/* SPDX-License-Identifier: BSD-2-Clause */
/**
* @file
*
* @ingroup RtemsSignalReqSend
*/
/*
* 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 <rtems.h>
#include "tx-support.h"
#include <rtems/test.h>
/**
* @defgroup RtemsSignalReqSend spec:/rtems/signal/req/send
*
* @ingroup TestsuitesValidationNoClock0
* @ingroup TestsuitesValidationOneCpu0
*
* @{
*/
typedef enum {
RtemsSignalReqSend_Pre_Task_NoObj,
RtemsSignalReqSend_Pre_Task_Self,
RtemsSignalReqSend_Pre_Task_Other,
RtemsSignalReqSend_Pre_Task_NA
} RtemsSignalReqSend_Pre_Task;
typedef enum {
RtemsSignalReqSend_Pre_Set_Zero,
RtemsSignalReqSend_Pre_Set_NonZero,
RtemsSignalReqSend_Pre_Set_NA
} RtemsSignalReqSend_Pre_Set;
typedef enum {
RtemsSignalReqSend_Pre_Handler_Invalid,
RtemsSignalReqSend_Pre_Handler_Valid,
RtemsSignalReqSend_Pre_Handler_NA
} RtemsSignalReqSend_Pre_Handler;
typedef enum {
RtemsSignalReqSend_Pre_ASR_Enabled,
RtemsSignalReqSend_Pre_ASR_Disabled,
RtemsSignalReqSend_Pre_ASR_NA
} RtemsSignalReqSend_Pre_ASR;
typedef enum {
RtemsSignalReqSend_Pre_Nested_Yes,
RtemsSignalReqSend_Pre_Nested_No,
RtemsSignalReqSend_Pre_Nested_NA
} RtemsSignalReqSend_Pre_Nested;
typedef enum {
RtemsSignalReqSend_Post_Status_Ok,
RtemsSignalReqSend_Post_Status_InvNum,
RtemsSignalReqSend_Post_Status_InvId,
RtemsSignalReqSend_Post_Status_NotDef,
RtemsSignalReqSend_Post_Status_NA
} RtemsSignalReqSend_Post_Status;
typedef enum {
RtemsSignalReqSend_Post_Handler_NoCall,
RtemsSignalReqSend_Post_Handler_DuringSend,
RtemsSignalReqSend_Post_Handler_AfterDispatch,
RtemsSignalReqSend_Post_Handler_AfterEnable,
RtemsSignalReqSend_Post_Handler_NA
} RtemsSignalReqSend_Post_Handler;
typedef enum {
RtemsSignalReqSend_Post_Recursive_Yes,
RtemsSignalReqSend_Post_Recursive_No,
RtemsSignalReqSend_Post_Recursive_NA
} RtemsSignalReqSend_Post_Recursive;
typedef struct {
uint16_t Skip : 1;
uint16_t Pre_Task_NA : 1;
uint16_t Pre_Set_NA : 1;
uint16_t Pre_Handler_NA : 1;
uint16_t Pre_ASR_NA : 1;
uint16_t Pre_Nested_NA : 1;
uint16_t Post_Status : 3;
uint16_t Post_Handler : 3;
uint16_t Post_Recursive : 2;
} RtemsSignalReqSend_Entry;
/**
* @brief Test context for spec:/rtems/signal/req/send test case.
*/
typedef struct {
rtems_id runner_id;
rtems_id worker_id;
rtems_asr_entry handler;
size_t nested;
size_t handler_calls;
size_t calls_after_send;
size_t calls_after_dispatch;
size_t calls_after_enable;
rtems_signal_set processed_signal_sets[ 2 ];
uintptr_t stack_pointers[ 2 ];
rtems_mode mode;
rtems_status_code status;
rtems_id id;
rtems_signal_set signal_set;
struct {
/**
* @brief This member defines the pre-condition states for the next action.
*/
size_t pcs[ 5 ];
/**
* @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.
