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/*
This program 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 program 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/>.
*/
# include "AP_Torqeedo.h"
# if HAL_TORQEEDO_ENABLED
# include <AP_Common/AP_Common.h>
# include <AP_Math/AP_Math.h>
# include <SRV_Channel/SRV_Channel.h>
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# include <AP_Logger/AP_Logger.h>
# include <GCS_MAVLink/GCS.h>
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# define TORQEEDO_SERIAL_BAUD 19200 // communication is always at 19200
# define TORQEEDO_PACKET_HEADER 0xAC // communication packet header
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# define TORQEEDO_PACKET_FOOTER 0xAD // communication packet footer
# define TORQEEDO_PACKET_ESCAPE 0xAE // escape character for handling occurrences of header, footer and this escape bytes in original message
# define TORQEEDO_PACKET_ESCAPE_MASK 0x80 // byte after ESCAPE character should be XOR'd with this value
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# define TORQEEDO_LOG_TRQD_INTERVAL_MS 5000 // log TRQD message at this interval in milliseconds
# define TORQEEDO_SEND_MOTOR_SPEED_INTERVAL_MS 100 // motor speed sent at 10hz if connected to motor
# define TORQEEDO_SEND_MOTOR_STATUS_REQUEST_INTERVAL_MS 400 // motor status requested every 0.4sec if connected to motor
# define TORQEEDO_SEND_MOTOR_PARAM_REQUEST_INTERVAL_MS 400 // motor param requested every 0.4sec if connected to motor
# define TORQEEDO_BATT_TIMEOUT_MS 5000 // battery info timeouts after 5 seconds
# define TORQEEDO_REPLY_TIMEOUT_MS 25 // stop waiting for replies after 25ms
# define TORQEEDO_ERROR_REPORT_INTERVAL_MAX_MS 10000 // errors reported to user at no less than once every 10 seconds
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extern const AP_HAL : : HAL & hal ;
// parameters
const AP_Param : : GroupInfo AP_Torqeedo : : var_info [ ] = {
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// @Param: TYPE
// @DisplayName: Torqeedo connection type
// @Description: Torqeedo connection type
// @Values: 0:Disabled, 1:Tiller, 2:Motor
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// @User: Standard
// @RebootRequired: True
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AP_GROUPINFO_FLAGS ( " TYPE " , 1 , AP_Torqeedo , _type , ( int8_t ) ConnectionType : : TYPE_DISABLED , AP_PARAM_FLAG_ENABLE ) ,
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// @Param: ONOFF_PIN
// @DisplayName: Torqeedo ON/Off pin
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// @Description: Pin number connected to Torqeedo's on/off pin. -1 to use serial port's RTS pin if available
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// @Values: -1:Disabled,50:AUX1,51:AUX2,52:AUX3,53:AUX4,54:AUX5,55:AUX6
// @User: Standard
// @RebootRequired: True
AP_GROUPINFO ( " ONOFF_PIN " , 2 , AP_Torqeedo , _pin_onoff , - 1 ) ,
// @Param: DE_PIN
// @DisplayName: Torqeedo DE pin
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// @Description: Pin number connected to RS485 to Serial converter's DE pin. -1 to use serial port's CTS pin if available
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// @Values: -1:Disabled,50:AUX1,51:AUX2,52:AUX3,53:AUX4,54:AUX5,55:AUX6
// @User: Standard
// @RebootRequired: True
AP_GROUPINFO ( " DE_PIN " , 3 , AP_Torqeedo , _pin_de , - 1 ) ,
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// @Param: OPTIONS
// @DisplayName: Torqeedo Options
// @Description: Torqeedo Options Bitmask
// @Bitmask: 0:Log,1:Send debug to GCS
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// @User: Advanced
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AP_GROUPINFO ( " OPTIONS " , 4 , AP_Torqeedo , _options , ( int8_t ) options : : LOG ) ,
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// @Param: POWER
// @DisplayName: Torqeedo Motor Power
// @Description: Torqeedo motor power. Only applied when using motor connection type (e.g. TRQD_TYPE=2)
// @Units: %
// @Range: 0 100
// @Increment: 1
// @User: Advanced
AP_GROUPINFO ( " POWER " , 5 , AP_Torqeedo , _motor_power , 100 ) ,
// @Param: SLEW_TIME
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// @DisplayName: Torqeedo Throttle Slew Time
// @Description: Torqeedo slew rate specified as the minimum number of seconds required to increase the throttle from 0 to 100%. Higher values cause a slower response, lower values cause a faster response. A value of zero disables the limit
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// @Units: s
// @Range: 0 5
// @Increment: 0.1
// @User: Advanced
AP_GROUPINFO ( " SLEW_TIME " , 6 , AP_Torqeedo , _slew_time , 2.0 ) ,
// @Param: DIR_DELAY
// @DisplayName: Torqeedo Direction Change Delay
// @Description: Torqeedo direction change delay. Output will remain at zero for this many seconds when transitioning between forward and backwards rotation
// @Units: s
// @Range: 0 5
// @Increment: 0.1
// @User: Advanced
AP_GROUPINFO ( " DIR_DELAY " , 7 , AP_Torqeedo , _dir_delay , 1.0 ) ,
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AP_GROUPEND
} ;
AP_Torqeedo : : AP_Torqeedo ( )
{
_singleton = this ;
AP_Param : : setup_object_defaults ( this , var_info ) ;
}
// initialise driver
void AP_Torqeedo : : init ( )
{
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// exit immediately if not enabled
if ( ! enabled ( ) ) {
return ;
}
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// only init once
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// Note: a race condition exists here if init is called multiple times quickly before thread_main has a chance to set _initialise
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if ( _initialised ) {
return ;
}
