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view GEMBASSY-1.0.3/gsoap/wsdl/wsdl.cpp @ 0:8300eb051bea draft
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| author | ktnyt |
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| date | Fri, 26 Jun 2015 05:19:29 -0400 |
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/* wsdl.cpp WSDL 1.1 and WSDL 2.0 binding schema implementation -------------------------------------------------------------------------------- gSOAP XML Web services tools Copyright (C) 2000-2012, Robert van Engelen, Genivia Inc. All Rights Reserved. This software is released under one of the following licenses: GPL or Genivia's license for commercial use. -------------------------------------------------------------------------------- GPL license. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 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 General Public License for more details. You should have received a copy of the GNU 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 Author contact information: engelen@genivia.com / engelen@acm.org -------------------------------------------------------------------------------- A commercial use license is available from Genivia, Inc., contact@genivia.com -------------------------------------------------------------------------------- */ #include "wsdlH.h" #include "includes.h" extern struct Namespace namespaces[]; const char *qname_token(const char *QName, const char *URI) { if (QName && QName[0] == '"' && QName[1] == '"' && QName[2] == ':') return QName + 3; if (QName && URI && *QName == '"') // QNames are stored in the format "URI":name, unless the URI is in the nsmap { size_t n = strlen(URI); if (!strncmp(QName + 1, URI, n) && QName[n + 1] == '"') return QName + n + 3; } return NULL; } int is_builtin_qname(const char *QName) { if (iflag) return 1; if (QName) { if (*QName == '#') // reserved QNames return 0; if (*QName != '"') return 1; // if the QName does not start with a ", it must be in the nsmap const char *s = strchr(QName + 1, '"'); if (s) { size_t n = s - QName - 1; for (SetOfString::const_iterator i = exturis.begin(); i != exturis.end(); ++i) if (strlen(*i) == n && !strncmp(QName + 1, *i, n)) return 1; // QName is in exturis } } return 0; } //////////////////////////////////////////////////////////////////////////////// // // wsdl // //////////////////////////////////////////////////////////////////////////////// extern "C" { int warn_ignore(struct soap*, const char*); int show_ignore(struct soap*, const char*); } wsdl__definitions::wsdl__definitions() { soap = soap_new1(SOAP_XML_TREE | SOAP_C_UTFSTRING); #ifdef HTTPDA_H soap_register_plugin(soap, http_da); #endif #ifdef WITH_OPENSSL soap_ssl_client_context(soap, SOAP_SSL_NO_AUTHENTICATION, NULL, NULL, NULL, NULL, NULL); #endif soap_set_namespaces(soap, namespaces); soap_default(soap); if (vflag) soap->fignore = show_ignore; else soap->fignore = warn_ignore; soap->encodingStyle = NULL; soap->proxy_host = proxy_host; soap->proxy_port = proxy_port; soap->proxy_userid = proxy_userid; soap->proxy_passwd = proxy_passwd; name = NULL; targetNamespace = soap_strdup(soap, ""); documentation = NULL; types = NULL; updated = false; location = NULL; redirs = 0; } wsdl__definitions::wsdl__definitions(struct soap *copy, const char *cwd, const char *loc) { soap = soap_copy(copy); soap->socket = SOAP_INVALID_SOCKET; soap->recvfd = 0; soap->sendfd = 1; strcpy(soap->host, copy->host); soap_default(soap); soap->fignore = warn_ignore; soap->encodingStyle = NULL; updated = false; location = NULL; redirs = 0; read(cwd, loc); } wsdl__definitions::~wsdl__definitions() { soap_destroy(soap); soap_end(soap); soap_done(soap); free(soap); } int wsdl__definitions::get(struct soap *soap) { return preprocess(); } int wsdl__definitions::read(int num, char **loc) { if (num <= 0) return read((const char*)NULL, (const char*)NULL); if (num == 1) return read((const char*)NULL, loc[0]); wsdl__import im; im.namespace_ = NULL; name = soap_strdup(soap, "WSDL"); targetNamespace = soap_strdup(soap, "");; for (int i = 0; i < num; i++) { im.location = loc[i]; import.push_back(im); } return preprocess(); } int wsdl__definitions::read(const char *cwd, const char *loc) { const char *cwd_temp; if (!cwd) cwd = cwd_path; if (vflag) fprintf(stderr, "\nOpening WSDL/XSD '%s' from '%s'\n", loc?loc:"", cwd?cwd:""); if (loc) { if (soap->recvfd > 2) { soap_end_recv(soap); close(soap->recvfd); soap->recvfd = -1; } else if (soap_valid_socket(soap->socket)) { soap_end_recv(soap); soap_closesock(soap); } #ifdef WITH_OPENSSL if (!strncmp(loc, "http://", 7) || !strncmp(loc, "https://", 8)) #else if (!strncmp(loc, "https://", 8)) { fprintf(stderr, "\nCannot connect to https site: no SSL support, please rebuild wsdl2h with SSL or download the files and rerun wsdl2h\n"); exit(1); } else if (!strncmp(loc, "http://", 7)) #endif { fprintf(stderr, "\nConnecting to '%s' to retrieve WSDL/XSD...\n", loc); location = soap_strdup(soap, loc); if (soap_connect_command(soap, SOAP_GET, location, NULL)) { fprintf(stderr, "Connection failed\n"); soap_print_fault(soap, stderr); exit(1); } fprintf(stderr, "Connected, receiving...\n"); } else if (cwd && (!strncmp(cwd, "http://", 7) || !strncmp(cwd, "https://", 8))) { char *s; location = (char*)soap_malloc(soap, strlen(cwd) + strlen(loc) + 2); strcpy(location, cwd); s = strrchr(location, '/'); if (s) *s = '\0'; strcat(location, "/"); strcat(location, loc); fprintf(stderr, "\nConnecting to '%s' to retrieve relative path '%s' WSDL/XSD...\n", location, loc); if (soap_connect_command(soap, SOAP_GET, location, NULL)) { fprintf(stderr, "Connection failed\n"); exit(1); } fprintf(stderr, "Connected, receiving...\n"); } else { soap->recvfd = open(loc, O_RDONLY, 0); if (soap->recvfd < 0) { if (cwd) { char *s; location = (char*)soap_malloc(soap, strlen(cwd) + strlen(loc) + 2); strcpy(location, cwd); s = strrchr(location, '/'); #ifdef WIN32 if (!s) s = strrchr(location, '\\'); #endif if (s) *s = '\0'; strcat(location, "/"); strcat(location, loc); if (!strncmp(location, "file://", 7)) location += 7; soap->recvfd = open(location, O_RDONLY, 0); } if (soap->recvfd < 0 && import_path) { location = (char*)soap_malloc(soap, strlen(import_path) + strlen(loc) + 2); strcpy(location, import_path); strcat(location, "/"); strcat(location, loc); if (!strncmp(location, "file://", 7)) location += 7; soap->recvfd = open(location, O_RDONLY, 0); } if (soap->recvfd < 0) { fprintf(stderr, "\nCannot open '%s'\n", loc); exit(1); } } else location = soap_strdup(soap, loc); fprintf(stderr, "\nReading file '%s'...