SPDX-License-Identifier: CC-BY-SA-4.0 OR BSD-2-Clause
copyrights:
- Copyright (C) 2021 embedded brains GmbH (http://www.embedded-brains.de)
enabled-by: true
functional-type: action
links:
- role: interface-function
uid: ../if/catch
post-conditions:
- name: Status
states:
- name: Ok
test-code: |
T_rsc_success( ctx->catch_status );
text: |
The return status of ${../if/catch:/name} shall be
${../../status/if/successful:/name}.
- name: NotImplNoPreempt
test-code: |
#if defined(RTEMS_SMP)
if ( rtems_configuration_get_maximum_processors() > 1 ) {
T_rsc( ctx->catch_status, RTEMS_NOT_IMPLEMENTED );
} else {
T_rsc_success( ctx->catch_status );
}
#else
T_rsc_success( ctx->catch_status );
#endif
text: |
Where the system is configured with SMP support, if the scheduler does
not support the no-preempt mode, then the return status of
${../if/catch:/name} shall be ${../../status/if/not-implemented:/name},
otherwise the return status shall be ${../../status/if/successful:/name}.
- name: NotImplIntLvl
test-code: |
#if CPU_ENABLE_ROBUST_THREAD_DISPATCH == TRUE
T_rsc( ctx->catch_status, RTEMS_NOT_IMPLEMENTED );
#elif defined(RTEMS_SMP)
if ( rtems_configuration_get_maximum_processors() > 1 ) {
T_rsc( ctx->catch_status, RTEMS_NOT_IMPLEMENTED );
} else {
T_rsc_success( ctx->catch_status );
}
#else
T_rsc_success( ctx->catch_status );
#endif
text: |
Where the system is configured with SMP support and the configured
processor maximum is greater than one, or the CPU port enabled robust
thread dispatching, the return status of ${../if/catch:/name} shall be
${../../status/if/not-implemented:/name}, otherwise the return status
shall be ${../../status/if/successful:/name}.
test-epilogue: null
test-prologue: null
- name: Send
states:
- name: New
test-code: |
T_rsc_success( ctx->send_status );
if ( ctx->catch_status == RTEMS_SUCCESSFUL ) {
T_eq_u32( ctx->default_handler_calls, 0 );
T_eq_u32( ctx->handler_calls, 1 + ctx->pending_signals );
T_ne_u32( ctx->handler_mode, 0xffffffff );
} else {
T_eq_u32( ctx->default_handler_calls, 1 + ctx->pending_signals );
T_eq_u32( ctx->handler_calls, 0 );
T_eq_u32( ctx->handler_mode, 0xffffffff );
}
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call was successful, the ASR processing shall be done with the specified
handler, otherwise the ASR information of the caller shall be unchanged.
- name: NotDef
test-code: |
if ( ctx->catch_status == RTEMS_SUCCESSFUL ) {
T_rsc( ctx->send_status, RTEMS_NOT_DEFINED );
T_eq_u32( ctx->default_handler_calls, 0 );
T_eq_u32( ctx->handler_calls, 0 );
T_eq_u32( ctx->handler_mode, 0xffffffff );
} else {
T_rsc_success( ctx->send_status );
T_eq_u32( ctx->default_handler_calls, 1 + ctx->pending_signals );
T_eq_u32( ctx->handler_calls, 0 );
T_eq_u32( ctx->handler_mode, 0xffffffff );
}
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call was successful, the ASR processing shall be deactivated and all
pending signals shall be cleared, otherwise the ASR information of the
caller shall be unchanged.
test-epilogue: null
test-prologue: null
- name: Preempt
states:
- name: 'Yes'
test-code: |
CheckHandlerMode( ctx, RTEMS_PREEMPT_MASK, RTEMS_PREEMPT );
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call with a valid handler was successful, the ASR processing shall be
done with preemption enabled.
- name: 'No'
test-code: |
CheckHandlerMode( ctx, RTEMS_PREEMPT_MASK, RTEMS_NO_PREEMPT );
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call with a valid handler was successful, the ASR processing shall be
done with preemption disabled.
test-epilogue: null
test-prologue: null
- name: Timeslice
states:
- name: 'Yes'
test-code: |
CheckHandlerMode( ctx, RTEMS_TIMESLICE_MASK, RTEMS_TIMESLICE );
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call with a valid handler was successful, the ASR processing shall be
done with timeslicing enabled.
