pwm.cpp
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/****************************************************************************
*
* Copyright (c) 2013, 2014, 2017 PX4 Development Team. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name PX4 nor the names of its contributors may be
* used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
****************************************************************************/
/**
* @file pwm.cpp
*
* PWM servo output configuration and monitoring tool.
*/
#include <px4_platform_common/px4_config.h>
#include <px4_platform_common/tasks.h>
#include <px4_platform_common/posix.h>
#include <px4_platform_common/getopt.h>
#include <px4_platform_common/defines.h>
#include <px4_platform_common/log.h>
#include <px4_platform_common/module.h>
#include <px4_platform_common/cli.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdbool.h>
#include <unistd.h>
#include <fcntl.h>
#include <poll.h>
#include <sys/ioctl.h>
#include <sys/stat.h>
#ifdef __PX4_NUTTX
#include <nuttx/fs/ioctl.h>
#endif
#include "systemlib/err.h"
#include <parameters/param.h>
#include "drivers/drv_pwm_output.h"
static void usage(const char *reason);
__BEGIN_DECLS
__EXPORT int pwm_main(int argc, char *argv[]);
__END_DECLS
static void
usage(const char *reason)
{
if (reason != nullptr) {
PX4_WARN("%s", reason);
}
PRINT_MODULE_DESCRIPTION(
R"DESCR_STR(
### Description
This command is used to configure PWM outputs for servo and ESC control.
The default device `/dev/pwm_output0` are the Main channels, AUX channels are on `/dev/pwm_output1` (`-d` parameter).
It is used in the startup script to make sure the PWM parameters (`PWM_*`) are applied (or the ones provided
by the airframe config if specified). `pwm status` shows the current settings (the trim value is an offset
and configured with `PWM_MAIN_TRIMx` and `PWM_AUX_TRIMx`).
The disarmed value should be set such that the motors don't spin (it's also used for the kill switch), at the
minimum value they should spin.
Channels are assigned to a group. Due to hardware limitations, the update rate can only be set per group. Use
`pwm status` to display the groups. If the `-c` argument is used, all channels of any included group must be included.
The parameters `-p` and `-r` can be set to a parameter instead of specifying an integer: use -p p:PWM_MIN for example.
Note that in OneShot mode, the PWM range [1000, 2000] is automatically mapped to [125, 250].
### Examples
Set the PWM rate for all channels to 400 Hz:
$ pwm rate -a -r 400
Test the outputs of eg. channels 1 and 3, and set the PWM value to 1200 us:
$ pwm arm
$ pwm test -c 13 -p 1200
)DESCR_STR");
PRINT_MODULE_USAGE_NAME("pwm", "command");
PRINT_MODULE_USAGE_COMMAND_DESCR("arm", "Arm output");
PRINT_MODULE_USAGE_COMMAND_DESCR("disarm", "Disarm output");
PRINT_MODULE_USAGE_COMMAND_DESCR("status", "Print current configuration of all channels");
PRINT_MODULE_USAGE_COMMAND_DESCR("forcefail", "Force Failsafe mode. "
