ANSC_STATUS
CosaDmlEthPortGetStats
(
ANSC_HANDLE hContext,
ULONG ulInstanceNumber,
PCOSA_DML_ETH_STATS pStats
)
{
AnscTraceFlow(("%s...\n", __FUNCTION__));
if (!pStats)
return ANSC_STATUS_FAILURE;
_ansc_memset(pStats, 0, sizeof(COSA_DML_ETH_STATS));
if (ulInstanceNumber == 1)
{
pStats->BytesSent = 11;
}
else if (ulInstanceNumber == 2)
{
pStats->BytesSent = 22;
}
else
return ANSC_STATUS_FAILURE;
return ANSC_STATUS_SUCCESS;
}
ANSC_STATUS
CosaDmlEthPortGetEntry
(
ANSC_HANDLE hContext,
ULONG ulIndex,
PCOSA_DML_ETH_PORT_FULL pEntry
)
{
AnscTraceFlow(("%s...\n", __FUNCTION__));
if (pEntry)
_ansc_memset(pEntry, 0, sizeof(COSA_DML_ETH_PORT_FULL));
else
return ANSC_STATUS_FAILURE;
if (ulIndex == 0)
{
AnscCopyMemory(pEntry, &g_EthPortFull1, sizeof(COSA_DML_ETH_PORT_FULL));
}
else if (ulIndex == 1)
{
AnscCopyMemory(pEntry, &g_EthPortFull2, sizeof(COSA_DML_ETH_PORT_FULL));
}
else
{
return ANSC_STATUS_FAILURE;
}
return ANSC_STATUS_SUCCESS;
}
ANSC_STATUS
CosaDmlEthPortGetDinfo
(
ANSC_HANDLE hContext,
ULONG ulInstanceNumber,
PCOSA_DML_ETH_PORT_DINFO pInfo
)
{
AnscTraceFlow(("%s...\n", __FUNCTION__));
if (!pInfo)
return ANSC_STATUS_FAILURE;
_ansc_memset(pInfo, 0, sizeof(COSA_DML_ETH_PORT_DINFO));
if (ulInstanceNumber == 1)
{
AnscCopyMemory(pInfo, &g_EthPortFull1.DynamicInfo, sizeof(COSA_DML_ETH_PORT_DINFO));
pInfo->Status = COSA_DML_IF_STATUS_Up;
}
else if (ulInstanceNumber == 2)
{
AnscCopyMemory(pInfo, &g_EthPortFull2.DynamicInfo, sizeof(COSA_DML_ETH_PORT_DINFO));
pInfo->Status = COSA_DML_IF_STATUS_Up;
}
else
return ANSC_STATUS_FAILURE;
return ANSC_STATUS_SUCCESS;
}
ANSC_STATUS
CosaDeviceInfoInitialize
(
ANSC_HANDLE hThisObject
)
{
ANSC_STATUS returnStatus = ANSC_STATUS_SUCCESS;
PCOSA_DATAMODEL_DEVICEINFO pMyObject = (PCOSA_DATAMODEL_DEVICEINFO)hThisObject;
/* Initiation all functions */
_ansc_memset(pMyObject->ProvisioningCode, 0, 64);
CosaDmlDiInit(NULL, NULL);
#if 1//LNT_EMU
CosaDmlDiGetXfinityWiFiEnable(&pMyObject->bxfinitywifiEnable);
printf("%s : bxfinitywifiEnable value is : %d\n",__FUNCTION__,pMyObject->bxfinitywifiEnable);
#endif
//Get TR69CertLocation
CosaDmlDiGetSyndicationTR69CertLocation( (ANSC_HANDLE)pMyObject,
pMyObject->TR69CertLocation );
//Get Syndication Enable
CosaDmlDiGetSyndicationEnable( (ANSC_HANDLE)pMyObject,
&pMyObject->SyndicationEnable );
CosaDeriveSyndicationPartnerID(pMyObject->PartnerID);
CosaDmlDiUiBrandingInit(&pMyObject->UiBrand);
return returnStatus;
}
ANSC_STATUS
CosaDeviceInfoInitialize
(
ANSC_HANDLE hThisObject
)
{
ANSC_STATUS returnStatus = ANSC_STATUS_SUCCESS;
PCOSA_DATAMODEL_DEVICEINFO pMyObject = (PCOSA_DATAMODEL_DEVICEINFO)hThisObject;
/* Initiation all functions */
_ansc_memset(pMyObject->ProvisioningCode, 0, 64);
CosaDmlDiInit(NULL, NULL);
return returnStatus;
}
ANSC_STATUS
AnscSctoEngage
(
ANSC_HANDLE hThisObject
)
{
ANSC_STATUS returnStatus = ANSC_STATUS_SUCCESS;
PANSC_SIMPLE_CLIENT_TCP_OBJECT pMyObject = (PANSC_SIMPLE_CLIENT_TCP_OBJECT)hThisObject;
PANSC_SCTO_WORKER_OBJECT pWorker = (PANSC_SCTO_WORKER_OBJECT )pMyObject->hWorker;
int s_error = 0;
ansc_socket_addr_in ansc_client_addr;
ansc_socket_addr_in ansc_server_addr;
xskt_socket_addr_in xskt_client_addr;
xskt_socket_addr_in xskt_server_addr;
#ifdef _ANSC_IPV6_COMPATIBLE_
ansc_addrinfo ansc_hints = {0};
ansc_addrinfo* pansc_server_addrinfo = NULL;
ansc_addrinfo* pansc_client_addrinfo = NULL;
xskt_addrinfo xskt_hints = {0};
xskt_addrinfo* pxskt_server_addrinfo = NULL;
xskt_addrinfo* pxskt_client_addrinfo = NULL;
USHORT usPort = 0;
char port[6] = {0};
#endif
if ( pMyObject->bActive )
{
return ANSC_STATUS_SUCCESS;
}
else if ( !pWorker )
{
return ANSC_STATUS_UNAPPLICABLE;
}
else
{
/*
* Just like any other socket-based ANSC object, we will create a separate async recv task
* which is dedicated to receiving packets. This async recv task is controlled by 'bActive'
* flag. What if at this moment right before we're about to enable the socket operation and
* setting 'bActive' flag to TRUE, the old recv task created by the last call of Engage()
* is still running? While it may not cause crash, but it certainly confuses the owner
* object because all async recv tasks share the same worker interface. The most obvious
* solution is to wait for previous recv task to exit before creating a new one.
