Merge remote-tracking branch 'mvo/feature/upgrade-with-new' into debian/sid

[ntk/apt.git] / methods / http.cc

// -*- mode: cpp; mode: fold -*-
// Description                                                          /*{{{*/
// $Id: http.cc,v 1.59 2004/05/08 19:42:35 mdz Exp $
/* ######################################################################

   HTTP Acquire 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 is based on a doubly buffered select loop. A groupe of 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 (may be a pipe in future).
   
   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 <config.h>

#include <apt-pkg/fileutl.h>
#include <apt-pkg/acquire-method.h>
#include <apt-pkg/configuration.h>
#include <apt-pkg/error.h>
#include <apt-pkg/hashes.h>
#include <apt-pkg/netrc.h>

#include <sys/stat.h>
#include <sys/time.h>
#include <utime.h>
#include <unistd.h>
#include <signal.h>
#include <stdio.h>
#include <errno.h>
#include <string.h>
#include <climits>
#include <iostream>
#include <map>

// Internet stuff
#include <netdb.h>

#include "config.h"
#include "connect.h"
#include "rfc2553emu.h"
#include "http.h"

#include <apti18n.h>
                                                                        /*}}}*/
using namespace std;

unsigned long long CircleBuf::BwReadLimit=0;
unsigned long long CircleBuf::BwTickReadData=0;
struct timeval CircleBuf::BwReadTick={0,0};
const unsigned int CircleBuf::BW_HZ=10;
 
// CircleBuf::CircleBuf - Circular input buffer                         /*{{{*/
// ---------------------------------------------------------------------
/* */
CircleBuf::CircleBuf(unsigned long long Size) : Size(Size), Hash(0)
{
   Buf = new unsigned char[Size];
   Reset();

   CircleBuf::BwReadLimit = _config->FindI("Acquire::http::Dl-Limit",0)*1024;
}
                                                                        /*}}}*/
// CircleBuf::Reset - Reset to the default state                        /*{{{*/
// ---------------------------------------------------------------------
/* */
void CircleBuf::Reset()
{
   InP = 0;
   OutP = 0;
   StrPos = 0;
   MaxGet = (unsigned long long)-1;
   OutQueue = string();
   if (Hash != 0)
   {
      delete Hash;
      Hash = new Hashes;
   }   
};
                                                                        /*}}}*/
// 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)
{
   unsigned long long BwReadMax;

   while (1)
   {
      // Woops, buffer is full
      if (InP - OutP == Size)
         return true;

      // what's left to read in this tick
      BwReadMax = CircleBuf::BwReadLimit/BW_HZ;

      if(CircleBuf::BwReadLimit) {
         struct timeval now;
         gettimeofday(&now,0);

         unsigned long long d = (now.tv_sec-CircleBuf::BwReadTick.tv_sec)*1000000 +
            now.tv_usec-CircleBuf::BwReadTick.tv_usec;
         if(d > 1000000/BW_HZ) {
            CircleBuf::BwReadTick = now;
            CircleBuf::BwTickReadData = 0;
         } 
         
         if(CircleBuf::BwTickReadData >= BwReadMax) {
            usleep(1000000/BW_HZ);
            return true;
         }
      }

      // Write the buffer segment
      ssize_t Res;
      if(CircleBuf::BwReadLimit) {
         Res = read(Fd,Buf + (InP%Size), 
                    BwReadMax > LeftRead() ? LeftRead() : BwReadMax);
      } else
         Res = read(Fd,Buf + (InP%Size),LeftRead());
      
      if(Res > 0 && BwReadLimit > 0) 
         CircleBuf::BwTickReadData += Res;
    