*/
RtemsSignalReqSend_Entry entry;
/**
* @brief If this member is true, then the current transition variant
* should be skipped.
*/
bool skip;
} Map;
} RtemsSignalReqSend_Context;
static RtemsSignalReqSend_Context
RtemsSignalReqSend_Instance;
static const char * const RtemsSignalReqSend_PreDesc_Task[] = {
"NoObj",
"Self",
"Other",
"NA"
};
static const char * const RtemsSignalReqSend_PreDesc_Set[] = {
"Zero",
"NonZero",
"NA"
};
static const char * const RtemsSignalReqSend_PreDesc_Handler[] = {
"Invalid",
"Valid",
"NA"
};
static const char * const RtemsSignalReqSend_PreDesc_ASR[] = {
"Enabled",
"Disabled",
"NA"
};
static const char * const RtemsSignalReqSend_PreDesc_Nested[] = {
"Yes",
"No",
"NA"
};
static const char * const * const RtemsSignalReqSend_PreDesc[] = {
RtemsSignalReqSend_PreDesc_Task,
RtemsSignalReqSend_PreDesc_Set,
RtemsSignalReqSend_PreDesc_Handler,
RtemsSignalReqSend_PreDesc_ASR,
RtemsSignalReqSend_PreDesc_Nested,
NULL
};
#define EVENT_START RTEMS_EVENT_0
#define EVENT_SEND_DONE RTEMS_EVENT_1
#define EVENT_DO_ENABLE RTEMS_EVENT_2
#define EVENT_END RTEMS_EVENT_3
#define EVENT_WORKER_DONE RTEMS_EVENT_4
typedef RtemsSignalReqSend_Context Context;
static void WorkerDone( const Context *ctx )
{
#if defined(RTEMS_SMP)
if ( rtems_scheduler_get_processor_maximum() > 1 ) {
SendEvents( ctx->runner_id, EVENT_WORKER_DONE );
}
#endif
}
static void SendEventsToWorker( const Context *ctx, rtems_event_set events )
{
SendEvents( ctx->worker_id, events );
#if defined(RTEMS_SMP)
if ( rtems_scheduler_get_processor_maximum() > 1 ) {
events = ReceiveAnyEvents();
T_eq_u32( events, EVENT_WORKER_DONE );
}
#endif
}
static void SignalHandler( rtems_signal_set signal_set )
{
Context *ctx;
size_t i;
size_t n;
ctx = T_fixture_context();
i = ctx->handler_calls;
n = RTEMS_ARRAY_SIZE( ctx->processed_signal_sets );
ctx->processed_signal_sets[ i % n ] = signal_set;
ctx->stack_pointers[ i % n ] = (uintptr_t) __builtin_frame_address( 0 );
T_lt_sz( i, n );
ctx->handler_calls = i + 1;
if ( ctx->nested != 0 && i == 0 ) {
rtems_status_code sc;
if ( ctx->id == ctx->worker_id ) {
rtems_event_set events;
sc = rtems_signal_catch( ctx->handler, RTEMS_NO_ASR );
T_rsc_success( sc );
WorkerDone( ctx );
events = ReceiveAnyEvents();
T_eq_u32( events, EVENT_SEND_DONE );
WorkerDone( ctx );
events = ReceiveAnyEvents();
T_eq_u32( events, EVENT_DO_ENABLE );
} else {
sc = rtems_signal_catch( ctx->handler, RTEMS_NO_ASR );
T_rsc_success( sc );
ctx->status = rtems_signal_send( ctx->id, ctx->signal_set );
ctx->calls_after_send = ctx->handler_calls;
ctx->calls_after_dispatch = ctx->handler_calls;
}
}
}
static void Worker( rtems_task_argument arg )
{
Context *ctx;
ctx = (Context *) arg;
while ( true ) {
rtems_status_code sc;
rtems_event_set events;
