Minecraft/cc-mek-scada
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cc-mek-scada/reactor-plc/threads.lua
Mikayla Fischler a8071db08e #51 send serialized data to properly MAC
2023-06-27 18:36:16 -04:00

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local log = require("scada-common.log")
local mqueue = require("scada-common.mqueue")
local ppm = require("scada-common.ppm")
local tcd = require("scada-common.tcd")
local util = require("scada-common.util")
local databus = require("reactor-plc.databus")
local renderer = require("reactor-plc.renderer")
local core = require("graphics.core")
local threads = {}
local MAIN_CLOCK = 0.5 -- (2Hz, 10 ticks)
local RPS_SLEEP = 250 -- (250ms, 5 ticks)
local COMMS_SLEEP = 150 -- (150ms, 3 ticks)
local SP_CTRL_SLEEP = 250 -- (250ms, 5 ticks)
local BURN_RATE_RAMP_mB_s = 5.0
local MQ__RPS_CMD = {
SCRAM = 1,
DEGRADED_SCRAM = 2,
TRIP_TIMEOUT = 3
}
local MQ__COMM_CMD = {
SEND_STATUS = 1
}
-- main thread
---@nodiscard
---@param smem plc_shared_memory
---@param init function
function threads.thread__main(smem, init)
-- print a log message to the terminal as long as the UI isn't running
local function println_ts(message) if not smem.plc_state.fp_ok then util.println_ts(message) end end
---@class parallel_thread
local public = {}
-- execute thread
function public.exec()
databus.tx_rt_status("main", true)
log.debug("main thread init, clock inactive")
-- send status updates at 2Hz (every 10 server ticks) (every loop tick)
-- send link requests at 0.5Hz (every 40 server ticks) (every 8 loop ticks)
local LINK_TICKS = 8
local ticks_to_update = 0
local loop_clock = util.new_clock(MAIN_CLOCK)
-- load in from shared memory
local networked = smem.networked
local plc_state = smem.plc_state
local plc_dev = smem.plc_dev
-- event loop
while true do
-- get plc_sys fields (may have been set late due to degraded boot)
local rps = smem.plc_sys.rps
local nic = smem.plc_sys.nic
local plc_comms = smem.plc_sys.plc_comms
local conn_watchdog = smem.plc_sys.conn_watchdog
local event, param1, param2, param3, param4, param5 = util.pull_event()
-- handle event
if event == "timer" and loop_clock.is_clock(param1) then
-- note: loop clock is only running if init_ok = true
-- blink heartbeat indicator
databus.heartbeat()
-- core clock tick
if networked then
-- start next clock timer
loop_clock.start()
-- send updated data
if nic.connected() then
if plc_comms.is_linked() then
smem.q.mq_comms_tx.push_command(MQ__COMM_CMD.SEND_STATUS)
else
if ticks_to_update == 0 then
plc_comms.send_link_req()
ticks_to_update = LINK_TICKS
else
ticks_to_update = ticks_to_update - 1
end
end
end
end
-- are we now formed after waiting to be formed?
if (not plc_state.reactor_formed) and rps.is_formed() then
-- push a connect event and unmount it from the PPM
local iface = ppm.get_iface(plc_dev.reactor)
if iface then
log.info("unmounting and remounting unformed reactor")
ppm.unmount(plc_dev.reactor)
local type, device = ppm.mount(iface)
if type == "fissionReactorLogicAdapter" and device ~= nil then
-- reconnect reactor
plc_dev.reactor = device
-- we need to assume formed here as we cannot check in this main loop
-- RPS will identify if it isn't and this will get set false later
plc_state.reactor_formed = true
println_ts("reactor reconnected.")
log.info("reactor reconnected")
-- SCRAM newly connected reactor
smem.q.mq_rps.push_command(MQ__RPS_CMD.SCRAM)
-- determine if we are still in a degraded state
if (not networked) or nic.connected() then
plc_state.degraded = false
end
rps.reconnect_reactor(plc_dev.reactor)
if networked then
plc_comms.reconnect_reactor(plc_dev.reactor)
end
-- reset RPS for newly connected reactor
-- without this, is_formed will be out of date and cause it to think its no longer formed again
rps.reset()
else
-- fully lost the reactor now :(
println_ts("reactor lost (failed reconnect)!")
