2 FreeRTOS.org V5.0.3 - Copyright (C) 2003-2008 Richard Barry.
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4 This file is part of the FreeRTOS.org distribution.
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6 FreeRTOS.org is free software; you can redistribute it and/or modify
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7 it under the terms of the GNU General Public License as published by
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8 the Free Software Foundation; either version 2 of the License, or
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9 (at your option) any later version.
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11 FreeRTOS.org is distributed in the hope that it will be useful,
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12 but WITHOUT ANY WARRANTY; without even the implied warranty of
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13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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14 GNU General Public License for more details.
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16 You should have received a copy of the GNU General Public License
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17 along with FreeRTOS.org; if not, write to the Free Software
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18 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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20 A special exception to the GPL can be applied should you wish to distribute
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21 a combined work that includes FreeRTOS.org, without being obliged to provide
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22 the source code for any proprietary components. See the licensing section
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23 of http://www.FreeRTOS.org for full details of how and when the exception
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26 ***************************************************************************
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27 ***************************************************************************
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29 * SAVE TIME AND MONEY! We can port FreeRTOS.org to your own hardware, *
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30 * and even write all or part of your application on your behalf. *
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32 * expedite your project. *
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34 ***************************************************************************
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35 ***************************************************************************
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37 Please ensure to read the configuration and relevant port sections of the
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38 online documentation.
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40 http://www.FreeRTOS.org - Documentation, latest information, license and
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43 http://www.SafeRTOS.com - A version that is certified for use in safety
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46 http://www.OpenRTOS.com - Commercial support, development, porting,
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47 licensing and training services.
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51 * This file defines one of the more complex set of demo/test tasks. They are
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52 * designed to stress test the queue implementation though pseudo simultaneous
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53 * multiple reads and multiple writes from both tasks of varying priority and
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54 * interrupts. The interrupts are prioritised such to ensure that nesting
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55 * occurs (for those ports that support it).
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57 * The test ensures that, while being accessed from three tasks and two
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58 * interrupts, all the data sent to the queues is also received from
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59 * the same queue, and that no duplicate items are either sent or received.
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60 * The tests also ensure that a low priority task is never able to successfully
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61 * read from or write to a queue when a task of higher priority is attempting
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62 * the same operation.
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65 /* Standard includes. */
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68 /* SafeRTOS includes. */
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69 #include "FreeRTOS.h"
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73 /* Demo app includes. */
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74 #include "IntQueue.h"
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75 #include "IntQueueTimer.h"
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77 /* Priorities used by test tasks. */
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78 #define intqHIGHER_PRIORITY ( configMAX_PRIORITIES - 2 )
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79 #define intqLOWER_PRIORITY ( tskIDLE_PRIORITY )
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81 /* The number of values to send/receive before checking that all values were
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82 processed as expected. */
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83 #define intqNUM_VALUES_TO_LOG ( 200 )
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84 #define intqSHORT_DELAY ( 75 )
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86 /* The value by which the value being sent to or received from a queue should
