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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [CORTEX_MPU_LM3Sxxxx_Rowley/] [main.c] - Blame information for rev 794

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1 582 jeremybenn
/*
2
    FreeRTOS V6.1.1 - Copyright (C) 2011 Real Time Engineers Ltd.
3
 
4
    ***************************************************************************
5
    *                                                                         *
6
    * If you are:                                                             *
7
    *                                                                         *
8
    *    + New to FreeRTOS,                                                   *
9
    *    + Wanting to learn FreeRTOS or multitasking in general quickly       *
10
    *    + Looking for basic training,                                        *
11
    *    + Wanting to improve your FreeRTOS skills and productivity           *
12
    *                                                                         *
13
    * then take a look at the FreeRTOS books - available as PDF or paperback  *
14
    *                                                                         *
15
    *        "Using the FreeRTOS Real Time Kernel - a Practical Guide"        *
16
    *                  http://www.FreeRTOS.org/Documentation                  *
17
    *                                                                         *
18
    * A pdf reference manual is also available.  Both are usually delivered   *
19
    * to your inbox within 20 minutes to two hours when purchased between 8am *
20
    * and 8pm GMT (although please allow up to 24 hours in case of            *
21
    * exceptional circumstances).  Thank you for your support!                *
22
    *                                                                         *
23
    ***************************************************************************
24
 
25
    This file is part of the FreeRTOS distribution.
26
 
27
    FreeRTOS is free software; you can redistribute it and/or modify it under
28
    the terms of the GNU General Public License (version 2) as published by the
29
    Free Software Foundation AND MODIFIED BY the FreeRTOS exception.
30
    ***NOTE*** The exception to the GPL is included to allow you to distribute
31
    a combined work that includes FreeRTOS without being obliged to provide the
32
    source code for proprietary components outside of the FreeRTOS kernel.
33
    FreeRTOS is distributed in the hope that it will be useful, but WITHOUT
34
    ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
35
    FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
36
    more details. You should have received a copy of the GNU General Public
37
    License and the FreeRTOS license exception along with FreeRTOS; if not it
38
    can be viewed here: http://www.freertos.org/a00114.html and also obtained
39
    by writing to Richard Barry, contact details for whom are available on the
40
    FreeRTOS WEB site.
41
 
42
    1 tab == 4 spaces!
43
 
44
    http://www.FreeRTOS.org - Documentation, latest information, license and
45
    contact details.
46
 
47
    http://www.SafeRTOS.com - A version that is certified for use in safety
48
    critical systems.
49
 
50
    http://www.OpenRTOS.com - Commercial support, development, porting,
51
    licensing and training services.
52
*/
53
 
54
 
55
/*
56
 * This file demonstrates the use of FreeRTOS-MPU.  It creates tasks in both
57
 * User mode and Privileged mode, and using both the original xTaskCreate() and
58
 * the new xTaskCreateRestricted() API functions.  The purpose of each created
59
 * task is documented in the comments above the task function prototype (in
60
 * this file), with the task behaviour demonstrated and documented within the
61
 * task function itself.  In addition a queue is used to demonstrate passing
62
 * data between protected/restricted tasks as well as passing data between an
63
 * interrupt and a protected/restricted task.
64
 */
65
 
66
 
67
 
68
/* Standard includes. */
69
#include <string.h>
70
#include <__cross_studio_io.h>
71
 
72
/* Scheduler includes. */
73
#include "FreeRTOS.h"
74
#include "task.h"
75
#include "queue.h"
76
#include "semphr.h"
77
 
78
/* Hardware library includes. */
79
#include "hw_types.h"
80
#include "hw_sysctl.h"
81
#include "sysctl.h"
82
 
83
/*-----------------------------------------------------------*/
84
 
85
/* Misc constants. */
86
#define mainDONT_BLOCK                                  ( 0 )
87
 
88
/* Definitions for the messages that can be sent to the check task. */
89
#define mainREG_TEST_1_STILL_EXECUTING  ( 0 )
90
#define mainREG_TEST_2_STILL_EXECUTING  ( 1 )
91
#define mainPRINT_SYSTEM_STATUS                 ( 2 )
92
 
93
/* GCC specifics. */
94
#define mainALIGN_TO( x )                               __attribute__((aligned(x)))
95
 
96
 
97
/*-----------------------------------------------------------*/
98
/* Prototypes for functions that implement tasks. -----------*/
99
/*-----------------------------------------------------------*/
100
 
101
/*
102
 * Prototype for the reg test tasks.  Amongst other things, these fill the CPU
103
 * registers with known values before checking that the registers still contain
104
 * the expected values.  Each of the two tasks use different values so an error
105
 * in the context switch mechanism can be caught.  Both reg test tasks execute
106
 * at the idle priority so will get preempted regularly.  Each task repeatedly
107
 * sends a message on a queue so long as it remains functioning correctly.  If
108
 * an error is detected within the task the task is simply deleted.
109
 */
110
static void prvRegTest1Task( void *pvParameters );
111
static void prvRegTest2Task( void *pvParameters );
112
 
113
/*
114
 * Prototype for the check task.  The check task demonstrates various features
115
 * of the MPU before entering a loop where it waits for messages to arrive on a
116
 * queue.
117
 *
118
 * Two types of messages can be processes:
119
 *
120
 * 1) "I'm Alive" messages sent from the reg test tasks, indicating that the
121
 *    task is still operational.
122
 *
123
 * 2) "Print Status commands" sent periodically by the tick hook function (and
124
 *    therefore from within an interrupt) which command the check task to write
125
 *    either pass or fail to the terminal, depending on the status of the reg
126
 *    test tasks.
127
 */
128
static void prvCheckTask( void *pvParameters );
129
 
130
/*
131
 * Prototype for a task created in User mode using the original vTaskCreate()
132
 * API function.  The task demonstrates the characteristics of such a task,
133
 * before simply deleting itself.
134
 */
135
static void prvOldStyleUserModeTask( void *pvParameters );
136
 
