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Code Editor : pep425tags.py
"""Generate and work with PEP 425 Compatibility Tags.""" from __future__ import absolute_import import distutils.util import logging import platform import re import sys import sysconfig import warnings from collections import OrderedDict import pip._internal.utils.glibc from pip._internal.utils.compat import get_extension_suffixes from pip._internal.utils.typing import MYPY_CHECK_RUNNING if MYPY_CHECK_RUNNING: from typing import ( Tuple, Callable, List, Optional, Union, Dict, Set ) Pep425Tag = Tuple[str, str, str] logger = logging.getLogger(__name__) _osx_arch_pat = re.compile(r'(.+)_(\d+)_(\d+)_(.+)') def get_config_var(var): # type: (str) -> Optional[str] try: return sysconfig.get_config_var(var) except IOError as e: # Issue #1074 warnings.warn("{}".format(e), RuntimeWarning) return None def get_abbr_impl(): # type: () -> str """Return abbreviated implementation name.""" if hasattr(sys, 'pypy_version_info'): pyimpl = 'pp' elif sys.platform.startswith('java'): pyimpl = 'jy' elif sys.platform == 'cli': pyimpl = 'ip' else: pyimpl = 'cp' return pyimpl def version_info_to_nodot(version_info): # type: (Tuple[int, ...]) -> str # Only use up to the first two numbers. return ''.join(map(str, version_info[:2])) def get_impl_ver(): # type: () -> str """Return implementation version.""" impl_ver = get_config_var("py_version_nodot") if not impl_ver or get_abbr_impl() == 'pp': impl_ver = ''.join(map(str, get_impl_version_info())) return impl_ver def get_impl_version_info(): # type: () -> Tuple[int, ...] """Return sys.version_info-like tuple for use in decrementing the minor version.""" if get_abbr_impl() == 'pp': # as per https://github.com/pypa/pip/issues/2882 # attrs exist only on pypy return (sys.version_info[0], sys.pypy_version_info.major, # type: ignore sys.pypy_version_info.minor) # type: ignore else: return sys.version_info[0], sys.version_info[1] def get_impl_tag(): # type: () -> str """ Returns the Tag for this specific implementation. """ return "{}{}".format(get_abbr_impl(), get_impl_ver()) def get_flag(var, fallback, expected=True, warn=True): # type: (str, Callable[..., bool], Union[bool, int], bool) -> bool """Use a fallback method for determining SOABI flags if the needed config var is unset or unavailable.""" val = get_config_var(var) if val is None: if warn: logger.debug("Config variable '%s' is unset, Python ABI tag may " "be incorrect", var) return fallback() return val == expected def get_abi_tag(): # type: () -> Optional[str] """Return the ABI tag based on SOABI (if available) or emulate SOABI (CPython 2, PyPy).""" soabi = get_config_var('SOABI') impl = get_abbr_impl() abi = None # type: Optional[str] if not soabi and impl in {'cp', 'pp'} and hasattr(sys, 'maxunicode'): d = '' m = '' u = '' is_cpython = (impl == 'cp') if get_flag( 'Py_DEBUG', lambda: hasattr(sys, 'gettotalrefcount'), warn=is_cpython): d = 'd' if sys.version_info < (3, 8) and get_flag( 'WITH_PYMALLOC', lambda: is_cpython, warn=is_cpython): m = 'm' if sys.version_info < (3, 3) and get_flag( 'Py_UNICODE_SIZE', lambda: sys.maxunicode == 0x10ffff, expected=4, warn=is_cpython): u = 'u' abi = '%s%s%s%s%s' % (impl, get_impl_ver(), d, m, u) elif soabi and soabi.startswith('cpython-'): abi = 'cp' + soabi.split('-')[1] elif soabi: abi = soabi.replace('.', '_').replace('-', '_') return abi def _is_running_32bit(): # type: () -> bool return sys.maxsize == 2147483647 def get_platform(): # type: () -> str """Return our platform name 'win32', 'linux_x86_64'""" if sys.platform == 'darwin': # distutils.util.get_platform() returns the release based on the value # of MACOSX_DEPLOYMENT_TARGET on which Python was built, which may # be significantly older than the user's current machine. release, _, machine = platform.mac_ver() split_ver = release.split('.') if machine == "x86_64" and _is_running_32bit(): machine = "i386" elif machine == "ppc64" and _is_running_32bit(): machine = "ppc" return 'macosx_{}_{}_{}'.format(split_ver[0], split_ver[1], machine) # XXX remove distutils dependency result = distutils.util.get_platform().replace('.', '_').replace('-', '_') if result == "linux_x86_64" and _is_running_32bit(): # 32 bit Python program (running on a 64 bit Linux): pip should only # install and run 32 bit compiled extensions in that case. result = "linux_i686" return result def is_linux_armhf(): # type: () -> bool if get_platform() != "linux_armv7l": return