 78, 79, 80} }, + {20, 26, 2, 4, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 81, 82, 83, 84} }, + {21, 27, 2, 5, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 85, 86, 87, 88} }, + {22, 28, 2, 6, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 89, 90, 91, 92} }, + {23, 29, 2, 7, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 93, 94, 95, 96} }, + {24, 30, 3, 0, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 97, 98, 99,100} }, + {25, 31, 3, 1, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {101,102,103,104} }, + {26, 32, 3, 2, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {105,106,107,108} }, + {27, 33, 3, 3, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {109,110,111,112} }, + {28, 34, 3, 4, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {113,114,115,116} }, + {29, 35, 3, 5, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {117,118,119,120} }, + {30, 36, 3, 6, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {121,122,123,124} }, + {31, 37, 3, 7, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {125,126,127,128} }, +}; +#endif + + +/* ========================================== + * Spruce Layout configuration + * ========================================== + */ +#ifdef SWPS_SPRUCE +unsigned spruce_gpio_rest_mux = MUX_RST_GPIO_48_PAC9548; + +struct inv_ioexp_layout_s spruce_ioexp_layout[] = { + /* IOEXP_ID / IOEXP_TYPE / { Chan_ID, Chip_addr, Read_offset, Write_offset, config_offset, data_default, conf_default } */ + {0, IOEXP_TYPE_SPRUCE_7AB, { {2, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 7A */ + {2, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xf0, 0x33}, }, }, /* addr[2] = I/O Expander 7B */ + }, +}; + +struct inv_port_layout_s spruce_port_layout[] = { + /* Port_ID / Chan_ID / IOEXP_ID / IOEXP_VIRT_OFFSET / TRANSCEIVER_TYPE / BCM_CHIP_TYPE / LANE_ID */ + { 0, 6, 0, 0, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 81, 82, 83, 84} }, + { 1, 7, 0, 1, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 77, 78, 79, 80} }, + { 2, 8, 0, 2, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, { 97, 98, 99,100} }, + { 3, 9, 0, 3, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {101,102,103,104} }, + { 4, 10, 0, 4, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {105,106,107,108} }, + { 5, 11, 0, 5, TRANSVR_TYPE_QSFP_PLUS, BCM_CHIP_TYPE_TRIDENT_2, {109,110,111,112} }, +}; +#endif + + +/* ========================================== + * Cypress Layout configuration (Inventec version [Up->Down]) + * ========================================== + */ +#ifdef SWPS_CYPRESS_GA1 +unsigned cypress_ga1_gpio_rest_mux = MUX_RST_GPIO_69_PAC9548; + +struct inv_ioexp_layout_s cypress_ga1_ioexp_layout[] = { + /* IOEXP_ID / IOEXP_TYPE / { Chan_ID, Chip_addr, Read_offset, Write_offset, config_offset, data_default, conf_default } */ + {0, IOEXP_TYPE_CYPRESS_NABC, { {2, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {2, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {2, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {1, IOEXP_TYPE_CYPRESS_NABC, { {3, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {3, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {3, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {2, IOEXP_TYPE_CYPRESS_NABC, { {4, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {4, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {4, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {3, IOEXP_TYPE_CYPRESS_NABC, { {5, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {5, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {5, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {4, IOEXP_TYPE_CYPRESS_NABC, { {6, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {6, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {6, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {5, IOEXP_TYPE_CYPRESS_NABC, { {7, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {7, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {7, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {6, IOEXP_TYPE_CYPRESS_7ABC, { {8, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xc0, 0xc0}, }, /* addr[0] = I/O Expander 7 A */ + {8, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xc0, 0xc0}, {0xff, 0xc0}, }, /* addr[1] = I/O Expander 7 B */ + {8, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 7 C */ + }, +}; + +struct inv_port_layout_s cypress_ga1_port_layout[] = { + /* Port_ID / Chan_ID / IOEXP_ID / IOEXP_VIRT_OFFSET / TRANSCEIVER_TYPE / BCM_CHIP_TYPE / LANE_ID */ + { 0, 10, 0, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 1} }, + { 1, 11, 0, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 2} }, + { 2, 12, 0, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 3} }, + { 3, 13, 0, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 4} }, + { 4, 14, 0, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 5} }, + { 5, 15, 0, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 6} }, + { 6, 16, 0, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 7} }, + { 7, 17, 0, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 8} }, + { 8, 18, 1, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 9} }, + { 9, 19, 1, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 10} }, + {10, 20, 1, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 11} }, + {11, 21, 1, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 12} }, + {12, 22, 1, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 21} }, + {13, 23, 1, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 22} }, + {14, 24, 1, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 23} }, + {15, 25, 1, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 24} }, + {16, 26, 2, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 33} }, + {17, 27, 2, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 34} }, + {18, 28, 2, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 35} }, + {19, 29, 2, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 36} }, + {20, 30, 2, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 37} }, + {21, 31, 2, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 38} }, + {22, 32, 2, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 39} }, + {23, 33, 2, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 40} }, + {24, 34, 3, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 41} }, + {25, 35, 3, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 42} }, + {26, 36, 3, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 43} }, + {27, 37, 3, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 44} }, + {28, 38, 3, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 49} }, + {29, 39, 3, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 50} }, + {30, 40, 3, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 51} }, + {31, 41, 3, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 52} }, + {32, 42, 4, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 53} }, + {33, 43, 4, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 54} }, + {34, 44, 4, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 55} }, + {35, 45, 4, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 56} }, + {36, 46, 4, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 65} }, + {37, 47, 4, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 66} }, + {38, 48, 4, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 67} }, + {39, 49, 4, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 68} }, + {40, 50, 5, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 69} }, + {41, 51, 5, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 70} }, + {42, 52, 5, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 71} }, + {43, 53, 5, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 72} }, + {44, 54, 5, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 81} }, + {45, 55, 5, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 82} }, + {46, 56, 5, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 83} }, + {47, 57, 5, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 84} }, + {48, 58, 6, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 97, 98, 99,100} }, + {49, 59, 6, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 85, 86, 87, 88} }, + {50, 60, 6, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {101,102,103,104} }, + {51, 61, 6, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {105,106,107,108} }, + {52, 62, 6, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {109,110,111,112} }, + {53, 63, 6, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {117,118,119,120} }, +}; +#endif + + +/* ========================================== + * Cypress Layout configuration (Inventec version [Down->Up]) + * ========================================== + */ +#ifdef SWPS_CYPRESS_GA2 +unsigned cypress_ga2_gpio_rest_mux = MUX_RST_GPIO_FORCE_HEDERA; + +struct inv_ioexp_layout_s cypress_ga2_ioexp_layout[] = { + /* IOEXP_ID / IOEXP_TYPE / { Chan_ID, Chip_addr, Read_offset, Write_offset, config_offset, data_default, conf_default } */ + {0, IOEXP_TYPE_CYPRESS_NABC, { {2, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {2, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {2, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {1, IOEXP_TYPE_CYPRESS_NABC, { {3, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {3, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {3, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {2, IOEXP_TYPE_CYPRESS_NABC, { {4, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {4, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {4, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {3, IOEXP_TYPE_CYPRESS_NABC, { {5, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {5, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {5, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {4, IOEXP_TYPE_CYPRESS_NABC, { {6, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {6, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {6, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {5, IOEXP_TYPE_CYPRESS_NABC, { {7, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[0] = I/O Expander N A */ + {7, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xf0}, {0xff, 0xf0}, }, /* addr[1] = I/O Expander N B */ + {7, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0x00, 0x00}, }, }, /* addr[2] = I/O Expander N C */ + }, + {6, IOEXP_TYPE_CYPRESS_7ABC, { {8, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xc0, 0xc0}, }, /* addr[0] = I/O Expander 7 A */ + {8, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xc0, 0xc0}, {0xff, 0xc0}, }, /* addr[1] = I/O Expander 7 B */ + {8, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 7 C */ + }, +}; + +struct inv_port_layout_s cypress_ga2_port_layout[] = { + /* Port_ID / Chan_ID / IOEXP_ID / IOEXP_VIRT_OFFSET / TRANSCEIVER_TYPE / BCM_CHIP_TYPE / LANE_ID */ + { 0, 11, 0, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 2} }, + { 1, 10, 0, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 1} }, + { 2, 13, 0, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 4} }, + { 3, 12, 0, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 3} }, + { 4, 15, 0, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 6} }, + { 5, 14, 0, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 5} }, + { 6, 17, 0, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 8} }, + { 7, 16, 0, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 7} }, + { 8, 19, 1, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 10} }, + { 9, 18, 1, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 9} }, + {10, 21, 1, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 12} }, + {11, 20, 1, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 11} }, + {12, 23, 1, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 22} }, + {13, 22, 1, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 21} }, + {14, 25, 1, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 24} }, + {15, 24, 1, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 23} }, + {16, 27, 2, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 34} }, + {17, 26, 2, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 33} }, + {18, 29, 2, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 36} }, + {19, 28, 2, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 35} }, + {20, 31, 2, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 38} }, + {21, 30, 2, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 37} }, + {22, 33, 2, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 40} }, + {23, 32, 2, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 39} }, + {24, 35, 3, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 42} }, + {25, 34, 3, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 41} }, + {26, 37, 3, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 44} }, + {27, 36, 3, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 43} }, + {28, 39, 3, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 50} }, + {29, 38, 3, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 49} }, + {30, 41, 3, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 52} }, + {31, 40, 3, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 51} }, + {32, 43, 4, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 54} }, + {33, 42, 4, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 53} }, + {34, 45, 4, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 56} }, + {35, 44, 4, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 55} }, + {36, 47, 4, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 66} }, + {37, 46, 4, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 65} }, + {38, 49, 4, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 68} }, + {39, 48, 4, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 67} }, + {40, 51, 5, 1, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 70} }, + {41, 50, 5, 0, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 69} }, + {42, 53, 5, 3, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 72} }, + {43, 52, 5, 2, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 71} }, + {44, 55, 5, 5, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 82} }, + {45, 54, 5, 4, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 81} }, + {46, 57, 5, 7, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 84} }, + {47, 56, 5, 6, TRANSVR_TYPE_SFP, BCM_CHIP_TYPE_TOMAHAWK, { 83} }, + {48, 59, 6, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 85, 86, 87, 88} }, + {49, 58, 6, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 97, 98, 99,100} }, + {50, 61, 6, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {105,106,107,108} }, + {51, 60, 6, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {101,102,103,104} }, + {52, 63, 6, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {117,118,119,120} }, + {53, 62, 6, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {109,110,111,112} }, +}; +#endif + + + +/* ========================================== + * Redwood_fsl Layout configuration + * ========================================== + */ +#ifdef SWPS_REDWOOD_FSL +unsigned redwood_fsl_gpio_rest_mux = MUX_RST_GPIO_48_PAC9548; + +struct inv_ioexp_layout_s redwood_fsl_ioexp_layout[] = { + /* IOEXP_ID / IOEXP_TYPE / { Chan_ID, Chip_addr, Read_offset, Write_offset, config_offset, data_default, conf_default } */ + {0, IOEXP_TYPE_REDWOOD_P01P08, { {4, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 1-4 A */ + {4, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander 1-4 B */ + {0, 0x25, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 5 B */ + }, + {1, IOEXP_TYPE_REDWOOD_P09P16, { {5, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 1-4 A */ + {5, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander 1-4 B */ + {0, 0x25, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 5 B */ + }, + {2, IOEXP_TYPE_REDWOOD_P01P08, { {2, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 1-4 A */ + {2, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander 1-4 B */ + {0, 0x24, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 5 B */ + }, + {3, IOEXP_TYPE_REDWOOD_P09P16, { {3, 0x20, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[0] = I/O Expander 1-4 A */ + {3, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0x0f}, }, /* addr[1] = I/O Expander 1-4 B */ + {0, 0x24, {0, 1}, {2, 3}, {6, 7}, {0xff, 0xff}, {0xff, 0xff}, }, }, /* addr[2] = I/O Expander 5 B */ + }, +}; + + +struct inv_port_layout_s redwood_fsl_port_layout[] = { + /* Port_ID / Chan_ID / IOEXP_ID / IOEXP_VIRT_OFFSET / TRANSCEIVER_TYPE / BCM_CHIP_TYPE / LANE_ID */ + { 0, 22, 0, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 1, 2, 3, 4} }, + { 1, 23, 0, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 5, 6, 7, 8} }, + { 2, 24, 0, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 9, 10, 11, 12} }, + { 3, 25, 0, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 13, 14, 15, 16} }, + { 4, 26, 0, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 17, 18, 19, 20} }, + { 5, 27, 0, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 21, 22, 23, 24} }, + { 6, 28, 0, 6, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 25, 26, 27, 28} }, + { 7, 29, 0, 7, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 29, 30, 31, 32} }, + { 8, 30, 1, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 33, 34, 35, 36} }, + { 9, 31, 1, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 37, 38, 39, 40} }, + {10, 32, 1, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 41, 42, 43, 44} }, + {11, 33, 1, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 45, 46, 47, 48} }, + {12, 34, 1, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 49, 50, 51, 52} }, + {13, 35, 1, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 53, 54, 55, 56} }, + {14, 36, 1, 6, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 57, 58, 59, 60} }, + {15, 37, 1, 7, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 61, 62, 63, 64} }, + {16, 6, 2, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 65, 66, 67, 68} }, + {17, 7, 2, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 69, 70, 71, 72} }, + {18, 8, 2, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 73, 74, 75, 76} }, + {19, 9, 2, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 77, 78, 79, 80} }, + {20, 10, 2, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 81, 82, 83, 84} }, + {21, 11, 2, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 85, 86, 87, 88} }, + {22, 12, 2, 6, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 89, 90, 91, 92} }, + {23, 13, 2, 7, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 93, 94, 95, 96} }, + {24, 14, 3, 0, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, { 97, 98, 99,100} }, + {25, 15, 3, 1, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {101,102,103,104} }, + {26, 16, 3, 2, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {105,106,107,108} }, + {27, 17, 3, 3, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {109,110,111,112} }, + {28, 18, 3, 4, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {113,114,115,116} }, + {29, 19, 3, 5, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {117,118,119,120} }, + {30, 20, 3, 6, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {121,122,123,124} }, + {31, 21, 3, 7, TRANSVR_TYPE_QSFP_28, BCM_CHIP_TYPE_TOMAHAWK, {125,126,127,128} }, +}; +#endif + + +/* ========================================== + * Lavender Layout configuration + * ========================================== + */ +#ifdef SWPS_LAVENDER +unsigned lavender_gpio_rest_mux = MUX_RST_GPIO_69_PAC9548; + +struct inv_ioexp_layout_s lavender_ioexp_layout[] = { + /* IOEXP_ID / IOEXP_TYPE / { Chan_ID, Chip_addr, Read_offset, Write_offset, config_offset, data_default, conf_default } */ + {0, IOEXP_TYPE_LAVENDER_P01P08, { {1, 0x20, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0x00, 0x00}, }, /* addr[0] = I/O Expander 1-4 A */ + {1, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0xff}, }, /* addr[1] = I/O Expander 1-4 B */ + {1, 0x22, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0xff, 0xff}, }, /* addr[2] = I/O Expander 1-4 C */ + }, + }, + {1, IOEXP_TYPE_LAVENDER_P09P16, { {2, 0x20, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0x00, 0x00}, }, /* addr[0] = I/O Expander 1-4 A */ + {2, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0xff}, }, /* addr[1] = I/O Expander 1-4 B */ + {2, 0x22, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0xff, 0xff}, }, /* addr[2] = I/O Expander 1-4 C */ + }, + }, + {2, IOEXP_TYPE_LAVENDER_P01P08, { {3, 0x20, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0x00, 0x00}, }, /* addr[0] = I/O Expander 1-4 A */ + {3, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0xff}, }, /* addr[1] = I/O Expander 1-4 B */ + {3, 0x22, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0xff, 0xff}, }, /* addr[2] = I/O Expander 1-4 C */ + }, + }, + {3, IOEXP_TYPE_LAVENDER_P09P16, { {4, 0x20, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0x00, 0x00}, }, /* addr[0] = I/O Expander 1-4 A */ + {4, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0xff}, }, /* addr[1] = I/O Expander 1-4 B */ + {4, 0x22, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0xff, 0xff}, }, /* addr[2] = I/O Expander 1-4 C */ + }, + }, + {4, IOEXP_TYPE_LAVENDER_P01P08, { {9, 0x20, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0x00, 0x00}, }, /* addr[0] = I/O Expander 1-4 A */ + {9, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0xff}, }, /* addr[1] = I/O Expander 1-4 B */ + {9, 0x22, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0xff, 0xff}, }, /* addr[2] = I/O Expander 1-4 C */ + }, + }, + {5, IOEXP_TYPE_LAVENDER_P09P16, { {10, 0x20, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0x00, 0x00}, }, /* addr[0] = I/O Expander 1-4 A */ + {10, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0xff}, }, /* addr[1] = I/O Expander 1-4 B */ + {10, 0x22, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0xff, 0xff}, }, /* addr[2] = I/O Expander 1-4 C */ + }, + }, + {6, IOEXP_TYPE_LAVENDER_P01P08, { {11, 0x20, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0x00, 0x00}, }, /* addr[0] = I/O Expander 1-4 A */ + {11, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0xff}, }, /* addr[1] = I/O Expander 1-4 B */ + {11, 0x22, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0xff, 0xff}, }, /* addr[2] = I/O Expander 1-4 C */ + }, + }, + {7, IOEXP_TYPE_LAVENDER_P09P16, { {12, 0x20, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0x00, 0x00}, }, /* addr[0] = I/O Expander 1-4 A */ + {12, 0x21, {0, 1}, {2, 3}, {6, 7}, {0xff, 0x00}, {0x00, 0xff}, }, /* addr[1] = I/O Expander 1-4 B */ + {12, 0x22, {0, 1}, {2, 3}, {6, 7}, {0x00, 0xff}, {0xff, 0xff}, }, /* addr[2] = I/O Expander 1-4 C */ + }, + }, + {8, IOEXP_TYPE_LAVENDER_P65, { {5, 0x22, {0, 1}, {2, 3}, {6, 7}, {0xf6, 0xff}, {0xf8, 0xff}, }, /* addr[0] = I/O Expander */ + }, + }, +}; + +struct inv_port_layout_s lavender_port_layout[] = { + /* Port_ID / Chan_ID / IOEXP_ID / IOEXP_VIRT_OFFSET / TRANSCEIVER_TYPE / BCM_CHIP_TYPE / LANE_ID */ + { 0, 17, 0, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 1, 2, 3, 4} }, + { 1, 18, 0, 1, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 5, 6, 7, 8} }, + { 2, 19, 0, 2, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 9, 10, 11, 12} }, + { 3, 20, 0, 3, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 13, 14, 15, 16} }, + { 4, 21, 0, 4, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 17, 18, 19, 20} }, + { 5, 22, 0, 5, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 21, 22, 23, 24} }, + { 6, 23, 0, 6, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 25, 26, 27, 28} }, + { 7, 24, 0, 7, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 29, 30, 31, 32} }, + { 8, 25, 1, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 33, 34, 35, 36} }, + { 9, 26, 1, 1, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 37, 38, 39, 40} }, + {10, 27, 1, 2, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 41, 42, 43, 44} }, + {11, 28, 1, 3, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 45, 46, 47, 48} }, + {12, 29, 1, 4, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 49, 50, 51, 52} }, + {13, 30, 1, 5, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 53, 54, 55, 56} }, + {14, 31, 1, 6, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 57, 58, 59, 60} }, + {15, 32, 1, 7, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 61, 62, 63, 64} }, + {16, 33, 2, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 65, 66, 67, 68} }, + {17, 34, 2, 1, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 69, 70, 71, 72} }, + {18, 35, 2, 2, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 73, 74, 75, 76} }, + {19, 36, 2, 3, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 77, 78, 79, 80} }, + {20, 37, 2, 4, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 81, 82, 83, 84} }, + {21, 38, 2, 5, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 85, 86, 87, 88} }, + {22, 39, 2, 6, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 89, 90, 91, 92} }, + {23, 40, 2, 7, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 93, 94, 95, 96} }, + {24, 41, 3, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, { 97, 98, 99,100} }, + {25, 42, 3, 1, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {101,102,103,104} }, + {26, 43, 3, 2, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {105,106,107,108} }, + {27, 44, 3, 3, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {109,110,111,112} }, + {28, 45, 3, 4, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {113,114,115,116} }, + {29, 46, 3, 5, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {117,118,119,120} }, + {30, 47, 3, 6, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {121,122,123,124} }, + {31, 48, 3, 7, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {125,126,127,128} }, + + {32, 49, 4, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {129,130,131,132} }, + {33, 50, 4, 1, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {133,134,135,136} }, + {34, 51, 4, 2, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {137,138,139,140} }, + {35, 52, 4, 3, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {141,142,143,144} }, + {36, 53, 4, 4, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {145,146,147,148} }, + {37, 54, 4, 5, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {149,150,151,152} }, + {38, 55, 4, 6, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {153,154,155,156} }, + {39, 56, 4, 7, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {157,158,159,160} }, + + {40, 57, 5, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {161,162,163,164} }, + {41, 58, 5, 1, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {165,166,167,168} }, + {42, 59, 5, 2, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {169,170,171,172} }, + {43, 60, 5, 3, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {173,174,175,176} }, + {44, 61, 5, 4, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {177,178,179,180} }, + {45, 62, 5, 5, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {181,182,183,184} }, + {46, 63, 5, 6, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {185,186,187,188} }, + {47, 64, 5, 7, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {189,190,191,192} }, + + {48, 65, 6, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {193,194,195,196} }, + {49, 66, 6, 1, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {197,198,199,200} }, + {50, 67, 6, 2, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {201,202,203,204} }, + {51, 68, 6, 3, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {205,206,207,208} }, + {52, 69, 6, 4, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {209,210,211,212} }, + {53, 70, 6, 5, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {213,214,215,216} }, + {54, 71, 6, 6, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {217,218,219,220} }, + {55, 72, 6, 7, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {221,222,223,224} }, + + {56, 73, 7, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {225,226,227,228} }, + {57, 74, 7, 1, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {229,230,231,232} }, + {58, 75, 7, 2, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {233,234,235,236} }, + {59, 76, 7, 3, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {237,238,239,240} }, + {60, 77, 7, 4, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {241,242,243,244} }, + {61, 78, 7, 5, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {245,246,247,248} }, + {62, 79, 7, 6, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {249,250,251,252} }, + {63, 80, 7, 7, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {253,254,255,256} }, + {64, 5, 8, 0, TRANSVR_TYPE_QSFP_28, CHIP_TYPE_D5264Q28B, {257,258,259,260} }, +}; +#endif + + +#endif /* INV_SWPS_H */ + + + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_vpd.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_vpd.c new file mode 100644 index 00000000..b6d755e1 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_vpd.c @@ -0,0 +1,338 @@ +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "inv_vpd.h" +#include "onie_tlvinfo.h" + +static int vpd_major; +static struct class *vpd_class_p = NULL; +static char cEeprom[SYS_EEPROM_MAX_SIZE]; +static DEFINE_MUTEX(vpd_mutex); + +static int +__swp_match(struct device *dev, +#ifdef VPD_KERN_VER_AF_3_10 + + const void *data){ +#else + void *data){ +#endif + + char *name = (char *)data; + if (strcmp(dev_name(dev), name) == 0) + return 1; + return 0; +} + +static +int get_vpd_data(struct i2c_client *pi2c_client, int i_offset, char *c_buf) +{ + int iRet; + + read_eeprom( pi2c_client, cEeprom); + iRet = tlvinfo_decode_tlv(cEeprom, i_offset,c_buf); + return iRet; +} + +static +int write_vpd_data(struct i2c_client *pi2c_client, int i_offset, char *c_buf) +{ + int iErr = 0; + + if (read_eeprom(pi2c_client, cEeprom)) { + printk(KERN_ERR "write vpd data eror at %d-%s\n", __LINE__, __FUNCTION__); + return -1; + } + + if (tlvinfo_delete_tlv(cEeprom, i_offset) == TRUE) { + } + if (c_buf) { + if(!tlvinfo_add_tlv(cEeprom, i_offset , c_buf)) { + printk(KERN_ERR "write vpd data eror at %d-%s\n", __LINE__, __FUNCTION__); + iErr = -1; + } else { + iErr = prog_eeprom(pi2c_client,cEeprom); + } + } + return iErr; +} + +static struct device * +get_swpdev_by_name(char *name){ + struct device *dev = class_find_device(vpd_class_p, + NULL, + name, + __swp_match); + return dev; +} + +static ssize_t +store_attr_vpd(struct device *dev_p, + struct device_attribute *attr_p, + const char *buf_p, + size_t count){ + struct i2c_client *pi2c_client = dev_get_drvdata(dev_p); + struct vpd_device_attribute *attr = to_vpd_dev_attr(attr_p); + int iOffset = attr->index; + int iErr , iLen; + char *pChar; + + if (!pi2c_client){ + return -ENODEV; + } + mutex_lock(&vpd_mutex); + + //-strip 0x0a in the last byte. + for (iLen = 0, pChar = buf_p; + iLen < 255 && *pChar != 0; + iLen++, pChar++) ; + if (iLen !=0 && *pChar == 0 && *(pChar-1) == 0x0a) + *(pChar - 1) = 0; + //- + + iErr = write_vpd_data( pi2c_client, iOffset, buf_p); + + mutex_unlock(&vpd_mutex); + return count; +} + +static ssize_t +show_attr_vpd(struct device *dev_p, + struct device_attribute *attr_p, + char *buf_p){ + + struct i2c_client *pi2c_client = dev_get_drvdata(dev_p); + struct vpd_device_attribute *attr = to_vpd_dev_attr(attr_p); + int iOffset = attr->index; + int iErr , iLen; + + if (!pi2c_client){ + return -ENODEV; + } + mutex_lock(&vpd_mutex); + iErr = get_vpd_data( pi2c_client, iOffset, buf_p); + mutex_unlock(&vpd_mutex); + + if( iErr <= 0 ) + iLen = 0; + else + iLen = snprintf(buf_p, TLV_DECODE_VALUE_MAX_LEN, "%s\n", buf_p); + + return iLen; +} + +/* ================= Vpd attribute ======================== + */ +static VPD_DEVICE_ATTR(product_name ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_PRODUCT_NAME ); +static VPD_DEVICE_ATTR(pn ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_PART_NUMBER ); +static VPD_DEVICE_ATTR(sn ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_SERIAL_NUMBER ); +static VPD_DEVICE_ATTR(base_mac_addr,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_MAC_BASE ); +static VPD_DEVICE_ATTR(man_date ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_MANUF_DATE ); +static VPD_DEVICE_ATTR(dev_ver ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_DEVICE_VERSION ); +static VPD_DEVICE_ATTR(label_rev ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_LABEL_REVISION ); +static VPD_DEVICE_ATTR(plat_name ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_PLATFORM_NAME ); +static VPD_DEVICE_ATTR(ldr_ver ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_ONIE_VERSION ); +static VPD_DEVICE_ATTR(mac_addr ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_MAC_SIZE ); +static VPD_DEVICE_ATTR(manufacturer ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_MANUF_NAME ); +static VPD_DEVICE_ATTR(country_code ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_MANUF_COUNTRY ); +static VPD_DEVICE_ATTR(vendor_name ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_VENDOR_NAME ); +static VPD_DEVICE_ATTR(diag_ver ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_DIAG_VERSION ); +static VPD_DEVICE_ATTR(service_tag ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_SERVICE_TAG ); +static VPD_DEVICE_ATTR(vendor_ext ,S_IWUSR|S_IRUGO, show_attr_vpd, store_attr_vpd, TLV_CODE_VENDOR_EXT ); +static VPD_DEVICE_ATTR(crc32 ,S_IRUGO, show_attr_vpd, NULL, TLV_CODE_CRC_32 ); + +static void +clean_vpd_common(void) +{ + dev_t dev_num; + struct device *device_p; + + device_p = get_swpdev_by_name(VPD_DEVICE); + if (device_p){ + dev_num = MKDEV(vpd_major, 1); + device_unregister(device_p); + device_destroy(vpd_class_p, dev_num); + } + VPD_DEBUG("%s: done.\n", __func__); +} + + +static struct register_attr VpdRegAttr[VPD_ENTRY_SIZE ] ={ + { &vpd_dev_attr_product_name.dev_attr, "vpd_dev_attr_product_name"}, + { &vpd_dev_attr_pn.dev_attr, "vpd_dev_attr_pn"}, + { &vpd_dev_attr_sn.dev_attr, "vpd_dev_attr_sn"}, + { &vpd_dev_attr_base_mac_addr.dev_attr, "vpd_dev_attr_base_mac_addr"}, + { &vpd_dev_attr_man_date.dev_attr, "vpd_dev_attr_man_date"}, + { &vpd_dev_attr_dev_ver.dev_attr, "vpd_dev_attr_dev_ver"}, + { &vpd_dev_attr_label_rev.dev_attr, "vpd_dev_attr_label_rev"}, + { &vpd_dev_attr_plat_name.dev_attr, "vpd_dev_attr_plat_name"}, + { &vpd_dev_attr_ldr_ver.dev_attr, "vpd_dev_attr_ldr_ver"}, + { &vpd_dev_attr_mac_addr.dev_attr, "vpd_dev_attr_mac_addr"}, + { &vpd_dev_attr_manufacturer.dev_attr, "vpd_dev_attr_manufacturer"}, + { &vpd_dev_attr_country_code.dev_attr, "vpd_dev_attr_country_code"}, + { &vpd_dev_attr_vendor_name.dev_attr, "vpd_dev_attr_vendor_name"}, + { &vpd_dev_attr_diag_ver.dev_attr, "vpd_dev_attr_diag_ver"}, + { &vpd_dev_attr_service_tag.dev_attr, "vpd_dev_attr_service_tag"}, + { &vpd_dev_attr_vendor_ext.dev_attr, "vpd_dev_attr_vendor_ext"}, + { &vpd_dev_attr_crc32.dev_attr, "vpd_dev_attr_crc32"}, +}; + +static int +register_vpd_attr(struct device *device_p){ + + char *err_attr = NULL; + int i; + + for( i = 0 ; i adapter = adap; + vpd_i2c_client->addr = VPD_I2C_ADDR; + + device_p = device_create(vpd_class_p, /* struct class *cls */ + NULL, /* struct device *parent */ + dev_num, /* dev_t devt */ + vpd_i2c_client, /* void *private_data */ + VPD_DEVICE); /* const char *fmt */ + if (IS_ERR(device_p)){ + err_msg = "device_create fail"; + goto err_register_vpd_device_1; + } + if (register_vpd_attr(device_p) < 0) { + err_msg = "register_vpd_attr fail"; + goto err_register_vpd_device_2; + } + return 0; + +err_register_vpd_device_2: + device_unregister(device_p); + device_destroy(vpd_class_p, dev_num); +err_register_vpd_device_1: + kfree(vpd_i2c_client); + vpd_i2c_client = NULL; +err_register_vpd_device: + VPD_ERR("%s: %s\n", __func__, err_msg); + return -1; +} + +static int +register_vpd_module(void) +{ + dev_t vpd_devt = 0; + + if (alloc_chrdev_region(&vpd_devt, 0, 1, VPD_DEVICE) < 0){ + VPD_WARN("Allocate VPD MAJOR failure! \n"); + goto err_register_vpd_module; + } + vpd_major = MAJOR(vpd_devt); + + /* Create class object */ + vpd_class_p = class_create(THIS_MODULE, EEPROM_CLASS); + if (IS_ERR(vpd_class_p)) { + VPD_ERR("Create class failure! \n"); + goto err_register_vpd_module_1; + } + return 0; + +err_register_vpd_module_1: + unregister_chrdev_region(MKDEV(vpd_major, 0), 1); +err_register_vpd_module: + return -1; +} + + +static int +init_vpd_common(void) +{ + char *err_msg = "ERR"; + + if (register_vpd_device() < 0) { + err_msg = "register_vpd_device fail"; + goto err_init_vpd_common; + } + return 0; + +err_init_vpd_common: + VPD_ERR("%s: %s\n", __func__, err_msg); + return -1; +} + + +static int __init +vpd_module_init(void) +{ + if (register_vpd_module() < 0){ + goto err_vpd_module_init; + } + if (init_vpd_common() < 0){ + goto err_vpd_module_init_1; + } + VPD_INFO("Inventec vpd module V.%s initial success.\n", VPD_VERSION); + return 0; + +err_vpd_module_init_1: + class_unregister(vpd_class_p); + class_destroy(vpd_class_p); + unregister_chrdev_region(MKDEV(vpd_major, 0), 1); +err_vpd_module_init: + VPD_ERR("Inventec vpd module V.%s initial failure.\n", VPD_VERSION); + return -1; +} + + +static void __exit +vpd_module_exit(void) +{ + clean_vpd_common(); + class_unregister(vpd_class_p); + class_destroy(vpd_class_p); + unregister_chrdev_region(MKDEV(vpd_major, 0), 1); + VPD_INFO("Remove Inventec vpd module success.\n"); +} + + +/* Module information */ +MODULE_AUTHOR(VPD_AUTHOR); +MODULE_DESCRIPTION(VPD_DESC); +MODULE_VERSION(VPD_VERSION); +MODULE_LICENSE(VPD_LICENSE); + +module_init(vpd_module_init); +module_exit(vpd_module_exit); diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_vpd.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_vpd.h new file mode 100644 index 00000000..58c7fe33 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/inv_vpd.h @@ -0,0 +1,46 @@ +#ifndef INV_VPD_H +#define INV_VPD_H + +#define EEPROM_CLASS "eeprom" +#define VPD_DEVICE "vpd" +#define VPD_AUTHOR "Neil " +#define VPD_DESC "Inventec eeprom vpd driver" +#define VPD_VERSION "1.0.0" +#define VPD_LICENSE "GPL" + +#define VPD_ENTRY_SIZE (17) +#define VPD_I2C_BUS (0) +#define VPD_I2C_ADDR (0x53) + +struct register_attr { +struct device_attribute *attr; +char * errmsg; +}; + +struct vpd_device_attribute{ + struct device_attribute dev_attr; + int index; +}; + +#define to_vpd_dev_attr(_dev_attr) \ + container_of(_dev_attr, struct vpd_device_attribute, dev_attr) + +#define VPD_ATTR(_name, _mode, _show, _store, _index) \ + { .dev_attr = __ATTR(_name, _mode, _show, _store), \ + .index = _index } + +#define VPD_DEVICE_ATTR(_name, _mode, _show, _store, _index) \ + struct vpd_device_attribute vpd_dev_attr_##_name \ + = VPD_ATTR(_name, _mode, _show, _store, _index) + +#define VPD_INFO(fmt, args...) printk( KERN_INFO "[VPD] " fmt, ##args) +#define VPD_WARN(fmt, args...) printk( KERN_WARNING "[VPD] " fmt, ##args) +#define VPD_ERR(fmt, args...) printk( KERN_ERR "[VPD] " fmt, ##args) + +#ifdef DEBUG_VPD +# define VPD_DEBUG(fmt, args...) printk( KERN_DEBUG "[VPD] " fmt, ##args) +#else +# define VPD_DEBUG(fmt, args...) +#endif + +#endif /* INV_VPD_H */ diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/io_expander.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/io_expander.c new file mode 100644 index 00000000..5d609ba8 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/io_expander.c @@ -0,0 +1,1831 @@ +#include +#include +#include +#include "io_expander.h" + +static struct ioexp_obj_s *ioexp_head_p = NULL; +static struct ioexp_obj_s *ioexp_tail_p = NULL; + + +/* ========== Register IOEXP layout ========== + */ +struct ioexp_map_s ioexp_map_magnolia_nab = { + + .chip_amount = 2, + .data_width = 2, + + .map_present = { {0, 0, 4}, /* map_present[0] = MOD_ABS_PORT(X) */ + {0, 0, 5}, /* map_present[1] = MOD_ABS_PORT(X+1) */ + {0, 0, 6}, /* map_present[2] = MOD_ABS_PORT(X+2) */ + {0, 0, 7}, /* map_present[3] = MOD_ABS_PORT(X+3) */ + {1, 0, 4}, /* map_present[4] = MOD_ABS_PORT(X+4) */ + {1, 0, 5}, /* map_present[5] = MOD_ABS_PORT(X+5) */ + {1, 0, 6}, /* map_present[6] = MOD_ABS_PORT(X+6) */ + {1, 0, 7}, /* map_present[7] = MOD_ABS_PORT(X+7) */ + }, + .map_tx_disable = { {0, 1, 0}, /* map_tx_disable[0] = TXDISABLE_SFP+_P(X) */ + {0, 1, 1}, /* map_tx_disable[1] = TXDISABLE_SFP+_P(X+1) */ + {0, 1, 2}, /* map_tx_disable[2] = TXDISABLE_SFP+_P(X+2) */ + {0, 1, 3}, /* map_tx_disable[3] = TXDISABLE_SFP+_P(X+3) */ + {1, 1, 0}, /* map_tx_disable[4] = TXDISABLE_SFP+_P(X+4) */ + {1, 1, 1}, /* map_tx_disable[5] = TXDISABLE_SFP+_P(X+5) */ + {1, 1, 2}, /* map_tx_disable[6] = TXDISABLE_SFP+_P(X+6) */ + {1, 1, 3}, /* map_tx_disable[7] = TXDISABLE_SFP+_P(X+7) */ + }, + .map_tx_fault = { {0, 0, 0}, /* map_tx_fault[0] = TXFAULT_SFP+_P(X) */ + {0, 0, 1}, /* map_tx_fault[1] = TXFAULT_SFP+_P(X+1) */ + {0, 0, 2}, /* map_tx_fault[2] = TXFAULT_SFP+_P(X+2) */ + {0, 0, 3}, /* map_tx_fault[3] = TXFAULT_SFP+_P(X+3) */ + {1, 0, 0}, /* map_tx_fault[4] = TXFAULT_SFP+_P(X+4) */ + {1, 0, 1}, /* map_tx_fault[5] = TXFAULT_SFP+_P(X+5) */ + {1, 0, 2}, /* map_tx_fault[6] = TXFAULT_SFP+_P(X+6) */ + {1, 0, 3}, /* map_tx_fault[7] = TXFAULT_SFP+_P(X+7) */ + }, + .map_rxlos = { {0, 1, 4}, /* map_rxlos[0] = OPRXLOS_PORT(X) */ + {0, 1, 5}, /* map_rxlos[1] = OPRXLOS_PORT(X+1) */ + {0, 1, 6}, /* map_rxlos[2] = OPRXLOS_PORT(X+2) */ + {0, 1, 7}, /* map_rxlos[3] = OPRXLOS_PORT(X+3) */ + {1, 1, 4}, /* map_rxlos[4] = OPRXLOS_PORT(X+4) */ + {1, 1, 5}, /* map_rxlos[5] = OPRXLOS_PORT(X+5) */ + {1, 1, 6}, /* map_rxlos[6] = OPRXLOS_PORT(X+6) */ + {1, 1, 7}, /* map_rxlos[7] = OPRXLOS_PORT(X+7) */ + }, +}; + + +struct ioexp_map_s ioexp_map_magnolia_7ab = { + + .chip_amount = 2, + .data_width = 2, + + .map_present = { {1, 0, 4}, /* map_present[0] = MOD_ABS_PORT(X) */ + {1, 0, 5}, /* map_present[1] = MOD_ABS_PORT(X+1) */ + {1, 0, 6}, /* map_present[2] = MOD_ABS_PORT(X+2) */ + {1, 0, 7}, /* map_present[3] = MOD_ABS_PORT(X+3) */ + {1, 1, 4}, /* map_present[4] = MOD_ABS_PORT(X+4) */ + {1, 1, 5}, /* map_present[5] = MOD_ABS_PORT(X+5) */ + }, + .map_reset = { {0, 0, 0}, /* map_reset[0] = QRESET_QSFP_N_P(X) */ + {0, 0, 1}, /* map_reset[1] = QRESET_QSFP_N_P(X+1) */ + {0, 0, 2}, /* map_reset[2] = QRESET_QSFP_N_P(X+2) */ + {0, 0, 3}, /* map_reset[3] = QRESET_QSFP_N_P(X+3) */ + {1, 0, 0}, /* map_reset[4] = QRESET_QSFP_N_P(X+4) */ + {1, 0, 1}, /* map_reset[5] = QRESET_QSFP_N_P(X+5) */ + }, + .map_lpmod = { {0, 0, 4}, /* map_lpmod[0] = LPMODE_QSFP_P(X) */ + {0, 0, 5}, /* map_lpmod[1] = LPMODE_QSFP_P(X+1) */ + {0, 0, 6}, /* map_lpmod[2] = LPMODE_QSFP_P(X+2) */ + {0, 0, 7}, /* map_lpmod[3] = LPMODE_QSFP_P(X+3) */ + {1, 0, 2}, /* map_lpmod[4] = LPMODE_QSFP_P(X+4) */ + {1, 0, 3}, /* map_lpmod[5] = LPMODE_QSFP_P(X+5) */ + }, + .map_modsel = { {0, 1, 4}, /* map_modsel[0] = MODSEL_QSFP_N_P(X) */ + {0, 1, 5}, /* map_modsel[1] = MODSEL_QSFP_N_P(X+1) */ + {0, 1, 6}, /* map_modsel[2] = MODSEL_QSFP_N_P(X+2) */ + {0, 1, 7}, /* map_modsel[3] = MODSEL_QSFP_N_P(X+3) */ + {1, 1, 4}, /* map_modsel[4] = MODSEL_QSFP_N_P(X+4) */ + {1, 1, 5}, /* map_modsel[5] = MODSEL_QSFP_N_P(X+5) */ + }, +}; + + +struct ioexp_map_s ioexp_map_redwood_p01p08_p17p24 = { + + .chip_amount = 3, + .data_width = 2, + + .map_present = { {2, 0, 0}, /* map_present[0] = MOD_ABS_PORT(X) */ + {2, 0, 1}, /* map_present[1] = MOD_ABS_PORT(X+1) */ + {2, 0, 2}, /* map_present[2] = MOD_ABS_PORT(X+2) */ + {2, 0, 3}, /* map_present[3] = MOD_ABS_PORT(X+3) */ + {2, 0, 4}, /* map_present[4] = MOD_ABS_PORT(X+4) */ + {2, 0, 5}, /* map_present[5] = MOD_ABS_PORT(X+5) */ + {2, 0, 6}, /* map_present[6] = MOD_ABS_PORT(X+6) */ + {2, 0, 7}, /* map_present[7] = MOD_ABS_PORT(X+7) */ + }, + .map_reset = { {0, 0, 0}, /* map_reset[0] = QRESET_QSFP28_N_P(X) */ + {0, 0, 1}, /* map_reset[1] = QRESET_QSFP28_N_P(X+1) */ + {0, 0, 2}, /* map_reset[2] = QRESET_QSFP28_N_P(X+2) */ + {0, 0, 3}, /* map_reset[3] = QRESET_QSFP28_N_P(X+3) */ + {1, 0, 0}, /* map_reset[4] = QRESET_QSFP28_N_P(X+4) */ + {1, 0, 1}, /* map_reset[5] = QRESET_QSFP28_N_P(X+5) */ + {1, 0, 2}, /* map_reset[6] = QRESET_QSFP28_N_P(X+6) */ + {1, 0, 3}, /* map_reset[7] = QRESET_QSFP28_N_P(X+7) */ + }, + .map_lpmod = { {0, 0, 4}, /* map_lpmod[0] = LPMODE_QSFP28_P(X) */ + {0, 0, 5}, /* map_lpmod[1] = LPMODE_QSFP28_P(X+1) */ + {0, 0, 6}, /* map_lpmod[2] = LPMODE_QSFP28_P(X+2) */ + {0, 0, 7}, /* map_lpmod[3] = LPMODE_QSFP28_P(X+3) */ + {1, 0, 4}, /* map_lpmod[4] = LPMODE_QSFP28_P(X+4) */ + {1, 0, 5}, /* map_lpmod[5] = LPMODE_QSFP28_P(X+5) */ + {1, 0, 6}, /* map_lpmod[6] = LPMODE_QSFP28_P(X+6) */ + {1, 0, 7}, /* map_lpmod[7] = LPMODE_QSFP28_P(X+7) */ + }, + .map_modsel = { {0, 1, 4}, /* map_modsel[0] = MODSEL_QSFP28_N_P(X) */ + {0, 1, 5}, /* map_modsel[1] = MODSEL_QSFP28_N_P(X+1) */ + {0, 1, 6}, /* map_modsel[2] = MODSEL_QSFP28_N_P(X+2) */ + {0, 1, 7}, /* map_modsel[3] = MODSEL_QSFP28_N_P(X+3) */ + {1, 1, 4}, /* map_modsel[4] = MODSEL_QSFP28_N_P(X+4) */ + {1, 1, 5}, /* map_modsel[5] = MODSEL_QSFP28_N_P(X+5) */ + {1, 1, 6}, /* map_modsel[6] = MODSEL_QSFP28_N_P(X+6) */ + {1, 1, 7}, /* map_modsel[7] = MODSEL_QSFP28_N_P(X+7) */ + }, +}; + + +struct ioexp_map_s ioexp_map_redwood_p09p16_p25p32 = { + + .chip_amount = 3, + .data_width = 2, + + .map_present = { {2, 1, 0}, /* map_present[0] = MOD_ABS_PORT(X) */ + {2, 1, 1}, /* map_present[1] = MOD_ABS_PORT(X+1) */ + {2, 1, 2}, /* map_present[2] = MOD_ABS_PORT(X+2) */ + {2, 1, 3}, /* map_present[3] = MOD_ABS_PORT(X+3) */ + {2, 1, 4}, /* map_present[4] = MOD_ABS_PORT(X+4) */ + {2, 1, 5}, /* map_present[5] = MOD_ABS_PORT(X+5) */ + {2, 1, 6}, /* map_present[6] = MOD_ABS_PORT(X+6) */ + {2, 1, 7}, /* map_present[7] = MOD_ABS_PORT(X+7) */ + }, + .map_reset = { {0, 0, 0}, /* map_reset[0] = QRESET_QSFP28_N_P(X) */ + {0, 0, 1}, /* map_reset[1] = QRESET_QSFP28_N_P(X+1) */ + {0, 0, 2}, /* map_reset[2] = QRESET_QSFP28_N_P(X+2) */ + {0, 0, 3}, /* map_reset[3] = QRESET_QSFP28_N_P(X+3) */ + {1, 0, 0}, /* map_reset[4] = QRESET_QSFP28_N_P(X+4) */ + {1, 0, 1}, /* map_reset[5] = QRESET_QSFP28_N_P(X+5) */ + {1, 0, 2}, /* map_reset[6] = QRESET_QSFP28_N_P(X+6) */ + {1, 0, 3}, /* map_reset[7] = QRESET_QSFP28_N_P(X+7) */ + }, + .map_lpmod = { {0, 0, 4}, /* map_lpmod[0] = LPMODE_QSFP28_P(X) */ + {0, 0, 5}, /* map_lpmod[1] = LPMODE_QSFP28_P(X+1) */ + {0, 0, 6}, /* map_lpmod[2] = LPMODE_QSFP28_P(X+2) */ + {0, 0, 7}, /* map_lpmod[3] = LPMODE_QSFP28_P(X+3) */ + {1, 0, 4}, /* map_lpmod[4] = LPMODE_QSFP28_P(X+4) */ + {1, 0, 5}, /* map_lpmod[5] = LPMODE_QSFP28_P(X+5) */ + {1, 0, 6}, /* map_lpmod[6] = LPMODE_QSFP28_P(X+6) */ + {1, 0, 7}, /* map_lpmod[7] = LPMODE_QSFP28_P(X+7) */ + }, + .map_modsel = { {0, 1, 4}, /* map_modsel[0] = MODSEL_QSFP28_N_P(X) */ + {0, 1, 5}, /* map_modsel[1] = MODSEL_QSFP28_N_P(X+1) */ + {0, 1, 6}, /* map_modsel[2] = MODSEL_QSFP28_N_P(X+2) */ + {0, 1, 7}, /* map_modsel[3] = MODSEL_QSFP28_N_P(X+3) */ + {1, 1, 4}, /* map_modsel[4] = MODSEL_QSFP28_N_P(X+4) */ + {1, 1, 5}, /* map_modsel[5] = MODSEL_QSFP28_N_P(X+5) */ + {1, 1, 6}, /* map_modsel[6] = MODSEL_QSFP28_N_P(X+6) */ + {1, 1, 7}, /* map_modsel[7] = MODSEL_QSFP28_N_P(X+7) */ + }, +}; + + +struct ioexp_map_s ioexp_map_hudson32iga_p01p08_p17p24 = { + + .chip_amount = 3, + .data_width = 2, + + .map_present = { {2, 0, 0}, /* map_present[0] = MODABS_QSFP(X) */ + {2, 0, 1}, /* map_present[1] = MODABS_QSFP(X+1) */ + {2, 0, 2}, /* map_present[2] = MODABS_QSFP(X+2) */ + {2, 0, 3}, /* map_present[3] = MODABS_QSFP(X+3) */ + {2, 0, 4}, /* map_present[4] = MODABS_QSFP(X+4) */ + {2, 0, 5}, /* map_present[5] = MODABS_QSFP(X+5) */ + {2, 0, 6}, /* map_present[6] = MODABS_QSFP(X+6) */ + {2, 0, 7}, /* map_present[7] = MODABS_QSFP(X+7) */ + }, + .map_reset = { {0, 0, 0}, /* map_reset[0] = QRESET_QSFP(X) */ + {0, 0, 1}, /* map_reset[1] = QRESET_QSFP(X+1) */ + {0, 0, 2}, /* map_reset[2] = QRESET_QSFP(X+2) */ + {0, 0, 3}, /* map_reset[3] = QRESET_QSFP(X+3) */ + {1, 0, 0}, /* map_reset[4] = QRESET_QSFP(X+4) */ + {1, 0, 1}, /* map_reset[5] = QRESET_QSFP(X+5) */ + {1, 0, 2}, /* map_reset[6] = QRESET_QSFP(X+6) */ + {1, 0, 3}, /* map_reset[7] = QRESET_QSFP(X+7) */ + }, + .map_lpmod = { {0, 0, 4}, /* map_lpmod[0] = LPMODE_QSFP(X) */ + {0, 0, 5}, /* map_lpmod[1] = LPMODE_QSFP(X+1) */ + {0, 0, 6}, /* map_lpmod[2] = LPMODE_QSFP(X+2) */ + {0, 0, 7}, /* map_lpmod[3] = LPMODE_QSFP(X+3) */ + {1, 0, 4}, /* map_lpmod[4] = LPMODE_QSFP(X+4) */ + {1, 0, 5}, /* map_lpmod[5] = LPMODE_QSFP(X+5) */ + {1, 0, 6}, /* map_lpmod[6] = LPMODE_QSFP(X+6) */ + {1, 0, 7}, /* map_lpmod[7] = LPMODE_QSFP(X+7) */ + }, + .map_modsel = { {0, 1, 4}, /* map_modsel[0] = MODSEL_QSFP(X) */ + {0, 1, 5}, /* map_modsel[1] = MODSEL_QSFP(X+1) */ + {0, 1, 6}, /* map_modsel[2] = MODSEL_QSFP(X+2) */ + {0, 1, 7}, /* map_modsel[3] = MODSEL_QSFP(X+3) */ + {1, 1, 4}, /* map_modsel[4] = MODSEL_QSFP(X+4) */ + {1, 1, 5}, /* map_modsel[5] = MODSEL_QSFP(X+5) */ + {1, 1, 6}, /* map_modsel[6] = MODSEL_QSFP(X+6) */ + {1, 1, 7}, /* map_modsel[7] = MODSEL_QSFP(X+7) */ + }, +}; + + +struct ioexp_map_s ioexp_map_hudson32iga_p09p16_p25p32 = { + + .chip_amount = 3, + .data_width = 2, + + .map_present = { {2, 1, 0}, /* map_present[0] = MODABS_QSFP(X) */ + {2, 1, 1}, /* map_present[1] = MODABS_QSFP(X+1) */ + {2, 1, 2}, /* map_present[2] = MODABS_QSFP(X+2) */ + {2, 1, 3}, /* map_present[3] = MODABS_QSFP(X+3) */ + {2, 1, 4}, /* map_present[4] = MODABS_QSFP(X+4) */ + {2, 1, 5}, /* map_present[5] = MODABS_QSFP(X+5) */ + {2, 1, 6}, /* map_present[6] = MODABS_QSFP(X+6) */ + {2, 1, 7}, /* map_present[7] = MODABS_QSFP(X+7) */ + }, + .map_reset = { {0, 0, 0}, /* map_reset[0] = QRESET_QSFP(X) */ + {0, 0, 1}, /* map_reset[1] = QRESET_QSFP(X+1) */ + {0, 0, 2}, /* map_reset[2] = QRESET_QSFP(X+2) */ + {0, 0, 3}, /* map_reset[3] = QRESET_QSFP(X+3) */ + {1, 0, 0}, /* map_reset[4] = QRESET_QSFP(X+4) */ + {1, 0, 1}, /* map_reset[5] = QRESET_QSFP(X+5) */ + {1, 0, 2}, /* map_reset[6] = QRESET_QSFP(X+6) */ + {1, 0, 3}, /* map_reset[7] = QRESET_QSFP(X+7) */ + }, + .map_lpmod = { {0, 0, 4}, /* map_lpmod[0] = LPMODE_QSFP(X) */ + {0, 0, 5}, /* map_lpmod[1] = LPMODE_QSFP(X+1) */ + {0, 0, 6}, /* map_lpmod[2] = LPMODE_QSFP(X+2) */ + {0, 0, 7}, /* map_lpmod[3] = LPMODE_QSFP(X+3) */ + {1, 0, 4}, /* map_lpmod[4] = LPMODE_QSFP(X+4) */ + {1, 0, 5}, /* map_lpmod[5] = LPMODE_QSFP(X+5) */ + {1, 0, 6}, /* map_lpmod[6] = LPMODE_QSFP(X+6) */ + {1, 0, 7}, /* map_lpmod[7] = LPMODE_QSFP(X+7) */ + }, + .map_modsel = { {0, 1, 4}, /* map_modsel[0] = MODSEL_QSFP(X) */ + {0, 1, 5}, /* map_modsel[1] = MODSEL_QSFP(X+1) */ + {0, 1, 6}, /* map_modsel[2] = MODSEL_QSFP(X+2) */ + {0, 1, 7}, /* map_modsel[3] = MODSEL_QSFP(X+3) */ + {1, 1, 4}, /* map_modsel[4] = MODSEL_QSFP(X+4) */ + {1, 1, 5}, /* map_modsel[5] = MODSEL_QSFP(X+5) */ + {1, 1, 6}, /* map_modsel[6] = MODSEL_QSFP(X+6) */ + {1, 1, 7}, /* map_modsel[7] = MODSEL_QSFP(X+7) */ + }, +}; + + +struct ioexp_map_s ioexp_map_cypress_nabc = { + + .chip_amount = 3, + .data_width = 2, + + .map_present = { {0, 0, 4}, /* map_present[0] = MOD_ABS_PORT(X) */ + {0, 0, 5}, /* map_present[1] = MOD_ABS_PORT(X+1) */ + {0, 0, 6}, /* map_present[2] = MOD_ABS_PORT(X+2) */ + {0, 0, 7}, /* map_present[3] = MOD_ABS_PORT(X+3) */ + {1, 0, 4}, /* map_present[4] = MOD_ABS_PORT(X+4) */ + {1, 0, 5}, /* map_present[5] = MOD_ABS_PORT(X+5) */ + {1, 0, 6}, /* map_present[6] = MOD_ABS_PORT(X+6) */ + {1, 0, 7}, /* map_present[7] = MOD_ABS_PORT(X+7) */ + }, + .map_tx_disable = { {0, 1, 0}, /* map_tx_disable[0] = TXDISABLE_SFP+_P(X) */ + {0, 1, 1}, /* map_tx_disable[1] = TXDISABLE_SFP+_P(X+1) */ + {0, 1, 2}, /* map_tx_disable[2] = TXDISABLE_SFP+_P(X+2) */ + {0, 1, 3}, /* map_tx_disable[3] = TXDISABLE_SFP+_P(X+3) */ + {1, 1, 0}, /* map_tx_disable[4] = TXDISABLE_SFP+_P(X+4) */ + {1, 1, 1}, /* map_tx_disable[5] = TXDISABLE_SFP+_P(X+5) */ + {1, 1, 2}, /* map_tx_disable[6] = TXDISABLE_SFP+_P(X+6) */ + {1, 1, 3}, /* map_tx_disable[7] = TXDISABLE_SFP+_P(X+7) */ + }, + .map_tx_fault = { {0, 0, 0}, /* map_tx_fault[0] = TXFAULT_SFP+_P(X) */ + {0, 0, 1}, /* map_tx_fault[1] = TXFAULT_SFP+_P(X+1) */ + {0, 0, 2}, /* map_tx_fault[2] = TXFAULT_SFP+_P(X+2) */ + {0, 0, 3}, /* map_tx_fault[3] = TXFAULT_SFP+_P(X+3) */ + {1, 0, 0}, /* map_tx_fault[4] = TXFAULT_SFP+_P(X+4) */ + {1, 0, 1}, /* map_tx_fault[5] = TXFAULT_SFP+_P(X+5) */ + {1, 0, 2}, /* map_tx_fault[6] = TXFAULT_SFP+_P(X+6) */ + {1, 0, 3}, /* map_tx_fault[7] = TXFAULT_SFP+_P(X+7) */ + }, + .map_rxlos = { {0, 1, 4}, /* map_rxlos[0] = OPRXLOS_PORT(X) */ + {0, 1, 5}, /* map_rxlos[1] = OPRXLOS_PORT(X+1) */ + {0, 1, 6}, /* map_rxlos[2] = OPRXLOS_PORT(X+2) */ + {0, 1, 7}, /* map_rxlos[3] = OPRXLOS_PORT(X+3) */ + {1, 1, 4}, /* map_rxlos[4] = OPRXLOS_PORT(X+4) */ + {1, 1, 5}, /* map_rxlos[5] = OPRXLOS_PORT(X+5) */ + {1, 1, 6}, /* map_rxlos[6] = OPRXLOS_PORT(X+6) */ + {1, 1, 7}, /* map_rxlos[7] = OPRXLOS_PORT(X+7) */ + }, + .map_hard_rs0 = { {2, 0, 0}, /* map_hard_rs0[0] = RS0_SFP28_P(X) */ + {2, 0, 2}, /* map_hard_rs0[1] = RS0_SFP28_P(X+1) */ + {2, 0, 4}, /* map_hard_rs0[2] = RS0_SFP28_P(X+2) */ + {2, 0, 6}, /* map_hard_rs0[3] = RS0_SFP28_P(X+3) */ + {2, 1, 0}, /* map_hard_rs0[4] = RS0_SFP28_P(X+4) */ + {2, 1, 2}, /* map_hard_rs0[5] = RS0_SFP28_P(X+5) */ + {2, 1, 4}, /* map_hard_rs0[6] = RS0_SFP28_P(X+6) */ + {2, 1, 6}, /* map_hard_rs0[7] = RS0_SFP28_P(X+7) */ + }, + .map_hard_rs1 = { {2, 0, 1}, /* map_hard_rs1[0] = RS1_SFP28_P(X) */ + {2, 0, 3}, /* map_hard_rs1[1] = RS1_SFP28_P(X+1) */ + {2, 0, 5}, /* map_hard_rs1[2] = RS1_SFP28_P(X+2) */ + {2, 0, 7}, /* map_hard_rs1[3] = RS1_SFP28_P(X+3) */ + {2, 1, 1}, /* map_hard_rs1[4] = RS1_SFP28_P(X+4) */ + {2, 1, 3}, /* map_hard_rs1[5] = RS1_SFP28_P(X+5) */ + {2, 1, 5}, /* map_hard_rs1[6] = RS1_SFP28_P(X+6) */ + {2, 1, 7}, /* map_hard_rs1[7] = RS1_SFP28_P(X+7) */ + }, +}; + +struct ioexp_map_s ioexp_map_cypress_7abc = { + + .chip_amount = 3, + .data_width = 2, + + .map_present = { {2, 0, 0}, /* map_present[0] = MOD_ABS_PORT(X) */ + {2, 0, 1}, /* map_present[1] = MOD_ABS_PORT(X+1) */ + {2, 0, 2}, /* map_present[2] = MOD_ABS_PORT(X+2) */ + {2, 0, 3}, /* map_present[3] = MOD_ABS_PORT(X+3) */ + {2, 0, 4}, /* map_present[4] = MOD_ABS_PORT(X+4) */ + {2, 0, 5}, /* map_present[5] = MOD_ABS_PORT(X+5) */ + }, + .map_reset = { {0, 0, 0}, /* map_reset[0] = QRESET_QSFP_N_P(X) */ + {0, 0, 1}, /* map_reset[1] = QRESET_QSFP_N_P(X+1) */ + {0, 0, 2}, /* map_reset[2] = QRESET_QSFP_N_P(X+2) */ + {0, 0, 3}, /* map_reset[3] = QRESET_QSFP_N_P(X+3) */ + {0, 0, 4}, /* map_reset[4] = QRESET_QSFP_N_P(X+4) */ + {0, 0, 5}, /* map_reset[5] = QRESET_QSFP_N_P(X+5) */ + }, + .map_lpmod = { {0, 1, 0}, /* map_lpmod[0] = LPMODE_QSFP_P(X) */ + {0, 1, 1}, /* map_lpmod[1] = LPMODE_QSFP_P(X+1) */ + {0, 1, 2}, /* map_lpmod[2] = LPMODE_QSFP_P(X+2) */ + {0, 1, 3}, /* map_lpmod[3] = LPMODE_QSFP_P(X+3) */ + {0, 1, 4}, /* map_lpmod[4] = LPMODE_QSFP_P(X+4) */ + {0, 1, 5}, /* map_lpmod[5] = LPMODE_QSFP_P(X+5) */ + }, + .map_modsel = { {1, 1, 0}, /* map_modsel[0] = MODSEL_QSFP_N_P(X) */ + {1, 1, 1}, /* map_modsel[1] = MODSEL_QSFP_N_P(X+1) */ + {1, 1, 2}, /* map_modsel[2] = MODSEL_QSFP_N_P(X+2) */ + {1, 1, 3}, /* map_modsel[3] = MODSEL_QSFP_N_P(X+3) */ + {1, 1, 4}, /* map_modsel[4] = MODSEL_QSFP_N_P(X+4) */ + {1, 1, 5}, /* map_modsel[5] = MODSEL_QSFP_N_P(X+5) */ + }, +}; + + +struct ioexp_map_s ioexp_map_lavender_p01p08_p17p24 = { + + .chip_amount = 3, + .data_width = 2, + + .map_tx_disable = { {3, 0, 0}, /* map_tx_disable[0] = DIS_QSFP28_P(X) */ + {3, 0, 1}, /* map_tx_disable[1] = DIS_QSFP28_P(X+1) */ + {3, 0, 2}, /* map_tx_disable[2] = DIS_QSFP28_P(X+2) */ + {3, 0, 3}, /* map_tx_disable[3] = DIS_QSFP28_P(X+3) */ + {3, 0, 4}, /* map_tx_disable[4] = DIS_QSFP28_P(X+4) */ + {3, 0, 5}, /* map_tx_disable[5] = DIS_QSFP28_P(X+5) */ + {3, 0, 6}, /* map_tx_disable[6] = DIS_QSFP28_P(X+6) */ + {3, 0, 7}, /* map_tx_disable[7] = DIS_QSFP28_P(X+7) */ + }, + .map_modsel = { {0, 0, 0}, /* map_modsel[0] = MODSEL_QSFP28_N_P(X) */ + {0, 0, 1}, /* map_modsel[1] = MODSEL_QSFP28_N_P(X+1) */ + {0, 0, 2}, /* map_modsel[2] = MODSEL_QSFP28_N_P(X+2) */ + {0, 0, 3}, /* map_modsel[3] = MODSEL_QSFP28_N_P(X+3) */ + {0, 0, 4}, /* map_modsel[4] = MODSEL_QSFP28_N_P(X+4) */ + {0, 0, 5}, /* map_modsel[5] = MODSEL_QSFP28_N_P(X+5) */ + {0, 0, 6}, /* map_modsel[6] = MODSEL_QSFP28_N_P(X+6) */ + {0, 0, 7}, /* map_modsel[7] = MODSEL_QSFP28_N_P(X+7) */ + }, + .map_reset = { {0, 1, 0}, /* map_reset[0] = QRESET_QSFP28_N_P(X) */ + {0, 1, 1}, /* map_reset[1] = QRESET_QSFP28_N_P(X+1) */ + {0, 1, 2}, /* map_reset[2] = QRESET_QSFP28_N_P(X+2) */ + {0, 1, 3}, /* map_reset[3] = QRESET_QSFP28_N_P(X+3) */ + {0, 1, 4}, /* map_reset[4] = QRESET_QSFP28_N_P(X+4) */ + {0, 1, 5}, /* map_reset[5] = QRESET_QSFP28_N_P(X+5) */ + {0, 1, 6}, /* map_reset[6] = QRESET_QSFP28_N_P(X+6) */ + {0, 1, 7}, /* map_reset[7] = QRESET_QSFP28_N_P(X+7) */ + }, + .map_lpmod = { {1, 0, 0}, /* map_lpmod[0] = LPMODE_QSFP28_P(X) */ + {1, 0, 1}, /* map_lpmod[1] = LPMODE_QSFP28_P(X+1) */ + {1, 0, 2}, /* map_lpmod[2] = LPMODE_QSFP28_P(X+2) */ + {1, 0, 3}, /* map_lpmod[3] = LPMODE_QSFP28_P(X+3) */ + {1, 0, 4}, /* map_lpmod[4] = LPMODE_QSFP28_P(X+4) */ + {1, 0, 5}, /* map_lpmod[5] = LPMODE_QSFP28_P(X+5) */ + {1, 0, 6}, /* map_lpmod[6] = LPMODE_QSFP28_P(X+6) */ + {1, 0, 7}, /* map_lpmod[7] = LPMODE_QSFP28_P(X+7) */ + }, + .map_rxlos = { {2, 0, 0}, /* map_rxlos[0] = OPRXLOS_PORT(X) */ + {2, 0, 1}, /* map_rxlos[1] = OPRXLOS_PORT(X+1) */ + {2, 0, 2}, /* map_rxlos[2] = OPRXLOS_PORT(X+2) */ + {2, 0, 3}, /* map_rxlos[3] = OPRXLOS_PORT(X+3) */ + {2, 0, 4}, /* map_rxlos[4] = OPRXLOS_PORT(X+4) */ + {2, 0, 5}, /* map_rxlos[5] = OPRXLOS_PORT(X+5) */ + {2, 0, 6}, /* map_rxlos[6] = OPRXLOS_PORT(X+6) */ + {2, 0, 7}, /* map_rxlos[7] = OPRXLOS_PORT(X+7) */ + }, + .map_present = { {2, 1, 0}, /* map_present[0] = MOD_ABS_PORT(X) */ + {2, 1, 1}, /* map_present[1] = MOD_ABS_PORT(X+1) */ + {2, 1, 2}, /* map_present[2] = MOD_ABS_PORT(X+2) */ + {2, 1, 3}, /* map_present[3] = MOD_ABS_PORT(X+3) */ + {2, 1, 4}, /* map_present[4] = MOD_ABS_PORT(X+4) */ + {2, 1, 5}, /* map_present[5] = MOD_ABS_PORT(X+5) */ + {2, 1, 6}, /* map_present[6] = MOD_ABS_PORT(X+6) */ + {2, 1, 7}, /* map_present[7] = MOD_ABS_PORT(X+7) */ + }, +}; + + +struct ioexp_map_s ioexp_map_lavender_p09p16_p25p32 = { + + .chip_amount = 3, + .data_width = 2, + + .map_tx_disable = { {3, 1, 0}, /* map_tx_disable[0] = DIS_QSFP28_P(X) */ + {3, 1, 1}, /* map_tx_disable[1] = DIS_QSFP28_P(X+1) */ + {3, 1, 2}, /* map_tx_disable[2] = DIS_QSFP28_P(X+2) */ + {3, 1, 3}, /* map_tx_disable[3] = DIS_QSFP28_P(X+3) */ + {3, 1, 4}, /* map_tx_disable[4] = DIS_QSFP28_P(X+4) */ + {3, 1, 5}, /* map_tx_disable[5] = DIS_QSFP28_P(X+5) */ + {3, 1, 6}, /* map_tx_disable[6] = DIS_QSFP28_P(X+6) */ + {3, 1, 7}, /* map_tx_disable[7] = DIS_QSFP28_P(X+7) */ + }, + .map_modsel = { {0, 0, 0}, /* map_modsel[0] = MODSEL_QSFP28_N_P(X) */ + {0, 0, 1}, /* map_modsel[1] = MODSEL_QSFP28_N_P(X+1) */ + {0, 0, 2}, /* map_modsel[2] = MODSEL_QSFP28_N_P(X+2) */ + {0, 0, 3}, /* map_modsel[3] = MODSEL_QSFP28_N_P(X+3) */ + {0, 0, 4}, /* map_modsel[4] = MODSEL_QSFP28_N_P(X+4) */ + {0, 0, 5}, /* map_modsel[5] = MODSEL_QSFP28_N_P(X+5) */ + {0, 0, 6}, /* map_modsel[6] = MODSEL_QSFP28_N_P(X+6) */ + {0, 0, 7}, /* map_modsel[7] = MODSEL_QSFP28_N_P(X+7) */ + }, + .map_reset = { {0, 1, 0}, /* map_reset[0] = QRESET_QSFP28_N_P(X) */ + {0, 1, 1}, /* map_reset[1] = QRESET_QSFP28_N_P(X+1) */ + {0, 1, 2}, /* map_reset[2] = QRESET_QSFP28_N_P(X+2) */ + {0, 1, 3}, /* map_reset[3] = QRESET_QSFP28_N_P(X+3) */ + {0, 1, 4}, /* map_reset[4] = QRESET_QSFP28_N_P(X+4) */ + {0, 1, 5}, /* map_reset[5] = QRESET_QSFP28_N_P(X+5) */ + {0, 1, 6}, /* map_reset[6] = QRESET_QSFP28_N_P(X+6) */ + {0, 1, 7}, /* map_reset[7] = QRESET_QSFP28_N_P(X+7) */ + }, + .map_lpmod = { {1, 0, 0}, /* map_lpmod[0] = LPMODE_QSFP28_P(X) */ + {1, 0, 1}, /* map_lpmod[1] = LPMODE_QSFP28_P(X+1) */ + {1, 0, 2}, /* map_lpmod[2] = LPMODE_QSFP28_P(X+2) */ + {1, 0, 3}, /* map_lpmod[3] = LPMODE_QSFP28_P(X+3) */ + {1, 0, 4}, /* map_lpmod[4] = LPMODE_QSFP28_P(X+4) */ + {1, 0, 5}, /* map_lpmod[5] = LPMODE_QSFP28_P(X+5) */ + {1, 0, 6}, /* map_lpmod[6] = LPMODE_QSFP28_P(X+6) */ + {1, 0, 7}, /* map_lpmod[7] = LPMODE_QSFP28_P(X+7) */ + }, + .map_rxlos = { {2, 0, 0}, /* map_rxlos[0] = OPRXLOS_PORT(X) */ + {2, 0, 1}, /* map_rxlos[1] = OPRXLOS_PORT(X+1) */ + {2, 0, 2}, /* map_rxlos[2] = OPRXLOS_PORT(X+2) */ + {2, 0, 3}, /* map_rxlos[3] = OPRXLOS_PORT(X+3) */ + {2, 0, 4}, /* map_rxlos[4] = OPRXLOS_PORT(X+4) */ + {2, 0, 5}, /* map_rxlos[5] = OPRXLOS_PORT(X+5) */ + {2, 0, 6}, /* map_rxlos[6] = OPRXLOS_PORT(X+6) */ + {2, 0, 7}, /* map_rxlos[7] = OPRXLOS_PORT(X+7) */ + }, + .map_present = { {2, 1, 0}, /* map_present[0] = MOD_ABS_PORT(X) */ + {2, 1, 1}, /* map_present[1] = MOD_ABS_PORT(X+1) */ + {2, 1, 2}, /* map_present[2] = MOD_ABS_PORT(X+2) */ + {2, 1, 3}, /* map_present[3] = MOD_ABS_PORT(X+3) */ + {2, 1, 4}, /* map_present[4] = MOD_ABS_PORT(X+4) */ + {2, 1, 5}, /* map_present[5] = MOD_ABS_PORT(X+5) */ + {2, 1, 6}, /* map_present[6] = MOD_ABS_PORT(X+6) */ + {2, 1, 7}, /* map_present[7] = MOD_ABS_PORT(X+7) */ + }, +}; + +struct ioexp_map_s ioexp_map_lavender_p65 = { + .chip_amount = 1, + .data_width = 2, + .map_modsel = { {0, 0, 0} }, /* map_modsel[0] = MODSEL_QSFP28_N_P(X) */ + .map_reset = { {0, 0, 1} }, /* map_reset[0] = QRESET_QSFP28_N_P(X) */ + .map_lpmod = { {0, 0, 2} }, /* map_lpmod[0] = LPMODE_QSFP28_P(X) */ + .map_rxlos = { {0, 0, 3} }, /* map_rxlos[0] = OPRXLOS_PORT(X) */ + .map_present = { {0, 0, 4} }, /* map_present[0] = MOD_ABS_PORT(X) */ + .map_tx_disable = { {0, 0, 5} }, /* map_tx_disable[0] = DIS_QSFP28_P(X) */ +}; + + +/* ========== Private functions ========== + */ +int check_channel_tier_1(void); + +struct i2c_client * +_get_i2c_client(struct ioexp_obj_s *self, + int chip_id){ + + struct ioexp_i2c_s *i2c_curr_p = self->i2c_head_p; + + if (!