Source code of Windows XP (NT5)
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#include "precomp.h"
DEBUG_FILEZONE(ZONE_T120_SAP);
/*
* csap.cpp
*
* Copyright (c) 1995 by DataBeam Corporation, Lexington, KY
*
* Abstract:
* This implementation file for the CControlSAP class contains Service
* Access entry and exit points specific to the Node Controller. This
* module inherits the common entry and exit points from the CBaseSap object.
* On request and responses, parameter checking is performed to ensure that
* they can be properly processed. Queuing and flushing of out bound
* messages is taken care of in the base class.
*
* Protected Instance Variables:
* See file SAP.CPP for definitions of instance variables.
*
* Private Instance Variables:
* m_nJoinResponseTag:
* This tag is used to match join request with join responses from the
* node controller.
*
* m_JoinResponseTagList2:
* This list keeps up with all the outstanding join response tags.
* Tags are added to this list on a join indication and removed
* from this list on a Join response.
*
* Private Member Functions:
* IsNumericNameValid
* This routine is used to validate a numeric string by checking to
* make sure that none of the constraints imposed by the ASN.1
* specification are violated.
* IsTextNameValid
* This routine is used to validate a text string by checking to make
* sure that none of the constraints imposed by the ASN.1 specification
* are violated.
* QueueJoinIndication
* This routine is used to place join indications into the queue of
* messages to be delivered to the node controller.
* HandleResourceFailure
* This routine is used to clean up after any resource allocation
* failures which may have occurred by sending a status indication
* reporting the error.
* FreeCallbackMessage
* This routine is used to free up any data which was allocated in
* order to send a callback message to the node controller.
* RetrieveUserDataList
* This routine is used to fill in a user data list using a
* CUserDataListContainer container. The memory needed to hold the user data
* will be allocated by this routine.
*
* Caveats:
* None.
*
* Author:
* blp
*/
#include "ms_util.h"
#include "csap.h"
#include "conf.h"
#include "gcontrol.h"
// Defintions to support Join Response Tag hash list
#define MAXIMUM_CONFERENCE_NAME_LENGTH 255
// This is how much time the apps have to cleanup with MCS and GCC
// after GCCCleanup is called. They may be terminated if they do not
// cleanup in this amount of time.
#define PROCESS_TERMINATE_TIME 5000
/*
* Static variables used within the C to C++ converter.
*
* Static_Controller
* This is a pointer to the one-and-only controller created within the
* GCC system. This object is created during
* GCCStartup by the process
* that is taking on the responsibilities of the node controller.
*/
GCCController *g_pGCCController = NULL;
CControlSAP *g_pControlSap = NULL;
char g_szGCCWndClassName[24];
// The MCS main thread handle
extern HANDLE g_hMCSThread;
/*
* GCCError GCCStartup()
*
* Public
*
* Functional Description:
* This API entry point is used to initialize the GCC DLL for action. It
* creates an instance of the Controller, which controls all activity
* during a GCC session. Note that there is only one instance of the
* Controller, no matter how many applications are utilizing GCC
* services.
*/
GCCError WINAPI T120_CreateControlSAP
(
IT120ControlSAP **ppIControlSap,
LPVOID pUserDefined,
LPFN_T120_CONTROL_SAP_CB pfnControlSapCallback
)
{
GCCError rc;
if (NULL != ppIControlSap && NULL != pfnControlSapCallback)
{
if (NULL == g_pGCCController && NULL == g_pControlSap)
{
//
// Create the window class for all the SAPs, including both
// control SAP and applet SAP.
//
WNDCLASS wc;
::wsprintfA(g_szGCCWndClassName, "GCC%0lx_%0lx", (UINT) ::GetCurrentProcessId(), (UINT) ::GetTickCount());
ASSERT(::lstrlenA(g_szGCCWndClassName) < sizeof(g_szGCCWndClassName));
::ZeroMemory(&wc, sizeof(wc));
// wc.style = 0;
wc.lpfnWndProc = SapNotifyWndProc;
// wc.cbClsExtra = 0;
// wc.cbWndExtra = 0;
wc.hInstance = g_hDllInst;
// wc.hIcon = NULL;
// wc.hbrBackground = NULL;
// wc.hCursor = NULL;
// wc.lpszMenuName = NULL;
wc.lpszClassName = g_szGCCWndClassName;
if (::RegisterClass(&wc))
{
/*
* This process is to become the node controller. Create a
* controller object to carry out these duties.
*/
DBG_SAVE_FILE_LINE
g_pGCCController = new GCCController(&rc);
if (NULL != g_pGCCController && GCC_NO_ERROR == rc)
{
/*
** Create the control SAP. Note that the Node Controller
** interface must be in place before this is called so
** that the control SAP can register itself.
*/
DBG_SAVE_FILE_LINE
g_pControlSap = new CControlSAP();
if (NULL != g_pControlSap)
{
/*
* Tell the application interface object what it
* needs to know send callbacks to the node
* controller.
*/
TRACE_OUT(("T120_CreateControlSAP: controller successfully created"));
*ppIControlSap = g_pControlSap;
g_pControlSap->RegisterNodeController(pfnControlSapCallback, pUserDefined);
}
else
{
ERROR_OUT(("T120_CreateControlSAP: can't create CControlSAP"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
ERROR_OUT(("T120_CreateControlSAP: deleting faulty controller"));
if (NULL != g_pGCCController)
{
g_pGCCController->Release();
g_pGCCController = NULL;
}
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
ERROR_OUT(("T120_CreateControlSAP: can't register window class, err=%u", (UINT) GetLastError()));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
ERROR_OUT(("T120_CreateControlSAP: GCC has already been initialized, g_pControlSap=0x%x, g_pGCCCotnroller=0x%x", g_pControlSap, g_pGCCController));
rc = GCC_ALREADY_INITIALIZED;
}
}
else
{
ERROR_OUT(("T120_CreateControlSAP: null pointers, ppIControlSap=0x%x, pfnControlSapCallback=0x%x", ppIControlSap, pfnControlSapCallback));
rc = GCC_INVALID_PARAMETER;
}
return rc;
}
/*
* GCCError GCCCleanup()
*
* Public
*
* Functional Description:
* This function deletes the controller (if one exists). It is VERY
* important that only the routine that successfully called
* GCCInitialize call this routine. Once this routine has been called,
* all other GCC calls will fail.
*/
void CControlSAP::ReleaseInterface ( void )
{
UnregisterNodeController();
/*
* Destroy the controller, which will clean up all
* resources in use at this time. Then reset the flag
* indicating that GCC is initialized (since it no
* longer is).
*/
TRACE_OUT(("GCCControlSap::ReleaseInterface: deleting controller"));
g_pGCCController->Release();
// This is how much time the apps have to cleanup with MCS and GCC
// after GCCCleanup is called. They may be terminated if they do not
// cleanup in this amount of time.
if (WAIT_TIMEOUT == ::WaitForSingleObject(g_hMCSThread, PROCESS_TERMINATE_TIME))
{
WARNING_OUT(("GCCControlSap::ReleaseInterface: Timed out waiting for MCS thread to exit. Apps did not cleanup in time."));
}
::CloseHandle(g_hMCSThread);
g_hMCSThread = NULL;
//
// LONCHANC: We should free control sap after exiting the GCC work thread
// because the work thread may still use the control sap to flush messages.
//
Release();
::UnregisterClass(g_szGCCWndClassName, g_hDllInst);
}
/*
* CControlSAP()
*
* Public Function Description
* This is the control sap constructor. It is responsible for
* registering control sap with the application interface via
* an owner callback.
*/
CControlSAP::CControlSAP ( void )
:
CBaseSap(MAKE_STAMP_ID('C','S','a','p')),
m_pfnNCCallback(NULL),
m_pNCData(NULL),
m_nJoinResponseTag(0),
m_JoinResponseTagList2()
{
}
/*
* ~CControlSap()
*
* Public Function Description
* This is the controller destructor. It is responsible for
* flushing any pending upward bound messages and freeing all
* the resources tied up with pending messages. Also it clears
* the message queue and queue of command targets that are registered
* with it. Actually all command targets at this point should
* already have been unregistered but this is just a double check.
*/
CControlSAP::~CControlSAP ( void )
{
//
// No one should use this global pointer any more.
//
ASSERT(this == g_pControlSap);
g_pControlSap = NULL;
}
void CControlSAP::PostCtrlSapMsg ( GCCCtrlSapMsgEx *pCtrlSapMsgEx )
{
//
// LONCHANC: GCC WorkThread may also get to here.
// For instance, the following stack trace happen during exiting a conference.
// CControlSAP::AddToMessageQueue()
// CControlSAP::ConfDisconnectConfirm()
// CConf::DisconnectProviderIndication()
// CConf::Owner-Callback()
// MCSUser::FlushOutgoingPDU()
// CConf::FlushOutgoingPDU()
// GCCController::EventLoop()
// GCCControllerThread(void * 0x004f1bf0)
//
ASSERT(NULL != m_hwndNotify);
::PostMessage(m_hwndNotify,
CSAPMSG_BASE + (UINT) pCtrlSapMsgEx->Msg.message_type,
(WPARAM) pCtrlSapMsgEx,
(LPARAM) this);
}
#if defined(GCCNC_DIRECT_INDICATION) || defined(GCCNC_DIRECT_CONFIRM)
void CControlSAP::SendCtrlSapMsg ( GCCCtrlSapMsg *pCtrlSapMsg )
{
extern DWORD g_dwNCThreadID;
ASSERT(g_dwNCThreadID == ::GetCurrentThreadId());
if (NULL != m_pfnNCCallback)
{
pCtrlSapMsg->user_defined = m_pNCData;
(*m_pfnNCCallback)(pCtrlSapMsg);
}
}
#endif // GCCNC_DIRECT_INDICATION || GCCNC_DIRECT_CONFIRM
/*
* void RegisterNodeController()
*
* Public Functional Description:
* This routine sets up the node controller callback structure which
* holds all the information needed by GCC to perform a node controller
* callback. It also sets up the task switching window required to
* perform the context switch.
*/
/*
* void UnregisterNodeController()
*
* Public Functional Description:
*/
/*
* ConfCreateRequest()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* create request from the node controller. This function just passes this
* request to the controller via an owner callback.
*/
GCCError CControlSAP::ConfCreateRequest
(
GCCConfCreateRequest *pReq,
GCCConfID *pnConfID
)
{
GCCError rc;
CONF_CREATE_REQUEST ccr;
DebugEntry(CControlSAP::ConferenceCreateRequest);
// initialize for cleanup
ccr.convener_password = NULL;
ccr.password = NULL;
ccr.user_data_list = NULL;
// copy security setting
ccr.fSecure = pReq->fSecure;
/*
** This section of the code performs all the necessary parameter
** checking.
*/
// Check for invalid conference name
if (pReq->Core.conference_name != NULL)
{
/*
** Do not allow non-numeric or zero length strings to get
** past this point.
*/
if (pReq->Core.conference_name->numeric_string != NULL)
{
if (! IsNumericNameValid(pReq->Core.conference_name->numeric_string))
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: invalid numeric name=%s", pReq->Core.conference_name->numeric_string));
rc = GCC_INVALID_CONFERENCE_NAME;
goto MyExit;
}
}
else
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: null numeric string"));
rc = GCC_INVALID_CONFERENCE_NAME;
goto MyExit;
}
if (pReq->Core.conference_name->text_string != NULL)
{
if (! IsTextNameValid(pReq->Core.conference_name->text_string))
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: invalid text name=%s", pReq->Core.conference_name->text_string));
rc = GCC_INVALID_CONFERENCE_NAME;
goto MyExit;
}
}
}
else
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: null conf name"));
rc = GCC_INVALID_CONFERENCE_NAME;
goto MyExit;
}
// Check for valid conference modifier
if (pReq->Core.conference_modifier != NULL)
{
if (! IsNumericNameValid(pReq->Core.conference_modifier))
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: invalid conf modifier=%s", pReq->Core.conference_modifier));
rc = GCC_INVALID_CONFERENCE_MODIFIER;
goto MyExit;
}
}
// Check for valid convener password
if (pReq->convener_password != NULL)
{
if (pReq->convener_password->numeric_string != NULL)
{
if (! IsNumericNameValid(pReq->convener_password->numeric_string))
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: invalid convener password=%s", pReq->convener_password->numeric_string));
rc = GCC_INVALID_PASSWORD;
goto MyExit;
}
}
else
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: null convener password numeric string"));
rc = GCC_INVALID_PASSWORD;
goto MyExit;
}
// Construct the convener password container
DBG_SAVE_FILE_LINE
ccr.convener_password = new CPassword(pReq->convener_password, &rc);
if (ccr.convener_password == NULL || GCC_NO_ERROR != rc)
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: can't create convener password"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
}
// Check for valid password
if (pReq->password != NULL)
{
if (pReq->password->numeric_string != NULL)
{
if (! IsNumericNameValid(pReq->password->numeric_string))
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: invalid password=%s", pReq->password->numeric_string));
rc = GCC_INVALID_PASSWORD;
goto MyExit;
}
}
else
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: null password numeric string"));
rc = GCC_INVALID_PASSWORD;
goto MyExit;
}
// Construct the password container
DBG_SAVE_FILE_LINE
ccr.password = new CPassword(pReq->password, &rc);
if (ccr.password == NULL || GCC_NO_ERROR != rc)
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: can't create password"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
}
if (pReq->Core.connection_handle == NULL)
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: bad connection handle"));
rc = GCC_BAD_CONNECTION_HANDLE_POINTER;
goto MyExit;
}
/*
** If no errors occurred start building the general purpose containers
** to be passed on.
*/
// copy the core component which has the same representation in both API and internal
ccr.Core = pReq->Core;
// Construct the user data list container
if (pReq->number_of_user_data_members != 0)
{
DBG_SAVE_FILE_LINE
ccr.user_data_list = new CUserDataListContainer(pReq->number_of_user_data_members, pReq->user_data_list, &rc);
if (ccr.user_data_list == NULL || GCC_NO_ERROR != rc)
{
ERROR_OUT(("CControlSAP::ConfCreateRequest: can't create user data list container"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
}
// Perform the owner callback
::EnterCriticalSection(&g_csGCCProvider);
rc = g_pGCCController->ConfCreateRequest(&ccr, pnConfID);
::LeaveCriticalSection(&g_csGCCProvider);
MyExit:
// Free up all the containers
// Free up the convener password container
if (ccr.convener_password != NULL)
{
ccr.convener_password->Release();
}
// Free up the password container
if (ccr.password != NULL)
{
ccr.password->Release();
}
// Free up any memory used in callback
if (ccr.user_data_list != NULL)
{
ccr.user_data_list->Release();
}
DebugExitINT(CControlSAP::ConferenceCreateRequest, rc);
return rc;
}
/*
* ConfCreateResponse ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* create response from the node controller, to be sent to the provider
* that issued the conference create request. This function just passes
* this request to the controller via an owner callback.
*/
GCCError CControlSAP::ConfCreateResponse
(
GCCNumericString conference_modifier,
GCCConfID conference_id,
BOOL use_password_in_the_clear,
PDomainParameters domain_parameters,
UINT number_of_network_addresses,
PGCCNetworkAddress * local_network_address_list,
UINT number_of_user_data_members,
PGCCUserData * user_data_list,
GCCResult result
)
{
GCCError rc = GCC_NO_ERROR;
ConfCreateResponseInfo create_response_info;
DebugEntry(CControlSAP::ConfCreateResponse);
/*
** This section of the code performs all the necessary parameter
** checking.
*/
// Check for valid conference modifier
if (conference_modifier != NULL)
{
if (IsNumericNameValid(conference_modifier) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfCreateResponse: invalid conf modifier"));
rc = GCC_INVALID_CONFERENCE_MODIFIER;
}
}
/*
** If no errors occurred fill in the info structure and pass it on to the
** owner object.
*/
if (rc == GCC_NO_ERROR)
{
// Construct the user data list
if (number_of_user_data_members != 0)
{
DBG_SAVE_FILE_LINE
create_response_info.user_data_list = new CUserDataListContainer(
number_of_user_data_members,
user_data_list,
&rc);
if (create_response_info.user_data_list == NULL)
{
ERROR_OUT(("CControlSAP::ConfCreateResponse: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
create_response_info.user_data_list = NULL;
}
if (rc == GCC_NO_ERROR)
{
// Fill in the conference create info structure and send it on
create_response_info.conference_modifier = conference_modifier;
create_response_info.conference_id = conference_id;
create_response_info.use_password_in_the_clear =
use_password_in_the_clear;
create_response_info.domain_parameters = domain_parameters;
create_response_info.number_of_network_addresses =
number_of_network_addresses;
create_response_info.network_address_list =
local_network_address_list;
create_response_info.result = result;
// Perform the owner callback
::EnterCriticalSection(&g_csGCCProvider);
rc = g_pGCCController->ConfCreateResponse(&create_response_info);
::LeaveCriticalSection(&g_csGCCProvider);
}
if (create_response_info.user_data_list != NULL)
{
create_response_info.user_data_list->Release();
}
}
DebugExitINT(CControlSAP::ConfCreateResponse, rc);
return rc;
}
/*
* ConfQueryRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* query request from the node controller. This function just passes
* this request to the controller via an owner callback.
*/
GCCError CControlSAP::ConfQueryRequest
(
GCCNodeType node_type,
PGCCAsymmetryIndicator asymmetry_indicator,
TransportAddress calling_address,
TransportAddress called_address,
BOOL fSecure,
UINT number_of_user_data_members,
PGCCUserData * user_data_list,
PConnectionHandle connection_handle
)
{
GCCError rc = GCC_NO_ERROR;
ConfQueryRequestInfo conf_query_request_info;
DebugEntry(CControlSAP::ConfQueryRequest);
// Check for an invalid called address.
if (called_address == NULL)
{
ERROR_OUT(("CControlSAP::ConfQueryRequest: invalid transport"));
rc = GCC_INVALID_TRANSPORT;
}
// Check for an invalid connection handle.
if (connection_handle == NULL)
{
ERROR_OUT(("CControlSAP::ConfQueryRequest: null connection handle"));
rc = GCC_BAD_CONNECTION_HANDLE_POINTER;
}
// Check for a valid node type.
if ((node_type != GCC_TERMINAL) &&
(node_type != GCC_MULTIPORT_TERMINAL) &&
(node_type != GCC_MCU))
{
ERROR_OUT(("CControlSAP::ConfQueryRequest: invalid node type=%u", (UINT) node_type));
rc = GCC_INVALID_NODE_TYPE;
}
// Check for an invalid asymmetry indicator.
if (asymmetry_indicator != NULL)
{
if ((asymmetry_indicator->asymmetry_type != GCC_ASYMMETRY_CALLER) &&
(asymmetry_indicator->asymmetry_type != GCC_ASYMMETRY_CALLED) &&
(asymmetry_indicator->asymmetry_type != GCC_ASYMMETRY_UNKNOWN))
{
ERROR_OUT(("CControlSAP::ConfQueryRequest: invalid asymmetry indicator=%u", (UINT) asymmetry_indicator->asymmetry_type));
rc = GCC_INVALID_ASYMMETRY_INDICATOR;
}
}
// Create user data container if necessary.
if ((number_of_user_data_members != 0) &&
(rc == GCC_NO_ERROR))
{
DBG_SAVE_FILE_LINE
conf_query_request_info.user_data_list = new CUserDataListContainer (
number_of_user_data_members,
user_data_list,
&rc);
if (conf_query_request_info.user_data_list == NULL)
{
ERROR_OUT(("CControlSAP::ConfQueryRequest: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
conf_query_request_info.user_data_list = NULL;
}
// Call back the controller to send the response.
if (rc == GCC_NO_ERROR)
{
conf_query_request_info.node_type = node_type;
conf_query_request_info.asymmetry_indicator = asymmetry_indicator;
conf_query_request_info.calling_address = calling_address;
conf_query_request_info.called_address = called_address;
conf_query_request_info.connection_handle = connection_handle;
conf_query_request_info.fSecure = fSecure;
::EnterCriticalSection(&g_csGCCProvider);
rc = g_pGCCController->ConfQueryRequest(&conf_query_request_info);
::LeaveCriticalSection(&g_csGCCProvider);
}
if (conf_query_request_info.user_data_list != NULL)
{
conf_query_request_info.user_data_list->Release();
}
DebugExitINT(CControlSAP::ConfQueryRequest, rc);
return rc;
}
void CControlSAP::CancelConfQueryRequest ( ConnectionHandle hQueryReqConn )
{
DebugEntry(CControlSAP::CancelConfQueryRequest);
::EnterCriticalSection(&g_csGCCProvider);
g_pGCCController->CancelConfQueryRequest(hQueryReqConn);
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitVOID(CControlSAP::CancelConfQueryRequest);
}
/*
* ConfQueryResponse ()
*
* Public Function Description
* This function is called by the DLL interface when it gets a conference
* query response from the node controller. This function just passes
* this response to the controller via an owner callback.
*/
GCCError CControlSAP::ConfQueryResponse
(
GCCResponseTag query_response_tag,
GCCNodeType node_type,
PGCCAsymmetryIndicator asymmetry_indicator,
UINT number_of_user_data_members,
PGCCUserData * user_data_list,
GCCResult result
)
{
GCCError rc = GCC_NO_ERROR;
ConfQueryResponseInfo conf_query_response_info;
DebugEntry(CControlSAP::ConfQueryResponse);
// Check for a valid node type.
if ((node_type != GCC_TERMINAL) &&
(node_type != GCC_MULTIPORT_TERMINAL) &&
(node_type != GCC_MCU))
{
ERROR_OUT(("CControlSAP::ConfQueryResponse: invalid node type=%u", (UINT) node_type));
rc = GCC_INVALID_NODE_TYPE;
}
// Check for an invalid asymmetry indicator.
if (asymmetry_indicator != NULL)
{
if ((asymmetry_indicator->asymmetry_type != GCC_ASYMMETRY_CALLER) &&
(asymmetry_indicator->asymmetry_type != GCC_ASYMMETRY_CALLED) &&
(asymmetry_indicator->asymmetry_type != GCC_ASYMMETRY_UNKNOWN))
{
ERROR_OUT(("CControlSAP::ConfQueryResponse: invalid asymmetry indicator=%u", (UINT) asymmetry_indicator->asymmetry_type));
rc = GCC_INVALID_ASYMMETRY_INDICATOR;
}
}
// Create user data container if necessary.
if ((number_of_user_data_members != 0) &&
(rc == GCC_NO_ERROR))
{
DBG_SAVE_FILE_LINE
conf_query_response_info.user_data_list = new CUserDataListContainer(
number_of_user_data_members,
user_data_list,
&rc);
if (conf_query_response_info.user_data_list == NULL)
{
ERROR_OUT(("CControlSAP::ConfQueryResponse: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
conf_query_response_info.user_data_list = NULL;
}
// Call back the controller to send the response.
if (rc == GCC_NO_ERROR)
{
conf_query_response_info.query_response_tag = query_response_tag;
conf_query_response_info.node_type = node_type;
conf_query_response_info.asymmetry_indicator = asymmetry_indicator;
conf_query_response_info.result = result;
::EnterCriticalSection(&g_csGCCProvider);
rc = g_pGCCController->ConfQueryResponse(&conf_query_response_info);
::LeaveCriticalSection(&g_csGCCProvider);
}
// Free the data associated with the user data container.
if (conf_query_response_info.user_data_list != NULL)
{
conf_query_response_info.user_data_list->Release();
}
DebugExitINT(CControlSAP::ConfQueryResponse, rc);
return rc;
}
/*
* AnnouncePresenceRequest()
*
* Public Function Description
* This function is called by the interface when it gets an announce
* presence request from the node controller. This function passes this
* request on to the appropriate conference object as obtained from
* the list of command targets that control sap maintains. The ConferenceID
* passed in is used to index the list of command targets to get the
* correct conference.
