// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ // $Id: acquire-item.cc,v 1.46.2.9 2004/01/16 18:51:11 mdz Exp $ /* ###################################################################### Acquire Item - Item to acquire Each item can download to exactly one file at a time. This means you cannot create an item that fetches two uri's to two files at the same time. The pkgAcqIndex class creates a second class upon instantiation to fetch the other index files because of this. ##################################################################### */ /*}}}*/ // Include Files /*{{{*/ #ifdef __GNUG__ #pragma implementation "apt-pkg/acquire-item.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*}}}*/ using namespace std; // Acquire::Item::Item - Constructor /*{{{*/ // --------------------------------------------------------------------- /* */ pkgAcquire::Item::Item(pkgAcquire *Owner) : Owner(Owner), FileSize(0), PartialSize(0), Mode(0), ID(0), Complete(false), Local(false), QueueCounter(0) { Owner->Add(this); Status = StatIdle; } /*}}}*/ // Acquire::Item::~Item - Destructor /*{{{*/ // --------------------------------------------------------------------- /* */ pkgAcquire::Item::~Item() { Owner->Remove(this); } /*}}}*/ // Acquire::Item::Failed - Item failed to download /*{{{*/ // --------------------------------------------------------------------- /* We return to an idle state if there are still other queues that could fetch this object */ void pkgAcquire::Item::Failed(string Message,pkgAcquire::MethodConfig *Cnf) { Status = StatIdle; ErrorText = LookupTag(Message,"Message"); if (QueueCounter <= 1) { /* This indicates that the file is not available right now but might be sometime later. If we do a retry cycle then this should be retried [CDROMs] */ if (Cnf->LocalOnly == true && StringToBool(LookupTag(Message,"Transient-Failure"),false) == true) { Status = StatIdle; Dequeue(); return; } Status = StatError; Dequeue(); } } /*}}}*/ // Acquire::Item::Start - Item has begun to download /*{{{*/ // --------------------------------------------------------------------- /* Stash status and the file size. Note that setting Complete means sub-phases of the acquire process such as decompresion are operating */ void pkgAcquire::Item::Start(string /*Message*/,unsigned long Size) { Status = StatFetching; if (FileSize == 0 && Complete == false) FileSize = Size; } /*}}}*/ // Acquire::Item::Done - Item downloaded OK /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcquire::Item::Done(string Message,unsigned long Size,string, pkgAcquire::MethodConfig *Cnf) { // We just downloaded something.. string FileName = LookupTag(Message,"Filename"); // we only inform the Log class if it was actually not a local thing if (Complete == false && !Local && FileName == DestFile) { if (Owner->Log != 0) Owner->Log->Fetched(Size,atoi(LookupTag(Message,"Resume-Point","0").c_str())); } if (FileSize == 0) FileSize= Size; Status = StatDone; ErrorText = string(); Owner->Dequeue(this); } /*}}}*/ // Acquire::Item::Rename - Rename a file /*{{{*/ // --------------------------------------------------------------------- /* This helper function is used by alot of item methods as thier final step */ void pkgAcquire::Item::Rename(string From,string To) { if (rename(From.c_str(),To.c_str()) != 0) { char S[300]; snprintf(S,sizeof(S),_("rename failed, %s (%s -> %s)."),strerror(errno), From.c_str(),To.c_str()); Status = StatError; ErrorText = S; } } /*}}}*/ // AcqDiffIndex::AcqDiffIndex - Constructor // --------------------------------------------------------------------- /* Get the DiffIndex file first and see if there are patches availabe * If so, create a pkgAcqIndexDiffs fetcher that will get and apply the * patches. If anything goes wrong in that process, it will fall back to * the original packages file */ pkgAcqDiffIndex::pkgAcqDiffIndex(pkgAcquire *Owner, string URI,string URIDesc,string ShortDesc, string ExpectedMD5) : Item(Owner), RealURI(URI), ExpectedMD5(ExpectedMD5), Description(URIDesc) { Debug = _config->FindB("Debug::pkgAcquire::Diffs",false); Desc.Description = URIDesc + "/DiffIndex"; Desc.Owner = this; Desc.ShortDesc = ShortDesc; Desc.URI = URI + ".diff/Index"; DestFile = _config->FindDir("Dir::State::lists") + "partial/"; DestFile += URItoFileName(URI) + string(".DiffIndex"); if(Debug) std::clog << "pkgAcqDiffIndex: " << Desc.URI << std::endl; // look for the current package file CurrentPackagesFile = _config->FindDir("Dir::State::lists"); CurrentPackagesFile += URItoFileName(RealURI); // FIXME: this file:/ check is a hack to prevent fetching // from local sources. this is really silly, and // should be fixed cleanly as soon as possible if(!FileExists(CurrentPackagesFile) || Desc.URI.substr(0,strlen("file:/")) == "file:/") { // we don't have a pkg file or we don't want to queue if(Debug) std::clog << "No index file, local or canceld by user" << std::endl; Failed("", NULL); return; } if(Debug) std::clog << "pkgAcqIndexDiffs::pkgAcqIndexDiffs(): " << CurrentPackagesFile << std::endl; QueueURI(Desc); } // AcqIndex::Custom600Headers - Insert custom request headers /*{{{*/ // --------------------------------------------------------------------- /* The only header we use is the last-modified header. */ string pkgAcqDiffIndex::Custom600Headers() { string Final = _config->FindDir("Dir::State::lists"); Final += URItoFileName(RealURI) + string(".IndexDiff"); if(Debug) std::clog << "Custom600Header-IMS: " << Final << std::endl; struct stat Buf; if (stat(Final.c_str(),&Buf) != 0) return "\nIndex-File: true"; return "\nIndex-File: true\nLast-Modified: " + TimeRFC1123(Buf.st_mtime); } bool pkgAcqDiffIndex::ParseDiffIndex(string IndexDiffFile) { if(Debug) std::clog << "pkgAcqIndexDiffs::ParseIndexDiff() " << IndexDiffFile << std::endl; pkgTagSection Tags; string ServerSha1; vector available_patches; FileFd Fd(IndexDiffFile,FileFd::ReadOnly); pkgTagFile TF(&Fd); if (_error->PendingError() == true) return false; if(TF.Step(Tags) == true) { string local_sha1; bool found = false; DiffInfo d; string size; string tmp = Tags.FindS("SHA1-Current"); std::stringstream ss(tmp); ss >> ServerSha1; FileFd fd(CurrentPackagesFile, FileFd::ReadOnly); SHA1Summation SHA1; SHA1.AddFD(fd.Fd(), fd.Size()); local_sha1 = string(SHA1.Result()); if(local_sha1 == ServerSha1) { // we have the same sha1 as the server if(Debug) std::clog << "Package file is up-to-date" << std::endl; // set found to true, this will queue a pkgAcqIndexDiffs with // a empty availabe_patches found = true; } else { if(Debug) std::clog << "SHA1-Current: " << ServerSha1 << std::endl; // check the historie and see what patches we need string history = Tags.FindS("SHA1-History"); std::stringstream hist(history); while(hist >> d.sha1 >> size >> d.file) { d.size = atoi(size.c_str()); // read until the first match is found if(d.sha1 == local_sha1) found=true; // from that point on, we probably need all diffs if(found) { if(Debug) std::clog << "Need to get diff: " << d.file << std::endl; available_patches.push_back(d); } } } // we have something, queue the next diff if(found) { // queue the diffs int last_space = Description.rfind(" "); if(last_space != string::npos) Description.erase(last_space, Description.size()-last_space); new pkgAcqIndexDiffs(Owner, RealURI, Description, Desc.ShortDesc, ExpectedMD5, available_patches); Complete = false; Status = StatDone; Dequeue(); return true; } } // Nothing found, report and return false // Failing here is ok, if we return false later, the full // IndexFile is queued if(Debug) std::clog << "Can't find a patch in the index file" << std::endl; return false; } void pkgAcqDiffIndex::Failed(string Message,pkgAcquire::MethodConfig *Cnf) { if(Debug) std::clog << "pkgAcqDiffIndex failed: " << Desc.URI << std::endl << "Falling back to normal index file aquire" << std::endl; new pkgAcqIndex(Owner, RealURI, Description, Desc.ShortDesc, ExpectedMD5); Complete = false; Status = StatDone; Dequeue(); } void pkgAcqDiffIndex::Done(string Message,unsigned long Size,string Md5Hash, pkgAcquire::MethodConfig *Cnf) { if(Debug) std::clog << "pkgAcqDiffIndex::Done(): " << Desc.URI << std::endl; Item::Done(Message,Size,Md5Hash,Cnf); string FinalFile; FinalFile = _config->FindDir("Dir::State::lists")+URItoFileName(RealURI); // sucess in downloading the index // rename the index FinalFile += string(".IndexDiff"); if(Debug) std::clog << "Renaming: " << DestFile << " -> " << FinalFile << std::endl; Rename(DestFile,FinalFile); chmod(FinalFile.c_str(),0644); DestFile = FinalFile; if(!ParseDiffIndex(DestFile)) return Failed("", NULL); Complete = true; Status = StatDone; Dequeue(); return; } // AcqIndexDiffs::AcqIndexDiffs - Constructor // --------------------------------------------------------------------- /* The package diff is added to the queue. one object is constructed * for each diff and the index */ pkgAcqIndexDiffs::pkgAcqIndexDiffs(pkgAcquire *Owner, string URI,string URIDesc,string ShortDesc, string ExpectedMD5, vector diffs) : Item(Owner), RealURI(URI), ExpectedMD5(ExpectedMD5), available_patches(diffs) { DestFile = _config->FindDir("Dir::State::lists") + "partial/"; DestFile += URItoFileName(URI); Debug = _config->FindB("Debug::pkgAcquire::Diffs",false); Description = URIDesc; Desc.Owner = this; Desc.ShortDesc = ShortDesc; if(available_patches.size() == 0) { // we are done (yeah!) Finish(true); } else { // get the next diff State = StateFetchDiff; QueueNextDiff(); } } void pkgAcqIndexDiffs::Failed(string Message,pkgAcquire::MethodConfig *Cnf) { if(Debug) std::clog << "pkgAcqIndexDiffs failed: " << Desc.URI << std::endl << "Falling back to normal index file aquire" << std::endl; new pkgAcqIndex(Owner, RealURI, Description,Desc.ShortDesc, ExpectedMD5); Finish(); } // helper that cleans the item out of the fetcher queue void pkgAcqIndexDiffs::Finish(bool allDone) { // we restore the original