// Copyright (c) 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. #include "net/ftp/ftp_network_transaction.h" #include "base/compiler_specific.h" #include "base/string_util.h" #include "net/base/connection_type_histograms.h" #include "net/base/load_log.h" #include "net/base/net_errors.h" #include "net/base/net_util.h" #include "net/ftp/ftp_network_session.h" #include "net/ftp/ftp_request_info.h" #include "net/socket/client_socket.h" #include "net/socket/client_socket_factory.h" // TODO(ibrar): Try to avoid sscanf. #if !defined(COMPILER_MSVC) #define sscanf_s sscanf #endif const char kCRLF[] = "\r\n"; const int kCtrlBufLen = 1024; namespace net { FtpNetworkTransaction::FtpNetworkTransaction( FtpNetworkSession* session, ClientSocketFactory* socket_factory) : command_sent_(COMMAND_NONE), ALLOW_THIS_IN_INITIALIZER_LIST( io_callback_(this, &FtpNetworkTransaction::OnIOComplete)), user_callback_(NULL), session_(session), request_(NULL), resolver_(session->host_resolver()), read_ctrl_buf_(new IOBuffer(kCtrlBufLen)), ctrl_response_buffer_(new FtpCtrlResponseBuffer()), read_data_buf_len_(0), file_data_len_(0), write_command_buf_written_(0), last_error_(OK), retr_failed_(false), data_connection_port_(0), socket_factory_(socket_factory), next_state_(STATE_NONE) { } FtpNetworkTransaction::~FtpNetworkTransaction() { } int FtpNetworkTransaction::Start(const FtpRequestInfo* request_info, CompletionCallback* callback, LoadLog* load_log) { load_log_ = load_log; request_ = request_info; if (request_->url.has_username()) { username_ = UTF8ToWide(request_->url.username()); if (request_->url.has_password()) password_ = UTF8ToWide(request_->url.password()); } else { username_ = L"anonymous"; password_ = L"chrome@example.com"; } next_state_ = STATE_CTRL_INIT; int rv = DoLoop(OK); if (rv == ERR_IO_PENDING) user_callback_ = callback; return rv; } int FtpNetworkTransaction::Stop(int error) { if (command_sent_ == COMMAND_QUIT) return error; next_state_ = STATE_CTRL_WRITE_QUIT; last_error_ = error; return OK; } int FtpNetworkTransaction::RestartWithAuth(const std::wstring& username, const std::wstring& password, CompletionCallback* callback) { ResetStateForRestart(); username_ = username; password_ = password; next_state_ = STATE_CTRL_INIT; int rv = DoLoop(OK); if (rv == ERR_IO_PENDING) user_callback_ = callback; return rv; } int FtpNetworkTransaction::RestartIgnoringLastError( CompletionCallback* callback) { return ERR_FAILED; } int FtpNetworkTransaction::Read(IOBuffer* buf, int buf_len, CompletionCallback* callback) { DCHECK(buf); DCHECK_GT(buf_len, 0); read_data_buf_ = buf; read_data_buf_len_ = buf_len; next_state_ = STATE_DATA_READ; int rv = DoLoop(OK); if (rv == ERR_IO_PENDING) user_callback_ = callback; return rv; } const FtpResponseInfo* FtpNetworkTransaction::GetResponseInfo() const { return &response_; } LoadState FtpNetworkTransaction::GetLoadState() const { if (next_state_ == STATE_CTRL_RESOLVE_HOST_COMPLETE) return LOAD_STATE_RESOLVING_HOST; if (next_state_ == STATE_CTRL_CONNECT_COMPLETE || next_state_ == STATE_DATA_CONNECT_COMPLETE) return LOAD_STATE_CONNECTING; if (next_state_ == STATE_DATA_READ_COMPLETE) return LOAD_STATE_READING_RESPONSE; if (command_sent_ == COMMAND_RETR && read_data_buf_.get()) return LOAD_STATE_READING_RESPONSE; if (command_sent_ == COMMAND_QUIT) return LOAD_STATE_IDLE; if (command_sent_ != COMMAND_NONE) return LOAD_STATE_SENDING_REQUEST; return LOAD_STATE_IDLE; } uint64 FtpNetworkTransaction::GetUploadProgress() const { return 0; } // Used to prepare and send FTP command. int FtpNetworkTransaction::SendFtpCommand(const std::string& command, Command cmd) { // If we send a new command when we still have unprocessed responses // for previous commands, the response receiving code will have no way to know // which responses are for which