/* SPDX-License-Identifier: BSD-2-Clause */ /** * @file * * @ingroup RtemsTimerReqReset */ /* * 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 "tx-support.h" #include /** * @defgroup RtemsTimerReqReset spec:/rtems/timer/req/reset * * @ingroup TestsuitesValidationNoClock0 * * @{ */ typedef enum { RtemsTimerReqReset_Pre_Id_Valid, RtemsTimerReqReset_Pre_Id_Invalid, RtemsTimerReqReset_Pre_Id_NA } RtemsTimerReqReset_Pre_Id; typedef enum { RtemsTimerReqReset_Pre_Context_None, RtemsTimerReqReset_Pre_Context_Interrupt, RtemsTimerReqReset_Pre_Context_Server, RtemsTimerReqReset_Pre_Context_NA } RtemsTimerReqReset_Pre_Context; typedef enum { RtemsTimerReqReset_Pre_Clock_None, RtemsTimerReqReset_Pre_Clock_Ticks, RtemsTimerReqReset_Pre_Clock_Realtime, RtemsTimerReqReset_Pre_Clock_NA } RtemsTimerReqReset_Pre_Clock; typedef enum { RtemsTimerReqReset_Pre_State_Inactive, RtemsTimerReqReset_Pre_State_Scheduled, RtemsTimerReqReset_Pre_State_Pending, RtemsTimerReqReset_Pre_State_NA } RtemsTimerReqReset_Pre_State; typedef enum { RtemsTimerReqReset_Post_Status_Ok, RtemsTimerReqReset_Post_Status_InvId, RtemsTimerReqReset_Post_Status_NotDef, RtemsTimerReqReset_Post_Status_NA } RtemsTimerReqReset_Post_Status; typedef enum { RtemsTimerReqReset_Post_Context_None, RtemsTimerReqReset_Post_Context_Interrupt, RtemsTimerReqReset_Post_Context_Server, RtemsTimerReqReset_Post_Context_Nop, RtemsTimerReqReset_Post_Context_NA } RtemsTimerReqReset_Post_Context; typedef enum { RtemsTimerReqReset_Post_Clock_None, RtemsTimerReqReset_Post_Clock_Ticks, RtemsTimerReqReset_Post_Clock_Realtime, RtemsTimerReqReset_Post_Clock_Nop, RtemsTimerReqReset_Post_Clock_NA } RtemsTimerReqReset_Post_Clock; typedef enum { RtemsTimerReqReset_Post_State_Scheduled, RtemsTimerReqReset_Post_State_Nop, RtemsTimerReqReset_Post_State_NA } RtemsTimerReqReset_Post_State; typedef enum { RtemsTimerReqReset_Post_Interval_Last, RtemsTimerReqReset_Post_Interval_Nop, RtemsTimerReqReset_Post_Interval_NA } RtemsTimerReqReset_Post_Interval; typedef enum { RtemsTimerReqReset_Post_Routine_Last, RtemsTimerReqReset_Post_Routine_Nop, RtemsTimerReqReset_Post_Routine_NA } RtemsTimerReqReset_Post_Routine; typedef enum { RtemsTimerReqReset_Post_UserData_Last, RtemsTimerReqReset_Post_UserData_Nop, RtemsTimerReqReset_Post_UserData_NA } RtemsTimerReqReset_Post_UserData; typedef struct { uint32_t Skip : 1; uint32_t Pre_Id_NA : 1; uint32_t Pre_Context_NA : 1; uint32_t Pre_Clock_NA : 1; uint32_t Pre_State_NA : 1; uint32_t Post_Status : 2; uint32_t Post_Context : 3; uint32_t Post_Clock : 3; uint32_t Post_State : 2; uint32_t Post_Interval : 2; uint32_t Post_Routine : 2; uint32_t Post_UserData : 2; } RtemsTimerReqReset_Entry; typedef enum { PRE_NONE = 0, PRE_INTERRUPT = 1, PRE_SERVER = 2 } PreConditionContext; typedef enum { SCHEDULE_NONE = 0, SCHEDULE_SOON = 1, SCHEDULE_LATER = 2, SCHEDULE_MAX = 5 } Scheduling_Ticks; /** * @brief Test context for spec:/rtems/timer/req/reset test case. */ typedef struct { /** * @brief This member contains a valid id of a timer. */ rtems_id timer_id; /** * @brief This member specifies the ``id`` parameter for the action. */ rtems_id id_param; /** * @brief This member contains the returned status code of the action. */ rtems_status_code status; /** * @brief This member contains the user data for Timer Service Routine "A". */ void *data_a; /** * @brief This member contains the user data for Timer Service Routine "B". */ void *data_b; /** * @brief This member contains the counter for invocations of Timer Service * Routine "A". */ int invocations_a; /** * @brief This member contains the counter for invocations of Timer Service * Routine "B". */ int invocations_b; /** * @brief This member contains the number of ticks needed to fire the Timer * Service Routine. */ Scheduling_Ticks ticks_till_fire; /** * @brief This member identifier the user data given to the Timer Service * Routine when called. It either the address of member data_a or data_b. */ void **routine_user_data; /** * @brief This member contains a reference to the user data to be used in the * next call to the Timer Service Routine. */ void **scheduled_user_data; /** * @brief This member contains 1 if the Timer Service Routine "A" has been * scheduled otherwise 0. */ int scheduled_invocations_a; /** * @brief This member contains 1 if the Timer Service Routine "B" has been * scheduled otherwise 0. */ int scheduled_invocations_b; /** * @brief This member specifies the number of ticks till the scheduled Timer * Service Routine should fire. */ Scheduling_Ticks scheduled_ticks_till_fire; /** * @brief This member specifies which pre-condition context (none, interrupt * context, server context) must be created before the rtems_timer_reset() * action gets executed. */ PreConditionContext pre_cond_contex; /** * @brief This member stores internal clock and context settings of the timer * before the execution of the test action. */ Timer_Classes pre_class; /** * @brief This member stores the state of the timer before the execution of * the test action. */ Timer_States pre_state; /** * @brief This member stores the state of the timer after the execution of * the test action. */ Timer_States post_state; /** * @brief This member stores the scheduling data of the timer before the * execution of the test action. */ Timer_Scheduling_Data pre_scheduling_data; /** * @brief This member stores the scheduling data of the timer after the * execution of the test action. */ Timer_Scheduling_Data post_scheduling_data; struct { /** * @brief This member defines the pre-condition states for the next action. */ size_t pcs[ 4 ]; /** * @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. */ RtemsTimerReqReset_Entry entry; /** * @brief If this member is true, then the current transition variant * should be skipped. */ bool skip; } Map; } RtemsTimerReqReset_Context; static RtemsTimerReqReset_Context RtemsTimerReqReset_Instance; static const char * const RtemsTimerReqReset_PreDesc_Id[] = { "Valid", "Invalid", "NA" }; static const char * const RtemsTimerReqReset_PreDesc_Context[] = { "None", "Interrupt", "Server", "NA" }; static const char * const RtemsTimerReqReset_PreDesc_Clock[] = { "None", "Ticks", "Realtime", "NA" }; static const char * const RtemsTimerReqReset_PreDesc_State[] = { "Inactive", "Scheduled", "Pending", "NA" }; static const char * const * const RtemsTimerReqReset_PreDesc[] = { RtemsTimerReqReset_PreDesc_Id, RtemsTimerReqReset_PreDesc_Context, RtemsTimerReqReset_PreDesc_Clock, RtemsTimerReqReset_PreDesc_State, NULL }; static const rtems_time_of_day tod_now = { 2000, 1, 1, 0, 0, 0, 0 }; static const rtems_time_of_day tod_schedule = { 2000, 1, 1, 1, 0, 0, 0 }; static const