/* SPDX-License-Identifier: BSD-2-Clause */ /** * @file * * @ingroup RtemsClockReqSet */ /* * Copyright (C) 2021 embedded brains GmbH & Co. KG * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * This file is part of the RTEMS quality process and was automatically * generated. If you find something that needs to be fixed or * worded better please post a report or patch to an RTEMS mailing list * or raise a bug report: * * https://www.rtems.org/bugs.html * * For information on updating and regenerating please refer to the How-To * section in the Software Requirements Engineering chapter of the * RTEMS Software Engineering manual. The manual is provided as a part of * a release. For development sources please refer to the online * documentation at: * * https://docs.rtems.org */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include /** * @defgroup RtemsClockReqSet spec:/rtems/clock/req/set * * @ingroup TestsuitesValidationNoClock0 * * @{ */ typedef enum { RtemsClockReqSet_Pre_ToD_Valid, RtemsClockReqSet_Pre_ToD_ValidLeap4, RtemsClockReqSet_Pre_ToD_ValidLeap400, RtemsClockReqSet_Pre_ToD_Youngest, RtemsClockReqSet_Pre_ToD_Oldest, RtemsClockReqSet_Pre_ToD_TooJung, RtemsClockReqSet_Pre_ToD_TooOld, RtemsClockReqSet_Pre_ToD_InvMonth0, RtemsClockReqSet_Pre_ToD_InvMonth, RtemsClockReqSet_Pre_ToD_InvDay0, RtemsClockReqSet_Pre_ToD_InvDay, RtemsClockReqSet_Pre_ToD_InvHour, RtemsClockReqSet_Pre_ToD_InvMinute, RtemsClockReqSet_Pre_ToD_InvSecond, RtemsClockReqSet_Pre_ToD_InvTicks, RtemsClockReqSet_Pre_ToD_InvLeap4, RtemsClockReqSet_Pre_ToD_InvLeap100, RtemsClockReqSet_Pre_ToD_InvLeap400, RtemsClockReqSet_Pre_ToD_AtTimer, RtemsClockReqSet_Pre_ToD_BeforeTimer, RtemsClockReqSet_Pre_ToD_AfterTimer, RtemsClockReqSet_Pre_ToD_Null, RtemsClockReqSet_Pre_ToD_NA } RtemsClockReqSet_Pre_ToD; typedef enum { RtemsClockReqSet_Pre_Hook_None, RtemsClockReqSet_Pre_Hook_Ok, RtemsClockReqSet_Pre_Hook_NotOk, RtemsClockReqSet_Pre_Hook_NA } RtemsClockReqSet_Pre_Hook; typedef enum { RtemsClockReqSet_Post_Status_Ok, RtemsClockReqSet_Post_Status_InvAddr, RtemsClockReqSet_Post_Status_InvClk, RtemsClockReqSet_Post_Status_Hook, RtemsClockReqSet_Post_Status_NA } RtemsClockReqSet_Post_Status; typedef enum { RtemsClockReqSet_Post_Clock_Set, RtemsClockReqSet_Post_Clock_Nop, RtemsClockReqSet_Post_Clock_NA } RtemsClockReqSet_Post_Clock; typedef enum { RtemsClockReqSet_Post_Timer_Triggered, RtemsClockReqSet_Post_Timer_Nop, RtemsClockReqSet_Post_Timer_NA } RtemsClockReqSet_Post_Timer; typedef struct { uint16_t Skip : 1; uint16_t Pre_ToD_NA : 1; uint16_t Pre_Hook_NA : 1; uint16_t Post_Status : 3; uint16_t Post_Clock : 2; uint16_t Post_Timer : 2; } RtemsClockReqSet_Entry; /** * @brief Test context for spec:/rtems/clock/req/set test case. */ typedef struct { rtems_status_code status; bool register_hook; Status_Control hook_status; rtems_time_of_day *target_tod; rtems_time_of_day target_tod_value; rtems_time_of_day tod_before; rtems_status_code get_tod_before_status; rtems_time_of_day tod_after; rtems_status_code get_tod_after_status; rtems_id timer_id; int timer_routine_counter; rtems_time_of_day timer_routine_tod; struct { /** * @brief This member defines the