Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Ian Rogers | 1056 | 58.47% | 13 | 38.24% |
Jiri Olsa | 581 | 32.17% | 12 | 35.29% |
Jin Yao | 147 | 8.14% | 3 | 8.82% |
Arnaldo Carvalho de Melo | 10 | 0.55% | 3 | 8.82% |
John Garry | 8 | 0.44% | 1 | 2.94% |
Matt Fleming | 3 | 0.17% | 1 | 2.94% |
Greg Kroah-Hartman | 1 | 0.06% | 1 | 2.94% |
Total | 1806 | 34 |
// SPDX-License-Identifier: GPL-2.0 #include "arch-tests.h" #include "debug.h" #include "evlist.h" #include "evsel.h" #include "pmu.h" #include "pmus.h" #include "tests/tests.h" static bool test_config(const struct evsel *evsel, __u64 expected_config) { return (evsel->core.attr.config & PERF_HW_EVENT_MASK) == expected_config; } static bool test_perf_config(const struct perf_evsel *evsel, __u64 expected_config) { return (evsel->attr.config & PERF_HW_EVENT_MASK) == expected_config; } static bool test_hybrid_type(const struct evsel *evsel, __u64 expected_config) { return (evsel->core.attr.config >> PERF_PMU_TYPE_SHIFT) == expected_config; } static int test__hybrid_hw_event_with_pmu(struct evlist *evlist) { struct evsel *evsel = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 1 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HARDWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong hybrid type", test_hybrid_type(evsel, PERF_TYPE_RAW)); TEST_ASSERT_VAL("wrong config", test_config(evsel, PERF_COUNT_HW_CPU_CYCLES)); return TEST_OK; } static int test__hybrid_hw_group_event(struct evlist *evlist) { struct evsel *evsel, *leader; evsel = leader = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 2 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HARDWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong hybrid type", test_hybrid_type(evsel, PERF_TYPE_RAW)); TEST_ASSERT_VAL("wrong config", test_config(evsel, PERF_COUNT_HW_CPU_CYCLES)); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); evsel = evsel__next(evsel); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HARDWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong hybrid type", test_hybrid_type(evsel, PERF_TYPE_RAW)); TEST_ASSERT_VAL("wrong config", test_config(evsel, PERF_COUNT_HW_BRANCH_INSTRUCTIONS)); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); return TEST_OK; } static int test__hybrid_sw_hw_group_event(struct evlist *evlist) { struct evsel *evsel, *leader; evsel = leader = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 2 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_SOFTWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); evsel = evsel__next(evsel); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HARDWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong hybrid type", test_hybrid_type(evsel, PERF_TYPE_RAW)); TEST_ASSERT_VAL("wrong config", test_config(evsel, PERF_COUNT_HW_CPU_CYCLES)); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); return TEST_OK; } static int test__hybrid_hw_sw_group_event(struct evlist *evlist) { struct evsel *evsel, *leader; evsel = leader = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 2 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HARDWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong hybrid type", test_hybrid_type(evsel, PERF_TYPE_RAW)); TEST_ASSERT_VAL("wrong config", test_config(evsel, PERF_COUNT_HW_CPU_CYCLES)); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); evsel = evsel__next(evsel); TEST_ASSERT_VAL("wrong type", PERF_TYPE_SOFTWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); return TEST_OK; } static int test__hybrid_group_modifier1(struct evlist *evlist) { struct evsel *evsel, *leader; evsel = leader = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 2 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HARDWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong hybrid type", test_hybrid_type(evsel, PERF_TYPE_RAW)); TEST_ASSERT_VAL("wrong config", test_config(evsel, PERF_COUNT_HW_CPU_CYCLES)); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); TEST_ASSERT_VAL("wrong exclude_user", evsel->core.attr.exclude_user); TEST_ASSERT_VAL("wrong exclude_kernel", !evsel->core.attr.exclude_kernel); evsel = evsel__next(evsel); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HARDWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong hybrid type", test_hybrid_type(evsel, PERF_TYPE_RAW)); TEST_ASSERT_VAL("wrong config", test_config(evsel, PERF_COUNT_HW_BRANCH_INSTRUCTIONS)); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); TEST_ASSERT_VAL("wrong exclude_user", !evsel->core.attr.exclude_user); TEST_ASSERT_VAL("wrong exclude_kernel", evsel->core.attr.exclude_kernel); return TEST_OK; } static int test__hybrid_raw1(struct evlist *evlist) { struct perf_evsel *evsel; perf_evlist__for_each_evsel(&evlist->core, evsel) { struct perf_pmu *pmu = perf_pmus__find_by_type(evsel->attr.type); TEST_ASSERT_VAL("missing