| # Copyright (C) 2014 The Android Open Source Project |
| # |
| # Licensed under the Apache License, Version 2.0 (the "License"); |
| # you may not use this file except in compliance with the License. |
| # You may obtain a copy of the License at |
| # |
| # http://www.apache.org/licenses/LICENSE-2.0 |
| # |
| # Unless required by applicable law or agreed to in writing, software |
| # distributed under the License is distributed on an "AS IS" BASIS, |
| # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| # See the License for the specific language governing permissions and |
| # limitations under the License. |
| |
| from __future__ import print_function |
| |
| import array |
| import common |
| import functools |
| import heapq |
| import itertools |
| import multiprocessing |
| import os |
| import os.path |
| import re |
| import subprocess |
| import threading |
| import tempfile |
| |
| from collections import deque, OrderedDict |
| from hashlib import sha1 |
| from rangelib import RangeSet |
| |
| |
| __all__ = ["EmptyImage", "DataImage", "BlockImageDiff"] |
| |
| |
| def compute_patch(src, tgt, imgdiff=False): |
| srcfd, srcfile = tempfile.mkstemp(prefix="src-") |
| tgtfd, tgtfile = tempfile.mkstemp(prefix="tgt-") |
| patchfd, patchfile = tempfile.mkstemp(prefix="patch-") |
| os.close(patchfd) |
| |
| try: |
| with os.fdopen(srcfd, "wb") as f_src: |
| for p in src: |
| f_src.write(p) |
| |
| with os.fdopen(tgtfd, "wb") as f_tgt: |
| for p in tgt: |
| f_tgt.write(p) |
| try: |
| os.unlink(patchfile) |
| except OSError: |
| pass |
| if imgdiff: |
| p = subprocess.call(["imgdiff", "-z", srcfile, tgtfile, patchfile], |
| stdout=open("/dev/null", "a"), |
| stderr=subprocess.STDOUT) |
| else: |
| p = subprocess.call(["bsdiff", srcfile, tgtfile, patchfile]) |
| |
| if p: |
| raise ValueError("diff failed: " + str(p)) |
| |
| with open(patchfile, "rb") as f: |
| return f.read() |
| finally: |
| try: |
| os.unlink(srcfile) |
| os.unlink(tgtfile) |
| os.unlink(patchfile) |
| except OSError: |
| pass |
| |
| |
| class Image(object): |
| def ReadRangeSet(self, ranges): |
| raise NotImplementedError |
| |
| def TotalSha1(self, include_clobbered_blocks=False): |
| raise NotImplementedError |
| |
| |
| class EmptyImage(Image): |
| """A zero-length image.""" |
| blocksize = 4096 |
| care_map = RangeSet() |
| clobbered_blocks = RangeSet() |
| extended = RangeSet() |
| total_blocks = 0 |
| file_map = {} |
| def ReadRangeSet(self, ranges): |
| return () |
| def TotalSha1(self, include_clobbered_blocks=False): |
| # EmptyImage always carries empty clobbered_blocks, so |
| # include_clobbered_blocks can be ignored. |
| assert self.clobbered_blocks.size() == 0 |
| return sha1().hexdigest() |
| |
| |
| class DataImage(Image): |
| """An image wrapped around a single string of data.""" |
| |
| def __init__(self, data, trim=False, pad=False): |
| self.data = data |
| self.blocksize = 4096 |
| |
| assert not (trim and pad) |
| |
| partial = len(self.data) % self.blocksize |
| padded = False |
| if partial > 0: |
| if trim: |
| self.data = self.data[:-partial] |
| elif pad: |
| self.data += '\0' * (self.blocksize - partial) |
| padded = True |
| else: |
| raise ValueError(("data for DataImage must be multiple of %d bytes " |
| "unless trim or pad is specified") % |
| (self.blocksize,)) |
| |
| assert len(self.data) % self.blocksize == 0 |
| |
| self.total_blocks = len(self.data) / self.blocksize |
| self.care_map = RangeSet(data=(0, self.total_blocks)) |
| # When the last block is padded, we always write the whole block even for |
| # incremental OTAs. Because otherwise the last block may get skipped if |
| # unchanged for an incremental, but would fail the post-install |
| # verification if it has non-zero contents in the padding bytes. |
| # Bug: 23828506 |
| if padded: |
| clobbered_blocks = [self.total_blocks-1, self.total_blocks] |
| else: |
| clobbered_blocks = [] |
| self.clobbered_blocks = clobbered_blocks |
| self.extended = RangeSet() |
| |
| zero_blocks = [] |
| nonzero_blocks = [] |
| reference = '\0' * self.blocksize |
| |
| for i in range(self.total_blocks-1 if padded else self.total_blocks): |
| d = self.data[i*self.blocksize : (i+1)*self.blocksize] |
| if d == reference: |
| zero_blocks.append(i) |
| zero_blocks.append(i+1) |
| else: |
| nonzero_blocks.append(i) |
| nonzero_blocks.append(i+1) |
| |
| assert zero_blocks or nonzero_blocks or clobbered_blocks |
| |
| self.file_map = dict() |
| if zero_blocks: |
| self.file_map["__ZERO"] = RangeSet(data=zero_blocks) |
| if nonzero_blocks: |
| self.file_map["__NONZERO"] = RangeSet(data=nonzero_blocks) |
| if clobbered_blocks: |
| self.file_map["__COPY"] = RangeSet(data=clobbered_blocks) |
| |
| def ReadRangeSet(self, ranges): |
| return [self.data[s*self.blocksize:e*self.blocksize] for (s, e) in ranges] |
| |
| def TotalSha1(self, include_clobbered_blocks=False): |
| if not include_clobbered_blocks: |
| ranges = self.care_map.subtract(self.clobbered_blocks) |
| return sha1(self.ReadRangeSet(ranges)).hexdigest() |
| else: |
| return sha1(self.data).hexdigest() |
| |
| |
| class Transfer(object): |
| def __init__(self, tgt_name, src_name, tgt_ranges, src_ranges, style, by_id): |
| self.tgt_name = tgt_name |
| self.src_name = src_name |
| self.tgt_ranges = tgt_ranges |
| self.src_ranges = src_ranges |
| self.style = style |
| self.intact = (getattr(tgt_ranges, "monotonic", False) and |
| getattr(src_ranges, "monotonic", False)) |
| |
| # We use OrderedDict rather than dict so that the output is repeatable; |
| # otherwise it would depend on the hash values of the Transfer objects. |
| self.goes_before = OrderedDict() |
| self.goes_after = OrderedDict() |
| |
| self.stash_before = [] |
| self.use_stash = [] |
| |
| self.id = len(by_id) |
| by_id.append(self) |
| |
| def NetStashChange(self): |
| return (sum(sr.size() for (_, sr) in self.stash_before) - |
