luasocket-2.0.2/etc/dispatch.lua - nest-learning-thermostat/5.1.7/luasocket - Git at Google

 -----------------------------------------------------------------------------
 -- A hacked dispatcher module
 -- LuaSocket sample files
 -- Author: Diego Nehab
 -- RCS ID: $$
 -----------------------------------------------------------------------------
 local base = _G
 local table = require("table")
 local socket = require("socket")
 local coroutine = require("coroutine")
 module("dispatch")

 -- if too much time goes by without any activity in one of our sockets, we
 -- just kill it
 TIMEOUT = 60

 -----------------------------------------------------------------------------
 -- We implement 3 types of dispatchers:
 --     sequential
 --     coroutine
 --     threaded
 -- The user can choose whatever one is needed
 -----------------------------------------------------------------------------
 local handlert = {}

 -- default handler is coroutine
 function newhandler(mode)
     mode = mode or "coroutine"
     return handlert[mode]()
 end

 local function seqstart(self, func)
     return func()
 end

 -- sequential handler simply calls the functions and doesn't wrap I/O
 function handlert.sequential()
     return {
         tcp = socket.tcp,
         start = seqstart
     }
 end

 -----------------------------------------------------------------------------
 -- Mega hack. Don't try to do this at home.
 -----------------------------------------------------------------------------
 -- we can't yield across calls to protect, so we rewrite it with coxpcall
 -- make sure you don't require any module that uses socket.protect before
 -- loading our hack
 function socket.protect(f)
   return function(...)
     local co = coroutine.create(f)
     while true do
       local results = {coroutine.resume(co, base.unpack(arg))}
       local status = table.remove(results, 1)
       if not status then
         if type(results[1]) == 'table' then
           return nil, results[1][1]
         else base.error(results[1]) end
       end
       if coroutine.status(co) == "suspended" then
         arg = {coroutine.yield(base.unpack(results))}
       else
         return base.unpack(results)
       end
     end
   end
 end

 -----------------------------------------------------------------------------
 -- Simple set data structure. O(1) everything.
 -----------------------------------------------------------------------------
 local function newset()
     local reverse = {}
     local set = {}
     return base.setmetatable(set, {__index = {
         insert = function(set, value)
             if not reverse[value] then
                 table.insert(set, value)
                 reverse[value] = table.getn(set)
             end
         end,
         remove = function(set, value)
             local index = reverse[value]
             if index then
                 reverse[value] = nil
                 local top = table.remove(set)
                 if top ~= value then
                     reverse[top] = index
                     set[index] = top
                 end
             end
         end
     }})
 end