// create background thread to process serial input and output
if ( ! hal . scheduler - > thread_create ( FUNCTOR_BIND_MEMBER ( & AP_Torqeedo : : thread_main , void ) , " torqeedo " , 2048 , AP_HAL : : Scheduler : : PRIORITY_RCOUT , 1 ) ) {
return ;
}
}
// initialise serial port and gpio pins (run from background thread)
bool AP_Torqeedo : : init_internals ( )
{
// find serial driver and initialise
const AP_SerialManager & serial_manager = AP : : serialmanager ( ) ;
_uart = serial_manager . find_serial ( AP_SerialManager : : SerialProtocol_Torqeedo , 0 ) ;
if ( _uart = = nullptr ) {
return false ;
}
_uart - > begin ( TORQEEDO_SERIAL_BAUD ) ;
_uart - > set_flow_control ( AP_HAL : : UARTDriver : : FLOW_CONTROL_DISABLE ) ;
_uart - > set_unbuffered_writes ( true ) ;
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// if using tiller connection set on/off pin for 0.5 sec to turn on battery
if ( _type = = ConnectionType : : TYPE_TILLER ) {
if ( _pin_onoff > - 1 ) {
hal . gpio - > pinMode ( _pin_onoff , HAL_GPIO_OUTPUT ) ;
hal . gpio - > write ( _pin_onoff , 1 ) ;
hal . scheduler - > delay ( 500 ) ;
hal . gpio - > write ( _pin_onoff , 0 ) ;
} else {
// use serial port's RTS pin to turn on battery
_uart - > set_RTS_pin ( true ) ;
hal . scheduler - > delay ( 500 ) ;
_uart - > set_RTS_pin ( false ) ;
}
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}
// initialise RS485 DE pin (when high, allows send to motor)
if ( _pin_de > - 1 ) {
hal . gpio - > pinMode ( _pin_de , HAL_GPIO_OUTPUT ) ;
hal . gpio - > write ( _pin_de , 0 ) ;
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} else {
_uart - > set_CTS_pin ( false ) ;
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}
return true ;
}
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// returns true if the driver is enabled
bool AP_Torqeedo : : enabled ( ) const
{
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switch ( ( ConnectionType ) _type ) {
case ConnectionType : : TYPE_DISABLED :
return false ;
case ConnectionType : : TYPE_TILLER :
case ConnectionType : : TYPE_MOTOR :
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return true ;
}
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return false ;
}
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// consume incoming messages from motor, reply with latest motor speed
// runs in background thread
void AP_Torqeedo : : thread_main ( )
{
// initialisation
if ( ! init_internals ( ) ) {
return ;
}
_initialised = true ;
while ( true ) {
// 1ms loop delay
hal . scheduler - > delay_microseconds ( 1000 ) ;
// check if transmit pin should be unset
check_for_send_end ( ) ;
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// check for timeout waiting for reply
check_for_reply_timeout ( ) ;
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// parse incoming characters
uint32_t nbytes = MIN ( _uart - > available ( ) , 1024U ) ;
while ( nbytes - - > 0 ) {
int16_t b = _uart - > read ( ) ;
if ( b > = 0 ) {
if ( parse_byte ( ( uint8_t ) b ) ) {
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// complete message received, parse it!
parse_message ( ) ;
// clear wait-for-reply because if we are waiting for a reply, this message must be it
set_reply_received ( ) ;
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}
}
}
// send motor speed
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bool log_update = false ;
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if ( safe_to_send ( ) ) {
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uint32_t now_ms = AP_HAL : : millis ( ) ;
// if connected to motor
if ( _type = = ConnectionType : : TYPE_MOTOR ) {
if ( now_ms - _last_send_motor_ms > TORQEEDO_SEND_MOTOR_SPEED_INTERVAL_MS ) {
// send motor speed every 0.1sec
_send_motor_speed = true ;
} else if ( now_ms - _last_send_motor_status_request_ms > TORQEEDO_SEND_MOTOR_STATUS_REQUEST_INTERVAL_MS ) {
// send request for motor status
send_motor_msg_request ( MotorMsgId : : STATUS ) ;
_last_send_motor_status_request_ms = now_ms ;
} else if ( now_ms - _last_send_motor_param_request_ms > TORQEEDO_SEND_MOTOR_PARAM_REQUEST_INTERVAL_MS ) {
// send request for motor params
send_motor_msg_request ( MotorMsgId : : PARAM ) ;
_last_send_motor_param_request_ms = now_ms ;
}
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}
// send motor speed
if ( _send_motor_speed ) {
send_motor_speed_cmd ( ) ;
_send_motor_speed = false ;
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log_update = true ;
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}
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}
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// log high level status and motor speed
log_TRQD ( log_update ) ;
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}
}
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// returns true if communicating with the motor
bool AP_Torqeedo : : healthy ( )
{
if ( ! _initialised ) {
return false ;
}
{
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// healthy if both receive and send have occurred in the last 3 seconds
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WITH_SEMAPHORE ( _last_healthy_sem ) ;
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const uint32_t now_ms = AP_HAL : : millis ( ) ;
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return ( ( now_ms - _last_received_ms < 3000 ) & & ( now_ms - _last_send_motor_ms < 3000 ) ) ;
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}
}
// run pre-arm check. returns false on failure and fills in failure_msg
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// any failure_msg returned will not include a prefix
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bool AP_Torqeedo : : pre_arm_checks ( char * failure_msg , uint8_t failure_msg_len )
{
