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OpenCellular/chip/g/uartn.c
Aseda Aboagye 7dab0e853c chip: g: Add support for UART bit banging. 
The UART block on the g chip has no functionality to adjust the parity.
Unfortunately, this feature is needed for certain applications.

This commit adds a UART bit bang driver with support for configuring the
baud rate and parity.  It currently only supports 8 data bits.

BUG=b:35648297
BRANCH=cr50
TEST=make -j buildall
TEST=With some other patches, successfully flash rowan EC at 9600 baud.

Change-Id: I86a160c0960e46b3a8bb1057518f625aefb7d81f
Signed-off-by: Aseda Aboagye <aaboagye@google.com>
Reviewed-on: https://chromium-review.googlesource.com/503473
Commit-Ready: Aseda Aboagye <aaboagye@chromium.org>
Tested-by: Aseda Aboagye <aaboagye@chromium.org>
Reviewed-by: Vadim Bendebury <vbendeb@chromium.org>
2017-06-05 14:49:09 -07:00

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/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "clock.h"
#include "common.h"
#include "gpio.h"
#include "registers.h"
#include "system.h"
#include "task.h"
#include "uart.h"
#include "uart_bitbang.h"
#include "util.h"
#define USE_UART_INTERRUPTS (!(defined(CONFIG_CUSTOMIZED_RO) && \
defined(SECTION_IS_RO)))
struct uartn_interrupts {
int tx_int;
int rx_int;
};
static struct uartn_interrupts interrupt[] = {
{GC_IRQNUM_UART0_TXINT, GC_IRQNUM_UART0_RXINT},
{GC_IRQNUM_UART1_TXINT, GC_IRQNUM_UART1_RXINT},
{GC_IRQNUM_UART2_TXINT, GC_IRQNUM_UART2_RXINT},
};
struct uartn_function_ptrs uartn_funcs[3] = {
{
_uartn_rx_available,
_uartn_write_char,
_uartn_read_char,
},
{
_uartn_rx_available,
_uartn_write_char,
_uartn_read_char,
},
{
_uartn_rx_available,
_uartn_write_char,
_uartn_read_char,
},
};
void uartn_tx_start(int uart)
{
if (!uart_init_done())
return;
/* If interrupt is already enabled, nothing to do */
if (GR_UART_ICTRL(uart) & GC_UART_ICTRL_TX_MASK)
return;
/* Do not allow deep sleep while transmit in progress */
disable_sleep(SLEEP_MASK_UART);
/*
* Re-enable the transmit interrupt, then forcibly trigger the
* interrupt. This works around a hardware problem with the
* UART where the FIFO only triggers the interrupt when its
* threshold is _crossed_, not just met.
*/
/* TODO(crosbug.com/p/33819): Do we need this hack here? Find out. */
REG_WRITE_MLV(GR_UART_ICTRL(uart), GC_UART_ICTRL_TX_MASK,
GC_UART_ICTRL_TX_LSB, 1);
task_trigger_irq(interrupt[uart].tx_int);
}
void uartn_tx_stop(int uart)
{
/* Disable the TX interrupt */
REG_WRITE_MLV(GR_UART_ICTRL(uart), GC_UART_ICTRL_TX_MASK,
GC_UART_ICTRL_TX_LSB, 0);
/* Re-allow deep sleep */
enable_sleep(SLEEP_MASK_UART);
}
int uartn_tx_in_progress(int uart)
{
/* Transmit is in progress unless the TX FIFO is empty and idle. */
return !(GR_UART_STATE(uart) & (GC_UART_STATE_TXIDLE_MASK |
GC_UART_STATE_TXEMPTY_MASK));
}
void uartn_tx_flush(int uart)
{
timestamp_t ts;
int i;
/* Wait until TX FIFO is idle. */
while (uartn_tx_in_progress(uart))
;
/*
* Even when uartn_tx_in_progress() returns false, the chip seems to
* be still trasmitting, resetting at this point results in an eaten
* last symbol. Let's just wait some time (required to transmit 10
* bits at 115200 baud).
*/
ts = get_time(); /* Start time. */
for (i = 0; i < 1000; i++) /* Limit it in case timer is not running. */
if ((get_time().val - ts.val) > ((1000000 * 10) / 115200))
return;
}
int uartn_tx_ready(int uart)
{
/* True if the TX buffer is not completely full */
return !(GR_UART_STATE(uart) & GC_UART_STATE_TX_MASK);
}
int _uartn_rx_available(int uart)
{
/* True if the RX buffer is not completely empty. */
return !(GR_UART_STATE(uart) & GC_UART_STATE_RXEMPTY_MASK);
}
int uartn_rx_available(int uart)
{
return uartn_funcs[uart]._rx_available(uart);
}
void _uartn_write_char(int uart, char c)
{
/* Wait for space in transmit FIFO. */
while (!uartn_tx_ready(uart))
;
GR_UART_WDATA(uart) = c;
}
void uartn_write_char(int uart, char c)
{
uartn_funcs[uart]._write_char(uart, c);
}
int _uartn_read_char(int uart)
{
return GR_UART_RDATA(uart);
}
int uartn_read_char(int uart)
{
return uartn_funcs[uart]._read_char(uart);
}
#ifdef CONFIG_UART_BITBANG
int _uart_bitbang_rx_available(int uart)
{
if (uart_bitbang_is_enabled(uart))
return uart_bitbang_is_char_available(uart);
return 0;
}
void _uart_bitbang_write_char(int uart, char c)
{
if (uart_bitbang_is_enabled(uart))
uart_bitbang_write_char(uart, c);
}
int _uart_bitbang_read_char(int uart)
{
if (uart_bitbang_is_enabled(uart))
return uart_bitbang_read_char(uart);
return 0;
}
#endif /* defined(CONFIG_UART_BITBANG) */
void uartn_disable_interrupt(int uart)
{
task_disable_irq(interrupt[uart].tx_int);
task_disable_irq(interrupt[uart].rx_int);
}
void uartn_enable_interrupt(int uart)
{
task_enable_irq(interrupt[uart].tx_int);
task_enable_irq(interrupt[uart].rx_int);
}
void uartn_enable(int uart)
{
/* Enable TX and RX. Disable HW flow control and loopback. */
GR_UART_CTRL(uart) = 0x03;
}
/* Disable TX, RX, HW flow control, and loopback */
void uartn_disable(int uart)
{
GR_UART_CTRL(uart) = 0;
}
void uartn_init(int uart)
{
long long setting = (16 * (1 << UART_NCO_WIDTH) *
(long long)CONFIG_UART_BAUD_RATE / PCLK_FREQ);
/* set frequency */
GR_UART_NCO(uart) = setting;
/*
* Interrupt when RX fifo has anything, when TX fifo <= half
* empty and reset (clear) both FIFOs
*/
GR_UART_FIFO(uart) = 0x63;
/* enable RX interrupts in block */
/* Note: doesn't do anything unless turned on in NVIC */
GR_UART_ICTRL(uart) = 0x02;
#if USE_UART_INTERRUPTS
/* Enable interrupts for UART */
uartn_enable_interrupt(uart);
#endif
}
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