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# util.py - Common packaging utility code.
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#
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# Copyright 2019 Gregory Szorc <gregory.szorc@gmail.com>
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#
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# This software may be used and distributed according to the terms of the
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# GNU General Public License version 2 or any later version.
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# no-check-code because Python 3 native.
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import distutils.version
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import getpass
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import glob
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import os
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import pathlib
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import re
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import shutil
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import subprocess
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import tarfile
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import zipfile
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def extract_tar_to_directory(source: pathlib.Path, dest: pathlib.Path):
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with tarfile.open(source, 'r') as tf:
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tf.extractall(dest)
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def extract_zip_to_directory(source: pathlib.Path, dest: pathlib.Path):
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with zipfile.ZipFile(source, 'r') as zf:
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zf.extractall(dest)
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def find_vc_runtime_dll(x64=False):
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"""Finds Visual C++ Runtime DLL to include in distribution."""
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# We invoke vswhere to find the latest Visual Studio install.
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vswhere = (
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pathlib.Path(os.environ["ProgramFiles(x86)"])
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/ "Microsoft Visual Studio"
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/ "Installer"
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/ "vswhere.exe"
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)
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if not vswhere.exists():
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raise Exception(
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"could not find vswhere.exe: %s does not exist" % vswhere
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)
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args = [
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str(vswhere),
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# -products * is necessary to return results from Build Tools
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# (as opposed to full IDE installs).
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"-products",
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"*",
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"-requires",
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"Microsoft.VisualCpp.Redist.14.Latest",
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"-latest",
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"-property",
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"installationPath",
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]
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vs_install_path = pathlib.Path(
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os.fsdecode(subprocess.check_output(args).strip())
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)
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# This just gets us a path like
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# C:\Program Files (x86)\Microsoft Visual Studio\2019\Community
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# Actually vcruntime140.dll is under a path like:
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# VC\Redist\MSVC\<version>\<arch>\Microsoft.VC14<X>.CRT\vcruntime140.dll.
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arch = "x64" if x64 else "x86"
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search_glob = (
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r"%s\VC\Redist\MSVC\*\%s\Microsoft.VC14*.CRT\vcruntime140.dll"
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% (vs_install_path, arch)
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)
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candidates = glob.glob(search_glob, recursive=True)
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for candidate in reversed(candidates):
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return pathlib.Path(candidate)
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raise Exception("could not find vcruntime140.dll")
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def find_legacy_vc_runtime_files(x64=False):
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"""Finds Visual C++ Runtime DLLs to include in distribution."""
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winsxs = pathlib.Path(os.environ['SYSTEMROOT']) / 'WinSxS'
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prefix = 'amd64' if x64 else 'x86'
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candidates = sorted(
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p
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for p in os.listdir(winsxs)
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if p.lower().startswith('%s_microsoft.vc90.crt_' % prefix)
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)
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for p in candidates:
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print('found candidate VC runtime: %s' % p)
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# Take the newest version.
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version = candidates[-1]
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d = winsxs / version
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return [
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d / 'msvcm90.dll',
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d / 'msvcp90.dll',
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d / 'msvcr90.dll',
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winsxs / 'Manifests' / ('%s.manifest' % version),
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]
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def windows_10_sdk_info():
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"""Resolves information about the Windows 10 SDK."""
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base = pathlib.Path(os.environ['ProgramFiles(x86)']) / 'Windows Kits' / '10'
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if not base.is_dir():
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raise Exception('unable to find Windows 10 SDK at %s' % base)
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# Find the latest version.
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bin_base = base / 'bin'
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versions = [v for v in os.listdir(bin_base) if v.startswith('10.')]
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version = sorted(versions, reverse=True)[0]
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bin_version = bin_base / version
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return {
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'root': base,
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'version': version,
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'bin_root': bin_version,
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'bin_x86': bin_version / 'x86',
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'bin_x64': bin_version / 'x64',
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}
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def normalize_windows_version(version):
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"""Normalize Mercurial version string so WiX/Inno accepts it.
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Version strings have to be numeric ``A.B.C[.D]`` to conform with MSI's
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requirements.
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We normalize RC version or the commit count to a 4th version component.
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We store this in the 4th component because ``A.B.C`` releases do occur
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and we want an e.g. ``5.3rc0`` version to be semantically less than a
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``5.3.1rc2`` version. This requires always reserving the 3rd version
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component for the point release and the ``X.YrcN`` release is always
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point release 0.
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In the case of an RC and presence of ``+`` suffix data, we can't use both
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because the version format is limited to 4 components. We choose to use
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RC and throw away the commit count in the suffix. This means we could
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produce multiple installers with the same normalized version string.
