direct measurement (need more testing)

remotes/github/direct
Ondřej Hruška 7 years ago
parent 75efa12338
commit 805e47594a
Signed by: MightyPork
GPG Key ID: 2C5FD5035250423D
  1. 7
      platform/irq_dispatcher.c
  2. 2
      platform/plat_compat.h
  3. 126
      units/fcap/_fcap_core.c
  4. 16
      units/fcap/_fcap_init.c
  5. 13
      units/fcap/_fcap_internal.h
  6. 5
      units/fcap/_fcap_settings.c
  7. 51
      units/fcap/unit_fcap.c

@ -317,8 +317,6 @@ void EXTI4_15_IRQHandler(void)
// ------------ INTERRUPTS -------------
// TIM14 is used to generate HAL timebase and its handler is in the file "timebase.c"
void TIM2_IRQHandler(void)
{
CALL_IRQ_HANDLER(callbacks.tim2);
@ -334,6 +332,11 @@ void TIM7_IRQHandler(void)
CALL_IRQ_HANDLER(callbacks.tim7);
}
void TIM14_IRQHandler(void)
{
CALL_IRQ_HANDLER(callbacks.tim14);
}
void TIM15_IRQHandler(void)
{
CALL_IRQ_HANDLER(callbacks.tim15);

@ -51,7 +51,7 @@
#define INI_VALUE_MAX 30 // Ini parser value buffer
// -------- Stack buffers ----------
#define DBG_BUF_LEN 80 // Size of the snprintf buffer for debug messages
#define DBG_BUF_LEN 100 // Size of the snprintf buffer for debug messages
#define ERR_MSG_STR_LEN 64 // Error message buffer size
#define IWBUFFER_LEN 80 // Ini writer buffer for sprintf

