xref: /openbmc/qemu/tests/image-fuzzer/qcow2/fuzz.py (revision 228aa992)
1# Fuzzing functions for qcow2 fields
2#
3# Copyright (C) 2014 Maria Kustova <maria.k@catit.be>
4#
5# This program is free software: you can redistribute it and/or modify
6# it under the terms of the GNU General Public License as published by
7# the Free Software Foundation, either version 2 of the License, or
8# (at your option) any later version.
9#
10# This program is distributed in the hope that it will be useful,
11# but WITHOUT ANY WARRANTY; without even the implied warranty of
12# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
13# GNU General Public License for more details.
14#
15# You should have received a copy of the GNU General Public License
16# along with this program.  If not, see <http://www.gnu.org/licenses/>.
17#
18
19import random
20
21UINT8 = 0xff
22UINT16 = 0xffff
23UINT32 = 0xffffffff
24UINT64 = 0xffffffffffffffff
25# Most significant bit orders
26UINT32_M = 31
27UINT64_M = 63
28# Fuzz vectors
29UINT8_V = [0, 0x10, UINT8/4, UINT8/2 - 1, UINT8/2, UINT8/2 + 1, UINT8 - 1,
30           UINT8]
31UINT16_V = [0, 0x100, 0x1000, UINT16/4, UINT16/2 - 1, UINT16/2, UINT16/2 + 1,
32            UINT16 - 1, UINT16]
33UINT32_V = [0, 0x100, 0x1000, 0x10000, 0x100000, UINT32/4, UINT32/2 - 1,
34            UINT32/2, UINT32/2 + 1, UINT32 - 1, UINT32]
35UINT64_V = UINT32_V + [0x1000000, 0x10000000, 0x100000000, UINT64/4,
36                       UINT64/2 - 1, UINT64/2, UINT64/2 + 1, UINT64 - 1,
37                       UINT64]
38STRING_V = ['%s%p%x%d', '.1024d', '%.2049d', '%p%p%p%p', '%x%x%x%x',
39            '%d%d%d%d', '%s%s%s%s', '%99999999999s', '%08x', '%%20d', '%%20n',
40            '%%20x', '%%20s', '%s%s%s%s%s%s%s%s%s%s', '%p%p%p%p%p%p%p%p%p%p',
41            '%#0123456x%08x%x%s%p%d%n%o%u%c%h%l%q%j%z%Z%t%i%e%g%f%a%C%S%08x%%',
42            '%s x 129', '%x x 257']
43
44
45def random_from_intervals(intervals):
46    """Select a random integer number from the list of specified intervals.
47
48    Each interval is a tuple of lower and upper limits of the interval. The
49    limits are included. Intervals in a list should not overlap.
50    """
51    total = reduce(lambda x, y: x + y[1] - y[0] + 1, intervals, 0)
52    r = random.randint(0, total - 1) + intervals[0][0]
53    for x in zip(intervals, intervals[1:]):
54        r = r + (r > x[0][1]) * (x[1][0] - x[0][1] - 1)
55    return r
56
57
58def random_bits(bit_ranges):
59    """Generate random binary mask with ones in the specified bit ranges.
60
61    Each bit_ranges is a list of tuples of lower and upper limits of bit
62    positions will be fuzzed. The limits are included. Random amount of bits
63    in range limits will be set to ones. The mask is returned in decimal
64    integer format.
65    """
66    bit_numbers = []
67    # Select random amount of random positions in bit_ranges
68    for rng in bit_ranges:
69        bit_numbers += random.sample(range(rng[0], rng[1] + 1),
70                                     random.randint(0, rng[1] - rng[0] + 1))
71    val = 0
72    # Set bits on selected positions to ones
73    for bit in bit_numbers:
74        val |= 1 << bit
75    return val
76
77
78def truncate_string(strings, length):
79    """Return strings truncated to specified length."""
