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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [compat/] [uitron/] [v2_0/] [tests/] [test4.c] - Blame information for rev 174

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//===========================================================================
//
//      test4.c
//
//      uITRON "C" test program four
//
//===========================================================================
//####ECOSGPLCOPYRIGHTBEGIN####
// -------------------------------------------
// This file is part of eCos, the Embedded Configurable Operating System.
// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
//
// eCos is free software; you can redistribute it and/or modify it under
// the terms of the GNU General Public License as published by the Free
// Software Foundation; either version 2 or (at your option) any later version.
//
// eCos 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 along
// with eCos; if not, write to the Free Software Foundation, Inc.,
// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
//
// As a special exception, if other files instantiate templates or use macros
// or inline functions from this file, or you compile this file and link it
// with other works to produce a work based on this file, this file does not
// by itself cause the resulting work to be covered by the GNU General Public
// License. However the source code for this file must still be made available
// in accordance with section (3) of the GNU General Public License.
//
// This exception does not invalidate any other reasons why a work based on
// this file might be covered by the GNU General Public License.
//
// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
// at http://sources.redhat.com/ecos/ecos-license/
// -------------------------------------------
//####ECOSGPLCOPYRIGHTEND####
//===========================================================================
//#####DESCRIPTIONBEGIN####
//
// Author(s):   dsm
// Contributors:        dsm
// Date:        1998-06-12
// Purpose:     uITRON API testing
// Description: 
//
//####DESCRIPTIONEND####
//
//===========================================================================
 
#include <pkgconf/uitron.h>             // uITRON setup CYGNUM_UITRON_SEMAS
                                        // CYGPKG_UITRON et al
#include <cyg/infra/testcase.h>         // testing infrastructure
 
#ifdef CYGPKG_UITRON                    // we DO want the uITRON package
 
#ifdef CYGSEM_KERNEL_SCHED_MLQUEUE      // we DO want prioritized threads
 
#ifdef CYGFUN_KERNEL_THREADS_TIMER      // we DO want timout-able calls
 
#ifdef CYGVAR_KERNEL_COUNTERS_CLOCK     // we DO want the realtime clock
 
// we're OK if it's C++ or neither of those two is defined:
#if defined( __cplusplus ) || \
    (!defined( CYGIMP_UITRON_INLINE_FUNCS ) && \
     !defined( CYGIMP_UITRON_CPP_OUTLINE_FUNCS) )
 
// =================== TEST CONFIGURATION ===================
#if \
    /* test configuration for enough tasks */                      \
    (CYGNUM_UITRON_TASKS >= 4)                                  && \
    (CYGNUM_UITRON_TASKS < 90)                                  && \
    (CYGNUM_UITRON_START_TASKS == 1)                            && \
    ( !defined(CYGPKG_UITRON_TASKS_CREATE_DELETE) ||               \
      CYGNUM_UITRON_TASKS_INITIALLY >= 4             )          && \
                                                                   \
    /* test configuration for enough cyclic handlers */            \
    defined( CYGPKG_UITRON_CYCLICS )                            && \
    (CYGNUM_UITRON_CYCLICS >= 3)                                && \
    (CYGNUM_UITRON_CYCLICS < 90)                                && \
                                                                   \
    /* test configuration for enough alarm handlers */             \
    defined( CYGPKG_UITRON_ALARMS )                             && \
    (CYGNUM_UITRON_ALARMS >= 3)                                 && \
    (CYGNUM_UITRON_ALARMS < 90)                                 && \
                                                                   \
    /* the end of the large #if statement */                       \
    1
 
// ============================ END ============================
 
 
 
#include <cyg/compat/uitron/uit_func.h> // uITRON
 
externC void
cyg_package_start( void )
{
    CYG_TEST_INIT();
    CYG_TEST_INFO( "Calling cyg_uitron_start()" );
    cyg_uitron_start();
}
 
volatile int intercount = 0;
INT scratch;
 
void hand1(void)
{
    CYG_TEST_INFO("Handler 1 called");
    intercount++;
}
 
void hand2(void)
{
    CYG_TEST_CHECK( 2 == intercount, "handler out of sync" );
    CYG_TEST_INFO("Handler 2 called");
    intercount++;
}
 
void task1( unsigned int arg )
{
    ER ercd;
 
    T_DCYC dcyc;
    T_DALM dalm;
    T_RCYC rcyc;
    T_RALM ralm;
 
    unsigned int tm;
 
    static char foo[] = "Test message";
    VP info = (VP)foo;
 
    // Increase times when running on HW since overhead of GDB packet
    // acknowledgements may cause tests of timing to fail.
    if (cyg_test_is_simulator)
        tm = 1;
    else
        tm = 4;
 
