// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ // $Id: http.cc,v 1.39 1999/10/18 03:18:40 jgg Exp $ /* ###################################################################### HTTP Aquire Method - This is the HTTP aquire method for APT. It uses HTTP/1.1 and many of the fancy options there-in, such as pipelining, range, if-range and so on. It accepts on the command line a list of url destination pairs and writes to stdout the status of the operation as defined in the APT method spec. It is based on a doubly buffered select loop. All the requests are fed into a single output buffer that is constantly fed out the socket. This provides ideal pipelining as in many cases all of the requests will fit into a single packet. The input socket is buffered the same way and fed into the fd for the file. This double buffering provides fairly substantial transfer rates, compared to wget the http method is about 4% faster. Most importantly, when HTTP is compared with FTP as a protocol the speed difference is huge. In tests over the internet from two sites to llug (via ATM) this program got 230k/s sustained http transfer rates. FTP on the other hand topped out at 170k/s. That combined with the time to setup the FTP connection makes HTTP a vastly superior protocol. ##################################################################### */ /*}}}*/ // Include Files /*{{{*/ #include #include #include #include #include #include #include #include #include #include #include // Internet stuff #include #include "connect.h" #include "rfc2553emu.h" #include "http.h" /*}}}*/ string HttpMethod::FailFile; int HttpMethod::FailFd = -1; time_t HttpMethod::FailTime = 0; unsigned long PipelineDepth = 10; unsigned long TimeOut = 120; bool Debug = false; // CircleBuf::CircleBuf - Circular input buffer /*{{{*/ // --------------------------------------------------------------------- /* */ CircleBuf::CircleBuf(unsigned long Size) : Size(Size), MD5(0) { Buf = new unsigned char[Size]; Reset(); } /*}}}*/ // CircleBuf::Reset - Reset to the default state /*{{{*/ // --------------------------------------------------------------------- /* */ void CircleBuf::Reset() { InP = 0; OutP = 0; StrPos = 0; MaxGet = (unsigned int)-1; OutQueue = string(); if (MD5 != 0) { delete MD5; MD5 = new MD5Summation; } }; /*}}}*/ // CircleBuf::Read - Read from a FD into the circular buffer /*{{{*/ // --------------------------------------------------------------------- /* This fills up the buffer with as much data as is in the FD, assuming it is non-blocking.. */ bool CircleBuf::Read(int Fd) { while (1) { // Woops, buffer is full if (InP - OutP == Size) return true; // Write the buffer segment int Res; Res = read(Fd,Buf + (InP%Size),LeftRead()); if (Res == 0) return false; if (Res < 0) { if (errno == EAGAIN) return true; return false; } if (InP == 0) gettimeofday(&Start,0); InP += Res; } } /*}}}*/ // CircleBuf::Read - Put the string into the buffer /*{{{*/ // --------------------------------------------------------------------- /* This will hold the string in and fill the buffer with it as it empties */ bool CircleBuf::Read(string Data) { OutQueue += Data; FillOut(); return true; } /*}}}*/ // CircleBuf::FillOut - Fill the buffer from the output queue /*{{{*/ // --------------------------------------------------------------------- /* */ void CircleBuf::FillOut() { if (OutQueue.empty() == true) return; while (1) { // Woops, buffer is full if (InP - OutP == Size) return; // Write the buffer segment unsigned long Sz = LeftRead(); if (OutQueue.length() - StrPos < Sz) Sz = OutQueue.length() - StrPos; memcpy(Buf + (InP%Size),OutQueue.begin() + StrPos,Sz); // Advance StrPos += Sz; InP += Sz; if (OutQueue.length() == StrPos) { StrPos = 0; OutQueue = ""; return; } } } /*}}}*/ // CircleBuf::Write - Write from the buffer into a FD /*{{{*/ // --------------------------------------------------------------------- /* This empties the buffer into the FD. */ bool CircleBuf::Write(int Fd) { while (1) { FillOut(); // Woops, buffer is empty if (OutP == InP) return true; if (OutP == MaxGet) return true; // Write the buffer segment int Res; Res = write(Fd,Buf + (OutP%Size),LeftWrite()); if (Res == 0) return false; if (Res < 0) { if (errno == EAGAIN) return true; return false; } if (MD5 != 0) MD5->Add(Buf + (OutP%Size),Res); OutP += Res; } } /*}}}*/ // CircleBuf::WriteTillEl - Write from the buffer to a string /*{{{*/ // --------------------------------------------------------------------- /* This copies till the first empty line */ bool CircleBuf::WriteTillEl(string &Data,bool Single) { // We cheat and assume it is unneeded to have more than one buffer load for (unsigned long I = OutP; I < InP; I++) { if (Buf[I%Size] != '\n') continue; for (I++; I < InP && Buf[I%Size] == '\r'; I++); if (Single == false) { if (Buf[I%Size] != '\n') continue; for (I++; I < InP && Buf[I%Size] == '\r'; I++); } if (I > InP) I = InP; Data = ""; while (OutP < I) { unsigned long Sz = LeftWrite(); if (Sz == 0) return false; if (I - OutP < LeftWrite()) Sz = I - OutP; Data += string((char *)(Buf + (OutP%Size)),Sz); OutP += Sz; } return true; } return false; } /*}}}*/ // CircleBuf::Stats - Print out stats information /*{{{*/ // --------------------------------------------------------------------- /* */ void CircleBuf::Stats() { if (InP == 0) return; struct timeval Stop; gettimeofday(&Stop,0); /* float Diff = Stop.tv_sec - Start.tv_sec + (float)(Stop.tv_usec - Start.tv_usec)/1000000; clog << "Got " << InP << " in " << Diff << " at " << InP/Diff << endl;*/ } /*}}}*/ // ServerState::ServerState - Constructor /*{{{*/ // --------------------------------------------------------------------- /* */ ServerState::ServerState(URI Srv,HttpMethod *Owner) : Owner(Owner), In(64*1024), Out(4*1024), ServerName(Srv) { Reset(); } /*}}}*/ // ServerState::Open - Open a connection to the server /*{{{*/ // --------------------------------------------------------------------- /* This opens a connection to the server. */ string LastHost; int LastPort = 0; struct addrinfo *LastHostAddr = 0; bool ServerState::Open() { // Use the already open connection if possible. if (ServerFd != -1) return true; Close(); In.Reset(); Out.Reset(); // Determine the proxy setting if (getenv("http_proxy") == 0) { string DefProxy = _config->Find("Acquire::http::Proxy"); string SpecificProxy = _config->Find("Acquire::http::Proxy::" + ServerName.Host); if (SpecificProxy.empty() == false) { if (SpecificProxy == "DIRECT") Proxy = ""; else Proxy = SpecificProxy; } else Proxy = DefProxy; } else Proxy = getenv("http_proxy"); // Parse no_proxy, a , seperated list of hosts if (getenv("no_proxy") != 0) { const char *Start = getenv("no_proxy"); for (const char *Cur = Start; true ; Cur++) { if (*Cur != ',' && *Cur != 0) continue; if (stringcasecmp(ServerName.Host.begin(),ServerName.Host.end(), Start,Cur) == 0) { Proxy = ""; break; } Start = Cur + 1; if (*Cur == 0) break; } } // Determine what host and port to use based on the proxy settings int Port = 0; string Host; if (Proxy.empty() == true) { if (ServerName.Port != 0) Port = ServerName.Port; Host = ServerName.Host; } else { if (Proxy.Port != 0) Port = Proxy.Port; Host = Proxy.Host; } // Connect to the remote server if (Connect(Host,Port,"http",80,ServerFd,TimeOut,Owner) == false) return false; return true; } /*}}}*/ // ServerState::Close - Close a connection to the server /*{{{*/ // --------------------------------------------------------------------- /* */ bool ServerState::Close() { close(ServerFd); ServerFd = -1; return true; } /*}}}*/ // ServerState::RunHeaders - Get the headers before the data /*{{{*/ // --------------------------------------------------------------------- /* Returns 0 if things are OK, 1 if an IO error occursed and 2 if a header parse error occured */ int ServerState::RunHeaders() { State = Header; Owner->Status("Waiting for file"); Major = 0; Minor = 0; Result = 0; Size = 0; StartPos = 0; Encoding = Closes; HaveContent = false; time(&Date); do { string Data; if (In.WriteTillEl(Data) == false) continue; for (string::const_iterator I = Data.begin(); I < Data.end(); I++) { string::const_iterator