예제 #1
0
def handleMessage(origMsg, sender, recipient):
    # create id
    bbboid = hex(long(time.time() * os.getpid()))[2:-1]
    log.info("Id: [%s]handling message from %r to %r in %r", bbboid, sender, recipient, origMsg)
    try:
        msgFile = os.path.join(config.workPath, os.path.split(origMsg)[1])
        msgDir = os.path.join(config.workPath, bbboid)
        # move message to work area
        os.rename(origMsg, msgFile)
        # create unpack dir
        os.makedirs(msgDir, 0700)

        # unpack / parse
        (parts, headers, problem) = mailparse(msgFile, msgDir)
        if problem:
            log.info('[%s] blocking because of parsing problem extensions: %s', bbboid, problem.name)
            sendwarning(open(msgFile),
                        sender, recipient, bbboid,
                        'blocked-report',
                        {'problem': problem.getInfoDict()})
            dispose(msgFile, msgDir, config.quarantainePath)
            return

        # TODO: virusscan

        # check for unwanted extensions 
        problem = checkextensions(parts)
        if problem:
            log.info('[%s] blocking because of unwanted extensions: %s', bbboid, problem.info['usedextension'])
            sendwarning(open(msgFile),
                        sender, recipient, bbboid,
                        'blocked-report',
                        {'problem': problem.getInfoDict()})
            dispose(msgFile, msgDir, config.quarantainePath)
            return
        # check for unwanted filetypes
        # check for unwanted encodings

        # put in outqueue
        log.info('[%s] passing', bbboid)
        dispose(msgFile, msgDir, config.outqueuePath)

        # TODO: check for left over messages
    except Exception, e:
        #raise
        log.exception("[%s] unhandled exception", bbboid)
예제 #2
0
def main():
    # overridable context
    prefix = None                       # settable with -p option
    exec_prefix = None                  # settable with -P option
    extensions = []
    exclude = []                        # settable with -x option
    addn_link = []      # settable with -l, but only honored under Windows.
    path = sys.path[:]
    modargs = 0
    debug = 1
    odir = ''
    win = sys.platform[:3] == 'win'
    replace_paths = []                  # settable with -r option
    error_if_any_missing = 0

    # default the exclude list for each platform
    if win: exclude = exclude + [
        'dos', 'dospath', 'mac', 'macfs', 'MACFS', 'posix', ]

    fail_import = exclude[:]

    # output files
    frozen_c = 'frozen.c'
    config_c = 'config.c'
    target = 'a.out'                    # normally derived from script name
    makefile = 'Makefile'
    subsystem = 'console'

    # parse command line by first replacing any "-i" options with the
    # file contents.
    pos = 1
    while pos < len(sys.argv)-1:
        # last option can not be "-i", so this ensures "pos+1" is in range!
        if sys.argv[pos] == '-i':
            try:
                with open(sys.argv[pos+1]) as infp:
                    options = infp.read().split()
            except IOError as why:
                usage("File name '%s' specified with the -i option "
                      "can not be read - %s" % (sys.argv[pos+1], why) )
            # Replace the '-i' and the filename with the read params.
            sys.argv[pos:pos+2] = options
            pos = pos + len(options) - 1 # Skip the name and the included args.
        pos = pos + 1

    # Now parse the command line with the extras inserted.
    try:
        opts, args = getopt.getopt(sys.argv[1:], 'r:a:dEe:hmo:p:P:qs:wX:x:l:')
    except getopt.error as msg:
        usage('getopt error: ' + str(msg))

    # process option arguments
    for o, a in opts:
        if o == '-h':
            print(__doc__)
            return
        if o == '-d':
            debug = debug + 1
        if o == '-e':
            extensions.append(a)
        if o == '-m':
            modargs = 1
        if o == '-o':
            odir = a
        if o == '-p':
            prefix = a
        if o == '-P':
            exec_prefix = a
        if o == '-q':
            debug = 0
        if o == '-w':
            win = not win
        if o == '-s':
            if not win:
                usage("-s subsystem option only on Windows")
            subsystem = a
        if o == '-x':
            exclude.append(a)
        if o == '-X':
            exclude.append(a)
            fail_import.append(a)
        if o == '-E':
            error_if_any_missing = 1
        if o == '-l':
            addn_link.append(a)
        if o == '-a':
            modulefinder.AddPackagePath(*a.split("=", 2))
        if o == '-r':
            f,r = a.split("=", 2)
            replace_paths.append( (f,r) )

    # modules that are imported by the Python runtime
    implicits = []
    for module in ('site', 'warnings', 'encodings.utf_8', 'encodings.latin_1'):
        if module not in exclude:
            implicits.append(module)

    # default prefix and exec_prefix
    if not exec_prefix:
        if prefix:
            exec_prefix = prefix
        else:
            exec_prefix = sys.exec_prefix
    if not prefix:
        prefix = sys.prefix

    # determine whether -p points to the Python source tree
    ishome = os.path.exists(os.path.join(prefix, 'Python', 'ceval.c'))