*/
GCCError CControlSAP::AnnouncePresenceRequest
(
GCCConfID conference_id,
GCCNodeType node_type,
GCCNodeProperties node_properties,
LPWSTR pwszNodeName,
UINT number_of_participants,
LPWSTR * participant_name_list,
LPWSTR pwszSiteInfo,
UINT number_of_network_addresses,
PGCCNetworkAddress * network_address_list,
LPOSTR alternative_node_id,
UINT number_of_user_data_members,
PGCCUserData * user_data_list
)
{
GCCError rc = GCC_NO_ERROR;
GCCNodeRecord node_record;
DebugEntry(CControlSAP::AnnouncePresenceRequest);
// Check for a valid node type
if ((node_type != GCC_TERMINAL) &&
(node_type != GCC_MULTIPORT_TERMINAL) &&
(node_type != GCC_MCU))
{
ERROR_OUT(("CControlSAP::AnnouncePresenceRequest: invalid node type=%u", node_type));
rc = GCC_INVALID_NODE_TYPE;
}
// Check for valid node properties.
if ((node_properties != GCC_PERIPHERAL_DEVICE) &&
(node_properties != GCC_MANAGEMENT_DEVICE) &&
(node_properties != GCC_PERIPHERAL_AND_MANAGEMENT_DEVICE) &&
(node_properties != GCC_NEITHER_PERIPHERAL_NOR_MANAGEMENT))
{
ERROR_OUT(("CControlSAP::AnnouncePresenceRequest: invalid node properties=%u", node_properties));
rc = GCC_INVALID_NODE_PROPERTIES;
}
// Check to make sure the conference exists.
if (rc == GCC_NO_ERROR)
{
CConf *pConf;
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
// Fill in the node record and pass it on.
node_record.node_type = node_type;
node_record.node_properties = node_properties;
node_record.node_name = pwszNodeName;
node_record.number_of_participants = (USHORT)number_of_participants;
node_record.participant_name_list = participant_name_list;
node_record.site_information = pwszSiteInfo;
node_record.number_of_network_addresses = number_of_network_addresses;
node_record.network_address_list = network_address_list;
node_record.alternative_node_id = alternative_node_id;
node_record.number_of_user_data_members = (USHORT)number_of_user_data_members;
node_record.user_data_list = user_data_list;
// Pass the record on to the conference object.
rc = pConf->ConfAnnouncePresenceRequest(&node_record);
}
else
{
TRACE_OUT(("CControlSAP::AnnouncePresenceRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
}
DebugExitINT(CControlSAP::AnnouncePresenceRequest, rc);
return rc;
}
/*
* ConfDisconnectRequest()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* disconnect request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
GCCError CControlSAP::ConfDisconnectRequest ( GCCConfID conference_id )
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfDisconnectRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
// Pass the disconnect on to the conference object.
rc = pConf->ConfDisconnectRequest();
}
else
{
WARNING_OUT(("CControlSAP::ConfDisconnectRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfDisconnectRequest, rc);
return rc;
}
/*
* ConfTerminateRequest()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* terminate request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfTerminateRequest
(
GCCConfID conference_id,
GCCReason reason
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfTerminateRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
// Pass the disconnect on to the conference object
rc = pConf->ConfTerminateRequest(reason);
}
else
{
WARNING_OUT(("CControlSAP::ConfTerminateRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfTerminateRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfEjectUserRequest()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* eject user request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
GCCError CControlSAP::ConfEjectUserRequest
(
GCCConfID conference_id,
UserID ejected_node_id,
GCCReason reason
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfEjectUserRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (ejected_node_id < MINIMUM_USER_ID_VALUE)
{
ERROR_OUT(("CControlSAP::ConfEjectUserRequest: invalid mcs user ID=%u", (UINT) ejected_node_id));
rc = GCC_INVALID_MCS_USER_ID;
}
else
// Check to make sure the conference exists.
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
// Pass the command on to the conference object
rc = pConf->ConfEjectUserRequest(ejected_node_id, reason);
}
else
{
WARNING_OUT(("CControlSAP::ConfEjectUserRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfEjectUserRequest, rc);
return rc;
}
/*
* ConfJoinRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* join request from the node controller, to be sent to the top provider
* either directly or through a directly connected intermediate provider.
* This function just passes this request to the controller via an owner
* callback.
*/
GCCError CControlSAP::ConfJoinRequest
(
PGCCConferenceName conference_name,
GCCNumericString called_node_modifier,
GCCNumericString calling_node_modifier,
PGCCPassword convener_password,
PGCCChallengeRequestResponse password_challenge,
LPWSTR pwszCallerID,
TransportAddress calling_address,
TransportAddress called_address,
BOOL fSecure,
PDomainParameters domain_parameters,
UINT number_of_network_addresses,
PGCCNetworkAddress * local_network_address_list,
UINT number_of_user_data_members,
PGCCUserData * user_data_list,
PConnectionHandle connection_handle,
GCCConfID * pnConfID
)
{
GCCError rc = GCC_NO_ERROR;
ConfJoinRequestInfo join_request_info;
DebugEntry(CControlSAP::ConfJoinRequest);
// Check for invalid conference name
if (conference_name != NULL)
{
/*
** Check to make sure a valid conference name exists.
*/
if ((conference_name->numeric_string == NULL) &&
(conference_name->text_string == NULL))
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: invalid conference name (1)"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
/*
** If both numeric and text versions of the conference name exist,
** make sure they are both valid.
*/
else if ((conference_name->numeric_string != NULL) &&
(conference_name->text_string != NULL))
{
if ((IsNumericNameValid(conference_name->numeric_string) == FALSE)
|| (IsTextNameValid(conference_name->text_string) == FALSE))
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: invalid conference name (2)"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
}
/*
** If only a numeric version of the conference name is provided, check
** to make sure it is valid.
*/
else if (conference_name->numeric_string != NULL)
{
if (IsNumericNameValid(conference_name->numeric_string) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: invalid conference name (3)"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
}
/*
** If only a text version of the conference name is provided, check to
** make sure it is valid.
*/
else
{
if (IsTextNameValid(conference_name->text_string) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: invalid conference name (4)"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
}
}
else
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: invalid conference name (5)"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
// Check for valid called_node_modifier.
if (called_node_modifier != NULL)
{
if (IsNumericNameValid(called_node_modifier) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: invalid called node modifier"));
rc = GCC_INVALID_CONFERENCE_MODIFIER;
}
}
// Check for valid calling_node_modifier
if (calling_node_modifier != NULL)
{
if (IsNumericNameValid(calling_node_modifier) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: invalid calling node modifier"));
rc = GCC_INVALID_CONFERENCE_MODIFIER;
}
}
// Check for valid convener password
if (convener_password != NULL)
{
if (convener_password->numeric_string != NULL)
{
if (IsNumericNameValid(convener_password->numeric_string) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: invalid convener password"));
rc = GCC_INVALID_PASSWORD;
}
}
else
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: null convener password"));
rc = GCC_INVALID_PASSWORD;
}
}
if (connection_handle == NULL)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: null connection handle"));
rc = GCC_BAD_CONNECTION_HANDLE_POINTER;
}
if (called_address == NULL)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: null transport address"));
rc = GCC_INVALID_TRANSPORT_ADDRESS;
}
/*
** If no errors occurred start building the general purpose containers
** to be passed on.
*/
if (rc == GCC_NO_ERROR)
{
// Construct a convener password container
if (convener_password != NULL)
{
DBG_SAVE_FILE_LINE
join_request_info.convener_password = new CPassword(convener_password, &rc);
if (join_request_info.convener_password == NULL)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: can't create CPassword (1)"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
join_request_info.convener_password = NULL;
}
// Construct a password challenge container
if ((password_challenge != NULL) && (rc == GCC_NO_ERROR))
{
DBG_SAVE_FILE_LINE
join_request_info.password_challenge = new CPassword(password_challenge, &rc);
if (join_request_info.password_challenge == NULL)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: can't create CPassword (2)"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
join_request_info.password_challenge = NULL;
}
// Construct the user data list
if ((number_of_user_data_members != 0) &&
(rc == GCC_NO_ERROR))
{
DBG_SAVE_FILE_LINE
join_request_info.user_data_list = new CUserDataListContainer(
number_of_user_data_members,
user_data_list,
&rc);
if (join_request_info.user_data_list == NULL)
{
ERROR_OUT(("CControlSAP::ConfJoinRequest: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
join_request_info.user_data_list = NULL;
}
/*
** If all the containers were successfully created go ahead and
** fill in the rest of the create request info structure and pass
** it on to the owner object.
*/
if (rc == GCC_NO_ERROR)
{
join_request_info.conference_name = conference_name;
join_request_info.called_node_modifier = called_node_modifier;
join_request_info.calling_node_modifier =calling_node_modifier;
join_request_info.pwszCallerID = pwszCallerID;
join_request_info.calling_address = calling_address;
join_request_info.called_address = called_address;
join_request_info.fSecure = fSecure;
join_request_info.domain_parameters = domain_parameters;
join_request_info.number_of_network_addresses = number_of_network_addresses;
join_request_info.local_network_address_list = local_network_address_list;
join_request_info.connection_handle = connection_handle;
::EnterCriticalSection(&g_csGCCProvider);
rc = g_pGCCController->ConfJoinRequest(&join_request_info, pnConfID);
::LeaveCriticalSection(&g_csGCCProvider);
}
// Free up all the containers
// Free up the convener password container
if (join_request_info.convener_password != NULL)
{
join_request_info.convener_password->Release();
}
// Free up the password container
if (join_request_info.password_challenge != NULL)
{
join_request_info.password_challenge->Release();
}
// Free up any memory used in callback
if (join_request_info.user_data_list != NULL)
{
join_request_info.user_data_list->Release();
}
}
DebugExitINT(CControlSAP::ConfJoinRequest, rc);
return rc;
}
/*
* ConfJoinResponse ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* join response from the node controller. This routine is responsible
* for routing the response to either the conference that made the
* request or the controller. Responses which are routed to a conference
* are associated with requests that originate at a subnode that is a
* node removed from the Top Provider.
*/
GCCError CControlSAP::ConfJoinResponse
(
GCCResponseTag join_response_tag,
PGCCChallengeRequestResponse password_challenge,
UINT number_of_user_data_members,
PGCCUserData * user_data_list,
GCCResult result
)
{
GCCError rc = GCC_NO_ERROR;
PJoinResponseStructure join_info;
CPassword *password_challenge_container = NULL;
CUserDataListContainer *user_data_container = NULL;
DebugEntry(CControlSAP::ConfJoinResponse);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (join_info = m_JoinResponseTagList2.Find(join_response_tag)))
{
/*
** First create the data containers used in the join response.
*/
// Set up the password challenge container
if (password_challenge != NULL)
{
DBG_SAVE_FILE_LINE
password_challenge_container = new CPassword(password_challenge, &rc);
if (password_challenge_container == NULL)
{
ERROR_OUT(("CControlSAP::ConfJoinResponse: can't create CPassword"));
rc = GCC_ALLOCATION_FAILURE;
}
}
// Set up the user data list container
if ((number_of_user_data_members != 0) && (rc == GCC_NO_ERROR))
{
DBG_SAVE_FILE_LINE
user_data_container = new CUserDataListContainer(number_of_user_data_members, user_data_list, &rc);
if (user_data_container == NULL)
{
ERROR_OUT(("CControlSAP::ConfJoinResponse: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
if (rc == GCC_NO_ERROR)
{
if (join_info->command_target_call == FALSE)
{
ConfJoinResponseInfo join_response_info;
/*
** Since the request originated from the Owner Object the
** response gets routed to the Owner Object.
*/
join_response_info.password_challenge =
password_challenge_container;
join_response_info.conference_id = join_info->conference_id;
join_response_info.connection_handle =
join_info->connection_handle;
join_response_info.user_data_list = user_data_container;
join_response_info.result = result;
rc = g_pGCCController->ConfJoinIndResponse(&join_response_info);
}
else
{
CConf *pConf;
/*
** If the conference is terminated before the conference join
** is responded to, a GCC_INVALID_CONFERENCE errror will occur.
*/
if (NULL != (pConf = g_pGCCController->GetConfObject(join_info->conference_id)))
{
rc = pConf->ConfJoinReqResponse(
join_info->user_id,
password_challenge_container,
user_data_container,
result);
}
else
{
WARNING_OUT(("CControlSAP::ConfJoinResponse: invalid conference ID=%u", (UINT) join_info->conference_id));
rc = GCC_INVALID_CONFERENCE;
// If this error occurs go ahead and cleanup up
m_JoinResponseTagList2.Remove(join_response_tag);
delete join_info;
}
}
}
/*
** Remove the join information structure from the join response list
** if no error is returned.
*/
if (rc == GCC_NO_ERROR)
{
m_JoinResponseTagList2.Remove(join_response_tag);
delete join_info;
}
// Free up all the containers
// Free up the password challenge container
if (password_challenge_container != NULL)
{
password_challenge_container->Release();
}
// Free up any memory used in callback
if (user_data_container != NULL)
{
user_data_container->Release();
}
}
else
{
rc = GCC_INVALID_JOIN_RESPONSE_TAG;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfJoinResponse, rc);
return rc;
}
/*
* ConfInviteRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* invite request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
GCCError CControlSAP::ConfInviteRequest
(
GCCConfID conference_id,
LPWSTR pwszCallerID,
TransportAddress calling_address,
TransportAddress called_address,
BOOL fSecure,
UINT number_of_user_data_members,
PGCCUserData * user_data_list,
PConnectionHandle connection_handle
)
{
GCCError rc = GCC_NO_ERROR;
CUserDataListContainer *user_data_list_ptr = NULL;
DebugEntry(CControlSAP::ConfInviteRequest);
if (called_address == NULL)
{
ERROR_OUT(("CControlSAP::ConfInviteRequest: null called address"));
rc = GCC_INVALID_TRANSPORT_ADDRESS;
}
if (connection_handle == NULL)
{
ERROR_OUT(("CControlSAP::ConfInviteRequest: null connection handle"));
rc = GCC_BAD_CONNECTION_HANDLE_POINTER;
}
if (rc == GCC_NO_ERROR)
{
CConf *pConf;
::EnterCriticalSection(&g_csGCCProvider);
// Check to make sure the conference exists.
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
// Construct the user data list container
if (number_of_user_data_members != 0)
{
DBG_SAVE_FILE_LINE
user_data_list_ptr = new CUserDataListContainer(number_of_user_data_members, user_data_list, &rc);
if (user_data_list_ptr == NULL)
{
ERROR_OUT(("CControlSAP::ConfInviteRequest: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
// Send the request on to the conference object.
if (rc == GCC_NO_ERROR)
{
rc = pConf->ConfInviteRequest(pwszCallerID,
calling_address,
called_address,
fSecure,
user_data_list_ptr,
connection_handle);
}
// Free up any memory used in callback
if (user_data_list_ptr != NULL)
{
user_data_list_ptr->Release();
}
}
else
{
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
}
DebugExitINT(CControlSAP::ConfInviteRequest, rc);
return rc;
}
void CControlSAP::CancelInviteRequest
(
GCCConfID nConfID,
ConnectionHandle hInviteReqConn
)
{
CConf *pConf;
DebugEntry(CControlSAP::CancelInviteRequest);
::EnterCriticalSection(&g_csGCCProvider);
// Check to make sure the conference exists.
if (NULL != (pConf = g_pGCCController->GetConfObject(nConfID)))
{
pConf->CancelInviteRequest(hInviteReqConn);
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitVOID(CControlSAP::CancelInviteRequest);
}
GCCError CControlSAP::GetParentNodeID
(
GCCConfID nConfID,
GCCNodeID *pnidParent
)
{
GCCError rc = T120_INVALID_PARAMETER;
CConf *pConf;
DebugEntry(CControlSAP::GetParentNodeID);
if (NULL != pnidParent)
{
::EnterCriticalSection(&g_csGCCProvider);
// Check to make sure the conference exists.
if (NULL != (pConf = g_pGCCController->GetConfObject(nConfID)))
{
*pnidParent = pConf->GetParentNodeID();
rc = GCC_NO_ERROR;
}
::LeaveCriticalSection(&g_csGCCProvider);
}
DebugExitINT(CControlSAP::GetParentNodeID, rc);
return rc;
}
/*
* ConfInviteResponse ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* invite response from the node controller. This function passes the
* response on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
GCCError CControlSAP::ConfInviteResponse
(
GCCConfID conference_id,
GCCNumericString conference_modifier,
BOOL fSecure,
PDomainParameters domain_parameters,
UINT number_of_network_addresses,
PGCCNetworkAddress * local_network_address_list,
UINT number_of_user_data_members,
PGCCUserData * user_data_list,
GCCResult result
)
{
GCCError rc = GCC_NO_ERROR;
ConfInviteResponseInfo invite_response_info;
DebugEntry(CControlSAP::ConfInviteResponse);
// Check for invalid conference name
if (conference_modifier != NULL)
{
if (IsNumericNameValid(conference_modifier) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfInviteResponse: invalid conference modifier"));
rc = GCC_INVALID_CONFERENCE_MODIFIER;
}
}
/*
** If no errors occurred fill in the info structure and pass it on to the
** owner object.
*/
if (rc == GCC_NO_ERROR)
{
// Construct the user data list
if (number_of_user_data_members != 0)
{
DBG_SAVE_FILE_LINE
invite_response_info.user_data_list = new CUserDataListContainer(number_of_user_data_members, user_data_list, &rc);
if (invite_response_info.user_data_list == NULL)
{
ERROR_OUT(("CControlSAP::ConfInviteResponse: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
invite_response_info.user_data_list = NULL;
}
if (rc == GCC_NO_ERROR)
{
invite_response_info.conference_id = conference_id;
invite_response_info.conference_modifier = conference_modifier;
invite_response_info.fSecure = fSecure;
invite_response_info.domain_parameters = domain_parameters;
invite_response_info.number_of_network_addresses =
number_of_network_addresses;
invite_response_info.local_network_address_list =
local_network_address_list;
invite_response_info.result = result;
// Call back the controller to issue invite response.
::EnterCriticalSection(&g_csGCCProvider);
rc = g_pGCCController->ConfInviteResponse(&invite_response_info);
::LeaveCriticalSection(&g_csGCCProvider);
}
// Free up the data associated with the user data container.
if (invite_response_info.user_data_list != NULL)
{
invite_response_info.user_data_list->Release();
}
}
DebugExitINT(CControlSAP::ConfInviteResponse, rc);
return rc;
}
/*
* ConfLockRequest ()
*
* Public Function Description:
* This function is called by the interface when it gets a conference
* lock request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfLockRequest ( GCCConfID conference_id )
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfLockRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConfLockRequest();
}
else
{
WARNING_OUT(("CControlSAP::ConfInviteResponse: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfLockRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfLockResponse ()
*
* Public Function Description:
* This function is called by the interface when it gets a conference
* lock response from the node controller. This function passes the
* response on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
GCCError CControlSAP::ConfLockResponse
(
GCCConfID conference_id,
UserID requesting_node,
GCCResult result
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfLockResponse);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConfLockResponse(requesting_node, result);
}
else
{
WARNING_OUT(("CControlSAP::ConfLockResponse: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfLockResponse, rc);
return rc;
}
/*
* ConfUnlockRequest ()
*
* Public Function Description:
* This function is called by the interface when it gets a conference
* unlock request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfUnlockRequest ( GCCConfID conference_id )
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfUnlockRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConfUnlockRequest();
}
else
{
WARNING_OUT(("CControlSAP::ConfUnlockRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfUnlockRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfUnlockResponse ()
*
* Public Function Description:
* This function is called by the interface when it gets a conference
* unlock response from the node controller. This function passes the
* response on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfUnlockResponse
(
GCCConfID conference_id,
UserID requesting_node,
GCCResult result
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfUnlockResponse);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConfUnlockResponse(requesting_node, result);
}
else
{
WARNING_OUT(("CControlSAP::ConfUnlockResponse: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfUnlockResponse, rc);
return rc;
}
#endif // JASPER
/*
* ConductorAssignRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conductor
* assign request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorAssignRequest ( GCCConfID conference_id )
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConductorAssignRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConductorAssignRequest();
}
else
{
WARNING_OUT(("CControlSAP::ConductorAssignRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConductorAssignRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConductorReleaseRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conductor
* release request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorReleaseRequest ( GCCConfID conference_id )
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConductorReleaseRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConductorReleaseRequest();
}
else
{
WARNING_OUT(("CControlSAP::ConductorReleaseRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConductorReleaseRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConductorPleaseRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conductor
* please request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorPleaseRequest ( GCCConfID conference_id )
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConductorPleaseRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConductorPleaseRequest();
}
else
{
WARNING_OUT(("CControlSAP::ConductorPleaseRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConductorPleaseRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConductorGiveRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conductor
* give request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorGiveRequest
(
GCCConfID conference_id,
UserID recipient_user_id
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConductorGiveRequest);
// Make sure the ID of the conductorship recipient is valid.
if (recipient_user_id < MINIMUM_USER_ID_VALUE)
return (GCC_INVALID_MCS_USER_ID);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConductorGiveRequest (recipient_user_id);
}
else
{
WARNING_OUT(("CControlSAP::ConductorGiveRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConductorGiveRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConductorGiveResponse ()
*
* Public Function Description
* This function is called by the interface when it gets a conductor
* give response from the node controller. This function passes the
* response on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
GCCError CControlSAP::ConductorGiveResponse
(
GCCConfID conference_id,
GCCResult result
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConductorGiveResponse);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConductorGiveResponse (result);
}
else
{
WARNING_OUT(("CControlSAP::ConductorGiveResponse: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConductorGiveResponse, rc);
return rc;
}
/*
* ConductorPermitGrantRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conductor
* permit grant request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorPermitGrantRequest
(
GCCConfID conference_id,
UINT number_granted,
PUserID granted_node_list,
UINT number_waiting,
PUserID waiting_node_list
)
{
GCCError rc;
CConf *pConf;
UINT i;
DebugEntry(CControlSAP::ConductorPermitGrantRequest);
::EnterCriticalSection(&g_csGCCProvider);
// Check to make sure the conference exists.
