Filename: //lib////python3/dist-packages/pysimplesoap/client.py

#!/usr/bin/python # -*- coding: utf-8 -*- # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published by the # Free Software Foundation; either version 3, or (at your option) any later # version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY # or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License # for more details. """Pythonic simple SOAP Client implementation""" from __future__ import unicode_literals import sys if sys.version > '3': unicode = str try: import cPickle as pickle except ImportError: import pickle import copy import hashlib import logging import os import tempfile import warnings from . import __author__, __copyright__, __license__, __version__, TIMEOUT from .simplexml import SimpleXMLElement, TYPE_MAP, REVERSE_TYPE_MAP, Struct from .transport import get_http_wrapper, set_http_wrapper, get_Http # Utility functions used throughout wsdl_parse, moved aside for readability from .helpers import Alias, fetch, sort_dict, make_key, process_element, \ postprocess_element, get_message, preprocess_schema, \ get_local_name, get_namespace_prefix, TYPE_MAP, urlsplit from .wsse import UsernameToken log = logging.getLogger(__name__) class SoapFault(RuntimeError): def __init__(self, faultcode, faultstring, detail=None): self.faultcode = faultcode self.faultstring = faultstring self.detail = detail RuntimeError.__init__(self, faultcode, faultstring, detail) def __unicode__(self): return '%s: %s' % (self.faultcode, self.faultstring) if sys.version > '3': __str__ = __unicode__ else: def __str__(self): return self.__unicode__().encode('ascii', 'ignore') def __repr__(self): return "SoapFault(faultcode = %s, faultstring %s, detail = %s)" % (repr(self.faultcode), repr(self.faultstring), repr(self.detail)) # soap protocol specification & namespace soap_namespaces = dict( soap11='http://schemas.xmlsoap.org/soap/envelope/', soap='http://schemas.xmlsoap.org/soap/envelope/', soapenv='http://schemas.xmlsoap.org/soap/envelope/', soap12='http://www.w3.org/2003/05/soap-env', soap12env="http://www.w3.org/2003/05/soap-envelope", ) class SoapClient(object): """Simple SOAP Client (simil PHP)""" def __init__(self, location=None, action=None, namespace=None, cert=None, exceptions=True, proxy=None, ns=None, soap_ns=None, wsdl=None, wsdl_basedir='', cache=False, cacert=None, sessions=False, soap_server=None, timeout=TIMEOUT, http_headers=None, trace=False, username=None, password=None, key_file=None, plugins=None, strict=True, ): """ :param http_headers: Additional HTTP Headers; example: {'Host': 'ipsec.example.com'} """ self.certssl = cert self.keyssl = key_file self.location = location # server location (url) self.action = action # SOAP base action self.namespace = namespace # message self.exceptions = exceptions # lanzar execpiones? (Soap Faults) self.xml_request = self.xml_response = '' self.http_headers = http_headers or {} self.plugins = plugins or [] self.strict = strict # extract the base directory / url for wsdl relative imports: if wsdl and wsdl_basedir == '': # parse the wsdl url, strip the scheme and filename url_scheme, netloc, path, query, fragment = urlsplit(wsdl) wsdl_basedir = os.path.dirname(netloc + path) self.wsdl_basedir = wsdl_basedir # shortcut to print all debugging info and sent / received xml messages if trace: if trace is True: level = logging.DEBUG # default logging level else: level = trace # use the provided level logging.basicConfig(level=level) log.setLevel(level) if not soap_ns and not ns: self.__soap_ns = 'soap' # 1.1 elif not soap_ns and ns: self.__soap_ns = 'soapenv' # 1.2 else: self.__soap_ns = soap_ns # SOAP Server (special cases like oracle, jbossas6 or jetty) self.__soap_server = soap_server # SOAP Header support self.__headers = {} # general headers self.