/usr/lib/python2.7/dist-packages/myghty/resolver.py is in python-myghty 1.1-6.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# resolver.py - file path resolution functions for Myghty
# Copyright (C) 2004, 2005 Michael Bayer mike_mp@zzzcomputing.com
# Original Perl code and documentation copyright (c) 1998-2003 by Jonathan Swartz.
#
# This module is part of Myghty and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
#
import types, re, os, string, stat, sys, imp
import posixpath as unixpath
import myghty.util as util
from myghty import exception
import myghty.csource as csource
import myghty.importer as importer
import time, copy
__all__ = ['Resolver', 'ResolverRule', 'ResolveFile', 'AdjustedResolveFile', 'ResolveModule', 'Group', 'Conditional', 'ConditionalGroup',
'NotFound', 'PathTranslate', 'ResolveDhandler', 'ResolveUpwards', 'URICache', 'ResolvePathModule']
class Resolution(object):
"""represents a resolved uri, including the component source object,
a list of resolution detail messages, and an
optional regexp match object."""
def __init__(self, csource, resolution_detail, match = None, can_cache = True, **params):
self.csource = csource
self.detail = resolution_detail
self.match = match
self.can_cache = can_cache
for key, value in params.iteritems():
setattr(self, key, value)
class ResolverRule(object):
"""base class for a single rule that attempts to resolve a uri into a Resolution
object. acts inside a chain of ResolverRules where when a uri cannot be resolved,
the next rule in the chain is called in a continuation pattern."""
def init_resolver(self, resolver, remaining_rules, **params):
if hasattr(self, 'resolver'): raise exception.ConfigurationError("resolver rule %s already initialized with a Resolver" % repr(self))
self.resolver = resolver
self.do_init_resolver(resolver, remaining_rules, **params)
def do_init_resolver(self, resolver, remaining_rules, **params):
""" called when the resolver first receives the new rule.
objects usually will want to do most of their initialization
at this stage. """
pass
def do(self, uri, remaining, resolution_detail, **params):
""" performs resolution or translation on the given path.
"remaining" is an Iterator referencing an element in the full
list of ResolverRule objects. the method either returns a
Resolution object, or passes control to the next
ResolverRule in the iterator."""
raise NotImplementedError()
def modifies_uri(self):
""" returns True if the rule makes a modification to the URI.
if so, the URICache rule wont allow this rule to be cached as a single
rule, since it becomes ineffective. As part of a cached chain is still
OK."""
return False
class ResolveFile(ResolverRule):
"""performs file based resolution. looks up files within one or
more component roots."""
name = 'resolvefile'
def __init__(self, *component_roots, **params):
self._adjust = params.get('adjust', None) or params.get('component_root_adjust', None)
if len(component_roots):
self.component_root = component_roots
else:
self.component_root = None
def do_init_resolver(self, resolver, remaining_rules, component_root = None, **params):
if self.component_root is None:
self.component_root = component_root
if self.component_root is None: return
if self._adjust is None:
self._adjust = params.get('component_root_adjust', None)
if not isinstance(self.component_root, types.ListType) and not isinstance(self.component_root, types.TupleType):
self.component_root = [{'main':self.component_root}]
self.component_root = util.OrderedDict(self.component_root)
def do(self, uri, remaining, resolution_detail, **params):
if self.component_root is None: return remaining.next().do(uri, remaining, resolution_detail, **params)
if resolution_detail is not None: resolution_detail.append("resolvefile:")
if self._adjust is not None:
path = self._adjust(uri)
if resolution_detail is not None: resolution_detail.append("adjust: %s -> %s" % (uri, path))
else:
path = uri
# internal path, trim off leading '/'
if path and path[0] == '/':
path = path[1:]
for key, root in self.component_root.iteritems():
srcfile = unixpath.join(root, path)
if resolution_detail is not None: resolution_detail.append(srcfile)
if os.access(srcfile, os.F_OK):
break
else:
return remaining.next().do(uri, remaining, resolution_detail, **params)
st = os.stat(srcfile)
(mode, modtime) = (st[stat.ST_MODE], st[stat.ST_MTIME])
if stat.S_ISDIR(mode):
if resolution_detail is not None:
resolution_detail.append("isdirectory: " + uri)
return remaining.next().do(uri, remaining, resolution_detail, **params)
# the resolved uri, insure theres a leading '/'
if not uri or uri[0] != '/':
uri = '/' + uri
return Resolution(
csource.FileComponentSource(
file_path = srcfile,
last_modified = modtime,
path = uri,
path_id = key,
id = "%s|%s" % (key, path),
),
resolution_detail
)
class ResolvePathModule(ResolverRule):
"""resolves a callable object or class instance inside a module, based on a traversal
of path tokens corresponding to the module's file location, and then of the object paths
defined within the module."""