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
/*
** Run through both lists to make sure that valid MCS User IDs
** are used.
*/
for (i = 0; i < number_granted; i++)
{
if (granted_node_list[i] < MINIMUM_USER_ID_VALUE)
{
ERROR_OUT(("CControlSAP::ConductorPermitGrantRequest: invalid granted user ID"));
rc = GCC_INVALID_MCS_USER_ID;
goto MyExit;
}
}
for (i = 0; i < number_waiting; i++)
{
if (waiting_node_list[i] < MINIMUM_USER_ID_VALUE)
{
ERROR_OUT(("CControlSAP::ConductorPermitGrantRequest: invalid waiting user ID"));
rc = GCC_INVALID_MCS_USER_ID;
goto MyExit;
}
}
rc = pConf->ConductorPermitGrantRequest(number_granted,
granted_node_list,
number_waiting,
waiting_node_list);
}
else
{
rc = GCC_INVALID_CONFERENCE;
}
MyExit:
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConductorPermitGrantRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConductorPermitAskRequest()
*
* Public Function Description
* This routine is called in order to ask for certain permissions to be
* granted (or not granted) by the conductor.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorPermitAskRequest
(
GCCConfID nConfID,
BOOL fGrantPermission
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConductorPermitAskRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(nConfID)))
{
rc = pConf->ConductorPermitAskRequest(fGrantPermission);
}
else
{
WARNING_OUT(("CControlSAP::ConductorPermitAskRequest: invalid conference ID=%u", (UINT) nConfID));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConductorPermitAskRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfTimeRemainingRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference time
* remaining request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
GCCError CControlSAP::ConfTimeRemainingRequest
(
GCCConfID conference_id,
UINT time_remaining,
UserID node_id
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfTimeRemainingRequest);
::EnterCriticalSection(&g_csGCCProvider);
// Check to make sure the node ID is valid and the conference exists.
if ((node_id < MINIMUM_USER_ID_VALUE) && (node_id != 0))
{
ERROR_OUT(("CControlSAP::ConfTimeRemainingRequest: invalid node ID"));
rc = GCC_INVALID_MCS_USER_ID;
}
else
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConferenceTimeRemainingRequest(time_remaining, node_id);
}
else
{
WARNING_OUT(("CControlSAP::ConfTimeRemainingRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfTimeRemainingRequest, rc);
return rc;
}
/*
* ConfTimeInquireRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference time
* inquire request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfTimeInquireRequest
(
GCCConfID conference_id,
BOOL time_is_conference_wide
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfTimeInquireRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConfTimeInquireRequest(time_is_conference_wide);
}
else
{
WARNING_OUT(("CControlSAP::ConfTimeInquireRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfTimeInquireRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfExtendRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* extend request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfExtendRequest
(
GCCConfID conference_id,
UINT extension_time,
BOOL time_is_conference_wide
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfExtendRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConfExtendRequest(extension_time, time_is_conference_wide);
}
else
{
WARNING_OUT(("CControlSAP::ConfExtendRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfExtendRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfAssistanceRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* assistance request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfAssistanceRequest
(
GCCConfID conference_id,
UINT number_of_user_data_members,
PGCCUserData * user_data_list
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::ConfAssistanceRequest);
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->ConfAssistanceRequest(number_of_user_data_members, user_data_list);
}
else
{
WARNING_OUT(("CControlSAP::ConfAssistanceRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfAssistanceRequest, rc);
return rc;
}
#endif // JASPER
/*
* TextMessageRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a text message
* request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::TextMessageRequest
(
GCCConfID conference_id,
LPWSTR pwszTextMsg,
UserID destination_node
)
{
GCCError rc;
CConf *pConf;
DebugEntry(CControlSAP::TextMessageRequest);
::EnterCriticalSection(&g_csGCCProvider);
// Check to make sure the node ID is valid and the conference exists.
if ((destination_node < MINIMUM_USER_ID_VALUE) &&
(destination_node != 0))
{
ERROR_OUT(("CControlSAP::TextMessageRequest: invalid user ID"));
rc = GCC_INVALID_MCS_USER_ID;
}
else
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
rc = pConf->TextMessageRequest(pwszTextMsg, destination_node);
}
else
{
WARNING_OUT(("CControlSAP::TextMessageRequest: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::TextMessageRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfTransferRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* transfer request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfTransferRequest
(
GCCConfID conference_id,
PGCCConferenceName destination_conference_name,
GCCNumericString destination_conference_modifier,
UINT number_of_destination_addresses,
PGCCNetworkAddress *destination_address_list,
UINT number_of_destination_nodes,
PUserID destination_node_list,
PGCCPassword password
)
{
GCCError rc = GCC_NO_ERROR;
CPassword *password_data = NULL;
CNetAddrListContainer *network_address_list = NULL;
UINT i = 0;
DebugEntry(CControlSAP::ConfTransferRequest);
// Check for invalid conference name
if (destination_conference_name != NULL)
{
/*
** Do not allow non-numeric or zero length strings to get
** past this point.
*/
if (destination_conference_name->numeric_string != NULL)
{
if (IsNumericNameValid (
destination_conference_name->numeric_string) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: invalid numeric conference name"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
}
else if (destination_conference_name->text_string != NULL)
{
if (IsTextNameValid (
destination_conference_name->text_string) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: invalid text conference name"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
}
else
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: null numeric/text conference name"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
if ((rc == GCC_NO_ERROR) &&
(destination_conference_name->text_string != NULL))
{
if (IsTextNameValid (
destination_conference_name->text_string) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: invalid text conference name"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
}
}
else
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: null conference name"));
rc = GCC_INVALID_CONFERENCE_NAME;
}
// Check for valid conference modifier
if ((destination_conference_modifier != NULL) &&
(rc == GCC_NO_ERROR))
{
if (IsNumericNameValid(destination_conference_modifier) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: invalid conference modifier"));
rc = GCC_INVALID_CONFERENCE_MODIFIER;
}
}
// Check for valid password
if ((password != NULL) &&
(rc == GCC_NO_ERROR))
{
if (password->numeric_string != NULL)
{
if (IsNumericNameValid(password->numeric_string) == FALSE)
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: invalid password"));
rc = GCC_INVALID_PASSWORD;
}
}
else
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: null password"));
rc = GCC_INVALID_PASSWORD;
}
}
// Check for invalid user IDs
if (rc == GCC_NO_ERROR)
{
while (i != number_of_destination_nodes)
{
if (destination_node_list[i] < MINIMUM_USER_ID_VALUE)
{
rc = GCC_INVALID_MCS_USER_ID;
break;
}
i++;
}
}
if (rc == GCC_NO_ERROR)
{
CConf *pConf;
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
// Construct the password container
if (password != NULL)
{
DBG_SAVE_FILE_LINE
password_data = new CPassword(password, &rc);
if (password_data == NULL)
{
ERROR_OUT(("CControlSAP::ConfTransferRequest: can't create CPassword"));
rc = GCC_ALLOCATION_FAILURE;
}
}
// Construct the network address(es) container
if ((number_of_destination_addresses != 0) &&
(rc == GCC_NO_ERROR))
{
DBG_SAVE_FILE_LINE
network_address_list = new CNetAddrListContainer(
number_of_destination_addresses,
destination_address_list,
&rc);
if (network_address_list == NULL)
{
ERROR_OUT(("CControlSAP::CNetAddrListContainer: can't create CPassword"));
rc = GCC_ALLOCATION_FAILURE;
}
}
if (rc == GCC_NO_ERROR)
{
rc = pConf->ConfTransferRequest(destination_conference_name,
destination_conference_modifier,
network_address_list,
number_of_destination_nodes,
destination_node_list,
password_data);
}
// Free the data associated with the containers.
if (password_data != NULL)
{
password_data->Release();
}
if (network_address_list != NULL)
{
network_address_list->Release();
}
}
else
{
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
}
DebugExitINT(CControlSAP::ConfTransferRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfAddRequest ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* add request from the node controller. This function passes the
* request on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
#ifdef JASPER
GCCError CControlSAP::ConfAddRequest
(
GCCConfID conference_id,
UINT number_of_network_addresses,
PGCCNetworkAddress * network_address_list,
UserID adding_node,
UINT number_of_user_data_members,
PGCCUserData * user_data_list
)
{
GCCError rc = GCC_NO_ERROR;
CNetAddrListContainer *network_address_container = NULL;
CUserDataListContainer *user_data_container = NULL;
CConf *pConf;
DebugEntry(CControlSAP::ConfAddRequest);
if ((adding_node < MINIMUM_USER_ID_VALUE) &&
(adding_node != 0))
{
ERROR_OUT(("CControlSAP::ConfAddRequest: invalid adding node ID"));
return GCC_INVALID_MCS_USER_ID;
}
if (number_of_network_addresses == 0)
{
ERROR_OUT(("CControlSAP::ConfAddRequest: no network address"));
return GCC_BAD_NETWORK_ADDRESS;
}
::EnterCriticalSection(&g_csGCCProvider);
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
// Construct the network address(es) container
if (number_of_network_addresses != 0)
{
DBG_SAVE_FILE_LINE
network_address_container = new CNetAddrListContainer(
number_of_network_addresses,
network_address_list,
&rc);
if (network_address_container == NULL)
{
ERROR_OUT(("CControlSAP::ConfAddRequest: can't create CNetAddrListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
// Construct the user data list container
if ((number_of_user_data_members != 0) &&
(rc == GCC_NO_ERROR))
{
DBG_SAVE_FILE_LINE
user_data_container = new CUserDataListContainer(number_of_user_data_members, user_data_list, &rc);
if (user_data_container == NULL)
{
ERROR_OUT(("CControlSAP::ConfAddRequest: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
user_data_container = NULL;
}
if (rc == GCC_NO_ERROR)
{
rc = pConf->ConfAddRequest(network_address_container,
adding_node,
user_data_container);
}
// Free the data associated with the containers.
if (network_address_container != NULL)
{
network_address_container->Release();
}
if (user_data_container != NULL)
{
user_data_container->Release();
}
}
else
{
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfAddRequest, rc);
return rc;
}
#endif // JASPER
/*
* ConfAddResponse ()
*
* Public Function Description
* This function is called by the interface when it gets a conference
* add response from the node controller. This function passes the
* response on to the appropriate conference object as obtained from
* the list of command targets that the control sap maintains.
*/
GCCError CControlSAP::ConfAddResponse
(
GCCResponseTag add_response_tag,
GCCConfID conference_id,
UserID requesting_node,
UINT number_of_user_data_members,
PGCCUserData * user_data_list,
GCCResult result
)
{
GCCError rc = GCC_NO_ERROR;
CUserDataListContainer *user_data_container = NULL;
CConf *pConf;
DebugEntry(CControlSAP::ConfAddResponse);
if (requesting_node < MINIMUM_USER_ID_VALUE)
{
ERROR_OUT(("CControlSAP::ConfAddResponse: invalid user ID"));
return GCC_INVALID_MCS_USER_ID;
}
::EnterCriticalSection(&g_csGCCProvider);
// Check to make sure the conference exists.
if (NULL != (pConf = g_pGCCController->GetConfObject(conference_id)))
{
// Construct the user data list container
if ((number_of_user_data_members != 0) &&
(rc == GCC_NO_ERROR))
{
DBG_SAVE_FILE_LINE
user_data_container = new CUserDataListContainer(number_of_user_data_members, user_data_list, &rc);
if (user_data_container == NULL)
{
ERROR_OUT(("CControlSAP::ConfAddResponse: can't create CUserDataListContainer"));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
user_data_container = NULL;
}
if (rc == GCC_NO_ERROR)
{
rc = pConf->ConfAddResponse(add_response_tag,
requesting_node,
user_data_container,
result);
}
// Free the data associated with the user data container.
if (user_data_container != NULL)
{
user_data_container->Release();
}
}
else
{
WARNING_OUT(("CControlSAP::ConfAddResponse: invalid conference ID=%u", (UINT) conference_id));
rc = GCC_INVALID_CONFERENCE;
}
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ConfAddResponse, rc);
return rc;
}
#ifdef NM_RESET_DEVICE
/*
* ResetDevice ()
*
* Public Function Description
* This routine is called in order to explicitly reset a particular
* transport stack. The call is routed to the controller in order to take
* the appropriate action.
*/
GCCError CControlSAP::ResetDevice ( LPSTR device_identifier )
{
GCCError rc;
MCSError mcs_error;
DebugEntry(CControlSAP::ResetDevice);
::EnterCriticalSection(&g_csGCCProvider);
// Call back the controller to reset the device.
mcs_error = g_pMCSIntf->ResetDevice(device_identifier);
rc = g_pMCSIntf->TranslateMCSIFErrorToGCCError(mcs_error);
//
// If the the node controller was in a query, this will tell the node controller
// to remove the query.
//
ConfQueryConfirm(GCC_TERMINAL, NULL, NULL, NULL,
GCC_RESULT_CONNECT_PROVIDER_FAILED, NULL);
::LeaveCriticalSection(&g_csGCCProvider);
DebugExitINT(CControlSAP::ResetDevice, rc);
return rc;
}
#endif // NM_RESET_DEVICE
/*
* ConfCreateIndication ()
*
* Public Function Description
* This function is called by the GCC Controller when it gets a connect
* provider indication from MCS, carrying a conference create request PDU.
* This function fills in all the parameters in the CreateIndicationInfo
* structure. It then adds it to a queue of messages supposed to be sent to
* the node controller in the next heartbeat.
*/
GCCError CControlSAP::ConfCreateIndication
(
PGCCConferenceName conference_name,
GCCConfID conference_id,
CPassword *convener_password,
CPassword *password,
BOOL conference_is_locked,
BOOL conference_is_listed,
BOOL conference_is_conductible,
GCCTerminationMethod termination_method,
PPrivilegeListData conductor_privilege_list,
PPrivilegeListData conducted_mode_privilege_list,
PPrivilegeListData non_conducted_privilege_list,
LPWSTR pwszConfDescriptor,
LPWSTR pwszCallerID,
TransportAddress calling_address,
TransportAddress called_address,
PDomainParameters domain_parameters,
CUserDataListContainer *user_data_list,
ConnectionHandle connection_handle
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfCreateIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CREATE_INDICATION;
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
conference_name,
&(Msg.u.create_indication.conference_name));
// Copy the Convener Password
::CSAP_CopyDataToGCCMessage_Password(
convener_password,
&(Msg.u.create_indication.convener_password));
// Copy the Password
::CSAP_CopyDataToGCCMessage_Password(
password,
&(Msg.u.create_indication.password));
// Copy the Conductor Privilege List
GCCConfPrivileges _ConductorPrivileges;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conductor_privilege_list,
&(Msg.u.create_indication.conductor_privilege_list),
&_ConductorPrivileges);
// Copy the Conducted-mode Conference Privilege List
GCCConfPrivileges _ConductedModePrivileges;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conducted_mode_privilege_list,
&(Msg.u.create_indication.conducted_mode_privilege_list),
&_ConductedModePrivileges);
// Copy the Non-Conducted-mode Conference Privilege List
GCCConfPrivileges _NonConductedPrivileges;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
non_conducted_privilege_list,
&(Msg.u.create_indication.non_conducted_privilege_list),
&_NonConductedPrivileges);
// Copy the Conference Descriptor
::CSAP_CopyDataToGCCMessage_IDvsDesc(
pwszConfDescriptor,
&(Msg.u.create_indication.conference_descriptor));
// Copy the Caller Identifier
::CSAP_CopyDataToGCCMessage_IDvsDesc(
pwszCallerID,
&(Msg.u.create_indication.caller_identifier));
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
calling_address,
&(Msg.u.create_indication.calling_address));
// Copy the Called Address
::CSAP_CopyDataToGCCMessage_Call(
called_address,
&(Msg.u.create_indication.called_address));
// Copy the Domain Parameters
DomainParameters _DomainParams;
::CSAP_CopyDataToGCCMessage_DomainParams(
domain_parameters,
&(Msg.u.create_indication.domain_parameters),
&_DomainParams);
// Copy the User Data
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.create_indication.number_of_user_data_members),
&(Msg.u.create_indication.user_data_list),
&pUserDataMemory);
}
else
{
Msg.u.create_indication.number_of_user_data_members = 0;
Msg.u.create_indication.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
// Queue up the message for delivery to the Node Controller.
Msg.nConfID = conference_id;
Msg.u.create_indication.conference_id = conference_id;
Msg.u.create_indication.conference_is_locked = conference_is_locked;
Msg.u.create_indication.conference_is_listed = conference_is_listed;
Msg.u.create_indication.conference_is_conductible = conference_is_conductible;
Msg.u.create_indication.termination_method = termination_method;
Msg.u.create_indication.connection_handle = connection_handle;
SendCtrlSapMsg(&Msg);
delete pUserDataMemory;
}
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CREATE_INDICATION, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.create_indication), sizeof(pMsgEx->Msg.u.create_indication));
}
else
{
ERROR_OUT(("CControlSAP::ConfCreateIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
pMsgEx->pToDelete,
conference_name,
&(pMsgEx->Msg.u.create_indication.conference_name),
&rc);
// Copy the Convener Password
::CSAP_CopyDataToGCCMessage_Password(
TRUE, // convener password
pMsgEx->pToDelete,
convener_password,
&(pMsgEx->Msg.u.create_indication.convener_password),
&rc);
// Copy the Password
::CSAP_CopyDataToGCCMessage_Password(
FALSE, // non-convener password
pMsgEx->pToDelete,
password,
&(pMsgEx->Msg.u.create_indication.password),
&rc);
// Copy the Conductor Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conductor_privilege_list,
&(pMsgEx->Msg.u.create_indication.conductor_privilege_list),
&rc);
pMsgEx->pToDelete->conductor_privilege_list = pMsgEx->Msg.u.create_indication.conductor_privilege_list;
// Copy the Conducted-mode Conference Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conducted_mode_privilege_list,
&(pMsgEx->Msg.u.create_indication.conducted_mode_privilege_list),
&rc);
pMsgEx->pToDelete->conducted_mode_privilege_list = pMsgEx->Msg.u.create_indication.conducted_mode_privilege_list;
// Copy the Non-Conducted-mode Conference Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
non_conducted_privilege_list,
&(pMsgEx->Msg.u.create_indication.non_conducted_privilege_list),
&rc);
pMsgEx->pToDelete->non_conducted_privilege_list = pMsgEx->Msg.u.create_indication.non_conducted_privilege_list;
// Copy the Conference Descriptor
::CSAP_CopyDataToGCCMessage_IDvsDesc(
FALSE, // conference descriptor
pMsgEx->pToDelete,
pwszConfDescriptor,
&(pMsgEx->Msg.u.create_indication.conference_descriptor),
&rc);
// Copy the Caller Identifier
::CSAP_CopyDataToGCCMessage_IDvsDesc(
TRUE, // caller id
pMsgEx->pToDelete,
pwszCallerID,
&(pMsgEx->Msg.u.create_indication.caller_identifier),
&rc);
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
TRUE, // calling address
pMsgEx->pToDelete,
calling_address,
&(pMsgEx->Msg.u.create_indication.calling_address),
&rc);
// Copy the Called Address
::CSAP_CopyDataToGCCMessage_Call(
FALSE, // called address
pMsgEx->pToDelete,
called_address,
&(pMsgEx->Msg.u.create_indication.called_address),
&rc);
// Copy the Domain Parameters
::CSAP_CopyDataToGCCMessage_DomainParams(
pMsgEx->pToDelete,
domain_parameters,
&(pMsgEx->Msg.u.create_indication.domain_parameters),
&rc);
if (GCC_NO_ERROR != rc)
{
ERROR_OUT(("CControlSAP::ConfCreateIndication: can't copy data to gcc message"));
goto MyExit;
}
// Copy the User Data
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(pMsgEx->Msg.u.create_indication.number_of_user_data_members),
&(pMsgEx->Msg.u.create_indication.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
if (GCC_NO_ERROR != rc)
{
goto MyExit;
}
}
else
{
// pMsgEx->Msg.u.create_indication.number_of_user_data_members = 0;
// pMsgEx->Msg.u.create_indication.user_data_list = NULL;
}
// Queue up the message for delivery to the Node Controller.
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.create_indication.conference_id = conference_id;
pMsgEx->Msg.u.create_indication.conference_is_locked = conference_is_locked;
pMsgEx->Msg.u.create_indication.conference_is_listed = conference_is_listed;
pMsgEx->Msg.u.create_indication.conference_is_conductible = conference_is_conductible;
pMsgEx->Msg.u.create_indication.termination_method = termination_method;
pMsgEx->Msg.u.create_indication.connection_handle = connection_handle;
PostIndCtrlSapMsg(pMsgEx);
MyExit:
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfCreateIndication, rc);
return rc;
}
/*
* ConfQueryIndication ()
*
* Public Function Description
* This function is called by the GCC Controller when it need to send a
* conference query indication to the node controller. It adds the message
* to a queue of messages to be sent to the node controller in the next
* heartbeat.
*/
GCCError CControlSAP::ConfQueryIndication
(
GCCResponseTag query_response_tag,
GCCNodeType node_type,
PGCCAsymmetryIndicator asymmetry_indicator,
TransportAddress calling_address,
TransportAddress called_address,
CUserDataListContainer *user_data_list,
ConnectionHandle connection_handle
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfQueryIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_QUERY_INDICATION;
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
calling_address,
&(Msg.u.query_indication.calling_address));
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
called_address,
&(Msg.u.query_indication.called_address));
// Copy the asymmetry indicator if it exists
GCCAsymmetryIndicator AsymIndicator;
if (asymmetry_indicator != NULL)
{
Msg.u.query_indication.asymmetry_indicator = &AsymIndicator;
AsymIndicator = *asymmetry_indicator;
}
else
{
Msg.u.query_indication.asymmetry_indicator = NULL;
}
// Lock and Copy the user data if it exists
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.query_indication.number_of_user_data_members),
&(Msg.u.query_indication.user_data_list),
&pUserDataMemory);
}
else
{
Msg.u.query_indication.number_of_user_data_members = 0;
Msg.u.query_indication.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
// If everything is OK add the message to the message queue
Msg.u.query_indication.query_response_tag = query_response_tag;
Msg.u.query_indication.node_type = node_type;
Msg.u.query_indication.connection_handle = connection_handle;
SendCtrlSapMsg(&Msg);
delete pUserDataMemory;
}
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_QUERY_INDICATION, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.query_indication), sizeof(pMsgEx->Msg.u.query_indication));
}
else
{
ERROR_OUT(("CControlSAP::ConfCreateIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
TRUE, // calling address
pMsgEx->pToDelete,
calling_address,
&(pMsgEx->Msg.u.query_indication.calling_address),
&rc);
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
FALSE, // called address
pMsgEx->pToDelete,
called_address,
&(pMsgEx->Msg.u.query_indication.called_address),
&rc);
if (GCC_NO_ERROR != rc)
{
ERROR_OUT(("CControlSAP::ConfQueryIndication: can't copy data to gcc message"));
goto MyExit;
}
// Copy the asymmetry indicator if it exists
if (asymmetry_indicator != NULL)
{
DBG_SAVE_FILE_LINE
pMsgEx->Msg.u.query_indication.asymmetry_indicator = new GCCAsymmetryIndicator;
if (pMsgEx->Msg.u.query_indication.asymmetry_indicator != NULL)
{
*(pMsgEx->Msg.u.query_indication.asymmetry_indicator) = *asymmetry_indicator;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
}
else
{
// pMsgEx->Msg.u.query_indication.asymmetry_indicator = NULL;
}
// Lock and Copy the user data if it exists
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(pMsgEx->Msg.u.query_indication.number_of_user_data_members),
&(pMsgEx->Msg.u.query_indication.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
if (GCC_NO_ERROR != rc)
{
goto MyExit;
}
}
else
{
// pMsgEx->Msg.u.query_indication.number_of_user_data_members = 0;
// pMsgEx->Msg.u.query_indication.user_data_list = NULL;
}
// If everything is OK add the message to the message queue
pMsgEx->Msg.u.query_indication.query_response_tag = query_response_tag;
pMsgEx->Msg.u.query_indication.node_type = node_type;
pMsgEx->Msg.u.query_indication.connection_handle = connection_handle;
PostIndCtrlSapMsg(pMsgEx);
MyExit:
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfQueryIndication, rc);
return rc;
}
/*
* ConfQueryConfirm ()
*
* Public Function Description
* This function is called by the GCC Controller when it need to send a
* conference query confirm to the node controller. It adds the message
* to a queue of messages to be sent to the node controller in the next
* heartbeat.
*/
GCCError CControlSAP::ConfQueryConfirm
(
GCCNodeType node_type,
PGCCAsymmetryIndicator asymmetry_indicator,
CConfDescriptorListContainer *conference_list,
CUserDataListContainer *user_data_list,
GCCResult result,
ConnectionHandle connection_handle
)
{
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::ConfQueryConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_QUERY_CONFIRM;
GCCAsymmetryIndicator _AsymIndicator;
if (asymmetry_indicator != NULL)
{
Msg.u.query_confirm.asymmetry_indicator = &_AsymIndicator;
_AsymIndicator = *asymmetry_indicator;
}
else
{
Msg.u.query_confirm.asymmetry_indicator = NULL;
}
// Get the conference descriptor list if one exists
if (conference_list != NULL)
{
rc = conference_list->LockConferenceDescriptorList();
if (rc == GCC_NO_ERROR)
{
conference_list->GetConferenceDescriptorList(
&(Msg.u.query_confirm.conference_descriptor_list),
&(Msg.u.query_confirm.number_of_descriptors));
}
}
else
{
Msg.u.query_confirm.conference_descriptor_list = NULL;
Msg.u.query_confirm.number_of_descriptors = 0;
}
// Lock and Copy the user data if it exists
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.query_confirm.number_of_user_data_members),
&(Msg.u.query_confirm.user_data_list),
&pUserDataMemory);
}
else
{
Msg.u.query_confirm.number_of_user_data_members = 0;
Msg.u.query_confirm.user_data_list = NULL;
}
if (rc == GCC_NO_ERROR)
{
Msg.u.query_confirm.node_type = node_type;
Msg.u.query_confirm.result = result;
Msg.u.query_confirm.connection_handle = connection_handle;
// Queue up the message for delivery to the Node Controller.
SendCtrlSapMsg(&Msg);
// clean up
delete pUserDataMemory;
}
else
{
HandleResourceFailure(rc);
}
// clean up
if (NULL != conference_list)
{
conference_list->UnLockConferenceDescriptorList();
}
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_QUERY_CONFIRM, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.query_confirm), sizeof(pMsgEx->Msg.u.query_confirm));
if (asymmetry_indicator != NULL)
{
DBG_SAVE_FILE_LINE
pMsgEx->Msg.u.query_confirm.asymmetry_indicator = new GCCAsymmetryIndicator;
if (pMsgEx->Msg.u.query_confirm.asymmetry_indicator != NULL)
{
*(pMsgEx->Msg.u.query_confirm.asymmetry_indicator) = *asymmetry_indicator;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
ERROR_OUT(("CControlSAP::ConfQueryConfirm: can't create GCCAsymmetryIndicator"));
}
}
else
{
// pMsgEx->Msg.u.query_confirm.asymmetry_indicator = NULL;
}
// Get the conference descriptor list if one exists
if (conference_list != NULL)
{
pMsgEx->pToDelete->conference_list = conference_list;
rc = conference_list->LockConferenceDescriptorList();
if (rc == GCC_NO_ERROR)
{
conference_list->GetConferenceDescriptorList (
&(pMsgEx->Msg.u.query_confirm.conference_descriptor_list),
&(pMsgEx->Msg.u.query_confirm.number_of_descriptors));
}
}
else
{
// pMsgEx->Msg.u.query_confirm.conference_descriptor_list = NULL;
// pMsgEx->Msg.u.query_confirm.number_of_descriptors = 0;
}
// Lock and Copy the user data if it exists
if (user_data_list != NULL)
{
rc = RetrieveUserDataList (
user_data_list,
&(pMsgEx->Msg.u.query_confirm.number_of_user_data_members),
&(pMsgEx->Msg.u.query_confirm.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
}
else
{
// pMsgEx->Msg.u.query_confirm.number_of_user_data_members = 0;
// pMsgEx->Msg.u.query_confirm.user_data_list = NULL;
}
if (rc == GCC_NO_ERROR)
{
pMsgEx->Msg.u.query_confirm.node_type = node_type;
pMsgEx->Msg.u.query_confirm.result = result;
pMsgEx->Msg.u.query_confirm.connection_handle = connection_handle;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
}
}
else
{
rc = GCC_ALLOCATION_FAILURE;
ERROR_OUT(("CControlSAP::ConfQueryConfirm: can't create GCCCtrlSapMsgEx"));
}
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfQueryConfirm, rc);
return rc;
}
/*
* ConfJoinIndication ()
*
* Public Function Description
* This join indication is recevied from the owner object. This join
* indication is designed to make the join response very flexible at the
* node controller. The node controller can respond to this indication
* by either creating a new conference and moving the joiner into it,
* putting the joiner in the conference requested or putting the joiner
* into a different conference that already exist.