| sum(sr.size() for (_, sr) in self.use_stash)) |
| |
| def ConvertToNew(self): |
| assert self.style != "new" |
| self.use_stash = [] |
| self.style = "new" |
| self.src_ranges = RangeSet() |
| |
| def __str__(self): |
| return (str(self.id) + ": <" + str(self.src_ranges) + " " + self.style + |
| " to " + str(self.tgt_ranges) + ">") |
| |
| |
| @functools.total_ordering |
| class HeapItem(object): |
| def __init__(self, item): |
| self.item = item |
| # Negate the score since python's heap is a min-heap and we want |
| # the maximum score. |
| self.score = -item.score |
| def clear(self): |
| self.item = None |
| def __bool__(self): |
| return self.item is None |
| def __eq__(self, other): |
| return self.score == other.score |
| def __le__(self, other): |
| return self.score <= other.score |
| |
| |
| # BlockImageDiff works on two image objects. An image object is |
| # anything that provides the following attributes: |
| # |
| # blocksize: the size in bytes of a block, currently must be 4096. |
| # |
| # total_blocks: the total size of the partition/image, in blocks. |
| # |
| # care_map: a RangeSet containing which blocks (in the range [0, |
| # total_blocks) we actually care about; i.e. which blocks contain |
| # data. |
| # |
| # file_map: a dict that partitions the blocks contained in care_map |
| # into smaller domains that are useful for doing diffs on. |
| # (Typically a domain is a file, and the key in file_map is the |
| # pathname.) |
| # |
| # clobbered_blocks: a RangeSet containing which blocks contain data |
| # but may be altered by the FS. They need to be excluded when |
| # verifying the partition integrity. |
| # |
| # ReadRangeSet(): a function that takes a RangeSet and returns the |
| # data contained in the image blocks of that RangeSet. The data |
| # is returned as a list or tuple of strings; concatenating the |
| # elements together should produce the requested data. |
| # Implementations are free to break up the data into list/tuple |
| # elements in any way that is convenient. |
| # |
| # TotalSha1(): a function that returns (as a hex string) the SHA-1 |
| # hash of all the data in the image (ie, all the blocks in the |
| # care_map minus clobbered_blocks, or including the clobbered |
| # blocks if include_clobbered_blocks is True). |
| # |
| # When creating a BlockImageDiff, the src image may be None, in which |
| # case the list of transfers produced will never read from the |
| # original image. |
| |
| class BlockImageDiff(object): |
| def __init__(self, tgt, src=None, threads=None, version=4, |
| disable_imgdiff=False): |
| if threads is None: |
| threads = multiprocessing.cpu_count() // 2 |
| if threads == 0: |
| threads = 1 |
| self.threads = threads |
| self.version = version |
| self.transfers = [] |
| self.src_basenames = {} |
| self.src_numpatterns = {} |
| self._max_stashed_size = 0 |
| self.touched_src_ranges = RangeSet() |
| self.touched_src_sha1 = None |
| self.disable_imgdiff = disable_imgdiff |
| |
| assert version in (1, 2, 3, 4) |
| |
| self.tgt = tgt |
| if src is None: |
| src = EmptyImage() |
| self.src = src |
| |
| # The updater code that installs the patch always uses 4k blocks. |
| assert tgt.blocksize == 4096 |
| assert src.blocksize == 4096 |
| |
| # The range sets in each filemap should comprise a partition of |
| # the care map. |
| self.AssertPartition(src.care_map, src.file_map.values()) |
| self.AssertPartition(tgt.care_map, tgt.file_map.values()) |
| |
| @property |
| def max_stashed_size(self): |
| return self._max_stashed_size |
| |
| def Compute(self, prefix): |
| # When looking for a source file to use as the diff input for a |
| # target file, we try: |
| # 1) an exact path match if available, otherwise |
| # 2) a exact basename match if available, otherwise |
| # 3) a basename match after all runs of digits are replaced by |
| # "#" if available, otherwise |
| # 4) we have no source for this target. |
| self.AbbreviateSourceNames() |
| self.FindTransfers() |
| |
| # Find the ordering dependencies among transfers (this is O(n^2) |
| # in the number of transfers). |
| self.GenerateDigraph() |
| # Find a sequence of transfers that satisfies as many ordering |
| # dependencies as possible (heuristically). |
| self.FindVertexSequence() |
| # Fix up the ordering dependencies that the sequence didn't |
| # satisfy. |
| if self.version == 1: |
| self.RemoveBackwardEdges() |
| else: |
| self.ReverseBackwardEdges() |
| self.ImproveVertexSequence() |
| |
| # Ensure the runtime stash size is under the limit. |
| if self.version >= 2 and common.OPTIONS.cache_size is not None: |
| self.ReviseStashSize() |
| |
| # Double-check our work. |
| self.AssertSequenceGood() |
| |
| self.ComputePatches(prefix) |
| self.WriteTransfers(prefix) |
| |
| def HashBlocks(self, source, ranges): # pylint: disable=no-self-use |
| data = source.ReadRangeSet(ranges) |
| ctx = sha1() |
| |
| for p in data: |
| ctx.update(p) |
| |
| return ctx.hexdigest() |
| |
| def WriteTransfers(self, prefix): |
| def WriteSplitTransfers(out, style, target_blocks): |
| """Limit the size of operand in command 'new' and 'zero' to 1024 blocks. |
| |
| This prevents the target size of one command from being too large; and |
| might help to avoid fsync errors on some devices.""" |
| |
| assert style == "new" or style == "zero" |
| blocks_limit = 1024 |
| total = 0 |
| while target_blocks: |
| blocks_to_write = target_blocks.first(blocks_limit) |
| out.append("%s %s\n" % (style, blocks_to_write.to_string_raw())) |
| total += blocks_to_write.size() |
| target_blocks = target_blocks.subtract(blocks_to_write) |
| return total |
| |
| out = [] |
| total = 0 |
| |
| # In BBOTA v2, 'stashes' records the map from 'stash_raw_id' to 'stash_id' |
| # (aka 'sid', which is the stash slot id). The stash in a 'stash_id' will |
