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authorMaria Kustova2014-08-11 12:34:01 +0200
committerStefan Hajnoczi2014-08-15 19:03:14 +0200
commite123232331305fce0c69a3fb170d3f5d8003abf4 (patch)
tree894f6638adbaed5ecb8c4607751a6ae7d12bc269 /tests/image-fuzzer
parentimage-fuzzer: Fuzzing functions for qcow2 images (diff)
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image-fuzzer: Generator of fuzzed qcow2 images
The layout submodule of the qcow2 package creates a random valid image, randomly selects some amount of its fields, fuzzes them and write the fuzzed image to the file. Fuzzing process can be controlled by an external configuration. Reviewed-by: Stefan Hajnoczi <stefanha@redhat.com> Signed-off-by: Maria Kustova <maria.k@catit.be> Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com>
Diffstat (limited to 'tests/image-fuzzer')
-rw-r--r--tests/image-fuzzer/qcow2/layout.py369
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diff --git a/tests/image-fuzzer/qcow2/layout.py b/tests/image-fuzzer/qcow2/layout.py
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+++ b/tests/image-fuzzer/qcow2/layout.py
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+# Generator of fuzzed qcow2 images
+#
+# Copyright (C) 2014 Maria Kustova <maria.k@catit.be>
+#
+# 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 random
+import struct
+import fuzz
+
+MAX_IMAGE_SIZE = 10 * (1 << 20)
+# Standard sizes
+UINT32_S = 4
+UINT64_S = 8
+
+
+class Field(object):
+
+ """Atomic image element (field).
+
+ The class represents an image field as quadruple of a data format
+ of value necessary for its packing to binary form, an offset from
+ the beginning of the image, a value and a name.
+
+ The field can be iterated as a list [format, offset, value].
+ """
+
+ __slots__ = ('fmt', 'offset', 'value', 'name')
+
+ def __init__(self, fmt, offset, val, name):
+ self.fmt = fmt
+ self.offset = offset
+ self.value = val
+ self.name = name
+
+ def __iter__(self):
+ return iter([self.fmt, self.offset, self.value])
+
+ def __repr__(self):
+ return "Field(fmt='%s', offset=%d, value=%s, name=%s)" % \
+ (self.fmt, self.offset, str(self.value), self.name)
+
+
+class FieldsList(object):
+
+ """List of fields.
+
+ The class allows access to a field in the list by its name and joins
+ several list in one via in-place addition.
+ """
+
+ def __init__(self, meta_data=None):
+ if meta_data is None:
+ self.data = []
+ else:
+ self.data = [Field(f[0], f[1], f[2], f[3])
+ for f in meta_data]
+
+ def __getitem__(self, name):
+ return [x for x in self.data if x.name == name]
+
+ def __iter__(self):
+ return iter(self.data)
+
+ def __iadd__(self, other):
+ self.data += other.data
+ return self
+
+ def __len__(self):
+ return len(self.data)
+
+
+class Image(object):
+
+ """ Qcow2 image object.
+
+ This class allows to create qcow2 images with random valid structures and
+ values, fuzz them via external qcow2.fuzz module and write the result to
+ a file.
+ """
+
+ @staticmethod
+ def _size_params():
+ """Generate a random image size aligned to a random correct
+ cluster size.
+ """
+ cluster_bits = random.randrange(9, 21)
+ cluster_size = 1 << cluster_bits
+ img_size = random.randrange(0, MAX_IMAGE_SIZE + 1, cluster_size)
+ return (cluster_bits, img_size)
+
+ @staticmethod
+ def _header(cluster_bits, img_size, backing_file_name=None):
+ """Generate a random valid header."""
+ meta_header = [
+ ['>4s', 0, "QFI\xfb", 'magic'],
+ ['>I', 4, random.randint(2, 3), 'version'],
+ ['>Q', 8, 0, 'backing_file_offset'],
+ ['>I', 16, 0, 'backing_file_size'],
+ ['>I', 20, cluster_bits, 'cluster_bits'],
+ ['>Q', 24, img_size, 'size'],
+ ['>I', 32, 0, 'crypt_method'],
+ ['>I', 36, 0, 'l1_size'],
+ ['>Q', 40, 0, 'l1_table_offset'],
+ ['>Q', 48, 0, 'refcount_table_offset'],
+ ['>I', 56, 0, 'refcount_table_clusters'],
+ ['>I', 60, 0, 'nb_snapshots'],
+ ['>Q', 64, 0, 'snapshots_offset'],
+ ['>Q', 72, 0, 'incompatible_features'],
+ ['>Q', 80, 0, 'compatible_features'],
+ ['>Q', 88, 0, 'autoclear_features'],
+ # Only refcount_order = 4 is supported by current (07.2014)
+ # implementation of QEMU
+ ['>I', 96, 4, 'refcount_order'],
+ ['>I', 100, 0, 'header_length']
+ ]
+ v_header = FieldsList(meta_header)
+
+ if v_header['version'][0].value == 2:
+ v_header['header_length'][0].value = 72
+ else:
+ v_header['incompatible_features'][0].value = random.getrandbits(2)
+ v_header['compatible_features'][0].value = random.getrandbits(1)
+ v_header['header_length'][0].value = 104
+
+ max_header_len = struct.calcsize(v_header['header_length'][0].fmt) + \
+ v_header['header_length'][0].offset
+ end_of_extension_area_len = 2 * UINT32_S
+ free_space = (1 << cluster_bits) - (max_header_len +
+ end_of_extension_area_len)
+ # If the backing file name specified and there is enough space for it
+ # in the first cluster, then it's placed in the very end of the first
+ # cluster.