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// exit immediately if not enabled
if ( ! enabled ( ) ) {
return true ;
}
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if ( ! _initialised ) {
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strncpy ( failure_msg , " not initialised " , failure_msg_len ) ;
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return false ;
}
if ( ! healthy ( ) ) {
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strncpy ( failure_msg , " not healthy " , failure_msg_len ) ;
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return false ;
}
return true ;
}
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// report changes in error codes to user
void AP_Torqeedo : : report_error_codes ( )
{
// skip reporting if we have already reported status very recently
const uint32_t now_ms = AP_HAL : : millis ( ) ;
// skip reporting if no changes in flags and already reported within 10 seconds
const bool flags_changed = ( _display_system_state_flags_prev . value ! = _display_system_state . flags . value ) | |
( _display_system_state_master_error_code_prev ! = _display_system_state . master_error_code ) | |
( _motor_status_prev . status_flags_value ! = _motor_status . status_flags_value ) | |
( _motor_status_prev . error_flags_value ! = _motor_status . error_flags_value ) ;
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if ( ! flags_changed & & ( ( now_ms - _last_error_report_ms ) < TORQEEDO_ERROR_REPORT_INTERVAL_MAX_MS ) ) {
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return ;
}
// report display system errors
const char * msg_prefix = " Torqeedo: " ;
if ( _display_system_state . flags . set_throttle_stop ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s zero throttle required " , msg_prefix ) ;
}
if ( _display_system_state . flags . temp_warning ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s high temp " , msg_prefix ) ;
}
if ( _display_system_state . flags . temp_warning ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s batt nearly empty " , msg_prefix ) ;
}
if ( _display_system_state . master_error_code > 0 ) {
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gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s err:%u " , msg_prefix , _display_system_state . master_error_code ) ;
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}
// report motor status errors
if ( _motor_status . error_flags . overcurrent ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s overcurrent " , msg_prefix ) ;
}
if ( _motor_status . error_flags . blocked ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s prop blocked " , msg_prefix ) ;
}
if ( _motor_status . error_flags . overvoltage_static | | _motor_status . error_flags . overvoltage_current ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s high voltage " , msg_prefix ) ;
}
if ( _motor_status . error_flags . undervoltage_static | | _motor_status . error_flags . undervoltage_current ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s low voltage " , msg_prefix ) ;
}
if ( _motor_status . error_flags . overtemp_motor | | _motor_status . error_flags . overtemp_pcb ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s high temp " , msg_prefix ) ;
}
if ( _motor_status . error_flags . timeout_rs485 ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s comm timeout " , msg_prefix ) ;
}
if ( _motor_status . error_flags . temp_sensor_error ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s temp sensor err " , msg_prefix ) ;
}
if ( _motor_status . error_flags . tilt ) {
gcs ( ) . send_text ( MAV_SEVERITY_CRITICAL , " %s tilted " , msg_prefix ) ;
}
// display OK if all errors cleared
const bool prev_errored = ( _display_system_state_flags_prev . value ! = 0 ) | |
( _display_system_state_master_error_code_prev ! = 0 ) | |
( _motor_status_prev . error_flags_value ! = 0 ) ;
const bool now_errored = ( _display_system_state . flags . value ! = 0 ) | |
( _display_system_state . master_error_code ! = 0 ) | |
( _motor_status . error_flags_value ! = 0 ) ;
if ( ! now_errored & & prev_errored ) {
gcs ( ) . send_text ( MAV_SEVERITY_INFO , " %s OK " , msg_prefix ) ;
}
// record change in state and reporting time
_display_system_state_flags_prev . value = _display_system_state . flags . value ;
_display_system_state_master_error_code_prev = _display_system_state . master_error_code ;
_motor_status_prev = _motor_status ;
_last_error_report_ms = now_ms ;
}
// get latest battery status info. returns true on success and populates arguments
bool AP_Torqeedo : : get_batt_info ( float & voltage , float & current_amps , float & temp_C , uint8_t & pct_remaining ) const
{
// use battery info from display_system_state if available (tiller connection)
if ( ( AP_HAL : : millis ( ) - _display_system_state . last_update_ms ) < = TORQEEDO_BATT_TIMEOUT_MS ) {
voltage = _display_system_state . batt_voltage ;
current_amps = _display_system_state . batt_current ;
temp_C = MAX ( _display_system_state . temp_sw , _display_system_state . temp_rp ) ;
pct_remaining = _display_system_state . batt_charge_pct ;
return true ;
}
// use battery info from motor_param if available (motor connection)
if ( ( AP_HAL : : millis ( ) - _motor_param . last_update_ms ) < = TORQEEDO_BATT_TIMEOUT_MS ) {
voltage = _motor_param . voltage ;
current_amps = _motor_param . current ;
temp_C = MAX ( _motor_param . pcb_temp , _motor_param . stator_temp ) ;
pct_remaining = 0 ; // motor does not know percent remaining
return true ;
}
return false ;
}
// get battery capacity. returns true on success and populates argument
bool AP_Torqeedo : : get_batt_capacity_Ah ( uint16_t & amp_hours ) const
{
if ( _display_system_setup . batt_capacity = = 0 ) {
return false ;
}
amp_hours = _display_system_setup . batt_capacity ;