*/
while ( pMyObject->EngineTaskCount != 0 )
{
AnscSleep(50);
}
pMyObject->bActive = TRUE;
pMyObject->bClosed = FALSE;
}
/*
* The underlying socket wrapper may require an explicit startup() call, such is the case on
* Microsoft windows platforms. The wrapper initialization has to done for each task. On most
* real-time operating systems, this call is not required.
*/
if ( pMyObject->Mode & ANSC_SCTO_MODE_XSOCKET )
{
AnscStartupXsocketWrapper((ANSC_HANDLE)pMyObject);
}
else
{
AnscStartupSocketWrapper((ANSC_HANDLE)pMyObject);
}
#ifdef _ANSC_IPV6_COMPATIBLE_
if ( pMyObject->Mode & ANSC_SCTO_MODE_XSOCKET )
{
xskt_hints.ai_family = AF_UNSPEC;
xskt_hints.ai_socktype = XSKT_SOCKET_STREAM;
xskt_hints.ai_flags = AI_CANONNAME;
usPort = pMyObject->GetPeerPort((ANSC_HANDLE)pMyObject);
_ansc_sprintf(port, "%d", usPort);
AnscTrace("!!! Peer Port: %s !!!\n", port);
char * pPeerName = pMyObject->GetPeerName((ANSC_HANDLE)pMyObject);
AnscTrace("Peer Name: %s!!!\n", pPeerName);
/*
struct addrinfo hints,*res=NULL;
memset(&hints,0,sizeof(hints));
hints.ai_family=PF_UNSPEC;
hints.ai_socktype=SOCK_DGRAM;
hints.ai_protocol=IPPROTO_UDP;
s_error=getaddrinfo("127.0.0.1","123",&hints,&res);
*/
/*
s_error = _xskt_getaddrinfo
(
"10.74.52.92",
port,
&xskt_hints,
&pxskt_server_addrinfo
);
AnscTrace("!!!!!! _xskt_getaddrinfo returns: %d %s !!!\n", s_error, gai_strerror(s_error));
*/
if ( _xskt_getaddrinfo
(
pMyObject->GetPeerName((ANSC_HANDLE)pMyObject),
port,
&xskt_hints,
&pxskt_server_addrinfo
) ||
_xskt_getaddrinfo
(
"localhost",
NULL,
&xskt_hints,
&pxskt_client_addrinfo
)
)
{
AnscTrace("!!! error 1 !!!\n");
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_SOCKET_ERROR,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT1;
}
AnscTrace("!!! after getaddrinfo !!!\n");
}
else
{
ansc_hints.ai_family = AF_UNSPEC;
ansc_hints.ai_socktype = ANSC_SOCKET_STREAM;
ansc_hints.ai_flags = AI_CANONNAME;
usPort = pMyObject->GetPeerPort((ANSC_HANDLE)pMyObject);
_ansc_sprintf(port, "%d", usPort);
if ( _ansc_getaddrinfo
(
pMyObject->GetPeerName((ANSC_HANDLE)pMyObject),
port,
&ansc_hints,
&pansc_server_addrinfo
) ||
_ansc_getaddrinfo
(
"localhost",
NULL,
&ansc_hints,
&pansc_client_addrinfo
)
)
{
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_SOCKET_ERROR,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT1;
}
}
#endif
/*
* To engage the Tcp Client, we need to perform following acts in the respective order:
*
* (1) create the os-dependent socket
* (2) bind to the newly socket
* (3) connect to the specified server address
* (4) allocate a buffer for receiving
* (5) spawn a separate thread and start receiving
*/
if ( pMyObject->Mode & ANSC_SCTO_MODE_XSOCKET )
{
#ifdef _ANSC_IPV6_COMPATIBLE_
pMyObject->Socket = (ANSC_SOCKET)_xskt_socket(pxskt_server_addrinfo->ai_family, pxskt_server_addrinfo->ai_socktype, 0);
#else
pMyObject->Socket = (ANSC_SOCKET)_xskt_socket(XSKT_SOCKET_AF_INET, XSKT_SOCKET_STREAM, 0);
#endif
if ( (XSKT_SOCKET)pMyObject->Socket == XSKT_SOCKET_INVALID_SOCKET )
{
AnscTrace("!!!!!!!!!! _xskt_socket error !!!!!!!!!!\n");
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_SOCKET_ERROR,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT1;
}
else AnscTrace("Opening IPv4 socket Ok\n");
}
else
{
#ifdef _ANSC_IPV6_COMPATIBLE_
pMyObject->Socket = _ansc_socket(pansc_server_addrinfo->ai_family, pansc_server_addrinfo->ai_socktype, 0);
#else
pMyObject->Socket = _ansc_socket(ANSC_SOCKET_AF_INET, ANSC_SOCKET_STREAM, 0);
#endif
if ( pMyObject->Socket == ANSC_SOCKET_INVALID_SOCKET )
{
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_SOCKET_ERROR,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT1;
}
}
/*
* Normally we don't need to know which local network interface we shall bind to, and the
* underlying operating system usually supports such notation as "any address".
