Leaked source code of windows server 2003
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#include "precomp.h"
//
// Application Loader
//
#define MLZ_FILE_ZONE ZONE_OM
//
// ALP_Init()
//
BOOL ALP_Init(BOOL * pfCleanup)
{
BOOL fInit = FALSE;
DebugEntry(ALP_Init);
UT_Lock(UTLOCK_AL);
if (g_putAL || g_palPrimary)
{
*pfCleanup = FALSE;
ERROR_OUT(("Can't start AL primary task; already running"));
DC_QUIT;
}
else
{
//
// From this point on, there is cleanup to do.
//
*pfCleanup = TRUE;
}
//
// Register AL task
//
if (!UT_InitTask(UTTASK_AL, &g_putAL))
{
ERROR_OUT(("Failed to start AL task"));
DC_QUIT;
}
//
// Allocate PRIMARY data
//
g_palPrimary = (PAL_PRIMARY)UT_MallocRefCount(sizeof(AL_PRIMARY), TRUE);
if (!g_palPrimary)
{
ERROR_OUT(("Failed to allocate AL memory block"));
DC_QUIT;
}
SET_STAMP(g_palPrimary, ALPRIMARY);
g_palPrimary->putTask = g_putAL;
//
// Register an exit and event proc
//
UT_RegisterExit(g_putAL, ALPExitProc, g_palPrimary);
g_palPrimary->exitProcRegistered = TRUE;
UT_RegisterEvent(g_putAL, ALPEventProc, g_palPrimary, UT_PRIORITY_NORMAL);
g_palPrimary->eventProcRegistered = TRUE;
if (!CMS_Register(g_putAL, CMTASK_AL, &g_palPrimary->pcmClient))
{
ERROR_OUT(("Could not register ALP with CMS"));
DC_QUIT;
}
//
// Register as an OBMAN Secondary task (call OM_Register())
//
if (OM_Register(g_putAL, OMCLI_AL, &g_palPrimary->pomClient) != 0)
{
ERROR_OUT(( "Could not register ALP with OBMAN"));
DC_QUIT;
}
fInit = TRUE;
DC_EXIT_POINT:
UT_Unlock(UTLOCK_AL);
DebugExitBOOL(ALP_Init, fInit);
return(fInit);
}
//
// ALP_Term()
//
void ALP_Term(void)
{
DebugEntry(ALP_Term);
UT_Lock(UTLOCK_AL);
if (g_palPrimary)
{
ValidateALP(g_palPrimary);
ValidateUTClient(g_putAL);
//
// Deregister from Call Manager (if registered call CM_Deregister())
//
if (g_palPrimary->pcmClient)
{
CMS_Deregister(&g_palPrimary->pcmClient);
}
//
// Deregister from OBMAN (if registered call OM_Deregister())
//
if (g_palPrimary->pomClient)
{
OM_Deregister(&g_palPrimary->pomClient);
}
//
// Do our own task termination
//
ALPExitProc(g_palPrimary);
}
UT_TermTask(&g_putAL);
UT_Unlock(UTLOCK_AL);
DebugExitVOID(ALP_Term);
}
//
// ALPExitProc()
//
void CALLBACK ALPExitProc(LPVOID data)
{
PAL_PRIMARY palPrimary = (PAL_PRIMARY)data;
UINT i;
DebugEntry(ALPExitProc);
UT_Lock(UTLOCK_AL);
ValidateALP(palPrimary);
ASSERT(palPrimary == g_palPrimary);
//
// Deregister event procedure
//
if (palPrimary->eventProcRegistered)
{
UT_DeregisterEvent(g_putAL, ALPEventProc, palPrimary);
palPrimary->eventProcRegistered = FALSE;
}
//
// Deregister exit procedure (if registered call UT_DeregisterExit()
//
if (palPrimary->exitProcRegistered)
{
UT_DeregisterExit(g_putAL, ALPExitProc, palPrimary);
palPrimary->exitProcRegistered = FALSE;
}
//
// Free memory
//
UT_FreeRefCount((void**)&g_palPrimary, TRUE);
UT_Unlock(UTLOCK_AL);
DebugExitVOID(ALPExitProc);
}
//
// ALPEventProc()
//
BOOL CALLBACK ALPEventProc
(
LPVOID data,
UINT event,
UINT_PTR param1,
UINT_PTR param2
)
{
PAL_PRIMARY palPrimary = (PAL_PRIMARY)data;
BOOL processed = FALSE;
DebugEntry(ALPEventProc);
UT_Lock(UTLOCK_AL);
ValidateALP(palPrimary);
switch (event)
{
case AL_INT_RETRY_NEW_CALL:
// Retry new call
ALNewCall(palPrimary, (UINT)param1, (UINT)param2);
processed = TRUE;
break;
case CMS_NEW_CALL:
// First try new call
ALNewCall(palPrimary, AL_NEW_CALL_RETRY_COUNT, (UINT)param2);