return true ;
}
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// process a single byte received on serial port
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// return true if a complete message has been received (the message will be held in _received_buff)
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bool AP_Torqeedo : : parse_byte ( uint8_t b )
{
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bool complete_msg_received = false ;
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switch ( _parse_state ) {
case ParseState : : WAITING_FOR_HEADER :
if ( b = = TORQEEDO_PACKET_HEADER ) {
_parse_state = ParseState : : WAITING_FOR_FOOTER ;
}
_received_buff_len = 0 ;
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_parse_escape_received = false ;
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break ;
case ParseState : : WAITING_FOR_FOOTER :
if ( b = = TORQEEDO_PACKET_FOOTER ) {
_parse_state = ParseState : : WAITING_FOR_HEADER ;
// check message length
if ( _received_buff_len = = 0 ) {
_parse_error_count + + ;
break ;
}
// check crc
const uint8_t crc_expected = crc8_maxim ( _received_buff , _received_buff_len - 1 ) ;
if ( _received_buff [ _received_buff_len - 1 ] ! = crc_expected ) {
_parse_error_count + + ;
break ;
}
_parse_success_count + + ;
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{
// record time of successful receive for health reporting
WITH_SEMAPHORE ( _last_healthy_sem ) ;
_last_received_ms = AP_HAL : : millis ( ) ;
}
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complete_msg_received = true ;
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} else {
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// escape character handling
if ( _parse_escape_received ) {
b ^ = TORQEEDO_PACKET_ESCAPE_MASK ;
_parse_escape_received = false ;
} else if ( b = = TORQEEDO_PACKET_ESCAPE ) {
// escape character received, record this and ignore this byte
_parse_escape_received = true ;
break ;
}
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// add to buffer
_received_buff [ _received_buff_len ] = b ;
_received_buff_len + + ;
if ( _received_buff_len > TORQEEDO_MESSAGE_LEN_MAX ) {
// message too long
_parse_state = ParseState : : WAITING_FOR_HEADER ;
_parse_error_count + + ;
}
}
break ;
}
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return complete_msg_received ;
}
// process message held in _received_buff
void AP_Torqeedo : : parse_message ( )
{
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// message address (i.e. target of message)
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const MsgAddress msg_addr = ( MsgAddress ) _received_buff [ 0 ] ;
// handle messages sent to "remote" (aka tiller)
if ( ( _type = = ConnectionType : : TYPE_TILLER ) & & ( msg_addr = = MsgAddress : : REMOTE1 ) ) {
RemoteMsgId msg_id = ( RemoteMsgId ) _received_buff [ 1 ] ;
if ( msg_id = = RemoteMsgId : : REMOTE ) {
// request received to send updated motor speed
_send_motor_speed = true ;
}
return ;
}
// handle messages sent to Display
if ( ( _type = = ConnectionType : : TYPE_TILLER ) & & ( msg_addr = = MsgAddress : : DISPLAY ) ) {
DisplayMsgId msg_id = ( DisplayMsgId ) _received_buff [ 1 ] ;
switch ( msg_id ) {
case DisplayMsgId : : SYSTEM_STATE :
if ( _received_buff_len = = 30 ) {
// fill in _display_system_state
_display_system_state . flags . value = UINT16_VALUE ( _received_buff [ 2 ] , _received_buff [ 3 ] ) ;
_display_system_state . master_state = _received_buff [ 4 ] ; // deprecated
_display_system_state . master_error_code = _received_buff [ 5 ] ;
_display_system_state . motor_voltage = UINT16_VALUE ( _received_buff [ 6 ] , _received_buff [ 7 ] ) * 0.01 ;
_display_system_state . motor_current = UINT16_VALUE ( _received_buff [ 8 ] , _received_buff [ 9 ] ) * 0.1 ;
_display_system_state . motor_power = UINT16_VALUE ( _received_buff [ 10 ] , _received_buff [ 11 ] ) ;
_display_system_state . motor_rpm = ( int16_t ) UINT16_VALUE ( _received_buff [ 12 ] , _received_buff [ 13 ] ) ;
_display_system_state . motor_pcb_temp = _received_buff [ 14 ] ;
_display_system_state . motor_stator_temp = _received_buff [ 15 ] ;
_display_system_state . batt_charge_pct = _received_buff [ 16 ] ;
_display_system_state . batt_voltage = UINT16_VALUE ( _received_buff [ 17 ] , _received_buff [ 18 ] ) * 0.01 ;
_display_system_state . batt_current = UINT16_VALUE ( _received_buff [ 19 ] , _received_buff [ 20 ] ) * 0.1 ;
_display_system_state . gps_speed = UINT16_VALUE ( _received_buff [ 21 ] , _received_buff [ 22 ] ) ;
_display_system_state . range_miles = UINT16_VALUE ( _received_buff [ 23 ] , _received_buff [ 24 ] ) ;
_display_system_state . range_minutes = UINT16_VALUE ( _received_buff [ 25 ] , _received_buff [ 26 ] ) ;
_display_system_state . temp_sw = _received_buff [ 27 ] ;
_display_system_state . temp_rp = _received_buff [ 28 ] ;
_display_system_state . last_update_ms = AP_HAL : : millis ( ) ;
// update esc telem sent to ground station
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const uint8_t esc_temp = MAX ( _display_system_state . temp_sw , _display_system_state . temp_rp ) ;
const uint8_t motor_temp = MAX ( _display_system_state . motor_pcb_temp , _display_system_state . motor_stator_temp ) ;
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update_esc_telem ( _display_system_state . motor_rpm ,
_display_system_state . motor_voltage ,
_display_system_state . motor_current ,
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esc_temp ,
motor_temp ) ;
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// log data
if ( ( _options & options : : LOG ) ! = 0 ) {
// @LoggerMessage: TRST
// @Description: Torqeedo System State
// @Field: TimeUS: Time since system startup
// @Field: F: Flags bitmask
// @Field: Err: Master error code
