blob: ac9cb4d0e738297d8d8f7949b40f0de68fa74aa1 [file] [log] [blame]
#!/usr/bin/env python
# Copyright (c) 2011 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
"""Prints the size of each given file and optionally computes the size of without the dependencies added for building with android NDK.
Also breaks down the contents of the APK to determine the installed size
and assign size contributions to different classes of file.
import argparse
import collections
from contextlib import contextmanager
import json
import logging
import operator
import os
import re
import struct
import sys
import tempfile
import zipfile
import zlib
from binary_size import apk_downloader
import devil_chromium
from import build_tools
from devil.utils import cmd_helper
from devil.utils import lazy
import method_count
from pylib import constants
from pylib.constants import host_paths
_AAPT_PATH = lazy.WeakConstant(lambda: build_tools.GetPath('aapt'))
_GRIT_PATH = os.path.join(host_paths.DIR_SOURCE_ROOT, 'tools', 'grit')
_BUILD_UTILS_PATH = os.path.join(
host_paths.DIR_SOURCE_ROOT, 'build', 'android', 'gyp')
host_paths.DIR_SOURCE_ROOT, 'third_party', 'apk-patch-size-estimator')
# Prepend the grit module from the source tree so it takes precedence over other
# grit versions that might present in the search path.
with host_paths.SysPath(_GRIT_PATH, 0):
from grit.format import data_pack # pylint: disable=import-error
with host_paths.SysPath(host_paths.BUILD_COMMON_PATH):
import perf_tests_results_helper # pylint: disable=import-error
with host_paths.SysPath(_BUILD_UTILS_PATH, 0):
from util import build_utils # pylint: disable=import-error
with host_paths.SysPath(_APK_PATCH_SIZE_ESTIMATOR_PATH):
import apk_patch_size_estimator # pylint: disable=import-error
# Python had a bug in zipinfo parsing that triggers on ChromeModern.apk
def _PatchedDecodeExtra(self):
# Try to decode the extra field.
extra = self.extra
unpack = struct.unpack
while len(extra) >= 4:
tp, ln = unpack('<HH', extra[:4])
if tp == 1:
if ln >= 24:
counts = unpack('<QQQ', extra[4:28])
elif ln == 16:
counts = unpack('<QQ', extra[4:20])
elif ln == 8:
counts = unpack('<Q', extra[4:12])
elif ln == 0:
counts = ()
raise RuntimeError, "Corrupt extra field %s"%(ln,)
idx = 0
# ZIP64 extension (large files and/or large archives)
if self.file_size in (0xffffffffffffffffL, 0xffffffffL):
self.file_size = counts[idx]
idx += 1
if self.compress_size == 0xFFFFFFFFL:
self.compress_size = counts[idx]
idx += 1
if self.header_offset == 0xffffffffL:
self.header_offset = counts[idx]
idx += 1
extra = extra[ln + 4:]
zipfile.ZipInfo._decodeExtra = ( # pylint: disable=protected-access
# Captures an entire config from aapt output.
_AAPT_CONFIG_PATTERN = r'config %s:(.*?)config [a-zA-Z-]+:'
# Matches string resource entries from aapt output.
_AAPT_ENTRY_RE = re.compile(
r'resource (?P<id>\w{10}) [\w\.]+:string/.*?"(?P<val>.+?)"', re.DOTALL)
'format_version': '0.1',
'benchmark_name': 'resource_sizes',
'benchmark_description': 'APK resource size information.',
'trace_rerun_options': [],
'charts': {}
host_paths.DIR_SOURCE_ROOT, 'tools', 'linux', '')