J = I; for (; J != Data.end() && *J != '\n' && *J != '\r';J++); if (HeaderLine(string(I,J-I)) == false) return 2; I = J; } return 0; } while (Owner->Go(false,this) == true); return 1; } /*}}}*/ // ServerState::RunData - Transfer the data from the socket /*{{{*/ // --------------------------------------------------------------------- /* */ bool ServerState::RunData() { State = Data; // Chunked transfer encoding is fun.. if (Encoding == Chunked) { while (1) { // Grab the block size bool Last = true; string Data; In.Limit(-1); do { if (In.WriteTillEl(Data,true) == true) break; } while ((Last = Owner->Go(false,this)) == true); if (Last == false) return false; // See if we are done unsigned long Len = strtol(Data.c_str(),0,16); if (Len == 0) { In.Limit(-1); // We have to remove the entity trailer Last = true; do { if (In.WriteTillEl(Data,true) == true && Data.length() <= 2) break; } while ((Last = Owner->Go(false,this)) == true); if (Last == false) return false; return !_error->PendingError(); } // Transfer the block In.Limit(Len); while (Owner->Go(true,this) == true) if (In.IsLimit() == true) break; // Error if (In.IsLimit() == false) return false; // The server sends an extra new line before the next block specifier.. In.Limit(-1); Last = true; do { if (In.WriteTillEl(Data,true) == true) break; } while ((Last = Owner->Go(false,this)) == true); if (Last == false) return false; } } else { /* Closes encoding is used when the server did not specify a size, the loss of the connection means we are done */ if (Encoding == Closes) In.Limit(-1); else In.Limit(Size - StartPos); // Just transfer the whole block. do { if (In.IsLimit() == false) continue; In.Limit(-1); return !_error->PendingError(); } while (Owner->Go(true,this) == true); } return Owner->Flush(this) && !_error->PendingError(); } /*}}}*/ // ServerState::HeaderLine - Process a header line /*{{{*/ // --------------------------------------------------------------------- /* */ bool ServerState::HeaderLine(string Line) { if (Line.empty() == true) return true; // The http server might be trying to do something evil. if (Line.length() >= MAXLEN) return _error->Error("Got a single header line over %u chars",MAXLEN); string::size_type Pos = Line.find(' '); if (Pos == string::npos || Pos+1 > Line.length()) { // Blah, some servers use "connection:closes", evil. Pos = Line.find(':'); if (Pos == string::npos || Pos + 2 > Line.length()) return _error->Error("Bad header line"); Pos++; } // Parse off any trailing spaces between the : and the next word. string::size_type Pos2 = Pos; while (Pos2 < Line.length() && isspace(Line[Pos2]) != 0) Pos2++; string Tag = string(Line,0,Pos); string Val = string(Line,Pos2); if (stringcasecmp(Tag.begin(),Tag.begin()+4,"HTTP") == 0) { // Evil servers return no version if (Line[4] == '/') { if (sscanf(Line.c_str(),"HTTP/%u.%u %u %[^\n]",&Major,&Minor, &Result,Code) != 4) return _error->Error("The http server sent an invalid reply header"); } else { Major = 0; Minor = 9; if (sscanf(Line.c_str(),"HTTP %u %[^\n]",&Result,Code) != 2) return _error->Error("The http server sent an invalid reply header"); } return true; } if (stringcasecmp(Tag,"Content-Length:") == 0) { if (Encoding == Closes) Encoding = Stream; HaveContent = true; // The length is already set from the Content-Range header if (StartPos != 0) return true; if (sscanf(Val.c_str(),"%lu",&Size) != 1) return _error->Error("The http server sent an invalid Content-Length header"); return true; } if (stringcasecmp(Tag,"Content-Type:") == 0) { HaveContent = true; return true; } if (stringcasecmp(Tag,"Content-Range:") == 0) { HaveContent = true; if (sscanf(Val.c_str(),"bytes %lu-%*u/%lu",&StartPos,&Size) != 2) return _error->Error("The http server sent an invalid Content-Range header"); if ((unsigned)StartPos > Size) return _error->Error("This http server has broken range support"); return true; } if (stringcasecmp(Tag,"Transfer-Encoding:") == 0) { HaveContent = true; if (stringcasecmp(Val,"chunked") == 0) Encoding = Chunked; return true; } if (stringcasecmp(Tag,"Last-Modified:") == 