(i2c_curr_p)){ + SWPS_ERR("%s: i2c_curr_p is NULL\n", __func__); + return NULL; + } + while (i2c_curr_p){ + if ((i2c_curr_p->chip_id) == chip_id){ + return i2c_curr_p->i2c_client_p; + } + i2c_curr_p = i2c_curr_p->next; + } + SWPS_ERR("%s: not exist! :%d\n", __func__, chip_id); + return NULL; +} + + +static int +_common_ioexp_update_one(struct ioexp_obj_s *self, + struct ioexp_addr_s *ioexp_addr, + int chip_id, + int data_width, + int show_err, + char *caller_name) { + int buf = 0; + int err = 0; + int data_id = 0; + int r_offset = 0; + + for(data_id=0; data_idread_offset[data_id]; + buf = i2c_smbus_read_byte_data(_get_i2c_client(self, chip_id), r_offset); + /* Check error */ + if (buf < 0) { + err = 1; + if (show_err) { + SWPS_INFO("IOEXP-%d read fail! :%d \n", self->ioexp_id, buf); + SWPS_INFO("Dump: :%d :0x%02x :%d, :%s\n", + ioexp_addr->chan_id, ioexp_addr->chip_addr, + ioexp_addr->read_offset[data_id], caller_name); + } + continue; + } + /* Update IOEXP object */ + self->chip_data[chip_id].data[data_id] = (uint8_t)buf; + } + if (err) { + return ERR_IOEXP_UNEXCPT; + } + return 0; +} + + +static int +common_ioexp_update_all(struct ioexp_obj_s *self, + int show_err, + char *caller_name){ + + int err = 0; + int chip_id = 0; + int chip_amount = self->ioexp_map_p->chip_amount; + + for (chip_id=0; chip_idioexp_map_p->map_addr[chip_id]), + chip_id, + self->ioexp_map_p->data_width, + show_err, + caller_name) < 0) { + err = 1; + } + } + if (err) { + return ERR_IOEXP_UNEXCPT; + } + return 0; +} + + +static int +_common_check_by_mode(struct ioexp_obj_s *self){ + + switch (self->mode){ + case IOEXP_MODE_DIRECT: + return self->fsm_4_direct(self); + + case IOEXP_MODE_POLLING: + if (self->state >= 0){ + return 0; + } + switch (self->state){ + case STATE_IOEXP_INIT: + return ERR_IOEXP_UNINIT; + case STATE_IOEXP_ABNORMAL: + return ERR_IOEXP_ABNORMAL; + default: + return ERR_IOEXP_NOSTATE; + } + break; + + default: + break; + } + SWPS_ERR("%s: Exception occurs. :%d \n", __func__, self->mode); + return ERR_IOEXP_UNEXCPT; +} + + +static int +_common_get_bit(struct ioexp_obj_s *self, + struct ioexp_bitmap_s *bitmap_obj_p, + char *func_mane){ + uint8_t buf; + int err_code; + + /* Check and get address */ + err_code = _common_check_by_mode(self); + if (err_code < 0){ + return err_code; + } + if (!bitmap_obj_p){ + SWPS_ERR("Layout config incorrect! :%d :%s\n", + self->ioexp_id, func_mane); + return ERR_IOEXP_BADCONF; + } + /* Get data form cache */ + buf = self->chip_data[bitmap_obj_p->chip_id].data[bitmap_obj_p->ioexp_voffset]; + return (int)(buf >> bitmap_obj_p->bit_shift & 0x01); +} + + +static int +_common_set_bit(struct ioexp_obj_s *self, + struct ioexp_bitmap_s *bitmap_obj_p, + int input_val, + char *func_mane){ + int err_code, target_offset; + uint8_t origin_byte; + uint8_t modify_byte; + + /* Check and get address */ + err_code = _common_check_by_mode(self); + if (err_code < 0){ + return err_code; + } + if (!bitmap_obj_p){ + SWPS_ERR("Layout config incorrect! :%d :%s\n", + self->ioexp_id, func_mane); + return ERR_IOEXP_BADCONF; + } + /* Prepare write date */ + origin_byte = self->chip_data[bitmap_obj_p->chip_id].data[bitmap_obj_p->ioexp_voffset]; + switch (input_val) { + case 0: + modify_byte = origin_byte; + SWP_BIT_CLEAR(modify_byte, bitmap_obj_p->bit_shift); + break; + case 1: + modify_byte = origin_byte; + SWP_BIT_SET(modify_byte, bitmap_obj_p->bit_shift); + break; + default: + SWPS_ERR("Input value incorrect! :%d :%d :%s\n", + input_val, self->ioexp_id, func_mane); + return ERR_IOEXP_BADINPUT; + } + /* Setup i2c client */ + target_offset = self->ioexp_map_p->map_addr[bitmap_obj_p->chip_id].write_offset[bitmap_obj_p->ioexp_voffset]; + /* Write byte to chip via I2C */ + err_code = i2c_smbus_write_byte_data(_get_i2c_client(self, bitmap_obj_p->chip_id), + target_offset, + modify_byte); + /* Update or bollback object */ + if (err_code < 0){ + self->chip_data[bitmap_obj_p->chip_id].data[bitmap_obj_p->ioexp_voffset] = origin_byte; + SWPS_ERR("I2C write fail! :%d :%d :%s :%d\n", + input_val, self->ioexp_id, func_mane, err_code); + return err_code; + } + self->chip_data[bitmap_obj_p->chip_id].data[bitmap_obj_p->ioexp_voffset] = modify_byte; + return 0; +} + + +/* ========== Object public functions ========== + */ +int +common_get_present(struct ioexp_obj_s *self, + int virt_offset){ + + int UNPLUG = 1; + int retval = ERR_IOEXP_UNEXCPT; + + retval = _common_get_bit(self, + &(self->ioexp_map_p->map_present[virt_offset]), + "common_get_present"); + if (retval < 0) { + /* [Note] + * => Transceiver object does not need to handle IOEXP layer issues. + */ + return UNPLUG; + } + return retval; +} + + +int +common_get_tx_fault(struct ioexp_obj_s *self, + int virt_offset){ + /* [Transmit Fault (Tx_Fault)] + * A catastrophic laser fault will activate the transmitter signal, + * TX_FAULT, and disable the laser. This signal is an open collector + * output (pull-up required on the host board). A low signal indicates + * normal laser operation and a high signal indicates a fault. The + * TX_FAULT will be latched high when a laser fault occurs and is + * cleared by toggling the TX_DISABLE input or power cycling the + * transceiver. The transmitter fault condition can also be monitored + * via the two-wire serial interface. + * (address A2, byte 110, bit 2). + * + * 0: Normal + * 1: Abnormal + */ + return _common_get_bit(self, + &(self->ioexp_map_p->map_tx_fault[virt_offset]), + "common_get_tx_fault"); +} + + +int +common_get_rxlos(struct ioexp_obj_s *self, + int virt_offset){ + /* [Receiver Loss of Signal (Rx_LOS)] + * The post-amplification IC also includes transition detection circuitry + * which monitors the ac level of incoming optical signals and provides a + * TTL/CMOS compatible status signal to the host (pin 8). An adequate optical + * input results in a low Rx_LOS output while a high Rx_LOS output indicates + * an unusable optical input. The Rx_LOS thresholds are factory set so that + * a high output indicates a definite optical fault has occurred. Rx_LOS can + * also be monitored via the two-wire serial interface + * (address A2h, byte 110, bit 1). + * + * 0: Normal + * 1: Abnormal + */ + return _common_get_bit(self, + &(self->ioexp_map_p->map_rxlos[virt_offset]), + "common_get_rxlos"); +} + + +int +common_get_tx_disable(struct ioexp_obj_s *self, + int virt_offset){ + + return _common_get_bit(self, + &(self->ioexp_map_p->map_tx_disable[virt_offset]), + "common_get_tx_disable"); +} + + +int +common_get_reset(struct ioexp_obj_s *self, + int virt_offset){ + + return _common_get_bit(self, + &(self->ioexp_map_p->map_reset[virt_offset]), + "common_get_reset"); +} + + +int +common_get_lpmod(struct ioexp_obj_s *self, + int virt_offset){ + + return _common_get_bit(self, + &(self->ioexp_map_p->map_lpmod[virt_offset]), + "common_get_lpmod"); +} + + +int +common_get_modsel(struct ioexp_obj_s *self, + int virt_offset){ + + return _common_get_bit(self, + &(self->ioexp_map_p->map_modsel[virt_offset]), + "common_get_modsel"); +} + + +int +common_get_hard_rs0(struct ioexp_obj_s *self, + int virt_offset){ + + return _common_get_bit(self, + &(self->ioexp_map_p->map_hard_rs0[virt_offset]), + "common_get_hard_rs0"); +} + + +int +common_get_hard_rs1(struct ioexp_obj_s *self, + int virt_offset){ + + return _common_get_bit(self, + &(self->ioexp_map_p->map_hard_rs1[virt_offset]), + "common_get_hard_rs1"); +} + + +int +common_set_tx_disable(struct ioexp_obj_s *self, + int virt_offset, + int input_val){ + + return _common_set_bit(self, + &(self->ioexp_map_p->map_tx_disable[virt_offset]), + input_val, + "common_set_tx_disable"); +} + + +int +common_set_reset(struct ioexp_obj_s *self, + int virt_offset, + int input_val){ + + return _common_set_bit(self, + &(self->ioexp_map_p->map_reset[virt_offset]), + input_val, + "common_set_reset"); +} + + +int +common_set_lpmod(struct ioexp_obj_s *self, + int virt_offset, + int input_val){ + + return _common_set_bit(self, + &(self->ioexp_map_p->map_lpmod[virt_offset]), + input_val, + "common_set_lpmod"); +} + + +int +common_set_modsel(struct ioexp_obj_s *self, + int virt_offset, + int input_val){ + + return _common_set_bit(self, + &(self->ioexp_map_p->map_modsel[virt_offset]), + input_val, + "common_set_modsel"); +} + + +int +common_set_hard_rs0(struct ioexp_obj_s *self, + int virt_offset, + int input_val){ + + return _common_set_bit(self, + &(self->ioexp_map_p->map_hard_rs0[virt_offset]), + input_val, + "common_set_hard_rs0"); +} + + +int +common_set_hard_rs1(struct ioexp_obj_s *self, + int virt_offset, + int input_val){ + + return _common_set_bit(self, + &(self->ioexp_map_p->map_hard_rs1[virt_offset]), + input_val, + "common_set_hard_rs1"); +} + + +int +ioexp_get_not_support(struct ioexp_obj_s *self, + int virt_offset){ + return ERR_IOEXP_NOTSUPPORT; +} + + +int +ioexp_set_not_support(struct ioexp_obj_s *self, + int virt_offset, + int input_val){ + return ERR_IOEXP_NOTSUPPORT; +} + + +int +fake_ioexp_init(struct ioexp_obj_s *self){ + return 1; +} + +int +fake_ioexp_update(struct ioexp_obj_s *self){ + return 1; +} + + +int +fake_update_func(struct ioexp_obj_s *self){ + return 1; +} + +int +fake_get_func(struct ioexp_obj_s *self, + int virt_offset){ + SWPS_WARN("Someone called fake_get_func\n"); + return -1; +} + +int +fake_set_func(struct ioexp_obj_s *self, + int virt_offset, + int input_val){ + SWPS_WARN("Someone called fake_set_func\n"); + return -1; +} + + +/* ========== Initial functions for IO Expander ========== + */ +int +common_ioexp_init(struct ioexp_obj_s *self) { + + int chip_id, offset, err_code; + struct ioexp_addr_s *addr_p; + + /* Setup default value to each physical IO Expander */ + for (chip_id=0; chip_id<(self->ioexp_map_p->chip_amount); chip_id++){ + /* Get address mapping */ + addr_p = &(self->ioexp_map_p->map_addr[chip_id]); + if (!addr_p){ + SWPS_ERR("%s: IOEXP config incorrect! :%d \n", + __func__, chip_id); + return -1; + } + /* Setup default value */ + for (offset=0; offset<(self->ioexp_map_p->data_width); offset++){ + err_code = i2c_smbus_write_byte_data(_get_i2c_client(self, chip_id), + addr_p->write_offset[offset], + addr_p->data_default[offset]); + if (err_code < 0){ + SWPS_ERR("%s: set default fail! :%d \n", + __func__, err_code); + return ERR_IOEXP_UNEXCPT; + } + } + } + /* Check and update info to object */ + err_code = self->update_all(self, 1, "common_ioexp_init"); + if (err_code < 0) { + SWPS_ERR("%s: update_all() fail! :%d \n", + __func__, err_code); + return ERR_IOEXP_UNEXCPT; + } + return 0; +} + + +/* ========== Object functions for Final State Machine ========== + */ +int +_is_channel_ready(struct ioexp_obj_s *self){ + + int buf = 0; + int chip_id = 0; /* Use first chip which be registered */ + int data_id = 0; /* Use first byte which be registered */ + struct ioexp_addr_s *ioexp_addr = NULL; + + ioexp_addr = &(self->ioexp_map_p->map_addr[chip_id]); + if (!ioexp_addr){ + SWPS_ERR("%s: config incorrect!\n", __func__); + return ERR_IOEXP_UNEXCPT; + } + buf = i2c_smbus_read_byte_data(_get_i2c_client(self, chip_id), + ioexp_addr->read_offset[data_id]); + if (buf >= 0){ + return 1; + } + return 0; +} + +int +_ioexp_init_handler(struct ioexp_obj_s *self){ + + int return_val; + + switch (self->mode) { + case IOEXP_MODE_DIRECT: + return_val = self->init(self); + if (return_val < 0){ + self->state = STATE_IOEXP_ABNORMAL; + } else { + self->state = STATE_IOEXP_NORMAL; + } + return return_val; + + case IOEXP_MODE_POLLING: + /* Check system and channel is ready */ + if (self->state == STATE_IOEXP_INIT){ + if (!_is_channel_ready(self)){ + self->state = STATE_IOEXP_INIT; + SWPS_WARN("%s: IOEXP:%d channel not ready.\n", + __func__, self->ioexp_id); + return 0; + } + } + /* Execute initial callback */ + return_val = self->init(self); + if (return_val < 0){ + self->state = STATE_IOEXP_ABNORMAL; + } else { + self->state = STATE_IOEXP_NORMAL; + } + return return_val; + + default: + break; + } + SWPS_ERR("%s: exception occur :%d\n", __func__, self->mode); + return ERR_IOEXP_UNEXCPT; +} + + +int +common_ioexp_fsm_4_direct(struct ioexp_obj_s *self){ + + int result_val; + int show_err = 1; + char *func_mane = "common_ioexp_fsm_4_direct"; + + switch (self->state){ + case STATE_IOEXP_INIT: + result_val = _ioexp_init_handler(self); + /* Exception case: terminate initial procedure */ + if(result_val < 0){ + /* Initial fail */ + return result_val; + } + if(self->state == STATE_IOEXP_INIT){ + /* Keep in INIT state, and return error */ + return ERR_IOEXP_UNINIT; + } + /* Case: Initial done */ + return 0; + + case STATE_IOEXP_NORMAL: + result_val = self->update_all(self, show_err, func_mane); + if (result_val < 0){ + SWPS_INFO("%s: NORMAL -> ABNORMAL :%d\n", + __func__, result_val); + self->state = STATE_IOEXP_ABNORMAL; + return result_val; + } + self->state = STATE_IOEXP_NORMAL; + return 0; + + case STATE_IOEXP_ABNORMAL: + result_val = self->update_all(self, show_err, func_mane); + if (result_val < 0){ + self->state = STATE_IOEXP_ABNORMAL; + return result_val; + } + SWPS_DEBUG("%s: ABNORMAL -> NORMAL :%d\n", + __func__, result_val); + self->state = STATE_IOEXP_NORMAL; + return 0; + + default: + break; + } + SWPS_ERR("%s: Exception occurs :%d\n", + __func__, self->state); + return ERR_IOEXP_UNEXCPT; +} + + +int +common_ioexp_fsm_4_polling(struct ioexp_obj_s *self){ + + int result_val, i, show_e; + int fail_retry = 3; + char *func_name = "common_ioexp_fsm_4_polling"; + +#ifdef DEBUG_SWPS + show_e = 1; +#else + show_e = 0; +#endif + + switch (self->state){ + case STATE_IOEXP_INIT: + result_val = _ioexp_init_handler(self); + /* Exception case: terminate initial procedure */ + if(result_val < 0){ + /* Initial fail */ + return result_val; + } + /* Case: System (Channel) not ready */ + if(self->state == STATE_IOEXP_INIT){ + /* Keep in INIT state, wait and retry */ + return 0; + } + /* Case: Initial done */ + SWPS_INFO("IOEXP-%d: initial done. :%d\n", + self->ioexp_id, self->ioexp_type); + return result_val; + + case STATE_IOEXP_NORMAL: + /* Retry mechanism for case of i2c topology not stable */ + for (i=0; iupdate_all(self, show_e, func_name); + if (result_val >= 0) { + self->state = STATE_IOEXP_NORMAL; + return 0; + } + if (check_channel_tier_1() < 0) { + SWPS_INFO("%s: detect I2C crash :%d\n", + __func__, self->ioexp_id); + break; + } + SWPS_DEBUG("IOEXP-%d: unstable :%d\n", + self->ioexp_id, result_val); + } + SWPS_INFO("IOEXP-%d: NORMAL -> ABNORMAL :%d\n", + self->ioexp_id, result_val); + self->state = STATE_IOEXP_ABNORMAL; + return result_val; + + case STATE_IOEXP_ABNORMAL: + result_val = self->update_all(self, show_e, func_name); + if (result_val < 0){ + self->state = STATE_IOEXP_ABNORMAL; + return result_val; + } + SWPS_INFO("IOEXP-%d: ABNORMAL -> NORMAL :%d\n", + self->ioexp_id, result_val); + self->state = STATE_IOEXP_NORMAL; + return 0; + + default: + break; + } + SWPS_ERR("IOEXP-%d: Exception occurs :%d\n", + self->ioexp_id, self->state); + return ERR_IOEXP_UNEXCPT; +} + + +/* ========== Object private functions for check & update ========== + */ +int +common_ioexp_check(struct ioexp_obj_s *self){ + + int result; + + if (self->mode != IOEXP_MODE_POLLING){ + SWPS_ERR("%s: not polling mode :%d\n", + __func__, self->mode); + return ERR_IOEXP_NOTSUPPORT; + } + mutex_lock(&self->lock); + result = self->fsm_4_polling(self); + mutex_unlock(&self->lock); + return result; +} + + +/* ========== Functions for Factory pattern ========== + */ +static struct ioexp_map_s * +get_ioexp_map(int ioexp_type){ + switch (ioexp_type){ + case IOEXP_TYPE_MAGINOLIA_NAB: + return &ioexp_map_magnolia_nab; + case IOEXP_TYPE_MAGINOLIA_7AB: + case IOEXP_TYPE_SPRUCE_7AB: + return &ioexp_map_magnolia_7ab; + case IOEXP_TYPE_REDWOOD_P01P08: + return &ioexp_map_redwood_p01p08_p17p24; + case IOEXP_TYPE_REDWOOD_P09P16: + return &ioexp_map_redwood_p09p16_p25p32; + case IOEXP_TYPE_HUDSON32IGA_P01P08: + return &ioexp_map_hudson32iga_p01p08_p17p24; + case IOEXP_TYPE_HUDSON32IGA_P09P16: + return &ioexp_map_hudson32iga_p09p16_p25p32; + case IOEXP_TYPE_CYPRESS_NABC: + return &ioexp_map_cypress_nabc; + case IOEXP_TYPE_CYPRESS_7ABC: + return &ioexp_map_cypress_7abc; + case IOEXP_TYPE_LAVENDER_P01P08: + return &ioexp_map_lavender_p01p08_p17p24; + case IOEXP_TYPE_LAVENDER_P09P16: + return &ioexp_map_lavender_p09p16_p25p32; + case IOEXP_TYPE_LAVENDER_P65: + return &ioexp_map_lavender_p65; + + default: + return NULL; + } +} + + +int +setup_ioexp_ssize_attr(struct ioexp_obj_s *self, + struct ioexp_map_s *ioexp_map_p, + int ioexp_id, + int ioexp_type, + int run_mode){ + switch (run_mode){ + case IOEXP_MODE_POLLING: /* Direct access device mode */ + case IOEXP_MODE_DIRECT: /* Polling mode, read from cache */ + self->mode = run_mode; + break; + default: + SWPS_ERR("%s: non-defined run_mode:%d\n", + __func__, run_mode); + self->mode = ERR_IOEXP_UNEXCPT; + return ERR_IOEXP_UNEXCPT; + } + self->ioexp_id = ioexp_id; + self->ioexp_type = ioexp_type; + self->ioexp_map_p = ioexp_map_p; + self->state = STATE_IOEXP_INIT; + mutex_init(&self->lock); + return 0; +} + + +static int +setup_addr_mapping(struct ioexp_obj_s *self, + struct ioexp_addr_s *addr_map_p){ + if (!addr_map_p){ + SWPS_ERR("%s: map is null\n", __func__); + return -1; + } + self->ioexp_map_p->map_addr = addr_map_p; + return 0; +} + + +static int +setup_ioexp_public_cb(struct ioexp_obj_s *self, + int ioexp_type){ + + switch (ioexp_type){ + case IOEXP_TYPE_MAGINOLIA_NAB: + self->get_present = common_get_present; + self->get_tx_fault = common_get_tx_fault; + self->get_rxlos = common_get_rxlos; + self->get_tx_disable = common_get_tx_disable; + self->get_reset = ioexp_get_not_support; + self->get_lpmod = ioexp_get_not_support; + self->get_modsel = ioexp_get_not_support; + self->get_hard_rs0 = ioexp_get_not_support; + self->get_hard_rs1 = ioexp_get_not_support; + self->set_tx_disable = common_set_tx_disable; + self->set_reset = ioexp_set_not_support; + self->set_lpmod = ioexp_set_not_support; + self->set_modsel = ioexp_set_not_support; + self->set_hard_rs0 = ioexp_set_not_support; + self->set_hard_rs1 = ioexp_set_not_support; + return 0; + case IOEXP_TYPE_CYPRESS_NABC: + self->get_present = common_get_present; + self->get_tx_fault = common_get_tx_fault; + self->get_rxlos = common_get_rxlos; + self->get_tx_disable = common_get_tx_disable; + self->get_reset = ioexp_get_not_support; + self->get_lpmod = ioexp_get_not_support; + self->get_modsel = ioexp_get_not_support; + self->get_hard_rs0 = common_get_hard_rs0; + self->get_hard_rs1 = common_get_hard_rs1; + self->set_tx_disable = common_set_tx_disable; + self->set_reset = ioexp_set_not_support; + self->set_lpmod = ioexp_set_not_support; + self->set_modsel = ioexp_set_not_support; + self->set_hard_rs0 = common_set_hard_rs0; + self->set_hard_rs1 = common_set_hard_rs1; + return 0; + case IOEXP_TYPE_MAGINOLIA_7AB: + case IOEXP_TYPE_SPRUCE_7AB: + case IOEXP_TYPE_CYPRESS_7ABC: + self->get_present = common_get_present; + self->get_tx_fault = ioexp_get_not_support; + self->get_rxlos = ioexp_get_not_support; + self->get_tx_disable = ioexp_get_not_support; + self->get_reset = common_get_reset; + self->get_lpmod = common_get_lpmod; + self->get_modsel = common_get_modsel; + self->get_hard_rs0 = ioexp_get_not_support; + self->get_hard_rs1 = ioexp_get_not_support; + self->set_tx_disable = ioexp_set_not_support; + self->set_reset = common_set_reset; + self->set_lpmod = common_set_lpmod; + self->set_modsel = common_set_modsel; + self->set_hard_rs0 = ioexp_set_not_support; + self->set_hard_rs1 = ioexp_set_not_support; + return 0; + case IOEXP_TYPE_REDWOOD_P01P08: + case IOEXP_TYPE_REDWOOD_P09P16: + case IOEXP_TYPE_HUDSON32IGA_P01P08: + case IOEXP_TYPE_HUDSON32IGA_P09P16: + case IOEXP_TYPE_LAVENDER_P01P08: + case IOEXP_TYPE_LAVENDER_P09P16: + case IOEXP_TYPE_LAVENDER_P65: + self->get_present = common_get_present; + self->get_tx_fault = ioexp_get_not_support; + self->get_rxlos = ioexp_get_not_support; + self->get_tx_disable = ioexp_get_not_support; + self->get_reset = common_get_reset; + self->get_lpmod = common_get_lpmod; + self->get_modsel = common_get_modsel; + self->get_hard_rs0 = ioexp_get_not_support; + self->get_hard_rs1 = ioexp_get_not_support; + self->set_tx_disable = ioexp_set_not_support; + self->set_reset = common_set_reset; + self->set_lpmod = common_set_lpmod; + self->set_modsel = common_set_modsel; + self->set_hard_rs0 = ioexp_set_not_support; + self->set_hard_rs1 = ioexp_set_not_support; + return 0; + + default: + SWPS_ERR("%s: type:%d incorrect!\n", __func__, ioexp_type); + break; + } + return ERR_IOEXP_UNEXCPT; +} + + +static int +setup_ioexp_private_cb(struct ioexp_obj_s *self, + int ioexp_type){ + + switch (ioexp_type){ + case IOEXP_TYPE_MAGINOLIA_NAB: + case IOEXP_TYPE_MAGINOLIA_7AB: + case IOEXP_TYPE_SPRUCE_7AB: + case IOEXP_TYPE_REDWOOD_P01P08: + case IOEXP_TYPE_REDWOOD_P09P16: + case IOEXP_TYPE_HUDSON32IGA_P01P08: + case IOEXP_TYPE_HUDSON32IGA_P09P16: + case IOEXP_TYPE_CYPRESS_NABC: + case IOEXP_TYPE_CYPRESS_7ABC: + case IOEXP_TYPE_LAVENDER_P01P08: + case IOEXP_TYPE_LAVENDER_P09P16: + case IOEXP_TYPE_LAVENDER_P65: + self->init = common_ioexp_init; + self->check = common_ioexp_check; + self->update_all = common_ioexp_update_all; + self->fsm_4_direct = common_ioexp_fsm_4_direct; + self->fsm_4_polling = common_ioexp_fsm_4_polling; + return 0; + + default: + SWPS_ERR("%s: type:%d incorrect!\n", __func__, ioexp_type); + break; + } + return ERR_IOEXP_UNEXCPT; +} + + +static int +setup_i2c_client_one(struct ioexp_obj_s *self, + int chip_id){ + + char *err_msg = "ERROR"; + struct i2c_adapter *adap = NULL; + struct i2c_client *client = NULL; + struct ioexp_i2c_s *i2c_obj_p = NULL; + struct ioexp_i2c_s *i2c_curr_p = NULL; + + int chan_id = self->ioexp_map_p->map_addr[chip_id].chan_id; + adap = i2c_get_adapter(chan_id); + if(!adap){ + err_msg = "Can not get adap!"; + goto err_ioexp_setup_i2c_1; + } + client = kzalloc(sizeof(*client), GFP_KERNEL); + if (!client){ + err_msg = "Can not kzalloc client!"; + goto err_ioexp_setup_i2c_1; + } + i2c_obj_p = kzalloc(sizeof(*i2c_obj_p), GFP_KERNEL); + if (!i2c_obj_p){ + err_msg = "Can not kzalloc i2c_obj_p!"; + goto err_ioexp_setup_i2c_2; + } + client->adapter = adap; + client->addr = self->ioexp_map_p->map_addr[chip_id].chip_addr; + i2c_obj_p->i2c_client_p = client; + i2c_obj_p->chip_id = chip_id; + i2c_obj_p->next = NULL; + if (!self->i2c_head_p){ + self->i2c_head_p = i2c_obj_p; + } else { + i2c_curr_p = self->i2c_head_p; + while (i2c_curr_p->next){ + i2c_curr_p = i2c_curr_p->next; + } + i2c_curr_p->next = i2c_obj_p; + } + return 0; + +err_ioexp_setup_i2c_2: + kfree(client); +err_ioexp_setup_i2c_1: + SWPS_ERR("%s: %s :%d\n", __func__, err_msg, chan_id); + return -1; +} + + +static int +setup_i2c_client(struct ioexp_obj_s* self){ + + int result; + int chip_id = 0; + + for (chip_id=0; chip_id<(self->ioexp_map_p->chip_amount); chip_id++){ + result = setup_i2c_client_one(self, chip_id); + if (result < 0){ + SWPS_ERR("%s fail! :%d\n", __func__, chip_id); + return -1; + } + } + return 0; +} + + +static int +setup_ioexp_config(struct ioexp_obj_s *self) { + + int chip_id, offset, err_code; + struct ioexp_addr_s *addr_p; + + for (chip_id=0; chip_id<(self->ioexp_map_p->chip_amount); chip_id++){ + addr_p = &(self->ioexp_map_p->map_addr[chip_id]); + if (!addr_p){ + SWPS_ERR("IOEXP config incorrect! :%d \n",chip_id); + return -1; + } + for (offset=0; offset<(self->ioexp_map_p->data_width); offset++){ + + err_code = i2c_smbus_write_byte_data(_get_i2c_client(self, chip_id), + addr_p->conf_offset[offset], + addr_p->conf_default[offset]); + + if (err_code < 0){ + SWPS_INFO("%s: set conf fail! :%d \n", __func__, err_code); + return -2; + } + } + } + return 0; +} + + +struct ioexp_obj_s * +_create_ioexp_obj(int ioexp_id, + int ioexp_type, + struct ioexp_addr_s *addr_map_p, + int run_mode){ + + struct ioexp_map_s* ioexp_map_p; + struct ioexp_obj_s* result_p; + struct ioexp_i2c_s *i2c_curr_p; + struct ioexp_i2c_s *i2c_next_p; + + /* Get layout */ + ioexp_map_p = get_ioexp_map(ioexp_type); + if (!ioexp_map_p){ + SWPS_ERR("%s: Invalid ioexp_type\n", __func__); + goto err_create_ioexp_fail; + } + /* Prepare IOEXP object */ + result_p = kzalloc(sizeof(*result_p), GFP_KERNEL); + if (!result_p){ + SWPS_ERR("%s: kzalloc failure!\n", __func__); + goto err_create_ioexp_fail; + } + /* Prepare static size attributes */ + if (setup_ioexp_ssize_attr(result_p, + ioexp_map_p, + ioexp_id, + ioexp_type, + run_mode) < 0){ + goto err_create_ioexp_setup_attr_fail; + } + /* Prepare address mapping */ + if (setup_addr_mapping(result_p, addr_map_p) < 0){ + goto err_create_ioexp_setup_attr_fail; + } + if (setup_i2c_client(result_p) < 0){ + goto err_create_ioexp_setup_i2c_fail; + } + /* Prepare call back functions of object */ + if (setup_ioexp_public_cb(result_p, ioexp_type) < 0){ + goto err_create_ioexp_setup_i2c_fail; + } + if (setup_ioexp_private_cb(result_p, ioexp_type) < 0){ + goto err_create_ioexp_setup_i2c_fail; + } + return result_p; + +err_create_ioexp_setup_i2c_fail: + i2c_curr_p = result_p->i2c_head_p; + i2c_next_p = result_p->i2c_head_p; + while (i2c_curr_p){ + i2c_next_p = i2c_curr_p->next; + kfree(i2c_curr_p->i2c_client_p); + kfree(i2c_curr_p); + i2c_curr_p = i2c_next_p; + } +err_create_ioexp_setup_attr_fail: + kfree(result_p); +err_create_ioexp_fail: + SWPS_ERR("%s: fail! :%d :%d \n", + __func__, ioexp_id, ioexp_type); + return NULL; +} + + +int +create_ioexp_obj(int ioexp_id, + int ioexp_type, + struct ioexp_addr_s *addr_map_p, + int run_mode){ + + struct ioexp_obj_s *ioexp_p = NULL; + + ioexp_p = _create_ioexp_obj(ioexp_id, ioexp_type, + addr_map_p, run_mode); + if (!ioexp_p){ + return -1; + } + if (ioexp_head_p == NULL){ + ioexp_head_p = ioexp_p; + ioexp_tail_p = ioexp_p; + return 0; + } + ioexp_tail_p->next = ioexp_p; + ioexp_tail_p = ioexp_p; + return 0; +} +EXPORT_SYMBOL(create_ioexp_obj); + + +static int +_init_ioexp_obj(struct ioexp_obj_s* self) { + + char *err_msg = "ERR"; + char *func_name = "_init_ioexp_obj"; + + /* Setup IOEXP configure byte */ + if (setup_ioexp_config(self) < 0){ + err_msg = "setup_ioexp_config fail"; + goto err_init_ioexp_obj; + } + /* Setup default data */ + if (_ioexp_init_handler(self) < 0){ + err_msg = "_ioexp_init_handler fail"; + goto err_init_ioexp_obj; + } + /* Update all */ + if (self->state == STATE_IOEXP_NORMAL){ + if (self->update_all(self, 1, func_name) < 0){ + err_msg = "update_all() fail"; + goto err_init_ioexp_obj; + } + } + return 0; + +err_init_ioexp_obj: + SWPS_DEBUG("%s: %s\n", __func__, err_msg); + return -1; +} + + +int +init_ioexp_objs(void){ + /* Return value: + * 0: Success + * -1: Detect topology error + * -2: SWPS internal error + */ + + struct ioexp_obj_s *curr_p = ioexp_head_p; + + if (!curr_p) { + SWPS_ERR("%s: ioexp_head_p is NULL\n", __func__); + return -2; + } + while (curr_p) { + if (_init_ioexp_obj(curr_p) < 0) { + SWPS_DEBUG("%s: _init_ioexp_obj() fail\n", __func__); + return -1; + } + curr_p = curr_p->next; + } + SWPS_DEBUG("%s: done.\n", __func__); + return 0; +} +EXPORT_SYMBOL(init_ioexp_objs); + + +void +clean_ioexp_objs(void){ + + struct ioexp_i2c_s *i2c_curr_p = NULL; + struct ioexp_i2c_s *i2c_next_p = NULL; + struct ioexp_obj_s *ioexp_next_p = NULL; + struct ioexp_obj_s *ioexp_curr_p = ioexp_head_p; + + if (ioexp_head_p == NULL){ + ioexp_tail_p = NULL; + return; + } + while(ioexp_curr_p){ + ioexp_next_p = ioexp_curr_p->next; + i2c_curr_p = ioexp_curr_p->i2c_head_p; + while (i2c_curr_p) { + i2c_next_p = i2c_curr_p->next; + kfree(i2c_curr_p->i2c_client_p); + kfree(i2c_curr_p); + i2c_curr_p = i2c_next_p; + } + kfree(ioexp_curr_p); + ioexp_curr_p = ioexp_next_p; + } + ioexp_tail_p = NULL; + SWPS_DEBUG("%s: done.\n", __func__); +} +EXPORT_SYMBOL(clean_ioexp_objs); + + +int +check_ioexp_objs(void){ + + struct ioexp_obj_s *ioexp_curr_p = ioexp_head_p; + + while (ioexp_curr_p){ + if ( (ioexp_curr_p->check(ioexp_curr_p)) < 0){ + SWPS_INFO("check IOEXP-%d fail! :%d\n", + ioexp_curr_p->ioexp_id, ioexp_curr_p->ioexp_type); + return -1; + } + ioexp_curr_p = ioexp_curr_p->next; + } + return 0; +} +EXPORT_SYMBOL(check_ioexp_objs); + + +struct ioexp_obj_s * +get_ioexp_obj(int ioexp_id){ + + struct ioexp_obj_s *result_p = NULL; + struct ioexp_obj_s *ioexp_curr_p = ioexp_head_p; + + while(ioexp_curr_p){ + if (ioexp_curr_p->ioexp_id == ioexp_id){ + result_p = ioexp_curr_p; + break; + } + ioexp_curr_p = ioexp_curr_p->next; + } + return result_p; +} +EXPORT_SYMBOL(get_ioexp_obj); + + +void +unlock_ioexp_all(void) { + + struct ioexp_obj_s *ioexp_curr_p = ioexp_head_p; + + while(ioexp_curr_p){ + mutex_unlock(&ioexp_curr_p->lock); + ioexp_curr_p = ioexp_curr_p->next; + } +} +EXPORT_SYMBOL(unlock_ioexp_all); + + +int +lock_ioexp_all(void) { + + struct ioexp_obj_s *ioexp_curr_p = ioexp_head_p; + + while(ioexp_curr_p){ + mutex_lock(&ioexp_curr_p->lock); + ioexp_curr_p = ioexp_curr_p->next; + } + return 0; +} +EXPORT_SYMBOL(lock_ioexp_all); + + +int +check_channel_tier_1(void) { + + if ( (!_is_channel_ready(ioexp_head_p)) && + (!_is_channel_ready(ioexp_tail_p)) ){ + return -1; + } + return 0; +} +EXPORT_SYMBOL(check_channel_tier_1); + + +static int +_scan_channel_tier_1(int force, + int show_err) { + + struct ioexp_obj_s *ioexp_curr_p = ioexp_head_p; + int ready = 0; + + if (!ioexp_curr_p) { + goto err_scan_tier_1_channel; + } + while(ioexp_curr_p) { + ready = _is_channel_ready(ioexp_curr_p); + if ((!ready) && (!force)) { + goto err_scan_tier_1_channel; + } + ioexp_curr_p = ioexp_curr_p->next; + } + return 0; + +err_scan_tier_1_channel: + if (show_err) { + if (ioexp_curr_p) { + SWPS_INFO("%s: IOEXP-%d fail\n", __func__, ioexp_curr_p->ioexp_id); + } else { + SWPS_INFO("%s: IOEXP is null.\n", __func__); + } + } + return -1; +} + + +static int +_scan_channel_tier_1_single(void) { + + int ret = 0; + int chan_id = 0; + int fake_cid = 0; + int fake_offs = 0; + int fake_addr = 0; + struct i2c_adapter *adap = NULL; + struct i2c_client *client = NULL; + + if (ioexp_head_p->ioexp_id != ioexp_tail_p->ioexp_id) { + return 0; + } + /* Setup i2c_client */ + chan_id = ioexp_head_p->ioexp_map_p->map_addr[fake_cid].chan_id; + fake_addr = ioexp_head_p->ioexp_map_p->map_addr[fake_cid].chip_addr; + adap = i2c_get_adapter((chan_id + 1)); + if(!adap){ + SWPS_INFO("%s: Can not get adap!\n", __func__); + return 0; + } + client = kzalloc(sizeof(*client), GFP_KERNEL); + if (!client){ + SWPS_INFO("%s: Can not kzalloc client!\n", __func__); + return 0; + } + client->adapter = adap; + client->addr = fake_addr; + /* Fouce move ioexp ptr to next */ + ret = i2c_smbus_read_byte_data(client, fake_offs); + SWPS_DEBUG("%s: move ioexp_ptr done. :%d\n"); + kfree(client); + return 1; +} + + +int +resync_channel_tier_1(void) { + + char *emsg = "ERR"; + + if (!ioexp_head_p) { + emsg = "ioexp_head_p is NULL"; + goto err_resync_ioexp_status_1; + } + /* Run all */ + if (ioexp_head_p->ioexp_id == ioexp_tail_p->ioexp_id) { + _scan_channel_tier_1_single(); + } else { + _scan_channel_tier_1(1, 0); + } + /* Check all */ + if (_scan_channel_tier_1(0, 1) < 0) { + emsg = "resync tier-1 channel fail"; + goto err_resync_ioexp_status_1; + } + return 0; + +err_resync_ioexp_status_1: + SWPS_ERR("%s: %s\n", __func__, emsg); + return -1; +} +EXPORT_SYMBOL(resync_channel_tier_1); + + + + +MODULE_LICENSE("GPL"); + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/io_expander.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/io_expander.h new file mode 100644 index 00000000..440d671d --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/io_expander.h @@ -0,0 +1,172 @@ +#ifndef IO_EXPANDER_H +#define IO_EXPANDER_H + +#include + + +/* IOEXP type define (SFP series) */ +#define IOEXP_TYPE_MAGINOLIA_NAB (10101) +#define IOEXP_TYPE_CYPRESS_NABC (10102) + +/* IOEXP type define (QSFP series) */ +#define IOEXP_TYPE_MAGINOLIA_7AB (10201) +#define IOEXP_TYPE_REDWOOD_P01P08 (10202) +#define IOEXP_TYPE_REDWOOD_P09P16 (10203) +#define IOEXP_TYPE_HUDSON32IGA_P01P08 (10204) +#define IOEXP_TYPE_HUDSON32IGA_P09P16 (10205) +#define IOEXP_TYPE_SPRUCE_7AB (10206) +#define IOEXP_TYPE_CYPRESS_7ABC (10207) +#define IOEXP_TYPE_LAVENDER_P01P08 (10208) +#define IOEXP_TYPE_LAVENDER_P09P16 (10209) +#define IOEXP_TYPE_LAVENDER_P65 (10210) + +/* IOEXP mode define */ +#define IOEXP_MODE_POLLING (19000) +#define IOEXP_MODE_DIRECT (19001) + +/* IOEXP state define */ +#define STATE_IOEXP_NORMAL (0) +#define STATE_IOEXP_INIT (-1) +#define STATE_IOEXP_ABNORMAL (-2) + +/* IOEXP error code define */ +#define ERR_IOEXP_NOTSUPPORT (-100) +#define ERR_IOEXP_UNINIT (-101) +#define ERR_IOEXP_BADCONF (-102) +#define ERR_IOEXP_ABNORMAL (-103) +#define ERR_IOEXP_NOSTATE (-104) +#define ERR_IOEXP_BADINPUT (-105) +#define ERR_IOEXP_UNEXCPT (-199) + + +#define SWPS_INFO(fmt, args...) printk( KERN_INFO "[SWPS] " fmt, ##args) +#define SWPS_WARN(fmt, args...) printk( KERN_WARNING "[SWPS] " fmt, ##args) +#define SWPS_ERR(fmt, args...) printk( KERN_ERR "[SWPS] " fmt, ##args) + +#ifdef DEBUG_SWPS +# define SWPS_DEBUG(fmt, args...) printk( KERN_DEBUG "[SWPS] " fmt, ##args) +#else +# define SWPS_DEBUG(fmt, args...) +#endif + + +struct ioexp_addr_s { + int chan_id; + int chip_addr; + int read_offset[8]; + int write_offset[8]; + int conf_offset[8]; + uint8_t data_default[8]; + uint8_t conf_default[8]; +}; + +struct ioexp_i2c_s { + int chip_id; + struct i2c_client *i2c_client_p; + struct ioexp_i2c_s *next; +}; + + +struct ioexp_bitmap_s { + int chip_id; /* IOEXP chip id */ + int ioexp_voffset; /* IOEXP virtual offset */ + int bit_shift; +}; + +struct ioexp_map_s { + int chip_amount; /* Number of chips that IOEXP object content */ + int data_width; /* Number of (Read/Write/Config) bytes */ + struct ioexp_addr_s *map_addr; /* Chip address info */ + struct ioexp_bitmap_s map_present[8]; /* IOEXP for SFP / QSFP */ + struct ioexp_bitmap_s map_tx_disable[8]; /* IOEXP for SFP */ + struct ioexp_bitmap_s map_tx_fault[8]; /* IOEXP for SFP */ + struct ioexp_bitmap_s map_rxlos[8]; /* IOEXP for SFP */ + struct ioexp_bitmap_s map_reset[8]; /* IOEXP for QSFP */ + struct ioexp_bitmap_s map_lpmod[8]; /* IOEXP for QSFP */ + struct ioexp_bitmap_s map_modsel[8]; /* IOEXP for QSFP */ + struct ioexp_bitmap_s map_hard_rs0[8]; /* IOEXP for QSFP */ + struct ioexp_bitmap_s map_hard_rs1[8]; /* IOEXP for QSFP */ +}; + +struct ioexp_data_s { + uint8_t data[8]; +}; + +struct ioexp_obj_s { + + /* ============================ + * Object public property + * ============================ + */ + int ioexp_id; + int ioexp_type; + + /* ============================ + * Object private property + * ============================ + */ + struct ioexp_data_s chip_data[16]; /* Max: 8-ioexp in one virt-ioexp(ioexp_obj) */ + struct ioexp_map_s *ioexp_map_p; + struct ioexp_obj_s *next; + struct ioexp_i2c_s *i2c_head_p; + struct mutex lock; + int mode; + int state; + + /* =========================================== + * Object public functions + * =========================================== + */ + int (*get_present)(struct ioexp_obj_s *self, int virt_offset); + int (*get_tx_fault)(struct ioexp_obj_s *self, int virt_offset); + int (*get_rxlos)(struct ioexp_obj_s *self, int virt_offset); + int (*get_tx_disable)(struct ioexp_obj_s *self, int virt_offset); + int (*get_reset)(struct ioexp_obj_s *self, int virt_offset); + int (*get_lpmod)(struct ioexp_obj_s *self, int virt_offset); + int (*get_modsel)(struct ioexp_obj_s *self, int virt_offset); + int (*get_hard_rs0)(struct ioexp_obj_s *self, int virt_offset); + int (*get_hard_rs1)(struct ioexp_obj_s *self, int virt_offset); + int (*set_tx_disable)(struct ioexp_obj_s *self, int virt_offset, int input_val); + int (*set_reset)(struct ioexp_obj_s *self, int virt_offset, int input_val); + int (*set_lpmod)(struct ioexp_obj_s *self, int virt_offset, int input_val); + int (*set_modsel)(struct ioexp_obj_s *self, int virt_offset, int input_val); + int (*set_hard_rs0)(struct ioexp_obj_s *self, int virt_offset, int input_val); + int (*set_hard_rs1)(struct ioexp_obj_s *self, int virt_offset, int input_val); + + /* =========================================== + * Object private functions + * =========================================== + */ + int (*init)(struct ioexp_obj_s *self); + int (*check)(struct ioexp_obj_s *self); + int (*update_all)(struct ioexp_obj_s *self, int show_err, char *caller_name); + int (*fsm_4_direct)(struct ioexp_obj_s* self); + int (*fsm_4_polling)(struct ioexp_obj_s* self); +}; + + +struct ioexp_obj_s* get_ioexp_obj(int ioexp_id); +int create_ioexp_obj(int ioexp_id, + int ioexp_type, + struct ioexp_addr_s *addr_map_p, + int run_mode); +int init_ioexp_objs(void); +int check_ioexp_objs(void); +void clean_ioexp_objs(void); + +void unlock_ioexp_all(void); +int lock_ioexp_all(void); + +int check_channel_tier_1(void); +int resync_channel_tier_1(void); + +/* Macro for bit control */ +#define SWP_BIT_SET(byte_val,bit_shift) ((byte_val) |= (1<<(bit_shift))) +#define SWP_BIT_CLEAR(byte_val,bit_shift) ((byte_val) &= ~(1<<(bit_shift))) + + +#endif /* IO_EXPANDER_H */ + + + + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/onie_tlvinfo.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/onie_tlvinfo.c new file mode 100644 index 00000000..303ffde7 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/onie_tlvinfo.c @@ -0,0 +1,820 @@ +#include +#include +#include +#include +//#include +#include + +//#include +//#include +#include "onie_tlvinfo.h" + +/* Set to 1 if we've read EEPROM into memory */ +static int has_been_read = 0; + +int read_sys_eeprom(struct i2c_client *pi2c_client,void *eeprom_data, int offset, int len); +int write_sys_eeprom(struct i2c_client *pi2c_client, void *eeprom_data, int len); + +static inline int is_multicast_ether_addr(const u_int8_t *addr) +{ + return 0x01 & addr[0]; +} + +static inline int is_zero_ether_addr(const u_int8_t *addr) +{ + return !(addr[0] | addr[1] | addr[2] | addr[3] | addr[4] | addr[5]); +} + +static inline int is_valid_ether_addr(const u_int8_t *addr) +{ + return !is_multicast_ether_addr(addr) && !is_zero_ether_addr(addr); +} + +#if 0 +static unsigned int crc32(unsigned char const *p, unsigned int len) +{ + int i; + unsigned int crc = 0; + while (len--) { + crc ^= *p++; + for (i = 0; i < 8; i++) + crc = (crc >> 1) ^ ((crc & 1) ? 0xedb88320 : 0); + } + return crc; +} +#else +static unsigned long crc32_tab[] = { + 0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419, 0x706af48f, + 0xe963a535, 0x9e6495a3, 0x0edb8832, 0x79dcb8a4, 0xe0d5e91e, 0x97d2d988, + 0x09b64c2b, 0x7eb17cbd, 0xe7b82d07, 0x90bf1d91, 0x1db71064, 0x6ab020f2, + 0xf3b97148, 0x84be41de, 0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7, + 0x136c9856, 0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9, + 0xfa0f3d63, 0x8d080df5, 0x3b6e20c8, 0x4c69105e, 0xd56041e4, 0xa2677172, + 0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b, 0x35b5a8fa, 0x42b2986c, + 0xdbbbc9d6, 0xacbcf940, 0x32d86ce3, 0x45df5c75, 0xdcd60dcf, 0xabd13d59, + 0x26d930ac, 0x51de003a, 0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423, + 0xcfba9599, 0xb8bda50f, 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924, + 0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, 0x76dc4190, 0x01db7106, + 0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f, 0x9fbfe4a5, 0xe8b8d433, + 0x7807c9a2, 0x0f00f934, 0x9609a88e, 0xe10e9818, 0x7f6a0dbb, 0x086d3d2d, + 0x91646c97, 0xe6635c01, 0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e, + 0x6c0695ed, 0x1b01a57b, 0x8208f4c1, 0xf50fc457, 0x65b0d9c6, 0x12b7e950, + 0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3, 0xfbd44c65, + 0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2, 0x4adfa541, 0x3dd895d7, + 0xa4d1c46d, 0xd3d6f4fb, 0x4369e96a, 0x346ed9fc, 0xad678846, 0xda60b8d0, + 0x44042d73, 0x33031de5, 0xaa0a4c5f, 0xdd0d7cc9, 0x5005713c, 0x270241aa, + 0xbe0b1010, 0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f, + 0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17, 0x2eb40d81, + 0xb7bd5c3b, 0xc0ba6cad, 0xedb88320, 0x9abfb3b6, 0x03b6e20c, 0x74b1d29a, + 0xead54739, 0x9dd277af, 0x04db2615, 0x73dc1683, 0xe3630b12, 0x94643b84, + 0x0d6d6a3e, 0x7a6a5aa8, 0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1, + 0xf00f9344, 0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb, + 0x196c3671, 0x6e6b06e7, 0xfed41b76, 0x89d32be0, 0x10da7a5a, 0x67dd4acc, + 0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5, 0xd6d6a3e8, 0xa1d1937e, + 0x38d8c2c4, 0x4fdff252, 0xd1bb67f1, 0xa6bc5767, 0x3fb506dd, 0x48b2364b, + 0xd80d2bda, 0xaf0a1b4c, 0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55, + 0x316e8eef, 0x4669be79, 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236, + 0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, 0xc5ba3bbe, 0xb2bd0b28, + 0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31, 0x2cd99e8b, 0x5bdeae1d, + 0x9b64c2b0, 0xec63f226, 0x756aa39c, 0x026d930a, 0x9c0906a9, 0xeb0e363f, + 0x72076785, 0x05005713, 0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38, + 0x92d28e9b, 0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, 0x86d3d2d4, 0xf1d4e242, + 0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1, 0x18b74777, + 0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c, 0x8f659eff, 0xf862ae69, + 0x616bffd3, 0x166ccf45, 0xa00ae278, 0xd70dd2ee, 0x4e048354, 0x3903b3c2, + 0xa7672661, 0xd06016f7, 0x4969474d, 0x3e6e77db, 0xaed16a4a, 0xd9d65adc, + 0x40df0b66, 0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9, + 0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605, 0xcdd70693, + 0x54de5729, 0x23d967bf, 0xb3667a2e, 0xc4614ab8, 0x5d681b02, 0x2a6f2b94, + 0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, 0x2d02ef8d +}; + +static unsigned long crc32(unsigned char const *buf, unsigned int size) +{ + unsigned char *p = buf; + unsigned long crc = 0; + + crc = crc ^ ~0U; + + while (size--) + crc = crc32_tab[(crc ^ *p++) & 0xFF] ^ (crc >> 8); + + return crc ^ ~0U; +} +#endif + +static int set_bytes(char *buf, const char *string, int * converted_accum) +{ + char *p = (char *) string; + int i; + uint byte; + + if (!p) { + printk("ERROR: NULL string passed in.\n"); + return -1; + } + /* Convert string to bytes */ + for (i = 0, p = (char *)string; (i < TLV_VALUE_MAX_LEN) && (*p != 0); + i++) { + while ((*p == ' ') || (*p == '\t') || (*p == ',') || + (*p == ';')) { + p++; + } + if (*p != 0) { + if (!isdigit(*p)) { + printk("ERROR: Non-digit found in byte string: (%s)\n", string); + return -1; + } + byte = strtoul(p, &p, 0); + if (byte >= 256) { + printk("ERROR: The value specified is greater than 255: (%u) " \ + "in string: %s\n", byte, string); + return -1; + } + buf[i] = byte & 0xFF; + } + } + if ((i == TLV_VALUE_MAX_LEN) && (*p != 0)) { + printk("ERROR: Trying to assign too many bytes " + "(max: %d) in string: %s\n", TLV_VALUE_MAX_LEN, string); + return -1; + } + *converted_accum = i; + return 0; +} + +/* + * set_date + * + * Validates the format of the data string + * + * This function takes a pointer to a date string (i.e. MM/DD/YYYY hh:mm:ss) + * and validates that the format is correct. If so the string is copied + * to the supplied buffer. + */ +static int set_date(char *buf, const char *string) +{ + int i; + + if (!string) { + printk("ERROR: NULL date string passed in.\n"); + return -1; + } + if (strlen(string) != 19) { + printk("ERROR: Date strlen() != 19 -- %d\n", strlen(string)); + printk("ERROR: Bad date format (MM/DD/YYYY hh:mm:ss): %s\n", string); + return -1; + } + for (i = 0; string[i] != 0; i++) { + switch (i) { + case 2: + case 5: + if (string[i] != '/') { + printk("ERROR: Bad date format (MM/DD/YYYY hh:mm:ss): %s\n", + string); + return -1; + } + break; + case 10: + if (string[i] != ' ') { + printk("ERROR: Bad date format (MM/DD/YYYY hh:mm:ss): %s\n", + string); + return -1; + } + break; + case 13: + case 16: + if (string[i] != ':') { + printk("ERROR: Bad date format (MM/DD/YYYY hh:mm:ss): %s\n", + string); + return -1; + } + break; + default: + if (!isdigit(string[i])) { + printk("ERROR: Bad date format (MM/DD/YYYY hh:mm:ss): %s\n", + string); + return -1; + } + break; + } + } + strcpy(buf, string); + return 0; +} + +/* + * is_valid_tlv + * + * Perform basic sanity checks on a TLV field. The TLV is pointed to + * by the parameter provided. + * 1. The type code is not reserved (0x00 or 0xFF) + */ +static inline bool is_valid_tlv(tlvinfo_tlv_t *tlv) +{ + return((tlv->type != 0x00) && (tlv->type != 0xFF)); +} + +/* + * set_mac + * + * Converts a string MAC address into a binary buffer. + * + * This function takes a pointer to a MAC address string + * (i.e."XX:XX:XX:XX:XX:XX", where "XX" is a two-digit hex number). + * The string format is verified and then converted to binary and + * stored in a buffer. + */ +static int set_mac(char *buf, const char *string) +{ + char *p = (char *) string; + int i; + int err = 0; + char *end; + + if (!p) { + printk("ERROR: NULL mac addr string passed in.\n"); + return -1; + } + if (strlen(p) != 17) { + printk("ERROR: MAC address strlen() != 17 -- %d\n", strlen(p)); + printk("ERROR: Bad MAC address format: %s\n", string); + return -1; + } + for (i = 0; i < 17; i++) { + if ((i % 3) == 2) { + if (p[i] != ':') { + err++; + printk("ERROR: mac: p[%i] != :, found: `%c'\n", + i, p[i]); + break; + } + continue; + } else if (!isxdigit(p[i])) { + err++; + printk("ERROR: mac: p[%i] != hex digit, found: `%c'\n", + i, p[i]); + break; + } + } + if (err != 0) { + printk("ERROR: Bad MAC address format: %s\n", string); + return -1; + } + /* Convert string to binary */ + for (i = 0, p = (char *)string; i < 6; i++) { + buf[i] = p ? strtoul(p, &end, 16) : 0; + if (p) { + p = (*end) ? end + 1 : end; + } + } + if (!is_valid_ether_addr((char *)buf)) { + printk("ERROR: MAC address must not be 00:00:00:00:00:00, " + "a multicast address or FF:FF:FF:FF:FF:FF.\n"); + printk("ERROR: Bad MAC address format: %s\n", string); + return -1; + } + return 0; +} + +/* + * is_valid_tlvinfo_header + * + * Perform sanity checks on the first 11 bytes of the TlvInfo EEPROM + * data pointed to by the parameter: + * 1. First 8 bytes contain null-terminated ASCII string "TlvInfo" + * 2. Version byte is 1 + * 3. Total length bytes contain value which is less than or equal + * to the allowed maximum (2048-11) + * + */ +static inline bool is_valid_tlvinfo_header(tlvinfo_header_t *hdr) +{ + int max_size = TLV_TOTAL_LEN_MAX; + return((strcmp(hdr->signature, TLV_INFO_ID_STRING) == 0) && + (hdr->version == TLV_INFO_VERSION) && + (be16_to_cpu(hdr->totallen) <= max_size) ); +} + +/* + * decode_tlv_value + * + * Decode a single TLV value into a string. + + * The validity of EEPROM contents and the TLV field have been verified + * prior to calling this function. + */ +#define DECODE_NAME_MAX 20 + +static void decode_tlv_value(tlvinfo_tlv_t * tlv, char* value) +{ + int i; + + switch (tlv->type) { + case TLV_CODE_PRODUCT_NAME: + case TLV_CODE_PART_NUMBER: + case TLV_CODE_SERIAL_NUMBER: + case TLV_CODE_MANUF_DATE: + case TLV_CODE_LABEL_REVISION: + case TLV_CODE_PLATFORM_NAME: + case TLV_CODE_ONIE_VERSION: + case TLV_CODE_MANUF_NAME: + case TLV_CODE_MANUF_COUNTRY: + case TLV_CODE_VENDOR_NAME: + case TLV_CODE_DIAG_VERSION: + case TLV_CODE_SERVICE_TAG: + memcpy(value, tlv->value, tlv->length); + value[tlv->length] = 0; + break; + case TLV_CODE_MAC_BASE: + snprintf(value, MAX_STRING_SIZE, "%02X:%02X:%02X:%02X:%02X:%02X", + tlv->value[0], tlv->value[1], tlv->value[2], + tlv->value[3], tlv->value[4], tlv->value[5]); + break; + case TLV_CODE_DEVICE_VERSION: + snprintf(value, MAX_STRING_SIZE, "%u", tlv->value[0]); + break; + case TLV_CODE_MAC_SIZE: + snprintf(value, MAX_STRING_SIZE, "%u", (tlv->value[0] << 8) | tlv->value[1]); + break; + case TLV_CODE_VENDOR_EXT: + value[0] = 0; + for (i = 0; (i < (TLV_DECODE_VALUE_MAX_LEN/5)) && (i < tlv->length); + i++) { + snprintf(value, MAX_STRING_SIZE, "%s 0x%02X", value, tlv->value[i]); + } + break; + case TLV_CODE_CRC_32: + snprintf(value, MAX_STRING_SIZE, "0x%02X%02X%02X%02X", + tlv->value[0], tlv->value[1], tlv->value[2], + tlv->value[3]); + break; + default: + value[0] = 0; + for (i = 0; (i < (TLV_DECODE_VALUE_MAX_LEN/5)) && (i < tlv->length); + i++) { + snprintf(value, MAX_STRING_SIZE, "%s 0x%02X", value, tlv->value[i]); + } + break; + } + +} + +/* + * is_checksum_valid + * + * Validate the checksum in the provided TlvInfo EEPROM data. First, + * verify that the TlvInfo header is valid, then make sure the last + * TLV is a CRC-32 TLV. Then calculate the CRC over the EEPROM data + * and compare it to the value stored in the EEPROM CRC-32 TLV. + */ +static bool is_checksum_valid(u_int8_t *eeprom) +{ + tlvinfo_header_t * eeprom_hdr = (tlvinfo_header_t *) eeprom; + tlvinfo_tlv_t * eeprom_crc; + unsigned int calc_crc; + unsigned int stored_crc; + + // Is the eeprom header valid? + if (!is_valid_tlvinfo_header(eeprom_hdr)) { + return(FALSE); + } + + // Is the last TLV a CRC? + eeprom_crc = (tlvinfo_tlv_t *) &eeprom[sizeof(tlvinfo_header_t) + + be16_to_cpu(eeprom_hdr->totallen) - + (sizeof(tlvinfo_tlv_t) + 4)]; + if ((eeprom_crc->type != TLV_CODE_CRC_32) || (eeprom_crc->length != 4)) { + return(FALSE); + } + + // Calculate the checksum + calc_crc = crc32((void *)eeprom, sizeof(tlvinfo_header_t) + + be16_to_cpu(eeprom_hdr->totallen) - 4); + stored_crc = ((eeprom_crc->value[0] << 24) | (eeprom_crc->value[1] << 16) | + (eeprom_crc->value[2] << 8) | eeprom_crc->value[3]); + + //printk(KERN_ERR "[SWPS] cal_crc =0x%x, stored_crc =0x%x\n", calc_crc, stored_crc); + //return(calc_crc == stored_crc); + return 1; +} + +/* + * update_crc + * + * This function updates the CRC-32 TLV. If there is no CRC-32 TLV, then + * one is added. This function should be called after each update to the + * EEPROM structure, to make sure the CRC is always correct. + */ +static void update_crc(u_int8_t *eeprom) +{ + tlvinfo_header_t * eeprom_hdr = (tlvinfo_header_t *) eeprom; + tlvinfo_tlv_t * eeprom_crc; + unsigned int calc_crc; + + // Is the eeprom header valid? + if (!is_valid_tlvinfo_header(eeprom_hdr)) { + return; + } + // Is the last TLV a CRC? + eeprom_crc = (tlvinfo_tlv_t *) &eeprom[sizeof(tlvinfo_header_t) + + be16_to_cpu(eeprom_hdr->totallen) - + (sizeof(tlvinfo_tlv_t) + 4)]; + if (eeprom_crc->type != TLV_CODE_CRC_32) { + if ((be16_to_cpu(eeprom_hdr->totallen) + sizeof(tlvinfo_tlv_t) + 4) > + TLV_TOTAL_LEN_MAX) { + return; + } + eeprom_crc = (tlvinfo_tlv_t *) &eeprom[sizeof(tlvinfo_header_t) + + be16_to_cpu( + eeprom_hdr->totallen)]; + eeprom_hdr->totallen = cpu_to_be16(be16_to_cpu(eeprom_hdr->totallen) + + sizeof(tlvinfo_tlv_t) + 4); + eeprom_crc->type = TLV_CODE_CRC_32; + } + eeprom_crc->length = 4; + + // Calculate the checksum + calc_crc = crc32((void *)eeprom, + sizeof(tlvinfo_header_t) + + be16_to_cpu(eeprom_hdr->totallen) - 4); + + eeprom_crc->value[0] = (calc_crc >> 24) & 0xFF; + eeprom_crc->value[1] = (calc_crc >> 16) & 0xFF; + eeprom_crc->value[2] = (calc_crc >> 8) & 0xFF; + eeprom_crc->value[3] = (calc_crc >> 0) & 0xFF; +} + +/* + * show_eeprom + * + * Display the contents of the EEPROM + */ + +/* + * read_eeprom + * + * Read the EEPROM into memory, if it hasn't already been read. + */ +int read_eeprom( struct i2c_client *pi2c_client, u_int8_t *eeprom) +{ + int ret; + tlvinfo_header_t *eeprom_hdr = (tlvinfo_header_t *) eeprom; + tlvinfo_tlv_t *eeprom_tlv = (tlvinfo_tlv_t *)&eeprom[ + sizeof(tlvinfo_header_t)]; + + if (has_been_read) + return 0; + + /* Read the header */ + ret = read_sys_eeprom( pi2c_client,(void *)eeprom_hdr, 0, sizeof(tlvinfo_header_t)); + /* If the header was successfully read, read the TLVs */ + if ((ret == 0) && is_valid_tlvinfo_header(eeprom_hdr)) { + ret = read_sys_eeprom( pi2c_client, (void *)eeprom_tlv, sizeof(tlvinfo_header_t), + be16_to_cpu(eeprom_hdr->totallen)); + } + // If the contents are invalid, start over with default contents + if(!is_valid_tlvinfo_header(eeprom_hdr)) + printk(KERN_ERR + "Notice: Invalid TLV header found. Using default contents--1.\n"); + if(!is_checksum_valid(eeprom)) + printk(KERN_ERR + "Notice: Invalid TLV checksum found. Using default contents--2.\n"); + if ( !is_valid_tlvinfo_header(eeprom_hdr) || !is_checksum_valid(eeprom) ){ + strcpy(eeprom_hdr->signature, TLV_INFO_ID_STRING); + eeprom_hdr->version = TLV_INFO_VERSION; + eeprom_hdr->totallen = cpu_to_be16(0); + update_crc(eeprom); + } + has_been_read = 1; + + return ret; +} +EXPORT_SYMBOL(read_eeprom); + +/* + * prog_eeprom + * Write the EEPROM data from CPU memory to the hardware. + */ +int prog_eeprom(struct i2c_client *pi2c_client, u_int8_t * eeprom) +{ + int ret = 0; + tlvinfo_header_t * eeprom_hdr = (tlvinfo_header_t *) eeprom; + int eeprom_len; + + eeprom_len = sizeof(tlvinfo_header_t) + be16_to_cpu(eeprom_hdr->totallen); + ret = write_sys_eeprom( pi2c_client, eeprom, eeprom_len); + if (ret) { + printk("Programming failed.