// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ // $Id: indexcopy.cc,v 1.2 2002/07/25 18:07:18 niemeyer Exp $ /* ###################################################################### Index Copying - Aid for copying and verifying the index files This class helps apt-cache reconstruct a damaged index files. ##################################################################### */ /*}}} */ // Include Files /*{{{*/ #include "indexcopy.h" #include "i18n.h" #include #include #include #include #include #include #include #include #include #include /*}}} */ using namespace std; // IndexCopy::CopyPackages - Copy the package files from the CD /*{{{*/ // --------------------------------------------------------------------- /* */ bool IndexCopy::CopyPackages(string CDROM, string Name, vector &List) { if (List.size() == 0) return true; OpTextProgress Progress; bool NoStat = _config->FindB("APT::CDROM::Fast", false); bool Debug = _config->FindB("Debug::aptcdrom", false); // Prepare the progress indicator unsigned long TotalSize = 0; for (vector::iterator I = List.begin(); I != List.end(); I++) { struct stat Buf; if (stat(string(*I + GetFileName()).c_str(), &Buf) != 0 && stat(string(*I + GetFileName() + ".gz").c_str(), &Buf) != 0) return _error->Errno("stat", _("Stat failed for %s"), string(*I + GetFileName()).c_str()); TotalSize += Buf.st_size; } unsigned long CurrentSize = 0; unsigned int NotFound = 0; unsigned int WrongSize = 0; unsigned int Packages = 0; for (vector::iterator I = List.begin(); I != List.end(); I++) { string OrigPath = string(*I, CDROM.length()); unsigned long FileSize = 0; // Open the package file FileFd Pkg; if (FileExists(*I + GetFileName()) == true) { Pkg.Open(*I + GetFileName(), FileFd::ReadOnly); FileSize = Pkg.Size(); } else { FileFd From(*I + GetFileName() + ".gz", FileFd::ReadOnly); if (_error->PendingError() == true) return false; FileSize = From.Size(); // Get a temp file FILE *tmp = tmpfile(); if (tmp == 0) return _error->Errno("tmpfile", _("Unable to create a tmp file")); Pkg.Fd(dup(fileno(tmp))); fclose(tmp); // Fork gzip int Process = fork(); if (Process < 0) return _error->Errno("fork", "Internal Error: Couldn't fork gzip. Please report."); // The child if (Process == 0) { dup2(From.Fd(), STDIN_FILENO); dup2(Pkg.Fd(), STDOUT_FILENO); SetCloseExec(STDIN_FILENO, false); SetCloseExec(STDOUT_FILENO, false); const char *Args[3]; string Tmp = _config->Find("Dir::bin::gzip", "gzip"); Args[0] = Tmp.c_str(); Args[1] = "-d"; Args[2] = 0; execvp(Args[0], (char **)Args); exit(100); } // Wait for gzip to finish if (ExecWait (Process, _config->Find("Dir::bin::gzip", "gzip").c_str(), false) == false) return _error->Error(_("gzip failed, perhaps the disk is full.")); Pkg.Seek(0); } pkgTagFile Parser(&Pkg); if (_error->PendingError() == true) return false; // Open the output file char S[400]; snprintf(S, sizeof(S), "cdrom:[%s]/%s%s", Name.c_str(), (*I).c_str() + CDROM.length(), GetFileName()); string TargetF = _config->FindDir("Dir::State::lists") + "partial/"; TargetF += URItoFileName(S); if (_config->FindB("APT::CDROM::NoAct", false) == true) TargetF = "/dev/null"; FileFd Target(TargetF, FileFd::WriteEmpty); FILE *TargetFl = fdopen(dup(Target.Fd()), "w"); if (_error->PendingError() == true) return false; if (TargetFl == 0) return _error->Errno("fdopen", _("Failed to reopen fd")); // Setup the progress meter Progress.OverallProgress(CurrentSize, TotalSize, FileSize, string("Reading ") + Type() + " Indexes"); // Parse Progress.SubProgress(Pkg.Size()); pkgTagSection Section; this->Section = &Section; string Prefix; unsigned long Hits = 0; unsigned long Chop = 0; while (Parser.Step(Section) == true) { Progress.Progress(Parser.Offset()); string File; unsigned long Size; if (GetFile(File, Size) == false) { fclose(TargetFl); return false; } if (Chop != 0) File = OrigPath + ChopDirs(File, Chop); // See if the file exists bool Mangled = false; if (NoStat == false || Hits < 10) { // Attempt to fix broken structure if (Hits == 0) { if (ReconstructPrefix(Prefix, OrigPath, CDROM, File) == false && ReconstructChop(Chop, *I, File) == false) { if (Debug == true) clog << "Missed: " << File << endl; NotFound++; continue; } if (Chop != 0) File = OrigPath + ChopDirs(File, Chop); } // Get the size struct stat Buf; if (stat(string(CDROM + Prefix + File).c_str(), &Buf) != 