/*
* Copyright (C) 2020 Siddharth B Purohit
*
* 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 .
*/
#pragma once
#include
#include "AP_HAL_Namespace.h"
#include "AP_HAL_Boards.h"
class ExpandingString;
/**
* Raw CAN frame, as passed to/from the CAN driver.
*/
struct AP_HAL::CANFrame {
static const uint32_t MaskStdID = 0x000007FFU;
static const uint32_t MaskExtID = 0x1FFFFFFFU;
static const uint32_t FlagEFF = 1U << 31; ///< Extended frame format
static const uint32_t FlagRTR = 1U << 30; ///< Remote transmission request
static const uint32_t FlagERR = 1U << 29; ///< Error frame
#if HAL_CANFD_SUPPORTED
static const uint8_t NonFDCANMaxDataLen = 8;
static const uint8_t MaxDataLen = 64;
#else
static const uint8_t NonFDCANMaxDataLen = 8;
static const uint8_t MaxDataLen = 8;
#endif
uint32_t id; ///< CAN ID with flags (above)
union {
uint8_t data[MaxDataLen];
uint32_t data_32[MaxDataLen/4];
};
uint8_t dlc; ///< Data Length Code
bool canfd;
CANFrame() :
id(0),
dlc(0),
canfd(false)
{
memset(data,0, MaxDataLen);
}
CANFrame(uint32_t can_id, const uint8_t* can_data, uint8_t data_len, bool canfd_frame = false);
bool operator!=(const CANFrame& rhs) const
{
return !operator==(rhs);
}
bool operator==(const CANFrame& rhs) const
{
return (id == rhs.id) && (dlc == rhs.dlc) && (memcmp(data, rhs.data, dlc) == 0);
}
bool isExtended() const
{
return id & FlagEFF;
}
bool isRemoteTransmissionRequest() const
{
return id & FlagRTR;
}
bool isErrorFrame() const
{
return id & FlagERR;
}
void setCanFD(bool canfd_frame)
{
canfd = canfd_frame;
}
bool isCanFDFrame() const
{
return canfd;
}
static uint8_t dlcToDataLength(uint8_t dlc);
static uint8_t dataLengthToDlc(uint8_t data_length);
/**
* CAN frame arbitration rules, particularly STD vs EXT:
* Marco Di Natale - "Understanding and using the Controller Area Network"
* http://www6.in.tum.de/pub/Main/TeachingWs2013MSE/CANbus.pdf
*/
bool priorityHigherThan(const CANFrame& rhs) const;
bool priorityLowerThan(const CANFrame& rhs) const
{
return rhs.priorityHigherThan(*this);
}
};
class AP_HAL::CANIface
{
public:
enum OperatingMode {
PassThroughMode,
NormalMode,
SilentMode,
FilteredMode
};
OperatingMode get_operating_mode() { return mode_; }
typedef uint16_t CanIOFlags;
static const CanIOFlags Loopback = 1;
static const CanIOFlags AbortOnError = 2;
static const CanIOFlags IsMAVCAN = 4;
// Single Rx Frame with related info
struct CanRxItem {
uint64_t timestamp_us = 0;
CanIOFlags flags = 0;
CANFrame frame;
};
// Single Tx Frame with related info
struct CanTxItem {
uint64_t deadline = 0;
CANFrame frame;
uint32_t index = 0;
bool loopback:1;
bool abort_on_error:1;
bool aborted:1;
bool pushed:1;
bool setup:1;
bool canfd_frame:1;
bool operator<(const CanTxItem& rhs) const
{
if (frame.priorityLowerThan(rhs.frame)) {
return true;
}
if (frame.priorityHigherThan(rhs.frame)) {
return false;
}
return index > rhs.index;
}
};
struct CanFilterConfig {
uint32_t id = 0;
uint32_t mask = 0;
bool operator==(const CanFilterConfig& rhs) const
{
return rhs.id == id && rhs.mask == mask;
}
};
virtual bool init(const uint32_t bitrate, const uint32_t fdbitrate, const OperatingMode mode) {
return init(bitrate, mode);
}
// Initialise the interface with hardware configuration required to start comms.
virtual bool init(const uint32_t bitrate, const OperatingMode mode) = 0;
// Select method to notify user of Rx and Tx buffer state.
// fill read select with true if a frame is available in Rx buffer
// fill write select with true if space is available in Tx buffer
// Also waits for Rx or Tx event depending on read_select and write_select values
// passed to the method until timeout. Returns true if the Rx/Tx even occured
// while waiting, false if timedout
virtual bool select(bool &read_select, bool &write_select,
const CANFrame* const pending_tx, uint64_t timeout)
{
return false;
}
virtual bool set_event_handle(EventHandle* evt_handle)
{
return true;
}
// Put frame in queue to be sent, return negative if error occured, 0 if no space, and 1 if successful
// must be called on child class
virtual int16_t send(const CANFrame& frame, uint64_t tx_deadline, CanIOFlags flags);
// Non blocking receive frame that pops the frames received inside the buffer, return negative if error occured,
// 0 if no frame available, 1 if successful
// must be called on child class
virtual int16_t receive(CANFrame& out_frame, uint64_t& out_ts_monotonic, CanIOFlags& out_flags);
//Configure filters so as to reject frames that are not going to be handled by us
virtual bool configureFilters(const CanFilterConfig* filter_configs, uint16_t num_configs)
{
return 0;
}
//Number of available hardware filters.
virtual uint16_t getNumFilters() const
{
return 0;
}
//Return Total Error Count generated so far
virtual uint32_t getErrorCount() const
{
return 0;
}
//Get status info of the interface
virtual void get_stats(ExpandingString &str) {}
// return true if busoff was detected and not cleared
virtual bool is_busoff() const
{
return false;
}
// Methods to be used only while testing CANBus
// Not for normal operation or use case
virtual void flush_tx() {}
virtual void clear_rx() {}
// return true if init was called and successful
virtual bool is_initialized() const = 0;
FUNCTOR_TYPEDEF(FrameCb, void, uint8_t, const AP_HAL::CANFrame &);
// register a frame callback function
virtual bool register_frame_callback(FrameCb cb);
protected:
virtual int8_t get_iface_num() const = 0;
virtual bool add_to_rx_queue(const CanRxItem &rx_item) = 0;
FrameCb frame_callback;
uint32_t bitrate_;
OperatingMode mode_;
};