mirror of https://github.com/ArduPilot/ardupilot
320 lines
11 KiB
C++
320 lines
11 KiB
C++
#include "AP_Canard_iface.h"
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#include <AP_HAL/AP_HAL.h>
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#include <AP_CANManager/AP_CANManager.h>
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#if HAL_ENABLE_DRONECAN_DRIVERS
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#include <canard/handler_list.h>
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#include <canard/transfer_object.h>
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#include <AP_Math/AP_Math.h>
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extern const AP_HAL::HAL& hal;
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#define LOG_TAG "DroneCANIface"
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#define DEBUG_PKTS 0
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DEFINE_HANDLER_LIST_HEADS();
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DEFINE_HANDLER_LIST_SEMAPHORES();
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DEFINE_TRANSFER_OBJECT_HEADS();
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DEFINE_TRANSFER_OBJECT_SEMAPHORES();
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#if AP_TEST_DRONECAN_DRIVERS
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CanardInterface* CanardInterface::canard_ifaces[] = {nullptr, nullptr, nullptr};
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CanardInterface CanardInterface::test_iface{2};
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uint8_t test_node_mem_area[1024];
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HAL_Semaphore test_iface_sem;
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#endif
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CanardInterface::CanardInterface(uint8_t iface_index) :
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Interface(iface_index) {
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#if AP_TEST_DRONECAN_DRIVERS
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if (iface_index < 3) {
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canard_ifaces[iface_index] = this;
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}
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if (iface_index == 0) {
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test_iface.init(test_node_mem_area, sizeof(test_node_mem_area), 125);
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}
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canardInitTxTransfer(&tx_transfer);
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#endif
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}
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void CanardInterface::init(void* mem_arena, size_t mem_arena_size, uint8_t node_id) {
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canardInit(&canard, mem_arena, mem_arena_size, onTransferReception, shouldAcceptTransfer, this);
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canardSetLocalNodeID(&canard, node_id);
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initialized = true;
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}
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bool CanardInterface::broadcast(const Canard::Transfer &bcast_transfer) {
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if (!initialized) {
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return false;
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}
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WITH_SEMAPHORE(_sem);
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#if AP_TEST_DRONECAN_DRIVERS
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if (this == &test_iface) {
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test_iface_sem.take_blocking();
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}
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#endif
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tx_transfer = {
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.transfer_type = bcast_transfer.transfer_type,
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.data_type_signature = bcast_transfer.data_type_signature,
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.data_type_id = bcast_transfer.data_type_id,
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.inout_transfer_id = bcast_transfer.inout_transfer_id,
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.priority = bcast_transfer.priority,
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.payload = (const uint8_t*)bcast_transfer.payload,
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.payload_len = bcast_transfer.payload_len,
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#if CANARD_ENABLE_CANFD
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.canfd = bcast_transfer.canfd,
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#endif
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.deadline_usec = AP_HAL::native_micros64() + (bcast_transfer.timeout_ms * 1000),
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#if CANARD_MULTI_IFACE
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.iface_mask = uint8_t((1<<num_ifaces) - 1),
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#endif
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};
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// do canard broadcast
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bool success = canardBroadcastObj(&canard, &tx_transfer) > 0;
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#if AP_TEST_DRONECAN_DRIVERS
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if (this == &test_iface) {
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test_iface_sem.give();
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}
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#endif
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return success;
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}
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bool CanardInterface::request(uint8_t destination_node_id, const Canard::Transfer &req_transfer) {
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if (!initialized) {
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return false;
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}
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WITH_SEMAPHORE(_sem);
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tx_transfer = {
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.transfer_type = req_transfer.transfer_type,
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.data_type_signature = req_transfer.data_type_signature,
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.data_type_id = req_transfer.data_type_id,
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.inout_transfer_id = req_transfer.inout_transfer_id,
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.priority = req_transfer.priority,
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.payload = (const uint8_t*)req_transfer.payload,
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.payload_len = req_transfer.payload_len,
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#if CANARD_ENABLE_CANFD
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.canfd = req_transfer.canfd,
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#endif
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.deadline_usec = AP_HAL::native_micros64() + (req_transfer.timeout_ms * 1000),
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#if CANARD_MULTI_IFACE
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.iface_mask = uint8_t((1<<num_ifaces) - 1),
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#endif
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};
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// do canard request
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return canardRequestOrRespondObj(&canard, destination_node_id, &tx_transfer) > 0;
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}
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bool CanardInterface::respond(uint8_t destination_node_id, const Canard::Transfer &res_transfer) {
