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-rwxr-xr-xmemory/replace/dmd/dmd.py890
1 files changed, 890 insertions, 0 deletions
diff --git a/memory/replace/dmd/dmd.py b/memory/replace/dmd/dmd.py
new file mode 100755
index 000000000..d6b09f756
--- /dev/null
+++ b/memory/replace/dmd/dmd.py
@@ -0,0 +1,890 @@
+#! /usr/bin/env python
+#
+# This Source Code Form is subject to the terms of the Mozilla Public
+# License, v. 2.0. If a copy of the MPL was not distributed with this
+# file, You can obtain one at http://mozilla.org/MPL/2.0/.
+
+'''This script analyzes a JSON file emitted by DMD.'''
+
+from __future__ import print_function, division
+
+import argparse
+import collections
+import gzip
+import json
+import os
+import platform
+import re
+import shutil
+import sys
+import tempfile
+from bisect import bisect_right
+
+# The DMD output version this script handles.
+outputVersion = 5
+
+# If --ignore-alloc-fns is specified, stack frames containing functions that
+# match these strings will be removed from the *start* of stack traces. (Once
+# we hit a non-matching frame, any subsequent frames won't be removed even if
+# they do match.)
+allocatorFns = [
+ # Matches malloc, replace_malloc, moz_xmalloc, vpx_malloc, js_malloc, pod_malloc, malloc_zone_*, g_malloc.
+ 'malloc',
+ # Matches calloc, replace_calloc, moz_xcalloc, vpx_calloc, js_calloc, pod_calloc, malloc_zone_calloc, pod_callocCanGC.
+ 'calloc',
+ # Matches realloc, replace_realloc, moz_xrealloc, vpx_realloc, js_realloc, pod_realloc, pod_reallocCanGC.
+ 'realloc',
+ # Matches memalign, posix_memalign, replace_memalign, replace_posix_memalign, moz_xmemalign, moz_xposix_memalign, vpx_memalign, malloc_zone_memalign.
+ 'memalign',
+ 'operator new(',
+ 'operator new[](',
+ 'g_slice_alloc',
+ # This one necessary to fully filter some sequences of allocation functions
+ # that happen in practice. Note that ??? entries that follow non-allocation
+ # functions won't be stripped, as explained above.
+ '???',
+]
+
+class Record(object):
+ '''A record is an aggregation of heap blocks that have identical stack
+ traces. It can also be used to represent the difference between two
+ records.'''
+
+ def __init__(self):
+ self.numBlocks = 0
+ self.reqSize = 0
+ self.slopSize = 0
+ self.usableSize = 0
+ self.allocatedAtDesc = None
+ self.reportedAtDescs = []
+ self.usableSizes = collections.defaultdict(int)
+
+ def isZero(self, args):
+ return self.numBlocks == 0 and \
+ self.reqSize == 0 and \
+ self.slopSize == 0 and \
+ self.usableSize == 0 and \
+ len(self.usableSizes) == 0
+
+ def negate(self):
+ self.numBlocks = -self.numBlocks
+ self.reqSize = -self.reqSize
+ self.slopSize = -self.slopSize
+ self.usableSize = -self.usableSize
+
+ negatedUsableSizes = collections.defaultdict(int)
+ for usableSize, count in self.usableSizes.items():
+ negatedUsableSizes[-usableSize] = count
+ self.usableSizes = negatedUsableSizes
+
+ def subtract(self, r):
+ # We should only be calling this on records with matching stack traces.
+ # Check this.
+ assert self.allocatedAtDesc == r.allocatedAtDesc
+ assert self.reportedAtDescs == r.reportedAtDescs
+
+ self.numBlocks -= r.numBlocks
+ self.reqSize -= r.reqSize
+ self.slopSize -= r.slopSize
+ self.usableSize -= r.usableSize
+
+ usableSizes1 = self.usableSizes
+ usableSizes2 = r.usableSizes
+ usableSizes3 = collections.defaultdict(int)
+ for usableSize in usableSizes1:
+ counts1 = usableSizes1[usableSize]
+ if usableSize in usableSizes2:
+ counts2 = usableSizes2[usableSize]
+ del usableSizes2[usableSize]
+ counts3 = counts1 - counts2
+ if counts3 != 0:
+ if counts3 < 0:
+ usableSize = -usableSize
+ counts3 = -counts3
+ usableSizes3[usableSize] = counts3
+ else:
+ usableSizes3[usableSize] = counts1
+
+ for usableSize in usableSizes2:
+ usableSizes3[-usableSize] = usableSizes2[usableSize]
+
+ self.usableSizes = usableSizes3
+
+ @staticmethod
+ def cmpByUsableSize(r1, r2):
+ # Sort by usable size, then by req size.
