| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| David Ahern | 3061 | 30.33% | 11 | 5.85% |
| Leo Yan | 2766 | 27.41% | 16 | 8.51% |
| Xiao Guangrong | 1755 | 17.39% | 3 | 1.60% |
| Yanmin Zhang | 420 | 4.16% | 1 | 0.53% |
| Alexander Yarygin | 394 | 3.90% | 12 | 6.38% |
| Arnaldo Carvalho de Melo | 293 | 2.90% | 51 | 27.13% |
| Li Zefan | 272 | 2.70% | 3 | 1.60% |
| Namhyung Kim | 240 | 2.38% | 7 | 3.72% |
| Jiri Olsa | 130 | 1.29% | 28 | 14.89% |
| Ingo Molnar | 110 | 1.09% | 10 | 5.32% |
| Ian Rogers | 99 | 0.98% | 4 | 2.13% |
| Kan Liang | 74 | 0.73% | 3 | 1.60% |
| Hemant Kumar | 71 | 0.70% | 2 | 1.06% |
| Li Wei | 66 | 0.65% | 1 | 0.53% |
| Adrian Hunter | 63 | 0.62% | 3 | 1.60% |
| Peter Zijlstra | 28 | 0.28% | 3 | 1.60% |
| Anju T | 28 | 0.28% | 1 | 0.53% |
| Ramkumar Ramachandra | 26 | 0.26% | 1 | 0.53% |
| Yunlong Song | 21 | 0.21% | 1 | 0.53% |
| Masami Hiramatsu | 20 | 0.20% | 1 | 0.53% |
| Mamatha Inamdar | 18 | 0.18% | 1 | 0.53% |
| Dongsheng Yang | 17 | 0.17% | 3 | 1.60% |
| Taeung Song | 17 | 0.17% | 1 | 0.53% |
| Yang Jihong | 16 | 0.16% | 1 | 0.53% |
| Brice Goglin | 16 | 0.16% | 2 | 1.06% |
| Aditya Gupta | 13 | 0.13% | 1 | 0.53% |
| Christian Bornträger | 10 | 0.10% | 1 | 0.53% |
| Tom Zanussi | 8 | 0.08% | 2 | 1.06% |
| Hari Bathini | 7 | 0.07% | 1 | 0.53% |
| Zhouyi Zhou | 6 | 0.06% | 1 | 0.53% |
| Robert Richter | 5 | 0.05% | 1 | 0.53% |
| Igor Lubashev | 4 | 0.04% | 1 | 0.53% |
| Joerg Roedel | 4 | 0.04% | 2 | 1.06% |
| Andi Kleen | 3 | 0.03% | 1 | 0.53% |
| Andrey Vagin | 3 | 0.03% | 1 | 0.53% |
| Wang Nan | 2 | 0.02% | 1 | 0.53% |
| Alexey Bayduraev | 2 | 0.02% | 1 | 0.53% |
| Anton Blanchard | 1 | 0.01% | 1 | 0.53% |
| Frédéric Weisbecker | 1 | 0.01% | 1 | 0.53% |
| Josh Poimboeuf | 1 | 0.01% | 1 | 0.53% |
| Greg Kroah-Hartman | 1 | 0.01% | 1 | 0.53% |
| Total | 10092 | 188 |
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// SPDX-License-Identifier: GPL-2.0 #include "builtin.h" #include "perf.h" #include "util/build-id.h" #include "util/evsel.h" #include "util/evlist.h" #include "util/mmap.h" #include "util/term.h" #include "util/symbol.h" #include "util/thread.h" #include "util/header.h" #include "util/session.h" #include "util/intlist.h" #include <subcmd/pager.h> #include <subcmd/parse-options.h> #include "util/trace-event.h" #include "util/debug.h" #include "util/tool.h" #include "util/stat.h" #include "util/synthetic-events.h" #include "util/top.h" #include "util/data.h" #include "util/ordered-events.h" #include "util/kvm-stat.h" #include "util/util.h" #include "ui/browsers/hists.h" #include "ui/progress.h" #include "ui/ui.h" #include "util/string2.h" #include <sys/prctl.h> #ifdef HAVE_TIMERFD_SUPPORT #include <sys/timerfd.h> #endif #include <sys/time.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <linux/err.h> #include <linux/kernel.h> #include <linux/string.h> #include <linux/time64.h> #include <linux/zalloc.h> #include <errno.h> #include <inttypes.h> #include <poll.h> #include <termios.h> #include <semaphore.h> #include <signal.h> #include <math.h> #include <perf/mmap.h> #if defined(HAVE_KVM_STAT_SUPPORT) && defined(HAVE_LIBTRACEEVENT) #define GET_EVENT_KEY(func, field) \ static u64 get_event_ ##func(struct kvm_event *event, int vcpu) \ { \ if (vcpu == -1) \ return event->total.field; \ \ if (vcpu >= event->max_vcpu) \ return 0; \ \ return event->vcpu[vcpu].field; \ } #define COMPARE_EVENT_KEY(func, field) \ GET_EVENT_KEY(func, field) \ static int64_t cmp_event_ ## func(struct kvm_event *one, \ struct kvm_event *two, int vcpu) \ { \ return get_event_ ##func(one, vcpu) - \ get_event_ ##func(two, vcpu); \ } COMPARE_EVENT_KEY(time, time); COMPARE_EVENT_KEY(max, stats.max); COMPARE_EVENT_KEY(min, stats.min); COMPARE_EVENT_KEY(count, stats.n); COMPARE_EVENT_KEY(mean, stats.mean); struct kvm_hists { struct hists hists; struct perf_hpp_list list; }; struct kvm_dimension { const char *name; const char *header; int width; int64_t (*cmp)(struct perf_hpp_fmt *fmt, struct hist_entry *left, struct hist_entry *right); int (*entry)(struct perf_hpp_fmt *fmt, struct perf_hpp *hpp, struct hist_entry *he); }; struct kvm_fmt { struct perf_hpp_fmt fmt; struct kvm_dimension *dim; }; static struct kvm_hists kvm_hists; static int64_t ev_name_cmp(struct perf_hpp_fmt *fmt __maybe_unused, struct hist_entry *left, struct hist_entry *right) { /* Return opposite number for sorting in alphabetical order */ return -strcmp(left->kvm_info->name, right->kvm_info->name); } static int fmt_width(struct perf_hpp_fmt *fmt, struct perf_hpp *hpp __maybe_unused, struct hists *hists __maybe_unused); static int ev_name_entry(struct perf_hpp_fmt *fmt, struct perf_hpp *hpp, struct hist_entry *he) { int width = fmt_width(fmt, hpp, he->hists); return scnprintf(hpp->buf, hpp->size, "%*s", width, he->kvm_info->name); } static struct kvm_dimension dim_event = { .header = "Event name", .name = "ev_name", .cmp = ev_name_cmp, .entry = ev_name_entry, .width = 40, }; #define EV_METRIC_CMP(metric) \ static int64_t ev_cmp_##metric(struct perf_hpp_fmt *fmt __maybe_unused, \ struct hist_entry *left, \ struct hist_entry *right) \ { \ struct kvm_event *event_left; \ struct kvm_event *event_right; \ struct perf_kvm_stat *perf_kvm; \ \ event_left = container_of(left, struct kvm_event, he); \ event_right = container_of(right, struct kvm_event, he); \ \ perf_kvm = event_left->perf_kvm; \ return cmp_event_##metric(event_left, event_right, \ perf_kvm->trace_vcpu); \ } EV_METRIC_CMP(time) EV_METRIC_CMP(count) EV_METRIC_CMP(max) EV_METRIC_CMP(min) EV_METRIC_CMP(mean) #define EV_METRIC_ENTRY(metric) \ static int ev_entry_##metric(struct perf_hpp_fmt *fmt, \ struct perf_hpp *hpp, \ struct hist_entry *he) \ { \ struct kvm_event *event; \ int width = fmt_width(fmt, hpp, he->hists); \ struct perf_kvm_stat *perf_kvm; \ \ event = container_of(he, struct kvm_event, he); \ perf_kvm = event->perf_kvm; \ return scnprintf(hpp->buf, hpp->size, "%*lu", width, \ get_event_##metric(event, perf_kvm->trace_vcpu)); \ } EV_METRIC_ENTRY(time) EV_METRIC_ENTRY(count) EV_METRIC_ENTRY(max) EV_METRIC_ENTRY(min) static struct kvm_dimension dim_time = { .header = "Time (ns)", .name = "time", .cmp = ev_cmp_time, .entry = ev_entry_time, .width = 12, }; static struct kvm_dimension dim_count = { .header = "Samples", .name = "sample", .cmp = ev_cmp_count, .entry = ev_entry_count, .width = 12, }; static struct kvm_dimension dim_max_time = { .header = "Max Time (ns)", .name = "max_t", .cmp = ev_cmp_max, .entry = ev_entry_max, .width = 14, }; static struct kvm_dimension dim_min_time = { .header = "Min Time (ns)", .name = "min_t", .cmp = ev_cmp_min, .entry = ev_entry_min, .width = 14, }; static int ev_entry_mean(struct perf_hpp_fmt *fmt, struct perf_hpp *hpp, struct hist_entry *he) { struct kvm_event *event; int width = fmt_width(fmt, hpp, he->hists); struct perf_kvm_stat *perf_kvm; event = container_of(he, struct kvm_event, he); perf_kvm = event->perf_kvm; return scnprintf(hpp->buf, hpp->size, "%*lu", width, get_event_mean(event, perf_kvm->trace_vcpu)); } static struct kvm_dimension dim_mean_time = { .header = "Mean Time (ns)", .name = "mean_t", .cmp = ev_cmp_mean, .entry = ev_entry_mean, .width = 14, }; #define PERC_STR(__s, __v) \ ({ \ scnprintf(__s, sizeof(__s), "%.2F%%", __v); \ __s; \ }) static double percent(u64 st, u64 tot) { return tot ? 100. * (double) st / (double) tot : 0; } #define EV_METRIC_PERCENT(metric) \ static int ev_percent_##metric(struct hist_entry *he) \ { \ struct kvm_event *event; \ struct perf_kvm_stat *perf_kvm; \ \ event = container_of(he, struct kvm_event, he); \ perf_kvm = event->perf_kvm; \ \ return percent(get_event_##metric(event, perf_kvm->trace_vcpu), \ perf_kvm->total_##metric); \ } EV_METRIC_PERCENT(time) EV_METRIC_PERCENT(count) static int ev_entry_time_precent(struct perf_hpp_fmt *fmt, struct perf_hpp *hpp, struct hist_entry *he) { int width = fmt_width(fmt, hpp, he->hists); double per; char buf[10]; per = ev_percent_time(he); return scnprintf(hpp->buf, hpp->size, "%*s", width, PERC_STR(buf, per)); } static int64_t ev_cmp_time_precent(struct perf_hpp_fmt *fmt __maybe_unused, struct hist_entry *left, struct hist_entry *right) { double per_left; double per_right; per_left = ev_percent_time(left); per_right = ev_percent_time(right); return per_left - per_right; } static struct kvm_dimension dim_time_percent = { .header = "Time%", .name = "percent_time", .cmp = ev_cmp_time_precent, .entry = ev_entry_time_precent, .width = 12, }; static int ev_entry_count_precent(struct perf_hpp_fmt *fmt, struct perf_hpp *hpp, struct hist_entry *he) { int width = fmt_width(fmt, hpp, he->hists); double per; char buf[10]; per = ev_percent_count(he); return scnprintf(hpp->buf, hpp->size, "%*s", width, PERC_STR(buf, per)); } static int64_t ev_cmp_count_precent(struct perf_hpp_fmt *fmt __maybe_unused, struct hist_entry *left, struct hist_entry *right) { double per_left; double per_right; per_left = ev_percent_count(left); per_right = ev_percent_count(right); return per_left - per_right; } static struct kvm_dimension dim_count_percent = { .header = "Sample%", .name = "percent_sample", .cmp = ev_cmp_count_precent, .entry = ev_entry_count_precent, .width = 12, }; static struct kvm_dimension *dimensions[] = { &dim_event, &dim_time, &dim_time_percent, &dim_count, &dim_count_percent, &dim_max_time, &dim_min_time, &dim_mean_time, NULL, }; static int fmt_width(struct perf_hpp_fmt *fmt, struct perf_hpp *hpp __maybe_unused, struct hists *hists __maybe_unused) { struct kvm_fmt *kvm_fmt; kvm_fmt = container_of(fmt, struct kvm_fmt, fmt); return kvm_fmt->dim->width; } static int fmt_header(struct perf_hpp_fmt *fmt, struct perf_hpp *hpp, struct hists *hists, int line __maybe_unused, int *span __maybe_unused) { struct kvm_fmt *kvm_fmt; struct kvm_dimension *dim; int width = fmt_width(fmt, hpp, hists); kvm_fmt = container_of(fmt, struct kvm_fmt, fmt); dim = kvm_fmt->dim; return scnprintf(hpp->buf, hpp->size, "%*s", width, dim->header); } static bool fmt_equal(struct perf_hpp_fmt *a, struct perf_hpp_fmt *b) { struct kvm_fmt *kvm_fmt_a = container_of(a, struct kvm_fmt, fmt); struct kvm_fmt *kvm_fmt_b = container_of(b, struct kvm_fmt, fmt); return kvm_fmt_a->dim == kvm_fmt_b->dim; } static void fmt_free(struct perf_hpp_fmt *fmt) { struct kvm_fmt *kvm_fmt; kvm_fmt = container_of(fmt, struct kvm_fmt, fmt); free(kvm_fmt); } static struct kvm_dimension *get_dimension(const char *name) { unsigned int i; for (i = 0; dimensions[i] != NULL; i++) { if (!strcmp(dimensions[i]->name, name)) return dimensions[i]; } return NULL; } static struct kvm_fmt *get_format(const char *name) { struct kvm_dimension *dim = get_dimension(name); struct kvm_fmt *kvm_fmt; struct perf_hpp_fmt *fmt; if (!dim) return NULL; kvm_fmt = zalloc(sizeof(*kvm_fmt)); if (!kvm_fmt) return NULL; kvm_fmt->dim = dim; fmt = &kvm_fmt->fmt; INIT_LIST_HEAD(&fmt->list); INIT_LIST_HEAD(&fmt->sort_list); fmt->cmp = dim->cmp; fmt->sort = dim->cmp; fmt->color = NULL; fmt->entry = dim->entry; fmt->header = fmt_header; fmt->width = fmt_width; fmt->collapse = dim->cmp; fmt->equal = fmt_equal; fmt->free = fmt_free; return kvm_fmt; } static int kvm_hists__init_output(struct perf_hpp_list *hpp_list, char *name) { struct kvm_fmt *kvm_fmt = get_format(name); if (!kvm_fmt) { pr_warning("Fail to find format for output field %s.\n", name); return -EINVAL; } perf_hpp_list__column_register(hpp_list, &kvm_fmt->fmt); return 0; } static int kvm_hists__init_sort(struct perf_hpp_list *hpp_list, char *name) { struct kvm_fmt *kvm_fmt = get_format(name); if (!kvm_fmt) { pr_warning("Fail to find format for sorting %s.\n", name); return -EINVAL; } perf_hpp_list__register_sort_field(hpp_list, &kvm_fmt->fmt); return 0; } static int kvm_hpp_list__init(char *list, struct perf_hpp_list *hpp_list, int (*fn)(struct perf_hpp_list *hpp_list, char *name)) { char *tmp, *tok; int ret; if (!list || !fn) return 0; for (tok = strtok_r(list, ", ", &tmp); tok; tok = strtok_r(NULL, ", ", &tmp)) { ret = fn(hpp_list, tok); if (!ret) continue; /* Handle errors */ if (ret == -EINVAL) pr_err("Invalid field key: '%s'", tok); else if (ret == -ESRCH) pr_err("Unknown field key: '%s'", tok); else pr_err("Fail to initialize for field key: '%s'", tok); break; } return ret; } static int kvm_hpp_list__parse(struct perf_hpp_list *hpp_list, const char *output_, const char *sort_) { char *output = output_ ? strdup(output_) : NULL; char *sort = sort_ ? strdup(sort_) : NULL; int ret; ret = kvm_hpp_list__init(output, hpp_list, kvm_hists__init_output); if (ret) goto out; ret = kvm_hpp_list__init(sort, hpp_list, kvm_hists__init_sort); if (ret) goto out; /* Copy sort keys to output fields */ perf_hpp__setup_output_field(hpp_list); /* and