/* | |
* FreeRTOS Kernel V10.3.0 | |
* Copyright (C) 2020 Amazon.com, Inc. or its affiliates. All Rights Reserved. | |
* | |
* Permission is hereby granted, free of charge, to any person obtaining a copy of | |
* this software and associated documentation files (the "Software"), to deal in | |
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* the Software, and to permit persons to whom the Software is furnished to do so, | |
* subject to the following conditions: | |
* | |
* The above copyright notice and this permission notice shall be included in all | |
* copies or substantial portions of the Software. | |
* | |
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
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* | |
* http://www.FreeRTOS.org | |
* http://aws.amazon.com/freertos | |
* | |
* 1 tab == 4 spaces! | |
*/ | |
/* **************************************************************************** | |
* When configCREATE_LOW_POWER_DEMO is set to 1 in FreeRTOSConfig.h main() will | |
* call main_low_power(), which is defined in this file. main_low_power() | |
* demonstrates FreeRTOS tick suppression being used to allow the MCU to be | |
* placed into the Sleep, Low Power Sleep and Stop low power modes. When | |
* configCREATE_LOW_POWER_DEMO is set to 0 main will instead call main_full(), | |
* which is a more comprehensive RTOS demonstration. | |
* **************************************************************************** | |
* | |
* This application demonstrates the FreeRTOS tickless idle mode (tick | |
* suppression) being used to allow the STM32L to enter various low power modes | |
* during extended idle periods. See | |
* http://www.freertos.org/low-power-tickless-rtos.html for information on | |
* tickless operation. | |
* | |
* Deeper low power modes have longer wake up periods that lighter low power | |
* modes, and power is also used simply entering and especially exiting the low | |
* power modes. How the low power modes are used therefore requires careful | |
* consideration to ensure power consumption is truly minimised and that the | |
* embedded device meets its real time requirements. This demo is configured to | |
* select between four different modes depending on the anticipated idle period. | |
* Note the time thresholds used to decide which low power mode to enter are | |
* purely for convenience of demonstration and are not intended to represent | |
* optimal values for any particular application. | |
* | |
* The STM32L specific part of the tickless operation is implemented in | |
* STM32L_low_power_tick_management.c. | |
* | |
* The demo is configured to execute on the STM32L Discovery board. | |
* | |
* Functionality: | |
* | |
* + Two tasks are created, an Rx task and a Tx task. A queue is created to | |
* pass a message from the Tx task to the Rx task. | |
* | |
* + The Rx task blocks on a queue to wait for data, blipping an LED each time | |
* data is received (turning it on and then off again) before returning to | |
* block on the queue once more. | |
* | |
* + The Tx task repeatedly blocks on an attempt to obtain a semaphore, and | |
* unblocks if either the semaphore is received or its block time expires. | |
* After leaving the blocked state the Tx task uses the queue to send a | |
* value to the Rx task, which in turn causes the Rx task to exit the | |
* Blocked state and blip the LED. The rate at which the LED is seen to blip | |
* is therefore dependent on the block time. | |
* | |
* + The Tx task's block time is changed by the interrupt service routine that | |
* executes when the USER button is pressed. The low power mode entered | |
* depends on the block time (as described in the Observed Behaviour section | |
* below). Four block times are used: short, medium, long and infinite. | |
* | |
* Observed behaviour: | |
* | |
* 1) The block time used by the Tx task is initialised to its 'short' value, | |
* so when the Tx task blocks on the semaphore it times-out quickly, resulting | |
* in the LED toggling rapidly. The timeout period is less than the value of | |
