""" ################################################################################ # # SOAPpy - Cayce Ullman (cayce@actzero.com) # Brian Matthews (blm@actzero.com) # Gregory Warnes (gregory_r_warnes@groton.pfizer.com) # Christopher Blunck (blunck@gst.com) # ################################################################################ # Copyright (c) 2003, Pfizer # Copyright (c) 2001, Cayce Ullman. # Copyright (c) 2001, Brian Matthews. # # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # Redistributions of source code must retain the above copyright notice, this # list of conditions and the following disclaimer. # # Redistributions in binary form must reproduce the above copyright notice, # this list of conditions and the following disclaimer in the documentation # and/or other materials provided with the distribution. # # Neither the name of actzero, inc. nor the names of its contributors may # be used to endorse or promote products derived from this software without # specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR # ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES # (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; # LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND # ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS # SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. # ################################################################################ """ ident = '$Id$' from version import __version__ from __future__ import nested_scopes #import xml.sax import re import socket import sys import SocketServer from types import * import BaseHTTPServer import thread # SOAPpy modules from Parser import parseSOAPRPC from Config import Config from Types import faultType, voidType, simplify from NS import NS from SOAPBuilder import buildSOAP from Utilities import debugHeader, debugFooter try: from M2Crypto import SSL except: pass ident = '$Id$' from version import __version__ ################################################################################ # Call context dictionary ################################################################################ _contexts = dict() def GetSOAPContext(): global _contexts return _contexts[thread.get_ident()] ################################################################################ # Server ################################################################################ # Method Signature class for adding extra info to registered funcs, right now # used just to indicate it should be called with keywords, instead of ordered # params. class MethodSig: def __init__(self, func, keywords=0, context=0): self.func = func self.keywords = keywords self.context = context self.__name__ = func.__name__ def __call__(self, *args, **kw): return apply(self.func,args,kw) class SOAPContext: def __init__(self, header, body, attrs, xmldata, connection, httpheaders, soapaction): self.header = header self.body = body self.attrs = attrs self.xmldata = xmldata self.connection = connection self.httpheaders= httpheaders self.soapaction = soapaction # A class to describe how header messages are handled class HeaderHandler: # Initially fail out if there are any problems. def __init__(self, header, attrs): for i in header.__dict__.keys(): if i[0] == "_": continue d = getattr(header, i) try: fault = int(attrs[id(d)][(NS.ENV, 'mustUnderstand')]) except: fault = 0 if fault: raise faultType, ("%s:MustUnderstand" % NS.ENV_T, "Required Header Misunderstood", "%s" % i) ################################################################################ # SOAP Server ################################################################################ class SOAPServerBase: def get_request(self): sock, addr = SocketServer.TCPServer.get_request(self) if self.ssl_context: sock = SSL.Connection(self.ssl_context, sock) sock._setup_ssl(addr) if sock.accept_ssl() != 1: raise socket.error, "Couldn't accept SSL connection" return sock, addr def registerObject(self, object, namespace = '', path = ''): if namespace == '' and path == '': namespace = self.namespace if namespace == '' and path != '': namespace = path.replace("/", ":") if namespace[0] == ":": namespace = namespace[1:] self.objmap[namespace] = object def registerFunction(self, function, namespace = '', funcName = None, path = ''): if not funcName : funcName = function.