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/**
* @author ETSI
* @version $URL$
* $Id$
* @desc This module implements _one_ generic synchronization mechanism
* for TTCN-3 test cases with one or more test components.
* Key concept is here that one test component acts as a
* synchronization server which listens and triggers one or more
* synchronization clients. It is recomended to use the MTC always as
* the synchronization server but in theory also a PTC can act as such
* a server.<br><br>
* This synchronization is used by calling a function on
* the server test component to wait for a desired amount of clients
* to notify the server that they have reached a specific synchronization
* point. Each client test component must call another
* function to perform this notification.<br><br>
* In the event that a client is not able to reach a synchronization
* point the server sends out a signal to all clients to abort the
* test case. This signal is a STOP message which can be caught by
* a test component default which in turn can then run a proper
* shut down behavior based on the current state of the test
* component. <br><br>
* Note that this synchronization mechanism can also be used
* in a special mode called "self synchronization" when a test case
* only has one test component. Here, the test component in essence
* acts as a server and client at the same time. The main benefit of
* using self synchoronization is that the same shutdown mechanisms
* can also be reused fomr the multi component test cases. <br><br>
* This module contains a lot of TTCN-3 definitions. It has been
* structured into tree main groups to help the user to identify
* quickly relevant TTCN-3 definitions. For rookie users of this
* module basicUserRelevantDefinitions should offer all the needed
* definitions. Advanced users can consider use of definitions in
* advancedUserRelevantDefinitions. Finally, internalDefinitions
* are definitions which are required for the module to work
* properly but do not need to be used in your code. Remember that
* the main motiviation of this sychronization module is to offer
* are _simple_ user interface. Practice has shown that when writing
* actual test component behavior _only a handful_ of functions
* usually wind up being used! Also check the synchronization examples
* module for example uses of this synchronization mechanism.<br><br>
* The invocation of the sync functions is also closely tied
* to the verdict control functions which should also be reviewed
* prior to using this module. <br><br>
* This module has been derived from EtsiCommon_Synchronization
* which was created in ETSIs STF256/276. It has been kept
* intentionally separate to avoid conflicts with future ETSI
* test suite releases.
* @see LibCommon_Sync.basicUserRelevantDefinitions
* @see LibCommon_Sync.advancedUserRelevantDefinitions
* @remark End users should be aware that any changes made to the in
* definitions this module may be overwritten in future releases.
* End users are encouraged to contact the distributers of this
* module regarding their modifications or additions so that future
* updates will include your changes.
*/
module LibCommon_Sync {
//Common
import from LibCommon_BasicTypesAndValues { type UInt } ;
import from LibCommon_AbstractData all;
import from LibCommon_VerdictControl all;
group basicUserRelevantDefinitions {
group importantSyncTypeDefinitions {
group compTypeRelated {
/**
* @desc This type is used to be the base of any synchronization
* behavior which is to be executed on a sync server
* component. The test component which acts as a
* sync server in a test case must NOT directly use
* this component type in its runs on clause!
* Note that server synchronization functions may be
* invoked by a test component as long as its
* component type is type compatible to this component
* type definition!
*/
type component BaseSyncComp {
port SyncPort syncPort;
timer tc_sync := PX_TSYNC_TIME_LIMIT;
}
/**
* @desc This type is used to define any synchronization
* behavior which is to be executed on a sync server
* component. The test component which acts as a
* sync server in a test case may - but does
* not have to - directly use this component type its
* runs on clause.
* Note that server synchronization functions may be
* invoked by a test component as long as its
* component type is type compatible to this component
* type definition!
*/
type component ServerSyncComp {
timer tc_shutDown := PX_TSHUT_DOWN_TIME_LIMIT;
// definitions for BaseSyncComp
port SyncPort syncPort;
timer tc_sync := PX_TSYNC_TIME_LIMIT;
} with { extension "extends BaseSyncComp" }
/**
* @desc This type is used to define any synchronization
* behavior which is to be executed on a sync client
* component. The test component(s) which act as a
* sync client in a test case may - but do not have
* to - directly use this component type their runs
* on clause.
* Note that server synchronization functions may be
* invoked by a test component as long as its
* component type is type compatible to this component
* type definition!
*/
type component ClientSyncComp {
var StringStack v_stateStack:= c_initStringStack;
// definitions for BaseSyncComp
port SyncPort syncPort;
timer tc_sync := PX_TSYNC_TIME_LIMIT;
} with { extension "extends BaseSyncComp" }
/**
* @desc This type is used to define any synchronization
* behavior which is relevant to non-concurrent test
* cases.
