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|
# -*- test-case-name: twisted.python.test.test_zipstream -*-
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
An incremental approach to unzipping files. This allows you to unzip a little
bit of a file at a time, which means you can report progress as a file unzips.
"""
import zipfile
import os.path
import zlib
import struct
_fileHeaderSize = struct.calcsize(zipfile.structFileHeader)
class ChunkingZipFile(zipfile.ZipFile):
"""
A C{ZipFile} object which, with L{readfile}, also gives you access to a
file-like object for each entry.
"""
def readfile(self, name):
"""
Return file-like object for name.
"""
if self.mode not in ("r", "a"):
raise RuntimeError('read() requires mode "r" or "a"')
if not self.fp:
raise RuntimeError(
"Attempt to read ZIP archive that was already closed")
zinfo = self.getinfo(name)
self.fp.seek(zinfo.header_offset, 0)
fheader = self.fp.read(_fileHeaderSize)
if fheader[0:4] != zipfile.stringFileHeader:
raise zipfile.BadZipfile("Bad magic number for file header")
fheader = struct.unpack(zipfile.structFileHeader, fheader)
fname = self.fp.read(fheader[zipfile._FH_FILENAME_LENGTH])
if fheader[zipfile._FH_EXTRA_FIELD_LENGTH]:
self.fp.read(fheader[zipfile._FH_EXTRA_FIELD_LENGTH])
if fname != zinfo.orig_filename:
raise zipfile.BadZipfile(
'File name in directory "%s" and header "%s" differ.' % (
zinfo.orig_filename, fname))
if zinfo.compress_type == zipfile.ZIP_STORED:
return ZipFileEntry(self, zinfo.compress_size)
elif zinfo.compress_type == zipfile.ZIP_DEFLATED:
return DeflatedZipFileEntry(self, zinfo.compress_size)
else:
raise zipfile.BadZipfile(
"Unsupported compression method %d for file %s" %
(zinfo.compress_type, name))
class _FileEntry(object):
"""
Abstract superclass of both compressed and uncompressed variants of
file-like objects within a zip archive.
@ivar chunkingZipFile: a chunking zip file.
@type chunkingZipFile: L{ChunkingZipFile}
@ivar length: The number of bytes within the zip file that represent this
file. (This is the size on disk, not the number of decompressed bytes
which will result from reading it.)
@ivar fp: the underlying file object (that contains pkzip data). Do not
touch this, please. It will quite likely move or go away.
@ivar closed: File-like 'closed' attribute; True before this file has been
closed, False after.
@type closed: C{bool}
@ivar finished: An older, broken synonym for 'closed'. Do not touch this,
please.
@type finished: C{int}
"""
def __init__(self, chunkingZipFile, length):
"""
Create a L{_FileEntry} from a L{ChunkingZipFile}.
"""
self.chunkingZipFile = chunkingZipFile
self.fp = self.chunkingZipFile.fp
self.length = length
self.finished = 0
self.closed = False
def isatty(self):
"""
Returns false because zip files should not be ttys
"""
return False
def close(self):
"""
Close self (file-like object)
"""
self.closed = True
self.finished = 1
del self.fp
def readline(self):
"""
Read a line.
