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/*
* This file is subject to the terms of the GFX License. If a copy of
* the license was not distributed with this file, you can obtain one at:
*
* http://ugfx.org/license.html
*/
/**
* @file src/gadc/gadc.c
* @brief GADC sub-system code.
*
* @addtogroup GADC
* @{
*/
#include "gfx.h"
#if GFX_USE_GADC
/* Include the driver defines */
#include "gadc/lld/gadc_lld.h"
#if GADC_MAX_HIGH_SPEED_SAMPLERATE > GADC_MAX_SAMPLE_FREQUENCY/2
#error "GADC: GADC_MAX_HIGH_SPEED_SAMPLERATE has been set too high. It must be less than half the maximum CPU rate"
#endif
#define GADC_MAX_LOWSPEED_DEVICES ((GADC_MAX_SAMPLE_FREQUENCY/GADC_MAX_HIGH_SPEED_SAMPLERATE)-1)
#if GADC_MAX_LOWSPEED_DEVICES > 4
#undef GADC_MAX_LOWSPEED_DEVICES
#define GADC_MAX_LOWSPEED_DEVICES 4
#endif
volatile bool_t GADC_Timer_Missed;
static gfxSem gadcsem;
static gfxMutex gadcmutex;
static GTimer LowSpeedGTimer;
#if GFX_USE_GEVENT
static GTimer HighSpeedGTimer;
#endif
static volatile uint16_t gflags = 0;
#define GADC_GFLG_ISACTIVE 0x0001
#define GADC_FLG_ISACTIVE 0x0001
#define GADC_FLG_ISDONE 0x0002
#define GADC_FLG_ERROR 0x0004
#define GADC_FLG_GTIMER 0x0008
static struct hsdev {
// Our status flags
uint16_t flags;
// What we started with
uint32_t frequency;
adcsample_t *buffer;
size_t bufcount;
size_t samplesPerEvent;
// The last set of results
size_t lastcount;
adcsample_t *lastbuffer;
uint16_t lastflags;
// Other stuff we need to track progress and for signaling
GadcLldTimerData lld;
size_t samplesPerConversion;
size_t remaining;
gfxSem *bsem;
GEventADC *pEvent;
GADCISRCallbackFunction isrfn;
} hs;
static struct lsdev {
// Our status flags
uint16_t flags;
// What we started with
GadcLldNonTimerData lld;
GADCCallbackFunction fn;
void *param;
} ls[GADC_MAX_LOWSPEED_DEVICES];
static struct lsdev *curlsdev;
/* Find the next conversion to activate */
static inline void FindNextConversionI(void) {
if (curlsdev) {
/**
* Now we have done a low speed conversion - start looking for the next conversion
* We only look forward to ensure we get a high speed conversion at least once
* every GADC_MAX_LOWSPEED_DEVICES conversions.
*/
curlsdev++;
} else {
/* Now we have done a high speed conversion - start looking for low speed conversions */
curlsdev = ls;
}
/**
* Look for the next thing to do.
*/
while(curlsdev < &ls[GADC_MAX_LOWSPEED_DEVICES]) {
if ((curlsdev->flags & (GADC_FLG_ISACTIVE|GADC_FLG_ISDONE)) == GADC_FLG_ISACTIVE) {
gadc_lld_adc_nontimerI(&curlsdev->lld);
return;
}
curlsdev++;
}
curlsdev = 0;
/* No more low speed devices - do a high speed conversion */
if (hs.flags & GADC_FLG_ISACTIVE) {
hs.lld.now = GADC_Timer_Missed ? TRUE : FALSE;
GADC_Timer_Missed = 0;
gadc_lld_adc_timerI(&hs.lld);
return;
}
/* Nothing more to do */
gflags &= ~GADC_GFLG_ISACTIVE;
}
void GADC_ISR_CompleteI(ADCDriver *adcp, adcsample_t *buffer, size_t n) {
(void) adcp;
if (curlsdev) {
/* This interrupt must be in relation to the low speed device */
if (curlsdev->flags & GADC_FLG_ISACTIVE) {
/**
* As we only handle a single low speed conversion at a time, we know
* we know we won't get any half completion interrupts.
*/
curlsdev->flags |= GADC_FLG_ISDONE;
gtimerJabI(&LowSpeedGTimer);
}
#if ADC_ISR_FULL_CODE_BUG
/**
* Oops - We have just finished a low speed conversion but a bug prevents us
* restarting the ADC here. Other code will restart it in the thread based
* ADC handler.
