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/*
 * FreeRTOS Kernel V10.4.1
 * 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
 *
 */

/* Standard includes. */
#include <stdint.h>
#include <string.h>

/* Defining MPU_WRAPPERS_INCLUDED_FROM_API_FILE prevents task.h from redefining
 * all the API functions to use the MPU wrappers.  That should only be done when
 * task.h is included from an application file. */
#define MPU_WRAPPERS_INCLUDED_FROM_API_FILE

/* FreeRTOS includes. */
#include "FreeRTOS.h"
#include "task.h"
#include "stream_buffer.h"

#if ( configUSE_TASK_NOTIFICATIONS != 1 )
    #error configUSE_TASK_NOTIFICATIONS must be set to 1 to build stream_buffer.c
#endif

/* Lint e961, e9021 and e750 are suppressed as a MISRA exception justified
 * because the MPU ports require MPU_WRAPPERS_INCLUDED_FROM_API_FILE to be defined
 * for the header files above, but not in this file, in order to generate the
 * correct privileged Vs unprivileged linkage and placement. */
#undef MPU_WRAPPERS_INCLUDED_FROM_API_FILE /*lint !e961 !e750 !e9021. */

/* If the user has not provided application specific Rx notification macros,
 * or #defined the notification macros away, them provide default implementations
 * that uses task notifications. */
/*lint -save -e9026 Function like macros allowed and needed here so they can be overridden. */
#ifndef sbRECEIVE_COMPLETED
    #define sbRECEIVE_COMPLETED( pxStreamBuffer )                         \
    vTaskSuspendAll();                                                    \
    {                                                                     \
        if( ( pxStreamBuffer )->xTaskWaitingToSend != NULL )              \
        {                                                                 \
            ( void ) xTaskNotify( ( pxStreamBuffer )->xTaskWaitingToSend, \
                                  ( uint32_t ) 0,                         \
                                  eNoAction );                            \
            ( pxStreamBuffer )->xTaskWaitingToSend = NULL;                \
        }                                                                 \
    }                                                                     \
    ( void ) xTaskResumeAll();
#endif /* sbRECEIVE_COMPLETED */

#ifndef sbRECEIVE_COMPLETED_FROM_ISR
    #define sbRECEIVE_COMPLETED_FROM_ISR( pxStreamBuffer,                            \
                                          pxHigherPriorityTaskWoken )                \
    {                                                                                \
        UBaseType_t uxSavedInterruptStatus;                                          \
                                                                                     \
        uxSavedInterruptStatus = ( UBaseType_t ) portSET_INTERRUPT_MASK_FROM_ISR();  \
        {                                                                            \
            if( ( pxStreamBuffer )->xTaskWaitingToSend != NULL )                     \
            {                                                                        \
                ( void ) xTaskNotifyFromISR( ( pxStreamBuffer )->xTaskWaitingToSend, \
                                             ( uint32_t ) 0,                         \
                                             eNoAction,                              \
                                             pxHigherPriorityTaskWoken );            \
                ( pxStreamBuffer )->xTaskWaitingToSend = NULL;                       \
            }                                                                        \
        }                                                                            \
        portCLEAR_INTERRUPT_MASK_FROM_ISR( uxSavedInterruptStatus );                 \
    }
#endif /* sbRECEIVE_COMPLETED_FROM_ISR */

/* If the user has not provided an application specific Tx notification macro,
 * or #defined the notification macro away, them provide a default implementation
 * that uses task notifications. */
#ifndef sbSEND_COMPLETED
    #define sbSEND_COMPLETED( pxStreamBuffer )                               \
    vTaskSuspendAll();                                                       \
    {                                                                        \
        if( ( pxStreamBuffer )->xTaskWaitingToReceive != NULL )              \
        {                                                                    \
            ( void ) xTaskNotify( ( pxStreamBuffer )->xTaskWaitingToReceive, \
                                  ( uint32_t ) 0,                            \
                                  eNoAction );                               \
            ( pxStreamBuffer )->xTaskWaitingToReceive = NULL;                \
        }                                                                    \
    }                                                                        \
    ( void ) xTaskResumeAll();
#endif /* sbSEND_COMPLETED */

#ifndef sbSEND_COMPLETE_FROM_ISR
    #define sbSEND_COMPLETE_FROM_ISR( pxStreamBuffer, pxHigherPriorityTaskWoken )       \
    {                                                                                   \
        UBaseType_t uxSavedInterruptStatus;                                             \
                                                                                        \
        uxSavedInterruptStatus = ( UBaseType_t ) portSET_INTERRUPT_MASK_FROM_ISR();     \
        {                                                                               \
            if( ( pxStreamBuffer )->xTaskWaitingToReceive != NULL )                     \
            {                                                                           \
                ( void ) xTaskNotifyFromISR( ( pxStreamBuffer )->xTaskWaitingToReceive, \
                                             ( uint32_t ) 0,                            \
                                             eNoAction,                                 \
                                             pxHigherPriorityTaskWoken );               \
                ( pxStreamBuffer )->xTaskWaitingToReceive = NULL;                       \
            }                                                                           \
        }                                                                               \
        portCLEAR_INTERRUPT_MASK_FROM_ISR( uxSavedInterruptStatus );                    \
    }
#endif /* sbSEND_COMPLETE_FROM_ISR */
/*lint -restore (9026) */

/* The number of bytes used to hold the length of a message in the buffer. */
#define sbBYTES_TO_STORE_MESSAGE_LENGTH    ( sizeof( configMESSAGE_BUFFER_LENGTH_TYPE ) )

/* Bits stored in the ucFlags field of the stream buffer. */
#define sbFLAGS_IS_MESSAGE_BUFFER          ( ( uint8_t ) 1 ) /* Set if the stream buffer was created as a message buffer, in which case it holds discrete messages rather than a stream. */
#define sbFLAGS_IS_STATICALLY_ALLOCATED    ( ( uint8_t ) 2 ) /* Set if the stream buffer was created using statically allocated memory. */