+ return cmp(abs(r1.usableSize), abs(r2.usableSize)) or \
+ Record.cmpByReqSize(r1, r2)
+
+ @staticmethod
+ def cmpByReqSize(r1, r2):
+ # Sort by req size.
+ return cmp(abs(r1.reqSize), abs(r2.reqSize))
+
+ @staticmethod
+ def cmpBySlopSize(r1, r2):
+ # Sort by slop size.
+ return cmp(abs(r1.slopSize), abs(r2.slopSize))
+
+ @staticmethod
+ def cmpByNumBlocks(r1, r2):
+ # Sort by block counts, then by usable size.
+ return cmp(abs(r1.numBlocks), abs(r2.numBlocks)) or \
+ Record.cmpByUsableSize(r1, r2)
+
+
+sortByChoices = {
+ 'usable': Record.cmpByUsableSize, # the default
+ 'req': Record.cmpByReqSize,
+ 'slop': Record.cmpBySlopSize,
+ 'num-blocks': Record.cmpByNumBlocks,
+}
+
+
+def parseCommandLine():
+ # 24 is the maximum number of frames that DMD will produce.
+ def range_1_24(string):
+ value = int(string)
+ if value < 1 or value > 24:
+ msg = '{:s} is not in the range 1..24'.format(string)
+ raise argparse.ArgumentTypeError(msg)
+ return value
+
+ description = '''
+Analyze heap data produced by DMD.
+If one file is specified, analyze it; if two files are specified, analyze the
+difference.
+Input files can be gzipped.
+Write to stdout unless -o/--output is specified.
+Stack traces are fixed to show function names, filenames and line numbers
+unless --no-fix-stacks is specified; stack fixing modifies the original file
+and may take some time. If specified, the BREAKPAD_SYMBOLS_PATH environment
+variable is used to find breakpad symbols for stack fixing.
+'''
+ p = argparse.ArgumentParser(description=description)
+
+ p.add_argument('-o', '--output', type=argparse.FileType('w'),
+ help='output file; stdout if unspecified')
+
+ p.add_argument('-f', '--max-frames', type=range_1_24,
+ help='maximum number of frames to consider in each trace')
+
+ p.add_argument('-s', '--sort-by', choices=sortByChoices.keys(),
+ default='usable',
+ help='sort the records by a particular metric')
+
+ p.add_argument('-a', '--ignore-alloc-fns', action='store_true',
+ help='ignore allocation functions at the start of traces')
+
+ p.add_argument('--no-fix-stacks', action='store_true',
+ help='do not fix stacks')
+
+ p.add_argument('--clamp-contents', action='store_true',
+ help='for a scan mode log, clamp addresses to the start of live blocks, or zero if not in one')
+
+ p.add_argument('--print-clamp-stats', action='store_true',
+ help='print information about the results of pointer clamping; mostly useful for debugging clamping')
+
+ p.add_argument('--filter-stacks-for-testing', action='store_true',
+ help='filter stack traces; only useful for testing purposes')
+
+ p.add_argument('input_file',
+ help='a file produced by DMD')
+
+ p.add_argument('input_file2', nargs='?',
+ help='a file produced by DMD; if present, it is diff\'d with input_file')
+
+ return p.parse_args(sys.argv[1:])
+
+
+# Fix stacks if necessary: first write the output to a tempfile, then replace
+# the original file with it.
+def fixStackTraces(inputFilename, isZipped, opener):
+ # This append() call is needed to make the import statements work when this
+ # script is installed as a symlink.
