405 lines
13 KiB
C
405 lines
13 KiB
C
#include "headers.h"
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static BOOLEAN MatchSrcIpv6Address(S_CLASSIFIER_RULE *pstClassifierRule,IPV6Header *pstIpv6Header);
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static BOOLEAN MatchDestIpv6Address(S_CLASSIFIER_RULE *pstClassifierRule,IPV6Header *pstIpv6Header);
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static VOID DumpIpv6Header(IPV6Header *pstIpv6Header);
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static UCHAR * GetNextIPV6ChainedHeader(UCHAR **ppucPayload,UCHAR *pucNextHeader,BOOLEAN *bParseDone,USHORT *pusPayloadLength)
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{
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UCHAR *pucRetHeaderPtr = NULL;
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UCHAR *pucPayloadPtr = NULL;
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USHORT usNextHeaderOffset = 0 ;
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PMINI_ADAPTER Adapter = GET_BCM_ADAPTER(gblpnetdev);
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if((NULL == ppucPayload) || (*pusPayloadLength == 0) || (*bParseDone))
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{
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*bParseDone = TRUE;
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return NULL;
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}
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pucRetHeaderPtr = *ppucPayload;
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pucPayloadPtr = *ppucPayload;
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if(!pucRetHeaderPtr || !pucPayloadPtr)
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{
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*bParseDone = TRUE;
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return NULL;
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}
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//Get the Nextt Header Type
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*bParseDone = FALSE;
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switch(*pucNextHeader)
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{
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case IPV6HDR_TYPE_HOPBYHOP:
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 HopByHop Header");
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usNextHeaderOffset+=sizeof(IPV6HopByHopOptionsHeader);
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}
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break;
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case IPV6HDR_TYPE_ROUTING:
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{
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IPV6RoutingHeader *pstIpv6RoutingHeader;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Routing Header");
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pstIpv6RoutingHeader = (IPV6RoutingHeader *)pucPayloadPtr;
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usNextHeaderOffset += sizeof(IPV6RoutingHeader);
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usNextHeaderOffset += pstIpv6RoutingHeader->ucNumAddresses * IPV6_ADDRESS_SIZEINBYTES;
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}
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break;
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case IPV6HDR_TYPE_FRAGMENTATION:
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Fragmentation Header");
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usNextHeaderOffset+= sizeof(IPV6FragmentHeader);
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}
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break;
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case IPV6HDR_TYPE_DESTOPTS:
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{
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IPV6DestOptionsHeader *pstIpv6DestOptsHdr = (IPV6DestOptionsHeader *)pucPayloadPtr;
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int nTotalOptions = pstIpv6DestOptsHdr->ucHdrExtLen;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 DestOpts Header Header");
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usNextHeaderOffset+= sizeof(IPV6DestOptionsHeader);
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usNextHeaderOffset+= nTotalOptions * IPV6_DESTOPTS_HDR_OPTIONSIZE ;
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}
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break;
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case IPV6HDR_TYPE_AUTHENTICATION:
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{
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IPV6AuthenticationHeader *pstIpv6AuthHdr = (IPV6AuthenticationHeader *)pucPayloadPtr;
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int nHdrLen = pstIpv6AuthHdr->ucLength;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Authentication Header");
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usNextHeaderOffset+= nHdrLen * 4;
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}
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break;
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case IPV6HDR_TYPE_ENCRYPTEDSECURITYPAYLOAD:
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Encrypted Security Payload Header");
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*bParseDone = TRUE;
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}
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break;
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case IPV6_ICMP_HDR_TYPE:
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, " ICMP Header");
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*bParseDone = TRUE;
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}
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break;
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case TCP_HEADER_TYPE:
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, " \nTCP Header");
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*bParseDone = TRUE;
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}
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break;
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case UDP_HEADER_TYPE:
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, " \nUDP Header");
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*bParseDone = TRUE;