__call_headers = None # Struct to be marshalled for RPC Call # check if the Certification Authority Cert is a string and store it if cacert and cacert.startswith('-----BEGIN CERTIFICATE-----'): fd, filename = tempfile.mkstemp() f = os.fdopen(fd, 'w+b', -1) log.debug("Saving CA certificate to %s" % filename) f.write(cacert) cacert = filename f.close() self.cacert = cacert # Create HTTP wrapper Http = get_Http() self.http = Http(timeout=timeout, cacert=cacert, proxy=proxy, sessions=sessions) if username and password: if hasattr(self.http, 'add_credentials'): self.http.add_credentials(username, password) if cert and key_file: if hasattr(self.http, 'add_certificate'): self.http.add_certificate(key=key_file, cert=cert, domain='') # namespace prefix, None to use xmlns attribute or False to not use it: self.__ns = ns if not ns: self.__xml = """<?xml version="1.0" encoding="UTF-8"?> <%(soap_ns)s:Envelope xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:xsd="http://www.w3.org/2001/XMLSchema" xmlns:%(soap_ns)s="%(soap_uri)s"> <%(soap_ns)s:Header/> <%(soap_ns)s:Body> <%(method)s xmlns="%(namespace)s"> </%(method)s> </%(soap_ns)s:Body> </%(soap_ns)s:Envelope>""" else: self.__xml = """<?xml version="1.0" encoding="UTF-8"?> <%(soap_ns)s:Envelope xmlns:%(soap_ns)s="%(soap_uri)s" xmlns:%(ns)s="%(namespace)s"> <%(soap_ns)s:Header/> <%(soap_ns)s:Body><%(ns)s:%(method)s></%(ns)s:%(method)s></%(soap_ns)s:Body></%(soap_ns)s:Envelope>""" # parse wsdl url self.services = wsdl and self.wsdl_parse(wsdl, cache=cache) self.service_port = None # service port for late binding def __getattr__(self, attr): """Return a pseudo-method that can be called""" if not self.services: # not using WSDL? return lambda *args, **kwargs: self.call(attr, *args, **kwargs) else: # using WSDL: return lambda *args, **kwargs: self.wsdl_call(attr, *args, **kwargs) def call(self, method, *args, **kwargs): """Prepare xml request and make SOAP call, returning a SimpleXMLElement. If a keyword argument called "headers" is passed with a value of a SimpleXMLElement object, then these headers will be inserted into the request. """ #TODO: method != input_message # Basic SOAP request: soap_uri = soap_namespaces[self.__soap_ns] xml = self.__xml % dict(method=method, # method tag name namespace=self.namespace, # method ns uri ns=self.__ns, # method ns prefix soap_ns=self.__soap_ns, # soap prefix & uri soap_uri=soap_uri) request = SimpleXMLElement(xml, namespace=self.__ns and self.namespace, prefix=self.__ns) request_headers = kwargs.pop('headers', None) # serialize parameters if kwargs: parameters = list(kwargs.items()) else: parameters = args if parameters and isinstance(parameters[0], SimpleXMLElement): body = request('Body', ns=list(soap_namespaces.values()),) # remove default body parameter (method name) delattr(body, method) # merge xmlelement parameter ("raw" - already marshalled) body.import_node(parameters[0]) elif parameters: # marshall parameters: use_ns = None if (self.__soap_server == "jetty" or self.qualified is False) else True for k, v in parameters: # dict: tag=valor if hasattr(v, "namespaces") and use_ns: ns = v.namespaces.get(None, True) else: ns = use_ns getattr(request, method).marshall(k, v, ns=ns) elif self.__soap_server in ('jbossas6',): # JBossAS-6 requires no empty method parameters! delattr(request("Body", ns=list(soap_namespaces.values()),), method) # construct header and parameters (if not wsdl given) except wsse if self.__headers and not self.services: self.__call_headers = dict([(k, v) for k, v in self.__headers.items() if not k.startswith('wsse:')]) # always extract WS Security header and send it (backward compatible) if 'wsse:Security' in self.__headers and not self.plugins: warnings.warn("Replace wsse:Security with UsernameToken plugin", DeprecationWarning) self.plugins.append(UsernameToken()) if self.__call_headers: header = request('Header', ns=list(soap_namespaces.values()),) for k, v in self.__call_headers.items(): ##if not self.