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author | Eduardo Habkost <ehabkost@redhat.com> | 2019-10-16 16:24:23 -0300 |
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committer | Stefan Hajnoczi <stefanha@redhat.com> | 2019-11-05 16:35:06 +0100 |
commit | d974451c5bc9a0bdf07a8299edf75c0f66a86e04 (patch) | |
tree | 3d2af15c3244b0b35c3ad8bb3354752097880c19 /tests | |
parent | c314e50b8ace8a66b732f3541d58b2592d4427a9 (diff) | |
download | qemu-d974451c5bc9a0bdf07a8299edf75c0f66a86e04.zip qemu-d974451c5bc9a0bdf07a8299edf75c0f66a86e04.tar.gz qemu-d974451c5bc9a0bdf07a8299edf75c0f66a86e04.tar.bz2 |
image-fuzzer: Explicitly use integer division operator
Most of the division expressions in image-fuzzer assume integer
division. Use the // operator to keep the same behavior when we
move to Python 3.
Signed-off-by: Eduardo Habkost <ehabkost@redhat.com>
Reviewed-by: John Snow <jsnow@redhat.com>
Reviewed-by: Philippe Mathieu-Daudé <philmd@redhat.com>
Message-id: 20191016192430.25098-4-ehabkost@redhat.com
Message-Id: <20191016192430.25098-4-ehabkost@redhat.com>
Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com>
Diffstat (limited to 'tests')
-rw-r--r-- | tests/image-fuzzer/qcow2/fuzz.py | 12 | ||||
-rw-r--r-- | tests/image-fuzzer/qcow2/layout.py | 40 |
2 files changed, 26 insertions, 26 deletions
diff --git a/tests/image-fuzzer/qcow2/fuzz.py b/tests/image-fuzzer/qcow2/fuzz.py index abc4f06..154dc06 100644 --- a/tests/image-fuzzer/qcow2/fuzz.py +++ b/tests/image-fuzzer/qcow2/fuzz.py @@ -27,14 +27,14 @@ UINT64 = 0xffffffffffffffff UINT32_M = 31 UINT64_M = 63 # Fuzz vectors -UINT8_V = [0, 0x10, UINT8/4, UINT8/2 - 1, UINT8/2, UINT8/2 + 1, UINT8 - 1, +UINT8_V = [0, 0x10, UINT8//4, UINT8//2 - 1, UINT8//2, UINT8//2 + 1, UINT8 - 1, UINT8] -UINT16_V = [0, 0x100, 0x1000, UINT16/4, UINT16/2 - 1, UINT16/2, UINT16/2 + 1, +UINT16_V = [0, 0x100, 0x1000, UINT16//4, UINT16//2 - 1, UINT16//2, UINT16//2 + 1, UINT16 - 1, UINT16] -UINT32_V = [0, 0x100, 0x1000, 0x10000, 0x100000, UINT32/4, UINT32/2 - 1, - UINT32/2, UINT32/2 + 1, UINT32 - 1, UINT32] -UINT64_V = UINT32_V + [0x1000000, 0x10000000, 0x100000000, UINT64/4, - UINT64/2 - 1, UINT64/2, UINT64/2 + 1, UINT64 - 1, +UINT32_V = [0, 0x100, 0x1000, 0x10000, 0x100000, UINT32//4, UINT32//2 - 1, + UINT32//2, UINT32//2 + 1, UINT32 - 1, UINT32] +UINT64_V = UINT32_V + [0x1000000, 0x10000000, 0x100000000, UINT64//4, + UINT64//2 - 1, UINT64//2, UINT64//2 + 1, UINT64 - 1, UINT64] STRING_V = ['%s%p%x%d', '.1024d', '%.2049d', '%p%p%p%p', '%x%x%x%x', '%d%d%d%d', '%s%s%s%s', '%99999999999s', '%08x', '%%20d', '%%20n', diff --git a/tests/image-fuzzer/qcow2/layout.py b/tests/image-fuzzer/qcow2/layout.py index fe273d4..6501c9f 100644 --- a/tests/image-fuzzer/qcow2/layout.py +++ b/tests/image-fuzzer/qcow2/layout.py @@ -253,7 +253,7 @@ class Image(object): ['>I', self.ext_offset, 0x6803f857, 'ext_magic'], # One feature table contains 3 fields and takes 48 bytes ['>I', self.ext_offset + UINT32_S, - len(feature_tables) / 3 * 48, 'ext_length'] + len(feature_tables) // 3 * 48, 'ext_length'] ] + feature_tables) self.ext_offset = inner_offset @@ -271,7 +271,7 @@ class Image(object): 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 + 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: @@ -283,8 +283,8 @@ class Image(object): 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) + 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'] @@ -298,11 +298,11 @@ class Image(object): l2 = [] else: meta_data = self._get_metadata() - guest_clusters = random.sample(range(self.image_size / + 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 + 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 | @@ -318,7 +318,7 @@ class Image(object): # L2 entries l2 = [] for host, guest in zip(self.data_clusters, guest_clusters): - l2_id = guest / l_size + l2_id = guest // l_size if l2_id not in l2_ids: l2_ids.append(l2_id) l2_clusters.append(self._get_adjacent_clusters( @@ -339,14 +339,14 @@ class Image(object): def allocate_rfc_blocks(data, size): """Return indices of clusters allocated for refcount blocks.""" cluster_ids = set() - diff = block_ids = set([x / size for x in data]) + diff = block_ids = set([x // size for x in data]) while len(diff) != 0: # Allocate all yet not allocated clusters new = self._get_available_clusters(data | cluster_ids, len(diff)) # Indices of new refcount blocks necessary to cover clusters # in 'new' - diff = set([x / size for x in new]) - block_ids + diff = set([x // size for x in new]) - block_ids cluster_ids |= new block_ids |= diff return cluster_ids, block_ids @@ -359,7 +359,7 @@ class Image(object): blocks = set(init_blocks) clusters = set() # Number of entries in one cluster of the refcount table - size = self.cluster_size / UINT64_S + size = self.cluster_size // UINT64_S # Number of clusters necessary for the refcount table based on # the current number of refcount blocks table_size = int(ceil((max(blocks) + 1) / float(size))) @@ -373,7 +373,7 @@ class Image(object): table_size + 1)) # New refcount blocks necessary for clusters occupied by the # refcount table - diff = set([c / block_size for c in table_clusters]) - blocks + diff = set([c // block_size for c in table_clusters]) - blocks blocks |= diff while len(diff) != 0: # Allocate clusters for new refcount blocks @@ -382,12 +382,12 @@ class Image(object): len(diff)) # Indices of new refcount blocks necessary to cover # clusters in 'new' - diff = set([x / block_size for x in new]) - blocks + diff = set([x // block_size for x in new]) - blocks clusters |= new blocks |= diff # Check if the refcount table needs one more cluster if int(ceil((max(blocks) + 1) / float(size))) > table_size: - new_block_id = (table_start + table_size) / block_size + new_block_id = (table_start + table_size) // block_size # Check if the additional table cluster needs # one more refcount block if new_block_id not in blocks: @@ -399,13 +399,13 @@ class Image(object): def create_table_entry(table_offset, block_cluster, block_size, cluster): """Generate a refcount table entry.""" - offset = table_offset + UINT64_S * (cluster / block_size) + offset = table_offset + UINT64_S * (cluster // block_size) return ['>Q', offset, block_cluster * self.cluster_size, 'refcount_table_entry'] def create_block_entry(block_cluster, block_size, cluster): """Generate a list of entries for the current block.""" - entry_size = self.cluster_size / block_size + entry_size = self.cluster_size // block_size offset = block_cluster * self.cluster_size entry_offset = offset + entry_size * (cluster % block_size) # While snapshots are not supported all refcounts are set to 1 @@ -415,7 +415,7 @@ class Image(object): # Number of refcount entries per refcount block # Convert self.cluster_size from bytes to bits to have the same # base for the numerator and denominator - block_size = self.cluster_size * 8 / refcount_bits + block_size = self.cluster_size * 8 // refcount_bits meta_data = self._get_metadata() if len(self.data_clusters) == 0: # All metadata for an empty guest image needs 4 clusters: @@ -452,8 +452,8 @@ class Image(object): rfc_blocks = [] for cluster in sorted(self.data_clusters | meta_data): - if cluster / block_size != block_id: - block_id = cluster / block_size + if cluster // block_size != block_id: + block_id = cluster // block_size block_cluster = block_clusters[block_ids.index(block_id)] rfc_table.append(create_table_entry(table_offset, block_cluster, @@ -587,7 +587,7 @@ class Image(object): 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 + num_of_cls = img_size // cluster_size return set(random.sample(range(1, num_of_cls + 1), random.randint(0, num_of_cls))) @@ -595,7 +595,7 @@ class Image(object): """Return indices of clusters allocated for image metadata.""" ids = set() for x in self: - ids.add(x.offset/self.cluster_size) + ids.add(x.offset // self.cluster_size) return ids |