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491 lines
11 KiB
491 lines
11 KiB
/*++
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Copyright (c) 1995 Microsoft Corporation
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Module Name:
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net\routing\ip\ipinip\rcv.c
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Abstract:
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Revision History:
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--*/
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#define __FILE_SIG__ RCV_SIG
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#include "inc.h"
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IP_STATUS
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IpIpRcvDatagram(
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IN PVOID pvIpContext,
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IN DWORD dwDestAddr,
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IN DWORD dwSrcAddr,
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IN DWORD dwAcceptAddr,
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IN DWORD dwRcvAddr,
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IN IPHeader UNALIGNED pHeader,
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IN UINT uiHdrLen,
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IN IPRcvBuf *pRcvBuf,
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IN UINT uiTotalLen,
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IN BOOLEAN bIsBCast,
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IN BYTE byProtocol,
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IN IPOptInfo *pOptInfo
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)
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/*++
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Routine Description
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This
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Locks
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Arguments
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pvIpContext IP's context for the receive indication. Currently this
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is a pointer to the source NTE
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dwDestAddr The Destination address in the header
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dwSrcAddr The Source Address in the header
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dwAcceptAddr The address of the NTE which "accepted" this packet
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dwRcvAddr The address of the NTE on which the packet was received
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pHeader Pointer to the IP Header
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uiHdrLen The header length
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pRcvBuf The COMPLETE packet in an IPRcvBuf structure
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uiRcvdDataLen The size of the received datagram
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bIsBCast Whether the packet was a link layer broadcast
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byProtocol The Protocol ID in the header
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pOptInfo Pointer to Option info
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Return Value
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IP_SUCCESS
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--*/
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{
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PTRANSFER_CONTEXT pXferCtxt;
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PNDIS_BUFFER pnbFirstBuffer;
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PVOID pvData;
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PIRP pIrp;
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IP_HEADER UNALIGNED *pInHeader, *pOutHeader;
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ULARGE_INTEGER uliTunnelId;
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PTUNNEL pTunnel;
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ULONG ulOutHdrLen, ulDataLen;
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BOOLEAN bNonUnicast;
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TraceEnter(RCV, "TdixReceiveIpIp");
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//
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// Get a pointer to the first buffer
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//
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pvData = (PVOID)(pRcvBuf->ipr_buffer);
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RtAssert(pvData);
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//
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// Figure out the tunnel for this receive
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// Since the transport indicates atleast 128 bytes, we can safely read out
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// the IP Header
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//
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RtAssert(uiTotalLen > sizeof(IP_HEADER));
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pOutHeader = pHeader;
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RtAssert(pOutHeader->byProtocol is PROTO_IPINIP);
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RtAssert(pOutHeader->byVerLen >> 4 is IP_VERSION_4);
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//
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// These defines depend upon a variable being named "uliTunnelId"
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//
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REMADDR = dwSrcAddr;
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LOCALADDR = dwDestAddr;
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//
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// Bunch of checks to make sure the packet and the handler
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// are telling us the same thing
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//
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RtAssert(pOutHeader->dwSrc is dwSrcAddr);
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RtAssert(pOutHeader->dwDest is dwDestAddr);
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//
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// Get a pointer to the inside header
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//
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ulOutHdrLen = LengthOfIPHeader(pOutHeader);
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pInHeader = (IP_HEADER UNALIGNED *)((PBYTE)pOutHeader + ulOutHdrLen);
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#if DBG
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//
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// The size of the inner data must be total bytes - outer header
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//
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ulDataLen = ntohs(pInHeader->wLength);
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RtAssert((ulDataLen + ulOutHdrLen) is uiTotalLen);
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//
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// The outer header should also give a good length
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//
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ulDataLen = ntohs(pOutHeader->wLength);
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//
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// Data length and bytes available must match
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//
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RtAssert(ulDataLen is uiTotalLen);
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#endif
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//
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// Find the TUNNEL. We need to acquire the tunnel list lock
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//
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EnterReaderAtDpcLevel(&g_rwlTunnelLock);
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pTunnel = FindTunnel(&uliTunnelId);
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ExitReaderFromDpcLevel(&g_rwlTunnelLock);
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if(pTunnel is NULL)
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{
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Trace(RCV, WARN,
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("TdixReceiveIpIp: Couldnt find tunnel for %d.%d.%d.%d/%d.%d.%d.%d\n",
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PRINT_IPADDR(REMADDR),
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PRINT_IPADDR(LOCALADDR)));
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//
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// Could not find a matching tunnel
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//
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TraceLeave(RCV, "TdixReceiveIpIp");
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//
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// Return a code that will cause IP to send the right ICMP message
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//
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return IP_DEST_PROT_UNREACHABLE;;
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}
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//
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// Ok, so we have the tunnel and it is ref counted and locked
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//
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//
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// The number of octets received
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//
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pTunnel->ulInOctets += ulBytesAvailable;
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//
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// Check the actual (inside) destination
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//
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if(IsUnicastAddr(pInHeader->dwDest))
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{
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//
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// TODO: should we check to see that the address is not 0.0.0.0?