0) { if (StrToTime(Val,Date) == false) return _error->Error("Unknown date format"); return true; } return true; } /*}}}*/ // HttpMethod::SendReq - Send the HTTP request /*{{{*/ // --------------------------------------------------------------------- /* This places the http request in the outbound buffer */ void HttpMethod::SendReq(FetchItem *Itm,CircleBuf &Out) { URI Uri = Itm->Uri; // The HTTP server expects a hostname with a trailing :port char Buf[1000]; string ProperHost = Uri.Host; if (Uri.Port != 0) { sprintf(Buf,":%u",Uri.Port); ProperHost += Buf; } // Just in case. if (Itm->Uri.length() >= sizeof(Buf)) abort(); /* Build the request. We include a keep-alive header only for non-proxy requests. This is to tweak old http/1.0 servers that do support keep-alive but not HTTP/1.1 automatic keep-alive. Doing this with a proxy server will glitch HTTP/1.0 proxies because they do not filter it out and pass it on, HTTP/1.1 says the connection should default to keep alive and we expect the proxy to do this */ if (Proxy.empty() == true) sprintf(Buf,"GET %s HTTP/1.1\r\nHost: %s\r\nConnection: keep-alive\r\n", QuoteString(Uri.Path,"~").c_str(),ProperHost.c_str()); else { /* Generate a cache control header if necessary. We place a max cache age on index files, optionally set a no-cache directive and a no-store directive for archives. */ sprintf(Buf,"GET %s HTTP/1.1\r\nHost: %s\r\n", Itm->Uri.c_str(),ProperHost.c_str()); if (_config->FindB("Acquire::http::No-Cache",false) == true) strcat(Buf,"Cache-Control: no-cache\r\nPragma: no-cache\r\n"); else { if (Itm->IndexFile == true) sprintf(Buf+strlen(Buf),"Cache-Control: max-age=%u\r\n", _config->FindI("Acquire::http::Max-Age",60*60*24)); else { if (_config->FindB("Acquire::http::No-Store",false) == true) strcat(Buf,"Cache-Control: no-store\r\n"); } } } string Req = Buf; // Check for a partial file struct stat SBuf; if (stat(Itm->DestFile.c_str(),&SBuf) >= 0 && SBuf.st_size > 0) { // In this case we send an if-range query with a range header sprintf(Buf,"Range: bytes=%li-\r\nIf-Range: %s\r\n",SBuf.st_size - 1, TimeRFC1123(SBuf.st_mtime).c_str()); Req += Buf; } else { if (Itm->LastModified != 0) { sprintf(Buf,"If-Modified-Since: %s\r\n",TimeRFC1123(Itm->LastModified).c_str()); Req += Buf; } } if (Proxy.User.empty() == false || Proxy.Password.empty() == false) Req += string("Proxy-Authorization: Basic ") + Base64Encode(Proxy.User + ":" + Proxy.Password) + "\r\n"; Req += "User-Agent: Debian APT-HTTP/1.2\r\n\r\n"; if (Debug == true) cerr << Req << endl; Out.Read(Req); } /*}}}*/ // HttpMethod::Go - Run a single loop /*{{{*/ // --------------------------------------------------------------------- /* This runs the select loop over the server FDs, Output file FDs and stdin. */ bool HttpMethod::Go(bool ToFile,ServerState *Srv) { // Server has closed the connection if (Srv->ServerFd == -1 && (Srv->In.WriteSpace() == false || ToFile == false)) return false; fd_set rfds,wfds,efds; FD_ZERO(&rfds); FD_ZERO(&wfds); FD_ZERO(&efds); // Add the server if (Srv->Out.WriteSpace() == true && Srv->ServerFd != -1) FD_SET(Srv->ServerFd,&wfds); if (Srv->In.ReadSpace() == true && Srv->ServerFd != -1) FD_SET(Srv->ServerFd,&rfds); // Add the file int FileFD = -1; if (File != 0) FileFD = File->Fd(); if (Srv->In.WriteSpace() == true && ToFile == true && FileFD != -1) FD_SET(FileFD,&wfds); // Add stdin FD_SET(STDIN_FILENO,&rfds); // Error Set if (FileFD != -1) FD_SET(FileFD,&efds); if (Srv->ServerFd != -1) FD_SET(Srv->ServerFd,&efds); // Figure out the max fd int MaxFd = FileFD; if (MaxFd < Srv->ServerFd) MaxFd = Srv->ServerFd; // Select struct timeval tv; tv.tv_sec = TimeOut; tv.tv_usec = 0; int Res = 0; if ((Res = select(MaxFd+1,&rfds,&wfds,&efds,&tv)) < 0) return _error->Errno("select","Select failed"); if (Res == 0) { _error->Error("Connection timed out"); return ServerDie(Srv); } // Some kind of exception (error) on the sockets, die if ((FileFD != -1 && FD_ISSET(FileFD,&efds)) || (Srv->ServerFd != -1 && FD_ISSET(Srv->ServerFd,&efds))) return _error->Error("Socket Exception"); // Handle