/* * 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_add_header(void) { auto nva = Headers(); http2::add_header(nva, (const uint8_t *)"alpha", 5, (const uint8_t *)"123", 3, false, -1); CU_ASSERT(Headers::value_type("alpha", "123") == nva[0]); CU_ASSERT(!nva[0].no_index); nva.clear(); http2::add_header(nva, (const uint8_t *)"alpha", 5, (const uint8_t *)"", 0, true, -1); CU_ASSERT(Headers::value_type("alpha", "") == nva[0]); CU_ASSERT(nva[0].no_index); nva.clear(); http2::add_header(nva, (const uint8_t *)"a", 1, (const uint8_t *)" b", 2, false, -1); CU_ASSERT(Headers::value_type("a", "b") == nva[0]); nva.clear(); http2::add_header(nva, (const uint8_t *)"a", 1, (const uint8_t *)"b ", 2, false, -1); CU_ASSERT(Headers::value_type("a", "b") == nva[0]); nva.clear(); http2::add_header(nva, (const uint8_t *)"a", 1, (const uint8_t *)" b ", 5, false, -1); CU_ASSERT(Headers::value_type("a", "b") == nva[0]); nva.clear(); http2::add_header(nva, (const uint8_t *)"a", 1, (const uint8_t *)" bravo ", 9, false, -1); CU_ASSERT(Headers::value_type("a", "bravo") == nva[0]); nva.clear(); http2::add_header(nva, (const uint8_t *)"a", 1, (const uint8_t *)" ", 4, false, -1); CU_ASSERT(Headers::value_type("a", "") == nva[0]); nva.clear(); http2::add_header(nva, (const uint8_t *)"te", 2, (const uint8_t *)"trailers", 8, false, http2::HD_TE); CU_ASSERT(http2::HD_TE == nva[0].token); } void test_http2_get_header(void) { auto nva = Headers{{"alpha", "1"}, {"bravo", "2"}, {"bravo", "3"}, {"charlie", "4"}, {"delta", "5"}, {"echo", "6"}, {"content-length", "7"}}; 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); http2::HeaderIndex hdidx; http2::init_hdidx(hdidx); hdidx[http2::HD_CONTENT_LENGTH] = 6; rv = http2::get_header(hdidx, http2::HD_CONTENT_LENGTH, nva); CU_ASSERT("content-length" == rv->name); } namespace { auto headers = Headers{{"alpha", "0", true}, {"bravo", "1"}, {"connection", "2", false, http2::HD_CONNECTION}, {"connection", "3", false, http2::HD_CONNECTION}, {"delta", "4"}, {"expect", "5"}, {"foxtrot", "6"}, {"tango", "7"}, {"te", "8", false, http2::HD_TE}, {"te", "9", false, http2::HD_TE}, {"x-forwarded-proto", "10", false, http2::HD_X_FORWARDED_FOR}, {"x-forwarded-proto", "11", false, http2::HD_X_FORWARDED_FOR}, {"zulu", "12"}}; } // namespace void test_http2_copy_headers_to_nva(void) { std::vector nva; http2::copy_headers_to_nva(nva, headers); CU_ASSERT(9 == nva.size()); auto ans = std::vector{0, 1, 4, 5, 6, 7, 8, 9, 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_headers(void) { std::string hdrs; http2::build_http1_headers_from_headers(hdrs, headers); CU_ASSERT(hdrs == "Alpha: 0\r\n" "Bravo: 1\r\n" "Delta: 4\r\n" "Expect: 5\r\n" "Foxtrot: 6\r\n" "Tango: 7\r\n" "Te: 8\r\n" "Te: 9\r\n" "Zulu: 12\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 &want, const std::string &uri, const std::string &match_host, const std::string &req_authority, const std::string &upstream_scheme) { http_parser_url u; memset(&u, 0, sizeof(u)); CU_ASSERT(0 == http_parser_parse_url(uri.c_str(), uri.size(), 0, &u)); auto got = http2::rewrite_location_uri(uri, u, match_host, req_authority, upstream_scheme); CU_ASSERT(want == got); } } // 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", "localhost:3000", "https"); check_rewrite_location_uri("https://localhost/", "http://localhost:3001/", "localhost", "localhost", "https"); check_rewrite_location_uri("http://localhost/", "http://localhost:3001/", "localhost", "localhost", "http"); check_rewrite_location_uri("http://localhost:443/", "http://localhost:3001/", "localhost", "localhost:443", "http"); check_rewrite_location_uri("https://localhost:80/", "http://localhost:3001/", "localhost", "localhost:80", "https"); check_rewrite_location_uri("", "http://localhost:3001/", "127.0.0.1", "127.0.0.1", "https"); check_rewrite_location_uri("https://localhost:3000/", "http://localhost:3001/", "localhost", "localhost:3000", "https"); check_rewrite_location_uri("https://localhost:3000/", "http://localhost/", "localhost", "localhost:3000", "https"); // match_host != req_authority check_rewrite_location_uri("https://example.org", "http://127.0.0.1:8080", "127.0.0.1", "example.org", "https"); check_rewrite_location_uri("", "http://example.org", "127.0.0.1", "example.org", "https"); } void