#include #include #include #include #include #include "internal.h" #include "virhash.h" #include "virhashdata.h" #include "testutils.h" #include "viralloc.h" #include "virlog.h" #include "virstring.h" #define VIR_FROM_THIS VIR_FROM_NONE #define testError(...) \ do { \ char *str; \ if (virAsprintf(&str, __VA_ARGS__) == 0) { \ fprintf(stderr, "%s", str); \ VIR_FREE(str); \ } \ /* Pad to line up with test name ... in virTestRun */ \ fprintf(stderr, "%74s", "... "); \ } while (0) static virHashTablePtr testHashInit(int size) { virHashTablePtr hash; ssize_t i; if (!(hash = virHashCreate(size, NULL))) return NULL; /* entires are added in reverse order so that they will be linked in * collision list in the same order as in the uuids array */ for (i = ARRAY_CARDINALITY(uuids) - 1; i >= 0; i--) { ssize_t oldsize = virHashTableSize(hash); if (virHashAddEntry(hash, uuids[i], (void *) uuids[i]) < 0) { virHashFree(hash); return NULL; } if (virHashTableSize(hash) != oldsize && virTestGetDebug()) { VIR_WARN("hash grown from %zd to %zd", (size_t)oldsize, (size_t)virHashTableSize(hash)); } } for (i = 0; i < ARRAY_CARDINALITY(uuids); i++) { if (!virHashLookup(hash, uuids[i])) { if (virTestGetVerbose()) { VIR_WARN("\nentry \"%s\" could not be found\n", uuids[i]); } virHashFree(hash); return NULL; } } if (size && size != virHashTableSize(hash) && virTestGetDebug()) fprintf(stderr, "\n"); return hash; } static void testHashCheckForEachCount(void *payload ATTRIBUTE_UNUSED, const void *name ATTRIBUTE_UNUSED, void *data ATTRIBUTE_UNUSED) { } static int testHashCheckCount(virHashTablePtr hash, size_t count) { ssize_t iter_count = 0; if (virHashSize(hash) != count) { testError("\nhash contains %zu instead of %zu elements\n", (size_t)virHashSize(hash), count); return -1; } iter_count = virHashForEach(hash, testHashCheckForEachCount, NULL); if (count != iter_count) { testError("\nhash claims to have %zu elements but iteration finds %zu\n", count, (size_t)iter_count); return -1; } return 0; } struct testInfo { void *data; size_t count; }; static int testHashGrow(const void *data) { const struct testInfo *info = data; virHashTablePtr hash; int ret = -1; if (!(hash = testHashInit(info->count))) return -1; if (testHashCheckCount(hash, ARRAY_CARDINALITY(uuids)) < 0) goto cleanup; ret = 0; cleanup: virHashFree(hash); return ret; } static int testHashUpdate(const void *data ATTRIBUTE_UNUSED) { int count = ARRAY_CARDINALITY(uuids) + ARRAY_CARDINALITY(uuids_new); virHashTablePtr hash; int i; int ret = -1; if (!(hash = testHashInit(0))) return -1; for (i = 0; i < ARRAY_CARDINALITY(uuids_subset); i++) { if (virHashUpdateEntry(hash, uuids_subset[i], (void *) 1) < 0) { if (virTestGetVerbose()) { fprintf(stderr, "\nentry \"%s\" could not be updated\n", uuids_subset[i]); } goto cleanup; } } for (i = 0; i < ARRAY_CARDINALITY(uuids_new); i++) { if (virHashUpdateEntry(hash, uuids_new[i], (void *) 1) < 0) { if (virTestGetVerbose()) { fprintf(stderr, "\nnew entry \"%s\" could not be updated\n", uuids_new[i]); } goto cleanup; } } if (testHashCheckCount(hash, count) < 0) goto cleanup; ret = 0; cleanup: virHashFree(hash); return ret; } static int testHashRemove(const void *data ATTRIBUTE_UNUSED) { int count = ARRAY_CARDINALITY(uuids) - ARRAY_CARDINALITY(uuids_subset); virHashTablePtr hash; int i; int ret = -1; if (!