command. DCHECK(!ctrl_response_buffer_->ResponseAvailable()); DCHECK(!write_command_buf_); DCHECK(!write_buf_); command_sent_ = cmd; write_command_buf_ = new IOBufferWithSize(command.length() + 2); write_buf_ = new ReusedIOBuffer(write_command_buf_, write_command_buf_->size()); memcpy(write_command_buf_->data(), command.data(), command.length()); memcpy(write_command_buf_->data() + command.length(), kCRLF, 2); next_state_ = STATE_CTRL_WRITE; return OK; } // static FtpNetworkTransaction::ErrorClass FtpNetworkTransaction::GetErrorClass( int response_code) { if (response_code >= 100 && response_code <= 199) return ERROR_CLASS_INITIATED; if (response_code >= 200 && response_code <= 299) return ERROR_CLASS_OK; if (response_code >= 300 && response_code <= 399) return ERROR_CLASS_INFO_NEEDED; if (response_code >= 400 && response_code <= 499) return ERROR_CLASS_TRANSIENT_ERROR; if (response_code >= 500 && response_code <= 599) return ERROR_CLASS_PERMANENT_ERROR; // We should not be called on invalid error codes. NOTREACHED(); return ERROR_CLASS_PERMANENT_ERROR; } int FtpNetworkTransaction::ProcessCtrlResponse() { FtpCtrlResponse response = ctrl_response_buffer_->PopResponse(); int rv = OK; switch (command_sent_) { case COMMAND_NONE: // TODO(phajdan.jr): Check for errors in the welcome message. next_state_ = STATE_CTRL_WRITE_USER; break; case COMMAND_USER: rv = ProcessResponseUSER(response); break; case COMMAND_PASS: rv = ProcessResponsePASS(response); break; case COMMAND_ACCT: rv = ProcessResponseACCT(response); break; case COMMAND_SYST: rv = ProcessResponseSYST(response); break; case COMMAND_PWD: rv = ProcessResponsePWD(response); break; case COMMAND_TYPE: rv = ProcessResponseTYPE(response); break; case COMMAND_PASV: rv = ProcessResponsePASV(response); break; case COMMAND_SIZE: rv = ProcessResponseSIZE(response); break; case COMMAND_RETR: rv = ProcessResponseRETR(response); break; case COMMAND_CWD: rv = ProcessResponseCWD(response); break; case COMMAND_LIST: rv = ProcessResponseLIST(response); break; case COMMAND_MDTM: rv = ProcessResponseMDTM(response); break; case COMMAND_QUIT: rv = ProcessResponseQUIT(response); break; default: LOG(DFATAL) << "Unexpected value of command_sent_: " << command_sent_; return ERR_UNEXPECTED; } // We may get multiple responses for some commands, // see http://crbug.com/18036. while (ctrl_response_buffer_->ResponseAvailable() && rv == OK) { response = ctrl_response_buffer_->PopResponse(); switch (command_sent_) { case COMMAND_RETR: rv = ProcessResponseRETR(response); break; default: // Multiple responses for other commands are invalid. return Stop(ERR_INVALID_RESPONSE); } } return rv; } void FtpNetworkTransaction::ResetStateForRestart() { command_sent_ = COMMAND_NONE; user_callback_ = NULL; response_ = FtpResponseInfo(); read_ctrl_buf_ = new IOBuffer(kCtrlBufLen); ctrl_response_buffer_.reset(new FtpCtrlResponseBuffer()); read_data_buf_ = NULL; read_data_buf_len_ = 0; file_data_len_ = 0; write_command_buf_written_ = 0; last_error_ = OK; retr_failed_ = false; data_connection_port_ = 0; ctrl_socket_.reset(); data_socket_.reset(); next_state_ = STATE_NONE; } void FtpNetworkTransaction::DoCallback(int rv) { DCHECK(rv != ERR_IO_PENDING); DCHECK(user_callback_); // Since Run may result in Read being called, clear callback_ up front. CompletionCallback* c = user_callback_; user_callback_ = NULL; c->Run(rv); } void FtpNetworkTransaction::OnIOComplete(int result) { int rv = DoLoop(result); if (rv != ERR_IO_PENDING) DoCallback(rv); } int FtpNetworkTransaction::DoLoop(int result) { DCHECK(next_state_ != STATE_NONE); int rv = result; do { State state = next_state_; next_state_ = STATE_NONE; switch (state) { case STATE_CTRL_INIT: DCHECK(rv == OK); rv = DoCtrlInit(); break; case STATE_CTRL_INIT_COMPLETE: rv = DoCtrlInitComplete(rv); break; case