/* * uriparser - RFC 3986 URI parsing library * * Copyright (C) 2025, Sebastian Pipping * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include namespace { static void testIsWellFormedHostIpFuture(const char * candidate, bool expectedWellFormed) { const char * const first = candidate; const char * const afterLast = (candidate == NULL) ? NULL : (candidate + strlen(candidate)); const UriBool actualWellFormed = (uriIsWellFormedHostIpFutureA(first, afterLast) == URI_SUCCESS) ? URI_TRUE : URI_FALSE; ASSERT_EQ(actualWellFormed, expectedWellFormed); } static UriUriA parseWellFormedUri(const char * text) { UriUriA uri; const int error = uriParseSingleUriA(&uri, text, NULL); // NOTE: we cannot use ASSERT_EQ here because of the outer non-void return type assert(error == URI_SUCCESS); return uri; } static void assertUriEqual(const UriUriA * uri, const char * expected) { int charsRequired = -1; ASSERT_EQ(uriToStringCharsRequiredA(uri, &charsRequired), URI_SUCCESS); ASSERT_TRUE(charsRequired >= 0); char * const buffer = (char *)malloc(charsRequired + 1); ASSERT_TRUE(buffer != NULL); ASSERT_EQ(uriToStringA(buffer, uri, charsRequired + 1, NULL), URI_SUCCESS); EXPECT_STREQ(buffer, expected); free(buffer); } static void assertIpFutureMatchHostText(const UriUriA * uri) { ASSERT_TRUE(uri != NULL); EXPECT_TRUE(uri->hostText.first != NULL); EXPECT_TRUE(uri->hostText.afterLast != NULL); EXPECT_EQ(uri->hostText.first, uri->hostData.ipFuture.first); EXPECT_EQ(uri->hostText.afterLast, uri->hostData.ipFuture.afterLast); } } // namespace TEST(IsWellFormedHostIpFuture, Null) { testIsWellFormedHostIpFuture(NULL, false); } TEST(IsWellFormedHostIpFuture, Empty) { testIsWellFormedHostIpFuture("", false); } TEST(IsWellFormedHostIpFuture, Ip6) { testIsWellFormedHostIpFuture("abcd:ef01:2345:6789:abcd:ef01:2345:6789", false); } TEST(IsWellFormedHostIpFuture, Lowercase) { testIsWellFormedHostIpFuture("v7.host", true); } TEST(IsWellFormedHostIpFuture, Uppercase) { testIsWellFormedHostIpFuture("V7.HOST", true); } TEST(SetHostIpFuture, NullUriOnly) { UriUriA * const uri = NULL; const char * const first = "v7.host"; const char * const afterLast = first + strlen(first); ASSERT_EQ(uriSetHostIpFutureA(uri, first, afterLast), URI_ERROR_NULL); } TEST(SetHostIpFuture, NullFirstOnly) { UriUriA uri = {}; const char * const host = "v7.host"; const char * const first = NULL; const char * const afterLast = host + strlen(host); ASSERT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_ERROR_NULL); } TEST(SetHostIpFuture, NullAfterLastOnly) { UriUriA uri = {}; const char * const first = "v7.host"; const char * const afterLast = NULL; ASSERT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_ERROR_NULL); } TEST(SetHostIpFuture, NullValueLeavesOwnerAtFalse) { UriUriA uri = parseWellFormedUri("scheme://host/"); EXPECT_EQ(uri.owner, URI_FALSE); // self-test EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_SUCCESS); EXPECT_EQ(uri.owner, URI_FALSE); // i.e. still false uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NonNullValueMakesOwner) { UriUriA uri = parseWellFormedUri("scheme://old/"); const char * const first = "v7.host"; const char * const afterLast = first + strlen(first); EXPECT_EQ(uri.owner, URI_FALSE); // self-test EXPECT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_SUCCESS); EXPECT_EQ(uri.owner, URI_TRUE); // i.e. now owned uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NullValueAppliedDotInserted) { UriUriA uri = parseWellFormedUri("scheme://host//path1/path2"); EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_SUCCESS); assertUriEqual(&uri, "scheme:/.