- name: 'No'
test-code: |
CheckHandlerMode( ctx, RTEMS_TIMESLICE_MASK, RTEMS_NO_TIMESLICE );
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call with a valid handler was successful, the ASR processing shall be
done with timeslicing disabled.
test-epilogue: null
test-prologue: null
- name: ASR
states:
- name: 'Yes'
test-code: |
CheckHandlerMode( ctx, RTEMS_ASR_MASK, RTEMS_ASR );
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call with a valid handler was successful, the ASR processing shall be
done with ASR processing enabled.
- name: 'No'
test-code: |
CheckHandlerMode( ctx, RTEMS_ASR_MASK, RTEMS_NO_ASR );
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call with a valid handler was successful, the ASR processing shall be
done with ASR processing disabled.
test-epilogue: null
test-prologue: null
- name: IntLvl
states:
- name: Zero
test-code: |
CheckHandlerMode( ctx, RTEMS_INTERRUPT_MASK, RTEMS_INTERRUPT_LEVEL( 0 ) );
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call with a valid handler was successful, the ASR processing shall be
done with interrupts enabled.
- name: Positive
test-code: |
CheckHandlerMode( ctx, RTEMS_INTERRUPT_MASK, RTEMS_INTERRUPT_LEVEL( 1 ) );
text: |
When a signal set is sent to the caller of ${../if/catch:/name} and the
call with a valid handler was successful, the ASR processing shall be
done with interrupts disabled according to the specified interrupt level.
test-epilogue: null
test-prologue: null
pre-conditions:
- name: Pending
states:
- name: 'Yes'
test-code: |
ctx->pending_signals = ( rtems_scheduler_get_processor_maximum() > 1 ) ? 1 : 0;
text: |
Where the system has more than one processor, while the calling task has
pending signals, the ${../if/catch:/name} directive shall be called.
Where the system has exactly one processor, while the calling task has no
pending signals, the ${../if/catch:/name} directive shall be called.
- name: 'No'
test-code: |
ctx->pending_signals = 0;
text: |
While the calling task has no pending signals, the ${../if/catch:/name}
directive shall be called.
test-epilogue: null
test-prologue: null
- name: Handler
states:
- name: Invalid
test-code: |
ctx->handler = NULL;
text: |
The ${../if/catch:/params[0]/name} parameter shall be ${/c/if/null:/name}.
- name: Valid
test-code: |
ctx->handler = SignalHandler;
text: |
The ${../if/catch:/params[0]/name} parameter shall be a valid ASR handler.
test-epilogue: null
test-prologue: null
- name: Preempt
states:
- name: 'Yes'
test-code: |
#if defined(RTEMS_SMP)
if ( rtems_configuration_get_maximum_processors() == 1 ) {
ctx->normal_mode |= RTEMS_NO_PREEMPT;
}
#else
ctx->normal_mode |= RTEMS_NO_PREEMPT;
#endif
text: |
The ${../if/catch:/params[1]/name} parameter shall specify that
preemption is enabled.
- name: 'No'
test-code: |
ctx->mode |= RTEMS_NO_PREEMPT;
text: |
The ${../if/catch:/params[1]/name} parameter shall specify that
preemption is disabled.
test-epilogue: null
test-prologue: null
- name: Timeslice
states:
- name: 'Yes'
test-code: |
ctx->mode |= RTEMS_TIMESLICE;
text: |
The ${../if/catch:/params[1]/name} parameter shall specify that
timeslicing is enabled.
- name: 'No'
test-code: |
ctx->normal_mode |= RTEMS_TIMESLICE;
text: |
The ${../if/catch:/params[1]/name} parameter shall specify that
timeslicing is disabled.
test-epilogue: null
test-prologue: null
- name: ASR
states:
- name: 'Yes'
test-code: |
/* We cannot disable ASR processing at normal task level for this test */
text: |
The ${../if/catch:/params[1]/name} parameter shall specify that
ASR processing is enabled.
- name: 'No'
test-code: |
ctx->mode |= RTEMS_NO_ASR;
text: |
The ${../if/catch:/params[1]/name} parameter shall specify that
ASR processing is disabled.
test-epilogue: null
test-prologue: null
- name: IntLvl
states:
- name: Zero
test-code: |
#if !defined(RTEMS_SMP) && CPU_ENABLE_ROBUST_THREAD_DISPATCH == FALSE
ctx->normal_mode |= RTEMS_INTERRUPT_LEVEL( 1 );
#endif
text: |
The ${../if/catch:/params[1]/name} parameter shall specify an interrupt
level of zero.