// @Field: MVolt: Motor voltage
// @Field: MCur: Motor current
// @Field: Pow: Motor power
// @Field: RPM: Motor RPM
// @Field: MTemp: Motor Temp (higher of pcb or stator)
// @Field: BPct: Battery charge percentage
// @Field: BVolt: Battery voltage
// @Field: BCur: Battery current
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AP : : logger ( ) . Write ( " TRST " , " TimeUS,F,Err,MVolt,MCur,Pow,RPM,MTemp,BPct,BVolt,BCur " , " QHBffHhBBff " ,
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AP_HAL : : micros64 ( ) ,
_display_system_state . flags . value ,
_display_system_state . master_error_code ,
_display_system_state . motor_voltage ,
_display_system_state . motor_current ,
_display_system_state . motor_power ,
_display_system_state . motor_rpm ,
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motor_temp ,
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_display_system_state . batt_charge_pct ,
_display_system_state . batt_voltage ,
_display_system_state . batt_current ) ;
}
// send to GCS
if ( ( _options & options : : DEBUG_TO_GCS ) ! = 0 ) {
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gcs ( ) . send_text ( MAV_SEVERITY_INFO , " TRST F:%u Err:%u MV:%4.1f MC:%4.1f P:%u MT:%d B%%:%d BV:%4.1f BC:%4.1f " ,
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( unsigned ) _display_system_state . flags . value ,
( unsigned ) _display_system_state . master_error_code ,
( double ) _display_system_state . motor_voltage ,
( double ) _display_system_state . motor_current ,
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( unsigned ) _display_system_state . motor_power ,
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( int ) motor_temp ,
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( unsigned ) _display_system_state . batt_charge_pct ,
( double ) _display_system_state . batt_voltage ,
( double ) _display_system_state . batt_current ) ;
}
// report any errors
report_error_codes ( ) ;
} else {
// unexpected length
_parse_error_count + + ;
}
break ;
case DisplayMsgId : : SYSTEM_SETUP :
if ( _received_buff_len = = 13 ) {
// fill in display system setup
_display_system_setup . flags = _received_buff [ 2 ] ;
_display_system_setup . motor_type = _received_buff [ 3 ] ;
_display_system_setup . motor_sw_version = UINT16_VALUE ( _received_buff [ 4 ] , _received_buff [ 5 ] ) ;
_display_system_setup . batt_capacity = UINT16_VALUE ( _received_buff [ 6 ] , _received_buff [ 7 ] ) ;
_display_system_setup . batt_charge_pct = _received_buff [ 8 ] ;
_display_system_setup . batt_type = _received_buff [ 9 ] ;
_display_system_setup . master_sw_version = UINT16_VALUE ( _received_buff [ 10 ] , _received_buff [ 11 ] ) ;
// log data
if ( ( _options & options : : LOG ) ! = 0 ) {
// @LoggerMessage: TRSE
// @Description: Torqeedo System Setup
// @Field: TimeUS: Time since system startup
// @Field: Flag: Flags
// @Field: MotType: Motor type
// @Field: MotVer: Motor software version
// @Field: BattCap: Battery capacity
// @Field: BattPct: Battery charge percentage
// @Field: BattType: Battery type
// @Field: SwVer: Master software version
AP : : logger ( ) . Write ( " TRSE " , " TimeUS,Flag,MotType,MotVer,BattCap,BattPct,BattType,SwVer " , " QBBHHBBH " ,
AP_HAL : : micros64 ( ) ,
_display_system_setup . flags ,
_display_system_setup . motor_type ,
_display_system_setup . motor_sw_version ,
_display_system_setup . batt_capacity ,
_display_system_setup . batt_charge_pct ,
_display_system_setup . batt_type ,
_display_system_setup . master_sw_version ) ;
}
// send to GCS
if ( ( _options & options : : DEBUG_TO_GCS ) ! = 0 ) {
gcs ( ) . send_text ( MAV_SEVERITY_INFO , " TRSE:%u F:%u Mot:%u/%u Bat:%u/%u/%u%% " ,
( unsigned ) _display_system_setup . master_sw_version ,
( unsigned ) _display_system_setup . flags ,
( unsigned ) _display_system_setup . motor_type ,
( unsigned ) _display_system_setup . motor_sw_version ,
( unsigned ) _display_system_setup . batt_type ,
( unsigned ) _display_system_setup . batt_capacity ,
( unsigned ) _display_system_setup . batt_charge_pct ) ;
}
} else {
// unexpected length
_parse_error_count + + ;
}
break ;
default :
// ignore message
break ;
}
return ;
}
// handle reply from motor
if ( ( _type = = ConnectionType : : TYPE_MOTOR ) & & ( msg_addr = = MsgAddress : : BUS_MASTER ) ) {
// replies strangely do not return the msgid so we must have stored it
MotorMsgId msg_id = ( MotorMsgId ) _reply_msgid ;
switch ( msg_id ) {
case MotorMsgId : : PARAM :
if ( _received_buff_len = = 15 ) {
_motor_param . rpm = ( int16_t ) UINT16_VALUE ( _received_buff [ 2 ] , _received_buff [ 3 ] ) ;
_motor_param . power = UINT16_VALUE ( _received_buff [ 4 ] , _received_buff [ 5 ] ) ;
_motor_param . voltage = UINT16_VALUE ( _received_buff [ 6 ] , _received_buff [ 7 ] ) * 0.01 ;
_motor_param . current = UINT16_VALUE ( _received_buff [ 8 ] , _received_buff [ 9 ] ) * 0.1 ;
_motor_param . pcb_temp = ( int16_t ) UINT16_VALUE ( _received_buff [ 10 ] , _received_buff [ 11 ] ) * 0.1 ;
_motor_param . stator_temp = ( int16_t ) UINT16_VALUE ( _received_buff [ 12 ] , _received_buff [ 13 ] ) * 0.1 ;
_motor_param . last_update_ms = AP_HAL : : millis ( ) ;
// update esc telem sent to ground station
update_esc_telem ( _motor_param . rpm ,
_motor_param . voltage ,
_motor_param . current ,
_motor_param . pcb_temp , // esc temp
_motor_param . stator_temp ) ; // motor temp
// log data
if ( ( _options & options : : LOG ) ! = 0 ) {
// @LoggerMessage: TRMP
// @Description: Torqeedo Motor Param
// @Field: TimeUS: Time since system startup
// @Field: RPM: Motor RPM
// @Field: Pow: Motor power
// @Field: Volt: Motor voltage
// @Field: Cur: Motor current
// @Field: ETemp: ESC Temp
// @Field: MTemp: Motor Temp
AP : : logger ( ) . Write ( " TRMP " , " TimeUS,RPM,Pow,Volt,Cur,ETemp,MTemp " , " QhHffff " ,
