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https://github.com/lunarmodules/luasocket.git
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f960b3872a
Documented headers.lua Update copyright date everywhere Remove RCSID from files Move version back to 2.1 rather than 2.1.1 Fixed url package to support ipv6 hosts Changed "domain" to "family" in tcp and udp structures Implemented getfamily methods
302 lines
10 KiB
Lua
302 lines
10 KiB
Lua
-----------------------------------------------------------------------------
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-- A hacked dispatcher module
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-- LuaSocket sample files
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-- Author: Diego Nehab
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-----------------------------------------------------------------------------
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local base = _G
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local table = require("table")
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local socket = require("socket")
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local coroutine = require("coroutine")
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module("dispatch")
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-- if too much time goes by without any activity in one of our sockets, we
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-- just kill it
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TIMEOUT = 60
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-----------------------------------------------------------------------------
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-- We implement 3 types of dispatchers:
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-- sequential
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-- coroutine
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-- threaded
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-- The user can choose whatever one is needed
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-----------------------------------------------------------------------------
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local handlert = {}
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-- default handler is coroutine
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function newhandler(mode)
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mode = mode or "coroutine"
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return handlert[mode]()
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end
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local function seqstart(self, func)
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return func()
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end
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-- sequential handler simply calls the functions and doesn't wrap I/O
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function handlert.sequential()
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return {
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tcp = socket.tcp,
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start = seqstart
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}
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end
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-----------------------------------------------------------------------------
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-- Mega hack. Don't try to do this at home.
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-----------------------------------------------------------------------------
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-- we can't yield across calls to protect, so we rewrite it with coxpcall
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-- make sure you don't require any module that uses socket.protect before
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-- loading our hack
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function socket.protect(f)
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return function(...)
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local co = coroutine.create(f)
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while true do
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local results = {coroutine.resume(co, base.unpack(arg))}
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local status = table.remove(results, 1)
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if not status then
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if base.type(results[1]) == 'table' then
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return nil, results[1][1]
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else base.error(results[1]) end
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end
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if coroutine.status(co) == "suspended" then
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arg = {coroutine.yield(base.unpack(results))}
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else
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return base.unpack(results)
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end
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end
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end
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end
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-----------------------------------------------------------------------------
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-- Simple set data structure. O(1) everything.
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-----------------------------------------------------------------------------
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local function newset()
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local reverse = {}
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local set = {}
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return base.setmetatable(set, {__index = {
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insert = function(set, value)
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if not reverse[value] then
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table.insert(set, value)
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reverse[value] = table.getn(set)
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end
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end,
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remove = function(set, value)
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local index = reverse[value]
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if index then
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reverse[value] = nil
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local top = table.remove(set)
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if top ~= value then
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reverse[top] = index
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set[index] = top
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end
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end
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end
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}})
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end
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-----------------------------------------------------------------------------
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-- socket.tcp() wrapper for the coroutine dispatcher
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-----------------------------------------------------------------------------
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local function cowrap(dispatcher, tcp, error)
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if not tcp then return nil, error end
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-- put it in non-blocking mode right away
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tcp:settimeout(0)
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-- metatable for wrap produces new methods on demand for those that we
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-- don't override explicitly.
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local metat = { __index = function(table, key)
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table[key] = function(...)
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arg[1] = tcp
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return tcp[key](base.unpack(arg))
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end
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return table[key]
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end}
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-- does our user want to do his own non-blocking I/O?
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local zero = false
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-- create a wrap object that will behave just like a real socket object
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local wrap = { }
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-- we ignore settimeout to preserve our 0 timeout, but record whether
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-- the user wants to do his own non-blocking I/O
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function wrap:settimeout(value, mode)
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if value == 0 then zero = true
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else zero = false end
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return 1
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end
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-- send in non-blocking mode and yield on timeout
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function wrap:send(data, first, last)
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first = (first or 1) - 1
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local result, error
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while true do
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-- return control to dispatcher and tell it we want to send
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-- if upon return the dispatcher tells us we timed out,
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-- return an error to whoever called us
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if coroutine.yield(dispatcher.sending, tcp) == "timeout" then
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return nil, "timeout"
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end
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-- try sending
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result, error, first = tcp:send(data, first+1, last)
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-- if we are done, or there was an unexpected error,
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-- break away from loop
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if error ~= "timeout" then return result, error, first end
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end
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end
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-- receive in non-blocking mode and yield on timeout
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-- or simply return partial read, if user requested timeout = 0
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function wrap:receive(pattern, partial)
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local error = "timeout"
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local value
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while true do
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-- return control to dispatcher and tell it we want to receive
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-- if upon return the dispatcher tells us we timed out,
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-- return an error to whoever called us
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if coroutine.yield(dispatcher.receiving, tcp) == "timeout" then
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return nil, "timeout"
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end
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-- try receiving
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value, error, partial = tcp:receive(pattern, partial)
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-- if we are done, or there was an unexpected error,
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-- break away from loop. also, if the user requested
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-- zero timeout, return all we got
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if (error ~= "timeout") or zero then
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return value, error, partial
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end
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end
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end
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-- connect in non-blocking mode and yield on timeout
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function wrap:connect(host, port)
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local result, error = tcp:connect(host, port)
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if error == "timeout" then
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-- return control to dispatcher. we will be writable when
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-- connection succeeds.
