548 lines
21 KiB
Lua
548 lines
21 KiB
Lua
-- this code is based on src/tftp.lua from https://github.com/ldrumm/tufty
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-- which is distributed under the MIT License
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-- Starting upstream revision 3cb95c869e2fe74cc61ca303d88af6c5daad6734
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--
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-- Changes made since then are mostly to make it work better with
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-- luasocket
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--[[
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This package provides intefaces for handling TFTP requests as specified by
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rfc1350, rfc1782, rfc2347, rfc2348 and (partial support for rfc2349)
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It should work on Standard PC servers as well as small home routers running
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OpenWRT or similar.
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]]
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local tftp = {}
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local TIMEOUT = 5
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local ACK_RETRIES = 10
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local TFTP_PORT = 69
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local BLKSIZE = 512
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local OP_RRQ = 1
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local OP_WRQ = 2
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local OP_DATA = 3
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local OP_ACK = 4
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local OP_ERR = 5
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local OP_OACK = 6
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local ACKSIZE = 4
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local ERR_NOTFOUND = 1
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local ERR_ACCESS = 2
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local ERR_ALLOC = 3
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local ERR_ILLEGAL_OP = 4
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local ERR_UNKNOWN_ID = 5
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local ERR_EXISTS = 6
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local ERR_WHO = 7
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--rfc2347 specifies the options extension.
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--rfc2348 specifies the blksize extension
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--rfc2349 specifies the timeout and tsize extensions
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local SUPPORTED_OPTIONS = {blksize=true, timeout=true, tsize=true}
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--Use penlight's prettyprinter if available
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pcall(require, 'pl')
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local log = pretty and pretty.dump or print
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local time = (function()
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return require("socket").gettime
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end)()
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local poll = (function()
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--[[
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``poll`` is expected to accept a table of sockets keyed by
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backend file descriptor formatted as follows: {
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[low level socket lib file descriptor]{
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fd=(low level socket lib fd)
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wantread=(bool)
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wantwrite=(bool)
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...arbitrary ignored extra fields
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},
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...
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}
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it returns a list of fds formatted as follows
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{
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[low level socket lib file descriptor]{
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fd= [low level socket lib file descriptor],
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readable=(bool),
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writable=(bool)
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}
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...
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}
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]]
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local luasocket = require("socket")
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return function(fds, timeout)
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local wantread = {}
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local wantwrite = {}
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for _, fd in pairs(fds) do
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fd.readable=false
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fd.writeable=false
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if fd.wantwrite then wantwrite[#wantwrite + 1] = fd.fd end
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if fd.wantread then wantread[#wantread + 1] = fd.fd end
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end
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local readable, writeable, timedout = luasocket.select(wantread, wantwrite, timeout)
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if timedout then return nil end
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local ready = {}
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for _, fd in ipairs(readable) do
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ready[fd] = ready[fd] or { fd = fd }
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ready[fd].readable = true
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end
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for _, fd in ipairs(writeable) do
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ready[fd] = ready[fd] or { fd = fd }
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ready[fd].writeable = true
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end
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return ready
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end
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end)()
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local function UDPSocket()
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--[[ We want to support the basic functionality required for TFTP operation over
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UDP.
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This wraps only the required functionality and in no way represents a
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complete UDP socket implementation.
