SleekXMPP/sleekxmpp/plugins/old_0009.py

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"""
XEP-0009 XMPP Remote Procedure Calls
"""
from __future__ import with_statement
from . import base
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import logging
from xml.etree import cElementTree as ET
import copy
import time
import base64
def py2xml(*args):
params = ET.Element("params")
for x in args:
param = ET.Element("param")
param.append(_py2xml(x))
params.append(param) #<params><param>...
return params
def _py2xml(*args):
for x in args:
val = ET.Element("value")
if type(x) is int:
i4 = ET.Element("i4")
i4.text = str(x)
val.append(i4)
if type(x) is bool:
boolean = ET.Element("boolean")
boolean.text = str(int(x))
val.append(boolean)
elif type(x) is str:
string = ET.Element("string")
string.text = x
val.append(string)
elif type(x) is float:
double = ET.Element("double")
double.text = str(x)
val.append(double)
elif type(x) is rpcbase64:
b64 = ET.Element("Base64")
b64.text = x.encoded()
val.append(b64)
elif type(x) is rpctime:
iso = ET.Element("dateTime.iso8601")
iso.text = str(x)
val.append(iso)
elif type(x) is list:
array = ET.Element("array")
data = ET.Element("data")
for y in x:
data.append(_py2xml(y))
array.append(data)
val.append(array)
elif type(x) is dict:
struct = ET.Element("struct")
for y in x.keys():
member = ET.Element("member")
name = ET.Element("name")
name.text = y
member.append(name)
member.append(_py2xml(x[y]))
struct.append(member)
val.append(struct)
return val
def xml2py(params):
vals = []
for param in params.findall('param'):
vals.append(_xml2py(param.find('value')))
return vals
def _xml2py(value):
if value.find('i4') is not None:
return int(value.find('i4').text)
if value.find('int') is not None:
return int(value.find('int').text)
if value.find('boolean') is not None:
return bool(value.find('boolean').text)
if value.find('string') is not None:
return value.find('string').text
if value.find('double') is not None:
return float(value.find('double').text)
if value.find('Base64') is not None:
return rpcbase64(value.find('Base64').text)
if value.find('dateTime.iso8601') is not None:
return rpctime(value.find('dateTime.iso8601'))
if value.find('struct') is not None:
struct = {}
for member in value.find('struct').findall('member'):
struct[member.find('name').text] = _xml2py(member.find('value'))
return struct
if value.find('array') is not None:
array = []
for val in value.find('array').find('data').findall('value'):
array.append(_xml2py(val))
return array
raise ValueError()
class rpcbase64(object):
def __init__(self, data):
#base 64 encoded string
self.data = data
def decode(self):
return base64.decodestring(data)
def __str__(self):
return self.decode()
def encoded(self):
return self.data
class rpctime(object):
def __init__(self,data=None):
#assume string data is in iso format YYYYMMDDTHH:MM:SS
if type(data) is str:
self.timestamp = time.strptime(data,"%Y%m%dT%H:%M:%S")
elif type(data) is time.struct_time:
self.timestamp = data
elif data is None:
self.timestamp = time.gmtime()
else:
raise ValueError()
def iso8601(self):
#return a iso8601 string
return time.strftime("%Y%m%dT%H:%M:%S",self.timestamp)
def __str__(self):
return self.iso8601()
class JabberRPCEntry(object):
def __init__(self,call):
self.call = call
self.result = None
self.error = None
self.allow = {} #{'<jid>':['<resource1>',...],...}
self.deny = {}
def check_acl(self, jid, resource):
#Check for deny
if jid in self.deny.keys():
if self.deny[jid] == None or resource in self.deny[jid]:
return False
#Check for allow
if allow == None:
return True
if jid in self.allow.keys():
if self.allow[jid] == None or resource in self.allow[jid]:
return True
return False
def acl_allow(self, jid, resource):
if jid == None:
self.allow = None
elif resource == None:
self.allow[jid] = None
elif jid in self.allow.keys():
self.allow[jid].append(resource)
else:
self.allow[jid] = [resource]
def acl_deny(self, jid, resource):
if jid == None:
self.deny = None
elif resource == None:
self.deny[jid] = None
elif jid in self.deny.keys():
self.deny[jid].append(resource)
else:
self.deny[jid] = [resource]
def call_method(self, args):
ret = self.call(*args)
class xep_0009(base.base_plugin):
def plugin_init(self):
self.xep = '0009'
self.description = 'Jabber-RPC'
self.xmpp.add_handler("<iq type='set'><query xmlns='jabber:iq:rpc' /></iq>",
self._callMethod, name='Jabber RPC Call')
self.xmpp.add_handler("<iq type='result'><query xmlns='jabber:iq:rpc' /></iq>",
self._callResult, name='Jabber RPC Result')
self.xmpp.add_handler("<iq type='error'><query xmlns='jabber:iq:rpc' /></iq>",
self._callError, name='Jabber RPC Error')
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self.entries = {}
self.activeCalls = []
def post_init(self):
base.base_plugin.post_init(self)
self.xmpp.plugin['xep_0030'].add_feature('jabber:iq:rpc')
self.xmpp.plugin['xep_0030'].add_identity('automatition','rpc')
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def register_call(self, method, name=None):
#@returns an string that can be used in acl commands.
with self.lock:
if name is None:
self.entries[method.__name__] = JabberRPCEntry(method)
return method.__name__
else:
self.entries[name] = JabberRPCEntry(method)
return name
def acl_allow(self, entry, jid=None, resource=None):
#allow the method entry to be called by the given jid and resource.
#if jid is None it will allow any jid/resource.
#if resource is None it will allow any resource belonging to the jid.
with self.lock:
if self.entries[entry]:
self.entries[entry].acl_allow(jid,resource)
else:
raise ValueError()
def acl_deny(self, entry, jid=None, resource=None):
#Note: by default all requests are denied unless allowed with acl_allow.
#If you deny an entry it will not be allowed regardless of acl_allow
with self.lock:
if self.entries[entry]:
self.entries[entry].acl_deny(jid,resource)
else:
raise ValueError()
def unregister_call(self, entry):
#removes the registered call
with self.lock:
if self.entries[entry]:
del self.entries[entry]
else:
raise ValueError()
def makeMethodCallQuery(self,pmethod,params):
query = self.xmpp.makeIqQuery(iq,"jabber:iq:rpc")
methodCall = ET.Element('methodCall')
methodName = ET.Element('methodName')
methodName.text = pmethod
methodCall.append(methodName)
methodCall.append(params)
query.append(methodCall)
return query
def makeIqMethodCall(self,pto,pmethod,params):
iq = self.xmpp.makeIqSet()
iq.set('to',pto)
iq.append(self.makeMethodCallQuery(pmethod,params))
return iq
def makeIqMethodResponse(self,pto,pid,params):
iq = self.xmpp.makeIqResult(pid)
iq.set('to',pto)
query = self.xmpp.makeIqQuery(iq,"jabber:iq:rpc")
methodResponse = ET.Element('methodResponse')
methodResponse.append(params)
query.append(methodResponse)
return iq
def makeIqMethodError(self,pto,id,pmethod,params,condition):
iq = self.xmpp.makeIqError(id)
iq.set('to',pto)
iq.append(self.makeMethodCallQuery(pmethod,params))
iq.append(self.xmpp['xep_0086'].makeError(condition))
return iq
def call_remote(self, pto, pmethod, *args):
#calls a remote method. Returns the id of the Iq.
pass
def _callMethod(self,xml):
pass
def _callResult(self,xml):
pass
def _callError(self,xml):
pass