void rtems_monitor_mpci_canonical( rtems_monitor_mpci_t *canonical_mpci, const void *config_void ) { const rtems_configuration_table *c = &Configuration; rtems_multiprocessing_table *m; rtems_mpci_table *mt; m = c->User_multiprocessing_table; if (m == 0) return; mt = m->User_mpci_table; canonical_mpci->node = m->node; canonical_mpci->maximum_nodes = m->maximum_nodes; canonical_mpci->maximum_global_objects = m->maximum_global_objects; canonical_mpci->maximum_proxies = m->maximum_proxies; canonical_mpci->default_timeout = mt->default_timeout; canonical_mpci->maximum_packet_size = mt->maximum_packet_size; rtems_monitor_symbol_canonical_by_value(&canonical_mpci->initialization, (void *) mt->initialization); rtems_monitor_symbol_canonical_by_value(&canonical_mpci->get_packet, (void *) mt->get_packet); rtems_monitor_symbol_canonical_by_value(&canonical_mpci->return_packet, (void *) mt->return_packet); rtems_monitor_symbol_canonical_by_value(&canonical_mpci->send_packet, (void *) mt->send_packet); rtems_monitor_symbol_canonical_by_value(&canonical_mpci->receive_packet, (void *) mt->receive_packet); }
void rtems_monitor_extension_canonical( rtems_monitor_extension_t *canonical_extension, const void *extension_void ) { const Extension_Control *rtems_extension = (const Extension_Control *) extension_void; const rtems_extensions_table *e = &rtems_extension->Extension.Callouts; rtems_monitor_symbol_canonical_by_value(&canonical_extension->e_create, (void *) e->thread_create); rtems_monitor_symbol_canonical_by_value(&canonical_extension->e_start, (void *) e->thread_start); rtems_monitor_symbol_canonical_by_value(&canonical_extension->e_restart, (void *) e->thread_restart); rtems_monitor_symbol_canonical_by_value(&canonical_extension->e_delete, (void *) e->thread_delete); rtems_monitor_symbol_canonical_by_value(&canonical_extension->e_tswitch, (void *) e->thread_switch); rtems_monitor_symbol_canonical_by_value(&canonical_extension->e_begin, (void *) e->thread_begin); rtems_monitor_symbol_canonical_by_value(&canonical_extension->e_exitted, (void *) e->thread_exitted); rtems_monitor_symbol_canonical_by_value(&canonical_extension->e_fatal, (void *) e->fatal); }
/* * As above, but just for init tasks */ void rtems_monitor_init_task_canonical( rtems_monitor_init_task_t *canonical_itask, const void *itask_void ) { const rtems_initialization_tasks_table *rtems_itask = itask_void; rtems_monitor_symbol_canonical_by_value(&canonical_itask->entry, (void *) rtems_itask->entry_point); canonical_itask->argument = rtems_itask->argument; canonical_itask->stack_size = rtems_itask->stack_size; canonical_itask->priority = rtems_itask->initial_priority; canonical_itask->modes = rtems_itask->mode_set; canonical_itask->attributes = rtems_itask->attribute_set; }
void rtems_monitor_driver_canonical( rtems_monitor_driver_t *canonical_driver, const void *driver_void ) { const rtems_driver_address_table *d = (const rtems_driver_address_table *) driver_void; rtems_monitor_symbol_canonical_by_value(&canonical_driver->initialization, (void *) d->initialization_entry); rtems_monitor_symbol_canonical_by_value(&canonical_driver->open, (void *) d->open_entry); rtems_monitor_symbol_canonical_by_value(&canonical_driver->close, (void *) d->close_entry); rtems_monitor_symbol_canonical_by_value(&canonical_driver->read, (void *) d->read_entry); rtems_monitor_symbol_canonical_by_value(&canonical_driver->write, (void *) d->write_entry); rtems_monitor_symbol_canonical_by_value(&canonical_driver->control, (void *) d->control_entry); }