# Pragma exists when enable_resource_whitelist_generation=true.
_RC_HEADER_RE = re.compile(
r'^#define (?P<name>\w+) (?:_Pragma\(.*?\) )?(?P<id>\d+)$')
_RE_NON_LANGUAGE_PAK = re.compile(r'^assets/.*(resources|percent)\.pak$')
_RE_STORED_LANGUAGE_PAK = re.compile(r'^assets/stored-locales/.*\.pak$')
'text': ['.text'],
'data': ['.data', '.rodata', '', ''],
'relocations': ['.rel.dyn', '.rel.plt', '.rela.dyn', '.rela.plt'],
'unwind': ['.ARM.extab', '.ARM.exidx', '.eh_frame', '.eh_frame_hdr',],
'symbols': ['.dynsym', '.dynstr', '.dynamic', '.shstrtab', '.got', '.plt',
'.got.plt', '.hash'],
'bss': ['.bss'],
'other': ['.init_array', '.fini_array', '.comment', '',
'.ARM.attributes', '', '.gnu.version',
'.gnu.version_d', '.gnu.version_r', '.interp', '.gcc_except_table']
def _RunReadelf(so_path, options, tool_prefix=''):
return cmd_helper.GetCmdOutput(
[tool_prefix + 'readelf'] + options + [so_path])
def _ExtractMainLibSectionSizesFromApk(apk_path, main_lib_path, tool_prefix):
with Unzip(apk_path, filename=main_lib_path) as extracted_lib_path:
grouped_section_sizes = collections.defaultdict(int)
section_sizes = _CreateSectionNameSizeMap(extracted_lib_path, tool_prefix)
for group_name, section_names in _READELF_SIZES_METRICS.iteritems():
for section_name in section_names:
if section_name in section_sizes:
grouped_section_sizes[group_name] += section_sizes.pop(section_name)
# Group any unknown section headers into the "other" group.
for section_header, section_size in section_sizes.iteritems():
print "Unknown elf section header:", section_header
grouped_section_sizes['other'] += section_size
return grouped_section_sizes
def _CreateSectionNameSizeMap(so_path, tool_prefix):
stdout = _RunReadelf(so_path, ['-S', '--wide'], tool_prefix)
section_sizes = {}
# Matches [ 2] .hash HASH 00000000006681f0 0001f0 003154 04 A 3 0 8
for match in re.finditer(r'\[[\s\d]+\] (\..*)$', stdout, re.MULTILINE):
items =
section_sizes[items[0]] = int(items[4], 16)
return section_sizes
def _ParseLibBuildId(so_path, tool_prefix):
"""Returns the Build ID of the given native library."""
stdout = _RunReadelf(so_path, ['-n'], tool_prefix)
match ='Build ID: (\w+)', stdout)
return if match else None
def _ParseManifestAttributes(apk_path):
# Check if the manifest specifies whether or not to extract native libs.
skip_extract_lib = False
output = cmd_helper.GetCmdOutput([, 'd', 'xmltree', apk_path, 'AndroidManifest.xml'])
m ='extractNativeLibs\(.*\)=\(.*\)(\w)', output)
if m:
skip_extract_lib = not bool(int(
# Dex decompression overhead varies by Android version.
m ='android:minSdkVersion\(\w+\)=\(type \w+\)(\w+)\n', output)
sdk_version = int(, 16)
# Pre-L: Dalvik - .odex file is simply decompressed/optimized dex file (~1x).
# L, M: ART - .odex file is compiled version of the dex file (~3x).
# N: ART - Uses Dalvik-like JIT for normal apps (~1x), full compilation for
# shared apps (~3x).
if sdk_version < 21:
dex_multiplier = 1
elif sdk_version < 24:
dex_multiplier = 3
elif 'Monochrome' in apk_path or 'WebView' in apk_path:
dex_multiplier = 3
dex_multiplier = 1
return dex_multiplier, skip_extract_lib
def CountStaticInitializers(so_path, tool_prefix):
# Mostly copied from //infra/scripts/legacy/scripts/slave/chromium/
def get_elf_section_size(readelf_stdout, section_name):
# Matches: .ctors PROGBITS 000000000516add0 5169dd0 000010 00 WA 0 0 8
match ='\.%s.*$' % re.escape(section_name),
readelf_stdout, re.MULTILINE)
if not match:
return (False, -1)
size_str = re.split(r'\W+',[5]
return (True, int(size_str, 16))
# Find the number of files with at least one static initializer.
# First determine if we're 32 or 64 bit
stdout = _RunReadelf(so_path, ['-h'], tool_prefix)
elf_class_line ='Class:.*$', stdout, re.MULTILINE).group(0)
elf_class = re.split(r'\W+', elf_class_line)[1]
if elf_class == 'ELF32':