name = 'pathmodule'
def __init__(self, *module_roots, **params):
self._adjust = params.get('adjust', None) or params.get('module_root_adjust', None)
self._require_publish = params.get('require_publish', None)
self.stringtokens = params.get('path_stringtokens', None)
self.moduletokens = params.get('path_moduletokens', None)
if len(module_roots):
self.module_root = list(module_roots)
else:
self.module_root = None
def do_init_resolver(self, resolver, remaining_rules, module_root = None, **params):
self.use_static_source = resolver.use_static_source
if self.module_root is None:
self.module_root = module_root
if self.module_root is None: return
if self._adjust is None:
self._adjust = params.get('module_root_adjust', None)
if self._require_publish is None:
self._require_publish = params.get('require_publish', False)
if self.stringtokens is None:
self.stringtokens = params.get('path_stringtokens', [])
if self.moduletokens is None:
self.moduletokens = params.get('path_moduletokens', ['index'])
for i in range(0, len(self.module_root)):
value = self.module_root[i]
if not isinstance(value, types.ModuleType):
try:
st = os.stat(value)
if stat.S_ISREG(st[stat.ST_MODE]):
self.module_root[i] = importer.filemodule(value)
except OSError:
try:
self.module_root[i] = importer.module(value)
except Exception, e:
raise exception.ConfigurationError("Path %s is not a file, directory, or importable module (%s: %s)" % (value, e.__class__.__name__, e.args[0]))
def do(self, uri, remaining, resolution_detail, dhandler_path = None, **params):
if self.module_root is None: return remaining.next().do(uri, remaining, resolution_detail, **params)
if resolution_detail is not None: resolution_detail.append("resolvemodulepath:")
if self._adjust is not None:
path = self._adjust(uri)
if resolution_detail is not None: resolution_detail.append("adjust: %s -> %s" % (uri, path))
else:
path = uri
# internal path, trim off leading '/'
if path and path[0] == '/':
path = path[1:]
if dhandler_path is not None:
path = path + '/' + dhandler_path
if (path == '/' or not path) and len(self.stringtokens):
path= '/' + self.stringtokens[0]
for root in self.module_root:
if resolution_detail is not None:
resolution_detail.append(repr(root) + "/" + path)
iterator = importer.ObjectPathIterator(root, reload = not self.use_static_source)
unit = root
for token in path.split('/'):
if not token:
continue
if len(token) > 0 and token[0] == '_':
token = re.sub(r'^_+', '', token)
try:
while True:
(unit, matched) = iterator.get_unit([token], stringtokens = self.stringtokens, moduletokens = self.moduletokens)
if matched == token:
break
except StopIteration:
pass
if unit is not None:
while unit is not None and (isinstance(unit, types.ModuleType) or isinstance(unit, str)):
try:
(unit,matched) = iterator.get_unit([], stringtokens=self.stringtokens, moduletokens=self.moduletokens)
if unit is None:
break
except StopIteration:
break
if isinstance(unit, types.FunctionType) or isinstance(unit, types.MethodType) or callable(unit):
if self._require_publish and not getattr(unit, 'publish', False):
return remaining.next().do(uri, remaining, resolution_detail, **params)
cs = csource.ModuleComponentSource(module = iterator.module, objpath = iterator.objpath, last_modified = iterator.last_modified, arg = unit)
break
else:
continue
else:
return remaining.next().do(uri, remaining, resolution_detail, **params)
return Resolution(cs, resolution_detail)
def adjust_path(adjust, path):
for a in adjust:
path = re.sub(a[0], a[1], path)
return path
class AdjustedResolveFile(ResolveFile):
"""a ResolveFile rule that adds a pre-path-concatenation adjustment step, so the uri can
be translated before determining the file path. unlike path_translate, this translated
uri is only used to determine a filesystem path, and is not propigated anywhere else."""
