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[LY6,LY9] port platform management for LED

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This commit is contained in:
Jonathan Tsai
2017-02-22 13:24:50 +08:00
parent 4c2a53dd85
commit 6b777d8772
15 changed files with 1139 additions and 169 deletions
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110
packages/platforms/quanta/x86-64/x86-64-quanta-ly6-rangeley/onlp/builds/src/x86_64_quanta_ly6_rangeley/module/inc/x86_64_quanta_ly6_rangeley/x86_64_quanta_ly6_rangeley_gpio_table.h Normal file → Executable file
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@@ -1,53 +1,57 @@
#ifndef __X86_64_QUANTA_LY6_RANGELEY_GPIO_TABLE_H__
#define __X86_64_QUANTA_LY6_RANGELEY_GPIO_TABLE_H__
/*
* defined within platform/quanta_switch.c
* Quanta Switch Platform driver
*/
#define PCA953x_GPIO(P1, P2) (P1*8+P2)
#define PCA9554_GPIO_SIZE 0x08
#define PCA9555_GPIO_SIZE 0x10
#define PCA9698_GPIO_SIZE 0x28
#define I2C_GPIO_BASE 0x80
#define LY6_CPLD_QSFP_GPIO_BASE (I2C_GPIO_BASE)
#define LY6_CPLD_QSFP_GPIO_SIZE 0x40
#define LY6_CPLD_QSFP_PRSNT(port) (LY6_CPLD_QSFP_GPIO_BASE + ((port%2) ? (port) : (port-2)) * 4 + 1)
/* 2 cpld for 32 ports */
#define FAN_GPIO_BASE (LY6_CPLD_QSFP_GPIO_BASE + LY6_CPLD_QSFP_GPIO_SIZE * 2)
#define FAN_GPIO_SIZE PCA9555_GPIO_SIZE
#define FAN_PRSNT_N_1 (FAN_GPIO_BASE + PCA953x_GPIO(0,4))
#define FAN_PRSNT_N_2 (FAN_GPIO_BASE + PCA953x_GPIO(0,5))
#define FAN_PRSNT_N_3 (FAN_GPIO_BASE + PCA953x_GPIO(0,6))
#define FAN_BF_DET1 (FAN_GPIO_BASE + PCA953x_GPIO(1,0))
#define FAN_BF_DET2 (FAN_GPIO_BASE + PCA953x_GPIO(1,1))
#define FAN_BF_DET3 (FAN_GPIO_BASE + PCA953x_GPIO(1,2))
#define FAN_FAIL_LED_1 (FAN_GPIO_BASE + PCA953x_GPIO(1,4))
#define FAN_FAIL_LED_2 (FAN_GPIO_BASE + PCA953x_GPIO(1,5))
#define FAN_FAIL_LED_3 (FAN_GPIO_BASE + PCA953x_GPIO(1,6))
#define QSFP_EN_GPIO_BASE (FAN_GPIO_BASE + FAN_GPIO_SIZE)
#define QSFP_EN_GPIO_SIZE PCA9555_GPIO_SIZE
#define QSFP_EN_GPIO_P3V3_PW_GD (QSFP_EN_GPIO_BASE + PCA953x_GPIO(0,4))
#define QSFP_EN_GPIO_P3V3_PW_EN (QSFP_EN_GPIO_BASE + PCA953x_GPIO(1,0))
#define PSU_GPIO_BASE (QSFP_EN_GPIO_BASE + QSFP_EN_GPIO_SIZE)
#define PSU_GPIO_SIZE PCA9555_GPIO_SIZE
#define PSU_GPIO_PSU1_PRSNT_N (PSU_GPIO_BASE + PCA953x_GPIO(0,0))
#define PSU_GPIO_PSU1_PWRGD (PSU_GPIO_BASE + PCA953x_GPIO(0,1))
#define PSU_GPIO_PSU2_PRSNT_N (PSU_GPIO_BASE + PCA953x_GPIO(0,3))
#define PSU_GPIO_PSU2_PWRGD (PSU_GPIO_BASE + PCA953x_GPIO(0,4))
#define PSU_GPIO_PSU1_AC_OK (PSU_GPIO_BASE + PCA953x_GPIO(0,6))
#define PSU_GPIO_PSU2_AC_OK (PSU_GPIO_BASE + PCA953x_GPIO(0,7))
#define PSU_GPIO_PSU1_GREEN_R (PSU_GPIO_BASE + PCA953x_GPIO(1,2))
#define PSU_GPIO_PSU1_RED_R (PSU_GPIO_BASE + PCA953x_GPIO(1,3))
#define PSU_GPIO_PSU2_GREEN_R (PSU_GPIO_BASE + PCA953x_GPIO(1,4))
#define PSU_GPIO_PSU2_RED_R (PSU_GPIO_BASE + PCA953x_GPIO(1,5))
#define PSU_GPIO_FAN_GREEN_R (PSU_GPIO_BASE + PCA953x_GPIO(1,6))
#define PSU_GPIO_FAN_RED_R (PSU_GPIO_BASE + PCA953x_GPIO(1,7))
#endif /* __X86_64_QUANTA_LY6_RANGELEY_GPIO_TABLE_H__ */
#ifndef __X86_64_QUANTA_LY6_RANGELEY_GPIO_TABLE_H__
#define __X86_64_QUANTA_LY6_RANGELEY_GPIO_TABLE_H__
/*
* defined within platform/quanta_switch.c
* Quanta Switch Platform driver
*/
#define QUANTA_LY6_PCA953x_GPIO(P1, P2) (P1*8+P2)
#define QUANTA_LY6_PCA9555_GPIO_SIZE 0x10
#define QUANTA_LY6_I2C_GPIO_CPU_BASE 0x40
#define QUANTA_LY6_CPU_BOARD_GPIO_BASE (QUANTA_LY6_I2C_GPIO_CPU_BASE)
#define QUANTA_LY6_CPU_BOARD_SYS_P1 (QUANTA_LY6_CPU_BOARD_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,2))
#define QUANTA_LY6_CPU_BOARD_SYS_P2 (QUANTA_LY6_CPU_BOARD_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,3))
#define QUANTA_LY6_I2C_GPIO_BASE 0x80
#define QUANTA_LY6_CPLD_QSFP_GPIO_BASE (QUANTA_LY6_I2C_GPIO_BASE)
#define QUANTA_LY6_CPLD_QSFP_GPIO_SIZE 0x40
#define QUANTA_LY6_CPLD_QSFP_PRSNT(port) (QUANTA_LY6_CPLD_QSFP_GPIO_BASE + ((port%2) ? (port) : (port-2)) * 4 + 1)
/* 2 cpld for 32 ports */
#define QUANTA_LY6_FAN_GPIO_BASE (QUANTA_LY6_CPLD_QSFP_GPIO_BASE + QUANTA_LY6_CPLD_QSFP_GPIO_SIZE * 2)
#define QUANTA_LY6_FAN_GPIO_SIZE QUANTA_LY6_PCA9555_GPIO_SIZE
#define QUANTA_LY6_FAN_PRSNT_N_1 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,4))
#define QUANTA_LY6_FAN_PRSNT_N_2 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,5))
#define QUANTA_LY6_FAN_PRSNT_N_3 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,6))
#define QUANTA_LY6_FAN_BF_DET1 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,0))
#define QUANTA_LY6_FAN_BF_DET2 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,1))
#define QUANTA_LY6_FAN_BF_DET3 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,2))
#define QUANTA_LY6_FAN_FAIL_LED_1 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,4))
#define QUANTA_LY6_FAN_FAIL_LED_2 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,5))
#define QUANTA_LY6_FAN_FAIL_LED_3 (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,6))
#define QUANTA_LY6_QSFP_EN_GPIO_BASE (QUANTA_LY6_FAN_GPIO_BASE + QUANTA_LY6_FAN_GPIO_SIZE)
#define QUANTA_LY6_QSFP_EN_GPIO_SIZE QUANTA_LY6_PCA9555_GPIO_SIZE
#define QUANTA_LY6_QSFP_EN_GPIO_P3V3_PW_GD (QUANTA_LY6_QSFP_EN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,4))
#define QUANTA_LY6_QSFP_EN_GPIO_P3V3_PW_EN (QUANTA_LY6_QSFP_EN_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,0))
#define QUANTA_LY6_PSU_GPIO_BASE (QUANTA_LY6_QSFP_EN_GPIO_BASE + QUANTA_LY6_QSFP_EN_GPIO_SIZE)
#define QUANTA_LY6_PSU_GPIO_SIZE QUANTA_LY6_PCA9555_GPIO_SIZE
#define QUANTA_LY6_PSU_GPIO_PSU1_PRSNT_N (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,0))
#define QUANTA_LY6_PSU_GPIO_PSU1_PWRGD (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,1))
#define QUANTA_LY6_PSU_GPIO_PSU2_PRSNT_N (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,3))
#define QUANTA_LY6_PSU_GPIO_PSU2_PWRGD (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,4))
#define QUANTA_LY6_PSU_GPIO_PSU1_AC_OK (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,6))
#define QUANTA_LY6_PSU_GPIO_PSU2_AC_OK (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(0,7))
#define QUANTA_LY6_PSU_GPIO_PSU1_GREEN_R (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,2))
#define QUANTA_LY6_PSU_GPIO_PSU1_RED_R (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,3))
#define QUANTA_LY6_PSU_GPIO_PSU2_GREEN_R (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,4))
#define QUANTA_LY6_PSU_GPIO_PSU2_RED_R (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,5))
#define QUANTA_LY6_PSU_GPIO_FAN_GREEN_R (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,6))
#define QUANTA_LY6_PSU_GPIO_FAN_RED_R (QUANTA_LY6_PSU_GPIO_BASE + QUANTA_LY6_PCA953x_GPIO(1,7))
#endif /* __X86_64_QUANTA_LY6_RANGELEY_GPIO_TABLE_H__ */