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87 increment past intqNUM_VALUES_TO_LOG before we check that all values have been
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88 sent/received correctly. This is done to ensure that all tasks and interrupts
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89 accessing the queue have completed their accesses with the
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90 intqNUM_VALUES_TO_LOG range. */
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91 #define intqVALUE_OVERRUN ( 50 )
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93 /* The delay used by the polling task. A short delay is used for code
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95 #define intqONE_TICK_DELAY ( 1 )
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97 /* Each task and interrupt is given a unique identifier. This value is used to
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98 identify which task sent or received each value. The identifier is also used
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99 to distinguish between two tasks that are running the same task function. */
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100 #define intqHIGH_PRIORITY_TASK1 ( ( unsigned portBASE_TYPE ) 1 )
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101 #define intqHIGH_PRIORITY_TASK2 ( ( unsigned portBASE_TYPE ) 2 )
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102 #define intqLOW_PRIORITY_TASK ( ( unsigned portBASE_TYPE ) 3 )
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103 #define intqFIRST_INTERRUPT ( ( unsigned portBASE_TYPE ) 4 )
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104 #define intqSECOND_INTERRUPT ( ( unsigned portBASE_TYPE ) 5 )
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105 #define intqQUEUE_LENGTH ( ( unsigned portBASE_TYPE ) 10 )
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107 /* At least intqMIN_ACCEPTABLE_TASK_COUNT values should be sent to/received
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108 from each queue by each task, otherwise an error is detected. */
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109 #define intqMIN_ACCEPTABLE_TASK_COUNT ( 5 )
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111 /* Send the next value to the queue that is normally empty. This is called
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112 from within the interrupts. */
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113 #define timerNORMALLY_EMPTY_TX() \
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114 if( xQueueIsQueueFullFromISR( xNormallyEmptyQueue ) != pdTRUE ) \
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116 unsigned portBASE_TYPE uxSavedInterruptStatus; \
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117 uxSavedInterruptStatus = portSET_INTERRUPT_MASK_FROM_ISR(); \
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119 xQueueSendFromISR( xNormallyEmptyQueue, ( void * ) &uxValueForNormallyEmptyQueue, &xHigherPriorityTaskWoken ); \
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120 uxValueForNormallyEmptyQueue++; \
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122 portCLEAR_INTERRUPT_MASK_FROM_ISR( uxSavedInterruptStatus ); \
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125 /* Send the next value to the queue that is normally full. This is called
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126 from within the interrupts. */
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127 #define timerNORMALLY_FULL_TX() \
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128 if( xQueueIsQueueFullFromISR( xNormallyFullQueue ) != pdTRUE ) \
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130 unsigned portBASE_TYPE uxSavedInterruptStatus; \
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131 uxSavedInterruptStatus = portSET_INTERRUPT_MASK_FROM_ISR(); \
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133 xQueueSendFromISR( xNormallyFullQueue, ( void * ) &uxValueForNormallyFullQueue, &xHigherPriorityTaskWoken ); \
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134 uxValueForNormallyFullQueue++; \
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136 portCLEAR_INTERRUPT_MASK_FROM_ISR( uxSavedInterruptStatus ); \
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139 /* Receive a value from the normally empty queue. This is called from within
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141 #define timerNORMALLY_EMPTY_RX() \
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142 if( xQueueReceiveFromISR( xNormallyEmptyQueue, &uxRxedValue, &xHigherPriorityTaskWoken ) != pdPASS ) \
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144 prvQueueAccessLogError( __LINE__ ); \
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148 prvRecordValue_NormallyEmpty( uxRxedValue, intqSECOND_INTERRUPT ); \
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151 /* Receive a value from the normally full queue. This is called from within
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153 #define timerNORMALLY_FULL_RX() \
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154 if( xQueueReceiveFromISR( xNormallyFullQueue, &uxRxedValue, &xHigherPriorityTaskWoken ) == pdPASS ) \
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156 prvRecordValue_NormallyFull( uxRxedValue, intqSECOND_INTERRUPT ); \
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160 /*-----------------------------------------------------------*/
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162 /* The two queues used by the test. */
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163 static xQueueHandle xNormallyEmptyQueue, xNormallyFullQueue;
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165 /* Variables used to detect a stall in one of the tasks. */
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166 static unsigned portBASE_TYPE uxHighPriorityLoops1 = 0, uxHighPriorityLoops2 = 0, uxLowPriorityLoops1 = 0, uxLowPriorityLoops2 = 0;
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168 /* Any unexpected behaviour sets xErrorStatus to fail and log the line that
