%%-------------------------------------------------------------------- %% %% %CopyrightBegin% %% %% Copyright Ericsson AB 1997-2016. 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: cdr_encode.erl %% %% Description: %% This file contains all encoding functions for the CDR %% format. %% %%----------------------------------------------------------------- -module(cdr_encode). -include_lib("orber/include/corba.hrl"). -include_lib("orber/src/orber_iiop.hrl"). %%----------------------------------------------------------------- %% External exports %%----------------------------------------------------------------- -export([enc_giop_msg_type/1, enc_request/1, enc_request_split/1, enc_reply/1, enc_reply_split/1, enc_type/3, enc_type/5, enc_cancel_request/1, enc_locate_request/1, enc_locate_reply/1, enc_close_connection/1, enc_message_error/1, enc_fragment/1, enc_giop_message_header/5, validate_request_body/1, validate_reply_body/2]). %%----------------------------------------------------------------- %% Internal exports %%----------------------------------------------------------------- -export([]). %%----------------------------------------------------------------- %% Macros %%----------------------------------------------------------------- -define(DEBUG_LEVEL, 9). -define(ODD(N), (N rem 2) == 1). %%----------------------------------------------------------------- %% External functions %%----------------------------------------------------------------- %%----------------------------------------------------------------- %% Func: enc_giop_message_header/5 %%----------------------------------------------------------------- %% The header size is known so we know that the size will be aligned. %% MessSize already includes the header length. %%----------------------------------------------------------------- enc_giop_message_header(#giop_env{version = {Major,Minor}}, MessType, _Flags, MessSize, Message) -> Type = enc_giop_msg_type(MessType), %% The Flag handling must be fixed, i.e., it's not correct to only use '0'. %% If IIOP-1.0 a boolean (FALSE == 0), otherwise, IIOP-1.1 or 1.2, %% an octet. The octet bits represents: %% * The least significant the byteorder (0 eq. big-endian) %% * The second least significant indicates if the message is fragmented. %% If set to 0 it's not fragmented. %% * The most significant 6 bits are reserved. Hence, must be set to 0. %% Since we currently don't support fragmented messages and we always %% encode using big-endian it's ok to use '0' for now. list_to_binary([ <<"GIOP",Major:8,Minor:8,0:8, Type:8,MessSize:32/big-unsigned-integer>> | Message]). enc_byte_order(Env, Message) -> enc_type('tk_boolean', Env, 'false', Message, 0). %%----------------------------------------------------------------- %% Func: enc_parameters/2 %%----------------------------------------------------------------- enc_parameters(_, [], [], Message, Len) -> {Message, Len}; enc_parameters(_, [], P, _, _) -> orber:dbg("[~p] cdr_encode:encode_parameters(~p); to many parameters.", [?LINE, P], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 17), completion_status=?COMPLETED_MAYBE}); enc_parameters(_, _, [], TC, _) -> orber:dbg("[~p] cdr_encode:encode_parameters(~p); to few parameters.", [?LINE, TC], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 17), completion_status=?COMPLETED_MAYBE}); enc_parameters(Env, [PT1 |TypeList], [ P1 | Parameters], Message, Len) -> {Message1, Len1} = enc_type(PT1, Env, P1, Message, Len), enc_parameters(Env, TypeList, Parameters, Message1, Len1). %%----------------------------------------------------------------- %% Func: enc_request/8 %%----------------------------------------------------------------- %% ## NEW IIOP 1.2 ## enc_request(#giop_env{version = {1,2}} = Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_response_flags(Env, Message, Len), {Message2, Len2} = enc_reserved(Env, {0,0,0}, Message1, Len1), {Message3, Len3} = enc_target_address(Env, Message2, Len2), {Message4, Len4} = enc_operation(Env, Message3, Len3), {Message5, Len5} = enc_service_context(Env, Message4, Len4), {Message6, Len6} = enc_request_body(Env, Message5, Len5), enc_giop_message_header(Env, 'request', Flags, Len6 - ?GIOP_HEADER_SIZE, lists:reverse(Message6)); enc_request(#giop_env{version = Version} = Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message0, Len0} = enc_service_context(Env, [], ?GIOP_HEADER_SIZE), {Message, Len} = enc_request_id(Env, Message0, Len0), {Message1, Len1} = enc_response(Env, Message, Len), {Message1b, Len1b} = if Version /= {1,0} -> enc_reserved(Env, {0,0,0}, Message1, Len1); true -> {Message1, Len1} end, {Message2, Len2} = enc_object_key(Env, Message1b, Len1b), {Message3, Len3} = enc_operation(Env, Message2, Len2), {Message4, Len4} = enc_principal(Env, Message3, Len3), {Message5, Len5} = enc_request_body(Env, Message4, Len4), enc_giop_message_header(Env, 'request', Flags, Len5 - ?GIOP_HEADER_SIZE, lists:reverse(Message5)). %% ## NEW IIOP 1.2 ## enc_request_split(#giop_env{version = {1,2}} = Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_response_flags(Env, Message, Len), {Message2, Len2} = enc_reserved(Env, {0,0,0}, Message1, Len1), {Message3, Len3} = enc_target_address(Env, Message2, Len2), {Message4, Len4} = enc_operation(Env, Message3, Len3), {Message5, Len5} = enc_service_context(Env, Message4, Len4), {Body, Len6} = enc_request_body(Env, [], Len5), {lists:reverse(Message5), list_to_binary(lists:reverse(Body)), Len5 - ?GIOP_HEADER_SIZE, Len6-Len5, Flags}; enc_request_split(#giop_env{version = Version} = Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message0, Len0} = enc_service_context(Env, [], ?GIOP_HEADER_SIZE), {Message, Len} = enc_request_id(Env, Message0, Len0), {Message1, Len1} = enc_response(Env, Message, Len), {Message1b, Len1b} = if Version /= {1,0} -> enc_reserved(Env, {0,0,0}, Message1, Len1); true -> {Message1, Len1} end, {Message2, Len2} = enc_object_key(Env, Message1b, Len1b), {Message3, Len3} = enc_operation(Env, Message2, Len2), {Message4, Len4} = enc_principal(Env, Message3, Len3), {Body, Len5} = enc_request_body(Env, [], Len4), {lists:reverse(Message4), list_to_binary(lists:reverse(Body)), Len4 - ?GIOP_HEADER_SIZE, Len5-Len4, Flags}. enc_principal(Env, Mess, Len) -> enc_type({'tk_string', 0}, Env, atom_to_list(node()), Mess, Len). enc_operation(Env, Mess, Len) -> enc_type({'tk_string', 0}, Env, atom_to_list(Env#giop_env.op), Mess, Len). enc_object_key(Env, Mess, Len) -> enc_type({'tk_sequence', 'tk_octet', 0}, Env, Env#giop_env.objkey, Mess, Len). enc_reserved(Env, Reserved, Mess, Len) -> enc_type({'tk_array', 'tk_octet', 3}, Env, Reserved, Mess, Len). enc_response(Env, Mess, Len) -> enc_type('tk_boolean', Env, Env#giop_env.response_expected, Mess, Len). enc_request_id(Env, Mess, Len) -> enc_type('tk_ulong', Env, Env#giop_env.request_id, Mess, Len). enc_service_context(Env, Message, Len) -> Ctxs = enc_used_contexts(Env, Env#giop_env.ctx, []), enc_type(?IOP_SERVICECONTEXT, Env, Ctxs, Message, Len). enc_used_contexts(_Env, [], Message) -> Message; enc_used_contexts(#giop_env{version = {1, 0}} = Env, [#'IOP_ServiceContext'{context_id=?IOP_CodeSets}|T], Ctxs) -> %% Not supported by 1.0, drop it. enc_used_contexts(Env, T, Ctxs); enc_used_contexts(Env, [#'IOP_ServiceContext'{context_id=?IOP_CodeSets, context_data = CodeSetCtx}|T], Ctxs) -> %% Encode ByteOrder {Bytes0, Len0} = cdr_encode:enc_type('tk_octet', Env, 0, [], 0), {Bytes1, _Len1} = enc_type(?CONV_FRAME_CODESETCONTEXT, Env, CodeSetCtx, Bytes0, Len0), Bytes = list_to_binary(lists:reverse(Bytes1)), enc_used_contexts(Env, T, [#'IOP_ServiceContext'{context_id=?IOP_CodeSets, context_data = Bytes}|Ctxs]); enc_used_contexts(Env, [#'IOP_ServiceContext'{context_id=?IOP_BI_DIR_IIOP, context_data = BiDirCtx}|T], Ctxs) -> %% Encode ByteOrder {Bytes0, Len0} = cdr_encode:enc_type('tk_octet', Env, 0, [], 0), {Bytes1, _Len1} = enc_type(?IIOP_BIDIRIIOPSERVICECONTEXT, Env, BiDirCtx, Bytes0, Len0), Bytes = list_to_binary(lists:reverse(Bytes1)), enc_used_contexts(Env, T, [#'IOP_ServiceContext'{context_id=?IOP_BI_DIR_IIOP, context_data = Bytes}|Ctxs]); enc_used_contexts(Env, [#'IOP_ServiceContext'{context_id=?IOP_FT_REQUEST, context_data = Ctx}|T], Ctxs) -> %% Encode ByteOrder {Bytes0, Len0} = cdr_encode:enc_type('tk_octet', Env, 0, [], 0), {Bytes1, _Len1} = enc_type(?FT_FTRequestServiceContext, Env, Ctx, Bytes0, Len0), Bytes = list_to_binary(lists:reverse(Bytes1)), enc_used_contexts(Env, T, [#'IOP_ServiceContext'{context_id=?IOP_FT_REQUEST, context_data = Bytes}|Ctxs]); enc_used_contexts(Env, [#'IOP_ServiceContext'{context_id=?IOP_FT_GROUP_VERSION, context_data = Ctx}|T], Ctxs) -> %% Encode ByteOrder {Bytes0, Len0} = cdr_encode:enc_type('tk_octet', Env, 0, [], 0), {Bytes1, _Len1} = enc_type(?FT_FTGroupVersionServiceContext, Env, Ctx, Bytes0, Len0), Bytes = list_to_binary(lists:reverse(Bytes1)), enc_used_contexts(Env, T, [#'IOP_ServiceContext'{context_id=?IOP_FT_GROUP_VERSION, context_data = Bytes}|Ctxs]); enc_used_contexts(Env, [#'IOP_ServiceContext'{context_id=?IOP_SecurityAttributeService, context_data = Ctx}|T], Ctxs) -> %% Encode ByteOrder {Bytes0, Len0} = cdr_encode:enc_type('tk_octet', Env, 0, [], 0), {Bytes1, _Len1} = enc_type(?CSI_SASContextBody, Env, Ctx, Bytes0, Len0), Bytes = list_to_binary(lists:reverse(Bytes1)), enc_used_contexts(Env, T, [#'IOP_ServiceContext'{context_id=?IOP_SecurityAttributeService, context_data = Bytes}|Ctxs]); enc_used_contexts(Env, [#'IOP_ServiceContext'{context_id=?ORBER_GENERIC_CTX_ID, context_data = {interface, _I}}|T], Ctxs) -> %% This shall not be forwarded. enc_used_contexts(Env, T, Ctxs); enc_used_contexts(Env, [#'IOP_ServiceContext'{context_id=?ORBER_GENERIC_CTX_ID, context_data = {configuration, _O}}|T], Ctxs) -> %% This shall not be forwarded. enc_used_contexts(Env, T, Ctxs); enc_used_contexts(Env, [#'IOP_ServiceContext'{context_id=?ORBER_GENERIC_CTX_ID, context_data = Ctx}|T], Ctxs) -> %% Encode ByteOrder {Bytes0, Len0} = cdr_encode:enc_type('tk_octet', Env, 0, [], 0), {Bytes1, _Len1} = enc_type(?ORBER_GENERIC_CTX, Env, binary_to_list(term_to_binary(Ctx)), Bytes0, Len0), Bytes = list_to_binary(lists:reverse(Bytes1)), enc_used_contexts(Env, T, [#'IOP_ServiceContext'{context_id=?ORBER_GENERIC_CTX_ID, context_data = Bytes}|Ctxs]); enc_used_contexts(Env, [H|T], Ctxs) -> enc_used_contexts(Env, T, [H|Ctxs]). %% ## NEW IIOP 1.2 ## enc_target_address(#giop_env{objkey = TargetAddr} = Env, Mess, Len) when is_record(TargetAddr, 'GIOP_TargetAddress') -> enc_type(?TARGETADDRESS, Env, TargetAddr, Mess, Len); enc_target_address(#giop_env{objkey = IORInfo} = Env, Mess, Len) when is_record(IORInfo, 'GIOP_IORAddressingInfo') -> enc_type(?TARGETADDRESS, Env, #'GIOP_TargetAddress'{label = ?GIOP_ReferenceAddr, value = IORInfo}, Mess, Len); enc_target_address(#giop_env{objkey = TP} = Env, Mess, Len) when is_record(TP, 'IOP_TaggedProfile') -> enc_type(?TARGETADDRESS, Env, #'GIOP_TargetAddress'{label = ?GIOP_ProfileAddr, value = TP}, Mess, Len); enc_target_address(#giop_env{objkey = ObjKey} = Env, Mess, Len) -> enc_type(?TARGETADDRESS, Env, #'GIOP_TargetAddress'{label = ?GIOP_KeyAddr, value = ObjKey}, Mess, Len). %% FIX ME!! This is temporary, not proper flag handling. enc_response_flags(#giop_env{response_expected = true} = Env, Mess, Len) -> enc_type('tk_octet', Env, 3, Mess, Len); enc_response_flags(#giop_env{response_expected = false} = Env, Mess, Len) -> enc_type('tk_octet', Env, 0, Mess, Len). %%----------------------------------------------------------------- %% Func: enc_request_body/5 %%----------------------------------------------------------------- enc_request_body(#giop_env{tc = {_, [], _}}, Message, Len) -> %% This case is used to avoid adding alignment even though no body will be added. {Message, Len}; enc_request_body(#giop_env{version = {1,2}, tc = {_RetType, InParameters, _OutParameters}, parameters = Parameters} = Env, Message, Len) -> {Message1, Len1} = enc_align(Message, Len, 8), enc_parameters(Env, InParameters, Parameters, Message1, Len1); enc_request_body(#giop_env{tc = {_RetType, InParameters, _OutParameters}, parameters = Parameters} = Env, Message, Len) -> enc_parameters(Env, InParameters, Parameters, Message, Len). %%----------------------------------------------------------------- %% Func: validate_request_body/1 %%----------------------------------------------------------------- validate_request_body(#giop_env{tc = {_RetType, InParameters, _OutParameters}, parameters = Parameters} = Env) -> enc_parameters(Env, InParameters, Parameters, [], 0). %%----------------------------------------------------------------- %% Func: enc_reply/6 %%----------------------------------------------------------------- %% ## NEW IIOP 1.2 ## enc_reply(#giop_env{version = {1,2}} = Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_reply_status(Env, Message, Len), {Message2, Len2} = enc_service_context(Env, Message1, Len1), {Message3, Len3} = enc_reply_body(Env, Message2, Len2), enc_giop_message_header(Env, 'reply', Flags, Len3 - ?GIOP_HEADER_SIZE, lists:reverse(Message3)); enc_reply(Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_service_context(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_request_id(Env, Message, Len), {Message2, Len2} = enc_reply_status(Env, Message1, Len1), {Message3, Len3} = enc_reply_body(Env, Message2, Len2), enc_giop_message_header(Env, 'reply', Flags, Len3 - ?GIOP_HEADER_SIZE, lists:reverse(Message3)). %% ## NEW IIOP 1.2 ## enc_reply_split(#giop_env{version = {1,2}} = Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len0} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_reply_status(Env, Message, Len0), {Message2, Len2} = enc_service_context(Env, Message1, Len1), {Body, Len} = enc_reply_body(Env, [], Len2), {lists:reverse(Message2), list_to_binary(lists:reverse(Body)), Len2 - ?GIOP_HEADER_SIZE, Len-Len2, Flags}; enc_reply_split(Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len0} = enc_service_context(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_request_id(Env, Message, Len0), {Message2, Len2} = enc_reply_status(Env, Message1, Len1), {Body, Len} = enc_reply_body(Env, [], Len2), {lists:reverse(Message2), list_to_binary(lists:reverse(Body)), Len2 - ?GIOP_HEADER_SIZE, Len-Len2, Flags}. enc_reply_status(Env, Mess, Len) -> L = enc_giop_reply_status_type(Env#giop_env.reply_status), enc_type('tk_ulong', Env, L, Mess, Len). %%----------------------------------------------------------------- %% Func: enc_reply_body/6 %%----------------------------------------------------------------- enc_reply_body(#giop_env{tc = {'tk_void', _, []}, result = ok, parameters = []}, Message, Len) -> %% This case is mainly to be able to avoid adding alignment for %% IIOP-1.2 messages if the body should be empty, i.e., void return value and %% no out parameters. {Message, Len}; enc_reply_body(#giop_env{version = {1,2}, tc = {RetType, _InParameters, OutParameters}, parameters = Parameters, result = Result} = Env, Message, Len) -> {Message1, Len1} = enc_align(Message, Len, 8), {Message2, Len2} = enc_type(RetType, Env, Result, Message1, Len1), enc_parameters(Env, OutParameters, Parameters, Message2, Len2); enc_reply_body(#giop_env{tc = {RetType, _InParameters, OutParameters}, parameters = Parameters, result = Result} = Env, Message, Len) -> {Message1, Len1} = enc_type(RetType, Env, Result, Message, Len), enc_parameters(Env, OutParameters, Parameters, Message1, Len1). %%----------------------------------------------------------------- %% Func: validate_reply_body/3 %%----------------------------------------------------------------- validate_reply_body(Env, {'EXCEPTION', Exception}) -> {TypeOfException, ExceptionTypeCode, NewExc} = orber_exceptions:get_def(Exception), {'tk_except', TypeOfException, ExceptionTypeCode, (catch enc_reply_body(Env#giop_env{tc = {ExceptionTypeCode, [], []}, result = NewExc, parameters = []}, [], 0))}; validate_reply_body(#giop_env{tc = {_RetType, _InParameters, []}} = Env, Reply) -> enc_reply_body(Env#giop_env{result = Reply}, [], 0); validate_reply_body(Env, Reply) when is_tuple(Reply) -> [Result|Parameters] = tuple_to_list(Reply), enc_reply_body(Env#giop_env{result = Result, parameters = Parameters}, [], 0); validate_reply_body(Env, Reply) -> enc_reply_body(Env#giop_env{result = Reply}, [], 0). %%----------------------------------------------------------------- %% Func: enc_cancel_request/2 %%----------------------------------------------------------------- enc_cancel_request(Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), enc_giop_message_header(Env, 'cancel_request', Flags, Len - ?GIOP_HEADER_SIZE, lists:reverse(Message)). %%----------------------------------------------------------------- %% Func: enc_locate_request/3 %%----------------------------------------------------------------- %% ## NEW IIOP 1.2 ## enc_locate_request(#giop_env{version = {1,2}} = Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_target_address(Env, Message, Len), enc_giop_message_header(Env, 'locate_request', Flags, Len1-?GIOP_HEADER_SIZE, lists:reverse(Message1)); enc_locate_request(Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_object_key(Env, Message, Len), enc_giop_message_header(Env, 'locate_request', Flags, Len1-?GIOP_HEADER_SIZE, lists:reverse(Message1)). %%----------------------------------------------------------------- %% Func: enc_locate_reply %%----------------------------------------------------------------- %% No forward etc. Just encode the status. enc_locate_reply(#giop_env{tc = undefined} = Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_locate_status(Env, Message, Len), enc_giop_message_header(Env, 'locate_reply', Flags, Len1 - ?GIOP_HEADER_SIZE, lists:reverse(Message1)); enc_locate_reply(Env) -> Flags = 1, %% LTH Not correct, just placeholder {Message, Len} = enc_request_id(Env, [], ?GIOP_HEADER_SIZE), {Message1, Len1} = enc_locate_status(Env, Message, Len), {Message2, Len2} = enc_locate_reply_body(Env, Message1, Len1), enc_giop_message_header(Env, 'locate_reply', Flags, Len2 - ?GIOP_HEADER_SIZE, lists:reverse(Message2)). enc_locate_reply_body(#giop_env{tc = TC, result = Data} = Env, Message, Len) -> %% In CORBA-2.3.1 the LocateReply body didn't align the body (8-octet %% boundry) for IIOP-1.2. This have been changed in later specs. %% Un-comment the line below when we want to be CORBA-2.4 compliant. %% But in CORB-2.6 this was changed once again (i.e. no alignment). %% The best solution is to keep it as is. enc_type(TC, Env, Data, Message, Len). enc_locate_status(Env, Mess, Len) -> L = enc_giop_locate_status_type(Env#giop_env.reply_status), enc_type('tk_ulong', Env, L, Mess, Len). %%----------------------------------------------------------------- %% Func: enc_close_connection/1 %%----------------------------------------------------------------- enc_close_connection(Env) -> Flags = 1, %% LTH Not correct, just placeholder enc_giop_message_header(Env, 'close_connection', Flags, 0, []). %%----------------------------------------------------------------- %% Func: enc_message_error/1 %%----------------------------------------------------------------- enc_message_error(Env) -> Flags = 1, %% LTH Not correct, just placeholder enc_giop_message_header(Env, 'message_error', Flags, 0, []). %%----------------------------------------------------------------- %% Func: enc_fragment/1 %%----------------------------------------------------------------- enc_fragment(Env) -> Flags = 1, %% LTH Not correct, just placeholder enc_giop_message_header(Env, 'fragment', Flags, 0, []). %%----------------------------------------------------------------- %% Func: enc_giop_msg_type %% Args: An integer message type code %% Returns: An atom which is the message type code name %%----------------------------------------------------------------- enc_giop_msg_type('request') -> 0; enc_giop_msg_type('reply') -> 1; enc_giop_msg_type('cancel_request') -> 2; enc_giop_msg_type('locate_request') -> 3; enc_giop_msg_type('locate_reply') -> 4; enc_giop_msg_type('close_connection') -> 5; enc_giop_msg_type('message_error') -> 6; enc_giop_msg_type('fragment') -> 7. %%----------------------------------------------------------------- %% Func: enc_giop_reply_status_type %% Args: An atom which is the reply status %% Returns: An integer status code %%----------------------------------------------------------------- enc_giop_reply_status_type(?NO_EXCEPTION) -> 0; enc_giop_reply_status_type(?USER_EXCEPTION) -> 1; enc_giop_reply_status_type(?SYSTEM_EXCEPTION) -> 2; enc_giop_reply_status_type('location_forward') -> 3; %% ## NEW IIOP 1.2 ## enc_giop_reply_status_type('location_forward_perm') -> 4; enc_giop_reply_status_type('needs_addressing_mode') -> 5. %%----------------------------------------------------------------- %% Func: enc_giop_locate_status_type %% Args: An integer status code %% Returns: An atom which is the reply status %%----------------------------------------------------------------- enc_giop_locate_status_type('unknown_object') -> 0; enc_giop_locate_status_type('object_here') -> 1; enc_giop_locate_status_type('object_forward') -> 2; %% ## NEW IIOP 1.2 ## enc_giop_locate_status_type('object_forward_perm') -> 3; enc_giop_locate_status_type('loc_system_exception') -> 4; enc_giop_locate_status_type('loc_needs_addressing_mode') -> 5. %%----------------------------------------------------------------- %% Func: enc_type/3 %%----------------------------------------------------------------- enc_type(Env, TypeCode, Value) -> {Bytes, _Len} = enc_type(TypeCode, Env, Value, [], 0), list_to_binary(lists:reverse(Bytes)). %%----------------------------------------------------------------- %% Func: enc_type/5 %%----------------------------------------------------------------- enc_type('tk_null', _Env, null, Bytes, Len) -> {Bytes, Len}; enc_type('tk_void', _Env, ok, Bytes, Len) -> {Bytes, Len}; enc_type('tk_short', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 2), {cdrlib:enc_short(Value, Rest), Len1 + 2}; enc_type('tk_long', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 4), {cdrlib:enc_long(Value, Rest ), Len1 + 4}; enc_type('tk_longlong', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 8), {cdrlib:enc_longlong(Value, Rest ), Len1 + 8}; enc_type('tk_ushort', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 2), {cdrlib:enc_unsigned_short(Value, Rest), Len1 + 2}; enc_type('tk_ulong', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 4), {cdrlib:enc_unsigned_long(Value, Rest), Len1 + 4}; enc_type('tk_ulonglong', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 