/* | |
FreeRTOS V8.0.1 - Copyright (C) 2014 Real Time Engineers Ltd. | |
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*************************************************************************** | |
* * | |
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* robust, strictly quality controlled, supported, and cross * | |
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*************************************************************************** | |
This file is part of the FreeRTOS distribution. | |
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FOR A PARTICULAR PURPOSE. Full license text is available from the following | |
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*************************************************************************** | |
* * | |
* Having a problem? Start by reading the FAQ "My application does * | |
* not run, what could be wrong?" * | |
* * | |
* http://www.FreeRTOS.org/FAQHelp.html * | |
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*************************************************************************** | |
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*/ | |
/* | |
* main-blinky.c is included when the "Blinky" build configuration is used. | |
* main-full.c is included when the "Full" build configuration is used. | |
* | |
* main-full.c (this file) defines a comprehensive demo that creates many | |
* tasks, queues, semaphores and timers. It also demonstrates how Cortex-M3 | |
* interrupts can interact with FreeRTOS tasks/timers, and implements a simple | |
* and small interactive web server. | |
* | |
* This project runs on the SmartFusion A2F-EVAL-KIT evaluation board, which | |
* is populated with an A2F200M3F SmartFusion mixed signal FPGA. The A2F200M3F | |
* incorporates a Cortex-M3 microcontroller. | |
* | |
* The main() Function: | |
* main() creates two demo specific software timers, one demo specific queue, | |
* and three demo specific tasks. It then creates a whole host of 'standard | |
* demo' tasks/queues/semaphores, before starting the scheduler. The demo | |
* specific tasks and timers are described in the comments here. The standard | |
* demo tasks are described on the FreeRTOS.org web site. | |
* | |
* The standard demo tasks provide no specific functionality. They are | |
* included to both test the FreeRTOS port, and provide examples of how the | |
* various FreeRTOS API functions can be used. | |
* | |
* The Demo Specific Queue Send Task: | |
* The queue send task is implemented by the prvQueueSendTask() function in | |
* this file. prvQueueSendTask() sits in a loop that causes it to repeatedly | |
* block for 200 milliseconds, before sending the value 100 to the queue that | |
* was created within main(). Once the value is sent, the task loops back | |
* around to block for another 200 milliseconds. | |
* | |
* The Demo Specific Queue Receive Task: | |
* The queue receive task is implemented by the prvQueueReceiveTask() function | |
* in this file. prvQueueReceiveTask() sits in a loop that causes it to | |
* repeatedly attempt to read data from the queue that was created within | |
* main(). When data is received, the task checks the value of the data, and | |
* if the value equals the expected 100, toggles the green LED. The 'block | |
* time' parameter passed to the queue receive function specifies that the task | |
* should be held in the Blocked state indefinitely to wait for data to be | |
* available on the queue. The queue receive task will only leave the Blocked | |
