Motion_EC_HC32_archived/rt-thread/components/utilities/ymodem/ymodem.h

175 lines
5.8 KiB
C

/*
* COPYRIGHT (C) 2011-2021, Real-Thread Information Technology Ltd
* All rights reserved
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2013-04-14 Grissiom initial implementation
* 2019-12-09 Steven Liu add YMODEM send protocol
*/
#ifndef __YMODEM_H__
#define __YMODEM_H__
#include "rtthread.h"
#include <string.h>
/* The word "RYM" is stand for "Real-YModem". */
enum rym_code
{
RYM_CODE_NONE = 0x00,
RYM_CODE_SOH = 0x01,
RYM_CODE_STX = 0x02,
RYM_CODE_EOT = 0x04,
RYM_CODE_ACK = 0x06,
RYM_CODE_NAK = 0x15,
RYM_CODE_CAN = 0x18,
RYM_CODE_C = 0x43,
};
/* RYM error code
*
* We use the rt_err_t to return error values. We take use of current error
* codes available in RTT and append ourselves.
*/
/* timeout on handshake */
#define RYM_ERR_TMO 0x70
/* wrong code, wrong SOH, STX etc. */
#define RYM_ERR_CODE 0x71
/* wrong sequence number */
#define RYM_ERR_SEQ 0x72
/* wrong CRC checksum */
#define RYM_ERR_CRC 0x73
/* not enough data received */
#define RYM_ERR_DSZ 0x74
/* the transmission is aborted by user */
#define RYM_ERR_CAN 0x75
/* wrong answer, wrong ACK or C */
#define RYM_ERR_ACK 0x76
/* transmit file invalid */
#define RYM_ERR_FILE 0x77
/* how many ticks wait for chars between packet. */
#ifndef RYM_WAIT_CHR_TICK
#define RYM_WAIT_CHR_TICK (RT_TICK_PER_SECOND * 3)
#endif
/* how many ticks wait for between packet. */
#ifndef RYM_WAIT_PKG_TICK
#define RYM_WAIT_PKG_TICK (RT_TICK_PER_SECOND * 3)
#endif
/* how many ticks between two handshake code. */
#ifndef RYM_CHD_INTV_TICK
#define RYM_CHD_INTV_TICK (RT_TICK_PER_SECOND * 3)
#endif
/* how many CAN be sent when user active end the session. */
#ifndef RYM_END_SESSION_SEND_CAN_NUM
#define RYM_END_SESSION_SEND_CAN_NUM 0x07
#endif
enum rym_stage
{
RYM_STAGE_NONE,
/* set when C is send */
RYM_STAGE_ESTABLISHING,
/* set when we've got the packet 0 and sent ACK and second C */
RYM_STAGE_ESTABLISHED,
/* set when the sender respond to our second C and recviever got a real
* data packet. */
RYM_STAGE_TRANSMITTING,
/* set when the sender send a EOT */
RYM_STAGE_FINISHING,
/* set when transmission is really finished, i.e., after the NAK, C, final
* NULL packet stuff. */
RYM_STAGE_FINISHED,
};
struct rym_ctx;
/* When receiving files, the buf will be the data received from ymodem protocol
* and the len is the data size.
*
* When sending files, the len is the buf size in RYM. The callback need to
* fill the buf with data to send. Returning RYM_CODE_EOT will terminate the
* transfer and the buf will be discarded. Any other return values will cause
* the transfer continue.
*/
typedef enum rym_code(*rym_callback)(struct rym_ctx *ctx, rt_uint8_t *buf, rt_size_t len);
/* Currently RYM only support one transfer session(ctx) for simplicity.
*
* In case we could support multiple sessions in The future, the first argument
* of APIs are (struct rym_ctx*).
*/
struct rym_ctx
{
rym_callback on_data;
rym_callback on_begin;
rym_callback on_end;
/* When error happened, user need to check this to get when the error has
* happened. */
enum rym_stage stage;
/* user could get the error content through this */
rt_uint8_t *buf;
struct rt_semaphore sem;
rt_device_t dev;
};
/* recv a file on device dev with ymodem session ctx.
*
* If an error happens, you can get where it is failed from ctx->stage.
*
* @param on_begin The callback will be invoked when the first packet arrived.
* This packet often contain file names and the size of the file, if the sender
* support it. So if you want to save the data to a file, you may need to
* create the file on need. It is the on_begin's responsibility to parse the
* data content. The on_begin can be NULL, in which case the transmission will
* continue without any side-effects.
*
* @param on_data The callback will be invoked on the packets received. The
* callback should save the data to the destination. The return value will be
* sent to the sender and in turn, only RYM_{ACK,CAN} is valid. When on_data is
* NULL, RYM will barely send ACK on every packet and have no side-effects.
*
* @param on_end The callback will be invoked when one transmission is
* finished. The data should be 128 bytes of NULL. You can do some cleaning job
* in this callback such as closing the file. The return value of this callback
* is ignored. As above, this parameter can be NULL if you don't need such
* function.
*
* @param handshake_timeout the timeout when hand shaking. The unit is in
* second.
*/
rt_err_t rym_recv_on_device(struct rym_ctx *ctx, rt_device_t dev, rt_uint16_t oflag,
rym_callback on_begin, rym_callback on_data, rym_callback on_end,
int handshake_timeout);
/* send a file on device dev with ymodem session ctx.
*
* If an error happens, you can get where it is failed from ctx->stage.
*
* @param on_begin The callback will be invoked when the first packet is sent.
* This packet often contain file names and the size of the file. It is the
* on_begin's responsibility to parse the basic information of the file. The
* on_begin can not be NULL.
*
* @param on_data The callback will be invoked when the data packets is sent.
* The callback should read file system and prepare the data packets. The
* on_data can not be NULL.
*
* @param on_end The callback will be invoked when one transmission is
* finished. The data should be 128 bytes of NULL. The on_end can not be NULL.
*
* @param handshake_timeout the timeout when hand shaking. The unit is in
* second.
*/
rt_err_t rym_send_on_device(struct rym_ctx *ctx, rt_device_t dev, rt_uint16_t oflag,
rym_callback on_begin, rym_callback on_data, rym_callback on_end,
int handshake_timeout);
#endif