break;
case CMS_END_CALL:
ALEndCall(palPrimary, (UINT)param2);
break;
case OM_WSGROUP_REGISTER_CON:
ALWorksetRegisterCon(palPrimary,
((POM_EVENT_DATA32)&param2)->correlator,
((POM_EVENT_DATA32)&param2)->result,
((POM_EVENT_DATA16)&param1)->hWSGroup);
break;
case OM_WORKSET_OPEN_CON:
if ((((POM_EVENT_DATA16)&param1)->hWSGroup ==
palPrimary->alWSGroupHandle) &&
(((POM_EVENT_DATA16)&param1)->worksetID == 0) &&
(((POM_EVENT_DATA32)&param2)->result == 0) )
{
TRACE_OUT(( "OM_WORKSET_OPEN_CON OK for AL workset 0"));
palPrimary->alWorksetOpen = TRUE;
if (palPrimary->alWBRegPend)
ALLocalLoadResult(palPrimary, (palPrimary->alWBRegSuccess != FALSE));
}
break;
case OM_WORKSET_NEW_IND:
if (ALWorksetNewInd(palPrimary,
((POM_EVENT_DATA16)&param1)->hWSGroup,
((POM_EVENT_DATA16)&param1)->worksetID))
{
//
// The event was for a workset the Application Loader was
// expecting - don't pass it on
//
processed = TRUE;
}
break;
case OM_OBJECT_ADD_IND:
//
// See if it is a new workset group in an OBMAN control workset
// (call ALNewWorksetGroup())
//
// If it isn't then see if it is a load result in the
// Application Loader result workset (call ALRemoteLoadResult())
//
//
TRACE_OUT(( "OM_OBJECT_ADD_IND"));
if (ALNewWorksetGroup(palPrimary, ((POM_EVENT_DATA16)&param1)->hWSGroup,
(POM_OBJECT)param2))
{
//
// OBJECT_ADD was for an OBMAN control workset object Don't
// pass event on to other handlers.
//
TRACE_OUT(("OBJECT_ADD was for OBMAN workset group"));
processed = TRUE;
}
else
{
if (ALRemoteLoadResult(palPrimary, ((POM_EVENT_DATA16)&param1)->hWSGroup,
(POM_OBJECT)param2))
{
//
// OBJECT_ADD was for an AL remote result workset
// object Don't pass event on to other handlers.
//
TRACE_OUT(("OBJECT_ADD was for AL workset group"));
processed = TRUE;
}
}
break;
case OM_WORKSET_CLEAR_IND:
TRACE_OUT(( "OM_WORKSET_CLEAR_IND"));
if (palPrimary->alWSGroupHandle ==
((POM_EVENT_DATA16)&param1)->hWSGroup)
{
TRACE_OUT(( "Confirming OM_WORKSET_CLEAR_IND event"));
OM_WorksetClearConfirm(palPrimary->pomClient,
((POM_EVENT_DATA16)&param1)->hWSGroup,
((POM_EVENT_DATA16)&param1)->worksetID);
}
break;
case OM_OBJECT_DELETE_IND:
if (palPrimary->alWSGroupHandle ==
((POM_EVENT_DATA16)&param1)->hWSGroup)
{
OM_ObjectDeleteConfirm(palPrimary->pomClient,
((POM_EVENT_DATA16)&param1)->hWSGroup,
((POM_EVENT_DATA16)&param1)->worksetID,
(POM_OBJECT)param2);
}
break;
case OM_OBJECT_REPLACE_IND:
if (palPrimary->alWSGroupHandle ==
((POM_EVENT_DATA16)&param1)->hWSGroup)
{
OM_ObjectReplaceConfirm(palPrimary->pomClient,
((POM_EVENT_DATA16)&param1)->hWSGroup,
((POM_EVENT_DATA16)&param1)->worksetID,
(POM_OBJECT)param2);
}
break;
case OM_OBJECT_UPDATE_IND:
if (palPrimary->alWSGroupHandle ==
((POM_EVENT_DATA16)&param1)->hWSGroup)
{
OM_ObjectUpdateConfirm(palPrimary->pomClient,
((POM_EVENT_DATA16)&param1)->hWSGroup,
((POM_EVENT_DATA16)&param1)->worksetID,
(POM_OBJECT)param2);
}
break;
case AL_INT_STARTSTOP_WB:
ALStartStopWB(palPrimary, (LPCTSTR)param2);
processed = TRUE;
break;
default:
break;
}
UT_Unlock(UTLOCK_AL);
DebugExitBOOL(ALPEventProc, processed);
return(processed);
}
//
// ALNewCall()
//
void ALNewCall
(
PAL_PRIMARY palPrimary,
UINT retryCount,
UINT callID
)
{
UINT rc;
OM_WSGROUP_HANDLE hWSGroup;
CM_STATUS status;
DebugEntry(ALNewCall);
ValidateALP(palPrimary);
//
// Can we handle a new call?
