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LibrePilot/flight/pios/stm32f10x/pios_ppm_out.c
Richard Flay (Hyper) a2d8544931 OP-931: adds -Wextra compiler option for the flight code, and makes the bazillion code changes required
to make the flight code compile again. Needs careful review, particularly all the fixes for the
signed vs unsigned comparisons.

+review OPReview-459
2013-05-05 16:32:24 +09:30

293 lines
9.4 KiB
C

/**
******************************************************************************
* @addtogroup PIOS PIOS Core hardware abstraction layer
* @{
* @addtogroup PIOS_PPM PPM Output Functions
* @brief Code to output a PPM receiver signal
* @{
*
* @file pios_ppm_out.c
* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2012.
* @brief PPM Input functions (STM32 dependent)
* @see The GNU Public License (GPL) Version 3
*
*****************************************************************************/
/*
* 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, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "pios.h"
#ifdef PIOS_INCLUDE_PPM_OUT
#include "pios_ppm_out_priv.h"
#define PIOS_PPM_OUT_MAX_DEVS 1
#define PIOS_PPM_OUT_MAX_CHANNELS 8
#define PIOS_PPM_OUT_FRAME_PERIOD_US 22500 // microseconds
#define PIOS_PPM_OUT_HIGH_PULSE_US 400 // microseconds
#define PIOS_PPM_OUT_MIN_CHANNEL_PULSE_US 1000 // microseconds
#define PIOS_PPM_OUT_MAX_CHANNEL_PULSE_US 2000 // microseconds
enum pios_ppm_out_dev_magic {
PIOS_PPM_OUT_DEV_MAGIC = 0x0e0210e2
};
struct pios_ppm_out_dev {
enum pios_ppm_out_dev_magic magic;
const struct pios_ppm_out_cfg * cfg;
uint32_t TriggeringPeriod;
uint32_t ChannelSum;
uint8_t NumChannelCounter;
uint16_t ChannelValue[PIOS_PPM_OUT_MAX_CHANNELS];
uint8_t SupvTimer;
bool Fresh;
bool Tracking;
bool Enabled;
};
static void PIOS_PPM_Out_Supervisor(uint32_t ppm_id);
static void PIOS_PPM_Out_Enable_Disable(struct pios_ppm_out_dev *ppm_dev, bool enable);
static bool PIOS_PPM_Out_validate(struct pios_ppm_out_dev *ppm_dev)
{
return (ppm_dev->magic == PIOS_PPM_OUT_DEV_MAGIC);
}
#if defined(PIOS_INCLUDE_FREERTOS)
static struct pios_ppm_out_dev * PIOS_PPM_OUT_alloc(void)
{
struct pios_ppm_out_dev * ppm_dev;
ppm_dev = (struct pios_ppm_out_dev *)pvPortMalloc(sizeof(*ppm_dev));
if (!ppm_dev) return(NULL);
ppm_dev->magic = PIOS_PPM_OUT_DEV_MAGIC;
return(ppm_dev);
}
#else
static struct pios_ppm_out_dev pios_ppm_out_devs[PIOS_PPM_OUT_MAX_DEVS];
static uint8_t pios_ppm_out_num_devs;
static struct pios_ppm_out_dev * PIOS_PPM_alloc(void)
{
struct pios_ppm_out_dev * ppm_dev;
if (pios_ppm_out_num_devs >= PIOS_PPM_OUT_MAX_DEVS) {
return (NULL);
}
ppm_dev = &pios_ppm_out_devs[pios_ppm_out_num_devs++];
ppm_dev->magic = PIOS_PPM_OUT_DEV_MAGIC;
return (ppm_dev);
}
#endif
static void PIOS_PPM_OUT_tim_edge_cb (uint32_t tim_id, uint32_t context, uint8_t chan_idx, uint16_t count);