| # be freed immediately after its use. So unlike 'stash_raw_id' (which |
| # uniquely identifies each pair of stashed blocks), the same 'stash_id' |
| # may be reused during the life cycle of an update (maintained by |
| # 'free_stash_ids' heap and 'next_stash_id'). |
| # |
| # In BBOTA v3+, it uses the hash of the stashed blocks as the stash slot |
| # id. 'stashes' records the map from 'hash' to the ref count. The stash |
| # will be freed only if the count decrements to zero. |
| stashes = {} |
| stashed_blocks = 0 |
| max_stashed_blocks = 0 |
| |
| if self.version == 2: |
| free_stash_ids = [] |
| next_stash_id = 0 |
| |
| for xf in self.transfers: |
| |
| if self.version < 2: |
| assert not xf.stash_before |
| assert not xf.use_stash |
| |
| for stash_raw_id, sr in xf.stash_before: |
| if self.version == 2: |
| assert stash_raw_id not in stashes |
| if free_stash_ids: |
| sid = heapq.heappop(free_stash_ids) |
| else: |
| sid = next_stash_id |
| next_stash_id += 1 |
| stashes[stash_raw_id] = sid |
| stashed_blocks += sr.size() |
| out.append("stash %d %s\n" % (sid, sr.to_string_raw())) |
| else: |
| sh = self.HashBlocks(self.src, sr) |
| if sh in stashes: |
| stashes[sh] += 1 |
| else: |
| stashes[sh] = 1 |
| stashed_blocks += sr.size() |
| self.touched_src_ranges = self.touched_src_ranges.union(sr) |
| out.append("stash %s %s\n" % (sh, sr.to_string_raw())) |
| |
| if stashed_blocks > max_stashed_blocks: |
| max_stashed_blocks = stashed_blocks |
| |
| free_string = [] |
| free_size = 0 |
| |
| if self.version == 1: |
| src_str = xf.src_ranges.to_string_raw() if xf.src_ranges else "" |
| elif self.version >= 2: |
| |
| # <# blocks> <src ranges> |
| # OR |
| # <# blocks> <src ranges> <src locs> <stash refs...> |
| # OR |
| # <# blocks> - <stash refs...> |
| |
| size = xf.src_ranges.size() |
| src_str = [str(size)] |
| |
| unstashed_src_ranges = xf.src_ranges |
| mapped_stashes = [] |
| for stash_raw_id, sr in xf.use_stash: |
| unstashed_src_ranges = unstashed_src_ranges.subtract(sr) |
| sh = self.HashBlocks(self.src, sr) |
| sr = xf.src_ranges.map_within(sr) |
| mapped_stashes.append(sr) |
| if self.version == 2: |
| sid = stashes.pop(stash_raw_id) |
| src_str.append("%d:%s" % (sid, sr.to_string_raw())) |
| # A stash will be used only once. We need to free the stash |
| # immediately after the use, instead of waiting for the automatic |
| # clean-up at the end. Because otherwise it may take up extra space |
| # and lead to OTA failures. |
| # Bug: 23119955 |
| free_string.append("free %d\n" % (sid,)) |
| free_size += sr.size() |
| heapq.heappush(free_stash_ids, sid) |
| else: |
| assert sh in stashes |
| src_str.append("%s:%s" % (sh, sr.to_string_raw())) |
| stashes[sh] -= 1 |
| if stashes[sh] == 0: |
| free_string.append("free %s\n" % (sh,)) |
| free_size += sr.size() |
| stashes.pop(sh) |
| |
| if unstashed_src_ranges: |
| src_str.insert(1, unstashed_src_ranges.to_string_raw()) |
| if xf.use_stash: |
| mapped_unstashed = xf.src_ranges.map_within(unstashed_src_ranges) |
| src_str.insert(2, mapped_unstashed.to_string_raw()) |
| mapped_stashes.append(mapped_unstashed) |
| self.AssertPartition(RangeSet(data=(0, size)), mapped_stashes) |
| else: |
| src_str.insert(1, "-") |
| self.AssertPartition(RangeSet(data=(0, size)), mapped_stashes) |
| |
| src_str = " ".join(src_str) |
| |
| # all versions: |
| # zero <rangeset> |
| # new <rangeset> |
| # erase <rangeset> |
| # |
| # version 1: |
| # bsdiff patchstart patchlen <src rangeset> <tgt rangeset> |
| # imgdiff patchstart patchlen <src rangeset> <tgt rangeset> |
| # move <src rangeset> <tgt rangeset> |
| # |
| # version 2: |
| # bsdiff patchstart patchlen <tgt rangeset> <src_str> |
| # imgdiff patchstart patchlen <tgt rangeset> <src_str> |
| # move <tgt rangeset> <src_str> |
| # |
| # version 3: |
| # bsdiff patchstart patchlen srchash tgthash <tgt rangeset> <src_str> |
| # imgdiff patchstart patchlen srchash tgthash <tgt rangeset> <src_str> |
| # move hash <tgt rangeset> <src_str> |
| |
| tgt_size = xf.tgt_ranges.size() |
| |
| if xf.style == "new": |
| assert xf.tgt_ranges |
| assert tgt_size == WriteSplitTransfers(out, xf.style, xf.tgt_ranges) |
| total += tgt_size |
| elif xf.style == "move": |
| assert xf.tgt_ranges |
| assert xf.src_ranges.size() == tgt_size |
| if xf.src_ranges != xf.tgt_ranges: |
| if self.version == 1: |
| out.append("%s %s %s\n" % ( |
| xf.style, |
| xf.src_ranges.to_string_raw(), xf.tgt_ranges.to_string_raw())) |
| elif self.version == 2: |
| out.append("%s %s %s\n" % ( |
| xf.style, |
| xf.tgt_ranges.to_string_raw(), src_str)) |
| elif self.version >= 3: |
| # take into account automatic stashing of overlapping blocks |
| if xf.src_ranges.overlaps(xf.tgt_ranges): |
| temp_stash_usage = stashed_blocks + xf.src_ranges.size() |
| if temp_stash_usage > max_stashed_blocks: |
| max_stashed_blocks = temp_stash_usage |
| |
| self.touched_src_ranges = self.touched_src_ranges.union( |
| xf.src_ranges) |
| |
| out.append("%s %s %s %s\n" % ( |
| xf.style, |
| self.HashBlocks(self.tgt, xf.tgt_ranges), |
| xf.tgt_ranges.to_string_raw(), src_str)) |
| total += tgt_size |
| elif xf.style in ("bsdiff", "imgdiff"): |
| assert xf.tgt_ranges |
| assert xf.src_ranges |
| if self.version == 1: |
| out.append("%s %d %d %s %s\n" % ( |
| xf.style, xf.patch_start, xf.patch_len, |
| xf.src_ranges.to_string_raw(), xf.tgt_ranges.to_string_raw())) |
| elif self.version == 2: |
| out.append("%s %d %d %s %s\n" % ( |
| xf.style, xf.patch_start, xf.patch_len, |
| xf.tgt_ranges.to_string_raw(), src_str)) |
| elif self.version >= 3: |
| # take into account automatic stashing of overlapping blocks |
| if xf.src_ranges.overlaps(xf.tgt_ranges): |
| temp_stash_usage = stashed_blocks + xf.src_ranges.size() |
| if temp_stash_usage > max_stashed_blocks: |
| max_stashed_blocks = temp_stash_usage |
| |
| self.touched_src_ranges = self.touched_src_ranges.union( |