80    if type(strings) == list:
81        return [s[:length] for s in strings]
82    else:
83        return strings[:length]
84
85
86def validator(current, pick, choices):
87    """Return a value not equal to the current selected by the pick
88    function from choices.
89    """
90    while True:
91        val = pick(choices)
92        if not val == current:
93            return val
94
95
96def int_validator(current, intervals):
97    """Return a random value from intervals not equal to the current.
98
99    This function is useful for selection from valid values except current one.
100    """
101    return validator(current, random_from_intervals, intervals)
102
103
104def bit_validator(current, bit_ranges):
105    """Return a random bit mask not equal to the current.
106
107    This function is useful for selection from valid values except current one.
108    """
109    return validator(current, random_bits, bit_ranges)
110
111
112def string_validator(current, strings):
113    """Return a random string value from the list not equal to the current.
114
115    This function is useful for selection from valid values except current one.
116    """
117    return validator(current, random.choice, strings)
118
119
120def selector(current, constraints, validate=int_validator):
121    """Select one value from all defined by constraints.
122
123    Each constraint produces one random value satisfying to it. The function
124    randomly selects one value satisfying at least one constraint (depending on
125    constraints overlaps).
126    """
127    def iter_validate(c):
128        """Apply validate() only to constraints represented as lists.
129
130        This auxiliary function replaces short circuit conditions not supported
131        in Python 2.4
132        """
133        if type(c) == list:
134            return validate(current, c)
135        else:
136            return c
137
138    fuzz_values = [iter_validate(c) for c in constraints]
139    # Remove current for cases it's implicitly specified in constraints
140    # Duplicate validator functionality to prevent decreasing of probability
141    # to get one of allowable values
142    # TODO: remove validators after implementation of intelligent selection
143    # of fields will be fuzzed
144    try:
145        fuzz_values.remove(current)
146    except ValueError:
147        pass
148    return random.choice(fuzz_values)
149
150
151def magic(current):
152    """Fuzz magic header field.
153
154    The function just returns the current magic value and provides uniformity
155    of calls for all fuzzing functions.
156    """
157    return current
158
159
160def version(current):
161    """Fuzz version header field."""
162    constraints = UINT32_V + [
163        [(2, 3)],  # correct values
164        [(0, 1), (4, UINT32)]
165    ]
166    return selector(current, constraints)
167
168
169def backing_file_offset(current):
170    """Fuzz backing file offset header field."""
171    constraints = UINT64_V
172    return selector(current, constraints)
173
174
175def backing_file_size(current):
176    """Fuzz backing file size header field."""
177    constraints = UINT32_V
178    return selector(current, constraints)
179
180
181def cluster_bits(current):
182    """Fuzz cluster bits header field."""
183    constraints = UINT32_V + [
184        [(9, 20)],  # correct values
185        [(0, 9), (20, UINT32)]
186    ]
187    return selector(current, constraints)
188
189
190def size(current):
191    """Fuzz image size header field."""
192    constraints = UINT64_V
193    return selector(current, constraints)
194
195
196def crypt_method(current):
197    """Fuzz crypt method header field."""
198    constraints = UINT32_V + [
199        1,
200        [(2, UINT32)]
201    ]
202    return selector(current, constraints)
203
204
205def l1_size(current):
206    """Fuzz L1 table size header field."""
207    constraints = UINT32_V
208    return selector(current, constraints)
209
210
211def l1_table_offset(current):
212    """Fuzz L1 table offset header field."""
213    constraints = UINT64_V
214    return selector(current, constraints)
215
216
217def refcount_table_offset(current):
218    """Fuzz refcount table offset header field."""
219    constraints = UINT64_V
220    return selector(current, constraints)
221
222
223def refcount_table_clusters(current):
224    """Fuzz refcount table clusters header field."""
225    constraints = UINT32_V
226    return selector(current, constraints)
227
228
229def nb_snapshots(current):
230    """Fuzz number of snapshots header field."""