__name__ if namespace == '' and path == '': namespace = self.namespace if namespace == '' and path != '': namespace = path.replace("/", ":") if namespace[0] == ":": namespace = namespace[1:] if self.funcmap.has_key(namespace): self.funcmap[namespace][funcName] = function else: self.funcmap[namespace] = {funcName : function} def registerKWObject(self, object, namespace = '', path = ''): if namespace == '' and path == '': namespace = self.namespace if namespace == '' and path != '': namespace = path.replace("/", ":") if namespace[0] == ":": namespace = namespace[1:] for i in dir(object.__class__): if i[0] != "_" and callable(getattr(object, i)): self.registerKWFunction(getattr(object,i), namespace) # convenience - wraps your func for you. def registerKWFunction(self, function, namespace = '', funcName = None, path = ''): if namespace == '' and path == '': namespace = self.namespace if namespace == '' and path != '': namespace = path.replace("/", ":") if namespace[0] == ":": namespace = namespace[1:] self.registerFunction(MethodSig(function,keywords=1), namespace, funcName) def unregisterObject(self, object, namespace = '', path = ''): if namespace == '' and path == '': namespace = self.namespace if namespace == '' and path != '': namespace = path.replace("/", ":") if namespace[0] == ":": namespace = namespace[1:] del self.objmap[namespace] class SOAPRequestHandler(BaseHTTPServer.BaseHTTPRequestHandler): def version_string(self): return '' + \ 'SOAPpy ' + __version__ + ' (Python ' + \ sys.version.split()[0] + ')' def date_time_string(self): self.__last_date_time_string = \ BaseHTTPServer.BaseHTTPRequestHandler.\ date_time_string(self) return self.__last_date_time_string def do_POST(self): global _contexts status = 500 try: if self.server.config.dumpHeadersIn: s = 'Incoming HTTP headers' debugHeader(s) print self.raw_requestline.strip() print "\n".join(map (lambda x: x.strip(), self.headers.headers)) debugFooter(s) data = self.rfile.read(int(self.headers["Content-length"])) if self.server.config.dumpSOAPIn: s = 'Incoming SOAP' debugHeader(s) print data, if data[-1] != '\n': print debugFooter(s) (r, header, body, attrs) = \ parseSOAPRPC(data, header = 1, body = 1, attrs = 1) method = r._name args = r._aslist() kw = r._asdict() if Config.simplify_objects: args = simplify(args) kw = simplify(kw) # Handle mixed named and unnamed arguments by assuming # that all arguments with names of the form "v[0-9]+" # are unnamed and should be passed in numeric order, # other arguments are named and should be passed using # this name. # This is a non-standard exension to the SOAP protocol, # but is supported by Apache AXIS. # It is enabled by default. To disable, set # Config.specialArgs to False. if Config.specialArgs: ordered_args = {} named_args = {} for (k,v) in kw.items(): if k[0]=="v": try: i = int(k[1:]) ordered_args[i] = v except ValueError: named_args[str(k)] = v else: named_args[str(k)] = v # We have to decide namespace precedence # I'm happy with the following scenario # if r._ns is specified use it, if not check for # a path, if it's specified convert it and use it as the # namespace. If both are specified, use r._ns. ns = r._ns if len(self.path) > 1 and not ns: ns = self.path.replace("/", ":") if ns[0] == ":": ns = ns[1:] # authorization method a = None keylist = ordered_args.keys() keylist.sort() # create list in proper order w/o names tmp = map( lambda x: ordered_args[x], keylist) ordered_args = tmp #print '<-> Argument Matching Yielded:' #print '<-> Ordered Arguments:' + str(ordered_args) #print '<-> Named Arguments :' + str(named_args) resp = "" # For fault messages if ns: nsmethod = "%s:%s" % (ns, method) else: nsmethod = method try: # First look for registered functions if self.server.funcmap.has_key(ns) and \ self.server.funcmap[ns].has_key(method): f = self.server.funcmap[ns][method] # look for the authorization method if self.server.config.authMethod != None: authmethod = self.server.config.authMethod if self.server.funcmap.has_key(ns) and \ self.server.funcmap[ns].has_key(authmethod): a = self.server.funcmap[ns][authmethod] else: # Now look at registered objects # Check for nested attributes. This works even if # there are none, because the split will return # [method] f = self.server.objmap[ns] # Look for the authorization method if self.server.config.authMethod != None: authmethod = self.server.config.authMethod if hasattr(f, authmethod): a = getattr(f, authmethod) # then continue looking for the method l = method.split(".") for i in l: f = getattr(f, i) except: info = sys.exc_info() try: resp = buildSOAP(faultType("%s:Client" % NS.ENV_T, "Method Not Found", "%s : %s %s %s" % (nsmethod, info[0], info[1], info[2])), encoding = self.server.encoding, config = self.server.config) finally: del info status = 500 else: try: if header: x = HeaderHandler(header, attrs) fr = 1 # call context book keeping # We're stuffing the method into the soapaction if there # isn't one, someday, we'll set that on the client # and it won't be necessary here # for now we're doing both if "SOAPAction".lower() not in self.headers.keys() or \ self.headers["SOAPAction"] == "\"\"": self.headers["SOAPAction"] = method thread_id = thread.get_ident() _contexts[thread_id] = SOAPContext(header, body, attrs, data, self.connection, self.headers, self.headers["SOAPAction"]) # Do an authorization check if a != None: if not apply(a, (), {"_SOAPContext" : _contexts[thread_id] }): raise faultType("%s:Server" % NS.ENV_T, "Authorization failed.", "%s" % nsmethod) # If it's wrapped, some special action may be needed if isinstance(f, MethodSig): c = None if f.context: # retrieve context object c = _contexts[thread_id] if Config.specialArgs: if c: named_args["_SOAPContext"] = c fr = apply(f, ordered_args, named_args) elif f.keywords: # This is lame, but have to de-unicode # keywords strkw = {} for (k, v) in kw.items(): strkw[str(k)] = v if c: strkw["_SOAPContext"] = c fr = apply(f, (), strkw) elif c: fr = apply(f, args, {'_SOAPContext':c}) else: fr = apply(f, args, {}) else: if Config.specialArgs: fr = apply(f, ordered_args, named_args) else: fr = apply(f, args, {}) if type(fr) == type(self) and \ isinstance(fr, voidType): resp = buildSOAP(kw = {'%sResponse' % method: fr}, encoding = self.server.encoding, config = self.server.config) else: resp = buildSOAP(kw = {'%sResponse' % method: {'Result': fr}}, encoding = self.server.encoding, config = self.server.config) # Clean up _contexts if _contexts.has_key(thread_id): del _contexts[thread_id] except Exception, e: import traceback info = sys.exc_info() try: if self.server.config.dumpFaultInfo: s = 'Method %s exception' % nsmethod debugHeader(s) traceback.print_exception(info[0], info[1], info[2]) debugFooter(s) if isinstance(e, faultType): f = e else: f = faultType("%s:Server" % NS.ENV_T, "Method Failed", "%s" % nsmethod) if self.server.config.returnFaultInfo: f._setDetail("".join(traceback.format_exception( info[0], info[1], info[2]))) elif not hasattr(f, 'detail'): f._setDetail("%s %s" % (info[0], info[1])) finally: del info resp = buildSOAP(f, encoding = self.server.encoding, config = self.server.config) status = 500 else: status = 200 except faultType, e: import traceback info = sys.exc_info() try: if self.server.config.dumpFaultInfo: s = 'Received fault exception' debugHeader(s) traceback.print_exception(info[0], info[1], info[2]) debugFooter(s) if self.server.config.returnFaultInfo: e._setDetail("".join(traceback.format_exception( info[0], info[1], info[2]))) elif not hasattr(e, 'detail'): e._setDetail("%s %s" % (info[0], info[1])) finally: del info resp = buildSOAP(e, encoding = self.server.encoding, config = self.server.config) status = 500 except Exception, e: # internal error, report as HTTP server error if self.server.config.dumpFaultInfo: s = 'Internal exception %s' % e import traceback debugHeader(s) info = sys.exc_info() try: traceback.print_exception(info[0], info[1], info[2]) finally: del info debugFooter(s) self.send_response(500) self.end_headers() if self.server.config.dumpHeadersOut and \ self.request_version != 'HTTP/0.9': s = 'Outgoing HTTP headers' debugHeader(s) if self.responses.has_key(status): s = ' ' + self.responses[status][0] else: s = '' print "%s %d%s" % (self.protocol_version, 500, s) print "Server:", self.version_string() print "Date:", self.__last_date_time_string debugFooter(s) else: # got a valid SOAP response self.send_response(status) t = 'text/xml'; if self.server.encoding != None: t += '; charset="%s"' % self.server.encoding self.send_header("Content-type", t) self.send_header("Content-length", str(len(resp))) self.end_headers() if self.server.config.dumpHeadersOut and \ self.request_version != 'HTTP/0.9': s = 'Outgoing HTTP headers' debugHeader(s) if self.responses.has_key(status): s = ' ' + self.responses[status][0] else: s = '' print "%s %d%s" % (self.protocol_version, status, s) print "Server:", self.version_string() print "Date:", self.