# (c) 2005 Ian Bicking and contributors; written for Paste (http://pythonpaste.org) # Licensed under the MIT license: http://www.opensource.org/licenses/mit-license.php import os import re import sys import urllib from ConfigParser import ConfigParser import pkg_resources from paste.deploy.util.fixtypeerror import fix_call __all__ = ['loadapp', 'loadserver', 'loadfilter', 'appconfig'] ############################################################ ## Utility functions ############################################################ def import_string(s): return pkg_resources.EntryPoint.parse("x="+s).load(False) def _aslist(obj): """ Turn object into a list; lists and tuples are left as-is, None becomes [], and everything else turns into a one-element list. """ if obj is None: return [] elif isinstance(obj, (list, tuple)): return obj else: return [obj] def _flatten(lst): """ Flatten a nested list. """ if not isinstance(lst, (list, tuple)): return [lst] result = [] for item in lst: result.extend(_flatten(item)) return result class NicerConfigParser(ConfigParser): def __init__(self, filename, *args, **kw): ConfigParser.__init__(self, *args, **kw) self.filename = filename def _interpolate(self, section, option, rawval, vars): try: return ConfigParser._interpolate( self, section, option, rawval, vars) except Exception, e: args = list(e.args) args[0] = 'Error in file %s, [%s] %s=%r: %s' % ( self.filename, section, option, rawval, e) e.args = tuple(args) raise ############################################################ ## Object types ############################################################ class _ObjectType(object): name = None egg_protocols = None config_prefixes = None def __init__(self): # Normalize these variables: self.egg_protocols = map(_aslist, _aslist(self.egg_protocols)) self.config_prefixes = map(_aslist, _aslist(self.config_prefixes)) def __repr__(self): return '<%s protocols=%r prefixes=%r>' % ( self.name, self.egg_protocols, self.config_prefixes) def invoke(self, context): assert context.protocol in _flatten(self.egg_protocols) return fix_call(context.object, context.global_conf, **context.local_conf) class _App(_ObjectType): name = 'application' egg_protocols = ['paste.app_factory', 'paste.composite_factory', 'paste.composit_factory'] config_prefixes = [['app', 'application'], ['composite', 'composit'], 'pipeline', 'filter-app'] def invoke(self, context): if context.protocol in ('paste.composit_factory', 'paste.composite_factory'): return fix_call(context.object, context.loader, context.global_conf, **context.local_conf) elif context.protocol == 'paste.app_factory': return fix_call(context.object, context.global_conf, **context.local_conf) else: assert 0, "Protocol %r unknown" % context.protocol APP = _App() class _Filter(_ObjectType): name = 'filter' egg_protocols = [['paste.filter_factory', 'paste.filter_app_factory']] config_prefixes = ['filter'] def invoke(self, context): if context.protocol == 'paste.filter_factory': return fix_call(context.object, context.global_conf, **context.local_conf) elif context.protocol == 'paste.filter_app_factory': def filter_wrapper(wsgi_app): # This should be an object, so it has a nicer __repr__ return fix_call(context.object, wsgi_app, context.global_conf, **context.local_conf) return filter_wrapper else: assert 0, "Protocol %r unknown" % context.protocol FILTER = _Filter() class _Server(_ObjectType): name = 'server' egg_protocols = [['paste.server_factory', 'paste.server_runner']] config_prefixes = ['server'] def invoke(self, context): if context.protocol == 'paste.server_factory': return fix_call(context.object, context.global_conf, **context.local_conf) elif context.protocol == 'paste.server_runner': def server_wrapper(wsgi_app): # This should be an object, so it has a nicer __repr__ return fix_call(context.object, wsgi_app, context.global_conf, **context.local_conf) return server_wrapper else: assert 0, "Protocol %r unknown" % context.protocol SERVER = _Server() # Virtual type: (@@: There's clearly something crufty here; # this probably could be more elegant) class _PipeLine(_ObjectType): name = 'pipeline' def invoke(self, context): app = context.app_context.create() filters = [c.create() for c in context.filter_contexts] filters.reverse() for