mirror of https://github.com/ArduPilot/ardupilot
455 lines
15 KiB
C++
455 lines
15 KiB
C++
/*
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* The MIT License (MIT)
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*
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* Copyright (c) 2014 Pavel Kirienko
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy of
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* this software and associated documentation files (the "Software"), to deal in
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* the Software without restriction, including without limitation the rights to
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* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
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* the Software, and to permit persons to whom the Software is furnished to do so,
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* subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in all
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* copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
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* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
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* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
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* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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/*
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* This file is free software: you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the
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* Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This file is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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* See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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* Code by Siddharth Bharat Purohit
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*/
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#pragma once
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#include "AP_HAL_ChibiOS.h"
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#if HAL_WITH_UAVCAN
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#include "CANThread.h"
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#include "fdcan.hpp"
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class SLCANRouter;
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namespace ChibiOS_CAN
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{
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/**
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* Driver error codes.
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* These values can be returned from driver functions negated.
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*/
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//static const uavcan::int16_t ErrUnknown = 1000; ///< Reserved for future use
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static const uavcan::int16_t ErrNotImplemented = 1001; ///< Feature not implemented
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static const uavcan::int16_t ErrInvalidBitRate = 1002; ///< Bit rate not supported
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static const uavcan::int16_t ErrLogic = 1003; ///< Internal logic error
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static const uavcan::int16_t ErrUnsupportedFrame = 1004; ///< Frame not supported (e.g. RTR, CAN FD, etc)
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static const uavcan::int16_t ErrMsrInakNotSet = 1005; ///< INAK bit of the MSR register is not 1
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static const uavcan::int16_t ErrMsrInakNotCleared = 1006; ///< INAK bit of the MSR register is not 0
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static const uavcan::int16_t ErrBitRateNotDetected = 1007; ///< Auto bit rate detection could not be finished
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static const uavcan::int16_t ErrFilterNumConfigs = 1008; ///< Number of filters is more than supported
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/**
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* RX queue item.
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* The application shall not use this directly.
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*/
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struct CanRxItem {
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uavcan::uint64_t utc_usec;
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uavcan::CanFrame frame;
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uavcan::CanIOFlags flags;
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CanRxItem()
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: utc_usec(0)
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, flags(0)
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{ }
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};
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/**
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* Single CAN iface.
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* The application shall not use this directly.
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*/
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class CanIface : public uavcan::ICanIface, uavcan::Noncopyable
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{
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#if AP_UAVCAN_SLCAN_ENABLED
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friend class ::SLCANRouter;
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static SLCANRouter _slcan_router;
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#endif
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class RxQueue
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{
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CanRxItem* const buf_;
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const uavcan::uint8_t capacity_;
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uavcan::uint8_t in_;
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uavcan::uint8_t out_;
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uavcan::uint8_t len_;
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uavcan::uint32_t overflow_cnt_;
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void registerOverflow();
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public:
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RxQueue(CanRxItem* buf, uavcan::uint8_t capacity)
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: buf_(buf)
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, capacity_(capacity)
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, in_(0)
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, out_(0)
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, len_(0)
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, overflow_cnt_(0)
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{ }
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void push(const uavcan::CanFrame& frame, const uint64_t& utc_usec, uavcan::CanIOFlags flags);
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void pop(uavcan::CanFrame& out_frame, uavcan::uint64_t& out_utc_usec, uavcan::CanIOFlags& out_flags);
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void reset();
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unsigned getLength() const
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{
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return len_;
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}
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uavcan::uint32_t getOverflowCount() const
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{
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return overflow_cnt_;
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}
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};
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struct MessageRAM {
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uavcan::uint32_t StandardFilterSA;
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uavcan::uint32_t ExtendedFilterSA;
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uavcan::uint32_t RxFIFO0SA;
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uavcan::uint32_t RxFIFO1SA;
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uavcan::uint32_t TxFIFOQSA;
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uavcan::uint32_t EndAddress;
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} MessageRam_;
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struct Timings {
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uavcan::uint16_t prescaler;
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uavcan::uint8_t sjw;
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uavcan::uint8_t bs1;
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uavcan::uint8_t bs2;
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Timings()
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: prescaler(0)
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, sjw(0)
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, bs1(0)
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, bs2(0)
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{ }
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};
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struct TxItem {
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uavcan::MonotonicTime deadline;
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uavcan::CanFrame frame;
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bool loopback;
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bool abort_on_error;
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uint8_t index;
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TxItem() :
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loopback(false),
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abort_on_error(false)
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{ }
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};
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enum { NumTxMailboxes = 32 };
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static const uavcan::uint32_t TSR_ABRQx[NumTxMailboxes];
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static uint32_t FDCANMessageRAMOffset_;
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RxQueue rx_queue_;
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fdcan::CanType* const can_;
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uavcan::uint64_t error_cnt_;
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uavcan::uint32_t served_aborts_cnt_;
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BusEvent& update_event_;
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TxItem pending_tx_[NumTxMailboxes];
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uavcan::uint8_t peak_tx_mailbox_index_;
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const uavcan::uint8_t self_index_;
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bool had_activity_;
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int computeTimings(uavcan::uint32_t target_bitrate, Timings& out_timings);
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virtual uavcan::int16_t send(const uavcan::CanFrame& frame, uavcan::MonotonicTime tx_deadline,
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uavcan::CanIOFlags flags) override;
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virtual uavcan::int16_t receive(uavcan::CanFrame& out_frame, uavcan::MonotonicTime& out_ts_monotonic,
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uavcan::UtcTime& out_ts_utc, uavcan::CanIOFlags& out_flags) override;
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virtual uavcan::int16_t configureFilters(const uavcan::CanFilterConfig* filter_configs,
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uavcan::uint16_t num_configs) override;
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virtual uavcan::uint16_t getNumFilters() const override;
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void setupMessageRam(void);
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static uint32_t FDCAN2MessageRAMOffset_;
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public:
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enum { MaxRxQueueCapacity = 254 };
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enum OperatingMode {
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NormalMode,
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SilentMode
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};
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CanIface(fdcan::CanType* can, BusEvent& update_event, uavcan::uint8_t self_index,
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CanRxItem* rx_queue_buffer, uavcan::uint8_t rx_queue_capacity);
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/**
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* Initializes the hardware CAN controller.