 -----------------------------------------------------------------------------
 -- socket.tcp() wrapper for the coroutine dispatcher
 -----------------------------------------------------------------------------
 local function cowrap(dispatcher, tcp, error)
     if not tcp then return nil, error end
     -- put it in non-blocking mode right away
     tcp:settimeout(0)
     -- metatable for wrap produces new methods on demand for those that we
     -- don't override explicitly.
     local metat = { __index = function(table, key)
         table[key] = function(...)
             arg[1] = tcp
             return tcp[key](base.unpack(arg))
         end
         return table[key]
     end}
     -- does our user want to do his own non-blocking I/O?
     local zero = false
     -- create a wrap object that will behave just like a real socket object
     local wrap = {  }
     -- we ignore settimeout to preserve our 0 timeout, but record whether
     -- the user wants to do his own non-blocking I/O
     function wrap:settimeout(value, mode)
         if value == 0 then zero = true
         else zero = false end
         return 1
     end
     -- send in non-blocking mode and yield on timeout
     function wrap:send(data, first, last)
         first = (first or 1) - 1
         local result, error
         while true do
             -- return control to dispatcher and tell it we want to send
             -- if upon return the dispatcher tells us we timed out,
             -- return an error to whoever called us
             if coroutine.yield(dispatcher.sending, tcp) == "timeout" then
                 return nil, "timeout"
             end
             -- try sending
             result, error, first = tcp:send(data, first+1, last)
             -- if we are done, or there was an unexpected error,
             -- break away from loop
             if error ~= "timeout" then return result, error, first end
         end
     end
     -- receive in non-blocking mode and yield on timeout
     -- or simply return partial read, if user requested timeout = 0
     function wrap:receive(pattern, partial)
         local error = "timeout"
         local value
         while true do
             -- return control to dispatcher and tell it we want to receive
             -- if upon return the dispatcher tells us we timed out,
             -- return an error to whoever called us
             if coroutine.yield(dispatcher.receiving, tcp) == "timeout" then
                 return nil, "timeout"
             end
             -- try receiving
             value, error, partial = tcp:receive(pattern, partial)
             -- if we are done, or there was an unexpected error,
             -- break away from loop. also, if the user requested
             -- zero timeout, return all we got
             if (error ~= "timeout") or zero then
                 return value, error, partial
             end
         end
     end
     -- connect in non-blocking mode and yield on timeout
     function wrap:connect(host, port)
         local result, error = tcp:connect(host, port)
         if error == "timeout" then
             -- return control to dispatcher. we will be writable when
             -- connection succeeds.
             -- if upon return the dispatcher tells us we have a
             -- timeout, just abort
             if coroutine.yield(dispatcher.sending, tcp) == "timeout" then
                 return nil, "timeout"
             end
             -- when we come back, check if connection was successful
             result, error = tcp:connect(host, port)
             if result or error == "already connected" then return 1
             else return nil, "non-blocking connect failed" end
         else return result, error end
     end
     -- accept in non-blocking mode and yield on timeout
     function wrap:accept()
         while 1 do
             -- return control to dispatcher. we will be readable when a
             -- connection arrives.
             -- if upon return the dispatcher tells us we have a
             -- timeout, just abort
             if coroutine.yield(dispatcher.receiving, tcp) == "timeout" then
                 return nil, "timeout"
             end
             local client, error = tcp:accept()
             if error ~= "timeout" then
                 return cowrap(dispatcher, client, error)
             end
         end
     end
     -- remove cortn from context
     function wrap:close()
         dispatcher.stamp[tcp] = nil
         dispatcher.sending.set:remove(tcp)
         dispatcher.sending.cortn[tcp] = nil
         dispatcher.receiving.set:remove(tcp)
         dispatcher.receiving.cortn[tcp] = nil
         return tcp:close()
     end
     return base.setmetatable(wrap, metat)
 end


 -----------------------------------------------------------------------------
 -- Our coroutine dispatcher
 -----------------------------------------------------------------------------
 local cometat = { __index = {} }

 function schedule(cortn, status, operation, tcp)
     if status then
         if cortn and operation then
             operation.set:insert(tcp)
             operation.cortn[tcp] = cortn
             operation.stamp[tcp] = socket.gettime()
         end
     else base.error(operation) end
 end

 function kick(operation, tcp)
     operation.cortn[tcp] = nil
     operation.set:remove(tcp)
 end

 function wakeup(operation, tcp)
     local cortn = operation.cortn[tcp]
     -- if cortn is still valid, wake it up
     if cortn then
         kick(operation, tcp)
         return cortn, coroutine.resume(cortn)
     -- othrewise, just get scheduler not to do anything
     else
         return nil, true
     end
 end

 function abort(operation, tcp)
     local cortn = operation.cortn[tcp]
     if cortn then
         kick(operation, tcp)
         coroutine.resume(cortn, "timeout")
     end
 end

 -- step through all active cortns
 function cometat.__index:step()
     -- check which sockets are interesting and act on them
     local readable, writable = socket.select(self.receiving.set,
         self.sending.set, 1)
     -- for all readable connections, resume their cortns and reschedule
     -- when they yield back to us
     for _, tcp in base.ipairs(readable) do
         schedule(wakeup(self.receiving, tcp))
     end
     -- for all writable connections, do the same
     for _, tcp in base.ipairs(writable) do
         schedule(wakeup(self.sending, tcp))
     end
     -- politely ask replacement I/O functions in idle cortns to
     -- return reporting a timeout
     local now = socket.gettime()
     for tcp, stamp in base.pairs(self.stamp) do
         if tcp.class == "tcp{client}" and now - stamp > TIMEOUT then
             abort(self.sending, tcp)
             abort(self.receiving, tcp)
         end
     end
 end

 function cometat.__index:start(func)
     local cortn = coroutine.create(func)
     schedule(cortn, coroutine.resume(cortn))
 end

 function handlert.coroutine()
     local stamp = {}
     local dispatcher = {
         stamp = stamp,
         sending  = {
             name = "sending",
             set = newset(),
             cortn = {},
             stamp = stamp
         },
         receiving = {
             name = "receiving",
             set = newset(),
             cortn = {},
             stamp = stamp
         },
     }
     function dispatcher.tcp()
         return cowrap(dispatcher, socket.tcp())
     end
     return base.setmetatable(dispatcher, cometat)
 end
	-----------------------------------------------------------------------------
	-- A hacked dispatcher module
	-- LuaSocket sample files
	-- Author: Diego Nehab
	-- RCS ID: $$
	-----------------------------------------------------------------------------
	local base = _G
	local table = require("table")
	local socket = require("socket")
	local coroutine = require("coroutine")
	module("dispatch")

