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/*
 * Copyright (c) 2011-2012, 2014-2015 Wind River Systems, Inc.
 *
 * SPDX-License-Identifier: Apache-2.0
 */

/**
 * @file
 * @brief UART-driven console
 *
 *
 * Serial console driver.
 * Hooks into the printk and fputc (for printf) modules. Poll driven.
 */

#include <zephyr/kernel.h>

#include <stdio.h>
#include <zephyr/types.h>
#include <zephyr/sys/__assert.h>
#include <errno.h>
#include <ctype.h>

#include <zephyr/device.h>
#include <zephyr/init.h>

#include <zephyr/drivers/uart.h>
#include <zephyr/drivers/console/console.h>
#include <zephyr/drivers/console/uart_console.h>
#include <zephyr/toolchain.h>
#include <zephyr/linker/sections.h>
#include <zephyr/sys/atomic.h>
#include <zephyr/sys/printk.h>
#ifdef CONFIG_UART_CONSOLE_MCUMGR
#include <zephyr/mgmt/mcumgr/transport/serial.h>
#endif

static const struct device *const uart_console_dev =
	DEVICE_DT_GET(DT_CHOSEN(zephyr_console));

#ifdef CONFIG_UART_CONSOLE_DEBUG_SERVER_HOOKS

static uart_console_in_debug_hook_t debug_hook_in;
void uart_console_in_debug_hook_install(uart_console_in_debug_hook_t hook)
{
	debug_hook_in = hook;
}

static UART_CONSOLE_OUT_DEBUG_HOOK_SIG(debug_hook_out_nop) {
	ARG_UNUSED(c);
	return !UART_CONSOLE_DEBUG_HOOK_HANDLED;
}

static uart_console_out_debug_hook_t *debug_hook_out = debug_hook_out_nop;
void uart_console_out_debug_hook_install(uart_console_out_debug_hook_t *hook)
{
	debug_hook_out = hook;
}
#define HANDLE_DEBUG_HOOK_OUT(c) \
	(debug_hook_out(c) == UART_CONSOLE_DEBUG_HOOK_HANDLED)

#endif /* CONFIG_UART_CONSOLE_DEBUG_SERVER_HOOKS */


#if defined(CONFIG_PRINTK) || defined(CONFIG_STDOUT_CONSOLE)
/**
 *
 * @brief Output one character to UART
 *
 * Outputs both line feed and carriage return in the case of a '\n'.
 *
 * @param c Character to output
 *
 * @return The character passed as input.
 */

static int console_out(int c)
{
#ifdef CONFIG_UART_CONSOLE_DEBUG_SERVER_HOOKS

	int handled_by_debug_server = HANDLE_DEBUG_HOOK_OUT(c);

	if (handled_by_debug_server) {
		return c;
	}

#endif  /* CONFIG_UART_CONSOLE_DEBUG_SERVER_HOOKS */

	if ('\n' == c) {
		uart_poll_out(uart_console_dev, '\r');
	}
	uart_poll_out(uart_console_dev, c);

	return c;
}

#endif

#if defined(CONFIG_STDOUT_CONSOLE)
extern void __stdout_hook_install(int (*hook)(int c));
#endif

#if defined(CONFIG_PRINTK)
extern void __printk_hook_install(int (*fn)(int c));
#endif

#if defined(CONFIG_CONSOLE_HANDLER)
static struct k_fifo *avail_queue;
static struct k_fifo *lines_queue;
static uint8_t (*completion_cb)(char *line, uint8_t len);

/* Control characters */
#define BS                 0x08
#define ESC                0x1b
#define DEL                0x7f

/* ANSI escape sequences */
#define ANSI_ESC           '['
#define ANSI_UP            'A'
#define ANSI_DOWN          'B'
#define ANSI_FORWARD       'C'
#define ANSI_BACKWARD      'D'
#define ANSI_END           'F'
#define ANSI_HOME          'H'
#define ANSI_DEL           '~'

static int read_uart(const struct device *uart, uint8_t *buf,
		     unsigned int size)
{
	int rx;

	rx = uart_fifo_read(uart, buf, size);
	if (rx < 0) {
		/* Overrun issue. Stop the UART */
		uart_irq_rx_disable(uart);

		return -EIO;
	}

	return rx;
}

static inline void cursor_forward(unsigned int count)
{
	printk("\x1b[%uC", count);
}

static inline void cursor_backward(unsigned int count)
{
	printk("\x1b[%uD", count);
}

static inline void cursor_save(void)
{
	printk("\x1b[s");
}

static inline void cursor_restore(void)
{
	printk("\x1b[u");
}

static void insert_char(char *pos, char c, uint8_t end)
{
	char tmp;