(hash = testHashInit(0))) return -1; for (i = 0; i < ARRAY_CARDINALITY(uuids_subset); i++) { if (virHashRemoveEntry(hash, uuids_subset[i]) < 0) { if (virTestGetVerbose()) { fprintf(stderr, "\nentry \"%s\" could not be removed\n", uuids_subset[i]); } goto cleanup; } } if (testHashCheckCount(hash, count) < 0) goto cleanup; ret = 0; cleanup: virHashFree(hash); return ret; } const int testHashCountRemoveForEachSome = ARRAY_CARDINALITY(uuids) - ARRAY_CARDINALITY(uuids_subset); static void testHashRemoveForEachSome(void *payload ATTRIBUTE_UNUSED, const void *name, void *data) { virHashTablePtr hash = data; int i; for (i = 0; i < ARRAY_CARDINALITY(uuids_subset); i++) { if (STREQ(uuids_subset[i], name)) { if (virHashRemoveEntry(hash, name) < 0 && virTestGetVerbose()) { fprintf(stderr, "\nentry \"%s\" could not be removed", uuids_subset[i]); } break; } } } const int testHashCountRemoveForEachAll = 0; static void testHashRemoveForEachAll(void *payload ATTRIBUTE_UNUSED, const void *name, void *data) { virHashTablePtr hash = data; virHashRemoveEntry(hash, name); } const int testHashCountRemoveForEachForbidden = ARRAY_CARDINALITY(uuids); static void testHashRemoveForEachForbidden(void *payload ATTRIBUTE_UNUSED, const void *name, void *data) { virHashTablePtr hash = data; int i; for (i = 0; i < ARRAY_CARDINALITY(uuids_subset); i++) { if (STREQ(uuids_subset[i], name)) { int next = (i + 1) % ARRAY_CARDINALITY(uuids_subset); if (virHashRemoveEntry(hash, uuids_subset[next]) == 0 && virTestGetVerbose()) { fprintf(stderr, "\nentry \"%s\" should not be allowed to be removed", uuids_subset[next]); } break; } } } static int testHashRemoveForEach(const void *data) { const struct testInfo *info = data; virHashTablePtr hash; int count; int ret = -1; if (!(hash = testHashInit(0))) return -1; count = virHashForEach(hash, (virHashIterator) info->data, hash); if (count != ARRAY_CARDINALITY(uuids)) { if (virTestGetVerbose()) { testError("\nvirHashForEach didn't go through all entries," " %d != %zu\n", count, ARRAY_CARDINALITY(uuids)); } goto cleanup; } if (testHashCheckCount(hash, info->count) < 0) goto cleanup; ret = 0; cleanup: virHashFree(hash); return ret; } static int testHashSteal(const void *data ATTRIBUTE_UNUSED) { int count = ARRAY_CARDINALITY(uuids) - ARRAY_CARDINALITY(uuids_subset); virHashTablePtr hash; int i; int ret = -1; if (!(hash = testHashInit(0))) return -1; for (i = 0; i < ARRAY_CARDINALITY(uuids_subset); i++) { if (!virHashSteal(hash, uuids_subset[i])) { if (virTestGetVerbose()) { fprintf(stderr, "\nentry \"%s\" could not be stolen\n", uuids_subset[i]); } goto cleanup; } } if (testHashCheckCount(hash, count) < 0) goto cleanup; ret = 0; cleanup: virHashFree(hash); return ret; } static void testHashIter(void *payload ATTRIBUTE_UNUSED, const void *name ATTRIBUTE_UNUSED, void *data ATTRIBUTE_UNUSED) { return; } static void testHashForEachIter(void *payload ATTRIBUTE_UNUSED, const void *name ATTRIBUTE_UNUSED, void *data) { virHashTablePtr hash = data; if (virHashAddEntry(hash, uuids_new[0], NULL) == 0 && virTestGetVerbose()) { fprintf(stderr, "\nadding entries in ForEach should be forbidden"); } if (virHashUpdateEntry(hash, uuids_new[0], NULL) == 0 && virTestGetVerbose()) { fprintf(stderr, "\nupdating entries in ForEach should be forbidden"); } if (virHashSteal(hash, uuids_new[0]) != NULL && virTestGetVerbose()) { fprintf(stderr, "\nstealing entries in ForEach should be forbidden"); } if (virHashSteal(hash, uuids_new[0]) != NULL && virTestGetVerbose()) { fprintf(stderr, "\nstealing entries in ForEach should be forbidden"); } if (virHashForEach(hash, testHashIter, NULL) >= 0 && virTestGetVerbose()) { fprintf(stderr, "\niterating through hash in ForEach" " should be forbidden"); } } static int testHashForEach(const void *data ATTRIBUTE_UNUSED) { virHashTablePtr hash; int count; int ret = -1; if (!