8), {cdrlib:enc_unsigned_longlong(Value, Rest), Len1 + 8}; enc_type('tk_float', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 4), {cdrlib:enc_float(Value, Rest), Len1 + 4}; enc_type('tk_double', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 8), {cdrlib:enc_double(Value, Rest), Len1 + 8}; enc_type('tk_boolean', _Env, Value, Bytes, Len) -> {cdrlib:enc_bool(Value, Bytes), Len + 1}; enc_type('tk_char', _Env, Value, Bytes, Len) -> {cdrlib:enc_char(Value, Bytes), Len + 1}; %% The wchar decoding can be 1, 2 or 4 bytes but for now we only accept 2. enc_type('tk_wchar', #giop_env{version = {1,2}}, Value, Bytes, Len) -> Bytes1 = cdrlib:enc_octet(2, Bytes), {cdrlib:enc_unsigned_short(Value, Bytes1), Len + 3}; enc_type('tk_wchar', _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 2), {cdrlib:enc_unsigned_short(Value, Rest), Len1 + 2}; enc_type('tk_octet', _Env, Value, Bytes, Len) -> {cdrlib:enc_octet(Value, Bytes), Len + 1}; enc_type('tk_any', Env, Any, Bytes, Len) when is_record(Any, any) -> {Rest, Len1} = enc_type('tk_TypeCode', Env, Any#any.typecode, Bytes, Len), enc_type(Any#any.typecode, Env, Any#any.value, Rest, Len1); enc_type('tk_TypeCode', Env, Value, Bytes, Len) -> enc_type_code(Value, Env, Bytes, Len); enc_type('tk_Principal', Env, Value, Bytes, Len) -> %% Set MaxLength no 0 (i.e. unlimited). enc_sequence(Env, Value, 0, 'tk_octet', Bytes, Len); enc_type({'tk_objref', _IFRId, Name}, Env, Value, Bytes, Len) -> enc_objref(Env, Name,Value, Bytes, Len); enc_type({'tk_struct', _IFRId, _Name, ElementList}, Env, Value, Bytes, Len) -> enc_struct(Env, Value, ElementList, Bytes, Len); enc_type({'tk_union', _IFRId, _Name, DiscrTC, Default, ElementList}, Env, Value, Bytes, Len) -> enc_union(Env, Value, DiscrTC, Default, ElementList, Bytes, Len); enc_type({'tk_enum', _IFRId, _Name, ElementList}, _Env, Value, Bytes, Len) -> {Rest, Len1} = enc_align(Bytes, Len, 4), {cdrlib:enc_enum(atom_to_list(Value), ElementList, Rest), Len1 + 4}; enc_type({'tk_string', MaxLength}, Env, Value, Bytes, Len) -> enc_string(Env, Value, MaxLength, Bytes, Len); enc_type({'tk_wstring', MaxLength}, Env, Value, Bytes, Len) -> enc_wstring(Env, Value, MaxLength, Bytes, Len); enc_type({'tk_sequence', ElemTC, MaxLength}, Env, Value, Bytes, Len) -> enc_sequence(Env, Value, MaxLength, ElemTC, Bytes, Len); enc_type({'tk_array', ElemTC, Size}, Env, Value, Bytes, Len) -> enc_array(Env, Value, Size, ElemTC, Bytes, Len); enc_type({'tk_alias', _IFRId, _Name, TC}, Env, Value, Bytes, Len) -> enc_type(TC, Env, Value, Bytes, Len); enc_type({'tk_except', IFRId, Name, ElementList}, Env, Value, Bytes, Len) -> enc_exception(Env, Name, IFRId, Value, ElementList, Bytes, Len); enc_type({'tk_fixed', Digits, Scale}, Env, Value, Bytes, Len) -> enc_fixed(Env, Digits, Scale, Value, Bytes, Len); enc_type(Type, _, Value, _, _) -> orber:dbg("[~p] cdr_encode:type(~p, ~p)~n" "Incorrect TypeCode or unsupported type.", [?LINE, Type, Value], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 13), completion_status=?COMPLETED_MAYBE}). %%----------------------------------------------------------------- %% Func: enc_fixed %%----------------------------------------------------------------- %% Digits eq. total number of digits. %% Scale eq. position of the decimal point. %% E.g. fixed<5,2> - "123.45" eq. #fixed{digits = 5, scale = 2, value = 12345} %% E.g. fixed<4,2> - "12.34" eq. #fixed{digits = 4, scale = 2, value = 1234} %% These are encoded as: %% ## <5,2> ## ## <4,2> ## %% 1,2 0,1 eq. 1 octet %% 3,4 2,3 %% 5,0xC 4,0xC %% %% Each number is encoded as a half-octet. Note, for <4,2> a zero is %% added first to to be able to create "even" octets. enc_fixed(Env, Digits, Scale, #fixed{digits = Digits, scale = Scale, value = Value}, Bytes, Len) when is_integer(Value) andalso is_integer(Digits) andalso is_integer(Scale) andalso Digits < 32 andalso Digits >= Scale -> %% This isn't very efficient and we should improve it before supporting it %% officially. Odd = ?ODD(Digits), case integer_to_list(Value) of [$-|ValueList] when Odd == true -> Padded = lists:duplicate((Digits-length(ValueList)), 0) ++ ValueList, enc_fixed_2(Env, Digits, Scale, Padded, Bytes, Len, ?FIXED_NEGATIVE); [$-|ValueList] -> Padded = lists:duplicate((Digits-length(ValueList)), 0) ++ ValueList, enc_fixed_2(Env, Digits, Scale, [0|Padded], Bytes, Len, ?FIXED_NEGATIVE); ValueList when Odd == true -> Padded = lists:duplicate((Digits-length(ValueList)), 0) ++ ValueList, enc_fixed_2(Env, Digits, Scale, Padded, Bytes, Len, ?FIXED_POSITIVE); ValueList -> Padded = lists:duplicate((Digits-length(ValueList)), 0) ++ ValueList, enc_fixed_2(Env, Digits, Scale, [0|Padded], Bytes, Len, ?FIXED_POSITIVE) end; enc_fixed(_Env, Digits, Scale, Fixed, _Bytes, _Len) -> orber:dbg("[~p] cdr_encode:enc_fixed(~p, ~p, ~p)~n" "The supplied fixed type incorrect. Check that the 'digits' and 'scale' field~n" "match the definition in the IDL-specification. The value field must be~n" "a list of Digits lenght.", [?LINE, Digits, Scale, Fixed], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{completion_status=?COMPLETED_MAYBE}). enc_fixed_2(_Env, _Digits, _Scale, [D1], Bytes, Len, Sign) -> {[<>|Bytes], Len+1}; enc_fixed_2(Env, Digits, Scale, [D1, D2|Ds], Bytes, Len, Sign) -> %% We could convert the ASCII-value to digit values but the bit-syntax will %% truncate it correctly. enc_fixed_2(Env, Digits, Scale, Ds, [<> | Bytes], Len+1, Sign); enc_fixed_2(_Env, Digits, Scale, Value, _Bytes, _Len, Sign) -> orber:dbg("[~p] cdr_encode:enc_fixed_2(~p, ~p, ~p, ~p)~n" "The supplied fixed type incorrect. Most likely the 'digits' field don't match the~n" "supplied value. Hence, check