\n"); + return -1; + } + has_been_read = 0; + return 0; +} +EXPORT_SYMBOL(prog_eeprom); + +/* + * tlvinfo_find_tlv + * + * This function finds the TLV with the supplied code in the EERPOM. + * An offset from the beginning of the EEPROM is returned in the + * eeprom_index parameter if the TLV is found. + */ +bool tlvinfo_find_tlv(u_int8_t *eeprom, u_int8_t tcode, + int *eeprom_index) +{ + tlvinfo_header_t * eeprom_hdr = (tlvinfo_header_t *) eeprom; + tlvinfo_tlv_t * eeprom_tlv; + int eeprom_end; + + // Make sure the EEPROM contents are valid + if (!is_valid_tlvinfo_header(eeprom_hdr) || !is_checksum_valid(eeprom)) { + return(FALSE); + } + // Search through the TLVs, looking for the first one which matches the + // supplied type code. + *eeprom_index = sizeof(tlvinfo_header_t); + eeprom_end = sizeof(tlvinfo_header_t) + be16_to_cpu(eeprom_hdr->totallen); + + while (*eeprom_index < eeprom_end) { + eeprom_tlv = (tlvinfo_tlv_t *) &eeprom[*eeprom_index]; + if (!is_valid_tlv(eeprom_tlv)) { + return(FALSE); + } + if (eeprom_tlv->type == tcode) { + return(TRUE); + } + *eeprom_index += sizeof(tlvinfo_tlv_t) + eeprom_tlv->length; + } + return(FALSE); +} + +/* + * tlvinfo_decode_tlv + * + * This function finds the TLV with the supplied code in the EERPOM + * and decodes the value into the buffer provided. + */ +bool tlvinfo_decode_tlv(u_int8_t *eeprom, u_int8_t tcode, char* value) +{ + int eeprom_index; + tlvinfo_tlv_t * eeprom_tlv; + + // Find the TLV and then decode it + + if (tlvinfo_find_tlv(eeprom, tcode, &eeprom_index)) { + eeprom_tlv = (tlvinfo_tlv_t *) &eeprom[eeprom_index]; + decode_tlv_value(eeprom_tlv, value); + return TRUE; + } + + return FALSE; +} +EXPORT_SYMBOL(tlvinfo_decode_tlv); + +/* + * tlvinfo_delete_tlv + * + * This function deletes the TLV with the specified type code from the + * EEPROM. + */ +bool tlvinfo_delete_tlv(u_int8_t * eeprom, u_int8_t code) +{ + int eeprom_index; + int tlength; + tlvinfo_header_t * eeprom_hdr = (tlvinfo_header_t *) eeprom; + tlvinfo_tlv_t * eeprom_tlv; + + // Find the TLV and then move all following TLVs "forward" + if (tlvinfo_find_tlv(eeprom, code, &eeprom_index)) { + eeprom_tlv = (tlvinfo_tlv_t *) &eeprom[eeprom_index]; + tlength = sizeof(tlvinfo_tlv_t) + eeprom_tlv->length; + memcpy(&eeprom[eeprom_index], &eeprom[eeprom_index+tlength], + sizeof(tlvinfo_header_t) + be16_to_cpu(eeprom_hdr->totallen) - + eeprom_index - tlength); + eeprom_hdr->totallen = cpu_to_be16(be16_to_cpu(eeprom_hdr->totallen) - + tlength); + update_crc(eeprom); + return(TRUE); + } + return(FALSE); +} +EXPORT_SYMBOL(tlvinfo_delete_tlv); + +/* + * tlvinfo_add_tlv + * + * This function adds a TLV to the EEPROM, converting the value (a string) to + * the format in which it will be stored in the EEPROM. + */ +#define MAX_TLV_VALUE_LEN 256 +bool tlvinfo_add_tlv(u_int8_t * eeprom, int tcode, char * strval) +{ + tlvinfo_header_t * eeprom_hdr = (tlvinfo_header_t *) eeprom; + tlvinfo_tlv_t * eeprom_tlv; + int new_tlv_len = 0; + u_int32_t value; + char data[MAX_TLV_VALUE_LEN]; + int eeprom_index; + int max_size = TLV_TOTAL_LEN_MAX; + + // Encode each TLV type into the format to be stored in the EERPOM + switch (tcode) { + case TLV_CODE_PRODUCT_NAME: + case TLV_CODE_PART_NUMBER: + case TLV_CODE_SERIAL_NUMBER: + case TLV_CODE_LABEL_REVISION: + case TLV_CODE_PLATFORM_NAME: + case TLV_CODE_ONIE_VERSION: + case TLV_CODE_MANUF_NAME: + case TLV_CODE_MANUF_COUNTRY: + case TLV_CODE_VENDOR_NAME: + case TLV_CODE_DIAG_VERSION: + case TLV_CODE_SERVICE_TAG: + strncpy(data, strval, MAX_TLV_VALUE_LEN); + + if( strlen(strval) >= MAX_TLV_VALUE_LEN ) + new_tlv_len = MAX_TLV_VALUE_LEN; + else + new_tlv_len = strlen(strval); + + break; + case TLV_CODE_DEVICE_VERSION: + value = strtoul(strval, NULL, 0); + if (value >= 256) { + printk("ERROR: Device version must be 255 or less. Value " \ + "supplied: %u", value); + return(FALSE); + } + data[0] = value & 0xFF; + new_tlv_len = 1; + break; + case TLV_CODE_MAC_SIZE: + value = strtoul(strval, NULL, 0); + if (value >= 65536) { + printk("ERROR: MAC Size must be 65535 or less. Value " \ + "supplied: %u", value); + return(FALSE); + } + data[0] = (value >> 8) & 0xFF; + data[1] = value & 0xFF; + new_tlv_len = 2; + break; + case TLV_CODE_MANUF_DATE: + if (set_date(data, strval) != 0) { + return(FALSE); + } + new_tlv_len = 19; + break; + case TLV_CODE_MAC_BASE: + if (set_mac(data, strval) != 0) { + return(FALSE); + } + new_tlv_len = 6; + break; + case TLV_CODE_CRC_32: + printk("WARNING: The CRC TLV is set automatically and cannot be set " \ + "manually.\n"); + return(FALSE); + case TLV_CODE_VENDOR_EXT: + default: + if (set_bytes(data, strval, &new_tlv_len) != 0 ) { + return(FALSE); + } + break; + } + + // Is there room for this TLV? + if ((be16_to_cpu(eeprom_hdr->totallen) + sizeof(tlvinfo_tlv_t) + + new_tlv_len) > max_size) { + printk("ERROR: There is not enough room in the EERPOM to save data.\n"); + return(FALSE); + } + + // Add TLV at the end, overwriting CRC TLV if it exists + if (tlvinfo_find_tlv(eeprom, TLV_CODE_CRC_32, &eeprom_index)) { + eeprom_hdr->totallen = cpu_to_be16(be16_to_cpu(eeprom_hdr->totallen) + - sizeof(tlvinfo_tlv_t) - 4); + } else { + eeprom_index = sizeof(tlvinfo_header_t) + + be16_to_cpu(eeprom_hdr->totallen); + } + eeprom_tlv = (tlvinfo_tlv_t *) &eeprom[eeprom_index]; + eeprom_tlv->type = tcode; + eeprom_tlv->length = new_tlv_len; + memcpy(eeprom_tlv->value, data, new_tlv_len); + + // Update the total length and calculate (add) a new CRC-32 TLV + eeprom_hdr->totallen = cpu_to_be16(be16_to_cpu(eeprom_hdr->totallen) + + sizeof(tlvinfo_tlv_t) + new_tlv_len); + update_crc(eeprom); + + return(TRUE); +} +EXPORT_SYMBOL(tlvinfo_add_tlv); + +/* + * read_sys_eeprom - read the hwinfo from i2c EEPROM + */ +int read_sys_eeprom(struct i2c_client *pi2c_client,void *eeprom_data, int offset, int len) +{ + int iRet = 0; + int i = 0; + unsigned char ucBuf[2]; + u_int8_t *c; + unsigned short usAddr = SYS_EEPROM_OFFSET + offset; + + c = eeprom_data; + for (i = 0; i < len; i++) { + ucBuf[0] = (usAddr & 0xFF00) >> 8; + ucBuf[1] = (usAddr & 0x00FF); + + iRet = i2c_smbus_write_byte_data(pi2c_client, ucBuf[0], ucBuf[1]); + if( iRet < 0 ){ + printk(KERN_ERR"Error!! VPD data read error\n"); + return -1; + } + + *c = i2c_smbus_read_byte(pi2c_client); + c++; usAddr++; + } + return 0; +} + +/* + * write_sys_eeprom - write the hwinfo to i2c EEPROM + */ +int write_sys_eeprom(struct i2c_client *pi2c_client, void *eeprom_data, int len) +{ + int iRet = 0; + int i = 0; + u_int8_t *c; + unsigned short usAddr = SYS_EEPROM_OFFSET; + unsigned char ucBuf[3]; + + c = eeprom_data; + for (i = 0; i < len; i++) { + ucBuf[ 0 ] = (usAddr & 0xFF00) >>8 ; + ucBuf[ 1 ] = (usAddr & 0x00FF); + ucBuf[ 2 ] = *c; + + iRet = i2c_smbus_write_word_data( pi2c_client, ucBuf[0], (ucBuf[2] << 8 | ucBuf[1])); + if (iRet < 0 ){ + printk(KERN_ERR"Error!! VPD data write error . \n"); + return -1; + } + + c++; usAddr++; + msleep_interruptible(10); + } + + return 0; +} + +void update_eeprom_header(u_int8_t *eeprom) +{ + tlvinfo_header_t * eeprom_hdr = (tlvinfo_header_t *) eeprom; + + strcpy(eeprom_hdr->signature, TLV_INFO_ID_STRING); + eeprom_hdr->version = TLV_INFO_VERSION; + eeprom_hdr->totallen = cpu_to_be16(0); + update_crc(eeprom); +} +#if 0 +int find_vpd_data(u_int8_t *eeprom, int i_offset, char *c_buf) +{ + int tlv_end; + int curr_tlv; + tlvinfo_header_t * eeprom_hdr = (tlvinfo_header_t *) eeprom; + tlvinfo_tlv_t * eeprom_tlv; + int iFind = 0; + + if( !is_valid_tlvinfo_header(eeprom_hdr) ) { + printk(KERN_ERR"EEPROM does not contain data in a valid TlvInfo format.\n"); + return -1; + } + + curr_tlv = sizeof(tlvinfo_header_t); + tlv_end = sizeof(tlvinfo_header_t) + be16_to_cpu(eeprom_hdr->totallen); + while(curr_tlv < tlv_end){ + eeprom_tlv = (tlvinfo_tlv_t *) &eeprom[curr_tlv]; + if (!is_valid_tlv(eeprom_tlv)) { + printk(KERN_ERR"Invalid TLV field starting at EEPROM offset %d\n", + curr_tlv); + return -1; + } + + decode_tlv_value(eeprom_tlv, c_buf); + if( eeprom_tlv->type == i_offset){ + iFind = 1; + break; + } + curr_tlv += sizeof(tlvinfo_tlv_t) + eeprom_tlv->length; + } + + if( iFind == 0 ) + return -1; + else + return 0; +} +#endif diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/onie_tlvinfo.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/onie_tlvinfo.h new file mode 100644 index 00000000..74f3c960 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/onie_tlvinfo.h @@ -0,0 +1,150 @@ +/* + * The Definition of the TlvInfo EEPROM format can be found at onie.org or + * github.com/onie + */ +#include +#define strtoul simple_strtoul + +#define FALSE 0 +#define TRUE (!FALSE) +#define MAX_STRING_SIZE 128 +/* + * Tlvinf header: Layout of the header for the TlvInfo format + * + * See the end of this file for details of this eeprom format + */ +struct __attribute__ ((__packed__)) tlvinfo_header_s { + char signature[8]; /* 0x00 - 0x07 EEPROM Tag "TlvInfo" */ + u_int8_t version; /* 0x08 Structure version */ + u_int16_t totallen; /* 0x09 - 0x0A Length of all data which follows */ +}; +typedef struct tlvinfo_header_s tlvinfo_header_t; + +// Header Field Constants +#define TLV_INFO_ID_STRING "TlvInfo" +#define TLV_INFO_VERSION 0x01 +#define TLV_TOTAL_LEN_MAX (SYS_EEPROM_SIZE - sizeof(tlvinfo_header_t)) + +/* + * TlvInfo TLV: Layout of a TLV field + */ +struct __attribute__ ((__packed__)) tlvinfo_tlv_s { + u_int8_t type; + u_int8_t length; + u_int8_t value[0]; +}; +typedef struct tlvinfo_tlv_s tlvinfo_tlv_t; + +/* Maximum length of a TLV value in bytes */ +#define TLV_VALUE_MAX_LEN 255 + +/** + * The TLV Types. + * + * Keep these in sync with tlv_code_list in cmd_sys_eeprom.c + */ +#define TLV_CODE_PRODUCT_NAME 0x21 +#define TLV_CODE_PART_NUMBER 0x22 +#define TLV_CODE_SERIAL_NUMBER 0x23 +#define TLV_CODE_MAC_BASE 0x24 +#define TLV_CODE_MANUF_DATE 0x25 +#define TLV_CODE_DEVICE_VERSION 0x26 +#define TLV_CODE_LABEL_REVISION 0x27 +#define TLV_CODE_PLATFORM_NAME 0x28 +#define TLV_CODE_ONIE_VERSION 0x29 +#define TLV_CODE_MAC_SIZE 0x2A +#define TLV_CODE_MANUF_NAME 0x2B +#define TLV_CODE_MANUF_COUNTRY 0x2C +#define TLV_CODE_VENDOR_NAME 0x2D +#define TLV_CODE_DIAG_VERSION 0x2E +#define TLV_CODE_SERVICE_TAG 0x2F +#define TLV_CODE_VENDOR_EXT 0xFD +#define TLV_CODE_CRC_32 0xFE + +/* + * Struct for displaying the TLV codes and names. + */ +struct tlv_code_desc { + u_int8_t m_code; + char* m_name; +}; + +/* + * List of TLV codes and names. + */ +static const struct tlv_code_desc tlv_code_list[] = { + { TLV_CODE_PRODUCT_NAME , "Product Name"}, + { TLV_CODE_PART_NUMBER , "Part Number"}, + { TLV_CODE_SERIAL_NUMBER , "Serial Number"}, + { TLV_CODE_MAC_BASE , "Base MAC Address"}, + { TLV_CODE_MANUF_DATE , "Manufacture Date"}, + { TLV_CODE_DEVICE_VERSION , "Device Version"}, + { TLV_CODE_LABEL_REVISION , "Label Revision"}, + { TLV_CODE_PLATFORM_NAME , "Platform Name"}, + { TLV_CODE_ONIE_VERSION , "Loader Version"}, + { TLV_CODE_MAC_SIZE , "MAC Addresses"}, + { TLV_CODE_MANUF_NAME , "Manufacturer"}, + { TLV_CODE_MANUF_COUNTRY , "Country Code"}, + { TLV_CODE_VENDOR_NAME , "Vendor Name"}, + { TLV_CODE_DIAG_VERSION , "Diag Version"}, + { TLV_CODE_SERVICE_TAG , "Service Tag"}, + { TLV_CODE_VENDOR_EXT , "Vendor Extension"}, + { TLV_CODE_CRC_32 , "CRC-32"}, +}; + +static inline const char* tlv_type2name(u_int8_t type) +{ + char* name = "Unknown"; + int i; + + for (i = 0; i < sizeof(tlv_code_list)/sizeof(tlv_code_list[0]); i++) { + if (tlv_code_list[i].m_code == type) { + name = tlv_code_list[i].m_name; + break; + } + } + return name; +} + +/* + * The max decode value is currently for the 'raw' type or the 'vendor + * extension' type, both of which have the same decode format. The + * max decode string size is computed as follows: + * + * strlen(" 0xFF") * TLV_VALUE_MAX_LEN + 1 + * + */ +#define TLV_DECODE_VALUE_MAX_LEN ((5 * TLV_VALUE_MAX_LEN) + 1) + + +/* + * Each platform must define the following platform-specific macros + * in sys_eeprom_platform.h: + * SYS_EEPROM_SIZE: size of usable eeprom + * SYS_EEPROM_I2C_DEVICE: i2c-bus + * SYS_EEPROM_I2C_ADDR: address on the bus + * The following may also be defined in sys_eeprom_platform.h, else + * the defaults with take over: + * SYS_EEPROM_MAX_SIZE: Total size of the eeprom + * SYS_EEPROM_OFFSET: offset from where the ONIE header starts + */ +#define SYS_EEPROM_MAX_SIZE 2048 +#define SYS_EEPROM_OFFSET 0 +#define SYS_EEPROM_SIZE SYS_EEPROM_MAX_SIZE +#define SYS_EEPROM_I2C_DEVICE "/dev/i2c-0" +#define SYS_EEPROM_I2C_ADDR 0x53 + +#if (SYS_EEPROM_SIZE + SYS_EEPROM_OFFSET > SYS_EEPROM_MAX_SIZE) + #error SYS_EEPROM_SIZE + SYS_EEPROM_OFFSET is greater than SYS_EEPROM_MAX_SIZE +#endif + +// Access functions to onie_tlvinfo +void show_eeprom(u_int8_t *eeprom); +int read_eeprom(struct i2c_client *pi2c_client, u_int8_t *eeprom); +int prog_eeprom(struct i2c_client *pi2c_client,u_int8_t * eeprom); +void update_eeprom_header(u_int8_t *eeprom); +bool tlvinfo_find_tlv(u_int8_t *eeprom, u_int8_t tcode, int *eeprom_index); +bool tlvinfo_delete_tlv(u_int8_t * eeprom, u_int8_t code); +bool tlvinfo_add_tlv(u_int8_t * eeprom, int tcode, char * strval); +bool tlvinfo_decode_tlv(u_int8_t *eeprom, u_int8_t tcode, char* value); +//int find_vpd_data(u_int8_t *eeprom, int i_offset, char *c_buf); diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/transceiver.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/transceiver.c new file mode 100644 index 00000000..a4a509a8 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/transceiver.c @@ -0,0 +1,8220 @@ +#include +#include +#include +#include +#include +#include "io_expander.h" +#include "transceiver.h" + + +/* ========== Register EEPROM address mapping ========== + */ +struct eeprom_map_s eeprom_map_sfp = { + .addr_br =0x50, .page_br =-1, .offset_br =12, .length_br =1, + .addr_cdr =-1, .page_cdr =-1, .offset_cdr =-1, .length_cdr =-1, + .addr_comp_rev =0x50, .page_comp_rev =-1, .offset_comp_rev =94, .length_comp_rev =1, + .addr_connector =0x50, .page_connector =-1, .offset_connector =2, .length_connector =1, + .addr_diag_type =0x50, .page_diag_type =-1, .offset_diag_type =92 , .length_diag_type =1, + .addr_extbr =-1, .page_extbr =-1, .offset_extbr =-1, .length_extbr =-1, + .addr_ext_id =0x50, .page_ext_id =-1, .offset_ext_id =1, .length_ext_id =1, + .addr_id =0x50, .page_id =-1, .offset_id =0, .length_id =1, + .addr_len_sm =0x50, .page_len_sm =-1, .offset_len_sm =15, .length_len_sm =1, + .addr_len_smf =0x50, .page_len_smf =-1, .offset_len_smf =14, .length_len_smf =1, + .addr_len_om1 =0x50, .page_len_om1 =-1, .offset_len_om1 =17, .length_len_om1 =1, + .addr_len_om2 =0x50, .page_len_om2 =-1, .offset_len_om2 =16, .length_len_om2 =1, + .addr_len_om3 =0x50, .page_len_om3 =-1, .offset_len_om3 =19, .length_len_om3 =1, + .addr_len_om4 =0x50, .page_len_om4 =-1, .offset_len_om4 =18, .length_len_om4 =1, + .addr_option =0x50, .page_option =-1, .offset_option =64, .length_option =2, + .addr_rate_id =0x50, .page_rate_id =-1, .offset_rate_id =13, .length_rate_id =1, + .addr_rx_am =-1, .page_rx_am =-1, .offset_rx_am =-1, .length_rx_am =-1, + .addr_rx_em =0x51, .page_rx_em =-1, .offset_rx_em =115, .length_rx_em =1, + .addr_rx_los =-1, .page_rx_los =-1, .offset_rx_los =-1, .length_rx_los =-1, + .addr_rx_power =0x51, .page_rx_power =-1, .offset_rx_power =104, .length_rx_power =2, + .addr_soft_rs0 =0x51, .page_soft_rs0 =-1, .offset_soft_rs0 =110, .length_soft_rs0 =1, + .addr_soft_rs1 =0x51, .page_soft_rs1 =-1, .offset_soft_rs1 =118, .length_soft_rs0 =1, + .addr_temp =0x51, .page_temp =-1, .offset_temp =96, .length_temp =2, + .addr_trancomp =0x50, .page_trancomp =-1, .offset_trancomp =3, .length_trancomp =8, + .addr_trancomp_ext =0x50, .page_trancomp_ext =-1, .offset_trancomp_ext =36, .length_trancomp_ext =1, + .addr_tx_bias =0x51, .page_tx_bias =-1, .offset_tx_bias =100, .length_tx_bias =2, + .addr_tx_disable =-1, .page_tx_disable =-1, .offset_tx_disable =-1, .length_tx_disable =-1, + .addr_tx_eq =0x51, .page_tx_eq =-1, .offset_tx_eq =114, .length_tx_eq =1, + .addr_tx_fault =-1, .page_tx_fault =-1, .offset_tx_fault =-1, .length_tx_fault =-1, + .addr_tx_power =0x51, .page_tx_power =-1, .offset_tx_power =102, .length_tx_power =2, + .addr_vendor_name =0x50, .page_vendor_name =-1, .offset_vendor_name =20, .length_vendor_name =16, + .addr_vendor_pn =0x50, .page_vendor_pn =-1, .offset_vendor_pn =40, .length_vendor_pn =16, + .addr_vendor_rev =0x50, .page_vendor_rev =-1, .offset_vendor_rev =56, .length_vendor_rev =4, + .addr_vendor_sn =0x50, .page_vendor_sn =-1, .offset_vendor_sn =68, .length_vendor_sn =16, + .addr_voltage =0x51, .page_voltage =-1, .offset_voltage =98, .length_voltage =2, + .addr_wavelength =0x50, .page_wavelength =-1, .offset_wavelength =60, .length_wavelength =2, +}; + +struct eeprom_map_s eeprom_map_qsfp = { + .addr_br =0x50, .page_br =0, .offset_br =140, .length_br =1, + .addr_cdr =-1, .page_cdr =-1, .offset_cdr =-1, .length_cdr =-1, + .addr_comp_rev =0x50, .page_comp_rev =-1, .offset_comp_rev =1, .length_comp_rev =1, + .addr_connector =0x50, .page_connector =0, .offset_connector =130, .length_connector =1, + .addr_diag_type =0x50, .page_diag_type =0, .offset_diag_type =220, .length_diag_type =1, + .addr_extbr =0x50, .page_extbr =0, .offset_extbr =222, .length_extbr =1, + .addr_ext_id =0x50, .page_ext_id =0, .offset_ext_id =129, .length_ext_id =1, + .addr_id =0x50, .page_id =0, .offset_id =128, .length_id =1, + .addr_len_sm =-1, .page_len_sm =-1, .offset_len_sm =-1, .length_len_sm =-1, + .addr_len_smf =0x50, .page_len_smf =0, .offset_len_smf =142, .length_len_smf =1, + .addr_len_om1 =0x50, .page_len_om1 =0, .offset_len_om1 =145, .length_len_om1 =1, + .addr_len_om2 =0x50, .page_len_om2 =0, .offset_len_om2 =144, .length_len_om2 =1, + .addr_len_om3 =0x50, .page_len_om3 =0, .offset_len_om3 =143, .length_len_om3 =1, + .addr_len_om4 =0x50, .page_len_om4 =0, .offset_len_om4 =146, .length_len_om4 =1, + .addr_option =0x50, .page_option =0, .offset_option =193, .length_option =3, + .addr_rate_id =-1, .page_rate_id =-1, .offset_rate_id =-1, .length_rate_id =-1, + .addr_rx_am =-1, .page_rx_am =-1, .offset_rx_am =-1, .length_rx_am =-1, + .addr_rx_em =-1, .page_rx_em =-1, .offset_rx_em =-1, .length_rx_em =-1, + .addr_rx_los =0x50, .page_rx_los =-1, .offset_rx_los =3, .length_rx_los =1, + .addr_rx_power =0x50, .page_rx_power =-1, .offset_rx_power =34, .length_rx_power =8, + .addr_soft_rs0 =-1, .page_soft_rs0 =-1, .offset_soft_rs0 =-1, .length_soft_rs0 =-1, + .addr_soft_rs1 =-1, .page_soft_rs1 =-1, .offset_soft_rs1 =-1, .length_soft_rs0 =-1, + .addr_temp =0x50, .page_temp =-1, .offset_temp =22, .length_temp =2, + .addr_trancomp =0x50, .page_trancomp =0, .offset_trancomp =131, .length_trancomp =8, + .addr_trancomp_ext =0x50, .page_trancomp_ext =0, .offset_trancomp_ext =192, .length_trancomp_ext =1, + .addr_tx_bias =0x50, .page_tx_bias =-1, .offset_tx_bias =42, .length_tx_bias =8, + .addr_tx_disable =0x50, .page_tx_disable =-1, .offset_tx_disable =86, .length_tx_disable =1, + .addr_tx_eq =-1, .page_tx_eq =-1, .offset_tx_eq =-1, .length_tx_eq =-1, + .addr_tx_fault =0x50, .page_tx_fault =-1, .offset_tx_fault =4, .length_tx_fault =1, + .addr_tx_power =0x50, .page_tx_power =-1, .offset_tx_power =50, .length_tx_power =8, + .addr_vendor_name =0x50, .page_vendor_name =0, .offset_vendor_name =148, .length_vendor_name =16, + .addr_vendor_pn =0x50, .page_vendor_pn =0, .offset_vendor_pn =168, .length_vendor_pn =16, + .addr_vendor_rev =0x50, .page_vendor_rev =0, .offset_vendor_rev =184, .length_vendor_rev =2, + .addr_vendor_sn =0x50, .page_vendor_sn =0, .offset_vendor_sn =196, .length_vendor_sn =16, + .addr_voltage =0x50, .page_voltage =-1, .offset_voltage =26, .length_voltage =2, + .addr_wavelength =0x50, .page_wavelength =0, .offset_wavelength =186, .length_wavelength =2, +}; + +struct eeprom_map_s eeprom_map_qsfp28 = { + .addr_br =0x50, .page_br =0, .offset_br =140, .length_br =1, + .addr_cdr =0x50, .page_cdr =-1, .offset_cdr =98, .length_cdr =1, + .addr_comp_rev =0x50, .page_comp_rev =-1, .offset_comp_rev =1, .length_comp_rev =1, + .addr_connector =0x50, .page_connector =0, .offset_connector =130, .length_connector =1, + .addr_diag_type =0x50, .page_diag_type =0, .offset_diag_type =220, .length_diag_type =1, + .addr_extbr =0x50, .page_extbr =0, .offset_extbr =222, .length_extbr =1, + .addr_ext_id =0x50, .page_ext_id =0, .offset_ext_id =129, .length_ext_id =1, + .addr_id =0x50, .page_id =0, .offset_id =128, .length_id =1, + .addr_len_sm =-1, .page_len_sm =-1, .offset_len_sm =-1, .length_len_sm =-1, + .addr_len_smf =0x50, .page_len_smf =0, .offset_len_smf =142, .length_len_smf =1, + .addr_len_om1 =0x50, .page_len_om1 =0, .offset_len_om1 =145, .length_len_om1 =1, + .addr_len_om2 =0x50, .page_len_om2 =0, .offset_len_om2 =144, .length_len_om2 =1, + .addr_len_om3 =0x50, .page_len_om3 =0, .offset_len_om3 =143, .length_len_om3 =1, + .addr_len_om4 =0x50, .page_len_om4 =0, .offset_len_om4 =146, .length_len_om4 =1, + .addr_option =0x50, .page_option =0, .offset_option =193, .length_option =3, + .addr_rate_id =-1, .page_rate_id =-1, .offset_rate_id =-1, .length_rate_id =-1, + .addr_rx_am =0x50, .page_rx_am =3, .offset_rx_am =238, .length_rx_am =2, + .addr_rx_em =0x50, .page_rx_em =3, .offset_rx_em =236, .length_rx_em =2, + .addr_rx_los =0x50, .page_rx_los =-1, .offset_rx_los =3, .length_rx_los =1, + .addr_rx_power =0x50, .page_rx_power =-1, .offset_rx_power =34, .length_rx_power =8, + .addr_soft_rs0 =-1, .page_soft_rs0 =-1, .offset_soft_rs0 =-1, .length_soft_rs0 =-1, + .addr_soft_rs1 =-1, .page_soft_rs1 =-1, .offset_soft_rs1 =-1, .length_soft_rs0 =-1, + .addr_temp =0x50, .page_temp =-1, .offset_temp =22, .length_temp =2, + .addr_trancomp =0x50, .page_trancomp =0, .offset_trancomp =131, .length_trancomp =8, + .addr_trancomp_ext =0x50, .page_trancomp_ext =0, .offset_trancomp_ext =192, .length_trancomp_ext =1, + .addr_tx_bias =0x50, .page_tx_bias =-1, .offset_tx_bias =42, .length_tx_bias =8, + .addr_tx_disable =0x50, .page_tx_disable =-1, .offset_tx_disable =86, .length_tx_disable =1, + .addr_tx_eq =0x50, .page_tx_eq =3, .offset_tx_eq =234, .length_tx_eq =2, + .addr_tx_fault =0x50, .page_tx_fault =-1, .offset_tx_fault =4, .length_tx_fault =1, + .addr_tx_power =0x50, .page_tx_power =-1, .offset_tx_power =50, .length_tx_power =8, + .addr_vendor_name =0x50, .page_vendor_name =0, .offset_vendor_name =148, .length_vendor_name =16, + .addr_vendor_pn =0x50, .page_vendor_pn =0, .offset_vendor_pn =168, .length_vendor_pn =16, + .addr_vendor_rev =0x50, .page_vendor_rev =0, .offset_vendor_rev =184, .length_vendor_rev =2, + .addr_vendor_sn =0x50, .page_vendor_sn =0, .offset_vendor_sn =196, .length_vendor_sn =16, + .addr_voltage =0x50, .page_voltage =-1, .offset_voltage =26, .length_voltage =2, + .addr_wavelength =0x50, .page_wavelength =0, .offset_wavelength =186, .length_wavelength =2, +}; + + +/* ========== Utility Functions ========== + */ +static int +get_bit(uint8_t origin_byte, int bit_shift) { + return (int)((origin_byte >> bit_shift) & 0x1); +} + +static int +transform_word_to_int(uint8_t hight_byte, + uint8_t low_byte) { + return ((((int)hight_byte) << 8) + (int)low_byte); +} + +void +alarm_msg_2_user(struct transvr_obj_s *self, + char *emsg) { + + SWPS_ERR("%s on %s.\n", emsg, self->swp_name); +} +EXPORT_SYMBOL(alarm_msg_2_user); + + +/* ========== Private functions ========== + */ +static int +_reload_transvr_obj(struct transvr_obj_s *self,int new_type); + +static int +reload_transvr_obj(struct transvr_obj_s *self,int new_type); + +static int +_is_transvr_support_ctle(struct transvr_obj_s *self); + +static int +_transvr_init_handler(struct transvr_obj_s *self); + +int +_transvr_clean_handler(struct transvr_obj_s *self); + +int +_sfp_detect_class_by_1g_ethernet(struct transvr_obj_s* self); + + +void +lock_transvr_obj(struct transvr_obj_s *self) { + + mutex_lock(&self->lock); + self->curr_page = VAL_TRANSVR_PAGE_FREE; +} +EXPORT_SYMBOL(lock_transvr_obj); + + +void +unlock_transvr_obj(struct transvr_obj_s *self) { + + self->curr_page = VAL_TRANSVR_PAGE_FREE; + mutex_unlock(&self->lock); +} +EXPORT_SYMBOL(unlock_transvr_obj); + + +static int +_check_by_mode(struct transvr_obj_s *self, + int (*attr_update_func)(struct transvr_obj_s *self, int show_err), + char *caller_name){ + + int return_val = ERR_TRANSVR_UNEXCPT; + + switch (self->mode){ + case TRANSVR_MODE_POLLING: + switch (self->state){ + case STATE_TRANSVR_CONNECTED: + goto ok_check_by_mode_1; + case STATE_TRANSVR_NEW: + case STATE_TRANSVR_INIT: + return ERR_TRANSVR_UNINIT; + case STATE_TRANSVR_DISCONNECTED: + return ERR_TRANSVR_UNPLUGGED; + case STATE_TRANSVR_UNEXCEPTED: + return ERR_TRANSVR_ABNORMAL; + case STATE_TRANSVR_ISOLATED: + return ERR_TRNASVR_BE_ISOLATED; + default: + goto err_check_by_mode_1; + } + goto ok_check_by_mode_1; + + case TRANSVR_MODE_DIRECT: + return_val = self->fsm_4_direct(self, caller_name); + if (return_val < 0){ + return return_val; + } + goto ok_check_by_mode_1; + + default: + goto err_check_by_mode_1; + } + goto ok_check_by_mode_1; + +ok_check_by_mode_1: + return attr_update_func(self, 0); + +err_check_by_mode_1: + SWPS_INFO("_check_by_mode: mode:%d state:%d\n", self->mode, self->state); + return ERR_TRANSVR_UNEXCPT; +} + + +static void +_transvr_clean_retry(struct transvr_obj_s *self) { + self->retry = 0; +} + + +static int +_transvr_handle_retry(struct transvr_obj_s *self, int retry) { + /* Return: 0: keep retry + * -1: stop retry + */ + if (self->retry == 0) { + self->retry = retry; + } + self->retry -= 1; + if (self->retry <= 0) { + _transvr_clean_retry(self); + return -1; + } + return 0; +} + + +static int +_common_setup_page(struct transvr_obj_s *self, + int addr, + int page, + int offset, + int len, + int show_e) { + /* return: + * 0 : OK + * -1 : EEPROM settings incorrect + * -2 : I2C R/W failure + * -3 : Undefined case + */ + int retval = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + /* Check */ + if ((addr < 0) || (offset < 0) || (len < 0)) { + emsg = "EEPROM settings incorrect"; + retval = -1; + goto err_common_setup_page; + } + /* Case1: continue access */ + if ((self->i2c_client_p->addr == addr) && + (self->curr_page == page)) { + return 0; + } + self->i2c_client_p->addr = addr; + /* Case2: select lower page */ + if (page == -1) { + self->curr_page = page; + return 0; + } + /* Case3: select upper page */ + if (page >= 0) { + goto upper_common_setup_page; + } + /* Unexpected case */ + show_e = 1; + emsg = "Unexpected case"; + retval = -3; + goto err_common_setup_page; + +upper_common_setup_page: + if (i2c_smbus_write_byte_data(self->i2c_client_p, + VAL_TRANSVR_PAGE_SELECT_OFFSET, + page) < 0) { + emsg = "I2C R/W failure"; + retval = -2; + //goto err_common_setup_page; //workaround for molex dac 3m cable + } + self->curr_page = page; + mdelay(VAL_TRANSVR_PAGE_SELECT_DELAY); + return 0; + +err_common_setup_page: + if (show_e) { + SWPS_INFO("%s: %s", __func__, emsg); + SWPS_INFO("%s: :0x%02x :%d :%d :%d\n", + __func__, addr, page, offset, len); + } + return retval; +} + +/* +static int +_common_setup_password(struct transvr_obj_s *self, + int addr, + int page, + int offs, + uint8_t pwd[4], + int show_e) { + int i = 0; + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + err = _common_setup_page(self, addr, page, offs, 4, show_e); + if (err < 0){ + emsg = "setup EEPROM page fail"; + goto err_common_setup_password; + } + for (i=0; i<4; i++) { + err = i2c_smbus_write_byte_data(self->i2c_client_p, + (offs + i), + pwd[i]); + if (err < 0){ + emsg = "I2C R/W fail!"; + goto err_common_setup_password; + } + } + return 0; + +err_common_setup_password: + if (show_e) { + SWPS_INFO("%s: %s :%d\n", __func__, emsg, err); + } + return ERR_TRANSVR_UPDATE_FAIL; +} +*/ + +static int +_common_update_uint8_attr(struct transvr_obj_s *self, + int addr, + int page, + int offset, + int len, + uint8_t *buf, + char *caller, + int show_e){ + + int i; + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + err = _common_setup_page(self, addr, page, offset, len, show_e); + if (err < 0){ + emsg = "setup EEPROM page fail"; + goto err_common_update_uint8_attr; + } + for (i=0; ii2c_client_p, (offset + i)); + if (err < 0){ + emsg = "I2C R/W fail!"; + goto err_common_update_uint8_attr; + } + buf[i] = err; + } + return 0; + +err_common_update_uint8_attr: + if (show_e) { + SWPS_INFO("%s: %s :%s :%d\n", + __func__, emsg, caller, err); + } + buf[0] = DEBUG_TRANSVR_HEX_VAL; + return ERR_TRANSVR_UPDATE_FAIL; +} + + +static int +_common_update_int_attr(struct transvr_obj_s *self, + int addr, + int page, + int offset, + int len, + int *buf, + char *caller, + int show_e){ + + int i; + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + err = _common_setup_page(self, addr, page, offset, len, show_e); + if (err < 0){ + emsg = "setup EEPROM page fail"; + goto err_common_update_int_attr; + } + for (i=0; ii2c_client_p, (offset + i)); + if (err < 0){ + emsg = "I2C R/W fail!"; + goto err_common_update_int_attr; + } + buf[i] = (int)err; + } + return 0; + +err_common_update_int_attr: + if (show_e) { + SWPS_INFO("%s: %s :%s :%d\n", + __func__, emsg, caller, err); + } + buf[0] = DEBUG_TRANSVR_INT_VAL; + return ERR_TRANSVR_UPDATE_FAIL; +} + + +static int +_common_update_string_attr(struct transvr_obj_s *self, + int addr, + int page, + int offset, + int len, + char buf[], + char *caller, + int show_e){ + + int i; + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + err = _common_setup_page(self, addr, page, offset, len, show_e); + if (err < 0){ + emsg = "setup EEPROM page fail"; + goto err_common_update_string_attr; + } + for (i=0; ii2c_client_p, (offset + i)); + if (err < 0){ + emsg = "I2C R/W fail!"; + goto err_common_update_string_attr; + } + buf[i] = (char)err; + } + return 0; + +err_common_update_string_attr: + if (show_e) { + SWPS_INFO("%s: %s :%s :%d\n", + __func__, emsg, caller, err); + } + buf[0] = 'e'; + return ERR_TRANSVR_UPDATE_FAIL; +} + + +static int +_common_set_uint8_attr(struct transvr_obj_s *self, + int addr, + int page, + int offset, + uint8_t update, + uint8_t *buf, + char *caller, + int show_e){ + int len = 1; + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + if ((*buf) == update){ + return 0; + } + err = _common_setup_page(self, addr, page, offset, len, show_e); + if (err < 0){ + emsg = "setup EEPROM page fail"; + goto err_common_set_uint8_attr_1; + } + err = i2c_smbus_write_byte_data(self->i2c_client_p, + offset, + update); + if (err < 0){ + emsg = "I2C R/W fail!"; + goto err_common_set_uint8_attr_1; + } + (*buf) = update; + return 0; + +err_common_set_uint8_attr_1: + if (show_e) { + SWPS_INFO("%s: %s :%s :%d\n", + __func__, emsg, caller, err); + } + return ERR_TRANSVR_UPDATE_FAIL; +} + + +static int +_common_set_uint8_array(struct transvr_obj_s *self, + int addr, + int page, + int offs, + int len, + uint8_t update[], + uint8_t buf[], + char *caller, + int show_e){ + int i = 0; + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + err = _common_setup_page(self, addr, page, offs, len, show_e); + if (err < 0){ + emsg = "setup EEPROM page fail"; + goto err_common_set_uint8_attr_1; + } + for (i=0; ii2c_client_p, + (offs + i), + update[i]); + if (err < 0){ + emsg = "I2C R/W fail!"; + goto err_common_set_uint8_attr_1; + } + buf[i] = update[i]; + } + return 0; + +err_common_set_uint8_attr_1: + if (show_e) { + SWPS_INFO("%s: %s :%s :%d :%d\n", + __func__, emsg, caller, err, i); + } + return ERR_TRANSVR_UPDATE_FAIL; +} + + +static int +_common_update_attr_id(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_id, + self->eeprom_map_p->page_id, + self->eeprom_map_p->offset_id, + self->eeprom_map_p->length_id, + &(self->id), + "_common_update_attr_id", + show_err); +} + + +static int +_common_update_attr_extended_id(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_ext_id, + self->eeprom_map_p->page_ext_id, + self->eeprom_map_p->offset_ext_id, + self->eeprom_map_p->length_ext_id, + &(self->ext_id), + "_common_update_attr_extended_id", + show_err); +} + + +static int +_common_update_attr_connector(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_connector, + self->eeprom_map_p->page_connector, + self->eeprom_map_p->offset_connector, + self->eeprom_map_p->length_connector, + &(self->connector), + "_common_update_attr_connector", + show_err); +} + + +static int +_common_update_attr_transvr_comp(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_trancomp, + self->eeprom_map_p->page_trancomp, + self->eeprom_map_p->offset_trancomp, + self->eeprom_map_p->length_trancomp, + self->transvr_comp, + "_common_update_attr_transvr_comp", + show_err); +} + + +static int +_common_update_attr_transvr_comp_ext(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_trancomp_ext, + self->eeprom_map_p->page_trancomp_ext, + self->eeprom_map_p->offset_trancomp_ext, + self->eeprom_map_p->length_trancomp_ext, + &(self->transvr_comp_ext), + "_common_update_attr_transvr_comp_ext", + show_err); +} + + +static int +_common_update_attr_vendor_name(struct transvr_obj_s *self, + int show_err){ + return _common_update_string_attr(self, + self->eeprom_map_p->addr_vendor_name, + self->eeprom_map_p->page_vendor_name, + self->eeprom_map_p->offset_vendor_name, + self->eeprom_map_p->length_vendor_name, + self->vendor_name, + "_common_update_attr_vendor_name", + show_err); +} + + +static int +_common_update_attr_vendor_pn(struct transvr_obj_s *self, + int show_err){ + return _common_update_string_attr(self, + self->eeprom_map_p->addr_vendor_pn, + self->eeprom_map_p->page_vendor_pn, + self->eeprom_map_p->offset_vendor_pn, + self->eeprom_map_p->length_vendor_pn, + self->vendor_pn, + "_common_update_attr_vendor_pn", + show_err); +} + + +static int +_common_update_attr_vendor_rev(struct transvr_obj_s *self, + int show_err){ + return _common_update_string_attr(self, + self->eeprom_map_p->addr_vendor_rev, + self->eeprom_map_p->page_vendor_rev, + self->eeprom_map_p->offset_vendor_rev, + self->eeprom_map_p->length_vendor_rev, + self->vendor_rev, + "_common_update_attr_vendor_rev", + show_err); +} + + +static int +_common_update_attr_vendor_sn(struct transvr_obj_s *self, + int show_err){ + return _common_update_string_attr(self, + self->eeprom_map_p->addr_vendor_sn, + self->eeprom_map_p->page_vendor_sn, + self->eeprom_map_p->offset_vendor_sn, + self->eeprom_map_p->length_vendor_sn, + self->vendor_sn, + "_common_update_attr_vendor_sn", + show_err); +} + + +static int +_common_update_attr_br(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_br, + self->eeprom_map_p->page_br, + self->eeprom_map_p->offset_br, + self->eeprom_map_p->length_br, + &(self->br), + "_common_update_attr_br", + show_err); +} + + +static int +_common_update_attr_len_smf(struct transvr_obj_s *self, + int show_err){ + return _common_update_int_attr(self, + self->eeprom_map_p->addr_len_smf, + self->eeprom_map_p->page_len_smf, + self->eeprom_map_p->offset_len_smf, + self->eeprom_map_p->length_len_smf, + &(self->len_smf), + "_common_update_attr_len_smf", + show_err); +} + + +static int +_common_update_attr_len_om1(struct transvr_obj_s *self, + int show_err){ + return _common_update_int_attr(self, + self->eeprom_map_p->addr_len_om1, + self->eeprom_map_p->page_len_om1, + self->eeprom_map_p->offset_len_om1, + self->eeprom_map_p->length_len_om1, + &(self->len_om1), + "_common_update_attr_len_om1", + show_err); +} + +static int +_common_update_attr_len_om2(struct transvr_obj_s *self, + int show_err){ + return _common_update_int_attr(self, + self->eeprom_map_p->addr_len_om2, + self->eeprom_map_p->page_len_om2, + self->eeprom_map_p->offset_len_om2, + self->eeprom_map_p->length_len_om2, + &(self->len_om2), + "_common_update_attr_len_om2", + show_err); +} + +static int +_common_update_attr_len_om3(struct transvr_obj_s *self, + int show_err){ + return _common_update_int_attr(self, + self->eeprom_map_p->addr_len_om3, + self->eeprom_map_p->page_len_om3, + self->eeprom_map_p->offset_len_om3, + self->eeprom_map_p->length_len_om3, + &(self->len_om3), + "_common_update_attr_len_om3", + show_err); +} + + +static int +_common_update_attr_len_om4(struct transvr_obj_s *self, + int show_err){ + return _common_update_int_attr(self, + self->eeprom_map_p->addr_len_om4, + self->eeprom_map_p->page_len_om4, + self->eeprom_map_p->offset_len_om4, + self->eeprom_map_p->length_len_om4, + &(self->len_om4), + "_common_update_attr_len_om4", + show_err); +} + + +static int +_common_update_attr_option(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_option, + self->eeprom_map_p->page_option, + self->eeprom_map_p->offset_option, + self->eeprom_map_p->length_option, + self->option, + "_common_update_attr_option", + show_err); +} + + +static int +_common_update_attr_comp_rev(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_comp_rev, + self->eeprom_map_p->page_comp_rev, + self->eeprom_map_p->offset_comp_rev, + self->eeprom_map_p->length_comp_rev, + &(self->comp_rev), + "_common_update_attr_comp_rev", + show_err); +} + + +static int +_common_update_attr_diag_type(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_diag_type, + self->eeprom_map_p->page_diag_type, + self->eeprom_map_p->offset_diag_type, + self->eeprom_map_p->length_diag_type, + &(self->diag_type), + "_common_update_attr_diag_type", + show_err); +} + + +static int +_common_update_attr_wavelength(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_wavelength, + self->eeprom_map_p->page_wavelength, + self->eeprom_map_p->offset_wavelength, + self->eeprom_map_p->length_wavelength, + self->wavelength, + "_common_update_attr_wavelength", + show_err); +} + + +int +_common_get_option_value(struct transvr_obj_s *self, + int offset, + int bit_shift) { + /* SFP: + * - option[0] = A0h / 64 + * - option[1] = A0h / 65 + * QSFP: + * - option[0] = 00h / 193 + * - option[1] = 00h / 194 + * - option[2] = 00h / 195 + */ + return (self->option[offset] & (1 << bit_shift)); +} + + +static int +_sfp_update_attr_len_sm(struct transvr_obj_s *self, + int show_err){ + return _common_update_int_attr(self, + self->eeprom_map_p->addr_len_sm, + self->eeprom_map_p->page_len_sm, + self->eeprom_map_p->offset_len_sm, + self->eeprom_map_p->length_len_sm, + &(self->len_sm), + "_common_update_attr_len_sm", + show_err); +} + + +static int +_sfp_update_attr_rate_id(struct transvr_obj_s *self, + int show_err){ + return _common_update_int_attr(self, + self->eeprom_map_p->addr_rate_id, + self->eeprom_map_p->page_rate_id, + self->eeprom_map_p->offset_rate_id, + self->eeprom_map_p->length_rate_id, + &(self->rate_id), + "_sfp_update_attr_rate_id", + show_err); +} + + +static int +_sfp_update_attr_soft_rs0(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_soft_rs0, + self->eeprom_map_p->page_soft_rs0, + self->eeprom_map_p->offset_soft_rs0, + self->eeprom_map_p->length_soft_rs0, + &(self->soft_rs0), + "_sfp_update_attr_soft_rs0", + show_err); +} + + +static int +_sfp_update_attr_soft_rs1(struct transvr_obj_s *self, + int show_err){ + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_soft_rs1, + self->eeprom_map_p->page_soft_rs1, + self->eeprom_map_p->offset_soft_rs1, + self->eeprom_map_p->length_soft_rs1, + &(self->soft_rs1), + "_sfp_update_attr_soft_rs1", + show_err); +} + + +int +_sfp_is_diag_support(struct transvr_obj_s *self){ + + uint8_t bit_mask = 0xC0; /* 1100 0000 */ + uint8_t en_val = 0x40; /* 0100 0000 */ + uint8_t checkval = (self->diag_type & bit_mask); + + if (checkval == en_val) { + return 1; + } + return 0; +} + + +static int +_sfp_update_attr_curr_temp(struct transvr_obj_s *self, + int show_err){ + + if (!(_sfp_is_diag_support(self))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_temp, + self->eeprom_map_p->page_temp, + self->eeprom_map_p->offset_temp, + self->eeprom_map_p->length_temp, + self->curr_temp, + "_sfp_update_attr_curr_temp", + show_err); +} + + +static int +_sfp_update_attr_curr_voltage(struct transvr_obj_s *self, + int show_err){ + + if (!(_sfp_is_diag_support(self))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_voltage, + self->eeprom_map_p->page_voltage, + self->eeprom_map_p->offset_voltage, + self->eeprom_map_p->length_voltage, + self->curr_voltage, + "_sfp_update_attr_curr_voltage", + show_err); +} + + +static int +_sfp_update_attr_curr_tx_bias(struct transvr_obj_s *self, + int show_err){ + + if (!(_sfp_is_diag_support(self))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_bias, + self->eeprom_map_p->page_tx_bias, + self->eeprom_map_p->offset_tx_bias, + self->eeprom_map_p->length_tx_bias, + self->curr_tx_bias, + "_sfp_update_attr_curr_tx_bias", + show_err); +} + + +static int +_sfp_update_attr_curr_tx_power(struct transvr_obj_s *self, + int show_err){ + + if (!(_sfp_is_diag_support(self))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_power, + self->eeprom_map_p->page_tx_power, + self->eeprom_map_p->offset_tx_power, + self->eeprom_map_p->length_tx_power, + self->curr_tx_power, + "_sfp_update_attr_curr_tx_power", + show_err); +} + + +static int +_sfp_update_attr_curr_rx_power(struct transvr_obj_s *self, + int show_err){ + + if (!(_sfp_is_diag_support(self))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_rx_power, + self->eeprom_map_p->page_rx_power, + self->eeprom_map_p->offset_rx_power, + self->eeprom_map_p->length_rx_power, + self->curr_rx_power, + "_sfp_update_attr_curr_rx_power", + show_err); +} + + +static int +_sfp_update_attr_rx_em(struct transvr_obj_s *self, + int show_err){ + + if (!_is_transvr_support_ctle(self)) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_rx_em, + self->eeprom_map_p->page_rx_em, + self->eeprom_map_p->offset_rx_em, + self->eeprom_map_p->length_rx_em, + self->rx_em, + "_sfp_update_attr_rx_em", + show_err); +} + + +static int +_sfp_update_attr_tx_eq(struct transvr_obj_s *self, + int show_err){ + + if (!_is_transvr_support_ctle(self)) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_eq, + self->eeprom_map_p->page_tx_eq, + self->eeprom_map_p->offset_tx_eq, + self->eeprom_map_p->length_tx_eq, + self->tx_eq, + "_sfp_update_attr_tx_eq", + show_err); +} + + +static int +_qsfp_update_attr_cdr(struct transvr_obj_s *self, + int show_err){ + if (self->type != TRANSVR_TYPE_QSFP_28){ + self->cdr = DEBUG_TRANSVR_HEX_VAL; + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_cdr, + self->eeprom_map_p->page_cdr, + self->eeprom_map_p->offset_cdr, + self->eeprom_map_p->length_cdr, + &(self->cdr), + "_common_update_attr_cdr", + show_err); +} + + +static int +_qsfg_update_attr_extbr(struct transvr_obj_s *self, + int show_err) { + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_extbr, + self->eeprom_map_p->page_extbr, + self->eeprom_map_p->offset_extbr, + self->eeprom_map_p->length_extbr, + &(self->extbr), + "_common_update_attr_extbr", + show_err); +} + + +static int +_qsfp_is_diag_support(struct transvr_obj_s *self, + int diag_type) { + /* Input Parm: diag_type + * => 1 : temperature + * => 2 : voltage + * => 3 : tx relate + * => 4 : rx relate + */ + uint8_t mask_b2 = 0x04; /* 0000 0100 */ + uint8_t mask_b3 = 0x08; /* 0000 1000 */ + + switch (diag_type) { + case 1: /* temperature */ + case 2: /* voltage */ + /* Direct access target, because of spec not defined */ + return 1; + case 3: + case 4: + /* [Note] + * Due to lot of transceiver vendor defined it not rigorously and + * consider of general support, we seem it as supported if there + * are bit-2 OR bit-3 defined by transceiver vendor. + */ + if ( ((self->diag_type & mask_b2) == mask_b2 ) || + ((self->diag_type & mask_b3) == mask_b3 ) ){ + return 1; + } + return 0; + default: + SWPS_INFO("%s: undefined diag_type:%d\n", + __func__, diag_type); + break; + } + return 0; +} + + +int +_qsfp_is_implement_tx_disable(struct transvr_obj_s *self) { + /* + * 00h / Byte-195 / Bit-4 + */ + int byte = 2; + int bit = 4; + return _common_get_option_value(self, byte, bit); +} + + +int +_qsfp_is_implement_tx_fault(struct transvr_obj_s *self) { + /* + * 00h / Byte-195 / Bit-3 + */ + int byte = 2; + int bit = 3; + return _common_get_option_value(self, byte, bit); +} + + +static int +_qsfp_update_attr_curr_temp(struct transvr_obj_s *self, + int show_err){ + int diag_type = 1; + + if (!(_qsfp_is_diag_support(self, diag_type))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_temp, + self->eeprom_map_p->page_temp, + self->eeprom_map_p->offset_temp, + self->eeprom_map_p->length_temp, + self->curr_temp, + "_qsfp_update_attr_curr_temp", + show_err); +} + + +static int +_qsfp_update_attr_curr_voltage(struct transvr_obj_s *self, + int show_err){ + int diag_type = 2; + + if (!(_qsfp_is_diag_support(self, diag_type))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_voltage, + self->eeprom_map_p->page_voltage, + self->eeprom_map_p->offset_voltage, + self->eeprom_map_p->length_voltage, + self->curr_voltage, + "_qsfp_update_attr_curr_voltage", + show_err); +} + + +static int +_qsfp_update_attr_curr_tx_bias(struct transvr_obj_s *self, + int show_err){ + int diag_type = 3; + + if (!(_qsfp_is_diag_support(self, diag_type))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_bias, + self->eeprom_map_p->page_tx_bias, + self->eeprom_map_p->offset_tx_bias, + self->eeprom_map_p->length_tx_bias, + self->curr_tx_bias, + "_qsfp_update_attr_curr_tx_bias", + show_err); +} + + +static int +_qsfp_update_attr_curr_tx_power(struct transvr_obj_s *self, + int show_err){ + int diag_type = 3; + + if (!(_qsfp_is_diag_support(self, diag_type))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_power, + self->eeprom_map_p->page_tx_power, + self->eeprom_map_p->offset_tx_power, + self->eeprom_map_p->length_tx_power, + self->curr_tx_power, + "_qsfp_update_attr_curr_tx_power", + show_err); +} + + +static int +_qsfp_update_attr_curr_rx_power(struct transvr_obj_s *self, + int show_err){ + int diag_type = 4; + + if (!(_qsfp_is_diag_support(self, diag_type))) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_rx_power, + self->eeprom_map_p->page_rx_power, + self->eeprom_map_p->offset_rx_power, + self->eeprom_map_p->length_rx_power, + self->curr_rx_power, + "_qsfp_update_attr_curr_rx_power", + show_err); +} + + +static int +_qsfp_update_attr_soft_rx_los(struct transvr_obj_s *self, + int show_err){ + + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_rx_los, + self->eeprom_map_p->page_rx_los, + self->eeprom_map_p->offset_rx_los, + self->eeprom_map_p->length_rx_los, + &(self->rx_los), + "_qsfp_update_attr_soft_rx_los", + show_err); +} + + +static int +_qsfp_update_attr_soft_tx_disable(struct transvr_obj_s *self, + int show_err){ + + if (!_qsfp_is_implement_tx_disable(self)) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_disable, + self->eeprom_map_p->page_tx_disable, + self->eeprom_map_p->offset_tx_disable, + self->eeprom_map_p->length_tx_disable, + &(self->tx_disable), + "_qsfp_update_attr_soft_tx_disable", + show_err); +} + + +static int +_qsfp_update_attr_soft_tx_fault(struct transvr_obj_s *self, + int show_err){ + + if (!_qsfp_is_implement_tx_fault(self)) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_fault, + self->eeprom_map_p->page_tx_fault, + self->eeprom_map_p->offset_tx_fault, + self->eeprom_map_p->length_tx_fault, + &(self->tx_fault), + "_qsfp_update_attr_soft_tx_fault", + show_err); +} + + +static int +_qsfp_update_attr_tx_eq(struct transvr_obj_s *self, + int show_err){ + + if (!_is_transvr_support_ctle(self)) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_eq, + self->eeprom_map_p->page_tx_eq, + self->eeprom_map_p->offset_tx_eq, + self->eeprom_map_p->length_tx_eq, + self->tx_eq, + "_qsfp_update_attr_tx_eq", + show_err); +} + + +static int +_qsfp_update_attr_rx_am(struct transvr_obj_s *self, + int show_err){ + + if (!_is_transvr_support_ctle(self)) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_rx_am, + self->eeprom_map_p->page_rx_am, + self->eeprom_map_p->offset_rx_am, + self->eeprom_map_p->length_rx_am, + self->rx_am, + "_qsfp_update_attr_rx_am", + show_err); +} + + +static int +_qsfp_update_attr_rx_em(struct transvr_obj_s *self, + int show_err){ + + if (!_is_transvr_support_ctle(self)) { + return ERR_TRANSVR_NOTSUPPORT; + } + return _common_update_uint8_attr(self, + self->eeprom_map_p->addr_rx_em, + self->eeprom_map_p->page_rx_em, + self->eeprom_map_p->offset_rx_em, + self->eeprom_map_p->length_rx_em, + self->rx_em, + "_qsfp_update_attr_rx_em", + show_err); +} + + +int +_common_update_attr_all(struct transvr_obj_s *self, + int show_err){ + + char *err_str = "err"; + + if (_common_update_attr_id(self, show_err) < 0) { + err_str = "_common_update_attr_id"; + goto err_common_update_attr_all; + } + if (_common_update_attr_extended_id(self, show_err) < 0) { + err_str = "_common_update_attr_extended_id"; + goto err_common_update_attr_all; + } + if (_common_update_attr_connector(self, show_err) < 0) { + err_str = "_common_update_attr_connector"; + goto err_common_update_attr_all; + } + if (_common_update_attr_transvr_comp(self, show_err) < 0) { + err_str = "_common_update_attr_transvr_comp"; + goto err_common_update_attr_all; + } + if (_common_update_attr_transvr_comp_ext(self, show_err) < 0) { + err_str = "_common_update_attr_transvr_comp_ext"; + goto err_common_update_attr_all; + } + if (_common_update_attr_vendor_name(self, show_err) < 0) { + err_str = "_common_update_attr_vendor_name"; + goto err_common_update_attr_all; + } + if (_common_update_attr_vendor_pn(self, show_err) < 0) { + err_str = "_common_update_attr_vendor_pn"; + goto err_common_update_attr_all; + } + if (_common_update_attr_vendor_rev(self, show_err) < 0) { + err_str = "_common_update_attr_vendor_rev"; + goto err_common_update_attr_all; + } + if (_common_update_attr_vendor_sn(self, show_err) < 0) { + err_str = "_common_update_attr_vendor_sn"; + goto err_common_update_attr_all; + } + if (_common_update_attr_br(self, show_err) < 0) { + err_str = "_common_update_attr_br"; + goto err_common_update_attr_all; + } + if (_common_update_attr_len_smf(self, show_err) < 0) { + err_str = "_common_update_attr_len_smf"; + goto err_common_update_attr_all; + } + if (_common_update_attr_len_om1(self, show_err) < 0) { + err_str = "_common_update_attr_len_om1"; + goto err_common_update_attr_all; + } + if (_common_update_attr_len_om2(self, show_err) < 0) { + err_str = "_common_update_attr_len_om2"; + goto err_common_update_attr_all; + } + if (_common_update_attr_len_om3(self, show_err) < 0) { + err_str = "_common_update_attr_len_om3"; + goto err_common_update_attr_all; + } + if (_common_update_attr_len_om4(self, show_err) < 0) { + err_str = "_common_update_attr_len_om4"; + goto err_common_update_attr_all; + } + if (_common_update_attr_option(self, show_err) < 0) { + err_str = "_common_update_attr_option"; + goto err_common_update_attr_all; + } + if (_common_update_attr_comp_rev(self, show_err) < 0) { + err_str = "_common_update_attr_comp_rev"; + goto err_common_update_attr_all; + } + if (_common_update_attr_diag_type(self, show_err) < 0) { + err_str = "_common_update_attr_diag_type"; + goto err_common_update_attr_all; + } + if (_common_update_attr_wavelength(self, show_err) < 0) { + err_str = "_common_update_attr_wavelength"; + goto err_common_update_attr_all; + } + return 0; + +err_common_update_attr_all: + if (show_err){ + SWPS_INFO("%s: fail at:%s :%s\n", __func__, err_str, self->swp_name); + } + return -1; +} + + +int +_sfp_update_attr_all(struct transvr_obj_s *self, + int show_err){ + + char *err_str = DEBUG_TRANSVR_STR_VAL; + + if (_common_update_attr_all(self, show_err) < 0){ + err_str = "_common_update_attr_all"; + goto err_sfp_update_attr_all; + } + if (_sfp_update_attr_len_sm(self, show_err) < 0) { + err_str = "_sfp_update_attr_len_sm"; + goto err_sfp_update_attr_all; + } + if (_sfp_update_attr_rate_id(self, show_err) < 0) { + err_str = "_sfp_update_attr_rate_id"; + goto err_sfp_update_attr_all; + } + if ((self->rate_id) > 0) { + if (_sfp_update_attr_soft_rs0(self, show_err) < 0) { + err_str = "_sfp_update_attr_soft_rs0"; + goto err_sfp_update_attr_all; + } + if (_sfp_update_attr_soft_rs1(self, show_err) < 0) { + err_str = "_sfp_update_attr_soft_rs1"; + goto err_sfp_update_attr_all; + } + } + return 0; + +err_sfp_update_attr_all: + if (show_err){ + SWPS_INFO("%s: fail at:%s :%s\n", __func__, err_str, self->swp_name); + } + return -1; +} + + +int +_qsfp_update_attr_all(struct transvr_obj_s *self, + int show_err){ + + char *err_str = DEBUG_TRANSVR_STR_VAL; + + if (_common_update_attr_all(self, show_err) < 0){ + err_str = "_common_update_attr_all"; + goto err_qsfp_update_attr_all; + } + if (_qsfg_update_attr_extbr(self, show_err) < 0) { + err_str = "_qsfg_update_attr_extbr"; + goto err_qsfp_update_attr_all; + } + if (self->type == TRANSVR_TYPE_QSFP_28) { + if (_qsfp_update_attr_cdr(self, 1) < 0) { + err_str = "_qsfp_update_attr_cdr"; + goto err_qsfp_update_attr_all; + } + } + return 0; + +err_qsfp_update_attr_all: + if (show_err){ + SWPS_INFO("%s: fail at:%s :%s\n", __func__, err_str, self->swp_name); + } + return -1; +} + + +/* ========== Object functions for common type ========== + */ +int +_common_count_temp(uint8_t high_byte, + uint8_t low_byte, + char *buf_p) { + int sign = 0; + int high = 0; + int low = 0; + int lmax = 8; + + /* Count high */ + sign = get_bit(high_byte,7); + SWP_BIT_CLEAR(high_byte, 7); + high = (int)high_byte; + if (sign == 1) { + high = 0 - high; + } + /* Count low */ + low = (get_bit(low_byte, 7) * 500); + low += (get_bit(low_byte, 6) * 250); + low += (get_bit(low_byte, 5) * 125); + low += (get_bit(low_byte, 4) * 62); + low = (low / 100); + /* Integrate High and Low */ + return snprintf(buf_p, lmax, "%d.%d\n", high, low); +} + + +int +_common_count_voltage(uint8_t high_byte, + uint8_t low_byte, + char *buf_p) { + /* [Note]: + * Internally measured transceiver supply voltage. Represented + * as a 16 bit unsigned integer with the voltage defined as the + * full 16 bit value (0-65535) with LSB equal to 100 uVolt, + * yielding a total range of 0 to +6.55 Volts. Practical + * considerations to be defined by transceiver manufacturer will + * tend to limit the actual bounds of the supply voltage measurement. + * Accuracy is vendor specific but must be better than 3% of the + * manufacturer's nominal value over specified operating temperature + * and voltage. Note that in some transceivers, transmitter supply + * voltage and receiver supply voltage are isolated. In that case, + * only one supply is monitored. Refer to the device specification + * for more detail. + */ + int total = 0; + int lmax = 8; + int val_i = 0; + int val_f = 0; + /* unit: 100 uV (1mV=1000uV) */ + total = transform_word_to_int(high_byte, low_byte); + val_i = ((total/10) / 1000); + val_f = ((total/10) - (val_i*1000)); + /* Return Unit: 1 Volt */ + return snprintf(buf_p, lmax, "%d.%03d\n", val_i, val_f); +} + + +int +_common_count_tx_bias(uint8_t high_byte, + uint8_t low_byte, + char *buf_p) { + /* [Note] + * Measured TX bias current in uA. Represented as a 16 bit unsigned + * integer with the current defined as the full 16 bit value (0-65535) + * with LSB equal to 2 uA, yielding a total range of 0 to 131 mA. + * Accuracy is vendor specific but must be better than 10% of the + * manufacturer's nominal value over specified operating temperature + * and voltage. + */ + int total = 0; + int lmax = 8; + int val_i = 0; + int val_f = 0; + /* unit: 2 uA (1mA=1000uA) */ + total = transform_word_to_int(high_byte, low_byte); + val_i = ((total*2) / 1000); + val_f = (((total*2) - (val_i*1000)) / 100); + /* Return Unit: 1 mA */ + return snprintf(buf_p, lmax, "%d.%01d\n", val_i, val_f); +} + + +int +_common_count_tx_power(uint8_t high_byte, + uint8_t low_byte, + char *buf_p) { + /* [Note] + * Measured TX output power in mW. Represented as a 16 bit unsigned + * integer with the power defined as the full 16 bit value (0-65535) + * with LSB equal to 0.1 uW, yielding a total range of 0 to 6.5535 mW + * (~ -40 to +8.2 dBm). Data is assumed to be based on measurement of + * laser monitor photodiode current. It is factory calibrated to absolute + * units using the most representative fiber output type. Accuracy is + * vendor specific but must be better than 3dB over specified temperature + * and voltage. Data is not valid when the transmitter is disabled. + */ + int total = 0; + int lmax = 8; + int val_i = 0; + int val_f = 0; + /* unit: 0.1 uW (1mW=1000uW) */ + total = transform_word_to_int(high_byte, low_byte); + val_i = ((total/10) / 1000); + val_f = ((total/10) - (val_i*1000)); + /* Return Unit: 1 mW */ + return snprintf(buf_p, lmax, "%d.%03d\n", val_i, val_f); +} + + +int +_common_count_rx_power(uint8_t high_byte, + uint8_t low_byte, + char *buf_p) { + /* [Note] + * Measured RX received optical power in mW. Value can represent either + * average received power or OMA depending upon how bit 3 of byte 92 (A0h) + * is set. Represented as a 16 bit unsigned integer with the power defined + * as the full 16 bit value (0-65535) with LSB equal to 0.1 uW, yielding a + * total range of 0 to 6.5535 mW (~ -40 to +8.2 dBm). Absolute accuracy is + * dependent upon the exact optical wavelength. For the vendor specified + * wavelength, accuracy shall be better than 3dB over specified temperature + * and voltage. + */ + int total = 0; + int lmax = 8; + int val_i = 0; + int val_f = 0; + /* unit: 0.1 uW (1mW=1000uW) */ + total = transform_word_to_int(high_byte, low_byte); + val_i = ((total/10) / 1000); + val_f = ((total/10) - (val_i*1000)); + /* Return Unit: 1 mW */ + return snprintf(buf_p, lmax, "%d.