137
/*
138
 * Prototype for a task created in Privileged mode using the original
139
 * vTaskCreate() API function.  The task demonstrates the characteristics of
140
 * such a task, before simply deleting itself.
141
 */
142
static void prvOldStylePrivilegedModeTask( void *pvParameters );
143
 
144
 
145
/*-----------------------------------------------------------*/
146
/* Prototypes for other misc functions.  --------------------*/
147
/*-----------------------------------------------------------*/
148
 
149
/*
150
 * Just configures any clocks and IO necessary.
151
 */
152
static void prvSetupHardware( void );
153
 
154
/*
155
 * Simply deletes the calling task.  The function is provided only because it
156
 * is simpler to call from asm code than the normal vTaskDelete() API function.
157
 * It has the noinline attribute because it is called from asm code.
158
 */
159
static void prvDeleteMe( void ) __attribute__((noinline));
160
 
161
/*
162
 * Used by both reg test tasks to send messages to the check task.  The message
163
 * just lets the check task know that the task is still functioning correctly.
164
 * If a reg test task detects an error it will delete itself, and in so doing
165
 * prevent itself from sending any more 'I'm Alive' messages to the check task.
166
 */
167
static void prvSendImAlive( xQueueHandle xHandle, unsigned long ulTaskNumber );
168
 
169
/*
170
 * The check task is created with access to three memory regions (plus its
171
 * stack).  Each memory region is configured with different parameters and
172
 * prvTestMemoryRegions() demonstrates what can and cannot be accessed for each
173
 * region.  prvTestMemoryRegions() also demonstrates a task that was created
174
 * as a privileged task settings its own privilege level down to that of a user
175
 * task.
176
 */
177
static void prvTestMemoryRegions( void );
178
 
179
/*-----------------------------------------------------------*/
180
 
181
/* The handle of the queue used to communicate between tasks and between tasks
182
and interrupts.  Note that this is a file scope variable that falls outside of
183
any MPU region.  As such other techniques have to be used to allow the tasks
184
to gain access to the queue.  See the comments in the tasks themselves for
185
further information. */
186
static xQueueHandle xFileScopeCheckQueue = NULL;
187
 
188
 
189
/*-----------------------------------------------------------*/
190
/* Data used by the 'check' task. ---------------------------*/
191
/*-----------------------------------------------------------*/
192
 
193
/* Define the constants used to allocate the check task stack.  Note that the
194
stack size is defined in words, not bytes. */
195
#define mainCHECK_TASK_STACK_SIZE_WORDS 128
196
#define mainCHECK_TASK_STACK_ALIGNMENT ( mainCHECK_TASK_STACK_SIZE_WORDS * sizeof( portSTACK_TYPE ) )
197
 
198
/* Declare the stack that will be used by the check task.  The kernel will
199
 automatically create an MPU region for the stack.  The stack alignment must
200
 match its size, so if 128 words are reserved for the stack then it must be
201
 aligned to ( 128 * 4 ) bytes. */
202
static portSTACK_TYPE xCheckTaskStack[ mainCHECK_TASK_STACK_SIZE_WORDS ] mainALIGN_TO( mainCHECK_TASK_STACK_ALIGNMENT );
203
 
204
/* Declare three arrays - an MPU region will be created for each array
205
using the xTaskParameters structure below.  THIS IS JUST TO DEMONSTRATE THE
206
MPU FUNCTIONALITY, the data is not used by the check tasks primary function
207
of monitoring the reg test tasks and printing out status information.
208
 
209
Note that the arrays allocate slightly more RAM than is actually assigned to
210
the MPU region.  This is to permit writes off the end of the array to be
211
detected even when the arrays are placed in adjacent memory locations (with no
212
gaps between them).  The align size must be a power of two. */
213
#define mainREAD_WRITE_ARRAY_SIZE 130
214
#define mainREAD_WRITE_ALIGN_SIZE 128
215
char cReadWriteArray[ mainREAD_WRITE_ARRAY_SIZE ] mainALIGN_TO( mainREAD_WRITE_ALIGN_SIZE );
216
 
217
#define mainREAD_ONLY_ARRAY_SIZE 260
218
#define mainREAD_ONLY_ALIGN_SIZE 256
219
char cReadOnlyArray[ mainREAD_ONLY_ARRAY_SIZE ] mainALIGN_TO( mainREAD_ONLY_ALIGN_SIZE );
220
 
221
#define mainPRIVILEGED_ONLY_ACCESS_ARRAY_SIZE 130
222
#define mainPRIVILEGED_ONLY_ACCESS_ALIGN_SIZE 128
223
char cPrivilegedOnlyAccessArray[ mainPRIVILEGED_ONLY_ACCESS_ALIGN_SIZE ] mainALIGN_TO( mainPRIVILEGED_ONLY_ACCESS_ALIGN_SIZE );
224
 
225
/* Fill in a xTaskParameters structure to define the check task - this is the
226
structure passed to the xTaskCreateRestricted() function. */
227
static const xTaskParameters xCheckTaskParameters =
228
{
229
        prvCheckTask,                                                           /* pvTaskCode - the function that implements the task. */
230
        ( signed char * ) "Check",                                      /* pcName                       */
231
        mainCHECK_TASK_STACK_SIZE_WORDS,                        /* usStackDepth - defined in words, not bytes. */
232
        ( void * ) 0x12121212,                                          /* pvParameters - this value is just to test that the parameter is being passed into the task correctly. */
233
        ( tskIDLE_PRIORITY + 1 ) | portPRIVILEGE_BIT,/* uxPriority - this is the highest priority task in the system.  The task is created in privileged mode to demonstrate accessing the privileged only data. */
234
        xCheckTaskStack,                                                        /* puxStackBuffer - the array to use as the task stack, as declared above. */
235
 