//path1/path2"); // i.e. not scheme://path1/path2 uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NullValueAppliedDotNotInserted) { UriUriA uri = parseWellFormedUri("//host/./path1/path2"); EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_SUCCESS); assertUriEqual(&uri, "/./path1/path2"); // i.e. not /././path1/path2 uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NullValueAppliedPriorNull) { UriUriA uri = parseWellFormedUri("scheme:/path"); EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_SUCCESS); assertUriEqual(&uri, "scheme:/path"); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NullValueAppliedPriorIp4) { UriUriA uri = parseWellFormedUri("scheme://1.2.3.4/path"); EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_SUCCESS); assertUriEqual(&uri, "scheme:/path"); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NullValueAppliedPriorIp6) { UriUriA uri = parseWellFormedUri("scheme://[::1]/path"); EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_SUCCESS); assertUriEqual(&uri, "scheme:/path"); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NullValueAppliedPriorIpFuture) { UriUriA uri = parseWellFormedUri("scheme://[v7.host]/path"); EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_SUCCESS); assertUriEqual(&uri, "scheme:/path"); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NullValueAppliedPriorRegName) { UriUriA uri = parseWellFormedUri("scheme://host/path"); EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_SUCCESS); assertUriEqual(&uri, "scheme:/path"); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NonNullValueAppliedNonEmptyPriorNull) { UriUriA uri = parseWellFormedUri("scheme:"); const char * const first = "v7.host"; const char * const afterLast = first + strlen(first); EXPECT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_SUCCESS); assertUriEqual(&uri, "scheme://[v7.host]"); assertIpFutureMatchHostText(&uri); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NonNullValueAppliedNonEmptyPriorIp4) { UriUriA uri = parseWellFormedUri("//1.2.3.4"); const char * const first = "v7.host"; const char * const afterLast = first + strlen(first); EXPECT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_SUCCESS); assertUriEqual(&uri, "//[v7.host]"); assertIpFutureMatchHostText(&uri); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NonNullValueAppliedNonEmptyPriorIp6) { UriUriA uri = parseWellFormedUri("//[::1]"); const char * const first = "v7.host"; const char * const afterLast = first + strlen(first); EXPECT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_SUCCESS); assertUriEqual(&uri, "//[v7.host]"); assertIpFutureMatchHostText(&uri); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NonNullValueAppliedNonEmptyPriorIpFuture) { UriUriA uri = parseWellFormedUri("//[v7.old]"); const char * const first = "v7.new"; const char * const afterLast = first + strlen(first); EXPECT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_SUCCESS); assertUriEqual(&uri, "//[v7.new]"); assertIpFutureMatchHostText(&uri); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, NonNullValueAppliedNonEmptyPriorRegName) { UriUriA uri = parseWellFormedUri("//hostname.test"); const char * const first = "v7.host"; const char * const afterLast = first + strlen(first); EXPECT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_SUCCESS); assertUriEqual(&uri, "//[v7.host]"); assertIpFutureMatchHostText(&uri); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, MalformedValueRejected) { UriUriA uri = parseWellFormedUri("scheme://host/"); const char * const first = "not well-formed"; const char * const afterLast = first + strlen(first); EXPECT_EQ(uriSetHostIpFutureA(&uri, first, afterLast), URI_ERROR_SYNTAX); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, UriWithPortRejected) { UriUriA uri = parseWellFormedUri("//host:1234"); EXPECT_TRUE(uri.portText.first != NULL); // self-test EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_ERROR_SETHOST_PORT_SET); uriFreeUriMembersA(&uri); } TEST(SetHostIpFuture, UriWithUserInfoRejected) { UriUriA uri = parseWellFormedUri("//user:password@host"); EXPECT_TRUE(uri.userInfo.first != NULL); // self-test EXPECT_EQ(uriSetHostIpFutureA(&uri, NULL, NULL), URI_ERROR_SETHOST_USERINFO_SET); uriFreeUriMembersA(&uri); }