%%-------------------------------------------------------------------- %% %% %CopyrightBegin% %% %% Copyright Ericsson AB 1997-2009. All Rights Reserved. %% %% Licensed under the Apache License, Version 2.0 (the "License"); %% you may not use this file except in compliance with the License. %% You may obtain a copy of the License at %% %% http://www.apache.org/licenses/LICENSE-2.0 %% %% Unless required by applicable law or agreed to in writing, software %% distributed under the License is distributed on an "AS IS" BASIS, %% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. %% See the License for the specific language governing permissions and %% limitations under the License. %% %% %CopyrightEnd% %% %% %%---------------------------------------------------------------------- %% File: orber_iiop.hrl %% %%---------------------------------------------------------------------- -ifndef(orber_iiop_hrl). -define(orber_iiop_hrl, true). -include_lib("orber/include/corba.hrl"). %% The identifiers which indicates if a fixed value has a negative or %% positive scale. -define(FIXED_NEGATIVE, 13). -define(FIXED_POSITIVE, 12). %% Used instead of IFR-id's in TypeCode definitions for internal data types. -define(SYSTEM_TYPE, 0). %% Major version of GIOP protocol which are supported -define(GIOP_MAJOR, 1). %% Minor version of GIOP protocol which are supported -define(GIOP_MINOR, 0). %% Major version of IIOP protocol which are supported -define(IIOP_MAJOR, 1). %% Minor version of IIOP protocol which are supported -define(IIOP_MINOR, 0). %% Fragment flags for the flags bitfield in GIOP message headers -define(GIOP_BYTE_ORDER_MSB, 0). -define(GIOP_BYTE_ORDER_LSB, 1). %% Fragment flags for the flags bitfield in GIOP message headers -define(GIOP_MORE_FRAGMENTS_FALSE, 0). -define(GIOP_MORE_FRAGMENTS_TRUE, 1). %% GIOP Message Types -define(GIOP_MSG_REQUEST, 0). -define(GIOP_MSG_REPLY, 1). -define(GIOP_MSG_CANCEL_REQUEST, 2). -define(GIOP_MSG_LOCATE_REQUEST, 3). -define(GIOP_MSG_LOCATE_REPLY, 4). -define(GIOP_MSG_CLOSE_CONNECTION, 5). -define(GIOP_MSG_MESSAGE_ERROR, 6). -define(GIOP_MSG_FRAGMENT, 7). %% PROFILE_ID's -define(TAG_INTERNET_IOP, 0). -define(TAG_MULTIPLE_COMPONENTS, 1). -define(TAG_SCCP_IOP, 2). %% COMPONENT_ID's -define(TAG_ORB_TYPE, 0). -define(TAG_CODE_SETS, 1). -define(TAG_POLICIES, 2). -define(TAG_ALTERNATE_IIOP_ADDRESS, 3). -define(TAG_COMPLETE_OBJECT_KEY, 5). -define(TAG_ENDPOINT_ID_POSITION, 6). -define(TAG_LOCATION_POLICY, 12). -define(TAG_ASSOCIATION_OPTIONS, 13). -define(TAG_SEC_NAME, 14). -define(TAG_SPKM_1_SEC_MECH, 15). -define(TAG_SPKM_2_SEC_MECH, 16). -define(TAG_KerberosV5_SEC_MECH, 17). -define(TAG_CSI_ECMA_Secret_SEC_MECH, 18). -define(TAG_CSI_ECMA_Hybrid_SEC_MECH, 19). -define(TAG_SSL_SEC_TRANS, 20). -define(TAG_CSI_ECMA_Public_SEC_MECH, 21). -define(TAG_GENERIC_SEC_MECH, 22). -define(TAG_FIREWALL_TRANS, 23). -define(TAG_SCCP_CONTACT_INFO, 24). -define(TAG_JAVA_CODEBASE, 25). -define(TAG_TRANSACTION_POLICY, 26). -define(TAG_FT_GROUP, 27). -define(TAG_FT_PRIMARY, 28). -define(TAG_FT_HEARTBEAT_ENABLED, 29). -define(TAG_MESSAGE_ROUTERS, 30). -define(TAG_OTS_POLICY, 31). -define(TAG_INV_POLICY, 32). -define(TAG_CSI_SEC_MECH_LIST, 33). -define(TAG_NULL_TAG, 34). -define(TAG_SECIOP_SEC_TRANS, 35). -define(TAG_TLS_SEC_TRANS, 36). -define(TAG_DCE_STRING_BINDING, 100). -define(TAG_DCE_BINDING_NAME, 101). -define(TAG_DCE_NO_PIPES, 102). -define(TAG_DCE_SEC_MECH, 103). -define(TAG_INET_SEC_TRANS, 123). %% COMPONENT_ID strings -define(TAG_ORB_TYPE_STR, "TAG_ORB_TYPE"). -define(TAG_CODE_SETS_STR, "TAG_CODE_SETS"). -define(TAG_POLICIES_STR, "TAG_POLICIES"). -define(TAG_ALTERNATE_IIOP_ADDRESS_STR, "TAG_ALTERNATE_IIOP_ADDRESS"). -define(TAG_COMPLETE_OBJECT_KEY_STR, "TAG_COMPLETE_OBJECT_KEY"). -define(TAG_ENDPOINT_ID_POSITION_STR, "TAG_ENDPOINT_ID_POSITION"). -define(TAG_LOCATION_POLICY_STR, "TAG_LOCATION_POLICY"). -define(TAG_ASSOCIATION_OPTIONS_STR, "TAG_ASSOCIATION_OPTIONS"). -define(TAG_SEC_NAME_STR, "TAG_SEC_NAME"). -define(TAG_SPKM_1_SEC_MECH_STR, "TAG_SPKM_1_SEC_MECH"). -define(TAG_SPKM_2_SEC_MECH_STR, "TAG_SPKM_2_SEC_MECH"). -define(TAG_KerberosV5_SEC_MECH_STR, "TAG_KerberosV5_SEC_MECH"). -define(TAG_CSI_ECMA_Secret_SEC_MECH_STR, "TAG_CSI_ECMA_Secret_SEC_MECH"). -define(TAG_CSI_ECMA_Hybrid_SEC_MECH_STR, "TAG_CSI_ECMA_Hybrid_SEC_MECH"). -define(TAG_SSL_SEC_TRANS_STR, "TAG_SSL_SEC_TRANS"). -define(TAG_CSI_ECMA_Public_SEC_MECH_STR, "(TAG_CSI_ECMA_Public_SEC_MECH"). -define(TAG_GENERIC_SEC_MECH_STR, "TAG_GENERIC_SEC_MECH"). -define(TAG_FIREWALL_TRANS_STR, "TAG_FIREWALL_TRANS"). -define(TAG_SCCP_CONTACT_INFO_STR, "TAG_SCCP_CONTACT_INFO"). -define(TAG_JAVA_CODEBASE_STR, "TAG_JAVA_CODEBASE"). -define(TAG_TRANSACTION_POLICY_STR, "TAG_TRANSACTION_POLICY"). -define(TAG_FT_GROUP_STR, "TAG_FT_GROUP"). -define(TAG_FT_PRIMARY_STR, "TAG_FT_PRIMARY"). -define(TAG_FT_HEARTBEAT_ENABLED_STR, "TAG_FT_HEARTBEAT_ENABLED"). -define(TAG_MESSAGE_ROUTERS_STR, "TAG_MESSAGE_ROUTERS"). -define(TAG_OTS_POLICY_STR, "TAG_OTS_POLICY"). -define(TAG_INV_POLICY_STR, "TAG_INV_POLICY"). -define(TAG_CSI_SEC_MECH_LIST_STR, "TAG_CSI_SEC_MECH_LIST"). -define(TAG_NULL_TAG_STR, "TAG_NULL_TAG"). -define(TAG_SECIOP_SEC_TRANS_STR, "TAG_SECIOP_SEC_TRANS"). -define(TAG_TLS_SEC_TRANS_STR, "TAG_TLS_SEC_TRANS"). -define(TAG_DCE_STRING_BINDING_STR, "TAG_DCE_STRING_BINDING"). -define(TAG_DCE_BINDING_NAME_STR, "TAG_DCE_BINDING_NAME"). -define(TAG_DCE_NO_PIPES_STR, "TAG_DCE_NO_PIPES"). -define(TAG_DCE_SEC_MECH_STR, "TAG_DCE_SEC_MECH"). -define(TAG_INET_SEC_TRANS_STR, "TAG_INET_SEC_TRANS"). %% GIOP