* Note that self synchronization functions may be
* invoked by a test component as long as its
* component type is type compatible to this component
* type definition!
* Note also that this type is type compatible to the
* ClientSyncComp type so that shutdown altsteps from
* concurrent test cases can also be reused in single
* component test cases!
* @see LibCommon_Sync.ClientSyncComp
*/
type component SelfSyncComp {
port SyncPort syncSendPort;
// definitions for ClientSyncComp
var StringStack v_stateStack:= c_initStringStack;
port SyncPort syncPort;
timer tc_sync := PX_TSYNC_TIME_LIMIT;
} with { extension "extends ClientSyncComp" }
/**
* @desc This port type must be imported into test suites
* when defining test component types which are
* type compatible to a synchronization component
* type
* @see LibCommon_Sync.SelfSyncComp
* @see LibCommon_Sync.ServerSyncComp
* @see LibCommon_Sync.ClientSyncComp
*/
type port SyncPort message { inout SyncCmd }
} // end compTypeRelated
group standardSyncPointNames {
const charstring c_prDone := "preambleDone";
const charstring c_poDone := "postambleDone";
const charstring c_tbDone := "testBodyDone";
const charstring c_initDone := "initDone";
}
} // end group importantSyncTypeDefinitions
group syncCompTestConfiguration {
/**
* @desc Calls self connect function if invoking
* component is the MTC or otherwise connects the client
* the server. This function allows to implement preambles
* in a way that they can be used by test components
* in both non-concurrent as well as concurrent test
* cases!
* @remark This function should _not_ be called if the MTC
* acts as a client (and not a server) in a concurrent
* test case. In this case f_connect4ClientSync
* should be used instead.
* @see LibCommon_Sync.f_connect4SelfSync
* @see LibCommon_Sync.f_connect4ClientSync
*/
function f_connect4SelfOrClientSync()
runs on SelfSyncComp {
if ( self == mtc ) {
f_connect4SelfSync();
} else {
f_connect4ClientSync();
}
}
/**
* @desc Calls self connect function if the invoking
* component is the MTC or otherwise disconnects the client
* from the server. This function allows to implement
* postambles in a way that they can be used in both
* non-concurrent as well as concurrent test cases.
* @remark This function should _not_ be called if the MTC
* acts as a client (and not a server) in a concurrent
* test case. In this case f_disconnect4ClientSync
* should be used instead.
* @see LibCommon_Sync.f_disconnect4SelfSync
* @see LibCommon_Sync.f_disconnect4ClientSync
*/
function f_disconnect4SelfOrClientSync()
runs on SelfSyncComp {
if ( self == mtc ) {
f_disconnect4SelfSync();
} else {
f_disconnect4ClientSync();
}
}
} // end group syncCompTestConfiguration
group syncFunctions {
/**
* @desc Implements synchronization of 2 clients from server side
* on one or more synchronization points.
* If problem occurs, then server sends STOP to all clients.
* Waits for PX_TSYNC_TIME_LIMIT to let clients
* finish executing their behavior until this
* synchronization point. After passing all synchronization
* points successfuly the server waits for all clients
* to stop.
* See f_serverSyncClientsTimed for overwriting this
* the timing constraint!
* This function sets the server component verdict.
* @remark The use of this function requires prior connection of
* the server sync ports!
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_Sync.PX_TSYNC_TIME_LIMIT
* @see LibCommon_Sync.f_serverSyncClientsTimed
* @see LibCommon_Sync.f_serverWaitForAllClientsToStop
* @param p_syncPointIds list of synchronization point name/ids
*/
function f_serverSync2ClientsAndStop( in SyncPointList p_syncPointIds )
runs on ServerSyncComp {
var integer i, v_noOfSyncIds := sizeof(p_syncPointIds);
for ( i := 0; i < v_noOfSyncIds; i := i+1 ) {
f_serverSyncClientsTimed(2,p_syncPointIds[i], PX_TSYNC_TIME_LIMIT);
}
f_serverWaitForAllClientsToStop();
}
/**
* @desc Implements synchronization of 3 clients from server side
* on one or more synchronization points.
* If problem occurs, then server sends STOP to all clients.
* Waits for PX_TSYNC_TIME_LIMIT to let clients
* finish executing their behavior until this
* synchronization point. After passing all synchronization
* points successfuly the server waits for all clients
* to stop.
* See f_serverSyncClientsTimed for overwriting this
* the timing constraint!
* This function sets the server component verdict.
* @remark The use of this function requires prior connection of
* the server sync ports!
