%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2004-2011. 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%
%%
%%
%%----------------------------------------------------------------------
%% Purpose: Utility functions for creating the megaco types
%%----------------------------------------------------------------------
-module(megaco_test_msg_v2_lib).
%% ----
-compile({no_auto_import,[error/1]}).
%% ----
-include_lib("megaco/include/megaco_message_v2.hrl").
-include_lib("megaco/include/megaco.hrl").
%% ----
-export([chk_MegacoMessage/2,
cre_MegacoMessage/1, cre_MegacoMessage/2,
cre_AuthenticationHeader/3,
cre_Message/3,
cre_ErrorDescriptor/1, cre_ErrorDescriptor/2,
cre_ErrorCode/1,
cre_ErrorText/1,
cre_ContextID/1,
cre_Transaction/1,
cre_TransactionId/1,
cre_TransactionRequest/2,
cre_TransactionPending/1,
cre_TransactionReply/2, cre_TransactionReply/3,
cre_TransactionAck/1, cre_TransactionAck/2,
cre_ActionRequest/2, cre_ActionRequest/3, cre_ActionRequest/4,
cre_ActionReply/2, cre_ActionReply/3, cre_ActionReply/4,
cre_ContextRequest/0, cre_ContextRequest/1, cre_ContextRequest/2,
cre_ContextRequest/3,
cre_ContextAttrAuditRequest/0, cre_ContextAttrAuditRequest/3,
cre_CommandRequest/1, cre_CommandRequest/2, cre_CommandRequest/3,
cre_Command/2,
cre_CommandReply/2,
cre_TopologyRequest/3, cre_TopologyRequest/4,
cre_AmmRequest/2,
cre_AmmDescriptor/1,
cre_AmmsReply/1, cre_AmmsReply/2,
cre_SubtractRequest/1, cre_SubtractRequest/2,
cre_AuditRequest/2,
cre_AuditReply/1,
cre_AuditResult/2,
cre_AuditReturnParameter/1,
cre_AuditDescriptor/0, cre_AuditDescriptor/1, cre_AuditDescriptor/2,
cre_IndAuditParameter/1,
cre_IndAudMediaDescriptor/0, cre_IndAudMediaDescriptor/1,
cre_IndAudMediaDescriptor/2,
cre_IndAudStreamDescriptor/2,
cre_IndAudStreamParms/0, cre_IndAudStreamParms/1,
cre_IndAudStreamParms/3,
cre_IndAudLocalControlDescriptor/0,
cre_IndAudLocalControlDescriptor/4,
cre_IndAudPropertyParm/1,
cre_IndAudLocalRemoteDescriptor/1,
cre_IndAudLocalRemoteDescriptor/2,
cre_IndAudPropertyGroup/1,
cre_IndAudTerminationStateDescriptor/1,
cre_IndAudTerminationStateDescriptor/3,
cre_IndAudEventsDescriptor/1, cre_IndAudEventsDescriptor/2,
cre_IndAudEventsDescriptor/3,
cre_IndAudEventBufferDescriptor/1,
cre_IndAudEventBufferDescriptor/2,
cre_IndAudSignalsDescriptor/1,
cre_IndAudSeqSigList/1,
cre_IndAudSeqSigList/2,
cre_IndAudSignal/1, cre_IndAudSignal/2,
cre_IndAudDigitMapDescriptor/0, cre_IndAudDigitMapDescriptor/1,
cre_IndAudStatisticsDescriptor/1,
cre_IndAudPackagesDescriptor/2,
cre_NotifyRequest/2, cre_NotifyRequest/3,
cre_NotifyReply/1, cre_NotifyReply/2,
cre_ObservedEventsDescriptor/2,
cre_ObservedEvent/2, cre_ObservedEvent/3, cre_ObservedEvent/4,
cre_EventName/1,
cre_EventParameter/2, cre_EventParameter/4,
cre_ServiceChangeRequest/2,
cre_ServiceChangeReply/2,
cre_ServiceChangeResult/1,
%% cre_WildcardField/1,
cre_TerminationID/2,
cre_TerminationIDList/1,
cre_MediaDescriptor/0, cre_MediaDescriptor/1, cre_MediaDescriptor/2,
cre_StreamDescriptor/2,
cre_StreamParms/0, cre_StreamParms/1, cre_StreamParms/2,
cre_StreamParms/3,
cre_LocalControlDescriptor/1, cre_LocalControlDescriptor/2,
cre_LocalControlDescriptor/4,
cre_StreamMode/1,
cre_PropertyParm/2, cre_PropertyParm/4,
cre_Name/1,
cre_PkgdName/1,
cre_PkgdName/2,
cre_Relation/1,
cre_LocalRemoteDescriptor/1,
cre_PropertyGroup/1,
cre_TerminationStateDescriptor/1,
cre_TerminationStateDescriptor/2,
cre_TerminationStateDescriptor/3,
cre_EventBufferControl/1,
cre_ServiceState/1,
cre_MuxDescriptor/2, %% cre_MuxDescriptor/3,
cre_MuxType/1,
cre_StreamID/1,
cre_EventsDescriptor/0, cre_EventsDescriptor/2,
cre_RequestedEvent/1,
cre_RequestedEvent/2, cre_RequestedEvent/3, cre_RequestedEvent/4,
cre_RequestedActions/0,
cre_RequestedActions/1, cre_RequestedActions/4,
cre_EventDM/1,
cre_SecondEventsDescriptor/1, cre_SecondEventsDescriptor/2,
cre_SecondRequestedEvent/2, cre_SecondRequestedEvent/3,
cre_SecondRequestedEvent/4,
cre_SecondRequestedActions/0, cre_SecondRequestedActions/1,
cre_SecondRequestedActions/2, cre_SecondRequestedActions/3,
cre_EventBufferDescriptor/1,
cre_EventSpec/2,
cre_EventSpec/3,
cre_SignalsDescriptor/1,
cre_SignalRequest/1,
cre_SeqSigList/2,
cre_Signal/1, cre_Signal/2, cre_Signal/7,
cre_SignalType/1,
cre_SignalName/1,
cre_NotifyCompletion/1,
cre_SigParameter/2, cre_SigParameter/4,
cre_RequestID/1,
cre_ModemDescriptor/2, %% cre_ModemDescriptor/3,
cre_ModemType/1,
cre_DigitMapDescriptor/0, cre_DigitMapDescriptor/1,
cre_DigitMapDescriptor/2,
cre_DigitMapName/1,
cre_DigitMapValue/1, cre_DigitMapValue/4, cre_DigitMapValue/5,
cre_ServiceChangeParm/2, cre_ServiceChangeParm/4,
cre_ServiceChangeParm/9,
cre_ServiceChangeAddress/2,
cre_ServiceChangeResParm/0, cre_ServiceChangeResParm/2,
cre_ServiceChangeResParm/5,
cre_ServiceChangeMethod/1,
cre_ServiceChangeProfile/1, cre_ServiceChangeProfile/2,
cre_PackagesDescriptor/1,
cre_PackagesItem/2,
cre_StatisticsDescriptor/1,
cre_StatisticsParameter/1, cre_StatisticsParameter/2,
%% cre_NonStandardData/2,
%% cre_NonStandardIdentifier/1,
%% cre_H221NonStandard/4,
cre_TimeNotation/2,
cre_Value/1,
cre_BOOLEAN/1
]).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
cre_MegacoMessage(M) when is_record(M, 'Message') ->
#'MegacoMessage'{mess = M}.
cre_MegacoMessage(AH, M)
when is_record(AH, 'AuthenticationHeader') andalso
is_record(M, 'Message') ->
#'MegacoMessage'{authHeader = AH,
mess = M}.
cre_AuthenticationHeader(SPI, SN, AD) ->
#'AuthenticationHeader'{secParmIndex = SPI,
seqNum = SN,
ad = AD}.
cre_Message(V, Mid, ED) when is_record(ED, 'ErrorDescriptor') ->
Body = {errorDescriptor, ED},
#'Message'{version = V,
mId = Mid,
messageBody = Body};
cre_Message(V, Mid, Transactions) when is_list(Transactions) ->
Body = {transactions, Transactions},
#'Message'{version = V,
mId = Mid,
messageBody = Body};
cre_Message(V, Mid, {transactions, T} = Body) when is_list(T) ->
#'Message'{version = V,
mId = Mid,
messageBody = Body};
cre_Message(V, Mid, {errorDescriptor, ED} = Body)
when is_record(ED, 'ErrorDescriptor') ->
#'Message'{version = V,
mId = Mid,
messageBody = Body}.
cre_ErrorDescriptor(EC) when is_integer(EC) ->
#'ErrorDescriptor'{errorCode = EC}.
cre_ErrorDescriptor(EC, ET) when is_integer(EC) andalso is_list(ET) ->
#'ErrorDescriptor'{errorCode = EC, errorText = ET}.
cre_ErrorCode(C) when is_integer(C) andalso (0 =< C) andalso (C =< 65535) ->
C;
cre_ErrorCode(C) ->
exit({invalid_ErrorCode, C}).
cre_ErrorText(T) when is_list(T) ->
T.
cre_ContextID(Val) when 0 =< Val, Val =< 4294967295 ->
Val;
cre_ContextID(Val) ->
exit({invalid_ContextID, Val}).
cre_Transaction(TR) when is_record(TR, 'TransactionRequest') ->
{transactionRequest, TR};
cre_Transaction(TP) when is_record(TP, 'TransactionPending') ->
{transactionPending, TP};
cre_Transaction(TR) when is_record(TR, 'TransactionReply') ->
{transactionReply, TR};
cre_Transaction(TRA) when is_list(TRA) ->
{transactionResponseAck, TRA}.
cre_TransactionId(Val) when (0 =< Val) andalso (Val =< 4294967295) ->
Val;
cre_TransactionId(Val) ->
exit({invalid_TransactionId, Val}).
cre_TransactionRequest(TransID, ARs) when is_integer(TransID) andalso is_list(ARs) ->
#'TransactionRequest'{transactionId = TransID,
actions = ARs}.
cre_TransactionPending(TransID) when is_integer(TransID) ->
#'TransactionPending'{transactionId = TransID}.
cre_TransactionReply(TransID, ED)
when is_integer(TransID) andalso is_record(ED, 'ErrorDescriptor') ->
Res = {transactionError, ED},
#'TransactionReply'{transactionId = TransID,
transactionResult = Res};
cre_TransactionReply(TransID, ARs)
when is_integer(TransID) andalso is_list(ARs) ->
Res = {actionReplies, ARs},
#'TransactionReply'{transactionId = TransID,
transactionResult = Res}.
cre_TransactionReply(TransID, IAR, ED)
when is_integer(TransID) and
((IAR == 'NULL') or (IAR == asn1_NOVALUE)) and
is_record(ED, 'ErrorDescriptor') ->
Res = {transactionError, ED},
#'TransactionReply'{transactionId = TransID,
transactionResult = Res};
cre_TransactionReply(TransID, IAR, ARs)
when is_integer(TransID) and
((IAR == 'NULL') or (IAR == asn1_NOVALUE)) and
is_list(ARs) ->
Res = {actionReplies, ARs},
#'TransactionReply'{transactionId = TransID,
transactionResult = Res}.
cre_TransactionAck(FirstAck) ->
#'TransactionAck'{firstAck = FirstAck}.
cre_TransactionAck(FirstAck, FirstAck) ->
#'TransactionAck'{firstAck = FirstAck};
cre_TransactionAck(FirstAck, LastAck) ->
#'TransactionAck'{firstAck = FirstAck,
lastAck = LastAck}.
cre_ActionRequest(CtxID, CmdReqs)
when is_integer(CtxID) andalso is_list(CmdReqs) ->
#'ActionRequest'{contextId = CtxID,
commandRequests = CmdReqs}.
cre_ActionRequest(CtxID, CtxReq, CmdReqs)
when is_integer(CtxID) andalso
is_record(CtxReq, 'ContextRequest') andalso
is_list(CmdReqs) ->
#'ActionRequest'{contextId = CtxID,
contextRequest = CtxReq,
commandRequests = CmdReqs};
cre_ActionRequest(CtxID, CAAR, CmdReqs)
when is_integer(CtxID) andalso
is_record(CAAR, 'ContextAttrAuditRequest') andalso
is_list(CmdReqs) ->
#'ActionRequest'{contextId = CtxID,
contextAttrAuditReq = CAAR,
commandRequests = CmdReqs}.
cre_ActionRequest(CtxID, CtxReq, CAAR, CmdReqs)
when is_integer(CtxID) andalso
is_record(CtxReq, 'ContextRequest') andalso
is_record(CAAR, 'ContextAttrAuditRequest') andalso
is_list(CmdReqs) ->
#'ActionRequest'{contextId = CtxID,
contextRequest = CtxReq,
contextAttrAuditReq = CAAR,
commandRequests = CmdReqs}.
cre_ActionReply(CtxID, CmdReps)
when is_integer(CtxID) andalso
is_list(CmdReps) ->
#'ActionReply'{contextId = CtxID,
commandReply = CmdReps}.
cre_ActionReply(CtxID, ED, CmdReps)
when is_integer(CtxID) andalso
is_record(ED, 'ErrorDescriptor') andalso
is_list(CmdReps) ->
#'ActionReply'{contextId = CtxID,
errorDescriptor = ED,
commandReply = CmdReps};
cre_ActionReply(CtxID, CtxReq, CmdReps)
when is_integer(CtxID) andalso
is_record(CtxReq, 'ContextRequest') andalso
is_list(CmdReps) ->
#'ActionReply'{contextId = CtxID,
contextReply = CtxReq,
commandReply = CmdReps}.
cre_ActionReply(CtxID, ED, CtxReq, CmdReps)
when is_integer(CtxID) andalso
is_record(ED, 'ErrorDescriptor') andalso
is_record(CtxReq, 'ContextRequest') andalso
is_list(CmdReps) ->
#'ActionReply'{contextId = CtxID,
errorDescriptor = ED,
contextReply = CtxReq,
commandReply = CmdReps}.
cre_ContextRequest() ->
#'ContextRequest'{}.
cre_ContextRequest(Prio) when is_integer(Prio) andalso (0 =< Prio) andalso (Prio =< 15) ->
#'ContextRequest'{priority = Prio};
cre_ContextRequest(Em) when (Em =:= true) andalso (Em =:= false) andalso (Em =:= asn1_NOVALUE) ->
#'ContextRequest'{emergency = Em};
cre_ContextRequest(Top) when is_list(Top) ->
#'ContextRequest'{topologyReq = Top}.
cre_ContextRequest(Prio, Em)
when (is_integer(Prio) and (0 =< Prio) and (Prio =< 15)) and
((Em == true) or (Em == false) or (Em == asn1_NOVALUE)) ->
#'ContextRequest'{priority = Prio,
emergency = Em};
cre_ContextRequest(Prio, Top)
when is_integer(Prio) andalso (0 =< Prio) andalso (Prio =< 15) andalso is_list(Top) ->
#'ContextRequest'{priority = Prio,
topologyReq = Top}.
cre_ContextRequest(Prio, Em, Top)
when (is_integer(Prio) and (0 =< Prio) and (Prio =< 15)) and
((Em == true) or (Em == false) or (Em == asn1_NOVALUE)) and
is_list(Top) ->
#'ContextRequest'{priority = Prio,
emergency = Em,
topologyReq = Top}.
cre_ContextAttrAuditRequest() ->
#'ContextAttrAuditRequest'{}.
cre_ContextAttrAuditRequest(Top, Em, Prio)
when ((Top == 'NULL') or (Top == asn1_NOVALUE)) and
((Em == 'NULL') or (Em == asn1_NOVALUE)) and
((Prio == 'NULL') or (Prio == asn1_NOVALUE)) ->
#'ContextAttrAuditRequest'{topology = Top,
emergency = Em,
priority = Prio}.
cre_CommandRequest(Cmd) ->
#'CommandRequest'{command = Cmd}.
cre_CommandRequest(Cmd, Opt)
when ((Opt == 'NULL') or (Opt == asn1_NOVALUE)) ->
#'CommandRequest'{command = Cmd,
optional = Opt}.
cre_CommandRequest(Cmd, Opt, WR)
when ((Opt == 'NULL') or (Opt == asn1_NOVALUE)) and
((WR == 'NULL') or (WR == asn1_NOVALUE)) ->
#'CommandRequest'{command = Cmd,
optional = Opt,
wildcardReturn = WR}.
cre_Command(addReq = Tag, Req)
when is_record(Req, 'AmmRequest') ->
{Tag, Req};
cre_Command(moveReq = Tag, Req)
when is_record(Req, 'AmmRequest') ->
{Tag, Req};
cre_Command(modReq = Tag, Req)
when is_record(Req, 'AmmRequest') ->
{Tag, Req};
cre_Command(subtractReq = Tag, Req)
when is_record(Req, 'SubtractRequest') ->
{Tag, Req};
cre_Command(auditCapRequest = Tag, Req)
when is_record(Req, 'AuditRequest') ->
{Tag, Req};
cre_Command(auditValueRequest = Tag, Req)
when is_record(Req, 'AuditRequest') ->
{Tag, Req};
cre_Command(notifyReq = Tag, Req)
when is_record(Req, 'NotifyRequest') ->
{Tag, Req};
cre_Command(serviceChangeReq = Tag, Req)
when is_record(Req, 'ServiceChangeRequest') ->
{Tag, Req}.
cre_CommandReply(addReply = Tag, Rep)
when is_record(Rep, 'AmmsReply') ->
{Tag, Rep};
cre_CommandReply(moveReply = Tag, Rep)
when is_record(Rep, 'AmmsReply') ->
{Tag, Rep};
cre_CommandReply(modReply = Tag, Rep)
when is_record(Rep, 'AmmsReply') ->
{Tag, Rep};
cre_CommandReply(subtractReply = Tag, Rep)
when is_record(Rep, 'AmmsReply') ->
{Tag, Rep};
cre_CommandReply(auditCapReply = Tag, Rep)
when is_tuple(Rep) ->
{Tag, Rep};
cre_CommandReply(auditValueReply = Tag, Rep)
when is_tuple(Rep) ->
{Tag, Rep};
cre_CommandReply(notifyReply = Tag, Rep)
when is_record(Rep, 'NotifyReply') ->
{Tag, Rep};
cre_CommandReply(serviceChangeReply = Tag, Rep)
when is_record(Rep, 'ServiceChangeReply') ->
{Tag, Rep}.
cre_TopologyRequest(From, To, Dir)
when is_record(From, 'TerminationID') and
is_record(To, 'TerminationID') and
((Dir == bothway) or (Dir == isolate) or (Dir == oneway)) ->
#'TopologyRequest'{terminationFrom = From,
terminationTo = To,
topologyDirection = Dir}.
cre_TopologyRequest(From, To, Dir, SID)
when is_record(From, 'TerminationID') and
is_record(To, 'TerminationID') and
((Dir == bothway) or (Dir == isolate) or (Dir == oneway)) and
(is_integer(SID) or (SID == asn1_NOVALUE)) ->
#'TopologyRequest'{terminationFrom = From,
terminationTo = To,
topologyDirection = Dir,
streamID = SID}.
cre_AmmRequest(TermIDs, Descs) when is_list(TermIDs) andalso is_list(Descs) ->
#'AmmRequest'{terminationID = TermIDs,
descriptors = Descs}.
cre_AmmDescriptor(D) when is_record(D, 'MediaDescriptor') ->
{mediaDescriptor, D};
cre_AmmDescriptor(D) when is_record(D, 'ModemDescriptor') ->
{modemDescriptor, D};
cre_AmmDescriptor(D) when is_record(D, 'MuxDescriptor') ->
{muxDescriptor, D};
cre_AmmDescriptor(D) when is_record(D, 'EventsDescriptor') ->
{eventsDescriptor, D};
cre_AmmDescriptor(D) when is_record(D, 'DigitMapDescriptor') ->
{digitMapDescriptor, D};
cre_AmmDescriptor(D) when is_record(D, 'AuditDescriptor') ->
{auditDescriptor, D};
cre_AmmDescriptor(D) when is_list(D) ->
case is_EventBufferDescriptor(D) of
true ->
{eventBufferDescriptor, D};
false ->
case is_SignalsDescriptor(D) of
true ->
{signalsDescriptor, D};
false ->
error({invalid_AmmDescriptor, D})
end
end.
cre_AmmsReply(TermIDs) when is_list(TermIDs) ->
#'AmmsReply'{terminationID = TermIDs}.
cre_AmmsReply(TermIDs, TAs) when is_list(TermIDs) andalso is_list(TAs) ->
#'AmmsReply'{terminationID = TermIDs,
terminationAudit = TAs}.
cre_SubtractRequest(TermIDs) when is_list(TermIDs) ->
#'SubtractRequest'{terminationID = TermIDs}.
cre_SubtractRequest(TermIDs, Audit)
when is_list(TermIDs) andalso is_record(Audit, 'AuditDescriptor') ->
#'SubtractRequest'{terminationID = TermIDs,
auditDescriptor = Audit}.
cre_AuditRequest(TermID, Audit)
when is_record(TermID, megaco_term_id) andalso is_record(Audit, 'AuditDescriptor') ->
#'AuditRequest'{terminationID = TermID,
auditDescriptor = Audit}.
cre_AuditReply(TermIDs) when is_list(TermIDs) ->
{contextAuditResult, TermIDs};
cre_AuditReply(ED) when is_record(ED, 'ErrorDescriptor') ->
{error, ED};
cre_AuditReply(Audit) when is_record(Audit, 'AuditResult') ->
{auditResult, Audit}.
cre_AuditResult(TermID, TAs)
when is_record(TermID, megaco_term_id) andalso is_list(TAs) ->
#'AuditResult'{terminationID = TermID,
terminationAuditResult = TAs}.
cre_AuditReturnParameter(D) when is_record(D, 'ErrorDescriptor') ->
{errorDescriptor, D};
cre_AuditReturnParameter(D) when is_record(D, 'MediaDescriptor') ->
{mediaDescriptor, D};
cre_AuditReturnParameter(D) when is_record(D, 'ModemDescriptor') ->
{modemDescriptor, D};
cre_AuditReturnParameter(D) when is_record(D, 'MuxDescriptor') ->
{muxDescriptor, D};
cre_AuditReturnParameter(D) when is_record(D, 'EventsDescriptor') ->
{eventsDescriptor, D};
cre_AuditReturnParameter([H|_] = D) when is_record(H, 'EventSpec') ->
{eventBufferDescriptor, D};
cre_AuditReturnParameter(D) when is_record(D, 'DigitMapDescriptor') ->
{digitMapDescriptor, D};
cre_AuditReturnParameter(D) when is_record(D, 'ObservedEventsDescriptor') ->
{observedEventsDescriptor, D};
cre_AuditReturnParameter([H|_] = D) when is_record(H, 'StatisticsParameter') ->
{statisticsDescriptor, D};
cre_AuditReturnParameter([H|_] = D) when is_record(H, 'PackagesItem') ->
{packagesDescriptor, D};
cre_AuditReturnParameter(D) when is_record(D, 'AuditDescriptor') ->
{emptyDescriptors, D};
cre_AuditReturnParameter([H|_] = D) when is_tuple(H) ->
{signalsDescriptor, D}.
cre_AuditDescriptor() ->
#'AuditDescriptor'{}.
cre_AuditDescriptor([H|_] = AT) when is_atom(H) ->
#'AuditDescriptor'{auditToken = AT};
cre_AuditDescriptor(APT) ->
#'AuditDescriptor'{auditPropertyToken = APT}.
cre_AuditDescriptor(AT, APT) ->
#'AuditDescriptor'{auditToken = AT,
auditPropertyToken = APT}.
cre_IndAuditParameter(D) when is_record(D, 'IndAudMediaDescriptor') ->
{indAudMediaDescriptor, D};
cre_IndAuditParameter(D) when is_record(D, 'IndAudEventsDescriptor') ->
{indAudEventsDescriptor, D};
cre_IndAuditParameter(D) when is_record(D, 'IndAudEventBufferDescriptor') ->
{indAudEventBufferDescriptor, D};
cre_IndAuditParameter({signal, _} = D) ->
{indAudSignalsDescriptor, D};
cre_IndAuditParameter({seqSigList, _} = D) ->
{indAudSignalsDescriptor, D};
cre_IndAuditParameter(D) when is_record(D, 'IndAudDigitMapDescriptor') ->
{indAudDigitMapDescriptor, D};
cre_IndAuditParameter(D) when is_record(D, 'IndAudStatisticsDescriptor') ->
{indAudStatisticsDescriptor, D};
cre_IndAuditParameter(D) when is_record(D, 'IndAudPackagesDescriptor') ->
{indAudPackagesDescriptor, D}.
cre_IndAudMediaDescriptor() ->
#'IndAudMediaDescriptor'{}.
cre_IndAudMediaDescriptor(TSD)
when is_record(TSD, 'IndAudTerminationStateDescriptor') ->
#'IndAudMediaDescriptor'{termStateDescr = TSD};
cre_IndAudMediaDescriptor(Parms) when is_record(Parms, 'IndAudStreamParms') ->
Streams = {oneStream, Parms},
#'IndAudMediaDescriptor'{streams = Streams};
cre_IndAudMediaDescriptor(Descs) when is_list(Descs) ->
Streams = {multiStream, Descs},
#'IndAudMediaDescriptor'{streams = Streams}.
cre_IndAudMediaDescriptor(TSD, Parms)
when is_record(TSD, 'IndAudTerminationStateDescriptor') andalso
is_record(Parms, 'IndAudStreamParms') ->
Streams = {oneStream, Parms},
#'IndAudMediaDescriptor'{termStateDescr = TSD,
streams = Streams};
cre_IndAudMediaDescriptor(TSD, Descs)
when is_record(TSD, 'IndAudTerminationStateDescriptor') andalso is_list(Descs) ->
Streams = {multiStream, Descs},
#'IndAudMediaDescriptor'{termStateDescr = TSD,
streams = Streams}.
cre_IndAudStreamDescriptor(SID, Parms)
when is_integer(SID) andalso is_record(Parms, 'IndAudStreamParms') ->
#'IndAudStreamDescriptor'{streamID = SID,
streamParms = Parms}.
cre_IndAudStreamParms() ->
#'IndAudStreamParms'{}.
cre_IndAudStreamParms(LCD) when is_record(LCD, 'IndAudLocalControlDescriptor') ->
#'IndAudStreamParms'{localControlDescriptor = LCD}.
cre_IndAudStreamParms(LCD, L, R)
when is_record(LCD, 'IndAudLocalControlDescriptor') andalso
is_record(L, 'IndAudLocalRemoteDescriptor') andalso
is_record(R, 'IndAudLocalRemoteDescriptor') ->
#'IndAudStreamParms'{localControlDescriptor = LCD,
localDescriptor = L,
remoteDescriptor = R}.
cre_IndAudLocalControlDescriptor() ->
#'IndAudLocalControlDescriptor'{}.
cre_IndAudLocalControlDescriptor(SM, RV, RG, PP)
when ((SM == 'NULL') or (SM == asn1_NOVALUE)) and
((RV == 'NULL') or (RV == asn1_NOVALUE)) and
((RG == 'NULL') or (RG == asn1_NOVALUE)) and
(is_list(PP) or (PP == asn1_NOVALUE)) ->
#'IndAudLocalControlDescriptor'{streamMode = SM,
reserveValue = RV,
reserveGroup = RG,
propertyParms = PP}.
cre_IndAudPropertyParm(PkgdName) when is_list(PkgdName) ->
#'IndAudPropertyParm'{name = PkgdName}.
cre_IndAudLocalRemoteDescriptor(Grps)
when is_list(Grps) ->
#'IndAudLocalRemoteDescriptor'{propGrps = Grps}.
cre_IndAudLocalRemoteDescriptor(GrpID, Grps)
when is_integer(GrpID) andalso (0 =< GrpID) andalso (GrpID =< 65535) andalso is_list(Grps) ->
#'IndAudLocalRemoteDescriptor'{propGroupID = GrpID,
propGrps = Grps}.
cre_IndAudPropertyGroup([]) ->
[];
cre_IndAudPropertyGroup([H|_] = PG)
when is_record(H, 'IndAudPropertyParm') ->
PG.
cre_IndAudTerminationStateDescriptor([] = PP) ->
#'IndAudTerminationStateDescriptor'{propertyParms = PP};
cre_IndAudTerminationStateDescriptor([H|_] = PP)
when is_record(H, 'IndAudPropertyParm') ->
#'IndAudTerminationStateDescriptor'{propertyParms = PP}.
cre_IndAudTerminationStateDescriptor([] = PP, EBC, SS)
when ((EBC == 'NULL') or (EBC == asn1_NOVALUE)) and
((SS == 'NULL') or (SS == asn1_NOVALUE)) ->
#'IndAudTerminationStateDescriptor'{propertyParms = PP,
eventBufferControl = EBC,
serviceState = SS};
cre_IndAudTerminationStateDescriptor([H|_] = PP, EBC, SS)
when is_record(H, 'IndAudPropertyParm') and
((EBC == 'NULL') or (EBC == asn1_NOVALUE)) and
((SS == 'NULL') or (SS == asn1_NOVALUE)) ->
#'IndAudTerminationStateDescriptor'{propertyParms = PP,
eventBufferControl = EBC,
serviceState = SS}.
cre_IndAudEventsDescriptor(PkgdName)
when is_list(PkgdName) ->
#'IndAudEventsDescriptor'{pkgdName = PkgdName}.
cre_IndAudEventsDescriptor(RID, PkgdName)
when is_integer(RID) andalso is_list(PkgdName) ->
#'IndAudEventsDescriptor'{requestID = RID, pkgdName = PkgdName};
cre_IndAudEventsDescriptor(PkgdName, SID)
when is_list(PkgdName) andalso is_integer(SID) ->
#'IndAudEventsDescriptor'{pkgdName = PkgdName, streamID = SID}.
cre_IndAudEventsDescriptor(RID, PkgdName, SID)
when is_integer(RID) andalso is_list(PkgdName) andalso is_integer(SID) ->
#'IndAudEventsDescriptor'{requestID = RID,
pkgdName = PkgdName,
streamID = SID}.
cre_IndAudEventBufferDescriptor(EventName) when is_list(EventName) ->
#'IndAudEventBufferDescriptor'{eventName = EventName}.
cre_IndAudEventBufferDescriptor(EventName, SID)
when is_list(EventName) andalso is_integer(SID) ->
#'IndAudEventBufferDescriptor'{eventName = EventName, streamID = SID}.
cre_IndAudSignalsDescriptor(S) when is_record(S, 'IndAudSignal') ->
{signal, S};
cre_IndAudSignalsDescriptor(S) when is_record(S, 'IndAudSeqSigList') ->
{seqSigList, S}.
cre_IndAudSeqSigList(ID) when is_integer(ID) andalso (0=< ID) andalso (ID =< 65535) ->
#'IndAudSeqSigList'{id = ID}.
cre_IndAudSeqSigList(ID, S)
when is_integer(ID) andalso
(0 =< ID) andalso (ID =< 65535) andalso
is_record(S, 'IndAudSignal') ->
#'IndAudSeqSigList'{id = ID, signalList = S}.
cre_IndAudSignal(SigName) when is_list(SigName) ->
#'IndAudSignal'{signalName = SigName}.
cre_IndAudSignal(SigName, SID) when is_list(SigName) andalso is_integer(SID) ->
#'IndAudSignal'{signalName = SigName, streamID = SID}.
cre_IndAudDigitMapDescriptor() ->
#'IndAudDigitMapDescriptor'{}.
cre_IndAudDigitMapDescriptor(DMN) when is_list(DMN) ->
#'IndAudDigitMapDescriptor'{digitMapName = DMN}.
cre_IndAudStatisticsDescriptor(StatName) when is_list(StatName) ->
#'IndAudStatisticsDescriptor'{statName = StatName}.
cre_IndAudPackagesDescriptor(N, V)
when is_list(N) andalso
is_integer(V) andalso
(0 =< V) andalso
(V =< 99) ->
#'IndAudPackagesDescriptor'{packageName = N,
packageVersion = V}.
cre_NotifyRequest(TermIDs, D)
when is_list(TermIDs) andalso is_record(D, 'ObservedEventsDescriptor') ->
#'NotifyRequest'{terminationID = TermIDs,
observedEventsDescriptor = D}.
cre_NotifyRequest(TermIDs, D, ED)
when is_list(TermIDs) andalso
is_record(D, 'ObservedEventsDescriptor') andalso
is_record(ED, 'ErrorDescriptor') ->
#'NotifyRequest'{terminationID = TermIDs,
observedEventsDescriptor = D,
errorDescriptor = ED}.
cre_NotifyReply(TermIDs) when is_list(TermIDs) ->
#'NotifyReply'{terminationID = TermIDs}.
cre_NotifyReply(TermIDs, ED)
when is_list(TermIDs) andalso
is_record(ED, 'ErrorDescriptor') ->
#'NotifyReply'{terminationID = TermIDs,
errorDescriptor = ED}.
cre_ObservedEventsDescriptor(RID, [H|_] = L)
when is_integer(RID) andalso is_record(H, 'ObservedEvent') ->
#'ObservedEventsDescriptor'{requestId = RID,
observedEventLst = L}.
cre_ObservedEvent(EN, EPL)
when is_list(EN) andalso is_list(EPL) ->
#'ObservedEvent'{eventName = EN,
eventParList = EPL};
cre_ObservedEvent(EN, TN)
when is_list(EN) andalso
is_record(TN, 'TimeNotation') ->
#'ObservedEvent'{eventName = EN,
timeNotation = TN}.
cre_ObservedEvent(EN, SID, EPL)
when is_list(EN) andalso
is_integer(SID) andalso
is_list(EPL) ->
#'ObservedEvent'{eventName = EN,
streamID = SID,
eventParList = EPL};
cre_ObservedEvent(EN, EPL, TN)
when is_list(EN) andalso
is_list(EPL) andalso
is_record(TN, 'TimeNotation') ->
#'ObservedEvent'{eventName = EN,
eventParList = EPL,
timeNotation = TN}.
cre_ObservedEvent(EN, SID, EPL, TN)
when is_list(EN) andalso
is_integer(SID) andalso
is_list(EPL) andalso
is_record(TN, 'TimeNotation') ->
#'ObservedEvent'{eventName = EN,
streamID = SID,
eventParList = EPL,
timeNotation = TN}.
cre_EventName(N) when is_list(N) ->
N.
cre_EventParameter(N, V) when is_list(N) andalso is_list(V) ->
#'EventParameter'{eventParameterName = N,
value = V}.
cre_EventParameter(N, V, relation = Tag, R)
when is_list(N) andalso is_list(V) andalso is_atom(R) ->
EI = {Tag, R},
#'EventParameter'{eventParameterName = N,
value = V,
extraInfo = EI};
cre_EventParameter(N, V, range = Tag, B)
when is_list(N) andalso is_list(V) andalso is_atom(B) ->
EI = {Tag, B},
#'EventParameter'{eventParameterName = N,
value = V,
extraInfo = EI};
cre_EventParameter(N, V, sublist = Tag, B)
when is_list(N) andalso is_list(V) andalso is_atom(B) ->
EI = {Tag, B},
#'EventParameter'{eventParameterName = N,
value = V,
extraInfo = EI}.
cre_ServiceChangeRequest(TermIDs, SCP)
when is_list(TermIDs) andalso
is_record(SCP, 'ServiceChangeParm') ->
#'ServiceChangeRequest'{terminationID = TermIDs,
serviceChangeParms = SCP}.
cre_ServiceChangeReply(TermIDs, {Tag, R} = SCR)
when is_list(TermIDs) andalso is_atom(Tag) andalso is_tuple(R) ->
#'ServiceChangeReply'{terminationID = TermIDs,
serviceChangeResult = SCR}.
cre_ServiceChangeResult(ED) when is_record(ED, 'ErrorDescriptor') ->
{errorDescriptor, ED};
cre_ServiceChangeResult(SCRP) when is_record(SCRP, 'ServiceChangeResParm') ->
{serviceChangeResParms, SCRP}.