	-- if too much time goes by without any activity in one of our sockets, we
	-- just kill it
	TIMEOUT = 60

	-----------------------------------------------------------------------------
	-- We implement 3 types of dispatchers:
	-- sequential
	-- coroutine
	-- threaded
	-- The user can choose whatever one is needed
	-----------------------------------------------------------------------------
	local handlert = {}

	-- default handler is coroutine
	function newhandler(mode)
	mode = mode or "coroutine"
	return handlert[mode]()
	end

	local function seqstart(self, func)
	return func()
	end

	-- sequential handler simply calls the functions and doesn't wrap I/O
	function handlert.sequential()
	return {
	tcp = socket.tcp,
	start = seqstart
	}
	end

	-----------------------------------------------------------------------------
	-- Mega hack. Don't try to do this at home.
	-----------------------------------------------------------------------------
	-- we can't yield across calls to protect, so we rewrite it with coxpcall
	-- make sure you don't require any module that uses socket.protect before
	-- loading our hack
	function socket.protect(f)
	return function(...)
	local co = coroutine.create(f)
	while true do
	local results = {coroutine.resume(co, base.unpack(arg))}
	local status = table.remove(results, 1)
	if not status then
	if type(results[1]) == 'table' then
	return nil, results[1][1]
	else base.error(results[1]) end
	end
	if coroutine.status(co) == "suspended" then
	arg = {coroutine.yield(base.unpack(results))}
	else
	return base.unpack(results)
	end
	end
	end
	end

	-----------------------------------------------------------------------------
	-- Simple set data structure. O(1) everything.
	-----------------------------------------------------------------------------
	local function newset()
	local reverse = {}
	local set = {}
	return base.setmetatable(set, {__index = {
	insert = function(set, value)
	if not reverse[value] then
	table.insert(set, value)
	reverse[value] = table.getn(set)
	end
	end,
	remove = function(set, value)
	local index = reverse[value]
	if index then
	reverse[value] = nil
	local top = table.remove(set)
	if top ~= value then
	reverse[top] = index
	set[index] = top
	end
	end
	end
	}})
	end

	-----------------------------------------------------------------------------
	-- socket.tcp() wrapper for the coroutine dispatcher
	-----------------------------------------------------------------------------
	local function cowrap(dispatcher, tcp, error)
	if not tcp then return nil, error end
	-- put it in non-blocking mode right away
	tcp:settimeout(0)
	-- metatable for wrap produces new methods on demand for those that we
	-- don't override explicitly.
	local metat = { __index = function(table, key)
	table[key] = function(...)
	arg[1] = tcp
	return tcp[key](base.unpack(arg))
	end
	return table[key]
	end}
	-- does our user want to do his own non-blocking I/O?
	local zero = false
	-- create a wrap object that will behave just like a real socket object
	local wrap = { }
	-- we ignore settimeout to preserve our 0 timeout, but record whether
	-- the user wants to do his own non-blocking I/O
	function wrap:settimeout(value, mode)
	if value == 0 then zero = true
	else zero = false end
	return 1
	end
	-- send in non-blocking mode and yield on timeout
	function wrap:send(data, first, last)
	first = (first or 1) - 1
	local result, error
	while true do
	-- return control to dispatcher and tell it we want to send
	-- if upon return the dispatcher tells us we timed out,
	-- return an error to whoever called us
	if coroutine.yield(dispatcher.sending, tcp) == "timeout" then
	return nil, "timeout"
	end
	-- try sending
	result, error, first = tcp:send(data, first+1, last)
	-- if we are done, or there was an unexpected error,
	-- break away from loop
	if error ~= "timeout" then return result, error, first end
	end
	end
	-- receive in non-blocking mode and yield on timeout
	-- or simply return partial read, if user requested timeout = 0
	function wrap:receive(pattern, partial)
	local error = "timeout"
	local value
	while true do
	-- return control to dispatcher and tell it we want to receive
	-- if upon return the dispatcher tells us we timed out,
	-- return an error to whoever called us
	if coroutine.yield(dispatcher.receiving, tcp) == "timeout" then
	return nil, "timeout"
	end
	-- try receiving
	value, error, partial = tcp:receive(pattern, partial)
	-- if we are done, or there was an unexpected error,
	-- break away from loop. also, if the user requested
	-- zero timeout, return all we got
	if (error ~= "timeout") or zero then
	return value, error, partial
	end
	end
	end
	-- connect in non-blocking mode and yield on timeout
	function wrap:connect(host, port)
	local result, error = tcp:connect(host, port)
	if error == "timeout" then
	-- return control to dispatcher. we will be writable when
	-- connection succeeds.
	-- if upon return the dispatcher tells us we have a
	-- timeout, just abort
	if coroutine.yield(dispatcher.sending, tcp) == "timeout" then
	return nil, "timeout"
	end
	-- when we come back, check if connection was successful
	result, error = tcp:connect(host, port)
	if result or error == "already connected" then return 1
	else return nil, "non-blocking connect failed" end
	else return result, error end
	end
	-- accept in non-blocking mode and yield on timeout
	function wrap:accept()
	while 1 do
	-- return control to dispatcher. we will be readable when a
	-- connection arrives.
	-- if upon return the dispatcher tells us we have a
	-- timeout, just abort
	if coroutine.yield(dispatcher.receiving, tcp) == "timeout" then
	return nil, "timeout"
	end
	local client, error = tcp:accept()
	if error ~= "timeout" then
	return cowrap(dispatcher, client, error)
	end
	end
	end
	-- remove cortn from context
	function wrap:close()
	dispatcher.stamp[tcp] = nil
	dispatcher.sending.set:remove(tcp)
	dispatcher.sending.cortn[tcp] = nil
	dispatcher.receiving.set:remove(tcp)
	dispatcher.receiving.cortn[tcp] = nil
	return tcp:close()
	end
	return base.setmetatable(wrap, metat)
	end


