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/*
* 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/>.
*
* Author : Siddharth Bharat Purohit
* Referenced from implementation by Pavel Kirienko < pavel . kirienko @ zubax . com >
* for Zubax Babel
*/
# include "AP_SLCANIface.h"
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# if AP_CAN_SLCAN_ENABLED
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# include <AP_HAL/AP_HAL.h>
# include <AP_Common/AP_Common.h>
# include "AP_CANManager.h"
# include <AP_SerialManager/AP_SerialManager.h>
# include <stdio.h>
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# include <AP_Vehicle/AP_Vehicle_Type.h>
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# include <GCS_MAVLink/GCS.h>
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# define LOG_TAG "SLCAN"
extern const AP_HAL : : HAL & hal ;
const AP_Param : : GroupInfo SLCAN : : CANIface : : var_info [ ] = {
// @Param: CPORT
// @DisplayName: SLCAN Route
// @Description: CAN Interface ID to be routed to SLCAN, 0 means no routing
// @Values: 0:Disabled,1:First interface,2:Second interface
// @User: Standard
// @RebootRequired: True
AP_GROUPINFO ( " CPORT " , 1 , SLCAN : : CANIface , _slcan_can_port , 0 ) ,
// @Param: SERNUM
// @DisplayName: SLCAN Serial Port
// @Description: Serial Port ID to be used for temporary SLCAN iface, -1 means no temporary serial. This parameter is automatically reset on reboot or on timeout. See CAN_SLCAN_TIMOUT for timeout details
// @Values: -1:Disabled,0:Serial0,1:Serial1,2:Serial2,3:Serial3,4:Serial4,5:Serial5,6:Serial6
// @User: Standard
AP_GROUPINFO ( " SERNUM " , 2 , SLCAN : : CANIface , _slcan_ser_port , - 1 ) ,
// @Param: TIMOUT
// @DisplayName: SLCAN Timeout
// @Description: Duration of inactivity after which SLCAN is switched back to original driver in seconds.
// @Range: 0 127
// @User: Standard
AP_GROUPINFO ( " TIMOUT " , 3 , SLCAN : : CANIface , _slcan_timeout , 0 ) ,
// @Param: SDELAY
// @DisplayName: SLCAN Start Delay
// @Description: Duration after which slcan starts after setting SERNUM in seconds.
// @Range: 0 127
// @User: Standard
AP_GROUPINFO ( " SDELAY " , 4 , SLCAN : : CANIface , _slcan_start_delay , 1 ) ,
AP_GROUPEND
} ;
////////Helper Methods//////////
static bool hex2nibble_error ;
static uint8_t nibble2hex ( uint8_t x )
{
// Allocating in RAM because it's faster
static uint8_t ConversionTable [ ] = {
' 0 ' , ' 1 ' , ' 2 ' , ' 3 ' , ' 4 ' , ' 5 ' , ' 6 ' , ' 7 ' , ' 8 ' , ' 9 ' , ' A ' , ' B ' , ' C ' , ' D ' , ' E ' , ' F '
} ;
return ConversionTable [ x & 0x0F ] ;
}
static uint8_t hex2nibble ( char c )
{
// Must go into RAM, not flash, because flash is slow
static uint8_t NumConversionTable [ ] = {
0 , 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9
} ;
static uint8_t AlphaConversionTable [ ] = {
10 , 11 , 12 , 13 , 14 , 15
} ;
uint8_t out = 255 ;
if ( c > = ' 0 ' & & c < = ' 9 ' ) {
out = NumConversionTable [ int ( c ) - int ( ' 0 ' ) ] ;
} else if ( c > = ' a ' & & c < = ' f ' ) {
out = AlphaConversionTable [ int ( c ) - int ( ' a ' ) ] ;
} else if ( c > = ' A ' & & c < = ' F ' ) {
out = AlphaConversionTable [ int ( c ) - int ( ' A ' ) ] ;
}
if ( out = = 255 ) {
hex2nibble_error = true ;
}
return out ;
}
bool SLCAN : : CANIface : : push_Frame ( AP_HAL : : CANFrame & frame )
{
AP_HAL : : CANIface : : CanRxItem frm ;
frm . frame = frame ;
frm . flags = 0 ;
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frm . timestamp_us = AP_HAL : : micros64 ( ) ;
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return add_to_rx_queue ( frm ) ;
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}
/**
* General frame format :
* < type > < id > < dlc > < data >
* The emitting functions below are highly optimized for speed .