/*-----------------------------------------------------------*/

/* Structure that hold state information on the buffer. */
typedef struct StreamBufferDef_t                 /*lint !e9058 Style convention uses tag. */
{
    volatile size_t xTail;                       /* Index to the next item to read within the buffer. */
    volatile size_t xHead;                       /* Index to the next item to write within the buffer. */
    size_t xLength;                              /* The length of the buffer pointed to by pucBuffer. */
    size_t xTriggerLevelBytes;                   /* The number of bytes that must be in the stream buffer before a task that is waiting for data is unblocked. */
    volatile TaskHandle_t xTaskWaitingToReceive; /* Holds the handle of a task waiting for data, or NULL if no tasks are waiting. */
    volatile TaskHandle_t xTaskWaitingToSend;    /* Holds the handle of a task waiting to send data to a message buffer that is full. */
    uint8_t * pucBuffer;                         /* Points to the buffer itself - that is - the RAM that stores the data passed through the buffer. */
    uint8_t ucFlags;

    #if ( configUSE_TRACE_FACILITY == 1 )
        UBaseType_t uxStreamBufferNumber; /* Used for tracing purposes. */
    #endif
} StreamBuffer_t;

/*
 * The number of bytes available to be read from the buffer.
 */
static size_t prvBytesInBuffer( const StreamBuffer_t * const pxStreamBuffer ) PRIVILEGED_FUNCTION;

/*
 * Add xCount bytes from pucData into the pxStreamBuffer message buffer.
 * Returns the number of bytes written, which will either equal xCount in the
 * success case, or 0 if there was not enough space in the buffer (in which case
 * no data is written into the buffer).
 */
static size_t prvWriteBytesToBuffer( StreamBuffer_t * const pxStreamBuffer,
                                     const uint8_t * pucData,
                                     size_t xCount ) PRIVILEGED_FUNCTION;

/*
 * If the stream buffer is being used as a message buffer, then reads an entire
 * message out of the buffer.  If the stream buffer is being used as a stream
 * buffer then read as many bytes as possible from the buffer.
 * prvReadBytesFromBuffer() is called to actually extract the bytes from the
 * buffer's data storage area.
 */
static size_t prvReadMessageFromBuffer( StreamBuffer_t * pxStreamBuffer,
                                        void * pvRxData,
                                        size_t xBufferLengthBytes,
                                        size_t xBytesAvailable,
                                        size_t xBytesToStoreMessageLength ) PRIVILEGED_FUNCTION;

/*
 * If the stream buffer is being used as a message buffer, then writes an entire
 * message to the buffer.  If the stream buffer is being used as a stream
 * buffer then write as many bytes as possible to the buffer.
 * prvWriteBytestoBuffer() is called to actually send the bytes to the buffer's
 * data storage area.
 */
static size_t prvWriteMessageToBuffer( StreamBuffer_t * const pxStreamBuffer,
                                       const void * pvTxData,
                                       size_t xDataLengthBytes,
                                       size_t xSpace,
                                       size_t xRequiredSpace ) PRIVILEGED_FUNCTION;

/*
 * Read xMaxCount bytes from the pxStreamBuffer message buffer and write them
 * to pucData.
 */
static size_t prvReadBytesFromBuffer( StreamBuffer_t * pxStreamBuffer,
                                      uint8_t * pucData,
                                      size_t xMaxCount,
                                      size_t xBytesAvailable ) PRIVILEGED_FUNCTION;

/*
 * Called by both pxStreamBufferCreate() and pxStreamBufferCreateStatic() to
 * initialise the members of the newly created stream buffer structure.
 */
static void prvInitialiseNewStreamBuffer( StreamBuffer_t * const pxStreamBuffer,
                                          uint8_t * const pucBuffer,
                                          size_t xBufferSizeBytes,
                                          size_t xTriggerLevelBytes,
                                          uint8_t ucFlags ) PRIVILEGED_FUNCTION;

/*-----------------------------------------------------------*/

#if ( configSUPPORT_DYNAMIC_ALLOCATION == 1 )

    StreamBufferHandle_t xStreamBufferGenericCreate( size_t xBufferSizeBytes,
                                                     size_t xTriggerLevelBytes,
                                                     BaseType_t xIsMessageBuffer )
    {
        uint8_t * pucAllocatedMemory;
        uint8_t ucFlags;

        /* In case the stream buffer is going to be used as a message buffer
         * (that is, it will hold discrete messages with a little meta data that
         * says how big the next message is) check the buffer will be large enough
         * to hold at least one message. */
        if( xIsMessageBuffer == pdTRUE )
        {
            /* Is a message buffer but not statically allocated. */
            ucFlags = sbFLAGS_IS_MESSAGE_BUFFER;
            configASSERT( xBufferSizeBytes > sbBYTES_TO_STORE_MESSAGE_LENGTH );
        }
        else
        {
            /* Not a message buffer and not statically allocated. */
            ucFlags = 0;
            configASSERT( xBufferSizeBytes > 0 );
        }

        configASSERT( xTriggerLevelBytes <= xBufferSizeBytes );

        /* A trigger level of 0 would cause a waiting task to unblock even when
         * the buffer was empty. */
        if( xTriggerLevelBytes == ( size_t ) 0 )
        {
            xTriggerLevelBytes = ( size_t ) 1;
        }

        /* A stream buffer requires a StreamBuffer_t structure and a buffer.
         * Both are allocated in a single call to pvPortMalloc().  The
         * StreamBuffer_t structure is placed at the start of the allocated memory
         * and the buffer follows immediately after.  The requested size is
         * incremented so the free space is returned as the user would expect -
         * this is a quirk of the implementation that means otherwise the free
         * space would be reported as one byte smaller than would be logically
         * expected. */
        xBufferSizeBytes++;
        pucAllocatedMemory = ( uint8_t * ) pvPortMalloc( xBufferSizeBytes + sizeof( StreamBuffer_t ) ); /*lint !e9079 malloc() only returns void*. */

        if( pucAllocatedMemory != NULL )
        {
            prvInitialiseNewStreamBuffer( ( StreamBuffer_t * ) pucAllocatedMemory,       /* Structure at the start of the allocated memory. */ /*lint !e9087 Safe cast as allocated memory is aligned. */ /*lint !e826 Area is not too small and alignment is guaranteed provided malloc() behaves as expected and returns aligned buffer. */
                                          pucAllocatedMemory + sizeof( StreamBuffer_t ), /* Storage area follows. */ /*lint !e9016 Indexing past structure valid for uint8_t pointer, also storage area has no alignment requirement. */
                                          xBufferSizeBytes,
                                          xTriggerLevelBytes,
                                          ucFlags );

            traceSTREAM_BUFFER_CREATE( ( ( StreamBuffer_t * ) pucAllocatedMemory ), xIsMessageBuffer );
        }
        else
        {
            traceSTREAM_BUFFER_CREATE_FAILED( xIsMessageBuffer );
        }

        return ( StreamBufferHandle_t ) pucAllocatedMemory; /*lint !e9087 !e826 Safe cast as allocated memory is aligned. */
    }