name, this is required, otherwise // the file will be cleaned if(allDone) { DestFile = _config->FindDir("Dir::State::lists"); DestFile += URItoFileName(RealURI); // do the final md5sum checking MD5Summation sum; FileFd Fd(DestFile, FileFd::ReadOnly); sum.AddFD(Fd.Fd(), Fd.Size()); Fd.Close(); string MD5 = (string)sum.Result(); if (!ExpectedMD5.empty() && MD5 != ExpectedMD5) { Status = StatAuthError; ErrorText = _("MD5Sum mismatch"); Rename(DestFile,DestFile + ".FAILED"); Dequeue(); return; } // this is for the "real" finish Complete = true; Status = StatDone; Dequeue(); if(Debug) std::clog << "\n\nallDone: " << DestFile << "\n" << std::endl; return; } if(Debug) std::clog << "Finishing: " << Desc.URI << std::endl; Complete = false; Status = StatDone; Dequeue(); return; } bool pkgAcqIndexDiffs::QueueNextDiff() { // calc sha1 of the just patched file string FinalFile = _config->FindDir("Dir::State::lists"); FinalFile += URItoFileName(RealURI); FileFd fd(FinalFile, FileFd::ReadOnly); SHA1Summation SHA1; SHA1.AddFD(fd.Fd(), fd.Size()); string local_sha1 = string(SHA1.Result()); if(Debug) std::clog << "QueueNextDiff: " << FinalFile << " (" << local_sha1 << ")"<::iterator I=available_patches.begin(); available_patches.size() > 0 && I != available_patches.end() && (*I).sha1 != local_sha1; I++) { available_patches.erase(I); } // error checking and falling back if no patch was found if(available_patches.size() == 0) { Failed("", NULL); return false; } // queue the right diff Desc.URI = string(RealURI) + ".diff/" + available_patches[0].file + ".gz"; Desc.Description = Description + " " + available_patches[0].file + string(".pdiff"); DestFile = _config->FindDir("Dir::State::lists") + "partial/"; DestFile += URItoFileName(RealURI + ".diff/" + available_patches[0].file); if(Debug) std::clog << "pkgAcqIndexDiffs::QueueNextDiff(): " << Desc.URI << std::endl; QueueURI(Desc); return true; } void pkgAcqIndexDiffs::Done(string Message,unsigned long Size,string Md5Hash, pkgAcquire::MethodConfig *Cnf) { if(Debug) std::clog << "pkgAcqIndexDiffs::Done(): " << Desc.URI << std::endl; Item::Done(Message,Size,Md5Hash,Cnf); string FinalFile; FinalFile = _config->FindDir("Dir::State::lists")+URItoFileName(RealURI); // sucess in downloading a diff, enter ApplyDiff state if(State == StateFetchDiff) { if(Debug) std::clog << "Sending to gzip method: " << FinalFile << std::endl; string FileName = LookupTag(Message,"Filename"); State = StateUnzipDiff; Local = true; Desc.URI = "gzip:" + FileName; DestFile += ".decomp"; QueueURI(Desc); Mode = "gzip"; return; } // sucess in downloading a diff, enter ApplyDiff state if(State == StateUnzipDiff) { // rred excepts the patch as $FinalFile.ed Rename(DestFile,FinalFile+".ed"); if(Debug) std::clog << "Sending to rred method: " << FinalFile << std::endl; State = StateApplyDiff; Local = true; Desc.URI = "rred:" + FinalFile; QueueURI(Desc); Mode = "rred"; return; } // success in download/apply a diff, queue next (if needed) if(State == StateApplyDiff) { // remove the just applied patch available_patches.erase(available_patches.begin()); // move into place if(Debug) { std::clog << "Moving patched file in place: " << std::endl << DestFile << " -> " << FinalFile << std::endl; } Rename(DestFile,FinalFile); chmod(FinalFile.c_str(),0644); // see if there is more to download if(available_patches.size() > 0) { new pkgAcqIndexDiffs(Owner, RealURI, Description, Desc.ShortDesc, ExpectedMD5, available_patches); return Finish(); } else return Finish(true); } } // AcqIndex::AcqIndex - Constructor /*{{{*/ // --------------------------------------------------------------------- /* The package file is added to the queue and a second class is instantiated to fetch the revision file */ pkgAcqIndex::pkgAcqIndex(pkgAcquire *Owner, string URI,string URIDesc,string ShortDesc, string ExpectedMD5, string comprExt) : Item(Owner), RealURI(URI), ExpectedMD5(ExpectedMD5) { Decompression = false; Erase = false; DestFile = _config->FindDir("Dir::State::lists") + "partial/"; DestFile += URItoFileName(URI); if(comprExt.empty()) { // autoselect the compression method if(FileExists("/bin/bzip2")) CompressionExtension = ".bz2"; else CompressionExtension = ".gz"; } else { CompressionExtension = comprExt; } Desc.URI = URI + CompressionExtension; Desc.Description = URIDesc; Desc.Owner = this; Desc.ShortDesc = ShortDesc; QueueURI(Desc); } /*}}}*/ // AcqIndex::Custom600Headers - Insert custom request headers /*{{{*/ // --------------------------------------------------------------------- /* The only header we use is the last-modified header. */ string pkgAcqIndex::Custom600Headers() { string Final = _config->FindDir("Dir::State::lists"); Final += URItoFileName(RealURI); struct stat Buf; if (stat(Final.c_str(),&Buf) != 0) return "\nIndex-File: true"; return "\nIndex-File: true\nLast-Modified: " + TimeRFC1123(Buf.st_mtime); } /*}}}*/ void pkgAcqIndex::Failed(string Message,pkgAcquire::MethodConfig *Cnf) { // no .bz2 found, retry with .gz if(Desc.URI.substr(Desc.URI.size()-3) == "bz2") { Desc.URI = Desc.URI.substr(0,Desc.URI.size()-3) + "gz"; // retry with a gzip one new pkgAcqIndex(Owner, RealURI, Desc.Description,Desc.ShortDesc, ExpectedMD5, string(".gz")); Status = StatDone; Complete = false; Dequeue(); return; } Item::Failed(Message,Cnf); } // AcqIndex::Done - Finished a fetch /*{{{*/ // --------------------------------------------------------------------- /* This goes through a number of states.. On the initial fetch the method could possibly return an alternate filename which points to the uncompressed version of the file. If this is so the file is copied into the partial directory. In all other cases the file is decompressed with a gzip uri. */ void pkgAcqIndex::Done(string Message,unsigned long Size,string MD5, pkgAcquire::MethodConfig *Cfg) { Item::Done(Message,Size,MD5,Cfg); if (Decompression == true) { if (_config->FindB("Debug::pkgAcquire::Auth", false)) { std::cerr << std::endl << RealURI << ": Computed MD5: " << MD5; std::cerr << " Expected MD5: " << ExpectedMD5 << std::endl; } if (MD5.empty()) { MD5Summation sum; FileFd Fd(DestFile, FileFd::ReadOnly); sum.AddFD(Fd.Fd(), Fd.Size()); Fd.Close(); MD5 = (string)sum.Result(); } if (!ExpectedMD5.empty() && MD5 != ExpectedMD5) { Status = StatAuthError; ErrorText = _("MD5Sum mismatch"); Rename(DestFile,DestFile + ".FAILED"); return; } // Done, move it into position string FinalFile = _config->FindDir("Dir::State::lists"); FinalFile += URItoFileName(RealURI); Rename(DestFile,FinalFile); chmod(FinalFile.c_str(),0644); /* We restore the original name to DestFile so that the clean operation will work OK */ DestFile = _config->FindDir("Dir::State::lists") + "partial/"; DestFile += URItoFileName(RealURI); // Remove the compressed version. if (Erase == true) unlink(DestFile.c_str()); return; } Erase = false; Complete = true; // Handle the unzipd case string FileName = LookupTag(Message,"Alt-Filename"); if (FileName.empty() == false) { // The files timestamp matches if (StringToBool(LookupTag(Message,"Alt-IMS-Hit"),false) == true) return; Decompression = true; Local = true; DestFile += ".decomp"; Desc.URI = "copy:" + FileName; QueueURI(Desc); Mode = "copy"; return; } FileName = LookupTag(Message,"Filename"); if (FileName.empty() == true) { Status = StatError; ErrorText = "Method gave a blank filename"; } // The files timestamp matches if (StringToBool(LookupTag(Message,"IMS-Hit"),false) == true) return; if (FileName == DestFile) Erase = true; else Local = true; string compExt = Desc.URI.substr(Desc.URI.size()-3); char *decompProg; if(compExt == "bz2") decompProg = "bzip2"; else if(compExt == ".gz") decompProg = "gzip"; else { _error->Error("Unsupported extension: %s", compExt.c_str()); return; } Decompression = true; DestFile += ".decomp"; Desc.URI = string(decompProg) + ":" + FileName; QueueURI(Desc); Mode = decompProg; } pkgAcqMetaSig::pkgAcqMetaSig(pkgAcquire *Owner, string URI,string URIDesc,string ShortDesc, string MetaIndexURI, string MetaIndexURIDesc, string MetaIndexShortDesc, const vector* IndexTargets, indexRecords* MetaIndexParser) : Item(Owner), RealURI(URI), MetaIndexURI(MetaIndexURI), MetaIndexURIDesc(MetaIndexURIDesc), MetaIndexShortDesc(MetaIndexShortDesc), MetaIndexParser(MetaIndexParser), IndexTargets(IndexTargets) { DestFile = _config->FindDir("Dir::State::lists") + "partial/"; DestFile += URItoFileName(URI); // remove any partial downloaded sig-file. it may confuse proxies // and is too small to warrant a partial download anyway unlink(DestFile.c_str()); // Create the item Desc.Description = URIDesc; Desc.Owner = this; Desc.ShortDesc = ShortDesc; Desc.URI = URI; string Final = _config->FindDir("Dir::State::lists"); Final += URItoFileName(RealURI); struct stat Buf; if (stat(Final.c_str(),&Buf) == 0) { // File was already in place. It needs to be re-verified // because Release might have changed, so Move it into partial Rename(Final,DestFile); } QueueURI(Desc); } /*}}}*/ // pkgAcqMetaSig::Custom600Headers - Insert custom request headers /*{{{*/ // --------------------------------------------------------------------- /* The only header we use is the last-modified header. */ string pkgAcqMetaSig::Custom600Headers() { struct stat Buf; if (stat(DestFile.c_str(),&Buf) != 0) return "\nIndex-File: true"; return "\nIndex-File: true\nLast-Modified: " + TimeRFC1123(Buf.st_mtime); } void pkgAcqMetaSig::Done(string Message,unsigned long Size,string MD5, pkgAcquire::MethodConfig *Cfg) { Item::Done(Message,Size,MD5,Cfg); string FileName = LookupTag(Message,"Filename"); if (FileName.empty() == true) { Status = StatError; ErrorText = "Method gave a blank filename"; return; } if (FileName != DestFile) { // We have to copy it into place Local = true; Desc.URI = "copy:" + FileName; QueueURI(Desc); return; } Complete = true; // queue a pkgAcqMetaIndex to be verified against the sig we just