*/
#ifndef _ANSC_IPV6_COMPATIBLE_
if ( pMyObject->Mode & ANSC_SCTO_MODE_XSOCKET )
{
xskt_client_addr.sin_family = XSKT_SOCKET_AF_INET;
xskt_client_addr.sin_port = _xskt_htons(pMyObject->HostPort);
if (pMyObject->bSocketBindToDevice && *(pMyObject->SocketDeviceName))
{
if (_xskt_setsocketopt
(
pMyObject->Socket,
XSKT_SOCKET_SOL_SOCKET,
XSKT_SOCKET_SO_BINDTODEVICE,
pMyObject->SocketDeviceName,
_ansc_strlen(pMyObject->SocketDeviceName) + 1
)
< 0)
{
perror("setsockopt-SOL_SOCKET-SO_BINDTODEVICE");
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT2;
}
}
// fprintf(stderr, "<RT XSKT> Binding socket to Device '%s'.\n", pMyObject->SocketDeviceName);
if ( pMyObject->HostAddress.Value == 0 )
{
((pansc_socket_addr_in)&xskt_client_addr)->sin_addr.s_addr = XSKT_SOCKET_ANY_ADDRESS;
}
else
{
((pansc_socket_addr_in)&xskt_client_addr)->sin_addr.s_addr = pMyObject->HostAddress.Value;
}
if ( _xskt_bind((XSKT_SOCKET)pMyObject->Socket, (xskt_socket_addr*)&xskt_client_addr, sizeof(xskt_client_addr)) != 0 )
{
AnscTrace("!!!!!!!!!! _xskt_bind error: socket=%d, error=%d !!!!!!!!!!\n", (XSKT_SOCKET)pMyObject->Socket, errno);
{
int j;
char s[256];
char *ptr1 = ((xskt_socket_addr*)(&xskt_client_addr))->sa_data;
char stmp[16];
s[0] = '\0';
for(j=0; j<13; j++) {
sprintf(stmp, "%.2x:", *(ptr1++));
strcat(s, stmp);
}
sprintf(stmp, "%.2x", *ptr1);
strcat(s, stmp);
AnscTrace("!!!!!!!!!! _xskt_bind error: client_addr=%s\n", s);
}
perror("_xskt_bind error");
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_SOCKET_ERROR,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT2;
}
}
else
{
ansc_client_addr.sin_family = ANSC_SOCKET_AF_INET;
ansc_client_addr.sin_port = _ansc_htons(pMyObject->HostPort);
if (pMyObject->bSocketBindToDevice && *(pMyObject->SocketDeviceName))
{
if (_xskt_setsocketopt
(
pMyObject->Socket,
ANSC_SOCKET_SOL_SOCKET,
ANSC_SOCKET_SO_BINDTODEVICE,
pMyObject->SocketDeviceName,
_ansc_strlen(pMyObject->SocketDeviceName) + 1
)
< 0)
{
perror("setsockopt-SOL_SOCKET-SO_BINDTODEVICE");
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT2;
}
}
// fprintf(stderr, "<RT AnscSKT> Binding socket to Device '%s'.\n", pMyObject->SocketDeviceName);
if ( pMyObject->HostAddress.Value == 0 )
{
ansc_client_addr.sin_addr.s_addr = ANSC_SOCKET_ANY_ADDRESS;
}
else
{
ansc_client_addr.sin_addr.s_addr = pMyObject->HostAddress.Value;
}
if ( _ansc_bind(pMyObject->Socket, (ansc_socket_addr*)&ansc_client_addr, sizeof(ansc_client_addr)) != 0 )
{
AnscTrace("!!!!!!!!!! _ansc_bind error: socket=%d, error=%d !!!!!!!!!!\n", (XSKT_SOCKET)pMyObject->Socket, errno);
{
int j;
char s[256];
char *ptr1 = ((ansc_socket_addr*)(&ansc_client_addr))->sa_data;
char stmp[16];
s[0] = '\0';
for(j=0; j<13; j++) {
sprintf(stmp, "%.2x:", *(ptr1++));
strcat(s, stmp);
}
sprintf(stmp, "%.2x", *ptr1);
strcat(s, stmp);
AnscTrace("!!!!!!!!!! _ansc_bind error: client_addr=%s\n", s);
}
perror("_ansc_bind error");
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_SOCKET_ERROR,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT2;
}
}
#endif
/*
* As a Tcp client application, we now try to connect the network server, whose address is
* specified by the "peer address" and "peer port" fields.
*/
if ( pMyObject->Mode & ANSC_SCTO_MODE_XSOCKET )
{
#ifdef _ANSC_IPV6_COMPATIBLE_
BOOL bNoConn = TRUE;
#endif
_ansc_memset(&xskt_server_addr, 0, sizeof(xskt_server_addr));
xskt_server_addr.sin_family = XSKT_SOCKET_AF_INET;
xskt_server_addr.sin_addr.s_addr = pMyObject->PeerAddress.Value;
xskt_server_addr.sin_port = _xskt_htons(pMyObject->PeerPort);
#ifdef _ANSC_IPV6_COMPATIBLE_
while ( bNoConn && pxskt_server_addrinfo )
{
if ( _xskt_connect((XSKT_SOCKET)pMyObject->Socket, pxskt_server_addrinfo->ai_addr, pxskt_server_addrinfo->ai_addrlen) != 0 )
{
pxskt_server_addrinfo = pxskt_server_addrinfo->ai_next; /* try next ip address */
}
else
{
bNoConn = FALSE;
break;
}
}
if ( bNoConn )
#else
if ( _xskt_connect((XSKT_SOCKET)pMyObject->Socket, (xskt_socket_addr*)&xskt_server_addr, sizeof(xskt_server_addr)) != 0 )
#endif
{
AnscTrace("!!!!!!!!!! _xskt_connect error: socket=%d, error=%d !!!!!!!!!!\n", (XSKT_SOCKET)pMyObject->Socket, errno);
{
int j;
char s[256];
char *ptr1 = ((xskt_socket_addr*)(&xskt_server_addr))->sa_data;
char stmp[16];
s[0] = '\0';
for(j=0; j<13; j++) {
sprintf(stmp, "%.2x:", *(ptr1++));
strcat(s, stmp);
}
sprintf(stmp, "%.2x", *ptr1);
strcat(s, stmp);
AnscTrace("!!!!!!!!!! _xskt_connect error: server_addr=%s\n", s);
}
perror("_xskt_connect error");
s_error = _xskt_get_last_error();
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_SOCKET_TIMEOUT,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT2;
}
}
else
{
_ansc_memset(&ansc_server_addr, 0, sizeof(ansc_server_addr));
ansc_server_addr.sin_family = ANSC_SOCKET_AF_INET;
ansc_server_addr.sin_addr.s_addr = pMyObject->PeerAddress.Value;
ansc_server_addr.sin_port = _ansc_htons(pMyObject->PeerPort);
#ifdef _ANSC_IPV6_COMPATIBLE_
if ( _ansc_connect(pMyObject->Socket, pansc_server_addrinfo->ai_addr, pansc_server_addrinfo->ai_addrlen) != 0 )
#else
if ( _ansc_connect(pMyObject->Socket, (ansc_socket_addr*)&ansc_server_addr, sizeof(ansc_server_addr)) != 0 )
#endif
{
s_error = _ansc_get_last_error();
AnscTrace("!!! Connect error: %d, %s !!!\n", s_error, strerror(s_error));
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_SOCKET_TIMEOUT,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT2;
}
}
/*
* We have gone so far that all socket operations succeeded, we want to allocate a buffer that
* is big enough for any incoming message.