def __init__(self, adjust, *component_roots):
ResolveFile.__init__(self, adjust = lambda p: adjust_path(adjust, p), *component_roots)
class AdjustedResolvePathModule(ResolvePathModule):
"""a ResolvePathModule rule that adds a pre-path-concatenation adjustment step, so the uri can
be translated before determining the file path. unlike path_translate, this translated
uri is only used to determine a filesystem path, and is not propigated anywhere else."""
def __init__(self, adjust, *module_roots):
ResolvePathModule.__init__(self, adjust = lambda p: adjust_path(adjust, p), *module_roots)
class ResolveModule(ResolverRule):
"""resolves a Module Component based on information in a given list of dictionaries,
containing regular expressions for keys which are matched against the URI. The value
for each key references either a class, a callable object or function, or a string in
the form "<module>:<path.to.callable>"."""
name = 'resolvemodule'
def __init__(self, *module_components):
if len(module_components):
self.module_components = module_components
else:
self.module_components = None
self.csource_cache = {}
def do_init_resolver(self, resolver, remaining_rules, module_components = None, **params):
self.use_static_source = resolver.use_static_source
if self.module_components is None:
self.module_components = module_components
if self.module_components is None: return
self.module_components = util.OrderedDict(self.module_components)
for key, value in self.module_components.iteritems():
if not isinstance(value, types.DictType):
value = {'component':value}
self.module_components[key] = value
def do(self, uri, remaining, resolution_detail, context = None, **params):
if self.module_components is None: return remaining.next().do(uri, remaining, resolution_detail, **params)
if resolution_detail is not None: resolution_detail.append("resolvemodule: " + uri)
for reg in self.module_components.keys():
match = re.match(reg, uri)
if match:
info = self.module_components[reg]
compsource = csource.ModuleComponentSource(arg = info['component'], use_static_source = self.use_static_source, arg_cache=self.csource_cache)
return Resolution(
compsource,
resolution_detail,
match,
args = info
)
else:
return remaining.next().do(uri, remaining, resolution_detail, **params)
class Group(ResolverRule):
"""creates a subgroup of resolver strategies."""
def __init__(self, rules = []):
self.rules = rules
def do_init_resolver(self, resolver, remaining_rules, **params):
for i in range(0, len(self.rules)):
self.rules[i].init_resolver(resolver, self.rules[i + 1:], **params)
def do(self, uri, remaining, resolution_detail, **params):
def iterator():
for rule in self.rules:
yield rule
for rule in remaining:
yield rule
i = iterator()
return i.next().do(uri, i, resolution_detail, **params)
class Conditional(ResolverRule):
"""conditionally executes a rule, only executes if the uri matches a certain regexp,
or a passed-in context string matches one of the contexts set up for this rule."""
def __init__(self, rule, regexp = None, context = None):
self.rule = rule
if context is not None:
self.contexts = context.split(',')
else:
self.contexts = []
self.regexp = regexp
def do_init_resolver(self, resolver, remaining_rules, **params):
self.rule.init_resolver(resolver, remaining_rules, **params)
def _match_context(self, context):
for c in self.contexts:
if c == context: return True
return False
def test_condition(self, uri, resolver_context, **params):
return (
(resolver_context is not None and self._match_context(resolver_context))
or
(self.regexp is not None and re.match(self.regexp, uri))
)
def do(self, uri, remaining, resolution_detail, resolver_context = None, **params):
if self.test_condition(uri, resolver_context, **params):
if resolution_detail is not None:
if self.regexp is not None:
resolution_detail.append("conditional: " + self.regexp)
else:
resolution_detail.append("conditional: " + resolver_context)
return self.rule.do(uri, remaining, resolution_detail, resolver_context = resolver_context, **params)
else:
return remaining.next().do(uri, remaining, resolution_detail, resolver_context = resolver_context, **params)
class ConditionalGroup(Conditional):
"""combines a Conditional and a Group to make a conditionally-executing Group."""