events = ReceiveAnyEvents();
T_eq_u32( events, EVENT_START );
if ( ctx->nested != 0 ) {
sc = rtems_signal_catch( SignalHandler, ctx->mode );
T_rsc_success( sc );
sc = rtems_signal_send( RTEMS_SELF, 0x600df00d );
T_rsc_success( sc );
WorkerDone( ctx );
} else {
rtems_mode mode;
sc = rtems_task_mode( ctx->mode, RTEMS_ASR_MASK, &mode );
T_rsc_success( sc );
sc = rtems_signal_catch( ctx->handler, RTEMS_NO_ASR );
T_rsc_success( sc );
WorkerDone( ctx );
events = ReceiveAnyEvents();
T_eq_u32( events, EVENT_SEND_DONE );
WorkerDone( ctx );
events = ReceiveAnyEvents();
T_eq_u32( events, EVENT_DO_ENABLE );
sc = rtems_task_mode( mode, RTEMS_ASR_MASK, &mode );
T_rsc_success( sc );
WorkerDone( ctx );
}
events = ReceiveAnyEvents();
T_eq_u32( events, EVENT_END );
WorkerDone( ctx );
}
}
static void RtemsSignalReqSend_Pre_Task_Prepare(
RtemsSignalReqSend_Context *ctx,
RtemsSignalReqSend_Pre_Task state
)
{
switch ( state ) {
case RtemsSignalReqSend_Pre_Task_NoObj: {
/*
* While the ``id`` parameter is not associated with a task.
*/
ctx->id = 0xffffffff;
break;
}
case RtemsSignalReqSend_Pre_Task_Self: {
/*
* While the ``id`` parameter is associated with the calling task.
*/
ctx->id = RTEMS_SELF;
break;
}
case RtemsSignalReqSend_Pre_Task_Other: {
/*
* While the ``id`` parameter is associated with a task other than the
* calling task.
*/
ctx->id = ctx->worker_id;
break;
}
case RtemsSignalReqSend_Pre_Task_NA:
break;
}
}
static void RtemsSignalReqSend_Pre_Set_Prepare(
RtemsSignalReqSend_Context *ctx,
RtemsSignalReqSend_Pre_Set state
)
{
switch ( state ) {
case RtemsSignalReqSend_Pre_Set_Zero: {
/*
* While the ``signal_set`` parameter is zero.
*/
ctx->signal_set = 0;
break;
}
case RtemsSignalReqSend_Pre_Set_NonZero: {
/*
* While the ``signal_set`` parameter is non-zero.
*/
ctx->signal_set = 0xdeadbeef;
break;
}
case RtemsSignalReqSend_Pre_Set_NA:
break;
}
}
static void RtemsSignalReqSend_Pre_Handler_Prepare(
RtemsSignalReqSend_Context *ctx,
RtemsSignalReqSend_Pre_Handler state
)
{
switch ( state ) {
case RtemsSignalReqSend_Pre_Handler_Invalid: {
/*
* While the target task has no valid ASR handler installed.
*/
ctx->handler = NULL;
break;
}
case RtemsSignalReqSend_Pre_Handler_Valid: {
/*
* While the target task has a valid ASR handler installed.
*/
ctx->handler = SignalHandler;
break;
}
case RtemsSignalReqSend_Pre_Handler_NA:
break;
}
}
static void RtemsSignalReqSend_Pre_ASR_Prepare(
RtemsSignalReqSend_Context *ctx,
RtemsSignalReqSend_Pre_ASR state
)
{
switch ( state ) {
case RtemsSignalReqSend_Pre_ASR_Enabled: {
/*
* While the target task has ASR processing enabled.
*/
ctx->mode = RTEMS_DEFAULT_MODES;
break;
}
case RtemsSignalReqSend_Pre_ASR_Disabled: {
/*
* While the target task has ASR processing disabled.
