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

269 lines
8.5 KiB
Lua

--
-- Reactor Programmable Logic Controller
--
require("/initenv").init_env()
local comms = require("scada-common.comms")
local crash = require("scada-common.crash")
local log = require("scada-common.log")
local mqueue = require("scada-common.mqueue")
local network = require("scada-common.network")
local ppm = require("scada-common.ppm")
local util = require("scada-common.util")
local configure = require("reactor-plc.configure")
local databus = require("reactor-plc.databus")
local plc = require("reactor-plc.plc")
local renderer = require("reactor-plc.renderer")
local threads = require("reactor-plc.threads")
local R_PLC_VERSION = "v1.6.5"
local println = util.println
local println_ts = util.println_ts
----------------------------------------
-- get configuration
----------------------------------------
if not plc.load_config() then
-- try to reconfigure (user action)
local success, error = configure.configure(true)
if success then
assert(plc.load_config(), "failed to load valid reactor PLC configuration")
else
assert(success, "reactor PLC configuration error: " .. error)
end
end
local config = plc.config
----------------------------------------
-- log init
----------------------------------------
log.init(config.LogPath, config.LogMode, config.LogDebug)
log.info("========================================")
log.info("BOOTING reactor-plc.startup " .. R_PLC_VERSION)
log.info("========================================")
println(">> Reactor PLC " .. R_PLC_VERSION .. " <<")
crash.set_env("reactor-plc", R_PLC_VERSION)
----------------------------------------
-- main application
----------------------------------------
local function main()
----------------------------------------
-- startup
----------------------------------------
-- record firmware versions and ID
databus.tx_versions(R_PLC_VERSION, comms.version)
databus.tx_id(config.UnitID)
-- mount connected devices
ppm.mount_all()
-- message authentication init
if type(config.AuthKey) == "string" and string.len(config.AuthKey) > 0 then
network.init_mac(config.AuthKey)
end
-- shared memory across threads
---@class plc_shared_memory
local __shared_memory = {
-- networked setting
networked = config.Networked,
-- PLC system state flags
---@class plc_state
plc_state = {
init_ok = true,
fp_ok = false,
shutdown = false,
degraded = true,
reactor_formed = true,
no_reactor = true,
no_modem = true
},
-- control setpoints
---@class setpoints
setpoints = {
burn_rate_en = false,
burn_rate = 0.0
},
-- core PLC devices
plc_dev = {
reactor = ppm.get_fission_reactor(),
modem = ppm.get_wireless_modem()
},
-- system objects
plc_sys = {
rps = nil, ---@type rps
nic = nil, ---@type nic
plc_comms = nil, ---@type plc_comms
conn_watchdog = nil ---@type watchdog
},
-- message queues
q = {
mq_rps = mqueue.new(),
mq_comms_tx = mqueue.new(),
mq_comms_rx = mqueue.new()
}
}
local smem_dev = __shared_memory.plc_dev
local smem_sys = __shared_memory.plc_sys
local plc_state = __shared_memory.plc_state
-- initial state evaluation
plc_state.no_reactor = smem_dev.reactor == nil
plc_state.no_modem = smem_dev.modem == nil
-- we need a reactor, can at least do some things even if it isn't formed though
if plc_state.no_reactor then
println("init> fission reactor not found");
log.warning("init> no reactor on startup")
plc_state.init_ok = false
plc_state.degraded = true
elseif not smem_dev.reactor.isFormed() then
println("init> fission reactor not formed");
log.warning("init> reactor logic adapter present, but reactor is not formed")
plc_state.degraded = true
plc_state.reactor_formed = false
end
-- modem is required if networked
if __shared_memory.networked and plc_state.no_modem then
println("init> wireless modem not found")
log.warning("init> no wireless modem on startup")
-- scram reactor if present and enabled
if (smem_dev.reactor ~= nil) and plc_state.reactor_formed and smem_dev.reactor.getStatus() then
smem_dev.reactor.scram()
end
plc_state.init_ok = false
plc_state.degraded = true
end
-- print a log message to the terminal as long as the UI isn't running
local function _println_no_fp(message) if not plc_state.fp_ok then println(message) end end
-- PLC init<br>
--- EVENT_CONSUMER: this function consumes events
local function init()
-- just booting up, no fission allowed (neutrons stay put thanks)
if (not plc_state.no_reactor) and plc_state.reactor_formed and smem_dev.reactor.getStatus() then
smem_dev.reactor.scram()
end
-- front panel time!
if not renderer.ui_ready() then
local message
plc_state.fp_ok, message = renderer.try_start_ui()
if not plc_state.fp_ok then
println_ts(util.c("UI error: ", message))
println("init> running without front panel")
log.error(util.c("front panel GUI render failed with error ", message))
log.info("init> running in headless mode without front panel")
end
end
if plc_state.init_ok then
-- init reactor protection system
smem_sys.rps = plc.rps_init(smem_dev.reactor, plc_state.reactor_formed)
log.debug("init> rps init")
if __shared_memory.networked then
-- comms watchdog
smem_sys.conn_watchdog = util.new_watchdog(config.ConnTimeout)
log.debug("init> conn watchdog started")
-- create network interface then setup comms
smem_sys.nic = network.nic(smem_dev.modem)
smem_sys.plc_comms = plc.comms(R_PLC_VERSION, smem_sys.nic, smem_dev.reactor, smem_sys.rps, smem_sys.conn_watchdog)
log.debug("init> comms init")
else
_println_no_fp("init> starting in offline mode")
log.info("init> running without networking")
end
-- notify user of emergency coolant configuration status
if config.EmerCoolEnable then
println("init> emergency coolant control ready")
log.info("init> running with emergency coolant control available")
end
util.push_event("clock_start")
_println_no_fp("init> completed")
log.info("init> startup completed")
else
_println_no_fp("init> system in degraded state, awaiting devices...")
log.warning("init> started in a degraded state, awaiting peripheral connections...")
end
databus.tx_hw_status(plc_state)
end
----------------------------------------
-- start system
----------------------------------------
-- initialize PLC
init()
-- init threads
local main_thread = threads.thread__main(__shared_memory, init)
local rps_thread = threads.thread__rps(__shared_memory)
if __shared_memory.networked then
-- init comms threads
local comms_thread_tx = threads.thread__comms_tx(__shared_memory)
local comms_thread_rx = threads.thread__comms_rx(__shared_memory)
-- setpoint control only needed when networked
local sp_ctrl_thread = threads.thread__setpoint_control(__shared_memory)
-- run threads
parallel.waitForAll(main_thread.p_exec, rps_thread.p_exec, comms_thread_tx.p_exec, comms_thread_rx.p_exec, sp_ctrl_thread.p_exec)
if plc_state.init_ok then
-- send status one last time after RPS shutdown
smem_sys.plc_comms.send_status(plc_state.no_reactor, plc_state.reactor_formed)
smem_sys.plc_comms.send_rps_status()
-- close connection
smem_sys.plc_comms.close()
end
else
-- run threads, excluding comms
parallel.waitForAll(main_thread.p_exec, rps_thread.p_exec)
end
renderer.close_ui()
println_ts("exited")
log.info("exited")
end
if not xpcall(main, crash.handler) then
pcall(renderer.close_ui)
crash.exit()
else
log.close()
end