Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Ian Rogers | 2298 | 81.84% | 24 | 35.29% |
Arnaldo Carvalho de Melo | 108 | 3.85% | 8 | 11.76% |
Namhyung Kim | 99 | 3.53% | 5 | 7.35% |
Jin Yao | 96 | 3.42% | 5 | 7.35% |
Andi Kleen | 60 | 2.14% | 5 | 7.35% |
Jiri Olsa | 40 | 1.42% | 5 | 7.35% |
James Clark | 24 | 0.85% | 2 | 2.94% |
Adrian Hunter | 24 | 0.85% | 3 | 4.41% |
John Garry | 23 | 0.82% | 3 | 4.41% |
Robert Richter | 15 | 0.53% | 1 | 1.47% |
Ravi Bangoria | 7 | 0.25% | 2 | 2.94% |
Kan Liang | 6 | 0.21% | 1 | 1.47% |
Steven Rostedt | 3 | 0.11% | 1 | 1.47% |
Clark Williams | 2 | 0.07% | 1 | 1.47% |
Jing Zhang | 2 | 0.07% | 1 | 1.47% |
Greg Kroah-Hartman | 1 | 0.04% | 1 | 1.47% |
Total | 2808 | 68 |
// SPDX-License-Identifier: GPL-2.0 #include <linux/list.h> #include <linux/list_sort.h> #include <linux/string.h> #include <linux/zalloc.h> #include <subcmd/pager.h> #include <sys/types.h> #include <ctype.h> #include <dirent.h> #include <pthread.h> #include <string.h> #include <unistd.h> #include "cpumap.h" #include "debug.h" #include "evsel.h" #include "pmus.h" #include "pmu.h" #include "print-events.h" /* * core_pmus: A PMU belongs to core_pmus if it's name is "cpu" or it's sysfs * directory contains "cpus" file. All PMUs belonging to core_pmus * must have pmu->is_core=1. If there are more than one PMU in * this list, perf interprets it as a heterogeneous platform. * (FWIW, certain ARM platforms having heterogeneous cores uses * homogeneous PMU, and thus they are treated as homogeneous * platform by perf because core_pmus will have only one entry) * other_pmus: All other PMUs which are not part of core_pmus list. It doesn't * matter whether PMU is present per SMT-thread or outside of the * core in the hw. For e.g., an instance of AMD ibs_fetch// and * ibs_op// PMUs is present in each hw SMT thread, however they * are captured under other_pmus. PMUs belonging to other_pmus * must have pmu->is_core=0 but pmu->is_uncore could be 0 or 1. */ static LIST_HEAD(core_pmus); static LIST_HEAD(other_pmus); static bool read_sysfs_core_pmus; static bool read_sysfs_all_pmus; static void pmu_read_sysfs(bool core_only); int pmu_name_len_no_suffix(const char *str, unsigned long *num) { int orig_len, len; orig_len = len = strlen(str); /* Non-uncore PMUs have their full length, for example, i915. */ if (!strstarts(str, "uncore_")) return len; /* * Count trailing digits and '_', if '_{num}' suffix isn't present use * the full length. */ while (len > 0 && isdigit(str[len - 1])) len--; if (len > 0 && len != orig_len && str[len - 1] == '_') { if (num) *num = strtoul(&str[len], NULL, 10); return len - 1; } return orig_len; } void perf_pmus__destroy(void) { struct perf_pmu *pmu, *tmp; list_for_each_entry_safe(pmu, tmp, &core_pmus, list) { list_del(&pmu->list); perf_pmu__delete(pmu); } list_for_each_entry_safe(pmu, tmp, &other_pmus, list) { list_del(&pmu->list); perf_pmu__delete(pmu); } read_sysfs_core_pmus = false; read_sysfs_all_pmus = false; } static struct perf_pmu *pmu_find(const char *name) { struct perf_pmu *pmu; list_for_each_entry(pmu, &core_pmus, list) { if (!strcmp(pmu->name, name) || (pmu->alias_name && !strcmp(pmu->alias_name, name))) return pmu; } list_for_each_entry(pmu, &other_pmus, list) { if (!strcmp(pmu->name, name) || (pmu->alias_name && !strcmp(pmu->alias_name, name))) return pmu; } return NULL; } struct perf_pmu *perf_pmus__find(const char *name) { struct perf_pmu *pmu; int dirfd; bool core_pmu; /* * Once PMU is loaded it stays in the list, * so we keep us from multiple reading/parsing * the pmu format definitions. */ pmu = pmu_find(name); if (pmu) return pmu; if (read_sysfs_all_pmus) return NULL; core_pmu = is_pmu_core(name); if (core_pmu && read_sysfs_core_pmus) return NULL; dirfd = perf_pmu__event_source_devices_fd(); pmu = perf_pmu__lookup(core_pmu ? &core_pmus : &other_pmus, dirfd, name); close(dirfd); if (!pmu) { /* * Looking up an inidividual PMU failed. This may mean name is * an alias, so read the PMUs from sysfs and try to find again. */ pmu_read_sysfs(core_pmu); pmu = pmu_find(name); } return pmu; } static struct perf_pmu *perf_pmu__find2(int dirfd, const char *name) { struct perf_pmu *pmu; bool core_pmu; /* * Once PMU is loaded it stays in the list, * so we keep us from multiple reading/parsing * the pmu format definitions. */ pmu = pmu_find(name); if (pmu) return pmu; if (read_sysfs_all_pmus) return NULL; core_pmu = is_pmu_core(name); if (core_pmu && read_sysfs_core_pmus) return NULL; return perf_pmu__lookup(core_pmu ? &core_pmus : &other_pmus, dirfd, name); } static int pmus_cmp(void *priv __maybe_unused, const struct list_head *lhs, const struct list_head *rhs) { unsigned long lhs_num = 0, rhs_num = 0; struct perf_pmu *lhs_pmu = container_of(lhs, struct perf_pmu, list); struct perf_pmu *rhs_pmu = container_of(rhs, struct perf_pmu, list); const char *lhs_pmu_name = lhs_pmu->name ?: ""; const char *rhs_pmu_name = rhs_pmu->name ?: ""; int lhs_pmu_name_len = pmu_name_len_no_suffix(lhs_pmu_name, &lhs_num); int rhs_pmu_name_len = pmu_name_len_no_suffix(rhs_pmu_name, &rhs_num); int ret = strncmp(lhs_pmu_name, rhs_pmu_name, lhs_pmu_name_len < rhs_pmu_name_len ? lhs_pmu_name_len : rhs_pmu_name_len); if (lhs_pmu_name_len != rhs_pmu_name_len || ret != 0 || lhs_pmu_name_len == 0) return ret; return lhs_num < rhs_num ? -1 : (lhs_num > rhs_num ? 1 : 0); } /* Add all pmus in sysfs to pmu list: */ static void pmu_read_sysfs(bool core_only) { int fd; DIR *dir; struct dirent *dent; if (read_sysfs_all_pmus || (core_only && read_sysfs_core_pmus)) return; fd = perf_pmu__event_source_devices_fd(); if (fd < 0) return; dir = fdopendir(fd); if (!dir) { close(fd); return; } while ((dent = readdir(dir))) { if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..")) continue; if (core_only && !is_pmu_core(dent->d_name)) continue; /* add to static LIST_HEAD(core_pmus) or LIST_HEAD(other_pmus): */ perf_pmu__find2(fd, dent->d_name); } closedir(dir); if (list_empty(&core_pmus)) { if (!perf_pmu__create_placeholder_core_pmu(&core_pmus)) pr_err("Failure to set up any core PMUs\n"); } list_sort(NULL, &core_pmus, pmus_cmp); list_sort(NULL, &other_pmus, pmus_cmp); if (!list_empty(&core_pmus)) { read_sysfs_core_pmus = true; if (!core_only) read_sysfs_all_pmus = true; } } static struct perf_pmu *__perf_pmus__find_by_type(unsigned int type) { struct perf_pmu *pmu; list_for_each_entry(pmu, &core_pmus, list) { if (pmu->type == type) return pmu; } list_for_each_entry(pmu, &other_pmus, list) { if (pmu->type == type) return pmu; } return NULL; } struct perf_pmu *perf_pmus__find_by_type(unsigned int type) { struct perf_pmu *pmu = __perf_pmus__find_by_type(type); if (pmu || read_sysfs_all_pmus) return pmu; pmu_read_sysfs(/*core_only=*/false); pmu = __perf_pmus__find_by_type(type); return pmu; } /* * pmu iterator: If pmu is NULL, we start at the begin, otherwise return the * next pmu. Returns NULL on end. */ struct perf_pmu *perf_pmus__scan(struct perf_pmu *pmu) { bool use_core_pmus = !pmu || pmu->is_core; if (!pmu) { pmu_read_sysfs(/*core_only=*/false); pmu = list_prepare_entry(pmu, &core_pmus, list); } if (use_core_pmus) { list_for_each_entry_continue(pmu, &core_pmus, list) return pmu; pmu = NULL; pmu = list_prepare_entry(pmu, &other_pmus, list); } list_for_each_entry_continue(pmu, &other_pmus, list) return pmu; return NULL; } struct