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-- if upon return the dispatcher tells us we have a
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-- timeout, just abort
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if coroutine.yield(dispatcher.sending, tcp) == "timeout" then
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return nil, "timeout"
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end
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-- when we come back, check if connection was successful
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result, error = tcp:connect(host, port)
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if result or error == "already connected" then return 1
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else return nil, "non-blocking connect failed" end
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else return result, error end
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end
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-- accept in non-blocking mode and yield on timeout
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function wrap:accept()
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while 1 do
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-- return control to dispatcher. we will be readable when a
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-- connection arrives.
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-- if upon return the dispatcher tells us we have a
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-- timeout, just abort
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if coroutine.yield(dispatcher.receiving, tcp) == "timeout" then
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return nil, "timeout"
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end
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local client, error = tcp:accept()
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if error ~= "timeout" then
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return cowrap(dispatcher, client, error)
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end
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end
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end
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-- remove cortn from context
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function wrap:close()
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dispatcher.stamp[tcp] = nil
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dispatcher.sending.set:remove(tcp)
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dispatcher.sending.cortn[tcp] = nil
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dispatcher.receiving.set:remove(tcp)
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dispatcher.receiving.cortn[tcp] = nil
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return tcp:close()
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end
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return base.setmetatable(wrap, metat)
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end
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-----------------------------------------------------------------------------
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-- Our coroutine dispatcher
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-----------------------------------------------------------------------------
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local cometat = { __index = {} }
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function schedule(cortn, status, operation, tcp)
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if status then
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if cortn and operation then
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operation.set:insert(tcp)
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operation.cortn[tcp] = cortn
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operation.stamp[tcp] = socket.gettime()
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end
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else base.error(operation) end
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end
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function kick(operation, tcp)
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operation.cortn[tcp] = nil
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operation.set:remove(tcp)
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end
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function wakeup(operation, tcp)
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local cortn = operation.cortn[tcp]
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-- if cortn is still valid, wake it up
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if cortn then
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kick(operation, tcp)
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return cortn, coroutine.resume(cortn)
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-- othrewise, just get scheduler not to do anything
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else
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return nil, true
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end
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end
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function abort(operation, tcp)
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local cortn = operation.cortn[tcp]
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if cortn then
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kick(operation, tcp)
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coroutine.resume(cortn, "timeout")
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end
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end
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-- step through all active cortns
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function cometat.__index:step()
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-- check which sockets are interesting and act on them
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local readable, writable = socket.select(self.receiving.set,
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self.sending.set, 1)
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-- for all readable connections, resume their cortns and reschedule
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-- when they yield back to us
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for _, tcp in base.ipairs(readable) do
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schedule(wakeup(self.receiving, tcp))
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end
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-- for all writable connections, do the same
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for _, tcp in base.ipairs(writable) do
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schedule(wakeup(self.sending, tcp))
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end
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-- politely ask replacement I/O functions in idle cortns to
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-- return reporting a timeout
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local now = socket.gettime()
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for tcp, stamp in base.pairs(self.stamp) do
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if tcp.class == "tcp{client}" and now - stamp > TIMEOUT then
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abort(self.sending, tcp)
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abort(self.receiving, tcp)
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end
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end
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end
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function cometat.__index:start(func)
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local cortn = coroutine.create(func)
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schedule(cortn, coroutine.resume(cortn))
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end
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function handlert.coroutine()
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local stamp = {}
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local dispatcher = {
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stamp = stamp,
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sending = {
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name = "sending",
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set = newset(),
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cortn = {},
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stamp = stamp
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},
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receiving = {
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name = "receiving",
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set = newset(),
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cortn = {},
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stamp = stamp
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},
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}
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function dispatcher.tcp()
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return cowrap(dispatcher, socket.tcp())
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end
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return base.setmetatable(dispatcher, cometat)
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end
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