"PWM outputs are set to failsafe values.");
PRINT_MODULE_USAGE_ARG("on|off", "Turn on or off", false);
PRINT_MODULE_USAGE_COMMAND_DESCR("terminatefail", "Enable Termination Failsafe mode. "
"While this is true, "
"any failsafe that occurs will be unrecoverable (even if recovery conditions are met).");
PRINT_MODULE_USAGE_ARG("on|off", "Turn on or off", false);
PRINT_MODULE_USAGE_COMMAND_DESCR("rate", "Configure PWM rates");
PRINT_MODULE_USAGE_PARAM_INT('r', -1, 50, 400, "PWM Rate in Hz (0 = Oneshot, otherwise 50 to 400Hz)", false);
PRINT_MODULE_USAGE_COMMAND_DESCR("oneshot", "Configure Oneshot125 (rate is set to 0)");
PRINT_MODULE_USAGE_COMMAND_DESCR("failsafe", "Set Failsafe PWM value");
PRINT_MODULE_USAGE_COMMAND_DESCR("disarmed", "Set Disarmed PWM value");
PRINT_MODULE_USAGE_COMMAND_DESCR("min", "Set Minimum PWM value");
PRINT_MODULE_USAGE_COMMAND_DESCR("max", "Set Maximum PWM value");
PRINT_MODULE_USAGE_COMMAND_DESCR("test", "Set Output to a specific value until 'q' or 'c' or 'ctrl-c' pressed");
PRINT_MODULE_USAGE_COMMAND_DESCR("steps", "Run 5 steps from 0 to 100%");
PRINT_MODULE_USAGE_PARAM_COMMENT("The commands 'failsafe', 'disarmed', 'min', 'max' and 'test' require a PWM value:");
PRINT_MODULE_USAGE_PARAM_INT('p', -1, 0, 4000, "PWM value (eg. 1100)", false);
PRINT_MODULE_USAGE_PARAM_COMMENT("The commands 'rate', 'oneshot', 'failsafe', 'disarmed', 'min', 'max', 'test' and 'steps' "
"additionally require to specify the channels with one of the following commands:");
PRINT_MODULE_USAGE_PARAM_STRING('c', nullptr, nullptr, "select channels in the form: 1234 (1 digit per channel, 1=first)",
true);
PRINT_MODULE_USAGE_PARAM_INT('m', -1, 0, 4096, "Select channels via bitmask (eg. 0xF, 3)", true);
PRINT_MODULE_USAGE_PARAM_INT('g', -1, 0, 10, "Select channels by group (eg. 0, 1, 2. use 'pwm status' to show groups)",
true);
PRINT_MODULE_USAGE_PARAM_FLAG('a', "Select all channels", true);
PRINT_MODULE_USAGE_PARAM_COMMENT("These parameters apply to all commands:");
PRINT_MODULE_USAGE_PARAM_STRING('d', "/dev/pwm_output0", "<file:dev>", "Select PWM output device", true);
PRINT_MODULE_USAGE_PARAM_FLAG('v', "Verbose output", true);
PRINT_MODULE_USAGE_PARAM_FLAG('e', "Exit with 1 instead of 0 on error", true);
}
int
pwm_main(int argc, char *argv[])
{
const char *dev = PWM_OUTPUT0_DEVICE_PATH;
int alt_rate = -1; // Default to indicate not set.
uint32_t alt_channel_groups = 0;
bool alt_channels_set = false;
bool print_verbose = false;
bool error_on_warn = false;
bool oneshot = false;
int ch;
int ret;
int rv = 1;
char *ep;
uint32_t set_mask = 0;
unsigned group;
unsigned long channels;
unsigned single_ch = 0;
int pwm_value = 0;
if (argc < 2) {
usage(nullptr);
return 1;
}
int myoptind = 1;
const char *myoptarg = nullptr;
while ((ch = px4_getopt(argc, argv, "d:vec:g:m:ap:r:", &myoptind, &myoptarg)) != EOF) {
switch (ch) {
case 'd':
if (nullptr == strstr(myoptarg, "/dev/")) {
PX4_WARN("device %s not valid", myoptarg);
usage(nullptr);
return 1;
}
