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ChibiOS: move CAN driver code into HAL

master
Siddharth Purohit 6 years ago committed by Andrew Tridgell
parent
504cfd8989
commit
8f964b08b0
10 changed files with 2896 additions and 11 deletions
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  1. 8
      libraries/AP_HAL_ChibiOS/CAN.h
  2. 408
      libraries/AP_HAL_ChibiOS/CANClock.cpp
  3. 161
      libraries/AP_HAL_ChibiOS/CANClock.h
  4. 442
      libraries/AP_HAL_ChibiOS/CANIface.h
  5. 99
      libraries/AP_HAL_ChibiOS/CANInternal.h
  6. 13
      libraries/AP_HAL_ChibiOS/CANManager.cpp
  7. 117
      libraries/AP_HAL_ChibiOS/CANThread.cpp
  8. 91
      libraries/AP_HAL_ChibiOS/CANThread.h
  9. 1244
      libraries/AP_HAL_ChibiOS/CanIface.cpp
  10. 324
      libraries/AP_HAL_ChibiOS/bxcan.hpp

8
libraries/AP_HAL_ChibiOS/CAN.h
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@ -26,9 +26,9 @@ @@ -26,9 +26,9 @@
#include <uavcan/uavcan.hpp>
#include <uavcan/time.hpp>
#include <uavcan_stm32/thread.hpp>
#include <uavcan_stm32/clock.hpp>
#include <uavcan_stm32/can.hpp>
#include "CANThread.h"
#include "CANClock.h"
#include "CANIface.h"
#define MAX_NUMBER_OF_CAN_INTERFACES 2
#define MAX_NUMBER_OF_CAN_DRIVERS 2
@ -66,7 +66,7 @@ public: @@ -66,7 +66,7 @@ public:
private:
bool initialized_;
uavcan_stm32::CanInitHelper<CAN_STM32_RX_QUEUE_SIZE> can_helper;
ChibiOS_CAN::CanInitHelper<CAN_STM32_RX_QUEUE_SIZE> can_helper;
};
}

408
libraries/AP_HAL_ChibiOS/CANClock.cpp
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@ -0,0 +1,408 @@ @@ -0,0 +1,408 @@
/*
* The MIT License (MIT)
*
* Copyright (c) 2014 Pavel Kirienko
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* Modified for Ardupilot by Siddharth Bharat Purohit
*/
#include "CANClock.h"
#include "CANThread.h"
#include "CANInternal.h"
#ifndef UAVCAN_STM32_TIMER_NUMBER
#define UAVCAN_STM32_TIMER_NUMBER 0
#endif
#if UAVCAN_STM32_TIMER_NUMBER
#include <cassert>
#include <cmath>
/*
* Timer instance
*/
# if (CH_KERNEL_MAJOR == 2)
# define TIMX UAVCAN_STM32_GLUE2(TIM, UAVCAN_STM32_TIMER_NUMBER)
# define TIMX_IRQn UAVCAN_STM32_GLUE3(TIM, UAVCAN_STM32_TIMER_NUMBER, _IRQn)
# define TIMX_INPUT_CLOCK STM32_TIMCLK1
# endif
# if (CH_KERNEL_MAJOR == 3 || CH_KERNEL_MAJOR == 4)
# define TIMX UAVCAN_STM32_GLUE2(STM32_TIM, UAVCAN_STM32_TIMER_NUMBER)
# define TIMX_IRQn UAVCAN_STM32_GLUE3(STM32_TIM, UAVCAN_STM32_TIMER_NUMBER, _NUMBER)
# define TIMX_IRQHandler UAVCAN_STM32_GLUE3(STM32_TIM, UAVCAN_STM32_TIMER_NUMBER, _HANDLER)
# define TIMX_INPUT_CLOCK STM32_TIMCLK1
# else
# define TIMX_IRQHandler UAVCAN_STM32_GLUE3(TIM, UAVCAN_STM32_TIMER_NUMBER, _IRQHandler)
# endif
# if UAVCAN_STM32_TIMER_NUMBER >= 2 && UAVCAN_STM32_TIMER_NUMBER <= 7
# define TIMX_RCC_ENR RCC->APB1ENR
# define TIMX_RCC_RSTR RCC->APB1RSTR
# define TIMX_RCC_ENR_MASK UAVCAN_STM32_GLUE3(RCC_APB1ENR_TIM, UAVCAN_STM32_TIMER_NUMBER, EN)
# define TIMX_RCC_RSTR_MASK UAVCAN_STM32_GLUE3(RCC_APB1RSTR_TIM, UAVCAN_STM32_TIMER_NUMBER, RST)
# else
# error "This UAVCAN_STM32_TIMER_NUMBER is not supported yet"
# endif
# if (TIMX_INPUT_CLOCK % 1000000) != 0
# error "No way, timer clock must be divisible to 1e6. FIXME!"
# endif
extern "C" UAVCAN_STM32_IRQ_HANDLER(TIMX_IRQHandler);
namespace ChibiOS_CAN {
namespace clock {
namespace {
const uavcan::uint32_t USecPerOverflow = 65536;
Mutex mutex;
bool initialized = false;
bool utc_set = false;
bool utc_locked = false;
uavcan::uint32_t utc_jump_cnt = 0;
UtcSyncParams utc_sync_params;
float utc_prev_adj = 0;
float utc_rel_rate_ppm = 0;
float utc_rel_rate_error_integral = 0;
uavcan::int32_t utc_accumulated_correction_nsec = 0;
uavcan::int32_t utc_correction_nsec_per_overflow = 0;
uavcan::MonotonicTime prev_utc_adj_at;
uavcan::uint64_t time_mono = 0;
uavcan::uint64_t time_utc = 0;
}
void init()
{
CriticalSectionLocker lock;
if (initialized) {
return;
}
initialized = true;
// Power-on and reset
TIMX_RCC_ENR |= TIMX_RCC_ENR_MASK;
TIMX_RCC_RSTR |= TIMX_RCC_RSTR_MASK;
TIMX_RCC_RSTR &= ~TIMX_RCC_RSTR_MASK;
// Enable IRQ
nvicEnableVector(TIMX_IRQn, UAVCAN_STM32_IRQ_PRIORITY_MASK);