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see http://w3.impa.br/~diego/software/luasocket/udp.html for the luasocket UDP API
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]]
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local okay, luasocket = pcall(require, "socket")
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if okay then
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log("using luasocket")
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return {
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fd = luasocket.udp(),
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bind = function(self, address, port)
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return self.fd:setsockname(address, port)
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end,
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sendto = function(self, data, address, port)
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return self.fd:sendto(data, address, port)
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end,
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recvfrom = function(self, length)
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return self.fd:receivefrom(length)
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end,
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close = function(self)
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return self.fd:close()
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end,
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}
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end
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end
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local function is_netascii(s)
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--[[Check whether a string contains only characters from the RFC764 ascii
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subset. see https://tools.ietf.org/html/rfc764#page-11
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]]
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local ctrls = {[0]=1, [10]=1, [13]=1, [7]=1, [8]=1, [9]=1, [11]=1, [12]=1}
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for i=1, #s do
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local byte = s:sub(i, i):byte()
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if (byte < 31 and ctrls[byte] == nil) or byte > 127 then
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return false
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end
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end
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return true
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end
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local function create_opcode(val)
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if val < 0 or val > 2^16-1 then error("opcodes must fit into a 16bit integer") end
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local high = math.floor(val / 256)
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-- RFC1350 doesn't mention byte order. Assume network order (big-endian).
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return string.char(high, val - (high * 256))
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end
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local function parse_opcode(packet)
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local opcode = string.byte(packet:sub(2, 2)) --assume big endian
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return ({"RRQ", "WRQ", "DATA", "ACK", "ERROR", "OACK"})[opcode]
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end
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function tftp:handle_RRQ(socket, host, port, source, options)
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local blksize = options and tonumber(options.blksize) or BLKSIZE
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local timeout_secs = options and tonumber(options.timeout) or TIMEOUT --rfc2349 timout option
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local length = options and tonumber(options.length)
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local tid = 1
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local time = time
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local started = time()
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local err = self.ERROR
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local done = false
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local error, success = error, error -- to terminate the coroutine immediately, we raise an error
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local yield = coroutine.yield
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return coroutine.create(function()
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if options then
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--[[The handler coroutine should not start running until we know the client is ready.
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This depends on whether the client has requested rfc2347 options and responded to an OACK.
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Without the options extension request, the client can be responded to immediately.]]
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local acked, timeout = false, time() + timeout_secs
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assert(socket:sendto(self.OACK(options), host, port))
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log(("sent OACK to %s:%d"):format(host, port))
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repeat
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yield(true, false)
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local msg, port, host = socket:recvfrom(ACKSIZE)
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if self.parse_ACK(msg) == 0 then acked = true end
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timedout = time() > timeout
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until acked or timedout
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if timedout then error("Request timed out waiting for OACK response") end
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end
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log(("coroutine started on %s:%s/"):format(host, port))
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while not done do
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if tid >= 2^16 then
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socket:sendto(err("File too big."), host, port)
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error("File too big.")
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end
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local okay, continue, data = pcall(source, blksize)
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if not okay then
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packet = socket:sendto(err("An unknown error occurred"), host, port)
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error("generator failure")
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end
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if data == nil and not continue then
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done = true
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end
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if data == nil and continue then
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--[[The generator ``source`` can be async and return `true, nil`
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if no data is ready, but things are going well.
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]]
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yield(false, true)
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end
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socket:sendto(self.DATA(data, tid), host, port)
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--[[ Now check for an ACK.
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RFC1350 requires that for every packet sent, an ACK is received
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before the next packet can be sent.
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]]
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local acked
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local retried = 0
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local timeout = time() + timeout_secs
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local timedout = false
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repeat
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yield(true, false) -- we need to wait until the socket is readable again
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local ack, ackhost, ackport = socket:recvfrom(ACKSIZE)
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if ackhost ~= host or ackport ~= port or self.parse_ACK(ack) ~= tid then
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--[[https://tools.ietf.org/html/rfc1350#page-5
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"If a source TID does not match, the packet should be
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discarded as erroneously sent from somewhere else.
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An error packet should be sent to the source of the
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incorrect packet, while not disturbing the transfer."
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]]
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socket:sendto(err(ERR_UNKNOWN_ID), ackhost, ackport)
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yield(true, false)
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else
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acked = true
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end
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retried = retried + 1
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timedout = time() > timeout
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until acked or retried > ACK_RETRIES or timedout
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if timedout or retried > ACK_RETRIES then
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--There doesn't seem to be a standard error for timeout.