dev = myoptarg;
break;
case 'v':
print_verbose = true;
break;
case 'e':
error_on_warn = true;
break;
case 'c':
/* Read in channels supplied as one int and convert to mask: 1234 -> 0xF */
channels = strtoul(myoptarg, &ep, 0);
while ((single_ch = channels % 10)) {
set_mask |= 1 << (single_ch - 1);
channels /= 10;
}
break;
case 'g':
group = strtoul(myoptarg, &ep, 0);
if ((*ep != '\0') || (group >= 32)) {
usage("bad channel_group value");
return 1;
}
alt_channel_groups |= (1 << group);
alt_channels_set = true;
break;
case 'm':
/* Read in mask directly */
set_mask = strtoul(myoptarg, &ep, 0);
if (*ep != '\0') {
usage("BAD set_mask VAL");
return 1;
}
break;
case 'a':
for (unsigned i = 0; i < PWM_OUTPUT_MAX_CHANNELS; i++) {
set_mask |= 1 << i;
}
break;
case 'p':
if (px4_get_parameter_value(myoptarg, pwm_value) != 0) {
PX4_ERR("CLI argument parsing for PWM value failed");
return 1;
}
break;
case 'r':
if (px4_get_parameter_value(myoptarg, alt_rate) != 0) {
PX4_ERR("CLI argument parsing for PWM rate failed");
return 1;
}
break;
default:
usage(nullptr);
return 1;
}
}
if (myoptind >= argc) {
usage(nullptr);
return 1;
}
const char *command = argv[myoptind];
if (print_verbose && set_mask > 0) {
PX4_INFO("Channels: ");
printf(" ");
for (unsigned i = 0; i < PWM_OUTPUT_MAX_CHANNELS; i++) {
if (set_mask & 1 << i) {
printf("%d ", i + 1);
}
}
printf("\n");
}
/* open for ioctl only */
int fd = px4_open(dev, 0);
if (fd < 0) {
PX4_ERR("can't open %s", dev);
return 1;
}
/* get the number of servo channels */
unsigned servo_count;
ret = px4_ioctl(fd, PWM_SERVO_GET_COUNT, (unsigned long)&servo_count);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_COUNT");
return error_on_warn;
}
oneshot = !strcmp(command, "oneshot");
if (!strcmp(command, "arm")) {
/* tell safety that its ok to disable it with the switch */
ret = px4_ioctl(fd, PWM_SERVO_SET_ARM_OK, 0);
if (ret != OK) {
err(1, "PWM_SERVO_SET_ARM_OK");
}
/* tell IO that the system is armed (it will output values if safety is off) */
ret = px4_ioctl(fd, PWM_SERVO_ARM, 0);
if (ret != OK) {
err(1, "PWM_SERVO_ARM");
}
if (print_verbose) {
PX4_INFO("Outputs armed");
}
return 0;
} else if (!strcmp(command, "disarm")) {
/* disarm, but do not revoke the SET_ARM_OK flag */
ret = px4_ioctl(fd, PWM_SERVO_DISARM, 0);
if (ret != OK) {
err(1, "PWM_SERVO_DISARM");
}
if (print_verbose) {
PX4_INFO("Outputs disarmed");
}
return 0;
} else if (oneshot || !strcmp(command, "rate")) {
/* Change alternate PWM rate or set oneshot
* Either the "oneshot" command was used
* and/OR -r was provided on command line and has changed the alt_rate
* to the non default of -1, so we will issue the PWM_SERVO_SET_UPDATE_RATE
* ioctl
*/
if (oneshot || alt_rate >= 0) {
ret = px4_ioctl(fd, PWM_SERVO_SET_UPDATE_RATE, oneshot ? 0 : alt_rate);
if (ret != OK) {
PX4_ERR("PWM_SERVO_SET_UPDATE_RATE (check rate for sanity)");
return error_on_warn;
}
}
/* directly supplied channel mask */
if (set_mask > 0) {
ret = px4_ioctl(fd, PWM_SERVO_SET_SELECT_UPDATE_RATE, set_mask);