then copy output fields to sort keys */ perf_hpp__append_sort_keys(hpp_list); out: free(output); free(sort); return ret; } static int kvm_hists__init(void) { kvm_hists.list.nr_header_lines = 1; __hists__init(&kvm_hists.hists, &kvm_hists.list); perf_hpp_list__init(&kvm_hists.list); return kvm_hpp_list__parse(&kvm_hists.list, NULL, "ev_name"); } static int kvm_hists__reinit(const char *output, const char *sort) { perf_hpp__reset_output_field(&kvm_hists.list); return kvm_hpp_list__parse(&kvm_hists.list, output, sort); } static void print_result(struct perf_kvm_stat *kvm); #ifdef HAVE_SLANG_SUPPORT static void kvm_browser__update_nr_entries(struct hist_browser *hb) { struct rb_node *nd = rb_first_cached(&hb->hists->entries); u64 nr_entries = 0; for (; nd; nd = rb_next(nd)) { struct hist_entry *he = rb_entry(nd, struct hist_entry, rb_node); if (!he->filtered) nr_entries++; } hb->nr_non_filtered_entries = nr_entries; } static int kvm_browser__title(struct hist_browser *browser, char *buf, size_t size) { scnprintf(buf, size, "KVM event statistics (%lu entries)", browser->nr_non_filtered_entries); return 0; } static struct hist_browser* perf_kvm_browser__new(struct hists *hists) { struct hist_browser *browser = hist_browser__new(hists); if (browser) browser->title = kvm_browser__title; return browser; } static int kvm__hists_browse(struct hists *hists) { struct hist_browser *browser; int key = -1; browser = perf_kvm_browser__new(hists); if (browser == NULL) return -1; /* reset abort key so that it can get Ctrl-C as a key */ SLang_reset_tty(); SLang_init_tty(0, 0, 0); kvm_browser__update_nr_entries(browser); while (1) { key = hist_browser__run(browser, "? - help", true, 0); switch (key) { case 'q': goto out; default: break; } } out: hist_browser__delete(browser); return 0; } static void kvm_display(struct perf_kvm_stat *kvm) { if (!use_browser) print_result(kvm); else kvm__hists_browse(&kvm_hists.hists); } #else static void kvm_display(struct perf_kvm_stat *kvm) { use_browser = 0; print_result(kvm); } #endif /* HAVE_SLANG_SUPPORT */ #endif // defined(HAVE_KVM_STAT_SUPPORT) && defined(HAVE_LIBTRACEEVENT) static const char *get_filename_for_perf_kvm(void) { const char *filename; if (perf_host && !perf_guest) filename = strdup("perf.data.host"); else if (!perf_host && perf_guest) filename = strdup("perf.data.guest"); else filename = strdup("perf.data.kvm"); return filename; } #if defined(HAVE_KVM_STAT_SUPPORT) && defined(HAVE_LIBTRACEEVENT) void exit_event_get_key(struct evsel *evsel, struct perf_sample *sample, struct event_key *key) { key->info = 0; key->key = evsel__intval(evsel, sample, kvm_exit_reason); } bool kvm_exit_event(struct evsel *evsel) { return evsel__name_is(evsel, kvm_exit_trace); } bool exit_event_begin(struct evsel *evsel, struct perf_sample *sample, struct event_key *key) { if (kvm_exit_event(evsel)) { exit_event_get_key(evsel, sample, key); return true; } return false; } bool kvm_entry_event(struct evsel *evsel) { return evsel__name_is(evsel, kvm_entry_trace); } bool exit_event_end(struct evsel *evsel, struct perf_sample *sample __maybe_unused, struct event_key *key __maybe_unused) { return kvm_entry_event(evsel); } static const char *get_exit_reason(struct perf_kvm_stat *kvm, struct exit_reasons_table *tbl, u64 exit_code) { while (tbl->reason != NULL) { if (tbl->exit_code == exit_code) return tbl->reason; tbl++; } pr_err("unknown kvm exit code:%lld on %s\n", (unsigned long long)exit_code, kvm->exit_reasons_isa); return "UNKNOWN"; } void exit_event_decode_key(struct perf_kvm_stat *kvm, struct event_key *key, char *decode) { const char *exit_reason = get_exit_reason(kvm, key->exit_reasons, key->key); scnprintf(decode, KVM_EVENT_NAME_LEN, "%s", exit_reason); } static bool register_kvm_events_ops(struct perf_kvm_stat *kvm) { struct kvm_reg_events_ops *events_ops = kvm_reg_events_ops; for (events_ops = kvm_reg_events_ops; events_ops->name; events_ops++) { if (!strcmp(events_ops->name, kvm->report_event)) { kvm->events_ops = events_ops->ops; return true; } } return false; } struct vcpu_event_record { int vcpu_id; u64 start_time; struct kvm_event *last_event; }; #ifdef HAVE_TIMERFD_SUPPORT static void clear_events_cache_stats(void) { struct rb_root_cached *root; struct rb_node *nd; struct kvm_event *event; int i; if (hists__has(&kvm_hists.hists, need_collapse)) root = &kvm_hists.hists.entries_collapsed; else root = kvm_hists.hists.entries_in; for (nd = rb_first_cached(root); nd; nd = rb_next(nd)) { struct hist_entry *he; he = rb_entry(nd, struct hist_entry, rb_node_in); event = container_of(he, struct kvm_event, he); /* reset stats for event */ event->total.time = 0; init_stats(&event->total.stats); for (i = 0; i < event->max_vcpu; ++i) { event->vcpu[i].time = 0; init_stats(&event->vcpu[i].stats); } } } #endif static bool kvm_event_expand(struct kvm_event *event, int vcpu_id) { int old_max_vcpu = event->max_vcpu; void *prev; if (vcpu_id < event->max_vcpu) return true; while (event->max_vcpu <= vcpu_id) event->max_vcpu += DEFAULT_VCPU_NUM; prev = event->vcpu; event->vcpu = realloc(event->vcpu, event->max_vcpu * sizeof(*event->vcpu)); if (!event->vcpu) { free(prev); pr_err("Not enough memory\n"); return false; } memset(event->vcpu + old_max_vcpu, 0, (event->max_vcpu - old_max_vcpu) * sizeof(*event->vcpu)); return true; } static void *kvm_he_zalloc(size_t size) { struct kvm_event *kvm_ev; kvm_ev = zalloc(size + sizeof(*kvm_ev)); if (!kvm_ev) return NULL; init_stats(&kvm_ev->total.stats); hists__inc_nr_samples(&kvm_hists.hists, 0); return &kvm_ev->he; } static void kvm_he_free(void *he) { struct kvm_event *kvm_ev; kvm_ev = container_of(he, struct kvm_event, he); free(kvm_ev); } static struct hist_entry_ops kvm_ev_entry_ops = { .new = kvm_he_zalloc, .free = kvm_he_free, }; static struct kvm_event *find_create_kvm_event(struct perf_kvm_stat *kvm, struct event_key *key, struct perf_sample *sample) { struct kvm_event *event; struct hist_entry *he; struct kvm_info *ki; BUG_ON(key->key == INVALID_KEY); ki = kvm_info__new(); if (!ki) { pr_err("Failed to allocate kvm info\n"); return NULL; } kvm->events_ops->decode_key(kvm, key, ki->name); he = hists__add_entry_ops(&kvm_hists.hists, &kvm_ev_entry_ops, &kvm->al, NULL, NULL, NULL, ki, sample, true); if (he == NULL) { pr_err("Failed to allocate hist entry\n"); free(ki); return