test_http2_parse_http_status_code(void) { CU_ASSERT(200 == http2::parse_http_status_code("200")); CU_ASSERT(102 == http2::parse_http_status_code("102")); CU_ASSERT(-1 == http2::parse_http_status_code("099")); CU_ASSERT(-1 == http2::parse_http_status_code("99")); CU_ASSERT(-1 == http2::parse_http_status_code("-1")); CU_ASSERT(-1 == http2::parse_http_status_code("20a")); CU_ASSERT(-1 == http2::parse_http_status_code("")); } void test_http2_index_header(void) { http2::HeaderIndex hdidx; http2::init_hdidx(hdidx); http2::index_header(hdidx, http2::HD__AUTHORITY, 0); http2::index_header(hdidx, -1, 1); CU_ASSERT(0 == hdidx[http2::HD__AUTHORITY]); } void test_http2_lookup_token(void) { CU_ASSERT(http2::HD__AUTHORITY == http2::lookup_token(":authority")); CU_ASSERT(-1 == http2::lookup_token(":authorit")); CU_ASSERT(-1 == http2::lookup_token(":Authority")); CU_ASSERT(http2::HD_EXPECT == http2::lookup_token("expect")); } void test_http2_check_http2_pseudo_header(void) { http2::HeaderIndex hdidx; http2::init_hdidx(hdidx); CU_ASSERT(http2::check_http2_request_pseudo_header(hdidx, http2::HD__METHOD)); hdidx[http2::HD__PATH] = 0; CU_ASSERT(http2::check_http2_request_pseudo_header(hdidx, http2::HD__METHOD)); hdidx[http2::HD__METHOD] = 1; CU_ASSERT( !http2::check_http2_request_pseudo_header(hdidx, http2::HD__METHOD)); CU_ASSERT(!http2::check_http2_request_pseudo_header(hdidx, http2::HD_VIA)); http2::init_hdidx(hdidx); CU_ASSERT( http2::check_http2_response_pseudo_header(hdidx, http2::HD__STATUS)); hdidx[http2::HD__STATUS] = 0; CU_ASSERT( !http2::check_http2_response_pseudo_header(hdidx, http2::HD__STATUS)); CU_ASSERT(!http2::check_http2_response_pseudo_header(hdidx, http2::HD_VIA)); } void test_http2_http2_header_allowed(void) { CU_ASSERT(http2::http2_header_allowed(http2::HD__PATH)); CU_ASSERT(http2::http2_header_allowed(http2::HD_CONTENT_LENGTH)); CU_ASSERT(!http2::http2_header_allowed(http2::HD_CONNECTION)); } void test_http2_mandatory_request_headers_presence(void) { http2::HeaderIndex hdidx; http2::init_hdidx(hdidx); CU_ASSERT(!http2::http2_mandatory_request_headers_presence(hdidx)); hdidx[http2::HD__AUTHORITY] = 0; CU_ASSERT(!http2::http2_mandatory_request_headers_presence(hdidx)); hdidx[http2::HD__METHOD] = 1; CU_ASSERT(!http2::http2_mandatory_request_headers_presence(hdidx)); hdidx[http2::HD__PATH] = 2; CU_ASSERT(!http2::http2_mandatory_request_headers_presence(hdidx)); hdidx[http2::HD__SCHEME] = 3; CU_ASSERT(http2::http2_mandatory_request_headers_presence(hdidx)); hdidx[http2::HD__AUTHORITY] = -1; hdidx[http2::HD_HOST] = 0; CU_ASSERT(http2::http2_mandatory_request_headers_presence(hdidx)); } void test_http2_parse_link_header(void) { { // only URI appears; we don't extract URI unless it bears rel=preload const char s[] = ""; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // URI url should be extracted const char s[] = "; rel=preload"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // With extra link-param. URI url should be extracted const char s[] = "; rel=preload; as=file"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // With extra link-param. URI url should be extracted const char s[] = "; as=file; rel=preload"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // With extra link-param and quote-string. URI url should be // extracted const char s[] = R"(; rel=preload; title="foo,bar")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // With extra link-param and quote-string. URI url should be // extracted const char s[] = R"(; title="foo,bar"; rel=preload)"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // ',' after quote-string const char s[] = R"(; title="foo,bar", ; rel=preload)"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[25], &s[28]) == res[0].uri); } { // Only first URI should be extracted. const char s[] = "; rel=preload, "; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // Both have rel=preload, so both urls should be extracted const char s[] = "; rel=preload, ; rel=preload"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(2 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); CU_ASSERT(std::make_pair(&s[21], &s[24]) == res[1].uri); } { // Second