Hello,
the interrupt extension API implementation is already quite complex and
not covered by the test suite:
https://git.rtems.org/rtems/tree/bsps/shared/irq
In order to write generic tests for this we have to know which interrupt
vector can be controlled by software. One approach would be to add an
rtems_interrupt_get_capabilities() function:
/**
* @brief A bit field indicating interrupt capabilities.
*/
typedef struct {
/**
* @brief Is set, if the interrupt can be enabled through
* rtems_interrupt_vector_enable(), otherwise cleared.
*/
unsigned int can_enable : 1;
/**
* @brief Is set, if the interrupt can be enabled through
* rtems_interrupt_vector_enable(), otherwise cleared.
*/
unsigned int can_disable : 1;
/**
* @brief Is set, if the interrupt can be raised through
* rtems_interrupt_raise(), otherwise cleared.
*/
unsigned int can_raise : 1;
/**
* @brief Is set, if the interrupt can be cleared through
* rtems_interrupt_clear(), otherwise cleared.
*/
unsigned int can_clear : 1;
/**
* @brief Is set, if the interrupt supports a setting of its priority
through
* rtems_interrupt_set_priority(), otherwise cleared.
*/
unsigned int can_set_priority : 1;
/**
* @brief Is set, if the interrupt supports a setting of its processor
* affinity through rtems_interrupt_set_affinity(), otherwise cleared.
*/
unsigned int can_set_affinity : 1;
/**
* @brief Is set, if the interrupt has a pending state which can be
obtained
* through rtems_interrupt_is_pending(), otherwise cleared.
*/
unsigned int has_pending_state : 1;
/**
* @brief Is set, if the interrupt has an active state which can be
obtained
* through rtems_interrupt_is_active(), otherwise cleared.
*/
unsigned int has_active_state : 1;
/**
* @brief Is set, if the interrupt is connected to a peripheral,
otherwise
* cleared.
*/
unsigned int has_peripheral : 1;
/**
* @brief Is set, if the interrupt must be raised through
* rtems_interrupt_raise_on(), otherwise cleared.
*/
unsigned int needs_target : 1;
/**
* @brief Is set, if the interrupt is triggered by a raising signal edge,
* otherwise cleared.
*/
unsigned int is_raising_edge_triggered : 1;
/**
* @brief Is set, if the interrupt is triggered by a falling signal edge,
* otherwise cleared.
*/
unsigned int is_falling_edge_triggered : 1;
/**
* @brief Is set, if the interrupt is triggered by a low signal level,
* otherwise cleared.
*/
unsigned int is_low_level_triggered : 1;
/**
* @brief Is set, if the interrupt is triggered by a high signal level,
* otherwise cleared.
*/
unsigned int is_high_level_triggered : 1;
} rtems_interrupt_capabilities;
/**
* @brief Gets the capabilities of the specified interrupt.
*
* @retval RTEMS_SUCCESSFUL Successful operation.
* @retval RTEMS_INVALID_ID The specified vector number is invalid.
*/
rtems_status_code rtems_interrupt_get_capabilities(
rtems_vector_number vector,
rtems_interrupt_capabilities *capabilities
);
Interrupts with cap.can_raise set and cap.has_peripheral cleared can be
safely software controlled and used for tests.
--
Sebastian Huber, embedded brains GmbH
Address : Dornierstr. 4, D-82178 Puchheim, Germany
Phone : +49 89 189 47 41-16
Fax : +49 89 189 47 41-09
E-Mail : sebastian.hu...@embedded-brains.de
PGP : Public key available on request.
Diese Nachricht ist keine geschäftliche Mitteilung im Sinne des EHUG.
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