    CYG_TEST_INFO( "Task 1 running" );
    ercd = get_tid( &scratch );
    CYG_TEST_CHECK( E_OK == ercd, "get_tid bad ercd" );
    CYG_TEST_CHECK( 1 == scratch, "tid not 1" );
 
    dcyc.exinf  = (VP)info;
    dcyc.cycatr = TA_HLNG;
    dcyc.cychdr = (FP)&hand1;
    dcyc.cycact = TCY_INI;              // bad
    dcyc.cyctim = 2;
 
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
    ercd = def_cyc(3, &dcyc);
    CYG_TEST_CHECK( E_PAR == ercd, "def_cyc bad ercd !E_PAR" );
#endif // we can test bad param error returns
 
    dcyc.cycact = TCY_OFF;              // make good
    dcyc.cyctim = 0;                    // bad
 
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
    ercd = def_cyc(3, &dcyc);
    CYG_TEST_CHECK( E_PAR == ercd, "def_cyc bad ercd !E_PAR" );
#endif // we can test bad param error returns
 
    dcyc.cyctim = 1;                    // make good
 
    ercd = def_cyc(3, &dcyc);
    CYG_TEST_CHECK( E_OK == ercd, "def_cyc bad ercd" );
 
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
    ercd = def_cyc(-6, &dcyc);
    CYG_TEST_CHECK( E_PAR == ercd, "def_cyc bad ercd !E_PAR" );
    ercd = def_cyc(99, &dcyc);
    CYG_TEST_CHECK( E_PAR == ercd, "def_cyc bad ercd !E_PAR" );
 
    ercd = act_cyc(-6, TCY_OFF);
    CYG_TEST_CHECK( E_PAR == ercd, "act_cyc bad ercd !E_PAR" );
    ercd = act_cyc(99, TCY_OFF);
    CYG_TEST_CHECK( E_PAR == ercd, "act_cyc bad ercd !E_PAR" );
    ercd = act_cyc( 3, ~0);
    CYG_TEST_CHECK( E_PAR == ercd, "act_cyc bad ercd !E_PAR" );
 
    ercd = ref_cyc(&rcyc, -6);
    CYG_TEST_CHECK( E_PAR == ercd, "ref_cyc bad ercd !E_PAR" );
    ercd = ref_cyc(&rcyc, 99);
    CYG_TEST_CHECK( E_PAR == ercd, "ref_cyc bad ercd !E_PAR" );
#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR
    ercd = ref_cyc(NULL,  3);
    CYG_TEST_CHECK( E_PAR == ercd, "ref_cyc bad ercd !E_PAR" );
#endif
    ercd = ref_cyc(NADR,  3);
    CYG_TEST_CHECK( E_PAR == ercd, "ref_cyc bad ercd !E_PAR" );
#endif // we can test bad param error returns
 
    ercd = def_cyc(3, (T_DCYC *)NADR);
    CYG_TEST_CHECK( E_OK == ercd, "def_cyc bad ercd" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
    ercd = ref_cyc(&rcyc,  3);
    CYG_TEST_CHECK( E_NOEXS == ercd, "ref_cyc bad ercd !E_NOEXS" );
#endif // we can test bad param error returns
 
    CYG_TEST_PASS( "bad calls: def_cyc, act_cyc, ref_cyc" );
 
    dalm.exinf  = (VP)info;
    dalm.almatr = TA_HLNG;
    dalm.almhdr = (FP)&hand2;
    dalm.tmmode = ~0;                   // bad
    dalm.almtim = 20;
 
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
    ercd = def_alm(3, &dalm);
    CYG_TEST_CHECK( E_PAR == ercd, "def_alm bad ercd !E_PAR" );
#endif // we can test bad param error returns
 
    dalm.tmmode = TTM_REL;              // make good
    dalm.almtim = 0;                    // bad
 
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
    ercd = def_alm(3, &dalm);
    CYG_TEST_CHECK( E_PAR == ercd, "def_alm bad ercd !E_PAR" );
#endif // we can test bad param error returns
 
    dalm.almtim = 1000;                 // make good
 
    ercd = def_alm(3, &dalm);
    CYG_TEST_CHECK( E_OK == ercd, "def_alm bad ercd" );
 
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
    ercd = ref_alm(&ralm, -6);
    CYG_TEST_CHECK( E_PAR == ercd, "ref_alm bad ercd !E_PAR" );
    ercd = ref_alm(&ralm, 99);
    CYG_TEST_CHECK( E_PAR == ercd, "ref_alm bad ercd !E_PAR" );
#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR
    ercd = ref_alm(NULL,  3);
    CYG_TEST_CHECK( E_PAR == ercd, "ref_alm bad ercd !E_PAR" );
#endif
    ercd = ref_alm(NADR,  3);
    CYG_TEST_CHECK( E_PAR == ercd, "ref_alm bad ercd !E_PAR" );
 
