# This program is free software; you can redistribute it and/or modify # it under the terms of the (LGPL) GNU Lesser General Public License as # published by the Free Software Foundation; either version 3 of the # License, 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 Library Lesser General Public License for more details at # ( http://www.gnu.org/licenses/lgpl.html ). # # You should have received a copy of the GNU Lesser General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. # written by: Jeff Ortel ( jortel@redhat.com ) """ Provides classes for (WS) SOAP bindings. """ from logging import getLogger from suds import * from suds.sax import Namespace from suds.sax.parser import Parser from suds.sax.document import Document from suds.sax.element import Element from suds.sudsobject import Factory, Object from suds.mx import Content from suds.mx.literal import Literal as MxLiteral from suds.umx.basic import Basic as UmxBasic from suds.umx.typed import Typed as UmxTyped from suds.bindings.multiref import MultiRef from suds.xsd.query import TypeQuery, ElementQuery from suds.xsd.sxbasic import Element as SchemaElement from suds.options import Options from copy import deepcopy log = getLogger(__name__) envns = ('SOAP-ENV', 'http://schemas.xmlsoap.org/soap/envelope/') class Binding: """ The soap binding class used to process outgoing and imcoming soap messages per the WSDL port binding. @cvar replyfilter: The reply filter function. @type replyfilter: (lambda s,r: r) @ivar wsdl: The wsdl. @type wsdl: L{suds.wsdl.Definitions} @ivar schema: The collective schema contained within the wsdl. @type schema: L{xsd.schema.Schema} @ivar options: A dictionary options. @type options: L{Options} """ replyfilter = (lambda s,r: r) def __init__(self, wsdl): """ @param wsdl: A wsdl. @type wsdl: L{wsdl.Definitions} """ self.wsdl = wsdl self.multiref = MultiRef() def schema(self): return self.wsdl.schema def options(self): return self.wsdl.options def unmarshaller(self, typed=True): """ Get the appropriate XML decoder. @return: Either the (basic|typed) unmarshaller. @rtype: L{UmxTyped} """ if typed: return UmxTyped(self.schema()) else: return UmxBasic() def marshaller(self): """ Get the appropriate XML encoder. @return: An L{MxLiteral} marshaller. @rtype: L{MxLiteral} """ return MxLiteral(self.schema(), self.options().xstq) def param_defs(self, method): """ Get parameter definitions. Each I{pdef} is a tuple (I{name}, L{xsd.sxbase.SchemaObject}) @param method: A servic emethod. @type method: I{service.Method} @return: A collection of parameter definitions @rtype: [I{pdef},..] """ raise Exception, 'not implemented' def get_message(self, method, args, kwargs): """ Get the soap message for the specified method, args and soapheaders. This is the entry point for creating the outbound soap message. @param method: The method being invoked. @type method: I{service.Method} @param args: A list of args for the method invoked. @type args: list @param kwargs: Named (keyword) args for the method invoked. @type kwargs: dict @return: The soap envelope. @rtype: L{Document} """ content = self.headercontent(method) header = self.header(content) content = self.bodycontent(method, args, kwargs) body = self.body(content) env = self.envelope(header, body) if self.options().prefixes: body.normalizePrefixes() env.promotePrefixes() else: env.refitPrefixes() return Document(env) def get_reply(self, method, reply): """ Process the I{reply} for the specified I{method} by sax parsing the I{reply} and then unmarshalling into python object(s). @param method: The name of the invoked method. @type method: str @param reply: The reply XML received after invoking the specified method. @type reply: str @return: The unmarshalled reply. The returned value is an L{Object} for a I{list} depending on whether the service returns a single object or a collection. @rtype: tuple ( L{Element}, L{Object} ) """ reply = self.replyfilter(reply) sax = Parser() replyroot = sax.parse(string=reply) soapenv = replyroot.getChild('Envelope') soapenv.promotePrefixes() soapbody = soapenv.getChild('Body') self.detect_fault(soapbody) soapbody = self.multiref.process(soapbody) nodes = self.replycontent(method, soapbody) rtypes = self.returned_types(method) if len(rtypes) > 1: result = self.replycomposite(rtypes, nodes) return (replyroot, result) if len(rtypes) == 1: if rtypes[0].unbounded(): result = self.replylist(rtypes[0], nodes) return (replyroot, result) if len(nodes): unmarshaller = self.unmarshaller() resolved = rtypes[0].resolve(nobuiltin=True) result = unmarshaller.process(nodes[0], resolved) return (replyroot, result) return (replyroot, None) def detect_fault(self, body): """ Detect