header size -define(GIOP_HEADER_SIZE, 12). %% CODESET's we support. %% Latin-1. This CodeSet is default if no information exists in the IOR. -define(ISO8859_1_ID, 16#00010001). %% UTF-16, UCS Transformation Format 16-bit form -define(UTF_16_ID, 16#00010109). %% X/Open UTF-8; UCS Transformation Format 8 (UTF-8) -define(UTF_8_ID, 16#05010001). %% The limited UTF-16 without the surrogate mechanism is called UCS-2. %% The two-byte subset which is identical with the original Unicode. %% UCS-2, Level 1. Used by JDK-1.3 as native wchar. -define(UCS_2_ID, 16#00010100). %% ISO 646:1991 IRV (International Reference Version). %% Used by JavaIDL as Native Char (JDK-1.3). A.k.a PCS. -define(ISO646_IRV_ID, 16#00010020). %% Fallback is *not* the same thing as default!! -define(FALLBACK_CHAR, 16#05010001). -define(FALLBACK_WCHAR, 16#00010109). %% This is used when the wchar codeset is unknown. -define(UNSUPPORTED_WCHAR, 0). %% Integer limits -define(SHORTMIN, -32768). -define(SHORTMAX, 32767). -define(USHORTMIN, 0). -define(USHORTMAX, 65535). -define(LONGMIN, -2147483648). -define(LONGMAX, 2147483647). -define(ULONGMIN, 0). -define(ULONGMAX, 4294967295). -define(LONGLONGMIN, -9223372036854775808). -define(LONGLONGMAX, 9223372036854775807). -define(ULONGLONGMIN, 0). -define(ULONGLONGMAX, 18446744073709551615). -define(ORBER_GENERIC_CTX, {'tk_sequence', 'tk_octet', 0}). %%---------------------------------------------------------------------- %% GIOP Message Header %% %% magic: identifies the GIOP message headers, array of four characters. %% giop_version: contains the version number of the giop protocol being %% used in the message. %% byte_order: indicating the byte order being used in subsequent %% elements of the message. %% 0 - big-endian byte ordering, 1 - little-endian byte ordering %% fragments: true if more fragments follow, otherwise false. %% message_type: indicating the type of the message %% message_size: gives the length of the message following the message %% headerin octets. %%---------------------------------------------------------------------- -record(giop_message, {magic, giop_version, byte_order, fragments = false, message_type, message_size, message}). %%---------------------------------------------------------------------- %% Request Message Header %% %% service_context: contains ORB service data being passed from client to server. %% (IOP::ServiceContextList) %% request_id: id used to assosciate reply messages with request messages. %% response_expected: true if the request is expected to have a reply message. %% object_key: identifies the object wich is the target of the invocation. %% operation: contains the name of the operation being invoked. %% requesting_principal: contains a value that identifying the requesting %% principal. %%---------------------------------------------------------------------- -record(request_header, {service_context, request_id, response_expected, object_key, operation, requesting_principal}). %%---------------------------------------------------------------------- %% Reply Message Header %% %% service_context: contains ORB service data being passed from client to server. %% (IOP::ServiceContextList) %% request_id: id used to assosciate reply messages with request messages. %% reply_status: indicates the completion status of the request %%---------------------------------------------------------------------- -record(reply_header, {service_context, request_id, reply_status}). %%---------------------------------------------------------------------- %% Cancel Request Message Header %% %% request_id: id used to assosciate reply messages with request messages. %%---------------------------------------------------------------------- -record(cancel_request_header, {request_id}). %%---------------------------------------------------------------------- %% Locate Request Message Header %% %% request_id: id used to assosciate reply messages with request messages. %% object_key: identifies the object being located (octet sequence). %%---------------------------------------------------------------------- -record(locate_request_header, {request_id, object_key}). %%---------------------------------------------------------------------- %% Locate Reply Message Header %% %% request_id: id used to assosciate reply messages with request messages. %% locate_status: indicates the completion status of the locate request %%---------------------------------------------------------------------- -record(locate_reply_header, {request_id, locate_status}). %%---------------------------------------------------------------------- %% Profile Body %% %% iiop_version: describes the version of IIOP that the agent