class Keg < Pathname PREFIX_PLACEHOLDER = "@@HOMEBREW_PREFIX@@".freeze CELLAR_PLACEHOLDER = "@@HOMEBREW_CELLAR@@".freeze def fix_install_names options={} mach_o_files.each do |file| file.ensure_writable do change_dylib_id(dylib_id_for(file, options), file) if file.dylib? each_install_name_for(file) do |bad_name| # Don't fix absolute paths unless they are rooted in the build directory next if bad_name.start_with? '/' and not bad_name.start_with? HOMEBREW_TEMP.to_s new_name = fixed_name(file, bad_name) change_install_name(bad_name, new_name, file) unless new_name == bad_name end end end end def relocate_install_names old_prefix, new_prefix, old_cellar, new_cellar, options={} mach_o_files.each do |file| file.ensure_writable do if file.dylib? id = dylib_id_for(file, options).sub(old_prefix, new_prefix) change_dylib_id(id, file) end each_install_name_for(file) do |old_name| if old_name.start_with? old_cellar new_name = old_name.sub(old_cellar, new_cellar) elsif old_name.start_with? old_prefix new_name = old_name.sub(old_prefix, new_prefix) end change_install_name(old_name, new_name, file) if new_name end end end files = pkgconfig_files | libtool_files | script_files files.group_by { |f| f.stat.ino }.each_value do |first, *rest| s = first.open("rb", &:read) changed = s.gsub!(old_cellar, new_cellar) changed = s.gsub!(old_prefix, new_prefix) || changed begin first.atomic_write(s) rescue Errno::EACCES first.ensure_writable do first.open("wb") { |f| f.write(s) } end else rest.each { |file| FileUtils.ln(first, file, :force => true) } end if changed end end def change_dylib_id(id, file) puts "Changing dylib ID in #{file} to #{id}" if ARGV.debug? install_name_tool("-id", id, file) end def change_install_name(old, new, file) puts "Changing install name in #{file} from #{old} to #{new}" if ARGV.debug? install_name_tool("-change", old, new, file) end # Detects the C++ dynamic libraries in place, scanning the dynamic links # of the files within the keg. This searches only libs contained within # lib/, and ignores binaries and other mach-o objects # Note that this doesn't attempt to distinguish between libstdc++ versions, # for instance between Apple libstdc++ and GNU libstdc++ def detect_cxx_stdlibs(opts={:skip_executables => false}) results = Set.new mach_o_files.each do |file| next if file.mach_o_executable? && opts[:skip_executables] dylibs = file.dynamically_linked_libraries results << :libcxx unless dylibs.grep(/libc\+\+.+\.dylib/).empty? results << :libstdcxx unless dylibs.grep(/libstdc\+\+.+\.dylib/).empty? end results.to_a end def each_unique_file_matching string IO.popen("/usr/bin/fgrep -lr '#{string}' '#{self}' 2>/dev/null") do |io| hardlinks = Set.new until io.eof? file = Pathname.new(io.readline.chomp) next if file.symlink? yield file if hardlinks.add? file.stat.ino end end end def install_name_tool(*args) system(MacOS.locate("install_name_tool"), *args) end # If file is a dylib or bundle itself, look for the dylib named by # bad_name relative to the lib directory, so that we can skip the more # expensive recursive search if possible. def fixed_name(file, bad_name) if bad_name.start_with? PREFIX_PLACEHOLDER bad_name.sub(PREFIX_PLACEHOLDER, HOMEBREW_PREFIX.to_s) elsif bad_name.start_with? CELLAR_PLACEHOLDER bad_name.sub(CELLAR_PLACEHOLDER, HOMEBREW_CELLAR.to_s) elsif (file.dylib? || file.mach_o_bundle?) && (file.parent + bad_name).exist? "@loader_path/#{bad_name}" elsif file.mach_o_executable? && (lib + bad_name).exist? "#{lib}/#{bad_name}" elsif (abs_name = find_dylib(Pathname.new(bad_name).basename)) && abs_name.exist? abs_name.to_s else opoo "Could not fix #{bad_name} in #{file}" bad_name end end def lib; join 'lib' end def each_install_name_for file, &block dylibs = file.dynamically_linked_libraries dylibs.reject! { |fn| fn =~ /^@(loader_|executable_|r)path/ } dylibs.each(&block) end def dylib_id_for file, options={} # The new dylib ID should have the same basename as the old dylib ID, not # the basename of the file itself. basename = File.basename(file.dylib_id) relative_dirname = file.dirname.relative_path_from(self) shortpath = HOMEBREW_PREFIX.join(relative_dirname, basename) if shortpath.exist? and not options[:keg_only] shortpath.to_s else "#{HOMEBREW_PREFIX}/opt/#{fname}/#{relative_dirname}/#{basename}" end end def find_dylib name lib.find { |pn| break pn if pn.basename == name } end def mach_o_files mach_o_files = [] dirs = %w{bin lib Frameworks} dirs.map! { |dir| join(dir) } dirs.reject! { |dir| not dir.directory? } dirs.each do |dir| dir.find do |pn| next if pn.symlink? or pn.directory? mach_o_files << pn if pn.dylib? or pn.mach_o_bundle? or pn.mach_o_executable? end end mach_o_files end def script_files script_files = [] # find all files with shebangs find do |pn| next if pn.symlink? or pn.directory? script_files << pn if pn.text_executable? end script_files end def pkgconfig_files pkgconfig_files = [] %w[lib share].each do |dir| pcdir = join(dir, "pkgconfig") pcdir.find do |pn| next if pn.symlink? or pn.directory? or pn.extname != '.pc' pkgconfig_files << pn end if pcdir.directory? end pkgconfig_files end def libtool_files libtool_files = [] # find .la files, which are stored in lib/ lib.find do |pn| next if pn.symlink? or pn.directory? or pn.extname != '.la' libtool_files << pn end if lib.directory? libtool_files end end