22
packages/platforms/quanta/x86-64/x86-64-quanta-ly6-rangeley/onlp/builds/src/x86_64_quanta_ly6_rangeley/module/src/fani.c Normal file → Executable file
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@@ -30,7 +30,7 @@
#include "x86_64_quanta_ly6_rangeley_log.h"
#include <onlplib/file.h>
#include <quanta_lib/gpio.h>
#include <onlplib/gpio.h>
int
onlp_fani_init(void)
@@ -45,13 +45,13 @@ struct fan_gpio_s {
static struct fan_gpio_s fan_gpio[] = {
{}, /* Not used */
{ .present = FAN_PRSNT_N_1, .fan_dir_detect = FAN_BF_DET1 },
{ .present = FAN_PRSNT_N_2, .fan_dir_detect = FAN_BF_DET2 },
{ .present = FAN_PRSNT_N_3, .fan_dir_detect = FAN_BF_DET3 },
{ .present = QUANTA_LY6_FAN_PRSNT_N_1, .fan_dir_detect = QUANTA_LY6_FAN_BF_DET1 },
{ .present = QUANTA_LY6_FAN_PRSNT_N_2, .fan_dir_detect = QUANTA_LY6_FAN_BF_DET2 },
{ .present = QUANTA_LY6_FAN_PRSNT_N_3, .fan_dir_detect = QUANTA_LY6_FAN_BF_DET3 },
{}, /* Not used */
{ .present = FAN_PRSNT_N_1, .fan_dir_detect = FAN_BF_DET1 },
{ .present = FAN_PRSNT_N_2, .fan_dir_detect = FAN_BF_DET2 },
{ .present = FAN_PRSNT_N_3, .fan_dir_detect = FAN_BF_DET3 },
{ .present = QUANTA_LY6_FAN_PRSNT_N_1, .fan_dir_detect = QUANTA_LY6_FAN_BF_DET1 },
{ .present = QUANTA_LY6_FAN_PRSNT_N_2, .fan_dir_detect = QUANTA_LY6_FAN_BF_DET2 },
{ .present = QUANTA_LY6_FAN_PRSNT_N_3, .fan_dir_detect = QUANTA_LY6_FAN_BF_DET3 },
{}, /* Not used */
};
@@ -61,11 +61,11 @@ sys_fan_info_get__(onlp_fan_info_t* info, int id)
int value = 0;
int rv;
if(pca953x_gpio_value_get(fan_gpio[id].present, &value) == ONLP_STATUS_OK
&& value == GPIO_LOW) {
if(onlp_gpio_get(fan_gpio[id].present, &value) == ONLP_STATUS_OK
&& value == 0) {
info->status = ONLP_FAN_STATUS_PRESENT;
if(pca953x_gpio_value_get(fan_gpio[id].fan_dir_detect, &value) == ONLP_STATUS_OK
&& value == GPIO_LOW) {
if(onlp_gpio_get(fan_gpio[id].fan_dir_detect, &value) == ONLP_STATUS_OK
&& value == 0) {
info->status |= ONLP_FAN_STATUS_F2B;
info->caps |= ONLP_FAN_CAPS_F2B;
}

210
packages/platforms/quanta/x86-64/x86-64-quanta-ly6-rangeley/onlp/builds/src/x86_64_quanta_ly6_rangeley/module/src/ledi.c Executable file
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@@ -0,0 +1,210 @@
#include <onlp/platformi/ledi.h>
#include <sys/mman.h>
#include <stdio.h>
#include <string.h>
#include <fcntl.h>
#include "x86_64_quanta_ly6_rangeley_int.h"
#include <x86_64_quanta_ly6_rangeley/x86_64_quanta_ly6_rangeley_gpio_table.h>
#include <onlplib/gpio.h>
/*
* Get the information for the given LED OID.
*/
static onlp_led_info_t led_info[] =
{
{ }, /* Not used */
{
{ LED_OID_SYSTEM, "System LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_ORANGE | ONLP_LED_CAPS_GREEN,
},
{
{ LED_OID_FAN, "Front FAN LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED | ONLP_LED_CAPS_GREEN,
},
{
{ LED_OID_PSU_1, "Front PSU(1) LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED | ONLP_LED_CAPS_GREEN,
},
{
{ LED_OID_PSU_2, "Front PSU(2) LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED | ONLP_LED_CAPS_GREEN,
},
{
{ LED_OID_FAN_FAIL_1, "FAN(1) fail LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED,
},
{
{ LED_OID_FAN_FAIL_2, "FAN(2) fail LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED,
},
{
{ LED_OID_FAN_FAIL_3, "FAN(3) fail LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED,
}
};
int
onlp_ledi_init(void)
{
return ONLP_STATUS_OK;
}
int
onlp_ledi_info_get(onlp_oid_t id, onlp_led_info_t* info)
{
int led_id;
led_id = ONLP_OID_ID_GET(id);
*info = led_info[led_id];
info->status |= ONLP_LED_STATUS_ON;
info->mode |= ONLP_LED_MODE_ON;
return ONLP_STATUS_OK;
}
void
Sysfs_Set_System_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_GREEN){
onlp_gpio_set(QUANTA_LY6_CPU_BOARD_SYS_P1, 0);
onlp_gpio_set(QUANTA_LY6_CPU_BOARD_SYS_P2, 1);
}
else if(mode == ONLP_LED_MODE_ORANGE){
onlp_gpio_set(QUANTA_LY6_CPU_BOARD_SYS_P1, 1);
onlp_gpio_set(QUANTA_LY6_CPU_BOARD_SYS_P2, 0);
}
else{
onlp_gpio_set(QUANTA_LY6_CPU_BOARD_SYS_P1, 1);
onlp_gpio_set(QUANTA_LY6_CPU_BOARD_SYS_P2, 1);
}
}
void
Sysfs_Set_Fan_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_GREEN){
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_FAN_GREEN_R, 1);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_FAN_RED_R, 0);
}
else if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_FAN_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_FAN_RED_R, 1);
}
else{
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_FAN_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_FAN_RED_R, 0);
}
}
void
Sysfs_Set_Psu1_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_GREEN){
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU1_GREEN_R, 1);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU1_RED_R, 0);
}
else if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU1_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU1_RED_R, 1);
}
else{
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU1_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU1_RED_R, 0);
}
}
void
Sysfs_Set_Psu2_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_GREEN){
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU2_GREEN_R, 1);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU2_RED_R, 0);
}
else if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU2_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU2_RED_R, 1);
}
else{
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU2_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY6_PSU_GPIO_PSU2_RED_R, 0);
}
}
void
Sysfs_Set_Fan_Fail1_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY6_FAN_FAIL_LED_1, 1);
}
else{
onlp_gpio_set(QUANTA_LY6_FAN_FAIL_LED_1, 0);
}
}
void
Sysfs_Set_Fan_Fail2_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY6_FAN_FAIL_LED_2, 1);
}
else{
onlp_gpio_set(QUANTA_LY6_FAN_FAIL_LED_2, 0);
}
}
void
Sysfs_Set_Fan_Fail3_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY6_FAN_FAIL_LED_3, 1);
}
else{
onlp_gpio_set(QUANTA_LY6_FAN_FAIL_LED_3, 0);
}
}
int
onlp_ledi_mode_set(onlp_oid_t id, onlp_led_mode_t mode)
{
int led_id;
led_id = ONLP_OID_ID_GET(id);
switch (led_id) {
case LED_ID_SYSTEM:
Sysfs_Set_System_LED(mode);
break;
case LED_ID_FAN:
Sysfs_Set_Fan_LED(mode);
break;
case LED_ID_PSU_1:
Sysfs_Set_Psu1_LED(mode);
break;
case LED_ID_PSU_2:
Sysfs_Set_Psu2_LED(mode);
break;
case LED_ID_FAN_FAIL_1:
Sysfs_Set_Fan_Fail1_LED(mode);
break;
case LED_ID_FAN_FAIL_2:
Sysfs_Set_Fan_Fail2_LED(mode);
break;
case LED_ID_FAN_FAIL_3:
Sysfs_Set_Fan_Fail3_LED(mode);
break;
default:
return ONLP_STATUS_E_INTERNAL;
break;
}
return ONLP_STATUS_OK;
}

10
packages/platforms/quanta/x86-64/x86-64-quanta-ly6-rangeley/onlp/builds/src/x86_64_quanta_ly6_rangeley/module/src/psui.c
View File

