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isotp.c
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isotp.c
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#include <stdint.h>
#include "assert.h"
#include "isotp.h"
///////////////////////////////////////////////////////
/// STATIC FUNCTIONS ///
///////////////////////////////////////////////////////
/* st_min to microsecond */
static uint8_t isotp_ms_to_st_min(uint8_t ms) {
uint8_t st_min;
st_min = ms;
if (st_min > 0x7F) {
st_min = 0x7F;
}
return st_min;
}
/* st_min to msec */
static uint8_t isotp_st_min_to_ms(uint8_t st_min) {
uint8_t ms;
if (st_min >= 0xF1 && st_min <= 0xF9) {
ms = 1;
} else if (st_min <= 0x7F) {
ms = st_min;
} else {
ms = 0;
}
return ms;
}
static int isotp_send_flow_control(IsoTpLink* link, uint8_t flow_status, uint8_t block_size, uint8_t st_min_ms) {
IsoTpCanMessage message;
int ret;
/* setup message */
message.as.flow_control.type = ISOTP_PCI_TYPE_FLOW_CONTROL_FRAME;
message.as.flow_control.FS = flow_status;
message.as.flow_control.BS = block_size;
message.as.flow_control.STmin = isotp_ms_to_st_min(st_min_ms);
/* send message */
#ifdef ISO_TP_FRAME_PADDING
(void) memset(message.as.flow_control.reserve, 0, sizeof(message.as.flow_control.reserve));
ret = isotp_user_send_can(link->send_arbitration_id, message.as.data_array.ptr, sizeof(message));
#else
ret = isotp_user_send_can(link->send_arbitration_id,
message.as.data_array.ptr,
3);
#endif
return ret;
}
static int isotp_send_single_frame(IsoTpLink* link, uint32_t id) {
IsoTpCanMessage message;
int ret;
/* multi frame message length must greater than 7 */
assert(link->send_size <= 7);
/* setup message */
message.as.single_frame.type = ISOTP_PCI_TYPE_SINGLE;
message.as.single_frame.SF_DL = (uint8_t) link->send_size;
(void) memcpy(message.as.single_frame.data, link->send_buffer, link->send_size);
/* send message */
#ifdef ISO_TP_FRAME_PADDING
(void) memset(message.as.single_frame.data + link->send_size, 0, sizeof(message.as.single_frame.data) - link->send_size);
ret = isotp_user_send_can(id, message.as.data_array.ptr, sizeof(message));
#else
ret = isotp_user_send_can(id,
message.as.data_array.ptr,
link->send_size + 1);
#endif
return ret;
}
static int isotp_send_first_frame(IsoTpLink* link, uint32_t id) {
IsoTpCanMessage message;
int ret;
/* multi frame message length must greater than 7 */
assert(link->send_size > 7);
/* setup message */
message.as.first_frame.type = ISOTP_PCI_TYPE_FIRST_FRAME;
message.as.first_frame.FF_DL_low = (uint8_t) link->send_size;
message.as.first_frame.FF_DL_high = (uint8_t) (0x0F & (link->send_size >> 8));
(void) memcpy(message.as.first_frame.data, link->send_buffer, sizeof(message.as.first_frame.data));
/* send message */
ret = isotp_user_send_can(id, message.as.data_array.ptr, sizeof(message));
if (ISOTP_RET_OK == ret) {
link->send_offset += sizeof(message.as.first_frame.data);
link->send_sn = 1;
}
return ret;
}
static int isotp_send_consecutive_frame(IsoTpLink* link) {
IsoTpCanMessage message;
uint16_t data_length;
int ret;
/* multi frame message length must greater than 7 */
assert(link->send_size > 7);
/* setup message */
message.as.consecutive_frame.type = TSOTP_PCI_TYPE_CONSECUTIVE_FRAME;
message.as.consecutive_frame.SN = link->send_sn;
data_length = link->send_size - link->send_offset;
if (data_length > sizeof(message.as.consecutive_frame.data)) {
data_length = sizeof(message.as.consecutive_frame.data);
}
(void) memcpy(message.as.consecutive_frame.data, link->send_buffer + link->send_offset, data_length);
/* send message */
#ifdef ISO_TP_FRAME_PADDING