    # locations derived from options
    version = '%d.%d' % sys.version_info[:2]
    if hasattr(sys, 'abiflags'):
        flagged_version = version + sys.abiflags
    else:
        flagged_version = version
    if win:
        extensions_c = 'frozen_extensions.c'
    if ishome:
        print("(Using Python source directory)")
        binlib = exec_prefix
        incldir = os.path.join(prefix, 'Include')
        config_h_dir = exec_prefix
        config_c_in = os.path.join(prefix, 'Modules', 'config.c.in')
        frozenmain_c = os.path.join(prefix, 'Python', 'frozenmain.c')
        makefile_in = os.path.join(exec_prefix, 'Makefile')
        if win:
            frozendllmain_c = os.path.join(exec_prefix, 'Pc\\frozen_dllmain.c')
    else:
        binlib = os.path.join(exec_prefix,
                              'lib', 'python%s' % version,
                              'config-%s' % flagged_version)
        incldir = os.path.join(prefix, 'include', 'python%s' % flagged_version)
        config_h_dir = os.path.join(exec_prefix, 'include',
                                    'python%s' % flagged_version)
        config_c_in = os.path.join(binlib, 'config.c.in')
        frozenmain_c = os.path.join(binlib, 'frozenmain.c')
        makefile_in = os.path.join(binlib, 'Makefile')
        frozendllmain_c = os.path.join(binlib, 'frozen_dllmain.c')
    supp_sources = []
    defines = []
    includes = ['-I' + incldir, '-I' + config_h_dir]

    # sanity check of directories and files
    check_dirs = [prefix, exec_prefix, binlib, incldir]
    if not win:
        # These are not directories on Windows.
        check_dirs = check_dirs + extensions
    for dir in check_dirs:
        if not os.path.exists(dir):
            usage('needed directory %s not found' % dir)
        if not os.path.isdir(dir):
            usage('%s: not a directory' % dir)
    if win:
        files = supp_sources + extensions # extensions are files on Windows.
    else:
        files = [config_c_in, makefile_in] + supp_sources
    for file in supp_sources:
        if not os.path.exists(file):
            usage('needed file %s not found' % file)
        if not os.path.isfile(file):
            usage('%s: not a plain file' % file)
    if not win:
        for dir in extensions:
            setup = os.path.join(dir, 'Setup')
            if not os.path.exists(setup):
                usage('needed file %s not found' % setup)
            if not os.path.isfile(setup):
                usage('%s: not a plain file' % setup)

    # check that enough arguments are passed
    if not args:
        usage('at least one filename argument required')

    # check that file arguments exist
    for arg in args:
        if arg == '-m':
            break
        # if user specified -m on the command line before _any_
        # file names, then nothing should be checked (as the
        # very first file should be a module name)
        if modargs:
            break
        if not os.path.exists(arg):
            usage('argument %s not found' % arg)
        if not os.path.isfile(arg):
            usage('%s: not a plain file' % arg)

    # process non-option arguments
    scriptfile = args[0]
    modules = args[1:]

    # derive target name from script name
    base = os.path.basename(scriptfile)
    base, ext = os.path.splitext(base)
    if base:
        if base != scriptfile:
            target = base
        else:
            target = base + '.bin'

    # handle -o option
    base_frozen_c = frozen_c
    base_config_c = config_c
    base_target = target
    if odir and not os.path.isdir(odir):
        try:
            os.mkdir(odir)
            print("Created output directory", odir)
        except OSError as msg:
            usage('%s: mkdir failed (%s)' % (odir, str(msg)))
    base = ''
    if odir:
        base = os.path.join(odir, '')
        frozen_c = os.path.join(odir, frozen_c)
        config_c = os.path.join(odir, config_c)
        target = os.path.join(odir, target)
        makefile = os.path.join(odir, makefile)
        if win: extensions_c = os.path.join(odir, extensions_c)

    # Handle special entry point requirements
    # (on Windows, some frozen programs do not use __main__, but
    # import the module directly.  Eg, DLLs, Services, etc
    custom_entry_point = None  # Currently only used on Windows
    python_entry_is_main = 1   # Is the entry point called __main__?
    # handle -s option on Windows
    if win:
        import winmakemakefile
        try:
            custom_entry_point, python_entry_is_main = \
                winmakemakefile.get_custom_entry_point(subsystem)
        except ValueError as why:
            usage(why)


    # Actual work starts here...

    # collect all modules of the program
    dir = os.path.dirname(scriptfile)
    path[0] = dir
    mf = modulefinder.ModuleFinder(path, debug, exclude, replace_paths)

    if win and subsystem=='service':
        # If a Windows service, then add the "built-in" module.
        mod = mf.add_module("servicemanager")
        mod.__file__="dummy.pyd" # really built-in to the resulting EXE

    for mod in implicits:
        mf.import_hook(mod)
    for mod in modules:
        if mod == '-m':
            modargs = 1
            continue
        if modargs:
            if mod[-2:] == '.*':
                mf.import_hook(mod[:-2], None, ["*"])
            else:
                mf.import_hook(mod)
        else:
            mf.load_file(mod)

    # Alias "importlib._bootstrap" to "_frozen_importlib" so that the
    # import machinery can bootstrap.  Do the same for
    # importlib._bootstrap_external.
    mf.modules["_frozen_importlib"] = mf.modules["importlib._bootstrap"]
    mf.modules["_frozen_importlib_external"] = mf.modules["importlib._bootstrap_external"]

    # Add the main script as either __main__, or the actual module name.
    if python_entry_is_main:
        mf.run_script(scriptfile)
    else:
        mf.load_file(scriptfile)

    if debug > 0:
        mf.report()
        print()
    dict = mf.modules

    if error_if_any_missing:
        missing = mf.any_missing()
        if missing:
            sys.exit("There are some missing modules: %r" % missing)

