Leaked source code of windows server 2003
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//depot/Lab03_N/Net/rras/ndis/raspptp/common/raspptp.c#4 - edit change 19457 (text)
/*****************************************************************************
*
* Copyright (c) 1998-1999 Microsoft Corporation
*
* RASPPTP.C - RASPPTP driver main module (DriverEntry, etc.)
*
* Author: Stan Adermann (stana)
*
* Created: 7/28/1998
*
*****************************************************************************/
#include "raspptp.h"
#include "raspptp.tmh"
NTSTATUS
DriverEntry(
IN PDRIVER_OBJECT pDriverObject,
IN PUNICODE_STRING pRegistryPath
);
#pragma NDIS_INIT_FUNCTION(DriverEntry)
NDIS_HANDLE ghNdisWrapper;
PDRIVER_OBJECT gDriverObject;
COUNTERS gCounters;
#if DBG
ULONG PptpTraceMask = 0xffffffff;
#else
ULONG PptpTraceMask = 0;
#endif
VOID MiniportUnload(PVOID DriverObject)
{
if(gDriverObject != NULL)
{
WPP_CLEANUP(gDriverObject);
}
}
NTSTATUS
DriverEntry(
IN PDRIVER_OBJECT pDriverObject,
IN PUNICODE_STRING pRegistryPath
)
{
NDIS_MINIPORT_CHARACTERISTICS Characteristics;
NDIS_STATUS Status;
DEFAULT_DEBUG_OPTIONS(
DBG_ERROR |
DBG_WARN |
//DBG_FUNC |
DBG_INIT |
//DBG_TX |
//DBG_RX |
DBG_TDI |
DBG_TUNNEL |
DBG_CALL |
DBG_NDIS |
DBG_TAPI |
//DBG_THREAD |
//DBG_POOL |
//DBG_REF |
//DBG_LOG |
0
);
DEBUGMSG(DBG_INIT|DBG_FUNC, (DTEXT("+DriverEntry\n")));
// Standard NDIS initiailization:
// InitializeWrapper
// Fill in the characteristics
// Register the miniport
NdisMInitializeWrapper(&ghNdisWrapper,
pDriverObject,
pRegistryPath,
NULL
);
NdisZeroMemory(&Characteristics, sizeof(NDIS_MINIPORT_CHARACTERISTICS));
Characteristics.MajorNdisVersion = NDIS_MAJOR_VERSION;
Characteristics.MinorNdisVersion = NDIS_MINOR_VERSION;
Characteristics.Reserved = NDIS_USE_WAN_WRAPPER;
Characteristics.InitializeHandler = MiniportInitialize;
Characteristics.HaltHandler = MiniportHalt;
Characteristics.ResetHandler = MiniportReset;
Characteristics.QueryInformationHandler = MiniportQueryInformation;
Characteristics.SetInformationHandler = MiniportSetInformation;
Characteristics.WanSendHandler = MiniportWanSend;
// ToDo: Characteristics.ReturnPacketHandler = MpReturnPacket;
Status = NdisMRegisterMiniport(ghNdisWrapper,
&Characteristics,
sizeof(Characteristics));
if (Status!=NDIS_STATUS_SUCCESS)
{
DEBUGMSG(DBG_ERROR, (DTEXT("PPTP: NdisMRegisterMiniport failed %x\n"), Status));
NdisTerminateWrapper(ghNdisWrapper, NULL);
return STATUS_UNSUCCESSFUL;
}
// WPP tracing support
NdisMRegisterUnloadHandler(ghNdisWrapper, MiniportUnload);
gDriverObject = pDriverObject;
WPP_INIT_TRACING(pDriverObject, pRegistryPath);
DEBUGMSG(DBG_INIT|DBG_FUNC, (DTEXT("-DriverEntry\n")));
return STATUS_SUCCESS;
}
VOID
AdapterCleanup(
IN PVOID SystemSpecific1,
IN PVOID pContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3
)
{
PPPTP_ADAPTER pAdapter = pContext;
extern VOID CtlpCleanupLooseEnds(PPPTP_ADAPTER pAdapter);
extern VOID CallpCleanupLooseEnds(PPPTP_ADAPTER pAdapter);
extern VOID CtdiCleanupLooseEnds(VOID);
DEBUGMSG(DBG_FUNC, (DTEXT("+AdapterCleanup\n")));
CtdiCleanupLooseEnds();
CtlpCleanupLooseEnds(pAdapter);
CallpCleanupLooseEnds(pAdapter);
DEBUGMSG(DBG_FUNC, (DTEXT("-AdapterCleanup\n")));
}
PPPTP_ADAPTER
AdapterAlloc(NDIS_HANDLE NdisAdapterHandle)
{
PPPTP_ADAPTER pAdapter;
NDIS_PHYSICAL_ADDRESS HighestAcceptableAddress = NDIS_PHYSICAL_ADDRESS_CONST(-1,-1);
UINT i;
DEBUGMSG(DBG_FUNC, (DTEXT("+AdapterAlloc\n")));
pAdapter = MyMemAlloc(sizeof(PPTP_ADAPTER), TAG_PPTP_ADAPTER);
if (!pAdapter)
{
DEBUGMSG(DBG_FUNC|DBG_ERROR, (DTEXT("-AdapterAlloc NULL\n")));
return NULL;
}
NdisZeroMemory(pAdapter, sizeof(PPTP_ADAPTER));
pAdapter->hMiniportAdapter = NdisAdapterHandle;
NdisAllocateSpinLock(&pAdapter->Lock);
// Fill the NDIS_WAN_INFO structure.