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_Sync.PX_TSYNC_TIME_LIMIT
* @see LibCommon_Sync.f_serverSyncClientsTimed
* @see LibCommon_Sync.f_serverWaitForAllClientsToStop
* @param p_syncPointIds list of synchronization point name/ids
*/
function f_serverSync3ClientsAndStop( in SyncPointList p_syncPointIds )
runs on ServerSyncComp {
var integer i, v_noOfSyncIds := sizeof(p_syncPointIds);
for ( i := 0; i < v_noOfSyncIds; i := i+1 ) {
f_serverSyncClientsTimed(3,p_syncPointIds[i], PX_TSYNC_TIME_LIMIT);
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}
f_serverWaitForAllClientsToStop();
}
/**
* @desc Implements synchronization of 4 clients from server side
* on one or more synchronization points.
* If problem occurs, then server sends STOP to all clients.
* Waits for PX_TSYNC_TIME_LIMIT to let clients
* finish executing their behavior until this
* synchronization point. After passing all synchronization
* points successfuly the server waits for all clients
* to stop.
* See f_serverSyncClientsTimed for overwriting this
* the timing constraint!
* This function sets the server component verdict.
* @remark The use of this function requires prior connection of
* the server sync ports!
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_Sync.PX_TSYNC_TIME_LIMIT
* @see LibCommon_Sync.f_serverSyncClientsTimed
* @see LibCommon_Sync.f_serverWaitForAllClientsToStop
* @param p_syncPointIds list of synchronization point name/ids
*/
function f_serverSync4ClientsAndStop( in SyncPointList p_syncPointIds )
runs on ServerSyncComp {
var integer i, v_noOfSyncIds := sizeof(p_syncPointIds);
for ( i := 0; i < v_noOfSyncIds; i := i+1 ) {
f_serverSyncClientsTimed(4,p_syncPointIds[i], PX_TSYNC_TIME_LIMIT);
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}
f_serverWaitForAllClientsToStop();
}
/**
* @desc Implements synchronization of N clients from server side
* on one or more synchronization points.
* If problem occurs, then server sends STOP to all clients.
* Waits for PX_TSYNC_TIME_LIMIT to let clients
* finish executing their behavior until this
* synchronization point. After passing all synchronization
* points successfuly the server waits for all clients
* to stop.
* See f_serverSyncClientsTimed for overwriting this
* the timing constraint!
* This function sets the server component verdict.
* @remark The use of this function requires prior connection of
* the server sync ports!
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_Sync.PX_TSYNC_TIME_LIMIT
* @see LibCommon_Sync.f_serverSyncClientsTimed
* @see LibCommon_Sync.f_serverWaitForAllClientsToStop
* @param p_numClients number of synchronization clients
* @param p_syncPointIds list of synchronization point name/ids
*/
function f_serverSyncNClientsAndStop (
in integer p_numClients,
in SyncPointList p_syncPointIds )
runs on ServerSyncComp {
var integer i, v_noOfSyncIds := sizeof(p_syncPointIds);
for ( i := 0; i < v_noOfSyncIds; i := i+1 ) {
f_serverSyncClientsTimed (
p_numClients,
p_syncPointIds[i],
PX_TSYNC_TIME_LIMIT );
}
f_serverWaitForAllClientsToStop();
}
/**
* @desc Implements synchronization of 2 clients and 1 UT from server side
* on one or more synchronization points.
* If problem occurs, then server sends STOP to all clients.
* Waits for PX_TSYNC_TIME_LIMIT to let clients
* finish executing their behavior until this
* synchronization point. After passing all synchronization
* points successfuly the server waits for all clients
* to stop.
* See f_serverSyncClientsTimed for overwriting this
* the timing constraint!
* This function sets the server component verdict.
* @remark The use of this function requires prior connection of
* the server sync ports!
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_Sync.PX_TSYNC_TIME_LIMIT
* @see LibCommon_Sync.f_serverSyncClientsTimed
* @see LibCommon_Sync.f_serverWaitForAllClientsToStop
* @param p_syncPointIds list of synchronization point name/ids
*/
function f_serverSync2ClientsUtAndStop( in SyncPointList p_syncPointIds )
runs on ServerSyncComp {
var integer i, v_noOfSyncIds := sizeof(p_syncPointIds);
for ( i := 0; i < v_noOfSyncIds; i := i+1 ) {
f_serverSyncClientsTimed(3,p_syncPointIds[i], PX_TSYNC_TIME_LIMIT);
}
f_serverWaitForAllClientsToStop();
}
/**
* @desc Calls either self synchronization function if
* invoking component is the MTC, otherwise
* calls client synchronization. After that it
* sets the verdict based on the specified return code.