log.error("reactor lost (failed reconnect)")
plc_state.no_reactor = true
plc_state.degraded = true
end
else
log.error("failed to get interface of previously connected reactor", true)
end
elseif not rps.is_formed() then
-- reactor no longer formed
plc_state.reactor_formed = false
end
-- update indicators
databus.tx_hw_status(plc_state)
elseif event == "modem_message" and networked and plc_state.init_ok and nic.connected() then
-- got a packet
local packet = plc_comms.parse_packet(param1, param2, param3, param4, param5)
if packet ~= nil then
-- pass the packet onto the comms message queue
smem.q.mq_comms_rx.push_packet(packet)
end
elseif event == "timer" and networked and plc_state.init_ok and conn_watchdog.is_timer(param1) then
-- haven't heard from server recently? shutdown reactor
plc_comms.unlink()
smem.q.mq_rps.push_command(MQ__RPS_CMD.TRIP_TIMEOUT)
elseif event == "timer" then
-- notify timer callback dispatcher if no other timer case claimed this event
tcd.handle(param1)
elseif event == "peripheral_detach" then
-- peripheral disconnect
local type, device = ppm.handle_unmount(param1)
if type ~= nil and device ~= nil then
if type == "fissionReactorLogicAdapter" then
println_ts("reactor disconnected!")
log.error("reactor logic adapter disconnected")
plc_state.no_reactor = true
plc_state.degraded = true
elseif networked and type == "modem" then
-- we only care if this is our wireless modem
if nic.is_modem(device) then
nic.disconnect()
println_ts("comms 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
smem.q.mq_rps.push_command(MQ__RPS_CMD.DEGRADED_SCRAM)
end
plc_state.degraded = true
else
log.warning("non-comms modem disconnected")
end
end
end
-- update indicators
databus.tx_hw_status(plc_state)
elseif event == "peripheral" then
-- peripheral connect
local type, device = ppm.mount(param1)
if type ~= nil and device ~= nil then
if type == "fissionReactorLogicAdapter" then
-- reconnected reactor
plc_dev.reactor = device
plc_state.no_reactor = false
println_ts("reactor reconnected.")
log.info("reactor reconnected")
-- we need to assume formed here as we cannot check in this main loop
-- RPS will identify if it isn't and this will get set false later
plc_state.reactor_formed = true
-- determine if we are still in a degraded state
if (not networked or not plc_state.no_modem) and plc_state.reactor_formed then
plc_state.degraded = false
end
if plc_state.init_ok then
smem.q.mq_rps.push_command(MQ__RPS_CMD.SCRAM)
rps.reconnect_reactor(plc_dev.reactor)
if networked then
plc_comms.reconnect_reactor(plc_dev.reactor)
end
-- reset RPS for newly connected reactor
-- without this, is_formed will be out of date and cause it to think its no longer formed again
rps.reset()
end
elseif networked and type == "modem" then
if device.isWireless() then
-- reconnected modem
plc_dev.modem = device
plc_state.no_modem = false
if plc_state.init_ok then nic.connect(device) end
println_ts("wireless modem reconnected.")
log.info("comms modem reconnected")
-- determine if we are still in a degraded state
if not plc_state.no_reactor then
plc_state.degraded = false
end
else
log.info("wired modem reconnected")
end
end
end
-- if not init'd and no longer degraded, proceed to init
if not plc_state.init_ok and not plc_state.degraded then
plc_state.init_ok = true
init()
end
-- update indicators
databus.tx_hw_status(plc_state)
elseif event == "mouse_click" or event == "mouse_up" or event == "mouse_drag" or event == "mouse_scroll" then
-- handle a mouse event
renderer.handle_mouse(core.events.new_mouse_event(event, param1, param2, param3))
elseif event == "clock_start" then
-- start loop clock
loop_clock.start()
log.debug("main thread clock started")
end
-- check for termination request
if event == "terminate" or ppm.should_terminate() then
log.info("terminate requested, main thread exiting")
-- rps handles reactor shutdown
plc_state.shutdown = true
break
end
end
end
-- execute the thread in a protected mode, retrying it on return if not shutting down
function public.p_exec()
local plc_state = smem.plc_state
while not plc_state.shutdown do
local status, result = pcall(public.exec)
if status == false then
log.fatal(util.strval(result))
end
databus.tx_rt_status("main", false)
-- if status is true, then we are probably exiting, so this won't matter
-- if not, we need to restart the clock
-- this thread cannot be slept because it will miss events (namely "terminate" otherwise)
if not plc_state.shutdown then
log.info("main thread restarting now...")
