blob: 6df95afca8a1056628b249946194a0615a8000a7 [file] [log] [blame]
/*
* Copyright (c) 2019 Alexander Wachter
* Copyright (c) 2023 Enphase Energy
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "isotp_internal.h"
#include <zephyr/net_buf.h>
#include <zephyr/kernel.h>
#include <zephyr/init.h>
#include <zephyr/sys/util.h>
#include <zephyr/logging/log.h>
LOG_MODULE_REGISTER(isotp, CONFIG_ISOTP_LOG_LEVEL);
#ifdef CONFIG_ISOTP_ENABLE_CONTEXT_BUFFERS
K_MEM_SLAB_DEFINE(ctx_slab, sizeof(struct isotp_send_ctx),
CONFIG_ISOTP_TX_CONTEXT_BUF_COUNT, 4);
#endif
static void receive_pool_free(struct net_buf *buf);
static void receive_ff_sf_pool_free(struct net_buf *buf);
NET_BUF_POOL_DEFINE(isotp_rx_pool, CONFIG_ISOTP_RX_BUF_COUNT,
CONFIG_ISOTP_RX_BUF_SIZE, sizeof(uint32_t),
receive_pool_free);
NET_BUF_POOL_DEFINE(isotp_rx_sf_ff_pool, CONFIG_ISOTP_RX_SF_FF_BUF_COUNT,
CAN_MAX_DLEN, sizeof(uint32_t), receive_ff_sf_pool_free);
static struct isotp_global_ctx global_ctx = {
.alloc_list = SYS_SLIST_STATIC_INIT(&global_ctx.alloc_list),
.ff_sf_alloc_list = SYS_SLIST_STATIC_INIT(&global_ctx.ff_sf_alloc_list)
};
#ifdef CONFIG_ISOTP_USE_TX_BUF
NET_BUF_POOL_VAR_DEFINE(isotp_tx_pool, CONFIG_ISOTP_TX_BUF_COUNT,
CONFIG_ISOTP_BUF_TX_DATA_POOL_SIZE, 0, NULL);
#endif
static void receive_state_machine(struct isotp_recv_ctx *rctx);
static inline void prepare_frame(struct can_frame *frame, struct isotp_msg_id *addr)
{
frame->id = addr->ext_id;
frame->flags = ((addr->flags & ISOTP_MSG_IDE) != 0 ? CAN_FRAME_IDE : 0) |
((addr->flags & ISOTP_MSG_FDF) != 0 ? CAN_FRAME_FDF : 0) |
((addr->flags & ISOTP_MSG_BRS) != 0 ? CAN_FRAME_BRS : 0);
}
static inline void prepare_filter(struct can_filter *filter, struct isotp_msg_id *addr,
uint32_t mask)
{
filter->id = addr->ext_id;
filter->mask = mask;
filter->flags = (addr->flags & ISOTP_MSG_IDE) != 0 ? CAN_FILTER_IDE : 0;
}
/*
* Wake every context that is waiting for a buffer
*/
static void receive_pool_free(struct net_buf *buf)
{
struct isotp_recv_ctx *rctx;
sys_snode_t *rctx_node;
net_buf_destroy(buf);
SYS_SLIST_FOR_EACH_NODE(&global_ctx.alloc_list, rctx_node) {
rctx = CONTAINER_OF(rctx_node, struct isotp_recv_ctx, alloc_node);
k_work_submit(&rctx->work);
}
}
static void receive_ff_sf_pool_free(struct net_buf *buf)
{
struct isotp_recv_ctx *rctx;
sys_snode_t *rctx_node;
net_buf_destroy(buf);
SYS_SLIST_FOR_EACH_NODE(&global_ctx.ff_sf_alloc_list, rctx_node) {
rctx = CONTAINER_OF(rctx_node, struct isotp_recv_ctx, alloc_node);
k_work_submit(&rctx->work);
}
}
static inline void receive_report_error(struct isotp_recv_ctx *rctx, int err)
{
rctx->state = ISOTP_RX_STATE_ERR;
rctx->error_nr = err;
}
static void receive_can_tx(const struct device *dev, int error, void *arg)
{
struct isotp_recv_ctx *rctx = (struct isotp_recv_ctx *)arg;
ARG_UNUSED(dev);
if (error != 0) {
LOG_ERR("Error sending FC frame (%d)", error);
receive_report_error(rctx, ISOTP_N_ERROR);
k_work_submit(&rctx->work);
}
}
static inline uint32_t receive_get_ff_length(struct net_buf *buf)
{
uint32_t len;
uint8_t pci = net_buf_pull_u8(buf);
len = ((pci & ISOTP_PCI_FF_DL_UPPER_MASK) << 8) | net_buf_pull_u8(buf);
/* Jumbo packet (32 bit length)*/
if (!len) {
len = net_buf_pull_be32(buf);
}
return len;
}
static inline uint32_t receive_get_sf_length(struct net_buf *buf, bool fdf)
{
uint8_t len = net_buf_pull_u8(buf) & ISOTP_PCI_SF_DL_MASK;
/* Single frames > 8 bytes (CAN FD only) */
if (IS_ENABLED(CONFIG_CAN_FD_MODE) && fdf && !len) {
len = net_buf_pull_u8(buf);
}
return len;
}
static void receive_send_fc(struct isotp_recv_ctx *rctx, uint8_t fs)
{
struct can_frame frame;
uint8_t *data = frame.data;
uint8_t payload_len;
int ret;
__ASSERT_NO_MSG(!(fs & ISOTP_PCI_TYPE_MASK));
prepare_frame(&frame, &rctx->tx_addr);
if ((rctx->tx_addr.flags & ISOTP_MSG_EXT_ADDR) != 0) {
*data++ = rctx->tx_addr.ext_addr;
}
*data++ = ISOTP_PCI_TYPE_FC | fs;
*data++ = rctx->opts.bs;
*data++ = rctx->opts.stmin;
payload_len = data - frame.data;
#ifdef CONFIG_ISOTP_ENABLE_TX_PADDING
/* AUTOSAR requirement SWS_CanTp_00347 */
memset(&frame.data[payload_len], ISOTP_PAD_BYTE,
ISOTP_PADDED_FRAME_DL_MIN - payload_len);
frame.dlc = can_bytes_to_dlc(ISOTP_PADDED_FRAME_DL_MIN);
#else
frame.dlc = can_bytes_to_dlc(payload_len);
#endif
ret = can_send(rctx->can_dev, &frame, K_MSEC(ISOTP_A_TIMEOUT_MS), receive_can_tx, rctx);
if (ret) {
LOG_ERR("Can't send FC, (%d)", ret);
receive_report_error(rctx, ISOTP_N_TIMEOUT_A);
receive_state_machine(rctx);
}
}
static inline struct net_buf *receive_alloc_buffer_chain(uint32_t len)
{
struct net_buf *buf, *frag, *last;
uint32_t remaining_len;
LOG_DBG("Allocate %d bytes ", len);
buf = net_buf_alloc_fixed(&isotp_rx_pool, K_NO_WAIT);
if (!buf) {
return NULL;
}
if (len <= CONFIG_ISOTP_RX_BUF_SIZE) {
return buf;
}
remaining_len = len - CONFIG_ISOTP_RX_BUF_SIZE;
last = buf;
while (remaining_len) {
frag = net_buf_alloc_fixed(&isotp_rx_pool, K_NO_WAIT);
if (!frag) {
net_buf_unref(buf);
return NULL;
}
net_buf_frag_insert(last, frag);
last = frag;
remaining_len = remaining_len > CONFIG_ISOTP_RX_BUF_SIZE ?
