subsys/shell/shell_uart.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2018 Nordic Semiconductor ASA
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #include <shell/shell_uart.h>
 #include <drivers/uart.h>
 #include <init.h>
 #include <logging/log.h>

 #define LOG_MODULE_NAME shell_uart
 LOG_MODULE_REGISTER(shell_uart);

 #ifdef CONFIG_SHELL_BACKEND_SERIAL_RX_POLL_PERIOD
 #define RX_POLL_PERIOD CONFIG_SHELL_BACKEND_SERIAL_RX_POLL_PERIOD
 #else
 #define RX_POLL_PERIOD 0
 #endif

 SHELL_UART_DEFINE(shell_transport_uart,
 		  CONFIG_SHELL_BACKEND_SERIAL_TX_RING_BUFFER_SIZE,
 		  CONFIG_SHELL_BACKEND_SERIAL_RX_RING_BUFFER_SIZE);
 SHELL_DEFINE(shell_uart, CONFIG_SHELL_PROMPT_UART, &shell_transport_uart,
 	     CONFIG_SHELL_BACKEND_SERIAL_LOG_MESSAGE_QUEUE_SIZE,
 	     CONFIG_SHELL_BACKEND_SERIAL_LOG_MESSAGE_QUEUE_TIMEOUT,
 	     SHELL_FLAG_OLF_CRLF);

 #ifdef CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN
 static void uart_rx_handle(const struct shell_uart *sh_uart)
 {
 	u8_t *data;
 	u32_t len;
 	u32_t rd_len;
 	bool new_data = false;

 	do {
 		len = ring_buf_put_claim(sh_uart->rx_ringbuf, &data,
 					 sh_uart->rx_ringbuf->size);

 		if (len > 0) {
 			rd_len = uart_fifo_read(sh_uart->ctrl_blk->dev,
 						data, len);
 #ifdef CONFIG_MCUMGR_SMP_SHELL
 			/* Divert bytes from shell handling if it is
 			 * part of an mcumgr frame.
 			 */
 			size_t i;

 			for (i = 0; i < rd_len; i++) {
 				if (!smp_shell_rx_byte(&sh_uart->ctrl_blk->smp,
 						       data[i])) {
 					break;
 				}
 			}

 			rd_len -= i;
 			new_data = true;
 			if (rd_len) {
 				for (u32_t j = 0; j < rd_len; j++) {
 					data[j] = data[i + j];
 				}
 			}
 #else
 			if (rd_len > 0) {
 				new_data = true;
 			}
 #endif /* CONFIG_MCUMGR_SMP_SHELL */
 			int err = ring_buf_put_finish(sh_uart->rx_ringbuf,
 						      rd_len);
 			(void)err;
 			__ASSERT_NO_MSG(err == 0);
 		} else {
 			u8_t dummy;

 			/* No space in the ring buffer - consume byte. */
 			LOG_WRN("RX ring buffer full.");

 			rd_len = uart_fifo_read(sh_uart->ctrl_blk->dev,
 						&dummy, 1);
 #ifdef CONFIG_MCUMGR_SMP_SHELL
 			/* Divert this byte from shell handling if it
 			 * is part of an mcumgr frame.
 			 */
 			smp_shell_rx_byte(&sh_uart->ctrl_blk->smp, dummy);
 #endif /* CONFIG_MCUMGR_SMP_SHELL */
 		}
 	} while (rd_len && (rd_len == len));

 	if (new_data) {
 		sh_uart->ctrl_blk->handler(SHELL_TRANSPORT_EVT_RX_RDY,
 					   sh_uart->ctrl_blk->context);
 	}
 }

 static void uart_tx_handle(const struct shell_uart *sh_uart)
 {
 	struct device *dev = sh_uart->ctrl_blk->dev;
 	u32_t len;
 	int err;
 	const u8_t *data;

 	len = ring_buf_get_claim(sh_uart->tx_ringbuf, (u8_t **)&data,
 				 sh_uart->tx_ringbuf->size);
 	if (len) {
 		len = uart_fifo_fill(dev, data, len);
 		err = ring_buf_get_finish(sh_uart->tx_ringbuf, len);
 		__ASSERT_NO_MSG(err == 0);
 	} else {
 		uart_irq_tx_disable(dev);
 		sh_uart->ctrl_blk->tx_busy = 0;
 	}