if (ret != OK) {
PX4_ERR("PWM_SERVO_SET_SELECT_UPDATE_RATE");
return error_on_warn;
}
}
/* assign alternate rate to channel groups */
if (alt_channels_set) {
uint32_t mask = 0;
for (group = 0; group < 32; group++) {
if ((1 << group) & alt_channel_groups) {
uint32_t group_mask;
ret = px4_ioctl(fd, PWM_SERVO_GET_RATEGROUP(group), (unsigned long)&group_mask);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_RATEGROUP(%u)", group);
return error_on_warn;
}
mask |= group_mask;
}
}
ret = px4_ioctl(fd, PWM_SERVO_SET_SELECT_UPDATE_RATE, mask);
if (ret != OK) {
PX4_ERR("PWM_SERVO_SET_SELECT_UPDATE_RATE");
return error_on_warn;
}
}
return 0;
} else if (!strcmp(command, "min")) {
if (set_mask == 0) {
usage("min: no channels set");
return 1;
}
if (pwm_value < 0) {
return 0;
}
if (pwm_value == 0) {
usage("min: no PWM value provided");
return 1;
}
struct pwm_output_values pwm_values {};
pwm_values.channel_count = servo_count;
/* first get current state before modifying it */
ret = px4_ioctl(fd, PWM_SERVO_GET_MIN_PWM, (long unsigned int)&pwm_values);
if (ret != OK) {
PX4_ERR("failed get min values");
return 1;
}
for (unsigned i = 0; i < servo_count; i++) {
if (set_mask & 1 << i) {
pwm_values.values[i] = pwm_value;
if (print_verbose) {
PX4_INFO("Channel %d: min PWM: %d", i + 1, pwm_value);
}
}
}
if (pwm_values.channel_count == 0) {
usage("min: no channels provided");
return 1;
} else {
ret = px4_ioctl(fd, PWM_SERVO_SET_MIN_PWM, (long unsigned int)&pwm_values);
if (ret != OK) {
PX4_ERR("failed setting min values (%d)", ret);
return error_on_warn;
}
}
return 0;
} else if (!strcmp(command, "max")) {
if (set_mask == 0) {
usage("no channels set");
return 1;
}
if (pwm_value < 0) {
return 0;
}
if (pwm_value == 0) {
usage("no PWM value provided");
return 1;
}
struct pwm_output_values pwm_values {};
pwm_values.channel_count = servo_count;
/* first get current state before modifying it */
ret = px4_ioctl(fd, PWM_SERVO_GET_MAX_PWM, (long unsigned int)&pwm_values);
if (ret != OK) {
PX4_ERR("failed get max values");
return 1;
}
for (unsigned i = 0; i < servo_count; i++) {
if (set_mask & 1 << i) {
pwm_values.values[i] = pwm_value;
if (print_verbose) {
PX4_INFO("Channel %d: max PWM: %d", i + 1, pwm_value);
}
}
}
if (pwm_values.channel_count == 0) {
usage("max: no PWM channels");
return 1;
} else {
ret = px4_ioctl(fd, PWM_SERVO_SET_MAX_PWM, (long unsigned int)&pwm_values);
if (ret != OK) {
PX4_ERR("failed setting max values (%d)", ret);
return error_on_warn;
}
}
return 0;
} else if (!strcmp(command, "disarmed")) {
if (set_mask == 0) {
usage("no channels set");
return 1;
}
if (pwm_value < 0) {
return 0;
}
if (pwm_value == 0) {
PX4_WARN("reading disarmed value of zero, disabling disarmed PWM");
}
struct pwm_output_values pwm_values {};
pwm_values.channel_count = servo_count;
/* first get current state before modifying it */
ret = px4_ioctl(fd, PWM_SERVO_GET_DISARMED_PWM, (long unsigned int)&pwm_values);
if (ret != OK) {