remaining_len - CONFIG_ISOTP_RX_BUF_SIZE : 0;
}
return buf;
}
static void receive_timeout_handler(struct k_timer *timer)
{
struct isotp_recv_ctx *rctx = CONTAINER_OF(timer, struct isotp_recv_ctx, timer);
switch (rctx->state) {
case ISOTP_RX_STATE_WAIT_CF:
LOG_ERR("Timeout while waiting for CF");
receive_report_error(rctx, ISOTP_N_TIMEOUT_CR);
break;
case ISOTP_RX_STATE_TRY_ALLOC:
rctx->state = ISOTP_RX_STATE_SEND_WAIT;
break;
}
k_work_submit(&rctx->work);
}
static int receive_alloc_buffer(struct isotp_recv_ctx *rctx)
{
struct net_buf *buf = NULL;
if (rctx->opts.bs == 0) {
/* Alloc all buffers because we can't wait during reception */
buf = receive_alloc_buffer_chain(rctx->length);
} else {
/* Alloc the minimum of the remaining length and bytes of one block */
uint32_t len = MIN(rctx->length, rctx->opts.bs * (rctx->rx_addr.dl - 1));
buf = receive_alloc_buffer_chain(len);
}
if (!buf) {
k_timer_start(&rctx->timer, K_MSEC(ISOTP_ALLOC_TIMEOUT_MS), K_NO_WAIT);
if (rctx->wft == ISOTP_WFT_FIRST) {
LOG_DBG("Allocation failed. Append to alloc list");
rctx->wft = 0;
sys_slist_append(&global_ctx.alloc_list, &rctx->alloc_node);
} else {
LOG_DBG("Allocation failed. Send WAIT frame");
rctx->state = ISOTP_RX_STATE_SEND_WAIT;
receive_state_machine(rctx);
}
return -1;
}
if (rctx->state == ISOTP_RX_STATE_TRY_ALLOC) {
k_timer_stop(&rctx->timer);
rctx->wft = ISOTP_WFT_FIRST;
sys_slist_find_and_remove(&global_ctx.alloc_list, &rctx->alloc_node);
}
if (rctx->opts.bs != 0) {
rctx->buf = buf;
} else {
net_buf_frag_insert(rctx->buf, buf);
}
rctx->act_frag = buf;
return 0;
}
static void receive_state_machine(struct isotp_recv_ctx *rctx)
{
int ret;
uint32_t *ud_rem_len;
switch (rctx->state) {
case ISOTP_RX_STATE_PROCESS_SF:
rctx->length = receive_get_sf_length(rctx->buf,
(rctx->rx_addr.flags & ISOTP_MSG_FDF) != 0);
ud_rem_len = net_buf_user_data(rctx->buf);
*ud_rem_len = 0;
LOG_DBG("SM process SF of length %d", rctx->length);
k_fifo_put(&rctx->fifo, rctx->buf);
rctx->state = ISOTP_RX_STATE_RECYCLE;
receive_state_machine(rctx);
break;
case ISOTP_RX_STATE_PROCESS_FF:
rctx->length = receive_get_ff_length(rctx->buf);
LOG_DBG("SM process FF. Length: %d", rctx->length);
rctx->length -= rctx->buf->len;
if (rctx->opts.bs == 0 &&
rctx->length > CONFIG_ISOTP_RX_BUF_COUNT * CONFIG_ISOTP_RX_BUF_SIZE) {
LOG_ERR("Pkt length is %d but buffer has only %d bytes", rctx->length,
CONFIG_ISOTP_RX_BUF_COUNT * CONFIG_ISOTP_RX_BUF_SIZE);
receive_report_error(rctx, ISOTP_N_BUFFER_OVERFLW);
receive_state_machine(rctx);
break;
}
if (rctx->opts.bs) {
rctx->bs = rctx->opts.bs;
ud_rem_len = net_buf_user_data(rctx->buf);
*ud_rem_len = rctx->length;
k_fifo_put(&rctx->fifo, rctx->buf);
}
rctx->wft = ISOTP_WFT_FIRST;
rctx->state = ISOTP_RX_STATE_TRY_ALLOC;
__fallthrough;
case ISOTP_RX_STATE_TRY_ALLOC:
LOG_DBG("SM try to allocate");
k_timer_stop(&rctx->timer);
ret = receive_alloc_buffer(rctx);
if (ret) {
LOG_DBG("SM allocation failed. Wait for free buffer");
break;
}
rctx->state = ISOTP_RX_STATE_SEND_FC;
__fallthrough;
case ISOTP_RX_STATE_SEND_FC:
LOG_DBG("SM send CTS FC frame");
receive_send_fc(rctx, ISOTP_PCI_FS_CTS);
k_timer_start(&rctx->timer, K_MSEC(ISOTP_CR_TIMEOUT_MS), K_NO_WAIT);
rctx->state = ISOTP_RX_STATE_WAIT_CF;
break;
case ISOTP_RX_STATE_SEND_WAIT:
if (++rctx->wft < CONFIG_ISOTP_WFTMAX) {
LOG_DBG("Send wait frame number %d", rctx->wft);
receive_send_fc(rctx, ISOTP_PCI_FS_WAIT);
k_timer_start(&rctx->timer, K_MSEC(ISOTP_ALLOC_TIMEOUT_MS), K_NO_WAIT);
rctx->state = ISOTP_RX_STATE_TRY_ALLOC;
break;
}
sys_slist_find_and_remove(&global_ctx.alloc_list, &rctx->alloc_node);
LOG_ERR("Sent %d wait frames. Giving up to alloc now", rctx->wft);
receive_report_error(rctx, ISOTP_N_BUFFER_OVERFLW);
__fallthrough;
case ISOTP_RX_STATE_ERR:
LOG_DBG("SM ERR state. err nr: %d", rctx->error_nr);
k_timer_stop(&rctx->timer);
if (rctx->error_nr == ISOTP_N_BUFFER_OVERFLW) {
receive_send_fc(rctx, ISOTP_PCI_FS_OVFLW);
}
k_fifo_cancel_wait(&rctx->fifo);
net_buf_unref(rctx->buf);
rctx->buf = NULL;
rctx->state = ISOTP_RX_STATE_RECYCLE;
