/////////////////////////////////////////////////////////////////////////////// // // Copyright (c) 1998, Microsoft Corp. All rights reserved. // // FILE // // ldapdnary.cpp // // SYNOPSIS // // This file defines the class LDAPDictionary. // // MODIFICATION HISTORY // // 02/24/1998 Original version. // 04/20/1998 Added flags and InjectorProc to the attribute schema. // 05/01/1998 InjectorProc takes an ATTRIBUTEPOSITION array. // 03/23/1999 Store user's DN. // /////////////////////////////////////////////////////////////////////////////// #include #include #include #include #include #include ////////// // Smart wrapper around an array of LDAP berval's. ////////// typedef auto_handle< berval**, ULONG (LDAPAPI*)(struct berval**), &ldap_value_free_len > LDAPValues; ////////// // Create an attribute from a berval based on the schema info in 'def'. ////////// inline PIASATTRIBUTE createAttribute( const LDAPAttribute& def, const berval& val ) { // Convert the value. PIASATTRIBUTE attr = IASAttributeFromBerVal(val, def.iasType); // Set the rest of the fields. attr->dwId = def.iasID; attr->dwFlags = def.flags; return attr; } void LDAPDictionary::insert( IAttributesRaw* dst, LDAPMessage* src ) const { // Retrieve the connection for this message. LDAP* ld = ldap_conn_from_msg(NULL, src); // Used to hold converted attributes. This is defined outside the loop // to avoid unnecessary constructor/destructor calls. IASTL::IASAttributeVectorWithBuffer<8> attrs; // There's only one entry in the message. LDAPMessage* e = ldap_first_entry(ld, src); // Store the user's DN. PWCHAR dn = ldap_get_dnW(ld, e); IASStoreFQUserName(dst, DS_FQDN_1779_NAME, dn); ldap_memfree(dn); // Iterate through all the attributes in the entry. BerElement* ptr; for (wchar_t* a = ldap_first_attributeW(ld, e, &ptr); a != NULL; a = ldap_next_attributeW(ld, e, ptr)) { // Lookup the schema information. const LDAPAttribute* def = find(a); // If it doesn't exist, we must not be interested in this attribute. if (def == NULL) { continue; } IASTracePrintf("Inserting attribute %S.", a); // Retrieve the values. LDAPValues vals(ldap_get_values_lenW(ld, e, a)); // Make sure we have enough room. We don't want to throw an // exception in 'push_back' since it would cause a leak. attrs.reserve(ldap_count_values_len(vals)); // Iterate through the values. for (size_t i = 0; vals.get()[i]; ++i) { // Add to the array of attributes without addref'ing. attrs.push_back( createAttribute(*def, *(vals.get()[i])), false ); } // Inject into the request. def->injector(dst, attrs.begin(), attrs.end()); // Clear out the vector so we can reuse it. attrs.clear(); } } ////////// // Comparison function used by bsearch to lookup definitions. ////////// int __cdecl LDAPDictionary::compare(const void *elem1, const void *elem2) { return wcscmp(((LDAPAttribute*)elem1)->ldapName, ((LDAPAttribute*)elem2)->ldapName); }