mirror of
https://github.com/MikaylaFischler/cc-mek-scada.git
synced 2024-08-30 18:22:34 +00:00
420 lines
14 KiB
Lua
420 lines
14 KiB
Lua
local comms = require("scada-common.comms")
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local ppm = require("scada-common.ppm")
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local log = require("scada-common.log")
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local types = require("scada-common.types")
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local util = require("scada-common.util")
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local modbus = require("rtu.modbus")
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local rtu = {}
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local rtu_t = types.rtu_t
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local PROTOCOLS = comms.PROTOCOLS
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local SCADA_MGMT_TYPES = comms.SCADA_MGMT_TYPES
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local RTU_UNIT_TYPES = comms.RTU_UNIT_TYPES
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local print = util.print
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local println = util.println
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local print_ts = util.print_ts
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local println_ts = util.println_ts
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-- create a new RTU
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rtu.init_unit = function ()
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local self = {
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discrete_inputs = {},
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coils = {},
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input_regs = {},
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holding_regs = {},
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io_count_cache = { 0, 0, 0, 0 }
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}
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local insert = table.insert
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---@class rtu_device
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local public = {}
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---@class rtu
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local protected = {}
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-- refresh IO count
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local _count_io = function ()
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self.io_count_cache = { #self.discrete_inputs, #self.coils, #self.input_regs, #self.holding_regs }
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end
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-- return IO count
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---@return integer discrete_inputs, integer coils, integer input_regs, integer holding_regs
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public.io_count = function ()
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return self.io_count_cache[1], self.io_count_cache[2], self.io_count_cache[3], self.io_count_cache[4]
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end
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-- discrete inputs: single bit read-only
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-- connect discrete input
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---@param f function
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---@return integer count count of discrete inputs
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protected.connect_di = function (f)
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insert(self.discrete_inputs, { read = f })
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_count_io()
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return #self.discrete_inputs
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end
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-- read discrete input
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---@param di_addr integer
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---@return any value, boolean access_fault
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public.read_di = function (di_addr)
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ppm.clear_fault()
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local value = self.discrete_inputs[di_addr].read()
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return value, ppm.is_faulted()
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end
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-- coils: single bit read-write
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-- connect coil
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---@param f_read function
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---@param f_write function
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---@return integer count count of coils
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protected.connect_coil = function (f_read, f_write)
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insert(self.coils, { read = f_read, write = f_write })
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_count_io()
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return #self.coils
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end
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-- read coil
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---@param coil_addr integer
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---@return any value, boolean access_fault
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public.read_coil = function (coil_addr)
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ppm.clear_fault()
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local value = self.coils[coil_addr].read()
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return value, ppm.is_faulted()
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end
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-- write coil
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---@param coil_addr integer
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---@param value any
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---@return boolean access_fault
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public.write_coil = function (coil_addr, value)
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ppm.clear_fault()
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self.coils[coil_addr].write(value)
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return ppm.is_faulted()
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end
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-- input registers: multi-bit read-only
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-- connect input register
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---@param f function
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---@return integer count count of input registers
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protected.connect_input_reg = function (f)
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insert(self.input_regs, { read = f })
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_count_io()
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return #self.input_regs
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end
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-- read input register
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---@param reg_addr integer
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---@return any value, boolean access_fault
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public.read_input_reg = function (reg_addr)
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ppm.clear_fault()
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local value = self.input_regs[reg_addr].read()
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return value, ppm.is_faulted()
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end
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-- holding registers: multi-bit read-write
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-- connect holding register
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---@param f_read function
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---@param f_write function
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---@return integer count count of holding registers
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protected.connect_holding_reg = function (f_read, f_write)
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insert(self.holding_regs, { read = f_read, write = f_write })
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_count_io()
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return #self.holding_regs
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end
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-- read holding register
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---@param reg_addr integer
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---@return any value, boolean access_fault
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public.read_holding_reg = function (reg_addr)
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ppm.clear_fault()
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local value = self.holding_regs[reg_addr].read()
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return value, ppm.is_faulted()
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end
