// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ // $Id: acquire-method.cc,v 1.27.2.1 2003/12/24 23:09:17 mdz Exp $ /* ###################################################################### Acquire Method This is a skeleton class that implements most of the functionality of a method and some useful functions to make method implementation simpler. The methods all derive this and specialize it. The most complex implementation is the http method which needs to provide pipelining, it runs the message engine at the same time it is downloading files.. ##################################################################### */ /*}}}*/ // Include Files /*{{{*/ #include #include #include #include #include #include #include #include #include #include /*}}}*/ using namespace std; // AcqMethod::pkgAcqMethod - Constructor /*{{{*/ // --------------------------------------------------------------------- /* This constructs the initialization text */ pkgAcqMethod::pkgAcqMethod(const char *Ver,unsigned long Flags) { std::cout << "100 Capabilities\n" << "Version: " << Ver << "\n"; if ((Flags & SingleInstance) == SingleInstance) std::cout << "Single-Instance: true\n"; if ((Flags & Pipeline) == Pipeline) std::cout << "Pipeline: true\n"; if ((Flags & SendConfig) == SendConfig) std::cout << "Send-Config: true\n"; if ((Flags & LocalOnly) == LocalOnly) std::cout <<"Local-Only: true\n"; if ((Flags & NeedsCleanup) == NeedsCleanup) std::cout << "Needs-Cleanup: true\n"; if ((Flags & Removable) == Removable) std::cout << "Removable: true\n"; std::cout << "\n" << std::flush; SetNonBlock(STDIN_FILENO,true); Queue = 0; QueueBack = 0; } /*}}}*/ // AcqMethod::Fail - A fetch has failed /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqMethod::Fail(bool Transient) { string Err = "Undetermined Error"; if (_error->empty() == false) _error->PopMessage(Err); _error->Discard(); Fail(Err,Transient); } /*}}}*/ // AcqMethod::Fail - A fetch has failed /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqMethod::Fail(string Err,bool Transient) { // Strip out junk from the error messages for (string::iterator I = Err.begin(); I != Err.end(); ++I) { if (*I == '\r') *I = ' '; if (*I == '\n') *I = ' '; } if (Queue != 0) { std::cout << "400 URI Failure\nURI: " << Queue->Uri << "\n" << "Message: " << Err << " " << IP << "\n"; Dequeue(); } else std::cout << "400 URI Failure\nURI: \nMessage: " << Err << "\n"; if(FailReason.empty() == false) std::cout << "FailReason: " << FailReason << "\n"; if (UsedMirror.empty() == false) std::cout << "UsedMirror: " << UsedMirror << "\n"; // Set the transient flag if (Transient == true) std::cout << "Transient-Failure: true\n"; std::cout << "\n" << std::flush; } /*}}}*/ // AcqMethod::URIStart - Indicate a download is starting /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqMethod::URIStart(FetchResult &Res) { if (Queue == 0) abort(); std::cout << "200 URI Start\n" << "URI: " << Queue->Uri << "\n"; if (Res.Size != 0) std::cout << "Size: " << Res.Size << "\n"; if (Res.LastModified != 0) std::cout << "Last-Modified: " << TimeRFC1123(Res.LastModified) << "\n"; if (Res.ResumePoint != 0) std::cout << "Resume-Point: " << Res.ResumePoint << "\n"; if (UsedMirror.empty() == false) std::cout << "UsedMirror: " << UsedMirror << "\n"; std::cout << "\n" << std::flush; } /*}}}*/ // AcqMethod::URIDone - A URI is finished /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqMethod::URIDone(FetchResult &Res, FetchResult *Alt) { if (Queue == 0) abort(); std::cout << "201 URI Done\n" << "URI: " << Queue->Uri << "\n"; if (Res.Filename.empty() == false) std::cout << "Filename: " << Res.Filename << "\n"; if (Res.Size != 0) std::cout << "Size: " << Res.Size << "\n"; if (Res.LastModified != 0) std::cout << "Last-Modified: " << TimeRFC1123(Res.LastModified) << "\n"; if (Res.MD5Sum.empty() == false) std::cout << "MD5-Hash: " << Res.MD5Sum << "\n" << "MD5Sum-Hash: " << Res.MD5Sum << "\n"; if (Res.SHA1Sum.empty() == false) std::cout << "SHA1-Hash: " << Res.SHA1Sum << "\n"; if (Res.SHA256Sum.empty() == false) std::cout << "SHA256-Hash: " << Res.SHA256Sum << "\n"; if (Res.SHA512Sum.empty() == false) std::cout << "SHA512-Hash: " << Res.SHA512Sum << "\n"; if (UsedMirror.empty() == false) std::cout << "UsedMirror: " << UsedMirror << "\n"; if (Res.GPGVOutput.empty() == false) { std::cout << "GPGVOutput:\n"; for (vector::const_iterator I = Res.GPGVOutput.begin(); I != Res.GPGVOutput.end(); ++I) std::cout << " " << *I << "\n"; } if (Res.ResumePoint != 0) std::cout << "Resume-Point: " << Res.ResumePoint << "\n"; if (Res.IMSHit == true) std::cout << "IMS-Hit: true\n"; if (Alt != 0) { if (Alt->Filename.empty() == false) std::cout << "Alt-Filename: " << Alt->Filename << "\n"; if (Alt->Size != 0) std::cout << "Alt-Size: " << Alt->Size << "\n"; if (Alt->LastModified != 0) std::cout << "Alt-Last-Modified: " << TimeRFC1123(Alt->LastModified) << "\n"; if (Alt->MD5Sum.empty() == false) std::cout << "Alt-MD5-Hash: " << Alt->MD5Sum << "\n"; if (Alt->SHA1Sum.empty() == false) std::cout << "Alt-SHA1-Hash: " << Alt->SHA1Sum << "\n"; if (Alt->SHA256Sum.empty() == false) std::cout << "Alt-SHA256-Hash: " << Alt->SHA256Sum << "\n"; if (Alt->SHA512Sum.empty() == false) std::cout << "Alt-SHA512-Hash: " << Alt->SHA512Sum << "\n"; if (Alt->IMSHit == true) std::cout << "Alt-IMS-Hit: true\n"; } std::cout << "\n" << std::flush; Dequeue(); } /*}}}*/ // AcqMethod::MediaFail - Syncronous request for new media /*{{{*/ // --------------------------------------------------------------------- /* This sends a 403 Media Failure message to the APT and waits for it to be ackd */ bool pkgAcqMethod::MediaFail(string Required,string Drive) { fprintf(stdout, "403 Media Failure\nMedia: %s\nDrive: %s\n", Required.c_str(),Drive.c_str()); std::cout << "\n" << std::flush; vector MyMessages; /* Here we read messages until we find a 603, each non 603 message is appended to the main message list for later processing */ while (1) { if (WaitFd(STDIN_FILENO) == false) return false; if (ReadMessages(STDIN_FILENO,MyMessages) == false) return false; string Message = MyMessages.front(); MyMessages.erase(MyMessages.begin()); // Fetch the message number char *End; int Number = strtol(Message.c_str(),&End,10); if (End == Message.c_str()) { cerr << "Malformed message!" << endl; exit(100); } // Change ack if (Number == 603) { while (MyMessages.empty() == false) { Messages.push_back(MyMessages.front()); MyMessages.erase(MyMessages.begin()); } return !StringToBool(LookupTag(Message,"Failed"),false); } Messages.push_back(Message); } } /*}}}*/ // AcqMethod::Configuration - Handle the configuration message /*{{{*/ // --------------------------------------------------------------------- /* This parses each configuration entry and puts it into the _config Configuration class. */ bool pkgAcqMethod::Configuration(string Message) { ::Configuration &Cnf = *_config; const char *I = Message.c_str(); const char *MsgEnd = I + Message.length(); unsigned int Length = strlen("Config-Item"); for (; I + Length < MsgEnd; I++) { // Not a config item if (I[Length] != ':' || stringcasecmp(I,I+Length,"Config-Item") != 0) continue; I += Length + 1; for (; I < MsgEnd && *I == ' '; I++); const char *Equals = (const char*) memchr(I, '=', MsgEnd - I); if (Equals == NULL) return false; const char *End = (const char*) memchr(Equals, '\n', MsgEnd - Equals); if (End == NULL) End = MsgEnd; Cnf.Set(DeQuoteString(string(I,Equals-I)), DeQuoteString(string(Equals+1,End-Equals-1))); I = End; } return true; } /*}}}*/ // AcqMethod::Run - Run the message engine /*{{{*/ // --------------------------------------------------------------------- /* Fetch any messages and execute them. In single mode it returns 1 if there are no more available messages - any other result is a fatal failure code! */ int pkgAcqMethod::Run(bool Single) { while (1) { // Block if the message queue is empty if (Messages.empty() == true) { if (Single == false) if (WaitFd(STDIN_FILENO) == false) break; if (ReadMessages(STDIN_FILENO,Messages) == false) break; } // Single mode exits if the message queue is empty if (Single == true && Messages.empty() == true) return -1; string Message = Messages.front(); Messages.erase(Messages.begin()); // Fetch the message number char *End; int Number = strtol(Message.c_str(),&End,10); if (End == Message.c_str()) { cerr << "Malformed message!" << endl; return 100; } switch (Number) { case 601: if (Configuration(Message) == false) return 100; break; case 600: { FetchItem *Tmp = new FetchItem; Tmp->Uri = LookupTag(Message,"URI"); Tmp->DestFile = LookupTag(Message,"FileName"); if (RFC1123StrToTime(LookupTag(Message,"Last-Modified").c_str(),Tmp->LastModified) == false) Tmp->LastModified = 0; Tmp->IndexFile = StringToBool(LookupTag(Message,"Index-File"),false); Tmp->FailIgnore = StringToBool(LookupTag(Message,"Fail-Ignore"),false); Tmp->Next = 0; // Append it to the list FetchItem **I = &Queue; for (; *I != 0; I = &(*I)->Next); *I = Tmp; if (QueueBack == 0) QueueBack = Tmp; // Notify that this item is to be fetched. if (Fetch(Tmp) == false) Fail(); break; } } } Exit(); return 0; } /*}}}*/ // AcqMethod::PrintStatus - privately really send a log/status message /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqMethod::PrintStatus(char const * const header, const char* Format, va_list &args) const { string CurrentURI = ""; if (Queue != 0) CurrentURI = Queue->Uri; if (UsedMirror.empty() == true) fprintf(stdout, "%s\nURI: %s\nMessage: ", header, CurrentURI.c_str()); else fprintf(stdout, "%s\nURI: %s\nUsedMirror: %s\nMessage: ", header, CurrentURI.c_str(), UsedMirror.c_str()); vfprintf(stdout,Format,args); std::cout << "\n\n" << std::flush; } /*}}}*/ // AcqMethod::Log - Send a log message /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqMethod::Log(const char *Format,...) { va_list args; va_start(args,Format); PrintStatus("101 Log", Format, args); va_end(args); } /*}}}*/ // AcqMethod::Status - Send a status message /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqMethod::Status(const char *Format,...) { va_list args; va_start(args,Format); PrintStatus("102 Status", Format, args); va_end(args); } /*}}}*/ // AcqMethod::Redirect - Send a redirect message /*{{{*/ // --------------------------------------------------------------------- /* This method sends the redirect message and also manipulates the queue to keep the pipeline synchronized. */ void pkgAcqMethod::Redirect(const string &NewURI) { std::cout << "103 Redirect\nURI: " << Queue->Uri << "\n" << "New-URI: " << NewURI << "\n" << "\n" << std::flush; // Change the URI for the request. Queue->Uri = NewURI; /* To keep the pipeline synchronized, move the current request to the end of the queue, past the end of the current pipeline. */ FetchItem *I; for (I = Queue; I->Next != 0; I = I->Next) ; I->Next = Queue; Queue = Queue->Next; I->Next->Next = 0; if (QueueBack == 0) QueueBack = I->Next; } /*}}}*/ // AcqMethod::FetchResult::FetchResult - Constructor /*{{{*/ // --------------------------------------------------------------------- /* */ pkgAcqMethod::FetchResult::FetchResult() : LastModified(0), IMSHit(false), Size(0), ResumePoint(0) { } /*}}}*/ // AcqMethod::FetchResult::TakeHashes - Load hashes /*{{{*/ // --------------------------------------------------------------------- /* This hides the number of hashes we are supporting from the caller. It just deals with the hash class. */ void pkgAcqMethod::FetchResult::TakeHashes(Hashes &Hash) { MD5Sum = Hash.MD5.Result(); SHA1Sum = Hash.SHA1.Result(); SHA256Sum = Hash.SHA256.Result(); SHA512Sum = Hash.SHA512.Result(); } /*}}}*/ void pkgAcqMethod::Dequeue() { /*{{{*/ FetchItem const * const Tmp = Queue; Queue = Queue->Next; if (Tmp == QueueBack) QueueBack = Queue; delete Tmp; } /*}}}*/