丢失数据包(Windows NDIS驱动程序筛选器)
问题描述:
我是WDD的初学者。我需要制作一个网络驱动程序过滤器,根据签名丢弃某些数据包,以保护系统免受程序漏洞攻击。 现在,我只是想获取我需要的数据包并找到我的签名。我使用Metasploit Framework来利用此漏洞和Wireshark来跟踪流量。在Wireshark的我看到4个数据包的目的端口8000是这样的:丢失数据包(Windows NDIS驱动程序筛选器)
但是,当我试图让他们我只有2第一人 - 与SYN和ACK。
我的代码基于NDIS driver filter sample。我正在编写FilterReceiveNetBufferLists函数。下面的代码:
_Use_decl_annotations_
VOID
FilterReceiveNetBufferLists(
NDIS_HANDLE FilterModuleContext,
PNET_BUFFER_LIST NetBufferLists,
NDIS_PORT_NUMBER PortNumber,
ULONG NumberOfNetBufferLists,
ULONG ReceiveFlags
)
/*++
Routine Description:
FilerReceiveNetBufferLists is an optional function for filter drivers.
If provided, this function processes receive indications made by underlying
NIC or lower level filter drivers. This function can also be called as a
result of loopback. If this handler is NULL, NDIS will skip calling this
filter when processing a receive indication and will call the next higher
driver in the stack. A filter that doesn't provide a
FilterReceiveNetBufferLists handler cannot provide a
FilterReturnNetBufferLists handler and cannot a initiate an original receive
indication on its own.
Arguments:
FilterModuleContext - our filter context area.
NetBufferLists - a linked list of NetBufferLists
PortNumber - Port on which the receive is indicated
ReceiveFlags -
N.B.: It is important to check the ReceiveFlags in NDIS_TEST_RECEIVE_CANNOT_PEND.
This controls whether the receive indication is an synchronous or
asynchronous function call.
--*/
{
PMS_FILTER pFilter = (PMS_FILTER)FilterModuleContext;
BOOLEAN DispatchLevel;
ULONG Ref;
BOOLEAN bFalse = FALSE;
#if DBG
ULONG ReturnFlags;
#endif
DEBUGP(DL_TRACE, "===>ReceiveNetBufferList: NetBufferLists = %p.\n", NetBufferLists);
do
{
DispatchLevel = NDIS_TEST_RECEIVE_AT_DISPATCH_LEVEL(ReceiveFlags);
#if DBG
FILTER_ACQUIRE_LOCK(&pFilter->Lock, DispatchLevel);
if (pFilter->State != FilterRunning)
{
FILTER_RELEASE_LOCK(&pFilter->Lock, DispatchLevel);
if (NDIS_TEST_RECEIVE_CAN_PEND(ReceiveFlags))
{
ReturnFlags = 0;
if (NDIS_TEST_RECEIVE_AT_DISPATCH_LEVEL(ReceiveFlags))
{
NDIS_SET_RETURN_FLAG(ReturnFlags, NDIS_RETURN_FLAGS_DISPATCH_LEVEL);
}
NdisFReturnNetBufferLists(pFilter->FilterHandle, NetBufferLists, ReturnFlags);
}
break;
}
FILTER_RELEASE_LOCK(&pFilter->Lock, DispatchLevel);
#endif
ASSERT(NumberOfNetBufferLists >= 1);
////////////////////////////// MY CODE //////////////////////////////////////
FILTER_ACQUIRE_LOCK(&pFilter->Lock, DispatchLevel);
PNET_BUFFER_LIST pCurrentNetBufferList = NetBufferLists;
PNET_BUFFER pCurrentNetBuffer = NET_BUFFER_LIST_FIRST_NB(pCurrentNetBufferList);
while (pCurrentNetBufferList)
{
while (pCurrentNetBuffer)
{
ULONG netbuffer_size = NET_BUFFER_DATA_LENGTH(pCurrentNetBuffer);
BYTE* buffer = (BYTE*)NdisGetDataBuffer(
pCurrentNetBuffer,
netbuffer_size,
NULL,
1,
0);
if (buffer) {
ParseBuffer(buffer, netbuffer_size);
}
else
{
void* alloc_mem = ExAllocatePoolWithTag(PagedPool, netbuffer_size, 'BteN');
buffer = (BYTE*)NdisGetDataBuffer(
pCurrentNetBuffer,
netbuffer_size,
alloc_mem,
1,
0);
if (buffer) {
ParseBuffer(buffer, netbuffer_size);
}
else {
DbgPrint("T.T");
}
ExFreePoolWithTag(alloc_mem, 'BteN');
}
pCurrentNetBuffer = NET_BUFFER_NEXT_NB(pCurrentNetBuffer);
}
pCurrentNetBufferList = NET_BUFFER_LIST_NEXT_NBL(pCurrentNetBufferList);
}
FILTER_RELEASE_LOCK(&pFilter->Lock, DispatchLevel);
////////////////////////////////////////////////////////////////////////////
//
// If you would like to drop a received packet, then you must carefully
// modify the NBL chain as follows:
//
// if NDIS_TEST_RECEIVE_CANNOT_PEND(ReceiveFlags):
// For each NBL that is NOT dropped, temporarily unlink it from
// the linked list, and indicate it up alone with
// NdisFIndicateReceiveNetBufferLists and the
// NDIS_RECEIVE_FLAGS_RESOURCES flag set. Then immediately
// relink the NBL back into the chain. When all NBLs have been
// indicated up, you may return from this function.