__ns: ## header['xmlns'] if isinstance(v, SimpleXMLElement): # allows a SimpleXMLElement to be constructed and inserted # rather than a dictionary. marshall doesn't allow ns: prefixes # in dict key names header.import_node(v) else: header.marshall(k, v, ns=self.__ns, add_children_ns=False) if request_headers: header = request('Header', ns=list(soap_namespaces.values()),) for subheader in request_headers.children(): header.import_node(subheader) # do pre-processing using plugins (i.e. WSSE signing) for plugin in self.plugins: plugin.preprocess(self, request, method, args, kwargs, self.__headers, soap_uri) self.xml_request = request.as_xml() self.xml_response = self.send(method, self.xml_request) response = SimpleXMLElement(self.xml_response, namespace=self.namespace, jetty=self.__soap_server in ('jetty',)) if self.exceptions and response("Fault", ns=list(soap_namespaces.values()), error=False): detailXml = response("detail", ns=list(soap_namespaces.values()), error=False) detail = None if detailXml and detailXml.children(): if self.services is not None: operation = self.get_operation(method) fault_name = detailXml.children()[0].get_name() # if fault not defined in WSDL, it could be an axis or other # standard type (i.e. "hostname"), try to convert it to string fault = operation['faults'].get(fault_name) or unicode detail = detailXml.children()[0].unmarshall(fault, strict=False) else: detail = repr(detailXml.children()) raise SoapFault(unicode(response.faultcode), unicode(response.faultstring), detail) # do post-processing using plugins (i.e. WSSE signature verification) for plugin in self.plugins: plugin.postprocess(self, response, method, args, kwargs, self.__headers, soap_uri) return response def send(self, method, xml): """Send SOAP request using HTTP""" if self.location == 'test': return # location = '%s' % self.location #?op=%s" % (self.location, method) http_method = str('POST') location = str(self.location) if self.services: soap_action = str(self.action) else: soap_action = str(self.action) + method headers = { 'Content-type': 'text/xml; charset="UTF-8"', 'Content-length': str(len(xml)), } if self.action is not None: headers['SOAPAction'] = '"' + soap_action + '"' headers.update(self.http_headers) log.info("POST %s" % location) log.debug('\n'.join(["%s: %s" % (k, v) for k, v in headers.items()])) log.debug(xml) if sys.version < '3': # Ensure http_method, location and all headers are binary to prevent # UnicodeError inside httplib.HTTPConnection._send_output. # httplib in python3 do the same inside itself, don't need to convert it here headers = dict((str(k), str(v)) for k, v in headers.items()) response, content = self.http.request( location, http_method, body=xml, headers=headers) self.response = response self.content = content log.debug('\n'.join(["%s: %s" % (k, v) for k, v in response.items()])) log.debug(content) return content def get_operation(self, method): # try to find operation in wsdl file soap_ver = self.__soap_ns.startswith('soap12') and 'soap12' or 'soap11' if not self.service_port: for service_name, service in self.services.items(): for port_name, port in [port for port in service['ports'].items()]: if port['soap_ver'] == soap_ver: self.service_port = service_name, port_name break else: raise RuntimeError('Cannot determine service in WSDL: ' 'SOAP version: %s' % soap_ver) else: port = self.services[self.service_port[0]]['ports'][self.service_port[1]] if not self.location: self.location = port['location'] operation = port['operations'].get(method) if not operation: raise RuntimeError('Operation %s not found in WSDL: ' 'Service/Port Type: %s' % (method, self.service_port)) return operation def wsdl_call(self, method, *args, **kwargs): """Pre and post process SOAP call, input and output parameters using WSDL""" return self.wsdl_call_with_args(method, args, kwargs) def wsdl_call_with_args(self, method, args, kwargs): """Pre and post process SOAP call, input and output parameters using WSDL""" soap_uri = soap_namespaces[self.