/usr/lib/python2.7/dist-packages/foolscap/remoteinterface.py is in python-foolscap 0.13.1-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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import inspect
from zope.interface import interface, providedBy, implements
from foolscap.constraint import Constraint, OpenerConstraint, nothingTaster, \
IConstraint, IRemoteMethodConstraint, Optional, Any
from foolscap.tokens import Violation, InvalidRemoteInterface
from foolscap.schema import addToConstraintTypeMap
from foolscap import ipb
class RemoteInterfaceClass(interface.InterfaceClass):
"""This metaclass lets RemoteInterfaces be a lot like Interfaces. The
methods are parsed differently (PB needs more information from them than
z.i extracts, and the methods can be specified with a RemoteMethodSchema
directly).
RemoteInterfaces can accept the following additional attribute::
__remote_name__: can be set to a string to specify the globally-unique
name for this interface. This should be a URL in a
namespace you administer. If not set, defaults to the
short classname.
RIFoo.names() returns the list of remote method names.
RIFoo['bar'] is still used to get information about method 'bar', however
it returns a RemoteMethodSchema instead of a z.i Method instance.
"""
def __init__(self, iname, bases=(), attrs=None, __module__=None):
if attrs is None:
interface.InterfaceClass.__init__(self, iname, bases, attrs,
__module__)
return
# parse (and remove) the attributes that make this a RemoteInterface
try:
rname, remote_attrs = self._parseRemoteInterface(iname, attrs)
except:
raise
# now let the normal InterfaceClass do its thing
interface.InterfaceClass.__init__(self, iname, bases, attrs,
__module__)
# now add all the remote methods that InterfaceClass would have
# complained about. This is really gross, and it really makes me
# question why we're bothing to inherit from z.i.Interface at all. I
# will probably stop doing that soon, and just have our own
# meta-class, but I want to make sure you can still do
# 'implements(RIFoo)' from within a class definition.
a = getattr(self, "_InterfaceClass__attrs") # the ickiest part
a.update(remote_attrs)
self.__remote_name__ = rname
# finally, auto-register the interface
try:
registerRemoteInterface(self, rname)
except:
raise
def _parseRemoteInterface(self, iname, attrs):
remote_attrs = {}
remote_name = attrs.get("__remote_name__", iname)
# and see if there is a __remote_name__ . We delete it because
# InterfaceClass doesn't like arbitrary attributes
if attrs.has_key("__remote_name__"):
del attrs["__remote_name__"]
# determine all remotely-callable methods
names = [name for name in attrs.keys()
if ((type(attrs[name]) == types.FunctionType and
not name.startswith("_")) or
IConstraint.providedBy(attrs[name]))]
# turn them into constraints. Tag each of them with their name and
# the RemoteInterface they came from.
for name in names:
m = attrs[name]
if not IConstraint.providedBy(m):
m = RemoteMethodSchema(method=m)
m.name = name
m.interface = self
remote_attrs[name] = m
# delete the methods, so zope's InterfaceClass doesn't see them.
# Particularly necessary for things defined with IConstraints.
del attrs[name]
return remote_name, remote_attrs
RemoteInterface = RemoteInterfaceClass("RemoteInterface",
__module__="pb.flavors")
def getRemoteInterface(obj):
"""Get the (one) RemoteInterface supported by the object, or None."""
interfaces = list(providedBy(obj))
# TODO: versioned Interfaces!
ilist = []
for i in interfaces:
if isinstance(i, RemoteInterfaceClass):
if i not in ilist:
ilist.append(i)
assert len(ilist) <= 1, ("don't use multiple RemoteInterfaces! %s uses %s"
% (obj, ilist))
if ilist:
return ilist[0]
return None
class DuplicateRemoteInterfaceError(Exception):
pass
RemoteInterfaceRegistry = {}
def registerRemoteInterface(iface, name=None):
if not name:
name = iface.__remote_name__
assert isinstance(iface, RemoteInterfaceClass)
if RemoteInterfaceRegistry.has_key(name):
old = RemoteInterfaceRegistry[name]
msg = "remote interface %s was registered with the same name (%s) as %s, please use __remote_name__ to provide a unique name" % (old, name, iface)
raise DuplicateRemoteInterfaceError(msg)
RemoteInterfaceRegistry[name] = iface
def getRemoteInterfaceByName(iname):
return RemoteInterfaceRegistry.get(iname)
class RemoteMethodSchema(object):
"""
This is a constraint for a single remotely-invokable method. It gets to
require, deny, or impose further constraints upon a set of named
arguments.
