/* * 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 "nghttp.h" #include #ifdef HAVE_UNISTD_H # include #endif // HAVE_UNISTD_H #ifdef HAVE_FCNTL_H # include #endif // HAVE_FCNTL_H #ifdef HAVE_NETINET_IN_H # include #endif // HAVE_NETINET_IN_H #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_JANSSON # include #endif // HAVE_JANSSON #include "app_helper.h" #include "HtmlParser.h" #include "util.h" #include "base64.h" #include "tls.h" #include "template.h" #include "ssl_compat.h" #ifndef O_BINARY # define O_BINARY (0) #endif // O_BINARY namespace nghttp2 { // The anchor stream nodes when --no-dep is not used. The stream ID = // 1 is excluded since it is used as first stream in upgrade case. We // follows the same dependency anchor nodes as Firefox does. struct Anchor { int32_t stream_id; // stream ID this anchor depends on int32_t dep_stream_id; // .. with this weight. int32_t weight; }; // This is index into anchors. Firefox uses ANCHOR_FOLLOWERS for html // file. enum { ANCHOR_LEADERS, ANCHOR_UNBLOCKED, ANCHOR_BACKGROUND, ANCHOR_SPECULATIVE, ANCHOR_FOLLOWERS, }; namespace { constexpr auto anchors = std::array{{ {3, 0, 201}, {5, 0, 101}, {7, 0, 1}, {9, 7, 1}, {11, 3, 1}, }}; } // namespace Config::Config() : header_table_size(-1), min_header_table_size(std::numeric_limits::max()), encoder_header_table_size(-1), padding(0), max_concurrent_streams(100), peer_max_concurrent_streams(100), multiply(1), timeout(0.), window_bits(-1), connection_window_bits(-1), verbose(0), port_override(0), null_out(false), remote_name(false), get_assets(false), stat(false), upgrade(false), continuation(false), no_content_length(false), no_dep(false), hexdump(false), no_push(false), expect_continue(false), verify_peer(true), ktls(false), no_rfc7540_pri(false) { nghttp2_option_new(&http2_option); nghttp2_option_set_peer_max_concurrent_streams(http2_option, peer_max_concurrent_streams); nghttp2_option_set_builtin_recv_extension_type(http2_option, NGHTTP2_ALTSVC); nghttp2_option_set_builtin_recv_extension_type(http2_option, NGHTTP2_ORIGIN); } Config::~Config() { nghttp2_option_del(http2_option); } namespace { Config config; } // namespace namespace { void print_protocol_nego_error() { std::cerr << "[ERROR] HTTP/2 protocol was not selected." << " (nghttp2 expects " << NGHTTP2_PROTO_VERSION_ID << ")" << std::endl; } } // namespace namespace { std::string strip_fragment(const char *raw_uri) { const char *end; for (end = raw_uri; *end && *end != '#'; ++end) ; size_t len = end - raw_uri; return std::string(raw_uri, len); } } // namespace Request::Request(const std::string &uri, const http_parser_url &u, const nghttp2_data_provider *data_prd, int64_t data_length, const nghttp2_priority_spec &pri_spec, int level) : uri(uri), u(u), pri_spec(pri_spec), data_length(data_length), data_offset(0), response_len(0), inflater(nullptr), data_prd(data_prd), header_buffer_size(0), stream_id(-1), status(0), level(level), expect_final_response(false) { http2::init_hdidx(res_hdidx); http2::init_hdidx(req_hdidx); } Request::~Request() { nghttp2_gzip_inflate_del(inflater); } void Request::init_inflater() { int rv; // This is required with --disable-assert. (void)rv; rv = nghttp2_gzip_inflate_new(&inflater); assert(rv == 0); } StringRef Request::get_real_scheme() const { return config.scheme_override.empty() ? util::get_uri_field(uri.c_str(), u, UF_SCHEMA) : StringRef{config.scheme_override}; } StringRef Request::get_real_host() const { return config.host_override.empty() ? util::get_uri_field(uri.c_str(), u, UF_HOST) : StringRef{config.host_override}; } uint16_t Request::get_real_port() const { auto scheme = get_real_scheme(); return config.host_override.empty() ? util::has_uri_field(u, UF_PORT) ? u.port : scheme == "https" ? 443 : 80 : config.port_override == 0 ? scheme == "https" ? 443 : 80 : config.port_override; } void Request::init_html_parser() { // We crawl HTML using overridden scheme, host, and port. auto scheme = get_real_scheme(); auto host = get_real_host(); auto port = get_real_port(); auto ipv6_lit = std::find(std::begin(host), std::end(host), ':') != std::end(host); auto base_uri = scheme.str(); base_uri += "://"; if (ipv6_lit) { base_uri += '['; } base_uri += host; if (ipv6_lit) { base_uri += ']'; } if (!((scheme == "https" && port == 443) || (scheme == "http" && port == 80))) { base_uri += ':'; base_uri += util::utos(port); } base_uri += util::get_uri_field(uri.c_str(), u, UF_PATH); if (util::has_uri_field(u, UF_QUERY)) { base_uri += '?'; base_uri += util::get_uri_field(uri.c_str(), u, UF_QUERY); } html_parser = std::make_unique(base_uri); } int Request::update_html_parser(const uint8_t *data, size_t len, int fin) { if (!html_parser) { return 0; } return html_parser->parse_chunk(reinterpret_cast(data), len, fin); } std::string Request::make_reqpath() const { std::string path = util::has_uri_field(u, UF_PATH) ? util::get_uri_field(uri.c_str(), u, UF_PATH).str() : "/"; if (util::has_uri_field(u, UF_QUERY)) { path += '?'; path.append(uri.c_str() + u.field_data[UF_QUERY].off, u.field_data[UF_QUERY].len); } return path; } namespace { // Perform special handling |host| if it is IPv6 literal and includes // zone ID per RFC 6874. std::string decode_host(const StringRef &host) { auto zone_start = std::find(std::begin(host), std::end(host), '%'); if (zone_start == std::end(host) || !util::ipv6_numeric_addr( std::string(std::begin(host), zone_start).c_str())) { return host.str(); } // case: ::1% if (zone_start + 1 == std::end(host)) { return StringRef{host.c_str(), host.size() - 1}.str(); } // case: ::1%12 or ::1%1 if (zone_start + 3 >= std::end(host)) { return host.str(); } // If we see "%25", followed by more characters, then decode %25 as // '%'. auto zone_id_src = (*(zone_start + 1) == '2' && *(zone_start + 2) == '5') ? zone_start + 3 : zone_start + 1; auto zone_id = util::percent_decode(zone_id_src, std::end(host)); auto res = std::string(std::begin(host), zone_start + 1); res += zone_id; return res; } } // namespace namespace { nghttp2_priority_spec resolve_dep(int res_type) { nghttp2_priority_spec pri_spec; if (config.no_dep) { nghttp2_priority_spec_default_init(&pri_spec); return pri_spec; } int32_t anchor_id; int32_t weight; switch (res_type) { case REQ_CSS: case REQ_JS: anchor_id = anchors[ANCHOR_LEADERS].stream_id; weight = 32; break; case REQ_UNBLOCK_JS: anchor_id = anchors[ANCHOR_UNBLOCKED].stream_id; weight = 32; break; case REQ_IMG: anchor_id = anchors[ANCHOR_FOLLOWERS].stream_id; weight = 12; break; default: anchor_id = anchors[ANCHOR_FOLLOWERS].stream_id; weight = 32; } nghttp2_priority_spec_init(&pri_spec, anchor_id, weight, 0); return pri_spec; } } // namespace bool Request::is_ipv6_literal_addr() const { if (util::has_uri_field(u, UF_HOST)) { return memchr(uri.c_str() + u.field_data[UF_HOST].off, ':', u.field_data[UF_HOST].len); } else { return false; } } Headers::value_type *Request::get_res_header(int32_t token) { auto idx = res_hdidx[token]; if (idx == -1) { return nullptr; } return &res_nva[idx]; } Headers::value_type *Request::get_req_header(int32_t token) { auto idx = req_hdidx[token]; if (idx == -1) { return nullptr; } return &req_nva[idx]; } void Request::record_request_start_time() { timing.state = RequestState::ON_REQUEST; timing.request_start_time = get_time(); } void Request::record_response_start_time() { timing.state = RequestState::ON_RESPONSE; timing.response_start_time = get_time(); } void Request::record_response_end_time() { timing.state = RequestState::ON_COMPLETE; timing.response_end_time = get_time(); } namespace { void continue_timeout_cb(struct ev_loop *loop, ev_timer *w, int revents) { auto client = static_cast(ev_userdata(loop)); auto req = static_cast(w->data); int error; error = nghttp2_submit_data(client->session, NGHTTP2_FLAG_END_STREAM, req->stream_id, req->data_prd); if (error) { std::cerr << "[ERROR] nghttp2_submit_data() returned error: " << nghttp2_strerror(error) << std::endl; nghttp2_submit_rst_stream(client->session, NGHTTP2_FLAG_NONE, req->stream_id, NGHTTP2_INTERNAL_ERROR); } client->signal_write(); } } // namespace ContinueTimer::ContinueTimer(struct ev_loop *loop, Request *req) : loop(loop) { ev_timer_init(&timer, continue_timeout_cb, 1., 0.); timer.data = req; } ContinueTimer::~ContinueTimer() { stop(); } void ContinueTimer::start() { ev_timer_start(loop, &timer); } void ContinueTimer::stop() { ev_timer_stop(loop, &timer); } void ContinueTimer::dispatch_continue() { // Only dispatch the timeout callback if it hasn't already been called. if (ev_is_active(&timer)) { ev_feed_event(loop, &timer, 0); } } namespace { int htp_msg_begincb(llhttp_t *htp) { if (config.verbose) { print_timer(); std::cout << " HTTP Upgrade response" << std::endl; } return 0; } } // namespace namespace { int htp_msg_completecb(llhttp_t *htp) { auto client = static_cast(htp->data); client->upgrade_response_status_code = htp->status_code; client->upgrade_response_complete = true; return 0; } } // namespace namespace { constexpr llhttp_settings_t htp_hooks = { htp_msg_begincb, // llhttp_cb on_message_begin; nullptr, // llhttp_data_cb on_url; nullptr, // llhttp_data_cb on_status; nullptr, // llhttp_data_cb on_method; nullptr, // llhttp_data_cb on_version; nullptr, // llhttp_data_cb on_header_field; nullptr, // llhttp_data_cb