- name: Positive
test-code: |
ctx->mode |= RTEMS_INTERRUPT_LEVEL( 1 );
text: |
The ${../if/catch:/params[1]/name} parameter shall specify a positive
interrupt level.
test-epilogue: null
test-prologue: null
rationale: null
references: []
requirement-type: functional
skip-reasons: {}
test-action: |
rtems_status_code sc;
rtems_mode mode;
if ( ctx->pending_signals != 0 ) {
rtems_interrupt_level level;
rtems_interrupt_local_disable(level);
_SMP_barrier_Wait( &ctx->barrier, &ctx->runner_barrier_state, 2 );
_SMP_barrier_Wait( &ctx->barrier, &ctx->runner_barrier_state, 2 );
ctx->catch_status = rtems_signal_catch( ctx->handler, ctx->mode );
rtems_interrupt_local_enable(level);
} else {
ctx->catch_status = rtems_signal_catch( ctx->handler, ctx->mode );
}
sc = rtems_task_mode( ctx->normal_mode, RTEMS_ALL_MODE_MASKS, &mode );
T_rsc_success( sc );
ctx->send_status = rtems_signal_send( RTEMS_SELF, 0xdeadbeef );
sc = rtems_task_mode( mode, RTEMS_ALL_MODE_MASKS, &mode );
T_rsc_success( sc );
test-brief: null
test-cleanup: null
test-context:
- brief: null
description: null
member: |
rtems_id runner_id
- brief: null
description: null
member: |
rtems_id worker_id
- brief: null
description: null
member: |
uint32_t pending_signals
- brief: null
description: null
member: |
SMP_barrier_Control barrier
- brief: null
description: null
member: |
SMP_barrier_State runner_barrier_state
- brief: null
description: null
member: |
uint32_t default_handler_calls
- brief: null
description: null
member: |
uint32_t handler_calls
- brief: null
description: null
member: |
rtems_mode handler_mode
- brief: null
description: null
member: |
rtems_mode normal_mode
- brief: null
description: null
member: |
rtems_asr_entry handler
- brief: null
description: null
member: |
rtems_mode mode
- brief: null
description: null
member: |
rtems_status_code catch_status
- brief: null
description: null
member: |
rtems_status_code send_status
test-context-support: null
test-description: null
test-header: null
test-includes:
- rtems.h
- string.h
- rtems/score/smpbarrier.h
test-local-includes: []
test-prepare: |
rtems_status_code sc;
ctx->default_handler_calls = 0;
ctx->handler_calls = 0;
ctx->handler_mode = 0xffffffff;
ctx->normal_mode = RTEMS_DEFAULT_MODES;
ctx->handler = NULL;
ctx->mode = RTEMS_DEFAULT_MODES;
sc = rtems_signal_catch( DefaultHandler, RTEMS_NO_ASR );
T_rsc_success( sc );
test-setup:
brief: null
code: |
memset( ctx, 0, sizeof( *ctx ) );
ctx->runner_id = rtems_task_self();
_SMP_barrier_Control_initialize( &ctx->barrier );
_SMP_barrier_State_initialize( &ctx->runner_barrier_state );
if ( rtems_scheduler_get_processor_maximum() > 1 ) {
rtems_status_code sc;
rtems_id scheduler_id;
sc = rtems_task_create(
rtems_build_name( 'W', 'O', 'R', 'K' ),
1,
RTEMS_MINIMUM_STACK_SIZE,
RTEMS_DEFAULT_MODES,
RTEMS_DEFAULT_ATTRIBUTES,
&ctx->worker_id
);
T_assert_rsc_success( sc );
sc = rtems_scheduler_ident_by_processor( 1, &scheduler_id );
T_assert_rsc_success( sc );
sc = rtems_task_set_scheduler( ctx->worker_id, scheduler_id, 1 );
T_assert_rsc_success( sc );
sc = rtems_task_start(
ctx->worker_id,
Worker,
(rtems_task_argument) ctx
);
T_assert_rsc_success( sc );
}
description: null
test-stop: null
test-support: |
typedef RtemsSignalReqCatch_Context Context;
static void DefaultHandler( rtems_signal_set signal_set )
{
Context *ctx;
ctx = T_fixture_context();
++ctx->default_handler_calls;
if ( ctx->pending_signals != 0 && ctx->default_handler_calls == 1 ) {
T_eq_u32( signal_set, 0x600df00d );
} else {
T_eq_u32( signal_set, 0xdeadbeef );
}
}
static void SignalHandler( rtems_signal_set signal_set )
{
Context *ctx;
rtems_status_code sc;
ctx = T_fixture_context();
++ctx->handler_calls;
sc = rtems_task_mode(
RTEMS_DEFAULT_MODES,
RTEMS_CURRENT_MODE,
&ctx->handler_mode
);
T_rsc_success( sc );
