/* * Print misc stuff for the monitor dump routines * Each routine returns the number of characters it output. * * TODO: * * $Id$ */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include void rtems_monitor_separator(void) { fprintf(stdout,"------------------------------------------------------------------------------\n"); } uint32_t rtems_monitor_pad( uint32_t destination_column, uint32_t current_column ) { int pad_length; if (destination_column <= current_column) pad_length = 1; else pad_length = destination_column - current_column; return fprintf(stdout,"%*s", pad_length, ""); } int rtems_monitor_dump_decimal(uint32_t num) { return fprintf(stdout,"%4" PRId32, num); } int rtems_monitor_dump_addr(void *addr) { return fprintf(stdout,"0x%p", addr); } int rtems_monitor_dump_hex(uint32_t num) { return fprintf(stdout,"0x%" PRIx32, num); } int rtems_monitor_dump_assoc_bitfield( const rtems_assoc_t *ap, const char *separator, uint32_t value ) { uint32_t b; uint32_t length = 0; const char *name; for (b = 1; b; b <<= 1) if (b & value) { if (length) length += fprintf(stdout,"%s", separator); name = rtems_assoc_name_by_local(ap, b); if (name) length += fprintf(stdout,"%s", name); else length += fprintf(stdout,"0x%" PRIx32, b); } return length; } int rtems_monitor_dump_id(rtems_id id) { #if defined(RTEMS_USE_16_BIT_OBJECT) return fprintf(stdout,"%08" PRIx16, id); #else return fprintf(stdout,"%08" PRIx32, id); #endif } int rtems_monitor_dump_name(rtems_id id) { char name_buffer[18] = "????"; rtems_object_get_name( id, sizeof(name_buffer), name_buffer ); return fprintf( stdout, name_buffer ); } int rtems_monitor_dump_priority(rtems_task_priority priority) { return fprintf(stdout,"%3" PRId32, priority); } static const rtems_assoc_t rtems_monitor_state_assoc[] = { { "DORM", STATES_DORMANT, 0 }, { "SUSP", STATES_SUSPENDED, 0 }, { "TRANS", STATES_TRANSIENT, 0 }, { "DELAY", STATES_DELAYING, 0 }, { "Wtime", STATES_WAITING_FOR_TIME, 0 }, { "Wbuf", STATES_WAITING_FOR_BUFFER, 0 }, { "Wseg", STATES_WAITING_FOR_SEGMENT, 0 }, { "Wmsg" , STATES_WAITING_FOR_MESSAGE, 0 }, { "Wevnt", STATES_WAITING_FOR_EVENT, 0 }, { "Wsem", STATES_WAITING_FOR_SEMAPHORE, 0 }, { "Wmutex", STATES_WAITING_FOR_MUTEX, 0 }, { "Wcvar", STATES_WAITING_FOR_CONDITION_VARIABLE, 0 }, { "Wjatx", STATES_WAITING_FOR_JOIN_AT_EXIT, 0 }, { "Wrpc", STATES_WAITING_FOR_RPC_REPLY, 0 }, { "WRATE", STATES_WAITING_FOR_PERIOD, 0 }, { "Wsig", STATES_WAITING_FOR_SIGNAL, 0 }, { "Wbar", STATES_WAITING_FOR_BARRIER, 0 }, { "Wrwlk", STATES_WAITING_FOR_RWLOCK, 0 }, { "Wisig", STATES_INTERRUPTIBLE_BY_SIGNAL, 0 }, { 0, 0, 0 }, }; int rtems_monitor_dump_state(States_Control state) { int length = 0; if (state == STATES_READY) /* assoc doesn't deal with this as it is 0 */ length += fprintf(stdout,"READY"); length += rtems_monitor_dump_assoc_bitfield(rtems_monitor_state_assoc, ":", state); return length; } static const rtems_assoc_t rtems_monitor_attribute_assoc[] = { { "GL", RTEMS_GLOBAL, 0 }, { "PR", RTEMS_PRIORITY, 0 }, { "FL", RTEMS_FLOATING_POINT, 0 }, { "BI", RTEMS_BINARY_SEMAPHORE, 0 }, { "SB", RTEMS_SIMPLE_BINARY_SEMAPHORE, 0 }, { "IN", RTEMS_INHERIT_PRIORITY, 0 }, { "CE", RTEMS_PRIORITY_CEILING, 0 }, { "AR", RTEMS_BARRIER_AUTOMATIC_RELEASE, 0 }, { "ST", RTEMS_SYSTEM_TASK, 0 }, { 0, 0, 0 }, }; int rtems_monitor_dump_attributes(rtems_attribute attributes) { int length = 0; if (attributes == RTEMS_DEFAULT_ATTRIBUTES) /* value is 0 */ length += fprintf(stdout,"DEFAULT"); length += rtems_monitor_dump_assoc_bitfield(rtems_monitor_attribute_assoc, ":", attributes); return length; } static const rtems_assoc_t rtems_monitor_modes_assoc[] = { { "nP", RTEMS_NO_PREEMPT, 0 }, { "T", RTEMS_TIMESLICE, 0 }, { "nA", RTEMS_NO_ASR, 0 }, { 0, 0, 0 }, }; int rtems_monitor_dump_modes(rtems_mode modes) { uint32_t length = 0; if (modes == RTEMS_DEFAULT_MODES) /* value is 0 */ length += fprintf(stdout,"P:T:nA"); length += rtems_monitor_dump_assoc_bitfield(rtems_monitor_modes_assoc, ":", modes); return length; } static const rtems_assoc_t rtems_monitor_events_assoc[] = { { "0", RTEMS_EVENT_0, 0 }, { "1", RTEMS_EVENT_1, 0 }, { "2", RTEMS_EVENT_2, 0 }, { "3", RTEMS_EVENT_3, 0 }, { "4", RTEMS_EVENT_4, 0 }, { "5", RTEMS_EVENT_5, 0 }, { "6", RTEMS_EVENT_6, 0 }, { "7", RTEMS_EVENT_7, 0 }, { "8", RTEMS_EVENT_8, 0 }, { "9", RTEMS_EVENT_9, 0 }, { "10", RTEMS_EVENT_10, 0 }, { "11", RTEMS_EVENT_11, 0 }, { "12", RTEMS_EVENT_12, 0 }, { "13", RTEMS_EVENT_13, 0 }, { "14", RTEMS_EVENT_14, 0 }, { "15", RTEMS_EVENT_15, 0 }, { "16", RTEMS_EVENT_16, 0 }, { "17", RTEMS_EVENT_17, 0 }, { "18", RTEMS_EVENT_18, 0 }, { "19", RTEMS_EVENT_19, 0 }, { "20", RTEMS_EVENT_20, 0 }, { "21", RTEMS_EVENT_21, 0 }, { "22", RTEMS_EVENT_22, 0 }, { "23", RTEMS_EVENT_23, 0 }, { "24", RTEMS_EVENT_24, 0 }, { "25", RTEMS_EVENT_25, 0 }, { "26", RTEMS_EVENT_26, 0 }, { "27", RTEMS_EVENT_27, 0 }, { "28", RTEMS_EVENT_28, 0 }, { "29", RTEMS_EVENT_29, 0 }, { "30", RTEMS_EVENT_30, 0 }, { "31", RTEMS_EVENT_31, 0 }, { 0, 0, 0 }, }; int rtems_monitor_dump_events(rtems_event_set events) { if (events == EVENT_SETS_NONE_PENDING) /* value is 0 */ return fprintf(stdout," NONE "); return fprintf(stdout,"%08" PRIx32, events); } int rtems_monitor_dump_notepad(uint32_t *notepad) { int length = 0; int i; for (i=0; i < RTEMS_NUMBER_NOTEPADS; i++) if (notepad[i]) length += fprintf(stdout,"%d: 0x%" PRIx32, i, notepad[i]); return length; }