236
        /* xRegions - In this case the xRegions array is used to create MPU regions
237
        for all three of the arrays declared directly above.  Each MPU region is
238
        created with different parameters.  Again, THIS IS JUST TO DEMONSTRATE THE
239
        MPU FUNCTIONALITY, the data is not used by the check tasks primary function
240
        of monitoring the reg test tasks and printing out status information.*/
241
        {
242
                /* Base address                                 Length                                                                  Parameters */
243
        { cReadWriteArray,                              mainREAD_WRITE_ALIGN_SIZE,                              portMPU_REGION_READ_WRITE },
244
        { cReadOnlyArray,                               mainREAD_ONLY_ALIGN_SIZE,                               portMPU_REGION_READ_ONLY },
245
        { cPrivilegedOnlyAccessArray,   mainPRIVILEGED_ONLY_ACCESS_ALIGN_SIZE,  portMPU_REGION_PRIVILEGED_READ_WRITE }
246
        }
247
};
248
 
249
/* Three MPU regions are defined for use by the 'check' task when the task is
250
created.  These are only used to demonstrate the MPU features and are not
251
actually necessary for the check task to fulfill its primary purpose.  Instead
252
the MPU regions are replaced with those defined by xAltRegions prior to the
253
check task receiving any data on the queue or printing any messages to the
254
debug console.  The region configured by xAltRegions just gives the check task
255
access to the debug variables that form part of the Rowley library, and are
256
accessed within the debug_printf() function. */
257
extern unsigned long dbgCntrlWord_mempoll;
258
static const xMemoryRegion xAltRegions[ portNUM_CONFIGURABLE_REGIONS ] =
259
{
260
        /* Base address                                         Length          Parameters */
261
        { ( void * ) &dbgCntrlWord_mempoll,     32,                     portMPU_REGION_READ_WRITE },
262
        { 0,                                                             0,                       0 },
263
        { 0,                                                             0,                       0 }
264
};
265
 
266
 
267
 
268
/*-----------------------------------------------------------*/
269
/* Data used by the 'reg test' tasks. -----------------------*/
270
/*-----------------------------------------------------------*/
271
 
272
/* Define the constants used to allocate the reg test task stacks.  Note that
273
that stack size is defined in words, not bytes. */
274
#define mainREG_TEST_STACK_SIZE_WORDS   128
275
#define mainREG_TEST_STACK_ALIGNMENT    ( mainREG_TEST_STACK_SIZE_WORDS * sizeof( portSTACK_TYPE ) )
276
 
277
/* Declare the stacks that will be used by the reg test tasks.  The kernel will
278
automatically create an MPU region for the stack.  The stack alignment must
279
match its size, so if 128 words are reserved for the stack then it must be
280
aligned to ( 128 * 4 ) bytes. */
281
static portSTACK_TYPE xRegTest1Stack[ mainREG_TEST_STACK_SIZE_WORDS ] mainALIGN_TO( mainREG_TEST_STACK_ALIGNMENT );
282
static portSTACK_TYPE xRegTest2Stack[ mainREG_TEST_STACK_SIZE_WORDS ] mainALIGN_TO( mainREG_TEST_STACK_ALIGNMENT );
283
 
284
/* Fill in a xTaskParameters structure per reg test task to define the tasks. */
285
static const xTaskParameters xRegTest1Parameters =
286
{
287
        prvRegTest1Task,                                                /* pvTaskCode - the function that implements the task. */
288
        ( signed char * ) "RegTest1",                   /* pcName                       */
289
        mainREG_TEST_STACK_SIZE_WORDS,                  /* usStackDepth         */
290
        ( void * ) 0x12345678,                                  /* pvParameters - this value is just to test that the parameter is being passed into the task correctly. */
291
        tskIDLE_PRIORITY | portPRIVILEGE_BIT,   /* uxPriority - note that this task is created with privileges to demonstrate one method of passing a queue handle into the task. */
292
        xRegTest1Stack,                                                 /* puxStackBuffer - the array to use as the task stack, as declared above. */
293
        {                                                                               /* xRegions - this task does not use any non-stack data hence all members are zero. */
294
                /* Base address         Length          Parameters */
295
        { 0x00,                         0x00,                   0x00 },
296
        { 0x00,                         0x00,                   0x00 },
297
        { 0x00,                         0x00,                   0x00 }
298
        }
299
};
300
/*-----------------------------------------------------------*/
301
 
302
static xTaskParameters xRegTest2Parameters =
303
{
304
        prvRegTest2Task,                                /* pvTaskCode - the function that implements the task. */
305
        ( signed char * ) "RegTest2",   /* pcName                       */
306
        mainREG_TEST_STACK_SIZE_WORDS,  /* usStackDepth         */
307
        ( void * ) NULL,                                /* pvParameters - this task uses the parameter to pass in a queue handle, but the queue is not created yet. */
308
        tskIDLE_PRIORITY,                               /* uxPriority           */
309
        xRegTest2Stack,                                 /* puxStackBuffer - the array to use as the task stack, as declared above. */
310
        {                                                               /* xRegions - this task does not use any non-stack data hence all members are zero. */
311
                /* Base address         Length          Parameters */
312
        { 0x00,                         0x00,                   0x00 },
313
        { 0x00,                         0x00,                   0x00 },
314
        { 0x00,                         0x00,                   0x00 }
315
        }
316
};
317
 
318
/*-----------------------------------------------------------*/
319
 
320
int main( void )
321
{
322
        prvSetupHardware();
323
 
324
        /* Create the queue used to pass "I'm alive" messages to the check task. */
325
        xFileScopeCheckQueue = xQueueCreate( 1, sizeof( unsigned long ) );
326
 
327
        /* One check task uses the task parameter to receive the queue handle.
328
        This allows the file scope variable to be accessed from within the task.
329
        The pvParameters member of xRegTest2Parameters can only be set after the
330
        queue has been created so is set here. */
331
        xRegTest2Parameters.pvParameters = xFileScopeCheckQueue;
332
 