def __init__(self, regexp = None, context = None, rules = []):
Conditional.__init__(self, Group(rules = rules), regexp, context)
class NotFound(ResolverRule):
"""returns not found. place at the bottom of Group and Match chains to have them terminate."""
name = 'notfound'
def __init__(self, silent = False):
"""silent = True indicates that a resulting TopLevelNotFound exception should be 'silent', i.e.
not logged. this is used when a 404 error is being propigated to another application layer."""
self.silent = silent
def do(self, uri, remaining, resolution_detail, **params):
if resolution_detail is not None: resolution_detail.append("notfound")
raise exception.ComponentNotFound("cant locate component %s" % uri, resolution_detail, silent = self.silent)
class PathTranslate(ResolverRule):
""" performs path translation rules on the given uri and sends control off to the
next rule."""
name = 'pathtranslate'
def __init__(self, *translations):
if len(translations):
self.path_translate = translations
else:
self.path_translate = None
def modifies_uri(self):return True
def do_init_resolver(self, resolver, remaining_rules, path_translate = None, **params):
if self.path_translate is None:
self.path_translate = path_translate
if self.path_translate is not None and not callable(self.path_translate):
pt = self.path_translate
def trans(url):
for rule in pt:
url = re.sub(rule[0], rule[1], url)
return url
self.path_translate = trans
def do(self, uri, remaining, resolution_detail, **params):
if self.path_translate is None:
return remaining.next().do(uri, remaining, resolution_detail, **params)
olduri = uri
uri = self.path_translate(uri)
if resolution_detail is not None:
resolution_detail.append("translate: %s -> %s" % (olduri, uri))
return remaining.next().do(uri, remaining, resolution_detail, **params)
class URICache(ResolverRule):
"""caches the result of either a given nested rule, or the remaining rules in its chain,
based on the incoming URI."""
name = 'uricache'
def __init__(self, source_cache_size = None, rule = None):
"""
rule is a single ResolverRule (or Group) whos results will be cached on a
per-uri basis. if rule is None, then the result of remaining rules in the current chain
will be cached based on the incoming URI. This rule cannot be a PathTranslation
rule or other uri-modifying rule, since the translated uri is not stored.
source_cache_size is the size of the LRUCache to create.
if source_cache_size is None, it will use the Resolver's source cache,
sharing it with any other URICaches that also use the Resolver's source cache.
When using the Resolver's source cache, if the Resolver has use_static_source
disabled, then caching is disabled in this URICache.
"""
self.source_cache_size = source_cache_size
self.rule = rule
def do_init_resolver(self, resolver, remaining_rules, **params):
if self.rule is not None:
if self.rule.modifies_uri():
raise exception.ConfigurationError("can't cache single rule %s - it is a URI-modifying rule" % str(self.rule))
self.rule.init_resolver(resolver, remaining_rules, **params)
if self.source_cache_size is None:
self.source_cache = resolver.source_cache
else:
self.source_cache = util.LRUCache(self.source_cache_size)
def do(self, uri, remaining, resolution_detail, **params):
if self.source_cache is None:
if self.rule is not None:
return self.rule.do(uri, remaining, resolution_detail, **params)
else:
return remaining.next().do(uri, remaining, resolution_detail, **params)