rtems_time_of_day tod_fire = { 2000, 1, 2, 0, 0, 0, 0 }; static Scheduling_Ticks TriggerTimer( const RtemsTimerReqReset_Context *ctx ) { int ticks_fired = SCHEDULE_NONE; int invocations_old = ctx->invocations_a + ctx->invocations_b; /* Fire the timer service routine for ticks and realtime clock */ int i; for ( i = 1; i <= SCHEDULE_MAX; ++i ) { ClockTick(); if ( ctx->invocations_a + ctx->invocations_b > invocations_old ) { ticks_fired = i; break; } } T_rsc_success( rtems_clock_set( &tod_fire ) ); return ticks_fired; } static void TimerServiceRoutineA( rtems_id timer_id, void *user_data ) { RtemsTimerReqReset_Context *ctx = *(RtemsTimerReqReset_Context **) user_data; ++( ctx->invocations_a ); ctx->routine_user_data = user_data; } static void TimerServiceRoutineB( rtems_id timer_id, void *user_data ) { RtemsTimerReqReset_Context *ctx = *(RtemsTimerReqReset_Context **) user_data; ++( ctx->invocations_b ); ctx->routine_user_data = user_data; } static void RtemsTimerReqReset_Pre_Id_Prepare( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Pre_Id state ) { switch ( state ) { case RtemsTimerReqReset_Pre_Id_Valid: { /* * While the ``id`` parameter is valid. */ ctx->id_param = ctx->timer_id; break; } case RtemsTimerReqReset_Pre_Id_Invalid: { /* * While the ``id`` parameter is invalid. */ ctx->id_param = RTEMS_ID_NONE; break; } case RtemsTimerReqReset_Pre_Id_NA: break; } } static void RtemsTimerReqReset_Pre_Context_Prepare( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Pre_Context state ) { switch ( state ) { case RtemsTimerReqReset_Pre_Context_None: { /* * While the Timer Service Routine has never been scheduled since * creation of the timer. See also none. */ ctx->pre_cond_contex = PRE_NONE; break; } case RtemsTimerReqReset_Pre_Context_Interrupt: { /* * While the timer is in interrupt context. */ ctx->pre_cond_contex = PRE_INTERRUPT; break; } case RtemsTimerReqReset_Pre_Context_Server: { /* * While the timer is in server context. */ ctx->pre_cond_contex = PRE_SERVER; break; } case RtemsTimerReqReset_Pre_Context_NA: break; } } static void RtemsTimerReqReset_Pre_Clock_Prepare( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Pre_Clock state ) { switch ( state ) { case RtemsTimerReqReset_Pre_Clock_None: { /* * While the timer has never been scheduled since creation of the timer. */ T_eq_int( ctx->pre_cond_contex, PRE_NONE ); break; } case RtemsTimerReqReset_Pre_Clock_Ticks: { /* * While the clock used to determine when the timer will fire is the * ticks based clock. */ rtems_status_code status; if ( ctx->pre_cond_contex == PRE_INTERRUPT ) { ctx->scheduled_ticks_till_fire = SCHEDULE_SOON; ctx->scheduled_invocations_a = 1; ctx->scheduled_user_data = &ctx->data_a; status = rtems_timer_fire_after( ctx->timer_id, ctx->scheduled_ticks_till_fire, TimerServiceRoutineA, ctx->scheduled_user_data ); } else { ctx->scheduled_ticks_till_fire = SCHEDULE_LATER; ctx->scheduled_invocations_b = 1; ctx->scheduled_user_data = &ctx->data_b; status = rtems_timer_server_fire_after( ctx->timer_id, ctx->scheduled_ticks_till_fire, TimerServiceRoutineB, ctx->scheduled_user_data ); } T_rsc_success( status ); break; } case RtemsTimerReqReset_Pre_Clock_Realtime: { /* * While the clock used to determine when the timer will fire is the * realtime clock. */ rtems_status_code status; if ( ctx->pre_cond_contex == PRE_INTERRUPT ) { status = rtems_timer_fire_when( ctx->timer_id, &tod_schedule, TimerServiceRoutineA, &ctx->data_a ); } else { status = rtems_timer_server_fire_when( ctx->timer_id, &tod_schedule, TimerServiceRoutineB, &ctx->data_b ); } T_rsc_success( status ); break; } case RtemsTimerReqReset_Pre_Clock_NA: break; } } static void RtemsTimerReqReset_Pre_State_Prepare( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Pre_State state ) { switch ( state ) { case RtemsTimerReqReset_Pre_State_Inactive: { /* * While the timer is in inactive state. */ TriggerTimer( ctx ); T_eq_int( ctx->invocations_a + ctx->invocations_b, ( ctx->pre_cond_contex == PRE_NONE ) ? 0 : 1 ); ctx->invocations_a = 0; ctx->invocations_b = 0; ctx->pre_state = TIMER_INACTIVE; break; } case RtemsTimerReqReset_Pre_State_Scheduled: { /* * While the timer is in scheduled state. */ /* The timer was already scheduled in the "Clock" pre-conditions. */ ctx->pre_state = TIMER_SCHEDULED; break; } case RtemsTimerReqReset_Pre_State_Pending: { /* * While the timer is in pending state. */ T_rsc_success( rtems_task_suspend( GetTimerServerTaskId() ) ); TriggerTimer( ctx ); T_eq_int( ctx->invocations_a + ctx->invocations_b, 0 ); ctx->pre_state = TIMER_PENDING; break; } case RtemsTimerReqReset_Pre_State_NA: break; } } static void RtemsTimerReqReset_Post_Status_Check( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Post_Status state ) { switch ( state ) { case RtemsTimerReqReset_Post_Status_Ok: { /* * The return status of rtems_timer_reset() shall be RTEMS_SUCCESSFUL. */ T_rsc_success( ctx->status ); break; } case RtemsTimerReqReset_Post_Status_InvId: { /* * The return status of rtems_timer_reset() shall be RTEMS_INVALID_ID. */ T_rsc( ctx->status, RTEMS_INVALID_ID ); break; } case RtemsTimerReqReset_Post_Status_NotDef: { /* * The return status of rtems_timer_reset() shall be RTEMS_NOT_DEFINED */ T_rsc( ctx->status, RTEMS_NOT_DEFINED ); break; } case RtemsTimerReqReset_Post_Status_NA: break; } } static void RtemsTimerReqReset_Post_Context_Check( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Post_Context state ) { Timer_Classes class; class = GetTimerClass( ctx->timer_id ); switch ( state ) { case RtemsTimerReqReset_Post_Context_None: { /* * The timer shall have never been scheduled. See also none. */ T_eq_int( class, TIMER_DORMANT ); break; } case RtemsTimerReqReset_Post_Context_Interrupt: { /* * The timer shall be in interrupt context. */ T_eq_int( class & TIMER_CLASS_BIT_ON_TASK, 0 ); break; } case RtemsTimerReqReset_Post_Context_Server: { /* * The timer shall be in server context. */ T_eq_int( class & TIMER_CLASS_BIT_ON_TASK, TIMER_CLASS_BIT_ON_TASK ); break; } case RtemsTimerReqReset_Post_Context_Nop: { /* * Objects referenced by the ``id`` parameter in past call to * rtems_timer_reset() shall not be accessed by the rtems_timer_reset() * call. See also Nop. */ T_eq_int( class, ctx->pre_class ); break; } case RtemsTimerReqReset_Post_Context_NA: break; } } static void RtemsTimerReqReset_Post_Clock_Check( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Post_Clock state ) { Timer_Classes class; class = GetTimerClass( ctx->timer_id ); switch ( state ) { case RtemsTimerReqReset_Post_Clock_None: { /* * The timer shall have never been scheduled. */ T_eq_int( class, TIMER_DORMANT ); break; } case RtemsTimerReqReset_Post_Clock_Ticks: { /* * The timer shall use the ticks based clock. */ T_eq_int( class & TIMER_CLASS_BIT_TIME_OF_DAY, 0 ); break; } case RtemsTimerReqReset_Post_Clock_Realtime: { /* * The timer shall use the realtime clock. */ T_eq_int( class & TIMER_CLASS_BIT_TIME_OF_DAY, TIMER_CLASS_BIT_TIME_OF_DAY ); break; } case RtemsTimerReqReset_Post_Clock_Nop: { /* * Objects referenced by the ``id`` parameter in past call to * rtems_timer_reset() shall not be accessed by the rtems_timer_reset() * call. */ T_eq_int( class, ctx->pre_class ); break; } case RtemsTimerReqReset_Post_Clock_NA: break; } } static void RtemsTimerReqReset_Post_State_Check( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Post_State state ) { switch ( state ) { case RtemsTimerReqReset_Post_State_Scheduled: { /* * The timer shall be in scheduled state. */ ctx->ticks_till_fire = TriggerTimer( ctx ); T_eq_int( ctx->invocations_a + ctx->invocations_b, 1 ); break; } case RtemsTimerReqReset_Post_State_Nop: { /* * Objects referenced by the ``id`` parameter in past call to * rtems_timer_reset() shall not be accessed by the rtems_timer_reset() * call. */ T_eq_int( ctx->post_state, ctx->pre_state ); break; } case RtemsTimerReqReset_Post_State_NA: break; } } static void RtemsTimerReqReset_Post_Interval_Check( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Post_Interval state ) { switch ( state ) { case RtemsTimerReqReset_Post_Interval_Last: { /* * The Timer Service Routine shall be invoked the same number of ticks * (see tick), as defined by the last scheduled interval, after a point * in time during the execution of the rtems_timer_reset() call. */ T_eq_int( ctx->ticks_till_fire, ctx->scheduled_ticks_till_fire ); break; } case RtemsTimerReqReset_Post_Interval_Nop: { /* * If and when the Timer Service Routine will be invoked shall not be * changed by the past call to rtems_timer_reset(). */ /* * Whether the timer is scheduled has already been tested by the * "Nop" "State" post-condition above. */ T_eq_u32( ctx->post_scheduling_data.interval, ctx->pre_scheduling_data.interval ); break; } case RtemsTimerReqReset_Post_Interval_NA: break; } } static void RtemsTimerReqReset_Post_Routine_Check( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Post_Routine state ) { switch ( state ) { case RtemsTimerReqReset_Post_Routine_Last: { /* * The function reference used to invoke the Timer Service Routine when * the timer will fire shall be the same one as the last one scheduled. */ T_eq_int( ctx->invocations_a, ctx->scheduled_invocations_a ); T_eq_int( ctx->invocations_b, ctx->scheduled_invocations_b ); break; } case RtemsTimerReqReset_Post_Routine_Nop: { /* * The function reference used for any invocation of the Timer Service * Routine shall not be changed by the past call to rtems_timer_reset(). */ T_eq_ptr( ctx->post_scheduling_data.routine, ctx->pre_scheduling_data.routine ); break; } case RtemsTimerReqReset_Post_Routine_NA: break; } } static void RtemsTimerReqReset_Post_UserData_Check( RtemsTimerReqReset_Context *ctx, RtemsTimerReqReset_Post_UserData state ) { switch ( state ) { case RtemsTimerReqReset_Post_UserData_Last: { /* * The user data argument for invoking the Timer Service Routine when the * timer will fire shall be the same as the last scheduled user data * argument. */ T_eq_ptr( ctx->routine_user_data, ctx->scheduled_user_data); break; } case