%% cre_WildcardField(L) when list(L), length(L) == 1 -> L.
cre_TerminationID(W, ID)
when is_list(W) andalso
is_list(ID) andalso (1 =< length(ID)) andalso (length(ID) =< 8) ->
#'TerminationID'{wildcard = W,
id = ID}.
cre_TerminationIDList(L) when is_list(L) ->
L.
cre_MediaDescriptor() ->
#'MediaDescriptor'{}.
cre_MediaDescriptor(TSD) when is_record(TSD, 'TerminationStateDescriptor') ->
#'MediaDescriptor'{termStateDescr = TSD};
cre_MediaDescriptor(SP) when is_record(SP, 'StreamParms') ->
Streams = {oneStream, SP},
#'MediaDescriptor'{streams = Streams};
cre_MediaDescriptor([H|_] = SDs) when is_record(H, 'StreamDescriptor') ->
Streams = {multiStream, SDs},
#'MediaDescriptor'{streams = Streams}.
cre_MediaDescriptor(TSD, SP)
when is_record(TSD, 'TerminationStateDescriptor') andalso
is_record(SP, 'StreamParms') ->
Streams = {oneStream, SP},
#'MediaDescriptor'{termStateDescr = TSD,
streams = Streams};
cre_MediaDescriptor(TSD, [H|_] = SDs)
when is_record(TSD, 'TerminationStateDescriptor') andalso
is_record(H, 'StreamDescriptor') ->
Streams = {multiStream, SDs},
#'MediaDescriptor'{termStateDescr = TSD,
streams = Streams}.
cre_StreamDescriptor(SID, SP) when is_integer(SID) andalso is_record(SP, 'StreamParms') ->
#'StreamDescriptor'{streamID = SID,
streamParms = SP}.
cre_StreamParms() ->
#'StreamParms'{}.
cre_StreamParms(LCD) when is_record(LCD, 'LocalControlDescriptor') ->
#'StreamParms'{localControlDescriptor = LCD};
cre_StreamParms(LD) when is_record(LD, 'LocalRemoteDescriptor') ->
#'StreamParms'{localDescriptor = LD}.
cre_StreamParms(LCD, LD)
when (is_record(LCD, 'LocalControlDescriptor') or (LCD == asn1_NOVALUE)) and
(is_record(LD, 'LocalRemoteDescriptor') or (LD == asn1_NOVALUE)) ->
#'StreamParms'{localControlDescriptor = LCD,
localDescriptor = LD}.
cre_StreamParms(LCD, LD, RD)
when (is_record(LCD, 'LocalControlDescriptor') or (LCD == asn1_NOVALUE)) and
(is_record(LD, 'LocalRemoteDescriptor') or (LD == asn1_NOVALUE)) and
(is_record(RD, 'LocalRemoteDescriptor') or (RD == asn1_NOVALUE)) ->
#'StreamParms'{localControlDescriptor = LCD,
localDescriptor = LD,
remoteDescriptor = RD}.
cre_LocalControlDescriptor(SM) when is_atom(SM) ->
#'LocalControlDescriptor'{streamMode = SM, propertyParms = []};
cre_LocalControlDescriptor([H|_] = PP) when is_record(H, 'PropertyParm') ->
#'LocalControlDescriptor'{propertyParms = PP}.
cre_LocalControlDescriptor(SM, [H|_] = PP)
when is_atom(SM) andalso is_record(H, 'PropertyParm') ->
#'LocalControlDescriptor'{streamMode = SM,
propertyParms = PP}.
cre_LocalControlDescriptor(SM, RV, RG, [H|_] = PP)
when is_atom(SM) and
((RV == true) or (RV == false) or (RV == asn1_NOVALUE)) and
((RG == true) or (RG == false) or (RG == asn1_NOVALUE)) and
is_record(H, 'PropertyParm') ->
#'LocalControlDescriptor'{streamMode = SM,
reserveValue = RV,
reserveGroup = RG,
propertyParms = PP}.
cre_StreamMode(sendOnly = M) ->
M;
cre_StreamMode(recvOnly = M) ->
M;
cre_StreamMode(sendRecv = M) ->
M;
cre_StreamMode(inactive = M) ->
M;
cre_StreamMode(loopBack = M) ->
M.
cre_PropertyParm(N, [H|_] = V) when is_list(N) andalso is_list(H) ->
#'PropertyParm'{name = N, value = V}.
cre_PropertyParm(N, [H|_] = V, relation = Tag, R)
when is_list(N) andalso is_list(H) andalso is_atom(R) ->
EI = {Tag, R},
#'PropertyParm'{name = N, value = V, extraInfo = EI};
cre_PropertyParm(N, [H|_] = V, range = Tag, B)
when is_list(N) andalso is_list(H) andalso is_atom(B) ->
EI = {Tag, B},
#'PropertyParm'{name = N, value = V, extraInfo = EI};
cre_PropertyParm(N, [H|_] = V, sublist = Tag, B)
when is_list(N) andalso is_list(H) andalso is_atom(B) ->
EI = {Tag, B},
#'PropertyParm'{name = N, value = V, extraInfo = EI}.
cre_Name(N) when is_list(N) andalso (length(N) =:= 2) ->
N.
cre_PkgdName(N) when is_list(N) ->
case string:tokens(N, [$\\]) of
[_PkgName, _ItemID] ->
N;
_ ->
error({invalid_PkgdName, N})
end.
cre_PkgdName(root, root) ->
"*/*";
cre_PkgdName(PackageName, root)
when is_list(PackageName) and (length(PackageName) =< 64) ->
PackageName ++ "/*";
cre_PkgdName(PackageName, ItemID)
when ((is_list(PackageName) and (length(PackageName) =< 64)) and
(is_list(ItemID) and (length(ItemID) =< 64))) ->
PackageName ++ "/" ++ ItemID;
cre_PkgdName(PackageName, ItemID) ->
error({invalid_PkgdName, {PackageName, ItemID}}).
cre_Relation(greaterThan = R) ->
R;
cre_Relation(smallerThan = R) ->
R;
cre_Relation(unequalTo = R) ->
R.
cre_LocalRemoteDescriptor([H|_] = PGs) when is_list(H) ->
#'LocalRemoteDescriptor'{propGrps = PGs}.
cre_PropertyGroup([H|_] = PG) when is_record(H, 'PropertyParm') ->
PG.
cre_TerminationStateDescriptor([H|_] = PPs) when is_record(H, 'PropertyParm') ->
#'TerminationStateDescriptor'{propertyParms = PPs}.
cre_TerminationStateDescriptor([H|_] = PPs, off = EBC)
when is_record(H, 'PropertyParm') ->
#'TerminationStateDescriptor'{propertyParms = PPs,
eventBufferControl = EBC};
cre_TerminationStateDescriptor([H|_] = PPs, lockStep = EBC)
when is_record(H, 'PropertyParm') ->
#'TerminationStateDescriptor'{propertyParms = PPs,
eventBufferControl = EBC};
cre_TerminationStateDescriptor([H|_] = PPs, test = SS)
when is_record(H, 'PropertyParm') ->
#'TerminationStateDescriptor'{propertyParms = PPs,
serviceState = SS};
cre_TerminationStateDescriptor([H|_] = PPs, outOfSvc = SS)
when is_record(H, 'PropertyParm') ->
#'TerminationStateDescriptor'{propertyParms = PPs,
serviceState = SS};
cre_TerminationStateDescriptor([H|_] = PPs, inSvc = SS)
when is_record(H, 'PropertyParm') ->
#'TerminationStateDescriptor'{propertyParms = PPs,
serviceState = SS}.
cre_TerminationStateDescriptor([H|_] = PPs, EMC, SS)
when is_record(H, 'PropertyParm') andalso
((EMC == off) or (EMC == lockStep)) and
((SS == test) or (SS == outOfSvc) or (SS == inSvc)) ->
#'TerminationStateDescriptor'{propertyParms = PPs,
eventBufferControl = EMC,
serviceState = SS}.
cre_EventBufferControl(off = EBC) ->
EBC;
cre_EventBufferControl(lockStep = EBC) ->
EBC.
cre_ServiceState(test = SS) ->
SS;
cre_ServiceState(outOfSvc = SS) ->
SS;
cre_ServiceState(inSvc = SS) ->
SS.
cre_MuxDescriptor(MT, [H|_] = TL)
when is_atom(MT) andalso is_record(H, 'TerminationID') ->
#'MuxDescriptor'{muxType = MT, termList = TL}.
%% cre_MuxDescriptor(MT, [H|_] = TL, NSD)
%% when atom(MT), record(H, 'TerminationID'), record(NSD, 'NonStandardData') ->
%% #'MuxDescriptor'{muxType = MT, termList = TL, nonStandardData = NSD}.
cre_MuxType(h221 = MT) ->
MT;
cre_MuxType(h223 = MT) ->
MT;
cre_MuxType(h226 = MT) ->
MT;
cre_MuxType(v76 = MT) ->
MT;
cre_MuxType(nx64k = MT) ->
MT.
cre_StreamID(Val) when 0 =< Val, Val =< 65535 ->
Val;
cre_StreamID(Val) ->
exit({invalid_ContextID, Val}).
%% RequestID must be present if eventList is non empty
cre_EventsDescriptor() ->
#'EventsDescriptor'{eventList = []}.
cre_EventsDescriptor(RID, [H|_] = EL)
when is_integer(RID) andalso is_record(H, 'RequestedEvent') ->
#'EventsDescriptor'{requestID = RID, eventList = EL}.
cre_RequestedEvent(N) ->
#'RequestedEvent'{pkgdName = N}.
cre_RequestedEvent(N, [H|_] = EPL)
when is_list(N) andalso
is_record(H, 'EventParameter') ->
#'RequestedEvent'{pkgdName = N,
evParList = EPL};
cre_RequestedEvent(N, EA)
when is_list(N) andalso
is_record(EA, 'RequestedActions')->
#'RequestedEvent'{pkgdName = N,
eventAction = EA}.
cre_RequestedEvent(N, SID, [H|_] = EPL)
when is_list(N) andalso
is_integer(SID) andalso
is_record(H, 'EventParameter') ->
#'RequestedEvent'{pkgdName = N,
streamID = SID,
evParList = EPL};
cre_RequestedEvent(N, EA, [H|_] = EPL)
when is_list(N) andalso
is_record(EA, 'RequestedActions') andalso
is_record(H, 'EventParameter') ->
#'RequestedEvent'{pkgdName = N,
eventAction = EA,
evParList = EPL}.
cre_RequestedEvent(N, SID, EA, [H|_] = EPL)
when is_list(N) andalso
is_integer(SID) andalso
is_record(EA, 'RequestedActions') andalso
is_record(H, 'EventParameter') ->
#'RequestedEvent'{pkgdName = N,
streamID = SID,
eventAction = EA,
evParList = EPL}.
cre_RequestedActions() ->
#'RequestedActions'{}.
cre_RequestedActions(KA)
when (KA == true) or (KA == true) or (KA == asn1_NOVALUE) ->
#'RequestedActions'{keepActive = KA};
cre_RequestedActions(SE)
when is_record(SE, 'SecondEventsDescriptor') or (SE == asn1_NOVALUE) ->
#'RequestedActions'{secondEvent = SE};
cre_RequestedActions(SD)
when is_list(SD) or (SD == asn1_NOVALUE) ->
#'RequestedActions'{signalsDescriptor = SD};
cre_RequestedActions({Tag, _} = EDM)
when is_atom(Tag) or (EDM == asn1_NOVALUE) ->
#'RequestedActions'{eventDM = EDM}.
cre_RequestedActions(KA, {Tag, _} = EDM, SE, SD)
when ((KA == true) or (KA == true) or (KA == asn1_NOVALUE)) and
(is_atom(Tag) or (EDM == asn1_NOVALUE)) and
(is_record(SE, 'SecondEventsDescriptor') or (SE == asn1_NOVALUE)) and
(is_list(SD) or (SD == asn1_NOVALUE)) ->
#'RequestedActions'{keepActive = KA,
eventDM = EDM,
secondEvent = SE,
signalsDescriptor = SD}.
cre_EventDM(N) when is_list(N) ->
{digitMapName, N};
cre_EventDM(V) when is_record(V, 'DigitMapValue') ->
{digitMapValue, V}.
cre_SecondEventsDescriptor([H|_] = EL)
when is_record(H, 'SecondRequestedEvent') ->
#'SecondEventsDescriptor'{eventList = EL}.
cre_SecondEventsDescriptor(RID, [H|_] = EL)
when is_integer(RID) andalso is_record(H, 'SecondRequestedEvent') ->
#'SecondEventsDescriptor'{requestID = RID, eventList = EL}.
cre_SecondRequestedEvent(N, [H|_] = EPL)
when is_list(N) andalso
is_record(H, 'EventParameter') ->
#'SecondRequestedEvent'{pkgdName = N,
evParList = EPL}.
cre_SecondRequestedEvent(N, SID, [H|_] = EPL)
when is_list(N) andalso
is_integer(SID) andalso
is_record(H, 'EventParameter') ->
#'SecondRequestedEvent'{pkgdName = N,
streamID = SID,
evParList = EPL};
cre_SecondRequestedEvent(N, EA, [H|_] = EPL)
when is_list(N) andalso
is_record(EA, 'SecondRequestedActions') andalso
is_record(H, 'EventParameter') ->
#'SecondRequestedEvent'{pkgdName = N,
eventAction = EA,
evParList = EPL}.
cre_SecondRequestedEvent(N, SID, EA, [H|_] = EPL)
when is_list(N) andalso
is_integer(SID) andalso
is_record(EA, 'SecondRequestedActions') andalso
is_record(H, 'EventParameter') ->
#'SecondRequestedEvent'{pkgdName = N,
streamID = SID,
eventAction = EA,
evParList = EPL}.
cre_SecondRequestedActions() ->
#'SecondRequestedActions'{}.
cre_SecondRequestedActions(KA)
when ((KA == true) or (KA == false) or (KA == asn1_NOVALUE)) ->
#'SecondRequestedActions'{keepActive = KA};
cre_SecondRequestedActions(SD) when is_list(SD) ->
#'SecondRequestedActions'{signalsDescriptor = SD};
cre_SecondRequestedActions({Tag, _} = EDM) when is_atom(Tag) ->
#'SecondRequestedActions'{eventDM = EDM}.
cre_SecondRequestedActions(KA, SD)
when ((KA == true) or (KA == false) or (KA == asn1_NOVALUE)) and
is_list(SD) ->
#'SecondRequestedActions'{keepActive = KA, signalsDescriptor = SD};
cre_SecondRequestedActions(KA, {Tag, _} = EDM)
when ((KA == true) or (KA == false) or (KA == asn1_NOVALUE)) and
is_atom(Tag) ->
#'SecondRequestedActions'{keepActive = KA, eventDM = EDM}.
cre_SecondRequestedActions(KA, {Tag, _} = EDM, SD)
when ((KA == true) or (KA == false) or (KA == asn1_NOVALUE)) and
is_atom(Tag),
is_list(SD) ->
#'SecondRequestedActions'{keepActive = KA,
eventDM = EDM,
signalsDescriptor = SD}.
cre_EventBufferDescriptor([H|_] = D) when is_record(H, 'EventSpec') ->
D.
cre_EventSpec(N, [H|_] = EPL) when is_list(N) andalso is_record(H, 'EventParameter') ->
#'EventSpec'{eventName = N, eventParList = EPL}.
cre_EventSpec(N, SID, [H|_] = EPL)
when is_list(N) andalso is_integer(SID) andalso is_record(H, 'EventParameter') ->
#'EventSpec'{eventName = N, streamID = SID, eventParList = EPL}.
cre_SignalsDescriptor(D) when is_list(D) ->
D.
cre_SignalRequest(S) when is_record(S, 'Signal') ->
{signal, S};
cre_SignalRequest(S) when is_record(S, 'SeqSigList') ->
{seqSigList, S}.
cre_SeqSigList(ID, [H|_] = SL)
when is_integer(ID) andalso (0 =< ID) andalso (ID =< 65535) andalso is_record(H, 'Signal') ->
#'SeqSigList'{id = ID, signalList = SL}.
cre_Signal(N) when is_list(N) ->
#'Signal'{signalName = N}.
cre_Signal(N, [H|_] = SPL) when is_list(N) andalso is_record(H, 'SigParameter') ->
#'Signal'{signalName = N,
sigParList = SPL}.
cre_Signal(N, SID, ST, Dur, NC, KA, [H|_] = SPL)
when is_list(N) and
(is_integer(SID) or (SID == asn1_NOVALUE)) and
((ST == brief) or (ST == onOff) or (ST == timeOut) or
(ST == asn1_NOVALUE)) and
((is_integer(Dur) and (0 =< Dur) and (Dur =< 65535)) or
(Dur == asm1_NOVALUE)) and
is_list(NC) and
((KA == true) or (KA == false) or (KA == asn1_NOVALUE)) and
is_record(H, 'SigParameter') ->
#'Signal'{signalName = N,
streamID = SID,
sigType = ST,
duration = Dur,
notifyCompletion = NC,
keepActive = KA,
sigParList = SPL}.
cre_SignalType(brief = ST) ->
ST;
cre_SignalType(onOff = ST) ->
ST;
cre_SignalType(timeOut = ST) ->
ST.
cre_SignalName(N) ->
cre_PkgdName(N).
cre_NotifyCompletion(L) when is_list(L) ->
Vals = [onTimeOut, onInterruptByEvent,
onInterruptByNewSignalDescr, otherReason],
F = fun(E) -> case lists:member(E, Vals) of
true ->
ok;
false ->
exit({invalid_NotifyCompletion, E})
end
end,
lists:foreach(F, L),
L.
cre_SigParameter(N, V) when is_list(N) andalso is_list(V) ->
#'SigParameter'{sigParameterName = N, value = V}.
cre_SigParameter(N, V, relation = Tag, R)
when is_list(N) andalso is_list(V) andalso is_atom(R) ->
EI = {Tag, R},
#'SigParameter'{sigParameterName = N, value = V, extraInfo = EI};
cre_SigParameter(N, V, range = Tag, B)
when is_list(N) andalso is_list(V) andalso is_atom(B) ->
EI = {Tag, B},
#'SigParameter'{sigParameterName = N, value = V, extraInfo = EI};
cre_SigParameter(N, V, sublist = Tag, B)
when is_list(N) andalso is_list(V) andalso is_atom(B) ->
EI = {Tag, B},
#'SigParameter'{sigParameterName = N, value = V, extraInfo = EI}.
cre_RequestID(Val) when 0 =< Val, Val =< 4294967295 ->
Val;
cre_RequestID(Val) ->
exit({invalid_RequestID, Val}).
cre_ModemDescriptor(MTL, MPL) when is_list(MTL) andalso is_list(MPL) ->
#'ModemDescriptor'{mtl = MTL, mpl = MPL}.
%% cre_ModemDescriptor(MTL, MPL, NSD)
%% when list(MTL), list(MPL), record(NSD, 'NonStandardData') ->
%% #'ModemDescriptor'{mtl = MTL, mpl = MPL}.
cre_ModemType(v18 = MT) ->
MT;
cre_ModemType(v22 = MT) ->
MT;
cre_ModemType(v22bis = MT) ->
MT;
cre_ModemType(v32 = MT) ->
MT;
cre_ModemType(v32bis = MT) ->
MT;
cre_ModemType(v34 = MT) ->
MT;
cre_ModemType(v90 = MT) ->
MT;
cre_ModemType(v91 = MT) ->
MT;
cre_ModemType(synchISDN = MT) ->
MT.
cre_DigitMapDescriptor() ->
#'DigitMapDescriptor'{}.
cre_DigitMapDescriptor(N) when is_list(N) ->
#'DigitMapDescriptor'{digitMapName = N};
cre_DigitMapDescriptor(V) when is_record(V, 'DigitMapValue') ->
#'DigitMapDescriptor'{digitMapValue = V}.
cre_DigitMapDescriptor(N, V) when is_list(N) andalso is_record(V, 'DigitMapValue') ->
#'DigitMapDescriptor'{digitMapName = N, digitMapValue = V}.
cre_DigitMapName(N) ->
cre_Name(N).
cre_DigitMapValue(DMB) when is_list(DMB) ->
#'DigitMapValue'{digitMapBody = DMB}.
cre_DigitMapValue(Start, Short, Long, DMB) ->
cre_DigitMapValue(Start, Short, Long, DMB, asn1_NOVALUE).
cre_DigitMapValue(Start, Short, Long, DMB, Dur)
when ((is_integer(Start) and (0 =< Start) and (Start =< 99)) or
(Start == asn1_NOVALUE)) and
((is_integer(Short) and (0 =< Short) and (Short =< 99)) or
(Short == asn1_NOVALUE)) and
((is_integer(Long) and (0 =< Long) and (Long =< 99)) or
(Long == asn1_NOVALUE)) and
is_list(DMB) and
((is_integer(Dur) and (0 =< Dur) and (Dur =< 99)) or
(Dur == asn1_NOVALUE)) ->
#'DigitMapValue'{startTimer = Start,
shortTimer = Short,
longTimer = Long,
digitMapBody = DMB,
durationTimer = Dur}.
cre_ServiceChangeParm(M, R) when is_atom(M) andalso is_list(R) ->
#'ServiceChangeParm'{serviceChangeMethod = M,
serviceChangeReason = R}.
cre_ServiceChangeParm(M, Addr, Prof, Reason) ->
cre_ServiceChangeParm(M, Addr, asn1_NOVALUE, Prof, Reason, asn1_NOVALUE,
asn1_NOVALUE, asn1_NOVALUE, asn1_NOVALUE).
%% Addr = asn1_NOVALUE | {AddrTag, AddrVal}
cre_ServiceChangeParm(M, Addr, Ver, Prof, R, D, Mid, TS, I)
when is_atom(M) and
((is_integer(Ver) and (0 =< Ver) and (Ver =< 99)) or
(Ver == asn1_NOVALUE)) and
(is_record(Prof, 'ServiceChangeProfile') or (Prof == asn1_NOVALUE)) and
is_list(R) and
((is_integer(D) and (0 =< D) and (D =< 4294967295)) or
(D == asn1_NOVALUE)) and
(is_record(TS, 'TimeNotation') or (TS == asn1_NOVALUE)) and
(is_record(I, 'AuditDescriptor') or (I == asn1_NOVALUE)) ->
F = fun(A) ->
(A == asn1_NOVALUE) orelse
(is_tuple(A)
andalso is_atom(element(1, A)))
end,
case (F(Addr) andalso F(Mid)) of
true ->
#'ServiceChangeParm'{serviceChangeMethod = M,
serviceChangeAddress = Addr,
serviceChangeVersion = Ver,
serviceChangeProfile = Prof,
serviceChangeReason = R,
serviceChangeDelay = D,
serviceChangeMgcId = Mid,
timeStamp = TS,
serviceChangeInfo = I};
_ ->
exit({invalid_ServiceChangeParm_args, {Addr, Mid}})
end.
cre_ServiceChangeAddress(portNumber = Tag, P)
when is_integer(P) andalso (0 =< P) andalso (P =< 65535) ->
{Tag, P};
cre_ServiceChangeAddress(ip4Address = Tag, A) when is_record(A, 'IP4Address') ->
{Tag, A};
cre_ServiceChangeAddress(ip6Address = Tag, A) when is_record(A, 'IP6Address') ->
{Tag, A};
cre_ServiceChangeAddress(domainName = Tag, N) when is_record(N, 'DomainName') ->
{Tag, N};
cre_ServiceChangeAddress(deviceName = Tag, N) when is_list(N) ->
{Tag, N};
cre_ServiceChangeAddress(mtpAddress = Tag, A) when is_list(A) ->
{Tag, A}.
cre_ServiceChangeResParm() ->
#'ServiceChangeResParm'{}.
cre_ServiceChangeResParm(Addr, Prof) ->
cre_ServiceChangeResParm(asn1_NOVALUE, Addr, asn1_NOVALUE,
Prof, asn1_NOVALUE).
cre_ServiceChangeResParm(Mid, Addr, Ver, Prof, TS)
when ((is_integer(Ver) and (0 =< Ver) and (Ver =< 99)) or
(Ver == asn1_NOVALUE)) and
(is_record(Prof, 'ServiceChangeProfile') or (Prof == asn1_NOVALUE)) and
(is_record(TS, 'TimeNotation') or (TS == asn1_NOVALUE)) ->
F = fun(A) ->
(A == asn1_NOVALUE) orelse
(is_tuple(A)
andalso is_atom(element(1, A)))
end,
case (F(Addr) andalso F(Mid)) of
true ->
#'ServiceChangeResParm'{serviceChangeMgcId = Mid,
serviceChangeAddress = Addr,
serviceChangeVersion = Ver,
serviceChangeProfile = Prof,
timeStamp = TS};
_ ->
exit({invalid_ServiceChangeResParm_args, {Addr, Mid}})
end.
cre_ServiceChangeMethod(failover = M) ->
M;
cre_ServiceChangeMethod(forced = M) ->
M;
cre_ServiceChangeMethod(graceful = M) ->
M;
cre_ServiceChangeMethod(restart = M) ->
M;
cre_ServiceChangeMethod(disconnected = M) ->
M;
cre_ServiceChangeMethod(handOff = M) ->
M.
%% The version field is added to make it look more like ABNF
cre_ServiceChangeProfile(N) ->
cre_ServiceChangeProfile(N, 1).
cre_ServiceChangeProfile(N, V)
when is_list(N) andalso is_integer(V) andalso (0 =< V) andalso (V =< 99) ->
#'ServiceChangeProfile'{profileName = N, version = V}.
cre_PackagesDescriptor([H|_] = D) when is_record(H, 'PackagesItem') ->
D.
cre_PackagesItem(N, Ver)
when is_list(N) andalso
is_integer(Ver) andalso
(0 =< Ver) andalso (Ver =< 99) ->
#'PackagesItem'{packageName = N,
packageVersion = Ver}.
cre_StatisticsDescriptor([H|_] = D) when is_record(H, 'StatisticsParameter') ->
D.
cre_StatisticsParameter(N) when is_list(N) ->
#'StatisticsParameter'{statName = N}.
cre_StatisticsParameter(N, V) when is_list(N) andalso is_list(V) ->
#'StatisticsParameter'{statName = N, statValue = V}.
%% cre_NonStandardData({Tag, _} = Id, Data) when atom(Tag), list(Data) ->
%% #'NonStandardData'{nonStandardIdentifier = Id, data = Data}.
%% cre_NonStandardIdentifier(H221) when record(H221, 'H221NonStandard') ->
%% {h221NonStandard, H221};
%% cre_NonStandardIdentifier(Obj) when tuple(Obj) ->
%% {object, Obj};
%% cre_NonStandardIdentifier(Exp) when list(Exp), length(Exp) == 8 ->
%% {experimental, Exp}.
%% cre_H221NonStandard(CC1, CC2, Ext, MC)
%% when (is_integer(CC1) and (0 =< CC1) and (CC1 =< 255)) and
%% (is_integer(CC2) and (0 =< CC2) and (CC2 =< 255)) and
%% (is_integer(Ext) and (0 =< Ext) and (Ext =< 255)) and
%% (is_integer(MC) and (0 =< MC) and (MC =< 255)) ->
%% #'H221NonStandard'{t35CountryCode1 = CC1,
%% t35CountryCode2 = CC2,
%% t35Extension = Ext,
%% manufacturerCode = MC}.
cre_TimeNotation(D, T)
when is_list(D) andalso (length(D) =:= 8) andalso is_list(T) andalso (length(T) =:= 8) ->
#'TimeNotation'{date = D, time = T}.
cre_Value([H|_] = V) when is_list(H) ->
V.
cre_BOOLEAN(true = B) ->
B;
cre_BOOLEAN(false = B) ->
B.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% -- MegacoMessage --
is_MegacoMessage(#'MegacoMessage'{authHeader = Auth,
mess = Mess}) ->
is_opt_AuthenticationHeader(Auth) andalso is_Message(Mess);
is_MegacoMessage(_) ->
false.
chk_MegacoMessage(M, M) ->
chk_type(fun is_MegacoMessage/1, 'MegacoMessage', M);
chk_MegacoMessage(#'MegacoMessage'{authHeader = Auth1,
mess = Mess1},
#'MegacoMessage'{authHeader = Auth2,
mess = Mess2}) ->
chk_opt_AuthenticationHeader(Auth1,Auth2),
chk_Message(Mess1,Mess2),
ok;
chk_MegacoMessage(M1, M2) ->
wrong_type('MegacoMessage', M1, M2).
%% -- AuthenticationHeader --
is_opt_AuthenticationHeader(AH) ->
is_OPTIONAL(fun is_AuthenticationHeader/1, AH).
is_AuthenticationHeader(#'AuthenticationHeader'{secParmIndex = SPI,
seqNum = SN,
ad = AD}) ->
is_SecurityParmIndex(SPI) andalso
is_SequenceNum(SN) andalso
is_AuthData(AD);
is_AuthenticationHeader(_) ->
false.
%% This stuff is not really used, so make it simple...
chk_opt_AuthenticationHeader(A1, A2) ->
chk_OPTIONAL('AuthenticationHeader', A1, A2,
fun is_AuthenticationHeader/1,
fun chk_AuthenticationHeader/2).
chk_AuthenticationHeader(A, A) ->
chk_type(fun is_AuthenticationHeader/1, 'AuthenticationHeader', A);
chk_AuthenticationHeader(A1, A2) ->
case (is_AuthenticationHeader(A1) andalso is_AuthenticationHeader(A2)) of
true ->
not_equal('AuthenticationHeader', A1, A2);
false ->
wrong_type('AuthenticationHeader', A1, A2)
end.
%% -- SecurityParmIndex --
is_SecurityParmIndex(V) -> is_OCTET_STRING(V, {exact, 4}).
%% -- SequenceNum --
is_SequenceNum(V) -> is_OCTET_STRING(V, {exact, 4}).
%% -- AuthData --
is_AuthData(V) -> is_OCTET_STRING(V, {range, 12, 32}).
%% -- Message --
is_Message(#'Message'{version = V,
mId = MID,
messageBody = Body}) ->
is_INTEGER(V, {range, 0, 99}) andalso
is_MId(MID) andalso
is_Message_messageBody(Body);
is_Message(_) ->
false.
chk_Message(M,M) when is_record(M,'Message') ->
ok;
chk_Message(#'Message'{version = V1,
mId = MID1,
messageBody = Body1},
#'Message'{version = V2,
mId = MID2,
messageBody = Body2}) ->
validate(fun() -> chk_INTEGER(V1, V2, {range, 0, 99}) end, 'Message'),
validate(fun() -> chk_MId(MID1, MID2) end, 'Message'),
chk_Message_messageBody(Body1, Body2),
ok;
chk_Message(M1, M2) ->
wrong_type('Message', M1, M2).
is_Message_messageBody({Tag, Val}) ->
is_Message_messageBody_tag(Tag) andalso
is_Message_messageBody_val(Tag, Val);
is_Message_messageBody(_) ->
false.
is_Message_messageBody_tag(Tag) ->
Tags = [messageError, transactions],
lists:member(Tag, Tags).
is_Message_messageBody_val(messageError, Val) ->
is_ErrorDescriptor(Val);
is_Message_messageBody_val(transactions, Val) ->
is_Message_messageBody_transactions(Val).
is_Message_messageBody_transactions([]) ->
true;
is_Message_messageBody_transactions([H|T]) ->
is_Transaction(H) andalso is_Message_messageBody_transactions(T);
is_Message_messageBody_transactions(_) ->
false.
chk_Message_messageBody(B, B) ->
chk_type(fun is_Message_messageBody/1, 'Message_messageBody', B);
chk_Message_messageBody({Tag, Val1} = B1, {Tag, Val2} = B2) ->
case (is_Message_messageBody_tag(Tag) andalso
is_Message_messageBody_val(Tag, Val1) andalso
is_Message_messageBody_val(Tag, Val2)) of
true ->
chk_Message_messageBody_val(Tag, Val1, Val2);
false ->
wrong_type('Message_messageBody', B1, B2)
end;
chk_Message_messageBody({Tag1, Val1} = B1, {Tag2, Val2} = B2) ->
case ((is_Message_messageBody_tag(Tag1) andalso
is_Message_messageBody_val(Tag1, Val1)) andalso
(is_Message_messageBody_tag(Tag2) andalso
is_Message_messageBody_val(Tag2, Val2))) of
true ->
not_equal('Message_messageBody', B1, B2);
false ->
wrong_type('Message_messageBody', B1, B2)
end;
chk_Message_messageBody(B1, B2) ->
wrong_type('Message_messageBody', B1, B2).
chk_Message_messageBody_val(messageError, Val1, Val2) ->
validate(fun() -> chk_ErrorDescriptor(Val1, Val2) end,
'Message_messageBody');
chk_Message_messageBody_val(transactions, Val1, Val2) ->
chk_Message_messageBody_transactions(Val1, Val2).
chk_Message_messageBody_transactions([], []) ->
ok;
chk_Message_messageBody_transactions([] = T1, T2) ->
not_equal('Message_messageBody_transactions', T1, T2);
chk_Message_messageBody_transactions(T1, [] = T2) ->
not_equal('Message_messageBody_transactions', T1, T2);
chk_Message_messageBody_transactions([H|T1], [H|T2]) ->
case is_Transaction(H) of
true ->
chk_Message_messageBody_transactions(T1, T2);
false ->
wrong_type('Message_messageBody_transactions_val', H)
end;
chk_Message_messageBody_transactions([H1|T1], [H2|T2]) ->
validate(fun() -> chk_Transaction(H1, H2) end,
'Message_messageBody_transactions_val'),
chk_Message_messageBody_transactions(T1, T2);
chk_Message_messageBody_transactions(T1, T2) ->
wrong_type('Message_messageBody_transactions', T1, T2).
%% -- MId --
is_opt_MId(M) ->
is_OPTIONAL(fun is_MId/1, M).
is_MId({Tag, Val}) ->
is_MId_tag(Tag) andalso is_MId_val(Tag, Val);
is_MId(_) ->
false.
is_MId_tag(Tag) ->
Tags = [ip4Address, ip6Address, domainName, deviceName, mtpAddress],
lists:member(Tag, Tags).
is_MId_val(ip4Address, Val) -> is_IP4Address(Val);
is_MId_val(ip6Address, Val) -> is_IP6Address(Val);
is_MId_val(domainName, Val) -> is_DomainName(Val);
is_MId_val(deviceName, Val) -> is_PathName(Val);
is_MId_val(mtpAddress, Val) -> is_OCTET_STRING(Val, {range, 2, 4}).
chk_opt_MId(M1, M2) ->
chk_OPTIONAL('MId', M1, M2, fun is_MId/1, fun chk_MId/2).
chk_MId(M, M) ->
chk_type(fun is_MId/1, 'MId', M);
chk_MId({Tag, Val1} = M1, {Tag, Val2} = M2) ->
case (is_MId_tag(Tag) andalso
is_MId_val(Tag, Val1) andalso
is_MId_val(Tag, Val2)) of
true ->
chk_MId_val(Tag, Val1, Val2);
false ->
wrong_type('MId', M1, M2)
end;
chk_MId({Tag1, Val1} = M1, {Tag2, Val2} = M2) ->
case ((is_MId_tag(Tag1) andalso
is_MId_val(Tag1, Val1)) andalso
(is_MId_tag(Tag2) andalso
is_MId_val(Tag2, Val2))) of
true ->
not_equal('MId', M1, M2);
false ->
wrong_type('MId', M1, M2)
end;
chk_MId(M1, M2) ->
wrong_type('MId', M1, M2).
chk_MId_val(ip4Address, M1, M2) -> chk_IP4Address(M1, M2);
chk_MId_val(ip6Address, M1, M2) -> chk_IP6Address(M1, M2);
chk_MId_val(domainName, M1, M2) -> chk_DomainName(M1, M2);
chk_MId_val(deviceName, M1, M2) -> chk_PathName(M1, M2);
chk_MId_val(mtpAddress, M1, M2) -> chk_OCTET_STRING(M1, M2, {range, 2, 4}).