# if (TIMX_INPUT_CLOCK % 1000000) != 0
# error "No way, timer clock must be divisible to 1e6. FIXME!"
# endif
// Start the timer
TIMX->ARR = 0xFFFF;
TIMX->PSC = (TIMX_INPUT_CLOCK / 1000000) - 1; // 1 tick == 1 microsecond
TIMX->CR1 = TIM_CR1_URS;
TIMX->SR = 0;
TIMX->EGR = TIM_EGR_UG; // Reload immediately
TIMX->DIER = TIM_DIER_UIE;
TIMX->CR1 = TIM_CR1_CEN; // Start
}
void setUtc(uavcan::UtcTime time)
{
MutexLocker mlocker(mutex);
UAVCAN_ASSERT(initialized);
{
CriticalSectionLocker locker;
time_utc = time.toUSec();
}
utc_set = true;
utc_locked = false;
utc_jump_cnt++;
utc_prev_adj = 0;
utc_rel_rate_ppm = 0;
}
static uavcan::uint64_t sampleUtcFromCriticalSection()
{
UAVCAN_ASSERT(initialized);
UAVCAN_ASSERT(TIMX->DIER & TIM_DIER_UIE);
volatile uavcan::uint64_t time = time_utc;
volatile uavcan::uint32_t cnt = TIMX->CNT;
if (TIMX->SR & TIM_SR_UIF) {
cnt = TIMX->CNT;
const uavcan::int32_t add = uavcan::int32_t(USecPerOverflow) +
(utc_accumulated_correction_nsec + utc_correction_nsec_per_overflow) / 1000;
time = uavcan::uint64_t(uavcan::int64_t(time) + add);
}
return time + cnt;
}
uavcan::uint64_t getUtcUSecFromCanInterrupt()
{
return utc_set ? sampleUtcFromCriticalSection() : 0;
}
uavcan::MonotonicTime getMonotonic()
{
uavcan::uint64_t usec = 0;
// Scope Critical section
{
CriticalSectionLocker locker;
volatile uavcan::uint64_t time = time_mono;
volatile uavcan::uint32_t cnt = TIMX->CNT;
if (TIMX->SR & TIM_SR_UIF) {
cnt = TIMX->CNT;
time += USecPerOverflow;
}
usec = time + cnt;
# ifndef NDEBUG
static uavcan::uint64_t prev_usec = 0; // Self-test
UAVCAN_ASSERT(prev_usec <= usec);
(void)prev_usec;
prev_usec = usec;
# endif
} // End Scope Critical section
return uavcan::MonotonicTime::fromUSec(usec);
}
uavcan::UtcTime getUtc()
{
if (utc_set) {
uavcan::uint64_t usec = 0;
{
CriticalSectionLocker locker;
usec = sampleUtcFromCriticalSection();
}
return uavcan::UtcTime::fromUSec(usec);
}
return uavcan::UtcTime();
}
static float lowpass(float xold, float xnew, float corner, float dt)
{
const float tau = 1.F / corner;
return (dt * xnew + tau * xold) / (dt + tau);
}
static void updateRatePID(uavcan::UtcDuration adjustment)
{
const uavcan::MonotonicTime ts = getMonotonic();
const float dt = float((ts - prev_utc_adj_at).toUSec()) / 1e6F;
prev_utc_adj_at = ts;
const float adj_usec = float(adjustment.toUSec());
/*
* Target relative rate in PPM
* Positive to go faster
*/
const float target_rel_rate_ppm = adj_usec * utc_sync_params.offset_p;
/*
* Current relative rate in PPM
* Positive if the local clock is faster
*/
const float new_rel_rate_ppm = (utc_prev_adj - adj_usec) / dt; // rate error in [usec/sec], which is PPM
utc_prev_adj = adj_usec;
utc_rel_rate_ppm = lowpass(utc_rel_rate_ppm, new_rel_rate_ppm, utc_sync_params.rate_error_corner_freq, dt);
const float rel_rate_error = target_rel_rate_ppm - utc_rel_rate_ppm;
if (dt > 10) {
utc_rel_rate_error_integral = 0;
}
else {
utc_rel_rate_error_integral += rel_rate_error * dt * utc_sync_params.rate_i;
utc_rel_rate_error_integral =
uavcan::max(utc_rel_rate_error_integral, -utc_sync_params.max_rate_correction_ppm);
utc_rel_rate_error_integral =
uavcan::min(utc_rel_rate_error_integral, utc_sync_params.max_rate_correction_ppm);
}
/*
* Rate controller
*/
float total_rate_correction_ppm = rel_rate_error + utc_rel_rate_error_integral;
total_rate_correction_ppm = uavcan::max(total_rate_correction_ppm, -utc_sync_params.max_rate_correction_ppm);
total_rate_correction_ppm = uavcan::min(total_rate_correction_ppm, utc_sync_params.max_rate_correction_ppm);
utc_correction_nsec_per_overflow = uavcan::int32_t((USecPerOverflow * 1000) * (total_rate_correction_ppm / 1e6F));
// syslog("$ adj=%f rel_rate=%f rel_rate_eint=%f tgt_rel_rate=%f ppm=%f\n",
// adj_usec, utc_rel_rate_ppm, utc_rel_rate_error_integral, target_rel_rate_ppm,
// total_rate_correction_ppm);
}
void adjustUtc(uavcan::UtcDuration adjustment)
{
MutexLocker mlocker(mutex);
UAVCAN_ASSERT(initialized);
if (adjustment.getAbs() > utc_sync_params.min_jump || !utc_set) {
const uavcan::int64_t adj_usec = adjustment.toUSec();
{
CriticalSectionLocker locker;
if ((adj_usec < 0) && uavcan::uint64_t(-adj_usec) > time_utc) {
time_utc = 1;
}
else {
time_utc = uavcan::uint64_t(uavcan::int64_t(time_utc) + adj_usec);
}
}
utc_set = true;
utc_locked = false;
utc_jump_cnt++;
utc_prev_adj = 0;
utc_rel_rate_ppm = 0;
}
else {
updateRatePID(adjustment);
if (!utc_locked) {
utc_locked =
(std::abs(utc_rel_rate_ppm) < utc_sync_params.lock_thres_rate_ppm) &&
(std::abs(utc_prev_adj) < utc_sync_params.lock_thres_offset.toUSec());
}
}
}
float getUtcRateCorrectionPPM()
{
MutexLocker mlocker(mutex);
const float rate_correction_mult = float(utc_correction_nsec_per_overflow) / float(USecPerOverflow * 1000);
return 1e6F * rate_correction_mult;
}
uavcan::uint32_t getUtcJumpCount()
{
MutexLocker mlocker(mutex);
return utc_jump_cnt;
}
bool isUtcLocked()
{
MutexLocker mlocker(mutex);
return utc_locked;
}
UtcSyncParams getUtcSyncParams()
{
MutexLocker mlocker(mutex);
return utc_sync_params;
}
void setUtcSyncParams(const UtcSyncParams& params)
{
MutexLocker mlocker(mutex);
// Add some sanity check
utc_sync_params = params;
}
} // namespace clock
SystemClock& SystemClock::instance()
{
static union SystemClockStorage {
uavcan::uint8_t buffer[sizeof(SystemClock)];
long long _aligner_1;
long double _aligner_2;
} storage;
SystemClock* const ptr = reinterpret_cast<SystemClock*>(storage.buffer);
if (!clock::initialized) {
MutexLocker mlocker(clock::mutex);
clock::init();
new (ptr)SystemClock();
}
return *ptr;
}
} // namespace uavcan_stm32
/**
* Timer interrupt handler
*/
extern "C"
UAVCAN_STM32_IRQ_HANDLER(TIMX_IRQHandler)
{
UAVCAN_STM32_IRQ_PROLOGUE();
TIMX->SR = 0;
using namespace uavcan_stm32::clock;
UAVCAN_ASSERT(initialized);
time_mono += USecPerOverflow;
if (utc_set) {
time_utc += USecPerOverflow;
utc_accumulated_correction_nsec += utc_correction_nsec_per_overflow;
if (std::abs(utc_accumulated_correction_nsec) >= 1000) {
time_utc = uavcan::uint64_t(uavcan::int64_t(time_utc) + utc_accumulated_correction_nsec / 1000);
utc_accumulated_correction_nsec %= 1000;
}
// Correction decay - 1 nsec per 65536 usec
if (utc_correction_nsec_per_overflow > 0) {
utc_correction_nsec_per_overflow--;
}
else if (utc_correction_nsec_per_overflow < 0) {
utc_correction_nsec_per_overflow++;
}
else {
; // Zero
}
}
UAVCAN_STM32_IRQ_EPILOGUE();
}
#endif

161
libraries/AP_HAL_ChibiOS/CANClock.h
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@ -0,0 +1,161 @@ @@ -0,0 +1,161 @@
/*
* The MIT License (MIT)
*
* Copyright (c) 2014 Pavel Kirienko
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* Modified for Ardupilot by Siddharth Bharat Purohit
*/
#pragma once
#include <uavcan/driver/system_clock.hpp>
namespace ChibiOS_CAN {
namespace clock {
/**
* Starts the clock.