*/
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bool SLCAN : : CANIface : : handle_FrameDataExt ( const char * cmd , bool canfd )
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{
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AP_HAL : : CANFrame f { } ;
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hex2nibble_error = false ;
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f . canfd = canfd ;
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f . id = f . FlagEFF |
( hex2nibble ( cmd [ 1 ] ) < < 28 ) |
( hex2nibble ( cmd [ 2 ] ) < < 24 ) |
( hex2nibble ( cmd [ 3 ] ) < < 20 ) |
( hex2nibble ( cmd [ 4 ] ) < < 16 ) |
( hex2nibble ( cmd [ 5 ] ) < < 12 ) |
( hex2nibble ( cmd [ 6 ] ) < < 8 ) |
( hex2nibble ( cmd [ 7 ] ) < < 4 ) |
( hex2nibble ( cmd [ 8 ] ) < < 0 ) ;
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f . dlc = hex2nibble ( cmd [ 9 ] ) ;
if ( hex2nibble_error | | f . dlc > ( canfd ? 15 : 8 ) ) {
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return false ;
}
{
const char * p = & cmd [ 10 ] ;
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const uint8_t dlen = AP_HAL : : CANFrame : : dlcToDataLength ( f . dlc ) ;
for ( unsigned i = 0 ; i < dlen ; i + + ) {
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f . data [ i ] = ( hex2nibble ( * p ) < < 4 ) | hex2nibble ( * ( p + 1 ) ) ;
p + = 2 ;
}
}
if ( hex2nibble_error ) {
return false ;
}
return push_Frame ( f ) ;
}
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/**
* General frame format :
* < type > < id > < dlc > < data >
* The emitting functions below are highly optimized for speed .
*/
bool SLCAN : : CANIface : : handle_FDFrameDataExt ( const char * cmd )
{
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# if HAL_CANFD_SUPPORTED
return false ;
# else
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AP_HAL : : CANFrame f { } ;
hex2nibble_error = false ;
f . canfd = true ;
f . id = f . FlagEFF |
( hex2nibble ( cmd [ 1 ] ) < < 28 ) |
( hex2nibble ( cmd [ 2 ] ) < < 24 ) |
( hex2nibble ( cmd [ 3 ] ) < < 20 ) |
( hex2nibble ( cmd [ 4 ] ) < < 16 ) |
( hex2nibble ( cmd [ 5 ] ) < < 12 ) |
( hex2nibble ( cmd [ 6 ] ) < < 8 ) |
( hex2nibble ( cmd [ 7 ] ) < < 4 ) |
( hex2nibble ( cmd [ 8 ] ) < < 0 ) ;
f . dlc = hex2nibble ( cmd [ 9 ] ) ;
if ( f . dlc > AP_HAL : : CANFrame : : dataLengthToDlc ( AP_HAL : : CANFrame : : MaxDataLen ) ) {
return false ;
}
{
const char * p = & cmd [ 10 ] ;
for ( unsigned i = 0 ; i < AP_HAL : : CANFrame : : dlcToDataLength ( f . dlc ) ; i + + ) {
f . data [ i ] = ( hex2nibble ( * p ) < < 4 ) | hex2nibble ( * ( p + 1 ) ) ;
p + = 2 ;
}
}
if ( hex2nibble_error ) {
return false ;
}
return push_Frame ( f ) ;
# endif //#if HAL_CANFD_SUPPORTED
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}
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bool SLCAN : : CANIface : : handle_FrameDataStd ( const char * cmd )
{
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AP_HAL : : CANFrame f { } ;
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hex2nibble_error = false ;
f . id = ( hex2nibble ( cmd [ 1 ] ) < < 8 ) |
( hex2nibble ( cmd [ 2 ] ) < < 4 ) |
( hex2nibble ( cmd [ 3 ] ) < < 0 ) ;
