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-- Copyright (c) 2015-2019, Regents of the University of California.
--
-- This file is part of ndn-tools (Named Data Networking Essential Tools).
-- See AUTHORS.md for complete list of ndn-tools authors and contributors.
--
-- ndn-tools is free software: you can redistribute it and/or modify it under the terms
-- of the GNU General Public License as published by the Free Software Foundation,
-- either version 3 of the License, or (at your option) any later version.
--
-- ndn-tools is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
-- without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
-- PURPOSE. See the GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License along with
-- ndn-tools, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
--
-- @author Qi Zhao <https://www.linkedin.com/pub/qi-zhao/73/835/9a3>
-- @author Seunghyun Yoo <http://relue2718.com/>
-- @author Seungbae Kim <https://sites.google.com/site/sbkimcv/>
-- @author Alexander Afanasyev <http://lasr.cs.ucla.edu/afanasyev/index.html>
-- @author Zipeng Wang
-- @author Qianshan Yu
-- inspect.lua (https://github.com/kikito/inspect.lua) can be used for debugging.
-- See more at http://stackoverflow.com/q/15175859/2150331
-- local inspect = require('inspect')
-- NDN protocol
ndn = Proto("ndn", "Named Data Networking (NDN)")
-- TODO with NDNLPv2 processing:
-- * mark field "unknown" when the field is recognized but the relevant feature is disabled
-- * colorize "unknown field"
-- * for a field that appears out-of-order, display "out-of-order field " in red
-----------------------------------------------------
-----------------------------------------------------
-- Field formatting helpers
-- @return TLV-VALUE portion of a TLV block
function getValue(b)
return b.tvb(b.offset + b.typeLen + b.lengthLen, b.length)
end
function getNonNegativeInteger(b)
if b.length == 1 or b.length == 2 or b.length == 4 or b.length == 8 then
return getValue(b):uint64()
end
return UInt64.max()
end
function getUriFromSha256DigestComponent(b)
local s = ""
if b.type == 1 then
s = "sha256digest="
elseif b.type == 2 then
s = "params-sha256="
else
assert(false)
end
for i = 0, (b.length - 1) do
local byte = b.tvb(b.offset + b.typeLen + b.lengthLen + i, 1)
s = s .. string.format("%02x", byte:uint())
end
return s
end
function getUriFromNameComponent(b)
if b.type == 1 or b.type == 2 then
return getUriFromSha256DigestComponent(b)
end
local s = ""
if b.type ~= 8 then
s = string.format("%d=", b.type)
end
hasNonPeriod = false
for i = 0, (b.length - 1) do
local byte = b.tvb(b.offset + b.typeLen + b.lengthLen + i, 1)
local ch = byte:uint()
hasNonPeriod = hasNonPeriod or ch ~= 0x2E
if (ch >= 0x41 and ch <= 0x5A) or (ch >= 0x61 and ch <= 0x7A) or (ch >= 0x30 and ch <= 0x39) or ch == 0x2D or ch == 0x2E or ch == 0x5F or ch == 0x7E then
s = s .. byte:string()
else
s = s .. string.format("%%%02X", ch)
end
end
if not hasNonPeriod then
s = s .. "..."
end
return s
end
function getUriFromName(b)
if b.elements == nil then
return "/"
end
components = {}
for i, comp in pairs(b.elements) do
table.insert(components, getUriFromNameComponent(comp))
end
return "/" .. table.concat(components, "/")
end
function getUriFromFinalBlockId(b)
if b.elements == nil then
return "/"
end
return getUriFromNameComponent(b.elements[1])
end
function getNackReasonDetail(b)
assert(b.type == 801)
local code = getNonNegativeInteger(b)
if code == UInt64(0) then return "None"
elseif code == UInt64(50) then return "Congestion"
elseif code == UInt64(100) then return "Duplicate"
elseif code == UInt64(150) then return "NoRoute"
else return tostring(code)
end
end
function getCachePolicyDetail(b)
assert(b.type == 821)
local code = getNonNegativeInteger(b)
if code == UInt64(0) then return "None"
elseif code == UInt64(1) then return "NoCache"
else return tostring(code) .. " (unknown)"
end
end
function getNonce(b)
assert(b.type == 10)
if b.length ~= 4 then
return "invalid (should have 4 octets)"
end
return getValue(b):uint()
end
function getHopLimit(b)