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}
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break;
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default :
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{
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*bParseDone = TRUE;
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}
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break;
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}
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if(*bParseDone == FALSE)
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{
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if(*pusPayloadLength <= usNextHeaderOffset)
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{
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*bParseDone = TRUE;
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}
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else
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{
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*pucNextHeader = *pucPayloadPtr;
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pucPayloadPtr+=usNextHeaderOffset;
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(*pusPayloadLength)-=usNextHeaderOffset;
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}
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}
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*ppucPayload = pucPayloadPtr;
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return pucRetHeaderPtr;
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}
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static UCHAR GetIpv6ProtocolPorts(UCHAR *pucPayload,USHORT *pusSrcPort,USHORT *pusDestPort,USHORT usPayloadLength,UCHAR ucNextHeader)
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{
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UCHAR *pIpv6HdrScanContext = pucPayload;
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BOOLEAN bDone = FALSE;
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UCHAR ucHeaderType =0;
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UCHAR *pucNextHeader = NULL;
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PMINI_ADAPTER Adapter = GET_BCM_ADAPTER(gblpnetdev);
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if( !pucPayload || (usPayloadLength == 0))
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{
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return 0;
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}
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*pusSrcPort = *pusDestPort = 0;
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ucHeaderType = ucNextHeader;
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while(!bDone)
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{
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pucNextHeader = GetNextIPV6ChainedHeader(&pIpv6HdrScanContext,&ucHeaderType,&bDone,&usPayloadLength);
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if(bDone)
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{
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if((ucHeaderType==TCP_HEADER_TYPE) || (ucHeaderType == UDP_HEADER_TYPE))
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{
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*pusSrcPort=*((PUSHORT)(pucNextHeader));
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*pusDestPort=*((PUSHORT)(pucNextHeader+2));
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, " \nProtocol Ports - Src Port :0x%x Dest Port : 0x%x",ntohs(*pusSrcPort),ntohs(*pusDestPort));
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}
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break;
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}
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}
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return ucHeaderType;
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}
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USHORT IpVersion6(PMINI_ADAPTER Adapter, /**< Pointer to the driver control structure */
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PVOID pcIpHeader, /**<Pointer to the IP Hdr of the packet*/
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S_CLASSIFIER_RULE *pstClassifierRule )
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{
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USHORT ushDestPort = 0;
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USHORT ushSrcPort = 0;
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UCHAR ucNextProtocolAboveIP =0;
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IPV6Header *pstIpv6Header = NULL;
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BOOLEAN bClassificationSucceed = FALSE;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "IpVersion6 ==========>\n");
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pstIpv6Header = (IPV6Header *)pcIpHeader;
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DumpIpv6Header(pstIpv6Header);
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//Try to get the next higher layer protocol and the Ports Nos if TCP or UDP
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ucNextProtocolAboveIP = GetIpv6ProtocolPorts((UCHAR *)(pcIpHeader + sizeof(IPV6Header)),
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&ushSrcPort,
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&ushDestPort,
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pstIpv6Header->usPayloadLength,
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pstIpv6Header->ucNextHeader);
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do
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{
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if(0 == pstClassifierRule->ucDirection)
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{
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//cannot be processed for classification.
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// it is a down link connection
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break;
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}
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if(!pstClassifierRule->bIpv6Protocol)
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{
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//We are looking for Ipv6 Classifiers . Lets ignore this classifier and try the next one.