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if ( cmd [ 4 ] < ' 0 ' | | cmd [ 4 ] > ( ' 0 ' + AP_HAL : : CANFrame : : NonFDCANMaxDataLen ) ) {
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return false ;
}
f . dlc = cmd [ 4 ] - ' 0 ' ;
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if ( f . dlc > AP_HAL : : CANFrame : : NonFDCANMaxDataLen ) {
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return false ;
}
{
const char * p = & cmd [ 5 ] ;
for ( unsigned i = 0 ; i < f . dlc ; i + + ) {
f . data [ i ] = ( hex2nibble ( * p ) < < 4 ) | hex2nibble ( * ( p + 1 ) ) ;
p + = 2 ;
}
}
if ( hex2nibble_error ) {
return false ;
}
return push_Frame ( f ) ;
}
bool SLCAN : : CANIface : : handle_FrameRTRExt ( const char * cmd )
{
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AP_HAL : : CANFrame f { } ;
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hex2nibble_error = false ;
f . id = f . FlagEFF | f . FlagRTR |
( hex2nibble ( cmd [ 1 ] ) < < 28 ) |
( hex2nibble ( cmd [ 2 ] ) < < 24 ) |
( hex2nibble ( cmd [ 3 ] ) < < 20 ) |
( hex2nibble ( cmd [ 4 ] ) < < 16 ) |
( hex2nibble ( cmd [ 5 ] ) < < 12 ) |
( hex2nibble ( cmd [ 6 ] ) < < 8 ) |
( hex2nibble ( cmd [ 7 ] ) < < 4 ) |
( hex2nibble ( cmd [ 8 ] ) < < 0 ) ;
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if ( cmd [ 9 ] < ' 0 ' | | cmd [ 9 ] > ( ' 0 ' + AP_HAL : : CANFrame : : NonFDCANMaxDataLen ) ) {
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return false ;
}
f . dlc = cmd [ 9 ] - ' 0 ' ;
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if ( f . dlc > AP_HAL : : CANFrame : : NonFDCANMaxDataLen ) {
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return false ;
}
if ( hex2nibble_error ) {
return false ;
}
return push_Frame ( f ) ;
}
bool SLCAN : : CANIface : : handle_FrameRTRStd ( const char * cmd )
{
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AP_HAL : : CANFrame f { } ;
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hex2nibble_error = false ;
f . id = f . FlagRTR |
( hex2nibble ( cmd [ 1 ] ) < < 8 ) |
( hex2nibble ( cmd [ 2 ] ) < < 4 ) |
( hex2nibble ( cmd [ 3 ] ) < < 0 ) ;
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if ( cmd [ 4 ] < ' 0 ' | | cmd [ 4 ] > ( ' 0 ' + AP_HAL : : CANFrame : : NonFDCANMaxDataLen ) ) {
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return false ;
}
f . dlc = cmd [ 4 ] - ' 0 ' ;
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if ( f . dlc < = AP_HAL : : CANFrame : : NonFDCANMaxDataLen ) {
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return false ;
}
if ( hex2nibble_error ) {
return false ;
}
return push_Frame ( f ) ;
}
static inline const char * getASCIIStatusCode ( bool status )
{
return status ? " \r " : " \a " ;
}
bool SLCAN : : CANIface : : init_passthrough ( uint8_t i )
{
// we setup undelying can iface here which we use for passthrough
if ( initialized_ | |
_slcan_can_port < = 0 | |
_slcan_can_port ! = i + 1 ) {
return false ;
}
_can_iface = hal . can [ i ] ;
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_iface_num = _slcan_can_port - 1 ;
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_prev_ser_port = - 1 ;
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# if HAL_CANMANAGER_ENABLED