pre-condition states for the next action. */ size_t pcs[ 2 ]; /** * @brief If this member is true, then the test action loop is executed. */ bool in_action_loop; /** * @brief This member contains the next transition map index. */ size_t index; /** * @brief This member contains the current transition map entry. */ RtemsClockReqSet_Entry entry; /** * @brief If this member is true, then the current transition variant * should be skipped. */ bool skip; } Map; } RtemsClockReqSet_Context; static RtemsClockReqSet_Context RtemsClockReqSet_Instance; static const char * const RtemsClockReqSet_PreDesc_ToD[] = { "Valid", "ValidLeap4", "ValidLeap400", "Youngest", "Oldest", "TooJung", "TooOld", "InvMonth0", "InvMonth", "InvDay0", "InvDay", "InvHour", "InvMinute", "InvSecond", "InvTicks", "InvLeap4", "InvLeap100", "InvLeap400", "AtTimer", "BeforeTimer", "AfterTimer", "Null", "NA" }; static const char * const RtemsClockReqSet_PreDesc_Hook[] = { "None", "Ok", "NotOk", "NA" }; static const char * const * const RtemsClockReqSet_PreDesc[] = { RtemsClockReqSet_PreDesc_ToD, RtemsClockReqSet_PreDesc_Hook, NULL }; typedef RtemsClockReqSet_Context Context; static rtems_timer_service_routine _TOD_timer_routine( rtems_id timer_id, void *user_data ) { Context *ctx = user_data; rtems_status_code status; ++ctx->timer_routine_counter; status = rtems_clock_get_tod( &ctx->timer_routine_tod ); T_rsc_success( status ); } static void _TOD_prepare_timer( Context *ctx ) { rtems_status_code status; rtems_time_of_day tod = { 1988, 1, 1, 0, 0, 0, 0 }; status = rtems_clock_set( &tod ); T_rsc_success( status ); tod.year = 1989; status = rtems_timer_fire_when( ctx->timer_id, &tod, _TOD_timer_routine, ctx ); T_rsc_success( status ); } static Status_Control TODHook( TOD_Action action, const struct timespec *tod ) { Context *ctx; ctx = T_fixture_context(); T_eq_int( action, TOD_ACTION_SET_CLOCK ); T_not_null( tod ); return ctx->hook_status; } static void RtemsClockReqSet_Pre_ToD_Prepare( RtemsClockReqSet_Context *ctx, RtemsClockReqSet_Pre_ToD state ) { switch ( state ) { case RtemsClockReqSet_Pre_ToD_Valid: { /* * While the ``time_of_day`` parameter references an arbitrary valid date * and time between 1988-01-01T00:00:00.000000000Z and * 2105-12-31T23:59:59.999999999Z. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 3, 11, 11, 10, 59, rtems_clock_get_ticks_per_second() / 2 }; break; } case RtemsClockReqSet_Pre_ToD_ValidLeap4: { /* * While the ``time_of_day`` parameter references a date for a leap year * with the value of 29th of February. */ ctx->target_tod_value = (rtems_time_of_day) { 2096, 2, 29, 0, 0, 0, 0 }; break; } case RtemsClockReqSet_Pre_ToD_ValidLeap400: { /* * While the ``time_of_day`` parameter references a date for a leap year * with the value of 29th of February. */ ctx->target_tod_value = (rtems_time_of_day) { 2000, 2, 29, 0, 0, 0, 0 }; break; } case RtemsClockReqSet_Pre_ToD_Youngest: { /* * While the ``time_of_day`` parameter references the youngest date and * time accepted (1988-01-01T00:00:00.000000000Z). */ ctx->target_tod_value = (rtems_time_of_day) { 1988, 1, 1, 0, 0, 0, 0 }; break; } case RtemsClockReqSet_Pre_ToD_Oldest: { /* * While