pmu", pmu); TEST_ASSERT_VAL("unexpected pmu", !strncmp(pmu->name, "cpu_", 4)); TEST_ASSERT_VAL("wrong config", test_perf_config(evsel, 0x1a)); } return TEST_OK; } static int test__hybrid_raw2(struct evlist *evlist) { struct evsel *evsel = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 1 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_RAW == evsel->core.attr.type); TEST_ASSERT_VAL("wrong config", test_config(evsel, 0x1a)); return TEST_OK; } static int test__hybrid_cache_event(struct evlist *evlist) { struct evsel *evsel = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 1 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HW_CACHE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong config", 0x2 == (evsel->core.attr.config & 0xffffffff)); return TEST_OK; } static int test__checkevent_pmu(struct evlist *evlist) { struct evsel *evsel = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 1 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_RAW == evsel->core.attr.type); TEST_ASSERT_VAL("wrong config", 10 == evsel->core.attr.config); TEST_ASSERT_VAL("wrong config1", 1 == evsel->core.attr.config1); TEST_ASSERT_VAL("wrong config2", 3 == evsel->core.attr.config2); TEST_ASSERT_VAL("wrong config3", 0 == evsel->core.attr.config3); /* * The period value gets configured within evlist__config, * while this test executes only parse events method. */ TEST_ASSERT_VAL("wrong period", 0 == evsel->core.attr.sample_period); return TEST_OK; } static int test__hybrid_hw_group_event_2(struct evlist *evlist) { struct evsel *evsel, *leader; evsel = leader = evlist__first(evlist); TEST_ASSERT_VAL("wrong number of entries", 2 == evlist->core.nr_entries); TEST_ASSERT_VAL("wrong type", PERF_TYPE_HARDWARE == evsel->core.attr.type); TEST_ASSERT_VAL("wrong hybrid type", test_hybrid_type(evsel, PERF_TYPE_RAW)); TEST_ASSERT_VAL("wrong config", test_config(evsel, PERF_COUNT_HW_CPU_CYCLES)); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); evsel = evsel__next(evsel); TEST_ASSERT_VAL("wrong type", PERF_TYPE_RAW == evsel->core.attr.type); TEST_ASSERT_VAL("wrong config", evsel->core.attr.config == 0x3c); TEST_ASSERT_VAL("wrong leader", evsel__has_leader(evsel, leader)); return TEST_OK; } struct evlist_test { const char *name; bool (*valid)(void); int (*check)(struct evlist *evlist); }; static const struct evlist_test test__hybrid_events[] = { { .name = "cpu_core/cycles/", .check = test__hybrid_hw_event_with_pmu, /* 0 */ }, { .name = "{cpu_core/cycles/,cpu_core/branches/}", .check = test__hybrid_hw_group_event, /* 1 */ }, { .name = "{cpu-clock,cpu_core/cycles/}", .check = test__hybrid_sw_hw_group_event, /* 2 */ }, { .name = "{cpu_core/cycles/,cpu-clock}", .check = test__hybrid_hw_sw_group_event, /* 3 */ }, { .name = "{cpu_core/cycles/k,cpu_core/branches/u}", .check = test__hybrid_group_modifier1, /* 4 */ }, { .name = "r1a", .check = test__hybrid_raw1, /* 5 */ }, { .name = "cpu_core/r1a/", .check = test__hybrid_raw2, /* 6 */ }, { .name = "cpu_core/config=10,config1,config2=3,period=1000/u", .check = test__checkevent_pmu, /* 7 */ }, { .name = "cpu_core/LLC-loads/", .check = test__hybrid_cache_event, /* 8 */ }, { .name = "{cpu_core/cycles/,cpu_core/cpu-cycles/}", .check = test__hybrid_hw_group_event_2, /* 9 */ }, }; static int test_event(const struct evlist_test *e) { struct parse_events_error err; struct evlist *evlist; int ret; if (e->valid && !e->valid()) { pr_debug("... SKIP\n"); return TEST_OK; } evlist = evlist__new(); if (evlist == NULL) { pr_err("Failed allocation"); return TEST_FAIL; } parse_events_error__init(&err); ret = parse_events(evlist, e->name, &err); if (ret) { pr_debug("failed to parse event '%s', err %d, str '%s'\n", e->name, ret, err.str); parse_events_error__print(&err, e->name); ret = TEST_FAIL; if (strstr(err.str, "can't access trace events")) ret = TEST_SKIP; } else { ret = e->check(evlist); } parse_events_error__exit(&err); evlist__delete(evlist); return ret; } static int combine_test_results(int existing, int latest) { if (existing == TEST_FAIL) return TEST_FAIL; if (existing == TEST_SKIP) return latest == TEST_OK ? TEST_SKIP : latest; return latest; } static int test_events(const struct evlist_test *events, int cnt) { int ret = TEST_OK; for (int i = 0; i < cnt; i++) { const struct evlist_test *e = &events[i]; int test_ret; pr_debug("running test %d '%s'\n", i, e->name); test_ret = test_event(e); if (test_ret != TEST_OK) { pr_debug("Event test failure: test %d '%s'", i, e->name); ret = combine_test_results(ret, test_ret); } } return ret; } int test__hybrid(struct test_suite *test __maybe_unused, int subtest __maybe_unused) { if (perf_pmus__num_core_pmus() == 1) return TEST_SKIP; return test_events(test__hybrid_events, ARRAY_SIZE(test__hybrid_events)); }
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