server IO if (Srv->ServerFd != -1 && FD_ISSET(Srv->ServerFd,&rfds)) { errno = 0; if (Srv->In.Read(Srv->ServerFd) == false) return ServerDie(Srv); } if (Srv->ServerFd != -1 && FD_ISSET(Srv->ServerFd,&wfds)) { errno = 0; if (Srv->Out.Write(Srv->ServerFd) == false) return ServerDie(Srv); } // Send data to the file if (FileFD != -1 && FD_ISSET(FileFD,&wfds)) { if (Srv->In.Write(FileFD) == false) return _error->Errno("write","Error writing to output file"); } // Handle commands from APT if (FD_ISSET(STDIN_FILENO,&rfds)) { if (Run(true) != -1) exit(100); } return true; } /*}}}*/ // HttpMethod::Flush - Dump the buffer into the file /*{{{*/ // --------------------------------------------------------------------- /* This takes the current input buffer from the Server FD and writes it into the file */ bool HttpMethod::Flush(ServerState *Srv) { if (File != 0) { SetNonBlock(File->Fd(),false); if (Srv->In.WriteSpace() == false) return true; while (Srv->In.WriteSpace() == true) { if (Srv->In.Write(File->Fd()) == false) return _error->Errno("write","Error writing to file"); if (Srv->In.IsLimit() == true) return true; } if (Srv->In.IsLimit() == true || Srv->Encoding == ServerState::Closes) return true; } return false; } /*}}}*/ // HttpMethod::ServerDie - The server has closed the connection. /*{{{*/ // --------------------------------------------------------------------- /* */ bool HttpMethod::ServerDie(ServerState *Srv) { unsigned int LErrno = errno; // Dump the buffer to the file if (Srv->State == ServerState::Data) { SetNonBlock(File->Fd(),false); while (Srv->In.WriteSpace() == true) { if (Srv->In.Write(File->Fd()) == false) return _error->Errno("write","Error writing to the file"); // Done if (Srv->In.IsLimit() == true) return true; } } // See if this is because the server finished the data stream if (Srv->In.IsLimit() == false && Srv->State != ServerState::Header && Srv->Encoding != ServerState::Closes) { Srv->Close(); if (LErrno == 0) return _error->Error("Error reading from server Remote end closed connection"); errno = LErrno; return _error->Errno("read","Error reading from server"); } else { Srv->In.Limit(-1); // Nothing left in the buffer if (Srv->In.WriteSpace() == false) return false; // We may have got multiple responses back in one packet.. Srv->Close(); return true; } return false; } /*}}}*/ // HttpMethod::DealWithHeaders - Handle the retrieved header data /*{{{*/ // --------------------------------------------------------------------- /* We look at the header data we got back from the server and decide what to do. Returns 0 - File is open, 1 - IMS hit 3 - Unrecoverable error 4 - Error with error content page 5 - Unrecoverable non-server error (close the connection) */ int HttpMethod::DealWithHeaders(FetchResult &Res,ServerState *Srv) { // Not Modified if (Srv->Result == 304) { unlink(Queue->DestFile.c_str()); Res.IMSHit = true; Res.LastModified = Queue->LastModified; return 1; } /* We have a reply we dont handle. This should indicate a perm server failure */ if (Srv->Result < 200 || Srv->Result >= 300) { _error->Error("%u %s",Srv->Result,Srv->Code); if (Srv->HaveContent == true) return 4; return 3; } // This is some sort of 2xx 'data follows' reply Res.LastModified = Srv->Date; Res.Size = Srv->Size; // Open the file delete File; File = new FileFd(Queue->DestFile,FileFd::WriteAny); if (_error->PendingError() == true) return 5; FailFile = Queue->DestFile; FailFile.c_str(); // Make sure we dont do a malloc in the signal handler FailFd = File->Fd(); FailTime = Srv->Date; // Set the expected size if (Srv->StartPos >= 0) { Res.ResumePoint = Srv->StartPos; ftruncate(File->Fd(),Srv->StartPos); } // Set the start point lseek(File->Fd(),0,SEEK_END); delete Srv->In.MD5; Srv->In.MD5 = new MD5Summation; // Fill the MD5 Hash if the file is non-empty (resume) if (Srv->StartPos > 0) { lseek(File->Fd(),0,SEEK_SET); if (Srv->In.MD5->AddFD(File->Fd(),Srv->StartPos) == false) { _error->Errno("read","Problem hashing file"); return 5; } lseek(File->Fd(),0,SEEK_END); } SetNonBlock(File->Fd(),true); return 