__fallthrough;
case ISOTP_RX_STATE_RECYCLE:
LOG_DBG("SM recycle context for next message");
rctx->buf = net_buf_alloc_fixed(&isotp_rx_sf_ff_pool, K_NO_WAIT);
if (!rctx->buf) {
LOG_DBG("No free context. Append to waiters list");
sys_slist_append(&global_ctx.ff_sf_alloc_list, &rctx->alloc_node);
break;
}
sys_slist_find_and_remove(&global_ctx.ff_sf_alloc_list, &rctx->alloc_node);
rctx->state = ISOTP_RX_STATE_WAIT_FF_SF;
__fallthrough;
case ISOTP_RX_STATE_UNBOUND:
break;
default:
break;
}
}
static void receive_work_handler(struct k_work *item)
{
struct isotp_recv_ctx *rctx = CONTAINER_OF(item, struct isotp_recv_ctx, work);
receive_state_machine(rctx);
}
static void process_ff_sf(struct isotp_recv_ctx *rctx, struct can_frame *frame)
{
int index = 0;
uint8_t sf_len;
uint8_t payload_len;
uint32_t rx_sa; /* ISO-TP fixed source address (if used) */
uint8_t can_dl = can_dlc_to_bytes(frame->dlc);
if ((rctx->rx_addr.flags & ISOTP_MSG_EXT_ADDR) != 0) {
if (frame->data[index++] != rctx->rx_addr.ext_addr) {
return;
}
}
if ((rctx->rx_addr.flags & ISOTP_MSG_FIXED_ADDR) != 0) {
/* store actual CAN ID used by the sender */
rctx->rx_addr.ext_id = frame->id;
/* replace TX target address with RX source address */
rx_sa = (frame->id & ISOTP_FIXED_ADDR_SA_MASK) >>
ISOTP_FIXED_ADDR_SA_POS;
rctx->tx_addr.ext_id &= ~(ISOTP_FIXED_ADDR_TA_MASK);
rctx->tx_addr.ext_id |= rx_sa << ISOTP_FIXED_ADDR_TA_POS;
/* use same priority for TX as in received message */
if (ISOTP_FIXED_ADDR_PRIO_MASK) {
rctx->tx_addr.ext_id &= ~(ISOTP_FIXED_ADDR_PRIO_MASK);
rctx->tx_addr.ext_id |= frame->id & ISOTP_FIXED_ADDR_PRIO_MASK;
}
}
switch (frame->data[index] & ISOTP_PCI_TYPE_MASK) {
case ISOTP_PCI_TYPE_FF:
LOG_DBG("Got FF IRQ");
if (can_dl < ISOTP_FF_DL_MIN) {
LOG_INF("FF DLC invalid. Ignore");
return;
}
payload_len = can_dl;
rctx->state = ISOTP_RX_STATE_PROCESS_FF;
rctx->rx_addr.dl = can_dl;
rctx->sn_expected = 1;
break;
case ISOTP_PCI_TYPE_SF:
LOG_DBG("Got SF IRQ");
#ifdef CONFIG_ISOTP_REQUIRE_RX_PADDING
/* AUTOSAR requirement SWS_CanTp_00345 */
if (can_dl < ISOTP_PADDED_FRAME_DL_MIN) {
LOG_INF("SF DLC invalid. Ignore");
return;
}
#endif
sf_len = frame->data[index] & ISOTP_PCI_SF_DL_MASK;
/* Single frames > 8 bytes (CAN FD only) */
if (IS_ENABLED(CONFIG_CAN_FD_MODE) && (rctx->rx_addr.flags & ISOTP_MSG_FDF) != 0 &&
can_dl > ISOTP_4BIT_SF_MAX_CAN_DL) {
if (sf_len != 0) {
LOG_INF("SF DL invalid. Ignore");
return;
}
sf_len = frame->data[index + 1];
payload_len = index + 2 + sf_len;
} else {
payload_len = index + 1 + sf_len;
}
if (payload_len > can_dl) {
LOG_INF("SF DL does not fit. Ignore");
return;
}
rctx->state = ISOTP_RX_STATE_PROCESS_SF;
break;
default:
LOG_INF("Got unexpected frame. Ignore");
return;
}
net_buf_add_mem(rctx->buf, &frame->data[index], payload_len - index);
}
static inline void receive_add_mem(struct isotp_recv_ctx *rctx, uint8_t *data, size_t len)
{
size_t tailroom = net_buf_tailroom(rctx->act_frag);
if (tailroom >= len) {
net_buf_add_mem(rctx->act_frag, data, len);
return;
}
/* Use next fragment that is already allocated*/
net_buf_add_mem(rctx->act_frag, data, tailroom);
rctx->act_frag = rctx->act_frag->frags;
if (!rctx->act_frag) {
LOG_ERR("No fragment left to append data");
receive_report_error(rctx, ISOTP_N_BUFFER_OVERFLW);
return;
}
net_buf_add_mem(rctx->act_frag, data + tailroom, len - tailroom);
}
static void process_cf(struct isotp_recv_ctx *rctx, struct can_frame *frame)
{
uint32_t *ud_rem_len = (uint32_t *)net_buf_user_data(rctx->buf);
int index = 0;
uint32_t data_len;
uint8_t can_dl = can_dlc_to_bytes(frame->dlc);
if ((rctx->rx_addr.flags & ISOTP_MSG_EXT_ADDR) != 0) {
if (frame->data[index++] != rctx->rx_addr.ext_addr) {
return;
}
}
if ((frame->data[index] & ISOTP_PCI_TYPE_MASK) != ISOTP_PCI_TYPE_CF) {
LOG_DBG("Waiting for CF but got something else (%d)",
frame->data[index] >> ISOTP_PCI_TYPE_POS);
receive_report_error(rctx, ISOTP_N_UNEXP_PDU);
k_work_submit(&rctx->work);
return;
}
k_timer_start(&rctx->timer, K_MSEC(ISOTP_CR_TIMEOUT_MS), K_NO_WAIT);