if ( ctx->pending_signals != 0 && ctx->handler_calls == 1 ) {
T_eq_u32( signal_set, 0x600df00d );
} else {
T_eq_u32( signal_set, 0xdeadbeef );
}
}
static void CheckHandlerMode( Context *ctx, rtems_mode mask, rtems_mode mode )
{
if ( ctx->catch_status == RTEMS_SUCCESSFUL && ctx->handler != NULL ) {
T_ne_u32( ctx->handler_mode, 0xffffffff );
T_eq_u32( ctx->handler_mode & mask, mode );
}
}
static void Worker( rtems_task_argument arg )
{
Context *ctx;
SMP_barrier_State barrier_state;
ctx = (Context *) arg;
_SMP_barrier_State_initialize( &barrier_state );
while ( true ) {
rtems_status_code sc;
_SMP_barrier_Wait( &ctx->barrier, &barrier_state, 2 );
sc = rtems_signal_send( ctx->runner_id, 0x600df00d );
T_rsc_success( sc );
_SMP_barrier_Wait( &ctx->barrier, &barrier_state, 2 );
}
}
test-target: testsuites/validation/tc-signal-catch.c
test-teardown:
brief: null
code: |
rtems_status_code sc;
if ( ctx->worker_id != 0 ) {
sc = rtems_task_delete( ctx->worker_id );
T_rsc_success( sc );
}
sc = rtems_signal_catch( NULL, RTEMS_DEFAULT_MODES );
T_rsc_success( sc );
description: null
text: ${.:text-template}
transition-map:
- enabled-by: true
post-conditions:
Status: Ok
Send: NotDef
Preempt: 'Yes'
Timeslice: 'Yes'
ASR: 'Yes'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'Yes'
Timeslice:
- 'Yes'
ASR:
- 'Yes'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: NotDef
Preempt: 'Yes'
Timeslice: 'Yes'
ASR: 'Yes'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'Yes'
Timeslice:
- 'Yes'
ASR:
- 'Yes'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: Ok
Send: NotDef
Preempt: 'Yes'
Timeslice: 'Yes'
ASR: 'No'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'Yes'
Timeslice:
- 'Yes'
ASR:
- 'No'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: NotDef
Preempt: 'Yes'
Timeslice: 'Yes'
ASR: 'No'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'Yes'
Timeslice:
- 'Yes'
ASR:
- 'No'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: Ok
Send: NotDef
Preempt: 'Yes'
Timeslice: 'No'
ASR: 'Yes'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'Yes'
Timeslice:
- 'No'
ASR:
- 'Yes'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: NotDef
Preempt: 'Yes'
Timeslice: 'No'
ASR: 'Yes'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'Yes'
Timeslice:
- 'No'
ASR:
- 'Yes'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: Ok
Send: NotDef
Preempt: 'Yes'
Timeslice: 'No'
ASR: 'No'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'Yes'
Timeslice:
- 'No'
ASR:
- 'No'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: NotDef
Preempt: 'Yes'
Timeslice: 'No'
ASR: 'No'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'Yes'
Timeslice:
- 'No'
ASR:
- 'No'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: NotImplNoPreempt
Send: NotDef
Preempt: 'No'
Timeslice: 'Yes'
ASR: 'Yes'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'No'
Timeslice:
- 'Yes'
ASR:
- 'Yes'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: NotDef
Preempt: 'No'
Timeslice: 'Yes'
ASR: 'Yes'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'No'
Timeslice:
- 'Yes'
ASR:
- 'Yes'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: NotImplNoPreempt
Send: NotDef
Preempt: 'No'
Timeslice: 'Yes'
ASR: 'No'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'No'
Timeslice:
- 'Yes'
ASR:
- 'No'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: NotDef
Preempt: 'No'
Timeslice: 'Yes'
ASR: 'No'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'No'
Timeslice:
- 'Yes'
ASR:
- 'No'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: NotImplNoPreempt
Send: NotDef
Preempt: 'No'
Timeslice: 'No'
ASR: 'Yes'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'No'
Timeslice:
- 'No'
ASR:
- 'Yes'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: NotDef