%03d\n", val_i, val_f); +} + + +int +_common_count_wavelength(struct transvr_obj_s *self, + uint8_t high_byte, + uint8_t low_byte) { + /* [Note] + * SFP : uint 1 um. + * QSFP: unit 0.05 um. + */ + int total = 0; + + total = transform_word_to_int(high_byte, low_byte); + switch (self->type) { + case TRANSVR_TYPE_SFP: + return total; + + case TRANSVR_TYPE_QSFP: + case TRANSVR_TYPE_QSFP_PLUS: + case TRANSVR_TYPE_QSFP_28: + return (total/20); + + default: + break; + } + return ERR_TRANSVR_UNDEFINED; +} + + +int +common_get_id(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_common_update_attr_id, + "common_get_id"); + if (err_code < 0){ + return err_code; + } + /* Transform to INT to show error case */ + return (int)self->id; +} + + +int +common_get_ext_id(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_common_update_attr_extended_id, + "common_get_ext_id"); + if (err_code < 0){ + return err_code; + } + /* Transform to INT to show error case */ + return (int)self->ext_id; +} + + +int +common_get_connector(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_common_update_attr_connector, + "common_get_connector"); + if (err_code < 0){ + return err_code; + } + /* Transform to INT to show error case */ + return (int)self->connector; +} + + +int +common_get_vendor_name(struct transvr_obj_s *self, char *buf){ + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return snprintf(buf, LEN_TRANSVR_M_STR, "%s\n", self->vendor_name); + } + err = _check_by_mode(self, + &_common_update_attr_vendor_name, + "common_get_vendor_name"); + memset(buf, 0, LEN_TRANSVR_M_STR); + if (err < 0){ + return snprintf(buf, LEN_TRANSVR_M_STR, "%d\n", err); + } + return snprintf(buf, LEN_TRANSVR_M_STR, "%s\n", self->vendor_name); +} + + +int +common_get_vendor_pn(struct transvr_obj_s *self, char *buf) { + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return snprintf(buf, LEN_TRANSVR_M_STR, "%s\n", self->vendor_pn); + } + err = _check_by_mode(self, + &_common_update_attr_vendor_pn, + "common_get_vendor_pn"); + memset(buf, 0, LEN_TRANSVR_M_STR); + if (err < 0){ + return snprintf(buf, LEN_TRANSVR_M_STR, "%d\n", err); + } + return snprintf(buf, LEN_TRANSVR_M_STR, "%s\n", self->vendor_pn); +} + + +int +common_get_vendor_rev(struct transvr_obj_s *self, char *buf) { + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return snprintf(buf, LEN_TRANSVR_M_STR, "%s\n", self->vendor_rev); + } + err = _check_by_mode(self, + &_common_update_attr_vendor_rev, + "common_get_vendor_rev"); + memset(buf, 0, LEN_TRANSVR_M_STR); + if (err < 0){ + return snprintf(buf, LEN_TRANSVR_M_STR, "%d\n", err); + } + return snprintf(buf, LEN_TRANSVR_M_STR, "%s\n", self->vendor_rev); +} + + +int +common_get_vendor_sn(struct transvr_obj_s *self, char *buf) { + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return snprintf(buf, LEN_TRANSVR_M_STR, "%s\n", self->vendor_sn); + } + err = _check_by_mode(self, + &_common_update_attr_vendor_sn, + "common_get_vendor_sn"); + memset(buf, 0, LEN_TRANSVR_M_STR); + if (err < 0){ + return snprintf(buf, LEN_TRANSVR_M_STR, "%d\n", err); + } + return snprintf(buf, LEN_TRANSVR_M_STR, "%s\n", self->vendor_sn); +} + + +int +common_get_br(struct transvr_obj_s *self){ + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return (int)self->br; + } + err = _check_by_mode(self, + &_common_update_attr_br, + "common_get_br"); + if (err < 0){ + return err; + } + /* Transform to INT to show error case */ + return (int)self->br; +} + + +int +common_get_len_smf(struct transvr_obj_s *self){ + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return self->len_smf; + } + err = _check_by_mode(self, + &_common_update_attr_len_smf, + "common_get_len_smf"); + if (err < 0){ + return err; + } + return self->len_smf; +} + + +int +common_get_len_om1(struct transvr_obj_s *self){ + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return self->len_om1; + } + err = _check_by_mode(self, + &_common_update_attr_len_om1, + "common_get_len_om1"); + if (err < 0){ + return err; + } + return self->len_om1; +} + + +int +common_get_len_om2(struct transvr_obj_s *self){ + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return self->len_om2; + } + + err = _check_by_mode(self, + &_common_update_attr_len_om2, + "common_get_len_om2"); + if (err < 0){ + return err; + } + return self->len_om2; +} + + +int +common_get_len_om3(struct transvr_obj_s *self){ + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return self->len_om3; + } + + err = _check_by_mode(self, + &_common_update_attr_len_om3, + "common_get_len_om3"); + if (err < 0){ + return err; + } + return self->len_om3; +} + + +int +common_get_len_om4(struct transvr_obj_s *self){ + + int err = DEBUG_TRANSVR_INT_VAL; + + if (self->state == STATE_TRANSVR_CONNECTED && + self->mode == TRANSVR_MODE_POLLING && + TRANSVR_INFO_CACHE_ENABLE) { + return self->len_om4; + } + err = _check_by_mode(self, + &_common_update_attr_len_om4, + "common_get_len_om4"); + if (err < 0){ + return err; + } + return self->len_om4; +} + + +int +common_get_comp_extended(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_common_update_attr_transvr_comp_ext, + "common_get_comp_extended"); + if (err_code < 0){ + return err_code; + } + return self->transvr_comp_ext; +} + + +int +common_get_comp_rev(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_common_update_attr_comp_rev, + "common_get_comp_rev"); + if (err_code < 0){ + return err_code; + } + return self->comp_rev; +} + + +int +common_get_info(struct transvr_obj_s *self){ + + if (self->state != STATE_TRANSVR_CONNECTED) { + return self->state; + } + return self->info; +} + + +int +_common_get_if_lane(struct transvr_obj_s *self, + char *result){ + int i = 0; + int tmp_val = 0; + char tmp_str[LEN_TRANSVR_M_STR] = DEBUG_TRANSVR_STR_VAL; + + memset(result, 0, LEN_TRANSVR_M_STR); + + for (i=0; ilane_id); i++) { + tmp_val = self->lane_id[i]; + if (tmp_val < 1) { + break; + } + memset(tmp_str, 0, LEN_TRANSVR_M_STR); + if (i == 0) { + snprintf(tmp_str, LEN_TRANSVR_M_STR, "%d", tmp_val); + } else { + snprintf(tmp_str, LEN_TRANSVR_M_STR, ",%d", tmp_val); + } + strncat(result, tmp_str, LEN_TRANSVR_M_STR); + } + if (i == 0) { + return EVENT_TRANSVR_TASK_FAIL; + } + return 0; +} + + +int +common_get_if_lane(struct transvr_obj_s *self, + char *buf_p){ + + char tmp_str[LEN_TRANSVR_M_STR] = DEBUG_TRANSVR_STR_VAL; + + if (self->ioexp_obj_p->state != STATE_IOEXP_NORMAL) { + return snprintf(buf_p, LEN_TRANSVR_M_STR, "%d\n", ERR_TRANSVR_ABNORMAL); + } + if (_common_get_if_lane(self, tmp_str) < 0) { + return snprintf(buf_p, LEN_TRANSVR_M_STR, "%d\n" ,ERR_TRANSVR_ABNORMAL); + } + return snprintf(buf_p, LEN_TRANSVR_M_STR, "%s\n" ,tmp_str); +} + + +int +sfp_get_len_sm(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_sfp_update_attr_len_sm, + "sfp_get_len_sm"); + if (err_code < 0){ + return err_code; + } + return self->len_sm; +} + + +int +sfp_get_rate_id(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_sfp_update_attr_rate_id, + "sfp_get_rate_id"); + if (err_code < 0){ + return err_code; + } + return self->rate_id; +} + + +int +sfp_get_soft_rs0(struct transvr_obj_s *self){ + /* Note: + * SFP Soft Rate_Select Select [aka. "RS(0)"] address + * A2h, offset: 110, bit 3 (begin form 0) + */ + int err_code = DEBUG_TRANSVR_INT_VAL; + int bit_shift = 3; + uint8_t result = 0x00; + uint8_t bitmask = (1 << bit_shift); + + /* Check rate identifier is supported */ + err_code = self->get_rate_id(self); + if (err_code <= 0) { + return ERR_TRANSVR_NOTSUPPORT; + } + /* Update and check */ + err_code = _check_by_mode(self, + &_sfp_update_attr_soft_rs0, + "sfp_get_soft_rs0"); + if (err_code <0){ + return err_code; + } + result = (self->soft_rs0 & bitmask); + if (result == bitmask) { + return 1; + } + if (result == 0) { + return 0; + } + return ERR_TRANSVR_UNEXCPT; +} + + +int +sfp_get_soft_rs1(struct transvr_obj_s *self){ + /* Note: + * SFP Soft RS(1) Select address + * A2h, offset: 118, bit 3 (begin form 0) + */ + int err_code = DEBUG_TRANSVR_INT_VAL; + int bit_shift = 3; + uint8_t result = 0x00; + uint8_t bitmask = (1 << bit_shift); + + /* Check rate identifier is supported */ + err_code = self->get_rate_id(self); + if (err_code <= 0) { + return ERR_TRANSVR_NOTSUPPORT; + } + /* Update and check */ + err_code = _check_by_mode(self, + &_sfp_update_attr_soft_rs1, + "sfp_get_soft_rs1"); + if (err_code <0){ + return err_code; + } + result = (self->soft_rs1 & bitmask); + if (result == bitmask) { + return 1; + } + if (result == 0) { + return 0; + } + return ERR_TRANSVR_UNEXCPT; +} + + +int +sfp_get_transvr_temp(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_sfp_update_attr_curr_temp, + "sfp_get_transvr_temp"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_temp[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + return _common_count_temp(self->curr_temp[0], + self->curr_temp[1], + buf_p); +} + + +int +sfp_get_transvr_voltage(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_sfp_update_attr_curr_voltage, + "sfp_get_transvr_voltage"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_voltage[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* Return Unit: 1 Volt */ + return _common_count_voltage(self->curr_voltage[0], + self->curr_voltage[1], + buf_p); +} + + +int +sfp_get_transvr_tx_bias(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_sfp_update_attr_curr_tx_bias, + "sfp_get_transvr_tx_bias"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_tx_bias[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* Return Unit: 1 mA */ + return _common_count_tx_bias(self->curr_tx_bias[0], + self->curr_tx_bias[1], + buf_p); +} + + +int +sfp_get_transvr_tx_power(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_sfp_update_attr_curr_tx_power, + "sfp_get_transvr_tx_power"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_tx_bias[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* Return Unit: 1 mW */ + return _common_count_tx_power(self->curr_tx_power[0], + self->curr_tx_power[1], + buf_p); +} + + +int +sfp_get_transvr_rx_power(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_sfp_update_attr_curr_rx_power, + "sfp_get_transvr_rx_power"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_tx_bias[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* Return Unit: 1 mW */ + return _common_count_rx_power(self->curr_rx_power[0], + self->curr_rx_power[0], + buf_p); +} + + +int +sfp_get_transvr_rx_em(struct transvr_obj_s *self, + char *buf_p) { + + int limt = 8; + int err = DEBUG_TRANSVR_INT_VAL; + + err = _check_by_mode(self, + &_sfp_update_attr_rx_em, + "sfp_get_transvr_rx_em"); + if (err < 0) { + return snprintf(buf_p, limt, "%d\n", err); + } + if ((self->tx_eq[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, limt, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + return snprintf(buf_p, limt, "0x%02x\n", self->rx_em[0]); +} + + +int +sfp_get_transvr_tx_eq(struct transvr_obj_s *self, + char *buf_p) { + + int limt = 8; + int err = DEBUG_TRANSVR_INT_VAL; + + err = _check_by_mode(self, + &_sfp_update_attr_tx_eq, + "sfp_get_transvr_tx_eq"); + if (err < 0) { + return snprintf(buf_p, limt, "%d\n", err); + } + if ((self->tx_eq[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, limt, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + return snprintf(buf_p, limt, "0x%02x\n", self->tx_eq[0]); +} + + +int +_sfp_get_comp_extended(struct transvr_obj_s *self) { + /* Address: A0h / 36 + * Reference: SFF-8024 TABLE 4-4 + */ + if ((self->state == STATE_TRANSVR_CONNECTED) || + (self->state == STATE_TRANSVR_INIT) ) { + return (int)(self->transvr_comp_ext); + } + return ERR_TRANSVR_ABNORMAL; +} + + +int +__sfp_get_comp_attr(struct transvr_obj_s *self, + int array_offset) { + /* SFP Specification Compliance: A0h / 3-10 + * transvr_comp[0-7] = 3 - 10 + */ + if ((self->state == STATE_TRANSVR_CONNECTED) || + (self->state == STATE_TRANSVR_INIT) ) { + return (int)(self->transvr_comp[array_offset]); + } + return ERR_TRANSVR_ABNORMAL; +} + + +int +_sfp_get_comp_10g_eth_comp(struct transvr_obj_s *self) { + /* transvr_comp[0] = address A0h / 3 + * + * 3 7: 10G Base-ER + * 3 6: 10GBASE-LRM + * 3 5: 10GBASE-LR + * 3 4: 10GBASE-SR + */ + int bitmask = 0xf0; /* 11110000 */ + return (__sfp_get_comp_attr(self, 0) & bitmask); +} + + +int +_sfp_get_comp_1g_eth_comp(struct transvr_obj_s *self) { + /* transvr_comp[3] = address A0h / 6 + * + * 6 7: BASE-PX *3 + * 6 6: BASE-BX10 *3 + * 6 5: 100BASE-FX + * 6 4: 100BASE-LX/LX10 + * 6 3: 1000BASE-T + * 6 2: 1000BASE-CX + * 6 1: 1000BASE-LX *3 + * 6 0: 1000BASE-SX + */ + return __sfp_get_comp_attr(self, 3); +} + + +int +_sfp_get_cable_tech(struct transvr_obj_s *self) { + /* transvr_comp[5] = address A0h / 8 + * + * 8 3: Active Cable *8 + * 8 2: Passive Cable *8 + */ + int bitmask = 0x0c; /* 00001100 */ + return (__sfp_get_comp_attr(self, 5) & bitmask); +} + + +int +sfp_get_comp_eth_1(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_common_update_attr_transvr_comp, + "sfp_get_comp_eth_1"); + if (err_code < 0){ + return err_code; + } + return _sfp_get_comp_1g_eth_comp(self); +} + + +int +sfp_get_comp_eth_10(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_common_update_attr_transvr_comp, + "sfp_get_comp_eth_10"); + if (err_code < 0){ + return err_code; + } + return _sfp_get_comp_10g_eth_comp(self); +} + + +int +_sfp_get_connector_type(struct transvr_obj_s *self) { + /* Address: A0h / 2 + * Reference: SFF-8024 TABLE 4-3 + */ + if ((self->state == STATE_TRANSVR_CONNECTED) || + (self->state == STATE_TRANSVR_INIT) ) { + return (int)(self->connector); + } + return ERR_TRANSVR_ABNORMAL; +} + + +int +sfp_get_wavelength(struct transvr_obj_s *self, + char *buf_p) { + /* [Note] Optical and Cable Variants Specification Compliance (SFF-8472) + * [Addr] A0h, Bytes 60-61 + * [Note] For optical variants, as defined by having zero's in A0h Byte 8 + * bits 2 and 3, Bytes 60 and 61 denote nominal transmitter output + * wavelength at room temperature. 16 bit value with byte 60 as high + * order byte and byte 61 as low order byte. The laser wavelength is + * equal to the 16 bit integer value in nm. This field allows the user + * to read the laser wavelength directly, so it is not necessary to + * infer it from the Transceiver Codes A0h Bytes 3 to 10 (see Table + * 5-3). This also allows specification of wavelengths not covered + * in the Transceiver Codes, such as those used in coarse WDM systems. + * + * For passive and active cable variants, a value of 00h for both A0h + * Byte 60 and Byte 61 denotes laser wavelength or cable specification + * compliance is unspecified. + */ + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_common_update_attr_wavelength, + "common_get_wavelength"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->wavelength[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* unit: 1 um */ + return snprintf(buf_p, lmax, "%d\n", + _common_count_wavelength(self, + self->wavelength[0], + self->wavelength[1])); +} + + +int +__qsfp_get_power_cls(struct transvr_obj_s *self, + int direct_access){ + + int err_code; + uint8_t detect_val; + + /* Detect and Update power class attribute */ + if (direct_access){ + err_code = _check_by_mode(self, + &_common_update_attr_extended_id, + "__qsfp_get_power_cls"); + } else { + err_code = self->ext_id; + } + if (err_code <0){ + return err_code; + } + if (err_code == DEBUG_TRANSVR_HEX_VAL){ + return ERR_TRANSVR_UPDATE_FAIL; + } + /* Clean data */ + detect_val = self->ext_id; + SWP_BIT_CLEAR(detect_val, 2); /* Bit2: CDR RX present */ + SWP_BIT_CLEAR(detect_val, 3); /* Bit3: CDR TX present */ + SWP_BIT_CLEAR(detect_val, 4); /* Bit4: CLEI present */ + SWP_BIT_CLEAR(detect_val, 5); /* Bit5: reserved */ + /* Identify power class */ + switch (detect_val) { + case 0: /* Class_1: 00000000 */ + return 1; + case 64: /* Class_2: 01000000 */ + return 2; + case 128: /* Class_3: 10000000 */ + return 3; + case 192: /* Class_4: 11000000 */ + return 4; + case 1: /* Class_5: 00000001 */ + case 193: /* Class_5: 11000001 */ + return 5; + case 2: /* Class_6: 00000010 */ + case 194: /* Class_6: 11000010 */ + return 6; + case 3: /* Class_7: 00000011 */ + case 195: /* Class_7: 11000011 */ + return 7; + default: + break; + } + SWPS_INFO("%s: Detect undefined power class:%d\n", __func__, detect_val); + return ERR_TRANSVR_UNDEFINED; +} + + +int +qsfp_get_power_cls(struct transvr_obj_s *self) { + return __qsfp_get_power_cls(self, 1); +} + + +int +__qsfp_get_cdr_present(struct transvr_obj_s *self, + int direct_access){ + + int retval; + int BIT_SHIFT = 2; + int BIT_MASK = 0x3; + + /* Detect and Update power class attribute */ + if (direct_access) { + retval = _check_by_mode(self, + &_common_update_attr_extended_id, + "__qsfp_get_cdr_present"); + if (retval < 0){ + return retval; + } + } + retval = self->ext_id; + if (retval == DEBUG_TRANSVR_HEX_VAL){ + return ERR_TRANSVR_UPDATE_FAIL; + } + /* Clean data and return */ + return (int)(retval >> BIT_SHIFT & BIT_MASK); +} + + +int +qsfp_get_cdr_present(struct transvr_obj_s *self) { + return __qsfp_get_cdr_present(self, 1); +} + + +int +qsfp_get_cdr(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_qsfp_update_attr_cdr, + "qsfp_get_cdr"); + if (err_code <0){ + return err_code; + } + + return self->cdr; +} + + +int +__qsfp_get_comp_attr(struct transvr_obj_s *self, + int array_offset) { + /* QSFP Specification Compliance: 00h / 131-138 + * transvr_comp[0-7] = 131 - 138 + */ + if ((self->state == STATE_TRANSVR_CONNECTED) || + (self->state == STATE_TRANSVR_INIT) ) { + return (int)(self->transvr_comp[array_offset]); + } + return ERR_TRANSVR_ABNORMAL; +} + + +int +_qsfp_get_comp_10_40_100_ethernet(struct transvr_obj_s *self) { + /* transvr_comp[0] = address 00h / 131 + * + * 131 7: Extended: See section 6.3.23. The Extended Specification Compliance + * Codes are maintained in the Transceiver Management section of SFF- + * 8024. + * 131 6: 10GBASE-LRM + * 131 5: 10GBASE-LR + * 131 4: 10GBASE-SR + * 131 3: 40GBASE-CR4 + * 131 2: 40GBASE-SR4 + * 131 1: 40GBASE-LR4 + * 131 0: 40G Active Cable (XLPPI) + */ + return __qsfp_get_comp_attr(self, 0); +} + + +int +_qsfp_get_comp_sonet(struct transvr_obj_s *self) { + /* transvr_comp[1] = address 00h / 132 + * + * 132 7-3: Reserved + * 132 2: OC 48, long reach + * 132 1: OC 48, intermediate reach + * 132 0: OC 48 short reach + */ + return __qsfp_get_comp_attr(self, 1); +} + + +int +_qsfp_get_comp_sas_sata(struct transvr_obj_s *self) { + /* transvr_comp[1] = address 00h / 132 + * + * 133 7: SAS 24.0 Gb/s + * 133 6: SAS 12.0 Gb/s + * 133 5: SAS 6.0 Gb/s + * 133 4: SAS 3.0 Gb/s + * 133 3-0: Reserved + */ + return __qsfp_get_comp_attr(self, 2); +} + + +int +_qsfp_get_comp_ethernet(struct transvr_obj_s *self) { + /* transvr_comp[1] = address 00h / 132 + * + * 134 7-4: Reserved + * 134 3: 1000BASE-T + * 134 2: 1000BASE-CX + * 134 1: 1000BASE-LX + * 134 0: 1000BASE-SX + */ + return __qsfp_get_comp_attr(self, 3); +} + + +int +_qsfp_get_comp_fc_link_length(struct transvr_obj_s *self) { + /* transvr_comp[1] = address 00h / 132 + * + * 135 7: Very long distance (V) + * 135 6: Short distance (S) + * 135 5: Intermediate distance (I) + * 135 4: Long distance (L) + * 135 3: Medium (M) + */ + int mask = 0xFC; /* 11111100 */ + return (__qsfp_get_comp_attr(self, 4) & mask); +} + + +int +_qsfp_get_comp_fc_trans_tech(struct transvr_obj_s *self) { + /* transvr_comp[1] = address 00h / 132 + * + * 135 2: Reserved + * 135 1: Longwave laser (LC) + * 135 0: Electrical inter-enclosure (EL) + * + * 136 7: Electrical intra-enclosure + * 136 6: Shortwave laser w/o OFC (SN) + * 136 5: Shortwave laser w OFC (SL) + * 136 4: Longwave Laser (LL) + * 136 3-0: Reserved + * + * return value = [bit 8-15:addr 135][bit 0-7:addr 136] + */ + int mask_135 = 7; /* 00000111 */ + int val_135 = (__qsfp_get_comp_attr(self, 4) & mask_135); + int val_136 = __qsfp_get_comp_attr(self, 5); + return ((val_135 << 7) + val_136); +} + + +int +_qsfp_get_comp_fc_trans_media(struct transvr_obj_s *self) { + /* transvr_comp[1] = address 00h / 132 + * + * 137 7: Twin Axial Pair (TW) + * 137 6: Shielded Twisted Pair (TP) + * 137 5: Miniature Coax (MI) + * 137 4: Video Coax (TV) + * 137 3: Multi-mode 62.5 m (M6) + * 137 2: Multi-mode 50 m (M5) + * 137 1: Multi-mode 50 um (OM3) + * 137 0: Single Mode (SM) + */ + return __qsfp_get_comp_attr(self, 6); +} + + +int +_qsfp_get_comp_fc_speed(struct transvr_obj_s *self) { + /* transvr_comp[1] = address 00h / 132 + * + * 138 7: 1200 MBps (per channel) + * 138 6: 800 MBps + * 138 5: 1600 MBps (per channel) + * 138 4: 400 MBps + * 138 3: 3200 MBps (per channel) + * 138 2: 200 MBps + * 138 1: Extended: See section 6.3.23. The Extended Specification + * Compliance Codes are maintained in the Transceiver Management + * section of SFF-8024. + * 138 0: 100 MBps + */ + return __qsfp_get_comp_attr(self, 7); +} + + +int +_qsfp_get_comp_extended(struct transvr_obj_s *self) { + /* Address: 00h / 192 + * Reference: SFF-8024 TABLE 4-4 + */ + if ((self->state == STATE_TRANSVR_CONNECTED) || + (self->state == STATE_TRANSVR_INIT) ) { + return (int)(self->transvr_comp_ext); + } + return ERR_TRANSVR_ABNORMAL; +} + + +int +qsfp_get_comp_eth(struct transvr_obj_s *self){ + + int err_code = _check_by_mode(self, + &_common_update_attr_transvr_comp, + "qsfp_get_comp_eth"); + if (err_code < 0){ + return err_code; + } + return _qsfp_get_comp_ethernet(self); +} + + +int +qsfp_get_comp_10_40(struct transvr_obj_s *self) { + + int err_code = _check_by_mode(self, + &_common_update_attr_transvr_comp, + "qsfp_get_comp_10_40"); + if (err_code < 0){ + return err_code; + } + return _qsfp_get_comp_10_40_100_ethernet(self); +} + + +int +_qsfp_get_connector_type(struct transvr_obj_s *self) { + /* Address: 00h / 130 + * Reference: SFF-8024 TABLE 4-3 + */ + if ((self->state == STATE_TRANSVR_CONNECTED) || + (self->state == STATE_TRANSVR_INIT) ) { + return (int)(self->connector); + } + return ERR_TRANSVR_ABNORMAL; +} + + +int +qsfp_get_transvr_temp(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_qsfp_update_attr_curr_temp, + "qsfp_get_transvr_temp"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_temp[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + return _common_count_temp(self->curr_temp[0], + self->curr_temp[1], + buf_p); +} + + +int +qsfp_get_transvr_voltage(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_qsfp_update_attr_curr_voltage, + "qsfp_get_transvr_voltage"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_voltage[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* Return Unit: 1 Volt */ + return _common_count_voltage(self->curr_voltage[0], + self->curr_voltage[1], + buf_p); +} + + +int +qsfp_get_transvr_tx_eq(struct transvr_obj_s *self, + char *buf_p) { + + int limt = 8; + int err = DEBUG_TRANSVR_INT_VAL; + + err = _check_by_mode(self, + &_qsfp_update_attr_tx_eq, + "qsfp_get_transvr_tx_eq"); + if (err < 0) { + return snprintf(buf_p, limt, "%d\n", err); + } + if ((self->tx_eq[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, limt, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + return snprintf(buf_p, limt, "0x%02x%02x\n", + self->tx_eq[0], self->tx_eq[1]); +} + + +int +qsfp_get_transvr_rx_am(struct transvr_obj_s *self, + char *buf_p) { + + int limt = 8; + int err = DEBUG_TRANSVR_INT_VAL; + + err = _check_by_mode(self, + &_qsfp_update_attr_rx_am, + "qsfp_get_transvr_rx_am"); + if (err < 0) { + return snprintf(buf_p, limt, "%d\n", err); + } + if ((self->rx_am[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, limt, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + return snprintf(buf_p, limt, "0x%02x%02x\n", + self->rx_am[0], self->rx_am[1]); +} + + +int +qsfp_get_transvr_rx_em(struct transvr_obj_s *self, + char *buf_p) { + + int limt = 8; + int err = DEBUG_TRANSVR_INT_VAL; + + err = _check_by_mode(self, + &_qsfp_update_attr_rx_em, + "qsfp_get_transvr_rx_em"); + if (err < 0) { + return snprintf(buf_p, limt, "%d\n", err); + } + if ((self->rx_em[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, limt, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + return snprintf(buf_p, limt, "0x%02x%02x\n", + self->rx_em[0], self->rx_em[1]); +} + + +int +_qsfp_get_channel_diag(uint8_t *data_array, + int (*count_func)(uint8_t high_byte, uint8_t low_byte, char *buf_p), + char *ch_name, + char *result_p) { + int i, high, low; + int len_max = 128; + char ch_buf[4][16] = { DEBUG_TRANSVR_STR_VAL, + DEBUG_TRANSVR_STR_VAL, + DEBUG_TRANSVR_STR_VAL, + DEBUG_TRANSVR_STR_VAL }; + + for (i=0; i<4; i++) { + high = (i*2); + low = ((i*2) + 1); + count_func(data_array[high], data_array[low], ch_buf[i]); + } + return snprintf(result_p, len_max, + "%s-%d:%s%s-%d:%s%s-%d:%s%s-%d:%s", + ch_name, 1, ch_buf[0], + ch_name, 2, ch_buf[1], + ch_name, 3, ch_buf[2], + ch_name, 4, ch_buf[3]); +} + + +int +qsfp_get_soft_rx_los(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int mask = 0x0f; /* Bit 0 ~ Bit 3 */ + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_qsfp_update_attr_soft_rx_los, + "qsfp_get_soft_rx_los"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + return snprintf(buf_p, lmax, "0x%02x\n", (self->rx_los & mask)); +} + + +int +qsfp_get_soft_tx_disable(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int mask = 0x0f; /* Bit 0 ~ Bit 3 */ + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_qsfp_update_attr_soft_tx_disable, + "qsfp_get_soft_tx_disable"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + return snprintf(buf_p, lmax, "0x%02x\n", (self->tx_disable & mask)); +} + + +int +qsfp_get_soft_tx_fault(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int mask = 0x0f; /* Bit 0 ~ Bit 3 */ + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_qsfp_update_attr_soft_tx_fault, + "qsfp_get_soft_tx_fault"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + return snprintf(buf_p, lmax, "0x%02x\n", (self->tx_fault & mask)); +} + + +int +qsfp_get_auto_tx_disable(struct transvr_obj_s *self, + char *buf_p) { + + if (self->auto_tx_disable == VAL_TRANSVR_FUNCTION_DISABLE) { + return snprintf(buf_p, LEN_TRANSVR_S_STR, + "%d\n", ERR_TRANSVR_FUNC_DISABLE); + } + return snprintf(buf_p, LEN_TRANSVR_S_STR, + "0x%02x\n", self->auto_tx_disable); +} + + +int +qsfp_get_transvr_tx_bias(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + char *ch_name = "TX"; + + err_code = _check_by_mode(self, + &_qsfp_update_attr_curr_tx_bias, + "qsfp_get_transvr_tx_bias"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_tx_bias[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* Return Unit: 1 mA */ + return _qsfp_get_channel_diag(self->curr_tx_bias, + _common_count_tx_bias, + ch_name, + buf_p); +} + + +int +qsfp_get_transvr_tx_power(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + char *ch_name = "TX"; + + err_code = _check_by_mode(self, + &_qsfp_update_attr_curr_tx_power, + "qsfp_get_transvr_tx_power"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_tx_power[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* Return Unit: 1 mW */ + return _qsfp_get_channel_diag(self->curr_tx_power, + _common_count_tx_power, + ch_name, + buf_p); +} + + +int +qsfp_get_transvr_rx_power(struct transvr_obj_s *self, + char *buf_p) { + + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + char *ch_name = "RX"; + + err_code = _check_by_mode(self, + &_qsfp_update_attr_curr_rx_power, + "qsfp_get_transvr_rx_power"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->curr_tx_power[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* Return Unit: 1 mW */ + return _qsfp_get_channel_diag(self->curr_rx_power, + _common_count_rx_power, + ch_name, + buf_p); +} + + +int +qsfp_get_wavelength(struct transvr_obj_s *self, + char *buf_p) { + /* [Desc] Wavelength or Copper Cable Attenuation (SFF-8636) + * [Addr] 00h 186-187 + * [Note] + * For optical free side devices, this parameter identifies the nominal + * transmitter output wavelength at room temperature. This parameter is + * a 16-bit hex value with Byte 186 as high order byte and Byte 187 as + * low order byte. The laser wavelength is equal to the 16-bit integer value + * divided by 20 in nm (units of 0.05 nm). This resolution should be adequate + * to cover all relevant wavelengths yet provide enough resolution for all + * expected DWDM applications. For accurate representation of controlled + * wavelength applications, this value should represent the center of the + * guaranteed wavelength range. + * If the free side device is identified as copper cable these registers will + * be used to define the cable attenuation. An indication of 0 dB attenuation + * refers to the case where the attenuation is not known or is unavailable. + * Byte 186 (00-FFh) is the copper cable attenuation at 2.5 GHz in units of 1 dB. + * Byte 187 (00-FFh) is the copper cable attenuation at 5.0 GHz in units of 1 dB. + */ + int lmax = 8; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _check_by_mode(self, + &_common_update_attr_wavelength, + "common_get_wavelength"); + if (err_code < 0) { + return snprintf(buf_p, lmax, "%d\n", err_code); + } + if ((self->wavelength[0]) == DEBUG_TRANSVR_HEX_VAL) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_UPDATE_FAIL); + } + /* unit: 1 um */ + return snprintf(buf_p, lmax, "%d\n", + _common_count_wavelength(self, + self->wavelength[0], + self->wavelength[1])); +} + + +/* Public Function for Setup Features + */ +static int +__sfp_set_soft_rs(struct transvr_obj_s *self, + int input_val, + int address, + int page, + int offset, + int bit_shift, + uint8_t *attr_p, + char *caller, + int show_err) { + + int retval = ERR_TRANSVR_UNEXCPT; + int err_code = ERR_TRANSVR_UNEXCPT; + char *err_msg = DEBUG_TRANSVR_STR_VAL; + uint8_t update_val = (*attr_p); + + switch (input_val) { + case 0: + SWP_BIT_CLEAR(update_val, bit_shift); + break; + case 1: + SWP_BIT_SET(update_val, bit_shift); + break; + default: + retval = ERR_TRANSVR_UNEXCPT; + err_code = ERR_TRANSVR_UNEXCPT; + err_msg = "Exception occurs"; + goto err_private_sfp_set_soft_rs_1; + } + err_code = _common_set_uint8_attr(self, + address, + page, + offset, + update_val, + attr_p, + caller, + show_err); + if (err_code < 0) { + retval = err_code; + err_msg = "Write data via i2c fail!"; + goto err_private_sfp_set_soft_rs_1; + } + (*attr_p) = update_val; + return 0; + +err_private_sfp_set_soft_rs_1: + if (show_err) { + SWPS_INFO("%s: %s :%d :%s\n :%d\n", + __func__, err_msg, err_code, self->swp_name, input_val); + } + return retval; +} + + +static int +_sfp_set_soft_rs(struct transvr_obj_s *self, + int input_val, + int address, + int page, + int offset, + int bit_shift, + int (*attr_update_func)(struct transvr_obj_s *self, int show_err), + uint8_t *attr_p, + char *caller, + int show_err) { + + int retval = ERR_TRANSVR_UNEXCPT; + int err_code = ERR_TRANSVR_UNEXCPT; + char *err_msg = DEBUG_TRANSVR_STR_VAL; + + /* Check input value */ + if ((input_val != 0) && (input_val != 1)){ + retval = ERR_TRANSVR_BADINPUT; + err_code = ERR_TRANSVR_BADINPUT; + err_msg = "Input range incorrect!"; + goto err_common_sfp_set_soft_rs_1; + } + /* Check rate identifier is supported */ + err_code = self->get_rate_id(self); + if (err_code <= 0) { + switch (err_code) { + case 0: + retval = ERR_TRANSVR_NOTSUPPORT; + err_msg = "Not support this feature"; + break; + case ERR_TRANSVR_UNINIT: + retval = ERR_TRANSVR_UNINIT; + err_msg = "Check CDR present fail!"; + break; + case ERR_TRANSVR_UNPLUGGED: + retval = ERR_TRANSVR_UNPLUGGED; + err_msg = "Transceiver unplugged!"; + break; + default: + retval = err_code; + err_msg = "Check Rate_ID fail!"; + break; + } + goto err_common_sfp_set_soft_rs_1; + } + /* Check and update */ + err_code = _check_by_mode(self, + attr_update_func, + caller); + if ( (err_code < 0) || + ((*attr_p) == DEBUG_TRANSVR_HEX_VAL) ){ + retval = err_code; + err_msg = "Get current value fail!"; + goto err_common_sfp_set_soft_rs_1; + } + /* Generate and update value */ + return __sfp_set_soft_rs(self, + input_val, + address, + page, + offset, + bit_shift, + attr_p, + caller, + show_err); + +err_common_sfp_set_soft_rs_1: + if (show_err) { + SWPS_INFO("%s: %s :%d :%s\n :%d\n", + __func__, err_msg, err_code, self->swp_name, input_val); + } + return retval; +} + + +int +sfp_set_soft_rs0(struct transvr_obj_s *self, + int input_val) { + /* Note: + * SFP Soft Rate_Select Select RX ["RS(0)"] address + * A2h, offset: 110, bit 3 + */ + int bit_shift = 3; + int show_err = 1; + return _sfp_set_soft_rs(self, + input_val, + self->eeprom_map_p->addr_soft_rs0, + self->eeprom_map_p->page_soft_rs0, + self->eeprom_map_p->offset_soft_rs0, + bit_shift, + &_sfp_update_attr_soft_rs0, + &(self->soft_rs0), + "sfp_set_soft_rs0", + show_err); +} + + +int +sfp_set_soft_rs1(struct transvr_obj_s *self, + int input_val) { + /* Note: + * SFP Soft Rate_Select Select RX ["RS(1)"] address + * A2h, offset: 118, bit 3 + */ + int bit_shift = 3; + int show_err = 1; + return _sfp_set_soft_rs(self, + input_val, + self->eeprom_map_p->addr_soft_rs1, + self->eeprom_map_p->page_soft_rs1, + self->eeprom_map_p->offset_soft_rs1, + bit_shift, + &_sfp_update_attr_soft_rs1, + &(self->soft_rs1), + "sfp_set_soft_rs1", + show_err); +} + + +int +__sfp_set_tx_eq(struct transvr_obj_s *self, + int input, + int show_e) { + + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + uint8_t setv = DEBUG_TRANSVR_HEX_VAL; + + if ((input < 0) || (input > 0xFF)) { + emsg = "input incorrect"; + err = ERR_TRANSVR_BADINPUT; + goto err_sfp_set_tx_eq; + } + setv = (uint8_t)input; + if (self->tx_eq[0] == setv) { + return 0; + } + err = _common_set_uint8_attr(self, + self->eeprom_map_p->addr_tx_eq, + self->eeprom_map_p->page_tx_eq, + self->eeprom_map_p->offset_tx_eq, + setv, + &(self->tx_eq[0]), + "_sfp_set_tx_eq", + show_e); + if (err < 0) { + emsg = "set_uint8_attr fail"; + goto err_sfp_set_tx_eq; + } + return 0; + +err_sfp_set_tx_eq: + if (show_e) { + SWPS_INFO("%s: %s :%d\n", __func__, emsg, input); + } + return err; +} + + +int +_sfp_set_tx_eq(struct transvr_obj_s *self, + int input, + int show_e) { + + uint8_t tmp; + int i = 0; + int retry = 3; + + for (i=0; itx_eq[0]; + if (_sfp_update_attr_tx_eq(self, show_e) < 0){ + continue; + } + if (self->tx_eq[0] == tmp){ + return 0; + } + } + return ERR_TRANSVR_UPDATE_FAIL; +} + + +int +sfp_set_tx_eq(struct transvr_obj_s *self, + int input) { + + int err = _check_by_mode(self, + &_sfp_update_attr_tx_eq, + "sfp_set_tx_eq"); + if (err < 0) { + SWPS_DEBUG("%s: check fail :%d\n", __func__, err); + return err; + } + return _sfp_set_tx_eq(self, input, 1); +} + + +int +__sfp_set_rx_em(struct transvr_obj_s *self, + int input, + int show_e) { + + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + uint8_t setv = DEBUG_TRANSVR_HEX_VAL; + + if ((input < 0) || (input > 0xFF)) { + emsg = "input incorrect"; + err = ERR_TRANSVR_BADINPUT; + goto err_sfp_set_rx_em; + } + setv = (uint8_t)input; + if (self->rx_em[0] == setv) { + return 0; + } + err = _common_set_uint8_attr(self, + self->eeprom_map_p->addr_rx_em, + self->eeprom_map_p->page_rx_em, + self->eeprom_map_p->offset_rx_em, + setv, + &(self->rx_em[0]), + "_sfp_set_rx_em", + show_e); + if (err < 0) { + emsg = "set_uint8_attr fail"; + goto err_sfp_set_rx_em; + } + return 0; + +err_sfp_set_rx_em: + if (show_e) { + SWPS_INFO("%s: %s :%d\n", __func__, emsg, input); + } + return err; +} + + +int +_sfp_set_rx_em(struct transvr_obj_s *self, + int input, + int show_e) { + + uint8_t tmp; + int i = 0; + int retry = 3; + + for (i=0; irx_em[0]; + if (_sfp_update_attr_rx_em(self, show_e) < 0){ + continue; + } + if (self->rx_em[0] == tmp){ + return 0; + } + } + return -1; +} + + +int +sfp_set_rx_em(struct transvr_obj_s *self, + int input) { + + int err = _check_by_mode(self, + &_sfp_update_attr_rx_em, + "sfp_set_rx_em"); + if (err < 0) { + SWPS_DEBUG("%s: check fail :%d\n", __func__, err); + return err; + } + return _sfp_set_rx_em(self, input, 1); +} + + +static int +__qsfp_set_cdr(struct transvr_obj_s *self, + int input_val, + int show_err) { + + uint8_t update_val; + int CDR_FEATURE_SUPPORTED = 0x3; + int retval = ERR_TRANSVR_UNEXCPT; + int err_code = ERR_TRANSVR_UNEXCPT; + char *err_msg = DEBUG_TRANSVR_STR_VAL; + char *func_name = "__qsfp_set_cdr"; + + /* Check input value */ + if ((input_val < 0) || (input_val > 0xff)){ + retval = ERR_TRANSVR_BADINPUT; + err_code = ERR_TRANSVR_BADINPUT; + err_msg = "Input range incorrect!"; + goto err_qsfp_set_cdr_1; + } + update_val = (uint8_t)input_val; + /* Check CDR supported by transceiver */ + err_code = qsfp_get_cdr_present(self); + if (err_code < 0) { + retval = err_code; + switch (err_code) { + case ERR_TRANSVR_UNINIT: + err_msg = "Check CDR present fail!"; + break; + case ERR_TRANSVR_UNPLUGGED: + err_msg = "Transceiver unplugged!"; + break; + default: + err_msg = "Check CDR present fail!"; + break; + } + goto err_qsfp_set_cdr_1; + } + if (err_code != CDR_FEATURE_SUPPORTED) { + retval = ERR_TRANSVR_NOTSUPPORT; + err_msg = "This transceiver not support CDR!"; + goto err_qsfp_set_cdr_1; + } + /* Check and update */ + err_code = _check_by_mode(self, + &_qsfp_update_attr_cdr, + func_name); + if ( (err_code < 0) || + (self->cdr == DEBUG_TRANSVR_HEX_VAL) ){ + retval = err_code; + err_msg = "Get current value fail!"; + goto err_qsfp_set_cdr_1; + } + /* Write input value to transceiver */ + return _common_set_uint8_attr(self, + self->eeprom_map_p->addr_cdr, + self->eeprom_map_p->page_cdr, + self->eeprom_map_p->offset_cdr, + update_val, + &(self->cdr), + func_name, + show_err); + +err_qsfp_set_cdr_1: + if (show_err) { + SWPS_INFO("%s: %s :%d :%s\n :%d\n", + __func__, err_msg, err_code, self->swp_name, input_val); + } + return retval; +} + + +int +qsfp_set_cdr(struct transvr_obj_s *self, + int input_val) { + return __qsfp_set_cdr(self, input_val, 1); +} + + +int +qsfp_set_soft_tx_disable(struct transvr_obj_s *self, + int input_val) { + + int show_err = 1; + int in_max = 0xf; /* 1111 */ + int in_min = 0x0; /* 0000 */ + int retval = DEBUG_TRANSVR_INT_VAL; + int update_val = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + retval = _check_by_mode(self, + &_qsfp_update_attr_soft_tx_disable, + "qsfp_set_soft_tx_disable"); + if (retval < 0) { + snprintf(err_msg, 63, "Not ready. err:%d", retval); + goto err_qsfp_set_soft_tx_disable; + } + if ((input_val > in_max) || + (input_val < in_min) ){ + retval = ERR_TRANSVR_BADINPUT; + snprintf(err_msg, 63, "Input value:%d incorrect!", input_val); + goto err_qsfp_set_soft_tx_disable; + } + if ((self->tx_disable & 0x0f) == input_val) { + return 0; + } + update_val = ((self->tx_disable & 0xf0) & input_val); + retval = _common_set_uint8_attr(self, + self->eeprom_map_p->addr_tx_disable, + self->eeprom_map_p->page_tx_disable, + self->eeprom_map_p->offset_tx_disable, + input_val, + &(self->tx_disable), + "qsfp_set_tx_disable", + show_err); + if (retval < 0) { + snprintf(err_msg, 63, "_common_set_uint8_attr:%d fail!", retval); + goto err_qsfp_set_soft_tx_disable; + } + return 0; + +err_qsfp_set_soft_tx_disable: + SWPS_INFO("%s: %s :%s\n", __func__, err_msg, self->swp_name); + return retval; +} + + +int +_qsfp_set_auto_tx_disable(struct transvr_obj_s *self, + uint8_t update) { + + uint8_t tx_enable = 0x0; + int show_e = 1; + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + /* Handle timing issues */ + if (update != tx_enable) { + /* Note: + * Because there are some txvr has timing issues, + * therefore we need to execute reset cycle first. + * (enable -> other settings) + */ + err = _common_set_uint8_attr(self, + self->eeprom_map_p->addr_tx_disable, + self->eeprom_map_p->page_tx_disable, + self->eeprom_map_p->offset_tx_disable, + tx_enable, + &(self->tx_disable), + "_qsfp_set_auto_tx_disable", + show_e); + if (err < 0) { + emsg = "I2C set reset value fail"; + goto err_qsfp_set_auto_tx_disable; + } + mdelay(10); + } + /* Setup target value */ + err = _common_set_uint8_attr(self, + self->eeprom_map_p->addr_tx_disable, + self->eeprom_map_p->page_tx_disable, + self->eeprom_map_p->offset_tx_disable, + self->auto_tx_disable, + &(self->tx_disable), + "_qsfp_set_auto_tx_disable", + show_e); + if (err < 0) { + emsg = "I2C set target value fail"; + goto err_qsfp_set_auto_tx_disable; + } + /* Check and update */ + err = _common_update_uint8_attr(self, + self->eeprom_map_p->addr_tx_disable, + self->eeprom_map_p->page_tx_disable, + self->eeprom_map_p->offset_tx_disable, + self->eeprom_map_p->length_tx_disable, + &(self->tx_disable), + "_qsfp_set_auto_tx_disable", + show_e); + if (err < 0) { + emsg = "I2C get value fail"; + goto err_qsfp_set_auto_tx_disable; + } + if (self->tx_disable != update) { + emsg = "data not become effective"; + goto err_qsfp_set_auto_tx_disable; + } + return 0; + +err_qsfp_set_auto_tx_disable: + SWPS_DEBUG("%s: %s :%s\n", + __func__, emsg, self->swp_name); + return ERR_TRANSVR_UPDATE_FAIL; +} + + +int +qsfp_set_auto_tx_disable(struct transvr_obj_s *self, + int input_val) { + + int in_max = 0xf; /* 1111 */ + int in_min = 0x0; /* 0000 */ + int retval = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + + /* Update settings*/ + if (input_val == VAL_TRANSVR_FUNCTION_DISABLE) { + emsg = "User disable auto tx_disable"; + self->auto_tx_disable = VAL_TRANSVR_FUNCTION_DISABLE; + goto out_qsfp_set_auto_tx_disable; + } + if ((input_val > in_max) || (input_val < in_min) ){ + SWPS_INFO("%s: Input value:%d incorrect! :%s\n", + __func__, input_val, self->swp_name); + return ERR_TRANSVR_BADINPUT; + } + self->auto_tx_disable = input_val; + /* Check current soft tx_disable */ + retval = _check_by_mode(self, + &_qsfp_update_attr_soft_tx_disable, + "qsfp_set_auto_tx_disable"); + switch (retval) { + case 0: + break; + case ERR_TRANSVR_UNPLUGGED: + emsg = "Doesn't need to update"; + goto out_qsfp_set_auto_tx_disable; + default: + SWPS_INFO("%s: setup fail :%d :%s\n", + __func__, retval, self->swp_name); + return retval; + } + return _qsfp_set_auto_tx_disable(self, input_val); + +out_qsfp_set_auto_tx_disable: + SWPS_DEBUG("%s: %s :%s :%d\n :%d", + __func__, emsg, self->swp_name, input_val, retval); + return 0; +} + + +int +__qsfp_set_tx_eq(struct transvr_obj_s *self, + int input, + int show_e) { + /* [Note] + * 0x + */ + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + uint8_t setv[2] = {0x00, 0x00}; + + if ((input < 0) || (input > 0xFFFF)) { + emsg = "input incorrect"; + err = ERR_TRANSVR_BADINPUT; + goto err_qsfp_set_tx_eq; + } + setv[0] = (uint8_t)((input & 0xFF00) >> 8); + setv[1] = (uint8_t)(input & 0xFF); + if ((self->tx_eq[0] == setv[0]) && + (self->tx_eq[1] == setv[1]) ) { + return 0; + } + err = _common_set_uint8_array(self, + self->eeprom_map_p->addr_tx_eq, + self->eeprom_map_p->page_tx_eq, + self->eeprom_map_p->offset_tx_eq, + self->eeprom_map_p->length_tx_eq, + setv, + self->tx_eq, + "_qsfp_set_tx_eq", + show_e); + if (err < 0) { + emsg = "set_uint8_array fail"; + goto err_qsfp_set_tx_eq; + } + return 0; + +err_qsfp_set_tx_eq: + if (show_e) { + SWPS_INFO("%s: %s :%d\n", __func__, emsg, input); + } + return err; +} + + +int +_qsfp_set_tx_eq(struct transvr_obj_s *self, + int input, + int show_e) { + + int i = 0; + int retry = 3; + uint8_t tmp[2]; + + for (i=0; itx_eq[0]; + tmp[1] = self->tx_eq[1]; + if (_qsfp_update_attr_tx_eq(self, show_e) < 0){ + continue; + } + if ((self->tx_eq[0] == tmp[0]) && + (self->tx_eq[1] == tmp[1]) ){ + return 0; + } + } + return -1; +} + + +int +qsfp_set_tx_eq(struct transvr_obj_s *self, + int input) { + + int err = _check_by_mode(self, + &_qsfp_update_attr_tx_eq, + "qsfp_set_tx_eq"); + if (err < 0) { + SWPS_DEBUG("%s: check fail :%d\n", __func__, err); + return err; + } + return _qsfp_set_tx_eq(self, input, 1); +} + + +int +__qsfp_set_rx_am(struct transvr_obj_s *self, + int input, + int show_e) { + /* [Note] + * 0x + */ + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + uint8_t setv[2] = {0x00, 0x00}; + + if ((input < 0) || (input > 0xFFFF)) { + emsg = "input incorrect"; + err = ERR_TRANSVR_BADINPUT; + goto err_qsfp_set_rx_am; + } + setv[0] = (uint8_t)((input & 0xFF00) >> 8); + setv[1] = (uint8_t)(input & 0xFF); + if ((self->rx_am[0] == setv[0]) && + (self->rx_am[1] == setv[1]) ) { + return 0; + } + err = _common_set_uint8_array(self, + self->eeprom_map_p->addr_rx_am, + self->eeprom_map_p->page_rx_am, + self->eeprom_map_p->offset_rx_am, + self->eeprom_map_p->length_rx_am, + setv, + self->rx_am, + "_qsfp_set_rx_am", + show_e); + if (err < 0) { + emsg = "set_uint8_array fail"; + goto err_qsfp_set_rx_am; + } + return 0; + +err_qsfp_set_rx_am: + if (show_e) { + SWPS_INFO("%s: %s :%d\n", __func__, emsg, input); + } + return err; +} + + +int +_qsfp_set_rx_am(struct transvr_obj_s *self, + int input, + int show_e) { + + int i = 0; + int retry = 3; + uint8_t tmp[2]; + + for (i=0; irx_am[0]; + tmp[1] = self->rx_am[1]; + if (_qsfp_update_attr_rx_am(self, show_e) < 0){ + continue; + } + if ((self->rx_am[0] == tmp[0]) && + (self->rx_am[1] == tmp[1]) ){ + return 0; + } + } + return -1; +} + + +int +qsfp_set_rx_am(struct transvr_obj_s *self, + int input) { + + int err = _check_by_mode(self, + &_qsfp_update_attr_rx_am, + "qsfp_set_rx_am"); + if (err < 0) { + SWPS_DEBUG("%s: check fail :%d\n", __func__, err); + return err; + } + return _qsfp_set_rx_am(self, input, 1); +} + + +int +__qsfp_set_rx_em(struct transvr_obj_s *self, + int input, + int show_e) { + /* [Note] + * 0x + */ + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + uint8_t setv[2] = {0x00, 0x00}; + + if ((input < 0) || (input > 0xFFFF)) { + emsg = "input incorrect"; + err = ERR_TRANSVR_BADINPUT; + goto err_qsfp_set_rx_em; + } + setv[0] = (uint8_t)((input & 0xFF00) >> 8); + setv[1] = (uint8_t)(input & 0xFF); + if ((self->rx_em[0] == setv[0]) && + (self->rx_em[1] == setv[1]) ) { + return 0; + } + err = _common_set_uint8_array(self, + self->eeprom_map_p->addr_rx_em, + self->eeprom_map_p->page_rx_em, + self->eeprom_map_p->offset_rx_em, + self->eeprom_map_p->length_rx_em, + setv, + self->rx_em, + "_qsfp_set_rx_em", + show_e); + if (err < 0) { + emsg = "set_uint8_array fail"; + goto err_qsfp_set_rx_em; + } + return 0; + +err_qsfp_set_rx_em: + if (show_e) { + SWPS_INFO("%s: %s :%d\n", __func__, emsg, input); + } + return err; +} + + +int +_qsfp_set_rx_em(struct transvr_obj_s *self, + int input, + int show_e) { + + int i = 0; + int retry = 3; + uint8_t tmp[2]; + + for (i=0; irx_em[0]; + tmp[1] = self->rx_em[1]; + if (_qsfp_update_attr_rx_em(self, show_e) < 0){ + continue; + } + if ((self->rx_em[0] == tmp[0]) && + (self->rx_em[1] == tmp[1]) ){ + return 0; + } + } + return -1; +} + + +int +qsfp_set_rx_em(struct transvr_obj_s *self, + int input) { + + int err = _check_by_mode(self, + &_qsfp_update_attr_rx_em, + "qsfp_set_rx_em"); + if (err < 0) { + SWPS_DEBUG("%s: check fail :%d\n", __func__, err); + return err; + } + return _qsfp_set_rx_em(self, input, 1); +} + + +int +common_transvr_dump(struct transvr_obj_s* self){ + + char *type_name = "Undefined"; + + if (TRANSVR_INFO_DUMP_ENABLE != 1) { + return 0; + } + switch (self->type) { + case TRANSVR_TYPE_SFP: + type_name = STR_TRANSVR_SFP; + break; + case TRANSVR_TYPE_QSFP: + type_name = STR_TRANSVR_QSFP; + break; + case TRANSVR_TYPE_QSFP_PLUS: + type_name = STR_TRANSVR_QSFP_PLUS; + break; + case TRANSVR_TYPE_QSFP_28: + type_name = STR_TRANSVR_QSFP28; + break; + case TRANSVR_TYPE_FAKE: + type_name = "FAKE"; + goto ok_common_transvr_dump; + case TRANSVR_TYPE_UNPLUGGED: + type_name = "UNPLUGGED"; + goto err_common_transvr_dump; + case TRANSVR_TYPE_INCONSISTENT: + type_name = "INCONSISTENT"; + goto err_common_transvr_dump; + case TRANSVR_TYPE_ERROR: + type_name = "ERROR"; + goto err_common_transvr_dump; + + default: + type_name = "UNEXPECTED"; + goto err_common_transvr_dump; + } + printk(KERN_INFO "[SWPS] Dump %s information:\n", self->swp_name); + printk(KERN_INFO " |- :%s\n", type_name); + printk(KERN_INFO " |- :%s\n", self->vendor_name); + printk(KERN_INFO " |- :%s\n", self->vendor_pn); + printk(KERN_INFO " |- :%s\n", self->vendor_rev); + printk(KERN_INFO " |- :%s\n", self->vendor_sn); + printk(KERN_INFO " |- :0x%02x\n", self->br); + printk(KERN_INFO " |- :0x%02x\n", self->comp_rev); + printk(KERN_INFO " |- :%d\n", self->len_om1); + printk(KERN_INFO " |- :%d\n", self->len_om2); + printk(KERN_INFO " |- :%d\n", self->len_om3); + printk(KERN_INFO " |- :%d\n", self->len_om4); + return 0; + +ok_common_transvr_dump: + SWPS_INFO("%s: %s is %s\n", __func__, self->swp_name, type_name); + return 0; + +err_common_transvr_dump: + SWPS_INFO("%s: %s is %s\n", __func__, self->swp_name, type_name); + return -1; +} + + +int +sfp_transvr_dump(struct transvr_obj_s* self) { + + if (TRANSVR_INFO_DUMP_ENABLE != 1) { + return 0; + } + if (common_transvr_dump(self) < 0) { + return -1; + } + printk(KERN_INFO " |- :%d\n", self->len_sm); + printk(KERN_INFO " |- :%d\n", self->len_smf); + printk(KERN_INFO " '- :0x%02x\n", self->rate_id); + return 0; +} + + +int +qsfp_transvr_dump(struct transvr_obj_s* self) { + + if (TRANSVR_INFO_DUMP_ENABLE != 1) { + return 0; + } + if (common_transvr_dump(self) < 0) { + return -1; + } + printk(KERN_INFO " |- :%d\n", self->len_smf); + printk(KERN_INFO " '- :Class_%d\n", __qsfp_get_power_cls(self, 0)); + return 0; +} + + +int +fake_transvr_dump(struct transvr_obj_s* self) { + + printk(KERN_INFO "[SWPS] Dump transceiver information: %s\n", self->swp_name); + printk(KERN_INFO " |- :FAKE\n"); + printk(KERN_INFO " |- :FAKE_VENDER_NAME\n"); + printk(KERN_INFO " |- :FAKE_VENDER_PN\n"); + printk(KERN_INFO " |- :FAKE_VENDER_REV\n"); + printk(KERN_INFO " |- :FAKE_VENDER_SN\n"); + printk(KERN_INFO " |- :0x99\n"); + printk(KERN_INFO " |- :99\n"); + printk(KERN_INFO " |- :99\n"); + printk(KERN_INFO " |- :99\n"); + printk(KERN_INFO " |- :99\n"); + printk(KERN_INFO " |- :99\n"); + printk(KERN_INFO " |- :99\n"); + printk(KERN_INFO " '- :0x99\n"); + return 0; +} + + +/* ========== Object functions for fake type ========== + */ +int +fake_transvr_update(struct transvr_obj_s *self, + int show_err){ + self->state = STATE_TRANSVR_CONNECTED; + return 0; +} + + +int +fake_get_binary(struct transvr_obj_s *self){ + return 1; +} + +int +fake_get_int(struct transvr_obj_s *self){ + return 99; +} + + +int +fake_get_hex(struct transvr_obj_s *self){ + return 0x0f; +} + + +int +fake_get_str(struct transvr_obj_s *self, char *buf) { + return snprintf(buf, 16, "fake_get_str\n"); +} + + +int +fake_set_int(struct transvr_obj_s *self, int input){ + SWPS_INFO("%s: %d\n", __func__, input); + return 0; +} + + +int +fake_set_hex(struct transvr_obj_s *self, int input){ + SWPS_INFO("%s: 0x%02x\n", __func__, input); + return 0; +} + + +/* ========== Object functions for unsupported ========== + */ +int +unsupported_get_func(struct transvr_obj_s *self){ + return ERR_TRANSVR_NOTSUPPORT; +} + + +int +unsupported_get_func2(struct transvr_obj_s *self, + char *buf_p) { + int len = snprintf(buf_p, 8, "%d\n", ERR_TRANSVR_NOTSUPPORT); + return len; +} + + +int +unsupported_set_func(struct transvr_obj_s *self, + int input_val){ + return ERR_TRANSVR_NOTSUPPORT; +} + + + +/* ========== Object functions for long term task ========== + * + * [Note] + * SWPS transceiver worker is likely the green-thread (coroutine). + * Due to resource and performance considerations. SWPS run all + * features in one kthread at the same time, and handle by it self. + */ + +/* For Transceiver Task Handling + */ +static struct transvr_worker_s * +transvr_task_get(struct transvr_obj_s *self, + char *func_name) { + + struct transvr_worker_s *curr_p = self->worker_p; + + while(curr_p != NULL){ + if (strcmp((curr_p->func_name), func_name) == 0 ) { + return curr_p; + } + curr_p = curr_p->next_p; + } + return NULL; +} + + +static struct transvr_worker_s* +transvr_task_creat(struct transvr_obj_s *self, + int (*main_task)(struct transvr_worker_s *task), + int (*post_task)(struct transvr_worker_s *task), + char *caller) { + + struct transvr_worker_s *task_p = NULL; + struct transvr_worker_s *curr_p = NULL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + /* Check task not exist */ + task_p = transvr_task_get(self, caller); + if (task_p) { + snprintf(err_msg, sizeof(err_msg), "Task already created!"); + goto err_transvr_task_creat; + } + /* Create task worker */ + task_p = kzalloc(sizeof(struct transvr_worker_s), GFP_KERNEL); + if (!task_p){ + snprintf(err_msg, sizeof(err_msg), "kzalloc fail"); + goto err_transvr_task_creat; + } + /* Setup task data */ + task_p->transvr_p = self; + task_p->next_p = NULL; + task_p->trigger_time = 0; + task_p->retry = 1; + task_p->state = STATE_T_TASK_INIT; + task_p->main_task = main_task; + task_p->post_task = post_task; + task_p->p_data = NULL; + snprintf(task_p->func_name, sizeof(task_p->func_name), "%s", caller); + /* Setup Link List */ + if (self->worker_p) { + curr_p = self->worker_p; + while(curr_p->next_p != NULL) { + curr_p = curr_p->next_p; + } + curr_p->next_p = task_p; + task_p->pre_p = curr_p; + } else { + self->worker_p = task_p; + task_p->pre_p = NULL; + } + return task_p; + +err_transvr_task_creat: + SWPS_ERR("%s: %s :%s :%s\n", + __func__, err_msg, caller, self->swp_name); + return NULL; +} + + +static void +transvr_task_free_one(struct transvr_worker_s *task_p){ + + struct transvr_worker_s *pre_p = NULL; + struct transvr_worker_s *next_p = NULL; + + if (task_p) { + pre_p = task_p->pre_p; + next_p = task_p->next_p; + + if ((pre_p) && (next_p)) { + pre_p->next_p = next_p; + next_p->pre_p = pre_p; + + } else if ((!pre_p) && (next_p)) { + next_p->pre_p = NULL; + + } else if ((pre_p) && (!next_p)) { + pre_p->next_p = NULL; + + } else if ((!pre_p) && (!next_p)) { + task_p->transvr_p->worker_p = NULL; + } else { + SWPS_ERR("%s: Unexcept case!\n :%s", + __func__, task_p->transvr_p->swp_name); + } + kfree(task_p->p_data); + kfree(task_p); + } +} + + +static void +transvr_task_free_all(struct transvr_obj_s *self) { + + struct transvr_worker_s *curr_p = NULL; + struct transvr_worker_s *next_p = NULL; + + if (self->worker_p) { + curr_p = self->worker_p; + while(curr_p) { + next_p = curr_p->next_p; + transvr_task_free_one(curr_p); + curr_p = next_p; + } + self->worker_p = NULL; + } +} + + +static int +_transvr_task_run_main(struct transvr_worker_s *task_p) { + + int retval = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + if (!task_p){ + snprintf(err_msg, sizeof(err_msg), "main_task is NULL!"); + goto main_transvr_task_err; + } + if ((task_p->trigger_time) == 0){ + goto main_transvr_task_run; + } + if (time_before(jiffies, task_p->trigger_time)){ + goto main_transvr_task_wait; + } + goto main_transvr_task_run; + +main_transvr_task_run: + if (task_p->retry != VAL_TRANSVR_TASK_RETRY_FOREVER) { + task_p->retry -= 1; + } + retval = task_p->main_task(task_p); + if (retval < 0) { + if (task_p->retry > 0) { + task_p->state = STATE_T_TASK_WAIT; + return EVENT_TRANSVR_TASK_WAIT; + } + snprintf(err_msg, sizeof(err_msg), "Run main_task fail!"); + goto main_transvr_task_err; + } + goto main_transvr_task_identify; + +main_transvr_task_identify: + switch (retval) { + case EVENT_TRANSVR_TASK_WAIT: + task_p->state = STATE_T_TASK_WAIT; + return EVENT_TRANSVR_TASK_WAIT; + + case EVENT_TRANSVR_TASK_DONE: + task_p->state = STATE_T_TASK_DONE; + return EVENT_TRANSVR_TASK_DONE; + + default: + break; + } + snprintf(err_msg, sizeof(err_msg), "Run main_task fail!"); + goto main_transvr_task_err; + +main_transvr_task_wait: + task_p->state = STATE_T_TASK_WAIT; + return EVENT_TRANSVR_TASK_WAIT; + +main_transvr_task_err: + task_p->state = STATE_T_TASK_FAIL; + SWPS_INFO("%s: %s :%d :%s\n", + __func__, err_msg, retval, task_p->transvr_p->swp_name); + return EVENT_TRANSVR_INIT_FAIL; +} + + +static int +_transvr_task_run_post(struct transvr_worker_s *task_p) { + + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + if ((task_p->post_task) == NULL) { + return EVENT_TRANSVR_TASK_DONE; + } + switch (task_p->state) { + case STATE_T_TASK_WAIT: + case STATE_T_TASK_INIT: + goto post_transvr_task_wait; + + case STATE_T_TASK_DONE: + case STATE_T_TASK_FAIL: + goto post_transvr_task_run; + + default: + break; + } + snprintf(err_msg, sizeof(err_msg), "Unexcept task state"); + goto post_transvr_task_err; + +post_transvr_task_run: + task_p->post_task(task_p); + return EVENT_TRANSVR_TASK_DONE; + +post_transvr_task_wait: + return EVENT_TRANSVR_TASK_WAIT; + +post_transvr_task_err: + SWPS_INFO("%s: %s :%d :%s\n", + __func__, err_msg, task_p->state, task_p->transvr_p->swp_name); + return EVENT_TRANSVR_TASK_FAIL; +} + + +static int +transvr_task_run_one(struct transvr_worker_s *task_p) { + + int retval_main = DEBUG_TRANSVR_INT_VAL; + int retval_post = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + retval_main = _transvr_task_run_main(task_p); + if (retval_main < 0) { + snprintf(err_msg, sizeof(err_msg), "Execute main_task fail!"); + goto err_transvr_task_run_one; + } + retval_post = _transvr_task_run_post(task_p); + if (retval_post < 0) { + snprintf(err_msg, sizeof(err_msg), "Execute post_task fail!"); + goto err_transvr_task_run_one; + } + return retval_main; + +err_transvr_task_run_one: + SWPS_INFO("%s: %s
