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自己动手制作一个恶意流量检测系统(附源码)

作者:血梦 日期:2019-12-02 浏览:343分类: 编程相关 已提交百度收录

0×0 成果展示

0×1 起因

0×2 准备的东西

0×3 驱动编写

0×4 Client编写

0×5 Python Web后端编写

0×6 结论

0×7 后记

0×0 成果展示

没有做日志记录因为时间关系。

我们假设恶意C2C服务器IP是220.181.38.148(百度的某个节点),某个木马的恶意流量特征是?? ?? ?? ??(? 匹配所有)

当我们要屏蔽220.181.38.148IP的时候 在我们后台输入这个IP地址就可以屏蔽了,当然这里只是展示了屏蔽功能,也可以做成给后台报警

这是没有增加规则的:

增加了规则:

数据包同理,这里的?? 代表匹配所有数据包。因此会把所有的数据包全部drop 掉

依然ping的通百度但是无法打开页面(因为数据包都被drop了。

当然你也可以选择记录这些IP和数据去后台进行报警通知.只要木马的流量特征库足够大,

这里说一下 很多DDOS防火墙也是这个道理,通过检测数据包的特征判断是否有DDOS攻击,一些AMP攻击的流量特征是固定的.

GitHub地址:https://github.com/huoji120/NetWatch

0×1 起因

本人是新手第一次接触驱动开发的小白,事情是这样的,一个星期前突发奇想想做一个威胁流量检测系统.于是就有了今天这篇文章。

0×2 准备的东西

做过防火墙的同学应该熟悉在windows下普遍使用WFP或者NDIS这两种驱动框架,这两种框架各有各的优点,我自己总结为:

NDIS够底层,能拦截所有的数据包和协议,而且兼容性好,覆盖系统全面.但是NDIS因为太底层,很多功能无法实现.而且很多功能实现的方法不是很友好

WFP够方便,Filte Engine很容易就能实现一个防火墙,简单快捷.而且可以很方便的得到发包进程的详细信息.但是不是很底层,依赖于tcpip.sys,如果某些东西自己写一个驱动去发包就无法抓取到.

NDIS防火墙安装会断网.这也是为什么诸如安全狗这类软件会断网的原因

不过考虑到我放弃了WIN2003系统,所以我选择了更加方便的WFP

WFP工作方式如图:

0×3 驱动编写

首先实现一个抓包demo:

R3部分建立pipe管道

enum ReportType
{
	r_income, //进来auth r_output, //出去auth r_stream_income,  //TCP流交互 r_stream_output
}; enum Protocoltype
{
	Pro_ICMP = 1,
	Pro_IGMP = 2,
	Pro_TCP = 6,
	Pro_UDP = 17,
	Pro_RDP = 27,
	Pro_UNKNOWN
}; struct Networkreport {
	ReportType type;
	Protocoltype Protocol;
	DWORD IPaddr;
	DWORD BuffDataLen; char* BuffData;
}; std::string GetSigHex(char* data, int len) { char buf[0xFFFF] = { 0 }; for (int i = 0; i < len; i++)
	{ char test[8] = { 0 }; if (i == len - 1)
		{
			sprintf_s(test, "%02X", (BYTE)data[i]);
			strcat_s(buf, test);
		} else {
			sprintf_s(test, "%02X ", (BYTE)data[i]);
			strcat_s(buf, test);
		}
	} return std::string(buf);
} int main() {
	HANDLE hPipe = CreateNamedPipe(
		TEXT("\\\\.\\Pipe\\EzFireWall"),
		PIPE_ACCESS_DUPLEX | FILE_FLAG_OVERLAPPED,
		PIPE_TYPE_MESSAGE | PIPE_READMODE_MESSAGE | PIPE_WAIT,
		PIPE_UNLIMITED_INSTANCES, 0, 0,
		NMPWAIT_WAIT_FOREVER, NULL); if (INVALID_HANDLE_VALUE == hPipe) return false;
    std::cout << "创建管道完毕,监听程序...\n"; const int size = 1024 * 10; char buf[size];
	DWORD rlen = 0; while (true)
	{ if (ConnectNamedPipe(hPipe, NULL) != NULL)
		{ if (ReadFile(hPipe, buf, size, &rlen, NULL) == FALSE) continue; else { //接收信息 Networkreport* buffer_tmp = (Networkreport*)&buf;
				SIZE_T buffer_len = sizeof(Networkreport) + buffer_tmp->BuffDataLen;
				Networkreport* buffer = (Networkreport*)malloc(buffer_len); memcpy(buffer, buffer_tmp, buffer_len); char* data = (char*)malloc(buffer->BuffDataLen);
				BYTE* tmp = (BYTE*)buffer + sizeof(Networkreport); memcpy(data, tmp, buffer->BuffDataLen);
				DWORD RemoteIP = buffer->IPaddr; printf("远程IP:%u.%u.%u.%u 协议类型: %d 数据类型: %d 长度: %d \n", (RemoteIP >> 24) & 0xFF, (RemoteIP >> 16) & 0xFF, (RemoteIP >> 8) & 0xFF, RemoteIP & 0xFF, buffer->Protocol, buffer->type, buffer->BuffDataLen); if (buffer->type == r_stream_income || buffer->type == r_stream_output)
				{ printf("数据: %s \n", GetSigHex(data,buffer->BuffDataLen).c_str());
				} free(data); free(buffer);
			}
		}