* state when the queue send task writes to the queue. As the queue send task | |
* writes to the queue every 200 milliseconds, the queue receive task leaves | |
* the Blocked state every 200 milliseconds, and therefore toggles the LED | |
* every 200 milliseconds. | |
* | |
* The Demo Specific OLED Task: | |
* The OLED task is a very simple task that just scrolls a message across the | |
* OLED. Ideally this would be done in a timer, but the OLED driver accesses | |
* the I2C which is time consuming. | |
* | |
* The Demo Specific LED Software Timer and the Button Interrupt: | |
* The user button SW1 is configured to generate an interrupt each time it is | |
* pressed. The interrupt service routine switches an LED on, and resets the | |
* LED software timer. The LED timer has a 5000 millisecond (5 second) period, | |
* and uses a callback function that is defined to just turn the LED off again. | |
* Therefore, pressing the user button will turn the LED on, and the LED will | |
* remain on until a full five seconds pass without the button being pressed. | |
* | |
* The Demo Specific "Check" Callback Function: | |
* This is called each time the 'check' timer expires. The check timer | |
* callback function inspects all the standard demo tasks to see if they are | |
* all executing as expected. The check timer is initially configured to | |
* expire every three seconds, but will shorted this to every 500ms if an error | |
* is ever discovered. The check timer callback toggles the LED defined by | |
* the mainCHECK_LED definition each time it executes. Therefore, if LED | |
* mainCHECK_LED is toggling every three seconds, then no error have been found. | |
* If LED mainCHECK_LED is toggling every 500ms, then at least one errors has | |
* been found. The task in which the error was discovered is displayed at the | |
* bottom of the "task stats" page that is served by the embedded web server. | |
* | |
* The Demo Specific Idle Hook Function: | |
* The idle hook function demonstrates how to query the amount of FreeRTOS heap | |
* space that is remaining (see vApplicationIdleHook() defined in this file). | |
* | |
* The Web Server Task: | |
* The IP address used by the SmartFusion target is configured by the | |
* definitions configIP_ADDR0 to configIP_ADDR3, which are located in the | |
* FreeRTOSConfig.h header file. See the documentation page for this example | |
* on the http://www.FreeRTOS.org web site for further connection information. | |
*/ | |
/* Kernel includes. */ | |
#include "FreeRTOS.h" | |
#include "task.h" | |
#include "queue.h" | |
#include "timers.h" | |
/* Microsemi drivers/libraries includes. */ | |
#include "mss_gpio.h" | |
#include "mss_watchdog.h" | |
#include "mss_timer.h" | |
#include "mss_ace.h" | |
#include "oled.h" | |
/* Common demo includes. */ | |
#include "partest.h" | |
#include "flash.h" | |
#include "BlockQ.h" | |
#include "death.h" | |
#include "blocktim.h" | |
#include "semtest.h" | |
#include "GenQTest.h" | |
#include "QPeek.h" | |
#include "recmutex.h" | |
#include "TimerDemo.h" | |
/* Priorities at which the tasks are created. */ | |
#define mainQUEUE_RECEIVE_TASK_PRIORITY ( tskIDLE_PRIORITY + 2 ) | |
#define mainQUEUE_SEND_TASK_PRIORITY ( tskIDLE_PRIORITY + 1 ) | |
/* The rate at which data is sent to the queue, specified in milliseconds, and | |
converted to ticks using the portTICK_PERIOD_MS constant. */ | |
#define mainQUEUE_SEND_FREQUENCY_MS ( 200 / portTICK_PERIOD_MS ) | |
/* The number of items the queue can hold. This is 1 as the receive task | |
will remove items as they are added, meaning the send task should always find | |