PX4_ERR("failed get disarmed values");
return ret;
}
for (unsigned i = 0; i < servo_count; i++) {
if (set_mask & 1 << i) {
pwm_values.values[i] = pwm_value;
if (print_verbose) {
PX4_INFO("chan %d: disarmed PWM: %d", i + 1, pwm_value);
}
}
}
if (pwm_values.channel_count == 0) {
usage("disarmed: no PWM channels");
return 1;
} else {
ret = px4_ioctl(fd, PWM_SERVO_SET_DISARMED_PWM, (long unsigned int)&pwm_values);
if (ret != OK) {
PX4_ERR("failed setting disarmed values (%d)", ret);
return error_on_warn;
}
}
return 0;
} else if (!strcmp(command, "failsafe")) {
if (set_mask == 0) {
usage("no channels set");
return 1;
}
if (pwm_value < 0) {
return 0;
}
if (pwm_value == 0) {
usage("failsafe: no PWM provided");
return 1;
}
struct pwm_output_values pwm_values {};
pwm_values.channel_count = servo_count;
/* first get current state before modifying it */
ret = px4_ioctl(fd, PWM_SERVO_GET_FAILSAFE_PWM, (long unsigned int)&pwm_values);
if (ret != OK) {
PX4_ERR("failed get failsafe values");
return 1;
}
for (unsigned i = 0; i < servo_count; i++) {
if (set_mask & 1 << i) {
pwm_values.values[i] = pwm_value;
if (print_verbose) {
PX4_INFO("Channel %d: failsafe PWM: %d", i + 1, pwm_value);
}
}
}
if (pwm_values.channel_count == 0) {
usage("failsafe: no PWM channels");
return 1;
} else {
ret = px4_ioctl(fd, PWM_SERVO_SET_FAILSAFE_PWM, (long unsigned int)&pwm_values);
if (ret != OK) {
PX4_ERR("BAD input VAL");
return 1;
}
}
return 0;
} else if (!strcmp(command, "test")) {
if (set_mask == 0) {
usage("no channels set");
return 1;
}
if (pwm_value == 0) {
usage("no PWM provided");
return 1;
}
/* get current servo values */
struct pwm_output_values last_spos;
for (unsigned i = 0; i < servo_count; i++) {
ret = px4_ioctl(fd, PWM_SERVO_GET(i), (unsigned long)&last_spos.values[i]);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET(%d)", i);
return 1;
}
}
/* perform PWM output */
/* Open console directly to grab CTRL-C signal */
struct pollfd fds;
fds.fd = 0; /* stdin */
fds.events = POLLIN;
if (::ioctl(fd, PWM_SERVO_SET_MODE, PWM_SERVO_ENTER_TEST_MODE) < 0) {
PX4_ERR("Failed to Enter pwm test mode");
goto err_out_no_test;
}
PX4_INFO("Press CTRL-C or 'c' to abort.");
while (1) {
for (unsigned i = 0; i < servo_count; i++) {
if (set_mask & 1 << i) {
ret = px4_ioctl(fd, PWM_SERVO_SET(i), pwm_value);
if (ret != OK) {
PX4_ERR("PWM_SERVO_SET(%d)", i);
goto err_out;
}
}
}
/* abort on user request */
char c;
ret = poll(&fds, 1, 0);
if (ret > 0) {
ret = read(0, &c, 1);
if (c == 0x03 || c == 0x63 || c == 'q') {
/* reset output to the last value */
for (unsigned i = 0; i < servo_count; i++) {
if (set_mask & 1 << i) {
ret = px4_ioctl(fd, PWM_SERVO_SET(i), last_spos.values[i]);
if (ret != OK) {
PX4_ERR("PWM_SERVO_SET(%d)", i);
goto err_out;
}
}
}
PX4_INFO("User abort\n");
rv = 0;
goto err_out;
}
}
/* Delay longer than the max Oneshot duration */
px4_usleep(2542);
#ifdef __PX4_NUTTX
/* Trigger all timer's channels in Oneshot mode to fire
* the oneshots with updated values.