@ -2,14 +2,23 @@
// Created by MightyPork on 2018/02/20.
//
#include <stm32f072xb.h>
#include "platform.h"
#define FCAP_INTERNAL
#include "_fcap_internal.h"
void UFCAP_StopMeasurement(Unit *unit);
void UFCAP_ConfigureForPWMCapture(Unit *unit);
void UFCAP_ConfigureForDirectCapture(Unit *unit);
static void UFCAP_StopMeasurement(Unit *unit);
static void UFCAP_ConfigureForPWMCapture(Unit *unit);
static void UFCAP_ConfigureForDirectCapture(Unit *unit);
static void UFCAP_ConfigureForFreeCapture(Unit *unit);
uint32_t UFCAP_GetFreeCounterValue(Unit *unit)
{
struct priv * const priv = unit->data;
TIM_TypeDef * const TIMx = priv->TIMx;
return TIMx->CNT;
}
static void UFCAP_PWMBurstReportJob(Job *job)
{
@ -32,7 +41,26 @@ static void UFCAP_PWMBurstReportJob(Job *job)
priv->opmode = OPMODE_IDLE;
}
void UFCAP_TimerHandler(void *arg)
static void UFCAP_CountBurstReportJob(Job *job)
{
Unit *unit = job->unit;
struct priv * const priv = unit->data;
uint8_t buf[6];
PayloadBuilder pb = pb_start(buf, 20, NULL);
pb_u16(&pb, priv->cnt_burst.msec);
pb_u32(&pb, job->data1);
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_TIMxHandler(void *arg)
{
Unit *unit = arg;
assert_param(unit);
@ -100,6 +128,45 @@ void UFCAP_TimerHandler(void *arg)
}
}
void UFCAP_TIMyHandler(void *arg)
{
Unit *unit = arg;
assert_param(unit);
struct priv *const priv = unit->data;
assert_param(priv);
TIM_TypeDef * const TIMx = priv->TIMx;
TIM_TypeDef * const TIMy = priv->TIMy;
uint32_t cnt = TIMx->CNT; // TIMx should be stopped now
dbg("> TIMy Handler, TIMx cntr is %d", cnt);
priv->cnt_cont.last_count = cnt;
if (priv->opmode == OPMODE_COUNTER_CONT) {
LL_TIM_SetCounter(TIMx, 0);
LL_TIM_EnableCounter(TIMy); // next loop
} else if (priv->opmode == OPMODE_COUNTER_BURST) {
priv->opmode = OPMODE_BUSY;
UFCAP_StopMeasurement(unit);
Job j = {
.cb = UFCAP_CountBurstReportJob,
.unit = unit,
.data1 = cnt,
};
scheduleJob(&j);
}
else if (priv->opmode == OPMODE_IDLE) {
// clear everything - in idle it would cycle in the handler forever
TIMy->SR = 0;
}
else {
trap("Unhandled fcap TIMy irq");
}
LL_TIM_ClearFlag_UPDATE(TIMy);
}
static void UFCAP_ClearTimerConfig(Unit *unit)
{
struct priv * const priv = unit->data;
@ -120,7 +187,7 @@ static void UFCAP_ClearTimerConfig(Unit *unit)
*
* @param unit
*/
void UFCAP_StopMeasurement(Unit *unit)
static void UFCAP_StopMeasurement(Unit *unit)
{
struct priv * const priv = unit->data;
@ -166,9 +233,20 @@ void UFCAP_SwitchMode(Unit *unit, enum fcap_opmode opmode)
break;
case OPMODE_COUNTER_CONT:
priv->cnt_cont.last_count = 0;
priv->n_skip = 1; // discard the first cycle (will be incomplete)
UFCAP_ConfigureForDirectCapture(unit);
break;
case OPMODE_COUNTER_BURST:
priv->n_skip = 0; // no skip here (if there was any)
UFCAP_ConfigureForDirectCapture(unit);
break;
case OPMODE_COUNTER_FREERUNNING:
UFCAP_ConfigureForFreeCapture(unit);
break;
default:
trap("Unhandled opmode %d", (int)opmode);
}
@ -178,7 +256,7 @@ void UFCAP_SwitchMode(Unit *unit, enum fcap_opmode opmode)
* Configure peripherals for an indirect capture (PWM measurement) - continuous or burst
* @param unit
*/
void UFCAP_ConfigureForPWMCapture(Unit *unit)
static void UFCAP_ConfigureForPWMCapture(Unit *unit)
{
struct priv * const priv = unit->data;
TIM_TypeDef * const TIMx = priv->TIMx;
@ -222,30 +300,34 @@ void UFCAP_ConfigureForPWMCapture(Unit *unit)
* Configure peripherals for an indirect capture (PWM measurement) - continuous or burst
* @param unit
*/
void UFCAP_ConfigureForDirectCapture(Unit *unit)
static void UFCAP_ConfigureForDirectCapture(Unit *unit)
{
struct priv * const priv = unit->data;
const uint32_t ll_ch_a = priv->ll_ch_a; //
// dbg("Configuring Direct capture...");
UFCAP_ClearTimerConfig(unit);
{
TIM_TypeDef *const TIMy = priv->TIMy;
uint16_t presc = PLAT_AHB_MHZ * 500; // this produces 2 kHz
uint32_t count = 2001;
assert_param(PLAT_AHB_MHZ<=65);
uint16_t presc = PLAT_AHB_MHZ*1000;
uint32_t count = priv->cnt_cont.msec+1; // it's one tick longer because we generate OCREF on the exact msec count - it must be at least 1 tick long
LL_TIM_SetPrescaler(TIMy, (uint32_t) (presc - 1));
LL_TIM_SetAutoReload(TIMy, count - 1);
LL_TIM_EnableARRPreload(TIMy);
LL_TIM_GenerateEvent_UPDATE(TIMy);
LL_TIM_SetOnePulseMode(TIMy, LL_TIM_ONEPULSEMODE_SINGLE); // TODO check if this works
LL_TIM_SetOnePulseMode(TIMy, LL_TIM_ONEPULSEMODE_SINGLE);
LL_TIM_OC_EnableFast(TIMy, LL_TIM_CHANNEL_CH1);
dbg("TIMy presc %d, count %d", (int) presc, (int) count);
// dbg("TIMy presc %d, count %d", (int) presc, (int) count);
LL_TIM_SetTriggerOutput(TIMy, LL_TIM_TRGO_OC1REF);
LL_TIM_OC_SetMode(TIMy, LL_TIM_CHANNEL_CH1, LL_TIM_OCMODE_PWM1); // 1 until CC, then 0
LL_TIM_OC_SetCompareCH1(TIMy, count - 1); // XXX maybe this must be lower
LL_TIM_OC_SetCompareCH1(TIMy, count-1);
LL_TIM_CC_EnableChannel(TIMy, LL_TIM_CHANNEL_CH1); // enable the output channel that produces a trigger
LL_TIM_EnableIT_UPDATE(TIMy);
}
{
@ -254,11 +336,27 @@ void UFCAP_ConfigureForDirectCapture(Unit *unit)
LL_TIM_SetSlaveMode(TIMx, LL_TIM_SLAVEMODE_GATED);
LL_TIM_SetTriggerInput(TIMx, LL_TIM_TS_ITR3); // ITR3 is TIM14 which we use as TIMy
LL_TIM_EnableMasterSlaveMode(TIMx);
LL_TIM_EnableExternalClock(TIMx); // TODO must check and deny this mode if the pin is not on CH1 = external trigger input
LL_TIM_SetCounter(TIMx, 0);
LL_TIM_EnableCounter(TIMx);
}
LL_TIM_EnableCounter(priv->TIMy); // XXX this will start the pulse (maybe)
LL_TIM_EnableCounter(priv->TIMy); // XXX this will start the first pulse (maybe)
}
/**
* Freerunning capture (counting pulses - geiger)
* @param unit
*/
static void UFCAP_ConfigureForFreeCapture(Unit *unit)
{
struct priv * const priv = unit->data;
TIM_TypeDef *const TIMx = priv->TIMx;
LL_TIM_EnableExternalClock(TIMx);
LL_TIM_SetCounter(TIMx, 0);
LL_TIM_EnableCounter(TIMx);
}

