/*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) Daniel Stenberg, , et al. * * This software is licensed as described in the file COPYING, which * you should have received as part of this distribution. The terms * are also available at https://curl.se/docs/copyright.html. * * You may opt to use, copy, modify, merge, publish, distribute and/or sell * copies of the Software, and permit persons to whom the Software is * furnished to do so, under the terms of the COPYING file. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * * SPDX-License-Identifier: curl * ***************************************************************************/ #include "curlcheck.h" #define ENABLE_CURLX_PRINTF #include "curlx.h" #include "hash.h" #include "memdebug.h" /* LAST include file */ static struct Curl_hash hash_static; static const int slots = 3; static void mydtor(void *p) { /* Data are statically allocated */ (void)p; /* unused */ } static CURLcode unit_setup(void) { Curl_hash_init(&hash_static, slots, Curl_hash_str, Curl_str_key_compare, mydtor); return CURLE_OK; } static void unit_stop(void) { Curl_hash_destroy(&hash_static); } UNITTEST_START char key1[] = "key1"; char key2[] = "key2b"; char key3[] = "key3"; char key4[] = "key4"; char notakey[] = "notakey"; char *nodep; int rc; /* Ensure the key hashes are as expected in order to test both hash collisions and a full table. Unfortunately, the hashes can vary between architectures. */ if(Curl_hash_str(key1, strlen(key1), slots) != 1 || Curl_hash_str(key2, strlen(key2), slots) != 0 || Curl_hash_str(key3, strlen(key3), slots) != 2 || Curl_hash_str(key4, strlen(key4), slots) != 1) fprintf(stderr, "Warning: hashes are not computed as expected on this " "architecture; test coverage will be less comprehensive\n"); nodep = Curl_hash_add(&hash_static, &key1, strlen(key1), &key1); fail_unless(nodep, "insertion into hash failed"); nodep = Curl_hash_pick(&hash_static, &key1, strlen(key1)); fail_unless(nodep == key1, "hash retrieval failed"); nodep = Curl_hash_add(&hash_static, &key2, strlen(key2), &key2); fail_unless(nodep, "insertion into hash failed"); nodep = Curl_hash_pick(&hash_static, &key2, strlen(key2)); fail_unless(nodep == key2, "hash retrieval failed"); nodep = Curl_hash_add(&hash_static, &key3, strlen(key3), &key3); fail_unless(nodep, "insertion into hash failed"); nodep = Curl_hash_pick(&hash_static, &key3, strlen(key3)); fail_unless(nodep == key3, "hash retrieval failed"); /* The fourth element exceeds the number of slots & collides */ nodep = Curl_hash_add(&hash_static, &key4, strlen(key4), &key4); fail_unless(nodep, "insertion into hash failed"); nodep = Curl_hash_pick(&hash_static, &key4, strlen(key4)); fail_unless(nodep == key4, "hash retrieval failed"); /* Make sure all elements are still accessible */ nodep = Curl_hash_pick(&hash_static, &key1, strlen(key1)); fail_unless(nodep == key1, "hash retrieval failed"); nodep = Curl_hash_pick(&hash_static, &key2, strlen(key2)); fail_unless(nodep == key2, "hash retrieval failed"); nodep = Curl_hash_pick(&hash_static, &key3, strlen(key3)); fail_unless(nodep == key3, "hash retrieval failed"); nodep = Curl_hash_pick(&hash_static, &key4, strlen(key4)); fail_unless(nodep == key4, "hash retrieval failed"); /* Delete the second of two entries in a bucket */ rc = Curl_hash_delete(&hash_static, &key4, strlen(key4)); fail_unless(rc == 0, "hash delete failed"); nodep = Curl_hash_pick(&hash_static, &key1, strlen(key1)); fail_unless(nodep == key1, "hash retrieval failed"); nodep = Curl_hash_pick(&hash_static, &key4, strlen(key4)); fail_unless(!nodep, "hash retrieval should have failed"); /* Insert that deleted node again */ nodep = Curl_hash_add(&hash_static, &key4, strlen(key4), &key4); fail_unless(nodep, "insertion into hash failed"); nodep = Curl_hash_pick(&hash_static, &key4, strlen(key4)); fail_unless(nodep == key4, "hash retrieval failed"); /* Delete the first of two entries in a bucket */ rc = Curl_hash_delete(&hash_static, &key1, strlen(key1)); fail_unless(rc == 0, "hash delete failed"); nodep = Curl_hash_pick(&hash_static, &key1, strlen(key1)); fail_unless(!nodep, "hash retrieval should have failed"); nodep = Curl_hash_pick(&hash_static, &key4, strlen(key4)); fail_unless(nodep == key4, "hash retrieval failed"); /* Delete the remaining one of two entries in a bucket */ rc = Curl_hash_delete(&hash_static, &key4, strlen(key4)); fail_unless(rc == 0, "hash delete failed"); nodep = Curl_hash_pick(&hash_static, &key1, strlen(key1)); fail_unless(!nodep, "hash retrieval should have failed"); nodep = Curl_hash_pick(&hash_static, &key4, strlen(key4)); fail_unless(!nodep, "hash retrieval should have failed"); /* Delete an already deleted node */ rc = Curl_hash_delete(&hash_static, &key4, strlen(key4)); fail_unless(rc, "hash delete should have failed"); /* Replace an existing node */ nodep = Curl_hash_add(&hash_static, &key1, strlen(key1), ¬akey); fail_unless(nodep, "insertion into hash failed"); nodep = Curl_hash_pick(&hash_static, &key1, strlen(key1)); fail_unless(nodep == notakey, "hash retrieval failed"); /* Make sure all remaining elements are still accessible */ nodep = Curl_hash_pick(&hash_static, &key2, strlen(key2)); fail_unless(nodep == key2, "hash retrieval failed"); nodep = Curl_hash_pick(&hash_static, &key3, strlen(key3)); fail_unless(nodep == key3, "hash retrieval failed"); /* Clean up */ Curl_hash_clean(&hash_static); UNITTEST_STOP