/*
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 .
*/
/*
SRV_Channel.cpp - object to separate input and output channel
ranges, trim and reversal
*/
#include
#include
#include
#include
#include "SRV_Channel.h"
#include
#include
#if HAL_MAX_CAN_PROTOCOL_DRIVERS
#include
#include
#include
#endif
#if NUM_SERVO_CHANNELS == 0
#pragma GCC diagnostic ignored "-Wtype-limits"
#endif
extern const AP_HAL::HAL& hal;
SRV_Channel *SRV_Channels::channels;
SRV_Channels *SRV_Channels::_singleton;
#if AP_VOLZ_ENABLED
AP_Volz_Protocol *SRV_Channels::volz_ptr;
#endif
#ifndef HAL_BUILD_AP_PERIPH
AP_SBusOut *SRV_Channels::sbus_ptr;
#endif
#if AP_ROBOTISSERVO_ENABLED
AP_RobotisServo *SRV_Channels::robotis_ptr;
#endif
#if AP_FETTEC_ONEWIRE_ENABLED
AP_FETtecOneWire *SRV_Channels::fetteconwire_ptr;
#endif
uint16_t SRV_Channels::override_counter[NUM_SERVO_CHANNELS];
#if HAL_SUPPORT_RCOUT_SERIAL
AP_BLHeli *SRV_Channels::blheli_ptr;
#endif
uint32_t SRV_Channels::disabled_mask;
uint32_t SRV_Channels::digital_mask;
uint32_t SRV_Channels::reversible_mask;
uint32_t SRV_Channels::invalid_mask;
bool SRV_Channels::disabled_passthrough;
bool SRV_Channels::initialised;
bool SRV_Channels::emergency_stop;
Bitmask SRV_Channels::function_mask;
SRV_Channels::srv_function SRV_Channels::functions[SRV_Channel::k_nr_aux_servo_functions];
SRV_Channels::slew_list *SRV_Channels::_slew;
const AP_Param::GroupInfo SRV_Channels::var_info[] = {
#if (NUM_SERVO_CHANNELS >= 1)
// @Group: 1_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[0], "1_", 1, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 2)
// @Group: 2_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[1], "2_", 2, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 3)
// @Group: 3_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[2], "3_", 3, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 4)
// @Group: 4_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[3], "4_", 4, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 5)
// @Group: 5_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[4], "5_", 5, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 6)
// @Group: 6_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[5], "6_", 6, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 7)
// @Group: 7_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[6], "7_", 7, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 8)
// @Group: 8_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[7], "8_", 8, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 9)
// @Group: 9_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[8], "9_", 9, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 10)
// @Group: 10_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[9], "10_", 10, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 11)
// @Group: 11_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[10], "11_", 11, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 12)
// @Group: 12_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[11], "12_", 12, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 13)
// @Group: 13_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[12], "13_", 13, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 14)
// @Group: 14_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[13], "14_", 14, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 15)
// @Group: 15_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[14], "15_", 15, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 16)
// @Group: 16_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[15], "16_", 16, SRV_Channels, SRV_Channel),
#endif
#ifndef HAL_BUILD_AP_PERIPH
// @Param{Plane}: _AUTO_TRIM
// @DisplayName: Automatic servo trim
// @Description: This enables automatic servo trim in flight. Servos will be trimed in stabilized flight modes when the aircraft is close to level. Changes to servo trim will be saved every 10 seconds and will persist between flights. The automatic trim won't go more than 20% away from a centered trim.
// @Values: 0:Disable,1:Enable
// @User: Advanced
AP_GROUPINFO_FRAME("_AUTO_TRIM", 17, SRV_Channels, auto_trim, 0, AP_PARAM_FRAME_PLANE),
#endif
// @Param: _RATE
// @DisplayName: Servo default output rate
// @Description: This sets the default output rate in Hz for all outputs.
// @Range: 25 400
// @User: Advanced
// @Units: Hz
AP_GROUPINFO("_RATE", 18, SRV_Channels, default_rate, 50),
#if AP_VOLZ_ENABLED
// @Group: _VOLZ_
// @Path: ../AP_Volz_Protocol/AP_Volz_Protocol.cpp
AP_SUBGROUPINFO(volz, "_VOLZ_", 19, SRV_Channels, AP_Volz_Protocol),
#endif
#ifndef HAL_BUILD_AP_PERIPH
// @Group: _SBUS_
// @Path: ../AP_SBusOut/AP_SBusOut.cpp
AP_SUBGROUPINFO(sbus, "_SBUS_", 20, SRV_Channels, AP_SBusOut),
#endif // HAL_BUILD_AP_PERIPH
#if HAL_SUPPORT_RCOUT_SERIAL
// @Group: _BLH_
// @Path: ../AP_BLHeli/AP_BLHeli.cpp
AP_SUBGROUPINFO(blheli, "_BLH_", 21, SRV_Channels, AP_BLHeli),
#endif
#if AP_ROBOTISSERVO_ENABLED
// @Group: _ROB_
// @Path: ../AP_RobotisServo/AP_RobotisServo.cpp
AP_SUBGROUPINFO(robotis, "_ROB_", 22, SRV_Channels, AP_RobotisServo),
#endif
#if AP_FETTEC_ONEWIRE_ENABLED
// @Group: _FTW_
// @Path: ../AP_FETtecOneWire/AP_FETtecOneWire.cpp
AP_SUBGROUPINFO(fetteconwire, "_FTW_", 25, SRV_Channels, AP_FETtecOneWire),
#endif
// @Param: _DSHOT_RATE
// @DisplayName: Servo DShot output rate
// @Description: This sets the DShot output rate for all outputs as a multiple of the loop rate. 0 sets the output rate to be fixed at 1Khz for low loop rates. This value should never be set below 500Hz.
