bb848c54a7
Limit the number of blocks in command zero to 1024 blocks. This prevents the target size of one command from being too large and might help to avoid fsync errors during the OTA update. Bug: 29535618 Change-Id: Ic630cea2599138516162bd0029e2e4b2af75bf4f
1221 lines
42 KiB
Python
1221 lines
42 KiB
Python
# Copyright (C) 2014 The Android Open Source Project
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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from __future__ import print_function
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from collections import deque, OrderedDict
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from hashlib import sha1
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import array
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import common
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import functools
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import heapq
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import itertools
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import multiprocessing
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import os
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import re
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import subprocess
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import threading
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import time
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import tempfile
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from rangelib import RangeSet
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__all__ = ["EmptyImage", "DataImage", "BlockImageDiff"]
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def compute_patch(src, tgt, imgdiff=False):
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srcfd, srcfile = tempfile.mkstemp(prefix="src-")
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tgtfd, tgtfile = tempfile.mkstemp(prefix="tgt-")
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patchfd, patchfile = tempfile.mkstemp(prefix="patch-")
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os.close(patchfd)
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try:
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with os.fdopen(srcfd, "wb") as f_src:
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for p in src:
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f_src.write(p)
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with os.fdopen(tgtfd, "wb") as f_tgt:
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for p in tgt:
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f_tgt.write(p)
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try:
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os.unlink(patchfile)
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except OSError:
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pass
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if imgdiff:
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p = subprocess.call(["imgdiff", "-z", srcfile, tgtfile, patchfile],
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stdout=open("/dev/null", "a"),
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stderr=subprocess.STDOUT)
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else:
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p = subprocess.call(["bsdiff", srcfile, tgtfile, patchfile])
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if p:
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raise ValueError("diff failed: " + str(p))
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with open(patchfile, "rb") as f:
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return f.read()
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finally:
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try:
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os.unlink(srcfile)
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os.unlink(tgtfile)
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os.unlink(patchfile)
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except OSError:
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pass
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class Image(object):
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def ReadRangeSet(self, ranges):
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raise NotImplementedError
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def TotalSha1(self, include_clobbered_blocks=False):
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raise NotImplementedError
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class EmptyImage(Image):
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"""A zero-length image."""
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blocksize = 4096
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care_map = RangeSet()
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clobbered_blocks = RangeSet()
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extended = RangeSet()
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total_blocks = 0
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file_map = {}
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def ReadRangeSet(self, ranges):
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return ()
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def TotalSha1(self, include_clobbered_blocks=False):
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# EmptyImage always carries empty clobbered_blocks, so
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# include_clobbered_blocks can be ignored.
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assert self.clobbered_blocks.size() == 0
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return sha1().hexdigest()
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class DataImage(Image):
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"""An image wrapped around a single string of data."""
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def __init__(self, data, trim=False, pad=False):
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self.data = data
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self.blocksize = 4096
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assert not (trim and pad)
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partial = len(self.data) % self.blocksize
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padded = False
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if partial > 0:
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if trim:
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self.data = self.data[:-partial]
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elif pad:
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self.data += '\0' * (self.blocksize - partial)
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padded = True
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else:
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raise ValueError(("data for DataImage must be multiple of %d bytes "
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"unless trim or pad is specified") %
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(self.blocksize,))
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assert len(self.data) % self.blocksize == 0
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self.total_blocks = len(self.data) / self.blocksize
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self.care_map = RangeSet(data=(0, self.total_blocks))
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# When the last block is padded, we always write the whole block even for
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# incremental OTAs. Because otherwise the last block may get skipped if
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# unchanged for an incremental, but would fail the post-install
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# verification if it has non-zero contents in the padding bytes.
