windows-nt/Source/XPSP1/NT/net/atm/arp/atmarpc/init.c

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2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 1996 Microsoft Corporation
Module Name:
init.c
Abstract:
Initialization and Termination routines for the ATMARP client.
Revision History:
Who When What
-------- -------- ----------------------------------------------
arvindm 08-09-96 Created
Notes:
--*/
#include <precomp.h>
#define _FILENUMBER 'TINI'
VOID
AtmArpInitGlobals(
)
/*++
Routine Description:
Initialize all our global data structures.
Arguments:
None
Return Value:
None
--*/
{
AA_SET_MEM(pAtmArpGlobalInfo, 0, sizeof(ATMARP_GLOBALS));
#if DBG
pAtmArpGlobalInfo->aag_sig = aag_signature;
#ifdef GPC
pAtmArpGlobalInfo->aaq_sig = aaq_signature;
#endif // GPC
#endif // DBG
AA_INIT_GLOBAL_LOCK(pAtmArpGlobalInfo);
AA_INIT_BLOCK_STRUCT(&(pAtmArpGlobalInfo->Block));
}
NDIS_STATUS
AtmArpInitIpOverAtm(
IN PATMARP_INTERFACE pInterface
)
/*++
Routine Description:
Initialize IP/ATM data structures for the given interface.
It is assumed that the configuration information for the interface
has been read in.
We allocate ATM Entries for the ARP servers, and the DHCP server,
if configured.
Arguments:
pInterface - Pointer to ATMARP interface
Return Value:
NDIS_STATUS_SUCCESS if successful, NDIS_STATUS_RESOURCES if we
aren't able to do the allocation necessary.
--*/
{
PATMARP_SERVER_ENTRY pServerEntry;
NDIS_STATUS Status;
PATMARP_SERVER_LIST pServerList;
//
// Initialize.
//
Status = NDIS_STATUS_SUCCESS;
do
{
#ifdef IPMCAST
if (pInterface->ArpServerList.ListSize != 0)
{
//
// Set the current ARP server to the first one in the list.
//
pInterface->pCurrentServer = pInterface->ArpServerList.pList;
}
if (pInterface->MARSList.ListSize != 0)
{
//
// Set the current MARS server to the first one in the list.
//
pInterface->pCurrentMARS = pInterface->MARSList.pList;
}
for (pServerList = &(pInterface->ArpServerList);
pServerList != NULL_PATMARP_SERVER_LIST;
/* NONE -- see end of for loop */
)
{
for (pServerEntry = pServerList->pList;
pServerEntry != NULL_PATMARP_SERVER_ENTRY;
pServerEntry = pServerEntry->pNext)
{
UCHAR AddrTypeLen;
UCHAR SubaddrTypeLen;
AddrTypeLen =
AA_PKT_ATM_ADDRESS_TO_TYPE_LEN(&(pServerEntry->ATMAddress));
if (pServerEntry->ATMSubaddress.NumberOfDigits > 0)
{
SubaddrTypeLen =
AA_PKT_ATM_ADDRESS_TO_TYPE_LEN(&(pServerEntry->ATMSubaddress));
}
else
{
SubaddrTypeLen = 0;
}
pServerEntry->pAtmEntry =
AtmArpSearchForAtmAddress(
pInterface,
AddrTypeLen,
pServerEntry->ATMAddress.Address,
SubaddrTypeLen,
pServerEntry->ATMSubaddress.Address,
AE_REFTYPE_IF,
TRUE // Create new one if not found
);
if (pServerEntry->pAtmEntry == NULL_PATMARP_ATM_ENTRY)
{
//
// Must be a resource failure.
//
Status = NDIS_STATUS_RESOURCES;
break;
}
else
{
//
// NOTE: AtmArpSearchForAtmAddress has alreaddy addrefd
// the pAtmEntry for us.
//
}
}
//
// Move to the next list of servers, if any.
//
if (pServerList == &(pInterface->MARSList))
{
//
// We are done.
//
pServerList = NULL_PATMARP_SERVER_LIST;
}
else
{
//
// We just finished with the ARP Server list. Now process
// the MARS list.
//
pServerList = &(pInterface->MARSList);
}
}
#else
if (pInterface->ArpServerList.ListSize > 0)
{
//
// Set the current ARP server to the first one in the list.