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* Assumes:
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* - Iface clock is enabled
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* - Iface has been resetted via RCC
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* - Caller will configure NVIC by itself
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*/
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int init(const uavcan::uint32_t bitrate, const OperatingMode mode);
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void handleTxCompleteInterrupt(uavcan::uint64_t utc_usec);
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void handleRxInterrupt(uavcan::uint8_t fifo_index);
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bool readRxFIFO(uavcan::uint8_t fifo_index);
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/**
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* This method is used to count errors and abort transmission on error if necessary.
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* This functionality used to be implemented in the SCE interrupt handler, but that approach was
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* generating too much processing overhead, especially on disconnected interfaces.
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*
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* Should be called from RX ISR, TX ISR, and select(); interrupts must be enabled.
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*/
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void pollErrorFlagsFromISR();
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void discardTimedOutTxMailboxes(uavcan::MonotonicTime current_time);
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bool canAcceptNewTxFrame(const uavcan::CanFrame& frame) const;
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bool isRxBufferEmpty() const;
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/**
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* Number of RX frames lost due to queue overflow.
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* This is an atomic read, it doesn't require a critical section.
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*/
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uavcan::uint32_t getRxQueueOverflowCount() const
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{
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return rx_queue_.getOverflowCount();
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}
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/**
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* Total number of hardware failures and other kinds of errors (e.g. queue overruns).
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* May increase continuously if the interface is not connected to the bus.
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*/
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virtual uavcan::uint64_t getErrorCount() const override;
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/**
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* Number of times the driver exercised library's requirement to abort transmission on first error.
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* This is an atomic read, it doesn't require a critical section.
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* See @ref uavcan::CanIOFlagAbortOnError.
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*/
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uavcan::uint32_t getVoluntaryTxAbortCount() const
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{
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return served_aborts_cnt_;
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}
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/**
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* Returns the number of frames pending in the RX queue.
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* This is intended for debug use only.
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*/
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unsigned getRxQueueLength() const;
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/**
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* Whether this iface had at least one successful IO since the previous call of this method.
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* This is designed for use with iface activity LEDs.
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*/
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bool hadActivity();
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/**
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* Peak number of TX mailboxes used concurrently since initialization.
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* Range is [1, 3].
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* Value of 3 suggests that priority inversion could be taking place.
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*/
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uavcan::uint8_t getPeakNumTxMailboxesUsed() const
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{
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return uavcan::uint8_t(peak_tx_mailbox_index_ + 1);
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}
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fdcan::CanType* can_reg(void)
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{
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return can_;
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}
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#if AP_UAVCAN_SLCAN_ENABLED
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static SLCANRouter &slcan_router() { return _slcan_router; }
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#endif
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};
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/**
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* CAN driver, incorporates all available CAN ifaces.
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* Please avoid direct use, prefer @ref CanInitHelper instead.
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*/
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class CanDriver : public uavcan::ICanDriver, uavcan::Noncopyable
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{
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BusEvent update_event_;
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static bool clock_init_;
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CanIface if0_;
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#if UAVCAN_STM32_NUM_IFACES > 1
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CanIface if1_;
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#endif
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bool initialized_by_me_[UAVCAN_STM32_NUM_IFACES];
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uavcan::uint8_t num_ifaces_;
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uavcan::uint8_t if_int_to_gl_index_[UAVCAN_STM32_NUM_IFACES];
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virtual uavcan::int16_t select(uavcan::CanSelectMasks& inout_masks,
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const uavcan::CanFrame* (& pending_tx)[uavcan::MaxCanIfaces],
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uavcan::MonotonicTime blocking_deadline) override;
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static void initOnce();
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static void initOnce(uavcan::uint8_t can_number, bool enable_irqs);
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public:
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template <unsigned RxQueueCapacity>
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CanDriver(CanRxItem(&rx_queue_storage)[UAVCAN_STM32_NUM_IFACES][RxQueueCapacity])
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: update_event_(*this)
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, if0_(fdcan::Can[0], update_event_, 0, rx_queue_storage[0], RxQueueCapacity)
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#if UAVCAN_STM32_NUM_IFACES > 1
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, if1_(fdcan::Can[1], update_event_, 1, rx_queue_storage[1], RxQueueCapacity)
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#endif
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{
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uavcan::StaticAssert<(RxQueueCapacity <= CanIface::MaxRxQueueCapacity)>::check();
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}
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/**
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* This function returns select masks indicating which interfaces are available for read/write.
