/* * nghttp2 - HTTP/2 C Library * * Copyright (c) 2013 Tatsuhiro Tsujikawa * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "http2_test.h" #include #include #include #include #include "http-parser/http_parser.h" #include "http2.h" #include "util.h" using namespace nghttp2; #define MAKE_NV(K, V) {(uint8_t*)K, (uint8_t*)V, \ sizeof(K) - 1, sizeof(V) - 1, \ NGHTTP2_NV_FLAG_NONE} namespace shrpx { namespace { void check_nv(const Header& a, const nghttp2_nv *b) { CU_ASSERT(a.name.size() == b->namelen); CU_ASSERT(a.value.size() == b->valuelen); CU_ASSERT(memcmp(a.name.c_str(), b->name, b->namelen) == 0); CU_ASSERT(memcmp(a.value.c_str(), b->value, b->valuelen) == 0); } } // namespace void test_http2_sort_nva(void) { // Last 0 is stripped in MAKE_NV const uint8_t concatval[] = { '4', 0x00, 0x00, '6', 0x00, '5', 0x00 }; nghttp2_nv nv[] = {MAKE_NV("alpha", "1"), MAKE_NV("charlie", "3"), MAKE_NV("bravo", "2"), MAKE_NV("delta", concatval)}; auto nvlen = sizeof(nv)/sizeof(nv[0]); auto nva = http2::sort_nva(nv, nvlen); CU_ASSERT(6 == nva.size()); check_nv({"alpha", "1"}, &nva[0]); check_nv({"bravo", "2"}, &nva[1]); check_nv({"charlie", "3"}, &nva[2]); check_nv({"delta", "4"}, &nva[3]); check_nv({"delta", "6"}, &nva[4]); check_nv({"delta", "5"}, &nva[5]); } void test_http2_split_add_header(void) { const uint8_t concatval[] = { '4', 0x00, 0x00, '6', 0x00, '5', '9', 0x00 }; auto nva = Headers(); http2::split_add_header(nva, (const uint8_t*)"delta", 5, concatval, sizeof(concatval), false); CU_ASSERT(Headers::value_type("delta", "4") == nva[0]); CU_ASSERT(Headers::value_type("delta", "6") == nva[1]); CU_ASSERT(Headers::value_type("delta", "59") == nva[2]); nva.clear(); http2::split_add_header(nva, (const uint8_t*)"alpha", 5, (const uint8_t*)"123", 3, false); CU_ASSERT(Headers::value_type("alpha", "123") == nva[0]); CU_ASSERT(!nva[0].no_index); nva.clear(); http2::split_add_header(nva, (const uint8_t*)"alpha", 5, (const uint8_t*)"", 0, true); CU_ASSERT(Headers::value_type("alpha", "") == nva[0]); CU_ASSERT(nva[0].no_index); } void test_http2_check_http2_headers(void) { auto nva1 = Headers{ { "alpha", "1" }, { "bravo", "2" }, { "upgrade", "http2" } }; CU_ASSERT(!http2::check_http2_headers(nva1)); auto nva2 = Headers{ { "connection", "1" }, { "delta", "2" }, { "echo", "3" } }; CU_ASSERT(!http2::check_http2_headers(nva2)); auto nva3 = Headers{ { "alpha", "1" }, { "bravo", "2" }, { "te2", "3" } }; CU_ASSERT(http2::check_http2_headers(nva3)); } void test_http2_get_unique_header(void) { auto nva = Headers{ { "alpha", "1" }, { "bravo", "2" }, { "bravo", "3" }, { "charlie", "4" }, { "delta", "5" }, { "echo", "6" } }; const Headers::value_type *rv; rv = http2::get_unique_header(nva, "delta"); CU_ASSERT(rv != nullptr); CU_ASSERT("delta" == rv->name); rv = http2::get_unique_header(nva, "bravo"); CU_ASSERT(rv == nullptr); rv = http2::get_unique_header(nva, "foxtrot"); CU_ASSERT(rv == nullptr); } void test_http2_get_header(void) { auto nva = Headers{ { "alpha", "1" }, { "bravo", "2" }, { "bravo", "3" }, { "charlie", "4" }, { "delta", "5" }, { "echo", "6" } }; const Headers::value_type *rv; rv = http2::get_header(nva, "delta"); CU_ASSERT(rv != nullptr); CU_ASSERT("delta" == rv->name); rv = http2::get_header(nva, "bravo"); CU_ASSERT(rv != nullptr); CU_ASSERT("bravo" == rv->name); rv = http2::get_header(nva, "foxtrot"); CU_ASSERT(rv == nullptr); } void test_http2_value_lws(void) { auto nva = Headers{ { "0", "alpha" }, { "1", " alpha" }, { "2", "" }, {" 3", " " }, {" 4", " a "} }; CU_ASSERT(!http2::value_lws(&nva[0])); CU_ASSERT(!http2::value_lws(&nva[1])); CU_ASSERT(http2::value_lws(&nva[2])); CU_ASSERT(http2::value_lws(&nva[3])); CU_ASSERT(!http2::value_lws(&nva[4])); } namespace { auto headers = Headers {{"alpha", "0", true}, {"bravo", "1"}, {"connection", "2"}, {"connection", "3"}, {"delta", "4"}, {"expect", "5"}, {"foxtrot", "6"}, {"tango", "7"}, {"te", "8"}, {"te", "9"}, {"x-forwarded-proto", "10"}, {"x-forwarded-proto", "11"}, {"zulu", "12"}}; } // namespace void test_http2_concat_norm_headers(void) { auto hds = headers; hds.emplace_back("cookie", "foo"); hds.emplace_back("cookie", "bar"); hds.emplace_back("set-cookie", "baz"); hds.emplace_back("set-cookie", "buzz"); auto res = http2::concat_norm_headers(hds); CU_ASSERT(14 == res.size()); CU_ASSERT(std::string("2") + '\0' + std::string("3") == res[2].value); } void test_http2_copy_norm_headers_to_nva(void) { std::vector nva; http2::copy_norm_headers_to_nva(nva, headers); CU_ASSERT(6 == nva.size()); auto ans = std::vector{0, 1, 4, 6, 7, 12}; for(size_t i = 0; i < ans.size(); ++i) { check_nv(headers[ans[i]], &nva[i]); if(ans[i] == 0) { CU_ASSERT(nva[i].flags & NGHTTP2_NV_FLAG_NO_INDEX); } else { CU_ASSERT(NGHTTP2_NV_FLAG_NONE == nva[i].flags); } } } void test_http2_build_http1_headers_from_norm_headers(void) { std::string hdrs; http2::build_http1_headers_from_norm_headers(hdrs, headers); CU_ASSERT(hdrs == "Alpha: 0\r\n" "Bravo: 1\r\n" "Delta: 4\r\n" "Foxtrot: 6\r\n" "Tango: 7\r\n" "Te: 8\r\n" "Te: 9\r\n" "Zulu: 12\r\n"); hdrs.clear(); // Both nghttp2 and spdylay do not allow \r and \n in header value // now. // auto hd2 = std::vector> // {{"alpha", "bravo\r\ncharlie\r\n"}}; // http2::build_http1_headers_from_norm_headers(hdrs, hd2); // CU_ASSERT(hdrs == "Alpha: bravo charlie \r\n"); } void test_http2_lws(void) { CU_ASSERT(!http2::lws("alpha")); CU_ASSERT(http2::lws(" ")); CU_ASSERT(http2::lws("")); } namespace { void check_rewrite_location_uri(const std::string& new_uri, const std::string& uri, const std::string& req_host, const std::string& upstream_scheme, uint16_t upstream_port) { http_parser_url u; memset(&u, 0, sizeof(u)); CU_ASSERT(0 == http_parser_parse_url(uri.c_str(), uri.size(), 0, &u)); CU_ASSERT(new_uri == http2::rewrite_location_uri(uri, u, req_host, upstream_scheme, upstream_port)); } } // namespace void test_http2_rewrite_location_uri(void) { check_rewrite_location_uri("https://localhost:3000/alpha?bravo#charlie", "http://localhost:3001/alpha?bravo#charlie", "localhost:3001", "https", 3000); check_rewrite_location_uri("https://localhost/", "http://localhost:3001/", "localhost:3001", "https", 443); check_rewrite_location_uri("http://localhost/", "http://localhost:3001/", "localhost:3001", "http", 80); check_rewrite_location_uri("http://localhost:443/", "http://localhost:3001/", "localhost:3001", "http", 443); check_rewrite_location_uri("https://localhost:80/", "http://localhost:3001/", "localhost:3001", "https", 80); check_rewrite_location_uri("", "http://localhost:3001/", "127.0.0.1", "https", 3000); check_rewrite_location_uri("https://localhost:3000/", "http://localhost:3001/", "localhost", "https", 3000); check_rewrite_location_uri("", "https://localhost:3001/", "localhost", "https", 3000); check_rewrite_location_uri("https://localhost:3000/", "http://localhost/", "localhost", "https", 3000); } } // namespace shrpx