if ((frame->data[index++] & ISOTP_PCI_SN_MASK) != rctx->sn_expected++) {
LOG_ERR("Sequence number mismatch");
receive_report_error(rctx, ISOTP_N_WRONG_SN);
k_work_submit(&rctx->work);
return;
}
#ifdef CONFIG_ISOTP_REQUIRE_RX_PADDING
/* AUTOSAR requirement SWS_CanTp_00346 */
if (can_dl < ISOTP_PADDED_FRAME_DL_MIN) {
LOG_ERR("CF DL invalid");
receive_report_error(rctx, ISOTP_N_ERROR);
return;
}
#endif
/* First frame defines the RX data length, consecutive frames
* must have the same length (except the last frame)
*/
if (can_dl != rctx->rx_addr.dl && rctx->length > can_dl - index) {
LOG_ERR("CF DL invalid");
receive_report_error(rctx, ISOTP_N_ERROR);
return;
}
LOG_DBG("Got CF irq. Appending data");
data_len = MIN(rctx->length, can_dl - index);
receive_add_mem(rctx, &frame->data[index], data_len);
rctx->length -= data_len;
LOG_DBG("%d bytes remaining", rctx->length);
if (rctx->length == 0) {
rctx->state = ISOTP_RX_STATE_RECYCLE;
*ud_rem_len = 0;
k_fifo_put(&rctx->fifo, rctx->buf);
return;
}
if (rctx->opts.bs && !--rctx->bs) {
LOG_DBG("Block is complete. Allocate new buffer");
rctx->bs = rctx->opts.bs;
*ud_rem_len = rctx->length;
k_fifo_put(&rctx->fifo, rctx->buf);
rctx->state = ISOTP_RX_STATE_TRY_ALLOC;
}
}
static void receive_can_rx(const struct device *dev, struct can_frame *frame, void *arg)
{
struct isotp_recv_ctx *rctx = (struct isotp_recv_ctx *)arg;
ARG_UNUSED(dev);
if (IS_ENABLED(CONFIG_CAN_ACCEPT_RTR) && (frame->flags & CAN_FRAME_RTR) != 0U) {
return;
}
switch (rctx->state) {
case ISOTP_RX_STATE_WAIT_FF_SF:
__ASSERT_NO_MSG(rctx->buf);
process_ff_sf(rctx, frame);
break;
case ISOTP_RX_STATE_WAIT_CF:
process_cf(rctx, frame);
/* still waiting for more CF */
if (rctx->state == ISOTP_RX_STATE_WAIT_CF) {
return;
}
break;
case ISOTP_RX_STATE_RECYCLE:
LOG_ERR("Got a frame but was not yet ready for a new one");
receive_report_error(rctx, ISOTP_N_BUFFER_OVERFLW);
break;
default:
LOG_INF("Got a frame in a state where it is unexpected.");
}
k_work_submit(&rctx->work);
}
static inline int add_ff_sf_filter(struct isotp_recv_ctx *rctx)
{
struct can_filter filter;
uint32_t mask;
if ((rctx->rx_addr.flags & ISOTP_MSG_FIXED_ADDR) != 0) {
mask = ISOTP_FIXED_ADDR_RX_MASK;
} else if ((rctx->rx_addr.flags & ISOTP_MSG_IDE) != 0) {
mask = CAN_EXT_ID_MASK;
} else {
mask = CAN_STD_ID_MASK;
}
prepare_filter(&filter, &rctx->rx_addr, mask);
rctx->filter_id = can_add_rx_filter(rctx->can_dev, receive_can_rx, rctx, &filter);
if (rctx->filter_id < 0) {
LOG_ERR("Error adding FF filter [%d]", rctx->filter_id);
return ISOTP_NO_FREE_FILTER;
}
return 0;
}
int isotp_bind(struct isotp_recv_ctx *rctx, const struct device *can_dev,
const struct isotp_msg_id *rx_addr,
const struct isotp_msg_id *tx_addr,
const struct isotp_fc_opts *opts,
k_timeout_t timeout)
{
can_mode_t cap;
int ret;
__ASSERT(rctx, "rctx is NULL");
__ASSERT(can_dev, "CAN device is NULL");
__ASSERT(rx_addr && tx_addr, "RX or TX addr is NULL");
__ASSERT(opts, "OPTS is NULL");
rctx->can_dev = can_dev;
rctx->rx_addr = *rx_addr;
rctx->tx_addr = *tx_addr;
k_fifo_init(&rctx->fifo);
__ASSERT(opts->stmin < ISOTP_STMIN_MAX, "STmin limit");
__ASSERT(opts->stmin <= ISOTP_STMIN_MS_MAX ||
opts->stmin >= ISOTP_STMIN_US_BEGIN, "STmin reserved");
rctx->opts = *opts;
rctx->state = ISOTP_RX_STATE_WAIT_FF_SF;
if ((rx_addr->flags & ISOTP_MSG_FDF) != 0 || (tx_addr->flags & ISOTP_MSG_FDF) != 0) {
ret = can_get_capabilities(can_dev, &cap);
if (ret != 0 || (cap & CAN_MODE_FD) == 0) {
LOG_ERR("CAN controller does not support FD mode");
return ISOTP_N_ERROR;
}
}
LOG_DBG("Binding to addr: 0x%x. Responding on 0x%x",
rctx->rx_addr.ext_id, rctx->tx_addr.ext_id);
rctx->buf = net_buf_alloc_fixed(&isotp_rx_sf_ff_pool, timeout);
if (!rctx->buf) {
LOG_ERR("No buffer for FF left");
return ISOTP_NO_NET_BUF_LEFT;
}
ret = add_ff_sf_filter(rctx);
if (ret) {
LOG_ERR("Can't add filter for binding");
net_buf_unref(rctx->buf);
rctx->buf = NULL;
return ret;
}
k_work_init(&rctx->work, receive_work_handler);
k_timer_init(&rctx->timer, receive_timeout_handler, NULL);
return ISOTP_N_OK;
}