+ sys.path.append(os.path.dirname(__file__))
+
+ bpsyms = os.environ.get('BREAKPAD_SYMBOLS_PATH', None)
+ sysname = platform.system()
+ if bpsyms and os.path.exists(bpsyms):
+ import fix_stack_using_bpsyms as fixModule
+ fix = lambda line: fixModule.fixSymbols(line, bpsyms)
+ elif sysname == 'Linux':
+ import fix_linux_stack as fixModule
+ fix = lambda line: fixModule.fixSymbols(line)
+ elif sysname == 'Darwin':
+ import fix_macosx_stack as fixModule
+ fix = lambda line: fixModule.fixSymbols(line)
+ else:
+ fix = None # there is no fix script for Windows
+
+ if fix:
+ # Fix stacks, writing output to a temporary file, and then
+ # overwrite the original file.
+ tmpFile = tempfile.NamedTemporaryFile(delete=False)
+
+ # If the input is gzipped, then the output (written initially to
+ # |tmpFile|) should be gzipped as well.
+ #
+ # And we want to set its pre-gzipped filename to '' rather than the
+ # name of the temporary file, so that programs like the Unix 'file'
+ # utility don't say that it was called 'tmp6ozTxE' (or something like
+ # that) before it was zipped. So that explains the |filename=''|
+ # parameter.
+ #
+ # But setting the filename like that clobbers |tmpFile.name|, so we
+ # must get that now in order to move |tmpFile| at the end.
+ tmpFilename = tmpFile.name
+ if isZipped:
+ tmpFile = gzip.GzipFile(filename='', fileobj=tmpFile)
+
+ with opener(inputFilename, 'rb') as inputFile:
+ for line in inputFile:
+ tmpFile.write(fix(line))
+
+ tmpFile.close()
+
+ shutil.move(tmpFilename, inputFilename)
+
+
+def getDigestFromFile(args, inputFile):
+ # Handle gzipped input if necessary.
+ isZipped = inputFile.endswith('.gz')
+ opener = gzip.open if isZipped else open
+
+ # Fix stack traces unless otherwise instructed.
+ if not args.no_fix_stacks:
+ fixStackTraces(inputFile, isZipped, opener)
+
+ if args.clamp_contents:
+ clampBlockList(args, inputFile, isZipped, opener)
+
+ with opener(inputFile, 'rb') as f:
+ j = json.load(f)
+
+ if j['version'] != outputVersion:
+ raise Exception("'version' property isn't '{:d}'".format(outputVersion))
+
+ # Extract the main parts of the JSON object.
+ invocation = j['invocation']
+ dmdEnvVar = invocation['dmdEnvVar']
+ mode = invocation['mode']
+ blockList = j['blockList']
+ traceTable = j['traceTable']
+ frameTable = j['frameTable']
+
+ # Insert the necessary entries for unrecorded stack traces. Note that 'ut'
+ # and 'uf' will not overlap with any keys produced by DMD's
+ # ToIdStringConverter::Base32() function.
+ unrecordedTraceID = 'ut'
+ unrecordedFrameID = 'uf'
+ traceTable[unrecordedTraceID] = [unrecordedFrameID]
+ frameTable[unrecordedFrameID] = \
+ '#00: (no stack trace recorded due to --stacks=partial)'
+
+ # For the purposes of this script, 'scan' behaves like 'live'.
+ if mode == 'scan':
+ mode = 'live'
+
+ if not mode in ['live', 'dark-matter', 'cumulative']:
+ raise Exception("bad 'mode' property: '{:s}'".format(mode))
+
+ # Remove allocation functions at the start of traces.
+ if args.ignore_alloc_fns:
+ # Build a regexp that matches every function in allocatorFns.
+ escapedAllocatorFns = map(re.escape, allocatorFns)
+ fn_re = re.compile('|'.join(escapedAllocatorFns))
+
+ # Remove allocator fns from each stack trace.
+ for traceKey, frameKeys in traceTable.items():
+ numSkippedFrames = 0
+ for frameKey in frameKeys:
+ frameDesc = frameTable[frameKey]
+ if re.search(fn_re, frameDesc):
+ numSkippedFrames += 1
+ else:
+ break
+ if numSkippedFrames > 0:
+ traceTable[traceKey] = frameKeys[numSkippedFrames:]
+
+ # Trim the number of frames.