assert(b.type == 34)
if b.length ~= 1 then
return "invalid (should have 1 octet)"
end
return getValue(b):uint()
end
function getTrue(block)
return "Yes"
end
local AppPrivateBlock1 = 100
local AppPrivateBlock2 = 800
local AppPrivateBlock3 = 1000
function canIgnoreTlvType(t)
if t < AppPrivateBlock2 or t >= AppPrivateBlock3 then
return false
else
if math.fmod(t, 2) == 1 then
return true
else
return false
end
end
end
function getGenericBlockInfo(block)
local name = ""
-- TODO: Properly format informational message based type value reservations
-- (https://named-data.net/doc/NDN-packet-spec/current/types.html#tlv-type-number-reservations)
if (block.type <= AppPrivateBlock1) then
name = "Unrecognized from the reserved range " .. 0 .. "-" .. AppPrivateBlock1 .. ""
elseif (AppPrivateBlock1 < block.type and block.type < AppPrivateBlock2) then
name = "Unrecognized from the reserved range " .. (AppPrivateBlock1 + 1) .. "-" .. (AppPrivateBlock2 - 1) .. ""
elseif (AppPrivateBlock2 <= block.type and block.type <= AppPrivateBlock3) then
if canIgnoreTlvType(block.type) then
name = "Unknown field (ignored)"
else
name = "Unknown field"
end
else
name = "RESERVED_3"
end
return name .. ", Type: " .. block.type .. ", Length: " .. block.length
end
-----------------------------------------------------
-----------------------------------------------------
local NDN_DICT = {
-- Name and name components
[7] = {name = "Name" , field = ProtoField.string("ndn.name", "Name") , value = getUriFromName},
[1] = {name = "ImplicitSha256DigestComponent" , field = ProtoField.string("ndn.implicit_sha256", "ImplicitSha256DigestComponent"), value = getUriFromNameComponent},
[2] = {name = "ParametersSha256DigestComponent", field = ProtoField.string("ndn.params_sha256", "ParametersSha256DigestComponent"), value = getUriFromNameComponent},
[8] = {name = "GenericNameComponent" , field = ProtoField.string("ndn.namecomponent", "GenericNameComponent") , value = getUriFromNameComponent},
-- Interest and its sub-elements in Packet Format v0.3
[5] = {name = "Interest" , summary = true},
[33] = {name = "CanBePrefix" , field = ProtoField.string("ndn.canbeprefix", "CanBePrefix") , value = getTrue},
[18] = {name = "MustBeFresh" , field = ProtoField.string("ndn.mustbefresh", "MustBeFresh") , value = getTrue},
[30] = {name = "ForwardingHint" , summary = true},
[10] = {name = "Nonce" , field = ProtoField.uint32("ndn.nonce", "Nonce", base.HEX) , value = getNonce},
[12] = {name = "InterestLifetime" , field = ProtoField.uint64("ndn.lifetime", "InterestLifetime", base.DEC) , value = getNonNegativeInteger},
[34] = {name = "HopLimit" , field = ProtoField.uint8("ndn.hoplimit", "HopLimit", base.DEC) , value = getHopLimit},
[36] = {name = "ApplicationParameters" , field = ProtoField.bytes("ndn.app_params", "ApplicationParameters")},
-- Data and its sub-elements in Packet Format v0.3
[6] = {name = "Data" , summary = true},
[20] = {name = "MetaInfo" , summary = true},
[24] = {name = "ContentType" , field = ProtoField.uint64("ndn.contenttype", "ContentType", base.DEC) , value = getNonNegativeInteger},
[25] = {name = "FreshnessPeriod" , field = ProtoField.uint64("ndn.freshness", "FreshnessPeriod", base.DEC) , value = getNonNegativeInteger},
[26] = {name = "FinalBlockId" , field = ProtoField.string("ndn.finalblock", "FinalBlockId") , value = getUriFromFinalBlockId},
[21] = {name = "Content" , field = ProtoField.bytes("ndn.content", "Content")},
[22] = {name = "SignatureInfo" , summary = true},
[27] = {name = "SignatureType" , field = ProtoField.uint64("ndn.sigtype", "SignatureType", base.DEC) , value = getNonNegativeInteger},
[28] = {name = "KeyLocator" , summary = true},
[29] = {name = "KeyDigest" , field = ProtoField.bytes("ndn.keydigest", "KeyDigest")},
[23] = {name = "SignatureValue" , field = ProtoField.bytes("ndn.sigvalue", "SignatureValue")},
-- NDNLPv2 headers
[80] = {name = "Fragment" },
[81] = {name = "Sequence" , field = ProtoField.uint64("ndn.sequence", "Sequence", base.DEC) , value = getNonNegativeInteger},