that the value is correct.", [?LINE, Digits, Scale, Value, Sign], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{completion_status=?COMPLETED_MAYBE}). %%----------------------------------------------------------------- %% Func: enc_sequence/5 %%----------------------------------------------------------------- %% This is a special case used when encoding encapsualted data, i.e., contained %% in an octet-sequence. enc_sequence(_Env, Sequence, MaxLength, 'tk_octet', Bytes, Len) when is_binary(Sequence) -> {ByteSequence, Len1} = enc_align(Bytes, Len, 4), Size = size(Sequence), if Size > MaxLength, MaxLength > 0 -> orber:dbg("[~p] cdr_encode:enc_sequnce(~p, ~p). Sequence exceeds max.", [?LINE, Sequence, MaxLength], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 19), completion_status=?COMPLETED_MAYBE}); true -> ByteSequence1 = cdrlib:enc_unsigned_long(Size, ByteSequence), {[Sequence |ByteSequence1], Len1 + 4 + Size} end; enc_sequence(Env, Sequence, MaxLength, TypeCode, Bytes, Len) -> Length = length(Sequence), if Length > MaxLength, MaxLength > 0 -> orber:dbg("[~p] cdr_encode:enc_sequnce(~p, ~p). Sequence exceeds max.", [?LINE, Sequence, MaxLength], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 19), completion_status=?COMPLETED_MAYBE}); true -> {ByteSequence, Len1} = enc_align(Bytes, Len, 4), ByteSequence1 = cdrlib:enc_unsigned_long(Length, ByteSequence), enc_sequence1(Env, Sequence, TypeCode, ByteSequence1, Len1 + 4) end. %%----------------------------------------------------------------- %% Func: enc_sequence1/4 %%----------------------------------------------------------------- enc_sequence1(_Env, [], _TypeCode, Bytes, Len) -> {Bytes, Len}; enc_sequence1(_Env, CharSeq, 'tk_char', Bytes, Len) -> {[list_to_binary(CharSeq) |Bytes], Len + length(CharSeq)}; enc_sequence1(_Env, OctetSeq, 'tk_octet', Bytes, Len) -> {[list_to_binary(OctetSeq) |Bytes], Len + length(OctetSeq)}; enc_sequence1(Env, [Object| Rest], TypeCode, Bytes, Len) -> {ByteSequence, Len1} = enc_type(TypeCode, Env, Object, Bytes, Len), enc_sequence1(Env, Rest, TypeCode, ByteSequence, Len1). %%----------------------------------------------------------------- %% Func: enc_array/4 %%----------------------------------------------------------------- enc_array(Env, Array, Size, TypeCode, Bytes, Len) when size(Array) == Size -> Sequence = tuple_to_list(Array), enc_sequence1(Env, Sequence, TypeCode, Bytes, Len); enc_array(_,Array, Size, _, _, _) -> orber:dbg("[~p] cdr_encode:enc_array(~p, ~p). Incorrect size.", [?LINE, Array, Size], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 15), completion_status=?COMPLETED_MAYBE}). %%----------------------------------------------------------------- %% Func: enc_string/4 %%----------------------------------------------------------------- enc_string(_Env, String, MaxLength, Bytes, Len) -> StrLen = length(String), if StrLen > MaxLength, MaxLength > 0 -> orber:dbg("[~p] cdr_encode:enc_string(~p, ~p). String exceeds max.", [?LINE, String, MaxLength], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 16), completion_status=?COMPLETED_MAYBE}); true -> {ByteSequence, Len1} = enc_align(Bytes, Len, 4), ByteSequence1 = cdrlib:enc_unsigned_long(StrLen + 1, ByteSequence), {cdrlib:enc_octet(0, [String | ByteSequence1]), Len1 + StrLen + 5} end. %%----------------------------------------------------------------- %% Func: enc_wstring/4 %%----------------------------------------------------------------- enc_wstring(#giop_env{version = {1,2}} = Env, String, MaxLength, Bytes, Len) -> %% Encode the length of the string (ulong). {Bytes1, Len1} = enc_align(Bytes, Len, 4), %% For IIOP-1.2 the length is the total number of octets. Hence, since the wchar's %% we accepts is encoded as <<255, 255>> the total size is 2*length of the list. ListLen = length(String), if ListLen > MaxLength, MaxLength > 0 -> corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 16), completion_status=?COMPLETED_MAYBE}); true -> StrLen = ListLen * 2, Bytes2 = cdrlib:enc_unsigned_long(StrLen, Bytes1), %% For IIOP-1.2 no terminating null character is used. enc_sequence1(Env, String, 'tk_ushort', Bytes2, Len1+4) end; enc_wstring(Env, String, MaxLength, Bytes, Len) -> %% Encode the length of the string (ulong). {Bytes1, Len1} = enc_align(Bytes, Len, 4), ListLen = length(String), if ListLen > MaxLength, MaxLength > 0 -> corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 16), completion_status=?COMPLETED_MAYBE}); true -> StrLen = ListLen + 1, Bytes2 = cdrlib:enc_unsigned_long(StrLen, Bytes1), {Bytes3, Len3} = enc_sequence1(Env, String, 'tk_wchar', Bytes2, Len1+4), %% The terminating null character is also a wchar. {cdrlib:enc_unsigned_short(0, Bytes3), Len3+2} end. %%----------------------------------------------------------------- %% Func: enc_union/5 %%----------------------------------------------------------------- enc_union(Env, {_, Label, Value}, DiscrTC, Default, TypeCodeList, Bytes, Len) when is_list(TypeCodeList) -> {ByteSequence, Len1} = enc_type(DiscrTC, Env, Label, Bytes, Len), Label2 = stringify_enum(DiscrTC,Label), enc_union2(Env, {Label2, Value},TypeCodeList, Default, ByteSequence, Len1, undefined); enc_union(Env, Value, _DiscrTC, _Default, Module, Bytes, Len) when is_atom(Module) -> case catch Module:tc() of {tk_union, _, _, DiscrTC, Default, ElementList} -> enc_union(Env, Value, DiscrTC, Default, ElementList, Bytes, Len); What -> orber:dbg("[~p] ~p:enc_union(~p). Union module doesn't exist or incorrect.", [?LINE, ?MODULE, What], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{completion_status=?COMPLETED_MAYBE}) end. enc_union2(_Env, _What, [], Default, Bytes, Len, _) when