*/
if ( !pMyObject->RecvBuffer && !(pMyObject->Mode & ANSC_SCTO_MODE_FOREIGN_BUFFER) )
{
pMyObject->RecvBuffer = AnscAllocateMemory(pMyObject->RecvBufferSize);
pMyObject->RecvPacketSize = 0;
pMyObject->RecvOffset = 0;
if ( !pMyObject->RecvBuffer )
{
returnStatus = ANSC_STATUS_RESOURCES;
goto EXIT2;
}
}
pMyObject->RecvBytesCount = 0;
pMyObject->SendBytesCount = 0;
pMyObject->LastRecvAt = AnscGetTickInSeconds();
pMyObject->LastSendAt = AnscGetTickInSeconds();
/*
* If the compilation option '_ANSC_SOCKET_TLS_LAYER_' is enabled, we can simply let the ANSC
* socket layer to perform the SSL/TLS functionality; otherwise, we need to prepare for doing
* SSL/TLS internally.
*/
if ( pMyObject->Mode & ANSC_SCTO_MODE_TLS_ENABLED )
{
#ifdef _ANSC_USE_OPENSSL_
pMyObject->bTlsEnabled = TRUE;
if ( !openssl_init(SSL_CLIENT_CALLS) )
{
AnscTrace("AnscSctoEngage - openssl_init() failed!\n");
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT2;
}
#else
#ifdef _ANSC_SOCKET_TLS_LAYER_
{
_ansc_en_usetls(pMyObject->Socket);
pMyObject->bTlsEnabled = FALSE;
}
#else
{
pMyObject->hTlsScsIf = (pMyObject->hTlsScsIf != NULL)? pMyObject->hTlsScsIf : AnscSocketTlsGetScsIf();
pMyObject->bTlsEnabled = TRUE;
}
#endif
#endif
}
/*
* To save the worker object from having to deal with blocking/non-blocking/async receiving
* functions provided by underlying socket layer, we create a separate task to do that.
*/
returnStatus =
pMyObject->SpawnTask3
(
(ANSC_HANDLE)pMyObject,
(void* )pMyObject->RecvTask,
(ANSC_HANDLE)pMyObject,
ANSC_SCTO_RECV_TASK_NAME,
USER_DEFAULT_TASK_PRIORITY,
11*USER_DEFAULT_TASK_STACK_SIZE
);
#ifdef _ANSC_USE_OPENSSL_
if ( pMyObject->bTlsEnabled )
{
SSL *ssl = NULL;
ssl = openssl_connect (pMyObject->Socket);
if ( !ssl )
{
pMyObject->bTlsConnected = FALSE;
returnStatus = ANSC_STATUS_FAILURE;
//PANSC_SCTO_WORKER_OBJECT pWorker = (PANSC_SCTO_WORKER_OBJECT)pMyObject->hWorker;
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_TLS_ERROR,
(ANSC_HANDLE)0L
);
}
}
else
{
s_error = openssl_validate_certificate (pMyObject->Socket, pMyObject->HostName, ssl, SSL_CLIENT_CALLS);
if ( s_error == 0 )
{
AnscTrace("AnscSctoEngage - openssl_validate_certificate() failed %p.\n", ssl);
//PANSC_SCTO_WORKER_OBJECT pWorker = (PANSC_SCTO_WORKER_OBJECT )pMyObject->hWorker;
if ( pMyObject->Mode & ANSC_SCTO_MODE_NO_BSP_NOTIFY_CONN_ERR == 0 )
{
pWorker->Notify
(
pWorker->hWorkerContext,
ANSC_SCTOWO_EVENT_TLS_ERROR,
(ANSC_HANDLE)NULL
);
}
returnStatus = ANSC_STATUS_FAILURE;
}
pMyObject->hTlsConnection = ssl;
pMyObject->bTlsConnected = TRUE;
}
}
#else
/*
* If SSL/TLS is enabled, we should complete TLS handshake before returning from Engage(). This
* behavior allows a single consistent API to used between this object and the worker object.
* Since the handshake will take multiple messages to complete, we need to block the current
* task until being notified by the TLS module.