AP_HAL : : micros64 ( ) ,
_motor_param . rpm ,
_motor_param . power ,
_motor_param . voltage ,
_motor_param . current ,
_motor_param . pcb_temp ,
_motor_param . stator_temp ) ;
}
// send to GCS
if ( ( _options & options : : DEBUG_TO_GCS ) ! = 0 ) {
gcs ( ) . send_text ( MAV_SEVERITY_INFO , " TRMP: rpm:%d p:%u V:%4.1f C:%4.1f PT:%4.1f MT:%4.1f " ,
( int ) _motor_param . rpm ,
( unsigned ) _motor_param . power ,
( double ) _motor_param . voltage ,
( double ) _motor_param . current ,
( double ) _motor_param . pcb_temp ,
( double ) _motor_param . stator_temp ) ;
}
} else {
// unexpected length
_parse_error_count + + ;
}
break ;
case MotorMsgId : : STATUS :
if ( _received_buff_len = = 6 ) {
_motor_status . status_flags_value = _received_buff [ 2 ] ;
_motor_status . error_flags_value = UINT16_VALUE ( _received_buff [ 3 ] , _received_buff [ 4 ] ) ;
// log data
if ( ( _options & options : : LOG ) ! = 0 ) {
// @LoggerMessage: TRMS
// @Description: Torqeedo Motor Status
// @Field: TimeUS: Time since system startup
// @Field: State: Motor status flags
// @Field: Err: Motor error flags
AP : : logger ( ) . Write ( " TRMS " , " TimeUS,State,Err " , " QBHH " ,
AP_HAL : : micros64 ( ) ,
_motor_status . status_flags_value ,
_motor_status . error_flags_value ) ;
}
// send to GCS
if ( ( _options & options : : DEBUG_TO_GCS ) ! = 0 ) {
gcs ( ) . send_text ( MAV_SEVERITY_INFO , " TRMS S:%d Err:%d " ,
_motor_status . status_flags_value ,
_motor_status . error_flags_value ) ;
}
// report any errors
report_error_codes ( ) ;
} else {
// unexpected length
_parse_error_count + + ;
}
break ;
case MotorMsgId : : INFO :
case MotorMsgId : : DRIVE :
case MotorMsgId : : CONFIG :
// we do not process these replies
break ;
default :
// ignore unknown messages
break ;
}
}
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}
// set DE Serial CTS pin to enable sending commands to motor
void AP_Torqeedo : : send_start ( )
{
// set gpio pin or serial port's CTS pin
if ( _pin_de > - 1 ) {
hal . gpio - > write ( _pin_de , 1 ) ;
} else {
_uart - > set_CTS_pin ( true ) ;
}
}
// check for timeout after sending and unset pin if required
void AP_Torqeedo : : check_for_send_end ( )
{
if ( _send_delay_us = = 0 ) {
// not sending
return ;
}
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if ( AP_HAL : : micros ( ) - _send_start_us < _send_delay_us ) {
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// return if delay has not yet elapsed
return ;
}
_send_delay_us = 0 ;
// unset gpio or serial port's CTS pin
if ( _pin_de > - 1 ) {
hal . gpio - > write ( _pin_de , 0 ) ;
} else {
_uart - > set_CTS_pin ( false ) ;
}
}
// calculate delay require to allow bytes to be sent
uint32_t AP_Torqeedo : : calc_send_delay_us ( uint8_t num_bytes )
{
// baud rate of 19200 bits/sec
// total number of bits = 10 x num_bytes
// convert from seconds to micros by multiplying by 1,000,000
// plus additional 300us safety margin
const uint32_t delay_us = 1e6 * num_bytes * 10 / TORQEEDO_SERIAL_BAUD + 300 ;
return delay_us ;
}
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// record msgid of message to wait for and set timer for timeout handling
void AP_Torqeedo : : set_expected_reply_msgid ( uint8_t msg_id )
{
_reply_msgid = msg_id ;
_reply_wait_start_ms = AP_HAL : : millis ( ) ;
}
// check for timeout waiting for reply message
void AP_Torqeedo : : check_for_reply_timeout ( )
{
// return immediately if not waiting for reply
if ( _reply_wait_start_ms = = 0 ) {
return ;
}
if ( AP_HAL : : millis ( ) - _reply_wait_start_ms > TORQEEDO_REPLY_TIMEOUT_MS ) {
_reply_wait_start_ms = 0 ;
_parse_error_count + + ;
}
}
// mark reply received. should be called whenever a message is received regardless of whether we are actually waiting for a reply
void AP_Torqeedo : : set_reply_received ( )
{
_reply_wait_start_ms = 0 ;
}
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// send a message to the motor with the specified message contents
// msg_contents should not include the header, footer or CRC
// returns true on success
bool AP_Torqeedo : : send_message ( const uint8_t msg_contents [ ] , uint8_t num_bytes )
{
// buffer for outgoing message
uint8_t send_buff [ TORQEEDO_MESSAGE_LEN_MAX ] ;
uint8_t send_buff_num_bytes = 0 ;
// calculate crc
const uint8_t crc = crc8_maxim ( msg_contents , num_bytes ) ;
// add header
send_buff [ send_buff_num_bytes + + ] = TORQEEDO_PACKET_HEADER ;
// add contents
for ( uint8_t i = 0 ; i < num_bytes ; i + + ) {
if ( ! add_byte_to_message ( msg_contents [ i ] , send_buff , ARRAY_SIZE ( send_buff ) , send_buff_num_bytes ) ) {
_parse_error_count + + ;
return false ;
}
}
// add crc
if ( ! add_byte_to_message ( crc , send_buff , ARRAY_SIZE ( send_buff ) , send_buff_num_bytes ) ) {
_parse_error_count + + ;
return false ;
}
// add footer
if ( send_buff_num_bytes > = ARRAY_SIZE ( send_buff ) ) {
_parse_error_count + + ;
return false ;
}
send_buff [ send_buff_num_bytes + + ] = TORQEEDO_PACKET_FOOTER ;
// set send pin
send_start ( ) ;
// write message
_uart - > write ( send_buff , send_buff_num_bytes ) ;
// record start and expected delay to send message
_send_start_us = AP_HAL : : micros ( ) ;
_send_delay_us = calc_send_delay_us ( send_buff_num_bytes ) ;
return true ;
}
// add a byte to a message buffer including adding the escape character (0xAE) if necessary
// this should only be used when adding the contents to the buffer, not the header and footer
// num_bytes is updated to the next free byte
bool AP_Torqeedo : : add_byte_to_message ( uint8_t byte_to_add , uint8_t msg_buff [ ] , uint8_t msg_buff_size , uint8_t & num_bytes ) const
{
bool escape_required = ( byte_to_add = = TORQEEDO_PACKET_HEADER | |
byte_to_add = = TORQEEDO_PACKET_FOOTER | |
byte_to_add = = TORQEEDO_PACKET_ESCAPE ) ;
// check if we have enough space