* This function allows to implement TTCN-3 functions
* in a way that they can be used in both non-concurrent
* as well as concurrent test cases.
* @remark This function should _not_ be called if the MTC
* acts as a client (and not a server) in a concurrent
* test case. In this case f_clientSyncAndVerdict
* should be used instead.
* @param p_syncPoint Synchronization point name/id
* @param p_ret Current behavior execution status
* @see LibCommon_Sync.f_clientSyncAndVerdict
* @see LibCommon_VerdictControl.f_setVerdict
*/
function f_selfOrClientSyncAndVerdict( in charstring p_syncPoint,
in FncRetCode p_ret)
runs on SelfSyncComp {
if ( self == mtc ) {
// then assume we are running non-conurrent test case
f_selfSyncAndVerdict(p_syncPoint, p_ret);
} else {
f_clientSyncAndVerdict(p_syncPoint, p_ret);
}
}
/**
* @desc Calls either self synchronization function if
* invoking component is the MTC, otherwise
* calls client synchronization. After that it
* sets a preamble specific verdict based on the
* specified return code.
* This function allows to implement TTCN-3 functions
* in a way that they can be used in both non-concurrent
* as well as concurrent test cases.
* @remark This function should _not_ be called if the MTC
* acts as a client (and not a server) in a concurrent
* test case. In this case f_clientSyncAndVerdict
* should be used instead.
* @param p_syncPoint Synchronization point name/id
* @param p_ret Current behavior execution status
* @see LibCommon_Sync.f_clientSyncAndVerdict
* @see LibCommon_VerdictControl.f_setVerdictPreamble
*/
function f_selfOrClientSyncAndVerdictPR( in charstring p_syncPoint,
in FncRetCode p_ret)
runs on SelfSyncComp {
if ( self == mtc ) {
// then assume we are running non-conurrent test case
f_selfSyncAndVerdictPreamble(p_syncPoint, p_ret);
} else {
f_clientSyncAndVerdictPreamble(p_syncPoint, p_ret);
}
}
} // end group syncFunctions
group syncCompStateHandling {
/**
*
* @desc This function updates the state (stack) of a
* sync client or self sync component. This stack is
* key in the shutdown handling of test components.
* It adds the new state name to the top of the
* sync component stack of states.
* The state will only be added in case of a current
* execution status of e_success.
* @param p_newSyncCompState Name of state which was attempted to be reached.
* @param p_ret Current behavior execution status
* @remark If the state of component changes this function must be
* _at least_ called from your test suite prior to f_selfSync
* or f_clientSync which is the only definite place for the
* shutdown default invocation!
* @see LibCommon_Sync.a_dummyShutDown
* @see LibCommon_Sync.f_selfSync
* @see LibCommon_Sync.f_clientSync
*/
function f_addSyncCompState(in charstring p_newSyncCompState,
in FncRetCode p_ret)
runs on ClientSyncComp {
if ( p_ret == e_success ) {
if ( f_isItemOnStringStack(v_stateStack,p_newSyncCompState) ) {
log("**** f_addSyncCompState: WARNING: Attempt to add state which is already on sync state stack! No additition done.****");
} else {
f_pushStringStack(v_stateStack,p_newSyncCompState);
}
}
} // end function f_addSyncCompState
/**
*
* @desc This function returns the top state on the sync
* state stack of a sync client or self sync
* component and removes it from the stack
* This function cna be used, e.g., in a while
* statement within a postamble or shutdown
* implementation
* @param p_state State on top of the state stack.
* @return false if state stack is empty, true otherwise
* @see LibCommon_Sync.a_dummyShutDown
*/
function f_getTopSyncCompState( out charstring p_state )
runs on ClientSyncComp
return boolean {
if ( not f_peekStringStackTop(v_stateStack,p_state) ) {
p_state := "IDLE";
return false;
}
f_popStringStack(v_stateStack);
return true;
} // end function f_getTopSyncCompState
/*
* @desc This function removes the last state on the state stack
* of a sync client or self sync component.
* This stack is key in the shutdown handling of test
* components.
* @see LibCommon_Sync.a_dummyShutDown
*/
function f_popSyncCompState()
runs on ClientSyncComp {
f_popStringStack(v_stateStack);
} // end function f_popSyncCompState
/**
*
* @desc This function returns the top state on the sync state
* stack of a sync client or self sync component. It
* does not remove it from the stack
* This stack is key in the shutdown handling of test
* components.
* @param p_state State on top of the state stack.