*/
if ( pMyObject->bTlsEnabled && pMyObject->hTlsScsIf )
{
pMyObject->bTlsConnected = FALSE;
pMyObject->InitTlsClient((ANSC_HANDLE)pMyObject);
}
#endif
if ( returnStatus != ANSC_STATUS_SUCCESS )
{
goto EXIT2;
}
return ANSC_STATUS_SUCCESS;
/******************************************************************
GRACEFUL ROLLBACK PROCEDURES AND EXIT DOORS
******************************************************************/
EXIT2:
AnscTrace("AnscSctoEngage - failed with status %lu, socket error %d!\n", returnStatus, s_error);
if ( pMyObject->Mode & ANSC_SCTO_MODE_XSOCKET )
{
_xskt_closesocket((XSKT_SOCKET)pMyObject->Socket);
}
else
{
_ansc_closesocket(pMyObject->Socket);
}
EXIT1:
if ( returnStatus != ANSC_STATUS_SUCCESS )
{
pMyObject->bActive = FALSE;
pMyObject->Reset((ANSC_HANDLE)pMyObject);
}
return returnStatus;
}
ANSC_STATUS
CosaUserinterfaceInitialize
(
ANSC_HANDLE hThisObject
)
{
ANSC_STATUS returnStatus = ANSC_STATUS_SUCCESS;
PCOSA_DATAMODEL_USERINTERFACE pMyObject = (PCOSA_DATAMODEL_USERINTERFACE)hThisObject;
PPOAM_IREP_FOLDER_OBJECT pPoamIrepFoCOSA = (PPOAM_IREP_FOLDER_OBJECT)NULL;
PPOAM_IREP_FOLDER_OBJECT hIrepFolderUIIPRange = (PPOAM_IREP_FOLDER_OBJECT)NULL;
PSLAP_VARIABLE pSlapVariable = (PSLAP_VARIABLE )NULL;
PCOSA_CONTEXT_LINK_OBJECT pCosaContext = (PCOSA_CONTEXT_LINK_OBJECT)NULL;
PCOSA_DML_UI_IPRANGE_ENTRY pEntry = (PCOSA_DML_UI_IPRANGE_ENTRY)NULL;
ULONG ulEntryCount = 0;
ULONG ulIndex = 0;
ULONG ulNextInsNum = 0;
/* Initiation all functions */
_ansc_memset(&pMyObject->RaCfg, 0, sizeof(COSA_DML_RA_CFG));
CosaDmlRaInit(NULL, NULL);
CosaDmlRaGetCfg(NULL, &pMyObject->RaCfg);
pMyObject->hIrepFolderCOSA = g_GetRegistryRootFolder(g_pDslhDmlAgent);
/* Initiation Device.UserInterface.X_CISCO_COM_RemoteAccess.iprange.{i}. */
AnscSListInitializeHeader(&pMyObject->iprangeList);
pMyObject->uliprangeNextInsNum = 1;
pPoamIrepFoCOSA = (PPOAM_IREP_FOLDER_OBJECT)pMyObject->hIrepFolderCOSA;
if ( !pPoamIrepFoCOSA )
{
return ANSC_STATUS_FAILURE;
}
hIrepFolderUIIPRange =
(PPOAM_IREP_FOLDER_OBJECT)pPoamIrepFoCOSA->GetFolder
(
(ANSC_HANDLE)pPoamIrepFoCOSA,
COSA_IREP_FOLDER_NAME_UserInterface_IPRange
);
if ( !hIrepFolderUIIPRange )
{
hIrepFolderUIIPRange =
pPoamIrepFoCOSA->AddFolder
(
(ANSC_HANDLE)pPoamIrepFoCOSA,
COSA_IREP_FOLDER_NAME_UserInterface_IPRange,
0
);
}
if ( !hIrepFolderUIIPRange )
{
return ANSC_STATUS_FAILURE;
}
else
{
pMyObject->hIrepFolderUIIPRange = (ANSC_HANDLE)hIrepFolderUIIPRange;
}
/* Retrieve Next Instance Number */
if ( TRUE )
{
pSlapVariable =
(PSLAP_VARIABLE)hIrepFolderUIIPRange->GetRecord
(
(ANSC_HANDLE)hIrepFolderUIIPRange,
COSA_DML_RR_NAME_UserInterface_IPRangeNextInsNunmber,
NULL
);
if ( pSlapVariable )
{
pMyObject->uliprangeNextInsNum = pSlapVariable->Variant.varUint32;
SlapFreeVariable(pSlapVariable);
}
}
/* Initialize middle layer */
ulEntryCount = CosaDmlUIIPRangeGetNumberOfEntries(NULL);
for ( ulIndex = 0; ulIndex < ulEntryCount; ulIndex++ )
{
pEntry = (PCOSA_DML_UI_IPRANGE_ENTRY)AnscAllocateMemory(sizeof(COSA_DML_UI_IPRANGE_ENTRY));
if ( !pEntry )
{
return ANSC_STATUS_RESOURCES;
}
CosaDmlUIIPRangeGetEntry(NULL, ulIndex, pEntry);
if ( TRUE )
{
pCosaContext = (PCOSA_CONTEXT_LINK_OBJECT)AnscAllocateMemory(sizeof(COSA_CONTEXT_LINK_OBJECT));
if ( !pCosaContext )
{
AnscFreeMemory(pEntry);
return ANSC_STATUS_RESOURCES;
}
if ( pEntry->InstanceNumber != 0 )
{
pCosaContext->InstanceNumber = pEntry->InstanceNumber;
if ( pMyObject->uliprangeNextInsNum <= pEntry->InstanceNumber )
{
pMyObject->uliprangeNextInsNum = pEntry->InstanceNumber + 1;
if ( pMyObject->uliprangeNextInsNum == 0 )
{
pMyObject->uliprangeNextInsNum = 1;
}
}
}
else
{
pEntry->InstanceNumber = pCosaContext->InstanceNumber = pMyObject->uliprangeNextInsNum;