(void) memset(message.as.consecutive_frame.data + data_length, 0, sizeof(message.as.consecutive_frame.data) - data_length);
ret = isotp_user_send_can(link->send_arbitration_id, message.as.data_array.ptr, sizeof(message));
#else
ret = isotp_user_send_can(link->send_arbitration_id,
message.as.data_array.ptr,
data_length + 1);
#endif
if (ISOTP_RET_OK == ret) {
link->send_offset += data_length;
if (++(link->send_sn) > 0x0F) {
link->send_sn = 0;
}
}
return ret;
}
static int isotp_receive_single_frame(IsoTpLink *link, IsoTpCanMessage *message, uint8_t len) {
/* check data length */
if ((0 == message->as.single_frame.SF_DL) || (message->as.single_frame.SF_DL > (len - 1))) {
isotp_user_debug("Single-frame length too small.");
return ISOTP_RET_LENGTH;
}
/* copying data */
(void) memcpy(link->receive_buffer, message->as.single_frame.data, message->as.single_frame.SF_DL);
link->receive_size = message->as.single_frame.SF_DL;
return ISOTP_RET_OK;
}
static int isotp_receive_first_frame(IsoTpLink *link, IsoTpCanMessage *message, uint8_t len) {
uint16_t payload_length;
if (8 != len) {
isotp_user_debug("First frame should be 8 bytes in length.");
return ISOTP_RET_LENGTH;
}
/* check data length */
payload_length = message->as.first_frame.FF_DL_high;
payload_length = (payload_length << 8) + message->as.first_frame.FF_DL_low;
/* should not use multiple frame transmition */
if (payload_length <= 7) {
isotp_user_debug("Should not use multiple frame transmission.");
return ISOTP_RET_LENGTH;
}
if (payload_length > link->receive_buf_size) {
isotp_user_debug("Multi-frame response too large for receiving buffer.");
return ISOTP_RET_OVERFLOW;
}
/* copying data */
(void) memcpy(link->receive_buffer, message->as.first_frame.data, sizeof(message->as.first_frame.data));
link->receive_size = payload_length;
link->receive_offset = sizeof(message->as.first_frame.data);
link->receive_sn = 1;
return ISOTP_RET_OK;
}
static int isotp_receive_consecutive_frame(IsoTpLink *link, IsoTpCanMessage *message, uint8_t len) {
uint16_t remaining_bytes;
/* check sn */
if (link->receive_sn != message->as.consecutive_frame.SN) {
return ISOTP_RET_WRONG_SN;
}
/* check data length */
remaining_bytes = link->receive_size - link->receive_offset;
if (remaining_bytes > sizeof(message->as.consecutive_frame.data)) {
remaining_bytes = sizeof(message->as.consecutive_frame.data);
}
if (remaining_bytes > len - 1) {
isotp_user_debug("Consecutive frame too short.");
return ISOTP_RET_LENGTH;
}
/* copying data */
(void) memcpy(link->receive_buffer + link->receive_offset, message->as.consecutive_frame.data, remaining_bytes);
link->receive_offset += remaining_bytes;
if (++(link->receive_sn) > 0x0F) {
link->receive_sn = 0;
}
return ISOTP_RET_OK;
}
static int isotp_receive_flow_control_frame(IsoTpLink *link, IsoTpCanMessage *message, uint8_t len) {
/* check message length */
if (len < 3) {
isotp_user_debug("Flow control frame too short.");
return ISOTP_RET_LENGTH;
}
return ISOTP_RET_OK;
}
///////////////////////////////////////////////////////
/// PUBLIC FUNCTIONS ///
///////////////////////////////////////////////////////
int isotp_send(IsoTpLink *link, const uint8_t payload[], uint16_t size) {
return isotp_send_with_id(link, link->send_arbitration_id, payload, size);
}
int isotp_send_with_id(IsoTpLink *link, uint32_t id, const uint8_t payload[], uint16_t size) {
int ret;
if (link == 0x0) {
isotp_user_debug("Link is null!");
return ISOTP_RET_ERROR;
}
if (size > link->send_buf_size) {
isotp_user_debug("Message size too large. Increase ISO_TP_MAX_MESSAGE_SIZE to set a larger buffer\n");
char message[128];
sprintf(&message[0], "Attempted to send %d bytes; max size is %d!\n", size, link->send_buf_size);