RtemsTimerReqReset_Post_UserData_Nop: { /* * The user data argument used for any invocation of the Timer Service * Routine shall not be changed by the past call to rtems_timer_reset(). */ T_eq_ptr( ctx->post_scheduling_data.user_data, ctx->pre_scheduling_data.user_data ); break; } case RtemsTimerReqReset_Post_UserData_NA: break; } } static void RtemsTimerReqReset_Setup( RtemsTimerReqReset_Context *ctx ) { rtems_status_code status; status = rtems_timer_initiate_server( RTEMS_TIMER_SERVER_DEFAULT_PRIORITY, RTEMS_MINIMUM_STACK_SIZE, RTEMS_DEFAULT_ATTRIBUTES ); T_rsc_success( status ); } static void RtemsTimerReqReset_Setup_Wrap( void *arg ) { RtemsTimerReqReset_Context *ctx; ctx = arg; ctx->Map.in_action_loop = false; RtemsTimerReqReset_Setup( ctx ); } /** * @brief Make sure the timer server is not running and the realtime clock is * not set after this test. */ static void RtemsTimerReqReset_Teardown( RtemsTimerReqReset_Context *ctx ) { DeleteTimerServer(); UnsetClock(); } static void RtemsTimerReqReset_Teardown_Wrap( void *arg ) { RtemsTimerReqReset_Context *ctx; ctx = arg; ctx->Map.in_action_loop = false; RtemsTimerReqReset_Teardown( ctx ); } static void RtemsTimerReqReset_Prepare( RtemsTimerReqReset_Context *ctx ) { rtems_status_code status; status = rtems_timer_create( rtems_build_name( 'T', 'I', 'M', 'E' ), &ctx->timer_id ); T_rsc_success( status ); ctx->data_a = ctx; ctx->data_b = ctx; ctx->invocations_a = 0; ctx->invocations_b = 0; ctx->ticks_till_fire = SCHEDULE_NONE; ctx->routine_user_data = NULL; ctx->scheduled_invocations_a = 0; ctx->scheduled_invocations_b = 0; ctx->scheduled_ticks_till_fire = SCHEDULE_NONE; T_rsc_success( rtems_clock_set( &tod_now ) ); } static void RtemsTimerReqReset_Action( RtemsTimerReqReset_Context *ctx ) { GetTimerSchedulingData( ctx->timer_id, &ctx->pre_scheduling_data ); ctx->pre_class = GetTimerClass( ctx->timer_id ); ctx->status = rtems_timer_reset( ctx->id_param ); ctx->post_state = GetTimerState( ctx->timer_id ); GetTimerSchedulingData( ctx->timer_id, &ctx->post_scheduling_data ); /* Ignoring return status: the timer server task may be suspended or not. */ rtems_task_resume( GetTimerServerTaskId() ); } static void RtemsTimerReqReset_Cleanup( RtemsTimerReqReset_Context *ctx ) { T_rsc_success( rtems_timer_delete( ctx->timer_id ) ); } static const RtemsTimerReqReset_Entry RtemsTimerReqReset_Entries[] = { { 1, 0, 0, 0, 0, RtemsTimerReqReset_Post_Status_NA, RtemsTimerReqReset_Post_Context_NA, RtemsTimerReqReset_Post_Clock_NA, RtemsTimerReqReset_Post_State_NA, RtemsTimerReqReset_Post_Interval_NA, RtemsTimerReqReset_Post_Routine_NA, RtemsTimerReqReset_Post_UserData_NA }, { 0, 0, 0, 0, 0, RtemsTimerReqReset_Post_Status_InvId, RtemsTimerReqReset_Post_Context_Nop, RtemsTimerReqReset_Post_Clock_Nop, RtemsTimerReqReset_Post_State_Nop, RtemsTimerReqReset_Post_Interval_Nop, RtemsTimerReqReset_Post_Routine_Nop, RtemsTimerReqReset_Post_UserData_Nop }, { 0, 0, 0, 0, 0, RtemsTimerReqReset_Post_Status_NotDef, RtemsTimerReqReset_Post_Context_Nop, RtemsTimerReqReset_Post_Clock_Nop, RtemsTimerReqReset_Post_State_Nop, RtemsTimerReqReset_Post_Interval_Nop, RtemsTimerReqReset_Post_Routine_Nop, RtemsTimerReqReset_Post_UserData_Nop }, { 0, 0, 0, 0, 