# Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or # implied. # See the License for the specific language governing permissions and # limitations under the License. from __future__ import print_function import copy import hashlib import optparse import os.path import subprocess import sys import fixtures from openstack_requirements import requirement def _parse_freeze(text): """Parse a freeze into structured data. :param text: The output from a pip freeze command. :return: A list of (package, version) tuples. """ result = [] for line in text.splitlines(): line = line.strip() if line.startswith('-'): raise Exception("Irregular line: %s" % line) if line.startswith('#'): continue if not line: continue package, version = line.split('==')[:2] result.append((package, version)) return result def _freeze(requirements, python): """Generate a frozen install from requirements. A constraints file is the result of installing a set of requirements and then freezing the result. We currently special case pip and setuptools as pip does, excluding them from the set. We may however want to revisit this in future if releases of those things break our gate. In principle we should determine this by introspecting all the packages transitively, since we need to deal wit environment markers.... but thats reimplementing a large chunk of pip (and since pip doesn't resolve yet, differently too). For now, we take a list of Python executables to test under, and then union the results. This is in fact the key difference between a constraints file and a requirements file: we're not triggering installation, so we can and will list packages that are not relevant to e.g. Python3 in the constraints output. :param requirements: The path to a requirements file to use when generating the constraints. :param python: A Python binary to use. E.g. /usr/bin/python3 :return: A tuple (python_version, list of (package, version)'s) """ output = [] try: version_out = subprocess.check_output( [python, "--version"], stderr=subprocess.STDOUT) output.append(version_out) version_all = version_out.decode('utf-8').split()[1] version = '.'.join(version_all.split('.')[:2]) with fixtures.TempDir() as temp: output.append(subprocess.check_output( ['virtualenv', '-p', python, temp.path])) pip_bin = os.path.join(temp.path, 'bin', 'pip') output.append(subprocess.check_output( [pip_bin, 'install', '-U', 'pip', 'setuptools', 'wheel'])) output.append(subprocess.check_output( [pip_bin, 'install', '-r', requirements])) freeze = subprocess.check_output( [pip_bin, 'freeze']) output.append(freeze) return (version, _parse_freeze(freeze.decode('utf-8'))) except Exception as exc: if isinstance(exc, subprocess.CalledProcessError): output.append(exc.output) raise Exception( "Failed to generate freeze: %s %s" % (b'\n'.join(output).decode('utf-8'), exc)) def _combine_freezes(freezes, blacklist=None): """Combine multiple freezes into a single structure. This deals with the variation between different python versions by generating environment markers when different pythons need different versions of a dependency. :param freezes: A list of (python_version, frozen_requirements) tuples. :param blacklist: An iterable of package names to exclude. These packages won't be included in the output. :return: A list of '\n' terminated lines for a requirements file. """ packages = {} # {package : {version : [py_version]}} excludes = frozenset((requirement.canonical_name(s) for s in blacklist) if blacklist else ()) reference_versions = [] for py_version, freeze in freezes: if py_version in reference_versions: raise Exception("Duplicate python %s" % py_version) reference_versions.append(py_version) for package, version in freeze: packages.setdefault( package, {}).setdefault(version, []).append(py_version) for package, versions in sorted(packages.items()): if package.lower() in excludes: continue if (len(versions) != 1 or list(versions.values())[0] != reference_versions): # markers for version, py_versions in sorted(versions.items()): # Once the ecosystem matures, we can consider using OR. for py_version in sorted(py_versions): yield ( "%s===%s;python_version=='%s'\n" % (package, version, py_version)) else: # no markers yield '%s===%s\n' % (package, list(versions.keys())[0]) def _clone_versions(freezes, options): for freeze_data in freezes: versions = [v for v, d in freezes] version, freeze = freeze_data if version in options.version_map: for dst_version in sorted(options.version_map[version]): if dst_version not in versions: print("Duplicating %s freeze to %s" % (version, dst_version), file=sys.stderr) freezes.append((dst_version, copy.copy(freeze))) # -- untested UI glue from here down. def _validate_options(options): """Check that options are valid. :param options: The optparse options for this program. """ if not options.pythons: raise Exception("No Pythons given - see -p.") for python in options.pythons: if not os.path.exists(python): raise Exception( "Python %(python)s not found." % dict(python=python)) if not options.requirements: raise Exception("No requirements file specified - see -r.") if not os.path.exists(options.requirements): raise Exception( "Requirements file %(req)s not found." % dict(req=options.requirements)) if options.blacklist and not os.path.exists(options.blacklist): raise Exception( "Blacklist file %(path)s not found." % dict(path=options.blacklist)) version_map = {} for map_entry in options.version_map: if ':' not in map_entry: raise Exception( "Invalid version-map entry %(map_entry)s" % dict(map_entry=map_entry)) src, dst = map_entry.split(':') version_map.setdefault(src, set()) version_map[src].add(dst) options.version_map = version_map def _parse_blacklist(path): """Return the strings from path if it is not None.""" if path is None: return [] with open(path, 'rt') as f: return [l.strip() for l in f] def _make_sort_key(line): """Produce a key that is unlikely to place similar values together. We want to avoid sorting all of the oslo libraries together (or all of the python-*client libraries) so when we do batch releases we do not have merge conflicts in the individual patches updating the constraints. """ dep = line.partition('=')[0].encode('utf-8') return hashlib.sha1(dep).digest() def main(argv=None, stdout=None): parser = optparse.OptionParser() parser.add_option( "-p", dest="pythons", action="append", help="Specify Python versions to use when generating constraints." "e.g. -p /usr/bin/python3") parser.add_option( "-r", dest="requirements", help="Requirements file to process.") parser.add_option( "-b", dest="blacklist", help="Filename of a list of package names to exclude.") parser.add_option( "--version-map", dest='version_map', default=[], action='append', help=('Add a : separated list of versions to clone. To \'clone\' ' 'a freeze generated by python3.4 to python3.5 specify 3.4:3.5. ' 'This is intended as as a way to transition between python ' 'versions when it\'s not possible to have all versions ' 'installed')) options, args = parser.parse_args(argv) if stdout is None: stdout = sys.stdout _validate_options(options) freezes = [ _freeze(options.requirements, python) for python in options.pythons] _clone_versions(freezes, options) blacklist = _parse_blacklist(options.blacklist) frozen = sorted(_combine_freezes(freezes, blacklist), key=_make_sort_key) stdout.writelines(frozen) stdout.flush()