diff options
Diffstat (limited to 'tests/image-fuzzer')
-rw-r--r-- | tests/image-fuzzer/qcow2/layout.py | 255 |
1 files changed, 190 insertions, 65 deletions
diff --git a/tests/image-fuzzer/qcow2/layout.py b/tests/image-fuzzer/qcow2/layout.py index 4c08202c3d..deed9ea96e 100644 --- a/tests/image-fuzzer/qcow2/layout.py +++ b/tests/image-fuzzer/qcow2/layout.py @@ -19,6 +19,8 @@ import random import struct import fuzz +from math import ceil +from os import urandom MAX_IMAGE_SIZE = 10 * (1 << 20) # Standard sizes @@ -102,7 +104,66 @@ class Image(object): return (cluster_bits, img_size) @staticmethod - def _header(cluster_bits, img_size, backing_file_name=None): + def _get_available_clusters(used, number): + """Return a set of indices of not allocated clusters. + + 'used' contains indices of currently allocated clusters. + All clusters that cannot be allocated between 'used' clusters will have + indices appended to the end of 'used'. + """ + append_id = max(used) + 1 + free = set(range(1, append_id)) - used + if len(free) >= number: + return set(random.sample(free, number)) + else: + return free | set(range(append_id, append_id + number - len(free))) + + @staticmethod + def _get_adjacent_clusters(used, size): + """Return an index of the first cluster in the sequence of free ones. + + 'used' contains indices of currently allocated clusters. 'size' is the + length of the sequence of free clusters. + If the sequence of 'size' is not available between 'used' clusters, its + first index will be append to the end of 'used'. + """ + def get_cluster_id(lst, length): + """Return the first index of the sequence of the specified length + or None if the sequence cannot be inserted in the list. + """ + if len(lst) != 0: + pairs = [] + pair = (lst[0], 1) + for i in range(1, len(lst)): + if lst[i] == lst[i-1] + 1: + pair = (lst[i], pair[1] + 1) + else: + pairs.append(pair) + pair = (lst[i], 1) + pairs.append(pair) + random.shuffle(pairs) + for x, s in pairs: + if s >= length: + return x - length + 1 + return None + + append_id = max(used) + 1 + free = list(set(range(1, append_id)) - used) + idx = get_cluster_id(free, size) + if idx is None: + return append_id + else: + return idx + + @staticmethod + def _alloc_data(img_size, cluster_size): + """Return a set of random indices of clusters allocated for guest data. + """ + num_of_cls = img_size/cluster_size + return set(random.sample(range(1, num_of_cls + 1), + random.randint(0, num_of_cls))) + + def create_header(self, cluster_bits, backing_file_name=None): """Generate a random valid header.""" meta_header = [ ['>4s', 0, "QFI\xfb", 'magic'], @@ -110,7 +171,7 @@ class Image(object): ['>Q', 8, 0, 'backing_file_offset'], ['>I', 16, 0, 'backing_file_size'], ['>I', 20, cluster_bits, 'cluster_bits'], - ['>Q', 24, img_size, 'size'], + ['>Q', 24, self.image_size, 'size'], ['>I', 32, 0, 'crypt_method'], ['>I', 36, 0, 'l1_size'], ['>Q', 40, 0, 'l1_table_offset'], @@ -126,63 +187,59 @@ class Image(object): ['>I', 96, 4, 'refcount_order'], ['>I', 100, 0, 'header_length'] ] - v_header = FieldsList(meta_header) + self.header = FieldsList(meta_header) - if v_header['version'][0].value == 2: - v_header['header_length'][0].value = 72 + if self.header['version'][0].value == 2: + self.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 + self.header['incompatible_features'][0].value = \ + random.getrandbits(2) + self.header['compatible_features'][0].value = random.getrandbits(1) + self.header['header_length'][0].value = 104 + + max_header_len = struct.calcsize( + self.header['header_length'][0].fmt) + \ + self.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) + free_space = self.cluster_size - 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 + self.header['backing_file_size'][0].value = len(backing_file_name) + self.header['backing_file_offset'][0].value = \ + self.cluster_size - len(backing_file_name) - @staticmethod - def _backing_file_name(header, backing_file_name=None): + def set_backing_file_name(self, 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): + (not self.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, + self.backing_file_name = FieldsList([ + [data_fmt, self.header['backing_file_offset'][0].value, backing_file_name, 'bf_name'] ]) else: - data_field = FieldsList() + self.backing_file_name = FieldsList() - return data_field - - @staticmethod - def _backing_file_format(header, backing_file_fmt=None): + def set_backing_file_format(self, 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 + self.backing_file_format = FieldsList() + offset = struct.calcsize(self.header['header_length'][0].fmt) + \ + self.