// @Values: 0:1Khz,1:loop-rate,2:double loop-rate,3:triple loop-rate,4:quadruple loop rate
// @User: Advanced
AP_GROUPINFO("_DSHOT_RATE", 23, SRV_Channels, dshot_rate, 0),
// @Param: _DSHOT_ESC
// @DisplayName: Servo DShot ESC type
// @Description: This sets the DShot ESC type for all outputs. The ESC type affects the range of DShot commands available. None means that no dshot commands will be executed.
// @Values: 0:None,1:BLHeli32/Kiss,2:BLHeli_S
// @User: Advanced
AP_GROUPINFO("_DSHOT_ESC", 24, SRV_Channels, dshot_esc_type, 0),
// @Param: _GPIO_MASK
// @DisplayName: Servo GPIO mask
// @Description: This sets a bitmask of outputs which will be available as GPIOs. Any output with either the function set to -1 or with the corresponding bit set in this mask will be available for use as a GPIO pin
// @Bitmask: 0:Servo 1, 1:Servo 2, 2:Servo 3, 3:Servo 4, 4:Servo 5, 5:Servo 6, 6:Servo 7, 7:Servo 8, 8:Servo 9, 9:Servo 10, 10:Servo 11, 11:Servo 12, 12:Servo 13, 13:Servo 14, 14:Servo 15, 15:Servo 16, 16:Servo 17, 17:Servo 18, 18:Servo 19, 19:Servo 20, 20:Servo 21, 21:Servo 22, 22:Servo 23, 23:Servo 24, 24:Servo 25, 25:Servo 26, 26:Servo 27, 27:Servo 28, 28:Servo 29, 29:Servo 30, 30:Servo 31, 31:Servo 32
// @User: Advanced
// @RebootRequired: True
AP_GROUPINFO("_GPIO_MASK", 26, SRV_Channels, gpio_mask, 0),
#if (NUM_SERVO_CHANNELS >= 17)
// @Param: _32_ENABLE
// @DisplayName: Enable outputs 17 to 31
// @Description: This allows for up to 32 outputs, enabling parameters for outputs above 16
// @User: Advanced
// @Values: 0:Disabled,1:Enabled
AP_GROUPINFO_FLAGS("_32_ENABLE", 43, SRV_Channels, enable_32_channels, 0, AP_PARAM_FLAG_ENABLE),
#endif
#if (NUM_SERVO_CHANNELS >= 17)
// @Group: 17_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[16], "17_", 27, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 18)
// @Group: 18_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[17], "18_", 28, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 19)
// @Group: 19_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[18], "19_", 29, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 20)
// @Group: 20_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[19], "20_", 30, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 21)
// @Group: 21_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[20], "21_", 31, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 22)
// @Group: 22_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[21], "22_", 32, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 23)
// @Group: 23_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[22], "23_", 33, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 24)
// @Group: 24_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[23], "24_", 34, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 25)
// @Group: 25_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[24], "25_", 35, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 26)
// @Group: 26_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[25], "26_", 36, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 27)
// @Group: 27_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[26], "27_", 37, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 28)
// @Group: 28_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[27], "28_", 38, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 29)
// @Group: 29_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[28], "29_", 39, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 30)
// @Group: 30_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[29], "30_", 40, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 31)
// @Group: 31_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[30], "31_", 41, SRV_Channels, SRV_Channel),
#endif
#if (NUM_SERVO_CHANNELS >= 32)
// @Group: 32_
// @Path: SRV_Channel.cpp
AP_SUBGROUPINFO(obj_channels[31], "32_", 42, SRV_Channels, SRV_Channel),
#endif
AP_GROUPEND
};
/*
constructor
*/
SRV_Channels::SRV_Channels(void)
{
_singleton = this;
channels = obj_channels;
