RTEMS 6.1-rc1
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This group contains the ISR Handler implementation. More...
Modules | |
ISR Locks | |
This group contains the ISR locks implementation. | |
Files | |
file | isr.h |
This header file provides the main interfaces of the ISR Handler. | |
file | isrlevel.h |
This header file provides the ISR_Level related interfaces of the ISR Handler. | |
file | isr.c |
This source file contains the definition of ::_ISR_Vector_table and the implementation of _ISR_Handler_initialization(). | |
file | isrisinprogress.c |
This source file contains the default implementation of _ISR_Is_in_progress(). | |
file | isrvectortable.c |
This source file contains the definition of ::_ISR_Vector_table. | |
Macros | |
#define | _ISR_Install_vector(_vector, _new_handler, _old_handler) _CPU_ISR_install_vector( _vector, _new_handler, _old_handler ) |
Install interrupt handler vector. More... | |
#define | _ISR_Local_disable(_level) |
Disables interrupts on this processor. More... | |
#define | _ISR_Local_enable(_level) |
Enables interrupts on this processor. More... | |
#define | _ISR_Local_flash(_level) |
Temporarily enables interrupts on this processor. More... | |
#define | _ISR_Is_enabled(_level) _CPU_ISR_Is_enabled( _level ) |
Returns true if interrupts are enabled in the specified interrupt level, otherwise returns false. More... | |
#define | _ISR_Get_level() _CPU_ISR_Get_level() |
Return current interrupt level. More... | |
#define | _ISR_Set_level(_new_level) |
Set current interrupt level. More... | |
Typedefs | |
typedef uint32_t | ISR_Vector_number |
typedef void | ISR_Handler |
typedef void * | ISR_Handler_entry |
typedef uint32_t | ISR_Level |
Functions | |
RTEMS_DECLARE_GLOBAL_SYMBOL (_ISR_Stack_size) | |
Provides the configured interrupt stack size through an address. More... | |
void | _ISR_Handler_initialization (void) |
Initializes the ISR handler. More... | |
void | _ISR_Handler (void) |
ISR interrupt dispatcher. More... | |
bool | _ISR_Is_in_progress (void) |
Checks if an ISR in progress. More... | |
Variables | |
const char *const volatile | _ISR_Stack_size_object |
Provides the configured interrupt stack size through an object. More... | |
char | _ISR_Stack_area_begin [] |
The interrupt stack area begin. More... | |
const char | _ISR_Stack_area_end [] |
The interrupt stack area end. More... | |
This group contains the ISR Handler implementation.
This handler encapsulates functionality which provides the foundation ISR services used in all of the APIs supported by RTEMS. This handler supports interrupt critical sections, vectoring of user interrupt handlers, nesting of interrupts, and manipulating interrupt levels.
The ::_ISR_Nest_level variable is maintained by Per-CPU Information.
#define _ISR_Get_level | ( | ) | _CPU_ISR_Get_level() |
Return current interrupt level.
This routine returns the current interrupt level.
LM32 Specific Information: XXX document implementation including references if appropriate
This | method returns the current level. |
#define _ISR_Install_vector | ( | _vector, | |
_new_handler, | |||
_old_handler | |||
) | _CPU_ISR_install_vector( _vector, _new_handler, _old_handler ) |
Install interrupt handler vector.
This routine installs new_handler as the interrupt service routine for the specified vector. The previous interrupt service routine is returned as old_handler.
LM32 Specific Information: XXX document implementation including references if appropriate
[in] | _vector | is the vector number |
[in] | _new_handler | is ISR handler to install |
[in] | _old_handler | is a pointer to a variable which will be set to the old handler |
*_old_handler | will be set to the old ISR handler |
#define _ISR_Is_enabled | ( | _level | ) | _CPU_ISR_Is_enabled( _level ) |
Returns true if interrupts are enabled in the specified interrupt level, otherwise returns false.