	} std::cout << "出现错误 \n";
	system("pause"); return 0;
}

在驱动entry部分连接pipe管道:

HANDLE	g_hClient;

IO_STATUS_BLOCK g_ioStatusBlock;

KEVENT	g_event; VOID ReportToR3(Networkreport* m_parameter,int lent) { if (!NT_SUCCESS(ZwWriteFile(g_hClient, NULL, NULL, NULL, &g_ioStatusBlock, (void*)m_parameter, lent, NULL, NULL)))

DPRINT("[DebugMessage] Error Cannot Wirte Pipe! \n"),

g_hClient = 0;

} 

        RtlInitUnicodeString(&uniName, L"\\DosDevices\\Pipe\\EzFireWall");
	InitializeObjectAttributes(&objAttr, &uniName,OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE,NULL, NULL);
	Status = ZwCreateFile(&g_hClient,
		GENERIC_READ | GENERIC_WRITE,
		&objAttr, &g_ioStatusBlock, NULL,
		FILE_ATTRIBUTE_NORMAL, 0,
		FILE_OPEN,
		FILE_SYNCHRONOUS_IO_NONALERT, NULL, 0); if (!NT_SUCCESS(Status) || !g_hClient)
	{
		DPRINT("[DebugMessage] Cannot pipe Fail! 0x%08X \n", Status); return Status;
	}
	DPRINT("[DebugMessage] Connect pipe Success!\n");
	KeInitializeEvent(&g_event, SynchronizationEvent, TRUE);

然后WFP模板部分不单独发了,没什么好说的,重点说一下我们要挂钩的几个地方:

FWPM_LAYER_ALE_AUTH_CONNECT_V4、FWPM_LAYER_ALE_AUTH_RECV_ACCEPT_V4 分别对应链接认证阶段阶段,区别是一个是out一个是income

FWPM_LAYER_STREAM_V4 抓取数据流,用于流量信息监测

 if (IsEqualGUID(layerKey, &FWPM_LAYER_ALE_AUTH_CONNECT_V4))
	{
		DPRINT("[DebugMessage] 挂载 FWPM_LAYER_ALE_AUTH_CONNECT_V4! \n");
		sCallout.classifyFn = SFALEConnectClassify; //我们的回调 sCallout.notifyFn = SFALEConnectNotify;
	} else if (IsEqualGUID(layerKey, &FWPM_LAYER_ALE_AUTH_RECV_ACCEPT_V4))
	{
		DPRINT("[DebugMessage] 挂载 FWPM_LAYER_ALE_AUTH_RECV_ACCEPT_V4! \n");
		sCallout.classifyFn = SFALERecvAcceptClassify; //我们的回调 sCallout.notifyFn = SFALERecvAcceptNotify;
	} else if (IsEqualGUID(layerKey, &FWPM_LAYER_STREAM_V4))
	{
		DPRINT("[DebugMessage] 挂载 FWPM_LAYER_STREAM_V4! \n");
		sCallout.classifyFn = SFALERecvDataClassify; //我们的回调 sCallout.notifyFn = SFALERecvDataNotify;
	}
	Status = FwpsCalloutRegister0(DeviceObject,
		&sCallout,
		calloutId); 

其中 值得一提的是FWPM_LAYER_ALE_CONNECT_REDIRECT_V4,可以改变连接的地址,实现偷梁换柱功能.非常适合拿去干坏事.不过不在本次的讨论范围内