#endif // we can test bad param error returns
    ercd = def_alm(3, (T_DALM *)NADR);
    CYG_TEST_CHECK( E_OK == ercd, "def_cyc bad ercd" );
#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS
    ercd = ref_alm(&ralm,  3);
    CYG_TEST_CHECK( E_NOEXS == ercd, "ref_cyc bad ercd !E_NOEXS" );
#endif // we can test bad param error returns
 
    CYG_TEST_PASS( "bad calls: def_alm, act_alm, ref_alm" );
 
    dcyc.exinf  = (VP)info;
    dcyc.cycatr = TA_HLNG;
    dcyc.cychdr = (FP)&hand1;
    dcyc.cycact = TCY_ON;
    dcyc.cyctim = 50*tm;
 
    ercd = def_cyc(3, &dcyc);
    CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );
    ercd = ref_cyc(&rcyc, 3);
    CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );
    CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );
    CYG_TEST_CHECK( 45*tm < rcyc.lfttim, "rcyc.lfttim too small" );
    CYG_TEST_CHECK( rcyc.lfttim <= 50*tm, "rcyc.lfttim too big" );
    CYG_TEST_CHECK( TCY_ON == rcyc.cycact, "rcyc.cycact should be TCY_ON" );
    ercd = act_cyc(3, TCY_OFF);
    CYG_TEST_CHECK( E_OK == ercd, "act_cyc bad ercd" );
    ercd = ref_cyc(&rcyc, 3);
    CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );
    CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );
    CYG_TEST_CHECK( 45*tm < rcyc.lfttim, "rcyc.lfttim too small" );
    CYG_TEST_CHECK( rcyc.lfttim <= 50*tm, "rcyc.lfttim too big" );
    CYG_TEST_CHECK( TCY_OFF == rcyc.cycact, "rcyc.cycact should be TCY_OFF" );
    ercd = act_cyc(3, TCY_ON);
    CYG_TEST_CHECK( E_OK == ercd, "act_cyc bad ercd" );
 
    CYG_TEST_PASS("good calls: def_cyc, act_cyc, ref_cyc");
 
    dalm.exinf  = (VP)info;
    dalm.almatr = TA_HLNG;
    dalm.almhdr = (FP)&hand2;
    dalm.tmmode = TTM_REL;
    dalm.almtim = 120*tm;
 
    ercd = def_alm(3, &dalm);
    CYG_TEST_CHECK( E_OK == ercd, "def_alm bad ercd" );
    ercd = ref_alm(&ralm, 3);
    CYG_TEST_CHECK( E_OK == ercd, "ref_alm bad ercd" );
    CYG_TEST_CHECK( info == ralm.exinf, "ralm.exinf should be info" );
    CYG_TEST_CHECK( 115*tm < ralm.lfttim, "ralm.lfttim too small" );
    CYG_TEST_CHECK( ralm.lfttim <= 120*tm, "ralm.lfttim too big" );
 
    // Expect handlers to be called at approximate times
    // time           intercount
    // tm*50  hand1   0
    // tm*100 hand1   1
    // tm*120 hand2   2
    // tm*150 hand1   3
 
    ercd = dly_tsk(160*tm);
    CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
    CYG_TEST_CHECK( 4 == intercount, "handlers not both called" );
 
    ercd = act_cyc(3, TCY_OFF);
    CYG_TEST_CHECK( E_OK == ercd, "act_cyc(off) bad ercd" );
 
    ercd = dly_tsk(60*tm);              // enough for at least one tick
    CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
    CYG_TEST_CHECK( 4 == intercount, "cyclic not disabled" );
 
    // approx time now 220, so we expect a cycle in about 30 ticks
    ercd = act_cyc(3, TCY_ON);
    CYG_TEST_CHECK( E_OK == ercd, "act_cyc(on) bad ercd" );
    ercd = ref_cyc(&rcyc, 3);
    CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );
    CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );
    CYG_TEST_CHECK( 25*tm < rcyc.lfttim, "rcyc.lfttim too small" );
    CYG_TEST_CHECK( rcyc.lfttim <= 35*tm, "rcyc.lfttim too big" );
    CYG_TEST_CHECK( TCY_ON == rcyc.cycact, "rcyc.cycact should be TCY_ON" );
 
    // now resynchronize with right now:
    ercd = act_cyc(3, TCY_ON|TCY_INI);
    CYG_TEST_CHECK( E_OK == ercd, "act_cyc(on) bad ercd" );
    ercd = ref_cyc(&rcyc, 3);
    CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );
    CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );
    CYG_TEST_CHECK( 45*tm < rcyc.lfttim, "rcyc.lfttim too small" );
    CYG_TEST_CHECK( rcyc.lfttim <= 50*tm, "rcyc.lfttim too big" );
    CYG_TEST_CHECK( TCY_ON == rcyc.cycact, "rcyc.cycact should be TCY_ON" );
 