return ISOTP_RET_OVERFLOW;
}
if (ISOTP_SEND_STATUS_INPROGRESS == link->send_status) {
isotp_user_debug("Abort previous message, transmission in progress.\n");
return ISOTP_RET_INPROGRESS;
}
/* copy into local buffer */
link->send_size = size;
link->send_offset = 0;
(void) memcpy(link->send_buffer, payload, size);
if (link->send_size < 8) {
/* send single frame */
ret = isotp_send_single_frame(link, id);
} else {
/* send multi-frame */
ret = isotp_send_first_frame(link, id);
/* init multi-frame control flags */
if (ISOTP_RET_OK == ret) {
link->send_bs_remain = 0;
link->send_st_min = 0;
link->send_wtf_count = 0;
link->send_timer_st = isotp_user_get_ms();
link->send_timer_bs = isotp_user_get_ms() + ISO_TP_DEFAULT_RESPONSE_TIMEOUT;
link->send_protocol_result = ISOTP_PROTOCOL_RESULT_OK;
link->send_status = ISOTP_SEND_STATUS_INPROGRESS;
}
}
return ret;
}
void isotp_on_can_message(IsoTpLink *link, uint8_t *data, uint8_t len) {
IsoTpCanMessage message;
int ret;
if (len < 2 || len > 8) {
return;
}
memcpy(message.as.data_array.ptr, data, len);
memset(message.as.data_array.ptr + len, 0, sizeof(message.as.data_array.ptr) - len);
switch (message.as.common.type) {
case ISOTP_PCI_TYPE_SINGLE: {
/* update protocol result */
if (ISOTP_RECEIVE_STATUS_INPROGRESS == link->receive_status) {
link->receive_protocol_result = ISOTP_PROTOCOL_RESULT_UNEXP_PDU;
} else {
link->receive_protocol_result = ISOTP_PROTOCOL_RESULT_OK;
}
/* handle message */
ret = isotp_receive_single_frame(link, &message, len);
if (ISOTP_RET_OK == ret) {
/* change status */
link->receive_status = ISOTP_RECEIVE_STATUS_FULL;
}
break;
}
case ISOTP_PCI_TYPE_FIRST_FRAME: {
/* update protocol result */
if (ISOTP_RECEIVE_STATUS_INPROGRESS == link->receive_status) {
link->receive_protocol_result = ISOTP_PROTOCOL_RESULT_UNEXP_PDU;
} else {
link->receive_protocol_result = ISOTP_PROTOCOL_RESULT_OK;
}
/* handle message */
ret = isotp_receive_first_frame(link, &message, len);
/* if overflow happened */
if (ISOTP_RET_OVERFLOW == ret) {
/* update protocol result */
link->receive_protocol_result = ISOTP_PROTOCOL_RESULT_BUFFER_OVFLW;
/* change status */
link->receive_status = ISOTP_RECEIVE_STATUS_IDLE;
/* send error message */
isotp_send_flow_control(link, PCI_FLOW_STATUS_OVERFLOW, 0, 0);
break;
}
/* if receive successful */
if (ISOTP_RET_OK == ret) {
/* change status */
link->receive_status = ISOTP_RECEIVE_STATUS_INPROGRESS;
/* send fc frame */
link->receive_bs_count = ISO_TP_DEFAULT_BLOCK_SIZE;
isotp_send_flow_control(link, PCI_FLOW_STATUS_CONTINUE, link->receive_bs_count, ISO_TP_DEFAULT_ST_MIN);
/* refresh timer cs */
link->receive_timer_cr = isotp_user_get_ms() + ISO_TP_DEFAULT_RESPONSE_TIMEOUT;
}
break;
}
case TSOTP_PCI_TYPE_CONSECUTIVE_FRAME: {
/* check if in receiving status */
if (ISOTP_RECEIVE_STATUS_INPROGRESS != link->receive_status) {
link->receive_protocol_result = ISOTP_PROTOCOL_RESULT_UNEXP_PDU;
break;
}
/* handle message */
ret = isotp_receive_consecutive_frame(link, &message, len);
/* if wrong sn */
if (ISOTP_RET_WRONG_SN == ret) {
link->receive_protocol_result = ISOTP_PROTOCOL_RESULT_WRONG_SN;
link->receive_status = ISOTP_RECEIVE_STATUS_IDLE;
break;
}
/* if success */
if (ISOTP_RET_OK == ret) {
/* refresh timer cs */
link->receive_timer_cr = isotp_user_get_ms() + ISO_TP_DEFAULT_RESPONSE_TIMEOUT;
/* receive finished */
if (link->receive_offset >= link->receive_size) {
link->receive_status = ISOTP_RECEIVE_STATUS_FULL;
} else {
/* send fc when bs reaches limit */
if (0 == --link->receive_bs_count) {
link->receive_bs_count = ISO_TP_DEFAULT_BLOCK_SIZE;