@@ -12,15 +12,15 @@
#include <onlplib/file.h>
#include <onlplib/i2c.h>
#include <quanta_lib/i2c.h>
#include <quanta_lib/gpio.h>
#include <onlplib/gpio.h>
#include "x86_64_quanta_ly6_rangeley_int.h"
#include "x86_64_quanta_ly6_rangeley_log.h"
#include <AIM/aim_string.h>
struct psu_info_s psu_info[] = {
{}, /* Not used */
{ .path = "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-24/24-0058", .present = PSU_GPIO_PSU1_PRSNT_N, .busno = 24, .addr = 0x58},
{ .path = "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-25/25-0059", .present = PSU_GPIO_PSU2_PRSNT_N, .busno = 25, .addr = 0x59},
{ .path = "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-24/24-0058", .present = QUANTA_LY6_PSU_GPIO_PSU1_PRSNT_N, .busno = 24, .addr = 0x58},
{ .path = "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-25/25-0059", .present = QUANTA_LY6_PSU_GPIO_PSU2_PRSNT_N, .busno = 25, .addr = 0x59},
};
int
@@ -68,11 +68,11 @@ onlp_psui_info_get(onlp_oid_t id, onlp_psu_info_t* info)
uint8_t buffer[ONLP_CONFIG_INFO_STR_MAX];
int value = -1;
rv = pca953x_gpio_value_get(psu_info[pid].present, &value);
rv = onlp_gpio_get(psu_info[pid].present, &value);
if(rv < 0) {
return rv;
}
else if(value == GPIO_HIGH) {
else if(value == 1) {
info->status &= ~1;
return 0;
}

68
packages/platforms/quanta/x86-64/x86-64-quanta-ly6-rangeley/onlp/builds/src/x86_64_quanta_ly6_rangeley/module/src/sfpi.c Normal file → Executable file
View File

@@ -48,47 +48,47 @@ typedef struct sfpmap_s {
static sfpmap_t sfpmap__[] =
{
/* CPLD will not always be stable, use eeprom read instead */
{ 1, -1 /* LY6_CPLD_QSFP_PRSNT(1) */ /* 168 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-32/32-0050/eeprom", NULL },
{ 2, -1 /* LY6_CPLD_QSFP_PRSNT(2) */ /* 172 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-33/33-0050/eeprom", NULL },
{ 3, -1 /* LY6_CPLD_QSFP_PRSNT(3) */ /* 176 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-34/34-0050/eeprom", NULL },
{ 4, -1 /* LY6_CPLD_QSFP_PRSNT(4) */ /* 180 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-35/35-0050/eeprom", NULL },
{ 5, -1 /* LY6_CPLD_QSFP_PRSNT(5) */ /* 184 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-36/36-0050/eeprom", NULL },
{ 6, -1 /* LY6_CPLD_QSFP_PRSNT(6) */ /* 188 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-37/37-0050/eeprom", NULL },
{ 7, -1 /* LY6_CPLD_QSFP_PRSNT(7) */ /* 192 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-38/38-0050/eeprom", NULL },
{ 8, -1 /* LY6_CPLD_QSFP_PRSNT(8) */ /* 196 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-39/39-0050/eeprom", NULL },
{ 9, -1 /* LY6_CPLD_QSFP_PRSNT(9) */ /* 208 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-40/40-0050/eeprom", NULL },
{ 10, -1 /* LY6_CPLD_QSFP_PRSNT(10) */ /* 212 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-41/41-0050/eeprom", NULL },
{ 11, -1 /* LY6_CPLD_QSFP_PRSNT(11) */ /* 216 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-42/42-0050/eeprom", NULL },
{ 12, -1 /* LY6_CPLD_QSFP_PRSNT(12) */ /* 220 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-43/43-0050/eeprom", NULL },
{ 13, -1 /* LY6_CPLD_QSFP_PRSNT(13) */ /* 224 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-44/44-0050/eeprom", NULL },
{ 14, -1 /* LY6_CPLD_QSFP_PRSNT(14) */ /* 228 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-45/45-0050/eeprom", NULL },
{ 15, -1 /* LY6_CPLD_QSFP_PRSNT(15) */ /* 232 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-46/46-0050/eeprom", NULL },
{ 16, -1 /* LY6_CPLD_QSFP_PRSNT(16) */ /* 236 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-47/47-0050/eeprom", NULL },
{ 17, -1 /* LY6_CPLD_QSFP_PRSNT(17) */ /* 248 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-48/48-0050/eeprom", NULL },
{ 18, -1 /* LY6_CPLD_QSFP_PRSNT(18) */ /* 252 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-49/49-0050/eeprom", NULL },
{ 19, -1 /* LY6_CPLD_QSFP_PRSNT(19) */ /* 256 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-50/50-0050/eeprom", NULL },
{ 20, -1 /* LY6_CPLD_QSFP_PRSNT(20) */ /* 260 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-51/51-0050/eeprom", NULL },
{ 21, -1 /* LY6_CPLD_QSFP_PRSNT(21) */ /* 264 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-52/52-0050/eeprom", NULL },
{ 22, -1 /* LY6_CPLD_QSFP_PRSNT(22) */ /* 268 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-53/53-0050/eeprom", NULL },
{ 23, -1 /* LY6_CPLD_QSFP_PRSNT(23) */ /* 272 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-54/54-0050/eeprom", NULL },
{ 24, -1 /* LY6_CPLD_QSFP_PRSNT(24) */ /* 276 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-55/55-0050/eeprom", NULL },
{ 25, -1 /* LY6_CPLD_QSFP_PRSNT(25) */ /* 288 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-56/56-0050/eeprom", NULL },
{ 26, -1 /* LY6_CPLD_QSFP_PRSNT(26) */ /* 292 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-57/57-0050/eeprom", NULL },
{ 27, -1 /* LY6_CPLD_QSFP_PRSNT(27) */ /* 296 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-58/58-0050/eeprom", NULL },
{ 28, -1 /* LY6_CPLD_QSFP_PRSNT(28) */ /* 300 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-59/59-0050/eeprom", NULL },
{ 29, -1 /* LY6_CPLD_QSFP_PRSNT(29) */ /* 304 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-60/60-0050/eeprom", NULL },
{ 30, -1 /* LY6_CPLD_QSFP_PRSNT(30) */ /* 308 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-61/61-0050/eeprom", NULL },
{ 31, -1 /* LY6_CPLD_QSFP_PRSNT(31) */ /* 312 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-62/62-0050/eeprom", NULL },
{ 32, -1 /* LY6_CPLD_QSFP_PRSNT(32) */ /* 316 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-63/63-0050/eeprom", NULL },
{ 1, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(1) */ /* 168 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-32/32-0050/eeprom", NULL },
{ 2, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(2) */ /* 172 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-33/33-0050/eeprom", NULL },
{ 3, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(3) */ /* 176 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-34/34-0050/eeprom", NULL },
{ 4, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(4) */ /* 180 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-35/35-0050/eeprom", NULL },
{ 5, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(5) */ /* 184 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-36/36-0050/eeprom", NULL },
{ 6, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(6) */ /* 188 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-37/37-0050/eeprom", NULL },
{ 7, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(7) */ /* 192 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-38/38-0050/eeprom", NULL },
{ 8, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(8) */ /* 196 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/i2c-39/39-0050/eeprom", NULL },
{ 9, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(9) */ /* 208 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-40/40-0050/eeprom", NULL },
{ 10, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(10) */ /* 212 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-41/41-0050/eeprom", NULL },
{ 11, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(11) */ /* 216 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-42/42-0050/eeprom", NULL },
{ 12, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(12) */ /* 220 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-43/43-0050/eeprom", NULL },
{ 13, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(13) */ /* 224 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-44/44-0050/eeprom", NULL },
{ 14, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(14) */ /* 228 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-45/45-0050/eeprom", NULL },
{ 15, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(15) */ /* 232 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-46/46-0050/eeprom", NULL },
{ 16, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(16) */ /* 236 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-17/i2c-47/47-0050/eeprom", NULL },
{ 17, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(17) */ /* 248 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-48/48-0050/eeprom", NULL },
{ 18, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(18) */ /* 252 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-49/49-0050/eeprom", NULL },
{ 19, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(19) */ /* 256 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-50/50-0050/eeprom", NULL },
{ 20, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(20) */ /* 260 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-51/51-0050/eeprom", NULL },
{ 21, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(21) */ /* 264 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-52/52-0050/eeprom", NULL },
{ 22, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(22) */ /* 268 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-53/53-0050/eeprom", NULL },
{ 23, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(23) */ /* 272 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-54/54-0050/eeprom", NULL },
{ 24, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(24) */ /* 276 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-18/i2c-55/55-0050/eeprom", NULL },
{ 25, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(25) */ /* 288 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-56/56-0050/eeprom", NULL },
{ 26, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(26) */ /* 292 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-57/57-0050/eeprom", NULL },
{ 27, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(27) */ /* 296 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-58/58-0050/eeprom", NULL },
{ 28, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(28) */ /* 300 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-59/59-0050/eeprom", NULL },
{ 29, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(29) */ /* 304 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-60/60-0050/eeprom", NULL },
{ 30, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(30) */ /* 308 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-61/61-0050/eeprom", NULL },
{ 31, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(31) */ /* 312 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-62/62-0050/eeprom", NULL },
{ 32, -1 /* QUANTA_LY6_CPLD_QSFP_PRSNT(32) */ /* 316 */, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-19/i2c-63/63-0050/eeprom", NULL },
};
int
onlp_sfpi_init(void)
{
int value = -1, ret;
ret = pca953x_gpio_value_get(QSFP_EN_GPIO_P3V3_PW_EN, &value);
ret = pca953x_gpio_value_get(QUANTA_LY6_QSFP_EN_GPIO_P3V3_PW_EN, &value);
if(ret == ONLP_STATUS_OK && value != GPIO_HIGH) {
ret = pca953x_gpio_value_set(QSFP_EN_GPIO_P3V3_PW_EN, GPIO_HIGH);
ret = pca953x_gpio_value_set(QUANTA_LY6_QSFP_EN_GPIO_P3V3_PW_EN, GPIO_HIGH);
sleep(1);
}