*/
up_pwm_update();
#endif
}
rv = 0;
err_out:
if (::ioctl(fd, PWM_SERVO_SET_MODE, PWM_SERVO_EXIT_TEST_MODE) < 0) {
rv = 1;
PX4_ERR("Failed to Exit pwm test mode");
}
err_out_no_test:
return rv;
} else if (!strcmp(command, "steps")) {
if (set_mask == 0) {
usage("no channels set");
return 1;
}
/* get current servo values */
struct pwm_output_values last_spos;
for (unsigned i = 0; i < servo_count; i++) {
ret = px4_ioctl(fd, PWM_SERVO_GET(i), (unsigned long)&last_spos.values[i]);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET(%d)", i);
return 1;
}
}
/* perform PWM output */
/* Open console directly to grab CTRL-C signal */
struct pollfd fds;
fds.fd = 0; /* stdin */
fds.events = POLLIN;
PX4_WARN("Running 5 steps. WARNING! Motors will be live in 5 seconds\nPress any key to abort now.");
px4_sleep(5);
if (::ioctl(fd, PWM_SERVO_SET_MODE, PWM_SERVO_ENTER_TEST_MODE) < 0) {
PX4_ERR("Failed to Enter pwm test mode");
goto err_out_no_test;
}
unsigned off = 900;
unsigned idle = 1300;
unsigned full = 2000;
unsigned steps_timings_us[] = {2000, 5000, 20000, 50000};
unsigned phase = 0;
unsigned phase_counter = 0;
unsigned const phase_maxcount = 20;
for (unsigned steps_timing_index = 0;
steps_timing_index < sizeof(steps_timings_us) / sizeof(steps_timings_us[0]);
steps_timing_index++) {
PX4_INFO("Step input (0 to 100%%) over %u us ramp", steps_timings_us[steps_timing_index]);
while (1) {
for (unsigned i = 0; i < servo_count; i++) {
if (set_mask & 1 << i) {
unsigned val;
if (phase == 0) {
val = idle;
} else if (phase == 1) {
/* ramp - depending how steep it is this ramp will look instantaneous on the output */
val = idle + (full - idle) * ((float)phase_counter / phase_maxcount);
} else {
val = off;
}
ret = px4_ioctl(fd, PWM_SERVO_SET(i), val);
if (ret != OK) {
PX4_ERR("PWM_SERVO_SET(%d)", i);
goto err_out;
}
}
}
/* abort on user request */
char c;
ret = poll(&fds, 1, 0);
if (ret > 0) {
ret = read(0, &c, 1);
if (ret > 0) {
/* reset output to the last value */
for (unsigned i = 0; i < servo_count; i++) {
if (set_mask & 1 << i) {
ret = px4_ioctl(fd, PWM_SERVO_SET(i), last_spos.values[i]);
if (ret != OK) {
PX4_ERR("PWM_SERVO_SET(%d)", i);
goto err_out;
}
}
}
PX4_INFO("User abort\n");
rv = 0;
goto err_out;
}
}
if (phase == 1) {
px4_usleep(steps_timings_us[steps_timing_index] / phase_maxcount);
} else if (phase == 0) {
px4_usleep(50000);
} else if (phase == 2) {
px4_usleep(50000);
} else {
break;
}
phase_counter++;
if (phase_counter > phase_maxcount) {
phase++;
phase_counter = 0;
}
}
}
rv = 0;
goto err_out;
} else if (!strcmp(command, "status") || !strcmp(command, "info")) {
printf("device: %s\n", dev);
uint32_t info_default_rate;
uint32_t info_alt_rate;
uint32_t info_alt_rate_mask;
ret = px4_ioctl(fd, PWM_SERVO_GET_DEFAULT_UPDATE_RATE, (unsigned long)&info_default_rate);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_DEFAULT_UPDATE_RATE");
return 1;
}
ret = px4_ioctl(fd, PWM_SERVO_GET_UPDATE_RATE, (unsigned long)&info_alt_rate);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_UPDATE_RATE");
