/**
* @file fifo_dev.c
* @brief Operate the hardware fifo with Linux application
* @details Call fifo_dev_init() paired with fifo_dev_deinit() as their names imply, fifo_dev_write_xxx() can be executed several times to operate the hardware fifo between fifo_dev_init() and fifo_dev_deinit()
* @mainpage github.com/NanjingForestryUniversity
* @author miaow (3703781@qq.com)
* @version 1.1
* @date 2022/08/07
* @mainpage github.com/NanjingForestryUniversity
*
* @copyright Copyright (c) 2022 miaow
*
* @par Changelog:
*
*
Date
Version
Author
Description
*
2022/06/09
1.0
miaow
Write this file
*
2022/08/07
1.1
miaow
Add ignore_row_num to fifo_dev_write_frame
*
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#define FIFO_CMD_FUNCTION_CLEAR 1
#define FIFO_CMD_FUNCTION_PADDING 2
#define FIFO_CMD_GET_EMPTYCOUNT 3
static int fifo_dev_fd = -1;
static char perror_buffer[128];
/**
* @brief Initialize the hardware fifo
* @note This function just open the file descriptor of the hardware fifo
* @return 0 - success, other - error
*/
int fifo_dev_init()
{
fifo_dev_fd = open(FIFO_DEV_PATH, O_RDWR);
ON_ERROR_RET(fifo_dev_fd, "", "", -1);
return 0;
}
/**
* @brief Get the count of read operation when the fifo is empty.
* @note The empty read count will be set to zero at fifo_dev_clear() only.
* @return >=0 - success, other - error
*/
int fifo_dev_get_emptycount()
{
int count;
int res = ioctl(fifo_dev_fd, _IOR('D', FIFO_CMD_GET_EMPTYCOUNT, 0), &count);
ON_ERROR_RET(res, "", "", -1);
return count;
}
/**
* @brief Set value to put of a frame.
* @param valve_data An array HOST_COMPUTER_PICTURE_COLUMN_BYTES bytes * HOST_COMPUTER_PICTURE_ROW_NUM rows.
* @param ignore_row_num Remove the ignore_row_num rows at the beginning of the frame. range: [0, HOST_COMPUTER_PICTURE_BYTES)
* @return 0 - success, other - error
*/
int fifo_dev_write_frame(void *valve_data, int ignore_row_num)
{
ssize_t size;
char *valve_to_write = (char *)valve_data + ignore_row_num * HOST_COMPUTER_PICTURE_COLUMN_BYTES;
int size_to_write = HOST_COMPUTER_PICTURE_COLUMN_BYTES * (HOST_COMPUTER_PICTURE_ROW_NUM - ignore_row_num);
size = write(fifo_dev_fd, valve_to_write, size_to_write);
int res = -(size < size_to_write);
ON_ERROR_RET(res, "size=", "", -1);
return 0;
}
/**
* @brief Set value to put of a row.
* @param valve_data An array 32bytes.
* @return 0 - success, other - error
*/
int fifo_dev_write_row(void *valve_data)
{
ssize_t size = write(fifo_dev_fd, valve_data, 32);
int res = -(size < 32);
ON_ERROR_RET(res, "size=", "", -1);
return 0;
}
/**
* @brief Flush and clear the hardware fifo.
* @return 0 - success, other - error
*/
int fifo_dev_clear()
{
int res = ioctl(fifo_dev_fd, _IOW('D', FIFO_CMD_FUNCTION_CLEAR, 0));
ON_ERROR_RET(res, "", "", -1);
return 0;
}
/**
* @brief Write `count` zero-items to the haredware fifo, which acts as delay time.
* @param count Count of zero-items to write.
* @return 0 - success, other - error
*/
int fifo_dev_write_delay(uint32_t count)
{
int res = ioctl(fifo_dev_fd, _IOW('D', FIFO_CMD_FUNCTION_PADDING, 0), count);
ON_ERROR_RET(res, "", "", -1);
return 0;
}
/**
* @brief Get the count of items in the hardware fifo.
* @note An item from hardware fifo is of 256 bits in size, aka. 32 bytes, 8 integers
* @return >=0 - success, other - error
*/
int fifo_dev_get_count()
{
uint32_t fifo_item_count;
ssize_t size = read(fifo_dev_fd, &fifo_item_count, sizeof(fifo_item_count));
if (size != sizeof(fifo_item_count))
ON_ERROR(-1, "size=", "");
return fifo_item_count;
}
/**
* @brief Deinitialize the hardware fifo.
* @note This function just close the file descriptor of the hardware fifo.
* @return 0 - success, -1 - error
*/
int fifo_dev_deinit()
{
int res = close(fifo_dev_fd);
ON_ERROR_RET(res, "", "", -1);
return 0;
}