*/
gflags &= ~GADC_GFLG_ISACTIVE;
return;
#endif
} else {
/* This interrupt must be in relation to the high speed device */
if (hs.flags & GADC_FLG_ISACTIVE) {
/* Save the details */
hs.lastcount = n;
hs.lastbuffer = buffer;
hs.lastflags = GADC_Timer_Missed ? GADC_HSADC_LOSTEVENT : 0;
/* Signal the user with the data */
if (hs.pEvent) {
#if GFX_USE_GEVENT
hs.pEvent->type = GEVENT_ADC;
#endif
hs.pEvent->count = hs.lastcount;
hs.pEvent->buffer = hs.lastbuffer;
hs.pEvent->flags = hs.lastflags;
}
/* Our three signalling mechanisms */
if (hs.isrfn)
hs.isrfn(buffer, n);
if (hs.bsem)
gfxSemSignalI(hs.bsem);
#if GFX_USE_GEVENT
if (hs.flags & GADC_FLG_GTIMER)
gtimerJabI(&HighSpeedGTimer);
#endif
/* Adjust what we have left to do */
hs.lld.count -= n;
hs.remaining -= n;
/* Half completion - We have done all we can for now - wait for the next interrupt */
if (hs.lld.count)
return;
/* Our buffer is cyclic - set up the new buffer pointers */
if (hs.remaining) {
hs.lld.buffer = buffer + (n * hs.samplesPerConversion);
} else {
hs.remaining = hs.bufcount;
hs.lld.buffer = hs.buffer;
}
hs.lld.count = hs.remaining < hs.samplesPerEvent ? hs.remaining : hs.samplesPerEvent;
}
}
/**
* Look for the next thing to do.
*/
FindNextConversionI();
}
void GADC_ISR_ErrorI(ADCDriver *adcp, adcerror_t err) {
(void) adcp;
(void) err;
if (curlsdev) {
if ((curlsdev->flags & (GADC_FLG_ISACTIVE|GADC_FLG_ISDONE)) == GADC_FLG_ISACTIVE)
/* Mark the error then try to repeat it */
curlsdev->flags |= GADC_FLG_ERROR;
#if ADC_ISR_FULL_CODE_BUG
/**
* Oops - We have just finished a low speed conversion but a bug prevents us
* restarting the ADC here. Other code will restart it in the thread based
* ADC handler.
*/
gflags &= ~GADC_GFLG_ISACTIVE;
gtimerJabI(&LowSpeedGTimer);
return;
#endif
} else {
if (hs.flags & GADC_FLG_ISACTIVE)
/* Mark the error and then try to repeat it */
hs.flags |= GADC_FLG_ERROR;
}
/* Start the next conversion */
FindNextConversionI();
}
/* Our module initialiser */
void _gadcInit(void)
{
gadc_lld_init();
gfxSemInit(&gadcsem, GADC_MAX_LOWSPEED_DEVICES, GADC_MAX_LOWSPEED_DEVICES);
gfxMutexInit(&gadcmutex);
gtimerInit(&LowSpeedGTimer);
#if GFX_USE_GEVENT
gtimerInit(&HighSpeedGTimer);
#endif
}
void _gadcDeinit(void)
{
/* commented stuff is ToDo */
// gadc_lld_deinit();
gfxSemDestroy(&gadcsem);
gfxMutexDestroy(&gadcmutex);
gtimerDeinit(&LowSpeedGTimer);
#if GFX_USE_GEVENT
gtimerDeinit(&HighSpeedGTimer);
#endif
}
static inline void StartADC(bool_t onNoHS) {
gfxSystemLock();
if (!(gflags & GADC_GFLG_ISACTIVE) || (onNoHS && !curlsdev))
FindNextConversionI();
gfxSystemUnlock();
}
static void BSemSignalCallback(adcsample_t *buffer, void *param) {
(void) buffer;
/* Signal the BinarySemaphore parameter */
gfxSemSignal((gfxSem *)param);
}
#if GFX_USE_GEVENT
static void HighSpeedGTimerCallback(void *param) {
(void) param;
GSourceListener *psl;
GEventADC *pe;
psl = 0;
while ((psl = geventGetSourceListener((GSourceHandle)(&HighSpeedGTimer), psl))) {
if (!(pe = (GEventADC *)geventGetEventBuffer(psl))) {
// This listener is missing - save this.
psl->srcflags |= GADC_HSADC_LOSTEVENT;
continue;
}
pe->type = GEVENT_ADC;
pe->count = hs.lastcount;
pe->buffer = hs.lastbuffer;
pe->flags = hs.lastflags | psl->srcflags;
psl->srcflags = 0;
geventSendEvent(psl);
}
}
#endif
static void LowSpeedGTimerCallback(void *param) {
(void) param;
GADCCallbackFunction fn;
void *prm;
adcsample_t *buffer;
struct lsdev *p;
#if ADC_ISR_FULL_CODE_BUG
/* Ensure the ADC is running if it needs to be - Bugfix HACK */
StartADC(FALSE);
#endif
/**
* Look for completed low speed timers.
* We don't need to take the mutex as we are the only place that things are freed and we
* do that atomically.