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-- write holding register
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---@param reg_addr integer
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---@param value any
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---@return boolean access_fault
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public.write_holding_reg = function (reg_addr, value)
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ppm.clear_fault()
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self.holding_regs[reg_addr].write(value)
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return ppm.is_faulted()
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end
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-- public RTU device access
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-- get the public interface to this RTU
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protected.interface = function ()
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return public
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end
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return protected
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end
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-- RTU Communications
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---@param version string
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---@param modem table
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---@param local_port integer
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---@param server_port integer
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---@param conn_watchdog watchdog
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rtu.comms = function (version, modem, local_port, server_port, conn_watchdog)
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local self = {
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version = version,
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seq_num = 0,
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r_seq_num = nil,
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txn_id = 0,
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modem = modem,
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s_port = server_port,
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l_port = local_port,
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conn_watchdog = conn_watchdog
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}
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---@class rtu_comms
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local public = {}
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local insert = table.insert
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-- open modem
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if not self.modem.isOpen(self.l_port) then
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self.modem.open(self.l_port)
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end
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-- PRIVATE FUNCTIONS --
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-- send a scada management packet
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---@param msg_type SCADA_MGMT_TYPES
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---@param msg table
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local _send = function (msg_type, msg)
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local s_pkt = comms.scada_packet()
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local m_pkt = comms.mgmt_packet()
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m_pkt.make(msg_type, msg)
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s_pkt.make(self.seq_num, PROTOCOLS.SCADA_MGMT, m_pkt.raw_sendable())
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self.modem.transmit(self.s_port, self.l_port, s_pkt.raw_sendable())
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self.seq_num = self.seq_num + 1
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end
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-- keep alive ack
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---@param srv_time integer
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local _send_keep_alive_ack = function (srv_time)
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_send(SCADA_MGMT_TYPES.KEEP_ALIVE, { srv_time, util.time() })
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end
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-- PUBLIC FUNCTIONS --
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-- send a MODBUS TCP packet
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---@param m_pkt modbus_packet
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public.send_modbus = function (m_pkt)
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local s_pkt = comms.scada_packet()
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s_pkt.make(self.seq_num, PROTOCOLS.MODBUS_TCP, m_pkt.raw_sendable())
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self.modem.transmit(self.s_port, self.l_port, s_pkt.raw_sendable())
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self.seq_num = self.seq_num + 1
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end
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-- reconnect a newly connected modem
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---@param modem table
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---@diagnostic disable-next-line: redefined-local
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public.reconnect_modem = function (modem)
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self.modem = modem
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-- open modem
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if not self.modem.isOpen(self.l_port) then
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self.modem.open(self.l_port)
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end
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end
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-- unlink from the server
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---@param rtu_state rtu_state
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public.unlink = function (rtu_state)
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rtu_state.linked = false
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self.r_seq_num = nil
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end
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-- close the connection to the server
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---@param rtu_state rtu_state
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public.close = function (rtu_state)
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self.conn_watchdog.cancel()
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public.unlink(rtu_state)
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_send(SCADA_MGMT_TYPES.CLOSE, {})
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end
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-- send capability advertisement
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---@param units table
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public.send_advertisement = function (units)
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local advertisement = { self.version }
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for i = 1, #units do
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local unit = units[i] --@type rtu_unit_registry_entry
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local type = comms.rtu_t_to_unit_type(unit.type)
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if type ~= nil then
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local advert = {
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type,
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unit.index,
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unit.reactor
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}
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if type == RTU_UNIT_TYPES.REDSTONE then
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insert(advert, unit.device)
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end
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insert(advertisement, advert)
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end
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end
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_send(SCADA_MGMT_TYPES.RTU_ADVERT, advertisement)
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end
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-- parse a MODBUS/SCADA packet
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---@param side string
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---@param sender integer
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---@param reply_to integer
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---@param message any
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---@param distance integer
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---@return modbus_frame|mgmt_frame|nil packet
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public.parse_packet = function(side, sender, reply_to, message, distance)
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local pkt = nil
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local s_pkt = comms.scada_packet()
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-- parse packet as generic SCADA packet
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s_pkt.receive(side, sender, reply_to, message, distance)