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if (!initialized) {
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return false;
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}
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WITH_SEMAPHORE(_sem);
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tx_transfer = {
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.transfer_type = res_transfer.transfer_type,
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.data_type_signature = res_transfer.data_type_signature,
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.data_type_id = res_transfer.data_type_id,
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.inout_transfer_id = res_transfer.inout_transfer_id,
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.priority = res_transfer.priority,
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.payload = (const uint8_t*)res_transfer.payload,
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.payload_len = res_transfer.payload_len,
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#if CANARD_ENABLE_CANFD
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.canfd = res_transfer.canfd,
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#endif
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.deadline_usec = AP_HAL::native_micros64() + (res_transfer.timeout_ms * 1000),
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#if CANARD_MULTI_IFACE
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.iface_mask = uint8_t((1<<num_ifaces) - 1),
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#endif
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};
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// do canard respond
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return canardRequestOrRespondObj(&canard, destination_node_id, &tx_transfer) > 0;
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}
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void CanardInterface::onTransferReception(CanardInstance* ins, CanardRxTransfer* transfer) {
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CanardInterface* iface = (CanardInterface*) ins->user_reference;
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iface->handle_message(*transfer);
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}
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bool CanardInterface::shouldAcceptTransfer(const CanardInstance* ins,
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uint64_t* out_data_type_signature,
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uint16_t data_type_id,
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CanardTransferType transfer_type,
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uint8_t source_node_id) {
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CanardInterface* iface = (CanardInterface*) ins->user_reference;
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return iface->accept_message(data_type_id, *out_data_type_signature);
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}
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#if AP_TEST_DRONECAN_DRIVERS
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void CanardInterface::processTestRx() {
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if (!test_iface.initialized) {
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return;
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}
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WITH_SEMAPHORE(test_iface_sem);
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for (const CanardCANFrame* txf = canardPeekTxQueue(&test_iface.canard); txf != NULL; txf = canardPeekTxQueue(&test_iface.canard)) {
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if (canard_ifaces[0]) {
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canardHandleRxFrame(&canard_ifaces[0]->canard, txf, AP_HAL::native_micros64());
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}
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canardPopTxQueue(&test_iface.canard);
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}
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}
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#endif
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void CanardInterface::processTx() {
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WITH_SEMAPHORE(_sem);
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for (uint8_t iface = 0; iface < num_ifaces; iface++) {
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if (ifaces[iface] == NULL) {
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continue;
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}
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auto txq = canard.tx_queue;
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if (txq == nullptr) {
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return;
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}
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AP_HAL::CANFrame txmsg {};
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// scan through list of pending transfers
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while (true) {
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auto txf = &txq->frame;
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txmsg.dlc = AP_HAL::CANFrame::dataLengthToDlc(txf->data_len);
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memcpy(txmsg.data, txf->data, txf->data_len);
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txmsg.id = (txf->id | AP_HAL::CANFrame::FlagEFF);
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#if HAL_CANFD_SUPPORTED
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txmsg.canfd = txf->canfd;
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#endif
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bool write = true;
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bool read = false;
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ifaces[iface]->select(read, write, &txmsg, 0);
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if ((AP_HAL::native_micros64() < txf->deadline_usec) && (txf->iface_mask & (1U<<iface)) && write) {
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// try sending to interfaces, clearing the mask if we succeed
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if (ifaces[iface]->send(txmsg, txf->deadline_usec, 0) > 0) {
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txf->iface_mask &= ~(1U<<iface);
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} else {
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// if we fail to send then we try sending on next interface
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break;
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}
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}
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// look at next transfer
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txq = txq->next;
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if (txq == nullptr) {
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break;
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}
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}
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}
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// purge expired transfers
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for (const CanardCANFrame* txf = canardPeekTxQueue(&canard); txf != NULL; txf = canardPeekTxQueue(&canard)) {
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if ((AP_HAL::native_micros64() >= txf->deadline_usec) || (txf->iface_mask == 0)) {
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canardPopTxQueue(&canard);
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} else {
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break;
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}
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}
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}
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void CanardInterface::processRx() {