This constraint is created by using keyword arguments with the same
names as the target method's arguments. Two special names are used:
__ignoreUnknown__: if True, unexpected argument names are silently
dropped. (note that this makes the schema unbounded)
__acceptUnknown__: if True, unexpected argument names are always
accepted without a constraint (which also makes this schema unbounded)
The remotely-accesible object's .getMethodSchema() method may return one
of these objects.
"""
implements(IRemoteMethodConstraint)
taster = {} # this should not be used as a top-level constraint
opentypes = [] # overkill
ignoreUnknown = False
acceptUnknown = False
name = None # method name, set when the RemoteInterface is parsed
interface = None # points to the RemoteInterface which defines the method
# under development
def __init__(self, method=None, _response=None, __options=[], **kwargs):
if method:
self.initFromMethod(method)
return
self.argumentNames = []
self.argConstraints = {}
self.required = []
self.responseConstraint = None
# __response in the argslist gets treated specially, I think it is
# mangled into _RemoteMethodSchema__response or something. When I
# change it to use _response instead, it works.
if _response:
self.responseConstraint = IConstraint(_response)
self.options = {} # return, wait, reliable, etc
if kwargs.has_key("__ignoreUnknown__"):
self.ignoreUnknown = kwargs["__ignoreUnknown__"]
del kwargs["__ignoreUnknown__"]
if kwargs.has_key("__acceptUnknown__"):
self.acceptUnknown = kwargs["__acceptUnknown__"]
del kwargs["__acceptUnknown__"]
for argname, constraint in kwargs.items():
self.argumentNames.append(argname)
constraint = IConstraint(constraint)
self.argConstraints[argname] = constraint
if not isinstance(constraint, Optional):
self.required.append(argname)
def initFromMethod(self, method):
# call this with the Interface's prototype method: the one that has
# argument constraints expressed as default arguments, and which
# does nothing but returns the appropriate return type
names, _, _, typeList = inspect.getargspec(method)
if names and names[0] == 'self':
why = "RemoteInterface methods should not have 'self' in their argument list"
raise InvalidRemoteInterface(why)
if not names:
typeList = []
# 'def foo(oops)' results in typeList==None
if typeList is None or len(names) != len(typeList):
# TODO: relax this, use schema=Any for the args that don't have
# default values. This would make:
# def foo(a, b=int): return None
# equivalent to:
# def foo(a=Any, b=int): return None
why = "RemoteInterface methods must have default values for all their arguments"
raise InvalidRemoteInterface(why)
self.argumentNames = names
self.argConstraints = {}
self.required = []
for i in range(len(names)):
argname = names[i]
constraint = typeList[i]
if not isinstance(constraint, Optional):
self.required.append(argname)
self.argConstraints[argname] = IConstraint(constraint)
# call the method, its 'return' value is the return constraint
self.responseConstraint = IConstraint(method())
self.options = {} # return, wait, reliable, etc
def getPositionalArgConstraint(self, argnum):
if argnum >= len(self.argumentNames):
raise Violation("too many positional arguments: %d >= %d" %
(argnum, len(self.argumentNames)))
argname = self.argumentNames[argnum]
c = self.argConstraints.get(argname)
assert c
if isinstance(c, Optional):
c = c.constraint
return (True, c)
def getKeywordArgConstraint(self, argname,
num_posargs=0, previous_kwargs=[]):
previous_args = self.argumentNames[:num_posargs]
for pkw in previous_kwargs:
assert pkw not in previous_args
previous_args.append(pkw)
if argname in previous_args:
raise Violation("got multiple values for keyword argument '%s'"
% (argname,))
c = self.argConstraints.get(argname)
if c:
if isinstance(c, Optional):
c = c.constraint
return (True, c)
# what do we do with unknown arguments?
if self.ignoreUnknown:
return (False, None)
if self.acceptUnknown:
return (True, None)
raise Violation("unknown argument '%s'" % argname)
def getResponseConstraint(self):
return self.responseConstraint
def checkAllArgs(self, args, kwargs, inbound):
# first we map the positional arguments
allargs = {}
if len(args) > len(self.argumentNames):
raise Violation("method takes %d positional arguments (%d given)"
% (len(self.argumentNames), len(args)))
for i,argvalue in enumerate(args):
allargs[self.argumentNames[i]] = argvalue
for argname,argvalue in kwargs.items():
if argname in allargs:
raise Violation("got multiple values for keyword argument '%s'"
% (argname,))
allargs[argname] = argvalue
for argname, argvalue in allargs.items():
accept, constraint = self.getKeywordArgConstraint(argname)
if not accept:
# this argument will be ignored by the far end. TODO: emit a
# warning
pass
try:
constraint.checkObject(argvalue, inbound)
except Violation, v:
v.setLocation("%s=" % argname)
raise
for argname in self.required:
if argname not in allargs:
raise Violation("missing required argument '%s'" % argname)
def checkResults(self, results, inbound):
if self.responseConstraint:
# this might raise a Violation. The caller will annotate its
# location appropriately: they have more information than we do.
self.responseConstraint.checkObject(results, inbound)
class UnconstrainedMethod(object):
"""I am a method constraint that accepts any arguments and any return
value.
