cc-mek-scada/supervisor/session/svsessions.lua

437 lines
14 KiB
Lua

local log = require("scada-common.log")
local mqueue = require("scada-common.mqueue")
local util = require("scada-common.util")
local config = require("supervisor.config")
local facility = require("supervisor.facility")
local svqtypes = require("supervisor.session.svqtypes")
local coordinator = require("supervisor.session.coordinator")
local plc = require("supervisor.session.plc")
local rtu = require("supervisor.session.rtu")
-- Supervisor Sessions Handler
local SV_Q_CMDS = svqtypes.SV_Q_CMDS
local SV_Q_DATA = svqtypes.SV_Q_DATA
local PLC_S_CMDS = plc.PLC_S_CMDS
local PLC_S_DATA = plc.PLC_S_DATA
local CRD_S_CMDS = coordinator.CRD_S_CMDS
local CRD_S_DATA = coordinator.CRD_S_DATA
local svsessions = {}
local SESSION_TYPE = {
RTU_SESSION = 0,
PLC_SESSION = 1,
COORD_SESSION = 2
}
svsessions.SESSION_TYPE = SESSION_TYPE
local self = {
modem = nil,
num_reactors = 0,
facility = nil, ---@type facility
rtu_sessions = {},
plc_sessions = {},
coord_sessions = {},
next_rtu_id = 0,
next_plc_id = 0,
next_coord_id = 0
}
-- PRIVATE FUNCTIONS --
-- handle a session output queue
---@param session plc_session_struct|rtu_session_struct|coord_session_struct
local function _sv_handle_outq(session)
-- record handler start time
local handle_start = util.time()
-- process output queue
while session.out_queue.ready() do
-- get a new message to process
local msg = session.out_queue.pop()
if msg ~= nil then
if msg.qtype == mqueue.TYPE.PACKET then
-- handle a packet to be sent
self.modem.transmit(session.r_port, session.l_port, msg.message.raw_sendable())
elseif msg.qtype == mqueue.TYPE.COMMAND then
-- handle instruction/notification
local cmd = msg.message
if (cmd == SV_Q_CMDS.BUILD_CHANGED) and (svsessions.get_coord_session() ~= nil) then
-- notify coordinator that a build has changed
svsessions.get_coord_session().in_queue.push_command(CRD_S_CMDS.RESEND_BUILDS)
end
elseif msg.qtype == mqueue.TYPE.DATA then
-- instruction/notification with body
local cmd = msg.message ---@type queue_data
if cmd.key < SV_Q_DATA.__END_PLC_CMDS__ then
-- PLC commands from coordinator
local plc_s = svsessions.get_reactor_session(cmd.val[1])
if plc_s ~= nil then
if cmd.key == SV_Q_DATA.START then
plc_s.in_queue.push_command(PLC_S_CMDS.ENABLE)
elseif cmd.key == SV_Q_DATA.SCRAM then
plc_s.in_queue.push_command(PLC_S_CMDS.SCRAM)
elseif cmd.key == SV_Q_DATA.RESET_RPS then
plc_s.in_queue.push_command(PLC_S_CMDS.RPS_RESET)
elseif cmd.key == SV_Q_DATA.SET_BURN and type(cmd.val) == "table" and #cmd.val == 2 then
plc_s.in_queue.push_data(PLC_S_DATA.BURN_RATE, cmd.val[2])
else
log.debug(util.c("unknown PLC SV queue command ", cmd.key))
end
end
else
if cmd.key == SV_Q_DATA.CRDN_ACK then
-- ack to be sent to coordinator
local crd_s = svsessions.get_coord_session()
if crd_s ~= nil then
crd_s.in_queue.push_data(CRD_S_DATA.CMD_ACK, cmd.val)
end
end
end
end
end
-- max 100ms spent processing queue
if util.time() - handle_start > 100 then
log.warning("supervisor out queue handler exceeded 100ms queue process limit")
log.warning(util.c("offending session: port ", session.r_port, " type '", session.s_type, "'"))
break
end
end
end
-- iterate all the given sessions
---@param sessions table
local function _iterate(sessions)
for i = 1, #sessions do
local session = sessions[i] ---@type plc_session_struct|rtu_session_struct|coord_session_struct
if session.open and session.instance.iterate() then
_sv_handle_outq(session)
else
session.open = false
end
end
end
-- cleanly close a session
---@param session plc_session_struct|rtu_session_struct
local function _shutdown(session)
session.open = false
session.instance.close()
-- send packets in out queue (namely the close packet)
while session.out_queue.ready() do
local msg = session.out_queue.pop()
if msg ~= nil and msg.qtype == mqueue.TYPE.PACKET then
self.modem.transmit(session.r_port, session.l_port, msg.message.raw_sendable())
end
end