* configEXPECTED_IDLE_TIME_BEFORE_SLEEP (set in FreeRTOSConfig.h), so the | |
* initial state does not suppress the tick interrupt or enter a low power mode. | |
* | |
* 2) When the button is pressed the block time used by the Tx task is increased | |
* to its 'medium' value. The longer block time results in a slowing of the | |
* rate at which the LED toggles. The time the Tx task spends in the blocked | |
* state is now greater than configEXPECTED_IDLE_TIME_BEFORE_SLEEP, so the tick | |
* is suppressed. The MCU is placed into the 'Sleep' low power state while the | |
* tick is suppressed. | |
* | |
* 3) When the button is pressed again the block time used by the Tx task is | |
* increased to its 'long' value, so the rate at which the LED is observed to | |
* blip gets even slow. When the 'long' block time is used the MCU is placed | |
* into its 'Low Power Sleep' low power state. | |
* | |
* 4) The next time the button is pressed the block time used by the Tx task is | |
* set to infinite, so the Tx task does not time out when it attempts to obtain | |
* the semaphore, and therefore the LED stops blipping completely. Both tasks | |
* are now blocked indefinitely and the MCU is placed into its 'Stop' low power | |
* state. | |
* | |
* 5) Pressing the button one final time results in the semaphore being 'given' | |
* to unblock the Tx task, the CPU clocks being returned to their pre-stop | |
* state, and the block time being reset to its 'short' time. The system is | |
* then back to its initial condition with the LED blipping rapidly. | |
* | |
*/ | |
/* Kernel includes. */ | |
#include "FreeRTOS.h" | |
#include "task.h" | |
#include "queue.h" | |
#include "semphr.h" | |
/* ST library functions. */ | |
#include "stm32l1xx.h" | |
#include "discover_board.h" | |
#include "stm32l_discovery_lcd.h" | |
/* Priorities at which the Rx and Tx tasks are created. */ | |
#define configQUEUE_RECEIVE_TASK_PRIORITY ( tskIDLE_PRIORITY + 1 ) | |
#define configQUEUE_SEND_TASK_PRIORITY ( tskIDLE_PRIORITY + 2 ) | |
/* The number of items the queue can hold. This is 1 as the Rx task will | |
remove items as they are added so the Tx task should always find the queue | |
empty. */ | |
#define mainQUEUE_LENGTH ( 1 ) | |
/* A block time of zero simply means "don't block". */ | |
#define mainDONT_BLOCK ( 0 ) | |
/* The value that is sent from the Tx task to the Rx task on the queue. */ | |
#define mainQUEUED_VALUE ( 100UL ) | |
/* The length of time the LED will remain on for. */ | |
#define mainLED_TOGGLE_DELAY ( 10 / portTICK_PERIOD_MS ) | |
/*-----------------------------------------------------------*/ | |
/* | |
* The Rx and Tx tasks as described at the top of this file. | |
*/ | |
static void prvQueueReceiveTask( void *pvParameters ); | |
static void prvQueueSendTask( void *pvParameters ); | |
/*-----------------------------------------------------------*/ | |
/* The queue used to pass data from the Tx task to the Rx task. */ | |
static QueueHandle_t xQueue = NULL; | |
/*-----------------------------------------------------------*/ | |
/* Holds the block time used by the Tx task. */ | |
TickType_t xSendBlockTime = ( 100UL / portTICK_PERIOD_MS ); | |
/* The lower an upper limits of the block time. An infinite block time is used | |
if xSendBlockTime is incremented past xMaxBlockTime. */ | |
static const TickType_t xMaxBlockTime = ( 500L / portTICK_PERIOD_MS ), xMinBlockTime = ( 100L / portTICK_PERIOD_MS ); | |
/* The semaphore on which the Tx task blocks. */ | |
static SemaphoreHandle_t xTxSemaphore = NULL; | |
/*-----------------------------------------------------------*/ | |
/* See the comments at the top of the file. */ | |
void main_low_power( void ) | |
{ | |
/* Create the semaphore as described at the top of this file. */ | |
xTxSemaphore = xSemaphoreCreateBinary(); | |
configASSERT( xTxSemaphore ); | |
/* Create the queue as described at the top of this file. */ | |
xQueue = xQueueCreate( mainQUEUE_LENGTH, sizeof( unsigned long ) ); | |
configASSERT( xQueue ); | |
/* Start the two tasks as described at the top of this file. */ | |