333
        /* Create the three test tasks.  Handles to the created tasks are not
334
        required, hence the second parameter is NULL. */
335
        xTaskCreateRestricted( &xRegTest1Parameters, NULL );
336
    xTaskCreateRestricted( &xRegTest2Parameters, NULL );
337
        xTaskCreateRestricted( &xCheckTaskParameters, NULL );
338
 
339
        /* Create the tasks that are created using the original xTaskCreate() API
340
        function. */
341
        xTaskCreate(    prvOldStyleUserModeTask,        /* The function that implements the task. */
342
                                        ( signed char * ) "Task1",      /* Text name for the task. */
343
                                        100,                                            /* Stack depth in words. */
344
                                        NULL,                                           /* Task parameters. */
345
                                        3,                                                      /* Priority and mode (user in this case). */
346
                                        NULL                                            /* Handle. */
347
                                );
348
 
349
        xTaskCreate(    prvOldStylePrivilegedModeTask,  /* The function that implements the task. */
350
                                        ( signed char * ) "Task2",              /* Text name for the task. */
351
                                        100,                                                    /* Stack depth in words. */
352
                                        NULL,                                                   /* Task parameters. */
353
                                        ( 3 | portPRIVILEGE_BIT ),              /* Priority and mode. */
354
                                        NULL                                                    /* Handle. */
355
                                );
356
 
357
        /* Start the scheduler. */
358
        vTaskStartScheduler();
359
 
360
        /* Will only get here if there was insufficient memory to create the idle
361
        task. */
362
        for( ;; );
363
        return 0;
364
}
365
/*-----------------------------------------------------------*/
366
 
367
static void prvCheckTask( void *pvParameters )
368
{
369
/* This task is created in privileged mode so can access the file scope
370
queue variable.  Take a stack copy of this before the task is set into user
371
mode.  Once that task is in user mode the file scope queue variable will no
372
longer be accessible but the stack copy will. */
373
xQueueHandle xQueue = xFileScopeCheckQueue;
374
long lMessage;
375
unsigned long ulStillAliveCounts[ 2 ] = { 0 };
376
const char *pcStatusMessage = "PASS\r\n";
377
 
378
        /* Just to remove compiler warning. */
379
        ( void ) pvParameters;
380
 
381
        /* Print out the amount of free heap space so configTOTAL_HEAP_SIZE can be
382
        tuned.  The heap size is set to be very small in this example and will need
383
        to be increased before many more tasks, queues or semaphores can be
384
        created. */
385
        debug_printf( "There are %d bytes of unused heap space.\r\n", xPortGetFreeHeapSize() );
386
 
387
        /* Demonstrate how the various memory regions can and can't be accessed.
388
        The task privilege level is set down to user mode within this function. */
389
        prvTestMemoryRegions();
390
 
391
        /* Change the memory regions allocated to this task to those initially
392
        set up for demonstration purposes to those actually required by the task. */
393
        vTaskAllocateMPURegions( NULL, xAltRegions );
394
 
395
        /* This loop performs the main function of the task, which is blocking
396
        on a message queue then processing each message as it arrives. */
397
        for( ;; )
398
        {
399
                /* Wait for the next message to arrive. */
400
                xQueueReceive( xQueue, &lMessage, portMAX_DELAY );
401
 
402
                switch( lMessage )
403
                {
404
                        case mainREG_TEST_1_STILL_EXECUTING     :
405
                                        /* Message from task 1, so task 1 must still be executing. */
406
                                        ( ulStillAliveCounts[ 0 ] )++;
407
                                        break;
408
 
409
                        case mainREG_TEST_2_STILL_EXECUTING     :
410
                                        /* Message from task 2, so task 2 must still be executing. */
411
                                        ( ulStillAliveCounts[ 1 ] )++;
412
                                        break;
413
 
414
                        case mainPRINT_SYSTEM_STATUS            :
415
                                        /* Message from tick hook, time to print out the system
416
                                        status.  If messages has stopped arriving from either reg
417
                                        test task then the status must be set to fail. */
418
                                        if( ( ulStillAliveCounts[ 0 ] == 0 ) || ( ulStillAliveCounts[ 1 ] == 0 )  )
419
                                        {
420
                                                /* One or both of the test tasks are no longer sending
421
                                                'still alive' messages. */
422
                                                pcStatusMessage = "FAIL\r\n";
423
                                        }
424
 
425
                                        /* Print a pass/fail message to the terminal.  This will be
426
                                        visible in the CrossWorks IDE. */
427
                                        debug_printf( pcStatusMessage );
428
 
429
                                        /* Reset the count of 'still alive' messages. */
430
                                        memset( ulStillAliveCounts, 0x00, sizeof( ulStillAliveCounts ) );
431
                                        break;
432
 
433
                default :
434
                                        /* Something unexpected happened.  Delete this task so the
435
                                        error is apparent (no output will be displayed). */
436
                                        prvDeleteMe();
437
                                        break;
438
                }
439
        }
440
}
441
/*-----------------------------------------------------------*/
442
 
443
static void prvTestMemoryRegions( void )
444
{
445
long l;
446
char cTemp;
447
 
448
        /* The check task (from which this function is called) is created in the
449
        Privileged mode.  The privileged array can be both read from and written
450
        to while this task is privileged. */
451
        cPrivilegedOnlyAccessArray[ 0 ] = 'a';
452
        if( cPrivilegedOnlyAccessArray[ 0 ] != 'a' )
453
        {
454
                /* Something unexpected happened.  Delete this task so the error is
455
                apparent (no output will be displayed). */
456
                prvDeleteMe();
457
        }
458
 
459
        /* Writing off the end of the RAM allocated to this task will *NOT* cause a
460
        protection fault because the task is still executing in a privileged mode.
461
        Uncomment the following to test. */
462
        /*cPrivilegedOnlyAccessArray[ mainPRIVILEGED_ONLY_ACCESS_ALIGN_SIZE ] = 'a';*/
463
 
