/* */ #include<apt-pkg/init.h> #include<apt-pkg/error.h> #include<apt-pkg/cdromutl.h> #include<apt-pkg/strutl.h> #include<apt-pkg/cdrom.h> #include<apt-pkg/aptconfiguration.h> #include<sstream> #include<fstream> #include<config.h> #include<apti18n.h> #include <sys/stat.h> #include <fcntl.h> #include <dirent.h> #include <unistd.h> #include <stdio.h> #include <algorithm> #include <dlfcn.h> #include "indexcopy.h" using namespace std; // FindPackages - Find the package files on the CDROM /*{{{*/ // --------------------------------------------------------------------- /* We look over the cdrom for package files. This is a recursive search that short circuits when it his a package file in the dir. This speeds it up greatly as the majority of the size is in the binary-* sub dirs. */ bool pkgCdrom::FindPackages(string CD, vector<string> &List, vector<string> &SList, vector<string> &SigList, vector<string> &TransList, string &InfoDir, pkgCdromStatus *log, unsigned int Depth) { static ino_t Inodes[9]; DIR *D; // if we have a look we "pulse" now if(log) log->Update(); if (Depth >= 7) return true; if (CD[CD.length()-1] != '/') CD += '/'; if (chdir(CD.c_str()) != 0) return _error->Errno("chdir","Unable to change to %s",CD.c_str()); // Look for a .disk subdirectory struct stat Buf; if (stat(".disk",&Buf) == 0) { if (InfoDir.empty() == true) InfoDir = CD + ".disk/"; } // Don't look into directories that have been marked to ingore. if (stat(".aptignr",&Buf) == 0) return true; /* Check _first_ for a signature file as apt-cdrom assumes that all files under a Packages/Source file are in control of that file and stops the scanning */ if (stat("Release.gpg",&Buf) == 0) { SigList.push_back(CD); } /* Aha! We found some package files. We assume that everything under this dir is controlled by those package files so we don't look down anymore */ if (stat("Packages",&Buf) == 0 || stat("Packages.gz",&Buf) == 0) { List.push_back(CD); // Continue down if thorough is given if (_config->FindB("APT::CDROM::Thorough",false) == false) return true; } if (stat("Sources.gz",&Buf) == 0 || stat("Sources",&Buf) == 0) { SList.push_back(CD); // Continue down if thorough is given if (_config->FindB("APT::CDROM::Thorough",false) == false) return true; } // see if we find translatin indexes if (stat("i18n",&Buf) == 0) { D = opendir("i18n"); for (struct dirent *Dir = readdir(D); Dir != 0; Dir = readdir(D)) { if(strstr(Dir->d_name,"Translation") != NULL) { if (_config->FindB("Debug::aptcdrom",false) == true) std::clog << "found translations: " << Dir->d_name << "\n"; string file = Dir->d_name; if(file.substr(file.size()-3,file.size()) == ".gz") file = file.substr(0,file.size()-3); TransList.push_back(CD+"i18n/"+ file); } } closedir(D); } D = opendir("."); if (D == 0) return _error->Errno("opendir","Unable to read %s",CD.c_str()); // Run over the directory for (struct dirent *Dir = readdir(D); Dir != 0; Dir = readdir(D)) { // Skip some files.. if (strcmp(Dir->d_name,".") == 0 || strcmp(Dir->d_name,"..") == 0 || //strcmp(Dir->d_name,"source") == 0 || strcmp(Dir->d_name,".disk") == 0 || strcmp(Dir->d_name,"experimental") == 0 || strcmp(Dir->d_name,"binary-all") == 0 || strcmp(Dir->d_name,"debian-installer") == 0) continue; // See if the name is a sub directory struct stat Buf; if (stat(Dir->d_name,&Buf) != 0) continue; if (S_ISDIR(Buf.st_mode) == 0) continue; unsigned int I; for (I = 0; I != Depth; I++) if (Inodes[I] == Buf.st_ino) break; if (I != Depth) continue; // Store the inodes weve seen Inodes[Depth] = Buf.st_ino; // Descend if (FindPackages(CD + Dir->d_name,List,SList,SigList,TransList,InfoDir,log,Depth+1) == false) break; if (chdir(CD.c_str()) != 0) { _error->Errno("chdir","Unable to change to %s", CD.c_str()); closedir(D); return false; } }; closedir(D); return !