Default < 0 -> {Bytes, Len}; enc_union2(Env, {_, Value}, [], _Default, Bytes, Len, Type) -> enc_type(Type, Env, Value, Bytes, Len); enc_union2(Env, {Label,Value} ,[{Label, _Name, Type} |_List], _Default, Bytes, Len, _) -> enc_type(Type, Env, Value, Bytes, Len); enc_union2(Env, Union ,[{default, _Name, Type} |List], Default, Bytes, Len, _) -> enc_union2(Env, Union, List, Default, Bytes, Len, Type); enc_union2(Env, Union,[_ | List], Default, Bytes, Len, DefaultType) -> enc_union2(Env, Union, List, Default, Bytes, Len, DefaultType). stringify_enum({tk_enum, _,_,_}, Label) -> atom_to_list(Label); stringify_enum(_, Label) -> Label. %%----------------------------------------------------------------- %% Func: enc_struct/4 %%----------------------------------------------------------------- enc_struct(Env, Struct, TypeCodeList, Bytes, Len) when is_list(TypeCodeList) -> [_Name | StructList] = tuple_to_list(Struct), enc_struct1(Env, StructList, TypeCodeList, Bytes, Len); enc_struct(Env, Struct, Module, Bytes, Len) -> [Module | StructList] = tuple_to_list(Struct), case catch Module:tc() of {tk_struct, _, _, TypeCodeList} -> enc_struct1(Env, StructList, TypeCodeList, Bytes, Len); What -> orber:dbg("[~p] ~p:enc_struct([], ~p). Struct module doesn't exist or incorrect.", [?LINE, ?MODULE, What], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{completion_status=?COMPLETED_MAYBE}) end. enc_struct1(_Env, [], [], Bytes, Len) -> {Bytes, Len}; enc_struct1(Env, [Object | Rest], [{_ElemName, ElemType} | TypeCodeList], Bytes, Len) -> {ByteSequence, Len1} = enc_type(ElemType, Env, Object, Bytes, Len), enc_struct1(Env, Rest, TypeCodeList, ByteSequence, Len1). %%----------------------------------------------------------------- %% Func: enc_objref/4 %%----------------------------------------------------------------- enc_objref(Env, _Name, Value, Bytes, Len) -> iop_ior:code(Env, Value, Bytes, Len). %%----------------------------------------------------------------- %% Func: enc_exception/5 %%----------------------------------------------------------------- enc_exception(Env, _Name, IFRId, Value, ElementList, Bytes, Len) -> [_Name1, _TypeId | Args] = tuple_to_list(Value), {Bytes1, Len1} = enc_type({'tk_string', 0}, Env, IFRId , Bytes, Len), enc_exception_1(Env, Args, ElementList, Bytes1, Len1). enc_exception_1(_Env, [], [], Bytes, Len) -> {Bytes, Len}; enc_exception_1(Env, [Arg |Args], [{_ElemName, ElemType} |ElementList], Bytes, Len) -> {Bytes1, Len1} = enc_type(ElemType, Env, Arg, Bytes, Len), enc_exception_1(Env, Args, ElementList, Bytes1, Len1). %%----------------------------------------------------------------- %% Func: enc_type_code/3 %%----------------------------------------------------------------- enc_type_code('tk_null', Env, Message, Len) -> enc_type('tk_ulong', Env, 0, Message, Len); enc_type_code('tk_void', Env, Message, Len) -> enc_type('tk_ulong', Env, 1, Message, Len); enc_type_code('tk_short', Env, Message, Len) -> enc_type('tk_ulong', Env, 2, Message, Len); enc_type_code('tk_long', Env, Message, Len) -> enc_type('tk_ulong', Env, 3, Message, Len); enc_type_code('tk_longlong', Env, Message, Len) -> enc_type('tk_ulong', Env, 23, Message, Len); enc_type_code('tk_longdouble', Env, Message, Len) -> enc_type('tk_ulong', Env, 25, Message, Len); enc_type_code('tk_ushort', Env, Message, Len) -> enc_type('tk_ulong', Env, 4, Message, Len); enc_type_code('tk_ulong', Env, Message, Len) -> enc_type('tk_ulong', Env, 5, Message, Len); enc_type_code('tk_ulonglong', Env, Message, Len) -> enc_type('tk_ulong', Env, 24, Message, Len); enc_type_code('tk_float', Env, Message, Len) -> enc_type('tk_ulong', Env, 6, Message, Len); enc_type_code('tk_double', Env, Message, Len) -> enc_type('tk_ulong', Env, 7, Message, Len); enc_type_code('tk_boolean', Env, Message, Len) -> enc_type('tk_ulong', Env, 8, Message, Len); enc_type_code('tk_char', Env, Message, Len) -> enc_type('tk_ulong', Env, 9, Message, Len); enc_type_code('tk_wchar', Env, Message, Len) -> enc_type('tk_ulong', Env, 26, Message, Len); enc_type_code('tk_octet', Env, Message, Len) -> enc_type('tk_ulong', Env, 10, Message, Len); enc_type_code('tk_any', Env, Message, Len) -> enc_type('tk_ulong', Env, 11, Message, Len); enc_type_code('tk_TypeCode', Env, Message, Len) -> enc_type('tk_ulong', Env, 12, Message, Len); enc_type_code('tk_Principal', Env, Message, Len) -> enc_type('tk_ulong', Env, 13, Message, Len); enc_type_code({'tk_objref', RepId, Name}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 14, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}]}, Env, {"", RepId, Name}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_struct', RepId, SimpleName, ElementList}, Env, Message, Len) -> %% Using SimpleName should be enough (and we avoid some overhead). %% Name = ifrid_to_name(RepId), {Message1, Len1} = enc_type('tk_ulong', Env, 15, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}, {"element list", {'tk_sequence', {'tk_struct', "","", [{"member name", {'tk_string', 0}}, {"member type", 'tk_TypeCode'}]}, 0}}]}, Env, {"", RepId, SimpleName, lists:map(fun({N,T}) -> {"",N,T} end, ElementList)}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_union', RepId, Name, DiscrTC, Default, ElementList}, Env, Message, Len) -> NewElementList = case check_enum(DiscrTC) of true -> lists:map(fun({L,N,T}) -> {"",list_to_atom(L),N,T} end, ElementList); false -> lists:map(fun({L,N,T}) -> {"",L,N,T} end, ElementList) end, {Message1, Len1} = enc_type('tk_ulong', Env, 16, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}, {"discriminant type", 'tk_TypeCode'}, {"default used", 'tk_long'}, {"element