+ for traceKey, frameKeys in traceTable.items():
+ if len(frameKeys) > args.max_frames:
+ traceTable[traceKey] = frameKeys[:args.max_frames]
+
+ def buildTraceDescription(traceTable, frameTable, traceKey):
+ frameKeys = traceTable[traceKey]
+ fmt = ' #{:02d}{:}'
+
+ if args.filter_stacks_for_testing:
+ # When running SmokeDMD.cpp, every stack trace should contain at
+ # least one frame that contains 'DMD.cpp', from either |DMD.cpp| or
+ # |SmokeDMD.cpp|. (Or 'dmd.cpp' on Windows.) If we see such a
+ # frame, we replace the entire stack trace with a single,
+ # predictable frame. There is too much variation in the stack
+ # traces across different machines and platforms to do more precise
+ # matching, but this level of matching will result in failure if
+ # stack fixing fails completely.
+ for frameKey in frameKeys:
+ frameDesc = frameTable[frameKey]
+ if 'DMD.cpp' in frameDesc or 'dmd.cpp' in frameDesc:
+ return [fmt.format(1, ': ... DMD.cpp ...')]
+
+ # The frame number is always '#00' (see DMD.h for why), so we have to
+ # replace that with the correct frame number.
+ desc = []
+ for n, frameKey in enumerate(traceTable[traceKey], start=1):
+ desc.append(fmt.format(n, frameTable[frameKey][3:]))
+ return desc
+
+ # Aggregate blocks into records. All sufficiently similar blocks go into a
+ # single record.
+
+ if mode in ['live', 'cumulative']:
+ liveOrCumulativeRecords = collections.defaultdict(Record)
+ elif mode == 'dark-matter':
+ unreportedRecords = collections.defaultdict(Record)
+ onceReportedRecords = collections.defaultdict(Record)
+ twiceReportedRecords = collections.defaultdict(Record)
+
+ heapUsableSize = 0
+ heapBlocks = 0
+
+ recordKeyPartCache = {}
+
+ for block in blockList:
+ # For each block we compute a |recordKey|, and all blocks with the same
+ # |recordKey| are aggregated into a single record. The |recordKey| is
+ # derived from the block's 'alloc' and 'reps' (if present) stack
+ # traces.
+ #
+ # We use frame descriptions (e.g. "#00: foo (X.cpp:99)") when comparing
+ # traces for equality. We can't use trace keys or frame keys because
+ # they're not comparable across different DMD runs (which is relevant
+ # when doing diffs).
+ #
+ # Using frame descriptions also fits in with the stack trimming done
+ # for --max-frames, which requires that stack traces with common
+ # beginnings but different endings to be considered equivalent. E.g. if
+ # we have distinct traces T1:[A:D1,B:D2,C:D3] and T2:[X:D1,Y:D2,Z:D4]
+ # and we trim the final frame of each they should be considered
+ # equivalent because the untrimmed frame descriptions (D1 and D2)
+ # match.
+ #
+ # Having said all that, during a single invocation of dmd.py on a
+ # single DMD file, for a single frameKey value the record key will
+ # always be the same, and we might encounter it 1000s of times. So we
+ # cache prior results for speed.
+ def makeRecordKeyPart(traceKey):
+ if traceKey in recordKeyPartCache:
+ return recordKeyPartCache[traceKey]
+
+ recordKeyPart = str(map(lambda frameKey: frameTable[frameKey],
+ traceTable[traceKey]))
+ recordKeyPartCache[traceKey] = recordKeyPart
+ return recordKeyPart
+
+ allocatedAtTraceKey = block.get('alloc', unrecordedTraceID)
+ if mode in ['live', 'cumulative']:
+ recordKey = makeRecordKeyPart(allocatedAtTraceKey)
+ records = liveOrCumulativeRecords
+ elif mode == 'dark-matter':
+ recordKey = makeRecordKeyPart(allocatedAtTraceKey)
+ if 'reps' in block:
+ reportedAtTraceKeys = block['reps']
+ for reportedAtTraceKey in reportedAtTraceKeys:
+ recordKey += makeRecordKeyPart(reportedAtTraceKey)
+ if len(reportedAtTraceKeys) == 1:
+ records = onceReportedRecords
+ else:
+ records = twiceReportedRecords
+ else:
+ records = unreportedRecords
+
+ record = records[recordKey]
+
+ if 'req' not in block:
+ raise Exception("'req' property missing in block'")
+
+ reqSize = block['req']
+ slopSize = block.get('slop', 0)
+
+ if 'num' in block:
+ num = block['num']
+ else:
+ num = 1
+
+ usableSize = reqSize + slopSize
+ heapUsableSize += num * usableSize
+ heapBlocks += num
+
+ record.numBlocks += num
+ record.reqSize += num * reqSize
+ record.slopSize += num * slopSize
+ record.usableSize += num * usableSize
+ if record.allocatedAtDesc == None:
+ record.allocatedAtDesc = \
+ buildTraceDescription(traceTable, frameTable,
+ allocatedAtTraceKey)
+
+ if mode in ['live', 'cumulative']:
+ pass
+ elif mode == 'dark-matter':
+ if 'reps' in block and record.reportedAtDescs == []:
+ f = lambda k: buildTraceDescription(traceTable, frameTable, k)
+ record.reportedAtDescs = map(f, reportedAtTraceKeys)
+ record.usableSizes[usableSize] += num
+
+ # All the processed data for a single DMD file is called a "digest".
