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gecko-dev/build/windows_toolchain.py
Mike Hommey c7022eb656 Bug 1530587 - Don't optimize jars without preloading/reordering data. r=chmanchester 
Optimizing jars without preloading/reordering data only moves the
jar central directory to the beginning of the file, which, without
preloading information, is not very useful. Let's just stop doing it if
there's not going to be preloading/reordering information at all.

Differential Revision: https://phabricator.services.mozilla.com/D21170

--HG--
extra : moz-landing-system : lando
2019-02-27 01:26:46 +00:00

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#!/usr/bin/env python2.7
# 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 is used to create and manipulate archives containing
# files necessary to build Firefox on Windows (referred to as the
# "Windows toolchain").
#
# When updating behavior of this script, remember to update the docs
# in ``build/docs/toolchains.rst``.
from __future__ import absolute_import, unicode_literals
import hashlib
import os
import sys
from mozpack.files import (
FileFinder,
)
from mozpack.mozjar import (
JarWriter,
)
import mozpack.path as mozpath
SDK_RELEASE = '10.0.17134.0'
PATTERNS = [
{
'srcdir': '%(vs_path)s/DIA SDK',
'dstdir': 'DIA SDK',
'files': [
{
'pattern': 'bin/**',
'ignore': (
'bin/arm/**',
),
},
{
'pattern': 'idl/**',
},
{
'pattern': 'include/**',
},
{
'pattern': 'lib/**',
'ignore': (
'lib/arm/**',
),
},
],
},
{
'srcdir': '%(vs_path)s/VC/Tools/MSVC/14.16.27023',
'dstdir': 'VC',
'files': [
# ATL is needed by Breakpad.
{
'pattern': 'atlmfc/include/**',
},
{
'pattern': 'atlmfc/lib/arm64/atls.*',
},
{
'pattern': 'atlmfc/lib/x64/atls.*',
},
{
'pattern': 'atlmfc/lib/x86/atls.*',
},
# ARM64 PGO-instrumented builds require ARM64 pgort140.dll.
{
'pattern': 'bin/arm64/pgort140.dll',
},
{
'pattern': 'bin/Hostx64/**',
},
# 32-bit PGO-instrumented builds require 32-bit pgort140.dll.
{
'pattern': 'bin/Hostx86/x86/pgort140.dll',
},
{
'pattern': 'include/**',
},
{
'pattern': 'lib/**',
'ignore': (
'lib/arm64/store/**',
'lib/onecore/**',
'lib/x64/store/**',
'lib/x86/store/**',
),
},
],
},
{
'srcdir': '%(vs_path)s/VC/Redist/MSVC/14.16.27012',
'dstdir': 'VC/redist',
'files': [
{
'pattern': 'arm64/Microsoft.VC141.CRT/**',
},
{
'pattern': 'x64/Microsoft.VC141.CRT/**',
},
{
'pattern': 'x86/Microsoft.VC141.CRT/**',
},
],
},
{
'srcdir': '%(sdk_path)s',
'dstdir': 'SDK',
'files': [
{
'pattern': 'bin/%s/x64/**' % SDK_RELEASE,
},
{
'pattern': 'Include/%s/**' % SDK_RELEASE,
},
{
'pattern': 'Lib/%s/ucrt/arm64/**' % SDK_RELEASE,
},
{
'pattern': 'Lib/%s/ucrt/x64/**' % SDK_RELEASE,
},
{
'pattern': 'Lib/%s/ucrt/x86/**' % SDK_RELEASE,
},
{
'pattern': 'Lib/%s/um/arm64/**' % SDK_RELEASE,
},
{
'pattern': 'Lib/%s/um/x64/**' % SDK_RELEASE,
},
{
'pattern': 'Lib/%s/um/x86/**' % SDK_RELEASE,
},
{
'pattern': 'Redist/D3D/**',
},
{
'pattern': 'Redist/ucrt/DLLs/x64/**',
},
{
'pattern': 'Redist/ucrt/DLLs/x86/**',
},
],
},
]
def find_vs_paths():
"""Resolve source locations of files.
Returns a 2-tuple of (Visual Studio Path, SDK Path).
"""
pf = os.environ.get('ProgramFiles(x86)')
if not pf:
raise Exception('No "ProgramFiles(x86)" environment variable. '
'Not running on 64-bit Windows?')