| xf.src_ranges) |
| |
| out.append("%s %d %d %s %s %s %s\n" % ( |
| xf.style, |
| xf.patch_start, xf.patch_len, |
| self.HashBlocks(self.src, xf.src_ranges), |
| self.HashBlocks(self.tgt, xf.tgt_ranges), |
| xf.tgt_ranges.to_string_raw(), src_str)) |
| total += tgt_size |
| elif xf.style == "zero": |
| assert xf.tgt_ranges |
| to_zero = xf.tgt_ranges.subtract(xf.src_ranges) |
| assert WriteSplitTransfers(out, xf.style, to_zero) == to_zero.size() |
| total += to_zero.size() |
| else: |
| raise ValueError("unknown transfer style '%s'\n" % xf.style) |
| |
| if free_string: |
| out.append("".join(free_string)) |
| stashed_blocks -= free_size |
| |
| if self.version >= 2 and common.OPTIONS.cache_size is not None: |
| # Sanity check: abort if we're going to need more stash space than |
| # the allowed size (cache_size * threshold). There are two purposes |
| # of having a threshold here. a) Part of the cache may have been |
| # occupied by some recovery logs. b) It will buy us some time to deal |
| # with the oversize issue. |
| cache_size = common.OPTIONS.cache_size |
| stash_threshold = common.OPTIONS.stash_threshold |
| max_allowed = cache_size * stash_threshold |
| assert max_stashed_blocks * self.tgt.blocksize < max_allowed, \ |
| 'Stash size %d (%d * %d) exceeds the limit %d (%d * %.2f)' % ( |
| max_stashed_blocks * self.tgt.blocksize, max_stashed_blocks, |
| self.tgt.blocksize, max_allowed, cache_size, |
| stash_threshold) |
| |
| if self.version >= 3: |
| self.touched_src_sha1 = self.HashBlocks( |
| self.src, self.touched_src_ranges) |
| |
| # Zero out extended blocks as a workaround for bug 20881595. |
| if self.tgt.extended: |
| assert (WriteSplitTransfers(out, "zero", self.tgt.extended) == |
| self.tgt.extended.size()) |
| total += self.tgt.extended.size() |
| |
| # We erase all the blocks on the partition that a) don't contain useful |
| # data in the new image; b) will not be touched by dm-verity. Out of those |
| # blocks, we erase the ones that won't be used in this update at the |
| # beginning of an update. The rest would be erased at the end. This is to |
| # work around the eMMC issue observed on some devices, which may otherwise |
| # get starving for clean blocks and thus fail the update. (b/28347095) |
| all_tgt = RangeSet(data=(0, self.tgt.total_blocks)) |
| all_tgt_minus_extended = all_tgt.subtract(self.tgt.extended) |
| new_dontcare = all_tgt_minus_extended.subtract(self.tgt.care_map) |
| |
| erase_first = new_dontcare.subtract(self.touched_src_ranges) |
| if erase_first: |
| out.insert(0, "erase %s\n" % (erase_first.to_string_raw(),)) |
| |
| erase_last = new_dontcare.subtract(erase_first) |
| if erase_last: |
| out.append("erase %s\n" % (erase_last.to_string_raw(),)) |
| |
| out.insert(0, "%d\n" % (self.version,)) # format version number |
| out.insert(1, "%d\n" % (total,)) |
| if self.version == 2: |
| # v2 only: after the total block count, we give the number of stash slots |
| # needed, and the maximum size needed (in blocks). |
| out.insert(2, str(next_stash_id) + "\n") |
| out.insert(3, str(max_stashed_blocks) + "\n") |
| elif self.version >= 3: |
| # v3+: the number of stash slots is unused. |
| out.insert(2, "0\n") |
| out.insert(3, str(max_stashed_blocks) + "\n") |
| |
| with open(prefix + ".transfer.list", "wb") as f: |
| for i in out: |
| f.write(i) |
| |
| if self.version >= 2: |
| self._max_stashed_size = max_stashed_blocks * self.tgt.blocksize |
| OPTIONS = common.OPTIONS |
| if OPTIONS.cache_size is not None: |
| max_allowed = OPTIONS.cache_size * OPTIONS.stash_threshold |
| print("max stashed blocks: %d (%d bytes), " |
| "limit: %d bytes (%.2f%%)\n" % ( |
| max_stashed_blocks, self._max_stashed_size, max_allowed, |
| self._max_stashed_size * 100.0 / max_allowed)) |
| else: |
| print("max stashed blocks: %d (%d bytes), limit: <unknown>\n" % ( |
| max_stashed_blocks, self._max_stashed_size)) |
| |
| def ReviseStashSize(self): |
| print("Revising stash size...") |
| stash_map = {} |
| |
| # Create the map between a stash and its def/use points. For example, for a |
| # given stash of (raw_id, sr), stashes[raw_id] = (sr, def_cmd, use_cmd). |
| for xf in self.transfers: |
| # Command xf defines (stores) all the stashes in stash_before. |
| for stash_raw_id, sr in xf.stash_before: |
| stash_map[stash_raw_id] = (sr, xf) |
| |
| # Record all the stashes command xf uses. |
| for stash_raw_id, _ in xf.use_stash: |
| stash_map[stash_raw_id] += (xf,) |
| |
| # Compute the maximum blocks available for stash based on /cache size and |
| # the threshold. |
| cache_size = common.OPTIONS.cache_size |
| stash_threshold = common.OPTIONS.stash_threshold |
| max_allowed = cache_size * stash_threshold / self.tgt.blocksize |
| |
| # See the comments for 'stashes' in WriteTransfers(). |
| stashes = {} |
| stashed_blocks = 0 |
| new_blocks = 0 |
| |
| if self.version == 2: |
| free_stash_ids = [] |
| next_stash_id = 0 |
| |
| # Now go through all the commands. Compute the required stash size on the |
| # fly. If a command requires excess stash than available, it deletes the |
| # stash by replacing the command that uses the stash with a "new" command |
| # instead. |
| for xf in self.transfers: |
| replaced_cmds = [] |
| |
| # xf.stash_before generates explicit stash commands. |
| for stash_raw_id, sr in xf.stash_before: |
| # Check the post-command stashed_blocks. |
| stashed_blocks_after = stashed_blocks |
| if self.version == 2: |
| assert stash_raw_id not in stashes |
| if free_stash_ids: |
| sid = heapq.heappop(free_stash_ids) |
| else: |
| sid = next_stash_id |
| next_stash_id += 1 |
| stashes[stash_raw_id] = sid |
| stashed_blocks_after += sr.size() |
| else: |
| sh = self.HashBlocks(self.src, sr) |
| if sh in stashes: |
| stashes[sh] += 1 |
| else: |
| stashes[sh] = 1 |
| stashed_blocks_after += sr.size() |
| |
| if stashed_blocks_after > max_allowed: |
