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使用Lua脚本为wireshark编写自定义通信协议解析器插件

网络通信/流媒体 弦苦 3004次浏览 0个评论

在网络通信应用中,我们往往需要自定义应用层通信协议,例如基于UDPReal-Time Transport Protocol以及基于TCPRTP over HTTP。鉴于RTP协议的广泛性,wireshark(ethereal)内置了对RTP协议的支持,调试解析非常方便。RTP over HTTP作为一种扩展的RTP协议,尚未得到wireshark的支持。在《RTP Payload Format for Transport of MPEG-4 Elementary Streams over http》中,使用wireshark只能抓获到原始的TCP数据包,需要我们自己解析蕴含其中的RTP报文,剥离RTP over HTTP 16字节的报文头,然后萃取出MP4V_ES码流数据。

怎么样使wireshark支持自定义通信协议的解析呢?基于GPL v2wireshark强大的插件系统支持用户编写自定义协议解析器插件。wireshark使用C语言编写而成,它支持动态链接库形式的插件扩展。除此之外,wireshark内置了Lua脚本引擎,可以使用Lua脚本语言编写dissector插件。打开C:/Program Files/Wireshark/init.lua,确保disable_lua = false以开启wiresharkLua Console

Lua是一种功能强大的、快速的、轻量的、嵌入式的脚本语言,使用Lua编写wireshark dissector插件是非常方便的。本文例解使用Lua编写ROHRTP over HTTP)协议解析插件。

以下为GET http://219.117.194.183:60151/rtpOverHttp?Url=nphMpeg4/nil-640×480,获取MP4V_ES的一个片段,在没有ROH解析支持时,Packet 294显示为TCP报文。

使用Lua脚本为wireshark编写自定义通信协议解析器插件

关于RTP over HTTP报文的解析,参考《RTP Payload Format for Transport of MPEG-4 Elementary Streams over http》。关于Lua语法,参考Wireshark User’s Guide的《Lua Support in Wireshark》一节。

以下为自定义RTP over HTTP协议解析器插件代码roh.lua

do

    –[[

    Proto.new(name, desc)

        name: displayed in the column of “Protocol” in the packet list

        desc: displayed as the dissection tree root in the packet details

    –]]

    local PROTO_ROH = Proto(“ROH”, “Rtp Over Http”)

 

    –[[

    ProtoField:

        to be used when adding items to the dissection tree

    –]]

    –[[

    (1)Rtp Over Http Header

    –]]

    — rtp over http header flag(1 byte)

    local f_roh_headerflag = ProtoField.uint8(“ROH.HeaderFlag”, “Header Flag”, base.HEX)

    — rtp over http interleaved channel(1 byte)

    local f_roh_interleave = ProtoField.uint8(“ROH.InterleavedChannel”, “Interleaved Channel”, base.DEC)

    — rtp over http packet length(2 bytes)

    local f_roh_packlen = ProtoField.uint16(“ROH.PacketLen”, “Packet Length”, base.DEC)

    –[[

    (2)RTP Over Http

    –]]

    — rtp header(1 byte = V:2+P:1+X:1+CC:4)

    local f_rtp_header = ProtoField.uint8(“ROH.Header”, “Rtp Header”, base.HEX)

    — rtp payloadtype(1 byte = M:1+PT:7)

    local f_rtp_payloadtype = ProtoField.uint8(“ROH.PayloadType”, “Rtp Payload Type”, base.HEX)

    — rtp sequence number(2 bytes)

    local f_rtp_sequence = ProtoField.uint16(“ROH.Sequence”, “Rtp Sequence Number”, base.DEC)

    — rtp timestamp(4 bytes)

    local f_rtp_timestamp = ProtoField.uint32(“ROH.Timestamp”, “Rtp Timestamp”, base.DEC)

    — rtp synchronization source identifier(4 bytes)

    local f_rtp_ssrc = ProtoField.uint32(“ROH.SSRC”, “Rtp SSRC”, base.DEC)

 

    — define the fields table of this dissector(as a protoField array)

    PROTO_ROH.fields = {f_roh_headerflag, f_roh_interleave, f_roh_packlen, f_rtp_header, f_rtp_payloadtype, f_rtp_sequence, f_rtp_timestamp, f_rtp_ssrc}

 

    –[[

    Data Section

    –]]

    local data_dis = Dissector.get(“data”)

 

    –[[

    ROH Dissector Function

    –]]

    local function roh_dissector(buf, pkt, root)

 

        — check buffer length

        local buf_len = buf:len()

        if buf_len < 16

        then

            return false

        end

 

        — check header flag

        if buf(0,2):uint() ~= 0x2400

        then

            return false

        end

 

        –[[

        packet list columns

        –]]

        pkt.cols.protocol = “ROH”

        pkt.cols.info = “Rtp Over Http”

 

        –[[

        dissection tree in packet details

        –]]

        — tree root

        local t = root:add(PROTO_ROH, buf(0,16))