464
        /* Now set the task into user mode. */
465
        portSWITCH_TO_USER_MODE();
466
 
467
        /* Accessing the privileged only array will now cause a fault.  Uncomment
468
        the following line to test. */
469
        /*cPrivilegedOnlyAccessArray[ 0 ] = 'a';*/
470
 
471
        /* The read/write array can still be successfully read and written. */
472
        for( l = 0; l < mainREAD_WRITE_ALIGN_SIZE; l++ )
473
        {
474
                cReadWriteArray[ l ] = 'a';
475
                if( cReadWriteArray[ l ] != 'a' )
476
                {
477
                        /* Something unexpected happened.  Delete this task so the error is
478
                        apparent (no output will be displayed). */
479
                        prvDeleteMe();
480
                }
481
        }
482
 
483
        /* But attempting to read or write off the end of the RAM allocated to this
484
        task will cause a fault.  Uncomment either of the following two lines to
485
        test. */
486
        /* cReadWriteArray[ 0 ] = cReadWriteArray[ -1 ]; */
487
        /* cReadWriteArray[ mainREAD_WRITE_ALIGN_SIZE ] = 0x00; */
488
 
489
        /* The read only array can be successfully read... */
490
        for( l = 0; l < mainREAD_ONLY_ALIGN_SIZE; l++ )
491
        {
492
                cTemp = cReadOnlyArray[ l ];
493
        }
494
 
495
        /* ...but cannot be written.  Uncomment the following line to test. */
496
        /* cReadOnlyArray[ 0 ] = 'a'; */
497
 
498
        /* Writing to the first and last locations in the stack array should not
499
        cause a protection fault.  Note that doing this will cause the kernel to
500
        detect a stack overflow if configCHECK_FOR_STACK_OVERFLOW is greater than
501
        1. */
502
    xCheckTaskStack[ 0 ] = 0;
503
    xCheckTaskStack[ mainCHECK_TASK_STACK_SIZE_WORDS - 1 ] = 0;
504
 
505
        /* Writing off either end of the stack array should cause a protection
506
        fault, uncomment either of the following two lines to test. */
507
        /* xCheckTaskStack[ -1 ] = 0; */
508
    /* xCheckTaskStack[ mainCHECK_TASK_STACK_SIZE_WORDS ] = 0; */
509
}
510
/*-----------------------------------------------------------*/
511
 
512
static void prvRegTest1Task( void *pvParameters )
513
{
514
/* This task is created in privileged mode so can access the file scope
515
queue variable.  Take a stack copy of this before the task is set into user
516
mode.  Once this task is in user mode the file scope queue variable will no
517
longer be accessible but the stack copy will. */
518
xQueueHandle xQueue = xFileScopeCheckQueue;
519
 
520
        /* Now the queue handle has been obtained the task can switch to user
521
        mode.  This is just one method of passing a handle into a protected
522
        task, the other reg test task uses the task parameter instead. */
523
    portSWITCH_TO_USER_MODE();
524
 
525
        /* First check that the parameter value is as expected. */
526
        if( pvParameters != ( void * ) 0x12345678 )
527
        {
528
                /* Error detected.  Delete the task so it stops communicating with
529
                the check task. */
530
                prvDeleteMe();
531
        }
532
 
533
 
534
        for( ;; )
535
        {
536
                /* This task tests the kernel context switch mechanism by reading and
537
                writing directly to registers - which requires the test to be written
538
                in assembly code. */
539
                __asm volatile
540
                (
541
                        "               MOV     R4, #104                        \n" /* Set registers to a known value.  R0 to R1 are done in the loop below. */
542
                        "               MOV     R5, #105                        \n"
543
                        "               MOV     R6, #106                        \n"
544
                        "               MOV     R8, #108                        \n"
545
                        "               MOV     R9, #109                        \n"
546
                        "               MOV     R10, #110                       \n"
547
                        "               MOV     R11, #111                       \n"
548
                        "reg1loop:                                              \n"
549
                        "               MOV     R0, #100                        \n" /* Set the scratch registers to known values - done inside the loop as they get clobbered. */
550
                        "               MOV     R1, #101                        \n"
551
                        "               MOV     R2, #102                        \n"
552
                        "               MOV R3, #103                    \n"
553
                        "               MOV     R12, #112                       \n"
554
                        "               SVC #1                                  \n" /* Yield just to increase test coverage. */
555
                        "               CMP     R0, #100                        \n" /* Check all the registers still contain their expected values. */
556
                        "               BNE     prvDeleteMe                     \n" /* Value was not as expected, delete the task so it stops communicating with the check task. */
557
                        "               CMP     R1, #101                        \n"
558
                        "               BNE     prvDeleteMe                     \n"
559
                        "               CMP     R2, #102                        \n"
560
                        "               BNE     prvDeleteMe                     \n"
561
                        "               CMP R3, #103                    \n"
562
                        "               BNE     prvDeleteMe                     \n"
563
                        "               CMP     R4, #104                        \n"
564
                        "               BNE     prvDeleteMe                     \n"
565
                        "               CMP     R5, #105                        \n"
566
                        "               BNE     prvDeleteMe                     \n"
567
                        "               CMP     R6, #106                        \n"
568
                        "               BNE     prvDeleteMe                     \n"
569
                        "               CMP     R8, #108                        \n"
570
                        "               BNE     prvDeleteMe                     \n"
571
                        "               CMP     R9, #109                        \n"
572
                        "               BNE     prvDeleteMe                     \n"
573
                        "               CMP     R10, #110                       \n"
574
                        "               BNE     prvDeleteMe                     \n"
575
                        "               CMP     R11, #111                       \n"
576
                        "               BNE     prvDeleteMe                     \n"
577
                        "               CMP     R12, #112                       \n"
578
                        "               BNE     prvDeleteMe                     \n"
579
                        :::"r0", "r1", "r2", "r3", "r4", "r5", "r6", "r8", "r9", "r10", "r11", "r12"
580
                );
581
 