NULL; } event = container_of(he, struct kvm_event, he); if (!event->perf_kvm) { event->perf_kvm = kvm; event->key = *key; } return event; } static bool handle_begin_event(struct perf_kvm_stat *kvm, struct vcpu_event_record *vcpu_record, struct event_key *key, struct perf_sample *sample) { struct kvm_event *event = NULL; if (key->key != INVALID_KEY) event = find_create_kvm_event(kvm, key, sample); vcpu_record->last_event = event; vcpu_record->start_time = sample->time; return true; } static void kvm_update_event_stats(struct kvm_event_stats *kvm_stats, u64 time_diff) { kvm_stats->time += time_diff; update_stats(&kvm_stats->stats, time_diff); } static double kvm_event_rel_stddev(int vcpu_id, struct kvm_event *event) { struct kvm_event_stats *kvm_stats = &event->total; if (vcpu_id != -1) kvm_stats = &event->vcpu[vcpu_id]; return rel_stddev_stats(stddev_stats(&kvm_stats->stats), avg_stats(&kvm_stats->stats)); } static bool update_kvm_event(struct perf_kvm_stat *kvm, struct kvm_event *event, int vcpu_id, u64 time_diff) { /* Update overall statistics */ kvm->total_count++; kvm->total_time += time_diff; if (vcpu_id == -1) { kvm_update_event_stats(&event->total, time_diff); return true; } if (!kvm_event_expand(event, vcpu_id)) return false; kvm_update_event_stats(&event->vcpu[vcpu_id], time_diff); return true; } static bool is_child_event(struct perf_kvm_stat *kvm, struct evsel *evsel, struct perf_sample *sample, struct event_key *key) { struct child_event_ops *child_ops; child_ops = kvm->events_ops->child_ops; if (!child_ops) return false; for (; child_ops->name; child_ops++) { if (evsel__name_is(evsel, child_ops->name)) { child_ops->get_key(evsel, sample, key); return true; } } return false; } static bool handle_child_event(struct perf_kvm_stat *kvm, struct vcpu_event_record *vcpu_record, struct event_key *key, struct perf_sample *sample) { struct kvm_event *event = NULL; if (key->key != INVALID_KEY) event = find_create_kvm_event(kvm, key, sample); vcpu_record->last_event = event; return true; } static bool skip_event(const char *event) { const char * const *skip_events; for (skip_events = kvm_skip_events; *skip_events; skip_events++) if (!strcmp(event, *skip_events)) return true; return false; } static bool handle_end_event(struct perf_kvm_stat *kvm, struct vcpu_event_record *vcpu_record, struct event_key *key, struct perf_sample *sample) { struct kvm_event *event; u64 time_begin, time_diff; int vcpu; if (kvm->trace_vcpu == -1) vcpu = -1; else vcpu = vcpu_record->vcpu_id; event = vcpu_record->last_event; time_begin = vcpu_record->start_time; /* The begin event is not caught. */ if (!time_begin) return true; /* * In some case, the 'begin event' only records the start timestamp, * the actual event is recognized in the 'end event' (e.g. mmio-event). */ /* Both begin and end events did not get the key. */ if (!event && key->key == INVALID_KEY) return true; if (!event) event = find_create_kvm_event(kvm, key, sample); if (!event) return false; vcpu_record->last_event = NULL; vcpu_record->start_time = 0; /* seems to happen once in a while during live mode */ if (sample->time < time_begin) { pr_debug("End time before begin time; skipping event.\n"); return true; } time_diff = sample->time - time_begin; if (kvm->duration && time_diff > kvm->duration) { char decode[KVM_EVENT_NAME_LEN]; kvm->events_ops->decode_key(kvm, &event->key, decode); if (!skip_event(decode)) { pr_info("%" PRIu64 " VM %d, vcpu %d: %s event took %" PRIu64 "usec\n", sample->time, sample->pid, vcpu_record->vcpu_id, decode, time_diff / NSEC_PER_USEC); } } return update_kvm_event(kvm, event, vcpu, time_diff); } static struct vcpu_event_record *per_vcpu_record(struct thread *thread, struct evsel *evsel, struct perf_sample *sample) { /* Only kvm_entry records vcpu id. */ if (!thread__priv(thread) && kvm_entry_event(evsel)) { struct vcpu_event_record *vcpu_record; vcpu_record = zalloc(sizeof(*vcpu_record)); if (!vcpu_record) { pr_err("%s: Not enough memory\n", __func__); return NULL; } vcpu_record->vcpu_id = evsel__intval(evsel, sample, vcpu_id_str); thread__set_priv(thread, vcpu_record); } return thread__priv(thread); } static bool handle_kvm_event(struct perf_kvm_stat *kvm, struct thread *thread, struct evsel *evsel, struct perf_sample *sample) { struct vcpu_event_record *vcpu_record; struct event_key key = { .key = INVALID_KEY, .exit_reasons = kvm->exit_reasons }; vcpu_record = per_vcpu_record(thread, evsel, sample); if (!vcpu_record) return true; /* only process events for vcpus user cares about */ if ((kvm->trace_vcpu != -1) && (kvm->trace_vcpu != vcpu_record->vcpu_id)) return true; if (kvm->events_ops->is_begin_event(evsel, sample, &key)) return handle_begin_event(kvm, vcpu_record, &key, sample); if (is_child_event(kvm, evsel, sample, &key)) return handle_child_event(kvm, vcpu_record, &key, sample); if (kvm->events_ops->is_end_event(evsel, sample, &key)) return handle_end_event(kvm, vcpu_record, &key, sample); return true; } static bool is_valid_key(struct perf_kvm_stat *kvm) { static const char *key_array[] = { "ev_name", "sample", "time", "max_t", "min_t", "mean_t", }; unsigned int i; for (i = 0; i < ARRAY_SIZE(key_array); i++) if (!strcmp(key_array[i], kvm->sort_key)) return true; pr_err("Unsupported sort key: %s\n", kvm->sort_key); return false; } static bool event_is_valid(struct kvm_event *event, int vcpu) { return !!get_event_count(event, vcpu); } static int filter_cb(struct hist_entry *he, void *arg __maybe_unused) { struct kvm_event *event; struct perf_kvm_stat *perf_kvm; event = container_of(he, struct kvm_event, he); perf_kvm = event->perf_kvm; if (!event_is_valid(event, perf_kvm->trace_vcpu)) he->filtered = 1; else he->filtered = 0; return 0; } static void sort_result(struct perf_kvm_stat *kvm) { struct ui_progress prog; const char *output_columns = "ev_name,sample,percent_sample," "time,percent_time,max_t,min_t,mean_t"; kvm_hists__reinit(output_columns, kvm->sort_key); ui_progress__init(&prog, kvm_hists.hists.nr_entries, "Sorting..."); hists__collapse_resort(&kvm_hists.hists, NULL); hists__output_resort_cb(&kvm_hists.hists, NULL, filter_cb); ui_progress__finish(); } static void print_vcpu_info(struct perf_kvm_stat *kvm) { int vcpu = kvm->trace_vcpu; pr_info("Analyze events for "); if (kvm->opts.target.system_wide) pr_info("all VMs, "); else if (kvm->opts.target.pid) pr_info("pid(s) %s, ", kvm->opts.target.pid); else pr_info("dazed and confused on what is monitored, "); if (vcpu == -1) pr_info("all VCPUs:\n\n"); else pr_info("VCPU %d:\n\n", vcpu); } static void show_timeofday(void) { char date[64]; struct timeval tv; struct tm ltime; gettimeofday(&tv, NULL); if (localtime_r(&tv.tv_sec, <ime)) { strftime(date, sizeof(date), "%H:%M:%S", <ime); pr_info("%s.