static const struct pios_tim_callbacks tim_out_callbacks = {
.overflow = NULL,
.edge = PIOS_PPM_OUT_tim_edge_cb,
};
int32_t PIOS_PPM_Out_Init(uint32_t *ppm_out_id, const struct pios_ppm_out_cfg * cfg)
{
PIOS_DEBUG_Assert(ppm_id);
PIOS_DEBUG_Assert(cfg);
// Allocate the device structure
struct pios_ppm_out_dev *ppm_dev = (struct pios_ppm_out_dev *)PIOS_PPM_OUT_alloc();
if (!ppm_dev)
return -1;
ppm_dev->magic = PIOS_PPM_OUT_DEV_MAGIC;
*ppm_out_id = (uint32_t)ppm_dev;
// Bind the configuration to the device instance
ppm_dev->cfg = cfg;
// Set up the state variables
ppm_dev->TriggeringPeriod = PIOS_PPM_OUT_HIGH_PULSE_US;
ppm_dev->ChannelSum = 0;
ppm_dev->NumChannelCounter = 0;
// Flush counter variables
for (uint8_t i = 0; i < PIOS_PPM_OUT_MAX_CHANNELS; ++i)
ppm_dev->ChannelValue[i] = 1000;
uint32_t tim_id;
if (PIOS_TIM_InitChannels(&tim_id, cfg->channel, 1, &tim_out_callbacks, (uint32_t)ppm_dev))
return -1;
// Configure the channels to be in output compare mode
const struct pios_tim_channel *chan = cfg->channel;
/* Set up for output compare function */
switch(chan->timer_chan) {
case TIM_Channel_1:
TIM_OC1Init(chan->timer, &cfg->tim_oc_init);
TIM_OC1PreloadConfig(chan->timer, TIM_OCPreload_Enable);
break;
case TIM_Channel_2:
TIM_OC2Init(chan->timer, &cfg->tim_oc_init);
TIM_OC2PreloadConfig(chan->timer, TIM_OCPreload_Enable);
break;
case TIM_Channel_3:
TIM_OC3Init(chan->timer, &cfg->tim_oc_init);
TIM_OC3PreloadConfig(chan->timer, TIM_OCPreload_Enable);
break;
case TIM_Channel_4:
TIM_OC4Init(chan->timer, &cfg->tim_oc_init);
TIM_OC4PreloadConfig(chan->timer, TIM_OCPreload_Enable);
break;
}
TIM_ARRPreloadConfig(chan->timer, ENABLE);
TIM_CtrlPWMOutputs(chan->timer, ENABLE);
TIM_Cmd(chan->timer, ENABLE);
TIM_TimeBaseInitTypeDef TIM_TimeBaseStructure;
TIM_TimeBaseStructure.TIM_ClockDivision = TIM_CKD_DIV1;
TIM_TimeBaseStructure.TIM_CounterMode = TIM_CounterMode_Up;
TIM_TimeBaseStructure.TIM_Prescaler = (PIOS_MASTER_CLOCK / 1000000) - 1;
TIM_TimeBaseStructure.TIM_Period = ((1000000 / 100) - 1);
TIM_TimeBaseInit(chan->timer, &TIM_TimeBaseStructure);
PIOS_PPM_Out_Enable_Disable(ppm_dev, false);
// Configure the supervisor
ppm_dev->SupvTimer = 0;
ppm_dev->Fresh = FALSE;
ppm_dev->Tracking = FALSE;
ppm_dev->Enabled = FALSE;
if (!PIOS_RTC_RegisterTickCallback(PIOS_PPM_Out_Supervisor, (uint32_t)ppm_dev)) {
PIOS_DEBUG_Assert(0);
}
return 0;
}
void PIOS_PPM_OUT_Set(uint32_t ppm_out_id, uint8_t servo, uint16_t position)
{
struct pios_ppm_out_dev *ppm_dev = (struct pios_ppm_out_dev *)ppm_out_id;
if (!PIOS_PPM_Out_validate(ppm_dev) || (servo >= PIOS_PPM_OUT_MAX_CHANNELS))
return;
// Don't allow positions that are out of range.
if (position < PIOS_PPM_OUT_MIN_CHANNEL_PULSE_US)
position = PIOS_PPM_OUT_MIN_CHANNEL_PULSE_US;
if (position > PIOS_PPM_OUT_MAX_CHANNEL_PULSE_US)
position = PIOS_PPM_OUT_MAX_CHANNEL_PULSE_US;
// Update the supervisor tracking variables.
