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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_RCProtocol/AP_RCProtocol_config.h>
# ifdef HAL_PERIPH_ENABLE_RCIN
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# ifndef AP_PERIPH_RC1_PORT_DEFAULT
# define AP_PERIPH_RC1_PORT_DEFAULT -1
# endif
# ifndef AP_PERIPH_RC1_PORT_OPTIONS_DEFAULT
# define AP_PERIPH_RC1_PORT_OPTIONS_DEFAULT 0
# endif
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# include <AP_RCProtocol/AP_RCProtocol.h>
# include "AP_Periph.h"
# include <dronecan_msgs.h>
extern const AP_HAL : : HAL & hal ;
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const AP_Param : : GroupInfo Parameters_RCIN : : var_info [ ] {
// RC_PROTOCOLS copied from RC_Channel/RC_Channels_Varinfo.h
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// @Param: _PROTOCOLS
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// @DisplayName: RC protocols enabled
// @Description: Bitmask of enabled RC protocols. Allows narrowing the protocol detection to only specific types of RC receivers which can avoid issues with incorrect detection. Set to 1 to enable all protocols.
// @User: Advanced
// @Bitmask: 0:All,1:PPM,2:IBUS,3:SBUS,4:SBUS_NI,5:DSM,6:SUMD,7:SRXL,8:SRXL2,9:CRSF,10:ST24,11:FPORT,12:FPORT2,13:FastSBUS
AP_GROUPINFO ( " _PROTOCOLS " , 1 , Parameters_RCIN , rcin_protocols , 1 ) ,
// RC_PROTOCOLS copied from RC_Channel/RC_Channels_Varinfo.h
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// @Param: _MSGRATE
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// @DisplayName: DroneCAN RC Message rate
// @Description: Rate at which RC input is sent via DroneCAN
// @User: Advanced
// @Increment: 1
// @Range: 0 255
// @Units: Hz
AP_GROUPINFO ( " _MSGRATE " , 2 , Parameters_RCIN , rcin_rate_hz , 50 ) ,
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// @Param: 1_PORT
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// @DisplayName: RC input port
// @Description: This is the serial port number where SERIALx_PROTOCOL will be set to RC input.
// @Range: 0 10
// @Increment: 1
// @User: Advanced
// @RebootRequired: True
AP_GROUPINFO ( " _PORT " , 3 , Parameters_RCIN , rcin1_port , AP_PERIPH_RC1_PORT_DEFAULT ) ,
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// @Param: 1_PORT_OPTIONS
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// @DisplayName: RC input port serial options
// @Description: Control over UART options. The InvertRX option controls invert of the receive pin. The InvertTX option controls invert of the transmit pin. The HalfDuplex option controls half-duplex (onewire) mode, where both transmit and receive is done on the transmit wire. The Swap option allows the RX and TX pins to be swapped on STM32F7 based boards.
// @Bitmask: 0:InvertRX, 1:InvertTX, 2:HalfDuplex, 3:SwapTXRX, 4: RX_PullDown, 5: RX_PullUp, 6: TX_PullDown, 7: TX_PullUp, 8: RX_NoDMA, 9: TX_NoDMA, 10: Don't forward mavlink to/from, 11: DisableFIFO, 12: Ignore Streamrate
AP_GROUPINFO ( " 1_PORT_OPTIONS " , 4 , Parameters_RCIN , rcin1_port_options , AP_PERIPH_RC1_PORT_OPTIONS_DEFAULT ) ,
// @RebootRequired: True
AP_GROUPEND
} ;
Parameters_RCIN : : Parameters_RCIN ( void )
{
AP_Param : : setup_object_defaults ( this , var_info ) ;
}
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void AP_Periph_FW : : rcin_init ( )
{
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if ( g_rcin . rcin1_port < 0 ) {
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return ;
}
// init uart for serial RC
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auto * uart = hal . serial ( g_rcin . rcin1_port ) ;
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if ( uart = = nullptr ) {
return ;
}
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uart - > set_options ( g_rcin . rcin1_port_options ) ;
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serial_manager . set_protocol_and_baud (
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g_rcin . rcin1_port ,
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AP_SerialManager : : SerialProtocol_RCIN ,
115200 // baud doesn't matter; RC Protocol autobauds
) ;
auto & rc = AP : : RC ( ) ;
rc . init ( ) ;
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rc . set_rc_protocols ( g_rcin . rcin_protocols ) ;
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rc . add_uart ( uart ) ;
rcin_initialised = true ;
}
void AP_Periph_FW : : rcin_update ( )
{
if ( ! rcin_initialised ) {
return ;
}
auto & rc = AP : : RC ( ) ;
if ( ! rc . new_input ( ) ) {
return ;
}
// log discovered protocols:
auto new_rc_protocol = rc . protocol_name ( ) ;
if ( new_rc_protocol ! = rcin_rc_protocol ) {
can_printf ( " Decoding (%s) " , new_rc_protocol ) ;
rcin_rc_protocol = new_rc_protocol ;
}
// decimate the input to a parameterized rate
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const uint8_t rate_hz = g_rcin . rcin_rate_hz ;
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if ( rate_hz = = 0 ) {
return ;
}
const auto now_ms = AP_HAL : : millis ( ) ;
const auto interval_ms = 1000U / rate_hz ;
if ( now_ms - rcin_last_sent_RCInput_ms < interval_ms ) {
return ;
}
rcin_last_sent_RCInput_ms = now_ms ;
// extract data and send CAN packet:
const uint8_t num_channels = rc . num_channels ( ) ;
uint16_t channels [ MAX_RCIN_CHANNELS ] ;
rc . read ( channels , num_channels ) ;
const int16_t rssi = rc . get_RSSI ( ) ;
can_send_RCInput ( ( uint8_t ) rssi , channels , num_channels , rc . failsafe_active ( ) , rssi > 0 & & rssi < 256 ) ;
}
/*
send an RCInput CAN message
*/
void AP_Periph_FW : : can_send_RCInput ( uint8_t quality , uint16_t * values , uint8_t nvalues , bool in_failsafe , bool quality_valid )
{
uint16_t status = 0 ;
if ( quality_valid ) {
status | = DRONECAN_SENSORS_RC_RCINPUT_STATUS_QUALITY_VALID ;
}
if ( in_failsafe ) {
status | = DRONECAN_SENSORS_RC_RCINPUT_STATUS_FAILSAFE ;
}
// assemble packet
dronecan_sensors_rc_RCInput pkt { } ;
pkt . quality = quality ;
pkt . status = status ;
pkt . rcin . len = nvalues ;
for ( uint8_t i = 0 ; i < nvalues ; i + + ) {
pkt . rcin . data [ i ] = values [ i ] ;
}
// encode and send message:
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uint8_t buffer [ DRONECAN_SENSORS_RC_RCINPUT_MAX_SIZE ] ;
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uint16_t total_size = dronecan_sensors_rc_RCInput_encode ( & pkt , buffer , ! periph . canfdout ( ) ) ;
canard_broadcast ( DRONECAN_SENSORS_RC_RCINPUT_SIGNATURE ,
DRONECAN_SENSORS_RC_RCINPUT_ID ,
CANARD_TRANSFER_PRIORITY_HIGH ,
buffer ,
total_size ) ;
}
# endif // HAL_PERIPH_ENABLE_RCIN