@ -88,18 +88,24 @@ error_t UFCAP_init(Unit *unit)
assert_param(ll_ch_a != ll_ch_b);
priv->TIMx = TIMx;
priv->TIMy = TIMy;
priv->ll_ch_a = ll_ch_a;
priv->ll_ch_b = ll_ch_b;
priv->a_direct = a_direct;
TRY(hw_configure_gpio_af(priv->signal_pname, priv->signal_pnum, ll_timpin_af));
GPIO_TypeDef *gpio = hw_port2periph(priv->signal_pname, &suc);
uint32_t ll_pin = hw_pin2ll(priv->signal_pnum, &suc);
LL_GPIO_SetPinPull(gpio, ll_pin, LL_GPIO_PULL_DOWN); // XXX change to pull-up if the polarity is inverted
hw_periph_clock_enable(TIMx);
hw_periph_clock_enable(TIMy);
irqd_attach(TIMx, UFCAP_TimerHandler, unit);
// TODO attach TIMy to a handler
irqd_attach(TIMx, UFCAP_TIMxHandler, unit);
irqd_attach(TIMy, UFCAP_TIMyHandler, unit);
UFCAP_SwitchMode(unit, OPMODE_IDLE);
// UFCAP_SwitchMode(unit, OPMODE_IDLE);
UFCAP_SwitchMode(unit, OPMODE_COUNTER_CONT);
return E_SUCCESS;
}
@ -117,8 +123,8 @@ void UFCAP_deInit(Unit *unit)
TIM_TypeDef *TIMy = priv->TIMy;
LL_TIM_DeInit(TIMx);
LL_TIM_DeInit(TIMy);
irqd_detach(TIMx, UFCAP_TimerHandler);
// TODO detach TIMy when any handler is added
irqd_detach(TIMx, UFCAP_TIMxHandler);
irqd_detach(TIMy, UFCAP_TIMyHandler);
hw_periph_clock_disable(TIMx);
hw_periph_clock_disable(TIMy);
}

@ -17,7 +17,8 @@ enum fcap_opmode {
OPMODE_PWM_CONT = 2,
OPMODE_PWM_BURST = 3, // averaging
OPMODE_COUNTER_CONT = 4,
OPMODE_COUNTER_BURST = 5, // averaging
OPMODE_COUNTER_BURST = 5,
OPMODE_COUNTER_FREERUNNING = 6,
};
/** Private data structure */
@ -55,7 +56,12 @@ struct priv {
struct {
uint32_t last_count; //!< Pulse count in the last capture window
uint16_t msec; //!< Configured nbr of milliseconds to count
} cnt_cont;
struct {
uint16_t msec; //!< Configured nbr of milliseconds to count
} cnt_burst;
};
};
@ -88,6 +94,9 @@ void UFCAP_deInit(Unit *unit);
void UFCAP_SwitchMode(Unit *unit, enum fcap_opmode opmode);
void UFCAP_TimerHandler(void *arg);
void UFCAP_TIMxHandler(void *arg);
void UFCAP_TIMyHandler(void *arg);
uint32_t UFCAP_GetFreeCounterValue(Unit *unit);
#endif //GEX_F072_FCAP_INTERNAL_H