在SFALEConnectClassify和SFALERecvAcceptClassify回调中,负责屏蔽黑名单IP,这部分稍微抄了一下前辈的代码:

//本地连别人的IP的连接 void SFALEConnectClassify(
	__in const FWPS_INCOMING_VALUES0* inFixedValues,
	__in const FWPS_INCOMING_METADATA_VALUES0* inMetaValues,
	__inout void* layerData,
	__in const FWPS_FILTER0* filter,
	__in UINT64 flowContext,
	__in FWPS_CLASSIFY_OUT0* classifyOut
)
{ if (classifyOut->rights & FWPS_RIGHT_ACTION_WRITE)
	{
		FWP_ACTION_TYPE Action = (CanIFilterThisRequest(inFixedValues,inMetaValues, layerData,flowContext) ? FWP_ACTION_BLOCK : FWP_ACTION_PERMIT);

		PerformBasicAction(inFixedValues,
			inMetaValues,
			layerData,
			filter,
			flowContext,
			classifyOut,
			Action);
	}
} //接收远程IP的连接 void SFALERecvAcceptClassify(
	__in const FWPS_INCOMING_VALUES0* inFixedValues,
	__in const FWPS_INCOMING_METADATA_VALUES0* inMetaValues,
	__inout void* layerData,
	__in const FWPS_FILTER0* filter,
	__in UINT64 flowContext,
	__inout FWPS_CLASSIFY_OUT0* classifyOut
)
{ if (classifyOut->rights & FWPS_RIGHT_ACTION_WRITE)
	{
		FWP_ACTION_TYPE Action = (CanIFilterThisRequest(inFixedValues,inMetaValues, layerData, flowContext) ? FWP_ACTION_BLOCK : FWP_ACTION_PERMIT);

		PerformBasicAction(inFixedValues,
			inMetaValues,
			layerData,
			filter,
			flowContext,
			classifyOut,
			Action);
	}
} 

FWPM_LAYER_ALE_AUTH_RECV_ACCEPT_V4 这里是我之前代码,有个小bug,至于是什么bug大佬应该一眼看出来了:

void SFALERecvDataClassify(
	__in const FWPS_INCOMING_VALUES0* inFixedValues,
	__in const FWPS_INCOMING_METADATA_VALUES0* inMetaValues,
	__inout void* layerData,//这玩意是数据指针 __in const FWPS_FILTER0* filter,
	__in UINT64 flowContext,
	__inout FWPS_CLASSIFY_OUT0* classifyOut
)
{ if (KeGetCurrentIrql() > DISPATCH_LEVEL)
	{
		DPRINT("[DebugMessage] Erro in PassIve: %d \n", KeGetCurrentIrql()); return FALSE;
	}
	
	FWPS_STREAM_CALLOUT_IO_PACKET* streamPacket = (FWPS_STREAM_CALLOUT_IO_PACKET*)layerData;
	DWORD RemoteIP = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_REMOTE_ADDRESS].value.uint32;
	DWORD LocalIP = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_LOCAL_ADDRESS].value.uint32; if (streamPacket && streamPacket->streamData != NULL && streamPacket->streamData->dataLength != 0  && RemoteIP != LocalIP && g_StartFilter)
	{
		SIZE_T streamLength = streamPacket->streamData->dataLength;
		BOOLEAN inbound = (BOOLEAN)((streamPacket->streamData->flags & FWPS_STREAM_FLAG_RECEIVE) == FWPS_STREAM_FLAG_RECEIVE);
		BYTE* stream = ExAllocatePoolWithTag(NonPagedPool, streamLength, TAG_NAME_NOTIFY);
		SIZE_T byte_copied = 0; if (stream)
		{
			RtlZeroMemory(stream, streamLength);
			FwpsCopyStreamDataToBuffer(
				streamPacket->streamData,
				stream,
				streamLength,
				&byte_copied);
			NT_ASSERT(bytesCopied == streamLength);
			DPRINT("[DebugMessage] inbound: %d streamBuffer: %s ", inbound, stream);
			SIZE_T buffsize = streamLength + sizeof(Networkreport);
			inbound = (BOOLEAN)((streamPacket->streamData->flags & FWPS_STREAM_FLAG_RECEIVE) == FWPS_STREAM_FLAG_RECEIVE);
			Networkreport* report = (Networkreport*)ExAllocatePoolWithTag(NonPagedPool, buffsize, TAG_NAME_REPORT); if (report)
			{
				RtlZeroMemory(report, buffsize);
				report->type = inbound ? r_stream_income : r_stream_output;
				report->Protocol = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_PROTOCOL].value.uint16;
				report->IPaddr = RemoteIP;
				report->BuffDataLen = streamLength; //定位到buffer的sizeof(Networkreport)位置 BYTE* tmp = (BYTE*)report + sizeof(Networkreport);
				memcpy(tmp, stream, streamLength);
				ReportToR3(report, buffsize);
				ExFreePool(report);
			}

