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/*

    FreeRTOS V6.1.1 - Copyright (C) 2011 Real Time Engineers Ltd.

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    This file is part of the FreeRTOS distribution.

    FreeRTOS is free software; you can redistribute it and/or modify it under

    the terms of the GNU General Public License (version 2) as published by the

    Free Software Foundation AND MODIFIED BY the FreeRTOS exception.

    ***NOTE*** The exception to the GPL is included to allow you to distribute

    a combined work that includes FreeRTOS without being obliged to provide the

    source code for proprietary components outside of the FreeRTOS kernel.

    FreeRTOS is distributed in the hope that it will be useful, but WITHOUT

    ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or

    FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for

    more details. You should have received a copy of the GNU General Public

    License and the FreeRTOS license exception along with FreeRTOS; if not it

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    by writing to Richard Barry, contact details for whom are available on the

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*/

/*

 * Tests the floating point context save and restore mechanism.

 *

 * Two tasks are created - each of which is allocated a buffer of

 * portNO_FLOP_REGISTERS_TO_SAVE 32bit variables into which the flop context

 * of the task is saved when the task is switched out, and from which the

 * flop context of the task is restored when the task is switch in.  Prior to

 * the tasks being created each position in the two buffers is filled with a

 * unique value - this way the flop context of each task is different.

 *

 * The two test tasks never block so are always in either the Running or

 * Ready state.  They execute at the lowest priority so will get pre-empted

 * regularly, although the yield frequently so will not get much execution

 * time.  The lack of execution time is not a problem as its only the

 * switching in and out that is being tested.

 *

 * Whenever a task is moved from the Ready to the Running state its flop

 * context will be loaded from the buffer, but while the task is in the

 * Running state the buffer is not used and can contain any value - in this

 * case and for test purposes the task itself clears the buffer to zero.

 * The next time the task is moved out of the Running state into the

 * Ready state the flop context will once more get saved to the buffer -

 * overwriting the zeros.

 *

 * Therefore whenever the task is not in the Running state its buffer contains

 * the most recent values of its floating point registers - the zeroing out

 * of the buffer while the task was executing being used to ensure the values

 * the buffer contains are not stale.

 *

 * When neither test task is in the Running state the buffers should contain

 * the unique values allocated before the tasks were created.  If so then

 * the floating point context has been maintained.  This check is performed

 * by the 'check' task (defined in main.c) by calling

 * xAreFlopRegisterTestsStillRunning().

 *

 * The test tasks also increment a value each time they execute.

 * xAreFlopRegisterTestsStillRunning() also checks that this value has changed

 * since it last ran to ensure the test tasks are still getting processing time.

 */

/* Standard includes files. */

#include <string.h>

/* Scheduler include files. */

#include "FreeRTOS.h"

#include "task.h"

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

#define flopNUMBER_OF_TASKS             2

#define flopSTART_VALUE ( 0x1 )

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

/* The two test tasks as described at the top of this file. */

static void vFlopTest1( void *pvParameters );

static void vFlopTest2( void *pvParameters );

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

/* Buffers into which the flop registers will be saved.  There is a buffer for

both tasks. */

static volatile unsigned portLONG ulFlopRegisters[ flopNUMBER_OF_TASKS ][ portNO_FLOP_REGISTERS_TO_SAVE ];

/* Variables that are incremented by the tasks to indicate that they are still

running. */

static volatile unsigned portLONG ulFlop1CycleCount = 0, ulFlop2CycleCount = 0;

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

void vStartFlopRegTests( void )

{

xTaskHandle xTaskJustCreated;

unsigned portBASE_TYPE x, y, z = flopSTART_VALUE;

        /* Fill the arrays into which the flop registers are to be saved with

        known values.  These are the values that will be written to the flop

        registers when the tasks start, and as the tasks do not perform any

        flop operations the values should never change.  Each position in the

        buffer contains a different value so the flop context of each task

        will be different. */

        for( x = 0; x < flopNUMBER_OF_TASKS; x++ )