list", {'tk_sequence', {'tk_struct', "","", [{"label value", DiscrTC}, {"member name", {'tk_string', 0}}, {"member type", 'tk_TypeCode'}]}, 0}}]}, Env, {"", RepId, Name, DiscrTC, Default, NewElementList}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_enum', RepId, Name, ElementList}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 17, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}, {"element list", {'tk_sequence', {'tk_string', 0}, 0}}]}, Env, {"", RepId, Name, ElementList}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_string', MaxLength}, Env, Message, Len) -> enc_type({'tk_struct', "", "", [{"TCKind", 'tk_ulong'}, {"max length", 'tk_ulong'}]}, Env, {"", 18, MaxLength}, Message, Len); enc_type_code({'tk_wstring', MaxLength}, Env, Message, Len) -> enc_type({'tk_struct', "", "", [{"TCKind", 'tk_ulong'}, {"max length", 'tk_ulong'}]}, Env, {"", 27, MaxLength}, Message, Len); enc_type_code({'tk_sequence', ElemTC, MaxLength}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 19, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"element type", 'tk_TypeCode'}, {"max length", 'tk_ulong'}]}, Env, {"", ElemTC, MaxLength}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_array', ElemTC, Length}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 20, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"element type", 'tk_TypeCode'}, {"length", 'tk_ulong'}]}, Env, {"", ElemTC, Length}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_alias', RepId, Name, TC}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 21, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}, {"TypeCode", 'tk_TypeCode'}]}, Env, {"", RepId, Name, TC}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_except', RepId, Name, ElementList}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 22, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}, {"element list", {'tk_sequence', {'tk_struct', "", "", [{"member name", {'tk_string', 0}}, {"member type", 'tk_TypeCode'}]}, 0}}]}, Env, {"", RepId, Name, lists:map(fun({N,T}) -> {"",N,T} end, ElementList)}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_fixed', Digits, Scale}, Env, Message, Len) -> enc_type({'tk_struct', "", "", [{"TCKind", 'tk_ulong'}, {"digits", 'tk_ushort'}, {"scale", 'tk_short'}]}, Env, {"", 28, Digits, Scale}, Message, Len); enc_type_code({'tk_value', RepId, Name, ValueModifier, TC, ElementList}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 29, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}, {"ValueModifier", 'tk_short'}, {"TypeCode", 'tk_TypeCode'}, {"element list", {'tk_sequence', {'tk_struct', "","", [{"member name", {'tk_string', 0}}, {"member type", 'tk_TypeCode'}, {"Visibility", 'tk_short'}]}, 0}}]}, Env, {"", RepId, Name, ValueModifier, TC, lists:map(fun({N,T,V}) -> {"",N,T,V} end, ElementList)}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_value_box', RepId, Name, TC}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 30, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}, {"TypeCode", 'tk_TypeCode'}]}, Env, {"", RepId, Name, TC}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_native', RepId, Name}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 31, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"repository ID", {'tk_string', 0}}, {"name", {'tk_string', 0}}]}, Env, {"", RepId, Name}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_abstract_interface', RepId, Name}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 32, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"RepositoryId", {'tk_string', 0}}, {"name", {'tk_string', 0}}]}, Env, {"", RepId, Name}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'tk_local_interface', RepId, Name}, Env, Message, Len) -> {Message1, Len1} = enc_type('tk_ulong', Env, 33, Message, Len), {Message2, _} = enc_byte_order(Env, []), {ComplexParams, Len2} = enc_type({'tk_struct', "", "", [{"RepositoryId", {'tk_string', 0}}, {"name", {'tk_string', 0}}]}, Env, {"", RepId, Name}, Message2, 1), encode_complex_tc_paramters(lists:reverse(ComplexParams), Len2, Message1, Len1); enc_type_code({'none', Indirection}, Env, Message, Len) -> %% placeholder enc_type({'tk_struct', "", "", [{"TCKind", 'tk_ulong'}, {"indirection", 'tk_long'}]}, Env, {"", 16#ffffffff, Indirection}, Message, Len); enc_type_code(Type, _, _, _) -> orber:dbg("[~p] cdr_encode:enc_type_code(~p); No match.", [?LINE, Type], ?DEBUG_LEVEL), corba:raise(#'MARSHAL'{minor=(?ORBER_VMCID bor 7), completion_status=?COMPLETED_MAYBE}). check_enum({'tk_enum', _, _, _}) -> true; check_enum(_) -> false. encode_complex_tc_paramters(Value, ValueLength, Message, Len) -> {Message1, _Len1} = enc_align(Message, Len, 4), Message2 = cdrlib:enc_unsigned_long(ValueLength, Message1), {[Value |Message2], Len+ValueLength+4}. %%----------------------------------------------------------------- %% Func: enc_align/1 %%----------------------------------------------------------------- enc_align(R, Len, Alignment) -> Rem = Len rem Alignment, if Rem == 0 -> {R, Len}; true -> Diff = Alignment - Rem, {add_bytes(R, Diff), Len + Diff} end. add_bytes(R, 0) -> R; add_bytes(R, 1) -> [<<16#01:8>> | R]; add_bytes(R, 2) -> [<<16#02:8, 16#02:8>> | R]; add_bytes(R, 3) -> [<<16#03:8, 16#03:8, 16#03:8>> | R]; add_bytes(R, 4) -> [<<16#04:8, 16#04:8, 16#04:8, 16#04:8>> | R]; add_bytes(R, 5) -> [<<16#05:8, 16#05:8, 16#05:8, 16#05:8, 16#05:8>> | R]; add_bytes(R, 6) -> [<<16#06:8, 16#06:8, 16#06:8, 16#06:8, 16#06:8, 16#06:8>> | R]; add_bytes(R, 7) -> [<<16#07:8, 16#07:8, 16#07:8, 16#07:8, 16#07:8, 16#07:8, 16#07:8>> | R]; add_bytes(R,N) -> add_bytes([<<16#08:8>> | R], N - 1).