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*/
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uavcan::CanSelectMasks makeSelectMasks(const uavcan::CanFrame* (& pending_tx)[uavcan::MaxCanIfaces]) const;
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BusEvent* getUpdateEvent()
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{
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return &update_event_;
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}
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/**
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* Whether there's at least one interface where receive() would return a frame.
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*/
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bool hasReadableInterfaces() const;
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/**
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* Returns zero if OK.
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* Returns negative value if failed (e.g. invalid bitrate).
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*/
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int init(const uavcan::uint32_t bitrate, const CanIface::OperatingMode mode);
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int init(const uavcan::uint32_t bitrate, const CanIface::OperatingMode mode, uavcan::uint8_t can_number);
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virtual CanIface* getIface(uavcan::uint8_t iface_index) override;
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virtual uavcan::uint8_t getNumIfaces() const override
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{
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return num_ifaces_;
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}
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/**
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* Whether at least one iface had at least one successful IO since previous call of this method.
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* This is designed for use with iface activity LEDs.
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*/
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bool hadActivity();
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};
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/**
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* Helper class.
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* Normally only this class should be used by the application.
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* 145 usec per Extended CAN frame @ 1 Mbps, e.g. 32 RX slots * 145 usec --> 4.6 msec before RX queue overruns.
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*/
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template <unsigned RxQueueCapacity = 128>
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class CanInitHelper
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{
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CanRxItem queue_storage_[UAVCAN_STM32_NUM_IFACES][RxQueueCapacity];
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public:
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enum { BitRateAutoDetect = 0 };
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CanDriver driver;
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CanInitHelper() :
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driver(queue_storage_)
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{ }
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/**
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* This overload simply configures the provided bitrate.
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* Auto bit rate detection will not be performed.
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* Bitrate value must be positive.
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* @return Negative value on error; non-negative on success. Refer to constants Err*.
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*/
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int init(uavcan::uint32_t bitrate)
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{
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return driver.init(bitrate, CanIface::NormalMode);
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}
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int init(const uavcan::uint32_t bitrate, const CanIface::OperatingMode mode, uavcan::uint8_t can_number)
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{
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return driver.init(bitrate, mode, can_number);
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}
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/**
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* This function can either initialize the driver at a fixed bit rate, or it can perform
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* automatic bit rate detection. For theory please refer to the CiA application note #801.
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*
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* @param delay_callable A callable entity that suspends execution for strictly more than one second.
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* The callable entity will be invoked without arguments.
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* @ref getRecommendedListeningDelay().
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*
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* @param inout_bitrate Fixed bit rate or zero. Zero invokes the bit rate detection process.
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* If auto detection was used, the function will update the argument
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* with established bit rate. In case of an error the value will be undefined.
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*
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* @return Negative value on error; non-negative on success. Refer to constants Err*.
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*/
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template <typename DelayCallable>
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int init(DelayCallable delay_callable, uavcan::uint32_t& inout_bitrate = BitRateAutoDetect)
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{
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if (inout_bitrate > 0) {
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return driver.init(inout_bitrate, CanIface::NormalMode);
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} else {
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static const uavcan::uint32_t StandardBitRates[] = {
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1000000,
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500000,
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250000,
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125000
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};
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for (uavcan::uint8_t br = 0; br < sizeof(StandardBitRates) / sizeof(StandardBitRates[0]); br++) {
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inout_bitrate = StandardBitRates[br];
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const int res = driver.init(inout_bitrate, CanIface::SilentMode);
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delay_callable();
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if (res >= 0) {
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for (uavcan::uint8_t iface = 0; iface < driver.getNumIfaces(); iface++) {
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if (!driver.getIface(iface)->isRxBufferEmpty()) {
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// Re-initializing in normal mode
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return driver.init(inout_bitrate, CanIface::NormalMode);
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}
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}
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}
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}
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return -ErrBitRateNotDetected;
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}
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}
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/**
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* Use this value for listening delay during automatic bit rate detection.
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*/
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static uavcan::MonotonicDuration getRecommendedListeningDelay()
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{
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return uavcan::MonotonicDuration::fromMSec(1050);
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}
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};
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}
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#include "CANSerialRouter.h"
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#endif //HAL_WITH_UAVCAN
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