582
                /* Send mainREG_TEST_1_STILL_EXECUTING to the check task to indicate that this
583
                task is still functioning. */
584
                prvSendImAlive( xQueue, mainREG_TEST_1_STILL_EXECUTING );
585
 
586
                /* Go back to check all the register values again. */
587
                __asm volatile( "               B reg1loop      " );
588
        }
589
}
590
/*-----------------------------------------------------------*/
591
 
592
static void prvRegTest2Task( void *pvParameters )
593
{
594
/* The queue handle is passed in as the task parameter.  This is one method of
595
passing data into a protected task, the other reg test task uses a different
596
method. */
597
xQueueHandle xQueue = ( xQueueHandle ) pvParameters;
598
 
599
        for( ;; )
600
        {
601
                /* This task tests the kernel context switch mechanism by reading and
602
                writing directly to registers - which requires the test to be written
603
                in assembly code. */
604
                __asm volatile
605
                (
606
                        "               MOV     R4, #4                          \n" /* Set registers to a known value.  R0 to R1 are done in the loop below. */
607
                        "               MOV     R5, #5                          \n"
608
                        "               MOV     R6, #6                          \n"
609
                        "               MOV     R8, #8                          \n" /* Frame pointer is omitted as it must not be changed. */
610
                        "               MOV     R9, #9                          \n"
611
                        "               MOV     R10, 10                         \n"
612
                        "               MOV     R11, #11                        \n"
613
                        "reg2loop:                                              \n"
614
                        "               MOV     R0, #13                         \n" /* Set the scratch registers to known values - done inside the loop as they get clobbered. */
615
                        "               MOV     R1, #1                          \n"
616
                        "               MOV     R2, #2                          \n"
617
                        "               MOV R3, #3                              \n"
618
                        "               MOV     R12, #12                        \n"
619
                        "               CMP     R0, #13                         \n" /* Check all the registers still contain their expected values. */
620
                        "               BNE     prvDeleteMe                     \n" /* Value was not as expected, delete the task so it stops communicating with the check task */
621
                        "               CMP     R1, #1                          \n"
622
                        "               BNE     prvDeleteMe                     \n"
623
                        "               CMP     R2, #2                          \n"
624
                        "               BNE     prvDeleteMe                     \n"
625
                        "               CMP R3, #3                              \n"
626
                        "               BNE     prvDeleteMe                     \n"
627
                        "               CMP     R4, #4                          \n"
628
                        "               BNE     prvDeleteMe                     \n"
629
                        "               CMP     R5, #5                          \n"
630
                        "               BNE     prvDeleteMe                     \n"
631
                        "               CMP     R6, #6                          \n"
632
                        "               BNE     prvDeleteMe                     \n"
633
                        "               CMP     R8, #8                          \n"
634
                        "               BNE     prvDeleteMe                     \n"
635
                        "               CMP     R9, #9                          \n"
636
                        "               BNE     prvDeleteMe                     \n"
637
                        "               CMP     R10, #10                        \n"
638
                        "               BNE     prvDeleteMe                     \n"
639
                        "               CMP     R11, #11                        \n"
640
                        "               BNE     prvDeleteMe                     \n"
641
                        "               CMP     R12, #12                        \n"
642
                        "               BNE     prvDeleteMe                     \n"
643
            :::"r0", "r1", "r2", "r3", "r4", "r5", "r6", "r8", "r9", "r10", "r11", "r12"
644
                );
645
 
646
                /* Send mainREG_TEST_2_STILL_EXECUTING to the check task to indicate that this
647
                task is still functioning. */
648
                prvSendImAlive( xQueue, mainREG_TEST_2_STILL_EXECUTING );
649
 
650
                /* Go back to check all the register values again. */
651
                __asm volatile( "               B reg2loop      " );
652
        }
653
}
654
/*-----------------------------------------------------------*/
655
 
656
void vApplicationIdleHook( void )
657
{
658
extern unsigned long __SRAM_segment_end__[];
659
extern unsigned long __privileged_data_start__[];
660
extern unsigned long __privileged_data_end__[];
661
extern unsigned long __FLASH_segment_start__[];
662
extern unsigned long __FLASH_segment_end__[];
663
volatile unsigned long *pul;
664
volatile unsigned long ulReadData;
665
 
666
        /* The idle task, and therefore this function, run in Supervisor mode and
667
        can therefore access all memory.  Try reading from corners of flash and
668
        RAM to ensure a memory fault does not occur.
669
 
670
        Start with the edges of the privileged data area. */
671
        pul = __privileged_data_start__;
672
        ulReadData = *pul;
673
        pul = __privileged_data_end__ - 1;
674
        ulReadData = *pul;
675
 
676
        /* Next the standard SRAM area. */
677
        pul = __SRAM_segment_end__ - 1;
678
        ulReadData = *pul;
679
 
680
        /* And the standard Flash area - the start of which is marked for
681
        privileged access only. */
682
        pul = __FLASH_segment_start__;
683
        ulReadData = *pul;
684
        pul = __FLASH_segment_end__ - 1;
685
        ulReadData = *pul;
686
 
687
        /* Reading off the end of Flash or SRAM space should cause a fault.
688
        Uncomment one of the following two pairs of lines to test. */
689
 
690
        /* pul = __FLASH_segment_end__ + 4;
691
        ulReadData = *pul; */
692
 
693
        /* pul = __SRAM_segment_end__ + 1;
694
        ulReadData = *pul; */
695
}
696
/*-----------------------------------------------------------*/
697
 
698
static void prvOldStyleUserModeTask( void *pvParameters )
699
{
700
extern unsigned long __privileged_data_start__[];
701
extern unsigned long __privileged_data_end__[];
702
extern unsigned long __SRAM_segment_end__[];
703
extern unsigned long __privileged_functions_end__[];
704
extern unsigned long __FLASH_segment_start__[];
705
extern unsigned long __FLASH_segment_end__[];
706
const volatile unsigned long *pulStandardPeripheralRegister = ( volatile unsigned long * ) 0x400FC0C4; /* PCONP */
707
volatile unsigned long *pul;
708
volatile unsigned long ulReadData;
709
 