* Can be called multiple times, only the first call will be effective.
*/
void init();
/**
* Returns current monotonic time since the moment when clock::init() was called.
* This function is thread safe.
*/
uavcan::MonotonicTime getMonotonic();
/**
* Sets the driver's notion of the system UTC. It should be called
* at startup and any time the system clock is updated from an
* external source that is not the UAVCAN Timesync master.
* This function is thread safe.
*/
void setUtc(uavcan::UtcTime time);
/**
* Returns UTC time if it has been set, otherwise returns zero time.
* This function is thread safe.
*/
uavcan::UtcTime getUtc();
/**
* Performs UTC phase and frequency adjustment.
* The UTC time will be zero until first adjustment has been performed.
* This function is thread safe.
*/
void adjustUtc(uavcan::UtcDuration adjustment);
/**
* UTC clock synchronization parameters
*/
struct UtcSyncParams {
float offset_p; ///< PPM per one usec error
float rate_i; ///< PPM per one PPM error for second
float rate_error_corner_freq;
float max_rate_correction_ppm;
float lock_thres_rate_ppm;
uavcan::UtcDuration lock_thres_offset;
uavcan::UtcDuration min_jump; ///< Min error to jump rather than change rate
UtcSyncParams()
: offset_p(0.01F)
, rate_i(0.02F)
, rate_error_corner_freq(0.01F)
, max_rate_correction_ppm(300.0F)
, lock_thres_rate_ppm(2.0F)
, lock_thres_offset(uavcan::UtcDuration::fromMSec(4))
, min_jump(uavcan::UtcDuration::fromMSec(10))
{ }
};
/**
* Clock rate error.
* Positive if the hardware timer is slower than reference time.
* This function is thread safe.
*/
float getUtcRateCorrectionPPM();
/**
* Number of non-gradual adjustments performed so far.
* Ideally should be zero.
* This function is thread safe.
*/
uavcan::uint32_t getUtcJumpCount();
/**
* Whether UTC is synchronized and locked.
* This function is thread safe.
*/
bool isUtcLocked();
/**
* UTC sync params get/set.
* Both functions are thread safe.
*/
UtcSyncParams getUtcSyncParams();
void setUtcSyncParams(const UtcSyncParams& params);
}
/**
* Adapter for uavcan::ISystemClock.
*/
class SystemClock : public uavcan::ISystemClock, uavcan::Noncopyable {
SystemClock() { }
virtual void adjustUtc(uavcan::UtcDuration adjustment)
{
clock::adjustUtc(adjustment);
}
public:
virtual uavcan::MonotonicTime getMonotonic() const
{
return clock::getMonotonic();
}
virtual uavcan::UtcTime getUtc() const
{
return clock::getUtc();
}
/**
* Calls clock::init() as needed.
* This function is thread safe.
*/
static SystemClock& instance();
};
}

442
libraries/AP_HAL_ChibiOS/CANIface.h
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@ -0,0 +1,442 @@ @@ -0,0 +1,442 @@
/*
* The MIT License (MIT)
*
* Copyright (c) 2014 Pavel Kirienko
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* Code by Siddharth Bharat Purohit
*/
#pragma once
#include "CANThread.h"
#include "CANIface.h"
#include "bxcan.hpp"
class SLCANRouter;
namespace ChibiOS_CAN {
/**
* Driver error codes.
* These values can be returned from driver functions negated.
*/
//static const uavcan::int16_t ErrUnknown = 1000; ///< Reserved for future use
static const uavcan::int16_t ErrNotImplemented = 1001; ///< Feature not implemented
static const uavcan::int16_t ErrInvalidBitRate = 1002; ///< Bit rate not supported
static const uavcan::int16_t ErrLogic = 1003; ///< Internal logic error
static const uavcan::int16_t ErrUnsupportedFrame = 1004; ///< Frame not supported (e.g. RTR, CAN FD, etc)
static const uavcan::int16_t ErrMsrInakNotSet = 1005; ///< INAK bit of the MSR register is not 1
static const uavcan::int16_t ErrMsrInakNotCleared = 1006; ///< INAK bit of the MSR register is not 0
static const uavcan::int16_t ErrBitRateNotDetected = 1007; ///< Auto bit rate detection could not be finished
static const uavcan::int16_t ErrFilterNumConfigs = 1008; ///< Number of filters is more than supported
/**
* RX queue item.
* The application shall not use this directly.
*/
struct CanRxItem {
uavcan::uint64_t utc_usec;
uavcan::CanFrame frame;
uavcan::CanIOFlags flags;
CanRxItem()
: utc_usec(0)
, flags(0)
{ }
};
/**
* Single CAN iface.
* The application shall not use this directly.
*/
class CanIface : public uavcan::ICanIface, uavcan::Noncopyable {
friend class ::SLCANRouter;
class RxQueue {
CanRxItem* const buf_;
const uavcan::uint8_t capacity_;
uavcan::uint8_t in_;
uavcan::uint8_t out_;
uavcan::uint8_t len_;
uavcan::uint32_t overflow_cnt_;
void registerOverflow();
public:
RxQueue(CanRxItem* buf, uavcan::uint8_t capacity)
: buf_(buf)
, capacity_(capacity)
, in_(0)
, out_(0)
, len_(0)
, overflow_cnt_(0)
{ }
void push(const uavcan::CanFrame& frame, const uint64_t& utc_usec, uavcan::CanIOFlags flags);
void pop(uavcan::CanFrame& out_frame, uavcan::uint64_t& out_utc_usec, uavcan::CanIOFlags& out_flags);
void reset();
unsigned getLength() const
{
return len_;
}
uavcan::uint32_t getOverflowCount() const
{
return overflow_cnt_;
}
};
struct Timings {
uavcan::uint16_t prescaler;
uavcan::uint8_t sjw;
uavcan::uint8_t bs1;
uavcan::uint8_t bs2;
Timings()
: prescaler(0)
, sjw(0)
, bs1(0)
, bs2(0)
{ }
};
struct TxItem {
uavcan::MonotonicTime deadline;
uavcan::CanFrame frame;
bool pending;
bool loopback;
bool abort_on_error;
TxItem()
: pending(false)
, loopback(false)
, abort_on_error(false)
{ }
};
enum { NumTxMailboxes = 3 };
enum { NumFilters = 14 };
static const uavcan::uint32_t TSR_ABRQx[NumTxMailboxes];
RxQueue rx_queue_;
bxcan::CanType* const can_;
uavcan::uint64_t error_cnt_;
uavcan::uint32_t served_aborts_cnt_;
BusEvent& update_event_;
TxItem pending_tx_[NumTxMailboxes];
uavcan::uint8_t peak_tx_mailbox_index_;
const uavcan::uint8_t self_index_;
bool had_activity_;
int computeTimings(uavcan::uint32_t target_bitrate, Timings& out_timings);
virtual uavcan::int16_t send(const uavcan::CanFrame& frame, uavcan::MonotonicTime tx_deadline,
uavcan::CanIOFlags flags);
virtual uavcan::int16_t receive(uavcan::CanFrame& out_frame, uavcan::MonotonicTime& out_ts_monotonic,
uavcan::UtcTime& out_ts_utc, uavcan::CanIOFlags& out_flags);
virtual uavcan::int16_t configureFilters(const uavcan::CanFilterConfig* filter_configs,
uavcan::uint16_t num_configs);
virtual uavcan::uint16_t getNumFilters() const
{
return NumFilters;
}
void handleTxMailboxInterrupt(uavcan::uint8_t mailbox_index, bool txok, uavcan::uint64_t utc_usec);
bool waitMsrINakBitStateChange(bool target_state);
public:
enum { MaxRxQueueCapacity = 254 };
enum OperatingMode {
NormalMode,
SilentMode
};
CanIface(bxcan::CanType* can, BusEvent& update_event, uavcan::uint8_t self_index,
CanRxItem* rx_queue_buffer, uavcan::uint8_t rx_queue_capacity)
: rx_queue_(rx_queue_buffer, rx_queue_capacity)
, can_(can)
, error_cnt_(0)
, served_aborts_cnt_(0)
, update_event_(update_event)
, peak_tx_mailbox_index_(0)
, self_index_(self_index)
, had_activity_(false)
{
UAVCAN_ASSERT(self_index_ < UAVCAN_STM32_NUM_IFACES);
}
/**
* Initializes the hardware CAN controller.
