| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Andrii Nakryiko | 2112 | 84.55% | 6 | 60.00% |
| Eduard Zingerman | 377 | 15.09% | 1 | 10.00% |
| Ian Rogers | 8 | 0.32% | 2 | 20.00% |
| Toke Höiland-Jörgensen | 1 | 0.04% | 1 | 10.00% |
| Total | 2498 | 10 |
// SPDX-License-Identifier: (LGPL-2.1 OR BSD-2-Clause) /* * Tests for libbpf's hashmap. * * Copyright (c) 2019 Facebook */ #include "test_progs.h" #include "bpf/hashmap.h" #include <stddef.h> static int duration = 0; static size_t hash_fn(long k, void *ctx) { return k; } static bool equal_fn(long a, long b, void *ctx) { return a == b; } static inline size_t next_pow_2(size_t n) { size_t r = 1; while (r < n) r <<= 1; return r; } static inline size_t exp_cap(size_t sz) { size_t r = next_pow_2(sz); if (sz * 4 / 3 > r) r <<= 1; return r; } #define ELEM_CNT 62 static void test_hashmap_generic(void) { struct hashmap_entry *entry, *tmp; int err, bkt, found_cnt, i; long long found_msk; struct hashmap *map; map = hashmap__new(hash_fn, equal_fn, NULL); if (!ASSERT_OK_PTR(map, "hashmap__new")) return; for (i = 0; i < ELEM_CNT; i++) { long oldk, k = i; long oldv, v = 1024 + i; err = hashmap__update(map, k, v, &oldk, &oldv); if (CHECK(err != -ENOENT, "hashmap__update", "unexpected result: %d\n", err)) goto cleanup; if (i % 2) { err = hashmap__add(map, k, v); } else { err = hashmap__set(map, k, v, &oldk, &oldv); if (CHECK(oldk != 0 || oldv != 0, "check_kv", "unexpected k/v: %ld=%ld\n", oldk, oldv)) goto cleanup; } if (CHECK(err, "elem_add", "failed to add k/v %ld = %ld: %d\n", k, v, err)) goto cleanup; if (CHECK(!hashmap__find(map, k, &oldv), "elem_find", "failed to find key %ld\n", k)) goto cleanup; if (CHECK(oldv != v, "elem_val", "found value is wrong: %ld\n", oldv)) goto cleanup; } if (CHECK(hashmap__size(map) != ELEM_CNT, "hashmap__size", "invalid map size: %zu\n", hashmap__size(map))) goto cleanup; if (CHECK(hashmap__capacity(map) != exp_cap(hashmap__size(map)), "hashmap_cap", "unexpected map capacity: %zu\n", hashmap__capacity(map))) goto cleanup; found_msk = 0; hashmap__for_each_entry(map, entry, bkt) { long k = entry->key; long v = entry->value; found_msk |= 1ULL << k; if (CHECK(v - k != 1024, "check_kv", "invalid k/v pair: %ld = %ld\n", k, v)) goto cleanup; } if (CHECK(found_msk != (1ULL << ELEM_CNT) - 1, "elem_cnt", "not all keys iterated: %llx\n", found_msk)) goto cleanup; for (i = 0; i < ELEM_CNT; i++) { long oldk, k = i; long oldv, v = 256 + i; err = hashmap__add(map, k, v); if (CHECK(err != -EEXIST, "hashmap__add", "unexpected add result: %d\n", err)) goto cleanup; if (i % 2) err = hashmap__update(map, k, v, &oldk, &oldv); else err = hashmap__set(map, k, v, &oldk, &oldv); if (CHECK(err, "elem_upd", "failed to update k/v %ld = %ld: %d\n", k, v, err)) goto cleanup; if (CHECK(!hashmap__find(map, k, &oldv), "elem_find", "failed to find key %ld\n", k)) goto cleanup; if (CHECK(oldv != v, "elem_val", "found value is wrong: %ld\n", oldv)) goto cleanup; } if (CHECK(hashmap__size(map) != ELEM_CNT, "hashmap__size", "invalid updated map size: %zu\n", hashmap__size(map))) goto cleanup; if (CHECK(hashmap__capacity(map) != exp_cap(hashmap__size(map)), "hashmap__capacity", "unexpected map capacity: %zu\n", hashmap__capacity(map))) goto cleanup; found_msk = 0; hashmap__for_each_entry_safe(map, entry, tmp, bkt) { long k = entry->key; long v = entry->value; found_msk |= 1ULL << k; if (CHECK(v - k != 256, "elem_check", "invalid updated k/v pair: %ld = %ld\n", k, v)) goto cleanup; } if (CHECK(found_msk != (1ULL << ELEM_CNT) - 1, "elem_cnt", "not all keys iterated after update: %llx\n", found_msk)) goto cleanup; found_cnt = 0; hashmap__for_each_key_entry(map, entry, 0) { found_cnt++; } if (CHECK(!found_cnt, "found_cnt", "didn't find any entries for key 0\n")) goto cleanup; found_msk = 0; found_cnt = 0; hashmap__for_each_key_entry_safe(map, entry, tmp, 0) { long oldk, k; long oldv, v; k = entry->key; v = entry->value; found_cnt++; found_msk |= 1ULL << k; if (CHECK(!hashmap__delete(map, k, &oldk, &oldv), "elem_del", "failed to delete k/v %ld = %ld\n", k, v)) goto cleanup; if (CHECK(oldk != k || oldv != v, "check_old", "invalid deleted k/v: expected %ld = %ld, got %ld = %ld\n", k, v, oldk, oldv)) goto cleanup; if (CHECK(hashmap__delete(map, k, &oldk, &oldv), "elem_del", "unexpectedly deleted k/v %ld = %ld\n", oldk, oldv)) goto cleanup; } if (CHECK(!found_cnt || !found_msk, "found_entries", "didn't delete any key entries\n")) goto cleanup; if (CHECK(hashmap__size(map) != ELEM_CNT - found_cnt, "elem_cnt", "invalid updated map size (already deleted: %d): %zu\n", found_cnt, hashmap__size(map))) goto cleanup; if (CHECK(hashmap__capacity(map) != exp_cap(hashmap__size(map)), "hashmap__capacity", "unexpected map capacity: %zu\n", hashmap__capacity(map))) goto cleanup; hashmap__for_each_entry_safe(map, entry, tmp, bkt) { long oldk, k; long oldv, v; k = entry->key; v = entry->value; found_cnt++; found_msk |= 1ULL << k; if (CHECK(!hashmap__delete(map, k, &oldk, &oldv), "elem_del", "failed to delete k/v %ld = %ld\n", k, v)) goto cleanup; if (CHECK(oldk != k || oldv != v, "elem_check", "invalid old k/v: expect %ld = %ld, got %ld = %ld\n", k, v, oldk, oldv)) goto cleanup; if (CHECK(hashmap__delete(map, k, &oldk, &oldv), "elem_del", "unexpectedly deleted k/v %ld = %ld\n", k, v)) goto cleanup; } if (CHECK(found_cnt != ELEM_CNT || found_msk != (1ULL << ELEM_CNT) - 1, "found_cnt", "not all keys were deleted: found_cnt:%d, found_msk:%llx\n", found_cnt, found_msk)) goto cleanup; if (CHECK(hashmap__size(map) != 0, "hashmap__size", "invalid updated map size (already deleted: %d): %zu\n", found_cnt, hashmap__size(map))) goto cleanup; found_cnt = 0; hashmap__for_each_entry(map, entry, bkt) { CHECK(false, "elem_exists", "unexpected map entries left: %ld = %ld\n", entry->key, entry->value); goto cleanup; } hashmap__clear(map); hashmap__for_each_entry(map, entry, bkt) { CHECK(false, "elem_exists", "unexpected map entries left: %ld = %ld\n", entry->key, entry->value); goto cleanup; } cleanup: hashmap__free(map); } static size_t str_hash_fn(long a, void *ctx) { return str_hash((char *)a); } static bool str_equal_fn(long a, long b, void *ctx) { return strcmp((char *)a, (char *)b) == 0; } /* Verify that hashmap interface works with pointer keys and values */ static void test_hashmap_ptr_iface(void) { const char *key, *value, *old_key, *old_value; struct hashmap_entry *cur; struct hashmap *map; int err, i, bkt; map = hashmap__new(str_hash_fn, str_equal_fn, NULL); if (CHECK(!map, "hashmap__new", "can't allocate hashmap\n")) goto cleanup; #define CHECK_STR(fn, var, expected) \ CHECK(strcmp(var, (expected)), (fn), \ "wrong value of " #var ": '%s' instead of '%s'\n", var, (expected)) err = hashmap__insert(map, "a", "apricot", HASHMAP_ADD, NULL, NULL); if (CHECK(err, "hashmap__insert", "unexpected error: %d\n", err)) goto cleanup; err = hashmap__insert(map, "a", "apple", HASHMAP_SET, &old_key, &old_value); if (CHECK(err, "hashmap__insert", "unexpected error: %d\n", err)) goto cleanup; CHECK_STR("hashmap__update", old_key, "a"); CHECK_STR("hashmap__update", old_value, "apricot"); err = hashmap__add(map, "b", "banana"); if (CHECK(err, "hashmap__add", "unexpected error: %d\n", err)) goto cleanup; err = hashmap__set(map, "b", "breadfruit", &old_key, &old_value); if (CHECK(err, "hashmap__set", "unexpected error: %d\n", err)) goto cleanup; CHECK_STR("hashmap__set", old_key, "b"); CHECK_STR("hashmap__set", old_value, "banana"); err = hashmap__update(map, "b", "blueberry", &old_key, &old_value); if (CHECK(err, "hashmap__update", "unexpected error: %d\n", err)) goto cleanup; CHECK_STR("hashmap__update", old_key, "b"); CHECK_STR("hashmap__update", old_value, "breadfruit"); err = hashmap__append(map, "c", "cherry"); if (CHECK(err, "hashmap__append", "unexpected error: %d\n", err)) goto