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>>> normalize_windows_version("5.3")
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'5.3.0'
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>>> normalize_windows_version("5.3rc0")
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'5.3.0.0'
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>>> normalize_windows_version("5.3rc1")
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'5.3.0.1'
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>>> normalize_windows_version("5.3rc1+2-abcdef")
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'5.3.0.1'
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>>> normalize_windows_version("5.3+2-abcdef")
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'5.3.0.2'
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"""
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if '+' in version:
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version, extra = version.split('+', 1)
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else:
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extra = None
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# 4.9rc0
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if version[:-1].endswith('rc'):
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rc = int(version[-1:])
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version = version[:-3]
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else:
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rc = None
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# Ensure we have at least X.Y version components.
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versions = [int(v) for v in version.split('.')]
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while len(versions) < 3:
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versions.append(0)
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if len(versions) < 4:
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if rc is not None:
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versions.append(rc)
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elif extra:
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# <commit count>-<hash>+<date>
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versions.append(int(extra.split('-')[0]))
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return '.'.join('%d' % x for x in versions[0:4])
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def find_signtool():
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"""Find signtool.exe from the Windows SDK."""
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sdk = windows_10_sdk_info()
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for key in ('bin_x64', 'bin_x86'):
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p = sdk[key] / 'signtool.exe'
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if p.exists():
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return p
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raise Exception('could not find signtool.exe in Windows 10 SDK')
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def sign_with_signtool(
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file_path,
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description,
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subject_name=None,
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cert_path=None,
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cert_password=None,
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timestamp_url=None,
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):
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"""Digitally sign a file with signtool.exe.
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``file_path`` is file to sign.
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``description`` is text that goes in the signature.
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The signing certificate can be specified by ``cert_path`` or
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``subject_name``. These correspond to the ``/f`` and ``/n`` arguments
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to signtool.exe, respectively.
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The certificate password can be specified via ``cert_password``. If
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not provided, you will be prompted for the password.
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``timestamp_url`` is the URL of a RFC 3161 timestamp server (``/tr``
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argument to signtool.exe).
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"""
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if cert_path and subject_name:
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raise ValueError('cannot specify both cert_path and subject_name')
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while cert_path and not cert_password:
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cert_password = getpass.getpass('password for %s: ' % cert_path)
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args = [
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str(find_signtool()),
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'sign',
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'/v',
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'/fd',
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'sha256',
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'/d',
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description,
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]
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if cert_path:
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args.extend(['/f', str(cert_path), '/p', cert_password])
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elif subject_name:
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args.extend(['/n', subject_name])
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if timestamp_url:
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args.extend(['/tr', timestamp_url, '/td', 'sha256'])
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args.append(str(file_path))
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print('signing %s' % file_path)
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subprocess.run(args, check=True)
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PRINT_PYTHON_INFO = '''
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import platform; print("%s:%s" % (platform.architecture()[0], platform.python_version()))
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'''.strip()
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def python_exe_info(python_exe: pathlib.Path):
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"""Obtain information about a Python executable."""
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res = subprocess.check_output([str(python_exe), '-c', PRINT_PYTHON_INFO])
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arch, version = res.decode('utf-8').split(':')
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version = distutils.version.LooseVersion(version)
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return {
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'arch': arch,
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'version': version,
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'py3': version >= distutils.version.LooseVersion('3'),
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}
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def process_install_rules(
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rules: list, source_dir: pathlib.Path, dest_dir: pathlib.Path
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):
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for source, dest in rules:
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if '*' in source:
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if not dest.endswith('/'):
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raise ValueError('destination must end in / when globbing')
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# We strip off the source path component before the first glob
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# character to construct the relative install path.
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prefix_end_index = source[: source.index('*')].rindex('/')
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relative_prefix = source_dir / source[0:prefix_end_index]
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for res in glob.glob(str(source_dir / source), recursive=True):
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source_path = pathlib.Path(res)
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if source_path.is_dir():
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continue
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rel_path = source_path.relative_to(relative_prefix)
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dest_path = dest_dir / dest[:-1] / rel_path
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dest_path.parent.mkdir(parents=True, exist_ok=True)
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print('copying %s to %s' % (source_path, dest_path))
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shutil.copy(source_path, dest_path)
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# Simple file case.
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else:
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source_path = pathlib.Path(source)
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if dest.endswith('/'):
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dest_path = pathlib.Path(dest) / source_path.name
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else:
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dest_path = pathlib.Path(dest)
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full_source_path = source_dir / source_path
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full_dest_path = dest_dir / dest_path
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full_dest_path.parent.mkdir(parents=True, exist_ok=True)
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shutil.copy(full_source_path, full_dest_path)
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print('copying %s to %s' % (full_source_path, full_dest_path))
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def read_version_py(source_dir):
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"""Read the mercurial/__version__.py file to resolve the version string."""
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p = source_dir / 'mercurial' / '__version__.py'
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with p.open('r', encoding='utf-8') as fh:
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m = re.search('version = b"([^"]+)"', fh.read(), re.MULTILINE)
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if not m:
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raise Exception('could not parse %s' % p)
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return m.group(1)
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