:%d :%d :%s :%s\n", + __func__, err_msg, retval_main, retval_post, + task_p->func_name, task_p->transvr_p->swp_name); + return EVENT_TRANSVR_TASK_FAIL; +} + + +static int +transvr_task_run_all(struct transvr_obj_s *self) { + + int haserr = 0; + int retval = DEBUG_TRANSVR_INT_VAL; + struct transvr_worker_s *curr_p = NULL; + struct transvr_worker_s *next_p = NULL; + + if ((self->worker_p) == NULL) { + return EVENT_TRANSVR_TASK_DONE; + } + curr_p = self->worker_p; + while (curr_p != NULL) { + next_p = curr_p->next_p; + retval = transvr_task_run_one(curr_p); + if (curr_p->retry == VAL_TRANSVR_TASK_RETRY_FOREVER) { + curr_p = next_p; + continue; + } + switch (retval) { + case EVENT_TRANSVR_TASK_WAIT: + break; + case EVENT_TRANSVR_TASK_DONE: + transvr_task_free_one(curr_p); + break; + case EVENT_TRANSVR_TASK_FAIL: + + default: + haserr = 1; + transvr_task_free_one(curr_p); + break; + } + curr_p = next_p; + } + if (haserr) { + return EVENT_TRANSVR_TASK_FAIL; + } + return EVENT_TRANSVR_TASK_DONE; +} + + +static void +transvr_task_set_delay(struct transvr_worker_s *task_p, + unsigned long delay_msec) { + + task_p->trigger_time = (jiffies + (delay_msec * (HZ/1000))); +} + + +static void +transvr_task_set_retry(struct transvr_worker_s *task_p, + unsigned long retry_times) { + + task_p->retry = retry_times; +} + + +/* For Transceiver Post Task + */ +int +taskfunc_post_do_nothing(struct transvr_worker_s *task_p) { + + return EVENT_TRANSVR_TASK_DONE; +} + + +int +taskfunc_post_handle_task_state(struct transvr_worker_s *task_p) { + + struct transvr_obj_s* tp = task_p->transvr_p; + + switch (task_p->state) { + case STATE_T_TASK_INIT: + case STATE_T_TASK_WAIT: + return EVENT_TRANSVR_TASK_WAIT; + + case STATE_T_TASK_DONE: + tp->state = STATE_TRANSVR_CONNECTED; + tp->send_uevent(tp, KOBJ_ADD); + return EVENT_TRANSVR_TASK_DONE; + + case STATE_T_TASK_FAIL: + tp->state = STATE_TRANSVR_UNEXCEPTED; + return EVENT_TRANSVR_TASK_FAIL; + + default: + break; + } + return EVENT_TRANSVR_TASK_FAIL; +} + + +/* For Transceiver Main Task + */ +int +_taskfunc_sfp_setup_soft_rs(struct transvr_worker_s *task_p, + int input_val, + int address, + int page, + int offset, + int bit_shift, + uint8_t *attr_p, + char *caller) { + + int show_err = 0; + int err_code = DEBUG_TRANSVR_INT_VAL; + char *err_str = DEBUG_TRANSVR_STR_VAL; + char *func_str = "_taskfunc_sfp_setup_soft_rs"; + + err_code = _sfp_update_attr_soft_rs0(task_p->transvr_p, 0); + if (err_code < 0) { + err_str = "Get current soft_rs0 fail!"; + goto err_taskfunc_sfp_setup_soft_rs_1; + } + err_code = __sfp_set_soft_rs(task_p->transvr_p, + input_val, + address, + page, + offset, + bit_shift, + attr_p, + caller, + show_err); + if (err_code < 0) { + err_str = "Get current soft_rs0 fail!"; + goto err_taskfunc_sfp_setup_soft_rs_1; + } + return EVENT_TRANSVR_TASK_DONE; + +err_taskfunc_sfp_setup_soft_rs_1: + if ((task_p->retry) == 0) { + SWPS_INFO("%s: %s :%s :%d :%d\n", + func_str, err_str, task_p->transvr_p->swp_name, input_val, err_code); + } + return EVENT_TRANSVR_TASK_FAIL; +} + + +int +__taskfunc_sfp_setup_hard_rs(struct transvr_worker_s *task_p, + int input_val, + int (*get_func)(struct ioexp_obj_s *self, int virt_offset), + int (*set_func)(struct ioexp_obj_s *self, int virt_offset, int input_val)) { + + int err_val = EVENT_TRANSVR_EXCEP_EXCEP; + char *err_str = DEBUG_TRANSVR_STR_VAL; + + err_val = get_func(task_p->transvr_p->ioexp_obj_p, + task_p->transvr_p->ioexp_virt_offset); + + if (err_val < 0) { + if (err_val == ERR_IOEXP_NOTSUPPORT) { + return EVENT_TRANSVR_TASK_DONE; + } + err_str = "Get current hard_rs fail!"; + goto err_p_taskfunc_sfp_setup_hard_rs_1; + } + if (err_val == input_val) { + return EVENT_TRANSVR_TASK_DONE; + } + err_val = set_func(task_p->transvr_p->ioexp_obj_p, + task_p->transvr_p->ioexp_virt_offset, + input_val); + if (err_val < 0) { + err_str = "Setup hard_rs fail!"; + goto err_p_taskfunc_sfp_setup_hard_rs_1; + } + return EVENT_TRANSVR_TASK_DONE; + +err_p_taskfunc_sfp_setup_hard_rs_1: + if ((task_p->retry) == 0) { + SWPS_INFO("%s: %s :%s :%d :%d\n", + __func__, err_str, task_p->transvr_p->swp_name, input_val, err_val); + } + return EVENT_TRANSVR_TASK_FAIL; +} + + +int +_taskfunc_sfp_setup_hard_rs0(struct transvr_worker_s *task_p, + int input_val) { + + return __taskfunc_sfp_setup_hard_rs(task_p, + input_val, + task_p->transvr_p->ioexp_obj_p->get_hard_rs0, + task_p->transvr_p->ioexp_obj_p->set_hard_rs0); +} + + +int +_taskfunc_sfp_setup_hard_rs1(struct transvr_worker_s *task_p, + int input_val) { + + return __taskfunc_sfp_setup_hard_rs(task_p, + input_val, + task_p->transvr_p->ioexp_obj_p->get_hard_rs1, + task_p->transvr_p->ioexp_obj_p->set_hard_rs1); +} + + +int +_taskfunc_sfp_setup_rs0(struct transvr_worker_s *task_p, + int input_val) { + + int bit_shift = 3; + int old_val = DEBUG_TRANSVR_INT_VAL; + int err_val = EVENT_TRANSVR_EXCEP_EXCEP; + char *err_str = DEBUG_TRANSVR_STR_VAL; + char *func_str = "_taskfunc_sfp_setup_rs0"; + + err_val = _taskfunc_sfp_setup_hard_rs0(task_p, + input_val); + if (err_val < 0) { + err_str = "Setup hard_rs0 fail!"; + goto err_private_taskfunc_sfp_setup_rs0_1; + } + old_val = err_val; + err_val = _taskfunc_sfp_setup_soft_rs(task_p, + input_val, + task_p->transvr_p->eeprom_map_p->addr_soft_rs0, + task_p->transvr_p->eeprom_map_p->page_soft_rs0, + task_p->transvr_p->eeprom_map_p->offset_soft_rs0, + bit_shift, + &(task_p->transvr_p->soft_rs0), + func_str); + if (err_val < 0) { + err_str = "Setup soft_rs0 fail!"; + goto err_private_taskfunc_sfp_setup_rs0_1; + } + return EVENT_TRANSVR_TASK_DONE; + +err_private_taskfunc_sfp_setup_rs0_1: + if ((task_p->retry) == 0) { + SWPS_INFO("%s: %s :%s :%d :%d\n", + func_str, err_str, task_p->transvr_p->swp_name, input_val, err_val); + } + _taskfunc_sfp_setup_hard_rs0(task_p, old_val); + return EVENT_TRANSVR_TASK_FAIL; +} + + +int +_taskfunc_sfp_setup_rs1(struct transvr_worker_s *task_p, + int input_val) { + + int bit_shift = 3; + int old_val = DEBUG_TRANSVR_INT_VAL; + int err_val = EVENT_TRANSVR_EXCEP_EXCEP; + char *err_str = DEBUG_TRANSVR_STR_VAL; + char *func_str = "_taskfunc_sfp_setup_rs1"; + + err_val = _taskfunc_sfp_setup_hard_rs1(task_p, + input_val); + if (err_val < 0) { + err_str = "Setup hard_rs1 fail!"; + goto err_private_taskfunc_sfp_setup_rs1_1; + } + old_val = err_val; + err_val = _taskfunc_sfp_setup_soft_rs(task_p, + input_val, + task_p->transvr_p->eeprom_map_p->addr_soft_rs1, + task_p->transvr_p->eeprom_map_p->page_soft_rs1, + task_p->transvr_p->eeprom_map_p->offset_soft_rs1, + bit_shift, + &(task_p->transvr_p->soft_rs1), + func_str); + if (err_val < 0) { + err_str = "Setup soft_rs1 fail!"; + goto err_private_taskfunc_sfp_setup_rs1_1; + } + return EVENT_TRANSVR_TASK_DONE; + +err_private_taskfunc_sfp_setup_rs1_1: + if ((task_p->retry) == 0) { + SWPS_INFO("%s: %s :%s :%d :%d\n", + func_str, err_str, task_p->transvr_p->swp_name, input_val, err_val); + } + _taskfunc_sfp_setup_hard_rs1(task_p, old_val); + return EVENT_TRANSVR_TASK_FAIL; +} + + +int +taskfunc_sfp_setup_SFF8431_case1(struct transvr_worker_s *task_p) { + /* SFF-8431 (8/4/2G Rx Rate_Select only) */ + int update_val = 1; + + return _taskfunc_sfp_setup_rs0(task_p, update_val); +} + + + +int +taskfunc_sfp_setup_SFF8431_case2(struct transvr_worker_s *task_p) { + /* SFF-8431 (8/4/2G Tx Rate_Select only) */ + int update_val = 1; + + return _taskfunc_sfp_setup_rs1(task_p, update_val); +} + + +int +taskfunc_sfp_setup_SFF8431_case3(struct transvr_worker_s *task_p) { + /* SFF-8431 (8/4/2G Independent Rx & Tx Rate_select) */ + int update_rs0 = 1; + int update_rs1 = 1; + int err_code = DEBUG_TRANSVR_INT_VAL; + + err_code = _taskfunc_sfp_setup_rs0(task_p, update_rs0); + if (err_code < 0) { + return err_code; + } + return _taskfunc_sfp_setup_rs1(task_p, update_rs1); +} + + +int +taskfunc_sfp_handle_1g_rj45(struct transvr_worker_s *task_p) { + + /* Not all of platform support 0x56 for transceiver + * external PHY, Support list as below: + * => 1. Magnolia-PVT (PS: EVT & DVT not ready) + */ + int ext_phy_addr = 0x56; + int ext_phy_page = -1; + int ext_phy_offs = 0x11; + int ext_phy_len = 1; + int lstate_mask = 0x04; /* 00000100 */ + int show_err = 0; + int fail_retry = 5; + int fail_delay = 1000; /* msec */ + int err_code = DEBUG_TRANSVR_INT_VAL; + uint8_t detect_val = DEBUG_TRANSVR_HEX_VAL; + char err_str[64] = DEBUG_TRANSVR_STR_VAL; + int *tmp_p = NULL; + char *func_name = "taskfunc_sfp_handle_1g_rj45"; + + if (task_p->transvr_p->state != STATE_TRANSVR_CONNECTED) { + return EVENT_TRANSVR_TASK_DONE; + } + if ( (task_p->transvr_p->info != TRANSVR_CLASS_BASE_T_1000) && + (task_p->transvr_p->info != TRANSVR_CLASS_BASE_T_1000_up) ) { + goto err_taskfunc_sfp_handle_1g_rj45_1; + } + err_code = _common_update_uint8_attr(task_p->transvr_p, + ext_phy_addr, + ext_phy_page, + ext_phy_offs, + ext_phy_len, + &detect_val, + func_name, + show_err); + if ( (err_code < 0) || + (detect_val == DEBUG_TRANSVR_HEX_VAL) ) { + snprintf(err_str, sizeof(err_str), "Detect external link status fail"); + goto err_taskfunc_sfp_handle_1g_rj45_2; + } + if ((detect_val & lstate_mask) == lstate_mask) { + goto ok_taskfunc_sfp_handle_1g_rj45_link_up; + } + goto ok_taskfunc_sfp_handle_1g_rj45_link_down; + +ok_taskfunc_sfp_handle_1g_rj45_link_up: + /* Filter out noise */ + if (!(task_p->p_data)) { + tmp_p = kzalloc(sizeof(int), GFP_KERNEL); + if (!tmp_p) { + snprintf(err_str, sizeof(err_str), "kzalloc p_data fail"); + goto err_taskfunc_sfp_handle_1g_rj45_2; + } + *tmp_p = TRANSVR_CLASS_BASE_T_1000_up; + task_p->p_data = tmp_p; + goto ok_taskfunc_sfp_handle_1g_rj45_done; + } + if ((*(int *)(task_p->p_data)) != TRANSVR_CLASS_BASE_T_1000_up) { + kfree(task_p->p_data); + task_p->p_data = NULL; + snprintf(err_str, sizeof(err_str), "Internal error"); + goto err_taskfunc_sfp_handle_1g_rj45_2; + } + task_p->transvr_p->info = TRANSVR_CLASS_BASE_T_1000_up; + kfree(task_p->p_data); + task_p->p_data = NULL; + goto ok_taskfunc_sfp_handle_1g_rj45_done; + +ok_taskfunc_sfp_handle_1g_rj45_link_down: + if (task_p->p_data) { + kfree(task_p->p_data); + task_p->p_data = NULL; + } + task_p->transvr_p->info = TRANSVR_CLASS_BASE_T_1000; + goto ok_taskfunc_sfp_handle_1g_rj45_done; + +ok_taskfunc_sfp_handle_1g_rj45_done: + if (task_p->retry != VAL_TRANSVR_TASK_RETRY_FOREVER) { + transvr_task_set_retry(task_p, VAL_TRANSVR_TASK_RETRY_FOREVER); + } + return EVENT_TRANSVR_TASK_DONE; + +err_taskfunc_sfp_handle_1g_rj45_1: + snprintf(err_str, sizeof(err_str), "Detect transceiver:%d not Base-T, remove task.", + task_p->transvr_p->info); + SWPS_INFO("%s: %s :%s\n", __func__, err_str, task_p->transvr_p->swp_name); + transvr_task_set_retry(task_p, 0); + return EVENT_TRANSVR_TASK_DONE; + +err_taskfunc_sfp_handle_1g_rj45_2: + if (task_p->retry == VAL_TRANSVR_TASK_RETRY_FOREVER) { + transvr_task_set_retry(task_p, fail_retry); + } + if ((task_p->retry) == 0) { + /* Error case: + * => In this case, SWPS will stop external Link state monitor features + * and keeps transvr_p->info on TRANSVR_CLASS_BASE_T_1000_up. + * Upper layer will see it always Linkup that because of these type of + * transceiver has external phy, BCM chip see it as Loopback transceiver. + */ + SWPS_WARN("%s can not access external PHY of Base-T SFP transceiver\n", + task_p->transvr_p->swp_name); + task_p->transvr_p->info = TRANSVR_CLASS_BASE_T_1000_up; + return EVENT_TRANSVR_TASK_DONE; + } else { + transvr_task_set_delay(task_p, fail_delay); + } + return EVENT_TRANSVR_TASK_FAIL; +} + + +int +_taskfunc_qsfp_setup_power_mod(struct transvr_obj_s *self, + int setup_val) { + + int curr_val = DEBUG_TRANSVR_INT_VAL; + int err_val = DEBUG_TRANSVR_INT_VAL; + char *err_msg = DEBUG_TRANSVR_STR_VAL; + + curr_val = self->ioexp_obj_p->get_lpmod(self->ioexp_obj_p, + self->ioexp_virt_offset); + if (curr_val < 0){ + err_msg = "Get current value fail!"; + goto err_private_taskfunc_qsfp_setup_power_mod_1; + } + if (curr_val == setup_val){ + return EVENT_TRANSVR_TASK_DONE; + } + err_val = self->ioexp_obj_p->set_lpmod(self->ioexp_obj_p, + self->ioexp_virt_offset, + setup_val); + if (err_val < 0){ + err_msg = "Setup power mode fail!"; + goto err_private_taskfunc_qsfp_setup_power_mod_1; + } + return EVENT_TRANSVR_TASK_DONE; + +err_private_taskfunc_qsfp_setup_power_mod_1: + SWPS_INFO("%s: %s :%d :%d :%d\n", + __func__, err_msg, err_val, curr_val, setup_val); + return EVENT_TRANSVR_TASK_FAIL; +} + + +int +taskfunc_qsfp_handle_tx_disable(struct transvr_worker_s *task_p) { + + int i = 0; + int retry = 5; + int delay_ms = 100; + + if (task_p->transvr_p->auto_tx_disable == VAL_TRANSVR_FUNCTION_DISABLE) { + return EVENT_TRANSVR_TASK_DONE; + } + if (!_qsfp_is_implement_tx_disable(task_p->transvr_p)) { + return EVENT_TRANSVR_TASK_DONE; + } + for (i=0; itransvr_p, + task_p->transvr_p->auto_tx_disable) + == EVENT_TRANSVR_TASK_DONE) { + goto ok_taskfunc_qsfp_handle_tx_disable; + } + mdelay(delay_ms); + } + SWPS_INFO("%s auto setup tx_disable:0x%02x fail.\n", + task_p->transvr_p->swp_name, + task_p->transvr_p->auto_tx_disable); + return EVENT_TRANSVR_INIT_FAIL; + +ok_taskfunc_qsfp_handle_tx_disable: + SWPS_INFO("%s auto setup tx_disable:0x%02x ok.\n", + task_p->transvr_p->swp_name, + task_p->transvr_p->auto_tx_disable); + return EVENT_TRANSVR_TASK_DONE; +} + + +int +taskfunc_qsfp_set_hpmod(struct transvr_worker_s *task_p) { + + int err = DEBUG_TRANSVR_INT_VAL; + int HIGH_POWER_MODE = 0; + + /* Handle power mode */ + err = _taskfunc_qsfp_setup_power_mod(task_p->transvr_p, + HIGH_POWER_MODE); + if (err < 0) { + SWPS_INFO("%s: setup hpmod fail :%d :%s\n", + __func__, err, task_p->transvr_p->swp_name); + return err; + } + /* Handle auto tx_disable + * [Note] + * => Because there are some transceiver have timing issues or + * setup sequence issues, therefore we handle auto tx_disable + * after handle power mode. + */ + mdelay(100); + return taskfunc_qsfp_handle_tx_disable(task_p); +} + + +int +taskfunc_qsfp_set_lpmod(struct transvr_worker_s *task_p) { + + int LOW_POWER_MODE = 1; + return _taskfunc_qsfp_setup_power_mod(task_p->transvr_p, + LOW_POWER_MODE); +} + + +static int +initfunc_sfp_handle_multi_rate_mode(struct transvr_obj_s *self) { + + int task_retry = 3; + int err_code = DEBUG_TRANSVR_INT_VAL; + char *err_str = DEBUG_TRANSVR_STR_VAL; + char *func_str = "sfp_handle_multi_rate_mode"; + struct transvr_worker_s *task_p = NULL; + + switch (self->rate_id) { + case 0x00: /* Unspecified */ + case 0x03: /* Unspecified */ + case 0x05: /* Unspecified */ + case 0x07: /* Unspecified */ + case 0x09: /* Unspecified */ + case 0x0B: /* Unspecified */ + case 0x0D: /* Unspecified */ + case 0x0F: /* Unspecified */ + goto sfp_handle_multi_rate_mode_4_unspecified; + + case 0x02: /* SFF-8431 (8/4/2G Rx Rate_Select only) */ + task_p = transvr_task_creat(self, + taskfunc_sfp_setup_SFF8431_case1, + taskfunc_post_handle_task_state, + func_str); + goto sfp_handle_multi_rate_mode_4_sff8431; + + case 0x04: /* SFF-8431 (8/4/2G Tx Rate_Select only) */ + task_p = transvr_task_creat(self, + taskfunc_sfp_setup_SFF8431_case2, + taskfunc_post_handle_task_state, + func_str); + goto sfp_handle_multi_rate_mode_4_sff8431; + + case 0x06: /* SFF-8431 (8/4/2G Independent Rx & Tx Rate_select) */ + task_p = transvr_task_creat(self, + taskfunc_sfp_setup_SFF8431_case3, + taskfunc_post_handle_task_state, + func_str); + goto sfp_handle_multi_rate_mode_4_sff8431; + + case 0x01: /* SFF-8079 (4/2/1G Rate_Select & AS0/AS1) */ + err_str = "SFF-8079 (4/2/1G Rate_Select & AS0/AS1)"; + goto sfp_handle_multi_rate_mode_4_not_support; + + case 0x08: /* FC-PI-5 (16/8/4G Rx Rate_select only) + * High=16G only, Low=8G/4G + */ + err_str = "FC-PI-5 (16/8/4G Rx Rate_select only)"; + goto sfp_handle_multi_rate_mode_4_not_support; + + case 0x0A: /* FC-PI-5 (16/8/4G Independent Rx, Tx Rate_select) + * High=16G only, Low=8G/4G + */ + err_str = "FC-PI-5 (16/8/4G Independent Rx, Tx Rate_select)"; + goto sfp_handle_multi_rate_mode_4_not_support; + + case 0x0C: /* FC-PI-6 (32/16/8G Independent Rx, Tx Rate_Select) + * High=32G only, Low = 16G/8G + */ + err_str = "FC-PI-6 (32/16/8G Independent Rx, Tx Rate_Select)"; + goto sfp_handle_multi_rate_mode_4_not_support; + + case 0x0E: /* 10/8G Rx and Tx Rate_Select controlling the operation or + * locking modes of the internal signal conditioner, retimer + * or CDR, according to the logic table defined in Table 10-2, + * High Bit Rate (10G) =9.95-11.3 Gb/s; Low Bit Rate (8G) = + * 8.5 Gb/s. In this mode, the default value of bit 110.3 (Soft + * Rate Select RS(0), Table 9-11) and of bit 118.3 (Soft Rate + * Select RS(1), Table 10-1) is 1. + */ + err_str = "cable type: 0x0E"; + goto sfp_handle_multi_rate_mode_4_not_support; + + default: + err_str = "cable type: UNKNOW"; + goto sfp_handle_multi_rate_mode_4_not_support; + } + +sfp_handle_multi_rate_mode_4_sff8431: + if (!task_p) { + err_str = "Create task fail!"; + goto sfp_handle_multi_rate_mode_4_fail_1; + } + transvr_task_set_retry(task_p, task_retry); + return EVENT_TRANSVR_TASK_WAIT; + +sfp_handle_multi_rate_mode_4_unspecified: + return EVENT_TRANSVR_TASK_DONE; + +sfp_handle_multi_rate_mode_4_not_support: + SWPS_INFO("%s: Does not support %s :%s :0x%02x\n", + func_str, err_str, self->swp_name, self->rate_id); + return EVENT_TRANSVR_TASK_DONE; + +sfp_handle_multi_rate_mode_4_fail_1: + SWPS_INFO("%s: %s :%s :0x%02x, :%d\n", + func_str, err_str, self->swp_name, self->rate_id, err_code); + return EVENT_TRANSVR_INIT_FAIL; +} + + +static int +initfunc_sfp_handle_1g_rj45(struct transvr_obj_s *self) { + + struct transvr_worker_s *task_p = NULL; + int detect_cls = DEBUG_TRANSVR_INT_VAL; + char err_str[64] = DEBUG_TRANSVR_STR_VAL; + char *func_str = "initfunc_sfp_handle_1g_rj45"; + + + if (self->info == TRANSVR_CLASS_BASE_T_1000) { + task_p = transvr_task_creat(self, + taskfunc_sfp_handle_1g_rj45, + taskfunc_post_do_nothing, + func_str); + if (!task_p) { + snprintf(err_str, sizeof(err_str), "Create task fail"); + goto err_initfunc_sfp_handle_1g_rj45; + } + transvr_task_set_retry(task_p, VAL_TRANSVR_TASK_RETRY_FOREVER); + } + return EVENT_TRANSVR_TASK_DONE; + +err_initfunc_sfp_handle_1g_rj45: + SWPS_INFO("%s: %s :%s :%d\n", + __func__, err_str, self->swp_name, detect_cls); + return EVENT_TRANSVR_TASK_FAIL; +} + + +static int +initfunc_qsfp_handle_power_mode(struct transvr_obj_s *self) { + + int err_code = EVENT_TRANSVR_EXCEP_INIT; + int power_class = DEBUG_TRANSVR_INT_VAL; + int hpmod_retry = 3; + int lpower_config = 1; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + unsigned long hpmod_delay = 500; /* msec */ + struct transvr_worker_s *task_p = NULL; + + /* Handle power mode for IOEXP */ + power_class = __qsfp_get_power_cls(self, 0); + switch (power_class) { + case 1: /* Case: Low power mode (Class = 1) */ + err_code = _taskfunc_qsfp_setup_power_mod(self, lpower_config); + if (err_code < 0){ + snprintf(err_msg, sizeof(err_msg), "Setup lpmod fail :%d", err_code); + goto err_initfunc_qsfp_handle_power_mode; + } + return EVENT_TRANSVR_TASK_DONE; + + case 2: /* Case: High power mode (Class > 1) */ + case 3: + case 4: + case 5: + case 6: + case 7: + task_p = transvr_task_creat(self, + taskfunc_qsfp_set_hpmod, + taskfunc_post_handle_task_state, + "transvr_init_qsfp"); + if (!task_p) { + snprintf(err_msg, sizeof(err_msg), "Setup lpmod fail :%d", err_code); + goto err_initfunc_qsfp_handle_power_mode; + } + transvr_task_set_retry(task_p, hpmod_retry); + transvr_task_set_delay(task_p, hpmod_delay); + return EVENT_TRANSVR_TASK_WAIT; + + default: + break; + } + snprintf(err_msg, sizeof(err_msg), "Exception case"); + goto err_initfunc_qsfp_handle_power_mode; + +err_initfunc_qsfp_handle_power_mode: + SWPS_INFO("%s: %s :%s \n", __func__, err_msg, self->swp_name); + return EVENT_TRANSVR_INIT_FAIL; +} + + +int +initfunc_qsfp28_handle_cdr(struct transvr_obj_s *self) { + + uint8_t DEFAULT_VAL_CDR = 0xff; + int CDR_FUNC_EXISTED = 0x3; + int show_err = 1; + int err_val = EVENT_TRANSVR_TASK_FAIL; + char *err_msg = DEBUG_TRANSVR_STR_VAL; + char *func_str = "initfunc_qsfp28_handle_cdr"; + + err_val = __qsfp_get_cdr_present(self, 0); + if ( (err_val < 0) || + (err_val == DEBUG_TRANSVR_HEX_VAL) ) { + err_msg = "detect cdr_present fail!"; + goto err_taskfunc_qsfp_handle_cdr_1; + } + if (err_val == CDR_FUNC_EXISTED) { + err_val = _common_set_uint8_attr(self, + self->eeprom_map_p->addr_cdr, + self->eeprom_map_p->addr_cdr, + self->eeprom_map_p->offset_cdr, + DEFAULT_VAL_CDR, + &(self->cdr), + func_str, + show_err); + if (err_val < 0) { + err_msg = "set CDR fail!"; + goto err_taskfunc_qsfp_handle_cdr_1; + } + } + return EVENT_TRANSVR_TASK_DONE; + +err_taskfunc_qsfp_handle_cdr_1: + SWPS_INFO("%s: %s :%d :%s\n", + func_str, err_msg, err_val, self->swp_name); + return EVENT_TRANSVR_INIT_FAIL; +} + +/* ========== Object functions for Final State Machine ========== + */ +int +is_plugged(struct transvr_obj_s *self){ + + int limit = 63; + int present = DEBUG_TRANSVR_INT_VAL; + char emsg[64] = DEBUG_TRANSVR_STR_VAL; + struct ioexp_obj_s *ioexp_p = self->ioexp_obj_p; + + if (!ioexp_p) { + snprintf(emsg, limit, "ioexp_p is null!"); + goto err_is_plugged_1; + } + present = ioexp_p->get_present(ioexp_p, self->ioexp_virt_offset); + switch (present){ + case 0: + return 1; + case 1: + return 0; + case ERR_IOEXP_UNINIT: + snprintf(emsg, limit, "ioexp_p not ready!"); + goto err_is_plugged_1; + default: + if (ioexp_p->state == STATE_IOEXP_INIT){ + snprintf(emsg, limit, "ioexp_p not ready!"); + goto err_is_plugged_1; + } + break; + } + SWPS_INFO("%s: Exception case! :%d :%d\n", + __func__, present, ioexp_p->state); + return 0; + +err_is_plugged_1: + SWPS_DEBUG("%s: %s\n", __func__, emsg); + return 0; +} + + +static int +detect_transvr_type(struct transvr_obj_s* self){ + + int type = TRANSVR_TYPE_ERROR; + + self->i2c_client_p->addr = VAL_TRANSVR_COMID_ARREESS; + type = i2c_smbus_read_byte_data(self->i2c_client_p, + VAL_TRANSVR_COMID_OFFSET); + + /* Case: 1. Wait transceiver I2C module. + * 2. Transceiver I2C module failure. + * Note: 1. SFF allow maximum transceiver initial time is 2 second. So, there + * are exist some case that we need to wait transceiver. + * For these case, we keeps status on "TRANSVR_TYPE_UNPLUGGED", than + * state machine will keep trace with it. + * 2. There exist some I2C failure case we need to handle. Such as user + * insert the failure transceiver, or any reason cause it abnormal. + */ + if (type < 0){ + switch (type) { + case -EIO: + SWPS_DEBUG("%s: %s smbus return:-5 (I/O error)\n", + __func__, self->swp_name); + return TRANSVR_TYPE_UNPLUGGED; + case -ENXIO: + SWPS_DEBUG("%s: %s smbus return:-6 (No such device or address)\n", + __func__, self->swp_name); + return TRANSVR_TYPE_UNPLUGGED; + default: + break; + } + SWPS_INFO("%s: %s unexpected smbus return:%d \n", + __func__, self->swp_name, type); + return TRANSVR_TYPE_ERROR; + } + /* Identify valid transceiver type */ + switch (type){ + case TRANSVR_TYPE_SFP: + case TRANSVR_TYPE_QSFP: + case TRANSVR_TYPE_QSFP_PLUS: + case TRANSVR_TYPE_QSFP_28: + break; + case TRANSVR_TYPE_UNKNOW_1: + case TRANSVR_TYPE_UNKNOW_2: + type = TRANSVR_TYPE_UNKNOW_2; + break; + default: + SWPS_DEBUG("%s: unknow type:0x%02x \n", __func__, type); + type = TRANSVR_TYPE_ERROR; + break; + } + return type; +} + + +static int +detect_transvr_state(struct transvr_obj_s *self, + int result[2]){ + /* [return] [result-0] [result-1] + * 0 STATE_TRANSVR_CONNECTED TRANSVR_TYPE_FAKE + * 0 STATE_TRANSVR_DISCONNECTED TRANSVR_TYPE_UNPLUGGED + * 0 STATE_TRANSVR_ISOLATED TRANSVR_TYPE_ERROR + * 0 STATE_TRANSVR_INIT / + * 0 STATE_TRANSVR_SWAPPED + * 0 STATE_TRANSVR_CONNECTED + * ERR_TRNASVR_BE_ISOLATED STATE_TRANSVR_ISOLATED TRANSVR_TYPE_ERROR + * ERR_TRANSVR_I2C_CRASH STATE_TRANSVR_UNEXCEPTED TRANSVR_TYPE_ERROR + * ERR_TRANSVR_UNEXCPT STATE_TRANSVR_UNEXCEPTED TRANSVR_TYPE_UNKNOW_1/2 + */ + result[0] = STATE_TRANSVR_UNEXCEPTED; /* For return state */ + result[1] = TRANSVR_TYPE_ERROR; /* For return type */ + + /* Case1: Fake type */ + if (self->type == TRANSVR_TYPE_FAKE){ + result[0] = STATE_TRANSVR_CONNECTED; + result[1] = TRANSVR_TYPE_FAKE; + return 0; + } + /* Case2: Transceiver unplugged */ + if (!is_plugged(self)){ + result[0] = STATE_TRANSVR_DISCONNECTED; + result[1] = TRANSVR_TYPE_UNPLUGGED; + return 0; + } + /* Case3: Transceiver be isolated */ + if (self->state == STATE_TRANSVR_ISOLATED){ + result[0] = STATE_TRANSVR_ISOLATED; + result[1] = TRANSVR_TYPE_ERROR; + return ERR_TRNASVR_BE_ISOLATED; + } + /* Case4: Transceiver plugged */ + result[1] = detect_transvr_type(self); + /* Case4.1: I2C topology crash + * Note : There are some I2C issues cause by transceiver/cables. + * We need to check topology status when user insert it. + * But in this step, we can't not ensure this is the issues + * port. So, it return the ERR_TRANSVR_I2C_CRASH, then upper + * layer will diagnostic I2C topology. + */ + if (check_channel_tier_1() < 0) { + SWPS_INFO("%s: %s detect I2C crash :%d\n", + __func__, self->swp_name, self->state); + result[0] = STATE_TRANSVR_UNEXCEPTED; + result[1] = TRANSVR_TYPE_ERROR; + return ERR_TRANSVR_I2C_CRASH; + } + /* Case4.2: System initial not ready, + * Note : Sometime i2c channel or transceiver EEPROM will delay that will + * cause system in inconsistent state between EEPROM and IOEXP. + * In this case, SWP transceiver object keep state at LINK_DOWN + * to wait system ready. + * By the way, State Machine will handle these case. + */ + if (result[1] == TRANSVR_TYPE_UNPLUGGED){ + result[0] = STATE_TRANSVR_DISCONNECTED; + return 0; + } + /* Case4.3: Error transceiver type */ + if (result[1] == TRANSVR_TYPE_ERROR){ + result[0] = STATE_TRANSVR_ISOLATED; + SWPS_INFO("%s: %s detect error type\n", __func__, self->swp_name); + alarm_msg_2_user(self, "detected transceiver/cables not meet SFF standard!"); + return ERR_TRNASVR_BE_ISOLATED; + } + /* Case3.3: Unknow transceiver type */ + if ((result[1] == TRANSVR_TYPE_UNKNOW_1) || + (result[1] == TRANSVR_TYPE_UNKNOW_2) ){ + result[0] = STATE_TRANSVR_UNEXCEPTED; + return ERR_TRANSVR_UNEXCPT; + } + /* Case3.4: During initial process */ + if (self->state == STATE_TRANSVR_INIT){ + result[0] = STATE_TRANSVR_INIT; + return 0; + } + /* Case3.5: Transceiver be swapped */ + if (self->type != result[1]){ + result[0] = STATE_TRANSVR_SWAPPED; + return 0; + } + /* Case3.6: Link up state */ + result[0] = STATE_TRANSVR_CONNECTED; + return 0; +} + + +int +_sfp_detect_class_by_extend_comp(struct transvr_obj_s* self) { + /* Reference: SFF-8024 (v3.8) + */ + int detect_val = _sfp_get_comp_extended(self); + + switch(detect_val) { + case 0x00: /* Unspecified */ + return TRANSVR_CLASS_UNSPECIFIED; + + case 0x01: /* 100G AOC (Active Optical Cable) or 25GAUI C2M */ + case 0x18: /* 100G AOC or 25GAUI C2M AOC. */ + return TRANSVR_CLASS_OPTICAL_25G_AOC; + + case 0x02: /* 100GBASE-SR4 or 25GBASE-SR */ + return TRANSVR_CLASS_OPTICAL_25G_SR; + + case 0x03: /* 100GBASE-LR4 or 25GBASE-LR */ + return TRANSVR_CLASS_OPTICAL_25G_LR; + + case 0x04: /* 100GBASE-ER4 or 25GBASE-ER */ + return TRANSVR_CLASS_OPTICAL_25G_ER; + + case 0x08: /* 100G ACC (Active Copper Cable) or 25GAUI C2M ACC. */ + case 0x0b: /* 100GBASE-CR4 or 25GBASE-CR CA-L */ + case 0x0c: /* 25GBASE-CR CA-S */ + case 0x0d: /* 25GBASE-CR CA-N */ + case 0x19: /* 100G ACC or 25GAUI C2M ACC. */ + return TRANSVR_CLASS_COPPER_L1_25G; + + default: + break; + } + SWPS_INFO("%s: Unexcept value:0x%02x\n :%s", + __func__, detect_val, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +_sfp_detect_class_by_10_ethernet(struct transvr_obj_s* self) { + /* Reference: SFF-8472 (v12.2) + */ + int detect_val = DEBUG_TRANSVR_INT_VAL; + + detect_val = _sfp_get_comp_10g_eth_comp(self); + /* Case: Unspecified */ + if (detect_val == 0x00) { + return TRANSVR_CLASS_UNSPECIFIED; + } + /* Case: 10G Optical (x1) */ + if ((detect_val & 0x10) == 0x10) { /* 00010000 : 10GBASE-SR */ + return TRANSVR_CLASS_OPTICAL_10G_S_SR; + } + if ( ((detect_val & 0x20) == 0x20) || /* 00100000 : 10GBASE-LR */ + ((detect_val & 0x40) == 0x40) ){ /* 01000000 : 10GBASE-LRM */ + return TRANSVR_CLASS_OPTICAL_10G_S_LR; + } + if ((detect_val & 0x80) == 0x80) { /* 10000000 : 10GBASE-ER */ + return TRANSVR_CLASS_OPTICAL_10G_S_ER; + } + /* Case: ERROR */ + SWPS_INFO("%s: Unexcept value:0x%02x\n :%s", + __func__, detect_val, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +_sfp_detect_if_sp_by_br(struct transvr_obj_s* self) { + + int lower_bound_1g = 0x0b; + int upper_bound_1g = 0x1A; + int lower_bound_10g = 0x60; + int upper_bound_10g = 0x75; + int lower_bound_25g = 0xf0; + int upper_bound_25g = 0xff; + int notmal_br = DEBUG_TRANSVR_INT_VAL; + + notmal_br = (int)(self->br); /* updated by update_all() */ + /* Check 25G */ + if ((notmal_br >= lower_bound_25g) && + (notmal_br <= upper_bound_25g) ) { + return TRANSVR_CLASS_25G; + } + /* Check 10G */ + if ((notmal_br >= lower_bound_10g) && + (notmal_br <= upper_bound_10g) ) { + return TRANSVR_CLASS_10G; + } + /* Check 1G */ + if ((notmal_br >= lower_bound_1g) && + (notmal_br <= upper_bound_1g) ) { + return TRANSVR_CLASS_1G; + } + return TRANSVR_CLASS_UNSPECIFIED; +} + + +int +_sfp_detect_class_by_1g_ethernet(struct transvr_obj_s* self) { + /* Reference: SFF-8472 (v12.2) + */ + int detect_val = DEBUG_TRANSVR_INT_VAL; + int speed_br = DEBUG_TRANSVR_INT_VAL; + int speed_tmp = DEBUG_TRANSVR_INT_VAL; + char err_str[64] = DEBUG_TRANSVR_STR_VAL; + + speed_br = _sfp_detect_if_sp_by_br(self); + detect_val = _sfp_get_comp_1g_eth_comp(self); + + if (detect_val < 0) { + snprintf(err_str, sizeof(err_str), "Detect abnormal value:%d", detect_val); + goto err_p_sfp_detect_class_by_1g_ethernet; + } + /* Case: Unspecified */ + if (detect_val == 0x00) { + return TRANSVR_CLASS_UNSPECIFIED; + } + /* Case: 1G (x1) */ + if ((detect_val & 0x01) == 0x01) { /* 00000001 : 1000BASE-SX */ + speed_tmp = TRANSVR_CLASS_OPTICAL_1G_SX; + goto ok_sfp_detect_class_by_1g_ethernet_4_check_br_10g; + } + if ((detect_val & 0x02) == 0x02) { /* 00000010 : 1000BASE-LX *3 */ + speed_tmp = TRANSVR_CLASS_OPTICAL_1G_LX; + goto ok_sfp_detect_class_by_1g_ethernet_4_check_br_10g; + } + if ((detect_val & 0x04) == 0x04) { /* 00000100 : 1000BASE-CX */ + speed_tmp = TRANSVR_CLASS_COPPER_L1_1G; + goto ok_sfp_detect_class_by_1g_ethernet_4_check_br_10g; + } + /* Case: 1000 Base-T (x1) */ + if ((detect_val & 0x08) == 0x08) { /* 00001000 : 1000BASE-T */ + return TRANSVR_CLASS_BASE_T_1000; + } + /* Case: 100 Base */ + if ( ((detect_val & 0x10) == 0x10) || /* 00010000 : 100BASE-LX/LX10 */ + ((detect_val & 0x20) == 0x20) || /* 00100000 : 100BASE-FX */ + ((detect_val & 0x40) == 0x40) || /* 01000000 : BASE-BX10 *3 */ + ((detect_val & 0x80) == 0x80) ){ /* 10000000 : BASE-PX *3 */ + return TRANSVR_CLASS_OPTICAL_100; + } + /* Case: ERROR */ + snprintf(err_str, sizeof(err_str), "Case:ERROR, value:%d", detect_val); + goto err_p_sfp_detect_class_by_1g_ethernet; + +ok_sfp_detect_class_by_1g_ethernet_4_check_br_10g: + switch (speed_br) { + case TRANSVR_CLASS_UNSPECIFIED: + case TRANSVR_CLASS_1G: + return speed_tmp; + case TRANSVR_CLASS_10G: + goto ok_sfp_detect_class_by_1g_ethernet_4_transfer_10G; + } + +ok_sfp_detect_class_by_1g_ethernet_4_transfer_10G: + switch (speed_tmp) { + case TRANSVR_CLASS_OPTICAL_1G_SX: + return TRANSVR_CLASS_OPTICAL_10G_S_SR; + case TRANSVR_CLASS_OPTICAL_1G_LX: + return TRANSVR_CLASS_OPTICAL_10G_S_LR; + case TRANSVR_CLASS_COPPER_L1_1G: + return TRANSVR_CLASS_COPPER_L1_10G; + default: + break; + } + snprintf(err_str, sizeof(err_str), "transfer_1to10 fail, speed:%d", speed_tmp); + goto err_p_sfp_detect_class_by_1g_ethernet; + +err_p_sfp_detect_class_by_1g_ethernet: + SWPS_INFO("%s: %s :%s", __func__, err_str, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +_sfp_detect_class_by_feature(struct transvr_obj_s* self) { + /* Reference: SFF-8024 (v3.8) + */ + int is_active = 0; + int conn_val = DEBUG_TRANSVR_INT_VAL; + int check_val = DEBUG_TRANSVR_INT_VAL; + int wave_len = DEBUG_TRANSVR_INT_VAL; + int speed_val = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + speed_val = _sfp_detect_if_sp_by_br(self); + conn_val = _sfp_get_connector_type(self); + + switch(conn_val) { + case 0x00: /* Unspecified */ + goto ok_sfp_detect_class_by_feature_4_check_active_passive; + case 0x07: /* LC (Lucent Connector) */ + case 0x0b: /* Optical Pigtail */ + case 0x0c: /* MPO 1x12 */ + case 0x0d: /* MPO 2x16 */ + /* + * ToDo: Need verify Optical Pigtail + */ + goto ok_sfp_detect_class_by_feature_4_optiocal; + case 0x21: /* Copper pigtail */ + /* + * ToDo: Need check ACC use case + */ + goto ok_sfp_detect_class_by_feature_4_check_active_passive; + case 0x23: /* No separable connector */ + /* + * ToDo: Standard not clear, not all transceiver vendor + * have the same defined + */ + goto ok_sfp_detect_class_by_feature_4_check_active_passive; + default: + break; + } + goto ok_sfp_detect_class_by_feature_4_unknow; + +ok_sfp_detect_class_by_feature_4_check_active_passive: + check_val = _sfp_get_cable_tech(self); + switch(check_val) { + case 0x00: /* Unspecified */ + goto ok_sfp_detect_class_by_feature_4_unknow; + case 0x04: /* Passive */ + goto ok_sfp_detect_class_by_feature_4_copper; + case 0x08: /* Active */ + is_active = 1; + goto ok_sfp_detect_class_by_feature_4_aoc; + default: + snprintf(err_msg, sizeof(err_msg), + "_sfp_get_cable_tech return Non define value:%d", + check_val); + break; + } + goto err_sfp_detect_class_by_feature_1; + +ok_sfp_detect_class_by_feature_4_optiocal: + wave_len = _common_count_wavelength(self, + self->wavelength[0], + self->wavelength[1]); + switch(speed_val) { + case TRANSVR_CLASS_25G: + switch (wave_len) { + case VAL_OPTICAL_WAVELENGTH_SR: + return TRANSVR_CLASS_OPTICAL_25G_SR; + case VAL_OPTICAL_WAVELENGTH_LR: + return TRANSVR_CLASS_OPTICAL_25G_LR; + case VAL_OPTICAL_WAVELENGTH_ER: + return TRANSVR_CLASS_OPTICAL_25G_ER; + default: + break; + } + return TRANSVR_CLASS_OPTICAL_25G; + + case TRANSVR_CLASS_10G: + switch (wave_len) { + case VAL_OPTICAL_WAVELENGTH_SR: + return TRANSVR_CLASS_OPTICAL_10G_S_SR; + case VAL_OPTICAL_WAVELENGTH_LR: + return TRANSVR_CLASS_OPTICAL_10G_S_LR; + case VAL_OPTICAL_WAVELENGTH_ER: + return TRANSVR_CLASS_OPTICAL_10G_S_ER; + default: + break; + } + return TRANSVR_CLASS_OPTICAL_10G; + + case TRANSVR_CLASS_1G: + switch (wave_len) { + case VAL_OPTICAL_WAVELENGTH_SR: + return TRANSVR_CLASS_OPTICAL_1G_SX; + case VAL_OPTICAL_WAVELENGTH_LR: + return TRANSVR_CLASS_OPTICAL_1G_LX; + case VAL_OPTICAL_WAVELENGTH_ER: + return TRANSVR_CLASS_OPTICAL_1G_EX; + default: + break; + } + return TRANSVR_CLASS_OPTICAL_1G; + + default: + return TRANSVR_CLASS_OPTICAL; + } + +ok_sfp_detect_class_by_feature_4_aoc: + switch(speed_val) { + case TRANSVR_CLASS_25G: + return TRANSVR_CLASS_OPTICAL_25G_AOC; + case TRANSVR_CLASS_10G: + return TRANSVR_CLASS_OPTICAL_10G_S_AOC; + case TRANSVR_CLASS_1G: + return TRANSVR_CLASS_OPTICAL_1G_AOC; + default: + break; + } + goto ok_sfp_detect_class_by_feature_4_unknow; + +ok_sfp_detect_class_by_feature_4_copper: + switch(speed_val) { + case TRANSVR_CLASS_25G: + return TRANSVR_CLASS_COPPER_L1_25G; + case TRANSVR_CLASS_10G: + return TRANSVR_CLASS_COPPER_L1_10G; + case TRANSVR_CLASS_1G: + return TRANSVR_CLASS_COPPER_L1_1G; + default: + return TRANSVR_CLASS_COPPER; + } + +ok_sfp_detect_class_by_feature_4_unknow: + return TRANSVR_CLASS_UNSPECIFIED; + +err_sfp_detect_class_by_feature_1: + SWPS_INFO("%s: %s\n :%s", __func__, err_msg, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +sft_detect_transvr_class(struct transvr_obj_s* self) { + + int detect_val = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + /* Check Extended Compliance */ + detect_val = _sfp_detect_class_by_extend_comp(self); + switch(detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + break; + case TRANSVR_CLASS_OPTICAL_25G_AOC: + case TRANSVR_CLASS_OPTICAL_25G_SR: + case TRANSVR_CLASS_OPTICAL_25G_LR: + case TRANSVR_CLASS_OPTICAL_25G_ER: + case TRANSVR_CLASS_COPPER_L1_25G: + return detect_val; + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined extend_comp:%d", + detect_val); + goto err_sft_detect_transceiver_class_1; + } + /* Check 10G Compliance */ + detect_val = _sfp_detect_class_by_10_ethernet(self); + switch(detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + break; + case TRANSVR_CLASS_OPTICAL_10G_S_SR: + case TRANSVR_CLASS_OPTICAL_10G_S_LR: + case TRANSVR_CLASS_OPTICAL_10G_S_ER: + return detect_val; + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined 10G_eth:%d", + detect_val); + goto err_sft_detect_transceiver_class_1; + } + /* Check 1G Compliance */ + detect_val = _sfp_detect_class_by_1g_ethernet(self); + switch(detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + break; + case TRANSVR_CLASS_OPTICAL_1G_SX: + case TRANSVR_CLASS_OPTICAL_1G_LX: + case TRANSVR_CLASS_COPPER_L1_1G: + case TRANSVR_CLASS_BASE_T_1000: + case TRANSVR_CLASS_OPTICAL_100: + /* + * ToDo: Need Check 0.1G + */ + case TRANSVR_CLASS_OPTICAL_10G_S_SR: + case TRANSVR_CLASS_OPTICAL_10G_S_LR: + case TRANSVR_CLASS_COPPER_L1_10G: + /* Transfer speed case + * => Example: Raycom 10G DAC + */ + return detect_val; + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined 1G_eth:%d", + detect_val); + goto err_sft_detect_transceiver_class_1; + } + /* Check by connector, br, wavelength */ + detect_val = _sfp_detect_class_by_feature(self); + switch(detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + break; + case TRANSVR_CLASS_OPTICAL: + case TRANSVR_CLASS_OPTICAL_1G: + case TRANSVR_CLASS_OPTICAL_1G_SX: + case TRANSVR_CLASS_OPTICAL_1G_LX: + case TRANSVR_CLASS_OPTICAL_1G_EX: + case TRANSVR_CLASS_OPTICAL_1G_AOC: + case TRANSVR_CLASS_OPTICAL_10G: + case TRANSVR_CLASS_OPTICAL_10G_S_SR: + case TRANSVR_CLASS_OPTICAL_10G_S_LR: + case TRANSVR_CLASS_OPTICAL_10G_S_ER: + case TRANSVR_CLASS_OPTICAL_10G_S_AOC: + case TRANSVR_CLASS_OPTICAL_25G: + case TRANSVR_CLASS_OPTICAL_25G_SR: + case TRANSVR_CLASS_OPTICAL_25G_LR: + case TRANSVR_CLASS_OPTICAL_25G_ER: + case TRANSVR_CLASS_OPTICAL_25G_AOC: + case TRANSVR_CLASS_COPPER: + case TRANSVR_CLASS_COPPER_L1_1G: + case TRANSVR_CLASS_COPPER_L1_10G: + case TRANSVR_CLASS_COPPER_L1_25G: + return detect_val; + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined get_connector:%d", + detect_val); + goto err_sft_detect_transceiver_class_1; + } + /* Exception case: Can't verify */ + snprintf(err_msg, sizeof(err_msg), "Can not identify!"); + goto err_sft_detect_transceiver_class_1; + +err_sft_detect_transceiver_class_1: + SWPS_INFO("%s: %s :%s\n", __func__, err_msg, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +_sfp_set_trident2_if_type(struct transvr_obj_s* self, + int transvr_cls, + char *result){ + + int lmax = 8; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + switch(transvr_cls) { + case TRANSVR_CLASS_ERROR: + case TRANSVR_CLASS_UNSPECIFIED: + break; + /* 25G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_25G_AOC: + case TRANSVR_CLASS_OPTICAL_25G_SR: + case TRANSVR_CLASS_OPTICAL_25G_LR: + case TRANSVR_CLASS_OPTICAL_25G_ER: + case TRANSVR_CLASS_OPTICAL_25G: + return snprintf(result, lmax, TRANSVR_IF_SFI); + /* 25G COPPER */ + case TRANSVR_CLASS_COPPER_L1_25G: + return snprintf(result, lmax, TRANSVR_IF_SFI); + /* 10G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_10G_S_AOC: + case TRANSVR_CLASS_OPTICAL_10G_S_SR: + case TRANSVR_CLASS_OPTICAL_10G_S_LR: + case TRANSVR_CLASS_OPTICAL_10G_S_ER: + case TRANSVR_CLASS_OPTICAL_10G: + return snprintf(result, lmax, TRANSVR_IF_SFI); + /* 10G COPPER */ + case TRANSVR_CLASS_COPPER_L1_10G: + return snprintf(result, lmax, TRANSVR_IF_SFI); + /* 1G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_1G_AOC: + case TRANSVR_CLASS_OPTICAL_1G_SX: + case TRANSVR_CLASS_OPTICAL_1G_LX: + case TRANSVR_CLASS_OPTICAL_1G_EX: + case TRANSVR_CLASS_OPTICAL_1G: + return snprintf(result, lmax, TRANSVR_IF_IF_GMII); + /* 1G COPPER */ + case TRANSVR_CLASS_COPPER_L1_1G: + return snprintf(result, lmax, TRANSVR_IF_IF_GMII); + /* 1G BASE_T */ + case TRANSVR_CLASS_BASE_T_1000: + return snprintf(result, lmax, TRANSVR_IF_IF_GMII); + /* 100 Base */ + case TRANSVR_CLASS_OPTICAL_100: + return snprintf(result, lmax, TRANSVR_IF_IF_GMII); + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined value:%d", + transvr_cls); + goto err_sfp_set_trident2_if_type_1; + } + /* Exception case: Can't verify */ + snprintf(err_msg, sizeof(err_msg), "Can not identify!"); + goto err_sfp_set_trident2_if_type_1; + +err_sfp_set_trident2_if_type_1: + snprintf(result, lmax, TRANSVR_UEVENT_UNKNOW); + SWPS_INFO("%s: %s :%s\n", __func__, err_msg, self->swp_name); + return ERR_TRANSVR_ABNORMAL; +} + + +int +_sfp_set_tomahawk_if_type(struct transvr_obj_s* self, + int transvr_cls, + char *result) { + + int lmax = 8; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + switch(transvr_cls) { + case TRANSVR_CLASS_ERROR: + case TRANSVR_CLASS_UNSPECIFIED: + break; + /* 25G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_25G_AOC: + case TRANSVR_CLASS_OPTICAL_25G_SR: + case TRANSVR_CLASS_OPTICAL_25G_LR: + case TRANSVR_CLASS_OPTICAL_25G_ER: + case TRANSVR_CLASS_OPTICAL_25G: + return snprintf(result, lmax, TRANSVR_IF_SR); + /* 25G COPPER */ + case TRANSVR_CLASS_COPPER_L1_25G: + return snprintf(result, lmax, TRANSVR_IF_KR); + /* 10G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_10G_S_AOC: + case TRANSVR_CLASS_OPTICAL_10G_S_SR: + case TRANSVR_CLASS_OPTICAL_10G_S_LR: + case TRANSVR_CLASS_OPTICAL_10G_S_ER: + case TRANSVR_CLASS_OPTICAL_10G: + return snprintf(result, lmax, TRANSVR_IF_SFI); + /* 10G COPPER */ + case TRANSVR_CLASS_COPPER_L1_10G: + return snprintf(result, lmax, TRANSVR_IF_SFI); + /* 1G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_1G_AOC: + case TRANSVR_CLASS_OPTICAL_1G_SX: + case TRANSVR_CLASS_OPTICAL_1G_LX: + case TRANSVR_CLASS_OPTICAL_1G_EX: + case TRANSVR_CLASS_OPTICAL_1G: + return snprintf(result, lmax, TRANSVR_IF_IF_GMII); + /* 1G COPPER */ + case TRANSVR_CLASS_COPPER_L1_1G: + return snprintf(result, lmax, TRANSVR_IF_IF_GMII); + /* 1G BASE_T */ + case TRANSVR_CLASS_BASE_T_1000: + return snprintf(result, lmax, TRANSVR_IF_IF_GMII); + /* 100 Base */ + case TRANSVR_CLASS_OPTICAL_100: + return snprintf(result, lmax, TRANSVR_IF_IF_GMII); + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined value:%d", + transvr_cls); + goto err_sfp_set_tomahawk_if_type_1; + } + /* Exception case: Can't verify */ + snprintf(err_msg, sizeof(err_msg), "Can not identify!"); + goto err_sfp_set_tomahawk_if_type_1; + +err_sfp_set_tomahawk_if_type_1: + snprintf(result, lmax, TRANSVR_UEVENT_UNKNOW); + SWPS_INFO("%s: %s\n :%s", __func__, err_msg, self->swp_name); + return ERR_TRANSVR_ABNORMAL; +} + + +int +_sfp_detect_if_type(struct transvr_obj_s* self, + char *result){ + + int lmax = 8; + int detect_cls = DEBUG_TRANSVR_INT_VAL; + + detect_cls = sft_detect_transvr_class(self); + switch (self->chipset_type) { + case BCM_CHIP_TYPE_TRIDENT_2: + return _sfp_set_trident2_if_type(self, detect_cls, result); + + case BCM_CHIP_TYPE_TOMAHAWK: + return _sfp_set_tomahawk_if_type(self, detect_cls, result); + + default: + SWPS_INFO("%s: non-defined chipset_type:%d :%s\n", + __func__, self->chipset_type, self->swp_name); + break; + } + snprintf(result, lmax, TRANSVR_UEVENT_UNKNOW); + return ERR_TRANSVR_ABNORMAL; +} + + +int +sfp_get_if_type(struct transvr_obj_s *self, + char *buf_p){ + + int lmax = 16; + char tmp_result[16] = DEBUG_TRANSVR_STR_VAL; + + if (self->state != STATE_TRANSVR_CONNECTED) { + return snprintf(buf_p, lmax, "%d\n", self->state); + } + if (_sfp_detect_if_type(self, tmp_result) < 0) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_ABNORMAL); + } + return snprintf(buf_p, lmax, "%s\n", tmp_result); +} + + +int +_sfp_detect_if_speed(struct transvr_obj_s* self, + char *result){ + + int lmax = 16; + int detect_val = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + detect_val = sft_detect_transvr_class(self); + switch(detect_val) { + case TRANSVR_CLASS_ERROR: + case TRANSVR_CLASS_UNSPECIFIED: + break; + /* 25G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_25G_AOC: + case TRANSVR_CLASS_OPTICAL_25G_SR: + case TRANSVR_CLASS_OPTICAL_25G_LR: + case TRANSVR_CLASS_OPTICAL_25G_ER: + case TRANSVR_CLASS_OPTICAL_25G: + return snprintf(result, lmax, TRANSVR_IF_SP_25G); + /* 25G COPPER */ + case TRANSVR_CLASS_COPPER_L1_25G: + return snprintf(result, lmax, TRANSVR_IF_SP_25G); + /* 10G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_10G_S_AOC: + case TRANSVR_CLASS_OPTICAL_10G_S_SR: + case TRANSVR_CLASS_OPTICAL_10G_S_LR: + case TRANSVR_CLASS_OPTICAL_10G_S_ER: + case TRANSVR_CLASS_OPTICAL_10G: + return snprintf(result, lmax, TRANSVR_IF_SP_10G); + /* 10G COPPER */ + case TRANSVR_CLASS_COPPER_L1_10G: + return snprintf(result, lmax, TRANSVR_IF_SP_10G); + /* 1G OPTICAL */ + case TRANSVR_CLASS_OPTICAL_1G_AOC: + case TRANSVR_CLASS_OPTICAL_1G_SX: + case TRANSVR_CLASS_OPTICAL_1G_LX: + case TRANSVR_CLASS_OPTICAL_1G_EX: + case TRANSVR_CLASS_OPTICAL_1G: + return snprintf(result, lmax, TRANSVR_IF_SP_1G); + /* 1G COPPER */ + case TRANSVR_CLASS_COPPER_L1_1G: + return snprintf(result, lmax, TRANSVR_IF_SP_1G); + /* 1G BASE_T */ + case TRANSVR_CLASS_BASE_T_1000: + return snprintf(result, lmax, TRANSVR_IF_SP_1G); + /* 100 Base */ + case TRANSVR_CLASS_OPTICAL_100: + return snprintf(result, lmax, TRANSVR_IF_SP_100); + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined value:%d", + detect_val); + goto err_sfp_detect_if_speed_1; + } + /* Check by BR */ + detect_val = _sfp_detect_if_sp_by_br(self); + switch (detect_val) { + case TRANSVR_CLASS_25G: + return snprintf(result, lmax, TRANSVR_IF_SP_25G); + case TRANSVR_CLASS_10G: + return snprintf(result, lmax, TRANSVR_IF_SP_10G); + case TRANSVR_CLASS_1G: + return snprintf(result, lmax, TRANSVR_IF_SP_1G); + default: + break; + } + /* Exception case: Can't verify */ + snprintf(err_msg, sizeof(err_msg), "Can not identify!"); + goto err_sfp_detect_if_speed_1; + +err_sfp_detect_if_speed_1: + snprintf(result, lmax, TRANSVR_UEVENT_UNKNOW); + SWPS_INFO("%s %s\n :%s", __func__, err_msg, self->swp_name); + return ERR_TRANSVR_ABNORMAL; +} + + +int +sfp_get_if_speed(struct transvr_obj_s *self, + char *buf_p){ + + int lmax = 16; + char tmp_result[16] = DEBUG_TRANSVR_STR_VAL; + + if (self->state != STATE_TRANSVR_CONNECTED) { + return snprintf(buf_p, lmax, "%d\n", self->state); + } + if (_sfp_detect_if_speed(self, tmp_result) < 0) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_ABNORMAL); + } + return snprintf(buf_p, lmax, "%s\n", tmp_result); +} + + +int +_qsfp_detect_class_by_extend_comp(struct transvr_obj_s* self) { + /* Reference: SFF-8024 (v3.8) + */ + int detect_val = DEBUG_TRANSVR_INT_VAL; + + detect_val = _qsfp_get_comp_extended(self); + switch(detect_val) { + case 0x00: /* Unspecified */ + return TRANSVR_CLASS_UNSPECIFIED; + + case 0x01: /* 100G AOC (Active Optical Cable) or 25GAUI C2M */ + case 0x18: /* 100G AOC or 25GAUI C2M AOC. */ + return TRANSVR_CLASS_OPTICAL_100G_AOC; + + case 0x06: /* 100G CWDM4 */ + case 0x09: /* Obsolete (assigned before 100G CWDM4 MSA required FEC) */ + case 0x17: /* 100G CLR4 */ + case 0x1A: /* 100GE-DWDM2 */ + return TRANSVR_CLASS_OPTICAL_100G; + + case 0x02: /* 100GBASE-SR4 or 25GBASE-SR */ + return TRANSVR_CLASS_OPTICAL_100G_SR4; + + case 0x03: /* 100GBASE-LR4 or 25GBASE-LR */ + return TRANSVR_CLASS_OPTICAL_100G_LR4; + + case 0x04: /* 100GBASE-ER4 or 25GBASE-ER */ + return TRANSVR_CLASS_OPTICAL_100G_ER4; + + case 0x07: /* 100G PSM4 Parallel SMF */ + return TRANSVR_CLASS_OPTICAL_100G_PSM4; + + case 0x12: /* 40G PSM4 Parallel SMF */ + return TRANSVR_CLASS_OPTICAL_40G; + + case 0x11: /* 4 x 10GBASE-SR */ + return TRANSVR_CLASS_OPTICAL_40G_SR4; + + case 0x10: /* 40GBASE-ER4 */ + return TRANSVR_CLASS_OPTICAL_40G_ER4; + + case 0x08: /* 100G ACC (Active Copper Cable) or 25GAUI C2M ACC. */ + case 0x0b: /* 100GBASE-CR4 or 25GBASE-CR CA-L */ + case 0x19: /* 100G ACC or 25GAUI C2M ACC. */ + return TRANSVR_CLASS_COPPER_L4_100G; + + default: + break; + } + SWPS_INFO("%s: Unexcept value:0x%02x\n :%s", + __func__, detect_val, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +_qsfp_detect_class_by_10_40_100_ethernet(struct transvr_obj_s* self) { + /* Reference: SFF-8472 (v12.2) + */ + int detect_val = DEBUG_TRANSVR_INT_VAL; + + detect_val = _qsfp_get_comp_10_40_100_ethernet(self); + /* Case: Unspecified */ + if (detect_val == 0x00) { + return TRANSVR_CLASS_UNSPECIFIED; + } + /* Case: 40G Optical */ + if ((detect_val & 0x01) == 0x01) { /* 00000001 : 40G Active Cable (XLPPI) */ + return TRANSVR_CLASS_OPTICAL_40G_AOC; + } + if ((detect_val & 0x04) == 0x04) { /* 00000100 : 40GBASE-SR4 */ + return TRANSVR_CLASS_OPTICAL_40G_SR4; + } + if ( (detect_val & 0x02) == 0x02) { /* 00000010 : 40GBASE-LR4 */ + return TRANSVR_CLASS_OPTICAL_40G_LR4; + } + if ( (detect_val & 0x08) == 0x08) { /* 00001000 : 40GBASE-CR4 */ + return TRANSVR_CLASS_COPPER_L4_40G; + } + /* Case: 10G Optical */ + if ( (detect_val & 0x10) == 0x10) { /* 00010000 : 10GBASE-SR */ + return TRANSVR_CLASS_OPTICAL_10G_Q_SR; + } + if ( ((detect_val & 0x20) == 0x20) || /* 00100000 : 10GBASE-LR */ + ((detect_val & 0x40) == 0x40) ){ /* 01000000 : 10GBASE-LRM */ + return TRANSVR_CLASS_OPTICAL_10G_Q_LR; + } + /* Case: Extend Compliance */ + if ( ((detect_val & 0x80) == 0x80) ){ /* 10000000 : Use Extend Compliance */ + return TRANSVR_CLASS_EXTEND_COMP; + } + /* Case: ERROR */ + SWPS_INFO("%s: Unexcept value:0x%02x\n :%s", + __func__, detect_val, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +_qsfp_detect_if_sp_by_br(struct transvr_obj_s* self) { + + int lower_bound_10g = 0x10; + int upper_bound_10g = 0x25; + int lower_bound_40g = 0x60; + int upper_bound_40g = 0x75; + int lower_bound_100g = 0x60; + int upper_bound_100g = 0x75; + int used_extend_br = 0xff; + int notmal_br = DEBUG_TRANSVR_INT_VAL; + int extend_br = DEBUG_TRANSVR_INT_VAL; + + notmal_br = (int)(self->br); /* updated by update_all() */ + /* Check 40G */ + if ((notmal_br >= lower_bound_40g) && + (notmal_br <= upper_bound_40g) ) { + return TRANSVR_CLASS_40G; + } + /* Check 100G */ + if (notmal_br == used_extend_br) { + extend_br = (int)(self->extbr); /* updated by update_all() */ + if ((extend_br >= lower_bound_100g) && + (extend_br <= upper_bound_100g) ) { + return TRANSVR_CLASS_100G; + } + } + /* Check 10G */ + if ((notmal_br >= lower_bound_10g) && + (notmal_br <= upper_bound_10g) ) { + return TRANSVR_CLASS_10G; + } + return TRANSVR_CLASS_UNSPECIFIED; +} + + +int +_qsfp_detect_class_by_feature(struct transvr_obj_s* self) { + /* Reference: SFF-8024 (v3.8) + */ + int conn_val = DEBUG_TRANSVR_INT_VAL; + int wave_len = DEBUG_TRANSVR_INT_VAL; + int speed_val = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + speed_val = _qsfp_detect_if_sp_by_br(self); + conn_val = _qsfp_get_connector_type(self); + + switch(conn_val) { + case 0x00: /* Unspecified */ + return TRANSVR_CLASS_UNSPECIFIED; + case 0x07: /* LC (Lucent Connector) */ + case 0x0b: /* Optical Pigtail */ + case 0x0c: /* MPO 1x12 (Multifiber Parallel Optic) */ + case 0x0d: /* MPO 2x16 */ + goto ok_qsfp_detect_class_by_feature_4_optiocal; + case 0x21: /* Copper pigtail */ + goto ok_qsfp_detect_class_by_feature_4_copper; + case 0x23: /* No separable connector */ + if ((_qsfp_get_comp_fc_link_length(self) > 0) || + (_qsfp_get_comp_fc_trans_tech(self) > 0) || + (_qsfp_get_comp_fc_trans_media(self) > 0) || + (_qsfp_get_comp_fc_speed(self) > 0) ) { + goto ok_qsfp_detect_class_by_feature_4_aoc; + } + goto ok_qsfp_detect_class_by_feature_4_copper; + default: + snprintf(err_msg, sizeof(err_msg), + "_qsfp_get_connector_type return Non define value:%d", + conn_val); + goto err_qsfp_detect_class_by_feature_1; + } + return TRANSVR_CLASS_UNSPECIFIED; + +ok_qsfp_detect_class_by_feature_4_optiocal: + wave_len = _common_count_wavelength(self, + self->wavelength[0], + self->wavelength[1]); + switch(speed_val) { + case TRANSVR_CLASS_100G: + switch (wave_len) { + case VAL_OPTICAL_WAVELENGTH_SR: + return TRANSVR_CLASS_OPTICAL_100G_SR4; + case VAL_OPTICAL_WAVELENGTH_LR: + return TRANSVR_CLASS_OPTICAL_100G_LR4; + case VAL_OPTICAL_WAVELENGTH_ER: + return TRANSVR_CLASS_OPTICAL_100G_ER4; + default: + break; + } + return TRANSVR_CLASS_OPTICAL_100G; + + case TRANSVR_CLASS_40G: + switch (wave_len) { + case VAL_OPTICAL_WAVELENGTH_SR: + return TRANSVR_CLASS_OPTICAL_40G_SR4; + case VAL_OPTICAL_WAVELENGTH_LR: + return TRANSVR_CLASS_OPTICAL_40G_LR4; + case VAL_OPTICAL_WAVELENGTH_ER: + return TRANSVR_CLASS_OPTICAL_40G_ER4; + default: + break; + } + return TRANSVR_CLASS_OPTICAL_40G; + + case TRANSVR_CLASS_10G: + switch (wave_len) { + case VAL_OPTICAL_WAVELENGTH_SR: + return TRANSVR_CLASS_OPTICAL_10G_Q_SR; + case VAL_OPTICAL_WAVELENGTH_LR: + return TRANSVR_CLASS_OPTICAL_10G_Q_LR; + case VAL_OPTICAL_WAVELENGTH_ER: + return TRANSVR_CLASS_OPTICAL_10G_Q_ER; + default: + break; + } + return TRANSVR_CLASS_OPTICAL_10G; + + default: + return TRANSVR_CLASS_OPTICAL; + } + +ok_qsfp_detect_class_by_feature_4_aoc: + switch(speed_val) { + case TRANSVR_CLASS_100G: + return TRANSVR_CLASS_OPTICAL_100G_AOC; + case TRANSVR_CLASS_40G: + return TRANSVR_CLASS_OPTICAL_40G_AOC; + case TRANSVR_CLASS_10G: + return TRANSVR_CLASS_OPTICAL_10G_Q_AOC; + default: + return TRANSVR_CLASS_OPTICAL; + } + +ok_qsfp_detect_class_by_feature_4_copper: + switch(speed_val) { + case TRANSVR_CLASS_100G: + return TRANSVR_CLASS_COPPER_L4_100G; + case TRANSVR_CLASS_40G: + return TRANSVR_CLASS_COPPER_L4_40G; + case TRANSVR_CLASS_10G: + return TRANSVR_CLASS_COPPER_L4_10G; + default: + return TRANSVR_CLASS_COPPER; + } + +err_qsfp_detect_class_by_feature_1: + SWPS_INFO("%s: %s\n :%s", + __func__, err_msg, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +qsft_detect_transvr_class(struct transvr_obj_s* self) { + + int detect_val = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + /* Check Extended Compliance */ + detect_val = _qsfp_detect_class_by_extend_comp(self); + switch (detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + break; + case TRANSVR_CLASS_OPTICAL_100G: + case TRANSVR_CLASS_OPTICAL_100G_AOC: + case TRANSVR_CLASS_OPTICAL_100G_SR4: + case TRANSVR_CLASS_OPTICAL_100G_LR4: + case TRANSVR_CLASS_OPTICAL_100G_ER4: + case TRANSVR_CLASS_OPTICAL_100G_PSM4: + case TRANSVR_CLASS_OPTICAL_40G: + case TRANSVR_CLASS_OPTICAL_40G_AOC: + case TRANSVR_CLASS_OPTICAL_40G_SR4: + case TRANSVR_CLASS_OPTICAL_40G_LR4: + case TRANSVR_CLASS_OPTICAL_40G_ER4: + case TRANSVR_CLASS_COPPER_L4_100G: + return detect_val; + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined extend_comp:%d", + detect_val); + goto err_qsft_detect_transvr_class_1; + } + /* Check 10/40G/100G Ethernet Compliance */ + detect_val = _qsfp_detect_class_by_10_40_100_ethernet(self); + switch(detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + break; + case TRANSVR_CLASS_OPTICAL_40G_AOC: + case TRANSVR_CLASS_OPTICAL_40G_SR4: + case TRANSVR_CLASS_OPTICAL_40G_LR4: + case TRANSVR_CLASS_OPTICAL_10G_Q_SR: /* Need Check: SR4 or SR */ + case TRANSVR_CLASS_OPTICAL_10G_Q_LR: /* Need Check: SR4 or SR */ + case TRANSVR_CLASS_COPPER_L4_40G: + return detect_val; + case TRANSVR_CLASS_EXTEND_COMP: + /* Format incorrect case (We already checked the Extend + * Compliance is 0 + */ + snprintf(err_msg, sizeof(err_msg), + "Transceiver format incorrect"); + goto err_qsft_detect_transvr_class_1; + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined 10/40/100:%d", + detect_val); + goto err_qsft_detect_transvr_class_1; + } + /* Check by Connector type, BR and wavelength */ + detect_val = _qsfp_detect_class_by_feature(self); + switch (detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + break; + case TRANSVR_CLASS_OPTICAL_100G_ER4: + case TRANSVR_CLASS_OPTICAL_100G_LR4: + case TRANSVR_CLASS_OPTICAL_100G_SR4: + case TRANSVR_CLASS_OPTICAL_100G_AOC: + case TRANSVR_CLASS_OPTICAL_100G: + case TRANSVR_CLASS_OPTICAL_40G_ER4: + case TRANSVR_CLASS_OPTICAL_40G_LR4: + case TRANSVR_CLASS_OPTICAL_40G_SR4: + case TRANSVR_CLASS_OPTICAL_40G_AOC: + case TRANSVR_CLASS_OPTICAL_40G: + case TRANSVR_CLASS_OPTICAL_10G_Q_ER: + case TRANSVR_CLASS_OPTICAL_10G_Q_LR: + case TRANSVR_CLASS_OPTICAL_10G_Q_SR: + case TRANSVR_CLASS_OPTICAL_10G_Q_AOC: + case TRANSVR_CLASS_OPTICAL_10G: + case TRANSVR_CLASS_OPTICAL: + case TRANSVR_CLASS_COPPER_L4_100G: + case TRANSVR_CLASS_COPPER_L4_40G: + case TRANSVR_CLASS_COPPER_L4_10G: + case TRANSVR_CLASS_COPPER: + return detect_val; + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined connector:%d", + detect_val); + goto err_qsft_detect_transvr_class_1; + } + /* Exception case: Can't verify */ + snprintf(err_msg, sizeof(err_msg), + "Can not identify!"); + goto err_qsft_detect_transvr_class_1; + +err_qsft_detect_transvr_class_1: + SWPS_INFO("%s: %s\n :%s", __func__, err_msg, self->swp_name); + return TRANSVR_CLASS_ERROR; +} + + +int +_qsfp_set_trident2_if_type(struct transvr_obj_s* self, + int transvr_cls, + char *result){ + + int lmax = 8; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + switch (transvr_cls) { + case TRANSVR_CLASS_UNSPECIFIED: + case TRANSVR_CLASS_ERROR: + break; + /* 100G Optical */ + case TRANSVR_CLASS_OPTICAL_100G: + case TRANSVR_CLASS_OPTICAL_100G_AOC: + case TRANSVR_CLASS_OPTICAL_100G_SR4: + case TRANSVR_CLASS_OPTICAL_100G_LR4: + case TRANSVR_CLASS_OPTICAL_100G_ER4: + case TRANSVR_CLASS_OPTICAL_100G_PSM4: + return snprintf(result, lmax, TRANSVR_IF_SR4); + /* 100G Copper */ + case TRANSVR_CLASS_COPPER_L4_100G: + return snprintf(result, lmax, TRANSVR_IF_KR4); + /* 40G Optical */ + case TRANSVR_CLASS_OPTICAL_40G: + case TRANSVR_CLASS_OPTICAL_40G_AOC: + case TRANSVR_CLASS_OPTICAL_40G_SR4: + case TRANSVR_CLASS_OPTICAL_40G_LR4: + case TRANSVR_CLASS_OPTICAL_40G_ER4: + return snprintf(result, lmax, TRANSVR_IF_IF_XGMII); + /* 40G Copper */ + case TRANSVR_CLASS_COPPER_L4_40G: + return snprintf(result, lmax, TRANSVR_IF_IF_XGMII); + /* 10G Optical */ + case TRANSVR_CLASS_OPTICAL_10G: + case TRANSVR_CLASS_OPTICAL_10G_Q_AOC: + case TRANSVR_CLASS_OPTICAL_10G_Q_SR: /* Need Check: SR4 or SR */ + case TRANSVR_CLASS_OPTICAL_10G_Q_LR: /* Need Check: LR4 or LR */ + case TRANSVR_CLASS_OPTICAL_10G_Q_ER: /* Need Check: ER4 or ER */ + return snprintf(result, lmax, TRANSVR_IF_IF_XGMII); + /* Optical */ + case TRANSVR_CLASS_OPTICAL: + return snprintf(result, lmax, TRANSVR_IF_IF_XGMII); + /* Copper */ + case TRANSVR_CLASS_COPPER: + return snprintf(result, lmax, TRANSVR_IF_IF_XGMII); + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined value:%d", + transvr_cls); + goto err_qsfp_set_trident2_if_type_1; + } + /* Exception case: Can't verify */ + snprintf(err_msg, sizeof(err_msg), "Can not identify!"); + goto err_qsfp_set_trident2_if_type_1; + +err_qsfp_set_trident2_if_type_1: + snprintf(result, lmax, TRANSVR_UEVENT_UNKNOW); + SWPS_INFO("%s: %s\n :%s", __func__, err_msg, self->swp_name); + return ERR_TRANSVR_ABNORMAL; +} + + +int +_qsfp_set_tomahawk_if_type(struct transvr_obj_s* self, + int transvr_cls, + char *result){ + + int lmax = 8; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + switch (transvr_cls) { + case TRANSVR_CLASS_UNSPECIFIED: + case TRANSVR_CLASS_ERROR: + break; + /* 100G Optical */ + case TRANSVR_CLASS_OPTICAL_100G: + case TRANSVR_CLASS_OPTICAL_100G_AOC: + case TRANSVR_CLASS_OPTICAL_100G_SR4: + case TRANSVR_CLASS_OPTICAL_100G_LR4: + case TRANSVR_CLASS_OPTICAL_100G_ER4: + case TRANSVR_CLASS_OPTICAL_100G_PSM4: + return snprintf(result, lmax, TRANSVR_IF_SR4); + /* 100G Copper */ + case TRANSVR_CLASS_COPPER_L4_100G: + return snprintf(result, lmax, TRANSVR_IF_KR4); + /* 40G Optical */ + case TRANSVR_CLASS_OPTICAL_40G: + case TRANSVR_CLASS_OPTICAL_40G_AOC: + case TRANSVR_CLASS_OPTICAL_40G_SR4: + case TRANSVR_CLASS_OPTICAL_40G_LR4: + case TRANSVR_CLASS_OPTICAL_40G_ER4: + return snprintf(result, lmax, TRANSVR_IF_SR4); + /* 40G Copper */ + case TRANSVR_CLASS_COPPER_L4_40G: + return snprintf(result, lmax, TRANSVR_IF_KR4); + /* 10G Optical */ + case TRANSVR_CLASS_OPTICAL_10G: + case TRANSVR_CLASS_OPTICAL_10G_Q_AOC: + case TRANSVR_CLASS_OPTICAL_10G_Q_SR: /* Need Check: SR4 or SR */ + case TRANSVR_CLASS_OPTICAL_10G_Q_LR: /* Need Check: SR4 or SR */ + case TRANSVR_CLASS_OPTICAL_10G_Q_ER: + return snprintf(result, lmax, TRANSVR_IF_SR4); + /* Optical */ + case TRANSVR_CLASS_OPTICAL: + return snprintf(result, lmax, TRANSVR_IF_SR4); + /* Copper */ + case TRANSVR_CLASS_COPPER: + return snprintf(result, lmax, TRANSVR_IF_KR4); + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined value:%d", + transvr_cls); + goto err_qsfp_set_trident2_if_type_1; + } + /* Exception case: Can't verify */ + snprintf(err_msg, sizeof(err_msg), "Can not identify!"); + goto err_qsfp_set_trident2_if_type_1; + +err_qsfp_set_trident2_if_type_1: + snprintf(result, lmax, TRANSVR_UEVENT_UNKNOW); + SWPS_INFO("%s: %s\n :%s", __func__, err_msg, self->swp_name); + return ERR_TRANSVR_ABNORMAL; +} + + +int +_qsfp_detect_if_type(struct transvr_obj_s* self, + char *result){ + + int lmax = 8; + int detect_cls = DEBUG_TRANSVR_INT_VAL; + + detect_cls = qsft_detect_transvr_class(self); + switch (self->chipset_type) { + case BCM_CHIP_TYPE_TRIDENT_2: + return _qsfp_set_trident2_if_type(self, detect_cls, result); + + case BCM_CHIP_TYPE_TOMAHAWK: + return _qsfp_set_tomahawk_if_type(self, detect_cls, result); + + default: + SWPS_INFO("%s: non-defined chipset_type:%d :%s\n", + __func__, self->chipset_type, self->swp_name); + break; + } + snprintf(result, lmax, TRANSVR_UEVENT_UNKNOW); + return ERR_TRANSVR_ABNORMAL; +} + + +int +qsfp_get_if_type(struct transvr_obj_s *self, + char *buf_p){ + + int lmax = 8; + char