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169 caused the error in xErrorLine. */
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170 static portBASE_TYPE xErrorStatus = pdPASS;
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171 static unsigned portBASE_TYPE xErrorLine = ( unsigned portBASE_TYPE ) 0;
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173 /* Used for sequencing between tasks. */
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174 static portBASE_TYPE xWasSuspended = pdFALSE;
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176 /* The values that are sent to the queues. An incremented value is sent each
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177 time to each queue. */
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178 volatile unsigned portBASE_TYPE uxValueForNormallyEmptyQueue = 0, uxValueForNormallyFullQueue = 0;
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180 /* A handle to some of the tasks is required so they can be suspended/resumed. */
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181 xTaskHandle xHighPriorityNormallyEmptyTask1, xHighPriorityNormallyEmptyTask2, xHighPriorityNormallyFullTask1, xHighPriorityNormallyFullTask2;
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183 /* When a value is received in a queue the value is ticked off in the array
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184 the array position of the value is set to a the identifier of the task or
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185 interrupt that accessed the queue. This way missing or duplicate values can be
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187 static unsigned portCHAR ucNormallyEmptyReceivedValues[ intqNUM_VALUES_TO_LOG ] = { 0 };
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188 static unsigned portCHAR ucNormallyFullReceivedValues[ intqNUM_VALUES_TO_LOG ] = { 0 };
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190 /* The test tasks themselves. */
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191 static void prvLowerPriorityNormallyEmptyTask( void *pvParameters );
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192 static void prvLowerPriorityNormallyFullTask( void *pvParameters );
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193 static void prvHigherPriorityNormallyEmptyTask( void *pvParameters );
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194 static void prv1stHigherPriorityNormallyFullTask( void *pvParameters );
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195 static void prv2ndHigherPriorityNormallyFullTask( void *pvParameters );
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197 /* Used to mark the positions within the ucNormallyEmptyReceivedValues and
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198 ucNormallyFullReceivedValues arrays, while checking for duplicates. */
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199 static void prvRecordValue_NormallyEmpty( unsigned portBASE_TYPE uxValue, unsigned portBASE_TYPE uxSource );
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200 static void prvRecordValue_NormallyFull( unsigned portBASE_TYPE uxValue, unsigned portBASE_TYPE uxSource );
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202 /* Logs the line on which an error occurred. */
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203 static void prvQueueAccessLogError( unsigned portBASE_TYPE uxLine );
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205 /*-----------------------------------------------------------*/
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207 void vStartInterruptQueueTasks( void )
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209 /* Start the test tasks. */
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210 xTaskCreate( prvHigherPriorityNormallyEmptyTask, ( signed portCHAR * ) "H1QRx", configMINIMAL_STACK_SIZE, ( void * ) intqHIGH_PRIORITY_TASK1, intqHIGHER_PRIORITY, &xHighPriorityNormallyEmptyTask1 );
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211 xTaskCreate( prvHigherPriorityNormallyEmptyTask, ( signed portCHAR * ) "H2QRx", configMINIMAL_STACK_SIZE, ( void * ) intqHIGH_PRIORITY_TASK2, intqHIGHER_PRIORITY, &xHighPriorityNormallyEmptyTask2 );
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212 xTaskCreate( prvLowerPriorityNormallyEmptyTask, ( signed portCHAR * ) "LQRx", configMINIMAL_STACK_SIZE, NULL, intqLOWER_PRIORITY, NULL );
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213 xTaskCreate( prv1stHigherPriorityNormallyFullTask, ( signed portCHAR * ) "H1QTx", configMINIMAL_STACK_SIZE, ( void * ) intqHIGH_PRIORITY_TASK1, intqHIGHER_PRIORITY, &xHighPriorityNormallyFullTask1 );
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214 xTaskCreate( prv2ndHigherPriorityNormallyFullTask, ( signed portCHAR * ) "H1QTx", configMINIMAL_STACK_SIZE, ( void * ) intqHIGH_PRIORITY_TASK2, intqHIGHER_PRIORITY, &xHighPriorityNormallyFullTask2 );
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215 xTaskCreate( prvLowerPriorityNormallyFullTask, ( signed portCHAR * ) "LQRx", configMINIMAL_STACK_SIZE, NULL, intqLOWER_PRIORITY, NULL );
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217 /* Create the queues that are accessed by multiple tasks and multiple
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219 xNormallyFullQueue = xQueueCreate( intqQUEUE_LENGTH, ( unsigned portBASE_TYPE ) sizeof( unsigned portBASE_TYPE ) );
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220 xNormallyEmptyQueue = xQueueCreate( intqQUEUE_LENGTH, ( unsigned portBASE_TYPE ) sizeof( unsigned portBASE_TYPE ) );
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222 /* vQueueAddToRegistry() adds the queue to the queue registry, if one is
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223 in use. The queue registry is provided as a means for kernel aware
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224 debuggers to locate queues and has no purpose if a kernel aware debugger
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225 is not being used. The call to vQueueAddToRegistry() will be removed