the queue empty. */ | |
#define mainQUEUE_LENGTH ( 1 ) | |
/* The LED toggled by the check timer callback function. */ | |
#define mainCHECK_LED 0x07UL | |
/* The LED turned on by the button interrupt, and turned off by the LED timer. */ | |
#define mainTIMER_CONTROLLED_LED 0x06UL | |
/* The LED toggle by the queue receive task. */ | |
#define mainTASK_CONTROLLED_LED 0x05UL | |
/* Constant used by the standard timer test functions. */ | |
#define mainTIMER_TEST_PERIOD ( 50 ) | |
/* Priorities used by the various different tasks. */ | |
#define mainCHECK_TASK_PRIORITY ( configMAX_PRIORITIES - 1 ) | |
#define mainQUEUE_POLL_PRIORITY ( tskIDLE_PRIORITY + 1 ) | |
#define mainSEM_TEST_PRIORITY ( tskIDLE_PRIORITY + 1 ) | |
#define mainBLOCK_Q_PRIORITY ( tskIDLE_PRIORITY + 2 ) | |
#define mainCREATOR_TASK_PRIORITY ( tskIDLE_PRIORITY + 3 ) | |
#define mainFLASH_TASK_PRIORITY ( tskIDLE_PRIORITY + 1 ) | |
#define mainuIP_TASK_PRIORITY ( tskIDLE_PRIORITY + 2 ) | |
#define mainOLED_TASK_PRIORITY ( tskIDLE_PRIORITY + 1 ) | |
#define mainINTEGER_TASK_PRIORITY ( tskIDLE_PRIORITY ) | |
#define mainGEN_QUEUE_TASK_PRIORITY ( tskIDLE_PRIORITY ) | |
/* The WEB server uses string handling functions, which in turn use a bit more | |
stack than most of the other tasks. */ | |
#define mainuIP_STACK_SIZE ( configMINIMAL_STACK_SIZE * 3 ) | |
/* The period at which the check timer will expire, in ms, provided no errors | |
have been reported by any of the standard demo tasks. */ | |
#define mainCHECK_TIMER_PERIOD_MS ( 3000UL / portTICK_PERIOD_MS ) | |
/* The period at which the OLED timer will expire. Each time it expires, it's | |
callback function updates the OLED text. */ | |
#define mainOLED_PERIOD_MS ( 75UL / portTICK_PERIOD_MS ) | |
/* The period at which the check timer will expire, in ms, if an error has been | |
reported in one of the standard demo tasks. */ | |
#define mainERROR_CHECK_TIMER_PERIOD_MS ( 500UL / portTICK_PERIOD_MS ) | |
/* The LED will remain on until the button has not been pushed for a full | |
5000ms. */ | |
#define mainLED_TIMER_PERIOD_MS ( 5000UL / portTICK_PERIOD_MS ) | |
/* A zero block time. */ | |
#define mainDONT_BLOCK ( 0UL ) | |
/*-----------------------------------------------------------*/ | |
/* | |
* Setup the NVIC, LED outputs, and button inputs. | |
*/ | |
static void prvSetupHardware( void ); | |
/* | |
* The tasks as described in the comments at the top of this file. | |
*/ | |
static void prvQueueReceiveTask( void *pvParameters ); | |
static void prvQueueSendTask( void *pvParameters ); | |
/* | |
* The LED timer callback function. This does nothing but switch the red LED | |
* off. | |
*/ | |
static void prvLEDTimerCallback( TimerHandle_t xTimer ); | |
/* | |
* The check timer callback function, as described at the top of this file. | |
*/ | |
static void prvCheckTimerCallback( TimerHandle_t xTimer ); | |
/* | |
* This is not a 'standard' partest function, so the prototype is not in | |
* partest.h, and is instead included here. | |
*/ | |
void vParTestSetLEDFromISR( unsigned portBASE_TYPE uxLED, signed portBASE_TYPE xValue ); | |
/* | |
* Contains the implementation of the WEB server. | |
*/ | |
extern void vuIP_Task( void *pvParameters ); | |
/* | |
* A very simply task that does nothing but scroll the OLED display. Ideally | |
* this would be done within a timer, but it accesses the I2C port which is | |
* time consuming. | |
*/ | |
static void prvOLEDTask( void * pvParameters); | |
/*-----------------------------------------------------------*/ | |