| # We cannot stash this one for a later command. Find out the command |
| # that will use this stash and replace the command with "new". |
| use_cmd = stash_map[stash_raw_id][2] |
| replaced_cmds.append(use_cmd) |
| print("%10d %9s %s" % (sr.size(), "explicit", use_cmd)) |
| else: |
| stashed_blocks = stashed_blocks_after |
| |
| # "move" and "diff" may introduce implicit stashes in BBOTA v3. Prior to |
| # ComputePatches(), they both have the style of "diff". |
| if xf.style == "diff" and self.version >= 3: |
| assert xf.tgt_ranges and xf.src_ranges |
| if xf.src_ranges.overlaps(xf.tgt_ranges): |
| if stashed_blocks + xf.src_ranges.size() > max_allowed: |
| replaced_cmds.append(xf) |
| print("%10d %9s %s" % (xf.src_ranges.size(), "implicit", xf)) |
| |
| # Replace the commands in replaced_cmds with "new"s. |
| for cmd in replaced_cmds: |
| # It no longer uses any commands in "use_stash". Remove the def points |
| # for all those stashes. |
| for stash_raw_id, sr in cmd.use_stash: |
| def_cmd = stash_map[stash_raw_id][1] |
| assert (stash_raw_id, sr) in def_cmd.stash_before |
| def_cmd.stash_before.remove((stash_raw_id, sr)) |
| |
| # Add up blocks that violates space limit and print total number to |
| # screen later. |
| new_blocks += cmd.tgt_ranges.size() |
| cmd.ConvertToNew() |
| |
| # xf.use_stash may generate free commands. |
| for stash_raw_id, sr in xf.use_stash: |
| if self.version == 2: |
| sid = stashes.pop(stash_raw_id) |
| stashed_blocks -= sr.size() |
| heapq.heappush(free_stash_ids, sid) |
| else: |
| sh = self.HashBlocks(self.src, sr) |
| assert sh in stashes |
| stashes[sh] -= 1 |
| if stashes[sh] == 0: |
| stashed_blocks -= sr.size() |
| stashes.pop(sh) |
| |
| num_of_bytes = new_blocks * self.tgt.blocksize |
| print(" Total %d blocks (%d bytes) are packed as new blocks due to " |
| "insufficient cache size." % (new_blocks, num_of_bytes)) |
| return new_blocks |
| |
| def ComputePatches(self, prefix): |
| print("Reticulating splines...") |
| diff_q = [] |
| patch_num = 0 |
| with open(prefix + ".new.dat", "wb") as new_f: |
| for xf in self.transfers: |
| if xf.style == "zero": |
| tgt_size = xf.tgt_ranges.size() * self.tgt.blocksize |
| print("%10d %10d (%6.2f%%) %7s %s %s" % ( |
| tgt_size, tgt_size, 100.0, xf.style, xf.tgt_name, |
| str(xf.tgt_ranges))) |
| |
| elif xf.style == "new": |
| for piece in self.tgt.ReadRangeSet(xf.tgt_ranges): |
| new_f.write(piece) |
| tgt_size = xf.tgt_ranges.size() * self.tgt.blocksize |
| print("%10d %10d (%6.2f%%) %7s %s %s" % ( |
| tgt_size, tgt_size, 100.0, xf.style, |
| xf.tgt_name, str(xf.tgt_ranges))) |
| |
| elif xf.style == "diff": |
| src = self.src.ReadRangeSet(xf.src_ranges) |
| tgt = self.tgt.ReadRangeSet(xf.tgt_ranges) |
| |
| # We can't compare src and tgt directly because they may have |
| # the same content but be broken up into blocks differently, eg: |
| # |
| # ["he", "llo"] vs ["h", "ello"] |
| # |
| # We want those to compare equal, ideally without having to |
| # actually concatenate the strings (these may be tens of |
| # megabytes). |
| |
| src_sha1 = sha1() |
| for p in src: |
| src_sha1.update(p) |
| tgt_sha1 = sha1() |
| tgt_size = 0 |
| for p in tgt: |
| tgt_sha1.update(p) |
| tgt_size += len(p) |
| |
| if src_sha1.digest() == tgt_sha1.digest(): |
| # These are identical; we don't need to generate a patch, |
| # just issue copy commands on the device. |
| xf.style = "move" |
| if xf.src_ranges != xf.tgt_ranges: |
| print("%10d %10d (%6.2f%%) %7s %s %s (from %s)" % ( |
| tgt_size, tgt_size, 100.0, xf.style, |
| xf.tgt_name if xf.tgt_name == xf.src_name else ( |
| xf.tgt_name + " (from " + xf.src_name + ")"), |
| str(xf.tgt_ranges), str(xf.src_ranges))) |
| else: |
| # For files in zip format (eg, APKs, JARs, etc.) we would |
| # like to use imgdiff -z if possible (because it usually |
| # produces significantly smaller patches than bsdiff). |
| # This is permissible if: |
| # |
| # - imgdiff is not disabled, and |
| # - the source and target files are monotonic (ie, the |
| # data is stored with blocks in increasing order), and |
| # - we haven't removed any blocks from the source set. |
| # |
| # If these conditions are satisfied then appending all the |
| # blocks in the set together in order will produce a valid |
| # zip file (plus possibly extra zeros in the last block), |
| # which is what imgdiff needs to operate. (imgdiff is |
| # fine with extra zeros at the end of the file.) |
| imgdiff = (not self.disable_imgdiff and xf.intact and |
| xf.tgt_name.split(".")[-1].lower() |
| in ("apk", "jar", "zip")) |
| xf.style = "imgdiff" if imgdiff else "bsdiff" |
| diff_q.append((tgt_size, src, tgt, xf, patch_num)) |
| patch_num += 1 |
| |
| else: |
| assert False, "unknown style " + xf.style |
| |
| if diff_q: |
| if self.threads > 1: |
| print("Computing patches (using %d threads)..." % (self.threads,)) |
| else: |
| print("Computing patches...") |
| diff_q.sort() |
| |
| patches = [None] * patch_num |
| |
| # TODO: Rewrite with multiprocessing.ThreadPool? |
| lock = threading.Lock() |
| def diff_worker(): |
| while True: |
| with lock: |
| if not diff_q: |
| return |
| tgt_size, src, tgt, xf, patchnum = diff_q.pop() |
| patch = compute_patch(src, tgt, imgdiff=(xf.style == "imgdiff")) |
| size = len(patch) |
| with lock: |
| patches[patchnum] = (patch, xf) |
| print("%10d %10d (%6.2f%%) %7s %s %s %s" % ( |
| size, tgt_size, size * 100.0 / tgt_size, xf.style, |
| xf.tgt_name if xf.tgt_name == xf.src_name else ( |
| xf.tgt_name + " (from " + xf.src_name + ")"), |
| str(xf.tgt_ranges), str(xf.src_ranges))) |
| |
| threads = [threading.Thread(target=diff_worker) |
| for _ in range(self.threads)] |
| for th in threads: |
| th.start() |
| while threads: |
| threads.pop().join() |
| else: |
| patches = [] |
| |
| p = 0 |
| with open(prefix + ".patch.dat", "wb") as patch_f: |
| for patch, xf in patches: |