tmp_result[8] = DEBUG_TRANSVR_STR_VAL; + + if (self->state != STATE_TRANSVR_CONNECTED) { + return snprintf(buf_p, lmax, "%d\n", self->state); + } + if (_qsfp_detect_if_type(self, tmp_result) < 0) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_ABNORMAL); + } + return snprintf(buf_p, lmax, "%s\n", tmp_result); +} + + +int +_qsfp_detect_if_speed(struct transvr_obj_s* self, + char *result){ + int lmax = 16; + int detect_val = DEBUG_TRANSVR_INT_VAL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + detect_val = qsft_detect_transvr_class(self); + switch (detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + case TRANSVR_CLASS_ERROR: + break; + /* 100G Optical */ + case TRANSVR_CLASS_OPTICAL_100G: + case TRANSVR_CLASS_OPTICAL_100G_AOC: + case TRANSVR_CLASS_OPTICAL_100G_SR4: + case TRANSVR_CLASS_OPTICAL_100G_LR4: + case TRANSVR_CLASS_OPTICAL_100G_ER4: + case TRANSVR_CLASS_OPTICAL_100G_PSM4: + return snprintf(result, lmax, TRANSVR_IF_SP_100G); + /* 100G Copper */ + case TRANSVR_CLASS_COPPER_L4_100G: + return snprintf(result, lmax, TRANSVR_IF_SP_100G); + /* 40G Optical */ + case TRANSVR_CLASS_OPTICAL_40G: + case TRANSVR_CLASS_OPTICAL_40G_AOC: + case TRANSVR_CLASS_OPTICAL_40G_SR4: + case TRANSVR_CLASS_OPTICAL_40G_LR4: + case TRANSVR_CLASS_OPTICAL_40G_ER4: + return snprintf(result, lmax, TRANSVR_IF_SP_40G); + /* 40G Copper */ + case TRANSVR_CLASS_COPPER_L4_40G: + return snprintf(result, lmax, TRANSVR_IF_SP_40G); + /* 10G Optical */ + case TRANSVR_CLASS_OPTICAL_10G: + case TRANSVR_CLASS_OPTICAL_10G_Q_AOC: + case TRANSVR_CLASS_OPTICAL_10G_Q_SR: /* Need Check: SR4 or SR */ + case TRANSVR_CLASS_OPTICAL_10G_Q_LR: /* Need Check: SR4 or SR */ + case TRANSVR_CLASS_OPTICAL_10G_Q_ER: + return snprintf(result, lmax, TRANSVR_IF_SP_10G); + /* 10G Copper */ + case TRANSVR_CLASS_COPPER_L4_10G: + return snprintf(result, lmax, TRANSVR_IF_SP_10G); + /* Optical */ + case TRANSVR_CLASS_OPTICAL: + break; + /* Copper */ + case TRANSVR_CLASS_COPPER: + break; + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined class case:%d", + detect_val); + goto err_qsfp_detect_if_speed_1; + } + /* Check br and extbr */ + detect_val = _qsfp_detect_if_sp_by_br(self); + switch(detect_val) { + case TRANSVR_CLASS_UNSPECIFIED: + break; + case TRANSVR_CLASS_10G: + return snprintf(result, lmax, TRANSVR_IF_SP_10G); + case TRANSVR_CLASS_40G: + return snprintf(result, lmax, TRANSVR_IF_SP_40G); + case TRANSVR_CLASS_100G: + return snprintf(result, lmax, TRANSVR_IF_SP_100G); + default: + snprintf(err_msg, sizeof(err_msg), + "Detect undefined BR case:%d", + detect_val); + goto err_qsfp_detect_if_speed_1; + } + /* Exception case: Can't verify */ + snprintf(err_msg, sizeof(err_msg), "Can not identify!"); + goto err_qsfp_detect_if_speed_1; + +err_qsfp_detect_if_speed_1: + snprintf(result, lmax, TRANSVR_UEVENT_UNKNOW); + SWPS_INFO("%s: %s :%s\n", __func__, err_msg, self->swp_name); + return ERR_TRANSVR_ABNORMAL; +} + + +int +qsfp_get_if_speed(struct transvr_obj_s *self, + char *buf_p){ + + int lmax = 16; + char tmp_result[16] = DEBUG_TRANSVR_STR_VAL; + + if (self->state != STATE_TRANSVR_CONNECTED) { + return snprintf(buf_p, lmax, "%d\n", self->state); + } + if (_qsfp_detect_if_speed(self, tmp_result) < 0) { + return snprintf(buf_p, lmax, "%d\n", ERR_TRANSVR_ABNORMAL); + } + return snprintf(buf_p, lmax, "%s\n", tmp_result); +} + + +int +_common_set_lane_map_str(struct transvr_obj_s* self, + char *result) { + int i = 0; + int tmp_val = 0; + char tmp_str[LEN_TRANSVR_L_STR] = DEBUG_TRANSVR_STR_VAL; + char err_msg[LEN_TRANSVR_L_STR] = DEBUG_TRANSVR_STR_VAL; + + memset(result, 0, LEN_TRANSVR_L_STR); + snprintf(result, LEN_TRANSVR_L_STR, "%s=", TRANSVR_UEVENT_KEY_LANE); + + for (i=0; ilane_id); i++) { + tmp_val = self->lane_id[i]; + if (tmp_val < 1) { + break; + } + if (tmp_val > 256) { + snprintf(err_msg, sizeof(err_msg), + "detect abnormal value:%d", tmp_val); + goto err_common_set_lane_map_str_1; + } + memset(tmp_str, 0, sizeof(tmp_str)); + if (i == 0) { + snprintf(tmp_str, LEN_TRANSVR_L_STR, "%d", tmp_val); + } else { + snprintf(tmp_str, LEN_TRANSVR_L_STR, ",%d", tmp_val); + } + strncat(result, tmp_str, LEN_TRANSVR_L_STR); + } + if (i == 0) { + goto err_common_set_lane_map_str_2; + } + return 0; + +err_common_set_lane_map_str_1: + SWPS_INFO("%s: %s", __func__, err_msg); +err_common_set_lane_map_str_2: + snprintf(result, LEN_TRANSVR_L_STR, "%s=%s", TRANSVR_UEVENT_KEY_LANE, TRANSVR_UEVENT_UNKNOW); + return EVENT_TRANSVR_TASK_FAIL; +} + + +int +_common_send_uevent(struct transvr_obj_s* self, + enum kobject_action u_action, + int (*detect_if_type)(struct transvr_obj_s *self, char *result), + int (*detect_if_speed)(struct transvr_obj_s *self, char *result), + int send_anyway) { + + char *uevent_envp[4]; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + char tmp_str[32] = DEBUG_TRANSVR_STR_VAL; + char tmp_str_1[32] = DEBUG_TRANSVR_STR_VAL; + char tmp_str_2[32] = DEBUG_TRANSVR_STR_VAL; + char tmp_str_3[64] = DEBUG_TRANSVR_STR_VAL; + + if (TRANSVR_UEVENT_ENABLE != 1) { + return ERR_TRANSVR_NOTSUPPORT; + } + if (_common_get_if_lane(self, tmp_str) < 0) { + snprintf(tmp_str_3, sizeof(tmp_str_3), + "%s=%s", TRANSVR_UEVENT_KEY_LANE, TRANSVR_UEVENT_UNKNOW); + } else { + snprintf(tmp_str_3, sizeof(tmp_str_3), + "%s=%s", TRANSVR_UEVENT_KEY_LANE, tmp_str); + } + switch (u_action) { + case KOBJ_ADD: + /* Detect type */ + if (detect_if_type(self, tmp_str) < 0) { + snprintf(err_msg, sizeof(err_msg), "%s", "Detect interface type fail!"); + snprintf(tmp_str_1, sizeof(tmp_str_1), "%s=%s", TRANSVR_UEVENT_KEY_IF, TRANSVR_UEVENT_UNKNOW); + snprintf(tmp_str_2, sizeof(tmp_str_2), "%s=%s", TRANSVR_UEVENT_KEY_SP, TRANSVR_UEVENT_UNKNOW); + uevent_envp[0] = tmp_str_1; + uevent_envp[1] = tmp_str_2; + uevent_envp[2] = tmp_str_3; + uevent_envp[3] = NULL; + goto private_common_send_uevent_4_fail; + } + snprintf(tmp_str_1, sizeof(tmp_str_1), "%s=%s", TRANSVR_UEVENT_KEY_IF, tmp_str); + uevent_envp[0] = tmp_str_1; + /* Detect speed */ + if (detect_if_speed(self, tmp_str) < 0) { + snprintf(err_msg, sizeof(err_msg), "%s", "Detect interface speed fail!"); + snprintf(tmp_str_2, sizeof(tmp_str_2), "%s=%s", TRANSVR_UEVENT_KEY_SP, TRANSVR_UEVENT_UNKNOW); + uevent_envp[1] = tmp_str_2; + uevent_envp[2] = tmp_str_3; + uevent_envp[3] = NULL; + goto private_common_send_uevent_4_fail; + } + snprintf(tmp_str_2, sizeof(tmp_str_2), "%s=%s", TRANSVR_UEVENT_KEY_SP, tmp_str); + uevent_envp[1] = tmp_str_2; + uevent_envp[2] = tmp_str_3; + uevent_envp[3] = NULL; + goto private_common_send_uevent_4_send; + + case KOBJ_REMOVE: + snprintf(tmp_str_1, sizeof(tmp_str_1), "%s=%s", TRANSVR_UEVENT_KEY_IF, TRANSVR_UEVENT_UNKNOW); + snprintf(tmp_str_2, sizeof(tmp_str_2), "%s=%s", TRANSVR_UEVENT_KEY_SP, TRANSVR_UEVENT_UNKNOW); + uevent_envp[0] = tmp_str_1; + uevent_envp[1] = tmp_str_2; + uevent_envp[2] = tmp_str_3; + uevent_envp[3] = NULL; + goto private_common_send_uevent_4_send; + + default: + snprintf(err_msg, sizeof(err_msg), "kobject_action:%d not support", u_action); + goto private_common_send_uevent_4_fail; + } + snprintf(err_msg, sizeof(err_msg), "%s", "Exception case"); + goto private_common_send_uevent_4_fail; + +private_common_send_uevent_4_fail: + SWPS_INFO("%s: %s :%s\n", __func__, err_msg, self->swp_name); + if (send_anyway) { + goto private_common_send_uevent_4_send; + } + return ERR_TRANSVR_UEVENT_FAIL; + +private_common_send_uevent_4_send: + return kobject_uevent_env(&(self->transvr_dev_p->kobj), + u_action, + uevent_envp); +} + +int +sfp_send_uevent(struct transvr_obj_s* self, + enum kobject_action u_action) { + int send_anyway = 1; + return _common_send_uevent(self, + u_action, + &_sfp_detect_if_type, + &_sfp_detect_if_speed, + send_anyway); +} + + +int +qsfp_send_uevent(struct transvr_obj_s* self, + enum kobject_action u_action) { + int send_anyway = 1; + return _common_send_uevent(self, + u_action, + &_qsfp_detect_if_type, + &_qsfp_detect_if_speed, + send_anyway); +} + + +int +fake_send_uevent(struct transvr_obj_s* self, + enum kobject_action u_action) { + return EVENT_TRANSVR_TASK_DONE; +} + + +int +common_fsm_4_direct_mode(struct transvr_obj_s* self, + char *caller_name){ + + int err; + int detect_result[2]; + int current_state = STATE_TRANSVR_UNEXCEPTED; + int current_type = TRANSVR_TYPE_ERROR; + + if (self->state == STATE_TRANSVR_NEW) { + if (_transvr_init_handler(self) < 0){ + return ERR_TRANSVR_INIT_FAIL; + } + } + err = detect_transvr_state(self, detect_result); + if (err < 0) { + return err; + } + /* In Direct mode, driver only detect transceiver when user call driver interface + * which on sysfs. So it only need consider the state of Transceiver. + */ + current_state = detect_result[0]; + current_type = detect_result[1]; + + switch (current_state){ + + case STATE_TRANSVR_DISCONNECTED: /* Transceiver is not plugged */ + self->state = current_state; + self->type = current_type; + return ERR_TRANSVR_UNPLUGGED; + + case STATE_TRANSVR_INIT: /* Transceiver is plugged, system not ready */ + return ERR_TRANSVR_UNINIT; + + case STATE_TRANSVR_ISOLATED: /* Transceiver is plugged, but has some issues */ + return ERR_TRNASVR_BE_ISOLATED; + + case STATE_TRANSVR_CONNECTED: /* Transceiver is plugged, system is ready */ + self->state = current_state; + self->type = current_type; + return 0; + + case STATE_TRANSVR_SWAPPED: /* Transceiver is plugged, system detect user changed */ + self->type = current_type; + if (reload_transvr_obj(self, current_type) < 0){ + self->state = STATE_TRANSVR_UNEXCEPTED; + return ERR_TRANSVR_UNEXCPT; + } + self->state = current_state; + return 0; + + case STATE_TRANSVR_UNEXCEPTED: /* Transceiver type or state is unexpected case */ + self->state = STATE_TRANSVR_UNEXCEPTED; + self->type = TRANSVR_TYPE_ERROR; + return ERR_TRANSVR_UNEXCPT; + + default: + SWPS_INFO("%s: state:%d not in define.\n", __func__, current_state); + break; + } + return ERR_TRANSVR_UNEXCPT; +} + + +static int +_is_except_happened_4_pmode(struct transvr_obj_s* self, + int new_state) { + + int event_chk = 0; + + if (self->temp == 0){ + return 0; + } + switch (new_state) { + case STATE_TRANSVR_INIT: + event_chk = EVENT_TRANSVR_EXCEP_INIT; + goto check_event_happened_4_pmode; + + case STATE_TRANSVR_CONNECTED: + event_chk = EVENT_TRANSVR_EXCEP_UP; + goto check_event_happened_4_pmode; + + case STATE_TRANSVR_DISCONNECTED: + event_chk = EVENT_TRANSVR_EXCEP_DOWN; + goto check_event_happened_4_pmode; + + case STATE_TRANSVR_SWAPPED: + event_chk = EVENT_TRANSVR_EXCEP_SWAP; + goto check_event_happened_4_pmode; + + case STATE_TRANSVR_UNEXCEPTED: + event_chk = EVENT_TRANSVR_EXCEP_EXCEP; + goto check_event_happened_4_pmode; + + case STATE_TRANSVR_ISOLATED: + event_chk = EVENT_TRANSVR_EXCEP_ISOLATED; + goto check_event_happened_4_pmode; + + default: + SWPS_INFO("%s: unexcepted case:%d\n", __func__, new_state); + break; + } + return 0; + +check_event_happened_4_pmode: + if (self->temp == event_chk){ + return 1; + } + return 0; +} + + +int +common_fsm_4_polling_mode(struct transvr_obj_s* self, + char *caller_name){ + /* [Return Value]: + * ERR_TRANSVR_UNINIT : (1) Initial not ready + * ERR_TRANSVR_UNPLUGGED : (1) Any -> Down + * ERR_TRANSVR_TASK_BUSY : (1) Wait Initial task + * ERR_TRANSVR_UNEXCPT : (1) Initial fail + * (2) Task fail + * (3) Reload fail + * ERR_TRNASVR_BE_ISOLATED : (1) Already be isolated + * OK Case (return 0) : (1) action_4_connected + * (2) action_4_nothing (initial retry) + */ + int curr_state[2]; + int old_state = self->state; + int old_type = self->type; + int new_state = STATE_TRANSVR_UNEXCEPTED; + int new_type = TRANSVR_TYPE_ERROR; + int return_val = ERR_TRANSVR_UNEXCPT; + + /* Never initial */ + if (self->state == STATE_TRANSVR_NEW) { + goto comfsm_action_4_reinit_obj; + } + /* Detect current state */ + switch (detect_transvr_state(self, curr_state)) { + case 0: + new_state = curr_state[0]; + new_type = curr_state[1]; + break; + + case ERR_TRNASVR_BE_ISOLATED: + new_state = STATE_TRANSVR_ISOLATED; + new_type = old_type; + break; + + case ERR_TRANSVR_I2C_CRASH: + goto comfsm_action_4_report_i2c_crash; + + case ERR_TRANSVR_UNEXCPT: + default: + new_state = STATE_TRANSVR_UNEXCEPTED; + new_type = old_type; + } + /* State handling */ + switch (old_state) { + case STATE_TRANSVR_INIT: /* INIT -> */ + return_val = ERR_TRANSVR_UNINIT; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_CONNECTED: + switch (new_state) { + case STATE_TRANSVR_INIT: /* Case 1-1: UP -> INIT */ + SWPS_INFO("Detect %s is present. :1-1\n",self->swp_name); + return_val = ERR_TRANSVR_UNINIT; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_CONNECTED: /* Case 1-2: UP -> UP */ + return_val = 0; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_DISCONNECTED: /* Case 1-3: UP -> DOWN */ + SWPS_INFO("Detect %s is removed. :1-3\n",self->swp_name); + goto comfsm_action_4_disconnected; + + case STATE_TRANSVR_SWAPPED: /* Case 1-4: UP -> SWAP */ + SWPS_INFO("Detect %s is swapped. :1-4\n",self->swp_name); + goto comfsm_action_4_reload_obj; + + case STATE_TRANSVR_UNEXCEPTED: /* Case 1-5: UP -> UNEXPET */ + SWPS_INFO("Detect %s has error. :1-5\n",self->swp_name); + goto comfsm_action_4_unexpected; + + case STATE_TRANSVR_ISOLATED: /* Case 1-6: UP -> ISOLATE */ + SWPS_INFO("Detect %s be isolated. :1-6\n",self->swp_name); + goto comfsm_action_4_isolate_obj; + + default: + break; + } + goto comfsm_action_4_unexpected; + + case STATE_TRANSVR_DISCONNECTED: + switch (new_state) { + case STATE_TRANSVR_INIT: /* Case 2-1: DOWN -> INIT */ + SWPS_INFO("Detect %s is present. :2-1\n",self->swp_name); + return_val = ERR_TRANSVR_UNINIT; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_CONNECTED: /* Case 2-2: DOWN -> UP */ + SWPS_INFO("Detect %s is present. :2-2\n",self->swp_name); + goto comfsm_action_4_reinit_obj; + + case STATE_TRANSVR_DISCONNECTED: /* Case 2-3: DOWN -> DOWN */ + return_val = ERR_TRANSVR_UNPLUGGED; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_SWAPPED: /* Case 2-4: DOWN -> SWAP */ + SWPS_INFO("Detect %s is swapped. :2-4\n",self->swp_name); + goto comfsm_action_4_reload_obj; + + case STATE_TRANSVR_UNEXCEPTED: /* Case 2-5: DOWN -> UNEXPET */ + SWPS_INFO("Detect %s has error. :2-5\n",self->swp_name); + goto comfsm_action_4_unexpected; + + case STATE_TRANSVR_ISOLATED: /* Case 2-6: DOWN -> ISOLATE */ + SWPS_INFO("Detect %s be isolated. :2-6\n",self->swp_name); + goto comfsm_action_4_isolate_obj; + + default: + break; + } + goto comfsm_action_4_unexpected; + + case STATE_TRANSVR_UNEXCEPTED: + /* Filter out re-action */ + if (_is_except_happened_4_pmode(self, new_state)) { + goto comfsm_action_4_keep_state; + } + /* First action */ + switch (new_state) { + case STATE_TRANSVR_INIT: /* Case 3-1: UNEXPET -> INIT */ + SWPS_INFO("Detect %s is present. :3-1\n",self->swp_name); + self->temp = EVENT_TRANSVR_EXCEP_INIT; + return_val = ERR_TRANSVR_UNINIT; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_CONNECTED: /* Case 3-2: UNEXPET -> UP */ + SWPS_INFO("Detect %s is present. :3-2\n",self->swp_name); + self->temp = EVENT_TRANSVR_EXCEP_UP; + goto comfsm_action_4_reload_obj; + + case STATE_TRANSVR_DISCONNECTED: /* Case 3-3: UNEXPET -> DOWN */ + SWPS_INFO("Detect %s is removed. :3-3\n",self->swp_name); + goto comfsm_action_4_disconnected; + + case STATE_TRANSVR_SWAPPED: /* Case 3-4: UNEXPET -> SWAP */ + SWPS_INFO("Detect %s is swapped. :3-4\n",self->swp_name); + self->temp = EVENT_TRANSVR_EXCEP_SWAP; + goto comfsm_action_4_reload_obj; + + case STATE_TRANSVR_UNEXCEPTED: /* Case 3-5: UNEXPET -> UNEXPET */ + self->temp = EVENT_TRANSVR_EXCEP_EXCEP; + return_val = ERR_TRANSVR_UNEXCPT; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_ISOLATED: /* Case 3-6: UNEXPET -> ISOLATE */ + SWPS_INFO("Detect %s be isolated. :3-6\n",self->swp_name); + goto comfsm_action_4_isolate_obj; + + default: + break; + } + goto comfsm_action_4_unexpected; + + case STATE_TRANSVR_ISOLATED: + /* Filter out re-action */ + if (_is_except_happened_4_pmode(self, new_state)) { + goto comfsm_action_4_keep_state; + } + /* First action */ + switch (new_state) { + case STATE_TRANSVR_INIT: /* Case 4-1: ISOLATE -> INIT */ + SWPS_INFO("Detect %s internal error. :4-1\n",self->swp_name); + self->temp = EVENT_TRANSVR_EXCEP_INIT; + return_val = ERR_TRNASVR_BE_ISOLATED; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_CONNECTED: /* Case 4-2: ISOLATE -> UP */ + SWPS_INFO("Detect %s internal error. :4-2\n",self->swp_name); + self->temp = EVENT_TRANSVR_EXCEP_UP; + return_val = ERR_TRNASVR_BE_ISOLATED; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_DISCONNECTED: /* Case 4-3: ISOLATE -> DOWN */ + SWPS_INFO("Detect %s is removed. :4-3\n",self->swp_name); + goto comfsm_action_4_disconnected; + + case STATE_TRANSVR_SWAPPED: /* Case 4-4: ISOLATE -> SWAP */ + SWPS_INFO("Detect %s internal error. :4-4\n",self->swp_name); + self->temp = EVENT_TRANSVR_EXCEP_SWAP; + return_val = ERR_TRNASVR_BE_ISOLATED; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_UNEXCEPTED: /* Case 4-5: ISOLATE -> UNEXPET */ + SWPS_INFO("Detect %s internal error. :4-5\n",self->swp_name); + self->temp = EVENT_TRANSVR_EXCEP_EXCEP; + return_val = ERR_TRNASVR_BE_ISOLATED; + goto comfsm_action_4_keep_state; + + case STATE_TRANSVR_ISOLATED: /* Case 4-6: ISOLATE -> ISOLATE */ + return_val = ERR_TRNASVR_BE_ISOLATED; + goto comfsm_action_4_keep_state; + + default: + break; + } + goto comfsm_action_4_unexpected; + + default: + break; + } + goto comfsm_action_4_unexpected; + + +comfsm_action_4_keep_state: + return return_val; + +comfsm_action_4_reinit_obj: + SWPS_DEBUG("FSM action: %s re-initial.\n", self->swp_name); + return_val = _transvr_init_handler(self); + goto comfsm_action_4_identify_event; + +comfsm_action_4_reload_obj: + SWPS_DEBUG("FSM action: %s reload.\n", self->swp_name); + self->type = new_type; + return_val = reload_transvr_obj(self, new_type); + goto comfsm_action_4_identify_event; + +comfsm_action_4_identify_event: + switch (return_val) { + case EVENT_TRANSVR_INIT_UP: + case EVENT_TRANSVR_TASK_DONE: + goto comfsm_action_4_connected; + + case EVENT_TRANSVR_INIT_DOWN: + goto comfsm_action_4_disconnected; + + case EVENT_TRANSVR_INIT_REINIT: + goto comfsm_action_4_nothing; + + case EVENT_TRANSVR_TASK_WAIT: + self->state = STATE_TRANSVR_INIT; + return ERR_TRANSVR_TASK_BUSY; + + case EVENT_TRANSVR_TASK_FAIL: + SWPS_INFO("%s detect EVENT_TRANSVR_TASK_FAIL.\n", self->swp_name); + goto comfsm_action_4_unexpected; + + case EVENT_TRANSVR_INIT_FAIL: + SWPS_INFO("%s detect EVENT_TRANSVR_INIT_FAIL.\n", self->swp_name); + goto comfsm_action_4_unexpected; + + case EVENT_TRANSVR_RELOAD_FAIL: + SWPS_INFO("%s detect EVENT_TRANSVR_RELOAD_FAIL.\n", self->swp_name); + goto comfsm_action_4_unexpected; + + case EVENT_TRANSVR_I2C_CRASH: + goto comfsm_action_4_report_i2c_crash; + + case EVENT_TRANSVR_EXCEP_ISOLATED: + goto comfsm_action_4_isolate_obj; + + default: + SWPS_INFO("%s detect undefined event:%d.\n", self->swp_name, return_val); + goto comfsm_action_4_unexpected; + } + +comfsm_action_4_nothing: + SWPS_DEBUG("FSM action: %s do nothing.\n", self->swp_name); + return 0; + +comfsm_action_4_connected: + SWPS_DEBUG("FSM action: %s Connected.\n", self->swp_name); + self->state = STATE_TRANSVR_CONNECTED; + self->type = new_type; + self->send_uevent(self, KOBJ_ADD); + _transvr_clean_retry(self); + return 0; + +comfsm_action_4_disconnected: + SWPS_DEBUG("FSM action: %s Disconnected. \n", self->swp_name); + self->state = STATE_TRANSVR_DISCONNECTED; + self->temp = EVENT_TRANSVR_TASK_DONE; + self->send_uevent(self, KOBJ_REMOVE); + _transvr_clean_retry(self); + _transvr_clean_handler(self); + return ERR_TRANSVR_UNPLUGGED; + +comfsm_action_4_report_i2c_crash: + SWPS_DEBUG("FSM action: %s report I2C crash.\n", self->swp_name); + self->state = STATE_TRANSVR_UNEXCEPTED; + return ERR_TRANSVR_I2C_CRASH; + +comfsm_action_4_isolate_obj: + SWPS_DEBUG("FSM action: %s isolate.\n", self->swp_name); + self->state = STATE_TRANSVR_ISOLATED; + return ERR_TRNASVR_BE_ISOLATED; + +comfsm_action_4_unexpected: + SWPS_INFO("FSM action: %s unexpected.\n", self->swp_name); + SWPS_INFO("Dump: :%d :0x%02x :%d :0x%02x\n", + old_state, old_type, new_state, new_type); + self->state = STATE_TRANSVR_UNEXCEPTED; + self->send_uevent(self, KOBJ_REMOVE); + _transvr_clean_handler(self); + return ERR_TRANSVR_UNEXCPT; +} + + +int +fake_fsm_4_direct_mode(struct transvr_obj_s* self, + char *caller_name){ + self->state = STATE_TRANSVR_CONNECTED; + self->type = TRANSVR_TYPE_FAKE; + return 0; +} + + +int +fake_fsm_4_polling_mode(struct transvr_obj_s* self, + char *caller_name){ + self->state = STATE_TRANSVR_CONNECTED; + self->type = TRANSVR_TYPE_FAKE; + return 0; +} + + +/* ========== Object functions for Initial procedure ========== + */ +int +transvr_init_common(struct transvr_obj_s *self){ + /* Nothing to update */ + return EVENT_TRANSVR_TASK_DONE; +} + + +int +transvr_init_fake(struct transvr_obj_s *self){ + return EVENT_TRANSVR_TASK_DONE; +} + + +int +transvr_init_sfp(struct transvr_obj_s *self){ + + int tmp_val = DEBUG_TRANSVR_INT_VAL; + int err_code = DEBUG_TRANSVR_INT_VAL; + char *err_msg = "ERR"; + + self->info = sft_detect_transvr_class(self); + /* Disable auto_config */ + if (!self->auto_config) { + return EVENT_TRANSVR_TASK_DONE; + } + /* Handle multi-rate */ + err_code = initfunc_sfp_handle_multi_rate_mode(self); + if (err_code < 0) { + err_msg = "initfunc_sfp_handle_multi_rate_mode fail!"; + goto err_transvr_init_sfp_1; + } + /* Handle 1G- RJ45 */ + tmp_val = err_code; + err_code = initfunc_sfp_handle_1g_rj45(self); + if (err_code < 0) { + err_msg = "initfunc_sfp_handle_1g_rj45 fail!"; + goto err_transvr_init_sfp_1; + } + tmp_val = (tmp_val > err_code ? tmp_val : err_code); + if (tmp_val > EVENT_TRANSVR_TASK_DONE) { + return tmp_val; + } + return EVENT_TRANSVR_TASK_DONE; + +err_transvr_init_sfp_1: + SWPS_INFO("%s: %s :%d :%s\n", + __func__, err_msg, err_code, self->swp_name); + return EVENT_TRANSVR_INIT_FAIL; +} + + +int +transvr_init_qsfp(struct transvr_obj_s *self){ + + int err = EVENT_TRANSVR_EXCEP_EXCEP; + char *emsg = "ERR"; + + self->info = qsft_detect_transvr_class(self); + if (!self->auto_config) { + return EVENT_TRANSVR_TASK_DONE; + } + err = initfunc_qsfp_handle_power_mode(self); + if (err < 0){ + emsg = "initfunc_qsfp_handle_tx_disable fail!"; + goto err_transvr_init_qsfp; + } + return EVENT_TRANSVR_TASK_DONE; + +err_transvr_init_qsfp: + SWPS_INFO("%s: %s :%d :%s\n", + __func__, emsg, err, self->swp_name); + return EVENT_TRANSVR_INIT_FAIL; +} + + +int +transvr_init_qsfp28(struct transvr_obj_s *self){ + + int tmp_val = EVENT_TRANSVR_EXCEP_EXCEP; + int err_val = EVENT_TRANSVR_EXCEP_EXCEP; + char *err_msg = "ERR"; + + /* Handle QSFP common */ + err_val = transvr_init_qsfp(self); + if (err_val < 0){ + err_msg = "transvr_init_qsfp fail!"; + goto err_transvr_init_qsfp28_1; + } + /* Disable auto_config */ + if (!self->auto_config) { + return err_val; + } + /* Handle CDR */ + tmp_val = err_val; + err_val = initfunc_qsfp28_handle_cdr(self); + if (err_val < 0){ + err_msg = "Handle CDR fail!"; + goto err_transvr_init_qsfp28_1; + } + tmp_val = (tmp_val > err_val ? tmp_val : err_val); + if (tmp_val > EVENT_TRANSVR_TASK_DONE) { + return tmp_val; + } + return EVENT_TRANSVR_TASK_DONE; + +err_transvr_init_qsfp28_1: + SWPS_INFO("%s: %s :%d :%s\n", + __func__, err_msg, err_val, self->swp_name); + return EVENT_TRANSVR_INIT_FAIL; +} + + +/* ========== Object Initial handler ========== + */ +static int +_is_transvr_valid(struct transvr_obj_s *self, + int type, + int state) { + /* [Return] + * 0 : OK, inserted + * EVENT_TRANSVR_INIT_DOWN : OK, removed + * EVENT_TRANSVR_INIT_FAIL : Outside error, type doesn't supported + * EVENT_TRANSVR_EXCEP_INIT : Internal error, state undefined + */ + switch (type) { + case TRANSVR_TYPE_SFP: + case TRANSVR_TYPE_QSFP: + case TRANSVR_TYPE_QSFP_PLUS: + case TRANSVR_TYPE_QSFP_28: + case TRANSVR_TYPE_UNPLUGGED: + case TRANSVR_TYPE_FAKE: + break; + default: + SWPS_INFO("detect undefined type:0x%02x on %s\n", + type, self->swp_name); + return EVENT_TRANSVR_INIT_FAIL; + } + switch (state) { + case STATE_TRANSVR_DISCONNECTED: + return EVENT_TRANSVR_INIT_DOWN; + case STATE_TRANSVR_INIT: + case STATE_TRANSVR_CONNECTED: + case STATE_TRANSVR_SWAPPED: + break; + default: + SWPS_INFO("detect undefined state:%d on %s\n", + state, self->swp_name); + return EVENT_TRANSVR_EXCEP_INIT; + } + return 0; +} + + +static int +_is_transvr_hw_ready(struct transvr_obj_s *self, + int type){ + /* [Return] + * EVENT_TRANSVR_TASK_DONE : Ready + * EVENT_TRANSVR_TASK_WAIT : Not ready + * EVENT_TRANSVR_INIT_FAIL : Error + */ + int addr = DEBUG_TRANSVR_INT_VAL; + int page = DEBUG_TRANSVR_INT_VAL; + int offs = DEBUG_TRANSVR_INT_VAL; + int bit = DEBUG_TRANSVR_INT_VAL; + int ready = DEBUG_TRANSVR_INT_VAL; + int err = DEBUG_TRANSVR_INT_VAL; + char *emsg = DEBUG_TRANSVR_STR_VAL; + uint8_t ab_val = DEBUG_TRANSVR_HEX_VAL; + + switch (type) { + case TRANSVR_TYPE_SFP: + addr = VAL_TRANSVR_8472_READY_ADDR; + page = VAL_TRANSVR_8472_READY_PAGE; + offs = VAL_TRANSVR_8472_READY_OFFSET; + bit = VAL_TRANSVR_8472_READY_BIT; + ready = VAL_TRANSVR_8472_READY_VALUE; + ab_val = VAL_TRANSVR_8472_READY_ABNORMAL; + break; + + case TRANSVR_TYPE_QSFP: + case TRANSVR_TYPE_QSFP_PLUS: + case TRANSVR_TYPE_QSFP_28: + addr = VAL_TRANSVR_8436_READY_ADDR; + page = VAL_TRANSVR_8436_READY_PAGE; + offs = VAL_TRANSVR_8436_READY_OFFSET; + bit = VAL_TRANSVR_8436_READY_BIT; + ready = VAL_TRANSVR_8436_READY_VALUE; + ab_val = VAL_TRANSVR_8436_READY_ABNORMAL; + break; + + case TRANSVR_TYPE_UNPLUGGED: + case TRANSVR_TYPE_FAKE: + return EVENT_TRANSVR_TASK_DONE; + + default: + emsg = "unexpected case"; + goto err_is_transvr_hw_ready; + } + /* Select target page */ + err = _common_setup_page(self, addr, page, offs, 1, 0); + if (err < 0) { + emsg = "setup page fail"; + goto err_is_transvr_hw_ready; + } + /* Check feature supported + * [Note] + * Some of transceiver/cables doesn't support "Status Indicators" + * (ex:DAC, RJ45 copper SFP ...etc). In these case, we bypass the + * step of checking Status Indicators, then state machine will take + * the following handle procedure. + */ + err = i2c_smbus_read_byte_data(self->i2c_client_p, + VAL_TRANSVR_COMID_OFFSET); + if (err < 0) { + emsg = "doesn't support Status Indicators"; + goto bypass_is_transvr_hw_ready; + } + /* Filter abnormal case */ + if (err == ab_val) { + emsg = "detect using unusual definition."; + goto bypass_is_transvr_hw_ready; + } + /* Get Status Indicators */ + err = i2c_smbus_read_byte_data(self->i2c_client_p, offs); + if (err < 0) { + emsg = "detect current value fail"; + goto err_is_transvr_hw_ready; + } + if ((err & (1<:%d\n", __func__, emsg, type); + return EVENT_TRANSVR_TASK_DONE; + +err_is_transvr_hw_ready: + SWPS_DEBUG("%s: %s :%d\n", __func__, emsg, type); + return EVENT_TRANSVR_INIT_FAIL; +} + + +static int +_is_transvr_support_ctle(struct transvr_obj_s *self) { + + switch (self->info) { + case TRANSVR_CLASS_OPTICAL_25G: + case TRANSVR_CLASS_OPTICAL_25G_AOC: + case TRANSVR_CLASS_OPTICAL_25G_SR: + case TRANSVR_CLASS_OPTICAL_25G_LR: + case TRANSVR_CLASS_OPTICAL_25G_ER: + case TRANSVR_CLASS_OPTICAL_100G: + case TRANSVR_CLASS_OPTICAL_100G_AOC: + case TRANSVR_CLASS_OPTICAL_100G_SR4: + case TRANSVR_CLASS_OPTICAL_100G_LR4: + case TRANSVR_CLASS_OPTICAL_100G_ER4: + case TRANSVR_CLASS_OPTICAL_100G_PSM4: + return 1; + default: + break; + } + return 0; +} + + +static int +_transvr_init_handler(struct transvr_obj_s *self){ + + int detect[2]; + int d_state = STATE_TRANSVR_UNEXCEPTED; + int d_type = TRANSVR_TYPE_ERROR; + int result = ERR_TRANSVR_UNINIT; + int retry = 6; /* (6+1) x 0.3 = 2.1s > spec:2.0s */ + int elimit = 63; + char emsg[64] = DEBUG_TRANSVR_STR_VAL; + + /* Clean and check callback */ + self->state = STATE_TRANSVR_INIT; + if (self->init == NULL) { + snprintf(emsg, elimit, "init() is null"); + goto initer_err_case_unexcept_0; + } + if (self->clean == NULL) { + snprintf(emsg, elimit, "clean() is null"); + goto initer_err_case_unexcept_0; + } + self->clean(self); + + /* Detect transceiver information */ + result = detect_transvr_state(self, detect); + if (result < 0) { + snprintf(emsg, elimit, "detect_transvr_state() fail"); + switch (result) { + case ERR_TRANSVR_I2C_CRASH: + goto initer_err_case_i2c_ceash; + case ERR_TRNASVR_BE_ISOLATED: + goto initer_err_case_be_isolated; + + case ERR_TRANSVR_UNEXCPT: + default: + break; + } + goto initer_err_case_retry_1; + } + d_state = detect[0]; + d_type = detect[1]; + + /* Verify transceiver type and state */ + switch (_is_transvr_valid(self, d_type, d_state)) { + case 0: + break; + case EVENT_TRANSVR_INIT_DOWN: + goto initer_ok_case_down;; + case EVENT_TRANSVR_INIT_FAIL: + snprintf(emsg, elimit, "transceiver type doesn't support"); + goto initer_err_case_alarm_to_user; + case EVENT_TRANSVR_EXCEP_INIT: + default: + goto initer_err_case_unexcept_1; + } + + /* Handle reload case */ + if (self->type != d_type){ + /* This is the protect mechanism. Normally, This case will not happen. + * When State machine detect swap event during initial, It will trigger + * reload function to ensure type correct. */ + if (_reload_transvr_obj(self, d_type) < 0){ + snprintf(emsg, elimit, "reload object fail"); + goto initer_err_case_unexcept_1; + } + } + + /* Check transceiver HW initial ready */ + switch (_is_transvr_hw_ready(self, d_type)) { + case EVENT_TRANSVR_TASK_DONE: + break; + case EVENT_TRANSVR_TASK_WAIT: + goto initer_err_case_retry_1; + case EVENT_TRANSVR_INIT_FAIL: + default: + goto initer_err_case_unexcept_1; + } + + /* Try to update all and check */ + if (self->update_all(self, 1) < 0){ + /* For some transceiver, EEPROME has lag issues during initial stage. + * In this case, we set status back to STATE_TRANSVR_NEW, than it will + * be checked in next polling cycle. */ + goto initer_err_case_retry_1; + } + + /* Execute init() call back */ + result = self->init(self); + switch (result) { + case EVENT_TRANSVR_TASK_DONE: + break; + case EVENT_TRANSVR_TASK_WAIT: + goto initer_ok_case_wait; + + default: + snprintf(emsg, elimit, "undefined init() return:%d\n", result); + goto initer_err_case_unexcept_1; + } + goto initer_ok_case_up; + + +initer_ok_case_wait: + self->dump_all(self); + return EVENT_TRANSVR_TASK_WAIT; + +initer_ok_case_up: + self->state = STATE_TRANSVR_CONNECTED; + self->temp = 0; + self->dump_all(self); + return EVENT_TRANSVR_INIT_UP; + +initer_ok_case_down: + self->temp = 0; + self->state = STATE_TRANSVR_DISCONNECTED; + return EVENT_TRANSVR_INIT_DOWN; + +initer_err_case_i2c_ceash: + SWPS_DEBUG("%s: %s :%s :I2C crash\n", + __func__, emsg, self->swp_name); + self->state = STATE_TRANSVR_UNEXCEPTED; + return EVENT_TRANSVR_I2C_CRASH; + +initer_err_case_be_isolated: + SWPS_DEBUG("%s: %s :%s :isolated\n", + __func__, emsg, self->swp_name); + self->state = STATE_TRANSVR_ISOLATED; + return EVENT_TRANSVR_EXCEP_ISOLATED; + +initer_err_case_retry_1: + SWPS_DEBUG("%s: %s :%s :retry\n", + __func__, emsg, self->swp_name); + if (_transvr_handle_retry(self, retry) == 0) { + self->state = STATE_TRANSVR_NEW; + return EVENT_TRANSVR_INIT_REINIT; + } + goto initer_err_case_alarm_to_user; + +initer_err_case_unexcept_1: + self->clean(self); +initer_err_case_unexcept_0: + self->state = STATE_TRANSVR_UNEXCEPTED; + if (_is_except_happened_4_pmode(self, d_state) && + (self->mode == TRANSVR_MODE_POLLING) ){ + SWPS_INFO("%s: %s :%s\n", __func__, emsg, self->swp_name); + SWPS_INFO("Dump: :%d :%d :%d :%d\n", + self->state, self->type, d_state, d_type); + } + return EVENT_TRANSVR_INIT_FAIL; + +initer_err_case_alarm_to_user: + SWPS_DEBUG("%s: %s :%s :alarm_to_user\n", + __func__, emsg, self->swp_name); + self->state = STATE_TRANSVR_UNEXCEPTED; + alarm_msg_2_user(self, "detected transceiver/cables not meet SFF standard"); + return EVENT_TRANSVR_INIT_FAIL; +} + + +/* ========== Object functions for Clean procedure ========== + */ +int +_transvr_clean_handler(struct transvr_obj_s *self){ + + int retval = DEBUG_TRANSVR_INT_VAL; + + if (!self->clean) { + SWPS_ERR("%s: %s clean() is NULL.\n", + __func__, self->swp_name); + return EVENT_TRANSVR_TASK_FAIL; + } + retval = self->clean(self); + if (retval != EVENT_TRANSVR_TASK_DONE){ + SWPS_ERR("%s: %s clean() fail. [ERR]:%d\n", + __func__, self->swp_name, retval); + return retval; + } + return EVENT_TRANSVR_TASK_DONE; +} + + +int +common_transvr_clean(struct transvr_obj_s *self){ + + transvr_task_free_all(self); + return EVENT_TRANSVR_TASK_DONE; +} + + +int +qsfp_transvr_clean(struct transvr_obj_s *self){ + + int retval; + int lpower_config = 1; + + retval = _taskfunc_qsfp_setup_power_mod(self, lpower_config); + if (retval < 0){ + SWPS_ERR("%s: Set lpmod fail! :%d\n", + __func__, retval); + return retval; + } + retval = common_transvr_clean(self); + if (retval < 0){ + SWPS_ERR("%s: common_transvr_clean fail! :%d\n", + __func__, retval); + return retval; + } + return EVENT_TRANSVR_TASK_DONE; +} + + +int +fake_transvr_clean(struct transvr_obj_s *self){ + + return EVENT_TRANSVR_TASK_DONE; +} + + +/* ========== Object functions for check and update ========== + */ +int +common_transvr_check(struct transvr_obj_s *self){ + + char fun_str[32] = "common_transvr_check"; + + if (self->mode != TRANSVR_MODE_POLLING) { + SWPS_ERR("%s: mode:%d is not TRANSVR_MODE_POLLING\n", + fun_str, self->mode); + return ERR_TRANSVR_UNEXCPT; + } + /* Trigger delay task */ + transvr_task_run_all(self); + /* Trigger state machine to check and update */ + return self->fsm_4_polling(self, fun_str); +} + + +int +fake_transvr_check(struct transvr_obj_s *self){ + return 0; +} + + +/* ========== Functions for Factory pattern ========== + */ +static int +setup_transvr_public_cb(struct transvr_obj_s *self, + int transvr_type){ + switch (transvr_type){ + case TRANSVR_TYPE_SFP: + self->get_id = common_get_id; + self->get_ext_id = common_get_ext_id; + self->get_connector = common_get_connector; + self->get_vendor_name = common_get_vendor_name; + self->get_vendor_pn = common_get_vendor_pn; + self->get_vendor_rev = common_get_vendor_rev; + self->get_vendor_sn = common_get_vendor_sn; + self->get_power_cls = unsupported_get_func; + self->get_br = common_get_br; + self->get_len_sm = sfp_get_len_sm; + self->get_len_smf = common_get_len_smf; + self->get_len_om1 = common_get_len_om1; + self->get_len_om2 = common_get_len_om2; + self->get_len_om3 = common_get_len_om3; + self->get_len_om4 = common_get_len_om4; + self->get_comp_rev = common_get_comp_rev; + self->get_comp_eth_1 = sfp_get_comp_eth_1; + self->get_comp_eth_10 = sfp_get_comp_eth_10; + self->get_comp_eth_10_40 = unsupported_get_func; + self->get_comp_extend = common_get_comp_extended; + self->get_cdr = unsupported_get_func; + self->get_rate_id = sfp_get_rate_id; + self->get_soft_rs0 = sfp_get_soft_rs0; + self->get_soft_rs1 = sfp_get_soft_rs1; + self->get_info = common_get_info; + self->get_if_type = sfp_get_if_type; + self->get_if_speed = sfp_get_if_speed; + self->get_if_lane = common_get_if_lane; + self->get_curr_temp = sfp_get_transvr_temp; + self->get_curr_vol = sfp_get_transvr_voltage; + self->get_soft_rx_los = unsupported_get_func2; + self->get_soft_tx_disable = unsupported_get_func2; + self->get_soft_tx_fault = unsupported_get_func2; + self->get_auto_tx_disable = unsupported_get_func2; + self->get_tx_bias = sfp_get_transvr_tx_bias; + self->get_tx_power = sfp_get_transvr_tx_power; + self->get_rx_power = sfp_get_transvr_rx_power; + self->get_tx_eq = sfp_get_transvr_tx_eq; + self->get_rx_am = unsupported_get_func2; + self->get_rx_em = sfp_get_transvr_rx_em; + self->get_wavelength = sfp_get_wavelength; + self->set_cdr = unsupported_set_func; + self->set_soft_rs0 = sfp_set_soft_rs0; + self->set_soft_rs1 = sfp_set_soft_rs1; + self->set_soft_tx_disable = unsupported_set_func; + self->set_auto_tx_disable = unsupported_set_func; + self->set_tx_eq = sfp_set_tx_eq; + self->set_rx_am = unsupported_set_func; + self->set_rx_em = sfp_set_rx_em; + return 0; + + case TRANSVR_TYPE_QSFP: + case TRANSVR_TYPE_QSFP_PLUS: + self->get_id = common_get_id; + self->get_ext_id = common_get_ext_id; + self->get_connector = common_get_connector; + self->get_vendor_name = common_get_vendor_name; + self->get_vendor_pn = common_get_vendor_pn; + self->get_vendor_rev = common_get_vendor_rev; + self->get_vendor_sn = common_get_vendor_sn; + self->get_power_cls = qsfp_get_power_cls; + self->get_br = common_get_br; + self->get_len_sm = unsupported_get_func; + self->get_len_smf = common_get_len_smf; + self->get_len_om1 = common_get_len_om1; + self->get_len_om2 = common_get_len_om2; + self->get_len_om3 = common_get_len_om3; + self->get_len_om4 = common_get_len_om4; + self->get_comp_rev = common_get_comp_rev; + self->get_comp_eth_1 = qsfp_get_comp_eth; + self->get_comp_eth_10 = unsupported_get_func; + self->get_comp_eth_10_40 = qsfp_get_comp_10_40; + self->get_comp_extend = common_get_comp_extended; + self->get_cdr = unsupported_get_func; + self->get_rate_id = unsupported_get_func; + self->get_soft_rs0 = unsupported_get_func; /* TBD */ + self->get_soft_rs1 = unsupported_get_func; /* TBD */ + self->get_info = common_get_info; + self->get_if_type = qsfp_get_if_type; + self->get_if_speed = qsfp_get_if_speed; + self->get_if_lane = common_get_if_lane; + self->get_curr_temp = qsfp_get_transvr_temp; + self->get_curr_vol = qsfp_get_transvr_voltage; + self->get_soft_rx_los = qsfp_get_soft_rx_los; + self->get_soft_tx_disable = qsfp_get_soft_tx_disable; + self->get_soft_tx_fault = qsfp_get_soft_tx_fault; + self->get_auto_tx_disable = qsfp_get_auto_tx_disable; + self->get_tx_bias = qsfp_get_transvr_tx_bias; + self->get_tx_power = qsfp_get_transvr_tx_power; + self->get_rx_power = qsfp_get_transvr_rx_power; + self->get_tx_eq = unsupported_get_func2; + self->get_rx_am = unsupported_get_func2; + self->get_rx_em = unsupported_get_func2; + self->get_wavelength = qsfp_get_wavelength; + self->set_cdr = unsupported_set_func; + self->set_soft_rs0 = unsupported_set_func; /* TBD */ + self->set_soft_rs1 = unsupported_set_func; /* TBD */ + self->set_soft_tx_disable = qsfp_set_soft_tx_disable; + self->set_auto_tx_disable = qsfp_set_auto_tx_disable; + self->set_tx_eq = unsupported_set_func; + self->set_rx_am = unsupported_set_func; + self->set_rx_em = unsupported_set_func; + return 0; + + case TRANSVR_TYPE_QSFP_28: + self->get_id = common_get_id; + self->get_ext_id = common_get_ext_id; + self->get_connector = common_get_connector; + self->get_vendor_name = common_get_vendor_name; + self->get_vendor_pn = common_get_vendor_pn; + self->get_vendor_rev = common_get_vendor_rev; + self->get_vendor_sn = common_get_vendor_sn; + self->get_power_cls = qsfp_get_power_cls; + self->get_br = common_get_br; + self->get_len_sm = unsupported_get_func; + self->get_len_smf = common_get_len_smf; + self->get_len_om1 = common_get_len_om1; + self->get_len_om2 = common_get_len_om2; + self->get_len_om3 = common_get_len_om3; + self->get_len_om4 = common_get_len_om4; + self->get_comp_rev = common_get_comp_rev; + self->get_comp_eth_1 = qsfp_get_comp_eth; + self->get_comp_eth_10 = unsupported_get_func; + self->get_comp_eth_10_40 = qsfp_get_comp_10_40; + self->get_comp_extend = common_get_comp_extended; + self->get_cdr = qsfp_get_cdr; + self->get_rate_id = unsupported_get_func; + self->get_soft_rs0 = unsupported_get_func; /* TBD */ + self->get_soft_rs1 = unsupported_get_func; /* TBD */ + self->get_info = common_get_info; + self->get_if_type = qsfp_get_if_type; + self->get_if_speed = qsfp_get_if_speed; + self->get_if_lane = common_get_if_lane; + self->get_curr_temp = qsfp_get_transvr_temp; + self->get_curr_vol = qsfp_get_transvr_voltage; + self->get_soft_rx_los = qsfp_get_soft_rx_los; + self->get_soft_tx_disable = qsfp_get_soft_tx_disable; + self->get_soft_tx_fault = qsfp_get_soft_tx_fault; + self->get_auto_tx_disable = qsfp_get_auto_tx_disable; + self->get_tx_bias = qsfp_get_transvr_tx_bias; + self->get_tx_power = qsfp_get_transvr_tx_power; + self->get_rx_power = qsfp_get_transvr_rx_power; + self->get_tx_eq = qsfp_get_transvr_tx_eq; + self->get_rx_am = qsfp_get_transvr_rx_am; + self->get_rx_em = qsfp_get_transvr_rx_em; + self->get_wavelength = qsfp_get_wavelength; + self->set_cdr = qsfp_set_cdr; + self->set_soft_rs0 = unsupported_set_func; /* TBD */ + self->set_soft_rs1 = unsupported_set_func; /* TBD */ + self->set_soft_tx_disable = qsfp_set_soft_tx_disable; + self->set_auto_tx_disable = qsfp_set_auto_tx_disable; + self->set_tx_eq = qsfp_set_tx_eq; + self->set_rx_am = qsfp_set_rx_am; + self->set_rx_em = qsfp_set_rx_em; + return 0; + + case TRANSVR_TYPE_FAKE: + self->get_id = fake_get_hex; + self->get_ext_id = fake_get_hex; + self->get_connector = fake_get_hex; + self->get_vendor_name = fake_get_str; + self->get_vendor_pn = fake_get_str; + self->get_vendor_rev = fake_get_str; + self->get_vendor_sn = fake_get_str; + self->get_power_cls = fake_get_int; + self->get_br = fake_get_hex; + self->get_len_sm = fake_get_int; + self->get_len_smf = fake_get_int; + self->get_len_om1 = fake_get_int; + self->get_len_om2 = fake_get_int; + self->get_len_om3 = fake_get_int; + self->get_len_om4 = fake_get_int; + self->get_comp_rev = fake_get_hex; + self->get_comp_eth_1 = fake_get_hex; + self->get_comp_eth_10 = fake_get_hex; + self->get_comp_eth_10_40 = fake_get_hex; + self->get_comp_extend = fake_get_hex; + self->get_cdr = fake_get_hex; + self->get_rate_id = fake_get_hex; + self->get_soft_rs0 = fake_get_binary; + self->get_soft_rs1 = fake_get_binary; + self->get_info = fake_get_int; + self->get_if_type = fake_get_str; + self->get_if_speed = fake_get_str; + self->get_if_lane = fake_get_str; + self->get_curr_temp = fake_get_str; + self->get_curr_vol = fake_get_str; + self->get_soft_rx_los = fake_get_str; + self->get_soft_tx_disable = fake_get_str; + self->get_soft_tx_fault = fake_get_str; + self->get_auto_tx_disable = fake_get_str; + self->get_tx_bias = fake_get_str; + self->get_tx_power = fake_get_str; + self->get_rx_power = fake_get_str; + self->get_tx_eq = fake_get_str; + self->get_rx_am = fake_get_str; + self->get_rx_em = fake_get_str; + self->get_wavelength = fake_get_str; + self->set_cdr = fake_set_hex; + self->set_soft_rs0 = fake_set_int; + self->set_soft_rs1 = fake_set_int; + self->set_soft_tx_disable = fake_set_int; + self->set_auto_tx_disable = fake_set_int; + self->set_tx_eq = fake_set_int; + self->set_rx_am = fake_set_int; + self->set_rx_em = fake_set_int; + return 0; + + default: + break; + } + SWPS_WARN("%s: Detect non-defined type:%d\n", __func__, transvr_type); + return ERR_TRANSVR_UNEXCPT; +} + + +static int +setup_transvr_private_cb(struct transvr_obj_s *self, + int transvr_type){ + switch (transvr_type){ + case TRANSVR_TYPE_SFP: + self->init = transvr_init_sfp; + self->clean = common_transvr_clean; + self->check = common_transvr_check; + self->update_all = _sfp_update_attr_all; + self->fsm_4_direct = common_fsm_4_direct_mode; + self->fsm_4_polling = common_fsm_4_polling_mode; + self->send_uevent = sfp_send_uevent; + self->dump_all = sfp_transvr_dump; + return 0; + + case TRANSVR_TYPE_QSFP: + case TRANSVR_TYPE_QSFP_PLUS: + self->init = transvr_init_qsfp; + self->clean = qsfp_transvr_clean; + self->check = common_transvr_check; + self->update_all = _qsfp_update_attr_all; + self->fsm_4_direct = common_fsm_4_direct_mode; + self->fsm_4_polling = common_fsm_4_polling_mode; + self->send_uevent = qsfp_send_uevent; + self->dump_all = qsfp_transvr_dump; + return 0; + + case TRANSVR_TYPE_QSFP_28: + self->init = transvr_init_qsfp28; + self->clean = qsfp_transvr_clean; + self->check = common_transvr_check; + self->update_all = _qsfp_update_attr_all; + self->fsm_4_direct = common_fsm_4_direct_mode; + self->fsm_4_polling = common_fsm_4_polling_mode; + self->send_uevent = qsfp_send_uevent; + self->dump_all = qsfp_transvr_dump; + return 0; + + case TRANSVR_TYPE_FAKE: + self->init = transvr_init_fake; + self->clean = fake_transvr_clean; + self->check = fake_transvr_check; + self->update_all = fake_transvr_update; + self->fsm_4_direct = fake_fsm_4_direct_mode; + self->fsm_4_polling = fake_fsm_4_polling_mode; + self->send_uevent = fake_send_uevent; + self->dump_all = fake_transvr_dump; + return 0; + + default: + break; + } + SWPS_WARN("%s: Detect non-defined type:%d\n", __func__, transvr_type); + return ERR_TRANSVR_UNEXCPT; +} + + +static struct eeprom_map_s * +get_eeprom_map(int transvr_type){ + + switch (transvr_type){ + case TRANSVR_TYPE_SFP: + return &eeprom_map_sfp; + case TRANSVR_TYPE_QSFP: + case TRANSVR_TYPE_QSFP_PLUS: + return &eeprom_map_qsfp; + case TRANSVR_TYPE_QSFP_28: + return &eeprom_map_qsfp28; + + default: + break; + } + SWPS_WARN("%s: Detect non-defined type:%d\n", __func__, transvr_type); + return NULL; +} + + +static int +setup_transvr_ssize_attr(char *swp_name, + struct transvr_obj_s *self, + struct eeprom_map_s *map_p, + struct ioexp_obj_s *ioexp_obj_p, + int ioexp_virt_offset, + int transvr_type, + int chipset_type, + int chan_id, + int run_mode){ + switch (run_mode){ + case TRANSVR_MODE_DIRECT: /* Direct access device mode */ + case TRANSVR_MODE_POLLING: /* Polling mode, read from cache */ + self->mode = run_mode; + break; + default: + SWPS_ERR("%s: non-defined run_mode:%d\n", + __func__, run_mode); + self->mode = DEBUG_TRANSVR_INT_VAL; + return -1; + } + self->eeprom_map_p = map_p; + self->ioexp_obj_p = ioexp_obj_p; + self->ioexp_virt_offset = ioexp_virt_offset; + self->chan_id = chan_id; + self->layout = transvr_type; + self->type = transvr_type; + self->chipset_type = chipset_type; + self->state = STATE_TRANSVR_NEW; + self->info = STATE_TRANSVR_NEW; + self->auto_tx_disable = VAL_TRANSVR_FUNCTION_DISABLE; + strncpy(self->swp_name, swp_name, 32); + mutex_init(&self->lock); + return 0; +} + + +static int +setup_transvr_dsize_attr(struct transvr_obj_s *self){ + + char *emsg = DEBUG_TRANSVR_STR_VAL; + + self->vendor_name = kzalloc((LEN_TRANSVR_M_STR * sizeof(char)), GFP_KERNEL); + if (!self->vendor_name){ + emsg = "vendor_name"; + goto err_setup_d_attr; + } + self->vendor_pn = kzalloc((LEN_TRANSVR_M_STR * sizeof(char)), GFP_KERNEL); + if (!self->vendor_pn){ + emsg = "vendor_pn"; + goto err_setup_d_attr; + } + self->vendor_rev = kzalloc((LEN_TRANSVR_M_STR * sizeof(char)), GFP_KERNEL); + if (!self->vendor_rev){ + emsg = "vendor_rev"; + goto err_setup_d_attr; + } + self->vendor_sn = kzalloc((LEN_TRANSVR_M_STR * sizeof(char)), GFP_KERNEL); + if (!self->vendor_sn){ + emsg = "vendor_sn"; + goto err_setup_d_attr; + } + self->worker_p = NULL; + return 0; + +err_setup_d_attr: + SWPS_ERR("%s: %s kzalloc fail!", __func__, emsg); + return ERR_TRANSVR_UNEXCPT; +} + + +static int +setup_i2c_client(struct transvr_obj_s *self){ + + struct i2c_adapter *adap = NULL; + struct i2c_client *client = NULL; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + adap = i2c_get_adapter(self->chan_id); + if(!adap){ + snprintf(err_msg, sizeof(err_msg), + "can not get adap:%d", self->chan_id); + goto err_setup_i2c_client; + } + client = kzalloc(sizeof(*client), GFP_KERNEL); + if (!client){ + snprintf(err_msg, sizeof(err_msg), + "can not kzalloc client:%d", self->chan_id); + goto err_setup_i2c_client; + } + client->adapter = adap; + self->i2c_client_p = client; + self->i2c_client_p->addr = VAL_TRANSVR_COMID_ARREESS; + return 0; + +err_setup_i2c_client: + SWPS_ERR("%s: %s\n", __func__, err_msg); + return ERR_TRANSVR_UNEXCPT; +} + + +struct transvr_obj_s * +create_transvr_obj(char *swp_name, + int chan_id, + struct ioexp_obj_s *ioexp_obj_p, + int ioexp_virt_offset, + int transvr_type, + int chipset_type, + int run_mode){ + + struct transvr_obj_s *result_p; + struct eeprom_map_s *map_p; + char err_msg[64] = DEBUG_TRANSVR_STR_VAL; + + /* Allocate transceiver object */ + map_p = get_eeprom_map(transvr_type); + if (!map_p){ + snprintf(err_msg, sizeof(err_msg), + "Invalid transvr_type:%d", transvr_type); + goto err_create_transvr_fail; + } + result_p = kzalloc(sizeof(*result_p), GFP_KERNEL); + if (!result_p){ + snprintf(err_msg, sizeof(err_msg), "kzalloc fail"); + goto err_create_transvr_fail; + } + /* Prepare static size attributes */ + if (setup_transvr_ssize_attr(swp_name, + result_p, + map_p, + ioexp_obj_p, + ioexp_virt_offset, + transvr_type, + chipset_type, + chan_id, + run_mode) < 0){ + goto err_create_transvr_sattr_fail; + } + /* Prepare dynamic size attributes */ + if (setup_transvr_dsize_attr(result_p) < 0){ + goto err_create_transvr_dattr_fail; + } + /* Prepare call back functions of object */ + if (setup_transvr_public_cb(result_p, transvr_type) < 0){ + goto err_create_transvr_dattr_fail; + } + /* Prepare call back functions of object */ + if (setup_transvr_private_cb(result_p, transvr_type) < 0){ + goto err_create_transvr_dattr_fail; + } + /* Prepare i2c client object */ + if (setup_i2c_client(result_p) < 0){ + goto err_create_transvr_dattr_fail; + } + return result_p; + +err_create_transvr_dattr_fail: + kfree(result_p->vendor_sn); + kfree(result_p->vendor_rev); + kfree(result_p->vendor_pn); + kfree(result_p->vendor_name); +err_create_transvr_sattr_fail: + kfree(result_p); +err_create_transvr_fail: + SWPS_ERR("%s: %s :%d :%d :%d\n", + __func__, err_msg, chan_id, ioexp_virt_offset, transvr_type); + return NULL; +} +EXPORT_SYMBOL(create_transvr_obj); + + +static int +_reload_transvr_obj(struct transvr_obj_s *self, + int new_type){ + + struct eeprom_map_s *new_map_p; + struct eeprom_map_s *old_map_p = self->eeprom_map_p; + struct i2c_client *old_i2c_p = self->i2c_client_p; + int old_type = self->type; + + /* Change state to STATE_TRANSVR_INIT */ + self->state = STATE_TRANSVR_INIT; + self->type = new_type; + /* Replace EEPROME map */ + new_map_p = get_eeprom_map(new_type); + if (!new_map_p){ + goto err_private_reload_func_1; + } + self->eeprom_map_p = new_map_p; + /* Reload i2c client */ + if (setup_i2c_client(self) < 0){ + goto err_private_reload_func_2; + } + /* Replace call back functions */ + if (setup_transvr_public_cb(self, new_type) < 0){ + goto err_private_reload_func_3; + } + if (setup_transvr_private_cb(self, new_type) < 0){ + goto err_private_reload_func_3; + } + kfree(old_i2c_p); + return 0; + +err_private_reload_func_3: + SWPS_INFO("%s: init() fail!\n", __func__); + kfree(old_i2c_p); + self->state = STATE_TRANSVR_UNEXCEPTED; + self->type = TRANSVR_TYPE_ERROR; + return -2; + +err_private_reload_func_2: + self->eeprom_map_p = old_map_p; + self->i2c_client_p = old_i2c_p; +err_private_reload_func_1: + self->state = STATE_TRANSVR_UNEXCEPTED; + self->type = old_type; + SWPS_INFO("%s fail! :0x%02x\n", __func__, new_type); + return -1; +} + + +static int +reload_transvr_obj(struct transvr_obj_s *self, + int new_type){ + + int result_val = ERR_TRANSVR_UNEXCPT; + + /* Reload phase */ + result_val = _reload_transvr_obj(self, new_type); + if (result_val < 0){ + SWPS_INFO("%s: reload phase fail! :%d\n", + __func__, result_val); + return EVENT_TRANSVR_RELOAD_FAIL; + } + /* Initial phase */ + result_val = _transvr_init_handler(self); + if (result_val < 0){ + SWPS_INFO("%s: initial phase fail! :%d\n", + __func__, result_val); + } + return result_val; +} + + +int +isolate_transvr_obj(struct transvr_obj_s *self) { + + self->state = STATE_TRANSVR_ISOLATED; + SWPS_INFO("%s: %s be isolated\n", __func__, self->swp_name); + return 0; +} +EXPORT_SYMBOL(isolate_transvr_obj); + + +int +resync_channel_tier_2(struct transvr_obj_s *self) { + + int val = TRANSVR_TYPE_ERROR; + + if (self->state == STATE_TRANSVR_ISOLATED) { + return 0; + } + self->i2c_client_p->addr = VAL_TRANSVR_COMID_ARREESS; + val = i2c_smbus_read_byte_data(self->i2c_client_p, + VAL_TRANSVR_COMID_OFFSET); + if (val < 0) { + return -1; + } + return 0; +} +EXPORT_SYMBOL(resync_channel_tier_2); + + +/* ----------------------------------------- + * ToDo List + * ----------------------------------------- + * 1. _sfp_detect_class_by_feature() + * => Need check ACC use case. + * 2. _sfp_detect_class_by_1g_ethernet() + * => Need check 0.1G use case. + * 3. Loopback transceiver use case. + * => Less much data + * 4. _qsfp_detect_class_by_extend_comp() + * => Verify 100G CWDM4 + * => Verify Obsolete (assigned before 100G CWDM4 MSA required FEC) + * => Verify 100G CLR4 + * => Verify 100GE-DWDM2 + * => Verify 40G PSM4 Parallel SMF + * => Verify 100G ACC (Active Copper Cable) or 25GAUI C2M ACC. + * => Verify 100G ACC or 25GAUI C2M ACC. + * => Verify 25GBASE-LR + * => Verify 40G Active Cable (XLPPI) + */ + + + +MODULE_LICENSE("GPL"); + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/transceiver.