/* The queue used by both application specific demo tasks defined in this file. */ | |
static QueueHandle_t xQueue = NULL; | |
/* The LED software timer. This uses prvLEDTimerCallback() as it's callback | |
function. */ | |
static TimerHandle_t xLEDTimer = NULL; | |
/* The check timer. This uses prvCheckTimerCallback() as it's callback | |
function. */ | |
static TimerHandle_t xCheckTimer = NULL; | |
/* The status message that is displayed at the bottom of the "task stats" web | |
page, which is served by the uIP task. This will report any errors picked up | |
by the check timer callback. */ | |
static const char *pcStatusMessage = NULL; | |
/*-----------------------------------------------------------*/ | |
int main(void) | |
{ | |
/* Configure the NVIC, LED outputs and button inputs. */ | |
prvSetupHardware(); | |
/* Create the queue. */ | |
xQueue = xQueueCreate( mainQUEUE_LENGTH, sizeof( unsigned long ) ); | |
if( xQueue != NULL ) | |
{ | |
/* Start the three application specific demo tasks, as described in the | |
comments at the top of this file. */ | |
xTaskCreate( prvQueueReceiveTask, "Rx", configMINIMAL_STACK_SIZE, NULL, mainQUEUE_RECEIVE_TASK_PRIORITY, NULL ); | |
xTaskCreate( prvQueueSendTask, "TX", configMINIMAL_STACK_SIZE, NULL, mainQUEUE_SEND_TASK_PRIORITY, NULL ); | |
xTaskCreate( prvOLEDTask, "OLED", configMINIMAL_STACK_SIZE, NULL, mainOLED_TASK_PRIORITY, NULL ); | |
/* Create the software timer that is responsible for turning off the LED | |
if the button is not pushed within 5000ms, as described at the top of | |
this file. */ | |
xLEDTimer = xTimerCreate( "LEDTimer", /* A text name, purely to help debugging. */ | |
( mainLED_TIMER_PERIOD_MS ), /* The timer period, in this case 5000ms (5s). */ | |
pdFALSE, /* This is a one shot timer, so xAutoReload is set to pdFALSE. */ | |
( void * ) 0, /* The ID is not used, so can be set to anything. */ | |
prvLEDTimerCallback /* The callback function that switches the LED off. */ | |
); | |
/* Create the software timer that performs the 'check' functionality, | |
as described at the top of this file. */ | |
xCheckTimer = xTimerCreate( "CheckTimer", /* A text name, purely to help debugging. */ | |
( mainCHECK_TIMER_PERIOD_MS ), /* The timer period, in this case 3000ms (3s). */ | |
pdTRUE, /* This is an auto-reload timer, so xAutoReload is set to pdTRUE. */ | |
( void * ) 0, /* The ID is not used, so can be set to anything. */ | |
prvCheckTimerCallback /* The callback function that inspects the status of all the other tasks. */ | |
); | |
/* Create a lot of 'standard demo' tasks. */ | |
vStartBlockingQueueTasks( mainBLOCK_Q_PRIORITY ); | |
vCreateBlockTimeTasks(); | |
vStartSemaphoreTasks( mainSEM_TEST_PRIORITY ); | |
vStartGenericQueueTasks( mainGEN_QUEUE_TASK_PRIORITY ); | |
vStartLEDFlashTasks( mainFLASH_TASK_PRIORITY ); | |
vStartQueuePeekTasks(); | |
vStartRecursiveMutexTasks(); | |
vStartTimerDemoTask( mainTIMER_TEST_PERIOD ); | |
/* Create the web server task. */ | |
xTaskCreate( vuIP_Task, "uIP", mainuIP_STACK_SIZE, NULL, mainuIP_TASK_PRIORITY, NULL ); | |
/* The suicide tasks must be created last, as they need to know how many | |
tasks were running prior to their creation in order to ascertain whether | |
or not the correct/expected number of tasks are running at any given | |
time. */ | |
vCreateSuicidalTasks( mainCREATOR_TASK_PRIORITY ); | |
/* Start the tasks and timer running. */ | |
vTaskStartScheduler(); | |
} | |
/* If all is well, the scheduler will now be running, and the following line | |
will never be reached. If the following line does execute, then there was | |