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AP_HAL::CANFrame rxmsg;
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for (uint8_t i=0; i<num_ifaces; i++) {
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while(true) {
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if (ifaces[i] == NULL) {
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break;
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}
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bool read_select = true;
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bool write_select = false;
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ifaces[i]->select(read_select, write_select, nullptr, 0);
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if (!read_select) { // No data pending
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break;
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}
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CanardCANFrame rx_frame {};
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//palToggleLine(HAL_GPIO_PIN_LED);
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uint64_t timestamp;
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AP_HAL::CANIface::CanIOFlags flags;
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if (ifaces[i]->receive(rxmsg, timestamp, flags) <= 0) {
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break;
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}
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rx_frame.data_len = AP_HAL::CANFrame::dlcToDataLength(rxmsg.dlc);
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memcpy(rx_frame.data, rxmsg.data, rx_frame.data_len);
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#if HAL_CANFD_SUPPORTED
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rx_frame.canfd = rxmsg.canfd;
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#endif
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rx_frame.id = rxmsg.id;
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#if CANARD_MULTI_IFACE
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rx_frame.iface_id = i;
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#endif
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{
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WITH_SEMAPHORE(_sem);
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#if DEBUG_PKTS
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const int16_t res =
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#endif
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canardHandleRxFrame(&canard, &rx_frame, timestamp);
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#if DEBUG_PKTS
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// hal.console->printf("DTID: %u\n", extractDataType(rx_frame.id));
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// hal.console->printf("Rx %d, IF%d %lx: ", res, i, rx_frame.id);
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if (res < 0 &&
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res != -CANARD_ERROR_RX_NOT_WANTED &&
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res != -CANARD_ERROR_RX_WRONG_ADDRESS) {
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hal.console->printf("Rx error %d, IF%d %lx: \n", res, i, rx_frame.id);
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// for (uint8_t index = 0; index < rx_frame.data_len; index++) {
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// hal.console->printf("%02x", rx_frame.data[index]);
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// }
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// hal.console->printf("\n");
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}
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#endif
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}
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}
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}
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}
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void CanardInterface::process(uint32_t duration_ms) {
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#if AP_TEST_DRONECAN_DRIVERS
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const uint64_t deadline = AP_HAL::micros64() + duration_ms*1000;
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while (AP_HAL::micros64() < deadline) {
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processTestRx();
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hal.scheduler->delay_microseconds(1000);
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}
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#else
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const uint64_t deadline = AP_HAL::native_micros64() + duration_ms*1000;
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while (true) {
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processRx();
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processTx();
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uint64_t now = AP_HAL::native_micros64();
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if (now < deadline) {
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_event_handle.wait(MIN(UINT16_MAX - 2U, deadline - now));
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} else {
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break;
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}
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}
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#endif
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}
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bool CanardInterface::add_interface(AP_HAL::CANIface *can_iface)
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{
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if (num_ifaces > HAL_NUM_CAN_IFACES) {
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AP::can().log_text(AP_CANManager::LOG_ERROR, LOG_TAG, "DroneCANIfaceMgr: Num Ifaces Exceeded\n");
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return false;
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}
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if (can_iface == nullptr) {
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AP::can().log_text(AP_CANManager::LOG_ERROR, LOG_TAG, "DroneCANIfaceMgr: Iface Null\n");
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return false;
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}
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if (ifaces[num_ifaces] != nullptr) {
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AP::can().log_text(AP_CANManager::LOG_ERROR, LOG_TAG, "DroneCANIfaceMgr: Iface already added\n");
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return false;
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}
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ifaces[num_ifaces] = can_iface;
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if (ifaces[num_ifaces] == nullptr) {
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AP::can().log_text(AP_CANManager::LOG_ERROR, LOG_TAG, "DroneCANIfaceMgr: Can't alloc uavcan::iface\n");
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return false;
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}
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if (!can_iface->set_event_handle(&_event_handle)) {
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AP::can().log_text(AP_CANManager::LOG_ERROR, LOG_TAG, "DroneCANIfaceMgr: Setting event handle failed\n");
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return false;
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}
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AP::can().log_text(AP_CANManager::LOG_INFO, LOG_TAG, "DroneCANIfaceMgr: Successfully added interface %d\n", int(num_ifaces));
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num_ifaces++;
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return true;
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}
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#endif // #if HAL_ENABLE_DRONECAN_DRIVERS
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