*/
// LONCHANC: from GCCController, normal code path.
GCCError CControlSAP::ConfJoinIndication
(
GCCConfID conference_id,
CPassword *convener_password,
CPassword *password_challenge,
LPWSTR pwszCallerID,
TransportAddress calling_address,
TransportAddress called_address,
CUserDataListContainer *user_data_list,
BOOL intermediate_node,
ConnectionHandle connection_handle
)
{
PJoinResponseStructure join_info;
GCCError rc;
DebugEntry(CControlSAP::ConfJoinIndication);
// First generate a Join Response Handle and add info to response list
while (1)
{
m_nJoinResponseTag++;
if (NULL == m_JoinResponseTagList2.Find(m_nJoinResponseTag))
break;
}
DBG_SAVE_FILE_LINE
join_info = new JoinResponseStructure;
if (join_info != NULL)
{
join_info->connection_handle = connection_handle;
join_info->conference_id = conference_id;
join_info->user_id = NULL;
join_info->command_target_call = FALSE;
m_JoinResponseTagList2.Append(m_nJoinResponseTag, join_info);
// Queue up the message for delivery to the Node Controller.
rc = QueueJoinIndication( m_nJoinResponseTag,
conference_id,
convener_password,
password_challenge,
pwszCallerID,
calling_address,
called_address,
user_data_list,
intermediate_node,
connection_handle);
}
else
{
rc = GCC_ALLOCATION_FAILURE;
ERROR_OUT(("CControlSAP::ConfJoinIndication: can't create JoinResponseStructure"));
}
DebugExitINT(CControlSAP::ConfJoinIndication, rc);
return rc;
}
/*
* ConfInviteIndication ()
*
* Public Function Description
* This function is called by the GCC Controller when it need to send a
* conference invite indication to the node controller. It adds the message
* to a queue of messages to be sent to the node controller in the next
* heartbeat.
*/
GCCError CControlSAP::ConfInviteIndication
(
GCCConfID conference_id,
PGCCConferenceName conference_name,
LPWSTR pwszCallerID,
TransportAddress calling_address,
TransportAddress called_address,
BOOL fSecure,
PDomainParameters domain_parameters,
BOOL clear_password_required,
BOOL conference_is_locked,
BOOL conference_is_listed,
BOOL conference_is_conductible,
GCCTerminationMethod termination_method,
PPrivilegeListData conductor_privilege_list,
PPrivilegeListData conducted_mode_privilege_list,
PPrivilegeListData non_conducted_privilege_list,
LPWSTR pwszConfDescriptor,
CUserDataListContainer *user_data_list,
ConnectionHandle connection_handle
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfInviteIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_INVITE_INDICATION;
//
// Copy the information that needs to be sent to the node
// controller into local memory that can be deleted once the
// information to be sent to the application is flushed. Note that
// if an error occurs in one call to "CopyDataToGCCMessage" then no
// action is taken on subsequent calls to that routine.
//
// start with success
rc = GCC_NO_ERROR;
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
conference_name,
&(Msg.u.invite_indication.conference_name));
// Copy the Conductor Privilege List
GCCConfPrivileges _ConductorPrivileges;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conductor_privilege_list,
&(Msg.u.invite_indication.conductor_privilege_list),
&_ConductorPrivileges);
// Copy the Conducted-mode Conference Privilege List
GCCConfPrivileges _ConductedModePrivileges;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conducted_mode_privilege_list,
&(Msg.u.invite_indication.conducted_mode_privilege_list),
&_ConductedModePrivileges);
// Copy the Non-Conducted-mode Conference Privilege List
GCCConfPrivileges _NonConductedPrivileges;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
non_conducted_privilege_list,
&(Msg.u.invite_indication.non_conducted_privilege_list),
&_NonConductedPrivileges);
// Copy the Conference Descriptor
::CSAP_CopyDataToGCCMessage_IDvsDesc(
pwszConfDescriptor,
&(Msg.u.invite_indication.conference_descriptor));
// Copy the Caller Identifier
::CSAP_CopyDataToGCCMessage_IDvsDesc(
pwszCallerID,
&(Msg.u.invite_indication.caller_identifier));
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
calling_address,
&(Msg.u.invite_indication.calling_address));
// Copy the Called Address
::CSAP_CopyDataToGCCMessage_Call(
called_address,
&(Msg.u.invite_indication.called_address));
// Copy the Domain Parameters
DomainParameters _DomainParams;
::CSAP_CopyDataToGCCMessage_DomainParams(
domain_parameters,
&(Msg.u.invite_indication.domain_parameters),
&_DomainParams);
// Copy the User Data
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.invite_indication.number_of_user_data_members),
&(Msg.u.invite_indication.user_data_list),
&pUserDataMemory);
ASSERT(GCC_NO_ERROR == rc);
}
else
{
Msg.u.invite_indication.number_of_user_data_members = 0;
Msg.u.invite_indication.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
Msg.u.invite_indication.conference_id = conference_id;
Msg.u.invite_indication.clear_password_required = clear_password_required;
Msg.u.invite_indication.conference_is_locked = conference_is_locked;
Msg.u.invite_indication.conference_is_listed = conference_is_listed;
Msg.u.invite_indication.conference_is_conductible = conference_is_conductible;
Msg.u.invite_indication.termination_method = termination_method;
Msg.u.invite_indication.connection_handle = connection_handle;
Msg.u.invite_indication.fSecure = fSecure;
SendCtrlSapMsg(&Msg);
delete pUserDataMemory;
}
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_INVITE_INDICATION, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.invite_indication), sizeof(pMsgEx->Msg.u.invite_indication));
}
else
{
ERROR_OUT(("CControlSAP::ConfInviteIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
pMsgEx->pToDelete,
conference_name,
&(pMsgEx->Msg.u.invite_indication.conference_name),
&rc);
// Copy the Conductor Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conductor_privilege_list,
&(pMsgEx->Msg.u.invite_indication.conductor_privilege_list),
&rc);
pMsgEx->pToDelete->conductor_privilege_list = pMsgEx->Msg.u.invite_indication.conductor_privilege_list;
// Copy the Conducted-mode Conference Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conducted_mode_privilege_list,
&(pMsgEx->Msg.u.invite_indication.conducted_mode_privilege_list),
&rc);
pMsgEx->pToDelete->conducted_mode_privilege_list = pMsgEx->Msg.u.invite_indication.conducted_mode_privilege_list;
// Copy the Non-Conducted-mode Conference Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
non_conducted_privilege_list,
&(pMsgEx->Msg.u.invite_indication.non_conducted_privilege_list),
&rc);
pMsgEx->pToDelete->non_conducted_privilege_list = pMsgEx->Msg.u.invite_indication.non_conducted_privilege_list;
// Copy the Conference Descriptor
::CSAP_CopyDataToGCCMessage_IDvsDesc(
FALSE, // conference descriptor
pMsgEx->pToDelete,
pwszConfDescriptor,
&(pMsgEx->Msg.u.invite_indication.conference_descriptor),
&rc);
// Copy the Caller Identifier
::CSAP_CopyDataToGCCMessage_IDvsDesc(
TRUE, // caller id
pMsgEx->pToDelete,
pwszCallerID,
&(pMsgEx->Msg.u.invite_indication.caller_identifier),
&rc);
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
TRUE, /// calling address
pMsgEx->pToDelete,
calling_address,
&(pMsgEx->Msg.u.invite_indication.calling_address),
&rc);
// Copy the Called Address
::CSAP_CopyDataToGCCMessage_Call(
FALSE, // called address
pMsgEx->pToDelete,
called_address,
&(pMsgEx->Msg.u.invite_indication.called_address),
&rc);
// Copy the Domain Parameters
::CSAP_CopyDataToGCCMessage_DomainParams(
pMsgEx->pToDelete,
domain_parameters,
&(pMsgEx->Msg.u.invite_indication.domain_parameters),
&rc);
if (GCC_NO_ERROR != rc)
{
ERROR_OUT(("CControlSAP::ConfInviteIndication: can't copy data to gcc message"));
goto MyExit;
}
// Copy the User Data
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(pMsgEx->Msg.u.invite_indication.number_of_user_data_members),
&(pMsgEx->Msg.u.invite_indication.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
if (GCC_NO_ERROR != rc)
{
goto MyExit;
}
}
else
{
// pMsgEx->Msg.u.invite_indication.number_of_user_data_members = 0;
// pMsgEx->Msg.u.invite_indication.user_data_list = NULL;
}
pMsgEx->Msg.u.invite_indication.conference_id = conference_id;
pMsgEx->Msg.u.invite_indication.clear_password_required = clear_password_required;
pMsgEx->Msg.u.invite_indication.conference_is_locked = conference_is_locked;
pMsgEx->Msg.u.invite_indication.conference_is_listed = conference_is_listed;
pMsgEx->Msg.u.invite_indication.conference_is_conductible = conference_is_conductible;
pMsgEx->Msg.u.invite_indication.termination_method = termination_method;
pMsgEx->Msg.u.invite_indication.connection_handle = connection_handle;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
MyExit:
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfInviteIndication, rc);
return rc;
}
#ifdef TSTATUS_INDICATION
/*
* GCCError TransportStatusIndication()
*
* Public Function Description
* This function is called by the GCC Controller when it need to send a
* transport status indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat. This callback message uses Rogue Wave strings to
* store the message information. These strings are held in a
* TransportStatusInfo structure which is stored in a DataToBeDeleted
* structure which is freed up after the callback is issued.
*/
GCCError CControlSAP::TransportStatusIndication ( PTransportStatus transport_status )
{
GCCError rc;
DebugEntry(CControlSAP::TransportStatusIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_TRANSPORT_STATUS_INDICATION;
Msg.u.transport_status.device_identifier = transport_status->device_identifier;
Msg.u.transport_status.remote_address = transport_status->remote_address;
Msg.u.transport_status.message = transport_status->message;
Msg.u.transport_status.state = transport_status->state;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TRANSPORT_STATUS_INDICATION, TRUE)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.transport_status), sizeof(pMsgEx->Msg.u.transport_status));
pMsgEx->Msg.u.transport_status.device_identifier = ::My_strdupA(transport_status->device_identifier);
pMsgEx->Msg.u.transport_status.remote_address = ::My_strdupA(transport_status->remote_address);
pMsgEx->Msg.u.transport_status.message = ::My_strdupA(transport_status->message);
pMsgEx->Msg.u.transport_status.state = transport_status->state;
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
ERROR_OUT(("CControlSAP::TransportStatusIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::TransportStatusIndication, rc);
return rc;
}
/*
* StatusIndication()
*
* Public Function Description
* This function is called by the GCC Controller when it need to send a
* status indication to the node controller. It adds the message to a
* queue of messages to be sent to the node controller in the next
* heartbeat.
*
* Caveats
* Note that we do not handle a resource error here to avoid an
* endless loop that could occur when this routine is called from the
* HandleResourceError() routine.
*/
GCCError CControlSAP::StatusIndication
(
GCCStatusMessageType status_message_type,
UINT parameter
)
{
GCCError rc;
DebugEntry(CControlSAP::StatusIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_STATUS_INDICATION;
Msg.u.status_indication.status_message_type = status_message_type;
Msg.u.status_indication.parameter = parameter;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_STATUS_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.status_indication), sizeof(pMsgEx->Msg.u.status_indication));
pMsgEx->Msg.u.status_indication.status_message_type = status_message_type;
pMsgEx->Msg.u.status_indication.parameter = parameter;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::StatusIndication, rc);
return rc;
}
#endif // TSTATUS_INDICATION
/*
* GCCError ConnectionBrokenIndication ()
*
* Public Function Description
* This function is called by the GCC Controller when it need to send a
* connection broken indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConnectionBrokenIndication ( ConnectionHandle connection_handle )
{
GCCError rc;
DebugEntry(CControlSAP::ConnectionBrokenIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CONNECTION_BROKEN_INDICATION;
Msg.u.connection_broken_indication.connection_handle = connection_handle;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONNECTION_BROKEN_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.connection_broken_indication), sizeof(pMsgEx->Msg.u.connection_broken_indication));
pMsgEx->Msg.u.connection_broken_indication.connection_handle = connection_handle;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConnectionBrokenIndication, rc);
return rc;
}
/*
* The following routines are virtual command target calls.
*/
/*
* ConfCreateConfirm()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference create confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfCreateConfirm
(
PGCCConferenceName conference_name,
GCCNumericString conference_modifier,
GCCConfID conference_id,
PDomainParameters domain_parameters,
CUserDataListContainer *user_data_list,
GCCResult result,
ConnectionHandle connection_handle
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfCreateConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CREATE_CONFIRM;
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
conference_name,
&(Msg.u.create_confirm.conference_name));
// Copy the conference name modifier
::CSAP_CopyDataToGCCMessage_Modifier(
conference_modifier,
&(Msg.u.create_confirm.conference_modifier));
// Copy the Domain Parameters
DomainParameters _DomainParams;
::CSAP_CopyDataToGCCMessage_DomainParams(
domain_parameters,
&(Msg.u.create_confirm.domain_parameters),
&_DomainParams);
// Copy the User Data
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.create_confirm.number_of_user_data_members),
&(Msg.u.create_confirm.user_data_list),
&pUserDataMemory);
}
else
{
TRACE_OUT(("CControlSAP:ConfCreateConfirm: User Data List is NOT present"));
Msg.u.create_confirm.number_of_user_data_members = 0;
Msg.u.create_confirm.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
Msg.nConfID = conference_id;
Msg.u.create_confirm.conference_id = conference_id;
Msg.u.create_confirm.result= result;
Msg.u.create_confirm.connection_handle= connection_handle;
SendCtrlSapMsg(&Msg);
// clean up
delete pUserDataMemory;
}
else
{
HandleResourceFailure(rc);
}
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CREATE_CONFIRM, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.create_confirm), sizeof(pMsgEx->Msg.u.create_confirm));
}
else
{
ERROR_OUT(("CControlSAP::ConfCreateConfirm: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
pMsgEx->pToDelete,
conference_name,
&(pMsgEx->Msg.u.create_confirm.conference_name),
&rc);
// Copy the conference name modifier
::CSAP_CopyDataToGCCMessage_Modifier(
FALSE, // conference modifier
pMsgEx->pToDelete,
conference_modifier,
&(pMsgEx->Msg.u.create_confirm.conference_modifier),
&rc);
// Copy the Domain Parameters
::CSAP_CopyDataToGCCMessage_DomainParams(
pMsgEx->pToDelete,
domain_parameters,
&(pMsgEx->Msg.u.create_confirm.domain_parameters),
&rc);
if (GCC_NO_ERROR != rc)
{
ERROR_OUT(("CControlSAP::ConfCreateConfirm: can't copy data to gcc message"));
goto MyExit;
}
// Copy the User Data
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(pMsgEx->Msg.u.create_confirm.number_of_user_data_members),
&(pMsgEx->Msg.u.create_confirm.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
if (GCC_NO_ERROR != rc)
{
goto MyExit;
}
}
else
{
TRACE_OUT(("CControlSAP:ConfCreateConfirm: User Data List is NOT present"));
// pMsgEx->Msg.u.create_confirm.number_of_user_data_members = 0;
// pMsgEx->Msg.u.create_confirm.user_data_list = NULL;
}
// Queue up the message for delivery to the Node Controller.
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.create_confirm.conference_id = conference_id;
pMsgEx->Msg.u.create_confirm.result= result;
pMsgEx->Msg.u.create_confirm.connection_handle= connection_handle;
PostConfirmCtrlSapMsg(pMsgEx);
MyExit:
/*
** Clean up after any resource allocation error which may have occurred.
*/
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfCreateConfirm, rc);
return rc;
}
/*
* ConfDisconnectIndication()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference disconnect indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfDisconnectIndication
(
GCCConfID conference_id,
GCCReason reason,
UserID disconnected_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfDisconnectIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_DISCONNECT_INDICATION;
Msg.nConfID = conference_id;
Msg.u.disconnect_indication.conference_id = conference_id;
Msg.u.disconnect_indication.reason = reason;
Msg.u.disconnect_indication.disconnected_node_id = disconnected_node_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_DISCONNECT_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.disconnect_indication), sizeof(pMsgEx->Msg.u.disconnect_indication));
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.disconnect_indication.conference_id = conference_id;
pMsgEx->Msg.u.disconnect_indication.reason = reason;
pMsgEx->Msg.u.disconnect_indication.disconnected_node_id = disconnected_node_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfDisconnectIndication, rc);
return rc;
}
/*
* ConfDisconnectConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference disconnect confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfDisconnectConfirm
(
GCCConfID conference_id,
GCCResult result
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfDisconnectConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_DISCONNECT_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_DISCONNECT_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.disconnect_confirm), sizeof(pMsgEx->Msg.u.disconnect_confirm));
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.disconnect_confirm.conference_id = conference_id;
pMsgEx->Msg.u.disconnect_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfDisconnectConfirm, rc);
return rc;
}
/*
* GCCError ConfJoinIndication()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference join indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*
* Since this is received by the command target call we know that the
* response must be routed back to the same conference. We must also
* pass back the user_id when the response is made.
*/
// LONCHANC: from Conf2/MCSUser/ProcessJoinRequestPDU.
// forwarded from an existing child node.
GCCError CControlSAP::ForwardedConfJoinIndication
(
UserID sender_id,
GCCConfID conference_id,
CPassword *convener_password,
CPassword *password_challenge,
LPWSTR pwszCallerID,
CUserDataListContainer *user_data_list
)
{
GCCError rc = GCC_NO_ERROR;
PJoinResponseStructure join_info;
LPWSTR caller_id_ptr;
DebugEntry(CControlSAP::ForwardedConfJoinIndication);
// First generate a Join Response Handle and add info to response list
while (1)
{
m_nJoinResponseTag++;
if (NULL == m_JoinResponseTagList2.Find(m_nJoinResponseTag))
break;
}
// Create a new "info" structure to hold the join information.
DBG_SAVE_FILE_LINE
join_info = new JoinResponseStructure;
if (join_info != NULL)
{
caller_id_ptr = pwszCallerID;
join_info->connection_handle = NULL;
join_info->conference_id = conference_id;
join_info->user_id = sender_id;
join_info->command_target_call = TRUE;
m_JoinResponseTagList2.Append(m_nJoinResponseTag, join_info);
// Queue up the message for delivery to the Node Controller.
rc = QueueJoinIndication(
m_nJoinResponseTag,
conference_id,
convener_password,
password_challenge,
caller_id_ptr,
NULL, // Transport address not supported here
NULL, // Transport address not supported here
user_data_list,
FALSE, // Not an intermediate node
0);
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
DebugExitINT(CControlSAP::ForwardedConfJoinIndication, rc);
return rc;
}
/*
* GCCError ConfJoinConfirm()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference join confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfJoinConfirm
(
PGCCConferenceName conference_name,
GCCNumericString remote_modifier,
GCCNumericString local_modifier,
GCCConfID conference_id,
CPassword *password_challenge,
PDomainParameters domain_parameters,
BOOL password_in_the_clear,
BOOL conference_is_locked,
BOOL conference_is_listed,
BOOL conference_is_conductible,
GCCTerminationMethod termination_method,
PPrivilegeListData conductor_privilege_list,
PPrivilegeListData conduct_mode_privilege_list,
PPrivilegeListData non_conduct_privilege_list,
LPWSTR pwszConfDescription,
CUserDataListContainer *user_data_list,
GCCResult result,
ConnectionHandle connection_handle,
PBYTE pbRemoteCred,
DWORD cbRemoteCred
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfJoinConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_JOIN_CONFIRM;
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
conference_name,
&(Msg.u.join_confirm.conference_name));
// Copy the remote modifier
::CSAP_CopyDataToGCCMessage_Modifier(
remote_modifier,
&(Msg.u.join_confirm.called_node_modifier));
// Copy the local conference name modifier
::CSAP_CopyDataToGCCMessage_Modifier(
local_modifier,
&(Msg.u.join_confirm.calling_node_modifier));
// Copy the Password challange
::CSAP_CopyDataToGCCMessage_Challenge(
password_challenge,
&(Msg.u.join_confirm.password_challenge));
// Copy the Domain Parameters
DomainParameters _DomainParams;
::CSAP_CopyDataToGCCMessage_DomainParams(
domain_parameters,
&(Msg.u.join_confirm.domain_parameters),
&_DomainParams);
// Copy the Conductor Privilege List
GCCConfPrivileges _ConductorPrivilegeList;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conductor_privilege_list,
&(Msg.u.join_confirm.conductor_privilege_list),
&_ConductorPrivilegeList);
// Copy the Conducted-mode Conference Privilege List
GCCConfPrivileges _ConductedModePrivilegeList;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conduct_mode_privilege_list,
&(Msg.u.join_confirm.conducted_mode_privilege_list),
&_ConductedModePrivilegeList);
// Copy the Non-Conducted-mode Conference Privilege List
GCCConfPrivileges _NonConductedModePrivilegeList;
::CSAP_CopyDataToGCCMessage_PrivilegeList(
non_conduct_privilege_list,
&(Msg.u.join_confirm.non_conducted_privilege_list),
&_NonConductedModePrivilegeList);
// Copy the Conference Descriptor
::CSAP_CopyDataToGCCMessage_IDvsDesc(
pwszConfDescription,
&(Msg.u.join_confirm.conference_descriptor));
// Copy the User Data
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.join_confirm.number_of_user_data_members),
&(Msg.u.join_confirm.user_data_list),
&pUserDataMemory);
}
else
{
Msg.u.join_confirm.number_of_user_data_members = 0;
Msg.u.join_confirm.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
Msg.nConfID = conference_id;
Msg.u.join_confirm.conference_id = conference_id;
Msg.u.join_confirm.clear_password_required = password_in_the_clear;
Msg.u.join_confirm.conference_is_locked = conference_is_locked;
Msg.u.join_confirm.conference_is_listed = conference_is_listed;
Msg.u.join_confirm.conference_is_conductible = conference_is_conductible;
Msg.u.join_confirm.termination_method = termination_method;
Msg.u.join_confirm.result = result;
Msg.u.join_confirm.connection_handle = connection_handle;
Msg.u.join_confirm.pb_remote_cred = pbRemoteCred;
Msg.u.join_confirm.cb_remote_cred = cbRemoteCred;
SendCtrlSapMsg(&Msg);
// clean up
delete pUserDataMemory;
}
else
{
HandleResourceFailure(rc);
}
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_JOIN_CONFIRM, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.join_confirm), sizeof(pMsgEx->Msg.u.join_confirm));
}
else
{
ERROR_OUT(("CControlSAP::ConfJoinConfirm: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
pMsgEx->pToDelete,
conference_name,
&(pMsgEx->Msg.u.join_confirm.conference_name),
&rc);
// Copy the remote modifier
::CSAP_CopyDataToGCCMessage_Modifier(
TRUE, // remote modifier
pMsgEx->pToDelete,
remote_modifier,
&(pMsgEx->Msg.u.join_confirm.called_node_modifier),
&rc);
// Copy the local conference name modifier
::CSAP_CopyDataToGCCMessage_Modifier(
FALSE, // conference modifier
pMsgEx->pToDelete,
local_modifier,
&(pMsgEx->Msg.u.join_confirm.calling_node_modifier),
&rc);
// Copy the Password challange
::CSAP_CopyDataToGCCMessage_Challenge(
pMsgEx->pToDelete,
password_challenge,
&(pMsgEx->Msg.u.join_confirm.password_challenge),
&rc);
// Copy the Domain Parameters
::CSAP_CopyDataToGCCMessage_DomainParams(
pMsgEx->pToDelete,
domain_parameters,
&(pMsgEx->Msg.u.join_confirm.domain_parameters),
&rc);
// Copy the Conductor Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conductor_privilege_list,
&(pMsgEx->Msg.u.join_confirm.conductor_privilege_list),
&rc);
pMsgEx->pToDelete->conductor_privilege_list = pMsgEx->Msg.u.join_confirm.conductor_privilege_list;
// Copy the Conducted-mode Conference Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
conduct_mode_privilege_list,
&(pMsgEx->Msg.u.join_confirm.conducted_mode_privilege_list),
&rc);
pMsgEx->pToDelete->conducted_mode_privilege_list = pMsgEx->Msg.u.join_confirm.conducted_mode_privilege_list;
// Copy the Non-Conducted-mode Conference Privilege List
::CSAP_CopyDataToGCCMessage_PrivilegeList(
non_conduct_privilege_list,
&(pMsgEx->Msg.u.join_confirm.non_conducted_privilege_list),
&rc);
pMsgEx->pToDelete->non_conducted_privilege_list = pMsgEx->Msg.u.join_confirm.non_conducted_privilege_list;
// Copy the Conference Descriptor
::CSAP_CopyDataToGCCMessage_IDvsDesc(
FALSE, // conference descriptor
pMsgEx->pToDelete,
pwszConfDescription,
&(pMsgEx->Msg.u.join_confirm.conference_descriptor),
&rc);
if (GCC_NO_ERROR != rc)
{
goto MyExit;
}
// Copy the User Data
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(pMsgEx->Msg.u.join_confirm.number_of_user_data_members),
&(pMsgEx->Msg.u.join_confirm.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
if (GCC_NO_ERROR != rc)
{
goto MyExit;
}
}
else
{
// pMsgEx->Msg.u.join_confirm.number_of_user_data_members = 0;
// pMsgEx->Msg.u.join_confirm.user_data_list = NULL;
}
// Queue up the message for delivery to the Node Controller.
