instiki/lib/zip/zip.rb

1543 lines
42 KiB
Ruby

require 'delegate'
require 'singleton'
require 'tempfile'
require 'ftools'
require 'zlib'
require 'zip/stdrubyext'
require 'zip/ioextras'
if Tempfile.superclass == SimpleDelegator
require 'zip/tempfile_bugfixed'
Tempfile = BugFix::Tempfile
end
module Zlib #:nodoc:all
if ! const_defined? :MAX_WBITS
MAX_WBITS = Zlib::Deflate.MAX_WBITS
end
end
module Zip
VERSION = '0.5.8'
RUBY_MINOR_VERSION = RUBY_VERSION.split(".")[1].to_i
# Ruby 1.7.x compatibility
# In ruby 1.6.x and 1.8.0 reading from an empty stream returns
# an empty string the first time and then nil.
# not so in 1.7.x
EMPTY_FILE_RETURNS_EMPTY_STRING_FIRST = RUBY_MINOR_VERSION != 7
# ZipInputStream is the basic class for reading zip entries in a
# zip file. It is possible to create a ZipInputStream object directly,
# passing the zip file name to the constructor, but more often than not
# the ZipInputStream will be obtained from a ZipFile (perhaps using the
# ZipFileSystem interface) object for a particular entry in the zip
# archive.
#
# A ZipInputStream inherits IOExtras::AbstractInputStream in order
# to provide an IO-like interface for reading from a single zip
# entry. Beyond methods for mimicking an IO-object it contains
# the method get_next_entry for iterating through the entries of
# an archive. get_next_entry returns a ZipEntry object that describes
# the zip entry the ZipInputStream is currently reading from.
#
# Example that creates a zip archive with ZipOutputStream and reads it
# back again with a ZipInputStream.
#
# require 'zip/zip'
#
# Zip::ZipOutputStream::open("my.zip") {
# |io|
#
# io.put_next_entry("first_entry.txt")
# io.write "Hello world!"
#
# io.put_next_entry("adir/first_entry.txt")
# io.write "Hello again!"
# }
#
#
# Zip::ZipInputStream::open("my.zip") {
# |io|
#
# while (entry = io.get_next_entry)
# puts "Contents of #{entry.name}: '#{io.read}'"
# end
# }
#
# java.util.zip.ZipInputStream is the original inspiration for this
# class.
class ZipInputStream
include IOExtras::AbstractInputStream
# Opens the indicated zip file. An exception is thrown
# if the specified offset in the specified filename is
# not a local zip entry header.
def initialize(filename, offset = 0)
super()
@archiveIO = File.open(filename, "rb")
@archiveIO.seek(offset, IO::SEEK_SET)
@decompressor = NullDecompressor.instance
@currentEntry = nil
end
def close
@archiveIO.close
end
# Same as #initialize but if a block is passed the opened
# stream is passed to the block and closed when the block
# returns.
def ZipInputStream.open(filename)
return new(filename) unless block_given?
zio = new(filename)
yield zio
ensure
zio.close if zio
end
# Returns a ZipEntry object. It is necessary to call this
# method on a newly created ZipInputStream before reading from
# the first entry in the archive. Returns nil when there are
# no more entries.
def get_next_entry
@archiveIO.seek(@currentEntry.next_header_offset,
IO::SEEK_SET) if @currentEntry
open_entry
end
# Rewinds the stream to the beginning of the current entry
def rewind
return if @currentEntry.nil?
@lineno = 0
@archiveIO.seek(@currentEntry.localHeaderOffset,
IO::SEEK_SET)
open_entry
end
# Modeled after IO.read
def read(numberOfBytes = nil)
@decompressor.read(numberOfBytes)
end
protected
def open_entry
@currentEntry = ZipEntry.read_local_entry(@archiveIO)
if (@currentEntry == nil)
@decompressor = NullDecompressor.instance
elsif @currentEntry.compression_method == ZipEntry::STORED
@decompressor = PassThruDecompressor.new(@archiveIO,
@currentEntry.size)
elsif @currentEntry.compression_method == ZipEntry::DEFLATED
@decompressor = Inflater.new(@archiveIO)
else
raise ZipCompressionMethodError,
"Unsupported compression method #{@currentEntry.compression_method}"
end
flush
return @currentEntry
end
def produce_input
@decompressor.produce_input
end
def input_finished?
@decompressor.input_finished?
end
end
class Decompressor #:nodoc:all
CHUNK_SIZE=32768
def initialize(inputStream)
super()
@inputStream=inputStream
end
end
class Inflater < Decompressor #:nodoc:all
def initialize(inputStream)
super
@zlibInflater = Zlib::Inflate.new(-Zlib::MAX_WBITS)
@outputBuffer=""
@hasReturnedEmptyString = ! EMPTY_FILE_RETURNS_EMPTY_STRING_FIRST
end
def read(numberOfBytes = nil)
readEverything = (numberOfBytes == nil)
while (readEverything || @outputBuffer.length < numberOfBytes)
break if internal_input_finished?