on_header_value; nullptr, // llhttp_data_cb on_chunk_extension_name; nullptr, // llhttp_data_cb on_chunk_extension_value; nullptr, // llhttp_cb on_headers_complete; nullptr, // llhttp_data_cb on_body; htp_msg_completecb, // llhttp_cb on_message_complete; nullptr, // llhttp_cb on_url_complete; nullptr, // llhttp_cb on_status_complete; nullptr, // llhttp_cb on_method_complete; nullptr, // llhttp_cb on_version_complete; nullptr, // llhttp_cb on_header_field_complete; nullptr, // llhttp_cb on_header_value_complete; nullptr, // llhttp_cb on_chunk_extension_name_complete; nullptr, // llhttp_cb on_chunk_extension_value_complete; nullptr, // llhttp_cb on_chunk_header; nullptr, // llhttp_cb on_chunk_complete; nullptr, // llhttp_cb on_reset; }; } // namespace namespace { int submit_request(HttpClient *client, const Headers &headers, Request *req) { auto scheme = util::get_uri_field(req->uri.c_str(), req->u, UF_SCHEMA); auto build_headers = Headers{{":method", req->data_prd ? "POST" : "GET"}, {":path", req->make_reqpath()}, {":scheme", scheme.str()}, {":authority", client->hostport}, {"accept", "*/*"}, {"accept-encoding", "gzip, deflate"}, {"user-agent", "nghttp2/" NGHTTP2_VERSION}}; bool expect_continue = false; if (config.continuation) { for (size_t i = 0; i < 6; ++i) { build_headers.emplace_back("continuation-test-" + util::utos(i + 1), std::string(4_k, '-')); } } auto num_initial_headers = build_headers.size(); if (req->data_prd) { if (!config.no_content_length) { build_headers.emplace_back("content-length", util::utos(req->data_length)); } if (config.expect_continue) { expect_continue = true; build_headers.emplace_back("expect", "100-continue"); } } for (auto &kv : headers) { size_t i; for (i = 0; i < num_initial_headers; ++i) { if (kv.name == build_headers[i].name) { build_headers[i].value = kv.value; break; } } if (i < num_initial_headers) { continue; } build_headers.emplace_back(kv.name, kv.value, kv.no_index); } auto nva = std::vector(); nva.reserve(build_headers.size()); for (auto &kv : build_headers) { nva.push_back(http2::make_nv(kv.name, kv.value, kv.no_index)); } auto method = http2::get_header(build_headers, ":method"); assert(method); req->method = method->value; std::string trailer_names; if (!config.trailer.empty()) { trailer_names = config.trailer[0].name; for (size_t i = 1; i < config.trailer.size(); ++i) { trailer_names += ", "; trailer_names += config.trailer[i].name; } nva.push_back(http2::make_nv_ls("trailer", trailer_names)); } int32_t stream_id; if (expect_continue) { stream_id = nghttp2_submit_headers(client->session, 0, -1, &req->pri_spec, nva.data(), nva.size(), req); } else { stream_id = nghttp2_submit_request(client->session, &req->pri_spec, nva.data(), nva.size(), req->data_prd, req); } if (stream_id < 0) { std::cerr << "[ERROR] nghttp2_submit_" << (expect_continue ? "headers" : "request") << "() returned error: " << nghttp2_strerror(stream_id) << std::endl; return -1; } req->stream_id = stream_id; client->request_done(req); req->req_nva = std::move(build_headers); if (expect_continue) { auto timer = std::make_unique(client->loop, req); req->continue_timer = std::move(timer); } return 0; } } // namespace namespace { void readcb(struct ev_loop *loop, ev_io *w, int revents) { auto client = static_cast(w->data); if (client->do_read() != 0) { client->disconnect(); } } } // namespace namespace { void writecb(struct ev_loop *loop, ev_io *w, int revents) { auto client = static_cast(w->data); auto rv = client->do_write(); if (rv == HttpClient::ERR_CONNECT_FAIL) { client->connect_fail(); return; } if (rv != 0) { client->disconnect(); } } } // namespace namespace { void timeoutcb(struct ev_loop *loop, ev_timer *w, int revents) { auto client = static_cast(w->data); std::cerr << "[ERROR] Timeout" << std::endl; client->disconnect(); } } // namespace namespace { void settings_timeout_cb(struct ev_loop *loop, ev_timer *w, int revents) { auto client = static_cast(w->data); ev_timer_stop(loop, w); nghttp2_session_terminate_session(client->session, NGHTTP2_SETTINGS_TIMEOUT); client->signal_write(); } } // namespace HttpClient::HttpClient(const nghttp2_session_callbacks *callbacks, struct ev_loop *loop, SSL_CTX *ssl_ctx) : wb(&mcpool), session(nullptr), callbacks(callbacks), loop(loop), ssl_ctx(ssl_ctx), ssl(nullptr), addrs(nullptr), next_addr(nullptr), cur_addr(nullptr), complete(0), success(0), settings_payloadlen(0), state(ClientState::IDLE), upgrade_response_status_code(0), fd(-1), upgrade_response_complete(false) { ev_io_init(&wev, writecb, 0, EV_WRITE); ev_io_init(&rev, readcb, 0, EV_READ); wev.data = this; rev.data = this; ev_timer_init(&wt, timeoutcb, 0., config.timeout); ev_timer_init(&rt, timeoutcb, 0., config.timeout); wt.data = this; rt.data = this; ev_timer_init(&settings_timer, settings_timeout_cb, 0., 10.); settings_timer.data = this; } HttpClient::~HttpClient() { disconnect(); if (addrs) { freeaddrinfo(addrs); addrs = nullptr; next_addr = nullptr; } } bool HttpClient::need_upgrade() const { return config.upgrade && scheme == "http"; } int HttpClient::resolve_host(const std::string &host, uint16_t port) { int rv; this->host = host; addrinfo hints{}; hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = 0; hints.ai_flags = AI_ADDRCONFIG; rv = getaddrinfo(host.c_str(), util::utos(port).c_str(), &hints, &addrs); if (rv != 0) { std::cerr << "[ERROR] getaddrinfo() failed: " << gai_strerror(rv) << std::endl; return -1; } if (addrs == nullptr) { std::cerr << "[ERROR] No address returned" << std::endl; return -1; } next_addr = addrs; return 0; } namespace { // Just returns 1 to continue handshake. int verify_cb(int preverify_ok, X509_STORE_CTX *ctx) { return 1; } } // namespace int HttpClient::initiate_connection() { int rv; cur_addr = nullptr; while (next_addr) { cur_addr = next_addr; next_addr = next_addr->ai_next; fd = util::create_nonblock_socket(cur_addr->ai_family); if (fd == -1) { continue; } if (ssl_ctx) { // We are establishing TLS connection. ssl = SSL_new(ssl_ctx); if (!ssl) { std::cerr << "[ERROR] SSL_new() failed: " << ERR_error_string(ERR_get_error(), nullptr) << std::endl; return -1; } SSL_set_connect_state(ssl); // If the user overrode the :authority or host header, use that // value for the SNI extension const auto &host_string = config.host_override.empty() ? host : config.host_override; #if LIBRESSL_2_7_API || \ (!LIBRESSL_IN_USE && OPENSSL_VERSION_NUMBER >= 0x10002000L) || \ defined(OPENSSL_IS_BORINGSSL) auto param = SSL_get0_param(ssl); X509_VERIFY_PARAM_set_hostflags(param, 0); X509_VERIFY_PARAM_set1_host(param, host_string.c_str(), host_string.size()); #endif // LIBRESSL_2_7_API || (!LIBRESSL_IN_USE && // OPENSSL_VERSION_NUMBER >= 0x10002000L) || // defined(OPENSSL_IS_BORINGSSL) SSL_set_verify(ssl, SSL_VERIFY_PEER, verify_cb); if (!util::numeric_host(host_string.c_str())) { SSL_set_tlsext_host_name(ssl, host_string.c_str()); } } rv = connect(fd, cur_addr->ai_addr, cur_addr->ai_addrlen); if (rv != 0 && errno != EINPROGRESS) { if (ssl) { SSL_free(ssl); ssl = nullptr; } close(fd); fd = -1; continue; } break; } if (fd == -1) { return -1; } writefn = &HttpClient::connected; if (need_upgrade()) { on_readfn = &HttpClient::on_upgrade_read; on_writefn = &HttpClient::on_upgrade_connect; } else { on_readfn = &HttpClient::on_read; on_writefn = &HttpClient::on_write; } ev_io_set(&rev, fd, EV_READ); ev_io_set(&wev, fd, EV_WRITE); ev_io_start(loop, &wev); ev_timer_again(loop, &wt); return 0; } void HttpClient::disconnect() { state = ClientState::IDLE; for (auto req = std::begin(reqvec); req != std::end(reqvec); ++req) { if ((*req)->continue_timer) { (*req)->continue_timer->stop(); } } ev_timer_stop(loop, &settings_timer); ev_timer_stop(loop, &rt); ev_timer_stop(loop, &wt); ev_io_stop(loop, &rev); ev_io_stop(loop, &wev); nghttp2_session_del(session); session = nullptr; if (ssl) { SSL_set_shutdown(ssl, SSL_get_shutdown(ssl) | SSL_RECEIVED_SHUTDOWN); ERR_clear_error(); SSL_shutdown(ssl); SSL_free(ssl); ssl = nullptr; } if (fd != -1) { shutdown(fd, SHUT_WR); close(fd); fd = -1; } } int HttpClient::read_clear() { ev_timer_again(loop, &rt); std::array buf; for (;;) { ssize_t nread; while ((nread = read(fd, buf.data(), buf.size())) == -1 && errno == EINTR) ; if (nread == -1) { if (errno == EAGAIN || errno == EWOULDBLOCK) { return 0; } return -1; } if (nread == 0) { return -1; } if (on_readfn(*this, buf.data(), nread) != 0) { return -1; } } return 0; } int HttpClient::write_clear() { ev_timer_again(loop, &rt); std::array iov; for (;;) { if (on_writefn(*this) != 0) { return -1; } auto iovcnt = wb.riovec(iov.data(), iov.size()); if (iovcnt == 0) { break; } ssize_t nwrite; while ((nwrite = writev(fd, iov.data(), iovcnt)) == -1 && errno == EINTR) ; if (nwrite == -1) { if (errno == EAGAIN || errno == EWOULDBLOCK) { ev_io_start(loop, &wev); ev_timer_again(loop, &wt); return 0; } return -1; } wb.drain(nwrite); } ev_io_stop(loop, &wev); ev_timer_stop(loop, &wt); return 0; } int HttpClient::noop() { return 0; } void HttpClient::connect_fail() { if (state == ClientState::IDLE) { std::cerr << "[ERROR] Could not connect to the address " << util::numeric_name(cur_addr->ai_addr, cur_addr->ai_addrlen) << std::endl; } auto cur_state = state; disconnect(); if (cur_state == ClientState::IDLE) { if (initiate_connection() == 0) { std::cerr << "Trying