xTaskCreate( prvQueueReceiveTask, "Rx", configMINIMAL_STACK_SIZE, NULL, configQUEUE_RECEIVE_TASK_PRIORITY, NULL ); | |
xTaskCreate( prvQueueSendTask, "TX", configMINIMAL_STACK_SIZE, NULL, configQUEUE_SEND_TASK_PRIORITY, NULL ); | |
/* Start the scheduler running running. */ | |
vTaskStartScheduler(); | |
/* If all is well the next line of code will not be reached as the | |
scheduler will be running. If the next line is reached then it is likely | |
there was insufficient FreeRTOS heap available for the idle task and/or | |
timer task to be created. See http://www.freertos.org/a00111.html. */ | |
for( ;; ); | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvQueueSendTask( void *pvParameters ) | |
{ | |
const unsigned long ulValueToSend = mainQUEUED_VALUE; | |
/* Remove compiler warning about unused parameter. */ | |
( void ) pvParameters; | |
for( ;; ) | |
{ | |
/* Enter the Blocked state to wait for the semaphore. The task will | |
leave the Blocked state if either the semaphore is received or | |
xSendBlockTime ticks pass without the semaphore being received. */ | |
xSemaphoreTake( xTxSemaphore, xSendBlockTime ); | |
/* Send to the queue - causing the Tx task to flash its LED. */ | |
xQueueSend( xQueue, &ulValueToSend, mainDONT_BLOCK ); | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvQueueReceiveTask( void *pvParameters ) | |
{ | |
unsigned long ulReceivedValue; | |
/* Remove compiler warning about unused parameter. */ | |
( void ) pvParameters; | |
for( ;; ) | |
{ | |
/* Wait until something arrives in the queue. */ | |
xQueueReceive( xQueue, &ulReceivedValue, portMAX_DELAY ); | |
/* To get here something must have arrived, but is it the expected | |
value? If it is, turn the LED on for a short while. */ | |
if( ulReceivedValue == mainQUEUED_VALUE ) | |
{ | |
/* LED on... */ | |
GPIO_HIGH( LD_GPIO_PORT, LD_GREEN_GPIO_PIN ); | |
/* ... short delay ... */ | |
vTaskDelay( mainLED_TOGGLE_DELAY ); | |
/* ... LED off again. */ | |
GPIO_LOW( LD_GPIO_PORT, LD_GREEN_GPIO_PIN ); | |
} | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
/* Handles interrupts generated by pressing the USER button. */ | |
void EXTI0_IRQHandler(void) | |
{ | |
static const TickType_t xIncrement = 200UL / portTICK_PERIOD_MS; | |
/* If xSendBlockTime is already portMAX_DELAY then the Tx task was blocked | |
indefinitely, and this interrupt is bringing the MCU out of STOP low power | |
mode. */ | |
if( xSendBlockTime == portMAX_DELAY ) | |
{ | |
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE; | |
/* Unblock the Tx task. */ | |
xSemaphoreGiveFromISR( xTxSemaphore, &xHigherPriorityTaskWoken ); | |
/* Start over with the 'short' block time as described at the top of | |
this file. */ | |
xSendBlockTime = xMinBlockTime; | |
/* Request a yield if calling xSemaphoreGiveFromISR() caused a task to | |
leave the Blocked state (which it will have done) and the task that left | |
the Blocked state has a priority higher than the currently running task | |
(which it will have). */ | |
portYIELD_FROM_ISR( xHigherPriorityTaskWoken ); | |
} | |
else | |
{ | |
/* Increase the block time used by the Tx task, as described at the top | |
of this file. */ | |
xSendBlockTime += xIncrement; | |
/* If the block time has gone over the configured maximum then set it to | |
an infinite block time to allow the MCU to go into its STOP low power | |
mode. */ | |
if( xSendBlockTime > xMaxBlockTime ) | |
{ | |
xSendBlockTime = portMAX_DELAY; | |
} | |
} | |
EXTI_ClearITPendingBit( EXTI_Line0 ); | |
} | |
/*-----------------------------------------------------------*/ | |
/* The configPOST_STOP_PROCESSING() macro is called when the MCU leaves its | |
STOP low power mode. The macro is set in FreeRTOSConfig.h to call | |
vMainPostStopProcessing(). */ | |
void vMainPostStopProcessing( void ) | |
{ | |
extern void SetSysClock( void ); | |
/* The STOP low power mode has been exited. Reconfigure the system clocks | |
ready for normally running again. */ | |
SetSysClock(); | |
} | |
/*-----------------------------------------------------------*/ |