0, RtemsTimerReqReset_Post_Status_Ok, RtemsTimerReqReset_Post_Context_Server, RtemsTimerReqReset_Post_Clock_Ticks, RtemsTimerReqReset_Post_State_Scheduled, RtemsTimerReqReset_Post_Interval_Last, RtemsTimerReqReset_Post_Routine_Last, RtemsTimerReqReset_Post_UserData_Last }, { 0, 0, 0, 0, 0, RtemsTimerReqReset_Post_Status_Ok, RtemsTimerReqReset_Post_Context_Interrupt, RtemsTimerReqReset_Post_Clock_Ticks, RtemsTimerReqReset_Post_State_Scheduled, RtemsTimerReqReset_Post_Interval_Last, RtemsTimerReqReset_Post_Routine_Last, RtemsTimerReqReset_Post_UserData_Last } }; static const uint8_t RtemsTimerReqReset_Map[] = { 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 4, 4, 0, 2, 2, 0, 0, 0, 0, 3, 3, 3, 2, 2, 2, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 1, 1, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1 }; static size_t RtemsTimerReqReset_Scope( void *arg, char *buf, size_t n ) { RtemsTimerReqReset_Context *ctx; ctx = arg; if ( ctx->Map.in_action_loop ) { return T_get_scope( RtemsTimerReqReset_PreDesc, buf, n, ctx->Map.pcs ); } return 0; } static T_fixture RtemsTimerReqReset_Fixture = { .setup = RtemsTimerReqReset_Setup_Wrap, .stop = NULL, .teardown = RtemsTimerReqReset_Teardown_Wrap, .scope = RtemsTimerReqReset_Scope, .initial_context = &RtemsTimerReqReset_Instance }; static inline RtemsTimerReqReset_Entry RtemsTimerReqReset_PopEntry( RtemsTimerReqReset_Context *ctx ) { size_t index; index = ctx->Map.index; ctx->Map.index = index + 1; return RtemsTimerReqReset_Entries[ RtemsTimerReqReset_Map[ index ] ]; } static void RtemsTimerReqReset_TestVariant( RtemsTimerReqReset_Context *ctx ) { RtemsTimerReqReset_Pre_Id_Prepare( ctx, ctx->Map.pcs[ 0 ] ); RtemsTimerReqReset_Pre_Context_Prepare( ctx, ctx->Map.pcs[ 1 ] ); RtemsTimerReqReset_Pre_Clock_Prepare( ctx, ctx->Map.pcs[ 2 ] ); RtemsTimerReqReset_Pre_State_Prepare( ctx, ctx->Map.pcs[ 3 ] ); RtemsTimerReqReset_Action( ctx ); RtemsTimerReqReset_Post_Status_Check( ctx, ctx->Map.entry.Post_Status ); RtemsTimerReqReset_Post_Context_Check( ctx, ctx->Map.entry.Post_Context ); RtemsTimerReqReset_Post_Clock_Check( ctx, ctx->Map.entry.Post_Clock ); RtemsTimerReqReset_Post_State_Check( ctx, ctx->Map.entry.Post_State ); RtemsTimerReqReset_Post_Interval_Check( ctx, ctx->Map.entry.Post_Interval ); RtemsTimerReqReset_Post_Routine_Check( ctx, ctx->Map.entry.Post_Routine ); RtemsTimerReqReset_Post_UserData_Check( ctx, ctx->Map.entry.Post_UserData ); } /** * @fn void T_case_body_RtemsTimerReqReset( void ) */ T_TEST_CASE_FIXTURE( RtemsTimerReqReset, &RtemsTimerReqReset_Fixture ) { RtemsTimerReqReset_Context *ctx; ctx = T_fixture_context(); ctx->Map.in_action_loop = true; ctx->Map.index = 0; for ( ctx->Map.pcs[ 0 ] = RtemsTimerReqReset_Pre_Id_Valid; ctx->Map.pcs[ 0 ] < RtemsTimerReqReset_Pre_Id_NA; ++ctx->Map.pcs[ 0 ] ) { for ( ctx->Map.pcs[ 1 ] = RtemsTimerReqReset_Pre_Context_None; ctx->Map.pcs[ 1 ] < RtemsTimerReqReset_Pre_Context_NA; ++ctx->Map.pcs[ 1 ] ) { for ( ctx->Map.pcs[ 2 ] = RtemsTimerReqReset_Pre_Clock_None; ctx->Map.pcs[ 2 ] < RtemsTimerReqReset_Pre_Clock_NA; ++ctx->Map.pcs[ 2 ] ) { for ( ctx->Map.pcs[ 3 ] = RtemsTimerReqReset_Pre_State_Inactive; ctx->Map.pcs[ 3 ] < RtemsTimerReqReset_Pre_State_NA; ++ctx->Map.pcs[ 3 ] ) { ctx->Map.entry = RtemsTimerReqReset_PopEntry( ctx ); if ( ctx->Map.entry.Skip ) { continue; } RtemsTimerReqReset_Prepare( ctx ); RtemsTimerReqReset_TestVariant( ctx ); RtemsTimerReqReset_Cleanup( ctx ); } } } } } /** @} */