\n", location); } } cwd_temp = cwd_path; cwd_path = location; if (!soap_begin_recv(soap)) this->soap_in(soap, "wsdl:", NULL); if (soap->error) { // handle sloppy WSDLs that import schemas at the top level rather than // importing them in <types> if (soap->error == SOAP_TAG_MISMATCH && soap->level == 0) { soap_retry(soap); xs__schema *schema = soap_new_xs__schema(soap, -1); schema->soap_in(soap, "xs:schema", NULL); if (soap->error) { fprintf(stderr, "\nAn error occurred while parsing WSDL or XSD from '%s'\n", loc?loc:""); soap_print_fault(soap, stderr); if (soap->error < 200) soap_print_fault_location(soap, stderr); exit(1); } name = NULL; targetNamespace = schema->targetNamespace; if (vflag) cerr << "Found schema '" << (targetNamespace?targetNamespace:"") << "' when expecting WSDL" << endl; types = soap_new_wsdl__types(soap, -1); types->documentation = NULL; types->xs__schema_.push_back(schema); types->preprocess(*this); } // check HTTP redirect (socket was closed) else if ((soap->error >= 301 && soap->error <= 303) || soap->error == 307) { int r = SOAP_ERR; fprintf(stderr, "Redirected to '%s'...\n", soap->endpoint); if (redirs++ < 10) r = read(cwd, soap->endpoint); else fprintf(stderr, "\nMax redirects exceeded\n"); redirs--; return r; } else if (soap->error == 401) { int r = SOAP_ERR; fprintf(stderr, "Authenticating to '%s' realm '%s'...\n", loc, soap->authrealm); if (auth_userid && auth_passwd && redirs++ < 1) { #ifdef HTTPDA_H struct http_da_info info; http_da_save(soap, &info, soap->authrealm, auth_userid, auth_passwd); #else soap->userid = auth_userid; soap->passwd = auth_passwd; #endif r = read(cwd, loc); #ifdef HTTPDA_H http_da_release(soap, &info); #endif redirs--; } else fprintf(stderr, "Authentication failed, use option -r:uid:pwd and (re)build with OpenSSL to enable digest authentication\n"); return r; } else { fprintf(stderr, "\nAn error occurred while parsing WSDL from '%s'\n", loc?loc:""); soap_print_fault(soap, stderr); if (soap->error < 200) soap_print_fault_location(soap, stderr); exit(1); } } fprintf(stderr, "Done reading '%s'\n", loc?loc:""); soap_end_recv(soap); if (soap->recvfd > 2) { close(soap->recvfd); soap->recvfd = -1; } else soap_closesock(soap); cwd_path = cwd_temp; return SOAP_OK; } int wsdl__definitions::preprocess() { if (vflag) cerr << "Preprocessing wsdl definitions '" << (location?location:"") << "' namespace '" << (targetNamespace?targetNamespace:"") << "'" << endl; // process import for (vector<wsdl__import>::iterator im1 = import.begin(); im1 != import.end(); ++im1) (*im1).preprocess(*this); // merge nested imported WSDLs into single import list again: for (vector<wsdl__import>::iterator im2 = import.begin(); im2 != import.end(); ++im2) { if ((*im2).definitionsPtr()) { for (vector<wsdl__import>::iterator i = (*im2).definitionsPtr()->import.begin(); i != (*im2).definitionsPtr()->import.end(); ++i) { if ((*i).definitionsPtr()) { bool found = false; if (vflag) cerr << "Import WSDL '" << ((*i).location?(*i).location:"") << endl; for (vector<wsdl__import>::iterator j = import.begin(); j != import.end(); ++j) { if ((*i).definitionsPtr() == (*j).definitionsPtr() || ((*i).location && (*j).location && !strcmp((*i).location, (*j).location))) { found = true; break; } } if (!found) { if (vflag) cerr << "Adding imported WSDL '" << ((*i).location?(*i).location:"") << "' to '" << (location?location:"") << "' ('" << (name?name:"") << "') namespace '" << (targetNamespace?targetNamespace:"") << "'" << endl; import.push_back(*i); goto again; } } } } } // merge <types> for (vector<wsdl__import>::iterator im3 = import.begin(); im3 != import.end(); ++im3) { if ((*im3).definitionsPtr() && (*im3).definitionsPtr()->types) { if (!types) { types = soap_new_wsdl__types(soap, -1); types->soap_default(soap); } // merge <types>, check for duplicates, add namespaces for sloppy imports for (vector<xs__schema*>::const_iterator i = (*im3).definitionsPtr()->types->xs__schema_.begin(); i != (*im3).definitionsPtr()->types->xs__schema_.end(); ++i) { bool found = false; vector<xs__schema*>::const_iterator j; if (!(*i)->targetNamespace) { (*i)->targetNamespace = targetNamespace; if (!Wflag) cerr << "Warning: schema without namespace, assigning namespace '" << (targetNamespace?targetNamespace:"") << "'" << endl; } for (j = types->xs__schema_.begin(); j != types->xs__schema_.end(); ++j) { if ((*j)->targetNamespace && !strcmp((*i)->targetNamespace, (*j)->targetNamespace)) { found = true; break; } } // add new schema only if not already in <types>, otherwise merge schema components if (found) { if (vflag) cerr << "Warning: duplicate schema with namespace '" << ((*i)->targetNamespace?(*i)->targetNamespace:"") << "' merged in WSDL '" << (name?name:"") << "' namespace '" << (targetNamespace?targetNamespace:"") << "'" << endl; (*j)->insert(*(*i)); } else { if (vflag) cerr << "Adding schema with namespace '" << ((*i)->targetNamespace?(*i)->targetNamespace:"") << "' to types in WSDL '" << (name?name:"") << "' namespace '" << (targetNamespace?targetNamespace:"") << "'" << endl; types->xs__schema_.push_back(*i); } } } } // process the types if (types) types->preprocess(*this); return SOAP_OK; } int wsdl__definitions::traverse() { if (updated) return SOAP_OK; if (vflag) cerr << "Analyzing definitions '" << (name?name:"") << "' in wsdl namespace '" << (targetNamespace?targetNamespace:"") << "'" << endl; updated = true; if (!targetNamespace) { if (vflag) cerr << "Warning: wsdl '" << (name?name:"") << "' has no targetNamespace" << endl; targetNamespace = soap_strdup(soap, ""); } // process import first for (vector<wsdl__import>::iterator im = import.begin(); im != import.end(); ++im) (*im).traverse(*this); // then process the types if (types) types->traverse(*this); // process messages before portType for (vector<wsdl__message>::iterator mg = message.begin(); mg != message.end(); ++mg) (*mg).traverse(*this); // process portType before binding for (vector<wsdl__portType>::iterator pt = portType.begin(); pt != portType.end(); ++pt) (*pt).traverse(*this); // process interface before binding WSDL 2.0 for (vector<wsdl__portType>::iterator in = interface_.begin(); in != interface_.end(); ++in) (*in).traverse(*this); // process binding for (vector<wsdl__binding>::iterator bg = binding.begin(); bg != binding.end(); ++bg) (*bg).traverse(*this); // process service for (vector<wsdl__service>::iterator sv = service.begin(); sv != service.end(); ++sv) (*sv).traverse(*this); if (vflag) cerr << "End of definitions '" << (name?name:"") << "' namespace '" << (targetNamespace?targetNamespace:"") << "'" << endl; for (std::vector<wsp__Policy>::iterator p = wsp__Policy_.begin(); p != wsp__Policy_.end(); ++p) (*p).traverse(*this); return SOAP_OK; } const char *wsdl__definitions::sourceLocation() { return location; } int wsdl__definitions::error() { return soap->error; } void wsdl__definitions::print_fault() { soap_print_fault(soap, stderr); if (soap->error < 200) soap_print_fault_location(soap, stderr); } void wsdl__definitions::builtinType(const char *type) { builtinTypeSet.insert(type); } void wsdl__definitions::builtinTypes(const SetOfString& types) { for (SetOfString::const_iterator tp = types.begin(); tp != types.end(); ++tp) builtinTypeSet.insert(*tp); } void wsdl__definitions::builtinElement(const char *element) { builtinElementSet.insert(element); } void wsdl__definitions::builtinElements(const SetOfString& elements) { for (SetOfString::const_iterator el = elements.begin(); el != elements.end(); ++el) builtinElementSet.insert(*el); } void wsdl__definitions::builtinAttribute(const char *attribute) { builtinAttributeSet.insert(attribute); } void wsdl__definitions::builtinAttributes(const SetOfString& attributes) { for (SetOfString::const_iterator at = attributes.begin(); at != attributes.end(); ++at) builtinAttributeSet.insert(*at); } const SetOfString& wsdl__definitions::builtinTypes() const { return builtinTypeSet; } const SetOfString& wsdl__definitions::builtinElements() const { return builtinElementSet; } const SetOfString& wsdl__definitions::builtinAttributes() const { return builtinAttributeSet; } int wsdl__service::traverse(wsdl__definitions& definitions) { if (vflag) cerr << "Analyzing service '" << (name?name:"") << "' in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; // process ports for (vector<wsdl__port>::iterator pt = port.begin(); pt != port.end(); ++pt) (*pt).traverse(definitions); for (vector<wsdl__port>::iterator ep = endpoint.begin(); ep != endpoint.end(); ++ep) (*ep).traverse(definitions); for (vector<wsp__Policy>::iterator py = wsp__Policy_.begin(); py != wsp__Policy_.end(); ++py) (*py).traverse(definitions); for (vector<wsp__PolicyReference>::iterator pr = wsp__PolicyReference_.begin(); pr != wsp__PolicyReference_.end(); ++pr) (*pr).traverse(definitions); return SOAP_OK; } wsdl__port::wsdl__port() { bindingRef = NULL; } int wsdl__port::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing service port/endpoint in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; // search binding name const char *token = qname_token(binding, definitions.targetNamespace); bindingRef = NULL; if (token) { for (vector<wsdl__binding>::iterator binding = definitions.binding.begin(); binding != definitions.binding.end(); ++binding) { if ((*binding).name && !strcmp((*binding).name, token)) { bindingRef = &(*binding); if (vflag) cerr << " Found port/endpoint '" << (name?name:"") << "' binding '" << (token?token:"") << "'" << endl; break; } } } if (!bindingRef) { for (vector<wsdl__import>::iterator import = definitions.import.begin(); import != definitions.import.end(); ++import) { wsdl__definitions *importdefinitions = (*import).definitionsPtr(); if (importdefinitions) { token = qname_token(binding, importdefinitions->targetNamespace); if (token) { for (vector<wsdl__binding>::iterator binding = importdefinitions->binding.begin(); binding != importdefinitions->binding.end(); ++binding) { if ((*binding).name && !strcmp((*binding).name, token)) { bindingRef = &(*binding); if (vflag) cerr << " Found port/endpoint '" << (name?name:"") << "' binding '" << (token?token:"") << "'" << endl; break; } } } } } } if (!bindingRef) if (!Wflag) cerr << "Warning: no port/endpoint '" << (name?name:"") << "' binding '" << (binding?binding:"") << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; if (wsp__Policy_) wsp__Policy_->traverse(definitions); if (wsp__PolicyReference_) wsp__PolicyReference_->traverse(definitions); return SOAP_OK; } void wsdl__port::bindingPtr(wsdl__binding *binding) { bindingRef = binding; if (!bindingRef && vflag) cerr << "Warning: wsdl__port binding set to NULL" << endl; } wsdl__binding *wsdl__port::bindingPtr() const { return bindingRef; } wsdl__binding::wsdl__binding() { portTypeRef = NULL; } int wsdl__binding::traverse(wsdl__definitions& definitions) { const char *token; if (vflag) cerr << " Analyzing binding '" << (name?name:"") << "' in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; portTypeRef = NULL; if (interface_) // WSDL 2.0 token = qname_token(interface_, definitions.targetNamespace); else token = qname_token(type, definitions.targetNamespace); if (token) { for (vector<wsdl__portType>::iterator portType = definitions.portType.begin(); portType != definitions.portType.end(); ++portType) { if ((*portType).name && !strcmp((*portType).name, token)) { portTypeRef = &(*portType); if (vflag) cerr << " Found binding '" << (name?name:"") << "' portType '" << (token?token:"") << "'" << endl; break; } } // WSDL 2.0 for (vector<wsdl__portType>::iterator i = definitions.interface_.begin(); i != definitions.interface_.end(); ++i) { if ((*i).name && !strcmp((*i).name, token)) { portTypeRef = &(*i); if (vflag) cerr << " Found binding '" << (name?name:"") << "' interface '" << (token?token:"") << "'" << endl; break; } } } if (!portTypeRef) { for (vector<wsdl__import>::iterator import = definitions.import.begin(); import != definitions.import.end(); ++import) { wsdl__definitions *importdefinitions = (*import).definitionsPtr(); if (importdefinitions) { if (interface_) // WSDL 2.0 token = qname_token(interface_, importdefinitions->targetNamespace); else token = qname_token(type, importdefinitions->targetNamespace); if (token) { for (vector<wsdl__portType>::iterator portType = importdefinitions->portType.begin(); portType != importdefinitions->portType.end(); ++portType) { if ((*portType).name && !strcmp((*portType).name, token)) { portTypeRef = &(*portType); if (vflag) cerr << " Found binding '" << (name?name:"") << "' portType '" << (token?token:"") << "'" << endl; break; } } // WSDL 2.0 for (vector<wsdl__portType>::iterator i = importdefinitions->interface_.begin(); i != importdefinitions->interface_.end(); ++i) { if ((*i).name && !strcmp((*i).name, token)) { portTypeRef = &(*i); if (vflag) cerr << " Found binding '" << (name?name:"") << "' interface '" << (token?token:"") << "'" << endl; break; } } } } } } if (!portTypeRef) { if (!Wflag) { if (interface_) cerr << "Warning: no binding '" << (name?name:"") << "' interface '" << (interface_?interface_:"") << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; else