# encoding: ASCII-8BIT require 'zip/zip' module Zip # The ZipFileSystem API provides an API for accessing entries in # a zip archive that is similar to ruby's builtin File and Dir # classes. # # Requiring 'zip/zipfilesystem' includes this module in ZipFile # making the methods in this module available on ZipFile objects. # # Using this API the following example creates a new zip file # my.zip containing a normal entry with the name # first.txt, a directory entry named mydir # and finally another normal entry named second.txt # # require 'zip/zipfilesystem' # # Zip::ZipFile.open("my.zip", Zip::ZipFile::CREATE) { # |zipfile| # zipfile.file.open("first.txt", "w") { |f| f.puts "Hello world" } # zipfile.dir.mkdir("mydir") # zipfile.file.open("mydir/second.txt", "w") { |f| f.puts "Hello again" } # } # # Reading is as easy as writing, as the following example shows. The # example writes the contents of first.txt from zip archive # my.zip to standard out. # # require 'zip/zipfilesystem' # # Zip::ZipFile.open("my.zip") { # |zipfile| # puts zipfile.file.read("first.txt") # } module ZipFileSystem def initialize # :nodoc: mappedZip = ZipFileNameMapper.new(self) @zipFsDir = ZipFsDir.new(mappedZip) @zipFsFile = ZipFsFile.new(mappedZip) @zipFsDir.file = @zipFsFile @zipFsFile.dir = @zipFsDir end # Returns a ZipFsDir which is much like ruby's builtin Dir (class) # object, except it works on the ZipFile on which this method is # invoked def dir @zipFsDir end # Returns a ZipFsFile which is much like ruby's builtin File (class) # object, except it works on the ZipFile on which this method is # invoked def file @zipFsFile end # Instances of this class are normally accessed via the accessor # ZipFile::file. An instance of ZipFsFile behaves like ruby's # builtin File (class) object, except it works on ZipFile entries. # # The individual methods are not documented due to their # similarity with the methods in File class ZipFsFile attr_writer :dir # protected :dir class ZipFsStat def initialize(zipFsFile, entryName) @zipFsFile = zipFsFile @entryName = entryName end def forward_invoke(msg) @zipFsFile.send(msg, @entryName) end def kind_of?(t) super || t == ::File::Stat end forward_message :forward_invoke, :file?, :directory?, :pipe?, :chardev? forward_message :forward_invoke, :symlink?, :socket?, :blockdev? forward_message :forward_invoke, :readable?, :readable_real? forward_message :forward_invoke, :writable?, :writable_real? forward_message :forward_invoke, :executable?, :executable_real? forward_message :forward_invoke, :sticky?, :owned?, :grpowned? forward_message :forward_invoke, :setuid?, :setgid? forward_message :forward_invoke, :zero? forward_message :forward_invoke, :size, :size? forward_message :forward_invoke, :mtime, :atime, :ctime def blocks; nil; end def get_entry @zipFsFile.__send__(:get_entry, @entryName) end private :get_entry def gid e = get_entry if e.extra.member? "IUnix" e.extra["IUnix"].gid || 0 else 0 end end def uid e = get_entry if e.extra.member? "IUnix" e.extra["IUnix"].uid || 0 else 0 end end def ino; 0; end def dev; 0; end def rdev; 0; end def rdev_major; 0; end def rdev_minor; 0; end def ftype if file? return "file" elsif directory? return "directory" else raise StandardError, "Unknown file type" end end def nlink; 1; end def blksize; nil; end def mode e = get_entry if e.fstype == 3 e.externalFileAttributes >> 16 else 33206 # 33206 is equivalent to -rw-rw-rw- end end end def initialize(mappedZip) @mappedZip = mappedZip end def get_entry(fileName) if ! exists?(fileName) raise Errno::ENOENT, "No such file or directory - #{fileName}" end @mappedZip.find_entry(fileName) end private :get_entry def unix_mode_cmp(fileName, mode) begin e = get_entry(fileName) e.fstype == 3 && ((e.externalFileAttributes >> 16) & mode ) != 0 rescue Errno::ENOENT false end end private :unix_mode_cmp def exists?