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226 by the pre-processor if configQUEUE_REGISTRY_SIZE is not defined or is
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227 defined to be less than 1. */
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228 vQueueAddToRegistry( xNormallyFullQueue, ( signed portCHAR * ) "NormallyFull" );
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229 vQueueAddToRegistry( xNormallyEmptyQueue, ( signed portCHAR * ) "NormallyEmpty" );
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231 /*-----------------------------------------------------------*/
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233 static void prvRecordValue_NormallyFull( unsigned portBASE_TYPE uxValue, unsigned portBASE_TYPE uxSource )
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235 if( uxValue < intqNUM_VALUES_TO_LOG )
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237 /* We don't expect to receive the same value twice, so if the value
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238 has already been marked as received an error has occurred. */
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239 if( ucNormallyFullReceivedValues[ uxValue ] != 0x00 )
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241 prvQueueAccessLogError( __LINE__ );
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244 /* Log that this value has been received. */
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245 ucNormallyFullReceivedValues[ uxValue ] = uxSource;
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248 /*-----------------------------------------------------------*/
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250 static void prvRecordValue_NormallyEmpty( unsigned portBASE_TYPE uxValue, unsigned portBASE_TYPE uxSource )
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252 if( uxValue < intqNUM_VALUES_TO_LOG )
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254 /* We don't expect to receive the same value twice, so if the value
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255 has already been marked as received an error has occurred. */
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256 if( ucNormallyEmptyReceivedValues[ uxValue ] != 0x00 )
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258 prvQueueAccessLogError( __LINE__ );
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261 /* Log that this value has been received. */
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262 ucNormallyEmptyReceivedValues[ uxValue ] = uxSource;
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265 /*-----------------------------------------------------------*/
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267 static void prvQueueAccessLogError( unsigned portBASE_TYPE uxLine )
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269 /* Latch the line number that caused the error. */
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270 xErrorLine = uxLine;
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271 xErrorStatus = pdFAIL;
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273 /*-----------------------------------------------------------*/
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275 static void prvHigherPriorityNormallyEmptyTask( void *pvParameters )
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277 unsigned portBASE_TYPE uxRxed, ux, uxTask1, uxTask2, uxErrorCount1 = 0, uxErrorCount2 = 0;
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279 /* The timer should not be started until after the scheduler has started.
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280 More than one task is running this code so we check the parameter value
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281 to determine which task should start the timer. */
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282 if( ( unsigned portBASE_TYPE ) pvParameters == intqHIGH_PRIORITY_TASK1 )
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284 vInitialiseTimerForIntQueueTest();
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289 /* Block waiting to receive a value from the normally empty queue.
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290 Interrupts will write to the queue so we should receive a value. */
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291 if( xQueueReceive( xNormallyEmptyQueue, &uxRxed, intqSHORT_DELAY ) != pdPASS )
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293 prvQueueAccessLogError( __LINE__ );
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297 /* Note which value was received so we can check all expected
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298 values are received and no values are duplicated. */
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299 prvRecordValue_NormallyEmpty( uxRxed, ( unsigned portBASE_TYPE ) pvParameters );
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302 /* Ensure the other task running this code gets a chance to execute. */
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305 if( ( unsigned portBASE_TYPE ) pvParameters == intqHIGH_PRIORITY_TASK1 )
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307 /* Have we received all the expected values? */
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308 if( uxValueForNormallyEmptyQueue > ( intqNUM_VALUES_TO_LOG + intqVALUE_OVERRUN ) )
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310 vTaskSuspend( xHighPriorityNormallyEmptyTask2 );
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315 /* Loop through the array, checking that both tasks have
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316 placed values into the array, and that no values are missing. */
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317 for( ux = 0; ux < intqNUM_VALUES_TO_LOG; ux++ )
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319 if( ucNormallyEmptyReceivedValues[ ux ] == 0 )
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321 /* A value is missing. */
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322 prvQueueAccessLogError( __LINE__ );