_error->PendingError(); } /*}}}*/ // Score - We compute a 'score' for a path /*{{{*/ // --------------------------------------------------------------------- /* Paths are scored based on how close they come to what I consider normal. That is ones that have 'dist' 'stable' 'testing' will score higher than ones without. */ int pkgCdrom::Score(string Path) { int Res = 0; if (Path.find("stable/") != string::npos) Res += 29; if (Path.find("/binary-") != string::npos) Res += 20; if (Path.find("testing/") != string::npos) Res += 28; if (Path.find("unstable/") != string::npos) Res += 27; if (Path.find("/dists/") != string::npos) Res += 40; if (Path.find("/main/") != string::npos) Res += 20; if (Path.find("/contrib/") != string::npos) Res += 20; if (Path.find("/non-free/") != string::npos) Res += 20; if (Path.find("/non-US/") != string::npos) Res += 20; if (Path.find("/source/") != string::npos) Res += 10; if (Path.find("/debian/") != string::npos) Res -= 10; // check for symlinks in the patch leading to the actual file // a symlink gets a big penalty struct stat Buf; string statPath = flNotFile(Path); string cdromPath = _config->FindDir("Acquire::cdrom::mount"); while(statPath != cdromPath && statPath != "./") { statPath.resize(statPath.size()-1); // remove the trailing '/' if (lstat(statPath.c_str(),&Buf) == 0) { if(S_ISLNK(Buf.st_mode)) { Res -= 60; break; } } statPath = flNotFile(statPath); // descent } return Res; } /*}}}*/ // DropBinaryArch - Dump dirs with a string like /binary-<foo>/ /*{{{*/ // --------------------------------------------------------------------- /* Here we drop everything that is not this machines arch */ bool pkgCdrom::DropBinaryArch(vector<string> &List) { for (unsigned int I = 0; I < List.size(); I++) { const char *Str = List[I].c_str(); const char *Start, *End; if ((Start = strstr(Str,"/binary-")) == 0) continue; // Between Start and End is the architecture Start += 8; if ((End = strstr(Start,"/")) != 0 && Start != End && APT::Configuration::checkArchitecture(string(Start, End)) == true) continue; // okay, architecture is accepted // not accepted -> Erase it List.erase(List.begin() + I); --I; // the next entry is at the same index after the erase } return true; } /*}}}*/ // DropRepeats - Drop repeated files resulting from symlinks /*{{{*/ // --------------------------------------------------------------------- /* Here we go and stat every file that we found and strip dup inodes. */ bool pkgCdrom::DropRepeats(vector<string> &List,const char *Name) { // Get a list of all the inodes ino_t *Inodes = new ino_t[List.size()]; for (unsigned int I = 0; I != List.size(); I++) { struct stat Buf; if (stat((List[I] + Name).c_str(),&Buf) != 0 && stat((List[I] + Name + ".gz").c_str(),&Buf) != 0) _error->Errno("stat","Failed to stat %s%s",List[I].c_str(), Name); Inodes[I] = Buf.st_ino; } if (_error->PendingError() == true) { delete[] Inodes; return false; } // Look for dups for (unsigned int I = 0; I != List.size(); I++) { for (unsigned int J = I+1; J < List.size(); J++) { // No match if (Inodes[J] != Inodes[I]) continue; // We score the two