+ digest = {}
+ digest['dmdEnvVar'] = dmdEnvVar
+ digest['mode'] = mode
+ digest['heapUsableSize'] = heapUsableSize
+ digest['heapBlocks'] = heapBlocks
+ if mode in ['live', 'cumulative']:
+ digest['liveOrCumulativeRecords'] = liveOrCumulativeRecords
+ elif mode == 'dark-matter':
+ digest['unreportedRecords'] = unreportedRecords
+ digest['onceReportedRecords'] = onceReportedRecords
+ digest['twiceReportedRecords'] = twiceReportedRecords
+ return digest
+
+
+def diffRecords(args, records1, records2):
+ records3 = {}
+
+ # Process records1.
+ for k in records1:
+ r1 = records1[k]
+ if k in records2:
+ # This record is present in both records1 and records2.
+ r2 = records2[k]
+ del records2[k]
+ r2.subtract(r1)
+ if not r2.isZero(args):
+ records3[k] = r2
+ else:
+ # This record is present only in records1.
+ r1.negate()
+ records3[k] = r1
+
+ for k in records2:
+ # This record is present only in records2.
+ records3[k] = records2[k]
+
+ return records3
+
+
+def diffDigests(args, d1, d2):
+ if (d1['mode'] != d2['mode']):
+ raise Exception("the input files have different 'mode' properties")
+
+ d3 = {}
+ d3['dmdEnvVar'] = (d1['dmdEnvVar'], d2['dmdEnvVar'])
+ d3['mode'] = d1['mode']
+ d3['heapUsableSize'] = d2['heapUsableSize'] - d1['heapUsableSize']
+ d3['heapBlocks'] = d2['heapBlocks'] - d1['heapBlocks']
+ if d1['mode'] in ['live', 'cumulative']:
+ d3['liveOrCumulativeRecords'] = \
+ diffRecords(args, d1['liveOrCumulativeRecords'],
+ d2['liveOrCumulativeRecords'])
+ elif d1['mode'] == 'dark-matter':
+ d3['unreportedRecords'] = diffRecords(args, d1['unreportedRecords'],
+ d2['unreportedRecords'])
+ d3['onceReportedRecords'] = diffRecords(args, d1['onceReportedRecords'],
+ d2['onceReportedRecords'])
+ d3['twiceReportedRecords'] = diffRecords(args, d1['twiceReportedRecords'],
+ d2['twiceReportedRecords'])
+ return d3
+
+
+def printDigest(args, digest):
+ dmdEnvVar = digest['dmdEnvVar']
+ mode = digest['mode']
+ heapUsableSize = digest['heapUsableSize']
+ heapBlocks = digest['heapBlocks']
+ if mode in ['live', 'cumulative']:
+ liveOrCumulativeRecords = digest['liveOrCumulativeRecords']
+ elif mode == 'dark-matter':
+ unreportedRecords = digest['unreportedRecords']
+ onceReportedRecords = digest['onceReportedRecords']
+ twiceReportedRecords = digest['twiceReportedRecords']
+
+ separator = '#' + '-' * 65 + '\n'
+
+ def number(n):
+ '''Format a number with comma as a separator.'''
+ return '{:,d}'.format(n)
+
+ def perc(m, n):
+ return 0 if n == 0 else (100 * m / n)
+
+ def plural(n):
+ return '' if n == 1 else 's'
+
+ # Prints to stdout, or to file if -o/--output was specified.