*/
ctx->mode = RTEMS_NO_ASR;
break;
}
case RtemsSignalReqSend_Pre_ASR_NA:
break;
}
}
static void RtemsSignalReqSend_Pre_Nested_Prepare(
RtemsSignalReqSend_Context *ctx,
RtemsSignalReqSend_Pre_Nested state
)
{
switch ( state ) {
case RtemsSignalReqSend_Pre_Nested_Yes: {
/*
* While the target task processes an asynchronous signal.
*/
ctx->nested = 1;
break;
}
case RtemsSignalReqSend_Pre_Nested_No: {
/*
* While the target task does not process an asynchronous signal.
*/
ctx->nested = 0;
break;
}
case RtemsSignalReqSend_Pre_Nested_NA:
break;
}
}
static void RtemsSignalReqSend_Post_Status_Check(
RtemsSignalReqSend_Context *ctx,
RtemsSignalReqSend_Post_Status state
)
{
switch ( state ) {
case RtemsSignalReqSend_Post_Status_Ok: {
/*
* The return status of rtems_signal_send() shall be RTEMS_SUCCESSFUL.
*/
T_rsc_success( ctx->status );
break;
}
case RtemsSignalReqSend_Post_Status_InvNum: {
/*
* The return status of rtems_signal_send() shall be
* RTEMS_INVALID_NUMBER.
*/
T_rsc( ctx->status, RTEMS_INVALID_NUMBER );
break;
}
case RtemsSignalReqSend_Post_Status_InvId: {
/*
* The return status of rtems_signal_send() shall be RTEMS_INVALID_ID.
*/
T_rsc( ctx->status, RTEMS_INVALID_ID );
break;
}
case RtemsSignalReqSend_Post_Status_NotDef: {
/*
* The return status of rtems_signal_send() shall be RTEMS_NOT_DEFINED.
*/
T_rsc( ctx->status, RTEMS_NOT_DEFINED );
break;
}
case RtemsSignalReqSend_Post_Status_NA:
break;
}
}
static void RtemsSignalReqSend_Post_Handler_Check(
RtemsSignalReqSend_Context *ctx,
RtemsSignalReqSend_Post_Handler state
)
{
size_t expected_calls;
expected_calls = ctx->nested;
switch ( state ) {
case RtemsSignalReqSend_Post_Handler_NoCall: {
/*
* While the ASR processing is disabled, the ASR handler shall not be
* called.
*/
T_eq_sz( ctx->calls_after_send, ctx->nested );
T_eq_sz( ctx->calls_after_dispatch, ctx->nested );
T_eq_sz( ctx->calls_after_enable, ctx->nested );
break;
}
case RtemsSignalReqSend_Post_Handler_DuringSend: {
/*
* The ASR handler shall be called during the rtems_signal_send() call.
*/
++expected_calls;
T_eq_sz( ctx->calls_after_send, ctx->nested + 1 );
T_eq_sz( ctx->calls_after_dispatch, ctx->nested + 1 );
T_eq_sz( ctx->calls_after_enable, ctx->nested + 1 );
break;
}
case RtemsSignalReqSend_Post_Handler_AfterDispatch: {
/*
* When the next thread dispatch of the target task of the
* rtems_signal_send() call takes place, the ASR handler shall be called.
*/
++expected_calls;
T_eq_sz( ctx->calls_after_send, ctx->nested );
T_eq_sz( ctx->calls_after_dispatch, ctx->nested + 1 );
T_eq_sz( ctx->calls_after_enable, ctx->nested + 1 );
break;
}
case RtemsSignalReqSend_Post_Handler_AfterEnable: {
/*
* When the target task of the rtems_signal_send() call re-enables ASR
* processing, the ASR handler shall be called.
