// SPDX-License-Identifier: GPL-2.0 /* * builtin-list.c * * Builtin list command: list all event types * * Copyright (C) 2009, Thomas Gleixner * Copyright (C) 2008-2009, Red Hat Inc, Ingo Molnar * Copyright (C) 2011, Red Hat Inc, Arnaldo Carvalho de Melo */ #include "builtin.h" #include "util/print-events.h" #include "util/pmus.h" #include "util/pmu.h" #include "util/debug.h" #include "util/metricgroup.h" #include "util/pfm.h" #include "util/string2.h" #include "util/strlist.h" #include "util/strbuf.h" #include "util/tool_pmu.h" #include #include #include #include #include #include /** * struct print_state - State and configuration passed to the default_print * functions. */ struct print_state { /** @fp: File to write output to. */ FILE *fp; /** * @pmu_glob: Optionally restrict PMU and metric matching to PMU or * debugfs subsystem name. */ char *pmu_glob; /** @event_glob: Optional pattern matching glob. */ char *event_glob; /** @name_only: Print event or metric names only. */ bool name_only; /** @desc: Print the event or metric description. */ bool desc; /** @long_desc: Print longer event or metric description. */ bool long_desc; /** @deprecated: Print deprecated events or metrics. */ bool deprecated; /** * @detailed: Print extra information on the perf event such as names * and expressions used internally by events. */ bool detailed; /** @metrics: Controls printing of metric and metric groups. */ bool metrics; /** @metricgroups: Controls printing of metric and metric groups. */ bool metricgroups; /** @last_topic: The last printed event topic. */ char *last_topic; /** @last_metricgroups: The last printed metric group. */ char *last_metricgroups; /** @visited_metrics: Metrics that are printed to avoid duplicates. */ struct strlist *visited_metrics; }; static void default_print_start(void *ps) { struct print_state *print_state = ps; if (!print_state->name_only && pager_in_use()) { fprintf(print_state->fp, "\nList of pre-defined events (to be used in -e or -M):\n\n"); } } static void default_print_end(void *print_state __maybe_unused) {} static const char *skip_spaces_or_commas(const char *str) { while (isspace(*str) || *str == ',') ++str; return str; } static void wordwrap(FILE *fp, const char *s, int start, int max, int corr) { int column = start; int n; bool saw_newline = false; bool comma = false; while (*s) { int wlen = strcspn(s, " ,\t\n"); const char *sep = comma ? "," : " "; if ((column + wlen >= max && column > start) || saw_newline) { fprintf(fp, comma ? ",\n%*s" : "\n%*s", start, ""); column = start + corr; } if (column <= start) sep = ""; n = fprintf(fp, "%s%.*s", sep, wlen, s); if (n <= 0) break; saw_newline = s[wlen] == '\n'; s += wlen; comma = s[0] == ','; column += n; s = skip_spaces_or_commas(s); } } static void default_print_event(void *ps, const char *topic, const char *pmu_name, const char *event_name, const char *event_alias, const char *scale_unit __maybe_unused, bool deprecated, const char *event_type_desc, const char *desc, const char *long_desc, const char *encoding_desc) { struct print_state *print_state = ps; int pos; FILE *fp = print_state->fp; if (deprecated && !print_state->deprecated) return; if (print_state->pmu_glob && pmu_name && !strglobmatch(pmu_name, print_state->pmu_glob)) return; if (print_state->event_glob && (!event_name || !strglobmatch(event_name, print_state->event_glob)) && (!event_alias || !strglobmatch(event_alias, print_state->event_glob)) && (!topic || !strglobmatch_nocase(topic, print_state->event_glob))) return; if (print_state->name_only) { if (event_alias && strlen(event_alias)) fprintf(fp, "%s ", event_alias); else fprintf(fp, "%s ", event_name); return; } if (strcmp(print_state->last_topic, topic ?: "")) { if (topic) fprintf(fp, "\n%s:\n", topic); zfree(&print_state->last_topic); print_state->last_topic = strdup(topic ?: ""); } if (event_alias && strlen(event_alias)) pos = fprintf(fp, " %s OR %s", event_name, event_alias); else pos = fprintf(fp, " %s", event_name); if (!topic && event_type_desc) { for (; pos < 53; pos++) fputc(' ', fp); fprintf(fp, "[%s]\n", event_type_desc); } else fputc('\n', fp); if (long_desc && print_state->long_desc) { fprintf(fp, "%*s", 8, "["); wordwrap(fp, long_desc, 8, pager_get_columns(), 0); fprintf(fp, "]\n"); } else if (desc && print_state->desc) { char *desc_with_unit = NULL; int desc_len = -1; if (pmu_name && strcmp(pmu_name, "default_core")) { desc_len = strlen(desc); desc_len = asprintf(&desc_with_unit, desc_len > 0 && desc[desc_len - 1] != '.' ? "%s. Unit: %s" : "%s Unit: %s", desc, pmu_name); } fprintf(fp, "%*s", 8, "["); wordwrap(fp, desc_len > 0 ? desc_with_unit : desc, 8, pager_get_columns(), 0); fprintf(fp, "]\n"); free(desc_with_unit); } if (print_state->detailed && encoding_desc) { fprintf(fp, "%*s", 8, ""); wordwrap(fp, encoding_desc, 8, pager_get_columns(), 0); fputc('\n', fp); } } static void default_print_metric(void *ps, const char *group, const char *name, const char *desc, const char *long_desc, const char *expr, const char *threshold, const char *unit __maybe_unused) { struct print_state *print_state = ps; FILE *fp = print_state->fp; if (print_state->event_glob && (!print_state->metrics || !name || !strglobmatch(name, print_state->event_glob)) && (!print_state->metricgroups || !group || !strglobmatch(group, print_state->event_glob))) return; if (!print_state->name_only && !print_state->last_metricgroups) { if (print_state->metricgroups) { fprintf(fp, "\nMetric Groups:\n"); if (!print_state->metrics) fputc('\n', fp); } else { fprintf(fp, "\nMetrics:\n\n"); } } if (!print_state->last_metricgroups || strcmp(print_state->last_metricgroups, group ?: "")) { if (group && print_state->metricgroups) { if (print_state->name_only) { fprintf(fp, "%s ", group); } else { const char *gdesc = print_state->desc ? describe_metricgroup(group) : NULL; const char *print_colon = ""; if (print_state->metrics) { print_colon = ":"; fputc('\n', fp); } if (gdesc) fprintf(fp, "%s%s [%s]\n", group, print_colon, gdesc); else fprintf(fp, "%s%s\n", group, print_colon); } } zfree(&print_state->last_metricgroups); print_state->last_metricgroups = strdup(group ?: ""); } if (!print_state->metrics) return; if (print_state->name_only) { if (print_state->metrics && !strlist__has_entry(print_state->visited_metrics, name)) { fprintf(fp, "%s ", name); strlist__add(print_state->visited_metrics, name); } return; } fprintf(fp, " %s\n", name); if (long_desc && print_state->long_desc) { fprintf(fp, "%*s", 8, "["); wordwrap(fp, long_desc, 8, pager_get_columns(), 0); fprintf(fp, "]\n"); } else if (desc && print_state->desc) { fprintf(fp, "%*s", 8, "["); wordwrap(fp, desc, 8, pager_get_columns(), 0); fprintf(fp, "]\n"); } if (expr && print_state->detailed) { fprintf(fp, "%*s", 8, "["); wordwrap(fp, expr, 8, pager_get_columns(), 0); fprintf(fp, "]\n"); } if (threshold && print_state->detailed) { fprintf(fp, "%*s", 8, "["); wordwrap(fp, threshold, 8, pager_get_columns(), 0); fprintf(fp, "]\n"); } } struct