insufficient FreeRTOS heap memory available for the idle and/or timer tasks | |
to be created. See the memory management section on the FreeRTOS web site | |
for more details. */ | |
for( ;; ); | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvCheckTimerCallback( TimerHandle_t xTimer ) | |
{ | |
/* Check the standard demo tasks are running without error. Latch the | |
latest reported error in the pcStatusMessage character pointer. */ | |
if( xAreGenericQueueTasksStillRunning() != pdTRUE ) | |
{ | |
pcStatusMessage = "Error: GenQueue"; | |
} | |
if( xAreQueuePeekTasksStillRunning() != pdTRUE ) | |
{ | |
pcStatusMessage = "Error: QueuePeek\r\n"; | |
} | |
if( xAreBlockingQueuesStillRunning() != pdTRUE ) | |
{ | |
pcStatusMessage = "Error: BlockQueue\r\n"; | |
} | |
if( xAreBlockTimeTestTasksStillRunning() != pdTRUE ) | |
{ | |
pcStatusMessage = "Error: BlockTime\r\n"; | |
} | |
if( xAreSemaphoreTasksStillRunning() != pdTRUE ) | |
{ | |
pcStatusMessage = "Error: SemTest\r\n"; | |
} | |
if( xIsCreateTaskStillRunning() != pdTRUE ) | |
{ | |
pcStatusMessage = "Error: Death\r\n"; | |
} | |
if( xAreRecursiveMutexTasksStillRunning() != pdTRUE ) | |
{ | |
pcStatusMessage = "Error: RecMutex\r\n"; | |
} | |
if( xAreTimerDemoTasksStillRunning( ( mainCHECK_TIMER_PERIOD_MS ) ) != pdTRUE ) | |
{ | |
pcStatusMessage = "Error: TimerDemo"; | |
} | |
/* Toggle the check LED to give an indication of the system status. If | |
the LED toggles every mainCHECK_TIMER_PERIOD_MS milliseconds then | |
everything is ok. A faster toggle indicates an error. */ | |
vParTestToggleLED( mainCHECK_LED ); | |
/* Have any errors been latch in pcStatusMessage? If so, shorten the | |
period of the check timer to mainERROR_CHECK_TIMER_PERIOD_MS milliseconds. | |
This will result in an increase in the rate at which mainCHECK_LED | |
toggles. */ | |
if( pcStatusMessage != NULL ) | |
{ | |
/* This call to xTimerChangePeriod() uses a zero block time. Functions | |
called from inside of a timer callback function must *never* attempt | |
to block. */ | |
xTimerChangePeriod( xCheckTimer, ( mainERROR_CHECK_TIMER_PERIOD_MS ), mainDONT_BLOCK ); | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvLEDTimerCallback( TimerHandle_t xTimer ) | |
{ | |
/* The timer has expired - so no button pushes have occurred in the last | |
five seconds - turn the LED off. */ | |
vParTestSetLED( mainTIMER_CONTROLLED_LED, pdFALSE ); | |
} | |
/*-----------------------------------------------------------*/ | |
/* The ISR executed when the user button is pushed. */ | |
void GPIO8_IRQHandler( void ) | |
{ | |
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE; | |
/* The button was pushed, so ensure the LED is on before resetting the | |
LED timer. The LED timer will turn the LED off if the button is not | |
pushed within 5000ms. */ | |
vParTestSetLEDFromISR( mainTIMER_CONTROLLED_LED, pdTRUE ); | |
/* This interrupt safe FreeRTOS function can be called from this interrupt | |
because the interrupt priority is below the | |
configMAX_SYSCALL_INTERRUPT_PRIORITY setting in FreeRTOSConfig.h. */ | |
xTimerResetFromISR( xLEDTimer, &xHigherPriorityTaskWoken ); | |
/* Clear the interrupt before leaving. */ | |
MSS_GPIO_clear_irq( MSS_GPIO_8 ); | |
/* If calling xTimerResetFromISR() caused a task (in this case the timer | |
service/daemon task) to unblock, and the unblocked task has a priority | |
higher than or equal to the task that was interrupted, then | |
xHigherPriorityTaskWoken will now be set to pdTRUE, and calling | |