    # generate output for frozen modules
    files = makefreeze.makefreeze(base, dict, debug, custom_entry_point,
                                  fail_import)

    # look for unfrozen modules (builtin and of unknown origin)
    builtins = []
    unknown = []
    mods = sorted(dict.keys())
    for mod in mods:
        if dict[mod].__code__:
            continue
        if not dict[mod].__file__:
            builtins.append(mod)
        else:
            unknown.append(mod)

    # search for unknown modules in extensions directories (not on Windows)
    addfiles = []
    frozen_extensions = [] # Windows list of modules.
    if unknown or (not win and builtins):
        if not win:
            addfiles, addmods = \
                      checkextensions.checkextensions(unknown+builtins,
                                                      extensions)
            for mod in addmods:
                if mod in unknown:
                    unknown.remove(mod)
                    builtins.append(mod)
        else:
            # Do the windows thang...
            import checkextensions_win32
            # Get a list of CExtension instances, each describing a module
            # (including its source files)
            frozen_extensions = checkextensions_win32.checkextensions(
                unknown, extensions, prefix)
            for mod in frozen_extensions:
                unknown.remove(mod.name)

    # report unknown modules
    if unknown:
        sys.stderr.write('Warning: unknown modules remain: %s\n' %
                         ' '.join(unknown))

    # windows gets different treatment
    if win:
        # Taking a shortcut here...
        import winmakemakefile, checkextensions_win32
        checkextensions_win32.write_extension_table(extensions_c,
                                                    frozen_extensions)
        # Create a module definition for the bootstrap C code.
        xtras = [frozenmain_c, os.path.basename(frozen_c),
                 frozendllmain_c, os.path.basename(extensions_c)] + files
        maindefn = checkextensions_win32.CExtension( '__main__', xtras )
        frozen_extensions.append( maindefn )
        with open(makefile, 'w') as outfp:
            winmakemakefile.makemakefile(outfp,
                                         locals(),
                                         frozen_extensions,
                                         os.path.basename(target))
        return

    # generate config.c and Makefile
    builtins.sort()
    with open(config_c_in) as infp, bkfile.open(config_c, 'w') as outfp:
        makeconfig.makeconfig(infp, outfp, builtins)

    cflags = ['$(OPT)']
    cppflags = defines + includes
    libs = [os.path.join(binlib, '$(LDLIBRARY)')]

    somevars = {}
    if os.path.exists(makefile_in):
        makevars = parsesetup.getmakevars(makefile_in)
        for key in makevars:
            somevars[key] = makevars[key]

    somevars['CFLAGS'] = ' '.join(cflags) # override
    somevars['CPPFLAGS'] = ' '.join(cppflags) # override
    files = [base_config_c, base_frozen_c] + \
            files + supp_sources +  addfiles + libs + \
            ['$(MODLIBS)', '$(LIBS)', '$(SYSLIBS)']

    with bkfile.open(makefile, 'w') as outfp:
        makemakefile.makemakefile(outfp, somevars, files, base_target)

    # Done!

    if odir:
        print('Now run "make" in', odir, end=' ')
        print('to build the target:', base_target)
    else:
        print('Now run "make" to build the target:', base_target)
    mods.sort()
    for mod in mods:
        if dict[mod].__code__:
            continue
        if not dict[mod].__file__:
            builtins.append(mod)
        else:
            unknown.append(mod)

    # search for unknown modules in extensions directories (not on Windows)
    addfiles = []
    frozen_extensions = []  # Windows list of modules.
    if unknown or (not win and builtins):
        if not win:
            addfiles, addmods = \
                      checkextensions.checkextensions(unknown+builtins,
                                                      extensions)
            for mod in addmods:
                if mod in unknown:
                    unknown.remove(mod)
                    builtins.append(mod)
        else:
            # Do the windows thang...
            import checkextensions_win32
            # Get a list of CExtension instances, each describing a module
            # (including its source files)
            frozen_extensions = checkextensions_win32.checkextensions(
                unknown, extensions, prefix)
            for mod in frozen_extensions:
                unknown.remove(mod.name)

    # report unknown modules
예제 #4
0
    mods.sort()
    for mod in mods:
        if dict[mod].__code__:
            continue
        if not dict[mod].__file__:
            builtins.append(mod)
        else:
            unknown.append(mod)

    # search for unknown modules in extensions directories (not on Windows)
    addfiles = []
    frozen_extensions = [] # Windows list of modules.
    if unknown or (not win and builtins):
        if not win:
            addfiles, addmods = \
                      checkextensions.checkextensions(unknown+builtins,
                                                      extensions)
            for mod in addmods:
                if mod in unknown:
                    unknown.remove(mod)
                    builtins.append(mod)
        else:
            # Do the windows thang...
            import checkextensions_win32
            # Get a list of CExtension instances, each describing a module
            # (including its source files)
            frozen_extensions = checkextensions_win32.checkextensions(
                unknown, extensions, prefix)
            for mod in frozen_extensions:
                unknown.remove(mod.name)