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AP : : can ( ) . log_text ( AP_CANManager : : LOG_INFO , LOG_TAG , " Setting SLCAN Passthrough for CAN%d \n " , _slcan_can_port - 1 ) ;
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# endif
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return true ;
}
/**
* General frame format :
* < type > < id > < dlc > < data > [ timestamp msec ] [ flags ]
* Types :
* R - RTR extended
* r - RTR standard
* T - Data extended
* t - Data standard
* Flags :
* L - this frame is a loopback frame ; timestamp field contains TX timestamp
*/
int16_t SLCAN : : CANIface : : reportFrame ( const AP_HAL : : CANFrame & frame , uint64_t timestamp_usec )
{
if ( _port = = nullptr ) {
return - 1 ;
}
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# if HAL_CANFD_SUPPORTED
constexpr unsigned SLCANMaxFrameSize = 200 ;
# else
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constexpr unsigned SLCANMaxFrameSize = 40 ;
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# endif
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uint8_t buffer [ SLCANMaxFrameSize ] = { ' \0 ' } ;
uint8_t * p = & buffer [ 0 ] ;
/*
* Frame type
*/
if ( frame . isRemoteTransmissionRequest ( ) ) {
* p + + = frame . isExtended ( ) ? ' R ' : ' r ' ;
} else if ( frame . isErrorFrame ( ) ) {
return - 1 ; // Not supported
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}
# if HAL_CANFD_SUPPORTED
else if ( frame . canfd ) {
* p + + = frame . isExtended ( ) ? ' D ' : ' d ' ;
}
# endif
else {
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* p + + = frame . isExtended ( ) ? ' T ' : ' t ' ;
}
/*
* ID
*/
{
const uint32_t id = frame . id & frame . MaskExtID ;
if ( frame . isExtended ( ) ) {
* p + + = nibble2hex ( id > > 28 ) ;
* p + + = nibble2hex ( id > > 24 ) ;
* p + + = nibble2hex ( id > > 20 ) ;
* p + + = nibble2hex ( id > > 16 ) ;
* p + + = nibble2hex ( id > > 12 ) ;
}
* p + + = nibble2hex ( id > > 8 ) ;
* p + + = nibble2hex ( id > > 4 ) ;
* p + + = nibble2hex ( id > > 0 ) ;
}
/*
* DLC
*/
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* p + + = nibble2hex ( frame . dlc ) ;
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/*
* Data
*/
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for ( unsigned i = 0 ; i < AP_HAL : : CANFrame : : dlcToDataLength ( frame . dlc ) ; i + + ) {
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const uint8_t byte = frame . data [ i ] ;
* p + + = nibble2hex ( byte > > 4 ) ;
* p + + = nibble2hex ( byte ) ;
}
/*
* Timestamp
*/
{
// SLCAN format - [0, 60000) milliseconds
const auto slcan_timestamp = uint16_t ( timestamp_usec / 1000U ) ;
* p + + = nibble2hex ( slcan_timestamp > > 12 ) ;
* p + + = nibble2hex ( slcan_timestamp > > 8 ) ;
* p + + = nibble2hex ( slcan_timestamp > > 4 ) ;
* p + + = nibble2hex ( slcan_timestamp > > 0 ) ;
}
/*
* Finalization
*/
* p + + = ' \r ' ;
const auto frame_size = unsigned ( p - & buffer [ 0 ] ) ;
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if ( _port - > txspace ( ) < frame_size ) {
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return 0 ;
}
//Write to Serial
if ( ! _port - > write_locked ( & buffer [ 0 ] , frame_size , _serial_lock_key ) ) {
return 0 ;
}
return 1 ;
}
//Accepts command string, returns response string or nullptr if no response is needed.