__soap_ns] operation = self.get_operation(method) # get i/o type declarations: input = operation['input'] output = operation['output'] header = operation.get('header') if 'action' in operation: self.action = operation['action'] if 'namespace' in operation: self.namespace = operation['namespace'] or '' self.qualified = operation['qualified'] # construct header and parameters if header: self.__call_headers = sort_dict(header, self.__headers) method, params = self.wsdl_call_get_params(method, input, args, kwargs) # call remote procedure response = self.call(method, *params) # parse results: resp = response('Body', ns=soap_uri).children().unmarshall(output, strict=self.strict) return resp and list(resp.values())[0] # pass Response tag children def wsdl_call_get_params(self, method, input, args, kwargs): """Build params from input and args/kwargs""" params = inputname = inputargs = None all_args = {} if input: inputname = list(input.keys())[0] inputargs = input[inputname] if input and args: # convert positional parameters to named parameters: d = {} for idx, arg in enumerate(args): key = list(inputargs.keys())[idx] if isinstance(arg, dict): if key not in arg: raise KeyError('Unhandled key %s. use client.help(method)' % key) d[key] = arg[key] else: d[key] = arg all_args.update({inputname: d}) if input and (kwargs or all_args): if kwargs: all_args.update({inputname: kwargs}) valid, errors, warnings = self.wsdl_validate_params(input, all_args) if not valid: raise ValueError('Invalid Args Structure. Errors: %s' % errors) # sort and filter parameters according to wsdl input structure tree = sort_dict(input, all_args) root = list(tree.values())[0] params = [] # make a params tuple list suitable for self.call(method, *params) for k, v in root.items(): # fix referenced namespaces as info is lost when calling call root_ns = root.namespaces[k] if not root.references[k] and isinstance(v, Struct): v.namespaces[None] = root_ns params.append((k, v)) # TODO: check style and document attributes if self.__soap_server in ('axis', ): # use the operation name method = method else: # use the message (element) name method = inputname #elif not input: #TODO: no message! (see wsmtxca.dummy) else: params = kwargs and kwargs.items() return (method, params) def wsdl_validate_params(self, struct, value): """Validate the arguments (actual values) for the parameters structure. Fail for any invalid arguments or type mismatches.""" errors = [] warnings = [] valid = True # Determine parameter type if type(struct) == type(value): typematch = True if not isinstance(struct, dict) and isinstance(value, dict): typematch = True # struct can be a dict or derived (Struct) else: typematch = False if struct == str: struct = unicode # fix for py2 vs py3 string handling if not isinstance(struct, (list, dict, tuple)) and struct in TYPE_MAP.keys(): if not type(value) == struct and value is not None: try: struct(value) # attempt to cast input to parameter type except: valid = False errors.append('Type mismatch for argument value. parameter(%s): %s, value(%s): %s' % (type(struct), struct, type(value), value)) elif isinstance(struct, list) and len(struct) == 1 and not isinstance(value, list): # parameter can have a dict in a list: [{}] indicating a list is allowed, but not needed if only one argument. next_valid, next_errors, next_warnings = self.wsdl_validate_params(struct[0], value) if not next_valid: valid = False errors.extend(next_errors) warnings.extend(next_warnings) # traverse tree elif isinstance(struct, dict): if struct and value: for key in value: if key not in struct: valid = False errors.append('Argument key %s not in parameter. parameter: %s, args: %s' % (key, struct, value)) else: next_valid, next_errors, next_warnings = self.wsdl_validate_params(struct[key], value[key]) if not next_valid: valid = False errors.extend(next_errors) warnings.extend(next_warnings) for key in struct: if key not in value: warnings.append('Parameter key %s not in args. parameter: %s, value: %s' % (key, struct, value)) elif struct and not value: warnings.append('parameter keys not in args. parameter: %s, args: %s' % (struct, value)) elif not struct and value: valid = False errors.append('Args keys not in parameter. parameter: %s, args: %s' % (struct, value)) else: pass elif isinstance(struct, list): struct_list_value = struct[0] for item in value: next_valid, next_errors, next_warnings = self.wsdl_validate_params(struct_list_value, item) if not next_valid: valid = False errors.extend(next_errors) warnings.extend(next_warnings) elif not typematch: valid = False errors.append('Type mismatch. parameter(%s): %s, value(%s): %s' % (type(struct), struct, type(value), value)) return (valid, errors, warnings) def help(self, method): """Return operation documentation and invocation/returned value example""" operation = self.get_operation(method) input = operation.get('input') input = input and input.values() and list(input.values())[0] if isinstance(input, dict): input = ", ".join("%s=%s" % (k, repr(v)) for k, v in input.items()) elif isinstance(input, list): input = repr(input) output = operation.get('output') if output: output = list(operation['output'].values())[0] headers = operation.get('headers') or None return "%s(%s)\n -> %s:\n\n%s\nHeaders: %s" % ( method, input or '', output and output or '', operation.get('documentation', ''), headers, ) soap_ns_uris = { 'http://schemas.xmlsoap.org/wsdl/soap/': 'soap11', 'http://schemas.xmlsoap.org/wsdl/soap12/': 'soap12', } wsdl_uri = 'http://schemas.xmlsoap.org/wsdl/' xsd_uri = 'http://www.w3.org/2001/XMLSchema' xsi_uri = 'http://www.w3.org/2001/XMLSchema-instance' def _url_to_xml_tree(self, url, cache, force_download): """Unmarshall the WSDL at the given url into a tree of SimpleXMLElement nodes""" # Open uri and read xml: xml = fetch(url, self.http, cache, force_download, self.wsdl_basedir, self.http_headers) # Parse WSDL XML: wsdl = SimpleXMLElement(xml, namespace=self.wsdl_uri) # Extract useful data: self.namespace = "" self.documentation = unicode(wsdl('documentation', error=False)) or '' # some wsdl are split down in several files, join them: imported_wsdls = {} for element in wsdl.children() or []: if element.get_local_name() in ('import'): wsdl_namespace = element['namespace'] wsdl_location = element['location'] if wsdl_location is None: log.warning('WSDL location not provided for %s!' % wsdl_namespace) continue if wsdl_location in imported_wsdls: log.warning('WSDL %s already imported!' % wsdl_location) continue imported_wsdls[wsdl_location] = wsdl_namespace log.debug('Importing wsdl %s from %s' % (wsdl_namespace, wsdl_location)) # Open uri and read xml: xml = fetch(wsdl_location, self.http, cache, force_download, self.wsdl_basedir, self.http_headers) # Parse imported XML schema (recursively): imported_wsdl = SimpleXMLElement(xml, namespace=self.xsd_uri) # merge the imported wsdl into the main document: wsdl.import_node(imported_wsdl) # warning: do not process schemas to avoid infinite recursion! return wsdl def _xml_tree_to_services(self, wsdl, cache, force_download): """Convert SimpleXMLElement tree representation of the WSDL into pythonic objects""" # detect soap prefix and uri (xmlns attributes of <definitions>) xsd_ns = None soap_uris = {} for k, v in wsdl[:]: if v in self.soap_ns_uris and k.startswith('xmlns:'): soap_uris[get_local_name(k)] = v if v == self.xsd_uri and k.startswith('xmlns:'): xsd_ns = get_local_name(k) elements = {} # element: type def messages = {} # message: element port_types = {} # port_type_name: port_type bindings = {} # binding_name: binding services = {} # service_name: service # check axis2 namespace at