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)) - \ + high_border = (self.header['backing_file_offset'][0].value or + (self.cluster_size - 1)) - \ end_of_extension_area_len free_space = high_border - offset ext_size = 2 * UINT32_S + ((len(backing_file_fmt) + 7) & ~7) @@ -191,19 +248,19 @@ class Image(object): 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([ + self.backing_file_format = 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) + offset = self.backing_file_format['bf_format'][0].offset + \ + struct.calcsize(self.backing_file_format[ + 'bf_format'][0].fmt) + ext_padding_len - @staticmethod - def _feature_name_table(header, offset): + return offset + + def create_feature_name_table(self, offset): """Generate a random header extension for names of features used in the image. """ @@ -212,8 +269,8 @@ class Image(object): 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) - \ + high_border = (self.header['backing_file_offset'][0].value or + (self.cluster_size - 1)) - \ end_of_extension_area_len free_space = high_border - offset # Sum of sizes of 'magic' and 'length' header extension fields @@ -243,7 +300,7 @@ class Image(object): inner_offset += fnt_entry_size # No padding for the extension is necessary, because # the extension length is multiple of 8 - ext = FieldsList([ + self.feature_name_table = 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, @@ -251,39 +308,101 @@ class Image(object): ] + feature_tables) offset = inner_offset else: - ext = FieldsList() + self.feature_name_table = FieldsList() - return (ext, offset) + return offset - @staticmethod - def _end_of_extension_area(offset): + def set_end_of_extension_area(self, offset): """Generate a mandatory header extension marking end of header extensions. """ - ext = FieldsList([ + self.end_of_extension_area = FieldsList([ ['>I', offset, 0, 'ext_magic'], ['>I', offset + UINT32_S, 0, 'ext_length'] ]) - return ext + + def create_l_structures(self): + """Generate random valid L1 and L2 tables.""" + def create_l2_entry(host, guest, l2_cluster): + """Generate one L2 entry.""" + offset = l2_cluster * self.cluster_size + l2_size = self.cluster_size / UINT64_S + entry_offset = offset + UINT64_S * (guest % l2_size) + cluster_descriptor = host * self.cluster_size + if not self.header['version'][0].value == 2: + cluster_descriptor += random.randint(0, 1) + # While snapshots are not supported, bit #63 = 1 + # Compressed clusters are not supported => bit #62 = 0 + entry_val = (1 << 63) + cluster_descriptor + return ['>Q', entry_offset, entry_val, 'l2_entry'] + + def create_l1_entry(l2_cluster, l1_offset, guest): + """Generate one L1 entry.""" + l2_size = self.cluster_size / UINT64_S + entry_offset = l1_offset + UINT64_S * (guest / l2_size) + # While snapshots are not supported bit #63 = 1 + entry_val = (1 << 63) + l2_cluster * self.cluster_size + return ['>Q', entry_offset, entry_val, 'l1_entry'] + + if len(self.data_clusters) == 0: + # All metadata for an empty guest image needs 4 clusters: + # header, rfc table, rfc block, L1 table. + # Header takes cluster #0, other clusters ##1-3 can be used + l1_offset = random.randint(1, 3) * self.cluster_size + l1 = [['>Q', l1_offset, 0, 'l1_entry']] + l2 = [] + else: + meta_data = set([0]) + guest_clusters = random.sample(range(self.image_size / + self.cluster_size), + len(self.data_clusters)) + # Number of entries in a L1/L2 table + l_size = self.cluster_size / UINT64_S + # Number of clusters necessary for L1 table + l1_size = int(ceil((max(guest_clusters) + 1) / float(l_size**2))) + l1_start = self._get_adjacent_clusters(self.data_clusters | + meta_data, l1_size) + meta_data |= set(range(l1_start, l1_start + l1_size)) + l1_offset = l1_start * self.cluster_size + # Indices of L2 tables + l2_ids = [] + # Host clusters allocated for L2 tables + l2_clusters = [] + # L1 entries + l1 = [] + # L2 entries + l2 = [] + for host, guest in zip(self.data_clusters, guest_clusters): + l2_id = guest / l_size + if l2_id not in l2_ids: + l2_ids.append(l2_id) + l2_clusters.append(self._get_adjacent_clusters( + self.data_clusters | meta_data | set(l2_clusters), + 1)) + l1.append(create_l1_entry(l2_clusters[-1], l1_offset, + guest)) + l2.append(create_l2_entry(host, guest, + l2_clusters[l2_ids.index(l2_id)])) + self.l2_tables = FieldsList(l2) + self.l1_table = FieldsList(l1) + self.header['l1_size'][0].value = int(ceil(UINT64_S * self.image_size / + float(self.cluster_size**2))) + self.header['l1_table_offset'][0].value = l1_offset 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) + self.create_header(cluster_bits, backing_file_name) + self.set_backing_file_name(backing_file_name) + offset = self.set_backing_file_format(backing_file_fmt) + offset = self.create_feature_name_table(offset) + self.set_end_of_extension_area(offset) + self.data_clusters = self._alloc_data(self.image_size, + self.cluster_size) + self.create_l_structures() # Container for entire image self.data = FieldsList() # Percentage of fields will be fuzzed @@ -294,7 +413,9 @@ class Image(object): self.backing_file_format, self.feature_name_table, self.end_of_extension_area, - self.backing_file_name]) + self.backing_file_name, + self.l1_table, + self.l2_tables]) def _join(self): """Join all image structure elements as header, tables, etc in one @@ -339,9 +460,7 @@ class Image(object): 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 + # their prerequisites pass def write(self, filename): @@ -351,6 +470,12 @@ class Image(object): for field in self.data: image_file.seek(field.offset) image_file.write(struct.pack(field.fmt, field.value)) + + for cluster in sorted(self.data_clusters): + image_file.seek(cluster * self.cluster_size) + image_file.write(urandom(self.cluster_size)) + + # Align the real image size to the cluster size image_file.seek(0, 2) size = image_file.tell() rounded = (size + self.cluster_size - 1) & ~(self.cluster_size - 1) |