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# Bug: 23828506
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if padded:
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clobbered_blocks = [self.total_blocks-1, self.total_blocks]
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else:
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clobbered_blocks = []
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self.clobbered_blocks = clobbered_blocks
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self.extended = RangeSet()
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zero_blocks = []
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nonzero_blocks = []
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reference = '\0' * self.blocksize
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for i in range(self.total_blocks-1 if padded else self.total_blocks):
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d = self.data[i*self.blocksize : (i+1)*self.blocksize]
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if d == reference:
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zero_blocks.append(i)
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zero_blocks.append(i+1)
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else:
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nonzero_blocks.append(i)
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nonzero_blocks.append(i+1)
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assert zero_blocks or nonzero_blocks or clobbered_blocks
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self.file_map = dict()
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if zero_blocks:
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self.file_map["__ZERO"] = RangeSet(data=zero_blocks)
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if nonzero_blocks:
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self.file_map["__NONZERO"] = RangeSet(data=nonzero_blocks)
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if clobbered_blocks:
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self.file_map["__COPY"] = RangeSet(data=clobbered_blocks)
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def ReadRangeSet(self, ranges):
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return [self.data[s*self.blocksize:e*self.blocksize] for (s, e) in ranges]
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def TotalSha1(self, include_clobbered_blocks=False):
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if not include_clobbered_blocks:
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ranges = self.care_map.subtract(self.clobbered_blocks)
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return sha1(self.ReadRangeSet(ranges)).hexdigest()
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else:
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return sha1(self.data).hexdigest()
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class Transfer(object):
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def __init__(self, tgt_name, src_name, tgt_ranges, src_ranges, style, by_id):
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self.tgt_name = tgt_name
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self.src_name = src_name
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self.tgt_ranges = tgt_ranges
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self.src_ranges = src_ranges
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self.style = style
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self.intact = (getattr(tgt_ranges, "monotonic", False) and
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getattr(src_ranges, "monotonic", False))
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# We use OrderedDict rather than dict so that the output is repeatable;
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# otherwise it would depend on the hash values of the Transfer objects.
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self.goes_before = OrderedDict()
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self.goes_after = OrderedDict()
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self.stash_before = []
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self.use_stash = []
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self.id = len(by_id)
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by_id.append(self)
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def NetStashChange(self):
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return (sum(sr.size() for (_, sr) in self.stash_before) -
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sum(sr.size() for (_, sr) in self.use_stash))
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def ConvertToNew(self):
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assert self.style != "new"
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self.use_stash = []
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self.style = "new"
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self.src_ranges = RangeSet()
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def __str__(self):
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return (str(self.id) + ": <" + str(self.src_ranges) + " " + self.style +
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" to " + str(self.tgt_ranges) + ">")
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@functools.total_ordering
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class HeapItem(object):
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def __init__(self, item):
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self.item = item
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# Negate the score since python's heap is a min-heap and we want
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# the maximum score.
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self.score = -item.score
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def clear(self):
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self.item = None
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def __bool__(self):
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return self.item is None
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def __eq__(self, other):
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return self.score == other.score
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def __le__(self, other):
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return self.score <= other.score
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# BlockImageDiff works on two image objects. An image object is
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# anything that provides the following attributes:
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#
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# blocksize: the size in bytes of a block, currently must be 4096.
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#
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# total_blocks: the total size of the partition/image, in blocks.
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#
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# care_map: a RangeSet containing which blocks (in the range [0,
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# total_blocks) we actually care about; i.e. which blocks contain
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# data.
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#
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# file_map: a dict that partitions the blocks contained in care_map
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# into smaller domains that are useful for doing diffs on.
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# (Typically a domain is a file, and the key in file_map is the
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# pathname.)
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#
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# clobbered_blocks: a RangeSet containing which blocks contain data
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# but may be altered by the FS. They need to be excluded when
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# verifying the partition integrity.
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#
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# ReadRangeSet(): a function that takes a RangeSet and returns the
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# data contained in the image blocks of that RangeSet. The data
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# is returned as a list or tuple of strings; concatenating the
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# elements together should produce the requested data.
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# Implementations are free to break up the data into list/tuple
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# elements in any way that is convenient.
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#
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# TotalSha1(): a function that returns (as a hex string) the SHA-1
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# hash of all the data in the image (ie, all the blocks in the
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# care_map minus clobbered_blocks, or including the clobbered
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# blocks if include_clobbered_blocks is True).
