// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2017, Intel Corporation. */ /* Manage metrics and groups of metrics from JSON files */ #include "metricgroup.h" #include "debug.h" #include "evlist.h" #include "evsel.h" #include "strbuf.h" #include "pmu.h" #include "expr.h" #include "rblist.h" #include #include #include "strlist.h" #include #include #include #include #include #include #include "util.h" #include #include "cgroup.h" struct metric_event *metricgroup__lookup(struct rblist *metric_events, struct evsel *evsel, bool create) { struct rb_node *nd; struct metric_event me = { .evsel = evsel }; if (!metric_events) return NULL; nd = rblist__find(metric_events, &me); if (nd) return container_of(nd, struct metric_event, nd); if (create) { rblist__add_node(metric_events, &me); nd = rblist__find(metric_events, &me); if (nd) return container_of(nd, struct metric_event, nd); } return NULL; } static int metric_event_cmp(struct rb_node *rb_node, const void *entry) { struct metric_event *a = container_of(rb_node, struct metric_event, nd); const struct metric_event *b = entry; if (a->evsel == b->evsel) return 0; if ((char *)a->evsel < (char *)b->evsel) return -1; return +1; } static struct rb_node *metric_event_new(struct rblist *rblist __maybe_unused, const void *entry) { struct metric_event *me = malloc(sizeof(struct metric_event)); if (!me) return NULL; memcpy(me, entry, sizeof(struct metric_event)); me->evsel = ((struct metric_event *)entry)->evsel; INIT_LIST_HEAD(&me->head); return &me->nd; } static void metric_event_delete(struct rblist *rblist __maybe_unused, struct rb_node *rb_node) { struct metric_event *me = container_of(rb_node, struct metric_event, nd); struct metric_expr *expr, *tmp; list_for_each_entry_safe(expr, tmp, &me->head, nd) { free(expr->metric_refs); free(expr->metric_events); free(expr); } free(me); } static void metricgroup__rblist_init(struct rblist *metric_events) { rblist__init(metric_events); metric_events->node_cmp = metric_event_cmp; metric_events->node_new = metric_event_new; metric_events->node_delete = metric_event_delete; } void metricgroup__rblist_exit(struct rblist *metric_events) { rblist__exit(metric_events); } /* * A node in the list of referenced metrics. metric_expr * is held as a convenience to avoid a search through the * metric list. */ struct metric_ref_node { const char *metric_name; const char *metric_expr; struct list_head list; }; struct metric { struct list_head nd; struct expr_parse_ctx pctx; const char *metric_name; const char *metric_expr; const char *metric_unit; struct list_head metric_refs; int metric_refs_cnt; int runtime; bool has_constraint; }; #define RECURSION_ID_MAX 1000 struct expr_ids { struct expr_id id[RECURSION_ID_MAX]; int cnt; }; static struct expr_id *expr_ids__alloc(struct expr_ids *ids) { if (ids->cnt >= RECURSION_ID_MAX) return NULL; return &ids->id[ids->cnt++]; } static void expr_ids__exit(struct expr_ids *ids) { int i; for (i = 0; i < ids->cnt; i++) free(ids->id[i].id); } static bool contains_event(struct evsel **metric_events, int num_events, const char *event_name) { int i; for (i = 0; i < num_events; i++) { if (!strcmp(metric_events[i]->name, event_name)) return true; } return false; } static bool evsel_same_pmu_or_none(struct evsel *ev1, struct evsel *ev2) { if (!ev1->pmu_name || !ev2->pmu_name) return true; return !strcmp(ev1->pmu_name, ev2->pmu_name); } /** * Find a group of events in perf_evlist that correspond to those from a parsed * metric expression. Note, as find_evsel_group is called in the same order as * perf_evlist was constructed, metric_no_merge doesn't need to test for * underfilling a group. * @perf_evlist: a list of events something like: {metric1 leader, metric1 * sibling, metric1 sibling}:W,duration_time,{metric2 leader, metric2 sibling, * metric2 sibling}:W,duration_time * @pctx: the parse context for the metric expression. * @metric_no_merge: don't attempt to share events for the metric with other * metrics. * @has_constraint: is there a constraint on the group of events? In which case * the events won't be grouped. * @metric_events: out argument, null terminated array of evsel's associated * with the metric. * @evlist_used: in/out argument, bitmap tracking which evlist events are used. * @return the first metric event or NULL on failure. */ static struct evsel *find_evsel_group(struct evlist *perf_evlist, struct expr_parse_ctx *pctx, bool metric_no_merge, bool has_constraint, struct evsel **metric_events, unsigned long *evlist_used) { struct evsel *ev, *current_leader = NULL; struct expr_id_data *val_ptr; int i = 0, matched_events = 0, events_to_match; const int idnum = (int)hashmap__size(&pctx->ids); /* * duration_time is always grouped separately, when events are grouped * (ie has_constraint is false) then ignore it in the matching loop and * add it to metric_events at the end. */ if (!has_constraint && hashmap__find(&pctx->ids, "duration_time", (void **)&val_ptr)) events_to_match = idnum - 1; else events_to_match = idnum; evlist__for_each_entry (perf_evlist, ev) { /* * Events with a constraint aren't grouped and match the first * events available. */ if (has_constraint && ev->weak_group) continue; /* Ignore event if already used and merging is disabled. */ if (metric_no_merge && test_bit(ev->idx, evlist_used)) continue; if (!has_constraint && ev->leader != current_leader) { /* * Start of a new group, discard the whole match and * start again. */ matched_events = 0; memset(metric_events, 0, sizeof(struct evsel *) * idnum); current_leader = ev->leader; } /* * Check for duplicate events with the same name. For example, * uncore_imc/cas_count_read/ will turn into 6 events per socket * on skylakex. Only the first such event is placed in * metric_events. If events aren't grouped then this also * ensures that the same event in different sibling groups * aren't both added to metric_events. */ if (contains_event(metric_events, matched_events, ev->name)) continue; /* Does this event belong to the parse context? */ if (hashmap__find(&pctx->ids, ev->name, (void **)&val_ptr)) metric_events[matched_events++] = ev; if (matched_events == events_to_match) break; } if (events_to_match != idnum) { /* Add the first duration_time. */ evlist__for_each_entry(perf_evlist, ev) { if (!strcmp(ev->name, "duration_time")) { metric_events[matched_events++] = ev; break; } } } if (matched_events != idnum) { /* Not a whole match */ return NULL; } metric_events[idnum] = NULL; for (i = 0; i < idnum; i++) { ev = metric_events[i]; /* Don't free the used events. */ set_bit(ev->idx, evlist_used); /* * The metric leader points to the identically named event in * metric_events. */ ev->metric_leader = ev; /* * Mark two events with identical names in the same group (or * globally) as being in use as uncore events may be duplicated * for each pmu. Set the metric leader of such events to be the * event that appears in metric_events. */ evlist__for_each_entry_continue(perf_evlist, ev) { /* * If events are grouped then the search can terminate * when then group is left. */ if (!has_constraint && ev->leader != metric_events[i]->leader && evsel_same_pmu_or_none(ev->leader, metric_events[i]->leader)) break; if (!strcmp(metric_events[i]->name, ev->name)) { set_bit(ev->idx, evlist_used); ev->metric_leader = metric_events[i]; } } } return metric_events[0]; } static int metricgroup__setup_events(struct list_head *groups, bool metric_no_merge, struct evlist *perf_evlist, struct rblist *metric_events_list) { struct metric_event *me; struct metric_expr *expr; int i = 0; int ret = 0; struct metric *m; struct evsel *evsel, *tmp; unsigned long *evlist_used; evlist_used = bitmap_alloc(perf_evlist->core.nr_entries); if (!evlist_used) return -ENOMEM; list_for_each_entry (m, groups, nd) { struct evsel **metric_events; struct metric_ref *metric_refs = NULL; metric_events = calloc(sizeof(void *), hashmap__size(&m->pctx.ids) + 1); if (!metric_events) { ret = -ENOMEM; break; } evsel = find_evsel_group(perf_evlist, &m->pctx, metric_no_merge, m->has_constraint, metric_events, evlist_used); if (!evsel) { pr_debug("Cannot resolve %s: %s\n", m->metric_name, m->metric_expr); free(metric_events); continue; } for (i = 0; metric_events[i]; i++) metric_events[i]->collect_stat = true; me = metricgroup__lookup(metric_events_list, evsel, true); if (!me) { ret = -ENOMEM; free(metric_events); break; } expr = malloc(sizeof(struct metric_expr)); if (!expr) { ret = -ENOMEM; free(metric_events); break; } /* * Collect and store collected nested expressions * for metric processing. */ if (m->metric_refs_cnt) { struct metric_ref_node *ref; metric_refs = zalloc(sizeof(struct metric_ref) * (m->metric_refs_cnt + 1)); if (!metric_refs) { ret = -ENOMEM; free(metric_events); free(expr); break; } i = 0; list_for_each_entry(ref, &m->metric_refs, list) { /* * Intentionally passing just const char pointers, * originally from 'struct pmu_event' object. * We don't need to change them, so there's no * need to create our own copy. */ metric_refs[i].metric_name = ref->metric_name; metric_refs[i].metric_expr = ref->metric_expr; i++; } } expr->metric_refs = metric_refs; expr->metric_expr = m->metric_expr; expr->metric_name = m->metric_name; expr->metric_unit = m->metric_unit; expr->metric_events = metric_events; expr->runtime = m->runtime; list_add(&expr->nd, &me->head); } evlist__for_each_entry_safe(perf_evlist, tmp, evsel) { if (!test_bit(evsel->idx, evlist_used)) { evlist__remove(perf_evlist, evsel); evsel__delete(evsel); } } bitmap_free(evlist_used); return ret; } static bool match_metric(const char *n, const char *list) { int len; char *m; if (!list) return false; if (!strcmp(list, "all")) return true; if (!n) return !strcasecmp(list, "No_group"); len = strlen(list); m = strcasestr(n, list); if (!m) return false; if ((m == n || m[-1] == ';' || m[-1] == ' ') && (m[len] == 0 || m[len] == ';')) return true; return false; } static bool match_pe_metric(struct pmu_event *pe, const char *metric) { return match_metric(pe->metric_group, metric) || match_metric(pe->metric_name, metric); } struct mep { struct rb_node nd; const char *name; struct strlist *metrics; }; static int mep_cmp(struct rb_node *rb_node, const void *entry) { struct mep *a = container_of(rb_node, struct mep, nd); struct mep *b = (struct mep *)entry; return strcmp(a->name, b->name); } static struct rb_node *mep_new(struct rblist *rl __maybe_unused, const void *entry) { struct mep *me = malloc(sizeof(struct mep)); if (!me) return NULL; memcpy(me, entry, sizeof(struct mep)); me->name = strdup(me->name); if (!me->name) goto out_me; me->metrics = strlist__new(NULL, NULL); if (!me->metrics) goto out_name; return &me->nd; out_name: zfree(&me->name); out_me: free(me); return NULL; } static struct mep *mep_lookup(struct rblist *groups, const char *name) { struct rb_node *nd; struct mep me = { .name = name }; nd = rblist__find(groups, &me); if (nd) return container_of(nd, struct mep, nd); rblist__add_node(groups, &me); nd = rblist__find(groups, &me); if (nd) return container_of(nd, struct mep, nd); return NULL; } static void mep_delete(struct rblist *rl __maybe_unused, struct rb_node *nd) { struct mep *me = container_of(nd, struct mep, nd); strlist__delete(me->metrics); zfree(&me->name); free(me); } static void metricgroup__print_strlist(struct strlist *metrics, bool raw) { struct str_node *sn; int n = 0; strlist__for_each_entry (sn, metrics) { if (raw) printf("%s%s", n > 0 ? " " : "", sn->s); else printf(" %s\n", sn->s); n++; } if (raw) putchar('\n'); } static int metricgroup__print_pmu_event(struct pmu_event *pe, bool metricgroups, char *filter, bool raw, bool details, struct rblist *groups, struct strlist *metriclist) { const char *g; char *omg, *mg; g = pe->metric_group; if (!g && pe->metric_name) { if (pe->name) return 0; g = "No_group"; } if (!g) return 0; mg = strdup(g); if (!mg) return -ENOMEM; omg = mg; while ((g = strsep(&mg, ";")) != NULL) { struct mep *me; char *s; g = skip_spaces(g); if (*g == 0) g = "No_group"; if (filter && !strstr(g, filter)) continue; if (raw) s = (char *)pe->metric_name; else { if (asprintf(&s, "%s\n%*s%s]", pe->metric_name, 8, "[", pe->desc) < 0) return -1; if (details) { if (asprintf(&s, "%s\n%*s%s]", s, 8, "[", pe->metric_expr) < 0) return -1; } } if (!s) continue; if (!metricgroups) { strlist__add(metriclist, s); } else { me = mep_lookup(groups, g); if (!me) continue; strlist__add(me->metrics, s); } if (!raw) free(s); } free(omg); return 0; } struct metricgroup_print_sys_idata { struct strlist *metriclist; char *filter; struct rblist *groups; bool metricgroups; bool raw; bool details; }; typedef int (*metricgroup_sys_event_iter_fn)(struct pmu_event *pe, void *); struct metricgroup_iter_data { metricgroup_sys_event_iter_fn fn; void *data; }; static int metricgroup__sys_event_iter(struct pmu_event *pe, void *data) { struct metricgroup_iter_data *d = data; struct perf_pmu *pmu = NULL; if (!pe->metric_expr || !pe->compat) return 0; while ((pmu = perf_pmu__scan(pmu))) { if (!pmu->id || strcmp(pmu->id, pe->compat)) continue; return d->fn(pe, d->data); } return 0; } static int metricgroup__print_sys_event_iter(struct pmu_event *pe, void *data) { struct metricgroup_print_sys_idata *d = data; return metricgroup__print_pmu_event(pe, d->metricgroups, d->filter, d->raw, d->details, d->groups, d->metriclist); } void metricgroup__print(bool metrics, bool metricgroups, char *filter, bool raw, bool details) { struct pmu_events_map *map = pmu_events_map__find(); struct pmu_event *pe; int i; struct rblist groups; struct rb_node *node, *next; struct strlist *metriclist = NULL; if (!metricgroups) { metriclist = strlist__new(NULL, NULL); if (!metriclist) return; } rblist__init(&groups); groups.node_new = mep_new; groups.node_cmp = mep_cmp; groups.node_delete = mep_delete; for (i = 0; map; i++) { pe = &map->table[i]; if (!pe->name && !pe->metric_group && !pe->metric_name) break; if (!pe->metric_expr) continue; if (metricgroup__print_pmu_event(pe, metricgroups, filter, raw, details, &groups, metriclist) < 0) return; } { struct metricgroup_iter_data data = { .fn = metricgroup__print_sys_event_iter, .data = (void *) &(struct metricgroup_print_sys_idata){ .metriclist = metriclist, .metricgroups = metricgroups, .filter = filter, .raw = raw, .details = details, .groups = &groups, }, }; pmu_for_each_sys_event(metricgroup__sys_event_iter, &data); } if (!filter || !rblist__empty(&groups)) { if (metricgroups && !raw) printf("\nMetric Groups:\n\n"); else if (metrics && !raw) printf("\nMetrics:\n\n"); } for (node = rb_first_cached(&groups.entries); node; node = next) { struct mep *me = container_of(node, struct mep, nd); if (metricgroups) printf("%s%s%s", me->name, metrics && !raw ? ":" : "", raw ? " " : "\n"); if (metrics) metricgroup__print_strlist(me->metrics, raw); next = rb_next(node); rblist__remove_node(&groups, node); } if (!metricgroups) metricgroup__print_strlist(metriclist, raw); strlist__delete(metriclist); } static void metricgroup__add_metric_weak_group(struct strbuf *events, struct expr_parse_ctx *ctx) { struct hashmap_entry *cur; size_t bkt; bool no_group = true, has_duration = false; hashmap__for_each_entry((&ctx->ids), cur, bkt) { pr_debug("found event %s\n", (const char *)cur->key); /* * Duration time maps to a software event and can make * groups not count. Always use it outside a * group. */ if (!strcmp(cur->key, "duration_time")) { has_duration = true; continue; } strbuf_addf(events, "%s%s", no_group ? "{" : ",", (const char *)cur->key); no_group = false; } if (!no_group) { strbuf_addf(events, "}:W"); if (has_duration) strbuf_addf(events, ",duration_time"); } else if (has_duration) strbuf_addf(events, "duration_time"); } static void metricgroup__add_metric_non_group(struct strbuf *events, struct expr_parse_ctx *ctx) { struct hashmap_entry *cur; size_t bkt; bool first = true; hashmap__for_each_entry((&ctx->ids), cur, bkt) { if (!first) strbuf_addf(events, ","); strbuf_addf(events, "%s", (const char *)cur->key); first = false; } } static void metricgroup___watchdog_constraint_hint(const char *name, bool foot) { static bool violate_nmi_constraint; if (!foot) { pr_warning("Splitting metric group %s into standalone metrics.\n", name); violate_nmi_constraint = true; return; } if (!violate_nmi_constraint) return; pr_warning("Try disabling the NMI watchdog to comply NO_NMI_WATCHDOG metric constraint:\n" " echo 0 > /proc/sys/kernel/nmi_watchdog\n" " perf stat ...\n" " echo 1 > /proc/sys/kernel/nmi_watchdog\n"); } static bool metricgroup__has_constraint(struct pmu_event *pe) { if (!pe->metric_constraint) return false; if (!strcmp(pe->metric_constraint, "NO_NMI_WATCHDOG") && sysctl__nmi_watchdog_enabled()) { metricgroup___watchdog_constraint_hint(pe->metric_name, false); return true; } return false; } int __weak arch_get_runtimeparam(struct pmu_event *pe __maybe_unused) { return 1; } struct metricgroup_add_iter_data { struct list_head *metric_list; const char *metric; struct expr_ids *ids; int *ret; bool *has_match; bool metric_no_group; }; static int __add_metric(struct list_head *metric_list, struct pmu_event *pe, bool metric_no_group, int runtime, struct metric **mp, struct expr_id *parent, struct expr_ids *ids) { struct metric_ref_node *ref; struct metric *m; if (*mp == NULL) { /* * We got in here for the parent group, * allocate it and put it on the list. */ m = zalloc(sizeof(*m)); if (!m) return -ENOMEM; expr__ctx_init(&m->pctx); m->metric_name = pe->metric_name; m->metric_expr = pe->metric_expr; m->metric_unit = pe->unit; m->runtime = runtime; m->has_constraint = metric_no_group || metricgroup__has_constraint(pe); INIT_LIST_HEAD(&m->metric_refs); m->metric_refs_cnt = 0; parent = expr_ids__alloc(ids); if (!parent) { free(m); return -EINVAL; } parent->id = strdup(pe->metric_name); if (!parent->id) { free(m); return -ENOMEM; } *mp = m; } else { /* * We got here for the referenced metric, via the * recursive metricgroup__add_metric call, add * it to the parent group. */ m = *mp; ref = malloc(sizeof(*ref)); if (!ref) return -ENOMEM; /* * Intentionally passing just const char pointers, * from 'pe' object, so they never go away. We don't * need to change them, so there's no need to create * our own copy. */ ref->metric_name = pe->metric_name; ref->metric_expr = pe->metric_expr; list_add(&ref->list, &m->metric_refs); m->metric_refs_cnt++; } /* Force all found IDs in metric to have us as parent ID. */ WARN_ON_ONCE(!parent); m->pctx.parent = parent; /* * For both the parent and referenced metrics, we parse * all the metric's IDs and add it to the parent context. */ if (expr__find_other(pe->metric_expr, NULL, &m->pctx, runtime) < 0) { if (m->metric_refs_cnt == 0) { expr__ctx_clear(&m->pctx); free(m); *mp = NULL; } return -EINVAL; } /* * We add new group only in the 'parent' call, * so bail out for referenced metric case. */ if (m->metric_refs_cnt) return 0; if (list_empty(metric_list)) list_add(&m->nd, metric_list); else { struct list_head *pos; /* Place the largest groups at the front. */ list_for_each_prev(pos, metric_list) { struct metric *old = list_entry(pos, struct metric, nd); if (hashmap__size(&m->pctx.ids) <= hashmap__size(&old->pctx.ids)) break; } list_add(&m->nd, pos); } return 0; } #define map_for_each_event(__pe, __idx, __map) \ if (__map) \ for (__idx = 0, __pe = &__map->table[__idx]; \ __pe->name || __pe->metric_group || __pe->metric_name; \ __pe = &__map->table[++__idx]) #define map_for_each_metric(__pe, __idx, __map, __metric) \ map_for_each_event(__pe, __idx, __map) \ if (__pe->metric_expr && \ (match_metric(__pe->metric_group, __metric) || \ match_metric(__pe->metric_name, __metric))) struct pmu_event *metricgroup__find_metric(const char *metric, struct pmu_events_map *map) { struct pmu_event *pe; int i; map_for_each_event(pe, i, map) { if (match_metric(pe->metric_name, metric)) return pe; } return NULL; } static int recursion_check(struct metric *m, const char *id, struct expr_id **parent, struct expr_ids *ids) { struct expr_id_data *data; struct expr_id *p; int ret; /* * We get the parent referenced by 'id' argument and * traverse through all the parent object IDs to check * if we already processed 'id', if we did, it's recursion * and we fail. */ ret = expr__get_id(&m->pctx, id, &data); if (ret) return ret; p = expr_id_data__parent(data); while (p->parent) { if (!strcmp(p->id, id)) { pr_err("failed: recursion detected for %s\n", id); return -1; } p = p->parent; } /* * If we are over the limit of static entris, the metric * is too difficult/nested to process, fail as well. */ p = expr_ids__alloc(ids); if (!p) { pr_err("failed: too many nested metrics\n"); return -EINVAL; } p->id = strdup(id); p->parent = expr_id_data__parent(data); *parent = p; return p->id ? 0 : -ENOMEM; } static int add_metric(struct list_head *metric_list, struct pmu_event *pe, bool metric_no_group, struct metric **mp, struct expr_id *parent, struct expr_ids *ids); static int __resolve_metric(struct metric *m, bool metric_no_group, struct list_head *metric_list, struct pmu_events_map *map, struct expr_ids *ids) { struct hashmap_entry *cur; size_t bkt; bool all; int ret; /* * Iterate all the parsed IDs and if there's metric, * add it to the context. */ do { all = true; hashmap__for_each_entry((&m->pctx.ids), cur, bkt) { struct expr_id *parent; struct pmu_event *pe; pe = metricgroup__find_metric(cur->key, map); if (!pe) continue; ret = recursion_check(m, cur->key, &parent, ids); if (ret) return ret; all = false; /* The metric key itself needs to go out.. */ expr__del_id(&m->pctx, cur->key); /* ... and it gets resolved to the parent context. */ ret = add_metric(metric_list, pe, metric_no_group, &m, parent, ids); if (ret) return ret; /* * We added new metric to hashmap, so we need * to break the iteration and start over. */ break; } } while (!all); return 0; } static int resolve_metric(bool metric_no_group, struct list_head *metric_list, struct pmu_events_map *map, struct expr_ids *ids) { struct metric *m; int err; list_for_each_entry(m, metric_list, nd) { err = __resolve_metric(m, metric_no_group, metric_list, map, ids); if (err) return err; } return 0; } static int add_metric(struct list_head *metric_list, struct pmu_event *pe, bool metric_no_group, struct metric **m, struct expr_id *parent, struct expr_ids *ids) { struct metric *orig = *m; int ret = 