util.push_event("clock_start")
end
end
end
return public
end
-- RPS operation thread
---@nodiscard
---@param smem plc_shared_memory
function threads.thread__rps(smem)
-- print a log message to the terminal as long as the UI isn't running
local function println_ts(message) if not smem.plc_state.fp_ok then util.println_ts(message) end end
---@class parallel_thread
local public = {}
-- execute thread
function public.exec()
databus.tx_rt_status("rps", true)
log.debug("rps thread start")
-- load in from shared memory
local networked = smem.networked
local plc_state = smem.plc_state
local plc_dev = smem.plc_dev
local rps_queue = smem.q.mq_rps
local was_linked = false
local last_update = util.time()
-- thread loop
while true do
-- get plc_sys fields (may have been set late due to degraded boot)
local rps = smem.plc_sys.rps
local plc_comms = smem.plc_sys.plc_comms
-- get reactor, may have changed do to disconnect/reconnect
local reactor = plc_dev.reactor
-- RPS checks
if plc_state.init_ok then
-- SCRAM if no open connection
if networked and not plc_comms.is_linked() then
if was_linked then
was_linked = false
rps.trip_timeout()
end
else
was_linked = true
end
if (not plc_state.no_reactor) and rps.is_formed() then
-- check reactor status
---@diagnostic disable-next-line: need-check-nil
local reactor_status = reactor.getStatus()
databus.tx_reactor_state(reactor_status)
-- if we tried to SCRAM but failed, keep trying
-- in that case, SCRAM won't be called until it reconnects (this is the expected use of this check)
if rps.is_tripped() and reactor_status then
rps.scram()
end
end
-- if we are in standalone mode, continuously reset RPS
-- RPS will trip again if there are faults, but if it isn't cleared, the user can't re-enable
if not networked then rps.reset(true) end
-- check safety (SCRAM occurs if tripped)
if not plc_state.no_reactor then
local rps_tripped, rps_status_string, rps_first = rps.check()
if rps_tripped and rps_first then
println_ts("[RPS] SCRAM! safety trip: " .. rps_status_string)
if networked and not plc_state.no_modem then
plc_comms.send_rps_alarm(rps_status_string)
end
end
end
end
-- check for messages in the message queue
while rps_queue.ready() and not plc_state.shutdown do
local msg = rps_queue.pop()
if msg ~= nil then
if msg.qtype == mqueue.TYPE.COMMAND then
-- received a command
if plc_state.init_ok then
if msg.message == MQ__RPS_CMD.SCRAM then
-- SCRAM
rps.scram()
elseif msg.message == MQ__RPS_CMD.DEGRADED_SCRAM then
-- lost peripheral(s)
rps.trip_fault()
elseif msg.message == MQ__RPS_CMD.TRIP_TIMEOUT then
-- watchdog tripped
rps.trip_timeout()
println_ts("server timeout")
log.warning("server timeout")
end
end
elseif msg.qtype == mqueue.TYPE.DATA then
-- received data
elseif msg.qtype == mqueue.TYPE.PACKET then
-- received a packet
end
end
-- quick yield
util.nop()
end
-- check for termination request
if plc_state.shutdown then
-- safe exit
log.info("rps thread shutdown initiated")
if plc_state.init_ok then
if rps.scram() then
println_ts("reactor disabled")
log.info("rps thread reactor SCRAM OK")
else
println_ts("exiting, reactor failed to disable")
log.error("rps thread failed to SCRAM reactor on exit")
end
end
log.info("rps thread exiting")
break
end
-- delay before next check
last_update = util.adaptive_delay(RPS_SLEEP, last_update)
end
end
-- execute the thread in a protected mode, retrying it on return if not shutting down
function public.p_exec()
local plc_state = smem.plc_state
while not plc_state.shutdown do
local status, result = pcall(public.exec)
if status == false then
log.fatal(util.strval(result))
end
databus.tx_rt_status("rps", false)
if not plc_state.shutdown then
if plc_state.init_ok then smem.plc_sys.rps.scram() end
log.info("rps thread restarting in 5 seconds...")