%06ld", date, tv.tv_usec); } else pr_info("00:00:00.000000"); return; } static void print_result(struct perf_kvm_stat *kvm) { char decode[KVM_EVENT_NAME_LEN]; struct kvm_event *event; int vcpu = kvm->trace_vcpu; struct rb_node *nd; if (kvm->live) { puts(CONSOLE_CLEAR); show_timeofday(); } pr_info("\n\n"); print_vcpu_info(kvm); pr_info("%*s ", KVM_EVENT_NAME_LEN, kvm->events_ops->name); pr_info("%10s ", "Samples"); pr_info("%9s ", "Samples%"); pr_info("%9s ", "Time%"); pr_info("%11s ", "Min Time"); pr_info("%11s ", "Max Time"); pr_info("%16s ", "Avg time"); pr_info("\n\n"); for (nd = rb_first_cached(&kvm_hists.hists.entries); nd; nd = rb_next(nd)) { struct hist_entry *he; u64 ecount, etime, max, min; he = rb_entry(nd, struct hist_entry, rb_node); if (he->filtered) continue; event = container_of(he, struct kvm_event, he); ecount = get_event_count(event, vcpu); etime = get_event_time(event, vcpu); max = get_event_max(event, vcpu); min = get_event_min(event, vcpu); kvm->events_ops->decode_key(kvm, &event->key, decode); pr_info("%*s ", KVM_EVENT_NAME_LEN, decode); pr_info("%10llu ", (unsigned long long)ecount); pr_info("%8.2f%% ", (double)ecount / kvm->total_count * 100); pr_info("%8.2f%% ", (double)etime / kvm->total_time * 100); pr_info("%9.2fus ", (double)min / NSEC_PER_USEC); pr_info("%9.2fus ", (double)max / NSEC_PER_USEC); pr_info("%9.2fus ( +-%7.2f%% )", (double)etime / ecount / NSEC_PER_USEC, kvm_event_rel_stddev(vcpu, event)); pr_info("\n"); } pr_info("\nTotal Samples:%" PRIu64 ", Total events handled time:%.2fus.\n\n", kvm->total_count, kvm->total_time / (double)NSEC_PER_USEC); if (kvm->lost_events) pr_info("\nLost events: %" PRIu64 "\n\n", kvm->lost_events); } #if defined(HAVE_TIMERFD_SUPPORT) && defined(HAVE_LIBTRACEEVENT) static int process_lost_event(const struct perf_tool *tool, union perf_event *event __maybe_unused, struct perf_sample *sample __maybe_unused, struct machine *machine __maybe_unused) { struct perf_kvm_stat *kvm = container_of(tool, struct perf_kvm_stat, tool); kvm->lost_events++; return 0; } #endif static bool skip_sample(struct perf_kvm_stat *kvm, struct perf_sample *sample) { if (kvm->pid_list && intlist__find(kvm->pid_list, sample->pid) == NULL) return true; return false; } static int process_sample_event(const struct perf_tool *tool, union perf_event *event, struct perf_sample *sample, struct evsel *evsel, struct machine *machine) { int err = 0; struct thread *thread; struct perf_kvm_stat *kvm = container_of(tool, struct perf_kvm_stat, tool); if (skip_sample(kvm, sample)) return 0; if (machine__resolve(machine, &kvm->al, sample) < 0) { pr_warning("Fail to resolve address location, skip sample.\n"); return 0; } thread = machine__findnew_thread(machine, sample->pid, sample->tid); if (thread == NULL) { pr_debug("problem processing %d event, skipping it.\n", event->header.type); return -1; } if (!handle_kvm_event(kvm, thread, evsel, sample)) err = -1; thread__put(thread); return err; } static int cpu_isa_config(struct perf_kvm_stat *kvm) { char buf[128], *cpuid; int err; if (kvm->live) { err = get_cpuid(buf, sizeof(buf)); if (err != 0) { pr_err("Failed to look up CPU type: %s\n", str_error_r(err, buf, sizeof(buf))); return -err; } cpuid = buf; } else cpuid = kvm->session->header.env.cpuid; if (!cpuid) { pr_err("Failed to look up CPU type\n"); return -EINVAL; } err = cpu_isa_init(kvm, cpuid); if (err == -ENOTSUP) pr_err("CPU %s is not supported.\n", cpuid); return err; } static bool verify_vcpu(int vcpu) { if (vcpu != -1 && vcpu < 0) { pr_err("Invalid vcpu:%d.\n", vcpu); return false; } return true; } #if defined(HAVE_TIMERFD_SUPPORT) && defined(HAVE_LIBTRACEEVENT) /* keeping the max events to a modest level to keep * the processing of samples per mmap smooth. */ #define PERF_KVM__MAX_EVENTS_PER_MMAP 25 static s64 perf_kvm__mmap_read_idx(struct perf_kvm_stat *kvm, int idx, u64 *mmap_time) { struct evlist *evlist = kvm->evlist; union perf_event *event; struct mmap *md; u64 timestamp; s64 n = 0; int err; *mmap_time = ULLONG_MAX; md = &evlist->mmap[idx]; err = perf_mmap__read_init(&md->core); if (err < 0) return (err == -EAGAIN) ? 0 : -1; while ((event = perf_mmap__read_event(&md->core)) != NULL) { err = evlist__parse_sample_timestamp(evlist, event, ×tamp); if (err) { perf_mmap__consume(&md->core); pr_err("Failed to parse sample\n"); return -1; } err = perf_session__queue_event(kvm->session, event, timestamp, 0, NULL); /* * FIXME: Here we can't consume the event, as perf_session__queue_event will * point to it, and it'll get possibly overwritten by the kernel. */ perf_mmap__consume(&md->core); if (err) { pr_err("Failed to enqueue sample: %d\n", err); return -1; } /* save time stamp of our first sample for this mmap */ if (n == 0) *mmap_time = timestamp; /* limit events per mmap handled all at once */ n++; if (n == PERF_KVM__MAX_EVENTS_PER_MMAP) break; } perf_mmap__read_done(&md->core); return n; } static int perf_kvm__mmap_read(struct perf_kvm_stat *kvm) { int i, err, throttled = 0; s64 n, ntotal = 0; u64 flush_time = ULLONG_MAX, mmap_time; for (i = 0; i < kvm->evlist->core.nr_mmaps; i++) { n = perf_kvm__mmap_read_idx(kvm, i, &mmap_time); if (n < 0) return -1; /* flush time is going to be the minimum of all the individual * mmap times. Essentially, we flush all the samples queued up * from the last pass under our minimal start time -- that leaves * a very small race for samples to come in with a lower timestamp. * The ioctl to return the perf_clock timestamp should close the * race entirely. */ if (mmap_time < flush_time) flush_time = mmap_time; ntotal += n; if (n == PERF_KVM__MAX_EVENTS_PER_MMAP) throttled = 1; } /* flush queue after each round in which we processed events */ if (ntotal) { struct ordered_events *oe = &kvm->session->ordered_events; oe->next_flush = flush_time; err = ordered_events__flush(oe, OE_FLUSH__ROUND); if (err) { if (kvm->lost_events) pr_info("\nLost events: %" PRIu64 "\n\n", kvm->lost_events); return err; } } return throttled; } static volatile int done; static void sig_handler(int sig __maybe_unused) { done = 1; } static int perf_kvm__timerfd_create(struct perf_kvm_stat *kvm) { struct itimerspec new_value; int rc = -1; kvm->timerfd = timerfd_create(CLOCK_MONOTONIC, TFD_NONBLOCK); if (kvm->timerfd < 0) { pr_err("timerfd_create failed\n"); goto out; } new_value.it_value.tv_sec = kvm->display_time; new_value.it_value.tv_nsec = 0; new_value.it_interval.tv_sec = kvm->display_time; new_value.it_interval.tv_nsec = 0; if (timerfd_settime(kvm->timerfd, 0, &new_value, NULL) != 0) { pr_err("timerfd_settime failed: %d\n", errno); close(kvm->timerfd); goto out; } rc = 0; out: return rc; } static int perf_kvm__handle_timerfd(struct perf_kvm_stat *kvm) { uint64_t c; int rc; rc = read(kvm->timerfd, &c, sizeof(uint64_t)); if (rc < 0) { if (errno == EAGAIN) return 0; pr_err("Failed to read timer fd: %d\n", errno); return -1; } if (rc != sizeof(uint64_t)) { pr_err("Error reading timer fd - invalid size returned\n"); return -1; } if (c != 1) pr_debug("Missed timer beats: %" PRIu64 "\n", c-1); /* update display */ sort_result(kvm); print_result(kvm); /* Reset sort list to "ev_name" */ kvm_hists__reinit(NULL, "ev_name"); /* reset counts */ clear_events_cache_stats(); kvm->total_count = 0; kvm->total_time = 0; kvm->lost_events = 0; return 0; } static int fd_set_nonblock(int fd) { long arg = 0; arg = fcntl(fd, F_GETFL); if (arg < 0) { pr_err("Failed to get current flags for fd %d\n", fd); return -1; } if (fcntl(fd, F_SETFL, arg | O_NONBLOCK) < 0) { pr_err("Failed to set non-block option on fd %d\n", fd); return -1; } return 0; } static int perf_kvm__handle_stdin(void) { int c; c = getc(stdin); if (c == 'q') return 1; return 0; } static int kvm_events_live_report(struct perf_kvm_stat *kvm) { int nr_stdin, ret, err = -EINVAL; struct termios save; /* live flag must be set first */ kvm->live = true; ret = cpu_isa_config(kvm); if (ret < 0) return ret; if (!verify_vcpu(kvm->trace_vcpu) || !is_valid_key(kvm) || !register_kvm_events_ops(kvm)) { goto out; } set_term_quiet_input(&save); kvm_hists__init(); signal(SIGINT, sig_handler); signal(SIGTERM, sig_handler); /* add timer fd */ if (perf_kvm__timerfd_create(kvm) < 0) { err = -1; goto out; } if (evlist__add_pollfd(kvm->evlist, kvm->timerfd) < 0) goto out; nr_stdin = evlist__add_pollfd(kvm->evlist, fileno(stdin)); if (nr_stdin < 0) goto out; if (fd_set_nonblock(fileno(stdin)) != 0) goto out; /* everything is good - enable the events and process */ evlist__enable(kvm->evlist); while (!done) { struct fdarray *fda = &kvm->evlist->core.pollfd; int rc; rc = perf_kvm__mmap_read(kvm); if (rc < 0) break; err = perf_kvm__handle_timerfd(kvm); if (err) goto out; if (fda->entries[nr_stdin].revents & POLLIN) done = perf_kvm__handle_stdin(); if (!rc && !done) err = evlist__poll(kvm->evlist, 100); } evlist__disable(kvm->evlist); if (err == 0) { sort_result(kvm); print_result(kvm); } out: hists__delete_entries(&kvm_hists.hists); if (kvm->timerfd >= 0) close(kvm->timerfd); tcsetattr(0, TCSAFLUSH, &save); return err; } static int kvm_live_open_events(struct perf_kvm_stat *kvm) { int err, rc = -1; struct evsel *pos; struct evlist *evlist = kvm->evlist; char sbuf[STRERR_BUFSIZE]; evlist__config(evlist, &kvm->opts, NULL); /* * Note: exclude_{guest,host} do not apply here. * This command processes KVM tracepoints from host only */ evlist__for_each_entry(evlist, pos) { struct perf_event_attr *attr = &pos->core.attr; /* make sure these *are* set */ evsel__set_sample_bit(pos, TID); evsel__set_sample_bit(pos, TIME); evsel__set_sample_bit(pos, CPU); evsel__set_sample_bit(pos, RAW); /* make sure these are *not*; want as small a sample as possible */ evsel__reset_sample_bit(pos, PERIOD); evsel__reset_sample_bit(pos, IP); evsel__reset_sample_bit(pos, CALLCHAIN); evsel__reset_sample_bit(pos, ADDR); evsel__reset_sample_bit(pos, READ); attr->mmap = 0; attr->comm = 0; attr->task = 0; attr->sample_period = 1; attr->watermark = 0; attr->wakeup_events = 1000; /* will enable all once we are ready */ attr->disabled = 1; } err = evlist__open(evlist); if (err < 0) { printf("Couldn't create the events: %s\n", str_error_r(errno, sbuf, sizeof(sbuf))); goto out; } if (evlist__mmap(evlist, kvm->opts.mmap_pages) < 0) { ui__error("Failed to mmap the events: %s\n", str_error_r(errno, sbuf, sizeof(sbuf))); evlist__close(evlist); goto out; } rc = 0; out: return rc; } #endif static int read_events(struct perf_kvm_stat *kvm) { int ret; struct perf_data file = { .path = kvm->file_name, .mode = PERF_DATA_MODE_READ, .force = kvm->force, }; perf_tool__init(&kvm->tool, /*ordered_events=*/true); kvm->tool.sample = process_sample_event; kvm->tool.comm = perf_event__process_comm; kvm->tool.namespaces = perf_event__process_namespaces; kvm->session = perf_session__new(&file, &kvm->tool); if (IS_ERR(kvm->session)) { pr_err("Initializing perf session failed\n"); return PTR_ERR(kvm->session); } symbol__init(&kvm->session->header.env); if (!perf_session__has_traces(kvm->session, "kvm record")) { ret = -EINVAL; goto out_delete; } /* * Do not use 'isa' recorded in kvm_exit tracepoint since it is not * traced in the old kernel. */ ret = cpu_isa_config(kvm); if (ret < 0) goto out_delete; ret = perf_session__process_events(kvm->session); out_delete: perf_session__delete(kvm->session); return ret; } static int parse_target_str(struct perf_kvm_stat *kvm) { if (kvm->opts.target.pid) { kvm->pid_list = intlist__new(kvm->opts.target.pid); if (kvm->pid_list == NULL) { pr_err("Error parsing process id string\n"); return -EINVAL; } } return 0; } static int kvm_events_report_vcpu(struct perf_kvm_stat *kvm) { int ret = -EINVAL; int vcpu = kvm->trace_vcpu; if (parse_target_str(kvm) != 0) goto exit; if (!verify_vcpu(vcpu)) goto exit; if (!is_valid_key(kvm)) goto exit; if (!register_kvm_events_ops(kvm)) goto exit; if (kvm->use_stdio) { use_browser = 0; setup_pager(); } else { use_browser = 1; } setup_browser(false); kvm_hists__init(); ret = read_events(kvm); if (ret) goto exit; sort_result(kvm); kvm_display(kvm); exit: hists__delete_entries(&kvm_hists.hists); return ret; } #define STRDUP_FAIL_EXIT(s) \ ({ char *_p; \ _p = strdup(s); \ if (!