[82] = {name = "FragIndex" , field = ProtoField.uint64("ndn.fragindex", "FragIndex", base.DEC) , value = getNonNegativeInteger},
[83] = {name = "FragCount" , field = ProtoField.uint64("ndn.fragcount", "FragCount", base.DEC) , value = getNonNegativeInteger},
[98] = {name = "PitToken" , field = ProtoField.bytes("ndn.pit_token", "PitToken")},
[100] = {name = "LpPacket" , summary = true},
[800] = {name = "Nack" , summary = true},
[801] = {name = "NackReason" , field = ProtoField.string("ndn.nack_reason", "NackReason") , value = getNackReasonDetail},
[812] = {name = "IncomingFaceId" , field = ProtoField.uint64("ndn.incoming_face", "IncomingFaceId", base.DEC) , value = getNonNegativeInteger},
[816] = {name = "NextHopFaceId" , field = ProtoField.uint64("ndn.nexthop_face", "NextHopFaceId", base.DEC) , value = getNonNegativeInteger},
[820] = {name = "CachePolicy" , summary = true},
[821] = {name = "CachePolicyType" , field = ProtoField.string("ndn.cache_policy", "CachePolicyType") , value = getCachePolicyDetail},
[832] = {name = "CongestionMark" , field = ProtoField.uint64("ndn.congestion_mark", "CongestionMark", base.DEC) , value = getNonNegativeInteger},
[836] = {name = "Ack" , field = ProtoField.uint64("ndn.ack", "Ack", base.DEC) , value = getNonNegativeInteger},
[840] = {name = "TxSequence" , field = ProtoField.uint64("ndn.txseq", "TxSequence", base.DEC) , value = getNonNegativeInteger},
}
-- -- Add protofields in NDN protocol
ndn.fields = {}
for key, value in pairs(NDN_DICT) do
table.insert(ndn.fields, value.field)
end
-----------------------------------------------------
-----------------------------------------------------
-- block
-- .tvb
-- .offset
-- .type
-- .typeLen
-- .length
-- .lengthLen
-- .size = .typeLen + .lengthLen + .length
function addInfo(block, root) -- may be add additional context later
local info = NDN_DICT[block.type]
if (info == nil) then
info = {}
info.value = getGenericBlockInfo
-- color
end
local treeInfo
if (info.value == nil) then
if (info.field ~= nil) then
treeInfo = root:add(info.field, block.tvb(block.offset, block.size))
else
treeInfo = root:add(block.tvb(block.offset, block.size), info.name)
end
treeInfo:append_text(", Type: " .. block.type .. ", Length: " .. block.length)
else
block.value = info.value(block)
if (info.field ~= nil) then
treeInfo = root:add(info.field, block.tvb(block.offset, block.size), block.value)
else
treeInfo = root:add(block.tvb(block.offset, block.size), block.value)
end
end
block.root = treeInfo
return block.root
end
function addSummary(block)
if (block.elements == nil) then
return
end
local info = NDN_DICT[block.type]
if (info == nil or info.summary == nil) then
return
end
local summary = {}
for k, subblock in pairs(block.elements) do
if (subblock.value ~= nil) then
local info = NDN_DICT[subblock.type]
if (info ~= nil) then
table.insert(summary, info.name .. ": " .. subblock.value)
end
end
end
if (#summary > 0) then
block.summary = table.concat(summary, ", ")
if (block.value == nil) then
block.value = block.summary
end
block.root:append_text(", " .. block.summary)
end
end
-----------------------------------------------------
-----------------------------------------------------
function readVarNumber(tvb, offset)
if offset >= tvb:len() then
return 0, 0
end
local firstOctet = tvb(offset, 1):uint()
if (firstOctet < 253) then
return firstOctet, 1
elseif (firstOctet == 253) and (offset + 3 < tvb:len()) then
return tvb(offset + 1, 2):uint(), 3
elseif (firstOctet == 254) and (offset + 5 < tvb:len()) then
return tvb(offset + 1, 4):uint(), 5
elseif (firstOctet == 255) and (offset + 9 < tvb:len()) then
return tvb(offset + 1, 8):uint64(), 9
end
return 0, 0
end
function getBlock(tvb, offset)
local block = {}
block.tvb = tvb
block.offset = offset
block.type, block.typeLen = readVarNumber(block.tvb, block.offset)
if block.typeLen == 0 then
return nil
end
block.length, block.lengthLen = readVarNumber(block.tvb, block.offset + block.typeLen)
if block.lengthLen == 0 then
return nil
end
block.size = block.typeLen + block.lengthLen + block.length
return block
end
function canBeValidNdnPacket(block)