			ExFreePool(stream);
		}
	}
	classifyOut->actionType = FWP_ACTION_CONTINUE;

} 

结果:

好的可以抓包了就可以开始进行下一步过滤了:

首先是提交过滤的程序,这里偷懒了:

//添加数据到 到黑名单数据列表 VOID AddBlackListData(char* data,DWORD blockip,SIZE_T len) { if (blockip == 0x0)
	{
		DPRINT("[DebugMessage] BlackData :%s len: %d \n", data, len);
		PBLACK_LIST_DATA newLink = (PBLACK_LIST_DATA)ExAllocatePoolWithTag(PagedPool, sizeof(BLACK_LIST_DATA), TAG_NAME_BLACKLISTDATA); if (newLink == NULL)
			ASSERT(false); //RtlZeroMemory(newLink, sizeof(BLACK_LIST_DATA)); memcpy(newLink->data, data, len);
		DPRINT("[DebugMessage] BlackData :%s \n", newLink->data);
		InsertTailList(&gBackListDataTable.link, (PLIST_ENTRY)newLink);
	} else { for (int i = 0; i < MAX_DATA_SIZE; i++)
		 { if (gBackListIPTable[i] == 0)
			{
				gBackListIPTable[i] = blockip;
				DPRINT("[DebugMessage] BlackIP :0x%08X \n", gBackListIPTable[i]); break;
			}
		 }
	}
} 

控制码:

NTSTATUS DriverControlHandler(
	IN PDEVICE_OBJECT DeviceObject,
	IN PIRP Irp)

{
	PIO_STACK_LOCATION  irpSp;// Pointer to current stack location NTSTATUS            ntStatus = STATUS_UNSUCCESSFUL;// Assume success ULONG               inBufLength; // Input buffer length ULONG               outBufLength; // Output buffer length PUCHAR				inBuf, outBuf;
	UNREFERENCED_PARAMETER(DeviceObject);
	irpSp = IoGetCurrentIrpStackLocation(Irp);

	inBufLength = irpSp->Parameters.DeviceIoControl.InputBufferLength;
	outBufLength = irpSp->Parameters.DeviceIoControl.OutputBufferLength;

	inBuf = (PUCHAR)Irp->AssociatedIrp.SystemBuffer;
	outBuf = (PUCHAR)Irp->AssociatedIrp.SystemBuffer;
	DPRINT("[DebugMessage] DriverControlHandler: inBufLength: %d outBufLength: %d \n", inBufLength, outBufLength); if (!inBufLength || !outBufLength)
	{
		ntStatus = STATUS_INVALID_PARAMETER; goto End;
	} switch (irpSp->Parameters.DeviceIoControl.IoControlCode)
	{ case IOCTL_ADD_BLACKLIST_DATA:
	{
		DPRINT("[DebugMessage] Add BlackList Data! \n");
		PPUSH_DATA push_data = (PPUSH_DATA)ExAllocatePoolWithTag(PagedPool, sizeof(PUSH_DATA), "tM2d"); if (push_data)
		{
			RtlZeroMemory(push_data, sizeof(PUSH_DATA));
			memcpy(push_data, inBuf, inBufLength);
			AddBlackListData(push_data->data, push_data->BlockIP, push_data->dataLen);
			DPRINT("[DebugMessage] BlockIP: 0x%08X data: %s len: %d \n",  push_data->BlockIP, push_data->data, push_data->dataLen);
			g_StartFilter = TRUE;
			ntStatus = STATUS_SUCCESS;
			ExFreePoolWithTag(push_data, "tM2d");
		} else {
			ntStatus = STATUS_INVALID_PARAMETER;
		} break;
	} default: break;
	}

End:
	Irp->IoStatus.Status = ntStatus;
	Irp->IoStatus.Information = 0;