| xf.patch_start = p |
| xf.patch_len = len(patch) |
| patch_f.write(patch) |
| p += len(patch) |
| |
| def AssertSequenceGood(self): |
| # Simulate the sequences of transfers we will output, and check that: |
| # - we never read a block after writing it, and |
| # - we write every block we care about exactly once. |
| |
| # Start with no blocks having been touched yet. |
| touched = array.array("B", "\0" * self.tgt.total_blocks) |
| |
| # Imagine processing the transfers in order. |
| for xf in self.transfers: |
| # Check that the input blocks for this transfer haven't yet been touched. |
| |
| x = xf.src_ranges |
| if self.version >= 2: |
| for _, sr in xf.use_stash: |
| x = x.subtract(sr) |
| |
| for s, e in x: |
| # Source image could be larger. Don't check the blocks that are in the |
| # source image only. Since they are not in 'touched', and won't ever |
| # be touched. |
| for i in range(s, min(e, self.tgt.total_blocks)): |
| assert touched[i] == 0 |
| |
| # Check that the output blocks for this transfer haven't yet |
| # been touched, and touch all the blocks written by this |
| # transfer. |
| for s, e in xf.tgt_ranges: |
| for i in range(s, e): |
| assert touched[i] == 0 |
| touched[i] = 1 |
| |
| # Check that we've written every target block. |
| for s, e in self.tgt.care_map: |
| for i in range(s, e): |
| assert touched[i] == 1 |
| |
| def ImproveVertexSequence(self): |
| print("Improving vertex order...") |
| |
| # At this point our digraph is acyclic; we reversed any edges that |
| # were backwards in the heuristically-generated sequence. The |
| # previously-generated order is still acceptable, but we hope to |
| # find a better order that needs less memory for stashed data. |
| # Now we do a topological sort to generate a new vertex order, |
| # using a greedy algorithm to choose which vertex goes next |
| # whenever we have a choice. |
| |
| # Make a copy of the edge set; this copy will get destroyed by the |
| # algorithm. |
| for xf in self.transfers: |
| xf.incoming = xf.goes_after.copy() |
| xf.outgoing = xf.goes_before.copy() |
| |
| L = [] # the new vertex order |
| |
| # S is the set of sources in the remaining graph; we always choose |
| # the one that leaves the least amount of stashed data after it's |
| # executed. |
| S = [(u.NetStashChange(), u.order, u) for u in self.transfers |
| if not u.incoming] |
| heapq.heapify(S) |
| |
| while S: |
| _, _, xf = heapq.heappop(S) |
| L.append(xf) |
| for u in xf.outgoing: |
| del u.incoming[xf] |
| if not u.incoming: |
| heapq.heappush(S, (u.NetStashChange(), u.order, u)) |
| |
| # if this fails then our graph had a cycle. |
| assert len(L) == len(self.transfers) |
| |
| self.transfers = L |
| for i, xf in enumerate(L): |
| xf.order = i |
| |
| def RemoveBackwardEdges(self): |
| print("Removing backward edges...") |
| in_order = 0 |
| out_of_order = 0 |
| lost_source = 0 |
| |
| for xf in self.transfers: |
| lost = 0 |
| size = xf.src_ranges.size() |
| for u in xf.goes_before: |
| # xf should go before u |
| if xf.order < u.order: |
| # it does, hurray! |
| in_order += 1 |
| else: |
| # it doesn't, boo. trim the blocks that u writes from xf's |
| # source, so that xf can go after u. |
| out_of_order += 1 |
| assert xf.src_ranges.overlaps(u.tgt_ranges) |
| xf.src_ranges = xf.src_ranges.subtract(u.tgt_ranges) |
| xf.intact = False |
| |
| if xf.style == "diff" and not xf.src_ranges: |
| # nothing left to diff from; treat as new data |
| xf.style = "new" |
| |
| lost = size - xf.src_ranges.size() |
| lost_source += lost |
| |
| print((" %d/%d dependencies (%.2f%%) were violated; " |
| "%d source blocks removed.") % |
| (out_of_order, in_order + out_of_order, |
| (out_of_order * 100.0 / (in_order + out_of_order)) |
| if (in_order + out_of_order) else 0.0, |
| lost_source)) |
| |
| def ReverseBackwardEdges(self): |
| """Reverse unsatisfying edges and compute pairs of stashed blocks. |
| |
| For each transfer, make sure it properly stashes the blocks it touches and |
| will be used by later transfers. It uses pairs of (stash_raw_id, range) to |
| record the blocks to be stashed. 'stash_raw_id' is an id that uniquely |
| identifies each pair. Note that for the same range (e.g. RangeSet("1-5")), |
| it is possible to have multiple pairs with different 'stash_raw_id's. Each |
| 'stash_raw_id' will be consumed by one transfer. In BBOTA v3+, identical |
| blocks will be written to the same stash slot in WriteTransfers(). |
| """ |
| |
| print("Reversing backward edges...") |
| in_order = 0 |
| out_of_order = 0 |
| stash_raw_id = 0 |
| stash_size = 0 |
| |
| for xf in self.transfers: |
| for u in xf.goes_before.copy(): |
| # xf should go before u |
| if xf.order < u.order: |
| # it does, hurray! |
| in_order += 1 |
| else: |
| # it doesn't, boo. modify u to stash the blocks that it |
| # writes that xf wants to read, and then require u to go |
| # before xf. |
| out_of_order += 1 |
| |
| overlap = xf.src_ranges.intersect(u.tgt_ranges) |
| assert overlap |
| |
| u.stash_before.append((stash_raw_id, overlap)) |
| xf.use_stash.append((stash_raw_id, overlap)) |
| stash_raw_id += 1 |
| stash_size += overlap.size() |
| |
| # reverse the edge direction; now xf must go after u |
| del xf.goes_before[u] |
| del u.goes_after[xf] |
| xf.goes_after[u] = None # value doesn't matter |
| u.goes_before[xf] = None |
| |
| print((" %d/%d dependencies (%.2f%%) were violated; " |
| "%d source blocks stashed.") % |
| (out_of_order, in_order + out_of_order, |
| (out_of_order * 100.0 / (in_order + out_of_order)) |
| if (in_order + out_of_order) else 0.0, |
| stash_size)) |
| |
| def FindVertexSequence(self): |
| print("Finding vertex sequence...") |
| |
| # This is based on "A Fast & Effective Heuristic for the Feedback |
| # Arc Set Problem" by P. Eades, X. Lin, and W.F. Smyth. Think of |
| # it as starting with the digraph G and moving all the vertices to |