    # report unknown modules
예제 #5
0
파일: freeze.py 프로젝트: ARK4579/cpython
def main():
    # overridable context
    prefix = None                       # settable with -p option
    exec_prefix = None                  # settable with -P option
    extensions = []
    exclude = []                        # settable with -x option
    addn_link = []      # settable with -l, but only honored under Windows.
    path = sys.path[:]
    modargs = 0
    debug = 1
    odir = ''
    win = sys.platform[:3] == 'win'
    replace_paths = []                  # settable with -r option
    error_if_any_missing = 0

    # default the exclude list for each platform
    if win: exclude = exclude + [
        'dos', 'dospath', 'mac', 'macpath', 'macfs', 'MACFS', 'posix',
        'ce',
        ]

    fail_import = exclude[:]

    # output files
    frozen_c = 'frozen.c'
    config_c = 'config.c'
    target = 'a.out'                    # normally derived from script name
    makefile = 'Makefile'
    subsystem = 'console'

    # parse command line by first replacing any "-i" options with the
    # file contents.
    pos = 1
    while pos < len(sys.argv)-1:
        # last option can not be "-i", so this ensures "pos+1" is in range!
        if sys.argv[pos] == '-i':
            try:
                options = open(sys.argv[pos+1]).read().split()
            except IOError as why:
                usage("File name '%s' specified with the -i option "
                      "can not be read - %s" % (sys.argv[pos+1], why) )
            # Replace the '-i' and the filename with the read params.
            sys.argv[pos:pos+2] = options
            pos = pos + len(options) - 1 # Skip the name and the included args.
        pos = pos + 1

    # Now parse the command line with the extras inserted.
    try:
        opts, args = getopt.getopt(sys.argv[1:], 'r:a:dEe:hmo:p:P:qs:wX:x:l:')
    except getopt.error as msg:
        usage('getopt error: ' + str(msg))

    # proces option arguments
    for o, a in opts:
        if o == '-h':
            print(__doc__)
            return
        if o == '-d':
            debug = debug + 1
        if o == '-e':
            extensions.append(a)
        if o == '-m':
            modargs = 1
        if o == '-o':
            odir = a
        if o == '-p':
            prefix = a
        if o == '-P':
            exec_prefix = a
        if o == '-q':
            debug = 0
        if o == '-w':
            win = not win
        if o == '-s':
            if not win:
                usage("-s subsystem option only on Windows")
            subsystem = a
        if o == '-x':
            exclude.append(a)
        if o == '-X':
            exclude.append(a)
            fail_import.append(a)
        if o == '-E':
            error_if_any_missing = 1
        if o == '-l':
            addn_link.append(a)
        if o == '-a':
            modulefinder.AddPackagePath(*a.split("=", 2))
        if o == '-r':
            f,r = a.split("=", 2)
            replace_paths.append( (f,r) )

    # modules that are imported by the Python runtime
    implicits = []
    for module in ('site', 'warnings', 'encodings.utf_8', 'encodings.latin_1'):
        if module not in exclude:
            implicits.append(module)

    # default prefix and exec_prefix
    if not exec_prefix:
        if prefix:
            exec_prefix = prefix
        else:
            exec_prefix = sys.exec_prefix
    if not prefix:
        prefix = sys.prefix

    # determine whether -p points to the Python source tree
    ishome = os.path.exists(os.path.join(prefix, 'Python', 'ceval.c'))

    # locations derived from options
    version = '%d.%d' % sys.version_info[:2]
    flagged_version = version + sys.abiflags
    if win:
        extensions_c = 'frozen_extensions.c'
    if ishome:
        print("(Using Python source directory)")
        binlib = exec_prefix
        incldir = os.path.join(prefix, 'Include')
        config_h_dir = exec_prefix
        config_c_in = os.path.join(prefix, 'Modules', 'config.c.in')
        frozenmain_c = os.path.join(prefix, 'Python', 'frozenmain.c')
        makefile_in = os.path.join(exec_prefix, 'Makefile')
        if win:
            frozendllmain_c = os.path.join(exec_prefix, 'Pc\\frozen_dllmain.c')
    else:
        binlib = os.path.join(exec_prefix,
                              'lib', 'python%s' % version,
                              'config-%s' % flagged_version)
        incldir = os.path.join(prefix, 'include', 'python%s' % flagged_version)
        config_h_dir = os.path.join(exec_prefix, 'include',
                                    'python%s' % flagged_version)
        config_c_in = os.path.join(binlib, 'config.c.in')
        frozenmain_c = os.path.join(binlib, 'frozenmain.c')
        makefile_in = os.path.join(binlib, 'Makefile')
        frozendllmain_c = os.path.join(binlib, 'frozen_dllmain.c')
    supp_sources = []
    defines = []
    includes = ['-I' + incldir, '-I' + config_h_dir]

    # sanity check of directories and files
    check_dirs = [prefix, exec_prefix, binlib, incldir]
    if not win:
        # These are not directories on Windows.
        check_dirs = check_dirs + extensions
    for dir in check_dirs:
        if not os.path.exists(dir):
            usage('needed directory %s not found' % dir)
        if not os.path.isdir(dir):
            usage('%s: not a directory' % dir)
    if win:
        files = supp_sources + extensions # extensions are files on Windows.
    else:
        files = [config_c_in, makefile_in] + supp_sources
    for file in supp_sources:
        if not os.path.exists(file):
            usage('needed file %s not found' % file)
        if not os.path.isfile(file):
            usage('%s: not a plain file' % file)
    if not win:
        for dir in extensions:
            setup = os.path.join(dir, 'Setup')
            if not os.path.exists(setup):
                usage('needed file %s not found' % setup)
            if not os.path.isfile(setup):
                usage('%s: not a plain file' % setup)