//
if (palPrimary->inCall)
{
WARNING_OUT(("No more room for calls"));
DC_QUIT;
}
//
// Is ObMan/AppLoader/OldWB disabled for this call?
//
CMS_GetStatus(&status);
if (!(status.attendeePermissions & NM_PERMIT_USEOLDWBATALL))
{
WARNING_OUT(("Joining Meeting with no OLDWB AL at all"));
DC_QUIT;
}
//
// Register as a secondary with the OBMAN workset group for the new
// call:
//
rc = OM_WSGroupRegisterS(palPrimary->pomClient,
callID,
OMFP_OM,
OMWSG_OM,
&hWSGroup);
if ((rc == OM_RC_NO_PRIMARY) && (retryCount > 0))
{
//
// Although a call has started, ObMan hasn't joined it yet - we
// must have got the NEW_CALL event before it did. So, we'll try
// again after a short delay.
//
// Note that we cannot post the CMS_NEW_CALL event itself back to
// ourselves, because it is bad programming practice to post other
// people's events (e.g. CM could register a hidden handler which
// performs some non-repeatable operation on receipt of one of its
// events).
//
// Therefore, we post an internal AL event which we treat in the
// same way.
//
// To avoid retry forever, we use the first parameter of the event
// as a countdown retry count. The first time this function is
// called (on receipt of a genuine CMS_NEW_CALL) the count is set
// to the default. Each time we post a delay event, we decrement
// the value passed in and post that as param1. When it hits zero,
// we give up.
//
TRACE_OUT(("Got OM_RC_NO_PRIMARY from 2nd reg for call %d, %d retries left",
callID, retryCount));
UT_PostEvent(palPrimary->putTask,
palPrimary->putTask,
AL_RETRY_DELAY,
AL_INT_RETRY_NEW_CALL,
--retryCount,
callID);
DC_QUIT;
}
if (rc) // includes NO_PRIMARY when retry count == 0
{
//
// If we get any other error (or NO_PRIMARY when the retry count is
// zero, it's more serious:
//
// lonchanc: was ERROR_OUT (happened when hang up immediately place a call)
WARNING_OUT(( "Error registering with obman WSG, rc = %#x", rc));
DC_QUIT;
}
TRACE_OUT(("Registered as OBMANCONTROL secondary in call %d", callID));
//
// Record the call ID and the correlator in the call information in
// primary task memory
//
palPrimary->inCall = TRUE;
palPrimary->omWSGroupHandle = hWSGroup;
palPrimary->callID = callID;
palPrimary->alWSGroupHandle = 0;
//
// Now we want to open workset #0 in the OBMAN workset group, but it
// mightn't exist yet. As soon as it is created, we will get a
// WORKSET_NEW event, so we wait (asynchronously) for that.
//
//
// Now that we have opened the OBMAN workset group, we shall register
// with the application loader workset group
//
if (OM_WSGroupRegisterPReq(palPrimary->pomClient, callID,
OMFP_AL, OMWSG_AL, &palPrimary->omWSGCorrelator) != 0)
{
ERROR_OUT(( "Could not register AL workset group"));
}
DC_EXIT_POINT:
DebugExitVOID(ALNewCall);
}
//
// ALEndCall()
//
void ALEndCall
(
PAL_PRIMARY palPrimary,
UINT callID
)
{
UINT i;
DebugEntry(ALEndCall);
ValidateALP(palPrimary);
//
// See if we have information for this call
//
if (!palPrimary->inCall ||
(palPrimary->callID != callID))
{
//
// Not an error - we may not have joined the call yet.