To use this, assign it to a method name in a RemoteInterface::
class RIFoo(RemoteInterface):
def constrained_method(foo=int, bar=str): # this one is constrained
return str
not_method = UnconstrainedMethod() # this one is not
"""
implements(IRemoteMethodConstraint)
def getPositionalArgConstraint(self, argnum):
return (True, Any())
def getKeywordArgConstraint(self, argname, num_posargs=0,
previous_kwargs=[]):
return (True, Any())
def checkAllArgs(self, args, kwargs, inbound):
pass # accept everything
def getResponseConstraint(self):
return Any()
def checkResults(self, results, inbound):
pass # accept everything
class LocalInterfaceConstraint(Constraint):
"""This constraint accepts any (local) instance which implements the
given local Interface.
"""
# TODO: maybe accept RemoteCopy instances
# TODO: accept inbound your-references, if the local object they map to
# implements the interface
# TODO: do we need an string-to-Interface map just like we have a
# classname-to-class/factory map?
taster = nothingTaster
opentypes = []
name = "LocalInterfaceConstraint"
def __init__(self, interface):
self.interface = interface
def checkObject(self, obj, inbound):
# TODO: maybe try to get an adapter instead?
if not self.interface.providedBy(obj):
raise Violation("'%s' does not provide interface %s"
% (obj, self.interface))
class RemoteInterfaceConstraint(OpenerConstraint):
"""This constraint accepts any RemoteReference that claims to be
associated with a remote Referenceable that implements the given
RemoteInterface. If 'interface' is None, just assert that it is a
RemoteReference at all.
On the inbound side, this will only accept a suitably-implementing
RemoteReference, or a gift that resolves to such a RemoteReference. On
the outbound side, this will accept either a Referenceable or a
RemoteReference (which might be a your-reference or a their-reference).
Sending your-references will result in the recipient getting a local
Referenceable, which will not pass the constraint. TODO: think about if
we want this behavior or not.
"""
opentypes = [("my-reference",), ("their-reference",)]
name = "RemoteInterfaceConstraint"
def __init__(self, interface):
self.interface = interface
def checkObject(self, obj, inbound):
if inbound:
# this ought to be a RemoteReference that claims to be associated
# with a remote Referenceable that implements the desired
# interface.
if not ipb.IRemoteReference.providedBy(obj):
raise Violation("'%s' does not provide RemoteInterface %s, "
"and doesn't even look like a RemoteReference"
% (obj, self.interface))
if not self.interface:
return
iface = obj.tracker.interface
# TODO: this test probably doesn't handle subclasses of
# RemoteInterface, which might be useful (if it even works)
if not iface or iface != self.interface:
raise Violation("'%s' does not provide RemoteInterface %s"
% (obj, self.interface))
else:
# this ought to be a Referenceable which implements the desired
# interface. Or, it might be a RemoteReference which points to
# one.
if ipb.IRemoteReference.providedBy(obj):
# it's a RemoteReference
if not self.interface:
return
iface = obj.tracker.interface
if not iface or iface != self.interface:
raise Violation("'%s' does not provide RemoteInterface %s"
% (obj, self.interface))
return
if not ipb.IReferenceable.providedBy(obj):
# TODO: maybe distinguish between OnlyReferenceable and
# Referenceable? which is more useful here?
raise Violation("'%s' is not a Referenceable" % (obj,))
if self.interface and not self.interface.providedBy(obj):
raise Violation("'%s' does not provide RemoteInterface %s"
% (obj, self.interface))
def _makeConstraint(t):
# This will be called for both local interfaces (IFoo) and remote
# interfaces (RIFoo), so we have to distinguish between them. The late
# import is to deal with a circular reference between this module and
# remoteinterface.py
if isinstance(t, RemoteInterfaceClass):
return RemoteInterfaceConstraint(t)
return LocalInterfaceConstraint(t)
addToConstraintTypeMap(interface.InterfaceClass, _makeConstraint)
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