word_size = 4
word_size = 8
# Then find the number of files with global static initializers.
# NOTE: this is very implementation-specific and makes assumptions
# about how compiler and linker implement global static initializers.
si_count = 0
stdout = _RunReadelf(so_path, ['-SW'], tool_prefix)
has_init_array, init_array_size = get_elf_section_size(stdout, 'init_array')
if has_init_array:
si_count = init_array_size / word_size
si_count = max(si_count, 0)
return si_count
def GetStaticInitializers(so_path, tool_prefix):
output = cmd_helper.GetCmdOutput([_DUMP_STATIC_INITIALIZERS_PATH, '-d',
so_path, '-t', tool_prefix])
summary ='Found \d+ static initializers in (\d+) files.', output)
return output.splitlines()[:-1], int(
def _NormalizeLanguagePaks(translations, normalized_apk_size, factor):
english_pak = translations.FindByPattern(r'.*/en[-_][Uu][Ss]\.l?pak')
num_translations = translations.GetNumEntries()
if english_pak:
normalized_apk_size -= translations.ComputeZippedSize()
normalized_apk_size += int(
english_pak.compress_size * num_translations * factor)
return normalized_apk_size
def _NormalizeResourcesArsc(apk_path):
"""Estimates the expected overhead of untranslated strings in resources.arsc.
See for why this is necessary.
aapt_output = _RunAaptDumpResources(apk_path)
# en-rUS is in the default config and may be cluttered with non-translatable
# strings, so en-rGB is a better baseline for finding missing translations.
en_strings = _CreateResourceIdValueMap(aapt_output, 'en-rGB')
fr_strings = _CreateResourceIdValueMap(aapt_output, 'fr')
# Chrome supports 44 locales (en-US and en-GB will never be translated).
# This can be changed to |translations.GetNumEntries()| when Chrome and
# WebView support the same set of locales (
config_count = 42
size = 0
for res_id, string_val in en_strings.iteritems():
if string_val == fr_strings[res_id]:
string_size = len(string_val)
# 7 bytes is the per-entry overhead (not specific to any string). See
# The 1.5 factor was determined experimentally and is meant to account for
# other languages generally having longer strings than english.
size += config_count * (7 + string_size * 1.5)
return size
def _CreateResourceIdValueMap(aapt_output, lang):
"""Return a map of resource ids to string values for the given |lang|."""
config_re = _AAPT_CONFIG_PATTERN % lang
return {'id'):'val')
for config_section in re.finditer(config_re, aapt_output, re.DOTALL)
for entry in re.finditer(_AAPT_ENTRY_RE,}
def _RunAaptDumpResources(apk_path):
cmd = [, 'dump', '--values', 'resources', apk_path]
status, output = cmd_helper.GetCmdStatusAndOutput(cmd)
if status != 0:
raise Exception('Failed running aapt command: "%s" with output "%s".' %
(' '.join(cmd), output))
return output
def ReportPerfResult(chart_data, graph_title, trace_title, value, units,
improvement_direction='down', important=True):
"""Outputs test results in correct format.
If chart_data is None, it outputs data in old format. If chart_data is a
dictionary, formats in chartjson format. If any other format defaults to
old format.
if chart_data and isinstance(chart_data, dict):
chart_data['charts'].setdefault(graph_title, {})
chart_data['charts'][graph_title][trace_title] = {
'type': 'scalar',
'value': value,
'units': units,
'improvement_direction': improvement_direction,
'important': important
graph_title, trace_title, [value], units)
class _FileGroup(object):
"""Represents a category that apk files can fall into."""
def __init__(self, name): = name
self._zip_infos = []
self._extracted_multipliers = []
def AddZipInfo(self, zip_info, extracted_multiplier=0):
def AllEntries(self):
return iter(self._zip_infos)
def GetNumEntries(self):
return len(self._zip_infos)
def FindByPattern(self, pattern):
return next((i for i in self._zip_infos if re.match(pattern, i.filename)),
def FindLargest(self):
if not self._zip_infos:
return None
return max(self._zip_infos, key=lambda i: i.file_size)
def ComputeZippedSize(self):
return sum(i.compress_size for i in self._zip_infos)
def ComputeUncompressedSize(self):
return sum(i.file_size for i in self._zip_infos)
def ComputeExtractedSize(self):
ret = 0
for zi, multiplier in zip(self._zip_infos, self._extracted_multipliers):
ret += zi.file_size * multiplier
return ret
def ComputeInstallSize(self):
return self.ComputeExtractedSize() + self.ComputeZippedSize()
def PrintApkAnalysis(apk_filename, tool_prefix, chartjson=None):
"""Analyse APK to determine size contributions of different file classes."""
