/* * FreeRTOS V202111.00 * 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 * the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of * 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 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * https://www.FreeRTOS.org * https://github.com/FreeRTOS * */ /*! @file queue_in_set_utest.c */ /* C runtime includes. */ #include #include #include #include "../queue_utest_common.h" /* Queue includes */ #include "FreeRTOS.h" #include "FreeRTOSConfig.h" #include "queue.h" #include "mock_fake_port.h" /* ============================ GLOBAL VARIABLES =========================== */ /* Share QueueHandle_t / QueueSetHandle_t between a test case and it's callbacks */ static QueueHandle_t xQueueHandleStatic; static QueueSetHandle_t xQueueSetHandleStatic; /* ========================== CALLBACK FUNCTIONS =========================== */ /* ============================= Unity Fixtures ============================= */ void setUp( void ) { commonSetUp(); vFakePortAssertIfInterruptPriorityInvalid_Ignore(); xQueueHandleStatic = NULL; xQueueSetHandleStatic = NULL; } void tearDown( void ) { commonTearDown(); } void suiteSetUp() { commonSuiteSetUp(); } int suiteTearDown( int numFailures ) { return commonSuiteTearDown( numFailures ); } /* =========================== Helper functions ============================ */ /* ============================== Test Cases =============================== */ /** * @brief Test xQueueSend on a member Queue (size 1) of a QueueSet (size 1) * @details: Send an item to a queue that is part of a QueueSet. * Verify that the item can be received from the Queue via xQueueSelectFromSet. * @coverage xQueueGenericSend */ void test_macro_xQueueSend_xQueueSelectFromSet_xQueueReceive_success( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); TEST_ASSERT_EQUAL( pdTRUE, xQueueAddToSet( xQueue, xQueueSet ) ); uint32_t testValue = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testValue, 0 ) ); QueueHandle_t xQueue2 = xQueueSelectFromSet( xQueueSet, 0 ); TEST_ASSERT_EQUAL( xQueue, xQueue2 ); uint32_t checkValue = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceive( xQueue2, &checkValue, 0 ) ); TEST_ASSERT_EQUAL( testValue, checkValue ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Test xQueueSendFromISR on a member Queue (size 1) of a QueueSet (size 1) * @details: Send an item to a queue that is part of a QueueSet. * Verify that the item can be received from the Queue via xQueueSelectFromSetFromISR and xQueueReceiveFromISR. * @coverage xQueueGenericSendFromISR */ void test_macro_xQueueSendFromISR_xQueueSelectFromSetFromISR_xQueueReceiveFromISR_success( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); TEST_ASSERT_EQUAL( pdTRUE, xQueueAddToSet( xQueue, xQueueSet ) ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t testValue = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSendFromISR( xQueue, &testValue, NULL ) ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); QueueHandle_t xQueue2 = xQueueSelectFromSetFromISR( xQueueSet ); TEST_ASSERT_EQUAL( xQueue, xQueue2 ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t checkValue = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceiveFromISR( xQueue2, &checkValue, NULL ) ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Test xQueueOverwrite on an empty member Queue (size 1) of a QueueSet (size 1) * @details: Perform an xQueueOverwrite operation to add a value to a queue. * Verify that the item can be received from the Queue via xQueueSelectFromSet. * @coverage xQueueGenericSend */ void test_macro_xQueueOverwrite_xQueueSelectFromSet_xQueueReceive_success( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); TEST_ASSERT_EQUAL( pdTRUE, xQueueAddToSet( xQueue, xQueueSet ) ); uint32_t testVal = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueOverwrite( xQueue, &testVal ) ); QueueHandle_t xQueue2 = xQueueSelectFromSet( xQueueSet, 0 ); TEST_ASSERT_EQUAL( xQueue, xQueue2 ); uint32_t checkVal = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceive( xQueue2, &checkVal, 0 ) ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Test xQueueOverwriteFromISR on an empty member Queue (size 1) of a QueueSet (size 1) * @details: Perform an xQueueOverwriteFromISR operation to add a value to a queue. * Verify that the item can be received from the Queue via xQueueSelectFromSetFromISR. * @coverage xQueueGenericSendFromISR */ void test_macro_xQueueOverwriteFromISR_xQueueSelectFromSetFromISR_xQueueReceive_success( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); TEST_ASSERT_EQUAL( pdTRUE, xQueueAddToSet( xQueue, xQueueSet ) ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t testVal = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueOverwriteFromISR( xQueue, &testVal, NULL ) ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); QueueHandle_t xQueue2 = xQueueSelectFromSetFromISR( xQueueSet ); TEST_ASSERT_EQUAL( xQueue, xQueue2 ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t checkVal = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceiveFromISR( xQueue2, &checkVal, NULL ) ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Test xQueueOverwrite on a full member Queue (size 1) of a QueueSet (size 1) * @details: Send an item to a queue that is part of a QueueSet. Overwrite that same item. * Verify that the item can be received from the Queue via xQueueSelectFromSet. * @coverage xQueueGenericSend */ void test_macro_xQueueSend_xQueueOverwrite_xQueueSelectFromSet_xQueueReceive_success( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); TEST_ASSERT_EQUAL( pdTRUE, xQueueAddToSet( xQueue, xQueueSet ) ); uint32_t testVal1 = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal1, 0 ) ); QueueHandle_t xQueue2 = xQueueSelectFromSet( xQueueSet, 0 ); TEST_ASSERT_EQUAL( xQueue, xQueue2 ); uint32_t testVal2 = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueOverwrite( xQueue, &testVal2 ) ); uint32_t checkVal = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceive( xQueue2, &checkVal, 0 ) ); TEST_ASSERT_EQUAL( testVal2, checkVal ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Test xQueueOverwriteFromISR on a member Queue (size 1) of a QueueSet (size 1) * @details: Send an item to a queue that is part of a QueueSet. Overwrite that same item. * Verify that the item can be received from the Queue via xQueueSelectFromSetFromISR. * @coverage xQueueGenericSendFromISR */ void test_macro_xQueueSendFromISR_xQueueOverwriteFromISR_in_set_success( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); TEST_ASSERT_EQUAL( pdTRUE, xQueueAddToSet( xQueue, xQueueSet ) ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t testVal1 = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSendFromISR( xQueue, &testVal1, NULL ) ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); QueueHandle_t xQueue2 = xQueueSelectFromSetFromISR( xQueueSet ); TEST_ASSERT_EQUAL( xQueue, xQueue2 ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t testVal2 = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueOverwriteFromISR( xQueue, &testVal2, NULL ) ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t checkVal = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceiveFromISR( xQueue2, &checkVal, NULL ) ); TEST_ASSERT_EQUAL( testVal2, checkVal ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Test xQueueSendFromISR with a higher priority task waiting and a null pointer for pxHigherPriorityTaskWoken * @details Test xQueueSendFromISR on a queue that is in a Queue Set with a higher priority task waiting. * Verify that a null pxHigherPriorityTaskWoken is handled correctly. * @coverage xQueueGenericSendFromISR */ void test_macro_xQueueSendFromISR_in_set_high_priority_pending_null_ptr( void ) { QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); xQueueAddToSet( xQueue, xQueueSet ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); /* Insert an item