retrieved new pkgAcqMetaIndex(Owner, MetaIndexURI, MetaIndexURIDesc, MetaIndexShortDesc, DestFile, IndexTargets, MetaIndexParser); } /*}}}*/ void pkgAcqMetaSig::Failed(string Message,pkgAcquire::MethodConfig *Cnf) { // if we get a network error we fail gracefully if(LookupTag(Message,"FailReason") == "Timeout" || LookupTag(Message,"FailReason") == "TmpResolveFailure" || LookupTag(Message,"FailReason") == "ConnectionRefused") { Item::Failed(Message,Cnf); return; } // Delete any existing sigfile when the acquire failed string Final = _config->FindDir("Dir::State::lists") + URItoFileName(RealURI); unlink(Final.c_str()); // queue a pkgAcqMetaIndex with no sigfile new pkgAcqMetaIndex(Owner, MetaIndexURI, MetaIndexURIDesc, MetaIndexShortDesc, "", IndexTargets, MetaIndexParser); if (Cnf->LocalOnly == true || StringToBool(LookupTag(Message,"Transient-Failure"),false) == false) { // Ignore this Status = StatDone; Complete = false; Dequeue(); return; } Item::Failed(Message,Cnf); } pkgAcqMetaIndex::pkgAcqMetaIndex(pkgAcquire *Owner, string URI,string URIDesc,string ShortDesc, string SigFile, const vector* IndexTargets, indexRecords* MetaIndexParser) : Item(Owner), RealURI(URI), SigFile(SigFile), AuthPass(false), MetaIndexParser(MetaIndexParser), IndexTargets(IndexTargets), IMSHit(false) { DestFile = _config->FindDir("Dir::State::lists") + "partial/"; DestFile += URItoFileName(URI); // Create the item Desc.Description = URIDesc; Desc.Owner = this; Desc.ShortDesc = ShortDesc; Desc.URI = URI; QueueURI(Desc); } /*}}}*/ // pkgAcqMetaIndex::Custom600Headers - Insert custom request headers /*{{{*/ // --------------------------------------------------------------------- /* The only header we use is the last-modified header. */ string pkgAcqMetaIndex::Custom600Headers() { string Final = _config->FindDir("Dir::State::lists"); Final += URItoFileName(RealURI); struct stat Buf; if (stat(Final.c_str(),&Buf) != 0) return "\nIndex-File: true"; return "\nIndex-File: true\nLast-Modified: " + TimeRFC1123(Buf.st_mtime); } void pkgAcqMetaIndex::Done(string Message,unsigned long Size,string MD5, pkgAcquire::MethodConfig *Cfg) { Item::Done(Message,Size,MD5,Cfg); // MetaIndexes are done in two passes: one to download the // metaindex with an appropriate method, and a second to verify it // with the gpgv method if (AuthPass == true) { AuthDone(Message); } else { RetrievalDone(Message); if (!Complete) // Still more retrieving to do return; if (SigFile == "") { // There was no signature file, so we are finished. Download // the indexes without verification. QueueIndexes(false); } else { // There was a signature file, so pass it to gpgv for // verification if (_config->FindB("Debug::pkgAcquire::Auth", false)) std::cerr << "Metaindex acquired, queueing gpg verification (" << SigFile << "," << DestFile << ")\n"; AuthPass = true; Desc.URI = "gpgv:" + SigFile; QueueURI(Desc); Mode = "gpgv"; } } } void pkgAcqMetaIndex::RetrievalDone(string Message) { // We have just finished downloading a Release file (it is not // verified yet) string FileName = LookupTag(Message,"Filename"); if (FileName.empty() == true) { Status = StatError; ErrorText = "Method gave a blank filename"; return; } if (FileName != DestFile) { Local = true; Desc.URI = "copy:" + FileName; QueueURI(Desc); return; } // see if the download was a IMSHit IMSHit = StringToBool(LookupTag(Message,"IMS-Hit"),false); Complete = true; string FinalFile = _config->FindDir("Dir::State::lists"); FinalFile += URItoFileName(RealURI); // The files timestamp matches if (StringToBool(LookupTag(Message,"IMS-Hit"),false) == false) { // Move it into position Rename(DestFile,FinalFile); } chmod(FinalFile.c_str(),0644); DestFile = FinalFile; } void pkgAcqMetaIndex::AuthDone(string Message) { // At this point, the gpgv method has succeeded, so there is a // valid signature from a key in the trusted keyring. We // perform additional verification of its contents, and use them // to verify the indexes we are about to download if (!MetaIndexParser->Load(DestFile)) { Status = StatAuthError; ErrorText = MetaIndexParser->ErrorText; return; } if (!VerifyVendor(Message)) { return; } if (_config->FindB("Debug::pkgAcquire::Auth", false)) std::cerr << "Signature verification succeeded: " << DestFile << std::endl; // Download further indexes with verification QueueIndexes(true); // Done, move signature file into position string VerifiedSigFile = _config->FindDir("Dir::State::lists") + URItoFileName(RealURI) + ".gpg"; Rename(SigFile,VerifiedSigFile); chmod(VerifiedSigFile.c_str(),0644); } void pkgAcqMetaIndex::QueueIndexes(bool verify) { for (vector ::const_iterator Target = IndexTargets->begin(); Target != IndexTargets->end(); Target++) { string ExpectedIndexMD5; if (verify) { const indexRecords::checkSum *Record = MetaIndexParser->Lookup((*Target)->MetaKey); if (!Record) { Status = StatAuthError; ErrorText = "Unable to find expected entry " + (*Target)->MetaKey + " in