%% -- DomainName --
is_DomainName(#'DomainName'{name = N, portNumber = PN}) ->
is_IA5String(N) andalso is_opt_INTEGER(PN, {range, 0, 65535});
is_DomainName(_) ->
false.
chk_DomainName(N, N) ->
ok;
chk_DomainName(N1, N2) ->
not_equal('DomainName', N1, N2).
%% -- IP4Address --
is_IP4Address(#'IP4Address'{address = A, portNumber = PN}) ->
is_OCTET_STRING(A, {exact, 4}) andalso
is_opt_INTEGER(PN, {range, 0, 65535});
is_IP4Address(_) ->
false.
chk_IP4Address(A, A) ->
ok;
chk_IP4Address(A1, A2) ->
not_equal('IP4Address', A1, A2).
%% -- IP6Address --
is_IP6Address(#'IP6Address'{address = A, portNumber = PN}) ->
is_OCTET_STRING(A, {exact, 16}) andalso
is_opt_INTEGER(PN, {range, 0, 65535});
is_IP6Address(_) ->
false.
chk_IP6Address(A, A) ->
ok;
chk_IP6Address(A1, A2) ->
not_equal('IP6Address', A1, A2).
%% -- PathName --
is_PathName(N) -> is_IA5String(N, {range, 1, 64}).
chk_PathName(N, N) ->
ok;
chk_PathName(N1, N2) ->
not_equal('PathName', N1, N2).
%% -- Transaction --
is_Transaction({Tag, Val}) ->
is_Transaction_tag(Tag) andalso is_Transaction_val(Tag, Val);
is_Transaction(_) ->
false.
is_Transaction_tag(Tag) ->
Tags = [transactionRequest,
transactionPending,
transactionReply,
transactionResponseAck],
lists:member(Tag, Tags).
is_Transaction_val(transactionRequest, V) -> is_TransactionRequest(V);
is_Transaction_val(transactionPending, V) -> is_TransactionPending(V);
is_Transaction_val(transactionReply, V) -> is_TransactionReply(V);
is_Transaction_val(transactionResponseAck, V) -> is_TransactionResponseAck(V).
chk_Transaction({Tag, Val} = Trans, {Tag, Val}) ->
case (is_Transaction_tag(Tag) andalso is_Transaction_val(Tag, Val)) of
true ->
ok;
false ->
wrong_type('Transaction', Trans, Trans)
end;
chk_Transaction({Tag, Val1} = Trans1, {Tag, Val2} = Trans2) ->
case (is_Transaction_tag(Tag) and
is_Transaction_val(Tag, Val1) and
is_Transaction_val(Tag, Val2)) of
true ->
chk_Transaction_val(Tag, Val1, Val2);
false ->
wrong_type('Transaction', Trans1, Trans2)
end;
chk_Transaction({Tag1, Val1} = Trans1, {Tag2, Val2} = Trans2) ->
case ((is_Transaction_tag(Tag1) andalso
is_Transaction_val(Tag1, Val1)) andalso
(is_Transaction_tag(Tag2) andalso
is_Transaction_val(Tag2, Val2))) of
true ->
not_equal('Transaction', Trans1, Trans2);
false ->
wrong_type('Transaction', Trans1, Trans2)
end;
chk_Transaction(Trans1, Trans2) ->
wrong_type('Transaction', Trans1, Trans2).
chk_Transaction_val(transactionRequest, T1, T2) ->
chk_TransactionRequest(T1, T2);
chk_Transaction_val(transactionPending, T1, T2) ->
chk_TransactionPending(T1, T2);
chk_Transaction_val(transactionReply, T1, T2) ->
chk_TransactionReply(T1,T2);
chk_Transaction_val(transactionResponseAck, T1, T2) ->
chk_TransactionResponseAck(T1, T2).
%% -- TransactionId --
is_opt_TransactionId(TID) ->
is_OPTIONAL(fun is_TransactionId/1, TID).
is_TransactionId(TID) -> is_INTEGER(TID, {range, 0, 4294967295}).
chk_opt_TransactionId(TID1, TID2) ->
chk_OPTIONAL('TransactionId', TID1, TID2,
fun is_TransactionId/1, fun chk_TransactionId/2).
chk_TransactionId(TID, TID) ->
chk_type(fun is_TransactionId/1, 'TransactionId', TID);
chk_TransactionId(TID1, TID2) ->
case (is_TransactionId(TID1) andalso is_TransactionId(TID2)) of
true ->
not_equal('TransactionId', TID1, TID2);
false ->
wrong_type('TransactionId', TID1, TID2)
end.
%% -- TransactionRequest --
is_TransactionRequest(#'TransactionRequest'{transactionId = TID,
actions = Acts}) ->
is_TransactionId(TID) andalso is_TransactionRequest_actions(Acts);
is_TransactionRequest(_) ->
false.
chk_TransactionRequest(T, T) ->
chk_type(fun is_TransactionRequest/1, 'TransactionRequest', T);
chk_TransactionRequest(#'TransactionRequest'{transactionId = TID1,
actions = Acts1},
#'TransactionRequest'{transactionId = TID2,
actions = Acts2}) ->
validate(fun() -> chk_TransactionId(TID1, TID2) end, 'TransactionRequest'),
chk_TransactionRequest_actions(Acts1, Acts2),
ok;
chk_TransactionRequest(T1, T2) ->
wrong_type('TransactionRequest', T1, T2).
is_TransactionRequest_actions([]) ->
true;
is_TransactionRequest_actions([H|T]) ->
is_ActionRequest(H) andalso is_TransactionRequest_actions(T);
is_TransactionRequest_actions(_) ->
false.
chk_TransactionRequest_actions([], []) ->
ok;
chk_TransactionRequest_actions([] = Acts1, Acts2) ->
not_equal('TransactionRequest_actions', Acts1, Acts2);
chk_TransactionRequest_actions(Acts1, [] = Acts2) ->
not_equal('TransactionRequest_actions', Acts1, Acts2);
chk_TransactionRequest_actions([H|T1], [H|T2]) ->
case is_ActionRequest(H) of
true ->
chk_TransactionRequest_actions(T1, T2);
false ->
wrong_type('TransactionRequest_actions_val', H)
end;
chk_TransactionRequest_actions([H1|T1], [H2|T2]) ->
validate(fun() -> chk_ActionRequest(H1, H2) end,
'TransactionRequest_actions_val'),
chk_TransactionRequest_actions(T1, T2);
chk_TransactionRequest_actions(Acts1, Acts2) ->
wrong_type('TransactionRequest_actions', Acts1, Acts2).
%% -- TransactionPending --
is_TransactionPending(#'TransactionPending'{transactionId = TID}) ->
is_TransactionId(TID);
is_TransactionPending(_) ->
false.
chk_TransactionPending(T, T) ->
chk_type(fun is_TransactionPending/1, 'TransactionPending', T);
chk_TransactionPending(#'TransactionPending'{transactionId = TID1},
#'TransactionPending'{transactionId = TID2}) ->
validate(fun() -> chk_TransactionId(TID1, TID2) end, 'TransactionPending'),
ok;
chk_TransactionPending(T1, T2) ->
wrong_type('TransactionPending', T1, T2).
%% -- TransactionReply --
is_TransactionReply(#'TransactionReply'{transactionId = TID,
immAckRequired = IAR,
transactionResult = TR}) ->
is_TransactionId(TID) andalso
is_opt_NULL(IAR) andalso
is_TransactionReply_transactionResult(TR);
is_TransactionReply(_) ->
false.
chk_TransactionReply(T, T) ->
chk_type(fun is_TransactionReply/1, 'TransactionReply', T);
chk_TransactionReply(#'TransactionReply'{transactionId = TID1,
immAckRequired = IAR1,
transactionResult = TR1},
#'TransactionReply'{transactionId = TID2,
immAckRequired = IAR2,
transactionResult = TR2}) ->
validate(fun() -> chk_TransactionId(TID1, TID2) end, 'TransactionReply'),
validate(fun() -> chk_opt_NULL(IAR1, IAR2) end, 'TransactionReply'),
chk_TransactionReply_transactionResult(TR1, TR2),
ok;
chk_TransactionReply(T1, T2) ->
wrong_type('TransactionReply', T1, T2).
is_TransactionReply_transactionResult({Tag, Val}) ->
is_TransactionReply_transactionResult_tag(Tag) andalso
is_TransactionReply_transactionResult_val(Tag, Val);
is_TransactionReply_transactionResult(_) ->
false.
is_TransactionReply_transactionResult_tag(T) ->
lists:member(T, [transactionError, actionReplies]).
is_TransactionReply_transactionResult_val(transactionError, V) ->
is_ErrorDescriptor(V);
is_TransactionReply_transactionResult_val(actionReplies, V) ->
is_TransactionReply_actionReplies(V).
chk_TransactionReply_transactionResult(Res, Res) ->
chk_type(fun is_TransactionReply_transactionResult/1,
'TransactionReply_transactionResult', Res);
chk_TransactionReply_transactionResult({Tag, Val1} = Res1,
{Tag, Val2} = Res2) ->
case (is_TransactionReply_transactionResult_tag(Tag) and
is_TransactionReply_transactionResult_val(Tag, Val1) and
is_TransactionReply_transactionResult_val(Tag, Val2)) of
true ->
chk_TransactionReply_transactionResult_val(Tag, Val1, Val2);
false ->
wrong_type('TransactionReply_transactionResult', Res1, Res2)
end;
chk_TransactionReply_transactionResult({Tag1, Val1} = Res1,
{Tag2, Val2} = Res2) ->
case ((is_TransactionReply_transactionResult_tag(Tag1) and
is_TransactionReply_transactionResult_val(Tag1, Val1)) and
(is_TransactionReply_transactionResult_tag(Tag2) and
is_TransactionReply_transactionResult_val(Tag2, Val2))) of
true ->
not_equal('TransactionReply_transactionResult', Res1, Res2);
false ->
wrong_type('TransactionReply_transactionResult', Res1, Res2)
end;
chk_TransactionReply_transactionResult(Res1, Res2) ->
wrong_type('TransactionReply_transactionResult', Res1, Res2).
chk_TransactionReply_transactionResult_val(transactionError, E1, E2) ->
validate(fun() -> chk_ErrorDescriptor(E1, E2) end,
'TransactionReply_transactionResult');
chk_TransactionReply_transactionResult_val(actionReplies, R1, R2) ->
validate(fun() -> chk_TransactionReply_actionReplies(R1, R2) end,
'TransactionReply_transactionResult').
is_TransactionReply_actionReplies([]) ->
true;
is_TransactionReply_actionReplies([H|T]) ->
is_ActionReply(H) andalso is_TransactionReply_actionReplies(T);
is_TransactionReply_actionReplies(_) ->
false.
chk_TransactionReply_actionReplies([], []) ->
ok;
chk_TransactionReply_actionReplies([] = AR1, AR2) ->
not_equal('TransactionReply_actionReplies', AR1, AR2);
chk_TransactionReply_actionReplies(AR1, [] = AR2) ->
not_equal('TransactionReply_actionReplies', AR1, AR2);
chk_TransactionReply_actionReplies([H|T1], [H|T2]) ->
case is_ActionReply(H) of
true ->
chk_TransactionReply_actionReplies(T1, T2);
false ->
wrong_type('TransactionReply_actionReplies_val', H)
end;
chk_TransactionReply_actionReplies([H1|T1], [H2|T2]) ->
validate(fun() -> chk_ActionReply(H1, H2) end,
'TransactionReply_actionReplies_val'),
chk_TransactionReply_actionReplies(T1, T2);
chk_TransactionReply_actionReplies(AR1, AR2) ->
wrong_type('TransactionReply_actionReplies', AR1, AR2).
%% -- TransactionResponseAck --
is_TransactionResponseAck([]) ->
true;
is_TransactionResponseAck([H|T]) ->
is_TransactionAck(H) andalso is_TransactionResponseAck(T);
is_TransactionResponseAck(_) ->
false.
chk_TransactionResponseAck([], []) ->
ok;
chk_TransactionResponseAck([] = AR1, AR2) ->
not_equal('TransactionResponseAck', AR1, AR2);
chk_TransactionResponseAck(AR1, [] = AR2) ->
not_equal('TransactionResponseAck', AR1, AR2);
chk_TransactionResponseAck([H|T1], [H|T2]) ->
case is_TransactionAck(H) of
true ->
chk_TransactionResponseAck(T1, T2);
false ->
wrong_type('TransactionResponseAck_val', H)
end;
chk_TransactionResponseAck([H1|T1], [H2|T2]) ->
validate(fun() -> chk_TransactionAck(H1, H2) end,
'TransactionResponseAck'),
chk_TransactionResponseAck(T1, T2);
chk_TransactionResponseAck(AR1, AR2) ->
wrong_type('TransactionResponseAck', AR1, AR2).
%% -- TransactionAck --
is_TransactionAck(#'TransactionAck'{firstAck = F,
lastAck = L}) ->
is_TransactionId(F) andalso is_opt_TransactionId(L);
is_TransactionAck(_) ->
false.
chk_TransactionAck(T, T) ->
chk_type(fun is_TransactionAck/1, 'TransactionAck', T);
chk_TransactionAck(#'TransactionAck'{firstAck = F1,
lastAck = L1},
#'TransactionAck'{firstAck = F2,
lastAck = L2}) ->
validate(fun() -> chk_TransactionId(F1, F2) end, 'TransactionAck'),
validate(fun() -> chk_opt_TransactionId(L1, L2) end, 'TransactionAck'),
ok;
chk_TransactionAck(T1, T2) ->
wrong_type('TransactionAck', T1, T2).
%% -- ErrorDescriptor --
is_opt_ErrorDescriptor(V) ->
is_OPTIONAL(fun is_ErrorDescriptor/1, V).
is_ErrorDescriptor(#'ErrorDescriptor'{errorCode = Code,
errorText = Text}) ->
is_ErrorCode(Code) andalso is_opt_ErrorText(Text);
is_ErrorDescriptor(_) ->
false.
chk_opt_ErrorDescriptor(E1, E2) ->
chk_OPTIONAL('ErrorDescriptor', E1, E2,
fun is_ErrorDescriptor/1, fun chk_ErrorDescriptor/2).
chk_ErrorDescriptor(E, E) ->
chk_type(fun is_ErrorDescriptor/1, 'ErrorDescriptor', E);
chk_ErrorDescriptor(#'ErrorDescriptor'{errorCode = Code1,
errorText = Text1},
#'ErrorDescriptor'{errorCode = Code2,
errorText = Text2}) ->
chk_ErrorCode(Code1, Code2),
chk_opt_ErrorText(Text1, Text2),
ok;
chk_ErrorDescriptor(E1, E2) ->
wrong_type('ErrorDescriptor', E1, E2).
%% -- ErrorCode --
is_ErrorCode(C) -> is_INTEGER(C, {range, 0, 65535}).
chk_ErrorCode(C, C) ->
case is_ErrorCode(C) of
true ->
ok;
false ->
wrong_type(errorCode, C, C)
end;
chk_ErrorCode(C1, C2) ->
case (is_ErrorCode(C1) andalso is_ErrorCode(C2)) of
true ->
not_equal(errorCode, C1, C2);
false ->
wrong_type(errorCode, C1, C2)
end.
%% -- ErrorText --
is_opt_ErrorText(V) ->
is_OPTIONAL(fun is_ErrorText/1, V).
is_ErrorText(V) -> is_IA5String(V).
chk_opt_ErrorText(T1, T2) ->
chk_OPTIONAL('ErrorText', T1, T2, fun is_ErrorText/1, fun chk_ErrorText/2).
chk_ErrorText(T, T) ->
chk_type(fun is_ErrorText/1, 'ErrorText', T);
chk_ErrorText(T1, T2) ->
case (is_ErrorText(T1) andalso is_ErrorText(T2)) of
true ->
case {to_lower(T1), to_lower(T2)} of
{T, T} ->
ok;
_ ->
not_equal('ErrorText', T1, T2)
end;
false ->
wrong_type('ErrorText', T1, T2)
end.
%% -- ContextID --
is_ContextID(Id) -> is_INTEGER(Id, {range, 0, 4294967295}).
chk_ContextID(Id, Id) ->
chk_type(fun is_ContextID/1, 'ContextID', Id);
chk_ContextID(Id1, Id2) ->
case (is_ContextID(Id1) andalso is_ContextID(Id2)) of
true ->
not_equal('ContextID', Id1, Id2);
false ->
wrong_type('ContextID', Id1, Id2)
end.
%% -- ActionRequest --
is_ActionRequest(#'ActionRequest'{contextId = Id,
contextRequest = CtxReq,
contextAttrAuditReq = AuditReq,
commandRequests = CmdReqs}) ->
is_ContextID(Id) andalso
is_opt_ContextRequest(CtxReq) andalso
is_opt_ContextAttrAuditRequest(AuditReq) andalso
is_ActionRequest_commandRequests(CmdReqs);
is_ActionRequest(_) ->
false.
chk_ActionRequest(A, A) ->
chk_type(fun is_ActionRequest/1, 'ActionRequest', A);
chk_ActionRequest(#'ActionRequest'{contextId = Id1,
contextRequest = Req1,
contextAttrAuditReq = AuditReq1,
commandRequests = CmdReqs1},
#'ActionRequest'{contextId = Id2,
contextRequest = Req2,
contextAttrAuditReq = AuditReq2,
commandRequests = CmdReqs2}) ->
validate(fun() -> chk_ContextID(Id1, Id2) end, 'ActionRequest'),
validate(fun() -> chk_opt_ContextRequest(Req1, Req2) end, 'ActionRequest'),
validate(fun() ->
chk_opt_ContextAttrAuditRequest(AuditReq1, AuditReq2)
end,
'ActionRequest'),
chk_ActionRequest_commandRequests(CmdReqs1, CmdReqs2),
ok.
is_ActionRequest_commandRequests([]) ->
true;
is_ActionRequest_commandRequests([H|T]) ->
is_CommandRequest(H) andalso is_ActionRequest_commandRequests(T);
is_ActionRequest_commandRequests(_) ->
false.
chk_ActionRequest_commandRequests([], []) ->
ok;
chk_ActionRequest_commandRequests([] = CmdReqs1, CmdReqs2) ->
not_equal('ActionRequest_commandRequests', CmdReqs1, CmdReqs2);
chk_ActionRequest_commandRequests(CmdReqs1, [] = CmdReqs2) ->
not_equal('ActionRequest_commandRequests', CmdReqs1, CmdReqs2);
chk_ActionRequest_commandRequests([H|T1], [H|T2]) ->
case is_CommandRequest(H) of
true ->
chk_ActionRequest_commandRequests(T1, T2);
false ->
wrong_type('ActionRequest_commandRequest_val', H)
end;
chk_ActionRequest_commandRequests([H1|T1], [H2|T2]) ->
validate(fun() -> chk_CommandRequest(H1, H2) end,
'ActionRequest_commandRequests_val'),
chk_ActionRequest_commandRequests(T1, T2);
chk_ActionRequest_commandRequests(R1, R2) ->
wrong_type('ActionRequest_commandRequests', R1, R2).
%% -- ActionReply --
is_ActionReply(#'ActionReply'{contextId = Id,
errorDescriptor = ED,
contextReply = CtxRep,
commandReply = CmdRep}) ->
is_ContextID(Id) andalso
is_opt_ErrorDescriptor(ED) andalso
is_opt_ContextRequest(CtxRep) andalso
is_ActionReply_commandReply(CmdRep);
is_ActionReply(_) ->
false.
is_ActionReply_commandReply([]) ->
true;
is_ActionReply_commandReply([H|T]) ->
is_CommandReply(H) andalso is_ActionReply_commandReply(T);
is_ActionReply_commandReply(_) ->
false.
chk_ActionReply(A, A) ->
chk_type(fun is_ActionReply/1, 'ActionReply', A);
chk_ActionReply(#'ActionReply'{contextId = Id1,
errorDescriptor = ED1,
contextReply = CtxRep1,
commandReply = CmdRep1},
#'ActionReply'{contextId = Id2,
errorDescriptor = ED2,
contextReply = CtxRep2,
commandReply = CmdRep2}) ->
chk_ContextID(Id1, Id2),
chk_opt_ErrorDescriptor(ED1, ED2),
chk_opt_ContextRequest(CtxRep1, CtxRep2),
chk_ActionReply_commandReply(CmdRep1, CmdRep2).
chk_ActionReply_commandReply([], []) ->
ok;
chk_ActionReply_commandReply([] = Reps1, Reps2) ->
not_equal('ActionReply_commandReply', Reps1, Reps2);
chk_ActionReply_commandReply(Reps1, [] = Reps2) ->
not_equal('ActionReply_commandReply', Reps1, Reps2);
chk_ActionReply_commandReply([H|T1], [H|T2]) ->
case is_CommandReply(H) of
true ->
chk_ActionReply_commandReply(T1, T2);
false ->
wrong_type('ActionReply_commandReply_val', H)
end;
chk_ActionReply_commandReply([H1|T1], [H2|T2]) ->
validate(fun() -> chk_CommandReply(H1, H2) end,
'ActionReply_commandReply_val'),
chk_ActionReply_commandReply(T1, T2);
chk_ActionReply_commandReply(R1, R2) ->
wrong_type('ActionReply_commandReply', R1, R2).
%% -- ContextRequest --
is_opt_ContextRequest(asn1_NOVALUE) ->
true;
is_opt_ContextRequest(V) ->
is_ContextRequest(V).
is_ContextRequest(#'ContextRequest'{priority = Prio,
emergency = Em,
topologyReq = TopReq}) ->
is_ContextRequest_priority(Prio) andalso
is_ContextRequest_emergency(Em) andalso
is_ContextRequest_topologyReq(TopReq);
is_ContextRequest(_) ->
false.
is_ContextRequest_priority(asn1_NOVALUE) ->
true;
is_ContextRequest_priority(V) ->
is_INTEGER(V, {range, 1, 15}).
is_ContextRequest_emergency(asn1_NOVALUE) ->
true;
is_ContextRequest_emergency(V) ->
is_BOOLEAN(V).
is_ContextRequest_topologyReq(asn1_NOVALUE) ->
true;
is_ContextRequest_topologyReq([]) ->
true;
is_ContextRequest_topologyReq([H|T]) ->
is_TopologyRequest(H) andalso is_ContextRequest_topologyReq(T);
is_ContextRequest_topologyReq(_) ->
false.
chk_opt_ContextRequest(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_ContextRequest(R, R) ->
chk_ContextRequest(R, R).
chk_ContextRequest(R, R) ->
chk_type(fun is_ContextRequest/1, 'ContextRequest', R);
chk_ContextRequest(#'ContextRequest'{priority = Prio1,
emergency = Em1,
topologyReq = TopReq1},
#'ContextRequest'{priority = Prio2,
emergency = Em2,
topologyReq = TopReq2}) ->
chk_ContextRequest_priority(Prio1, Prio2),
chk_ContextRequest_emergency(Em1, Em2),
chk_ContextRequest_topologyReq(TopReq1, TopReq2),
ok;
chk_ContextRequest(R1, R2) ->
wrong_type('ContextRequest', R1, R2).
chk_ContextRequest_priority(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_ContextRequest_priority(P, P) ->
chk_type(fun is_ContextRequest_priority/1, 'ContextRequest_priority', P);
chk_ContextRequest_priority(P1, P2) ->
case (is_ContextRequest_priority(P1) andalso
is_ContextRequest_priority(P2)) of
true ->
not_equal('ContextRequest_priority', P1, P2);
false ->
wrong_type(contextRequest_priority, P1, P2)
end.
chk_ContextRequest_emergency(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_ContextRequest_emergency(E, E) ->
chk_type(fun is_ContextRequest_emergency/1, 'ContextRequest_emergency', E);
chk_ContextRequest_emergency(E1, E2) ->
case (is_ContextRequest_emergency(E1) andalso
is_ContextRequest_emergency(E2)) of
true ->
not_equal('ContextRequest_emergency', E1, E2);
false ->
wrong_type('ContextRequest_emergency', E1, E2)
end.
chk_ContextRequest_topologyReq(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_ContextRequest_topologyReq([], []) ->
ok;
chk_ContextRequest_topologyReq([] = T1, T2) ->
not_equal('ContextRequest_topologyReq', T1, T2);
chk_ContextRequest_topologyReq(T1, [] = T2) ->
not_equal('ContextRequest_topologyReq', T1, T2);
chk_ContextRequest_topologyReq([H|T1], [H|T2]) ->
case is_TopologyRequest(H) of
true ->
chk_ContextRequest_topologyReq(T1, T2);
false ->
wrong_type('ContextRequest_topologyReq_val', H)
end;
chk_ContextRequest_topologyReq([H1|T1], [H2|T2]) ->
validate(fun() -> chk_TopologyRequest(H1, H2) end,
'ContextRequest_topologyReq_val'),
chk_ContextRequest_topologyReq(T1, T2);
chk_ContextRequest_topologyReq(T1, T2) ->
wrong_type('ContextRequest_topologyReq', T1, T2).
%% -- ContextAttrAuditRequest --
is_opt_ContextAttrAuditRequest(asn1_NOVALUE) ->
true;
is_opt_ContextAttrAuditRequest(V) ->
is_ContextAttrAuditRequest(V).
is_ContextAttrAuditRequest(#'ContextAttrAuditRequest'{topology = T,
emergency = E,
priority = P}) ->
is_opt_NULL(T) andalso is_opt_NULL(E) andalso is_opt_NULL(P);
is_ContextAttrAuditRequest(_) ->
false.
chk_opt_ContextAttrAuditRequest(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_ContextAttrAuditRequest(R1, R2) ->
chk_ContextAttrAuditRequest(R1, R2).
chk_ContextAttrAuditRequest(R, R) ->
chk_type(fun is_ContextAttrAuditRequest/1, 'ContextAttrAuditRequest', R);
chk_ContextAttrAuditRequest(#'ContextAttrAuditRequest'{topology = T1,
emergency = E1,
priority = P1},
#'ContextAttrAuditRequest'{topology = T2,
emergency = E2,
priority = P2}) ->
validate(fun() -> chk_opt_NULL(T1, T2) end,
'ContextAttrAuditRequest_topology'),
validate(fun() -> chk_opt_NULL(E1, E2) end,
'ContextAttrAuditRequest_emergency'),
validate(fun() -> chk_opt_NULL(P1, P2) end,
'ContextAttrAuditRequest_priority'),
ok.
%% -- CommandRequest --
is_CommandRequest(#'CommandRequest'{command = Cmd,
optional = Opt,
wildcardReturn = WR}) ->
is_Command(Cmd) andalso is_opt_NULL(Opt) andalso is_opt_NULL(WR);
is_CommandRequest(_) ->
false.
chk_CommandRequest(C, C) ->
chk_type(fun is_CommandRequest/1, 'CommandRequest', C);
chk_CommandRequest(#'CommandRequest'{command = Cmd1,
optional = Opt1,
wildcardReturn = WR1},
#'CommandRequest'{command = Cmd2,
optional = Opt2,
wildcardReturn = WR2}) ->
validate(fun() -> chk_Command(Cmd1, Cmd2) end, 'CommandRequest'),
validate(fun() -> chk_opt_NULL(Opt1, Opt2) end, 'CommandRequest'),
validate(fun() -> chk_opt_NULL(WR1, WR2) end, 'CommandRequest'),
ok;
chk_CommandRequest(R1, R2) ->
wrong_type('CommandRequest', R1, R2).
%% -- Command --
is_Command({Tag, Val}) ->
is_Command_tag(Tag) andalso is_Command_val(Tag, Val);
is_Command(_) ->
false.
is_Command_tag(Tag) ->
Tags = [addReq, moveReq, modReq, subtractReq, auditCapRequest,
auditValueRequest, notifyReq, serviceChangeReq],
lists:member(Tag, Tags).
is_Command_val(addReq, V) -> is_AmmRequest(V);
is_Command_val(moveReq, V) -> is_AmmRequest(V);
is_Command_val(modReq, V) -> is_AmmRequest(V);
is_Command_val(subtractReq, V) -> is_SubtractRequest(V);
is_Command_val(auditCapRequest, V) -> is_AuditRequest(V);
is_Command_val(auditValueRequest, V) -> is_AuditRequest(V);
is_Command_val(notifyReq, V) -> is_NotifyRequest(V);
is_Command_val(serviceChangeReq, V) -> is_ServiceChangeRequest(V).
chk_Command(Cmd, Cmd) ->
chk_type(fun is_Command/1, 'Command', Cmd);
chk_Command({Tag, Val1} = Cmd1, {Tag, Val2} = Cmd2) ->
case (is_Command_tag(Tag) andalso
is_Command_val(Tag, Val1) andalso
is_Command_val(Tag, Val2)) of
true ->
chk_Command_val(Tag, Val1, Val2);
false ->
wrong_type('Command', Cmd1, Cmd2)
end;
chk_Command({Tag1, Val1} = Cmd1, {Tag2, Val2} = Cmd2) ->
case ((is_Command_tag(Tag1) andalso is_Command_val(Tag1, Val1)) andalso
(is_Command_tag(Tag2) andalso is_Command_val(Tag2, Val2))) of
true ->
not_equal('Command', Cmd1, Cmd2);
false ->
wrong_type('Command', Cmd1, Cmd2)
end;
chk_Command(Cmd1, Cmd2) ->
wrong_type('Command', Cmd1, Cmd2).
chk_Command_val(addReq, R1, R2) ->
validate(fun() -> chk_AmmRequest(R1, R2) end, 'Command_addReq');
chk_Command_val(moveReq, R1, R2) ->
validate(fun() -> chk_AmmRequest(R1, R2) end, 'Command_moveReq');
chk_Command_val(modReq, R1, R2) ->
validate(fun() -> chk_AmmRequest(R1, R2) end, 'Command_modReq');
chk_Command_val(subtractReq, R1, R2) ->
validate(fun() -> chk_SubtractRequest(R1, R2) end, 'Command_subtractReq');
chk_Command_val(auditCapRequest, R1, R2) ->
validate(fun() -> chk_AuditRequest(R1, R2) end, 'Command_auditCapRequest');
chk_Command_val(auditValueRequest, R1, R2) ->
validate(fun() -> chk_AuditRequest(R1, R2) end,
'Command_auditValueRequest');
chk_Command_val(notifyReq, R1, R2) ->
validate(fun() -> chk_NotifyRequest(R1, R2) end, 'Command_notifyReq');
chk_Command_val(serviceChangeReq, R1, R2) ->
validate(fun() -> chk_ServiceChangeRequest(R1, R2) end,
'Command_serviceChangeReq').
%% -- CommandReply --
is_CommandReply({Tag, Val}) ->
is_CommandReply_tag(Tag) andalso is_CommandReply_val(Tag, Val);
is_CommandReply(_) ->
false.
is_CommandReply_tag(Tag) ->
Tags = [addReply, moveReply, modReply, subtractReply,
auditCapReply, auditValueReply, notifyReply, serviceChangeReply],
lists:member(Tag, Tags).
is_CommandReply_val(addReply, V) -> is_AmmsReply(V);
is_CommandReply_val(moveReply, V) -> is_AmmsReply(V);
is_CommandReply_val(modReply, V) -> is_AmmsReply(V);
is_CommandReply_val(subtractReply, V) -> is_AmmsReply(V);
is_CommandReply_val(auditCapReply, V) -> is_AuditReply(V);
is_CommandReply_val(auditValueReply, V) -> is_AuditReply(V);
is_CommandReply_val(notifyReply, V) -> is_NotifyReply(V);
is_CommandReply_val(serviceChangeReply, V) -> is_ServiceChangeReply(V).
chk_CommandReply({Tag, Val} = Cmd, Cmd) ->
case (is_CommandReply_tag(Tag) andalso is_CommandReply_val(Tag, Val)) of
true ->
ok;
false ->
wrong_type('CommandReply', Cmd)
end;
chk_CommandReply({Tag, Val1} = Cmd1, {Tag, Val2} = Cmd2) ->
case (is_CommandReply_tag(Tag) andalso
is_CommandReply_val(Tag, Val1) andalso
is_CommandReply_val(Tag, Val2)) of
true ->
chk_CommandReply_val(Tag, Val1, Val2);
false ->
wrong_type('CommandReply', Cmd1, Cmd2)
end;
chk_CommandReply({Tag1, Val1} = Cmd1, {Tag2, Val2} = Cmd2) ->
case ((is_CommandReply_tag(Tag1) andalso
is_CommandReply_val(Tag1, Val1)) andalso
(is_CommandReply_tag(Tag2) andalso
is_CommandReply_val(Tag2, Val2))) of
true ->
not_equal('CommandReply', Cmd1, Cmd2);
false ->
wrong_type('CommandReply', Cmd1, Cmd2)
end;
chk_CommandReply(Cmd1, Cmd2) ->
wrong_type('CommandReply', Cmd1, Cmd2).
chk_CommandReply_val(addReply, V1, V2) ->
validate(fun() -> chk_AmmsReply(V1, V2) end, 'CommandReply_addReply');
chk_CommandReply_val(moveReply, V1, V2) ->
validate(fun() -> chk_AmmsReply(V1, V2) end, 'CommandReply_moveReply');
chk_CommandReply_val(modReply, V1, V2) ->
validate(fun() -> chk_AmmsReply(V1, V2) end, 'CommandReply_modReply');
chk_CommandReply_val(subtractReply, V1, V2) ->
validate(fun() -> chk_AmmsReply(V1, V2) end, 'CommandReply_subtractReply');
chk_CommandReply_val(auditCapReply, V1, V2) ->
validate(fun() -> chk_AuditReply(V1, V2) end,
'CommandReply_auditCapReply');
chk_CommandReply_val(auditValueReply, V1, V2) ->
validate(fun() -> chk_AuditReply(V1, V2) end,
'CommandReply_auditValueReply');
chk_CommandReply_val(notifyReply, V1, V2) ->
validate(fun() -> chk_NotifyReply(V1, V2) end, 'CommandReply_notifyReply');
chk_CommandReply_val(serviceChangeReply, V1, V2) ->
validate(fun() -> chk_ServiceChangeReply(V1, V2) end,
'CommandReply_serviceChangeReply').