*/
++expected_calls;
T_eq_sz( ctx->calls_after_send, ctx->nested );
T_eq_sz( ctx->calls_after_dispatch, ctx->nested );
T_eq_sz( ctx->calls_after_enable, ctx->nested + 1 );
break;
}
case RtemsSignalReqSend_Post_Handler_NA:
break;
}
T_eq_sz( ctx->handler_calls, expected_calls );
if ( ctx->nested != 0 ) {
T_eq_u32( ctx->processed_signal_sets[ 0 ], 0x600df00d );
}
if ( expected_calls > ctx->nested ) {
T_eq_u32( ctx->processed_signal_sets[ ctx->nested ], 0xdeadbeef );
}
}
static void RtemsSignalReqSend_Post_Recursive_Check(
RtemsSignalReqSend_Context *ctx,
RtemsSignalReqSend_Post_Recursive state
)
{
switch ( state ) {
case RtemsSignalReqSend_Post_Recursive_Yes: {
/*
* The ASR handler shall be called recursively.
*/
T_eq_sz( ctx->handler_calls, 2 );
T_ne_uptr( ctx->stack_pointers[ 0 ], 0 );
T_ne_uptr( ctx->stack_pointers[ 1 ], 0 );
T_ne_uptr( ctx->stack_pointers[ 0 ], ctx->stack_pointers[ 1 ] );
break;
}
case RtemsSignalReqSend_Post_Recursive_No: {
/*
* The ASR handler shall not be called recursively.
*/
if ( ctx->handler_calls == 2 ) {
T_ne_uptr( ctx->stack_pointers[ 0 ], 0 );
T_ne_uptr( ctx->stack_pointers[ 1 ], 0 );
T_eq_uptr( ctx->stack_pointers[ 0 ], ctx->stack_pointers[ 1 ] );
}
break;
}
case RtemsSignalReqSend_Post_Recursive_NA:
break;
}
}
static void RtemsSignalReqSend_Setup( RtemsSignalReqSend_Context *ctx )
{
memset( ctx, 0, sizeof( *ctx ) );
ctx->runner_id = rtems_task_self();
SetSelfPriority( PRIO_NORMAL );
ctx->worker_id = CreateTask( "WORK", PRIO_HIGH );
#if defined(RTEMS_SMP)
if ( rtems_scheduler_get_processor_maximum() > 1 ) {
rtems_status_code sc;
rtems_id scheduler_id;
sc = rtems_scheduler_ident_by_processor( 1, &scheduler_id );
T_assert_rsc_success( sc );
sc = rtems_task_set_scheduler( ctx->worker_id, scheduler_id, PRIO_HIGH );
T_assert_rsc_success( sc );
}
#endif
StartTask( ctx->worker_id, Worker, ctx );
}
static void RtemsSignalReqSend_Setup_Wrap( void *arg )
{
RtemsSignalReqSend_Context *ctx;
ctx = arg;
ctx->Map.in_action_loop = false;
RtemsSignalReqSend_Setup( ctx );
}
static void RtemsSignalReqSend_Teardown( RtemsSignalReqSend_Context *ctx )
{
DeleteTask( ctx->worker_id );
RestoreRunnerPriority();
}
static void RtemsSignalReqSend_Teardown_Wrap( void *arg )
{
RtemsSignalReqSend_Context *ctx;
ctx = arg;
ctx->Map.in_action_loop = false;
RtemsSignalReqSend_Teardown( ctx );
}
static void RtemsSignalReqSend_Prepare( RtemsSignalReqSend_Context *ctx )
{
ctx->handler_calls = 0;
ctx->calls_after_send = 0;
ctx->calls_after_dispatch = 0;
ctx->calls_after_enable = 0;
memset( &ctx->processed_signal_sets, 0, sizeof( ctx->processed_signal_sets ) );