# create a key that has a stringified version of the parameters plus the URI.
# parameters are expected to be pretty much true/false, strings, and maybe lists of strings.
key = repr(params) + "|" + uri
try:
# try to pull results from the cache
cached = self.source_cache[key]
# update detail with the cached detail
if resolution_detail is not None:
resolution_detail += cached['detail']
if cached.has_key('exception'):
# single rule, which was run with an empty chain - so StopIteration
# corresponds to just continuing on the rest of the chain.
if self.rule is not None and isinstance(cached['exception'], StopIteration):
return remaining.next().do(uri, remaining, resolution_detail, **params)
else:
# else it was a single rule that raised ComponentNotFound, or
# it was the remainder of the rule chain, so raise exception
raise cached['exception']
else:
# got a cached result - return it
resolution = copy.copy(cached['resolution'])
resolution.detail = resolution_detail
return resolution
except KeyError:
# ok, nothing in the cache, so run the rule or rules and cache the result
cached_detail = []
cached_detail.append("cached: " + str(time.time()))
cached = None
can_cache = True
try:
try:
if self.rule is not None:
# single rule - run it in an empty chain
resolution = self.rule.do(uri, iter([]), cached_detail, **params)
else:
# remaining rules - run the rest of the chain
resolution = remaining.next().do(uri, remaining, cached_detail, **params)
can_cache = resolution.can_cache
cached = {'resolution': resolution, 'detail': cached_detail}
if resolution_detail is not None: resolution_detail += cached_detail
return resolution
except StopIteration, si:
# normal end of chain reached
cached = {'exception': si, 'detail': cached_detail}
if self.rule is not None:
# single rule - continue on with the rest of the chain
if resolution_detail is not None: resolution_detail += cached_detail
return remaining.next().do(uri, remaining, resolution_detail, **params)
else:
# remaining chain - raise the StopIteration
if resolution_detail is not None: resolution_detail += cached_detail
raise si
except exception.ComponentNotFound, cf:
# a rule wants to force not found
cached = {'exception': cf, 'detail': cached_detail}
if resolution_detail is not None: resolution_detail += cached_detail
raise cf
finally:
# cache the result
if can_cache is True:
self.source_cache[key] = cached
class ResolveDhandler(ResolverRule):
"""collects all the resolver rules below it and runs them for the requested uri, and if not found
re-runs them again for the "dhandler" filename, pruning off path tokens until the root is reached."""
name = 'resolvedhandler'
def __init__(self, dhandler_name = 'dhandler'):
self.dhandler_name = dhandler_name
def do(self, uri, remaining, resolution_detail, enable_dhandler = False, declined_components = None, **params):
if not enable_dhandler:
return remaining.next().do(uri, remaining, resolution_detail, enable_dhandler = False, declined_components = declined_components, **params)
list = [elem for elem in remaining]
searchuri = uri
parentdir = None
raisecfound = False
dhandler_path = None
while True:
iterator = iter(list)
try:
if parentdir is not None:
dhandler_path = uri[len(parentdir):]
resolution = iterator.next().do(searchuri, iterator, resolution_detail, dhandler_path = dhandler_path, **params)
if resolution:
if declined_components and declined_components.has_key(resolution.csource.id):
if resolution_detail is not None: resolution_detail.append("declined")
else:
resolution.dhandler_path = dhandler_path
return resolution
# keep track on which type of exception the chain raises when it reaches the end
# this is usually based on if a NotFound element is at the end of the chain
except StopIteration: pass
except exception.ComponentNotFound: raisecfound = True
# csource not found, or found but its been declined
# modify path to be a dhandler path, or move dhandler path up one token
(parentdir, name) = unixpath.split(searchuri)
if name == self.dhandler_name:
# already looked for dhandler, and no more tokens. not found
if not parentdir or parentdir == '/':
# raise the exception that would normally have happened
# in the resolution chain
if raisecfound:
raise exception.ComponentNotFound("cant locate uri %s" % uri, resolution_detail)
else:
raise StopIteration
(parentdir, token) = unixpath.split(parentdir)
else:
# entering "dhandler" mode, append to detail
if resolution_detail is not None: resolution_detail.append("dhandler")
searchuri = unixpath.join(parentdir, self.dhandler_name)
assert(False, "enableDhandler loop failed")
class ResolveUpwards(ResolverRule):
"""takes the rules below it and applies "search upwards" logic to them, where it iteratively breaks off
path tokens behind the filename and searches upwards until the root path is reached.
if require_context is True, then this rule only takes effect if "search_upwards" is sent within the resolution options.
this indicates that the upwards resolve is context-sensitive, and therefore should not be cached based on a
URI alone. however, by default it allows its results to be cached since in practice its used
strictly for autohandlers, which are always searched upwards.
