cc-mek-scada/reactor-plc/startup.lua

299 lines
9.5 KiB
Lua

--
-- Reactor Programmable Logic Controller
--
os.loadAPI("scada-common/log.lua")
os.loadAPI("scada-common/util.lua")
os.loadAPI("scada-common/ppm.lua")
os.loadAPI("scada-common/comms.lua")
os.loadAPI("config.lua")
os.loadAPI("plc.lua")
local R_PLC_VERSION = "alpha-v0.2.6"
local print = util.print
local println = util.println
local print_ts = util.print_ts
local println_ts = util.println_ts
log._info("========================================")
log._info("BOOTING reactor-plc.startup " .. R_PLC_VERSION)
log._info("========================================")
println(">> Reactor PLC " .. R_PLC_VERSION .. " <<")
-- mount connected devices
ppm.mount_all()
local reactor = ppm.get_fission_reactor()
local modem = ppm.get_wireless_modem()
local networked = config.NETWORKED
local plc_state = {
init_ok = true,
scram = true,
degraded = false,
no_reactor = false,
no_modem = false
}
-- we need a reactor and a modem
if reactor == nil then
println("boot> fission reactor not found");
log._warning("no reactor on startup")
plc_state.init_ok = false
plc_state.degraded = true
plc_state.no_reactor = true
end
if networked and modem == nil then
println("boot> wireless modem not found")
log._warning("no wireless modem on startup")
if reactor ~= nil then
reactor.scram()
end
plc_state.init_ok = false
plc_state.degraded = true
plc_state.no_modem = true
end
local iss = nil
local plc_comms = nil
local conn_watchdog = nil
-- send status updates at ~3.33Hz (every 6 server ticks) (every 3 loop ticks)
-- send link requests at 0.5Hz (every 40 server ticks) (every 20 loop ticks)
local UPDATE_TICKS = 3
local LINK_TICKS = 20
local loop_clock = nil
local ticks_to_update = LINK_TICKS -- start by linking
function init()
if plc_state.init_ok then
-- just booting up, no fission allowed (neutrons stay put thanks)
reactor.scram()
-- init internal safety system
iss = plc.iss_init(reactor)
log._debug("iss init")
if networked then
-- start comms
plc_comms = plc.comms_init(config.REACTOR_ID, modem, config.LISTEN_PORT, config.SERVER_PORT, reactor, iss)
log._debug("comms init")
-- comms watchdog, 3 second timeout
conn_watchdog = util.new_watchdog(3)
log._debug("conn watchdog started")
else
println("boot> starting in offline mode");
log._debug("running without networking")
end
-- loop clock (10Hz, 2 ticks)
loop_clock = os.startTimer(0.05)
log._debug("loop clock started")
println("boot> completed");
else
println("boot> system in degraded state, awaiting devices...")
log._warning("booted in a degraded state, awaiting peripheral connections...")
end
end
-- initialize PLC
init()
-- event loop
while true do
local event, param1, param2, param3, param4, param5 = os.pullEventRaw()
if plc_state.init_ok then
-- if we tried to SCRAM but failed, keep trying
-- if it disconnected, isPowered will return nil (and error logs will get spammed at 10Hz, so disable reporting)
-- in that case, SCRAM won't be called until it reconnects (this is the expected use of this check)
ppm.disable_reporting()
if plc_state.scram and reactor.getStatus() then
reactor.scram()
end
ppm.enable_reporting()
end
-- check for peripheral changes before ISS checks
if event == "peripheral_detach" then
local device = ppm.handle_unmount(param1)
if device.type == "fissionReactor" then
println_ts("reactor disconnected!")
log._error("reactor disconnected!")
plc_state.no_reactor = true
plc_state.degraded = true
-- send an alarm: plc_comms.send_alarm(ALARMS.PLC_PERI_DC) ?
elseif networked and device.type == "modem" then
-- we only care if this is our wireless modem
if device.dev == modem then
println_ts("wireless modem disconnected!")
log._error("comms modem disconnected!")