const char * SLCAN : : CANIface : : processCommand ( char * cmd )
{
if ( _port = = nullptr ) {
return nullptr ;
}
/*
* High - traffic SLCAN commands go first
*/
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if ( cmd [ 0 ] = = ' T ' | | cmd [ 0 ] = = ' D ' ) {
return handle_FrameDataExt ( cmd , cmd [ 0 ] = = ' D ' ) ? " Z \r " : " \a " ;
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} else if ( cmd [ 0 ] = = ' t ' ) {
return handle_FrameDataStd ( cmd ) ? " z \r " : " \a " ;
} else if ( cmd [ 0 ] = = ' R ' ) {
return handle_FrameRTRExt ( cmd ) ? " Z \r " : " \a " ;
} else if ( cmd [ 0 ] = = ' r ' & & cmd [ 1 ] < = ' 9 ' ) { // The second condition is needed to avoid greedy matching
// See long commands below
return handle_FrameRTRStd ( cmd ) ? " z \r " : " \a " ;
}
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# if HAL_CANFD_SUPPORTED
else if ( cmd [ 0 ] = = ' D ' ) {
return handle_FDFrameDataExt ( cmd ) ? " Z \r " : " \a " ;
}
# endif
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uint8_t resp_bytes [ 40 ] ;
uint16_t resp_len ;
/*
* Regular SLCAN commands
*/
switch ( cmd [ 0 ] ) {
case ' S ' : // Set CAN bitrate
case ' O ' : // Open CAN in normal mode
case ' L ' : // Open CAN in listen-only mode
case ' l ' : // Open CAN with loopback enabled
case ' C ' : // Close CAN
case ' M ' : // Set CAN acceptance filter ID
case ' m ' : // Set CAN acceptance filter mask
case ' U ' : // Set UART baud rate, see http://www.can232.com/docs/can232_v3.pdf
case ' Z ' : { // Enable/disable RX and loopback timestamping
return getASCIIStatusCode ( true ) ; // Returning success for compatibility reasons
}
case ' F ' : { // Get status flags
resp_len = snprintf ( ( char * ) resp_bytes , sizeof ( resp_bytes ) , " F%02X \r " , unsigned ( 0 ) ) ; // Returning success for compatibility reasons
if ( resp_len > 0 ) {
_port - > write_locked ( resp_bytes , resp_len , _serial_lock_key ) ;
}
return nullptr ;
}
case ' V ' : { // HW/SW version
resp_len = snprintf ( ( char * ) resp_bytes , sizeof ( resp_bytes ) , " V%x%x%x%x \r " , 1 , 0 , 1 , 0 ) ;
if ( resp_len > 0 ) {
_port - > write_locked ( resp_bytes , resp_len , _serial_lock_key ) ;
}
return nullptr ;
}
case ' N ' : { // Serial number
const uint8_t uid_buf_len = 12 ;
uint8_t uid_len = uid_buf_len ;
uint8_t unique_id [ uid_buf_len ] ;
char buf [ uid_buf_len * 2 + 1 ] = { ' \0 ' } ;
char * pos = & buf [ 0 ] ;
if ( hal . util - > get_system_id_unformatted ( unique_id , uid_len ) ) {
for ( uint8_t i = 0 ; i < uid_buf_len ; i + + ) {
* pos + + = nibble2hex ( unique_id [ i ] > > 4 ) ;
* pos + + = nibble2hex ( unique_id [ i ] ) ;
}
}
* pos + + = ' \0 ' ;
resp_len = snprintf ( ( char * ) resp_bytes , sizeof ( resp_bytes ) , " N%s \r " , & buf [ 0 ] ) ;
if ( resp_len > 0 ) {
_port - > write_locked ( resp_bytes , resp_len , _serial_lock_key ) ;
}
return nullptr ;
}
default : {
break ;
}
}
return getASCIIStatusCode ( false ) ;
}
// add bytes to parse the received SLCAN Data stream
inline void SLCAN : : CANIface : : addByte ( const uint8_t byte )
{
if ( _port = = nullptr ) {
return ;
}
if ( ( byte > = 32 & & byte < = 126 ) ) { // Normal printable ASCII character
if ( pos_ < SLCAN_BUFFER_SIZE ) {
buf_ [ pos_ ] = char ( byte ) ;
pos_ + = 1 ;
} else {
pos_ = 0 ; // Buffer overrun; silently drop the data
}
} else if ( byte = = ' \r ' ) { // End of command (SLCAN)
// Processing the command
buf_ [ pos_ ] = ' \0 ' ;
const char * const response = processCommand ( reinterpret_cast < char * > ( & buf_ [ 0 ] ) ) ;
pos_ = 0 ;
// Sending the response if provided
if ( response ! = nullptr ) {
_port - > write_locked ( reinterpret_cast < const uint8_t * > ( response ) ,
strlen ( response ) , _serial_lock_key ) ;
}
} else if ( byte = = 8 | | byte = = 127 ) { // DEL or BS (backspace)
if ( pos_ > 0 ) {
pos_ - = 1 ;
}
} else { // This also includes Ctrl+C, Ctrl+D
pos_ = 0 ; // Invalid byte - drop the current command
}
}
void SLCAN : : CANIface : : update_slcan_port ( )
{
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const bool armed = hal . util - > get_soft_armed ( ) ;
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if ( _set_by_sermgr ) {
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if ( armed & & _port ! = nullptr ) {
// auto-disable when armed
_port - > lock_port ( 0 , 0 ) ;
