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/****************************************************************************
*
* Copyright (C) 2012 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 registers.c
*
* Implementation of the PX4IO register space.
*/
#include "px4io.h"
#include "protocol.h"
static int registers_set_one(uint8_t page, uint8_t offset, uint16_t value);
/**
* Setup registers
*/
uint16_t r_page_setup[] =
{
[PX4IO_P_SETUP_ARMING] = 0,
[PX4IO_P_SETUP_PWM_RATES] = 0,
[PX4IO_P_SETUP_PWM_LOWRATE] = 50,
[PX4IO_P_SETUP_PWM_HIGHRATE] = 200,
[PX4IO_P_SETUP_RELAYS] = 0,
};
#define PX4IO_P_SETUP_ARMING_VALID (PX4IO_P_SETUP_ARMING_ARM_OK | PX4IO_P_SETUP_ARMING_MANUAL_OVERRIDE)
#define PX4IO_P_SETUP_RATES_VALID ((1 << IO_SERVO_COUNT) - 1)
#define PX4IO_P_SETUP_RELAYS_VALID ((1 << PXIO_RELAY_CHANNELS) - 1)
/**
* Control values from the FMU.
*/
uint16_t r_page_controls[PX4IO_CONTROL_CHANNELS];
/**
* Static configuration parameters.
*/
static const uint16_t r_page_config[] = {
[PX4IO_P_CONFIG_PROTOCOL_VERSION] = 0,
[PX4IO_P_CONFIG_SOFTWARE_VERSION] = 0,
[PX4IO_P_CONFIG_BOOTLOADER_VERSION] = 0,
[PX4IO_P_CONFIG_MAX_TRANSFER] = 64,
[PX4IO_P_CONFIG_CONTROL_COUNT] = PX4IO_CONTROL_CHANNELS,
[PX4IO_P_CONFIG_ACTUATOR_COUNT] = IO_SERVO_COUNT,
[PX4IO_P_CONFIG_RC_INPUT_COUNT] = MAX_CONTROL_CHANNELS,
[PX4IO_P_CONFIG_ADC_INPUT_COUNT] = ADC_CHANNEL_COUNT,
[PX4IO_P_CONFIG_RELAY_COUNT] = PX4IO_RELAY_CHANNELS,
};
/**
* Status values.
*/
uint16_t r_page_status[] = {
[PX4IO_P_STATUS_FREEMEM] = 0,
[PX4IO_P_STATUS_CPULOAD] = 0,
[PX4IO_P_STATUS_FLAGS] = 0,
[PX4IO_P_STATUS_ALARMS] = 0,
[PX4IO_P_STATUS_VBATT] = 0,
[PX4IO_P_STATUS_TEMPERATURE] = 0
};
/**
* ADC input buffer.
*/
uint16_t r_page_adc[ADC_CHANNEL_COUNT];
/**
* Post-mixed actuator values.
*/
uint16_t r_page_actuators[IO_SERVO_COUNT];
/**
* Servo PWM values
*/
uint16_t r_page_servos[IO_SERVO_COUNT];
/**
* Scaled/routed RC input
*/
uint16_t r_page_rc_input[MAX_CONTROL_CHANNELS];
/**
* Raw RC input
*/
uint16_t r_page_raw_rc_input[MAX_CONTROL_CHANNELS];
void
registers_set(uint8_t page, uint8_t offset, const uint16_t *values, unsigned num_values)
{
switch (page) {
/* handle bulk controls input */
case PX4IO_PAGE_CONTROLS:
/* copy channel data */
while ((offset < PX4IO_CONTROL_CHANNELS) && (num_values > 0)) {
/* XXX scaling - should be -10000..10000 */
r_page_controls[offset] = *values;
offset++;
num_values--;
values++;
}
/* XXX we should cause a mixer tick ASAP */
system_state.mixer_fmu_available = true;
break;
/* handle text going to the mixer parser */
case PX4IO_PAGE_MIXERLOAD:
mixer_handle_text(values, num_values * sizeof(*values));
break;
default:
/* avoid offset wrap */
if ((offset + num_values) > 255)
num_values = 255 - offset;
/* iterate individual registers, set each in turn */
while (num_values--) {
if (registers_set_one(page, offset, *values))
break;
offset++;
values++;
}
}
}
static int
registers_set_one(uint8_t page, uint8_t offset, uint16_t value)
{
switch (page) {
case PX4IO_PAGE_STATUS:
switch (offset) {
case PX4IO_P_STATUS_ALARMS:
/* clear bits being written */
r_page_status[PX4IO_P_STATUS_ALARMS] &= ~value;
break;
default:
/* just ignore writes to other registers in this page */
break;
}
break;
case PX4IO_PAGE_SETUP:
switch (offset) {