    // wait a bit and check that time marches on, or even down
    ercd = dly_tsk(10*tm);
    CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );
    ercd = ref_cyc(&rcyc, 3);
    CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );
    CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );
    CYG_TEST_CHECK( 35*tm < rcyc.lfttim, "rcyc.lfttim too small" );
    CYG_TEST_CHECK( rcyc.lfttim <= 45*tm, "rcyc.lfttim too big" );
    CYG_TEST_CHECK( TCY_ON == rcyc.cycact, "rcyc.cycact should be TCY_ON" );
 
    // now turn it off and re-synch with right now:
    ercd = act_cyc(3, TCY_OFF|TCY_INI);
    CYG_TEST_CHECK( E_OK == ercd, "act_cyc(on) bad ercd" );
    ercd = ref_cyc(&rcyc, 3);
    CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );
    CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );
    CYG_TEST_CHECK( 45*tm < rcyc.lfttim, "rcyc.lfttim too small" );
    CYG_TEST_CHECK( rcyc.lfttim <= 50*tm, "rcyc.lfttim too big" );
    CYG_TEST_CHECK( TCY_OFF == rcyc.cycact, "rcyc.cycact should be TCY_OFF" );
 
    ercd = act_cyc(3, TCY_OFF);
    CYG_TEST_CHECK( E_OK == ercd, "act_cyc(on) bad ercd" );
 
    CYG_TEST_PASS("good calls: def_cyc, act_cyc, ref_cyc, def_alm, ref_alm");
 
    // all done
    CYG_TEST_EXIT( "All done" );
    ext_tsk();
}
 
 
 
void task2( unsigned int arg )
{
}
 
void task3( unsigned int arg )
{
}
 
void task4( unsigned int arg )
{
}
 
#else // not enough (or too many) uITRON objects configured in
#define N_A_MSG "not enough uITRON objects to run test"
#endif // not enough (or too many) uITRON objects configured in
#else  // not C++ and some C++ specific options enabled
#define N_A_MSG "C++ specific options selected but this is C"
#endif  // not C++ and some C++ specific options enabled
#else // ! CYGVAR_KERNEL_COUNTERS_CLOCK   - can't test without it
#define N_A_MSG "no CYGVAR_KERNEL_COUNTERS_CLOCK"
#endif // ! CYGVAR_KERNEL_COUNTERS_CLOCK  - can't test without it
#else  // ! CYGFUN_KERNEL_THREADS_TIMER   - can't test without it
#define N_A_MSG "no CYGFUN_KERNEL_THREADS_TIMER"
#endif // ! CYGFUN_KERNEL_THREADS_TIMER   - can't test without it
#else  // ! CYGIMP_THREAD_PRIORITY        - can't test without it
#define N_A_MSG "no CYGSEM_KERNEL_SCHED_MLQUEUE"
#endif // ! CYGSEM_KERNEL_SCHED_MLQUEUE   - can't test without it
#else  // ! CYGPKG_UITRON
#define N_A_MSG "uITRON Compatibility layer disabled"
#endif // CYGPKG_UITRON
 
#ifdef N_A_MSG
void
cyg_start( void )
{
    CYG_TEST_INIT();
    CYG_TEST_NA( N_A_MSG );
}
#endif // N_A_MSG defined ie. we are N/A.
 
// EOF test4.c

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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [compat/] [uitron/] [v2_0/] [tests/] [test4.c] - Blame information for rev 174

