/* * Copyright (c) 2006-2023, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2015-05-14 aubrcool@qq.com first version * 2015-07-06 Bernard code cleanup and remove RT_CAN_USING_LED; */ #include #include #include #define CAN_LOCK(can) rt_mutex_take(&(can->lock), RT_WAITING_FOREVER) #define CAN_UNLOCK(can) rt_mutex_release(&(can->lock)) static rt_err_t rt_can_init(struct rt_device *dev) { rt_err_t result = RT_EOK; struct rt_can_device *can; RT_ASSERT(dev != RT_NULL); can = (struct rt_can_device *)dev; /* initialize rx/tx */ can->can_rx = RT_NULL; can->can_tx = RT_NULL; #ifdef RT_CAN_USING_HDR can->hdr = RT_NULL; #endif /* apply configuration */ if (can->ops->configure) result = can->ops->configure(can, &can->config); else result = -RT_ENOSYS; return result; } /* * can interrupt routines */ rt_inline int _can_int_rx(struct rt_can_device *can, struct rt_can_msg *data, int msgs) { int size; struct rt_can_rx_fifo *rx_fifo; RT_ASSERT(can != RT_NULL); size = msgs; rx_fifo = (struct rt_can_rx_fifo *) can->can_rx; RT_ASSERT(rx_fifo != RT_NULL); /* read from software FIFO */ while (msgs) { rt_base_t level; #ifdef RT_CAN_USING_HDR rt_int8_t hdr; #endif /*RT_CAN_USING_HDR*/ struct rt_can_msg_list *listmsg = RT_NULL; /* disable interrupt */ level = rt_hw_interrupt_disable(); #ifdef RT_CAN_USING_HDR hdr = data->hdr_index; if (hdr >= 0 && can->hdr && hdr < can->config.maxhdr && !rt_list_isempty(&can->hdr[hdr].list)) { listmsg = rt_list_entry(can->hdr[hdr].list.next, struct rt_can_msg_list, hdrlist); rt_list_remove(&listmsg->list); rt_list_remove(&listmsg->hdrlist); if (can->hdr[hdr].msgs) { can->hdr[hdr].msgs--; } listmsg->owner = RT_NULL; } else if (hdr == -1) #endif /*RT_CAN_USING_HDR*/ { if (!rt_list_isempty(&rx_fifo->uselist)) { listmsg = rt_list_entry(rx_fifo->uselist.next, struct rt_can_msg_list, list); rt_list_remove(&listmsg->list); #ifdef RT_CAN_USING_HDR rt_list_remove(&listmsg->hdrlist); if (listmsg->owner != RT_NULL && listmsg->owner->msgs) { listmsg->owner->msgs--; } listmsg->owner = RT_NULL; #endif /*RT_CAN_USING_HDR*/ } else { /* no data, enable interrupt and break out */ rt_hw_interrupt_enable(level); break; } } /* enable interrupt */ rt_hw_interrupt_enable(level); if (listmsg != RT_NULL) { rt_memcpy(data, &listmsg->data, sizeof(struct rt_can_msg)); level = rt_hw_interrupt_disable(); rt_list_insert_before(&rx_fifo->freelist, &listmsg->list); rx_fifo->freenumbers++; RT_ASSERT(rx_fifo->freenumbers <= can->config.msgboxsz); rt_hw_interrupt_enable(level); listmsg = RT_NULL; } else { break; } data ++; msgs -= sizeof(struct rt_can_msg); } return (size - msgs); } rt_inline int _can_int_tx(struct rt_can_device *can, const struct rt_can_msg *data, int msgs) { int size; struct rt_can_tx_fifo *tx_fifo; RT_ASSERT(can != RT_NULL); size = msgs; tx_fifo = (struct rt_can_tx_fifo *) can->can_tx; RT_ASSERT(tx_fifo != RT_NULL); while (msgs) { rt_base_t level; rt_uint32_t no; rt_uint32_t result; struct