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.join_confirm.conference_id = conference_id;
pMsgEx->Msg.u.join_confirm.clear_password_required = password_in_the_clear;
pMsgEx->Msg.u.join_confirm.conference_is_locked = conference_is_locked;
pMsgEx->Msg.u.join_confirm.conference_is_listed = conference_is_listed;
pMsgEx->Msg.u.join_confirm.conference_is_conductible = conference_is_conductible;
pMsgEx->Msg.u.join_confirm.termination_method = termination_method;
pMsgEx->Msg.u.join_confirm.result = result;
pMsgEx->Msg.u.join_confirm.connection_handle = connection_handle;
PostConfirmCtrlSapMsg(pMsgEx);
MyExit:
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfJoinConfirm, rc);
return rc;
}
/*
* GCCError ConfInviteConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference invite confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfInviteConfirm
(
GCCConfID conference_id,
CUserDataListContainer *user_data_list,
GCCResult result,
ConnectionHandle connection_handle
)
{
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::ConfInviteConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_INVITE_CONFIRM;
// Copy the User Data
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.invite_confirm.number_of_user_data_members),
&(Msg.u.invite_confirm.user_data_list),
&pUserDataMemory);
}
else
{
Msg.u.invite_confirm.number_of_user_data_members = 0;
Msg.u.invite_confirm.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
Msg.nConfID = conference_id;
Msg.u.invite_confirm.conference_id = conference_id;
Msg.u.invite_confirm.result = result;
Msg.u.invite_confirm.connection_handle = connection_handle;
SendCtrlSapMsg(&Msg);
// clean up
delete pUserDataMemory;
}
else
{
HandleResourceFailure(rc);
}
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_INVITE_CONFIRM, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.invite_confirm), sizeof(pMsgEx->Msg.u.invite_confirm));
}
else
{
ERROR_OUT(("CControlSAP::ConfInviteConfirm: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
goto MyExit;
}
// Copy the User Data
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(pMsgEx->Msg.u.invite_confirm.number_of_user_data_members),
&(pMsgEx->Msg.u.invite_confirm.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
if (GCC_NO_ERROR != rc)
{
goto MyExit;
}
}
else
{
// pMsgEx->Msg.u.invite_confirm.number_of_user_data_members = 0;
// pMsgEx->Msg.u.invite_confirm.user_data_list = NULL;
}
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.invite_confirm.conference_id = conference_id;
pMsgEx->Msg.u.invite_confirm.result = result;
pMsgEx->Msg.u.invite_confirm.connection_handle = connection_handle;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
MyExit:
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfInviteConfirm, rc);
return rc;
}
/*
* GCCError ConfTerminateIndication ()
*
* Public Function Description
* This function is called by the GCC Controller when it need to send a
* conference terminate indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::
ConfTerminateIndication
(
GCCConfID conference_id,
UserID requesting_node_id,
GCCReason reason
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfTerminateIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_TERMINATE_INDICATION;
Msg.nConfID = conference_id;
Msg.u.terminate_indication.conference_id = conference_id;
Msg.u.terminate_indication.requesting_node_id = requesting_node_id;
Msg.u.terminate_indication.reason = reason;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TERMINATE_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.terminate_indication), sizeof(pMsgEx->Msg.u.terminate_indication));
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.terminate_indication.conference_id = conference_id;
pMsgEx->Msg.u.terminate_indication.requesting_node_id = requesting_node_id;
pMsgEx->Msg.u.terminate_indication.reason = reason;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfTerminateIndication, rc);
return rc;
}
/*
* ConfLockReport()
*
* Public Function Descrpition
* This function is called by the CConf when it need to send a
* conference lock report to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfLockReport
(
GCCConfID conference_id,
BOOL conference_is_locked
)
{
GCCError rc;
GCCCtrlSapMsgEx *pMsgEx;
DebugEntry(CControlSAP::ConfLockReport);
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_LOCK_REPORT_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.lock_report_indication), sizeof(pMsgEx->Msg.u.lock_report_indication));
pMsgEx->Msg.u.lock_report_indication.conference_id = conference_id;
pMsgEx->Msg.u.lock_report_indication.conference_is_locked = conference_is_locked;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
DebugExitINT(CControlSAP::ConfLockReport, rc);
return rc;
}
#endif // JASPER
/*
* ConfLockIndication()
*
* Public Function Descrpition:
* This function is called by the CConf when it need to send a
* conference lock indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfLockIndication
(
GCCConfID conference_id,
UserID source_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfLockIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_LOCK_INDICATION;
Msg.u.lock_indication.conference_id = conference_id;
Msg.u.lock_indication.requesting_node_id = source_node_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_LOCK_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.lock_indication), sizeof(pMsgEx->Msg.u.lock_indication));
pMsgEx->Msg.u.lock_indication.conference_id = conference_id;
pMsgEx->Msg.u.lock_indication.requesting_node_id = source_node_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfLockIndication, rc);
return rc;
}
/*
* ConfLockConfirm()
*
* Public Function Descrpition
* This function is called by the CConf when it need to send a
* conference lock confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfLockConfirm
(
GCCResult result,
GCCConfID conference_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfLockConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_LOCK_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_LOCK_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.lock_confirm), sizeof(pMsgEx->Msg.u.lock_confirm));
pMsgEx->Msg.u.lock_confirm.conference_id = conference_id;
pMsgEx->Msg.u.lock_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfLockConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConfUnlockIndication()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference unlock indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfUnlockIndication
(
GCCConfID conference_id,
UserID source_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfUnlockIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_UNLOCK_INDICATION;
Msg.u.unlock_indication.conference_id = conference_id;
Msg.u.unlock_indication.requesting_node_id = source_node_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_UNLOCK_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.unlock_indication), sizeof(pMsgEx->Msg.u.unlock_indication));
pMsgEx->Msg.u.unlock_indication.conference_id = conference_id;
pMsgEx->Msg.u.unlock_indication.requesting_node_id = source_node_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfUnlockIndication, rc);
return rc;
}
#endif // JASPER
/*
* ConfUnlockConfirm()
*
* Public Function Descrpition
* This function is called by the CConf when it need to send a
* conference unlock confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfUnlockConfirm
(
GCCResult result,
GCCConfID conference_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfUnlockConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_UNLOCK_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_UNLOCK_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.unlock_confirm), sizeof(pMsgEx->Msg.u.unlock_confirm));
pMsgEx->Msg.u.unlock_confirm.conference_id = conference_id;
pMsgEx->Msg.u.unlock_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfUnlockConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConfPermissionToAnnounce ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference permission to announce to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfPermissionToAnnounce
(
GCCConfID conference_id,
UserID node_id
)
{
GCCError rc;
GCCCtrlSapMsgEx *pMsgEx;
DebugEntry(CControlSAP::ConfPermissionToAnnounce);
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_PERMIT_TO_ANNOUNCE_PRESENCE)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.permit_to_announce_presence), sizeof(pMsgEx->Msg.u.permit_to_announce_presence));
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.permit_to_announce_presence.conference_id= conference_id;
pMsgEx->Msg.u.permit_to_announce_presence.node_id = node_id;
//
// LONCHANC: We should treat it as a confirm, even though it is
// an indication. When this node is a top provider, we may send this
// message in the middle of doing something. In essence, it behaves
// like a confirm.
//
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
DebugExitINT(CControlSAP::ConfPermissionToAnnounce, rc);
return rc;
}
/*
* ConfAnnouncePresenceConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference announce presence confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfAnnouncePresenceConfirm
(
GCCConfID conference_id,
GCCResult result
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfAnnouncePresenceConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_ANNOUNCE_PRESENCE_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_ANNOUNCE_PRESENCE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.announce_presence_confirm), sizeof(pMsgEx->Msg.u.announce_presence_confirm));
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.announce_presence_confirm.conference_id = conference_id;
pMsgEx->Msg.u.announce_presence_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfAnnouncePresenceConfirm, rc);
return rc;
}
/*
* ConfTerminateConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference terminate confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfTerminateConfirm
(
GCCConfID conference_id,
GCCResult result
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfTerminateConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_TERMINATE_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TERMINATE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.terminate_confirm), sizeof(pMsgEx->Msg.u.terminate_confirm));
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.terminate_confirm.conference_id = conference_id;
pMsgEx->Msg.u.terminate_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfTerminateConfirm, rc);
return rc;
}
/*
* ConfEjectUserIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference eject user indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfEjectUserIndication
(
GCCConfID conference_id,
GCCReason reason,
UserID gcc_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfEjectUserIndication);
#ifdef GCCNC_DIRECT_INDICATION
//
// WPARAM: reason, ejected node ID.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_EJECT_USER_INDICATION, reason, gcc_node_id, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_EJECT_USER_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.eject_user_indication), sizeof(pMsgEx->Msg.u.eject_user_indication));
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.eject_user_indication.conference_id = conference_id;
pMsgEx->Msg.u.eject_user_indication.ejected_node_id = gcc_node_id;
pMsgEx->Msg.u.eject_user_indication.reason = reason;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfEjectUserIndication, rc);
return rc;
}
/*
* ConfEjectUserConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference eject user confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfEjectUserConfirm
(
GCCConfID conference_id,
UserID ejected_node_id,
GCCResult result
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfEjectUserConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: LOWORD=result. HIWORD=nid.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_EJECT_USER_CONFIRM, result, ejected_node_id, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_EJECT_USER_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.eject_user_confirm), sizeof(pMsgEx->Msg.u.eject_user_confirm));
pMsgEx->Msg.u.eject_user_confirm.conference_id = conference_id;
pMsgEx->Msg.u.eject_user_confirm.ejected_node_id = ejected_node_id;
pMsgEx->Msg.u.eject_user_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfEjectUserConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConductorAssignConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor assign confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorAssignConfirm
(
GCCResult result,
GCCConfID conference_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConductorAssignConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_CONDUCT_ASSIGN_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_ASSIGN_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_assign_confirm), sizeof(pMsgEx->Msg.u.conduct_assign_confirm));
pMsgEx->Msg.u.conduct_assign_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conduct_assign_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConductorAssignConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConductorReleaseConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor release confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorReleaseConfirm
(
GCCResult result,
GCCConfID conference_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConductorReleaseConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_CONDUCT_RELEASE_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_RELEASE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_release_confirm), sizeof(pMsgEx->Msg.u.conduct_release_confirm));
pMsgEx->Msg.u.conduct_release_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conduct_release_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConductorReleaseConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConductorPleaseIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor please indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorPleaseIndication
(
GCCConfID conference_id,
UserID requester_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConductorPleaseIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CONDUCT_PLEASE_INDICATION;
Msg.u.conduct_please_indication.conference_id = conference_id;
Msg.u.conduct_please_indication.requester_node_id = requester_node_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_PLEASE_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_please_indication), sizeof(pMsgEx->Msg.u.conduct_please_indication));
pMsgEx->Msg.u.conduct_please_indication.conference_id = conference_id;
pMsgEx->Msg.u.conduct_please_indication.requester_node_id = requester_node_id;
// Queue up the message for delivery to the Node Controller.
PostCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConductorPleaseIndication, rc);
return rc;
}
#endif // JASPER
/*
* ConductorPleaseConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor please confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorPleaseConfirm
(
GCCResult result,
GCCConfID conference_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConductorPleaseConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_CONDUCT_PLEASE_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_PLEASE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_please_confirm), sizeof(pMsgEx->Msg.u.conduct_please_confirm));
pMsgEx->Msg.u.conduct_please_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conduct_please_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConductorPleaseConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConductorGiveIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor give indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConductorGiveIndication ( GCCConfID conference_id )
{
GCCError rc;
DebugEntry(CControlSAP::ConductorGiveIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CONDUCT_GIVE_INDICATION;
Msg.u.conduct_give_indication.conference_id = conference_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_GIVE_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_give_indication), sizeof(pMsgEx->Msg.u.conduct_give_indication));
pMsgEx->Msg.u.conduct_give_indication.conference_id = conference_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConductorGiveIndication, rc);
return rc;
}
/*
* ConductorGiveConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor give confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorGiveConfirm
(
GCCResult result,
GCCConfID conference_id,
UserID recipient_node
)
{
GCCError rc;
DebugEntry(CControlSAP::ConductorGiveConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: LOWORD=result. HIWORD=nid.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_CONDUCT_GIVE_CONFIRM, result, recipient_node, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_GIVE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_give_confirm), sizeof(pMsgEx->Msg.u.conduct_give_confirm));
pMsgEx->Msg.u.conduct_give_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conduct_give_confirm.result = result;
pMsgEx->Msg.u.conduct_give_confirm.recipient_node_id = recipient_node;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConductorGiveConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConductorPermitAskIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor permit ask indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorPermitAskIndication
(
GCCConfID conference_id,
BOOL grant_flag,
UserID requester_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConductorPermitAskIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CONDUCT_ASK_INDICATION;
Msg.u.conduct_permit_ask_indication.conference_id = conference_id;
Msg.u.conduct_permit_ask_indication.permission_is_granted = grant_flag;
Msg.u.conduct_permit_ask_indication.requester_node_id = requester_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_ASK_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_permit_ask_indication), sizeof(pMsgEx->Msg.u.conduct_permit_ask_indication));
pMsgEx->Msg.u.conduct_permit_ask_indication.conference_id = conference_id;
pMsgEx->Msg.u.conduct_permit_ask_indication.permission_is_granted = grant_flag;
pMsgEx->Msg.u.conduct_permit_ask_indication.requester_node_id = requester_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConductorPermitAskIndication, rc);
return rc;
}
#endif // JASPER
/*
* ConductorPermitAskConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor permit ask confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorPermitAskConfirm
(
GCCResult result,
BOOL grant_permission,
GCCConfID conference_id
)
{
GCCError rc;
GCCCtrlSapMsgEx *pMsgEx;
DebugEntry(CControlSAP::ConductorPermitAskConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: LOWORD=result. HIWORD=permission.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_CONDUCT_ASK_CONFIRM, result, grant_permission, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_ASK_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_permit_ask_confirm), sizeof(pMsgEx->Msg.u.conduct_permit_ask_confirm));
pMsgEx->Msg.u.conduct_permit_ask_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conduct_permit_ask_confirm.result = result;
pMsgEx->Msg.u.conduct_permit_ask_confirm.permission_is_granted = grant_permission;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConductorPermitAskConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConductorPermitGrantConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conductor permit grant confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConductorPermitGrantConfirm
(
GCCResult result,
GCCConfID conference_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConductorPermitGrantConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_CONDUCT_GRANT_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_GRANT_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_permit_grant_confirm), sizeof(pMsgEx->Msg.u.conduct_permit_grant_confirm));
pMsgEx->Msg.u.conduct_permit_grant_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conduct_permit_grant_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConductorPermitGrantConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConfTimeRemainingIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference time remaining indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfTimeRemainingIndication
(
GCCConfID conference_id,
UserID source_node_id,
UserID node_id,
UINT time_remaining
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfTimeRemainingIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_TIME_REMAINING_INDICATION;
Msg.u.time_remaining_indication.conference_id = conference_id;
Msg.u.time_remaining_indication.source_node_id= source_node_id;
Msg.u.time_remaining_indication.node_id = node_id;
Msg.u.time_remaining_indication.time_remaining= time_remaining;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
//GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TIME_REMAINING_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.time_remaining_indication), sizeof(pMsgEx->Msg.u.time_remaining_indication));
pMsgEx->Msg.u.time_remaining_indication.conference_id = conference_id;
pMsgEx->Msg.u.time_remaining_indication.source_node_id= source_node_id;
pMsgEx->Msg.u.time_remaining_indication.node_id = node_id;
pMsgEx->Msg.u.time_remaining_indication.time_remaining= time_remaining;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfTimeRemainingIndication, rc);
return rc;
}
#endif // JASPER
/*
* ConfTimeRemainingConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference time remaining confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfTimeRemainingConfirm
(
GCCConfID conference_id,
GCCResult result
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfTimeRemainingConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_TIME_REMAINING_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TIME_REMAINING_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.time_remaining_confirm), sizeof(pMsgEx->Msg.u.time_remaining_confirm));
pMsgEx->Msg.u.time_remaining_confirm.conference_id = conference_id;
pMsgEx->Msg.u.time_remaining_confirm.result= result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfTimeRemainingConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConfTimeInquireIndication()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference time inquire indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfTimeInquireIndication
(
GCCConfID conference_id,
BOOL time_is_conference_wide,
UserID requesting_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfTimeInquireIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_TIME_INQUIRE_INDICATION;
Msg.u.time_inquire_indication.conference_id = conference_id;
Msg.u.time_inquire_indication.time_is_conference_wide = time_is_conference_wide;
Msg.u.time_inquire_indication.requesting_node_id = requesting_node_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TIME_INQUIRE_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.time_inquire_indication), sizeof(pMsgEx->Msg.u.time_inquire_indication));
pMsgEx->Msg.u.time_inquire_indication.conference_id = conference_id;
pMsgEx->Msg.u.time_inquire_indication.time_is_conference_wide = time_is_conference_wide;
pMsgEx->Msg.u.time_inquire_indication.requesting_node_id = requesting_node_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfTimeInquireIndication, rc);
return rc;
}
/*
* ConfTimeInquireConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference time inquire confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfTimeInquireConfirm
(
GCCConfID conference_id,
GCCResult result
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfTimeInquireConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_TIME_INQUIRE_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TIME_INQUIRE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.time_inquire_confirm), sizeof(pMsgEx->Msg.u.time_inquire_confirm));
pMsgEx->Msg.u.time_inquire_confirm.conference_id = conference_id;
pMsgEx->Msg.u.time_inquire_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfTimeInquireConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConfExtendIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference extend indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfExtendIndication
(
GCCConfID conference_id,
UINT extension_time,
BOOL time_is_conference_wide,
UserID requesting_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfExtendIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CONFERENCE_EXTEND_INDICATION;
Msg.u.conference_extend_indication.conference_id = conference_id;
Msg.u.conference_extend_indication.extension_time = extension_time;
Msg.u.conference_extend_indication.time_is_conference_wide = time_is_conference_wide;
Msg.u.conference_extend_indication.requesting_node_id = requesting_node_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONFERENCE_EXTEND_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conference_extend_indication), sizeof(pMsgEx->Msg.u.conference_extend_indication));
pMsgEx->Msg.u.conference_extend_indication.conference_id = conference_id;
pMsgEx->Msg.u.conference_extend_indication.extension_time = extension_time;
pMsgEx->Msg.u.conference_extend_indication.time_is_conference_wide = time_is_conference_wide;
pMsgEx->Msg.u.conference_extend_indication.requesting_node_id = requesting_node_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfExtendIndication, rc);
return rc;
}
#endif // JASPER
/*
* ConfExtendConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference extend confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfExtendConfirm
(
GCCConfID conference_id,
UINT extension_time,
GCCResult result
)
{
GCCError rc;
GCCCtrlSapMsgEx *pMsgEx;
DebugEntry(CControlSAP::ConfExtendConfirm);
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONFERENCE_EXTEND_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conference_extend_confirm), sizeof(pMsgEx->Msg.u.conference_extend_confirm));
pMsgEx->Msg.u.conference_extend_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conference_extend_confirm.extension_time = extension_time;
pMsgEx->Msg.u.conference_extend_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
DebugExitINT(CControlSAP::ConfExtendConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConfAssistanceIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference assistance indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfAssistanceIndication
(
GCCConfID conference_id,
CUserDataListContainer *user_data_list,
UserID source_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfAssistanceIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_ASSISTANCE_INDICATION;
rc = GCC_NO_ERROR;
// Copy the User Data if it exists.
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.conference_assist_indication.number_of_user_data_members),
&(Msg.u.conference_assist_indication.user_data_list),
&pUserDataMemory);
ASSERT(GCC_NO_ERROR == rc);
}
else
{
Msg.u.conference_assist_indication.number_of_user_data_members = 0;
Msg.u.conference_assist_indication.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
Msg.u.conference_assist_indication.conference_id = conference_id;
Msg.u.conference_assist_indication.source_node_id = source_node_id;
SendCtrlSapMsg(&Msg);
delete pUserDataMemory;
}
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_ASSISTANCE_INDICATION)))
{
::ZeroMemory(&(pMsgEx->Msg.u.conference_assist_indication), sizeof(pMsgEx->Msg.u.conference_assist_indication));
rc = GCC_NO_ERROR;
// Copy the User Data if it exists.
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(pMsgEx->Msg.u.conference_assist_indication.number_of_user_data_members),
&(pMsgEx->Msg.u.conference_assist_indication.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
ASSERT(GCC_NO_ERROR == rc);
}
else
{
// pMsgEx->Msg.u.conference_assist_indication.number_of_user_data_members = 0;
// pMsgEx->Msg.u.conference_assist_indication.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
pMsgEx->Msg.u.conference_assist_indication.conference_id = conference_id;
pMsgEx->Msg.u.conference_assist_indication.source_node_id = source_node_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
}
}
else
{
ERROR_OUT(("CControlSAP::ConfAssistanceIndication: can't create CreateCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
/*
** Clean up after any resource allocation error which may have occurred.
*/
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfAssistanceIndication, rc);
return rc;
}
#endif // JASPER
/*
* ConfAssistanceConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference assistance confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfAssistanceConfirm
(
GCCConfID conference_id,
GCCResult result
)
{
GCCError rc;
DebugEntry(CControlSAP::ConfAssistanceConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_ASSISTANCE_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_ASSISTANCE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conference_assist_confirm), sizeof(pMsgEx->Msg.u.conference_assist_confirm));
pMsgEx->Msg.u.conference_assist_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conference_assist_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfAssistanceConfirm, rc);
return rc;
}
#endif // JASPER
/*
* TextMessageIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* text message indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::TextMessageIndication
(
GCCConfID conference_id,
LPWSTR pwszTextMsg,
UserID source_node_id
)
{
GCCError rc;
DebugEntry(CControlSAP::TextMessageIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_TEXT_MESSAGE_INDICATION;
Msg.u.text_message_indication.text_message = pwszTextMsg;
Msg.u.text_message_indication.conference_id = conference_id;
Msg.u.text_message_indication.source_node_id = source_node_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TEXT_MESSAGE_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.text_message_indication), sizeof(pMsgEx->Msg.u.text_message_indication));
if (NULL != (pMsgEx->Msg.u.text_message_indication.text_message = ::My_strdupW(pwszTextMsg)))
{
pMsgEx->Msg.u.text_message_indication.conference_id = conference_id;
pMsgEx->Msg.u.text_message_indication.source_node_id = source_node_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::TextMessageIndication, rc);
return rc;
}
#endif // JASPER
/*
* TextMessageConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* text message confirm to the node controller. It adds the message
* to a queue of messages to be sent to the node controller in the
* next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::TextMessageConfirm
(
GCCConfID conference_id,
GCCResult result
)
{
GCCError rc;
DebugEntry(CControlSAP::TextMessageConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
//
// WPARAM: result.