+ def out(*arguments, **kwargs):
+ print(*arguments, file=args.output, **kwargs)
+
+ def printStack(traceDesc):
+ for frameDesc in traceDesc:
+ out(frameDesc)
+
+ def printRecords(recordKind, records, heapUsableSize):
+ RecordKind = recordKind.capitalize()
+ out(separator)
+ numRecords = len(records)
+ cmpRecords = sortByChoices[args.sort_by]
+ sortedRecords = sorted(records.values(), cmp=cmpRecords, reverse=True)
+ kindBlocks = 0
+ kindUsableSize = 0
+ maxRecord = 1000
+
+ # First iteration: get totals, etc.
+ for record in sortedRecords:
+ kindBlocks += record.numBlocks
+ kindUsableSize += record.usableSize
+
+ # Second iteration: print.
+ if numRecords == 0:
+ out('# no {:} heap blocks\n'.format(recordKind))
+
+ kindCumulativeUsableSize = 0
+ for i, record in enumerate(sortedRecords, start=1):
+ # Stop printing at the |maxRecord|th record.
+ if i == maxRecord:
+ out('# {:}: stopping after {:,d} heap block records\n'.
+ format(RecordKind, i))
+ break
+
+ kindCumulativeUsableSize += record.usableSize
+
+ out(RecordKind + ' {')
+ out(' {:} block{:} in heap block record {:,d} of {:,d}'.
+ format(number(record.numBlocks),
+ plural(record.numBlocks), i, numRecords))
+ out(' {:} bytes ({:} requested / {:} slop)'.
+ format(number(record.usableSize),
+ number(record.reqSize),
+ number(record.slopSize)))
+
+ abscmp = lambda (usableSize1, _1), (usableSize2, _2): \
+ cmp(abs(usableSize1), abs(usableSize2))
+ usableSizes = sorted(record.usableSizes.items(), cmp=abscmp,
+ reverse=True)
+
+ hasSingleBlock = len(usableSizes) == 1 and usableSizes[0][1] == 1
+
+ if not hasSingleBlock:
+ out(' Individual block sizes: ', end='')
+ if len(usableSizes) == 0:
+ out('(no change)', end='')
+ else:
+ isFirst = True
+ for usableSize, count in usableSizes:
+ if not isFirst:
+ out('; ', end='')
+ out('{:}'.format(number(usableSize)), end='')
+ if count > 1:
+ out(' x {:,d}'.format(count), end='')
+ isFirst = False
+ out()
+
+ out(' {:4.2f}% of the heap ({:4.2f}% cumulative)'.
+ format(perc(record.usableSize, heapUsableSize),
+ perc(kindCumulativeUsableSize, heapUsableSize)))
+ if mode in ['live', 'cumulative']:
+ pass
+ elif mode == 'dark-matter':
+ out(' {:4.2f}% of {:} ({:4.2f}% cumulative)'.
+ format(perc(record.usableSize, kindUsableSize),
+ recordKind,
+ perc(kindCumulativeUsableSize, kindUsableSize)))
+ out(' Allocated at {')
+ printStack(record.allocatedAtDesc)
+ out(' }')
+ if mode in ['live', 'cumulative']:
+ pass
+ elif mode == 'dark-matter':
+ for n, reportedAtDesc in enumerate(record.reportedAtDescs):
+ again = 'again ' if n > 0 else ''
+ out(' Reported {:}at {{'.format(again))
+ printStack(reportedAtDesc)
+ out(' }')
+ out('}\n')
+
+ return (kindUsableSize, kindBlocks)
+
+
+ def printInvocation(n, dmdEnvVar, mode):
+ out('Invocation{:} {{'.format(n))
+ if dmdEnvVar == None:
+ out(' $DMD is undefined')
+ else:
+ out(' $DMD = \'' + dmdEnvVar + '\'')
+ out(' Mode = \'' + mode + '\'')
+ out('}\n')
+
+ # Print command line. Strip dirs so the output is deterministic, which is
+ # needed for testing.
+ out(separator, end='')
+ out('# ' + ' '.join(map(os.path.basename, sys.argv)) + '\n')
+
+ # Print invocation(s).
+ if type(dmdEnvVar) is not tuple:
+ printInvocation('', dmdEnvVar, mode)
+ else:
+ printInvocation(' 1', dmdEnvVar[0], mode)
+ printInvocation(' 2', dmdEnvVar[1], mode)
+
+ # Print records.