isotp_send_flow_control(link, PCI_FLOW_STATUS_CONTINUE, link->receive_bs_count, ISO_TP_DEFAULT_ST_MIN);
}
}
}
break;
}
case ISOTP_PCI_TYPE_FLOW_CONTROL_FRAME:
/* handle fc frame only when sending in progress */
if (ISOTP_SEND_STATUS_INPROGRESS != link->send_status) {
break;
}
/* handle message */
ret = isotp_receive_flow_control_frame(link, &message, len);
if (ISOTP_RET_OK == ret) {
/* refresh bs timer */
link->send_timer_bs = isotp_user_get_ms() + ISO_TP_DEFAULT_RESPONSE_TIMEOUT;
/* overflow */
if (PCI_FLOW_STATUS_OVERFLOW == message.as.flow_control.FS) {
link->send_protocol_result = ISOTP_PROTOCOL_RESULT_BUFFER_OVFLW;
link->send_status = ISOTP_SEND_STATUS_ERROR;
}
/* wait */
else if (PCI_FLOW_STATUS_WAIT == message.as.flow_control.FS) {
link->send_wtf_count += 1;
/* wait exceed allowed count */
if (link->send_wtf_count > ISO_TP_MAX_WFT_NUMBER) {
link->send_protocol_result = ISOTP_PROTOCOL_RESULT_WFT_OVRN;
link->send_status = ISOTP_SEND_STATUS_ERROR;
}
}
/* permit send */
else if (PCI_FLOW_STATUS_CONTINUE == message.as.flow_control.FS) {
if (0 == message.as.flow_control.BS) {
link->send_bs_remain = ISOTP_INVALID_BS;
} else {
link->send_bs_remain = message.as.flow_control.BS;
}
link->send_st_min = isotp_st_min_to_ms(message.as.flow_control.STmin);
link->send_wtf_count = 0;
}
}
break;
default:
break;
};
return;
}
int isotp_receive(IsoTpLink *link, uint8_t *payload, const uint16_t payload_size, uint16_t *out_size) {
uint16_t copylen;
if (ISOTP_RECEIVE_STATUS_FULL != link->receive_status) {
return ISOTP_RET_NO_DATA;
}
copylen = link->receive_size;
if (copylen > payload_size) {
copylen = payload_size;
}
memcpy(payload, link->receive_buffer, copylen);
*out_size = copylen;
link->receive_status = ISOTP_RECEIVE_STATUS_IDLE;
return ISOTP_RET_OK;
}
void isotp_init_link(IsoTpLink *link, uint32_t sendid, uint8_t *sendbuf, uint16_t sendbufsize, uint8_t *recvbuf, uint16_t recvbufsize) {
memset(link, 0, sizeof(*link));
link->receive_status = ISOTP_RECEIVE_STATUS_IDLE;
link->send_status = ISOTP_SEND_STATUS_IDLE;
link->send_arbitration_id = sendid;
link->send_buffer = sendbuf;
link->send_buf_size = sendbufsize;
link->receive_buffer = recvbuf;
link->receive_buf_size = recvbufsize;
return;
}
void isotp_poll(IsoTpLink *link) {
int ret;
/* only polling when operation in progress */
if (ISOTP_SEND_STATUS_INPROGRESS == link->send_status) {
/* continue send data */
if (/* send data if bs_remain is invalid or bs_remain large than zero */
(ISOTP_INVALID_BS == link->send_bs_remain || link->send_bs_remain > 0) &&
/* and if st_min is zero or go beyond interval time */
(0 == link->send_st_min || (0 != link->send_st_min && IsoTpTimeAfter(isotp_user_get_ms(), link->send_timer_st)))) {
ret = isotp_send_consecutive_frame(link);
if (ISOTP_RET_OK == ret) {
if (ISOTP_INVALID_BS != link->send_bs_remain) {
link->send_bs_remain -= 1;
}
link->send_timer_bs = isotp_user_get_ms() + ISO_TP_DEFAULT_RESPONSE_TIMEOUT;
link->send_timer_st = isotp_user_get_ms() + link->send_st_min;
/* check if send finish */
if (link->send_offset >= link->send_size) {
link->send_status = ISOTP_SEND_STATUS_IDLE;
}
} else {
link->send_status = ISOTP_SEND_STATUS_ERROR;
}
}
/* check timeout */
if (IsoTpTimeAfter(isotp_user_get_ms(), link->send_timer_bs)) {
link->send_protocol_result = ISOTP_PROTOCOL_RESULT_TIMEOUT_BS;
link->send_status = ISOTP_SEND_STATUS_ERROR;
}
}
/* only polling when operation in progress */
if (ISOTP_RECEIVE_STATUS_INPROGRESS == link->receive_status) {
/* check timeout */
if (IsoTpTimeAfter(isotp_user_get_ms(), link->receive_timer_cr)) {
link->receive_protocol_result = ISOTP_PROTOCOL_RESULT_TIMEOUT_CR;
link->receive_status = ISOTP_RECEIVE_STATUS_IDLE;
}
}
return;
}