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448 lines
13 KiB
448 lines
13 KiB
// IRQs: CAN1_TX, CAN1_RX0, CAN1_SCE
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// CAN2_TX, CAN2_RX0, CAN2_SCE
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// CAN3_TX, CAN3_RX0, CAN3_SCE
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typedef struct {
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volatile uint32_t w_ptr;
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volatile uint32_t r_ptr;
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uint32_t fifo_size;
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CAN_FIFOMailBox_TypeDef *elems;
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} can_ring;
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#define CAN_BUS_RET_FLAG 0x80U
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#define CAN_BUS_NUM_MASK 0x7FU
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#define BUS_MAX 4U
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uint32_t can_send_errs = 0;
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uint32_t can_fwd_errs = 0;
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uint32_t gmlan_send_errs = 0;
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extern int can_live, pending_can_live;
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// must reinit after changing these
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extern int can_loopback, can_silent;
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extern uint32_t can_speed[4];
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void can_set_forwarding(int from, int to);
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void can_init(uint8_t can_number);
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void can_init_all(void);
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void can_send(CAN_FIFOMailBox_TypeDef *to_push, uint8_t bus_number, bool skip_tx_hook);
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bool can_pop(can_ring *q, CAN_FIFOMailBox_TypeDef *elem);
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// Ignition detected from CAN meessages
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bool ignition_can = false;
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uint32_t ignition_can_cnt = 0U;
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// end API
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#define ALL_CAN_SILENT 0xFF
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#define ALL_CAN_LIVE 0
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int can_live = 0, pending_can_live = 0, can_loopback = 0, can_silent = ALL_CAN_SILENT;
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// ********************* instantiate queues *********************
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#define can_buffer(x, size) \
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CAN_FIFOMailBox_TypeDef elems_##x[size]; \
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can_ring can_##x = { .w_ptr = 0, .r_ptr = 0, .fifo_size = size, .elems = (CAN_FIFOMailBox_TypeDef *)&elems_##x };
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can_buffer(rx_q, 0x1000)
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can_buffer(tx1_q, 0x100)
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can_buffer(tx2_q, 0x100)
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can_buffer(tx3_q, 0x100)
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can_buffer(txgmlan_q, 0x100)
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can_ring *can_queues[] = {&can_tx1_q, &can_tx2_q, &can_tx3_q, &can_txgmlan_q};
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// global CAN stats
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int can_rx_cnt = 0;
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int can_tx_cnt = 0;
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int can_txd_cnt = 0;
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int can_err_cnt = 0;
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int can_overflow_cnt = 0;
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// ********************* interrupt safe queue *********************
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bool can_pop(can_ring *q, CAN_FIFOMailBox_TypeDef *elem) {
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bool ret = 0;
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ENTER_CRITICAL();
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if (q->w_ptr != q->r_ptr) {
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*elem = q->elems[q->r_ptr];
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if ((q->r_ptr + 1U) == q->fifo_size) {
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q->r_ptr = 0;
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} else {
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q->r_ptr += 1U;
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}
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ret = 1;
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}
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EXIT_CRITICAL();
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return ret;
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}
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bool can_push(can_ring *q, CAN_FIFOMailBox_TypeDef *elem) {
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bool ret = false;
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uint32_t next_w_ptr;
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ENTER_CRITICAL();
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if ((q->w_ptr + 1U) == q->fifo_size) {
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next_w_ptr = 0;
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} else {
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next_w_ptr = q->w_ptr + 1U;
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}
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if (next_w_ptr != q->r_ptr) {
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q->elems[q->w_ptr] = *elem;
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q->w_ptr = next_w_ptr;
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ret = true;
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}
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EXIT_CRITICAL();
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if (!ret) {
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can_overflow_cnt++;
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#ifdef DEBUG
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puts("can_push failed!\n");
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#endif
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}
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return ret;
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}
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void can_clear(can_ring *q) {
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ENTER_CRITICAL();
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q->w_ptr = 0;
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q->r_ptr = 0;
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EXIT_CRITICAL();
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}
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// assign CAN numbering
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// bus num: Can bus number on ODB connector. Sent to/from USB
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// Min: 0; Max: 127; Bit 7 marks message as receipt (bus 129 is receipt for but 1)
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// cans: Look up MCU can interface from bus number
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// can number: numeric lookup for MCU CAN interfaces (0 = CAN1, 1 = CAN2, etc);
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// bus_lookup: Translates from 'can number' to 'bus number'.
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// can_num_lookup: Translates from 'bus number' to 'can number'.
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// can_forwarding: Given a bus num, lookup bus num to forward to. -1 means no forward.