*/
for(p=ls; p < &ls[GADC_MAX_LOWSPEED_DEVICES]; p++) {
if ((p->flags & (GADC_FLG_ISACTIVE|GADC_FLG_ISDONE)) == (GADC_FLG_ISACTIVE|GADC_FLG_ISDONE)) {
/* This item is done - perform its callback */
fn = p->fn; // Save the callback details
prm = p->param;
buffer = p->lld.buffer;
p->fn = 0; // Needed to prevent the compiler removing the local variables
p->param = 0; // Needed to prevent the compiler removing the local variables
p->lld.buffer = 0; // Needed to prevent the compiler removing the local variables
p->flags = 0; // The slot is available (indivisible operation)
gfxSemSignal(&gadcsem); // Tell everyone
fn(buffer, prm); // Perform the callback
}
}
}
void gadcHighSpeedInit(uint32_t physdev, uint32_t frequency, adcsample_t *buffer, size_t bufcount, size_t samplesPerEvent)
{
gadcHighSpeedStop(); /* This does the init for us */
/* Just save the details and reset everything for now */
hs.frequency = frequency;
hs.buffer = buffer;
hs.bufcount = bufcount;
hs.samplesPerEvent = samplesPerEvent;
hs.lastcount = 0;
hs.lastbuffer = 0;
hs.lastflags = 0;
hs.lld.physdev = physdev;
hs.lld.buffer = buffer;
hs.lld.count = samplesPerEvent;
hs.lld.now = FALSE;
hs.samplesPerConversion = gadc_lld_samples_per_conversion(physdev);
hs.remaining = bufcount;
hs.bsem = 0;
hs.pEvent = 0;
hs.isrfn = 0;
}
#if GFX_USE_GEVENT
GSourceHandle gadcHighSpeedGetSource(void) {
if (!gtimerIsActive(&HighSpeedGTimer))
gtimerStart(&HighSpeedGTimer, HighSpeedGTimerCallback, 0, TRUE, TIME_INFINITE);
hs.flags |= GADC_FLG_GTIMER;
return (GSourceHandle)&HighSpeedGTimer;
}
#endif
void gadcHighSpeedSetISRCallback(GADCISRCallbackFunction isrfn) {
hs.isrfn = isrfn;
}
void gadcHighSpeedSetBSem(gfxSem *pbsem, GEventADC *pEvent) {
/* Use the system lock to ensure they occur atomically */
gfxSystemLock();
hs.pEvent = pEvent;
hs.bsem = pbsem;
gfxSystemUnlock();
}
void gadcHighSpeedStart(void) {
/* If its already going we don't need to do anything */
if (hs.flags & GADC_FLG_ISACTIVE)
return;
gadc_lld_start_timer(hs.lld.physdev, hs.frequency);
hs.flags = GADC_FLG_ISACTIVE;
StartADC(FALSE);
}
void gadcHighSpeedStop(void) {
if (hs.flags & GADC_FLG_ISACTIVE) {
/* No more from us */
hs.flags = 0;
gadc_lld_stop_timer(hs.lld.physdev);
/*
* We have to pass TRUE to StartADC() as we might have the ADC marked as active when it isn't
* due to stopping the timer while it was converting.
*/
StartADC(TRUE);
}
}
void gadcLowSpeedGet(uint32_t physdev, adcsample_t *buffer) {
struct lsdev *p;
gfxSem mysem;
/* Start the Low Speed Timer */
gfxSemInit(&mysem, 1, 1);
gfxMutexEnter(&gadcmutex);
if (!gtimerIsActive(&LowSpeedGTimer))
gtimerStart(&LowSpeedGTimer, LowSpeedGTimerCallback, 0, TRUE, TIME_INFINITE);
gfxMutexExit(&gadcmutex);
while(1) {
/* Wait for an available slot */
gfxSemWait(&gadcsem, TIME_INFINITE);
/* Find a slot */
gfxMutexEnter(&gadcmutex);
for(p = ls; p < &ls[GADC_MAX_LOWSPEED_DEVICES]; p++) {
if (!(p->flags & GADC_FLG_ISACTIVE)) {
p->lld.physdev = physdev;
p->lld.buffer = buffer;
p->fn = BSemSignalCallback;
p->param = &mysem;
p->flags = GADC_FLG_ISACTIVE;
gfxMutexExit(&gadcmutex);
StartADC(FALSE);
gfxSemWait(&mysem, TIME_INFINITE);
return;
}
}
gfxMutexExit(&gadcmutex);
/**
* We should never get here - the count semaphore must be wrong.
* Decrement it and try again.
*/
}
}
bool_t gadcLowSpeedStart(uint32_t physdev, adcsample_t *buffer, GADCCallbackFunction fn, void *param) {
struct lsdev *p;
/* Start the Low Speed Timer */
gfxMutexEnter(&gadcmutex);
if (!gtimerIsActive(&LowSpeedGTimer))
gtimerStart(&LowSpeedGTimer, LowSpeedGTimerCallback, 0, TRUE, TIME_INFINITE);
/* Find a slot */
for(p = ls; p < &ls[GADC_MAX_LOWSPEED_DEVICES]; p++) {
if (!(p->flags & GADC_FLG_ISACTIVE)) {
/* We know we have a slot - this should never wait anyway */
gfxSemWait(&gadcsem, TIME_IMMEDIATE);
p->lld.physdev = physdev;
p->lld.buffer = buffer;
p->fn = fn;
p->param = param;
p->flags = GADC_FLG_ISACTIVE;
gfxMutexExit(&gadcmutex);
StartADC(FALSE);
return TRUE;
}
}
gfxMutexExit(&gadcmutex);
return FALSE;
}
#endif /* GFX_USE_GADC */
/** @} */
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