+ if mode in ['live', 'cumulative']:
+ liveOrCumulativeUsableSize, liveOrCumulativeBlocks = \
+ printRecords(mode, liveOrCumulativeRecords, heapUsableSize)
+ elif mode == 'dark-matter':
+ twiceReportedUsableSize, twiceReportedBlocks = \
+ printRecords('twice-reported', twiceReportedRecords, heapUsableSize)
+
+ unreportedUsableSize, unreportedBlocks = \
+ printRecords('unreported', unreportedRecords, heapUsableSize)
+
+ onceReportedUsableSize, onceReportedBlocks = \
+ printRecords('once-reported', onceReportedRecords, heapUsableSize)
+
+ # Print summary.
+ out(separator)
+ out('Summary {')
+ if mode in ['live', 'cumulative']:
+ out(' Total: {:} bytes in {:} blocks'.
+ format(number(liveOrCumulativeUsableSize),
+ number(liveOrCumulativeBlocks)))
+ elif mode == 'dark-matter':
+ fmt = ' {:15} {:>12} bytes ({:6.2f}%) in {:>7} blocks ({:6.2f}%)'
+ out(fmt.
+ format('Total:',
+ number(heapUsableSize),
+ 100,
+ number(heapBlocks),
+ 100))
+ out(fmt.
+ format('Unreported:',
+ number(unreportedUsableSize),
+ perc(unreportedUsableSize, heapUsableSize),
+ number(unreportedBlocks),
+ perc(unreportedBlocks, heapBlocks)))
+ out(fmt.
+ format('Once-reported:',
+ number(onceReportedUsableSize),
+ perc(onceReportedUsableSize, heapUsableSize),
+ number(onceReportedBlocks),
+ perc(onceReportedBlocks, heapBlocks)))
+ out(fmt.
+ format('Twice-reported:',
+ number(twiceReportedUsableSize),
+ perc(twiceReportedUsableSize, heapUsableSize),
+ number(twiceReportedBlocks),
+ perc(twiceReportedBlocks, heapBlocks)))
+ out('}\n')
+
+
+#############################
+# Pretty printer for DMD JSON
+#############################
+
+def prettyPrintDmdJson(out, j):
+ out.write('{\n')
+
+ out.write(' "version": {0},\n'.format(j['version']))
+ out.write(' "invocation": ')
+ json.dump(j['invocation'], out, sort_keys=True)
+ out.write(',\n')
+
+ out.write(' "blockList": [')
+ first = True
+ for b in j['blockList']:
+ out.write('' if first else ',')
+ out.write('\n ')
+ json.dump(b, out, sort_keys=True)
+ first = False
+ out.write('\n ],\n')
+
+ out.write(' "traceTable": {')
+ first = True
+ for k, l in j['traceTable'].iteritems():
+ out.write('' if first else ',')
+ out.write('\n "{0}": {1}'.format(k, json.dumps(l)))
+ first = False
+ out.write('\n },\n')
+
+ out.write(' "frameTable": {')
+ first = True
+ for k, v in j['frameTable'].iteritems():
+ out.write('' if first else ',')
+ out.write('\n "{0}": {1}'.format(k, json.dumps(v)))
+ first = False
+ out.write('\n }\n')
+
+ out.write('}\n')
+
+
+##################################################################
+# Code for clamping addresses using conservative pointer analysis.
+##################################################################
+
+# Start is the address of the first byte of the block, while end is
+# the address of the first byte after the final byte in the block.
+class AddrRange:
+ def __init__(self, block, length):
+ self.block = block
+ self.start = int(block, 16)
+ self.length = length
+ self.end = self.start + self.length
+
+ assert self.start > 0
+ assert length >= 0
+
+
+class ClampStats:
+ def __init__(self):
+ # Number of pointers already pointing to the start of a block.
+ self.startBlockPtr = 0
+
+ # Number of pointers pointing to the middle of a block. These
+ # are clamped to the start of the block they point into.
+ self.midBlockPtr = 0
+
+ # Number of null pointers.
+ self.nullPtr = 0
+
+ # Number of non-null pointers that didn't point into the middle
+ # of any blocks. These are clamped to null.
