#include "private.h" // For NTDB_TOPLEVEL_HASH_BITS #include #include #include #include #include "ntdb.h" #include "tap-interface.h" #include "logging.h" /* We rig the hash so adjacent-numbered records always clash. */ static uint32_t clash(const void *key, size_t len, uint32_t seed, void *priv) { return *((const unsigned int *)key) / 2; } /* We use the same seed which we saw a failure on. */ static uint32_t fixedhash(const void *key, size_t len, uint32_t seed, void *p) { return hash64_stable((const unsigned char *)key, len, *(uint64_t *)p); } static bool store_records(struct ntdb_context *ntdb) { int i; NTDB_DATA key = { (unsigned char *)&i, sizeof(i) }; NTDB_DATA d, data = { (unsigned char *)&i, sizeof(i) }; for (i = 0; i < 1000; i++) { if (ntdb_store(ntdb, key, data, NTDB_REPLACE) != 0) return false; ntdb_fetch(ntdb, key, &d); if (!ntdb_deq(d, data)) return false; free(d.dptr); } return true; } static void test_val(struct ntdb_context *ntdb, uint64_t val) { uint64_t v; NTDB_DATA key = { (unsigned char *)&v, sizeof(v) }; NTDB_DATA d, data = { (unsigned char *)&v, sizeof(v) }; /* Insert an entry, then delete it. */ v = val; /* Delete should fail. */ ok1(ntdb_delete(ntdb, key) == NTDB_ERR_NOEXIST); ok1(ntdb_check(ntdb, NULL, NULL) == 0); /* Insert should succeed. */ ok1(ntdb_store(ntdb, key, data, NTDB_INSERT) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); /* Delete should succeed. */ ok1(ntdb_delete(ntdb, key) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); /* Re-add it, then add collision. */ ok1(ntdb_store(ntdb, key, data, NTDB_INSERT) == 0); v = val + 1; ok1(ntdb_store(ntdb, key, data, NTDB_INSERT) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); /* Can find both? */ ok1(ntdb_fetch(ntdb, key, &d) == NTDB_SUCCESS); ok1(d.dsize == data.dsize); free(d.dptr); v = val; ok1(ntdb_fetch(ntdb, key, &d) == NTDB_SUCCESS); ok1(d.dsize == data.dsize); free(d.dptr); /* Delete second one. */ v = val + 1; ok1(ntdb_delete(ntdb, key) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); /* Re-add */ ok1(ntdb_store(ntdb, key, data, NTDB_INSERT) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); /* Now, try deleting first one. */ v = val; ok1(ntdb_delete(ntdb, key) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); /* Can still find second? */ v = val + 1; ok1(ntdb_fetch(ntdb, key, &d) == NTDB_SUCCESS); ok1(d.dsize == data.dsize); free(d.dptr); /* Now, this will be ideally placed. */ v = val + 2; ok1(ntdb_store(ntdb, key, data, NTDB_INSERT) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); /* This will collide with both. */ v = val; ok1(ntdb_store(ntdb, key, data, NTDB_INSERT) == 0); /* We can still find them all, right? */ ok1(ntdb_fetch(ntdb, key, &d) == NTDB_SUCCESS); ok1(d.dsize == data.dsize); free(d.dptr); v = val + 1; ok1(ntdb_fetch(ntdb, key, &d) == NTDB_SUCCESS); ok1(d.dsize == data.dsize); free(d.dptr); v = val + 2; ok1(ntdb_fetch(ntdb, key, &d) == NTDB_SUCCESS); ok1(d.dsize == data.dsize); free(d.dptr); /* And if we delete val + 1, that val + 2 should not move! */ v = val + 1; ok1(ntdb_delete(ntdb, key) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); v = val; ok1(ntdb_fetch(ntdb, key, &d) == NTDB_SUCCESS); ok1(d.dsize == data.dsize); free(d.dptr); v = val + 2; ok1(ntdb_fetch(ntdb, key, &d) == NTDB_SUCCESS); ok1(d.dsize == data.dsize); free(d.dptr); /* Delete those two, so we are empty. */ ok1(ntdb_delete(ntdb, key) == 0); v = val; ok1(ntdb_delete(ntdb, key) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); } int main(int argc, char *argv[]) { unsigned int i, j; struct ntdb_context *ntdb; uint64_t seed = 16014841315512641303ULL; union ntdb_attribute clash_hattr = { .hash = { .base = { NTDB_ATTRIBUTE_HASH }, .fn = clash } }; union ntdb_attribute fixed_hattr = { .hash = { .base = { NTDB_ATTRIBUTE_HASH }, .fn = fixedhash, .data = &seed } }; int flags[] = { NTDB_INTERNAL, NTDB_DEFAULT, NTDB_NOMMAP, NTDB_INTERNAL|NTDB_CONVERT, NTDB_CONVERT, NTDB_NOMMAP|NTDB_CONVERT }; /* These two values gave trouble before. */ int vals[] = { 755, 837 }; clash_hattr.base.next = &tap_log_attr; fixed_hattr.base.next = &tap_log_attr; plan_tests(sizeof(flags) / sizeof(flags[0]) * (39 * 3 + 5 + sizeof(vals)/sizeof(vals[0])*2) + 1); for (i = 0; i < sizeof(flags) / sizeof(flags[0]); i++) { ntdb = ntdb_open("run-13-delete.ntdb", flags[i]|MAYBE_NOSYNC, O_RDWR|O_CREAT|O_TRUNC, 0600, &clash_hattr); ok1(ntdb); if (!ntdb) continue; /* Check start of hash table. */ test_val(ntdb, 0); /* Check end of hash table. */ test_val(ntdb, -1ULL); /* Check mixed bitpattern. */ test_val(ntdb, 0x123456789ABCDEF0ULL); ok1(!ntdb->file || (ntdb->file->allrecord_lock.count == 0 && ntdb->file->num_lockrecs == 0)); ntdb_close(ntdb); /* Deleting these entries in the db gave problems. */ ntdb = ntdb_open("run-13-delete.ntdb", flags[i]|MAYBE_NOSYNC, O_RDWR|O_CREAT|O_TRUNC, 0600, &fixed_hattr); ok1(ntdb); if (!ntdb) continue; ok1(store_records(ntdb)); ok1(ntdb_check(ntdb, NULL, NULL) == 0); for (j = 0; j < sizeof(vals)/sizeof(vals[0]); j++) { NTDB_DATA key; key.dptr = (unsigned char *)&vals[j]; key.dsize = sizeof(vals[j]); ok1(ntdb_delete(ntdb, key) == 0); ok1(ntdb_check(ntdb, NULL, NULL) == 0); } ntdb_close(ntdb); } ok1(tap_log_messages == 0); return exit_status(); }