    # check that enough arguments are passed
    if not args:
        usage('at least one filename argument required')

    # check that file arguments exist
    for arg in args:
        if arg == '-m':
            break
        # if user specified -m on the command line before _any_
        # file names, then nothing should be checked (as the
        # very first file should be a module name)
        if modargs:
            break
        if not os.path.exists(arg):
            usage('argument %s not found' % arg)
        if not os.path.isfile(arg):
            usage('%s: not a plain file' % arg)

    # process non-option arguments
    scriptfile = args[0]
    modules = args[1:]

    # derive target name from script name
    base = os.path.basename(scriptfile)
    base, ext = os.path.splitext(base)
    if base:
        if base != scriptfile:
            target = base
        else:
            target = base + '.bin'

    # handle -o option
    base_frozen_c = frozen_c
    base_config_c = config_c
    base_target = target
    if odir and not os.path.isdir(odir):
        try:
            os.mkdir(odir)
            print("Created output directory", odir)
        except OSError as msg:
            usage('%s: mkdir failed (%s)' % (odir, str(msg)))
    base = ''
    if odir:
        base = os.path.join(odir, '')
        frozen_c = os.path.join(odir, frozen_c)
        config_c = os.path.join(odir, config_c)
        target = os.path.join(odir, target)
        makefile = os.path.join(odir, makefile)
        if win: extensions_c = os.path.join(odir, extensions_c)

    # Handle special entry point requirements
    # (on Windows, some frozen programs do not use __main__, but
    # import the module directly.  Eg, DLLs, Services, etc
    custom_entry_point = None  # Currently only used on Windows
    python_entry_is_main = 1   # Is the entry point called __main__?
    # handle -s option on Windows
    if win:
        import winmakemakefile
        try:
            custom_entry_point, python_entry_is_main = \
                winmakemakefile.get_custom_entry_point(subsystem)
        except ValueError as why:
            usage(why)


    # Actual work starts here...

    # collect all modules of the program
    dir = os.path.dirname(scriptfile)
    path[0] = dir
    mf = modulefinder.ModuleFinder(path, debug, exclude, replace_paths)

    if win and subsystem=='service':
        # If a Windows service, then add the "built-in" module.
        mod = mf.add_module("servicemanager")
        mod.__file__="dummy.pyd" # really built-in to the resulting EXE

    for mod in implicits:
        mf.import_hook(mod)
    for mod in modules:
        if mod == '-m':
            modargs = 1
            continue
        if modargs:
            if mod[-2:] == '.*':
                mf.import_hook(mod[:-2], None, ["*"])
            else:
                mf.import_hook(mod)
        else:
            mf.load_file(mod)

    # Alias "importlib._bootstrap" to "_frozen_importlib" so that the
    # import machinery can bootstrap.  Do the same for
    # importlib._bootstrap_external.
    mf.modules["_frozen_importlib"] = mf.modules["importlib._bootstrap"]
    mf.modules["_frozen_importlib_external"] = mf.modules["importlib._bootstrap_external"]

    # Add the main script as either __main__, or the actual module name.
    if python_entry_is_main:
        mf.run_script(scriptfile)
    else:
        mf.load_file(scriptfile)

    if debug > 0:
        mf.report()
        print()
    dict = mf.modules

    if error_if_any_missing:
        missing = mf.any_missing()
        if missing:
            sys.exit("There are some missing modules: %r" % missing)

    # generate output for frozen modules
    files = makefreeze.makefreeze(base, dict, debug, custom_entry_point,
                                  fail_import)

    # look for unfrozen modules (builtin and of unknown origin)
    builtins = []
    unknown = []
    mods = sorted(dict.keys())
    for mod in mods:
        if dict[mod].__code__:
            continue
        if not dict[mod].__file__:
            builtins.append(mod)
        else:
            unknown.append(mod)

    # search for unknown modules in extensions directories (not on Windows)
    addfiles = []
    frozen_extensions = [] # Windows list of modules.
    if unknown or (not win and builtins):
        if not win:
            addfiles, addmods = \
                      checkextensions.checkextensions(unknown+builtins,
                                                      extensions)
            for mod in addmods:
                if mod in unknown:
                    unknown.remove(mod)
                    builtins.append(mod)
        else:
            # Do the windows thang...
            import checkextensions_win32
            # Get a list of CExtension instances, each describing a module
            # (including its source files)
            frozen_extensions = checkextensions_win32.checkextensions(
                unknown, extensions, prefix)
            for mod in frozen_extensions:
                unknown.remove(mod.name)

    # report unknown modules
    if unknown:
        sys.stderr.write('Warning: unknown modules remain: %s\n' %
                         ' '.join(unknown))

    # windows gets different treatment
    if win:
        # Taking a shortcut here...
        import winmakemakefile, checkextensions_win32
        checkextensions_win32.write_extension_table(extensions_c,
                                                    frozen_extensions)
        # Create a module definition for the bootstrap C code.
        xtras = [frozenmain_c, os.path.basename(frozen_c),
                 frozendllmain_c, os.path.basename(extensions_c)] + files
        maindefn = checkextensions_win32.CExtension( '__main__', xtras )
        frozen_extensions.append( maindefn )
        with open(makefile, 'w') as outfp:
            winmakemakefile.makemakefile(outfp,
                                         locals(),
                                         frozen_extensions,
                                         os.path.basename(target))
        return