//
TRACE_OUT(("Unexpected call %d", callID));
DC_QUIT;
}
//
// Deregister from the OBMAN workset group for the call (if registered
// call OM_WSGroupDeregister())
//
if (palPrimary->omWSGroupHandle)
{
OM_WSGroupDeregister(palPrimary->pomClient,
&palPrimary->omWSGroupHandle);
ASSERT(palPrimary->omWSGroupHandle == 0);
}
//
// Deregister from the AL workset group for the call (if registered
// call OM_WSGroupDeregister())
//
if (palPrimary->alWSGroupHandle)
{
OM_WSGroupDeregister(palPrimary->pomClient,
&palPrimary->alWSGroupHandle);
ASSERT(palPrimary->alWSGroupHandle == 0);
}
//
// Clear out all our call state variables
//
palPrimary->inCall = FALSE;
palPrimary->omWSGCorrelator = 0;
palPrimary->callID = 0;
palPrimary->omWSCorrelator = 0;
palPrimary->omUID = 0;
palPrimary->alWorksetOpen = FALSE;
palPrimary->alWBRegPend = FALSE;
DC_EXIT_POINT:
DebugExitVOID(ALEndCall);
}
//
// ALWorksetNewInd()
//
BOOL ALWorksetNewInd
(
PAL_PRIMARY palPrimary,
OM_WSGROUP_HANDLE hWSGroup,
OM_WORKSET_ID worksetID
)
{
BOOL fHandled = FALSE;
DebugEntry(ALWorksetNewInd);
ValidateALP(palPrimary);
if (worksetID != 0)
{
TRACE_OUT(( "Workset ID is %u, ignoring and passing event on",
worksetID));
DC_QUIT;
}
if (!palPrimary->inCall ||
(palPrimary->omWSGroupHandle != hWSGroup))
{
TRACE_OUT(("Got WORKSET_NEW_IND for WSG %d, but not in call", hWSGroup));
DC_QUIT;
}
//
// Now open the workset (secondary Open, so synchronous):
//
if (OM_WorksetOpenS(palPrimary->pomClient, palPrimary->omWSGroupHandle, 0) != 0)
{
ERROR_OUT(( "Error opening OBMAN control workset"));
palPrimary->inCall = FALSE;
DC_QUIT;
}
TRACE_OUT(("Opened OBMANCONTROL workset #0 in call %d", palPrimary->callID));
fHandled = TRUE;
DC_EXIT_POINT:
DebugExitBOOL(ALWorksetNewInd, fHandled);
return(fHandled);
}
//
// ALNewWorksetGroup()
//
BOOL ALNewWorksetGroup
(
PAL_PRIMARY palPrimary,
OM_WSGROUP_HANDLE omWSGroup,
POM_OBJECT pObj
)
{
BOOL fHandled = FALSE;
POM_OBJECTDATA pData = NULL;
OM_WSGROUP_INFO WSGInfo;
OMFP fpHandler;
BOOL fLoaded;
DebugEntry(ALNewWorksetGroup);
ValidateALP(palPrimary);
//
// If the workset group is not in out list of calls, then this event
// is for a group the Application Loader has registered with. The
// event should be passed onto other event procedures.
//
if (!palPrimary->inCall ||
(palPrimary->omWSGroupHandle != omWSGroup))
{
TRACE_OUT(("WSG 0x%x not the OBMAN WSG", omWSGroup));
DC_QUIT;
}
//
// This event is for us
//
fHandled = TRUE;
//
// If the workset group was not created locally
//
TRACE_OUT(("About to read object 0x%08x in OMC", pObj));
if (OM_ObjectRead(palPrimary->pomClient, omWSGroup, 0, pObj, &pData) != 0)
{
ERROR_OUT(( "Could not access object"));
DC_QUIT;
}
//
// Take a copy of the information so we can release the object straight
// away
//
memcpy(&WSGInfo, pData, min(sizeof(WSGInfo), pData->length));
//
// Release the object
//
OM_ObjectRelease(palPrimary->pomClient, omWSGroup, 0, pObj, &pData);
if (WSGInfo.idStamp != OM_WSGINFO_ID_STAMP)
{
TRACE_OUT(( "Not WSG Info - ignoring"));
DC_QUIT;
}
TRACE_OUT(("New WSG FP %s, name %s, ID = 0x%08x in call %d",
WSGInfo.functionProfile,
WSGInfo.wsGroupName,
WSGInfo.wsGroupID,
palPrimary->callID));
//
// Store the UID for the local OBMAN in the new call
//
if (!palPrimary->omUID)
{
OM_GetNetworkUserID(palPrimary->pomClient, omWSGroup, &(palPrimary->omUID));
}
//
// Ignore workset groups created by the local machine
//
if (WSGInfo.creator == palPrimary->omUID)
{
TRACE_OUT(("WSG %s created locally - ignoring", WSGInfo.functionProfile));
DC_QUIT;
}
//
// Is this a workset we care about? I.E. not a backlevel clipboard
// or whatever thing.