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//
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pTunnel->ulInUniPkts++;
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bNonUnicast = FALSE;
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}
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else
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{
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pTunnel->ulInNonUniPkts++;
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if(IsClassEAddr(pInHeader->dwDest))
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{
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//
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// Bad address - throw it away
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//
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pTunnel->ulInErrors++;
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//
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// Releaselock, free buffer chain
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//
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}
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bNonUnicast = TRUE;
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}
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//
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// If the tunnel is non operational yet we are getting packets, means
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// it probably should be made operational
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//
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RtAssert(pTunnel->dwOperState is MIB_IF_OPER_STATUS_OPERATIONAL);
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if((pTunnel->dwAdminState isnot MIB_IF_ADMIN_STATUS_UP) or
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(pTunnel->dwOperState isnot MIB_IF_OPER_STATUS_OPERATIONAL))
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{
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Trace(RCV, WARN,
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("TdixReceiveIpIp: Tunnel %x is not up\n",
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pTunnel));
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pTunnel->ulInDiscards++;
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RtReleaseSpinLockFromDpcLevel(&(pTunnel->rlLock));
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DereferenceTunnel(pTunnel);
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TraceLeave(RCV, "TdixReceiveIpIp");
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return STATUS_DATA_NOT_ACCEPTED;
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}
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//
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// Allocate a transfer context
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//
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pXferCtxt = AllocateTransferContext();
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if(pXferCtxt is NULL)
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{
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Trace(RCV, ERROR,
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("TdixReceiveIpIp: Couldnt allocate transfer context\n"));
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//
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// Could not allocate context, free the data, unlock and deref
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// the tunnel
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//
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pTunnel->ulInDiscards++;
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RtReleaseSpinLockFromDpcLevel(&(pTunnel->rlLock));
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DereferenceTunnel(pTunnel);
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TraceLeave(RCV, "TdixReceiveIpIp");
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return STATUS_DATA_NOT_ACCEPTED;
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}
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//
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// Ok, all statistics are done.
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// Release the lock on the tunnel
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//
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RtReleaseSpinLockFromDpcLevel(&(pTunnel->rlLock));
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//
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// Fill in the read-datagram context with the information that won't
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// otherwise be available in the completion routine.