    # generate config.c and Makefile
    builtins.sort()
    with open(config_c_in) as infp, bkfile.open(config_c, 'w') as outfp:
        makeconfig.makeconfig(infp, outfp, builtins)

    cflags = ['$(OPT)']
    cppflags = defines + includes
    libs = [os.path.join(binlib, '$(LDLIBRARY)')]

    somevars = {}
    if os.path.exists(makefile_in):
        makevars = parsesetup.getmakevars(makefile_in)
        for key in makevars:
            somevars[key] = makevars[key]

    somevars['CFLAGS'] = ' '.join(cflags) # override
    somevars['CPPFLAGS'] = ' '.join(cppflags) # override
    files = [base_config_c, base_frozen_c] + \
            files + supp_sources +  addfiles + libs + \
            ['$(MODLIBS)', '$(LIBS)', '$(SYSLIBS)']

    with bkfile.open(makefile, 'w') as outfp:
        makemakefile.makemakefile(outfp, somevars, files, base_target)

    # Done!

    if odir:
        print('Now run "make" in', odir, end=' ')
        print('to build the target:', base_target)
    else:
        print('Now run "make" to build the target:', base_target)
예제 #6
0
            os.rename(backup, frozen_c)

    builtins = []
    unknown = []
    mods = dict.keys()
    mods.sort()
    for mod in mods:
        if dict[mod] == '<builtin>':
            builtins.append(mod)
        elif dict[mod] == '<unknown>':
            unknown.append(mod)

    addfiles = []
    if unknown:
        addfiles, addmods = \
           checkextensions.checkextensions(unknown, extensions)
        for mod in addmods:
            unknown.remove(mod)
        builtins = builtins + addmods
    if unknown:
        sys.stderr.write('Warning: unknown modules remain: %s\n' %
                         string.join(unknown))

    builtins.sort()
    infp = open(config_c_in)
    backup = config_c + '~'
    try:
        os.rename(config_c, backup)
    except os.error:
        backup = None
    outfp = open(config_c, 'w')
예제 #7
0
def main():
    # overridable context
    prefix = None  # settable with -p option
    exec_prefix = None  # settable with -P option
    extensions = []
    exclude = []  # settable with -x option
    addn_link = []  # settable with -l, but only honored under Windows.
    path = sys.path[:]
    modargs = 0
    debug = 1
    odir = ""
    win = sys.platform[:3] == "win"
    replace_paths = []  # settable with -r option
    error_if_any_missing = 0

    # default the exclude list for each platform
    if win:
        exclude = exclude + ["dos", "dospath", "mac", "macpath", "macfs", "MACFS", "posix", "os2", "ce"]

    fail_import = exclude[:]

    # output files
    frozen_c = "frozen.c"
    config_c = "config.c"
    target = "a.out"  # normally derived from script name
    makefile = "Makefile"
    subsystem = "console"

    # parse command line by first replacing any "-i" options with the
    # file contents.
    pos = 1
    while pos < len(sys.argv) - 1:
        # last option can not be "-i", so this ensures "pos+1" is in range!
        if sys.argv[pos] == "-i":
            try:
                options = open(sys.argv[pos + 1]).read().split()
            except IOError as why:
                usage("File name '%s' specified with the -i option " "can not be read - %s" % (sys.argv[pos + 1], why))
            # Replace the '-i' and the filename with the read params.
            sys.argv[pos : pos + 2] = options
            pos = pos + len(options) - 1  # Skip the name and the included args.
        pos = pos + 1

    # Now parse the command line with the extras inserted.
    try:
        opts, args = getopt.getopt(sys.argv[1:], "r:a:dEe:hmo:p:P:qs:wX:x:l:")
    except getopt.error as msg:
        usage("getopt error: " + str(msg))

    # proces option arguments
    for o, a in opts:
        if o == "-h":
            print(__doc__)
            return
        if o == "-d":
            debug = debug + 1
        if o == "-e":
            extensions.append(a)
        if o == "-m":
            modargs = 1
        if o == "-o":
            odir = a
        if o == "-p":
            prefix = a
        if o == "-P":
            exec_prefix = a
        if o == "-q":
            debug = 0
        if o == "-w":
            win = not win
        if o == "-s":
            if not win:
                usage("-s subsystem option only on Windows")
            subsystem = a
        if o == "-x":
            exclude.append(a)
        if o == "-X":
            exclude.append(a)
            fail_import.append(a)
        if o == "-E":
            error_if_any_missing = 1
        if o == "-l":
            addn_link.append(a)
        if o == "-a":
            modulefinder.AddPackagePath(*a.split("=", 2))
        if o == "-r":
            f, r = a.split("=", 2)
            replace_paths.append((f, r))

    # modules that are imported by the Python runtime
    implicits = []
    for module in ("site", "warnings"):
        if module not in exclude:
            implicits.append(module)

    # default prefix and exec_prefix
    if not exec_prefix:
        if prefix:
            exec_prefix = prefix
        else:
            exec_prefix = sys.exec_prefix
    if not prefix:
        prefix = sys.prefix

    # determine whether -p points to the Python source tree
    ishome = os.path.exists(os.path.join(prefix, "Python", "ceval.c"))