	IoCompleteRequest(Irp, IO_NO_INCREMENT); return ntStatus;
} 

黑名单IP匹配:

//黑名单IP匹配 BOOLEAN QueryBlackIP(DWORD ipaddr)
{
	KIRQL   Irql = ExAcquireSpinLockExclusive(&gBlockIpLock);
	BOOLEAN result = FALSE; for (int i = 0; i < MAX_DATA_SIZE; i++)
	{ if (gBackListIPTable[i] == ipaddr)
		{
			result = TRUE; break;
		}
	}
	ExReleaseSpinLockExclusive(&gBlockIpLock, Irql); return result;
} 

之后在SFALEConnectClassify和SFALERecvAcceptClassify的地方进行验证:

BOOLEAN CanIFilterThisRequest(
	__in const FWPS_INCOMING_VALUES0* inFixedValues,
	__in const FWPS_INCOMING_METADATA_VALUES0* inMetaValues,
	__in void* packet,
	_In_ UINT64 flowContext
)
{
	UNREFERENCED_PARAMETER(inMetaValues); if (KeGetCurrentIrql() > DISPATCH_LEVEL)
	{
		DPRINT("[DebugMessage] Erro in PassIve: %d \n", KeGetCurrentIrql()); return FALSE;
	} if (g_StartFilter)
	{
		DWORD LocalIp = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_LOCAL_ADDRESS].value.uint32;
		DWORD RemoteIP = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_REMOTE_ADDRESS].value.uint32; if (LocalIp != RemoteIP)
		{ if (QueryBlackIP(RemoteIP))
			{
				DPRINT("[DebugMessage] Found BlackList IP! \n"); return TRUE;
			}
		}

	}

	//这边可以阻止黑名单IP进入.
	/*
	char* ProtocolName = ProtocolIdToName(inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_PROTOCOL].value.uint16);
	DWORD LocalIp = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_LOCAL_ADDRESS].value.uint32;
	DWORD RemoteIP = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_REMOTE_ADDRESS].value.uint32;
	DPRINT("[DebugMessage] Out: ProtocolName: %s Local: %u.%u.%u.%u:%d Remote:%u.%u.%u.%u:%d Protocol: %s \n",
		(LocalIp >> 24) & 0xFF, (LocalIp >> 16) & 0xFF, (LocalIp >> 8) & 0xFF, LocalIp & 0xFF, inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_LOCAL_PORT].value.uint16,
		(RemoteIP >> 24) & 0xFF, (RemoteIP >> 16) & 0xFF, (RemoteIP >> 8) & 0xFF, RemoteIP & 0xFF, inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_REMOTE_PORT].value.uint16,
		ProtocolName);
	ExFreePool(ProtocolName);
	*/ return FALSE;
} 

CanIFilterThisRequest 返回TRUE后 在SFALEConnectClassify和SFALERecvAcceptClassify中阻止链接:

FWP_ACTION_TYPE Action = (CanIFilterThisRequest(inFixedValues,inMetaValues, layerData,flowContext) ? FWP_ACTION_BLOCK : FWP_ACTION_PERMIT);

PerformBasicAction(inFixedValues,inMetaValues,layerData,filter,flowContext,classifyOut,Action); 

然后是数据包过滤:

//黑名单数据匹配
BOOLEAN QueryBlackListData(char* data, SIZE_T len)
{
	KIRQL   Irql = ExAcquireSpinLockExclusive(&gBlockDataLock);
	BOOLEAN result = FALSE;
	PLIST_ENTRY	head = &gBackListDataTable.link;
	PBLACK_LIST_DATA next = (PBLACK_LIST_DATA)gBackListDataTable.link.Blink; while (head != (PLIST_ENTRY)next)
	{ if(FindPattern(next->data, data, len))
		{
			result = TRUE; break;
		}
	}
	ExReleaseSpinLockExclusive(&gBlockDataLock, Irql); return result;
} 
void SFALERecvDataClassify(
	__in const FWPS_INCOMING_VALUES0* inFixedValues,
	__in const FWPS_INCOMING_METADATA_VALUES0* inMetaValues,
	__inout void* layerData,//这玩意是数据指针 __in const FWPS_FILTER0* filter,
	__in UINT64 flowContext,
	__inout FWPS_CLASSIFY_OUT0* classifyOut
)
{ if (KeGetCurrentIrql() > DISPATCH_LEVEL)
	{
		DPRINT("[DebugMessage] Erro in PassIve: %d \n", KeGetCurrentIrql()); return FALSE;
	}
	