#endif /* configSUPPORT_DYNAMIC_ALLOCATION */
/*-----------------------------------------------------------*/

#if ( configSUPPORT_STATIC_ALLOCATION == 1 )

    StreamBufferHandle_t xStreamBufferGenericCreateStatic( size_t xBufferSizeBytes,
                                                           size_t xTriggerLevelBytes,
                                                           BaseType_t xIsMessageBuffer,
                                                           uint8_t * const pucStreamBufferStorageArea,
                                                           StaticStreamBuffer_t * const pxStaticStreamBuffer )
    {
        StreamBuffer_t * const pxStreamBuffer = ( StreamBuffer_t * ) pxStaticStreamBuffer; /*lint !e740 !e9087 Safe cast as StaticStreamBuffer_t is opaque Streambuffer_t. */
        StreamBufferHandle_t xReturn;
        uint8_t ucFlags;

        configASSERT( pucStreamBufferStorageArea );
        configASSERT( pxStaticStreamBuffer );
        configASSERT( xTriggerLevelBytes <= xBufferSizeBytes );

        /* A trigger level of 0 would cause a waiting task to unblock even when
         * the buffer was empty. */
        if( xTriggerLevelBytes == ( size_t ) 0 )
        {
            xTriggerLevelBytes = ( size_t ) 1;
        }

        if( xIsMessageBuffer != pdFALSE )
        {
            /* Statically allocated message buffer. */
            ucFlags = sbFLAGS_IS_MESSAGE_BUFFER | sbFLAGS_IS_STATICALLY_ALLOCATED;
        }
        else
        {
            /* Statically allocated stream buffer. */
            ucFlags = sbFLAGS_IS_STATICALLY_ALLOCATED;
        }

        /* In case the stream buffer is going to be used as a message buffer
         * (that is, it will hold discrete messages with a little meta data that
         * says how big the next message is) check the buffer will be large enough
         * to hold at least one message. */
        configASSERT( xBufferSizeBytes > sbBYTES_TO_STORE_MESSAGE_LENGTH );

        #if ( configASSERT_DEFINED == 1 )
            {
                /* Sanity check that the size of the structure used to declare a
                 * variable of type StaticStreamBuffer_t equals the size of the real
                 * message buffer structure. */
                volatile size_t xSize = sizeof( StaticStreamBuffer_t );
                configASSERT( xSize == sizeof( StreamBuffer_t ) );
            } /*lint !e529 xSize is referenced is configASSERT() is defined. */
        #endif /* configASSERT_DEFINED */

        if( ( pucStreamBufferStorageArea != NULL ) && ( pxStaticStreamBuffer != NULL ) )
        {
            prvInitialiseNewStreamBuffer( pxStreamBuffer,
                                          pucStreamBufferStorageArea,
                                          xBufferSizeBytes,
                                          xTriggerLevelBytes,
                                          ucFlags );

            /* Remember this was statically allocated in case it is ever deleted
             * again. */
            pxStreamBuffer->ucFlags |= sbFLAGS_IS_STATICALLY_ALLOCATED;

            traceSTREAM_BUFFER_CREATE( pxStreamBuffer, xIsMessageBuffer );

            xReturn = ( StreamBufferHandle_t ) pxStaticStreamBuffer; /*lint !e9087 Data hiding requires cast to opaque type. */
        }
        else
        {
            xReturn = NULL;
            traceSTREAM_BUFFER_CREATE_STATIC_FAILED( xReturn, xIsMessageBuffer );
        }

        return xReturn;
    }

#endif /* ( configSUPPORT_STATIC_ALLOCATION == 1 ) */
/*-----------------------------------------------------------*/

void vStreamBufferDelete( StreamBufferHandle_t xStreamBuffer )
{
    StreamBuffer_t * pxStreamBuffer = xStreamBuffer;

    configASSERT( pxStreamBuffer );

    traceSTREAM_BUFFER_DELETE( xStreamBuffer );

    if( ( pxStreamBuffer->ucFlags & sbFLAGS_IS_STATICALLY_ALLOCATED ) == ( uint8_t ) pdFALSE )
    {
        #if ( configSUPPORT_DYNAMIC_ALLOCATION == 1 )
            {
                /* Both the structure and the buffer were allocated using a single call
                * to pvPortMalloc(), hence only one call to vPortFree() is required. */
                vPortFree( ( void * ) pxStreamBuffer ); /*lint !e9087 Standard free() semantics require void *, plus pxStreamBuffer was allocated by pvPortMalloc(). */
            }
        #else
            {
                /* Should not be possible to get here, ucFlags must be corrupt.
                 * Force an assert. */
                configASSERT( xStreamBuffer == ( StreamBufferHandle_t ) ~0 );
            }
        #endif
    }
    else
    {
        /* The structure and buffer were not allocated dynamically and cannot be
         * freed - just scrub the structure so future use will assert. */
        ( void ) memset( pxStreamBuffer, 0x00, sizeof( StreamBuffer_t ) );
    }
}
/*-----------------------------------------------------------*/

BaseType_t xStreamBufferReset( StreamBufferHandle_t xStreamBuffer )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    BaseType_t xReturn = pdFAIL;

    #if ( configUSE_TRACE_FACILITY == 1 )
        UBaseType_t uxStreamBufferNumber;
    #endif

    configASSERT( pxStreamBuffer );

    #if ( configUSE_TRACE_FACILITY == 1 )
        {
            /* Store the stream buffer number so it can be restored after the
             * reset. */
            uxStreamBufferNumber = pxStreamBuffer->uxStreamBufferNumber;
        }
    #endif

    /* Can only reset a message buffer if there are no tasks blocked on it. */
    taskENTER_CRITICAL();
    {
        if( pxStreamBuffer->xTaskWaitingToReceive == NULL )
        {
            if( pxStreamBuffer->xTaskWaitingToSend == NULL )
            {
                prvInitialiseNewStreamBuffer( pxStreamBuffer,
                                              pxStreamBuffer->pucBuffer,
                                              pxStreamBuffer->xLength,
                                              pxStreamBuffer->xTriggerLevelBytes,
                                              pxStreamBuffer->ucFlags );
                xReturn = pdPASS;