// LPARAM: conf ID
//
PostAsynDirectConfirmMsg(GCC_TEXT_MESSAGE_CONFIRM, result, conference_id);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TEXT_MESSAGE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.text_message_confirm), sizeof(pMsgEx->Msg.u.text_message_confirm));
pMsgEx->Msg.u.text_message_confirm.conference_id = conference_id;
pMsgEx->Msg.u.text_message_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::TextMessageConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConfTransferIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference transfer indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfTransferIndication
(
GCCConfID conference_id,
PGCCConferenceName destination_conference_name,
GCCNumericString destination_conference_modifier,
CNetAddrListContainer *destination_address_list,
CPassword *password
)
{
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::ConfTransferIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_TRANSFER_INDICATION;
//
// Copy the information that needs to be sent to the node
// controller into local memory that can be deleted once the
// information to be sent to the application is flushed. Note that
// if an error occurs in one call to "CopyDataToGCCMessage" then no
// action is taken on subsequent calls to that routine.
//
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
destination_conference_name,
&(Msg.u.transfer_indication.destination_conference_name));
// Copy the conference name modifier
::CSAP_CopyDataToGCCMessage_Modifier(
destination_conference_modifier,
&(Msg.u.transfer_indication.destination_conference_modifier));
// Copy the Password
::CSAP_CopyDataToGCCMessage_Password(
password,
&(Msg.u.transfer_indication.password));
LPBYTE pDstAddrListData = NULL;
if (destination_address_list != NULL)
{
//
// First determine the size of the block required to hold all
// of the network address list data.
//
UINT block_size = destination_address_list->LockNetworkAddressList();
DBG_SAVE_FILE_LINE
if (NULL != (pDstAddrListData = new BYTE[block_size]))
{
destination_address_list->GetNetworkAddressListAPI(
&(Msg.u.transfer_indication.number_of_destination_addresses),
&(Msg.u.transfer_indication.destination_address_list),
pDstAddrListData);
}
else
{
ERROR_OUT(("CControlSAP::ConfTransferIndication: can't create net addr memory, size=%u", (UINT) block_size));
rc = GCC_ALLOCATION_FAILURE;
}
// Unlock the network address list data.
destination_address_list->UnLockNetworkAddressList();
}
else
{
Msg.u.transfer_indication.number_of_destination_addresses = 0;
Msg.u.transfer_indication.destination_address_list = NULL;
}
if (rc == GCC_NO_ERROR)
{
Msg.u.transfer_indication.conference_id = conference_id;
SendCtrlSapMsg(&Msg);
delete pDstAddrListData;
}
#else
GCCCtrlSapMsgEx *pMsgEx;
UINT block_size;
/*
** Allocate the GCC callback message and fill it in with the
** appropriate values.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TRANSFER_INDICATION, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.transfer_indication), sizeof(pMsgEx->Msg.u.transfer_indication));
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
pMsgEx->pToDelete,
destination_conference_name,
&(pMsgEx->Msg.u.transfer_indication.destination_conference_name),
&rc);
// Copy the conference name modifier
::CSAP_CopyDataToGCCMessage_Modifier(
FALSE, // conference modifier
pMsgEx->pToDelete,
destination_conference_modifier,
&(pMsgEx->Msg.u.transfer_indication.destination_conference_modifier),
&rc);
// Copy the Password
::CSAP_CopyDataToGCCMessage_Password(
FALSE, // non-convener password
pMsgEx->pToDelete,
password,
&(pMsgEx->Msg.u.transfer_indication.password),
&rc);
if ((rc == GCC_NO_ERROR) &&
(destination_address_list != NULL))
{
/*
** First determine the size of the block required to hold all
** of the network address list data.
*/
block_size = destination_address_list->LockNetworkAddressList();
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx->pBuf = new BYTE[block_size]))
{
destination_address_list->GetNetworkAddressListAPI(
&(pMsgEx->Msg.u.transfer_indication.number_of_destination_addresses),
&(pMsgEx->Msg.u.transfer_indication.destination_address_list),
pMsgEx->pBuf);
}
else
{
ERROR_OUT(("CControlSAP::ConfTransferIndication: can't create net addr memory, size=%u", (UINT) block_size));
rc = GCC_ALLOCATION_FAILURE;
}
// Unlock the network address list data.
destination_address_list->UnLockNetworkAddressList();
}
else
{
// pMsgEx->Msg.u.transfer_indication.number_of_destination_addresses = 0;
// pMsgEx->Msg.u.transfer_indication.destination_address_list = NULL;
}
if (rc == GCC_NO_ERROR)
{
pMsgEx->Msg.u.transfer_indication.conference_id = conference_id;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
}
}
else
{
ERROR_OUT(("CControlSAP::ConfTransferIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfTransferIndication, rc);
return rc;
}
#endif // JASPER
/*
* ConfTransferConfirm ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference transfer confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
#ifdef JASPER
GCCError CControlSAP::ConfTransferConfirm
(
GCCConfID conference_id,
PGCCConferenceName destination_conference_name,
GCCNumericString destination_conference_modifier,
UINT number_of_destination_nodes,
PUserID destination_node_list,
GCCResult result
)
{
GCCError rc = GCC_NO_ERROR;
GCCCtrlSapMsgEx *pMsgEx;
UINT i;
DebugEntry(CControlSAP::ConfTransferConfirm);
/*
** Allocate the GCC callback message and fill it in with the
** appropriate values.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_TRANSFER_CONFIRM, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.transfer_confirm), sizeof(pMsgEx->Msg.u.transfer_confirm));
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// Copy the conference name
::CSAP_CopyDataToGCCMessage_ConfName(
pMsgEx->pToDelete,
destination_conference_name,
&(pMsgEx->Msg.u.transfer_confirm.destination_conference_name),
&rc);
// Copy the conference name modifier
::CSAP_CopyDataToGCCMessage_Modifier(
FALSE, // conference modifier
pMsgEx->pToDelete,
destination_conference_modifier,
&(pMsgEx->Msg.u.transfer_confirm.destination_conference_modifier),
&rc);
if ((rc == GCC_NO_ERROR) &&
(number_of_destination_nodes != 0))
{
// Allocate memory to hold the list of nodes.
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx->pBuf = new BYTE[number_of_destination_nodes * sizeof (UserID)]))
{
/*
* Retrieve the actual pointer to memory from the Memory
* object.
*/
pMsgEx->Msg.u.transfer_confirm.destination_node_list = (UserID *) pMsgEx->pBuf;
for (i = 0; i < number_of_destination_nodes; i++)
{
pMsgEx->Msg.u.transfer_confirm.destination_node_list[i] = destination_node_list[i];
}
}
else
{
ERROR_OUT(("CControlSAP::ConfTransferConfirm: Error allocating memory"));
rc = GCC_ALLOCATION_FAILURE;
}
}
if (rc == GCC_NO_ERROR)
{
pMsgEx->Msg.u.transfer_confirm.number_of_destination_nodes = number_of_destination_nodes;
pMsgEx->Msg.u.transfer_confirm.conference_id = conference_id;
pMsgEx->Msg.u.transfer_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
}
}
else
{
ERROR_OUT(("CControlSAP::ConfTransferConfirm: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure();
}
DebugExitINT(CControlSAP::ConfTransferConfirm, rc);
return rc;
}
#endif // JASPER
/*
* ConfAddIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference add indication to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfAddIndication
(
GCCConfID conference_id,
GCCResponseTag add_response_tag,
CNetAddrListContainer *network_address_list,
CUserDataListContainer *user_data_list,
UserID requesting_node
)
{
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::ConfAddIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_ADD_INDICATION;
//
// First determine the size of the block required to hold all
// of the network address list data.
//
UINT block_size = network_address_list->LockNetworkAddressList();
//
// Add the size of the user data block if any user data exists
//
if (user_data_list != NULL)
{
block_size += user_data_list->LockUserDataList();
}
//
// Allocate memory to hold the user data and network addresses.
//
LPBYTE pData;
DBG_SAVE_FILE_LINE
if (NULL != (pData = new BYTE[block_size]))
{
//
// Retrieve the network address list data from the container
// and unlock the container data.
//
pData += network_address_list->GetNetworkAddressListAPI(
&(Msg.u.add_indication.number_of_network_addresses),
&(Msg.u.add_indication.network_address_list),
pData);
network_address_list->UnLockNetworkAddressList();
//
// Retrieve the user data from the container if it exists
// and unlock the container data.
//
if (user_data_list != NULL)
{
user_data_list->GetUserDataList(
&(Msg.u.add_indication.number_of_user_data_members),
&(Msg.u.add_indication.user_data_list),
pData);
user_data_list->UnLockUserDataList();
}
else
{
Msg.u.add_indication.number_of_user_data_members = 0;
Msg.u.add_indication.user_data_list = NULL;
}
Msg.u.add_indication.conference_id = conference_id;
Msg.u.add_indication.requesting_node_id = requesting_node;
Msg.u.add_indication.add_response_tag = add_response_tag;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
delete pData;
}
else
{
ERROR_OUT(("CControlSAP::ConfAddIndication: can't allocate buffer, size=%u", (UINT) block_size));
rc = GCC_ALLOCATION_FAILURE;
}
#else
GCCCtrlSapMsgEx *pMsgEx;
UINT block_size;
LPBYTE memory_ptr;
/*
** Allocate the GCC callback message and fill it in with the
** appropriate values.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_ADD_INDICATION)))
{
::ZeroMemory(&(pMsgEx->Msg.u.add_indication), sizeof(pMsgEx->Msg.u.add_indication));
/*
** First determine the size of the block required to hold all
** of the network address list data.
*/
block_size = network_address_list->LockNetworkAddressList();
/*
** Add the size of the user data block if any user data exists
*/
if (user_data_list != NULL)
{
block_size += user_data_list->LockUserDataList();
}
/*
** Allocate memory to hold the user data and network addresses.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx->pBuf = new BYTE[block_size]))
{
memory_ptr = pMsgEx->pBuf;
/*
* Retrieve the network address list data from the container
* and unlock the container data.
*/
memory_ptr += network_address_list->GetNetworkAddressListAPI(
&(pMsgEx->Msg.u.add_indication.number_of_network_addresses),
&(pMsgEx->Msg.u.add_indication.network_address_list),
memory_ptr);
network_address_list->UnLockNetworkAddressList();
/*
* Retrieve the user data from the container if it exists
* and unlock the container data.
*/
if (user_data_list != NULL)
{
user_data_list->GetUserDataList(
&(pMsgEx->Msg.u.add_indication.number_of_user_data_members),
&(pMsgEx->Msg.u.add_indication.user_data_list),
memory_ptr);
user_data_list->UnLockUserDataList();
}
else
{
// pMsgEx->Msg.u.add_indication.number_of_user_data_members = 0;
// pMsgEx->Msg.u.add_indication.user_data_list = NULL;
}
pMsgEx->Msg.u.add_indication.conference_id = conference_id;
pMsgEx->Msg.u.add_indication.requesting_node_id = requesting_node;
pMsgEx->Msg.u.add_indication.add_response_tag = add_response_tag;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
ERROR_OUT(("CControlSAP::ConfAddIndication: can't allocate buffer, size=%u", (UINT) block_size));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
ERROR_OUT(("CControlSAP::ConfAddIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfAddIndication, rc);
return rc;
}
/*
* ConfAddConfirm
*
* Public Function Description
* This function is called by the CConf when it need to send a
* conference add confirm to the node controller. It adds the
* message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::ConfAddConfirm
(
GCCConfID conference_id,
CNetAddrListContainer *network_address_list,
CUserDataListContainer *user_data_list,
GCCResult result
)
{
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::ConfAddConfirm);
#ifdef GCCNC_DIRECT_CONFIRM
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_ADD_CONFIRM;
//
// First determine the size of the block required to hold all
// of the network address list data.
//
UINT cbDataSize = network_address_list->LockNetworkAddressList();
//
// Add the size of the user data block if any user data exists
//
if (user_data_list != NULL)
{
cbDataSize += user_data_list->LockUserDataList();
}
//
// Allocate memory to hold the user data and network addresses.
//
DBG_SAVE_FILE_LINE
LPBYTE pAllocated = new BYTE[cbDataSize];
LPBYTE pData;
if (NULL != (pData = pAllocated))
{
//
// Retrieve the network address list data from the container
// and unlock the container data.
//
pData += network_address_list->GetNetworkAddressListAPI(
&(Msg.u.add_confirm.number_of_network_addresses),
&(Msg.u.add_confirm.network_address_list),
pData);
network_address_list->UnLockNetworkAddressList();
//
// Retrieve the user data from the container if it exists
// and unlock the container data.
//
if (user_data_list != NULL)
{
user_data_list->GetUserDataList(
&(Msg.u.add_confirm.number_of_user_data_members),
&(Msg.u.add_confirm.user_data_list),
pData);
user_data_list->UnLockUserDataList();
}
else
{
Msg.u.add_confirm.number_of_user_data_members = 0;
Msg.u.add_confirm.user_data_list = NULL;
}
Msg.nConfID = conference_id;
Msg.u.add_confirm.conference_id = conference_id;
Msg.u.add_confirm.result = result;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
// clean up
delete pAllocated;
}
else
{
ERROR_OUT(("CControlSAP::ConfAddConfirm: can't allocate buffer, size=%u", (UINT) cbDataSize));
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure(rc);
}
#else
GCCCtrlSapMsgEx *pMsgEx;
UINT block_size;
LPBYTE memory_ptr;
/*
** Allocate the GCC callback message and fill it in with the
** appropriate values.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_ADD_CONFIRM)))
{
::ZeroMemory(&(pMsgEx->Msg.u.add_confirm), sizeof(pMsgEx->Msg.u.add_confirm));
/*
** First determine the size of the block required to hold all
** of the network address list data.
*/
block_size = network_address_list->LockNetworkAddressList();
/*
** Add the size of the user data block if any user data exists
*/
if (user_data_list != NULL)
block_size += user_data_list->LockUserDataList();
/*
** Allocate memory to hold the user data and network addresses.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx->pBuf = (LPBYTE) new BYTE[block_size]))
{
memory_ptr = pMsgEx->pBuf;
/*
* Retrieve the network address list data from the container
* and unlock the container data.
*/
memory_ptr += network_address_list->GetNetworkAddressListAPI(
&(pMsgEx->Msg.u.add_confirm.number_of_network_addresses),
&(pMsgEx->Msg.u.add_confirm.network_address_list),
memory_ptr);
network_address_list->UnLockNetworkAddressList();
/*
* Retrieve the user data from the container if it exists
* and unlock the container data.
*/
if (user_data_list != NULL)
{
user_data_list->GetUserDataList(
&(pMsgEx->Msg.u.add_confirm.number_of_user_data_members),
&(pMsgEx->Msg.u.add_confirm.user_data_list),
memory_ptr);
user_data_list->UnLockUserDataList();
}
else
{
// pMsgEx->Msg.u.add_confirm.number_of_user_data_members = 0;
// pMsgEx->Msg.u.add_confirm.user_data_list = NULL;
}
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.add_confirm.conference_id = conference_id;
pMsgEx->Msg.u.add_confirm.result = result;
// Queue up the message for delivery to the Node Controller.
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
ERROR_OUT(("CControlSAP::ConfAddConfirm: can't allocate buffer, size=%u", (UINT) block_size));
rc = GCC_ALLOCATION_FAILURE;
}
}
else
{
ERROR_OUT(("CControlSAP::ConfAddConfirm: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_CONFIRM
DebugExitINT(CControlSAP::ConfAddConfirm, rc);
return rc;
}
/*
* SubInitializationCompleteIndication ()
*
* Public Function Description
* This function is called by the CConf when it need to send a
* sub-initialization complete indication to the node controller. It adds
* the message to a queue of messages to be sent to the node controller in
* the next heartbeat.
*/
GCCError CControlSAP::SubInitializationCompleteIndication
(
UserID user_id,
ConnectionHandle connection_handle
)
{
GCCError rc;
DebugEntry(CControlSAP::SubInitializationCompleteIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_SUB_INITIALIZED_INDICATION;
Msg.u.conf_sub_initialized_indication.subordinate_node_id = user_id;
Msg.u.conf_sub_initialized_indication.connection_handle =connection_handle;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
//
// Allocate control sap message.
//
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_SUB_INITIALIZED_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conf_sub_initialized_indication), sizeof(pMsgEx->Msg.u.conf_sub_initialized_indication));
pMsgEx->Msg.u.conf_sub_initialized_indication.subordinate_node_id = user_id;
pMsgEx->Msg.u.conf_sub_initialized_indication.connection_handle =connection_handle;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::SubInitializationCompleteIndication, rc);
return rc;
}
/*
* Private member functions of the CControlSAP object.
*/
/*
* BOOL CControlSAP::IsNumericNameValid(
* GCCNumericString numeric_string)
*
* Public member function of CControlSAP.
*
* Function Description:
* This routine is used to validate a numeric string by checking to make
* sure that none of the constraints imposed by the ASN.1 specification
* are violated.
*
* Formal Parameters:
* numeric_string (i) The numeric string to validate.
*
* Return Value:
* TRUE - The numeric string is valid.
* FALSE - The numeric string violates an ASN.1 constraint.
*
* Side Effects:
* None.
*
* Caveats:
* None.
*/
BOOL CControlSAP::IsNumericNameValid ( GCCNumericString numeric_string )
{
BOOL rc = TRUE;
UINT numeric_string_length = 0;
//
// LONCHANC: We should change it such that the default is FALSE
// because many cases except one can be FALSE.
//
if (numeric_string != NULL)
{
if (*numeric_string == 0)
rc = FALSE;
else
{
while (*numeric_string != 0)
{
/*
** Check to make sure the characters in the numeric string are
** within the allowable range.
*/
if ((*numeric_string < '0') ||
(*numeric_string > '9'))
{
rc = FALSE;
break;
}
numeric_string++;
numeric_string_length++;
/*
** Check to make sure that the length of the string is within
** the allowable range.
*/
if (numeric_string_length > MAXIMUM_CONFERENCE_NAME_LENGTH)
{
rc = FALSE;
break;
}
}
}
}
else
rc = FALSE;
return rc;
}
/*
* BOOL CControlSAP::IsTextNameValid (LPWSTR text_string)
*
* Public member function of CControlSAP.
*
* Function Description:
* This routine is used to validate a text string by checking to make
* sure that none of the constraints imposed by the ASN.1 specification
* are violated.
*
* Formal Parameters:
* text_string (i) The text string to validate.
*
* Return Value:
* TRUE - The text string is valid.
* FALSE - The text string violates an ASN.1 constraint.
*
* Side Effects:
* None.
*
* Caveats:
* None.
*/
BOOL CControlSAP::IsTextNameValid ( LPWSTR text_string )
{
BOOL rc = TRUE;
UINT text_string_length = 0;
if (text_string != NULL)
{
/*
** Check to make sure that the length of the string is within
** the allowable range.
*/
while (*text_string != 0)
{
text_string++;
text_string_length++;
if (text_string_length > MAXIMUM_CONFERENCE_NAME_LENGTH)
{
rc = FALSE;
break;
}
}
}
else
rc = FALSE;
return rc;
}
/*
* GCCError CControlSAP::QueueJoinIndication(
* GCCResponseTag response_tag,
* GCCConfID conference_id,
* CPassword *convener_password,
* CPassword *password_challenge,
* LPWSTR pwszCallerID,
* TransportAddress calling_address,
* TransportAddress called_address,
* CUserDataListContainer *user_data_list,
* BOOL intermediate_node,
* ConnectionHandle connection_handle)
*
* Public member function of CControlSAP.
*
* Function Description:
* This routine is used to place join indications into the queue of
* messages to be delivered to the node controller.
*
* Formal Parameters:
* response_tag (i) Unique tag associated with this join .
* conference_id (i) The conference identifier.
* convener_password (i) Password used to obtain convener privileges.
* password_challenge (i) Password used to join the conference.
* pwszCallerID (i) Identifier of party initiating call.
* calling_address (i) Transport address of party making call.
* called_address (i) Transport address of party being called.
* user_data_list (i) User data carried in the join.
* intermediate_node (i) Flag indicating whether join is made at
* intermediate node.
* connection_handle (i) Handle for the logical connection.
*
* Return Value:
* GCC_NO_ERROR - Message successfully queued.
* GCC_ALLOCATION_FAILURE - A resource allocation failure occurred.
*
* Side Effects:
* None.
*
* Caveats:
* None.
*/
GCCError CControlSAP::QueueJoinIndication
(
GCCResponseTag response_tag,
GCCConfID conference_id,
CPassword *convener_password,
CPassword *password_challenge,
LPWSTR pwszCallerID,
TransportAddress calling_address,
TransportAddress called_address,
CUserDataListContainer *user_data_list,
BOOL intermediate_node,
ConnectionHandle connection_handle
)
{
GCCError rc;
DebugEntry(CControlSAP::QueueJoinIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_JOIN_INDICATION;
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the Convener Password
::CSAP_CopyDataToGCCMessage_Password(
convener_password,
&(Msg.u.join_indication.convener_password));
// Copy the Password
::CSAP_CopyDataToGCCMessage_Challenge(
password_challenge,
&(Msg.u.join_indication.password_challenge));
// Copy the Caller Identifier
::CSAP_CopyDataToGCCMessage_IDvsDesc(
pwszCallerID,
&(Msg.u.join_indication.caller_identifier));
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
calling_address,
&(Msg.u.join_indication.calling_address));
// Copy the Called Address
::CSAP_CopyDataToGCCMessage_Call(
called_address,
&(Msg.u.join_indication.called_address));
// Copy the User Data if it exists.
LPBYTE pUserDataMemory = NULL;
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(Msg.u.join_indication.number_of_user_data_members),
&(Msg.u.join_indication.user_data_list),
&pUserDataMemory);
}
else
{
Msg.u.join_indication.number_of_user_data_members = 0;
Msg.u.join_indication.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
/*
** Filling in the rest of the information that needs to be sent
** to the application.
*/
Msg.u.join_indication.join_response_tag = response_tag;
Msg.u.join_indication.conference_id = conference_id ;
Msg.u.join_indication.node_is_intermediate = intermediate_node;
Msg.u.join_indication.connection_handle = connection_handle;
SendCtrlSapMsg(&Msg);
delete pUserDataMemory;
if (NULL != convener_password)
{
convener_password->UnLockPasswordData();
}
if (NULL != password_challenge)
{
password_challenge->UnLockPasswordData();
}
}
#else
GCCCtrlSapMsgEx *pMsgEx;
/*
** Allocate the GCC callback message and fill it in with the
** appropriate values.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_JOIN_INDICATION, TRUE)))
{
::ZeroMemory(&(pMsgEx->Msg.u.join_indication), sizeof(pMsgEx->Msg.u.join_indication));
/*
** Copy the information that needs to be sent to the node
** controller into local memory that can be deleted once the
** information to be sent to the application is flushed. Note that
** if an error occurs in one call to "CopyDataToGCCMessage" then no
** action is taken on subsequent calls to that routine.
*/
// start with success
rc = GCC_NO_ERROR;
// Copy the Convener Password
::CSAP_CopyDataToGCCMessage_Password(
TRUE, // convener password
pMsgEx->pToDelete,
convener_password,
&(pMsgEx->Msg.u.join_indication.convener_password),
&rc);
// Copy the Password
::CSAP_CopyDataToGCCMessage_Challenge(
pMsgEx->pToDelete,
password_challenge,
&(pMsgEx->Msg.u.join_indication.password_challenge),
&rc);
// Copy the Caller Identifier
::CSAP_CopyDataToGCCMessage_IDvsDesc(
TRUE, // caller id
pMsgEx->pToDelete,
pwszCallerID,
&(pMsgEx->Msg.u.join_indication.caller_identifier),
&rc);
// Copy the Calling Address
::CSAP_CopyDataToGCCMessage_Call(
TRUE, // calling address
pMsgEx->pToDelete,
calling_address,
&(pMsgEx->Msg.u.join_indication.calling_address),
&rc);
// Copy the Called Address
::CSAP_CopyDataToGCCMessage_Call(
FALSE, // called address
pMsgEx->pToDelete,
called_address,
&(pMsgEx->Msg.u.join_indication.called_address),
&rc);
if (GCC_NO_ERROR == rc)
{
// Copy the User Data if it exists.
if (user_data_list != NULL)
{
rc = RetrieveUserDataList(
user_data_list,
&(pMsgEx->Msg.u.join_indication.number_of_user_data_members),
&(pMsgEx->Msg.u.join_indication.user_data_list),
&(pMsgEx->pToDelete->user_data_list_memory));
ASSERT(GCC_NO_ERROR == rc);
}
else
{
// pMsgEx->Msg.u.join_indication.number_of_user_data_members = 0;
// pMsgEx->Msg.u.join_indication.user_data_list = NULL;
}
if (GCC_NO_ERROR == rc)
{
/*
** Filling in the rest of the information that needs to be sent
** to the application.
*/
pMsgEx->Msg.u.join_indication.join_response_tag = response_tag;
pMsgEx->Msg.u.join_indication.conference_id = conference_id ;
pMsgEx->Msg.u.join_indication.node_is_intermediate = intermediate_node;
pMsgEx->Msg.u.join_indication.connection_handle = connection_handle;
// Queue up the message for delivery to the Node Controller.