| # be on a horizontal line in some order, trying to minimize the |
| # number of edges that end up pointing to the left. Left-pointing |
| # edges will get removed to turn the digraph into a DAG. In this |
| # case each edge has a weight which is the number of source blocks |
| # we'll lose if that edge is removed; we try to minimize the total |
| # weight rather than just the number of edges. |
| |
| # Make a copy of the edge set; this copy will get destroyed by the |
| # algorithm. |
| for xf in self.transfers: |
| xf.incoming = xf.goes_after.copy() |
| xf.outgoing = xf.goes_before.copy() |
| xf.score = sum(xf.outgoing.values()) - sum(xf.incoming.values()) |
| |
| # We use an OrderedDict instead of just a set so that the output |
| # is repeatable; otherwise it would depend on the hash values of |
| # the transfer objects. |
| G = OrderedDict() |
| for xf in self.transfers: |
| G[xf] = None |
| s1 = deque() # the left side of the sequence, built from left to right |
| s2 = deque() # the right side of the sequence, built from right to left |
| |
| heap = [] |
| for xf in self.transfers: |
| xf.heap_item = HeapItem(xf) |
| heap.append(xf.heap_item) |
| heapq.heapify(heap) |
| |
| # Use OrderedDict() instead of set() to preserve the insertion order. Need |
| # to use 'sinks[key] = None' to add key into the set. sinks will look like |
| # { key1: None, key2: None, ... }. |
| sinks = OrderedDict.fromkeys(u for u in G if not u.outgoing) |
| sources = OrderedDict.fromkeys(u for u in G if not u.incoming) |
| |
| def adjust_score(iu, delta): |
| iu.score += delta |
| iu.heap_item.clear() |
| iu.heap_item = HeapItem(iu) |
| heapq.heappush(heap, iu.heap_item) |
| |
| while G: |
| # Put all sinks at the end of the sequence. |
| while sinks: |
| new_sinks = OrderedDict() |
| for u in sinks: |
| if u not in G: continue |
| s2.appendleft(u) |
| del G[u] |
| for iu in u.incoming: |
| adjust_score(iu, -iu.outgoing.pop(u)) |
| if not iu.outgoing: |
| new_sinks[iu] = None |
| sinks = new_sinks |
| |
| # Put all the sources at the beginning of the sequence. |
| while sources: |
| new_sources = OrderedDict() |
| for u in sources: |
| if u not in G: continue |
| s1.append(u) |
| del G[u] |
| for iu in u.outgoing: |
| adjust_score(iu, +iu.incoming.pop(u)) |
| if not iu.incoming: |
| new_sources[iu] = None |
| sources = new_sources |
| |
| if not G: break |
| |
| # Find the "best" vertex to put next. "Best" is the one that |
| # maximizes the net difference in source blocks saved we get by |
| # pretending it's a source rather than a sink. |
| |
| while True: |
| u = heapq.heappop(heap) |
| if u and u.item in G: |
| u = u.item |
| break |
| |
| s1.append(u) |
| del G[u] |
| for iu in u.outgoing: |
| adjust_score(iu, +iu.incoming.pop(u)) |
| if not iu.incoming: |
| sources[iu] = None |
| |
| for iu in u.incoming: |
| adjust_score(iu, -iu.outgoing.pop(u)) |
| if not iu.outgoing: |
| sinks[iu] = None |
| |
| # Now record the sequence in the 'order' field of each transfer, |
| # and by rearranging self.transfers to be in the chosen sequence. |
| |
| new_transfers = [] |
| for x in itertools.chain(s1, s2): |
| x.order = len(new_transfers) |
| new_transfers.append(x) |
| del x.incoming |
| del x.outgoing |
| |
| self.transfers = new_transfers |
| |
| def GenerateDigraph(self): |
| print("Generating digraph...") |
| |
| # Each item of source_ranges will be: |
| # - None, if that block is not used as a source, |
| # - an ordered set of transfers. |
| source_ranges = [] |
| for b in self.transfers: |
| for s, e in b.src_ranges: |
| if e > len(source_ranges): |
| source_ranges.extend([None] * (e-len(source_ranges))) |
| for i in range(s, e): |
| if source_ranges[i] is None: |
| source_ranges[i] = OrderedDict.fromkeys([b]) |
| else: |
| source_ranges[i][b] = None |
| |
| for a in self.transfers: |
| intersections = OrderedDict() |
| for s, e in a.tgt_ranges: |
| for i in range(s, e): |
| if i >= len(source_ranges): break |
| # Add all the Transfers in source_ranges[i] to the (ordered) set. |
| if source_ranges[i] is not None: |
| for j in source_ranges[i]: |
| intersections[j] = None |
| |
| for b in intersections: |
| if a is b: continue |
| |
| # If the blocks written by A are read by B, then B needs to go before A. |
| i = a.tgt_ranges.intersect(b.src_ranges) |
| if i: |
| if b.src_name == "__ZERO": |
| # the cost of removing source blocks for the __ZERO domain |
| # is (nearly) zero. |
| size = 0 |
| else: |
| size = i.size() |
| b.goes_before[a] = size |
| a.goes_after[b] = size |
| |
| def FindTransfers(self): |
| """Parse the file_map to generate all the transfers.""" |
| |
| def AddSplitTransfers(tgt_name, src_name, tgt_ranges, src_ranges, |
| style, by_id): |
| """Add one or multiple Transfer()s by splitting large files. |
| |
| For BBOTA v3, we need to stash source blocks for resumable feature. |
| However, with the growth of file size and the shrink of the cache |
| partition source blocks are too large to be stashed. If a file occupies |
| too many blocks, we split it into smaller pieces by getting multiple |
| Transfer()s. |
| |
| The downside is that after splitting, we may increase the package size |
| since the split pieces don't align well. According to our experiments, |
| 1/8 of the cache size as the per-piece limit appears to be optimal. |
| Compared to the fixed 1024-block limit, it reduces the overall package |
| size by 30% for volantis, and 20% for angler and bullhead.""" |
| |
| # Possibly split large files into smaller chunks. |
| pieces = 0 |
| cache_size = common.OPTIONS.cache_size |
| split_threshold = 0.125 |
| max_blocks_per_transfer = int(cache_size * split_threshold / |
| self.tgt.blocksize) |
| |
| # Change nothing for small files. |
| if (tgt_ranges.size() <= max_blocks_per_transfer and |
| src_ranges.size() <= max_blocks_per_transfer): |