                #if ( configUSE_TRACE_FACILITY == 1 )
                    {
                        pxStreamBuffer->uxStreamBufferNumber = uxStreamBufferNumber;
                    }
                #endif

                traceSTREAM_BUFFER_RESET( xStreamBuffer );
            }
        }
    }
    taskEXIT_CRITICAL();

    return xReturn;
}
/*-----------------------------------------------------------*/

BaseType_t xStreamBufferSetTriggerLevel( StreamBufferHandle_t xStreamBuffer,
                                         size_t xTriggerLevel )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    BaseType_t xReturn;

    configASSERT( pxStreamBuffer );

    /* It is not valid for the trigger level to be 0. */
    if( xTriggerLevel == ( size_t ) 0 )
    {
        xTriggerLevel = ( size_t ) 1;
    }

    /* The trigger level is the number of bytes that must be in the stream
     * buffer before a task that is waiting for data is unblocked. */
    if( xTriggerLevel <= pxStreamBuffer->xLength )
    {
        pxStreamBuffer->xTriggerLevelBytes = xTriggerLevel;
        xReturn = pdPASS;
    }
    else
    {
        xReturn = pdFALSE;
    }

    return xReturn;
}
/*-----------------------------------------------------------*/

size_t xStreamBufferSpacesAvailable( StreamBufferHandle_t xStreamBuffer )
{
    const StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    size_t xSpace;

    configASSERT( pxStreamBuffer );

    xSpace = pxStreamBuffer->xLength + pxStreamBuffer->xTail;
    xSpace -= pxStreamBuffer->xHead;
    xSpace -= ( size_t ) 1;

    if( xSpace >= pxStreamBuffer->xLength )
    {
        xSpace -= pxStreamBuffer->xLength;
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    return xSpace;
}
/*-----------------------------------------------------------*/

size_t xStreamBufferBytesAvailable( StreamBufferHandle_t xStreamBuffer )
{
    const StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    size_t xReturn;

    configASSERT( pxStreamBuffer );

    xReturn = prvBytesInBuffer( pxStreamBuffer );
    return xReturn;
}
/*-----------------------------------------------------------*/

size_t xStreamBufferSend( StreamBufferHandle_t xStreamBuffer,
                          const void * pvTxData,
                          size_t xDataLengthBytes,
                          TickType_t xTicksToWait )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    size_t xReturn, xSpace = 0;
    size_t xRequiredSpace = xDataLengthBytes;
    TimeOut_t xTimeOut;

    /* Having a 'isFeasible' variable allows to respect the convention that there is only a return statement at the end. Othewise, return
     * could be done as soon as we realise the send cannot happen. We will let the call to 'prvWriteMessageToBuffer' dealing with this scenario. */
    BaseType_t xIsFeasible;

    configASSERT( pvTxData );
    configASSERT( pxStreamBuffer );

    /* This send function is used to write to both message buffers and stream
     * buffers.  If this is a message buffer then the space needed must be
     * increased by the amount of bytes needed to store the length of the
     * message. */
    if( ( pxStreamBuffer->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER ) != ( uint8_t ) 0 )
    {
        xRequiredSpace += sbBYTES_TO_STORE_MESSAGE_LENGTH;

        /* Overflow? */
        configASSERT( xRequiredSpace > xDataLengthBytes );

        /* In the case of the message buffer, one has to be able to write the complete message as opposed to
         * a stream buffer for semantic reasons. Check if it is physically possible to write the message given
         * the length of the buffer. */
        if( xRequiredSpace > pxStreamBuffer->xLength )
        {
            /* The message could never be written because it is greater than the buffer length.
             * By setting xIsFeasable to FALSE, we skip over the following do..while loop, thus avoiding
             * a deadlock. The call to 'prvWriteMessageToBuffer' toward the end of this function with
             * xRequiredSpace greater than xSpace will suffice in not writing anything to the internal buffer.
             * Now, the function will return 0 because the message could not be written. Should an error code be
             * returned instead ??? In my opinion, probably.. But the return type doesn't allow for negative
             * values to be returned. A confusion could exist to the caller. Returning 0 because a timeout occurred
             * and a subsequent send attempts could eventually succeed, and returning 0 because a write could never
             * happen because of the size are two scenarios to me :/ */
            xIsFeasible = pdFALSE;
        }
        else
        {
            /* It is possible to write the message completely in the buffer. This is the intended route.
             * Let's continue with the regular timeout logic. */
            xIsFeasible = pdTRUE;
        }
    }
    else
    {
        /* In the case of the stream buffer, not being able to completely write the message in the buffer
         * is an acceptable scenario, but it has to be dealt with properly */
        if( xRequiredSpace > pxStreamBuffer->xLength )
        {
            /* Not enough buffer space. We will attempt to write as much as we can in this run
             * so that the caller can send the remaining in subsequent calls. We avoid a deadlock by
             * offering the possibility to take the 'else' branch in the  'if( xSpace < xRequiredSpace )'
             * condition inside the following do..while loop */
            xRequiredSpace = pxStreamBuffer->xLength;

            /* TODO FIXME: Is there a check we should do with the xTriggerLevelBytes value ? */

            /* With the adjustment to 'xRequiredSpace', the deadlock is avoided, thus it's now feasible. */
            xIsFeasible = pdTRUE;
        }
        else
        {
            /* It is possible to write the message completely in the buffer. */
            xIsFeasible = pdTRUE;
        }
    }

    /* Added check against xIsFeasible. If it's not feasible, don't even wait for notification, let the call to 'prvWriteMessageToBuffer' do nothing and return 0 */
    if( ( xTicksToWait != ( TickType_t ) 0 ) && ( xIsFeasible == pdTRUE ) )
    {
        vTaskSetTimeOutState( &xTimeOut );

        do
        {
            /* Wait until the required number of bytes are free in the message
             * buffer. */
            taskENTER_CRITICAL();
            {
                xSpace = xStreamBufferSpacesAvailable( pxStreamBuffer );

                if( xSpace < xRequiredSpace )
                {
                    /* Clear notification state as going to wait for space. */
                    ( void ) xTaskNotifyStateClear( NULL );