json_print_state { /** @fp: File to write output to. */ FILE *fp; /** Should a separator be printed prior to the next item? */ bool need_sep; }; static void json_print_start(void *ps) { struct json_print_state *print_state = ps; FILE *fp = print_state->fp; fprintf(fp, "[\n"); } static void json_print_end(void *ps) { struct json_print_state *print_state = ps; FILE *fp = print_state->fp; fprintf(fp, "%s]\n", print_state->need_sep ? "\n" : ""); } static void fix_escape_fprintf(FILE *fp, struct strbuf *buf, const char *fmt, ...) { va_list args; va_start(args, fmt); strbuf_setlen(buf, 0); for (size_t fmt_pos = 0; fmt_pos < strlen(fmt); fmt_pos++) { switch (fmt[fmt_pos]) { case '%': fmt_pos++; switch (fmt[fmt_pos]) { case 's': { const char *s = va_arg(args, const char*); strbuf_addstr(buf, s); break; } case 'S': { const char *s = va_arg(args, const char*); for (size_t s_pos = 0; s_pos < strlen(s); s_pos++) { switch (s[s_pos]) { case '\n': strbuf_addstr(buf, "\\n"); break; case '\r': strbuf_addstr(buf, "\\r"); break; case '\\': fallthrough; case '\"': strbuf_addch(buf, '\\'); fallthrough; default: strbuf_addch(buf, s[s_pos]); break; } } break; } default: pr_err("Unexpected format character '%c'\n", fmt[fmt_pos]); strbuf_addch(buf, '%'); strbuf_addch(buf, fmt[fmt_pos]); } break; default: strbuf_addch(buf, fmt[fmt_pos]); break; } } va_end(args); fputs(buf->buf, fp); } static void json_print_event(void *ps, const char *topic, const char *pmu_name, const char *event_name, const char *event_alias, const char *scale_unit, bool deprecated, const char *event_type_desc, const char *desc, const char *long_desc, const char *encoding_desc) { struct json_print_state *print_state = ps; bool need_sep = false; FILE *fp = print_state->fp; struct strbuf buf; strbuf_init(&buf, 0); fprintf(fp, "%s{\n", print_state->need_sep ? ",\n" : ""); print_state->need_sep = true; if (pmu_name) { fix_escape_fprintf(fp, &buf, "\t\"Unit\": \"%S\"", pmu_name); need_sep = true; } if (topic) { fix_escape_fprintf(fp, &buf, "%s\t\"Topic\": \"%S\"", need_sep ? ",\n" : "", topic); need_sep = true; } if (event_name) { fix_escape_fprintf(fp, &buf, "%s\t\"EventName\": \"%S\"", need_sep ? ",\n" : "", event_name); need_sep = true; } if (event_alias && strlen(event_alias)) { fix_escape_fprintf(fp, &buf, "%s\t\"EventAlias\": \"%S\"", need_sep ? ",\n" : "", event_alias); need_sep = true; } if (scale_unit && strlen(scale_unit)) { fix_escape_fprintf(fp, &buf, "%s\t\"ScaleUnit\": \"%S\"", need_sep ? ",\n" : "", scale_unit); need_sep = true; } if (event_type_desc) { fix_escape_fprintf(fp, &buf, "%s\t\"EventType\": \"%S\"", need_sep ? ",\n" : "", event_type_desc); need_sep = true; } if (deprecated) { fix_escape_fprintf(fp, &buf, "%s\t\"Deprecated\": \"%S\"", need_sep ? ",\n" : "", deprecated ? "1" : "0"); need_sep = true; } if (desc) { fix_escape_fprintf(fp, &buf, "%s\t\"BriefDescription\": \"%S\"", need_sep ? ",\n" : "", desc); need_sep = true; } if (long_desc) { fix_escape_fprintf(fp, &buf, "%s\t\"PublicDescription\": \"%S\"", need_sep ? ",\n" : "", long_desc); need_sep = true; } if (encoding_desc) { fix_escape_fprintf(fp, &buf, "%s\t\"Encoding\": \"%S\"", need_sep ? ",\n" : "", encoding_desc); need_sep = true; } fprintf(fp, "%s}", need_sep ? "\n" : ""); strbuf_release(&buf); } static void json_print_metric(void *ps __maybe_unused, const char *group, const char *name, const char *desc, const char *long_desc, const char *expr, const char *threshold, const char *unit) { struct