Unverified Commit be77bd4e authored by Nikhil Choudhary's avatar Nikhil Choudhary Committed by GitHub

Resolve crash with timer interrupt functions called from ISR (#4684)

parent ef99cd7f
...@@ -90,56 +90,56 @@ void IRAM_ATTR __timerISR(void * arg){ ...@@ -90,56 +90,56 @@ void IRAM_ATTR __timerISR(void * arg){
} }
} }
uint64_t timerRead(hw_timer_t *timer){ uint64_t IRAM_ATTR timerRead(hw_timer_t *timer){
timer->dev->update = 1; timer->dev->update = 1;
uint64_t h = timer->dev->cnt_high; uint64_t h = timer->dev->cnt_high;
uint64_t l = timer->dev->cnt_low; uint64_t l = timer->dev->cnt_low;
return (h << 32) | l; return (h << 32) | l;
} }
uint64_t timerAlarmRead(hw_timer_t *timer){ uint64_t IRAM_ATTR timerAlarmRead(hw_timer_t *timer){
uint64_t h = timer->dev->alarm_high; uint64_t h = timer->dev->alarm_high;
uint64_t l = timer->dev->alarm_low; uint64_t l = timer->dev->alarm_low;
return (h << 32) | l; return (h << 32) | l;
} }
void timerWrite(hw_timer_t *timer, uint64_t val){ void IRAM_ATTR timerWrite(hw_timer_t *timer, uint64_t val){
timer->dev->load_high = (uint32_t) (val >> 32); timer->dev->load_high = (uint32_t) (val >> 32);
timer->dev->load_low = (uint32_t) (val); timer->dev->load_low = (uint32_t) (val);
timer->dev->reload = 1; timer->dev->reload = 1;
} }
void timerAlarmWrite(hw_timer_t *timer, uint64_t alarm_value, bool autoreload){ void IRAM_ATTR timerAlarmWrite(hw_timer_t *timer, uint64_t alarm_value, bool autoreload){
timer->dev->alarm_high = (uint32_t) (alarm_value >> 32); timer->dev->alarm_high = (uint32_t) (alarm_value >> 32);
timer->dev->alarm_low = (uint32_t) alarm_value; timer->dev->alarm_low = (uint32_t) alarm_value;
timer->dev->config.autoreload = autoreload; timer->dev->config.autoreload = autoreload;
} }
void timerSetConfig(hw_timer_t *timer, uint32_t config){ void IRAM_ATTR timerSetConfig(hw_timer_t *timer, uint32_t config){
timer->dev->config.val = config; timer->dev->config.val = config;
} }
uint32_t timerGetConfig(hw_timer_t *timer){ uint32_t IRAM_ATTR timerGetConfig(hw_timer_t *timer){
return timer->dev->config.val; return timer->dev->config.val;
} }
void timerSetCountUp(hw_timer_t *timer, bool countUp){ void IRAM_ATTR timerSetCountUp(hw_timer_t *timer, bool countUp){
timer->dev->config.increase = countUp; timer->dev->config.increase = countUp;
} }
bool timerGetCountUp(hw_timer_t *timer){ bool IRAM_ATTR timerGetCountUp(hw_timer_t *timer){
return timer->dev->config.increase; return timer->dev->config.increase;
} }
void timerSetAutoReload(hw_timer_t *timer, bool autoreload){ void IRAM_ATTR timerSetAutoReload(hw_timer_t *timer, bool autoreload){
timer->dev->config.autoreload = autoreload; timer->dev->config.autoreload = autoreload;
} }
bool timerGetAutoReload(hw_timer_t *timer){ bool IRAM_ATTR timerGetAutoReload(hw_timer_t *timer){
return timer->dev->config.autoreload; return timer->dev->config.autoreload;
} }
void timerSetDivider(hw_timer_t *timer, uint16_t divider){//2 to 65536 void IRAM_ATTR timerSetDivider(hw_timer_t *timer, uint16_t divider){//2 to 65536
if(!divider){ if(!divider){
divider = 0xFFFF; divider = 0xFFFF;
} else if(divider == 1){ } else if(divider == 1){
...@@ -151,41 +151,41 @@ void timerSetDivider(hw_timer_t *timer, uint16_t divider){//2 to 65536 ...@@ -151,41 +151,41 @@ void timerSetDivider(hw_timer_t *timer, uint16_t divider){//2 to 65536
timer->dev->config.enable = timer_en; timer->dev->config.enable = timer_en;
} }
uint16_t timerGetDivider(hw_timer_t *timer){ uint16_t IRAM_ATTR timerGetDivider(hw_timer_t *timer){
return timer->dev->config.divider; return timer->dev->config.divider;
} }
void timerStart(hw_timer_t *timer){ void IRAM_ATTR timerStart(hw_timer_t *timer){
timer->dev->config.enable = 1; timer->dev->config.enable = 1;
} }
void timerStop(hw_timer_t *timer){ void IRAM_ATTR timerStop(hw_timer_t *timer){
timer->dev->config.enable = 0; timer->dev->config.enable = 0;
} }
void timerRestart(hw_timer_t *timer){ void IRAM_ATTR timerRestart(hw_timer_t *timer){
timer->dev->config.enable = 0; timer->dev->config.enable = 0;
timer->dev->reload = 1; timer->dev->reload = 1;
timer->dev->config.enable = 1; timer->dev->config.enable = 1;
} }
bool timerStarted(hw_timer_t *timer){ bool IRAM_ATTR timerStarted(hw_timer_t *timer){