                    /* Should only be one writer. */
                    configASSERT( pxStreamBuffer->xTaskWaitingToSend == NULL );
                    pxStreamBuffer->xTaskWaitingToSend = xTaskGetCurrentTaskHandle();
                }
                else
                {
                    taskEXIT_CRITICAL();
                    break;
                }
            }
            taskEXIT_CRITICAL();

            traceBLOCKING_ON_STREAM_BUFFER_SEND( xStreamBuffer );
            ( void ) xTaskNotifyWait( ( uint32_t ) 0, ( uint32_t ) 0, NULL, xTicksToWait );
            pxStreamBuffer->xTaskWaitingToSend = NULL;
        } while( xTaskCheckForTimeOut( &xTimeOut, &xTicksToWait ) == pdFALSE );
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    if( xSpace == ( size_t ) 0 )
    {
        xSpace = xStreamBufferSpacesAvailable( pxStreamBuffer );
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    xReturn = prvWriteMessageToBuffer( pxStreamBuffer, pvTxData, xDataLengthBytes, xSpace, xRequiredSpace );

    if( xReturn > ( size_t ) 0 )
    {
        traceSTREAM_BUFFER_SEND( xStreamBuffer, xReturn );

        /* Was a task waiting for the data? */
        if( prvBytesInBuffer( pxStreamBuffer ) >= pxStreamBuffer->xTriggerLevelBytes )
        {
            sbSEND_COMPLETED( pxStreamBuffer );
        }
        else
        {
            mtCOVERAGE_TEST_MARKER();
        }
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
        traceSTREAM_BUFFER_SEND_FAILED( xStreamBuffer );
    }

    return xReturn;
}
/*-----------------------------------------------------------*/

size_t xStreamBufferSendFromISR( StreamBufferHandle_t xStreamBuffer,
                                 const void * pvTxData,
                                 size_t xDataLengthBytes,
                                 BaseType_t * const pxHigherPriorityTaskWoken )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    size_t xReturn, xSpace;
    size_t xRequiredSpace = xDataLengthBytes;

    configASSERT( pvTxData );
    configASSERT( pxStreamBuffer );

    /* This send function is used to write to both message buffers and stream
     * buffers.  If this is a message buffer then the space needed must be
     * increased by the amount of bytes needed to store the length of the
     * message. */
    if( ( pxStreamBuffer->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER ) != ( uint8_t ) 0 )
    {
        xRequiredSpace += sbBYTES_TO_STORE_MESSAGE_LENGTH;
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    xSpace = xStreamBufferSpacesAvailable( pxStreamBuffer );
    xReturn = prvWriteMessageToBuffer( pxStreamBuffer, pvTxData, xDataLengthBytes, xSpace, xRequiredSpace );

    if( xReturn > ( size_t ) 0 )
    {
        /* Was a task waiting for the data? */
        if( prvBytesInBuffer( pxStreamBuffer ) >= pxStreamBuffer->xTriggerLevelBytes )
        {
            sbSEND_COMPLETE_FROM_ISR( pxStreamBuffer, pxHigherPriorityTaskWoken );
        }
        else
        {
            mtCOVERAGE_TEST_MARKER();
        }
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    traceSTREAM_BUFFER_SEND_FROM_ISR( xStreamBuffer, xReturn );

    return xReturn;
}
/*-----------------------------------------------------------*/

static size_t prvWriteMessageToBuffer( StreamBuffer_t * const pxStreamBuffer,
                                       const void * pvTxData,
                                       size_t xDataLengthBytes,
                                       size_t xSpace,
                                       size_t xRequiredSpace )
{
    BaseType_t xShouldWrite;
    size_t xReturn;

    if( xSpace == ( size_t ) 0 )
    {
        /* Doesn't matter if this is a stream buffer or a message buffer, there
         * is no space to write. */
        xShouldWrite = pdFALSE;
    }
    else if( ( pxStreamBuffer->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER ) == ( uint8_t ) 0 )
    {
        /* This is a stream buffer, as opposed to a message buffer, so writing a
         * stream of bytes rather than discrete messages.  Write as many bytes as
         * possible. */
        xShouldWrite = pdTRUE;
        xDataLengthBytes = configMIN( xDataLengthBytes, xSpace );
    }
    else if( xSpace >= xRequiredSpace )
    {
        /* This is a message buffer, as opposed to a stream buffer, and there
         * is enough space to write both the message length and the message itself
         * into the buffer.  Start by writing the length of the data, the data
         * itself will be written later in this function. */
        xShouldWrite = pdTRUE;
        ( void ) prvWriteBytesToBuffer( pxStreamBuffer, ( const uint8_t * ) &( xDataLengthBytes ), sbBYTES_TO_STORE_MESSAGE_LENGTH );
    }
    else
    {
        /* There is space available, but not enough space. */
        xShouldWrite = pdFALSE;
    }

    if( xShouldWrite != pdFALSE )
    {
        /* Writes the data itself. */
        xReturn = prvWriteBytesToBuffer( pxStreamBuffer, ( const uint8_t * ) pvTxData, xDataLengthBytes ); /*lint !e9079 Storage buffer is implemented as uint8_t for ease of sizing, alignment and access. */
    }
    else
    {
        xReturn = 0;
    }

    return xReturn;
}
/*-----------------------------------------------------------*/

size_t xStreamBufferReceive( StreamBufferHandle_t xStreamBuffer,
                             void * pvRxData,
                             size_t xBufferLengthBytes,
                             TickType_t xTicksToWait )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    size_t xReceivedLength = 0, xBytesAvailable, xBytesToStoreMessageLength;

    configASSERT( pvRxData );
    configASSERT( pxStreamBuffer );

    /* This receive function is used by both message buffers, which store
     * discrete messages, and stream buffers, which store a continuous stream of
     * bytes.  Discrete messages include an additional
     * sbBYTES_TO_STORE_MESSAGE_LENGTH bytes that hold the length of the
     * message. */
    if( ( pxStreamBuffer->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER ) != ( uint8_t ) 0 )
    {
        xBytesToStoreMessageLength = sbBYTES_TO_STORE_MESSAGE_LENGTH;
    }
    else
    {
        xBytesToStoreMessageLength = 0;
    }

    if( xTicksToWait != ( TickType_t ) 0 )
    {
        /* Checking if there is data and clearing the notification state must be
         * performed atomically. */
        taskENTER_CRITICAL();
        {
            xBytesAvailable = prvBytesInBuffer( pxStreamBuffer );

            /* If this function was invoked by a message buffer read then
             * xBytesToStoreMessageLength holds the number of bytes used to hold
             * the length of the next discrete message.  If this function was
             * invoked by a stream buffer read then xBytesToStoreMessageLength will
             * be 0. */
            if( xBytesAvailable <= xBytesToStoreMessageLength )
            {
                /* Clear notification state as going to wait for data. */
                ( void ) xTaskNotifyStateClear( NULL );