(fileName) expand_path(fileName) == "/" || @mappedZip.find_entry(fileName) != nil end alias :exist? :exists? # Permissions not implemented, so if the file exists it is accessible alias owned? exists? alias grpowned? exists? def readable?(fileName) unix_mode_cmp(fileName, 0444) end alias readable_real? readable? def writable?(fileName) unix_mode_cmp(fileName, 0222) end alias writable_real? writable? def executable?(fileName) unix_mode_cmp(fileName, 0111) end alias executable_real? executable? def setuid?(fileName) unix_mode_cmp(fileName, 04000) end def setgid?(fileName) unix_mode_cmp(fileName, 02000) end def sticky?(fileName) unix_mode_cmp(fileName, 01000) end def umask(*args) ::File.umask(*args) end def truncate(fileName, len) raise StandardError, "truncate not supported" end def directory?(fileName) entry = @mappedZip.find_entry(fileName) expand_path(fileName) == "/" || (entry != nil && entry.directory?) end def open(fileName, openMode = "r", &block) openMode.gsub!("b", "") # ignore b option case openMode when "r" @mappedZip.get_input_stream(fileName, &block) when "w" @mappedZip.get_output_stream(fileName, &block) else raise StandardError, "openmode '#{openMode} not supported" unless openMode == "r" end end def new(fileName, openMode = "r") open(fileName, openMode) end def size(fileName) @mappedZip.get_entry(fileName).size end # Returns nil for not found and nil for directories def size?(fileName) entry = @mappedZip.find_entry(fileName) return (entry == nil || entry.directory?) ? nil : entry.size end def chown(ownerInt, groupInt, *filenames) filenames.each { |fileName| e = get_entry(fileName) unless e.extra.member?("IUnix") e.extra.create("IUnix") end e.extra["IUnix"].uid = ownerInt e.extra["IUnix"].gid = groupInt } filenames.size end def chmod (modeInt, *filenames) filenames.each { |fileName| e = get_entry(fileName) e.fstype = 3 # force convertion filesystem type to unix e.externalFileAttributes = modeInt << 16 } filenames.size end def zero?(fileName) sz = size(fileName) sz == nil || sz == 0 rescue Errno::ENOENT false end def file?(fileName) entry = @mappedZip.find_entry(fileName) entry != nil && entry.file? end def dirname(fileName) ::File.dirname(fileName) end def basename(fileName) ::File.basename(fileName) end def split(fileName) ::File.split(fileName) end def join(*fragments) ::File.join(*fragments) end def utime(modifiedTime, *fileNames) fileNames.each { |fileName| get_entry(fileName).time = modifiedTime } end def mtime(fileName) @mappedZip.get_entry(fileName).mtime end def atime(fileName) e = get_entry(fileName) if e.extra.member? "UniversalTime" e.extra["UniversalTime"].atime else nil end end def ctime(fileName) e = get_entry(fileName) if e.extra.member? "UniversalTime" e.extra["UniversalTime"].ctime else nil end end def pipe?(filename) false end def blockdev?(filename) false end def chardev?(filename) false end def symlink?(fileName) false end def socket?(fileName) false end def ftype(fileName) @mappedZip.get_entry(fileName).directory? ? "directory" : "file" end def readlink(fileName) raise NotImplementedError, "The readlink() function is not implemented" end def symlink(fileName, symlinkName) raise NotImplementedError, "The symlink() function is not implemented" end def link(fileName, symlinkName) raise NotImplementedError, "The link() function is not implemented" end def pipe raise NotImplementedError, "The pipe() function is not implemented" end def stat(fileName) if ! exists?(fileName) raise Errno::ENOENT, fileName end ZipFsStat.new(self, fileName) end alias lstat stat def readlines(fileName) open(fileName) { |is| is.readlines } end def read(fileName) @mappedZip.read(fileName) end def popen(*args, &aProc) File.popen(*args, &aProc) end def foreach(fileName, aSep = $/, &aProc) open(fileName) { |is| is.each_line(aSep, &aProc) } end def delete(*args) args.each { |fileName| if directory?