	FWPS_STREAM_CALLOUT_IO_PACKET* streamPacket = (FWPS_STREAM_CALLOUT_IO_PACKET*)layerData;
	DWORD RemoteIP = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_REMOTE_ADDRESS].value.uint32;
	DWORD LocalIP = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_LOCAL_ADDRESS].value.uint32; if (streamPacket && streamPacket->streamData != NULL && streamPacket->streamData->dataLength != 0  && RemoteIP != LocalIP && g_StartFilter)
	{
		SIZE_T streamLength = streamPacket->streamData->dataLength;
		BOOLEAN inbound = (BOOLEAN)((streamPacket->streamData->flags & FWPS_STREAM_FLAG_RECEIVE) == FWPS_STREAM_FLAG_RECEIVE);
		BYTE* stream = ExAllocatePoolWithTag(NonPagedPool, streamLength, TAG_NAME_NOTIFY);
		SIZE_T byte_copied = 0; if (stream)
		{
			RtlZeroMemory(stream, streamLength);
			FwpsCopyStreamDataToBuffer(
				streamPacket->streamData,
				stream,
				streamLength,
				&byte_copied);
			NT_ASSERT(bytesCopied == streamLength); if (QueryBlackListData(stream, streamLength))
			{
				DPRINT("[DebugMessage] Found BlackList Data! \n");
				classifyOut->actionType = FWP_ACTION_BLOCK;
				ExFreePool(stream); return;
			} /*
			//抓包与截包,如果你发现这里蓝屏请自己加锁,但是会极大的影响系统运行效率(网络吞吐量太大,pipe管道有20MS的延迟,而且还是单线程.伤不起
			DPRINT("[DebugMessage] inbound: %d streamBuffer: %s ", inbound, stream);
			SIZE_T buffsize = streamLength + sizeof(Networkreport);
			inbound = (BOOLEAN)((streamPacket->streamData->flags & FWPS_STREAM_FLAG_RECEIVE) == FWPS_STREAM_FLAG_RECEIVE);
			Networkreport* report = (Networkreport*)ExAllocatePoolWithTag(NonPagedPool, buffsize, TAG_NAME_REPORT);
			if (report)
			{
				RtlZeroMemory(report, buffsize);
				report->type = inbound ? r_stream_income : r_stream_output;
				report->Protocol = inFixedValues->incomingValue[FWPS_FIELD_ALE_AUTH_CONNECT_V4_IP_PROTOCOL].value.uint16;
				report->IPaddr = RemoteIP;
				report->BuffDataLen = streamLength;
				//定位到buffer的sizeof(Networkreport)位置
				BYTE* tmp = (BYTE*)report + sizeof(Networkreport);
				memcpy(tmp, stream, streamLength);
				ReportToR3(report, buffsize);
				ExFreePool(report);
			}*/ ExFreePool(stream);
		}
	}
	classifyOut->actionType = FWP_ACTION_CONTINUE;

} 

匹配成功后 classifyOut->actionType = FWP_ACTION_BLOCK; 则丢掉这个数据包

匹配函数FindPattern

BOOL FindPattern(char* pattern,void* data,SIZE_T data_len) { const char* pat = pattern;
	DWORD firstMatch = 0;
	DWORD End = (DWORD)data + data_len; for (DWORD pCur = (DWORD)data; pCur < End; pCur++)
	{ if (!*pat) return firstMatch; if (*(PBYTE)pat == '\?' || *(BYTE*)pCur == getByte(pat))
		{ if (!firstMatch)
				firstMatch = pCur; if (!pat[2]) return firstMatch; if (*(PWORD)pat == '\?\?' || *(PBYTE)pat != '\?')
				pat += 3; else pat += 2;    //one ? } else {
			pat = pattern;
			firstMatch = 0;
		}
	} return firstMatch != NULL;
} 

至此.驱动部分编写完毕.