[in] | _level | The ISR level. |
true | Interrupts are enabled in the interrupt level. |
false | Otherwise. |
#define _ISR_Local_disable | ( | _level | ) |
Disables interrupts on this processor.
This macro disables all interrupts on this processor so that a critical section of code is protected from concurrent access by interrupts of this processor. Disabling of interrupts disables thread dispatching on the processor as well.
On SMP configurations other processors can enter such sections if not protected by other means.
[out] | _level | The argument _level will contain the previous interrupt mask level. |
#define _ISR_Local_enable | ( | _level | ) |
Enables interrupts on this processor.
This macro restores the interrupt status on the processor with the interrupt level value obtained by _ISR_Local_disable(). It is used at the end of a critical section of code to enable interrupts so they can be processed again.
[in] | _level | The interrupt level previously obtained by _ISR_Local_disable(). |
#define _ISR_Local_flash | ( | _level | ) |
Temporarily enables interrupts on this processor.
This macro temporarily enables interrupts to the previous interrupt mask level and then disables all interrupts so that the caller can continue into the second part of a critical section.
This routine is used to temporarily enable interrupts during a long critical section. It is used in long sections of critical code when a point is reached at which interrupts can be temporarily enabled. Deciding where to flash interrupts in a long critical section is often difficult and the point must be selected with care to ensure that the critical section properly protects itself.
[in] | _level | The interrupt level previously obtained by _ISR_Local_disable(). |
#define _ISR_Set_level | ( | _new_level | ) |
Set current interrupt level.
This routine sets the current interrupt level to that specified by _new_level. The new interrupt level is effective when the routine exits.
[in] | _new_level | contains the desired interrupt level. |
typedef void ISR_Handler |
Return type for ISR Handler
typedef uint32_t ISR_Level |
The following type defines the control block used to manage the interrupt level portion of the status register.
typedef uint32_t ISR_Vector_number |
The following type defines the type used to manage the vectors.
void _ISR_Handler | ( | void | ) |
ISR interrupt dispatcher.
This routine is the interrupt dispatcher. ALL interrupts are vectored to this routine so that minimal context can be saved and setup performed before the application's high-level language interrupt service routine is invoked. After the application's interrupt service routine returns control to this routine, it will determine if a thread dispatch is necessary. If so, it will ensure that the necessary thread scheduling operations are performed when the outermost interrupt service routine exits.
void _ISR_Handler_initialization | ( | void | ) |
Initializes the ISR handler.
This routine performs the initialization necessary for the ISR handler.
bool _ISR_Is_in_progress | ( | void | ) |
Checks if an ISR in progress.
This function returns true, if the processor is currently servicing and interrupt, and false otherwise. A return value of true indicates that the caller is an interrupt service routine, not a thread.
RTEMS_DECLARE_GLOBAL_SYMBOL | ( | _ISR_Stack_size | ) |
Provides the configured interrupt stack size through an address.
The address of this global symbol is equal to the configured interrupt stack size. The address of this symbol has an arbitrary value an may not be representable in the code model used by the compiler.
This global symbol is defined by the application configuration option CONFIGURE_INIT_TASK_STACK_SIZE via <rtems/confdefs.h>.
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extern |
The interrupt stack area begin.
The interrupt stack area is defined by the application configuration via <rtems/confdefs.h>. The size of the area depends on CONFIGURE_INIT_TASK_STACK_SIZE and CONFIGURE_MAXIMUM_PROCESSORS.
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extern |
The interrupt stack area end.
The interrupt stack area is defined by the application configuration via <rtems/confdefs.h>. The size of the area depends on CONFIGURE_INIT_TASK_STACK_SIZE and CONFIGURE_MAXIMUM_PROCESSORS.
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extern |
Provides the configured interrupt stack size through an object.
This object is provided to avoid issues with the _ISR_Stack_size symbol address and the code model used by the compiler.