at the %% specified adress is prepared to receive. %% host: identifies the internet host to which the GIOP messages %% for the specified object may be sent. %% port: contains the TCP?IP port number where the target agnet is listening %% for connection requests. %% object_key: is an opaque value supplied by the agent producing the IOR. %%---------------------------------------------------------------------- -record(profile_body, {iiop_version,host,port,object_key}). %%---------------------------------------------------------------------- %% Version %% %% major: major version number of iiop protocol %% minor: minor version number of iiop protocol. %% %% When an agnet generates profiles specifying a particular version, %% it must be able to accept messages complying with the specified %% version or any porevious minor version. %%---------------------------------------------------------------------- -record(version, {major,minor}). %%---------------------------------------------------------------------- %% Fragment Message Header %% %% request_id: %%---------------------------------------------------------------------- -record(fragment_header, {request_id}). %%---------------------------------------------------------------------- %% ORB_FLAGS macros. Used in the local object references {_,_,_,_,_,Flags}. %% %%---------------------------------------------------------------------- %% Definition of flag positions: -define(ORB_SEC_ATTRIBUTES, 16#01). -define(ORB_CONTEXT, 16#02). -define(ORB_TYPECHECK, 16#04). -define(ORB_NO_SECURITY, 16#08). -define(ORB_SURVIVE_EXIT, 16#10). -define(ORB_USE_PI, 16#20). -define(ORB_INIT_FLAGS, 16#00). %%---------------------------------------------------------------------- %% Flags used as configuration parameters (application env). %% %%---------------------------------------------------------------------- -define(ORB_ENV_EXCLUDE_CODESET_COMPONENT, 16#01). %% FIXED!! -define(ORB_ENV_LOCAL_TYPECHECKING, 16#02). %% FIXED!! -define(ORB_ENV_HOSTNAME_IN_IOR, 16#04). %% FIXED!! -define(ORB_ENV_ENABLE_NAT, 16#08). %% FIXED!! -define(ORB_ENV_PARTIAL_SECURITY, 16#10). %% FIXED FOR NOW!! INTERNAL -define(ORB_ENV_USE_PI, 16#20). %% FIXED!! -define(ORB_ENV_USE_FT, 16#40). %% WILL PROBABLY BE FIXED!! -define(ORB_ENV_LIGHT_IFR, 16#80). %% FIXED!! -define(ORB_ENV_USE_IPV6, 16#100). %% FIXED!! -define(ORB_ENV_SURVIVE_EXIT, 16#200). %% FIXED!! -define(ORB_ENV_USE_ACL_INCOMING, 16#400). %% FIXED!! -define(ORB_ENV_USE_ACL_OUTGOING, 16#800). %% FIXED!! -define(ORB_ENV_LOCAL_INTERFACE, 16#1000). %% FIXED!! -define(ORB_ENV_USE_BI_DIR_IIOP, 16#2000). %% CAN BE CHANGED -define(ORB_ENV_USE_CSIV2, 16#4000). %% CAN BE CHANGED -define(ORB_ENV_EXCLUDE_CODESET_CTX, 16#8000). %% CAN BE CHANGED -define(ORB_ENV_INIT_FLAGS, 16#00). -define(ORB_ENV_FLAGS, [{?ORB_ENV_EXCLUDE_CODESET_CTX, "Exclude CodeSet Ctx"}, {?ORB_ENV_LOCAL_TYPECHECKING, "Local Typechecking"}, {?ORB_ENV_HOSTNAME_IN_IOR, "Use Hostname in IOR"}, {?ORB_ENV_EXCLUDE_CODESET_COMPONENT, "Exclude CodeSet Component"}, {?ORB_ENV_ENABLE_NAT, "NAT Enabled"}, {?ORB_ENV_USE_CSIV2, "CSIv2 Activated"}, {?ORB_ENV_USE_FT, "Fault Tolerance Activated"}, {?ORB_ENV_USE_IPV6, "IPv6 Activated"}, {?ORB_ENV_SURVIVE_EXIT, "EXIT Tolerance Activated"}, {?ORB_ENV_USE_PI, "Local Interceptors"}, {?ORB_ENV_LIGHT_IFR, "Light IFR"}, {?ORB_ENV_USE_BI_DIR_IIOP, "Use BiDirIIOP"}, {?ORB_ENV_USE_ACL_INCOMING, "Use ACL for Incoming Connections"}, {?ORB_ENV_USE_ACL_OUTGOING, "Use ACL for Outgoing Connections"}, {?ORB_ENV_LOCAL_INTERFACE, "Use the Proxy Interface in Exported IOR:s"}]). %%---------------------------------------------------------------------- %% Definition of flag operations %% %%---------------------------------------------------------------------- %% USAGE: Boolean = ?ORB_FLAG_TEST(Flags, ?ORB_SEC_ATTRIBUTES) -define(ORB_FLAG_TEST(_F1, _I1), ((_F1 band _I1) == _I1)). %% USAGE: NewFlags = ?ORB_SET_TRUE(Flags, ?ORB_CONTEXT) -define(ORB_SET_TRUE(_F2, _I2), (_I2 bor _F2)). %% USAGE: NewFlags = ?ORB_SET_FALSE(Flags, ?ORB_CONTEXT) -define(ORB_SET_FALSE(_F3, _I3), ((_I3 bxor 16#ff) band _F3)). %% USAGE: NewFlags = ?ORB_SET_FALSE_LIST(Flags, [?ORB_SEC_ATTRIBUTES, ?ORB_SOME]) -define(ORB_SET_FALSE_LIST(_F4, _IList1), lists:foldl(fun(_I4, _F5) -> ((_I4 bxor 16#ff) band _F5) end, _F4, _IList1)). %% USAGE: NewFlags = ?ORB_SET_TRUE_LIST(Flags, [?ORB_SEC_ATTRIBUTES, ?ORB_SOME]) -define(ORB_SET_TRUE_LIST(_F6, _IList2), lists:foldl(fun(_I6, _F7) -> (_I6 bor _F7) end, _F6, _IList2)). %% USAGE: Boolean = ?ORB_FLAG_TEST_LIST(Flags, [?ORB_CONTEXT, ?ORB_THING]) -define(ORB_FLAG_TEST_LIST(_F8, _IList3), lists:all(fun(_I7) -> ((_F8 band _I7) == _I7) end, _IList3)). %%---------------------------------------------------------------------- %% IOR %% %%---------------------------------------------------------------------- -record('IOP_IOR', {type_id, profiles}). -record('IOP_TaggedProfile', {tag, profile_data}). -record('IIOP_ProfileBody_1_0', {iiop_version, host, port, object_key}). -record('IIOP_ProfileBody_1_1', {iiop_version, host, port, object_key, components}). -record('GIOP_Version', {major, minor}). -record('IIOP_Version', {major, minor}). -record('SSLIOP_SSL', {target_supports, target_requires, port}). -record('IOP_TaggedComponent', {tag, component_data}). -record('GIOP_TargetAddress', {label, value}). -record('GIOP_IORAddressingInfo', {selected_profile_index, ior}). %% %% Nil