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326 if( ucNormallyEmptyReceivedValues[ ux ] == intqHIGH_PRIORITY_TASK1 )
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328 /* Value was placed into the array by task 1. */
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331 else if( ucNormallyEmptyReceivedValues[ ux ] == intqHIGH_PRIORITY_TASK2 )
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333 /* Value was placed into the array by task 2. */
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339 if( uxTask1 < intqMIN_ACCEPTABLE_TASK_COUNT )
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341 /* Only task 2 seemed to log any values. */
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343 if( uxErrorCount1 > 2 )
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345 prvQueueAccessLogError( __LINE__ );
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353 if( uxTask2 < intqMIN_ACCEPTABLE_TASK_COUNT )
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355 /* Only task 1 seemed to log any values. */
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357 if( uxErrorCount2 > 2 )
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359 prvQueueAccessLogError( __LINE__ );
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367 /* Clear the array again, ready to start a new cycle. */
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368 memset( ucNormallyEmptyReceivedValues, 0x00, sizeof( ucNormallyEmptyReceivedValues ) );
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370 uxHighPriorityLoops1++;
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371 uxValueForNormallyEmptyQueue = 0;
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373 /* Suspend ourselves, allowing the lower priority task to
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374 actually receive something from the queue. Until now it
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375 will have been prevented from doing so by the higher
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376 priority tasks. The lower priority task will resume us
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377 if it receives something. We will then resume the other
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378 higher priority task. */
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379 vTaskSuspend( NULL );
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380 vTaskResume( xHighPriorityNormallyEmptyTask2 );
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385 /*-----------------------------------------------------------*/
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387 static void prvLowerPriorityNormallyEmptyTask( void *pvParameters )
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389 unsigned portBASE_TYPE uxValue, uxRxed;
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390 portBASE_TYPE xQueueStatus;
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392 /* The parameters are not being used so avoid compiler warnings. */
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393 ( void ) pvParameters;
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397 if( ( xQueueStatus = xQueueReceive( xNormallyEmptyQueue, &uxRxed, intqONE_TICK_DELAY ) ) != errQUEUE_EMPTY )
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399 /* We should only obtain a value when the high priority task is
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401 if( xTaskIsTaskSuspended( xHighPriorityNormallyEmptyTask1 ) == pdFALSE )
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403 prvQueueAccessLogError( __LINE__ );
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406 prvRecordValue_NormallyEmpty( uxRxed, intqLOW_PRIORITY_TASK );
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408 /* Wake the higher priority task again. */
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409 vTaskResume( xHighPriorityNormallyEmptyTask1 );
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410 uxLowPriorityLoops1++;
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414 /* Raise our priority while we send so we can preempt the higher
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415 priority task, and ensure we get the Tx value into the queue. */
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416 vTaskPrioritySet( NULL, intqHIGHER_PRIORITY + 1 );
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418 portENTER_CRITICAL();
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420 uxValue = uxValueForNormallyEmptyQueue;
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421 uxValueForNormallyEmptyQueue++;
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423 portEXIT_CRITICAL();
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425 if( xQueueSend( xNormallyEmptyQueue, &uxValue, portMAX_DELAY ) != pdPASS )
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427 prvQueueAccessLogError( __LINE__ );
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430 vTaskPrioritySet( NULL, intqLOWER_PRIORITY );
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434 /*-----------------------------------------------------------*/
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436 static void prv1stHigherPriorityNormallyFullTask( void *pvParameters )
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438 unsigned portBASE_TYPE uxValueToTx, ux;
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439 portBASE_TYPE xQueueStatus;
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441 /* The parameters are not being used so avoid compiler warnings. */
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442 ( void ) pvParameters;
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444 /* Make sure the queue starts full or near full. >> 1 as there are two
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445 high priority tasks. */
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446 for( ux = 0; ux < ( intqQUEUE_LENGTH >> 1 ); ux++ )
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448 portENTER_CRITICAL();
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450 uxValueToTx = uxValueForNormallyFullQueue;
