// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef NET_HTTP_HTTP_NETWORK_TRANSACTION_H_ #define NET_HTTP_HTTP_NETWORK_TRANSACTION_H_ #include #include "base/ref_counted.h" #include "net/base/address_list.h" #include "net/base/client_socket_handle.h" #include "net/base/host_resolver.h" #include "net/base/ssl_config_service.h" #include "net/http/http_auth.h" #include "net/http/http_auth_handler.h" #include "net/http/http_response_info.h" #include "net/http/http_transaction.h" #include "net/proxy/proxy_service.h" namespace net { class ClientSocketFactory; class HostResolver; class HttpChunkedDecoder; class HttpNetworkSession; class UploadDataStream; class HttpNetworkTransaction : public HttpTransaction { public: HttpNetworkTransaction(HttpNetworkSession* session, ClientSocketFactory* socket_factory); virtual ~HttpNetworkTransaction(); // HttpTransaction methods: virtual int Start(const HttpRequestInfo* request_info, CompletionCallback* callback); virtual int RestartIgnoringLastError(CompletionCallback* callback); virtual int RestartWithAuth(const std::wstring& username, const std::wstring& password, CompletionCallback* callback); virtual int Read(char* buf, int buf_len, CompletionCallback* callback); virtual const HttpResponseInfo* GetResponseInfo() const; virtual LoadState GetLoadState() const; virtual uint64 GetUploadProgress() const; private: void BuildRequestHeaders(); void BuildTunnelRequest(); void DoCallback(int result); void OnIOComplete(int result); // Runs the state transition loop. int DoLoop(int result); // Each of these methods corresponds to a State value. Those with an input // argument receive the result from the previous state. If a method returns // ERR_IO_PENDING, then the result from OnIOComplete will be passed to the // next state method as the result arg. int DoResolveProxy(); int DoResolveProxyComplete(int result); int DoInitConnection(); int DoInitConnectionComplete(int result); int DoResolveHost(); int DoResolveHostComplete(int result); int DoConnect(); int DoConnectComplete(int result); int DoSSLConnectOverTunnel(); int DoSSLConnectOverTunnelComplete(int result); int DoWriteHeaders(); int DoWriteHeadersComplete(int result); int DoWriteBody(); int DoWriteBodyComplete(int result); int DoReadHeaders(); int DoReadHeadersComplete(int result); int DoReadBody(); int DoReadBodyComplete(int result); // Record histogram of latency (first byte sent till last byte received) as // well as effective bandwidth used. void LogTransactionMetrics() const; // Called when header_buf_ contains the complete response headers. int DidReadResponseHeaders(); // Called to handle a certificate error. Returns OK if the error should be // ignored. Otherwise, stores the certificate in response_.ssl_info and // returns the same error code. int HandleCertificateError(int error); // Called to possibly recover from an SSL handshake error. Sets next_state_ // and returns OK if recovering from the error. Otherwise, the same error // code is returned. int HandleSSLHandshakeError(int error); // Called to possibly recover from the given error. Sets next_state_ and // returns OK if recovering from the error. Otherwise, the same error code // is returned. int HandleIOError(int error); // Called when we reached EOF or got an error. If we should resend the // request, sets next_state_ and returns true. Otherwise, does nothing and // returns false. bool ShouldResendRequest(); // Called when we encounter a network error that could be resolved by trying // a new proxy configuration. If there is another proxy configuration to try // then this method sets next_state_ appropriately and returns either OK or // ERR_IO_PENDING depending on whether or not the new proxy configuration is // available synchronously or asynchronously. Otherwise, the given error // code is simply returned. int ReconsiderProxyAfterError(int error); // Decides the policy when the connection is closed before the end of headers // has been read. This only applies to reading responses, and not writing // requests. int HandleConnectionClosedBeforeEndOfHeaders(); // Return true if based on the bytes read so far, the start of the // status line is known. This is used to distingish between HTTP/0.9 // responses (which have no status line) and HTTP/1.x responses. bool has_found_status_line_start() const { return header_buf_http_offset_ != -1; } // Sets up the state machine to restart the transaction with auth. void PrepareForAuthRestart(HttpAuth::Target target); // Resets the members of the transaction so it can be restarted. void ResetStateForRestart(); // Attach any credentials needed for the proxy server or origin server. void ApplyAuth(); // Helper used by ApplyAuth(). Adds either the proxy auth header, or the // origin server auth header, as specified by |target| void AddAuthorizationHeader(HttpAuth::Target target); // Handles HTTP status code 401 or 407. // HandleAuthChallenge() returns a network error code, or OK, or // WILL_RESTART_TRANSACTION. The latter indicates that the state machine has // been updated to restart the transaction