Meta-index file (malformed Release file?)"; return; } ExpectedIndexMD5 = Record->MD5Hash; if (_config->FindB("Debug::pkgAcquire::Auth", false)) { std::cerr << "Queueing: " << (*Target)->URI << std::endl; std::cerr << "Expected MD5: " << ExpectedIndexMD5 << std::endl; } if (ExpectedIndexMD5.empty()) { Status = StatAuthError; ErrorText = "Unable to find MD5 sum for " + (*Target)->MetaKey + " in Meta-index file"; return; } } // Queue Packages file (either diff or full packages files, depending // on the users option) if(_config->FindB("Acquire::PDiffs",true) == true) new pkgAcqDiffIndex(Owner, (*Target)->URI, (*Target)->Description, (*Target)->ShortDesc, ExpectedIndexMD5); else new pkgAcqIndex(Owner, (*Target)->URI, (*Target)->Description, (*Target)->ShortDesc, ExpectedIndexMD5); } } bool pkgAcqMetaIndex::VerifyVendor(string Message) { // // Maybe this should be made available from above so we don't have // // to read and parse it every time? // pkgVendorList List; // List.ReadMainList(); // const Vendor* Vndr = NULL; // for (std::vector::const_iterator I = GPGVOutput.begin(); I != GPGVOutput.end(); I++) // { // string::size_type pos = (*I).find("VALIDSIG "); // if (_config->FindB("Debug::Vendor", false)) // std::cerr << "Looking for VALIDSIG in \"" << (*I) << "\": pos " << pos // << std::endl; // if (pos != std::string::npos) // { // string Fingerprint = (*I).substr(pos+sizeof("VALIDSIG")); // if (_config->FindB("Debug::Vendor", false)) // std::cerr << "Looking for \"" << Fingerprint << "\" in vendor..." << // std::endl; // Vndr = List.FindVendor(Fingerprint) != ""; // if (Vndr != NULL); // break; // } // } string::size_type pos; // check for missing sigs (that where not fatal because otherwise we had // bombed earlier) string missingkeys; string msg = _("There is no public key available for the " "following key IDs:\n"); pos = Message.find("NO_PUBKEY "); if (pos != std::string::npos) { string::size_type start = pos+strlen("NO_PUBKEY "); string Fingerprint = Message.substr(start, Message.find("\n")-start); missingkeys += (Fingerprint); } if(!missingkeys.empty()) _error->Warning("%s", string(msg+missingkeys).c_str()); string Transformed = MetaIndexParser->GetExpectedDist(); if (Transformed == "../project/experimental") { Transformed = "experimental"; } pos = Transformed.rfind('/'); if (pos != string::npos) { Transformed = Transformed.substr(0, pos); } if (Transformed == ".") { Transformed = ""; } if (_config->FindB("Debug::pkgAcquire::Auth", false)) { std::cerr << "Got Codename: " << MetaIndexParser->GetDist() << std::endl; std::cerr << "Expecting Dist: " << MetaIndexParser->GetExpectedDist() << std::endl; std::cerr << "Transformed Dist: " << Transformed << std::endl; } if (MetaIndexParser->CheckDist(Transformed) == false) { // This might become fatal one day // Status = StatAuthError; // ErrorText = "Conflicting distribution; expected " // + MetaIndexParser->GetExpectedDist() + " but got " // + MetaIndexParser->GetDist(); // return false; if (!Transformed.empty()) { _error->Warning("Conflicting distribution: %s (expected %s but got %s)", Desc.Description.c_str(), Transformed.c_str(), MetaIndexParser->GetDist().c_str()); } } return true; } /*}}}*/ // pkgAcqMetaIndex::Failed - no Release file present or no signature // file present /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqMetaIndex::Failed(string Message,pkgAcquire::MethodConfig *Cnf) { if (AuthPass == true) { // if we fail the authentication but got the file via a IMS-Hit // this means that the file wasn't downloaded and that it might be // just stale (server problem, proxy etc). we delete what we have // queue it again without i-m-s // alternatively we could just unlink the file and let the user try again if (IMSHit) { Complete = false; Local = false; AuthPass = false; unlink(DestFile.c_str()); DestFile = _config->FindDir("Dir::State::lists") + "partial/"; DestFile += URItoFileName(RealURI); Desc.URI = RealURI; QueueURI(Desc); return; } // gpgv method failed _error->Warning("GPG error: %s: %s", Desc.Description.c_str(), LookupTag(Message,"Message").c_str()); } // No Release file was present, or verification failed, so fall // back to queueing Packages files without verification QueueIndexes(false); } /*}}}*/ // AcqArchive::AcqArchive - Constructor /*{{{*/ // --------------------------------------------------------------------- /* This just sets up the initial fetch environment and queues the first possibilitiy */ pkgAcqArchive::pkgAcqArchive(pkgAcquire *Owner,pkgSourceList *Sources, pkgRecords *Recs,pkgCache::VerIterator const &Version, string &StoreFilename) : Item(Owner), Version(Version), Sources(Sources), Recs(Recs), StoreFilename(StoreFilename), Vf(Version.FileList()), Trusted(false) { Retries = _config->FindI("Acquire::Retries",0); if (Version.Arch() == 0) { _error->Error(_("I wasn't able to locate a file for the %s package. " "This might mean you need to manually fix this package. " "(due