"""
name = 'resolveupwards'
def __init__(self, require_context = True):
self.require_context = require_context
def do(self, uri, remaining, resolution_detail, search_upwards = False, **params):
if self.require_context and not search_upwards:
return remaining.next().do(uri, remaining, resolution_detail, **params)
if resolution_detail is not None:
resolution_detail.append("resolveupwards")
list = [elem for elem in remaining]
searchuri = uri
parentdir = None
raisecfound = False
while True:
iterator = iter(list)
resolution = None
try:
resolution = iterator.next().do(searchuri, iterator, resolution_detail, **params)
if resolution:
if parentdir:
resolution.uri_truncated = uri[len(parentdir):]
return resolution
# keep track on which type of exception the chain raises when it reaches the end
# this is usually based on if a NotFound element is at the end of the chain
except StopIteration: pass
except exception.ComponentNotFound: raisecfound = True
(parentdir, name) = unixpath.split(searchuri)
if not parentdir or parentdir == '/':
# raise the exception that would normally have happened
# in the resolution chain
if raisecfound:
raise exception.ComponentNotFound("cant locate uri %s" % uri, resolution_detail)
else:
raise StopIteration
(parentdir, token) = unixpath.split(parentdir)
searchuri = unixpath.join(parentdir, name)
assert(False, "UpwardsResolve loop failed")
class Resolver(object):
"""resolves incoming URIs against a list of rules, and returns Resolution objects and/or
raises ComponentNotFound exceptions."""
def __init__(self,
resolver_strategy = None,
request_resolver = None,
use_static_source = False,
source_cache_size = 1000,
track_resolution_detail = True,
debug_file = None,
**params
):
if resolver_strategy is None:
resolver_strategy = [
PathTranslate(),
ResolveDhandler(),
URICache(),
ResolveUpwards(),
ResolvePathModule(),
ResolveModule(),
ResolveFile()
]
# if request_resolver is not None:
# resolver_strategy.insert()
self.debug_file = debug_file
self.use_static_source = use_static_source
if use_static_source:
self.source_cache = util.LRUCache(source_cache_size)
else:
self.source_cache = None
self.track_resolution_detail = track_resolution_detail
for i in range(0, len(resolver_strategy)):
if type(resolver_strategy[i]) == str:
try:
resolver_strategy[i] = rulelookup[resolver_strategy[i]]()
except KeyError:
raise exception.ConfigurationError("No such resolution rule '%s'" % resolver_strategy[i])
for i in range(0, len(resolver_strategy)):
resolver_strategy[i].init_resolver(self, resolver_strategy[i + 1:], **params)
self.resolver_strategy = resolver_strategy
def resolve(self, uri, raise_error = True, **params):
iterator = iter(self.resolver_strategy)
if self.track_resolution_detail:
resolution_detail = []
else:
resolution_detail = None
try:
try:
return iterator.next().do(uri, iterator, resolution_detail, **params)
except StopIteration:
if raise_error:
raise exception.ComponentNotFound("Cant locate component %s" % uri, resolution_detail)
else:
return None
except exception.ComponentNotFound, cf:
if raise_error:
raise cf
else:
return None
finally:
if self.debug_file is not None and resolution_detail is not None: self.debug_file.write('"' + uri + '" ' + string.join(resolution_detail, ', '))
class FileResolver(Resolver):pass
rulelookup = {}
thismodule = sys.modules[__name__]
for obj in thismodule.__dict__.values():
if (type(obj) == types.ClassType or type(obj) == types.TypeType) and issubclass(obj, ResolverRule) and hasattr(obj, 'name'):
rulelookup[obj.name] = obj
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