@ -55,8 +55,9 @@ void UFCAP_writeIni(Unit *unit, IniWriter *iw)
{
struct priv *priv = unit->data;
iw_comment(iw, "Signal input pin");
iw_comment(iw, "One of: A0, A1, A5, A15, B3");
iw_comment(iw, "Signal input pin - one of:");
iw_comment(iw, " Full support: A0, A5, A15");
iw_comment(iw, " Indirect only: A1, B3");
iw_entry(iw, "signal-pin", "%c%d", priv->signal_pname, priv->signal_pnum);
}

@ -15,8 +15,12 @@ enum FcapCmd_ {
CMD_INDIRECT_CONT_START = 1,
CMD_INDIRECT_BURST_START = 2,
CMD_DIRECT_CONT_START = 3,
CMD_DIRECT_BURST_START = 4,
CMD_FREERUNNING_START = 5,
CMD_INDIRECT_CONT_READ = 10,
CMD_DIRECT_CONT_READ = 11,
CMD_FREERUNNING_READ = 12,
};
/** Handle a request message */
@ -24,6 +28,9 @@ static error_t UFCAP_handleRequest(Unit *unit, TF_ID frame_id, uint8_t command,
{
struct priv *priv = unit->data;
PayloadBuilder pb = pb_start(unit_tmp512, UNIT_TMP_LEN, NULL);
uint16_t msec;
const char* msg_denied_on_pin = "Not available on the selected pin!";
switch (command) {
case CMD_STOP:
@ -62,23 +69,55 @@ static error_t UFCAP_handleRequest(Unit *unit, TF_ID frame_id, uint8_t command,
return E_SUCCESS;
case CMD_DIRECT_CONT_START:
if (!priv->a_direct) {
// This works only if we use the ETR pin. TIM2 shares CH1 with ETR.
// If CH2 is selected as input, ETR is not available.
com_respond_str(MSG_ERROR, frame_id, msg_denied_on_pin);
return E_FAILURE;
}
if (priv->opmode == OPMODE_COUNTER_CONT) return E_SUCCESS; // no-op
if (priv->opmode != OPMODE_IDLE) return E_BUSY;
msec = pp_u16(pp);
priv->cnt_cont.msec = msec;
UFCAP_SwitchMode(unit, OPMODE_COUNTER_CONT);
return E_SUCCESS;
case CMD_DIRECT_CONT_READ:
if (priv->opmode != OPMODE_COUNTER_CONT) {
return E_BAD_MODE;
}
if (priv->cnt_cont.last_count == 0) {
return E_BUSY;
if (!priv->a_direct) { // see above
com_respond_str(MSG_ERROR, frame_id, msg_denied_on_pin);
return E_FAILURE;
}
if (priv->opmode != OPMODE_COUNTER_CONT) return E_BAD_MODE;
if (priv->cnt_cont.last_count == 0) return E_BUSY;
// TODO also add the window len - may need to shorten it for fast signals (or if fast capture is required)
pb_u32(&pb, priv->cnt_cont.last_count);
pb_u16(&pb, priv->cnt_cont.msec);
com_respond_pb(frame_id, MSG_SUCCESS, &pb);
return E_SUCCESS;
case CMD_DIRECT_BURST_START:
if (priv->opmode != OPMODE_IDLE) return E_BAD_MODE;
msec = pp_u16(pp);
priv->cnt_burst.msec = msec;
priv->request_id = frame_id;
UFCAP_SwitchMode(unit, OPMODE_COUNTER_BURST);
return E_SUCCESS;
case CMD_FREERUNNING_START:
if (priv->opmode != OPMODE_IDLE) return E_BAD_MODE;
UFCAP_SwitchMode(unit, OPMODE_COUNTER_FREERUNNING);
return E_SUCCESS;
case CMD_FREERUNNING_READ:
if (priv->opmode != OPMODE_COUNTER_FREERUNNING) {
return E_BAD_MODE;
}
pb_u32(&pb, UFCAP_GetFreeCounterValue(unit));
com_respond_pb(frame_id, MSG_SUCCESS, &pb);
return E_SUCCESS;

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