| Transfer(tgt_name, src_name, tgt_ranges, src_ranges, style, by_id) |
| return |
| |
| while (tgt_ranges.size() > max_blocks_per_transfer and |
| src_ranges.size() > max_blocks_per_transfer): |
| tgt_split_name = "%s-%d" % (tgt_name, pieces) |
| src_split_name = "%s-%d" % (src_name, pieces) |
| tgt_first = tgt_ranges.first(max_blocks_per_transfer) |
| src_first = src_ranges.first(max_blocks_per_transfer) |
| |
| Transfer(tgt_split_name, src_split_name, tgt_first, src_first, style, |
| by_id) |
| |
| tgt_ranges = tgt_ranges.subtract(tgt_first) |
| src_ranges = src_ranges.subtract(src_first) |
| pieces += 1 |
| |
| # Handle remaining blocks. |
| if tgt_ranges.size() or src_ranges.size(): |
| # Must be both non-empty. |
| assert tgt_ranges.size() and src_ranges.size() |
| tgt_split_name = "%s-%d" % (tgt_name, pieces) |
| src_split_name = "%s-%d" % (src_name, pieces) |
| Transfer(tgt_split_name, src_split_name, tgt_ranges, src_ranges, style, |
| by_id) |
| |
| def AddTransfer(tgt_name, src_name, tgt_ranges, src_ranges, style, by_id, |
| split=False): |
| """Wrapper function for adding a Transfer().""" |
| |
| # We specialize diff transfers only (which covers bsdiff/imgdiff/move); |
| # otherwise add the Transfer() as is. |
| if style != "diff" or not split: |
| Transfer(tgt_name, src_name, tgt_ranges, src_ranges, style, by_id) |
| return |
| |
| # Handle .odex files specially to analyze the block-wise difference. If |
| # most of the blocks are identical with only few changes (e.g. header), |
| # we will patch the changed blocks only. This avoids stashing unchanged |
| # blocks while patching. We limit the analysis to files without size |
| # changes only. This is to avoid sacrificing the OTA generation cost too |
| # much. |
| if (tgt_name.split(".")[-1].lower() == 'odex' and |
| tgt_ranges.size() == src_ranges.size()): |
| |
| # 0.5 threshold can be further tuned. The tradeoff is: if only very |
| # few blocks remain identical, we lose the opportunity to use imgdiff |
| # that may have better compression ratio than bsdiff. |
| crop_threshold = 0.5 |
| |
| tgt_skipped = RangeSet() |
| src_skipped = RangeSet() |
| tgt_size = tgt_ranges.size() |
| tgt_changed = 0 |
| for src_block, tgt_block in zip(src_ranges.next_item(), |
| tgt_ranges.next_item()): |
| src_rs = RangeSet(str(src_block)) |
| tgt_rs = RangeSet(str(tgt_block)) |
| if self.src.ReadRangeSet(src_rs) == self.tgt.ReadRangeSet(tgt_rs): |
| tgt_skipped = tgt_skipped.union(tgt_rs) |
| src_skipped = src_skipped.union(src_rs) |
| else: |
| tgt_changed += tgt_rs.size() |
| |
| # Terminate early if no clear sign of benefits. |
| if tgt_changed > tgt_size * crop_threshold: |
| break |
| |
| if tgt_changed < tgt_size * crop_threshold: |
| assert tgt_changed + tgt_skipped.size() == tgt_size |
| print('%10d %10d (%6.2f%%) %s' % (tgt_skipped.size(), tgt_size, |
| tgt_skipped.size() * 100.0 / tgt_size, tgt_name)) |
| AddSplitTransfers( |
| "%s-skipped" % (tgt_name,), |
| "%s-skipped" % (src_name,), |
| tgt_skipped, src_skipped, style, by_id) |
| |
| # Intentionally change the file extension to avoid being imgdiff'd as |
| # the files are no longer in their original format. |
| tgt_name = "%s-cropped" % (tgt_name,) |
| src_name = "%s-cropped" % (src_name,) |
| tgt_ranges = tgt_ranges.subtract(tgt_skipped) |
| src_ranges = src_ranges.subtract(src_skipped) |
| |
| # Possibly having no changed blocks. |
| if not tgt_ranges: |
| return |
| |
| # Add the transfer(s). |
| AddSplitTransfers( |
| tgt_name, src_name, tgt_ranges, src_ranges, style, by_id) |
| |
| print("Finding transfers...") |
| |
| empty = RangeSet() |
| for tgt_fn, tgt_ranges in self.tgt.file_map.items(): |
| if tgt_fn == "__ZERO": |
| # the special "__ZERO" domain is all the blocks not contained |
| # in any file and that are filled with zeros. We have a |
| # special transfer style for zero blocks. |
| src_ranges = self.src.file_map.get("__ZERO", empty) |
| AddTransfer(tgt_fn, "__ZERO", tgt_ranges, src_ranges, |
| "zero", self.transfers) |
| continue |
| |
| elif tgt_fn == "__COPY": |
| # "__COPY" domain includes all the blocks not contained in any |
| # file and that need to be copied unconditionally to the target. |
| AddTransfer(tgt_fn, None, tgt_ranges, empty, "new", self.transfers) |
| continue |
| |
| elif tgt_fn in self.src.file_map: |
| # Look for an exact pathname match in the source. |
| AddTransfer(tgt_fn, tgt_fn, tgt_ranges, self.src.file_map[tgt_fn], |
| "diff", self.transfers, self.version >= 3) |
| continue |
| |
| b = os.path.basename(tgt_fn) |
| if b in self.src_basenames: |
| # Look for an exact basename match in the source. |
| src_fn = self.src_basenames[b] |
| AddTransfer(tgt_fn, src_fn, tgt_ranges, self.src.file_map[src_fn], |
| "diff", self.transfers, self.version >= 3) |
| continue |
| |
| b = re.sub("[0-9]+", "#", b) |
| if b in self.src_numpatterns: |
| # Look for a 'number pattern' match (a basename match after |
| # all runs of digits are replaced by "#"). (This is useful |
| # for .so files that contain version numbers in the filename |
| # that get bumped.) |
| src_fn = self.src_numpatterns[b] |
| AddTransfer(tgt_fn, src_fn, tgt_ranges, self.src.file_map[src_fn], |
| "diff", self.transfers, self.version >= 3) |
| continue |
| |
| AddTransfer(tgt_fn, None, tgt_ranges, empty, "new", self.transfers) |
| |
| def AbbreviateSourceNames(self): |
| for k in self.src.file_map.keys(): |
| b = os.path.basename(k) |
| self.src_basenames[b] = k |
| b = re.sub("[0-9]+", "#", b) |
| self.src_numpatterns[b] = k |
| |
| @staticmethod |
| def AssertPartition(total, seq): |
| """Assert that all the RangeSets in 'seq' form a partition of the |
| 'total' RangeSet (ie, they are nonintersecting and their union |
| equals 'total').""" |
| |
| so_far = RangeSet() |
| for i in seq: |
| assert not so_far.overlaps(i) |
| so_far = so_far.union(i) |
| assert so_far == total |