I{hidden} soapenv:Fault element in the soap body. @param body: The soap envelope body. @type body: L{Element} @raise WebFault: When found. """ fault = body.getChild('Fault', envns) if fault is None: return unmarshaller = self.unmarshaller(False) p = unmarshaller.process(fault) if self.options().faults: raise WebFault(p, fault) return self def replylist(self, rt, nodes): """ Construct a I{list} reply. This mehod is called when it has been detected that the reply is a list. @param rt: The return I{type}. @type rt: L{suds.xsd.sxbase.SchemaObject} @param nodes: A collection of XML nodes. @type nodes: [L{Element},...] @return: A list of I{unmarshalled} objects. @rtype: [L{Object},...] """ result = [] resolved = rt.resolve(nobuiltin=True) unmarshaller = self.unmarshaller() for node in nodes: sobject = unmarshaller.process(node, resolved) result.append(sobject) return result def replycomposite(self, rtypes, nodes): """ Construct a I{composite} reply. This method is called when it has been detected that the reply has multiple root nodes. @param rtypes: A list of known return I{types}. @type rtypes: [L{suds.xsd.sxbase.SchemaObject},...] @param nodes: A collection of XML nodes. @type nodes: [L{Element},...] @return: The I{unmarshalled} composite object. @rtype: L{Object},... """ dictionary = {} for rt in rtypes: dictionary[rt.name] = rt unmarshaller = self.unmarshaller() composite = Factory.object('reply') for node in nodes: tag = node.name rt = dictionary.get(tag, None) if rt is None: if node.get('id') is None: raise Exception('<%s/> not mapped to message part' % tag) else: continue resolved = rt.resolve(nobuiltin=True) sobject = unmarshaller.process(node, resolved) value = getattr(composite, tag, None) if value is None: if rt.unbounded(): value = [] setattr(composite, tag, value) value.append(sobject) else: setattr(composite, tag, sobject) else: if not isinstance(value, list): value = [value,] setattr(composite, tag, value) value.append(sobject) return composite def get_fault(self, reply): """ Extract the fault from the specified soap reply. If I{faults} is True, an exception is raised. Otherwise, the I{unmarshalled} fault L{Object} is returned. This method is called when the server raises a I{web fault}. @param reply: A soap reply message. @type reply: str @return: A fault object. @rtype: tuple ( L{Element}, L{Object} ) """ reply = self.replyfilter(reply) sax = Parser() faultroot = sax.parse(string=reply) soapenv = faultroot.getChild('Envelope') soapbody = soapenv.getChild('Body') fault = soapbody.getChild('Fault') unmarshaller = self.unmarshaller(False) p = unmarshaller.process(fault) if self.options().faults: raise WebFault(p, faultroot) return (faultroot, p.detail) def mkparam(self, method, pdef, object): """ Builds a parameter for the specified I{method} using the parameter definition (pdef) and the specified value (object). @param method: A method name. @type method: str @param pdef: A parameter definition. @type pdef: tuple: (I{name}, L{xsd.sxbase.SchemaObject}) @param object: The parameter value. @type object: any @return: The parameter fragment. @rtype: L{Element} """ marshaller = self.marshaller() content = \ Content(tag=pdef[0], value=object, type=pdef[1], real=pdef[1].resolve()) return marshaller.process(content) def mkheader(self, method, hdef, object): """ Builds a soapheader for the specified I{method} using the header definition (hdef) and the specified value (object). @param method: A method name. @type method: str @param hdef: A header definition. @type hdef: tuple: (I{name}, L{xsd.sxbase.SchemaObject}) @param object: The header value. @type object: any @return: The parameter fragment. @rtype: L{Element} """ marshaller = self.marshaller() if isinstance(object, (list, tuple)): tags = [] for item in object: tags.append(self.mkheader(method, hdef, item)) return tags content = Content(tag=hdef[0], value=object, type=hdef[1]) return marshaller.process(content) def envelope(self, header, body): """ Build the B{} for an soap outbound message. @param header: The soap message B{header}. @type header: L{Element} @param body: The soap message B{body}. @type body: L{Element} @return: The soap envelope containing the body and header. @rtype: L{Element} """ env = Element('Envelope', ns=envns) env.addPrefix(Namespace.xsins[0], Namespace.xsins[1]) env.append(header) env.append(body) return env def header(self, content): """ Build the B{} for an soap outbound message. @param content: The header content. @type content: L{Element} @return: the soap body fragment. @rtype: L{Element} """ header = Element('Header', ns=envns) header.append(content) return header def bodycontent(self, method, args, kwargs): """ Get the content for the soap