197
packages/platforms/quanta/x86-64/x86-64-quanta-ly6-rangeley/onlp/builds/src/x86_64_quanta_ly6_rangeley/module/src/sysi.c Normal file → Executable file
View File

@@ -10,6 +10,24 @@
#include "x86_64_quanta_ly6_rangeley_int.h"
#include "x86_64_quanta_ly6_rangeley_log.h"
#include <quanta_sys_eeprom/eeprom.h>
#include <x86_64_quanta_ly6_rangeley/x86_64_quanta_ly6_rangeley_gpio_table.h>
#include <onlplib/gpio.h>
#include <onlplib/i2c.h>
#include <onlp/platformi/ledi.h>
struct led_control_s led_control;
#define QUANTA_HWMON_REG_TEMP_ALERT_MASK 0x1E
#define QUANTA_HWMON_REG_TEMP_ALERT_CTRL 0x1D
#define QUANTA_HWMON_REG_FAN_ALERT_MASK 0x31
#define QUANTA_HWMON_REG_FAN_ALERT_CTRL 0x30
#define QUANTA_FAN_1_1 0x01
#define QUANTA_FAN_1_2 0x10
#define QUANTA_FAN_2_1 0x02
#define QUANTA_FAN_2_2 0x20
#define QUANTA_FAN_3_1 0x04
#define QUANTA_FAN_3_2 0x40
const char*
onlp_sysi_platform_get(void)
@@ -20,6 +38,49 @@ onlp_sysi_platform_get(void)
int
onlp_sysi_init(void)
{
/* Initial value */
led_control.PMCnt = 0;
led_control.fan_alert = 0xff;
led_control.psu1_present = 0;
led_control.psu2_present = 0;
led_control.psu1_power_good = 0;
led_control.psu2_power_good = 0;
/* Set PSoc Fan-Alert Enable */
onlp_i2c_writeb(0, 0x4e, QUANTA_HWMON_REG_TEMP_ALERT_MASK, 0x37, ONLP_I2C_F_FORCE);
onlp_i2c_writeb(0, 0x4e, QUANTA_HWMON_REG_TEMP_ALERT_CTRL, 0x3, ONLP_I2C_F_FORCE);
onlp_i2c_writeb(0, 0x4e, QUANTA_HWMON_REG_FAN_ALERT_MASK, 0x77, ONLP_I2C_F_FORCE);
onlp_i2c_writeb(0, 0x4e, QUANTA_HWMON_REG_FAN_ALERT_CTRL, 0x1, ONLP_I2C_F_FORCE);
/* Config GPIO */
/* LED Output */
onlp_gpio_export(QUANTA_LY6_CPU_BOARD_SYS_P1, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_CPU_BOARD_SYS_P2, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_PSU1_GREEN_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_PSU1_RED_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_PSU2_GREEN_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_PSU2_RED_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_FAN_FAIL_LED_1, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_FAN_FAIL_LED_2, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_FAN_FAIL_LED_3, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_FAN_GREEN_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_FAN_RED_R, ONLP_GPIO_DIRECTION_OUT);
/* PSU Input */
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_PSU1_PRSNT_N, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_PSU1_PWRGD, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_PSU2_PRSNT_N, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY6_PSU_GPIO_PSU2_PWRGD, ONLP_GPIO_DIRECTION_IN);
/* FAN Input */
onlp_gpio_export(QUANTA_LY6_FAN_PRSNT_N_1, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY6_FAN_PRSNT_N_2, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY6_FAN_PRSNT_N_3, ONLP_GPIO_DIRECTION_IN);
/* Set LED to green */
onlp_ledi_mode_set(LED_OID_SYSTEM, ONLP_LED_MODE_GREEN);
led_control.psu_status_changed = 1;
led_control.fan_status_changed = 1;
onlp_sysi_platform_manage_leds();
return ONLP_STATUS_OK;
}
@@ -72,7 +133,141 @@ onlp_sysi_oids_get(onlp_oid_t* table, int max)
*e++ = PSU_OID_PSU2;
/*
* Todo - LEDs
* 7 LEDs
*/
*e++ = LED_OID_SYSTEM;
*e++ = LED_OID_FAN;
*e++ = LED_OID_PSU_1;
*e++ = LED_OID_PSU_2;
*e++ = LED_OID_FAN_FAIL_1;
*e++ = LED_OID_FAN_FAIL_2;
*e++ = LED_OID_FAN_FAIL_3;
return 0;
}
int
update_rpsu_fan_status(void){
int last_status, rv, value = -1, tmp;
last_status = led_control.psu1_present;
rv = onlp_gpio_get(QUANTA_LY6_PSU_GPIO_PSU1_PRSNT_N, &value);
if(rv < 0) {
printf("GPIO %d read Error!\n", QUANTA_LY6_PSU_GPIO_PSU1_PRSNT_N);
return rv;
}
led_control.psu1_present = (value ? 0 : 1);
if(last_status != led_control.psu1_present)
led_control.psu_status_changed = 1;
last_status = led_control.psu1_power_good;
rv = onlp_gpio_get(QUANTA_LY6_PSU_GPIO_PSU1_PWRGD, &value);
if(rv < 0) {
printf("GPIO %d read Error!\n", QUANTA_LY6_PSU_GPIO_PSU1_PWRGD);
return rv;
}
led_control.psu1_power_good = (value ? 1 : 0);
if(last_status != led_control.psu1_power_good)
led_control.psu_status_changed = 1;
last_status = led_control.psu2_present;
rv = onlp_gpio_get(QUANTA_LY6_PSU_GPIO_PSU2_PRSNT_N, &value);
if(rv < 0) {
printf("GPIO %d read Error!\n", QUANTA_LY6_PSU_GPIO_PSU2_PRSNT_N);
return rv;
}
led_control.psu2_present = (value ? 0 : 1);
if(last_status != led_control.psu2_present)
led_control.psu_status_changed = 1;
last_status = led_control.psu2_power_good;
rv = onlp_gpio_get(QUANTA_LY6_PSU_GPIO_PSU2_PWRGD, &value);
if(rv < 0) {
printf("GPIO %d read Error!\n", QUANTA_LY6_PSU_GPIO_PSU2_PWRGD);
return rv;
}
led_control.psu2_power_good = (value ? 1 : 0);
if(last_status != led_control.psu2_power_good)
led_control.psu_status_changed = 1;
tmp = led_control.fan_alert;
led_control.fan_alert = onlp_i2c_readb(0, 0x4e, 0x32, ONLP_I2C_F_FORCE);
if(tmp != led_control.fan_alert)
led_control.fan_status_changed = 1;
return ONLP_STATUS_OK;
}
int
onlp_sysi_platform_manage_leds(void)
{
int rv;
led_control.PMCnt++;
if(led_control.PMCnt>300)
led_control.PMCnt = 0;
if(led_control.PMCnt % 5 == 1){/* Each 10 seconds detect one time */
rv = update_rpsu_fan_status();
if(rv < 0){
printf("onlp_sysi_platform_manage_leds error\n");
return ONLP_STATUS_E_INVALID;
}
if(led_control.psu_status_changed){
if(led_control.psu1_present && led_control.psu1_power_good) {
onlp_ledi_mode_set(LED_ID_PSU_1, ONLP_LED_MODE_GREEN);
}
else if(!led_control.psu1_present){
onlp_ledi_mode_set(LED_ID_PSU_1, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_PSU_1, ONLP_LED_MODE_RED);
}
if(led_control.psu2_present && led_control.psu2_power_good) {
onlp_ledi_mode_set(LED_ID_PSU_2, ONLP_LED_MODE_GREEN);
}
else if(!led_control.psu2_present){
onlp_ledi_mode_set(LED_ID_PSU_2, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_PSU_2, ONLP_LED_MODE_RED);
}
led_control.psu_status_changed = 0;
}
if(led_control.fan_status_changed){
if(!(led_control.fan_alert & QUANTA_FAN_1_1) && !(led_control.fan_alert & QUANTA_FAN_1_2)) {
onlp_ledi_mode_set(LED_ID_FAN_FAIL_1, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_FAN_FAIL_1, ONLP_LED_MODE_RED);
}
if(!(led_control.fan_alert & QUANTA_FAN_2_1) && !(led_control.fan_alert & QUANTA_FAN_2_2)) {
onlp_ledi_mode_set(LED_ID_FAN_FAIL_2, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_FAN_FAIL_2, ONLP_LED_MODE_RED);
}
if(!(led_control.fan_alert & QUANTA_FAN_3_1) && !(led_control.fan_alert & QUANTA_FAN_3_2)) {
onlp_ledi_mode_set(LED_ID_FAN_FAIL_3, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_FAN_FAIL_3, ONLP_LED_MODE_RED);
}
if(!led_control.fan_alert){
onlp_ledi_mode_set(LED_ID_FAN, ONLP_LED_MODE_GREEN);
}
else{
onlp_ledi_mode_set(LED_ID_FAN, ONLP_LED_MODE_RED);
}
led_control.fan_status_changed = 0;
}
}
return ONLP_STATUS_OK;
}

81
packages/platforms/quanta/x86-64/x86-64-quanta-ly6-rangeley/onlp/builds/src/x86_64_quanta_ly6_rangeley/module/src/x86_64_quanta_ly6_rangeley_int.h Normal file → Executable file
View File