PostIndCtrlSapMsg(pMsgEx);
}
}
}
else
{
ERROR_OUT(("CControlSAP::QueueJoinIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (GCC_NO_ERROR != rc)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::QueueJoinIndication, rc);
return rc;
}
/*
* GCCError CControlSAP::RetrieveUserDataList(
* CUserDataListContainer *user_data_list_object,
* PUShort number_of_data_members,
* PGCCUserData **user_data_list,
* LPBYTE *pUserDataMemory)
*
* Public member function of CControlSAP.
*
* Function Description:
* This routine is used to fill in a user data list using a CUserDataListContainer
* container. The memory needed to hold the user data will be allocated
* by this routine.
*
* Formal Parameters:
* user_data_list_object (i) The CUserDataListContainer container holding the
* user data.
* number_of_data_members (o) The number of elements in the list of
* user data.
* user_data_list (o) The "API" user data list to fill in.
* data_to_be_deleted (o) Structure which will hold the memory
* allocated for the user data.
*
* Return Value:
* GCC_NO_ERROR - User data successfully retrieved.
* GCC_ALLOCATION_FAILURE - A resource allocation failure occurred.
*
* Side Effects:
* None.
*
* Caveats:
* None.
*/
GCCError CControlSAP::RetrieveUserDataList
(
CUserDataListContainer *user_data_list_object,
UINT *number_of_data_members,
PGCCUserData **user_data_list,
LPBYTE *ppUserDataMemory
)
{
GCCError rc = GCC_NO_ERROR;
UINT user_data_length;
DebugEntry(CControlSAP::RetrieveUserDataList);
/*
* Lock the user data list object in order to determine the amount of
* memory to allocate to hold the user data.
*/
user_data_length = user_data_list_object->LockUserDataList ();
DBG_SAVE_FILE_LINE
if (NULL != (*ppUserDataMemory = new BYTE[user_data_length]))
{
/*
* The CUserDataListContainer "Get" call will set the user_data_list
* pointer equal to this memory pointer.
*/
user_data_list_object->GetUserDataList(
number_of_data_members,
user_data_list,
*ppUserDataMemory);
}
else
{
ERROR_OUT(("CControlSAP::RetrieveUserDataList: Error allocating memory"));
rc = GCC_ALLOCATION_FAILURE;
}
/*
* Unlock the data for the user data list object.
*/
user_data_list_object->UnLockUserDataList ();
DebugExitINT(CControlSAP::RetrieveUserDataList, rc);
return rc;
}
/* ------ pure virtual in CBaseSap (shared with CAppSap) ------ */
/*
* ConfRosterInquireConfirm()
*
* Public Function Description
* This routine is called in order to return a requested conference
* roster to an application or the node controller.
*/
GCCError CControlSAP::ConfRosterInquireConfirm
(
GCCConfID conference_id,
PGCCConferenceName conference_name,
GCCNumericString conference_modifier,
LPWSTR pwszConfDescriptor,
CConfRoster *conference_roster,
GCCResult result,
GCCAppSapMsgEx **ppAppSapMsgEx
)
{
GCCCtrlSapMsgEx *pMsgEx;
GCCError rc = GCC_NO_ERROR;
UINT memory_block_size = 0;
int name_unicode_string_length;
int descriptor_unicode_string_length;
LPBYTE pBuf = NULL;
LPBYTE memory_pointer;
DebugEntry(CControlSAP::ConfRosterInquireConfirm);
ASSERT(NULL == ppAppSapMsgEx);
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_ROSTER_INQUIRE_CONFIRM)))
{
::ZeroMemory(&(pMsgEx->Msg.u.conf_roster_inquire_confirm), sizeof(pMsgEx->Msg.u.conf_roster_inquire_confirm));
/*
* Determine the length of the numeric portion of the conference name.
*/
if (conference_name->numeric_string != NULL)
{
memory_block_size += (::lstrlenA(conference_name->numeric_string) + 1);
memory_block_size = ROUNDTOBOUNDARY(memory_block_size);
}
/*
* Determine the length of the text portion of the conference name if it
* exists. A UnicodeString object is created temporarily to determine
* the length of the string.
*/
if (conference_name->text_string != NULL)
{
name_unicode_string_length = ROUNDTOBOUNDARY(
(::lstrlenW(conference_name->text_string) + 1) * sizeof(WCHAR));
memory_block_size += name_unicode_string_length;
}
/*
* Determine the length of the conference modifier.
*/
if (conference_modifier != NULL)
{
memory_block_size += (::lstrlenA(conference_modifier) + 1);
memory_block_size = ROUNDTOBOUNDARY(memory_block_size);
}
/*
* Determine the length of the conference descriptor. A UnicodeString
* object is created temporarily to determine the length of the string.
*/
if (pwszConfDescriptor != NULL)
{
descriptor_unicode_string_length = ROUNDTOBOUNDARY(
(::lstrlenW(pwszConfDescriptor) + 1) * sizeof(WCHAR));
memory_block_size += descriptor_unicode_string_length;
}
/*
* Lock the data for the conference roster. The lock call will
* return the length of the data to be serialized for the roster so
* add that length to the total memory block size and allocate the
* memory block.
*/
memory_block_size += conference_roster->LockConferenceRoster();
/*
* If the memory was successfully allocated, get a pointer to the
* memory. The first pointer in the roster inquire confirm message
* will be set to this location and all serialized data written into
* the memory block.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx->pBuf = new BYTE[memory_block_size]))
{
memory_pointer = pMsgEx->pBuf;
/*
* Write the conference name string(s) into memory and set the
* message structure pointers.
*/
if (conference_name->numeric_string != NULL)
{
::lstrcpyA((LPSTR)memory_pointer, (LPSTR)conference_name->numeric_string);
pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_name.
numeric_string = (LPSTR) memory_pointer;
memory_pointer += ROUNDTOBOUNDARY(
::lstrlenA(conference_name->numeric_string) + 1);
}
else
{
// pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_name.numeric_string = NULL;
}
/*
* Copy the text portion of the conference name if it exists.
*/
if (conference_name->text_string != NULL)
{
::CopyMemory(memory_pointer, (LPSTR)conference_name->text_string, name_unicode_string_length);
pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_name.text_string = (LPWSTR)memory_pointer;
memory_pointer += name_unicode_string_length;
}
else
{
// pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_name.text_string = NULL;
}
/*
* Copy the conference modifier is it exists
*/
if (conference_modifier != NULL)
{
::lstrcpyA((LPSTR)memory_pointer, (LPSTR)conference_modifier);
pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_modifier = (LPSTR) memory_pointer;
memory_pointer += ROUNDTOBOUNDARY(::lstrlenA(conference_modifier) + 1);
}
else
{
// pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_modifier = NULL;
}
/*
* Copy the conference descriptor.
*/
if (pwszConfDescriptor != NULL)
{
::CopyMemory(memory_pointer, (LPSTR)pwszConfDescriptor, descriptor_unicode_string_length);
pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_descriptor = (LPWSTR) memory_pointer;
memory_pointer += descriptor_unicode_string_length;
}
else
{
// pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_descriptor = NULL;
}
/*
* Retrieve the conference roster data from the roster object.
* The roster object will serialize any referenced data into
* the memory block passed in to the "Get" call.
*/
conference_roster->GetConfRoster(
&pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_roster,
memory_pointer);
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.conf_roster_inquire_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conf_roster_inquire_confirm.result = result;
/*
* Add the message to the queue for delivery to the application or
* node controller.
*/
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
ERROR_OUT(("CControlSAP::ConfRosterInquireConfirm: can't allocate buffer, size=%u", (UINT) memory_block_size));
rc = GCC_ALLOCATION_FAILURE;
}
/*
* Unlock the data for the conference roster.
*/
conference_roster->UnLockConferenceRoster();
}
else
{
ERROR_OUT(("CControlSAP::ConfRosterInquireConfirm: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (rc != GCC_NO_ERROR)
{
FreeCtrlSapMsgEx(pMsgEx);
ASSERT(GCC_ALLOCATION_FAILURE == rc);
HandleResourceFailure();
}
DebugExitINT(CControlSAP::ConfRosterInquireConfirm, rc);
return (rc);
}
/*
* AppRosterInquireConfirm()
*
* Public Function Description
* This routine is called in order to return a requested list of
* application rosters to an application or the node controller.
*/
GCCError CControlSAP::AppRosterInquireConfirm
(
GCCConfID conference_id,
CAppRosterMsg *roster_message,
GCCResult result,
GCCAppSapMsgEx **ppAppSapMsgEx
)
{
#ifdef JASPER
GCCError rc = GCC_NO_ERROR;
GCCCtrlSapMsgEx *pMsgEx;
UINT number_of_rosters;
LPBYTE pBuf = NULL;
DebugEntry(CControlSAP::AppRosterInquireConfirm);
ASSERT(NULL == ppAppSapMsgEx);
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_APP_ROSTER_INQUIRE_CONFIRM, TRUE)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.app_roster_inquire_confirm), sizeof(pMsgEx->Msg.u.app_roster_inquire_confirm));
/*
* Lock the data for the roster message and retrieve the data.
*/
rc = roster_message->LockApplicationRosterMessage();
if (rc == GCC_NO_ERROR)
{
rc = roster_message->GetAppRosterMsg(&pBuf, &number_of_rosters);
if (rc == GCC_NO_ERROR)
{
/*
* Retrieve the memory pointer and save it in the list of
* GCCApplicationRoster pointers.
*/
pMsgEx->Msg.u.app_roster_inquire_confirm.application_roster_list =
(PGCCApplicationRoster *) pBuf;
}
else
{
/*
* Cleanup after an error.
*/
roster_message->UnLockApplicationRosterMessage();
}
}
/*
* If everything is OK up to here, send the message on up.
*/
if (rc == GCC_NO_ERROR)
{
pMsgEx->pToDelete->application_roster_message = roster_message;
pMsgEx->Msg.u.app_roster_inquire_confirm.conference_id = conference_id;
pMsgEx->Msg.u.app_roster_inquire_confirm.number_of_rosters = number_of_rosters;
pMsgEx->Msg.u.app_roster_inquire_confirm.result = result;
/*
* Add the message to the queue for delivery to the application
* or node controller.
*/
PostConfirmCtrlSapMsg(pMsgEx);
}
}
else
{
ERROR_OUT(("CControlSAP::AppRosterInquireConfirm: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (rc != GCC_NO_ERROR)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
DebugExitINT(CControlSAP::AppRosterInquireConfirm, rc);
return (rc);
#else
return GCC_NO_ERROR;
#endif // JASPER
}
/*
* ConductorInquireConfirm ()
*
* Public Function Description
* This routine is called in order to return conductorship information
* which has been requested.
*
*/
GCCError CControlSAP::ConductorInquireConfirm
(
GCCNodeID conductor_node_id,
GCCResult result,
BOOL permission_flag,
BOOL conducted_mode,
GCCConfID conference_id
)
{
#ifdef JASPER
GCCError rc;
GCCCtrlSapMsgEx *pMsgEx;
DebugEntry(CControlSAP::ConductorInquireConfirm);
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_INQUIRE_CONFIRM)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_inquire_confirm), sizeof(pMsgEx->Msg.u.conduct_inquire_confirm));
pMsgEx->Msg.u.conduct_inquire_confirm.conference_id = conference_id;
pMsgEx->Msg.u.conduct_inquire_confirm.result = result;
pMsgEx->Msg.u.conduct_inquire_confirm.mode_is_conducted = conducted_mode;
pMsgEx->Msg.u.conduct_inquire_confirm.conductor_node_id = conductor_node_id;
pMsgEx->Msg.u.conduct_inquire_confirm.permission_is_granted = permission_flag;
/*
* Add the message to the queue for delivery to the application or
* node controller.
*/
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
DebugExitINT(CControlSAP::ConductorInquireConfirm, rc);
return rc;
#else
return GCC_NO_ERROR;
#endif // JASPER
}
/*
* AppInvokeConfirm ()
*
* Public Function Description
* This routine is called in order to confirm a call requesting application
* invocation.
*/
GCCError CControlSAP::AppInvokeConfirm
(
GCCConfID conference_id,
CInvokeSpecifierListContainer *invoke_list,
GCCResult result,
GCCRequestTag nReqTag
)
{
GCCCtrlSapMsgEx *pMsgEx;
GCCError rc = GCC_NO_ERROR;
UINT invoke_list_memory_length;
DebugEntry(CControlSAP::AppInvokeConfirm);
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_APPLICATION_INVOKE_CONFIRM)))
{
::ZeroMemory(&(pMsgEx->Msg.u.application_invoke_confirm), sizeof(pMsgEx->Msg.u.application_invoke_confirm));
/*
** Determine the amount of memory necessary to hold the list of
** invoke specifiers and allocate that memory.
*/
invoke_list_memory_length = invoke_list->LockApplicationInvokeSpecifierList();
if (invoke_list_memory_length != 0)
{
/*
* If the memory was successfully allocated, get a pointer
* to the memory and save it in the app_protocol_entity_list
* pointer of the GCC message. Call the
* CInvokeSpecifierList object to fill in the
* list.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx->pBuf = new BYTE[invoke_list_memory_length]))
{
pMsgEx->Msg.u.application_invoke_confirm.app_protocol_entity_list =
(GCCAppProtocolEntity **) pMsgEx->pBuf;
invoke_list->GetApplicationInvokeSpecifierList(
&(pMsgEx->Msg.u.application_invoke_confirm.number_of_app_protocol_entities),
pMsgEx->pBuf);
pMsgEx->Msg.u.application_invoke_confirm.conference_id = conference_id;
pMsgEx->Msg.u.application_invoke_confirm.result = result;
/*
* Add the message to the queue for delivery to the application
* or node controller.
*/
PostConfirmCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
ERROR_OUT(("CControlSAP::AppInvokeConfirm: can't allocate buffer, size=%u", (UINT) invoke_list_memory_length));
rc = GCC_ALLOCATION_FAILURE;
}
}
/*
** Unlock the data for the invoke specifier list.
*/
invoke_list->UnLockApplicationInvokeSpecifierList();
}
else
{
ERROR_OUT(("CControlSAP::AppInvokeConfirm: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (rc != GCC_NO_ERROR)
{
FreeCtrlSapMsgEx(pMsgEx);
ASSERT(GCC_ALLOCATION_FAILURE == rc);
HandleResourceFailure();
}
DebugExitINT(CControlSAP::AppInvokeConfirm, rc);
return rc;
}
/*
* AppInvokeIndication ()
*
* Public Function Description
* This routine is called in order to send an indication to an application
* or node controller that a request for application invocation has been
* made.
*/
GCCError CControlSAP::AppInvokeIndication
(
GCCConfID conference_id,
CInvokeSpecifierListContainer *invoke_list,
GCCNodeID invoking_node_id
)
{
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::AppInvokeIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_APPLICATION_INVOKE_INDICATION;
UINT invoke_list_memory_length;
/*
** Determine the amount of memory necessary to hold the list of
** invoke specifiers and allocate that memory.
*/
invoke_list_memory_length = invoke_list->LockApplicationInvokeSpecifierList();
if (invoke_list_memory_length != 0)
{
LPBYTE pBuf;
/*
* If the memory was successfully allocated, get a pointer
* to the memory and save it in the app_protocol_entity_list
* pointer of the GCC message. Call the
* CInvokeSpecifierList object to fill in the
* list.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pBuf = new BYTE[invoke_list_memory_length]))
{
Msg.u.application_invoke_indication.app_protocol_entity_list = (GCCAppProtocolEntity **) pBuf;
invoke_list->GetApplicationInvokeSpecifierList(
&(Msg.u.application_invoke_indication.number_of_app_protocol_entities),
pBuf);
Msg.u.application_invoke_indication.conference_id = conference_id;
Msg.u.application_invoke_indication.invoking_node_id = invoking_node_id;
SendCtrlSapMsg(&Msg);
// rc = GCC_NO_ERROR;
delete pBuf;
}
else
{
ERROR_OUT(("CControlSAP::AppInvokeIndication: can't allocate buffer, size=%u", (UINT) invoke_list_memory_length));
rc = GCC_ALLOCATION_FAILURE;
}
}
/*
** Unlock the data for the invoke specifier list.
*/
invoke_list->UnLockApplicationInvokeSpecifierList ();
#else
GCCCtrlSapMsgEx *pMsgEx;
UINT invoke_list_memory_length;
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_APPLICATION_INVOKE_INDICATION)))
{
::ZeroMemory(&(pMsgEx->Msg.u.application_invoke_indication), sizeof(pMsgEx->Msg.u.application_invoke_indication));
/*
** Determine the amount of memory necessary to hold the list of
** invoke specifiers and allocate that memory.
*/
invoke_list_memory_length = invoke_list->LockApplicationInvokeSpecifierList();
if (invoke_list_memory_length != 0)
{
/*
* If the memory was successfully allocated, get a pointer
* to the memory and save it in the app_protocol_entity_list
* pointer of the GCC message. Call the
* CInvokeSpecifierList object to fill in the
* list.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx->pBuf = new BYTE[invoke_list_memory_length]))
{
pMsgEx->Msg.u.application_invoke_indication.app_protocol_entity_list =
(GCCAppProtocolEntity **) pMsgEx->pBuf;
invoke_list->GetApplicationInvokeSpecifierList(
&(pMsgEx->Msg.u.application_invoke_indication.number_of_app_protocol_entities),
pMsgEx->pBuf);
pMsgEx->Msg.u.application_invoke_indication.conference_id = conference_id;
pMsgEx->Msg.u.application_invoke_indication.invoking_node_id = invoking_node_id;
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
ERROR_OUT(("CControlSAP::AppInvokeIndication: can't allocate buffer, size=%u", (UINT) invoke_list_memory_length));
rc = GCC_ALLOCATION_FAILURE;
}
}
/*
** Unlock the data for the invoke specifier list.
*/
invoke_list->UnLockApplicationInvokeSpecifierList ();
}
else
{
ERROR_OUT(("CControlSAP::AppInvokeIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (rc != GCC_NO_ERROR)
{
FreeCtrlSapMsgEx(pMsgEx);
ASSERT(GCC_ALLOCATION_FAILURE == rc);
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::AppInvokeIndication, rc);
return rc;
}
/*
* ConfRosterReportIndication ()
*
* Public Function Description
* This routine is called in order to indicate to applications and the
* node controller that the conference roster has been updated.
*/
GCCError CControlSAP::ConfRosterReportIndication
(
GCCConfID conference_id,
CConfRosterMsg *roster_message
)
{
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::ConfRosterReportIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_ROSTER_REPORT_INDICATION;
/*
* Lock the conference roster message in order to force the object
* to serialize the data into its internal memory.
*/
rc = roster_message->LockConferenceRosterMessage();
if (rc == GCC_NO_ERROR)
{
LPBYTE pBuf = NULL;
/*
* Retrieve the actual pointer to memory object that the
* serialized conference roster is contained in from the
* conference roster message.
*/
rc = roster_message->GetConferenceRosterMessage(&pBuf);
if (rc == GCC_NO_ERROR)
{
Msg.nConfID = conference_id;
Msg.u.conf_roster_report_indication.conference_id = conference_id;
Msg.u.conf_roster_report_indication.conference_roster = (PGCCConferenceRoster) pBuf;
SendCtrlSapMsg(&Msg);
}
else
{
ERROR_OUT(("CControlSAP::ConfRosterReportIndication: can't get conf roster message"));
}
roster_message->UnLockConferenceRosterMessage();
}
else
{
ERROR_OUT(("CControlSAP::ConfRosterReportIndication: can't lock conf roster message"));
}
#else
GCCCtrlSapMsgEx *pMsgEx;
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_ROSTER_REPORT_INDICATION, TRUE)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conf_roster_report_indication), sizeof(pMsgEx->Msg.u.conf_roster_report_indication));
/*
* Lock the conference roster message in order to force the object
* to serialize the data into its internal memory.
*/
rc = roster_message->LockConferenceRosterMessage();
if (rc == GCC_NO_ERROR)
{
LPBYTE pBuf = NULL;
/*
* Retrieve the actual pointer to memory object that the
* serialized conference roster is contained in from the
* conference roster message.
*/
rc = roster_message->GetConferenceRosterMessage(&pBuf);
if (rc == GCC_NO_ERROR)
{
pMsgEx->Msg.u.conf_roster_report_indication.conference_roster =
(PGCCConferenceRoster) pBuf;
/*
* Fill in the roster's conference ID and then queue up the
* message.
*/
pMsgEx->Msg.nConfID = conference_id;
pMsgEx->Msg.u.conf_roster_report_indication.conference_id = conference_id;
pMsgEx->pToDelete->conference_roster_message = roster_message;
PostIndCtrlSapMsg(pMsgEx);
}
else
{
ERROR_OUT(("CControlSAP::ConfRosterReportIndication: can't get conf roster message"));
}
}
else
{
ERROR_OUT(("CControlSAP::ConfRosterReportIndication: can't lock conf roster message"));
}
}
else
{
ERROR_OUT(("CControlSAP::ConfRosterReportIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (rc != GCC_NO_ERROR)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConfRosterReportIndication, rc);
return rc;
}
/*
* AppRosterReportIndication()
*
* Public Function Description
* This routine is called in order to indicate to applications and the
* node controller that the list of application rosters has been updated.
*/
GCCError CControlSAP::AppRosterReportIndication
(
GCCConfID conference_id,
CAppRosterMsg *roster_message
)
{
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::AppRosterReportIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_APP_ROSTER_REPORT_INDICATION;
/*
* Determine the amount of memory needed to hold the list of
* application rosters and allocate that memory.
*/
rc = roster_message->LockApplicationRosterMessage();
if (rc == GCC_NO_ERROR)
{
LPBYTE pBuf = NULL;
ULONG cRosters;
rc = roster_message->GetAppRosterMsg(&pBuf, &cRosters);
if (rc == GCC_NO_ERROR)
{
Msg.u.app_roster_report_indication.conference_id = conference_id;
Msg.u.app_roster_report_indication.application_roster_list = (PGCCApplicationRoster *) pBuf;
Msg.u.app_roster_report_indication.number_of_rosters = cRosters;
SendCtrlSapMsg(&Msg);
}
else
{
ERROR_OUT(("CControlSAP: AppRosterReportIndication: GetAppRosterMsg failed"));
}
roster_message->UnLockApplicationRosterMessage();
}
else
{
ERROR_OUT(("CControlSAP: AppRosterReportIndication: LockApplicationRosterMessage failed"));
}
#else
GCCCtrlSapMsgEx *pMsgEx;
LPBYTE pBuf = NULL;
UINT cRosters;
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_APP_ROSTER_REPORT_INDICATION, TRUE)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.app_roster_report_indication), sizeof(pMsgEx->Msg.u.app_roster_report_indication));
/*
* Determine the amount of memory needed to hold the list of
* application rosters and allocate that memory.
*/
rc = roster_message->LockApplicationRosterMessage();
if (rc == GCC_NO_ERROR)
{
rc = roster_message->GetAppRosterMsg(&pBuf, &cRosters);
if (rc == GCC_NO_ERROR)
{
/*
* Save it in the list of GCCApplicationRoster pointers.
*/
pMsgEx->Msg.u.app_roster_report_indication.application_roster_list =
(PGCCApplicationRoster *) pBuf;
}
else
{
/*
* Cleanup after an error.
*/
ERROR_OUT(("CControlSAP: AppRosterReportIndication: GetAppRosterMsg failed"));
roster_message->UnLockApplicationRosterMessage();
}
}
else
{
ERROR_OUT(("CControlSAP: AppRosterReportIndication: LockApplicationRosterMessage failed"));
}
/*
* If everything is OK up to here, send the message on up.