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#
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# When creating a BlockImageDiff, the src image may be None, in which
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# case the list of transfers produced will never read from the
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# original image.
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class BlockImageDiff(object):
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def __init__(self, tgt, src=None, threads=None, version=4,
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disable_imgdiff=False):
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if threads is None:
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threads = multiprocessing.cpu_count() // 2
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if threads == 0:
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threads = 1
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self.threads = threads
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self.version = version
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self.transfers = []
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self.src_basenames = {}
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self.src_numpatterns = {}
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self._max_stashed_size = 0
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self.touched_src_ranges = RangeSet()
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self.touched_src_sha1 = None
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self.disable_imgdiff = disable_imgdiff
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assert version in (1, 2, 3, 4)
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self.tgt = tgt
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if src is None:
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src = EmptyImage()
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self.src = src
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# The updater code that installs the patch always uses 4k blocks.
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assert tgt.blocksize == 4096
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assert src.blocksize == 4096
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# The range sets in each filemap should comprise a partition of
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# the care map.
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self.AssertPartition(src.care_map, src.file_map.values())
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self.AssertPartition(tgt.care_map, tgt.file_map.values())
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@property
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def max_stashed_size(self):
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return self._max_stashed_size
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def Compute(self, prefix):
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# When looking for a source file to use as the diff input for a
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# target file, we try:
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# 1) an exact path match if available, otherwise
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# 2) a exact basename match if available, otherwise
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# 3) a basename match after all runs of digits are replaced by
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# "#" if available, otherwise
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# 4) we have no source for this target.
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self.AbbreviateSourceNames()
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self.FindTransfers()
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# Find the ordering dependencies among transfers (this is O(n^2)
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# in the number of transfers).
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self.GenerateDigraph()
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# Find a sequence of transfers that satisfies as many ordering
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# dependencies as possible (heuristically).
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self.FindVertexSequence()
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# Fix up the ordering dependencies that the sequence didn't
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# satisfy.
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if self.version == 1:
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self.RemoveBackwardEdges()
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else:
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self.ReverseBackwardEdges()
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self.ImproveVertexSequence()
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# Ensure the runtime stash size is under the limit.
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if self.version >= 2 and common.OPTIONS.cache_size is not None:
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self.ReviseStashSize()
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# Double-check our work.
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self.AssertSequenceGood()
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self.ComputePatches(prefix)
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self.WriteTransfers(prefix)
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def HashBlocks(self, source, ranges): # pylint: disable=no-self-use
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data = source.ReadRangeSet(ranges)
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ctx = sha1()
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for p in data:
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ctx.update(p)
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return ctx.hexdigest()
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def WriteTransfers(self, prefix):
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def WriteTransfersZero(out, to_zero):
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"""Limit the number of blocks in command zero to 1024 blocks.
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This prevents the target size of one command from being too large; and
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might help to avoid fsync errors on some devices."""