STATE_CTRL_RESOLVE_HOST: DCHECK(rv == OK); rv = DoCtrlResolveHost(); break; case STATE_CTRL_RESOLVE_HOST_COMPLETE: rv = DoCtrlResolveHostComplete(rv); break; case STATE_CTRL_CONNECT: DCHECK(rv == OK); rv = DoCtrlConnect(); break; case STATE_CTRL_CONNECT_COMPLETE: rv = DoCtrlConnectComplete(rv); break; case STATE_CTRL_READ: DCHECK(rv == OK); rv = DoCtrlRead(); break; case STATE_CTRL_READ_COMPLETE: rv = DoCtrlReadComplete(rv); break; case STATE_CTRL_WRITE: DCHECK(rv == OK); rv = DoCtrlWrite(); break; case STATE_CTRL_WRITE_COMPLETE: rv = DoCtrlWriteComplete(rv); break; case STATE_CTRL_WRITE_USER: DCHECK(rv == OK); rv = DoCtrlWriteUSER(); break; case STATE_CTRL_WRITE_PASS: DCHECK(rv == OK); rv = DoCtrlWritePASS(); break; case STATE_CTRL_WRITE_SYST: DCHECK(rv == OK); rv = DoCtrlWriteSYST(); break; case STATE_CTRL_WRITE_ACCT: DCHECK(rv == OK); rv = DoCtrlWriteACCT(); break; case STATE_CTRL_WRITE_PWD: DCHECK(rv == OK); rv = DoCtrlWritePWD(); break; case STATE_CTRL_WRITE_TYPE: DCHECK(rv == OK); rv = DoCtrlWriteTYPE(); break; case STATE_CTRL_WRITE_PASV: DCHECK(rv == OK); rv = DoCtrlWritePASV(); break; case STATE_CTRL_WRITE_RETR: DCHECK(rv == OK); rv = DoCtrlWriteRETR(); break; case STATE_CTRL_WRITE_SIZE: DCHECK(rv == OK); rv = DoCtrlWriteSIZE(); break; case STATE_CTRL_WRITE_CWD: DCHECK(rv == OK); rv = DoCtrlWriteCWD(); break; case STATE_CTRL_WRITE_LIST: DCHECK(rv == OK); rv = DoCtrlWriteLIST(); break; case STATE_CTRL_WRITE_MDTM: DCHECK(rv == OK); rv = DoCtrlWriteMDTM(); break; case STATE_CTRL_WRITE_QUIT: DCHECK(rv == OK); rv = DoCtrlWriteQUIT(); break; case STATE_DATA_CONNECT: DCHECK(rv == OK); rv = DoDataConnect(); break; case STATE_DATA_CONNECT_COMPLETE: rv = DoDataConnectComplete(rv); break; case STATE_DATA_READ: DCHECK(rv == OK); rv = DoDataRead(); break; case STATE_DATA_READ_COMPLETE: rv = DoDataReadComplete(rv); break; default: NOTREACHED() << "bad state"; rv = ERR_UNEXPECTED; break; } } while (rv != ERR_IO_PENDING && next_state_ != STATE_NONE); return rv; } // TODO(ibrar): Yet to see if we need any intialization int FtpNetworkTransaction::DoCtrlInit() { next_state_ = STATE_CTRL_INIT_COMPLETE; return OK; } int FtpNetworkTransaction::DoCtrlInitComplete(int result) { next_state_ = STATE_CTRL_RESOLVE_HOST; return OK; } int FtpNetworkTransaction::DoCtrlResolveHost() { next_state_ = STATE_CTRL_RESOLVE_HOST_COMPLETE; std::string host; int port; host = request_->url.host(); port = request_->url.EffectiveIntPort(); HostResolver::RequestInfo info(host, port); // No known referrer. return resolver_.Resolve(info, &addresses_, &io_callback_, load_log_); } int FtpNetworkTransaction::DoCtrlResolveHostComplete(int result) { if (result == OK) next_state_ = STATE_CTRL_CONNECT; return result; } int FtpNetworkTransaction::DoCtrlConnect() { next_state_ = STATE_CTRL_CONNECT_COMPLETE; ctrl_socket_.reset(socket_factory_->CreateTCPClientSocket(addresses_)); return ctrl_socket_->Connect(&io_callback_); } int FtpNetworkTransaction::DoCtrlConnectComplete(int result) { if (result == OK) next_state_ = STATE_CTRL_READ; return result; } int FtpNetworkTransaction::DoCtrlRead() { next_state_ = STATE_CTRL_READ_COMPLETE; return ctrl_socket_->Read( read_ctrl_buf_, kCtrlBufLen, &io_callback_); } int FtpNetworkTransaction::DoCtrlReadComplete(int result) { if (result < 0) return Stop(result); ctrl_response_buffer_->ConsumeData(read_ctrl_buf_->data(), result); if (!ctrl_response_buffer_->ResponseAvailable()) { // Read more data from the control socket. next_state_ = STATE_CTRL_READ; return OK; } return ProcessCtrlResponse(); } int FtpNetworkTransaction::DoCtrlWrite() { next_state_ = STATE_CTRL_WRITE_COMPLETE; write_buf_->SetOffset(write_command_buf_written_); int bytes_to_write = write_command_buf_->size() - write_command_buf_written_; return ctrl_socket_->Write(write_buf_, bytes_to_write, &io_callback_); } int