util.psleep(5)
end
end
end
return public
end
-- communications sender thread
---@nodiscard
---@param smem plc_shared_memory
function threads.thread__comms_tx(smem)
---@class parallel_thread
local public = {}
-- execute thread
function public.exec()
databus.tx_rt_status("comms_tx", true)
log.debug("comms tx thread start")
-- load in from shared memory
local plc_state = smem.plc_state
local comms_queue = smem.q.mq_comms_tx
local last_update = util.time()
-- thread loop
while true do
-- get plc_sys fields (may have been set late due to degraded boot)
local plc_comms = smem.plc_sys.plc_comms
-- check for messages in the message queue
while comms_queue.ready() and not plc_state.shutdown do
local msg = comms_queue.pop()
if msg ~= nil and plc_state.init_ok then
if msg.qtype == mqueue.TYPE.COMMAND then
-- received a command
if msg.message == MQ__COMM_CMD.SEND_STATUS then
-- send PLC/RPS status
plc_comms.send_status(plc_state.no_reactor, plc_state.reactor_formed)
plc_comms.send_rps_status()
end
elseif msg.qtype == mqueue.TYPE.DATA then
-- received data
elseif msg.qtype == mqueue.TYPE.PACKET then
-- received a packet
end
end
-- quick yield
util.nop()
end
-- check for termination request
if plc_state.shutdown then
log.info("comms tx thread exiting")
break
end
-- delay before next check
last_update = util.adaptive_delay(COMMS_SLEEP, last_update)
end
end
-- execute the thread in a protected mode, retrying it on return if not shutting down
function public.p_exec()
local plc_state = smem.plc_state
while not plc_state.shutdown do
local status, result = pcall(public.exec)
if status == false then
log.fatal(util.strval(result))
end
databus.tx_rt_status("comms_tx", false)
if not plc_state.shutdown then
log.info("comms tx thread restarting in 5 seconds...")
util.psleep(5)
end
end
end
return public
end
-- communications handler thread
---@nodiscard
---@param smem plc_shared_memory
function threads.thread__comms_rx(smem)
---@class parallel_thread
local public = {}
-- execute thread
function public.exec()
databus.tx_rt_status("comms_rx", true)
log.debug("comms rx thread start")
-- load in from shared memory
local plc_state = smem.plc_state
local setpoints = smem.setpoints
local comms_queue = smem.q.mq_comms_rx
local last_update = util.time()
-- thread loop
while true do
-- get plc_sys fields (may have been set late due to degraded boot)
local plc_comms = smem.plc_sys.plc_comms
-- check for messages in the message queue
while comms_queue.ready() and not plc_state.shutdown do
local msg = comms_queue.pop()
if msg ~= nil and plc_state.init_ok then
if msg.qtype == mqueue.TYPE.COMMAND then
-- received a command
elseif msg.qtype == mqueue.TYPE.DATA then
-- received data
elseif msg.qtype == mqueue.TYPE.PACKET then
-- received a packet
-- handle the packet (setpoints passed to update burn rate setpoint)
-- (plc_state passed to check if degraded)
plc_comms.handle_packet(msg.message, plc_state, setpoints)
end
end
-- quick yield
util.nop()
end
-- check for termination request
if plc_state.shutdown then
log.info("comms rx thread exiting")
break
end
-- delay before next check
last_update = util.adaptive_delay(COMMS_SLEEP, last_update)
end
end
-- execute the thread in a protected mode, retrying it on return if not shutting down
function public.p_exec()
local plc_state = smem.plc_state
while not plc_state.shutdown do
local status, result = pcall(public.exec)
if status == false then
log.fatal(util.strval(result))
end
databus.tx_rt_status("comms_rx", false)
if not plc_state.shutdown then
log.info("comms rx thread restarting in 5 seconds...")