void isotp_unbind(struct isotp_recv_ctx *rctx)
{
struct net_buf *buf;
if (rctx->filter_id >= 0 && rctx->can_dev) {
can_remove_rx_filter(rctx->can_dev, rctx->filter_id);
}
k_timer_stop(&rctx->timer);
sys_slist_find_and_remove(&global_ctx.ff_sf_alloc_list, &rctx->alloc_node);
sys_slist_find_and_remove(&global_ctx.alloc_list, &rctx->alloc_node);
rctx->state = ISOTP_RX_STATE_UNBOUND;
while ((buf = k_fifo_get(&rctx->fifo, K_NO_WAIT))) {
net_buf_unref(buf);
}
k_fifo_cancel_wait(&rctx->fifo);
if (rctx->buf) {
net_buf_unref(rctx->buf);
}
LOG_DBG("Unbound");
}
int isotp_recv_net(struct isotp_recv_ctx *rctx, struct net_buf **buffer, k_timeout_t timeout)
{
struct net_buf *buf;
int ret;
buf = k_fifo_get(&rctx->fifo, timeout);
if (!buf) {
ret = rctx->error_nr ? rctx->error_nr : ISOTP_RECV_TIMEOUT;
rctx->error_nr = 0;
return ret;
}
*buffer = buf;
return *(uint32_t *)net_buf_user_data(buf);
}
int isotp_recv(struct isotp_recv_ctx *rctx, uint8_t *data, size_t len, k_timeout_t timeout)
{
size_t copied, to_copy;
int err;
if (!rctx->recv_buf) {
rctx->recv_buf = k_fifo_get(&rctx->fifo, timeout);
if (!rctx->recv_buf) {
err = rctx->error_nr ? rctx->error_nr : ISOTP_RECV_TIMEOUT;
rctx->error_nr = 0;
return err;
}
}
/* traverse fragments and delete them after copying the data */
copied = 0;
while (rctx->recv_buf && copied < len) {
to_copy = MIN(len - copied, rctx->recv_buf->len);
memcpy((uint8_t *)data + copied, rctx->recv_buf->data, to_copy);
if (rctx->recv_buf->len == to_copy) {
/* point recv_buf to next frag */
rctx->recv_buf = net_buf_frag_del(NULL, rctx->recv_buf);
} else {
/* pull received data from remaining frag(s) */
net_buf_pull(rctx->recv_buf, to_copy);
}
copied += to_copy;
}
return copied;
}
static inline void send_report_error(struct isotp_send_ctx *sctx, uint32_t err)
{
sctx->state = ISOTP_TX_ERR;
sctx->error_nr = err;
}
static void send_can_tx_cb(const struct device *dev, int error, void *arg)
{
struct isotp_send_ctx *sctx = (struct isotp_send_ctx *)arg;
ARG_UNUSED(dev);
sctx->tx_backlog--;
k_sem_give(&sctx->tx_sem);
if (sctx->state == ISOTP_TX_WAIT_BACKLOG) {
if (sctx->tx_backlog > 0) {
return;
}
sctx->state = ISOTP_TX_WAIT_FIN;
}
k_work_submit(&sctx->work);
}
static void send_timeout_handler(struct k_timer *timer)
{
struct isotp_send_ctx *sctx = CONTAINER_OF(timer, struct isotp_send_ctx, timer);
if (sctx->state != ISOTP_TX_SEND_CF) {
send_report_error(sctx, ISOTP_N_TIMEOUT_BS);
LOG_ERR("Reception of next FC has timed out");
}
k_work_submit(&sctx->work);
}
static void send_process_fc(struct isotp_send_ctx *sctx, struct can_frame *frame)
{
uint8_t *data = frame->data;
if ((sctx->rx_addr.flags & ISOTP_MSG_EXT_ADDR) != 0) {
if (sctx->rx_addr.ext_addr != *data++) {
return;
}
}
if ((*data & ISOTP_PCI_TYPE_MASK) != ISOTP_PCI_TYPE_FC) {
LOG_ERR("Got unexpected PDU expected FC");
send_report_error(sctx, ISOTP_N_UNEXP_PDU);
return;
}
#ifdef CONFIG_ISOTP_REQUIRE_RX_PADDING
/* AUTOSAR requirement SWS_CanTp_00349 */
if (frame->dlc < ISOTP_PADDED_FRAME_DL_MIN) {
LOG_ERR("FC DL invalid. Ignore");
send_report_error(sctx, ISOTP_N_ERROR);
return;
}
#endif
switch (*data++ & ISOTP_PCI_FS_MASK) {
case ISOTP_PCI_FS_CTS:
sctx->state = ISOTP_TX_SEND_CF;
sctx->wft = 0;
sctx->tx_backlog = 0;
k_sem_reset(&sctx->tx_sem);
sctx->opts.bs = *data++;
sctx->opts.stmin = *data++;
sctx->bs = sctx->opts.bs;
LOG_DBG("Got CTS. BS: %d, STmin: %d", sctx->opts.bs,
sctx->opts.stmin);
break;
case ISOTP_PCI_FS_WAIT:
LOG_DBG("Got WAIT frame");
k_timer_start(&sctx->timer, K_MSEC(ISOTP_BS_TIMEOUT_MS), K_NO_WAIT);
if (sctx->wft >= CONFIG_ISOTP_WFTMAX) {
LOG_INF("Got to many wait frames");
send_report_error(sctx, ISOTP_N_WFT_OVRN);
}
sctx->wft++;
break;
case ISOTP_PCI_FS_OVFLW:
LOG_ERR("Got overflow FC frame");
send_report_error(sctx, ISOTP_N_BUFFER_OVERFLW);
break;
default:
send_report_error(sctx, ISOTP_N_INVALID_FS);
}
}
static void send_can_rx_cb(const struct device *dev, struct can_frame *frame, void *arg)
{
struct isotp_send_ctx *sctx = (struct isotp_send_ctx *)arg;
ARG_UNUSED(dev);
