X-Git-Url: https://git.octo.it/?p=collectd.git;a=blobdiff_plain;f=src%2Fintel_pmu.c;h=957004d0f594d1cec836d4dfc178e29e53b418f3;hp=f9758da7c64976dba6aba7f95e91d8aced42010f;hb=7b8851b26928b609ce850e78c1eabb50ff319244;hpb=b1931a05b8ebc980cc53603931d26ecc2a6f7edd diff --git a/src/intel_pmu.c b/src/intel_pmu.c index f9758da7..957004d0 100644 --- a/src/intel_pmu.c +++ b/src/intel_pmu.c @@ -28,8 +28,8 @@ #include "collectd.h" #include "common.h" -#include "jevents.h" -#include "jsession.h" +#include +#include #define PMU_PLUGIN "intel_pmu" @@ -67,7 +67,9 @@ struct intel_pmu_ctx_s { _Bool hw_cache_events; _Bool kernel_pmu_events; _Bool sw_events; - char *hw_specific_events; + char event_list_fn[PATH_MAX]; + char **hw_events; + size_t hw_events_count; struct eventlist *event_list; }; typedef struct intel_pmu_ctx_s intel_pmu_ctx_t; @@ -176,12 +178,10 @@ static void pmu_dump_events() { DEBUG(PMU_PLUGIN ": event : %s", e->event); DEBUG(PMU_PLUGIN ": group_lead: %d", e->group_leader); DEBUG(PMU_PLUGIN ": end_group : %d", e->end_group); - DEBUG(PMU_PLUGIN ": type : 0x%X", e->attr.type); - DEBUG(PMU_PLUGIN ": config : 0x%X", (int)e->attr.config); + DEBUG(PMU_PLUGIN ": type : %#x", e->attr.type); + DEBUG(PMU_PLUGIN ": config : %#x", (unsigned)e->attr.config); DEBUG(PMU_PLUGIN ": size : %d", e->attr.size); } - - return; } static void pmu_dump_config(void) { @@ -189,33 +189,68 @@ static void pmu_dump_config(void) { DEBUG(PMU_PLUGIN ": Config:"); DEBUG(PMU_PLUGIN ": hw_cache_events : %d", g_ctx.hw_cache_events); DEBUG(PMU_PLUGIN ": kernel_pmu_events : %d", g_ctx.kernel_pmu_events); - DEBUG(PMU_PLUGIN ": sw_events : %d", g_ctx.sw_events); - DEBUG(PMU_PLUGIN ": hw_specific_events: %s", g_ctx.hw_specific_events); + DEBUG(PMU_PLUGIN ": software_events : %d", g_ctx.sw_events); - return; + for (size_t i = 0; i < g_ctx.hw_events_count; i++) { + DEBUG(PMU_PLUGIN ": hardware_events[%" PRIsz "]: %s", i, + g_ctx.hw_events[i]); + } } #endif /* COLLECT_DEBUG */ +static int pmu_config_hw_events(oconfig_item_t *ci) { + + if (strcasecmp("HardwareEvents", ci->key) != 0) { + return -EINVAL; + } + + g_ctx.hw_events = calloc(ci->values_num, sizeof(char *)); + if (g_ctx.hw_events == NULL) { + ERROR(PMU_PLUGIN ": Failed to allocate hw events."); + return -ENOMEM; + } + + for (int i = 0; i < ci->values_num; i++) { + if (ci->values[i].type != OCONFIG_TYPE_STRING) { + WARNING(PMU_PLUGIN ": The %s option requires string arguments.", ci->key); + continue; + } + + g_ctx.hw_events[g_ctx.hw_events_count] = strdup(ci->values[i].value.string); + if (g_ctx.hw_events[g_ctx.hw_events_count] == NULL) { + ERROR(PMU_PLUGIN ": Failed to allocate hw events entry."); + return -ENOMEM; + } + + g_ctx.hw_events_count++; + } + + return 0; +} + static int pmu_config(oconfig_item_t *ci) { - int ret = 0; DEBUG(PMU_PLUGIN ": %s:%d", __FUNCTION__, __LINE__); for (int i = 0; i < ci->children_num; i++) { + int ret = 0; oconfig_item_t *child = ci->children + i; - if (strcasecmp("HWCacheEvents", child->key) == 0) { + if (strcasecmp("ReportHardwareCacheEvents", child->key) == 0) { ret = cf_util_get_boolean(child, &g_ctx.hw_cache_events); - } else if (strcasecmp("KernelPMUEvents", child->key) == 0) { + } else if (strcasecmp("ReportKernelPMUEvents", child->key) == 0) { ret = cf_util_get_boolean(child, &g_ctx.kernel_pmu_events); - } else if (strcasecmp("HWSpecificEvents", child->key) == 0) { - ret = cf_util_get_string(child, &g_ctx.hw_specific_events); - } else if (strcasecmp("SWEvents", child->key) == 0) { + } else if (strcasecmp("EventList", child->key) == 0) { + ret = cf_util_get_string_buffer(child, g_ctx.event_list_fn, + sizeof(g_ctx.event_list_fn)); + } else if (strcasecmp("HardwareEvents", child->key) == 0) { + ret = pmu_config_hw_events(child); + } else if (strcasecmp("ReportSoftwareEvents", child->key) == 0) { ret = cf_util_get_boolean(child, &g_ctx.sw_events); } else { ERROR(PMU_PLUGIN ": Unknown configuration parameter \"%s\".", child->key); - ret = (-1); + ret = -1; } if (ret != 0) { @@ -228,10 +263,11 @@ static int pmu_config(oconfig_item_t *ci) { pmu_dump_config(); #endif - return (0); + return 0; } -static void pmu_submit_counter(int cpu, char *event, counter_t value) { +static void pmu_submit_counter(int cpu, char *event, counter_t value, + meta_data_t *meta) { value_list_t vl = VALUE_LIST_INIT; vl.values = &(value_t){.counter = value}; @@ -241,6 +277,7 @@ static void pmu_submit_counter(int cpu, char *event, counter_t value) { if (cpu == -1) { snprintf(vl.plugin_instance, sizeof(vl.plugin_instance), "all"); } else { + vl.meta = meta; snprintf(vl.plugin_instance, sizeof(vl.plugin_instance), "%d", cpu); } sstrncpy(vl.type, "counter", sizeof(vl.type)); @@ -249,7 +286,28 @@ static void pmu_submit_counter(int cpu, char *event, counter_t value) { plugin_dispatch_values(&vl); } -static int pmu_dispatch_data(void) { +meta_data_t *pmu_meta_data_create(const struct efd *efd) { + meta_data_t *meta = NULL; + + /* create meta data only if value was scaled */ + if (efd->val[1] == efd->val[2] || !efd->val[2]) { + return NULL; + } + + meta = meta_data_create(); + if (meta == NULL) { + ERROR(PMU_PLUGIN ": meta_data_create failed."); + return NULL; + } + + meta_data_add_unsigned_int(meta, "intel_pmu:raw_count", efd->val[0]); + meta_data_add_unsigned_int(meta, "intel_pmu:time_enabled", efd->val[1]); + meta_data_add_unsigned_int(meta, "intel_pmu:time_running", efd->val[2]); + + return meta; +} + +static void pmu_dispatch_data(void) { struct event *e; @@ -263,21 +321,29 @@ static int pmu_dispatch_data(void) { event_enabled++; + /* If there are more events than counters, the kernel uses time + * multiplexing. With multiplexing, at the end of the run, + * the counter is scaled basing on total time enabled vs time running. + * final_count = raw_count * time_enabled/time_running + */ uint64_t value = event_scaled_value(e, i); all_value += value; + /* get meta data with information about scaling */ + meta_data_t *meta = pmu_meta_data_create(&e->efd[i]); + /* dispatch per CPU value */ - pmu_submit_counter(i, e->event, value); + pmu_submit_counter(i, e->event, value, meta); + + meta_data_destroy(meta); } if (event_enabled > 0) { DEBUG(PMU_PLUGIN ": %-20s %'10lu", e->event, all_value); /* dispatch all CPU value */ - pmu_submit_counter(-1, e->event, all_value); + pmu_submit_counter(-1, e->event, all_value, NULL); } } - - return (0); } static int pmu_read(__attribute__((unused)) user_data_t *ud) { @@ -287,36 +353,31 @@ static int pmu_read(__attribute__((unused)) user_data_t *ud) { ret = read_all_events(g_ctx.event_list); if (ret != 0) { - DEBUG(PMU_PLUGIN ": Failed to read values of all events."); - return (0); + ERROR(PMU_PLUGIN ": Failed to read values of all events."); + return ret; } - ret = pmu_dispatch_data(); - if (ret != 0) { - DEBUG(PMU_PLUGIN ": Failed to dispatch event values."); - return (0); - } + pmu_dispatch_data(); - return (0); + return 0; } static int pmu_add_events(struct eventlist *el, uint32_t type, - event_info_t *events, int count) { + event_info_t *events, size_t count) { - for (int i = 0; i < count; i++) { + for (size_t i = 0; i < count; i++) { + /* Allocate memory for event struct that contains array of efd structs + for all cores */ struct event *e = calloc(sizeof(struct event) + sizeof(struct efd) * el->num_cpus, 1); if (e == NULL) { ERROR(PMU_PLUGIN ": Failed to allocate event structure"); - return (-ENOMEM); + return -ENOMEM; } e->attr.type = type; e->attr.config = events[i].config; e->attr.size = PERF_ATTR_SIZE_VER0; - e->group_leader = false; - e->end_group = false; - e->next = NULL; if (!el->eventlist) el->eventlist = e; if (el->eventlist_last) @@ -325,54 +386,63 @@ static int pmu_add_events(struct eventlist *el, uint32_t type, e->event = strdup(events[i].name); } - return (0); + return 0; } -static int pmu_parse_events(struct eventlist *el, char *events) { - char *s, *tmp; +static int pmu_add_hw_events(struct eventlist *el, char **e, size_t count) { - events = strdup(events); - if (!events) - return -1; + for (size_t i = 0; i < count; i++) { - for (s = strtok_r(events, ",", &tmp); s; s = strtok_r(NULL, ",", &tmp)) { - bool group_leader = false, end_group = false; - int len; + size_t group_events_count = 0; - if (s[0] == '{') { - s++; - group_leader = true; - } else if (len = strlen(s), len > 0 && s[len - 1] == '}') { - s[len - 1] = 0; - end_group = true; - } + char *events = strdup(e[i]); + if (!events) + return -1; - struct event *e = - calloc(sizeof(struct event) + sizeof(struct efd) * el->num_cpus, 1); - if (e == NULL) { - free(events); - return (-ENOMEM); + char *s, *tmp; + for (s = strtok_r(events, ",", &tmp); s; s = strtok_r(NULL, ",", &tmp)) { + + /* Multiple events parsed in one entry */ + if (group_events_count == 1) { + /* Mark previously added event as group leader */ + el->eventlist_last->group_leader = 1; + } + + /* Allocate memory for event struct that contains array of efd structs + for all cores */ + struct event *e = + calloc(sizeof(struct event) + sizeof(struct efd) * el->num_cpus, 1); + if (e == NULL) { + free(events); + return -ENOMEM; + } + + if (resolve_event(s, &e->attr) == 0) { + e->next = NULL; + if (!el->eventlist) + el->eventlist = e; + if (el->eventlist_last) + el->eventlist_last->next = e; + el->eventlist_last = e; + e->event = strdup(s); + } else { + DEBUG(PMU_PLUGIN ": Cannot resolve %s", s); + sfree(e); + } + + group_events_count++; } - if (resolve_event(s, &e->attr) == 0) { - e->group_leader = group_leader; - e->end_group = end_group; - e->next = NULL; - if (!el->eventlist) - el->eventlist = e; - if (el->eventlist_last) - el->eventlist_last->next = e; - el->eventlist_last = e; - e->event = strdup(s); - } else { - DEBUG(PMU_PLUGIN ": Cannot resolve %s", s); - sfree(e); + /* Multiple events parsed in one entry */ + if (group_events_count > 1) { + /* Mark last added event as group end */ + el->eventlist_last->end_group = 1; } - } - free(events); + free(events); + } - return (0); + return 0; } static void pmu_free_events(struct eventlist *el) { @@ -425,7 +495,7 @@ static int pmu_init(void) { g_ctx.event_list = alloc_eventlist(); if (g_ctx.event_list == NULL) { ERROR(PMU_PLUGIN ": Failed to allocate event list."); - return (-ENOMEM); + return -ENOMEM; } if (g_ctx.hw_cache_events) { @@ -443,16 +513,25 @@ static int pmu_init(void) { g_kernel_pmu_events, STATIC_ARRAY_SIZE(g_kernel_pmu_events)); if (ret != 0) { - ERROR(PMU_PLUGIN ": Failed to parse kernel PMU events."); + ERROR(PMU_PLUGIN ": Failed to add kernel PMU events."); goto init_error; } } /* parse events names if config option is present and is not empty */ - if (g_ctx.hw_specific_events && (strlen(g_ctx.hw_specific_events) != 0)) { - ret = pmu_parse_events(g_ctx.event_list, g_ctx.hw_specific_events); + if (g_ctx.hw_events_count) { + + ret = read_events(g_ctx.event_list_fn); if (ret != 0) { - ERROR(PMU_PLUGIN ": Failed to parse hw specific events."); + ERROR(PMU_PLUGIN ": Failed to read event list file '%s'.", + g_ctx.event_list_fn); + return ret; + } + + ret = pmu_add_hw_events(g_ctx.event_list, g_ctx.hw_events, + g_ctx.hw_events_count); + if (ret != 0) { + ERROR(PMU_PLUGIN ": Failed to add hardware events."); goto init_error; } } @@ -482,13 +561,17 @@ static int pmu_init(void) { ": Events list is empty. No events were setup for monitoring."); } - return (0); + return 0; init_error: pmu_free_events(g_ctx.event_list); sfree(g_ctx.event_list); - sfree(g_ctx.hw_specific_events); + for (size_t i = 0; i < g_ctx.hw_events_count; i++) { + sfree(g_ctx.hw_events[i]); + } + sfree(g_ctx.hw_events); + g_ctx.hw_events_count = 0; return ret; } @@ -499,9 +582,13 @@ static int pmu_shutdown(void) { pmu_free_events(g_ctx.event_list); sfree(g_ctx.event_list); - sfree(g_ctx.hw_specific_events); + for (size_t i = 0; i < g_ctx.hw_events_count; i++) { + sfree(g_ctx.hw_events[i]); + } + sfree(g_ctx.hw_events); + g_ctx.hw_events_count = 0; - return (0); + return 0; } void module_register(void) {