return 1;
}
ret = px4_ioctl(fd, PWM_SERVO_GET_SELECT_UPDATE_RATE, (unsigned long)&info_alt_rate_mask);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_SELECT_UPDATE_RATE");
return 1;
}
struct pwm_output_values failsafe_pwm;
struct pwm_output_values disarmed_pwm;
struct pwm_output_values min_pwm;
struct pwm_output_values max_pwm;
struct pwm_output_values trim_pwm;
ret = px4_ioctl(fd, PWM_SERVO_GET_FAILSAFE_PWM, (unsigned long)&failsafe_pwm);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_FAILSAFE_PWM");
return 1;
}
ret = px4_ioctl(fd, PWM_SERVO_GET_DISARMED_PWM, (unsigned long)&disarmed_pwm);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_DISARMED_PWM");
return 1;
}
ret = px4_ioctl(fd, PWM_SERVO_GET_MIN_PWM, (unsigned long)&min_pwm);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_MIN_PWM");
return 1;
}
ret = px4_ioctl(fd, PWM_SERVO_GET_MAX_PWM, (unsigned long)&max_pwm);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_MAX_PWM");
return 1;
}
ret = px4_ioctl(fd, PWM_SERVO_GET_TRIM_PWM, (unsigned long)&trim_pwm);
if (ret != OK) {
PX4_ERR("PWM_SERVO_GET_TRIM_PWM");
return 1;
}
/* print current servo values */
for (unsigned i = 0; i < servo_count; i++) {
servo_position_t spos;
ret = px4_ioctl(fd, PWM_SERVO_GET(i), (unsigned long)&spos);
if (ret == OK) {
printf("channel %u: %u us", i + 1, spos);
if (info_alt_rate_mask & (1 << i)) {
printf(" (alternative rate: %d Hz", info_alt_rate);
} else {
printf(" (default rate: %d Hz", info_default_rate);
}
printf(" failsafe: %d, disarmed: %d us, min: %d us, max: %d us, trim: %5.2f)",
failsafe_pwm.values[i], disarmed_pwm.values[i], min_pwm.values[i], max_pwm.values[i],
(double)((int16_t)(trim_pwm.values[i]) / 10000.0f));
printf("\n");
} else {
printf("%u: ERROR\n", i);
}
}
/* print rate groups */
for (unsigned i = 0; i < servo_count; i++) {
uint32_t group_mask;
ret = px4_ioctl(fd, PWM_SERVO_GET_RATEGROUP(i), (unsigned long)&group_mask);
if (ret != OK) {
break;
}
if (group_mask != 0) {
printf("channel group %u: channels", i);
for (unsigned j = 0; j < 32; j++) {
if (group_mask & (1 << j)) {
printf(" %u", j + 1);
}
}
printf("\n");
}
}
return 0;
} else if (!strcmp(command, "forcefail")) {
if (argc < 3) {
PX4_ERR("arg missing [on|off]");
return 1;
} else {
if (!strcmp(argv[2], "on")) {
/* force failsafe */
ret = px4_ioctl(fd, PWM_SERVO_SET_FORCE_FAILSAFE, 1);
} else {
/* disable failsafe */
ret = px4_ioctl(fd, PWM_SERVO_SET_FORCE_FAILSAFE, 0);
}
if (ret != OK) {
PX4_ERR("FAILED setting forcefail %s", argv[2]);
}
}
return 0;
} else if (!strcmp(command, "terminatefail")) {
if (argc < 3) {
PX4_ERR("arg missing [on|off]");
return 1;
} else {
if (!strcmp(argv[2], "on")) {
/* force failsafe */
ret = px4_ioctl(fd, PWM_SERVO_SET_TERMINATION_FAILSAFE, 1);
} else {
/* disable failsafe */
ret = px4_ioctl(fd, PWM_SERVO_SET_TERMINATION_FAILSAFE, 0);
}
if (ret != OK) {
PX4_ERR("FAILED setting termination failsafe %s", argv[2]);
}
}
return 0;
}
usage(nullptr);
return 0;
}