rt_can_sndbxinx_list *tx_tosnd = RT_NULL; rt_sem_take(&(tx_fifo->sem), RT_WAITING_FOREVER); level = rt_hw_interrupt_disable(); tx_tosnd = rt_list_entry(tx_fifo->freelist.next, struct rt_can_sndbxinx_list, list); RT_ASSERT(tx_tosnd != RT_NULL); rt_list_remove(&tx_tosnd->list); rt_hw_interrupt_enable(level); no = ((rt_uint32_t)tx_tosnd - (rt_uint32_t)tx_fifo->buffer) / sizeof(struct rt_can_sndbxinx_list); tx_tosnd->result = RT_CAN_SND_RESULT_WAIT; rt_completion_init(&tx_tosnd->completion); if (can->ops->sendmsg(can, data, no) != RT_EOK) { /* send failed. */ level = rt_hw_interrupt_disable(); rt_list_insert_before(&tx_fifo->freelist, &tx_tosnd->list); rt_hw_interrupt_enable(level); rt_sem_release(&(tx_fifo->sem)); goto err_ret; } can->status.sndchange = 1; rt_completion_wait(&(tx_tosnd->completion), RT_WAITING_FOREVER); level = rt_hw_interrupt_disable(); result = tx_tosnd->result; if (!rt_list_isempty(&tx_tosnd->list)) { rt_list_remove(&tx_tosnd->list); } rt_list_insert_before(&tx_fifo->freelist, &tx_tosnd->list); rt_hw_interrupt_enable(level); rt_sem_release(&(tx_fifo->sem)); if (result == RT_CAN_SND_RESULT_OK) { level = rt_hw_interrupt_disable(); can->status.sndpkg++; rt_hw_interrupt_enable(level); data ++; msgs -= sizeof(struct rt_can_msg); if (!msgs) break; } else { err_ret: level = rt_hw_interrupt_disable(); can->status.dropedsndpkg++; rt_hw_interrupt_enable(level); break; } } return (size - msgs); } rt_inline int _can_int_tx_priv(struct rt_can_device *can, const struct rt_can_msg *data, int msgs) { int size; rt_base_t level; rt_uint32_t no, result; struct rt_can_tx_fifo *tx_fifo; RT_ASSERT(can != RT_NULL); size = msgs; tx_fifo = (struct rt_can_tx_fifo *) can->can_tx; RT_ASSERT(tx_fifo != RT_NULL); while (msgs) { no = data->priv; if (no >= can->config.sndboxnumber) { break; } level = rt_hw_interrupt_disable(); if ((tx_fifo->buffer[no].result != RT_CAN_SND_RESULT_OK)) { rt_hw_interrupt_enable(level); rt_completion_wait(&(tx_fifo->buffer[no].completion), RT_WAITING_FOREVER); continue; } tx_fifo->buffer[no].result = RT_CAN_SND_RESULT_WAIT; rt_hw_interrupt_enable(level); if (can->ops->sendmsg(can, data, no) != RT_EOK) { continue; } can->status.sndchange = 1; rt_completion_wait(&(tx_fifo->buffer[no].completion), RT_WAITING_FOREVER); result = tx_fifo->buffer[no].result; if (result == RT_CAN_SND_RESULT_OK) { level = rt_hw_interrupt_disable(); can->status.sndpkg++; rt_hw_interrupt_enable(level); data ++; msgs -= sizeof(struct rt_can_msg); if (!msgs) break; } else { level = rt_hw_interrupt_disable(); can->status.dropedsndpkg++; rt_hw_interrupt_enable(level); break; } } return (size - msgs); } static rt_err_t rt_can_open(struct rt_device *dev, rt_uint16_t oflag) { struct rt_can_device *can; char tmpname[16]; RT_ASSERT(dev != RT_NULL); can = (struct rt_can_device *)dev; CAN_LOCK(can); /* get open flags */ dev->open_flag = oflag & 0xff; if (can->can_rx == RT_NULL) { if (oflag & RT_DEVICE_FLAG_INT_RX) { int