paths.. and erase one int ScoreA = Score(List[I]); int ScoreB = Score(List[J]); if (ScoreA < ScoreB) { List[I] = string(); break; } List[J] = string(); } } delete[] Inodes; // Wipe erased entries for (unsigned int I = 0; I < List.size();) { if (List[I].empty() == false) I++; else List.erase(List.begin()+I); } return true; } /*}}}*/ // ReduceSourceList - Takes the path list and reduces it /*{{{*/ // --------------------------------------------------------------------- /* This takes the list of source list expressed entires and collects similar ones to form a single entry for each dist */ void pkgCdrom::ReduceSourcelist(string CD,vector<string> &List) { sort(List.begin(),List.end()); // Collect similar entries for (vector<string>::iterator I = List.begin(); I != List.end(); I++) { // Find a space.. string::size_type Space = (*I).find(' '); if (Space == string::npos) continue; string::size_type SSpace = (*I).find(' ',Space + 1); if (SSpace == string::npos) continue; string Word1 = string(*I,Space,SSpace-Space); string Prefix = string(*I,0,Space); for (vector<string>::iterator J = List.begin(); J != I; J++) { // Find a space.. string::size_type Space2 = (*J).find(' '); if (Space2 == string::npos) continue; string::size_type SSpace2 = (*J).find(' ',Space2 + 1); if (SSpace2 == string::npos) continue; if (string(*J,0,Space2) != Prefix) continue; if (string(*J,Space2,SSpace2-Space2) != Word1) continue; *J += string(*I,SSpace); *I = string(); } } // Wipe erased entries for (unsigned int I = 0; I < List.size();) { if (List[I].empty() == false) I++; else List.erase(List.begin()+I); } } /*}}}*/ // WriteDatabase - Write the CDROM Database file /*{{{*/ // --------------------------------------------------------------------- /* We rewrite the configuration class associated with the cdrom database. */ bool pkgCdrom::WriteDatabase(Configuration &Cnf) { string DFile = _config->FindFile("Dir::State::cdroms"); string NewFile = DFile + ".new"; unlink(NewFile.c_str()); ofstream Out(NewFile.c_str()); if (!Out) return _error->Errno("ofstream::ofstream", "Failed to open %s.new",DFile.c_str()); /* Write out all of the configuration directives by walking the configuration tree */ const Configuration::Item *Top = Cnf.Tree(0); for (; Top != 0;) { // Print the config entry if (Top->Value.empty() == false) Out << Top->FullTag() + " \"" << Top->Value << "\";" << endl; if (Top->Child != 0) { Top = Top->Child; continue; } while (Top != 0 && Top->Next == 0) Top = Top->Parent; if (Top != 0) Top = Top->Next; } Out.close(); link(DFile.c_str(),string(DFile + '~').c_str()); if (rename(NewFile.c_str(),DFile.c_str()) != 0) return _error->Errno("rename","Failed to rename %s.new to %s", DFile.c_str(),DFile.c_str()); return true; } /*}}}*/ // WriteSourceList - Write an updated sourcelist /*{{{*/ // --------------------------------------------------------------------- /* This reads the old source list and copies it into the new one. It appends the new CDROM entires just after the first block of comments. This places them first in the file. It also removes any old entries that were the same. */ bool pkgCdrom::WriteSourceList(string Name,vector<string> &List,bool Source) { if (List.size() == 0) return true; string File = _config->FindFile("Dir::Etc::sourcelist"); // Open the stream for reading ifstream F((FileExists(File)?File.c_str():"/dev/null"), ios::in ); if (!F != 0) return _error->Errno("ifstream::ifstream","Opening %s",File.c_str()); string NewFile = File + ".new"; unlink(NewFile.c_str()); ofstream Out(NewFile.c_str()); if (!Out) return _error->Errno("ofstream::ofstream", "Failed to open %s.new",File.c_str()); // Create a short uri without the path string ShortURI = "cdrom:[" + Name + "]/"; string ShortURI2 = "cdrom:" + Name + "/"; // For Compatibility string Type; if (Source == true) Type = "deb-src"; else Type = "deb"; char Buffer[300]; int CurLine = 0; bool First = true; while (F.eof() == false) { F.getline(Buffer,sizeof(Buffer)); CurLine++; if (F.fail() && !F.eof()) return _error->Error(_("Line %u too long in source list %s."), CurLine,File.c_str()); _strtabexpand(Buffer,sizeof(Buffer)); _strstrip(Buffer); // Comment or blank if (Buffer[0] == '#' || Buffer[0] == 0) { Out << Buffer << endl; continue; } if (First == true) { for (vector<string>::iterator I = List.begin(); I != List.end(); I++) { string::size_type Space = (*I).find(' '); if (Space == string::npos) return _error->Error("Internal error"); Out << Type << " cdrom:[" << Name << "]/" << string(*I,0,Space) << " " << string(*I,Space+1) << endl; } } First = false; // Grok it string cType; string URI; const char *C = Buffer; if (ParseQuoteWord(C,cType) == false || ParseQuoteWord(C,URI) == false) { Out << Buffer << endl; continue; } // Emit lines like this one if (cType != Type || (string(URI,0,ShortURI.length()) != ShortURI && string(URI,0,ShortURI.length()) != ShortURI2)) { Out << Buffer << endl; continue; } } // Just in case the file was empty if (First == true) { for (vector<string>::iterator I = List.begin(); I != List.end(); I++) { string::size_type Space = (*I).find(' '); if (Space == string::npos) return _error->Error("Internal error"); Out << "deb cdrom:[" << Name << "]/" << string(*I,0,Space) << " " << string(*I,Space+1) << endl; } } Out.close(); rename(File.c_str(),string(File + '~').c_str()); if (rename(NewFile.c_str(),File.c_str()) != 0) return _error->Errno("rename","Failed to rename %s.new to %s", File.c_str(),File.c_str()); return true; } /*}}}*/ bool pkgCdrom::Ident(string &ident, pkgCdromStatus *log) /*{{{*/ { stringstream msg; // Startup string CDROM = _config->FindDir("Acquire::cdrom::mount"); if (CDROM[0] == '.') CDROM= SafeGetCWD() + '/' + CDROM; if (log != NULL) { msg.str(""); ioprintf(msg, _("Using CD-ROM mount point %s\nMounting CD-ROM\n"), CDROM.c_str()); log->Update(msg.str()); } if (MountCdrom(CDROM) == false) return _error->Error("Failed to mount the cdrom."); // Hash the CD to get an ID if (log != NULL) log->Update(_("Identifying.. ")); if (IdentCdrom(CDROM,ident) == false) { ident = ""; return false; } if (log != NULL) { msg.str(""); ioprintf(msg, "[%s]\n",ident.c_str()); log->Update(msg.str()); } // Read the database Configuration Database; string DFile = _config->FindFile("Dir::State::cdroms"); if (FileExists(DFile) == true) { if (ReadConfigFile(Database,DFile) == false) return _error->Error("Unable to read the cdrom database %s", DFile.c_str()); } if (log != NULL) { msg.str(""); ioprintf(msg, _("Stored label: %s\n"), Database.Find("CD::"+ident).c_str()); log->Update(msg.str()); } // Unmount and finish if (_config->FindB("APT::CDROM::NoMount",false) == false) { if (log != NULL) log->Update(_("Unmounting CD-ROM...