cerr << "Warning: no binding '" << (name?name:"") << "' portType '" << (type?type:"") << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } } // WSDL 2.0 for (vector<wsdl__ext_fault>::iterator f = fault.begin(); f != fault.end(); ++f) (*f).traverse(definitions, portTypeRef); for (vector<wsdl__ext_operation>::iterator i = operation.begin(); i != operation.end(); ++i) (*i).traverse(definitions, portTypeRef); for (vector<wsp__Policy>::iterator p = wsp__Policy_.begin(); p != wsp__Policy_.end(); ++p) (*p).traverse(definitions); for (vector<wsp__PolicyReference>::iterator r = wsp__PolicyReference_.begin(); r != wsp__PolicyReference_.end(); ++r) (*r).traverse(definitions); return SOAP_OK; } void wsdl__binding::portTypePtr(wsdl__portType *portType) { portTypeRef = portType; if (!portTypeRef && vflag) cerr << "Warning: wsdl__binding portType set to NULL" << endl; } wsdl__portType *wsdl__binding::portTypePtr() const { return portTypeRef; } wsdl__ext_operation::wsdl__ext_operation() { operationRef = NULL; } int wsdl__ext_operation::traverse(wsdl__definitions& definitions, wsdl__portType *portTypeRef) { if (vflag) cerr << " Analyzing binding operation '" << (name?name:ref?ref:"") << "' in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; if (input) input->traverse(definitions); if (output) output->traverse(definitions); for (vector<wsdl__ext_fault>::iterator f = fault.begin(); f != fault.end(); ++f) (*f).traverse(definitions, portTypeRef); // WSDL 2.0 for (vector<wsdl__ext_fault>::iterator fi = infault.begin(); fi != infault.end(); ++fi) (*fi).traverse(definitions, portTypeRef); for (vector<wsdl__ext_fault>::iterator fo = outfault.begin(); fo != outfault.end(); ++fo) (*fo).traverse(definitions, portTypeRef); operationRef = NULL; if (portTypeRef) { // WSDL 2.0, assumption: ref refers to an operation in the interface for this binding const char *token = NULL; if (ref) token = qname_token(ref, portTypeRef->definitionsPtr()->targetNamespace); for (vector<wsdl__operation>::iterator i = portTypeRef->operation.begin(); i != portTypeRef->operation.end(); ++i) { if (token) { if ((*i).name && !strcmp((*i).name, token)) { operationRef = &(*i); if (vflag) cerr << " Found operation '" << token << "' in interface '" << portTypeRef->name << "'" << endl; break; } } else if (name && (*i).name && !strcmp((*i).name, name)) { if ((!input || !input->name || ((*i).__union1 == SOAP_UNION_wsdl__union_ioput_input && (*i).__ioput1.input->name && !strcmp((*i).__ioput1.input->name, input->name)) || ((*i).__union2 == SOAP_UNION_wsdl__union_ioput_input && (*i).__ioput2.input->name && !strcmp((*i).__ioput2.input->name, input->name)) ) && (!output || !output->name || ((*i).__union1 == SOAP_UNION_wsdl__union_ioput_output && (*i).__ioput1.output->name && !strcmp((*i).__ioput1.output->name, output->name)) || ((*i).__union2 == SOAP_UNION_wsdl__union_ioput_output && (*i).__ioput2.output->name && !strcmp((*i).__ioput2.output->name, output->name)) )) { operationRef = &(*i); if (vflag) cerr << " Found operation '" << name << "' in portType '" << portTypeRef->name << "'" << endl; break; } } } if (name && !operationRef) { for (vector<wsdl__operation>::iterator j = portTypeRef->operation.begin(); j != portTypeRef->operation.end(); ++j) { if ((*j).name && !strcmp((*j).name, name)) { if (input && input->name && (((*j).__union1 == SOAP_UNION_wsdl__union_ioput_input && (*j).__ioput1.input->name && !strcmp((*j).__ioput1.input->name, input->name)) || ((*j).__union2 == SOAP_UNION_wsdl__union_ioput_input && (*j).__ioput2.input->name && !strcmp((*j).__ioput2.input->name, input->name)) )) cerr << "Warning: no matching portType operation input name '" << input->name << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; if (output && output->name && (((*j).__union1 == SOAP_UNION_wsdl__union_ioput_output && (*j).__ioput1.output->name && !strcmp((*j).__ioput1.output->name, output->name)) || ((*j).__union2 == SOAP_UNION_wsdl__union_ioput_output && (*j).__ioput2.output->name && !strcmp((*j).__ioput2.output->name, output->name)) )) cerr << "Warning: no matching portType operation output name '" << output->name << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; operationRef = &(*j); if (vflag) cerr << " Found operation '" << name << "'" << endl; break; } } } } if (!operationRef) { if (!Wflag) { if (ref) cerr << "Warning: no matching interface operation '" << (ref?ref:"") << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; else cerr << "Warning: no matching portType operation '" << (name?name:"") << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } } else { for (vector<wsdl__ext_fault>::iterator i = fault.begin(); i != fault.end(); ++i) { if ((*i).name) { for (vector<wsdl__fault>::iterator j = operationRef->fault.begin(); j != operationRef->fault.end(); ++j) { if ((*j).name && !strcmp((*j).name, (*i).name)) { (*i).faultPtr(&(*j)); if (vflag) cerr << " Found fault '" << (*j).name << "' message" << endl; break; } } } else if ((*i).soap__fault_ && (*i).soap__fault_->name) // try the soap:fault name, this is not elegant, but neither is WSDL 1.1 { for (vector<wsdl__fault>::iterator j = operationRef->fault.begin(); j != operationRef->fault.end(); ++j) { if ((*j).name && !strcmp((*j).name, (*i).soap__fault_->name)) { (*i).faultPtr(&(*j)); if (vflag) cerr << " Found fault '" << ((*j).name?(*j).name:"") << "' message" << endl; break; } } } if (!(*i).faultPtr()) if (!Wflag) cerr << "Warning: no soap:fault '" << ((*i).name?(*i).name:"") << "' message in wsdl definitions '" << (definitions.name?definitions.name:"") << "' operation '" << (name?name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } } if (wsp__Policy_) wsp__Policy_->traverse(definitions); if (wsp__PolicyReference_) wsp__PolicyReference_->traverse(definitions); return SOAP_OK; } void wsdl__ext_operation::operationPtr(wsdl__operation *operation) { operationRef = operation; if (!operationRef && vflag) cerr << "Warning: wsdl__ext_operation operation set to NULL" << endl; } wsdl__operation *wsdl__ext_operation::operationPtr() const { return operationRef; } int wsdl__ext_ioput::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing binding operation input/output in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; for (vector<soap__header>::iterator hd = soap__header_.begin(); hd != soap__header_.end(); ++hd) (*hd).traverse(definitions); for (vector<wsoap__header>::iterator whd = wsoap__header_.begin(); whd != wsoap__header_.end(); ++whd) (*whd).traverse(definitions); if (mime__multipartRelated_) mime__multipartRelated_->traverse(definitions); if (wsp__Policy_) wsp__Policy_->traverse(definitions); if (wsp__PolicyReference_) wsp__PolicyReference_->traverse(definitions); return SOAP_OK; } wsdl__ext_fault::wsdl__ext_fault() { faultRef = NULL; } int wsdl__ext_fault::traverse(wsdl__definitions& definitions, wsdl__portType *portTypeRef) { if (vflag) cerr << " Analyzing binding operation fault in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; if (ref && portTypeRef) { // WSDL 2.0, assumption: ref refers to a fault in the interface for this binding const char *token = qname_token(ref, portTypeRef->definitionsPtr()->targetNamespace); if (token) { for (vector<wsdl__fault>::iterator fault = portTypeRef->fault.begin(); fault != portTypeRef->fault.end(); ++fault) { if ((*fault).name && !strcmp((*fault).name, token)) { faultRef = &(*fault); if (vflag) cerr << " Found fault '" << (*fault).name << endl; break; } } } if (!faultRef) if (!Wflag) cerr << "Warning: no fault '" << (ref?ref:"") << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' interface '" << (portTypeRef->name?portTypeRef->name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } if (wsp__Policy_) wsp__Policy_->traverse(definitions); if (wsp__PolicyReference_) wsp__PolicyReference_->traverse(definitions); return SOAP_OK; } void wsdl__ext_fault::faultPtr(wsdl__fault *fault) { faultRef = fault; if (!faultRef && vflag) cerr << "Warning: wsdl__ext_fault fault ref set to NULL" << endl; } wsdl__fault *wsdl__ext_fault::faultPtr() const { return faultRef; } wsdl__portType::wsdl__portType() { definitionsRef = NULL; } int wsdl__portType::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing portType/interface '" << (name?name:"") << "' in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; definitionsRef = &definitions; // traverse faults before operations, WSDL 2.0 for (vector<wsdl__fault>::iterator f = fault.begin(); f != fault.end(); ++f) (*f).traverse(definitions); for (vector<wsdl__operation>::iterator i = operation.begin(); i != operation.end(); ++i) (*i).traverse(definitions); if (wsp__Policy_) wsp__Policy_->traverse(definitions); if (wsp__PolicyReference_) wsp__PolicyReference_->traverse(definitions); return SOAP_OK; } void wsdl__portType::definitionsPtr(wsdl__definitions *definitions) { definitionsRef = definitions; } wsdl__definitions *wsdl__portType::definitionsPtr() const { return definitionsRef; } int wsdl__operation::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing portType/interface operation '" << (name?name:"") << "' in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; if (__union1 == SOAP_UNION_wsdl__union_ioput_input) if (__ioput1.input) __ioput1.input->traverse(definitions); if (__union1 == SOAP_UNION_wsdl__union_ioput_output) if (__ioput1.output) __ioput1.output->traverse(definitions); if (__union2 == SOAP_UNION_wsdl__union_ioput_input) if (__ioput2.input) __ioput2.input->traverse(definitions); if (__union2 == SOAP_UNION_wsdl__union_ioput_output) if (__ioput2.output) __ioput2.output->traverse(definitions); for (vector<wsdl__fault>::iterator i = fault.begin(); i != fault.end(); ++i) (*i).traverse(definitions); // WSDL 2.0 for (vector<wsdl__fault>::iterator fi = infault.begin(); fi != infault.end(); ++fi) (*fi).traverse(definitions); for (vector<wsdl__fault>::iterator fo = outfault.begin(); fo != outfault.end(); ++fo) (*fo).traverse(definitions); if (wsp__Policy_) wsp__Policy_->traverse(definitions); if (wsp__PolicyReference_) wsp__PolicyReference_->traverse(definitions); return SOAP_OK; } wsdl__ioput::wsdl__ioput() { messageRef = NULL; elementRef = NULL; } int wsdl__ioput::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing portType/interface operation input/output in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; messageRef = NULL; elementRef = NULL; // WSDL 2.0 if (element) { if (definitions.types) { for (vector<xs__schema*>::iterator schema = definitions.types->xs__schema_.begin(); schema != definitions.types->xs__schema_.end(); ++schema) { const char *token = qname_token(element, (*schema)->targetNamespace); if (token) { for (vector<xs__element>::iterator element = (*schema)->element.begin(); element != (*schema)->element.end(); ++element) { if ((*element).name && !strcmp((*element).name, token)) { elementRef = &(*element); if (vflag) cerr << " Found input/output '" << (messageLabel?messageLabel:"") << "' element '" << (token?token:"") << "'" << endl; break; } } } } } if (*element != '#' && !elementRef) { if (is_builtin_qname(element)) definitions.builtinElement(element); else if (!Wflag) cerr << "Warning: no input/output '" << (messageLabel?messageLabel:"") << "' element '" << element << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } } else { const char *token = qname_token(message, definitions.targetNamespace); if (token) { for (vector<wsdl__message>::iterator message = definitions.message.begin(); message != definitions.message.end(); ++message) { if ((*message).name && !strcmp((*message).name, token)) { messageRef = &(*message); if (vflag) cerr << " Found input/output '" << (name?name:"") << "' message '" << (token?token:"") << "'" << endl; break; } } } if (!messageRef) { for (vector<wsdl__import>::iterator import = definitions.import.begin(); import != definitions.import.end(); ++import) { wsdl__definitions *importdefinitions = (*import).definitionsPtr(); if (importdefinitions) { token = qname_token(message, importdefinitions->targetNamespace); if (token) { for (vector<wsdl__message>::iterator message = importdefinitions->message.begin(); message != importdefinitions->message.end(); ++message) { if ((*message).name && !strcmp((*message).name, token)) { messageRef = &(*message); if (vflag) cerr << " Found input/output '" << (name?name:"") << "' message '" << (token?token:"") << "'" << endl; break; } } } } } } if (!messageRef) if (!Wflag) cerr << "Warning: no input/output '" << (name?name:"") << "' message '" << (message?message:"") << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } if (wsp__Policy_) wsp__Policy_->traverse(definitions); if (wsp__PolicyReference_) wsp__PolicyReference_->traverse(definitions); return SOAP_OK; } void wsdl__ioput::messagePtr(wsdl__message *message) { messageRef = message; } wsdl__message *wsdl__ioput::messagePtr() const { return messageRef; } void wsdl__ioput::elementPtr(xs__element *element) { elementRef = element; } xs__element *wsdl__ioput::elementPtr() const { return elementRef; } wsdl__fault::wsdl__fault() { messageRef = NULL; elementRef = NULL; } int wsdl__fault::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing portType/interface operation faults