i = 0; struct rt_can_rx_fifo *rx_fifo; rx_fifo = (struct rt_can_rx_fifo *) rt_malloc(sizeof(struct rt_can_rx_fifo) + can->config.msgboxsz * sizeof(struct rt_can_msg_list)); RT_ASSERT(rx_fifo != RT_NULL); rx_fifo->buffer = (struct rt_can_msg_list *)(rx_fifo + 1); rt_memset(rx_fifo->buffer, 0, can->config.msgboxsz * sizeof(struct rt_can_msg_list)); rt_list_init(&rx_fifo->freelist); rt_list_init(&rx_fifo->uselist); rx_fifo->freenumbers = can->config.msgboxsz; for (i = 0; i < can->config.msgboxsz; i++) { rt_list_insert_before(&rx_fifo->freelist, &rx_fifo->buffer[i].list); #ifdef RT_CAN_USING_HDR rt_list_init(&rx_fifo->buffer[i].hdrlist); rx_fifo->buffer[i].owner = RT_NULL; #endif } can->can_rx = rx_fifo; dev->open_flag |= RT_DEVICE_FLAG_INT_RX; /* open can rx interrupt */ can->ops->control(can, RT_DEVICE_CTRL_SET_INT, (void *)RT_DEVICE_FLAG_INT_RX); } } if (can->can_tx == RT_NULL) { if (oflag & RT_DEVICE_FLAG_INT_TX) { int i = 0; struct rt_can_tx_fifo *tx_fifo; tx_fifo = (struct rt_can_tx_fifo *) rt_malloc(sizeof(struct rt_can_tx_fifo) + can->config.sndboxnumber * sizeof(struct rt_can_sndbxinx_list)); RT_ASSERT(tx_fifo != RT_NULL); tx_fifo->buffer = (struct rt_can_sndbxinx_list *)(tx_fifo + 1); rt_memset(tx_fifo->buffer, 0, can->config.sndboxnumber * sizeof(struct rt_can_sndbxinx_list)); rt_list_init(&tx_fifo->freelist); for (i = 0; i < can->config.sndboxnumber; i++) { rt_list_insert_before(&tx_fifo->freelist, &tx_fifo->buffer[i].list); rt_completion_init(&(tx_fifo->buffer[i].completion)); tx_fifo->buffer[i].result = RT_CAN_SND_RESULT_OK; } rt_sprintf(tmpname, "%stl", dev->parent.name); rt_sem_init(&(tx_fifo->sem), tmpname, can->config.sndboxnumber, RT_IPC_FLAG_FIFO); can->can_tx = tx_fifo; dev->open_flag |= RT_DEVICE_FLAG_INT_TX; /* open can tx interrupt */ can->ops->control(can, RT_DEVICE_CTRL_SET_INT, (void *)RT_DEVICE_FLAG_INT_TX); } } can->ops->control(can, RT_DEVICE_CTRL_SET_INT, (void *)RT_DEVICE_CAN_INT_ERR); #ifdef RT_CAN_USING_HDR if (can->hdr == RT_NULL) { int i = 0; struct rt_can_hdr *phdr; phdr = (struct rt_can_hdr *) rt_malloc(can->config.maxhdr * sizeof(struct rt_can_hdr)); RT_ASSERT(phdr != RT_NULL); rt_memset(phdr, 0, can->config.maxhdr * sizeof(struct rt_can_hdr)); for (i = 0; i < can->config.maxhdr; i++) { rt_list_init(&phdr[i].list); } can->hdr = phdr; } #endif if (!can->timerinitflag) { can->timerinitflag = 1; rt_timer_start(&can->timer); } CAN_UNLOCK(can); return RT_EOK; } static rt_err_t rt_can_close(struct rt_device *dev) { struct rt_can_device *can; RT_ASSERT(dev != RT_NULL); can = (struct rt_can_device *)dev; CAN_LOCK(can); /* this device has more reference count */ if (dev->ref_count > 1) { CAN_UNLOCK(can); return RT_EOK; } if (can->timerinitflag) { can->timerinitflag = 0; rt_timer_stop(&can->timer); } can->status_indicate.ind = RT_NULL; can->status_indicate.args = RT_NULL; #ifdef RT_CAN_USING_HDR if (can->hdr != RT_NULL) { rt_free(can->hdr); can->hdr = RT_NULL; } #endif if (dev->open_flag & RT_DEVICE_FLAG_INT_RX) { struct rt_can_rx_fifo *rx_fifo; rx_fifo = (struct rt_can_rx_fifo *)can->can_rx; RT_ASSERT(rx_fifo != RT_NULL); rt_free(rx_fifo); dev->open_flag &= ~RT_DEVICE_FLAG_INT_RX; can->can_rx = RT_NULL; /* clear can rx interrupt */ can->ops->control(can, RT_DEVICE_CTRL_CLR_INT, (void *)RT_DEVICE_FLAG_INT_RX); } if (dev->open_flag & RT_DEVICE_FLAG_INT_TX) { struct rt_can_tx_fifo *tx_fifo; tx_fifo = (struct rt_can_tx_fifo *)can->can_tx; RT_ASSERT(tx_fifo != RT_NULL); rt_sem_detach(&(tx_fifo->sem)); rt_free(tx_fifo); dev->open_flag &= ~RT_DEVICE_FLAG_INT_TX; can->can_tx = RT_NULL; /* clear can tx interrupt */ can->ops->control(can, RT_DEVICE_CTRL_CLR_INT, (void *)RT_DEVICE_FLAG_INT_TX); } can->ops->control(can, RT_DEVICE_CTRL_CLR_INT, (void *)RT_DEVICE_CAN_INT_ERR); CAN_UNLOCK(can); return RT_EOK; } static rt_ssize_t rt_can_read(struct rt_device *dev, rt_off_t pos, void *buffer, rt_size_t size) { struct rt_can_device *can; RT_ASSERT(dev != RT_NULL); if (size == 0) return 0; can = (struct rt_can_device *)dev; if ((dev->open_flag & RT_DEVICE_FLAG_INT_RX) && (dev->ref_count > 0)) { return _can_int_rx(can, buffer, size); } return 0; } static rt_ssize_t rt_can_write(struct rt_device *dev, rt_off_t pos, const void *buffer, rt_size_t size) { struct rt_can_device *can; RT_ASSERT(dev != RT_NULL); if (size == 0) return 0; can = (struct rt_can_device *)dev; if ((dev->open_flag & RT_DEVICE_FLAG_INT_TX) && (dev->ref_count > 0)) { if (can->config.privmode) { return _can_int_tx_priv(can, buffer, size); } else { return _can_int_tx(can, buffer, size); } } return 0; } static rt_err_t rt_can_control(struct rt_device *dev, int cmd, void *args) { struct rt_can_device *can; rt_err_t res; res = RT_EOK; RT_ASSERT(dev != RT_NULL); can = (struct rt_can_device *)dev; switch (cmd) { case RT_DEVICE_CTRL_SUSPEND: /* suspend device */ dev->flag |= RT_DEVICE_FLAG_SUSPENDED; break; case RT_DEVICE_CTRL_RESUME: /* resume device */ dev->flag &= ~RT_DEVICE_FLAG_SUSPENDED; break; case RT_DEVICE_CTRL_CONFIG: /* configure device */ res = can->ops->configure(can, (struct can_configure *)args); break; case RT_CAN_CMD_SET_PRIV: /* configure device */ if ((rt_uint32_t)args != can->config.privmode) { int i; rt_base_t level; struct rt_can_tx_fifo *tx_fifo; res = can->ops->control(can, cmd, args); if (res != RT_EOK) return res; tx_fifo = (struct rt_can_tx_fifo *) can->can_tx; if (can->config.privmode) { for (i = 0; i < can->config.sndboxnumber; i++) { level = rt_hw_interrupt_disable(); if(rt_list_isempty(&tx_fifo->buffer[i].list)) { rt_sem_release(&(tx_fifo->sem)); } else { rt_list_remove(&tx_fifo->buffer[i].list); } rt_hw_interrupt_enable(level); } } else { for (i = 0; i < can->config.sndboxnumber; i++) { level = rt_hw_interrupt_disable(); if (tx_fifo->buffer[i].result == RT_CAN_SND_RESULT_OK) { rt_list_insert_before(&tx_fifo->freelist, &tx_fifo->buffer[i].list); } rt_hw_interrupt_enable(level); } } } break; case