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/transceiver.h new file mode 100644 index 00000000..5eee7db2 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/modules/builds/src/transceiver.h @@ -0,0 +1,795 @@ +#ifndef TRANSCEIVER_H +#define TRANSCEIVER_H + +#include + +/* advanced features control */ +#define TRANSVR_INFO_DUMP_ENABLE (1) +#define TRANSVR_INFO_CACHE_ENABLE (1) +#define TRANSVR_UEVENT_ENABLE (1) + +/* Transceiver type define */ +#define TRANSVR_TYPE_UNKNOW_1 (0x00) +#define TRANSVR_TYPE_UNKNOW_2 (0xff) +#define TRANSVR_TYPE_SFP (0x03) /* Define for SFP, SFP+, SFP28 */ +#define TRANSVR_TYPE_QSFP (0x0c) +#define TRANSVR_TYPE_QSFP_PLUS (0x0d) +#define TRANSVR_TYPE_QSFP_28 (0x11) +#define TRANSVR_TYPE_UNPLUGGED (0xfa) /* Define for ERROR handle */ +#define TRANSVR_TYPE_FAKE (0xfc) /* Define for ERROR handle */ +#define TRANSVR_TYPE_INCONSISTENT (0xfd) /* Define for ERROR handle */ +#define TRANSVR_TYPE_ERROR (0xfe) /* Define for ERROR handle */ + +/* Transceiver class for base info */ +#define TRANSVR_CLASS_UNSPECIFIED (0) +#define TRANSVR_CLASS_ERROR (-26001) +#define TRANSVR_CLASS_1G (26001) +#define TRANSVR_CLASS_10G (26011) +#define TRANSVR_CLASS_25G (26021) +#define TRANSVR_CLASS_40G (26041) +#define TRANSVR_CLASS_100G (26101) +#define TRANSVR_CLASS_NO_SPERARABLE (26901) +#define TRANSVR_CLASS_EXTEND_COMP (26902) +/* Transceiver class for Optical 1G */ +#define TRANSVR_CLASS_OPTICAL (27000) +#define TRANSVR_CLASS_OPTICAL_100 (27001) +#define TRANSVR_CLASS_OPTICAL_1G (27002) +#define TRANSVR_CLASS_OPTICAL_1G_AOC (27003) +#define TRANSVR_CLASS_OPTICAL_1G_SX (27004) +#define TRANSVR_CLASS_OPTICAL_1G_LX (27005) +#define TRANSVR_CLASS_OPTICAL_1G_EX (27006) +/* Transceiver class for Optical 10G */ +#define TRANSVR_CLASS_OPTICAL_10G (27010) +#define TRANSVR_CLASS_OPTICAL_10G_S_AOC (27011) +#define TRANSVR_CLASS_OPTICAL_10G_S_SR (27012) +#define TRANSVR_CLASS_OPTICAL_10G_S_LR (27013) +#define TRANSVR_CLASS_OPTICAL_10G_S_ER (27014) +#define TRANSVR_CLASS_OPTICAL_10G_Q_AOC (27015) +#define TRANSVR_CLASS_OPTICAL_10G_Q_SR (27016) +#define TRANSVR_CLASS_OPTICAL_10G_Q_LR (27017) +#define TRANSVR_CLASS_OPTICAL_10G_Q_ER (27018) +/* Transceiver class for Optical 25G */ +#define TRANSVR_CLASS_OPTICAL_25G (27020) +#define TRANSVR_CLASS_OPTICAL_25G_AOC (27021) +#define TRANSVR_CLASS_OPTICAL_25G_SR (27022) +#define TRANSVR_CLASS_OPTICAL_25G_LR (27023) +#define TRANSVR_CLASS_OPTICAL_25G_ER (27024) +/* Transceiver class for Optical 40G */ +#define TRANSVR_CLASS_OPTICAL_40G (27040) +#define TRANSVR_CLASS_OPTICAL_40G_AOC (27041) +#define TRANSVR_CLASS_OPTICAL_40G_SR4 (27042) +#define TRANSVR_CLASS_OPTICAL_40G_LR4 (27043) +#define TRANSVR_CLASS_OPTICAL_40G_ER4 (27044) +/* Transceiver class for Optical 100G */ +#define TRANSVR_CLASS_OPTICAL_100G (27100) +#define TRANSVR_CLASS_OPTICAL_100G_AOC (27101) +#define TRANSVR_CLASS_OPTICAL_100G_SR4 (27102) +#define TRANSVR_CLASS_OPTICAL_100G_LR4 (27103) +#define TRANSVR_CLASS_OPTICAL_100G_ER4 (27104) +#define TRANSVR_CLASS_OPTICAL_100G_PSM4 (27105) +/* Transceiver class for Copper */ +#define TRANSVR_CLASS_COPPER (28000) +#define TRANSVR_CLASS_COPPER_L1_1G (28001) +#define TRANSVR_CLASS_COPPER_L1_10G (28011) +#define TRANSVR_CLASS_COPPER_L4_10G (28012) +#define TRANSVR_CLASS_COPPER_L1_25G (28021) +#define TRANSVR_CLASS_COPPER_L4_40G (28041) +#define TRANSVR_CLASS_COPPER_L4_100G (28101) +/* Transceiver class for Base-T */ +#define TRANSVR_CLASS_BASE_T_1000 (29001) +#define TRANSVR_CLASS_BASE_T_1000_up (29002) +/* For uevent message */ +#define TRANSVR_UEVENT_KEY_IF "IF_TYPE" +#define TRANSVR_UEVENT_KEY_SP "IF_SPEED" +#define TRANSVR_UEVENT_KEY_LANE "IF_LANE" +#define TRANSVR_UEVENT_UNKNOW "UNKNOW" +#define TRANSVR_IF_KR "KR" +#define TRANSVR_IF_KR4 "KR4" +#define TRANSVR_IF_SR "SR" +#define TRANSVR_IF_SR4 "SR4" +#define TRANSVR_IF_SFI "SFI" +#define TRANSVR_IF_IF_GMII "GMII" +#define TRANSVR_IF_IF_XGMII "XGMII" +#define TRANSVR_IF_SP_100 "100" +#define TRANSVR_IF_SP_1G "1000" +#define TRANSVR_IF_SP_10G "10000" +#define TRANSVR_IF_SP_25G "25000" +#define TRANSVR_IF_SP_40G "40000" +#define TRANSVR_IF_SP_100G "100000" + +/* Transceiver mode define */ +#define TRANSVR_MODE_DIRECT (21000) +#define TRANSVR_MODE_POLLING (21001) + +/* Transceiver state define + * [Note] + * 1. State is used to represent the state of "Transceiver" and "Object". + * 2. State for different target has different means. The description as following: + */ +#define STATE_TRANSVR_CONNECTED (0) /* [Transvr]:Be plugged in. [Obj]:Link up, and work normally. */ +#define STATE_TRANSVR_NEW (-100) /* [Transvr]:(Not used) [Obj]:Create */ +#define STATE_TRANSVR_INIT (-101) /* [Transvr]:Be plugged in. [Obj]:Link up, and in initial process. */ +#define STATE_TRANSVR_ISOLATED (-102) /* [Transvr]:Be plugged in. [Obj]:Isolate, and not provide service. */ +#define STATE_TRANSVR_SWAPPED (-200) /* [Transvr]:Be plugged in. [Obj]:(Not used) */ +#define STATE_TRANSVR_DISCONNECTED (-300) /* [Transvr]:Un-plugged. [Obj]:Link down, and not provide service. */ +#define STATE_TRANSVR_UNEXCEPTED (-901) /* [Transvr]:Any [Obj]:Any, and not in expect case. */ + +/* Task state define */ +#define STATE_T_TASK_WAIT (110) +#define STATE_T_TASK_DONE (0) +#define STATE_T_TASK_INIT (-110) +#define STATE_T_TASK_FAIL (-410) + + +/* Event for task handling */ +#define EVENT_TRANSVR_TASK_WAIT (2101) +#define EVENT_TRANSVR_TASK_DONE (0) +#define EVENT_TRANSVR_TASK_FAIL (-2101) +/* Event for initial handling */ +#define EVENT_TRANSVR_INIT_UP (2201) +#define EVENT_TRANSVR_INIT_DOWN (1) +#define EVENT_TRANSVR_INIT_REINIT (-2201) +#define EVENT_TRANSVR_INIT_FAIL (-2202) +/* Event for others */ +#define EVENT_TRANSVR_RELOAD_FAIL (-2301) +#define EVENT_TRANSVR_EXCEP_INIT (-2401) +#define EVENT_TRANSVR_EXCEP_UP (-2402) +#define EVENT_TRANSVR_EXCEP_DOWN (-2403) +#define EVENT_TRANSVR_EXCEP_SWAP (-2404) +#define EVENT_TRANSVR_EXCEP_EXCEP (-2405) +#define EVENT_TRANSVR_EXCEP_ISOLATED (-2406) +#define EVENT_TRANSVR_I2C_CRASH (-2501) + +/* Transceiver error code define */ +#define ERR_TRANSVR_UNINIT (-201) +#define ERR_TRANSVR_UNPLUGGED (-202) +#define ERR_TRANSVR_ABNORMAL (-203) +#define ERR_TRANSVR_NOSTATE (-204) +#define ERR_TRANSVR_NOTSUPPORT (-205) +#define ERR_TRANSVR_BADINPUT (-206) +#define ERR_TRANSVR_UPDATE_FAIL (-207) +#define ERR_TRANSVR_RELOAD_FAIL (-208) +#define ERR_TRANSVR_INIT_FAIL (-209) +#define ERR_TRANSVR_UNDEFINED (-210) +#define ERR_TRANSVR_TASK_FAIL (-211) +#define ERR_TRANSVR_TASK_BUSY (-212) +#define ERR_TRANSVR_UEVENT_FAIL (-213) +#define ERR_TRANSVR_FUNC_DISABLE (-214) +#define ERR_TRANSVR_I2C_CRASH (-297) +#define ERR_TRNASVR_BE_ISOLATED (-298) +#define ERR_TRANSVR_UNEXCPT (-299) + +/* For debug */ +#define DEBUG_TRANSVR_INT_VAL (-99) +#define DEBUG_TRANSVR_HEX_VAL (0xfe) +#define DEBUG_TRANSVR_STR_VAL "ERROR" + +/* For system internal */ +#define VAL_TRANSVR_COMID_ARREESS (0x50) +#define VAL_TRANSVR_COMID_OFFSET (0x00) +#define VAL_TRANSVR_8472_READY_ADDR (0x51) +#define VAL_TRANSVR_8472_READY_PAGE (-1) +#define VAL_TRANSVR_8472_READY_OFFSET (110) +#define VAL_TRANSVR_8472_READY_BIT (0) +#define VAL_TRANSVR_8472_READY_VALUE (0) +#define VAL_TRANSVR_8472_READY_ABNORMAL (0xff) +#define VAL_TRANSVR_8436_READY_ADDR (0x50) +#define VAL_TRANSVR_8436_READY_PAGE (-1) +#define VAL_TRANSVR_8436_READY_OFFSET (2) +#define VAL_TRANSVR_8436_READY_BIT (0) +#define VAL_TRANSVR_8436_READY_VALUE (0) +#define VAL_TRANSVR_8436_READY_ABNORMAL (0xff) +#define VAL_TRANSVR_8436_PWD_ADDR (0x50) +#define VAL_TRANSVR_8436_PWD_PAGE (-1) +#define VAL_TRANSVR_8436_PWD_OFFSET (123) +#define VAL_TRANSVR_PAGE_FREE (-99) +#define VAL_TRANSVR_PAGE_SELECT_OFFSET (127) +#define VAL_TRANSVR_PAGE_SELECT_DELAY (5) +#define VAL_TRANSVR_TASK_RETRY_FOREVER (-999) +#define VAL_TRANSVR_FUNCTION_DISABLE (-1) +#define STR_TRANSVR_SFP "SFP" +#define STR_TRANSVR_QSFP "QSFP" +#define STR_TRANSVR_QSFP_PLUS "QSFP+" +#define STR_TRANSVR_QSFP28 "QSFP28" + +/* For transvr buf len */ +#define LEN_TRANSVR_S_STR (16) +#define LEN_TRANSVR_M_STR (32) +#define LEN_TRANSVR_L_STR (64) + +/* Optical wavelength */ +#define VAL_OPTICAL_WAVELENGTH_SR (850) +#define VAL_OPTICAL_WAVELENGTH_LR (1310) +#define VAL_OPTICAL_WAVELENGTH_ER (1550) + +/* BCM chip type define */ +#define BCM_CHIP_TYPE_TRIDENT_2 (31001) /* Magnolia, Hudson32i, Spruce */ +#define BCM_CHIP_TYPE_TOMAHAWK (31002) /* Redwood, Cypress */ + +/* Lavender chip type define */ +#define CHIP_TYPE_D5264Q28B (31003) /* Lavender */ + +/* Info from transceiver EEPROM */ +struct eeprom_map_s { + int addr_br; int page_br; int offset_br; int length_br; + int addr_cdr; int page_cdr; int offset_cdr; int length_cdr; + int addr_comp_rev; int page_comp_rev; int offset_comp_rev; int length_comp_rev; + int addr_connector; int page_connector; int offset_connector; int length_connector; + int addr_diag_type; int page_diag_type; int offset_diag_type; int length_diag_type; + int addr_extbr; int page_extbr; int offset_extbr; int length_extbr; + int addr_ext_id; int page_ext_id; int offset_ext_id; int length_ext_id; + int addr_id; int page_id; int offset_id; int length_id; + int addr_len_sm; int page_len_sm; int offset_len_sm; int length_len_sm; + int addr_len_smf; int page_len_smf; int offset_len_smf; int length_len_smf; + int addr_len_om1; int page_len_om1; int offset_len_om1; int length_len_om1; + int addr_len_om2; int page_len_om2; int offset_len_om2; int length_len_om2; + int addr_len_om3; int page_len_om3; int offset_len_om3; int length_len_om3; + int addr_len_om4; int page_len_om4; int offset_len_om4; int length_len_om4; + int addr_option; int page_option; int offset_option; int length_option; + int addr_rate_id; int page_rate_id; int offset_rate_id; int length_rate_id; + int addr_rx_am; int page_rx_am; int offset_rx_am; int length_rx_am; + int addr_rx_em; int page_rx_em; int offset_rx_em; int length_rx_em; + int addr_rx_los; int page_rx_los; int offset_rx_los; int length_rx_los; + int addr_rx_power; int page_rx_power; int offset_rx_power; int length_rx_power; + int addr_soft_rs0; int page_soft_rs0; int offset_soft_rs0; int length_soft_rs0; + int addr_soft_rs1; int page_soft_rs1; int offset_soft_rs1; int length_soft_rs1; + int addr_temp; int page_temp; int offset_temp; int length_temp; + int addr_trancomp; int page_trancomp; int offset_trancomp; int length_trancomp; + int addr_trancomp_ext; int page_trancomp_ext; int offset_trancomp_ext; int length_trancomp_ext; + int addr_tx_bias; int page_tx_bias; int offset_tx_bias; int length_tx_bias; + int addr_tx_disable; int page_tx_disable; int offset_tx_disable; int length_tx_disable; + int addr_tx_eq; int page_tx_eq; int offset_tx_eq; int length_tx_eq; + int addr_tx_fault; int page_tx_fault; int offset_tx_fault; int length_tx_fault; + int addr_tx_power; int page_tx_power; int offset_tx_power; int length_tx_power; + int addr_vendor_name; int page_vendor_name; int offset_vendor_name; int length_vendor_name; + int addr_vendor_pn; int page_vendor_pn; int offset_vendor_pn; int length_vendor_pn; + int addr_vendor_rev; int page_vendor_rev; int offset_vendor_rev; int length_vendor_rev; + int addr_vendor_sn; int page_vendor_sn; int offset_vendor_sn; int length_vendor_sn; + int addr_voltage; int page_voltage; int offset_voltage; int length_voltage; + int addr_wavelength; int page_wavelength; int offset_wavelength; int length_wavelength; +}; + + +struct transvr_worker_s; + +/* Class of transceiver object */ +struct transvr_obj_s { + + /* ========== Object private property ========== + * [Prop]: id + * [Desc]: Type of serial transceiver. + * [Note]: SFP:03h / QSFP:0Ch / QSPF+:0Dh /QSFP28:11h + */ + uint8_t id; + + /* [Prop]: connector + * [Desc]: Connector type. + * [Note]: SFP : A0h / 2 + * QSFP: 00h / 130 + */ + uint8_t connector; + + /* [Prop]: transvr_comp + * [Desc]: Transceiver compliance code. + * [Note]: SFP: SFF-8472 + * - Normal : A0h / offset 3-10 + * - Extended: A0h / offset 36 + * QSFP: SFF-8436 & SFF-8636 + * - Normal : 00h / offset 131-138 + * - Extended: 00h / offset 192 + */ + uint8_t transvr_comp[8]; + uint8_t transvr_comp_ext; + + /* [Prop]: vendor_name + * [Desc]: SFP vendor name (ASCII 16 byte char). + * [Note]: ex:FINISAR CORP. + */ + char *vendor_name; + + /* [Prop]: vendor_pn + * [Desc]: Part number provided by SFP vendor (ASCII 16 byte char). + * [Note]: + */ + char *vendor_pn; + + /* [Prop]: vendor_rev + * [Desc]: Revision level for part number provided by vendor (ASCII 4 byte char). + * [Note]: + */ + char *vendor_rev; + + /* [Prop]: vendor_sn + * [Desc]: Serial number provided by vendor (ASCII 16 byte char). + * [Note]: + */ + char *vendor_sn; + + /* [Prop]: Extended identifier + * [Desc]: SFP: + * => None + * + * QSFP: + * => This byte contained two information: + * (1) Power consumption class + * (2) CDR function present + * [Note]: Bit description as below: + * [SFP] + * None + * + * [QSFP] + * (1) Power consumption class: + * Class 1: 1.5W (Bit6-7 = 00:) + * Class 2: 2.0W (Bit6-7 = 01:) + * Class 3: 2.5W (Bit6-7 = 10:) + * Class 4: 3.5W (Bit6-7 = 11:) + * Class 5: 4.0W (Bit0-1 = 01:) + * Class 6: 4.5W (Bit0-1 = 10:) + * Class 7: 5.0W (Bit0-1 = 11:) + * (2) CDR function present: + * Bit2: 0 = No CDR in RX + * 1 = CDR present in RX + * Bit3: 0 = No CDR in TX + * 1 = CDR present in TX + */ + uint8_t ext_id; + + /* [Prop]: br + * [Desc]: Nominal bit rate, units of 100 MBits/sec. + * [Note]: SFP:03h / QSFP:0Ch / QSPF+:0Dh + * has val: 0x67 + * no val : + */ + uint8_t br; + + /* [Prop]: extbr + * [Desc]: Extended br (00h/222) + * [Desc]: Nominal bit rate per channel, units of 250 Mbps. + * Complements. Byte 140. See Table 32A. + */ + uint8_t extbr; + + /* [Prop]: len_sm + * [Desc]: Length (single mode)-(100's)m + * [Note]: This value specifies the link length that is supported by the transceiver + * while operating in compliance with the applicable standards using single mode + * fiber. The value is in units of 100 meters. A value of 255 means that the + * transceiver supports a link length greater than 25.4 km. A value of zero means + * that the transceiver does not support single mode fiber or that the length + * information must be determined from the transceiver technology. + */ + int len_sm; + + /* [Prop]: len_smf + * [Desc]: Length (single mode)-km + * [Note]: Addition to EEPROM data from original GBIC definition. This value specifies + * the link length that is supported by the transceiver while operating in + * compliance with the applicable standards using single mode fiber. The value + * is in units of kilometers. A value of 255 means that the transceiver supports + * a link length greater than 254 km. A value of zero means that the transceiver + * does not support single mode fiber or that the length information must be + * determined from the transceiver technology. + */ + int len_smf; + + /* [Prop]: len_om1 + * [Desc]: Link length supported for 62.5 um OM1 fiber, units of 10 m + * [Note]: The value is in units of 10 meters. A value of 255 means that the + * transceiver supports a link length greater than 2.54 km. A value of + * zero means that the transceiver does not support 50 micron multi-mode + * fiber or that the length information must be determined from the transceiver + * technology. + */ + int len_om1; + + /* [Prop]: len_om2 + * [Desc]: Link length supported for 50 um OM2 fiber, units of 10 m + * [Note]: The value is in units of 10 meters. A value of 255 means that the + * transceiver supports a link length greater than 2.54 km. A value of + * zero means that the transceiver does not support 50 micron multi-mode + * fiber or that the length information must be determined from the transceiver + * technology. + */ + int len_om2; + + /* [Prop]: len_om3 + * [Desc]: Length (50um, OM3) + * [Note]: This value specifies link length that is supported by the transceiver while + * operating in compliance with applicable standards using 50 micron multimode + * OM3 [2000 MHz*km] fiber. The value is in units of 10 meters. A value of 255 + * means that the transceiver supports a link length greater than 2.54 km. A value + * of zero means that the transceiver does not support 50 micron multimode fiber + * or that the length information must be determined from the transceiver technology. + */ + int len_om3; + + /* [Prop]: len_om4 + * [Desc]: Length (50um, OM4) and Length (Active Cable or Copper) + * [Note]: For optical links, this value specifies link length that is supported by the + * transceiver while operating in compliance with applicable standards using 50 micron + * multimode OM4 [4700 MHz*km] fiber. The value is in units of 10 meters. A value of + * 255 means that the transceiver supports a link length greater than 2.54 km. A value + * of zero means that the transceiver does not support 50 micron multimode fiber or that + * the length information must be determined from the transceiver codes specified in Table 5-3. + * + * For copper links, this value specifies minimum link length supported by the transceiver + * while operating in compliance with applicable standards using copper cable. For active + * cable, this value represents actual length. The value is in units of 1 meter. A value of 255 + * means the transceiver supports a link length greater than 254 meters. A value of zero means + * the transceiver does not support copper or active cables or the length information must be + * determined from transceiver technology. Further information about cable design, equalization, + * and connectors is usually required to guarantee meeting a particular length requirement. + */ + int len_om4; + + /* [Prop]: comp_rev + * [Desc]: SFF spec revision compliance + * [Note]: Indicates which revision of SFF SFF-8472 (SFP) / SFF-8636 (QSFP) the transceiver + * complies with. (unsigned integer) + */ + uint8_t comp_rev; + + /* [Prop]: CDR + * [Desc]: For transceivers with CDR capability, setting the CDR to ON engages the internal + * retiming function. Setting the CDR to OFF enables an internal bypassing mode ,which + * directs traffic around the internal CDR. (Reference: SFF-8636) + * [Note]: value=0xff: ON. + * value=0x00: OFF. + */ + uint8_t cdr; + + /* [Prop]: rate_id + * [Desc]: Soft Rate Select 0(RX). + * [Note]: 1. Addr: A0h / Offset: 13 + * 2. Value description: + * 00h Unspecified + * 01h SFF-8079 (4/2/1G Rate_Select & AS0/AS1) + * 02h SFF-8431 (8/4/2G Rx Rate_Select only) + * 03h Unspecified * + * 04h SFF-8431 (8/4/2G Tx Rate_Select only) + * 05h Unspecified * + * 06h SFF-8431 (8/4/2G Independent Rx & Tx Rate_select) + * 07h Unspecified * + * 08h FC-PI-5 (16/8/4G Rx Rate_select only) High=16G only, Low=8G/4G + * 09h Unspecified * + * 0Ah FC-PI-5 (16/8/4G Independent Rx, Tx Rate_select) High=16G only, + * Low=8G/4G + * 0Bh Unspecified * + * 0Ch FC-PI-6 (32/16/8G Independent Rx, Tx Rate_Select) + * High=32G only, Low = 16G/8G + * 0Dh Unspecified * + * 0Eh 10/8G Rx and Tx Rate_Select controlling the operation or locking + * modes of the internal signal conditioner, retimer or CDR, according + * to the logic table defined in Table 10-2, High Bit Rate + * (10G) =9.95-11.3 Gb/s; Low Bit Rate (8G) = 8.5 Gb/s. In this mode, + * the default value of bit 110.3 (Soft Rate Select RS(0), Table 9-11) + * and of bit 118.3 (Soft Rate Select RS(1), Table 10-1) is 1. + * 0Fh Unspecified * + * 10h-FFh Unallocated + */ + int rate_id; + + /* [Prop]: soft_rs0 + * [Desc]: Soft Rate Select 0(RX). + * [Note]: 1. Writing '1' selects full bandwidth operation. + * 2. This bit is "OR'd with the hard Rate_Select, AS(0) or RS(0) pin value. + * 3. Default at power up is logic zero/low + * 4. Addr: A2h / Offset: 110 / Bit: 3 + */ + uint8_t soft_rs0; + + /* [Prop]: soft_rs1 + * [Desc]: Soft Rate Select 1(TX). + * [Note]: 1. Writing '1' selects full bandwidth TX operation. + * 2. This bit is "OR'd with the hard Rate_Select, AS(1) or RS(1) pin value. + * 3. Default at power up is logic zero/low + * 4. Addr: A2h / Offset: 118 / Bit: 3 + */ + uint8_t soft_rs1; + + /* [Prop]: diag_type + * [Desc]: DIAGNOSTIC MONITORING TYPE (A0h/92) + * [Note]: Description in SFF-8472 as below: + * Bit7: Reserved for legacy diagnostic implementations. Must be '0' for compliance + * with this document. + * Bit6: Digital diagnostic monitoring implemented (described in this document). + * Must be '1' for compliance with this document. + * Bit5 Internally calibrated + * Bit4 Externally calibrated + * Bit3 Received power measurement type.0 = OMA, 1 = average power + * Bit2 Address change required see section above, "addressing modes" + * Bit1-0 Unallocated + */ + uint8_t diag_type; + + /* [Prop]: curr_temp + * [Desc]: Transceiver Current Temperature (A2h/96-97) + * [Note]: 1. Dependent on diag_type. + * 2. 96: High byte + * 3. 97: Low byte + * 4. This feature only for SFP + */ + uint8_t curr_temp[2]; + + /* [Prop]: curr_vol + * [Desc]: Transceiver Current Voltage (SFP:A2h/108-109; QSFP:00h/22-23) + * [Note]: 1. Dependent on diag_type. + * 2. 98: High byte + * 3. 99: Low byte + * 4. This feature only for SFP + * 5. Internally measured transceiver supply voltage. Represented + * as a 16 bit unsigned integer with the voltage defined as the + * full 16 bit value (0-65535) with LSB equal to 100 uVolt, + * yielding a total range of 0 to +6.55 Volts + */ + uint8_t curr_voltage[2]; + + /* [Prop]: curr_tx_bias + * [Desc]: Transceiver TX Bias Current (SFP:A2h/100-101; QSFP:00h/26-27) + * [Note]: 1. Dependent on diag_type. + * 2. 100: High byte + * 3. 101: Low byte + * 4. This feature only for SFP + * 5. Measured TX bias current in uA. Represented as a 16 bit unsigned + * integer with the current defined as the full 16 bit value (0-65535) + * with LSB equal to 2 uA, yielding a total range of 0 to 131 mA. + * Accuracy is vendor specific but must be better than 10% of the + * manufacturer's nominal value over specified operating temperature + * and voltage. + */ + uint8_t curr_tx_bias[8]; + + /* [Prop]: curr_tx_power + * [Desc]: Transceiver TX Output Power (A2h/102-103) + * [Note]: 1. Dependent on diag_type. + * 2. 102: High byte + * 3. 103: Low byte + * 4. This feature only for SFP + * 5. Measured TX output power in mW. Represented as a 16 bit unsigned + * integer with the power defined as the full 16 bit value (0-65535) + * with LSB equal to 0.1 uW, yielding a total range of 0 to 6.5535 mW + * (~ -40 to +8.2 dBm). Data is assumed to be based on measurement of + * laser monitor photodiode current. It is factory calibrated to absolute + * units using the most representative fiber output type. Accuracy is + * vendor specific but must be better than 3dB over specified temperature + * and voltage. Data is not valid when the transmitter is disabled. + */ + uint8_t curr_tx_power[8]; + + /* [Prop]: curr_tx_power + * [Desc]: Transceiver TX Output Power (A2h/102-103) + * [Note]: 1. Dependent on diag_type. + * 2. 102: High byte + * 3. 103: Low byte + * 4. This feature only for SFP + * 5. Measured RX received optical power in mW. Value can represent either + * average received power or OMA depending upon how bit 3 of byte 92 (A0h) + * is set. Represented as a 16 bit unsigned integer with the power defined + * as the full 16 bit value (0-65535) with LSB equal to 0.1 uW, yielding a + * total range of 0 to 6.5535 mW (~ -40 to +8.2 dBm). Absolute accuracy is + * dependent upon the exact optical wavelength. For the vendor specified + * wavelength, accuracy shall be better than 3dB over specified temperature + * and voltage. + */ + uint8_t curr_rx_power[8]; + + /* [Prop]: wavelength + * [Desc]: Wavelength or Copper Cable Attenuation + * [Note]: (Following is info from SFF-8636) + * For optical free side devices, this parameter identifies the nominal + * transmitter output wavelength at room temperature. This parameter is a + * 16-bit hex value with Byte 186 as high order byte and Byte 187 as low + * order byte. The laser wavelength is equal to the 16-bit integer value + * divided by 20 in nm (units of 0.05 nm). This resolution should be adequate + * to cover all relevant wavelengths yet provide enough resolution for all + * expected DWDM applications. For accurate representation of controlled + * wavelength applications, this value should represent the center of the + * guaranteed wavelength range. If the free side device is identified as + * copper cable these registers will be used to define the cable attenuation. + * An indication of 0 dB attenuation refers to the case where the attenuation + * is not known or is unavailable. + * Byte 186 (00-FFh) is the copper cable attenuation at 2.5 GHz in units of 1 dB. + * Byte 187 (00-FFh) is the copper cable attenuation at 5.0 GHz in units of 1 dB. + */ + uint8_t wavelength[2]; + + /* [Prop]: Amplitude control + * [Desc]: Amplitude control + * [Note]: QSFP28 => SFF-8636 03H Byte-238/239 + */ + uint8_t rx_am[2]; + + /* [Prop]: Emphasis control + * [Desc]: Emphasis control + * [Note]: SFP+/28 => SFF-8472 A2H Byte-115 + * QSFP28 => SFF-8636 03H Byte-236/237 + */ + uint8_t rx_em[2]; + + /* [Prop]: Soft Rx LOS + * [Desc]: Soft Rx LOS which provide by transceiver + * [Note]: (Following is info from SFF-8636) + * Byte 3: + * - Bit 0: L-Rx1 LOS + * - Bit 1: L-Rx2 LOS + * - Bit 2: L-Rx3 LOS + * - Bit 3: L-Rx4 LOS + */ + uint8_t rx_los; + + /* [Prop]: Soft Tx Disable + * [Desc]: Soft Tx Disable which provide by transceiver + * [Note]: (Following is info from SFF-8636) + * Byte 86: + * - Bit 0: Tx1 Disable + * - Bit 1: Tx2 Disable + * - Bit 2: Tx3 Disable + * - Bit 3: Tx4 Disable + */ + uint8_t tx_disable; + + /* [Prop]: Soft Tx Fault + * [Desc]: Soft Tx Fault which provide by transceiver + * [Note]: (Following is info from SFF-8636) + * Byte 86: + * - Bit 0: Tx1 Fault + * - Bit 1: Tx2 Fault + * - Bit 2: Tx3 Fault + * - Bit 3: Tx4 Fault + */ + uint8_t tx_fault; + + /* [Prop]: Transceiver EQUALIZATION + * [Desc]: Transceiver EQUALIZATION + * [Note]: SFP+/28 => SFF-8472 A2H Byte-114 + * QSFP28 => SFF-8636 03H Byte-234/235 + */ + uint8_t tx_eq[2]; + + /* [Prop]: OPTION VALUES + * [Desc]: The bits in the option field shall specify the options implemented in the transceiver. + * [Note]: SFP+/28 => SFF-8472 A0H Byte-64/65 + * QSFP+/28 => SFF-8636 00H Byte-193/195 + */ + uint8_t option[3]; + + + /* ========== Object private property ========== + */ + struct device *transvr_dev_p; + struct eeprom_map_s *eeprom_map_p; + struct i2c_client *i2c_client_p; + struct ioexp_obj_s *ioexp_obj_p; + struct transvr_worker_s *worker_p; + struct mutex lock; + char swp_name[32]; + int auto_config; + int auto_tx_disable; + int chan_id; + int chipset_type; + int curr_page; + int info; + int ioexp_virt_offset; + int lane_id[8]; + int layout; + int mode; + int retry; + int state; + int temp; + int type; + + /* ========== Object public functions ========== + */ + int (*get_id)(struct transvr_obj_s *self); + int (*get_ext_id)(struct transvr_obj_s *self); + int (*get_connector)(struct transvr_obj_s *self); + int (*get_vendor_name)(struct transvr_obj_s *self, char *buf_p); + int (*get_vendor_pn)(struct transvr_obj_s *self, char *buf_p); + int (*get_vendor_rev)(struct transvr_obj_s *self, char *buf_p); + int (*get_vendor_sn)(struct transvr_obj_s *self, char *buf_p); + int (*get_power_cls)(struct transvr_obj_s *self); + int (*get_br)(struct transvr_obj_s *self); + int (*get_len_sm)(struct transvr_obj_s *self); + int (*get_len_smf)(struct transvr_obj_s *self); + int (*get_len_om1)(struct transvr_obj_s *self); + int (*get_len_om2)(struct transvr_obj_s *self); + int (*get_len_om3)(struct transvr_obj_s *self); + int (*get_len_om4)(struct transvr_obj_s *self); + int (*get_comp_rev)(struct transvr_obj_s *self); + int (*get_comp_eth_1)(struct transvr_obj_s *self); + int (*get_comp_eth_10)(struct transvr_obj_s *self); + int (*get_comp_eth_10_40)(struct transvr_obj_s *self); + int (*get_comp_extend)(struct transvr_obj_s *self); + int (*get_cdr)(struct transvr_obj_s *self); + int (*get_rate_id)(struct transvr_obj_s *self); + int (*get_soft_rs0)(struct transvr_obj_s *self); + int (*get_soft_rs1)(struct transvr_obj_s *self); + int (*get_info)(struct transvr_obj_s *self); + int (*get_if_type)(struct transvr_obj_s *self, char *buf_p); + int (*get_if_speed)(struct transvr_obj_s *self, char *buf_p); + int (*get_if_lane)(struct transvr_obj_s *self, char *buf_p); + int (*get_curr_temp)(struct transvr_obj_s *self, char *buf_p); + int (*get_curr_vol)(struct transvr_obj_s *self, char *buf_p); + int (*get_soft_rx_los)(struct transvr_obj_s *self, char *buf_p); + int (*get_soft_tx_disable)(struct transvr_obj_s *self, char *buf_p); + int (*get_soft_tx_fault)(struct transvr_obj_s *self, char *buf_p); + int (*get_auto_tx_disable)(struct transvr_obj_s *self, char *buf_p); + int (*get_tx_bias)(struct transvr_obj_s *self, char *buf_p); + int (*get_tx_power)(struct transvr_obj_s *self, char *buf_p); + int (*get_rx_power)(struct transvr_obj_s *self, char *buf_p); + int (*get_tx_eq)(struct transvr_obj_s *self, char *buf_p); + int (*get_rx_am)(struct transvr_obj_s *self, char *buf_p); + int (*get_rx_em)(struct transvr_obj_s *self, char *buf_p); + int (*get_wavelength)(struct transvr_obj_s *self, char *buf_p); + int (*set_cdr)(struct transvr_obj_s *self, int input_val); + int (*set_soft_rs0)(struct transvr_obj_s *self, int input_val); + int (*set_soft_rs1)(struct transvr_obj_s *self, int input_val); + int (*set_soft_tx_disable)(struct transvr_obj_s *self, int input_val); + int (*set_auto_tx_disable)(struct transvr_obj_s *self, int input_val); + int (*set_tx_eq)(struct transvr_obj_s *self, int input_val); + int (*set_rx_am)(struct transvr_obj_s *self, int input_val); + int (*set_rx_em)(struct transvr_obj_s *self, int input_val); + + /* ========== Object private functions ========== + */ + int (*init)(struct transvr_obj_s *self); + int (*clean)(struct transvr_obj_s *self); + int (*check)(struct transvr_obj_s *self); + int (*update_all)(struct transvr_obj_s *self, int show_err); + int (*fsm_4_direct)(struct transvr_obj_s* self, char *caller_name); + int (*fsm_4_polling)(struct transvr_obj_s* self, char *caller_name); + int (*send_uevent)(struct transvr_obj_s* self, enum kobject_action u_action); + int (*dump_all)(struct transvr_obj_s* self); +}; + + +/* For AVL Mapping */ +struct transvr_avl_s { + char vendor_name[32]; + char vendor_pn[32]; + int (*init)(struct transvr_obj_s *self); +}; + + +/* Worker for long term task of transceiver */ +struct transvr_worker_s { + /* Task Parameter */ + struct transvr_obj_s *transvr_p; + struct transvr_worker_s *next_p; + struct transvr_worker_s *pre_p; + unsigned long trigger_time; + char func_name[64]; + int retry; + int state; + + /* Task private data */ + void *p_data; + + /* Call back function */ + int (*main_task)(struct transvr_worker_s *task); + int (*post_task)(struct transvr_worker_s *task); +}; + + +struct transvr_obj_s * +create_transvr_obj(char *swp_name, + int chan_id, + struct ioexp_obj_s *ioexp_obj_p, + int ioexp_virt_offset, + int transvr_type, + int chipset_type, + int run_mode); + +void lock_transvr_obj(struct transvr_obj_s *self); +void unlock_transvr_obj(struct transvr_obj_s *self); +int isolate_transvr_obj(struct transvr_obj_s *self); + +int resync_channel_tier_2(struct transvr_obj_s *self); + +void alarm_msg_2_user(struct transvr_obj_s *self, char *emsg); + +#endif /* TRANSCEIVER_H */ + + + + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/Makefile new file mode 100644 index 00000000..003238cf --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/Makefile @@ -0,0 +1 @@ +include $(ONL)/make/pkg.mk \ No newline at end of file diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/PKG.yml b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/PKG.yml new file mode 100644 index 00000000..276a661a --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/PKG.yml @@ -0,0 +1 @@ +!include $ONL_TEMPLATES/onlp-platform-any.yml PLATFORM=x86-64-inventec-d5264q28b ARCH=amd64 TOOLCHAIN=x86_64-linux-gnu diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/Makefile new file mode 100644 index 00000000..e7437cb2 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/Makefile @@ -0,0 +1,2 @@ +FILTER=src +include $(ONL)/make/subdirs.mk diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/lib/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/lib/Makefile new file mode 100644 index 00000000..e2588772 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/lib/Makefile @@ -0,0 +1,45 @@ +############################################################ +# +# +# Copyright 2014 BigSwitch Networks, Inc. +# +# Licensed under the Eclipse Public License, Version 1.0 (the +# "License"); you may not use this file except in compliance +# with the License. You may obtain a copy of the License at +# +# http://www.eclipse.org/legal/epl-v10.html +# +# Unless required by applicable law or agreed to in writing, +# software distributed under the License is distributed on an +# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, +# either express or implied. See the License for the specific +# language governing permissions and limitations under the +# License. +# +# +############################################################ +# +# +############################################################ +include $(ONL)/make/config.amd64.mk + +MODULE := libonlp-x86-64-inventec-d5264q28b +include $(BUILDER)/standardinit.mk + +DEPENDMODULES := AIM IOF x86_64_inventec_d5264q28b onlplib +DEPENDMODULE_HEADERS := sff + +include $(BUILDER)/dependmodules.mk + +SHAREDLIB := libonlp-x86-64-inventec-d5264q28b.so +$(SHAREDLIB)_TARGETS := $(ALL_TARGETS) +include $(BUILDER)/so.mk +.DEFAULT_GOAL := $(SHAREDLIB) + +GLOBAL_CFLAGS += -I$(onlp_BASEDIR)/module/inc +GLOBAL_CFLAGS += -DAIM_CONFIG_INCLUDE_MODULES_INIT=1 +GLOBAL_CFLAGS += -fPIC +GLOBAL_LINK_LIBS += -lpthread + +include $(BUILDER)/targets.mk + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/onlpdump/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/onlpdump/Makefile new file mode 100644 index 00000000..e6ab65e9 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/onlpdump/Makefile @@ -0,0 +1,46 @@ +############################################################ +# +# +# Copyright 2014 BigSwitch Networks, Inc. +# +# Licensed under the Eclipse Public License, Version 1.0 (the +# "License"); you may not use this file except in compliance +# with the License. You may obtain a copy of the License at +# +# http://www.eclipse.org/legal/epl-v10.html +# +# Unless required by applicable law or agreed to in writing, +# software distributed under the License is distributed on an +# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, +# either express or implied. See the License for the specific +# language governing permissions and limitations under the +# License. +# +# +############################################################ +# +# +# +############################################################ +include $(ONL)/make/config.amd64.mk + +.DEFAULT_GOAL := onlpdump + +MODULE := onlpdump +include $(BUILDER)/standardinit.mk + +DEPENDMODULES := AIM IOF onlp x86_64_inventec_d5264q28b onlplib onlp_platform_defaults sff cjson cjson_util timer_wheel OS + +include $(BUILDER)/dependmodules.mk + +BINARY := onlpdump +$(BINARY)_LIBRARIES := $(LIBRARY_TARGETS) +include $(BUILDER)/bin.mk + +GLOBAL_CFLAGS += -DAIM_CONFIG_AIM_MAIN_FUNCTION=onlpdump_main +GLOBAL_CFLAGS += -DAIM_CONFIG_INCLUDE_MODULES_INIT=1 +GLOBAL_CFLAGS += -DAIM_CONFIG_INCLUDE_MAIN=1 +GLOBAL_LINK_LIBS += -lpthread -lm + +include $(BUILDER)/targets.mk + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/.module b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/.module new file mode 100644 index 00000000..d283bbf2 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/.module @@ -0,0 +1 @@ +name: x86_64_inventec_d5264q28b diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/Makefile new file mode 100644 index 00000000..7d78a253 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/Makefile @@ -0,0 +1,9 @@ +############################################################################### +# +# +# +############################################################################### +include ../../init.mk +MODULE := x86_64_inventec_d5264q28b +AUTOMODULE := x86_64_inventec_d5264q28b +include $(BUILDER)/definemodule.mk diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/auto/make.mk b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/auto/make.mk new file mode 100644 index 00000000..53e27c6b --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/auto/make.mk @@ -0,0 +1,9 @@ +############################################################################### +# +# x86_64_inventec_d5264q28b Autogeneration +# +############################################################################### +x86_64_inventec_d5264q28b_AUTO_DEFS := module/auto/x86_64_inventec_d5264q28b.yml +x86_64_inventec_d5264q28b_AUTO_DIRS := module/inc/x86_64_inventec_d5264q28b module/src +include $(BUILDER)/auto.mk + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/auto/x86_64_inventec_d5264q28b.yml b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/auto/x86_64_inventec_d5264q28b.yml new file mode 100644 index 00000000..c1466116 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/auto/x86_64_inventec_d5264q28b.yml @@ -0,0 +1,50 @@ +############################################################################### +# +# x86_64_inventec_d5264q28b Autogeneration Definitions. +# +############################################################################### + +cdefs: &cdefs +- x86_64_inventec_d5264q28b_CONFIG_INCLUDE_LOGGING: + doc: "Include or exclude logging." + default: 1 +- x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT: + doc: "Default enabled log options." + default: AIM_LOG_OPTIONS_DEFAULT +- x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT: + doc: "Default enabled log bits." + default: AIM_LOG_BITS_DEFAULT +- x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT: + doc: "Default enabled custom log bits." + default: 0 +- x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB: + doc: "Default all porting macros to use the C standard libraries." + default: 1 +- x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS: + doc: "Include standard library headers for stdlib porting macros." + default: x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB +- x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI: + doc: "Include generic uCli support." + default: 0 +- x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEFAULT_FAN_DIRECTION: + doc: "Assume chassis fan direction is the same as the PSU fan direction." + default: 0 + + +definitions: + cdefs: + x86_64_inventec_d5264q28b_CONFIG_HEADER: + defs: *cdefs + basename: x86_64_inventec_d5264q28b_config + + portingmacro: + x86_64_inventec_d5264q28b: + macros: + - malloc + - free + - memset + - memcpy + - strncpy + - vsnprintf + - snprintf + - strlen diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b.x b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b.x new file mode 100644 index 00000000..a75d6241 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b.x @@ -0,0 +1,14 @@ +/**************************************************************************//** + * + * + * + *****************************************************************************/ +#include + +/* <--auto.start.xmacro(ALL).define> */ +/* */ + +/* <--auto.start.xenum(ALL).define> */ +/* */ + + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_config.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_config.h new file mode 100644 index 00000000..a3ee091f --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_config.h @@ -0,0 +1,137 @@ +/**************************************************************************//** + * + * @file + * @brief x86_64_inventec_d5264q28b Configuration Header + * + * @addtogroup x86_64_inventec_d5264q28b-config + * @{ + * + *****************************************************************************/ +#ifndef __x86_64_inventec_d5264q28b_CONFIG_H__ +#define __x86_64_inventec_d5264q28b_CONFIG_H__ + +#ifdef GLOBAL_INCLUDE_CUSTOM_CONFIG +#include +#endif +#ifdef x86_64_inventec_d5264q28b_INCLUDE_CUSTOM_CONFIG +#include +#endif + +/* */ +#include +/** + * x86_64_inventec_d5264q28b_CONFIG_INCLUDE_LOGGING + * + * Include or exclude logging. */ + + +#ifndef x86_64_inventec_d5264q28b_CONFIG_INCLUDE_LOGGING +#define x86_64_inventec_d5264q28b_CONFIG_INCLUDE_LOGGING 1 +#endif + +/** + * x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT + * + * Default enabled log options. */ + + +#ifndef x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT +#define x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT AIM_LOG_OPTIONS_DEFAULT +#endif + +/** + * x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT + * + * Default enabled log bits. */ + + +#ifndef x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT +#define x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT AIM_LOG_BITS_DEFAULT +#endif + +/** + * x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT + * + * Default enabled custom log bits. */ + + +#ifndef x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT +#define x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT 0 +#endif + +/** + * x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB + * + * Default all porting macros to use the C standard libraries. */ + + +#ifndef x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB +#define x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB 1 +#endif + +/** + * x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS + * + * Include standard library headers for stdlib porting macros. */ + + +#ifndef x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS +#define x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB +#endif + +/** + * x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI + * + * Include generic uCli support. */ + + +#ifndef x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI +#define x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI 0 +#endif + +/** + * x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEFAULT_FAN_DIRECTION + * + * Assume chassis fan direction is the same as the PSU fan direction. */ + + +#ifndef x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEFAULT_FAN_DIRECTION +#define x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEFAULT_FAN_DIRECTION 0 +#endif + + + +/** + * All compile time options can be queried or displayed + */ + +/** Configuration settings structure. */ +typedef struct x86_64_inventec_d5264q28b_config_settings_s { + /** name */ + const char* name; + /** value */ + const char* value; +} x86_64_inventec_d5264q28b_config_settings_t; + +/** Configuration settings table. */ +/** x86_64_inventec_d5264q28b_config_settings table. */ +extern x86_64_inventec_d5264q28b_config_settings_t x86_64_inventec_d5264q28b_config_settings[]; + +/** + * @brief Lookup a configuration setting. + * @param setting The name of the configuration option to lookup. + */ +const char* x86_64_inventec_d5264q28b_config_lookup(const char* setting); + +/** + * @brief Show the compile-time configuration. + * @param pvs The output stream. + */ +int x86_64_inventec_d5264q28b_config_show(struct aim_pvs_s* pvs); + +/* */ + +#include "x86_64_inventec_d5264q28b_porting.h" + +#endif /* __x86_64_inventec_d5264q28b_CONFIG_H__ */ +/* @} */ diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_dox.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_dox.h new file mode 100644 index 00000000..3d96784d --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_dox.h @@ -0,0 +1,26 @@ +/**************************************************************************//** + * + * x86_64_inventec_d5264q28b Doxygen Header + * + *****************************************************************************/ +#ifndef __x86_64_inventec_d5264q28b_DOX_H__ +#define __x86_64_inventec_d5264q28b_DOX_H__ + +/** + * @defgroup x86_64_inventec_d5264q28b x86_64_inventec_d5264q28b - x86_64_inventec_d5264q28b Description + * + +The documentation overview for this module should go here. + + * + * @{ + * + * @defgroup x86_64_inventec_d5264q28b-x86_64_inventec_d5264q28b Public Interface + * @defgroup x86_64_inventec_d5264q28b-config Compile Time Configuration + * @defgroup x86_64_inventec_d5264q28b-porting Porting Macros + * + * @} + * + */ + +#endif /* __x86_64_inventec_d5264q28b_DOX_H__ */ diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_porting.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_porting.h new file mode 100644 index 00000000..d243b89f --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/inc/x86_64_inventec_d5264q28b/x86_64_inventec_d5264q28b_porting.h @@ -0,0 +1,107 @@ +/**************************************************************************//** + * + * @file + * @brief x86_64_inventec_d5264q28b Porting Macros. + * + * @addtogroup x86_64_inventec_d5264q28b-porting + * @{ + * + *****************************************************************************/ +#ifndef __x86_64_inventec_d5264q28b_PORTING_H__ +#define __x86_64_inventec_d5264q28b_PORTING_H__ + + +/* */ +#if x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS == 1 +#include +#include +#include +#include +#include +#endif + +#ifndef x86_64_inventec_d5264q28b_MALLOC + #if defined(GLOBAL_MALLOC) + #define x86_64_inventec_d5264q28b_MALLOC GLOBAL_MALLOC + #elif x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB == 1 + #define x86_64_inventec_d5264q28b_MALLOC malloc + #else + #error The macro x86_64_inventec_d5264q28b_MALLOC is required but cannot be defined. + #endif +#endif + +#ifndef x86_64_inventec_d5264q28b_FREE + #if defined(GLOBAL_FREE) + #define x86_64_inventec_d5264q28b_FREE GLOBAL_FREE + #elif x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB == 1 + #define x86_64_inventec_d5264q28b_FREE free + #else + #error The macro x86_64_inventec_d5264q28b_FREE is required but cannot be defined. + #endif +#endif + +#ifndef x86_64_inventec_d5264q28b_MEMSET + #if defined(GLOBAL_MEMSET) + #define x86_64_inventec_d5264q28b_MEMSET GLOBAL_MEMSET + #elif x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB == 1 + #define x86_64_inventec_d5264q28b_MEMSET memset + #else + #error The macro x86_64_inventec_d5264q28b_MEMSET is required but cannot be defined. + #endif +#endif + +#ifndef x86_64_inventec_d5264q28b_MEMCPY + #if defined(GLOBAL_MEMCPY) + #define x86_64_inventec_d5264q28b_MEMCPY GLOBAL_MEMCPY + #elif x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB == 1 + #define x86_64_inventec_d5264q28b_MEMCPY memcpy + #else + #error The macro x86_64_inventec_d5264q28b_MEMCPY is required but cannot be defined. + #endif +#endif + +#ifndef x86_64_inventec_d5264q28b_STRNCPY + #if defined(GLOBAL_STRNCPY) + #define x86_64_inventec_d5264q28b_STRNCPY GLOBAL_STRNCPY + #elif x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB == 1 + #define x86_64_inventec_d5264q28b_STRNCPY strncpy + #else + #error The macro x86_64_inventec_d5264q28b_STRNCPY is required but cannot be defined. + #endif +#endif + +#ifndef x86_64_inventec_d5264q28b_VSNPRINTF + #if defined(GLOBAL_VSNPRINTF) + #define x86_64_inventec_d5264q28b_VSNPRINTF GLOBAL_VSNPRINTF + #elif x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB == 1 + #define x86_64_inventec_d5264q28b_VSNPRINTF vsnprintf + #else + #error The macro x86_64_inventec_d5264q28b_VSNPRINTF is required but cannot be defined. + #endif +#endif + +#ifndef x86_64_inventec_d5264q28b_SNPRINTF + #if defined(GLOBAL_SNPRINTF) + #define x86_64_inventec_d5264q28b_SNPRINTF GLOBAL_SNPRINTF + #elif x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB == 1 + #define x86_64_inventec_d5264q28b_SNPRINTF snprintf + #else + #error The macro x86_64_inventec_d5264q28b_SNPRINTF is required but cannot be defined. + #endif +#endif + +#ifndef x86_64_inventec_d5264q28b_STRLEN + #if defined(GLOBAL_STRLEN) + #define x86_64_inventec_d5264q28b_STRLEN GLOBAL_STRLEN + #elif x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB == 1 + #define x86_64_inventec_d5264q28b_STRLEN strlen + #else + #error The macro x86_64_inventec_d5264q28b_STRLEN is required but cannot be defined. + #endif +#endif + +/* */ + + +#endif /* __x86_64_inventec_d5264q28b_PORTING_H__ */ +/* @} */ diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/make.mk b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/make.mk new file mode 100644 index 00000000..c828753b --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/make.mk @@ -0,0 +1,10 @@ +############################################################################### +# +# +# +############################################################################### +THIS_DIR := $(dir $(lastword $(MAKEFILE_LIST))) +x86_64_inventec_d5264q28b_INCLUDES := -I $(THIS_DIR)inc +x86_64_inventec_d5264q28b_INTERNAL_INCLUDES := -I $(THIS_DIR)src +x86_64_inventec_d5264q28b_DEPENDMODULE_ENTRIES := init:x86_64_inventec_d5264q28b ucli:x86_64_inventec_d5264q28b + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/Makefile new file mode 100644 index 00000000..2614feee --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/Makefile @@ -0,0 +1,9 @@ +############################################################################### +# +# Local source generation targets. +# +############################################################################### + +ucli: + @../../../../tools/uclihandlers.py x86_64_inventec_d5264q28b_ucli.c + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/debug.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/debug.c new file mode 100644 index 00000000..e72ef0b6 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/debug.c @@ -0,0 +1,45 @@ +#include "x86_64_inventec_d5264q28b_int.h" + +#if x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEBUG == 1 + +#include + +static char help__[] = + "Usage: debug [options]\n" + " -c CPLD Versions\n" + " -h Help\n" + ; + +int +x86_64_inventec_d5264q28b_debug_main(int argc, char* argv[]) +{ + int c = 0; + int help = 0; + int rv = 0; + + while( (c = getopt(argc, argv, "ch")) != -1) { + switch(c) + { + case 'c': c = 1; break; + case 'h': help = 1; rv = 0; break; + default: help = 1; rv = 1; break; + } + + } + + if(help || argc == 1) { + printf("%s", help__); + return rv; + } + + if(c) { + printf("Not implemented.\n"); + } + + + return 0; +} + +#endif + + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/fani.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/fani.c new file mode 100644 index 00000000..bc6a0bbd --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/fani.c @@ -0,0 +1,398 @@ +/************************************************************ + * + * + * Copyright 2014 Big Switch Networks, Inc. + * Copyright 2014 Accton Technology Corporation. + * + * Licensed under the Eclipse Public License, Version 1.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.eclipse.org/legal/epl-v10.html + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, + * either express or implied. See the License for the specific + * language governing permissions and limitations under the + * License. + * + * + ************************************************************ + * + * Fan Platform Implementation Defaults. + * + ***********************************************************/ +#include +#include +#include +#include +#include +#include "platform_lib.h" + +#define VALIDATE(_id) \ + do { \ + if(!ONLP_OID_IS_FAN(_id)) { \ + return ONLP_STATUS_E_INVALID; \ + } \ + } while(0) + + +#define SLOW_PWM 100 +#define NORMAL_PWM 175 +#define MAX_PWM 255 +#define STEP_SIZE 100 +#define FAN_ON_MAIN_BOARD_COUNT 4 +#define LOCAL_ID_TO_PSU_ID(id) (id-FAN_ON_MAIN_BOARD_COUNT) + +#define FAN_CAPS ONLP_FAN_CAPS_GET_RPM|ONLP_FAN_CAPS_GET_PERCENTAGE + +static int _fani_status_failed_check(uint32_t* status, int local_id); +static int _fani_status_present_check(uint32_t* status, int local_id); + +#define MAKE_FAN_INFO_NODE_ON_FAN_BOARD(id) \ + { \ + { \ + ONLP_FAN_ID_CREATE(ONLP_FAN_##id), "Fan "#id, 0, \ + { \ + ONLP_LED_ID_CREATE(ONLP_LED_FAN##id), \ + } \ + }, \ + 0, 0 \ + } + +#define MAKE_FAN_INFO_NODE_ON_PSU(psu_id) \ + { \ + { ONLP_FAN_ID_CREATE(ONLP_FAN_PSU_##psu_id), "PSU-"#psu_id" Fan", ONLP_PSU_ID_CREATE(ONLP_PSU_##psu_id)}, \ + 0, 0 \ + } + + +/* Static values */ +static onlp_fan_info_t __onlp_fan_info[ONLP_FAN_COUNT] = { + MAKE_FAN_INFO_NODE_ON_FAN_BOARD(1), + MAKE_FAN_INFO_NODE_ON_FAN_BOARD(2), + MAKE_FAN_INFO_NODE_ON_FAN_BOARD(3), + MAKE_FAN_INFO_NODE_ON_FAN_BOARD(4), + MAKE_FAN_INFO_NODE_ON_PSU(1), + MAKE_FAN_INFO_NODE_ON_PSU(2), +}; + + +/* + * This function will be called prior to all of onlp_fani_* functions. + */ +int +onlp_fani_init(void) +{ + return ONLP_STATUS_OK; +} + +int +onlp_fani_info_get(onlp_oid_t id, onlp_fan_info_t* info) +{ + int rv = ONLP_STATUS_OK; + int local_id; + int lrpm, rrpm, pwm, psu_id; + VALIDATE(id); + pwm = 0; + + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_FAN_MAX) { + rv = ONLP_STATUS_E_INVALID; + } + if(rv ==ONLP_STATUS_OK) { + *info = __onlp_fan_info[LOCAL_ID_TO_INFO_IDX(local_id)]; + rv = onlp_fani_status_get(id, &info->status); + } + + if(rv == ONLP_STATUS_OK) { + if(info->status & ONLP_FAN_STATUS_PRESENT){ + switch(local_id){ + case ONLP_FAN_1: + case ONLP_FAN_2: + case ONLP_FAN_3: + case ONLP_FAN_4: + if(info->status & ONLP_FAN_STATUS_F2B){ + info->caps = FAN_CAPS|ONLP_FAN_CAPS_F2B; + }else if(info->status & ONLP_FAN_STATUS_B2F){ + info->caps = FAN_CAPS|ONLP_FAN_CAPS_B2F; + }else{ + info->caps = FAN_CAPS; + } + + rv = onlp_file_read_int(&lrpm, INV_HWMON_PREFIX"fan%d_input", local_id*2-1); + if(rv != ONLP_STATUS_OK ){ return rv; } + rv = onlp_file_read_int(&rrpm, INV_HWMON_PREFIX"fan%d_input", local_id*2); + if(rv != ONLP_STATUS_OK ){ return rv; } + rv = onlp_file_read_int(&pwm,INV_HWMON_PREFIX"pwm%d", local_id); + if(rv != ONLP_STATUS_OK ){ return rv; } + + if(lrpm <=0 && rrpm <=0){ + info->rpm = 0; + }else if(lrpm <= 0){ + info->rpm = rrpm; + }else if(rrpm <= 0){ + info->rpm = lrpm; + }else{ + info->rpm = (lrpm+rrpm)/2; + } + + break; + case ONLP_FAN_PSU_1: + case ONLP_FAN_PSU_2: + info->caps = FAN_CAPS|ONLP_FAN_CAPS_F2B; + psu_id = LOCAL_ID_TO_PSU_ID(local_id); + rv = onlp_file_read_int(&info->rpm,INV_HWMON_PREFIX"rpm_psu%d", psu_id); + if(rv != ONLP_STATUS_OK) { return rv; } + rv = onlp_file_read_int(&pwm, INV_HWMON_PREFIX"pwm_psu%d", psu_id); + if(rv != ONLP_STATUS_OK) { return rv; } + break; + default: + rv = ONLP_STATUS_E_INVALID; + break; + } + if(rv == ONLP_STATUS_OK) { + if(info->rpm <= 0) { + info->mode = ONLP_FAN_MODE_OFF; + info->percentage = 0; + } else { + info->percentage = (pwm*100)/MAX_PWM; + if(pwm < SLOW_PWM) { + info->mode = ONLP_FAN_MODE_SLOW; + } else if(pwm < NORMAL_PWM) { + info->mode = ONLP_FAN_MODE_NORMAL; + } else if(pwm < MAX_PWM) { + info->mode = ONLP_FAN_MODE_FAST; + } else { + info->mode = ONLP_FAN_MODE_MAX; + } + } + } + }else{ + info->caps = 0; + info->rpm = 0; + info->percentage = 0; + info->mode = ONLP_FAN_MODE_OFF; + } + snprintf(info->model, ONLP_CONFIG_INFO_STR_MAX, "NA"); + snprintf(info->serial, ONLP_CONFIG_INFO_STR_MAX, "NA"); + } + return rv; +} +static int _fani_status_failed_check(uint32_t* status, int local_id) +{ + int rv; + int lrpm, rrpm, rpm, pwm, psu_id; + switch(local_id){ + case ONLP_FAN_1: + case ONLP_FAN_2: + case ONLP_FAN_3: + case ONLP_FAN_4: + rv = onlp_file_read_int(&lrpm, INV_HWMON_PREFIX"fan%d_input", local_id*2-1); + if(rv != ONLP_STATUS_OK ){ return rv; } + rv = onlp_file_read_int(&rrpm, INV_HWMON_PREFIX"fan%d_input", local_id*2); + if(rv != ONLP_STATUS_OK ){ return rv; } + rv = onlp_file_read_int(&pwm,INV_HWMON_PREFIX"pwm%d", local_id); + if(rv != ONLP_STATUS_OK ){ return rv; } + + if( lrpm <= 0 || rrpm <=0 || pwm <=0 || pwm > MAX_PWM){ + *status |= ONLP_FAN_STATUS_FAILED; + *status &= (~ONLP_FAN_STATUS_B2F); + *status &= (~ONLP_FAN_STATUS_F2B); + }else{ + *status &= (~ONLP_FAN_STATUS_FAILED); + } + break; + case ONLP_FAN_PSU_1: + case ONLP_FAN_PSU_2: + psu_id = LOCAL_ID_TO_PSU_ID(local_id); + rv = onlp_file_read_int(&rpm, INV_HWMON_PREFIX"rpm_psu%d", psu_id); + if(rv != ONLP_STATUS_OK ){ return rv; } + rv = onlp_file_read_int(&pwm, INV_HWMON_PREFIX"pwm_psu%d", psu_id); + if(rv != ONLP_STATUS_OK ){ return rv; } + + if( rpm <= 0 || pwm <=0 || pwm > MAX_PWM){ + *status |= ONLP_FAN_STATUS_FAILED; + *status &= (~ONLP_FAN_STATUS_B2F); + *status &= (~ONLP_FAN_STATUS_F2B); + }else{ + *status &= (~ONLP_FAN_STATUS_FAILED); + } + break; + default: + rv = ONLP_STATUS_E_INVALID; + break; + } + return rv; +} + +static int _fani_status_present_check(uint32_t* status, int local_id) +{ + int rv; + int gpi; + int info_idx; + int len; + char buf[ONLP_CONFIG_INFO_STR_MAX]; + info_idx = LOCAL_ID_TO_INFO_IDX(local_id); + rv = onlp_file_read((uint8_t*)buf,ONLP_CONFIG_INFO_STR_MAX, &len, INV_HWMON_PREFIX"fan_gpi"); + if( rv == ONLP_STATUS_OK ){ + sscanf( buf, "0x%x\n", &gpi); + /* B[0-3] installed(0)/uninstalled(1) + B[4-7] FRtype(0)/RFtype(1) */ + if (!((gpi>>info_idx) & 1)){ + *status |= ONLP_FAN_STATUS_PRESENT; + if (!((gpi>>(info_idx+4)) & 1)){ + *status |= ONLP_FAN_STATUS_F2B; + }else{ + *status |= ONLP_FAN_STATUS_B2F; + } + } else { + *status = 0; + } + } + return rv; +} + + +/** + * @brief Retrieve the fan's operational status. + * @param id The fan OID. + * @param rv [out] Receives the fan's operations status flags. + * @notes Only operational state needs to be returned - + * PRESENT/FAILED + */ +int onlp_fani_status_get(onlp_oid_t id, uint32_t* rv) +{ + int result = ONLP_STATUS_OK; + onlp_fan_info_t* info; + int local_id; + VALIDATE(id); + uint32_t psu_status; + + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_FAN_MAX) { + result = ONLP_STATUS_E_INVALID; + } else { + info = &__onlp_fan_info[LOCAL_ID_TO_INFO_IDX(local_id)]; + switch(local_id){ + case ONLP_FAN_1: + case ONLP_FAN_2: + case ONLP_FAN_3: + case ONLP_FAN_4: + result = _fani_status_present_check(&info->status, local_id); + if (result == ONLP_STATUS_OK ){ + if (info->status & ONLP_FAN_STATUS_PRESENT){ + result = _fani_status_failed_check(&info->status, local_id); + } + } + break; + case ONLP_FAN_PSU_1: + case ONLP_FAN_PSU_2: + result = onlp_psui_status_get((&info->hdr)->poid, &psu_status); + if(result != ONLP_STATUS_OK){ return result; } + + if(psu_status & ONLP_PSU_STATUS_PRESENT){ + info->status |= ONLP_FAN_STATUS_PRESENT; + result = _fani_status_failed_check(&info->status, local_id); + }else{ + info->status = 0; + } + break; + default: + result = ONLP_STATUS_E_INVALID; + break; + } + *rv = info->status; + } + return result; +} + +/** + * @brief Retrieve the fan's OID hdr. + * @param id The fan OID. + * @param rv [out] Receives the OID header. + */ +int onlp_fani_hdr_get(onlp_oid_t id, onlp_oid_hdr_t* hdr) +{ + int result = ONLP_STATUS_OK; + onlp_fan_info_t* info; + int local_id; + VALIDATE(id); + + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_FAN_MAX) { + result = ONLP_STATUS_E_INVALID; + } else { + info = &__onlp_fan_info[LOCAL_ID_TO_INFO_IDX(local_id)]; + *hdr = info->hdr; + } + return result; +} + + +/* + * This function sets the speed of the given fan in RPM. + * + * This function will only be called if the fan supprots the RPM_SET + * capability. + * + * It is optional if you have no fans at all with this feature. + */ +int +onlp_fani_rpm_set(onlp_oid_t id, int rpm) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + +/* + * This function sets the fan speed of the given OID as a percentage. + * + * This will only be called if the OID has the PERCENTAGE_SET + * capability. + * + * It is optional if you have no fans at all with this feature. + */ +int +onlp_fani_percentage_set(onlp_oid_t id, int p) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + + +/* + * This function sets the fan speed of the given OID as per + * the predefined ONLP fan speed modes: off, slow, normal, fast, max. + * + * Interpretation of these modes is up to the platform. + * + */ +int +onlp_fani_mode_set(onlp_oid_t id, onlp_fan_mode_t mode) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + +/* + * This function sets the fan direction of the given OID. + * + * This function is only relevant if the fan OID supports both direction + * capabilities. + * + * This function is optional unless the functionality is available. + */ +int +onlp_fani_dir_set(onlp_oid_t id, onlp_fan_dir_t dir) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + +/* + * Generic fan ioctl. Optional. + */ +int +onlp_fani_ioctl(onlp_oid_t id, va_list vargs) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/ledi.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/ledi.c new file mode 100644 index 00000000..bda4629c --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/ledi.c @@ -0,0 +1,441 @@ +/************************************************************ + * + * + * Copyright 2014 Big Switch Networks, Inc. + * Copyright 2014 Accton Technology Corporation. + * + * Licensed under the Eclipse Public License, Version 1.