plc_state.no_modem = true
if plc_state.init_ok then
-- try to scram reactor if it is still connected
plc_state.scram = true
if reactor.scram() then
println_ts("successful reactor SCRAM")
log._error("successful reactor SCRAM")
else
println_ts("failed reactor SCRAM")
log._error("failed reactor SCRAM")
end
end
plc_state.degraded = true
else
log._warning("non-comms modem disconnected")
end
end
elseif event == "peripheral" then
local type, device = ppm.mount(param1)
if type == "fissionReactor" then
-- reconnected reactor
reactor = device
plc_state.scram = true
reactor.scram()
println_ts("reactor reconnected.")
log._info("reactor reconnected.")
plc_state.no_reactor = false
if plc_state.init_ok then
iss.reconnect_reactor(reactor)
if networked then
plc_comms.reconnect_reactor(reactor)
end
end
-- determine if we are still in a degraded state
if not networked or ppm.get_device("modem") ~= nil then
plc_state.degraded = false
end
elseif networked and type == "modem" then
if device.isWireless() then
-- reconnected modem
modem = device
if plc_state.init_ok then
plc_comms.reconnect_modem(modem)
end
println_ts("wireless modem reconnected.")
log._info("comms modem reconnected.")
plc_state.no_modem = false
-- determine if we are still in a degraded state
if ppm.get_device("fissionReactor") ~= nil then
plc_state.degraded = false
end
else
log._info("wired modem reconnected.")
end
end
if not plc_state.init_ok and not plc_state.degraded then
plc_state.init_ok = true
init()
end
end
-- ISS
if plc_state.init_ok then
-- if we are in standalone mode, continuously reset ISS
-- ISS will trip again if there are faults, but if it isn't cleared, the user can't re-enable
if not networked then
plc_state.scram = false
iss.reset()
end
-- check safety (SCRAM occurs if tripped)
if not plc_state.degraded then
local iss_tripped, iss_status_string, iss_first = iss.check()
plc_state.scram = plc_state.scram or iss_tripped
if iss_first then
println_ts("[ISS] reactor shutdown, safety tripped: " .. iss_status_string)
if networked then
plc_comms.send_iss_alarm(iss_status_string)
end
end
else
reactor.scram()
end
end
-- handle event
if event == "timer" and param1 == loop_clock then
-- basic event tick, send updated data if it is time (~3.33Hz)
-- iss was already checked (that's the main reason for this tick rate)
if networked and not plc_state.no_modem then
ticks_to_update = ticks_to_update - 1
if plc_comms.is_linked() then
if ticks_to_update <= 0 then
plc_comms.send_status(iss_tripped, plc_state.degraded)
plc_comms.send_iss_status()
ticks_to_update = UPDATE_TICKS
end
else
if ticks_to_update <= 0 then
plc_comms.send_link_req()
ticks_to_update = LINK_TICKS
end
end
end
-- start next clock timer
loop_clock = os.startTimer(0.05)
elseif event == "modem_message" and networked and not plc_state.no_modem then
-- got a packet
-- feed the watchdog first so it doesn't uhh...eat our packets
conn_watchdog.feed()
-- handle the packet (plc_state passed to allow clearing SCRAM flag)
local packet = plc_comms.parse_packet(p1, p2, p3, p4, p5)
plc_comms.handle_packet(packet, plc_state)
elseif event == "timer" and networked and param1 == conn_watchdog.get_timer() then
-- haven't heard from server recently? shutdown reactor
plc_state.scram = true
plc_comms.unlink()
iss.trip_timeout()
println_ts("server timeout, reactor disabled")
log._warning("server timeout, reactor disabled")
end
-- check for termination request
if event == "terminate" or ppm.should_terminate() then
-- safe exit
log._warning("terminate requested, exiting...")
if plc_state.init_ok then
plc_state.scram = true
reactor.scram()
if reactor.__p_is_ok() then
println_ts("reactor disabled")
else
-- send an alarm: plc_comms.send_alarm(ALARMS.PLC_LOST_CONTROL) ?
println_ts("exiting, reactor failed to disable")
end
end
break
end
end
-- send an alarm: plc_comms.send_alarm(ALARMS.PLC_SHUTDOWN) ?
println_ts("exited")
log._info("exited")