231    constraints = UINT32_V
232    return selector(current, constraints)
233
234
235def snapshots_offset(current):
236    """Fuzz snapshots offset header field."""
237    constraints = UINT64_V
238    return selector(current, constraints)
239
240
241def incompatible_features(current):
242    """Fuzz incompatible features header field."""
243    constraints = [
244        [(0, 1)],  # allowable values
245        [(0, UINT64_M)]
246    ]
247    return selector(current, constraints, bit_validator)
248
249
250def compatible_features(current):
251    """Fuzz compatible features header field."""
252    constraints = [
253        [(0, UINT64_M)]
254    ]
255    return selector(current, constraints, bit_validator)
256
257
258def autoclear_features(current):
259    """Fuzz autoclear features header field."""
260    constraints = [
261        [(0, UINT64_M)]
262    ]
263    return selector(current, constraints, bit_validator)
264
265
266def refcount_order(current):
267    """Fuzz number of refcount order header field."""
268    constraints = UINT32_V
269    return selector(current, constraints)
270
271
272def header_length(current):
273    """Fuzz number of refcount order header field."""
274    constraints = UINT32_V + [
275        72,
276        104,
277        [(0, UINT32)]
278    ]
279    return selector(current, constraints)
280
281
282def bf_name(current):
283    """Fuzz the backing file name."""
284    constraints = [
285        truncate_string(STRING_V, len(current))
286    ]
287    return selector(current, constraints, string_validator)
288
289
290def ext_magic(current):
291    """Fuzz magic field of a header extension."""
292    constraints = UINT32_V
293    return selector(current, constraints)
294
295
296def ext_length(current):
297    """Fuzz length field of a header extension."""
298    constraints = UINT32_V
299    return selector(current, constraints)
300
301
302def bf_format(current):
303    """Fuzz backing file format in the corresponding header extension."""
304    constraints = [
305        truncate_string(STRING_V, len(current)),
306        truncate_string(STRING_V, (len(current) + 7) & ~7)  # Fuzz padding
307    ]
308    return selector(current, constraints, string_validator)
309
310
311def feature_type(current):
312    """Fuzz feature type field of a feature name table header extension."""
313    constraints = UINT8_V
314    return selector(current, constraints)
315
316
317def feature_bit_number(current):
318    """Fuzz bit number field of a feature name table header extension."""
319    constraints = UINT8_V
320    return selector(current, constraints)
321
322
323def feature_name(current):
324    """Fuzz feature name field of a feature name table header extension."""
325    constraints = [
326        truncate_string(STRING_V, len(current)),
327        truncate_string(STRING_V, 46)  # Fuzz padding (field length = 46)
328    ]
329    return selector(current, constraints, string_validator)
330
331
332def l1_entry(current):
333    """Fuzz an entry of the L1 table."""
334    constraints = UINT64_V
335    # Reserved bits are ignored
336    # Added a possibility when only flags are fuzzed
337    offset = 0x7fffffffffffffff & \
338             random.choice([selector(current, constraints), current])
339    is_cow = random.randint(0, 1)
340    return offset + (is_cow << UINT64_M)
341
342
343def l2_entry(current):
344    """Fuzz an entry of an L2 table."""
345    constraints = UINT64_V
346    # Reserved bits are ignored
347    # Add a possibility when only flags are fuzzed
348    offset = 0x3ffffffffffffffe & \
349             random.choice([selector(current, constraints), current])
350    is_compressed = random.randint(0, 1)
351    is_cow = random.randint(0, 1)
352    is_zero = random.randint(0, 1)
353    value = offset + (is_cow << UINT64_M) + \
354            (is_compressed << UINT64_M - 1) + is_zero
355    return value
356
357
358def refcount_table_entry(current):
359    """Fuzz an entry of the refcount table."""
360    constraints = UINT64_V
361    return selector(current, constraints)
362
363
364def refcount_block_entry(current):
365    """Fuzz an entry of a refcount block."""
366    constraints = UINT16_V
367    return selector(current, constraints)
368