      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 long Sz = LeftRead();
      if (OutQueue.length() - StrPos < Sz)
         Sz = OutQueue.length() - StrPos;
      memcpy(Buf + (InP%Size),OutQueue.c_str() + 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
      ssize_t Res;
      Res = write(Fd,Buf + (OutP%Size),LeftWrite());

      if (Res == 0)
         return false;
      if (Res < 0)
      {
         if (errno == EAGAIN)
            return true;
         
         return false;
      }
      
      if (Hash != 0)
         Hash->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 long I = OutP; I < InP; I++)
   {      
      if (Buf[I%Size] != '\n')
         continue;
      ++I;
      
      if (Single == false)
      {
         if (I < InP  && Buf[I%Size] == '\r')
            ++I;
         if (I >= InP || Buf[I%Size] != '\n')
            continue;
         ++I;
      }
      
      Data = "";
      while (OutP < I)
      {
         unsigned long long Sz = LeftWrite();
         if (Sz == 0)
            return false;
         if (I - OutP < Sz)
            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;*/
}
                                                                        /*}}}*/
CircleBuf::~CircleBuf()
{
   delete [] Buf;
   delete Hash;
}

// HttpServerState::HttpServerState - Constructor                       /*{{{*/
HttpServerState::HttpServerState(URI Srv,HttpMethod *Owner) : ServerState(Srv, Owner), In(64*1024), Out(4*1024)
{
   TimeOut = _config->FindI("Acquire::http::Timeout",TimeOut);
   Reset();
}
                                                                        /*}}}*/
// HttpServerState::Open - Open a connection to the server              /*{{{*/
// ---------------------------------------------------------------------
/* This opens a connection to the server. */
bool HttpServerState::Open()
{
   // Use the already open connection if possible.
   if (ServerFd != -1)
      return true;
   
   Close();
   In.Reset();
   Out.Reset();
   Persistent = true;
   
   // Determine the proxy setting
   string SpecificProxy = _config->Find("Acquire::http::Proxy::" + ServerName.Host);
   if (!SpecificProxy.empty())
   {
           if (SpecificProxy == "DIRECT")
                   Proxy = "";
           else
                   Proxy = SpecificProxy;
   }
   else
   {
           string DefProxy = _config->Find("Acquire::http::Proxy");
           if (!DefProxy.empty())
           {
                   Proxy = DefProxy;
           }
           else
           {
                   char* result = getenv("http_proxy");
                   Proxy = result ? result : "";
           }
   }
   
   // Parse no_proxy, a , separated list of domains
   if (getenv("no_proxy") != 0)
   {
      if (CheckDomainList(ServerName.Host,getenv("no_proxy")) == true)
         Proxy = "";
   }
   
   // Determine what host and port to use based on the proxy settings
   int Port = 0;
   string Host;   
   if (Proxy.empty() == true || Proxy.Host.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;
}
                                                                        /*}}}*/
// HttpServerState::Close - Close a connection to the server            /*{{{*/
// ---------------------------------------------------------------------
/* */
bool HttpServerState::Close()
{
   close(ServerFd);
   ServerFd = -1;
   return true;
}
                                                                        /*}}}*/
// HttpServerState::RunData - Transfer the data from the socket         /*{{{*/
bool HttpServerState::RunData(FileFd * const File)
{
   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 = Go(false, File)) == true);

         if (Last == false)
            return false;
                 
         // See if we are done
         unsigned long long Len = strtoull(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 = Go(false, File)) == true);
            if (Last == false)
               return false;
            return !_error->PendingError();
         }
         
         // Transfer the block
         In.Limit(Len);
         while (Go(true, File) == 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 = Go(false, File)) == 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 (Go(true, File) == true);
   }

   return Owner->Flush() && !_error->PendingError();
}
                                                                        /*}}}*/
bool HttpServerState::ReadHeaderLines(std::string &Data)                /*{{{*/
{
   return In.WriteTillEl(Data);
}
                                                                        /*}}}*/
bool HttpServerState::LoadNextResponse(bool const ToFile, FileFd * const File)/*{{{*/
{
   return Go(ToFile, File);
}
                                                                        /*}}}*/
bool HttpServerState::WriteResponse(const std::string &Data)            /*{{{*/
{
   return Out.Read(Data);
}
                                                                        /*}}}*/
bool HttpServerState::IsOpen()                                          /*{{{*/
{
   return (ServerFd != -1);
}
                                                                        /*}}}*/
bool HttpServerState::InitHashes(FileFd &File)                          /*{{{*/
{
   delete In.Hash;
   In.Hash = new Hashes;