\n"), STEP_LAST); UnmountCdrom(CDROM); } return true; } /*}}}*/ bool pkgCdrom::Add(pkgCdromStatus *log) /*{{{*/ { stringstream msg; // Startup string CDROM = _config->FindDir("Acquire::cdrom::mount"); if (CDROM[0] == '.') CDROM= SafeGetCWD() + '/' + CDROM; if(log != NULL) { log->SetTotal(STEP_LAST); msg.str(""); ioprintf(msg, _("Using CD-ROM mount point %s\n"), CDROM.c_str()); log->Update(msg.str(), STEP_PREPARE); } // Read the database Configuration Database; string DFile = _config->FindFile("Dir::State::cdroms"); if (FileExists(DFile) == true) { if (ReadConfigFile(Database,DFile) == false) return _error->Error("Unable to read the cdrom database %s", DFile.c_str()); } // Unmount the CD and get the user to put in the one they want if (_config->FindB("APT::CDROM::NoMount",false) == false) { if(log != NULL) log->Update(_("Unmounting CD-ROM\n"), STEP_UNMOUNT); UnmountCdrom(CDROM); if(log != NULL) { log->Update(_("Waiting for disc...\n"), STEP_WAIT); if(!log->ChangeCdrom()) { // user aborted return false; } } // Mount the new CDROM if(log != NULL) log->Update(_("Mounting CD-ROM...\n"), STEP_MOUNT); if (MountCdrom(CDROM) == false) return _error->Error("Failed to mount the cdrom."); } // Hash the CD to get an ID if(log != NULL) log->Update(_("Identifying.. "), STEP_IDENT); string ID; if (IdentCdrom(CDROM,ID) == false) { if (log != NULL) log->Update("\n"); return false; } if(log != NULL) { log->Update("["+ID+"]\n"); log->Update(_("Scanning disc for index files..\n"),STEP_SCAN); } // Get the CD structure vector<string> List; vector<string> SourceList; vector<string> SigList; vector<string> TransList; string StartDir = SafeGetCWD(); string InfoDir; if (FindPackages(CDROM,List,SourceList, SigList,TransList,InfoDir,log) == false) { if (log != NULL) log->Update("\n"); return false; } chdir(StartDir.c_str()); if (_config->FindB("Debug::aptcdrom",false) == true) { cout << "I found (binary):" << endl; for (vector<string>::iterator I = List.begin(); I != List.end(); I++) cout << *I << endl; cout << "I found (source):" << endl; for (vector<string>::iterator I = SourceList.begin(); I != SourceList.end(); I++) cout << *I << endl; cout << "I found (Signatures):" << endl; for (vector<string>::iterator I = SigList.begin(); I != SigList.end(); I++) cout << *I << endl; } //log->Update(_("Cleaning package lists..."), STEP_CLEAN); // Fix up the list DropBinaryArch(List); DropRepeats(List,"Packages"); DropRepeats(SourceList,"Sources"); DropRepeats(SigList,"Release.gpg"); DropRepeats(TransList,""); if(log != NULL) { msg.str(""); ioprintf(msg, _("Found %zu package indexes, %zu source indexes, " "%zu translation indexes and %zu signatures\n"), List.size(), SourceList.size(), TransList.size(), SigList.size()); log->Update(msg.str(), STEP_SCAN); } if (List.size() == 0 && SourceList.size() == 0) { if (_config->FindB("APT::CDROM::NoMount",false) == false) UnmountCdrom(CDROM); return _error->Error(_("Unable to locate any package files, perhaps this is not a Debian Disc or the wrong architecture?")); } // Check if the CD is in the database string Name; if (Database.Exists("CD::" + ID) == false || _config->FindB("APT::CDROM::Rename",false) == true) { // Try to use the CDs label if at all possible if (InfoDir.empty() == false && FileExists(InfoDir + "/info") == true) { ifstream F(string(InfoDir + "/info").c_str()); if (!F == 0) getline(F,Name); if (Name.empty() == false) { // Escape special characters string::iterator J = Name.begin(); for (; J != Name.end(); J++) if (*J == '"' || *J == ']' || *J == '[') *J = '_'; if(log != NULL) { msg.str(""); ioprintf(msg, _("Found label '%s'\n"), Name.c_str()); log->Update(msg.str()); } Database.Set("CD::" + ID + "::Label",Name); } } if (_config->FindB("APT::CDROM::Rename",false) == true || Name.empty() == true) { if(log == NULL) { if (_config->FindB("APT::CDROM::NoMount",false) == false) UnmountCdrom(CDROM); return _error->Error("No disc name found and no way to ask for it"); } while(true) { if(!log->AskCdromName(Name)) { // user canceld return false; } cout << "Name: '" << Name << "'" << endl; if (Name.empty() == false && Name.find('"') == string::npos && Name.find('[') == string::npos && Name.find(']') == string::npos) break; log->Update(_("That is not a valid name, try again.\n")); } } } else Name = Database.Find("CD::" + ID); // Escape special characters string::iterator J = Name.begin(); for (; J != Name.end(); J++) if (*J == '"' || *J == ']' || *J == '[') *J = '_'; Database.Set("CD::" + ID,Name); if(log != NULL) { msg.str(""); ioprintf(msg, _("This disc is called: \n'%s'\n"), Name.c_str()); log->Update(msg.str()); log->Update(_("Copying package lists..."), STEP_COPY); } // take care of the signatures and copy them if they are ok // (we do this before PackageCopy as it modifies "List" and "SourceList") SigVerify SignVerify; SignVerify.CopyAndVerify(CDROM, Name, SigList, List, SourceList); // Copy the package files to the state directory PackageCopy Copy; SourceCopy SrcCopy; TranslationsCopy TransCopy; if (Copy.CopyPackages(CDROM,Name,List, log) == false || SrcCopy.CopyPackages(CDROM,Name,SourceList, log) == false || TransCopy.CopyTranslations(CDROM,Name,TransList, log) == false) return false; // reduce the List so that it takes less space in sources.list ReduceSourcelist(CDROM,List); ReduceSourcelist(CDROM,SourceList); // Write the database and sourcelist if (_config->FindB("APT::cdrom::NoAct",false) == false) { if (WriteDatabase(Database) == false) return false; if(log != NULL) log->Update(_("Writing new source list\n"), STEP_WRITE); if (WriteSourceList(Name,List,false) == false || WriteSourceList(Name,SourceList,true) == false) return false; } // Print the sourcelist entries if(log != NULL) log->Update(_("Source list entries for this disc are:\n")); for (vector<string>::iterator I = List.begin(); I != List.end(); I++) { string::size_type Space = (*I).find(' '); if (Space == string::npos) { if (_config->FindB("APT::CDROM::NoMount",false) == false) UnmountCdrom(CDROM); return _error->Error("Internal error"); } if(log != NULL) { msg.str(""); msg << "deb cdrom:[" << Name << "]/" << string(*I,0,Space) << " " << string(*I,Space+1) << endl; log->Update(msg.str()); } } for (vector<string>::iterator I = SourceList.begin(); I != SourceList.end(); I++) { string::size_type Space = (*I).find(' '); if (Space == string::npos) { if (_config->FindB("APT::CDROM::NoMount",false) == false) UnmountCdrom(CDROM); return _error->Error("Internal error"); } if(log != NULL) { msg.str(""); msg << "deb-src cdrom:[" << Name << "]/" << string(*I,0,Space) << " " << string(*I,Space+1) << endl; log->Update(msg.str()); } } // Unmount and finish if (_config->FindB("APT::CDROM::NoMount",false) == false) { if (log != NULL) log->Update(_("Unmounting CD-ROM...