(hash = testHashInit(0))) return -1; count = virHashForEach(hash, testHashForEachIter, hash); if (count != ARRAY_CARDINALITY(uuids)) { if (virTestGetVerbose()) { testError("\nvirHashForEach didn't go through all entries," " %d != %zu\n", count, ARRAY_CARDINALITY(uuids)); } goto cleanup; } ret = 0; cleanup: virHashFree(hash); return ret; } static int testHashRemoveSetIter(const void *payload ATTRIBUTE_UNUSED, const void *name, const void *data) { int *count = (int *) data; bool rem = false; int i; for (i = 0; i < ARRAY_CARDINALITY(uuids_subset); i++) { if (STREQ(uuids_subset[i], name)) { rem = true; break; } } if (rem || rand() % 2) { (*count)++; return 1; } else { return 0; } } static int testHashRemoveSet(const void *data ATTRIBUTE_UNUSED) { virHashTablePtr hash; int count = 0; int rcount; int ret = -1; if (!(hash = testHashInit(0))) return -1; /* seed the generator so that rand() provides reproducible sequence */ srand(9000); rcount = virHashRemoveSet(hash, testHashRemoveSetIter, &count); if (count != rcount) { if (virTestGetVerbose()) { testError("\nvirHashRemoveSet didn't remove expected number of" " entries, %d != %u\n", rcount, count); } goto cleanup; } if (testHashCheckCount(hash, ARRAY_CARDINALITY(uuids) - count) < 0) goto cleanup; ret = 0; cleanup: virHashFree(hash); return ret; } const int testSearchIndex = ARRAY_CARDINALITY(uuids_subset) / 2; static int testHashSearchIter(const void *payload ATTRIBUTE_UNUSED, const void *name, const void *data ATTRIBUTE_UNUSED) { return STREQ(uuids_subset[testSearchIndex], name); } static int testHashSearch(const void *data ATTRIBUTE_UNUSED) { virHashTablePtr hash; void *entry; int ret = -1; if (!(hash = testHashInit(0))) return -1; entry = virHashSearch(hash, testHashSearchIter, NULL); if (!entry || STRNEQ(uuids_subset[testSearchIndex], entry)) { if (virTestGetVerbose()) { testError("\nvirHashSearch didn't find entry '%s'\n", uuids_subset[testSearchIndex]); } goto cleanup; } if (testHashCheckCount(hash, ARRAY_CARDINALITY(uuids)) < 0) goto cleanup; ret = 0; cleanup: virHashFree(hash); return ret; } static int testHashGetItemsCompKey(const virHashKeyValuePairPtr a, const virHashKeyValuePairPtr b) { return strcmp(a->key, b->key); } static int testHashGetItemsCompValue(const virHashKeyValuePairPtr a, const virHashKeyValuePairPtr b) { return strcmp(a->value, b->value); } static int testHashGetItems(const void *data ATTRIBUTE_UNUSED) { virHashTablePtr hash; virHashKeyValuePairPtr array = NULL; int ret = -1; char keya[] = "a"; char keyb[] = "b"; char keyc[] = "c"; char value1[] = "1"; char value2[] = "2"; char value3[] = "3"; if (!(hash = virHashCreate(0, NULL)) || virHashAddEntry(hash, keya, value3) < 0 || virHashAddEntry(hash, keyc, value1) < 0 || virHashAddEntry(hash, keyb, value2) < 0) { if (virTestGetVerbose()) { testError("\nfailed to create hash"); } goto cleanup; } if (!(array = virHashGetItems(hash, NULL)) || array[3].key || array[3].value) { if (virTestGetVerbose()) { testError("\nfailed to get items with NULL sort"); } goto cleanup; } VIR_FREE(array); if (!