%% -- TopologyRequest --
is_TopologyRequest(#'TopologyRequest'{terminationFrom = F,
terminationTo = T,
topologyDirection = D,
streamID = S}) ->
is_TerminationID(F) andalso
is_TerminationID(T) andalso
is_TopologyRequest_topologyDirection(D) andalso
is_opt_StreamID(S);
is_TopologyRequest(_) ->
false.
is_TopologyRequest_topologyDirection(D) ->
lists:member(D, [bothway, isolate, oneway]).
chk_TopologyRequest(T, T) when is_record(T,'TopologyRequest') ->
ok;
chk_TopologyRequest(#'TopologyRequest'{terminationFrom = F1,
terminationTo = T1,
topologyDirection = D1,
streamID = S1},
#'TopologyRequest'{terminationFrom = F2,
terminationTo = T2,
topologyDirection = D2,
streamID = S2}) ->
validate(fun() -> chk_TerminationID(F1, F2) end,
'TopologyRequest_terminationFrom'),
validate(fun() -> chk_TerminationID(T1, T2) end,
'TopologyRequest_terminationTo'),
chk_TopologyRequest_topologyDirection(D1,D2),
validate(fun() -> chk_StreamID(S1, S2) end, 'TopologyRequest_streamID'),
ok.
chk_TopologyRequest_topologyDirection(D, D) ->
case is_TopologyRequest_topologyDirection(D) of
true ->
ok;
false ->
wrong_type('TopologyRequest_topologyDirection', D)
end;
chk_TopologyRequest_topologyDirection(D1, D2) ->
case (is_TopologyRequest_topologyDirection(D1) andalso
is_TopologyRequest_topologyDirection(D1)) of
true ->
not_equal('TopologyRequest_topologyDirection', D1, D2);
false ->
wrong_type('TopologyRequest_topologyDirection', D1, D2)
end.
%% -- AmmRequest --
is_AmmRequest(#'AmmRequest'{terminationID = Tids,
descriptors = Descs}) ->
d("is_AmmRequest -> entry with"
"~n Tids: ~p", [Tids]),
is_TerminationIDList(Tids) andalso is_AmmRequest_descriptors(Descs);
is_AmmRequest(_) ->
false.
is_AmmRequest_descriptors(Descs) ->
is_AmmRequest_descriptors(Descs, []).
is_AmmRequest_descriptors([], _) ->
true;
is_AmmRequest_descriptors([{Tag, _} = Desc|Descs], FoundDescs) ->
d("is_AmmRequest_descriptors -> entry with"
"~n Tag: ~p"
"~n FoundDescs: ~p", [Tag, FoundDescs]),
case lists:member(Tag, FoundDescs) of
true ->
atmost_once('AmmRequest_descriptors', Tag);
false ->
case is_AmmDescriptor(Desc) of
true ->
is_AmmRequest_descriptors(Descs, [Tag|FoundDescs]);
false ->
wrong_type('AmmRequest_descriptors', Desc)
end
end;
is_AmmRequest_descriptors(Descs, _) ->
d("is_AmmRequest_descriptors -> entry with WRONG TYPE"
"~n Descs: ~p", [Descs]),
wrong_type('AmmRequest_descriptors', Descs).
chk_AmmRequest(R, R) when is_record(R, 'AmmRequest') ->
d("chk_AmmRequest -> entry when equal"),
chk_type(fun is_AmmRequest/1, 'AmmRequest', R);
chk_AmmRequest(#'AmmRequest'{terminationID = Tids1,
descriptors = Descs1},
#'AmmRequest'{terminationID = Tids2,
descriptors = Descs2}) ->
d("chk_AmmRequest -> entry with not equal"
"~n Tids1: ~p"
"~n Tids2: ~p", [Tids1, Tids2]),
validate(
fun() -> chk_TerminationIDList(Tids1, Tids2) end,
'AmmRequest'),
validate(
fun() -> chk_AmmRequest_descriptors(Descs1, Descs2) end,
'AmmRequest'),
ok.
chk_AmmRequest_descriptors([], []) ->
d("chk_AmmRequest_descriptors -> done when OK"),
ok;
chk_AmmRequest_descriptors([] = Descs1, Descs2) ->
d("chk_AmmRequest_descriptors -> done when NOT EQUAL:"
"~n Descs1: ~p"
"~n Descs1: ~p", [Descs1, Descs2]),
not_equal('AmmRequest_descriptors', Descs1, Descs2);
chk_AmmRequest_descriptors(Descs1, [] = Descs2) ->
d("chk_AmmRequest_descriptors -> done when NOT EQUAL:"
"~n Descs1: ~p"
"~n Descs1: ~p", [Descs1, Descs2]),
not_equal('AmmRequest_descriptors', Descs1, Descs2);
chk_AmmRequest_descriptors([H|T1], [H|T2]) ->
d("chk_AmmRequest_descriptors -> entry when equal"),
case is_AmmDescriptor(H) of
true ->
chk_AmmRequest_descriptors(T1, T2);
false ->
wrong_type('AmmRequest_descriptors_val', H)
end;
chk_AmmRequest_descriptors([H1|T1], [H2|T2]) ->
d("chk_AmmRequest_descriptors -> entry when not equal"),
validate(fun() -> chk_AmmDescriptor(H1, H2) end,
'AmmRequest_descriptors_val'),
chk_AmmRequest_descriptors(T1, T2);
chk_AmmRequest_descriptors(Descs1, Descs2) ->
d("chk_AmmRequest_descriptors -> done when WRONG TYPE:"
"~n Descs1: ~p"
"~n Descs1: ~p", [Descs1, Descs2]),
wrong_type('AmmRequest_descriptors', Descs1, Descs2).
%% -- AmmDescriptor --
is_AmmDescriptor({Tag, Val}) ->
d("is_AmmDescriptor -> entry with"
"~n Tag: ~p"
"~n Val: ~p",[Tag, Val]),
is_AmmDescriptor_tag(Tag) andalso is_AmmDescriptor_val(Tag, Val);
is_AmmDescriptor(_) ->
false.
is_AmmDescriptor_tag(Tag) ->
Tags = [mediaDescriptor, modemDescriptor, muxDescriptor, eventsDescriptor,
eventBufferDescriptor, signalsDescriptor, digitMapDescriptor,
auditDescriptor],
lists:member(Tag, Tags).
is_AmmDescriptor_val(mediaDescriptor, D) ->
is_MediaDescriptor(D);
is_AmmDescriptor_val(modemDescriptor, D) ->
is_ModemDescriptor(D);
is_AmmDescriptor_val(muxDescriptor, D) ->
is_MuxDescriptor(D);
is_AmmDescriptor_val(eventsDescriptor, D) ->
is_EventsDescriptor(D);
is_AmmDescriptor_val(eventBufferDescriptor, D) ->
is_EventBufferDescriptor(D);
is_AmmDescriptor_val(signalsDescriptor, D) ->
is_SignalsDescriptor(D);
is_AmmDescriptor_val(digitMapDescriptor, D) ->
is_DigitMapDescriptor(D);
is_AmmDescriptor_val(auditDescriptor, D) ->
is_AuditDescriptor(D).
chk_AmmDescriptor(D, D) ->
chk_type(fun is_AmmDescriptor_tag/1, 'AmmDescriptor', D);
chk_AmmDescriptor({Tag, Val1} = Cmd1, {Tag, Val2} = Cmd2) ->
case (is_AmmDescriptor_tag(Tag) andalso
is_AmmDescriptor_val(Tag, Val1) andalso
is_AmmDescriptor_val(Tag, Val2)) of
true ->
chk_AmmDescriptor_val(Tag, Val1, Val2);
false ->
wrong_type('AmmDescriptor', Cmd1, Cmd2)
end;
chk_AmmDescriptor({Tag1, Val1} = Cmd1, {Tag2, Val2} = Cmd2) ->
case ((is_AmmDescriptor_tag(Tag1) andalso
is_AmmDescriptor_val(Tag1, Val1)) andalso
(is_AmmDescriptor_tag(Tag2) andalso
is_AmmDescriptor_val(Tag2, Val2))) of
true ->
not_equal('AmmDescriptor', Cmd1, Cmd2);
false ->
wrong_type('AmmDescriptor', Cmd1, Cmd2)
end;
chk_AmmDescriptor(Cmd1, Cmd2) ->
wrong_type('AmmDescriptor', Cmd1, Cmd2).
chk_AmmDescriptor_val(mediaDescriptor, D1, D2) ->
validate(fun() -> chk_MediaDescriptor(D1, D2) end, 'AmmDescriptor');
chk_AmmDescriptor_val(modemDescriptor, D1, D2) ->
validate(fun() -> chk_ModemDescriptor(D1, D2) end, 'AmmDescriptor');
chk_AmmDescriptor_val(muxDescriptor, D1, D2) ->
validate(fun() -> chk_MuxDescriptor(D1, D2) end, 'AmmDescriptor');
chk_AmmDescriptor_val(eventsDescriptor, D1, D2) ->
validate(fun() -> chk_EventsDescriptor(D1, D2) end, 'AmmDescriptor');
chk_AmmDescriptor_val(eventBufferDescriptor, D1, D2) ->
validate(fun() -> chk_EventBufferDescriptor(D1, D2) end, 'AmmDescriptor');
chk_AmmDescriptor_val(signalsDescriptor, D1, D2) ->
validate(fun() -> chk_SignalsDescriptor(D1, D2) end, 'AmmDescriptor');
chk_AmmDescriptor_val(digitMapDescriptor, D1, D2) ->
validate(fun() -> chk_DigitMapDescriptor(D1, D2) end, 'AmmDescriptor');
chk_AmmDescriptor_val(auditDescriptor, D1, D2) ->
validate(fun() -> chk_AuditDescriptor(D1, D2) end, 'AmmDescriptor').
%% -- AmmsReply --
is_AmmsReply(#'AmmsReply'{terminationID = Tids,
terminationAudit = TA}) ->
is_TerminationIDList(Tids) andalso is_opt_TerminationAudit(TA);
is_AmmsReply(_) ->
false.
chk_AmmsReply(R, R) ->
is_AmmsReply(R);
chk_AmmsReply(#'AmmsReply'{terminationID = TID1,
terminationAudit = TA1},
#'AmmsReply'{terminationID = TID2,
terminationAudit = TA2}) ->
validate(fun() -> chk_TerminationIDList(TID1, TID2) end, 'AmmsReply'),
validate(fun() -> chk_opt_TerminationAudit(TA1, TA2) end, 'AmmsReply'),
ok;
chk_AmmsReply(R1, R2) ->
wrong_type('AmmsReply', R1, R2).
%% -- SubtractRequest --
is_SubtractRequest(#'SubtractRequest'{terminationID = Tids,
auditDescriptor = AD}) ->
is_TerminationIDList(Tids) andalso is_opt_AuditDescriptor(AD);
is_SubtractRequest(_) ->
false.
chk_SubtractRequest(R, R) ->
chk_type(fun is_SubtractRequest/1, 'SubtractRequest', R);
chk_SubtractRequest(#'SubtractRequest'{terminationID = Tids1,
auditDescriptor = AD1},
#'SubtractRequest'{terminationID = Tids2,
auditDescriptor = AD2}) ->
validate(fun() -> chk_TerminationIDList(Tids1, Tids2) end,
'SubtractRequest'),
validate(fun() -> chk_opt_AuditDescriptor(AD1, AD2) end,
'SubtractRequest'),
ok;
chk_SubtractRequest(SR1, SR2) ->
wrong_type('SubtractRequest', SR1, SR2).
%% -- AuditRequest --
is_AuditRequest(#'AuditRequest'{terminationID = Tid,
auditDescriptor = AD}) ->
is_TerminationID(Tid) andalso is_AuditDescriptor(AD);
is_AuditRequest(_) ->
false.
chk_AuditRequest(R, R) ->
chk_type(fun is_AuditRequest/1, 'AuditRequest', R);
chk_AuditRequest(#'AuditRequest'{terminationID = Tids1,
auditDescriptor = AD1},
#'AuditRequest'{terminationID = Tids2,
auditDescriptor = AD2}) ->
validate(fun() -> chk_TerminationID(Tids1, Tids2) end,
'AuditRequest'),
validate(fun() -> chk_AuditDescriptor(AD1, AD2) end,
'AuditRequest'),
ok;
chk_AuditRequest(AR1, AR2) ->
wrong_type('AuditRequest', AR1, AR2).
%% -- AuditReply --
is_AuditReply({Tag, Val}) ->
is_AuditReply_tag(Tag) andalso is_AuditReply_val(Tag, Val);
is_AuditReply(_) ->
false.
is_AuditReply_tag(Tag) ->
Tags = [contextAuditResult, error, auditResult],
lists:member(Tag, Tags).
is_AuditReply_val(contextAuditResult, Val) ->
is_TerminationIDList(Val);
is_AuditReply_val(error, Val) ->
is_ErrorDescriptor(Val);
is_AuditReply_val(auditResult, Val) ->
is_AuditResult(Val).
chk_AuditReply(R, R) ->
chk_type(fun is_AuditReply/1, 'AuditReply', R);
chk_AuditReply({Tag, Val1} = R1, {Tag, Val2} = R2) ->
case (is_AuditReply_tag(Tag) andalso
is_AuditReply_val(Tag, Val1)andalso
is_AuditReply_val(Tag, Val2)) of
true ->
chk_AuditReply_val(Tag, Val1, Val2);
false ->
wrong_type('AuditReply', R1, R2)
end;
chk_AuditReply({Tag1, Val1} = R1, {Tag2, Val2} = R2) ->
case ((is_AuditReply_tag(Tag1) andalso
is_AuditReply_val(Tag1, Val1)) andalso
(is_AuditReply_tag(Tag2) andalso
is_AuditReply_val(Tag2, Val2))) of
true ->
not_equal('AuditReply', R1, R2);
false ->
wrong_type('AuditReply', R1, R2)
end;
chk_AuditReply(AR1, AR2) ->
wrong_type('AuditReply', AR1, AR2).
chk_AuditReply_val(contextAuditResult, Val1, Val2) ->
chk_TerminationIDList(Val1, Val2);
chk_AuditReply_val(error, Val1, Val2) ->
chk_ErrorDescriptor(Val1, Val2);
chk_AuditReply_val(auditResult, Val1, Val2) ->
chk_AuditResult(Val1, Val2).
%% -- AuditResult --
is_AuditResult(#'AuditResult'{terminationID = TID,
terminationAuditResult = TAR}) ->
is_TerminationID(TID) andalso is_TerminationAudit(TAR);
is_AuditResult(_) ->
false.
chk_AuditResult(R, R) ->
chk_type(fun is_AuditResult/1, 'AuditResult', R);
chk_AuditResult(#'AuditResult'{terminationID = TID1,
terminationAuditResult = TAR1},
#'AuditResult'{terminationID = TID2,
terminationAuditResult = TAR2}) ->
validate(fun() -> chk_TerminationID(TID1, TID2) end, 'AuditResult'),
validate(fun() -> chk_TerminationAudit(TAR1, TAR2) end, 'AuditResult'),
ok;
chk_AuditResult(AR1, AR2) ->
wrong_type('AuditResult', AR1, AR2).
%% -- TerminationAudit --
is_opt_TerminationAudit(TA) ->
is_OPTIONAL(fun is_TerminationAudit/1, TA).
is_TerminationAudit([]) ->
true;
is_TerminationAudit([H|T]) ->
is_AuditReturnParameter(H) andalso is_TerminationAudit(T);
is_TerminationAudit(_) ->
false.
chk_opt_TerminationAudit(TA1, TA2) ->
chk_OPTIONAL('TerminationAudit', TA1, TA2,
fun is_TerminationAudit/1, fun chk_TerminationAudit/2).
chk_TerminationAudit([], []) ->
ok;
chk_TerminationAudit([] = TA1, TA2) ->
not_equal('TerminationAudit', TA1, TA2);
chk_TerminationAudit(TA1, [] = TA2) ->
not_equal('TerminationAudit', TA1, TA2);
chk_TerminationAudit([H|T1], [H|T2]) ->
case is_AuditReturnParameter(H) of
true ->
chk_TerminationAudit(T1, T2);
false ->
wrong_type('TerminationAudit', H)
end;
chk_TerminationAudit([H1|_], [H2|_]) ->
chk_AuditReturnParameter(H1, H2),
not_equal('TerminationAudit_val', H1, H2);
chk_TerminationAudit(TA1, TA2) ->
not_equal('TerminationAudit', TA1, TA2).
%% -- AuditReturnParameter --
is_AuditReturnParameter({Tag, Val}) ->
is_AuditReturnParameter_tag(Tag) andalso
is_AuditReturnParameter_val(Tag, Val);
is_AuditReturnParameter(_) ->
false.
is_AuditReturnParameter_tag(Tag) ->
Tags = [errorDescriptor,
mediaDescriptor,
modemDescriptor,
muxDescriptor,
eventsDescriptor,
eventBufferDescriptor,
signalsDescriptor,
digitMapDescriptor,
observedEventsDescriptor,
statisticsDescriptor,
packagesDescriptor,
emptyDescriptors],
lists:member(Tag, Tags).
is_AuditReturnParameter_val(errorDescriptor, V) ->
is_ErrorDescriptor(V);
is_AuditReturnParameter_val(mediaDescriptor, V) ->
is_MediaDescriptor(V);
is_AuditReturnParameter_val(modemDescriptor, V) ->
is_ModemDescriptor(V);
is_AuditReturnParameter_val(muxDescriptor, V) ->
is_MuxDescriptor(V);
is_AuditReturnParameter_val(eventsDescriptor, V) ->
is_EventsDescriptor(V);
is_AuditReturnParameter_val(eventBufferDescriptor, V) ->
is_EventBufferDescriptor(V);
is_AuditReturnParameter_val(signalsDescriptor, V) ->
is_SignalsDescriptor(V);
is_AuditReturnParameter_val(digitMapDescriptor, V) ->
is_DigitMapDescriptor(V);
is_AuditReturnParameter_val(observedEventsDescriptor, V) ->
is_ObservedEventsDescriptor(V);
is_AuditReturnParameter_val(statisticsDescriptor, V) ->
is_StatisticsDescriptor(V);
is_AuditReturnParameter_val(packagesDescriptor, V) ->
is_PackagesDescriptor(V);
is_AuditReturnParameter_val(emptyDescriptors, V) ->
is_AuditDescriptor(V).
chk_AuditReturnParameter(ARP, ARP) ->
chk_type(fun is_AuditReturnParameter/1, 'AuditReturnParameter', ARP);
chk_AuditReturnParameter({Tag, Val1} = ARP1, {Tag, Val2} = ARP2) ->
case (is_AuditReturnParameter_tag(Tag) andalso
is_AuditReturnParameter_val(Tag, Val1) andalso
is_AuditReturnParameter_val(Tag, Val2)) of
true ->
chk_AuditReturnParameter_val(Tag, Val1, Val2);
false ->
wrong_type('AuditReturnParameter', ARP1, ARP2)
end;
chk_AuditReturnParameter({Tag1, Val1} = ARP1, {Tag2, Val2} = ARP2) ->
case ((is_AuditReturnParameter_tag(Tag1) andalso
is_AuditReturnParameter_val(Tag1, Val1)) andalso
(is_AuditReturnParameter_tag(Tag2) andalso
is_AuditReturnParameter_val(Tag2, Val2))) of
true ->
not_equal('AuditReturnParameter', ARP1, ARP2);
false ->
wrong_type('AuditReturnParameter', ARP1, ARP2)
end;
chk_AuditReturnParameter(ARP1, ARP2) ->
wrong_type('AuditReturnParameter', ARP1, ARP2).
chk_AuditReturnParameter_val(errorDescriptor, V1, V2) ->
validate(fun() -> chk_ErrorDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(mediaDescriptor, V1, V2) ->
validate(fun() -> chk_MediaDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(modemDescriptor, V1, V2) ->
validate(fun() -> chk_ModemDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(muxDescriptor, V1, V2) ->
validate(fun() -> chk_MuxDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(eventsDescriptor, V1, V2) ->
validate(fun() -> chk_EventsDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(eventBufferDescriptor, V1, V2) ->
validate(fun() -> chk_EventBufferDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(signalsDescriptor, V1, V2) ->
validate(fun() -> chk_SignalsDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(digitMapDescriptor, V1, V2) ->
validate(fun() -> chk_DigitMapDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(observedEventsDescriptor, V1, V2) ->
validate(fun() -> chk_ObservedEventsDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(statisticsDescriptor, V1, V2) ->
validate(fun() -> chk_StatisticsDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(packagesDescriptor, V1, V2) ->
validate(fun() -> chk_PackagesDescriptor(V1, V2) end,
'AuditReturnParameter');
chk_AuditReturnParameter_val(emptyDescriptors, V1, V2) ->
validate(fun() -> chk_AuditDescriptor(V1, V2) end,
'AuditReturnParameter').
%% -- AuditDescriptor --
is_opt_AuditDescriptor(asn1_NOVALUE) ->
true;
is_opt_AuditDescriptor(V) ->
is_AuditDescriptor(V).
is_AuditDescriptor(#'AuditDescriptor'{auditToken = AT,
auditPropertyToken = APT}) ->
is_AuditDescriptor_auditToken(AT) andalso
is_AuditDescriptor_auditPropertyToken(APT);
is_AuditDescriptor(_) ->
false.
is_AuditDescriptor_auditToken(asn1_NOVALUE) ->
true;
is_AuditDescriptor_auditToken([]) ->
true;
is_AuditDescriptor_auditToken([H|T]) ->
is_AuditDescriptor_auditToken_val(H) andalso
is_AuditDescriptor_auditToken(T);
is_AuditDescriptor_auditToken(_) ->
false.
is_AuditDescriptor_auditToken_val(V) ->
Toks = [muxToken, modemToken, mediaToken, eventsToken, signalsToken,
digitMapToken, statsToken, observedEventsToken,
packagesToken, eventBufferToken],
lists:member(V, Toks).
is_AuditDescriptor_auditPropertyToken(asn1_NOVALUE) ->
true;
is_AuditDescriptor_auditPropertyToken([]) ->
true;
is_AuditDescriptor_auditPropertyToken([H|T]) ->
is_IndAuditParameter(H) andalso is_AuditDescriptor_auditPropertyToken(T);
is_AuditDescriptor_auditPropertyToken(_) ->
false.
chk_opt_AuditDescriptor(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_AuditDescriptor(AD1, AD2) ->
chk_AuditDescriptor(AD1, AD2).
chk_AuditDescriptor(AD, AD) ->
chk_type(fun is_AuditDescriptor/1, 'AuditDescriptor', AD);
chk_AuditDescriptor(#'AuditDescriptor'{auditToken = AT1,
auditPropertyToken = APT1},
#'AuditDescriptor'{auditToken = AT2,
auditPropertyToken = APT2}) ->
chk_AuditDescriptor_auditToken(AT1, AT2),
chk_AuditDescriptor_auditPropertyToken(APT1, APT2),
ok;
chk_AuditDescriptor(AD1, AD2) ->
wrong_type('AuditDescriptor', AD1, AD2).
chk_AuditDescriptor_auditToken(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_AuditDescriptor_auditToken([], []) ->
ok;
chk_AuditDescriptor_auditToken([] = AT1, AT2) ->
not_equal('AuditDescriptor_auditToken', AT1, AT2);
chk_AuditDescriptor_auditToken(AT1, [] = AT2) ->
not_equal('AuditDescriptor_auditToken', AT1, AT2);
chk_AuditDescriptor_auditToken([H|T1], [H|T2]) ->
case is_AuditDescriptor_auditToken_val(H) of
true ->
chk_AuditDescriptor_auditToken(T1, T2);
false ->
wrong_type('AuditDescriptor_auditToken_val', H)
end;
chk_AuditDescriptor_auditToken([H1|_T1], [H2|_T2]) ->
case (is_AuditDescriptor_auditToken_val(H1) andalso
is_AuditDescriptor_auditToken_val(H2)) of
true ->
not_equal('AuditDescriptor_auditToken_val', H1, H2);
false ->
wrong_type('AuditDescriptor_auditToken_val', H1, H2)
end;
chk_AuditDescriptor_auditToken(AT1, AT2) ->
wrong_type('AuditDescriptor_auditToken', AT1, AT2).
chk_AuditDescriptor_auditPropertyToken(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_AuditDescriptor_auditPropertyToken([], []) ->
ok;
chk_AuditDescriptor_auditPropertyToken([] = AT1, AT2) ->
not_equal('AuditDescriptor_auditPropertyToken', AT1, AT2);
chk_AuditDescriptor_auditPropertyToken(AT1, [] = AT2) ->
not_equal('AuditDescriptor_auditPropertyToken', AT1, AT2);
chk_AuditDescriptor_auditPropertyToken([H|T1], [H|T2]) ->
case is_IndAuditParameter(H) of
true ->
chk_AuditDescriptor_auditPropertyToken(T1, T2);
false ->
wrong_type('AuditDescriptor_auditPropertyToken_val', H)
end;
chk_AuditDescriptor_auditPropertyToken([H1|_], [H2|_]) ->
chk_IndAuditParameter(H1, H2),
not_equal('AuditDescriptor_auditPropertyToken_val', H1, H2);
chk_AuditDescriptor_auditPropertyToken(AT1, AT2) ->
wrong_type('AuditDescriptor_auditPropertyToken', AT1, AT2).
%% -- IndAuditParameter --
is_IndAuditParameter({Tag, Val}) ->
is_IndAuditParameter_tag(Tag) andalso is_IndAuditParameter_val(Tag, Val);
is_IndAuditParameter(_) ->
false.
is_IndAuditParameter_tag(Tag) ->
Tags = [indAudMediaDescriptor,
indAudEventsDescriptor,
indAudEventBufferDescriptor,
indAudSignalsDescriptor,
indAudDigitMapDescriptor,
indAudStatisticsDescriptor,
indAudPackagesDescriptor],
lists:member(Tag, Tags).
is_IndAuditParameter_val(indAudMediaDescriptor, Val) ->
is_IndAudMediaDescriptor(Val);
is_IndAuditParameter_val(indAudEventsDescriptor, Val) ->
is_IndAudEventsDescriptor(Val);
is_IndAuditParameter_val(indAudEventBufferDescriptor, Val) ->
is_IndAudEventBufferDescriptor(Val);
is_IndAuditParameter_val(indAudSignalsDescriptor, Val) ->
is_IndAudSignalsDescriptor(Val);
is_IndAuditParameter_val(indAudDigitMapDescriptor, Val) ->
is_IndAudDigitMapDescriptor(Val);
is_IndAuditParameter_val(indAudStatisticsDescriptor, Val) ->
is_IndAudStatisticsDescriptor(Val);
is_IndAuditParameter_val(indAudPackagesDescriptor, Val) ->
is_IndAudPackagesDescriptor(Val).
chk_IndAuditParameter(IAP, IAP) ->
chk_type(fun is_IndAuditParameter/1, 'IndAuditParameter', IAP);
chk_IndAuditParameter({Tag, Val1} = IAP1, {Tag, Val2} = IAP2) ->
case (is_IndAuditParameter_tag(Tag) andalso
is_IndAuditParameter_val(Tag, Val1) andalso
is_IndAuditParameter_val(Tag, Val2)) of
true ->
chk_IndAuditParameter_val(Tag, Val1, Val2);
false ->
wrong_type('IndAuditParameter', IAP1, IAP2)
end;
chk_IndAuditParameter({Tag1, Val1} = IAP1, {Tag2, Val2} = IAP2) ->
case ((is_IndAuditParameter_tag(Tag1) andalso
is_IndAuditParameter_val(Tag1, Val1)) andalso
(is_IndAuditParameter_tag(Tag2) andalso
is_IndAuditParameter_val(Tag2, Val2))) of
true ->
not_equal('IndAuditParameter', IAP1, IAP2);
false ->
wrong_type('IndAuditParameter', IAP1, IAP2)
end;
chk_IndAuditParameter(IAP1, IAP2) ->
wrong_type('IndAuditParameter', IAP1, IAP2).
chk_IndAuditParameter_val(indAudMediaDescriptor, Val1, Val2) ->
validate(fun() -> chk_IndAudMediaDescriptor(Val1, Val2) end,
'IndAuditParameter');
chk_IndAuditParameter_val(indAudEventsDescriptor, Val1, Val2) ->
validate(fun() -> chk_IndAudEventsDescriptor(Val1, Val2) end,
'IndAuditParameter');
chk_IndAuditParameter_val(indAudEventBufferDescriptor, Val1, Val2) ->
validate(fun() -> chk_IndAudEventBufferDescriptor(Val1, Val2) end,
'IndAuditParameter');
chk_IndAuditParameter_val(indAudSignalsDescriptor, Val1, Val2) ->
validate(fun() -> chk_IndAudSignalsDescriptor(Val1, Val2) end,
'IndAuditParameter');
chk_IndAuditParameter_val(indAudDigitMapDescriptor, Val1, Val2) ->
validate(fun() -> chk_IndAudDigitMapDescriptor(Val1, Val2) end,
'IndAuditParameter');
chk_IndAuditParameter_val(indAudStatisticsDescriptor, Val1, Val2) ->
validate(fun() -> chk_IndAudStatisticsDescriptor(Val1, Val2) end,
'IndAuditParameter');
chk_IndAuditParameter_val(indAudPackagesDescriptor, Val1, Val2) ->
validate(fun() -> chk_IndAudPackagesDescriptor(Val1, Val2) end,
'IndAuditParameter').
%% -- IndAudMediaDescriptor --
is_IndAudMediaDescriptor(#'IndAudMediaDescriptor'{termStateDescr = TSD,
streams = S}) ->
is_opt_IndAudTerminationStateDescriptor(TSD) andalso
is_IndAudMediaDescriptor_streams(S);
is_IndAudMediaDescriptor(_) ->
false.
is_IndAudMediaDescriptor_streams(asn1_NOVALUE) ->
true;
is_IndAudMediaDescriptor_streams({Tag, Val}) ->
is_IndAudMediaDescriptor_streams_tag(Tag) andalso
is_IndAudMediaDescriptor_streams_val(Tag, Val);
is_IndAudMediaDescriptor_streams(_) ->
false.
is_IndAudMediaDescriptor_streams_tag(Tag) ->
Tags = [oneStream, multiStream],
lists:member(Tag, Tags).
is_IndAudMediaDescriptor_streams_val(oneStream, Val) ->
is_IndAudStreamParms(Val);
is_IndAudMediaDescriptor_streams_val(multiStream, Val) ->
is_IndAudMediaDescriptor_multiStream(Val).
is_IndAudMediaDescriptor_multiStream([]) ->
true;
is_IndAudMediaDescriptor_multiStream([H|T]) ->
is_IndAudStreamDescriptor(H) andalso
is_IndAudMediaDescriptor_multiStream(T);
is_IndAudMediaDescriptor_multiStream(_) ->
false.
chk_IndAudMediaDescriptor(IAMD, IAMD) ->
chk_type(fun is_IndAudMediaDescriptor/1, 'IndAudMediaDescriptor', IAMD);
chk_IndAudMediaDescriptor(#'IndAudMediaDescriptor'{termStateDescr = TSD1,
streams = S1},
#'IndAudMediaDescriptor'{termStateDescr = TSD2,
streams = S2}) ->
validate(fun() -> chk_opt_IndAudTerminationStateDescriptor(TSD1, TSD2) end,
'IndAudMediaDescriptor'),
validate(fun() -> chk_IndAudMediaDescriptor_streams(S1, S2) end,
'IndAudMediaDescriptor'),
ok;
chk_IndAudMediaDescriptor(IAMD1, IAMD2) ->
wrong_type('IndAudMediaDescriptor', IAMD1, IAMD2).
chk_IndAudMediaDescriptor_streams(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_IndAudMediaDescriptor_streams({Tag, Val1} = S1,
{Tag, Val2} = S2) ->
case (is_IndAudMediaDescriptor_streams_tag(Tag) andalso
is_IndAudMediaDescriptor_streams_val(Tag, Val1) andalso
is_IndAudMediaDescriptor_streams_val(Tag, Val2)) of
true ->
chk_IndAudMediaDescriptor_streams_val(Tag, Val1, Val2);
false ->
wrong_type('IndAudMediaDescriptor_streams', S1, S2)
end;
chk_IndAudMediaDescriptor_streams({Tag1, Val1} = S1,
{Tag2, Val2} = S2) ->
case ((is_IndAudMediaDescriptor_streams_tag(Tag1) andalso
is_IndAudMediaDescriptor_streams_val(Tag1, Val1)) andalso
(is_IndAudMediaDescriptor_streams_tag(Tag2) andalso
is_IndAudMediaDescriptor_streams_val(Tag2, Val2))) of
true ->
not_equal('IndAudMediaDescriptor_streams', S1, S2);
false ->
wrong_type('IndAudMediaDescriptor_streams', S1, S2)
end;
chk_IndAudMediaDescriptor_streams(S1, S2) ->
wrong_type('IndAudMediaDescriptor_streams', S1, S2).
chk_IndAudMediaDescriptor_streams_val(oneStream, Val1, Val2) ->
validate(fun() -> chk_IndAudStreamParms(Val1, Val2) end,
'IndAudMediaDescriptor_streams');
chk_IndAudMediaDescriptor_streams_val(multiStream, Val1, Val2) ->
validate(fun() -> chk_IndAudMediaDescriptor_multiStream(Val1, Val2) end,
'IndAudMediaDescriptor_streams').
chk_IndAudMediaDescriptor_multiStream([], []) ->
ok;
chk_IndAudMediaDescriptor_multiStream([] = MS1, MS2) ->
not_equal('IndAudMediaDescriptor_multiStream', MS1, MS2);
chk_IndAudMediaDescriptor_multiStream(MS1, [] = MS2) ->
not_equal('IndAudMediaDescriptor_multiStream', MS1, MS2);
chk_IndAudMediaDescriptor_multiStream([H|T1], [H|T2]) ->
case is_IndAudStreamDescriptor(H) of
true ->
chk_IndAudMediaDescriptor_multiStream(T1, T2);
false ->
wrong_type('IndAudMediaDescriptor_multiStream_val', H)
end;
chk_IndAudMediaDescriptor_multiStream([H1|T1], [H2|T2]) ->
validate(fun() -> chk_IndAudStreamDescriptor(H1, H2) end,
'IndAudMediaDescriptor_multiStream_val'),
chk_IndAudMediaDescriptor_multiStream(T1, T2);
chk_IndAudMediaDescriptor_multiStream(MS1, MS2) ->
wrong_type('IndAudMediaDescriptor_multiStream', MS1, MS2).
%% -- IndAudStreamDescriptor --
is_IndAudStreamDescriptor(#'IndAudStreamDescriptor'{streamID = SID,
streamParms = Parms}) ->
is_StreamID(SID) andalso is_IndAudStreamParms(Parms);
is_IndAudStreamDescriptor(_) ->
false.
chk_IndAudStreamDescriptor(D, D) ->
chk_type(fun is_IndAudStreamDescriptor/1, 'IndAudStreamDescriptor', D);
chk_IndAudStreamDescriptor(#'IndAudStreamDescriptor'{streamID = SID1,
streamParms = Parms1},
#'IndAudStreamDescriptor'{streamID = SID2,
streamParms = Parms2}) ->
validate(fun() -> chk_StreamID(SID1, SID2) end, 'IndAudStreamDescriptor'),
validate(fun() -> chk_IndAudStreamParms(Parms1, Parms2) end,
'IndAudStreamDescriptor'),
ok;
chk_IndAudStreamDescriptor(D1, D2) ->
wrong_type('IndAudStreamDescriptor', D1, D2).
%% -- IndAudStreamParms --
is_IndAudStreamParms(#'IndAudStreamParms'{localControlDescriptor = LCD,
localDescriptor = LD,
remoteDescriptor = RD}) ->
is_opt_IndAudLocalControlDescriptor(LCD) andalso
is_opt_IndAudLocalRemoteDescriptor(LD) andalso
is_opt_IndAudLocalRemoteDescriptor(RD);
is_IndAudStreamParms(_) ->
false.
chk_IndAudStreamParms(#'IndAudStreamParms'{localControlDescriptor = LCD1,
localDescriptor = LD1,
remoteDescriptor = RD1},
#'IndAudStreamParms'{localControlDescriptor = LCD2,
localDescriptor = LD2,
remoteDescriptor = RD2}) ->
validate(fun() -> chk_opt_IndAudLocalControlDescriptor(LCD1, LCD2) end,
'IndAudStreamParms'),
validate(fun() -> chk_opt_IndAudLocalRemoteDescriptor(LD1, LD2) end,
'IndAudStreamParms'),
validate(fun() -> chk_opt_IndAudLocalRemoteDescriptor(RD1, RD2) end,
'IndAudStreamParms'),
ok;
chk_IndAudStreamParms(D1, D2) ->
wrong_type('IndAudStreamParms', D1, D2).