* Assumes:
* - Iface clock is enabled
* - Iface has been resetted via RCC
* - Caller will configure NVIC by itself
*/
int init(const uavcan::uint32_t bitrate, const OperatingMode mode);
void handleTxInterrupt(uavcan::uint64_t utc_usec);
void handleRxInterrupt(uavcan::uint8_t fifo_index, uavcan::uint64_t utc_usec);
/**
* This method is used to count errors and abort transmission on error if necessary.
* This functionality used to be implemented in the SCE interrupt handler, but that approach was
* generating too much processing overhead, especially on disconnected interfaces.
*
* Should be called from RX ISR, TX ISR, and select(); interrupts must be enabled.
*/
void pollErrorFlagsFromISR();
void discardTimedOutTxMailboxes(uavcan::MonotonicTime current_time);
bool canAcceptNewTxFrame(const uavcan::CanFrame& frame) const;
bool isRxBufferEmpty() const;
/**
* Number of RX frames lost due to queue overflow.
* This is an atomic read, it doesn't require a critical section.
*/
uavcan::uint32_t getRxQueueOverflowCount() const
{
return rx_queue_.getOverflowCount();
}
/**
* Total number of hardware failures and other kinds of errors (e.g. queue overruns).
* May increase continuously if the interface is not connected to the bus.
*/
virtual uavcan::uint64_t getErrorCount() const;
/**
* Number of times the driver exercised library's requirement to abort transmission on first error.
* This is an atomic read, it doesn't require a critical section.
* See @ref uavcan::CanIOFlagAbortOnError.
*/
uavcan::uint32_t getVoluntaryTxAbortCount() const
{
return served_aborts_cnt_;
}
/**
* Returns the number of frames pending in the RX queue.
* This is intended for debug use only.
*/
unsigned getRxQueueLength() const;
/**
* Whether this iface had at least one successful IO since the previous call of this method.
* This is designed for use with iface activity LEDs.
*/
bool hadActivity();
/**
* Peak number of TX mailboxes used concurrently since initialization.
* Range is [1, 3].
* Value of 3 suggests that priority inversion could be taking place.
*/
uavcan::uint8_t getPeakNumTxMailboxesUsed() const
{
return uavcan::uint8_t(peak_tx_mailbox_index_ + 1);
}
};
/**
* CAN driver, incorporates all available CAN ifaces.
* Please avoid direct use, prefer @ref CanInitHelper instead.
*/
class CanDriver : public uavcan::ICanDriver, uavcan::Noncopyable {
BusEvent update_event_;
CanIface if0_;
#if UAVCAN_STM32_NUM_IFACES > 1
CanIface if1_;
#endif
bool initialized_by_me_[UAVCAN_STM32_NUM_IFACES];
uavcan::uint8_t num_ifaces_;
uavcan::uint8_t if_int_to_gl_index_[UAVCAN_STM32_NUM_IFACES];
virtual uavcan::int16_t select(uavcan::CanSelectMasks& inout_masks,
const uavcan::CanFrame* (& pending_tx)[uavcan::MaxCanIfaces],
uavcan::MonotonicTime blocking_deadline);
static void initOnce();
static void initOnce(uavcan::uint8_t can_number, bool enable_irqs);
public:
template <unsigned RxQueueCapacity>
CanDriver(CanRxItem(&rx_queue_storage)[UAVCAN_STM32_NUM_IFACES][RxQueueCapacity])
: update_event_(*this)
, if0_(bxcan::Can[0], update_event_, 0, rx_queue_storage[0], RxQueueCapacity)
#if UAVCAN_STM32_NUM_IFACES > 1
, if1_(bxcan::Can[1], update_event_, 1, rx_queue_storage[1], RxQueueCapacity)
#endif
{
uavcan::StaticAssert<(RxQueueCapacity <= CanIface::MaxRxQueueCapacity)>::check();
}
/**
* This function returns select masks indicating which interfaces are available for read/write.
*/
uavcan::CanSelectMasks makeSelectMasks(const uavcan::CanFrame* (& pending_tx)[uavcan::MaxCanIfaces]) const;
BusEvent* getUpdateEvent()
{
return &update_event_;
}
/**
* Whether there's at least one interface where receive() would return a frame.
*/
bool hasReadableInterfaces() const;
/**
* Returns zero if OK.
* Returns negative value if failed (e.g. invalid bitrate).
*/
int init(const uavcan::uint32_t bitrate, const CanIface::OperatingMode mode);
int init(const uavcan::uint32_t bitrate, const CanIface::OperatingMode mode, uavcan::uint8_t can_number);
virtual CanIface* getIface(uavcan::uint8_t iface_index);
virtual uavcan::uint8_t getNumIfaces() const
{
return num_ifaces_;
}
/**
* Whether at least one iface had at least one successful IO since previous call of this method.
* This is designed for use with iface activity LEDs.
*/
bool hadActivity();
};
/**
* Helper class.
* Normally only this class should be used by the application.
* 145 usec per Extended CAN frame @ 1 Mbps, e.g. 32 RX slots * 145 usec --> 4.6 msec before RX queue overruns.
*/
template <unsigned RxQueueCapacity = 128>
class CanInitHelper {
CanRxItem queue_storage_[UAVCAN_STM32_NUM_IFACES][RxQueueCapacity];
public:
enum { BitRateAutoDetect = 0 };
CanDriver driver;
CanInitHelper() :
driver(queue_storage_)
{ }
/**
* This overload simply configures the provided bitrate.
* Auto bit rate detection will not be performed.
* Bitrate value must be positive.
* @return Negative value on error; non-negative on success. Refer to constants Err*.
*/
int init(uavcan::uint32_t bitrate)
{
return driver.init(bitrate, CanIface::NormalMode);
}
int init(const uavcan::uint32_t bitrate, const CanIface::OperatingMode mode, uavcan::uint8_t can_number)
{
return driver.init(bitrate, mode, can_number);
}
/**
* This function can either initialize the driver at a fixed bit rate, or it can perform
* automatic bit rate detection. For theory please refer to the CiA application note #801.
*
* @param delay_callable A callable entity that suspends execution for strictly more than one second.
* The callable entity will be invoked without arguments.
* @ref getRecommendedListeningDelay().
*
* @param inout_bitrate Fixed bit rate or zero. Zero invokes the bit rate detection process.
* If auto detection was used, the function will update the argument
* with established bit rate. In case of an error the value will be undefined.
*
* @return Negative value on error; non-negative on success. Refer to constants Err*.