(array = virHashGetItems(hash, testHashGetItemsCompKey)) || STRNEQ(array[0].key, "a") || STRNEQ(array[0].value, "3") || STRNEQ(array[1].key, "b") || STRNEQ(array[1].value, "2") || STRNEQ(array[2].key, "c") || STRNEQ(array[2].value, "1") || array[3].key || array[3].value) { if (virTestGetVerbose()) { testError("\nfailed to get items with key sort"); } goto cleanup; } VIR_FREE(array); if (!(array = virHashGetItems(hash, testHashGetItemsCompValue)) || STRNEQ(array[0].key, "c") || STRNEQ(array[0].value, "1") || STRNEQ(array[1].key, "b") || STRNEQ(array[1].value, "2") || STRNEQ(array[2].key, "a") || STRNEQ(array[2].value, "3") || array[3].key || array[3].value) { if (virTestGetVerbose()) { testError("\nfailed to get items with value sort"); } goto cleanup; } ret = 0; cleanup: VIR_FREE(array); virHashFree(hash); return ret; } static int testHashEqualCompValue(const void *value1, const void *value2) { return c_strcasecmp(value1, value2); } static int testHashEqual(const void *data ATTRIBUTE_UNUSED) { virHashTablePtr hash1, hash2 = NULL; int ret = -1; char keya[] = "a"; char keyb[] = "b"; char keyc[] = "c"; char value1_l[] = "m"; char value2_l[] = "n"; char value3_l[] = "o"; char value1_u[] = "M"; char value2_u[] = "N"; char value3_u[] = "O"; char value4_u[] = "P"; if (!(hash1 = virHashCreate(0, NULL)) || !(hash2 = virHashCreate(0, NULL)) || virHashAddEntry(hash1, keya, value1_l) < 0 || virHashAddEntry(hash1, keyb, value2_l) < 0 || virHashAddEntry(hash1, keyc, value3_l) < 0 || virHashAddEntry(hash2, keya, value1_u) < 0 || virHashAddEntry(hash2, keyb, value2_u) < 0) { if (virTestGetVerbose()) { testError("\nfailed to create hashes"); } goto cleanup; } if (virHashEqual(hash1, hash2, testHashEqualCompValue)) { if (virTestGetVerbose()) { testError("\nfailed equal test for different number of elements"); } goto cleanup; } if (virHashAddEntry(hash2, keyc, value4_u) < 0) { if (virTestGetVerbose()) { testError("\nfailed to add element to hash2"); } goto cleanup; } if (virHashEqual(hash1, hash2, testHashEqualCompValue)) { if (virTestGetVerbose()) { testError("\nfailed equal test for same number of elements"); } goto cleanup; } if (virHashUpdateEntry(hash2, keyc, value3_u) < 0) { if (virTestGetVerbose()) { testError("\nfailed to update element in hash2"); } goto cleanup; } if (!virHashEqual(hash1, hash2, testHashEqualCompValue)) { if (virTestGetVerbose()) { testError("\nfailed equal test for equal hash tables"); } goto cleanup; } ret = 0; cleanup: virHashFree(hash1); virHashFree(hash2); return ret; } static int mymain(void) { int ret = 0; #define DO_TEST_FULL(name, cmd, data, count) \ do { \ struct testInfo info = { data, count }; \ if (virtTestRun(name, 1, testHash ## cmd, &info) < 0) \ ret = -1; \ } while (0) #define DO_TEST_DATA(name, cmd, data) \ DO_TEST_FULL(name "(" #data ")", \ cmd, \ testHash ## cmd ## data, \ testHashCount ## cmd ## data) #define DO_TEST_COUNT(name, cmd, count) \ DO_TEST_FULL(name "(" #count ")", cmd, NULL, count) #define DO_TEST(name, cmd) \ DO_TEST_FULL(name, cmd, NULL, -1) DO_TEST_COUNT("Grow", Grow, 1); DO_TEST_COUNT("Grow", Grow, 10); DO_TEST_COUNT("Grow", Grow, 42); DO_TEST("Update", Update); DO_TEST("Remove", Remove); DO_TEST_DATA("Remove in ForEach", RemoveForEach, Some); DO_TEST_DATA("Remove in ForEach", RemoveForEach, All); DO_TEST_DATA("Remove in ForEach", RemoveForEach, Forbidden); DO_TEST("Steal", Steal); DO_TEST("Forbidden ops in ForEach", ForEach); DO_TEST("RemoveSet", RemoveSet); DO_TEST("Search", Search); DO_TEST("GetItems", GetItems); DO_TEST("Equal", Equal); return (ret == 0) ? EXIT_SUCCESS : EXIT_FAILURE; } VIRT_TEST_MAIN(mymain)