%% -- IndAudLocalControlDescriptor --
is_opt_IndAudLocalControlDescriptor(asn1_NOVALUE) ->
true;
is_opt_IndAudLocalControlDescriptor(D) ->
is_IndAudLocalControlDescriptor(D).
is_IndAudLocalControlDescriptor(
#'IndAudLocalControlDescriptor'{streamMode = SM,
reserveValue = RV,
reserveGroup = RG,
propertyParms = PPs}) ->
is_opt_NULL(SM) andalso is_opt_NULL(RV) andalso is_opt_NULL(RG) andalso
is_IndAudLocalControlDescriptor_propertyParms(PPs);
is_IndAudLocalControlDescriptor(_) ->
false.
is_IndAudLocalControlDescriptor_propertyParms(asn1_NOVALUE) ->
true;
is_IndAudLocalControlDescriptor_propertyParms([]) ->
true;
is_IndAudLocalControlDescriptor_propertyParms([H|T]) ->
is_IndAudPropertyParm(H) andalso
is_IndAudLocalControlDescriptor_propertyParms(T);
is_IndAudLocalControlDescriptor_propertyParms(_) ->
false.
chk_opt_IndAudLocalControlDescriptor(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_IndAudLocalControlDescriptor(
#'IndAudLocalControlDescriptor'{streamMode = SM1,
reserveValue = RV1,
reserveGroup = RG1,
propertyParms = PPs1},
#'IndAudLocalControlDescriptor'{streamMode = SM2,
reserveValue = RV2,
reserveGroup = RG2,
propertyParms = PPs2}) ->
chk_opt_NULL(SM1, SM2),
chk_opt_NULL(RV1, RV2),
chk_opt_NULL(RG1, RG2),
chk_IndAudLocalControlDescriptor_propertyParms(PPs1, PPs2),
ok;
chk_opt_IndAudLocalControlDescriptor(D1, D2) ->
wrong_type('IndAudLocalControlDescriptor', D1, D2).
chk_IndAudLocalControlDescriptor_propertyParms(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_IndAudLocalControlDescriptor_propertyParms([], []) ->
ok;
chk_IndAudLocalControlDescriptor_propertyParms([] = PPs1, PPs2) ->
not_equal('IndAudLocalControlDescriptor_propertyParms', PPs1, PPs2);
chk_IndAudLocalControlDescriptor_propertyParms(PPs1, [] = PPs2) ->
not_equal('IndAudLocalControlDescriptor_propertyParms', PPs1, PPs2);
chk_IndAudLocalControlDescriptor_propertyParms([H|T1], [H|T2]) ->
case is_IndAudPropertyParm(H) of
true ->
chk_IndAudLocalControlDescriptor_propertyParms(T1, T2);
false ->
wrong_type('IndAudLocalControlDescriptor_propertyParms_val', H)
end;
chk_IndAudLocalControlDescriptor_propertyParms([H1|T1], [H2|T2]) ->
validate(fun() -> chk_IndAudPropertyParm(H1, H2) end,
'IndAudLocalControlDescriptor_propertyParms_val'),
chk_IndAudLocalControlDescriptor_propertyParms(T1, T2);
chk_IndAudLocalControlDescriptor_propertyParms(PPs1, PPs2) ->
wrong_type('IndAudLocalControlDescriptor_propertyParms', PPs1, PPs2).
%% -- IndAudPropertyParm --
is_IndAudPropertyParm(#'IndAudPropertyParm'{name = Name}) ->
is_PkgdName(Name);
is_IndAudPropertyParm(_) ->
false.
chk_IndAudPropertyParm(#'IndAudPropertyParm'{name = Name1},
#'IndAudPropertyParm'{name = Name2}) ->
chk_PkgdName(Name1, Name2),
ok;
chk_IndAudPropertyParm(P1, P2) ->
wrong_type('IndAudPropertyParm', P1, P2).
%% -- IndAudLocalRemoteDescriptor --
is_opt_IndAudLocalRemoteDescriptor(asn1_NOVALUE) ->
true;
is_opt_IndAudLocalRemoteDescriptor(D) ->
is_IndAudLocalRemoteDescriptor(D).
is_IndAudLocalRemoteDescriptor(
#'IndAudLocalRemoteDescriptor'{propGroupID = ID,
propGrps = Grps}) ->
is_IndAudLocalRemoteDescriptor_propGroupID(ID) andalso
is_IndAudPropertyGroup(Grps);
is_IndAudLocalRemoteDescriptor(_) ->
false.
is_IndAudLocalRemoteDescriptor_propGroupID(asn1_NOVALUE) ->
true;
is_IndAudLocalRemoteDescriptor_propGroupID(V) ->
is_INTEGER(V, {range, 0, 65535}).
chk_opt_IndAudLocalRemoteDescriptor(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_IndAudLocalRemoteDescriptor(D1, D2) ->
chk_IndAudLocalRemoteDescriptor(D1, D2).
chk_IndAudLocalRemoteDescriptor(D, D) ->
chk_type(fun is_IndAudLocalRemoteDescriptor/1,
'IndAudLocalRemoteDescriptor', D);
chk_IndAudLocalRemoteDescriptor(
#'IndAudLocalRemoteDescriptor'{propGroupID = ID1,
propGrps = Grps1},
#'IndAudLocalRemoteDescriptor'{propGroupID = ID2,
propGrps = Grps2}) ->
chk_IndAudLocalRemoteDescriptor_propGroupID(ID1, ID2),
chk_IndAudPropertyGroup(Grps1, Grps2),
ok;
chk_IndAudLocalRemoteDescriptor(D1, D2) ->
wrong_type('IndAudLocalRemoteDescriptor', D1, D2).
chk_IndAudLocalRemoteDescriptor_propGroupID(ID, ID) ->
chk_type(fun is_IndAudLocalRemoteDescriptor_propGroupID/1,
'IndAudLocalRemoteDescriptor_propGroupID', ID);
chk_IndAudLocalRemoteDescriptor_propGroupID(ID1, ID2) ->
case (is_IndAudLocalRemoteDescriptor_propGroupID(ID1) andalso
is_IndAudLocalRemoteDescriptor_propGroupID(ID2)) of
true ->
not_equal('IndAudLocalRemoteDescriptor_propGroupID', ID1, ID2);
false ->
wrong_type('IndAudLocalRemoteDescriptor_propGroupID', ID1, ID2)
end.
%% -- IndAudPropertyGroup --
is_IndAudPropertyGroup([]) ->
true;
is_IndAudPropertyGroup([H|T]) ->
is_IndAudPropertyParm(H) andalso is_IndAudPropertyGroup(T);
is_IndAudPropertyGroup(_) ->
false.
chk_IndAudPropertyGroup([], []) ->
ok;
chk_IndAudPropertyGroup([] = PG1, PG2) ->
not_equal('IndAudPropertyGroup', PG1, PG2);
chk_IndAudPropertyGroup(PG1, [] = PG2) ->
not_equal('IndAudPropertyGroup', PG1, PG2);
chk_IndAudPropertyGroup([H|T1], [H|T2]) ->
case is_IndAudPropertyParm(H) of
true ->
chk_IndAudPropertyGroup(T1, T2);
false ->
wrong_type('IndAudPropertyGroup_val', H)
end;
chk_IndAudPropertyGroup([H1|T1], [H2|T2]) ->
validate(fun() -> chk_IndAudPropertyParm(H1, H2) end,
'IndAudPropertyGroup_val'),
chk_IndAudPropertyGroup(T1, T2);
chk_IndAudPropertyGroup(P1, P2) ->
wrong_type('IndAudPropertyGroup', P1, P2).
%% -- IndAudTerminationStateDescriptor --
is_opt_IndAudTerminationStateDescriptor(asn1_NOVALUE) ->
true;
is_opt_IndAudTerminationStateDescriptor(D) ->
is_IndAudTerminationStateDescriptor(D).
is_IndAudTerminationStateDescriptor(
#'IndAudTerminationStateDescriptor'{propertyParms = Parms,
eventBufferControl = EBC,
serviceState = SS}) ->
is_IndAudTerminationStateDescriptor_propertyParms(Parms) andalso
is_opt_NULL(EBC) andalso is_opt_NULL(SS);
is_IndAudTerminationStateDescriptor(_) ->
false.
is_IndAudTerminationStateDescriptor_propertyParms([]) ->
true;
is_IndAudTerminationStateDescriptor_propertyParms([H|T]) ->
is_IndAudPropertyParm(H) andalso
is_IndAudTerminationStateDescriptor_propertyParms(T);
is_IndAudTerminationStateDescriptor_propertyParms(_) ->
false.
chk_opt_IndAudTerminationStateDescriptor(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_IndAudTerminationStateDescriptor(D1, D2) ->
chk_IndAudTerminationStateDescriptor(D1, D2).
chk_IndAudTerminationStateDescriptor(
#'IndAudTerminationStateDescriptor'{propertyParms = Parms1,
eventBufferControl = EBC1,
serviceState = SS1},
#'IndAudTerminationStateDescriptor'{propertyParms = Parms2,
eventBufferControl = EBC2,
serviceState = SS2}) ->
chk_IndAudTerminationStateDescriptor_propertyParms(Parms1, Parms2),
validate(fun() -> chk_opt_NULL(EBC1, EBC2) end,
'IndAudTerminationStateDescriptor'),
validate(fun() -> chk_opt_NULL(SS1, SS2) end,
'IndAudTerminationStateDescriptor'),
ok;
chk_IndAudTerminationStateDescriptor(D1, D2) ->
wrong_type('IndAudTerminationStateDescriptor', D1, D2).
chk_IndAudTerminationStateDescriptor_propertyParms([], []) ->
ok;
chk_IndAudTerminationStateDescriptor_propertyParms([] = PP1, PP2) ->
not_equal('IndAudTerminationStateDescriptor_propertyParms', PP1, PP2);
chk_IndAudTerminationStateDescriptor_propertyParms(PP1, [] = PP2) ->
not_equal('IndAudTerminationStateDescriptor_propertyParms', PP1, PP2);
chk_IndAudTerminationStateDescriptor_propertyParms([H|T1], [H|T2]) ->
case is_IndAudPropertyParm(H) of
true ->
chk_IndAudTerminationStateDescriptor_propertyParms(T1, T2);
false ->
wrong_type('IndAudTerminationStateDescriptor_propertyParms', H)
end;
chk_IndAudTerminationStateDescriptor_propertyParms([H1|T1], [H2|T2]) ->
validate(fun() -> chk_IndAudPropertyParm(H1, H2) end,
'IndAudTerminationStateDescriptor_propertyParms'),
chk_IndAudTerminationStateDescriptor_propertyParms(T1, T2);
chk_IndAudTerminationStateDescriptor_propertyParms(PP1, PP2) ->
wrong_type('IndAudTerminationStateDescriptor_propertyParms', PP1, PP2).
%% -- IndAudEventsDescriptor --
is_IndAudEventsDescriptor(#'IndAudEventsDescriptor'{requestID = RID,
pkgdName = Name,
streamID = SID}) ->
is_opt_RequestID(RID) andalso
is_PkgdName(Name) andalso
is_opt_StreamID(SID);
is_IndAudEventsDescriptor(_) ->
false.
chk_IndAudEventsDescriptor(#'IndAudEventsDescriptor'{requestID = RID1,
pkgdName = Name1,
streamID = SID1},
#'IndAudEventsDescriptor'{requestID = RID2,
pkgdName = Name2,
streamID = SID2}) ->
chk_opt_RequestID(RID1, RID2),
chk_PkgdName(Name1, Name2),
chk_opt_StreamID(SID1, SID2),
ok;
chk_IndAudEventsDescriptor(D1, D2) ->
wrong_type('IndAudEventsDescriptor', D1, D2).
%% -- IndAudEventBufferDescriptor --
is_IndAudEventBufferDescriptor(
#'IndAudEventBufferDescriptor'{eventName = Name,
streamID = SID}) ->
is_PkgdName(Name) andalso is_opt_StreamID(SID);
is_IndAudEventBufferDescriptor(_) ->
false.
chk_IndAudEventBufferDescriptor(
#'IndAudEventBufferDescriptor'{eventName = Name1,
streamID = SID1},
#'IndAudEventBufferDescriptor'{eventName = Name2,
streamID = SID2}) ->
chk_PkgdName(Name1, Name2),
chk_opt_StreamID(SID1, SID2),
ok;
chk_IndAudEventBufferDescriptor(D1, D2) ->
wrong_type('IndAudEventBufferDescriptor', D1, D2).
%% -- IndAudSignalsDescriptor --
is_IndAudSignalsDescriptor({Tag, Val}) ->
is_IndAudSignalsDescriptor_tag(Tag) andalso
is_IndAudSignalsDescriptor_val(Tag, Val);
is_IndAudSignalsDescriptor(_) ->
false.
is_IndAudSignalsDescriptor_tag(Tag) ->
Tags = [signal, seqSigList],
lists:member(Tag, Tags).
is_IndAudSignalsDescriptor_val(signal, Val) ->
is_IndAudSignal(Val);
is_IndAudSignalsDescriptor_val(seqSigList, Val) ->
is_IndAudSeqSigList(Val).
chk_IndAudSignalsDescriptor(D, D) ->
chk_type(fun is_IndAudSignalsDescriptor/1, 'IndAudSignalsDescriptor', D);
chk_IndAudSignalsDescriptor({Tag, Val1} = D1, {Tag, Val2} = D2) ->
case (is_IndAudSignalsDescriptor_tag(Tag) andalso
is_IndAudSignalsDescriptor_val(Tag, Val1) andalso
is_IndAudSignalsDescriptor_val(Tag, Val2)) of
true ->
chk_IndAudSignalsDescriptor_val(Tag, Val1, Val2);
false ->
wrong_type('IndAudSignalsDescriptor', D1, D2)
end;
chk_IndAudSignalsDescriptor({Tag1, Val1} = D1, {Tag2, Val2} = D2) ->
case ((is_IndAudSignalsDescriptor_tag(Tag1) andalso
is_IndAudSignalsDescriptor_val(Tag1, Val1)) andalso
(is_IndAudSignalsDescriptor_tag(Tag2) andalso
is_IndAudSignalsDescriptor_val(Tag2, Val2))) of
true ->
not_equal('IndAudSignalsDescriptor', D1, D2);
false ->
wrong_type('IndAudSignalsDescriptor', D1, D2)
end;
chk_IndAudSignalsDescriptor(D1, D2) ->
wrong_type('IndAudSignalsDescriptor', D1, D2).
chk_IndAudSignalsDescriptor_val(signal, Val1, Val2) ->
chk_IndAudSignal(Val1, Val2);
chk_IndAudSignalsDescriptor_val(seqSigList, Val1, Val2) ->
chk_IndAudSeqSigList(Val1, Val2).
%% -- IndAudSeqSigList --
is_IndAudSeqSigList(#'IndAudSeqSigList'{id = ID,
signalList = SL}) ->
is_IndAudSeqSigList_id(ID) andalso is_opt_IndAudSignal(SL);
is_IndAudSeqSigList(_) ->
false.
is_IndAudSeqSigList_id(ID) -> is_INTEGER(ID, {range, 0, 65535}).
chk_IndAudSeqSigList(L, L) ->
chk_type(fun is_IndAudSeqSigList/1, 'IndAudSeqSigList', L);
chk_IndAudSeqSigList(#'IndAudSeqSigList'{id = ID1,
signalList = SL1},
#'IndAudSeqSigList'{id = ID2,
signalList = SL2}) ->
chk_IndAudSeqSigList_id(ID1, ID2),
chk_opt_IndAudSignal(SL1, SL2),
ok;
chk_IndAudSeqSigList(L1, L2) ->
wrong_type('IndAudSeqSigList', L1, L2).
chk_IndAudSeqSigList_id(ID, ID) ->
chk_type(fun is_IndAudSeqSigList_id/1, 'IndAudSeqSigList_id', ID);
chk_IndAudSeqSigList_id(ID1, ID2) ->
case (is_IndAudSeqSigList_id(ID1) andalso
is_IndAudSeqSigList_id(ID2)) of
true ->
not_equal('IndAudSeqSigList_id', ID1, ID2);
false ->
wrong_type('IndAudSeqSigList_id', ID1, ID2)
end.
%% -- IndAudSignal --
is_opt_IndAudSignal(asn1_NOVALUE) ->
true;
is_opt_IndAudSignal(V) ->
is_IndAudSignal(V).
is_IndAudSignal(#'IndAudSignal'{signalName = Name,
streamID = SID}) ->
is_PkgdName(Name) andalso is_opt_StreamID(SID);
is_IndAudSignal(_) ->
false.
chk_opt_IndAudSignal(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_IndAudSignal(S1, S2) ->
chk_IndAudSignal(S1, S2).
chk_IndAudSignal(S, S) ->
chk_type(fun is_IndAudSignal/1, 'IndAudSignal', S);
chk_IndAudSignal(#'IndAudSignal'{signalName = Name1,
streamID = SID1},
#'IndAudSignal'{signalName = Name2,
streamID = SID2}) ->
chk_PkgdName(Name1, Name2),
chk_opt_StreamID(SID1, SID2),
ok;
chk_IndAudSignal(S1, S2) ->
wrong_type('IndAudSignal', S1, S2).
%% -- IndAudDigitMapDescriptor --
is_IndAudDigitMapDescriptor(
#'IndAudDigitMapDescriptor'{digitMapName = Name}) ->
is_opt_DigitMapName(Name);
is_IndAudDigitMapDescriptor(_) ->
false.
chk_IndAudDigitMapDescriptor(D, D) ->
chk_type(fun is_IndAudDigitMapDescriptor/1, 'IndAudDigitMapDescriptor', D);
chk_IndAudDigitMapDescriptor(
#'IndAudDigitMapDescriptor'{digitMapName = Name1},
#'IndAudDigitMapDescriptor'{digitMapName = Name2}) ->
validate(fun() -> chk_opt_DigitMapName(Name1, Name2) end,
'IndAudDigitMapDescriptor'),
ok;
chk_IndAudDigitMapDescriptor(D1, D2) ->
wrong_type('IndAudDigitMapDescriptor', D1, D2).
%% -- IndAudStatisticsDescriptor --
is_IndAudStatisticsDescriptor(
#'IndAudStatisticsDescriptor'{statName = Name}) ->
is_PkgdName(Name);
is_IndAudStatisticsDescriptor(_) ->
false.
chk_IndAudStatisticsDescriptor(D, D) ->
chk_type(fun is_IndAudStatisticsDescriptor/1,
'IndAudStatisticsDescriptor', D);
chk_IndAudStatisticsDescriptor(
#'IndAudStatisticsDescriptor'{statName = Name1},
#'IndAudStatisticsDescriptor'{statName = Name2}) ->
validate(fun() -> chk_PkgdName(Name1, Name2) end,
'IndAudStatisticsDescriptor'),
ok;
chk_IndAudStatisticsDescriptor(D1, D2) ->
wrong_type('IndAudStatisticsDescriptor', D1, D2).
%% -- IndAudPackagesDescriptor --
is_IndAudPackagesDescriptor(
#'IndAudPackagesDescriptor'{packageName = Name,
packageVersion = Ver}) ->
is_Name(Name) andalso is_IndAudPackagesDescriptor_packageVersion(Ver);
is_IndAudPackagesDescriptor(_) ->
false.
is_IndAudPackagesDescriptor_packageVersion(V) ->
is_INTEGER(V, {range, 0, 99}).
chk_IndAudPackagesDescriptor(
#'IndAudPackagesDescriptor'{packageName = Name1,
packageVersion = Ver1},
#'IndAudPackagesDescriptor'{packageName = Name2,
packageVersion = Ver2}) ->
validate(fun() -> chk_Name(Name1, Name2) end, 'IndAudPackagesDescriptor'),
chk_IndAudPackagesDescriptor_packageVersion(Ver1, Ver2),
ok;
chk_IndAudPackagesDescriptor(D1, D2) ->
wrong_type('IndAudPackagesDescriptor', D1, D2).
chk_IndAudPackagesDescriptor_packageVersion(V, V) ->
chk_type(fun is_IndAudPackagesDescriptor_packageVersion/1,
'IndAudPackagesDescriptor_packageVersion', V);
chk_IndAudPackagesDescriptor_packageVersion(V1, V2) ->
case (is_IndAudPackagesDescriptor_packageVersion(V1) andalso
is_IndAudPackagesDescriptor_packageVersion(V2)) of
true ->
not_equal('IndAudPackagesDescriptor_packageVersion', V1, V2);
false ->
wrong_type('IndAudPackagesDescriptor_packageVersion', V1, V2)
end.
%% -- NotifyRequest --
is_NotifyRequest(#'NotifyRequest'{terminationID = Tids,
observedEventsDescriptor = OED,
errorDescriptor = ED}) ->
is_TerminationIDList(Tids) andalso
is_ObservedEventsDescriptor(OED) andalso
is_opt_ErrorDescriptor(ED);
is_NotifyRequest(_) ->
false.
chk_NotifyRequest(#'NotifyRequest'{terminationID = Tids1,
observedEventsDescriptor = OED1,
errorDescriptor = ED1},
#'NotifyRequest'{terminationID = Tids2,
observedEventsDescriptor = OED2,
errorDescriptor = ED2}) ->
validate(fun() -> chk_TerminationIDList(Tids1, Tids2) end,
'NotifyRequest'),
validate(fun() -> chk_ObservedEventsDescriptor(OED1, OED2) end,
'NotifyRequest'),
validate(fun() -> chk_opt_ErrorDescriptor(ED1, ED2) end,
'NotifyRequest'),
ok;
chk_NotifyRequest(NR1, NR2) ->
wrong_type('NotifyRequest', NR1, NR2).
%% -- NotifyReply --
is_NotifyReply(#'NotifyReply'{terminationID = Tids,
errorDescriptor = ED}) ->
is_TerminationIDList(Tids) andalso is_opt_ErrorDescriptor(ED);
is_NotifyReply(_) ->
false.
chk_NotifyReply(#'NotifyReply'{terminationID = Tids1,
errorDescriptor = ED1},
#'NotifyReply'{terminationID = Tids2,
errorDescriptor = ED2}) ->
validate(fun() -> chk_TerminationIDList(Tids1, Tids2) end, 'NotifyReply'),
validate(fun() -> chk_opt_ErrorDescriptor(ED1, ED2) end, 'NotifyReply'),
ok;
chk_NotifyReply(NR1, NR2) ->
wrong_type('NotifyReply', NR1, NR2).
%% -- ObservedEventsDescriptor --
is_ObservedEventsDescriptor(
#'ObservedEventsDescriptor'{requestId = RID,
observedEventLst = OEL}) ->
is_RequestID(RID) andalso
is_ObservedEventsDescriptor_observedEventLst(OEL);
is_ObservedEventsDescriptor(_) ->
false.
is_ObservedEventsDescriptor_observedEventLst([]) ->
true;
is_ObservedEventsDescriptor_observedEventLst([H|T]) ->
is_ObservedEvent(H) andalso
is_ObservedEventsDescriptor_observedEventLst(T);
is_ObservedEventsDescriptor_observedEventLst(_) ->
false.
chk_ObservedEventsDescriptor(
#'ObservedEventsDescriptor'{requestId = RID1,
observedEventLst = OEL1},
#'ObservedEventsDescriptor'{requestId = RID2,
observedEventLst = OEL2}) ->
validate(fun() -> chk_RequestID(RID1, RID2) end,
'ObservedEventsDescriptor'),
validate(
fun() ->
chk_ObservedEventsDescriptor_observedEventLst(OEL1, OEL2)
end,
'ObservedEventsDescriptor'),
ok;
chk_ObservedEventsDescriptor(D1, D2) ->
wrong_type('ObservedEventsDescriptor', D1, D2).
chk_ObservedEventsDescriptor_observedEventLst([], []) ->
ok;
chk_ObservedEventsDescriptor_observedEventLst([] = L1, L2) ->
not_equal('ObservedEventsDescriptor_observedEventLst', L1, L2);
chk_ObservedEventsDescriptor_observedEventLst(L1, [] = L2) ->
not_equal('ObservedEventsDescriptor_observedEventLst', L1, L2);
chk_ObservedEventsDescriptor_observedEventLst([H|T1], [H|T2]) ->
case is_ObservedEvent(H) of
true ->
chk_ObservedEventsDescriptor_observedEventLst(T1, T2);
false ->
wrong_type('ObservedEventsDescriptor_observedEventLst_val', H)
end;
chk_ObservedEventsDescriptor_observedEventLst([H1|T1], [H2|T2]) ->
validate(fun() -> chk_ObservedEvent(H1, H2) end,
'ObservedEventsDescriptor_observedEventLst_val'),
chk_ObservedEventsDescriptor_observedEventLst(T1, T2);
chk_ObservedEventsDescriptor_observedEventLst(L1, L2) ->
wrong_type('ObservedEventsDescriptor_observedEventLst', L1, L2).
%% -- ObservedEvent --
is_ObservedEvent(#'ObservedEvent'{eventName = Name,
streamID = SID,
eventParList = EPL,
timeNotation = TN}) ->
is_EventName(Name) andalso
is_opt_StreamID(SID) andalso
is_ObservedEvent_eventParList(EPL) andalso
is_opt_TimeNotation(TN);
is_ObservedEvent(_) ->
false.
is_ObservedEvent_eventParList([]) ->
true;
is_ObservedEvent_eventParList([H|T]) ->
is_EventParameter(H) andalso is_ObservedEvent_eventParList(T);
is_ObservedEvent_eventParList(_) ->
false.
chk_ObservedEvent(E, E) ->
chk_type(fun is_ObservedEvent/1, 'ObservedEvent', E);
chk_ObservedEvent(#'ObservedEvent'{eventName = Name1,
streamID = SID1,
eventParList = EPL1,
timeNotation = TN1},
#'ObservedEvent'{eventName = Name2,
streamID = SID2,
eventParList = EPL2,
timeNotation = TN2}) ->
validate(fun() -> chk_EventName(Name1, Name2) end, 'ObservedEvent'),
validate(fun() -> chk_opt_StreamID(SID1, SID2) end, 'ObservedEvent'),
chk_ObservedEvent_eventParList(EPL1, EPL2),
validate(fun() -> chk_opt_TimeNotation(TN1, TN2) end, 'ObservedEvent'),
ok;
chk_ObservedEvent(E1, E2) ->
wrong_type('ObservedEvent', E1, E2).
chk_ObservedEvent_eventParList([], []) ->
ok;
chk_ObservedEvent_eventParList([] = EPL1, EPL2) ->
not_equal('ObservedEvent_eventParList', EPL1, EPL2);
chk_ObservedEvent_eventParList(EPL1, [] = EPL2) ->
not_equal('ObservedEvent_eventParList', EPL1, EPL2);
chk_ObservedEvent_eventParList([H|T1], [H|T2]) ->
case is_EventParameter(H) of
true ->
chk_ObservedEvent_eventParList(T1, T2);
false ->
wrong_type('ObservedEvent_eventParList_val', H)
end;
chk_ObservedEvent_eventParList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_EventParameter(H1, H2) end,
'ObservedEvent_eventParList'),
chk_ObservedEvent_eventParList(T1, T2);
chk_ObservedEvent_eventParList(L1, L2) ->
wrong_type('ObservedEvent_eventParList', L1, L2).
%% -- EventName --
is_EventName(N) -> is_PkgdName(N).
chk_EventName(N, N) ->
chk_type(fun is_EventName/1, 'EventName', N);
chk_EventName(N1, N2) ->
case (is_EventName(N1) andalso is_EventName(N2)) of
true ->
not_equal('EventName', N1, N2);
false ->
wrong_type('EventName', N1, N2)
end.
%% -- EventParameter --
is_EventParameter(#'EventParameter'{eventParameterName = Name,
value = Val,
extraInfo = EI}) ->
d("is_EventParameter -> entery with"
"~n Name: ~p"
"~n Val: ~p"
"~n EI: ~p", [Name, Val, EI]),
is_Name(Name) andalso
is_Value(Val) andalso
is_EventParameter_extraInfo(EI);
is_EventParameter(_) ->
false.
is_EventParameter_extraInfo(asn1_NOVALUE) ->
true;
is_EventParameter_extraInfo({Tag, Val}) ->
is_EventParameter_extraInfo_tag(Tag) andalso
is_EventParameter_extraInfo_val(Tag, Val);
is_EventParameter_extraInfo(_) ->
false.
is_EventParameter_extraInfo_tag(Tag) ->
Tags = [relation, range, sublist],
lists:member(Tag, Tags).
is_EventParameter_extraInfo_val(relation, Val) ->
is_Relation(Val);
is_EventParameter_extraInfo_val(range, Val) ->
is_BOOLEAN(Val);
is_EventParameter_extraInfo_val(sublist, Val) ->
is_BOOLEAN(Val).
chk_EventParameter(#'EventParameter'{eventParameterName = Name1,
value = Val1,
extraInfo = EI1},
#'EventParameter'{eventParameterName = Name2,
value = Val2,
extraInfo = EI2}) ->
validate(fun() -> chk_Name(Name1, Name2) end, 'EventParameter'),
validate(fun() -> chk_Value(Val1, Val2) end, 'EventParameter'),
chk_EventParameter_extraInfo(EI1, EI2),
ok;
chk_EventParameter(P1, P2) ->
wrong_type('EventParameter', P1, P2).
chk_EventParameter_extraInfo(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_EventParameter_extraInfo(EI, EI) ->
chk_type(fun is_EventParameter_extraInfo/1,
'EventParameter_extraInfo', EI);
chk_EventParameter_extraInfo({Tag, Val1} = EI1, {Tag, Val2} = EI2) ->
case (is_EventParameter_extraInfo_tag(Tag) andalso
is_EventParameter_extraInfo_val(Tag, Val1) andalso
is_EventParameter_extraInfo_val(Tag, Val2)) of
true ->
chk_EventParameter_extraInfo_val(Tag, Val1, Val2);
false ->
wrong_type('EventParameter_extraInfo', EI1, EI2)
end;
chk_EventParameter_extraInfo({Tag1, Val1} = EI1, {Tag2, Val2} = EI2) ->
case ((is_EventParameter_extraInfo_tag(Tag1) andalso
is_EventParameter_extraInfo_val(Tag1, Val1)) andalso
(is_EventParameter_extraInfo_tag(Tag2) andalso
is_EventParameter_extraInfo_val(Tag2, Val2))) of
true ->
not_equal('EventParameter_extraInfo', EI1, EI2);
false ->
wrong_type('EventParameter_extraInfo', EI1, EI2)
end;
chk_EventParameter_extraInfo(EI1, EI2) ->
wrong_type('EventParameter_extraInfo', EI1, EI2).
chk_EventParameter_extraInfo_val(relation, Val1, Val2) ->
validate(fun() -> chk_Relation(Val1, Val2) end,
'EventParameter_extraInfo_val');
chk_EventParameter_extraInfo_val(range, Val1, Val2) ->
validate(fun() -> chk_BOOLEAN(Val1, Val2) end,
'EventParameter_extraInfo_val');
chk_EventParameter_extraInfo_val(sublist, Val1, Val2) ->
validate(fun() -> chk_BOOLEAN(Val1, Val2) end,
'EventParameter_extraInfo_val').
%% -- ServiceChangeRequest --
is_ServiceChangeRequest(#'ServiceChangeRequest'{terminationID = Tids,
serviceChangeParms = Parms}) ->
is_TerminationIDList(Tids) andalso is_ServiceChangeParm(Parms);
is_ServiceChangeRequest(_) ->
false.
chk_ServiceChangeRequest(R, R) ->
chk_type(fun is_ServiceChangeRequest/1, 'ServiceChangeRequest', R);
chk_ServiceChangeRequest(
#'ServiceChangeRequest'{terminationID = Tids1,
serviceChangeParms = Parms1},
#'ServiceChangeRequest'{terminationID = Tids2,
serviceChangeParms = Parms2}) ->
validate(fun() -> chk_TerminationIDList(Tids1, Tids2) end,
'ServiceChangeRequest'),
validate(fun() -> chk_ServiceChangeParm(Parms1, Parms2) end,
'ServiceChangeRequest'),
ok;
chk_ServiceChangeRequest(R1, R2) ->
wrong_type('ServiceChangeRequest', R1, R2).
%% -- ServiceChangeReply --
is_ServiceChangeReply(#'ServiceChangeReply'{terminationID = Tids,
serviceChangeResult = Res}) ->
is_TerminationIDList(Tids) andalso is_ServiceChangeResult(Res);
is_ServiceChangeReply(_) ->
false.
chk_ServiceChangeReply(R, R) ->
chk_type(fun is_ServiceChangeReply/1, 'ServiceChangeReply', R);
chk_ServiceChangeReply(
#'ServiceChangeReply'{terminationID = Tids1,
serviceChangeResult = Res1},
#'ServiceChangeReply'{terminationID = Tids2,
serviceChangeResult = Res2}) ->
validate(fun() -> chk_TerminationIDList(Tids1, Tids2) end,
'ServiceChangeReply'),
validate(fun() -> chk_ServiceChangeResult(Res1, Res2) end,
'ServiceChangeReply'),
ok;
chk_ServiceChangeReply(R1, R2) ->
wrong_type('ServiceChangeReply', R1, R2).
%% -- ServiceChangeResult --
is_ServiceChangeResult({Tag, Val}) ->
is_ServiceChangeResult_tag(Tag) andalso
is_ServiceChangeResult_val(Tag, Val);
is_ServiceChangeResult(_) ->
false.
is_ServiceChangeResult_tag(Tag) ->
Tags = [errorDescriptor, serviceChangeResParms],
lists:member(Tag, Tags).
is_ServiceChangeResult_val(errorDescriptor, Val) ->
is_ErrorDescriptor(Val);
is_ServiceChangeResult_val(serviceChangeResParms, Val) ->
is_ServiceChangeResParm(Val).
chk_ServiceChangeResult(Res, Res) ->
chk_type(fun is_ServiceChangeResult/1, 'ServiceChangeResult', Res);
chk_ServiceChangeResult({Tag, Val1} = Res1, {Tag, Val2} = Res2) ->
case (is_ServiceChangeResult_tag(Tag) andalso
is_ServiceChangeResult_val(Tag, Val1) andalso
is_ServiceChangeResult_val(Tag, Val2)) of
true ->
chk_ServiceChangeResult_val(Tag, Val1, Val2);
false ->
wrong_type('ServiceChangeResult', Res1, Res2)
end;
chk_ServiceChangeResult({Tag1, Val1} = Res1, {Tag2, Val2} = Res2) ->
case ((is_ServiceChangeResult_tag(Tag1) andalso
is_ServiceChangeResult_val(Tag1, Val1)) andalso
(is_ServiceChangeResult_tag(Tag2) andalso
is_ServiceChangeResult_val(Tag2, Val2))) of
true ->
not_equal('ServiceChangeResult', Res1, Res2);
false ->
wrong_type('ServiceChangeResult', Res1, Res2)
end;
chk_ServiceChangeResult(Res1, Res2) ->
wrong_type('ServiceChangeResult', Res1, Res2).
chk_ServiceChangeResult_val(errorDescriptor, Val1, Val2) ->
validate(fun() -> chk_ErrorDescriptor(Val1, Val2) end,
'ServiceChangeResult');
chk_ServiceChangeResult_val(serviceChangeResParms, Val1, Val2) ->
validate(fun() -> chk_ServiceChangeResParm(Val1, Val2) end,
'ServiceChangeResult').