FtpNetworkTransaction::DoCtrlWriteComplete(int result) { if (result < 0) return result; write_command_buf_written_ += result; if (write_command_buf_written_ == write_command_buf_->size()) { // Clear the write buffer. write_buf_ = NULL; write_command_buf_ = NULL; write_command_buf_written_ = 0; next_state_ = STATE_CTRL_READ; } else { next_state_ = STATE_CTRL_WRITE; } return OK; } // FTP Commands and responses // USER Command. int FtpNetworkTransaction::DoCtrlWriteUSER() { std::string command = "USER " + WideToUTF8(username_); next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_USER); } int FtpNetworkTransaction::ProcessResponseUSER( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_OK: next_state_ = STATE_CTRL_WRITE_SYST; break; case ERROR_CLASS_INFO_NEEDED: next_state_ = STATE_CTRL_WRITE_PASS; break; case ERROR_CLASS_TRANSIENT_ERROR: if (response.status_code == 421) return Stop(ERR_FAILED); break; case ERROR_CLASS_PERMANENT_ERROR: return Stop(ERR_FAILED); default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // PASS command. int FtpNetworkTransaction::DoCtrlWritePASS() { std::string command = "PASS " + WideToUTF8(password_); next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_PASS); } int FtpNetworkTransaction::ProcessResponsePASS( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_OK: next_state_ = STATE_CTRL_WRITE_SYST; break; case ERROR_CLASS_INFO_NEEDED: next_state_ = STATE_CTRL_WRITE_ACCT; break; case ERROR_CLASS_TRANSIENT_ERROR: if (response.status_code == 421) { // TODO(ibrar): Retry here. } return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: if (response.status_code == 503) { next_state_ = STATE_CTRL_WRITE_USER; } else { response_.needs_auth = true; return Stop(ERR_FAILED); } break; default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // SYST command. int FtpNetworkTransaction::DoCtrlWriteSYST() { std::string command = "SYST"; next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_SYST); } int FtpNetworkTransaction::ProcessResponseSYST( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_OK: // TODO(ibrar): Process SYST response properly. next_state_ = STATE_CTRL_WRITE_PWD; break; case ERROR_CLASS_INFO_NEEDED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_TRANSIENT_ERROR: return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: // Server does not recognize the SYST command so proceed. next_state_ = STATE_CTRL_WRITE_PWD; break; default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // PWD command. int FtpNetworkTransaction::DoCtrlWritePWD() { std::string command = "PWD"; next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_PWD); } int FtpNetworkTransaction::ProcessResponsePWD(const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_OK: next_state_ = STATE_CTRL_WRITE_TYPE; break; case ERROR_CLASS_INFO_NEEDED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_TRANSIENT_ERROR: return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: return Stop(ERR_FAILED); default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // TYPE command. int FtpNetworkTransaction::DoCtrlWriteTYPE() { std::string command = "TYPE I"; next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_TYPE); } int FtpNetworkTransaction::ProcessResponseTYPE( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_OK: next_state_ = STATE_CTRL_WRITE_PASV; break; case ERROR_CLASS_INFO_NEEDED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_TRANSIENT_ERROR: return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: return Stop(ERR_FAILED); default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // ACCT command. int FtpNetworkTransaction::DoCtrlWriteACCT() { std::string command = "ACCT noaccount"; next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_ACCT); } int