# 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/. from __future__ import absolute_import from mozpack.files import ( BaseFinder, JarFinder, ExecutableFile, BaseFile, GeneratedFile, ) from mozpack.executables import ( MACHO_SIGNATURES, ) from mozpack.mozjar import JarReader from mozpack.errors import errors from tempfile import mkstemp import mozpack.path as mozpath import struct import os import re import subprocess import buildconfig from collections import OrderedDict # Regular expressions for unifying install.rdf FIND_TARGET_PLATFORM = re.compile(r""" <(?P<ns>[-._0-9A-Za-z]+:)?targetPlatform> # The targetPlatform tag, with any namespace (?P<platform>[^<]*) # The actual platform value </(?P=ns)?targetPlatform> # The closing tag """, re.X) FIND_TARGET_PLATFORM_ATTR = re.compile(r""" (?P<tag><(?:[-._0-9A-Za-z]+:)?Description) # The opening part of the <Description> tag (?P<attrs>[^>]*?)\s+ # The initial attributes (?P<ns>[-._0-9A-Za-z]+:)?targetPlatform= # The targetPlatform attribute, with any namespace [\'"](?P<platform>[^\'"]+)[\'"] # The actual platform value (?P<otherattrs>[^>]*?>) # The remaining attributes and closing angle bracket """, re.X) def may_unify_binary(file): ''' Return whether the given BaseFile instance is an ExecutableFile that may be unified. Only non-fat Mach-O binaries are to be unified. ''' if isinstance(file, ExecutableFile): signature = file.open().read(4) if len(signature) < 4: return False signature = struct.unpack('>L', signature)[0] if signature in MACHO_SIGNATURES: return True return False class UnifiedExecutableFile(BaseFile): ''' File class for executable and library files that to be unified with 'lipo'. ''' def __init__(self, executable1, executable2): ''' Initialize a UnifiedExecutableFile with a pair of ExecutableFiles to be unified. They are expected to be non-fat Mach-O executables. ''' assert isinstance(executable1, ExecutableFile) assert isinstance(executable2, ExecutableFile) self._executables = (executable1, executable2) def copy(self, dest, skip_if_older=True): ''' Create a fat executable from the two Mach-O executable given when creating the instance. skip_if_older is ignored. ''' assert isinstance(dest, basestring) tmpfiles = [] try: for e in self._executables: fd, f = mkstemp() os.close(fd) tmpfiles.append(f) e.copy(f, skip_if_older=False) lipo = buildconfig.substs.get('LIPO') or 'lipo' subprocess.call([lipo, '-create'] + tmpfiles + ['-output', dest]) finally: for f in tmpfiles: os.unlink(f) class UnifiedFinder(BaseFinder): ''' Helper to get unified BaseFile instances from two distinct trees on the file system. ''' def __init__(self, finder1, finder2, sorted=[], **kargs): ''' Initialize a UnifiedFinder. finder1 and finder2 are BaseFinder instances from which files are picked. UnifiedFinder.find() will act as FileFinder.find() but will error out when matches can only be found in one of the two trees and not the other. It will also error out if matches can be found on both ends but their contents are not identical. The sorted argument gives a list of mozpath.match patterns. File paths matching one of these patterns will have their contents compared with their lines sorted. ''' assert isinstance(finder1, BaseFinder) assert isinstance(finder2, BaseFinder) self._finder1 = finder1 self._finder2 = finder2 self._sorted = sorted BaseFinder.__init__(self, finder1.base, **kargs) def _find(self, path): ''' UnifiedFinder.find() implementation. ''' files1 = OrderedDict() for p, f in self._finder1.find(path): files1[p] = f files2 = set() for p, f in self._finder2.find(path): files2.add(p) if p in files1: if may_unify_binary(files1[p]) and \ may_unify_binary(f): yield p, UnifiedExecutableFile(files1[p], f) else: err = errors.count unified = self.unify_file(p, files1[p], f) if unified: yield p, unified elif err == errors.count: self._report_difference(p, files1[p], f) else: errors.error('File missing in %s: %s' % (self._finder1.base, p)) for p in [p for p in files1 if not p in files2]: errors.error('File missing in %s: %s' % (self._finder2.base, p)) def _report_difference(self, path, file1, file2): ''' Report differences between files in both trees. ''' errors.error("Can't unify %s: file differs between %s and %s" % (path, self._finder1.base, self._finder2.base)) if not isinstance(file1, ExecutableFile) and \ not isinstance(file2, ExecutableFile): from difflib import unified_diff for line in unified_diff(file1.open().readlines(), file2.open().readlines(), os.path.join(self._finder1.base, path), os.path.join(self._finder2.base, path)): errors.out.write(line) def unify_file(self, path, file1, file2): ''' Given two BaseFiles and the path they were found at, check whether their content match and return the first BaseFile if they do. ''' content1 = file1.open().readlines() content2 = file2.open().readlines() if content1 == content2: return file1 for pattern in self._sorted: if mozpath.match(path, pattern): if sorted(content1) == sorted(content2): return file1 break return None class UnifiedBuildFinder(UnifiedFinder): ''' Specialized UnifiedFinder for Mozilla applications packaging. It allows "*.manifest" files to differ in their order, and unifies "buildconfig.html" files by merging their content. ''' def __init__(self, finder1, finder2, **kargs): UnifiedFinder.__init__(self, finder1, finder2, sorted=['**/*.manifest'], **kargs) def unify_file(self, path, file1, file2): ''' Unify files taking Mozilla application special cases into account. Otherwise defer to UnifiedFinder.unify_file. ''' basename = mozpath.basename(path) if basename == 'buildconfig.html': content1 = file1.open().readlines() content2 = file2.open().readlines() # Copy everything from the first file up to the end of its <body>, # insert a <hr> between the two files and copy the second file's # content beginning after its leading <h1>. return GeneratedFile(''.join( content1[:content1.index('</body>\n')] + ['<hr> </hr>\n'] + content2[content2.index('<h1>about:buildconfig</h1>\n') + 1:] )) elif basename == 'install.rdf': # install.rdf files often have em:targetPlatform (either as # attribute or as tag) that will differ between platforms. The # unified install.rdf should contain both em:targetPlatforms if # they exist, or strip them if only one file has a target platform. content1, content2 = ( FIND_TARGET_PLATFORM_ATTR.sub(lambda m: \ m.group('tag') + m.group('attrs') + m.group('otherattrs') + '<%stargetPlatform>%s</%stargetPlatform>' % \ (m.group('ns') or "", m.group('platform'), m.group('ns') or ""), f.open().read() ) for f in (file1, file2) ) platform2 = FIND_TARGET_PLATFORM.search(content2) return GeneratedFile(FIND_TARGET_PLATFORM.sub( lambda m: m.group(0) + platform2.group(0) if platform2 else '', content1 )) elif path.endswith('.xpi'): finder1 = JarFinder(os.path.join(self._finder1.base, path), JarReader(fileobj=file1.open())) finder2 = JarFinder(os.path.join(self._finder2.base, path), JarReader(fileobj=file2.open())) unifier = UnifiedFinder(finder1, finder2, sorted=self._sorted) err = errors.count all(unifier.find('')) if err == errors.count: return file1 return None return UnifiedFinder.unify_file(self, path, file1, file2)