the ``time_of_day`` parameter references the oldest date and * time accepted (2099-12-31T23:59:59.999999999Z). */ ctx->target_tod_value = (rtems_time_of_day) { 2099, 12, 31, 23, 59, 59, rtems_clock_get_ticks_per_second() - 1 }; break; } case RtemsClockReqSet_Pre_ToD_TooJung: { /* * While the ``time_of_day`` parameter references a valid date and time * younger than 1988-01-01T00:00:00.000000000Z. */ ctx->target_tod_value = (rtems_time_of_day) { 1987, 12, 31, 23, 59, 59, rtems_clock_get_ticks_per_second() - 1 }; break; } case RtemsClockReqSet_Pre_ToD_TooOld: { /* * While the ``time_of_day`` parameter references a valid date and time * older than 2105-12-31T23:59:59.999999999Z. */ ctx->target_tod_value = (rtems_time_of_day) { 2106, 1, 1, 0, 0, 0, 0 }; break; } case RtemsClockReqSet_Pre_ToD_InvMonth0: { /* * While the ``time_of_day`` parameter is invalid because the value of * the month is 0. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 0, 11, 11, 10, 59, 1 }; break; } case RtemsClockReqSet_Pre_ToD_InvMonth: { /* * While the ``time_of_day`` parameter is invalid because the value of * the month is larger than 12. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 13, 11, 11, 10, 59, 1 }; break; } case RtemsClockReqSet_Pre_ToD_InvDay0: { /* * While the ``time_of_day`` parameter is invalid because the value of * the day is 0. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 3, 0, 11, 10, 59, 1 }; break; } case RtemsClockReqSet_Pre_ToD_InvDay: { /* * While the ``time_of_day`` parameter is invalid because the value of * the day is larger than the days of the month. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 2, 29, 11, 10, 59, 1 }; break; } case RtemsClockReqSet_Pre_ToD_InvHour: { /* * While the ``time_of_day`` parameter is invalid because the value of * the hour is larger than 23. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 3, 11, 24, 10, 59, 1 }; break; } case RtemsClockReqSet_Pre_ToD_InvMinute: { /* * While the ``time_of_day`` parameter is invalid because the value of * the minute is larger than 59. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 3, 11, 11, 60, 59, 1 }; break; } case RtemsClockReqSet_Pre_ToD_InvSecond: { /* * While the ``time_of_day`` parameter is invalid because the value of * the second is larger than 59. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 3, 11, 11, 10, 60, 1 }; break; } case RtemsClockReqSet_Pre_ToD_InvTicks: { /* * While the ``time_of_day`` parameter is invalid because the value of * the ticks are larger or equal to the ticks per second. */ ctx->target_tod_value = (rtems_time_of_day) { 2021, 3, 11, 11, 10, 60, rtems_clock_get_ticks_per_second() }; break; } case RtemsClockReqSet_Pre_ToD_InvLeap4: { /* * While the ``time_of_day`` parameter is invalid because the value 30th * of February does not exist in a leap year. */ ctx->target_tod_value = (rtems_time_of_day) { 2104, 2, 30, 0, 0, 0, 0 }; break; } case RtemsClockReqSet_Pre_ToD_InvLeap100: { /* * While the ``time_of_day`` parameter is invalid because the value 29th * of February does not exist in a non-leap year. */ ctx->target_tod_value = (rtems_time_of_day) { 2100, 2, 29, 0, 0, 0, 0 }; break; } case