*/
template <typename DelayCallable>
int init(DelayCallable delay_callable, uavcan::uint32_t& inout_bitrate = BitRateAutoDetect)
{
if (inout_bitrate > 0) {
return driver.init(inout_bitrate, CanIface::NormalMode);
}
else {
static const uavcan::uint32_t StandardBitRates[] = {
1000000,
500000,
250000,
125000
};
for (uavcan::uint8_t br = 0; br < sizeof(StandardBitRates) / sizeof(StandardBitRates[0]); br++) {
inout_bitrate = StandardBitRates[br];
const int res = driver.init(inout_bitrate, CanIface::SilentMode);
delay_callable();
if (res >= 0) {
for (uavcan::uint8_t iface = 0; iface < driver.getNumIfaces(); iface++) {
if (!driver.getIface(iface)->isRxBufferEmpty()) {
// Re-initializing in normal mode
return driver.init(inout_bitrate, CanIface::NormalMode);
}
}
}
}
return -ErrBitRateNotDetected;
}
}
/**
* Use this value for listening delay during automatic bit rate detection.
*/
static uavcan::MonotonicDuration getRecommendedListeningDelay()
{
return uavcan::MonotonicDuration::fromMSec(1050);
}
};
}
#include "CANSerialRouter.h"

99
libraries/AP_HAL_ChibiOS/CANInternal.h
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@ -0,0 +1,99 @@ @@ -0,0 +1,99 @@
/*
* The MIT License (MIT)
*
* Copyright (c) 2014 Pavel Kirienko
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* Code by Siddharth Bharat Purohit
*/
#pragma once
#include <hal.h>
#include <ch.h>
/**
* Debug output
*/
#ifndef UAVCAN_STM32_LOG
# if 0
# define UAVCAN_STM32_LOG(fmt, ...) syslog("uavcan_stm32: " fmt "\n", ##__VA_ARGS__)
# else
# define UAVCAN_STM32_LOG(...) ((void)0)
# endif
#endif
/**
* IRQ handler macros
*/
# define UAVCAN_STM32_IRQ_HANDLER(id) CH_IRQ_HANDLER(id)
# define UAVCAN_STM32_IRQ_PROLOGUE() CH_IRQ_PROLOGUE()
# define UAVCAN_STM32_IRQ_EPILOGUE() CH_IRQ_EPILOGUE()
/**
* Priority mask for timer and CAN interrupts.
*/
# ifndef UAVCAN_STM32_IRQ_PRIORITY_MASK
# if (CH_KERNEL_MAJOR == 2)
# define UAVCAN_STM32_IRQ_PRIORITY_MASK CORTEX_PRIORITY_MASK(CORTEX_MAX_KERNEL_PRIORITY)
# else // ChibiOS 3+
# define UAVCAN_STM32_IRQ_PRIORITY_MASK CORTEX_MAX_KERNEL_PRIORITY
# endif
# endif
/**
* Glue macros
*/
#define UAVCAN_STM32_GLUE2_(A, B) A##B
#define UAVCAN_STM32_GLUE2(A, B) UAVCAN_STM32_GLUE2_(A, B)
#define UAVCAN_STM32_GLUE3_(A, B, C) A##B##C
#define UAVCAN_STM32_GLUE3(A, B, C) UAVCAN_STM32_GLUE3_(A, B, C)
namespace ChibiOS_CAN {
struct CriticalSectionLocker {
CriticalSectionLocker()
{
chSysSuspend();
}
~CriticalSectionLocker()
{
chSysEnable();
}
};
namespace clock {
uint64_t getUtcUSecFromCanInterrupt();
}
}

13
libraries/AP_HAL_ChibiOS/CAN.cpp → libraries/AP_HAL_ChibiOS/CANManager.cpp
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@ -11,7 +11,7 @@ @@ -11,7 +11,7 @@
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
*
* Code by Andrew Tridgell and Siddharth Bharat Purohit
* Based on stm32 can driver by Pavel Kirienko
*/
@ -20,14 +20,13 @@ @@ -20,14 +20,13 @@
#if HAL_WITH_UAVCAN
#include <uavcan_stm32/../../src/internal.hpp>
#include "CANInternal.h"
#include "CANClock.h"
using namespace ChibiOS;
using namespace uavcan_stm32;
extern const AP_HAL::HAL& hal;
namespace uavcan_stm32 {
using namespace ChibiOS;
namespace ChibiOS_CAN {
uint64_t clock::getUtcUSecFromCanInterrupt()
{
@ -43,7 +42,7 @@ uavcan::MonotonicTime clock::getMonotonic() @@ -43,7 +42,7 @@ uavcan::MonotonicTime clock::getMonotonic()
bool CANManager::begin(uint32_t bitrate, uint8_t can_number)
{
return (can_helper.init(bitrate, CanIface::OperatingMode::NormalMode, can_number) == 0);
return (can_helper.init(bitrate, ChibiOS_CAN::CanIface::OperatingMode::NormalMode, can_number) == 0);
}
bool CANManager::is_initialized()

117
libraries/AP_HAL_ChibiOS/CANThread.cpp
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@ -0,0 +1,117 @@ @@ -0,0 +1,117 @@
/*
* The MIT License (MIT)
*
* Copyright (c) 2014 Pavel Kirienko
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* Modified for Ardupilot by Siddharth Bharat Purohit
*/
#include "CANThread.h"
#include "CANClock.h"
#include "CANIface.h"
#include "CANInternal.h"
namespace ChibiOS_CAN {
/*
* BusEvent
*/
bool BusEvent::wait(uavcan::MonotonicDuration duration)
{
// set maximum time to allow for 16 bit timers running at 1MHz
static const uavcan::int64_t MaxDelayUSec = 0x000FFFF;
const uavcan::int64_t usec = duration.toUSec();
msg_t ret = msg_t();
if (usec <= 0) {
# if (CH_KERNEL_MAJOR == 2)
ret = sem_.waitTimeout(TIME_IMMEDIATE);
# else // ChibiOS 3+
ret = sem_.wait(TIME_IMMEDIATE);
# endif
}
else {
# if (CH_KERNEL_MAJOR == 2)
ret = sem_.waitTimeout((usec > MaxDelayUSec) ? US2ST(MaxDelayUSec) : US2ST(usec));
# elif (CH_KERNEL_MAJOR >= 5)
ret = sem_.wait((usec > MaxDelayUSec) ? chTimeUS2I(MaxDelayUSec) : chTimeUS2I(usec));
# else // ChibiOS 3+
ret = sem_.wait((usec > MaxDelayUSec) ? US2ST(MaxDelayUSec) : US2ST(usec));
# endif
}
# if (CH_KERNEL_MAJOR == 2)
return ret == RDY_OK;
# else // ChibiOS 3+
return ret == MSG_OK;
# endif
}
void BusEvent::signal()
{
sem_.signal();
}
void BusEvent::signalFromInterrupt()
{
# if (CH_KERNEL_MAJOR == 2)
chSysLockFromIsr();
sem_.signalI();
chSysUnlockFromIsr();
# else // ChibiOS 3+
chSysLockFromISR();
sem_.signalI();
chSysUnlockFromISR();
# endif
}
/*
* Mutex
*/
void Mutex::lock()
{
mtx_.lock();
}
void Mutex::unlock()
{
# if (CH_KERNEL_MAJOR == 2)
chibios_rt::BaseThread::unlockMutex();
# else // ChibiOS 3+
mtx_.unlock();
# endif
}
}

91
libraries/AP_HAL_ChibiOS/CANThread.h
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/*