case PX4IO_P_SETUP_ARMING:
value &= PX4IO_P_SETUP_ARMING_VALID;
r_page_setup[PX4IO_P_SETUP_ARMING] = value;
/* update arming state - disarm if no longer OK */
if (system_state.armed && !(value & PX4IO_P_SETUP_ARMING_ARM_OK))
system_state.armed = false;
break;
case PX4IO_P_SETUP_PWM_RATES:
value &= PX4IO_P_SETUP_RATES_VALID;
r_page_setup[PX4IO_P_SETUP_PWM_RATES] = value;
/* XXX re-configure timers */
break;
case PX4IO_P_SETUP_PWM_LOWRATE:
if (value < 50)
value = 50;
if (value > 400)
value = 400;
r_page_setup[PX4IO_P_SETUP_PWM_LOWRATE] = value;
/* XXX re-configure timers */
break;
case PX4IO_P_SETUP_PWM_HIGHRATE:
if (value < 50)
value = 50;
if (value > 400)
value = 400;
r_page_setup[PX4IO_P_SETUP_PWM_HIGHRATE] = value;
/* XXX re-configure timers */
break;
case PX4IO_P_SETUP_RELAYS:
value &= PX4IO_P_SETUP_RELAYS_VALID;
r_page_setup[PX4IO_P_SETUP_RELAYS] = value;
POWER_RELAY1(value & (1 << 0) ? 1 : 0);
POWER_RELAY2(value & (1 << 1) ? 1 : 0);
POWER_ACC1(value & (1 << 2) ? 1 : 0);
POWER_ACC2(value & (1 << 3) ? 1 : 0);
break;
default:
return -1;
}
break;
default:
return -1;
}
return 0;
}
int
registers_get(uint8_t page, uint8_t offset, uint16_t **values, unsigned *num_values)
{
switch (page) {
case PX4IO_PAGE_CONFIG:
*values = r_page_config;
*num_values = sizeof(r_page_config) / sizeof(r_page_config[0]);
break;
case PX4IO_PAGE_STATUS:
{
struct mallinfo minfo = mallinfo();
r_page_status[PX4IO_P_STATUS_FREEMEM] = minfo.fordblks;
}
/* XXX PX4IO_P_STATUS_CPULOAD */
r_page_status[PX4IO_P_STATUS_FLAGS] =
(system_state.armed ? PX4IO_P_STATUS_FLAGS_ARMED : 0) |
(system_state.manual_override_ok ? PX4IO_P_STATUS_FLAGS_OVERRIDE : 0) |
((system_state.rc_channels > 0) ? PX4IO_P_STATUS_FLAGS_RC_OK : 0))
/* XXX specific receiver status */
/* XXX PX4IO_P_STATUS_ALARMS] */
{
/*
* Coefficients here derived by measurement of the 5-16V
* range on one unit:
*
* V counts
* 5 1001
* 6 1219
* 7 1436
* 8 1653
* 9 1870
* 10 2086
* 11 2303
* 12 2522
* 13 2738
* 14 2956
* 15 3172
* 16 3389
*
* slope = 0.0046067
* intercept = 0.3863
*
* Intercept corrected for best results @ 12V.
*/
unsigned counts = adc_measure(ADC_VBATT);
r_page_status[PX4IO_P_STATUS_VBATT] = (4150 + (counts * 46)) / 10;
}
/* XXX PX4IO_P_STATUS_TEMPERATURE */
*values = r_page_status;
*num_values = sizeof(r_page_status) / sizeof(r_page_status[0]);
break;
case PX4IO_PAGE_ACTUATORS:
*values = r_page_actuators;
*num_values = sizeof(r_page_actuators) / sizeof(r_page_actuators[0]);
break;
case PX4IO_PAGE_SERVOS:
*values = system_state.servos;
*num_values = IO_SERVO_COUNT;
break;
case PX4IO_PAGE_RAW_RC_INPUT:
*values = r_page_raw_rc_input;
*num_values = sizeof(r_page_raw_rc_input) / sizeof(r_page_raw_rc_input[0]);
break;
case PX4IO_PAGE_RC_INPUT:
*values = system_state.rc_channel_data;
*num_values = system_state.rc_channels;
return -1;
case PX4IO_PAGE_RAW_ADC_INPUT:
r_page_adc[0] = adc_measure(ADC_VBATT);
r_page_adc[1] = adc_measure(ADC_IN5);
*values = r_page_adc;
*num_values = ADC_CHANNEL_COUNT;
break;
default:
return -1;
}
/* if the offset is beyond the end of the page, we have no data */
if (*num_values <= offset)
return -1;
/* adjust value count and pointer for the page offset */
*num_values -= offset;
*values += offset;
return 0;
}
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