%% -- WildcardField --
is_WildcardField(WF) -> is_OCTET_STRING(WF, {exact, 1}).
chk_WildcardField(WF, WF) ->
case is_WildcardField(WF) of
true ->
ok;
false ->
wrong_type('WildcardField', WF)
end;
chk_WildcardField(WF1, WF2) ->
case (is_WildcardField(WF1) andalso is_WildcardField(WF2)) of
true ->
not_equal('WildcardField', WF1, WF2);
false ->
wrong_type('WildcardField', WF1, WF2)
end.
%% -- TerminationID --
is_TerminationID(#'TerminationID'{wildcard = W,
id = ID}) ->
is_TerminationID_wildcard(W) andalso is_TerminationID_id(ID);
is_TerminationID(#megaco_term_id{contains_wildcards = _W,
id = _ID}) ->
true; % What are the types?
is_TerminationID(_) ->
false.
is_TerminationID_wildcard([]) ->
true;
is_TerminationID_wildcard([H|T]) ->
is_WildcardField(H) andalso is_TerminationID_wildcard(T);
is_TerminationID_wildcard(_) ->
false.
is_TerminationID_id(ID) -> is_OCTET_STRING(ID, {range, 1, 8}).
chk_TerminationID(Id,Id) ->
chk_type(fun is_TerminationID/1, 'TerminationID', Id);
chk_TerminationID(#'TerminationID'{wildcard = W1,
id = I1},
#'TerminationID'{wildcard = W2,
id = I2}) ->
chk_TerminationID_wildcard(W1, W2),
chk_TerminationID_id(I1, I2),
ok;
chk_TerminationID(#megaco_term_id{contains_wildcards = W1,
id = I1},
#megaco_term_id{contains_wildcards = W2,
id = I2}) ->
chk_TerminationID_wildcard(W1, W2),
chk_TerminationID_id(I1, I2),
ok;
chk_TerminationID(Tid1, Tid2) ->
wrong_type('TerminationID', Tid1, Tid2).
chk_TerminationID_wildcard([], []) ->
ok;
chk_TerminationID_wildcard([] = WF1, WF2) ->
not_equal('TerminationID_wildcard', WF1, WF2);
chk_TerminationID_wildcard(WF1, [] = WF2) ->
not_equal('TerminationID_wildcard', WF1, WF2);
chk_TerminationID_wildcard([H|T1], [H|T2]) ->
case is_WildcardField(H) of
true ->
chk_TerminationID_wildcard(T1, T2);
false ->
wrong_type('TerminationID_wildcard_val', H)
end;
chk_TerminationID_wildcard([H1|T1], [H2|T2]) ->
validate(fun() -> chk_WildcardField(H1, H2) end,
'TerminationID_wildcard_val'),
chk_TerminationID_wildcard(T1, T2);
chk_TerminationID_wildcard(WF1,WF2) ->
not_equal('TerminationId_wildcard', WF1, WF2).
chk_TerminationID_id(Id, Id) ->
case is_OCTET_STRING(Id, {range, 1, 8}) of
true ->
ok;
false ->
wrong_type('TerminationID_id', Id, Id)
end;
chk_TerminationID_id(Id1, Id2) ->
not_equal(terminationId_id, Id1, Id2).
%% -- TerminationIDList --
is_TerminationIDList([]) ->
true;
is_TerminationIDList([H|T]) ->
is_TerminationID(H) andalso is_TerminationIDList(T);
is_TerminationIDList(_) ->
false.
chk_TerminationIDList([], []) ->
ok;
chk_TerminationIDList([] = L1, L2) ->
not_equal('TerminationIDList', L1, L2);
chk_TerminationIDList(L1, [] = L2) ->
not_equal('TerminationIDList', L1, L2);
chk_TerminationIDList([H|T1], [H|T2]) ->
case is_TerminationID(H) of
true ->
chk_TerminationIDList(T1, T2);
false ->
wrong_type('TerminationIDList', H)
end;
chk_TerminationIDList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_TerminationID(H1, H2) end, 'TerminationIDList'),
chk_TerminationIDList(T1, T2);
chk_TerminationIDList(L1, L2) ->
wrong_type('TerminationIDList', L1, L2).
%% -- MediaDescriptor --
is_MediaDescriptor(#'MediaDescriptor'{termStateDescr = TSD,
streams = S}) ->
is_opt_TerminationStateDescriptor(TSD) andalso
is_MediaDescriptor_streams(S);
is_MediaDescriptor(_) ->
false.
is_MediaDescriptor_streams(asn1_NOVALUE) ->
true;
is_MediaDescriptor_streams({Tag, Val}) ->
is_MediaDescriptor_streams_tag(Tag) andalso
is_MediaDescriptor_streams_val(Tag, Val);
is_MediaDescriptor_streams(_) ->
false.
is_MediaDescriptor_streams_tag(Tag) ->
Tags = [oneStream, multiStream],
lists:member(Tag, Tags).
is_MediaDescriptor_streams_val(oneStream, SP) ->
is_StreamParms(SP);
is_MediaDescriptor_streams_val(multiStream, SDL) ->
is_MediaDescriptor_multiStream(SDL).
is_MediaDescriptor_multiStream([]) ->
true;
is_MediaDescriptor_multiStream([H|T]) ->
is_StreamDescriptor(H) andalso is_MediaDescriptor_multiStream(T);
is_MediaDescriptor_multiStream(_) ->
false.
chk_MediaDescriptor(D, D) ->
chk_type(fun is_MediaDescriptor/1, 'MediaDescriptor', D);
chk_MediaDescriptor(#'MediaDescriptor'{termStateDescr = TSD1,
streams = S1},
#'MediaDescriptor'{termStateDescr = TSD2,
streams = S2}) ->
validate(
fun() ->
chk_opt_TerminationStateDescriptor(TSD1, TSD2)
end,
'MediaDescriptor'),
validate(
fun() ->
chk_MediaDescriptor_streams(S1, S2)
end,
'MediaDescriptor'),
ok;
chk_MediaDescriptor(D1, D2) ->
wrong_type('MediaDescriptor', D1, D2).
chk_MediaDescriptor_streams(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_MediaDescriptor_streams({oneStream, SP1}, {oneStream, SP2}) ->
validate(fun() ->
chk_StreamParms(SP1, SP2)
end,
'MediaDescriptor_streams');
chk_MediaDescriptor_streams({multiStream, SDs1}, {multiStream, SDs2}) ->
validate(fun() ->
chk_MediaDescriptor_multiStream(SDs1, SDs2)
end,
'MediaDescriptor_streams');
chk_MediaDescriptor_streams(S1, S2) ->
wrong_type('MediaDescriptor_streams', S1, S2).
chk_MediaDescriptor_multiStream([], []) ->
ok;
chk_MediaDescriptor_multiStream([] = MS1, MS2) ->
not_equal('MediaDescriptor_multiStream', MS1, MS2);
chk_MediaDescriptor_multiStream(MS1, [] = MS2) ->
not_equal('MediaDescriptor_multiStream', MS1, MS2);
chk_MediaDescriptor_multiStream([H|T1], [H|T2]) ->
case is_StreamDescriptor(H) of
true ->
chk_MediaDescriptor_multiStream(T1, T2);
false ->
wrong_type('MediaDescriptor_multiStream_val', H)
end;
chk_MediaDescriptor_multiStream([H1|T1], [H2|T2]) ->
validate(fun() -> chk_StreamDescriptor(H1, H2) end,
'MediaDescriptor_multiStream_val'),
chk_MediaDescriptor_multiStream(T1, T2);
chk_MediaDescriptor_multiStream(MS1, MS2) ->
wrong_type('MediaDescriptor_multiStream_val', MS1, MS2).
%% -- StreamDescriptor --
is_StreamDescriptor(#'StreamDescriptor'{streamID = SID,
streamParms = Parms}) ->
is_StreamID(SID) andalso is_StreamParms(Parms);
is_StreamDescriptor(_) ->
false.
chk_StreamDescriptor(D, D) ->
chk_type(fun is_StreamDescriptor/1, 'StreamDescriptor', D);
chk_StreamDescriptor(#'StreamDescriptor'{streamID = SID1,
streamParms = Parms1},
#'StreamDescriptor'{streamID = SID2,
streamParms = Parms2}) ->
validate(fun() -> chk_StreamID(SID1, SID2) end, 'StreamDescriptor'),
validate(fun() -> chk_StreamParms(Parms1, Parms2) end, 'StreamDescriptor'),
ok;
chk_StreamDescriptor(D1, D2) ->
wrong_type('StreamDescriptor', D1, D2).
%% -- StreamParms --
is_StreamParms(#'StreamParms'{localControlDescriptor = LCD,
localDescriptor = LD,
remoteDescriptor = RD}) ->
is_opt_LocalControlDescriptor(LCD) andalso
is_opt_LocalRemoteDescriptor(LD) andalso
is_opt_LocalRemoteDescriptor(RD);
is_StreamParms(_) ->
false.
chk_StreamParms(SP, SP) ->
chk_type(fun is_StreamParms/1, 'StreamParms', SP);
chk_StreamParms(#'StreamParms'{localControlDescriptor = LCD1,
localDescriptor = LD1,
remoteDescriptor = RD1},
#'StreamParms'{localControlDescriptor = LCD2,
localDescriptor = LD2,
remoteDescriptor = RD2}) ->
chk_opt_LocalControlDescriptor(LCD1, LCD2),
validate(fun() -> chk_opt_LocalRemoteDescriptor(LD1, LD2) end,
localDescriptor),
validate(fun() -> chk_opt_LocalRemoteDescriptor(RD1, RD2) end,
remoteDescriptor),
ok;
chk_StreamParms(P1, P2) ->
wrong_type('StreamParms', P1, P2).
%% -- LocalControlDescriptor --
is_opt_LocalControlDescriptor(asn1_NOVALUE) ->
true;
is_opt_LocalControlDescriptor(D) ->
is_LocalControlDescriptor(D).
is_LocalControlDescriptor(#'LocalControlDescriptor'{streamMode = SM,
reserveValue = RV,
reserveGroup = RG,
propertyParms = PP}) ->
is_opt_StreamMode(SM) andalso
is_opt_BOOLEAN(RV) andalso
is_opt_BOOLEAN(RG) andalso
is_LocalControlDescriptor_propertyParms(PP);
is_LocalControlDescriptor(_) ->
false.
is_LocalControlDescriptor_propertyParms([]) ->
true;
is_LocalControlDescriptor_propertyParms([H|T]) ->
is_PropertyParm(H) andalso is_LocalControlDescriptor_propertyParms(T);
is_LocalControlDescriptor_propertyParms(_) ->
false.
chk_opt_LocalControlDescriptor(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_LocalControlDescriptor(LCD1, LCD2) ->
chk_LocalControlDescriptor(LCD1, LCD2).
chk_LocalControlDescriptor(LCD, LCD) ->
chk_type(fun is_LocalControlDescriptor/1, 'LocalControlDescriptor', LCD);
chk_LocalControlDescriptor(#'LocalControlDescriptor'{streamMode = SM1,
reserveValue = RV1,
reserveGroup = RG1,
propertyParms = PP1},
#'LocalControlDescriptor'{streamMode = SM2,
reserveValue = RV2,
reserveGroup = RG2,
propertyParms = PP2}) ->
validate(
fun() -> chk_opt_StreamMode(SM1, SM2) end,
'LocalControlDescriptor'),
validate(
fun() -> chk_opt_BOOLEAN(RV1, RV2) end,
'LocalControlDescriptor_reserveValue'),
validate(
fun() -> chk_opt_BOOLEAN(RG1, RG2) end,
'LocalControlDescriptor_reserveGroup'),
chk_LocalControlDescriptor_propertyParms(PP1, PP2),
ok;
chk_LocalControlDescriptor(LCD1, LCD2) ->
wrong_type('LocalControlDescriptor', LCD1, LCD2).
chk_LocalControlDescriptor_propertyParms([], []) ->
ok;
chk_LocalControlDescriptor_propertyParms([] = PP1, PP2) ->
not_equal('LocalControlDescriptor_propertyParms', PP1, PP2);
chk_LocalControlDescriptor_propertyParms(PP1, [] = PP2) ->
not_equal('LocalControlDescriptor_propertyParms', PP1, PP2);
chk_LocalControlDescriptor_propertyParms([H|T1], [H|T2]) ->
case is_PropertyParm(H) of
true ->
chk_LocalControlDescriptor_propertyParms(T1, T2);
false ->
wrong_type('LocalControlDescriptor_propertyParms_val', H)
end;
chk_LocalControlDescriptor_propertyParms([H1|T1], [H2|T2]) ->
validate(fun() -> chk_PropertyParm(H1, H2) end,
'LocalControlDescriptor_propertyParms_val'),
chk_LocalControlDescriptor_propertyParms(T1, T2);
chk_LocalControlDescriptor_propertyParms(PP1, PP2) ->
wrong_type('LocalControlDescriptor_propertyParms', PP1, PP2).
%% -- StreamMode --
is_opt_StreamMode(asn1_NOVALUE) ->
true;
is_opt_StreamMode(SM) ->
is_StreamMode(SM).
is_StreamMode(SM) ->
lists:member(SM, [sendOnly, recvOnly, sendRecv, inactive, loopBack]).
chk_opt_StreamMode(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_StreamMode(SM1, SM2) ->
chk_StreamMode(SM1, SM2).
chk_StreamMode(SM, SM) ->
chk_type(fun is_StreamMode/1, 'StreamMode', SM);
chk_StreamMode(SM1, SM2) ->
case (is_StreamMode(SM1) andalso is_StreamMode(SM2)) of
true ->
not_equal('StreamMode', SM1, SM2);
false ->
wrong_type('StreamMode', SM1, SM2)
end.
%% -- PropertyParm --
is_PropertyParm(#'PropertyParm'{name = N,
value = V,
extraInfo = I}) ->
is_PkgdName(N) andalso
is_PropertyParm_value(V) andalso
is_PropertyParm_extraInfo(I);
is_PropertyParm(_) ->
false.
is_PropertyParm_value([]) ->
true;
is_PropertyParm_value([H|T]) ->
is_OCTET_STRING(H) andalso is_PropertyParm_value(T);
is_PropertyParm_value(_) ->
false.
is_PropertyParm_extraInfo(asn1_NOVALUE) ->
true;
is_PropertyParm_extraInfo({Tag, Val}) ->
is_PropertyParm_extraInfo_tag(Tag) andalso
is_PropertyParm_extraInfo_val(Tag, Val);
is_PropertyParm_extraInfo(_) ->
false.
is_PropertyParm_extraInfo_tag(Tag) ->
Tags = [relation, range, sublist],
lists:member(Tag, Tags).
is_PropertyParm_extraInfo_val(relation, Val) ->
is_Relation(Val);
is_PropertyParm_extraInfo_val(range, Val) ->
is_BOOLEAN(Val);
is_PropertyParm_extraInfo_val(sublist, Val) ->
is_BOOLEAN(Val).
chk_PropertyParm(P, P) ->
chk_type(fun is_PropertyParm/1, 'PropertyParm', P);
chk_PropertyParm(#'PropertyParm'{name = N1,
value = V1,
extraInfo = I1},
#'PropertyParm'{name = N2,
value = V2,
extraInfo = I2}) ->
validate(fun() -> chk_PkgdName(N1, N2) end, 'PropertyParm'),
chk_PropertyParm_value(V1, V2),
chk_PropertyParm_extraInfo(I1, I2),
ok;
chk_PropertyParm(P1, P2) ->
wrong_type('PropertyParm', P1, P2).
chk_PropertyParm_value([], []) ->
ok;
chk_PropertyParm_value([] = V1, V2) ->
not_equal('PropertyParm_value', V1, V2);
chk_PropertyParm_value(V1, [] = V2) ->
not_equal('PropertyParm_value', V1, V2);
chk_PropertyParm_value([H|T1], [H|T2]) ->
case is_OCTET_STRING(H) of
true ->
chk_PropertyParm_value(T1, T2);
false ->
wrong_type('PropertyParm_value_val', H)
end;
chk_PropertyParm_value([H1|_], [H2|_]) ->
case (is_OCTET_STRING(H1) andalso is_OCTET_STRING(H2)) of
true ->
not_equal('PropertyParm_value_val', H1, H2);
false ->
wrong_type('PropertyParm_value_val', H1, H2)
end;
chk_PropertyParm_value(V1, V2) ->
wrong_type('PropertyParm_value', V1, V2).
chk_PropertyParm_extraInfo(EI, EI) ->
chk_type(fun is_PropertyParm_extraInfo/1, 'PropertyParm_extraInfo', EI);
chk_PropertyParm_extraInfo({Tag, Val1} = EI1, {Tag, Val2} = EI2) ->
case (is_PropertyParm_extraInfo_tag(Tag) and
is_PropertyParm_extraInfo_val(Tag, Val1) and
is_PropertyParm_extraInfo_val(Tag, Val2)) of
true ->
chk_PropertyParm_extraInfo_val(Tag, Val1, Val2);
false ->
wrong_type('PropertyParm_extraInfo', EI1, EI2)
end;
chk_PropertyParm_extraInfo({Tag1, Val1} = EI1, {Tag2, Val2} = EI2) ->
case ((is_PropertyParm_extraInfo_tag(Tag1) and
is_PropertyParm_extraInfo_val(Tag1, Val1)) and
(is_PropertyParm_extraInfo_tag(Tag2) and
is_PropertyParm_extraInfo_val(Tag2, Val2))) of
true ->
not_equal('PropertyParm_extraInfo', EI1, EI2);
false ->
wrong_type('PropertyParm_extraInfo', EI1, EI2)
end;
chk_PropertyParm_extraInfo(EI1, EI2) ->
wrong_type('PropertyParm_extraInfo', EI1, EI2).
chk_PropertyParm_extraInfo_val(relation, Val1, Val2) ->
validate(fun() -> chk_Relation(Val1, Val2) end, 'PropertyParm_extraInfo');
chk_PropertyParm_extraInfo_val(range, Val1, Val2) ->
validate(fun() -> chk_BOOLEAN(Val1, Val2) end, 'PropertyParm_extraInfo');
chk_PropertyParm_extraInfo_val(sublist, Val1, Val2) ->
validate(fun() -> chk_BOOLEAN(Val1, Val2) end, 'PropertyParm_extraInfo').
%% -- Name --
is_Name(N) ->
%% Binary: is_OCTET_STRING(N, {exact, 2}).
case is_OCTET_STRING(N, {range, 1, 64}) of
true ->
is_NAME(N);
false ->
false
end.
is_NAME([H|T]) when H =< $z, $a =< H ->
is_NAME2(T);
is_NAME([H|T]) when H =< $Z, $A =< H ->
is_NAME2(T);
is_NAME(_) ->
false.
is_NAME2([]) ->
true;
is_NAME2([$_|T]) ->
is_NAME2(T);
is_NAME2([H|T]) when H =< $z, $a =< H ->
is_NAME2(T);
is_NAME2([H|T]) when H =< $Z, $A =< H ->
is_NAME2(T);
is_NAME2([H|T]) when H =< $9, $0 =< H ->
is_NAME2(T);
is_NAME2(_) ->
false.
chk_Name(N, N) ->
chk_type(fun is_Name/1, 'Name', N);
chk_Name(N1, N2) ->
case (is_Name(N1) andalso is_Name(N2)) of
true ->
not_equal('Name', N1, N2);
false ->
wrong_type('Name', N1, N2)
end.
%% -- PkgdName --
%% PkgdName is either "AB/CD" or just plain "ABCD"
%% Note that in ASN.1 the parts is exactly 2 char
%% each, unless you don't use the native config
%% option. In text and in binary without the native
%% option, it is 63 + 1 chars for each.
is_PkgdName(N) ->
d("is_PkgdName -> entry with"
"~n N: ~p", [N]),
case string:tokens(N, "/") of
["*" = PackageName, "*" = ItemID] ->
d("is_PkgdName -> tokenized (0): "
"~n PackageName: ~p"
"~n ItemID: ~p", [PackageName, ItemID]),
true;
[PackageName, "*" = ItemID] ->
d("is_PkgdName -> tokenized (1): "
"~n PackageName: ~p"
"~n ItemID: ~p", [PackageName, ItemID]),
is_Name(PackageName);
[PackageName, ItemID] ->
d("is_PkgdName -> tokenized (2): "
"~n PackageName: ~p"
"~n ItemID: ~p", [PackageName, ItemID]),
is_Name(PackageName) andalso is_Name(ItemID);
_ ->
is_Name(N)
end.
chk_PkgdName(N, N) ->
case is_PkgdName(N) of
true ->
ok;
false ->
wrong_type('PkgdName', N, N)
end;
chk_PkgdName(N1, N2) ->
case (is_PkgdName(N1) andalso is_PkgdName(N2)) of
true ->
not_equal('PkgdName', N1, N2);
false ->
wrong_type('PkgdName', N1, N2)
end.
%% -- Relation --
is_Relation(R) ->
lists:member(R, [greaterThan, smallerThan, unequalTo]).
chk_Relation(R, R) ->
chk_type(fun is_Relation/1, 'Relation', R);
chk_Relation(R1, R2) ->
case (is_Relation(R1) andalso is_Relation(R2)) of
true ->
not_equal('Relation', R1, R2);
false ->
wrong_type('Relation', R1, R2)
end.
%% -- LocalRemoteDescriptor --
is_opt_LocalRemoteDescriptor(D) ->
is_OPTIONAL(fun is_LocalRemoteDescriptor/1, D).
is_LocalRemoteDescriptor(#'LocalRemoteDescriptor'{propGrps = PGs}) ->
is_LocalRemoteDescriptor_propGrps(PGs);
is_LocalRemoteDescriptor(_) ->
false.
is_LocalRemoteDescriptor_propGrps([]) ->
true;
is_LocalRemoteDescriptor_propGrps([H|T]) ->
is_PropertyGroup(H) andalso is_LocalRemoteDescriptor_propGrps(T);
is_LocalRemoteDescriptor_propGrps(_) ->
false.
chk_opt_LocalRemoteDescriptor(D1, D2) ->
chk_OPTIONAL('LocalRemoteDescriptor', D1, D2,
fun is_LocalRemoteDescriptor/1,
fun chk_LocalRemoteDescriptor/2).
chk_LocalRemoteDescriptor(LRD, LRD) ->
chk_type(fun is_LocalRemoteDescriptor/1, 'LocalRemoteDescriptor', LRD);
chk_LocalRemoteDescriptor(#'LocalRemoteDescriptor'{propGrps = PG1},
#'LocalRemoteDescriptor'{propGrps = PG2}) ->
chk_LocalRemoteDescriptor_propGrps(PG1, PG2),
ok;
chk_LocalRemoteDescriptor(LRD1, LRD2) ->
wrong_type('LocalRemoteDescriptor', LRD1, LRD2).
chk_LocalRemoteDescriptor_propGrps([], []) ->
ok;
chk_LocalRemoteDescriptor_propGrps([] = PG1, PG2) ->
not_equal('LocalRemoteDescriptor_propGrps', PG1, PG2);
chk_LocalRemoteDescriptor_propGrps(PG1, [] = PG2) ->
not_equal('LocalRemoteDescriptor_propGrps', PG1, PG2);
chk_LocalRemoteDescriptor_propGrps([H|T1], [H|T2]) ->
case is_PropertyGroup(H) of
true ->
chk_LocalRemoteDescriptor_propGrps(T1, T2);
false ->
wrong_type('LocalRemoteDescriptor_propGrps_val', H)
end;
chk_LocalRemoteDescriptor_propGrps([H1|T1], [H2|T2]) ->
validate(fun() -> chk_PropertyGroup(H1, H2) end,
'LocalRemoteDescriptor_propGrps_val'),
chk_LocalRemoteDescriptor_propGrps(T1, T2);
chk_LocalRemoteDescriptor_propGrps(PG1, PG2) ->
wrong_type('LocalRemoteDescriptor_propGrps', PG1, PG2).
%% -- PropertyGroup --
is_PropertyGroup([]) ->
true;
is_PropertyGroup([H|T]) ->
is_PropertyParm(H) andalso is_PropertyGroup(T);
is_PropertyGroup(_) ->
false.
chk_PropertyGroup([], []) ->
ok;
chk_PropertyGroup([] = PG1, PG2) ->
not_equal('PropertyGroup', PG1, PG2);
chk_PropertyGroup(PG1, [] = PG2) ->
not_equal('PropertyGroup', PG1, PG2);
chk_PropertyGroup([H|T1], [H|T2]) ->
case is_PropertyParm(H) of
true ->
chk_PropertyGroup(T1, T2);
false ->
wrong_type('PropertyGroup_val', H)
end;
chk_PropertyGroup([H1|T1], [H2|T2]) ->
validate(fun() -> chk_PropertyParm(H1, H2) end, 'PropertyGroup_val'),
chk_PropertyGroup(T1, T2);
chk_PropertyGroup(PG1, PG2) ->
wrong_type('PropertyGroup', PG1, PG2).
%% -- TerminationStateDescriptor --
is_opt_TerminationStateDescriptor(D) ->
is_OPTIONAL(fun is_TerminationStateDescriptor/1, D).
is_TerminationStateDescriptor(
#'TerminationStateDescriptor'{propertyParms = PP,
eventBufferControl = EBC,
serviceState = SS}) ->
is_TerminationStateDescriptor_propertyParms(PP) andalso
is_opt_EventBufferControl(EBC) andalso
is_opt_ServiceState(SS);
is_TerminationStateDescriptor(_) ->
false.
is_TerminationStateDescriptor_propertyParms([]) ->
true;
is_TerminationStateDescriptor_propertyParms([H|T]) ->
is_PropertyParm(H) andalso is_TerminationStateDescriptor_propertyParms(T);
is_TerminationStateDescriptor_propertyParms(_) ->
false.
chk_opt_TerminationStateDescriptor(D1, D2) ->
chk_OPTIONAL('TerminationStateDescriptor', D1, D2,
fun is_TerminationStateDescriptor/1,
fun chk_TerminationStateDescriptor/2).
chk_TerminationStateDescriptor(D, D) ->
chk_type(fun is_TerminationStateDescriptor/1,
'TerminationStateDescriptor', D);
chk_TerminationStateDescriptor(
#'TerminationStateDescriptor'{propertyParms = PP1,
eventBufferControl = EBC1,
serviceState = SS1},
#'TerminationStateDescriptor'{propertyParms = PP2,
eventBufferControl = EBC2,
serviceState = SS2}) ->
chk_TerminationStateDescriptor_propertyParms(PP1, PP2),
validate(
fun() ->
chk_opt_EventBufferControl(EBC1, EBC2)
end,
'TerminationStateDescriptor'),
validate(
fun() ->
chk_opt_ServiceState(SS1, SS2)
end,
'TerminationStateDescriptor'),
ok;
chk_TerminationStateDescriptor(D1, D2) ->
wrong_type('TerminationStateDescriptor', D1, D2).
chk_TerminationStateDescriptor_propertyParms([], []) ->
ok;
chk_TerminationStateDescriptor_propertyParms([] = P1, P2) ->
not_equal('TerminationStateDescriptor_propertyParms', P1, P2);
chk_TerminationStateDescriptor_propertyParms(P1, [] = P2) ->
not_equal('TerminationStateDescriptor_propertyParms', P1, P2);
chk_TerminationStateDescriptor_propertyParms([H|T1], [H|T2]) ->
case is_PropertyParm(H) of
true ->
chk_TerminationStateDescriptor_propertyParms(T1, T2);
false ->
wrong_type('TerminationStateDescriptor_propertyParms_val', H)
end;
chk_TerminationStateDescriptor_propertyParms([H1|_], [H2|_]) ->
case (is_PropertyParm(H1) andalso is_PropertyParm(H2)) of
true ->
not_equal('TerminationStateDescriptor_propertyParms_val', H1, H2);
false ->
wrong_type('TerminationStateDescriptor_propertyParms_val', H1, H2)
end;
chk_TerminationStateDescriptor_propertyParms(P1, P2) ->
wrong_type('TerminationStateDescriptor_propertyParms', P1, P2).
%% -- EventBufferControl --
is_opt_EventBufferControl(asn1_NOVALUE) ->
true;
is_opt_EventBufferControl(EBC) ->
is_EventBufferControl(EBC).
is_EventBufferControl(EBC) ->
lists:member(EBC, [off, lockStep]).
chk_opt_EventBufferControl(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_EventBufferControl(EBC1, EBC2) ->
chk_EventBufferControl(EBC1, EBC2).
chk_EventBufferControl(EBC, EBC) ->
chk_type(fun is_EventBufferControl/1, 'EventBufferControl', EBC);
chk_EventBufferControl(EBC1, EBC2) ->
case (is_EventBufferControl(EBC1) andalso is_EventBufferControl(EBC2)) of
true ->
not_equal('EventBufferControl', EBC1, EBC2);
false ->
wrong_type('EventBufferControl', EBC1, EBC2)
end.
%% -- ServiceState --
is_opt_ServiceState(asn1_NOVALUE) ->
true;
is_opt_ServiceState(SS) ->
is_ServiceState(SS).
is_ServiceState(SS) ->
lists:member(SS, [test, outOfSvc, inSvc]).
chk_opt_ServiceState(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_ServiceState(SS1, SS2) ->
chk_ServiceState(SS1, SS2).
chk_ServiceState(SS, SS) ->
chk_type(fun is_ServiceState/1, 'ServiceState', SS);
chk_ServiceState(SS1, SS2) ->
case (is_ServiceState(SS1) andalso is_ServiceState(SS2)) of
true ->
not_equal('ServiceState', SS1, SS2);
false ->
wrong_type('ServiceState', SS1, SS2)
end.
%% -- MuxDescriptor --
is_MuxDescriptor(#'MuxDescriptor'{muxType = MT,
termList = TL,
nonStandardData = NSD}) ->
is_MuxType(MT) andalso
is_MuxDescriptor_termList(TL) andalso
is_NonStandardData(NSD);
is_MuxDescriptor(_) ->
false.
is_MuxDescriptor_termList([]) ->
true;
is_MuxDescriptor_termList([H|T]) ->
is_TerminationID(H) andalso is_MuxDescriptor_termList(T);
is_MuxDescriptor_termList(_) ->
false.
chk_MuxDescriptor(D, D) ->
chk_type(fun is_MuxDescriptor/1, 'MuxDescriptor', D);
chk_MuxDescriptor(#'MuxDescriptor'{muxType = MT1,
termList = TL1,
nonStandardData = NSD1},
#'MuxDescriptor'{muxType = MT2,
termList = TL2,
nonStandardData = NSD2}) ->
validate(fun() -> chk_MuxType(MT1, MT2) end, 'MuxDescriptor'),
chk_MuxDescriptor_termList(TL1, TL2),
validate(fun() -> chk_NonStandardData(NSD1, NSD2) end, 'MuxDescriptor'),
ok;
chk_MuxDescriptor(D1, D2) ->
wrong_type('MuxDescriptor', D1, D2).
chk_MuxDescriptor_termList([], []) ->
ok;
chk_MuxDescriptor_termList([] = TL1, TL2) ->
not_equal('MuxDescriptor_termList', TL1, TL2);
chk_MuxDescriptor_termList(TL1, [] = TL2) ->
not_equal('MuxDescriptor_termList', TL1, TL2);
chk_MuxDescriptor_termList([H|T1], [H|T2]) ->
case is_TerminationID(H) of
true ->
chk_MuxDescriptor_termList(T1, T2);
false ->
wrong_type('MuxDescriptor_termList_val', H)
end;
chk_MuxDescriptor_termList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_TerminationID(H1, H2) end,
'MuxDescriptor_termList_val'),
chk_MuxDescriptor_termList(T1, T2);
chk_MuxDescriptor_termList(TL1, TL2) ->
wrong_type('MuxDescriptor_termList', TL1, TL2).
%% -- MuxType --
is_MuxType(MT) ->
lists:member(MT, [h221, h223, h226, v76, nx64k]).
chk_MuxType(MT, MT) ->
chk_type(fun is_MuxType/1, 'MuxType', MT);
chk_MuxType(MT1, MT2) ->
case (is_MuxType(MT1) andalso is_MuxType(MT2)) of
true ->
not_equal('MuxType', MT1, MT2);
false ->
wrong_type('MuxType', MT1, MT2)
end.
%% -- StreamID --
is_opt_StreamID(asn1_NOVALUE) ->
true;
is_opt_StreamID(V) ->
is_StreamID(V).
is_StreamID(V) -> is_INTEGER(V, {range, 0, 65535}).
chk_opt_StreamID(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_StreamID(V1, V2) ->
chk_StreamID(V1, V2).
chk_StreamID(ID, ID) ->
chk_type(fun is_StreamID/1, 'StreamID', ID);
chk_StreamID(ID1, ID2) ->
case (is_StreamID(ID1) andalso is_StreamID(ID2)) of
true ->
not_equal('StreamID', ID1, ID2);
false ->
wrong_type('StreamID', ID1, ID2)
end.
%% -- EventsDescriptor --
is_EventsDescriptor(#'EventsDescriptor'{requestID = RID,
eventList = EVL}) ->
d("is_EventsDescriptor -> entry with"
"~n RID: ~p"
"~n EVL: ~p", [RID, EVL]),
is_opt_RequestID(RID) andalso is_EventsDescriptor_eventList(EVL);
is_EventsDescriptor(_) ->
false.
is_EventsDescriptor_eventList([]) ->
true;
is_EventsDescriptor_eventList([H|T]) ->
is_RequestedEvent(H) andalso is_EventsDescriptor_eventList(T);
is_EventsDescriptor_eventList(_) ->
false.
chk_EventsDescriptor(D, D) ->
chk_type(fun is_EventsDescriptor/1, 'EventsDescriptor', D);
chk_EventsDescriptor(#'EventsDescriptor'{requestID = RID1,
eventList = EVL1},
#'EventsDescriptor'{requestID = RID2,
eventList = EVL2}) ->
validate(fun() -> chk_opt_RequestID(RID1, RID2) end, 'EventsDescriptor'),
chk_EventsDescriptor_eventList(EVL1, EVL2),
ok;
chk_EventsDescriptor(D1, D2) ->
wrong_type('EventsDescriptor', D1, D2).
chk_EventsDescriptor_eventList([], []) ->
ok;
chk_EventsDescriptor_eventList([] = EVL1, EVL2) ->
not_equal('EventsDescriptor_eventList', EVL1, EVL2);
chk_EventsDescriptor_eventList(EVL1, [] = EVL2) ->
not_equal('EventsDescriptor_eventList', EVL1, EVL2);
chk_EventsDescriptor_eventList([H|T1], [H|T2]) ->
case is_RequestedEvent(H) of
true ->
chk_EventsDescriptor_eventList(T1, T2);
false ->
wrong_type('EventsDescriptor_eventList_val', H)
end;
chk_EventsDescriptor_eventList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_RequestedEvent(H1, H2) end,
'EventsDescriptor_eventList_val'),
chk_EventsDescriptor_eventList(T1, T2);
chk_EventsDescriptor_eventList(EVL1, EVL2) ->
wrong_type('EventsDescriptor_eventList', EVL1, EVL2).
