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gex-core/units/fcap/_fcap_core.c

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//
// Created by MightyPork on 2018/02/20.
//
#include "platform.h"
#define FCAP_INTERNAL
#include "_fcap_internal.h"
static void UFCAP_PWMBurstReportJob(Job *job)
{
Unit *unit = job->unit;
struct priv * const priv = unit->data;
uint8_t buf[20];
PayloadBuilder pb = pb_start(buf, 20, NULL);
pb_u16(&pb, PLAT_AHB_MHZ);
pb_u16(&pb, priv->pwm_burst.n_count);
pb_u64(&pb, priv->pwm_burst.period_acu);
pb_u64(&pb, priv->pwm_burst.ontime_acu);
assert_param(pb.ok);
com_respond_pb(priv->request_id, MSG_SUCCESS, &pb);
// timer is already stopped, now in OPMODE_BUSY
priv->opmode = OPMODE_IDLE;
}
void UFCAP_TimerHandler(void *arg)
{
Unit *unit = arg;
assert_param(unit);
struct priv * const priv = unit->data;
assert_param(priv);
TIM_TypeDef * const TIMx = priv->TIMx;
if (priv->opmode == OPMODE_PWM_CONT) {
if (LL_TIM_IsActiveFlag_CC1(TIMx)) {
// assert_param(!LL_TIM_IsActiveFlag_CC1OVR(TIMx));
if (priv->n_skip > 0) {
priv->n_skip--;
} else {
priv->pwm_cont.last_period = LL_TIM_IC_GetCaptureCH1(TIMx);
priv->pwm_cont.last_ontime = priv->pwm_cont.ontime;
}
LL_TIM_ClearFlag_CC1(TIMx);
LL_TIM_ClearFlag_CC1OVR(TIMx);
}
if (LL_TIM_IsActiveFlag_CC2(TIMx)) {
// assert_param(!LL_TIM_IsActiveFlag_CC2OVR(TIMx));
priv->pwm_cont.ontime = LL_TIM_IC_GetCaptureCH2(TIMx);
LL_TIM_ClearFlag_CC2(TIMx);
LL_TIM_ClearFlag_CC2OVR(TIMx);
}
}
else if (priv->opmode == OPMODE_PWM_BURST) {
if (LL_TIM_IsActiveFlag_CC1(TIMx)) {
// assert_param(!LL_TIM_IsActiveFlag_CC1OVR(TIMx));
const uint32_t period = LL_TIM_IC_GetCaptureCH1(TIMx);
const uint32_t ontime = priv->pwm_burst.ontime;
if (priv->n_skip > 0) {
priv->n_skip--;
} else {
priv->pwm_burst.ontime_acu += ontime;
priv->pwm_burst.period_acu += period;
if (++priv->pwm_burst.n_count == priv->pwm_burst.n_target) {
priv->opmode = OPMODE_BUSY;
UFCAP_StopMeasurement(unit);
Job j = {
.cb = UFCAP_PWMBurstReportJob,
.unit = unit,
};
scheduleJob(&j);
}
}
LL_TIM_ClearFlag_CC1(TIMx);
LL_TIM_ClearFlag_CC1OVR(TIMx);
}
if (LL_TIM_IsActiveFlag_CC2(TIMx)) {
// assert_param(!LL_TIM_IsActiveFlag_CC2OVR(TIMx));
priv->pwm_burst.ontime = LL_TIM_IC_GetCaptureCH2(TIMx);
LL_TIM_ClearFlag_CC2(TIMx);
LL_TIM_ClearFlag_CC2OVR(TIMx);
}
}
else if (priv->opmode == OPMODE_IDLE) {
// clear everything - in idle it would cycle in the handler forever
TIMx->SR = 0;
}
}
static void UFCAP_ClearTimerConfig(Unit *unit)
{
struct priv * const priv = unit->data;
TIM_TypeDef * const TIMx = priv->TIMx;
// CLEAR CURRENT STATE, STOP
UFCAP_StopMeasurement(unit);
// CONFIGURE TIMER BASIC PARAMS
LL_TIM_SetPrescaler(TIMx, 0);
LL_TIM_SetAutoReload(TIMx, 0xFFFFFFFF);