return timer->dev->config.enable; return timer->dev->config.enable;
} }
void timerAlarmEnable(hw_timer_t *timer){ void IRAM_ATTR timerAlarmEnable(hw_timer_t *timer){
timer->dev->config.alarm_en = 1; timer->dev->config.alarm_en = 1;
} }
void timerAlarmDisable(hw_timer_t *timer){ void IRAM_ATTR timerAlarmDisable(hw_timer_t *timer){
timer->dev->config.alarm_en = 0; timer->dev->config.alarm_en = 0;
} }
bool timerAlarmEnabled(hw_timer_t *timer){ bool IRAM_ATTR timerAlarmEnabled(hw_timer_t *timer){
return timer->dev->config.alarm_en; return timer->dev->config.alarm_en;
} }
static void _on_apb_change(void * arg, apb_change_ev_t ev_type, uint32_t old_apb, uint32_t new_apb){ static void IRAM_ATTR _on_apb_change(void * arg, apb_change_ev_t ev_type, uint32_t old_apb, uint32_t new_apb){
hw_timer_t * timer = (hw_timer_t *)arg; hw_timer_t * timer = (hw_timer_t *)arg;
if(ev_type == APB_BEFORE_CHANGE){ if(ev_type == APB_BEFORE_CHANGE){
timer->dev->config.enable = 0; timer->dev->config.enable = 0;
...@@ -197,7 +197,7 @@ static void _on_apb_change(void * arg, apb_change_ev_t ev_type, uint32_t old_apb ...@@ -197,7 +197,7 @@ static void _on_apb_change(void * arg, apb_change_ev_t ev_type, uint32_t old_apb
} }
} }
hw_timer_t * timerBegin(uint8_t num, uint16_t divider, bool countUp){ hw_timer_t * IRAM_ATTR timerBegin(uint8_t num, uint16_t divider, bool countUp){
if(num > 3){ if(num > 3){
return NULL; return NULL;
} }
...@@ -222,13 +222,13 @@ hw_timer_t * timerBegin(uint8_t num, uint16_t divider, bool countUp){ ...@@ -222,13 +222,13 @@ hw_timer_t * timerBegin(uint8_t num, uint16_t divider, bool countUp){
return timer; return timer;
} }
void timerEnd(hw_timer_t *timer){ void IRAM_ATTR timerEnd(hw_timer_t *timer){
timer->dev->config.enable = 0; timer->dev->config.enable = 0;
timerAttachInterrupt(timer, NULL, false); timerAttachInterrupt(timer, NULL, false);
removeApbChangeCallback(timer, _on_apb_change); removeApbChangeCallback(timer, _on_apb_change);
} }
void timerAttachInterrupt(hw_timer_t *timer, void (*fn)(void), bool edge){ void IRAM_ATTR timerAttachInterrupt(hw_timer_t *timer, void (*fn)(void), bool edge){
static bool initialized = false; static bool initialized = false;
static intr_handle_t intr_handle = NULL; static intr_handle_t intr_handle = NULL;
if(intr_handle){ if(intr_handle){
...@@ -279,29 +279,29 @@ void timerAttachInterrupt(hw_timer_t *timer, void (*fn)(void), bool edge){ ...@@ -279,29 +279,29 @@ void timerAttachInterrupt(hw_timer_t *timer, void (*fn)(void), bool edge){
} }
} }
void timerDetachInterrupt(hw_timer_t *timer){ void IRAM_ATTR timerDetachInterrupt(hw_timer_t *timer){
timerAttachInterrupt(timer, NULL, false); timerAttachInterrupt(timer, NULL, false);
} }
uint64_t timerReadMicros(hw_timer_t *timer){ uint64_t IRAM_ATTR timerReadMicros(hw_timer_t *timer){
uint64_t timer_val = timerRead(timer); uint64_t timer_val = timerRead(timer);
uint16_t div = timerGetDivider(timer); uint16_t div = timerGetDivider(timer);
return timer_val * div / (getApbFrequency() / 1000000); return timer_val * div / (getApbFrequency() / 1000000);
} }
double timerReadSeconds(hw_timer_t *timer){ double IRAM_ATTR timerReadSeconds(hw_timer_t *timer){
uint64_t timer_val = timerRead(timer); uint64_t timer_val = timerRead(timer);
uint16_t div = timerGetDivider(timer); uint16_t div = timerGetDivider(timer);
return (double)timer_val * div / getApbFrequency(); return (double)timer_val * div / getApbFrequency();
} }
uint64_t timerAlarmReadMicros(hw_timer_t *timer){ uint64_t IRAM_ATTR timerAlarmReadMicros(hw_timer_t *timer){
uint64_t timer_val = timerAlarmRead(timer); uint64_t timer_val = timerAlarmRead(timer);
uint16_t div = timerGetDivider(timer); uint16_t div = timerGetDivider(timer);
return timer_val * div / (getApbFrequency() / 1000000); return timer_val * div / (getApbFrequency() / 1000000);
} }
double timerAlarmReadSeconds(hw_timer_t *timer){ double IRAM_ATTR timerAlarmReadSeconds(hw_timer_t *timer){
uint64_t timer_val = timerAlarmRead(timer); uint64_t timer_val = timerAlarmRead(timer);
uint16_t div = timerGetDivider(timer); uint16_t div = timerGetDivider(timer);
return (double)timer_val * div / getApbFrequency(); return (double)timer_val * div / getApbFrequency();
......
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