        {

                for( y = 0; y < ( portNO_FLOP_REGISTERS_TO_SAVE - 1); y++ )

                {

                        ulFlopRegisters[ x ][ y ] = z;

                        z++;

                }

        }

        /* Create the first task. */

        xTaskCreate( vFlopTest1, ( signed portCHAR * ) "flop1", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, &xTaskJustCreated );

        /* The task     tag value is a value that can be associated with a task, but

        is not used by the scheduler itself.  Its use is down to the application so

        it makes a convenient place in this case to store the pointer to the buffer

        into which the flop context of the task will be stored.  The first created

        task uses ulFlopRegisters[ 0 ], the second ulFlopRegisters[ 1 ]. */

        vTaskSetApplicationTaskTag( xTaskJustCreated, ( void * ) &( ulFlopRegisters[ 0 ][ 0 ] ) );

        /* Do the same for the second task. */

        xTaskCreate( vFlopTest2, ( signed portCHAR * ) "flop2", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, &xTaskJustCreated );

        vTaskSetApplicationTaskTag( xTaskJustCreated, ( void * ) &( ulFlopRegisters[ 1 ][ 0 ] ) );

}

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

static void vFlopTest1( void *pvParameters )

{

        /* Just to remove compiler warning. */

        ( void ) pvParameters;

        for( ;; )

        {

                /* The values from the buffer should have now been written to the flop

                registers.  Clear the buffer to ensure the same values then get written

                back the next time the task runs.  Being preempted during this memset

                could cause the test to fail, hence the critical section. */

                portENTER_CRITICAL();

                        memset( ( void * ) ulFlopRegisters[ 0 ], 0x00, ( portNO_FLOP_REGISTERS_TO_SAVE * sizeof( unsigned portBASE_TYPE ) ) );

                portEXIT_CRITICAL();

                /* We don't have to do anything other than indicate that we are

                still running. */

                ulFlop1CycleCount++;

                taskYIELD();

        }

}

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

static void vFlopTest2( void *pvParameters )

{

        /* Just to remove compiler warning. */

        ( void ) pvParameters;

        for( ;; )

        {

                /* The values from the buffer should have now been written to the flop

                registers.  Clear the buffer to ensure the same values then get written

                back the next time the task runs. */

                portENTER_CRITICAL();

                        memset( ( void * ) ulFlopRegisters[ 1 ], 0x00, ( portNO_FLOP_REGISTERS_TO_SAVE * sizeof( unsigned portBASE_TYPE ) ) );

                portEXIT_CRITICAL();

                /* We don't have to do anything other than indicate that we are

                still running. */

                ulFlop2CycleCount++;

                taskYIELD();

        }

}

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

portBASE_TYPE xAreFlopRegisterTestsStillRunning( void )

{

portBASE_TYPE xReturn = pdPASS;

unsigned portBASE_TYPE x, y, z = flopSTART_VALUE;

static unsigned portLONG ulLastFlop1CycleCount = 0, ulLastFlop2CycleCount = 0;

        /* Called from the 'check' task.

        The flop tasks cannot be currently running, check their saved registers

        are as expected.  The tests tasks do not perform any flop operations so

        their registers should be as per their initial setting. */

        for( x = 0; x < flopNUMBER_OF_TASKS; x++ )

        {

                for( y = 0; y < ( portNO_FLOP_REGISTERS_TO_SAVE - 1 ); y++ )

                {

                        if( ulFlopRegisters[ x ][ y ] != z )

                        {

                                xReturn = pdFAIL;

                                break;

                        }

                        z++;

                }

        }

        /* Check both tasks have actually been swapped in and out since this function

        last executed. */

        if( ulFlop1CycleCount == ulLastFlop1CycleCount )

        {

                xReturn = pdFAIL;

        }

        if( ulFlop2CycleCount == ulLastFlop2CycleCount )

        {

                xReturn = pdFAIL;

        }

        ulLastFlop1CycleCount = ulFlop1CycleCount;

        ulLastFlop2CycleCount = ulFlop2CycleCount;

        return xReturn;

}