 	sh_uart->ctrl_blk->handler(SHELL_TRANSPORT_EVT_TX_RDY,
 				   sh_uart->ctrl_blk->context);
 }

 static void uart_callback(void *user_data)
 {
 	const struct shell_uart *sh_uart = (struct shell_uart *)user_data;
 	struct device *dev = sh_uart->ctrl_blk->dev;

 	uart_irq_update(dev);

 	if (uart_irq_rx_ready(dev)) {
 		uart_rx_handle(sh_uart);
 	}

 	if (uart_irq_tx_ready(dev)) {
 		uart_tx_handle(sh_uart);
 	}
 }
 #endif /* CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN */

 static void uart_irq_init(const struct shell_uart *sh_uart)
 {
 #ifdef CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN
 	struct device *dev = sh_uart->ctrl_blk->dev;

 	uart_irq_callback_user_data_set(dev, uart_callback, (void *)sh_uart);
 	uart_irq_rx_enable(dev);
 #endif
 }

 static void timer_handler(struct k_timer *timer)
 {
 	u8_t c;
 	const struct shell_uart *sh_uart = k_timer_user_data_get(timer);

 	while (uart_poll_in(sh_uart->ctrl_blk->dev, &c) == 0) {
 		if (ring_buf_put(sh_uart->rx_ringbuf, &c, 1) == 0U) {
 			/* ring buffer full. */
 			LOG_WRN("RX ring buffer full.");
 		}
 		sh_uart->ctrl_blk->handler(SHELL_TRANSPORT_EVT_RX_RDY,
 					   sh_uart->ctrl_blk->context);
 	}
 }

 static int init(const struct shell_transport *transport,
 		const void *config,
 		shell_transport_handler_t evt_handler,
 		void *context)
 {
 	const struct shell_uart *sh_uart = (struct shell_uart *)transport->ctx;

 	sh_uart->ctrl_blk->dev = (struct device *)config;
 	sh_uart->ctrl_blk->handler = evt_handler;
 	sh_uart->ctrl_blk->context = context;

 	if (IS_ENABLED(CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN)) {
 		uart_irq_init(sh_uart);
 	} else {
 		k_timer_init(sh_uart->timer, timer_handler, NULL);
 		k_timer_user_data_set(sh_uart->timer, (void *)sh_uart);
 		k_timer_start(sh_uart->timer, RX_POLL_PERIOD, RX_POLL_PERIOD);
 	}

 	return 0;
 }

 static int uninit(const struct shell_transport *transport)
 {
 	return 0;
 }

 static int enable(const struct shell_transport *transport, bool blocking_tx)
 {
 	const struct shell_uart *sh_uart = (struct shell_uart *)transport->ctx;

 	sh_uart->ctrl_blk->blocking_tx = blocking_tx;

 	if (blocking_tx) {
 #ifdef CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN
 		uart_irq_tx_disable(sh_uart->ctrl_blk->dev);
 #endif
 	}

 	return 0;
 }

 static void irq_write(const struct shell_uart *sh_uart, const void *data,
 		     size_t length, size_t *cnt)
 {
 	*cnt = ring_buf_put(sh_uart->tx_ringbuf, data, length);

 	if (atomic_set(&sh_uart->ctrl_blk->tx_busy, 1) == 0) {
 #ifdef CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN
 		uart_irq_tx_enable(sh_uart->ctrl_blk->dev);
 #endif
 	}
 }

 static int write(const struct shell_transport *transport,
 		 const void *data, size_t length, size_t *cnt)
 {
 	const struct shell_uart *sh_uart = (struct shell_uart *)transport->ctx;
 	const u8_t *data8 = (const u8_t *)data;

 	if (IS_ENABLED(CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN) &&
 		!sh_uart->ctrl_blk->blocking_tx) {
 		irq_write(sh_uart, data, length, cnt);
 	} else {
 		for (size_t i = 0; i < length; i++) {
 			uart_poll_out(sh_uart->ctrl_blk->dev, data8[i]);
 		}