FtpNetworkTransaction::ProcessResponseACCT( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_OK: next_state_ = STATE_CTRL_WRITE_SYST; break; case ERROR_CLASS_INFO_NEEDED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_TRANSIENT_ERROR: return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: return Stop(ERR_FAILED); default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // PASV command int FtpNetworkTransaction::DoCtrlWritePASV() { std::string command = "PASV"; next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_PASV); } // There are two way we can receive IP address and port. // TODO(phajdan.jr): Figure out how this should work for IPv6. // (127,0,0,1,23,21) IP address and port encapsulated in (). // 127,0,0,1,23,21 IP address and port without (). int FtpNetworkTransaction::ProcessResponsePASV( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_OK: const char* ptr; int i0, i1, i2, i3, p0, p1; if (response.lines.size() != 1) return Stop(ERR_INVALID_RESPONSE); ptr = response.lines[0].c_str(); // Try with bracket. while (*ptr && *ptr != '(') ++ptr; if (*ptr) { ++ptr; } else { ptr = response.lines[0].c_str(); // Try without bracket. while (*ptr && *ptr != ',') ++ptr; while (*ptr && *ptr != ' ') --ptr; } if (sscanf_s(ptr, "%d,%d,%d,%d,%d,%d", &i0, &i1, &i2, &i3, &p0, &p1) == 6) { // Ignore the IP address supplied in the response. We are always going // to connect back to the same server to prevent FTP PASV port scanning. data_connection_port_ = (p0 << 8) + p1; if (data_connection_port_ < 1024 || !IsPortAllowedByFtp(data_connection_port_)) return Stop(ERR_UNSAFE_PORT); next_state_ = STATE_DATA_CONNECT; } else { return Stop(ERR_INVALID_RESPONSE); } break; case ERROR_CLASS_INFO_NEEDED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_TRANSIENT_ERROR: return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: return Stop(ERR_FAILED); default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // SIZE command int FtpNetworkTransaction::DoCtrlWriteSIZE() { std::string command = "SIZE"; if (request_->url.has_path()) { command.append(" "); command.append(request_->url.path()); } next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_SIZE); } int FtpNetworkTransaction::ProcessResponseSIZE( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: break; case ERROR_CLASS_OK: if (response.lines.size() != 1) return Stop(ERR_INVALID_RESPONSE); if (!StringToInt(response.lines[0], &file_data_len_)) return Stop(ERR_INVALID_RESPONSE); if (file_data_len_ < 0) return Stop(ERR_INVALID_RESPONSE); break; case ERROR_CLASS_INFO_NEEDED: break; case ERROR_CLASS_TRANSIENT_ERROR: break; case ERROR_CLASS_PERMANENT_ERROR: break; default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } next_state_ = STATE_CTRL_WRITE_MDTM; return OK; } // RETR command int FtpNetworkTransaction::DoCtrlWriteRETR() { std::string command = "RETR"; if (request_->url.has_path()) { command.append(" "); command.append(request_->url.path()); } else { command.append(" /"); } next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_RETR); } int FtpNetworkTransaction::ProcessResponseRETR( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: // We want the client to start reading the response at this point. // It got here either through Start or RestartWithAuth. We want that // method to complete. Not setting next state here will make DoLoop exit // and in turn make Start/RestartWithAuth complete. break; case ERROR_CLASS_OK: next_state_ = STATE_CTRL_WRITE_QUIT; break; case ERROR_CLASS_INFO_NEEDED: next_state_ = STATE_CTRL_WRITE_PASV; break; case ERROR_CLASS_TRANSIENT_ERROR: if (response.status_code == 421 || response.status_code == 425 || response.status_code == 426) return Stop(ERR_FAILED); return ERR_FAILED; // TODO(ibrar): Retry here. case ERROR_CLASS_PERMANENT_ERROR: if (retr_failed_) return