@@ -217,9 +217,6 @@ extern aim_map_si_t fan_oid_map[];
extern aim_map_si_t fan_oid_desc_map[];
/* <auto.end.enum(ALL).header> */
#define SYS_HWMON_PREFIX "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/0-004e"
/* psu info table */
struct psu_info_s {
char path[PATH_MAX];
@@ -228,4 +225,82 @@ struct psu_info_s {
int addr;
};
/** led_id */
typedef enum led_id_e {
LED_ID_SYSTEM = 1,
LED_ID_FAN = 2,
LED_ID_PSU_1 = 3,
LED_ID_PSU_2 = 4,
LED_ID_FAN_FAIL_1 = 5,
LED_ID_FAN_FAIL_2 = 6,
LED_ID_FAN_FAIL_3 = 7,
} led_id_t;
/** Enum names. */
const char* led_id_name(led_id_t e);
/** Enum values. */
int led_id_value(const char* str, led_id_t* e, int substr);
/** Enum descriptions. */
const char* led_id_desc(led_id_t e);
/** Enum validator. */
int led_id_valid(led_id_t e);
/** validator */
#define LED_ID_VALID(_e) \
(led_id_valid((_e)))
/** led_id_map table. */
extern aim_map_si_t led_id_map[];
/** led_id_desc_map table. */
extern aim_map_si_t led_id_desc_map[];
/** led_oid */
typedef enum led_oid_e {
LED_OID_SYSTEM = ONLP_LED_ID_CREATE(LED_ID_SYSTEM),
LED_OID_FAN = ONLP_LED_ID_CREATE(LED_ID_FAN),
LED_OID_PSU_1 = ONLP_LED_ID_CREATE(LED_ID_PSU_1),
LED_OID_PSU_2 = ONLP_LED_ID_CREATE(LED_ID_PSU_2),
LED_OID_FAN_FAIL_1 = ONLP_LED_ID_CREATE(LED_ID_FAN_FAIL_1),
LED_OID_FAN_FAIL_2 = ONLP_LED_ID_CREATE(LED_ID_FAN_FAIL_2),
LED_OID_FAN_FAIL_3 = ONLP_LED_ID_CREATE(LED_ID_FAN_FAIL_3),
} led_oid_t;
/** Enum names. */
const char* led_oid_name(led_oid_t e);
/** Enum values. */
int led_oid_value(const char* str, led_oid_t* e, int substr);
/** Enum descriptions. */
const char* led_oid_desc(led_oid_t e);
/** Enum validator. */
int led_oid_valid(led_oid_t e);
/** validator */
#define LED_OID_VALID(_e) \
(led_oid_valid((_e)))
/** led_oid_map table. */
extern aim_map_si_t led_oid_map[];
/** led_oid_desc_map table. */
extern aim_map_si_t led_oid_desc_map[];
/* <auto.end.enum(ALL).header> */
struct led_control_s{
int PMCnt;
int psu_status_changed;
int fan_status_changed;
int fan_alert;
int psu1_present;
int psu2_present;
int psu1_power_good;
int psu2_power_good;
};
#define SYS_HWMON_PREFIX "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/0-004e"
#endif /* __X86_64_QUANTA_LY6_RANGELEY_INT_H__ */

2
packages/platforms/quanta/x86-64/x86-64-quanta-ly8-rangeley/onlp/builds/src/x86_64_quanta_ly8_rangeley/module/src/x86_64_quanta_ly8_rangeley_int.h
View File

@@ -225,7 +225,7 @@ struct psu_info_s {
int addr;
};
/** fan_id */
/** led_id */
typedef enum led_id_e {
LED_ID_SYSTEM = 1,
LED_ID_FAN = 2,

82
packages/platforms/quanta/x86-64/x86-64-quanta-ly9-rangeley/onlp/builds/src/x86_64_quanta_ly9_rangeley/module/inc/x86_64_quanta_ly9_rangeley/x86_64_quanta_ly9_rangeley_gpio_table.h
View File

@@ -5,49 +5,55 @@
* defined within platform/quanta_switch.c
* Quanta Switch Platform driver
*/
#define PCA953x_GPIO(P1, P2) (P1*8+P2)
#define QUANTA_LY9_PCA953x_GPIO(P1, P2) (P1*8+P2)
#define PCA9555_GPIO_SIZE 0x10
#define QUANTA_LY9_PCA9555_GPIO_SIZE 0x10
#define I2C_GPIO_BASE 0x80
#define QUANTA_LY9_I2C_GPIO_CPU_BASE 0x40
#define FAN_GPIO_BASE (I2C_GPIO_BASE)
#define FAN_GPIO_SIZE PCA9555_GPIO_SIZE
#define FAN_PRSNT_N_1 (FAN_GPIO_BASE + PCA953x_GPIO(0,4))
#define FAN_PRSNT_N_2 (FAN_GPIO_BASE + PCA953x_GPIO(0,5))
#define FAN_PRSNT_N_3 (FAN_GPIO_BASE + PCA953x_GPIO(0,6))
#define FAN_BF_DET1 (FAN_GPIO_BASE + PCA953x_GPIO(1,0))
#define FAN_BF_DET2 (FAN_GPIO_BASE + PCA953x_GPIO(1,1))
#define FAN_BF_DET3 (FAN_GPIO_BASE + PCA953x_GPIO(1,2))
#define FAN_FAIL_LED_1 (FAN_GPIO_BASE + PCA953x_GPIO(1,4))
#define FAN_FAIL_LED_2 (FAN_GPIO_BASE + PCA953x_GPIO(1,5))
#define FAN_FAIL_LED_3 (FAN_GPIO_BASE + PCA953x_GPIO(1,6))
#define QUANTA_LY9_CPU_BOARD_GPIO_BASE (QUANTA_LY9_I2C_GPIO_CPU_BASE)
#define QUANTA_LY9_CPU_BOARD_SYS_P1 (QUANTA_LY9_CPU_BOARD_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,2))
#define QUANTA_LY9_CPU_BOARD_SYS_P2 (QUANTA_LY9_CPU_BOARD_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,3))
#define QSFP_EN_GPIO_BASE (FAN_GPIO_BASE + FAN_GPIO_SIZE)
#define QSFP_EN_GPIO_SIZE PCA9555_GPIO_SIZE
#define QSFP_EN_GPIO_P3V3_PW_GD (QSFP_EN_GPIO_BASE + PCA953x_GPIO(0,4))
#define QSFP_EN_GPIO_P3V3_PW_EN (QSFP_EN_GPIO_BASE + PCA953x_GPIO(0,5))
#define QSFP_EN_GPIO_QDB_PRSNT (QSFP_EN_GPIO_BASE + PCA953x_GPIO(0,6))
#define QUANTA_LY9_I2C_GPIO_BASE 0x80
#define QSFP_QDB_GPIO_BASE (QSFP_EN_GPIO_BASE + QSFP_EN_GPIO_SIZE)
#define QSFP_QDB_GPIO_SIZE PCA9555_GPIO_SIZE
#define QSFP_QDB_GPIO_PRSNT_53_N (QSFP_QDB_GPIO_BASE + PCA953x_GPIO(0,2))
#define QSFP_QDB_GPIO_PRSNT_54_N (QSFP_QDB_GPIO_BASE + PCA953x_GPIO(0,6))
#define QSFP_QDB_GPIO_MOD_EN_N (QSFP_QDB_GPIO_BASE + PCA953x_GPIO(1,0))
#define QUANTA_LY9_FAN_GPIO_BASE (QUANTA_LY9_I2C_GPIO_BASE)
#define QUANTA_LY9_FAN_GPIO_SIZE QUANTA_LY9_PCA9555_GPIO_SIZE
#define QUANTA_LY9_FAN_PRSNT_N_1 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,4))
#define QUANTA_LY9_FAN_PRSNT_N_2 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,5))
#define QUANTA_LY9_FAN_PRSNT_N_3 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,6))
#define QUANTA_LY9_FAN_BF_DET1 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,0))
#define QUANTA_LY9_FAN_BF_DET2 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,1))
#define QUANTA_LY9_FAN_BF_DET3 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,2))
#define QUANTA_LY9_FAN_FAIL_LED_1 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,4))
#define QUANTA_LY9_FAN_FAIL_LED_2 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,5))
#define QUANTA_LY9_FAN_FAIL_LED_3 (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,6))
#define PSU_GPIO_BASE (QSFP_QDB_GPIO_BASE + QSFP_QDB_GPIO_SIZE)
#define PSU_GPIO_SIZE PCA9555_GPIO_SIZE
#define PSU_GPIO_PSU1_PRSNT_N (PSU_GPIO_BASE + PCA953x_GPIO(0,0))
#define PSU_GPIO_PSU1_PWRGD (PSU_GPIO_BASE + PCA953x_GPIO(0,1))
#define PSU_GPIO_PSU2_PRSNT_N (PSU_GPIO_BASE + PCA953x_GPIO(0,3))
#define PSU_GPIO_PSU2_PWRGD (PSU_GPIO_BASE + PCA953x_GPIO(0,4))
#define PSU_GPIO_PSU1_AC_OK (PSU_GPIO_BASE + PCA953x_GPIO(0,6))
#define PSU_GPIO_PSU2_AC_OK (PSU_GPIO_BASE + PCA953x_GPIO(0,7))
#define PSU_GPIO_PSU1_GREEN_R (PSU_GPIO_BASE + PCA953x_GPIO(1,2))
#define PSU_GPIO_PSU1_RED_R (PSU_GPIO_BASE + PCA953x_GPIO(1,3))
#define PSU_GPIO_PSU2_GREEN_R (PSU_GPIO_BASE + PCA953x_GPIO(1,4))
#define PSU_GPIO_PSU2_RED_R (PSU_GPIO_BASE + PCA953x_GPIO(1,5))
#define PSU_GPIO_FAN_GREEN_R (PSU_GPIO_BASE + PCA953x_GPIO(1,6))
#define PSU_GPIO_FAN_RED_R (PSU_GPIO_BASE + PCA953x_GPIO(1,7))
#define QUANTA_LY9_QSFP_EN_GPIO_BASE (QUANTA_LY9_FAN_GPIO_BASE + QUANTA_LY9_FAN_GPIO_SIZE)
#define QUANTA_LY9_QSFP_EN_GPIO_SIZE QUANTA_LY9_PCA9555_GPIO_SIZE
#define QUANTA_LY9_QSFP_EN_GPIO_P3V3_PW_GD (QUANTA_LY9_QSFP_EN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,4))
#define QUANTA_LY9_QSFP_EN_GPIO_P3V3_PW_EN (QUANTA_LY9_QSFP_EN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,5))
#define QUANTA_LY9_QSFP_EN_GPIO_QDB_PRSNT (QUANTA_LY9_QSFP_EN_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,6))
#define QUANTA_LY9_QSFP_QDB_GPIO_BASE (QUANTA_LY9_QSFP_EN_GPIO_BASE + QUANTA_LY9_QSFP_EN_GPIO_SIZE)
#define QUANTA_LY9_QSFP_QDB_GPIO_SIZE QUANTA_LY9_PCA9555_GPIO_SIZE
#define QUANTA_LY9_QSFP_QDB_GPIO_PRSNT_53_N (QUANTA_LY9_QSFP_QDB_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,2))
#define QUANTA_LY9_QSFP_QDB_GPIO_PRSNT_54_N (QUANTA_LY9_QSFP_QDB_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,6))
#define QUANTA_LY9_QSFP_QDB_GPIO_MOD_EN_N (QUANTA_LY9_QSFP_QDB_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,0))
#define QUANTA_LY9_PSU_GPIO_BASE (QUANTA_LY9_QSFP_QDB_GPIO_BASE + QUANTA_LY9_QSFP_QDB_GPIO_SIZE)
#define QUANTA_LY9_PSU_GPIO_SIZE QUANTA_LY9_PCA9555_GPIO_SIZE
#define QUANTA_LY9_PSU_GPIO_PSU1_PRSNT_N (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,0))
#define QUANTA_LY9_PSU_GPIO_PSU1_PWRGD (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,1))
#define QUANTA_LY9_PSU_GPIO_PSU2_PRSNT_N (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,3))
#define QUANTA_LY9_PSU_GPIO_PSU2_PWRGD (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,4))
#define QUANTA_LY9_PSU_GPIO_PSU1_AC_OK (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,6))
#define QUANTA_LY9_PSU_GPIO_PSU2_AC_OK (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(0,7))
#define QUANTA_LY9_PSU_GPIO_PSU1_GREEN_R (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,2))
#define QUANTA_LY9_PSU_GPIO_PSU1_RED_R (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,3))
#define QUANTA_LY9_PSU_GPIO_PSU2_GREEN_R (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,4))
#define QUANTA_LY9_PSU_GPIO_PSU2_RED_R (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,5))
#define QUANTA_LY9_PSU_GPIO_FAN_GREEN_R (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,6))
#define QUANTA_LY9_PSU_GPIO_FAN_RED_R (QUANTA_LY9_PSU_GPIO_BASE + QUANTA_LY9_PCA953x_GPIO(1,7))
#endif /* __X86_64_QUANTA_LY9_RANGELEY_GPIO_TABLE_H__ */