RT_CAN_CMD_SET_STATUS_IND: can->status_indicate.ind = ((rt_can_status_ind_type_t)args)->ind; can->status_indicate.args = ((rt_can_status_ind_type_t)args)->args; break; #ifdef RT_CAN_USING_HDR case RT_CAN_CMD_SET_FILTER: res = can->ops->control(can, cmd, args); if (res != RT_EOK || can->hdr == RT_NULL) { return res; } struct rt_can_filter_config *pfilter; struct rt_can_filter_item *pitem; rt_uint32_t count; rt_base_t level; pfilter = (struct rt_can_filter_config *)args; RT_ASSERT(pfilter); count = pfilter->count; pitem = pfilter->items; if (pfilter->actived) { while (count) { if (pitem->hdr_bank >= can->config.maxhdr || pitem->hdr_bank < 0) { count--; pitem++; continue; } level = rt_hw_interrupt_disable(); if (!can->hdr[pitem->hdr_bank].connected) { rt_hw_interrupt_enable(level); rt_memcpy(&can->hdr[pitem->hdr_bank].filter, pitem, sizeof(struct rt_can_filter_item)); level = rt_hw_interrupt_disable(); can->hdr[pitem->hdr_bank].connected = 1; can->hdr[pitem->hdr_bank].msgs = 0; rt_list_init(&can->hdr[pitem->hdr_bank].list); } rt_hw_interrupt_enable(level); count--; pitem++; } } else { while (count) { if (pitem->hdr_bank >= can->config.maxhdr || pitem->hdr_bank < 0) { count--; pitem++; continue; } level = rt_hw_interrupt_disable(); if (can->hdr[pitem->hdr_bank].connected) { can->hdr[pitem->hdr_bank].connected = 0; can->hdr[pitem->hdr_bank].msgs = 0; if (!rt_list_isempty(&can->hdr[pitem->hdr_bank].list)) { rt_list_remove(can->hdr[pitem->hdr_bank].list.next); } rt_hw_interrupt_enable(level); rt_memset(&can->hdr[pitem->hdr_bank].filter, 0, sizeof(struct rt_can_filter_item)); } else { rt_hw_interrupt_enable(level); } count--; pitem++; } } break; #endif /*RT_CAN_USING_HDR*/ #ifdef RT_CAN_USING_BUS_HOOK case RT_CAN_CMD_SET_BUS_HOOK: can->bus_hook = (rt_can_bus_hook) args; break; #endif /*RT_CAN_USING_BUS_HOOK*/ default : /* control device */ if (can->ops->control != RT_NULL) { res = can->ops->control(can, cmd, args); } else { res = -RT_ENOSYS; } break; } return res; } /* * can timer */ static void cantimeout(void *arg) { rt_can_t can; can = (rt_can_t)arg; RT_ASSERT(can); rt_device_control((rt_device_t)can, RT_CAN_CMD_GET_STATUS, (void *)&can->status); if (can->status_indicate.ind != RT_NULL) { can->status_indicate.ind(can, can->status_indicate.args); } #ifdef RT_CAN_USING_BUS_HOOK if(can->bus_hook) { can->bus_hook(can); } #endif /*RT_CAN_USING_BUS_HOOK*/ if (can->timerinitflag == 1) { can->timerinitflag = 0xFF; } } #ifdef RT_USING_DEVICE_OPS const static struct rt_device_ops can_device_ops = { rt_can_init, rt_can_open, rt_can_close, rt_can_read, rt_can_write, rt_can_control }; #endif /* * can register */ rt_err_t rt_hw_can_register(struct rt_can_device *can, const char *name, const struct rt_can_ops *ops, void *data) { struct rt_device *device; RT_ASSERT(can != RT_NULL); device = &(can->parent); device->type = RT_Device_Class_CAN; device->rx_indicate = RT_NULL; device->tx_complete = RT_NULL; #ifdef RT_CAN_USING_HDR can->hdr = RT_NULL; #endif can->can_rx = RT_NULL; can->can_tx = RT_NULL; rt_mutex_init(&(can->lock), "can", RT_IPC_FLAG_PRIO); #ifdef RT_CAN_USING_BUS_HOOK can->bus_hook = RT_NULL; #endif /*RT_CAN_USING_BUS_HOOK*/ #ifdef RT_USING_DEVICE_OPS device->ops = &can_device_ops; #else device->init = rt_can_init; device->open = rt_can_open; device->close = rt_can_close; device->read = rt_can_read; device->write = rt_can_write; device->control = rt_can_control; #endif can->ops = ops; can->status_indicate.ind = RT_NULL; can->status_indicate.args = RT_NULL; rt_memset(&can->status, 0, sizeof(can->status)); device->user_data = data; can->timerinitflag = 0; rt_timer_init(&can->timer, name, cantimeout, (void *)can, can->config.ticks, RT_TIMER_FLAG_PERIODIC); /* register a character device */ return rt_device_register(device, name, RT_DEVICE_FLAG_RDWR); } /* ISR for can interrupt */ void rt_hw_can_isr(struct rt_can_device *can, int event) { switch (event & 0xff) { case RT_CAN_EVENT_RXOF_IND: { rt_base_t level; level = rt_hw_interrupt_disable(); can->status.dropedrcvpkg++; rt_hw_interrupt_enable(level); } case RT_CAN_EVENT_RX_IND: { struct rt_can_msg tmpmsg; struct rt_can_rx_fifo *rx_fifo; struct rt_can_msg_list *listmsg = RT_NULL; #ifdef RT_CAN_USING_HDR rt_int8_t hdr; #endif int ch = -1; rt_base_t level; rt_uint32_t no; rx_fifo = (struct rt_can_rx_fifo *)can->can_rx; RT_ASSERT(rx_fifo != RT_NULL); /* interrupt mode receive */ RT_ASSERT(can->parent.open_flag & RT_DEVICE_FLAG_INT_RX); no = event >> 8; ch = can->ops->recvmsg(can, &tmpmsg, no); if (ch == -1) break; /* disable interrupt */ level = rt_hw_interrupt_disable(); can->status.rcvpkg++; can->status.rcvchange = 1; if (!rt_list_isempty(&rx_fifo->freelist)) { listmsg = rt_list_entry(rx_fifo->freelist.next, struct rt_can_msg_list, list); rt_list_remove(&listmsg->list); #ifdef RT_CAN_USING_HDR rt_list_remove(&listmsg->hdrlist); if (listmsg->owner != RT_NULL && listmsg->owner->msgs) { listmsg->owner->msgs--; } listmsg->owner = RT_NULL; #endif /*RT_CAN_USING_HDR*/ RT_ASSERT(rx_fifo->freenumbers > 0); rx_fifo->freenumbers--; } else if (!rt_list_isempty(&rx_fifo->uselist)) { listmsg = rt_list_entry(rx_fifo->uselist.next, struct rt_can_msg_list, list); can->status.dropedrcvpkg++; rt_list_remove(&listmsg->list); #ifdef RT_CAN_USING_HDR rt_list_remove(&listmsg->hdrlist); if (listmsg->owner != RT_NULL && listmsg->owner->msgs) { listmsg->owner->msgs--; } listmsg->owner = RT_NULL; #endif } /* enable interrupt */ rt_hw_interrupt_enable(level); if (listmsg != RT_NULL) { rt_memcpy(&listmsg->data, &tmpmsg, sizeof(struct rt_can_msg)); level = rt_hw_interrupt_disable(); rt_list_insert_before(&rx_fifo->uselist, &listmsg->list); #ifdef RT_CAN_USING_HDR hdr = tmpmsg.hdr_index; if (can->hdr != RT_NULL) { RT_ASSERT(hdr < can->config.maxhdr && hdr >= 0); if (can->hdr[hdr].connected) { rt_list_insert_before(&can->hdr[hdr].list, &listmsg->hdrlist); listmsg->owner = &can->hdr[hdr]; can->hdr[hdr].msgs++; } } #endif rt_hw_interrupt_enable(level); } /* invoke callback */ #ifdef RT_CAN_USING_HDR if (can->hdr != RT_NULL && can->hdr[hdr].connected && can->hdr[hdr].filter.ind) { rt_size_t rx_length; RT_ASSERT(hdr < can->config.maxhdr && hdr >= 0); level = rt_hw_interrupt_disable(); rx_length = can->hdr[hdr].msgs * sizeof(struct rt_can_msg); rt_hw_interrupt_enable(level); if (rx_length) { can->hdr[hdr].filter.ind(&can->parent, can->hdr[hdr].filter.args, hdr, rx_length); } } else #endif { if (can->parent.rx_indicate != RT_NULL) { rt_size_t rx_length; level = rt_hw_interrupt_disable(); /* get rx length */ rx_length = rt_list_len(&rx_fifo->uselist)* sizeof(struct rt_can_msg); rt_hw_interrupt_enable(level); if (rx_length) { can->parent.rx_indicate(&can->parent, rx_length); } } } break; } case RT_CAN_EVENT_TX_DONE: case RT_CAN_EVENT_TX_FAIL: { struct rt_can_tx_fifo *tx_fifo; rt_uint32_t no; no = event >> 8; tx_fifo = (struct rt_can_tx_fifo *) can->can_tx; RT_ASSERT(tx_fifo != RT_NULL); if ((event & 0xff) == RT_CAN_EVENT_TX_DONE) { tx_fifo->buffer[no].result = RT_CAN_SND_RESULT_OK; } else { tx_fifo->buffer[no].result = RT_CAN_SND_RESULT_ERR; } rt_completion_done(&(tx_fifo->buffer[no].completion)); break; } } } #ifdef RT_USING_FINSH #include int cmd_canstat(int argc, void **argv) { static const char *ErrCode[] = { "No Error!", "Warning !", "Passive !", "Bus Off !" }; if (argc >= 2) { struct rt_can_status status; rt_device_t candev = rt_device_find(argv[1]); if (!candev) { rt_kprintf(" Can't find can device %s\n", argv[1]); return -1; } rt_kprintf(" Found can device: %s...", argv[1]); rt_device_control(candev, RT_CAN_CMD_GET_STATUS, &status); rt_kprintf("\n Receive...error..count: %010ld. Send.....error....count: %010ld.", status.rcverrcnt, status.snderrcnt); rt_kprintf("\n Bit..pad..error..count: %010ld. Format...error....count: %010ld", status.bitpaderrcnt, status.formaterrcnt); rt_kprintf("\n Ack.......error..count: %010ld. Bit......error....count: %010ld.", status.ackerrcnt, status.biterrcnt); rt_kprintf("\n CRC.......error..count: %010ld. Error.code.[%010ld]: ", status.crcerrcnt, status.errcode); switch (status.errcode) { case 0: rt_kprintf("%s.", ErrCode[0]); break; case 1: rt_kprintf("%s.", ErrCode[1]); break; case 2: case 3: rt_kprintf("%s.", ErrCode[2]); break; case 4: case 5: case 6: case 7: rt_kprintf("%s.", ErrCode[3]); break; } rt_kprintf("\n Total.receive.packages: %010ld. Dropped.receive.packages: %010ld.", status.rcvpkg, status.dropedrcvpkg); rt_kprintf("\n Total..send...packages: %010ld. Dropped...send..packages: %010ld.\n", status.sndpkg + status.dropedsndpkg, status.dropedsndpkg); } else { rt_kprintf(" Invalid Call %s\n", argv[0]); rt_kprintf(" Please using %s cannamex .Here canname is driver name and x is candrive number.\n", argv[0]); } return 0; } MSH_CMD_EXPORT_ALIAS(cmd_canstat, canstat, stat can device status); #endif