log.debug(util.c("closed ", session.s_type, " session ", session.instance.get_id(), " on remote port ", session.r_port))
end
-- close connections
---@param sessions table
local function _close(sessions)
for i = 1, #sessions do
local session = sessions[i] ---@type plc_session_struct|rtu_session_struct
if session.open then
_shutdown(session)
end
end
end
-- check if a watchdog timer event matches that of one of the provided sessions
---@param sessions table
---@param timer_event number
local function _check_watchdogs(sessions, timer_event)
for i = 1, #sessions do
local session = sessions[i] ---@type plc_session_struct|rtu_session_struct
if session.open then
local triggered = session.instance.check_wd(timer_event)
if triggered then
log.debug(util.c("watchdog closing ", session.s_type, " session ", session.instance.get_id(),
" on remote port ", session.r_port, "..."))
_shutdown(session)
end
end
end
end
-- delete any closed sessions
---@param sessions table
local function _free_closed(sessions)
local f = function (session) return session.open end
local on_delete = function (session)
log.debug(util.c("free'ing closed ", session.s_type, " session ", session.instance.get_id(),
" on remote port ", session.r_port))
end
util.filter_table(sessions, f, on_delete)
end
-- find a session by remote port
---@param list table
---@param port integer
---@return plc_session_struct|rtu_session_struct|nil
local function _find_session(list, port)
for i = 1, #list do
if list[i].r_port == port then return list[i] end
end
return nil
end
-- PUBLIC FUNCTIONS --
-- initialize svsessions
---@param modem table
---@param num_reactors integer
---@param cooling_conf table
function svsessions.init(modem, num_reactors, cooling_conf)
self.modem = modem
self.num_reactors = num_reactors
self.facility = facility.new(num_reactors, cooling_conf)
end
-- re-link the modem
---@param modem table
function svsessions.relink_modem(modem)
self.modem = modem
end
-- find an RTU session by the remote port
---@param remote_port integer
---@return rtu_session_struct|nil
function svsessions.find_rtu_session(remote_port)
-- check RTU sessions
---@diagnostic disable-next-line: return-type-mismatch
return _find_session(self.rtu_sessions, remote_port)
end
-- find a PLC session by the remote port
---@param remote_port integer
---@return plc_session_struct|nil
function svsessions.find_plc_session(remote_port)
-- check PLC sessions
---@diagnostic disable-next-line: return-type-mismatch
return _find_session(self.plc_sessions, remote_port)
end
-- find a PLC/RTU session by the remote port
---@param remote_port integer
---@return plc_session_struct|rtu_session_struct|nil
function svsessions.find_device_session(remote_port)
-- check RTU sessions
local s = _find_session(self.rtu_sessions, remote_port)
-- check PLC sessions
if s == nil then s = _find_session(self.plc_sessions, remote_port) end
return s
end
-- find a coordinator session by the remote port
--
-- only one coordinator is allowed, but this is kept to be consistent with all other session tables
---@param remote_port integer
---@return nil
function svsessions.find_coord_session(remote_port)
-- check coordinator sessions
---@diagnostic disable-next-line: return-type-mismatch
return _find_session(self.coord_sessions, remote_port)
end
-- get the a coordinator session if exists
---@return coord_session_struct|nil
function svsessions.get_coord_session()
return self.coord_sessions[1]
end
-- get a session by reactor ID
---@param reactor integer
---@return plc_session_struct|nil session
function svsessions.get_reactor_session(reactor)
local session = nil
for i = 1, #self.plc_sessions do
if self.plc_sessions[i].reactor == reactor then
session = self.plc_sessions[i]
end
end
return session
end
-- establish a new PLC session
---@param local_port integer
---@param remote_port integer
---@param for_reactor integer
---@param version string
---@return integer|false session_id
function svsessions.establish_plc_session(local_port, remote_port, for_reactor, version)