if ( num_bytes + ( escape_required ? 2 : 1 ) > = msg_buff_size ) {
return false ;
}
// add byte
if ( escape_required ) {
msg_buff [ num_bytes + + ] = TORQEEDO_PACKET_ESCAPE ;
msg_buff [ num_bytes + + ] = byte_to_add ^ TORQEEDO_PACKET_ESCAPE_MASK ;
} else {
msg_buff [ num_bytes + + ] = byte_to_add ;
}
return true ;
}
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// Example "Remote (0x01)" reply message to allow tiller to control motor speed
// Byte Field Definition Example Value Comments
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// ---------------------------------------------------------------------------------
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// byte 0 Header 0xAC
// byte 1 TargetAddress 0x00 see MsgAddress enum
// byte 2 Message ID 0x00 only master populates this. replies have this set to zero
// byte 3 Flags 0x05 bit0=pin present, bit2=motor speed valid
// byte 4 Status 0x00 0x20 if byte3=4, 0x0 is byte3=5
// byte 5 Motor Speed MSB ---- Motor Speed MSB (-1000 to +1000)
// byte 6 Motor Speed LSB ---- Motor Speed LSB (-1000 to +1000)
// byte 7 CRC-Maxim ---- CRC-Maxim value
// byte 8 Footer 0xAD
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//
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// example message when rotating tiller handle forwards: "AC 00 00 05 00 00 ED 95 AD" (+237)
// example message when rotating tiller handle backwards: "AC 00 00 05 00 FF AE 2C 0C AD" (-82)
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// send a motor speed command as a value from -1000 to +1000
// value is taken directly from SRV_Channel
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// for tiller connection this sends the "Remote (0x01)" message
// for motor connection this sends the "Motor Drive (0x82)" message
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void AP_Torqeedo : : send_motor_speed_cmd ( )
{
// calculate desired motor speed
if ( ! hal . util - > get_soft_armed ( ) ) {
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_motor_speed_desired = 0 ;
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} else {
// convert throttle output to motor output in range -1000 to +1000
// ToDo: convert PWM output to motor output so that SERVOx_MIN, MAX and TRIM take effect
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_motor_speed_desired = constrain_int16 ( SRV_Channels : : get_output_norm ( SRV_Channel : : Aux_servo_function_t : : k_throttle ) * 1000.0 , - 1000 , 1000 ) ;
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}
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// updated limited motor speed
int16_t mot_speed_limited = calc_motor_speed_limited ( _motor_speed_desired ) ;
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// by default use tiller connection command
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uint8_t mot_speed_cmd_buff [ ] = { ( uint8_t ) MsgAddress : : BUS_MASTER , 0x0 , 0x5 , 0x0 , HIGHBYTE ( mot_speed_limited ) , LOWBYTE ( mot_speed_limited ) } ;
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// update message if using motor connection
if ( _type = = ConnectionType : : TYPE_MOTOR ) {
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const uint8_t motor_power = ( uint8_t ) constrain_int16 ( _motor_power , 0 , 100 ) ;
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mot_speed_cmd_buff [ 0 ] = ( uint8_t ) MsgAddress : : MOTOR ;
mot_speed_cmd_buff [ 1 ] = ( uint8_t ) MotorMsgId : : DRIVE ;
mot_speed_cmd_buff [ 2 ] = ( mot_speed_limited = = 0 ? 0 : 0x01 ) | ( _motor_clear_error ? 0x04 : 0 ) ; // 1:enable motor, 2:fast off, 4:clear error
mot_speed_cmd_buff [ 3 ] = mot_speed_limited = = 0 ? 0 : motor_power ; // motor power from 0 to 100
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// set expected reply message id
set_expected_reply_msgid ( ( uint8_t ) MotorMsgId : : DRIVE ) ;
// reset motor clear error request
_motor_clear_error = false ;
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}
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// send a message
if ( send_message ( mot_speed_cmd_buff , ARRAY_SIZE ( mot_speed_cmd_buff ) ) ) {
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// record time of send for health reporting
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WITH_SEMAPHORE ( _last_healthy_sem ) ;
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_last_send_motor_ms = AP_HAL : : millis ( ) ;
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}
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}
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// send request to motor to reply with a particular message
// msg_id can be INFO, STATUS or PARAM
void AP_Torqeedo : : send_motor_msg_request ( MotorMsgId msg_id )
{
// prepare message
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uint8_t mot_status_request_buff [ ] = { ( uint8_t ) MsgAddress : : MOTOR , ( uint8_t ) msg_id } ;
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// send a message
if ( send_message ( mot_status_request_buff , ARRAY_SIZE ( mot_status_request_buff ) ) ) {
// record waiting for reply
set_expected_reply_msgid ( ( uint8_t ) msg_id ) ;
}
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}
// calculate the limited motor speed that is sent to the motors
// desired_motor_speed argument and returned value are in the range -1000 to 1000
int16_t AP_Torqeedo : : calc_motor_speed_limited ( int16_t desired_motor_speed )
{
const uint32_t now_ms = AP_HAL : : millis ( ) ;
// update dir_limit flag for forward-reverse transition delay
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const bool dir_delay_active = is_positive ( _dir_delay ) ;
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if ( ! dir_delay_active ) {