in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; messageRef = NULL; elementRef = NULL; // WSDL 2.0 if (ref) { const char *token = qname_token(ref, definitions.targetNamespace); if (token) { for (vector<wsdl__portType>::iterator i = definitions.interface_.begin(); i != definitions.interface_.end(); ++i) { for (vector<wsdl__fault>::iterator fault = (*i).fault.begin(); fault != (*i).fault.end(); ++fault) { if ((*fault).name && !strcmp((*fault).name, token)) { elementRef = (*fault).elementPtr(); if (vflag) cerr << " Found fault '" << (ref?ref:"") << "' element '" << (token?token:"") << "'" << endl; break; } } } } if (!elementRef) { for (vector<wsdl__import>::iterator import = definitions.import.begin(); import != definitions.import.end(); ++import) { wsdl__definitions *importdefinitions = (*import).definitionsPtr(); if (importdefinitions) { token = qname_token(message, importdefinitions->targetNamespace); if (token) { for (vector<wsdl__portType>::iterator i = importdefinitions->interface_.begin(); i != importdefinitions->interface_.end(); ++i) { for (vector<wsdl__fault>::iterator fault = (*i).fault.begin(); fault != (*i).fault.end(); ++fault) { if ((*fault).name && !strcmp((*fault).name, token)) { elementRef = (*fault).elementPtr(); if (vflag) cerr << " Found fault '" << (ref?ref:"") << "' element '" << (token?token:"") << "'" << endl; break; } } } } } } } if (!elementRef) { if (is_builtin_qname(element)) definitions.builtinElement(element); else if (!Wflag) cerr << "Warning: no fault '" << (messageLabel?messageLabel:"") << "' ref '" << ref << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } } else if (element) { if (definitions.types) { for (vector<xs__schema*>::iterator schema = definitions.types->xs__schema_.begin(); schema != definitions.types->xs__schema_.end(); ++schema) { const char *token = qname_token(element, (*schema)->targetNamespace); if (token) { for (vector<xs__element>::iterator element = (*schema)->element.begin(); element != (*schema)->element.end(); ++element) { if ((*element).name && !strcmp((*element).name, token)) { elementRef = &(*element); if (vflag) cerr << " Found fault '" << (messageLabel?messageLabel:"") << "' element '" << (token?token:"") << "'" << endl; break; } } } } } if (!elementRef) { if (is_builtin_qname(element)) definitions.builtinElement(element); else if (!Wflag) cerr << "Warning: no fault '" << (messageLabel?messageLabel:"") << "' element '" << element << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } } else { const char *token = qname_token(message, definitions.targetNamespace); if (token) { for (vector<wsdl__message>::iterator message = definitions.message.begin(); message != definitions.message.end(); ++message) { if ((*message).name && !strcmp((*message).name, token)) { messageRef = &(*message); if (vflag) cerr << " Found operation fault '" << (name?name:"") << "' message '" << (token?token:"") << "'" << endl; break; } } } if (!messageRef) { for (vector<wsdl__import>::iterator import = definitions.import.begin(); import != definitions.import.end(); ++import) { wsdl__definitions *importdefinitions = (*import).definitionsPtr(); if (importdefinitions) { token = qname_token(message, importdefinitions->targetNamespace); if (token) { for (vector<wsdl__message>::iterator message = importdefinitions->message.begin(); message != importdefinitions->message.end(); ++message) { if ((*message).name && !strcmp((*message).name, token)) { messageRef = &(*message); if (vflag) cerr << " Found operation fault '" << (name?name:"") << "' message '" << (token?token:"") << "'" << endl; break; } } } } } } if (!messageRef) if (!Wflag) cerr << "Warning: no operation fault '" << (name?name:"") << "' message '" << (message?message:"") << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } if (wsp__Policy_) wsp__Policy_->traverse(definitions); if (wsp__PolicyReference_) wsp__PolicyReference_->traverse(definitions); return SOAP_OK; } void wsdl__fault::messagePtr(wsdl__message *message) { messageRef = message; } wsdl__message *wsdl__fault::messagePtr() const { return messageRef; } void wsdl__fault::elementPtr(xs__element *element) { elementRef = element; } xs__element *wsdl__fault::elementPtr() const { return elementRef; } int wsdl__message::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing message '" << (name?name:"") << "' in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; for (vector<wsdl__part>::iterator i = part.begin(); i != part.end(); ++i) (*i).traverse(definitions); for (vector<wsp__Policy>::iterator p = wsp__Policy_.begin(); p != wsp__Policy_.end(); ++p) (*p).traverse(definitions); for (vector<wsp__PolicyReference>::iterator r = wsp__PolicyReference_.begin(); r != wsp__PolicyReference_.end(); ++r) (*r).traverse(definitions); return SOAP_OK; } wsdl__part::wsdl__part() { elementRef = NULL; simpleTypeRef = NULL; complexTypeRef = NULL; } int wsdl__part::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing message parts in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; elementRef = NULL; simpleTypeRef = NULL; complexTypeRef = NULL; if (definitions.types) { for (vector<xs__schema*>::iterator schema = definitions.types->xs__schema_.begin(); schema != definitions.types->xs__schema_.end(); ++schema) { const char *token = qname_token(element, (*schema)->targetNamespace); if (token) { for (vector<xs__element>::iterator element = (*schema)->element.begin(); element != (*schema)->element.end(); ++element) { if ((*element).name && !strcmp((*element).name, token)) { elementRef = &(*element); if (vflag) cerr << " Found message part '" << (name?name:"") << "' element '" << (token?token:"") << "'" << endl; break; } } } token = qname_token(type, (*schema)->targetNamespace); if (token) { for (vector<xs__simpleType>::iterator simpleType = (*schema)->simpleType.begin(); simpleType != (*schema)->simpleType.end(); ++simpleType) { if ((*simpleType).name && !strcmp((*simpleType).name, token)) { simpleTypeRef = &(*simpleType); if (vflag) cerr << " Found message part '" << (name?name:"") << "' simpleType '" << (token?token:"") << "'" << endl; break; } } } token = qname_token(type, (*schema)->targetNamespace); if (token) { for (vector<xs__complexType>::iterator complexType = (*schema)->complexType.begin(); complexType != (*schema)->complexType.end(); ++complexType) { if ((*complexType).name && !strcmp((*complexType).name, token)) { complexTypeRef = &(*complexType); if (vflag) cerr << " Found message part '" << (name?name:"") << "' complexType '" << (token?token:"") << "'" << endl; break; } } } } } if (!elementRef && !simpleTypeRef && !complexTypeRef) { if (element) { if (is_builtin_qname(element)) definitions.builtinElement(element); else if (!Wflag) cerr << "Warning: no message part '" << (name?name:"") << "' element '" << element << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } else if (type) { if (is_builtin_qname(type)) definitions.builtinType(type); else if (!Wflag) cerr << "Warning: no message part '" << (name?name:"") << "' type '" << type << "' in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } else if (!Wflag) cerr << "Warning: no message part '" << (name?name:"") << "' element or type in wsdl definitions '" << (definitions.name?definitions.name:"") << "' namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; } return SOAP_OK; } void wsdl__part::elementPtr(xs__element *element) { elementRef = element; if (!elementRef && vflag) cerr << "Warning: wsdl__part element set to NULL" << endl; } void wsdl__part::simpleTypePtr(xs__simpleType *simpleType) { simpleTypeRef = simpleType; if (!simpleTypeRef && vflag) cerr << "Warning: wsdl__part simpleType set to NULL" << endl; } void wsdl__part::complexTypePtr(xs__complexType *complexType) { complexTypeRef = complexType; if (!complexTypeRef && vflag) cerr << "Warning: wsdl__part complexType set to NULL" << endl; } xs__element *wsdl__part::elementPtr() const { return elementRef; } xs__simpleType *wsdl__part::simpleTypePtr() const { return simpleTypeRef; } xs__complexType *wsdl__part::complexTypePtr() const { return complexTypeRef; } int wsdl__types::preprocess(wsdl__definitions& definitions) { if (vflag) cerr << "Preprocessing wsdl types" << endl; if (!empty()) // WSDL 2.0 <types> { targetNamespace = definitions.targetNamespace; xs__schema_.push_back(this); } // set the location of each schema in <types> to the WSDL's location for (vector<xs__schema*>::iterator schema0 = xs__schema_.begin(); schema0 != xs__schema_.end(); ++schema0) { if (!(*schema0)->sourceLocation()) (*schema0)->sourceLocation(definitions.sourceLocation()); } again: // link imported schemas, need to repeat when <types> is extended with new imported schema (from inside another schema, etc.) for (vector<xs__schema*>::iterator schema1 = xs__schema_.begin(); schema1 != xs__schema_.end(); ++schema1) { for (vector<xs__import>::iterator import = (*schema1)->import.begin(); import != (*schema1)->import.end(); ++import) { if ((*import).namespace_ && !(*import).schemaPtr() && strcmp((*import).namespace_, targetNamespace)) { for (vector<xs__schema*>::const_iterator schema2 = xs__schema_.begin(); schema2 != xs__schema_.end(); ++schema2) { if (schema2 != schema1 && (*schema2)->targetNamespace && !strcmp((*import).namespace_, (*schema2)->targetNamespace)) { (*import).schemaPtr(*schema2); break; } } } } } // if a schema is imported but not in <types> then get it for (vector<xs__schema*>::iterator schema2 = xs__schema_.begin(); schema2 != xs__schema_.end(); ++schema2) { for (vector<xs__import>::iterator import = (*schema2)->import.begin(); import != (*schema2)->import.end(); ++import) { bool found = false; if ((*import).schemaPtr()) found = true; if (vflag) cerr << "Preprocessing schema '" << (*schema2)->targetNamespace << "' import '" << ((*import).namespace_?(*import).namespace_:"") << "'" << endl; if (!found && (*import).namespace_) { if ((*import).schemaPtr()) found = true; else if (strcmp((*import).namespace_, targetNamespace)) { for (vector<xs__schema*>::const_iterator schema3 = xs__schema_.begin(); schema3 != xs__schema_.end(); ++schema3) { if (schema3 != schema2 && (*schema3)->targetNamespace && !strcmp((*import).namespace_, (*schema3)->targetNamespace)) { found = true; if (vflag) cerr << "Schema '" << (*schema2)->targetNamespace << "' already found and present" << endl; break; } } } if (!found) { for (SetOfString::const_iterator i = exturis.begin(); i != exturis.end(); ++i) { if (!soap_tag_cmp((*import).namespace_, *i)) { found = true; break; } } } } if (!found && !iflag) // don't import any of the schemas in the .nsmap table (or when -i option is used) { xs__schema *importschema; importschema = (*import).schemaPtr(); if (!importschema) { const char *s = (*import).schemaLocation; if (!s) s = (*import).namespace_; if (!s) continue; importschema = new xs__schema(definitions.soap, (*schema2)->sourceLocation(), s); if (!(*import).namespace_) { if ((*schema2)->targetNamespace) (*import).namespace_ = (*schema2)->targetNamespace; else if (importschema->targetNamespace) (*import).namespace_ = importschema->targetNamespace; else (*import).namespace_ = soap_strdup(definitions.soap, ""); } if (!importschema->targetNamespace || !*importschema->targetNamespace) importschema->targetNamespace = (*import).namespace_; else if ((*import).namespace_ && strcmp(importschema->targetNamespace, (*import).namespace_)) cerr << "Schema import namespace '" << ((*import).namespace_?(*import).namespace_:"") << "' does not correspond to imported namespace '" << importschema->targetNamespace << "'" << endl; } if (strcmp((*import).namespace_, targetNamespace)) { for (vector<xs__schema*>::const_iterator schema3 = xs__schema_.begin(); schema3 != xs__schema_.end(); ++schema3) { if (schema3 != schema2 && (*schema3)->targetNamespace && !strcmp((*import).namespace_, (*schema3)->targetNamespace)) { found = true; (*import).schemaPtr(*schema3); break; } } } if (!found) { (*import).schemaPtr(importschema); xs__schema_.push_back(importschema); if (vflag) cerr << "Adding schema '" << importschema->targetNamespace << "'" << endl; goto again; } } } } return SOAP_OK; } int wsdl__types::traverse(wsdl__definitions& definitions) { if (vflag) cerr << " Analyzing types in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; for (vector<xs__schema*>::iterator schema3 = xs__schema_.begin(); schema3 != xs__schema_.end(); ++schema3) { // artificially extend the <import> of each schema to include others so when we traverse schemas we can resolve references for (vector<xs__schema*>::iterator importschema = xs__schema_.begin(); importschema != xs__schema_.end(); ++importschema) { if (schema3 != importschema && (*importschema)->targetNamespace) { xs__import *import = soap_new_xs__import(definitions.soap, -1); import->namespace_ = (*importschema)->targetNamespace; import->schemaPtr(*importschema); (*schema3)->import.push_back(*import); } } // check and report for (vector<xs__import>::iterator import = (*schema3)->import.begin(); import != (*schema3)->import.end(); ++import) { if ((*import).namespace_) { bool found = false; for (vector<xs__schema*>::const_iterator importschema = xs__schema_.begin(); importschema != xs__schema_.end(); ++importschema) { if ((*importschema)->targetNamespace && !strcmp((*import).namespace_, (*importschema)->targetNamespace)) { found = true; break; } } if (!found && vflag) cerr << "Schema import namespace '" << (*import).namespace_ << "' refers to an unknown Schema" << endl; } else if (!Wflag) cerr << "Warning: schema import '" << ((*import).schemaLocation ? (*import).schemaLocation : "") << "' has no namespace" << endl; } } // traverse the schemas for (vector<xs__schema*>::iterator schema4 = xs__schema_.begin(); schema4 != xs__schema_.end(); ++schema4) (*schema4)->traverse(); // find all built-in types, elements, and attributes for (vector<xs__schema*>::iterator schema5 = xs__schema_.begin(); schema5 != xs__schema_.end(); ++schema5) { if (vflag) for (SetOfString::const_iterator i = (*schema5)->builtinTypes().begin(); i != (*schema5)->builtinTypes().end(); ++i) cerr << " Built-in schema type '" << (*i) << "'" << endl; definitions.builtinTypes((*schema5)->builtinTypes()); definitions.builtinElements((*schema5)->builtinElements()); definitions.builtinAttributes((*schema5)->builtinAttributes()); } return SOAP_OK; } int wsdl__import::preprocess(wsdl__definitions& definitions) { static map<const char*, wsdl__definitions*, ltstr> included; bool found = false; if (vflag) cerr << "Preprocess wsdl import '" << (location?location:"") << "'" << endl; definitionsRef = NULL; if (namespace_) { for (SetOfString::const_iterator i = exturis.begin(); i != exturis.end(); ++i) { if (!soap_tag_cmp(namespace_, *i)) { found = true; break; } } } if (!found && location) { map<const char*, wsdl__definitions*, ltstr>::iterator i = included.find(location); if (i != included.end()) { if (vflag) fprintf(stderr, "\nWSDL/XSD '%s' already imported\n", location); found = true; definitionsRef = (*i).second; } } if (!found && location) { // parse imported definitions const char *source = definitions.sourceLocation(); if (vflag) cerr << "Importing '" << location << "' into '" << (source?source:"(source location not set)") << "'" << endl; included[location] = definitionsRef = new wsdl__definitions(definitions.soap, source, location); if (!definitionsRef) return SOAP_EOF; if (!namespace_) namespace_ = definitionsRef->targetNamespace; else if (!definitionsRef->targetNamespace || !*definitionsRef->targetNamespace) definitionsRef->targetNamespace = namespace_; else if (strcmp(namespace_, definitionsRef->targetNamespace)) cerr << "Error: wsdl definitions/import '" << location << "' namespace '" << namespace_ << "' does not match imported targetNamespace '" << definitionsRef->targetNamespace << "'" << endl; } else if (!location) cerr << "Warning: wsdl definitions/import has no location attribute" << endl; return SOAP_OK; } int wsdl__import::traverse(wsdl__definitions& definitions) { if (definitionsRef) { if (vflag) cerr << " Analyzing imported wsdl namespace '" << (namespace_?namespace_:"") << "' in wsdl namespace '" << (definitions.targetNamespace?definitions.targetNamespace:"") << "'" << endl; // process import first for (vector<wsdl__import>::iterator im = definitionsRef->import.begin(); im != definitionsRef->import.end(); ++im) (*im).traverse(definitions); // then process the types if (definitionsRef->types) definitionsRef->types->traverse(definitions); // process messages before portTypes for (vector<wsdl__message>::iterator mg = definitionsRef->message.begin(); mg != definitionsRef->message.end(); ++mg) (*mg).traverse(definitions); // process portTypes before bindings for (vector<wsdl__portType>::iterator pt = definitionsRef->portType.begin(); pt != definitionsRef->portType.end(); ++pt) (*pt).traverse(definitions); // process bindings for (vector<wsdl__binding>::iterator bg = definitionsRef->binding.begin(); bg != definitionsRef->binding.end(); ++bg) (*bg).traverse(definitions); // process services for (vector<wsdl__service>::iterator sv = definitionsRef->service.begin(); sv != definitionsRef->service.end(); ++sv) (*sv).traverse(definitions); if (vflag) cerr << " End of imported wsdl namespace '" << (namespace_?namespace_:"") << "'" << endl; } return SOAP_OK; } void wsdl__import::definitionsPtr(wsdl__definitions *definitions) { definitionsRef = definitions; if (!definitionsRef && vflag) cerr << "Warning: wsdl__import definitions set to NULL" << endl; } wsdl__definitions *wsdl__import::definitionsPtr() const { return definitionsRef; } wsdl__import::wsdl__import() { definitionsRef = NULL; } //////////////////////////////////////////////////////////////////////////////// // // streams // //////////////////////////////////////////////////////////////////////////////// ostream &operator<<(ostream &o, const wsdl__definitions &e) { if (!e.soap) { struct soap soap; soap_init2(&soap, SOAP_IO_DEFAULT, SOAP_XML_TREE | SOAP_C_UTFSTRING); soap_set_namespaces(&soap, namespaces); e.soap_serialize(&soap); soap_begin_send(&soap); e.soap_out(&soap, "wsdl:definitions", 0, NULL); soap_end_send(&soap); soap_destroy(&soap); soap_end(&soap); soap_done(&soap); } else { ostream *os = e.soap->os; e.soap->os = &o; e.soap_serialize(e.soap); soap_begin_send(e.soap); e.soap_out(e.soap, "wsdl:definitions", 0, NULL); soap_end_send(e.soap); e.soap->os = os; } return o; } istream &operator>>(istream &i, wsdl__definitions &e) { if (!e.soap) { e.soap = soap_new1(SOAP_XML_TREE | SOAP_C_UTFSTRING); soap_set_namespaces(e.soap, namespaces); } istream *is = e.soap->is; e.soap->is = &i; if (soap_begin_recv(e.soap) || !e.soap_in(e.soap, "wsdl:", NULL) || soap_end_recv(e.soap)) { // handle error? Note: e.soap->error is set and app should check } e.soap->is = is; return i; } //////////////////////////////////////////////////////////////////////////////// // // Miscellaneous // //////////////////////////////////////////////////////////////////////////////// extern "C" { int warn_ignore(struct soap *soap, const char *tag) { // We don't warn if the omitted element was an annotation or a documentation in an unexpected place if (soap->mustUnderstand) fprintf(stderr, "Error: element '%s' at level %d must be understood\n", tag, soap->level); if (!Wflag && soap_match_tag(soap, tag, "xs:annotation") && soap_match_tag(soap, tag, "xs:documentation") && soap_match_tag(soap, tag, "xs:appinfo")) fprintf(stderr, "Warning: unexpected element '%s' at level %d is skipped (safe to ignore)\n", tag, soap->level); if (soap->body && !soap_string_in(soap, 0, -1, -1)) return soap->error; return SOAP_OK; } int show_ignore(struct soap *soap, const char *tag) { warn_ignore(soap, tag); soap_print_fault_location(soap, stderr); return SOAP_OK; } } // end extern "C"