// set defaults from the parameter table
AP_Param::setup_object_defaults(this, var_info);
// setup ch_num on channels
for (uint8_t i=0; i 16
if (i >= 16) {
// default to GPIO, this disables the pin and stops logging
channels[i].function.set_default(SRV_Channel::k_GPIO);
}
#endif
}
#if AP_FETTEC_ONEWIRE_ENABLED
fetteconwire_ptr = &fetteconwire;
#endif
#if AP_VOLZ_ENABLED
volz_ptr = &volz;
#endif
#ifndef HAL_BUILD_AP_PERIPH
sbus_ptr = &sbus;
#endif
#if AP_ROBOTISSERVO_ENABLED
robotis_ptr = &robotis;
#endif // AP_ROBOTISSERVO_ENABLED
#if HAL_SUPPORT_RCOUT_SERIAL
blheli_ptr = &blheli;
#endif
}
// SRV_Channels initialization
void SRV_Channels::init(uint32_t motor_mask, AP_HAL::RCOutput::output_mode mode)
{
// initialize BLHeli late so that all of the masks it might setup don't get trodden on by motor initialization
#if HAL_SUPPORT_RCOUT_SERIAL
blheli_ptr->init(motor_mask, mode);
#endif
#ifndef HAL_BUILD_AP_PERIPH
hal.rcout->set_dshot_rate(_singleton->dshot_rate, AP::scheduler().get_loop_rate_hz());
#endif
}
/*
save adjusted trims
*/
void SRV_Channels::save_trim(void)
{
for (uint8_t i=0; iset_failsafe_pwm(1U<next) {
if (is_positive(slew->max_change)) {
// treat negative or zero slew rate as disabled
functions[slew->func].output_scaled = constrain_float(functions[slew->func].output_scaled, slew->last_scaled_output - slew->max_change, slew->last_scaled_output + slew->max_change);
}
slew->last_scaled_output = functions[slew->func].output_scaled;
}
WITH_SEMAPHORE(_singleton->override_counter_sem);
for (uint8_t i=0; ioverride_counter_sem);
if (chan < NUM_SERVO_CHANNELS) {
const uint32_t loop_period_us = AP::scheduler().get_loop_period_us();
// round up so any non-zero requested value will result in at least one loop
const uint32_t loop_count = ((timeout_ms * 1000U) + (loop_period_us - 1U)) / loop_period_us;
override_counter[chan] = constrain_int32(loop_count, 0, UINT16_MAX);
channels[chan].set_override(true);
const bool had_pwm = SRV_Channel::have_pwm_mask & (1U<cork()
*/
void SRV_Channels::cork()
{
hal.rcout->cork();
}
/*
wrapper around hal.rcout->push()
*/
void SRV_Channels::push()
{
hal.rcout->push();
#if AP_VOLZ_ENABLED
// give volz library a chance to update
volz_ptr->update();
#endif
#ifndef HAL_BUILD_AP_PERIPH
// give sbus library a chance to update
sbus_ptr->update();
#endif // HAL_BUILD_AP_PERIPH
#if AP_ROBOTISSERVO_ENABLED
// give robotis library a chance to update
robotis_ptr->update();
#endif
#if HAL_SUPPORT_RCOUT_SERIAL
// give blheli telemetry a chance to update
blheli_ptr->update_telemetry();
#endif
#if AP_FETTEC_ONEWIRE_ENABLED
fetteconwire_ptr->update();
#endif
#if AP_KDECAN_ENABLED
if (AP::kdecan() != nullptr) {
AP::kdecan()->update();
}
#endif
#if HAL_ENABLE_DRONECAN_DRIVERS
// push outputs to CAN
uint8_t can_num_drivers = AP::can().get_num_drivers();
for (uint8_t i = 0; i < can_num_drivers; i++) {
switch (AP::can().get_driver_type(i)) {
case AP_CAN::Protocol::DroneCAN: {
AP_DroneCAN *ap_dronecan = AP_DroneCAN::get_dronecan(i);
if (ap_dronecan == nullptr) {
continue;
}
ap_dronecan->SRV_push_servos();
break;
}
#if HAL_PICCOLO_CAN_ENABLE
case AP_CAN::Protocol::PiccoloCAN: {
AP_PiccoloCAN *ap_pcan = AP_PiccoloCAN::get_pcan(i);
if (ap_pcan == nullptr) {
continue;
}
ap_pcan->update();
break;
}
#endif
case AP_CAN::Protocol::None:
default:
break;
}
}
#endif // HAL_NUM_CAN_IFACES
}
void SRV_Channels::zero_rc_outputs()
{
/* Send an invalid signal to the motors to prevent spinning due to
* neutral (1500) pwm pulse being cut short. For that matter,
* send an invalid signal to all channels to prevent
* undesired/unexpected behavior
*/
cork();
for (uint8_t i=0; iwrite(i, 0);
}
push();
}
/*
return true if a channel should be available as a GPIO
*/
bool SRV_Channels::is_GPIO(uint8_t channel)
{
if (channel_function(channel) == SRV_Channel::k_GPIO) {
return true;
}
if (_singleton != nullptr && (_singleton->gpio_mask & (1U<logging_enabled()) {
logger->Write_Event(state ? LogEvent::MOTORS_EMERGENCY_STOPPED : LogEvent::MOTORS_EMERGENCY_STOP_CLEARED);
}
}
#endif
emergency_stop = state;
}