perf_pmu *perf_pmus__scan_core(struct perf_pmu *pmu) { if (!pmu) { pmu_read_sysfs(/*core_only=*/true); return list_first_entry_or_null(&core_pmus, typeof(*pmu), list); } list_for_each_entry_continue(pmu, &core_pmus, list) return pmu; return NULL; } static struct perf_pmu *perf_pmus__scan_skip_duplicates(struct perf_pmu *pmu) { bool use_core_pmus = !pmu || pmu->is_core; int last_pmu_name_len = 0; const char *last_pmu_name = (pmu && pmu->name) ? pmu->name : ""; if (!pmu) { pmu_read_sysfs(/*core_only=*/false); pmu = list_prepare_entry(pmu, &core_pmus, list); } else last_pmu_name_len = pmu_name_len_no_suffix(pmu->name ?: "", NULL); if (use_core_pmus) { list_for_each_entry_continue(pmu, &core_pmus, list) { int pmu_name_len = pmu_name_len_no_suffix(pmu->name ?: "", /*num=*/NULL); if (last_pmu_name_len == pmu_name_len && !strncmp(last_pmu_name, pmu->name ?: "", pmu_name_len)) continue; return pmu; } pmu = NULL; pmu = list_prepare_entry(pmu, &other_pmus, list); } list_for_each_entry_continue(pmu, &other_pmus, list) { int pmu_name_len = pmu_name_len_no_suffix(pmu->name ?: "", /*num=*/NULL); if (last_pmu_name_len == pmu_name_len && !strncmp(last_pmu_name, pmu->name ?: "", pmu_name_len)) continue; return pmu; } return NULL; } const struct perf_pmu *perf_pmus__pmu_for_pmu_filter(const char *str) { struct perf_pmu *pmu = NULL; while ((pmu = perf_pmus__scan(pmu)) != NULL) { if (!strcmp(pmu->name, str)) return pmu; /* Ignore "uncore_" prefix. */ if (!strncmp(pmu->name, "uncore_", 7)) { if (!strcmp(pmu->name + 7, str)) return pmu; } /* Ignore "cpu_" prefix on Intel hybrid PMUs. */ if (!strncmp(pmu->name, "cpu_", 4)) { if (!strcmp(pmu->name + 4, str)) return pmu; } } return NULL; } /** Struct for ordering events as output in perf list. */ struct sevent { /** PMU for event. */ const struct perf_pmu *pmu; const char *name; const char* alias; const char *scale_unit; const char *desc; const char *long_desc; const char *encoding_desc; const char *topic; const char *pmu_name; bool deprecated; }; static int cmp_sevent(const void *a, const void *b) { const struct sevent *as = a; const struct sevent *bs = b; bool a_iscpu, b_iscpu; int ret; /* Put extra events last. */ if (!!as->desc != !!bs->desc) return !!as->desc - !!bs->desc; /* Order by topics. */ ret = strcmp(as->topic ?: "", bs->topic ?: ""); if (ret) return ret; /* Order CPU core events to be first */ a_iscpu = as->pmu ? as->pmu->is_core : true; b_iscpu = bs->pmu ? bs->pmu->is_core : true; if (a_iscpu != b_iscpu) return a_iscpu ? -1 : 1; /* Order by PMU name. */ if (as->pmu != bs->pmu) { ret = strcmp(as->pmu_name ?: "", bs->pmu_name ?: ""); if (ret) return ret; } /* Order by event name. */ return strcmp(as->name, bs->name); } static bool pmu_alias_is_duplicate(struct sevent *a, struct sevent *b) { /* Different names -> never duplicates */ if (strcmp(a->name ?: "//", b->name ?: "//")) return false; /* Don't remove duplicates for different PMUs */ return strcmp(a->pmu_name, b->pmu_name) == 0; } struct events_callback_state { struct sevent *aliases; size_t aliases_len; size_t index; }; static int perf_pmus__print_pmu_events__callback(void *vstate, struct pmu_event_info *info) { struct events_callback_state *state = vstate; struct sevent *s; if (state->index >= state->aliases_len) { pr_err("Unexpected event %s/%s/\n", info->pmu->name, info->name); return 1; } s = &state->aliases[state->index]; s->pmu = info->pmu; #define COPY_STR(str) s->str = info->str ? strdup(info->str) : NULL COPY_STR(name); COPY_STR(alias); COPY_STR(scale_unit); COPY_STR(desc); COPY_STR(long_desc); COPY_STR(encoding_desc); COPY_STR(topic); COPY_STR(pmu_name); #undef COPY_STR s->deprecated = info->deprecated; state->index++; return 0; } void perf_pmus__print_pmu_events(const struct print_callbacks *print_cb, void *print_state) { struct perf_pmu *pmu; int printed = 0; int len; struct sevent *aliases; struct events_callback_state state; bool skip_duplicate_pmus = print_cb->skip_duplicate_pmus(print_state); struct perf_pmu *(*scan_fn)(struct perf_pmu *); if (skip_duplicate_pmus) scan_fn = perf_pmus__scan_skip_duplicates; else scan_fn = perf_pmus__scan; pmu = NULL; len = 0; while ((pmu = scan_fn(pmu)) != NULL) len += perf_pmu__num_events(pmu); aliases = zalloc(sizeof(struct sevent) * len); if (!aliases) { pr_err("FATAL: not enough memory to print PMU events\n"); return; } pmu = NULL; state = (struct events_callback_state) { .aliases = aliases, .aliases_len = len, .index = 0, }; while ((pmu = scan_fn(pmu)) != NULL) { perf_pmu__for_each_event(pmu, skip_duplicate_pmus, &state, perf_pmus__print_pmu_events__callback); } qsort(aliases, len, sizeof(struct sevent), cmp_sevent); for (int j = 0; j < len; j++) { /* Skip duplicates */ if (j > 0 && pmu_alias_is_duplicate(&aliases[j], &aliases[j - 1])) continue; print_cb->print_event(print_state, aliases[j].pmu_name, aliases[j].topic, aliases[j].name, aliases[j].alias, aliases[j].scale_unit, aliases[j].deprecated, "Kernel PMU event", aliases[j].desc, aliases[j].long_desc, aliases[j].encoding_desc); zfree(&aliases[j].name); zfree(&aliases[j].alias); zfree(&aliases[j].scale_unit); zfree(&aliases[j].desc); zfree(&aliases[j].long_desc); zfree(&aliases[j].encoding_desc); zfree(&aliases[j].topic); zfree(&aliases[j].pmu_name); } if (printed && pager_in_use()) printf("\n"); zfree(&aliases); } bool perf_pmus__have_event(const char *pname, const char *name) { struct perf_pmu *pmu = perf_pmus__find(pname); return pmu && perf_pmu__have_event(pmu, name); } int perf_pmus__num_core_pmus(void) { static int count; if (!count) { struct perf_pmu *pmu = NULL; while ((pmu = perf_pmus__scan_core(pmu)) != NULL) count++; } return count; } static bool __perf_pmus__supports_extended_type(void) { struct perf_pmu *pmu = NULL; if (perf_pmus__num_core_pmus() <= 1) return false; while ((pmu = perf_pmus__scan_core(pmu)) != NULL) { if (!is_event_supported(PERF_TYPE_HARDWARE, PERF_COUNT_HW_CPU_CYCLES | ((__u64)pmu->type << PERF_PMU_TYPE_SHIFT))) return false; } return true; } static bool perf_pmus__do_support_extended_type; static void perf_pmus__init_supports_extended_type(void) { perf_pmus__do_support_extended_type = __perf_pmus__supports_extended_type(); } bool perf_pmus__supports_extended_type(void) { static pthread_once_t extended_type_once = PTHREAD_ONCE_INIT; pthread_once(&extended_type_once, perf_pmus__init_supports_extended_type); return perf_pmus__do_support_extended_type; } char *perf_pmus__default_pmu_name(void) { int fd; DIR *dir; struct dirent *dent; char *result = NULL; if (!list_empty(&core_pmus)) return strdup(list_first_entry(&core_pmus, struct perf_pmu, list)->name); fd = perf_pmu__event_source_devices_fd(); if (fd < 0) return strdup("cpu"); dir = fdopendir(fd); if (!dir) { close(fd); return strdup("cpu"); } while ((dent = readdir(dir))) { if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, "..")) continue; if (is_pmu_core(dent->d_name)) { result = strdup(dent->d_name); break; } } closedir(dir); return result ?: strdup("cpu"); } struct perf_pmu *evsel__find_pmu(const struct evsel *evsel) { struct perf_pmu *pmu = evsel->pmu; if (!pmu) { pmu = perf_pmus__find_by_type(evsel->core.attr.type); ((struct evsel *)evsel)->pmu = pmu; } return pmu; } struct perf_pmu *perf_pmus__find_core_pmu(void) { return perf_pmus__scan_core(NULL); }
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