RtemsClockReqSet_Pre_ToD_InvLeap400: { /* * While the ``time_of_day`` parameter is invalid because the value 30th * of February does not exist in a leap year. */ ctx->target_tod_value = (rtems_time_of_day) { 2000, 2, 30, 0, 0, 0, 0 }; break; } case RtemsClockReqSet_Pre_ToD_AtTimer: { /* * While the ``time_of_day`` parameter references the same point in time * when a timer should fire. */ ctx->target_tod_value = (rtems_time_of_day) { 1989, 1, 1, 0, 0, 0, 0 }; _TOD_prepare_timer( ctx ); break; } case RtemsClockReqSet_Pre_ToD_BeforeTimer: { /* * While the ``time_of_day`` parameter references a point in time before * a timer should fire. */ ctx->target_tod_value = (rtems_time_of_day) { 1988, 12, 31, 23, 59, 59, 0 }; _TOD_prepare_timer( ctx ); break; } case RtemsClockReqSet_Pre_ToD_AfterTimer: { /* * While the ``time_of_day`` parameter references a point in time after a * timer should fire. */ ctx->target_tod_value = (rtems_time_of_day) { 1989, 1, 1, 1, 0, 0, 0 }; _TOD_prepare_timer( ctx ); break; } case RtemsClockReqSet_Pre_ToD_Null: { /* * WHile the ``time_of_day`` parameter is NULL. */ ctx->target_tod = NULL; break; } case RtemsClockReqSet_Pre_ToD_NA: break; } } static void RtemsClockReqSet_Pre_Hook_Prepare( RtemsClockReqSet_Context *ctx, RtemsClockReqSet_Pre_Hook state ) { switch ( state ) { case RtemsClockReqSet_Pre_Hook_None: { /* * While no TOD hook is registered. */ ctx->register_hook = false; break; } case RtemsClockReqSet_Pre_Hook_Ok: { /* * While all TOD hooks invoked by the rtems_clock_set() call return a * status code equal to STATUS_SUCCESSFUL. */ ctx->register_hook = true; ctx->hook_status = STATUS_SUCCESSFUL; break; } case RtemsClockReqSet_Pre_Hook_NotOk: { /* * While at least one TOD hook invoked by the rtems_clock_set() call * returns a status code not equal to STATUS_SUCCESSFUL. */ ctx->register_hook = true; ctx->hook_status = STATUS_UNAVAILABLE; break; } case RtemsClockReqSet_Pre_Hook_NA: break; } } static void RtemsClockReqSet_Post_Status_Check( RtemsClockReqSet_Context *ctx, RtemsClockReqSet_Post_Status state ) { switch ( state ) { case RtemsClockReqSet_Post_Status_Ok: { /* * The return status of rtems_clock_set() shall be RTEMS_SUCCESSFUL */ T_rsc_success( ctx->status ); break; } case RtemsClockReqSet_Post_Status_InvAddr: { /* * The return status of rtems_clock_set() shall be RTEMS_INVALID_ADDRESS. */ T_rsc( ctx->status, RTEMS_INVALID_ADDRESS ); break; } case RtemsClockReqSet_Post_Status_InvClk: { /* * The return status of rtems_clock_set() shall be RTEMS_INVALID_CLOCK. */ T_rsc( ctx->status, RTEMS_INVALID_CLOCK ); break; } case RtemsClockReqSet_Post_Status_Hook: { /* * The return status of rtems_clock_set() shall be derived from the * status returned by the TOD hook. */ T_rsc( ctx->status, RTEMS_UNSATISFIED ); break; } case RtemsClockReqSet_Post_Status_NA: break; } } static void RtemsClockReqSet_Post_Clock_Check( RtemsClockReqSet_Context *ctx, RtemsClockReqSet_Post_Clock state ) { switch ( state ) { case RtemsClockReqSet_Post_Clock_Set: { /* * The CLOCK_REALTIME shall be set to the values of the object referenced * by the ``time_of_day`` parameter during the rtems_clock_set() call. */ T_eq_ptr( ctx->target_tod, &ctx->target_tod_value ); T_rsc_success( ctx->get_tod_after_status ); T_eq_u32( ctx->tod_after.year, ctx->target_tod_value.year ); T_eq_u32( ctx->tod_after.month, ctx->target_tod_value.month ); T_eq_u32( ctx->tod_after.day, ctx->target_tod_value.day ); T_eq_u32( ctx->tod_after.hour, ctx->target_tod_value.hour ); T_eq_u32( ctx->tod_after.minute, ctx->target_tod_value.minute ); T_eq_u32( ctx->tod_after.second, ctx->target_tod_value.second ); /* rtems_clock_set() or rtems_clock_get_tod() cause an error of 1 tick */ T_ge_u32( ctx->tod_after.ticks + 1, ctx->target_tod_value.ticks ); T_le_u32( ctx->tod_after.ticks, ctx->target_tod_value.ticks ); break; } case RtemsClockReqSet_Post_Clock_Nop: { /* * The state of the CLOCK_REALTIME shall not be changed by the * rtems_clock_set() call. */ T_rsc_success( ctx->get_tod_before_status ); T_eq_u32( ctx->tod_after.year, ctx->tod_before.year ); T_eq_u32( ctx->tod_after.month, ctx->tod_before.month ); T_eq_u32( ctx->tod_after.day, ctx->tod_before.day ); T_eq_u32( ctx->tod_after.hour, ctx->tod_before.hour ); T_eq_u32( ctx->tod_after.minute, ctx->tod_before.minute ); T_eq_u32( ctx->tod_after.second, ctx->tod_before.second ); T_eq_u32( ctx->tod_after.ticks, ctx->tod_before.ticks ); break; } case RtemsClockReqSet_Post_Clock_NA: break; } } static void RtemsClockReqSet_Post_Timer_Check( RtemsClockReqSet_Context *ctx, RtemsClockReqSet_Post_Timer state ) { switch ( state ) { case RtemsClockReqSet_Post_Timer_Triggered: { /* * The timer routine shall be executed once after the CLOCK_REALTIME has * been set and before the execution of the rtems_clock_set() call * terminates. */ T_eq_int( ctx->timer_routine_counter, 1 ); T_eq_u32( ctx->timer_routine_tod.year, 1989 ); T_eq_u32( ctx->timer_routine_tod.month, 1 ); T_eq_u32( ctx->timer_routine_tod.day, 1 ); T_eq_u32( ctx->timer_routine_tod.minute, 0 ); T_eq_u32( ctx->timer_routine_tod.second, 0 ); T_eq_u32( ctx->timer_routine_tod.ticks, 0 ); break; } case RtemsClockReqSet_Post_Timer_Nop: { /* * The the timer routine shall not be invoked during the * rtems_clock_set() call. */ T_eq_int( ctx->timer_routine_counter, 0 ); break; } case RtemsClockReqSet_Post_Timer_NA: break; } } static void RtemsClockReqSet_Setup( RtemsClockReqSet_Context *ctx ) { rtems_status_code status; rtems_name timer_name = rtems_build_name( 'T', 'M', 'R', '0' ); ctx->timer_id = RTEMS_ID_NONE; ctx->target_tod = &ctx->target_tod_value; status = rtems_timer_create( timer_name, &ctx->timer_id ); T_rsc_success( status ); } static void RtemsClockReqSet_Setup_Wrap( void *arg ) { RtemsClockReqSet_Context *ctx; ctx = arg; ctx->Map.in_action_loop = false; RtemsClockReqSet_Setup( ctx ); } static void RtemsClockReqSet_Teardown( RtemsClockReqSet_Context *ctx ) { rtems_status_code status; if ( RTEMS_ID_NONE != ctx->timer_id ) { status = rtems_timer_delete( ctx->timer_id ); T_rsc_success( status ); } } static void RtemsClockReqSet_Teardown_Wrap( void *arg ) { RtemsClockReqSet_Context *ctx; ctx = arg; ctx->Map.in_action_loop = false; RtemsClockReqSet_Teardown( ctx ); } static void RtemsClockReqSet_Prepare( RtemsClockReqSet_Context *ctx ) { rtems_status_code status; status = rtems_timer_cancel( ctx->timer_id ); T_rsc_success( status ); ctx->timer_routine_counter = 0; ctx->timer_routine_tod = (rtems_time_of_day) { 0, 0, 0, 0, 0, 0, 0 }; } static void RtemsClockReqSet_Action( RtemsClockReqSet_Context *ctx ) { TOD_Hook hook = { .handler = TODHook }; if ( ctx->register_hook ) { _TOD_Hook_Register( &hook ); } ctx->get_tod_before_status = rtems_clock_get_tod( &ctx->tod_before ); ctx->status = rtems_clock_set( ctx->target_tod ); ctx->get_tod_after_status = rtems_clock_get_tod( &ctx->tod_after ); if ( ctx->register_hook ) { _TOD_Hook_Unregister( &hook ); } } static const RtemsClockReqSet_Entry RtemsClockReqSet_Entries[] = { { 0, 0, 0, RtemsClockReqSet_Post_Status_InvClk, RtemsClockReqSet_Post_Clock_Nop, RtemsClockReqSet_Post_Timer_Nop }, { 0, 0, 0, RtemsClockReqSet_Post_Status_Ok, RtemsClockReqSet_Post_Clock_Set, RtemsClockReqSet_Post_Timer_Nop }, { 0, 0, 0, RtemsClockReqSet_Post_Status_Hook, RtemsClockReqSet_Post_Clock_Nop, RtemsClockReqSet_Post_Timer_Nop }, { 0, 0, 0, RtemsClockReqSet_Post_Status_Ok, RtemsClockReqSet_Post_Clock_Set, RtemsClockReqSet_Post_Timer_Triggered }, { 0, 0, 0, RtemsClockReqSet_Post_Status_InvAddr, RtemsClockReqSet_Post_Clock_Nop, RtemsClockReqSet_Post_Timer_Nop } }; static const uint8_t RtemsClockReqSet_Map[] = { 1, 1, 2, 1, 1, 2, 1, 1, 2, 1, 1, 2, 1, 1, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 3, 3, 2, 1, 1, 2, 3, 3, 2, 4, 4, 4 }; static size_t RtemsClockReqSet_Scope( void *arg, char *buf, size_t n ) { RtemsClockReqSet_Context *ctx; ctx = arg; if ( ctx->Map.in_action_loop ) { return T_get_scope( RtemsClockReqSet_PreDesc, buf, n, ctx->Map.pcs ); } return 0; } static T_fixture RtemsClockReqSet_Fixture = { .setup = RtemsClockReqSet_Setup_Wrap, .stop = NULL, .teardown = RtemsClockReqSet_Teardown_Wrap, .scope = RtemsClockReqSet_Scope, .initial_context = &RtemsClockReqSet_Instance }; static inline RtemsClockReqSet_Entry RtemsClockReqSet_PopEntry( RtemsClockReqSet_Context *ctx ) { size_t index; index = ctx->Map.index; ctx->Map.index = index + 1; return RtemsClockReqSet_Entries[ RtemsClockReqSet_Map[ index ] ]; } static void RtemsClockReqSet_TestVariant( RtemsClockReqSet_Context *ctx ) { RtemsClockReqSet_Pre_ToD_Prepare( ctx, ctx->Map.pcs[ 0 ] ); RtemsClockReqSet_Pre_Hook_Prepare( ctx, ctx->Map.pcs[ 1 ] ); RtemsClockReqSet_Action( ctx ); RtemsClockReqSet_Post_Status_Check( ctx, ctx->Map.entry.Post_Status ); RtemsClockReqSet_Post_Clock_Check( ctx, ctx->Map.entry.Post_Clock ); RtemsClockReqSet_Post_Timer_Check( ctx, ctx->Map.entry.Post_Timer ); } /** * @fn void T_case_body_RtemsClockReqSet( void ) */ T_TEST_CASE_FIXTURE( RtemsClockReqSet, &RtemsClockReqSet_Fixture ) { RtemsClockReqSet_Context *ctx; ctx = T_fixture_context(); ctx->Map.in_action_loop = true; ctx->Map.index = 0; for ( ctx->Map.pcs[ 0 ] = RtemsClockReqSet_Pre_ToD_Valid; ctx->Map.pcs[ 0 ] < RtemsClockReqSet_Pre_ToD_NA; ++ctx->Map.pcs[ 0 ] ) { for ( ctx->Map.pcs[ 1 ] = RtemsClockReqSet_Pre_Hook_None; ctx->Map.pcs[ 1 ] < RtemsClockReqSet_Pre_Hook_NA; ++ctx->Map.pcs[ 1 ] ) { ctx->Map.entry = RtemsClockReqSet_PopEntry( ctx ); RtemsClockReqSet_Prepare( ctx ); RtemsClockReqSet_TestVariant( ctx ); } } } /** @} */