schema types attributes (europa.eu checkVat) if "http://xml.apache.org/xml-soap" in dict(wsdl[:]).values(): # get the sub-namespace in the first schema element (see issue 8) if wsdl('types', error=False): schema = wsdl.types('schema', ns=self.xsd_uri) attrs = dict(schema[:]) self.namespace = attrs.get('targetNamespace', self.namespace) if not self.namespace or self.namespace == "urn:DefaultNamespace": self.namespace = wsdl['targetNamespace'] or self.namespace imported_schemas = {} global_namespaces = {None: self.namespace} # process current wsdl schema (if any, or many if imported): # <wsdl:definitions> # <wsdl:types> # <xs:schema> # <xs:element> # <xs:complexType>...</xs:complexType> # or # <xs:.../> # </xs:element> # </xs:schema> # </wsdl:types> # </wsdl:definitions> for types in wsdl('types', error=False) or []: # avoid issue if schema is not given in the main WSDL file schemas = types('schema', ns=self.xsd_uri, error=False) for schema in schemas or []: preprocess_schema(schema, imported_schemas, elements, self.xsd_uri, self.__soap_server, self.http, cache, force_download, self.wsdl_basedir, global_namespaces=global_namespaces) # 2nd phase: alias, postdefined elements, extend bases, convert lists postprocess_element(elements, []) for message in wsdl.message: for part in message('part', error=False) or []: element = {} element_name = part['element'] if not element_name: # some implementations (axis) uses type instead element_name = part['type'] type_ns = get_namespace_prefix(element_name) type_uri = part.get_namespace_uri(type_ns) part_name = part['name'] or None if type_uri == self.xsd_uri: element_name = get_local_name(element_name) fn = REVERSE_TYPE_MAP.get(element_name, None) element = {part_name: fn} # emulate a true Element (complexType) for rpc style if (message['name'], part_name) not in messages: od = Struct() od.namespaces[None] = type_uri messages[(message['name'], part_name)] = {message['name']: od} else: od = messages[(message['name'], part_name)].values()[0] od.namespaces[part_name] = type_uri od.references[part_name] = False od.update(element) else: element_name = get_local_name(element_name) fn = elements.get(make_key(element_name, 'element', type_uri)) if not fn: # some axis servers uses complexType for part messages (rpc) fn = elements.get(make_key(element_name, 'complexType', type_uri)) od = Struct() od[part_name] = fn od.namespaces[None] = type_uri od.namespaces[part_name] = type_uri od.references[part_name] = False element = {message['name']: od} else: element = {element_name: fn} messages[(message['name'], part_name)] = element for port_type_node in wsdl.portType: port_type_name = port_type_node['name'] port_type = port_types[port_type_name] = {} operations = port_type['operations'] = {} for operation_node in port_type_node.operation: op_name = operation_node['name'] op = operations[op_name] = {} op['style'] = operation_node['style'] op['parameter_order'] = (operation_node['parameterOrder'] or "").split(" ") op['documentation'] = unicode(operation_node('documentation', error=False)) or '' if operation_node('input', error=False): op['input_msg'] = get_local_name(operation_node.input['message']) ns = get_namespace_prefix(operation_node.input['message']) op['namespace'] = operation_node.get_namespace_uri(ns) if operation_node('output', error=False): op['output_msg'] = get_local_name(operation_node.output['message']) #Get all fault message types this operation may return fault_msgs = op['fault_msgs'] = {} faults = operation_node('fault', error=False) if faults is not None: for fault in operation_node('fault', error=False): fault_msgs[fault['name']] = get_local_name(fault['message']) for binding_node in wsdl.binding: port_type_name = get_local_name(binding_node['type']) if port_type_name not in port_types: # Invalid port type continue port_type = port_types[port_type_name] binding_name = binding_node['name'] soap_binding = binding_node('binding', ns=list(soap_uris.values()), error=False) transport = soap_binding and soap_binding['transport'] or None style = soap_binding and soap_binding['style'] or None # rpc binding = bindings[binding_name] = { 'name': binding_name, 'operations': copy.deepcopy(port_type['operations']), 'port_type_name': port_type_name, 'transport': transport, 'style': style, } for operation_node in binding_node.operation: op_name = operation_node['name'] op_op = operation_node('operation', ns=list(soap_uris.values()), error=False) action = op_op and op_op['soapAction'] op = binding['operations'].setdefault(op_name, {}) op['name'] = op_name op['style'] = op.get('style', style) if action is not None: op['action'] = action # input and/or output can be not present! input = operation_node('input', error=False) body = input and input('body', ns=list(soap_uris.values()), error=False) parts_input_body = body and body['parts'] or None # parse optional header messages (some implementations use more than one!) parts_input_headers = [] headers = input and input('header', ns=list(soap_uris.values()), error=False) for header in headers or []: hdr = {'message': header['message'], 'part': header['part']} parts_input_headers.append(hdr) if 'input_msg' in op: headers = {} # base header message structure for input_header in parts_input_headers: header_msg = get_local_name(input_header.get('message')) header_part = get_local_name(input_header.get('part')) # warning: some implementations use a separate message! hdr = get_message(messages, header_msg or op['input_msg'], header_part) if hdr: headers.update(hdr) else: pass # not enough info to search the header message: op['input'] = get_message(messages, op['input_msg'], parts_input_body, op['parameter_order']) op['header'] = headers try: element = list(op['input'].values())[0] ns_uri = element.namespaces[None] qualified = element.qualified except (AttributeError, KeyError) as e: # TODO: fix if no parameters parsed or "variants" ns_uri = op['namespace'] qualified = None if ns_uri: op['namespace'] = ns_uri op['qualified'] = qualified # Remove temporary property del op['input_msg'] else: op['input'] = None op['header'] = None output = operation_node('output', error=False) body = output and output('body', ns=list(soap_uris.values()), error=False) parts_output_body = body and body['parts'] or None if 'output_msg' in op: op['output'] = get_message(messages, op['output_msg'], parts_output_body) # Remove temporary property del op['output_msg'] else: op['output'] = None if 'fault_msgs' in op: faults = op['faults'] = {} for msg in op['fault_msgs'].values(): msg_obj = get_message(messages, msg, parts_output_body) tag_name = list(msg_obj)[0] faults[tag_name] = msg_obj # useless? never used parts_output_headers = [] headers = output and output('header', ns=list(soap_uris.values()), error=False) for header in headers or []: hdr = {'message': header['message'], 'part': header['part']} parts_output_headers.append(hdr) for service in wsdl("service", error=False) or []: service_name = service['name'] if not service_name: continue # empty service? serv = services.setdefault(service_name, {}) ports = serv['ports'] = {} serv['documentation'] = service['documentation'] or '' for port in service.port: binding_name = get_local_name(port['binding']) if not binding_name in bindings: continue # unknown binding binding = ports[port['name']] = copy.deepcopy(bindings[binding_name]) address = port('address', ns=list(soap_uris.values()), error=False) location = address and address['location'] or None soap_uri = address and soap_uris.get(address.get_prefix()) soap_ver = soap_uri and self.soap_ns_uris.get(soap_uri) binding.update({ 'location': location, 'service_name': service_name, 'soap_uri': soap_uri, 'soap_ver': soap_ver, }) # create an default service if none is given in the wsdl: if not services: services[''] = {'ports': {'': None}} elements = list(e for e in elements.values() if type(e) is type) + sorted(e for e in elements.values() if not(type(e) is type)) e = None self.elements = [] for element in elements: if e!