if (IS_ENABLED(CONFIG_CAN_ACCEPT_RTR) && (frame->flags & CAN_FRAME_RTR) != 0U) {
return;
}
if (sctx->state == ISOTP_TX_WAIT_FC) {
k_timer_stop(&sctx->timer);
send_process_fc(sctx, frame);
} else {
LOG_ERR("Got unexpected PDU");
send_report_error(sctx, ISOTP_N_UNEXP_PDU);
}
k_work_submit(&sctx->work);
}
static size_t get_send_ctx_data_len(struct isotp_send_ctx *sctx)
{
return sctx->is_net_buf ? net_buf_frags_len(sctx->buf) : sctx->len;
}
static const uint8_t *get_send_ctx_data(struct isotp_send_ctx *sctx)
{
if (sctx->is_net_buf) {
return sctx->buf->data;
} else {
return sctx->data;
}
}
static void pull_send_ctx_data(struct isotp_send_ctx *sctx, size_t len)
{
if (sctx->is_net_buf) {
net_buf_pull_mem(sctx->buf, len);
} else {
sctx->data += len;
sctx->len -= len;
}
}
static inline int send_sf(struct isotp_send_ctx *sctx)
{
struct can_frame frame;
size_t len = get_send_ctx_data_len(sctx);
int index = 0;
int ret;
const uint8_t *data;
prepare_frame(&frame, &sctx->tx_addr);
data = get_send_ctx_data(sctx);
pull_send_ctx_data(sctx, len);
if ((sctx->tx_addr.flags & ISOTP_MSG_EXT_ADDR) != 0) {
frame.data[index++] = sctx->tx_addr.ext_addr;
}
if (IS_ENABLED(CONFIG_CAN_FD_MODE) && (sctx->tx_addr.flags & ISOTP_MSG_FDF) != 0 &&
len > ISOTP_4BIT_SF_MAX_CAN_DL - 1 - index) {
frame.data[index++] = ISOTP_PCI_TYPE_SF;
frame.data[index++] = len;
} else {
frame.data[index++] = ISOTP_PCI_TYPE_SF | len;
}
if (len > sctx->tx_addr.dl - index) {
LOG_ERR("SF len does not fit DL");
return -ENOSPC;
}
memcpy(&frame.data[index], data, len);
if (IS_ENABLED(CONFIG_ISOTP_ENABLE_TX_PADDING) ||
(IS_ENABLED(CONFIG_CAN_FD_MODE) && (sctx->tx_addr.flags & ISOTP_MSG_FDF) != 0 &&
len + index > ISOTP_PADDED_FRAME_DL_MIN)) {
/* AUTOSAR requirements SWS_CanTp_00348 / SWS_CanTp_00351.
* Mandatory for ISO-TP CAN FD frames > 8 bytes.
*/
frame.dlc = can_bytes_to_dlc(
MAX(ISOTP_PADDED_FRAME_DL_MIN, len + index));
memset(&frame.data[index + len], ISOTP_PAD_BYTE,
can_dlc_to_bytes(frame.dlc) - len - index);
} else {
frame.dlc = can_bytes_to_dlc(len + index);
}
sctx->state = ISOTP_TX_SEND_SF;
ret = can_send(sctx->can_dev, &frame, K_MSEC(ISOTP_A_TIMEOUT_MS), send_can_tx_cb, sctx);
return ret;
}
static inline int send_ff(struct isotp_send_ctx *sctx)
{
struct can_frame frame;
int index = 0;
size_t len = get_send_ctx_data_len(sctx);
int ret;
const uint8_t *data;
prepare_frame(&frame, &sctx->tx_addr);
frame.dlc = can_bytes_to_dlc(sctx->tx_addr.dl);
if ((sctx->tx_addr.flags & ISOTP_MSG_EXT_ADDR) != 0) {
frame.data[index++] = sctx->tx_addr.ext_addr;
}
if (len > 0xFFF) {
frame.data[index++] = ISOTP_PCI_TYPE_FF;
frame.data[index++] = 0;
frame.data[index++] = (len >> 3 * 8) & 0xFF;
frame.data[index++] = (len >> 2 * 8) & 0xFF;
frame.data[index++] = (len >> 8) & 0xFF;
frame.data[index++] = len & 0xFF;
} else {
frame.data[index++] = ISOTP_PCI_TYPE_FF | (len >> 8);
frame.data[index++] = len & 0xFF;
}
/* According to ISO FF has sn 0 and is incremented to one
* although it's not part of the FF frame
*/
sctx->sn = 1;
data = get_send_ctx_data(sctx);
pull_send_ctx_data(sctx, sctx->tx_addr.dl - index);
memcpy(&frame.data[index], data, sctx->tx_addr.dl - index);
ret = can_send(sctx->can_dev, &frame, K_MSEC(ISOTP_A_TIMEOUT_MS), send_can_tx_cb, sctx);
return ret;
}
static inline int send_cf(struct isotp_send_ctx *sctx)
{
struct can_frame frame;
int index = 0;
int ret;
int len;
int rem_len;
const uint8_t *data;
prepare_frame(&frame, &sctx->tx_addr);
if ((sctx->tx_addr.flags & ISOTP_MSG_EXT_ADDR) != 0) {
frame.data[index++] = sctx->tx_addr.ext_addr;
}
/*sn wraps around at 0xF automatically because it has a 4 bit size*/
frame.data[index++] = ISOTP_PCI_TYPE_CF | sctx->sn;
rem_len = get_send_ctx_data_len(sctx);
len = MIN(rem_len, sctx->tx_addr.dl - index);
rem_len -= len;
data = get_send_ctx_data(sctx);
memcpy(&frame.data[index], data, len);
if (IS_ENABLED(CONFIG_ISOTP_ENABLE_TX_PADDING) ||
(IS_ENABLED(CONFIG_CAN_FD_MODE) && (sctx->tx_addr.flags & ISOTP_MSG_FDF) != 0 &&
len + index > ISOTP_PADDED_FRAME_DL_MIN)) {
/* AUTOSAR requirements SWS_CanTp_00348 / SWS_CanTp_00351.