* @return false if state stack is empty, true otherwise
* @see LibCommon_Sync.a_dummyShutDown
*/
function f_peekTopSyncCompState(out charstring p_state)
runs on ClientSyncComp
return boolean {
return f_peekStringStackTop(v_stateStack,p_state);
} // end function f_peekTopSyncCompState
/**
* @desc This function checks if the sync state stack
* of a sync client or self sync component is empty.
* This stack is key in the shutdown handling of test
* components.
* @see LibCommon_Sync.a_dummyShutDown
*/
function f_isSyncCompStateStackEmpty()
runs on ClientSyncComp
return boolean {
return f_isStringStackEmpty(v_stateStack);
} // end function f_isSyncCompStateStackEmpty
} // end group syncCompStateHandling
group exampleShutDownAltstep {
/**
* @desc This is an example of a shutdown altstep which can be
* used as a "template" for a interface specific shutdown
* altstep or possily as a first temporary solution in
* test case development.<br><br>
* This altstep shall be activated as a default as the
* first statement in each test case function which drives
* an interface, i.e., in MTC behavior of single component
* and in each client behavior of multi component test
* cases.<br>
* The required behavior from this altstep is to:<br><br>
* 1) expect the STOP either via the test component
* syncPort<br><br>
* 2) upon its arrival it should shut down the SUT
* gracefully based on the current component state<br><br>
* The current component state should have been
* previously kept uptodate from a test suite via the
* f_addSyncCompState function. This default will then be
* (automatically) invoked either from within f_selfSync
* or f_clientSync.<br>
* Note that shutdown defaults can be written as
* _interface specific_ - they do not need to be test case
* or test component specific! See another example of a
* shutdown altstep in the sync module.
* @see LibCommon_Sync.f_addSyncCompState
* @see LibCommon_Sync.f_selfSync
* @see LibCommon_Sync.f_clientSync
* @see LibCommon_SyncExamples.a_exampleShutDown
* @remark Your application specific shutdown altstep
* implementation(s) should _not_ be defined in this
* module but as part of your test suite or application specific
* modules.
*/
altstep a_dummyShutDown()
runs on SelfSyncComp {
[] syncPort.receive(m_syncServerStop){
var charstring v_state := "";
tc_sync.stop;
log("**** a_dummyShutDown: Test component received STOP signal from sync server - going to IDLE state ****");
while ( f_getTopSyncCompState(v_state) ) {
if ( v_state == "x" ) {
// then do something
} else if ( v_state == "y" ) {
// then do something else
}
} // end while
f_disconnect4SelfOrClientSync();
// unmap/disconnect more if needed
log("**** a_dummyShutDown: -> Test component stopping itself now! ****") ;
stop ;
}
} // end altstep a_dummyShutDown
} // end group exampleShutDownAltstep
} // end group basicUserRelevantDefinitions
group advancedUserRelevantDefinitions {
group serverRelated {
/**
* @desc Implements synchronization of "n" clients from server
* side. If a problem occurs, then server sends STOP to
* all clients. Waits for PX_TSYNC_TIME_LIMIT to let
* clients finish executing their behavior until this
* synchronization point. See f_serverSyncClientsTimed for
* overwriting this later timing constraint!
* This function sets the server component verdict.
* @remark The use of this function requires prior connection of
* the server sync port!
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_Sync.PX_TSYNC_TIME_LIMIT
* @see LibCommon_Sync.f_serverSyncClientsTimed
* @param p_noOfClients number of clients to be synchronized
* @param p_syncId synchronization point name/id
*/
function f_serverSyncClients( in UInt p_noOfClients, in charstring p_syncId )
runs on ServerSyncComp {
f_serverSyncClientsTimed(p_noOfClients,p_syncId, PX_TSYNC_TIME_LIMIT);
}
/**
* @desc Handles synchronization of clients from server side.
* If problem occurs, then server sends STOP to all clients.
* This function sets the server verdict.
* @remark The use of this function requires prior connection of
* the server sync ports!