util.psleep(5)
end
end
end
return public
end
-- ramp control outputs to desired setpoints
---@nodiscard
---@param smem plc_shared_memory
function threads.thread__setpoint_control(smem)
---@class parallel_thread
local public = {}
-- execute thread
function public.exec()
databus.tx_rt_status("spctl", true)
log.debug("setpoint control thread start")
-- load in from shared memory
local plc_state = smem.plc_state
local setpoints = smem.setpoints
local plc_dev = smem.plc_dev
local last_update = util.time()
local running = false
local last_burn_sp = 0.0
-- do not use the actual elapsed time, it could spike
-- we do not want to have big jumps as that is what we are trying to avoid in the first place
local min_elapsed_s = SP_CTRL_SLEEP / 1000.0
-- thread loop
while true do
-- get plc_sys fields (may have been set late due to degraded boot)
local rps = smem.plc_sys.rps
-- get reactor, may have changed do to disconnect/reconnect
local reactor = plc_dev.reactor
if plc_state.init_ok and (not plc_state.no_reactor) then
-- check if we should start ramping
if setpoints.burn_rate_en and (setpoints.burn_rate ~= last_burn_sp) then
---@diagnostic disable-next-line: need-check-nil
local cur_burn_rate = reactor.getBurnRate()
if (type(cur_burn_rate) == "number") and (setpoints.burn_rate ~= cur_burn_rate) and rps.is_active() then
last_burn_sp = setpoints.burn_rate
-- update without ramp if <= 2.5 mB/t change
running = math.abs(setpoints.burn_rate - cur_burn_rate) > 2.5
if running then
log.debug(util.c("SPCTL: starting burn rate ramp from ", cur_burn_rate, " mB/t to ", setpoints.burn_rate, " mB/t"))
else
log.debug(util.c("SPCTL: setting burn rate directly to ", setpoints.burn_rate, " mB/t"))
---@diagnostic disable-next-line: need-check-nil
reactor.setBurnRate(setpoints.burn_rate)
end
end
end
-- only check I/O if active to save on processing time
if running then
-- clear so we can later evaluate if we should keep running
running = false
-- adjust burn rate (setpoints.burn_rate)
if setpoints.burn_rate_en then
if rps.is_active() then
---@diagnostic disable-next-line: need-check-nil
local current_burn_rate = reactor.getBurnRate()
-- we yielded, check enable again
if setpoints.burn_rate_en and (type(current_burn_rate) == "number") and (current_burn_rate ~= setpoints.burn_rate) then
-- calculate new burn rate
local new_burn_rate ---@type number
if setpoints.burn_rate > current_burn_rate then
-- need to ramp up
new_burn_rate = current_burn_rate + (BURN_RATE_RAMP_mB_s * min_elapsed_s)
if new_burn_rate > setpoints.burn_rate then new_burn_rate = setpoints.burn_rate end
else
-- need to ramp down
new_burn_rate = current_burn_rate - (BURN_RATE_RAMP_mB_s * min_elapsed_s)
if new_burn_rate < setpoints.burn_rate then new_burn_rate = setpoints.burn_rate end
end
running = running or (new_burn_rate ~= setpoints.burn_rate)
-- set the burn rate
---@diagnostic disable-next-line: need-check-nil
reactor.setBurnRate(new_burn_rate)
end
else
log.debug("SPCTL: ramping aborted (reactor inactive)")
setpoints.burn_rate_en = false
end
end
elseif setpoints.burn_rate_en then
log.debug(util.c("SPCTL: ramping completed (setpoint of ", setpoints.burn_rate, " mB/t)"))
setpoints.burn_rate_en = false
end
-- if ramping completed or was aborted, reset last burn setpoint so that if it is requested again it will be re-attempted
if not setpoints.burn_rate_en then last_burn_sp = 0 end
end
-- check for termination request
if plc_state.shutdown then
log.info("setpoint control thread exiting")
break
end
-- delay before next check
last_update = util.adaptive_delay(SP_CTRL_SLEEP, last_update)
end
end
-- execute the thread in a protected mode, retrying it on return if not shutting down
function public.p_exec()
local plc_state = smem.plc_state
while not plc_state.shutdown do
local status, result = pcall(public.exec)
if status == false then
log.fatal(util.strval(result))
end
databus.tx_rt_status("spctl", false)
if not plc_state.shutdown then
log.info("setpoint control thread restarting in 5 seconds...")
util.psleep(5)
end
end
end
return public
end
return threads
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