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// Panda: Bus 0=CAN1 Bus 1=CAN2 Bus 2=CAN3
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CAN_TypeDef *cans[] = {CAN1, CAN2, CAN3};
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uint8_t bus_lookup[] = {0,1,2};
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uint8_t can_num_lookup[] = {0,1,2,-1};
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int8_t can_forwarding[] = {-1,-1,-1,-1};
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uint32_t can_speed[] = {5000, 5000, 5000, 333};
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#define CAN_MAX 3U
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#define CANIF_FROM_CAN_NUM(num) (cans[num])
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#define CAN_NUM_FROM_CANIF(CAN) ((CAN)==CAN1 ? 0 : ((CAN) == CAN2 ? 1 : 2))
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#define CAN_NAME_FROM_CANIF(CAN) ((CAN)==CAN1 ? "CAN1" : ((CAN) == CAN2 ? "CAN2" : "CAN3"))
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#define BUS_NUM_FROM_CAN_NUM(num) (bus_lookup[num])
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#define CAN_NUM_FROM_BUS_NUM(num) (can_num_lookup[num])
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void process_can(uint8_t can_number);
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void can_set_speed(uint8_t can_number) {
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CAN_TypeDef *CAN = CANIF_FROM_CAN_NUM(can_number);
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uint8_t bus_number = BUS_NUM_FROM_CAN_NUM(can_number);
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if (!llcan_set_speed(CAN, can_speed[bus_number], can_loopback, (unsigned int)(can_silent) & (1U << can_number))) {
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puts("CAN init FAILED!!!!!\n");
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puth(can_number); puts(" ");
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puth(BUS_NUM_FROM_CAN_NUM(can_number)); puts("\n");
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}
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}
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void can_init_all(void) {
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for (uint8_t i=0U; i < CAN_MAX; i++) {
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can_init(i);
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}
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}
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void can_flip_buses(uint8_t bus1, uint8_t bus2){
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bus_lookup[bus1] = bus2;
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bus_lookup[bus2] = bus1;
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can_num_lookup[bus1] = bus2;
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can_num_lookup[bus2] = bus1;
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}
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// TODO: Cleanup with new abstraction
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void can_set_gmlan(uint8_t bus) {
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if(board_has_gmlan()){
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// first, disable GMLAN on prev bus
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uint8_t prev_bus = can_num_lookup[3];
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if (bus != prev_bus) {
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switch (prev_bus) {
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case 1:
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case 2:
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puts("Disable GMLAN on CAN");
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puth(prev_bus + 1U);
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puts("\n");
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current_board->set_can_mode(CAN_MODE_NORMAL);
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bus_lookup[prev_bus] = prev_bus;
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can_num_lookup[prev_bus] = prev_bus;
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can_num_lookup[3] = -1;
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can_init(prev_bus);
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break;
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default:
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// GMLAN was not set on either BUS 1 or 2
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break;
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}
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}
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// now enable GMLAN on the new bus
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switch (bus) {
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case 1:
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case 2:
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puts("Enable GMLAN on CAN");
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puth(bus + 1U);
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puts("\n");
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current_board->set_can_mode((bus == 1U) ? CAN_MODE_GMLAN_CAN2 : CAN_MODE_GMLAN_CAN3);
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bus_lookup[bus] = 3;
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can_num_lookup[bus] = -1;
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can_num_lookup[3] = bus;
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can_init(bus);
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break;
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case 0xFF: //-1 unsigned
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break;
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default:
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puts("GMLAN can only be set on CAN2 or CAN3\n");
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break;
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}
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} else {
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puts("GMLAN not available on black panda\n");
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}
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}
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// TODO: remove
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void can_set_obd(uint8_t harness_orientation, bool obd){
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if(obd){
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puts("setting CAN2 to be OBD\n");
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} else {
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puts("setting CAN2 to be normal\n");
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}
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if(board_has_obd()){
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if(obd != (bool)(harness_orientation == HARNESS_STATUS_NORMAL)){
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// B5,B6: disable normal mode
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set_gpio_mode(GPIOB, 5, MODE_INPUT);
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set_gpio_mode(GPIOB, 6, MODE_INPUT);
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// B12,B13: CAN2 mode
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set_gpio_alternate(GPIOB, 12, GPIO_AF9_CAN2);
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set_gpio_alternate(GPIOB, 13, GPIO_AF9_CAN2);
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} else {
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// B5,B6: CAN2 mode
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set_gpio_alternate(GPIOB, 5, GPIO_AF9_CAN2);