* @param p_NoOfClients number of clients to be synchronized
* @param p_syncId synchronization point name/id
* @param p_execTimeLimit time limit given to all clients to finish the execution
* of their behavior up to this synchronization point
* @see LibCommon_Sync.f_connect4SelfOrClientSync
*/
function f_serverSyncClientsTimed( in UInt p_NoOfClients,
in charstring p_syncId,
float p_execTimeLimit )
runs on ServerSyncComp {
var integer v_noOfRecvdSyncMsgs := 0;
var boolean v_stopClients := false;
var ClientSyncCompList v_clientRefs := {};
var ClientSyncComp v_clientRef;
if ( p_syncId == c_prDone ) {
log("**** f_serverSyncClientsTimed: Sync server now starting PREAMBLE synchronization ... ****") ;
} else if ( p_syncId == c_tbDone ) {
log("**** f_serverSyncClientsTimed: Sync server now starting TEST BODY synchronization ... ****") ;
} else if ( p_syncId == c_initDone ) {
log("**** f_serverSyncClientsTimed: Sync server now starting UPPER TESTER synchronization ... ****") ;
} else {
log("**** f_serverSyncClientsTimed: Sync server now starting handling of next synchronization point ... ****") ;
}
tc_sync.start(p_execTimeLimit) ;
alt{
[] syncPort.receive(m_syncClientReady(p_syncId)) -> sender v_clientRef {
v_clientRefs[v_noOfRecvdSyncMsgs] := v_clientRef;
v_noOfRecvdSyncMsgs := v_noOfRecvdSyncMsgs + 1;
if ( v_noOfRecvdSyncMsgs != p_NoOfClients ) { repeat; }
}
[] syncPort.receive(m_syncClientStop) -> sender v_clientRef {
log("**** f_serverSyncClientsTimed: Sync server received STOP signal from a client - server will wait for all clients to reach their next synchronization point and then stop them! ****") ;
v_stopClients := true;
v_clientRefs[v_noOfRecvdSyncMsgs] := v_clientRef;
v_noOfRecvdSyncMsgs := v_noOfRecvdSyncMsgs + 1;
if ( v_noOfRecvdSyncMsgs != p_NoOfClients ) { repeat; }
}
[] syncPort.receive(m_syncClientReady(?)) -> sender v_clientRef {
log("**** f_serverSyncClientsTimed: Sync server received client sync message with incorrect synchronization point id which is currently not handled - server will stop all clients! ****") ;
v_stopClients := true;
v_clientRefs[v_noOfRecvdSyncMsgs] := v_clientRef; }
[] syncPort.receive(SyncCmd :? ) {
log("**** f_serverSyncClientsTimed: Sync server received (invalid) sync message from other sync server - server will stop all clients! ****") ;
v_stopClients := true; }
[] any port.receive {
// leave it to be ok to receive anything else
// in case that the user has added any non-sync ports to
// his/her server component type definition!
}
[] tc_sync.timeout{
log("**** f_serverSyncClientsTimed: A client is not responding within specified time limit - sync server is sending stop to all clients! ****");
v_stopClients := true; }
} //end alt
tc_sync.stop ;
if ( v_stopClients ) {
setverdict(inconc);
// then send out STOP sync msg
f_serverSendToAllClients(v_clientRefs, m_syncServerStop);
f_serverWaitForAllClientsToShutDown(); // function will never return!
} else {
setverdict(pass);
// then send out READY sync msg
f_serverSendToAllClients(v_clientRefs, m_syncServerReady(p_syncId));
if ( p_syncId == c_prDone ) {
log("**** f_serverSyncClientsTimed: Sync server successfully passed PREAMBLE synchronization point. ****") ;
} else if ( p_syncId == c_tbDone ) {
log("**** f_serverSyncClientsTimed: Sync server successfully passed TEST BODY synchronization point. ****") ;
} else {
log("**** f_serverSyncClientsTimed: Sync server successfully passed synchronization point. ****") ;
}
}
} // end function f_serverSyncClientsTimed
/**
* @desc This function is intended only for use on the sync
* server component in concurrent TTCN-3 test cases.
* It waits for all components to finish execution within
* the PX_TSYNC_TIME_LIMIT. If a timeout occurs
* the server will stop all clients.
* This function sets the server component verdict.
*/
function f_serverWaitForAllClientsToStop()
runs on ServerSyncComp {
tc_sync.start;
alt {
[] all component.done {
tc_sync.stop;
log("**** f_serverWaitForAllClientsToStop: All sync clients have finished their execution. Sync server now terminating test case. ****") ;
}
[] tc_sync.timeout {
log("**** f_serverWaitForAllClientsToStop: Not all sync clients have finshed execution within the sync time limit. Sync server will stop test case! ****") ;
}
} // end alt
setverdict(pass);
stop;
} // end function f_serverWaitForAllClientsToStop
} // end group serverRelated
group clientRelated {
/**
* @desc This function creates the connection needed to
* execute client synchronization functions
* @see LibCommon_Sync.f_clientSync
* @see LibCommon_Sync.f_clientSendStop
*/
function f_connect4ClientSync()
runs on ClientSyncComp {
connect(self:syncPort, mtc:syncPort);
}// end function f_connect4ClientSync
/**
* @desc This function removes the connection needed
* to execute client synchronization functions
* @see LibCommon_Sync.f_clientSync
* @see LibCommon_Sync.f_clientSendStop
*/
function f_disconnect4ClientSync()
runs on ClientSyncComp {
disconnect(self:syncPort, mtc:syncPort);
}// end function f_disconnect4ClientSync
/**
* @desc This function combines client verdict setting with its
* synchronization for use after or within a preamble
* implementation.