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socket:sendto(err("Ack timeout"), host, port)
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error("Timeout waiting for ACK")
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end
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--Okay, we've been acked in reasonable time.
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tid = tid + 1
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if done then success() end
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yield(true, true)
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end
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end)
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end
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function tftp:handle_WRQ(socket, host, port, sink)
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error"Not Implemented"
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end
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function tftp:listen(rrq_generator_callback, wrq_generator_callback, hosts, port, logfile)
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--[[--
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Listen for TFTP requests on UDP ```bind``:`port`` (0.0.0.0:69 by default)
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and get data from / send data to user-generated source/sink functions.
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Data is generated/received by functions returned by the the user-supplied
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``rrq_generator_callback``/``wrq_generator_callback`` factory functions.
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For each resource requested, the generator function will be called
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with three arguments:
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- the requested resource as a C-style string (no embedded NUL chars)
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- the ip address of the peer, as a dotted-quad string ("1.2.3.4")
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- the port number of the peer
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It should return a source or sink function that will be called repeatedly
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until the data transfer is complete:
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(SOURCE) will be called once for each block of data : it takes a
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single argument of the requested data length in bytes
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and returns the next block of data. It must return as follows
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`true, data` on success
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`true, nil` on wouldblock but should retry next round,
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`false` on finished
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(SINK) takes two arguments
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``data`` to write
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``done`` (truthy), whether all data has been received and backends can cleanup.
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The (SOURCE) model therefore supports both blocking and non-blocking behaviour.
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If the given function blocks, however, it will block the whole process as Lua
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is single threaded. That may or may not be acceptable depending on your needs.
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If the requested resource is invalid or other termination conditions are met,
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(SOURCE) and (SINK) functions should raise an error.
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@return This method never returns unless interrupted.
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]]
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local function create_handler(callbacks, request, requestsocket, host, port)
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--[[ Given a parsed request, instantiate the generator function from the given callbacks,
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and create a new coroutine to be called when the state of the handler's
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new socket changes to available.
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On success, returns a table of the form:
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```{
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handler=coroutine to call,
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socket= new socket on a random port on which all new communication will happen,
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fd=socket.fd as above fd
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host=remote host,
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port = remote port,
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request = the original parsed request, including accepted options, if any.
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}```
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On error, responds to the client with an ERROR packet, and returns nil.
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]]
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local okay, generator, tsize = pcall(callbacks[request.opcode], request.filename, host, port)
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if not okay then
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requestsocket:sendto(self.ERROR(ERR_NOTFOUND), host, port)
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return nil
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else
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if request.options then
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request.options.tsize = request.options.tsize and tostring(tsize)
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for k, v in pairs(request.options) do
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if not SUPPORTED_OPTIONS[k] then request.options[k] = nil end
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end
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else
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--RFC1350 requires WRQ requests to be responded to with a zero TID before transfer commences,
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--but when responding to an options request, it is dropped.
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if request.opcode == 'WRQ' then requestsocket:sendto(self.ACK(0), host, port) end
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end
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local handlersocket = UDPSocket()
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local handler = self['handle_' .. request.opcode](self, handlersocket, host, port, generator, request.options)
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return {
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handler=handler,
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socket=handlersocket,
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fd=handlersocket.fd,
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host=host,
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port=port,
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request=request,
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wantread=false,
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wantwrite=true,
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}
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end
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end
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local function accept(socket)
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--[[ Read an incoming request from ``socket``, parse, and ACK as appropriate.
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If the request is invalid, responds to the client with error and returns `nil`
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otherwise returns the parsed request.
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]]
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local msg, host, port = socket:recvfrom(-1)
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if msg ~= false then
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local okay, xRQ = pcall(self.parse_XRQ, msg)
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if not okay then
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return nil
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else
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return host, port, xRQ
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end
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end
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end
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local socket = UDPSocket()
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local user_generator_callbacks = {RRQ=rrq_generator_callback, WRQ=wrq_generator_callback}
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local port = port or TFTP_PORT
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local logfile = logfile or io.stderr
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--listen on all given addresses, default to localhost if not given
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for i, address in pairs((type(hosts) == 'table' and hosts) or (hosts ~= nil and{hosts}) or {'127.0.0.1'}) do
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socket:bind(address, port)
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end
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--[[The main event loop does two things:
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1. Accepts new connections.