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if s_pkt.is_valid() then
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-- get as MODBUS TCP packet
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if s_pkt.protocol() == PROTOCOLS.MODBUS_TCP then
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local m_pkt = comms.modbus_packet()
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if m_pkt.decode(s_pkt) then
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pkt = m_pkt.get()
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end
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-- get as SCADA management packet
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elseif s_pkt.protocol() == PROTOCOLS.SCADA_MGMT then
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local mgmt_pkt = comms.mgmt_packet()
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if mgmt_pkt.decode(s_pkt) then
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pkt = mgmt_pkt.get()
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end
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else
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log.error("illegal packet type " .. s_pkt.protocol(), true)
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end
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end
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return pkt
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end
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-- handle a MODBUS/SCADA packet
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---@param packet modbus_frame|mgmt_frame
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---@param units table
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---@param rtu_state rtu_state
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public.handle_packet = function(packet, units, rtu_state)
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if packet ~= nil then
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-- check sequence number
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if self.r_seq_num == nil then
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self.r_seq_num = packet.scada_frame.seq_num()
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elseif rtu_state.linked and self.r_seq_num >= packet.scada_frame.seq_num() then
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log.warning("sequence out-of-order: last = " .. self.r_seq_num .. ", new = " .. packet.scada_frame.seq_num())
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return
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else
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self.r_seq_num = packet.scada_frame.seq_num()
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end
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-- feed watchdog on valid sequence number
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self.conn_watchdog.feed()
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local protocol = packet.scada_frame.protocol()
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if protocol == PROTOCOLS.MODBUS_TCP then
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local return_code = false
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local reply = modbus.reply__neg_ack(packet)
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-- handle MODBUS instruction
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if packet.unit_id <= #units then
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local unit = units[packet.unit_id] ---@type rtu_unit_registry_entry
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local unit_dbg_tag = " (unit " .. packet.unit_id .. ")"
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if unit.name == "redstone_io" then
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-- immediately execute redstone RTU requests
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return_code, reply = unit.modbus_io.handle_packet(packet)
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if not return_code then
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log.warning("requested MODBUS operation failed" .. unit_dbg_tag)
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end
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else
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-- check validity then pass off to unit comms thread
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return_code, reply = unit.modbus_io.check_request(packet)
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if return_code then
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-- check if there are more than 3 active transactions
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-- still queue the packet, but this may indicate a problem
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if unit.pkt_queue.length() > 3 then
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reply = unit.modbus_io.reply__srv_device_busy(packet)
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log.debug("queueing new request with " .. unit.pkt_queue.length() ..
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" transactions already in the queue" .. unit_dbg_tag)
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end
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-- always queue the command even if busy
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unit.pkt_queue.push_packet(packet)
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else
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log.warning("cannot perform requested MODBUS operation" .. unit_dbg_tag)
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end
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end
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else
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-- unit ID out of range?
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reply = modbus.reply__gw_unavailable(packet)
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log.error("received MODBUS packet for non-existent unit")
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end
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public.send_modbus(reply)
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elseif protocol == PROTOCOLS.SCADA_MGMT then
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-- SCADA management packet
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if packet.type == SCADA_MGMT_TYPES.KEEP_ALIVE then
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-- keep alive request received, echo back
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if packet.length == 1 then
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local timestamp = packet.data[1]
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local trip_time = util.time() - timestamp
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if trip_time > 500 then
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log.warning("RTU KEEP_ALIVE trip time > 500ms (" .. trip_time .. "ms)")
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end
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-- log.debug("RTU RTT = ".. trip_time .. "ms")
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_send_keep_alive_ack(timestamp)
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else
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log.debug("SCADA keep alive packet length mismatch")
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end
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elseif packet.type == SCADA_MGMT_TYPES.CLOSE then
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-- close connection
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self.conn_watchdog.cancel()
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public.unlink(rtu_state)
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println_ts("server connection closed by remote host")
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log.warning("server connection closed by remote host")
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elseif packet.type == SCADA_MGMT_TYPES.REMOTE_LINKED then
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-- acknowledgement
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rtu_state.linked = true
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self.r_seq_num = nil
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elseif packet.type == SCADA_MGMT_TYPES.RTU_ADVERT then
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-- request for capabilities again
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public.send_advertisement(units)
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else
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-- not supported
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log.warning("RTU got unexpected SCADA message type " .. packet.type)
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end
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else
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-- should be unreachable assuming packet is from parse_packet()
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log.error("illegal packet type " .. protocol, true)
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end
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end
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end
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return public
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end
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return rtu
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