 		*cnt = length;

 		sh_uart->ctrl_blk->handler(SHELL_TRANSPORT_EVT_TX_RDY,
 					   sh_uart->ctrl_blk->context);
 	}

 	return 0;
 }

 static int read(const struct shell_transport *transport,
 		void *data, size_t length, size_t *cnt)
 {
 	struct shell_uart *sh_uart = (struct shell_uart *)transport->ctx;

 	*cnt = ring_buf_get(sh_uart->rx_ringbuf, data, length);

 	return 0;
 }

 #ifdef CONFIG_MCUMGR_SMP_SHELL
 static void update(const struct shell_transport *transport)
 {
 	struct shell_uart *sh_uart = (struct shell_uart *)transport->ctx;

 	smp_shell_process(&sh_uart->ctrl_blk->smp);
 }
 #endif /* CONFIG_MCUMGR_SMP_SHELL */

 const struct shell_transport_api shell_uart_transport_api = {
 	.init = init,
 	.uninit = uninit,
 	.enable = enable,
 	.write = write,
 	.read = read,
 #ifdef CONFIG_MCUMGR_SMP_SHELL
 	.update = update,
 #endif /* CONFIG_MCUMGR_SMP_SHELL */
 };

 static int enable_shell_uart(struct device *arg)
 {
 	ARG_UNUSED(arg);
 	struct device *dev =
 			device_get_binding(CONFIG_UART_SHELL_ON_DEV_NAME);
 	bool log_backend = CONFIG_SHELL_BACKEND_SERIAL_LOG_LEVEL > 0;
 	u32_t level =
 		(CONFIG_SHELL_BACKEND_SERIAL_LOG_LEVEL > LOG_LEVEL_DBG) ?
 		CONFIG_LOG_MAX_LEVEL : CONFIG_SHELL_BACKEND_SERIAL_LOG_LEVEL;

 	shell_init(&shell_uart, dev, true, log_backend, level);

 	return 0;
 }
 SYS_INIT(enable_shell_uart, POST_KERNEL, 0);

 const struct shell *shell_backend_uart_get_ptr(void)
 {
 	return &shell_uart;
 }
	/*
	* Copyright (c) 2018 Nordic Semiconductor ASA
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#include <shell/shell_uart.h>
	#include <drivers/uart.h>
	#include <init.h>
	#include <logging/log.h>

	#define LOG_MODULE_NAME shell_uart
	LOG_MODULE_REGISTER(shell_uart);

	#ifdef CONFIG_SHELL_BACKEND_SERIAL_RX_POLL_PERIOD
	#define RX_POLL_PERIOD CONFIG_SHELL_BACKEND_SERIAL_RX_POLL_PERIOD
	#else
	#define RX_POLL_PERIOD 0
	#endif

	SHELL_UART_DEFINE(shell_transport_uart,
	CONFIG_SHELL_BACKEND_SERIAL_TX_RING_BUFFER_SIZE,
	CONFIG_SHELL_BACKEND_SERIAL_RX_RING_BUFFER_SIZE);
	SHELL_DEFINE(shell_uart, CONFIG_SHELL_PROMPT_UART, &shell_transport_uart,
	CONFIG_SHELL_BACKEND_SERIAL_LOG_MESSAGE_QUEUE_SIZE,
	CONFIG_SHELL_BACKEND_SERIAL_LOG_MESSAGE_QUEUE_TIMEOUT,
	SHELL_FLAG_OLF_CRLF);