	-----------------------------------------------------------------------------
	-- Our coroutine dispatcher
	-----------------------------------------------------------------------------
	local cometat = { __index = {} }

	function schedule(cortn, status, operation, tcp)
	if status then
	if cortn and operation then
	operation.set:insert(tcp)
	operation.cortn[tcp] = cortn
	operation.stamp[tcp] = socket.gettime()
	end
	else base.error(operation) end
	end

	function kick(operation, tcp)
	operation.cortn[tcp] = nil
	operation.set:remove(tcp)
	end

	function wakeup(operation, tcp)
	local cortn = operation.cortn[tcp]
	-- if cortn is still valid, wake it up
	if cortn then
	kick(operation, tcp)
	return cortn, coroutine.resume(cortn)
	-- othrewise, just get scheduler not to do anything
	else
	return nil, true
	end
	end

	function abort(operation, tcp)
	local cortn = operation.cortn[tcp]
	if cortn then
	kick(operation, tcp)
	coroutine.resume(cortn, "timeout")
	end
	end

	-- step through all active cortns
	function cometat.__index:step()
	-- check which sockets are interesting and act on them
	local readable, writable = socket.select(self.receiving.set,
	self.sending.set, 1)
	-- for all readable connections, resume their cortns and reschedule
	-- when they yield back to us
	for _, tcp in base.ipairs(readable) do
	schedule(wakeup(self.receiving, tcp))
	end
	-- for all writable connections, do the same
	for _, tcp in base.ipairs(writable) do
	schedule(wakeup(self.sending, tcp))
	end
	-- politely ask replacement I/O functions in idle cortns to
	-- return reporting a timeout
	local now = socket.gettime()
	for tcp, stamp in base.pairs(self.stamp) do
	if tcp.class == "tcp{client}" and now - stamp > TIMEOUT then
	abort(self.sending, tcp)
	abort(self.receiving, tcp)
	end
	end
	end

	function cometat.__index:start(func)
	local cortn = coroutine.create(func)
	schedule(cortn, coroutine.resume(cortn))
	end

	function handlert.coroutine()
	local stamp = {}
	local dispatcher = {
	stamp = stamp,
	sending = {
	name = "sending",
	set = newset(),
	cortn = {},
	stamp = stamp
	},
	receiving = {
	name = "receiving",
	set = newset(),
	cortn = {},
	stamp = stamp
	},
	}
	function dispatcher.tcp()
	return cowrap(dispatcher, socket.tcp())
	end
	return base.setmetatable(dispatcher, cometat)
	end