@outputBuffer << internal_produce_input
end
return value_when_finished if @outputBuffer.length==0 && input_finished?
endIndex= numberOfBytes==nil ? @outputBuffer.length : numberOfBytes
return @outputBuffer.slice!(0...endIndex)
end
def produce_input
if (@outputBuffer.empty?)
return internal_produce_input
else
return @outputBuffer.slice!(0...(@outputBuffer.length))
end
end
# to be used with produce_input, not read (as read may still have more data cached)
def input_finished?
@outputBuffer.empty? && internal_input_finished?
end
private
def internal_produce_input
@zlibInflater.inflate(@inputStream.read(Decompressor::CHUNK_SIZE))
end
def internal_input_finished?
@zlibInflater.finished?
end
# TODO: Specialize to handle different behaviour in ruby > 1.7.0 ?
def value_when_finished # mimic behaviour of ruby File object.
return nil if @hasReturnedEmptyString
@hasReturnedEmptyString=true
return ""
end
end
class PassThruDecompressor < Decompressor #:nodoc:all
def initialize(inputStream, charsToRead)
super inputStream
@charsToRead = charsToRead
@readSoFar = 0
@hasReturnedEmptyString = ! EMPTY_FILE_RETURNS_EMPTY_STRING_FIRST
end
# TODO: Specialize to handle different behaviour in ruby > 1.7.0 ?
def read(numberOfBytes = nil)
if input_finished?
hasReturnedEmptyStringVal=@hasReturnedEmptyString
@hasReturnedEmptyString=true
return "" unless hasReturnedEmptyStringVal
return nil
end
if (numberOfBytes == nil || @readSoFar+numberOfBytes > @charsToRead)
numberOfBytes = @charsToRead-@readSoFar
end
@readSoFar += numberOfBytes
@inputStream.read(numberOfBytes)
end
def produce_input
read(Decompressor::CHUNK_SIZE)
end
def input_finished?
(@readSoFar >= @charsToRead)
end
end
class NullDecompressor #:nodoc:all
include Singleton
def read(numberOfBytes = nil)
nil
end
def produce_input
nil
end
def input_finished?
true
end
end
class NullInputStream < NullDecompressor #:nodoc:all
include IOExtras::AbstractInputStream
end
class ZipEntry
STORED = 0
DEFLATED = 8
attr_accessor :comment, :compressed_size, :crc, :extra, :compression_method,
:name, :size, :localHeaderOffset, :zipfile, :fstype, :externalFileAttributes
def initialize(zipfile = "", name = "", comment = "", extra = "",
compressed_size = 0, crc = 0,
compression_method = ZipEntry::DEFLATED, size = 0,
time = Time.now)
super()
if name.starts_with("/")
raise ZipEntryNameError, "Illegal ZipEntry name '#{name}', name must not start with /"
end
@localHeaderOffset = 0
@internalFileAttributes = 1
@externalFileAttributes = 0
@version = 52 # this library's version
@fstype = 0 # default is fat
@zipfile, @comment, @compressed_size, @crc, @extra, @compression_method,
@name, @size = zipfile, comment, compressed_size, crc,
extra, compression_method, name, size
@time = time
unless ZipExtraField === @extra
@extra = ZipExtraField.new(@extra.to_s)
end
end
def time
if @extra["UniversalTime"]
@extra["UniversalTime"].mtime
else
# Atandard time field in central directory has local time
# under archive creator. Then, we can't get timezone.
@time
end
end
alias :mtime :time
def time=(aTime)
unless @extra.member?("UniversalTime")
@extra.create("UniversalTime")
end
@extra["UniversalTime"].mtime = aTime
@time = aTime
end
def directory?
return (%r{\/$} =~ @name) != nil
end
alias :is_directory :directory?
def file?
! directory?