//
fpHandler = OMMapNameToFP(WSGInfo.functionProfile);
if (fpHandler != OMFP_WB)
{
//
// We don't care about this one.
//
TRACE_OUT(("Obsolete workset %s from another party", WSGInfo.functionProfile));
DC_QUIT;
}
//
// If prevented by policy, don't launch it either.
//
if (g_asPolicies & SHP_POLICY_NOOLDWHITEBOARD)
{
WARNING_OUT(("Failing auto-launch of old whiteboard; prevented by policy"));
}
else
{
// Old whiteboard...
fLoaded = ALStartStopWB(palPrimary, NULL);
ALLocalLoadResult(palPrimary, fLoaded);
}
DC_EXIT_POINT:
DebugExitBOOL(ALNewWorksetGroup, fHandled);
return(fHandled);
}
//
// ALLocalLoadResult()
//
void ALLocalLoadResult
(
PAL_PRIMARY palPrimary,
BOOL success
)
{
PTSHR_AL_LOAD_RESULT pAlLoadObject;
POM_OBJECT pObjNew;
POM_OBJECTDATA pDataNew;
CM_STATUS cmStatus;
DebugEntry(ALLocalLoadResult);
//
// Have we accessed the workset correctly yet?
//
if (!palPrimary->alWorksetOpen && palPrimary->inCall)
{
TRACE_OUT(("AL Workset not open yet; deferring local load result"));
palPrimary->alWBRegPend = TRUE;
palPrimary->alWBRegSuccess = (success != FALSE);
DC_QUIT;
}
//
// Clear out pending reg stuff
//
palPrimary->alWBRegPend = FALSE;
//
// Create an object to be used to inform remote sites of the result of
// the load.
//
if (OM_ObjectAlloc(palPrimary->pomClient, palPrimary->alWSGroupHandle, 0,
sizeof(*pAlLoadObject), &pDataNew) != 0)
{
ERROR_OUT(("Could not allocate AL object for WB load"));
DC_QUIT;
}
//
// Fill in information about object
//
pDataNew->length = sizeof(*pAlLoadObject);
pAlLoadObject = (PTSHR_AL_LOAD_RESULT)pDataNew->data;
//
// HERE'S WHERE WE MAP the FP constant back to a string
//
lstrcpy(pAlLoadObject->szFunctionProfile, OMMapFPToName(OMFP_WB));
CMS_GetStatus(&cmStatus);
lstrcpy(pAlLoadObject->personName, cmStatus.localName);
pAlLoadObject->result = (success ? AL_LOAD_SUCCESS : AL_LOAD_FAIL_BAD_EXE);
//
// Add object to Application Loader workset
//
if (OM_ObjectAdd(palPrimary->pomClient, palPrimary->alWSGroupHandle, 0,
&pDataNew, 0, &pObjNew, LAST) != 0)
{
ERROR_OUT(("Could not add WB load object to AL WSG"));
//
// Free object
//
OM_ObjectDiscard(palPrimary->pomClient, palPrimary->alWSGroupHandle,
0, &pDataNew);
DC_QUIT;
}
//
// Now that we have added the object - lets delete it!
//
// This may sound strange, but every application that has this workset
// open will receive OBJECT_ADD events and be able to read the object
// before they confirm the delete. This means that all the Application
// Loader primary tasks in the call will be able to record the result
// of this attempted load.
//
// Deleting the object here is the simplest way of tidying up the
// workset.