                /* Should only be one reader. */
                configASSERT( pxStreamBuffer->xTaskWaitingToReceive == NULL );
                pxStreamBuffer->xTaskWaitingToReceive = xTaskGetCurrentTaskHandle();
            }
            else
            {
                mtCOVERAGE_TEST_MARKER();
            }
        }
        taskEXIT_CRITICAL();

        if( xBytesAvailable <= xBytesToStoreMessageLength )
        {
            /* Wait for data to be available. */
            traceBLOCKING_ON_STREAM_BUFFER_RECEIVE( xStreamBuffer );
            ( void ) xTaskNotifyWait( ( uint32_t ) 0, ( uint32_t ) 0, NULL, xTicksToWait );
            pxStreamBuffer->xTaskWaitingToReceive = NULL;

            /* Recheck the data available after blocking. */
            xBytesAvailable = prvBytesInBuffer( pxStreamBuffer );
        }
        else
        {
            mtCOVERAGE_TEST_MARKER();
        }
    }
    else
    {
        xBytesAvailable = prvBytesInBuffer( pxStreamBuffer );
    }

    /* Whether receiving a discrete message (where xBytesToStoreMessageLength
     * holds the number of bytes used to store the message length) or a stream of
     * bytes (where xBytesToStoreMessageLength is zero), the number of bytes
     * available must be greater than xBytesToStoreMessageLength to be able to
     * read bytes from the buffer. */
    if( xBytesAvailable > xBytesToStoreMessageLength )
    {
        xReceivedLength = prvReadMessageFromBuffer( pxStreamBuffer, pvRxData, xBufferLengthBytes, xBytesAvailable, xBytesToStoreMessageLength );

        /* Was a task waiting for space in the buffer? */
        if( xReceivedLength != ( size_t ) 0 )
        {
            traceSTREAM_BUFFER_RECEIVE( xStreamBuffer, xReceivedLength );
            sbRECEIVE_COMPLETED( pxStreamBuffer );
        }
        else
        {
            mtCOVERAGE_TEST_MARKER();
        }
    }
    else
    {
        traceSTREAM_BUFFER_RECEIVE_FAILED( xStreamBuffer );
        mtCOVERAGE_TEST_MARKER();
    }

    return xReceivedLength;
}
/*-----------------------------------------------------------*/

size_t xStreamBufferNextMessageLengthBytes( StreamBufferHandle_t xStreamBuffer )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    size_t xReturn, xBytesAvailable, xOriginalTail;
    configMESSAGE_BUFFER_LENGTH_TYPE xTempReturn;

    configASSERT( pxStreamBuffer );

    /* Ensure the stream buffer is being used as a message buffer. */
    if( ( pxStreamBuffer->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER ) != ( uint8_t ) 0 )
    {
        xBytesAvailable = prvBytesInBuffer( pxStreamBuffer );

        if( xBytesAvailable > sbBYTES_TO_STORE_MESSAGE_LENGTH )
        {
            /* The number of bytes available is greater than the number of bytes
             * required to hold the length of the next message, so another message
             * is available.  Return its length without removing the length bytes
             * from the buffer.  A copy of the tail is stored so the buffer can be
             * returned to its prior state as the message is not actually being
             * removed from the buffer. */
            xOriginalTail = pxStreamBuffer->xTail;
            ( void ) prvReadBytesFromBuffer( pxStreamBuffer, ( uint8_t * ) &xTempReturn, sbBYTES_TO_STORE_MESSAGE_LENGTH, xBytesAvailable );
            xReturn = ( size_t ) xTempReturn;
            pxStreamBuffer->xTail = xOriginalTail;
        }
        else
        {
            /* The minimum amount of bytes in a message buffer is
             * ( sbBYTES_TO_STORE_MESSAGE_LENGTH + 1 ), so if xBytesAvailable is
             * less than sbBYTES_TO_STORE_MESSAGE_LENGTH the only other valid
             * value is 0. */
            configASSERT( xBytesAvailable == 0 );
            xReturn = 0;
        }
    }
    else
    {
        xReturn = 0;
    }

    return xReturn;
}
/*-----------------------------------------------------------*/

size_t xStreamBufferReceiveFromISR( StreamBufferHandle_t xStreamBuffer,
                                    void * pvRxData,
                                    size_t xBufferLengthBytes,
                                    BaseType_t * const pxHigherPriorityTaskWoken )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    size_t xReceivedLength = 0, xBytesAvailable, xBytesToStoreMessageLength;

    configASSERT( pvRxData );
    configASSERT( pxStreamBuffer );

    /* This receive function is used by both message buffers, which store
     * discrete messages, and stream buffers, which store a continuous stream of
     * bytes.  Discrete messages include an additional
     * sbBYTES_TO_STORE_MESSAGE_LENGTH bytes that hold the length of the
     * message. */
    if( ( pxStreamBuffer->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER ) != ( uint8_t ) 0 )
    {
        xBytesToStoreMessageLength = sbBYTES_TO_STORE_MESSAGE_LENGTH;
    }
    else
    {
        xBytesToStoreMessageLength = 0;
    }

    xBytesAvailable = prvBytesInBuffer( pxStreamBuffer );

    /* Whether receiving a discrete message (where xBytesToStoreMessageLength
     * holds the number of bytes used to store the message length) or a stream of
     * bytes (where xBytesToStoreMessageLength is zero), the number of bytes
     * available must be greater than xBytesToStoreMessageLength to be able to
     * read bytes from the buffer. */
    if( xBytesAvailable > xBytesToStoreMessageLength )
    {
        xReceivedLength = prvReadMessageFromBuffer( pxStreamBuffer, pvRxData, xBufferLengthBytes, xBytesAvailable, xBytesToStoreMessageLength );