end
def local_entry_offset #:nodoc:all
localHeaderOffset + local_header_size
end
def local_header_size #:nodoc:all
LOCAL_ENTRY_STATIC_HEADER_LENGTH + (@name ? @name.size : 0) + (@extra ? @extra.local_size : 0)
end
def cdir_header_size #:nodoc:all
CDIR_ENTRY_STATIC_HEADER_LENGTH + (@name ? @name.size : 0) +
(@extra ? @extra.c_dir_size : 0) + (@comment ? @comment.size : 0)
end
def next_header_offset #:nodoc:all
local_entry_offset + self.compressed_size
end
def to_s
@name
end
protected
def ZipEntry.read_zip_short(io)
io.read(2).unpack('v')[0]
end
def ZipEntry.read_zip_long(io)
io.read(4).unpack('V')[0]
end
public
LOCAL_ENTRY_SIGNATURE = 0x04034b50
LOCAL_ENTRY_STATIC_HEADER_LENGTH = 30
def read_local_entry(io) #:nodoc:all
@localHeaderOffset = io.tell
staticSizedFieldsBuf = io.read(LOCAL_ENTRY_STATIC_HEADER_LENGTH)
unless (staticSizedFieldsBuf.size==LOCAL_ENTRY_STATIC_HEADER_LENGTH)
raise ZipError, "Premature end of file. Not enough data for zip entry local header"
end
localHeader ,
@version ,
@fstype ,
@gpFlags ,
@compression_method,
lastModTime ,
lastModDate ,
@crc ,
@compressed_size ,
@size ,
nameLength ,
extraLength = staticSizedFieldsBuf.unpack('VCCvvvvVVVvv')
unless (localHeader == LOCAL_ENTRY_SIGNATURE)
raise ZipError, "Zip local header magic not found at location '#{localHeaderOffset}'"
end
set_time(lastModDate, lastModTime)
@name = io.read(nameLength)
extra = io.read(extraLength)
if (extra && extra.length != extraLength)
raise ZipError, "Truncated local zip entry header"
else
if ZipExtraField === @extra
@extra.merge(extra)
else
@extra = ZipExtraField.new(extra)
end
end
end
def ZipEntry.read_local_entry(io)
entry = new(io.path)
entry.read_local_entry(io)
return entry
rescue ZipError
return nil
end
def write_local_entry(io) #:nodoc:all
@localHeaderOffset = io.tell
io <<
[LOCAL_ENTRY_SIGNATURE ,
0 ,
0 , # @gpFlags ,
@compression_method ,
@time.to_binary_dos_time , # @lastModTime ,
@time.to_binary_dos_date , # @lastModDate ,
@crc ,
@compressed_size ,
@size ,
@name ? @name.length : 0,
@extra? @extra.local_length : 0 ].pack('VvvvvvVVVvv')
io << @name
io << (@extra ? @extra.to_local_bin : "")
end
CENTRAL_DIRECTORY_ENTRY_SIGNATURE = 0x02014b50
CDIR_ENTRY_STATIC_HEADER_LENGTH = 46
def read_c_dir_entry(io) #:nodoc:all
staticSizedFieldsBuf = io.read(CDIR_ENTRY_STATIC_HEADER_LENGTH)
unless (staticSizedFieldsBuf.size == CDIR_ENTRY_STATIC_HEADER_LENGTH)
raise ZipError, "Premature end of file. Not enough data for zip cdir entry header"
end
cdirSignature ,
@version , # version of encoding software
@fstype , # filesystem type
@versionNeededToExtract,
@gpFlags ,
@compression_method ,
lastModTime ,
lastModDate ,
@crc ,
@compressed_size ,
@size ,
nameLength ,
extraLength ,
commentLength ,
diskNumberStart ,
@internalFileAttributes,
@externalFileAttributes,
@localHeaderOffset ,
@name ,
@extra ,
@comment = staticSizedFieldsBuf.unpack('VCCvvvvvVVVvvvvvVV')
unless (cdirSignature == CENTRAL_DIRECTORY_ENTRY_SIGNATURE)
raise ZipError, "Zip local header magic not found at location '#{localHeaderOffset}'"
end
set_time(lastModDate, lastModTime)
@name = io.read(nameLength)
if ZipExtraField === @extra
@extra.merge(io.read(extraLength))
else
@extra = ZipExtraField.new(io.read(extraLength))
end
@comment = io.read(commentLength)
unless (@comment && @comment.length == commentLength)
raise ZipError, "Truncated cdir zip entry header"
end
end
def ZipEntry.read_c_dir_entry(io) #:nodoc:all
entry = new(io.path)
entry.read_c_dir_entry(io)
return entry
rescue ZipError
return nil
end
def write_c_dir_entry(io) #:nodoc:all
io <<
[CENTRAL_DIRECTORY_ENTRY_SIGNATURE,
@version , # version of encoding software
@fstype , # filesystem type
0 , # @versionNeededToExtract ,
0 , # @gpFlags ,
@compression_method ,
@time.to_binary_dos_time , # @lastModTime ,
@time.to_binary_dos_date , # @lastModDate ,
@crc ,
@compressed_size ,
@size ,
@name ? @name.length : 0 ,
@extra ? @extra.c_dir_length : 0 ,
@comment ? comment.length : 0 ,
0 , # disk number start
@internalFileAttributes , # file type (binary=0, text=1)
@externalFileAttributes , # native filesystem attributes
@localHeaderOffset ,
@name ,
@extra ,
@comment ].pack('VCCvvvvvVVVvvvvvVV')
io << @name
io << (@extra ? @extra.to_c_dir_bin : "")
io << @comment
end
def == (other)
return false unless other.class == ZipEntry
# Compares contents of local entry and exposed fields
(@compression_method == other.compression_method &&
@crc == other.crc &&
@compressed_size == other.compressed_size &&
@size == other.size &&
@name == other.name &&
@extra == other.extra &&
self.time.dos_equals(other.time))
end
def <=> (other)
return to_s <=> other.to_s
end
def get_input_stream
zis = ZipInputStream.new(@zipfile, localHeaderOffset)
zis.get_next_entry
if block_given?