filter in filters: app = filter(app) return app PIPELINE = _PipeLine() class _FilterApp(_ObjectType): name = 'filter_app' def invoke(self, context): next_app = context.next_context.create() filter = context.filter_context.create() return filter(next_app) FILTER_APP = _FilterApp() class _FilterWith(_App): name = 'filtered_with' def invoke(self, context): filter = context.filter_context.create() filtered = context.next_context.create() if context.next_context.object_type is APP: return filter(filtered) else: # filtering a filter def composed(app): return filter(filtered(app)) return composed FILTER_WITH = _FilterWith() ############################################################ ## Loaders ############################################################ def loadapp(uri, name=None, **kw): return loadobj(APP, uri, name=name, **kw) def loadfilter(uri, name=None, **kw): return loadobj(FILTER, uri, name=name, **kw) def loadserver(uri, name=None, **kw): return loadobj(SERVER, uri, name=name, **kw) def appconfig(uri, name=None, relative_to=None, global_conf=None): context = loadcontext(APP, uri, name=name, relative_to=relative_to, global_conf=global_conf) return context.config() _loaders = {} def loadobj(object_type, uri, name=None, relative_to=None, global_conf=None): context = loadcontext( object_type, uri, name=name, relative_to=relative_to, global_conf=global_conf) return context.create() def loadcontext(object_type, uri, name=None, relative_to=None, global_conf=None): if '#' in uri: if name is None: uri, name = uri.split('#', 1) else: # @@: Ignore fragment or error? uri = uri.split('#', 1)[0] if name is None: name = 'main' scheme, path = uri.split(':', 1) scheme = scheme.lower() if scheme not in _loaders: raise LookupError( "URI scheme not known: %r (from %s)" % (scheme, ', '.join(_loaders.keys()))) return _loaders[scheme]( object_type, uri, path, name=name, relative_to=relative_to, global_conf=global_conf) def _loadconfig(object_type, uri, path, name, relative_to, global_conf): # De-Windowsify the paths: path = path.replace('\\', '/') absolute_path = True if sys.platform == 'win32': _absolute_re = re.compile(r'^[a-zA-Z]:') if not _absolute_re.search(path): absolute_path = False else: if not path.startswith('/'): absolute_path = False if not absolute_path: if not relative_to: raise ValueError( "Cannot resolve relative uri %r; no context keyword " "argument given" % uri) relative_to = relative_to.replace('\\', '/') if relative_to.endswith('/'): path = relative_to + path else: path = relative_to + '/' + path if path.startswith('///'): path = path[2:] path = urllib.unquote(path) loader = ConfigLoader(path) return loader.get_context(object_type, name, global_conf) _loaders['config'] = _loadconfig def _loadegg(object_type, uri, spec, name, relative_to, global_conf): loader = EggLoader(spec) return loader.get_context(object_type, name, global_conf) _loaders['egg'] = _loadegg ############################################################ ## Loaders ############################################################ class _Loader(object): def get_app(self, name=None, global_conf=None): return self.app_context( name=name, global_conf=global_conf).create() def get_filter(self, name=None, global_conf=None): return self.filter_context( name=name, global_conf=global_conf).create() def get_server(self, name=None, global_conf=None): return self.server_context( name=name, global_conf=global_conf).create() def app_context(self, name=None, global_conf=None): return self.get_context( APP, name=name, global_conf=global_conf) def filter_context(self, name=None, global_conf=None): return self.get_context( FILTER, name=name, global_conf=global_conf) def server_context(self, name=None, global_conf=None): return self.get_context( SERVER, name=name, global_conf=global_conf) _absolute_re = re.compile(r'^[a-zA-Z]+:') def absolute_name(self, name): """ Returns true if the name includes a scheme """ if name is None: return False return self._absolute_re.search(name) class ConfigLoader(_Loader): def __init__(self, filename): self.filename = filename self.parser = NicerConfigParser(self.filename) # Don't lower-case keys: self.parser.optionxform = str # Stupid ConfigParser ignores files that aren't found, so # we have to add an