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Tactility/TactilityCore/Source/Kernel.cpp
Ken Van Hoeylandt 85e26636a3
C++ conversion (#80) 
Converted project to C++
2024-11-22 20:26:08 +01:00

209 lines
4.4 KiB
C++
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#include "Kernel.h"
#include "Check.h"
#include "CoreDefines.h"
#include "CoreTypes.h"
#ifdef ESP_PLATFORM
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#else
#include "FreeRTOS.h"
#include "task.h"
#endif
#ifdef ESP_PLATFORM
#include "rom/ets_sys.h"
#else
#include <unistd.h>
#endif
namespace tt {
bool kernel_is_irq() {
return TT_IS_IRQ_MODE();
}
bool kernel_is_running() {
return xTaskGetSchedulerState() != taskSCHEDULER_RUNNING;
}
int32_t kernel_lock() {
tt_assert(!kernel_is_irq());
int32_t lock;
switch (xTaskGetSchedulerState()) {
case taskSCHEDULER_SUSPENDED:
lock = 1;
break;
case taskSCHEDULER_RUNNING:
vTaskSuspendAll();
lock = 0;
break;
case taskSCHEDULER_NOT_STARTED:
default:
lock = (int32_t)TtStatusError;
break;
}
/* Return previous lock state */
return (lock);
}
int32_t kernel_unlock() {
tt_assert(!kernel_is_irq());
int32_t lock;
switch (xTaskGetSchedulerState()) {
case taskSCHEDULER_SUSPENDED:
lock = 1;
if (xTaskResumeAll() != pdTRUE) {
if (xTaskGetSchedulerState() == taskSCHEDULER_SUSPENDED) {
lock = (int32_t)TtStatusError;
}
}
break;
case taskSCHEDULER_RUNNING:
lock = 0;
break;
case taskSCHEDULER_NOT_STARTED:
default:
lock = (int32_t)TtStatusError;
break;
}
/* Return previous lock state */
return (lock);
}
int32_t kernel_restore_lock(int32_t lock) {
tt_assert(!kernel_is_irq());
switch (xTaskGetSchedulerState()) {
case taskSCHEDULER_SUSPENDED:
case taskSCHEDULER_RUNNING:
if (lock == 1) {
vTaskSuspendAll();
} else {
if (lock != 0) {
lock = (int32_t)TtStatusError;
} else {
if (xTaskResumeAll() != pdTRUE) {
if (xTaskGetSchedulerState() != taskSCHEDULER_RUNNING) {
lock = (int32_t)TtStatusError;
}
}
}
}
break;
case taskSCHEDULER_NOT_STARTED:
default:
lock = (int32_t)TtStatusError;
break;
}
/* Return new lock state */
return (lock);
}
uint32_t kernel_get_tick_frequency() {
/* Return frequency in hertz */
return (configTICK_RATE_HZ);
}
void delay_tick(uint32_t ticks) {
tt_assert(!kernel_is_irq());
if (ticks == 0U) {
taskYIELD();
} else {
vTaskDelay(ticks);
}
}
TtStatus delay_until_tick(uint32_t tick) {
tt_assert(!kernel_is_irq());
TickType_t tcnt, delay;
TtStatus stat;
stat = TtStatusOk;
tcnt = xTaskGetTickCount();
/* Determine remaining number of tick to delay */
delay = (TickType_t)tick - tcnt;
/* Check if target tick has not expired */
if ((delay != 0U) && (0 == (delay >> (8 * sizeof(TickType_t) - 1)))) {
if (xTaskDelayUntil(&tcnt, delay) == pdFALSE) {
/* Did not delay */
stat = TtStatusError;
}
} else {
/* No delay or already expired */
stat = TtStatusErrorParameter;
}
/* Return execution status */
return (stat);
}
uint32_t get_tick() {
TickType_t ticks;
if (kernel_is_irq() != 0U) {
ticks = xTaskGetTickCountFromISR();
} else {
ticks = xTaskGetTickCount();
}
return ticks;
}
uint32_t ms_to_ticks(uint32_t milliseconds) {
#if configTICK_RATE_HZ == 1000
return milliseconds;
#else
return (uint32_t)((float)configTICK_RATE_HZ) / 1000.0f * (float)milliseconds;
#endif
}
void delay_ms(uint32_t milliseconds) {
if (xTaskGetSchedulerState() == taskSCHEDULER_RUNNING) {
if (milliseconds > 0 && milliseconds < portMAX_DELAY - 1) {
milliseconds += 1;
}
#if configTICK_RATE_HZ_RAW == 1000
tt_delay_tick(milliseconds);
#else
delay_tick(ms_to_ticks(milliseconds));
#endif
} else if (milliseconds > 0) {
delay_us(milliseconds * 1000);
}
}
void delay_us(uint32_t microseconds) {
#ifdef ESP_PLATFORM
ets_delay_us(microseconds);
#else
usleep(microseconds);
#endif
}
Platform get_platform() {
#ifdef ESP_PLATFORM
return PlatformEsp;
#else
return PlatformPc;
#endif
}
} // namespace
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