0; pr_debug("metric expr %s for %s\n", pe->metric_expr, pe->metric_name); if (!strstr(pe->metric_expr, "?")) { ret = __add_metric(metric_list, pe, metric_no_group, 1, m, parent, ids); } else { int j, count; count = arch_get_runtimeparam(pe); /* This loop is added to create multiple * events depend on count value and add * those events to metric_list. */ for (j = 0; j < count && !ret; j++, *m = orig) ret = __add_metric(metric_list, pe, metric_no_group, j, m, parent, ids); } return ret; } static int metricgroup__add_metric_sys_event_iter(struct pmu_event *pe, void *data) { struct metricgroup_add_iter_data *d = data; struct metric *m = NULL; int ret; if (!match_pe_metric(pe, d->metric)) return 0; ret = add_metric(d->metric_list, pe, d->metric_no_group, &m, NULL, d->ids); if (ret) goto out; ret = resolve_metric(d->metric_no_group, d->metric_list, NULL, d->ids); if (ret) goto out; *(d->has_match) = true; out: *(d->ret) = ret; return ret; } static int metricgroup__add_metric(const char *metric, bool metric_no_group, struct strbuf *events, struct list_head *metric_list, struct pmu_events_map *map) { struct expr_ids ids = { .cnt = 0, }; struct pmu_event *pe; struct metric *m; LIST_HEAD(list); int i, ret; bool has_match = false; map_for_each_metric(pe, i, map, metric) { has_match = true; m = NULL; ret = add_metric(&list, pe, metric_no_group, &m, NULL, &ids); if (ret) goto out; /* * Process any possible referenced metrics * included in the expression. */ ret = resolve_metric(metric_no_group, &list, map, &ids); if (ret) goto out; } { struct metricgroup_iter_data data = { .fn = metricgroup__add_metric_sys_event_iter, .data = (void *) &(struct metricgroup_add_iter_data) { .metric_list = &list, .metric = metric, .metric_no_group = metric_no_group, .ids = &ids, .has_match = &has_match, .ret = &ret, }, }; pmu_for_each_sys_event(metricgroup__sys_event_iter, &data); } /* End of pmu events. */ if (!has_match) { ret = -EINVAL; goto out; } list_for_each_entry(m, &list, nd) { if (events->len > 0) strbuf_addf(events, ","); if (m->has_constraint) { metricgroup__add_metric_non_group(events, &m->pctx); } else { metricgroup__add_metric_weak_group(events, &m->pctx); } } out: /* * add to metric_list so that they can be released * even if it's failed */ list_splice(&list, metric_list); expr_ids__exit(&ids); return ret; } static int metricgroup__add_metric_list(const char *list, bool metric_no_group, struct strbuf *events, struct list_head *metric_list, struct pmu_events_map *map) { char *llist, *nlist, *p; int ret = -EINVAL; nlist = strdup(list); if (!nlist) return -ENOMEM; llist = nlist; strbuf_init(events, 100); strbuf_addf(events, "%s", ""); while ((p = strsep(&llist, ",")) != NULL) { ret = metricgroup__add_metric(p, metric_no_group, events, metric_list, map); if (ret == -EINVAL) { fprintf(stderr, "Cannot find metric or group `%s'\n", p); break; } } free(nlist); if (!ret) metricgroup___watchdog_constraint_hint(NULL, true); return ret; } static void metric__free_refs(struct metric *metric) { struct metric_ref_node *ref, *tmp; list_for_each_entry_safe(ref, tmp, &metric->metric_refs, list) { list_del(&ref->list); free(ref); } } static void metricgroup__free_metrics(struct list_head *metric_list) { struct metric *m, *tmp; list_for_each_entry_safe (m, tmp, metric_list, nd) { metric__free_refs(m); expr__ctx_clear(&m->pctx); list_del_init(&m->nd); free(m); } } static int parse_groups(struct evlist *perf_evlist, const char *str, bool metric_no_group, bool metric_no_merge, struct perf_pmu *fake_pmu, struct rblist *metric_events, struct pmu_events_map *map) { struct parse_events_error parse_error; struct strbuf extra_events; LIST_HEAD(metric_list); int ret; if (metric_events->nr_entries == 