//
OM_ObjectDelete(palPrimary->pomClient, palPrimary->alWSGroupHandle,
0, pObjNew);
DC_EXIT_POINT:
DebugExitVOID(ALLocalLoadResult);
}
//
// ALWorksetRegister()
//
void ALWorksetRegisterCon
(
PAL_PRIMARY palPrimary,
UINT correlator,
UINT result,
OM_WSGROUP_HANDLE hWSGroup
)
{
DebugEntry(ALWorksetRegisterCon);
ValidateALP(palPrimary);
//
// See if this an event for the Application Loader function profile
//
if (!palPrimary->inCall ||
(palPrimary->omWSGCorrelator != correlator))
{
TRACE_OUT(( "OM_WSGROUP_REGISTER_CON not for us"));
DC_QUIT;
}
palPrimary->omWSGCorrelator = 0;
//
// Store the workset group handle if the registration was successful
//
if (result)
{
WARNING_OUT(("Could not register with AL function profile, %#hx",
result));
DC_QUIT;
}
palPrimary->alWSGroupHandle = hWSGroup;
TRACE_OUT(("Opened AL workset group, handle 0x%x", hWSGroup));
//
// Open workset 0 in the workset group - this will be used to transfer
// 'load results' from site to site
//
OM_WorksetOpenPReq(palPrimary->pomClient,
palPrimary->alWSGroupHandle,
0,
NET_LOW_PRIORITY,
FALSE,
&palPrimary->omWSCorrelator);
DC_EXIT_POINT:
DebugExitVOID(ALWorksetRegisterCon);
}
//
// ALRemoteLoadResult()
//
BOOL ALRemoteLoadResult
(
PAL_PRIMARY palPrimary,
OM_WSGROUP_HANDLE alWSGroup,
POM_OBJECT pObj
)
{
CM_STATUS cmStatus;
BOOL fHandled = FALSE;
POM_OBJECTDATA pData = NULL;
TSHR_AL_LOAD_RESULT alLoadResult;
DebugEntry(ALRemoteLoadResult);
ValidateALP(palPrimary);
//
// Find the call information stored for this call
//
// If the workset group is not in out list of calls, then this event
// is for a group the Application Loader has registered with. The
// event should be passed onto other event procedures.
//
if (!palPrimary->inCall ||
(palPrimary->alWSGroupHandle != alWSGroup))
{
TRACE_OUT(("WSG 0x%x not the AL WSG", alWSGroup));
DC_QUIT;
}
//
// We care
//
fHandled = TRUE;
//
// Read the object
//
if (OM_ObjectRead(palPrimary->pomClient, alWSGroup, 0, pObj, &pData) != 0)
{
ERROR_OUT(( "Could not access object"));
DC_QUIT;
}
//
// Take a copy of the information so we can release the object straight
// away
//
memcpy(&alLoadResult, &pData->data, sizeof(alLoadResult));
//
// Release the object
//
OM_ObjectRelease(palPrimary->pomClient, alWSGroup, 0, pObj, &pData);
//
// Convert the machine name to a person handle for this machine
//
TRACE_OUT(("Load result for FP %s is %d for person %s",
alLoadResult.szFunctionProfile,
alLoadResult.result,
alLoadResult.personName));
//
// If the load was successful, don't bother notifying WB; it isn't
// going to do anything.
//
if (alLoadResult.result == AL_LOAD_SUCCESS)
{
TRACE_OUT(("Load was successful; Whiteboard doesn't care"));
DC_QUIT;
}
//
// If this was us, also don't notify WB.
//
CMS_GetStatus(&cmStatus);
if (!lstrcmp(alLoadResult.personName, cmStatus.localName))
{
TRACE_OUT(("Load was for local dude; Whiteboard doesn't care"));
DC_QUIT;
}
//
// Map function profile to type
//
if (OMMapNameToFP(alLoadResult.szFunctionProfile) == OMFP_WB)
{
if (palPrimary->putWB != NULL)
{
UT_PostEvent(palPrimary->putTask,
palPrimary->putWB,
0,
ALS_REMOTE_LOAD_RESULT,
alLoadResult.result,
0);
}
}
DC_EXIT_POINT:
DebugExitBOOL(ALRemoteLoadResult, fHandled);
return(fHandled);
}
//
// ALStartStopWB()
//
// This takes care of starting/stopping the old Whiteboard applet. This is
// no longer a separate EXE. It is now a DLL (though still MFC) which gets
// loaded in CONF's process. We take care of LoadLibrary()ing it the first
// time it is pulled in, either via normal or auto launch. Then we call into
// it to get a new thread/window.