710
/* The following lines are commented out to prevent the unused variable
711
compiler warnings when the tests that use the variable are also commented out.
712
extern unsigned long __privileged_functions_start__[];
713
const volatile unsigned long *pulSystemPeripheralRegister = ( volatile unsigned long * ) 0xe000e014; */
714
 
715
        ( void ) pvParameters;
716
 
717
        /* This task is created in User mode using the original xTaskCreate() API
718
        function.  It should have access to all Flash and RAM except that marked
719
        as Privileged access only.  Reading from the start and end of the non-
720
        privileged RAM should not cause a problem (the privileged RAM is the first
721
        block at the bottom of the RAM memory). */
722
        pul = __privileged_data_end__ + 1;
723
        ulReadData = *pul;
724
        pul = __SRAM_segment_end__ - 1;
725
        ulReadData = *pul;
726
 
727
        /* Likewise reading from the start and end of the non-privileged Flash
728
        should not be a problem (the privileged Flash is the first block at the
729
        bottom of the Flash memory). */
730
        pul = __privileged_functions_end__ + 1;
731
        ulReadData = *pul;
732
        pul = __FLASH_segment_end__ - 1;
733
        ulReadData = *pul;
734
 
735
        /* Standard peripherals are accessible. */
736
        ulReadData = *pulStandardPeripheralRegister;
737
 
738
        /* System peripherals are not accessible.  Uncomment the following line
739
        to test.  Also uncomment the declaration of pulSystemPeripheralRegister
740
        at the top of this function. */
741
    /* ulReadData = *pulSystemPeripheralRegister; */
742
 
743
        /* Reading from anywhere inside the privileged Flash or RAM should cause a
744
        fault.  This can be tested by uncommenting any of the following pairs of
745
        lines.  Also uncomment the declaration of __privileged_functions_start__
746
        at the top of this function. */
747
 
748
        /* pul = __privileged_functions_start__;
749
        ulReadData = *pul; */
750
 
751
        /* pul = __privileged_functions_end__ - 1;
752
        ulReadData = *pul; */
753
 
754
        /* pul = __privileged_data_start__;
755
        ulReadData = *pul; */
756
 
757
        /* pul = __privileged_data_end__ - 1;
758
        ulReadData = *pul; */
759
 
760
        /* Must not just run off the end of a task function, so delete this task.
761
        Note that because this task was created using xTaskCreate() the stack was
762
        allocated dynamically and I have not included any code to free it again. */
763
        vTaskDelete( NULL );
764
}
765
/*-----------------------------------------------------------*/
766
 
767
static void prvOldStylePrivilegedModeTask( void *pvParameters )
768
{
769
extern unsigned long __privileged_data_start__[];
770
extern unsigned long __privileged_data_end__[];
771
extern unsigned long __SRAM_segment_end__[];
772
extern unsigned long __privileged_functions_start__[];
773
extern unsigned long __privileged_functions_end__[];
774
extern unsigned long __FLASH_segment_start__[];
775
extern unsigned long __FLASH_segment_end__[];
776
volatile unsigned long *pul;
777
volatile unsigned long ulReadData;
778
const volatile unsigned long *pulSystemPeripheralRegister = ( volatile unsigned long * ) 0xe000e014; /* Systick */
779
const volatile unsigned long *pulStandardPeripheralRegister = ( volatile unsigned long * ) 0x400FC0C4; /* PCONP */
780
 
781
        ( void ) pvParameters;
782
 
783
        /* This task is created in Privileged mode using the original xTaskCreate()
784
        API     function.  It should have access to all Flash and RAM including that
785
        marked as Privileged access only.  So reading from the start and end of the
786
        non-privileged RAM should not cause a problem (the privileged RAM is the
787
        first block at the bottom of the RAM memory). */
788
        pul = __privileged_data_end__ + 1;
789
        ulReadData = *pul;
790
        pul = __SRAM_segment_end__ - 1;
791
        ulReadData = *pul;
792
 
793
        /* Likewise reading from the start and end of the non-privileged Flash
794
        should not be a problem (the privileged Flash is the first block at the
795
        bottom of the Flash memory). */
796
        pul = __privileged_functions_end__ + 1;
797
        ulReadData = *pul;
798
        pul = __FLASH_segment_end__ - 1;
799
        ulReadData = *pul;
800
 
801
        /* Reading from anywhere inside the privileged Flash or RAM should also
802
        not be a problem. */
803
        pul = __privileged_functions_start__;
804
        ulReadData = *pul;
805
        pul = __privileged_functions_end__ - 1;
806
        ulReadData = *pul;
807
        pul = __privileged_data_start__;
808
        ulReadData = *pul;
809
        pul = __privileged_data_end__ - 1;
810
        ulReadData = *pul;
811
 
812
        /* Finally, accessing both System and normal peripherals should both be
813
        possible. */
814
    ulReadData = *pulSystemPeripheralRegister;
815
        ulReadData = *pulStandardPeripheralRegister;
816
 
817
        /* Must not just run off the end of a task function, so delete this task.
818
        Note that because this task was created using xTaskCreate() the stack was
819
        allocated dynamically and I have not included any code to free it again. */
820
        vTaskDelete( NULL );
821
}
822
/*-----------------------------------------------------------*/
823
 
824
static void prvDeleteMe( void )
825
{
826
        vTaskDelete( NULL );
827
}
828
/*-----------------------------------------------------------*/
829
 
830
static void prvSendImAlive( xQueueHandle xHandle, unsigned long ulTaskNumber )
831
{
832
        if( xHandle != NULL )
833
        {
834
                xQueueSend( xHandle, &ulTaskNumber, mainDONT_BLOCK );
835
        }
836
}
837
/*-----------------------------------------------------------*/
838
 