_port = nullptr ;
_set_by_sermgr = false ;
}
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return ;
}
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if ( _port = = nullptr & & ! armed ) {
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_port = AP : : serialmanager ( ) . find_serial ( AP_SerialManager : : SerialProtocol_SLCAN , 0 ) ;
if ( _port ! = nullptr ) {
_port - > lock_port ( _serial_lock_key , _serial_lock_key ) ;
_set_by_sermgr = true ;
return ;
}
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}
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if ( _prev_ser_port ! = _slcan_ser_port ) {
if ( ! _slcan_start_req ) {
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_slcan_start_req_time = AP_HAL : : millis ( ) ;
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_slcan_start_req = true ;
}
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if ( ( ( AP_HAL : : millis ( ) - _slcan_start_req_time ) < ( ( uint32_t ) _slcan_start_delay * 1000 ) ) ) {
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return ;
}
_port = AP : : serialmanager ( ) . get_serial_by_id ( _slcan_ser_port ) ;
if ( _port = = nullptr ) {
_slcan_ser_port . set_and_save ( - 1 ) ;
return ;
}
_port - > lock_port ( _serial_lock_key , _serial_lock_key ) ;
_prev_ser_port = _slcan_ser_port ;
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GCS_SEND_TEXT ( MAV_SEVERITY_INFO , " CANManager: Starting SLCAN Passthrough on Serial %d with CAN%d " , _slcan_ser_port . get ( ) , _iface_num ) ;
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_last_had_activity = AP_HAL : : millis ( ) ;
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}
if ( _port = = nullptr ) {
return ;
}
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if ( ( ( AP_HAL : : millis ( ) - _last_had_activity ) > ( ( uint32_t ) _slcan_timeout * 1000 ) ) & &
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( uint32_t ) _slcan_timeout ! = 0 ) {
_port - > lock_port ( 0 , 0 ) ;
_port = nullptr ;
_slcan_ser_port . set_and_save ( - 1 ) ;
_prev_ser_port = - 1 ;
_slcan_start_req = false ;
}
}
bool SLCAN : : CANIface : : set_event_handle ( AP_HAL : : EventHandle * evt_handle )
{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
return _can_iface - > set_event_handle ( evt_handle ) ;
}
return false ;
}
uint16_t SLCAN : : CANIface : : getNumFilters ( ) const
{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
return _can_iface - > getNumFilters ( ) ;
}
return 0 ;
}
uint32_t SLCAN : : CANIface : : getErrorCount ( ) const
{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
return _can_iface - > getErrorCount ( ) ;
}
return 0 ;
}
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void SLCAN : : CANIface : : get_stats ( ExpandingString & str )
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{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
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_can_iface - > get_stats ( str ) ;
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}
}
bool SLCAN : : CANIface : : is_busoff ( ) const
{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
return _can_iface - > is_busoff ( ) ;
}
return false ;
}
bool SLCAN : : CANIface : : configureFilters ( const CanFilterConfig * filter_configs , uint16_t num_configs )
{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
return _can_iface - > configureFilters ( filter_configs , num_configs ) ;
}
return true ;
}
void SLCAN : : CANIface : : flush_tx ( )
{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
_can_iface - > flush_tx ( ) ;
}
if ( _port ) {
_port - > flush ( ) ;
}
}
void SLCAN : : CANIface : : clear_rx ( )
{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
_can_iface - > clear_rx ( ) ;
}
rx_queue_ . clear ( ) ;
}
bool SLCAN : : CANIface : : is_initialized ( ) const
{
// When in passthrough mode methods is handled through can iface
if ( _can_iface ) {
return _can_iface - > is_initialized ( ) ;
}
return false ;
}
bool SLCAN : : CANIface : : select ( bool & read , bool & write , const AP_HAL : : CANFrame * const pending_tx ,
uint64_t blocking_deadline )
{
update_slcan_port ( ) ;
bool ret = false ;
// When in passthrough mode select is handled through can iface
if ( _can_iface ) {
ret = _can_iface - > select ( read , write , pending_tx , blocking_deadline ) ;