22
packages/platforms/quanta/x86-64/x86-64-quanta-ly9-rangeley/onlp/builds/src/x86_64_quanta_ly9_rangeley/module/src/fani.c
View File

@@ -30,7 +30,7 @@
#include "x86_64_quanta_ly9_rangeley_log.h"
#include <onlplib/file.h>
#include <quanta_lib/gpio.h>
#include <onlplib/gpio.h>
int
onlp_fani_init(void)
@@ -45,13 +45,13 @@ struct fan_gpio_s {
static struct fan_gpio_s fan_gpio[] = {
{}, /* Not used */
{ .present = FAN_PRSNT_N_1, .fan_dir_detect = FAN_BF_DET1 },
{ .present = FAN_PRSNT_N_2, .fan_dir_detect = FAN_BF_DET2 },
{ .present = FAN_PRSNT_N_3, .fan_dir_detect = FAN_BF_DET3 },
{ .present = QUANTA_LY9_FAN_PRSNT_N_1, .fan_dir_detect = QUANTA_LY9_FAN_BF_DET1 },
{ .present = QUANTA_LY9_FAN_PRSNT_N_2, .fan_dir_detect = QUANTA_LY9_FAN_BF_DET2 },
{ .present = QUANTA_LY9_FAN_PRSNT_N_3, .fan_dir_detect = QUANTA_LY9_FAN_BF_DET3 },
{}, /* Not used */
{ .present = FAN_PRSNT_N_1, .fan_dir_detect = FAN_BF_DET1 },
{ .present = FAN_PRSNT_N_2, .fan_dir_detect = FAN_BF_DET2 },
{ .present = FAN_PRSNT_N_3, .fan_dir_detect = FAN_BF_DET3 },
{ .present = QUANTA_LY9_FAN_PRSNT_N_1, .fan_dir_detect = QUANTA_LY9_FAN_BF_DET1 },
{ .present = QUANTA_LY9_FAN_PRSNT_N_2, .fan_dir_detect = QUANTA_LY9_FAN_BF_DET2 },
{ .present = QUANTA_LY9_FAN_PRSNT_N_3, .fan_dir_detect = QUANTA_LY9_FAN_BF_DET3 },
{}, /* Not used */
};
@@ -61,11 +61,11 @@ sys_fan_info_get__(onlp_fan_info_t* info, int id)
int value = 0;
int rv;
if(pca953x_gpio_value_get(fan_gpio[id].present, &value) == ONLP_STATUS_OK
&& value == GPIO_LOW) {
if(onlp_gpio_get(fan_gpio[id].present, &value) == ONLP_STATUS_OK
&& value == 0) {
info->status = ONLP_FAN_STATUS_PRESENT;
if(pca953x_gpio_value_get(fan_gpio[id].fan_dir_detect, &value) == ONLP_STATUS_OK
&& value == GPIO_LOW) {
if(onlp_gpio_get(fan_gpio[id].fan_dir_detect, &value) == ONLP_STATUS_OK
&& value == 0) {
info->status |= ONLP_FAN_STATUS_F2B;
info->caps |= ONLP_FAN_CAPS_F2B;
}

210
packages/platforms/quanta/x86-64/x86-64-quanta-ly9-rangeley/onlp/builds/src/x86_64_quanta_ly9_rangeley/module/src/ledi.c Executable file
View File

@@ -0,0 +1,210 @@
#include <onlp/platformi/ledi.h>
#include <sys/mman.h>
#include <stdio.h>
#include <string.h>
#include <fcntl.h>
#include "x86_64_quanta_ly9_rangeley_int.h"
#include <x86_64_quanta_ly9_rangeley/x86_64_quanta_ly9_rangeley_gpio_table.h>
#include <onlplib/gpio.h>
/*
* Get the information for the given LED OID.
*/
static onlp_led_info_t led_info[] =
{
{ }, /* Not used */
{
{ LED_OID_SYSTEM, "System LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_ORANGE | ONLP_LED_CAPS_GREEN,
},
{
{ LED_OID_FAN, "Front FAN LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED | ONLP_LED_CAPS_GREEN,
},
{
{ LED_OID_PSU_1, "Front PSU(1) LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED | ONLP_LED_CAPS_GREEN,
},
{
{ LED_OID_PSU_2, "Front PSU(2) LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED | ONLP_LED_CAPS_GREEN,
},
{
{ LED_OID_FAN_FAIL_1, "FAN(1) fail LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED,
},
{
{ LED_OID_FAN_FAIL_2, "FAN(2) fail LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED,
},
{
{ LED_OID_FAN_FAIL_3, "FAN(3) fail LED", 0 },
ONLP_LED_STATUS_PRESENT,
ONLP_LED_CAPS_ON_OFF | ONLP_LED_CAPS_RED,
}
};
int
onlp_ledi_init(void)
{
return ONLP_STATUS_OK;
}
int
onlp_ledi_info_get(onlp_oid_t id, onlp_led_info_t* info)
{
int led_id;
led_id = ONLP_OID_ID_GET(id);
*info = led_info[led_id];
info->status |= ONLP_LED_STATUS_ON;
info->mode |= ONLP_LED_MODE_ON;
return ONLP_STATUS_OK;
}
void
Sysfs_Set_System_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_GREEN){
onlp_gpio_set(QUANTA_LY9_CPU_BOARD_SYS_P1, 0);
onlp_gpio_set(QUANTA_LY9_CPU_BOARD_SYS_P2, 1);
}
else if(mode == ONLP_LED_MODE_ORANGE){
onlp_gpio_set(QUANTA_LY9_CPU_BOARD_SYS_P1, 1);
onlp_gpio_set(QUANTA_LY9_CPU_BOARD_SYS_P2, 0);
}
else{
onlp_gpio_set(QUANTA_LY9_CPU_BOARD_SYS_P1, 1);
onlp_gpio_set(QUANTA_LY9_CPU_BOARD_SYS_P2, 1);
}
}
void
Sysfs_Set_Fan_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_GREEN){
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_FAN_GREEN_R, 1);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_FAN_RED_R, 0);
}
else if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_FAN_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_FAN_RED_R, 1);
}
else{
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_FAN_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_FAN_RED_R, 0);
}
}
void
Sysfs_Set_Psu1_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_GREEN){
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU1_GREEN_R, 1);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU1_RED_R, 0);
}
else if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU1_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU1_RED_R, 1);
}
else{
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU1_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU1_RED_R, 0);
}
}
void
Sysfs_Set_Psu2_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_GREEN){
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU2_GREEN_R, 1);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU2_RED_R, 0);
}
else if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU2_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU2_RED_R, 1);
}
else{
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU2_GREEN_R, 0);
onlp_gpio_set(QUANTA_LY9_PSU_GPIO_PSU2_RED_R, 0);
}
}
void
Sysfs_Set_Fan_Fail1_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY9_FAN_FAIL_LED_1, 1);
}
else{
onlp_gpio_set(QUANTA_LY9_FAN_FAIL_LED_1, 0);
}
}
void
Sysfs_Set_Fan_Fail2_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY9_FAN_FAIL_LED_2, 1);
}
else{
onlp_gpio_set(QUANTA_LY9_FAN_FAIL_LED_2, 0);
}
}
void
Sysfs_Set_Fan_Fail3_LED(onlp_led_mode_t mode)
{
if(mode == ONLP_LED_MODE_RED){
onlp_gpio_set(QUANTA_LY9_FAN_FAIL_LED_3, 1);
}
else{
onlp_gpio_set(QUANTA_LY9_FAN_FAIL_LED_3, 0);
}
}
int
onlp_ledi_mode_set(onlp_oid_t id, onlp_led_mode_t mode)
{
int led_id;
led_id = ONLP_OID_ID_GET(id);
switch (led_id) {
case LED_ID_SYSTEM:
Sysfs_Set_System_LED(mode);
break;
case LED_ID_FAN:
Sysfs_Set_Fan_LED(mode);
break;
case LED_ID_PSU_1:
Sysfs_Set_Psu1_LED(mode);
break;
case LED_ID_PSU_2:
Sysfs_Set_Psu2_LED(mode);
break;
case LED_ID_FAN_FAIL_1:
Sysfs_Set_Fan_Fail1_LED(mode);
break;
case LED_ID_FAN_FAIL_2:
Sysfs_Set_Fan_Fail2_LED(mode);
break;
case LED_ID_FAN_FAIL_3:
Sysfs_Set_Fan_Fail3_LED(mode);
break;
default:
return ONLP_STATUS_E_INTERNAL;
break;
}
return ONLP_STATUS_OK;
}