__last_date_time_string print "Content-type:", t print "Content-length:", len(resp) debugFooter(s) if self.server.config.dumpSOAPOut: s = 'Outgoing SOAP' debugHeader(s) print resp, if resp[-1] != '\n': print debugFooter(s) self.wfile.write(resp) self.wfile.flush() # We should be able to shut down both a regular and an SSL # connection, but under Python 2.1, calling shutdown on an # SSL connections drops the output, so this work-around. # This should be investigated more someday. if self.server.config.SSLserver and \ isinstance(self.connection, SSL.Connection): self.connection.set_shutdown(SSL.SSL_SENT_SHUTDOWN | SSL.SSL_RECEIVED_SHUTDOWN) else: self.connection.shutdown(1) def do_GET(self): #print 'command ', self.command #print 'path ', self.path #print 'request_version', self.request_version #print 'headers' #print ' type ', self.headers.type #print ' maintype', self.headers.maintype #print ' subtype ', self.headers.subtype #print ' params ', self.headers.plist path = self.path.lower() if path.endswith('wsdl'): method = 'wsdl' function = namespace = None if self.server.funcmap.has_key(namespace) \ and self.server.funcmap[namespace].has_key(method): function = self.server.funcmap[namespace][method] else: if namespace in self.server.objmap.keys(): function = self.server.objmap[namespace] l = method.split(".") for i in l: function = getattr(function, i) if function: self.send_response(200) self.send_header("Content-type", 'text/plain') self.end_headers() response = apply(function, ()) self.wfile.write(str(response)) return # return error self.send_response(200) self.send_header("Content-type", 'text/html') self.end_headers() self.wfile.write('''\
This server supports HTTP GET requests only for the the purpose of obtaining Web Services Description Language (WSDL) for a specific service. Either you requested an URL that does not end in "wsdl" or this server does not implement a wsdl method.
''') def log_message(self, format, *args): if self.server.log: BaseHTTPServer.BaseHTTPRequestHandler.\ log_message (self, format, *args) class SOAPServer(SOAPServerBase, SocketServer.TCPServer): def __init__(self, addr = ('localhost', 8000), RequestHandler = SOAPRequestHandler, log = 0, encoding = 'UTF-8', config = Config, namespace = None, ssl_context = None): # Test the encoding, raising an exception if it's not known if encoding != None: ''.encode(encoding) if ssl_context != None and not config.SSLserver: raise AttributeError, \ "SSL server not supported by this Python installation" self.namespace = namespace self.objmap = {} self.funcmap = {} self.ssl_context = ssl_context self.encoding = encoding self.config = config self.log = log self.allow_reuse_address= 1 SocketServer.TCPServer.__init__(self, addr, RequestHandler) class ThreadingSOAPServer(SOAPServerBase, SocketServer.ThreadingTCPServer): def __init__(self, addr = ('localhost', 8000), RequestHandler = SOAPRequestHandler, log = 0, encoding = 'UTF-8', config = Config, namespace = None, ssl_context = None): # Test the encoding, raising an exception if it's not known if encoding != None: ''.encode(encoding) if ssl_context != None and not config.SSLserver: raise AttributeError, \ "SSL server not supported by this Python installation" self.namespace = namespace self.objmap = {} self.funcmap = {} self.ssl_context = ssl_context self.encoding = encoding self.config = config self.log = log self.allow_reuse_address= 1 SocketServer.ThreadingTCPServer.__init__(self, addr, RequestHandler) # only define class if Unix domain sockets are available if hasattr(socket, "AF_UNIX"): class SOAPUnixSocketServer(SOAPServerBase, SocketServer.UnixStreamServer): def __init__(self, addr = 8000, RequestHandler = SOAPRequestHandler, log = 0, encoding = 'UTF-8', config = Config, namespace = None, ssl_context = None): # Test the encoding, raising an exception if it's not known if encoding != None: ''.encode(encoding) if ssl_context != None and not config.SSLserver: raise AttributeError, \ "SSL server not supported by this Python installation" self.namespace = namespace self.objmap = {} self.funcmap = {} self.ssl_context = ssl_context self.encoding = encoding self.config = config self.log = log self.allow_reuse_address= 1 SocketServer.UnixStreamServer.__init__(self, str(addr), RequestHandler)