0) metricgroup__rblist_init(metric_events); ret = metricgroup__add_metric_list(str, metric_no_group, &extra_events, &metric_list, map); if (ret) goto out; pr_debug("adding %s\n", extra_events.buf); bzero(&parse_error, sizeof(parse_error)); ret = __parse_events(perf_evlist, extra_events.buf, &parse_error, fake_pmu); if (ret) { parse_events_print_error(&parse_error, extra_events.buf); goto out; } ret = metricgroup__setup_events(&metric_list, metric_no_merge, perf_evlist, metric_events); out: metricgroup__free_metrics(&metric_list); strbuf_release(&extra_events); return ret; } int metricgroup__parse_groups(const struct option *opt, const char *str, bool metric_no_group, bool metric_no_merge, struct rblist *metric_events) { struct evlist *perf_evlist = *(struct evlist **)opt->value; struct pmu_events_map *map = pmu_events_map__find(); return parse_groups(perf_evlist, str, metric_no_group, metric_no_merge, NULL, metric_events, map); } int metricgroup__parse_groups_test(struct evlist *evlist, struct pmu_events_map *map, const char *str, bool metric_no_group, bool metric_no_merge, struct rblist *metric_events) { return parse_groups(evlist, str, metric_no_group, metric_no_merge, &perf_pmu__fake, metric_events, map); } bool metricgroup__has_metric(const char *metric) { struct pmu_events_map *map = pmu_events_map__find(); struct pmu_event *pe; int i; if (!map) return false; for (i = 0; ; i++) { pe = &map->table[i]; if (!pe->name && !pe->metric_group && !pe->metric_name) break; if (!pe->metric_expr) continue; if (match_metric(pe->metric_name, metric)) return true; } return false; } int metricgroup__copy_metric_events(struct evlist *evlist, struct cgroup *cgrp, struct rblist *new_metric_events, struct rblist *old_metric_events) { unsigned i; for (i = 0; i < rblist__nr_entries(old_metric_events); i++) { struct rb_node *nd; struct metric_event *old_me, *new_me; struct metric_expr *old_expr, *new_expr; struct evsel *evsel; size_t alloc_size; int idx, nr; nd = rblist__entry(old_metric_events, i); old_me = container_of(nd, struct metric_event, nd); evsel = evlist__find_evsel(evlist, old_me->evsel->idx); if (!evsel) return -EINVAL; new_me = metricgroup__lookup(new_metric_events, evsel, true); if (!new_me) return -ENOMEM; pr_debug("copying metric event for cgroup '%s': %s (idx=%d)\n", cgrp ? cgrp->name : "root", evsel->name, evsel->idx); list_for_each_entry(old_expr, &old_me->head, nd) { new_expr = malloc(sizeof(*new_expr)); if (!new_expr) return -ENOMEM; new_expr->metric_expr = old_expr->metric_expr; new_expr->metric_name = old_expr->metric_name; new_expr->metric_unit = old_expr->metric_unit; new_expr->runtime = old_expr->runtime; if (old_expr->metric_refs) { /* calculate number of metric_events */ for (nr = 0; old_expr->metric_refs[nr].metric_name; nr++) continue; alloc_size = sizeof(*new_expr->metric_refs); new_expr->metric_refs = calloc(nr + 1, alloc_size); if (!new_expr->metric_refs) { free(new_expr); return -ENOMEM; } memcpy(new_expr->metric_refs, old_expr->metric_refs, nr * alloc_size); } else { new_expr->metric_refs = NULL; } /* calculate number of metric_events */ for (nr = 0; old_expr->metric_events[nr]; nr++) continue; alloc_size = sizeof(*new_expr->metric_events); new_expr->metric_events = calloc(nr + 1, alloc_size); if (!new_expr->metric_events) { free(new_expr->metric_refs); free(new_expr); return -ENOMEM; } /* copy evsel in the same position */ for (idx = 0; idx < nr; idx++) { evsel = old_expr->metric_events[idx]; evsel = evlist__find_evsel(evlist, evsel->idx); if (evsel == NULL) { free(new_expr->metric_events); free(new_expr->metric_refs); free(new_expr); return -EINVAL; } new_expr->metric_events[idx] = evsel; } list_add(&new_expr->nd, &new_me->head); } } return 0; }