10
packages/platforms/quanta/x86-64/x86-64-quanta-ly9-rangeley/onlp/builds/src/x86_64_quanta_ly9_rangeley/module/src/psui.c
View File

@@ -12,15 +12,15 @@
#include <onlplib/file.h>
#include <onlplib/i2c.h>
#include <quanta_lib/i2c.h>
#include <quanta_lib/gpio.h>
#include <onlplib/gpio.h>
#include "x86_64_quanta_ly9_rangeley_int.h"
#include "x86_64_quanta_ly9_rangeley_log.h"
#include <AIM/aim_string.h>
struct psu_info_s psu_info[] = {
{}, /* Not used */
{ .path = "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-24/24-006f", .present = PSU_GPIO_PSU1_PRSNT_N, .busno = 24, .addr = 0x6f},
{ .path = "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-25/25-0069", .present = PSU_GPIO_PSU2_PRSNT_N, .busno = 25, .addr = 0x69},
{ .path = "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-24/24-006f", .present = QUANTA_LY9_PSU_GPIO_PSU1_PRSNT_N, .busno = 24, .addr = 0x6f},
{ .path = "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-25/25-0069", .present = QUANTA_LY9_PSU_GPIO_PSU2_PRSNT_N, .busno = 25, .addr = 0x69},
};
int
@@ -68,11 +68,11 @@ onlp_psui_info_get(onlp_oid_t id, onlp_psu_info_t* info)
uint8_t buffer[ONLP_CONFIG_INFO_STR_MAX];
int value = -1;
rv = pca953x_gpio_value_get(psu_info[pid].present, &value);
rv = onlp_gpio_get(psu_info[pid].present, &value);
if(rv < 0) {
return rv;
}
else if(value == GPIO_HIGH) {
else if(value == 1) {
info->status &= ~1;
return 0;
}

12
packages/platforms/quanta/x86-64/x86-64-quanta-ly9-rangeley/onlp/builds/src/x86_64_quanta_ly9_rangeley/module/src/sfpi.c
View File

@@ -63,22 +63,22 @@ typedef struct qsfpmap_s {
static qsfpmap_t qsfpmap__[] =
{
{ 53, QSFP_QDB_GPIO_PRSNT_53_N, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-23/i2c-48/48-0050/eeprom", NULL },
{ 54, QSFP_QDB_GPIO_PRSNT_54_N, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-23/i2c-49/49-0050/eeprom", NULL },
{ 53, QUANTA_LY9_QSFP_QDB_GPIO_PRSNT_53_N, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-23/i2c-48/48-0050/eeprom", NULL },
{ 54, QUANTA_LY9_QSFP_QDB_GPIO_PRSNT_54_N, NULL, "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-23/i2c-49/49-0050/eeprom", NULL },
};
int
onlp_sfpi_init(void)
{
int value = -1, ret;
ret = pca953x_gpio_value_get(QSFP_EN_GPIO_P3V3_PW_EN, &value);
ret = pca953x_gpio_value_get(QUANTA_LY9_QSFP_EN_GPIO_P3V3_PW_EN, &value);
if(ret == ONLP_STATUS_OK && value != GPIO_LOW) {
ret = pca953x_gpio_value_set(QSFP_EN_GPIO_P3V3_PW_EN, GPIO_LOW);
ret = pca953x_gpio_value_set(QUANTA_LY9_QSFP_EN_GPIO_P3V3_PW_EN, GPIO_LOW);
}
if(ret == ONLP_STATUS_OK) {
ret = pca953x_gpio_value_get(QSFP_QDB_GPIO_MOD_EN_N, &value);
ret = pca953x_gpio_value_get(QUANTA_LY9_QSFP_QDB_GPIO_MOD_EN_N, &value);
if(ret == ONLP_STATUS_OK && value != GPIO_LOW) {
ret = pca953x_gpio_value_set(QSFP_QDB_GPIO_MOD_EN_N, GPIO_LOW);
ret = pca953x_gpio_value_set(QUANTA_LY9_QSFP_QDB_GPIO_MOD_EN_N, GPIO_LOW);
}
}

197
packages/platforms/quanta/x86-64/x86-64-quanta-ly9-rangeley/onlp/builds/src/x86_64_quanta_ly9_rangeley/module/src/sysi.c
View File