+ self.nonNullNonBlockPtr = 0
+
+
+ def clampedBlockAddr(self, sameAddress):
+ if sameAddress:
+ self.startBlockPtr += 1
+ else:
+ self.midBlockPtr += 1
+
+ def nullAddr(self):
+ self.nullPtr += 1
+
+ def clampedNonBlockAddr(self):
+ self.nonNullNonBlockPtr += 1
+
+ def log(self):
+ sys.stderr.write('Results:\n')
+ sys.stderr.write(' Number of pointers already pointing to start of blocks: ' + str(self.startBlockPtr) + '\n')
+ sys.stderr.write(' Number of pointers clamped to start of blocks: ' + str(self.midBlockPtr) + '\n')
+ sys.stderr.write(' Number of non-null pointers not pointing into blocks clamped to null: ' + str(self.nonNullNonBlockPtr) + '\n')
+ sys.stderr.write(' Number of null pointers: ' + str(self.nullPtr) + '\n')
+
+
+# Search the block ranges array for a block that address points into.
+# The search is carried out in an array of starting addresses for each blocks
+# because it is faster.
+def clampAddress(blockRanges, blockStarts, clampStats, address):
+ i = bisect_right(blockStarts, address)
+
+ # Any addresses completely out of the range should have been eliminated already.
+ assert i > 0
+ r = blockRanges[i - 1]
+ assert r.start <= address
+
+ if address >= r.end:
+ assert address < blockRanges[i].start
+ clampStats.clampedNonBlockAddr()
+ return '0'
+
+ clampStats.clampedBlockAddr(r.start == address)
+ return r.block
+
+
+def clampBlockList(args, inputFileName, isZipped, opener):
+ # XXX This isn't very efficient because we end up reading and writing
+ # the file multiple times.
+ with opener(inputFileName, 'rb') as f:
+ j = json.load(f)
+
+ if j['version'] != outputVersion:
+ raise Exception("'version' property isn't '{:d}'".format(outputVersion))
+
+ # Check that the invocation is reasonable for contents clamping.
+ invocation = j['invocation']
+ if invocation['mode'] != 'scan':
+ raise Exception("Log was taken in mode " + invocation['mode'] + " not scan")
+
+ sys.stderr.write('Creating block range list.\n')
+ blockList = j['blockList']
+ blockRanges = []
+ for block in blockList:
+ blockRanges.append(AddrRange(block['addr'], block['req']))
+ blockRanges.sort(key=lambda r: r.start)
+
+ # Make sure there are no overlapping blocks.
+ prevRange = blockRanges[0]
+ for currRange in blockRanges[1:]:
+ assert prevRange.end <= currRange.start
+ prevRange = currRange
+
+ sys.stderr.write('Clamping block contents.\n')
+ clampStats = ClampStats()
+ firstAddr = blockRanges[0].start
+ lastAddr = blockRanges[-1].end
+
+ blockStarts = []
+ for r in blockRanges:
+ blockStarts.append(r.start)
+
+ for block in blockList:
+ # Small blocks don't have any contents.
+ if not 'contents' in block:
+ continue
+
+ cont = block['contents']
+ for i in range(len(cont)):
+ address = int(cont[i], 16)
+
+ if address == 0:
+ clampStats.nullAddr()
+ continue
+
+ # If the address is before the first block or after the last
+ # block then it can't be within a block.
+ if address < firstAddr or address >= lastAddr:
+ clampStats.clampedNonBlockAddr()
+ cont[i] = '0'
+ continue
+
+ cont[i] = clampAddress(blockRanges, blockStarts, clampStats, address)
+
+ # Remove any trailing nulls.
+ while len(cont) and cont[-1] == '0':
+ cont.pop()
+
+ if args.print_clamp_stats:
+ clampStats.log()
+
+ sys.stderr.write('Saving file.\n')
+ tmpFile = tempfile.NamedTemporaryFile(delete=False)
+ tmpFilename = tmpFile.name
+ if isZipped:
+ tmpFile = gzip.GzipFile(filename='', fileobj=tmpFile)
+ prettyPrintDmdJson(tmpFile, j)
+ tmpFile.close()
+ shutil.move(tmpFilename, inputFileName)
+
+
+def main():
+ args = parseCommandLine()
+ digest = getDigestFromFile(args, args.input_file)
+ if args.input_file2:
+ digest2 = getDigestFromFile(args, args.input_file2)
+ digest = diffDigests(args, digest, digest2)
+ printDigest(args, digest)
+
+
+if __name__ == '__main__':
+ main()
+