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451 uxValueForNormallyFullQueue++;
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453 portEXIT_CRITICAL();
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455 xQueueSend( xNormallyFullQueue, &uxValueToTx, intqSHORT_DELAY );
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460 portENTER_CRITICAL();
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462 uxValueToTx = uxValueForNormallyFullQueue;
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463 uxValueForNormallyFullQueue++;
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465 portEXIT_CRITICAL();
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467 if( ( xQueueStatus = xQueueSend( xNormallyFullQueue, &uxValueToTx, intqSHORT_DELAY ) ) != pdPASS )
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469 /* intqHIGH_PRIORITY_TASK2 is never suspended so we would not
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470 expect it to ever time out. */
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471 prvQueueAccessLogError( __LINE__ );
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474 /* Allow the other task running this code to run. */
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477 /* Have all the expected values been sent to the queue? */
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478 if( uxValueToTx > ( intqNUM_VALUES_TO_LOG + intqVALUE_OVERRUN ) )
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480 /* Make sure the other high priority task completes its send of
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481 any values below intqNUM_VALUE_TO_LOG. */
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482 vTaskDelay( intqSHORT_DELAY );
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484 vTaskSuspend( xHighPriorityNormallyFullTask2 );
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486 if( xWasSuspended == pdTRUE )
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488 /* We would have expected the other high priority task to have
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489 set this back to false by now. */
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490 prvQueueAccessLogError( __LINE__ );
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493 /* Set the suspended flag so an error is not logged if the other
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494 task recognises a time out when it is unsuspended. */
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495 xWasSuspended = pdTRUE;
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497 for( ux = 0; ux < intqNUM_VALUES_TO_LOG; ux++ )
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499 if( ucNormallyFullReceivedValues[ ux ] == 0 )
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501 /* A value was missing. */
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502 prvQueueAccessLogError( __LINE__ );
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506 /* Reset the array ready for the next cycle. */
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507 memset( ucNormallyFullReceivedValues, 0x00, sizeof( ucNormallyFullReceivedValues ) );
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509 uxHighPriorityLoops2++;
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510 uxValueForNormallyFullQueue = 0;
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512 /* Suspend ourselves, allowing the lower priority task to
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513 actually receive something from the queue. Until now it
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514 will have been prevented from doing so by the higher
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515 priority tasks. The lower priority task will resume us
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516 if it receives something. We will then resume the other
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517 higher priority task. */
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518 vTaskSuspend( NULL );
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519 vTaskResume( xHighPriorityNormallyFullTask2 );
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523 /*-----------------------------------------------------------*/
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525 static void prv2ndHigherPriorityNormallyFullTask( void *pvParameters )
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527 unsigned portBASE_TYPE uxValueToTx, ux;
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528 portBASE_TYPE xQueueStatus;
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530 /* The parameters are not being used so avoid compiler warnings. */
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531 ( void ) pvParameters;
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533 /* Make sure the queue starts full or near full. >> 1 as there are two
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534 high priority tasks. */
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535 for( ux = 0; ux < ( intqQUEUE_LENGTH >> 1 ); ux++ )
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537 portENTER_CRITICAL();
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539 uxValueToTx = uxValueForNormallyFullQueue;
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540 uxValueForNormallyFullQueue++;
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542 portEXIT_CRITICAL();
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544 xQueueSend( xNormallyFullQueue, &uxValueToTx, intqSHORT_DELAY );
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549 portENTER_CRITICAL();
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551 uxValueToTx = uxValueForNormallyFullQueue;
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552 uxValueForNormallyFullQueue++;
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554 portEXIT_CRITICAL();
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556 if( ( xQueueStatus = xQueueSend( xNormallyFullQueue, &uxValueToTx, intqSHORT_DELAY ) ) != pdPASS )
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558 if( xWasSuspended != pdTRUE )
