1
0
mirror of https://github.com/kepler155c/opus synced 2024-11-05 00:16:16 +00:00
opus/sys/apis/socket.lua
2017-05-19 19:00:23 -04:00

195 lines
4.4 KiB
Lua

local Logger = require('logger')
local Crypto = require('crypto')
local socketClass = { }
function socketClass:read(timeout)
local data, distance = transport.read(self)
if data then
return data, distance
end
if not self.connected then
Logger.log('socket', 'read: No connection')
return
end
local timerId = os.startTimer(timeout or 5)
while true do
local e, id = os.pullEvent()
if e == 'transport_' .. self.sport then
data, distance = transport.read(self)
if data then
os.cancelTimer(timerId)
return data, distance
end
elseif e == 'timer' and id == timerId then
if timeout or not self.connected then
break
end
timerId = os.startTimer(5)
end
end
end
function socketClass:write(data)
if self.connected then
transport.write(self, {
type = 'DATA',
seq = self.wseq,
data = data,
})
return true
end
end
function socketClass:ping()
if self.connected then
transport.write(self, {
type = 'PING',
seq = self.wseq,
})
return true
end
end
function socketClass:close()
if self.connected then
Logger.log('socket', 'closing socket ' .. self.sport)
self.transmit(self.dport, self.dhost, {
type = 'DISC',
})
self.connected = false
end
device.wireless_modem.close(self.sport)
transport.close(self)
end
local Socket = { }
local function loopback(port, sport, msg)
os.queueEvent('modem_message', 'loopback', port, sport, msg, 0)
end
local function newSocket(isLoopback)
for i = 16384, 32767 do
if not device.wireless_modem.isOpen(i) then
local socket = {
shost = os.getComputerID(),
sport = i,
transmit = device.wireless_modem.transmit,
wseq = math.random(100, 100000),
rseq = math.random(100, 100000),
timers = { },
messages = { },
}
setmetatable(socket, { __index = socketClass })
device.wireless_modem.open(socket.sport)
if isLoopback then
socket.transmit = loopback
end
return socket
end
end
error('No ports available')
end
function Socket.connect(host, port)
local socket = newSocket(host == os.getComputerID())
socket.dhost = host
Logger.log('socket', 'connecting to ' .. port)
socket.transmit(port, socket.sport, {
type = 'OPEN',
shost = socket.shost,
dhost = socket.dhost,
t = Crypto.encrypt({ ts = os.time(), seq = socket.seq }, os.getPublicKey()),
rseq = socket.wseq,
wseq = socket.rseq,
})
local timerId = os.startTimer(3)
repeat
local e, id, sport, dport, msg = os.pullEvent()
if e == 'modem_message' and
sport == socket.sport and
msg.dhost == socket.shost and
msg.type == 'CONN' then
socket.dport = dport
socket.connected = true
Logger.log('socket', 'connection established to %d %d->%d',
host, socket.sport, socket.dport)
os.cancelTimer(timerId)
transport.open(socket)
return socket
end
until e == 'timer' and id == timerId
socket:close()
end
local function trusted(msg, port)
if port == 19 or msg.shost == os.getComputerID() then
-- no auth for trust server or loopback
return true
end
local trustList = Util.readTable('.known_hosts') or { }
local pubKey = trustList[msg.shost]
if pubKey then
local data = Crypto.decrypt(msg.t or '', pubKey)
--local sharedKey = modexp(pubKey, exchange.secretKey, public.primeMod)
return data.ts and tonumber(data.ts) and math.abs(os.time() - data.ts) < 1
end
end
function Socket.server(port)
device.wireless_modem.open(port)
Logger.log('socket', 'Waiting for connections on port ' .. port)
while true do
local e, _, sport, dport, msg = os.pullEvent('modem_message')
if sport == port and
msg and
msg.dhost == os.getComputerID() and
msg.type == 'OPEN' then
if trusted(msg, port) then
local socket = newSocket(msg.shost == os.getComputerID())
socket.dport = dport
socket.dhost = msg.shost
socket.connected = true
socket.wseq = msg.wseq
socket.rseq = msg.rseq
socket.transmit(socket.dport, socket.sport, {
type = 'CONN',
dhost = socket.dhost,
shost = socket.shost,
})
Logger.log('socket', 'Connection established %d->%d', socket.sport, socket.dport)
transport.open(socket)
return socket
end
end
end
end
return Socket