next address " << util::numeric_name(cur_addr->ai_addr, cur_addr->ai_addrlen) << std::endl; } } } int HttpClient::connected() { if (!util::check_socket_connected(fd)) { return ERR_CONNECT_FAIL; } if (config.verbose) { print_timer(); std::cout << " Connected" << std::endl; } state = ClientState::CONNECTED; ev_io_start(loop, &rev); ev_io_stop(loop, &wev); ev_timer_again(loop, &rt); ev_timer_stop(loop, &wt); if (ssl) { SSL_set_fd(ssl, fd); readfn = &HttpClient::tls_handshake; writefn = &HttpClient::tls_handshake; return do_write(); } readfn = &HttpClient::read_clear; writefn = &HttpClient::write_clear; if (need_upgrade()) { htp = std::make_unique(); llhttp_init(htp.get(), HTTP_RESPONSE, &htp_hooks); htp->data = this; return do_write(); } if (connection_made() != 0) { return -1; } return 0; } namespace { size_t populate_settings(nghttp2_settings_entry *iv) { size_t niv = 2; iv[0].settings_id = NGHTTP2_SETTINGS_MAX_CONCURRENT_STREAMS; iv[0].value = config.max_concurrent_streams; iv[1].settings_id = NGHTTP2_SETTINGS_INITIAL_WINDOW_SIZE; if (config.window_bits != -1) { iv[1].value = (1 << config.window_bits) - 1; } else { iv[1].value = NGHTTP2_INITIAL_WINDOW_SIZE; } if (config.header_table_size >= 0) { if (config.min_header_table_size < config.header_table_size) { iv[niv].settings_id = NGHTTP2_SETTINGS_HEADER_TABLE_SIZE; iv[niv].value = config.min_header_table_size; ++niv; } iv[niv].settings_id = NGHTTP2_SETTINGS_HEADER_TABLE_SIZE; iv[niv].value = config.header_table_size; ++niv; } if (config.no_push) { iv[niv].settings_id = NGHTTP2_SETTINGS_ENABLE_PUSH; iv[niv].value = 0; ++niv; } if (config.no_rfc7540_pri) { iv[niv].settings_id = NGHTTP2_SETTINGS_NO_RFC7540_PRIORITIES; iv[niv].value = 1; ++niv; } return niv; } } // namespace int HttpClient::on_upgrade_connect() { ssize_t rv; record_connect_end_time(); assert(!reqvec.empty()); std::array iv; size_t niv = populate_settings(iv.data()); assert(settings_payload.size() >= 8 * niv); rv = nghttp2_pack_settings_payload(settings_payload.data(), settings_payload.size(), iv.data(), niv); if (rv < 0) { return -1; } settings_payloadlen = rv; auto token68 = base64::encode(std::begin(settings_payload), std::begin(settings_payload) + settings_payloadlen); util::to_token68(token68); std::string req; if (reqvec[0]->data_prd) { // If the request contains upload data, use OPTIONS * to upgrade req = "OPTIONS *"; } else { auto meth = std::find_if( std::begin(config.headers), std::end(config.headers), [](const Header &kv) { return util::streq_l(":method", kv.name); }); if (meth == std::end(config.headers)) { req = "GET "; reqvec[0]->method = "GET"; } else { req = (*meth).value; req += ' '; reqvec[0]->method = (*meth).value; } req += reqvec[0]->make_reqpath(); } auto headers = Headers{{"host", hostport}, {"connection", "Upgrade, HTTP2-Settings"}, {"upgrade", NGHTTP2_CLEARTEXT_PROTO_VERSION_ID}, {"http2-settings", token68}, {"accept", "*/*"}, {"user-agent", "nghttp2/" NGHTTP2_VERSION}}; auto initial_headerslen = headers.size(); for (auto &kv : config.headers) { size_t i; if (kv.name.empty() || kv.name[0] == ':') { continue; } for (i = 0; i < initial_headerslen; ++i) { if (kv.name == headers[i].name) { headers[i].value = kv.value; break; } } if (i < initial_headerslen) { continue; } headers.emplace_back(kv.name, kv.value, kv.no_index); } req += " HTTP/1.1\r\n"; for (auto &kv : headers) { req += kv.name; req += ": "; req += kv.value; req += "\r\n"; } req += "\r\n"; wb.append(req); if (config.verbose) { print_timer(); std::cout << " HTTP Upgrade request\n" << req << std::endl; } if (!reqvec[0]->data_prd) { // record request time if this is a part of real request. reqvec[0]->record_request_start_time(); reqvec[0]->req_nva = std::move(headers); } on_writefn = &HttpClient::noop; signal_write(); return 0; } int HttpClient::on_upgrade_read(const uint8_t *data, size_t len) { int rv; auto htperr = llhttp_execute(htp.get(), reinterpret_cast(data), len); auto nread = htperr == HPE_OK ? len : static_cast(reinterpret_cast( llhttp_get_error_pos(htp.get())) - data); if (config.verbose) { std::cout.write(reinterpret_cast(data), nread); } if (htperr != HPE_OK && htperr != HPE_PAUSED_UPGRADE) { std::cerr << "[ERROR] Failed to parse HTTP Upgrade response header: " << "(" << llhttp_errno_name(htperr) << ") " << llhttp_get_error_reason(htp.get()) << std::endl; return -1; } if (!upgrade_response_complete) { return 0; } if (config.verbose) { std::cout << std::endl; } if (upgrade_response_status_code != 101) { std::cerr << "[ERROR] HTTP Upgrade failed" << std::endl; return -1; } if (config.verbose) { print_timer(); std::cout << " HTTP Upgrade success" << std::endl; } on_readfn = &HttpClient::on_read; on_writefn = &HttpClient::on_write; rv = connection_made(); if (rv != 0) { return rv; } // Read remaining data in the buffer because it is not notified // callback anymore. rv = on_readfn(*this, data + nread, len - nread); if (rv != 0) { return rv; } return 0; } int HttpClient::do_read() { return readfn(*this); } int HttpClient::do_write() { return writefn(*this); } int HttpClient::connection_made() { int rv; if (!need_upgrade()) { record_connect_end_time(); } if (ssl) { // Check NPN or ALPN result const unsigned char *next_proto = nullptr; unsigned int next_proto_len; #ifndef OPENSSL_NO_NEXTPROTONEG SSL_get0_next_proto_negotiated(ssl, &next_proto, &next_proto_len); #endif // !OPENSSL_NO_NEXTPROTONEG for (int i = 0; i < 2; ++i) { if (next_proto) { auto proto = StringRef{next_proto, next_proto_len}; if (config.verbose) { std::cout << "The negotiated protocol: " << proto << std::endl; } if (!util::check_h2_is_selected(proto)) { next_proto = nullptr; } break; } #if OPENSSL_VERSION_NUMBER >= 0x10002000L SSL_get0_alpn_selected(ssl, &next_proto, &next_proto_len); #else // OPENSSL_VERSION_NUMBER < 0x10002000L break; #endif // OPENSSL_VERSION_NUMBER < 0x10002000L } if (!next_proto) { print_protocol_nego_error(); return -1; } } rv = nghttp2_session_client_new2(&session, callbacks, this, config.http2_option); if (rv != 0) { return -1; } if (need_upgrade()) { // Adjust stream user-data depending on the existence of upload // data Request *stream_user_data = nullptr; if (!reqvec[0]->data_prd) { stream_user_data = reqvec[0].get(); } // If HEAD is used, that is only when user specified it with -H // option. auto head_request = stream_user_data && stream_user_data->method == "HEAD"; rv = nghttp2_session_upgrade2(session, settings_payload.data(), settings_payloadlen, head_request, stream_user_data); if (rv != 0) { std::cerr << "[ERROR] nghttp2_session_upgrade() returned error: " << nghttp2_strerror(rv) << std::endl; return -1; } if (stream_user_data) { stream_user_data->stream_id = 1; request_done(stream_user_data); } } // If upgrade succeeds, the SETTINGS value sent with // HTTP2-Settings header field has already been submitted to // session object. if (!need_upgrade()) { std::array iv; auto niv = populate_settings(iv.data()); rv = nghttp2_submit_settings(session, NGHTTP2_FLAG_NONE, iv.data(), niv); if (rv != 0) { return -1; } } if (!config.no_dep) { // Create anchor stream nodes nghttp2_priority_spec pri_spec; for (auto &anchor : anchors) { nghttp2_priority_spec_init(&pri_spec, anchor.dep_stream_id, anchor.weight, 0); rv = nghttp2_submit_priority(session, NGHTTP2_FLAG_NONE, anchor.stream_id, &pri_spec); if (rv != 0) { return -1; } } rv = nghttp2_session_set_next_stream_id( session, anchors[ANCHOR_FOLLOWERS].stream_id + 2); if (rv != 0) { return -1; } if (need_upgrade() && !reqvec[0]->data_prd) { // Amend the priority because we cannot send priority in // HTTP/1.1 Upgrade. auto &anchor = anchors[ANCHOR_FOLLOWERS]; nghttp2_priority_spec_init(&pri_spec, anchor.stream_id, reqvec[0]->pri_spec.weight, 0); rv = nghttp2_submit_priority(session, NGHTTP2_FLAG_NONE, 1, &pri_spec); if (rv != 0) { return -1; } } } else if (need_upgrade() && !reqvec[0]->data_prd && reqvec[0]->pri_spec.weight != NGHTTP2_DEFAULT_WEIGHT) { // Amend the priority because we cannot send priority in HTTP/1.1 // Upgrade. nghttp2_priority_spec pri_spec; nghttp2_priority_spec_init(&pri_spec, 0, reqvec[0]->pri_spec.weight, 0); rv = nghttp2_submit_priority(session, NGHTTP2_FLAG_NONE, 1, &pri_spec); if (rv != 0) { return -1; } } ev_timer_again(loop, &settings_timer); if (config.connection_window_bits != -1) { int32_t window_size = (1 << config.connection_window_bits) - 1; rv = nghttp2_session_set_local_window_size(session, NGHTTP2_FLAG_NONE, 0, window_size); if (rv != 0) { return -1; } } // Adjust first request depending on the existence of the upload // data for (auto i = std::begin(reqvec) + (need_upgrade() && !reqvec[0]->data_prd); i != std::end(reqvec); ++i) { if (submit_request(this, config.headers, (*i).get()) != 0) { return -1; } } signal_write(); return 0; } int HttpClient::on_read(const uint8_t *data, size_t len) { if (config.hexdump) { util::hexdump(stdout, data, len); } auto rv = nghttp2_session_mem_recv(session, data, len); if (rv < 0) { std::cerr << "[ERROR] nghttp2_session_mem_recv() returned error: " << nghttp2_strerror(rv) << std::endl; return -1; } assert(static_cast(rv) == len); if (nghttp2_session_want_read(session) == 0 && nghttp2_session_want_write(session) == 0 && wb.rleft() == 0) { return -1; } signal_write(); return 0; } int HttpClient::on_write() { for (;;) { if (wb.rleft() >= 