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/* Copyright (c) 2012 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.
*/
/* uart.h - UART module for Chrome EC */
#ifndef __CROS_EC_UART_H
#define __CROS_EC_UART_H
#include <stdarg.h> /* For va_list */
#include "common.h"
#include "gpio.h"
/**
* Initialize the UART module.
*/
void uart_init(void);
/**
* Return non-zero if UART init has completed.
*/
int uart_init_done(void);
/*
* Output functions
*
* Output is buffered. If the buffer overflows, subsequent output is
* discarded.
*
* Modules should use the output functions in console.h in preference to these
* routines, so that output can be filtered on a module-by-module basis.
*/
/**
* Put a single character to the UART, like putchar().
*
* @param c Character to put
* @return EC_SUCCESS, or non-zero if output was truncated.
*/
int uart_putc(int c);
/**
* Put a null-terminated string to the UART, like fputs().
*
* @return EC_SUCCESS, or non-zero if output was truncated.
*/
int uart_puts(const char *outstr);
/**
* Put byte stream to the UART
*
* @param out Pointer to data to send
* @param len Length of transfer in bytes
* @return EC_SUCCESS, or non-zero if output was truncated.
*/
int uart_put(const char *out, int len);
/**
* Print formatted output to the UART, like printf().
*
* See printf.h for valid formatting codes.
*
* @return EC_SUCCESS, or non-zero if output was truncated.
*/
int uart_printf(const char *format, ...);
/**
* Print formatted output to the UART, like vprintf().
*
* See printf.h for valid formatting codes.
*
* @return EC_SUCCESS, or non-zero if output was truncated.
*/
int uart_vprintf(const char *format, va_list args);
/**
* Flush output. Blocks until UART has transmitted all output.
*/
void uart_flush_output(void);
/*
* Input functions
*
* Input is buffered. If the buffer overflows, the oldest input in
* the buffer is discarded to make room for the new input.
*
* Input lines may be terminated by CR ('\r'), LF ('\n'), or CRLF; all
* are translated to newline.
*/
/**
* Read a single character of input, similar to fgetc().
*
* @return the character, or -1 if no input waiting.
*/
int uart_getc(void);
/*
* Hardware UART driver functions
*/
/**
* Flush the transmit FIFO.
*/
void uart_tx_flush(void);
/**
* Return non-zero if there is room to transmit a character immediately.
*/
int uart_tx_ready(void);
/**
* Return non-zero if a transmit is in progress.
*/
int uart_tx_in_progress(void);
/**
* Return non-zero if UART is ready to start a DMA transfer.
*/
int uart_tx_dma_ready(void);
/**
* Start a UART transmit DMA transfer
*
* @param src Pointer to data to send
* @param len Length of transfer in bytes
*/
void uart_tx_dma_start(const char *src, int len);
/**
* Return non-zero if the UART has a character available to read.
*/
int uart_rx_available(void);
/**
* Start a UART receive DMA transfer.
*
* DMA will be configured in circular buffer mode, so received characters
* will be stored into the buffer continuously.
*
* @param dest Pointer to destination buffer
* @param len Length of buffer in bytes
*/
void uart_rx_dma_start(char *dest, int len);
/**
* Return the head of the receive DMA transfer buffer
*
* This is the next offset in the buffer which will receive a character, and
* will be from 0..(len-1) where len is the buffer length passed to
* uart_rx_dma_start().
*/
int uart_rx_dma_head(void);
/**
* Send a character to the UART data register.
*
* If the transmit FIFO is full, blocks until there is space.
*
* @param c Character to send.
*/
void uart_write_char(char c);
/**
* Read one char from the UART data register.
*
* @return The character read.
*/
int uart_read_char(void);
/**
* Re-enable the UART transmit interrupt.
*
* This also forces triggering a UART interrupt, if the transmit interrupt was
* disabled.
*/
void uart_tx_start(void);
/**
* Disable the UART transmit interrupt.
*/
void uart_tx_stop(void);
/**
* Helper for processing UART input.
*
* Reads the input FIFO until empty. Intended to be called from the driver
* interrupt handler.
*/
void uart_process_input(void);
/**
* Clear input buffer
*/
void uart_clear_input(void);
/**
* Helper for processing UART output.
*
* Fills the output FIFO until the transmit buffer is empty or the FIFO full.
* Intended to be called from the driver interrupt handler.