(fileName) raise Errno::EISDIR, "Is a directory - \"#{fileName}\"" end @mappedZip.remove(fileName) } end def rename(fileToRename, newName) @mappedZip.rename(fileToRename, newName) { true } end alias :unlink :delete def expand_path(aPath) @mappedZip.expand_path(aPath) end end # Instances of this class are normally accessed via the accessor # ZipFile::dir. An instance of ZipFsDir behaves like ruby's # builtin Dir (class) object, except it works on ZipFile entries. # # The individual methods are not documented due to their # similarity with the methods in Dir class ZipFsDir def initialize(mappedZip) @mappedZip = mappedZip end attr_writer :file def new(aDirectoryName) ZipFsDirIterator.new(entries(aDirectoryName)) end def open(aDirectoryName) dirIt = new(aDirectoryName) if block_given? begin yield(dirIt) return nil ensure dirIt.close end end dirIt end def pwd; @mappedZip.pwd; end alias getwd pwd def chdir(aDirectoryName) unless @file.stat(aDirectoryName).directory? raise Errno::EINVAL, "Invalid argument - #{aDirectoryName}" end @mappedZip.pwd = @file.expand_path(aDirectoryName) end def entries(aDirectoryName) entries = [] foreach(aDirectoryName) { |e| entries << e } entries end def foreach(aDirectoryName) unless @file.stat(aDirectoryName).directory? raise Errno::ENOTDIR, aDirectoryName end path = @file.expand_path(aDirectoryName).ensure_end("/") subDirEntriesRegex = Regexp.new("^#{path}([^/]+)$") @mappedZip.each { |fileName| match = subDirEntriesRegex.match(fileName) yield(match[1]) unless match == nil } end def delete(entryName) unless @file.stat(entryName).directory? raise Errno::EINVAL, "Invalid argument - #{entryName}" end @mappedZip.remove(entryName) end alias rmdir delete alias unlink delete def mkdir(entryName, permissionInt = 0755) @mappedZip.mkdir(entryName, permissionInt) end def chroot(*args) raise NotImplementedError, "The chroot() function is not implemented" end end class ZipFsDirIterator # :nodoc:all include Enumerable def initialize(arrayOfFileNames) @fileNames = arrayOfFileNames @index = 0 end def close @fileNames = nil end def each(&aProc) raise IOError, "closed directory" if @fileNames == nil @fileNames.each(&aProc) end def read raise IOError, "closed directory" if @fileNames == nil @fileNames[(@index+=1)-1] end def rewind raise IOError, "closed directory" if @fileNames == nil @index = 0 end def seek(anIntegerPosition) raise IOError, "closed directory" if @fileNames == nil @index = anIntegerPosition end def tell raise IOError, "closed directory" if @fileNames == nil @index end end # All access to ZipFile from ZipFsFile and ZipFsDir goes through a # ZipFileNameMapper, which has one responsibility: ensure class ZipFileNameMapper # :nodoc:all include Enumerable def initialize(zipFile) @zipFile = zipFile @pwd = "/" end attr_accessor :pwd def find_entry(fileName) @zipFile.find_entry(expand_to_entry(fileName)) end def get_entry(fileName) @zipFile.get_entry(expand_to_entry(fileName)) end def get_input_stream(fileName, &aProc) @zipFile.get_input_stream(expand_to_entry(fileName), &aProc) end def get_output_stream(fileName, &aProc) @zipFile.get_output_stream(expand_to_entry(fileName), &aProc) end def read(fileName) @zipFile.read(expand_to_entry(fileName)) end def remove(fileName) @zipFile.remove(expand_to_entry(fileName)) end def rename(fileName, newName, &continueOnExistsProc) @zipFile.rename(expand_to_entry(fileName), expand_to_entry(newName), &continueOnExistsProc) end def mkdir(fileName, permissionInt = 0755) @zipFile.mkdir(expand_to_entry(fileName), permissionInt) end # Turns entries into strings and adds leading / # and removes trailing slash on directories def each @zipFile.each { |e| yield("/"+e.to_s.chomp("/")) } end def expand_path(aPath) expanded = aPath.starts_with("/") ? aPath : @pwd.ensure_end("/") + aPath expanded.gsub!(/\/\.(\/|$)/, "") expanded.gsub!(/[^\/]+\/\.\.(\/|$)/, "") expanded.empty? ? "/" : expanded end private def expand_to_entry(aPath) expand_path(aPath).lchop end end end class ZipFile include ZipFileSystem end end # Copyright (C) 2002, 2003 Thomas Sondergaard # rubyzip is free software; you can redistribute it and/or # modify it under the terms of the ruby license.