file_groups = []
def make_group(name):
group = _FileGroup(name)
return group
native_code = make_group('Native code')
java_code = make_group('Java code')
native_resources_no_translations = make_group('Native resources (no l10n)')
translations = make_group('Native resources (l10n)')
stored_translations = make_group('Native resources stored (l10n)')
icu_data = make_group('ICU (i18n library) data')
v8_snapshots = make_group('V8 Snapshots')
png_drawables = make_group('PNG drawables')
res_directory = make_group('Non-compiled Android resources')
arsc = make_group('Compiled Android resources')
metadata = make_group('Package metadata')
unknown = make_group('Unknown files')
notices = make_group('licenses.notice file')
apk = zipfile.ZipFile(apk_filename, 'r')
apk_contents = apk.infolist()
dex_multiplier, skip_extract_lib = _ParseManifestAttributes(apk_filename)
total_apk_size = os.path.getsize(apk_filename)
apk_basename = os.path.basename(apk_filename)
for member in apk_contents:
filename = member.filename
if filename.endswith('/'):
if filename.endswith('.so'):
should_extract_lib = not (skip_extract_lib or 'crazy' in filename)
member, extracted_multiplier=int(should_extract_lib))
elif filename.endswith('.dex'):
java_code.AddZipInfo(member, extracted_multiplier=dex_multiplier)
elif, filename):
elif, filename):
extracted_multiplier=int('en_' in filename or 'en-' in filename))
elif, filename):
elif filename == 'assets/icudtl.dat':
elif filename.endswith('.bin'):
elif filename.endswith('.png') or filename.endswith('.webp'):
elif filename.startswith('res/'):
elif filename.endswith('.arsc'):
elif filename.startswith('META-INF') or filename == 'AndroidManifest.xml':
elif filename.endswith('.notice'):
total_install_size = total_apk_size
zip_overhead = total_apk_size
for group in file_groups:
actual_size = group.ComputeZippedSize()
install_size = group.ComputeInstallSize()
total_install_size += group.ComputeExtractedSize()
zip_overhead -= actual_size
ReportPerfResult(chartjson, apk_basename + '_Breakdown', + ' size', actual_size, 'bytes')
ReportPerfResult(chartjson, apk_basename + '_InstallBreakdown', + ' size', install_size, 'bytes')
ReportPerfResult(chartjson, apk_basename + '_Uncompressed', + ' size', group.ComputeUncompressedSize(),
# Per-file zip overhead is caused by:
# * 30 byte entry header + len(file name)
# * 46 byte central directory entry + len(file name)
# * 0-3 bytes for zipalign.
ReportPerfResult(chartjson, apk_basename + '_Breakdown', 'Zip Overhead',
zip_overhead, 'bytes')
ReportPerfResult(chartjson, apk_basename + '_InstallSize', 'APK size',
total_apk_size, 'bytes')
ReportPerfResult(chartjson, apk_basename + '_InstallSize',
'Estimated installed size', total_install_size, 'bytes')
transfer_size = _CalculateCompressedSize(apk_filename)
ReportPerfResult(chartjson, apk_basename + '_TransferSize',
'Transfer size (deflate)', transfer_size, 'bytes')
# Size of main dex vs remaining.
main_dex_info = java_code.FindByPattern('classes.dex')
if main_dex_info:
main_dex_size = main_dex_info.file_size
ReportPerfResult(chartjson, apk_basename + '_Specifics',
'main dex size', main_dex_size, 'bytes')
secondary_size = java_code.ComputeUncompressedSize() - main_dex_size
ReportPerfResult(chartjson, apk_basename + '_Specifics',
'secondary dex size', secondary_size, 'bytes')
# Size of main .so vs remaining.
main_lib_info = native_code.FindLargest()
if main_lib_info:
main_lib_size = main_lib_info.file_size
ReportPerfResult(chartjson, apk_basename + '_Specifics',
'main lib size', main_lib_size, 'bytes')
secondary_size = native_code.ComputeUncompressedSize() - main_lib_size
ReportPerfResult(chartjson, apk_basename + '_Specifics',
'other lib size', secondary_size, 'bytes')
main_lib_section_sizes = _ExtractMainLibSectionSizesFromApk(
apk_filename, main_lib_info.filename, tool_prefix)
for metric_name, size in main_lib_section_sizes.iteritems():
ReportPerfResult(chartjson, apk_basename + '_MainLibInfo',
metric_name, size, 'bytes')