   // Set the expected size and read file for the hashes
   if (StartPos >= 0)
   {
      File.Truncate(StartPos);

      return In.Hash->AddFD(File, StartPos);
   }
   return true;
}
                                                                        /*}}}*/
Hashes * HttpServerState::GetHashes()                                   /*{{{*/
{
   return In.Hash;
}
                                                                        /*}}}*/
// HttpServerState::Die - The server has closed the connection.         /*{{{*/
bool HttpServerState::Die(FileFd &File)
{
   unsigned int LErrno = errno;

   // Dump the buffer to the file
   if (State == ServerState::Data)
   {
      // on GNU/kFreeBSD, apt dies on /dev/null because non-blocking
      // can't be set
      if (File.Name() != "/dev/null")
         SetNonBlock(File.Fd(),false);
      while (In.WriteSpace() == true)
      {
         if (In.Write(File.Fd()) == false)
            return _error->Errno("write",_("Error writing to the file"));

         // Done
         if (In.IsLimit() == true)
            return true;
      }
   }

   // See if this is because the server finished the data stream
   if (In.IsLimit() == false && State != HttpServerState::Header &&
       Encoding != HttpServerState::Closes)
   {
      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
   {
      In.Limit(-1);

      // Nothing left in the buffer
      if (In.WriteSpace() == false)
         return false;

      // We may have got multiple responses back in one packet..
      Close();
      return true;
   }

   return false;
}
                                                                        /*}}}*/
// HttpServerState::Flush - Dump the buffer into the file               /*{{{*/
// ---------------------------------------------------------------------
/* This takes the current input buffer from the Server FD and writes it
   into the file */
bool HttpServerState::Flush(FileFd * const File)
{
   if (File != NULL)
   {
      // on GNU/kFreeBSD, apt dies on /dev/null because non-blocking
      // can't be set
      if (File->Name() != "/dev/null")
         SetNonBlock(File->Fd(),false);
      if (In.WriteSpace() == false)
         return true;
      
      while (In.WriteSpace() == true)
      {
         if (In.Write(File->Fd()) == false)
            return _error->Errno("write",_("Error writing to file"));
         if (In.IsLimit() == true)
            return true;
      }

      if (In.IsLimit() == true || Encoding == ServerState::Closes)
         return true;
   }
   return false;
}
                                                                        /*}}}*/
// HttpServerState::Go - Run a single loop                              /*{{{*/
// ---------------------------------------------------------------------
/* This runs the select loop over the server FDs, Output file FDs and
   stdin. */
bool HttpServerState::Go(bool ToFile, FileFd * const File)
{
   // Server has closed the connection
   if (ServerFd == -1 && (In.WriteSpace() == false || 
                               ToFile == false))
      return false;
   
   fd_set rfds,wfds;
   FD_ZERO(&rfds);
   FD_ZERO(&wfds);
   
   /* Add the server. We only send more requests if the connection will 
      be persisting */
   if (Out.WriteSpace() == true && ServerFd != -1 
       && Persistent == true)
      FD_SET(ServerFd,&wfds);
   if (In.ReadSpace() == true && ServerFd != -1)
      FD_SET(ServerFd,&rfds);
   
   // Add the file
   int FileFD = -1;
   if (File != NULL)
      FileFD = File->Fd();
   
   if (In.WriteSpace() == true && ToFile == true && FileFD != -1)
      FD_SET(FileFD,&wfds);