memset( &ctx->stack_pointers, 0, sizeof( ctx->stack_pointers ) );
}
static void RtemsSignalReqSend_Action( RtemsSignalReqSend_Context *ctx )
{
rtems_status_code sc;
if ( ctx->id == ctx->worker_id ) {
SendEventsToWorker( ctx, EVENT_START );
StartDelayThreadDispatch( 1 );
ctx->status = rtems_signal_send( ctx->id, ctx->signal_set );
ctx->calls_after_send = ctx->handler_calls;
StopDelayThreadDispatch( 1 );
SendEventsToWorker( ctx, EVENT_SEND_DONE );
ctx->calls_after_dispatch = ctx->handler_calls;
SendEventsToWorker( ctx, EVENT_DO_ENABLE );
ctx->calls_after_enable = ctx->handler_calls;
SendEventsToWorker( ctx, EVENT_END );
} else if ( ctx->nested != 0 ) {
sc = rtems_signal_catch( SignalHandler, ctx->mode );
T_rsc_success( sc );
sc = rtems_signal_send( RTEMS_SELF, 0x600df00d );
T_rsc_success( sc );
ctx->calls_after_enable = ctx->handler_calls;
} else {
rtems_mode mode;
sc = rtems_task_mode( ctx->mode, RTEMS_ASR_MASK, &mode );
T_rsc_success( sc );
sc = rtems_signal_catch( ctx->handler, RTEMS_NO_ASR );
T_rsc_success( sc );
ctx->status = rtems_signal_send( ctx->id, ctx->signal_set );
ctx->calls_after_send = ctx->handler_calls;
ctx->calls_after_dispatch = ctx->handler_calls;
sc = rtems_task_mode( mode, RTEMS_ASR_MASK, &mode );
T_rsc_success( sc );
ctx->calls_after_enable = ctx->handler_calls;
}
}
static const RtemsSignalReqSend_Entry
RtemsSignalReqSend_Entries[] = {
{ 0, 0, 0, 0, 0, 0, RtemsSignalReqSend_Post_Status_InvNum,
RtemsSignalReqSend_Post_Handler_NoCall,
RtemsSignalReqSend_Post_Recursive_No },
{ 0, 0, 0, 0, 0, 0, RtemsSignalReqSend_Post_Status_InvId,
RtemsSignalReqSend_Post_Handler_NoCall,
RtemsSignalReqSend_Post_Recursive_No },
{ 0, 0, 0, 0, 0, 0, RtemsSignalReqSend_Post_Status_NotDef,
RtemsSignalReqSend_Post_Handler_NoCall,
RtemsSignalReqSend_Post_Recursive_No },
{ 0, 0, 0, 0, 0, 0, RtemsSignalReqSend_Post_Status_Ok,
RtemsSignalReqSend_Post_Handler_AfterEnable,
RtemsSignalReqSend_Post_Recursive_No },
{ 0, 0, 0, 0, 0, 0, RtemsSignalReqSend_Post_Status_Ok,
RtemsSignalReqSend_Post_Handler_DuringSend,
RtemsSignalReqSend_Post_Recursive_Yes },
{ 0, 0, 0, 0, 0, 0, RtemsSignalReqSend_Post_Status_Ok,
RtemsSignalReqSend_Post_Handler_DuringSend,
RtemsSignalReqSend_Post_Recursive_No },
{ 0, 0, 0, 0, 0, 0, RtemsSignalReqSend_Post_Status_Ok,
RtemsSignalReqSend_Post_Handler_AfterDispatch,
RtemsSignalReqSend_Post_Recursive_Yes },
{ 0, 0, 0, 0, 0, 0, RtemsSignalReqSend_Post_Status_Ok,
RtemsSignalReqSend_Post_Handler_AfterDispatch,
RtemsSignalReqSend_Post_Recursive_No }
};
static const uint8_t
RtemsSignalReqSend_Map[] = {