# Main metric that we want to monitor for jumps.
normalized_apk_size = total_apk_size
# Always look at uncompressed .dex & .so.
normalized_apk_size -= java_code.ComputeZippedSize()
normalized_apk_size += java_code.ComputeUncompressedSize()
normalized_apk_size -= native_code.ComputeZippedSize()
normalized_apk_size += native_code.ComputeUncompressedSize()
# Avoid noise caused when strings change and translations haven't yet been
# updated.
num_translations = translations.GetNumEntries()
if num_translations > 1:
# Multipliers found by looking at MonochromePublic.apk and seeing how much
# smaller en-US.pak is relative to the average locale.pak.
normalized_apk_size = _NormalizeLanguagePaks(
translations, normalized_apk_size, 1.17)
normalized_apk_size = _NormalizeLanguagePaks(
stored_translations, normalized_apk_size, 1.43)
normalized_apk_size += int(_NormalizeResourcesArsc(apk_filename))
ReportPerfResult(chartjson, apk_basename + '_Specifics',
'normalized apk size', normalized_apk_size, 'bytes')
ReportPerfResult(chartjson, apk_basename + '_Specifics',
'file count', len(apk_contents), 'zip entries')
for info in unknown.AllEntries():
print 'Unknown entry:', info.filename, info.compress_size
def IsPakFileName(file_name):
"""Returns whether the given file name ends with .pak or .lpak."""
return file_name.endswith('.pak') or file_name.endswith('.lpak')
def PrintPakAnalysis(apk_filename, min_pak_resource_size, out_dir):
"""Print sizes of all resources in all pak files in |apk_filename|."""
print 'Analyzing pak files in %s...' % apk_filename
# A structure for holding details about a pak file.
Pak = collections.namedtuple(
'Pak', ['filename', 'compress_size', 'file_size', 'resources'])
# Build a list of Pak objets for each pak file.
paks = []
apk = zipfile.ZipFile(apk_filename, 'r')
for i in (x for x in apk.infolist() if IsPakFileName(x.filename)):
with tempfile.NamedTemporaryFile() as f:
paks.append(Pak(i.filename, i.compress_size, i.file_size,
# Output the overall pak file summary.
total_files = len(paks)
total_compress_size = sum(pak.compress_size for pak in paks)
total_file_size = sum(pak.file_size for pak in paks)
print 'Total pak files: %d' % total_files
print 'Total compressed size: %s' % _FormatBytes(total_compress_size)
print 'Total uncompressed size: %s' % _FormatBytes(total_file_size)
if not paks:
# Output the table of details about all pak files.
print '%25s%11s%21s%21s' % (
for pak in sorted(paks, key=operator.attrgetter('file_size'), reverse=True):
print '%25s %10s %12s %6.2f%% %12s %6.2f%%' % (
100.0 * pak.compress_size / total_compress_size,
100.0 * pak.file_size / total_file_size)
print 'Analyzing pak resources in %s...' % apk_filename
# Calculate aggregate stats about resources across pak files.
resource_count_map = collections.defaultdict(int)
resource_size_map = collections.defaultdict(int)
seen_data_ids = set()
alias_overhead_bytes = 4
resource_overhead_bytes = 6
for pak in paks:
for k, v in pak.resources.iteritems():
resource_count_map[k] += 1
if id(v) not in seen_data_ids:
resource_size_map[k] += resource_overhead_bytes + len(v)
resource_size_map[k] += alias_overhead_bytes
# Output the overall resource summary.
total_resource_size = sum(resource_size_map.values())
total_resource_count = len(resource_count_map)
assert total_resource_size <= total_file_size
print 'Total pak resources: %s' % total_resource_count
print 'Total uncompressed resource size: %s' % _FormatBytes(
if not out_dir or not os.path.isdir(out_dir):
resource_id_name_map, resources_id_header_map = _AnnotatePakResources(out_dir)