* The MIT License (MIT)
*
* Copyright (c) 2014 Pavel Kirienko
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* Modified for Ardupilot by Siddharth Bharat Purohit
*/
#pragma once
# include <ch.hpp>
#include <uavcan/uavcan.hpp>
namespace ChibiOS_CAN {
class CanDriver;
class BusEvent {
chibios_rt::CounterSemaphore sem_;
public:
BusEvent(CanDriver& can_driver)
: sem_(0)
{
(void)can_driver;
}
bool wait(uavcan::MonotonicDuration duration);
void signal();
void signalFromInterrupt();
};
class Mutex {
chibios_rt::Mutex mtx_;
public:
void lock();
void unlock();
};
class MutexLocker {
Mutex& mutex_;
public:
MutexLocker(Mutex& mutex)
: mutex_(mutex)
{
mutex_.lock();
}
~MutexLocker()
{
mutex_.unlock();
}
};
}

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324
libraries/AP_HAL_ChibiOS/bxcan.hpp
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/*
* The MIT License (MIT)
*
* Copyright (c) 2014 Pavel Kirienko
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* Modified for Ardupilot by Siddharth Bharat Purohit
*/
#pragma once
#include <uavcan_stm32/build_config.hpp>
#include <uavcan/uavcan.hpp>
#include <stdint.h>
#ifndef UAVCAN_CPP_VERSION
# error UAVCAN_CPP_VERSION
#endif
#if UAVCAN_CPP_VERSION < UAVCAN_CPP11
// #undef'ed at the end of this file
# define constexpr const
#endif
namespace ChibiOS_CAN
{
namespace bxcan
{
struct TxMailboxType
{
volatile uint32_t TIR;
volatile uint32_t TDTR;
volatile uint32_t TDLR;
volatile uint32_t TDHR;
};
struct RxMailboxType
{
volatile uint32_t RIR;
volatile uint32_t RDTR;
volatile uint32_t RDLR;
volatile uint32_t RDHR;
};
struct FilterRegisterType
{
volatile uint32_t FR1;
volatile uint32_t FR2;
};
struct CanType
{
volatile uint32_t MCR; /*!< CAN master control register, Address offset: 0x00 */
volatile uint32_t MSR; /*!< CAN master status register, Address offset: 0x04 */
volatile uint32_t TSR; /*!< CAN transmit status register, Address offset: 0x08 */
volatile uint32_t RF0R; /*!< CAN receive FIFO 0 register, Address offset: 0x0C */
volatile uint32_t RF1R; /*!< CAN receive FIFO 1 register, Address offset: 0x10 */
volatile uint32_t IER; /*!< CAN interrupt enable register, Address offset: 0x14 */
volatile uint32_t ESR; /*!< CAN error status register, Address offset: 0x18 */
volatile uint32_t BTR; /*!< CAN bit timing register, Address offset: 0x1C */
uint32_t RESERVED0[88]; /*!< Reserved, 0x020 - 0x17F */
TxMailboxType TxMailbox[3]; /*!< CAN Tx MailBox, Address offset: 0x180 - 0x1AC */
RxMailboxType RxMailbox[2]; /*!< CAN FIFO MailBox, Address offset: 0x1B0 - 0x1CC */
uint32_t RESERVED1[12]; /*!< Reserved, 0x1D0 - 0x1FF */
volatile uint32_t FMR; /*!< CAN filter master register, Address offset: 0x200 */
volatile uint32_t FM1R; /*!< CAN filter mode register, Address offset: 0x204 */
uint32_t RESERVED2; /*!< Reserved, 0x208 */
volatile uint32_t FS1R; /*!< CAN filter scale register, Address offset: 0x20C */
uint32_t RESERVED3; /*!< Reserved, 0x210 */
volatile uint32_t FFA1R; /*!< CAN filter FIFO assignment register, Address offset: 0x214 */
uint32_t RESERVED4; /*!< Reserved, 0x218 */
volatile uint32_t FA1R; /*!< CAN filter activation register, Address offset: 0x21C */
uint32_t RESERVED5[8]; /*!< Reserved, 0x220-0x23F */
FilterRegisterType FilterRegister[28]; /*!< CAN Filter Register, Address offset: 0x240-0x31C */
};
/**
* CANx register sets
*/
CanType* const Can[UAVCAN_STM32_NUM_IFACES] =
{
reinterpret_cast<CanType*>(0x40006400)
#if UAVCAN_STM32_NUM_IFACES > 1
,
reinterpret_cast<CanType*>(0x40006800)
#endif
};
/* CAN master control register */
constexpr unsigned long MCR_INRQ = (1U << 0); /* Bit 0: Initialization Request */
constexpr unsigned long MCR_SLEEP = (1U << 1); /* Bit 1: Sleep Mode Request */
constexpr unsigned long MCR_TXFP = (1U << 2); /* Bit 2: Transmit FIFO Priority */
constexpr unsigned long MCR_RFLM = (1U << 3); /* Bit 3: Receive FIFO Locked Mode */
constexpr unsigned long MCR_NART = (1U << 4); /* Bit 4: No Automatic Retransmission */
constexpr unsigned long MCR_AWUM = (1U << 5); /* Bit 5: Automatic Wakeup Mode */
constexpr unsigned long MCR_ABOM = (1U << 6); /* Bit 6: Automatic Bus-Off Management */
constexpr unsigned long MCR_TTCM = (1U << 7); /* Bit 7: Time Triggered Communication Mode Enable */
constexpr unsigned long MCR_RESET = (1U << 15);/* Bit 15: bxCAN software master reset */
constexpr unsigned long MCR_DBF = (1U << 16);/* Bit 16: Debug freeze */
/* CAN master status register */
constexpr unsigned long MSR_INAK = (1U << 0); /* Bit 0: Initialization Acknowledge */
constexpr unsigned long MSR_SLAK = (1U << 1); /* Bit 1: Sleep Acknowledge */
constexpr unsigned long MSR_ERRI = (1U << 2); /* Bit 2: Error Interrupt */
constexpr unsigned long MSR_WKUI = (1U << 3); /* Bit 3: Wakeup Interrupt */
constexpr unsigned long MSR_SLAKI = (1U << 4); /* Bit 4: Sleep acknowledge interrupt */
constexpr unsigned long MSR_TXM = (1U << 8); /* Bit 8: Transmit Mode */
constexpr unsigned long MSR_RXM = (1U << 9); /* Bit 9: Receive Mode */
constexpr unsigned long MSR_SAMP = (1U << 10);/* Bit 10: Last Sample Point */
constexpr unsigned long MSR_RX = (1U << 11);/* Bit 11: CAN Rx Signal */
/* CAN transmit status register */
constexpr unsigned long TSR_RQCP0 = (1U << 0); /* Bit 0: Request Completed Mailbox 0 */
constexpr unsigned long TSR_TXOK0 = (1U << 1); /* Bit 1 : Transmission OK of Mailbox 0 */
constexpr unsigned long TSR_ALST0 = (1U << 2); /* Bit 2 : Arbitration Lost for Mailbox 0 */