%% -- RequestedEvent --
is_RequestedEvent(#'RequestedEvent'{pkgdName = N,
streamID = SID,
eventAction = EA,
evParList = EPL}) ->
d("is_RequestedEvent -> entry with"
"~n N: ~p"
"~n SID: ~p"
"~n EA: ~p"
"~n EPL: ~p", [N, SID, EA, EPL]),
is_PkgdName(N) andalso
is_opt_StreamID(SID) andalso
is_opt_RequestedActions(EA) andalso
is_RequestedEvent_evParList(EPL);
is_RequestedEvent(_) ->
false.
is_RequestedEvent_evParList([]) ->
true;
is_RequestedEvent_evParList([H|T]) ->
is_EventParameter(H) andalso is_RequestedEvent_evParList(T);
is_RequestedEvent_evParList(_) ->
false.
chk_RequestedEvent(RE, RE) ->
chk_type(fun is_RequestedEvent/1, 'RequestedEvent', RE);
chk_RequestedEvent(#'RequestedEvent'{pkgdName = N1,
streamID = SID1,
eventAction = EA1,
evParList = EPL1},
#'RequestedEvent'{pkgdName = N2,
streamID = SID2,
eventAction = EA2,
evParList = EPL2}) ->
validate(fun() -> chk_PkgdName(N1, N2) end, 'RequestedEvent'),
validate(fun() -> chk_opt_StreamID(SID1, SID2) end, 'RequestedEvent'),
validate(fun() -> chk_opt_RequestedActions(EA1, EA2) end,
'RequestedEvent'),
chk_RequestedEvent_evParList(EPL1, EPL2),
ok;
chk_RequestedEvent(RE1, RE2) ->
wrong_type('RequestedEvent', RE1, RE2).
chk_RequestedEvent_evParList([], []) ->
ok;
chk_RequestedEvent_evParList([] = EPL1, EPL2) ->
not_equal('RequestedEvent_evParList', EPL1, EPL2);
chk_RequestedEvent_evParList(EPL1, [] = EPL2) ->
not_equal('RequestedEvent_evParList', EPL1, EPL2);
chk_RequestedEvent_evParList([H|T1], [H|T2]) ->
case is_EventParameter(H) of
true ->
chk_RequestedEvent_evParList(T1, T2);
false ->
wrong_type('RequestedEvent_evParList_val', H)
end;
chk_RequestedEvent_evParList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_EventParameter(H1, H2) end,
'RequestedEvent_evParList_val'),
chk_RequestedEvent_evParList(T1, T2);
chk_RequestedEvent_evParList(EPL1, EPL2) ->
wrong_type('RequestedEvent_evParList', EPL1, EPL2).
%% -- RequestedActions --
is_opt_RequestedActions(asn1_NOVALUE) ->
true;
is_opt_RequestedActions(RA) ->
is_RequestedActions(RA).
is_RequestedActions(#'RequestedActions'{keepActive = KA,
eventDM = EDM,
secondEvent = SE,
signalsDescriptor = SD}) ->
d("is_RequestedActions -> entry with"
"~n KA: ~p"
"~n EDM: ~p"
"~n SE: ~p"
"~n SD: ~p", [KA, EDM, SE, SD]),
is_opt_BOOLEAN(KA) andalso
is_opt_EventDM(EDM) andalso
is_opt_SecondEventsDescriptor(SE) andalso
is_opt_SignalsDescriptor(SD);
is_RequestedActions(_) ->
false.
chk_opt_RequestedActions(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_RequestedActions(RA1, RA2) ->
chk_RequestedActions(RA1, RA2).
chk_RequestedActions(RA, RA) ->
chk_type(fun is_RequestedActions/1, 'RequestedActions', RA);
chk_RequestedActions(#'RequestedActions'{keepActive = KA1,
eventDM = EDM1,
secondEvent = SA1,
signalsDescriptor = SD1},
#'RequestedActions'{keepActive = KA2,
eventDM = EDM2,
secondEvent = SA2,
signalsDescriptor = SD2}) ->
validate(fun() -> chk_opt_BOOLEAN(KA1, KA2) end, 'RequestedActions'),
validate(fun() -> chk_opt_EventDM(EDM1, EDM2) end, 'RequestedActions'),
validate(fun() -> chk_opt_SecondEventsDescriptor(SA1, SA2) end,
'RequestedActions'),
validate(fun() -> chk_opt_SignalsDescriptor(SD1, SD2) end,
'RequestedActions'),
ok;
chk_RequestedActions(RA1, RA2) ->
wrong_type('RequestedActions', RA1, RA2).
%% -- EventDM --
is_opt_EventDM(EDM) ->
is_OPTIONAL(fun is_EventDM/1, EDM).
is_EventDM({Tag, Val}) ->
is_EventDM_tag(Tag) andalso is_EventDM_val(Tag, Val);
is_EventDM(_) ->
false.
is_EventDM_tag(Tag) ->
Tags = [digitMapName, digitMapValue],
lists:member(Tag, Tags).
is_EventDM_val(digitMapName, Val) ->
is_DigitMapName(Val);
is_EventDM_val(digitMapValue, Val) ->
is_DigitMapValue(Val).
chk_opt_EventDM(EDM1, EDM2) ->
chk_OPTIONAL('EventDM', EDM1, EDM2, fun is_EventDM/1, fun chk_EventDM/2).
chk_EventDM(EDM, EDM) ->
chk_type(fun is_EventDM/1, 'EventDM', EDM);
chk_EventDM({Tag, Val1} = EDM1, {Tag, Val2} = EDM2) ->
case (is_EventDM_tag(Tag) andalso
is_EventDM_val(Tag, Val1) andalso
is_EventDM_val(Tag, Val2)) of
true ->
chk_EventDM_val(Tag, Val1, Val2);
false ->
wrong_type('EventDM', EDM1, EDM2)
end;
chk_EventDM({Tag1, Val1} = EDM1, {Tag2, Val2} = EDM2) ->
case ((is_EventDM_tag(Tag1) andalso
is_EventDM_val(Tag1, Val1)) andalso
(is_EventDM_tag(Tag2) andalso
is_EventDM_val(Tag2, Val2))) of
true ->
not_equal('EventDM', EDM1, EDM2);
false ->
wrong_type('EventDM', EDM1, EDM2)
end;
chk_EventDM(EDM1, EDM2) ->
wrong_type('EventDM', EDM1, EDM2).
chk_EventDM_val(digitMapName, Val1, Val2) ->
validate(fun() -> chk_DigitMapName(Val1, Val2) end, 'EventDM');
chk_EventDM_val(digitMapValue, Val1, Val2) ->
validate(fun() -> chk_DigitMapValue(Val1, Val2) end, 'EventDM').
%% -- SecondEventsDescriptor --
is_opt_SecondEventsDescriptor(asn1_NOVALUE) ->
true;
is_opt_SecondEventsDescriptor(D) ->
is_SecondEventsDescriptor(D).
is_SecondEventsDescriptor(#'SecondEventsDescriptor'{requestID = RID,
eventList = EL}) ->
is_opt_RequestID(RID) andalso is_SecondEventsDescriptor_eventList(EL);
is_SecondEventsDescriptor(_) ->
false.
is_SecondEventsDescriptor_eventList([]) ->
true;
is_SecondEventsDescriptor_eventList([H|T]) ->
is_SecondRequestedEvent(H) andalso is_SecondEventsDescriptor_eventList(T);
is_SecondEventsDescriptor_eventList(_) ->
false.
chk_opt_SecondEventsDescriptor(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_SecondEventsDescriptor(D1, D2) ->
chk_SecondEventsDescriptor(D1, D2).
chk_SecondEventsDescriptor(D, D) ->
chk_type(fun is_SecondEventsDescriptor/1, 'SecondEventsDescriptor', D);
chk_SecondEventsDescriptor(#'SecondEventsDescriptor'{requestID = RID1,
eventList = EL1},
#'SecondEventsDescriptor'{requestID = RID2,
eventList = EL2}) ->
validate(fun() -> chk_opt_RequestID(RID1, RID2) end,
'SecondEventsDescriptor'),
chk_SecondEventsDescriptor_eventList(EL1, EL2),
ok;
chk_SecondEventsDescriptor(D1, D2) ->
wrong_type('SecondEventsDescriptor', D1, D2).
chk_SecondEventsDescriptor_eventList([], []) ->
ok;
chk_SecondEventsDescriptor_eventList([] = EL1, EL2) ->
not_equal('SecondEventsDescriptor_eventList', EL1, EL2);
chk_SecondEventsDescriptor_eventList(EL1, [] = EL2) ->
not_equal('SecondEventsDescriptor_eventList', EL1, EL2);
chk_SecondEventsDescriptor_eventList([H|T1], [H|T2]) ->
case is_SecondRequestedEvent(H) of
true ->
chk_SecondEventsDescriptor_eventList(T1, T2);
false ->
wrong_type('SecondEventsDescriptor_eventList_val', H)
end;
chk_SecondEventsDescriptor_eventList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_SecondRequestedEvent(H1, H2) end,
'SecondEventsDescriptor_eventList_val'),
chk_SecondEventsDescriptor_eventList(T1, T2);
chk_SecondEventsDescriptor_eventList(L1, L2) ->
wrong_type('SecondEventsDescriptor_eventList_val', L1, L2).
%% -- SecondRequestedEvent --
is_SecondRequestedEvent(#'SecondRequestedEvent'{pkgdName = N,
streamID = SID,
eventAction = EA,
evParList = EPL}) ->
is_PkgdName(N) andalso
is_opt_StreamID(SID) andalso
is_opt_SecondRequestedActions(EA) andalso
is_SecondRequestedEvent_evParList(EPL);
is_SecondRequestedEvent(_) ->
false.
is_SecondRequestedEvent_evParList([]) ->
true;
is_SecondRequestedEvent_evParList([H|T]) ->
is_EventParameter(H) andalso is_SecondRequestedEvent_evParList(T);
is_SecondRequestedEvent_evParList(_) ->
false.
chk_SecondRequestedEvent(RE, RE) ->
chk_type(fun is_SecondRequestedEvent/1, 'SecondRequestedEvent', RE);
chk_SecondRequestedEvent(#'SecondRequestedEvent'{pkgdName = N1,
streamID = SID1,
eventAction = EA1,
evParList = EPL1},
#'SecondRequestedEvent'{pkgdName = N2,
streamID = SID2,
eventAction = EA2,
evParList = EPL2}) ->
validate(fun() -> chk_PkgdName(N1, N2) end, 'SecondRequestedEvent'),
validate(fun() -> chk_opt_StreamID(SID1, SID2) end,
'SecondRequestedEvent'),
validate(fun() -> chk_opt_SecondRequestedActions(EA1, EA2) end,
'SecondRequestedEvent'),
chk_SecondRequestedEvent_evParList(EPL1, EPL2),
ok;
chk_SecondRequestedEvent(RE1, RE2) ->
wrong_type('SecondRequestedEvent', RE1, RE2).
chk_SecondRequestedEvent_evParList([], []) ->
ok;
chk_SecondRequestedEvent_evParList([] = EPL1, EPL2) ->
not_equal('SecondRequestedEvent_evParList', EPL1, EPL2);
chk_SecondRequestedEvent_evParList(EPL1, [] = EPL2) ->
not_equal('SecondRequestedEvent_evParList', EPL1, EPL2);
chk_SecondRequestedEvent_evParList([H|T1], [H|T2]) ->
case is_EventParameter(H) of
true ->
chk_SecondRequestedEvent_evParList(T1, T2);
false ->
wrong_type('SecondRequestedEvent_evParList_val', H)
end;
chk_SecondRequestedEvent_evParList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_EventParameter(H1, H2) end,
'SecondRequestedEvent_evParList_val'),
chk_SecondRequestedEvent_evParList(T1, T2);
chk_SecondRequestedEvent_evParList(EPL1, EPL2) ->
wrong_type('SecondRequestedEvent_evParList', EPL1, EPL2).
%% -- SecondRequestedActions --
is_opt_SecondRequestedActions(asn1_NOVALUE) ->
true;
is_opt_SecondRequestedActions(SRA) ->
is_SecondRequestedActions(SRA).
is_SecondRequestedActions(#'SecondRequestedActions'{keepActive = KA,
eventDM = EDM,
signalsDescriptor = SD}) ->
is_opt_BOOLEAN(KA) andalso
is_opt_EventDM(EDM) andalso
is_opt_SignalsDescriptor(SD);
is_SecondRequestedActions(_) ->
false.
chk_opt_SecondRequestedActions(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_SecondRequestedActions(SRA1, SRA2) ->
chk_SecondRequestedActions(SRA1, SRA2).
chk_SecondRequestedActions(SRA, SRA) ->
chk_type(fun is_SecondRequestedActions/1, 'SecondRequestedActions', SRA);
chk_SecondRequestedActions(
#'SecondRequestedActions'{keepActive = KA1,
eventDM = EDM1,
signalsDescriptor = SD1},
#'SecondRequestedActions'{keepActive = KA2,
eventDM = EDM2,
signalsDescriptor = SD2}) ->
validate(fun() -> chk_opt_BOOLEAN(KA1, KA2) end,
'SecondRequestedActions'),
validate(fun() -> chk_opt_EventDM(EDM1, EDM2) end,
'SecondRequestedActions'),
validate(fun() -> chk_opt_SignalsDescriptor(SD1, SD2) end,
'SecondRequestedActions'),
ok;
chk_SecondRequestedActions(SRA1, SRA2) ->
wrong_type('SecondRequestedActions', SRA1, SRA2).
%% -- EventBufferDescriptor --
is_EventBufferDescriptor([]) ->
true;
is_EventBufferDescriptor([H|T]) ->
is_EventSpec(H) andalso is_EventBufferDescriptor(T);
is_EventBufferDescriptor(_) ->
false.
chk_EventBufferDescriptor([], []) ->
ok;
chk_EventBufferDescriptor([] = D1, D2) ->
not_equal('EventBufferDescriptor', D1, D2);
chk_EventBufferDescriptor(D1, [] = D2) ->
not_equal('EventBufferDescriptor', D1, D2);
chk_EventBufferDescriptor([H|T1], [H|T2]) ->
case is_EventSpec(H) of
true ->
chk_EventBufferDescriptor(T1, T2);
false ->
wrong_type('EventBufferDescriptor_val', H)
end;
chk_EventBufferDescriptor([H1|T1], [H2|T2]) ->
validate(fun() -> chk_EventSpec(H1, H2) end,
'EventBufferDescriptor_val'),
chk_EventBufferDescriptor(T1, T2);
chk_EventBufferDescriptor(D1, D2) ->
wrong_type('EventBufferDescriptor_val', D1, D2).
%% -- EventSpec --
is_EventSpec(#'EventSpec'{eventName = N,
streamID = SID,
eventParList = EPL}) ->
is_EventName(N) andalso
is_opt_StreamID(SID) andalso
is_EventSpec_eventParList(EPL);
is_EventSpec(_) ->
false.
is_EventSpec_eventParList([]) ->
true;
is_EventSpec_eventParList([H|T]) ->
is_EventParameter(H) andalso is_EventSpec_eventParList(T);
is_EventSpec_eventParList(_) ->
false.
chk_EventSpec(ES, ES) ->
chk_type(fun is_EventSpec/1, 'EventSpec', ES);
chk_EventSpec(#'EventSpec'{eventName = N1,
streamID = SID1,
eventParList = EPL1},
#'EventSpec'{eventName = N2,
streamID = SID2,
eventParList = EPL2}) ->
validate(fun() -> chk_EventName(N1, N2) end, 'EventSpec'),
validate(fun() -> chk_opt_StreamID(SID1, SID2) end, 'EventSpec'),
chk_EventSpec_eventParList(EPL1, EPL2),
ok;
chk_EventSpec(ES1, ES2) ->
wrong_type('EventSpec', ES1, ES2).
chk_EventSpec_eventParList([], []) ->
ok;
chk_EventSpec_eventParList([] = EPL1, EPL2) ->
not_equal('EventSpec_eventParList', EPL1, EPL2);
chk_EventSpec_eventParList(EPL1, [] = EPL2) ->
not_equal('EventSpec_eventParList', EPL1, EPL2);
chk_EventSpec_eventParList([H|T1], [H|T2]) ->
case is_EventParameter(H) of
true ->
chk_EventSpec_eventParList(T1, T2);
false ->
wrong_type('EventSpec_eventParList_val', H)
end;
chk_EventSpec_eventParList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_EventParameter(H1, H2) end,
'EventSpec_eventParList_val'),
chk_EventSpec_eventParList(T1, T2);
chk_EventSpec_eventParList(EPL1, EPL2) ->
wrong_type('EventSpec_eventParList', EPL1, EPL2).
%% -- SignalsDescriptor --
is_opt_SignalsDescriptor(asn1_NOVALUE) ->
true;
is_opt_SignalsDescriptor(D) ->
is_SignalsDescriptor(D).
is_SignalsDescriptor([]) ->
true;
is_SignalsDescriptor([H|T]) ->
is_SignalRequest(H) andalso is_SignalsDescriptor(T);
is_SignalsDescriptor(_) ->
false.
chk_opt_SignalsDescriptor(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_SignalsDescriptor(D1, D2) ->
chk_SignalsDescriptor(D1, D2).
chk_SignalsDescriptor([], []) ->
ok;
chk_SignalsDescriptor([] = D1, D2) ->
not_equal('SignalsDescriptor', D1, D2);
chk_SignalsDescriptor(D1, [] = D2) ->
not_equal('SignalsDescriptor', D1, D2);
chk_SignalsDescriptor([H|T1], [H|T2]) ->
case is_SignalRequest(H) of
true ->
chk_SignalsDescriptor(T1, T2);
false ->
wrong_type('SignalsDescriptor_val', H)
end;
chk_SignalsDescriptor([H1|T1], [H2|T2]) ->
validate(fun() -> chk_SignalRequest(H1, H2) end, 'SignalsDescriptor_val'),
chk_SignalsDescriptor(T1, T2);
chk_SignalsDescriptor(D1, D2) ->
wrong_type('SignalsDescriptor', D1, D2).
%% -- SignalRequest --
is_SignalRequest({Tag, Val}) ->
is_SignalRequest_tag(Tag) andalso is_SignalRequest_val(Tag, Val);
is_SignalRequest(_) ->
false.
is_SignalRequest_tag(Tag) ->
Tags = [signal, seqSigList],
lists:member(Tag, Tags).
is_SignalRequest_val(signal, Val) ->
is_Signal(Val);
is_SignalRequest_val(seqSigList, Val) ->
is_SeqSigList(Val).
chk_SignalRequest(R, R) ->
chk_type(fun is_SignalRequest/1, 'SignalRequest', R);
chk_SignalRequest({Tag, Val1} = R1, {Tag, Val2} = R2) ->
case (is_SignalRequest_tag(Tag) andalso
is_SignalRequest_val(Tag, Val1) andalso
is_SignalRequest_val(Tag, Val2)) of
true ->
chk_SignalRequest_val(Tag, Val1, Val2);
false ->
wrong_type('SignalRequest', R1, R2)
end;
chk_SignalRequest({Tag1, Val1} = R1, {Tag2, Val2} = R2) ->
case ((is_SignalRequest_tag(Tag1) andalso
is_SignalRequest_val(Tag1, Val1)) andalso
(is_SignalRequest_tag(Tag2) andalso
is_SignalRequest_val(Tag2, Val2))) of
true ->
not_equal('SignalRequest', R1, R2);
false ->
wrong_type('SignalRequest', R1, R2)
end;
chk_SignalRequest(R1, R2) ->
wrong_type('SignalRequest', R1, R2).
chk_SignalRequest_val(signal, Val1, Val2) ->
validate(fun() -> chk_Signal(Val1, Val2) end, 'SignalRequest');
chk_SignalRequest_val(seqSigList, Val1, Val2) ->
validate(fun() -> chk_SeqSigList(Val1, Val2) end, 'SignalRequest').
%% -- SeqSigList --
is_SeqSigList(#'SeqSigList'{id = ID,
signalList = SL}) ->
is_INTEGER(ID, {range, 0, 65535}) andalso
is_SeqSigList_signalList(SL);
is_SeqSigList(_) ->
false.
is_SeqSigList_signalList([]) ->
true;
is_SeqSigList_signalList([H|T]) ->
is_Signal(H) andalso is_SeqSigList_signalList(T);
is_SeqSigList_signalList(_) ->
false.
chk_SeqSigList(L, L) ->
chk_type(fun is_SeqSigList/1, 'SeqSigList', L);
chk_SeqSigList(#'SeqSigList'{id = ID1,
signalList = SL1},
#'SeqSigList'{id = ID2,
signalList = SL2}) ->
validate(fun() -> chk_INTEGER(ID1, ID2, {range, 0, 65535}) end,
'SeqSigList'),
chk_SeqSigList_signalList(SL1, SL2),
ok;
chk_SeqSigList(L1, L2) ->
wrong_type('SeqSigList', L1, L2).
chk_SeqSigList_signalList([], []) ->
ok;
chk_SeqSigList_signalList([] = L1, L2) ->
not_equal('SeqSigList_signalList', L1, L2);
chk_SeqSigList_signalList(L1, [] = L2) ->
not_equal('SeqSigList_signalList', L1, L2);
chk_SeqSigList_signalList([H|T1], [H|T2]) ->
case is_Signal(H) of
true ->
chk_SeqSigList_signalList(T1, T2);
false ->
wrong_type('SeqSigList_signalList_val', H)
end;
chk_SeqSigList_signalList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_Signal(H1, H2) end,
'SeqSigList_signalList_val'),
chk_SeqSigList_signalList(T1, T2);
chk_SeqSigList_signalList(L1, L2) ->
wrong_type('SeqSigList_signalList', L1, L2).
%% -- Signal --
is_Signal(#'Signal'{signalName = N,
streamID = SID,
sigType = ST,
duration = Dur,
notifyCompletion = NC,
keepActive = KA,
sigParList = SPL}) ->
is_SignalName(N) andalso
is_opt_StreamID(SID) andalso
is_opt_SignalType(ST) andalso
is_opt_INTEGER(Dur, {range, 0, 65535}) andalso
is_opt_NotifyCompletion(NC) andalso
is_opt_BOOLEAN(KA) andalso
is_Signal_sigParList(SPL).
is_Signal_sigParList([]) ->
true;
is_Signal_sigParList([H|T]) ->
is_SigParameter(H) andalso is_Signal_sigParList(T);
is_Signal_sigParList(_) ->
false.
chk_Signal(S, S) ->
chk_type(fun is_Signal/1, 'Signal', S);
chk_Signal(#'Signal'{signalName = N1,
streamID = SID1,
sigType = ST1,
duration = Dur1,
notifyCompletion = NC1,
keepActive = KA1,
sigParList = SPL1},
#'Signal'{signalName = N2,
streamID = SID2,
sigType = ST2,
duration = Dur2,
notifyCompletion = NC2,
keepActive = KA2,
sigParList = SPL2}) ->
validate(fun() -> chk_SignalName(N1, N2) end, 'Signal'),
validate(fun() -> chk_opt_StreamID(SID1, SID2) end, 'Signal'),
validate(fun() -> chk_opt_SignalType(ST1, ST2) end, 'Signal'),
validate(fun() -> chk_opt_INTEGER(Dur1, Dur2, {range, 0, 65535}) end,
'Signal'),
validate(fun() -> chk_opt_NotifyCompletion(NC1, NC2) end, 'Signal'),
validate(fun() -> chk_opt_BOOLEAN(KA1, KA2) end, 'Signal'),
chk_Signal_sigParList(SPL1, SPL2),
ok;
chk_Signal(S1, S2) ->
wrong_type('Signal', S1, S2).
chk_Signal_sigParList([], []) ->
ok;
chk_Signal_sigParList([] = L1, L2) ->
not_equal('Signal_sigParList', L1, L2);
chk_Signal_sigParList(L1, [] = L2) ->
not_equal('Signal_sigParList', L1, L2);
chk_Signal_sigParList([H|T1], [H|T2]) ->
case is_SigParameter(H) of
true ->
chk_Signal_sigParList(T1, T2);
false ->
wrong_type('Signal_sigParList_val', H)
end;
chk_Signal_sigParList([H1|T1], [H2|T2]) ->
validate(fun() -> chk_SigParameter(H1, H2) end,
'Signal_sigParList_val'),
chk_Signal_sigParList(T1, T2);
chk_Signal_sigParList(L1, L2) ->
wrong_type('Signal_sigParList', L1, L2).
%% -- SignalType --
is_opt_SignalType(asn1_NOVALUE) ->
true;
is_opt_SignalType(T) ->
is_SignalType(T).
is_SignalType(T) ->
Types = [brief, onOff, timeOut],
lists:member(T, Types).
chk_opt_SignalType(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_SignalType(T1, T2) ->
chk_SignalType(T1, T2).
chk_SignalType(T, T) ->
chk_type(fun is_SignalType/1, 'SignalType', T);
chk_SignalType(T1, T2) ->
case (is_SignalType(T1) andalso is_SignalType(T2)) of
true ->
not_equal('SignalType', T1, T2);
false ->
wrong_type('SignalType', T1, T2)
end.
%% -- SignalName --
is_SignalName(N) -> is_PkgdName(N).
chk_SignalName(N1, N2) ->
validate(fun() -> chk_PkgdName(N1, N2) end, 'SignalName').
%% -- NotifyCompletion --
is_opt_NotifyCompletion(NC) ->
is_OPTIONAL(fun is_NotifyCompletion/1, NC).
is_NotifyCompletion(NC) ->
Valids = [onTimeOut,
onInterruptByEvent,
onInterruptByNewSignalDescr,
otherReason],
lists:member(NC, Valids).
chk_opt_NotifyCompletion(NC1, NC2) ->
chk_OPTIONAL('NotifyCompletion', NC1, NC2,
fun is_NotifyCompletion/1,
fun chk_NotifyCompletion/2).
chk_NotifyCompletion(NC, NC) ->
chk_type(fun is_NotifyCompletion/1, 'NotifyCompletion', NC);
chk_NotifyCompletion(NC1, NC2) ->
case (is_NotifyCompletion(NC1) andalso is_NotifyCompletion(NC2)) of
true ->
not_equal('NotifyCompletion', NC1, NC2);
false ->
wrong_type('NotifyCompletion', NC1, NC2)
end.
%% -- SigParameter --
is_SigParameter(#'SigParameter'{sigParameterName = N,
value = V,
extraInfo = I}) ->
is_Name(N) andalso
is_Value(V) andalso
is_SigParameter_extraInfo(I);
is_SigParameter(_) ->
false.
is_SigParameter_extraInfo({Tag, Val}) ->
is_SigParameter_extraInfo_tag(Tag) andalso
is_SigParameter_extraInfo_val(Tag, Val);
is_SigParameter_extraInfo(_) ->
false.
is_SigParameter_extraInfo_tag(Tag) ->
Tags = [relation, range, sublist],
lists:member(Tag, Tags).
is_SigParameter_extraInfo_val(relation, Val) ->
is_Relation(Val);
is_SigParameter_extraInfo_val(range, Val) ->
is_BOOLEAN(Val);
is_SigParameter_extraInfo_val(sublist, Val) ->
is_BOOLEAN(Val).
chk_SigParameter(P, P) ->
chk_type(fun is_SigParameter/1, 'SigParameter', P);
chk_SigParameter(#'SigParameter'{sigParameterName = N1,
value = V1,
extraInfo = I1},
#'SigParameter'{sigParameterName = N2,
value = V2,
extraInfo = I2}) ->
validate(fun() -> chk_Name(N1, N2) end, 'SigParameter'),
validate(fun() -> chk_Value(V1, V2) end, 'SigParameter'),
chk_SigParameter_extraInfo(I1, I2),
ok;
chk_SigParameter(P1, P2) ->
wrong_type('SigParameter', P1, P2).
chk_SigParameter_extraInfo(EI, EI) ->
chk_type(fun is_SigParameter_extraInfo/1, 'SigParameter_extraInfo', EI);
chk_SigParameter_extraInfo({Tag, Val1} = EI1, {Tag, Val2} = EI2) ->
case (is_SigParameter_extraInfo_tag(Tag) and
is_SigParameter_extraInfo_val(Tag, Val1) and
is_SigParameter_extraInfo_val(Tag, Val2)) of
true ->
chk_SigParameter_extraInfo_val(Tag, Val1, Val2);
false ->
wrong_type('SigParameter_extraInfo', EI1, EI2)
end;
chk_SigParameter_extraInfo({Tag1, Val1} = EI1, {Tag2, Val2} = EI2) ->
case ((is_SigParameter_extraInfo_tag(Tag1) and
is_SigParameter_extraInfo_val(Tag1, Val1)) and
(is_SigParameter_extraInfo_tag(Tag2) and
is_SigParameter_extraInfo_val(Tag2, Val2))) of
true ->
not_equal('SigParameter_extraInfo', EI1, EI2);
false ->
wrong_type('SigParameter_extraInfo', EI1, EI2)
end;
chk_SigParameter_extraInfo(EI1, EI2) ->
wrong_type('SigParameter_extraInfo', EI1, EI2).
chk_SigParameter_extraInfo_val(relation, Val1, Val2) ->
validate(fun() -> chk_Relation(Val1, Val2) end, 'SigParameter_extraInfo');
chk_SigParameter_extraInfo_val(range, Val1, Val2) ->
validate(fun() -> chk_BOOLEAN(Val1, Val2) end, 'SigParameter_extraInfo');
chk_SigParameter_extraInfo_val(sublist, Val1, Val2) ->
validate(fun() -> chk_BOOLEAN(Val1, Val2) end, 'SigParameter_extraInfo').
%% -- RequestID --
is_opt_RequestID(asn1_NOVALUE) ->
true;
is_opt_RequestID(V) ->
is_RequestID(V).
is_RequestID(V) -> is_INTEGER(V, {range, 0, 4294967295}).
chk_opt_RequestID(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_RequestID(V1, V2) ->
chk_RequestID(V1, V2).
chk_RequestID(ID, ID) ->
chk_type(fun is_RequestID/1, 'RequestID', ID);
chk_RequestID(ID1, ID2) ->
case (is_RequestID(ID1) andalso is_RequestID(ID2)) of
true ->
not_equal('RequestID', ID1, ID2);
false ->
wrong_type('RequestID', ID1, ID2)
end.
%% -- ModemDescriptor --
is_ModemDescriptor(D) when is_record(D, 'ModemDescriptor') ->
true;
is_ModemDescriptor(_) ->
false.
chk_ModemDescriptor(D, D) when is_record(D, 'ModemDescriptor') ->
ok;
chk_ModemDescriptor(#'ModemDescriptor'{mtl = MTL1,
mpl = MPL1,
nonStandardData = NSD1},
#'ModemDescriptor'{mtl = MTL2,
mpl = MPL2,
nonStandardData = NSD2}) ->
chk_ModemDescriptor_mtl(MTL1, MTL2),
chk_ModemDescriptor_mpl(MPL1, MPL2),
chk_opt_NonStandardData(NSD1, NSD2),
ok;
chk_ModemDescriptor(D1, D2) ->
wrong_type('ModemDescriptor', D1, D2).
chk_ModemDescriptor_mtl([], []) ->
ok;
chk_ModemDescriptor_mtl([] = MTL1, MTL2) ->
not_equal('ModemDescriptor_mtl', MTL1, MTL2);
chk_ModemDescriptor_mtl(MTL1, [] = MTL2) ->
not_equal('ModemDescriptor_mtl', MTL1, MTL2);
chk_ModemDescriptor_mtl([H|T1], [H|T2]) ->
case is_ModemType(H) of
true ->
chk_ModemDescriptor_mtl(T1, T2);
false ->
wrong_type('ModemDescriptor_mtl_val', H)
end;
chk_ModemDescriptor_mtl([H1|T1], [H2|T2]) ->
validate(fun() -> chk_ModemType(H1, H2) end, 'ModemDescriptor_mtl_val'),
chk_ModemDescriptor_mtl(T1, T2);
chk_ModemDescriptor_mtl(MTL1, MTL2) ->
wrong_type('ModemDescriptor_mtl', MTL1, MTL2).
chk_ModemDescriptor_mpl([], []) ->
ok;
chk_ModemDescriptor_mpl([] = MPL1, MPL2) ->
not_equal('ModemDescriptor_mpl', MPL1, MPL2);
chk_ModemDescriptor_mpl(MPL1, [] = MPL2) ->
not_equal('ModemDescriptor_mpl', MPL1, MPL2);
chk_ModemDescriptor_mpl([H|T1], [H|T2]) ->
case is_PropertyParm(H) of
true ->
chk_ModemDescriptor_mpl(T1, T2);
false ->
wrong_type('ModemDescriptor_mpl_val', H)
end;
chk_ModemDescriptor_mpl([H1|T1], [H2|T2]) ->
validate(fun() -> chk_PropertyParm(H1, H2) end, 'ModemDescriptor_mpl_val'),
chk_ModemDescriptor_mpl(T1, T2);
chk_ModemDescriptor_mpl(MPL1, MPL2) ->
wrong_type('ModemDescriptor_mpl', MPL1, MPL2).
%% -- ModemType --
chk_ModemType(MT, MT) ->
case is_ModemType(MT) of
true ->
ok;
false ->
wrong_type('ModemType', MT, MT)
end;
chk_ModemType(MT1, MT2) ->
case (is_ModemType(MT1) andalso is_ModemType(MT2)) of
true ->
not_equal('ModemType', MT1, MT2);
false ->
wrong_type('ModemType', MT1, MT2)
end.
is_ModemType(MT) ->
lists:member(MT,
[v18, v22, v22bis, v32, v32bis, v34, v90, v91, synchISDN]).
%% -- DigitMapDescriptor --
is_DigitMapDescriptor(#'DigitMapDescriptor'{digitMapName = Name,
digitMapValue = Val}) ->
is_opt_DigitMapName(Name) andalso is_opt_DigitMapValue(Val);
is_DigitMapDescriptor(_) ->
false.
chk_DigitMapDescriptor(D, D) ->
chk_type(fun is_DigitMapDescriptor/1, 'DigitMapDescriptor', D);
chk_DigitMapDescriptor(#'DigitMapDescriptor'{digitMapName = Name1,
digitMapValue = Val1},
#'DigitMapDescriptor'{digitMapName = Name2,
digitMapValue = Val2}) ->
d("chk_DigitMapDescriptor -> entry with"
"~n Name1: ~p"
"~n Name2: ~p"
"~n Val1: ~p"
"~n Val2: ~p", [Name1, Name2, Val1, Val2]),
validate(fun() -> chk_opt_DigitMapName(Name1, Name2) end,
'DigitMapDescriptor'),
validate(fun() -> chk_opt_DigitMapValue(Val1, Val2) end,
'DigitMapDescriptor'),
ok;
chk_DigitMapDescriptor(D1, D2) ->
wrong_type('DigitMapDescriptor', D1, D2).
%% -- DigitMapName --
is_opt_DigitMapName(asn1_NOVALUE) ->
true;
is_opt_DigitMapName(N) ->
is_DigitMapName(N).
is_DigitMapName(N) -> is_Name(N).
chk_opt_DigitMapName(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_DigitMapName(N1, N2) ->
chk_DigitMapName(N1, N2).
chk_DigitMapName(N, N) ->
chk_type(fun is_DigitMapName/1, 'DigitMapName', N);
chk_DigitMapName(N1, N2) ->
case (is_DigitMapName(N1) andalso is_DigitMapName(N2)) of
true ->
not_equal('DigitMapName', N1, N2);
false ->
wrong_type('DigitMapName', N1, N2)
end.
