qemu-e2k/tests/qemu-iotests/163
Max Reitz 68474776f3 iotests: Different iterator behavior in Python 3
In Python 3, several functions now return iterators instead of lists.
This includes range(), items(), map(), and filter().  This means that if
we really want a list, we have to wrap those instances with list().  But
then again, the two instances where this is the case for map() and
filter(), there are shorter expressions which work without either
function.

On the other hand, sometimes we do just want an iterator, in which case
we have sometimes used xrange() and iteritems() which no longer exist in
Python 3.  Just change these calls to be range() and items(), works in
both Python 2 and 3, and is really what we want in 3 (which is what
matters).  But because it is so simple to do (and to find and remove
once we completely switch to Python 3), make range() be an alias for
xrange() in the two affected tests (044 and 163).

In one instance, we only wanted the first instance of the result of a
filter() call.  Instead of using next(filter()) which would work only in
Python 3, or list(filter())[0] which would work everywhere but is a bit
weird, this instance is changed to use a generator expression with a
next() wrapped around, which works both in 2.7 and 3.

Signed-off-by: Max Reitz <mreitz@redhat.com>
Reviewed-by: Eduardo Habkost <ehabkost@redhat.com>
Reviewed-by: Cleber Rosa <crosa@redhat.com>
Message-Id: <20181022135307.14398-6-mreitz@redhat.com>
Signed-off-by: Eduardo Habkost <ehabkost@redhat.com>
2018-10-30 21:11:52 -03:00

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#!/usr/bin/env python
#
# Tests for shrinking images
#
# Copyright (c) 2016-2017 Parallels International GmbH
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
import os, random, iotests, struct, qcow2, sys
from iotests import qemu_img, qemu_io, image_size
if sys.version_info.major == 2:
range = xrange
test_img = os.path.join(iotests.test_dir, 'test.img')
check_img = os.path.join(iotests.test_dir, 'check.img')
def size_to_int(str):
suff = ['B', 'K', 'M', 'G', 'T']
return int(str[:-1]) * 1024**suff.index(str[-1:])
class ShrinkBaseClass(iotests.QMPTestCase):
image_len = '128M'
shrink_size = '10M'
chunk_size = '16M'
refcount_bits = '16'
def __qcow2_check(self, filename):
entry_bits = 3
entry_size = 1 << entry_bits
l1_mask = 0x00fffffffffffe00
div_roundup = lambda n, d: (n + d - 1) // d
def split_by_n(data, n):
for x in range(0, len(data), n):
yield struct.unpack('>Q', data[x:x + n])[0] & l1_mask
def check_l1_table(h, l1_data):
l1_list = list(split_by_n(l1_data, entry_size))
real_l1_size = div_roundup(h.size,
1 << (h.cluster_bits*2 - entry_size))
used, unused = l1_list[:real_l1_size], l1_list[real_l1_size:]
self.assertTrue(len(used) != 0, "Verifying l1 table content")
self.assertFalse(any(unused), "Verifying l1 table content")
def check_reftable(fd, h, reftable):
for offset in split_by_n(reftable, entry_size):
if offset != 0:
fd.seek(offset)
cluster = fd.read(1 << h.cluster_bits)
self.assertTrue(any(cluster), "Verifying reftable content")
with open(filename, "rb") as fd:
h = qcow2.QcowHeader(fd)
fd.seek(h.l1_table_offset)
l1_table = fd.read(h.l1_size << entry_bits)
fd.seek(h.refcount_table_offset)
reftable = fd.read(h.refcount_table_clusters << h.cluster_bits)
check_l1_table(h, l1_table)
check_reftable(fd, h, reftable)
def __raw_check(self, filename):
pass
image_check = {
'qcow2' : __qcow2_check,
'raw' : __raw_check
}
def setUp(self):
if iotests.imgfmt == 'raw':
qemu_img('create', '-f', iotests.imgfmt, test_img, self.image_len)
qemu_img('create', '-f', iotests.imgfmt, check_img,
self.shrink_size)
else:
qemu_img('create', '-f', iotests.imgfmt,
'-o', 'cluster_size=' + self.cluster_size +
',refcount_bits=' + self.refcount_bits,
test_img, self.image_len)
qemu_img('create', '-f', iotests.imgfmt,
'-o', 'cluster_size=%s'% self.cluster_size,
check_img, self.shrink_size)
qemu_io('-c', 'write -P 0xff 0 ' + self.shrink_size, check_img)
def tearDown(self):
os.remove(test_img)
os.remove(check_img)
def image_verify(self):
self.assertEqual(image_size(test_img), image_size(check_img),
"Verifying image size")
self.image_check[iotests.imgfmt](self, test_img)
if iotests.imgfmt == 'raw':
return
self.assertEqual(qemu_img('check', test_img), 0,
"Verifying image corruption")
def test_empty_image(self):
qemu_img('resize', '-f', iotests.imgfmt, '--shrink', test_img,
self.shrink_size)
self.assertEqual(
qemu_io('-c', 'read -P 0x00 %s'%self.shrink_size, test_img),
qemu_io('-c', 'read -P 0x00 %s'%self.shrink_size, check_img),
"Verifying image content")
self.image_verify()
def test_sequential_write(self):
for offs in range(0, size_to_int(self.image_len),
size_to_int(self.chunk_size)):
qemu_io('-c', 'write -P 0xff %d %s' % (offs, self.chunk_size),
test_img)
qemu_img('resize', '-f', iotests.imgfmt, '--shrink', test_img,
self.shrink_size)
self.assertEqual(qemu_img("compare", test_img, check_img), 0,
"Verifying image content")
self.image_verify()
def test_random_write(self):
offs_list = list(range(0, size_to_int(self.image_len),
size_to_int(self.chunk_size)))
random.shuffle(offs_list)
for offs in offs_list:
qemu_io('-c', 'write -P 0xff %d %s' % (offs, self.chunk_size),
test_img)
qemu_img('resize', '-f', iotests.imgfmt, '--shrink', test_img,
self.shrink_size)
self.assertEqual(qemu_img("compare", test_img, check_img), 0,
"Verifying image content")
self.image_verify()
class TestShrink512(ShrinkBaseClass):
image_len = '3M'
shrink_size = '1M'
chunk_size = '256K'
cluster_size = '512'
refcount_bits = '64'
class TestShrink64K(ShrinkBaseClass):
cluster_size = '64K'
class TestShrink1M(ShrinkBaseClass):
cluster_size = '1M'
refcount_bits = '1'
ShrinkBaseClass = None
if __name__ == '__main__':
iotests.main(supported_fmts=['raw', 'qcow2'])