//
// By having CONF post a message to the primary task, where autolaunch also
// happens, we get the load synchronized. It is only ever done from the
// same thread, meaning we don't have to create extra protection for our
// variables.
//
// fNewWB is a TEMP HACK variable to launch the new whiteboard until we
// have the T.120 wiring in place
//
BOOL ALStartStopWB(PAL_PRIMARY palPrimary, LPCTSTR szFileNameCopy)
{
BOOL fSuccess;
DebugEntry(ALStartStopWB);
if (!palPrimary->putWB)
{
//
// Whiteboard isn't running, we can only start it.
//
// This won't return until WB is initialized and registered.
// We own the AL lock, so we don't have to worry about starting
// more than one thread at a time, etc.
//
DCS_StartThread(OldWBThreadProc);
}
fSuccess = (palPrimary->putWB != NULL);
if (fSuccess)
{
UT_PostEvent(palPrimary->putTask, palPrimary->putWB,
0, ALS_LOCAL_LOAD, 0, (UINT_PTR)szFileNameCopy);
}
DebugExitBOOL(ALStartStopWB, fSuccess);
return(fSuccess);
}
//
// This is the whiteboard thread. We have the thread code actually in our
// DLL, so we can control when WB is running. The proc loads the WB dll,
// calls Run(), then frees the dll.
//
DWORD WINAPI OldWBThreadProc(LPVOID hEventWait)
{
DWORD rc = 0;
HMODULE hLibWB;
PFNINITWB pfnInitWB;
PFNRUNWB pfnRunWB;
PFNTERMWB pfnTermWB;
DebugEntry(OldWBThreadProc);
//
// Load the WB library
//
hLibWB = NmLoadLibrary(TEXT("nmoldwb.dll"),FALSE);
if (!hLibWB)
{
ERROR_OUT(("Can't start 2.x whiteboard; nmoldwb.dll not loaded"));
DC_QUIT;
}
pfnInitWB = (PFNINITWB)GetProcAddress(hLibWB, "InitWB");
pfnRunWB = (PFNRUNWB)GetProcAddress(hLibWB, "RunWB");
pfnTermWB = (PFNTERMWB)GetProcAddress(hLibWB, "TermWB");
if (!pfnInitWB || !pfnRunWB || !pfnTermWB)
{
ERROR_OUT(("Can't start 2.x whiteboard; nmoldwb.dll is wrong version"));
DC_QUIT;
}
//
// Let WB do its thing. When it has inited, it will pulse the event,
// which will let the caller continue.
//
if (!pfnInitWB())
{
ERROR_OUT(("Couldn't initialize whiteboard"));
}
else
{
//
// The AL/OM thread is blocked waiting for us to set the event.
// It owns the AL critsect. So we can modify the global variable
// without taking the critsect.
//
ASSERT(g_palPrimary != NULL);
// Bump up shared mem ref count
UT_BumpUpRefCount(g_palPrimary);
// Save WB task for event posting
ASSERT(g_autTasks[UTTASK_WB].dwThreadId);
g_palPrimary->putWB = &g_autTasks[UTTASK_WB];
// Register exit cleanup proc
UT_RegisterExit(g_palPrimary->putWB, ALSExitProc, NULL);
//
// Let the caller continue. The run code is going to do message
// loop stuff.
//
SetEvent((HANDLE)hEventWait);
pfnRunWB();
//
// This will cleanup if we haven't already
//
ALSExitProc(NULL);
}
pfnTermWB();
DC_EXIT_POINT:
if (hLibWB != NULL)
{
//
// Free the WB dll
//
FreeLibrary(hLibWB);
}
return(0);
}
//
// ALSExitProc()
//
void CALLBACK ALSExitProc(LPVOID data)
{
DebugEntry(ALSecExitProc);
UT_Lock(UTLOCK_AL);
ASSERT(g_palPrimary != NULL);
//
// Deregister exit procedure (if registered call UT_DeregisterExit()
// with ALSecExitProc()).
//
UT_DeregisterExit(g_palPrimary->putWB, ALSExitProc, NULL);
g_palPrimary->putWB = NULL;
//
// Bump down ref count on AL primary
//
UT_FreeRefCount((void**)&g_palPrimary, TRUE);
UT_Unlock(UTLOCK_AL);
DebugExitVOID(ALSExitProc);
}