to missing arch)"), Version.ParentPkg().Name()); return; } /* We need to find a filename to determine the extension. We make the assumption here that all the available sources for this version share the same extension.. */ // Skip not source sources, they do not have file fields. for (; Vf.end() == false; Vf++) { if ((Vf.File()->Flags & pkgCache::Flag::NotSource) != 0) continue; break; } // Does not really matter here.. we are going to fail out below if (Vf.end() != true) { // If this fails to get a file name we will bomb out below. pkgRecords::Parser &Parse = Recs->Lookup(Vf); if (_error->PendingError() == true) return; // Generate the final file name as: package_version_arch.foo StoreFilename = QuoteString(Version.ParentPkg().Name(),"_:") + '_' + QuoteString(Version.VerStr(),"_:") + '_' + QuoteString(Version.Arch(),"_:.") + "." + flExtension(Parse.FileName()); } // check if we have one trusted source for the package. if so, switch // to "TrustedOnly" mode for (pkgCache::VerFileIterator i = Version.FileList(); i.end() == false; i++) { pkgIndexFile *Index; if (Sources->FindIndex(i.File(),Index) == false) continue; if (_config->FindB("Debug::pkgAcquire::Auth", false)) { std::cerr << "Checking index: " << Index->Describe() << "(Trusted=" << Index->IsTrusted() << ")\n"; } if (Index->IsTrusted()) { Trusted = true; break; } } // "allow-unauthenticated" restores apts old fetching behaviour // that means that e.g. unauthenticated file:// uris are higher // priority than authenticated http:// uris if (_config->FindB("APT::Get::AllowUnauthenticated",false) == true) Trusted = false; // Select a source if (QueueNext() == false && _error->PendingError() == false) _error->Error(_("I wasn't able to locate file for the %s package. " "This might mean you need to manually fix this package."), Version.ParentPkg().Name()); } /*}}}*/ // AcqArchive::QueueNext - Queue the next file source /*{{{*/ // --------------------------------------------------------------------- /* This queues the next available file version for download. It checks if the archive is already available in the cache and stashs the MD5 for checking later. */ bool pkgAcqArchive::QueueNext() { for (; Vf.end() == false; Vf++) { // Ignore not source sources if ((Vf.File()->Flags & pkgCache::Flag::NotSource) != 0) continue; // Try to cross match against the source list pkgIndexFile *Index; if (Sources->FindIndex(Vf.File(),Index) == false) continue; // only try to get a trusted package from another source if that source // is also trusted if(Trusted && !Index->IsTrusted()) continue; // Grab the text package record pkgRecords::Parser &Parse = Recs->Lookup(Vf); if (_error->PendingError() == true) return false; string PkgFile = Parse.FileName(); MD5 = Parse.MD5Hash(); if (PkgFile.empty() == true) return _error->Error(_("The package index files are corrupted. No Filename: " "field for package %s."), Version.ParentPkg().Name()); Desc.URI = Index->ArchiveURI(PkgFile); Desc.Description = Index->ArchiveInfo(Version); Desc.Owner = this; Desc.ShortDesc = Version.ParentPkg().Name(); // See if we already have the file. (Legacy filenames) FileSize = Version->Size; string FinalFile = _config->FindDir("Dir::Cache::Archives") + flNotDir(PkgFile); struct stat Buf; if (stat(FinalFile.c_str(),&Buf) == 0) { // Make sure the size matches if ((unsigned)Buf.st_size == Version->Size) { Complete = true; Local = true; Status = StatDone; StoreFilename = DestFile = FinalFile; return true; } /* Hmm, we have a file and its size does not match, this means it is an old style mismatched arch */ unlink(FinalFile.c_str()); } // Check it again using the new style output filenames FinalFile = _config->FindDir("Dir::Cache::Archives") + flNotDir(StoreFilename); if (stat(FinalFile.c_str(),&Buf) == 0) { // Make sure the size matches if ((unsigned)Buf.st_size == Version->Size) { Complete = true; Local = true; Status = StatDone; StoreFilename = DestFile = FinalFile; return true; } /* Hmm, we have a file and its size does not match, this shouldnt happen.. */ unlink(FinalFile.c_str()); } DestFile = _config->FindDir("Dir::Cache::Archives") + "partial/" + flNotDir(StoreFilename); // Check the destination file if (stat(DestFile.c_str(),&Buf) == 0) { // Hmm, the partial file is too big, erase it if ((unsigned)Buf.st_size > Version->Size) unlink(DestFile.c_str()); else PartialSize = Buf.st_size; } // Create the item Local = false; Desc.URI = Index->ArchiveURI(PkgFile); Desc.Description = Index->ArchiveInfo(Version); Desc.Owner = this; Desc.ShortDesc = Version.ParentPkg().Name(); QueueURI(Desc); Vf++; return true; } return false; } /*}}}*/ // AcqArchive::Done - Finished fetching /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqArchive::Done(string Message,unsigned long Size,string Md5Hash, pkgAcquire::MethodConfig *Cfg) { Item::Done(Message,Size,Md5Hash,Cfg); // Check the size if (Size != Version->Size) { Status = StatError; ErrorText = _("Size