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import sys
import os
import shutil
import unittest
import tarfile
from test import test_support
# Check for our compression modules.
try:
import gzip
except ImportError:
gzip = None
try:
import bz2
except ImportError:
bz2 = None
def path(path):
return test_support.findfile(path)
testtar = path("testtar.tar")
print testtar
tempdir = path("testtar.dir")
tempname = path("testtar.tmp")
membercount = 10
def tarname(comp=""):
if not comp:
return testtar
return "%s.%s" % (testtar, comp)
def dirname():
if not os.path.exists(tempdir):
os.mkdir(tempdir)
return tempdir
def tmpname():
return tempname
class BaseTest(unittest.TestCase):
comp = ''
mode = 'r'
sep = ':'
def setUp(self):
mode = self.mode + self.sep + self.comp
self.tar = tarfile.open(tarname(self.comp), mode)
def tearDown(self):
self.tar.close()
class ReadTest(BaseTest):
def test(self):
"""Test member extraction.
"""
members = 0
for tarinfo in self.tar:
members += 1
if not tarinfo.isreg():
continue
f = self.tar.extractfile(tarinfo)
self.assert_(len(f.read()) == tarinfo.size,
"size read does not match expected size")
f.close()
self.assert_(members == membercount,
"could not find all members")
def test_sparse(self):
"""Test sparse member extraction.
"""
if self.sep != "|":
f1 = self.tar.extractfile("S-SPARSE")
f2 = self.tar.extractfile("S-SPARSE-WITH-NULLS")
self.assert_(f1.read() == f2.read(),
"_FileObject failed on sparse file member")
def test_readlines(self):
"""Test readlines() method of _FileObject.
"""
if self.sep != "|":
filename = "0-REGTYPE-TEXT"
self.tar.extract(filename, dirname())
lines1 = file(os.path.join(dirname(), filename), "r").readlines()
lines2 = self.tar.extractfile(filename).readlines()
self.assert_(lines1 == lines2,
"_FileObject.readline() does not work correctly")
def test_seek(self):
"""Test seek() method of _FileObject, incl. random reading.
"""
if self.sep != "|":
filename = "0-REGTYPE"
self.tar.extract(filename, dirname())
data = file(os.path.join(dirname(), filename), "rb").read()
tarinfo = self.tar.getmember(filename)
fobj = self.tar.extractfile(tarinfo)
text = fobj.read()
fobj.seek(0)
self.assert_(0 == fobj.tell(),
"seek() to file's start failed")
fobj.seek(2048, 0)
self.assert_(2048 == fobj.tell(),
"seek() to absolute position failed")
fobj.seek(-1024, 1)
self.assert_(1024 == fobj.tell(),
"seek() to negative relative position failed")
fobj.seek(1024, 1)
self.assert_(2048 == fobj.tell(),
"seek() to positive relative position failed")
s = fobj.read(10)
self.assert_(s == data[2048:2058],
"read() after seek failed")
fobj.seek(0, 2)
self.assert_(tarinfo.size == fobj.tell(),
"seek() to file's end failed")
self.assert_(fobj.read() == "",
"read() at file's end did not return empty string")
fobj.seek(-tarinfo.size, 2)
self.assert_(0 == fobj.tell(),
"relative seek() to file's start failed")
fobj.seek(512)
s1 = fobj.readlines()
fobj.seek(512)
s2 = fobj.readlines()
self.assert_(s1 == s2,
"readlines() after seek failed")
fobj.close()
class ReadStreamTest(ReadTest):
sep = "|"
def test(self):
"""Test member extraction, and for StreamError when
seeking backwards.
"""
ReadTest.test(self)
tarinfo = self.tar.getmembers()[0]
f = self.tar.extractfile(tarinfo)
self.assertRaises(tarfile.StreamError, f.read)
def test_stream(self):
"""Compare the normal tar and the stream tar.
"""
stream = self.tar
tar = tarfile.open(tarname(), 'r')
while 1:
t1 = tar.next()
t2 = stream.next()
if t1 is None:
break
self.assert_(t2 is not None, "stream.next() failed.")
if t2.islnk() or t2.issym():
self.assertRaises(tarfile.StreamError, stream.extractfile, t2)
continue
v1 = tar.extractfile(t1)
v2 = stream.extractfile(t2)
if v1 is None:
continue
self.assert_(v2 is not None, "stream.extractfile() failed")
self.assert_(v1.read() == v2.read(), "stream extraction failed")
stream.close()
class WriteTest(BaseTest):
mode = 'w'
def setUp(self):
mode = self.mode + self.sep + self.comp
self.src = tarfile.open(tarname(self.comp), 'r')
self.dst = tarfile.open(tmpname(), mode)
def tearDown(self):
self.src.close()
self.dst.close()
def test_posix(self):
self.dst.posix = 1
self._test()
def test_nonposix(self):
self.dst.posix = 0
self._test()
def _test(self):
for tarinfo in self.src:
if not tarinfo.isreg():
continue
f = self.src.extractfile(tarinfo)
if self.dst.posix and len(tarinfo.name) > tarfile.LENGTH_NAME:
self.assertRaises(ValueError, self.dst.addfile,
tarinfo, f)
else:
self.dst.addfile(tarinfo, f)
class WriteStreamTest(WriteTest):
sep = '|'
# Gzip TestCases
class ReadTestGzip(ReadTest):
comp = "gz"
class ReadStreamTestGzip(ReadStreamTest):
comp = "gz"
class WriteTestGzip(WriteTest):
comp = "gz"
class WriteStreamTestGzip(WriteStreamTest):
comp = "gz"
if bz2:
# Bzip2 TestCases
class ReadTestBzip2(ReadTestGzip):
comp = "bz2"
class ReadStreamTestBzip2(ReadStreamTestGzip):
comp = "bz2"
class WriteTestBzip2(WriteTest):
comp = "bz2"
class WriteStreamTestBzip2(WriteStreamTestGzip):
comp = "bz2"
# If importing gzip failed, discard the Gzip TestCases.
if not gzip:
del ReadTestGzip
del ReadStreamTestGzip
del WriteTestGzip
del WriteStreamTestGzip
def test_main():
if gzip:
# create testtar.tar.gz
gzip.open(tarname("gz"), "wb").write(file(tarname(), "rb").read())
if bz2:
# create testtar.tar.bz2
bz2.BZ2File(tarname("bz2"), "wb").write(file(tarname(), "rb").read())
try:
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(ReadTest))
suite.addTest(unittest.makeSuite(ReadStreamTest))
suite.addTest(unittest.makeSuite(WriteTest))
suite.addTest(unittest.makeSuite(WriteStreamTest))
if gzip:
suite.addTest(unittest.makeSuite(ReadTestGzip))
suite.addTest(unittest.makeSuite(ReadStreamTestGzip))
suite.addTest(unittest.makeSuite(WriteTestGzip))
suite.addTest(unittest.makeSuite(WriteStreamTestGzip))
if bz2:
suite.addTest(unittest.makeSuite(ReadTestBzip2))
suite.addTest(unittest.makeSuite(ReadStreamTestBzip2))
suite.addTest(unittest.makeSuite(WriteTestBzip2))
suite.addTest(unittest.makeSuite(WriteStreamTestBzip2))
test_support.run_suite(suite)
finally:
if gzip:
os.remove(tarname("gz"))
if bz2:
os.remove(tarname("bz2"))
if os.path.exists(tempdir):
shutil.rmtree(tempdir)
if os.path.exists(tempname):
os.remove(tempname)
if __name__ == "__main__":
test_main()
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