LL_TIM_EnableARRPreload(TIMx);
LL_TIM_GenerateEvent_UPDATE(TIMx);
}
/**
* Reset all timer registers
*
* @param unit
*/
void UFCAP_StopMeasurement(Unit *unit)
{
struct priv * const priv = unit->data;
TIM_TypeDef * const TIMx = priv->TIMx;
LL_TIM_DeInit(TIMx); // clear all flags and settings
}
/**
* Switch the FCAP module opmode
*
* @param unit
* @param opmode
*/
void UFCAP_SwitchMode(Unit *unit, enum fcap_opmode opmode)
{
struct priv * const priv = unit->data;
if (opmode == priv->opmode) return;
priv->opmode = opmode;
switch (opmode) {
case OPMODE_IDLE:
// XXX maybe we should report the abort to the PC-side listener
UFCAP_StopMeasurement(unit);
break;
case OPMODE_PWM_CONT:
priv->pwm_cont.last_ontime = 0;
priv->pwm_cont.last_period = 0;
priv->pwm_cont.ontime = 0;
priv->n_skip = 1; // discard the first cycle (will be incomplete)
UFCAP_ConfigureForPWMCapture(unit); // is also stopped and restarted
break;
case OPMODE_PWM_BURST:
priv->pwm_burst.ontime = 0;
priv->pwm_burst.n_count = 0;
priv->pwm_burst.period_acu = 0;
priv->pwm_burst.ontime_acu = 0;
priv->n_skip = 1; // discard the first cycle (will be incomplete)
UFCAP_ConfigureForPWMCapture(unit); // is also stopped and restarted
break;
default:
trap("Unhandled opmode %d", (int)opmode);
}
}
/**
* Configure peripherals for an indirect capture (PWM measurement) - continuous or burst
* @param unit
*/
void UFCAP_ConfigureForPWMCapture(Unit *unit)
{
struct priv * const priv = unit->data;
TIM_TypeDef * const TIMx = priv->TIMx;
const uint32_t ll_ch_a = priv->ll_ch_a;
const uint32_t ll_ch_b = priv->ll_ch_b;
UFCAP_ClearTimerConfig(unit);
// Enable channels and select mapping to TIx signals
// A - will be used to measure period
// B - will be used to measure the duty cycle
// _________ ______
// _______| |________________|
// A B A
// irq irq,cap irq
// reset
// B irq may be used if we want to measure a pulse width
// Normally TI1 = CH1, TI2 = CH2.
// It's possible to select the other channel, which we use to connect both TIx to the shame CHx.
LL_TIM_IC_SetActiveInput(TIMx, ll_ch_a, priv->a_direct ? LL_TIM_ACTIVEINPUT_DIRECTTI : LL_TIM_ACTIVEINPUT_INDIRECTTI);
LL_TIM_IC_SetActiveInput(TIMx, ll_ch_b, priv->a_direct ? LL_TIM_ACTIVEINPUT_INDIRECTTI : LL_TIM_ACTIVEINPUT_DIRECTTI);
LL_TIM_CC_EnableChannel(TIMx, ll_ch_a | ll_ch_b);
LL_TIM_IC_SetPolarity(TIMx, ll_ch_a, LL_TIM_IC_POLARITY_RISING);
LL_TIM_IC_SetPolarity(TIMx, ll_ch_b, LL_TIM_IC_POLARITY_FALLING);
LL_TIM_SetSlaveMode(TIMx, LL_TIM_SLAVEMODE_RESET);
LL_TIM_SetTriggerInput(TIMx, LL_TIM_TS_TI1FP1); // Use Filtered Input 1 (TI1)
LL_TIM_EnableMasterSlaveMode(TIMx);
LL_TIM_EnableIT_CC1(TIMx);
LL_TIM_EnableIT_CC2(TIMx);
LL_TIM_EnableCounter(TIMx);
}