URI uri should be extracted. const char s[] = ", ;rel=preload"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[8], &s[11]) == res[0].uri); } { // Error if input ends with ';' const char s[] = ";rel=preload;"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // OK if input ends with ',' const char s[] = ";rel=preload,"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // Multiple repeated ','s between fields is OK const char s[] = ",,,;rel=preload"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[9], &s[12]) == res[0].uri); } { // Error if url is not enclosed by <> const char s[] = "url>;rel=preload;"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // Error if url is not enclosed by <> const char s[] = "' is not followed by ';' const char s[] = " rel=preload"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // Starting with whitespace is no problem. const char s[] = " ; rel=preload"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[3], &s[6]) == res[0].uri); } { // preload is a prefix of bogus rel parameter value const char s[] = "; rel=preloadx"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // preload in relation-types list const char s[] = R"(; rel="preload")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // preload in relation-types list followed by another parameter const char s[] = R"(; rel="preload foo")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // preload in relation-types list following another parameter const char s[] = R"(; rel="foo preload")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // preload in relation-types list between other parameters const char s[] = R"(; rel="foo preload bar")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // preload in relation-types list between other parameters const char s[] = R"(; rel="foo preload bar")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // no preload in relation-types list const char s[] = R"(; rel="foo")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // no preload in relation-types list, multiple unrelated elements. const char s[] = R"(; rel="foo bar")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // preload in relation-types list, followed by another link-value. const char s[] = R"(; rel="preload", )"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // preload in relation-types list, following another link-value. const char s[] = R"(, ; rel="preload")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[8], &s[11]) == res[0].uri); } { // preload in relation-types list, followed by another link-param. const char s[] = R"(; rel="preload"; as="font")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // preload in relation-types list, followed by character other // than ';' or ',' const char s[] = R"(; rel="preload".)"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // preload in relation-types list, followed by ';' but it // terminates input const char s[] = R"(; rel="preload";)"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // preload in relation-types list, followed by ',' but it // terminates input const char s[] = R"(; rel="preload",)"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // preload in relation-types list but there is preceding white // space. const char s[] = R"(; rel=" preload")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // preload in relation-types list but there is trailing white // space. const char s[] = R"(; rel="preload ")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // backslash escaped characters in quoted-string const char s[] = R"(; rel=preload; title="foo\"baz\"bar")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // anchor="" is acceptable const char s[] = R"(; rel=preload; anchor="")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[1], &s[4]) == res[0].uri); } { // With anchor="#foo", url should be ignored const char s[] = R"(; rel=preload; anchor="#foo")"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // With anchor=f, url should be ignored const char s[] = "; rel=preload; anchor=f"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(0 == res.size()); } { // First url is ignored With anchor="#foo", but url