False # hard-float ABI can be detected from the ELF header of the running # process try: with open(sys.executable, 'rb') as f: elf_header_raw = f.read(40) # read 40 first bytes of ELF header except (IOError, OSError, TypeError): return False if elf_header_raw is None or len(elf_header_raw) < 40: return False if isinstance(elf_header_raw, str): elf_header = [ord(c) for c in elf_header_raw] else: elf_header = [b for b in elf_header_raw] result = elf_header[0:4] == [0x7f, 0x45, 0x4c, 0x46] # ELF magic number result &= elf_header[4:5] == [1] # 32-bit ELF result &= elf_header[5:6] == [1] # little-endian result &= elf_header[18:20] == [0x28, 0] # ARM machine result &= elf_header[39:40] == [5] # ARM EABIv5 result &= (elf_header[37:38][0] & 4) == 4 # EF_ARM_ABI_FLOAT_HARD return result def is_manylinux1_compatible(): # type: () -> bool # Only Linux, and only x86-64 / i686 if get_platform() not in {"linux_x86_64", "linux_i686"}: return False # Check for presence of _manylinux module try: import _manylinux return bool(_manylinux.manylinux1_compatible) except (ImportError, AttributeError): # Fall through to heuristic check below pass # Check glibc version. CentOS 5 uses glibc 2.5. return pip._internal.utils.glibc.have_compatible_glibc(2, 5) def is_manylinux2010_compatible(): # type: () -> bool # Only Linux, and only x86-64 / i686 if get_platform() not in {"linux_x86_64", "linux_i686"}: return False # Check for presence of _manylinux module try: import _manylinux return bool(_manylinux.manylinux2010_compatible) except (ImportError, AttributeError): # Fall through to heuristic check below pass # Check glibc version. CentOS 6 uses glibc 2.12. return pip._internal.utils.glibc.have_compatible_glibc(2, 12) def is_manylinux2014_compatible(): # type: () -> bool # Only Linux, and only supported architectures platform = get_platform() if platform not in {"linux_x86_64", "linux_i686", "linux_aarch64", "linux_armv7l", "linux_ppc64", "linux_ppc64le", "linux_s390x"}: return False # check for hard-float ABI in case we're running linux_armv7l not to # install hard-float ABI wheel in a soft-float ABI environment if platform == "linux_armv7l" and not is_linux_armhf(): return False # Check for presence of _manylinux module try: import _manylinux return bool(_manylinux.manylinux2014_compatible) except (ImportError, AttributeError): # Fall through to heuristic check below pass # Check glibc version. CentOS 7 uses glibc 2.17. return pip._internal.utils.glibc.have_compatible_glibc(2, 17) def get_darwin_arches(major, minor, machine): # type: (int, int, str) -> List[str] """Return a list of supported arches (including group arches) for the given major, minor and machine architecture of an macOS machine. """ arches = [] def _supports_arch(major, minor, arch): # type: (int, int, str) -> bool # Looking at the application support for macOS versions in the chart # provided by https://en.wikipedia.org/wiki/OS_X#Versions it appears # our timeline looks roughly like: # # 10.0 - Introduces ppc support. # 10.4 - Introduces ppc64, i386, and x86_64 support, however the ppc64 # and x86_64 support is CLI only, and cannot be used for GUI # applications. # 10.5 - Extends ppc64 and x86_64 support to cover GUI applications. # 10.6 - Drops support for ppc64 # 10.7 - Drops support for ppc # # Given that we do not know if we're installing a CLI or a GUI # application, we must be conservative and assume it might be a GUI # application and behave as if ppc64 and x86_64 support did not occur # until 10.5. # # Note: The above information is taken from the "Application support" # column in the chart not the "Processor support" since I believe # that we care about what instruction sets an application can use # not which processors the OS supports. if arch == 'ppc': return (major, minor) <= (10, 5) if arch == 'ppc64': return (major, minor) == (10, 5) if arch == 'i386': return (major, minor) >= (10, 4) if arch == 'x86_64': return (major, minor) >= (10, 5) if arch in groups: for garch in groups[arch]: if _supports_arch(major, minor, garch): return True return False groups = OrderedDict([ ("fat", ("i386", "ppc")), ("intel", ("x86_64", "i386")), ("fat64", ("x86_64", "ppc64")), ("fat32", ("x86_64", "i386", "ppc")), ]) # type: Dict[str, Tuple[str, ...]] if _supports_arch(major, minor, machine): arches.append(machine) for garch in groups: if machine in groups[garch] and _supports_arch(major, minor, garch): arches.append(garch) arches.append('universal') return