object reference %% -define(ORBER_NIL_OBJREF, #'IOP_IOR' {type_id = "", profiles = []}). -define(IOR_TYPEDEF, {'tk_struct', ?SYSTEM_TYPE, 'IOP_IOR', [{"type_id", {'tk_string', 0}}, {"profiles", {'tk_sequence', {'tk_struct', ?SYSTEM_TYPE, 'IOP_TaggedProfile', [{"tag", 'tk_ulong'}, {"profile_data", {'tk_sequence', 'tk_octet', 0}}]}, 0}}]}). -define(GIOP_VERSION, {'tk_struct', ?SYSTEM_TYPE, 'GIOP_Version', [{"major", 'tk_octet'}, {"minor", 'tk_octet'}]}). -define(IIOP_VERSION, {'tk_struct', ?SYSTEM_TYPE, 'IIOP_Version', [{"major vsn", 'tk_octet'}, {"minor vsn", 'tk_octet'}]}). -define(IOP_TAGGEDCOMPONENT, {'tk_struct', ?SYSTEM_TYPE, 'IOP_TaggedComponent', [{"tag", 'tk_ulong'}, {"component_data", {'tk_sequence', 'tk_octet', 0}}]}). -define(IOP_TAGGEDCOMPONENT_SEQ, {'tk_sequence', ?IOP_TAGGEDCOMPONENT, 0}). -define(PROFILEBODY_1_0_TYPEDEF, {'tk_struct', ?SYSTEM_TYPE, 'IIOP_ProfileBody_1_0', [{"iiop_version", ?IIOP_VERSION }, {"host", {'tk_string', 0}}, {"port", 'tk_ushort'}, {"object_key", {'tk_sequence', 'tk_octet', 0}}]}). -define(PROFILEBODY_1_1_TYPEDEF, {'tk_struct', ?SYSTEM_TYPE, 'IIOP_ProfileBody_1_1', [{"iiop_version",?IIOP_VERSION }, {"host", {'tk_string', 0}}, {"port", 'tk_ushort'}, {"object_key", {'tk_sequence', 'tk_octet', 0}}, {"components", ?IOP_TAGGEDCOMPONENT_SEQ}]}). -define(PROFILEBODY_1_2_TYPEDEF, {'tk_struct', ?SYSTEM_TYPE, 'IIOP_ProfileBody_1_1', [{"iiop_version",?IIOP_VERSION }, {"host", {'tk_string', 0}}, {"port", 'tk_ushort'}, {"object_key", {'tk_sequence', 'tk_octet', 0}}, {"components", ?IOP_TAGGEDCOMPONENT_SEQ}]}). -define(SSLIOP_SSL, {'tk_struct', ?SYSTEM_TYPE, 'SSLIOP_SSL', [{"target_supports", 'tk_ushort'}, {"target_requires", 'tk_ushort'}, {"port", 'tk_ushort'}]}). -define(GIOP_KeyAddr, 0). -define(GIOP_ProfileAddr, 1). -define(GIOP_ReferenceAddr, 2). -define(TARGETADDRESS, {'tk_union', ?SYSTEM_TYPE, 'GIOP_TargetAddress', 'tk_short', -1, [{?GIOP_KeyAddr, "object_key", {'tk_sequence', 'tk_octet', 0}}, {?GIOP_ProfileAddr, "profile", {'tk_struct', ?SYSTEM_TYPE, 'IOP_TaggedProfile', [{"tag", 'tk_ulong'}, {"profile_data", {'tk_sequence', 'tk_octet', 0}}]}}, {?GIOP_ReferenceAddr, "ior", {'tk_struct', ?SYSTEM_TYPE, 'GIOP_IORAddressingInfo', [{"selected_profile_index", 'tk_ulong'}, {"ior", ?IOR_TYPEDEF}]}}]}). % Zero or more instances of the TAG_ALTERNATE_IIOP_ADDRESS component type % may be included in a version 1.2 TAG_INTERNET_IOP Profile. -record('ALTERNATE_IIOP_ADDRESS', {'HostID', 'Port'}). -define(ALTERNATE_IIOP_ADDRESS, {'tk_struct', ?SYSTEM_TYPE, 'ALTERNATE_IIOP_ADDRESS', [{"HostID", {'tk_string', 0}}, {"Port", 'tk_ushort'}]}). % The TAG_ORB_TYPE component can appear at most once in any IOR profile. For % profiles supporting IIOP 1.1 or greater, it is optionally present. -define(ORB_TYPE, 'tk_ulong'). -record('CONV_FRAME_CodeSetComponent', {native_code_set, conversion_code_sets}). -record('CONV_FRAME_CodeSetComponentInfo', {'ForCharData', 'ForWcharData'}). -define(CONV_FRAME_CODESETCOMPONENT, {'tk_struct', ?SYSTEM_TYPE, 'CONV_FRAME_CodeSetComponent', [{"native_code_set", 'tk_ulong'}, {"conversion_code_sets", {'tk_sequence', 'tk_ulong', 0}}]}). -define(CONV_FRAME_CODESETCOMPONENTINFO, {'tk_struct', ?SYSTEM_TYPE, 'CONV_FRAME_CodeSetComponentInfo', [{"ForCharData", ?CONV_FRAME_CODESETCOMPONENT}, {"ForWcharData", ?CONV_FRAME_CODESETCOMPONENT}]}). -define(DEFAULT_FOR_CHAR, #'CONV_FRAME_CodeSetComponent'{native_code_set=?ISO8859_1_ID, conversion_code_sets=[]}). -define(DEFAULT_FOR_WCHAR, #'CONV_FRAME_CodeSetComponent'{native_code_set=?UTF_16_ID, conversion_code_sets=[]}). -define(DEFAULT_CODESETS, #'CONV_FRAME_CodeSetComponentInfo'{'ForCharData' = ?DEFAULT_FOR_CHAR, 'ForWcharData' = ?DEFAULT_FOR_WCHAR}). %% Fragmentation - IIOP-1.1 & 1.2 -record('GIOP_FragmentHeader_1_2', {request_id}). -define(GIOP_FragmentHeader_1_2, {'tk_struct', ?SYSTEM_TYPE, 'GIOP_FragmentHeader_1_2', [{"request_id", 'tk_ulong'}]}). %%------ MISC Definitions ------- %% TimeBase::TimeT (TimeBase.idl) is defined as %% typedef unsigned long long TimeT; -define(TimeBase_TimeT, 'tk_ulonglong'). %%------ Fault Tolerant Definitions ------- %% Specification for Interoperable Object Group References -define(FT_FTDomainId, {'tk_string', 0}). -define(FT_ObjectGroupId, 'tk_ulonglong'). -define(FT_ObjectGroupRefVersion, 'tk_ulong'). %% A GIOP::Version of 1.0 indicates that the implementation is compliant %% with the CORBA-2.6 specification. %% tag = TAG_FT_GROUP -record('FT_TagFTGroupTaggedComponent', {version = #'GIOP_Version'{major = 1, minor = 0}, ft_domain_id, object_group_id, object_group_ref_version}). -define(FT_TagFTGroupTaggedComponent, {'tk_struct', ?SYSTEM_TYPE, 'FT_TagFTGroupTaggedComponent', [{"version", ?GIOP_VERSION}, {"ft_domain_id", ?FT_FTDomainId}, {"object_group_id", ?FT_ObjectGroupId}, {"object_group_ref_version", ?FT_ObjectGroupRefVersion}]}). %% tag = TAG_FT_PRIMARY; -record('FT_TagFTPrimaryTaggedComponent', {primary}). -define(FT_TagFTPrimaryTaggedComponent, {'tk_struct', ?SYSTEM_TYPE, 'FT_TagFTPrimaryTaggedComponent', [{"primary", 'tk_boolean'}]}). %% Specification for Most Recent Object Group Reference %% context_id = FT_GROUP_VERSION; -record('FT_FTGroupVersionServiceContext', {object_group_ref_version}). -define(FT_FTGroupVersionServiceContext, {'tk_struct', ?SYSTEM_TYPE, 'FT_FTGroupVersionServiceContext', [{"object_group_ref_version", ?FT_ObjectGroupRefVersion}]}). %% Specification for Transparent Reinvocation -define(FT_PolicyType_REQUEST_DURATION_POLICY, 47). %% context_id = FT_REQUEST -record('FT_FTRequestServiceContext', {client_id, retention_id, expiration_time}). -define(FT_FTRequestServiceContext, {'tk_struct', ?SYSTEM_TYPE, 'FT_FTRequestServiceContext', [{"client_id", {'tk_string', 0}}, {"retention_id", 'tk_long'}, {"expiration_time", ?TimeBase_TimeT}]}). %% Specification for Transport Heartbeats -define(FT_PolicyType_HEARTBEAT_POLICY, 48). -define(FT_PolicyType_HEARTBEAT_ENABLED_POLICY, 49). %% tag = TAG_FT_HEARTBEAT_ENABLED; -record('FT_TagFTHeartbeatEnabledTaggedComponent', {heartbeat_enabled}). -define(FT_TagFTHeartbeatEnabledTaggedComponent, {'tk_struct', ?SYSTEM_TYPE, 'FT_TagFTHeartbeatEnabledTaggedComponent', [{"heartbeat_enabled", 'tk_boolean'}]}). %%------ CSI stuff - required by the SAS protocol. ------- %% This constant defines the current level we support. -define(CSIv2_MAX_TARGET_REQUIRES, 16#488). %% NOTE! The OMG VMCID is incorrect in the SAS specification, should be %% OMGVMCID = 0x4f4d0000; -define(CSI_OMGVMCID, ?CORBA_OMGVMCID). %% ASN.1 Encoding of an OBJECT IDENTIFIER -define(CSI_OID, {'tk_sequence', 'tk_octet', 0}). -define(CSI_OIDList, {'tk_sequence', ?CSI_OID, 0}). %% An X509CertificateChain contains an ASN.1 BER encoded SEQUENCE %% [1..MAX] OF X.509 certificates encapsulated in a sequence of octets. The %% subject:s certificate shall come first in the list. Each following %% certificate shall directly certify the one preceding it. The ASN.1 %% representation of Certificate is as defined in [IETF RFC 2459]. -define(CSI_X509CertificateChain, {'tk_sequence', 'tk_octet', 0}). %% an X.501 type name or Distinguished Name encapsulated in a sequence of %% octets containing the ASN.1 encoding. -define(CSI_X501DistinguishedName, {'tk_sequence', 'tk_octet', 0}). %% UTF-8 Encoding of String -define(CSI_UTF8String, {'tk_sequence', 'tk_octet', 0}). %% A sequence of octets containing a GSStoken. Initial context tokens are %% ASN.1 encoded as defined in [IETF RFC 2743] Section 3.1, %% "Mechanism-Independent token Format", pp. 81-82. Initial context tokens %% contain an ASN.1 tag followed by a token length, a mechanism identifier, %% and a mechanism-specific token (i.e. a GSSUP::InitialContextToken). The %% encoding of all other GSS tokens (e.g. error tokens and final context %% tokens) is mechanism dependent. -define(CSI_GSSToken, {'tk_sequence', 'tk_octet', 0}). %% An encoding of a GSS Mechanism-Independent Exported Name Object as %% defined in [IETF RFC 2743] Section 3.2, "GSS Mechanism-Independent %% Exported Name Object Format," p. 84. -define(CSI_GSS_NT_ExportedName, {'tk_sequence', 'tk_octet', 0}). -define(CSI_GSS_NT_ExportedNameList, {'tk_sequence', ?CSI_GSS_NT_ExportedName, 0}). %% The MsgType enumeration defines the complete set of service context %% message types used by the CSI context management protocols, including %% those message types pertaining only to the stateful application of the %% protocols (to insure proper alignment of the identifiers between %% stateless and stateful implementations). Specifically, the %% MTMessageInContext is not sent by stateless clients (although it may %% be received by stateless targets). -define(CSI_MsgType, 'tk_short'). -define(CSI_MsgType_MTEstablishContext, 0). -define(CSI_MsgType_MTCompleteEstablishContext, 1). -define(CSI_MsgType_MTContextError, 4). -define(CSI_MsgType_MTMessageInContext, 5). %% The ContextId type is used carry session identifiers. A stateless %% application of the service context protocol is indicated by a session %% identifier value of 0. -define(CSI_ContextId, 'tk_ulonglong'). %% The AuthorizationElementType defines the contents and encoding of %% the_element field of the AuthorizationElement. %% The high order 20-bits of each AuthorizationElementType constant %% shall contain the Vendor Minor Codeset ID (VMCID) of the %% organization that defined the element type. The low order 12 bits %% shall contain the organization-scoped element type identifier. The %% high-order 20 bits of all element types defined by the OMG shall %% contain the VMCID allocated to the OMG (that is, 0x4F4D0). -define(CSI_AuthorizationElementType, 'tk_ulong'). %% An AuthorizationElementType of X509AttributeCertChain indicates that %% the_element field of the AuthorizationElement contains an ASN.1 BER %% SEQUENCE composed of an (X.509) AttributeCertificate followed by a %% SEQUENCE OF (X.509) Certificate. The two-part SEQUENCE is encapsulated %% in an octet stream. The chain of identity certificates is provided %% to