into the event list */ td_task_setFakeTaskPriority( DEFAULT_PRIORITY + 1 ); td_task_addFakeTaskWaitingToReceiveFromQueue( xQueueSet ); uint32_t testVal = getNextMonotonicTestValue(); /* Add item to queue*/ TEST_ASSERT_EQUAL( pdTRUE, xQueueSendFromISR( xQueue, &testVal, NULL ) ); QueueHandle_t xQueueTemp = xQueueSelectFromSet( xQueueSet, 0 ); TEST_ASSERT_EQUAL( 0, td_task_getYieldCount() ); /* Check that the xYieldPending flag was set * (task would normally be added to the pending ready list) */ TEST_ASSERT_EQUAL( pdTRUE, td_task_getYieldPending() ); uint32_t checkVal = INVALID_UINT32; xQueueReceive( xQueueTemp, &checkVal, 0 ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Test xQueueSendFromISR with a higher priority task waiting on a queue in and Queue Set * @details Test xQueueSendFromISR with a higher priority task waiting and * verifies that xHigherPriorityTaskWoken is set accordingly. * @coverage xQueueGenericSendFromISR */ void test_macro_xQueueSendFromISR_in_set_high_priority_pending( void ) { QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); xQueueAddToSet( xQueue, xQueueSet ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); /* Insert an item into the event list */ td_task_setFakeTaskPriority( DEFAULT_PRIORITY + 1 ); td_task_addFakeTaskWaitingToReceiveFromQueue( xQueueSet ); uint32_t testVal = getNextMonotonicTestValue(); BaseType_t xHigherPriorityTaskWoken = pdFALSE; /* Add item to queue*/ TEST_ASSERT_EQUAL( pdTRUE, xQueueSendFromISR( xQueue, &testVal, &xHigherPriorityTaskWoken ) ); TEST_ASSERT_EQUAL( pdTRUE, xHigherPriorityTaskWoken ); /* Check that the xYieldPending flag was set * (task would normally be added to the pending ready list) */ TEST_ASSERT_EQUAL( pdTRUE, td_task_getYieldPending() ); QueueHandle_t xQueueTemp = xQueueSelectFromSet( xQueueSet, 0 ); uint32_t checkVal = INVALID_UINT32; xQueueReceive( xQueueTemp, &checkVal, 0 ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Test xQueueSendFromISR with a lower priority task waiting on a queue in a Queue Set * @details Test xQueueSendFromISR on a Queeu in a Queue Set with a lower priority task waiting and * verify that xHigherPriorityTaskWoken is not modified. * @coverage xQueueGenericSendFromISR */ void test_macro_xQueueSendFromISR_in_set_low_priority_pending( void ) { QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); xQueueAddToSet( xQueue, xQueueSet ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); /* Insert an item into the event list */ td_task_setFakeTaskPriority( DEFAULT_PRIORITY - 1 ); td_task_addFakeTaskWaitingToReceiveFromQueue( xQueueSet ); uint32_t testVal = getNextMonotonicTestValue(); BaseType_t xHigherPriorityTaskWoken = pdFALSE; /* Add item to queue*/ TEST_ASSERT_EQUAL( pdTRUE, xQueueSendFromISR( xQueue, &testVal, &xHigherPriorityTaskWoken ) ); TEST_ASSERT_EQUAL( pdFALSE, xHigherPriorityTaskWoken ); /* Check that the xYieldPending flag was not set */ TEST_ASSERT_EQUAL( pdFALSE, td_task_getYieldPending() ); QueueHandle_t xQueueTemp = xQueueSelectFromSet( xQueueSet, 0 ); uint32_t checkVal = INVALID_UINT32; xQueueReceive( xQueueTemp, &checkVal, 0 ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Test xQueueSendFromISR on a queue in a Queue Set with no tasks waiting * @details Test xQueueSendFromISR on a Queue in a Queue Set no tasks waiting and verify that xHigherPriorityTaskWoken is not modified. * @coverage xQueueGenericSendFromISR */ void test_macro_xQueueSendFromISR_in_set_no_pending( void ) { QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); xQueueAddToSet( xQueue, xQueueSet ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t testVal = getNextMonotonicTestValue(); BaseType_t xHigherPriorityTaskWoken = pdFALSE; /* Add item to queue*/ TEST_ASSERT_EQUAL( pdTRUE, xQueueSendFromISR( xQueue, &testVal, &xHigherPriorityTaskWoken ) ); TEST_ASSERT_EQUAL( pdFALSE, xHigherPriorityTaskWoken ); /* Check that the xYieldPending flag was not set */ TEST_ASSERT_EQUAL( pdFALSE, td_task_getYieldPending() ); QueueHandle_t xQueueTemp = xQueueSelectFromSet( xQueueSet, 0 ); uint32_t checkVal = INVALID_UINT32; xQueueReceive( xQueueTemp, &checkVal, 0 ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Test a non-blocking call to xQueueSend on a queue in a Queue Set with a higher priority task pending. * @coverage xQueueGenericSend */ void test_macro_xQueueSend_in_set_high_priority_pending( void ) { QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); xQueueAddToSet( xQueue, xQueueSet ); /* Insert an item into the event list */ td_task_setFakeTaskPriority( DEFAULT_PRIORITY + 1 ); td_task_addFakeTaskWaitingToReceiveFromQueue( xQueueSet ); uint32_t testVal = getNextMonotonicTestValue(); /* Add item to queue*/ TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal, 0 ) ); /* Check that a yield occurred */ TEST_ASSERT_EQUAL( 1, td_task_getYieldCount() ); /* Check that yield was generated by a call to vPortYieldWithinAPI */ TEST_ASSERT_EQUAL( 1, td_task_getCount_vPortYieldWithinAPI() ); QueueHandle_t xQueue2 = xQueueSelectFromSet( xQueueSet, 0 ); uint32_t checkVal = INVALID_UINT32; xQueueReceive( xQueue2, &checkVal, 0 ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Test a non-blocking call to xQueueSend on a queue in a Queue Set with a lower priority task pending. * @coverage xQueueGenericSend */ void test_macro_xQueueSend_in_set_low_priority_pending( void ) { QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); xQueueAddToSet( xQueue, xQueueSet ); /* Insert an item into the event list */ td_task_setFakeTaskPriority( DEFAULT_PRIORITY - 1 ); td_task_addFakeTaskWaitingToReceiveFromQueue( xQueueSet ); uint32_t testVal = getNextMonotonicTestValue(); /* Add item to queue*/ TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal, 0 ) ); /* Check that no yield occurred */ TEST_ASSERT_EQUAL( 0, td_task_getYieldCount() ); QueueHandle_t xQueue2 = xQueueSelectFromSet( xQueueSet, 0 ); uint32_t checkVal = INVALID_UINT32; xQueueReceive( xQueue2, &checkVal, 0 ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Test a non-blocking call to xQueueSend on a queue in a Queue Set with no pending tasks. * @coverage xQueueGenericSend */ void test_macro_xQueueSend_in_set_no_pending( void ) { QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); xQueueAddToSet( xQueue, xQueueSet ); uint32_t testVal = getNextMonotonicTestValue(); /* Add item to queue*/ TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal, 0 ) ); /* Check that no yield occurred */ TEST_ASSERT_EQUAL( 0, td_task_getYieldCount() ); QueueHandle_t xQueue2 = xQueueSelectFromSet( xQueueSet, 0 ); uint32_t checkVal = INVALID_UINT32; xQueueReceive( xQueue2, &checkVal, 0 ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Test xQueueSendFromISR on a queue that is locked * @coverage prvNotifyQueueSetContainer */ void test_xQueueSendFromISR_locked( void ) { QueueHandle_t xQueue = xQueueCreate( 2, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 2 ); TEST_ASSERT_EQUAL( pdTRUE, xQueueAddToSet( xQueue, xQueueSet ) ); /* Set private lock counters on the queue and queueSet */ vSetQueueRxLock( xQueue, queueLOCKED_UNMODIFIED ); vSetQueueTxLock( xQueueSet, queueLOCKED_UNMODIFIED ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); uint32_t testVal = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSendFromISR( xQueue, &testVal, NULL ) ); /* Verify that the cRxLock counter has not changed */ TEST_ASSERT_EQUAL( queueLOCKED_UNMODIFIED, cGetQueueRxLock( xQueue ) ); /* Verify that the cTxLock counter has been incremented */ TEST_ASSERT_EQUAL( queueLOCKED_UNMODIFIED + 1, cGetQueueTxLock( xQueueSet ) ); QueueHandle_t xQueue2 = xQueueSelectFromSet( xQueueSet, 0 ); TEST_ASSERT_EQUAL( xQueue2, xQueue ); uint32_t checkVal = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceive( xQueue2, &checkVal, 0 ) ); TEST_ASSERT_EQUAL( testVal, checkVal ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Test xQueueSendFromISR on a queue that