Preempt: 'No'
Timeslice: 'No'
ASR: 'Yes'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'No'
Timeslice:
- 'No'
ASR:
- 'Yes'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: NotImplNoPreempt
Send: NotDef
Preempt: 'No'
Timeslice: 'No'
ASR: 'No'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'No'
Timeslice:
- 'No'
ASR:
- 'No'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: NotDef
Preempt: 'No'
Timeslice: 'No'
ASR: 'No'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Invalid
Preempt:
- 'No'
Timeslice:
- 'No'
ASR:
- 'No'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: Ok
Send: New
Preempt: 'Yes'
Timeslice: 'Yes'
ASR: 'Yes'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'Yes'
Timeslice:
- 'Yes'
ASR:
- 'Yes'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: New
Preempt: 'Yes'
Timeslice: 'Yes'
ASR: 'Yes'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'Yes'
Timeslice:
- 'Yes'
ASR:
- 'Yes'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: Ok
Send: New
Preempt: 'Yes'
Timeslice: 'Yes'
ASR: 'No'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'Yes'
Timeslice:
- 'Yes'
ASR:
- 'No'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: New
Preempt: 'Yes'
Timeslice: 'Yes'
ASR: 'No'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'Yes'
Timeslice:
- 'Yes'
ASR:
- 'No'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: Ok
Send: New
Preempt: 'Yes'
Timeslice: 'No'
ASR: 'Yes'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'Yes'
Timeslice:
- 'No'
ASR:
- 'Yes'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: New
Preempt: 'Yes'
Timeslice: 'No'
ASR: 'Yes'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'Yes'
Timeslice:
- 'No'
ASR:
- 'Yes'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: Ok
Send: New
Preempt: 'Yes'
Timeslice: 'No'
ASR: 'No'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'Yes'
Timeslice:
- 'No'
ASR:
- 'No'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: New
Preempt: 'Yes'
Timeslice: 'No'
ASR: 'No'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'Yes'
Timeslice:
- 'No'
ASR:
- 'No'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: NotImplNoPreempt
Send: New
Preempt: 'No'
Timeslice: 'Yes'
ASR: 'Yes'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'No'
Timeslice:
- 'Yes'
ASR:
- 'Yes'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: New
Preempt: 'No'
Timeslice: 'Yes'
ASR: 'Yes'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'No'
Timeslice:
- 'Yes'
ASR:
- 'Yes'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: NotImplNoPreempt
Send: New
Preempt: 'No'
Timeslice: 'Yes'
ASR: 'No'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'No'
Timeslice:
- 'Yes'
ASR:
- 'No'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: New
Preempt: 'No'
Timeslice: 'Yes'
ASR: 'No'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'No'
Timeslice:
- 'Yes'
ASR:
- 'No'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: NotImplNoPreempt
Send: New
Preempt: 'No'
Timeslice: 'No'
ASR: 'Yes'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'No'
Timeslice:
- 'No'
ASR:
- 'Yes'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: New
Preempt: 'No'
Timeslice: 'No'
ASR: 'Yes'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'No'
Timeslice:
- 'No'
ASR:
- 'Yes'
IntLvl:
- Positive
- enabled-by: true
post-conditions:
Status: NotImplNoPreempt
Send: New
Preempt: 'No'
Timeslice: 'No'
ASR: 'No'
IntLvl: Zero
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'No'
Timeslice:
- 'No'
ASR:
- 'No'
IntLvl:
- Zero
- enabled-by: true
post-conditions:
Status: NotImplIntLvl
Send: New
Preempt: 'No'
Timeslice: 'No'
ASR: 'No'
IntLvl: Positive
pre-conditions:
Pending: all
Handler:
- Valid
Preempt:
- 'No'
Timeslice:
- 'No'
ASR:
- 'No'
IntLvl:
- Positive
type: requirement