ppm_dev->Fresh = TRUE;
// Reenable the TIM if it's been turned off.
if (!ppm_dev->Tracking) {
ppm_dev->Tracking = TRUE;
PIOS_PPM_Out_Enable_Disable(ppm_dev, true);
}
// Update the position
ppm_dev->ChannelValue[servo] = position;
}
static void PIOS_PPM_OUT_tim_edge_cb (__attribute__((unused)) uint32_t tim_id,
uint32_t context,
__attribute__((unused)) uint8_t chan_idx,
__attribute__((unused)) uint16_t count)
{
struct pios_ppm_out_dev *ppm_dev = (struct pios_ppm_out_dev *)context;
if (!PIOS_PPM_Out_validate(ppm_dev))
return;
// Just return if the device is disabled.
if (!ppm_dev->Enabled) {
return;
}
// Turn off the PPM stream if we are no longer receiving update
// Note: This must happen between frames.
if ((ppm_dev->NumChannelCounter == 0) && !ppm_dev->Tracking) {
// Flush counter variables
for (uint8_t i = 0; i < PIOS_PPM_OUT_MAX_CHANNELS; ++i) {
ppm_dev->ChannelValue[i] = 1000;
}
PIOS_PPM_Out_Enable_Disable(ppm_dev, false);
return;
}
// Finish out the frame if we reached the last channel.
uint32_t pulse_width;
if ((ppm_dev->NumChannelCounter >= PIOS_PPM_OUT_MAX_CHANNELS)) {
pulse_width = PIOS_PPM_OUT_FRAME_PERIOD_US - ppm_dev->ChannelSum;
ppm_dev->NumChannelCounter = 0;
ppm_dev->ChannelSum = 0;
} else
ppm_dev->ChannelSum += (pulse_width = ppm_dev->ChannelValue[ppm_dev->NumChannelCounter++]);
// Initiate the pulse
TIM_SetAutoreload(ppm_dev->cfg->channel->timer, pulse_width - 1);
return;
}
static void PIOS_PPM_Out_Enable_Disable(struct pios_ppm_out_dev *ppm_dev, bool enable)
{
const struct pios_tim_channel *chan = ppm_dev->cfg->channel;
uint32_t trig = enable ? ppm_dev->TriggeringPeriod : 0;
FunctionalState state = enable ? ENABLE : DISABLE;
ppm_dev->Enabled = enable;
switch (chan->timer_chan) {
case TIM_Channel_1:
TIM_ITConfig(chan->timer, TIM_IT_CC1 | TIM_IT_Update, state);
TIM_SetCompare1(chan->timer, trig);
break;
case TIM_Channel_2:
TIM_ITConfig(chan->timer, TIM_IT_CC2 | TIM_IT_Update, state);
TIM_SetCompare2(chan->timer, trig);
break;
case TIM_Channel_3:
TIM_ITConfig(chan->timer, TIM_IT_CC3 | TIM_IT_Update, state);
TIM_SetCompare3(chan->timer, trig);
break;
case TIM_Channel_4:
TIM_ITConfig(chan->timer, TIM_IT_CC4 | TIM_IT_Update, state);
TIM_SetCompare4(chan->timer, trig);
break;
}
}
static void PIOS_PPM_Out_Supervisor(uint32_t ppm_out_id) {
struct pios_ppm_out_dev *ppm_dev = (struct pios_ppm_out_dev *)ppm_out_id;
if (!PIOS_PPM_Out_validate(ppm_dev))
return;
// RTC runs at 625Hz so divide down the base rate so that this loop runs at 12.5Hz.
if(++(ppm_dev->SupvTimer) < 50) {
return;
}
ppm_dev->SupvTimer = 0;
// Go into failsafe the channel values haven't been refreshed since the last time through.
if (!ppm_dev->Fresh) {
ppm_dev->Tracking = FALSE;
}
// Set Fresh to false to test if channel values are being refreshed.
ppm_dev->Fresh = FALSE;
}
#endif /* PIOS_INCLUDE_PPM_OUT */