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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [Common/] [Minimal/] [AltBlock.c] - Rev 831
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/* FreeRTOS V6.1.1 - Copyright (C) 2011 Real Time Engineers Ltd. *************************************************************************** * * * If you are: * * * * + New to FreeRTOS, * * + Wanting to learn FreeRTOS or multitasking in general quickly * * + Looking for basic training, * * + Wanting to improve your FreeRTOS skills and productivity * * * * then take a look at the FreeRTOS books - available as PDF or paperback * * * * "Using the FreeRTOS Real Time Kernel - a Practical Guide" * * http://www.FreeRTOS.org/Documentation * * * * A pdf reference manual is also available. Both are usually delivered * * to your inbox within 20 minutes to two hours when purchased between 8am * * and 8pm GMT (although please allow up to 24 hours in case of * * exceptional circumstances). Thank you for your support! * * * *************************************************************************** This file is part of the FreeRTOS distribution. FreeRTOS is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License (version 2) as published by the Free Software Foundation AND MODIFIED BY the FreeRTOS exception. ***NOTE*** The exception to the GPL is included to allow you to distribute a combined work that includes FreeRTOS without being obliged to provide the source code for proprietary components outside of the FreeRTOS kernel. FreeRTOS is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License and the FreeRTOS license exception along with FreeRTOS; if not it can be viewed here: http://www.freertos.org/a00114.html and also obtained by writing to Richard Barry, contact details for whom are available on the FreeRTOS WEB site. 1 tab == 4 spaces! http://www.FreeRTOS.org - Documentation, latest information, license and contact details. http://www.SafeRTOS.com - A version that is certified for use in safety critical systems. http://www.OpenRTOS.com - Commercial support, development, porting, licensing and training services. */ /* * This is a version of BlockTim.c that uses the light weight API. * * This file contains some test scenarios that ensure tasks do not exit queue * send or receive functions prematurely. A description of the tests is * included within the code. */ /* Kernel includes. */ #include "FreeRTOS.h" #include "task.h" #include "queue.h" /* Demo includes. */ #include "AltBlock.h" /* Task priorities. */ #define bktPRIMARY_PRIORITY ( 3 ) #define bktSECONDARY_PRIORITY ( 2 ) /* Task behaviour. */ #define bktQUEUE_LENGTH ( 5 ) #define bktSHORT_WAIT ( ( ( portTickType ) 20 ) / portTICK_RATE_MS ) #define bktPRIMARY_BLOCK_TIME ( 10 ) #define bktALLOWABLE_MARGIN ( 12 ) #define bktTIME_TO_BLOCK ( 175 ) #define bktDONT_BLOCK ( ( portTickType ) 0 ) #define bktRUN_INDICATOR ( ( unsigned portBASE_TYPE ) 0x55 ) /* The queue on which the tasks block. */ static xQueueHandle xTestQueue; /* Handle to the secondary task is required by the primary task for calls to vTaskSuspend/Resume(). */ static xTaskHandle xSecondary; /* Used to ensure that tasks are still executing without error. */ static portBASE_TYPE xPrimaryCycles = 0, xSecondaryCycles = 0; static portBASE_TYPE xErrorOccurred = pdFALSE; /* Provides a simple mechanism for the primary task to know when the secondary task has executed. */ static volatile unsigned portBASE_TYPE xRunIndicator; /* The two test tasks. Their behaviour is commented within the files. */ static void vPrimaryBlockTimeTestTask( void *pvParameters ); static void vSecondaryBlockTimeTestTask( void *pvParameters ); /*-----------------------------------------------------------*/ void vCreateAltBlockTimeTasks( void ) { /* Create the queue on which the two tasks block. */ xTestQueue = xQueueCreate( bktQUEUE_LENGTH, sizeof( portBASE_TYPE ) ); /* vQueueAddToRegistry() adds