        — child items

        — ROH Header

        t:add(f_roh_headerflag, buf(0,1))

        t:add(f_roh_interleave, buf(1,1))

        t:add(f_roh_packlen, buf(2,2))

        — ROH

        — (1)header

        t:add(f_rtp_header, buf(4,1))

        — (2)payloadtype

        t:add(f_rtp_payloadtype, buf(5,1))

        — (3)sequence number

        t:add(f_rtp_sequence, buf(6,2))

        — (4)timestamp

        t:add(f_rtp_timestamp, buf(8,4))

        — (5)ssrc

        t:add(f_rtp_ssrc, buf(12,4))

 

        if buf_len > 16

        then

            local data_len = buf:len()-16;

 

            local d = root:add(buf(16, data_len), “Data”)

            d:append_text(“(“..data_len..” bytes)”)

            d:add(buf(16, data_len), “Data: “)

            d:add(buf(16,0), “[Length: “..data_len..”]”)

 

            local start_code = buf(16,4):uint()

            if start_code == 0x000001b0

            then

                d:add(buf(16,0), “[Stream Info: VOS]”)

            elseif start_code == 0x000001b6

            then

                local frame_flag = buf(20,1):uint()

                if frame_flag<2^6

                then

                    d:add(buf(16,0), “[Stream Info: I-Frame]”)

                elseif frame_flag<2^7

                then

                    d:add(buf(16,0), “[Stream Info: P-Frame]”)

                else

                    d:add(buf(16,0), “[Stream Info: B-Frame]”)

                end

            end

        end

 

        return true

    end

 

    –[[

    Dissect Process

    –]]

    function PROTO_ROH.dissector(buf, pkt, root)

        if roh_dissector(buf, pkt, root)

        then

        — valid ROH diagram

        else

            data_dis:call(buf, pkt, root)

        end

    end

 

    –[[

    Specify Protocol Port

    –]]

    local tcp_encap_table = DissectorTable.get(“tcp.port”)

    tcp_encap_table:add(60151, PROTO_ROH)

end

通过菜单“ToolsàLuaàEvaluate”打开Lua调试窗口,将以上代码输入Evaluate窗口,然后点击“Evaluate”按钮,若无错误提示,且末尾提示“–[[  Evaluated –]]”,则说明代码无语法错误。这时,通过菜单“HelpàSupported Protocols”可以发现,wireshark已经添加了ROH协议调试支持,在Display Filter中输入“roh”,则可以看到具体解析结果。

将以上代码保存为C:/Program Files/Wireshark/roh.lua。在C:/Program Files/Wireshark/init.lua末尾添加代码行:dofile(“roh.lua”)。这样在以后启动wireshark时,自动加载roh.lua

增加roh.Lua插件扩展后,Packet 294将解析为RTP over HTTP报文。最后的Data部分为剥离16字节报文头后的码流。

使用Lua脚本为wireshark编写自定义通信协议解析器插件

由于尚未掌握Lua的位域(bitfield)操作,因此上面对于RTP的解析不完整,第一个字节(V:2+P:1+X:1+CC:4)和第二字节(M:1+PT:7)的相关位域没有解析出来。

既然wireshark内置了对RTP协议的支持,我们在解析完RTP over HTTP的头4个字节后,可以将余下的报文交由RTP协议解析器解析。以下为调用内置RTP协议解析器代码roh_rtp.lua

do

    –[[

    Proto.new(name, desc)

        name: displayed in the column of “Protocol” in the packet list

        desc: displayed as the dissection tree root in the packet details

    –]]

    local PROTO_ROH = Proto(“ROH”, “Rtp Over Http”)

    local PROTO_PANASONIC_PTZ = Proto(“PANASONIC_PTZ”, “Panasonic PTZ Protocol”)

 

    –[[

    ProtoField:

        to be used when adding items to the dissection tree

    –]]

    –[[

    1.ROH ProtoField

    –]]

    –rtp over http header flag(1 byte)

    local f_roh_headerflag = ProtoField.uint8(“ROH.HeaderFlag”, “Header Flag”, base.HEX)

    –rtp over http interleaved channel(1 byte)

    local f_roh_interleave = ProtoField.uint8(“ROH.InterleavedChannel”, “Interleaved Channel”, base.DEC)

    –rtp over http packet length(2 bytes)

    local f_roh_packlen = ProtoField.uint16(“ROH.PacketLen”, “Packet Length”, base.DEC)

    –define the fields table of this dissector(as a protoField array)

    PROTO_ROH.fields = {f_roh_headerflag, f_roh_interleave, f_roh_packlen}

 

    –[[

    2.PANASONIC_PTZ ProtoField

    –]]

    — panasonic ptz header flag(32 ascii)

    local f_panasonic_ptz_flag = ProtoField.bytes(“PANASONIC_PTZ”, “Header Flag”)

    — panasonic ptz command(6~17 ascii)

    local f_panasonic_ptz_cmd = ProtoField.bytes(“PANASONIC_PTZ”, “Command”)