0; } /*}}}*/ // HttpMethod::SigTerm - Handle a fatal signal /*{{{*/ // --------------------------------------------------------------------- /* This closes and timestamps the open file. This is neccessary to get resume behavoir on user abort */ void HttpMethod::SigTerm(int) { if (FailFd == -1) exit(100); close(FailFd); // Timestamp struct utimbuf UBuf; UBuf.actime = FailTime; UBuf.modtime = FailTime; utime(FailFile.c_str(),&UBuf); exit(100); } /*}}}*/ // HttpMethod::Fetch - Fetch an item /*{{{*/ // --------------------------------------------------------------------- /* This adds an item to the pipeline. We keep the pipeline at a fixed depth. */ bool HttpMethod::Fetch(FetchItem *) { if (Server == 0) return true; // Queue the requests int Depth = -1; bool Tail = false; for (FetchItem *I = Queue; I != 0 && Depth < (signed)PipelineDepth; I = I->Next, Depth++) { // Make sure we stick with the same server if (Server->Comp(I->Uri) == false) break; if (QueueBack == I) Tail = true; if (Tail == true) { QueueBack = I->Next; SendReq(I,Server->Out); continue; } } return true; }; /*}}}*/ // HttpMethod::Configuration - Handle a configuration message /*{{{*/ // --------------------------------------------------------------------- /* We stash the desired pipeline depth */ bool HttpMethod::Configuration(string Message) { if (pkgAcqMethod::Configuration(Message) == false) return false; TimeOut = _config->FindI("Acquire::http::Timeout",TimeOut); PipelineDepth = _config->FindI("Acquire::http::Pipeline-Depth", PipelineDepth); Debug = _config->FindB("Debug::Acquire::http",false); return true; } /*}}}*/ // HttpMethod::Loop - Main loop /*{{{*/ // --------------------------------------------------------------------- /* */ int HttpMethod::Loop() { signal(SIGTERM,SigTerm); signal(SIGINT,SigTerm); Server = 0; int FailCounter = 0; while (1) { // We have no commands, wait for some to arrive if (Queue == 0) { if (WaitFd(STDIN_FILENO) == false) return 0; } /* Run messages, we can accept 0 (no message) if we didn't do a WaitFd above.. Otherwise the FD is closed. */ int Result = Run(true); if (Result != -1 && (Result != 0 || Queue == 0)) return 100; if (Queue == 0) continue; // Connect to the server if (Server == 0 || Server->Comp(Queue->Uri) == false) { delete Server; Server = new ServerState(Queue->Uri,this); } // Reset the pipeline if (Server->ServerFd == -1) QueueBack = Queue; // Connnect to the host if (Server->Open() == false) { Fail(true); delete Server; Server = 0; continue; } // Fill the pipeline. Fetch(0); // Fetch the next URL header data from the server. switch (Server->RunHeaders()) { case 0: break; // The header data is bad case 2: { _error->Error("Bad header Data"); Fail(true); continue; } // The server closed a connection during the header get.. default: case 1: { FailCounter++; _error->Discard(); Server->Close(); if (FailCounter >= 2) { Fail("Connection failed",true); FailCounter = 0; } continue; } }; // Decide what to do. FetchResult Res; Res.Filename = Queue->DestFile; switch (DealWithHeaders(Res,Server)) { // Ok, the file is Open case 0: { URIStart(Res); // Run the data bool Result = Server->RunData(); // Close the file, destroy the FD object and timestamp it FailFd = -1; delete File; File = 0; // Timestamp struct utimbuf UBuf; time(&UBuf.actime); UBuf.actime = Server->Date; UBuf.modtime = Server->Date; utime(Queue->DestFile.c_str(),&UBuf); // Send status to APT if (Result == true) { Res.MD5Sum = Server->In.MD5->Result(); URIDone(Res); } else Fail(true); break; } // IMS hit case 1: { URIDone(Res); break; } // Hard server error, not found or something case 3: { Fail(); break; } // Hard internal error, kill the connection and fail case 5: { Fail(); Server->Close(); break; } // We need to flush the data, the header is like a 404 w/ error text case 4: { Fail(); // Send to content to dev/null File = new FileFd("/dev/null",FileFd::WriteExists); Server->RunData(); delete File; File = 0; break; } default: Fail("Internal error"); break; } FailCounter = 0; } return 0; } /*}}}*/ int main() { HttpMethod Mth; return Mth.Loop(); }