+ if (backing_file_name is not None) and \
+ (free_space >= len(backing_file_name)):
+ v_header['backing_file_size'][0].value = len(backing_file_name)
+ v_header['backing_file_offset'][0].value = (1 << cluster_bits) - \
+ len(backing_file_name)
+
+ return v_header
+
+ @staticmethod
+ def _backing_file_name(header, backing_file_name=None):
+ """Add the name of the backing file at the offset specified
+ in the header.
+ """
+ if (backing_file_name is not None) and \
+ (not header['backing_file_offset'][0].value == 0):
+ data_len = len(backing_file_name)
+ data_fmt = '>' + str(data_len) + 's'
+ data_field = FieldsList([
+ [data_fmt, header['backing_file_offset'][0].value,
+ backing_file_name, 'bf_name']
+ ])
+ else:
+ data_field = FieldsList()
+
+ return data_field
+
+ @staticmethod
+ def _backing_file_format(header, backing_file_fmt=None):
+ """Generate the header extension for the backing file
+ format.
+ """
+ ext = FieldsList()
+ offset = struct.calcsize(header['header_length'][0].fmt) + \
+ header['header_length'][0].offset
+
+ if backing_file_fmt is not None:
+ # Calculation of the free space available in the first cluster
+ end_of_extension_area_len = 2 * UINT32_S
+ high_border = (header['backing_file_offset'][0].value or
+ ((1 << header['cluster_bits'][0].value) - 1)) - \
+ end_of_extension_area_len
+ free_space = high_border - offset
+ ext_size = 2 * UINT32_S + ((len(backing_file_fmt) + 7) & ~7)
+
+ if free_space >= ext_size:
+ ext_data_len = len(backing_file_fmt)
+ ext_data_fmt = '>' + str(ext_data_len) + 's'
+ ext_padding_len = 7 - (ext_data_len - 1) % 8
+ ext = FieldsList([
+ ['>I', offset, 0xE2792ACA, 'ext_magic'],
+ ['>I', offset + UINT32_S, ext_data_len, 'ext_length'],
+ [ext_data_fmt, offset + UINT32_S * 2, backing_file_fmt,
+ 'bf_format']
+ ])
+ offset = ext['bf_format'][0].offset + \
+ struct.calcsize(ext['bf_format'][0].fmt) + \
+ ext_padding_len
+ return (ext, offset)
+
+ @staticmethod
+ def _feature_name_table(header, offset):
+ """Generate a random header extension for names of features used in
+ the image.
+ """
+ def gen_feat_ids():
+ """Return random feature type and feature bit."""
+ return (random.randint(0, 2), random.randint(0, 63))
+
+ end_of_extension_area_len = 2 * UINT32_S
+ high_border = (header['backing_file_offset'][0].value or
+ (1 << header['cluster_bits'][0].value) - 1) - \
+ end_of_extension_area_len
+ free_space = high_border - offset
+ # Sum of sizes of 'magic' and 'length' header extension fields
+ ext_header_len = 2 * UINT32_S
+ fnt_entry_size = 6 * UINT64_S
+ num_fnt_entries = min(10, (free_space - ext_header_len) /
+ fnt_entry_size)
+ if not num_fnt_entries == 0:
+ feature_tables = []
+ feature_ids = []
+ inner_offset = offset + ext_header_len
+ feat_name = 'some cool feature'
+ while len(feature_tables) < num_fnt_entries * 3:
+ feat_type, feat_bit = gen_feat_ids()
+ # Remove duplicates
+ while (feat_type, feat_bit) in feature_ids:
+ feat_type, feat_bit = gen_feat_ids()
+ feature_ids.append((feat_type, feat_bit))
+ feat_fmt = '>' + str(len(feat_name)) + 's'
+ feature_tables += [['B', inner_offset,
+ feat_type, 'feature_type'],
+ ['B', inner_offset + 1, feat_bit,
+ 'feature_bit_number'],
+ [feat_fmt, inner_offset + 2,
+ feat_name, 'feature_name']
+ ]
+ inner_offset += fnt_entry_size
+ # No padding for the extension is necessary, because
+ # the extension length is multiple of 8
+ ext = FieldsList([
+ ['>I', offset, 0x6803f857, 'ext_magic'],
+ # One feature table contains 3 fields and takes 48 bytes
+ ['>I', offset + UINT32_S, len(feature_tables) / 3 * 48,
+ 'ext_length']
+ ] + feature_tables)
+ offset = inner_offset
+ else:
+ ext = FieldsList()
+
+ return (ext, offset)
+
+ @staticmethod
+ def _end_of_extension_area(offset):
+ """Generate a mandatory header extension marking end of header
+ extensions.