}
if ( _port = = nullptr ) {
return ret ;
}
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// ensure we own the UART. Locking is handled at the CAN interface level
_port - > begin_locked ( 0 , 0 , 0 , _serial_lock_key ) ;
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// if under passthrough, we only do send when can_iface also allows it
if ( _port - > available_locked ( _serial_lock_key ) | | rx_queue_ . available ( ) ) {
// allow for receiving messages over slcan
read = true ;
ret = true ;
}
return ret ;
}
// send method to transmit the frame through SLCAN interface
int16_t SLCAN : : CANIface : : send ( const AP_HAL : : CANFrame & frame , uint64_t tx_deadline , AP_HAL : : CANIface : : CanIOFlags flags )
{
update_slcan_port ( ) ;
int16_t ret = 0 ;
// When in passthrough mode select is handled through can iface
if ( _can_iface ) {
ret = _can_iface - > send ( frame , tx_deadline , flags ) ;
}
if ( _port = = nullptr ) {
return ret ;
}
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if ( frame . isErrorFrame ( )
# if !HAL_CANFD_SUPPORTED
| | frame . dlc > 8
# endif
) {
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return ret ;
}
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reportFrame ( frame , AP_HAL : : micros64 ( ) ) ;
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return ret ;
}
// receive method to read the frame recorded in the buffer
int16_t SLCAN : : CANIface : : receive ( AP_HAL : : CANFrame & out_frame , uint64_t & rx_time ,
AP_HAL : : CANIface : : CanIOFlags & out_flags )
{
update_slcan_port ( ) ;
// When in passthrough mode select is handled through can iface
if ( _can_iface ) {
int16_t ret = _can_iface - > receive ( out_frame , rx_time , out_flags ) ;
if ( ret > 0 ) {
// we also pass this frame through to slcan iface,
// and immediately return
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reportFrame ( out_frame , AP_HAL : : micros64 ( ) ) ;
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return ret ;
} else if ( ret < 0 ) {
return ret ;
}
}
// We found nothing in HAL's CANIface recieve, so look in SLCANIface
if ( _port = = nullptr ) {
return 0 ;
}
if ( _port - > available_locked ( _serial_lock_key ) ) {
uint32_t num_bytes = _port - > available_locked ( _serial_lock_key ) ;
// flush bytes from port
while ( num_bytes - - ) {
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uint8_t b ;
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if ( _port - > read_locked ( & b , 1 , _serial_lock_key ) ! = 1 ) {
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break ;
}
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addByte ( b ) ;
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if ( ! rx_queue_ . space ( ) ) {
break ;
}
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}
}
if ( rx_queue_ . available ( ) ) {
// if we already have something in buffer transmit it
CanRxItem frm ;
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if ( ! rx_queue_ . peek ( frm ) ) {
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return 0 ;
}
out_frame = frm . frame ;
rx_time = frm . timestamp_us ;
out_flags = frm . flags ;
_last_had_activity = AP_HAL : : millis ( ) ;
// Also send this frame over can_iface when in passthrough mode,
// We just push this frame without caring for priority etc
if ( _can_iface ) {
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bool read = false ;
bool write = true ;
_can_iface - > select ( read , write , & out_frame , 0 ) ; // select without blocking
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if ( write & & _can_iface - > send ( out_frame , AP_HAL : : micros64 ( ) + 100000 , out_flags ) = = 1 ) {
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rx_queue_ . pop ( ) ;
num_tries = 0 ;
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} else if ( num_tries > 8 ) {
rx_queue_ . pop ( ) ;
num_tries = 0 ;
} else {
num_tries + + ;
}
} else {
// we just throw away frames if we don't
// have any can iface to pass through to
rx_queue_ . pop ( ) ;
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}
return 1 ;
}
return 0 ;
}
void SLCAN : : CANIface : : reset_params ( )
{
_slcan_ser_port . set_and_save ( - 1 ) ;
}
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# endif // AP_CAN_SLCAN_ENABLED