Line No.	Rev	Author	Line
1	27	unneback	`//===========================================================================`
2			`//`
3			`// test4.c`
4			`//`
5			`// uITRON "C" test program four`
6			`//`
7			`//===========================================================================`
8			`//####ECOSGPLCOPYRIGHTBEGIN####`
9			`// -------------------------------------------`
10			`// This file is part of eCos, the Embedded Configurable Operating System.`
11			`// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.`
12			`//`
13			`// eCos is free software; you can redistribute it and/or modify it under`
14			`// the terms of the GNU General Public License as published by the Free`
15			`// Software Foundation; either version 2 or (at your option) any later version.`
16			`//`
17			`// eCos is distributed in the hope that it will be useful, but WITHOUT ANY`
18			`// WARRANTY; without even the implied warranty of MERCHANTABILITY or`
19			`// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License`
20			`// for more details.`
21			`//`
22			`// You should have received a copy of the GNU General Public License along`
23			`// with eCos; if not, write to the Free Software Foundation, Inc.,`
24			`// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.`
25			`//`
26			`// As a special exception, if other files instantiate templates or use macros`
27			`// or inline functions from this file, or you compile this file and link it`
28			`// with other works to produce a work based on this file, this file does not`
29			`// by itself cause the resulting work to be covered by the GNU General Public`
30			`// License. However the source code for this file must still be made available`
31			`// in accordance with section (3) of the GNU General Public License.`
32			`//`
33			`// This exception does not invalidate any other reasons why a work based on`
34			`// this file might be covered by the GNU General Public License.`
35			`//`
36			`// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.`
37			`// at http://sources.redhat.com/ecos/ecos-license/`
38			`// -------------------------------------------`
39			`//####ECOSGPLCOPYRIGHTEND####`
40			`//===========================================================================`
41			`//#####DESCRIPTIONBEGIN####`
42			`//`
43			`// Author(s): dsm`
44			`// Contributors: dsm`
45			`// Date: 1998-06-12`
46			`// Purpose: uITRON API testing`
47			`// Description:`
48			`//`
49			`//####DESCRIPTIONEND####`
50			`//`
51			`//===========================================================================`
52
53			`#include <pkgconf/uitron.h> // uITRON setup CYGNUM_UITRON_SEMAS`
54			`// CYGPKG_UITRON et al`
55			`#include <cyg/infra/testcase.h> // testing infrastructure`
56
57			`#ifdef CYGPKG_UITRON // we DO want the uITRON package`
58
59			`#ifdef CYGSEM_KERNEL_SCHED_MLQUEUE // we DO want prioritized threads`
60
61			`#ifdef CYGFUN_KERNEL_THREADS_TIMER // we DO want timout-able calls`
62
63			`#ifdef CYGVAR_KERNEL_COUNTERS_CLOCK // we DO want the realtime clock`
64
65			`// we're OK if it's C++ or neither of those two is defined:`
66			`#if defined( __cplusplus ) \|\| \`
67			`(!defined( CYGIMP_UITRON_INLINE_FUNCS ) && \`
68			`!defined( CYGIMP_UITRON_CPP_OUTLINE_FUNCS) )`
69
70			`// =================== TEST CONFIGURATION ===================`
71			`#if \`
72			`/* test configuration for enough tasks */ \`
73			`(CYGNUM_UITRON_TASKS >= 4) && \`
74			`(CYGNUM_UITRON_TASKS < 90) && \`
75			`(CYGNUM_UITRON_START_TASKS == 1) && \`
76			`( !defined(CYGPKG_UITRON_TASKS_CREATE_DELETE) \|\| \`
77			`CYGNUM_UITRON_TASKS_INITIALLY >= 4 ) && \`
78			`\`
79			`/* test configuration for enough cyclic handlers */ \`
80			`defined( CYGPKG_UITRON_CYCLICS ) && \`
81			`(CYGNUM_UITRON_CYCLICS >= 3) && \`
82			`(CYGNUM_UITRON_CYCLICS < 90) && \`
83			`\`
84			`/* test configuration for enough alarm handlers */ \`
85			`defined( CYGPKG_UITRON_ALARMS ) && \`
86			`(CYGNUM_UITRON_ALARMS >= 3) && \`
87			`(CYGNUM_UITRON_ALARMS < 90) && \`
88			`\`
89			`/* the end of the large #if statement */ \`