	#ifdef CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN
	static void uart_rx_handle(const struct shell_uart *sh_uart)
	{
	u8_t *data;
	u32_t len;
	u32_t rd_len;
	bool new_data = false;

	do {
	len = ring_buf_put_claim(sh_uart->rx_ringbuf, &data,
	sh_uart->rx_ringbuf->size);

	if (len > 0) {
	rd_len = uart_fifo_read(sh_uart->ctrl_blk->dev,
	data, len);
	#ifdef CONFIG_MCUMGR_SMP_SHELL
	/* Divert bytes from shell handling if it is
	* part of an mcumgr frame.
	*/
	size_t i;

	for (i = 0; i < rd_len; i++) {
	if (!smp_shell_rx_byte(&sh_uart->ctrl_blk->smp,
	data[i])) {
	break;
	}
	}

	rd_len -= i;
	new_data = true;
	if (rd_len) {
	for (u32_t j = 0; j < rd_len; j++) {
	data[j] = data[i + j];
	}
	}
	#else
	if (rd_len > 0) {
	new_data = true;
	}
	#endif /* CONFIG_MCUMGR_SMP_SHELL */
	int err = ring_buf_put_finish(sh_uart->rx_ringbuf,
	rd_len);
	(void)err;
	__ASSERT_NO_MSG(err == 0);
	} else {
	u8_t dummy;

	/* No space in the ring buffer - consume byte. */
	LOG_WRN("RX ring buffer full.");

	rd_len = uart_fifo_read(sh_uart->ctrl_blk->dev,
	&dummy, 1);
	#ifdef CONFIG_MCUMGR_SMP_SHELL
	/* Divert this byte from shell handling if it
	* is part of an mcumgr frame.
	*/
	smp_shell_rx_byte(&sh_uart->ctrl_blk->smp, dummy);
	#endif /* CONFIG_MCUMGR_SMP_SHELL */
	}
	} while (rd_len && (rd_len == len));

	if (new_data) {
	sh_uart->ctrl_blk->handler(SHELL_TRANSPORT_EVT_RX_RDY,
	sh_uart->ctrl_blk->context);
	}
	}

	static void uart_tx_handle(const struct shell_uart *sh_uart)
	{
	struct device *dev = sh_uart->ctrl_blk->dev;
	u32_t len;
	int err;
	const u8_t *data;

	len = ring_buf_get_claim(sh_uart->tx_ringbuf, (u8_t **)&data,
	sh_uart->tx_ringbuf->size);
	if (len) {
	len = uart_fifo_fill(dev, data, len);
	err = ring_buf_get_finish(sh_uart->tx_ringbuf, len);
	__ASSERT_NO_MSG(err == 0);
	} else {
	uart_irq_tx_disable(dev);
	sh_uart->ctrl_blk->tx_busy = 0;
	}

	sh_uart->ctrl_blk->handler(SHELL_TRANSPORT_EVT_TX_RDY,
	sh_uart->ctrl_blk->context);
	}

	static void uart_callback(void *user_data)
	{
	const struct shell_uart sh_uart = (struct shell_uart )user_data;
	struct device *dev = sh_uart->ctrl_blk->dev;

	uart_irq_update(dev);

	if (uart_irq_rx_ready(dev)) {
	uart_rx_handle(sh_uart);
	}

	if (uart_irq_tx_ready(dev)) {
	uart_tx_handle(sh_uart);
	}
	}
	#endif /* CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN */

	static void uart_irq_init(const struct shell_uart *sh_uart)
	{
	#ifdef CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN
	struct device *dev = sh_uart->ctrl_blk->dev;

	uart_irq_callback_user_data_set(dev, uart_callback, (void *)sh_uart);
	uart_irq_rx_enable(dev);
	#endif
	}

	static void timer_handler(struct k_timer *timer)
	{
	u8_t c;
	const struct shell_uart *sh_uart = k_timer_user_data_get(timer);

	while (uart_poll_in(sh_uart->ctrl_blk->dev, &c) == 0) {
	if (ring_buf_put(sh_uart->rx_ringbuf, &c, 1) == 0U) {
	/* ring buffer full. */
	LOG_WRN("RX ring buffer full.");
	}
	sh_uart->ctrl_blk->handler(SHELL_TRANSPORT_EVT_RX_RDY,
	sh_uart->ctrl_blk->context);
	}
	}

	static int init(const struct shell_transport *transport,
	const void *config,
	shell_transport_handler_t evt_handler,
	void *context)
	{
	const struct shell_uart sh_uart = (struct shell_uart )transport->ctx;