constexpr unsigned long TSR_TERR0 = (1U << 3); /* Bit 3 : Transmission Error of Mailbox 0 */
constexpr unsigned long TSR_ABRQ0 = (1U << 7); /* Bit 7 : Abort Request for Mailbox 0 */
constexpr unsigned long TSR_RQCP1 = (1U << 8); /* Bit 8 : Request Completed Mailbox 1 */
constexpr unsigned long TSR_TXOK1 = (1U << 9); /* Bit 9 : Transmission OK of Mailbox 1 */
constexpr unsigned long TSR_ALST1 = (1U << 10);/* Bit 10 : Arbitration Lost for Mailbox 1 */
constexpr unsigned long TSR_TERR1 = (1U << 11);/* Bit 11 : Transmission Error of Mailbox 1 */
constexpr unsigned long TSR_ABRQ1 = (1U << 15);/* Bit 15 : Abort Request for Mailbox 1 */
constexpr unsigned long TSR_RQCP2 = (1U << 16);/* Bit 16 : Request Completed Mailbox 2 */
constexpr unsigned long TSR_TXOK2 = (1U << 17);/* Bit 17 : Transmission OK of Mailbox 2 */
constexpr unsigned long TSR_ALST2 = (1U << 18);/* Bit 18: Arbitration Lost for Mailbox 2 */
constexpr unsigned long TSR_TERR2 = (1U << 19);/* Bit 19: Transmission Error of Mailbox 2 */
constexpr unsigned long TSR_ABRQ2 = (1U << 23);/* Bit 23: Abort Request for Mailbox 2 */
constexpr unsigned long TSR_CODE_SHIFT = (24U); /* Bits 25-24: Mailbox Code */
constexpr unsigned long TSR_CODE_MASK = (3U << TSR_CODE_SHIFT);
constexpr unsigned long TSR_TME0 = (1U << 26);/* Bit 26: Transmit Mailbox 0 Empty */
constexpr unsigned long TSR_TME1 = (1U << 27);/* Bit 27: Transmit Mailbox 1 Empty */
constexpr unsigned long TSR_TME2 = (1U << 28);/* Bit 28: Transmit Mailbox 2 Empty */
constexpr unsigned long TSR_LOW0 = (1U << 29);/* Bit 29: Lowest Priority Flag for Mailbox 0 */
constexpr unsigned long TSR_LOW1 = (1U << 30);/* Bit 30: Lowest Priority Flag for Mailbox 1 */
constexpr unsigned long TSR_LOW2 = (1U << 31);/* Bit 31: Lowest Priority Flag for Mailbox 2 */
/* CAN receive FIFO 0/1 registers */
constexpr unsigned long RFR_FMP_SHIFT = (0U); /* Bits 1-0: FIFO Message Pending */
constexpr unsigned long RFR_FMP_MASK = (3U << RFR_FMP_SHIFT);
constexpr unsigned long RFR_FULL = (1U << 3); /* Bit 3: FIFO 0 Full */
constexpr unsigned long RFR_FOVR = (1U << 4); /* Bit 4: FIFO 0 Overrun */
constexpr unsigned long RFR_RFOM = (1U << 5); /* Bit 5: Release FIFO 0 Output Mailbox */
/* CAN interrupt enable register */
constexpr unsigned long IER_TMEIE = (1U << 0); /* Bit 0: Transmit Mailbox Empty Interrupt Enable */
constexpr unsigned long IER_FMPIE0 = (1U << 1); /* Bit 1: FIFO Message Pending Interrupt Enable */
constexpr unsigned long IER_FFIE0 = (1U << 2); /* Bit 2: FIFO Full Interrupt Enable */
constexpr unsigned long IER_FOVIE0 = (1U << 3); /* Bit 3: FIFO Overrun Interrupt Enable */
constexpr unsigned long IER_FMPIE1 = (1U << 4); /* Bit 4: FIFO Message Pending Interrupt Enable */
constexpr unsigned long IER_FFIE1 = (1U << 5); /* Bit 5: FIFO Full Interrupt Enable */
constexpr unsigned long IER_FOVIE1 = (1U << 6); /* Bit 6: FIFO Overrun Interrupt Enable */
constexpr unsigned long IER_EWGIE = (1U << 8); /* Bit 8: Error Warning Interrupt Enable */
constexpr unsigned long IER_EPVIE = (1U << 9); /* Bit 9: Error Passive Interrupt Enable */
constexpr unsigned long IER_BOFIE = (1U << 10);/* Bit 10: Bus-Off Interrupt Enable */
constexpr unsigned long IER_LECIE = (1U << 11);/* Bit 11: Last Error Code Interrupt Enable */
constexpr unsigned long IER_ERRIE = (1U << 15);/* Bit 15: Error Interrupt Enable */
constexpr unsigned long IER_WKUIE = (1U << 16);/* Bit 16: Wakeup Interrupt Enable */
constexpr unsigned long IER_SLKIE = (1U << 17);/* Bit 17: Sleep Interrupt Enable */
/* CAN error status register */
constexpr unsigned long ESR_EWGF = (1U << 0); /* Bit 0: Error Warning Flag */
constexpr unsigned long ESR_EPVF = (1U << 1); /* Bit 1: Error Passive Flag */
constexpr unsigned long ESR_BOFF = (1U << 2); /* Bit 2: Bus-Off Flag */
constexpr unsigned long ESR_LEC_SHIFT = (4U); /* Bits 6-4: Last Error Code */
constexpr unsigned long ESR_LEC_MASK = (7U << ESR_LEC_SHIFT);
constexpr unsigned long ESR_NOERROR = (0U << ESR_LEC_SHIFT);/* 000: No Error */
constexpr unsigned long ESR_STUFFERROR = (1U << ESR_LEC_SHIFT);/* 001: Stuff Error */
constexpr unsigned long ESR_FORMERROR = (2U << ESR_LEC_SHIFT);/* 010: Form Error */
constexpr unsigned long ESR_ACKERROR = (3U << ESR_LEC_SHIFT);/* 011: Acknowledgment Error */
constexpr unsigned long ESR_BRECERROR = (4U << ESR_LEC_SHIFT);/* 100: Bit recessive Error */
constexpr unsigned long ESR_BDOMERROR = (5U << ESR_LEC_SHIFT);/* 101: Bit dominant Error */
constexpr unsigned long ESR_CRCERRPR = (6U << ESR_LEC_SHIFT);/* 110: CRC Error */
constexpr unsigned long ESR_SWERROR = (7U << ESR_LEC_SHIFT);/* 111: Set by software */
constexpr unsigned long ESR_TEC_SHIFT = (16U); /* Bits 23-16: LS byte of the 9-bit Transmit Error Counter */
constexpr unsigned long ESR_TEC_MASK = (0xFFU << ESR_TEC_SHIFT);
constexpr unsigned long ESR_REC_SHIFT = (24U); /* Bits 31-24: Receive Error Counter */
constexpr unsigned long ESR_REC_MASK = (0xFFU << ESR_REC_SHIFT);
/* CAN bit timing register */
constexpr unsigned long BTR_BRP_SHIFT = (0U); /* Bits 9-0: Baud Rate Prescaler */
constexpr unsigned long BTR_BRP_MASK = (0x03FFU << BTR_BRP_SHIFT);
constexpr unsigned long BTR_TS1_SHIFT = (16U); /* Bits 19-16: Time Segment 1 */
constexpr unsigned long BTR_TS1_MASK = (0x0FU << BTR_TS1_SHIFT);
constexpr unsigned long BTR_TS2_SHIFT = (20U); /* Bits 22-20: Time Segment 2 */
constexpr unsigned long BTR_TS2_MASK = (7U << BTR_TS2_SHIFT);