0×4 Client编写

这里有个失误,不应该使用Client作为TCP服务端,应该是Python来做服务端,无所谓了.先能用再说:

#define IOCTL_ADD_BLACKLIST_DATA \
    CTL_CODE(FILE_DEVICE_UNKNOWN, 0x1337, METHOD_IN_DIRECT, FILE_ANY_ACCESS) typedef NTSTATUS(WINAPI* NtOpenFileEx)(
	_Out_ PHANDLE            FileHandle,
	_In_  ACCESS_MASK        DesiredAccess,
	_In_  POBJECT_ATTRIBUTES ObjectAttributes,
	_Out_ PIO_STATUS_BLOCK   IoStatusBlock,
	_In_  ULONG              ShareAccess,
	_In_  ULONG              OpenOptions
	); struct Networkstruct { int data_len;
	DWORD IP; char data[255];
}; typedef struct _PUSH_DATA {
	DWORD BlockIP;
	SIZE_T dataLen; char data[255];
}PUSH_DATA, * PPUSH_DATA;
NtOpenFileEx fpNtOpenFile = (NtOpenFileEx)GetProcAddress(GetModuleHandleA("ntdll"), "NtOpenFile");
HANDLE deviceHandle_; bool is_loaded() { if (!deviceHandle_ || deviceHandle_ == INVALID_HANDLE_VALUE) { //deviceHandle_ = CreateFile(L"C:\\windows\\TEMP\\cpuz147\\cpuz145_x64.sys", FILE_ALL_ACCESS, FILE_SHARE_READ, nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr); IO_STATUS_BLOCK io_status;
		NTSTATUS status;

		UNICODE_STRING    device_name = UNICODE_STRING{ sizeof(DEVICE_NAME) - sizeof(WCHAR), sizeof(DEVICE_NAME), (PWSTR)DEVICE_NAME };
		OBJECT_ATTRIBUTES obj_attr = OBJECT_ATTRIBUTES{ sizeof(OBJECT_ATTRIBUTES), nullptr, &device_name, 0, nullptr, nullptr };

		status = fpNtOpenFile(
			&deviceHandle_, GENERIC_READ | GENERIC_WRITE | SYNCHRONIZE,
			&obj_attr, &io_status, 0, OPEN_EXISTING); if (!NT_SUCCESS(status)) {
			ULONG i = 10; do {
				status = fpNtOpenFile(
					&deviceHandle_, GENERIC_READ | GENERIC_WRITE | SYNCHRONIZE,
					&obj_attr, &io_status, 0, OPEN_EXISTING);
				Sleep(250);
			} while (!NT_SUCCESS(status) && i--);
		}
	} return deviceHandle_ && deviceHandle_ != INVALID_HANDLE_VALUE;
} int main() { if (!is_loaded())
	{ printf("加载驱动失败! %d \n", GetLastError());
		system("pause"); return 0;
	}
	WSADATA wsaData;
	SOCKET ClientSocket; int port = 5099; if (WSAStartup(MAKEWORD(2, 2), &wsaData) != 0)
	{ return false;
	}

	SOCKET sockSrv = socket(AF_INET, SOCK_STREAM, 0);

	SOCKADDR_IN addrSrv;
	addrSrv.sin_family = AF_INET;
	addrSrv.sin_port = htons(port); //1024以上的端口号   addrSrv.sin_addr.S_un.S_addr = htonl(INADDR_ANY); int retVal = bind(sockSrv, (LPSOCKADDR)&addrSrv, sizeof(SOCKADDR_IN)); if (retVal == SOCKET_ERROR) { return false;
	} if (listen(sockSrv, 10) == SOCKET_ERROR) { return false;
	}

	SOCKADDR_IN addrClient; int len = sizeof(SOCKADDR); static bool first = false;
	ClientSocket = accept(sockSrv, (SOCKADDR*)&addrClient, &len); if (ClientSocket == SOCKET_ERROR) { return false;
	} while (true)
	{ char recvBuf[255]; memset(recvBuf, 0, sizeof(recvBuf)); if (recv(ClientSocket, recvBuf, sizeof(recvBuf), 0) == 0 || ClientSocket == INVALID_SOCKET)
		{
			first = false;
			closesocket(ClientSocket);
			ClientSocket = accept(sockSrv, (SOCKADDR*)&addrClient, &len); continue;
		}
		Networkstruct* buffer = (Networkstruct*)recvBuf; //1说明是ip 2说明是data char output;
		DWORD	returnLen, read;
		PUSH_DATA data = { 0 };
		data.BlockIP = buffer->IP;
		data.dataLen = buffer->data_len; printf("buffer->data %s \n", buffer->data); memcpy(data.data, buffer->data,buffer->data_len); printf("buffer len: %d data: %s IP: 0x%08X\n", data.dataLen, data.data, data.BlockIP); if (!DeviceIoControl(deviceHandle_,
			IOCTL_ADD_BLACKLIST_DATA,
			(LPVOID)&data, sizeof(PUSH_DATA),
			&output, sizeof(char),
			&returnLen, NULL))
		{ printf("DeviceIoControl错误: %d\n", GetLastError());
		} else { printf("提交规则成功 \n");
		}
		closesocket(ClientSocket);
		ClientSocket = accept(sockSrv, (SOCKADDR*)&addrClient, &len);
	}
	closesocket(sockSrv);
	WSACleanup();