0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 2, 2,
2, 2, 4, 5, 3, 3, 0, 0, 0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 6, 7, 3, 3
};
static size_t RtemsSignalReqSend_Scope( void *arg, char *buf, size_t n )
{
RtemsSignalReqSend_Context *ctx;
ctx = arg;
if ( ctx->Map.in_action_loop ) {
return T_get_scope( RtemsSignalReqSend_PreDesc, buf, n, ctx->Map.pcs );
}
return 0;
}
static T_fixture RtemsSignalReqSend_Fixture = {
.setup = RtemsSignalReqSend_Setup_Wrap,
.stop = NULL,
.teardown = RtemsSignalReqSend_Teardown_Wrap,
.scope = RtemsSignalReqSend_Scope,
.initial_context = &RtemsSignalReqSend_Instance
};
static inline RtemsSignalReqSend_Entry RtemsSignalReqSend_PopEntry(
RtemsSignalReqSend_Context *ctx
)
{
size_t index;
index = ctx->Map.index;
ctx->Map.index = index + 1;
return RtemsSignalReqSend_Entries[
RtemsSignalReqSend_Map[ index ]
];
}
static void RtemsSignalReqSend_TestVariant( RtemsSignalReqSend_Context *ctx )
{
RtemsSignalReqSend_Pre_Task_Prepare( ctx, ctx->Map.pcs[ 0 ] );
RtemsSignalReqSend_Pre_Set_Prepare( ctx, ctx->Map.pcs[ 1 ] );
RtemsSignalReqSend_Pre_Handler_Prepare( ctx, ctx->Map.pcs[ 2 ] );
RtemsSignalReqSend_Pre_ASR_Prepare( ctx, ctx->Map.pcs[ 3 ] );
RtemsSignalReqSend_Pre_Nested_Prepare( ctx, ctx->Map.pcs[ 4 ] );
RtemsSignalReqSend_Action( ctx );
RtemsSignalReqSend_Post_Status_Check( ctx, ctx->Map.entry.Post_Status );
RtemsSignalReqSend_Post_Handler_Check( ctx, ctx->Map.entry.Post_Handler );
RtemsSignalReqSend_Post_Recursive_Check(
ctx,
ctx->Map.entry.Post_Recursive
);
}
/**
* @fn void T_case_body_RtemsSignalReqSend( void )
*/
T_TEST_CASE_FIXTURE( RtemsSignalReqSend, &RtemsSignalReqSend_Fixture )
{
RtemsSignalReqSend_Context *ctx;
ctx = T_fixture_context();
ctx->Map.in_action_loop = true;
ctx->Map.index = 0;
for (
ctx->Map.pcs[ 0 ] = RtemsSignalReqSend_Pre_Task_NoObj;
ctx->Map.pcs[ 0 ] < RtemsSignalReqSend_Pre_Task_NA;
++ctx->Map.pcs[ 0 ]
) {
for (
ctx->Map.pcs[ 1 ] = RtemsSignalReqSend_Pre_Set_Zero;
ctx->Map.pcs[ 1 ] < RtemsSignalReqSend_Pre_Set_NA;
++ctx->Map.pcs[ 1 ]
) {
for (
ctx->Map.pcs[ 2 ] = RtemsSignalReqSend_Pre_Handler_Invalid;
ctx->Map.pcs[ 2 ] < RtemsSignalReqSend_Pre_Handler_NA;
++ctx->Map.pcs[ 2 ]
) {
for (
ctx->Map.pcs[ 3 ] = RtemsSignalReqSend_Pre_ASR_Enabled;
ctx->Map.pcs[ 3 ] < RtemsSignalReqSend_Pre_ASR_NA;
++ctx->Map.pcs[ 3 ]
) {
for (
ctx->Map.pcs[ 4 ] = RtemsSignalReqSend_Pre_Nested_Yes;
ctx->Map.pcs[ 4 ] < RtemsSignalReqSend_Pre_Nested_NA;
++ctx->Map.pcs[ 4 ]
) {
ctx->Map.entry = RtemsSignalReqSend_PopEntry( ctx );
RtemsSignalReqSend_Prepare( ctx );
RtemsSignalReqSend_TestVariant( ctx );
}
}
}
}
}
}
/** @} */