	/* Echo back to console */
	uart_poll_out(uart_console_dev, c);

	if (end == 0U) {
		*pos = c;
		return;
	}

	tmp = *pos;
	*(pos++) = c;

	cursor_save();

	while (end-- > 0) {
		uart_poll_out(uart_console_dev, tmp);
		c = *pos;
		*(pos++) = tmp;
		tmp = c;
	}

	/* Move cursor back to right place */
	cursor_restore();
}

static void del_char(char *pos, uint8_t end)
{
	uart_poll_out(uart_console_dev, '\b');

	if (end == 0U) {
		uart_poll_out(uart_console_dev, ' ');
		uart_poll_out(uart_console_dev, '\b');
		return;
	}

	cursor_save();

	while (end-- > 0) {
		*pos = *(pos + 1);
		uart_poll_out(uart_console_dev, *(pos++));
	}

	uart_poll_out(uart_console_dev, ' ');

	/* Move cursor back to right place */
	cursor_restore();
}

enum {
	ESC_ESC,
	ESC_ANSI,
	ESC_ANSI_FIRST,
	ESC_ANSI_VAL,
	ESC_ANSI_VAL_2,
#ifdef CONFIG_UART_CONSOLE_MCUMGR
	ESC_MCUMGR_PKT_1,
	ESC_MCUMGR_PKT_2,
	ESC_MCUMGR_FRAG_1,
	ESC_MCUMGR_FRAG_2,
#endif
};

static atomic_t esc_state;
static unsigned int ansi_val, ansi_val_2;
static uint8_t cur, end;

static void handle_ansi(uint8_t byte, char *line)
{
	if (atomic_test_and_clear_bit(&esc_state, ESC_ANSI_FIRST)) {
		if (!isdigit(byte)) {
			ansi_val = 1U;
			goto ansi_cmd;
		}

		atomic_set_bit(&esc_state, ESC_ANSI_VAL);
		ansi_val = byte - '0';
		ansi_val_2 = 0U;
		return;
	}

	if (atomic_test_bit(&esc_state, ESC_ANSI_VAL)) {
		if (isdigit(byte)) {
			if (atomic_test_bit(&esc_state, ESC_ANSI_VAL_2)) {
				ansi_val_2 *= 10U;
				ansi_val_2 += byte - '0';
			} else {
				ansi_val *= 10U;
				ansi_val += byte - '0';
			}
			return;
		}

		/* Multi value sequence, e.g. Esc[Line;ColumnH */
		if (byte == ';' &&
		    !atomic_test_and_set_bit(&esc_state, ESC_ANSI_VAL_2)) {
			return;
		}

		atomic_clear_bit(&esc_state, ESC_ANSI_VAL);
		atomic_clear_bit(&esc_state, ESC_ANSI_VAL_2);
	}

ansi_cmd:
	switch (byte) {
	case ANSI_BACKWARD:
		if (ansi_val > cur) {
			break;
		}

		end += ansi_val;
		cur -= ansi_val;
		cursor_backward(ansi_val);
		break;
	case ANSI_FORWARD:
		if (ansi_val > end) {
			break;
		}

		end -= ansi_val;
		cur += ansi_val;
		cursor_forward(ansi_val);
		break;
	case ANSI_HOME:
		if (!cur) {
			break;
		}

		cursor_backward(cur);
		end += cur;
		cur = 0U;
		break;
	case ANSI_END:
		if (!end) {
			break;
		}

		cursor_forward(end);
		cur += end;
		end = 0U;
		break;
	case ANSI_DEL:
		if (!end) {
			break;
		}

		cursor_forward(1);
		del_char(&line[cur], --end);
		break;
	default:
		break;
	}

	atomic_clear_bit(&esc_state, ESC_ANSI);
}

#ifdef CONFIG_UART_CONSOLE_MCUMGR

static void clear_mcumgr(void)
{
	atomic_clear_bit(&esc_state, ESC_MCUMGR_PKT_1);
	atomic_clear_bit(&esc_state, ESC_MCUMGR_PKT_2);
	atomic_clear_bit(&esc_state, ESC_MCUMGR_FRAG_1);
	atomic_clear_bit(&esc_state, ESC_MCUMGR_FRAG_2);
}