I{body} node. @param method: A service method. @type method: I{service.Method} @param args: method parameter values @type args: list @param kwargs: Named (keyword) args for the method invoked. @type kwargs: dict @return: The xml content for the @rtype: [L{Element},..] """ raise Exception, 'not implemented' def headercontent(self, method): """ Get the content for the soap I{Header} node. @param method: A service method. @type method: I{service.Method} @return: The xml content for the @rtype: [L{Element},..] """ n = 0 content = [] wsse = self.options().wsse if wsse is not None: content.append(wsse.xml()) headers = self.options().soapheaders if not isinstance(headers, (tuple,list,dict)): headers = (headers,) if len(headers) == 0: return content pts = self.headpart_types(method) if isinstance(headers, (tuple,list)): for header in headers: if isinstance(header, Element): content.append(deepcopy(header)) continue if len(pts) == n: break h = self.mkheader(method, pts[n], header) ns = pts[n][1].namespace('ns0') h.setPrefix(ns[0], ns[1]) content.append(h) n += 1 else: for pt in pts: header = headers.get(pt[0]) if header is None: continue h = self.mkheader(method, pt, header) ns = pt[1].namespace('ns0') h.setPrefix(ns[0], ns[1]) content.append(h) return content def replycontent(self, method, body): """ Get the reply body content. @param method: A service method. @type method: I{service.Method} @param body: The soap body @type body: L{Element} @return: the body content @rtype: [L{Element},...] """ raise Exception, 'not implemented' def body(self, content): """ Build the B{} for an soap outbound message. @param content: The body content. @type content: L{Element} @return: the soap body fragment. @rtype: L{Element} """ body = Element('Body', ns=envns) body.append(content) return body def bodypart_types(self, method, input=True): """ Get a list of I{parameter definitions} (pdef) defined for the specified method. Each I{pdef} is a tuple (I{name}, L{xsd.sxbase.SchemaObject}) @param method: A service method. @type method: I{service.Method} @param input: Defines input/output message. @type input: boolean @return: A list of parameter definitions @rtype: [I{pdef},] """ result = [] if input: parts = method.soap.input.body.parts else: parts = method.soap.output.body.parts for p in parts: if p.element is not None: query = ElementQuery(p.element) else: query = TypeQuery(p.type) pt = query.execute(self.schema()) if pt is None: raise TypeNotFound(query.ref) if p.type is not None: pt = PartElement(p.name, pt) if input: if pt.name is None: result.append((p.name, pt)) else: result.append((pt.name, pt)) else: result.append(pt) return result def headpart_types(self, method, input=True): """ Get a list of I{parameter definitions} (pdef) defined for the specified method. Each I{pdef} is a tuple (I{name}, L{xsd.sxbase.SchemaObject}) @param method: A service method. @type method: I{service.Method} @param input: Defines input/output message. @type input: boolean @return: A list of parameter definitions @rtype: [I{pdef},] """ result = [] if input: headers = method.soap.input.headers else: headers = method.soap.output.headers for header in headers: part = header.part if part.element is not None: query = ElementQuery(part.element) else: query = TypeQuery(part.type) pt = query.execute(self.schema()) if pt is None: raise TypeNotFound(query.ref) if part.type is not None: pt = PartElement(part.name, pt) if input: if pt.name is None: result.append((part.name, pt)) else: result.append((pt.name, pt)) else: result.append(pt) return result def returned_types(self, method): """ Get the L{xsd.sxbase.SchemaObject} returned by the I{method}. @param method: A service method. @type method: I{service.Method} @return: The name of the type return by the method. @rtype: [I{rtype},..] """ result = [] for rt in self.bodypart_types(method, input=False): result.append(rt) return result class PartElement(SchemaElement): """ A part used to represent a message part when the part references a schema type and thus assumes to be an element. @ivar resolved: The part type. @type resolved: L{suds.xsd.sxbase.SchemaObject} """ def __init__(self, name, resolved): """ @param name: The part name. @type name: str @param resolved: The part type. @type resolved: L{suds.xsd.sxbase.SchemaObject} """ root = Element('element', ns=Namespace.xsdns) SchemaElement.__init__(self, resolved.schema, root) self.__resolved = resolved self.name = name self.form_qualified = False def implany(self): return self def optional(self): return True def namespace(self, prefix=None): return Namespace.default def resolve(self, nobuiltin=False): if nobuiltin and self.__resolved.builtin(): return self else: return self.__resolved