* Note that such preambles can _not_ be reused in non-
* concurrent test cases.
* This function sets the client component verdict.
* @remark The use of this function requires prior connection
* of the client sync port!
* @see LibCommon_Sync.f_connect4ClientSync
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_VerdictControl.f_setVerdictPreamble
* @param p_syncId Synchronization point name/id
* @param p_ret Current behavior execution status
*/
function f_clientSyncAndVerdictPreamble(in charstring p_syncId ,
FncRetCode p_ret )
runs on ClientSyncComp {
f_setVerdictPreamble(p_ret);
f_clientSync(p_syncId,p_ret);
}
/**
* @desc This function combines client verdict setting with its
* synchronization for use,e.g, after or within a
* test body implementation.
* Note that such premables can _not_ be reused in non-
* concurrent test cases. This can be achieved by using
* the f_selfOrClientSyncAndVerdict function instead.
* This function sets the client component verdict.
* @param p_syncId Synchronization point name/id
* @param p_ret Current behavior execution status
* @remark The use of this function requires prior connection
* of the client sync port!
* @see LibCommon_Sync.f_connect4ClientSync
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_VerdictControl.f_setVerdict
* @see LibCommon_Sync.f_selfOrClientSyncAndVerdict
*/
function f_clientSyncAndVerdict(in charstring p_syncId,
in FncRetCode p_ret )
runs on ClientSyncComp {
f_setVerdict(p_ret);
f_clientSync(p_syncId,p_ret);
}
/**
* @desc This function combines client verdict setting with its
* synchronization for use after or within a
* postamble implementation.
* Note that such prostambles can _not_ be reused in non-
* concurrent test cases.
* This function sets the client component verdict.
* @remark The use of this function requires prior connection
* of the client sync port!
* @see LibCommon_Sync.f_connect4ClientSync
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_VerdictControl.f_setVerdictPostamble
* @param p_syncId Synchronization point name/id
* @param p_ret Current behavior execution status
*/
function f_clientSyncAndVerdictPostamble(in charstring p_syncId ,
in FncRetCode p_ret )
runs on ClientSyncComp {
f_setVerdictPostamble(p_ret);
f_clientSync(p_syncId,p_ret);
}
/**
* @desc This function handles synchronization of a sync client
* with the server. In case of successful execution it sends
* a READY message to the server and waits the READY back.
* The time used for waiting is defined by PX_TSYNC_TIME_LIMIT.
* In case of a non successful execution status it
* sends a STOP message to the server.
* In both cases the receipt of a STOP message or no
* response from the server it will trigger the shutdown
* default (if activated).
* This function will set only the client verdict to INCONC
* (and stop its execution) if no STOP response is received
* from the server within the PX_TSYNC_TIME_LIMIT
* or if no shutdown default is activated. In all other
* cases the client verdict is NOT set.
* @param p_syncId Synchronization point name/id
* @param p_ret Current behavior execution status
* @remark The use of this function requires prior connection
* of the client sync port!
* @see LibCommon_Sync.f_connect4ClientSync
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_Sync.PX_TSYNC_TIME_LIMIT
* @see LibCommon_Sync.a_dummyShutDown
* @see LibCommon_Sync.f_clientSendStop
* @return Updated execution status
*/
function f_clientSync( in charstring p_syncId ,
in FncRetCode p_ret )
runs on ClientSyncComp
return FncRetCode{
if (p_ret == e_success){
syncPort.send(m_syncClientReady(p_syncId));
tc_sync.start;
alt{
[] syncPort.receive(m_syncServerReady(p_syncId)){
tc_sync.stop ; }
[] tc_sync.timeout{
log("**** f_clientSync: Sync client did not receive message from sync server within the specified time limit - sync client will ask sync server to stop test case! ****") ;
f_clientSendStop(); } // function will not return!
} //end alt
} //end if
else {
log("**** f_clientSync: Execution status indicates that execution of test component behavior was not successful - sync client will ask sync server to stop test case! ****") ;
f_clientSendStop(); // function will not return!