*/
if (rc == GCC_NO_ERROR)
{
pMsgEx->Msg.u.app_roster_report_indication.conference_id = conference_id;
pMsgEx->Msg.u.app_roster_report_indication.number_of_rosters = cRosters;
pMsgEx->pToDelete->application_roster_message = roster_message;
/*
* Add the message to the queue for delivery to the application
* or node controller.
*/
PostIndCtrlSapMsg(pMsgEx);
}
}
else
{
ERROR_OUT(("CControlSAP: AppRosterReportIndication: Failed to allocate a GCC message"));
rc = GCC_ALLOCATION_FAILURE;
}
if (rc != GCC_NO_ERROR)
{
FreeCtrlSapMsgEx(pMsgEx);
HandleResourceFailure(rc);
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::AppRosterReportIndication, rc);
return rc;
}
/* ------ from CBaseSap ------ */
/*
* ConductorAssignIndication ()
*
* Public Function Description
* This routine is called in order to send an indication to an application
* or node controller that a request has been made to assign conductorship.
*/
GCCError CControlSAP::ConductorAssignIndication
(
UserID conductor_node_id,
GCCConfID conference_id
)
{
#ifdef JASPER
GCCError rc;
DebugEntry(CControlSAP::ConductorAssignIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CONDUCT_ASSIGN_INDICATION;
Msg.u.conduct_assign_indication.conference_id = conference_id;
Msg.u.conduct_assign_indication.node_id = conductor_node_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_ASSIGN_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_assign_indication), sizeof(pMsgEx->Msg.u.conduct_assign_indication));
pMsgEx->Msg.u.conduct_assign_indication.conference_id = conference_id;
pMsgEx->Msg.u.conduct_assign_indication.node_id = conductor_node_id;
/*
* Add the message to the queue for delivery to the application or
* node controller.
*/
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConductorAssignIndication, rc);
return rc;
#else
return GCC_NO_ERROR;
#endif // JASPER
}
/*
* ConductorReleaseIndication ()
*
* Public Function Description
* This routine is called in order to send an indication to an application
* or node controller that a request for releasing conductorship has been
* made.
*/
GCCError CControlSAP::
ConductorReleaseIndication ( GCCConfID conference_id )
{
#ifdef JASPER
GCCError rc;
DebugEntry(CControlSAP::ConductorReleaseIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CONDUCT_RELEASE_INDICATION;
Msg.u.conduct_release_indication.conference_id = conference_id;
SendCtrlSapMsg(&Msg);
rc = GCC_NO_ERROR;
#else
GCCCtrlSapMsgEx *pMsgEx;
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_RELEASE_INDICATION)))
{
// ::ZeroMemory(&(pMsgEx->Msg.u.conduct_release_indication), sizeof(pMsgEx->Msg.u.conduct_release_indication));
pMsgEx->Msg.u.conduct_release_indication.conference_id = conference_id;
/*
* Add the message to the queue for delivery to the application or
* node controller.
*/
PostIndCtrlSapMsg(pMsgEx);
rc = GCC_NO_ERROR;
}
else
{
rc = GCC_ALLOCATION_FAILURE;
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConductorReleaseIndication, rc);
return rc;
#else
return GCC_NO_ERROR;
#endif // JASPER
}
/*
* ConductorPermitGrantIndication ()
*
* Public Function Description
* This routine is called in order to send an indication to an application
* or node controller that a request for permission from the conductor
* has been made.
*/
GCCError CControlSAP::ConductorPermitGrantIndication
(
GCCConfID conference_id,
UINT number_granted,
GCCNodeID *granted_node_list,
UINT number_waiting,
GCCNodeID *waiting_node_list,
BOOL permission_is_granted
)
{
#ifdef JASPER
GCCError rc = GCC_NO_ERROR;
DebugEntry(CControlSAP::ConductorPermitGrantIndication);
#ifdef GCCNC_DIRECT_INDICATION
GCCCtrlSapMsg Msg;
Msg.message_type = GCC_CONDUCT_GRANT_INDICATION;
Msg.u.conduct_permit_grant_indication.conference_id = conference_id;
Msg.u.conduct_permit_grant_indication.number_granted = number_granted;
Msg.u.conduct_permit_grant_indication.granted_node_list = granted_node_list;
Msg.u.conduct_permit_grant_indication.number_waiting = number_waiting;
Msg.u.conduct_permit_grant_indication.waiting_node_list = waiting_node_list;
Msg.u.conduct_permit_grant_indication.permission_is_granted = permission_is_granted;
SendCtrlSapMsg(&Msg);
#else
GCCCtrlSapMsgEx *pMsgEx;
int bulk_memory_size;
LPBYTE memory_pointer;
UINT i;
/*
** Create a new message structure to hold the message to be delivered
** to the application or node controller.
*/
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = CreateCtrlSapMsgEx(GCC_CONDUCT_GRANT_INDICATION)))
{
::ZeroMemory(&(pMsgEx->Msg.u.conduct_permit_grant_indication), sizeof(pMsgEx->Msg.u.conduct_permit_grant_indication));
/*
** Here we determine if bulk memory is necessary.
*/
if ((number_granted != 0) || (number_waiting != 0))
{
/*
** We must first determine how big the bulk memory block will be
** and allocate that memory.
*/
bulk_memory_size = (ROUNDTOBOUNDARY(sizeof(UserID)) * number_granted) +
(ROUNDTOBOUNDARY(sizeof(UserID)) * number_waiting);
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx->pBuf = new BYTE[bulk_memory_size]))
{
memory_pointer = pMsgEx->pBuf;
}
else
{
ERROR_OUT(("CControlSAP::ConductorPermitGrantIndication: can't allocate buffer, size=%u", (UINT) bulk_memory_size));
rc = GCC_ALLOCATION_FAILURE;
}
}
if (rc == GCC_NO_ERROR)
{
/*
** If there are any nodes in the permission list copy them over.
*/
if (number_granted != 0)
{
TRACE_OUT(("CControlSAP::ConductorPermitGrantIndication:"
" number_granted = %d", number_granted));
pMsgEx->Msg.u.conduct_permit_grant_indication.
granted_node_list = (PUserID)memory_pointer;
for (i = 0; i < number_granted; i++)
{
pMsgEx->Msg.u.conduct_permit_grant_indication.
granted_node_list[i] = granted_node_list[i];
}
memory_pointer += ROUNDTOBOUNDARY(sizeof(UserID)) * number_granted;
}
else
{
// pMsgEx->Msg.u.conduct_permit_grant_indication.granted_node_list = NULL;
}
/*
** If there are any nodes in the waiting list copy them over.
*/
if (number_waiting != 0)
{
TRACE_OUT(("CControlSAP::ConductorPermitGrantIndication:"
" number_waiting = %d", number_waiting));
pMsgEx->Msg.u.conduct_permit_grant_indication.
waiting_node_list = (PUserID)memory_pointer;
for (i = 0; i < number_waiting; i++)
{
pMsgEx->Msg.u.conduct_permit_grant_indication.
waiting_node_list[i] = waiting_node_list[i];
}
}
else
{
// pMsgEx->Msg.u.conduct_permit_grant_indication.waiting_node_list = NULL;
}
pMsgEx->Msg.u.conduct_permit_grant_indication.conference_id = conference_id;
pMsgEx->Msg.u.conduct_permit_grant_indication.number_granted = number_granted;
pMsgEx->Msg.u.conduct_permit_grant_indication.number_waiting = number_waiting;
pMsgEx->Msg.u.conduct_permit_grant_indication.permission_is_granted = permission_is_granted;
/*
* Add the message to the queue for delivery to the application or
* node controller.
*/
PostIndCtrlSapMsg(pMsgEx);
}
}
else
{
ERROR_OUT(("CControlSAP::ConductorPermitGrantIndication: can't create GCCCtrlSapMsgEx"));
rc = GCC_ALLOCATION_FAILURE;
}
if (rc != GCC_NO_ERROR)
{
FreeCtrlSapMsgEx(pMsgEx);
ASSERT(GCC_ALLOCATION_FAILURE == rc);
HandleResourceFailure();
}
#endif // GCCNC_DIRECT_INDICATION
DebugExitINT(CControlSAP::ConductorPermitGrantIndication, rc);
return (rc);
#else
return GCC_NO_ERROR;
#endif // JASPER
}
GCCError CControlSAP::AppletInvokeRequest
(
GCCConfID nConfID,
UINT number_of_app_protcol_entities,
GCCAppProtocolEntity **app_protocol_entity_list,
UINT number_of_destination_nodes,
UserID *list_of_destination_nodes
)
{
GCCAppProtEntityList ApeList;
GCCSimpleNodeList NodeList;
GCCRequestTag nReqTag;
ApeList.cApes = number_of_app_protcol_entities;
ApeList.apApes = app_protocol_entity_list;
NodeList.cNodes = number_of_destination_nodes;
NodeList.aNodeIDs = list_of_destination_nodes;
return CBaseSap::AppInvoke(nConfID, &ApeList, &NodeList, &nReqTag);
}
GCCError CControlSAP::ConfRosterInqRequest
(
GCCConfID nConfID
)
{
return CBaseSap::ConfRosterInquire(nConfID, NULL);
}
#ifdef JASPER
GCCError CControlSAP::ConductorInquireRequest
(
GCCConfID nConfID
)
{
return CBaseSap::ConductorInquire(nConfID);
}
#endif // JASPER
//
// LONCHANC: The following SAP_*** stuff are all app sap related
// because FreeCallbackMessage() in CControlSAP does not handle
// the DataToBeDeleted stuff.
//
/*
* void CopyDataToGCCMessage(
* SapCopyType copy_type,
* PDataToBeDeleted data_to_be_deleted,
* LPVOID source_ptr,
* LPVOID destination_ptr,
* PGCCError rc)
*
* Protected member function of CControlSAP.
*
* Function Description:
* This routine is used to fill in the various components of the message
* structures to be delivered to applications or the node controller.
*
* Formal Parameters:
* copy_type (i) Enumerated type indicating what field is to be
* copied.
* data_to_be_deleted (o) Structure to hold part of the data to be
* delivered in the message.
* source_ptr (i) Pointer to structure to copy from.
* destination_ptr (o) Pointer to structure to copy into.
* rc (o) Return value for routine.
*
* Return Value:
* None.
*
* Side Effects:
* None.
*
* Caveats:
* The return value should be setup before it is passed into this
* routine. This allows the error checking to be done in one place
* (this routine).
*/
void CSAP_CopyDataToGCCMessage_ConfName
(
PDataToBeDeleted data_to_be_deleted,
PGCCConferenceName source_conference_name,
PGCCConferenceName destination_conference_name,
PGCCError pRetCode
)
{
if (GCC_NO_ERROR == *pRetCode)
{
LPSTR pszNumeric;
LPWSTR pwszText;
if (source_conference_name != NULL)
{
if (source_conference_name->numeric_string != NULL)
{
/*
* First copy the numeric conference name if one exists.
*/
if (NULL != (pszNumeric = ::My_strdupA(source_conference_name->numeric_string)))
{
destination_conference_name->numeric_string = (GCCNumericString) pszNumeric;
data_to_be_deleted->pszNumericConfName = pszNumeric;
}
else
{
*pRetCode = GCC_ALLOCATION_FAILURE;
}
}
else
{
// destination_conference_name->numeric_string = NULL;
}
/*
* Next copy the text conference name if one exists.
*/
if ((source_conference_name->text_string != NULL) &&
(*pRetCode == GCC_NO_ERROR))
{
if (NULL != (pwszText = ::My_strdupW(source_conference_name->text_string)))
{
destination_conference_name->text_string = pwszText;
data_to_be_deleted->pwszTextConfName = pwszText;
}
else
{
*pRetCode = GCC_ALLOCATION_FAILURE;
}
}
else
{
// destination_conference_name->text_string = NULL;
}
}
else
{
// destination_conference_name->numeric_string = NULL;
// destination_conference_name->text_string = NULL;
}
ASSERT(GCC_NO_ERROR == *pRetCode);
}
}
void CSAP_CopyDataToGCCMessage_Modifier
(
BOOL fRemoteModifier,
PDataToBeDeleted data_to_be_deleted,
GCCNumericString source_numeric_string,
GCCNumericString *destination_numeric_string,
PGCCError pRetCode
)
{
if (GCC_NO_ERROR == *pRetCode)
{
LPSTR numeric_ptr;
if (source_numeric_string != NULL)
{
if (NULL != (numeric_ptr = ::My_strdupA(source_numeric_string)))
{
*destination_numeric_string = (GCCNumericString) numeric_ptr;
if (fRemoteModifier)
{
data_to_be_deleted->pszRemoteModifier = numeric_ptr;
}
else
{
data_to_be_deleted->pszConfNameModifier = numeric_ptr;
}
TRACE_OUT(("CopyDataToGCCMessage_Modifier: modifier = %s", *destination_numeric_string));
}
else
{
// *destination_numeric_string = NULL;
*pRetCode = GCC_ALLOCATION_FAILURE;
}
}
else
{
// *destination_numeric_string = NULL;
}
ASSERT(GCC_NO_ERROR == *pRetCode);
}
}
void CSAP_CopyDataToGCCMessage_Password
(
BOOL fConvener,
PDataToBeDeleted data_to_be_deleted,
CPassword *source_password,
PGCCPassword *destination_password,
PGCCError pRetCode
)
{
if (GCC_NO_ERROR == *pRetCode)
{
if (source_password != NULL)
{
source_password->LockPasswordData();
source_password->GetPasswordData (destination_password);
if (fConvener)
{
data_to_be_deleted->convener_password = source_password;
}
else
{
data_to_be_deleted->password = source_password;
}
}
else
{
// *destination_password = NULL;
}
ASSERT(GCC_NO_ERROR == *pRetCode);
}
}
void CSAP_CopyDataToGCCMessage_Challenge
(
PDataToBeDeleted data_to_be_deleted,
CPassword *source_password,
PGCCChallengeRequestResponse *password_challenge,
PGCCError pRetCode
)
{
if (GCC_NO_ERROR == *pRetCode)
{
if (source_password != NULL)
{
source_password->LockPasswordData();
source_password->GetPasswordChallengeData (password_challenge);
data_to_be_deleted->password = source_password;
}
else
{
// *password_challenge = NULL;
}
ASSERT(GCC_NO_ERROR == *pRetCode);
}
}
void CSAP_CopyDataToGCCMessage_PrivilegeList
(
PPrivilegeListData source_privilege_list_data,
PGCCConferencePrivileges *destination_privilege_list,
PGCCError pRetCode
)
{
if (GCC_NO_ERROR == *pRetCode)
{
if (source_privilege_list_data != NULL)
{
DBG_SAVE_FILE_LINE
if (NULL != (*destination_privilege_list = new GCCConferencePrivileges))
{
**destination_privilege_list =
*(source_privilege_list_data->GetPrivilegeListData());
}
else
{
*pRetCode = GCC_ALLOCATION_FAILURE;
}
}
else
{
// *destination_privilege_list = NULL;
}
ASSERT(GCC_NO_ERROR == *pRetCode);
}
}
void CSAP_CopyDataToGCCMessage_IDvsDesc
(
BOOL fCallerID,
PDataToBeDeleted data_to_be_deleted,
LPWSTR source_text_string,
LPWSTR *destination_text_string,
PGCCError pRetCode
)
{
if (GCC_NO_ERROR == *pRetCode)
{
if (source_text_string != NULL)
{
if (NULL != (*destination_text_string = ::My_strdupW(source_text_string)))
{
if (fCallerID)
{
data_to_be_deleted->pwszCallerID = *destination_text_string;
}
else
{
data_to_be_deleted->pwszConfDescriptor = *destination_text_string;
}
}
else
{
*pRetCode = GCC_ALLOCATION_FAILURE;
}
}
else
{
// *destination_text_string = NULL;
}
ASSERT(GCC_NO_ERROR == *pRetCode);
}
}
//
// LONCHANC: TransportAddress is defined as LPSTR (i.e. char *)
//
void CSAP_CopyDataToGCCMessage_Call
(
BOOL fCalling,
PDataToBeDeleted data_to_be_deleted,
TransportAddress source_transport_address,
TransportAddress *destination_transport_address,
PGCCError pRetCode
)
{
if (GCC_NO_ERROR == *pRetCode)
{
if (source_transport_address != NULL)
{
if (NULL != (*destination_transport_address = ::My_strdupA(source_transport_address)))
{
if (fCalling)
{
data_to_be_deleted->pszCallingAddress = *destination_transport_address ;
}
else
{
data_to_be_deleted->pszCalledAddress = *destination_transport_address ;
}
}
else
{
*pRetCode = GCC_ALLOCATION_FAILURE;
}
}
else
{
// *destination_transport_address = NULL;
}
ASSERT(GCC_NO_ERROR == *pRetCode);
}
}
void CSAP_CopyDataToGCCMessage_DomainParams
(
PDataToBeDeleted data_to_be_deleted,
PDomainParameters source_domain_parameters,
PDomainParameters *destination_domain_parameters,
PGCCError pRetCode
)
{
if (GCC_NO_ERROR == *pRetCode)
{
if (source_domain_parameters != NULL)
{
DBG_SAVE_FILE_LINE
if (NULL != (*destination_domain_parameters = new DomainParameters))
{
**destination_domain_parameters = *source_domain_parameters;
data_to_be_deleted->pDomainParams = *destination_domain_parameters;
}
else
{
*pRetCode = GCC_ALLOCATION_FAILURE;
}
}
else
{
// *destination_domain_parameters = NULL;
}
ASSERT(GCC_NO_ERROR == *pRetCode);
}
}
void CControlSAP::NotifyProc ( GCCCtrlSapMsgEx *pCtrlSapMsgEx )
{
if (NULL != m_pfnNCCallback)
{
pCtrlSapMsgEx->Msg.user_defined = m_pNCData;
(*m_pfnNCCallback)(&(pCtrlSapMsgEx->Msg));
}
//
// Free this callback message.
//
FreeCtrlSapMsgEx(pCtrlSapMsgEx);
}
void CControlSAP::WndMsgHandler
(
UINT uMsg,
WPARAM wParam,
LPARAM lParam
)
{
ASSERT(uMsg >= CSAPCONFIRM_BASE);
GCCCtrlSapMsg Msg;
Msg.message_type = (GCCMessageType) (uMsg - CSAPCONFIRM_BASE);
Msg.nConfID = (GCCConfID) lParam;
GCCResult nResult = (GCCResult) LOWORD(wParam);
switch (Msg.message_type)
{
case GCC_EJECT_USER_CONFIRM:
#ifdef JASPER
Msg.u.eject_user_confirm.conference_id = Msg.nConfID;
Msg.u.eject_user_confirm.result = nResult;
Msg.u.eject_user_confirm.ejected_node_id = (GCCNodeID) HIWORD(wParam);
#endif // JASPER
break;
case GCC_CONDUCT_GIVE_CONFIRM:
#ifdef JASPER
Msg.u.conduct_give_confirm.conference_id = Msg.nConfID;
Msg.u.conduct_give_confirm.result = nResult;
Msg.u.conduct_give_confirm.recipient_node_id = (GCCNodeID) HIWORD(wParam);
#endif // JASPER
break;
case GCC_CONDUCT_ASK_CONFIRM:
#ifdef JASPER
Msg.u.conduct_permit_ask_confirm.conference_id = Msg.nConfID;
Msg.u.conduct_permit_ask_confirm.result = nResult;
Msg.u.conduct_permit_ask_confirm.permission_is_granted = HIWORD(wParam);;
#endif // JASPER
break;
case GCC_EJECT_USER_INDICATION:
Msg.u.eject_user_indication.conference_id = Msg.nConfID;
Msg.u.eject_user_indication.ejected_node_id = (GCCNodeID) HIWORD(wParam);
Msg.u.eject_user_indication.reason = (GCCReason) LOWORD(wParam);
break;
// case GCC_DISCONNECT_CONFIRM:
// case GCC_LOCK_CONFIRM:
// case GCC_UNLOCK_CONFIRM:
// case GCC_ANNOUNCE_PRESENCE_CONFIRM:
// case GCC_TERMINATE_CONFIRM:
// case GCC_CONDUCT_ASSIGN_CONFIRM:
// case GCC_CONDUCT_RELEASE_CONFIRM:
// case GCC_CONDUCT_PLEASE_CONFIRM:
// case GCC_CONDUCT_GRANT_CONFIRM:
// case GCC_TIME_REMAINING_CONFIRM:
// case GCC_TIME_INQUIRE_CONFIRM:
// case GCC_ASSISTANCE_CONFIRM:
// case GCC_TEXT_MESSAGE_CONFIRM:
default:
// This is a shortcut to fill in conf id and gcc result.
Msg.u.simple_confirm.conference_id = Msg.nConfID;
Msg.u.simple_confirm.result = nResult;
break;
}
SendCtrlSapMsg(&Msg);
}
GCCCtrlSapMsgEx * CControlSAP::CreateCtrlSapMsgEx
(
GCCMessageType eMsgType,
BOOL fUseToDelete
)
{
GCCCtrlSapMsgEx *pMsgEx;
UINT cbSize = (UINT)(fUseToDelete ?
sizeof(GCCCtrlSapMsgEx) + sizeof(DataToBeDeleted) :
sizeof(GCCCtrlSapMsgEx));
DBG_SAVE_FILE_LINE
if (NULL != (pMsgEx = (GCCCtrlSapMsgEx *) new BYTE[cbSize]))
{
pMsgEx->Msg.message_type = eMsgType;
pMsgEx->pBuf = NULL;
if (fUseToDelete)
{
pMsgEx->pToDelete = (DataToBeDeleted *) (pMsgEx + 1);
::ZeroMemory(pMsgEx->pToDelete, sizeof(DataToBeDeleted));
}
else
{
pMsgEx->pToDelete = NULL;
}
}
return pMsgEx;
}
void CControlSAP::FreeCtrlSapMsgEx ( GCCCtrlSapMsgEx *pMsgEx )
{
switch (pMsgEx->Msg.message_type)
{
case GCC_QUERY_INDICATION:
delete pMsgEx->Msg.u.query_indication.asymmetry_indicator;
break;
#ifndef GCCNC_DIRECT_CONFIRM
case GCC_QUERY_CONFIRM:
delete pMsgEx->Msg.u.query_confirm.asymmetry_indicator;
break;
#endif
#ifdef JASPER
case GCC_TEXT_MESSAGE_INDICATION:
delete pMsgEx->Msg.u.text_message_indication.text_message;
break;
#endif // JASPER
#ifdef TSTATUS_INDICATION
case GCC_TRANSPORT_STATUS_INDICATION:
delete pMsgEx->Msg.u.transport_status.device_identifier;
delete pMsgEx->Msg.u.transport_status.remote_address;
delete pMsgEx->Msg.u.transport_status.message;
break;
#endif
}
//
// Now free up the data to be deleted,
//
if (NULL != pMsgEx->pToDelete)
{
DataToBeDeleted *p = pMsgEx->pToDelete;
delete p->pszNumericConfName;
delete p->pwszTextConfName;
delete p->pszConfNameModifier;
delete p->pszRemoteModifier;
delete p->pwszConfDescriptor;
delete p->pwszCallerID;
delete p->pszCalledAddress;
delete p->pszCallingAddress;
delete p->user_data_list_memory;
delete p->pDomainParams;
delete p->conductor_privilege_list;
delete p->conducted_mode_privilege_list;
delete p->non_conducted_privilege_list;
if (p->convener_password != NULL)
{
p->convener_password->UnLockPasswordData();
}
if (p->password != NULL)
{
p->password->UnLockPasswordData();
}
if (p->conference_list != NULL)
{
p->conference_list->UnLockConferenceDescriptorList();
}
if (p->conference_roster_message != NULL)
{
//
// Set bulk memory back to NULL here since the conference
// roster message object is responsible for freeing this up.
//
pMsgEx->pBuf = NULL;
p->conference_roster_message->UnLockConferenceRosterMessage();
}
if (p->application_roster_message != NULL)
{
//
// Set bulk memory back to NULL here since the application
// roster message object is responsible for freeing this up.
//
pMsgEx->pBuf = NULL;
//
// App roster indication can definitely be sent to app sap.
//
::EnterCriticalSection(&g_csGCCProvider);
p->application_roster_message->UnLockApplicationRosterMessage();
::LeaveCriticalSection(&g_csGCCProvider);
}
}
//
// Next free up any bulk memory used.
//
delete pMsgEx->pBuf;
//
// Finally, free the structure itself.
//
delete pMsgEx;
}