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2. Handles events occurring on all sockets by dispatching to a handler coroutine.
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3. Removes finished requests from the queue and destroys the sockets.
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]]
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local handlers = {[socket.fd]={fd=socket.fd, socket=socket, listener=true, wantread=true}}
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while true do
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ready_fds = poll(handlers)
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do
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local n = 0
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for _ in pairs(ready_fds) do
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n = n + 1
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end
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-- log(('There are %d sockets ready'):format(n))
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end
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for fd, status in pairs(ready_fds) do
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-- pretty.dump(ready_fds)
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-- log(('There are %d sockets ready'):format(#ready_fds))
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ready = handlers[fd]
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if ready.listener and status.readable then
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--we've got a listener and should accept a new connection
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local host, port, request = accept(ready.socket)
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if host ~= nil then
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log(("accepted new %s request - %s:%s/%s"):format(request.opcode, host, port, request.filename))
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local handler = create_handler(
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user_generator_callbacks,
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request,
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ready.socket,
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host,
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port
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)
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if handler then handlers[handler.socket.fd] = handler end
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end
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elseif (status.readable or status.writeable) and ready.handler then
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--We've received an event on a socket associated with an existing handler coroutine.
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local co_state = coroutine.status(ready.handler)
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local okay, wantread, wantwrite
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if co_state ~= 'dead' then
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if (ready.wantread and status.readable) or (ready.wantwrite and status.writeable) then
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okay, wantread, wantwrite = coroutine.resume(ready.handler)
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ready.wantread = wantread
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ready.wantwrite = wantwrite
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end
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end
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if (not okay) or co_state == 'dead' then
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--- the handler is finished; cleanup
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ready.socket:close()
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handlers[ready.fd] = nil
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ready.fd = nil
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ready = nil
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end
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end
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end
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end
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end
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--[[ RRQ/ZRQ read/write request packets
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https://tools.ietf.org/html/rfc1350
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2 bytes string 1 byte string 1 byte
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------------------------------------------------
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| Opcode | Filename | 0 | Mode | 0 |
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------------------------------------------------
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Figure 5-1: RRQ/WRQ packet
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]]
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function tftp.RRQ(filename)
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-- RFC1350:"The mail mode is obsolete and should not be implemented or used."
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-- We don't support netascii, which leaves 'octet' mode only
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return table.concat({create_opcode(OP_RRQ), filename, '\0', "octet", '\0'}, '')
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end
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function tftp.parse_XRQ(request)
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local opcode = assert(parse_opcode(request), "Invalid opcode")
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assert(({RRQ=true, XRQ=true})[opcode], "Not an xRQ")
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assert(request:sub(#request) == '\0', "Invalid request: expected ASCII NUL terminated request")
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local cstrings = {}
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function zero_iter(s)
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local pos = 1
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return function()
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--This is ugly. Lua 5.2 handles embedded NUL bytes in string.gmatch,
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--but vanilla Lua5.1 doesn't match correctly and luajit can't seem to parse them
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for i=pos, #s do
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if s:byte(i) == 0 then
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local sub = s:sub(pos, i-1)
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pos = i+1
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return sub
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end
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end
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end
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end
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for s in zero_iter(request:sub(3)) do
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cstrings[#cstrings+1] = s
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end
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assert(#cstrings >= 2)
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local filename = assert(is_netascii(cstrings[1]) and cstrings[1], "Requested filename must be netascii")
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local mode = assert(({netascii='netascii', octet='octet'})[cstrings[2]])
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local options
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if #cstrings > 2 then
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options = {}
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assert(#cstrings % 2 == 0)
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for i=3, #cstrings, 2 do
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--[[ RFC1782, and 3247 require case insensitive comparisons.