/**
 * These states indicate whether an mcumgr frame is being received.
 */
#define CONSOLE_MCUMGR_STATE_NONE       1
#define CONSOLE_MCUMGR_STATE_HEADER     2
#define CONSOLE_MCUMGR_STATE_PAYLOAD    3

static int read_mcumgr_byte(uint8_t byte)
{
	bool frag_1;
	bool frag_2;
	bool pkt_1;
	bool pkt_2;

	pkt_1 = atomic_test_bit(&esc_state, ESC_MCUMGR_PKT_1);
	pkt_2 = atomic_test_bit(&esc_state, ESC_MCUMGR_PKT_2);
	frag_1 = atomic_test_bit(&esc_state, ESC_MCUMGR_FRAG_1);
	frag_2 = atomic_test_bit(&esc_state, ESC_MCUMGR_FRAG_2);

	if (pkt_2 || frag_2) {
		/* Already fully framed. */
		return CONSOLE_MCUMGR_STATE_PAYLOAD;
	}

	if (pkt_1) {
		if (byte == MCUMGR_SERIAL_HDR_PKT_2) {
			/* Final framing byte received. */
			atomic_set_bit(&esc_state, ESC_MCUMGR_PKT_2);
			return CONSOLE_MCUMGR_STATE_PAYLOAD;
		}
	} else if (frag_1) {
		if (byte == MCUMGR_SERIAL_HDR_FRAG_2) {
			/* Final framing byte received. */
			atomic_set_bit(&esc_state, ESC_MCUMGR_FRAG_2);
			return CONSOLE_MCUMGR_STATE_PAYLOAD;
		}
	} else {
		if (byte == MCUMGR_SERIAL_HDR_PKT_1) {
			/* First framing byte received. */
			atomic_set_bit(&esc_state, ESC_MCUMGR_PKT_1);
			return CONSOLE_MCUMGR_STATE_HEADER;
		} else if (byte == MCUMGR_SERIAL_HDR_FRAG_1) {
			/* First framing byte received. */
			atomic_set_bit(&esc_state, ESC_MCUMGR_FRAG_1);
			return CONSOLE_MCUMGR_STATE_HEADER;
		}
	}

	/* Non-mcumgr byte received. */
	return CONSOLE_MCUMGR_STATE_NONE;
}

/**
 * @brief Attempts to process a received byte as part of an mcumgr frame.
 *
 * @param cmd The console command currently being received.
 * @param byte The byte just received.
 *
 * @return true if the command being received is an mcumgr frame; false if it
 * is a plain console command.
 */
static bool handle_mcumgr(struct console_input *cmd, uint8_t byte)
{
	int mcumgr_state;

	mcumgr_state = read_mcumgr_byte(byte);
	if (mcumgr_state == CONSOLE_MCUMGR_STATE_NONE) {
		/* Not an mcumgr command; let the normal console handling
		 * process the byte.
		 */
		cmd->is_mcumgr = 0;
		return false;
	}

	/* The received byte is part of an mcumgr command.  Process the byte
	 * and return true to indicate that normal console handling should
	 * ignore it.
	 */
	if (cur + end < sizeof(cmd->line) - 1) {
		cmd->line[cur++] = byte;
	}
	if (mcumgr_state == CONSOLE_MCUMGR_STATE_PAYLOAD && byte == '\n') {
		cmd->line[cur + end] = '\0';
		cmd->is_mcumgr = 1;
		k_fifo_put(lines_queue, cmd);

		clear_mcumgr();
		cmd = NULL;
		cur = 0U;
		end = 0U;
	}

	return true;
}

#endif /* CONFIG_UART_CONSOLE_MCUMGR */

static void uart_console_isr(const struct device *unused, void *user_data)
{
	ARG_UNUSED(unused);
	ARG_UNUSED(user_data);

	while (uart_irq_update(uart_console_dev) &&
	       uart_irq_is_pending(uart_console_dev)) {
		static struct console_input *cmd;
		uint8_t byte;
		int rx;

		if (!uart_irq_rx_ready(uart_console_dev)) {
			continue;
		}

		/* Character(s) have been received */

		rx = read_uart(uart_console_dev, &byte, 1);
		if (rx < 0) {
			return;
		}

#ifdef CONFIG_UART_CONSOLE_DEBUG_SERVER_HOOKS
		if (debug_hook_in != NULL && debug_hook_in(byte) != 0) {
			/*
			 * The input hook indicates that no further processing
			 * should be done by this handler.
			 */
			return;
		}
#endif

		if (!cmd) {
			cmd = k_fifo_get(avail_queue, K_NO_WAIT);
			if (!cmd) {
				return;
			}
		}