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zero_blocks_limit = 1024
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total = 0
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while to_zero:
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zero_blocks = to_zero.first(zero_blocks_limit)
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out.append("zero %s\n" % (zero_blocks.to_string_raw(),))
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total += zero_blocks.size()
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to_zero = to_zero.subtract(zero_blocks)
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return total
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out = []
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total = 0
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stashes = {}
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stashed_blocks = 0
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max_stashed_blocks = 0
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free_stash_ids = []
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next_stash_id = 0
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for xf in self.transfers:
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if self.version < 2:
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assert not xf.stash_before
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assert not xf.use_stash
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for s, sr in xf.stash_before:
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assert s not in stashes
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if free_stash_ids:
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sid = heapq.heappop(free_stash_ids)
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else:
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sid = next_stash_id
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next_stash_id += 1
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stashes[s] = sid
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if self.version == 2:
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stashed_blocks += sr.size()
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out.append("stash %d %s\n" % (sid, sr.to_string_raw()))
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else:
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sh = self.HashBlocks(self.src, sr)
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if sh in stashes:
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stashes[sh] += 1
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else:
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stashes[sh] = 1
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stashed_blocks += sr.size()
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self.touched_src_ranges = self.touched_src_ranges.union(sr)
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out.append("stash %s %s\n" % (sh, sr.to_string_raw()))
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if stashed_blocks > max_stashed_blocks:
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max_stashed_blocks = stashed_blocks
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free_string = []
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free_size = 0
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if self.version == 1:
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src_str = xf.src_ranges.to_string_raw() if xf.src_ranges else ""
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elif self.version >= 2:
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# <# blocks> <src ranges>
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# OR
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# <# blocks> <src ranges> <src locs> <stash refs...>
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# OR
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# <# blocks> - <stash refs...>
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size = xf.src_ranges.size()
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src_str = [str(size)]
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unstashed_src_ranges = xf.src_ranges
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mapped_stashes = []
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for s, sr in xf.use_stash:
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sid = stashes.pop(s)
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unstashed_src_ranges = unstashed_src_ranges.subtract(sr)
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sh = self.HashBlocks(self.src, sr)
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sr = xf.src_ranges.map_within(sr)
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mapped_stashes.append(sr)
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if self.version == 2:
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src_str.append("%d:%s" % (sid, sr.to_string_raw()))
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# A stash will be used only once. We need to free the stash
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# immediately after the use, instead of waiting for the automatic
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# clean-up at the end. Because otherwise it may take up extra space
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# and lead to OTA failures.
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# Bug: 23119955
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free_string.append("free %d\n" % (sid,))
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free_size += sr.size()
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else:
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assert sh in stashes
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src_str.append("%s:%s" % (sh, sr.to_string_raw()))
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stashes[sh] -= 1
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if stashes[sh] == 0:
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free_size += sr.size()
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free_string.append("free %s\n" % (sh))
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stashes.pop(sh)
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heapq.heappush(free_stash_ids, sid)
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if unstashed_src_ranges:
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src_str.insert(1, unstashed_src_ranges.to_string_raw())
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if xf.use_stash:
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mapped_unstashed = xf.src_ranges.map_within(unstashed_src_ranges)
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src_str.insert(2, mapped_unstashed.to_string_raw())
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mapped_stashes.append(mapped_unstashed)
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self.AssertPartition(RangeSet(data=(0, size)), mapped_stashes)
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else:
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src_str.insert(1, "-")
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self.AssertPartition(RangeSet(data=(0, size)), mapped_stashes)
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src_str = " ".join(src_str)
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# all versions:
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# zero <rangeset>
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# new <rangeset>
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# erase <rangeset>
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#
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# version 1:
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# bsdiff patchstart patchlen <src rangeset> <tgt rangeset>
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# imgdiff patchstart patchlen <src rangeset> <tgt rangeset>
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# move <src rangeset> <tgt rangeset>
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#
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# version 2:
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# bsdiff patchstart patchlen <tgt rangeset> <src_str>
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# imgdiff patchstart patchlen <tgt rangeset> <src_str>
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# move <tgt rangeset> <src_str>
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#
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# version 3:
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# bsdiff patchstart patchlen srchash tgthash <tgt rangeset> <src_str>
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# imgdiff patchstart patchlen srchash tgthash <tgt rangeset> <src_str>
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# move hash <tgt rangeset> <src_str>
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tgt_size = xf.tgt_ranges.size()
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if xf.style == "new":
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assert xf.tgt_ranges
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out.append("%s %s\n" % (xf.style, xf.tgt_ranges.to_string_raw()))
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total += tgt_size
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elif xf.style == "move":
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assert xf.tgt_ranges
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assert xf.src_ranges.size() == tgt_size
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if xf.src_ranges != xf.tgt_ranges:
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if self.version == 1:
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out.append("%s %s %s\n" % (
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xf.style,
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xf.src_ranges.to_string_raw(), xf.tgt_ranges.to_string_raw()))
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elif self.version == 2:
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out.append("%s %s %s\n" % (
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xf.style,
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xf.tgt_ranges.to_string_raw(), src_str))
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elif self.version >= 3:
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# take into account automatic stashing of overlapping blocks
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|
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 WriteTransfersZero(out, 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 (WriteTransfersZero(out, 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:
|
|
# version 2 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")
|
|
|
|
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...")