pAdapter->Info.MaxFrameSize = 1400;
pAdapter->Info.MaxTransmit = PptpMaxTransmit;
pAdapter->Info.HeaderPadding = sizeof(GRE_HEADER) + sizeof(ULONG)*2 + sizeof(IP4_HEADER);
pAdapter->Info.TailPadding = 0;
pAdapter->Info.Endpoints = PptpWanEndpoints;
pAdapter->Info.MemoryFlags = 0;
pAdapter->Info.HighestAcceptableAddress = HighestAcceptableAddress;
pAdapter->Info.FramingBits = PPP_FRAMING |
PPP_COMPRESS_ADDRESS_CONTROL |
PPP_COMPRESS_PROTOCOL_FIELD |
TAPI_PROVIDER;
pAdapter->Info.DesiredACCM = 0;
pAdapter->pCallArray = MyMemAlloc(sizeof(PCALL_SESSION)*pAdapter->Info.Endpoints, TAG_PPTP_CALL_LIST);
if (!pAdapter->pCallArray)
{
AdapterFree(pAdapter);
DEBUGMSG(DBG_FUNC|DBG_ERROR, (DTEXT("-AdapterAlloc Call NULL\n")));
return NULL;
}
NdisZeroMemory(pAdapter->pCallArray, sizeof(PCALL_SESSION)*pAdapter->Info.Endpoints);
for (i=0; i<pAdapter->Info.Endpoints; i++)
{
// Allocate the call on TapiOpen
//pAdapter->pCallArray[i] = CallAlloc(pAdapter);
pAdapter->pCallArray[i] = NULL;
}
NdisInitializeListHead(&pAdapter->ControlTunnelList);
NdisMInitializeTimer(&pAdapter->CleanupTimer,
pAdapter->hMiniportAdapter,
AdapterCleanup,
pAdapter);
NdisMSetPeriodicTimer(&pAdapter->CleanupTimer, 60000); // 60 second intervals
DEBUGMSG(DBG_FUNC, (DTEXT("-AdapterAlloc %08x\n"), pAdapter));
return pAdapter;
}
VOID
AdapterFree(PPPTP_ADAPTER pAdapter)
{
ULONG i;
BOOLEAN NotUsed;
if (!pAdapter)
{
return;
}
DEBUGMSG(DBG_FUNC, (DTEXT("+AdapterFree\n")));
ASSERT(IsListEmpty(&pAdapter->ControlTunnelList));
if (pAdapter->pCallArray)
{
for (i=0; i<pAdapter->Info.Endpoints; i++)
{
CallFree(pAdapter->pCallArray[i]);
}
MyMemFree(pAdapter->pCallArray, sizeof(PCALL_SESSION)*pAdapter->Info.Endpoints);
// We init and start Cleanup timer after we alloc pCallArray hence use this as a flag.
NdisMCancelTimer(&pAdapter->CleanupTimer, &NotUsed);
}
NdisFreeSpinLock(&pAdapter->Lock);
MyMemFree(pAdapter, sizeof(PPTP_ADAPTER));
DEBUGMSG(DBG_FUNC, (DTEXT("-AdapterFree\n")));
}
PLIST_ENTRY FASTCALL
EnumListEntry(
IN PLIST_ENTRY pHead,
IN PENUM_CONTEXT pEnum,
IN PNDIS_SPIN_LOCK pLock
)
{
PLIST_ENTRY pEntry = NULL;
DEBUGMSG(DBG_FUNC, (DTEXT("+EnumListEntry\n")));
ASSERT(pEnum->Signature==ENUM_SIGNATURE);
if (pLock)
{
NdisAcquireSpinLock(pLock);
}
do
{
if (pEnum->ListEntry.Flink==NULL)
{
// First call
if (!IsListEmpty(pHead))
{
pEntry = pHead->Flink;
InsertHeadList(pEntry, &pEnum->ListEntry);
}
}
else
{
if (pEnum->ListEntry.Flink!=pHead)
{
pEntry = pEnum->ListEntry.Flink;
RemoveEntryList(&pEnum->ListEntry);
InsertHeadList(pEntry, &pEnum->ListEntry);
}
else
{
RemoveEntryList(&pEnum->ListEntry);
pEnum->ListEntry.Flink = pEnum->ListEntry.Blink = NULL;
pEntry = NULL;
}
}
} while ( pEntry &&
((PENUM_CONTEXT)pEntry)->Signature==ENUM_SIGNATURE );
if (pLock)
{
NdisReleaseSpinLock(pLock);
}
DEBUGMSG(DBG_FUNC, (DTEXT("-EnumListEntry %08x\n"), pEntry));
return pEntry;
}
VOID
EnumComplete(
IN PENUM_CONTEXT pEnum,
IN PNDIS_SPIN_LOCK pLock
)
{
DEBUGMSG(DBG_FUNC, (DTEXT("+EnumComplete\n")));
if (pEnum->ListEntry.Flink)
{
if (pLock)
{
NdisAcquireSpinLock(pLock);
}
RemoveEntryList(&pEnum->ListEntry);
pEnum->ListEntry.Flink = pEnum->ListEntry.Blink = NULL;
if (pLock)
{
NdisReleaseSpinLock(pLock);
}
}
DEBUGMSG(DBG_FUNC, (DTEXT("-EnumComplete\n")));
}