should be // accepted. const char s[] = R"(; rel=preload; anchor="#foo", ; rel=preload)"; auto res = http2::parse_link_header(s, sizeof(s) - 1); CU_ASSERT(1 == res.size()); CU_ASSERT(std::make_pair(&s[36], &s[39]) == res[0].uri); } } void test_http2_path_join(void) { { const char base[] = "/"; const char rel[] = "/"; CU_ASSERT("/" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { const char base[] = "/"; const char rel[] = "/alpha"; CU_ASSERT("/alpha" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // rel ends with trailing '/' const char base[] = "/"; const char rel[] = "/alpha/"; CU_ASSERT("/alpha/" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // rel contains multiple components const char base[] = "/"; const char rel[] = "/alpha/bravo"; CU_ASSERT("/alpha/bravo" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // rel is relative const char base[] = "/"; const char rel[] = "alpha/bravo"; CU_ASSERT("/alpha/bravo" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // rel is relative and base ends without /, which means it refers // to file. const char base[] = "/alpha"; const char rel[] = "bravo/charlie"; CU_ASSERT("/bravo/charlie" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // rel contains repeated '/'s const char base[] = "/"; const char rel[] = "/alpha/////bravo/////"; CU_ASSERT("/alpha/bravo/" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // base ends with '/', so '..' eats 'bravo' const char base[] = "/alpha/bravo/"; const char rel[] = "../charlie/delta"; CU_ASSERT("/alpha/charlie/delta" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // base does not end with '/', so '..' eats 'alpha/bravo' const char base[] = "/alpha/bravo"; const char rel[] = "../charlie"; CU_ASSERT("/charlie" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // 'charlie' is eaten by following '..' const char base[] = "/alpha/bravo/"; const char rel[] = "../charlie/../delta"; CU_ASSERT("/alpha/delta" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // excessive '..' results in '/' const char base[] = "/alpha/bravo/"; const char rel[] = "../../../"; CU_ASSERT("/" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // excessive '..' and path component const char base[] = "/alpha/bravo/"; const char rel[] = "../../../charlie"; CU_ASSERT("/charlie" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // rel ends with '..' const char base[] = "/alpha/bravo/"; const char rel[] = "charlie/.."; CU_ASSERT("/alpha/bravo/" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // base empty and rel contains '..' const char base[] = ""; const char rel[] = "charlie/.."; CU_ASSERT("/" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // '.' is ignored const char base[] = "/"; const char rel[] = "charlie/././././delta"; CU_ASSERT("/charlie/delta" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // trailing '.' is ignored const char base[] = "/"; const char rel[] = "charlie/."; CU_ASSERT("/charlie/" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // query const char base[] = "/"; const char rel[] = "/"; const char relq[] = "q"; CU_ASSERT("/?q" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, relq, sizeof(relq) - 1)); } { // empty rel and query const char base[] = "/alpha"; const char rel[] = ""; const char relq[] = "q"; CU_ASSERT("/alpha?q" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, relq, sizeof(relq) - 1)); } { // both rel and query are empty const char base[] = "/alpha"; const char baseq[] = "r"; const char rel[] = ""; const char relq[] = ""; CU_ASSERT("/alpha?r" == http2::path_join(base, sizeof(base) - 1, baseq, sizeof(baseq) - 1, rel, sizeof(rel) - 1, relq, sizeof(relq) - 1)); } { // empty base const char base[] = ""; const char rel[] = "/alpha"; CU_ASSERT("/alpha" == http2::path_join(base, sizeof(base) - 1, nullptr, 0, rel, sizeof(rel) - 1, nullptr, 0)); } { // everything is empty CU_ASSERT("/" == http2::path_join(nullptr, 0, nullptr, 0, nullptr, 0, nullptr, 0)); } { // only baseq is not empty const char base[] = ""; const char baseq[] = "r"; const char rel[] = ""; CU_ASSERT("/?r" == http2::path_join(base, sizeof(base) - 1, baseq, sizeof(baseq) - 1, rel, sizeof(rel) - 1, nullptr, 0)); } } } // namespace shrpx