    –define the fields table of this dissector(as a protoField array)

    PROTO_PANASONIC_PTZ.fields = {f_panasonic_ptz_flag, f_panasonic_ptz_cmd}

 

    –[[

    Data Section

    –]]

    local data_dis = Dissector.get(“data”)

 

    –[[

    ROH Dissector Function

    –]]

    local function roh_dissector(buf, pkt, root)

        — check buffer length

        local buf_len = buf:len()

        if buf_len < 16

        then

            return false

        end

       

        — check header flag

        if buf(0,2):uint() ~= 0x2400

        then

            return false

        end

 

        –[[

        packet list columns

        –]]

        pkt.cols.protocol = “ROH”

        pkt.cols.info = “Rtp Over Http”

 

        –[[

        dissection tree in packet details

        –]]

        — tree root

        local t = root:add(PROTO_ROH, buf(0,4))

        — child items

        t:add(f_roh_headerflag, buf(0,1))

        t:add(f_roh_interleave, buf(1,1))

        t:add(f_roh_packlen, buf(2,2))

 

        return true

    end

 

    –[[

    PANASONIC_PTZ Dissector Function Helper

    –]]

    local function get_cmd_len(buf)

        local found=0

        for i=0,17 do

            if buf(i,1):uint() == 0x26

            then

                found = i

                break

            end

        end

        return found

    end

 

    –[[

    PANASONIC_PTZ Dissector Function

    –]]

    local function panasonic_ptz_dissector(buf, pkt, root)

 

        — check buffer length

        local buf_len = buf:len()

        if buf_len < 32

        then

            return false

        end

 

        — check header flag

        if buf(0,32):string() ~= “GET /nphControlCamera?Direction=”

        then

            return false

        end

 

        — check direction

        local sub_buf = buf(32, 18):tvb()

        local cmd_len = get_cmd_len(sub_buf)

 

        if cmd_len > 0

        then

            –[[

            packet list columns

            –]]

            pkt.cols.protocol = “PANASONIC_PTZ”

            pkt.cols.info = “Panasonic PTZ Protocol”

 

            –[[

            dissection tree in packet details

            –]]

            — tree root

            local t = root:add(PROTO_PANASONIC_PTZ, buf(0,buf_len))

            — child items

            local flag = t:add(f_panasonic_ptz_flag, buf(0,32))

            flag:add(buf(0,31), “[“..buf(0,31):string()..”]”)

            local cmd = t:add(f_panasonic_ptz_cmd, buf(32,cmd_len))

            cmd:add(buf(32,cmd_len), “[“..buf(32,cmd_len):string()..”]”)

        else

            return false

        end

 

        return true

    end

 

    –[[

    Dissect Process

    –]]

    function PROTO_ROH.dissector(buf, pkt, root)

        if roh_dissector(buf, pkt, root)

        then

            — skip over rtp over http header

            local rtp_buf = buf(4,buf:len()-4):tvb()

            — call internal rtp dissector

            local rtp_dissector = Dissector.get(“rtp”)

            rtp_dissector:call(rtp_buf, pkt, root)

        elseif panasonic_ptz_dissector(buf, pkt, root)

        then

            — valid ptz datagram

        else

            data_dis:call(buf, pkt, root)

        end

    end

 

    –[[

    Specify Protocol Port

    –]]

    local tcp_encap_table = DissectorTable.get(“tcp.port”)

    tcp_encap_table:add(60151, PROTO_ROH)

end

此外,wireshark内置了对MP4V_ES码流解析器,选择菜单“EditàPreferencesàProtocolsàMP4V_ES”,在“MP4V_ES dynamic payload type:”中填写“96”。

将以上代码保存为C:/Program Files/Wireshark/roh_rtp.lua。在C:/Program Files/Wireshark/init.lua末尾添加代码行:dofile(“roh_rtp.lua”),在dofile(“roh.lua”)前添加“”注释,以免端口冲突(在roh.luatcp.port=60151)。保存init.lua后,重启wireshark

自定义应用层协议基于传输层(UDP/TCP),自定义的协议端口号不能与wireshark内置应用层协议冲突。若将ROH协议指定为TCP 80,则需要选择菜单“AnalyzeàEnabled Protocols”勾掉HTTP,这样TCP 80的报文将按照ROH协议解析。

Display Filter中输入“roh”可查看RTP+MP4V_ES解析结果,如下图所示:

使用Lua脚本为wireshark编写自定义通信协议解析器插件

此外,在Display Filter中输入“panasonic_ptz”可查看PTZ控制报文。

 

参考:

Programming in Lua

Lua 5.0 Reference Manual

Small is Beautiful: the design of Lua

Lua Scripting in Wireshark

 

为Wireshark 开发插件

使用lua脚本编写wireshark协议插件

使用lua编写Wireshark的dissector插件

用Lua语言编写Wireshark dissector插件

Lua和Wireshark配合,调试通信程序


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