16384) { return 0; } const uint8_t *data; auto len = nghttp2_session_mem_send(session, &data); if (len < 0) { std::cerr << "[ERROR] nghttp2_session_send() returned error: " << nghttp2_strerror(len) << std::endl; return -1; } if (len == 0) { break; } wb.append(data, len); } if (nghttp2_session_want_read(session) == 0 && nghttp2_session_want_write(session) == 0 && wb.rleft() == 0) { return -1; } return 0; } int HttpClient::tls_handshake() { ev_timer_again(loop, &rt); ERR_clear_error(); auto rv = SSL_do_handshake(ssl); if (rv <= 0) { auto err = SSL_get_error(ssl, rv); switch (err) { case SSL_ERROR_WANT_READ: ev_io_stop(loop, &wev); ev_timer_stop(loop, &wt); return 0; case SSL_ERROR_WANT_WRITE: ev_io_start(loop, &wev); ev_timer_again(loop, &wt); return 0; default: return -1; } } ev_io_stop(loop, &wev); ev_timer_stop(loop, &wt); readfn = &HttpClient::read_tls; writefn = &HttpClient::write_tls; if (config.verify_peer) { auto verify_res = SSL_get_verify_result(ssl); if (verify_res != X509_V_OK) { std::cerr << "[WARNING] Certificate verification failed: " << X509_verify_cert_error_string(verify_res) << std::endl; } } if (connection_made() != 0) { return -1; } return 0; } int HttpClient::read_tls() { ev_timer_again(loop, &rt); ERR_clear_error(); std::array buf; for (;;) { auto rv = SSL_read(ssl, buf.data(), buf.size()); if (rv <= 0) { auto err = SSL_get_error(ssl, rv); switch (err) { case SSL_ERROR_WANT_READ: return 0; case SSL_ERROR_WANT_WRITE: // renegotiation started return -1; default: return -1; } } if (on_readfn(*this, buf.data(), rv) != 0) { return -1; } } } int HttpClient::write_tls() { ev_timer_again(loop, &rt); ERR_clear_error(); struct iovec iov; for (;;) { if (on_writefn(*this) != 0) { return -1; } auto iovcnt = wb.riovec(&iov, 1); if (iovcnt == 0) { break; } auto rv = SSL_write(ssl, iov.iov_base, iov.iov_len); if (rv <= 0) { auto err = SSL_get_error(ssl, rv); switch (err) { case SSL_ERROR_WANT_READ: // renegotiation started return -1; case SSL_ERROR_WANT_WRITE: ev_io_start(loop, &wev); ev_timer_again(loop, &wt); return 0; default: return -1; } } wb.drain(rv); } ev_io_stop(loop, &wev); ev_timer_stop(loop, &wt); return 0; } void HttpClient::signal_write() { ev_io_start(loop, &wev); } bool HttpClient::all_requests_processed() const { return complete == reqvec.size(); } void HttpClient::update_hostport() { if (reqvec.empty()) { return; } scheme = util::get_uri_field(reqvec[0]->uri.c_str(), reqvec[0]->u, UF_SCHEMA) .str(); std::stringstream ss; if (reqvec[0]->is_ipv6_literal_addr()) { // we may have zone ID, which must start with "%25", or "%". RFC // 6874 defines "%25" only, and just "%" is allowed for just // convenience to end-user input. auto host = util::get_uri_field(reqvec[0]->uri.c_str(), reqvec[0]->u, UF_HOST); auto end = std::find(std::begin(host), std::end(host), '%'); ss << "["; ss.write(host.c_str(), end - std::begin(host)); ss << "]"; } else { util::write_uri_field(ss, reqvec[0]->uri.c_str(), reqvec[0]->u, UF_HOST); } if (util::has_uri_field(reqvec[0]->u, UF_PORT) && reqvec[0]->u.port != util::get_default_port(reqvec[0]->uri.c_str(), reqvec[0]->u)) { ss << ":" << reqvec[0]->u.port; } hostport = ss.str(); } bool HttpClient::add_request(const std::string &uri, const nghttp2_data_provider *data_prd, int64_t data_length, const nghttp2_priority_spec &pri_spec, int level) { http_parser_url u{}; if (http_parser_parse_url(uri.c_str(), uri.size(), 0, &u) != 0) { return false; } if (path_cache.count(uri)) { return false; } if (config.multiply == 1) { path_cache.insert(uri); } reqvec.push_back(std::make_unique(uri, u, data_prd, data_length, pri_spec, level)); return true; } void HttpClient::record_start_time() { timing.system_start_time = std::chrono::system_clock::now(); timing.start_time = get_time(); } void HttpClient::record_domain_lookup_end_time() { timing.domain_lookup_end_time = get_time(); } void HttpClient::record_connect_end_time() { timing.connect_end_time = get_time(); } void HttpClient::request_done(Request *req) { if (req->stream_id % 2 == 0) { return; } } #ifdef HAVE_JANSSON void HttpClient::output_har(FILE *outfile) { static auto PAGE_ID = "page_0"; auto root = json_object(); auto log = json_object(); json_object_set_new(root, "log", log); json_object_set_new(log, "version", json_string("1.2")); auto creator = json_object(); json_object_set_new(log, "creator", creator); json_object_set_new(creator, "name", json_string("nghttp")); json_object_set_new(creator, "version", json_string(NGHTTP2_VERSION)); auto pages = json_array(); json_object_set_new(log, "pages", pages); auto page = json_object(); json_array_append_new(pages, page); json_object_set_new( page, "startedDateTime", json_string(util::format_iso8601(timing.system_start_time).c_str())); json_object_set_new(page, "id", json_string(PAGE_ID)); json_object_set_new(page, "title", json_string("")); json_object_set_new(page, "pageTimings", json_object()); auto entries = json_array(); json_object_set_new(log, "entries", entries); auto dns_delta = std::chrono::duration_cast( timing.domain_lookup_end_time - timing.start_time) .count() / 1000.0; auto connect_delta = std::chrono::duration_cast( timing.connect_end_time - timing.domain_lookup_end_time) .count() / 1000.0; for (size_t i = 0; i < reqvec.size(); ++i) { auto &req = reqvec[i]; if (req->timing.state != RequestState::ON_COMPLETE) { continue; } auto entry = json_object(); json_array_append_new(entries, entry); auto &req_timing = req->timing; auto request_time = (i == 0) ? timing.system_start_time : timing.system_start_time + std::chrono::duration_cast< std::chrono::system_clock::duration>( req_timing.request_start_time - timing.start_time); auto wait_delta = std::chrono::duration_cast( req_timing.response_start_time - req_timing.request_start_time) .count() / 1000.0; auto receive_delta = std::chrono::duration_cast( req_timing.response_end_time - req_timing.response_start_time) .count() / 1000.0; auto time_sum = std::chrono::duration_cast( (i == 0) ? (req_timing.response_end_time - timing.start_time) : (req_timing.response_end_time - req_timing.request_start_time)) .count() / 1000.0; json_object_set_new( entry, "startedDateTime", json_string(util::format_iso8601(request_time).c_str())); json_object_set_new(entry, "time", json_real(time_sum)); auto pushed = req->stream_id % 2 == 0; json_object_set_new(entry, "comment", json_string(pushed ? "Pushed Object" : "")); auto request = json_object(); json_object_set_new(entry, "request", request); auto req_headers = json_array(); json_object_set_new(request, "headers", req_headers); for (auto &nv : req->req_nva) { auto hd = json_object(); json_array_append_new(req_headers, hd); json_object_set_new(hd, "name", json_string(nv.name.c_str())); json_object_set_new(hd, "value", json_string(nv.value.c_str())); } json_object_set_new(request, "method", json_string(req->method.c_str())); json_object_set_new(request, "url", json_string(req->uri.c_str())); json_object_set_new(request, "httpVersion", json_string("HTTP/2.0")); json_object_set_new(request, "cookies", json_array()); json_object_set_new(request, "queryString", json_array()); json_object_set_new(request, "headersSize", json_integer(-1)); json_object_set_new(request, "bodySize", json_integer(-1)); auto response = json_object(); json_object_set_new(entry, "response", response); auto res_headers = json_array(); json_object_set_new(response, "headers", res_headers); for (auto &nv : req->res_nva) { auto hd = json_object(); json_array_append_new(res_headers, hd); json_object_set_new(hd, "name", json_string(nv.name.c_str())); json_object_set_new(hd, "value", json_string(nv.value.c_str())); } json_object_set_new(response, "status", json_integer(req->status)); json_object_set_new(response, "statusText", json_string("")); json_object_set_new(response, "httpVersion", json_string("HTTP/2.0")); json_object_set_new(response, "cookies", json_array()); auto content = json_object(); json_object_set_new(response, "content", content); json_object_set_new(content, "size", json_integer(req->response_len)); auto content_type_ptr = http2::get_header(req->res_nva, "content-type"); const char *content_type = ""; if (content_type_ptr) { content_type = content_type_ptr->value.c_str(); } json_object_set_new(content, "mimeType", json_string(content_type)); json_object_set_new(response, "redirectURL", json_string("")); json_object_set_new(response, "headersSize", json_integer(-1)); json_object_set_new(response, "bodySize", json_integer(-1)); json_object_set_new(entry, "cache", json_object()); auto timings = json_object(); json_object_set_new(entry, "timings", timings); auto dns_timing = (i == 0) ? dns_delta : 0; auto connect_timing = (i == 0) ? connect_delta : 0; json_object_set_new(timings, "dns", json_real(dns_timing)); json_object_set_new(timings, "connect", json_real(connect_timing)); json_object_set_new(timings, "blocked", json_real(0.0)); json_object_set_new(timings, "send", json_real(0.0)); json_object_set_new(timings, "wait", json_real(wait_delta)); json_object_set_new(timings, "receive", json_real(receive_delta)); json_object_set_new(entry, "pageref", json_string(PAGE_ID)); json_object_set_new(entry, "connection", json_string(util::utos(req->stream_id).c_str())); } json_dumpf(root, outfile, JSON_PRESERVE_ORDER | JSON_INDENT(2)); json_decref(root); } #endif // HAVE_JANSSON namespace { void update_html_parser(HttpClient *client, Request *req, const uint8_t *data, size_t len, int fin) { if (!req->html_parser) { return; } req->update_html_parser(data, len, fin); auto scheme = req->get_real_scheme(); auto host = req->get_real_host(); auto port = req->get_real_port(); for (auto &p : req->html_parser->get_links()) { auto uri = strip_fragment(p.first.c_str()); auto res_type = p.second; http_parser_url u{}; if (http_parser_parse_url(uri.c_str(), uri.size(), 0, &u) != 0) { continue; } if (!util::fieldeq(uri.c_str(), u, UF_SCHEMA, scheme) || !util::fieldeq(uri.c_str(), u, UF_HOST, host)) { continue; } auto link_port = util::has_uri_field(u, UF_PORT) ? u.port : scheme == "https" ? 