// otherwise (NDIS_TEST_RECEIVE_CANNOT_PEND is FALSE):
// Divide the linked list of NBLs into two chains: one chain
// of packets to drop, and everything else in another chain.
// Return the first chain with NdisFReturnNetBufferLists, and
// indicate up the rest with NdisFIndicateReceiveNetBufferLists.
//
// Note: on the receive path for Ethernet packets, one NBL will have
// exactly one NB. So (assuming you are receiving on Ethernet, or are
// attached above Native WiFi) you do not need to worry about dropping
// one NB, but trying to indicate up the remaining NBs on the same NBL.
// In other words, if the first NB should be dropped, drop the whole NBL.
//
//
// If you would like to modify a packet, and can do so quickly, you may
// do it here. However, make sure you save enough information to undo
// your modification in the FilterReturnNetBufferLists handler.
//
//
// If necessary, queue the NetBufferLists in a local structure for later
// processing. However, do not queue them for "too long", or else the
// system's performance may be degraded. If you need to hold onto an
// NBL for an unbounded amount of time, then allocate memory, perform a
// deep copy, and return the original NBL.
//
if (pFilter->TrackReceives)
{
FILTER_ACQUIRE_LOCK(&pFilter->Lock, DispatchLevel);
pFilter->OutstandingRcvs += NumberOfNetBufferLists;
Ref = pFilter->OutstandingRcvs;
FILTER_LOG_RCV_REF(1, pFilter, NetBufferLists, Ref);
FILTER_RELEASE_LOCK(&pFilter->Lock, DispatchLevel);
}
NdisFIndicateReceiveNetBufferLists(
pFilter->FilterHandle,
NetBufferLists,
PortNumber,
NumberOfNetBufferLists,
ReceiveFlags);
if (NDIS_TEST_RECEIVE_CANNOT_PEND(ReceiveFlags) &&
pFilter->TrackReceives)
{
FILTER_ACQUIRE_LOCK(&pFilter->Lock, DispatchLevel);
pFilter->OutstandingRcvs -= NumberOfNetBufferLists;
Ref = pFilter->OutstandingRcvs;
FILTER_LOG_RCV_REF(2, pFilter, NetBufferLists, Ref);
FILTER_RELEASE_LOCK(&pFilter->Lock, DispatchLevel);
}
} while (bFalse);
DEBUGP(DL_TRACE, "<===ReceiveNetBufferList: Flags = %8x.\n", ReceiveFlags);
}
ParseBuffer功能:
VOID ParseBuffer(BYTE *buffer, ULONG netbuffer_size)
{
// parse ethernet
eth_header_t* pEthHeader = (eth_header_t*)buffer;
ASSERT(pEthHeader);
if (pEthHeader->type == RtlUshortByteSwap(EtherType_IPv4))
{
// parse ipv4
ipv4_header_t* pIpHeader = (ipv4_header_t*)(buffer + sizeof(eth_header_t));
ASSERT(pIpHeader);
ASSERT(pIpHeader->version == IPPROTO_IPV4);
if (pIpHeader->protocol == IPPROTO_TCP)
{
// parse tcp
tcp_header_t* pTcpHeader = (tcp_header_t*)(buffer + sizeof(eth_header_t) + sizeof(ipv4_header_t));
ASSERT(pTcpHeader);
if (pTcpHeader->dst_port == RtlUshortByteSwap(8000))
{
if (netbuffer_size) {}
DbgPrint("PACKET DUMP:\n");
DbgPrintHexDump(buffer, netbuffer_size);
WORD ip_total_length = RtlUshortByteSwap(pIpHeader->total_length);
WORD tcp_size = ip_total_length - sizeof(ipv4_header_t);
WORD data_size = tcp_size - (pTcpHeader->data_offset << 2);
DbgPrint("DATA SIZE: %d \n", data_size);
// if there is any data in packet
if(data_size)
{
BYTE* data = (buffer + sizeof(eth_header_t) + sizeof(ipv4_header_t) + (pTcpHeader->data_offset << 2));
ASSERT(data);
DbgPrint("Data:\n");
DbgPrintHexDump(data, data_size);
const char* signature = "\xEB\x0C/HTTP/1.1 ";
const char* pch = strstr((const char*)data, signature);
if (pch != NULL)
{
DbgPrint("Got it!\n");
}
}
DbgPrint("\n");
}
}
}
}
也许我之前处理它们克隆NetBufferLists,我不知道。如果我必须,我应该什么时候做?
P.S. The full code(如果您需要)。
答
嗯,这是一个愚蠢的错误,我把PNET_BUFFER pCurrentNetBuffer = NET_BUFFER_LIST_FIRST_NB(pCurrentNetBufferList)
在错误的地方。它必须在while (pCurrentNetBufferList)
之后。