pMyObject->uliprangeNextInsNum++;
if ( pMyObject->uliprangeNextInsNum == 0 )
{
pMyObject->uliprangeNextInsNum = 1;
}
/* Generate Alias */
_ansc_sprintf(pEntry->Alias, "iprange%d", pCosaContext->InstanceNumber);
CosaDmlUIIPRangeSetValues
(
NULL,
ulIndex,
pCosaContext->InstanceNumber,
pEntry->Alias
);
}
pCosaContext->hContext = (ANSC_HANDLE)pEntry;
pCosaContext->hParentTable = NULL;
pCosaContext->bNew = FALSE;
pCosaContext->hPoamIrepUpperFo = NULL;
pCosaContext->hPoamIrepFo = NULL;
CosaSListPushEntryByInsNum(&pMyObject->iprangeList, pCosaContext);
}
}
return returnStatus;
}
ANSC_STATUS
CosaBridgingInitialize
(
ANSC_HANDLE hThisObject
)
{
ANSC_STATUS returnStatus = ANSC_STATUS_SUCCESS;
PCOSA_DATAMODEL_BRIDGING pMyObject = (PCOSA_DATAMODEL_BRIDGING)hThisObject;
PSLAP_VARIABLE pSlapVariable = (PSLAP_VARIABLE )NULL;
PPOAM_IREP_FOLDER_OBJECT pPoamIrepFoCOSA = (PPOAM_IREP_FOLDER_OBJECT )NULL;
PPOAM_IREP_FOLDER_OBJECT pPoamIrepFoBRG = (PPOAM_IREP_FOLDER_OBJECT )NULL;
PPOAM_IREP_FOLDER_OBJECT pPoamIrepFoBRGHA = (PPOAM_IREP_FOLDER_OBJECT )NULL;
PPOAM_IREP_FOLDER_OBJECT pPoamIrepFoNextIns = (PPOAM_IREP_FOLDER_OBJECT )NULL;
PCOSA_CONTEXT_LINK_OBJECT pCosaContext = (PCOSA_CONTEXT_LINK_OBJECT )NULL;
PCOSA_CONTEXT_LINK_OBJECT pCosaContext2 = (PCOSA_CONTEXT_LINK_OBJECT )NULL;
PCOSA_CONTEXT_LINK_OBJECT pCosaContext3 = (PCOSA_CONTEXT_LINK_OBJECT )NULL;
PCOSA_DML_BRG_FULL_ALL pDmlBridge = (PCOSA_DML_BRG_FULL_ALL )NULL;
PCOSA_DML_BRG_PORT_FULL pPort = (PCOSA_DML_BRG_PORT_FULL )NULL;
ULONG ulBridgeCount = 0;
ULONG ulSubCount = 0;
ULONG ulIndex = 0;
ULONG ulSubIndex = 0;
char FolderName[32] = {0};
PCOSA_DML_BRG_VLAN_FULL pVLAN = (PCOSA_DML_BRG_VLAN_FULL )NULL;
/* Initiation all functions */
//$HL 4/24/2013
pMyObject->ulNextBridgeInstance = 1;
AnscSListInitializeHeader(&pMyObject->BridgeList);
//$HL 4/25/2013
pMyObject->BridgeList.Depth = 0;
pMyObject->hIrepFolderCOSA = g_GetRegistryRootFolder(g_pDslhDmlAgent);
pPoamIrepFoCOSA = (PPOAM_IREP_FOLDER_OBJECT)pMyObject->hIrepFolderCOSA;
if ( !pPoamIrepFoCOSA )
{
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT;
}
pPoamIrepFoBRG =
(PPOAM_IREP_FOLDER_OBJECT)pPoamIrepFoCOSA->GetFolder
(
(ANSC_HANDLE)pPoamIrepFoCOSA,
COSA_IREP_FOLDER_NAME_BRIDGING
);
if ( !pPoamIrepFoBRG )
{
pPoamIrepFoBRG =
pPoamIrepFoCOSA->AddFolder
(
(ANSC_HANDLE)pPoamIrepFoCOSA,
COSA_IREP_FOLDER_NAME_BRIDGING,
0
);
}
if ( !pPoamIrepFoBRG )
{
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT;
}
else
{
pMyObject->hIrepFolderBRG = (ANSC_HANDLE)pPoamIrepFoBRG;
}
pPoamIrepFoBRGHA =
(PPOAM_IREP_FOLDER_OBJECT)pPoamIrepFoBRG->GetFolder
(
(ANSC_HANDLE)pPoamIrepFoCOSA,
COSA_IREP_FOLDER_NAME_BRIDGINGHA
);
if ( !pPoamIrepFoBRGHA )
{
pPoamIrepFoBRGHA =
pPoamIrepFoBRG->AddFolder
(
(ANSC_HANDLE)pPoamIrepFoBRG,
COSA_IREP_FOLDER_NAME_BRIDGINGHA,
0
);
}
if ( !pPoamIrepFoBRGHA )
{
returnStatus = ANSC_STATUS_FAILURE;
goto EXIT;
}
else
{
pMyObject->hIrepFolderBRGHA = (ANSC_HANDLE)pPoamIrepFoBRGHA;
}
if ( TRUE )
{
_ansc_sprintf
(
FolderName,
"%s%d",
COSA_DML_RR_NAME_Bridge_NextInsNunmber,
0
);
pPoamIrepFoNextIns = (PPOAM_IREP_FOLDER_OBJECT)pPoamIrepFoBRG->GetFolder
(
(ANSC_HANDLE)pPoamIrepFoBRG,
FolderName
);
AnscZeroMemory(FolderName, 32);
if ( pPoamIrepFoNextIns )
{
pSlapVariable = (PSLAP_VARIABLE)pPoamIrepFoNextIns->GetRecord
(
(ANSC_HANDLE)pPoamIrepFoNextIns,
COSA_DML_RR_NAME_Bridge_NextInsNunmber,
NULL
);
if ( pSlapVariable )
{
pMyObject->ulNextBridgeInstance = pSlapVariable->Variant.varUint32;
SlapFreeVariable(pSlapVariable);
}
pPoamIrepFoNextIns->Remove((ANSC_HANDLE)pPoamIrepFoNextIns);
pPoamIrepFoNextIns = NULL;
}
}
ulBridgeCount = CosaDmlBrgGetNumberOfEntries(NULL);
for ( ulIndex = 0; ulIndex < ulBridgeCount; ulIndex++ )