begin
return yield(zis)
ensure
zis.close
end
else
return zis
end
end
def write_to_zip_output_stream(aZipOutputStream) #:nodoc:all
aZipOutputStream.copy_raw_entry(self)
end
def parent_as_string
entry_name = name.chomp("/")
slash_index = entry_name.rindex("/")
slash_index ? entry_name.slice(0, slash_index+1) : nil
end
def get_raw_input_stream(&aProc)
File.open(@zipfile, "rb", &aProc)
end
private
def set_time(binaryDosDate, binaryDosTime)
@time = Time.parse_binary_dos_format(binaryDosDate, binaryDosTime)
rescue ArgumentError
puts "Invalid date/time in zip entry"
end
end
# ZipOutputStream is the basic class for writing zip files. It is
# possible to create a ZipOutputStream object directly, passing
# the zip file name to the constructor, but more often than not
# the ZipOutputStream will be obtained from a ZipFile (perhaps using the
# ZipFileSystem interface) object for a particular entry in the zip
# archive.
#
# A ZipOutputStream inherits IOExtras::AbstractOutputStream in order
# to provide an IO-like interface for writing to a single zip
# entry. Beyond methods for mimicking an IO-object it contains
# the method put_next_entry that closes the current entry
# and creates a new.
#
# Please refer to ZipInputStream for example code.
#
# java.util.zip.ZipOutputStream is the original inspiration for this
# class.
class ZipOutputStream
include IOExtras::AbstractOutputStream
attr_accessor :comment
# Opens the indicated zip file. If a file with that name already
# exists it will be overwritten.
def initialize(fileName)
super()
@fileName = fileName
@outputStream = File.new(@fileName, "wb")
@entrySet = ZipEntrySet.new
@compressor = NullCompressor.instance
@closed = false
@currentEntry = nil
@comment = nil
end
# Same as #initialize but if a block is passed the opened
# stream is passed to the block and closed when the block
# returns.
def ZipOutputStream.open(fileName)
return new(fileName) unless block_given?
zos = new(fileName)
yield zos
ensure
zos.close if zos
end
# Closes the stream and writes the central directory to the zip file
def close
return if @closed
finalize_current_entry
update_local_headers
write_central_directory
@outputStream.close
@closed = true
end
# Closes the current entry and opens a new for writing.
# +entry+ can be a ZipEntry object or a string.
def put_next_entry(entry, level = Zlib::DEFAULT_COMPRESSION)
raise ZipError, "zip stream is closed" if @closed
newEntry = entry.kind_of?(ZipEntry) ? entry : ZipEntry.new(@fileName, entry.to_s)
init_next_entry(newEntry)
@currentEntry=newEntry
end
def copy_raw_entry(entry)
entry = entry.dup
raise ZipError, "zip stream is closed" if @closed
raise ZipError, "entry is not a ZipEntry" if !entry.kind_of?(ZipEntry)
finalize_current_entry
@entrySet << entry
src_pos = entry.local_entry_offset
entry.write_local_entry(@outputStream)
@compressor = NullCompressor.instance
@outputStream << entry.get_raw_input_stream {
|is|
is.seek(src_pos, IO::SEEK_SET)
is.read(entry.compressed_size)
}
@compressor = NullCompressor.instance
@currentEntry = nil
end
private
def finalize_current_entry
return unless @currentEntry
finish
@currentEntry.compressed_size = @outputStream.tell - @currentEntry.localHeaderOffset -
@currentEntry.local_header_size
@currentEntry.size = @compressor.size
@currentEntry.crc = @compressor.crc
@currentEntry = nil
@compressor = NullCompressor.instance
end
def init_next_entry(entry, level = Zlib::DEFAULT_COMPRESSION)
finalize_current_entry
@entrySet << entry
entry.write_local_entry(@outputStream)
@compressor = get_compressor(entry, level)
end
def get_compressor(entry, level)
case entry.compression_method
when ZipEntry::DEFLATED then Deflater.new(@outputStream, level)
when ZipEntry::STORED then PassThruCompressor.new(@outputStream)
else raise ZipCompressionMethodError,
"Invalid compression method: '#{entry.compression_method}'"
end
end
def update_local_headers
pos = @outputStream.tell
@entrySet.each {
|entry|
@outputStream.pos = entry.localHeaderOffset
entry.write_local_entry(@outputStream)
}
@outputStream.pos = pos
end
def write_central_directory
cdir = ZipCentralDirectory.new(@entrySet, @comment)
cdir.write_to_stream(@outputStream)
end
protected
def finish
@compressor.finish
end
public
# Modeled after IO.<<
def << (data)
@compressor << data
end
end
class Compressor #:nodoc:all
def finish
end
end
class PassThruCompressor < Compressor #:nodoc:all
def initialize(outputStream)
super()
@outputStream = outputStream
@crc = Zlib::crc32
@size = 0
end
def << (data)
val = data.to_s
@crc = Zlib::crc32(val, @crc)
@size += val.size
@outputStream << val
end
attr_reader :size, :crc
end
class NullCompressor < Compressor #:nodoc:all
include Singleton
def << (data)
raise IOError, "closed stream"
end
attr_reader :size, :compressed_size
end
class Deflater < Compressor #:nodoc:all
def initialize(outputStream, level = Zlib::DEFAULT_COMPRESSION)
super()
@outputStream = outputStream
@zlibDeflater = Zlib::Deflate.new(level, -Zlib::MAX_WBITS)
@size = 0
@crc = Zlib::crc32
end
def << (data)
val = data.to_s
@crc = Zlib::crc32(val, @crc)
@size += val.size
@outputStream << @zlibDeflater.deflate(data)
end
def finish
until @zlibDeflater.finished?