%% -- DigitMapValue --
is_opt_DigitMapValue(V) ->
is_OPTIONAL(fun is_DigitMapValue/1, V).
is_DigitMapValue(#'DigitMapValue'{startTimer = Start,
shortTimer = Short,
longTimer = Long,
digitMapBody = Body,
durationTimer = Dur}) ->
is_DigitMapValue_startTimer(Start) andalso
is_DigitMapValue_shortTimer(Short) andalso
is_DigitMapValue_longTimer(Long) andalso
is_IA5String(Body) andalso
is_DigitMapValue_durationTimer(Dur);
is_DigitMapValue(_) ->
false.
is_DigitMapValue_startTimer(asn1_NOVALUE) -> true;
is_DigitMapValue_startTimer(T) -> is_INTEGER(T, {range, 0, 99}).
is_DigitMapValue_shortTimer(asn1_NOVALUE) -> true;
is_DigitMapValue_shortTimer(T) -> is_INTEGER(T, {range, 0, 99}).
is_DigitMapValue_longTimer(asn1_NOVALUE) -> true;
is_DigitMapValue_longTimer(T) -> is_INTEGER(T, {range, 0, 99}).
is_DigitMapValue_durationTimer(asn1_NOVALUE) -> true;
is_DigitMapValue_durationTimer(T) -> is_INTEGER(T, {range, 0, 99}).
chk_opt_DigitMapValue(V1, V2) ->
chk_OPTIONAL('DigitMapValue', V1, V2,
fun is_DigitMapValue/1, fun chk_DigitMapValue/2).
chk_DigitMapValue(#'DigitMapValue'{startTimer = Start1,
shortTimer = Short1,
longTimer = Long1,
digitMapBody = Body1,
durationTimer = Dur1},
#'DigitMapValue'{startTimer = Start2,
shortTimer = Short2,
longTimer = Long2,
digitMapBody = Body2,
durationTimer = Dur2}) ->
d("chk_DigitMapValue -> entry with"
"~n Start1: ~p"
"~n Start2: ~p"
"~n Short1: ~p"
"~n Short2: ~p"
"~n Long1: ~p"
"~n Long2: ~p"
"~n Body1: ~p"
"~n Body2: ~p"
"~n Dur1: ~p"
"~n Dur2: ~p", [Start1, Start2,
Short1, Short2,
Long1, Long2,
Body1, Body2,
Dur1, Dur2]),
chk_DigitMapValue_startTimer(Start1, Start2),
chk_DigitMapValue_shortTimer(Short1, Short2),
chk_DigitMapValue_longTimer(Long1, Long2),
chk_DigitMapValue_digitMapBody(Body1, Body2),
chk_DigitMapValue_durationTimer(Dur1, Dur2),
ok;
chk_DigitMapValue(V1, V2) ->
wrong_type('DigitMapValue', V1, V2).
chk_DigitMapValue_startTimer(T, T) ->
chk_type(fun is_DigitMapValue_startTimer/1, 'DigitMapValue_startTimer', T);
chk_DigitMapValue_startTimer(T1, T2) ->
case (is_DigitMapValue_startTimer(T1) andalso
is_DigitMapValue_startTimer(T2)) of
true ->
not_equal('DigitMapValue_startTimer', T1, T2);
false ->
wrong_type('DigitMapValue_startTimer', T1, T2)
end.
chk_DigitMapValue_shortTimer(T, T) ->
chk_type(fun is_DigitMapValue_shortTimer/1, 'DigitMapValue_shortTimer', T);
chk_DigitMapValue_shortTimer(T1, T2) ->
case (is_DigitMapValue_shortTimer(T1) andalso
is_DigitMapValue_shortTimer(T2)) of
true ->
not_equal('DigitMapValue_shortTimer', T1, T2);
false ->
wrong_type('DigitMapValue_shortTimer', T1, T2)
end.
chk_DigitMapValue_longTimer(T, T) ->
chk_type(fun is_DigitMapValue_longTimer/1, 'DigitMapValue_longTimer', T);
chk_DigitMapValue_longTimer(T1, T2) ->
case (is_DigitMapValue_longTimer(T1) andalso
is_DigitMapValue_longTimer(T2)) of
true ->
not_equal('DigitMapValue_longTimer', T1, T2);
false ->
wrong_type('DigitMapValue_longTimer', T1, T2)
end.
chk_DigitMapValue_durationTimer(T, T) ->
chk_type(fun is_DigitMapValue_durationTimer/1,
'DigitMapValue_durationTimer', T);
chk_DigitMapValue_durationTimer(T1, T2) ->
case (is_DigitMapValue_durationTimer(T1) andalso
is_DigitMapValue_durationTimer(T2)) of
true ->
not_equal('DigitMapValue_durationTimer', T1, T2);
false ->
wrong_type('DigitMapValue_durationTimer', T1, T2)
end.
chk_DigitMapValue_digitMapBody(B, B) ->
d("chk_DigitMapValue_digitMapBody -> entry with"
"~n B: ~p", [B]),
chk_type(fun is_IA5String/1, 'DigitMapValue_digitMapBody', B);
chk_DigitMapValue_digitMapBody(B1, B2) ->
d("chk_DigitMapValue_digitMapBody -> entry with"
"~n B1: ~p"
"~n B2: ~p", [B1, B2]),
case (is_IA5String(B1) andalso is_IA5String(B2)) of
true ->
%% If they are different it could be because
%% of trailing tab's and newline's.
case compare_strings(B1, B2) of
{[], []} ->
ok;
{Str1, []} ->
case strip_tab_and_newline(Str1) of
[] ->
ok;
_ ->
not_equal('DigitMapValue_digitMapBody', B1, B2)
end;
{[], Str2} ->
case strip_tab_and_newline(Str2) of
[] ->
ok;
_ ->
not_equal('DigitMapValue_digitMapBody', B1, B2)
end;
_ ->
not_equal('DigitMapValue_digitMapBody', B1, B2)
end;
false ->
wrong_type('DigitMapValue_digitMapBody', B1, B2)
end.
%% -- ServiceChangeParm --
is_ServiceChangeParm(#'ServiceChangeParm'{serviceChangeMethod = M,
serviceChangeAddress = A,
serviceChangeVersion = V,
serviceChangeProfile = P,
serviceChangeReason = R,
serviceChangeDelay = D,
serviceChangeMgcId = Id,
timeStamp = TS,
nonStandardData = NSD,
serviceChangeInfo = I}) ->
is_ServiceChangeMethod(M) andalso
is_opt_ServiceChangeAddress(A) andalso
is_opt_INTEGER(V, {range, 0, 99}) andalso
is_opt_ServiceChangeProfile(P) andalso
is_Value(R) andalso
is_opt_INTEGER(D, {range, 0, 4294967295}) andalso
is_opt_MId(Id) andalso
is_opt_TimeNotation(TS) andalso
is_opt_NonStandardData(NSD) andalso
is_opt_AuditDescriptor(I);
is_ServiceChangeParm(_) ->
false.
chk_ServiceChangeParm(P, P) ->
chk_type(fun is_ServiceChangeParm/1, 'ServiceChangeParm', P);
chk_ServiceChangeParm(#'ServiceChangeParm'{serviceChangeMethod = M1,
serviceChangeAddress = A1,
serviceChangeVersion = V1,
serviceChangeProfile = P1,
serviceChangeReason = R1,
serviceChangeDelay = D1,
serviceChangeMgcId = Id1,
timeStamp = TS1,
nonStandardData = NSD1,
serviceChangeInfo = I1},
#'ServiceChangeParm'{serviceChangeMethod = M2,
serviceChangeAddress = A2,
serviceChangeVersion = V2,
serviceChangeProfile = P2,
serviceChangeReason = R2,
serviceChangeDelay = D2,
serviceChangeMgcId = Id2,
timeStamp = TS2,
nonStandardData = NSD2,
serviceChangeInfo = I2}) ->
validate(fun() -> chk_ServiceChangeMethod(M1, M2) end,
'ServiceChangeParm'),
validate(fun() -> chk_opt_ServiceChangeAddress(A1, A2) end,
'ServiceChangeParm'),
validate(fun() -> chk_opt_INTEGER(V1, V2, {range, 0, 99}) end,
'ServiceChangeParm'),
validate(fun() -> chk_opt_ServiceChangeProfile(P1, P2) end,
'ServiceChangeParm'),
validate(fun() -> chk_Value(R1, R2) end,
'ServiceChangeParm'),
validate(fun() -> chk_opt_INTEGER(D1, D2, {range, 0, 4294967295}) end,
'ServiceChangeParm'),
validate(fun() -> chk_opt_MId(Id1, Id2) end,
'ServiceChangeParm'),
validate(fun() -> chk_opt_TimeNotation(TS1, TS2) end,
'ServiceChangeParm'),
validate(fun() -> chk_opt_NonStandardData(NSD1, NSD2) end,
'ServiceChangeParm'),
validate(fun() -> chk_opt_AuditDescriptor(I1, I2) end,
'ServiceChangeParm'),
ok;
chk_ServiceChangeParm(P1, P2) ->
wrong_type('ServiceChangeParm', P1, P2).
%% -- ServiceChangeAddress --
is_opt_ServiceChangeAddress(A) ->
is_OPTIONAL(fun is_ServiceChangeAddress/1, A).
is_ServiceChangeAddress({Tag, Val}) ->
is_ServiceChangeAddress_tag(Tag) andalso
is_ServiceChangeAddress_val(Tag, Val);
is_ServiceChangeAddress(_) ->
false.
is_ServiceChangeAddress_tag(Tag) ->
Tags = [portNumber, ip4Address, ip6Address, domainName, deviceName,
mtpAddress],
lists:member(Tag, Tags).
is_ServiceChangeAddress_val(portNumber, Val) ->
is_INTEGER(Val, {range, 0, 65535});
is_ServiceChangeAddress_val(ip4Address, Val) ->
is_IP4Address(Val);
is_ServiceChangeAddress_val(ip6Address, Val) ->
is_IP6Address(Val);
is_ServiceChangeAddress_val(domainName, Val) ->
is_DomainName(Val);
is_ServiceChangeAddress_val(deviceName, Val) ->
is_PathName(Val);
is_ServiceChangeAddress_val(mtpAddress, Val) ->
is_OCTET_STRING(Val, {range, 2, 4}).
chk_opt_ServiceChangeAddress(A1, A2) ->
chk_OPTIONAL('ServiceChangeAddress', A1, A2,
fun is_ServiceChangeAddress/1,
fun chk_ServiceChangeAddress/2).
chk_ServiceChangeAddress(A, A) ->
chk_type(fun is_ServiceChangeAddress/1, 'ServiceChangeAddress', A);
chk_ServiceChangeAddress({Tag, Val1} = A1, {Tag, Val2} = A2) ->
case (is_ServiceChangeAddress_tag(Tag) andalso
is_ServiceChangeAddress_val(Tag, Val1) andalso
is_ServiceChangeAddress_val(Tag, Val2)) of
true ->
chk_ServiceChangeAddress_val(Tag, Val1, Val2);
false ->
wrong_type('ServiceChangeAddress', A1, A2)
end;
chk_ServiceChangeAddress({Tag1, Val1} = A1, {Tag2, Val2} = A2) ->
case ((is_ServiceChangeAddress_tag(Tag1) andalso
is_ServiceChangeAddress_val(Tag1, Val1)) andalso
(is_ServiceChangeAddress_tag(Tag2) andalso
is_ServiceChangeAddress_val(Tag2, Val2))) of
true ->
not_equal('ServiceChangeAddress', A1, A2);
false ->
wrong_type('ServiceChangeAddress', A1, A2)
end;
chk_ServiceChangeAddress(A1, A2) ->
wrong_type('ServiceChangeAddress', A1, A2).
chk_ServiceChangeAddress_val(portNumber, Val1, Val2) ->
validate(fun() -> chk_INTEGER(Val1, Val2, {range, 0, 99}) end,
'ServiceChangeAddress');
chk_ServiceChangeAddress_val(ip4Address, Val1, Val2) ->
validate(fun() -> chk_IP4Address(Val1, Val2) end,
'ServiceChangeAddress');
chk_ServiceChangeAddress_val(ip6Address, Val1, Val2) ->
validate(fun() -> chk_IP6Address(Val1, Val2) end,
'ServiceChangeAddress');
chk_ServiceChangeAddress_val(domainName, Val1, Val2) ->
validate(fun() -> chk_DomainName(Val1, Val2) end,
'ServiceChangeAddress');
chk_ServiceChangeAddress_val(deviceName, Val1, Val2) ->
validate(fun() -> chk_PathName(Val1, Val2) end,
'ServiceChangeAddress');
chk_ServiceChangeAddress_val(mtpAddress, Val1, Val2) ->
validate(fun() -> chk_OCTET_STRING(Val1, Val2, {range, 2, 4}) end,
'ServiceChangeAddress').
%% -- ServiceChangeResParm --
is_ServiceChangeResParm(#'ServiceChangeResParm'{serviceChangeMgcId = Id,
serviceChangeAddress = A,
serviceChangeVersion = V,
serviceChangeProfile = P,
timeStamp = TS}) ->
is_opt_MId(Id) andalso
is_opt_ServiceChangeAddress(A) andalso
is_opt_INTEGER(V, {range, 0, 99}) andalso
is_opt_ServiceChangeProfile(P) andalso
is_opt_TimeNotation(TS);
is_ServiceChangeResParm(_) ->
false.
chk_ServiceChangeResParm(P, P) ->
chk_type(fun is_ServiceChangeResParm/1, 'ServiceChangeResParm', P);
chk_ServiceChangeResParm(
#'ServiceChangeResParm'{serviceChangeMgcId = Id1,
serviceChangeAddress = A1,
serviceChangeVersion = V1,
serviceChangeProfile = P1,
timeStamp = TS1},
#'ServiceChangeResParm'{serviceChangeMgcId = Id2,
serviceChangeAddress = A2,
serviceChangeVersion = V2,
serviceChangeProfile = P2,
timeStamp = TS2}) ->
validate(fun() -> chk_opt_MId(Id1, Id2) end, 'ServiceChangeResParm'),
validate(fun() -> chk_opt_ServiceChangeAddress(A1, A2) end,
'ServiceChangeResParm'),
validate(fun() -> chk_opt_INTEGER(V1, V2, {range, 0, 99}) end,
'ServiceChangeResParm'),
validate(fun() -> chk_opt_ServiceChangeProfile(P1, P2) end,
'ServiceChangeResParm'),
validate(fun() -> chk_opt_TimeNotation(TS1, TS2) end,
'ServiceChangeResParm'),
ok;
chk_ServiceChangeResParm(P1, P2) ->
wrong_type('ServiceChangeResParm', P1, P2).
%% -- ServiceChangeMethod --
is_ServiceChangeMethod(M) ->
Methods = [failover, forced, graceful, restart, disconnected, handOff],
lists:member(M, Methods).
chk_ServiceChangeMethod(M, M) ->
chk_type(fun is_ServiceChangeMethod/1, 'ServiceChangeMethod', M);
chk_ServiceChangeMethod(M1, M2) ->
case (is_ServiceChangeMethod(M1) andalso is_ServiceChangeMethod(M2)) of
true ->
not_equal('ServiceChangeMethod', M1, M2);
false ->
wrong_type('ServiceChangeMethod', M1, M2)
end.
%% -- ServiceChangeProfile --
is_opt_ServiceChangeProfile(P) ->
is_OPTIONAL(fun is_ServiceChangeProfile/1, P).
is_ServiceChangeProfile(#'ServiceChangeProfile'{profileName = N}) ->
is_IA5String(N, {range, 1, 67});
is_ServiceChangeProfile(_) ->
false.
chk_opt_ServiceChangeProfile(P1, P2) ->
chk_OPTIONAL('ServiceChangeProfile', P1, P2,
fun is_ServiceChangeProfile/1,
fun chk_ServiceChangeProfile/2).
chk_ServiceChangeProfile(P, P) ->
chk_type(fun is_ServiceChangeProfile/1, 'ServiceChangeProfile', P);
chk_ServiceChangeProfile(#'ServiceChangeProfile'{profileName = N1},
#'ServiceChangeProfile'{profileName = N2}) ->
validate(fun() -> chk_IA5String(N1, N2, {range, 1, 67}) end,
'ServiceChangeProfile'),
ok;
chk_ServiceChangeProfile(P1, P2) ->
wrong_type('ServiceChangeProfile', P1, P2).
%% -- PackagesDescriptor --
is_PackagesDescriptor([]) ->
true;
is_PackagesDescriptor([H|T]) ->
is_PackagesItem(H) andalso is_PackagesDescriptor(T);
is_PackagesDescriptor(_) ->
false.
chk_PackagesDescriptor([], []) ->
ok;
chk_PackagesDescriptor([] = D1, D2) ->
not_equal('PackagesDescriptor', D1, D2);
chk_PackagesDescriptor(D1, [] = D2) ->
not_equal('PackagesDescriptor', D1, D2);
chk_PackagesDescriptor([H|T1], [H|T2]) ->
case is_PackagesItem(H) of
true ->
chk_PackagesDescriptor(T1, T2);
false ->
wrong_type('PackagesDescriptor_val', H)
end;
chk_PackagesDescriptor([H1|T1], [H2|T2]) ->
validate(fun() -> chk_PackagesItem(H1, H2) end,
'PackagesDescriptor_val'),
chk_PackagesDescriptor(T1, T2);
chk_PackagesDescriptor(D1, D2) ->
wrong_type('PackagesDescriptor_val', D1, D2).
%% -- PackagesItem --
is_PackagesItem(#'PackagesItem'{packageName = N,
packageVersion = V}) ->
is_Name(N) andalso is_INTEGER(V, {range, 0, 99});
is_PackagesItem(_) ->
false.
chk_PackagesItem(I, I) ->
chk_type(fun is_PackagesItem/1, 'PackagesItem', I);
chk_PackagesItem(#'PackagesItem'{packageName = N1,
packageVersion = V1},
#'PackagesItem'{packageName = N2,
packageVersion = V2}) ->
validate(fun() -> chk_Name(N1, N2) end, 'PackagesItem'),
validate(fun() -> chk_INTEGER(V1, V2, {range, 0, 99}) end, 'PackagesItem'),
ok;
chk_PackagesItem(I1, I2) ->
wrong_type('PackagesItem', I1, I2).
%% -- StatisticsDescriptor --
is_StatisticsDescriptor([]) ->
true;
is_StatisticsDescriptor([H|T]) ->
is_StatisticsParameter(H) andalso is_StatisticsDescriptor(T);
is_StatisticsDescriptor(_) ->
false.
chk_StatisticsDescriptor([], []) ->
ok;
chk_StatisticsDescriptor([] = D1, D2) ->
not_equal('StatisticsDescriptor', D1, D2);
chk_StatisticsDescriptor(D1, [] = D2) ->
not_equal('StatisticsDescriptor', D1, D2);
chk_StatisticsDescriptor([H|T1], [H|T2]) ->
case is_StatisticsParameter(H) of
true ->
chk_StatisticsDescriptor(T1, T2);
false ->
wrong_type('StatisticsDescriptor_val', H)
end;
chk_StatisticsDescriptor([H1|T1], [H2|T2]) ->
validate(fun() -> chk_StatisticsParameter(H1, H2) end,
'StatisticsDescriptor_val'),
chk_StatisticsDescriptor(T1, T2);
chk_StatisticsDescriptor(D1, D2) ->
wrong_type('StatisticsDescriptor_val', D1, D2).
%% -- StatisticsParameter --
is_StatisticsParameter(#'StatisticsParameter'{statName = N,
statValue = V}) ->
is_PkgdName(N) andalso is_opt_Value(V);
is_StatisticsParameter(_) ->
false.
chk_StatisticsParameter(P, P) ->
chk_type(fun is_StatisticsParameter/1, 'StatisticsParameter', P);
chk_StatisticsParameter(#'StatisticsParameter'{statName = N1,
statValue = V1},
#'StatisticsParameter'{statName = N2,
statValue = V2}) ->
validate(fun() -> chk_PkgdName(N1, N2) end, 'StatisticsParameter'),
validate(fun() -> chk_opt_Value(V1, V2) end, 'StatisticsParameter'),
ok;
chk_StatisticsParameter(P1, P2) ->
wrong_type('StatisticsParameter', P1, P2).
%% -- NonStandardData --
is_opt_NonStandardData(asn1_NOVALUE) ->
true;
is_opt_NonStandardData(NSD) ->
is_NonStandardData(NSD).
%% is_NonStandardData(#'NonStandardData'{nonStandardIdentifier = Id,
%% data = D}) ->
%% is_NonStandardIdentifier(Id) andalso is_OCTET_STRING(D);
%% is_NonStandardData(_) ->
%% false.
is_NonStandardData(_) ->
true.
chk_opt_NonStandardData(asn1_NOVALUE, asn1_NOVALUE) ->
true;
chk_opt_NonStandardData(NSD1, NSD2) ->
chk_NonStandardData(NSD1, NSD2).
chk_NonStandardData(NSD, NSD) ->
chk_type(fun is_NonStandardData/1, 'NonStandardData', NSD);
%% chk_NonStandardData(#'NonStandardData'{nonStandardIdentifier = Id1,
%% data = D1},
%% #'NonStandardData'{nonStandardIdentifier = Id2,
%% data = D2}) ->
%% validate(fun() -> chk_NonStandardIdentifier(Id1, Id2) end,
%% 'NonStandardData'),
%% validate(fun() -> chk_OCTET_STRING(D1, D2) end, 'NonStandardData'),
%% ok;
%% chk_NonStandardData(NSD1, NSD2) ->
%% wrong_type('NonStandardData', NSD1, NSD2).
chk_NonStandardData(NSD1, NSD2) ->
not_equal('NonStandardData', NSD1, NSD2).
%% -- NonStandardIdentifier --
%% is_NonStandardIdentifier({Tag, Val}) ->
%% is_NonStandardIdentifier_tag(Tag) andalso
%% is_NonStandardIdentifier_val(Tag, Val);
%% is_NonStandardIdentifier(_) ->
%% false.
%% is_NonStandardIdentifier_tag(Tag) ->
%% Tags = [object, h221NonStandard, experimental],
%% lists:member(Tag, Tags).
%% is_NonStandardIdentifier_val(object, Val) ->
%% is_OBJECT_IDENTIFIER(Val);
%% is_NonStandardIdentifier_val(h221NonStandard, Val) ->
%% is_H221NonStandard(Val);
%% is_NonStandardIdentifier_val(experimental, Val) ->
%% is_IA5String(Val, {exact, 8}).
%% chk_NonStandardIdentifier(Id, Id) ->
%% chk_type(fun is_NonStandardIdentifier/1, 'NonStandardIdentifier', Id);
%% chk_NonStandardIdentifier({Tag, Val1} = Id1, {Tag, Val2} = Id2) ->
%% case (is_NonStandardIdentifier_tag(Tag) andalso
%% is_NonStandardIdentifier_val(Tag, Val1) andalso
%% is_NonStandardIdentifier_val(Tag, Val1)) of
%% true ->
%% chk_NonStandardIdentifier_val(Tag, Val1, Val2);
%% false ->
%% wrong_type('NonStandardIdentifier', Id1, Id2)
%% end;
%% chk_NonStandardIdentifier({Tag1, Val1} = Id1, {Tag2, Val2} = Id2) ->
%% case ((is_NonStandardIdentifier_tag(Tag1) andalso
%% is_NonStandardIdentifier_val(Tag1, Val1)) andalso
%% (is_NonStandardIdentifier_tag(Tag2) andalso
%% is_NonStandardIdentifier_val(Tag2, Val1))) of
%% true ->
%% not_equal('NonStandardIdentifier', Id1, Id2);
%% false ->
%% wrong_type('NonStandardIdentifier', Id1, Id2)
%% end;
%% chk_NonStandardIdentifier(Id1, Id2) ->
%% wrong_type('NonStandardIdentifier', Id1, Id2).
%% chk_NonStandardIdentifier_val(object, Val1, Val2) ->
%% chk_OBJECT_IDENTIFIER(Val1, Val2);
%% chk_NonStandardIdentifier_val(h221NonStandard, Val1, Val2) ->
%% chk_H221NonStandard(Val1, Val2);
%% chk_NonStandardIdentifier_val(experimental, Val1, Val2) ->
%% chk_IA5String(Val1, Val2, {exact, 8}).
%% -- H221NonStandard --
%% is_H221NonStandard(#'H221NonStandard'{t35CountryCode1 = CC1,
%% t35CountryCode2 = CC2,
%% t35Extension = Ext,
%% manufacturerCode = MC}) ->
%% is_INTEGER(CC1, {range, 0, 255}) andalso
%% is_INTEGER(CC2, {range, 0, 255}) andalso
%% is_INTEGER(Ext, {range, 0, 255}) andalso
%% is_INTEGER(Ext, {range, 0, 65535});
%% is_H221NonStandard(_) ->
%% false.
%% chk_H221NonStandard(NS, NS) ->
%% chk_type(fun is_H221NonStandard/1, 'H221NonStandard', NS);
%% chk_H221NonStandard(#'H221NonStandard'{t35CountryCode1 = CC11,
%% t35CountryCode2 = CC21,
%% t35Extension = Ext1,
%% manufacturerCode = MC1},
%% #'H221NonStandard'{t35CountryCode1 = CC12,
%% t35CountryCode2 = CC22,
%% t35Extension = Ext2,
%% manufacturerCode = MC2}) ->
%% validate(fun() -> chk_INTEGER(CC11, CC12, {range, 0, 255}) end,
%% 'H221NonStandard'),
%% validate(fun() -> chk_INTEGER(CC21, CC22, {range, 0, 255}) end,
%% 'H221NonStandard'),
%% validate(fun() -> chk_INTEGER(Ext1, Ext2, {range, 0, 255}) end,
%% 'H221NonStandard'),
%% validate(fun() -> chk_INTEGER(MC1, MC2, {range, 0, 65535}) end,
%% 'H221NonStandard'),
%% ok;
%% chk_H221NonStandard(NS1, NS2) ->
%% wrong_type('H221NonStandard', NS1, NS2).
%% -- TimeNotation --
is_opt_TimeNotation(asn1_NOVALUE) ->
true;
is_opt_TimeNotation(TN) ->
is_TimeNotation(TN).
is_TimeNotation(#'TimeNotation'{date = D, time = T}) ->
is_IA5String(D, {exact, 8}) andalso is_IA5String(T, {exact, 8});
is_TimeNotation(_) ->
false.
chk_opt_TimeNotation(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_TimeNotation(TN1, TN2) ->
chk_TimeNotation(TN1, TN2).
chk_TimeNotation(TN, TN) ->
chk_type(fun is_TimeNotation/1, 'TimeNotation', TN);
chk_TimeNotation(#'TimeNotation'{date = D1, time = T1},
#'TimeNotation'{date = D2, time = T2}) ->
validate(fun() -> chk_IA5String(D1, D2, {exact, 8}) end, 'TimeNotation'),
validate(fun() -> chk_IA5String(T1, T2, {exact, 8}) end, 'TimeNotation'),
ok;
chk_TimeNotation(TN1, TN2) ->
wrong_type('TimeNotation', TN1, TN2).
%% -- Value --
is_opt_Value(V) ->
is_OPTIONAL(fun is_Value/1, V).
is_Value([]) ->
true;
is_Value([H|T]) ->
is_OCTET_STRING(H) andalso is_Value(T);
is_Value(_) ->
false.
chk_opt_Value(V1, V2) ->
chk_OPTIONAL('Value', V1, V2, fun is_Value/1, fun chk_Value/2).
chk_Value(V, V) ->
case is_Value(V) of
true ->
ok;
false ->
wrong_type('Value', V, V)
end;
chk_Value(V1, V2) ->
case (is_Value(V1) andalso is_Value(V2)) of
true ->
not_equal('Value', V1, V2);
false ->
wrong_type('Value', V1, V2)
end.
%% ----------------------------------------------------------------------
%% Basic type check functions
%% ----------------------------------------------------------------------
is_opt_BOOLEAN(B) ->
is_OPTIONAL(fun is_BOOLEAN/1, B).
is_BOOLEAN(B) ->
lists:member(B, [true, false]).
chk_opt_BOOLEAN(B1, B2) ->
chk_OPTIONAL('BOOLEAN', B1, B2, fun is_BOOLEAN/1, fun chk_BOOLEAN/2).
chk_BOOLEAN(B, B) ->
chk_type(fun is_BOOLEAN/1, 'BOOLEAN', B);
chk_BOOLEAN(B1, B2) ->
case (is_BOOLEAN(B1) andalso is_BOOLEAN(B2)) of
true ->
not_equal('BOOLEAN', B1, B2);
false ->
wrong_type('BOOLEAN', B1, B2)
end.
is_IA5String(S) when is_list(S) ->
true;
is_IA5String(_) ->
false.
is_IA5String(S, _) when is_list(S) ->
true;
is_IA5String(_, _) ->
false.
%% chk_IA5String(S, S) ->
%% chk_type(fun is_IA5String/1, 'IA5String', S);
%% chk_IA5String(S1, S2) ->
%% case (is_IA5String(S1) andalso is_IA5String(S2)) of
%% true ->
%% not_equal('IA5String', S1, S2);
%% false ->
%% wrong_type('IA5String', S1, S2)
%% end.
chk_IA5String(S, S, R) ->
chk_type(fun is_IA5String/2, 'IA5String', S, R);
chk_IA5String(S1, S2, R) ->
case (is_IA5String(S1, R) andalso is_IA5String(S2, R)) of
true ->
not_equal('IA5String', S1, S2);
false ->
wrong_type('IA5String', S1, S2)
end.
is_OCTET_STRING(L) -> is_OCTET_STRING(L, any).
is_OCTET_STRING(L, any) when is_list(L) ->
true;
is_OCTET_STRING(L, {exact, Len}) when is_list(L) andalso (length(L) =:= Len) ->
true;
is_OCTET_STRING(L, {atleast, Len}) when is_list(L) andalso (Len =< length(L)) ->
true;
is_OCTET_STRING(L, {atmost, Len}) when is_list(L) andalso (length(L) =< Len) ->
true;
is_OCTET_STRING(L, {range, Min, Max})
when is_list(L) andalso (Min =< length(L)) andalso (length(L) =< Max) ->
true;
is_OCTET_STRING(_, _) ->
false.
%% chk_OCTET_STRING(L1, L2) ->
%% chk_OCTET_STRING(L1, L2, any).
chk_OCTET_STRING(L, L, R) ->
chk_type(fun is_OCTET_STRING/2, 'OCTET STRING', L, R);
chk_OCTET_STRING(L1, L2, R) ->
case (is_OCTET_STRING(L1, R) andalso is_OCTET_STRING(L2, R)) of
true ->
not_equal('OCTET STRING', L1, L2);
false ->
wrong_type('OCTET STRING', L1, L2)
end.
%% is_OBJECT_IDENTIFIER(_) ->
%% true.
%% chk_OBJECT_IDENTIFIER(X, X) ->
%% ok;
%% chk_OBJECT_IDENTIFIER(X1, X2) ->
%% not_equal('OBJECT IDENTIFIER', X1, X2).
is_opt_NULL(N) ->
is_OPTIONAL(fun is_NULL/1, N).
is_NULL('NULL') ->
true;
is_NULL(_) ->
false.
chk_opt_NULL(N1, N2) ->
chk_OPTIONAL('NULL', N1, N2, fun is_NULL/1, fun chk_NULL/2).
chk_NULL(N, N) ->
chk_type(fun is_NULL/1, 'NULL', N);
chk_NULL(N1, N2) ->
case (is_NULL(N1) andalso is_NULL(N2)) of
true ->
not_equal('NULL', N1, N2);
false ->
wrong_type('NULL', N1, N2)
end.
is_opt_INTEGER(I, R) ->
is_OPTIONAL(fun(X) -> is_INTEGER(X, R) end, I).
is_INTEGER(I, any) when is_integer(I) ->
true;
is_INTEGER(I, {exact, I}) when is_integer(I) ->
true;
is_INTEGER(I, {atleast, Min}) when is_integer(I) andalso is_integer(Min) andalso (Min =< I) ->
true;
is_INTEGER(I, {atmost, Max}) when is_integer(I) andalso is_integer(Max) andalso (I =< Max) ->
true;
is_INTEGER(I, {range, Min, Max})
when is_integer(I) andalso
is_integer(Min) andalso
is_integer(Max) andalso
(Min =< I) andalso
(I =< Max) ->
true;
is_INTEGER(_, _) ->
false.
chk_opt_INTEGER(I1, I2, R) ->
chk_OPTIONAL('INTEGER', I1, I2,
fun(X) -> is_INTEGER(X, R) end,
fun(Y1, Y2) -> chk_INTEGER(Y1, Y2, R) end).
chk_INTEGER(I, I, R) ->
chk_type(fun is_INTEGER/2, 'INTEGER', I, R);
chk_INTEGER(I1, I2, R) ->
case (is_INTEGER(I1, R) andalso is_INTEGER(I2, R)) of
true ->
not_equal('INTEGER', I1, I2);
false ->
wrong_type('INTEGER', I1, I2)
end.
%% ----------------------------------------------------------------------
%% Various utility functions
%% ----------------------------------------------------------------------
to_lower([C|Cs]) when C >= $A, C =< $Z ->
[C+($a-$A)|to_lower(Cs)];
to_lower([C|Cs]) ->
[C|to_lower(Cs)];
to_lower([]) ->
[].
validate(F, Type) when is_function(F) ->
case (catch F()) of
{error, Reason} ->
error({Type, Reason});
ok ->
ok
end.
chk_type(F, T, V) when is_function(F) andalso is_atom(T) ->
case F(V) of
true ->
ok;
false ->
wrong_type(T, V)
end.
chk_type(F, T, V1, V2) when is_function(F) andalso is_atom(T) ->
case F(V1, V2) of
true ->
ok;
false ->
wrong_type(T, V1)
end.
is_OPTIONAL(_, asn1_NOVALUE) ->
true;
is_OPTIONAL(F, Val) when is_function(F) ->
F(Val).
chk_OPTIONAL(_, asn1_NOVALUE, asn1_NOVALUE, _, _) ->
ok;
chk_OPTIONAL(Type, asn1_NOVALUE = V1, V2, IS, _CHK) when is_function(IS) ->
case IS(V2) of
true ->
not_equal(Type, V1, V2);
false ->
wrong_type(Type, V1, V2)
end;
chk_OPTIONAL(Type, V1, asn1_NOVALUE = V2, IS, _CHK) when is_function(IS) ->
case IS(V1) of
true ->
not_equal(Type, V1, V2);
false ->
wrong_type(Type, V1, V2)
end;
chk_OPTIONAL(_Type, V1, V2, _IS, CHK) when is_function(CHK) ->
CHK(V1, V2).
%% ----------------------------------------------------------------------
compare_strings([] = L1, L2) ->
{L1, L2};
compare_strings(L1, [] = L2) ->
{L1, L2};
compare_strings([H|T1], [H|T2]) ->
compare_strings(T1, T2);
compare_strings(L1, L2) ->
{L1, L2}.
strip_tab_and_newline([]) ->
[];
strip_tab_and_newline([$\n|T]) ->
strip_tab_and_newline(T);
strip_tab_and_newline([$\t|T]) ->
strip_tab_and_newline(T);
strip_tab_and_newline([H|T]) ->
[H|strip_tab_and_newline(T)].
%% ----------------------------------------------------------------------
atmost_once(Type, Val) ->
error({atmost_once, {Type, Val}}).
wrong_type(Type, Val) ->
error({wrong_type, {Type, Val}}).
wrong_type(Type, Val1, Val2) ->
error({wrong_type, {Type, Val1, Val2}}).
not_equal(What, Val1, Val2) ->
error({not_equal, {What, Val1, Val2}}).
error(Reason) ->
throw({error, Reason}).
%% ----------------------------------------------------------------------
d(F) ->
d(F, []).
d(F, A) ->
d(get(dbg), F, A).
d(true, F, A) ->
io:format("DBG:" ++ F ++ "~n", A);
d(_, _, _) ->
ok.