* Mandatory for ISO-TP CAN FD frames > 8 bytes.
*/
frame.dlc = can_bytes_to_dlc(
MAX(ISOTP_PADDED_FRAME_DL_MIN, len + index));
memset(&frame.data[index + len], ISOTP_PAD_BYTE,
can_dlc_to_bytes(frame.dlc) - len - index);
} else {
frame.dlc = can_bytes_to_dlc(len + index);
}
ret = can_send(sctx->can_dev, &frame, K_MSEC(ISOTP_A_TIMEOUT_MS), send_can_tx_cb, sctx);
if (ret == 0) {
sctx->sn++;
pull_send_ctx_data(sctx, len);
sctx->bs--;
sctx->tx_backlog++;
}
ret = ret ? ret : rem_len;
return ret;
}
#ifdef CONFIG_ISOTP_ENABLE_CONTEXT_BUFFERS
static inline void free_send_ctx(struct isotp_send_ctx **sctx)
{
if ((*sctx)->is_net_buf) {
net_buf_unref((*sctx)->buf);
(*sctx)->buf = NULL;
}
if ((*sctx)->is_ctx_slab) {
k_mem_slab_free(&ctx_slab, (void *)*sctx);
}
}
static int alloc_send_ctx(struct isotp_send_ctx **sctx, k_timeout_t timeout)
{
int ret;
ret = k_mem_slab_alloc(&ctx_slab, (void **)sctx, timeout);
if (ret) {
return ISOTP_NO_CTX_LEFT;
}
(*sctx)->is_ctx_slab = 1;
return 0;
}
#else
#define free_send_ctx(x)
#endif /*CONFIG_ISOTP_ENABLE_CONTEXT_BUFFERS*/
static k_timeout_t stmin_to_timeout(uint8_t stmin)
{
/* According to ISO 15765-2 stmin should be 127ms if value is corrupt */
if (stmin > ISOTP_STMIN_MAX ||
(stmin > ISOTP_STMIN_MS_MAX && stmin < ISOTP_STMIN_US_BEGIN)) {
return K_MSEC(ISOTP_STMIN_MS_MAX);
}
if (stmin >= ISOTP_STMIN_US_BEGIN) {
return K_USEC((stmin + 1 - ISOTP_STMIN_US_BEGIN) * 100U);
}
return K_MSEC(stmin);
}
static void send_state_machine(struct isotp_send_ctx *sctx)
{
int ret;
switch (sctx->state) {
case ISOTP_TX_SEND_FF:
send_ff(sctx);
k_timer_start(&sctx->timer, K_MSEC(ISOTP_BS_TIMEOUT_MS), K_NO_WAIT);
sctx->state = ISOTP_TX_WAIT_FC;
LOG_DBG("SM send FF");
break;
case ISOTP_TX_SEND_CF:
LOG_DBG("SM send CF");
k_timer_stop(&sctx->timer);
do {
ret = send_cf(sctx);
if (!ret) {
sctx->state = ISOTP_TX_WAIT_BACKLOG;
break;
}
if (ret < 0) {
LOG_ERR("Failed to send CF");
send_report_error(sctx, ret == -EAGAIN ?
ISOTP_N_TIMEOUT_A :
ISOTP_N_ERROR);
break;
}
if (sctx->opts.bs && !sctx->bs) {
k_timer_start(&sctx->timer, K_MSEC(ISOTP_BS_TIMEOUT_MS), K_NO_WAIT);
sctx->state = ISOTP_TX_WAIT_FC;
LOG_DBG("BS reached. Wait for FC again");
break;
} else if (sctx->opts.stmin) {
sctx->state = ISOTP_TX_WAIT_ST;
break;
}
/* Ensure FIFO style transmission of CF */
k_sem_take(&sctx->tx_sem, K_FOREVER);
} while (ret > 0);
break;
case ISOTP_TX_WAIT_ST:
k_timer_start(&sctx->timer, stmin_to_timeout(sctx->opts.stmin), K_NO_WAIT);
sctx->state = ISOTP_TX_SEND_CF;
LOG_DBG("SM wait ST");
break;
case ISOTP_TX_ERR:
LOG_DBG("SM error");
__fallthrough;
case ISOTP_TX_SEND_SF:
__fallthrough;
case ISOTP_TX_WAIT_FIN:
if (sctx->filter_id >= 0) {
can_remove_rx_filter(sctx->can_dev, sctx->filter_id);
}
LOG_DBG("SM finish");
k_timer_stop(&sctx->timer);
if (sctx->has_callback) {
sctx->fin_cb.cb(sctx->error_nr, sctx->fin_cb.arg);
free_send_ctx(&sctx);
} else {
k_sem_give(&sctx->fin_sem);
}
sctx->state = ISOTP_TX_STATE_RESET;
break;
default:
break;
}
}
static void send_work_handler(struct k_work *item)
{
struct isotp_send_ctx *sctx = CONTAINER_OF(item, struct isotp_send_ctx, work);
send_state_machine(sctx);
}
static inline int add_fc_filter(struct isotp_send_ctx *sctx)
{
struct can_filter filter;
uint32_t mask;
if ((sctx->rx_addr.flags & ISOTP_MSG_IDE) != 0) {
mask = CAN_EXT_ID_MASK;
} else {
mask = CAN_STD_ID_MASK;
}
prepare_filter(&filter, &sctx->rx_addr, mask);
sctx->filter_id = can_add_rx_filter(sctx->can_dev, send_can_rx_cb, sctx,
&filter);
if (sctx->filter_id < 0) {
LOG_ERR("Error adding FC filter [%d]", sctx->filter_id);
return ISOTP_NO_FREE_FILTER;
}
return 0;
}
static int send(struct isotp_send_ctx *sctx, const struct device *can_dev,
const struct isotp_msg_id *tx_addr,
const struct isotp_msg_id *rx_addr,
isotp_tx_callback_t complete_cb, void *cb_arg)
{
can_mode_t cap;
size_t len;
int ret;
__ASSERT_NO_MSG(sctx);
__ASSERT_NO_MSG(can_dev);
__ASSERT_NO_MSG(rx_addr && tx_addr);
if ((rx_addr->flags & ISOTP_MSG_FDF) != 0 || (tx_addr->flags & ISOTP_MSG_FDF) != 0) {
ret = can_get_capabilities(can_dev, &cap);