443 : 80; if (port != link_port) { continue; } // No POST data for assets auto pri_spec = resolve_dep(res_type); if (client->add_request(uri, nullptr, 0, pri_spec, req->level + 1)) { submit_request(client, config.headers, client->reqvec.back().get()); } } req->html_parser->clear_links(); } } // namespace namespace { HttpClient *get_client(void *user_data) { return static_cast(user_data); } } // namespace namespace { int on_data_chunk_recv_callback(nghttp2_session *session, uint8_t flags, int32_t stream_id, const uint8_t *data, size_t len, void *user_data) { auto client = get_client(user_data); auto req = static_cast( nghttp2_session_get_stream_user_data(session, stream_id)); if (!req) { return 0; } if (config.verbose >= 2) { verbose_on_data_chunk_recv_callback(session, flags, stream_id, data, len, user_data); } req->response_len += len; if (req->inflater) { while (len > 0) { const size_t MAX_OUTLEN = 4_k; std::array out; size_t outlen = MAX_OUTLEN; size_t tlen = len; int rv = nghttp2_gzip_inflate(req->inflater, out.data(), &outlen, data, &tlen); if (rv != 0) { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, stream_id, NGHTTP2_INTERNAL_ERROR); break; } if (!config.null_out) { std::cout.write(reinterpret_cast(out.data()), outlen); } update_html_parser(client, req, out.data(), outlen, 0); data += tlen; len -= tlen; } return 0; } if (!config.null_out) { std::cout.write(reinterpret_cast(data), len); } update_html_parser(client, req, data, len, 0); return 0; } } // namespace namespace { ssize_t select_padding_callback(nghttp2_session *session, const nghttp2_frame *frame, size_t max_payload, void *user_data) { return std::min(max_payload, frame->hd.length + config.padding); } } // namespace namespace { void check_response_header(nghttp2_session *session, Request *req) { bool gzip = false; req->expect_final_response = false; auto status_hd = req->get_res_header(http2::HD__STATUS); if (!status_hd) { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, req->stream_id, NGHTTP2_PROTOCOL_ERROR); return; } auto status = http2::parse_http_status_code(StringRef{status_hd->value}); if (status == -1) { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, req->stream_id, NGHTTP2_PROTOCOL_ERROR); return; } req->status = status; for (auto &nv : req->res_nva) { if ("content-encoding" == nv.name) { gzip = util::strieq_l("gzip", nv.value) || util::strieq_l("deflate", nv.value); continue; } } if (req->status / 100 == 1) { if (req->continue_timer && (req->status == 100)) { // If the request is waiting for a 100 Continue, complete the handshake. req->continue_timer->dispatch_continue(); } req->expect_final_response = true; req->status = 0; req->res_nva.clear(); http2::init_hdidx(req->res_hdidx); return; } else if (req->continue_timer) { // A final response stops any pending Expect/Continue handshake. req->continue_timer->stop(); } if (gzip) { if (!req->inflater) { req->init_inflater(); } } if (config.get_assets && req->level == 0) { if (!req->html_parser) { req->init_html_parser(); } } } } // namespace namespace { int on_begin_headers_callback(nghttp2_session *session, const nghttp2_frame *frame, void *user_data) { auto client = get_client(user_data); switch (frame->hd.type) { case NGHTTP2_HEADERS: { auto req = static_cast( nghttp2_session_get_stream_user_data(session, frame->hd.stream_id)); if (!req) { break; } switch (frame->headers.cat) { case NGHTTP2_HCAT_RESPONSE: case NGHTTP2_HCAT_PUSH_RESPONSE: req->record_response_start_time(); break; default: break; } break; } case NGHTTP2_PUSH_PROMISE: { auto stream_id = frame->push_promise.promised_stream_id; http_parser_url u{}; // TODO Set pri and level nghttp2_priority_spec pri_spec; nghttp2_priority_spec_default_init(&pri_spec); auto req = std::make_unique("", u, nullptr, 0, pri_spec); req->stream_id = stream_id; nghttp2_session_set_stream_user_data(session, stream_id, req.get()); client->request_done(req.get()); req->record_request_start_time(); client->reqvec.push_back(std::move(req)); break; } } return 0; } } // namespace namespace { int on_header_callback(nghttp2_session *session, const nghttp2_frame *frame, const uint8_t *name, size_t namelen, const uint8_t *value, size_t valuelen, uint8_t flags, void *user_data) { if (config.verbose) { verbose_on_header_callback(session, frame, name, namelen, value, valuelen, flags, user_data); } switch (frame->hd.type) { case NGHTTP2_HEADERS: { auto req = static_cast( nghttp2_session_get_stream_user_data(session, frame->hd.stream_id)); if (!req) { break; } /* ignore trailer header */ if (frame->headers.cat == NGHTTP2_HCAT_HEADERS && !req->expect_final_response) { break; } if (req->header_buffer_size + namelen + valuelen > 64_k) { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, frame->hd.stream_id, NGHTTP2_INTERNAL_ERROR); return 0; } req->header_buffer_size += namelen + valuelen; auto token = http2::lookup_token(name, namelen); http2::index_header(req->res_hdidx, token, req->res_nva.size()); http2::add_header(req->res_nva, name, namelen, value, valuelen, flags & NGHTTP2_NV_FLAG_NO_INDEX, token); break; } case NGHTTP2_PUSH_PROMISE: { auto req = static_cast(nghttp2_session_get_stream_user_data( session, frame->push_promise.promised_stream_id)); if (!req) { break; } if (req->header_buffer_size + namelen + valuelen > 64_k) { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, frame->push_promise.promised_stream_id, NGHTTP2_INTERNAL_ERROR); return 0; } req->header_buffer_size += namelen + valuelen; auto token = http2::lookup_token(name, namelen); http2::index_header(req->req_hdidx, token, req->req_nva.size()); http2::add_header(req->req_nva, name, namelen, value, valuelen, flags & NGHTTP2_NV_FLAG_NO_INDEX, token); break; } } return 0; } } // namespace namespace { int on_frame_recv_callback2(nghttp2_session *session, const nghttp2_frame *frame, void *user_data) { int rv = 0; if (config.verbose) { verbose_on_frame_recv_callback(session, frame, user_data); } auto client = get_client(user_data); switch (frame->hd.type) { case NGHTTP2_DATA: { auto req = static_cast( nghttp2_session_get_stream_user_data(session, frame->hd.stream_id)); if (!req) { return 0; ; } if (frame->hd.flags & NGHTTP2_FLAG_END_STREAM) { req->record_response_end_time(); ++client->success; } break; } case NGHTTP2_HEADERS: { auto req = static_cast( nghttp2_session_get_stream_user_data(session, frame->hd.stream_id)); // If this is the HTTP Upgrade with OPTIONS method to avoid POST, // req is nullptr. if (!req) { return 0; ; } switch (frame->headers.cat) { case NGHTTP2_HCAT_RESPONSE: case NGHTTP2_HCAT_PUSH_RESPONSE: check_response_header(session, req); break; case NGHTTP2_HCAT_HEADERS: if (req->expect_final_response) { check_response_header(session, req); break; } if ((frame->hd.flags & NGHTTP2_FLAG_END_STREAM) == 0) { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, frame->hd.stream_id, NGHTTP2_PROTOCOL_ERROR); return 0; } break; default: assert(0); } if (frame->hd.flags & NGHTTP2_FLAG_END_STREAM) { req->record_response_end_time(); ++client->success; } break; } case NGHTTP2_SETTINGS: if ((frame->hd.flags & NGHTTP2_FLAG_ACK) == 0) { break; } ev_timer_stop(client->loop, &client->settings_timer); break; case NGHTTP2_PUSH_PROMISE: { auto req = static_cast(nghttp2_session_get_stream_user_data( session, frame->push_promise.promised_stream_id)); if (!req) { break; } // Reset for response header field reception req->header_buffer_size = 0; auto scheme = req->get_req_header(http2::HD__SCHEME); auto authority = req->get_req_header(http2::HD__AUTHORITY); auto path = req->get_req_header(http2::HD__PATH); if (!authority) { authority = req->get_req_header(http2::HD_HOST); } // libnghttp2 guarantees :scheme, :method, :path and (:authority | // host) exist and non-empty. if (path->value[0] != '/') { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, frame->push_promise.promised_stream_id, NGHTTP2_PROTOCOL_ERROR); break; } std::string uri = scheme->value; uri += "://"; uri += authority->value; uri += path->value; http_parser_url u{}; if (http_parser_parse_url(uri.c_str(), uri.size(), 0, &u) != 0) { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, frame->push_promise.promised_stream_id, NGHTTP2_PROTOCOL_ERROR); break; } req->uri = uri; req->u = u; if (client->path_cache.count(uri)) { nghttp2_submit_rst_stream(session, NGHTTP2_FLAG_NONE, frame->push_promise.promised_stream_id, NGHTTP2_CANCEL); break; } if (config.multiply == 1) { client->path_cache.insert(uri); } break; } } return rv; } } // namespace namespace { int before_frame_send_callback(nghttp2_session *session, const