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//
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pXferCtxt->pTunnel = pTunnel;
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pXferCtxt->pRcvBuf = pRcvBuf;
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pXferCtxt->uiTotalLen = uiTotalLen;
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pXferCtxt->ulProtoOffset = ulOutHdrLen;
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//
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// The data starts at pInHeader
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// We indicate the only the first buffer to IP which means
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// (ulFirstBufLen - outer header length) bytes
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// The total data is the (ulTotalLen - outer header)
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// We associate a TRANSFER_CONTEXT with this indication,
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// The Protocol Offset is just our outer header
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//
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g_pfnIPRcv(pTunnel->pvIpContext,
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pInHeader,
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ulFirstBufLen - ulOutHdrLen,
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ulTotalLen - ulOutHdrLen,
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pXferCtxt,
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ulOutHdrLen,
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bNonUnicast);
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//
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// Deref the tunnel (finally)
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//
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DereferenceTunnel(pTunnel);
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TraceLeave(RCV, "TdixReceiveIpIp");
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return STATUS_SUCCESS;
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}
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NDIS_STATUS
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IpIpTransferData(
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PVOID pvContext,
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NDIS_HANDLE nhMacContext,
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UINT uiProtoOffset,
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UINT uiTransferOffset,
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UINT uiTransferLength,
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PNDIS_PACKET pnpPacket,
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PUINT puiTransferred
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)
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/*++
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Routine Description
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Locks
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Arguments
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Return Value
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NO_ERROR
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--*/
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{
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PTRANSFER_CONTEXT pXferCtxt;
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TraceEnter(SEND, "IpIpTransferData");
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pXferCtxt = (PTRANSFER_CONTEXT)nhMacContext;
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RtAssert(pXferCtxt->pTunnel is pvContext);
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RtAssert(pXferCtxt->ulProtoOffset is uiProtoOffset);
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//
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// Should not be asking to transfer more than was indicated
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// Since the transfer will start at and offset of
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// uiProtoOffset + uiTransferOffset, the following should hold
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//
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RtAssert((pXferContext->uiTotalLen - uiProtoOffset - uiTransferOffset) >=
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uiTransferLength);
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//
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// Copy the data from the RCV buffer to the given NDIS_BUFFER
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//
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*puiTransferred = CopyRcvBufferToNdisBuffer(pXferCtxt->pRcvBuf,
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pnbFirstBuffer,
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uiTransferLength,
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uiProtoOffset + uiTransferOffset,
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uiTransferOffset);
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TraceLeave(SEND, "IpIpTransferData");
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return NDIS_STATUS_PENDING;
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}
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uint
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CopyRcvBufferToNdisBuffer(
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IN IPRcvBuf *pRcvBuffer,
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IN OUT PNDIS_BUFFER pnbNdisBuffer,
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IN uint Size,
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IN uint RcvBufferOffset,
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IN uint NdisBufferOffset
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)
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{
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uint TotalBytesCopied = 0; // Bytes we've copied so far.
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uint BytesCopied = 0; // Bytes copied out of each buffer.
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uint DestSize, RcvSize; // Size left in current destination and
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// recv. buffers, respectively.
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uint BytesToCopy; // How many bytes to copy this time.
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NTSTATUS Status;
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RtAssert(RcvBuf != NULL);
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RtAssert(RcvOffset <= RcvBuf->ipr_size);
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//
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// The destination buffer can be NULL - this is valid, if odd.
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//
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if(pnbDestBuf != NULL)
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{
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}
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RcvSize = RcvBuf->ipr_size - RcvOffset;
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DestSize = NdisBufferLength(DestBuf);
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if (Size < DestSize)
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{
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DestSize = Size;
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}
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do
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{
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//
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// Compute the amount to copy, and then copy from the
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// appropriate offsets.
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BytesToCopy = MIN(DestSize, RcvSize);
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Status = TdiCopyBufferToMdl(RcvBuf->ipr_buffer,
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RcvOffset,
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BytesToCopy,
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DestBuf,
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DestOffset,
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&BytesCopied);
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if (!NT_SUCCESS(Status))
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{
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break;
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}
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RtAssert(BytesCopied == BytesToCopy);
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TotalBytesCopied += BytesCopied;
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DestSize -= BytesCopied;
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DestOffset += BytesCopied;
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RcvSize -= BytesToCopy;
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if (!RcvSize)
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{
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//
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// Exhausted this buffer.
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RcvBuf = RcvBuf->ipr_next;
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//
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// If we have another one, use it.
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//
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if (RcvBuf != NULL)
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{
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RcvOffset = 0;
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RcvSize = RcvBuf->ipr_size;
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}
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else
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{
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break;
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}
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}
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else
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{
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//
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// Buffer not exhausted, update offset.
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//
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RcvOffset += BytesToCopy;
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}
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}while (DestSize);
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return TotalBytesCopied;
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}
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