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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [tests/] [itrontests/] [itronsem01/] [init.c] - Rev 590
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/* Init * * This routine is the initialization task for this test program. * It is called from init_exec and has the responsibility for creating * and starting the tasks that make up the test. If the time of day * clock is required for the test, it should also be set to a known * value by this function. * * Input parameters: NONE * * Output parameters: NONE * * COPYRIGHT (c) 1989-1999. * On-Line Applications Research Corporation (OAR). * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.OARcorp.com/rtems/license.html. * * $Id: init.c,v 1.2 2001-09-27 12:02:10 chris Exp $ */ #define TEST_INIT #include "system.h" #include <stdio.h> /* * The following is hopefully temporary. */ #include <time.h> #define put_time(_s) \ do { \ time_t a_time_t; \ a_time_t = time( 0 ); \ printf( "%s%s", _s, ctime( &a_time_t ) ); \ } while(0) void ITRON_Init( void ) { ER status; T_CSEM pk_csem; T_RSEM pk_rsem; printf( "\n\n*** ITRONSEM01 -- ITRON SEMAPHORE TEST ***\n" ); /* * Exercise cre_sem - this code seems to exercise every path. */ puts( "Init - cre_sem - NULL pk_sem returns E_PAR" ); status = cre_sem( 1, NULL ); assert( status == E_PAR ); puts( "Init - cre_sem - isemcnt > maxsem returns E_PAR" ); pk_csem.sematr = 0; pk_csem.isemcnt = 3; pk_csem.maxsem = 2; status = cre_sem( 1, &pk_csem ); assert( status == E_PAR ); puts( "Init - cre_sem - maxsem of 0 returns E_PAR" ); pk_csem.isemcnt = 0; pk_csem.maxsem = 0; status = cre_sem( 1, &pk_csem ); assert( status == E_PAR ); /* * Now run through all the bad ID errors */ pk_csem.isemcnt = 2; pk_csem.maxsem = 3; puts( "Init - cre_sem - bad id (less than -4) - E_OACV" ); status = cre_sem( -5, &pk_csem ); assert( status == E_OACV ); puts( "Init - cre_sem - bad id (between 0 and -4) - E_ID" ); status = cre_sem( -4, &pk_csem ); assert( status == E_ID ); puts( "Init - cre_sem - bad id (0) - E_ID" ); status = cre_sem( 0, &pk_csem ); assert( status == E_ID ); puts( "Init - cre_sem - bad id (too great) - E_ID" ); status = cre_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1, &pk_csem ); assert( status == E_ID ); puts( "Init - cre_sem - create semaphore 1 TA_TFIFO - E_OK" ); pk_csem.isemcnt = 2; pk_csem.maxsem = 3; pk_csem.sematr = TA_TFIFO; status = cre_sem( 1, &pk_csem ); assert( status == E_OK ); puts( "Init - cre_sem - create semaphore 1 again - E_OBJ" ); status = cre_sem( 1, &pk_csem ); assert( status == E_OBJ ); puts( "Init - cre_sem - create semaphore 2 TA_TPRI - E_OK" ); pk_csem.isemcnt = 2; pk_csem.maxsem = 3; pk_csem.sematr = TA_TPRI; status = cre_sem( 2, &pk_csem ); assert( status == E_OK ); /* * Generate all the bad id errors for del_sem */ puts( "Init - del_sem - bad id (less than -4) - E_OACV" ); status = del_sem( -5 ); assert( status == E_OACV ); puts( "Init - del_sem - bad id (between 0 and -4) - E_ID" ); status = del_sem( -4 ); assert( status == E_ID ); puts( "Init - del_sem - bad id (0) - E_ID" ); status = del_sem( 0 ); assert( status == E_ID ); puts( "Init - del_sem - bad id (too great) - E_ID" ); status = del_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1 ); assert( status == E_ID ); /* * Generate all the bad id errors for sig_sem */ puts( "Init - sig_sem - bad id (less than -4) - E_OACV" ); status = sig_sem( -5 ); assert( status == E_OACV ); puts( "Init - sig_sem - bad id (between 0 and -4) - E_ID" ); status = sig_sem( -4 ); assert( status == E_ID ); puts( "Init - sig_sem - bad id (0) - E_ID" ); status = sig_sem( 0 ); assert( status == E_ID ); puts( "Init - sig_sem - bad id (too great) - E_ID" ); status = wai_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1 ); assert( status == E_ID ); /* * Generate all the bad id errors for preq_sem */ puts( "Init - preq_sem - bad id (less than -4) - E_OACV" ); status = preq_sem( -5 ); assert( status == E_OACV ); puts( "Init - preq_sem - bad id (between 0 and -4) - E_ID" ); status = preq_sem( -4 ); assert( status == E_ID ); puts( "Init - preq_sem - bad id (0) - E_ID" ); status = preq_sem( 0 ); assert( status == E_ID ); puts( "Init - preq_sem - bad id (too great) - E_ID" ); status = preq_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1 ); assert( status == E_ID ); /* * Generate all the bad id errors for wai_sem */ puts( "Init - wai_sem - bad id (less than -4) - E_OACV" ); status = wai_sem( -5 ); assert( status == E_OACV ); puts( "Init - wai_sem - bad id (between 0 and -4) - E_ID" ); status = wai_sem( -4 ); assert( status == E_ID ); puts( "Init - wai_sem - bad id (0) - E_ID" ); status = wai_sem( 0 ); assert( status == E_ID ); puts( "Init - wai_sem - bad id (too great) - E_ID" ); status = wai_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1 ); assert( status == E_ID ); /* * Generate all the bad id errors for twai_sem */ puts( "Init - twai_sem - bad id (less than -4) - E_OACV" ); status = twai_sem( -5, 1000 ); assert( status == E_OACV ); puts( "Init - twai_sem - bad id (between 0 and -4) - E_ID" ); status = twai_sem( -4, 1000 ); assert( status == E_ID ); puts( "Init - twai_sem - bad id (0) - E_ID" ); status = twai_sem( 0, 1000 ); assert( status == E_ID ); puts( "Init - twai_sem - bad id (too great) - E_ID" ); status = twai_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1, 1000 ); assert( status == E_ID ); /* * Generate all the bad id errors for ref_sem */ puts( "Init - ref_sem - bad id (less than -4) - E_OACV" ); status = ref_sem( -5, &pk_rsem ); assert( status == E_OACV ); puts( "Init - ref_sem - bad id (between 0 and -4) - E_ID" ); status = ref_sem( -4, &pk_rsem ); assert( status == E_ID ); puts( "Init - ref_sem - bad id (0) - E_ID" ); status = ref_sem( 0, &pk_rsem ); assert( status == E_ID ); puts( "Init - ref_sem - bad id (too great) - E_ID" ); status = ref_sem( CONFIGURE_MAXIMUM_ITRON_SEMAPHORES + 1, &pk_rsem ); assert( status == E_ID ); /* * Exercise preq_sem (and sig_sem a little) */ puts( "Init - preq_sem - semaphore 1 available (count --> 1) - E_OK" ); status = preq_sem( 1 ); assert( status == E_OK ); puts( "Init - preq_sem - semaphore 1 available (count --> 0) - E_OK" ); status = preq_sem( 1 ); assert( status == E_OK ); puts( "Init - preq_sem - semaphore 1 unavailable - E_TMOUT" ); status = preq_sem( 1 ); assert( status == E_TMOUT ); puts( "Init - sig_sem - semaphore 1 (count --> 1) - E_OK" ); status = sig_sem( 1 ); assert( status == E_OK ); puts("Init - twai_sem(TMO_POL) - semaphore 1 available (count --> 0) - E_OK"); status = twai_sem( 1, TMO_POL ); assert( status == E_OK ); puts( "Init - twai_sem(TMO_POL) - semaphore 1 available - E_TMOUT" ); status = twai_sem( 1, TMO_POL ); assert( status == E_TMOUT ); /* * Exercise twai_sem */ puts( "Init - twai_sem - semaphore 1 unavailable - 1 second E_TMOUT" ); put_time( "Init - starting to block at "); status = twai_sem( 1, 1000 ); assert( status == E_TMOUT ); put_time( "Init - timed out at "); puts( "Init - twai_sem - semaphore 1 unavailable - timeout completed" ); /* * Now let's test exceed the maximum count of semaphore 1 */ puts( "Init - sig_sem - semaphore 1 (count --> 1) - E_OK" ); status = sig_sem( 1 ); assert( status == E_OK ); puts( "Init - sig_sem - semaphore 1 (count --> 2) - E_OK" ); status = sig_sem( 1 ); assert( status == E_OK ); puts( "Init - sig_sem - semaphore 1 (count --> 3) - E_OK" ); status = sig_sem( 1 ); assert( status == E_OK ); puts( "Init - sig_sem - semaphore 1 (count > maximum) - E_QOVR" ); status = sig_sem( 1 ); assert( status == E_OK ); /* * Exercise ref_sem */ puts( "Init - ref_sem - NULL pk_sem returns E_PAR" ); status = ref_sem( 1, NULL ); assert( status == E_PAR ); puts( "Init - ref_sem - semaphore 1 - E_OK" ); status = ref_sem( 1, &pk_rsem ); assert( status == E_OK ); printf( "Init - semaphore 1 count = %d\n", pk_rsem.semcnt ); printf( "Init - semaphore 1 waiting tasks = %d\n", pk_rsem.wtsk ); puts( "Init - preq_sem - semaphore 1 (count --> 2) - E_OK" ); status = preq_sem( 1 ); assert( status == E_OK ); puts( "Init - ref_sem - semaphore 1 - E_OK" ); status = ref_sem( 1, &pk_rsem ); assert( status == E_OK ); printf( "Init - semaphore 1 count = %d\n", pk_rsem.semcnt ); printf( "Init - semaphore 1 waiting tasks = %d\n", pk_rsem.wtsk ); /* * Exercise del_sem */ /* XXX really want another task blocking on the semaphore XXX */ puts( "Init - del_sem - semaphore 1 deleted - E_OK" ); status = del_sem( 1 ); assert( status == E_OK ); puts( "Init - XXX need other tasks to complete the test XXX" ); puts( "Init - dly_tsk - 1 second to let other task run" ); status = dly_tsk( 1000 ); assert( status == E_OK ); printf( "*** END OF ITRONSEM01 -- ITRON SEMAPHORE TEST ***\n" ); exit( 0 ); }
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