        /* Was a task waiting for space in the buffer? */
        if( xReceivedLength != ( size_t ) 0 )
        {
            sbRECEIVE_COMPLETED_FROM_ISR( pxStreamBuffer, pxHigherPriorityTaskWoken );
        }
        else
        {
            mtCOVERAGE_TEST_MARKER();
        }
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    traceSTREAM_BUFFER_RECEIVE_FROM_ISR( xStreamBuffer, xReceivedLength );

    return xReceivedLength;
}
/*-----------------------------------------------------------*/

static size_t prvReadMessageFromBuffer( StreamBuffer_t * pxStreamBuffer,
                                        void * pvRxData,
                                        size_t xBufferLengthBytes,
                                        size_t xBytesAvailable,
                                        size_t xBytesToStoreMessageLength )
{
    size_t xOriginalTail, xReceivedLength, xNextMessageLength;
    configMESSAGE_BUFFER_LENGTH_TYPE xTempNextMessageLength;

    if( xBytesToStoreMessageLength != ( size_t ) 0 )
    {
        /* A discrete message is being received.  First receive the length
         * of the message.  A copy of the tail is stored so the buffer can be
         * returned to its prior state if the length of the message is too
         * large for the provided buffer. */
        xOriginalTail = pxStreamBuffer->xTail;
        ( void ) prvReadBytesFromBuffer( pxStreamBuffer, ( uint8_t * ) &xTempNextMessageLength, xBytesToStoreMessageLength, xBytesAvailable );
        xNextMessageLength = ( size_t ) xTempNextMessageLength;

        /* Reduce the number of bytes available by the number of bytes just
         * read out. */
        xBytesAvailable -= xBytesToStoreMessageLength;

        /* Check there is enough space in the buffer provided by the
         * user. */
        if( xNextMessageLength > xBufferLengthBytes )
        {
            /* The user has provided insufficient space to read the message
             * so return the buffer to its previous state (so the length of
             * the message is in the buffer again). */
            pxStreamBuffer->xTail = xOriginalTail;
            xNextMessageLength = 0;
        }
        else
        {
            mtCOVERAGE_TEST_MARKER();
        }
    }
    else
    {
        /* A stream of bytes is being received (as opposed to a discrete
         * message), so read as many bytes as possible. */
        xNextMessageLength = xBufferLengthBytes;
    }

    /* Read the actual data. */
    xReceivedLength = prvReadBytesFromBuffer( pxStreamBuffer, ( uint8_t * ) pvRxData, xNextMessageLength, xBytesAvailable ); /*lint !e9079 Data storage area is implemented as uint8_t array for ease of sizing, indexing and alignment. */

    return xReceivedLength;
}
/*-----------------------------------------------------------*/

BaseType_t xStreamBufferIsEmpty( StreamBufferHandle_t xStreamBuffer )
{
    const StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    BaseType_t xReturn;
    size_t xTail;

    configASSERT( pxStreamBuffer );

    /* True if no bytes are available. */
    xTail = pxStreamBuffer->xTail;

    if( pxStreamBuffer->xHead == xTail )
    {
        xReturn = pdTRUE;
    }
    else
    {
        xReturn = pdFALSE;
    }

    return xReturn;
}
/*-----------------------------------------------------------*/

BaseType_t xStreamBufferIsFull( StreamBufferHandle_t xStreamBuffer )
{
    BaseType_t xReturn;
    size_t xBytesToStoreMessageLength;
    const StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;

    configASSERT( pxStreamBuffer );

    /* This generic version of the receive function is used by both message
     * buffers, which store discrete messages, and stream buffers, which store a
     * continuous stream of bytes.  Discrete messages include an additional
     * sbBYTES_TO_STORE_MESSAGE_LENGTH bytes that hold the length of the message. */
    if( ( pxStreamBuffer->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER ) != ( uint8_t ) 0 )
    {
        xBytesToStoreMessageLength = sbBYTES_TO_STORE_MESSAGE_LENGTH;
    }
    else
    {
        xBytesToStoreMessageLength = 0;
    }

    /* True if the available space equals zero. */
    if( xStreamBufferSpacesAvailable( xStreamBuffer ) <= xBytesToStoreMessageLength )
    {
        xReturn = pdTRUE;
    }
    else
    {
        xReturn = pdFALSE;
    }

    return xReturn;
}
/*-----------------------------------------------------------*/

BaseType_t xStreamBufferSendCompletedFromISR( StreamBufferHandle_t xStreamBuffer,
                                              BaseType_t * pxHigherPriorityTaskWoken )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    BaseType_t xReturn;
    UBaseType_t uxSavedInterruptStatus;

    configASSERT( pxStreamBuffer );

    uxSavedInterruptStatus = ( UBaseType_t ) portSET_INTERRUPT_MASK_FROM_ISR();
    {
        if( ( pxStreamBuffer )->xTaskWaitingToReceive != NULL )
        {
            ( void ) xTaskNotifyFromISR( ( pxStreamBuffer )->xTaskWaitingToReceive,
                                         ( uint32_t ) 0,
                                         eNoAction,
                                         pxHigherPriorityTaskWoken );
            ( pxStreamBuffer )->xTaskWaitingToReceive = NULL;
            xReturn = pdTRUE;
        }
        else
        {
            xReturn = pdFALSE;
        }
    }
    portCLEAR_INTERRUPT_MASK_FROM_ISR( uxSavedInterruptStatus );

    return xReturn;
}
/*-----------------------------------------------------------*/

BaseType_t xStreamBufferReceiveCompletedFromISR( StreamBufferHandle_t xStreamBuffer,
                                                 BaseType_t * pxHigherPriorityTaskWoken )
{
    StreamBuffer_t * const pxStreamBuffer = xStreamBuffer;
    BaseType_t xReturn;
    UBaseType_t uxSavedInterruptStatus;

    configASSERT( pxStreamBuffer );

    uxSavedInterruptStatus = ( UBaseType_t ) portSET_INTERRUPT_MASK_FROM_ISR();
    {
        if( ( pxStreamBuffer )->xTaskWaitingToSend != NULL )
        {
            ( void ) xTaskNotifyFromISR( ( pxStreamBuffer )->xTaskWaitingToSend,
                                         ( uint32_t ) 0,
                                         eNoAction,
                                         pxHigherPriorityTaskWoken );
            ( pxStreamBuffer )->xTaskWaitingToSend = NULL;
            xReturn = pdTRUE;
        }
        else
        {
            xReturn = pdFALSE;
        }
    }
    portCLEAR_INTERRUPT_MASK_FROM_ISR( uxSavedInterruptStatus );

    return xReturn;
}
/*-----------------------------------------------------------*/

static size_t prvWriteBytesToBuffer( StreamBuffer_t * const pxStreamBuffer,
                                     const uint8_t * pucData,
                                     size_t xCount )
{
    size_t xNextHead, xFirstLength;

    configASSERT( xCount > ( size_t ) 0 );

    xNextHead = pxStreamBuffer->xHead;