_p) \ return -ENOMEM; \ _p; \ }) int __weak setup_kvm_events_tp(struct perf_kvm_stat *kvm __maybe_unused) { return 0; } static int kvm_events_record(struct perf_kvm_stat *kvm, int argc, const char **argv) { unsigned int rec_argc, i, j, events_tp_size; const char **rec_argv; const char * const record_args[] = { "record", "-R", "-m", "1024", "-c", "1", }; const char * const kvm_stat_record_usage[] = { "perf kvm stat record [<options>]", NULL }; const char * const *events_tp; int ret; events_tp_size = 0; ret = setup_kvm_events_tp(kvm); if (ret < 0) { pr_err("Unable to setup the kvm tracepoints\n"); return ret; } for (events_tp = kvm_events_tp; *events_tp; events_tp++) events_tp_size++; rec_argc = ARRAY_SIZE(record_args) + argc + 2 + 2 * events_tp_size; rec_argv = calloc(rec_argc + 1, sizeof(char *)); if (rec_argv == NULL) return -ENOMEM; for (i = 0; i < ARRAY_SIZE(record_args); i++) rec_argv[i] = STRDUP_FAIL_EXIT(record_args[i]); for (j = 0; j < events_tp_size; j++) { rec_argv[i++] = "-e"; rec_argv[i++] = STRDUP_FAIL_EXIT(kvm_events_tp[j]); } rec_argv[i++] = STRDUP_FAIL_EXIT("-o"); rec_argv[i++] = STRDUP_FAIL_EXIT(kvm->file_name); for (j = 1; j < (unsigned int)argc; j++, i++) rec_argv[i] = argv[j]; set_option_flag(record_options, 'e', "event", PARSE_OPT_HIDDEN); set_option_flag(record_options, 0, "filter", PARSE_OPT_HIDDEN); set_option_flag(record_options, 'R', "raw-samples", PARSE_OPT_HIDDEN); set_option_flag(record_options, 'F', "freq", PARSE_OPT_DISABLED); set_option_flag(record_options, 0, "group", PARSE_OPT_DISABLED); set_option_flag(record_options, 'g', NULL, PARSE_OPT_DISABLED); set_option_flag(record_options, 0, "call-graph", PARSE_OPT_DISABLED); set_option_flag(record_options, 'd', "data", PARSE_OPT_DISABLED); set_option_flag(record_options, 'T', "timestamp", PARSE_OPT_DISABLED); set_option_flag(record_options, 'P', "period", PARSE_OPT_DISABLED); set_option_flag(record_options, 'n', "no-samples", PARSE_OPT_DISABLED); set_option_flag(record_options, 'N', "no-buildid-cache", PARSE_OPT_DISABLED); set_option_flag(record_options, 'B', "no-buildid", PARSE_OPT_DISABLED); set_option_flag(record_options, 'G', "cgroup", PARSE_OPT_DISABLED); set_option_flag(record_options, 'b', "branch-any", PARSE_OPT_DISABLED); set_option_flag(record_options, 'j', "branch-filter", PARSE_OPT_DISABLED); set_option_flag(record_options, 'W', "weight", PARSE_OPT_DISABLED); set_option_flag(record_options, 0, "transaction", PARSE_OPT_DISABLED); record_usage = kvm_stat_record_usage; return cmd_record(i, rec_argv); } static int kvm_events_report(struct perf_kvm_stat *kvm, int argc, const char **argv) { const struct option kvm_events_report_options[] = { OPT_STRING(0, "event", &kvm->report_event, "report event", "event for reporting: vmexit, " "mmio (x86 only), ioport (x86 only)"), OPT_INTEGER(0, "vcpu", &kvm->trace_vcpu, "vcpu id to report"), OPT_STRING('k', "key", &kvm->sort_key, "sort-key", "key for sorting: sample(sort by samples number)" " time (sort by avg time)"), OPT_STRING('p', "pid", &kvm->opts.target.pid, "pid", "analyze events only for given process id(s)"), OPT_BOOLEAN('f', "force", &kvm->force, "don't complain, do it"), OPT_BOOLEAN(0, "stdio", &kvm->use_stdio, "use the stdio interface"), OPT_END() }; const char * const kvm_events_report_usage[] = { "perf kvm stat report [<options>]", NULL }; if (argc) { argc = parse_options(argc, argv, kvm_events_report_options, kvm_events_report_usage, 0); if (argc) usage_with_options(kvm_events_report_usage, kvm_events_report_options); } #ifndef HAVE_SLANG_SUPPORT kvm->use_stdio = true; #endif if (!kvm->opts.target.pid) kvm->opts.target.system_wide = true; return kvm_events_report_vcpu(kvm); } #if defined(HAVE_TIMERFD_SUPPORT) && defined(HAVE_LIBTRACEEVENT) static struct evlist *kvm_live_event_list(void) { struct evlist *evlist; char *tp, *name, *sys; int err = -1; const char * const *events_tp; evlist = evlist__new(); if (evlist == NULL) return NULL; for (events_tp = kvm_events_tp; *events_tp; events_tp++) { tp = strdup(*events_tp); if (tp == NULL) goto out; /* split tracepoint into subsystem and name */ sys = tp; name = strchr(tp, ':'); if (name == NULL) { pr_err("Error parsing %s tracepoint: subsystem delimiter not found\n", *events_tp); free(tp); goto out; } *name = '\0'; name++; if (evlist__add_newtp(evlist, sys, name, NULL)) { pr_err("Failed to add %s tracepoint to the list\n", *events_tp); free(tp); goto out; } free(tp); } err = 0; out: if (err) { evlist__delete(evlist); evlist = NULL; } return evlist; } static int kvm_events_live(struct perf_kvm_stat *kvm, int argc, const char **argv) { char errbuf[BUFSIZ]; int err; const struct option live_options[] = { OPT_STRING('p', "pid", &kvm->opts.target.pid, "pid", "record events on existing process id"), OPT_CALLBACK('m', "mmap-pages", &kvm->opts.mmap_pages, "pages", "number of mmap data pages", evlist__parse_mmap_pages), OPT_INCR('v', "verbose", &verbose, "be more verbose (show counter open errors, etc)"), OPT_BOOLEAN('a', "all-cpus", &kvm->opts.target.system_wide, "system-wide collection from all CPUs"), OPT_UINTEGER('d', "display", &kvm->display_time, "time in seconds between display updates"), OPT_STRING(0, "event", &kvm->report_event, "report event", "event for reporting: " "vmexit, mmio (x86 only), ioport (x86 only)"), OPT_INTEGER(0, "vcpu", &kvm->trace_vcpu, "vcpu id to report"), OPT_STRING('k', "key", &kvm->sort_key, "sort-key", "key for sorting: sample(sort by samples number)" " time (sort by avg time)"), OPT_U64(0, "duration", &kvm->duration, "show events other than" " HLT (x86 only) or Wait state (s390 only)" " that take longer than duration usecs"), OPT_UINTEGER(0, "proc-map-timeout", &proc_map_timeout, "per thread proc mmap processing timeout in ms"), OPT_END() }; const char * const live_usage[] = { "perf kvm stat live [<options>]", NULL }; struct perf_data data = { .mode = PERF_DATA_MODE_WRITE, }; /* event handling */ perf_tool__init(&kvm->tool, /*ordered_events=*/true); kvm->tool.sample = process_sample_event; kvm->tool.comm = perf_event__process_comm; kvm->tool.exit = perf_event__process_exit; kvm->tool.fork = perf_event__process_fork; kvm->tool.lost = process_lost_event; kvm->tool.namespaces = perf_event__process_namespaces; /* set defaults */ kvm->display_time = 1; kvm->opts.user_interval = 1; kvm->opts.mmap_pages = 512; kvm->opts.target.uses_mmap = false; kvm->opts.target.uid_str = NULL; kvm->opts.target.uid = UINT_MAX; symbol__init(NULL); disable_buildid_cache(); use_browser = 0; if (argc) { argc = parse_options(argc, argv, live_options, live_usage, 0); if (argc) usage_with_options(live_usage, live_options); } kvm->duration *= NSEC_PER_USEC; /* convert usec to nsec */ /* * target related setups */ err = target__validate(&kvm->opts.target); if (err) { target__strerror(&kvm->opts.target, err, errbuf, BUFSIZ); ui__warning("%s", errbuf); } if (target__none(&kvm->opts.target)) kvm->opts.target.system_wide = true; /* * generate the event list */ err = setup_kvm_events_tp(kvm); if (err < 0) { pr_err("Unable to setup the kvm tracepoints\n"); return err; } kvm->evlist = kvm_live_event_list(); if (kvm->evlist == NULL) { err = -1; goto out; } if (evlist__create_maps(kvm->evlist, &kvm->opts.target) < 0) usage_with_options(live_usage, live_options); /* * perf session */ kvm->session = perf_session__new(&data, &kvm->tool); if (IS_ERR(kvm->session)) { err = PTR_ERR(kvm->session); goto out; } kvm->session->evlist = kvm->evlist; perf_session__set_id_hdr_size(kvm->session); ordered_events__set_copy_on_queue(&kvm->session->ordered_events, true); machine__synthesize_threads(&kvm->session->machines.host, &kvm->opts.target, kvm->evlist->core.threads, true, false, 1); err = kvm_live_open_events(kvm); if (err) goto out; err = kvm_events_live_report(kvm); out: perf_session__delete(kvm->session); kvm->session = NULL; evlist__delete(kvm->evlist); return err; } #endif static void print_kvm_stat_usage(void) { printf("Usage: perf kvm stat <command>\n\n"); printf("# Available commands:\n"); printf("\trecord: record kvm events\n"); printf("\treport: report statistical data of kvm events\n"); printf("\tlive: live reporting of statistical data of kvm events\n"); printf("\nOtherwise, it is the alias of 'perf stat':\n"); } static int kvm_cmd_stat(const char *file_name, int argc, const char **argv) { struct perf_kvm_stat kvm = { .file_name = file_name, .trace_vcpu = -1, .report_event = "vmexit", .sort_key = "sample", }; if (argc == 1) { print_kvm_stat_usage(); goto perf_stat; } if (strlen(argv[1]) > 2 && strstarts("record", argv[1])) return kvm_events_record(&kvm, argc - 1, argv + 1); if (strlen(argv[1]) > 2 && strstarts("report", argv[1])) return kvm_events_report(&kvm, argc - 1 , argv + 1); #if defined(HAVE_TIMERFD_SUPPORT) && defined(HAVE_LIBTRACEEVENT) if (!strncmp(argv[1], "live", 4)) return kvm_events_live(&kvm, argc - 1 , argv + 1); #endif perf_stat: return cmd_stat(argc, argv); } #endif /* HAVE_KVM_STAT_SUPPORT */ int __weak kvm_add_default_arch_event(int *argc __maybe_unused, const char **argv __maybe_unused) { return 0; } static int __cmd_record(const char *file_name, int argc, const char **argv) { int rec_argc, i = 0, j, ret; const char **rec_argv; ret = kvm_add_default_arch_event(&argc, argv); if (ret) return -EINVAL; rec_argc = argc + 2; rec_argv = calloc(rec_argc + 1, sizeof(char *)); rec_argv[i++] = strdup("record"); rec_argv[i++] = strdup("-o"); rec_argv[i++] = strdup(file_name); for (j = 1; j < argc; j++, i++) rec_argv[i] = argv[j]; BUG_ON(i != rec_argc); return cmd_record(i, rec_argv); } static int __cmd_report(const char *file_name, int argc, const char **argv) { int rec_argc, i = 0, j; const char **rec_argv; rec_argc = argc + 2; rec_argv = calloc(rec_argc + 1, sizeof(char *)); rec_argv[i++] = strdup("report"); rec_argv[i++] = strdup("-i"); rec_argv[i++] = strdup(file_name); for (j = 1; j < argc; j++, i++) rec_argv[i] = argv[j]; BUG_ON(i != rec_argc); return cmd_report(i, rec_argv); } static int __cmd_buildid_list(const char *file_name, int argc, const char **argv) { int rec_argc, i = 0, j; const char **rec_argv; rec_argc = argc + 2; rec_argv = calloc(rec_argc + 1, sizeof(char *)); rec_argv[i++] = strdup("buildid-list"); rec_argv[i++] = strdup("-i"); rec_argv[i++] = strdup(file_name); for (j = 1; j < argc; j++, i++) rec_argv[i] = argv[j]; BUG_ON(i != rec_argc); return cmd_buildid_list(i, rec_argv); } int cmd_kvm(int argc, const char **argv) { const char *file_name = NULL; const struct option kvm_options[] = { OPT_STRING('i', "input", &file_name, "file", "Input file name"), OPT_STRING('o', "output", &file_name, "file", "Output file name"), OPT_BOOLEAN(0, "guest", &perf_guest, "Collect guest os data"), OPT_BOOLEAN(0, "host", &perf_host, "Collect host os data"), OPT_STRING(0, "guestmount", &symbol_conf.guestmount, "directory", "guest mount directory under which every guest os" " instance has a subdir"), OPT_STRING(0, "guestvmlinux", &symbol_conf.default_guest_vmlinux_name, "file", "file saving guest os vmlinux"), OPT_STRING(0, "guestkallsyms", &symbol_conf.default_guest_kallsyms, "file", "file saving guest os /proc/kallsyms"), OPT_STRING(0, "guestmodules", &symbol_conf.default_guest_modules, "file", "file saving guest os /proc/modules"), OPT_BOOLEAN(0, "guest-code", &symbol_conf.guest_code, "Guest code can be found in hypervisor process"), OPT_INCR('v', "verbose", &verbose, "be more verbose (show counter open errors, etc)"), OPT_END() }; const char *const kvm_subcommands[] = { "top", "record", "report", "diff", "buildid-list", "stat", NULL }; const char *kvm_usage[] = { NULL, NULL }; perf_host = 0; perf_guest = 1; argc = parse_options_subcommand(argc, argv, kvm_options, kvm_subcommands, kvm_usage, PARSE_OPT_STOP_AT_NON_OPTION); if (!argc) usage_with_options(kvm_usage, kvm_options); if (!perf_host) perf_guest = 1; if (!file_name) { file_name = get_filename_for_perf_kvm(); if (!file_name) { pr_err("Failed to allocate memory for filename\n"); return -ENOMEM; } } if (strlen(argv[0]) > 2 && strstarts("record", argv[0])) return __cmd_record(file_name, argc, argv); else if (strlen(argv[0]) > 2 && strstarts("report", argv[0])) return __cmd_report(file_name, argc, argv); else if (strlen(argv[0]) > 2 && strstarts("diff", argv[0])) return cmd_diff(argc, argv); else if (!strcmp(argv[0], "top")) return cmd_top(argc, argv); else if (strlen(argv[0]) > 2 && strstarts("buildid-list", argv[0])) return __cmd_buildid_list(file_name, argc, argv); #if defined(HAVE_KVM_STAT_SUPPORT) && defined(HAVE_LIBTRACEEVENT) else if (strlen(argv[0]) > 2 && strstarts("stat", argv[0])) return kvm_cmd_stat(file_name, argc, argv); #endif else usage_with_options(kvm_usage, kvm_options); /* free usage string allocated by parse_options_subcommand */ free((void *)kvm_usage[0]); return 0; }
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