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560 /* It is ok to time out if the task has been suspended. */
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561 prvQueueAccessLogError( __LINE__ );
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565 xWasSuspended = pdFALSE;
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570 /*-----------------------------------------------------------*/
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572 static void prvLowerPriorityNormallyFullTask( void *pvParameters )
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574 unsigned portBASE_TYPE uxValue, uxTxed = 9999;
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575 portBASE_TYPE xQueueStatus;
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577 /* The parameters are not being used so avoid compiler warnings. */
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578 ( void ) pvParameters;
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582 if( ( xQueueStatus = xQueueSend( xNormallyFullQueue, &uxTxed, intqONE_TICK_DELAY ) ) != errQUEUE_FULL )
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584 /* We would only expect to succeed when the higher priority task
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586 if( xTaskIsTaskSuspended( xHighPriorityNormallyFullTask1 ) == pdFALSE )
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588 prvQueueAccessLogError( __LINE__ );
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591 vTaskResume( xHighPriorityNormallyFullTask1 );
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592 uxLowPriorityLoops2++;
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596 /* Raise our priority while we receive so we can preempt the higher
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597 priority task, and ensure we get the value from the queue. */
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598 vTaskPrioritySet( NULL, intqHIGHER_PRIORITY + 1 );
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600 if( xQueueReceive( xNormallyFullQueue, &uxValue, portMAX_DELAY ) != pdPASS )
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602 prvQueueAccessLogError( __LINE__ );
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606 prvRecordValue_NormallyFull( uxValue, intqLOW_PRIORITY_TASK );
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609 vTaskPrioritySet( NULL, intqLOWER_PRIORITY );
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613 /*-----------------------------------------------------------*/
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615 portBASE_TYPE xFirstTimerHandler( void )
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617 portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE, uxRxedValue;
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618 static unsigned portBASE_TYPE uxNextOperation = 0;
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620 /* Called from a timer interrupt. Perform various read and write
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621 accesses on the queues. */
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625 if( uxNextOperation & ( unsigned portBASE_TYPE ) 0x01 )
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627 timerNORMALLY_EMPTY_TX();
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628 timerNORMALLY_EMPTY_TX();
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629 timerNORMALLY_EMPTY_TX();
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633 timerNORMALLY_FULL_RX();
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634 timerNORMALLY_FULL_RX();
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635 timerNORMALLY_FULL_RX();
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638 return xHigherPriorityTaskWoken;
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640 /*-----------------------------------------------------------*/
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642 portBASE_TYPE xSecondTimerHandler( void )
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644 unsigned portBASE_TYPE uxRxedValue;
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645 portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;
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646 static unsigned portBASE_TYPE uxNextOperation = 0;
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648 /* Called from a timer interrupt. Perform various read and write
\r
649 accesses on the queues. */
\r
653 if( uxNextOperation & ( unsigned portBASE_TYPE ) 0x01 )
\r
655 timerNORMALLY_EMPTY_TX();
\r
656 timerNORMALLY_EMPTY_TX();
\r
658 timerNORMALLY_EMPTY_RX();
\r
659 timerNORMALLY_EMPTY_RX();
\r
663 timerNORMALLY_FULL_RX();
\r
664 timerNORMALLY_FULL_TX();
\r
665 timerNORMALLY_FULL_TX();
\r
666 timerNORMALLY_FULL_TX();
\r
667 timerNORMALLY_FULL_TX();
\r
670 return xHigherPriorityTaskWoken;
\r
672 /*-----------------------------------------------------------*/
\r
675 portBASE_TYPE xAreIntQueueTasksStillRunning( void )
\r
677 static unsigned portBASE_TYPE uxLastHighPriorityLoops1 = 0, uxLastHighPriorityLoops2 = 0, uxLastLowPriorityLoops1 = 0, uxLastLowPriorityLoops2 = 0;
\r
679 /* xErrorStatus can be set outside of this function. This function just
\r
680 checks that all the tasks are still cycling. */
\r
682 if( uxHighPriorityLoops1 == uxLastHighPriorityLoops1 )
\r
684 /* The high priority 1 task has stalled. */
\r
685 prvQueueAccessLogError( __LINE__ );
\r
688 uxLastHighPriorityLoops1 = uxHighPriorityLoops1;
\r
690 if( uxHighPriorityLoops2 == uxLastHighPriorityLoops2 )
\r
692 /* The high priority 2 task has stalled. */
\r
693 prvQueueAccessLogError( __LINE__ );
\r
696 uxLastHighPriorityLoops2 = uxHighPriorityLoops2;
\r
698 if( uxLowPriorityLoops1 == uxLastLowPriorityLoops1 )
\r
700 /* The low priority 1 task has stalled. */
\r
701 prvQueueAccessLogError( __LINE__ );
\r
704 uxLastLowPriorityLoops1 = uxLowPriorityLoops1;
\r
706 if( uxLowPriorityLoops2 == uxLastLowPriorityLoops2 )
\r
708 /* The low priority 2 task has stalled. */
\r
709 prvQueueAccessLogError( __LINE__ );
\r
712 uxLastLowPriorityLoops2 = uxLowPriorityLoops2;
\r
714 return xErrorStatus;
\r