@outputStream << @zlibDeflater.finish
end
end
attr_reader :size, :crc
end
class ZipEntrySet #:nodoc:all
include Enumerable
def initialize(anEnumerable = [])
super()
@entrySet = {}
anEnumerable.each { |o| push(o) }
end
def include?(entry)
@entrySet.include?(entry.to_s)
end
def <<(entry)
@entrySet[entry.to_s] = entry
end
alias :push :<<
def size
@entrySet.size
end
alias :length :size
def delete(entry)
@entrySet.delete(entry.to_s) ? entry : nil
end
def each(&aProc)
@entrySet.values.each(&aProc)
end
def entries
@entrySet.values
end
# deep clone
def dup
newZipEntrySet = ZipEntrySet.new(@entrySet.values.map { |e| e.dup })
end
def == (other)
return false unless other.kind_of?(ZipEntrySet)
return @entrySet == other.entrySet
end
def parent(entry)
@entrySet[entry.parent_as_string]
end
#TODO attr_accessor :auto_create_directories
protected
attr_accessor :entrySet
end
class ZipCentralDirectory
include Enumerable
END_OF_CENTRAL_DIRECTORY_SIGNATURE = 0x06054b50
MAX_END_OF_CENTRAL_DIRECTORY_STRUCTURE_SIZE = 65536 + 18
STATIC_EOCD_SIZE = 22
attr_reader :comment
# Returns an Enumerable containing the entries.
def entries
@entrySet.entries
end
def initialize(entries = ZipEntrySet.new, comment = "") #:nodoc:
super()
@entrySet = entries.kind_of?(ZipEntrySet) ? entries : ZipEntrySet.new(entries)
@comment = comment
end
def write_to_stream(io) #:nodoc:
offset = io.tell
@entrySet.each { |entry| entry.write_c_dir_entry(io) }
write_e_o_c_d(io, offset)
end
def write_e_o_c_d(io, offset) #:nodoc:
io <<
[END_OF_CENTRAL_DIRECTORY_SIGNATURE,
0 , # @numberOfThisDisk
0 , # @numberOfDiskWithStartOfCDir
@entrySet? @entrySet.size : 0 ,
@entrySet? @entrySet.size : 0 ,
cdir_size ,
offset ,
@comment ? @comment.length : 0 ].pack('VvvvvVVv')
io << @comment
end
private :write_e_o_c_d
def cdir_size #:nodoc:
# does not include eocd
@entrySet.inject(0) { |value, entry| entry.cdir_header_size + value }
end
private :cdir_size
def read_e_o_c_d(io) #:nodoc:
buf = get_e_o_c_d(io)
@numberOfThisDisk = ZipEntry::read_zip_short(buf)
@numberOfDiskWithStartOfCDir = ZipEntry::read_zip_short(buf)
@totalNumberOfEntriesInCDirOnThisDisk = ZipEntry::read_zip_short(buf)
@size = ZipEntry::read_zip_short(buf)
@sizeInBytes = ZipEntry::read_zip_long(buf)
@cdirOffset = ZipEntry::read_zip_long(buf)
commentLength = ZipEntry::read_zip_short(buf)
@comment = buf.read(commentLength)
raise ZipError, "Zip consistency problem while reading eocd structure" unless buf.size == 0
end
def read_central_directory_entries(io) #:nodoc:
begin
io.seek(@cdirOffset, IO::SEEK_SET)
rescue Errno::EINVAL
raise ZipError, "Zip consistency problem while reading central directory entry"
end
@entrySet = ZipEntrySet.new
@size.times {
@entrySet << ZipEntry.read_c_dir_entry(io)
}
end
def read_from_stream(io) #:nodoc:
read_e_o_c_d(io)
read_central_directory_entries(io)
end
def get_e_o_c_d(io) #:nodoc:
begin
io.seek(-MAX_END_OF_CENTRAL_DIRECTORY_STRUCTURE_SIZE, IO::SEEK_END)
rescue Errno::EINVAL
io.seek(0, IO::SEEK_SET)
rescue Errno::EFBIG # FreeBSD 4.9 returns Errno::EFBIG instead of Errno::EINVAL
io.seek(0, IO::SEEK_SET)
end
buf = io.read
sigIndex = buf.rindex([END_OF_CENTRAL_DIRECTORY_SIGNATURE].pack('V'))
raise ZipError, "Zip end of central directory signature not found" unless sigIndex
buf=buf.slice!((sigIndex+4)...(buf.size))
def buf.read(count)
slice!(0, count)
end
return buf
end
# For iterating over the entries.
def each(&proc)
@entrySet.each(&proc)
end
# Returns the number of entries in the central directory (and
# consequently in the zip archive).
def size
@entrySet.size
end
def ZipCentralDirectory.read_from_stream(io) #:nodoc:
cdir = new
cdir.read_from_stream(io)
return cdir
rescue ZipError
return nil
end
def == (other) #:nodoc:
return false unless other.kind_of?(ZipCentralDirectory)