is locked where cRxLock overflows. * @coverage prvNotifyQueueSetContainer */ void test_xQueueSendFromISR_locked_overflow( void ) { QueueHandle_t xQueue = xQueueCreate( 2, sizeof( uint32_t ) ); QueueSetHandle_t xQueueSet = xQueueCreateSet( 2 ); TEST_ASSERT_EQUAL( pdTRUE, xQueueAddToSet( xQueue, xQueueSet ) ); /* Set private lock counters */ vSetQueueRxLock( xQueue, queueLOCKED_UNMODIFIED ); vSetQueueTxLock( xQueueSet, INT8_MAX ); vFakePortAssertIfInterruptPriorityInvalid_Expect(); /* Expect an assertion since the cTxLock value has overflowed */ fakeAssertExpectFail(); uint32_t testval = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSendFromISR( xQueue, &testval, NULL ) ); /* Verify that the cRxLock counter has not changed */ TEST_ASSERT_EQUAL( queueLOCKED_UNMODIFIED, cGetQueueRxLock( xQueue ) ); /* Verify that the cTxLock counter has been incremented */ TEST_ASSERT_EQUAL( INT8_MIN, cGetQueueTxLock( xQueueSet ) ); TEST_ASSERT_EQUAL( true, fakeAssertGetFlagAndClear() ); /* Call xQueueSend to trigger a call to prvUnlockQueue */ uint32_t testVal2 = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal2, 0 ) ); /* Read back the first value sent to the queue */ QueueHandle_t xQueue2 = xQueueSelectFromSet( xQueueSet, 0 ); TEST_ASSERT_TRUE( xQueue2 ); uint32_t checkVal = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceive( xQueue2, &checkVal, 0 ) ); TEST_ASSERT_EQUAL( testval, checkVal ); /* Read back the second value sent to the queue */ QueueHandle_t xQueue3 = xQueueSelectFromSet( xQueueSet, 0 ); TEST_ASSERT_TRUE( xQueue3 ); uint32_t checkVal2 = INVALID_UINT32; TEST_ASSERT_EQUAL( pdTRUE, xQueueReceive( xQueue3, &checkVal2, 0 ) ); TEST_ASSERT_EQUAL( testVal2, checkVal2 ); vQueueDelete( xQueue ); vQueueDelete( xQueueSet ); } /** * @brief Callback for xQueueSend blocking tests which empties the test queue. */ static BaseType_t xQueueSend_locked_xTaskCheckForTimeOutCB( TimeOut_t * const pxTimeOut, TickType_t * const pxTicksToWait, int cmock_num_calls ) { BaseType_t xReturnValue = td_task_xTaskCheckForTimeOutStub( pxTimeOut, pxTicksToWait, cmock_num_calls ); if( cmock_num_calls == NUM_CALLS_TO_INTERCEPT ) { uint32_t checkVal = INVALID_UINT32; QueueHandle_t xQueue = xQueueSelectFromSetFromISR( xQueueSetHandleStatic ); TEST_ASSERT_NOT_NULL( xQueue ); xQueueReceiveFromISR( xQueue, &checkVal, NULL ); TEST_ASSERT_EQUAL( getLastMonotonicTestValue(), checkVal ); } return xReturnValue; } /** * @brief Test a blocking call to xQueueSend on a queue in a Queue Set with no pending tasks. * @coverage xQueueGenericSend */ void test_macro_xQueueSend_in_set_blocking_success_locked_no_pending( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); xQueueAddToSet( xQueue, xQueueSet ); /* Export for callbacks */ xQueueSetHandleStatic = xQueueSet; uint32_t testVal = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal, 0 ) ); xTaskCheckForTimeOut_Stub( &xQueueSend_locked_xTaskCheckForTimeOutCB ); xTaskResumeAll_Stub( &td_task_xTaskResumeAllStub ); uint32_t testVal2 = getLastMonotonicTestValue() + 12345; TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal2, TICKS_TO_WAIT ) ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT, td_task_getYieldCount() ); TEST_ASSERT_EQUAL( 0, td_task_getCount_vTaskMissedYield() ); /* Check that vPortYieldWithinAPI was called */ TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT, td_task_getCount_vPortYieldWithinAPI() ); ( void ) xQueueRemoveFromSet( xQueue, xQueueSet ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Callback for xQueueSend blocking tests which adds an item to the test queue. */ static BaseType_t xQueueSend_xTaskResumeAllCallback( int cmock_num_calls ) { BaseType_t xReturnValue = td_task_xTaskResumeAllStub( cmock_num_calls ); /* If td_task_xTaskResumeAllStub returns pdTRUE, a higher priority task is pending * Send from an ISR to block */ if( pdTRUE == xReturnValue ) { if( cmock_num_calls == NUM_CALLS_TO_INTERCEPT ) { uint32_t testVal = getNextMonotonicTestValue(); ( void ) xQueueSendFromISR( xQueueHandleStatic, &testVal, NULL ); } } return xReturnValue; } /** * @brief Test a blocking call to xQueueSend on a queue in a Queue Set with a higher priority pending task. * @coverage prvUnlockQueue */ void test_macro_xQueueSend_in_set_blocking_fail_locked_high_prio_pending( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); xQueueAddToSet( xQueue, xQueueSet ); /* Export for callbacks */ xQueueHandleStatic = xQueue; xQueueSetHandleStatic = xQueueSet; uint32_t testVal = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal, 0 ) ); xTaskCheckForTimeOut_Stub( &xQueueSend_locked_xTaskCheckForTimeOutCB ); xTaskResumeAll_Stub( &xQueueSend_xTaskResumeAllCallback ); /* this task is lower priority than the pending task */ td_task_setFakeTaskPriority( DEFAULT_PRIORITY + 1 ); td_task_addFakeTaskWaitingToSendToQueue( xQueue ); uint32_t testVal2 = getLastMonotonicTestValue() + 12345; TEST_ASSERT_EQUAL( pdFALSE, xQueueSend( xQueue, &testVal2, TICKS_TO_WAIT ) ); TEST_ASSERT_EQUAL( TICKS_TO_WAIT, td_task_getYieldCount() ); /* Check that xTaskResumeAll was called and would have yielded */ TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT + 1, td_task_getCount_YieldFromTaskResumeAll() ); /* Check that vPortYieldWithinAPI was called and would have yielded */ TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT - 1, td_task_getCount_vPortYieldWithinAPI() ); /* Check that vTaskMissedYield was called */ TEST_ASSERT_EQUAL( 1, td_task_getCount_vTaskMissedYield() ); ( void ) xQueueRemoveFromSet( xQueue, xQueueSet ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Test a blocking call to xQueueSend on a queue in a Queue Set with a lower priority pending task. * @coverage prvUnlockQueue */ void test_macro_xQueueSend_in_set_blocking_success_locked_low_prio_pending( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); xQueueAddToSet( xQueue, xQueueSet ); /* Export for callbacks */ xQueueHandleStatic = xQueue; xQueueSetHandleStatic = xQueueSet; uint32_t testVal = getNextMonotonicTestValue(); TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal, 0 ) ); xTaskCheckForTimeOut_Stub( &xQueueSend_locked_xTaskCheckForTimeOutCB ); xTaskResumeAll_Stub( &xQueueSend_xTaskResumeAllCallback ); /* this task is higher priority than the pending task */ td_task_setFakeTaskPriority( DEFAULT_PRIORITY - 1 ); td_task_addFakeTaskWaitingToSendToQueue( xQueue ); uint32_t testVal2 = getLastMonotonicTestValue() + 12345; TEST_ASSERT_EQUAL( pdTRUE, xQueueSend( xQueue, &testVal2, TICKS_TO_WAIT ) ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT, td_task_getYieldCount() ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT, td_task_getCount_vPortYieldWithinAPI() ); TEST_ASSERT_EQUAL( 0, td_task_getCount_vTaskMissedYield() ); ( void ) xQueueRemoveFromSet( xQueue, xQueueSet ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Callback for test_xQueueReceive_blocking_success_locked_no_pending which adds an item to it's test queue. */ static BaseType_t xQueueReceive_xTaskCheckForTimeOutCB( TimeOut_t * const pxTimeOut, TickType_t * const pxTicksToWait, int cmock_num_calls ) { BaseType_t xReturnValue = td_task_xTaskCheckForTimeOutStub( pxTimeOut, pxTicksToWait, cmock_num_calls ); if( cmock_num_calls == NUM_CALLS_TO_INTERCEPT ) { uint32_t testVal = getNextMonotonicTestValue(); TEST_ASSERT_TRUE( xQueueSendFromISR( xQueueHandleStatic, &testVal, NULL ) ); } return xReturnValue; } /** * @brief Test a blocking call to xQueueReceive on a queue in a Queue Set with no pending tasks. * @coverage prvUnlockQueue */ void test_xQueueReceive_in_set_blocking_success_locked_no_pending( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); TEST_ASSERT_TRUE( xQueueAddToSet( xQueue, xQueueSet ) ); /* Export for callbacks */ xQueueHandleStatic = xQueue; xTaskCheckForTimeOut_Stub( &xQueueReceive_xTaskCheckForTimeOutCB ); xTaskResumeAll_Stub( &td_task_xTaskResumeAllStub ); uint32_t checkVal = INVALID_UINT32; QueueHandle_t xQueueFromSet = xQueueSelectFromSet( xQueueSet, TICKS_TO_WAIT ); TEST_ASSERT_NOT_NULL( xQueueFromSet ); TEST_ASSERT_EQUAL( pdTRUE, xQueueReceive( xQueueFromSet, &checkVal, 0 ) ); TEST_ASSERT_EQUAL( getLastMonotonicTestValue(), checkVal ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT, td_task_getYieldCount() ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT, td_task_getCount_vPortYieldWithinAPI() ); TEST_ASSERT_EQUAL( 0, td_task_getCount_vTaskMissedYield() ); ( void ) xQueueRemoveFromSet( xQueue, xQueueSet ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Stub for xTaskResumeAll used in xQueueReceive tests where the queue under test is in a queue set. */ static BaseType_t xQueueReceive_xTaskResumeAllCallback( int cmock_num_calls ) { BaseType_t xReturnValue = td_task_xTaskResumeAllStub( cmock_num_calls ); /* If td_task_xTaskResumeAllStub returns pdTRUE, a higher priority task is pending * Receive from an ISR to block */ if( pdTRUE == xReturnValue ) { if( cmock_num_calls == NUM_CALLS_TO_INTERCEPT ) { uint32_t checkValue = INVALID_UINT32; QueueHandle_t xQueue = xQueueSelectFromSetFromISR( xQueueSetHandleStatic ); TEST_ASSERT_TRUE( xQueueReceiveFromISR( xQueue, &checkValue, NULL ) ); TEST_ASSERT_EQUAL( getLastMonotonicTestValue(), checkValue ); } } return xReturnValue; } /** * @brief Test a blocking call to xQueueReceive on a queue in a Queue Set with a higher priority task pending. * @coverage prvUnlockQueue */ void test_xQueueReceive_in_set_blocking_fail_locked_high_prio_pending( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); xQueueAddToSet( xQueue, xQueueSet ); /* Export for callbacks */ xQueueHandleStatic = xQueue; xQueueSetHandleStatic = xQueueSet; xTaskCheckForTimeOut_Stub( &xQueueReceive_xTaskCheckForTimeOutCB ); xTaskResumeAll_Stub( &xQueueReceive_xTaskResumeAllCallback ); td_task_setFakeTaskPriority( DEFAULT_PRIORITY + 1 ); td_task_addFakeTaskWaitingToReceiveFromQueue( xQueueSet ); QueueHandle_t xQueueFromSet = xQueueSelectFromSet( xQueueSet, TICKS_TO_WAIT ); TEST_ASSERT_EQUAL( NULL, xQueueFromSet ); TEST_ASSERT_EQUAL( TICKS_TO_WAIT, td_task_getYieldCount() ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT + 1, td_task_getCount_YieldFromTaskResumeAll() ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT - 1, td_task_getCount_vPortYieldWithinAPI() ); /* Check that vTaskMissedYield was called */ TEST_ASSERT_EQUAL( 1, td_task_getCount_vTaskMissedYield() ); ( void ) xQueueRemoveFromSet( xQueue, xQueueSet ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); } /** * @brief Test a blocking call to xQueueReceive on a queue in a Queue Set with a lower priority task pending. * @coverage prvUnlockQueue */ void test_xQueueReceive_in_set_blocking_success_locked_low_prio_pending( void ) { QueueSetHandle_t xQueueSet = xQueueCreateSet( 1 ); QueueHandle_t xQueue = xQueueCreate( 1, sizeof( uint32_t ) ); xQueueAddToSet( xQueue, xQueueSet ); /* Export for callbacks */ xQueueHandleStatic = xQueue; xQueueSetHandleStatic = xQueueSet; xTaskCheckForTimeOut_Stub( &xQueueReceive_xTaskCheckForTimeOutCB ); xTaskResumeAll_Stub( &xQueueReceive_xTaskResumeAllCallback ); td_task_setFakeTaskPriority( DEFAULT_PRIORITY - 1 ); td_task_addFakeTaskWaitingToReceiveFromQueue( xQueueSet ); uint32_t checkVal = INVALID_UINT32; QueueHandle_t xQueueFromSet = xQueueSelectFromSet( xQueueSet, NUM_CALLS_TO_INTERCEPT ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT, td_task_getYieldCount() ); TEST_ASSERT_EQUAL( NUM_CALLS_TO_INTERCEPT, td_task_getCount_vPortYieldWithinAPI() ); /* Check that vTaskMissedYield was not called */ TEST_ASSERT_EQUAL( pdFALSE, td_task_getCount_vTaskMissedYield() ); TEST_ASSERT_NOT_NULL( xQueueFromSet ); TEST_ASSERT_EQUAL( pdTRUE, xQueueReceive( xQueueFromSet, &checkVal, TICKS_TO_WAIT ) ); TEST_ASSERT_EQUAL( getLastMonotonicTestValue(), checkVal ); ( void ) xQueueRemoveFromSet( xQueue, xQueueSet ); vQueueDelete( xQueueSet ); vQueueDelete( xQueue ); }