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break;
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}
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bClassificationSucceed=MatchSrcIpv6Address(pstClassifierRule,pstIpv6Header);
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if(!bClassificationSucceed)
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break;
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bClassificationSucceed=MatchDestIpv6Address(pstClassifierRule,pstIpv6Header);
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if(!bClassificationSucceed)
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break;
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//Match the protocol type.For IPv6 the next protocol at end of Chain of IPv6 prot headers
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bClassificationSucceed=MatchProtocol(pstClassifierRule,ucNextProtocolAboveIP);
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if(!bClassificationSucceed)
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break;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Protocol Matched");
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if((ucNextProtocolAboveIP == TCP_HEADER_TYPE) || (ucNextProtocolAboveIP == UDP_HEADER_TYPE))
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{
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//Match Src Port
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Source Port:%x\n",ntohs(ushSrcPort));
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bClassificationSucceed=MatchSrcPort(pstClassifierRule,ntohs(ushSrcPort));
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if(!bClassificationSucceed)
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break;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Src Port Matched");
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//Match Dest Port
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Destination Port:%x\n",ntohs(ushDestPort));
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bClassificationSucceed=MatchDestPort(pstClassifierRule,ntohs(ushDestPort));
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if(!bClassificationSucceed)
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break;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\nIPv6 Dest Port Matched");
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}
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}while(0);
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if(TRUE==bClassificationSucceed)
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{
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INT iMatchedSFQueueIndex = 0;
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iMatchedSFQueueIndex = SearchSfid(Adapter,pstClassifierRule->ulSFID);
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if(iMatchedSFQueueIndex >= NO_OF_QUEUES)
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{
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bClassificationSucceed = FALSE;
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}
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else
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{
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if(FALSE == Adapter->PackInfo[iMatchedSFQueueIndex].bActive)
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{
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bClassificationSucceed = FALSE;
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}
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}
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}
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return bClassificationSucceed;
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}
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static BOOLEAN MatchSrcIpv6Address(S_CLASSIFIER_RULE *pstClassifierRule,IPV6Header *pstIpv6Header)
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{
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UINT uiLoopIndex=0;
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UINT uiIpv6AddIndex=0;
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UINT uiIpv6AddrNoLongWords = 4;
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ULONG aulSrcIP[4];
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PMINI_ADAPTER Adapter = GET_BCM_ADAPTER(gblpnetdev);
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/*
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//This is the no. of Src Addresses ie Range of IP Addresses contained
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//in the classifier rule for which we need to match
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*/
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UINT uiCountIPSrcAddresses = (UINT)pstClassifierRule->ucIPSourceAddressLength;
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if(0 == uiCountIPSrcAddresses)
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return TRUE;
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//First Convert the Ip Address in the packet to Host Endian order
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for(uiIpv6AddIndex=0;uiIpv6AddIndex<uiIpv6AddrNoLongWords;uiIpv6AddIndex++)
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{
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aulSrcIP[uiIpv6AddIndex]=ntohl(pstIpv6Header->ulSrcIpAddress[uiIpv6AddIndex]);
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}
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for(uiLoopIndex=0;uiLoopIndex<uiCountIPSrcAddresses;uiLoopIndex+=uiIpv6AddrNoLongWords)
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\n Src Ipv6 Address In Received Packet : \n ");
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DumpIpv6Address(aulSrcIP);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\n Src Ipv6 Mask In Classifier Rule: \n");
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DumpIpv6Address(&pstClassifierRule->stSrcIpAddress.ulIpv6Mask[uiLoopIndex]);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\n Src Ipv6 Address In Classifier Rule : \n");
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DumpIpv6Address(&pstClassifierRule->stSrcIpAddress.ulIpv6Addr[uiLoopIndex]);
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for(uiIpv6AddIndex=0;uiIpv6AddIndex<uiIpv6AddrNoLongWords;uiIpv6AddIndex++)
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{
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if((pstClassifierRule->stSrcIpAddress.ulIpv6Mask[uiLoopIndex+uiIpv6AddIndex] & aulSrcIP[uiIpv6AddIndex])
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!= pstClassifierRule->stSrcIpAddress.ulIpv6Addr[uiLoopIndex+uiIpv6AddIndex])
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{
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//Match failed for current Ipv6 Address.Try next Ipv6 Address
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break;
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}
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if(uiIpv6AddIndex == uiIpv6AddrNoLongWords-1)
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{