//
pInterface->pCurrentServer = pInterface->ArpServerList.pList;
for (pServerEntry = pInterface->ArpServerList.pList;
pServerEntry != NULL_PATMARP_SERVER_ENTRY;
pServerEntry = pServerEntry->pNext)
{
UCHAR AddrTypeLen;
UCHAR SubaddrTypeLen;
AddrTypeLen =
AA_PKT_ATM_ADDRESS_TO_TYPE_LEN(&(pServerEntry->ATMAddress));
if (pServerEntry->ATMSubaddress.NumberOfDigits > 0)
{
SubaddrTypeLen =
AA_PKT_ATM_ADDRESS_TO_TYPE_LEN(&(pServerEntry->ATMSubaddress));
}
else
{
SubaddrTypeLen = 0;
}
pServerEntry->pAtmEntry =
AtmArpSearchForAtmAddress(
pInterface,
AddrTypeLen,
pServerEntry->ATMAddress.Address,
SubaddrTypeLen,
pServerEntry->ATMSubaddress.Address,
AE_REFTYPE_IF,
TRUE // Create new one if not found
);
if (pServerEntry->pAtmEntry == NULL_PATMARP_ATM_ENTRY)
{
//
// Must be a resource failure.
//
Status = NDIS_STATUS_RESOURCES;
break;
}
else
{
//
// NOTE: AtmArpSearchForAtmAddress has alreaddy addrefd
// the pAtmEntry for us.
//
}
}
}
#endif // IPMCAST
if (Status != NDIS_STATUS_SUCCESS)
{
break;
}
#ifdef DHCP_OVER_ATM
if (pInterface->DhcpEnabled)
{
UCHAR AddrTypeLen;
AddrTypeLen = AA_PKT_ATM_ADDRESS_TO_TYPE_LEN(&(pInterface->DhcpServerAddress));
pInterface->pDhcpServerAtmEntry =
AtmArpSearchForAtmAddress(
pInterface,
AddrTypeLen,
pInterface->DhcpServerAddress.Address,
0, // Subaddress type+len
(PUCHAR)NULL, // Subaddress
AE_REFTYPE_IF,
TRUE // Create new one if not found
);
if (pInterface->pDhcpServerAtmEntry == NULL_PATMARP_ATM_ENTRY)
{
Status = NDIS_STATUS_RESOURCES;
break;
}
else
{
//
// NOTE: AtmArpSearchForAtmAddress has alreaddy addrefd
// the pAtmEntry for us.
//
}
}
#endif // DHCP_OVER_ATM
break;
}
while (FALSE);
return (Status);
}
VOID
AtmArpUnloadProtocol(
VOID
)
/*++
Routine Description:
Unloads the ATMARP protocol module. We unbind from all adapters,
and deregister from NDIS as a protocol.
Arguments:
None.
Return Value:
None
--*/
{
NDIS_STATUS Status;
PATMARP_ADAPTER pAdapter;
#if DBG
AADEBUGP(AAD_INFO, ("AtmArpUnloadProtocol entered\n"));
#endif // DBG
AA_ACQUIRE_GLOBAL_LOCK(pAtmArpGlobalInfo);
if (pAtmArpGlobalInfo->bUnloading)
{
AA_RELEASE_GLOBAL_LOCK(pAtmArpGlobalInfo);
return;
}
pAtmArpGlobalInfo->bUnloading = TRUE;
#if 0
//
// Commented this out because we don't need to handle
// the case of unclosed bindings ourselves. If there
// are any at this time, then NDIS will call our Unbind
// handlers for such bindings in response to our call
// to NdisDeregisterProtocol below.
//
while (pAtmArpGlobalInfo->pAdapterList != NULL_PATMARP_ADAPTER)
{
pAdapter = pAtmArpGlobalInfo->pAdapterList;
AA_RELEASE_GLOBAL_LOCK(pAtmArpGlobalInfo);
AADEBUGP(AAD_INFO, ("UnloadProtocol: Will unbind adapter 0x%x\n", pAdapter));
AtmArpUnbindAdapterHandler(
&Status,
(NDIS_HANDLE)pAdapter,
(NDIS_HANDLE)NULL // No UnbindContext ==> Don't complete NdisUnbind
);
if (Status == NDIS_STATUS_PENDING)
{
//
// Wait for the unbind to complete
//
(VOID)AA_WAIT_ON_BLOCK_STRUCT(&(pAtmArpGlobalInfo->Block));
}
AA_ACQUIRE_GLOBAL_LOCK(pAtmArpGlobalInfo);
}
#endif // 0
AA_RELEASE_GLOBAL_LOCK(pAtmArpGlobalInfo);
NdisDeregisterProtocol(
&Status,
pAtmArpGlobalInfo->ProtocolHandle
);
AA_FREE_GLOBAL_LOCK(pAtmArpGlobalInfo);
AA_FREE_BLOCK_STRUCT(&(pAtmArpGlobalInfo->Block));
#ifdef GPC
AtmArpGpcShutdown();
#endif // GPC
#if DBG
AaAuditShutdown();
#endif // DBG
AADEBUGP(AAD_LOUD,
("UnloadProtocol: will deregister protocol now, ProtHandle 0x%x\n",
pAtmArpGlobalInfo->ProtocolHandle));
AA_ASSERT(Status == NDIS_STATUS_SUCCESS);
AADEBUGP(AAD_LOUD, ("UnloadProtocol done\n"));
}