"""
bytes = ""
for byte in iter(lambda : self.read(1), ""):
bytes += byte
if byte == "\n":
break
return bytes
def next(self):
"""
Implement next as file does (like readline, except raises StopIteration
at EOF)
"""
nextline = self.readline()
if nextline:
return nextline
raise StopIteration()
def readlines(self):
"""
Returns a list of all the lines
"""
return list(self)
def xreadlines(self):
"""
Returns an iterator (so self)
"""
return self
def __iter__(self):
"""
Returns an iterator (so self)
"""
return self
class ZipFileEntry(_FileEntry):
"""
File-like object used to read an uncompressed entry in a ZipFile
"""
def __init__(self, chunkingZipFile, length):
_FileEntry.__init__(self, chunkingZipFile, length)
self.readBytes = 0
def tell(self):
return self.readBytes
def read(self, n=None):
if n is None:
n = self.length - self.readBytes
if n == 0 or self.finished:
return ''
data = self.chunkingZipFile.fp.read(
min(n, self.length - self.readBytes))
self.readBytes += len(data)
if self.readBytes == self.length or len(data) < n:
self.finished = 1
return data
class DeflatedZipFileEntry(_FileEntry):
"""
File-like object used to read a deflated entry in a ZipFile
"""
def __init__(self, chunkingZipFile, length):
_FileEntry.__init__(self, chunkingZipFile, length)
self.returnedBytes = 0
self.readBytes = 0
self.decomp = zlib.decompressobj(-15)
self.buffer = ""
def tell(self):
return self.returnedBytes
def read(self, n=None):
if self.finished:
return ""
if n is None:
result = [self.buffer,]
result.append(
self.decomp.decompress(
self.chunkingZipFile.fp.read(
self.length - self.readBytes)))
result.append(self.decomp.decompress("Z"))
result.append(self.decomp.flush())
self.buffer = ""
self.finished = 1
result = "".join(result)
self.returnedBytes += len(result)
return result
else:
while len(self.buffer) < n:
data = self.chunkingZipFile.fp.read(
min(n, 1024, self.length - self.readBytes))
self.readBytes += len(data)
if not data:
result = (self.buffer
+ self.decomp.decompress("Z")
+ self.decomp.flush())
self.finished = 1
self.buffer = ""
self.returnedBytes += len(result)
return result
else:
self.buffer += self.decomp.decompress(data)
result = self.buffer[:n]
self.buffer = self.buffer[n:]
self.returnedBytes += len(result)
return result
DIR_BIT = 16
def countZipFileChunks(filename, chunksize):
"""
Predict the number of chunks that will be extracted from the entire
zipfile, given chunksize blocks.
"""
totalchunks = 0
zf = ChunkingZipFile(filename)
for info in zf.infolist():
totalchunks += countFileChunks(info, chunksize)
return totalchunks
def countFileChunks(zipinfo, chunksize):
"""
Count the number of chunks that will result from the given C{ZipInfo}.
@param zipinfo: a C{zipfile.ZipInfo} instance describing an entry in a zip
archive to be counted.
@return: the number of chunks present in the zip file. (Even an empty file
counts as one chunk.)
@rtype: C{int}
"""
count, extra = divmod(zipinfo.file_size, chunksize)
if extra > 0:
count += 1
return count or 1
def unzipIterChunky(filename, directory='.', overwrite=0,
chunksize=4096):
"""
Return a generator for the zipfile. This implementation will yield after
every chunksize uncompressed bytes, or at the end of a file, whichever
comes first.
The value it yields is the number of chunks left to unzip.
"""
czf = ChunkingZipFile(filename, 'r')
if not os.path.exists(directory):
os.makedirs(directory)
remaining = countZipFileChunks(filename, chunksize)
names = czf.namelist()
infos = czf.infolist()
for entry, info in zip(names, infos):
isdir = info.external_attr & DIR_BIT
f = os.path.join(directory, entry)
if isdir:
# overwrite flag only applies to files
if not os.path.exists(f):
os.makedirs(f)
remaining -= 1
yield remaining
else:
# create the directory the file will be in first,
# since we can't guarantee it exists
fdir = os.path.split(f)[0]
if not os.path.exists(fdir):
os.makedirs(fdir)
if overwrite or not os.path.exists(f):
outfile = file(f, 'wb')
fp = czf.readfile(entry)
if info.file_size == 0:
remaining -= 1
yield remaining
while fp.tell() < info.file_size:
hunk = fp.read(chunksize)
outfile.write(hunk)
remaining -= 1
yield remaining
outfile.close()
else:
remaining -= countFileChunks(info, chunksize)
yield remaining
|