    # locations derived from options
    version = sys.version[:3]
    if win:
        extensions_c = "frozen_extensions.c"
    if ishome:
        print("(Using Python source directory)")
        binlib = exec_prefix
        incldir = os.path.join(prefix, "Include")
        config_h_dir = exec_prefix
        config_c_in = os.path.join(prefix, "Modules", "config.c.in")
        frozenmain_c = os.path.join(prefix, "Python", "frozenmain.c")
        makefile_in = os.path.join(exec_prefix, "Makefile")
        if win:
            frozendllmain_c = os.path.join(exec_prefix, "Pc\\frozen_dllmain.c")
    else:
        binlib = os.path.join(exec_prefix, "lib", "python%s" % version, "config")
        incldir = os.path.join(prefix, "include", "python%s" % version)
        config_h_dir = os.path.join(exec_prefix, "include", "python%s" % version)
        config_c_in = os.path.join(binlib, "config.c.in")
        frozenmain_c = os.path.join(binlib, "frozenmain.c")
        makefile_in = os.path.join(binlib, "Makefile")
        frozendllmain_c = os.path.join(binlib, "frozen_dllmain.c")
    supp_sources = []
    defines = []
    includes = ["-I" + incldir, "-I" + config_h_dir]

    # sanity check of directories and files
    check_dirs = [prefix, exec_prefix, binlib, incldir]
    if not win:
        # These are not directories on Windows.
        check_dirs = check_dirs + extensions
    for dir in check_dirs:
        if not os.path.exists(dir):
            usage("needed directory %s not found" % dir)
        if not os.path.isdir(dir):
            usage("%s: not a directory" % dir)
    if win:
        files = supp_sources + extensions  # extensions are files on Windows.
    else:
        files = [config_c_in, makefile_in] + supp_sources
    for file in supp_sources:
        if not os.path.exists(file):
            usage("needed file %s not found" % file)
        if not os.path.isfile(file):
            usage("%s: not a plain file" % file)
    if not win:
        for dir in extensions:
            setup = os.path.join(dir, "Setup")
            if not os.path.exists(setup):
                usage("needed file %s not found" % setup)
            if not os.path.isfile(setup):
                usage("%s: not a plain file" % setup)

    # check that enough arguments are passed
    if not args:
        usage("at least one filename argument required")

    # check that file arguments exist
    for arg in args:
        if arg == "-m":
            break
        # if user specified -m on the command line before _any_
        # file names, then nothing should be checked (as the
        # very first file should be a module name)
        if modargs:
            break
        if not os.path.exists(arg):
            usage("argument %s not found" % arg)
        if not os.path.isfile(arg):
            usage("%s: not a plain file" % arg)

    # process non-option arguments
    scriptfile = args[0]
    modules = args[1:]

    # derive target name from script name
    base = os.path.basename(scriptfile)
    base, ext = os.path.splitext(base)
    if base:
        if base != scriptfile:
            target = base
        else:
            target = base + ".bin"

    # handle -o option
    base_frozen_c = frozen_c
    base_config_c = config_c
    base_target = target
    if odir and not os.path.isdir(odir):
        try:
            os.mkdir(odir)
            print("Created output directory", odir)
        except os.error as msg:
            usage("%s: mkdir failed (%s)" % (odir, str(msg)))
    base = ""
    if odir:
        base = os.path.join(odir, "")
        frozen_c = os.path.join(odir, frozen_c)
        config_c = os.path.join(odir, config_c)
        target = os.path.join(odir, target)
        makefile = os.path.join(odir, makefile)
        if win:
            extensions_c = os.path.join(odir, extensions_c)

    # Handle special entry point requirements
    # (on Windows, some frozen programs do not use __main__, but
    # import the module directly.  Eg, DLLs, Services, etc
    custom_entry_point = None  # Currently only used on Windows
    python_entry_is_main = 1  # Is the entry point called __main__?
    # handle -s option on Windows
    if win:
        import winmakemakefile

        try:
            custom_entry_point, python_entry_is_main = winmakemakefile.get_custom_entry_point(subsystem)
        except ValueError as why:
            usage(why)

    # Actual work starts here...

    # collect all modules of the program
    dir = os.path.dirname(scriptfile)
    path[0] = dir
    mf = modulefinder.ModuleFinder(path, debug, exclude, replace_paths)

    if win and subsystem == "service":
        # If a Windows service, then add the "built-in" module.
        mod = mf.add_module("servicemanager")
        mod.__file__ = "dummy.pyd"  # really built-in to the resulting EXE

    for mod in implicits:
        mf.import_hook(mod)
    for mod in modules:
        if mod == "-m":
            modargs = 1
            continue
        if modargs:
            if mod[-2:] == ".*":
                mf.import_hook(mod[:-2], None, ["*"])
            else:
                mf.import_hook(mod)
        else:
            mf.load_file(mod)

    # Add the main script as either __main__, or the actual module name.
    if python_entry_is_main:
        mf.run_script(scriptfile)
    else:
        mf.load_file(scriptfile)

    if debug > 0:
        mf.report()
        print()
    dict = mf.modules

    if error_if_any_missing:
        missing = mf.any_missing()
        if missing:
            sys.exit("There are some missing modules: %r" % missing)

    # generate output for frozen modules
    files = makefreeze.makefreeze(base, dict, debug, custom_entry_point, fail_import)

