/* * Copyright (c) 2016 The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/xia-chu/ZLMediaKit). * * Use of this source code is governed by MIT license that can be found in the * LICENSE file in the root of the source tree. All contributing project authors * may be found in the AUTHORS file in the root of the source tree. */ #include #include "Util/base64.h" #include "HttpClient.h" #include "Common/config.h" namespace mediakit { void HttpClient::sendRequest(const string &url) { clearResponse(); _url = url; auto protocol = FindField(url.data(), NULL, "://"); uint16_t default_port; bool is_https; if (strcasecmp(protocol.data(), "http") == 0) { default_port = 80; is_https = false; } else if (strcasecmp(protocol.data(), "https") == 0) { default_port = 443; is_https = true; } else { auto strErr = StrPrinter << "非法的http url:" << url << endl; throw std::invalid_argument(strErr); } auto host = FindField(url.data(), "://", "/"); if (host.empty()) { host = FindField(url.data(), "://", NULL); } _path = FindField(url.data(), host.data(), NULL); if (_path.empty()) { _path = "/"; } //重新设置header,防止上次请求的header干扰 _header = _user_set_header; auto pos = host.find('@'); if (pos != string::npos) { //去除?后面的字符串 auto authStr = host.substr(0, pos); host = host.substr(pos + 1, host.size()); _header.emplace("Authorization", "Basic " + encodeBase64(authStr)); } auto host_header = host; uint16_t port = atoi(FindField(host.data(), ":", NULL).data()); if (port <= 0) { //默认端口 port = default_port; } else { //服务器域名 host = FindField(host.data(), NULL, ":"); } _header.emplace("Host", host_header); _header.emplace("User-Agent", kServerName); _header.emplace("Connection", "keep-alive"); _header.emplace("Accept", "*/*"); _header.emplace("Accept-Language", "zh-CN,zh;q=0.8"); if (_body && _body->remainSize()) { _header.emplace("Content-Length", to_string(_body->remainSize())); _header.emplace("Content-Type", "application/x-www-form-urlencoded; charset=UTF-8"); } bool host_changed = (_last_host != host + ":" + to_string(port)) || (_is_https != is_https); _last_host = host + ":" + to_string(port); _is_https = is_https; auto cookies = HttpCookieStorage::Instance().get(_last_host, _path); _StrPrinter printer; for (auto &cookie : cookies) { printer << cookie->getKey() << "=" << cookie->getVal() << ";"; } if (!printer.empty()) { printer.pop_back(); _header.emplace("Cookie", printer); } if (!alive() || host_changed) { startConnect(host, port, _wait_header_ms); } else { SockException ex; onConnect_l(ex); } } void HttpClient::clear() { _url.clear(); _user_set_header.clear(); _body.reset(); _method.clear(); clearResponse(); } void HttpClient::clearResponse() { _complete = false; _header_recved = false; _recved_body_size = 0; _total_body_size = 0; _parser.Clear(); _chunked_splitter = nullptr; _wait_header.resetTime(); _wait_body.resetTime(); _wait_complete.resetTime(); HttpRequestSplitter::reset(); } void HttpClient::setMethod(string method) { _method = std::move(method); } void HttpClient::setHeader(HttpHeader header) { _user_set_header = std::move(header); } HttpClient &HttpClient::addHeader(string key, string val, bool force) { if (!force) { _user_set_header.emplace(std::move(key), std::move(val)); } else { _user_set_header[std::move(key)] = std::move(val); } return *this; } void HttpClient::setBody(string body) { _body.reset(new HttpStringBody(std::move(body))); } void HttpClient::setBody(HttpBody::Ptr body) { _body = std::move(body); } const Parser &HttpClient::response() const { return _parser; } ssize_t HttpClient::responseBodyTotalSize() const { return _total_body_size; } size_t HttpClient::responseBodySize() const { return _recved_body_size; } const string &HttpClient::getUrl() const { return _url; } void HttpClient::onConnect(const SockException &ex) { onConnect_l(ex); } void HttpClient::onConnect_l(const SockException &ex) { if (ex) { onResponseCompleted_l(ex); return; } _StrPrinter printer; printer << _method + " " << _path + " HTTP/1.1\r\n"; for (auto &pr : _header) { printer << pr.first + ": "; printer << pr.second + "\r\n"; } _header.clear(); _path.clear(); SockSender::send(printer << "\r\n"); onFlush(); } void HttpClient::onRecv(const Buffer::Ptr &pBuf) { _wait_body.resetTime(); HttpRequestSplitter::input(pBuf->data(), pBuf->size()); } void HttpClient::onErr(const SockException &ex) { onResponseCompleted_l(ex); } ssize_t HttpClient::onRecvHeader(const char *data, size_t len) { _parser.Parse(data); if (_parser.Url() == "302" || _parser.Url() == "301") { auto new_url = _parser["Location"]; if (new_url.empty()) { throw invalid_argument("未找到Location字段(跳转url)"); } if (onRedirectUrl(new_url, _parser.Url() == "302")) { HttpClient::sendRequest(new_url); return 0; } } checkCookie(_parser.getHeader()); onResponseHeader(_parser.Url(), _parser.getHeader()); _header_recved = true; if (_parser["Transfer-Encoding"] == "chunked") { //如果Transfer-Encoding字段等于chunked,则认为后续的content是不限制长度的 _total_body_size = -1; _chunked_splitter = std::make_shared([this](const char *data, size_t len) { if (len > 0) { _recved_body_size += len; onResponseBody(data, len); } else { _total_body_size = _recved_body_size; onResponseCompleted_l(SockException(Err_success, "success")); } }); //后续为源源不断的body return -1; } if (!