@entrySet.entries.sort == other.entries.sort && comment == other.comment
end
end
class ZipError < StandardError ; end
class ZipEntryExistsError < ZipError; end
class ZipDestinationFileExistsError < ZipError; end
class ZipCompressionMethodError < ZipError; end
class ZipEntryNameError < ZipError; end
# ZipFile is modeled after java.util.zip.ZipFile from the Java SDK.
# The most important methods are those inherited from
# ZipCentralDirectory for accessing information about the entries in
# the archive and methods such as get_input_stream and
# get_output_stream for reading from and writing entries to the
# archive. The class includes a few convenience methods such as
# #extract for extracting entries to the filesystem, and #remove,
# #replace, #rename and #mkdir for making simple modifications to
# the archive.
#
# Modifications to a zip archive are not committed until #commit or
# #close is called. The method #open accepts a block following
# the pattern from File.open offering a simple way to
# automatically close the archive when the block returns.
#
# The following example opens zip archive <code>my.zip</code>
# (creating it if it doesn't exist) and adds an entry
# <code>first.txt</code> and a directory entry <code>a_dir</code>
# to it.
#
# require 'zip/zip'
#
# Zip::ZipFile.open("my.zip", Zip::ZipFile::CREATE) {
# |zipfile|
# zipfile.get_output_stream("first.txt") { |f| f.puts "Hello from ZipFile" }
# zipfile.mkdir("a_dir")
# }
#
# The next example reopens <code>my.zip</code> writes the contents of
# <code>first.txt</code> to standard out and deletes the entry from
# the archive.
#
# require 'zip/zip'
#
# Zip::ZipFile.open("my.zip", Zip::ZipFile::CREATE) {
# |zipfile|
# puts zipfile.read("first.txt")
# zipfile.remove("first.txt")
# }
#
# ZipFileSystem offers an alternative API that emulates ruby's
# interface for accessing the filesystem, ie. the File and Dir classes.
class ZipFile < ZipCentralDirectory
CREATE = 1
attr_reader :name
# Opens a zip archive. Pass true as the second parameter to create
# a new archive if it doesn't exist already.
def initialize(fileName, create = nil)
super()
@name = fileName
@comment = ""
if (File.exists?(fileName))
File.open(name, "rb") { |f| read_from_stream(f) }
elsif (create)
@entrySet = ZipEntrySet.new
else
raise ZipError, "File #{fileName} not found"
end
@create = create
@storedEntries = @entrySet.dup
end
# Same as #new. If a block is passed the ZipFile object is passed
# to the block and is automatically closed afterwards just as with
# ruby's builtin File.open method.
def ZipFile.open(fileName, create = nil)
zf = ZipFile.new(fileName, create)
if block_given?
begin
yield zf
ensure
zf.close
end
else
zf
end
end
# Returns the zip files comment, if it has one
attr_accessor :comment
# Iterates over the contents of the ZipFile. This is more efficient
# than using a ZipInputStream since this methods simply iterates
# through the entries in the central directory structure in the archive
# whereas ZipInputStream jumps through the entire archive accessing the
# local entry headers (which contain the same information as the
# central directory).
def ZipFile.foreach(aZipFileName, &block)
ZipFile.open(aZipFileName) {
|zipFile|
zipFile.each(&block)
}
end
# Returns an input stream to the specified entry. If a block is passed
# the stream object is passed to the block and the stream is automatically
# closed afterwards just as with ruby's builtin File.open method.
def get_input_stream(entry, &aProc)
get_entry(entry).get_input_stream(&aProc)
end
# Returns an output stream to the specified entry. If a block is passed
# the stream object is passed to the block and the stream is automatically
# closed afterwards just as with ruby's builtin File.open method.
def get_output_stream(entry, &aProc)
newEntry = entry.kind_of?(ZipEntry) ? entry : ZipEntry.new(@name, entry.to_s)
if newEntry.directory?
raise ArgumentError,
"cannot open stream to directory entry - '#{newEntry}'"
end
zipStreamableEntry = ZipStreamableStream.new(newEntry)
@entrySet << zipStreamableEntry
zipStreamableEntry.get_output_stream(&aProc)
end
# Returns the name of the zip archive
def to_s
@name
end
# Returns a string containing the contents of the specified entry
def read(entry)
get_input_stream(entry) { |is| is.read }
end
# Convenience method for adding the contents of a file to the archive
def add(entry, srcPath, &continueOnExistsProc)
continueOnExistsProc ||= proc { false }
check_entry_exists(entry, continueOnExistsProc, "add")
newEntry = entry.kind_of?(ZipEntry) ? entry : ZipEntry.new(@name, entry.to_s)
if is_directory(newEntry, srcPath)
@entrySet << ZipStreamableDirectory.new(newEntry)
else
@entrySet << ZipStreamableFile.new(newEntry, srcPath)
end
end
# Removes the specified entry.
def remove(entry)
@entrySet.delete(get_entry(entry))
end
# Renames the specified entry.
def rename(entry, newName, &continueOnExistsProc)
foundEntry = get_entry(entry)
check_entry_exists(newName, continueOnExistsProc, "rename")
foundEntry.name=newName
end
# Replaces the specified entry with the contents of srcPath (from
# the file system).
def replace(entry, srcPath)
check_file(srcPath)
add(remove(entry), srcPath)
end
# Extracts entry to file destPath.
def extract(entry, destPath, &onExistsProc)
onExistsProc ||= proc { false }
foundEntry = get_entry(entry)
if foundEntry.is_directory
create_directory(foundEntry, destPath, &onExistsProc)
else
write_file(foundEntry, destPath, &onExistsProc)
end
end
# Commits changes that has been made since the previous commit to
# the zip archive.
def commit
return if ! commit_required?