    # look for unfrozen modules (builtin and of unknown origin)
    builtins = []
    unknown = []
    mods = sorted(dict.keys())
    for mod in mods:
        if dict[mod].__code__:
            continue
        if not dict[mod].__file__:
            builtins.append(mod)
        else:
            unknown.append(mod)

    # search for unknown modules in extensions directories (not on Windows)
    addfiles = []
    frozen_extensions = []  # Windows list of modules.
    if unknown or (not win and builtins):
        if not win:
            addfiles, addmods = checkextensions.checkextensions(unknown + builtins, extensions)
            for mod in addmods:
                if mod in unknown:
                    unknown.remove(mod)
                    builtins.append(mod)
        else:
            # Do the windows thang...
            import checkextensions_win32

            # Get a list of CExtension instances, each describing a module
            # (including its source files)
            frozen_extensions = checkextensions_win32.checkextensions(unknown, extensions, prefix)
            for mod in frozen_extensions:
                unknown.remove(mod.name)

    # report unknown modules
    if unknown:
        sys.stderr.write("Warning: unknown modules remain: %s\n" % " ".join(unknown))

    # windows gets different treatment
    if win:
        # Taking a shortcut here...
        import winmakemakefile, checkextensions_win32

        checkextensions_win32.write_extension_table(extensions_c, frozen_extensions)
        # Create a module definition for the bootstrap C code.
        xtras = [frozenmain_c, os.path.basename(frozen_c), frozendllmain_c, os.path.basename(extensions_c)] + files
        maindefn = checkextensions_win32.CExtension("__main__", xtras)
        frozen_extensions.append(maindefn)
        outfp = open(makefile, "w")
        try:
            winmakemakefile.makemakefile(outfp, locals(), frozen_extensions, os.path.basename(target))
        finally:
            outfp.close()
        return

    # generate config.c and Makefile
    builtins.sort()
    infp = open(config_c_in)
    outfp = bkfile.open(config_c, "w")
    try:
        makeconfig.makeconfig(infp, outfp, builtins)
    finally:
        outfp.close()
    infp.close()

    cflags = ["$(OPT)"]
    cppflags = defines + includes
    libs = [os.path.join(binlib, "libpython$(VERSION).a")]

    somevars = {}
    if os.path.exists(makefile_in):
        makevars = parsesetup.getmakevars(makefile_in)
        for key in makevars:
            somevars[key] = makevars[key]

    somevars["CFLAGS"] = " ".join(cflags)  # override
    somevars["CPPFLAGS"] = " ".join(cppflags)  # override
    files = (
        [base_config_c, base_frozen_c]
        + files
        + supp_sources
        + addfiles
        + libs
        + ["$(MODLIBS)", "$(LIBS)", "$(SYSLIBS)"]
    )

    outfp = bkfile.open(makefile, "w")
    try:
        makemakefile.makemakefile(outfp, somevars, files, base_target)
    finally:
        outfp.close()

    # Done!

    if odir:
        print('Now run "make" in', odir, end=" ")
        print("to build the target:", base_target)
    else:
        print('Now run "make" to build the target:', base_target)
예제 #8
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			os.rename(backup, frozen_c)

	builtins = []
	unknown = []
	mods = dict.keys()
	mods.sort()
	for mod in mods:
		if dict[mod] == '<builtin>':
			builtins.append(mod)
		elif dict[mod] == '<unknown>':
			unknown.append(mod)

	addfiles = []
	if unknown:
		addfiles, addmods = \
			  checkextensions.checkextensions(unknown, extensions)
		for mod in addmods:
			unknown.remove(mod)
		builtins = builtins + addmods
	if unknown:
		sys.stderr.write('Warning: unknown modules remain: %s\n' %
				 string.join(unknown))

	builtins.sort()
	infp = open(config_c_in)
	backup = config_c + '~'
	try:
		os.rename(config_c, backup)
	except os.error:
		backup = None
	outfp = open(config_c, 'w')
예제 #9
0
파일: freeze.py 프로젝트: mcyril/ravel-ftn
#! /usr/bin/env python
"""Freeze a Python script into a binary.
usage: freeze [options...] script [module]...
Options:
-p prefix:    This is the prefix used when you ran ``make install''
              in the Python build directory.
              (If you never ran this, freeze won't work.)
              The default is whatever sys.prefix evaluates to.
              It can also be the top directory of the Python source
              tree; then -P must point to the build tree.
-P exec_prefix: Like -p but this is the 'exec_prefix', used to
                install objects etc.  The default is whatever sys.exec_prefix
                evaluates to, or the -p argument if given.
                If -p points to the Python source tree, -P must point
                to the build tree, if different.
-e extension: A directory containing additional .o files that
              may be used to resolve modules.  This directory
              should also have a Setup file describing the .o files.
              On Windows, the name of a .INI file describing one
              or more extensions is passed.
              More than one -e option may be given.
-o dir:       Directory where the output files are created; default '.'.
-m:           Additional arguments are module names instead of filenames.
-a package=dir: Additional directories to be added to the package's
                __path__.  Used to simulate directories added by the
                package at runtime (eg, by OpenGL and win32com).
                More than one -a option may be given for each package.
-l file:      Pass the file to the linker (windows only)
-d:           Debugging mode for the module finder.
-q:           Make the module finder totally quiet.