// allow movement in either direction
_dir_limit = 0 ;
} else {
// by default limit motor direction to previous iteration's direction
if ( is_positive ( _motor_speed_limited ) ) {
_dir_limit = 1 ;
} else if ( is_negative ( _motor_speed_limited ) ) {
_dir_limit = - 1 ;
} else {
// motor speed is zero
if ( ( _motor_speed_zero_ms ! = 0 ) & & ( ( now_ms - _motor_speed_zero_ms ) > ( _dir_delay * 1000 ) ) ) {
// delay has passed so allow movement in either direction
_dir_limit = 0 ;
_motor_speed_zero_ms = 0 ;
}
}
}
// calculate upper and lower limits for forward-reverse transition delay
int16_t lower_limit = - 1000 ;
int16_t upper_limit = 1000 ;
if ( _dir_limit < 0 ) {
upper_limit = 0 ;
}
if ( _dir_limit > 0 ) {
lower_limit = 0 ;
}
// calculate dt since last update
float dt = ( now_ms - _motor_speed_limited_ms ) / 1000.0f ;
if ( dt > 1.0 ) {
// after a long delay limit motor output to zero to avoid sudden starts
lower_limit = 0 ;
upper_limit = 0 ;
}
_motor_speed_limited_ms = now_ms ;
// apply slew limit
if ( _slew_time > 0 ) {
const float chg_max = 1000.0 * dt / _slew_time ;
_motor_speed_limited = constrain_float ( desired_motor_speed , _motor_speed_limited - chg_max , _motor_speed_limited + chg_max ) ;
} else {
// no slew limit
_motor_speed_limited = desired_motor_speed ;
}
// apply upper and lower limits
_motor_speed_limited = constrain_float ( _motor_speed_limited , lower_limit , upper_limit ) ;
// record time motor speed becomes zero
if ( is_zero ( _motor_speed_limited ) ) {
if ( _motor_speed_zero_ms = = 0 ) {
_motor_speed_zero_ms = now_ms ;
}
} else {
// clear timer
_motor_speed_zero_ms = 0 ;
}
return ( int16_t ) _motor_speed_limited ;
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}
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// output logging and debug messages (if required)
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// force_logging should be true if caller wants to ensure the latest status is logged
void AP_Torqeedo : : log_TRQD ( bool force_logging )
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{
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// exit immediately if options are all unset
if ( _options = = 0 ) {
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return ;
}
// return if not enough time has passed since last output
const uint32_t now_ms = AP_HAL : : millis ( ) ;
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if ( ! force_logging & & ( now_ms - _last_log_TRQD_ms < TORQEEDO_LOG_TRQD_INTERVAL_MS ) ) {
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return ;
}
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_last_log_TRQD_ms = now_ms ;
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const bool health = healthy ( ) ;
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int16_t actual_motor_speed = get_motor_speed_limited ( ) ;
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if ( ( _options & options : : LOG ) ! = 0 ) {
// @LoggerMessage: TRQD
// @Description: Torqeedo Status
// @Field: TimeUS: Time since system startup
// @Field: Health: Health
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// @Field: DesMotSpeed: Desired Motor Speed (-1000 to 1000)
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// @Field: MotSpeed: Motor Speed (-1000 to 1000)
// @Field: SuccCnt: Success Count
// @Field: ErrCnt: Error Count
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AP : : logger ( ) . Write ( " TRQD " , " TimeUS,Health,DesMotSpeed,MotSpeed,SuccCnt,ErrCnt " , " QBhhII " ,
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AP_HAL : : micros64 ( ) ,
health ,
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_motor_speed_desired ,
actual_motor_speed ,
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_parse_success_count ,
_parse_error_count ) ;
}
if ( ( _options & options : : DEBUG_TO_GCS ) ! = 0 ) {
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gcs ( ) . send_text ( MAV_SEVERITY_INFO , " TRQD h:%u dspd:%d spd:%d succ:%ld err:%ld " ,
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( unsigned ) health ,
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( int ) _motor_speed_desired ,
( int ) actual_motor_speed ,
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( unsigned long ) _parse_success_count ,
( unsigned long ) _parse_error_count ) ;
}
}
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// send ESC telemetry
void AP_Torqeedo : : update_esc_telem ( float rpm , float voltage , float current_amps , float esc_tempC , float motor_tempC )
{
# if HAL_WITH_ESC_TELEM
// find servo output channel
uint8_t telem_esc_index = 0 ;
IGNORE_RETURN ( SRV_Channels : : find_channel ( SRV_Channel : : Aux_servo_function_t : : k_throttle , telem_esc_index ) ) ;
// fill in telemetry data structure
AP_ESC_Telem_Backend : : TelemetryData telem_dat { } ;
telem_dat . temperature_cdeg = esc_tempC * 100 ; // temperature in centi-degrees
telem_dat . voltage = voltage ; // voltage in volts
telem_dat . current = current_amps ; // current in amps
telem_dat . motor_temp_cdeg = motor_tempC * 100 ; // motor temperature in centi-degrees
// send telem and rpm data
update_telem_data ( telem_esc_index , telem_dat , AP_ESC_Telem_Backend : : TelemetryType : : TEMPERATURE |
AP_ESC_Telem_Backend : : TelemetryType : : MOTOR_TEMPERATURE |
AP_ESC_Telem_Backend : : TelemetryType : : CURRENT |
AP_ESC_Telem_Backend : : TelemetryType : : VOLTAGE ) ;
update_rpm ( telem_esc_index , rpm ) ;
# endif
}
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// get the AP_Torqeedo singleton
AP_Torqeedo * AP_Torqeedo : : get_singleton ( )
{
return _singleton ;
}
AP_Torqeedo * AP_Torqeedo : : _singleton = nullptr ;
namespace AP {
AP_Torqeedo * torqeedo ( )
{
return AP_Torqeedo : : get_singleton ( ) ;
}
} ;
# endif // HAL_TORQEEDO_ENABLED