}
if ( p_syncId == c_prDone ) {
log("**** f_clientSync: Sync client successfully passed PREAMBLE synchronization point. ****") ;
} else if ( p_syncId == c_tbDone ) {
log("**** f_clientSync: Sync client successfully passed TEST BODY synchronization point. ****") ;
} else {
log("**** f_clientSync: Sync client successfully passed synchronization point. ****") ;
}
return e_success ;
} // end function f_clientSync
/**
* @desc This function can be used to request the shutdown a
* multi component test case _prior_ to reaching a
* synchronization point. It sends a STOP message to
* the sync server and awaits then the STOP from the server
* which will trigger the shutdown default (if activated).
* This function will set the server verdict to INCONC (and
* stop the test case) if no shutdown default is activated.
* This function will set only the client verdict to INCONC
* (and stop its execution) if no STOP response is received
* from the server within the PX_TSYNC_TIME_LIMIT
* or if no shutdown default is activated. In all other
* cases the client verdict is NOT set.
* @remark The use of this function requires prior connection
* of the client sync port!
* @see LibCommon_Sync.f_connect4ClientSync
* @see LibCommon_Sync.f_connect4SelfOrClientSync
* @see LibCommon_Sync.PX_TSYNC_TIME_LIMIT
* @see LibCommon_Sync.a_dummyShutDown
*/
function f_clientSendStop()
runs on ClientSyncComp {
log("**** f_clientSendStop: Sync client requesting from server to stop test case (including itself). ****") ;
syncPort.send(m_syncClientStop) ;
tc_sync.start;
alt{
[] tc_sync.timeout{
log("**** f_clientSendStop: Stopping sync client without shutdown - either no shutdown default active or no stop received from server. ****") ;
setverdict(inconc);
stop ;
}
}//end alt
tc_sync.stop;
stop; // stop here if shutdown default does not stop
}
} // end group clientRelated
} // end group advancedUserRelevantDefinitions
group otherSyncModuleDefinitions {
group syncModuleparams {
/**
*
* @desc Default time limit for a sync client to reach a
* synchronization point
*/
modulepar {float PX_TSYNC_TIME_LIMIT := 120.0}
/*
* @desc Default time limit for a sync client to finish
* its execution of the shutdown default
*/
modulepar {float PX_TSHUT_DOWN_TIME_LIMIT := 120.0}
}
group otherSyncTypes {
type record of charstring SyncPointList;
type record of ClientSyncComp ClientSyncCompList;
} // end group otherSyncTypes
group otherSelfSyncRelatedDefinitions {
/**
* @desc This function creates the connection needed to
* execute self sync functions
* @see LibCommon_Sync.f_selfSync
* @see LibCommon_Sync.f_selfSyncStop
*/
function f_connect4SelfSync()
runs on SelfSyncComp {
connect(self:syncSendPort, self:syncPort);
}// end function f_connect4SelfSync
/**
* @desc This function removes the connection needed
* to execute self sync functions
* @see LibCommon_Sync.f_selfSync
* @see LibCommon_Sync.f_selfSyncStop
*/
function f_disconnect4SelfSync()
runs on SelfSyncComp {
disconnect(self:syncSendPort, self:syncPort);
}// end function f_disconnect4SelfSync
/**
* @desc This function combines MTC verdict setting with self
* synchronization for use after and possibly in the test body
* @param p_syncId Synchronization point name/id
* @param p_ret Current behavior execution status
* @see LibCommon_VerdictControl.f_setVerdict
* @see LibCommon_Sync.f_selfSync
* @see LibCommon_Sync.a_dummyShutDown
*/
function f_selfSyncAndVerdict( in charstring p_syncId,
in FncRetCode p_ret )
runs on SelfSyncComp {
f_setVerdict(p_ret);
f_selfSync(p_syncId,p_ret);
}
/**
* @desc This function combines MTC verdict setting with self
* synchronization for use after the preamble.
* @param p_syncId Synchronization point name/id
* @param p_ret Current behavior execution status
* @see LibCommon_VerdictControl.f_setVerdictPreamble
* @see LibCommon_Sync.f_selfSync
*/
function f_selfSyncAndVerdictPreamble( in charstring p_syncId,
in FncRetCode p_ret )
runs on SelfSyncComp {
f_setVerdictPreamble(p_ret);
f_selfSync(p_syncId,p_ret);
}
/**
* @desc This function combines MTC verdict setting with self
* synchronization for use after the postamble.
* @param p_syncId Synchronization point name/id
* @param p_ret Current behavior execution status
* @see LibCommon_VerdictControl.f_setVerdictPostamble
* @see LibCommon_Sync.f_selfSync
*/
function f_selfSyncAndVerdictPostamble( in charstring p_syncId ,
in FncRetCode p_ret )
runs on SelfSyncComp {
f_setVerdictPostamble(p_ret);