nghttp2_frame *frame, void *user_data) { if (frame->hd.type != NGHTTP2_HEADERS || frame->headers.cat != NGHTTP2_HCAT_REQUEST) { return 0; } auto req = static_cast( nghttp2_session_get_stream_user_data(session, frame->hd.stream_id)); assert(req); req->record_request_start_time(); return 0; } } // namespace namespace { int on_frame_send_callback(nghttp2_session *session, const nghttp2_frame *frame, void *user_data) { if (config.verbose) { verbose_on_frame_send_callback(session, frame, user_data); } if (frame->hd.type != NGHTTP2_HEADERS || frame->headers.cat != NGHTTP2_HCAT_REQUEST) { return 0; } auto req = static_cast( nghttp2_session_get_stream_user_data(session, frame->hd.stream_id)); if (!req) { return 0; } // If this request is using Expect/Continue, start its ContinueTimer. if (req->continue_timer) { req->continue_timer->start(); } return 0; } } // namespace namespace { int on_frame_not_send_callback(nghttp2_session *session, const nghttp2_frame *frame, int lib_error_code, void *user_data) { if (frame->hd.type != NGHTTP2_HEADERS || frame->headers.cat != NGHTTP2_HCAT_REQUEST) { return 0; } auto req = static_cast( nghttp2_session_get_stream_user_data(session, frame->hd.stream_id)); if (!req) { return 0; } std::cerr << "[ERROR] request " << req->uri << " failed: " << nghttp2_strerror(lib_error_code) << std::endl; return 0; } } // namespace namespace { int on_stream_close_callback(nghttp2_session *session, int32_t stream_id, uint32_t error_code, void *user_data) { auto client = get_client(user_data); auto req = static_cast( nghttp2_session_get_stream_user_data(session, stream_id)); if (!req) { return 0; } // If this request is using Expect/Continue, stop its ContinueTimer. if (req->continue_timer) { req->continue_timer->stop(); } update_html_parser(client, req, nullptr, 0, 1); ++client->complete; if (client->all_requests_processed()) { nghttp2_session_terminate_session(session, NGHTTP2_NO_ERROR); } return 0; } } // namespace struct RequestResult { std::chrono::microseconds time; }; namespace { void print_stats(const HttpClient &client) { std::cout << "***** Statistics *****" << std::endl; std::vector reqs; reqs.reserve(client.reqvec.size()); for (const auto &req : client.reqvec) { if (req->timing.state == RequestState::ON_COMPLETE) { reqs.push_back(req.get()); } } std::sort(std::begin(reqs), std::end(reqs), [](const Request *lhs, const Request *rhs) { const auto <iming = lhs->timing; const auto &rtiming = rhs->timing; return ltiming.response_end_time < rtiming.response_end_time || (ltiming.response_end_time == rtiming.response_end_time && ltiming.request_start_time < rtiming.request_start_time); }); std::cout << R"( Request timing: responseEnd: the time when last byte of response was received relative to connectEnd requestStart: the time just before first byte of request was sent relative to connectEnd. If '*' is shown, this was pushed by server. process: responseEnd - requestStart code: HTTP status code size: number of bytes received as response body without inflation. URI: request URI see http://www.w3.org/TR/resource-timing/#processing-model sorted by 'complete' id responseEnd requestStart process code size request path)" << std::endl; const auto &base = client.timing.connect_end_time; for (const auto &req : reqs) { auto response_end = std::chrono::duration_cast( req->timing.response_end_time - base); auto request_start = std::chrono::duration_cast( req->timing.request_start_time - base); auto total = std::chrono::duration_cast( req->timing.response_end_time - req->timing.request_start_time); auto pushed = req->stream_id % 2 == 0; std::cout << std::setw(3) << req->stream_id << " " << std::setw(11) << ("+" + util::format_duration(response_end)) << " " << (pushed ? "*" : " ") << std::setw(11) << ("+" + util::format_duration(request_start)) << " " << std::setw(8) << util::format_duration(total) << " " << std::setw(4) << req->status << " " << std::setw(4) << util::utos_unit(req->response_len) << " " << req->make_reqpath() << std::endl; } } } // namespace #ifndef OPENSSL_NO_NEXTPROTONEG namespace { int client_select_next_proto_cb(SSL *ssl, unsigned char **out, unsigned char *outlen, const unsigned char *in, unsigned int inlen, void *arg) { if (config.verbose) { print_timer(); std::cout << "[NPN] server offers:" << std::endl; } for (unsigned int i = 0; i < inlen; i += in[i] + 1) { if (config.verbose) { std::cout << " * "; std::cout.write(reinterpret_cast(&in[i + 1]), in[i]); std::cout << std::endl; } } if (!util::select_h2(const_cast(out), outlen, in, inlen)) { print_protocol_nego_error(); return SSL_TLSEXT_ERR_NOACK; } return SSL_TLSEXT_ERR_OK; } } // namespace #endif // !OPENSSL_NO_NEXTPROTONEG namespace { int communicate( const std::string &scheme, const std::string &host, uint16_t port, std::vector< std::tuple> requests, const nghttp2_session_callbacks *callbacks) { int result = 0; auto loop = EV_DEFAULT; SSL_CTX *ssl_ctx = nullptr; if (scheme == "https") { ssl_ctx = SSL_CTX_new(TLS_client_method()); if (!ssl_ctx) { std::cerr << "[ERROR] Failed to create SSL_CTX: " << ERR_error_string(ERR_get_error(), nullptr) << std::endl; result = -1; goto fin; } auto ssl_opts = (SSL_OP_ALL & ~SSL_OP_DONT_INSERT_EMPTY_FRAGMENTS) | SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3 | SSL_OP_NO_COMPRESSION | SSL_OP_NO_SESSION_RESUMPTION_ON_RENEGOTIATION; #ifdef SSL_OP_ENABLE_KTLS if (config.ktls) { ssl_opts |= SSL_OP_ENABLE_KTLS; } #endif // SSL_OP_ENABLE_KTLS SSL_CTX_set_options(ssl_ctx, ssl_opts); SSL_CTX_set_mode(ssl_ctx, SSL_MODE_AUTO_RETRY); SSL_CTX_set_mode(ssl_ctx, SSL_MODE_RELEASE_BUFFERS); if (SSL_CTX_set_default_verify_paths(ssl_ctx) != 1) { std::cerr << "[WARNING] Could not load system trusted CA certificates: " << ERR_error_string(ERR_get_error(), nullptr) << std::endl; } if (nghttp2::tls::ssl_ctx_set_proto_versions( ssl_ctx, nghttp2::tls::NGHTTP2_TLS_MIN_VERSION, nghttp2::tls::NGHTTP2_TLS_MAX_VERSION) != 0) { std::cerr << "[ERROR] Could not set TLS versions" << std::endl; result = -1; goto fin; } if (SSL_CTX_set_cipher_list(ssl_ctx, tls::DEFAULT_CIPHER_LIST) == 0) { std::cerr << "[ERROR] " << ERR_error_string(ERR_get_error(), nullptr) << std::endl; result = -1; goto fin; } if (!config.keyfile.empty()) { if (SSL_CTX_use_PrivateKey_file(ssl_ctx, config.keyfile.c_str(), SSL_FILETYPE_PEM) != 1) { std::cerr << "[ERROR] " << ERR_error_string(ERR_get_error(), nullptr) << std::endl; result = -1; goto fin; } } if (!config.certfile.empty()) { if (SSL_CTX_use_certificate_chain_file(ssl_ctx, config.certfile.c_str()) != 1) { std::cerr << "[ERROR] " << ERR_error_string(ERR_get_error(), nullptr) << std::endl; result = -1; goto fin; } } #ifndef OPENSSL_NO_NEXTPROTONEG SSL_CTX_set_next_proto_select_cb(ssl_ctx, client_select_next_proto_cb, nullptr); #endif // !OPENSSL_NO_NEXTPROTONEG #if OPENSSL_VERSION_NUMBER >= 0x10002000L auto proto_list = util::get_default_alpn(); SSL_CTX_set_alpn_protos(ssl_ctx, proto_list.data(), proto_list.size()); #endif // OPENSSL_VERSION_NUMBER >= 0x10002000L } { HttpClient client{callbacks, loop, ssl_ctx}; int32_t dep_stream_id = 0; if (!config.no_dep) { dep_stream_id = anchors[ANCHOR_FOLLOWERS].stream_id; } for (auto &req : requests) { nghttp2_priority_spec pri_spec; nghttp2_priority_spec_init(&pri_spec, dep_stream_id, std::get<3>(req), 0); for (int i = 0; i < config.multiply; ++i) { client.add_request(std::get<0>(req), std::get<1>(req), std::get<2>(req), pri_spec); } } client.update_hostport(); client.record_start_time(); if (client.resolve_host(host, port) != 0) { goto fin; } client.record_domain_lookup_end_time(); if (client.initiate_connection() != 0) { std::cerr << "[ERROR] Could not connect to " << host << ", port " << port << std::endl; goto fin; } ev_set_userdata(loop, &client); ev_run(loop, 0); ev_set_userdata(loop, nullptr); #ifdef HAVE_JANSSON if (!config.harfile.empty()) { FILE *outfile; if (config.harfile == "-") { outfile = stdout; } else { outfile = fopen(config.harfile.c_str(), "wb"); } if (outfile) { client.output_har(outfile); if (outfile != stdout) { fclose(outfile); } } else { std::cerr << "Cannot open file " << config.harfile << ". " << "har file could not be created." << std::endl; } } #endif // HAVE_JANSSON if (client.success != client.reqvec.size()) { std::cerr << "Some requests were not processed. total=" << client.reqvec.size() << ", processed=" << client.success << std::endl; } if (config.stat) { print_stats(client); } } fin: if (ssl_ctx) { SSL_CTX_free(ssl_ctx); } return result; } } // namespace namespace { ssize_t file_read_callback(nghttp2_session *session, int32_t stream_id, uint8_t *buf, size_t length, uint32_t *data_flags, nghttp2_data_source *source, void *user_data) { int rv; auto req = static_cast( nghttp2_session_get_stream_user_data(session, stream_id)); assert(req); int fd = source->fd; ssize_t nread; while ((nread = pread(fd, buf, length, req->data_offset)) == -1 && errno == EINTR) ; if (nread == -1) { return NGHTTP2_ERR_TEMPORAL_CALLBACK_FAILURE; } req->data_offset += nread; if (req->data_offset == req->data_length) { *data_flags |= NGHTTP2_DATA_FLAG_EOF; if (!config.trailer.empty()) { std::vector nva; nva.reserve(config.trailer.size()); for (auto &kv : config.trailer) { nva.push_back(http2::make_nv(kv.name, kv.value, kv.no_index)); } rv = nghttp2_submit_trailer(session, stream_id, nva.data(), nva.size()); if (rv != 0) { if (nghttp2_is_fatal(rv)) { return NGHTTP2_ERR_CALLBACK_FAILURE; } } else { *data_flags |= NGHTTP2_DATA_FLAG_NO_END_STREAM; } } return nread; } if (req->data_offset > req->data_length || nread == 0) { return NGHTTP2_ERR_TEMPORAL_CALLBACK_FAILURE; } return nread; } } // namespace namespace { int run(char **uris, int n) { nghttp2_session_callbacks *callbacks; nghttp2_session_callbacks_new(&callbacks); auto cbsdel = defer(nghttp2_session_callbacks_del, callbacks); nghttp2_session_callbacks_set_on_stream_close_callback( callbacks, on_stream_close_callback); nghttp2_session_callbacks_set_on_frame_recv_callback(callbacks, on_frame_recv_callback2); if (config.verbose) { nghttp2_session_callbacks_set_on_invalid_frame_recv_callback( callbacks, verbose_on_invalid_frame_recv_callback); nghttp2_session_callbacks_set_error_callback2(callbacks, verbose_error_callback); } nghttp2_session_callbacks_set_on_data_chunk_recv_callback( callbacks, on_data_chunk_recv_callback); nghttp2_session_callbacks_set_on_begin_headers_callback( callbacks, on_begin_headers_callback); nghttp2_session_callbacks_set_on_header_callback(callbacks, on_header_callback); nghttp2_session_callbacks_set_before_frame_send_callback( callbacks, before_frame_send_callback); nghttp2_session_callbacks_set_on_frame_send_callback(callbacks, on_frame_send_callback); nghttp2_session_callbacks_set_on_frame_not_send_callback( callbacks, on_frame_not_send_callback); if (config.padding) { nghttp2_session_callbacks_set_select_padding_callback( callbacks, select_padding_callback); } std::string prev_scheme; std::string prev_host; uint16_t prev_port = 0; int failures = 0; int data_fd = -1; nghttp2_data_provider data_prd; struct stat data_stat; if (!config.datafile.empty()) { if (config.datafile == "-") { if (fstat(0, &data_stat) == 0 && (data_stat.st_mode & S_IFMT) == S_IFREG) { // use STDIN if it is a regular file data_fd = 0; } else { // copy the contents of STDIN to a temporary file char tempfn[] = "/tmp/nghttp.temp.XXXXXX"; data_fd = mkstemp(tempfn); if (data_fd == -1) { std::cerr << "[ERROR] Could not create a temporary file in /tmp" << std::endl; return 1; } if (unlink(tempfn) != 0) { std::cerr << "[WARNING] failed to unlink temporary file:" << tempfn << std::endl; } while (1) { std::array buf; ssize_t rret, wret; while ((rret = read(0, buf.data(), buf.size())) == -1 && errno == EINTR) ; if (rret == 0) break; if (rret == -1) { std::cerr << "[ERROR] I/O error while reading from STDIN" << std::endl; return 1; } while ((wret = write(data_fd, buf.data(), rret)) == -1 && errno == EINTR) ; if (wret != rret) { std::cerr << "[ERROR] I/O error while writing to temporary file" << std::endl; return 1; } } if (fstat(data_fd, &data_stat) == -1) { close(data_fd); std::cerr << "[ERROR] Could not stat temporary file" << std::endl; return 1; } } } else { data_fd = open(config.datafile.c_str(), O_RDONLY | O_BINARY); if (data_fd == -1) { std::cerr << "[ERROR] Could not open file " << config.datafile << std::endl; return 1; } if (fstat(data_fd, &data_stat) == -1) { close(data_fd); std::cerr << "[ERROR] Could not stat file " << config.datafile << std::endl; return 1; } } data_prd.source.fd = data_fd; data_prd.read_callback = file_read_callback; } std::vector< std::tuple> requests; size_t next_weight_idx = 0; for (int i = 0; i < n; ++i) { http_parser_url u{}; auto uri = strip_fragment(uris[i]); if (http_parser_parse_url(uri.c_str(), uri.size(), 0, &u) != 0) { ++next_weight_idx; std::cerr << "[ERROR] Could not parse URI " << uri << std::endl; continue; } if (!util::has_uri_field(u, UF_SCHEMA)) { ++next_weight_idx; std::cerr << "[ERROR] URI " << uri << " does not have scheme part" << std::endl; continue; } auto port = util::has_uri_field(u, UF_PORT) ? u.port : util::get_default_port(uri.c_str(), u); auto host = decode_host(util::get_uri_field(uri.c_str(), u, UF_HOST)); if (!util::fieldeq(uri.c_str(), u, UF_SCHEMA, prev_scheme.c_str()) || host != prev_host || port != prev_port) { if (!requests.empty()) { if (communicate(prev_scheme, prev_host, prev_port, std::move(requests), callbacks) != 0) { ++failures; } requests.clear(); } prev_scheme = util::get_uri_field(uri.c_str(), u, UF_SCHEMA).str(); prev_host = std::move(host); prev_port = port; } requests.emplace_back(uri, data_fd == -1 ? nullptr : &data_prd, data_stat.st_size, config.weight[next_weight_idx++]); } if (!requests.empty()) { if (communicate(prev_scheme, prev_host, prev_port, std::move(requests), callbacks) != 0) { ++failures; } } return failures; } } // namespace namespace { void print_version(std::ostream &out) { out << "nghttp nghttp2/" NGHTTP2_VERSION << std::endl; } } // namespace namespace { void print_usage(std::ostream &out) { out << R"(Usage: nghttp [OPTIONS]... ... HTTP/2 client)" << std::endl; } } // namespace namespace { void print_help(std::ostream &out) { print_usage(out); out << R"( Specify URI to access. Options: -v, --verbose Print debug information such as reception and transmission of frames and name/value pairs. Specifying this option multiple times increases verbosity. -n, --null-out Discard downloaded data. -O, --remote-name Save download data in the current directory. The filename is derived from URI. If URI ends with '/', 'index.html' is used as a filename. Not implemented yet. -t, --timeout= Timeout each request after . Set 0 to disable timeout. -w, --window-bits= Sets the stream level initial window size to 2**-1. -W, --connection-window-bits= Sets the connection level initial window size to 2**-1. -a, --get-assets Download assets such as stylesheets, images and script files linked from the downloaded resource. Only links whose origins are the same with the linking resource will be downloaded. nghttp prioritizes resources using HTTP/2 dependency based priority. The priority order, from highest to lowest, is html itself, css, javascript and images. -s, --stat Print statistics. -H, --header=
Add a header to the requests. Example: -H':method: PUT' --trailer=
Add a trailer header to the requests.
must not include pseudo header field (header field name starting with ':'). To send trailer, one must use -d option to send request body. Example: --trailer 'foo: bar'. --cert= Use the specified client certificate file. The file must be in PEM format. --key= Use the client private key file. The file must be in PEM format. -d, --data= Post FILE to server. If '-' is given, data will be read from stdin. -m, --multiply= Request each URI times. By default, same URI is not requested twice. This option disables it too. -u, --upgrade Perform HTTP Upgrade for HTTP/2. This option is ignored if the request URI has https scheme. If -d is used, the HTTP upgrade request is performed with OPTIONS method. -p, --weight= Sets weight of given URI. This option can be used multiple times, and N-th -p option sets weight of N-th URI in the command line. If the number of -p option is less than the number of URI, the last -p option value is repeated. If there is no -p option, default weight, 16, is assumed. The valid value range is [)" << NGHTTP2_MIN_WEIGHT << ", " << NGHTTP2_MAX_WEIGHT << R"(], inclusive. -M, --peer-max-concurrent-streams= Use as SETTINGS_MAX_CONCURRENT_STREAMS value of remote endpoint as if it is received in SETTINGS frame. Default: 100 -c, --header-table-size= Specify decoder header table size. If this option is used multiple times, and the minimum value among the given values except for last one is strictly less than the last value, that minimum value is set in SETTINGS frame payload before the last value, to simulate multiple header table size change. --encoder-header-table-size= Specify encoder header table size. The decoder (server) specifies the maximum dynamic table size it accepts. Then the negotiated dynamic table size is the minimum of this option value and the value which server specified. -b, --padding= Add at most bytes to a frame payload as padding. Specify 0 to disable padding. -r, --har= Output HTTP transactions in HAR format. If '-' is given, data is written to stdout. --color Force colored log output. --continuation Send large header to test CONTINUATION. --no-content-length Don't send content-length header field. --no-dep Don't send dependency based priority hint to server. --hexdump Display the incoming traffic in hexadecimal (Canonical hex+ASCII display). If SSL/TLS is used, decrypted data are used. --no-push Disable server push. --max-concurrent-streams= The number of concurrent pushed streams this client accepts. --expect-continue Perform an Expect/Continue handshake: wait to send DATA (up to a short timeout) until the server sends a 100 Continue interim response. This option is ignored unless combined with the -d option. -y, --no-verify-peer Suppress warning on server certificate verification failure. --ktls Enable ktls. --no-rfc7540-pri Disable RFC7540 priorities. --version Display version information and exit. -h, --help Display this help and exit. -- The argument is an integer and an optional unit (e.g., 10K is 10 * 1024). Units are K, M and G (powers of 1024). The argument is an integer and an optional unit (e.g., 1s is 1 second and 500ms is 500 milliseconds). Units are h, m, s or ms (hours, minutes, seconds and milliseconds, respectively). If a unit is omitted, a second