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//Match Found
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Ipv6 Src Ip Address Matched\n");
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return TRUE;
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}
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}
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}
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return FALSE;
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}
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static BOOLEAN MatchDestIpv6Address(S_CLASSIFIER_RULE *pstClassifierRule,IPV6Header *pstIpv6Header)
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{
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UINT uiLoopIndex=0;
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UINT uiIpv6AddIndex=0;
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UINT uiIpv6AddrNoLongWords = 4;
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ULONG aulDestIP[4];
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PMINI_ADAPTER Adapter = GET_BCM_ADAPTER(gblpnetdev);
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/*
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//This is the no. of Destination Addresses ie Range of IP Addresses contained
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//in the classifier rule for which we need to match
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*/
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UINT uiCountIPDestinationAddresses = (UINT)pstClassifierRule->ucIPDestinationAddressLength;
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if(0 == uiCountIPDestinationAddresses)
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return TRUE;
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//First Convert the Ip Address in the packet to Host Endian order
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for(uiIpv6AddIndex=0;uiIpv6AddIndex<uiIpv6AddrNoLongWords;uiIpv6AddIndex++)
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{
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aulDestIP[uiIpv6AddIndex]=ntohl(pstIpv6Header->ulDestIpAddress[uiIpv6AddIndex]);
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}
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for(uiLoopIndex=0;uiLoopIndex<uiCountIPDestinationAddresses;uiLoopIndex+=uiIpv6AddrNoLongWords)
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\n Destination Ipv6 Address In Received Packet : \n ");
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DumpIpv6Address(aulDestIP);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\n Destination Ipv6 Mask In Classifier Rule: \n");
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DumpIpv6Address(&pstClassifierRule->stDestIpAddress.ulIpv6Mask[uiLoopIndex]);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "\n Destination Ipv6 Address In Classifier Rule : \n");
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DumpIpv6Address(&pstClassifierRule->stDestIpAddress.ulIpv6Addr[uiLoopIndex]);
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for(uiIpv6AddIndex=0;uiIpv6AddIndex<uiIpv6AddrNoLongWords;uiIpv6AddIndex++)
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{
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if((pstClassifierRule->stDestIpAddress.ulIpv6Mask[uiLoopIndex+uiIpv6AddIndex] & aulDestIP[uiIpv6AddIndex])
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!= pstClassifierRule->stDestIpAddress.ulIpv6Addr[uiLoopIndex+uiIpv6AddIndex])
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{
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//Match failed for current Ipv6 Address.Try next Ipv6 Address
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break;
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}
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if(uiIpv6AddIndex == uiIpv6AddrNoLongWords-1)
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{
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//Match Found
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Ipv6 Destination Ip Address Matched\n");
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return TRUE;
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}
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}
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}
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return FALSE;
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}
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VOID DumpIpv6Address(ULONG *puIpv6Address)
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{
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UINT uiIpv6AddrNoLongWords = 4;
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UINT uiIpv6AddIndex=0;
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PMINI_ADAPTER Adapter = GET_BCM_ADAPTER(gblpnetdev);
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for(uiIpv6AddIndex=0;uiIpv6AddIndex<uiIpv6AddrNoLongWords;uiIpv6AddIndex++)
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{
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, ":%lx",puIpv6Address[uiIpv6AddIndex]);
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}
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}
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static VOID DumpIpv6Header(IPV6Header *pstIpv6Header)
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{
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UCHAR ucVersion;
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UCHAR ucPrio ;
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PMINI_ADAPTER Adapter = GET_BCM_ADAPTER(gblpnetdev);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "----Ipv6 Header---");
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ucVersion = pstIpv6Header->ucVersionPrio & 0xf0;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Version : %x \n",ucVersion);
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ucPrio = pstIpv6Header->ucVersionPrio & 0x0f;
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Priority : %x \n",ucPrio);
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//BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Flow Label : %x \n",(pstIpv6Header->ucVersionPrio &0xf0);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Payload Length : %x \n",ntohs(pstIpv6Header->usPayloadLength));
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Next Header : %x \n",pstIpv6Header->ucNextHeader);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Hop Limit : %x \n",pstIpv6Header->ucHopLimit);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Src Address :\n");
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DumpIpv6Address(pstIpv6Header->ulSrcIpAddress);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "Dest Address :\n");
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DumpIpv6Address(pstIpv6Header->ulDestIpAddress);
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BCM_DEBUG_PRINT( Adapter,DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, "----Ipv6 Header End---");
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}
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