{
pDmlBridge = (PCOSA_DML_BRG_FULL_ALL)AnscAllocateMemory(sizeof(COSA_DML_BRG_FULL_ALL));
_ansc_memset(pDmlBridge, 0, sizeof(COSA_DML_BRG_FULL_ALL));
if ( !pDmlBridge )
{
returnStatus = ANSC_STATUS_RESOURCES;
goto EXIT;
}
AnscSListInitializeHeader(&pDmlBridge->PortList);
AnscSListInitializeHeader(&pDmlBridge->VLANList);
AnscSListInitializeHeader(&pDmlBridge->VLANPortList);
pDmlBridge->ulNextPortInsNum = 1;
pDmlBridge->ulNextVLANInsNum = 1;
pDmlBridge->ulNextVLANPortInsNum = 1;
//$HL 4/25/2013
if (CosaDmlBrgGetEntry(NULL, ulIndex, (PCOSA_DML_BRG_FULL)pDmlBridge)!= ANSC_STATUS_SUCCESS)
{
AnscFreeMemory(pDmlBridge);
break;
}
else
//if ( TRUE )
{
pCosaContext = (PCOSA_CONTEXT_LINK_OBJECT)AnscAllocateMemory(sizeof(COSA_CONTEXT_LINK_OBJECT));
_ansc_memset(pCosaContext, 0, sizeof(COSA_CONTEXT_LINK_OBJECT));
if ( !pCosaContext )
{
AnscFreeMemory(pDmlBridge);
returnStatus = ANSC_STATUS_RESOURCES;
AnscTraceFlow(("<HL>%s cannot allocate pCosaContext\n", __FUNCTION__));
goto EXIT;
}
if ( pDmlBridge->Cfg.InstanceNumber !=0 )
{
pCosaContext->InstanceNumber = pDmlBridge->Cfg.InstanceNumber;
if ( pMyObject->ulNextBridgeInstance <= pDmlBridge->Cfg.InstanceNumber )
{
pMyObject->ulNextBridgeInstance = pDmlBridge->Cfg.InstanceNumber + 1;
if ( pMyObject->ulNextBridgeInstance == 0 )
{
pMyObject->ulNextBridgeInstance = 1;
}
}
}
else
{
pDmlBridge->Cfg.InstanceNumber = pCosaContext->InstanceNumber = pMyObject->ulNextBridgeInstance;
pMyObject->ulNextBridgeInstance++;
if ( pMyObject->ulNextBridgeInstance == 0)
{
pMyObject->ulNextBridgeInstance = 1;
}
_ansc_sprintf(pDmlBridge->Cfg.Alias, "DmlBridge%d", pMyObject->ulNextBridgeInstance);
CosaDmlBrgSetValues(NULL, ulIndex, pDmlBridge->Cfg.InstanceNumber, pDmlBridge->Cfg.Alias);
}
pCosaContext->hContext = (ANSC_HANDLE)pDmlBridge;
pCosaContext->hParentTable = NULL;
pCosaContext->bNew = FALSE;
//$HL 4/29/2013
//pCosaContext->hPoamIrepUpperFo = NULL;
CosaSListPushEntryByInsNum(&pMyObject->BridgeList, pCosaContext);
}
/* Port */
if ( TRUE )
{
_ansc_sprintf
(
FolderName,
"%s%d",
COSA_DML_RR_NAME_Bridge_Port_NextInsNumber,
pDmlBridge->Cfg.InstanceNumber
);
pPoamIrepFoNextIns =
(PPOAM_IREP_FOLDER_OBJECT)pPoamIrepFoBRG->GetFolder
(
(ANSC_HANDLE)pPoamIrepFoBRG,
FolderName
);
if ( pPoamIrepFoNextIns )
{
pSlapVariable =
(PSLAP_VARIABLE)pPoamIrepFoNextIns->GetRecord
(
(ANSC_HANDLE)pPoamIrepFoNextIns,
COSA_DML_RR_NAME_Bridge_Port_NextInsNumber,
NULL
);
if ( pSlapVariable )
{
pDmlBridge->ulNextPortInsNum = pSlapVariable->Variant.varUint32;
SlapFreeVariable(pSlapVariable);
}
else
{
AnscTraceFlow(("<HL>%s pSlapVariable == NULL\n", __FUNCTION__));
}
pPoamIrepFoNextIns->Remove((ANSC_HANDLE)pPoamIrepFoNextIns);
pPoamIrepFoNextIns = NULL;
}
else
{
AnscTraceFlow(("<HL>%s pPoamIrepFoNextIns == NULL\n", __FUNCTION__));
}
}
ulSubCount = CosaDmlBrgPortGetNumberOfEntries(NULL, pDmlBridge->Cfg.InstanceNumber);
for ( ulSubIndex = 0; ulSubIndex < ulSubCount; ulSubIndex++ )
{
pPort = (PCOSA_DML_BRG_PORT_FULL)AnscAllocateMemory(sizeof(COSA_DML_BRG_PORT_FULL));
if ( !pPort )
{
returnStatus = ANSC_STATUS_RESOURCES;
goto EXIT;
}
_ansc_memset(pPort, 0, sizeof(COSA_DML_BRG_PORT_FULL));
if(CosaDmlBrgPortGetEntry(NULL, pDmlBridge->Cfg.InstanceNumber, ulSubIndex, pPort)
!= ANSC_STATUS_SUCCESS)
{
AnscFreeMemory(pPort);
break;
}
else
{
pCosaContext2 = (PCOSA_CONTEXT_LINK_OBJECT)AnscAllocateMemory(sizeof(COSA_CONTEXT_LINK_OBJECT));
if ( !pCosaContext2 )
{
AnscFreeMemory(pPort);
returnStatus = ANSC_STATUS_RESOURCES;
AnscTraceFlow(("<$HL> %s bridge instance:%d cannot allocate any memory for pCosaContext2\n",__FUNCTION__,
pDmlBridge->Cfg.InstanceNumber));
AnscFreeMemory(pPort);
goto EXIT;
}
_ansc_memset(pCosaContext2, 0, sizeof(COSA_CONTEXT_LINK_OBJECT));