is used as unit.)" << std::endl; } } // namespace int main(int argc, char **argv) { tls::libssl_init(); bool color = false; while (1) { static int flag = 0; constexpr static option long_options[] = { {"verbose", no_argument, nullptr, 'v'}, {"null-out", no_argument, nullptr, 'n'}, {"remote-name", no_argument, nullptr, 'O'}, {"timeout", required_argument, nullptr, 't'}, {"window-bits", required_argument, nullptr, 'w'}, {"connection-window-bits", required_argument, nullptr, 'W'}, {"get-assets", no_argument, nullptr, 'a'}, {"stat", no_argument, nullptr, 's'}, {"help", no_argument, nullptr, 'h'}, {"header", required_argument, nullptr, 'H'}, {"data", required_argument, nullptr, 'd'}, {"multiply", required_argument, nullptr, 'm'}, {"upgrade", no_argument, nullptr, 'u'}, {"weight", required_argument, nullptr, 'p'}, {"peer-max-concurrent-streams", required_argument, nullptr, 'M'}, {"header-table-size", required_argument, nullptr, 'c'}, {"padding", required_argument, nullptr, 'b'}, {"har", required_argument, nullptr, 'r'}, {"no-verify-peer", no_argument, nullptr, 'y'}, {"cert", required_argument, &flag, 1}, {"key", required_argument, &flag, 2}, {"color", no_argument, &flag, 3}, {"continuation", no_argument, &flag, 4}, {"version", no_argument, &flag, 5}, {"no-content-length", no_argument, &flag, 6}, {"no-dep", no_argument, &flag, 7}, {"trailer", required_argument, &flag, 9}, {"hexdump", no_argument, &flag, 10}, {"no-push", no_argument, &flag, 11}, {"max-concurrent-streams", required_argument, &flag, 12}, {"expect-continue", no_argument, &flag, 13}, {"encoder-header-table-size", required_argument, &flag, 14}, {"ktls", no_argument, &flag, 15}, {"no-rfc7540-pri", no_argument, &flag, 16}, {nullptr, 0, nullptr, 0}}; int option_index = 0; int c = getopt_long(argc, argv, "M:Oab:c:d:m:np:r:hH:vst:uw:yW:", long_options, &option_index); if (c == -1) { break; } switch (c) { case 'M': { // peer-max-concurrent-streams option auto n = util::parse_uint(optarg); if (n == -1) { std::cerr << "-M: Bad option value: " << optarg << std::endl; exit(EXIT_FAILURE); } config.peer_max_concurrent_streams = n; break; } case 'O': config.remote_name = true; break; case 'h': print_help(std::cout); exit(EXIT_SUCCESS); case 'b': { auto n = util::parse_uint(optarg); if (n == -1) { std::cerr << "-b: Bad option value: " << optarg << std::endl; exit(EXIT_FAILURE); } config.padding = n; break; } case 'n': config.null_out = true; break; case 'p': { auto n = util::parse_uint(optarg); if (n == -1 || NGHTTP2_MIN_WEIGHT > n || n > NGHTTP2_MAX_WEIGHT) { std::cerr << "-p: specify the integer in the range [" << NGHTTP2_MIN_WEIGHT << ", " << NGHTTP2_MAX_WEIGHT << "], inclusive" << std::endl; exit(EXIT_FAILURE); } config.weight.push_back(n); break; } case 'r': #ifdef HAVE_JANSSON config.harfile = optarg; #else // !HAVE_JANSSON std::cerr << "[WARNING]: -r, --har option is ignored because\n" << "the binary was not compiled with libjansson." << std::endl; #endif // !HAVE_JANSSON break; case 'v': ++config.verbose; break; case 't': config.timeout = util::parse_duration_with_unit(optarg); if (config.timeout == std::numeric_limits::infinity()) { std::cerr << "-t: bad timeout value: " << optarg << std::endl; exit(EXIT_FAILURE); } break; case 'u': config.upgrade = true; break; case 'w': case 'W': { auto n = util::parse_uint(optarg); if (n == -1 || n > 30) { std::cerr << "-" << static_cast(c) << ": specify the integer in the range [0, 30], inclusive" << std::endl; exit(EXIT_FAILURE); } if (c == 'w') { config.window_bits = n; } else { config.connection_window_bits = n; } break; } case 'H': { char *header = optarg; // Skip first possible ':' in the header name char *value = strchr(optarg + 1, ':'); if (!value || (header[0] == ':' && header + 1 == value)) { std::cerr << "-H: invalid header: " << optarg << std::endl; exit(EXIT_FAILURE); } *value = 0; value++; while (isspace(*value)) { value++; } if (*value == 0) { // This could also be a valid case for suppressing a header // similar to curl std::cerr << "-H: invalid header - value missing: " << optarg << std::endl; exit(EXIT_FAILURE); } config.headers.emplace_back(header, value, false); util::inp_strlower(config.headers.back().name); break; } case 'a': #ifdef HAVE_LIBXML2 config.get_assets = true; #else // !HAVE_LIBXML2 std::cerr << "[WARNING]: -a, --get-assets option is ignored because\n" << "the binary was not compiled with libxml2." << std::endl; #endif // !HAVE_LIBXML2 break; case 's': config.stat = true; break; case 'd': config.datafile = optarg; break; case 'm': { auto n = util::parse_uint(optarg); if (n == -1) { std::cerr << "-m: Bad option value: " << optarg << std::endl; exit(EXIT_FAILURE); } config.multiply = n; break; } case 'c': { auto n = util::parse_uint_with_unit(optarg); if (n == -1) { std::cerr << "-c: Bad option value: " << optarg << std::endl; exit(EXIT_FAILURE); } if (n > std::numeric_limits::max()) { std::cerr << "-c: Value too large. It should be less than or equal to " << std::numeric_limits::max() << std::endl; exit(EXIT_FAILURE); } config.header_table_size = n; config.min_header_table_size = std::min(config.min_header_table_size, n); break; } case 'y': config.verify_peer = false; break; case '?': util::show_candidates(argv[optind - 1], long_options); exit(EXIT_FAILURE); case 0: switch (flag) { case 1: // cert option config.certfile = optarg; break; case 2: // key option config.keyfile = optarg; break; case 3: // color option color = true; break; case 4: // continuation option config.continuation = true; break; case 5: // version option print_version(std::cout); exit(EXIT_SUCCESS); case 6: // no-content-length option config.no_content_length = true; break; case 7: // no-dep option config.no_dep = true; break; case 9: { // trailer option auto header = optarg; auto value = strchr(optarg, ':'); if (!value) { std::cerr << "--trailer: invalid header: " << optarg << std::endl; exit(EXIT_FAILURE); } *value = 0; value++; while (isspace(*value)) { value++; } if (*value == 0) { // This could also be a valid case for suppressing a header // similar to curl std::cerr << "--trailer: invalid header - value missing: " << optarg << std::endl; exit(EXIT_FAILURE); } config.trailer.emplace_back(header, value, false); util::inp_strlower(config.trailer.back().name); break; } case 10: // hexdump option config.hexdump = true; break; case 11: // no-push option config.no_push = true; break; case 12: { // max-concurrent-streams option auto n = util::parse_uint(optarg); if (n == -1) { std::cerr << "--max-concurrent-streams: Bad option value: " << optarg << std::endl; exit(EXIT_FAILURE); } config.max_concurrent_streams = n; break; } case 13: // expect-continue option config.expect_continue = true; break; case 14: { // encoder-header-table-size option auto n = util::parse_uint_with_unit(optarg); if (n == -1) { std::cerr << "--encoder-header-table-size: Bad option value: " << optarg << std::endl; exit(EXIT_FAILURE); } if (n > std::numeric_limits::max()) { std::cerr << "--encoder-header-table-size: Value too large. It " "should be less than or equal to " << std::numeric_limits::max() << std::endl; exit(EXIT_FAILURE); } config.encoder_header_table_size = n; break; } case 15: // ktls option config.ktls = true; break; case 16: // no-rfc7540-pri option config.no_rfc7540_pri = true; break; } break; default: break; } } int32_t weight_to_fill; if (config.weight.empty()) { weight_to_fill = NGHTTP2_DEFAULT_WEIGHT; } else { weight_to_fill = config.weight.back(); } config.weight.insert(std::end(config.weight), argc - optind, weight_to_fill); // Find scheme overridden by extra header fields. auto scheme_it = std::find_if(std::begin(config.headers), std::end(config.headers), [](const Header &nv) { return nv.name == ":scheme"; }); if (scheme_it != std::end(config.headers)) { config.scheme_override = (*scheme_it).value; } // Find host and port overridden by extra header fields. auto authority_it = std::find_if(std::begin(config.headers), std::end(config.headers), [](const Header &nv) { return nv.name == ":authority"; }); if (authority_it == std::end(config.headers)) { authority_it = std::find_if(std::begin(config.headers), std::end(config.headers), [](const Header &nv) { return nv.name == "host"; }); } if (authority_it != std::end(config.headers)) { // authority_it may looks like "host:port". auto uri = "https://" + (*authority_it).value; http_parser_url u{}; if (http_parser_parse_url(uri.c_str(), uri.size(), 0, &u) != 0) { std::cerr << "[ERROR] Could not parse authority in " << (*authority_it).name << ": " << (*authority_it).value << std::endl; exit(EXIT_FAILURE); } config.host_override = util::get_uri_field(uri.c_str(), u, UF_HOST).str(); if (util::has_uri_field(u, UF_PORT)) { config.port_override = u.port; } } set_color_output(color || isatty(fileno(stdout))); nghttp2_option_set_peer_max_concurrent_streams( config.http2_option, config.peer_max_concurrent_streams); if (config.encoder_header_table_size != -1) { nghttp2_option_set_max_deflate_dynamic_table_size( config.http2_option, config.encoder_header_table_size); } struct sigaction act {}; act.sa_handler = SIG_IGN; sigaction(SIGPIPE, &act, nullptr); reset_timer(); return run(argv + optind, argc - optind); } } // namespace nghttp2 int main(int argc, char **argv) { return nghttp2::run_app(nghttp2::main, argc, argv); }