# Output the table of details about all resources across pak files.
print '%56s %5s %17s' % ('RESOURCE', 'COUNT', 'UNCOMPRESSED SIZE')
for i in sorted(resource_size_map, key=resource_size_map.get,
if resource_size_map[i] < min_pak_resource_size:
print '%56s %5s %9s %6.2f%%' % (
resource_id_name_map.get(i, i),
100.0 * resource_size_map[i] / total_resource_size)
# Print breakdown on a per-grd file basis.
size_by_header = collections.defaultdict(int)
for resid, size in resource_size_map.iteritems():
size_by_header[resources_id_header_map.get(resid, 'unknown')] += size
print '%80s %17s' % ('HEADER', 'UNCOMPRESSED SIZE')
for header in sorted(size_by_header, key=size_by_header.get, reverse=True):
if size_by_header[header] < min_pak_resource_size:
print '%80s %9s %6.2f%%' % (
100.0 * size_by_header[header] / total_resource_size)
def _AnnotatePakResources(out_dir):
"""Returns a pair of maps: id_name_map, id_header_map."""
print 'Looking at resources in: %s' % out_dir
grit_headers = []
for root, _, files in os.walk(out_dir):
if root.endswith('grit'):
grit_headers += [os.path.join(root, f) for f in files if f.endswith('.h')]
assert grit_headers, 'Failed to find grit headers in %s' % out_dir
id_name_map = {}
id_header_map = {}
for header in grit_headers:
with open(header, 'r') as f:
for line in f.readlines():
m = _RC_HEADER_RE.match(line.strip())
if m:
i = int('id'))
name ='name')
if i in id_name_map and name != id_name_map[i]:
print 'WARNING: Resource ID conflict %s (%s vs %s)' % (
i, id_name_map[i], name)
id_name_map[i] = name
id_header_map[i] = os.path.relpath(header, out_dir)
return id_name_map, id_header_map
def _PrintStaticInitializerAnalysis(apk_filename, tool_prefix, dump_sis,
out_dir, chartjson=None):
# Static initializer counting mostly copies logic in
# infra/scripts/legacy/scripts/slave/chromium/
with zipfile.ZipFile(apk_filename) as z:
so_files = [f for f in z.infolist()
if f.filename.endswith('.so') and f.file_size > 0]
# Skip checking static initializers for 32 bit .so files when 64 bit .so files
# are present since the 32 bit versions will be checked by bots that only
# build the 32 bit version. This avoids the complexity of finding 32 bit .so
# files in the output directory in 64 bit builds.
has_64 = any('64' in f.filename for f in so_files)
files_to_check = [f for f in so_files if not has_64 or '64' in f.filename]
si_count = 0
for f in files_to_check:
with Unzip(apk_filename, filename=f.filename) as unzipped_so:
si_count += CountStaticInitializers(unzipped_so, tool_prefix)
if dump_sis and out_dir:
# Print count and list of SIs reported by
# Doesn't work well on all archs (particularly arm), which is why
# the readelf method is used for tracking SI counts.
_PrintDumpSIsCount(f.filename, unzipped_so, out_dir, tool_prefix)
ReportPerfResult(chartjson, 'StaticInitializersCount', 'count', si_count,
def _PrintDumpSIsCount(apk_so_name, unzipped_so, out_dir, tool_prefix):
lib_name = os.path.basename(apk_so_name).replace('crazy.', '')
so_with_symbols_path = os.path.join(out_dir, 'lib.unstripped', lib_name)
if os.path.exists(so_with_symbols_path):
_VerifyLibBuildIdsMatch(tool_prefix, unzipped_so, so_with_symbols_path)
sis, _ = GetStaticInitializers(
so_with_symbols_path, tool_prefix)
for si in sis:
print si
raise Exception('Unstripped .so not found. Looked here: %s',
def _FormatBytes(byts):
"""Pretty-print a number of bytes."""