json_print_state *print_state = ps; bool need_sep = false; FILE *fp = print_state->fp; struct strbuf buf; strbuf_init(&buf, 0); fprintf(fp, "%s{\n", print_state->need_sep ? ",\n" : ""); print_state->need_sep = true; if (group) { fix_escape_fprintf(fp, &buf, "\t\"MetricGroup\": \"%S\"", group); need_sep = true; } if (name) { fix_escape_fprintf(fp, &buf, "%s\t\"MetricName\": \"%S\"", need_sep ? ",\n" : "", name); need_sep = true; } if (expr) { fix_escape_fprintf(fp, &buf, "%s\t\"MetricExpr\": \"%S\"", need_sep ? ",\n" : "", expr); need_sep = true; } if (threshold) { fix_escape_fprintf(fp, &buf, "%s\t\"MetricThreshold\": \"%S\"", need_sep ? ",\n" : "", threshold); need_sep = true; } if (unit) { fix_escape_fprintf(fp, &buf, "%s\t\"ScaleUnit\": \"%S\"", need_sep ? ",\n" : "", unit); need_sep = true; } if (desc) { fix_escape_fprintf(fp, &buf, "%s\t\"BriefDescription\": \"%S\"", need_sep ? ",\n" : "", desc); need_sep = true; } if (long_desc) { fix_escape_fprintf(fp, &buf, "%s\t\"PublicDescription\": \"%S\"", need_sep ? ",\n" : "", long_desc); need_sep = true; } fprintf(fp, "%s}", need_sep ? "\n" : ""); strbuf_release(&buf); } static bool json_skip_duplicate_pmus(void *ps __maybe_unused) { return false; } static bool default_skip_duplicate_pmus(void *ps) { struct print_state *print_state = ps; return !print_state->long_desc; } int cmd_list(int argc, const char **argv) { int i, ret = 0; struct print_state default_ps = { .fp = stdout, .desc = true, }; struct print_state json_ps = { .fp = stdout, }; void *ps = &default_ps; struct print_callbacks print_cb = { .print_start = default_print_start, .print_end = default_print_end, .print_event = default_print_event, .print_metric = default_print_metric, .skip_duplicate_pmus = default_skip_duplicate_pmus, }; const char *cputype = NULL; const char *unit_name = NULL; const char *output_path = NULL; bool json = false; struct option list_options[] = { OPT_BOOLEAN(0, "raw-dump", &default_ps.name_only, "Dump raw events"), OPT_BOOLEAN('j', "json", &json, "JSON encode events and metrics"), OPT_BOOLEAN('d', "desc", &default_ps.desc, "Print extra event descriptions. --no-desc to not print."), OPT_BOOLEAN('v', "long-desc", &default_ps.long_desc, "Print longer event descriptions."), OPT_BOOLEAN(0, "details", &default_ps.detailed, "Print information on the perf event names and expressions used internally by events."), OPT_STRING('o', "output", &output_path, "file", "output file name"), OPT_BOOLEAN(0, "deprecated", &default_ps.deprecated, "Print deprecated events."), OPT_STRING(0, "cputype", &cputype, "cpu type", "Limit PMU or metric printing to the given PMU (e.g. cpu, core or atom)."), OPT_STRING(0, "unit", &unit_name, "PMU name", "Limit PMU or metric printing to the specified PMU."), OPT_INCR(0, "debug", &verbose, "Enable debugging output"), OPT_END() }; const char * const list_usage[] = { #ifdef HAVE_LIBPFM "perf list [] [hw|sw|cache|tracepoint|pmu|sdt|metric|metricgroup|event_glob|pfm]", #else "perf list [] [hw|sw|cache|tracepoint|pmu|sdt|metric|metricgroup|event_glob]", #endif NULL }; set_option_flag(list_options, 0, "raw-dump", PARSE_OPT_HIDDEN); /* Hide hybrid flag for the more generic 'unit' flag. */ set_option_flag(list_options, 0, "cputype", PARSE_OPT_HIDDEN); argc = parse_options(argc, argv, list_options, list_usage, PARSE_OPT_STOP_AT_NON_OPTION); if (output_path) { default_ps.fp = fopen(output_path, "w"); json_ps.fp = default_ps.fp; } setup_pager(); if (!default_ps.name_only) setup_pager(); if (json) { print_cb = (struct print_callbacks){ .print_start = json_print_start, .print_end = json_print_end, .print_event = json_print_event, .print_metric = json_print_metric, .skip_duplicate_pmus = json_skip_duplicate_pmus, }; ps = &json_ps; } else { default_ps.last_topic = strdup(""); assert(default_ps.last_topic); default_ps.visited_metrics = strlist__new(NULL, NULL); assert(default_ps.visited_metrics); if (unit_name) default_ps.pmu_glob = strdup(unit_name); else if (cputype) { const struct perf_pmu *pmu = perf_pmus__pmu_for_pmu_filter(cputype); if (!pmu) { pr_err("ERROR: cputype is not supported!\n"); ret = -1; goto out; } default_ps.pmu_glob = strdup(pmu->name); } } print_cb.print_start(ps); if (argc == 0) { default_ps.metrics = true; default_ps.metricgroups = true; print_events(&print_cb, ps); goto out; } for (i = 0; i < argc; ++i) { char *sep, *s; if (strcmp(argv[i], "tracepoint") == 0) print_tracepoint_events(&print_cb, ps); else if (strcmp(argv[i], "hw") == 0 || strcmp(argv[i], "hardware") == 0) print_symbol_events(&print_cb, ps, PERF_TYPE_HARDWARE, event_symbols_hw, PERF_COUNT_HW_MAX); else if (strcmp(argv[i], "sw") == 0 || strcmp(argv[i], "software") == 0) { char *old_pmu_glob = default_ps.pmu_glob; print_symbol_events(&print_cb, ps, PERF_TYPE_SOFTWARE, event_symbols_sw, PERF_COUNT_SW_MAX); default_ps.pmu_glob = strdup("tool"); if (!default_ps.pmu_glob) { ret = -1; goto out; } perf_pmus__print_pmu_events(&print_cb, ps); zfree(&default_ps.pmu_glob); default_ps.pmu_glob = old_pmu_glob; } else if (strcmp(argv[i], "cache") == 0 || strcmp(argv[i], "hwcache") == 0) print_hwcache_events(&print_cb, ps); else if (strcmp(argv[i], "pmu") == 0) perf_pmus__print_pmu_events(&print_cb, ps); else if (strcmp(argv[i], "sdt") == 0) print_sdt_events(&print_cb, ps); else if (strcmp(argv[i], "metric") == 0 || strcmp(argv[i], "metrics") == 0) { default_ps.metricgroups = false; default_ps.metrics = true; metricgroup__print(&print_cb, ps); } else if (strcmp(argv[i], "metricgroup") == 0 || strcmp(argv[i], "metricgroups") == 0) { default_ps.metricgroups = true; default_ps.metrics = false; metricgroup__print(&print_cb, ps); } #ifdef HAVE_LIBPFM else if (strcmp(argv[i], "pfm") == 0) print_libpfm_events(&print_cb, ps); #endif else if ((sep = strchr(argv[i], ':')) != NULL) { char *old_pmu_glob = default_ps.pmu_glob; default_ps.event_glob = strdup(argv[i]); if (!default_ps.event_glob) { ret = -1; goto out; } print_tracepoint_events(&print_cb, ps); print_sdt_events(&print_cb, ps); default_ps.metrics = true; default_ps.metricgroups = true; metricgroup__print(&print_cb, ps); zfree(&default_ps.event_glob); default_ps.pmu_glob = old_pmu_glob; } else { if (asprintf(&s, "*%s*", argv[i]) < 0) { printf("Critical: Not enough memory! Trying to continue...\n"); continue; } default_ps.event_glob = s; print_symbol_events(&print_cb, ps, PERF_TYPE_HARDWARE, event_symbols_hw, PERF_COUNT_HW_MAX); print_symbol_events(&print_cb, ps, PERF_TYPE_SOFTWARE, event_symbols_sw, PERF_COUNT_SW_MAX); print_hwcache_events(&print_cb, ps); perf_pmus__print_pmu_events(&print_cb, ps); print_tracepoint_events(&print_cb, ps); print_sdt_events(&print_cb, ps); default_ps.metrics = true; default_ps.metricgroups = true; metricgroup__print(&print_cb, ps); free(s); } } out: print_cb.print_end(ps); free(default_ps.pmu_glob); free(default_ps.last_topic); free(default_ps.last_metricgroups); strlist__delete(default_ps.visited_metrics); if (output_path) fclose(default_ps.fp); return ret; }