on_success_replace(name) {
|tmpFile|
ZipOutputStream.open(tmpFile) {
|zos|
@entrySet.each { |e| e.write_to_zip_output_stream(zos) }
zos.comment = comment
}
true
}
initialize(name)
end
# Closes the zip file committing any changes that has been made.
def close
commit
end
# Returns true if any changes has been made to this archive since
# the previous commit
def commit_required?
return @entrySet != @storedEntries || @create == ZipFile::CREATE
end
# Searches for entry with the specified name. Returns nil if
# no entry is found. See also get_entry
def find_entry(entry)
@entrySet.detect {
|e|
e.name.sub(/\/$/, "") == entry.to_s.sub(/\/$/, "")
}
end
# Searches for an entry just as find_entry, but throws Errno::ENOENT
# if no entry is found.
def get_entry(entry)
selectedEntry = find_entry(entry)
unless selectedEntry
raise Errno::ENOENT, entry
end
return selectedEntry
end
# Creates a directory
def mkdir(entryName, permissionInt = 0) #permissionInt ignored
if find_entry(entryName)
raise Errno::EEXIST, "File exists - #{entryName}"
end
@entrySet << ZipStreamableDirectory.new(ZipEntry.new(name, entryName.to_s.ensure_end("/")))
end
private
def create_directory(entry, destPath)
if File.directory? destPath
return
elsif File.exists? destPath
if block_given? && yield(entry, destPath)
File.rm_f destPath
else
raise ZipDestinationFileExistsError,
"Cannot create directory '#{destPath}'. "+
"A file already exists with that name"
end
end
Dir.mkdir destPath
end
def is_directory(newEntry, srcPath)
srcPathIsDirectory = File.directory?(srcPath)
if newEntry.is_directory && ! srcPathIsDirectory
raise ArgumentError,
"entry name '#{newEntry}' indicates directory entry, but "+
"'#{srcPath}' is not a directory"
elsif ! newEntry.is_directory && srcPathIsDirectory
newEntry.name += "/"
end
return newEntry.is_directory && srcPathIsDirectory
end
def check_entry_exists(entryName, continueOnExistsProc, procedureName)
continueOnExistsProc ||= proc { false }
if @entrySet.detect { |e| e.name == entryName }
if continueOnExistsProc.call
remove get_entry(entryName)
else
raise ZipEntryExistsError,
procedureName+" failed. Entry #{entryName} already exists"
end
end
end
def write_file(entry, destPath, continueOnExistsProc = proc { false })
if File.exists?(destPath) && ! yield(entry, destPath)
raise ZipDestinationFileExistsError,
"Destination '#{destPath}' already exists"
end
File.open(destPath, "wb") {
|os|
entry.get_input_stream { |is| os << is.read }
}
end
def check_file(path)
unless File.readable? path
raise Errno::ENOENT, path
end
end
def on_success_replace(aFilename)
tmpfile = get_tempfile
tmpFilename = tmpfile.path
tmpfile.close
if yield tmpFilename
File.move(tmpFilename, name)
end
end
def get_tempfile
tempFile = Tempfile.new(File.basename(name), File.dirname(name))
tempFile.binmode
tempFile
end
end
class ZipStreamableFile < DelegateClass(ZipEntry) #:nodoc:all
def initialize(entry, filepath)
super(entry)
@delegate = entry
@filepath = filepath
end
def get_input_stream(&aProc)
File.open(@filepath, "rb", &aProc)
end
def write_to_zip_output_stream(aZipOutputStream)
aZipOutputStream.put_next_entry(self)
aZipOutputStream << get_input_stream { |is| is.read }
end
def == (other)
return false unless other.class == ZipStreamableFile
@filepath == other.filepath && super(other.delegate)
end
protected
attr_reader :filepath, :delegate
end
class ZipStreamableDirectory < DelegateClass(ZipEntry) #:nodoc:all
def initialize(entry)
super(entry)
end
def get_input_stream(&aProc)
return yield(NullInputStream.instance) if block_given?
