/// <summary> /// Construct an entry from an archive's header bytes. File is set /// to null. /// </summary> /// <param name = "headerBuffer"> /// The header bytes from a tar archive entry. /// </param> public TarEntry(byte[] headerBuffer) { header = new TarHeader(); header.ParseBuffer(headerBuffer); }
/// <summary> /// Convenience method that will modify an entry's name directly /// in place in an entry header buffer byte array. /// </summary> /// <param name="buffer"> /// The buffer containing the entry header to modify. /// </param> /// <param name="newName"> /// The new name to place into the header buffer. /// </param> static public void AdjustEntryName(byte[] buffer, string newName) { TarHeader.GetNameBytes(newName, buffer, 0, TarHeader.NAMELEN); }
/// <summary> /// Fill in a TarHeader with information from a File. /// </summary> /// <param name="header"> /// The TarHeader to fill in. /// </param> /// <param name="file"> /// The file from which to get the header information. /// </param> public void GetFileTarHeader(TarHeader header, string file) { if (header == null) { throw new ArgumentNullException(nameof(header)); } if (file == null) { throw new ArgumentNullException(nameof(file)); } this.file = file; // bugfix from torhovl from #D forum: string name = file; // 23-Jan-2004 GnuTar allows device names in path where the name is not local to the current directory if (name.IndexOf(Directory.GetCurrentDirectory(), StringComparison.Ordinal) == 0) { name = name.Substring(Directory.GetCurrentDirectory().Length); } /* * if (Path.DirectorySeparatorChar == '\\') * { * // check if the OS is Windows * // Strip off drive letters! * if (name.Length > 2) * { * char ch1 = name[0]; * char ch2 = name[1]; * * if (ch2 == ':' && Char.IsLetter(ch1)) * { * name = name.Substring(2); * } * } * } */ name = name.Replace(Path.DirectorySeparatorChar, '/'); // No absolute pathnames // Windows (and Posix?) paths can start with UNC style "\\NetworkDrive\", // so we loop on starting /'s. while (name.StartsWith("/", StringComparison.Ordinal)) { name = name.Substring(1); } header.LinkName = String.Empty; header.Name = name; if (Directory.Exists(file)) { header.Mode = 1003; // Magic number for security access for a UNIX filesystem header.TypeFlag = TarHeader.LF_DIR; if ((header.Name.Length == 0) || header.Name[header.Name.Length - 1] != '/') { header.Name = header.Name + "/"; } header.Size = 0; } else { header.Mode = 33216; // Magic number for security access for a UNIX filesystem header.TypeFlag = TarHeader.LF_NORMAL; header.Size = new FileInfo(file.Replace('/', Path.DirectorySeparatorChar)).Length; } header.ModTime = System.IO.File.GetLastWriteTime(file.Replace('/', Path.DirectorySeparatorChar)).ToUniversalTime(); header.DevMajor = 0; header.DevMinor = 0; }
/// <summary> /// Initialise a default instance of <see cref="TarEntry"/>. /// </summary> private TarEntry() { header = new TarHeader(); }
/// <summary> /// Get the next entry in this tar archive. This will skip /// over any remaining data in the current entry, if there /// is one, and place the input stream at the header of the /// next entry, and read the header and instantiate a new /// TarEntry from the header bytes and return that entry. /// If there are no more entries in the archive, null will /// be returned to indicate that the end of the archive has /// been reached. /// </summary> /// <returns> /// The next TarEntry in the archive, or null. /// </returns> public TarEntry GetNextEntry() { if (hasHitEOF) { return(null); } if (currentEntry != null) { SkipToNextEntry(); } byte[] headerBuf = tarBuffer.ReadBlock(); if (headerBuf == null) { hasHitEOF = true; } else if (TarBuffer.IsEndOfArchiveBlock(headerBuf)) { hasHitEOF = true; // Read the second zero-filled block tarBuffer.ReadBlock(); } else { hasHitEOF = false; } if (hasHitEOF) { currentEntry = null; } else { try { var header = new TarHeader(); header.ParseBuffer(headerBuf); if (!header.IsChecksumValid) { throw new TarException("Header checksum is invalid"); } this.entryOffset = 0; this.entrySize = header.Size; StringBuilder longName = null; if (header.TypeFlag == TarHeader.LF_GNU_LONGNAME) { byte[] nameBuffer = new byte[TarBuffer.BlockSize]; long numToRead = this.entrySize; longName = new StringBuilder(); while (numToRead > 0) { int numRead = this.Read(nameBuffer, 0, (numToRead > nameBuffer.Length ? nameBuffer.Length : (int)numToRead)); if (numRead == -1) { throw new InvalidHeaderException("Failed to read long name entry"); } longName.Append(TarHeader.ParseName(nameBuffer, 0, numRead).ToString()); numToRead -= numRead; } SkipToNextEntry(); headerBuf = this.tarBuffer.ReadBlock(); } else if (header.TypeFlag == TarHeader.LF_GHDR) { // POSIX global extended header // Ignore things we dont understand completely for now SkipToNextEntry(); headerBuf = this.tarBuffer.ReadBlock(); } else if (header.TypeFlag == TarHeader.LF_XHDR) { // POSIX extended header byte[] nameBuffer = new byte[TarBuffer.BlockSize]; long numToRead = this.entrySize; var xhr = new TarExtendedHeaderReader(); while (numToRead > 0) { int numRead = this.Read(nameBuffer, 0, (numToRead > nameBuffer.Length ? nameBuffer.Length : (int)numToRead)); if (numRead == -1) { throw new InvalidHeaderException("Failed to read long name entry"); } xhr.Read(nameBuffer, numRead); numToRead -= numRead; } if (xhr.Headers.TryGetValue("path", out string name)) { longName = new StringBuilder(name); } SkipToNextEntry(); headerBuf = this.tarBuffer.ReadBlock(); } else if (header.TypeFlag == TarHeader.LF_GNU_VOLHDR) { // TODO: could show volume name when verbose SkipToNextEntry(); headerBuf = this.tarBuffer.ReadBlock(); } else if (header.TypeFlag != TarHeader.LF_NORMAL && header.TypeFlag != TarHeader.LF_OLDNORM && header.TypeFlag != TarHeader.LF_LINK && header.TypeFlag != TarHeader.LF_SYMLINK && header.TypeFlag != TarHeader.LF_DIR) { // Ignore things we dont understand completely for now SkipToNextEntry(); headerBuf = tarBuffer.ReadBlock(); } if (entryFactory == null) { currentEntry = new TarEntry(headerBuf); if (longName != null) { currentEntry.Name = longName.ToString(); } } else { currentEntry = entryFactory.CreateEntry(headerBuf); } // Magic was checked here for 'ustar' but there are multiple valid possibilities // so this is not done anymore. entryOffset = 0; // TODO: Review How do we resolve this discrepancy?! entrySize = this.currentEntry.Size; } catch (InvalidHeaderException ex) { entrySize = 0; entryOffset = 0; currentEntry = null; string errorText = string.Format("Bad header in record {0} block {1} {2}", tarBuffer.CurrentRecord, tarBuffer.CurrentBlock, ex.Message); throw new InvalidHeaderException(errorText); } } return(currentEntry); }