90			`1`
91
92			`// ============================ END ============================`
93
94
95
96			`#include <cyg/compat/uitron/uit_func.h> // uITRON`
97
98			`externC void`
99			`cyg_package_start( void )`
100			`{`
101			`CYG_TEST_INIT();`
102			`CYG_TEST_INFO( "Calling cyg_uitron_start()" );`
103			`cyg_uitron_start();`
104			`}`
105
106			`volatile int intercount = 0;`
107			`INT scratch;`
108
109			`void hand1(void)`
110			`{`
111			`CYG_TEST_INFO("Handler 1 called");`
112			`intercount++;`
113			`}`
114
115			`void hand2(void)`
116			`{`
117			`CYG_TEST_CHECK( 2 == intercount, "handler out of sync" );`
118			`CYG_TEST_INFO("Handler 2 called");`
119			`intercount++;`
120			`}`
121
122			`void task1( unsigned int arg )`
123			`{`
124			`ER ercd;`
125
126			`T_DCYC dcyc;`
127			`T_DALM dalm;`
128			`T_RCYC rcyc;`
129			`T_RALM ralm;`
130
131			`unsigned int tm;`
132
133			`static char foo[] = "Test message";`
134			`VP info = (VP)foo;`
135
136			`// Increase times when running on HW since overhead of GDB packet`
137			`// acknowledgements may cause tests of timing to fail.`
138			`if (cyg_test_is_simulator)`
139			`tm = 1;`
140			`else`
141			`tm = 4;`
142
143			`CYG_TEST_INFO( "Task 1 running" );`
144			`ercd = get_tid( &scratch );`
145			`CYG_TEST_CHECK( E_OK == ercd, "get_tid bad ercd" );`
146			`CYG_TEST_CHECK( 1 == scratch, "tid not 1" );`
147
148			`dcyc.exinf = (VP)info;`
149			`dcyc.cycatr = TA_HLNG;`
150			`dcyc.cychdr = (FP)&hand1;`
151			`dcyc.cycact = TCY_INI; // bad`
152			`dcyc.cyctim = 2;`
153
154			`#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS`
155			`ercd = def_cyc(3, &dcyc);`
156			`CYG_TEST_CHECK( E_PAR == ercd, "def_cyc bad ercd !E_PAR" );`
157			`#endif // we can test bad param error returns`
158
159			`dcyc.cycact = TCY_OFF; // make good`
160			`dcyc.cyctim = 0; // bad`
161
162			`#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS`
163			`ercd = def_cyc(3, &dcyc);`
164			`CYG_TEST_CHECK( E_PAR == ercd, "def_cyc bad ercd !E_PAR" );`
165			`#endif // we can test bad param error returns`
166
167			`dcyc.cyctim = 1; // make good`
168
169			`ercd = def_cyc(3, &dcyc);`
170			`CYG_TEST_CHECK( E_OK == ercd, "def_cyc bad ercd" );`
171
172			`#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS`
173			`ercd = def_cyc(-6, &dcyc);`
174			`CYG_TEST_CHECK( E_PAR == ercd, "def_cyc bad ercd !E_PAR" );`
175			`ercd = def_cyc(99, &dcyc);`
176			`CYG_TEST_CHECK( E_PAR == ercd, "def_cyc bad ercd !E_PAR" );`
177
178			`ercd = act_cyc(-6, TCY_OFF);`
179			`CYG_TEST_CHECK( E_PAR == ercd, "act_cyc bad ercd !E_PAR" );`
180			`ercd = act_cyc(99, TCY_OFF);`
181			`CYG_TEST_CHECK( E_PAR == ercd, "act_cyc bad ercd !E_PAR" );`
182			`ercd = act_cyc( 3, ~0);`
183			`CYG_TEST_CHECK( E_PAR == ercd, "act_cyc bad ercd !E_PAR" );`
184
185			`ercd = ref_cyc(&rcyc, -6);`
186			`CYG_TEST_CHECK( E_PAR == ercd, "ref_cyc bad ercd !E_PAR" );`
187			`ercd = ref_cyc(&rcyc, 99);`
188			`CYG_TEST_CHECK( E_PAR == ercd, "ref_cyc bad ercd !E_PAR" );`
189			`#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR`
190			`ercd = ref_cyc(NULL, 3);`
191			`CYG_TEST_CHECK( E_PAR == ercd, "ref_cyc bad ercd !E_PAR" );`
192			`#endif`
193			`ercd = ref_cyc(NADR, 3);`
194			`CYG_TEST_CHECK( E_PAR == ercd, "ref_cyc bad ercd !E_PAR" );`
195			`#endif // we can test bad param error returns`
196
197			`ercd = def_cyc(3, (T_DCYC *)NADR);`
198			`CYG_TEST_CHECK( E_OK == ercd, "def_cyc bad ercd" );`
199			`#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS`
200			`ercd = ref_cyc(&rcyc, 3);`
201			`CYG_TEST_CHECK( E_NOEXS == ercd, "ref_cyc bad ercd !E_NOEXS" );`
202			`#endif // we can test bad param error returns`
203
204			`CYG_TEST_PASS( "bad calls: def_cyc, act_cyc, ref_cyc" );`
205
206			`dalm.exinf = (VP)info;`
207			`dalm.almatr = TA_HLNG;`
208			`dalm.almhdr = (FP)&hand2;`
209			`dalm.tmmode = ~0; // bad`
210			`dalm.almtim = 20;`
211
212			`#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS`
213			`ercd = def_alm(3, &dalm);`
214			`CYG_TEST_CHECK( E_PAR == ercd, "def_alm bad ercd !E_PAR" );`