arches def get_all_minor_versions_as_strings(version_info): # type: (Tuple[int, ...]) -> List[str] versions = [] major = version_info[:-1] # Support all previous minor Python versions. for minor in range(version_info[-1], -1, -1): versions.append(''.join(map(str, major + (minor,)))) return versions def get_supported( versions=None, # type: Optional[List[str]] noarch=False, # type: bool platform=None, # type: Optional[str] impl=None, # type: Optional[str] abi=None # type: Optional[str] ): # type: (...) -> List[Pep425Tag] """Return a list of supported tags for each version specified in `versions`. :param versions: a list of string versions, of the form ["33", "32"], or None. The first version will be assumed to support our ABI. :param platform: specify the exact platform you want valid tags for, or None. If None, use the local system platform. :param impl: specify the exact implementation you want valid tags for, or None. If None, use the local interpreter impl. :param abi: specify the exact abi you want valid tags for, or None. If None, use the local interpreter abi. """ supported = [] # Versions must be given with respect to the preference if versions is None: version_info = get_impl_version_info() versions = get_all_minor_versions_as_strings(version_info) impl = impl or get_abbr_impl() abis = [] # type: List[str] abi = abi or get_abi_tag() if abi: abis[0:0] = [abi] abi3s = set() # type: Set[str] for suffix in get_extension_suffixes(): if suffix.startswith('.abi'): abi3s.add(suffix.split('.', 2)[1]) abis.extend(sorted(list(abi3s))) abis.append('none') if not noarch: arch = platform or get_platform() arch_prefix, arch_sep, arch_suffix = arch.partition('_') if arch.startswith('macosx'): # support macosx-10.6-intel on macosx-10.9-x86_64 match = _osx_arch_pat.match(arch) if match: name, major, minor, actual_arch = match.groups() tpl = '{}_{}_%i_%s'.format(name, major) arches = [] for m in reversed(range(int(minor) + 1)): for a in get_darwin_arches(int(major), m, actual_arch): arches.append(tpl % (m, a)) else: # arch pattern didn't match (?!) arches = [arch] elif arch_prefix == 'manylinux2014': arches = [arch] # manylinux1/manylinux2010 wheels run on most manylinux2014 systems # with the exception of wheels depending on ncurses. PEP 599 states # manylinux1/manylinux2010 wheels should be considered # manylinux2014 wheels: # https://www.python.org/dev/peps/pep-0599/#backwards-compatibility-with-manylinux2010-wheels if arch_suffix in {'i686', 'x86_64'}: arches.append('manylinux2010' + arch_sep + arch_suffix) arches.append('manylinux1' + arch_sep + arch_suffix) elif arch_prefix == 'manylinux2010': # manylinux1 wheels run on most manylinux2010 systems with the # exception of wheels depending on ncurses. PEP 571 states # manylinux1 wheels should be considered manylinux2010 wheels: # https://www.python.org/dev/peps/pep-0571/#backwards-compatibility-with-manylinux1-wheels arches = [arch, 'manylinux1' + arch_sep + arch_suffix] elif platform is None: arches = [] if is_manylinux2014_compatible(): arches.append('manylinux2014' + arch_sep + arch_suffix) if is_manylinux2010_compatible(): arches.append('manylinux2010' + arch_sep + arch_suffix) if is_manylinux1_compatible(): arches.append('manylinux1' + arch_sep + arch_suffix) arches.append(arch) else: arches = [arch] # Current version, current API (built specifically for our Python): for abi in abis: for arch in arches: supported.append(('%s%s' % (impl, versions[0]), abi, arch)) # abi3 modules compatible with older version of Python for version in versions[1:]: # abi3 was introduced in Python 3.2 if version in {'31', '30'}: break for abi in abi3s: # empty set if not Python 3 for arch in arches: supported.append(("%s%s" % (impl, version), abi, arch)) # Has binaries, does not use the Python API: for arch in arches: supported.append(('py%s' % (versions[0][0]), 'none', arch)) # No abi / arch, but requires our implementation: supported.append(('%s%s' % (impl, versions[0]), 'none', 'any')) # Tagged specifically as being cross-version compatible # (with just the major version specified) supported.append(('%s%s' % (impl, versions[0][0]), 'none', 'any')) # No abi / arch, generic Python for i, version in enumerate(versions): supported.append(('py%s' % (version,), 'none', 'any')) if i == 0: supported.append(('py%s' % (version[0]), 'none', 'any')) return supported implementation_tag = get_impl_tag()
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