@@ -10,6 +10,24 @@
#include "x86_64_quanta_ly9_rangeley_int.h"
#include "x86_64_quanta_ly9_rangeley_log.h"
#include <quanta_sys_eeprom/eeprom.h>
#include <x86_64_quanta_ly9_rangeley/x86_64_quanta_ly9_rangeley_gpio_table.h>
#include <onlplib/gpio.h>
#include <onlplib/i2c.h>
#include <onlp/platformi/ledi.h>
struct led_control_s led_control;
#define QUANTA_HWMON_REG_TEMP_ALERT_MASK 0x1E
#define QUANTA_HWMON_REG_TEMP_ALERT_CTRL 0x1D
#define QUANTA_HWMON_REG_FAN_ALERT_MASK 0x31
#define QUANTA_HWMON_REG_FAN_ALERT_CTRL 0x30
#define QUANTA_FAN_1_1 0x01
#define QUANTA_FAN_1_2 0x10
#define QUANTA_FAN_2_1 0x02
#define QUANTA_FAN_2_2 0x20
#define QUANTA_FAN_3_1 0x04
#define QUANTA_FAN_3_2 0x40
const char*
onlp_sysi_platform_get(void)
@@ -20,6 +38,49 @@ onlp_sysi_platform_get(void)
int
onlp_sysi_init(void)
{
/* Initial value */
led_control.PMCnt = 0;
led_control.fan_alert = 0xff;
led_control.psu1_present = 0;
led_control.psu2_present = 0;
led_control.psu1_power_good = 0;
led_control.psu2_power_good = 0;
/* Set PSoc Fan-Alert Enable */
onlp_i2c_writeb(0, 0x4e, QUANTA_HWMON_REG_TEMP_ALERT_MASK, 0x3f, ONLP_I2C_F_FORCE);
onlp_i2c_writeb(0, 0x4e, QUANTA_HWMON_REG_TEMP_ALERT_CTRL, 0x3, ONLP_I2C_F_FORCE);
onlp_i2c_writeb(0, 0x4e, QUANTA_HWMON_REG_FAN_ALERT_MASK, 0x77, ONLP_I2C_F_FORCE);
onlp_i2c_writeb(0, 0x4e, QUANTA_HWMON_REG_FAN_ALERT_CTRL, 0x1, ONLP_I2C_F_FORCE);
/* Config GPIO */
/* LED Output */
onlp_gpio_export(QUANTA_LY9_CPU_BOARD_SYS_P1, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_CPU_BOARD_SYS_P2, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_PSU1_GREEN_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_PSU1_RED_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_PSU2_GREEN_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_PSU2_RED_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_FAN_FAIL_LED_1, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_FAN_FAIL_LED_2, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_FAN_FAIL_LED_3, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_FAN_GREEN_R, ONLP_GPIO_DIRECTION_OUT);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_FAN_RED_R, ONLP_GPIO_DIRECTION_OUT);
/* PSU Input */
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_PSU1_PRSNT_N, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_PSU1_PWRGD, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_PSU2_PRSNT_N, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY9_PSU_GPIO_PSU2_PWRGD, ONLP_GPIO_DIRECTION_IN);
/* FAN Input */
onlp_gpio_export(QUANTA_LY9_FAN_PRSNT_N_1, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY9_FAN_PRSNT_N_2, ONLP_GPIO_DIRECTION_IN);
onlp_gpio_export(QUANTA_LY9_FAN_PRSNT_N_3, ONLP_GPIO_DIRECTION_IN);
/* Set LED to green */
onlp_ledi_mode_set(LED_OID_SYSTEM, ONLP_LED_MODE_GREEN);
led_control.psu_status_changed = 1;
led_control.fan_status_changed = 1;
onlp_sysi_platform_manage_leds();
return ONLP_STATUS_OK;
}
@@ -73,7 +134,141 @@ onlp_sysi_oids_get(onlp_oid_t* table, int max)
*e++ = PSU_OID_PSU2;
/*
* Todo - LEDs
* 7 LEDs
*/
*e++ = LED_OID_SYSTEM;
*e++ = LED_OID_FAN;
*e++ = LED_OID_PSU_1;
*e++ = LED_OID_PSU_2;
*e++ = LED_OID_FAN_FAIL_1;
*e++ = LED_OID_FAN_FAIL_2;
*e++ = LED_OID_FAN_FAIL_3;
return 0;
}
int
update_rpsu_fan_status(void){
int last_status, rv, value = -1, tmp;
last_status = led_control.psu1_present;
rv = onlp_gpio_get(QUANTA_LY9_PSU_GPIO_PSU1_PRSNT_N, &value);
if(rv < 0) {
printf("GPIO %d read Error!\n", QUANTA_LY9_PSU_GPIO_PSU1_PRSNT_N);
return rv;
}
led_control.psu1_present = (value ? 0 : 1);
if(last_status != led_control.psu1_present)
led_control.psu_status_changed = 1;
last_status = led_control.psu1_power_good;
rv = onlp_gpio_get(QUANTA_LY9_PSU_GPIO_PSU1_PWRGD, &value);
if(rv < 0) {
printf("GPIO %d read Error!\n", QUANTA_LY9_PSU_GPIO_PSU1_PWRGD);
return rv;
}
led_control.psu1_power_good = (value ? 1 : 0);
if(last_status != led_control.psu1_power_good)
led_control.psu_status_changed = 1;
last_status = led_control.psu2_present;
rv = onlp_gpio_get(QUANTA_LY9_PSU_GPIO_PSU2_PRSNT_N, &value);
if(rv < 0) {
printf("GPIO %d read Error!\n", QUANTA_LY9_PSU_GPIO_PSU2_PRSNT_N);
return rv;
}
led_control.psu2_present = (value ? 0 : 1);
if(last_status != led_control.psu2_present)
led_control.psu_status_changed = 1;
last_status = led_control.psu2_power_good;
rv = onlp_gpio_get(QUANTA_LY9_PSU_GPIO_PSU2_PWRGD, &value);
if(rv < 0) {
printf("GPIO %d read Error!\n", QUANTA_LY9_PSU_GPIO_PSU2_PWRGD);
return rv;
}
led_control.psu2_power_good = (value ? 1 : 0);
if(last_status != led_control.psu2_power_good)
led_control.psu_status_changed = 1;
tmp = led_control.fan_alert;
led_control.fan_alert = onlp_i2c_readb(0, 0x4e, 0x32, ONLP_I2C_F_FORCE);
if(tmp != led_control.fan_alert)
led_control.fan_status_changed = 1;
return ONLP_STATUS_OK;
}
int
onlp_sysi_platform_manage_leds(void)
{
int rv;
led_control.PMCnt++;
if(led_control.PMCnt>300)
led_control.PMCnt = 0;
if(led_control.PMCnt % 5 == 1){/* Each 10 seconds detect one time */
rv = update_rpsu_fan_status();
if(rv < 0){
printf("onlp_sysi_platform_manage_leds error\n");
return ONLP_STATUS_E_INVALID;
}
if(led_control.psu_status_changed){
if(led_control.psu1_present && led_control.psu1_power_good) {
onlp_ledi_mode_set(LED_ID_PSU_1, ONLP_LED_MODE_GREEN);
}
else if(!led_control.psu1_present){
onlp_ledi_mode_set(LED_ID_PSU_1, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_PSU_1, ONLP_LED_MODE_RED);
}
if(led_control.psu2_present && led_control.psu2_power_good) {
onlp_ledi_mode_set(LED_ID_PSU_2, ONLP_LED_MODE_GREEN);
}
else if(!led_control.psu2_present){
onlp_ledi_mode_set(LED_ID_PSU_2, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_PSU_2, ONLP_LED_MODE_RED);
}
led_control.psu_status_changed = 0;
}
if(led_control.fan_status_changed){
if(!(led_control.fan_alert & QUANTA_FAN_1_1) && !(led_control.fan_alert & QUANTA_FAN_1_2)) {
onlp_ledi_mode_set(LED_ID_FAN_FAIL_1, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_FAN_FAIL_1, ONLP_LED_MODE_RED);
}
if(!(led_control.fan_alert & QUANTA_FAN_2_1) && !(led_control.fan_alert & QUANTA_FAN_2_2)) {
onlp_ledi_mode_set(LED_ID_FAN_FAIL_2, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_FAN_FAIL_2, ONLP_LED_MODE_RED);
}
if(!(led_control.fan_alert & QUANTA_FAN_3_1) && !(led_control.fan_alert & QUANTA_FAN_3_2)) {
onlp_ledi_mode_set(LED_ID_FAN_FAIL_3, ONLP_LED_MODE_OFF);
}
else{
onlp_ledi_mode_set(LED_ID_FAN_FAIL_3, ONLP_LED_MODE_RED);
}
if(!led_control.fan_alert){
onlp_ledi_mode_set(LED_ID_FAN, ONLP_LED_MODE_GREEN);
}
else{
onlp_ledi_mode_set(LED_ID_FAN, ONLP_LED_MODE_RED);
}
led_control.fan_status_changed = 0;
}
}
return ONLP_STATUS_OK;
}

75
packages/platforms/quanta/x86-64/x86-64-quanta-ly9-rangeley/onlp/builds/src/x86_64_quanta_ly9_rangeley/module/src/x86_64_quanta_ly9_rangeley_int.h
View File

@@ -225,6 +225,81 @@ struct psu_info_s {
int addr;
};
/** led_id */
typedef enum led_id_e {
LED_ID_SYSTEM = 1,
LED_ID_FAN = 2,
LED_ID_PSU_1 = 3,
LED_ID_PSU_2 = 4,
LED_ID_FAN_FAIL_1 = 5,
LED_ID_FAN_FAIL_2 = 6,
LED_ID_FAN_FAIL_3 = 7,
} led_id_t;
/** Enum names. */
const char* led_id_name(led_id_t e);
/** Enum values. */
int led_id_value(const char* str, led_id_t* e, int substr);
/** Enum descriptions. */
const char* led_id_desc(led_id_t e);
/** Enum validator. */
int led_id_valid(led_id_t e);
/** validator */
#define LED_ID_VALID(_e) \
(led_id_valid((_e)))
/** led_id_map table. */
extern aim_map_si_t led_id_map[];
/** led_id_desc_map table. */
extern aim_map_si_t led_id_desc_map[];
/** led_oid */
typedef enum led_oid_e {
LED_OID_SYSTEM = ONLP_LED_ID_CREATE(LED_ID_SYSTEM),
LED_OID_FAN = ONLP_LED_ID_CREATE(LED_ID_FAN),
LED_OID_PSU_1 = ONLP_LED_ID_CREATE(LED_ID_PSU_1),
LED_OID_PSU_2 = ONLP_LED_ID_CREATE(LED_ID_PSU_2),
LED_OID_FAN_FAIL_1 = ONLP_LED_ID_CREATE(LED_ID_FAN_FAIL_1),
LED_OID_FAN_FAIL_2 = ONLP_LED_ID_CREATE(LED_ID_FAN_FAIL_2),
LED_OID_FAN_FAIL_3 = ONLP_LED_ID_CREATE(LED_ID_FAN_FAIL_3),
} led_oid_t;
/** Enum names. */
const char* led_oid_name(led_oid_t e);
/** Enum values. */
int led_oid_value(const char* str, led_oid_t* e, int substr);
/** Enum descriptions. */
const char* led_oid_desc(led_oid_t e);
/** Enum validator. */
int led_oid_valid(led_oid_t e);
/** validator */
#define LED_OID_VALID(_e) \
(led_oid_valid((_e)))
/** led_oid_map table. */
extern aim_map_si_t led_oid_map[];
/** led_oid_desc_map table. */
extern aim_map_si_t led_oid_desc_map[];
/* <auto.end.enum(ALL).header> */
struct led_control_s{
int PMCnt;
int psu_status_changed;
int fan_status_changed;
int fan_alert;
int psu1_present;
int psu2_present;
int psu1_power_good;
int psu2_power_good;
};
#define SYS_HWMON_PREFIX "/sys/devices/pci0000:00/0000:00:1f.3/i2c-0/0-004e"