|
|
stashes = {}
|
|
|
|
# Create the map between a stash and its def/use points. For example, for a
|
|
# given stash of (idx, sr), stashes[idx] = (sr, def_cmd, use_cmd).
|
|
for xf in self.transfers:
|
|
# Command xf defines (stores) all the stashes in stash_before.
|
|
for idx, sr in xf.stash_before:
|
|
stashes[idx] = (sr, xf)
|
|
|
|
# Record all the stashes command xf uses.
|
|
for idx, _ in xf.use_stash:
|
|
stashes[idx] += (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
|
|
|
|
stashed_blocks = 0
|
|
new_blocks = 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 idx, sr in xf.stash_before:
|
|
if stashed_blocks + sr.size() > 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 = stashes[idx][2]
|
|
replaced_cmds.append(use_cmd)
|
|
print("%10d %9s %s" % (sr.size(), "explicit", use_cmd))
|
|
else:
|
|
stashed_blocks += sr.size()
|
|
|
|
# xf.use_stash generates free commands.
|
|
for _, sr in xf.use_stash:
|
|
stashed_blocks -= sr.size()
|
|
|
|
# "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 idx, sr in cmd.use_stash:
|
|
def_cmd = stashes[idx][1]
|
|
assert (idx, sr) in def_cmd.stash_before
|
|
def_cmd.stash_before.remove((idx, sr))
|
|
|
|
# Add up blocks that violates space limit and print total number to
|
|
# screen later.
|
|
new_blocks += cmd.tgt_ranges.size()
|
|
cmd.ConvertToNew()
|
|
|
|
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))
|
|
|
|
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":
|
|
pass
|
|
elif xf.style == "new":
|
|
for piece in self.tgt.ReadRangeSet(xf.tgt_ranges):
|
|
new_f.write(piece)
|
|
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"
|
|
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" % (
|
|
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 + ")")))
|
|
|
|
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):
|
|
print("Reversing backward edges...")
|
|
in_order = 0
|
|
out_of_order = 0
|
|
stashes = 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((stashes, overlap))
|
|
xf.use_stash.append((stashes, overlap))
|
|
stashes += 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)
|
|
|
|
sinks = set(u for u in G if not u.outgoing)
|
|
sources = set(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 = set()
|
|
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.add(iu)
|
|
sinks = new_sinks
|
|
|
|
# Put all the sources at the beginning of the sequence.
|
|
while sources:
|
|
new_sources = set()
|
|
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.add(iu)
|
|
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.add(iu)
|
|
|
|
for iu in u.incoming:
|
|
adjust_score(iu, -iu.outgoing.pop(u))
|
|
if not iu.outgoing: sinks.add(iu)
|
|
|
|
# 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,
|
|
# - a transfer, if one transfer uses it as a source, or
|
|
# - a 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] = b
|
|
else:
|
|
if not isinstance(source_ranges[i], set):
|
|
source_ranges[i] = set([source_ranges[i]])
|
|
source_ranges[i].add(b)
|
|
|
|
for a in self.transfers:
|
|
intersections = set()
|
|
for s, e in a.tgt_ranges:
|
|
for i in range(s, e):
|
|
if i >= len(source_ranges): break
|
|
b = source_ranges[i]
|
|
if b is not None:
|
|
if isinstance(b, set):
|
|
intersections.update(b)
|
|
else:
|
|
intersections.add(b)
|
|
|
|
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 AddTransfer(tgt_name, src_name, tgt_ranges, src_ranges, style, by_id,
|
|
split=False):
|
|
"""Wrapper function for adding a Transfer().
|
|
|
|
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 (greater than MAX_BLOCKS_PER_DIFF_TRANSFER), 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% volantis, and 20% for angler and bullhead."""
|
|
|
|
# We care about diff transfers only.
|
|
if style != "diff" or not split:
|
|
Transfer(tgt_name, src_name, tgt_ranges, src_ranges, style, by_id)
|
|
return
|
|
|
|
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)
|
|
|
|
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
|