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.eclipse.org/legal/epl-v10.html + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, + * either express or implied. See the License for the specific + * language governing permissions and limitations under the + * License. + * + * + ************************************************************ + * + * + * + ***********************************************************/ +#include +#include +#include +#include +#include +#include +#include + +#include "platform_lib.h" + +#define VALIDATE(_id) \ + do { \ + if(!ONLP_OID_IS_LED(_id)) { \ + return ONLP_STATUS_E_INVALID; \ + } \ + } while(0) + +/* LED related data + */ + +/* CAPS*/ +#define SYS_LED_CAPS ONLP_LED_CAPS_ON_OFF|ONLP_LED_CAPS_GREEN|ONLP_LED_CAPS_GREEN_BLINKING|ONLP_LED_CAPS_RED|ONLP_LED_CAPS_RED_BLINKING +#define FAN_LED_CAPS ONLP_LED_CAPS_RED|ONLP_LED_CAPS_GREEN + +#define LOCAL_ID_TO_FAN_ID(id) (id-1) + +typedef enum sys_led_mode_e { + SYS_LED_MODE_OFF = 0, + SYS_LED_MODE_0_5_HZ = 1, + SYS_LED_MODE_1_HZ = 2, + SYS_LED_MODE_2_HZ = 3, + SYS_LED_MODE_ON = 7 +} sys_led_mode_t; + +/* function declarations*/ +static int _sys_onlp_led_mode_convert(sys_led_mode_t grn_mode, sys_led_mode_t red_mode, onlp_led_mode_t* pmode); +static int _sys_onlp_ledi_info_get(onlp_oid_t id, onlp_led_info_t* info); +static int _fan_onlp_ledi_info_get(onlp_oid_t id, onlp_led_info_t* info); +static int _sys_onlp_ledi_mode_set(onlp_led_mode_t onlp_mode); + +/* + * Get the information for the given LED OID. + */ +#define MAKE_MGMT_LED_INFO_NODE \ + { \ + { ONLP_LED_ID_CREATE(ONLP_LED_MGMT), "MGMT LED" , 0 }, \ + ONLP_LED_STATUS_PRESENT, \ + SYS_LED_CAPS, \ + } + +#define MAKE_LED_INFO_NODE_ON_FAN(fan_id) \ + { \ + { ONLP_LED_ID_CREATE(ONLP_LED_FAN##fan_id), \ + "FAN LED "#fan_id, \ + ONLP_FAN_ID_CREATE(ONLP_FAN_##fan_id) \ + }, \ + 0, \ + 0, \ + } + +static onlp_led_info_t __onlp_led_info[ONLP_LED_COUNT] = { + MAKE_MGMT_LED_INFO_NODE, + MAKE_LED_INFO_NODE_ON_FAN(1), + MAKE_LED_INFO_NODE_ON_FAN(2), + MAKE_LED_INFO_NODE_ON_FAN(3), + MAKE_LED_INFO_NODE_ON_FAN(4), +}; + + + +/* convert platform led type to onlp_led_mode type*/ +static int _sys_onlp_led_mode_convert(sys_led_mode_t grn_mode, sys_led_mode_t red_mode, onlp_led_mode_t* pmode) +{ + int rv = ONLP_STATUS_OK; + *pmode = ONLP_LED_MODE_OFF; + + switch(grn_mode) { + case SYS_LED_MODE_0_5_HZ: + case SYS_LED_MODE_1_HZ: + case SYS_LED_MODE_2_HZ: + *pmode = ONLP_LED_MODE_GREEN_BLINKING; + break; + case SYS_LED_MODE_ON: + *pmode = ONLP_LED_MODE_GREEN; + break; + case SYS_LED_MODE_OFF: + *pmode = ONLP_LED_MODE_OFF; + break; + default: + return ONLP_STATUS_E_INVALID; + break; + } + switch(red_mode) { + case SYS_LED_MODE_0_5_HZ: + case SYS_LED_MODE_1_HZ: + case SYS_LED_MODE_2_HZ: + if(grn_mode == SYS_LED_MODE_OFF){ + *pmode = ONLP_LED_MODE_RED_BLINKING; + }else{ + return ONLP_STATUS_E_INVALID; + } + break; + case SYS_LED_MODE_ON: + if(grn_mode == SYS_LED_MODE_OFF){ + *pmode = ONLP_LED_MODE_RED; + }else{ + return ONLP_STATUS_E_INVALID; + } + break; + case SYS_LED_MODE_OFF: + if(grn_mode == SYS_LED_MODE_OFF){ + *pmode = ONLP_LED_MODE_OFF; + } + break; + default: + return ONLP_STATUS_E_INVALID; + break; + } + return rv; +} + + +static int _sys_onlp_ledi_info_get(onlp_oid_t id, onlp_led_info_t* info) +{ + int local_id; + int rv = ONLP_STATUS_OK; + sys_led_mode_t grn_mode, red_mode; + local_id = ONLP_OID_ID_GET(id); + int idx = LOCAL_ID_TO_INFO_IDX(local_id); + /* Set the onlp_oid_hdr_t and capabilities */ + *info = __onlp_led_info[idx]; + + rv = onlp_file_read_int((int*)&grn_mode, INV_SYSLED_PREFIX"grn_led"); + if(rv != ONLP_STATUS_OK){ return rv; } + rv = onlp_file_read_int((int*)&red_mode, INV_SYSLED_PREFIX"red_led"); + if(rv != ONLP_STATUS_OK){ return rv; } + + rv = _sys_onlp_led_mode_convert(grn_mode, red_mode, &info->mode); + if(rv != ONLP_STATUS_OK){ return rv; } + + /* Set the on/off status */ + if (info->mode != ONLP_LED_MODE_OFF) { + info->status |= ONLP_LED_STATUS_ON; + } else { + info->status &= (~ONLP_LED_STATUS_ON); + } + + + return rv; +} + +static int _fan_onlp_ledi_info_get(onlp_oid_t id, onlp_led_info_t* info) +{ + int local_id; + int rv = ONLP_STATUS_OK; + int grn_mode, red_mode; + + local_id = ONLP_OID_ID_GET(id); + int fan_id = LOCAL_ID_TO_FAN_ID(local_id); + int idx = LOCAL_ID_TO_INFO_IDX(local_id); + /* Set the onlp_oid_hdr_t and capabilities */ + *info = __onlp_led_info[idx]; + + rv = onlp_ledi_status_get(id, &info->status); + if( rv != ONLP_STATUS_OK ){ return rv; } + + if( info->status & ONLP_LED_STATUS_PRESENT){ + info->caps = FAN_LED_CAPS; + rv = onlp_file_read_int((int*)&grn_mode, INV_HWMON_PREFIX"fan_led_grn%d", fan_id); + if(rv != ONLP_STATUS_OK ){ return rv; } + rv = onlp_file_read_int((int*)&red_mode, INV_HWMON_PREFIX"fan_led_red%d", fan_id); + if(rv != ONLP_STATUS_OK ){ return rv; } + + if(grn_mode == 1 && red_mode == 0){ + info->mode = ONLP_LED_MODE_GREEN; + }else if(grn_mode == 0 && red_mode == 1){ + info->mode = ONLP_LED_MODE_RED; + }else if(grn_mode == 0 && red_mode == 0){ + info->mode = ONLP_LED_MODE_OFF; + }else{ + rv = ONLP_STATUS_E_INVALID; + } + }else{ + info->mode = ONLP_LED_MODE_OFF; + } + return rv; +} + +static int _sys_onlp_ledi_mode_set(onlp_led_mode_t onlp_mode) +{ + int rv = ONLP_STATUS_OK; + + if( onlp_mode == ONLP_LED_MODE_OFF){ + rv = onlp_file_write_int(SYS_LED_MODE_OFF, INV_SYSLED_PREFIX"grn_led"); + if(rv != ONLP_STATUS_OK ){ return rv; } + rv = onlp_file_write_int(SYS_LED_MODE_OFF, INV_SYSLED_PREFIX"red_led"); + }else{ + rv = ONLP_STATUS_E_UNSUPPORTED; + } + return rv; +} + + + +/* + * This function will be called prior to any other onlp_ledi_* functions. + */ +int +onlp_ledi_init(void) +{ + return ONLP_STATUS_OK; +} + +int +onlp_ledi_info_get(onlp_oid_t id, onlp_led_info_t* info) +{ + int rv = ONLP_STATUS_OK; + VALIDATE(id); + int local_id; + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_LED_MAX) { + return ONLP_STATUS_E_INVALID; + } + + switch(local_id) { + case ONLP_LED_MGMT: + rv = _sys_onlp_ledi_info_get(id, info); + break; + case ONLP_LED_FAN1: + case ONLP_LED_FAN2: + case ONLP_LED_FAN3: + case ONLP_LED_FAN4: + rv = _fan_onlp_ledi_info_get(id, info); + break; + default: + rv = ONLP_STATUS_E_INVALID; + break; + } + return rv; +} + +/** + * @brief Get the LED operational status. + * @param id The LED OID + * @param rv [out] Receives the operational status. + */ +int onlp_ledi_status_get(onlp_oid_t id, uint32_t* rv) +{ + int result = ONLP_STATUS_OK; + onlp_led_info_t* info; + + VALIDATE(id); + int local_id = ONLP_OID_ID_GET(id); + int info_idx = LOCAL_ID_TO_INFO_IDX(local_id); + int fan_id = LOCAL_ID_TO_FAN_ID(local_id); + int mode, grn_mode, red_mode; + onlp_led_mode_t pmode; + uint32_t fan_status; + + if(local_id >= ONLP_LED_MAX) { + result = ONLP_STATUS_E_INVALID; + } + if(result == ONLP_STATUS_OK) { + info = &__onlp_led_info[info_idx]; + switch(local_id) { + case ONLP_LED_MGMT: + result = onlp_file_read_int((int*)&grn_mode, INV_SYSLED_PREFIX"grn_led"); + if(result != ONLP_STATUS_OK){ return result; } + result = onlp_file_read_int((int*)&red_mode, INV_SYSLED_PREFIX"red_led"); + if(result != ONLP_STATUS_OK){ return result; } + + result = _sys_onlp_led_mode_convert(grn_mode, red_mode, &pmode); + if(result != ONLP_STATUS_OK){ return result; } + + if( pmode != ONLP_LED_MODE_OFF){ + info->status |= ONLP_LED_STATUS_ON; + }else{ + info->status &= (~ONLP_LED_STATUS_ON); + } + + *rv = info->status; + break; + case ONLP_LED_FAN1: + case ONLP_LED_FAN2: + case ONLP_LED_FAN3: + case ONLP_LED_FAN4: + result = onlp_fani_status_get((&info->hdr)->poid, &fan_status); + if(result != ONLP_STATUS_OK){ return result; } + + if(fan_status & ONLP_FAN_STATUS_PRESENT){ + info->status |= ONLP_LED_STATUS_PRESENT; + info->status &= (~ONLP_LED_STATUS_ON); + + result = onlp_file_read_int((int*)&mode, INV_HWMON_PREFIX"fan_led_grn%d", fan_id); + if(result != ONLP_STATUS_OK){ return result; } + if(mode){ + info->status |= ONLP_LED_STATUS_ON; + } + + result = onlp_file_read_int((int*)&mode, INV_HWMON_PREFIX"fan_led_red%d", fan_id); + if(result != ONLP_STATUS_OK){ return result; } + if(mode){ + info->status |= ONLP_LED_STATUS_ON; + } + } else { + info->status = 0; + } + *rv = info->status; + break; + default: + result = ONLP_STATUS_E_INVALID; + break; + } + } + + return result; +} + +/** + * @brief Get the LED header. + * @param id The LED OID + * @param rv [out] Receives the header. + */ +int onlp_ledi_hdr_get(onlp_oid_t id, onlp_oid_hdr_t* rv) +{ + int result = ONLP_STATUS_OK; + onlp_led_info_t* info; + + VALIDATE(id); + + int local_id; + local_id = ONLP_OID_ID_GET(id); + int idx = LOCAL_ID_TO_INFO_IDX(local_id); + if(local_id >= ONLP_LED_MAX) { + result = ONLP_STATUS_E_INVALID; + } else { + info = &__onlp_led_info[idx]; + *rv = info->hdr; + } + return result; +} + +/* + * Turn an LED on or off. + * + * This function will only be called if the LED OID supports the ONOFF + * capability. + * + * What 'on' means in terms of colors or modes for multimode LEDs is + * up to the platform to decide. This is intended as baseline toggle mechanism. + */ +int +onlp_ledi_set(onlp_oid_t id, int on_or_off) +{ + onlp_led_mode_t mode; + VALIDATE(id); + int local_id; + local_id = ONLP_OID_ID_GET(id); + int idx = LOCAL_ID_TO_INFO_IDX(local_id); + + if(local_id >= ONLP_LED_MAX) { + return ONLP_STATUS_E_INVALID; + } + + if (__onlp_led_info[idx].caps & ONLP_LED_CAPS_ON_OFF) { + mode = on_or_off?ONLP_LED_MODE_ON:ONLP_LED_MODE_OFF; + return onlp_ledi_mode_set(id, mode); + } + + return ONLP_STATUS_E_UNSUPPORTED; +} + +/* + * This function puts the LED into the given mode. It is a more functional + * interface for multimode LEDs. + * + * Only modes reported in the LED's capabilities will be attempted. + */ +int +onlp_ledi_mode_set(onlp_oid_t id, onlp_led_mode_t mode) +{ + int rv = ONLP_STATUS_OK; + VALIDATE(id); + int local_id; + local_id = ONLP_OID_ID_GET(id); + + if(local_id >= ONLP_LED_MAX) { + return ONLP_STATUS_E_INVALID; + } + switch(local_id) { + case ONLP_LED_MGMT: + rv = _sys_onlp_ledi_mode_set(mode); + break; + case ONLP_LED_FAN1: + case ONLP_LED_FAN2: + case ONLP_LED_FAN3: + case ONLP_LED_FAN4: + rv = ONLP_STATUS_E_UNSUPPORTED; + break; + default: + rv = ONLP_STATUS_E_INVALID; + break; + } + + return rv; +} + +/* + * Generic LED ioctl interface. + */ +int +onlp_ledi_ioctl(onlp_oid_t id, va_list vargs) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/make.mk b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/make.mk new file mode 100644 index 00000000..5db38681 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/make.mk @@ -0,0 +1,9 @@ +############################################################################### +# +# +# +############################################################################### + +LIBRARY := x86_64_inventec_d5264q28b +$(LIBRARY)_SUBDIR := $(dir $(lastword $(MAKEFILE_LIST))) +include $(BUILDER)/lib.mk diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/platform_lib.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/platform_lib.c new file mode 100644 index 00000000..bb04678b --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/platform_lib.c @@ -0,0 +1,50 @@ +/************************************************************ + * + * + * Copyright 2014 Big Switch Networks, Inc. + * Copyright 2014 Accton Technology Corporation. + * + * Licensed under the Eclipse Public License, Version 1.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.eclipse.org/legal/epl-v10.html + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, + * either express or implied. See the License for the specific + * language governing permissions and limitations under the + * License. + * + * + ************************************************************ + * + * + * + ***********************************************************/ +#include +#include +#include +#include +#include +#include +#include +#include +#include "platform_lib.h" + + +int platform_hwmon_diag_enable_read(int *enable) +{ + int rv = ONLP_STATUS_OK; + rv = onlp_file_read_int((int*)enable, INV_HWMON_PREFIX"diag"); + return rv; +} + + +int platform_hwmon_diag_enable_write(int enable) +{ + int rv = ONLP_STATUS_OK; + rv = onlp_file_write_int(enable, INV_HWMON_PREFIX"diag"); + return rv; +} diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/platform_lib.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/platform_lib.h new file mode 100644 index 00000000..a3405d8c --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/platform_lib.h @@ -0,0 +1,138 @@ +/************************************************************ + * + * + * Copyright 2014 Big Switch Networks, Inc. + * Copyright 2014 Accton Technology Corporation. + * + * Licensed under the Eclipse Public License, Version 1.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.eclipse.org/legal/epl-v10.html + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, + * either express or implied. See the License for the specific + * language governing permissions and limitations under the + * License. + * + * + ************************************************************ + * + * + * + ***********************************************************/ +#ifndef __PLATFORM_LIB_H__ +#define __PLATFORM_LIB_H__ + +#include "x86_64_inventec_d5264q28b_log.h" + +/* This is definitions for x86-64-inventec-d5264q28b*/ +/* OID map*/ +/* + * SYS---------ONLP_THERMAL_CPU_PHY + * |----ONLP_THERMAL_CPU_CORE0 + * |----ONLP_THERMAL_CPU_CORE1 + * |----ONLP_THERMAL_CPU_CORE2 + * |----ONLP_THERMAL_CPU_CORE3 + * |----ONLP_THERMAL_1_ON_MAIN_BROAD + * |----ONLP_THERMAL_2_ON_MAIN_BROAD + * |----ONLP_THERMAL_3_ON_MAIN_BROAD + * |----ONLP_THERMAL_4_ON_MAIN_BROAD + * |----ONLP_THERMAL_5_ON_MAIN_BROAD + * |----ONLP_FAN_1--------ONLP_LED_FAN1 + * | + * |----ONLP_FAN_2--------ONLP_LED_FAN2 + * | + * |----ONLP_FAN_3--------ONLP_LED_FAN3 + * | + * |----ONLP_FAN_4--------ONLP_LED_FAN4 + * | + * |----ONLP_PSU_1--------ONLP_THERMAL_1_ON_PSU1 + * | |--ONLP_THERMAL_2_ON_PSU1 + * | |--ONLP_FAN_PSU_1 + * | + * |----ONLP_PSU_2--------ONLP_THERMAL_1_ON_PSU2 + * | |--ONLP_THERMAL_2_ON_PSU2 + * | |--ONLP_FAN_PSU_2 + * | + * |----ONLP_LED_MGMT + */ + +#define INV_SYSLED_PREFIX "/sys/class/hwmon/hwmon2/device/" +#define INV_HWMON_PREFIX "/sys/class/hwmon/hwmon1/device/" +#define INV_CTMP_PREFIX "/sys/class/hwmon/hwmon0/" +#define INV_SFP_PREFIX "/sys/class/swps/" +#define INV_SYS_PREFIX "/sys/class/eeprom/vpd/" + +#define OID_MAP_TO_INFO_IDX(oid) ONLP_OID_ID_GET(oid)-1 +#define LOCAL_ID_TO_INFO_IDX(id) (id-1) + +/* Thermal definitions*/ +enum onlp_thermal_id { + ONLP_THERMAL_CPU_PHY = 1, + ONLP_THERMAL_CPU_CORE0, + ONLP_THERMAL_CPU_CORE1, + ONLP_THERMAL_CPU_CORE2, + ONLP_THERMAL_CPU_CORE3, + ONLP_THERMAL_1_ON_MAIN_BROAD, + ONLP_THERMAL_2_ON_MAIN_BROAD, + ONLP_THERMAL_3_ON_MAIN_BROAD, + ONLP_THERMAL_4_ON_MAIN_BROAD, + ONLP_THERMAL_5_ON_MAIN_BROAD, + ONLP_THERMAL_1_ON_PSU1, + ONLP_THERMAL_2_ON_PSU1, + ONLP_THERMAL_1_ON_PSU2, + ONLP_THERMAL_2_ON_PSU2, + ONLP_THERMAL_MAX +}; + +#define ONLP_THERMAL_COUNT 14 /*include "reserved"*/ + +/* Fan definitions*/ +enum onlp_fan_id { + ONLP_FAN_1 = 1, + ONLP_FAN_2, + ONLP_FAN_3, + ONLP_FAN_4, + ONLP_FAN_PSU_1, + ONLP_FAN_PSU_2, + ONLP_FAN_MAX +}; + +#define ONLP_FAN_COUNT 6 /*include "reserved"*/ + +/* PSU definitions*/ +enum onlp_psu_id { + ONLP_PSU_1 = 1, + ONLP_PSU_2, + ONLP_PSU_MAX +}; + +#define ONLP_PSU_COUNT 2 /*include "reserved"*/ + +/* LED definitions*/ +enum onlp_led_id { + ONLP_LED_MGMT = 1, + ONLP_LED_FAN1, + ONLP_LED_FAN2, + ONLP_LED_FAN3, + ONLP_LED_FAN4, + ONLP_LED_MAX +}; + +#define ONLP_LED_COUNT 5 /*include "reserved"*/ + + +/* platform functions*/ +#define PLATFORM_HWMON_DIAG_LOCK platform_hwmon_diag_enable_write(0) +#define PLATFORM_HWMON_DIAG_UNLOCK platform_hwmon_diag_enable_write(1) +int platform_hwmon_diag_enable_read(int *enable); +int platform_hwmon_diag_enable_write(int enable); + + + + +#endif /* __PLATFORM_LIB_H__ */ + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/psui.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/psui.c new file mode 100644 index 00000000..1c260d22 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/psui.c @@ -0,0 +1,215 @@ +/************************************************************ + * + * + * Copyright 2014 Big Switch Networks, Inc. + * Copyright 2014 Accton Technology Corporation. + * + * Licensed under the Eclipse Public License, Version 1.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.eclipse.org/legal/epl-v10.html + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, + * either express or implied. See the License for the specific + * language governing permissions and limitations under the + * License. + * + * + ************************************************************ + * + * + * + ***********************************************************/ +#include +#include +#include "platform_lib.h" +#include +#include + +#define VALIDATE(_id) \ + do { \ + if(!ONLP_OID_IS_PSU(_id)) { \ + return ONLP_STATUS_E_INVALID; \ + } \ + } while(0) + + +typedef enum hwmon_psu_state_e { + HWMON_PSU_NORMAL = 0, + HWMON_PSU_UNPOWERED = 2, //010 + HWMON_PSU_FAULT = 4, //100 + HWMON_PSU_NOT_INSTALLED = 7 //111 +} hwmon_psu_state_t; + +/* + * Get all information about the given PSU oid. + */ +#define MAKE_PSU_NODE_INFO(id) \ + { \ + { \ + ONLP_PSU_ID_CREATE(ONLP_PSU_##id), "PSU-"#id, 0, \ + { \ + ONLP_THERMAL_ID_CREATE(ONLP_THERMAL_1_ON_PSU##id), \ + ONLP_THERMAL_ID_CREATE(ONLP_THERMAL_2_ON_PSU##id), \ + ONLP_FAN_ID_CREATE(ONLP_FAN_PSU_##id) \ + } \ + }, \ + "","", 0, 0 \ + } + +static onlp_psu_info_t __onlp_psu_info[ONLP_PSU_COUNT] = { + MAKE_PSU_NODE_INFO(1), + MAKE_PSU_NODE_INFO(2) +}; + +int +onlp_psui_init(void) +{ + return ONLP_STATUS_OK; +} + + +int +onlp_psui_info_get(onlp_oid_t id, onlp_psu_info_t* info) +{ + int ret = ONLP_STATUS_OK; + int len; + int local_id = ONLP_OID_ID_GET(id); + uint8_t temp[ONLP_CONFIG_INFO_STR_MAX] = {0}; + + VALIDATE(id); + + if(local_id >= ONLP_PSU_MAX) { + return ONLP_STATUS_E_INVALID; + } + + + *info = __onlp_psu_info[LOCAL_ID_TO_INFO_IDX(local_id)]; /* Set the onlp_oid_hdr_t */ + + ret = onlp_file_read(temp, ONLP_CONFIG_INFO_STR_MAX, &len, INV_HWMON_PREFIX"psoc_psu%d_vender", local_id); + if(ret != ONLP_STATUS_OK){ return ret; } + /*remove the '\n'*/ + temp[strlen((char*)temp)-1] = 0; + snprintf(info->model, ONLP_CONFIG_INFO_STR_MAX, "%s", temp); + + + memset(temp, 0, ONLP_CONFIG_INFO_STR_MAX); + ret = onlp_file_read(temp, ONLP_CONFIG_INFO_STR_MAX, &len, INV_HWMON_PREFIX"psoc_psu%d_serial", local_id); + if(ret != ONLP_STATUS_OK){ return ret; } + /*remove the '\n'*/ + temp[strlen((char*)temp)-1] = 0; + snprintf(info->serial, ONLP_CONFIG_INFO_STR_MAX, "%s", temp); + + ret = onlp_psui_status_get(id, &info->status); + if(ret != ONLP_STATUS_OK){ return ret; } + + if(info->status & ONLP_PSU_STATUS_PRESENT){ + info->caps = ONLP_PSU_CAPS_AC; + /*millivolts*/ + ret = onlp_file_read_int(&info->mvin, INV_HWMON_PREFIX"psoc_psu%d_vin", local_id); + if(ret != ONLP_STATUS_OK){ return ret; } + if(info->mvin >= 0){ + info->caps |= ONLP_PSU_CAPS_VIN; + } + ret = onlp_file_read_int(&info->mvout, INV_HWMON_PREFIX"psoc_psu%d_vout", local_id); + if(ret != ONLP_STATUS_OK){ return ret; } + if(info->mvout >= 0){ + info->caps |= ONLP_PSU_CAPS_VOUT; + } + + /* milliamps */ + ret = onlp_file_read_int(&info->miin, INV_HWMON_PREFIX"psoc_psu%d_iin", local_id); + if(ret != ONLP_STATUS_OK){ return ret; } + if(info->miin >= 0){ + info->caps |= ONLP_PSU_CAPS_IIN; + } + ret = onlp_file_read_int(&info->miout, INV_HWMON_PREFIX"psoc_psu%d_iout", local_id); + if(ret != ONLP_STATUS_OK){ return ret; } + if(info->miout >= 0){ + info->caps |= ONLP_PSU_CAPS_IOUT; + } + + /* milliwatts */ + ret = onlp_file_read_int(&info->mpin, INV_HWMON_PREFIX"psoc_psu%d_pin", local_id); + if(ret != ONLP_STATUS_OK){ return ret; } + if(info->mpin >= 0){ + info->caps |= ONLP_PSU_CAPS_PIN; + } + ret = onlp_file_read_int(&info->mpout, INV_HWMON_PREFIX"psoc_psu%d_pout", local_id); + if(ret != ONLP_STATUS_OK){ return ret; } + if(info->mpout >= 0){ + info->caps |= ONLP_PSU_CAPS_POUT; + } + } + return ret; +} + + +/** + * @brief Get the PSU's operational status. + * @param id The PSU OID. + * @param rv [out] Receives the operational status. + */ +int onlp_psui_status_get(onlp_oid_t id, uint32_t* rv) +{ + int result = ONLP_STATUS_OK; + hwmon_psu_state_t psu_state; + int local_id; + VALIDATE(id); + int len; + char buf[ONLP_CONFIG_INFO_STR_MAX]; + + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_PSU_MAX) { + result = ONLP_STATUS_E_INVALID; + } else { + result = onlp_file_read((uint8_t*)&buf, ONLP_CONFIG_INFO_STR_MAX, &len, "%s""psu%d", INV_HWMON_PREFIX, local_id-1); + if( result != ONLP_STATUS_OK ){return result;} + psu_state = (uint8_t)strtoul(buf, NULL, 0); + if( psu_state == HWMON_PSU_UNPOWERED) { + *rv = ONLP_PSU_STATUS_PRESENT|ONLP_PSU_STATUS_UNPLUGGED; + } else if ( psu_state == HWMON_PSU_NORMAL) { + *rv = ONLP_PSU_STATUS_PRESENT; + } else if( psu_state == HWMON_PSU_FAULT) { + *rv = ONLP_PSU_STATUS_PRESENT|ONLP_PSU_STATUS_FAILED; + } else if( psu_state == HWMON_PSU_NOT_INSTALLED){ + *rv = 0; + } else{ + result = ONLP_STATUS_E_INVALID; + } + } + return result; +} + +/** + * @brief Get the PSU's oid header. + * @param id The PSU OID. + * @param rv [out] Receives the header. + */ +int onlp_psui_hdr_get(onlp_oid_t id, onlp_oid_hdr_t* rv) +{ + int result = ONLP_STATUS_OK; + onlp_psu_info_t* info; + int local_id; + VALIDATE(id); + + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_PSU_MAX) { + result = ONLP_STATUS_E_INVALID; + } else { + info = &__onlp_psu_info[LOCAL_ID_TO_INFO_IDX(local_id)]; + *rv = info->hdr; + } + return result; +} + + +int +onlp_psui_ioctl(onlp_oid_t pid, va_list vargs) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/sfpi.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/sfpi.c new file mode 100644 index 00000000..a632f769 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/sfpi.c @@ -0,0 +1,314 @@ +/************************************************************ + * + * + * Copyright 2014 Big Switch Networks, Inc. + * Copyright 2014 Accton Technology Corporation. + * + * Licensed under the Eclipse Public License, Version 1.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.eclipse.org/legal/epl-v10.html + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, + * either express or implied. See the License for the specific + * language governing permissions and limitations under the + * License. + * + * + ************************************************************ + * + * + * + ***********************************************************/ + +#include +#include /* For O_RDWR && open */ +#include +#include +#include +#include +#include +#include "platform_lib.h" +#include +#include + +#define MAX_SFP_PATH 128 + +#define MUX_START_INDEX 17 +#define QSFP_DEV_ADDR 0x50 +#define NUM_OF_QSFP_PORT 64 +#define NUM_OF_ALL_PORT (NUM_OF_QSFP_PORT) + +#define FRONT_PORT_TO_MUX_INDEX(port) (port+MUX_START_INDEX) +#define VALIDATE_PORT(p) { if ((p < 0) || (p >= NUM_OF_ALL_PORT)) return ONLP_STATUS_E_PARAM; } +/************************************************************ + * + * SFPI Entry Points + * + ***********************************************************/ +int +onlp_sfpi_init(void) +{ + /* Called at initialization time */ + return ONLP_STATUS_OK; +} + +int onlp_sfpi_port_map(int port, int* rport) +{ + VALIDATE_PORT(port); + *rport = port; + return ONLP_STATUS_OK; +} + +int +onlp_sfpi_bitmap_get(onlp_sfp_bitmap_t* bmap) +{ + /* + * Ports {0, 63} + */ + int p; + AIM_BITMAP_CLR_ALL(bmap); + + for(p = 0; p < NUM_OF_ALL_PORT; p++) { + AIM_BITMAP_SET(bmap, p); + } + + return ONLP_STATUS_OK; +} + +int +onlp_sfpi_is_present(int port) +{ + /* + * Return 1 if present. + * Return 0 if not present. + * Return < 0 if error. + */ + VALIDATE_PORT(port); + int present; + int rv; + if(onlp_file_read_int(&present, INV_SFP_PREFIX"port%d/present", port) != ONLP_STATUS_OK){ + return ONLP_STATUS_E_INTERNAL; + } + if(present == 0){ + rv = 1; + } else if (present == 1){ + rv = 0; + } + else { + AIM_LOG_ERROR("Unvalid present status %d from port(%d)\r\n",present,port); + return ONLP_STATUS_E_INTERNAL; + } + return rv; +} + +int +onlp_sfpi_presence_bitmap_get(onlp_sfp_bitmap_t* dst) +{ + AIM_BITMAP_CLR_ALL(dst); + int port; + for(port = 0; port < NUM_OF_ALL_PORT; port++){ + if(onlp_sfpi_is_present(port) == 1){ + AIM_BITMAP_MOD(dst, port, 1); + }else if(onlp_sfpi_is_present(port) == 0){ + AIM_BITMAP_MOD(dst, port, 0); + }else{ + return ONLP_STATUS_E_INTERNAL; + } + } + return ONLP_STATUS_OK; +} + +int +onlp_sfpi_is_rx_los(int port) +{ + int rxlos; + int rv; + int len; + char buf[ONLP_CONFIG_INFO_STR_MAX]; + if(port > NUM_OF_ALL_PORT){ + return ONLP_STATUS_E_INVALID; + } + if(onlp_sfpi_is_present(port) == 0){ + return ONLP_STATUS_E_INVALID; + } + if(onlp_file_read((uint8_t*)buf, ONLP_CONFIG_INFO_STR_MAX, &len, INV_SFP_PREFIX"port%d/soft_rx_los", port) != ONLP_STATUS_OK){ + return ONLP_STATUS_E_INTERNAL; + } + if(sscanf( buf, "0x%x\n", &rxlos) != 1){ + AIM_LOG_ERROR("Unable to read rxlos from port(%d)\r\n", port); + return ONLP_STATUS_E_INTERNAL; + } + if(rxlos < 0 || rxlos > 0x0f){ + AIM_LOG_ERROR("Unable to read rxlos from port(%d)\r\n", port); + return ONLP_STATUS_E_INTERNAL; + }else if(rxlos == 0){ + rv = 1; + }else{ + rv = 0; + } + return rv; +} + +int +onlp_sfpi_rx_los_bitmap_get(onlp_sfp_bitmap_t* dst) +{ + AIM_BITMAP_CLR_ALL(dst); + int port; + int isrxlos; + for(port = 0; port < NUM_OF_ALL_PORT; port++){ + if(onlp_sfpi_is_present(port) == 1){ + isrxlos = onlp_sfpi_is_rx_los(port); + if(isrxlos == 1){ + AIM_BITMAP_MOD(dst, port, 1); + }else if(isrxlos == 0){ + AIM_BITMAP_MOD(dst, port, 0); + }else{ + return ONLP_STATUS_E_INTERNAL; + } + } + } + return ONLP_STATUS_OK; +} + +int +onlp_sfpi_dom_read(int port, uint8_t data[256]) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + +int +onlp_sfpi_post_insert(int port, sff_info_t* info) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + +int +onlp_sfpi_eeprom_read(int port, uint8_t data[256]) +{ + /* + * Read the SFP eeprom into data[] + * + * Return MISSING if SFP is missing. + * Return OK if eeprom is read + */ + memset(data, 0, 256); + + VALIDATE_PORT(port); + int sts; + int bus = FRONT_PORT_TO_MUX_INDEX(port); + sts = onlp_i2c_read(bus, QSFP_DEV_ADDR, 0, 256, data, ONLP_I2C_F_FORCE); + if(sts < 0){ + AIM_LOG_ERROR("Unable to read eeprom from port(%d)\r\n", port); + return ONLP_STATUS_E_MISSING; + } + return ONLP_STATUS_OK; +} + +int +onlp_sfpi_dev_readb(int port, uint8_t devaddr, uint8_t addr) +{ + VALIDATE_PORT(port); + int bus = FRONT_PORT_TO_MUX_INDEX(port); + return onlp_i2c_readb(bus, devaddr, addr, ONLP_I2C_F_FORCE); +} + +int +onlp_sfpi_dev_writeb(int port, uint8_t devaddr, uint8_t addr, uint8_t value) +{ + VALIDATE_PORT(port); + int bus = FRONT_PORT_TO_MUX_INDEX(port); + return onlp_i2c_writeb(bus, devaddr, addr, value, ONLP_I2C_F_FORCE); +} + +int +onlp_sfpi_dev_readw(int port, uint8_t devaddr, uint8_t addr) +{ + VALIDATE_PORT(port); + int bus = FRONT_PORT_TO_MUX_INDEX(port); + return onlp_i2c_readw(bus, devaddr, addr, ONLP_I2C_F_FORCE); +} + +int +onlp_sfpi_dev_writew(int port, uint8_t devaddr, uint8_t addr, uint16_t value) +{ + VALIDATE_PORT(port); + int bus = FRONT_PORT_TO_MUX_INDEX(port); + return onlp_i2c_writew(bus, devaddr, addr, value, ONLP_I2C_F_FORCE); +} + +int +onlp_sfpi_control_supported(int port, onlp_sfp_control_t control, int* rv) +{ + *rv = 0; + if(port >= 0 && port < NUM_OF_QSFP_PORT){ + switch (control) { + case ONLP_SFP_CONTROL_RESET_STATE: + case ONLP_SFP_CONTROL_LP_MODE: + *rv = 1; + break; + default: + break; + } + } + return ONLP_STATUS_OK; +} + +int +onlp_sfpi_control_set(int port, onlp_sfp_control_t control, int value) +{ + int ret = ONLP_STATUS_E_UNSUPPORTED; + if(port >= 0 && port < NUM_OF_QSFP_PORT){ + switch (control) { + case ONLP_SFP_CONTROL_RESET_STATE: + ret = onlp_file_write_int(value, INV_SFP_PREFIX"port%d/reset", port); + break; + case ONLP_SFP_CONTROL_LP_MODE: + ret = onlp_file_write_int(value, INV_SFP_PREFIX"port%d/lpmod", port); + break; + default: + break; + } + } + return ret; +} + +int +onlp_sfpi_control_get(int port, onlp_sfp_control_t control, int* value) +{ + int ret = ONLP_STATUS_E_UNSUPPORTED; + if(port >= 0 && port < NUM_OF_QSFP_PORT){ + switch (control) { + case ONLP_SFP_CONTROL_RESET_STATE: + ret = onlp_file_read_int(value, INV_SFP_PREFIX"port%d/reset", port); + break; + case ONLP_SFP_CONTROL_LP_MODE: + ret = onlp_file_read_int(value, INV_SFP_PREFIX"port%d/lpmod", port); + break; + default: + break; + } + } + return ret; +} + +int +onlp_sfpi_denit(void) +{ + return ONLP_STATUS_OK; +} + +void +onlp_sfpi_debug(int port, aim_pvs_t* pvs) +{ + aim_printf(pvs, "Debug data for port %d goes here.", port); +} + +int +onlp_sfpi_ioctl(int port, va_list vargs) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/sysi.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/sysi.c new file mode 100644 index 00000000..602f9632 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/sysi.c @@ -0,0 +1,426 @@ +/************************************************************ + * + * + * Copyright 2014 Big Switch Networks, Inc. + * Copyright 2014 Accton Technology Corporation. + * + * Licensed under the Eclipse Public License, Version 1.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.eclipse.org/legal/epl-v10.html + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, + * either express or implied. See the License for the specific + * language governing permissions and limitations under the + * License. + * + * + ************************************************************ + * + * + * + ***********************************************************/ +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include + +#include "x86_64_inventec_d5264q28b_int.h" +#include "x86_64_inventec_d5264q28b_log.h" + +#include "platform_lib.h" + +#define SYSI_ONIE_TYPE_SUPPORT_NUM 17 +#define SYSI_PLATFORM_INFO_TYPE_STR_MAX 10 +#define SYSI_PLATFORM_INFO_NUM 2 + +/** + * The TLV Types. + */ +#define TLV_CODE_PRODUCT_NAME 0x21 +#define TLV_CODE_PART_NUMBER 0x22 +#define TLV_CODE_SERIAL_NUMBER 0x23 +#define TLV_CODE_MAC_BASE 0x24 +#define TLV_CODE_MANUF_DATE 0x25 +#define TLV_CODE_DEVICE_VERSION 0x26 +#define TLV_CODE_LABEL_REVISION 0x27 +#define TLV_CODE_PLATFORM_NAME 0x28 +#define TLV_CODE_ONIE_VERSION 0x29 +#define TLV_CODE_MAC_SIZE 0x2A +#define TLV_CODE_MANUF_NAME 0x2B +#define TLV_CODE_MANUF_COUNTRY 0x2C +#define TLV_CODE_VENDOR_NAME 0x2D +#define TLV_CODE_DIAG_VERSION 0x2E +#define TLV_CODE_SERVICE_TAG 0x2F +#define TLV_CODE_VENDOR_EXT 0xFD +#define TLV_CODE_CRC_32 0xFE + +static uint8_t __tlv_code_list[SYSI_ONIE_TYPE_SUPPORT_NUM] = { + TLV_CODE_PRODUCT_NAME, + TLV_CODE_PART_NUMBER, + TLV_CODE_SERIAL_NUMBER, + TLV_CODE_MAC_BASE, + TLV_CODE_MANUF_DATE, + TLV_CODE_DEVICE_VERSION, + TLV_CODE_LABEL_REVISION, + TLV_CODE_PLATFORM_NAME, + TLV_CODE_ONIE_VERSION, + TLV_CODE_MAC_SIZE, + TLV_CODE_MANUF_NAME, + TLV_CODE_MANUF_COUNTRY, + TLV_CODE_VENDOR_NAME, + TLV_CODE_DIAG_VERSION, + TLV_CODE_SERVICE_TAG, + TLV_CODE_VENDOR_EXT, + TLV_CODE_CRC_32 +}; + + +static int _sysi_version_parsing(char* file_str, char* str_buf, char* version); +static void _case_tlv_code_string(onlp_onie_info_t* info, char** member, char* path); +static int _parse_tlv(onlp_onie_info_t* info, uint8_t type); + +static int _sysi_version_parsing(char* file_str, char* str_buf, char* version) +{ + int rv = ONLP_STATUS_OK; + int len; + char buf[ONLP_CONFIG_INFO_STR_MAX*4]; + char *temp; + + rv = onlp_file_read((uint8_t*)buf,ONLP_CONFIG_INFO_STR_MAX*4, &len, file_str); + if( rv != ONLP_STATUS_OK ) { return rv; } + + temp = strstr(buf, str_buf); + if(temp) { + temp += strlen(str_buf); + snprintf(version,ONLP_CONFIG_INFO_STR_MAX, temp); + /*remove '\n'*/ + version[strlen(version)-1] = '\0'; + } else { + rv = ONLP_STATUS_E_MISSING; + } + return rv; +} + +static void _case_tlv_code_string(onlp_onie_info_t* info, char** member, char* path) +{ + int rv = ONLP_STATUS_OK; + int len; + char buf[ONLP_CONFIG_INFO_STR_MAX]; + rv = onlp_file_read((uint8_t*)buf,ONLP_CONFIG_INFO_STR_MAX, &len, path); + if( rv == ONLP_STATUS_OK ) { + info->_hdr_length += 2; + buf[strlen(buf)-1] = '\0'; + *member = aim_fstrdup("%s",buf); + info->_hdr_length += strlen(*member); + } else { + *member = aim_zmalloc(1); + rv = ONLP_STATUS_OK; + } + return; +} + + +static int _parse_tlv(onlp_onie_info_t* info, uint8_t type) +{ + int rv = ONLP_STATUS_OK; + int len; + char buf[ONLP_CONFIG_INFO_STR_MAX]; + switch(type) + { + case TLV_CODE_PRODUCT_NAME: + _case_tlv_code_string(info, &(info->product_name), INV_SYS_PREFIX"product_name"); + break; + case TLV_CODE_PART_NUMBER: + _case_tlv_code_string(info, &(info->part_number), INV_SYS_PREFIX"pn"); + break; + case TLV_CODE_SERIAL_NUMBER: + _case_tlv_code_string(info, &(info->serial_number), INV_SYS_PREFIX"sn"); + break; + case TLV_CODE_MANUF_DATE: + _case_tlv_code_string(info, &(info->manufacture_date), INV_SYS_PREFIX"man_date"); + break; + case TLV_CODE_LABEL_REVISION: + _case_tlv_code_string(info, &(info->label_revision), INV_SYS_PREFIX"label_rev"); + break; + case TLV_CODE_PLATFORM_NAME: + _case_tlv_code_string(info, &(info->platform_name), INV_SYS_PREFIX"plat_name"); + break; + case TLV_CODE_ONIE_VERSION: + _case_tlv_code_string(info, &(info->onie_version), INV_SYS_PREFIX"ldr_ver"); + break; + case TLV_CODE_MANUF_NAME: + _case_tlv_code_string(info, &(info->manufacturer), INV_SYS_PREFIX"manufacturer"); + break; + case TLV_CODE_MANUF_COUNTRY: + _case_tlv_code_string(info, &(info->country_code), INV_SYS_PREFIX"country_code"); + break; + case TLV_CODE_VENDOR_NAME: + _case_tlv_code_string(info, &(info->vendor), INV_SYS_PREFIX"vendor_name"); + break; + case TLV_CODE_SERVICE_TAG: + _case_tlv_code_string(info, &(info->service_tag), INV_SYS_PREFIX"service_tag"); + break; + case TLV_CODE_DIAG_VERSION: + _case_tlv_code_string(info, &(info->diag_version), INV_SYS_PREFIX"diag_ver"); + break; + + case TLV_CODE_MAC_BASE: + rv = onlp_file_read((uint8_t*)buf,ONLP_CONFIG_INFO_STR_MAX, &len, INV_SYS_PREFIX"base_mac_addr" ); + if( rv == ONLP_STATUS_OK ) { + if(sscanf( buf, "%hhx:%hhx:%hhx:%hhx:%hhx:%hhx\n", + &info->mac[0], &info->mac[1], &info->mac[2], + &info->mac[3], &info->mac[4], &info->mac[5]) == 6) { + info->_hdr_length += 2; + info->_hdr_length += 6; + } else { + /*parsing fail*/ + memset(info->mac, 0, 6); + } + } else { + memset(info->mac, 0, 6); + rv = ONLP_STATUS_OK; + } + break; + + case TLV_CODE_DEVICE_VERSION: + rv = onlp_file_read((uint8_t*)buf,ONLP_CONFIG_INFO_STR_MAX, &len, INV_SYS_PREFIX"dev_ver"); + if( rv == ONLP_STATUS_OK ) { + info->_hdr_length += 2; + info->device_version= (uint8_t)strtoul(buf, NULL, 0); + info->_hdr_length += 1; + }else{ + info->device_version = 0; + rv = ONLP_STATUS_OK; + } + break; + case TLV_CODE_MAC_SIZE: + rv = onlp_file_read((uint8_t*)buf,ONLP_CONFIG_INFO_STR_MAX, &len, INV_SYS_PREFIX"mac_addr"); + if( rv == ONLP_STATUS_OK ) { + info->_hdr_length += 2; + info->mac_range = (uint16_t)strtoul(buf, NULL, 0); + info->_hdr_length += 2; + }else{ + info->mac_range = 0; + rv = ONLP_STATUS_OK; + } + break; + + case TLV_CODE_VENDOR_EXT: + list_init(&info->vx_list); + rv = onlp_file_read((uint8_t*)buf,ONLP_CONFIG_INFO_STR_MAX, &len, INV_SYS_PREFIX"vendor_ext"); + if( rv == ONLP_STATUS_OK ) { + /*TODO*/ + } + rv = ONLP_STATUS_OK; + break; + + case TLV_CODE_CRC_32: + rv = onlp_file_read((uint8_t*)buf,ONLP_CONFIG_INFO_STR_MAX, &len, INV_SYS_PREFIX"crc32"); + if( rv == ONLP_STATUS_OK ) { + info->_hdr_length += 2; + info->crc = (uint32_t)strtoul(buf, NULL, 0); + info->_hdr_length += 4; + }else{ + info->crc = 0; + rv = ONLP_STATUS_OK; + } + break; + + default: + break; + } + return rv; +} + + +const char* +onlp_sysi_platform_get(void) +{ + return "x86-64-inventec-d5264q28b-r0"; +} + + +/* + * This function is called to return the physical base address + * of the ONIE boot rom. + * + * The ONLP framework will mmap() and parse the ONIE TLV structure + * from the given data. + * + * If you platform does not support a mappable address for the ONIE + * eeprom then you should not provide this function at all. + * + * For the purposes of this example we will provide it but + * return UNSUPPORTED (which is all the default implementation does). + * + */ +int +onlp_sysi_onie_data_phys_addr_get(void** pa) +{ + return ONLP_STATUS_E_UNSUPPORTED; +} + + +/* + * If you cannot provide a base address you must provide the ONLP + * framework the raw ONIE data through whatever means necessary. + * + * This function will be called as a backup in the event that + * onlp_sysi_onie_data_phys_addr_get() fails. + */ +int +onlp_sysi_onie_data_get(uint8_t** data, int* size) +{ +#if 0 + int rv; + int i; + + /* + * This represents the example ONIE data. + */ + static uint8_t onie_data[] = { + 'T', 'l', 'v','I','n','f','o', 0, + 0x1, 0x0, 0x0, + 0x21, 0x8, 'O', 'N', 'L', 'P', 'I', 'E', 0, 0, + 0x22, 0x3, 'O', 'N', 'L', + 0xFE, 0x4, 0x4b, 0x1b, 0x1d, 0xde, + }; + + + memcpy(*data, onie_data, ONLPLIB_CONFIG_I2C_BLOCK_SIZE); + return 0; +#endif + return ONLP_STATUS_E_UNSUPPORTED; +} + +/* + * IF the ONLP frame calles onlp_sysi_onie_data_get(), + * if will call this function to free the data when it + * is finished with it. + * + * This function is optional, and depends on the data + * you return in onlp_sysi_onie_data_get(). + */ +void +onlp_sysi_onie_data_free(uint8_t* data) +{ + /* + * We returned a static array in onlp_sysi_onie_data_get() + * so no free operation is required. + */ + if(data) { + aim_free(data); + } +} + + +int +onlp_sysi_onie_info_get (onlp_onie_info_t *onie) +{ + int rv = ONLP_STATUS_OK; + int i; + onie->_hdr_length = 0; + for(i = 0; i < SYSI_ONIE_TYPE_SUPPORT_NUM; i++) + { + if( rv != ONLP_STATUS_OK ) { return rv; } + rv = _parse_tlv(onie, (__tlv_code_list[i])); + + } + + onie->_hdr_id_string = aim_fstrdup("TlvInfo"); + onie->_hdr_version = 0x1; + return rv; +} + + +int +onlp_sysi_platform_info_get(onlp_platform_info_t* pi) +{ + int rv = ONLP_STATUS_OK; + char cpld_str[ONLP_CONFIG_INFO_STR_MAX]= {0}; + char other_str[ONLP_CONFIG_INFO_STR_MAX]= {0}; + char version[ONLP_CONFIG_INFO_STR_MAX]; + + rv = _sysi_version_parsing(INV_SYSLED_PREFIX"info", "The CPLD version is ", version); + if( rv != ONLP_STATUS_OK ) { return rv; } + snprintf(cpld_str, ONLP_CONFIG_INFO_STR_MAX, "%s%s ", cpld_str, version); + rv = _sysi_version_parsing(INV_HWMON_PREFIX"version", "ver: ", version); + if( rv != ONLP_STATUS_OK ) { return rv; } + snprintf(other_str, ONLP_CONFIG_INFO_STR_MAX, "%s%s.%s " + ,other_str, "psoc", version); + + /*cpld version*/ + if(strlen(cpld_str) > 0) { + pi->cpld_versions = aim_fstrdup("%s",cpld_str); + } + + /*other version*/ + if(strlen(other_str) > 0) { + pi->other_versions = aim_fstrdup("%s",other_str); + } + return rv; +} + +void +onlp_sysi_platform_info_free(onlp_platform_info_t* pi) +{ + if(pi->cpld_versions) { + aim_free(pi->cpld_versions); + } + if(pi->other_versions) { + aim_free(pi->other_versions); + } + return; +} + + +int +onlp_sysi_oids_get(onlp_oid_t* table, int max) +{ + int i; + onlp_oid_t* e = table; + memset(table, 0, max*sizeof(onlp_oid_t)); + + for(i=1; i + * + * Copyright 2014 Big Switch Networks, Inc. + * Copyright 2014 Accton Technology Corporation. + * + * Licensed under the Eclipse Public License, Version 1.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.eclipse.org/legal/epl-v10.html + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, + * either express or implied. See the License for the specific + * language governing permissions and limitations under the + * License. + * + * + ************************************************************ + * + * Thermal Sensor Platform Implementation. + * + ***********************************************************/ +#include +#include +#include +#include +#include +#include "platform_lib.h" + +#define VALIDATE(_id) \ + do { \ + if(!ONLP_OID_IS_THERMAL(_id)) { \ + return ONLP_STATUS_E_INVALID; \ + } \ + } while(0) + + +typedef struct thermali_path_s { + char file[ONLP_CONFIG_INFO_STR_MAX]; +} thermali_path_t; + +#define MAKE_THERMAL_PATH_ON_CPU(id) { INV_CTMP_PREFIX"temp"#id"_input"} +#define MAKE_THERMAL_PATH_ON_MAIN_BROAD(id) { INV_HWMON_PREFIX"temp"#id"_input"} +#define MAKE_THERMAL1_PATH_ON_PSU(psu_id) { INV_HWMON_PREFIX"thermal_psu"#psu_id} +#define MAKE_THERMAL2_PATH_ON_PSU(psu_id) { INV_HWMON_PREFIX"thermal2_psu"#psu_id} + +static thermali_path_t __path_list[ONLP_THERMAL_COUNT] = { + MAKE_THERMAL_PATH_ON_CPU(1), + MAKE_THERMAL_PATH_ON_CPU(2), + MAKE_THERMAL_PATH_ON_CPU(3), + MAKE_THERMAL_PATH_ON_CPU(4), + MAKE_THERMAL_PATH_ON_CPU(5), + MAKE_THERMAL_PATH_ON_MAIN_BROAD(1), + MAKE_THERMAL_PATH_ON_MAIN_BROAD(2), + MAKE_THERMAL_PATH_ON_MAIN_BROAD(3), + MAKE_THERMAL_PATH_ON_MAIN_BROAD(4), + MAKE_THERMAL_PATH_ON_MAIN_BROAD(5), + MAKE_THERMAL1_PATH_ON_PSU(1), + MAKE_THERMAL2_PATH_ON_PSU(1), + MAKE_THERMAL1_PATH_ON_PSU(2), + MAKE_THERMAL2_PATH_ON_PSU(2) +}; + +#define MAKE_THERMAL_INFO_NODE_ON_CPU_PHY \ + { { ONLP_THERMAL_ID_CREATE(ONLP_THERMAL_CPU_PHY), "CPU Physical", 0}, \ + ONLP_THERMAL_STATUS_PRESENT, \ + ONLP_THERMAL_CAPS_GET_TEMPERATURE, 0, ONLP_THERMAL_THRESHOLD_INIT_DEFAULTS \ + } +#define MAKE_THERMAL_INFO_NODE_ON_CPU_CORE(id) \ + { { ONLP_THERMAL_ID_CREATE(ONLP_THERMAL_CPU_CORE##id), "CPU Core "#id, 0},\ + ONLP_THERMAL_STATUS_PRESENT, \ + ONLP_THERMAL_CAPS_GET_TEMPERATURE, 0, ONLP_THERMAL_THRESHOLD_INIT_DEFAULTS \ + } +#define MAKE_THERMAL_INFO_NODE_ON_MAIN_BROAD(id) \ + { { ONLP_THERMAL_ID_CREATE(ONLP_THERMAL_##id##_ON_MAIN_BROAD), "Thermal Sensor "#id, 0}, \ + ONLP_THERMAL_STATUS_PRESENT, \ + ONLP_THERMAL_CAPS_GET_TEMPERATURE, 0, ONLP_THERMAL_THRESHOLD_INIT_DEFAULTS \ + } +#define MAKE_THERMAL_INFO_NODE_ON_PSU(thermal_id, psu_id) \ + { { \ + ONLP_THERMAL_ID_CREATE(ONLP_THERMAL_##thermal_id##_ON_PSU##psu_id), \ + "PSU-"#psu_id" Thermal Sensor "#thermal_id, \ + ONLP_PSU_ID_CREATE(ONLP_PSU_##psu_id) \ + }, \ + ONLP_THERMAL_CAPS_GET_TEMPERATURE, 0, 0, ONLP_THERMAL_THRESHOLD_INIT_DEFAULTS \ + } + +/* Static values */ +static onlp_thermal_info_t __onlp_thermal_info[ONLP_THERMAL_COUNT] = { + MAKE_THERMAL_INFO_NODE_ON_CPU_PHY, + MAKE_THERMAL_INFO_NODE_ON_CPU_CORE(0), + MAKE_THERMAL_INFO_NODE_ON_CPU_CORE(1), + MAKE_THERMAL_INFO_NODE_ON_CPU_CORE(2), + MAKE_THERMAL_INFO_NODE_ON_CPU_CORE(3), + MAKE_THERMAL_INFO_NODE_ON_MAIN_BROAD(1), + MAKE_THERMAL_INFO_NODE_ON_MAIN_BROAD(2), + MAKE_THERMAL_INFO_NODE_ON_MAIN_BROAD(3), + MAKE_THERMAL_INFO_NODE_ON_MAIN_BROAD(4), + MAKE_THERMAL_INFO_NODE_ON_MAIN_BROAD(5), + MAKE_THERMAL_INFO_NODE_ON_PSU(1,1), + MAKE_THERMAL_INFO_NODE_ON_PSU(2,1), + MAKE_THERMAL_INFO_NODE_ON_PSU(1,2), + MAKE_THERMAL_INFO_NODE_ON_PSU(2,2) +}; + +/* + * This will be called to intiialize the thermali subsystem. + */ +int +onlp_thermali_init(void) +{ + return ONLP_STATUS_OK; +} + +/* + * Retrieve the information structure for the given thermal OID. + * + * If the OID is invalid, return ONLP_E_STATUS_INVALID. + * If an unexpected error occurs, return ONLP_E_STATUS_INTERNAL. + * Otherwise, return ONLP_STATUS_OK with the OID's information. + * + * Note -- it is expected that you fill out the information + * structure even if the sensor described by the OID is not present. + */ +int +onlp_thermali_info_get(onlp_oid_t id, onlp_thermal_info_t* info) +{ + int local_id; + VALIDATE(id); + int ret; + + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_THERMAL_MAX) { + return ONLP_STATUS_E_INVALID; + } + + /* Set the onlp_oid_hdr_t and capabilities */ + *info = __onlp_thermal_info[LOCAL_ID_TO_INFO_IDX(local_id)]; + ret = onlp_thermali_status_get(id, &info->status); + if( ret != ONLP_STATUS_OK ){ return ret; } + + if(info->status & ONLP_THERMAL_STATUS_PRESENT){ + ret = onlp_file_read_int(&info->mcelsius, __path_list[LOCAL_ID_TO_INFO_IDX(local_id)].file); + } + + return ret; +} + + +/** + * @brief Retrieve the thermal's operational status. + * @param id The thermal oid. + * @param rv [out] Receives the operational status. + */ +int onlp_thermali_status_get(onlp_oid_t id, uint32_t* rv) +{ + int local_id; + int ret = ONLP_STATUS_OK; + onlp_thermal_info_t* info; + VALIDATE(id); + uint32_t psu_status; + + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_THERMAL_MAX) { + return ONLP_STATUS_E_INVALID; + } + info = &__onlp_thermal_info[LOCAL_ID_TO_INFO_IDX(local_id)]; + + switch(local_id){ + case ONLP_THERMAL_1_ON_PSU1: + case ONLP_THERMAL_2_ON_PSU1: + case ONLP_THERMAL_1_ON_PSU2: + case ONLP_THERMAL_2_ON_PSU2: + ret = onlp_psui_status_get((&info->hdr)->poid, &psu_status); + if(ret != ONLP_STATUS_OK){return ret;} + + if(psu_status & ONLP_PSU_STATUS_PRESENT){ + info->status |= ONLP_THERMAL_STATUS_PRESENT; + }else{ + info->status = 0; + } + break; + default: + break; + } + + *rv = info->status; + + return ret; +} + +/** + * @brief Retrieve the thermal's oid header. + * @param id The thermal oid. + * @param rv [out] Receives the header. + */ +int onlp_thermali_hdr_get(onlp_oid_t id, onlp_oid_hdr_t* rv) +{ + int local_id; + onlp_thermal_info_t* info; + VALIDATE(id); + + local_id = ONLP_OID_ID_GET(id); + if(local_id >= ONLP_THERMAL_MAX) { + return ONLP_STATUS_E_INVALID; + } + info = &__onlp_thermal_info[LOCAL_ID_TO_INFO_IDX(local_id)]; + + *rv = info->hdr; + + return ONLP_STATUS_OK; +} diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_config.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_config.c new file mode 100644 index 00000000..bfff2079 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_config.c @@ -0,0 +1,81 @@ +/**************************************************************************//** + * + * + * + *****************************************************************************/ +#include + +/* */ +#define __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(_x) #_x +#define __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(_x) __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(_x) +x86_64_inventec_d5264q28b_config_settings_t x86_64_inventec_d5264q28b_config_settings[] = +{ +#ifdef x86_64_inventec_d5264q28b_CONFIG_INCLUDE_LOGGING + { __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(x86_64_inventec_d5264q28b_CONFIG_INCLUDE_LOGGING), __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(x86_64_inventec_d5264q28b_CONFIG_INCLUDE_LOGGING) }, +#else +{ x86_64_inventec_d5264q28b_CONFIG_INCLUDE_LOGGING(__x86_64_inventec_d5264q28b_config_STRINGIFY_NAME), "__undefined__" }, +#endif +#ifdef x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT + { __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT), __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT) }, +#else +{ x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT(__x86_64_inventec_d5264q28b_config_STRINGIFY_NAME), "__undefined__" }, +#endif +#ifdef x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT + { __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT), __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT) }, +#else +{ x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT(__x86_64_inventec_d5264q28b_config_STRINGIFY_NAME), "__undefined__" }, +#endif +#ifdef x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT + { __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT), __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT) }, +#else +{ x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT(__x86_64_inventec_d5264q28b_config_STRINGIFY_NAME), "__undefined__" }, +#endif +#ifdef x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB + { __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB), __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB) }, +#else +{ x86_64_inventec_d5264q28b_CONFIG_PORTING_STDLIB(__x86_64_inventec_d5264q28b_config_STRINGIFY_NAME), "__undefined__" }, +#endif +#ifdef x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS + { __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS), __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS) }, +#else +{ x86_64_inventec_d5264q28b_CONFIG_PORTING_INCLUDE_STDLIB_HEADERS(__x86_64_inventec_d5264q28b_config_STRINGIFY_NAME), "__undefined__" }, +#endif +#ifdef x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI + { __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI), __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI) }, +#else +{ x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI(__x86_64_inventec_d5264q28b_config_STRINGIFY_NAME), "__undefined__" }, +#endif +#ifdef x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEFAULT_FAN_DIRECTION + { __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME(x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEFAULT_FAN_DIRECTION), __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE(x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEFAULT_FAN_DIRECTION) }, +#else +{ x86_64_inventec_d5264q28b_CONFIG_INCLUDE_DEFAULT_FAN_DIRECTION(__x86_64_inventec_d5264q28b_config_STRINGIFY_NAME), "__undefined__" }, +#endif + { NULL, NULL } +}; +#undef __x86_64_inventec_d5264q28b_config_STRINGIFY_VALUE +#undef __x86_64_inventec_d5264q28b_config_STRINGIFY_NAME + +const char* +x86_64_inventec_d5264q28b_config_lookup(const char* setting) +{ + int i; + for(i = 0; x86_64_inventec_d5264q28b_config_settings[i].name; i++) { + if(strcmp(x86_64_inventec_d5264q28b_config_settings[i].name, setting)) { + return x86_64_inventec_d5264q28b_config_settings[i].value; + } + } + return NULL; +} + +int +x86_64_inventec_d5264q28b_config_show(struct aim_pvs_s* pvs) +{ + int i; + for(i = 0; x86_64_inventec_d5264q28b_config_settings[i].name; i++) { + aim_printf(pvs, "%s = %s\n", x86_64_inventec_d5264q28b_config_settings[i].name, x86_64_inventec_d5264q28b_config_settings[i].value); + } + return i; +} + +/* */ + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_enums.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_enums.c new file mode 100644 index 00000000..9996e458 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_enums.c @@ -0,0 +1,10 @@ +/**************************************************************************//** + * + * + * + *****************************************************************************/ +#include + +/* <--auto.start.enum(ALL).source> */ +/* */ + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_int.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_int.h new file mode 100644 index 00000000..f28c89f3 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_int.h @@ -0,0 +1,12 @@ +/**************************************************************************//** + * + * x86_64_inventec_d5264q28b Internal Header + * + *****************************************************************************/ +#ifndef __x86_64_inventec_d5264q28b_INT_H__ +#define __x86_64_inventec_d5264q28b_INT_H__ + +#include + + +#endif /* __x86_64_inventec_d5264q28b_INT_H__ */ diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_log.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_log.c new file mode 100644 index 00000000..d2c6fca5 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_log.c @@ -0,0 +1,18 @@ +/**************************************************************************//** + * + * + * + *****************************************************************************/ +#include + +#include "x86_64_inventec_d5264q28b_log.h" +/* + * x86_64_inventec_d5264q28b log struct. + */ +AIM_LOG_STRUCT_DEFINE( + x86_64_inventec_d5264q28b_CONFIG_LOG_OPTIONS_DEFAULT, + x86_64_inventec_d5264q28b_CONFIG_LOG_BITS_DEFAULT, + NULL, /* Custom log map */ + x86_64_inventec_d5264q28b_CONFIG_LOG_CUSTOM_BITS_DEFAULT + ); + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_log.h b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_log.h new file mode 100644 index 00000000..bff46fc2 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_log.h @@ -0,0 +1,12 @@ +/**************************************************************************//** + * + * + * + *****************************************************************************/ +#ifndef __x86_64_inventec_d5264q28b_LOG_H__ +#define __x86_64_inventec_d5264q28b_LOG_H__ + +#define AIM_LOG_MODULE_NAME x86_64_inventec_d5264q28b +#include + +#endif /* __x86_64_inventec_d5264q28b_LOG_H__ */ diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_module.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_module.c new file mode 100644 index 00000000..f0f861a3 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_module.c @@ -0,0 +1,24 @@ +/**************************************************************************//** + * + * + * + *****************************************************************************/ +#include + +#include "x86_64_inventec_d5264q28b_log.h" + +static int +datatypes_init__(void) +{ +#define x86_64_inventec_d5264q28b_ENUMERATION_ENTRY(_enum_name, _desc) AIM_DATATYPE_MAP_REGISTER(_enum_name, _enum_name##_map, _desc, AIM_LOG_INTERNAL); +#include + return 0; +} + +void __x86_64_inventec_d5264q28b_module_init__(void) +{ + AIM_LOG_STRUCT_REGISTER(); + datatypes_init__(); +} + +int __onlp_platform_version__ = 1; diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_ucli.c b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_ucli.c new file mode 100644 index 00000000..43a4f3c2 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/onlp/builds/src/module/src/x86_64_inventec_d5264q28b_ucli.c @@ -0,0 +1,50 @@ +/**************************************************************************//** + * + * + * + *****************************************************************************/ +#include + +#if x86_64_inventec_d5264q28b_CONFIG_INCLUDE_UCLI == 1 + +#include +#include +#include + +static ucli_status_t +x86_64_inventec_d5264q28b_ucli_ucli__config__(ucli_context_t* uc) +{ + UCLI_HANDLER_MACRO_MODULE_CONFIG(x86_64_inventec_d5264q28b) +} + +/* */ +/* */ + +static ucli_module_t +x86_64_inventec_d5264q28b_ucli_module__ = + { + "x86_64_inventec_d5264q28b_ucli", + NULL, + x86_64_inventec_d5264q28b_ucli_ucli_handlers__, + NULL, + NULL, + }; + +ucli_node_t* +x86_64_inventec_d5264q28b_ucli_node_create(void) +{ + ucli_node_t* n; + ucli_module_init(&x86_64_inventec_d5264q28b_ucli_module__); + n = ucli_node_create("x86_64_inventec_d5264q28b", NULL, &x86_64_inventec_d5264q28b_ucli_module__); + ucli_node_subnode_add(n, ucli_module_log_node_create("x86_64_inventec_d5264q28b")); + return n; +} + +#else +void* +x86_64_inventec_d5264q28b_ucli_node_create(void) +{ + return NULL; +} +#endif + diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/Makefile new file mode 100644 index 00000000..003238cf --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/Makefile @@ -0,0 +1 @@ +include $(ONL)/make/pkg.mk \ No newline at end of file diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/Makefile b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/Makefile new file mode 100644 index 00000000..003238cf --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/Makefile @@ -0,0 +1 @@ +include $(ONL)/make/pkg.mk \ No newline at end of file diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/PKG.yml b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/PKG.yml new file mode 100644 index 00000000..c78c705f --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/PKG.yml @@ -0,0 +1 @@ +!include $ONL_TEMPLATES/platform-config-platform.yml ARCH=amd64 VENDOR=inventec BASENAME=x86-64-inventec-d5264q28b REVISION=r0 diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/lib/healthstatus.sh b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/lib/healthstatus.sh new file mode 100755 index 00000000..90254700 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/lib/healthstatus.sh @@ -0,0 +1,53 @@ +#!/bin/bash + +normal='0 : normal' +unpowered='2 : unpowered' +fault='4 : fault' +notinstalled='7 : not installed' + +while true +do + psu0var=$(cat /sys/bus/i2c/devices/i2c-0/0-0055/psu0) # bottom PSU + psu1var=$(cat /sys/bus/i2c/devices/i2c-0/0-0055/psu1) # top PSU + fan1in=$(cat /sys/class/hwmon/hwmon1/device/fan1_input) # fanmodule1, far right, back view + fan2in=$(cat /sys/class/hwmon/hwmon1/device/fan2_input) # fanmodule1, far right, back view + fan3in=$(cat /sys/class/hwmon/hwmon1/device/fan3_input) # fanmodule2 + fan4in=$(cat /sys/class/hwmon/hwmon1/device/fan4_input) # fanmodule2 + fan5in=$(cat /sys/class/hwmon/hwmon1/device/fan5_input) # fanmodule3 + fan6in=$(cat /sys/class/hwmon/hwmon1/device/fan6_input) # fanmodule3 + fan7in=$(cat /sys/class/hwmon/hwmon1/device/fan7_input) # fanmodule4, far left, back view + fan8in=$(cat /sys/class/hwmon/hwmon1/device/fan8_input) # fanmodule4, far left, back view + + if [ "$psu0var" = "$normal" ] && + [ "$psu1var" = "$normal" ] && # PSU normal operation + [ "$fan1in" -gt 0 ] && [ "$fan2in" -gt 0 ] && # fan on + [ "$fan3in" -gt 0 ] && [ "$fan4in" -gt 0 ] && + [ "$fan5in" -gt 0 ] && [ "$fan6in" -gt 0 ] && + [ "$fan7in" -gt 0 ] && [ "$fan8in" -gt 0 ] + then + echo 1 > /sys/bus/i2c/devices/i2c-0/0-0055/ctl + echo 0 > /sys/bus/i2c/devices/i2c-0/0-0055/red_led # red off + echo 7 > /sys/bus/i2c/devices/i2c-0/0-0055/grn_led # grn solid + + elif [ "$psu0var" = "$unpowered" ] || + [ "$psu1var" = "$unpowered" ] || # PSU unpowered + [ "$fan1in" -eq 0 ] || [ "$fan2in" -eq 0 ] || # fan off + [ "$fan3in" -eq 0 ] || [ "$fan4in" -eq 0 ] || + [ "$fan5in" -eq 0 ] || [ "$fan6in" -eq 0 ] || + [ "$fan7in" -eq 0 ] || [ "$fan8in" -eq 0 ] + then + echo 1 > /sys/bus/i2c/devices/i2c-0/0-0055/ctl + echo 0 > /sys/bus/i2c/devices/i2c-0/0-0055/red_led # red off + echo 3 > /sys/bus/i2c/devices/i2c-0/0-0055/grn_led # grn @2Hz + + elif [ "$psu0var" = "$fault" ] || + [ "$psu0var" = "$notinstalled" ] || + [ "$psu1var" = "$fault" ] || + [ "$psu1var" = "$notinstalled" ] # PSU fault or PSU not installed + then + echo 1 > /sys/bus/i2c/devices/i2c-0/0-0055/ctl + echo 0 > /sys/bus/i2c/devices/i2c-0/0-0055/grn_led # grn off + echo 7 > /sys/bus/i2c/devices/i2c-0/0-0055/red_led # red solid + fi + sleep 1 +done diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/lib/x86-64-inventec-d5264q28b-r0.yml b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/lib/x86-64-inventec-d5264q28b-r0.yml new file mode 100644 index 00000000..85fd855b --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/lib/x86-64-inventec-d5264q28b-r0.yml @@ -0,0 +1,31 @@ +--- + +###################################################################### +# +# platform-config for d5264q28b +# +###################################################################### + +x86-64-inventec-d5264q28b-r0: + + grub: + + serial: >- + --port=0x3f8 + --speed=115200 + --word=8 + --parity=no + --stop=1 + + kernel: + <<: *kernel-3-16 + + args: >- + nopat + console=ttyS0,115200n8 + + ##network + ## interfaces: + ## ma1: + ## name: ~ + ## syspath: pci0000:00/0000:00:14.0 diff --git a/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/python/x86_64_inventec_d5264q28b_r0/__init__.py b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/python/x86_64_inventec_d5264q28b_r0/__init__.py new file mode 100644 index 00000000..e5e64483 --- /dev/null +++ b/packages/platforms/inventec/x86-64/x86-64-inventec-d5264q28b/platform-config/r0/src/python/x86_64_inventec_d5264q28b_r0/__init__.py @@ -0,0 +1,43 @@ +from onl.platform.base import * +from onl.platform.inventec import * + +class OnlPlatform_x86_64_inventec_d5264q28b_r0(OnlPlatformInventec, + OnlPlatformPortConfig_64x100): + PLATFORM='x86-64-inventec-d5264q28b-r0' + MODEL="D5264Q28B" + SYS_OBJECT_ID=".1.32" + + def baseconfig(self): + os.system("insmod /lib/modules/`uname -r`/kernel/drivers/gpio/gpio-ich.ko") + + #self.insmod('inv_platform') + os.system("echo pca9548 0x70 > /sys/bus/i2c/devices/i2c-0/new_device") + os.system("sleep 1") + os.system("echo pca9548 0x71 > /sys/bus/i2c/devices/i2c-8/new_device") + os.system("sleep 1") + #Upper + os.system("echo pca9548 0x72 > /sys/bus/i2c/devices/i2c-1/new_device") + os.system("echo pca9548 0x72 > /sys/bus/i2c/devices/i2c-2/new_device") + os.system("echo pca9548 0x72 > /sys/bus/i2c/devices/i2c-3/new_device") + os.system("echo pca9548 0x72 > /sys/bus/i2c/devices/i2c-4/new_device") + os.system("sleep 1") + #Lower + os.system("echo pca9548 0x72 > /sys/bus/i2c/devices/i2c-9/new_device") + os.system("echo pca9548 0x72 > /sys/bus/i2c/devices/i2c-10/new_device") + os.system("echo pca9548 0x72 > /sys/bus/i2c/devices/i2c-11/new_device") + os.system("echo pca9548 0x72 > /sys/bus/i2c/devices/i2c-12/new_device") + + self.insmod('inv_psoc') + os.system("echo inv_cpld 0x55 > /sys/bus/i2c/devices/i2c-0/new_device") + os.system("echo inv_cpld 0x77 > /sys/bus/i2c/devices/i2c-0/new_device") + self.insmod('inv_cpld') + self.insmod('inv_mux') + self.insmod('io_expander') + self.insmod('transceiver') + self.insmod('inv_swps') + self.insmod('onie_tlvinfo') + self.insmod('inv_vpd') + + os.system("/lib/platform-config/x86-64-inventec-d5264q28b-r0/onl/healthstatus.sh &") + + return True