mismatch"); return; } // Check the md5 if (Md5Hash.empty() == false && MD5.empty() == false) { if (Md5Hash != MD5) { Status = StatError; ErrorText = _("MD5Sum mismatch"); if(FileExists(DestFile)) Rename(DestFile,DestFile + ".FAILED"); return; } } // Grab the output filename string FileName = LookupTag(Message,"Filename"); if (FileName.empty() == true) { Status = StatError; ErrorText = "Method gave a blank filename"; return; } Complete = true; // Reference filename if (FileName != DestFile) { StoreFilename = DestFile = FileName; Local = true; return; } // Done, move it into position string FinalFile = _config->FindDir("Dir::Cache::Archives"); FinalFile += flNotDir(StoreFilename); Rename(DestFile,FinalFile); StoreFilename = DestFile = FinalFile; Complete = true; } /*}}}*/ // AcqArchive::Failed - Failure handler /*{{{*/ // --------------------------------------------------------------------- /* Here we try other sources */ void pkgAcqArchive::Failed(string Message,pkgAcquire::MethodConfig *Cnf) { ErrorText = LookupTag(Message,"Message"); /* We don't really want to retry on failed media swaps, this prevents that. An interesting observation is that permanent failures are not recorded. */ if (Cnf->Removable == true && StringToBool(LookupTag(Message,"Transient-Failure"),false) == true) { // Vf = Version.FileList(); while (Vf.end() == false) Vf++; StoreFilename = string(); Item::Failed(Message,Cnf); return; } if (QueueNext() == false) { // This is the retry counter if (Retries != 0 && Cnf->LocalOnly == false && StringToBool(LookupTag(Message,"Transient-Failure"),false) == true) { Retries--; Vf = Version.FileList(); if (QueueNext() == true) return; } StoreFilename = string(); Item::Failed(Message,Cnf); } } /*}}}*/ // AcqArchive::IsTrusted - Determine whether this archive comes from a // trusted source /*{{{*/ // --------------------------------------------------------------------- bool pkgAcqArchive::IsTrusted() { return Trusted; } // AcqArchive::Finished - Fetching has finished, tidy up /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqArchive::Finished() { if (Status == pkgAcquire::Item::StatDone && Complete == true) return; StoreFilename = string(); } /*}}}*/ // AcqFile::pkgAcqFile - Constructor /*{{{*/ // --------------------------------------------------------------------- /* The file is added to the queue */ pkgAcqFile::pkgAcqFile(pkgAcquire *Owner,string URI,string MD5, unsigned long Size,string Dsc,string ShortDesc, const string &DestDir, const string &DestFilename) : Item(Owner), Md5Hash(MD5) { Retries = _config->FindI("Acquire::Retries",0); if(!DestFilename.empty()) DestFile = DestFilename; else if(!DestDir.empty()) DestFile = DestDir + "/" + flNotDir(URI); else DestFile = flNotDir(URI); // Create the item Desc.URI = URI; Desc.Description = Dsc; Desc.Owner = this; // Set the short description to the archive component Desc.ShortDesc = ShortDesc; // Get the transfer sizes FileSize = Size; struct stat Buf; if (stat(DestFile.c_str(),&Buf) == 0) { // Hmm, the partial file is too big, erase it if ((unsigned)Buf.st_size > Size) unlink(DestFile.c_str()); else PartialSize = Buf.st_size; } QueueURI(Desc); } /*}}}*/ // AcqFile::Done - Item downloaded OK /*{{{*/ // --------------------------------------------------------------------- /* */ void pkgAcqFile::Done(string Message,unsigned long Size,string MD5, pkgAcquire::MethodConfig *Cnf) { // Check the md5 if (Md5Hash.empty() == false && MD5.empty() == false) { if (Md5Hash != MD5) { Status = StatError; ErrorText = "MD5Sum mismatch"; Rename(DestFile,DestFile + ".FAILED"); return; } } Item::Done(Message,Size,MD5,Cnf); string FileName = LookupTag(Message,"Filename"); if (FileName.empty() == true) { Status = StatError; ErrorText = "Method gave a blank filename"; return; } Complete = true; // The files timestamp matches if (StringToBool(LookupTag(Message,"IMS-Hit"),false) == true) return; // We have to copy it into place if (FileName != DestFile) { Local = true; if (_config->FindB("Acquire::Source-Symlinks",true) == false || Cnf->Removable == true) { Desc.URI = "copy:" + FileName; QueueURI(Desc); return; } // Erase the file if it is a symlink so we can overwrite it struct stat St; if (lstat(DestFile.c_str(),&St) == 0) { if (S_ISLNK(St.st_mode) != 0) unlink(DestFile.c_str()); } // Symlink the file if (symlink(FileName.c_str(),DestFile.c_str()) != 0) { ErrorText = "Link to " + DestFile + " failure "; Status = StatError; Complete = false; } } } /*}}}*/ // AcqFile::Failed - Failure handler /*{{{*/ // --------------------------------------------------------------------- /* Here we try other sources */ void pkgAcqFile::Failed(string Message,pkgAcquire::MethodConfig *Cnf) { ErrorText = LookupTag(Message,"Message"); // This is the retry counter if (Retries != 0 && Cnf->LocalOnly == false && StringToBool(LookupTag(Message,"Transient-Failure"),false) == true) { Retries--; QueueURI(Desc); return; } Item::Failed(Message,Cnf); } /*}}}*/