extra check: if not os.path.exists(filename): raise OSError( "File %s not found" % filename) self.parser.read(filename) self.parser._defaults.setdefault( 'here', os.path.dirname(os.path.abspath(filename))) self.parser._defaults.setdefault( '__file__', os.path.abspath(filename)) def get_context(self, object_type, name=None, global_conf=None): if self.absolute_name(name): return loadcontext(object_type, name, relative_to=os.path.dirname(self.filename), global_conf=global_conf) section = self.find_config_section( object_type, name=name) if global_conf is None: global_conf = {} else: global_conf = global_conf.copy() defaults = self.parser.defaults() global_conf.update(defaults) local_conf = {} global_additions = {} get_from_globals = {} for option in self.parser.options(section): if option.startswith('set '): name = option[4:].strip() global_additions[name] = global_conf[name] = ( self.parser.get(section, option)) elif option.startswith('get '): name = option[4:].strip() get_from_globals[name] = self.parser.get(section, option) else: if option in defaults: # @@: It's a global option (?), so skip it continue local_conf[option] = self.parser.get(section, option) for local_var, glob_var in get_from_globals.items(): local_conf[local_var] = global_conf[glob_var] if object_type in (APP, FILTER) and 'filter-with' in local_conf: filter_with = local_conf.pop('filter-with') else: filter_with = None if 'require' in local_conf: for spec in local_conf['require'].split(): pkg_resources.require(spec) del local_conf['require'] if section.startswith('filter-app:'): context = self._filter_app_context( object_type, section, name=name, global_conf=global_conf, local_conf=local_conf, global_additions=global_additions) elif section.startswith('pipeline:'): context = self._pipeline_app_context( object_type, section, name=name, global_conf=global_conf, local_conf=local_conf, global_additions=global_additions) elif 'use' in local_conf: context = self._context_from_use( object_type, local_conf, global_conf, global_additions, section) else: context = self._context_from_explicit( object_type, local_conf, global_conf, global_additions, section) if filter_with is not None: filter_with_context = LoaderContext( obj=None, object_type=FILTER_WITH, protocol=None, global_conf=None, local_conf=None, loader=self) filter_with_context.filter_context = self.filter_context( name=filter_with, global_conf=global_conf) filter_with_context.next_context = context return filter_with_context return context def _context_from_use(self, object_type, local_conf, global_conf, global_additions, section): use = local_conf.pop('use') context = self.get_context( object_type, name=use, global_conf=global_conf) context.global_conf.update(global_additions) context.local_conf.update(local_conf) # @@: Should loader be overwritten? context.loader = self return context def _context_from_explicit(self, object_type, local_conf, global_conf, global_addition, section): possible = [] for protocol_options in object_type.egg_protocols: for protocol in protocol_options: if protocol in local_conf: possible.append((protocol, local_conf[protocol])) break if len(possible) > 1: raise LookupError( "Multiple protocols given in section %r: %s" % (section, possible)) if not possible: raise LookupError( "No loader given in section %r" % section) found_protocol, found_expr = possible[0] del local_conf[found_protocol] value = import_string(found_expr) context = LoaderContext( value, object_type, found_protocol, global_conf, local_conf, self) return context def _filter_app_context(self, object_type, section, name, global_conf, local_conf, global_additions): if 'next' not in local_conf: raise LookupError( "The [%s] section in %s is missing a 'next' setting" % (section, self.filename)) next_name = local_conf.pop('next') context = LoaderContext(None, FILTER_APP, None, global_conf, local_conf, self) context.next_context = self.get_context( APP, next_name, global_conf) if 'use' in local_conf: context.filter_context = self._context_from_use( FILTER, local_conf, global_conf, global_additions, section) else: context.filter_context = self._context_from_explicit( FILTER, local_conf, global_conf, global_additions, section) return context def _pipeline_app_context(self, object_type, section, name, global_conf, local_conf, global_additions): if 'pipeline' not in local_conf: raise LookupError( "The [%s] section in %s is missing a 'pipeline' setting" % (section, self.filename)) pipeline = local_conf.pop('pipeline').split() if local_conf: raise LookupError( "The [%s] pipeline section in %s has extra " "(disallowed) settings: %s" % (', '.join(local_conf.keys()))) context = LoaderContext(None, PIPELINE, None, global_conf, local_conf, self) context.app_context = self.get_context( APP, pipeline[-1], global_conf) context.filter_contexts = [ self.get_context(FILTER, name, global_conf) for name in pipeline[:-1]] return context def find_config_section(self, object_type, name=None): """ Return the section name with the given name prefix (following the same pattern as ``protocol_desc`` in ``config``. It must have the given name, or for ``'main'`` an empty name is allowed. The prefix must be followed by a ``:``. Case is *not* ignored. """ possible = [] for name_options in object_type.config_prefixes: for name_prefix in name_options: found = self._find_sections( self.parser.sections(), name_prefix, name) if found: possible.extend(found) break if not possible: raise LookupError( "No section %r (prefixed by %s) found in config %s" % (name, ' or '.join(map(repr, _flatten(object_type.config_prefixes))), self.filename)) if len(possible) > 1: raise LookupError( "Ambiguous section names %r for section %r (prefixed by %s) " "found in config %s" % (possible, name, ' or '.join(map(repr, _flatten(object_type.config_prefixes))), self.filename)) return possible[0] def _find_sections(self, sections, name_prefix, name): found = [] if name is None: if name_prefix in sections: found.append(name_prefix) name = 'main' for section in sections: if section.startswith(name_prefix+':'): if section[len(name_prefix)+1:].strip() == name: found.append(section) return found class EggLoader(_Loader): def __init__(self, spec): self.spec = spec def get_context(self, object_type, name=None, global_conf=None): if self.absolute_name(name): return loadcontext(object_type, name, global_conf=global_conf) entry_point, protocol, ep_name = self.find_egg_entry_point( object_type, name=name) return LoaderContext( entry_point, object_type, protocol, global_conf or {}, {}, self, distribution=pkg_resources.get_distribution(self.spec), entry_point_name=ep_name) def find_egg_entry_point(self, object_type, name=None): """ Returns the (entry_point, protocol) for the with the given ``name``. """ if name is None: name = 'main' possible = [] for protocol_options in object_type.egg_protocols: for protocol in protocol_options: pkg_resources.require(self.spec) entry = pkg_resources.get_entry_info( self.spec, protocol, name) if entry is not None: possible.append((entry.load(), protocol, entry.name)) break if not possible: # Better exception dist = pkg_resources.get_distribution(self.spec) raise LookupError( "Entry point %r not found in egg %r (dir: %s; protocols: %s; " "entry_points: %s)" % (name, self.spec, dist.location, ', '.join(_flatten(object_type.egg_protocols)), ', '.join(_flatten([ (pkg_resources.get_entry_info(self.spec, prot, name) or {}).keys() for prot in protocol_options] or '(no entry points)')))) if len(possible) > 1: raise LookupError( "Ambiguous entry points for %r in egg %r (protocols: %s)" % (name, self.spec, ', '.join(_flatten(protocol_options)))) return possible[0] class LoaderContext(object): def __init__(self, obj, object_type, protocol, global_conf, local_conf, loader, distribution=None, entry_point_name=None): self.object = obj self.object_type = object_type self.protocol = protocol #assert protocol in _flatten(object_type.egg_protocols), ( # "Bad protocol %r; should be one of %s" # % (protocol, ', '.join(map(repr, _flatten(object_type.egg_protocols))))) self.global_conf = global_conf self.local_conf = local_conf self.loader = loader self.distribution = distribution self.entry_point_name = entry_point_name def create(self): return self.object_type.invoke(self) def config(self): conf = AttrDict(self.global_conf) conf.update(self.local_conf) conf.local_conf = self.local_conf conf.global_conf = self.global_conf conf.context = self return conf class AttrDict(dict): """ A dictionary that can be assigned to. """ pass