/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */ #include "config.h" #include #include "shell-perf-log.h" typedef struct _ShellPerfEvent ShellPerfEvent; typedef struct _ShellPerfStatistic ShellPerfStatistic; typedef struct _ShellPerfStatisticsClosure ShellPerfStatisticsClosure; typedef union _ShellPerfStatisticValue ShellPerfStatisticValue; typedef struct _ShellPerfBlock ShellPerfBlock; /** * SECTION:shell-perf-log * @short_description: Event recorder for performance measurement * * ShellPerfLog provides a way for different parts of the code to * record information for subsequent analysis and interactive * exploration. Events exist of a timestamp, an event ID, and * arguments to the event. * * Emphasis is placed on storing recorded events in a compact * fashion so log recording disturbs the execution of the program * as little as possible, however events should not be recorded * at too fine a granularity - an event that is recorded once * per frame or once per user action is appropriate, an event that * occurs many times per frame is not. * * Arguments are identified by a D-Bus style signature; at the moment * only a limited number of event signatures are supported to * simplify the code. */ struct _ShellPerfLog { GObject parent; GPtrArray *events; GHashTable *events_by_name; GPtrArray *statistics; GHashTable *statistics_by_name; GPtrArray *statistics_closures; GQueue *blocks; gint64 start_time; gint64 last_time; guint statistics_timeout_id; guint enabled : 1; }; struct _ShellPerfLogClass { GObjectClass parent_class; }; struct _ShellPerfEvent { guint16 id; char *name; char *description; char *signature; }; union _ShellPerfStatisticValue { int i; gint64 x; }; struct _ShellPerfStatistic { ShellPerfEvent *event; ShellPerfStatisticValue current_value; ShellPerfStatisticValue last_value; guint initialized : 1; guint recorded : 1; }; struct _ShellPerfStatisticsClosure { ShellPerfStatisticsCallback callback; gpointer user_data; GDestroyNotify notify; }; /* The events in the log are stored in a linked list of fixed size * blocks. * * Note that the power-of-two nature of BLOCK_SIZE here is superficial * since the allocated block has the 'bytes' field and malloc * overhead. The current value is well below the size that will * typically be independently mmapped by the malloc implementation so * it doesn't matter. If we switched to mmapping blocks manually * (perhaps to avoid polluting malloc statistics), we'd want to use a * different value of BLOCK_SIZE. */ #define BLOCK_SIZE 8192 struct _ShellPerfBlock { guint32 bytes; guchar buffer[BLOCK_SIZE]; }; /* Number of milliseconds between periodic statistics collection when * events are enabled. Statistics collection can also be explicitly * triggered. */ #define STATISTIC_COLLECTION_INTERVAL_MS 5000 /* Builtin events */ enum { EVENT_SET_TIME, EVENT_STATISTICS_COLLECTED }; G_DEFINE_TYPE(ShellPerfLog, shell_perf_log, G_TYPE_OBJECT); static gint64 get_time (void) { return g_get_monotonic_time (); } static void shell_perf_log_init (ShellPerfLog *perf_log) { perf_log->events = g_ptr_array_new (); perf_log->events_by_name = g_hash_table_new (g_str_hash, g_str_equal); perf_log->statistics = g_ptr_array_new (); perf_log->statistics_by_name = g_hash_table_new (g_str_hash, g_str_equal); perf_log->statistics_closures = g_ptr_array_new (); perf_log->blocks = g_queue_new (); /* This event is used when timestamp deltas are greater than * fits in a gint32. 0xffffffff microseconds is about 70 minutes, so this * is not going to happen in normal usage. It might happen if performance * logging is enabled some time after starting the shell */ shell_perf_log_define_event (perf_log, "perf.setTime", "", "x"); g_assert (perf_log->events->len == EVENT_SET_TIME + 1); /* The purpose of this event is to allow us to optimize out storing * statistics that haven't changed. We want to mark every time we * collect statistics even if we don't record any individual * statistics so that we can distinguish sudden changes from gradual changes. * * The argument is the number of microseconds that statistics collection * took; we record that since statistics collection could start taking * significant time if we do things like grub around in /proc/ */ shell_perf_log_define_event (perf_log, "perf.statisticsCollected", "Finished collecting statistics", "x"); g_assert (perf_log->events->len == EVENT_STATISTICS_COLLECTED + 1); perf_log->start_time = perf_log->last_time = get_time(); } static void shell_perf_log_class_init (ShellPerfLogClass *class) { } /** * shell_perf_log_get_default: * * Gets the global singleton performance log. This is initially disabled * and must be explicitly enabled with shell_perf_log_set_enabled(). * * Return value: (transfer none): the global singleton performance log */ ShellPerfLog * shell_perf_log_get_default (void) { static ShellPerfLog *perf_log; if (perf_log == NULL) perf_log = g_object_new (SHELL_TYPE_PERF_LOG, NULL); return perf_log; } static gboolean statistics_timeout (gpointer data) { ShellPerfLog *perf_log = data; shell_perf_log_collect_statistics (perf_log); return TRUE; } /** * shell_perf_log_set_enabled: * @perf_log: a #ShellPerfLog * @enabled: whether to record events * * Sets whether events are currently being recorded. */ void shell_perf_log_set_enabled (ShellPerfLog *perf_log, gboolean enabled) { enabled = enabled != FALSE; if (enabled != perf_log->enabled) { perf_log->enabled = enabled; if (enabled) { perf_log->statistics_timeout_id = g_timeout_add (STATISTIC_COLLECTION_INTERVAL_MS, statistics_timeout, perf_log); g_source_set_name_by_id (perf_log->statistics_timeout_id, "[gnome-shell] statistics_timeout"); } else { g_source_remove (perf_log->statistics_timeout_id); perf_log->statistics_timeout_id = 0; } } } static ShellPerfEvent * define_event (ShellPerfLog *perf_log, const char *name, const char *description, const char *signature) { ShellPerfEvent *event; if (strcmp (signature, "") != 0 && strcmp (signature, "s") != 0 && strcmp (signature, "i") != 0 && strcmp (signature, "x") != 0) { g_warning ("Only supported event signatures are '', 's', 'i', and 'x'\n"); return NULL; } if (perf_log->events->len == 65536) { g_warning ("Maximum number of events defined\n"); return NULL; } /* We could do stricter validation, but this will break our JSON dumps */ if (strchr (name, '"') != NULL) { g_warning ("Event names can't include '\"'"); return NULL; } if (g_hash_table_lookup (perf_log->events_by_name, name) != NULL) { g_warning ("Duplicate event event for '%s'\n", name); return NULL; } event = g_slice_new (ShellPerfEvent); event->id = perf_log->events->len; event->name = g_strdup (name); event->signature = g_strdup (signature); event->description = g_strdup (description); g_ptr_array_add (perf_log->events, event); g_hash_table_insert (perf_log->events_by_name, event->name, event); return event; } /** * shell_perf_log_define_event: * @perf_log: a #ShellPerfLog * @name: name of the event. This should of the form * '., for example * 'clutter.stagePaintDone'. * @description: human readable description of the event. * @signature: signature defining the arguments that event takes. * This is a string of type characters, using the same characters * as D-Bus or GVariant. Only a very limited number of signatures * are supported: , '', 's', 'i', and 'x'. This mean respectively: * no arguments, one string, one 32-bit integer, and one 64-bit * integer. * * Defines a performance event for later recording. */ void shell_perf_log_define_event (ShellPerfLog *perf_log, const char *name, const char *description, const char *signature) { define_event (perf_log, name, description, signature); } static ShellPerfEvent * lookup_event (ShellPerfLog *perf_log, const char *name, const char *signature) { ShellPerfEvent *event = g_hash_table_lookup (perf_log->events_by_name, name); if (G_UNLIKELY (event == NULL)) { g_warning ("Discarding unknown event '%s'\n", name); return NULL; } if (G_UNLIKELY (strcmp (event->signature, signature) != 0)) { g_warning ("Event '%s'; defined with signature '%s', used with '%s'\n", name, event->signature, signature); return NULL; } return event; } static void record_event (ShellPerfLog *perf_log, gint64 event_time, ShellPerfEvent *event, const guchar *bytes, size_t bytes_len) { ShellPerfBlock *block; size_t total_bytes; guint32 time_delta; guint32 pos; if (!perf_log->enabled) return; total_bytes = sizeof (gint32) + sizeof (gint16) + bytes_len; if (G_UNLIKELY (bytes_len > BLOCK_SIZE || total_bytes > BLOCK_SIZE)) { g_warning ("Discarding oversize event '%s'\n", event->name); return; } if (event_time > perf_log->last_time + G_GINT64_CONSTANT(0xffffffff)) { perf_log->last_time = event_time; record_event (perf_log, event_time, lookup_event (perf_log, "perf.setTime", "x"), (const guchar *)&event_time, sizeof(gint64)); time_delta = 0; } else if (event_time < perf_log->last_time) time_delta = 0; else time_delta = (guint32)(event_time - perf_log->last_time); perf_log->last_time = event_time; if (perf_log->blocks->tail == NULL || total_bytes + ((ShellPerfBlock *)perf_log->blocks->tail->data)->bytes > BLOCK_SIZE) { block = g_new (ShellPerfBlock, 1); block->bytes = 0; g_queue_push_tail (perf_log->blocks, block); } else { block = (ShellPerfBlock *)perf_log->blocks->tail->data; } pos = block->bytes; memcpy (block->buffer + pos, &time_delta, sizeof (guint32)); pos += sizeof (guint32); memcpy (block->buffer + pos, &event->id, sizeof (guint16)); pos += sizeof (guint16); memcpy (block->buffer + pos, bytes, bytes_len); pos += bytes_len; block->bytes = pos; } /** * shell_perf_log_event: * @perf_log: a #ShellPerfLog * @name: name of the event * * Records a performance event with no arguments. */ void shell_perf_log_event (ShellPerfLog *perf_log, const char *name) { ShellPerfEvent *event = lookup_event (perf_log, name, ""); if (G_UNLIKELY (event == NULL)) return; record_event (perf_log, get_time(), event, NULL, 0); } /** * shell_perf_log_event_i: * @perf_log: a #ShellPerfLog * @name: name of the event * @arg: the argument * * Records a performance event with one 32-bit integer argument. */ void shell_perf_log_event_i (ShellPerfLog *perf_log, const char *name, gint32 arg) { ShellPerfEvent *event = lookup_event (perf_log, name, "i"); if (G_UNLIKELY (event == NULL)) return; record_event (perf_log, get_time(), event, (const guchar *)&arg, sizeof (arg)); } /** * shell_perf_log_event_x: * @perf_log: a #ShellPerfLog * @name: name of the event * @arg: the argument * * Records a performance event with one 64-bit integer argument. */ void shell_perf_log_event_x (ShellPerfLog *perf_log, const char *name, gint64 arg) { ShellPerfEvent *event = lookup_event (perf_log, name, "x"); if (G_UNLIKELY (event == NULL)) return; record_event (perf_log, get_time(), event, (const guchar *)&arg, sizeof (arg)); } /** * shell_perf_log_event_s: * @perf_log: a #ShellPerfLog * @name: name of the event * @arg: the argument * * Records a performance event with one string argument. */ void shell_perf_log_event_s (ShellPerfLog *perf_log, const char *name, const char *arg) { ShellPerfEvent *event = lookup_event (perf_log, name, "s"); if (G_UNLIKELY (event == NULL)) return; record_event (perf_log, get_time(), event, (const guchar *)arg, strlen (arg) + 1); } /** * shell_perf_log_define_statistic: * @name: name of the statistic and of the corresponding event. * This should follow the same guidelines as for shell_perf_log_define_event() * @description: human readable description of the statistic. * @signature: The type of the data stored for statistic. Must * currently be 'i' or 'x'. * * Defines a statistic. A statistic is a numeric value that is stored * by the performance log and recorded periodically or when * shell_perf_log_collect_statistics() is called explicitly. * * Code that defines a statistic should update it by calling * the update function for the particular data type of the statistic, * such as shell_perf_log_update_statistic_i(). This can be done * at any time, but would normally done inside a function registered * with shell_perf_log_add_statistics_callback(). These functions * are called immediately before statistics are recorded. */ void shell_perf_log_define_statistic (ShellPerfLog *perf_log, const char *name, const char *description, const char *signature) { ShellPerfEvent *event; ShellPerfStatistic *statistic; if (strcmp (signature, "i") != 0 && strcmp (signature, "x") != 0) { g_warning ("Only supported statistic signatures are 'i' and 'x'\n"); return; } event = define_event (perf_log, name, description, signature); if (event == NULL) return; statistic = g_slice_new (ShellPerfStatistic); statistic->event = event; statistic->initialized = FALSE; statistic->recorded = FALSE; g_ptr_array_add (perf_log->statistics, statistic); g_hash_table_insert (perf_log->statistics_by_name, event->name, statistic); } static ShellPerfStatistic * lookup_statistic (ShellPerfLog *perf_log, const char *name, const char *signature) { ShellPerfStatistic *statistic = g_hash_table_lookup (perf_log->statistics_by_name, name); if (G_UNLIKELY (statistic == NULL)) { g_warning ("Unknown statistic '%s'\n", name); return NULL; } if (G_UNLIKELY (strcmp (statistic->event->signature, signature) != 0)) { g_warning ("Statistic '%s'; defined with signature '%s', used with '%s'\n", name, statistic->event->signature, signature); return NULL; } return statistic; } /** * shell_perf_log_update_statistic_i: * @perf_log: a #ShellPerfLog * @name: name of the statistic * @value: new value for the statistic * * Updates the current value of an 32-bit integer statistic. */ void shell_perf_log_update_statistic_i (ShellPerfLog *perf_log, const char *name, gint32 value) { ShellPerfStatistic *statistic; statistic = lookup_statistic (perf_log, name, "i"); if (G_UNLIKELY (statistic == NULL)) return; statistic->current_value.i = value; statistic->initialized = TRUE; } /** * shell_perf_log_update_statistic_x: * @perf_log: a #ShellPerfLog * @name: name of the statistic * @value: new value for the statistic * * Updates the current value of an 64-bit integer statistic. */ void shell_perf_log_update_statistic_x (ShellPerfLog *perf_log, const char *name, gint64 value) { ShellPerfStatistic *statistic; statistic = lookup_statistic (perf_log, name, "x"); if (G_UNLIKELY (statistic == NULL)) return; statistic->current_value.x = value; statistic->initialized = TRUE; } /** * shell_perf_log_add_statistics_callback: * @perf_log: a #ShellPerfLog * @callback: function to call before recording statistics * @user_data: data to pass to @callback * @notify: function to call when @user_data is no longer needed * * Adds a function that will be called before statistics are recorded. * The function would typically compute one or more statistics values * and call a function such as shell_perf_log_update_statistic_i() * to update the value that will be recorded. */ void shell_perf_log_add_statistics_callback (ShellPerfLog *perf_log, ShellPerfStatisticsCallback callback, gpointer user_data, GDestroyNotify notify) { ShellPerfStatisticsClosure *closure = g_slice_new (ShellPerfStatisticsClosure); closure->callback = callback; closure->user_data = user_data; closure->notify = notify; g_ptr_array_add (perf_log->statistics_closures, closure); } /** * shell_perf_log_collect_statistics: * @perf_log: a #ShellPerfLog * * Calls all the update functions added with * shell_perf_log_add_statistics_callback() and then records events * for all statistics, followed by a perf.statisticsCollected event. */ void shell_perf_log_collect_statistics (ShellPerfLog *perf_log) { gint64 event_time = get_time (); gint64 collection_time; int i; if (!perf_log->enabled) return; for (i = 0; i < perf_log->statistics_closures->len; i++) { ShellPerfStatisticsClosure *closure; closure = g_ptr_array_index (perf_log->statistics_closures, i); closure->callback (perf_log, closure->user_data); } collection_time = get_time() - event_time; for (i = 0; i < perf_log->statistics->len; i++) { ShellPerfStatistic *statistic = g_ptr_array_index (perf_log->statistics, i); if (!statistic->initialized) continue; switch (statistic->event->signature[0]) { case 'i': if (!statistic->recorded || statistic->current_value.i != statistic->last_value.i) { record_event (perf_log, event_time, statistic->event, (const guchar *)&statistic->current_value.i, sizeof (gint32)); statistic->last_value.i = statistic->current_value.i; statistic->recorded = TRUE; } break; case 'x': if (!statistic->recorded || statistic->current_value.x != statistic->last_value.x) { record_event (perf_log, event_time, statistic->event, (const guchar *)&statistic->current_value.x, sizeof (gint64)); statistic->last_value.x = statistic->current_value.x; statistic->recorded = TRUE; } break; } } record_event (perf_log, event_time, g_ptr_array_index (perf_log->events, EVENT_STATISTICS_COLLECTED), (const guchar *)&collection_time, sizeof (gint64)); } /** * shell_perf_log_replay: * @perf_log: a #ShellPerfLog * @replay_function: (scope call): function to call for each event in the log * @user_data: data to pass to @replay_function * * Replays the log by calling the given function for each event * in the log. */ void shell_perf_log_replay (ShellPerfLog *perf_log, ShellPerfReplayFunction replay_function, gpointer user_data) { gint64 event_time = perf_log->start_time; GList *iter; for (iter = perf_log->blocks->head; iter; iter = iter->next) { ShellPerfBlock *block = iter->data; guint32 pos = 0; while (pos < block->bytes) { ShellPerfEvent *event; guint16 id; guint32 time_delta; GValue arg = { 0, }; memcpy (&time_delta, block->buffer + pos, sizeof (guint32)); pos += sizeof (guint32); memcpy (&id, block->buffer + pos, sizeof (guint16)); pos += sizeof (guint16); if (id == EVENT_SET_TIME) { /* Internal, we don't include in the replay */ memcpy (&event_time, block->buffer + pos, sizeof (gint64)); pos += sizeof (gint64); continue; } else { event_time += time_delta; } event = g_ptr_array_index (perf_log->events, id); if (strcmp (event->signature, "") == 0) { /* We need to pass something, so pass an empty string */ g_value_init (&arg, G_TYPE_STRING); } else if (strcmp (event->signature, "i") == 0) { gint32 l; memcpy (&l, block->buffer + pos, sizeof (gint32)); pos += sizeof (gint32); g_value_init (&arg, G_TYPE_INT); g_value_set_int (&arg, l); } else if (strcmp (event->signature, "x") == 0) { gint64 l; memcpy (&l, block->buffer + pos, sizeof (gint64)); pos += sizeof (gint64); g_value_init (&arg, G_TYPE_INT64); g_value_set_int64 (&arg, l); } else if (strcmp (event->signature, "s") == 0) { g_value_init (&arg, G_TYPE_STRING); g_value_set_string (&arg, (char *)block->buffer + pos); pos += strlen ((char *)(block->buffer + pos)) + 1; } replay_function (event_time, event->name, event->signature, &arg, user_data); g_value_unset (&arg); } } } static char * escape_quotes (const char *input) { GString *result; const char *p; if (strchr (input, '"') == NULL) return (char *)input; result = g_string_new (NULL); for (p = input; *p; p++) { if (*p == '"') g_string_append (result, "\\\""); else g_string_append_c (result, *p); } return g_string_free (result, FALSE); } static gboolean write_string (GOutputStream *out, const char *str, GError **error) { return g_output_stream_write_all (out, str, strlen (str), NULL, NULL, error); } /** * shell_perf_log_dump_events: * @perf_log: a #ShellPerfLog * @out: output stream into which to write the event definitions * @error: location to store #GError, or %NULL * * Dump the definition of currently defined events and statistics, formatted * as JSON, to the specified output stream. The JSON output is an array, * with each element being a dictionary of the form: * * { name: , * description: events->len; i++) { ShellPerfEvent *event = g_ptr_array_index (perf_log->events, i); char *escaped_description = escape_quotes (event->description); gboolean is_statistic = g_hash_table_lookup (perf_log->statistics_by_name, event->name) != NULL; if (i != 0) g_string_append (output, ",\n "); g_string_append_printf (output, "{ \"name\": \"%s\",\n" " \"description\": \"%s\"", event->name, escaped_description); if (is_statistic) g_string_append (output, ",\n \"statistic\": true"); g_string_append (output, " }"); if (escaped_description != event->description) g_free (escaped_description); } g_string_append (output, " ]"); return write_string (out, g_string_free (output, FALSE), error); } typedef struct { GOutputStream *out; GError *error; gboolean first; } ReplayToJsonClosure; static void replay_to_json (gint64 time, const char *name, const char *signature, GValue *arg, gpointer user_data) { ReplayToJsonClosure *closure = user_data; char *event_str; if (closure->error != NULL) return; if (!closure->first) { if (!write_string (closure->out, ",\n ", &closure->error)) return; } closure->first = FALSE; if (strcmp (signature, "") == 0) { event_str = g_strdup_printf ("[%" G_GINT64_FORMAT ", \"%s\"]", time, name); } else if (strcmp (signature, "i") == 0) { event_str = g_strdup_printf ("[%" G_GINT64_FORMAT ", \"%s\", %i]", time, name, g_value_get_int (arg)); } else if (strcmp (signature, "x") == 0) { event_str = g_strdup_printf ("[%" G_GINT64_FORMAT ", \"%s\", %"G_GINT64_FORMAT "]", time, name, g_value_get_int64 (arg)); } else if (strcmp (signature, "s") == 0) { const char *arg_str = g_value_get_string (arg); char *escaped = escape_quotes (arg_str); event_str = g_strdup_printf ("[%" G_GINT64_FORMAT ", \"%s\", \"%s\"]", time, name, g_value_get_string (arg)); if (escaped != arg_str) g_free (escaped); } else { g_assert_not_reached (); } if (!write_string (closure->out, event_str, &closure->error)) return; } /** * shell_perf_log_dump_log: * @perf_log: a #ShellPerfLog * @out: output stream into which to write the event log * @error: location to store #GError, or %NULL * * Writes the performance event log, formatted as JSON, to the specified * output stream. For performance reasons, the output stream passed * in should generally be a buffered (or memory) output stream, since * it will be written to in small pieces. The JSON output is an array * with the elements of the array also being arrays, of the form * '['