vs_path = os.path.join(pf, 'Microsoft Visual Studio', '2017', 'Community')
if not os.path.exists(vs_path):
raise Exception('%s does not exist; Visual Studio 2017 not installed?' %
vs_path)
sdk_path = os.path.join(pf, 'Windows Kits', '10')
if not os.path.exists(sdk_path):
raise Exception('%s does not exist; Windows 10 SDK not installed?' %
sdk_path)
sdk_fullver_path = os.path.join(sdk_path, 'Include', SDK_RELEASE)
if not os.path.exists(sdk_fullver_path):
raise Exception('%s does not exist; Wrong SDK version installed?' %
sdk_fullver_path)
return vs_path, sdk_path
def resolve_files():
"""Resolve the files that constitute a standalone toolchain.
This is a generator of (dest path, file) where the destination
path is relative and the file instance is a BaseFile from mozpack.
"""
vs_path, sdk_path = find_vs_paths()
for entry in PATTERNS:
fullpath = entry['srcdir'] % {
'vs_path': vs_path,
'sdk_path': sdk_path,
}
for pattern in entry['files']:
finder = FileFinder(fullpath, ignore=pattern.get('ignore', []))
for p, f in finder.find(pattern['pattern']):
dstpath = '%s/%s' % (entry['dstdir'], p)
yield dstpath.encode('utf-8'), f
def resolve_files_and_hash(manifest):
"""Resolve files and hash their data.
This is a generator of 3-tuples of (relpath, data, mode).
As data is read, the manifest is populated with metadata.
Keys are set to the relative file path. Values are 2-tuples
of (data length, sha-256).
"""
assert manifest == {}
for p, f in resolve_files():
data = f.read()
sha256 = hashlib.sha256()
sha256.update(data)
manifest[p] = (len(data), sha256.hexdigest())
yield p, data, f.mode
def format_manifest(manifest):
"""Return formatted SHA-256 manifests as a byte strings."""
sha256_lines = []
for path, (length, sha256) in sorted(manifest.items()):
sha256_lines.append(b'%s\t%d\t%s' % (sha256, length, path))
# Trailing newline.
sha256_lines.append(b'')
return b'\n'.join(sha256_lines)
def write_zip(zip_path, prefix=None):
"""Write toolchain data to a zip file."""
if isinstance(prefix, unicode): # noqa Special case for Python 2
prefix = prefix.encode('utf-8')
with JarWriter(file=zip_path, compress_level=5) as zip:
manifest = {}
for p, data, mode in resolve_files_and_hash(manifest):
print(p)
if prefix:
p = mozpath.join(prefix, p)
zip.add(p, data, mode=mode)
sha256_manifest = format_manifest(manifest)
sdk_path = b'SDK_VERSION'
sha256_path = b'MANIFEST.SHA256'
if prefix:
sdk_path = mozpath.join(prefix, sdk_path)
sha256_path = mozpath.join(prefix, sha256_path)
zip.add(sdk_path, SDK_RELEASE.encode('utf-8'))
zip.add(sha256_path, sha256_manifest)
if __name__ == '__main__':
if len(sys.argv) != 3:
print('usage: %s create-zip <path-prefix>' % sys.argv[0])
sys.exit(1)
assert sys.argv[1] == 'create-zip'
prefix = os.path.basename(sys.argv[2])
destzip = '%s.zip' % sys.argv[2]
write_zip(destzip, prefix=prefix)
sha1 = hashlib.sha1()
sha256 = hashlib.sha256()
sha512 = hashlib.sha512()
with open(destzip, 'rb') as fh:
data = fh.read()
sha1.update(data)
sha256.update(data)
sha512.update(data)
print('Hashes of %s (size=%d)' % (destzip, len(data)))
print('SHA-1: %s' % sha1.hexdigest())
print('SHA-256: %s' % sha256.hexdigest())
print('SHA-512: %s' % sha512.hexdigest())
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