*/
void uart_process_output(void);
/**
* Return boolean expressing whether UART buffer is empty or not.
*/
int uart_buffer_empty(void);
/**
* Disable the EC console UART and convert the UART RX pin to a generic GPIO
* with an edge detect interrupt.
*/
void uart_enter_dsleep(void);
/**
* Enable the EC console UART after a uart_enter_dsleep().
*/
void uart_exit_dsleep(void);
#ifdef CONFIG_LOW_POWER_IDLE
/**
* Interrupt handler for UART RX pin transition in deep sleep.
*
* @param signal Signal which triggered the interrupt.
*/
void uart_deepsleep_interrupt(enum gpio_signal signal);
#else
static inline void uart_deepsleep_interrupt(enum gpio_signal signal) { }
#endif /* !CONFIG_LOW_POWER_IDLE */
#if defined(HAS_TASK_CONSOLE) && defined(CONFIG_FORCE_CONSOLE_RESUME)
/**
* Enable/Disable the UART controller low-power mode wake-up capability.
*
* @param enable 1 to enable wake-up, 0 to disable it.
*/
void uart_enable_wakeup(int enable);
#elif !defined(CHIP_FAMILY_NPCX5)
static inline void uart_enable_wakeup(int enable) {}
#endif
#ifdef CONFIG_UART_INPUT_FILTER
/**
* Application-specific input filter, which takes the next input character as
* a parameter.
*
* Return 0 to allow the character to be handled by the console, non-zero if
* the character was handled by the filter.
*/
int uart_input_filter(int c);
#endif
/*
* COMx functions
*/
/**
* Enable COMx interrupts
*/
void uart_comx_enable(void);
/**
* Return non-zero if ok to put a character via uart_comx_putc().
*/
int uart_comx_putc_ok(void);
/**
* Write a character to the COMx UART interface.
*/
void uart_comx_putc(int c);
/*
* Functions for pad switching UART, only defined on some chips (npcx), and
* if CONFIG_UART_PAD_SWITCH is enabled.
*/
enum uart_pad {
UART_DEFAULT_PAD = 0,
UART_ALTERNATE_PAD = 1,
};
/**
* Reset UART pad to default pad, so that a panic information can be printed
* on the EC console.
*/
void uart_reset_default_pad_panic(void);
/**
* Specialized function to write then read data on UART alternate pad.
* The transfer may be interrupted at any time if data is received on the main
* pad.
*
* @param tx Data to be sent
* @param tx_len Length of data to be sent
* @param rx Buffer to receive data
* @param rx_len Receive buffer length
* @param timeout_us Timeout in microseconds for the transaction to complete.
*
* @return The number of bytes read back (indicates a timeout if != rx_len).
* - -EC_ERROR_BUSY if the alternate pad cannot be used (e.g. default
* pad is currently being used), or if the transfer was interrupted.
* - -EC_ERROR_TIMEOUT in case tx_len bytes cannot be written in the
* time specified in timeout_us.
*/
int uart_alt_pad_write_read(uint8_t *tx, int tx_len, uint8_t *rx, int rx_len,
int timeout_us);
/**
* Interrupt handler for default UART RX pin transition when UART is switched
* to alternate pad.
*
* @param signal Signal which triggered the interrupt.
*/
void uart_default_pad_rx_interrupt(enum gpio_signal signal);
/**
* Prepare for following `uart_console_read_buffer()` call. It will create a
* snapshot of current uart buffer.
*
* @return result status (EC_RES_*)
*/
int uart_console_read_buffer_init(void);
/**
* Read from uart buffer.
*
* `uart_console_read_buffer_init()` must be called first.
*
* If `type` is CONSOLE_READ_NEXT, this will return data starting from the
* beginning of the last snapshot created by `uart_console_read_buffer_init()`.
*
* If `type` is CONSOLE_READ_RECENT, this will start from the end of the
* previous snapshot (so if current snapshot and previous snapshot has overlaps,
* only new content will be returned).
*
* @param type an ec_console_read_subcmd value.
* @param dest output buffer, it will be a null-terminated string.
* @param dest_size size of output buffer.
* @param write_count number of bytes written (including '\0').
*
* @return result status (EC_RES_*)
*/
int uart_console_read_buffer(uint8_t type,
char *dest,
uint16_t dest_size,
uint16_t *write_count);
#endif /* __CROS_EC_UART_H */
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