if ((block.type == 5 or block.type == 6 or block.type == 100) and block.length <= 8800) then
return true
else
return false
end
end
function findNdnPacket(tvb)
offset = 0
while offset + 2 < tvb:len() do
local block = getBlock(tvb, offset)
if (block ~= nil) and canBeValidNdnPacket(block) then
return block
end
offset = offset + 1
end
return nil
end
function getSubBlocks(block)
local valueLeft = block.length
local subBlocks = {}
while valueLeft > 0 do
local offset = block.offset + block.typeLen + block.lengthLen + (block.length - valueLeft)
local child = getBlock(block.tvb, offset)
if child == nil then
return nil
end
valueLeft = valueLeft - child.size
table.insert(subBlocks, child)
end
if (valueLeft == 0) then
return subBlocks
else
return nil
end
end
-----------------------------------------------------
-----------------------------------------------------
-- NDN protocol dissector function
function ndn.dissector(tvb, pInfo, root) -- Tvb, Pinfo, TreeItem
if (tvb:len() ~= tvb:reported_len()) then
return 0 -- ignore partially captured packets
-- this can/may be re-enabled only for unfragmented UDP packets
end
local ok, block = pcall(findNdnPacket, tvb)
if (not ok) then
return 0
end
if (block == nil or block.offset == nil) then
-- no valid NDN packets found
return 0
end
local nBytesLeft = tvb:len() - block.offset
-- print (pInfo.number .. ":: Found block: " .. block.type .. " of length " .. block.size .. " bytesLeft: " .. nBytesLeft)
local pktType = ""
local pktName = ""
while (block.size <= nBytesLeft) do
-- Create TreeItems
block.tree = root:add(ndn, tvb(block.offset, block.size))
local queue = {block}
while (#queue > 0) do
local block = queue[1]
table.remove(queue, 1)
block.elements = getSubBlocks(block)
local subtree = addInfo(block, block.tree)
if (block.elements ~= nil) then
for i, subBlock in pairs(block.elements) do
subBlock.tree = subtree
table.insert(queue, subBlock)
end
end
end
-- Make summaries
local queue = {block}
while (#queue > 0) do
local block = queue[1]
if (block.visited ~= nil or block.elements == nil) then
-- try to make summary
table.remove(queue, 1)
addSummary(block)
else
for i, subBlock in pairs(block.elements) do
table.insert(queue, 1, subBlock)
end
block.visited = true
end
-- prepare information to fill info column
if block.type == 5 and pktType ~= "Nack" then
pktType = "Interest"
elseif block.type == 6 then
pktType = "Data"
elseif block.type == 800 then
pktType = "Nack"
end
if block.type == 7 then
pktName = getUriFromName(block)
end
end
local info = NDN_DICT[block.type]
if (info ~= nil) then
if (block.summary ~= nil) then
block.tree:append_text(", " .. NDN_DICT[block.type].name .. ", " .. block.summary)
else
block.tree:append_text(", " .. NDN_DICT[block.type].name)
end
end
nBytesLeft = nBytesLeft - block.size
if (nBytesLeft > 0) then
ok, block = pcall(getBlock, tvb, tvb:len() - nBytesLeft)
if (not ok or block == nil or not canBeValidNdnPacket(block)) then
break
end
end
end -- while(block.size <= nBytesLeft)
pInfo.cols.protocol = tostring(pInfo.cols.protocol) .. " (" .. ndn.name .. ")"
pInfo.cols.info = pktType .. " " .. pktName
if (nBytesLeft > 0 and block ~= nil and block.size ~= nil and block.size > nBytesLeft) then
pInfo.desegment_offset = tvb:len() - nBytesLeft
-- Originally, I set desegment_len to the exact lenght, but it mysteriously didn't work for TCP
-- pInfo.desegment_len = block.size -- this will not work to desegment TCP streams
pInfo.desegment_len = DESEGMENT_ONE_MORE_SEGMENT
end
end
local udpDissectorTable = DissectorTable.get("udp.port")
udpDissectorTable:add("6363", ndn)
udpDissectorTable:add("56363", ndn)
local tcpDissectorTable = DissectorTable.get("tcp.port")
tcpDissectorTable:add("6363", ndn)
local websocketDissectorTable = DissectorTable.get("ws.port")
-- websocketDissectorTable:add("9696", ndn)
websocketDissectorTable:add("1-65535", ndn)
local ethernetDissectorTable = DissectorTable.get("ethertype")
ethernetDissectorTable:add(0x8624, ndn)
local pppDissectorTable = DissectorTable.get("ppp.protocol")
pppDissectorTable:add(0x0077, ndn)
io.stderr:write("NDN dissector successfully loaded\n")