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rust-index: handle `MixedIndex` in `pyindex_to_graph`...
rust-index: handle `MixedIndex` in `pyindex_to_graph` On the long run we will want to implement the Graph trait directly in Rust, but for now we take the path with the least amount of change to focus on the coming persistent NodeMap code. We test this new code through with the lazy ancestors code. Differential Revision: https://phab.mercurial-scm.org/D7657

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util.py
226 lines | 6.2 KiB | text/x-python | PythonLexer
# util.py - Common packaging utility code.
#
# Copyright 2019 Gregory Szorc <gregory.szorc@gmail.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
# no-check-code because Python 3 native.
import distutils.version
import getpass
import glob
import os
import pathlib
import re
import shutil
import subprocess
import tarfile
import zipfile
def extract_tar_to_directory(source: pathlib.Path, dest: pathlib.Path):
with tarfile.open(source, 'r') as tf:
tf.extractall(dest)
def extract_zip_to_directory(source: pathlib.Path, dest: pathlib.Path):
with zipfile.ZipFile(source, 'r') as zf:
zf.extractall(dest)
def find_vc_runtime_files(x64=False):
"""Finds Visual C++ Runtime DLLs to include in distribution."""
winsxs = pathlib.Path(os.environ['SYSTEMROOT']) / 'WinSxS'
prefix = 'amd64' if x64 else 'x86'
candidates = sorted(
p
for p in os.listdir(winsxs)
if p.lower().startswith('%s_microsoft.vc90.crt_' % prefix)
)
for p in candidates:
print('found candidate VC runtime: %s' % p)
# Take the newest version.
version = candidates[-1]
d = winsxs / version
return [
d / 'msvcm90.dll',
d / 'msvcp90.dll',
d / 'msvcr90.dll',
winsxs / 'Manifests' / ('%s.manifest' % version),
]
def windows_10_sdk_info():
"""Resolves information about the Windows 10 SDK."""
base = pathlib.Path(os.environ['ProgramFiles(x86)']) / 'Windows Kits' / '10'
if not base.is_dir():
raise Exception('unable to find Windows 10 SDK at %s' % base)
# Find the latest version.
bin_base = base / 'bin'
versions = [v for v in os.listdir(bin_base) if v.startswith('10.')]
version = sorted(versions, reverse=True)[0]
bin_version = bin_base / version
return {
'root': base,
'version': version,
'bin_root': bin_version,
'bin_x86': bin_version / 'x86',
'bin_x64': bin_version / 'x64',
}
def find_signtool():
"""Find signtool.exe from the Windows SDK."""
sdk = windows_10_sdk_info()
for key in ('bin_x64', 'bin_x86'):
p = sdk[key] / 'signtool.exe'
if p.exists():
return p
raise Exception('could not find signtool.exe in Windows 10 SDK')
def sign_with_signtool(
file_path,
description,
subject_name=None,
cert_path=None,
cert_password=None,
timestamp_url=None,
):
"""Digitally sign a file with signtool.exe.
``file_path`` is file to sign.
``description`` is text that goes in the signature.
The signing certificate can be specified by ``cert_path`` or
``subject_name``. These correspond to the ``/f`` and ``/n`` arguments
to signtool.exe, respectively.
The certificate password can be specified via ``cert_password``. If
not provided, you will be prompted for the password.
``timestamp_url`` is the URL of a RFC 3161 timestamp server (``/tr``
argument to signtool.exe).
"""
if cert_path and subject_name:
raise ValueError('cannot specify both cert_path and subject_name')
while cert_path and not cert_password:
cert_password = getpass.getpass('password for %s: ' % cert_path)
args = [
str(find_signtool()),
'sign',
'/v',
'/fd',
'sha256',
'/d',
description,
]
if cert_path:
args.extend(['/f', str(cert_path), '/p', cert_password])
elif subject_name:
args.extend(['/n', subject_name])
if timestamp_url:
args.extend(['/tr', timestamp_url, '/td', 'sha256'])
args.append(str(file_path))
print('signing %s' % file_path)
subprocess.run(args, check=True)
PRINT_PYTHON_INFO = '''
import platform; print("%s:%s" % (platform.architecture()[0], platform.python_version()))
'''.strip()
def python_exe_info(python_exe: pathlib.Path):
"""Obtain information about a Python executable."""
res = subprocess.check_output([str(python_exe), '-c', PRINT_PYTHON_INFO])
arch, version = res.decode('utf-8').split(':')
version = distutils.version.LooseVersion(version)
return {
'arch': arch,
'version': version,
'py3': version >= distutils.version.LooseVersion('3'),
}
def process_install_rules(
rules: list, source_dir: pathlib.Path, dest_dir: pathlib.Path
):
for source, dest in rules:
if '*' in source:
if not dest.endswith('/'):
raise ValueError('destination must end in / when globbing')
# We strip off the source path component before the first glob
# character to construct the relative install path.
prefix_end_index = source[: source.index('*')].rindex('/')
relative_prefix = source_dir / source[0:prefix_end_index]
for res in glob.glob(str(source_dir / source), recursive=True):
source_path = pathlib.Path(res)
if source_path.is_dir():
continue
rel_path = source_path.relative_to(relative_prefix)
dest_path = dest_dir / dest[:-1] / rel_path
dest_path.parent.mkdir(parents=True, exist_ok=True)
print('copying %s to %s' % (source_path, dest_path))
shutil.copy(source_path, dest_path)
# Simple file case.
else:
source_path = pathlib.Path(source)
if dest.endswith('/'):
dest_path = pathlib.Path(dest) / source_path.name
else:
dest_path = pathlib.Path(dest)
full_source_path = source_dir / source_path
full_dest_path = dest_dir / dest_path
full_dest_path.parent.mkdir(parents=True, exist_ok=True)
shutil.copy(full_source_path, full_dest_path)
print('copying %s to %s' % (full_source_path, full_dest_path))
def read_version_py(source_dir):
"""Read the mercurial/__version__.py file to resolve the version string."""
p = source_dir / 'mercurial' / '__version__.py'
with p.open('r', encoding='utf-8') as fh:
m = re.search('version = b"([^"]+)"', fh.read(), re.MULTILINE)
if not m:
raise Exception('could not parse %s' % p)
return m.group(1)