	sh_uart->ctrl_blk->dev = (struct device *)config;
	sh_uart->ctrl_blk->handler = evt_handler;
	sh_uart->ctrl_blk->context = context;

	if (IS_ENABLED(CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN)) {
	uart_irq_init(sh_uart);
	} else {
	k_timer_init(sh_uart->timer, timer_handler, NULL);
	k_timer_user_data_set(sh_uart->timer, (void *)sh_uart);
	k_timer_start(sh_uart->timer, RX_POLL_PERIOD, RX_POLL_PERIOD);
	}

	return 0;
	}

	static int uninit(const struct shell_transport *transport)
	{
	return 0;
	}

	static int enable(const struct shell_transport *transport, bool blocking_tx)
	{
	const struct shell_uart sh_uart = (struct shell_uart )transport->ctx;

	sh_uart->ctrl_blk->blocking_tx = blocking_tx;

	if (blocking_tx) {
	#ifdef CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN
	uart_irq_tx_disable(sh_uart->ctrl_blk->dev);
	#endif
	}

	return 0;
	}

	static void irq_write(const struct shell_uart sh_uart, const void data,
	size_t length, size_t *cnt)
	{
	*cnt = ring_buf_put(sh_uart->tx_ringbuf, data, length);

	if (atomic_set(&sh_uart->ctrl_blk->tx_busy, 1) == 0) {
	#ifdef CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN
	uart_irq_tx_enable(sh_uart->ctrl_blk->dev);
	#endif
	}
	}

	static int write(const struct shell_transport *transport,
	const void data, size_t length, size_t cnt)
	{
	const struct shell_uart sh_uart = (struct shell_uart )transport->ctx;
	const u8_t data8 = (const u8_t )data;

	if (IS_ENABLED(CONFIG_SHELL_BACKEND_SERIAL_INTERRUPT_DRIVEN) &&
	!sh_uart->ctrl_blk->blocking_tx) {
	irq_write(sh_uart, data, length, cnt);
	} else {
	for (size_t i = 0; i < length; i++) {
	uart_poll_out(sh_uart->ctrl_blk->dev, data8[i]);
	}

	*cnt = length;

	sh_uart->ctrl_blk->handler(SHELL_TRANSPORT_EVT_TX_RDY,
	sh_uart->ctrl_blk->context);
	}

	return 0;
	}

	static int read(const struct shell_transport *transport,
	void data, size_t length, size_t cnt)
	{
	struct shell_uart sh_uart = (struct shell_uart )transport->ctx;

	*cnt = ring_buf_get(sh_uart->rx_ringbuf, data, length);

	return 0;
	}

	#ifdef CONFIG_MCUMGR_SMP_SHELL
	static void update(const struct shell_transport *transport)
	{
	struct shell_uart sh_uart = (struct shell_uart )transport->ctx;

	smp_shell_process(&sh_uart->ctrl_blk->smp);
	}
	#endif /* CONFIG_MCUMGR_SMP_SHELL */

	const struct shell_transport_api shell_uart_transport_api = {
	.init = init,
	.uninit = uninit,
	.enable = enable,
	.write = write,
	.read = read,
	#ifdef CONFIG_MCUMGR_SMP_SHELL
	.update = update,
	#endif /* CONFIG_MCUMGR_SMP_SHELL */
	};

	static int enable_shell_uart(struct device *arg)
	{
	ARG_UNUSED(arg);
	struct device *dev =
	device_get_binding(CONFIG_UART_SHELL_ON_DEV_NAME);
	bool log_backend = CONFIG_SHELL_BACKEND_SERIAL_LOG_LEVEL > 0;
	u32_t level =
	(CONFIG_SHELL_BACKEND_SERIAL_LOG_LEVEL > LOG_LEVEL_DBG) ?
	CONFIG_LOG_MAX_LEVEL : CONFIG_SHELL_BACKEND_SERIAL_LOG_LEVEL;

	shell_init(&shell_uart, dev, true, log_backend, level);

	return 0;
	}
	SYS_INIT(enable_shell_uart, POST_KERNEL, 0);

	const struct shell *shell_backend_uart_get_ptr(void)
	{
	return &shell_uart;
	}