   // Add stdin
   if (_config->FindB("Acquire::http::DependOnSTDIN", true) == true)
      FD_SET(STDIN_FILENO,&rfds);
          
   // Figure out the max fd
   int MaxFd = FileFD;
   if (MaxFd < ServerFd)
      MaxFd = ServerFd;

   // Select
   struct timeval tv;
   tv.tv_sec = TimeOut;
   tv.tv_usec = 0;
   int Res = 0;
   if ((Res = select(MaxFd+1,&rfds,&wfds,0,&tv)) < 0)
   {
      if (errno == EINTR)
         return true;
      return _error->Errno("select",_("Select failed"));
   }
   
   if (Res == 0)
   {
      _error->Error(_("Connection timed out"));
      return Die(*File);
   }
   
   // Handle server IO
   if (ServerFd != -1 && FD_ISSET(ServerFd,&rfds))
   {
      errno = 0;
      if (In.Read(ServerFd) == false)
         return Die(*File);
   }
         
   if (ServerFd != -1 && FD_ISSET(ServerFd,&wfds))
   {
      errno = 0;
      if (Out.Write(ServerFd) == false)
         return Die(*File);
   }

   // Send data to the file
   if (FileFD != -1 && FD_ISSET(FileFD,&wfds))
   {
      if (In.Write(FileFD) == false)
         return _error->Errno("write",_("Error writing to output file"));
   }

   // Handle commands from APT
   if (FD_ISSET(STDIN_FILENO,&rfds))
   {
      if (Owner->Run(true) != -1)
         exit(100);
   }   
       
   return true;
}
                                                                        /*}}}*/

// HttpMethod::SendReq - Send the HTTP request                          /*{{{*/
// ---------------------------------------------------------------------
/* This places the http request in the outbound buffer */
void HttpMethod::SendReq(FetchItem *Itm)
{
   URI Uri = Itm->Uri;

   // The HTTP server expects a hostname with a trailing :port
   char Buf[1000];
   string ProperHost;

   if (Uri.Host.find(':') != string::npos)
      ProperHost = '[' + Uri.Host + ']';
   else
      ProperHost = Uri.Host;
   if (Uri.Port != 0)
   {
      sprintf(Buf,":%u",Uri.Port);
      ProperHost += Buf;
   }   
      
   // Just in case.
   if (Itm->Uri.length() >= sizeof(Buf))
       abort();

   /* RFC 2616 §5.1.2 requires absolute URIs for requests to proxies,
      but while its a must for all servers to accept absolute URIs,
      it is assumed clients will sent an absolute path for non-proxies */
   std::string requesturi;
   if (Server->Proxy.empty() == true || Server->Proxy.Host.empty())
      requesturi = Uri.Path;
   else
      requesturi = Itm->Uri;

   // The "+" is encoded as a workaround for a amazon S3 bug
   // see LP bugs #1003633 and #1086997.
   requesturi = QuoteString(requesturi, "+~ ");

   /* Build the request. No keep-alive is included as it is the default
      in 1.1, can cause problems with proxies, and we are an HTTP/1.1
      client anyway.
      C.f. https://tools.ietf.org/wg/httpbis/trac/ticket/158 */
   sprintf(Buf,"GET %s HTTP/1.1\r\nHost: %s\r\n",
           requesturi.c_str(),ProperHost.c_str());

   // generate a cache control header (if needed)
   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",0));
      }
      else
      {
         if (_config->FindB("Acquire::http::No-Store",false) == true)
            strcat(Buf,"Cache-Control: no-store\r\n");
      }
   }