215			`#endif // we can test bad param error returns`
216
217			`dalm.tmmode = TTM_REL; // make good`
218			`dalm.almtim = 0; // bad`
219
220			`#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS`
221			`ercd = def_alm(3, &dalm);`
222			`CYG_TEST_CHECK( E_PAR == ercd, "def_alm bad ercd !E_PAR" );`
223			`#endif // we can test bad param error returns`
224
225			`dalm.almtim = 1000; // make good`
226
227			`ercd = def_alm(3, &dalm);`
228			`CYG_TEST_CHECK( E_OK == ercd, "def_alm bad ercd" );`
229
230			`#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS`
231			`ercd = ref_alm(&ralm, -6);`
232			`CYG_TEST_CHECK( E_PAR == ercd, "ref_alm bad ercd !E_PAR" );`
233			`ercd = ref_alm(&ralm, 99);`
234			`CYG_TEST_CHECK( E_PAR == ercd, "ref_alm bad ercd !E_PAR" );`
235			`#ifndef CYGSEM_UITRON_PARAMS_NULL_IS_GOOD_PTR`
236			`ercd = ref_alm(NULL, 3);`
237			`CYG_TEST_CHECK( E_PAR == ercd, "ref_alm bad ercd !E_PAR" );`
238			`#endif`
239			`ercd = ref_alm(NADR, 3);`
240			`CYG_TEST_CHECK( E_PAR == ercd, "ref_alm bad ercd !E_PAR" );`
241
242			`#endif // we can test bad param error returns`
243			`ercd = def_alm(3, (T_DALM *)NADR);`
244			`CYG_TEST_CHECK( E_OK == ercd, "def_cyc bad ercd" );`
245			`#ifdef CYGSEM_UITRON_BAD_PARAMS_RETURN_ERRORS`
246			`ercd = ref_alm(&ralm, 3);`
247			`CYG_TEST_CHECK( E_NOEXS == ercd, "ref_cyc bad ercd !E_NOEXS" );`
248			`#endif // we can test bad param error returns`
249
250			`CYG_TEST_PASS( "bad calls: def_alm, act_alm, ref_alm" );`
251
252			`dcyc.exinf = (VP)info;`
253			`dcyc.cycatr = TA_HLNG;`
254			`dcyc.cychdr = (FP)&hand1;`
255			`dcyc.cycact = TCY_ON;`
256			`dcyc.cyctim = 50*tm;`
257
258			`ercd = def_cyc(3, &dcyc);`
259			`CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );`
260			`ercd = ref_cyc(&rcyc, 3);`
261			`CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );`
262			`CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );`
263			`CYG_TEST_CHECK( 45*tm < rcyc.lfttim, "rcyc.lfttim too small" );`
264			`CYG_TEST_CHECK( rcyc.lfttim <= 50*tm, "rcyc.lfttim too big" );`
265			`CYG_TEST_CHECK( TCY_ON == rcyc.cycact, "rcyc.cycact should be TCY_ON" );`
266			`ercd = act_cyc(3, TCY_OFF);`
267			`CYG_TEST_CHECK( E_OK == ercd, "act_cyc bad ercd" );`
268			`ercd = ref_cyc(&rcyc, 3);`
269			`CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );`
270			`CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );`
271			`CYG_TEST_CHECK( 45*tm < rcyc.lfttim, "rcyc.lfttim too small" );`
272			`CYG_TEST_CHECK( rcyc.lfttim <= 50*tm, "rcyc.lfttim too big" );`
273			`CYG_TEST_CHECK( TCY_OFF == rcyc.cycact, "rcyc.cycact should be TCY_OFF" );`
274			`ercd = act_cyc(3, TCY_ON);`
275			`CYG_TEST_CHECK( E_OK == ercd, "act_cyc bad ercd" );`
276
277			`CYG_TEST_PASS("good calls: def_cyc, act_cyc, ref_cyc");`
278
279			`dalm.exinf = (VP)info;`
280			`dalm.almatr = TA_HLNG;`
281			`dalm.almhdr = (FP)&hand2;`
282			`dalm.tmmode = TTM_REL;`
283			`dalm.almtim = 120*tm;`
284
285			`ercd = def_alm(3, &dalm);`
286			`CYG_TEST_CHECK( E_OK == ercd, "def_alm bad ercd" );`
287			`ercd = ref_alm(&ralm, 3);`
288			`CYG_TEST_CHECK( E_OK == ercd, "ref_alm bad ercd" );`
289			`CYG_TEST_CHECK( info == ralm.exinf, "ralm.exinf should be info" );`
290			`CYG_TEST_CHECK( 115*tm < ralm.lfttim, "ralm.lfttim too small" );`
291			`CYG_TEST_CHECK( ralm.lfttim <= 120*tm, "ralm.lfttim too big" );`
292
293			`// Expect handlers to be called at approximate times`
294			`// time intercount`
295			`// tm*50 hand1 0`
296			`// tm*100 hand1 1`
297			`// tm*120 hand2 2`
298			`// tm*150 hand1 3`
299
300			`ercd = dly_tsk(160*tm);`
301			`CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );`
302			`CYG_TEST_CHECK( 4 == intercount, "handlers not both called" );`
303
304			`ercd = act_cyc(3, TCY_OFF);`
305			`CYG_TEST_CHECK( E_OK == ercd, "act_cyc(off) bad ercd" );`
306
307			`ercd = dly_tsk(60*tm); // enough for at least one tick`
308			`CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );`
309			`CYG_TEST_CHECK( 4 == intercount, "cyclic not disabled" );`