certify the attribute certificate. Each certificate in the chain %% shall directly certify the one preceding it. The first certificate %% in the chain shall certify the attribute certificate. The ASN.1 %% representation of (X.509) Certificate is as defined in [IETF RFC 2459]. %% The ASN.1 representation of (X.509) AtributeCertificate is as defined %% in [IETF ID PKIXAC]. -define(CSI_X509AttributeCertChain, (?CSI_OMGVMCID bor 1)). -define(CSI_AuthorizationElementContents, {'tk_sequence', 'tk_octet', 0}). %% The AuthorizationElement contains one element of an authorization token. %% Each element of an authorization token is logically a PAC. %% The AuthorizationToken is made up of a sequence of AuthorizationElements %% --- NOTE --- %% OMG only defines 'CSI_X509AttributeCertChain' so we use it as default value. -record('CSI_AuthorizationElement', {the_type = ?CSI_X509AttributeCertChain, the_element = []}). -define(CSIIOP_AuthorizationElement, {'tk_struct', ?SYSTEM_TYPE, 'CSI_AuthorizationElement', [{"the_type", ?CSI_AuthorizationElementType}, {"the_element", ?CSI_AuthorizationElementContents}]}). -define(CSI_AuthorizationToken, {'tk_sequence', ?CSIIOP_AuthorizationElement, 0}). %% Additional standard identity token types shall only be defined by the %% OMG. All IdentityTokenType constants shall be a power of 2. -define(CSI_IdentityTokenType, 'tk_ulong'). -define(CSI_IdentityTokenType_ITTAbsent, 0). -define(CSI_IdentityTokenType_ITTAnonymous, 1). -define(CSI_IdentityTokenType_ITTPrincipalName, 2). -define(CSI_IdentityTokenType_ITTX509CertChain, 4). -define(CSI_IdentityTokenType_ITTDistinguishedName, 8). -define(CSI_IdentityExtension, {'tk_sequence', 'tk_octet', 0}). -record('CSI_IdentityToken', {label, value}). -define(CSI_IdentityToken, {'tk_union', ?SYSTEM_TYPE, 'CSI_IdentityToken', ?CSI_IdentityTokenType, 5, [{?CSI_IdentityTokenType_ITTAbsent, "absent", 'tk_boolean'}, {?CSI_IdentityTokenType_ITTAnonymous, "anonymous", 'tk_boolean'}, {?CSI_IdentityTokenType_ITTPrincipalName, "principal_name", ?CSI_GSS_NT_ExportedName}, {?CSI_IdentityTokenType_ITTX509CertChain, "certificate_chain", ?CSI_X509CertificateChain}, {?CSI_IdentityTokenType_ITTDistinguishedName, "dn", ?CSI_X501DistinguishedName}, {default, "id", ?CSI_IdentityExtension}]}). -record('CSI_EstablishContext', {client_context_id, authorization_token, identity_token, client_authentication_token}). -define(CSI_EstablishContext, {'tk_struct', ?SYSTEM_TYPE, 'CSI_EstablishContext', [{"client_context_id", ?CSI_ContextId}, {"authorization_token", ?CSI_AuthorizationToken}, {"identity_token", ?CSI_IdentityToken}, {"client_authentication_token", ?CSI_GSSToken}]}). -record('CSI_CompleteEstablishContext', {client_context_id, context_stateful, final_context_token}). -define(CSI_CompleteEstablishContext, {'tk_struct', ?SYSTEM_TYPE, 'CSI_CompleteEstablishContext', [{"client_context_id", ?CSI_ContextId}, {"context_stateful", 'tk_boolean'}, {"final_context_token", ?CSI_GSSToken}]}). -record('CSI_ContextError', {client_context_id, major_status, minor_status, error_token}). -define(CSI_ContextError, {'tk_struct', ?SYSTEM_TYPE, 'CSI_ContextError', [{"client_context_id", ?CSI_ContextId}, {"major_status", 'tk_long'}, {"minor_status", 'tk_long'}, {"error_token", ?CSI_GSSToken}]}). % Not sent by stateless clients. If received by a stateless server, a % ContextError message should be returned, indicating the session does % not exist. -record('CSI_MessageInContext', {client_context_id, discard_context}). -define(CSI_MessageInContext, {'tk_struct', ?SYSTEM_TYPE, 'CSI_MessageInContext', [{"client_context_id", ?CSI_ContextId}, {"discard_context", 'tk_boolean'}]}). -record('CSI_SASContextBody', {label, value}). -define(CSI_SASContextBody, {'tk_union', ?SYSTEM_TYPE, 'CSI_SASContextBody', ?CSI_MsgType, -1, [{?CSI_MsgType_MTEstablishContext, "establish_msg", ?CSI_EstablishContext}, {?CSI_MsgType_MTCompleteEstablishContext, "complete_msg", ?CSI_CompleteEstablishContext}, {?CSI_MsgType_MTContextError, "error_msg", ?CSI_ContextError}, {?CSI_MsgType_MTMessageInContext, "in_context_msg", ?CSI_MessageInContext}]}). %% The following type represents the string representation of an ASN.1 %% OBJECT IDENTIFIER (OID). OIDs are represented by the string "oid:" %% followed by the integer base 10 representation of the OID separated %% by dots. For example, the OID corresponding to the OMG is represented %% as: "oid:2.23.130" -define(CSI_StringOID, {'tk_string', 0}). %% The GSS Object Identifier for the KRB5 mechanism is: %% { iso(1) member-body(2) United States(840) mit(113554) infosys(1) %% gssapi(2) krb5(2) } %% Type ?CSI_StringOID -define(CSI_KRB5MechOID, "oid:1.2.840.113554.1.2.2"). %% The GSS Object Identifier for name objects of the Mechanism-independent %% Exported Name Object type is: %% { iso(1) org(3) dod(6) internet(1) security(5) nametypes(6) %% gss-api-exported-name(4) } %% Type ?CSI_StringOID -define(CSI_GSS_NT_Export_Name_OID, "oid:1.3.6.1.5.6.4"). %% The GSS Object Identifier for the scoped-username name form is: %% { iso-itu-t (2) international-organization (23) omg (130) security (1) %% naming (2) scoped-username(1) } %% Type ?CSI_StringOID -define(CSI_GSS_NT_Scoped_Username_OID, "oid:2.23.130.1.2.1"). %%------ GSSUP stuff - required by the SAS protocol. ------- %% The GSS Object Identifier allocated for the username/password mechanism is defined %% below. %% { iso-itu-t (2) international-organization (23) omg (130) %% security (1) authentication (1) gssup-mechanism (1) } %% Type ?CSI_StringOID -define(GSSUP_GSSUPMechOID, "oid:2.23.130.1.1.1"). %% The following structure defines the inner contents of the %% username password initial context token. This structure is %% CDR encapsulated and appended at the end of the %% username/password GSS (initial context) Token. -record('GSSUP_InitialContextToken', {username, password, target_name}). -define(GSSUP_InitialContextToken, {'tk_struct', ?SYSTEM_TYPE, 'GSSUP_InitialContextToken', [{"username", ?CSI_UTF8String}, {"password", ?CSI_UTF8String}, {"target_name", ?CSI_GSS_NT_ExportedName}]}). -define(GSSUP_ErrorCode, 'tk_ulong'). %% GSSUP Mechanism-Specific Error Token -record('GSSUP_ErrorToken', {error_code}). -define(GSSUP_ErrorToken, {'tk_struct', ?SYSTEM_TYPE, 'GSSUP_ErrorToken', [{"error_code", ?GSSUP_ErrorCode}]}). %% The context validator has chosen not to reveal the GSSUP %% specific cause of the failure. %% Type ?GSSUP_ErrorCode -define(GSSUP_GSS_UP_S_G_UNSPECIFIED, 1). %% The user identified in the username field of the %% GSSUP::InitialContextToken is unknown to the target. %% Type ?GSSUP_ErrorCode -define(GSSUP_GSS_UP_S_G_NOUSER, 2). %% The password supplied in the GSSUP::InitialContextToken was %% incorrect. %% Type ?GSSUP_ErrorCode -define(GSSUP_GSS_UP_S_G_BAD_PASSWORD, 3). %% The target_name supplied in the GSSUP::InitialContextToken does %% not match a target_name in a mechanism definition of the target. %% Type ?GSSUP_ErrorCode -define(GSSUP_GSS_UP_S_G_BAD_TARGET, 4). %%----- CSIIOP stuff - required by the SAS protocol. ----- % AssociationOptions -define(CSIIOP_AssociationOptions, 'tk_ushort'). %% AssociationOptions - constant definitions -define(CSIIOP_AssociationOptions_NoProtection, 1). -define(CSIIOP_AssociationOptions_Integrity, 2). -define(CSIIOP_AssociationOptions_Confidentiality, 4). -define(CSIIOP_AssociationOptions_DetectReplay, 8). -define(CSIIOP_AssociationOptions_DetectMisordering, 16). -define(CSIIOP_AssociationOptions_EstablishTrustInTarget, 32). -define(CSIIOP_AssociationOptions_EstablishTrustInClient, 64). -define(CSIIOP_AssociationOptions_NoDelegation, 128). -define(CSIIOP_AssociationOptions_SimpleDelegation, 256). -define(CSIIOP_AssociationOptions_CompositeDelegation, 512). -define(CSIIOP_AssociationOptions_IdentityAssertion, 1024). -define(CSIIOP_AssociationOptions_DelegationByClient, 2048). %% The high order 20-bits of each ServiceConfigurationSyntax constant %% shall contain the Vendor Minor Codeset ID (VMCID) of the %% organization that defined the syntax. The low order 12 bits shall %% contain the organization-scoped syntax identifier. The high-order 20 %% bits of all syntaxes defined by the OMG shall contain the VMCID %% allocated to the OMG (that is, 0x4F4D0). %% NOTE! The OMG VMCID is incorrect in the SAS specification, should be %% OMGVMCID = 0x4f4d0000; -define(CSIIOP_ServiceConfigurationSyntax, 'tk_ulong'). -define(CSIIOP_ServiceConfigurationSyntax_SCS_GeneralNames, (?CSI_OMGVMCID bor 0)). -define(CSIIOP_ServiceConfigurationSyntax_SCS_GSSExportedName, (?CSI_OMGVMCID bor 1)). -define(CSIIOP_ServiceSpecificName, {'tk_sequence', 'tk_octet', 0}). %% The name field of the ServiceConfiguration structure identifies a %% privilege authority in the format identified in the syntax field. If the %% syntax is SCS_GeneralNames, the name field contains an ASN.1 (BER) %% SEQUENCE [1..MAX] OF GeneralName, as defined by the type GeneralNames in %% [IETF RFC 2459]. If the syntax is SCS_GSSExportedName, the name field %% contains a GSS exported name encoded according to the rules in %% [IETF RFC 2743] Section 3.2, "Mechanism-Independent Exported Name %% Object Format," p. 84 (CORBA-2.6) -record('CSIIOP_ServiceConfiguration', {syntax, name}). -define(CSIIOP_ServiceConfiguration, {'tk_struct', ?SYSTEM_TYPE, 'CSIIOP_ServiceConfiguration', [{"syntax", ?CSIIOP_ServiceConfigurationSyntax}, {"name", ?CSIIOP_ServiceSpecificName}]}). -define(CSIIOP_ServiceConfigurationList, {'tk_sequence', ?CSIIOP_ServiceConfiguration, 0}). %% The body of the TAG_NULL_TAG component is a sequence of octets of %% length 0. %% type used to define AS layer functionality within a compound mechanism %% definition -record('CSIIOP_AS_ContextSec', {target_supports = 0, target_requires = 0, client_authentication_mech, target_name}). -define(CSIIOP_AS_ContextSec, {'tk_struct', ?SYSTEM_TYPE, 'CSIIOP_AS_ContextSec', [{"target_supports", ?CSIIOP_AssociationOptions}, {"target_requires", ?CSIIOP_AssociationOptions}, {"client_authentication_mech", ?CSI_OID}, {"target_name", ?CSI_GSS_NT_ExportedName}]}). %% type used to define SAS layer functionality within a compound mechanism %% definition -record('CSIIOP_SAS_ContextSec', {target_supports = 0, target_requires = 