   // If we ask for uncompressed files servers might respond with content-
   // negotation which lets us end up with compressed files we do not support,
   // see 657029, 657560 and co, so if we have no extension on the request
   // ask for text only. As a sidenote: If there is nothing to negotate servers
   // seem to be nice and ignore it.
   if (_config->FindB("Acquire::http::SendAccept", true) == true)
   {
      size_t const filepos = Itm->Uri.find_last_of('/');
      string const file = Itm->Uri.substr(filepos + 1);
      if (flExtension(file) == file)
         strcat(Buf,"Accept: text/*\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=%lli-\r\nIf-Range: %s\r\n",(long long)SBuf.st_size,
              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 (Server->Proxy.User.empty() == false || Server->Proxy.Password.empty() == false)
      Req += string("Proxy-Authorization: Basic ") + 
          Base64Encode(Server->Proxy.User + ":" + Server->Proxy.Password) + "\r\n";

   maybe_add_auth (Uri, _config->FindFile("Dir::Etc::netrc"));
   if (Uri.User.empty() == false || Uri.Password.empty() == false)
   {
      Req += string("Authorization: Basic ") + 
          Base64Encode(Uri.User + ":" + Uri.Password) + "\r\n";
   }
   Req += "User-Agent: " + _config->Find("Acquire::http::User-Agent",
                "Debian APT-HTTP/1.3 (" PACKAGE_VERSION ")") + "\r\n\r\n";
   
   if (Debug == true)
      cerr << Req << endl;

   Server->WriteResponse(Req);
}
                                                                        /*}}}*/
// HttpMethod::Configuration - Handle a configuration message           /*{{{*/
// ---------------------------------------------------------------------
/* We stash the desired pipeline depth */
bool HttpMethod::Configuration(string Message)
{
   if (ServerMethod::Configuration(Message) == false)
      return false;

   AllowRedirect = _config->FindB("Acquire::http::AllowRedirect",true);
   PipelineDepth = _config->FindI("Acquire::http::Pipeline-Depth",
                                  PipelineDepth);
   Debug = _config->FindB("Debug::Acquire::http",false);
   AutoDetectProxyCmd = _config->Find("Acquire::http::ProxyAutoDetect");

   // Get the proxy to use
   AutoDetectProxy();

   return true;
}
                                                                        /*}}}*/
// HttpMethod::AutoDetectProxy - auto detect proxy                      /*{{{*/
// ---------------------------------------------------------------------
/* */
bool HttpMethod::AutoDetectProxy()
{
   if (AutoDetectProxyCmd.empty())
      return true;

   if (Debug)
      clog << "Using auto proxy detect command: " << AutoDetectProxyCmd << endl;

   int Pipes[2] = {-1,-1};
   if (pipe(Pipes) != 0)
      return _error->Errno("pipe", "Failed to create Pipe");

   pid_t Process = ExecFork();
   if (Process == 0)
   {
      close(Pipes[0]);
      dup2(Pipes[1],STDOUT_FILENO);
      SetCloseExec(STDOUT_FILENO,false);

      const char *Args[2];
      Args[0] = AutoDetectProxyCmd.c_str();
      Args[1] = 0;
      execv(Args[0],(char **)Args);
      cerr << "Failed to exec method " << Args[0] << endl;
      _exit(100);
   }
   char buf[512];
   int InFd = Pipes[0];
   close(Pipes[1]);
   int res = read(InFd, buf, sizeof(buf)-1);
   ExecWait(Process, "ProxyAutoDetect", true);

   if (res < 0)
      return _error->Errno("read", "Failed to read");
   if (res == 0)
      return _error->Warning("ProxyAutoDetect returned no data");

   // add trailing \0
   buf[res] = 0;

   if (Debug)
      clog << "auto detect command returned: '" << buf << "'" << endl;

   if (strstr(buf, "http://") == buf)
      _config->Set("Acquire::http::proxy", _strstrip(buf));

   return true;
}
                                                                        /*}}}*/
ServerState * HttpMethod::CreateServerState(URI uri)                    /*{{{*/
{
   return new HttpServerState(uri, this);
}
                                                                        /*}}}*/
void HttpMethod::RotateDNS()                                            /*{{{*/
{
   ::RotateDNS();
}
                                                                        /*}}}*/