portEND_SWITCHING_ISR() will ensure the unblocked task runs next. */ | |
portEND_SWITCHING_ISR( xHigherPriorityTaskWoken ); | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvQueueSendTask( void *pvParameters ) | |
{ | |
TickType_t xNextWakeTime; | |
const unsigned long ulValueToSend = 100UL; | |
/* The timer command queue will have been filled when the timer test tasks | |
were created in main() (this is part of the test they perform). Therefore, | |
while the check timer can be created in main(), it cannot be started from | |
main(). Once the scheduler has started, the timer service task will drain | |
the command queue, and now the check timer can be started successfully. */ | |
xTimerStart( xCheckTimer, portMAX_DELAY ); | |
/* Initialise xNextWakeTime - this only needs to be done once. */ | |
xNextWakeTime = xTaskGetTickCount(); | |
for( ;; ) | |
{ | |
/* Place this task in the blocked state until it is time to run again. | |
The block time is specified in ticks, the constant used converts ticks | |
to ms. While in the Blocked state this task will not consume any CPU | |
time. */ | |
vTaskDelayUntil( &xNextWakeTime, mainQUEUE_SEND_FREQUENCY_MS ); | |
/* Send to the queue - causing the queue receive task to unblock and | |
toggle an LED. 0 is used as the block time so the sending operation | |
will not block - it shouldn't need to block as the queue should always | |
be empty at this point in the code. */ | |
xQueueSend( xQueue, &ulValueToSend, mainDONT_BLOCK ); | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvQueueReceiveTask( void *pvParameters ) | |
{ | |
unsigned long ulReceivedValue; | |
for( ;; ) | |
{ | |
/* Wait until something arrives in the queue - this task will block | |
indefinitely provided INCLUDE_vTaskSuspend is set to 1 in | |
FreeRTOSConfig.h. */ | |
xQueueReceive( xQueue, &ulReceivedValue, portMAX_DELAY ); | |
/* To get here something must have been received from the queue, but | |
is it the expected value? If it is, toggle the LED. */ | |
if( ulReceivedValue == 100UL ) | |
{ | |
vParTestToggleLED( mainTASK_CONTROLLED_LED ); | |
} | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvOLEDTask( void * pvParameters) | |
{ | |
static struct oled_data xOLEDData; | |
static unsigned char ucOffset1 = 0, ucOffset2 = 5; | |
static TickType_t xLastScrollTime = 0UL; | |
/* Initialise the display. */ | |
OLED_init(); | |
/* Initialise the parts of the oled_data structure that do not change. */ | |
xOLEDData.line1 = FIRST_LINE; | |
xOLEDData.string1 = " www.FreeRTOS.org"; | |
xOLEDData.line2 = SECOND_LINE; | |
xOLEDData.string2 = " www.FreeRTOS.org"; | |
xOLEDData.contrast_val = OLED_CONTRAST_VAL; | |
xOLEDData.on_off = OLED_HORIZ_SCROLL_OFF; | |
xOLEDData.column_scrool_per_step = OLED_HORIZ_SCROLL_STEP; | |
xOLEDData.start_page = OLED_START_PAGE; | |
xOLEDData.time_intrval_btw_scroll_step = OLED_HORIZ_SCROLL_TINVL; | |
xOLEDData.end_page = OLED_END_PAGE; | |
/* Initialise the last scroll time. This only needs to be done once, | |
because from this point on it will get automatically updated in the | |
xTaskDelayUntil() API function. */ | |
xLastScrollTime = xTaskGetTickCount(); | |
for( ;; ) | |
{ | |
/* Wait until it is time to update the OLED again. */ | |
vTaskDelayUntil( &xLastScrollTime, mainOLED_PERIOD_MS ); | |
xOLEDData.char_offset1 = ucOffset1++; | |
xOLEDData.char_offset2 = ucOffset2++; | |
OLED_write_data( &xOLEDData, BOTH_LINES ); | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
static void prvSetupHardware( void ) | |
{ | |
SystemCoreClockUpdate(); | |
/* Disable the Watch Dog Timer */ | |