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set_gpio_alternate(GPIOB, 6, GPIO_AF9_CAN2);
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// B12,B13: disable normal mode
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set_gpio_mode(GPIOB, 12, MODE_INPUT);
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set_gpio_mode(GPIOB, 13, MODE_INPUT);
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}
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} else {
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puts("OBD CAN not available on this board\n");
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}
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}
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// CAN error
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void can_sce(CAN_TypeDef *CAN) {
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ENTER_CRITICAL();
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#ifdef DEBUG
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if (CAN==CAN1) puts("CAN1: ");
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if (CAN==CAN2) puts("CAN2: ");
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#ifdef CAN3
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if (CAN==CAN3) puts("CAN3: ");
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#endif
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puts("MSR:");
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puth(CAN->MSR);
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puts(" TSR:");
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puth(CAN->TSR);
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puts(" RF0R:");
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puth(CAN->RF0R);
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puts(" RF1R:");
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puth(CAN->RF1R);
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puts(" ESR:");
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puth(CAN->ESR);
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puts("\n");
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#endif
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can_err_cnt += 1;
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llcan_clear_send(CAN);
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EXIT_CRITICAL();
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}
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// ***************************** CAN *****************************
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void process_can(uint8_t can_number) {
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if (can_number != 0xffU) {
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ENTER_CRITICAL();
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CAN_TypeDef *CAN = CANIF_FROM_CAN_NUM(can_number);
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uint8_t bus_number = BUS_NUM_FROM_CAN_NUM(can_number);
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// check for empty mailbox
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CAN_FIFOMailBox_TypeDef to_send;
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if ((CAN->TSR & CAN_TSR_TME0) == CAN_TSR_TME0) {
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// add successfully transmitted message to my fifo
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if ((CAN->TSR & CAN_TSR_RQCP0) == CAN_TSR_RQCP0) {
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can_txd_cnt += 1;
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if ((CAN->TSR & CAN_TSR_TXOK0) == CAN_TSR_TXOK0) {
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CAN_FIFOMailBox_TypeDef to_push;
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to_push.RIR = CAN->sTxMailBox[0].TIR;
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to_push.RDTR = (CAN->sTxMailBox[0].TDTR & 0xFFFF000FU) | ((CAN_BUS_RET_FLAG | bus_number) << 4);
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to_push.RDLR = CAN->sTxMailBox[0].TDLR;
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to_push.RDHR = CAN->sTxMailBox[0].TDHR;
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can_send_errs += can_push(&can_rx_q, &to_push) ? 0U : 1U;
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}
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if ((CAN->TSR & CAN_TSR_TERR0) == CAN_TSR_TERR0) {
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#ifdef DEBUG
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puts("CAN TX ERROR!\n");
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#endif
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}
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if ((CAN->TSR & CAN_TSR_ALST0) == CAN_TSR_ALST0) {
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#ifdef DEBUG
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puts("CAN TX ARBITRATION LOST!\n");
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#endif
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}
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// clear interrupt
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// careful, this can also be cleared by requesting a transmission
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CAN->TSR |= CAN_TSR_RQCP0;
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}
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if (can_pop(can_queues[bus_number], &to_send)) {
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can_tx_cnt += 1;
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// only send if we have received a packet
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CAN->sTxMailBox[0].TDLR = to_send.RDLR;
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CAN->sTxMailBox[0].TDHR = to_send.RDHR;
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CAN->sTxMailBox[0].TDTR = to_send.RDTR;
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CAN->sTxMailBox[0].TIR = to_send.RIR;
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}
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}
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EXIT_CRITICAL();
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}
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}
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void ignition_can_hook(CAN_FIFOMailBox_TypeDef *to_push) {
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int bus = GET_BUS(to_push);
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int addr = GET_ADDR(to_push);
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int len = GET_LEN(to_push);
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ignition_can_cnt = 0U; // reset counter
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if (bus == 0) {
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// GM exception
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if ((addr == 0x1F1) && (len == 8)) {
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//Bit 5 is ignition "on"
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ignition_can = (GET_BYTE(to_push, 0) & 0x20) != 0;
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}
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// Tesla exception
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if ((addr == 0x348) && (len == 8)) {
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// GTW_status
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ignition_can = (GET_BYTE(to_push, 0) & 0x1) != 0;
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}
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// Cadillac exception
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if ((addr == 0x160) && (len == 5)) {
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// this message isn't all zeros when ignition is on