= element: self.elements.append(element) e = element return services def wsdl_parse(self, url, cache=False): """Parse Web Service Description v1.1""" log.debug('Parsing wsdl url: %s' % url) # Try to load a previously parsed wsdl: force_download = False if cache: # make md5 hash of the url for caching... filename_pkl = '%s.pkl' % hashlib.md5(url).hexdigest() if isinstance(cache, basestring): filename_pkl = os.path.join(cache, filename_pkl) if os.path.exists(filename_pkl): log.debug('Unpickle file %s' % (filename_pkl, )) f = open(filename_pkl, 'r') pkl = pickle.load(f) f.close() # sanity check: if pkl['version'][:-1] != __version__.split(' ')[0][:-1] or pkl['url'] != url: warnings.warn('version or url mismatch! discarding cached wsdl', RuntimeWarning) log.debug('Version: %s %s' % (pkl['version'], __version__)) log.debug('URL: %s %s' % (pkl['url'], url)) force_download = True else: self.namespace = pkl['namespace'] self.documentation = pkl['documentation'] return pkl['services'] # always return an unicode object: REVERSE_TYPE_MAP['string'] = str wsdl = self._url_to_xml_tree(url, cache, force_download) services = self._xml_tree_to_services(wsdl, cache, force_download) # dump the full service/port/operation map #log.debug(pprint.pformat(services)) # Save parsed wsdl (cache) if cache: f = open(filename_pkl, "wb") pkl = { 'version': __version__.split(' ')[0], 'url': url, 'namespace': self.namespace, 'documentation': self.documentation, 'services': services, } pickle.dump(pkl, f) f.close() return services def __setitem__(self, item, value): """Set SOAP Header value - this header will be sent for every request.""" self.__headers[item] = value def close(self): """Finish the connection and remove temp files""" self.http.close() if self.cacert.startswith(tempfile.gettempdir()): log.debug('removing %s' % self.cacert) os.unlink(self.cacert) def __repr__(self): s = 'SOAP CLIENT' s += '\n ELEMENTS' for e in self.elements: if isinstance(e, type): e = e.__name__ elif isinstance(e, Alias): e = e.xml_type elif isinstance(e, Struct) and e.key[1]=='element': e = repr(e) else: continue s += '\n %s' % e for service in self.services: s += '\n SERVICE (%s)' % service ports = self.services[service]['ports'] for port in ports: port = ports[port] if port['soap_ver'] == None: continue s += '\n PORT (%s)' % port['name'] s += '\n Location: %s' % port['location'] s += '\n Soap ver: %s' % port['soap_ver'] s += '\n Soap URI: %s' % port['soap_uri'] s += '\n OPERATIONS' operations = port['operations'] for operation in sorted(operations): operation = self.get_operation(operation) input = operation.get('input') input = input and input.values() and list(input.values())[0] input_str = '' if isinstance(input, dict): if 'parameters' not in input or input['parameters']!=None: for k, v in input.items(): if isinstance(v, type): v = v.__name__ elif isinstance(v, Alias): v = v.xml_type elif isinstance(v, Struct): v = v.key[0] input_str += '%s: %s, ' % (k, v) output = operation.get('output') if output: output = list(operation['output'].values())[0] s += '\n %s(%s)' % ( operation['name'], input_str[:-2] ) s += '\n > %s' % output return s def parse_proxy(proxy_str): """Parses proxy address user:pass@host:port into a dict suitable for httplib2""" proxy_dict = {} if proxy_str is None: return if '@' in proxy_str: user_pass, host_port = proxy_str.split('@') else: user_pass, host_port = '', proxy_str if ':' in host_port: host, port = host_port.split(':') proxy_dict['proxy_host'], proxy_dict['proxy_port'] = host, int(port) if ':' in user_pass: proxy_dict['proxy_user'], proxy_dict['proxy_pass'] = user_pass.split(':') return proxy_dict if __name__ == '__main__': pass

./Ninja\.