if (ret != 0 || (cap & CAN_MODE_FD) == 0) {
LOG_ERR("CAN controller does not support FD mode");
return ISOTP_N_ERROR;
}
}
if (complete_cb) {
sctx->fin_cb.cb = complete_cb;
sctx->fin_cb.arg = cb_arg;
sctx->has_callback = 1;
} else {
k_sem_init(&sctx->fin_sem, 0, 1);
sctx->has_callback = 0;
}
k_sem_init(&sctx->tx_sem, 0, 1);
sctx->can_dev = can_dev;
sctx->tx_addr = *tx_addr;
sctx->rx_addr = *rx_addr;
sctx->error_nr = ISOTP_N_OK;
sctx->wft = 0;
k_work_init(&sctx->work, send_work_handler);
k_timer_init(&sctx->timer, send_timeout_handler, NULL);
switch (sctx->tx_addr.dl) {
case 0:
if ((sctx->tx_addr.flags & ISOTP_MSG_FDF) == 0) {
sctx->tx_addr.dl = 8;
} else {
sctx->tx_addr.dl = 64;
}
__fallthrough;
case 8:
break;
case 12:
case 16:
case 20:
case 24:
case 32:
case 48:
case 64:
if ((sctx->tx_addr.flags & ISOTP_MSG_FDF) == 0) {
LOG_ERR("TX_DL > 8 only supported with FD mode");
return ISOTP_N_ERROR;
}
break;
default:
LOG_ERR("Invalid TX_DL: %u", sctx->tx_addr.dl);
return ISOTP_N_ERROR;
}
len = get_send_ctx_data_len(sctx);
LOG_DBG("Send %zu bytes to addr 0x%x and listen on 0x%x", len,
sctx->tx_addr.ext_id, sctx->rx_addr.ext_id);
/* Single frames > 8 bytes use an additional byte for length (CAN FD only) */
if (len > sctx->tx_addr.dl - (((tx_addr->flags & ISOTP_MSG_EXT_ADDR) != 0) ? 2 : 1) -
((sctx->tx_addr.dl > ISOTP_4BIT_SF_MAX_CAN_DL) ? 1 : 0)) {
ret = add_fc_filter(sctx);
if (ret) {
LOG_ERR("Can't add fc filter: %d", ret);
free_send_ctx(&sctx);
return ret;
}
LOG_DBG("Starting work to send FF");
sctx->state = ISOTP_TX_SEND_FF;
k_work_submit(&sctx->work);
} else {
LOG_DBG("Sending single frame");
sctx->filter_id = -1;
ret = send_sf(sctx);
if (ret) {
free_send_ctx(&sctx);
return ret == -EAGAIN ?
ISOTP_N_TIMEOUT_A : ISOTP_N_ERROR;
}
}
if (!complete_cb) {
k_sem_take(&sctx->fin_sem, K_FOREVER);
ret = sctx->error_nr;
free_send_ctx(&sctx);
return ret;
}
return ISOTP_N_OK;
}
int isotp_send(struct isotp_send_ctx *sctx, const struct device *can_dev,
const uint8_t *data, size_t len,
const struct isotp_msg_id *tx_addr,
const struct isotp_msg_id *rx_addr,
isotp_tx_callback_t complete_cb, void *cb_arg)
{
sctx->data = data;
sctx->len = len;
sctx->is_ctx_slab = 0;
sctx->is_net_buf = 0;
return send(sctx, can_dev, tx_addr, rx_addr, complete_cb, cb_arg);
}
#ifdef CONFIG_ISOTP_ENABLE_CONTEXT_BUFFERS
int isotp_send_ctx_buf(const struct device *can_dev,
const uint8_t *data, size_t len,
const struct isotp_msg_id *tx_addr,
const struct isotp_msg_id *rx_addr,
isotp_tx_callback_t complete_cb, void *cb_arg,
k_timeout_t timeout)
{
struct isotp_send_ctx *sctx;
int ret;
__ASSERT_NO_MSG(data);
ret = alloc_send_ctx(&sctx, timeout);
if (ret) {
return ret;
}
sctx->data = data;
sctx->len = len;
sctx->is_net_buf = 0;
return send(sctx, can_dev, tx_addr, rx_addr, complete_cb, cb_arg);
}
int isotp_send_net_ctx_buf(const struct device *can_dev,
struct net_buf *data,
const struct isotp_msg_id *tx_addr,
const struct isotp_msg_id *rx_addr,
isotp_tx_callback_t complete_cb, void *cb_arg,
k_timeout_t timeout)
{
struct isotp_send_ctx *sctx;
int ret;
__ASSERT_NO_MSG(data);
ret = alloc_send_ctx(&sctx, timeout);
if (ret) {
return ret;
}
sctx->is_net_buf = 1;
sctx->buf = data;
return send(sctx, can_dev, tx_addr, rx_addr, complete_cb, cb_arg);
}
#ifdef CONFIG_ISOTP_USE_TX_BUF
int isotp_send_buf(const struct device *can_dev,
const uint8_t *data, size_t len,
const struct isotp_msg_id *tx_addr,
const struct isotp_msg_id *rx_addr,
isotp_tx_callback_t complete_cb, void *cb_arg,
k_timeout_t timeout)
{
struct isotp_send_ctx *sctx;
struct net_buf *buf;
int ret;
__ASSERT_NO_MSG(data);
ret = alloc_send_ctx(&sctx, timeout);
if (ret) {
return ret;
}
buf = net_buf_alloc_len(&isotp_tx_pool, len, timeout);
if (!buf) {
k_mem_slab_free(&ctx_slab, (void *)sctx);
return ISOTP_NO_BUF_DATA_LEFT;
}
net_buf_add_mem(buf, data, len);
sctx->is_net_buf = 1;
sctx->buf = buf;
return send(sctx, can_dev, tx_addr, rx_addr, complete_cb, cb_arg);
}
#endif /*CONFIG_ISOTP_USE_TX_BUF*/
#endif /*CONFIG_ISOTP_ENABLE_CONTEXT_BUFFERS*/