MSS_WD_disable( ); | |
/* Configure the GPIO for the LEDs. */ | |
vParTestInitialise(); | |
/* ACE Initialization */ | |
ACE_init(); | |
/* Setup the GPIO and the NVIC for the switch used in this simple demo. */ | |
NVIC_SetPriority( GPIO8_IRQn, configLIBRARY_MAX_SYSCALL_INTERRUPT_PRIORITY ); | |
NVIC_EnableIRQ( GPIO8_IRQn ); | |
MSS_GPIO_config( MSS_GPIO_8, MSS_GPIO_INPUT_MODE | MSS_GPIO_IRQ_EDGE_NEGATIVE ); | |
MSS_GPIO_enable_irq( MSS_GPIO_8 ); | |
} | |
/*-----------------------------------------------------------*/ | |
void vApplicationMallocFailedHook( void ) | |
{ | |
/* Called if a call to pvPortMalloc() fails because there is insufficient | |
free memory available in the FreeRTOS heap. pvPortMalloc() is called | |
internally by FreeRTOS API functions that create tasks, queues, software | |
timers, and semaphores. The size of the FreeRTOS heap is set by the | |
configTOTAL_HEAP_SIZE configuration constant in FreeRTOSConfig.h. */ | |
for( ;; ); | |
} | |
/*-----------------------------------------------------------*/ | |
void vApplicationStackOverflowHook( TaskHandle_t pxTask, char *pcTaskName ) | |
{ | |
( void ) pcTaskName; | |
( void ) pxTask; | |
/* Run time stack overflow checking is performed if | |
configconfigCHECK_FOR_STACK_OVERFLOW is defined to 1 or 2. This hook | |
function is called if a stack overflow is detected. */ | |
taskDISABLE_INTERRUPTS(); | |
for( ;; ); | |
} | |
/*-----------------------------------------------------------*/ | |
void vApplicationIdleHook( void ) | |
{ | |
volatile size_t xFreeStackSpace; | |
/* This function is called on each cycle of the idle task. In this case it | |
does nothing useful, other than report the amount of FreeRTOS heap that | |
remains unallocated. */ | |
xFreeStackSpace = xPortGetFreeHeapSize(); | |
if( xFreeStackSpace > 100 ) | |
{ | |
/* By now, the kernel has allocated everything it is going to, so | |
if there is a lot of heap remaining unallocated then | |
the value of configTOTAL_HEAP_SIZE in FreeRTOSConfig.h can be | |
reduced accordingly. */ | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
char *pcGetTaskStatusMessage( void ) | |
{ | |
/* Not bothered about a critical section here although technically because | |
of the task priorities the pointer could change it will be atomic if not | |
near atomic and its not critical. */ | |
if( pcStatusMessage == NULL ) | |
{ | |
return "All tasks running without error"; | |
} | |
else | |
{ | |
return ( char * ) pcStatusMessage; | |
} | |
} | |
/*-----------------------------------------------------------*/ | |
void vMainConfigureTimerForRunTimeStats( void ) | |
{ | |
const unsigned long ulMax32BitValue = 0xffffffffUL; | |
MSS_TIM64_init( MSS_TIMER_PERIODIC_MODE ); | |
MSS_TIM64_load_immediate( ulMax32BitValue, ulMax32BitValue ); | |
MSS_TIM64_start(); | |
} | |
/*-----------------------------------------------------------*/ | |
unsigned long ulGetRunTimeCounterValue( void ) | |
{ | |
unsigned long long ullCurrentValue; | |
const unsigned long long ulMax64BitValue = 0xffffffffffffffffULL; | |
unsigned long *pulHighWord, *pulLowWord; | |
pulHighWord = ( unsigned long * ) &ullCurrentValue; | |
pulLowWord = pulHighWord++; | |
MSS_TIM64_get_current_value( ( uint32_t * ) pulHighWord, ( uint32_t * ) pulLowWord ); | |
/* Convert the down count into an upcount. */ | |
ullCurrentValue = ulMax64BitValue - ullCurrentValue; | |
/* Scale to a 32bit number of suitable frequency. */ | |
ullCurrentValue >>= 13; | |
/* Just return 32 bits. */ | |
return ( unsigned long ) ullCurrentValue; | |
} | |