839
static void prvSetupHardware( void )
840
{
841
        /* If running on Rev A2 silicon, turn the LDO voltage up to 2.75V.  This is
842
        a workaround to allow the PLL to operate reliably. */
843
        if( DEVICE_IS_REVA2 )
844
        {
845
                SysCtlLDOSet( SYSCTL_LDO_2_75V );
846
        }
847
 
848
        /* Set the clocking to run from the PLL at 50 MHz */
849
        SysCtlClockSet( SYSCTL_SYSDIV_4 | SYSCTL_USE_PLL | SYSCTL_OSC_MAIN | SYSCTL_XTAL_8MHZ );
850
}
851
/*-----------------------------------------------------------*/
852
 
853
void vApplicationTickHook( void )
854
{
855
static unsigned long ulCallCount;
856
const unsigned long ulCallsBetweenSends = 5000 / portTICK_RATE_MS;
857
const unsigned long ulMessage = mainPRINT_SYSTEM_STATUS;
858
portBASE_TYPE xDummy;
859
 
860
        /* If configUSE_TICK_HOOK is set to 1 then this function will get called
861
        from each RTOS tick.  It is called from the tick interrupt and therefore
862
        will be executing in the privileged state. */
863
 
864
        ulCallCount++;
865
 
866
        /* Is it time to print out the pass/fail message again? */
867
        if( ulCallCount >= ulCallsBetweenSends )
868
        {
869
                ulCallCount = 0;
870
 
871
                /* Send a message to the check task to command it to check that all
872
                the tasks are still running then print out the status.
873
 
874
                This is running in an ISR so has to use the "FromISR" version of
875
                xQueueSend().  Because it is in an ISR it is running with privileges
876
                so can access xFileScopeCheckQueue directly. */
877
                xQueueSendFromISR( xFileScopeCheckQueue, &ulMessage, &xDummy );
878
        }
879
}
880
/*-----------------------------------------------------------*/
881
 
882
void vApplicationStackOverflowHook( xTaskHandle *pxTask, signed char *pcTaskName )
883
{
884
        /* If configCHECK_FOR_STACK_OVERFLOW is set to either 1 or 2 then this
885
        function will automatically get called if a task overflows its stack. */
886
        ( void ) pxTask;
887
        ( void ) pcTaskName;
888
        for( ;; );
889
}
890
/*-----------------------------------------------------------*/
891
 
892
void vApplicationMallocFailedHook( void )
893
{
894
        /* If configUSE_MALLOC_FAILED_HOOK is set to 1 then this function will
895
        be called automatically if a call to pvPortMalloc() fails.  pvPortMalloc()
896
        is called automatically when a task, queue or semaphore is created. */
897
        for( ;; );
898
}
899
/*-----------------------------------------------------------*/
900
 
901
/* Just to keep the linker happy. */
902
void __error__( char *pcFilename, unsigned long ulLine )
903
{
904
        ( void ) pcFilename;
905
        ( void ) ulLine;
906
        for( ;; );
907
}
908
/*-----------------------------------------------------------*/
909
 
910
/* Just to keep the linker happy. */
911
int uipprintf( const char *fmt, ... )
912
{
913
        ( void ) fmt;
914
        return( 0 );
915
}
916
/*-----------------------------------------------------------*/
917
 
918
void hard_fault_handler(unsigned int * hardfault_args)
919
{
920
volatile unsigned int stacked_r0;
921
volatile unsigned int stacked_r1;
922
volatile unsigned int stacked_r2;
923
volatile unsigned int stacked_r3;
924
volatile unsigned int stacked_r12;
925
volatile unsigned int stacked_lr;
926
volatile unsigned int stacked_pc;
927
volatile unsigned int stacked_psr;
928
 
929
        stacked_r0 = ((unsigned long) hardfault_args[0]);
930
        stacked_r1 = ((unsigned long) hardfault_args[1]);
931
        stacked_r2 = ((unsigned long) hardfault_args[2]);
932
        stacked_r3 = ((unsigned long) hardfault_args[3]);
933
 
934
        stacked_r12 = ((unsigned long) hardfault_args[4]);
935
        stacked_lr = ((unsigned long) hardfault_args[5]);
936
        stacked_pc = ((unsigned long) hardfault_args[6]);
937
        stacked_psr = ((unsigned long) hardfault_args[7]);
938
 
939
        /* Inspect stacked_pc to locate the offending instruction. */
940
        for( ;; );
941
}
942
/*-----------------------------------------------------------*/
943
 
944
void Fault_ISR( void ) __attribute__((naked));
945
void Fault_ISR( void )
946
{
947
        __asm volatile
948
        (
949
                " tst lr, #4                                                                            \n"
950
                " ite eq                                                                                        \n"
951
                " mrseq r0, msp                                                                         \n"
952
                " mrsne r0, psp                                                                         \n"
953
                " ldr r1, [r0, #24]                                                                     \n"
954
                " ldr r2, handler_address_const                                         \n"
955
                " bx r2                                                                                         \n"
956
                " handler_address_const: .word hard_fault_handler       \n"
957
        );
958
}
959
/*-----------------------------------------------------------*/
960
 
961
void MPU_Fault_ISR( void ) __attribute__((naked));
962
void MPU_Fault_ISR( void )
963
{
964
        __asm volatile
965
        (
966
                " tst lr, #4                                                                            \n"
967
                " ite eq                                                                                        \n"
968
                " mrseq r0, msp                                                                         \n"
969
                " mrsne r0, psp                                                                         \n"
970
                " ldr r1, [r0, #24]                                                                     \n"
971
                " ldr r2, handler_address_const                                         \n"
972
                " bx r2                                                                                         \n"
973
                " handler2_address_const: .word hard_fault_handler      \n"
974
        );
975
}
976
/*-----------------------------------------------------------*/

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