310
311			`// approx time now 220, so we expect a cycle in about 30 ticks`
312			`ercd = act_cyc(3, TCY_ON);`
313			`CYG_TEST_CHECK( E_OK == ercd, "act_cyc(on) bad ercd" );`
314			`ercd = ref_cyc(&rcyc, 3);`
315			`CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );`
316			`CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );`
317			`CYG_TEST_CHECK( 25*tm < rcyc.lfttim, "rcyc.lfttim too small" );`
318			`CYG_TEST_CHECK( rcyc.lfttim <= 35*tm, "rcyc.lfttim too big" );`
319			`CYG_TEST_CHECK( TCY_ON == rcyc.cycact, "rcyc.cycact should be TCY_ON" );`
320
321			`// now resynchronize with right now:`
322			`ercd = act_cyc(3, TCY_ON\|TCY_INI);`
323			`CYG_TEST_CHECK( E_OK == ercd, "act_cyc(on) bad ercd" );`
324			`ercd = ref_cyc(&rcyc, 3);`
325			`CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );`
326			`CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );`
327			`CYG_TEST_CHECK( 45*tm < rcyc.lfttim, "rcyc.lfttim too small" );`
328			`CYG_TEST_CHECK( rcyc.lfttim <= 50*tm, "rcyc.lfttim too big" );`
329			`CYG_TEST_CHECK( TCY_ON == rcyc.cycact, "rcyc.cycact should be TCY_ON" );`
330
331			`// wait a bit and check that time marches on, or even down`
332			`ercd = dly_tsk(10*tm);`
333			`CYG_TEST_CHECK( E_OK == ercd, "dly_tsk bad ercd" );`
334			`ercd = ref_cyc(&rcyc, 3);`
335			`CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );`
336			`CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );`
337			`CYG_TEST_CHECK( 35*tm < rcyc.lfttim, "rcyc.lfttim too small" );`
338			`CYG_TEST_CHECK( rcyc.lfttim <= 45*tm, "rcyc.lfttim too big" );`
339			`CYG_TEST_CHECK( TCY_ON == rcyc.cycact, "rcyc.cycact should be TCY_ON" );`
340
341			`// now turn it off and re-synch with right now:`
342			`ercd = act_cyc(3, TCY_OFF\|TCY_INI);`
343			`CYG_TEST_CHECK( E_OK == ercd, "act_cyc(on) bad ercd" );`
344			`ercd = ref_cyc(&rcyc, 3);`
345			`CYG_TEST_CHECK( E_OK == ercd, "ref_cyc bad ercd" );`
346			`CYG_TEST_CHECK( info == rcyc.exinf, "rcyc.exinf should be info" );`
347			`CYG_TEST_CHECK( 45*tm < rcyc.lfttim, "rcyc.lfttim too small" );`
348			`CYG_TEST_CHECK( rcyc.lfttim <= 50*tm, "rcyc.lfttim too big" );`
349			`CYG_TEST_CHECK( TCY_OFF == rcyc.cycact, "rcyc.cycact should be TCY_OFF" );`
350
351			`ercd = act_cyc(3, TCY_OFF);`
352			`CYG_TEST_CHECK( E_OK == ercd, "act_cyc(on) bad ercd" );`
353
354			`CYG_TEST_PASS("good calls: def_cyc, act_cyc, ref_cyc, def_alm, ref_alm");`
355
356			`// all done`
357			`CYG_TEST_EXIT( "All done" );`
358			`ext_tsk();`
359			`}`
360
361
362
363			`void task2( unsigned int arg )`
364			`{`
365			`}`
366
367			`void task3( unsigned int arg )`
368			`{`
369			`}`
370
371			`void task4( unsigned int arg )`
372			`{`
373			`}`
374
375			`#else // not enough (or too many) uITRON objects configured in`
376			`#define N_A_MSG "not enough uITRON objects to run test"`
377			`#endif // not enough (or too many) uITRON objects configured in`
378			`#else // not C++ and some C++ specific options enabled`
379			`#define N_A_MSG "C++ specific options selected but this is C"`
380			`#endif // not C++ and some C++ specific options enabled`
381			`#else // ! CYGVAR_KERNEL_COUNTERS_CLOCK - can't test without it`
382			`#define N_A_MSG "no CYGVAR_KERNEL_COUNTERS_CLOCK"`
383			`#endif // ! CYGVAR_KERNEL_COUNTERS_CLOCK - can't test without it`
384			`#else // ! CYGFUN_KERNEL_THREADS_TIMER - can't test without it`
385			`#define N_A_MSG "no CYGFUN_KERNEL_THREADS_TIMER"`
386			`#endif // ! CYGFUN_KERNEL_THREADS_TIMER - can't test without it`
387			`#else // ! CYGIMP_THREAD_PRIORITY - can't test without it`
388			`#define N_A_MSG "no CYGSEM_KERNEL_SCHED_MLQUEUE"`
389			`#endif // ! CYGSEM_KERNEL_SCHED_MLQUEUE - can't test without it`
390			`#else // ! CYGPKG_UITRON`
391			`#define N_A_MSG "uITRON Compatibility layer disabled"`
392			`#endif // CYGPKG_UITRON`
393
394			`#ifdef N_A_MSG`
395			`void`
396			`cyg_start( void )`
397			`{`
398			`CYG_TEST_INIT();`
399			`CYG_TEST_NA( N_A_MSG );`
400			`}`
401			`#endif // N_A_MSG defined ie. we are N/A.`
402
403			`// EOF test4.c`