with a new auth attempt. enum { WILL_RESTART_TRANSACTION = 1 }; int HandleAuthChallenge(); // Populates response_.auth_challenge with the challenge information, so that // URLRequestHttpJob can prompt for a username/password. void PopulateAuthChallenge(HttpAuth::Target target); // Invalidates any auth cache entries after authentication has failed. // The identity that was rejected is auth_identity_[target]. void InvalidateRejectedAuthFromCache(HttpAuth::Target target); // Sets auth_identity_[target] to the next identity that the transaction // should try. It chooses candidates by searching the auth cache // and the URL for a username:password. Returns true if an identity // was found. bool SelectNextAuthIdentityToTry(HttpAuth::Target target); // Searches the auth cache for an entry that encompasses the request's path. // If such an entry is found, updates auth_identity_[target] and // auth_handler_[target] with the cache entry's data and returns true. bool SelectPreemptiveAuth(HttpAuth::Target target); bool NeedAuth(HttpAuth::Target target) const { return auth_handler_[target].get() && auth_identity_[target].invalid; } bool HaveAuth(HttpAuth::Target target) const { return auth_handler_[target].get() && !auth_identity_[target].invalid; } // Get the {scheme, host, port} for the authentication target GURL AuthOrigin(HttpAuth::Target target) const; // Get the absolute path of the resource needing authentication. // For proxy authentication the path is always empty string. std::string AuthPath(HttpAuth::Target target) const; // The following three auth members are arrays of size two -- index 0 is // for the proxy server, and index 1 is for the origin server. // Use the enum HttpAuth::Target to index into them. // auth_handler encapsulates the logic for the particular auth-scheme. // This includes the challenge's parameters. If NULL, then there is no // associated auth handler. scoped_refptr auth_handler_[2]; // auth_identity_ holds the (username/password) that should be used by // the auth_handler_ to generate credentials. This identity can come from // a number of places (url, cache, prompt). HttpAuth::Identity auth_identity_[2]; CompletionCallbackImpl io_callback_; CompletionCallback* user_callback_; scoped_refptr session_; const HttpRequestInfo* request_; HttpResponseInfo response_; ProxyService::PacRequest* pac_request_; ProxyInfo proxy_info_; HostResolver resolver_; AddressList addresses_; ClientSocketFactory* socket_factory_; ClientSocketHandle connection_; bool reused_socket_; bool using_ssl_; // True if handling a HTTPS request bool using_proxy_; // True if using a proxy for HTTP (not HTTPS) bool using_tunnel_; // True if using a tunnel for HTTPS // True while establishing a tunnel. This allows the HTTP CONNECT // request/response to reuse the STATE_WRITE_HEADERS, // STATE_WRITE_HEADERS_COMPLETE, STATE_READ_HEADERS, and // STATE_READ_HEADERS_COMPLETE states and allows us to tell them apart from // the real request/response of the transaction. bool establishing_tunnel_; SSLConfig ssl_config_; std::string request_headers_; size_t request_headers_bytes_sent_; scoped_ptr request_body_stream_; // The read buffer may be larger than it is full. The 'capacity' indicates // the allocation size of the buffer, and the 'len' indicates how much data // is in the buffer already. The 'body offset' indicates the offset of the // start of the response body within the read buffer. scoped_ptr_malloc header_buf_; int header_buf_capacity_; int header_buf_len_; int header_buf_body_offset_; // The number of bytes by which the header buffer is grown when it reaches // capacity. enum { kHeaderBufInitialSize = 4096 }; // |kMaxHeaderBufSize| is the number of bytes that the response headers can // grow to. If the body start is not found within this range of the // response, the transaction will fail with ERR_RESPONSE_HEADERS_TOO_BIG. // Note: |kMaxHeaderBufSize| should be a multiple of |kHeaderBufInitialSize|. enum { kMaxHeaderBufSize = 32768 }; // 32 kilobytes. // The position where status line starts; -1 if not found yet. int header_buf_http_offset_; // Indicates the content length remaining to read. If this value is less // than zero (and chunked_decoder_ is null), then we read until the server // closes the connection. int64 content_length_; // Keeps track of the number of response body bytes read so far. int64 content_read_; scoped_ptr chunked_decoder_; // User buffer and length passed to the Read method. char* read_buf_; int read_buf_len_; enum State { STATE_RESOLVE_PROXY, STATE_RESOLVE_PROXY_COMPLETE, STATE_INIT_CONNECTION, STATE_INIT_CONNECTION_COMPLETE, STATE_RESOLVE_HOST, STATE_RESOLVE_HOST_COMPLETE, STATE_CONNECT, STATE_CONNECT_COMPLETE, STATE_SSL_CONNECT_OVER_TUNNEL, STATE_SSL_CONNECT_OVER_TUNNEL_COMPLETE, STATE_WRITE_HEADERS, STATE_WRITE_HEADERS_COMPLETE, STATE_WRITE_BODY, STATE_WRITE_BODY_COMPLETE, STATE_READ_HEADERS, STATE_READ_HEADERS_COMPLETE, STATE_READ_BODY, STATE_READ_BODY_COMPLETE, STATE_NONE }; State next_state_; }; } // namespace net #endif // NET_HTTP_HTTP_NETWORK_TRANSACTION_H_