if byts > 2**20.0:
byts /= 2**20.0
return '%.2fm' % byts
if byts > 2**10.0:
byts /= 2**10.0
return '%.2fk' % byts
return str(byts)
def _CalculateCompressedSize(file_path):
CHUNK_SIZE = 256 * 1024
compressor = zlib.compressobj()
total_size = 0
with open(file_path, 'rb') as f:
for chunk in iter(lambda:, ''):
total_size += len(compressor.compress(chunk))
total_size += len(compressor.flush())
return total_size
def _PrintDexAnalysis(apk_filename, chartjson=None):
sizes = method_count.ExtractSizesFromZip(apk_filename)
graph_title = os.path.basename(apk_filename) + '_Dex'
dex_metrics = method_count.CONTRIBUTORS_TO_DEX_CACHE
for key, label in dex_metrics.iteritems():
ReportPerfResult(chartjson, graph_title, label, sizes[key], 'entries')
graph_title = '%sCache' % graph_title
ReportPerfResult(chartjson, graph_title, 'DexCache', sizes['dex_cache_size'],
def _PrintPatchSizeEstimate(new_apk, builder, bucket, chartjson=None):
apk_name = os.path.basename(new_apk)
title = apk_name + '_PatchSizeEstimate'
# Reference APK paths have spaces replaced by underscores.
builder = builder.replace(' ', '_')
old_apk = apk_downloader.MaybeDownloadApk(
builder, apk_downloader.CURRENT_MILESTONE, apk_name,
apk_downloader.DEFAULT_DOWNLOAD_PATH, bucket)
if old_apk:
# Use a temp dir in case patch size functions fail to clean up temp files.
with build_utils.TempDir() as tmp:
tmp_name = os.path.join(tmp, 'patch.tmp')
bsdiff = apk_patch_size_estimator.calculate_bsdiff(
old_apk, new_apk, None, tmp_name)
ReportPerfResult(chartjson, title, 'BSDiff (gzipped)', bsdiff, 'bytes')
fbf = apk_patch_size_estimator.calculate_filebyfile(
old_apk, new_apk, None, tmp_name)
ReportPerfResult(chartjson, title, 'FileByFile (gzipped)', fbf, 'bytes')
def Unzip(zip_file, filename=None):
"""Utility for temporary use of a single file in a zip archive."""
with build_utils.TempDir() as unzipped_dir:
unzipped_files = build_utils.ExtractAll(
zip_file, unzipped_dir, True, pattern=filename)
if len(unzipped_files) == 0:
raise Exception(
'%s not found in %s' % (filename, zip_file))
yield unzipped_files[0]
def _VerifyLibBuildIdsMatch(tool_prefix, *so_files):
if len(set(_ParseLibBuildId(f, tool_prefix) for f in so_files)) > 1:
raise Exception('Found differing build ids in output directory and apk. '
'Your output directory is likely stale.')
def _ConfigOutDirAndToolsPrefix(out_dir):
if out_dir:
out_dir = constants.GetOutDirectory()
except EnvironmentError:
if out_dir:
build_vars = build_utils.ReadBuildVars()
tool_prefix = os.path.join(out_dir,
tool_prefix = ''
return out_dir, tool_prefix
def main():
argparser = argparse.ArgumentParser(description='Print APK size metrics.')
help='Minimum byte size of displayed pak resources.')
help='Location of the build artifacts.')
help='Sets output mode to chartjson.')
help='Directory to save chartjson to.')
help='Run to get the list'
'of static initializers (slow).')
argparser.add_argument('-d', '--device',
help='Dummy option for perf runner.')
help='Include patch size estimates. Useful for perf '
'builders where a reference APK is available but adds '
'~3 mins to run time.')
help='Builder name to use for reference APK for patch '
'size estimates.')
help='Storage bucket holding reference APKs.')
argparser.add_argument('apk', help='APK file path.')
args = argparser.parse_args()
chartjson = _BASE_CHART.copy() if args.chartjson else None
out_dir, tool_prefix = _ConfigOutDirAndToolsPrefix(args.out_dir)
PrintApkAnalysis(args.apk, tool_prefix, chartjson=chartjson)
_PrintDexAnalysis(args.apk, chartjson=chartjson)
_PrintStaticInitializerAnalysis(args.apk, tool_prefix, args.dump_sis,
out_dir, chartjson=chartjson)
if args.estimate_patch_size:
_PrintPatchSizeEstimate(args.apk, args.reference_apk_builder,
args.reference_apk_bucket, chartjson=chartjson)
PrintPakAnalysis(args.apk, args.min_pak_resource_size, out_dir)
if chartjson:
results_path = os.path.join(args.output_dir, 'results-chart.json')
logging.critical('Dumping json to %s', results_path)
with open(results_path, 'w') as json_file:
json.dump(chartjson, json_file)
if __name__ == '__main__':