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ignition_can = GET_BYTES_04(to_push) != 0;
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}
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}
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}
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// CAN receive handlers
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// blink blue when we are receiving CAN messages
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void can_rx(uint8_t can_number) {
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CAN_TypeDef *CAN = CANIF_FROM_CAN_NUM(can_number);
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uint8_t bus_number = BUS_NUM_FROM_CAN_NUM(can_number);
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while ((CAN->RF0R & CAN_RF0R_FMP0) != 0) {
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can_rx_cnt += 1;
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// can is live
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pending_can_live = 1;
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// add to my fifo
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CAN_FIFOMailBox_TypeDef to_push;
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to_push.RIR = CAN->sFIFOMailBox[0].RIR;
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to_push.RDTR = CAN->sFIFOMailBox[0].RDTR;
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to_push.RDLR = CAN->sFIFOMailBox[0].RDLR;
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to_push.RDHR = CAN->sFIFOMailBox[0].RDHR;
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// modify RDTR for our API
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to_push.RDTR = (to_push.RDTR & 0xFFFF000F) | (bus_number << 4);
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// forwarding (panda only)
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int bus_fwd_num = (can_forwarding[bus_number] != -1) ? can_forwarding[bus_number] : safety_fwd_hook(bus_number, &to_push);
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if (bus_fwd_num != -1) {
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CAN_FIFOMailBox_TypeDef to_send;
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to_send.RIR = to_push.RIR | 1; // TXRQ
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to_send.RDTR = to_push.RDTR;
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to_send.RDLR = to_push.RDLR;
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to_send.RDHR = to_push.RDHR;
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can_send(&to_send, bus_fwd_num, true);
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}
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safety_rx_hook(&to_push);
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ignition_can_hook(&to_push);
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current_board->set_led(LED_BLUE, true);
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can_send_errs += can_push(&can_rx_q, &to_push) ? 0U : 1U;
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// next
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CAN->RF0R |= CAN_RF0R_RFOM0;
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}
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}
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void CAN1_TX_IRQ_Handler(void) { process_can(0); }
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void CAN1_RX0_IRQ_Handler(void) { can_rx(0); }
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void CAN1_SCE_IRQ_Handler(void) { can_sce(CAN1); }
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void CAN2_TX_IRQ_Handler(void) { process_can(1); }
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void CAN2_RX0_IRQ_Handler(void) { can_rx(1); }
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void CAN2_SCE_IRQ_Handler(void) { can_sce(CAN2); }
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void CAN3_TX_IRQ_Handler(void) { process_can(2); }
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void CAN3_RX0_IRQ_Handler(void) { can_rx(2); }
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void CAN3_SCE_IRQ_Handler(void) { can_sce(CAN3); }
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void can_send(CAN_FIFOMailBox_TypeDef *to_push, uint8_t bus_number, bool skip_tx_hook) {
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if (skip_tx_hook || safety_tx_hook(to_push) != 0) {
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if (bus_number < BUS_MAX) {
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// add CAN packet to send queue
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// bus number isn't passed through
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to_push->RDTR &= 0xF;
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if ((bus_number == 3U) && (can_num_lookup[3] == 0xFFU)) {
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gmlan_send_errs += bitbang_gmlan(to_push) ? 0U : 1U;
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} else {
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can_fwd_errs += can_push(can_queues[bus_number], to_push) ? 0U : 1U;
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process_can(CAN_NUM_FROM_BUS_NUM(bus_number));
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}
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}
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}
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}
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void can_set_forwarding(int from, int to) {
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can_forwarding[from] = to;
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}
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void can_init(uint8_t can_number) {
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REGISTER_INTERRUPT(CAN1_TX_IRQn, CAN1_TX_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_1)
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REGISTER_INTERRUPT(CAN1_RX0_IRQn, CAN1_RX0_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_1)
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REGISTER_INTERRUPT(CAN1_SCE_IRQn, CAN1_SCE_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_1)
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REGISTER_INTERRUPT(CAN2_TX_IRQn, CAN2_TX_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_2)
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REGISTER_INTERRUPT(CAN2_RX0_IRQn, CAN2_RX0_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_2)
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REGISTER_INTERRUPT(CAN2_SCE_IRQn, CAN2_SCE_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_2)
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REGISTER_INTERRUPT(CAN3_TX_IRQn, CAN3_TX_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_3)
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REGISTER_INTERRUPT(CAN3_RX0_IRQn, CAN3_RX0_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_3)
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REGISTER_INTERRUPT(CAN3_SCE_IRQn, CAN3_SCE_IRQ_Handler, CAN_INTERRUPT_RATE, FAULT_INTERRUPT_RATE_CAN_3)
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if (can_number != 0xffU) {
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CAN_TypeDef *CAN = CANIF_FROM_CAN_NUM(can_number);
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can_set_speed(can_number);
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llcan_init(CAN);
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// in case there are queued up messages
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process_can(can_number);
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}
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}
|
|
|
|
|