if svsessions.get_reactor_session(for_reactor) == nil and for_reactor >= 1 and for_reactor <= self.num_reactors then
---@class plc_session_struct
local plc_s = {
s_type = "plc",
open = true,
reactor = for_reactor,
version = version,
l_port = local_port,
r_port = remote_port,
in_queue = mqueue.new(),
out_queue = mqueue.new(),
instance = nil ---@type plc_session
}
plc_s.instance = plc.new_session(self.next_plc_id, for_reactor, plc_s.in_queue, plc_s.out_queue, config.PLC_TIMEOUT)
table.insert(self.plc_sessions, plc_s)
local units = self.facility.get_units()
units[for_reactor].link_plc_session(plc_s)
log.debug(util.c("established new PLC session to ", remote_port, " with ID ", self.next_plc_id, " for reactor ", for_reactor))
self.next_plc_id = self.next_plc_id + 1
-- success
return plc_s.instance.get_id()
else
-- reactor already assigned to a PLC or ID out of range
return false
end
end
-- establish a new RTU session
---@param local_port integer
---@param remote_port integer
---@param advertisement table
---@param version string
---@return integer session_id
function svsessions.establish_rtu_session(local_port, remote_port, advertisement, version)
---@class rtu_session_struct
local rtu_s = {
s_type = "rtu",
open = true,
version = version,
l_port = local_port,
r_port = remote_port,
in_queue = mqueue.new(),
out_queue = mqueue.new(),
instance = nil ---@type rtu_session
}
rtu_s.instance = rtu.new_session(self.next_rtu_id, rtu_s.in_queue, rtu_s.out_queue, config.RTU_TIMEOUT, advertisement, self.facility)
table.insert(self.rtu_sessions, rtu_s)
log.debug("established new RTU session to " .. remote_port .. " with ID " .. self.next_rtu_id)
self.next_rtu_id = self.next_rtu_id + 1
-- success
return rtu_s.instance.get_id()
end
-- establish a new coordinator session
---@param local_port integer
---@param remote_port integer
---@param version string
---@return integer|false session_id
function svsessions.establish_coord_session(local_port, remote_port, version)
if svsessions.get_coord_session() == nil then
---@class coord_session_struct
local coord_s = {
s_type = "crd",
open = true,
version = version,
l_port = local_port,
r_port = remote_port,
in_queue = mqueue.new(),
out_queue = mqueue.new(),
instance = nil ---@type coord_session
}
coord_s.instance = coordinator.new_session(self.next_coord_id, coord_s.in_queue, coord_s.out_queue, config.CRD_TIMEOUT, self.facility)
table.insert(self.coord_sessions, coord_s)
log.debug("established new coordinator session to " .. remote_port .. " with ID " .. self.next_coord_id)
self.next_coord_id = self.next_coord_id + 1
-- success
return coord_s.instance.get_id()
else
-- we already have a coordinator linked
return false
end
end
-- attempt to identify which session's watchdog timer fired
---@param timer_event number
function svsessions.check_all_watchdogs(timer_event)
-- check RTU session watchdogs
_check_watchdogs(self.rtu_sessions, timer_event)
-- check PLC session watchdogs
_check_watchdogs(self.plc_sessions, timer_event)
-- check coordinator session watchdogs
_check_watchdogs(self.coord_sessions, timer_event)
end
-- iterate all sessions
function svsessions.iterate_all()
-- iterate RTU sessions
_iterate(self.rtu_sessions)
-- iterate PLC sessions
_iterate(self.plc_sessions)
-- iterate coordinator sessions
_iterate(self.coord_sessions)
-- report RTU sessions to facility
self.facility.report_rtus(self.rtu_sessions)
-- iterate facility
self.facility.update()
-- iterate units
self.facility.update_units()
end
-- delete all closed sessions
function svsessions.free_all_closed()
-- free closed RTU sessions
_free_closed(self.rtu_sessions)
-- free closed PLC sessions
_free_closed(self.plc_sessions)
-- free closed coordinator sessions
_free_closed(self.coord_sessions)
end
-- close all open connections
function svsessions.close_all()
-- close sessions
_close(self.rtu_sessions)
_close(self.plc_sessions)
_close(self.coord_sessions)
-- free sessions
svsessions.free_all_closed()
end
return svsessions