#ifdef CONFIG_UART_CONSOLE_MCUMGR
		/* Divert this byte from normal console handling if it is part
		 * of an mcumgr frame.
		 */
		if (handle_mcumgr(cmd, byte)) {
			continue;
		}
#endif          /* CONFIG_UART_CONSOLE_MCUMGR */

		/* Handle ANSI escape mode */
		if (atomic_test_bit(&esc_state, ESC_ANSI)) {
			handle_ansi(byte, cmd->line);
			continue;
		}

		/* Handle escape mode */
		if (atomic_test_and_clear_bit(&esc_state, ESC_ESC)) {
			if (byte == ANSI_ESC) {
				atomic_set_bit(&esc_state, ESC_ANSI);
				atomic_set_bit(&esc_state, ESC_ANSI_FIRST);
			}

			continue;
		}

		/* Handle special control characters */
		if (!isprint(byte)) {
			switch (byte) {
			case BS:
			case DEL:
				if (cur > 0) {
					del_char(&cmd->line[--cur], end);
				}
				break;
			case ESC:
				atomic_set_bit(&esc_state, ESC_ESC);
				break;
			case '\r':
				cmd->line[cur + end] = '\0';
				uart_poll_out(uart_console_dev, '\r');
				uart_poll_out(uart_console_dev, '\n');
				cur = 0U;
				end = 0U;
				k_fifo_put(lines_queue, cmd);
				cmd = NULL;
				break;
			case '\t':
				if (completion_cb && !end) {
					cur += completion_cb(cmd->line, cur);
				}
				break;
			default:
				break;
			}

			continue;
		}

		/* Ignore characters if there's no more buffer space */
		if (cur + end < sizeof(cmd->line) - 1) {
			insert_char(&cmd->line[cur++], byte, end);
		}
	}
}

static void console_input_init(void)
{
	uint8_t c;

	uart_irq_rx_disable(uart_console_dev);
	uart_irq_tx_disable(uart_console_dev);

	uart_irq_callback_set(uart_console_dev, uart_console_isr);

	/* Drain the fifo */
	while (uart_irq_rx_ready(uart_console_dev)) {
		uart_fifo_read(uart_console_dev, &c, 1);
	}

	uart_irq_rx_enable(uart_console_dev);
}

void uart_register_input(struct k_fifo *avail, struct k_fifo *lines,
			 uint8_t (*completion)(char *str, uint8_t len))
{
	avail_queue = avail;
	lines_queue = lines;
	completion_cb = completion;

	console_input_init();
}

#else
void uart_register_input(struct k_fifo *avail, struct k_fifo *lines,
			 uint8_t (*completion)(char *str, uint8_t len))
{
	ARG_UNUSED(avail);
	ARG_UNUSED(lines);
	ARG_UNUSED(completion);
}
#endif

/**
 * @brief Install printk/stdout hook for UART console output
 */

static void uart_console_hook_install(void)
{
#if defined(CONFIG_STDOUT_CONSOLE)
	__stdout_hook_install(console_out);
#endif
#if defined(CONFIG_PRINTK)
	__printk_hook_install(console_out);
#endif
}

/**
 * @brief Initialize one UART as the console/debug port
 *
 * @return 0 if successful, otherwise failed.
 */
static int uart_console_init(const struct device *arg)
{

	ARG_UNUSED(arg);

	if (!device_is_ready(uart_console_dev)) {
		return -ENODEV;
	}

	uart_console_hook_install();

	return 0;
}

/* UART console initializes after the UART device itself */
SYS_INIT(uart_console_init,
#if defined(CONFIG_EARLY_CONSOLE)
	 PRE_KERNEL_1,
#else
	 POST_KERNEL,
#endif
	 CONFIG_CONSOLE_INIT_PRIORITY);