Stop(ERR_FAILED); retr_failed_ = true; next_state_ = STATE_CTRL_WRITE_PASV; break; default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // MDMT command int FtpNetworkTransaction::DoCtrlWriteMDTM() { std::string command = "MDTM"; if (request_->url.has_path()) { command.append(" "); command.append(request_->url.path()); } else { command.append(" /"); } next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_MDTM); } int FtpNetworkTransaction::ProcessResponseMDTM( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: return Stop(ERR_FAILED); case ERROR_CLASS_OK: next_state_ = STATE_CTRL_WRITE_RETR; break; case ERROR_CLASS_INFO_NEEDED: return Stop(ERR_FAILED); case ERROR_CLASS_TRANSIENT_ERROR: return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: next_state_ = STATE_CTRL_WRITE_RETR; break; default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // CWD command int FtpNetworkTransaction::DoCtrlWriteCWD() { std::string command = "CWD"; if (request_->url.has_path()) { command.append(" "); command.append(request_->url.path()); } else { command.append(" /"); } next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_CWD); } int FtpNetworkTransaction::ProcessResponseCWD(const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_OK: next_state_ = STATE_CTRL_WRITE_LIST; break; case ERROR_CLASS_INFO_NEEDED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_TRANSIENT_ERROR: return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: return Stop(ERR_FAILED); default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // LIST command int FtpNetworkTransaction::DoCtrlWriteLIST() { std::string command = "LIST"; next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_LIST); } int FtpNetworkTransaction::ProcessResponseLIST( const FtpCtrlResponse& response) { switch (GetErrorClass(response.status_code)) { case ERROR_CLASS_INITIATED: response_.is_directory_listing = true; break; case ERROR_CLASS_OK: response_.is_directory_listing = true; next_state_ = STATE_CTRL_WRITE_QUIT; break; case ERROR_CLASS_INFO_NEEDED: return Stop(ERR_INVALID_RESPONSE); case ERROR_CLASS_TRANSIENT_ERROR: return Stop(ERR_FAILED); case ERROR_CLASS_PERMANENT_ERROR: return Stop(ERR_FAILED); default: NOTREACHED(); return Stop(ERR_UNEXPECTED); } return OK; } // QUIT command int FtpNetworkTransaction::DoCtrlWriteQUIT() { std::string command = "QUIT"; next_state_ = STATE_CTRL_READ; return SendFtpCommand(command, COMMAND_QUIT); } int FtpNetworkTransaction::ProcessResponseQUIT( const FtpCtrlResponse& response) { ctrl_socket_->Disconnect(); return last_error_; } // Data Connection int FtpNetworkTransaction::DoDataConnect() { next_state_ = STATE_DATA_CONNECT_COMPLETE; AddressList data_addresses; // TODO(phajdan.jr): Use exactly same IP address as the control socket. // If the DNS name resolves to several different IPs, and they are different // physical servers, this will break. However, that configuration is very rare // in practice. data_addresses.Copy(addresses_.head()); data_addresses.SetPort(data_connection_port_); data_socket_.reset(socket_factory_->CreateTCPClientSocket(data_addresses)); return data_socket_->Connect(&io_callback_); } int FtpNetworkTransaction::DoDataConnectComplete(int result) { if (retr_failed_) { next_state_ = STATE_CTRL_WRITE_CWD; } else { next_state_ = STATE_CTRL_WRITE_SIZE; } return OK; } int FtpNetworkTransaction::DoDataRead() { DCHECK(read_data_buf_); DCHECK_GT(read_data_buf_len_, 0); if (data_socket_ == NULL || !data_socket_->IsConnected()) { // No more data so send QUIT Command now and wait for response. return Stop(OK); } next_state_ = STATE_DATA_READ_COMPLETE; read_data_buf_->data()[0] = 0; return data_socket_->Read(read_data_buf_, read_data_buf_len_, &io_callback_); } int FtpNetworkTransaction::DoDataReadComplete(int result) { return result; } } // namespace net