+ """
+ ext = FieldsList([
+ ['>I', offset, 0, 'ext_magic'],
+ ['>I', offset + UINT32_S, 0, 'ext_length']
+ ])
+ return ext
+
+ def __init__(self, backing_file_name=None, backing_file_fmt=None):
+ """Create a random valid qcow2 image with the correct inner structure
+ and allowable values.
+ """
+ # Image size is saved as an attribute for the runner needs
+ cluster_bits, self.image_size = self._size_params()
+ # Saved as an attribute, because it's necessary for writing
+ self.cluster_size = 1 << cluster_bits
+ self.header = self._header(cluster_bits, self.image_size,
+ backing_file_name)
+ self.backing_file_name = self._backing_file_name(self.header,
+ backing_file_name)
+ self.backing_file_format, \
+ offset = self._backing_file_format(self.header,
+ backing_file_fmt)
+ self.feature_name_table, \
+ offset = self._feature_name_table(self.header, offset)
+ self.end_of_extension_area = self._end_of_extension_area(offset)
+ # Container for entire image
+ self.data = FieldsList()
+ # Percentage of fields will be fuzzed
+ self.bias = random.uniform(0.2, 0.5)
+
+ def __iter__(self):
+ return iter([self.header,
+ self.backing_file_format,
+ self.feature_name_table,
+ self.end_of_extension_area,
+ self.backing_file_name])
+
+ def _join(self):
+ """Join all image structure elements as header, tables, etc in one
+ list of fields.
+ """
+ if len(self.data) == 0:
+ for v in self:
+ self.data += v
+
+ def fuzz(self, fields_to_fuzz=None):
+ """Fuzz an image by corrupting values of a random subset of its fields.
+
+ Without parameters the method fuzzes an entire image.
+ If 'fields_to_fuzz' is specified then only fields in this list will be
+ fuzzed. 'fields_to_fuzz' can contain both individual fields and more
+ general image elements as a header or tables.
+ In the first case the field will be fuzzed always.
+ In the second a random subset of fields will be selected and fuzzed.
+ """
+ def coin():
+ """Return boolean value proportional to a portion of fields to be
+ fuzzed.
+ """
+ return random.random() < self.bias
+
+ if fields_to_fuzz is None:
+ self._join()
+ for field in self.data:
+ if coin():
+ field.value = getattr(fuzz, field.name)(field.value)
+ else:
+ for item in fields_to_fuzz:
+ if len(item) == 1:
+ for field in getattr(self, item[0]):
+ if coin():
+ field.value = getattr(fuzz,
+ field.name)(field.value)
+ else:
+ for field in getattr(self, item[0])[item[1]]:
+ try:
+ field.value = getattr(fuzz, field.name)(
+ field.value)
+ except AttributeError:
+ # Some fields can be skipped depending on
+ # references, e.g. FNT header extension is not
+ # generated for a feature mask header field
+ # equal to zero
+ pass
+
+ def write(self, filename):
+ """Write an entire image to the file."""
+ image_file = open(filename, 'w')
+ self._join()
+ for field in self.data:
+ image_file.seek(field.offset)
+ image_file.write(struct.pack(field.fmt, field.value))
+ image_file.seek(0, 2)
+ size = image_file.tell()
+ rounded = (size + self.cluster_size - 1) & ~(self.cluster_size - 1)
+ if rounded > size:
+ image_file.seek(rounded - 1)
+ image_file.write("\0")
+ image_file.close()
+
+
+def create_image(test_img_path, backing_file_name=None, backing_file_fmt=None,
+ fields_to_fuzz=None):
+ """Create a fuzzed image and write it to the specified file."""
+ image = Image(backing_file_name, backing_file_fmt)
+ image.fuzz(fields_to_fuzz)
+ image.write(test_img_path)
+ return image.image_size