_parser["Content-Length"].empty()) { //有Content-Length字段时忽略onResponseHeader的返回值 _total_body_size = atoll(_parser["Content-Length"].data()); } else { _total_body_size = -1; } if (_total_body_size == 0) { //后续没content,本次http请求结束 onResponseCompleted_l(SockException(Err_success, "success")); return 0; } //当_total_body_size != 0时到达这里,代表后续有content //虽然我们在_total_body_size >0 时知道content的确切大小, //但是由于我们没必要等content接收完毕才回调onRecvContent(因为这样浪费内存并且要多次拷贝数据) //所以返回-1代表我们接下来分段接收content _recved_body_size = 0; return -1; } void HttpClient::onRecvContent(const char *data, size_t len) { if (_chunked_splitter) { _chunked_splitter->input(data, len); return; } _recved_body_size += len; if (_total_body_size < 0) { //不限长度的content onResponseBody(data, len); return; } //固定长度的content if (_recved_body_size < (size_t) _total_body_size) { //content还未接收完毕 onResponseBody(data, len); return; } if (_recved_body_size == (size_t)_total_body_size) { //content接收完毕 onResponseBody(data, len); onResponseCompleted_l(SockException(Err_success, "success")); return; } //声明的content数据比真实的小,断开链接 onResponseBody(data, len); throw invalid_argument("http response content size bigger than expected"); } void HttpClient::onFlush() { GET_CONFIG(uint32_t, send_buf_size, Http::kSendBufSize); while (_body && _body->remainSize() && !isSocketBusy()) { auto buffer = _body->readData(send_buf_size); if (!buffer) { //数据发送结束或读取数据异常 break; } if (send(buffer) <= 0) { //发送数据失败,不需要回滚数据,因为发送前已经通过isSocketBusy()判断socket可写 //所以发送缓存区肯定未满,该buffer肯定已经写入socket break; } } } void HttpClient::onManager() { //onManager回调在连接中或已连接状态才会调用 if (_wait_complete_ms > 0) { //设置了总超时时间 if (!_complete && _wait_complete.elapsedTime() > _wait_complete_ms) { //等待http回复完毕超时 shutdown(SockException(Err_timeout, "wait http response complete timeout")); return; } return; } //未设置总超时时间 if (!_header_recved) { //等待header中 if (_wait_header.elapsedTime() > _wait_header_ms) { //等待header中超时 shutdown(SockException(Err_timeout, "wait http response header timeout")); return; } } else if (_wait_body_ms > 0 && _wait_body.elapsedTime() > _wait_body_ms) { //等待body中,等待超时 shutdown(SockException(Err_timeout, "wait http response body timeout")); return; } } void HttpClient::onResponseCompleted_l(const SockException &ex) { if (_complete) { return; } _complete = true; _wait_complete.resetTime(); if (!ex) { //确认无疑的成功 onResponseCompleted(ex); return; } //可疑的失败 if (_total_body_size > 0 && _recved_body_size >= (size_t)_total_body_size) { //回复header中有content-length信息,那么收到的body大于等于声明值则认为成功 onResponseCompleted(SockException(Err_success, "success")); return; } if (_total_body_size == -1 && _recved_body_size > 0) { //回复header中无content-length信息,那么收到一点body也认为成功 onResponseCompleted(SockException(Err_success, ex.what())); return; } //确认无疑的失败 onResponseCompleted(ex); } bool HttpClient::waitResponse() const { return !_complete && alive(); } bool HttpClient::isHttps() const { return _is_https; } void HttpClient::checkCookie(HttpClient::HttpHeader &headers) { //Set-Cookie: IPTV_SERVER=8E03927B-CC8C-4389-BC00-31DBA7EC7B49;expires=Sun, Sep 23 2018 15:07:31 GMT;path=/index/api/ for (auto it_set_cookie = headers.find("Set-Cookie"); it_set_cookie != headers.end(); ++it_set_cookie) { auto key_val = Parser::parseArgs(it_set_cookie->second, ";", "="); HttpCookie::Ptr cookie = std::make_shared(); cookie->setHost(_last_host); int index = 0; auto arg_vec = split(it_set_cookie->second, ";"); for (string &key_val : arg_vec) { auto key = FindField(key_val.data(), NULL, "="); auto val = FindField(key_val.data(), "=", NULL); if (index++ == 0) { cookie->setKeyVal(key, val); continue; } if (key == "path") { cookie->setPath(val); continue; } if (key == "expires") { cookie->setExpires(val, headers["Date"]); continue; } } if (!(*cookie)) { //无效的cookie continue; } HttpCookieStorage::Instance().set(cookie); } } void HttpClient::setHeaderTimeout(size_t timeout_ms) { CHECK(timeout_ms > 0); _wait_header_ms = timeout_ms; } void HttpClient::setBodyTimeout(size_t timeout_ms) { _wait_body_ms = timeout_ms; } void HttpClient::setCompleteTimeout(size_t timeout_ms) { _wait_complete_ms = timeout_ms; } } /* namespace mediakit */