constexpr unsigned long BTR_SJW_SHIFT = (24U); /* Bits 25-24: Resynchronization Jump Width */
constexpr unsigned long BTR_SJW_MASK = (3U << BTR_SJW_SHIFT);
constexpr unsigned long BTR_LBKM = (1U << 30);/* Bit 30: Loop Back Mode (Debug);*/
constexpr unsigned long BTR_SILM = (1U << 31);/* Bit 31: Silent Mode (Debug);*/
constexpr unsigned long BTR_BRP_MAX = (1024U); /* Maximum BTR value (without decrement);*/
constexpr unsigned long BTR_TSEG1_MAX = (16U); /* Maximum TSEG1 value (without decrement);*/
constexpr unsigned long BTR_TSEG2_MAX = (8U); /* Maximum TSEG2 value (without decrement);*/
/* TX mailbox identifier register */
constexpr unsigned long TIR_TXRQ = (1U << 0); /* Bit 0: Transmit Mailbox Request */
constexpr unsigned long TIR_RTR = (1U << 1); /* Bit 1: Remote Transmission Request */
constexpr unsigned long TIR_IDE = (1U << 2); /* Bit 2: Identifier Extension */
constexpr unsigned long TIR_EXID_SHIFT = (3U); /* Bit 3-31: Extended Identifier */
constexpr unsigned long TIR_EXID_MASK = (0x1FFFFFFFU << TIR_EXID_SHIFT);
constexpr unsigned long TIR_STID_SHIFT = (21U); /* Bits 21-31: Standard Identifier */
constexpr unsigned long TIR_STID_MASK = (0x07FFU << TIR_STID_SHIFT);
/* Mailbox data length control and time stamp register */
constexpr unsigned long TDTR_DLC_SHIFT = (0U); /* Bits 3:0: Data Length Code */
constexpr unsigned long TDTR_DLC_MASK = (0x0FU << TDTR_DLC_SHIFT);
constexpr unsigned long TDTR_TGT = (1U << 8); /* Bit 8: Transmit Global Time */
constexpr unsigned long TDTR_TIME_SHIFT = (16U); /* Bits 31:16: Message Time Stamp */
constexpr unsigned long TDTR_TIME_MASK = (0xFFFFU << TDTR_TIME_SHIFT);
/* Mailbox data low register */
constexpr unsigned long TDLR_DATA0_SHIFT = (0U); /* Bits 7-0: Data Byte 0 */
constexpr unsigned long TDLR_DATA0_MASK = (0xFFU << TDLR_DATA0_SHIFT);
constexpr unsigned long TDLR_DATA1_SHIFT = (8U); /* Bits 15-8: Data Byte 1 */
constexpr unsigned long TDLR_DATA1_MASK = (0xFFU << TDLR_DATA1_SHIFT);
constexpr unsigned long TDLR_DATA2_SHIFT = (16U); /* Bits 23-16: Data Byte 2 */
constexpr unsigned long TDLR_DATA2_MASK = (0xFFU << TDLR_DATA2_SHIFT);
constexpr unsigned long TDLR_DATA3_SHIFT = (24U); /* Bits 31-24: Data Byte 3 */
constexpr unsigned long TDLR_DATA3_MASK = (0xFFU << TDLR_DATA3_SHIFT);
/* Mailbox data high register */
constexpr unsigned long TDHR_DATA4_SHIFT = (0U); /* Bits 7-0: Data Byte 4 */
constexpr unsigned long TDHR_DATA4_MASK = (0xFFU << TDHR_DATA4_SHIFT);
constexpr unsigned long TDHR_DATA5_SHIFT = (8U); /* Bits 15-8: Data Byte 5 */
constexpr unsigned long TDHR_DATA5_MASK = (0xFFU << TDHR_DATA5_SHIFT);
constexpr unsigned long TDHR_DATA6_SHIFT = (16U); /* Bits 23-16: Data Byte 6 */
constexpr unsigned long TDHR_DATA6_MASK = (0xFFU << TDHR_DATA6_SHIFT);
constexpr unsigned long TDHR_DATA7_SHIFT = (24U); /* Bits 31-24: Data Byte 7 */
constexpr unsigned long TDHR_DATA7_MASK = (0xFFU << TDHR_DATA7_SHIFT);
/* Rx FIFO mailbox identifier register */
constexpr unsigned long RIR_RTR = (1U << 1); /* Bit 1: Remote Transmission Request */
constexpr unsigned long RIR_IDE = (1U << 2); /* Bit 2: Identifier Extension */
constexpr unsigned long RIR_EXID_SHIFT = (3U); /* Bit 3-31: Extended Identifier */
constexpr unsigned long RIR_EXID_MASK = (0x1FFFFFFFU << RIR_EXID_SHIFT);
constexpr unsigned long RIR_STID_SHIFT = (21U); /* Bits 21-31: Standard Identifier */
constexpr unsigned long RIR_STID_MASK = (0x07FFU << RIR_STID_SHIFT);
/* Receive FIFO mailbox data length control and time stamp register */
constexpr unsigned long RDTR_DLC_SHIFT = (0U); /* Bits 3:0: Data Length Code */
constexpr unsigned long RDTR_DLC_MASK = (0x0FU << RDTR_DLC_SHIFT);
constexpr unsigned long RDTR_FM_SHIFT = (8U); /* Bits 15-8: Filter Match Index */
constexpr unsigned long RDTR_FM_MASK = (0xFFU << RDTR_FM_SHIFT);
constexpr unsigned long RDTR_TIME_SHIFT = (16U); /* Bits 31:16: Message Time Stamp */
constexpr unsigned long RDTR_TIME_MASK = (0xFFFFU << RDTR_TIME_SHIFT);
/* Receive FIFO mailbox data low register */
constexpr unsigned long RDLR_DATA0_SHIFT = (0U); /* Bits 7-0: Data Byte 0 */
constexpr unsigned long RDLR_DATA0_MASK = (0xFFU << RDLR_DATA0_SHIFT);
constexpr unsigned long RDLR_DATA1_SHIFT = (8U); /* Bits 15-8: Data Byte 1 */
constexpr unsigned long RDLR_DATA1_MASK = (0xFFU << RDLR_DATA1_SHIFT);
constexpr unsigned long RDLR_DATA2_SHIFT = (16U); /* Bits 23-16: Data Byte 2 */
constexpr unsigned long RDLR_DATA2_MASK = (0xFFU << RDLR_DATA2_SHIFT);
constexpr unsigned long RDLR_DATA3_SHIFT = (24U); /* Bits 31-24: Data Byte 3 */
constexpr unsigned long RDLR_DATA3_MASK = (0xFFU << RDLR_DATA3_SHIFT);
/* Receive FIFO mailbox data high register */
constexpr unsigned long RDHR_DATA4_SHIFT = (0U); /* Bits 7-0: Data Byte 4 */
constexpr unsigned long RDHR_DATA4_MASK = (0xFFU << RDHR_DATA4_SHIFT);
constexpr unsigned long RDHR_DATA5_SHIFT = (8U); /* Bits 15-8: Data Byte 5 */
constexpr unsigned long RDHR_DATA5_MASK = (0xFFU << RDHR_DATA5_SHIFT);
constexpr unsigned long RDHR_DATA6_SHIFT = (16U); /* Bits 23-16: Data Byte 6 */
constexpr unsigned long RDHR_DATA6_MASK = (0xFFU << RDHR_DATA6_SHIFT);
constexpr unsigned long RDHR_DATA7_SHIFT = (24U); /* Bits 31-24: Data Byte 7 */
constexpr unsigned long RDHR_DATA7_MASK = (0xFFU << RDHR_DATA7_SHIFT);
/* CAN filter master register */
constexpr unsigned long FMR_FINIT = (1U << 0); /* Bit 0: Filter Init Mode */
}
}
#if UAVCAN_CPP_VERSION < UAVCAN_CPP11
# undef constexpr
#endif
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