if ( pPort->Cfg.InstanceNumber != 0 )
{
pCosaContext2->InstanceNumber = pPort->Cfg.InstanceNumber;
if ( pDmlBridge->ulNextPortInsNum <= pPort->Cfg.InstanceNumber )
{
pDmlBridge->ulNextPortInsNum = pPort->Cfg.InstanceNumber + 1;
if ( pDmlBridge->ulNextPortInsNum == 0 )
{
pDmlBridge->ulNextPortInsNum = 1;
}
}
}
else
{
pCosaContext2->InstanceNumber = pPort->Cfg.InstanceNumber = pDmlBridge->ulNextPortInsNum;
pDmlBridge->ulNextPortInsNum++;
if ( pDmlBridge->ulNextPortInsNum == 0 )
{
pDmlBridge->ulNextPortInsNum = 1;
}
_ansc_sprintf(pPort->Cfg.Alias, "Port%d", pCosaContext2->InstanceNumber);
CosaDmlBrgPortSetValues
(
NULL,
pDmlBridge->Cfg.InstanceNumber,
ulSubIndex,
pPort->Cfg.InstanceNumber,
pPort->Cfg.Alias
);
}
pCosaContext2->hContext = (ANSC_HANDLE)pPort;
pCosaContext2->hParentTable = (ANSC_HANDLE)pDmlBridge;
pCosaContext2->bNew = FALSE;
CosaSListPushEntryByInsNum(&pDmlBridge->PortList, pCosaContext2);
}
}
//$HL 7/3/2013
/* VLAN */
if ( TRUE )
{
_ansc_sprintf
(
FolderName,
"%s%d",
COSA_DML_RR_NAME_Bridge_VLAN_NextInsNumber,
pDmlBridge->Cfg.InstanceNumber
);
pPoamIrepFoNextIns =
(PPOAM_IREP_FOLDER_OBJECT)pPoamIrepFoBRG->GetFolder
(
(ANSC_HANDLE)pPoamIrepFoBRG,
FolderName
);
if ( pPoamIrepFoNextIns )
{
pSlapVariable =
(PSLAP_VARIABLE)pPoamIrepFoNextIns->GetRecord
(
(ANSC_HANDLE)pPoamIrepFoNextIns,
COSA_DML_RR_NAME_Bridge_VLAN_NextInsNumber,
NULL
);
if ( pSlapVariable )
{
pDmlBridge->ulNextVLANInsNum = pSlapVariable->Variant.varUint32;
SlapFreeVariable(pSlapVariable);
}
else
{
AnscTraceFlow(("<HL>%s pSlapVariable == NULL\n", __FUNCTION__));
}
pPoamIrepFoNextIns->Remove((ANSC_HANDLE)pPoamIrepFoNextIns);
pPoamIrepFoNextIns = NULL;
}
else
{
AnscTraceFlow(("<HL>%s pPoamIrepFoNextIns == NULL\n", __FUNCTION__));
}
}
ulSubCount = CosaDmlBrgVlanGetNumberOfEntries(NULL, pDmlBridge->Cfg.InstanceNumber);
for ( ulSubIndex = 0; ulSubIndex < ulSubCount; ulSubIndex++ )
{
pVLAN = (PCOSA_DML_BRG_VLAN_FULL)AnscAllocateMemory(sizeof(COSA_DML_BRG_VLAN_FULL));
if ( !pVLAN )
{
returnStatus = ANSC_STATUS_RESOURCES;
goto EXIT;
}
_ansc_memset(pVLAN, 0, sizeof(COSA_DML_BRG_VLAN_FULL));
if(CosaDmlBrgVlanGetEntry(NULL, pDmlBridge->Cfg.InstanceNumber, ulSubIndex, pVLAN)
!= ANSC_STATUS_SUCCESS)
{
AnscFreeMemory(pVLAN);
break;
}
else
{
pCosaContext3 = (PCOSA_CONTEXT_LINK_OBJECT)AnscAllocateMemory(sizeof(COSA_CONTEXT_LINK_OBJECT));
if ( !pCosaContext3 )
{
returnStatus = ANSC_STATUS_RESOURCES;
AnscTraceFlow(("<$HL> %s bridge instance:%d cannot allocate any memory for pCosaContext3\n",__FUNCTION__,
pDmlBridge->Cfg.InstanceNumber));
AnscFreeMemory(pVLAN);
goto EXIT;
}
_ansc_memset(pCosaContext3, 0, sizeof(COSA_CONTEXT_LINK_OBJECT));
if ( pVLAN->Cfg.InstanceNumber != 0 )
{
pCosaContext3->InstanceNumber = pVLAN->Cfg.InstanceNumber;
if ( pDmlBridge->ulNextVLANInsNum <= pVLAN->Cfg.InstanceNumber )
{
pDmlBridge->ulNextVLANInsNum = pVLAN->Cfg.InstanceNumber + 1;
if ( pDmlBridge->ulNextVLANInsNum == 0 )
{
pDmlBridge->ulNextVLANInsNum = 1;
}
}
}
else
{
pCosaContext2->InstanceNumber = pVLAN->Cfg.InstanceNumber = pDmlBridge->ulNextPortInsNum;
pDmlBridge->ulNextVLANInsNum++;
if ( pDmlBridge->ulNextVLANInsNum == 0 )
{
pDmlBridge->ulNextVLANInsNum = 1;
}
_ansc_sprintf(pVLAN->Cfg.Alias, "VLAN%d", pCosaContext2->InstanceNumber);
CosaDmlBrgVlanSetValues //new sbAPI
(
NULL,
pDmlBridge->Cfg.InstanceNumber,
ulSubIndex,
pVLAN->Cfg.InstanceNumber,
pVLAN->Cfg.Alias
);
}
pCosaContext3->hContext = (ANSC_HANDLE)pVLAN;
pCosaContext3->hParentTable = (ANSC_HANDLE)pDmlBridge;
pCosaContext3->bNew = FALSE;
CosaSListPushEntryByInsNum(&pDmlBridge->VLANList, pCosaContext3);
}
}
}
//$HL 4/29/2013
CosaBridgingRegGetInfo((ANSC_HANDLE)pMyObject);
EXIT:
return returnStatus;
}