cleanup; if (CHECK(!hashmap__delete(map, "c", &old_key, &old_value), "hashmap__delete", "expected to have entry for 'c'\n")) goto cleanup; CHECK_STR("hashmap__delete", old_key, "c"); CHECK_STR("hashmap__delete", old_value, "cherry"); CHECK(!hashmap__find(map, "b", &value), "hashmap__find", "can't find value for 'b'\n"); CHECK_STR("hashmap__find", value, "blueberry"); if (CHECK(!hashmap__delete(map, "b", NULL, NULL), "hashmap__delete", "expected to have entry for 'b'\n")) goto cleanup; i = 0; hashmap__for_each_entry(map, cur, bkt) { if (CHECK(i != 0, "hashmap__for_each_entry", "too many entries")) goto cleanup; key = cur->pkey; value = cur->pvalue; CHECK_STR("entry", key, "a"); CHECK_STR("entry", value, "apple"); i++; } #undef CHECK_STR cleanup: hashmap__free(map); } static size_t collision_hash_fn(long k, void *ctx) { return 0; } static void test_hashmap_multimap(void) { long k1 = 0, k2 = 1; struct hashmap_entry *entry; struct hashmap *map; long found_msk; int err, bkt; /* force collisions */ map = hashmap__new(collision_hash_fn, equal_fn, NULL); if (!ASSERT_OK_PTR(map, "hashmap__new")) return; /* set up multimap: * [0] -> 1, 2, 4; * [1] -> 8, 16, 32; */ err = hashmap__append(map, k1, 1); if (CHECK(err, "elem_add", "failed to add k/v: %d\n", err)) goto cleanup; err = hashmap__append(map, k1, 2); if (CHECK(err, "elem_add", "failed to add k/v: %d\n", err)) goto cleanup; err = hashmap__append(map, k1, 4); if (CHECK(err, "elem_add", "failed to add k/v: %d\n", err)) goto cleanup; err = hashmap__append(map, k2, 8); if (CHECK(err, "elem_add", "failed to add k/v: %d\n", err)) goto cleanup; err = hashmap__append(map, k2, 16); if (CHECK(err, "elem_add", "failed to add k/v: %d\n", err)) goto cleanup; err = hashmap__append(map, k2, 32); if (CHECK(err, "elem_add", "failed to add k/v: %d\n", err)) goto cleanup; if (CHECK(hashmap__size(map) != 6, "hashmap_size", "invalid map size: %zu\n", hashmap__size(map))) goto cleanup; /* verify global iteration still works and sees all values */ found_msk = 0; hashmap__for_each_entry(map, entry, bkt) { found_msk |= entry->value; } if (CHECK(found_msk != (1 << 6) - 1, "found_msk", "not all keys iterated: %lx\n", found_msk)) goto cleanup; /* iterate values for key 1 */ found_msk = 0; hashmap__for_each_key_entry(map, entry, k1) { found_msk |= entry->value; } if (CHECK(found_msk != (1 | 2 | 4), "found_msk", "invalid k1 values: %lx\n", found_msk)) goto cleanup; /* iterate values for key 2 */ found_msk = 0; hashmap__for_each_key_entry(map, entry, k2) { found_msk |= entry->value; } if (CHECK(found_msk != (8 | 16 | 32), "found_msk", "invalid k2 values: %lx\n", found_msk)) goto cleanup; cleanup: hashmap__free(map); } static void test_hashmap_empty() { struct hashmap_entry *entry; int bkt; struct hashmap *map; long k = 0; /* force collisions */ map = hashmap__new(hash_fn, equal_fn, NULL); if (!ASSERT_OK_PTR(map, "hashmap__new")) goto cleanup; if (CHECK(hashmap__size(map) != 0, "hashmap__size", "invalid map size: %zu\n", hashmap__size(map))) goto cleanup; if (CHECK(hashmap__capacity(map) != 0, "hashmap__capacity", "invalid map capacity: %zu\n", hashmap__capacity(map))) goto cleanup; if (CHECK(hashmap__find(map, k, NULL), "elem_find", "unexpected find\n")) goto cleanup; if (CHECK(hashmap__delete(map, k, NULL, NULL), "elem_del", "unexpected delete\n")) goto cleanup; hashmap__for_each_entry(map, entry, bkt) { CHECK(false, "elem_found", "unexpected iterated entry\n"); goto cleanup; } hashmap__for_each_key_entry(map, entry, k) { CHECK(false, "key_found", "unexpected key entry\n"); goto cleanup; } cleanup: hashmap__free(map); } void test_hashmap() { if (test__start_subtest("generic")) test_hashmap_generic(); if (test__start_subtest("multimap")) test_hashmap_multimap(); if (test__start_subtest("empty")) test_hashmap_empty(); if (test__start_subtest("ptr_iface")) test_hashmap_ptr_iface(); }
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