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We normalize them to lowercase with the consequence that
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duplicate keys are replaced which are forbidden by the standard anyway.
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]]
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options[cstrings[i]:lower()] = cstrings[i+1]:lower()
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end
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end
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return {opcode=opcode, filename=filename, mode=mode, options=options}
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end
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--[[ ACK functions
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2 bytes 2 bytes
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---------------------
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| Opcode | Block # |
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---------------------
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Figure 5-3: ACK packet
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]]
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function tftp.parse_ACK(ack)
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--get the sequence number from an ACK or raise a error if not valid
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assert(#ack == ACKSIZE, "invalid ack")
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assert(parse_opcode(ack) == 'ACK', "invalid ack")
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-- extract the low and high order bytes and convert to an integer
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local high, low = ack:byte(3, 4)
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return (high * 256) + low
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end
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--[[
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+-------+---~~---+---+---~~---+---+---~~---+---+---~~---+---+
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| opc | opt1 | 0 | value1 | 0 | optN | 0 | valueN | 0 |
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+-------+---~~---+---+---~~---+---+---~~---+---+---~~---+---+
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]]
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function tftp.OACK(options)
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local stropts = {}
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for k, v in pairs(options) do
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assert(is_netascii(k))
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stropts[#stropts+1] = k .. '\0' .. v .. '\0'
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end
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return create_opcode(OP_OACK) .. table.concat(stropts, '')
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end
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function tftp.ACK(tid)
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return table.concat({create_opcode(OP_ACK), create_opcode(tid)}, '')
|
|
end
|
|
|
|
|
|
--[[ DATA functions
|
|
2 bytes 2 bytes n bytes
|
|
----------------------------------
|
|
| Opcode | Block # | Data |
|
|
----------------------------------
|
|
Figure 5-2: DATA packet
|
|
]]
|
|
function tftp.DATA(data, tid)
|
|
local opcode = create_opcode(OP_DATA)
|
|
local block = create_opcode(tid)
|
|
return table.concat({opcode, block, data}, '')
|
|
end
|
|
|
|
function tftp.parse_DATA(data)
|
|
assert(#data <= 512, "tftp data packets must be 512 bytes or less")
|
|
assert(parse_opcode(data) == OP_DATA, "Invalid opcode")
|
|
return {tid=parse_opcode(data:sub(3, 4)), data=data:sub(5)}
|
|
end
|
|
|
|
--[[ ERROR Functions
|
|
2 bytes 2 bytes string 1 byte
|
|
-----------------------------------------
|
|
| Opcode | ErrorCode | ErrMsg | 0 |
|
|
-----------------------------------------
|
|
Figure 5-4: ERROR packet
|
|
]]
|
|
function tftp.ERROR(err)
|
|
local defined_errors = {
|
|
--https://tools.ietf.org/html/rfc1350#page-10
|
|
[0] = type(err) == 'string' and err or "Not defined",
|
|
"File not found.",
|
|
"Access violation.",
|
|
"Disk full or allocation exceeded.",
|
|
"Illegal TFTP operation.",
|
|
"Unknown transfer ID.",
|
|
"File already exists.",
|
|
"No such user.",
|
|
}
|
|
|
|
local errno = type(err) == 'string' and 0 or err
|
|
return table.concat({
|
|
create_opcode(OP_ERR),
|
|
create_opcode(errno),
|
|
defined_errors[errno],
|
|
'\0'
|
|
}, '')
|
|
end
|
|
|
|
function tftp.parse_ERROR(err)
|
|
assert(parse_opcode(err) == OP_ERR)
|
|
local error_code = parse_opcode(err:sub(3, 4))
|
|
return {errcode=error_code, errmsg=err:sub(5, #err-1)}
|
|
end
|
|
|
|
return tftp
|