	system("pause"); return 0;
} 

0×5 Python web后台编写

非常简单的代码,基于Flask和Jquery与semanticUI

from flask import Flask, request from flask import render_template from binascii import hexlify from socket import inet_aton, socket, AF_INET, SOCK_STREAM import ctypes import json import struct import sys
app = Flask(__name__)
ip_blacklist = [{'data': '192.168.1.1', 'text': '测试路由器地址(此规则不会生效)'}]
data_blacklist = [{'data': '?? ?? ?? ??', 'text': '拦截全部流量(此规则不会生效)'}]

HOST = 'localhost' PORT = 5099 BUFSIZ = 255 ADDR = (HOST, PORT) def push_backlist_data(data, data_len, block_ip, push_type):     if push_type == 1:
        data = "huoji"         data_len = len(data)
    c = socket(AF_INET, SOCK_STREAM)
    c.connect(ADDR)
    packet = struct.pack("IL255s",
                         data_len,
                         int(block_ip),
                         data.encode('gbk'),
                         )
    c.send(packet)
    c.close() def Ip2Int(ipaddr):     int_ip = struct.unpack('!I', inet_aton(ipaddr))[0]
    print('IP:' + str(int_ip))
    return int_ip @app.route('/') def index():     context = ip_blacklist
    context_type = {
        'table_type1': "IP地址",
        'table_type2': "备注"     }
    return render_template('index.html', main=context, type=context_type) @app.route('/api', methods=["POST", "GET"]) def api():     if request.method == 'POST':
        data = request.form.get("data")
        page = request.form.get("page")
        push = request.form.get("push")
        push_data = request.form.get("push_data")
        if data:
            # push_backlist_data(data, len(data))             return json.dumps({"status": "success"})
        if page:
            json_return = {"status": "Error"}
            if int(page) == 1:
                json_return = {
                    "status": "success",
                    "page": "ip_list",
                    "table_1": "IP地址",
                    "table_2": "备注",
                    "data": ip_blacklist
                }
            if int(page) == 2:
                json_return = {
                    "status": "success",
                    "page": "data_list",
                    "table_1": "特征码",
                    "table_2": "备注",
                    "data": data_blacklist
                }
            return json.dumps(json_return)
        if push and push_data:
            json_return = {"status": "Error"}
            processdata = push_data.split("@")
            if int(push) == 1:
                ip_blacklist.append({
                    "data": processdata[0],
                    "text": processdata[1]
                })
            else:
                data_blacklist.append({
                    "data": processdata[0],
                    "text": processdata[1]
                })
            blockip = 0             if int(push) == 1:
                blockip = Ip2Int(processdata[0])
            print("type " + push + " blockip: " + str(blockip))
            push_backlist_data(
                processdata[0],
                len(processdata[0]),
                blockip,
                int(push)
            )
            return json.dumps(json_return)
    return "API" if __name__ == '__main__':
    app.run(debug=True) 

0×6 结论

在前人无数的踩坑文章下诞生的没有的东西

0×7 后记

当今的安全企业很多都是在蹭政策(AkA 等保测评)去卖自家的产品赚钱,但自家的产品多半是从其他地方购买的东西或者是直接从github下载改造的东西.而且安全这个行业处于一个尴尬的地位,高压政策让进来的门槛变高,人员缺少,很多人觉得搞安全 = 搞黑客,去报培训班”培训” ,加上安全中的渗透这一块入门门槛和其他编程语言相比和java差不多,而渗透的水平只在于是否花更多时间积累更多经验.这些因素导致整个安全行业水分很大.有搞安全的公司领导根本不懂安全的、有安全公司直接拿开源产品改编然后去卖给甲方的.有整个公司就一个会搞安全的其他都是蹭饭的.这个时代的人们很浮躁,已经没有多少人可以像以前的人们一样能静下心来研究技术了.而是乐于给自己打上标签然后止步于这些自己立下的标签之下.

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