0 || Buf.st_size == 0) { // Attempt to fix busted symlink support for one instance string OrigFile = File; string::size_type Start = File.find("binary-"); string::size_type End = File.find("/", Start + 3); if (Start != string::npos && End != string::npos) { File.replace(Start, End - Start, "binary-all"); Mangled = true; } if (Mangled == false || stat(string(CDROM + Prefix + File).c_str(), &Buf) != 0) { if (Debug == true) clog << "Missed(2): " << OrigFile << endl; NotFound++; continue; } } // Size match if ((unsigned)Buf.st_size != Size) { if (Debug == true) clog << "Wrong Size: " << File << endl; WrongSize++; continue; } } Packages++; Hits++; if (RewriteEntry(TargetFl, File) == false) { fclose(TargetFl); return false; } } fclose(TargetFl); if (Debug == true) cout << " Processed by using Prefix '" << Prefix << "' and chop " << Chop << endl; if (_config->FindB("APT::CDROM::NoAct", false) == false) { // Move out of the partial directory Target.Close(); string FinalF = _config->FindDir("Dir::State::lists"); FinalF += URItoFileName(S); if (rename(TargetF.c_str(), FinalF.c_str()) != 0) return _error->Errno("rename", _("Failed to rename")); // Copy the release file snprintf(S, sizeof(S), "cdrom:[%s]/%sRelease", Name.c_str(), (*I).c_str() + CDROM.length()); string TargetF = _config->FindDir("Dir::State::lists") + "partial/"; TargetF += URItoFileName(S); if (FileExists(*I + "Release") == true) { FileFd Target(TargetF, FileFd::WriteEmpty); FileFd Rel(*I + "Release", FileFd::ReadOnly); if (_error->PendingError() == true) return false; if (CopyFile(Rel, Target) == false) return false; } else { // Empty release file FileFd Target(TargetF, FileFd::WriteEmpty); } // Rename the release file FinalF = _config->FindDir("Dir::State::lists"); FinalF += URItoFileName(S); if (rename(TargetF.c_str(), FinalF.c_str()) != 0) return _error->Errno("rename", _("Failed to rename")); } /* Mangle the source to be in the proper notation with prefix dist [component] */ *I = string(*I, Prefix.length()); ConvertToSourceList(CDROM, *I); *I = Prefix + ' ' + *I; CurrentSize += FileSize; } Progress.Done(); // Some stats cout << "Wrote " << Packages << " records"; if (NotFound != 0) cout << " with " << NotFound << " missing files"; if (NotFound != 0 && WrongSize != 0) cout << " and"; if (WrongSize != 0) cout << " with " << WrongSize << " mismatched files"; cout << '.' << endl; if (Packages == 0) _error->Warning(_("No valid records were found.")); if (NotFound + WrongSize > 10) cout << "Alot of entries were discarded, something may be wrong." << endl; return true; } /*}}} */ // IndexCopy::ChopDirs - Chop off the leading directory components /*{{{*/ // --------------------------------------------------------------------- /* */ string IndexCopy::ChopDirs(string Path, unsigned int Depth) { string::size_type I = 0; do { I = Path.find('/', I + 1); Depth--; } while (I != string::npos && Depth != 0); if (I == string::npos) return string(); return string(Path, I + 1); } /*}}} */ // IndexCopy::ReconstructPrefix - Fix strange prefixing /*{{{*/ // --------------------------------------------------------------------- /* This prepends dir components from the path to the package files to the path to the deb until it is found */ bool IndexCopy::ReconstructPrefix(string &Prefix, string OrigPath, string CD, string File) { bool Debug = _config->FindB("Debug::aptcdrom", false); unsigned int Depth = 1; string MyPrefix = Prefix; while (1) { struct stat Buf; if (stat(string(CD + MyPrefix + File).c_str(), &Buf) != 0) { if (Debug == true) cout << "Failed, " << CD + MyPrefix + File << endl; if (GrabFirst(OrigPath, MyPrefix, Depth++) == true) continue; return false; } else { Prefix = MyPrefix; return true; } } return false; } /*}}} */ // IndexCopy::ReconstructChop - Fixes bad source paths /*{{{*/ // --------------------------------------------------------------------- /* This removes path components from the filename and prepends the location of the package files until a file is found */ bool IndexCopy::ReconstructChop(unsigned long &Chop, string Dir, string File) { // Attempt to reconstruct the filename unsigned long Depth = 0; while (1) { struct stat Buf; if (stat(string(Dir + File).c_str(), &Buf) != 0) { File = ChopDirs(File, 1); Depth++; if (File.empty() == false) continue; return false; } else { Chop = Depth; return true; } } return false; } /*}}} */ // IndexCopy::ConvertToSourceList - Convert a Path to a sourcelist /*{{{*/ // --------------------------------------------------------------------- /* We look for things in dists/ notation and convert them to form otherwise it is left alone. This also strips the CD path. This implements a regex sort of like: (.