\n"), STEP_LAST); UnmountCdrom(CDROM); } return true; } /*}}}*/ pkgUdevCdromDevices::pkgUdevCdromDevices() /*{{{*/ : libudev_handle(NULL) { } /*}}}*/ bool pkgUdevCdromDevices::Dlopen() /*{{{*/ { // alread open if(libudev_handle != NULL) return true; // see if we can get libudev void *h = ::dlopen("libudev.so.0", RTLD_LAZY); if(h == NULL) return false; // get the pointers to the udev structs libudev_handle = h; udev_new = (udev* (*)(void)) dlsym(h, "udev_new"); udev_enumerate_add_match_property = (int (*)(udev_enumerate*, const char*, const char*))dlsym(h, "udev_enumerate_add_match_property"); #if 0 // FIXME: uncomment on next ABI break udev_enumerate_add_match_sysattr = (int (*)(udev_enumerate*, const char*, const char*))dlsym(h, "udev_enumerate_add_match_sysattr"); #endif udev_enumerate_scan_devices = (int (*)(udev_enumerate*))dlsym(h, "udev_enumerate_scan_devices"); udev_enumerate_get_list_entry = (udev_list_entry* (*)(udev_enumerate*))dlsym(h, "udev_enumerate_get_list_entry"); udev_device_new_from_syspath = (udev_device* (*)(udev*, const char*))dlsym(h, "udev_device_new_from_syspath"); udev_enumerate_get_udev = (udev* (*)(udev_enumerate*))dlsym(h, "udev_enumerate_get_udev"); udev_list_entry_get_name = (const char* (*)(udev_list_entry*))dlsym(h, "udev_list_entry_get_name"); udev_device_get_devnode = (const char* (*)(udev_device*))dlsym(h, "udev_device_get_devnode"); udev_enumerate_new = (udev_enumerate* (*)(udev*))dlsym(h, "udev_enumerate_new"); udev_list_entry_get_next = (udev_list_entry* (*)(udev_list_entry*))dlsym(h, "udev_list_entry_get_next"); udev_device_get_property_value = (const char* (*)(udev_device *, const char *))dlsym(h, "udev_device_get_property_value"); return true; } /*}}}*/ /*{{{*/ // compatiblity only with the old API/ABI, can be removed on the next // ABI break vector<CdromDevice> pkgUdevCdromDevices::Scan() { bool CdromOnly = _config->FindB("APT::cdrom::CdromOnly", true); return ScanForRemovable(CdromOnly); }; /*}}}*/ /*{{{*/ vector<CdromDevice> pkgUdevCdromDevices::ScanForRemovable(bool CdromOnly) { vector<CdromDevice> cdrom_devices; struct udev_enumerate *enumerate; struct udev_list_entry *l, *devices; struct udev *udev_ctx; if(libudev_handle == NULL) return cdrom_devices; udev_ctx = udev_new(); enumerate = udev_enumerate_new (udev_ctx); if (CdromOnly) udev_enumerate_add_match_property(enumerate, "ID_CDROM", "1"); else { #if 1 // FIXME: remove the next two lines on the next ABI break int (*udev_enumerate_add_match_sysattr)(struct udev_enumerate *udev_enumerate, const char *property, const char *value); udev_enumerate_add_match_sysattr = (int (*)(udev_enumerate*, const char*, const char*))dlsym(libudev_handle, "udev_enumerate_add_match_sysattr"); #endif udev_enumerate_add_match_sysattr(enumerate, "removable", "1"); } udev_enumerate_scan_devices (enumerate); devices = udev_enumerate_get_list_entry (enumerate); for (l = devices; l != NULL; l = udev_list_entry_get_next (l)) { CdromDevice cdrom; struct udev_device *udevice; udevice = udev_device_new_from_syspath (udev_enumerate_get_udev (enumerate), udev_list_entry_get_name (l)); if (udevice == NULL) continue; const char* devnode = udev_device_get_devnode(udevice); // try fstab_dir first string mountpath; const char* mp = udev_device_get_property_value(udevice, "FSTAB_DIR"); if (mp) mountpath = string(mp); else mountpath = FindMountPointForDevice(devnode); // fill in the struct cdrom.DeviceName = string(devnode); if (mountpath != "") { cdrom.MountPath = mountpath; string s = string(mountpath); cdrom.Mounted = IsMounted(s); } else { cdrom.Mounted = false; cdrom.MountPath = ""; } cdrom_devices.push_back(cdrom); } return cdrom_devices; } /*}}}*/ pkgUdevCdromDevices::~pkgUdevCdromDevices() /*{{{*/ { if (libudev_handle != NULL) dlclose(libudev_handle); } /*}}}*/