NullInputStream.instance
end
def write_to_zip_output_stream(aZipOutputStream)
aZipOutputStream.put_next_entry(self)
end
end
class ZipStreamableStream < DelegateClass(ZipEntry) #nodoc:all
def initialize(entry)
super(entry)
@tempFile = Tempfile.new(File.basename(name), File.dirname(zipfile))
@tempFile.binmode
end
def get_output_stream
if block_given?
begin
yield(@tempFile)
ensure
@tempFile.close
end
else
@tempFile
end
end
def get_input_stream
if ! @tempFile.closed?
raise StandardError, "cannot open entry for reading while its open for writing - #{name}"
end
@tempFile.open # reopens tempfile from top
if block_given?
begin
yield(@tempFile)
ensure
@tempFile.close
end
else
@tempFile
end
end
def write_to_zip_output_stream(aZipOutputStream)
aZipOutputStream.put_next_entry(self)
aZipOutputStream << get_input_stream { |is| is.read }
end
end
class ZipExtraField < Hash
ID_MAP = {}
# Meta class for extra fields
class Generic
def self.register_map
if self.const_defined?(:HEADER_ID)
ID_MAP[self.const_get(:HEADER_ID)] = self
end
end
def self.name
self.to_s.split("::")[-1]
end
# return field [size, content] or false
def initial_parse(binstr)
if ! binstr
# If nil, start with empty.
return false
elsif binstr[0,2] != self.class.const_get(:HEADER_ID)
$stderr.puts "Warning: weired extra feild header ID. skip parsing"
return false
end
[binstr[2,2].unpack("v")[0], binstr[4..-1]]
end
def ==(other)
self.class != other.class and return false
each { |k, v|
v != other[k] and return false
}
true
end
def to_local_bin
s = pack_for_local
self.class.const_get(:HEADER_ID) + [s.length].pack("v") + s
end
def to_c_dir_bin
s = pack_for_c_dir
self.class.const_get(:HEADER_ID) + [s.length].pack("v") + s
end
end
# Info-ZIP Additional timestamp field
class UniversalTime < Generic
HEADER_ID = "UT"
register_map
def initialize(binstr = nil)
@ctime = nil
@mtime = nil
@atime = nil
@flag = nil
binstr and merge(binstr)
end
attr_accessor :atime, :ctime, :mtime, :flag
def merge(binstr)
binstr == "" and return
size, content = initial_parse(binstr)
size or return
@flag, mtime, atime, ctime = content.unpack("CVVV")
mtime and @mtime ||= Time.at(mtime)
atime and @atime ||= Time.at(atime)
ctime and @ctime ||= Time.at(ctime)
end
def ==(other)
@mtime == other.mtime &&
@atime == other.atime &&
@ctime == other.ctime
end
def pack_for_local
s = [@flag].pack("C")
@flag & 1 != 0 and s << [@mtime.to_i].pack("V")
@flag & 2 != 0 and s << [@atime.to_i].pack("V")
@flag & 4 != 0 and s << [@ctime.to_i].pack("V")
s
end
def pack_for_c_dir
s = [@flag].pack("C")
@flag & 1 == 1 and s << [@mtime.to_i].pack("V")
s
end
end
# Info-ZIP Extra for UNIX uid/gid
class IUnix < Generic
HEADER_ID = "Ux"
register_map
def initialize(binstr = nil)
@uid = 0
@gid = 0
binstr and merge(binstr)
end
attr_accessor :uid, :gid
def merge(binstr)
binstr == "" and return
size, content = initial_parse(binstr)
# size: 0 for central direcotry. 4 for local header
return if(! size || size == 0)
uid, gid = content.unpack("vv")
@uid ||= uid
@gid ||= gid
end
def ==(other)
@uid == other.uid &&
@gid == other.gid
end
def pack_for_local
[@uid, @gid].pack("vv")
end
def pack_for_c_dir
""
end
end
## start main of ZipExtraField < Hash
def initialize(binstr = nil)
binstr and merge(binstr)
end
def merge(binstr)
binstr == "" and return
i = 0
while i < binstr.length
id = binstr[i,2]
len = binstr[i+2,2].to_s.unpack("v")[0]
if id && ID_MAP.member?(id)
field_name = ID_MAP[id].name
if self.member?(field_name)
self[field_name].mergea(binstr[i, len+4])
else
field_obj = ID_MAP[id].new(binstr[i, len+4])
self[field_name] = field_obj
end
elsif id
unless self["Unknown"]
s = ""
class << s
alias_method :to_c_dir_bin, :to_s
alias_method :to_local_bin, :to_s
end
self["Unknown"] = s
end
if ! len || len+4 > binstr[i..-1].length
self["Unknown"] << binstr[i..-1]
break;
end
self["Unknown"] << binstr[i, len+4]
end
i += len+4
end
end
def create(name)
field_class = nil
ID_MAP.each { |id, klass|
if klass.name == name
field_class = klass
break
end
}
if ! field_class
raise ZipError, "Unknown extra field '#{name}'"
end
self[name] = field_class.new()
end
def to_local_bin
s = ""
each { |k, v|
s << v.to_local_bin
}
s
end
alias :to_s :to_local_bin
def to_c_dir_bin
s = ""
each { |k, v|
s << v.to_c_dir_bin
}
s
end
def c_dir_length
to_c_dir_bin.length
end
def local_length
to_local_bin.length
end
alias :c_dir_size :c_dir_length
alias :local_size :local_length
alias :length :local_length
alias :size :local_length
end # end ZipExtraField
end # Zip namespace module
# 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.