*)/dists/([^/]*)/(.*)/binary-* ^ ^ ^- Component | |-------- Distribution |------------------- Path It was deciced to use only a single word for dist (rather than say unstable/non-us) to increase the chance that each CD gets a single line in sources.list. */ void IndexCopy::ConvertToSourceList(string CD, string &Path) { char S[300]; snprintf(S, sizeof(S), "binary-%s", _config->Find("Apt::Architecture").c_str()); // Strip the cdrom base path Path = string(Path, CD.length()); if (Path.empty() == true) Path = "/"; // Too short to be a dists/ type if (Path.length() < strlen("dists/")) return; // Not a dists type. if (stringcmp(Path.c_str(), Path.c_str() + strlen("dists/"), "dists/") != 0) return; // Isolate the dist string::size_type Slash = strlen("dists/"); string::size_type Slash2 = Path.find('/', Slash + 1); if (Slash2 == string::npos || Slash2 + 2 >= Path.length()) return; string Dist = string(Path, Slash, Slash2 - Slash); // Isolate the component Slash = Slash2; for (unsigned I = 0; I != 10; I++) { Slash = Path.find('/', Slash + 1); if (Slash == string::npos || Slash + 2 >= Path.length()) return; string Comp = string(Path, Slash2 + 1, Slash - Slash2 - 1); // Verify the trailing binary- bit string::size_type BinSlash = Path.find('/', Slash + 1); if (Slash == string::npos) return; string Binary = string(Path, Slash + 1, BinSlash - Slash - 1); if (Binary != S && Binary != "source") continue; Path = Dist + ' ' + Comp; return; } } /*}}} */ // IndexCopy::GrabFirst - Return the first Depth path components /*{{{*/ // --------------------------------------------------------------------- /* */ bool IndexCopy::GrabFirst(string Path, string &To, unsigned int Depth) { string::size_type I = 0; do { I = Path.find('/', I + 1); Depth--; } while (I != string::npos && Depth != 0); if (I == string::npos) return false; To = string(Path, 0, I + 1); return true; } /*}}} */ // PackageCopy::GetFile - Get the file information from the section /*{{{*/ // --------------------------------------------------------------------- /* */ bool PackageCopy::GetFile(string &File, unsigned long &Size) { File = Section->FindS("Filename"); Size = Section->FindI("Size"); if (File.empty() || Size == 0) return _error->Error(_("Cannot find filename or size tag")); return true; } /*}}} */ // PackageCopy::RewriteEntry - Rewrite the entry with a new filename /*{{{*/ // --------------------------------------------------------------------- /* */ bool PackageCopy::RewriteEntry(FILE *Target, string File) { TFRewriteData Changes[] = { {"Filename", File.c_str()} , {} }; if (TFRewrite(Target, *Section, TFRewritePackageOrder, Changes) == false) return false; fputc('\n', Target); return true; } /*}}} */ // SourceCopy::GetFile - Get the file information from the section /*{{{*/ // --------------------------------------------------------------------- /* */ bool SourceCopy::GetFile(string &File, unsigned long &Size) { string Files = Section->FindS("Files"); if (Files.empty() == true) return false; // Stash the / terminated directory prefix string Base = Section->FindS("Directory"); if (Base.empty() == false && Base[Base.length() - 1] != '/') Base += '/'; // Read the first file triplet const char *C = Files.c_str(); string sSize; string MD5Hash; // Parse each of the elements if (ParseQuoteWord(C, MD5Hash) == false || ParseQuoteWord(C, sSize) == false || ParseQuoteWord(C, File) == false) return _error->Error(_("Error parsing file record")); // Parse the size and append the directory Size = atoi(sSize.c_str()); File = Base + File; return true; } /*}}} */ // SourceCopy::RewriteEntry - Rewrite the entry with a new filename /*{{{*/ // --------------------------------------------------------------------- /* */ bool SourceCopy::RewriteEntry(FILE *Target, string File) { string Dir(File, 0, File.rfind('/')); TFRewriteData Changes[] = { {"Directory", Dir.c_str()} , {} }; if (TFRewrite(Target, *Section, TFRewriteSourceOrder, Changes) == false) return false; fputc('\n', Target); return true; } /*}}} */