the queue to the queue registry, if one is in use. The queue registry is provided as a means for kernel aware debuggers to locate queues and has no purpose if a kernel aware debugger is not being used. The call to vQueueAddToRegistry() will be removed by the pre-processor if configQUEUE_REGISTRY_SIZE is not defined or is defined to be less than 1. */ vQueueAddToRegistry( xTestQueue, ( signed portCHAR * ) "AltBlockQueue" ); /* Create the two test tasks. */ xTaskCreate( vPrimaryBlockTimeTestTask, ( signed portCHAR * )"FBTest1", configMINIMAL_STACK_SIZE, NULL, bktPRIMARY_PRIORITY, NULL ); xTaskCreate( vSecondaryBlockTimeTestTask, ( signed portCHAR * )"FBTest2", configMINIMAL_STACK_SIZE, NULL, bktSECONDARY_PRIORITY, &xSecondary ); } /*-----------------------------------------------------------*/ static void vPrimaryBlockTimeTestTask( void *pvParameters ) { portBASE_TYPE xItem, xData; portTickType xTimeWhenBlocking; portTickType xTimeToBlock, xBlockedTime; #ifdef USE_STDIO void vPrintDisplayMessage( const portCHAR * const * ppcMessageToSend ); const portCHAR * const pcTaskStartMsg = "Alt primary block time test started.\r\n"; /* Queue a message for printing to say the task has started. */ vPrintDisplayMessage( &pcTaskStartMsg ); #endif ( void ) pvParameters; for( ;; ) { /********************************************************************* Test 1 Simple block time wakeup test on queue receives. */ for( xItem = 0; xItem < bktQUEUE_LENGTH; xItem++ ) { /* The queue is empty. Attempt to read from the queue using a block time. When we wake, ensure the delta in time is as expected. */ xTimeToBlock = bktPRIMARY_BLOCK_TIME << xItem; /* A critical section is used to minimise the jitter in the time measurements. */ portENTER_CRITICAL(); { xTimeWhenBlocking = xTaskGetTickCount(); /* We should unblock after xTimeToBlock having not received anything on the queue. */ if( xQueueAltReceive( xTestQueue, &xData, xTimeToBlock ) != errQUEUE_EMPTY ) { xErrorOccurred = pdTRUE; } /* How long were we blocked for? */ xBlockedTime = xTaskGetTickCount() - xTimeWhenBlocking; } portEXIT_CRITICAL(); if( xBlockedTime < xTimeToBlock ) { /* Should not have blocked for less than we requested. */ xErrorOccurred = pdTRUE; } if( xBlockedTime > ( xTimeToBlock + bktALLOWABLE_MARGIN ) ) { /* Should not have blocked for longer than we requested, although we would not necessarily run as soon as we were unblocked so a margin is allowed. */ xErrorOccurred = pdTRUE; } } #if configUSE_PREEMPTION == 0 taskYIELD(); #endif /********************************************************************* Test 2 Simple block time wakeup test on queue sends. First fill the queue. It should be empty so all sends should pass. */ for( xItem = 0; xItem < bktQUEUE_LENGTH; xItem++ ) { if( xQueueAltSendToBack( xTestQueue, &xItem, bktDONT_BLOCK ) != pdPASS ) { xErrorOccurred = pdTRUE; } } for( xItem = 0; xItem < bktQUEUE_LENGTH; xItem++ ) { /* The queue is full. Attempt to write to the queue using a block time. When we wake, ensure the delta in time is as expected. */ xTimeToBlock = bktPRIMARY_BLOCK_TIME << xItem; portENTER_CRITICAL(); { xTimeWhenBlocking = xTaskGetTickCount(); /* We should unblock after xTimeToBlock having not received anything on the queue. */ if( xQueueAltSendToBack( xTestQueue, &xItem, xTimeToBlock ) != errQUEUE_FULL ) { xErrorOccurred = pdTRUE; } /* How long were we blocked for? */ xBlockedTime = xTaskGetTickCount() - xTimeWhenBlocking; } portEXIT_CRITICAL(); if( xBlockedTime < xTimeToBlock ) { /* Should not have blocked for less than we requested. */ xErrorOccurred = pdTRUE; } if( xBlockedTime > ( xTimeToBlock + bktALLOWABLE_MARGIN ) ) { /* Should not have blocked for longer than we requested, although we would not necessarily run as soon as we were unblocked so a margin is allowed. */ xErrorOccurred = pdTRUE; } } #if configUSE_PREEMPTION == 0 taskYIELD(); #endif /********************************************************************* Test 3 Wake the other task, it will block attempting to post to the queue. When we read from the queue the other task will wake, but before it can run we will post to the queue again. When the other task runs it will find the queue still full, even though it was woken. It should recognise that its block time has not expired and return to block for the remains of its block time. Wake the other task so it blocks attempting to post to the already full queue. */ xRunIndicator = 0; vTaskResume( xSecondary ); /* We need to wait a little to ensure the other task executes. */ while( xRunIndicator != bktRUN_INDICATOR ) { /* The other task has not yet executed. */ vTaskDelay( bktSHORT_WAIT ); } /* Make sure the other task is blocked on the queue. */ vTaskDelay( bktSHORT_WAIT ); xRunIndicator = 0; for( xItem = 0; xItem < bktQUEUE_LENGTH; xItem++ ) { /* Now when we make space on the queue the other task should wake but not execute as this task has higher priority. */ if( xQueueAltReceive( xTestQueue, &xData, bktDONT_BLOCK ) != pdPASS ) { xErrorOccurred = pdTRUE; } /* Now fill the queue again before the other task gets a chance to execute. If the other task had executed we would find the queue full ourselves, and the other task have set xRunIndicator. */ if( xQueueAltSendToBack( xTestQueue, &xItem, bktDONT_BLOCK ) != pdPASS ) { xErrorOccurred = pdTRUE; } if( xRunIndicator == bktRUN_INDICATOR ) { /* The other task should not have executed. */ xErrorOccurred = pdTRUE; } /* Raise the priority of the other task so it executes and blocks on the queue again. */ vTaskPrioritySet( xSecondary, bktPRIMARY_PRIORITY + 2 ); /* The other task should now have re-blocked without exiting the queue function. */ if( xRunIndicator == bktRUN_INDICATOR ) { /* The other task should not have executed outside of the queue function. */ xErrorOccurred = pdTRUE; } /* Set the priority back down. */ vTaskPrioritySet( xSecondary, bktSECONDARY_PRIORITY ); } /* Let the other task timeout. When it unblockes it will check that it unblocked at the correct time, then suspend itself. */ while( xRunIndicator != bktRUN_INDICATOR ) { vTaskDelay( bktSHORT_WAIT ); } vTaskDelay( bktSHORT_WAIT ); xRunIndicator = 0; #if configUSE_PREEMPTION == 0 taskYIELD(); #endif /********************************************************************* Test 4 As per test 3 - but with the send and receive the other way around. The other task blocks attempting to read from the queue. Empty the queue. We should find that it is full. */ for( xItem = 0; xItem < bktQUEUE_LENGTH; xItem++ ) { if( xQueueAltReceive( xTestQueue, &xData, bktDONT_BLOCK ) != pdPASS ) { xErrorOccurred = pdTRUE; } } /* Wake the other task so it blocks attempting to read from the already empty queue. */ vTaskResume( xSecondary ); /* We need to wait a little to ensure the other task executes. */ while( xRunIndicator != bktRUN_INDICATOR ) { vTaskDelay( bktSHORT_WAIT ); } vTaskDelay( bktSHORT_WAIT ); xRunIndicator = 0; for( xItem = 0; xItem < bktQUEUE_LENGTH; xItem++ ) { /* Now when we place an item on the queue the other task should wake but not execute as this task has higher priority. */ if( xQueueAltSendToBack( xTestQueue, &xItem, bktDONT_BLOCK ) != pdPASS ) { xErrorOccurred = pdTRUE; } /* Now empty the queue again before the other task gets a chance to execute. If the other task had executed we would find the queue empty ourselves, and the other task would be suspended. */ if( xQueueAltReceive( xTestQueue, &xData, bktDONT_BLOCK ) != pdPASS ) { xErrorOccurred = pdTRUE; } if( xRunIndicator == bktRUN_INDICATOR ) { /* The other task should not have executed. */ xErrorOccurred = pdTRUE; } /* Raise the priority of the other task so it executes and blocks on the queue again. */ vTaskPrioritySet( xSecondary, bktPRIMARY_PRIORITY + 2 ); /* The other task should now have re-blocked without exiting the queue function. */ if( xRunIndicator == bktRUN_INDICATOR ) { /* The other task should not have executed outside of the queue function. */ xErrorOccurred = pdTRUE; } vTaskPrioritySet( xSecondary, bktSECONDARY_PRIORITY ); } /* Let the other task timeout. When it unblockes it will check that it unblocked at the correct time, then suspend itself. */ while( xRunIndicator != bktRUN_INDICATOR ) { vTaskDelay( bktSHORT_WAIT ); } vTaskDelay( bktSHORT_WAIT ); xPrimaryCycles++; } } /*-----------------------------------------------------------*/ static void vSecondaryBlockTimeTestTask( void *pvParameters ) { portTickType xTimeWhenBlocking, xBlockedTime; portBASE_TYPE xData; #ifdef USE_STDIO void vPrintDisplayMessage( const portCHAR * const * ppcMessageToSend ); const portCHAR * const pcTaskStartMsg = "Alt secondary block time test started.\r\n"; /* Queue a message for printing to say the task has started. */ vPrintDisplayMessage( &pcTaskStartMsg ); #endif ( void ) pvParameters; for( ;; ) { /********************************************************************* Test 1 and 2 This task does does not participate in these tests. */ vTaskSuspend( NULL ); /********************************************************************* Test 3 The first thing we do is attempt to read from the queue. It should be full so we block. Note the time before we block so we can check the wake time is as per that expected. */ portENTER_CRITICAL(); { xTimeWhenBlocking = xTaskGetTickCount(); /* We should unblock after bktTIME_TO_BLOCK having not received anything on the queue. */ xData = 0; xRunIndicator = bktRUN_INDICATOR; if( xQueueAltSendToBack( xTestQueue, &xData, bktTIME_TO_BLOCK ) != errQUEUE_FULL ) { xErrorOccurred = pdTRUE; } /* How long were we inside the send function? */ xBlockedTime = xTaskGetTickCount() - xTimeWhenBlocking; } portEXIT_CRITICAL(); /* We should not have blocked for less time than bktTIME_TO_BLOCK. */ if( xBlockedTime < bktTIME_TO_BLOCK ) { xErrorOccurred = pdTRUE; } /* We should of not blocked for much longer than bktALLOWABLE_MARGIN either. A margin is permitted as we would not necessarily run as soon as we unblocked. */ if( xBlockedTime > ( bktTIME_TO_BLOCK + bktALLOWABLE_MARGIN ) ) { xErrorOccurred = pdTRUE; } /* Suspend ready for test 3. */ xRunIndicator = bktRUN_INDICATOR; vTaskSuspend( NULL ); /********************************************************************* Test 4 As per test three, but with the send and receive reversed. */ portENTER_CRITICAL(); { xTimeWhenBlocking = xTaskGetTickCount(); /* We should unblock after bktTIME_TO_BLOCK having not received anything on the queue. */ xRunIndicator = bktRUN_INDICATOR; if( xQueueAltReceive( xTestQueue, &xData, bktTIME_TO_BLOCK ) != errQUEUE_EMPTY ) { xErrorOccurred = pdTRUE; } xBlockedTime = xTaskGetTickCount() - xTimeWhenBlocking; } portEXIT_CRITICAL(); /* We should not have blocked for less time than bktTIME_TO_BLOCK. */ if( xBlockedTime < bktTIME_TO_BLOCK ) { xErrorOccurred = pdTRUE; } /* We should of not blocked for much longer than bktALLOWABLE_MARGIN either. A margin is permitted as we would not necessarily run as soon as we unblocked. */ if( xBlockedTime > ( bktTIME_TO_BLOCK + bktALLOWABLE_MARGIN ) ) { xErrorOccurred = pdTRUE; } xRunIndicator = bktRUN_INDICATOR; xSecondaryCycles++; } } /*-----------------------------------------------------------*/ portBASE_TYPE xAreAltBlockTimeTestTasksStillRunning( void ) { static portBASE_TYPE xLastPrimaryCycleCount = 0, xLastSecondaryCycleCount = 0; portBASE_TYPE xReturn = pdPASS; /* Have both tasks performed at least one cycle since this function was last called? */ if( xPrimaryCycles == xLastPrimaryCycleCount ) { xReturn = pdFAIL; } if( xSecondaryCycles == xLastSecondaryCycleCount ) { xReturn = pdFAIL; } if( xErrorOccurred == pdTRUE ) { xReturn = pdFAIL; } xLastSecondaryCycleCount = xSecondaryCycles; xLastPrimaryCycleCount = xPrimaryCycles; return xReturn; }
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