    /* Calculate the number of bytes that can be added in the first write -
     * which may be less than the total number of bytes that need to be added if
     * the buffer will wrap back to the beginning. */
    xFirstLength = configMIN( pxStreamBuffer->xLength - xNextHead, xCount );

    /* Write as many bytes as can be written in the first write. */
    configASSERT( ( xNextHead + xFirstLength ) <= pxStreamBuffer->xLength );
    ( void ) memcpy( ( void * ) ( &( pxStreamBuffer->pucBuffer[ xNextHead ] ) ), ( const void * ) pucData, xFirstLength ); /*lint !e9087 memcpy() requires void *. */

    /* If the number of bytes written was less than the number that could be
     * written in the first write... */
    if( xCount > xFirstLength )
    {
        /* ...then write the remaining bytes to the start of the buffer. */
        configASSERT( ( xCount - xFirstLength ) <= pxStreamBuffer->xLength );
        ( void ) memcpy( ( void * ) pxStreamBuffer->pucBuffer, ( const void * ) &( pucData[ xFirstLength ] ), xCount - xFirstLength ); /*lint !e9087 memcpy() requires void *. */
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    xNextHead += xCount;

    if( xNextHead >= pxStreamBuffer->xLength )
    {
        xNextHead -= pxStreamBuffer->xLength;
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    pxStreamBuffer->xHead = xNextHead;

    return xCount;
}
/*-----------------------------------------------------------*/

static size_t prvReadBytesFromBuffer( StreamBuffer_t * pxStreamBuffer,
                                      uint8_t * pucData,
                                      size_t xMaxCount,
                                      size_t xBytesAvailable )
{
    size_t xCount, xFirstLength, xNextTail;

    /* Use the minimum of the wanted bytes and the available bytes. */
    xCount = configMIN( xBytesAvailable, xMaxCount );

    if( xCount > ( size_t ) 0 )
    {
        xNextTail = pxStreamBuffer->xTail;

        /* Calculate the number of bytes that can be read - which may be
         * less than the number wanted if the data wraps around to the start of
         * the buffer. */
        xFirstLength = configMIN( pxStreamBuffer->xLength - xNextTail, xCount );

        /* Obtain the number of bytes it is possible to obtain in the first
         * read.  Asserts check bounds of read and write. */
        configASSERT( xFirstLength <= xMaxCount );
        configASSERT( ( xNextTail + xFirstLength ) <= pxStreamBuffer->xLength );
        ( void ) memcpy( ( void * ) pucData, ( const void * ) &( pxStreamBuffer->pucBuffer[ xNextTail ] ), xFirstLength ); /*lint !e9087 memcpy() requires void *. */

        /* If the total number of wanted bytes is greater than the number
         * that could be read in the first read... */
        if( xCount > xFirstLength )
        {
            /*...then read the remaining bytes from the start of the buffer. */
            configASSERT( xCount <= xMaxCount );
            ( void ) memcpy( ( void * ) &( pucData[ xFirstLength ] ), ( void * ) ( pxStreamBuffer->pucBuffer ), xCount - xFirstLength ); /*lint !e9087 memcpy() requires void *. */
        }
        else
        {
            mtCOVERAGE_TEST_MARKER();
        }

        /* Move the tail pointer to effectively remove the data read from
         * the buffer. */
        xNextTail += xCount;

        if( xNextTail >= pxStreamBuffer->xLength )
        {
            xNextTail -= pxStreamBuffer->xLength;
        }

        pxStreamBuffer->xTail = xNextTail;
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    return xCount;
}
/*-----------------------------------------------------------*/

static size_t prvBytesInBuffer( const StreamBuffer_t * const pxStreamBuffer )
{
/* Returns the distance between xTail and xHead. */
    size_t xCount;

    xCount = pxStreamBuffer->xLength + pxStreamBuffer->xHead;
    xCount -= pxStreamBuffer->xTail;

    if( xCount >= pxStreamBuffer->xLength )
    {
        xCount -= pxStreamBuffer->xLength;
    }
    else
    {
        mtCOVERAGE_TEST_MARKER();
    }

    return xCount;
}
/*-----------------------------------------------------------*/

static void prvInitialiseNewStreamBuffer( StreamBuffer_t * const pxStreamBuffer,
                                          uint8_t * const pucBuffer,
                                          size_t xBufferSizeBytes,
                                          size_t xTriggerLevelBytes,
                                          uint8_t ucFlags )
{
    /* Assert here is deliberately writing to the entire buffer to ensure it can
     * be written to without generating exceptions, and is setting the buffer to a
     * known value to assist in development/debugging. */
    #if ( configASSERT_DEFINED == 1 )
        {
            /* The value written just has to be identifiable when looking at the
             * memory.  Don't use 0xA5 as that is the stack fill value and could
             * result in confusion as to what is actually being observed. */
            const BaseType_t xWriteValue = 0x55;
            configASSERT( memset( pucBuffer, ( int ) xWriteValue, xBufferSizeBytes ) == pucBuffer );
        } /*lint !e529 !e438 xWriteValue is only used if configASSERT() is defined. */
    #endif

    ( void ) memset( ( void * ) pxStreamBuffer, 0x00, sizeof( StreamBuffer_t ) ); /*lint !e9087 memset() requires void *. */
    pxStreamBuffer->pucBuffer = pucBuffer;
    pxStreamBuffer->xLength = xBufferSizeBytes;
    pxStreamBuffer->xTriggerLevelBytes = xTriggerLevelBytes;
    pxStreamBuffer->ucFlags = ucFlags;
}

#if ( configUSE_TRACE_FACILITY == 1 )

    UBaseType_t uxStreamBufferGetStreamBufferNumber( StreamBufferHandle_t xStreamBuffer )
    {
        return xStreamBuffer->uxStreamBufferNumber;
    }

#endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/

#if ( configUSE_TRACE_FACILITY == 1 )

    void vStreamBufferSetStreamBufferNumber( StreamBufferHandle_t xStreamBuffer,
                                             UBaseType_t uxStreamBufferNumber )
    {
        xStreamBuffer->uxStreamBufferNumber = uxStreamBufferNumber;
    }

#endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/

#if ( configUSE_TRACE_FACILITY == 1 )

    uint8_t ucStreamBufferGetStreamBufferType( StreamBufferHandle_t xStreamBuffer )
    {
        return( xStreamBuffer->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER );
    }

#endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/