0, privilege_authorities, supported_naming_mechanisms, supported_identity_types}). -define(CSIIOP_SAS_ContextSec, {'tk_struct', ?SYSTEM_TYPE, 'CSIIOP_SAS_ContextSec', [{"target_supports", ?CSIIOP_AssociationOptions}, {"target_requires", ?CSIIOP_AssociationOptions}, {"privilege_authorities", ?CSIIOP_ServiceConfigurationList}, {"supported_naming_mechanisms", ?CSI_OIDList}, {"supported_identity_types", ?CSI_IdentityTokenType}]}). %% Type used in the body of a TAG_CSI_SEC_MECH_LIST component to describe a %% compound mechanism -record('CSIIOP_CompoundSecMech', {target_requires = 0, transport_mech, as_context_mech, sas_context_mech}). -define(CSIIOP_CompoundSecMech, {'tk_struct', ?SYSTEM_TYPE, 'CSIIOP_CompoundSecMech', [{"target_requires", ?CSIIOP_AssociationOptions}, {"transport_mech", ?IOP_TAGGEDCOMPONENT}, {"as_context_mech", ?CSIIOP_AS_ContextSec}, {"sas_context_mech", ?CSIIOP_SAS_ContextSec}]}). -define(CSIIOP_CompoundSecMechanisms, {'tk_sequence', ?CSIIOP_CompoundSecMech, 0}). %% type corresponding to the body of a TAG_CSI_SEC_MECH_LIST component -record('CSIIOP_CompoundSecMechList', {stateful = false, mechanism_list}). -define(CSIIOP_CompoundSecMechList, {'tk_struct', ?SYSTEM_TYPE, 'CSIIOP_CompoundSecMechList', [{"stateful", 'tk_boolean'}, {"mechanism_list", ?CSIIOP_CompoundSecMechanisms}]}). %% CSIIOP::TransportAddress -record('CSIIOP_TransportAddress', {host_name, port}). -define(CSIIOP_TransportAddress, {'tk_struct', ?SYSTEM_TYPE, 'CSIIOP_TransportAddress', [{"host_name", {'tk_string', 0}}, {"port", 'tk_ushort'}]}). -define(CSIIOP_TransportAddressList, {'tk_sequence', ?CSIIOP_TransportAddress, 0}). %% Tagged component (TAG_TLS_SEC_TRANS) for configuring TLS/SSL as a CSIv2 %% transport mechanism. -record('CSIIOP_TLS_SEC_TRANS', {target_supports, target_requires, addresses}). -define(CSIIOP_TLS_SEC_TRANS, {'tk_struct', ?SYSTEM_TYPE, 'CSIIOP_TLS_SEC_TRANS', [{"target_supports", ?CSIIOP_AssociationOptions}, {"target_requires", ?CSIIOP_AssociationOptions}, {"addresses", ?CSIIOP_TransportAddressList}]}). %% Tagged component (TAG_SECIOP_SEC_TRANS) for configuring SECIOP as a CSIv2 %% transport mechanism -record('CSIIOP_SECIOP_SEC_TRANS', {target_supports = 0, target_requires = 0, mech_oid, target_name, addresses}). -define(CSIIOP_SECIOP_SEC_TRANS, {'tk_struct', ?SYSTEM_TYPE, 'CSIIOP_SECIOP_SEC_TRANS', [{"target_supports", ?CSIIOP_AssociationOptions}, {"target_requires", ?CSIIOP_AssociationOptions}, {"mech_oid", ?CSI_OID}, {"target_name", ?CSI_GSS_NT_ExportedName}, {"addresses", ?CSIIOP_TransportAddressList}]}). %%-- ServiceContext ID's ------------ %% Describes what type of context included, i.e., %% typedef unsigned long ServiceId; %% struct ServiceContext { %% ServiceId context_id; %% sequence context_data; %% }; %% The record is defined in include/corba.hrl. %%-record('IOP_ServiceContext', {context_id, context_data}). -define(IOP_SERVICECONTEXT, {'tk_sequence', {'tk_struct', ?SYSTEM_TYPE, 'IOP_ServiceContext', [{"context_id", 'tk_ulong'}, {"context_data", {'tk_sequence', 'tk_octet', 0}}]}, 0}). -record('CONV_FRAME_CodeSetContext', {char_data, wchar_data}). -define(CONV_FRAME_CODESETCONTEXT, {'tk_struct', ?SYSTEM_TYPE, 'CONV_FRAME_CodeSetContext', [{"char_data", 'tk_ulong'}, {"wchar_data", 'tk_ulong'}]}). -record('IIOP_ListenPoint', {host, port}). -define(IIOP_LISTENPOINT, {'tk_struct', ?SYSTEM_TYPE, 'IIOP_ListenPoint', [{"host", {'tk_string', 0}}, {"port", 'tk_ushort'}]}). -record('IIOP_BiDirIIOPServiceContext', {listen_points}). -define(IIOP_BIDIRIIOPSERVICECONTEXT, {'tk_struct', ?SYSTEM_TYPE, 'IIOP_BiDirIIOPServiceContext', [{"listen_points", {'tk_sequence', ?IIOP_LISTENPOINT, 0}}]}). -define(IOP_TransactionService, 0). -define(IOP_CodeSets, 1). -define(IOP_ChainBypassCheck, 2). -define(IOP_ChainBypassInfo, 3). -define(IOP_LogicalThreadId, 4). -define(IOP_BI_DIR_IIOP, 5). -define(IOP_SendingContextRunTime, 6). -define(IOP_INVOCATION_POLICIES, 7). -define(IOP_FORWARDED_IDENTITY, 8). -define(IOP_UnknownExceptionInfo, 9). -define(IOP_RTCorbaPriority, 10). -define(IOP_RTCorbaPriorityRange, 11). -define(IOP_FT_GROUP_VERSION, 12). -define(IOP_FT_REQUEST, 13). -define(IOP_ExceptionDetailMessage, 14). -define(IOP_SecurityAttributeService, 15). %%---------------------------------------------------------------------- %% host_data %%---------------------------------------------------------------------- -record(host_data, {protocol = normal, ssl_data, version, csiv2_mech, csiv2_statefull = false, csiv2_addresses = [], charset = ?ISO8859_1_ID, wcharset = ?UTF_16_ID, ft_heartbeat = false, ft_primary = false, ft_domain, ft_group, ft_ref_version}). %%---------------------------------------------------------------------- %% giop_env %%---------------------------------------------------------------------- -record(giop_env, {interceptors, type, version, bytes, ctx = [], request_id, op, parameters = [], tc, response_expected, objkey, reply_status, result, flags, host, iiop_port, iiop_ssl_port, domain, partial_security}). -endif. %%---------------------------------------------------------------------- %% END OF MODULE %%----------------------------------------------------------------------