# 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/. '''Given a library, dependentlibs.py prints the list of libraries it depends upon that are in the same directory, followed by the library itself. ''' from optparse import OptionParser import os import re import fnmatch import subprocess import sys from mozpack.executables import ( get_type, ELF, MACHO, ) TOOLCHAIN_PREFIX = '' def dependentlibs_dumpbin(lib): '''Returns the list of dependencies declared in the given DLL''' try: proc = subprocess.Popen(['dumpbin', '-dependents', lib], stdout = subprocess.PIPE) except OSError: # dumpbin is missing, probably mingw compilation. Try using objdump. return dependentlibs_mingw_objdump(lib) deps = [] for line in proc.stdout: # Each line containing an imported library name starts with 4 spaces match = re.match(' (\S+)', line) if match: deps.append(match.group(1)) elif len(deps): # There may be several groups of library names, but only the # first one is interesting. The second one is for delayload-ed # libraries. break proc.wait() return deps def dependentlibs_mingw_objdump(lib): proc = subprocess.Popen(['objdump', '-x', lib], stdout = subprocess.PIPE) deps = [] for line in proc.stdout: match = re.match('\tDLL Name: (\S+)', line) if match: deps.append(match.group(1)) proc.wait() return deps def dependentlibs_readelf(lib): '''Returns the list of dependencies declared in the given ELF .so''' proc = subprocess.Popen([TOOLCHAIN_PREFIX + 'readelf', '-d', lib], stdout = subprocess.PIPE) deps = [] for line in proc.stdout: # Each line has the following format: # tag (TYPE) value # Looking for NEEDED type entries tmp = line.split(' ', 3) if len(tmp) > 3 and tmp[2] == '(NEEDED)': # NEEDED lines look like: # 0x00000001 (NEEDED) Shared library: [libname] match = re.search('\[(.*)\]', tmp[3]) if match: deps.append(match.group(1)) proc.wait() return deps def dependentlibs_otool(lib): '''Returns the list of dependencies declared in the given MACH-O dylib''' proc = subprocess.Popen(['otool', '-l', lib], stdout = subprocess.PIPE) deps= [] cmd = None for line in proc.stdout: # otool -l output contains many different things. The interesting data # is under "Load command n" sections, with the content: # cmd LC_LOAD_DYLIB # cmdsize 56 # name libname (offset 24) tmp = line.split() if len(tmp) < 2: continue if tmp[0] == 'cmd': cmd = tmp[1] elif cmd == 'LC_LOAD_DYLIB' and tmp[0] == 'name': deps.append(re.sub('^@executable_path/','',tmp[1])) proc.wait() return deps def dependentlibs(lib, libpaths, func): '''For a given library, returns the list of recursive dependencies that can be found in the given list of paths, followed by the library itself.''' assert(libpaths) assert(isinstance(libpaths, list)) deps = [] for dep in func(lib): if dep in deps or os.path.isabs(dep): continue for dir in libpaths: deppath = os.path.join(dir, dep) if os.path.exists(deppath): deps.extend([d for d in dependentlibs(deppath, libpaths, func) if not d in deps]) # Black list the ICU data DLL because preloading it at startup # leads to startup performance problems because of its excessive # size (around 10MB). if not dep.startswith("icu"): deps.append(dep) break return deps def main(): parser = OptionParser() parser.add_option("-L", dest="libpaths", action="append", metavar="PATH", help="Add the given path to the library search path") parser.add_option("-p", dest="toolchain_prefix", metavar="PREFIX", help="Use the given prefix to readelf") (options, args) = parser.parse_args() if options.toolchain_prefix: global TOOLCHAIN_PREFIX TOOLCHAIN_PREFIX = options.toolchain_prefix lib = args[0] binary_type = get_type(lib) if binary_type == ELF: func = dependentlibs_readelf elif binary_type == MACHO: func = dependentlibs_otool else: ext = os.path.splitext(lib)[1] assert(ext == '.dll') func = dependentlibs_dumpbin if not options.libpaths: options.libpaths = [os.path.dirname(lib)] print '\n'.join(dependentlibs(lib, options.libpaths, func) + [lib]) if __name__ == '__main__': main()