cc-mek-scada/rtu/rtu.lua

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-- #REQUIRES comms.lua
-- #REQUIRES modbus.lua
-- #REQUIRES ppm.lua
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function rtu_init()
local self = {
discrete_inputs = {},
coils = {},
input_regs = {},
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holding_regs = {},
io_count_cache = { 0, 0, 0, 0 }
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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 }
end
-- return : IO count table
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local io_count = function ()
return self.io_count_cache[0], self.io_count_cache[1], self.io_count_cache[2], self.io_count_cache[3]
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end
-- discrete inputs: single bit read-only
-- return : count of discrete inputs
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local connect_di = function (f)
table.insert(self.discrete_inputs, f)
_count_io()
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return #self.discrete_inputs
end
-- return : value, access fault
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local read_di = function (di_addr)
ppm.clear_fault()
local value = self.discrete_inputs[di_addr]()
return value, ppm.is_faulted()
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end
-- coils: single bit read-write
-- return : count of coils
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local connect_coil = function (f_read, f_write)
table.insert(self.coils, { read = f_read, write = f_write })
_count_io()
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return #self.coils
end
-- return : value, access fault
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local read_coil = function (coil_addr)
ppm.clear_fault()
local value = self.coils[coil_addr].read()
return value, ppm.is_faulted()
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end
-- return : access fault
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local write_coil = function (coil_addr, value)
ppm.clear_fault()
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self.coils[coil_addr].write(value)
return ppm.is_faulted()
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end
-- input registers: multi-bit read-only
-- return : count of input registers
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local connect_input_reg = function (f)
table.insert(self.input_regs, f)
_count_io()
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return #self.input_regs
end
-- return : value, access fault
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local read_input_reg = function (reg_addr)
ppm.clear_fault()
local value = self.coils[reg_addr]()
return value, ppm.is_faulted()
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end
-- holding registers: multi-bit read-write
-- return : count of holding registers
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local connect_holding_reg = function (f_read, f_write)
table.insert(self.holding_regs, { read = f_read, write = f_write })
_count_io()
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return #self.holding_regs
end
-- return : value, access fault
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local read_holding_reg = function (reg_addr)
ppm.clear_fault()
local value = self.coils[reg_addr].read()
return value, ppm.is_faulted()
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end
-- return : access fault
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local write_holding_reg = function (reg_addr, value)
ppm.clear_fault()
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self.coils[reg_addr].write(value)
return ppm.is_faulted()
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end
return {
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io_count = io_count,
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connect_di = connect_di,
read_di = read_di,
connect_coil = connect_coil,
read_coil = read_coil,
write_coil = write_coil,
connect_input_reg = connect_input_reg,
read_input_reg = read_input_reg,
connect_holding_reg = connect_holding_reg,
read_holding_reg = read_holding_reg,
write_holding_reg = write_holding_reg
}
end
function rtu_comms(modem, local_port, server_port)
local self = {
seq_num = 0,
txn_id = 0,
modem = modem,
s_port = server_port,
l_port = local_port
}
-- open modem
if not self.modem.isOpen(self.l_port) then
self.modem.open(self.l_port)
end
-- PRIVATE FUNCTIONS --
local _send = function (protocol, msg)
local packet = scada_packet()
packet.make(self.seq_num, protocol, msg)
self.modem.transmit(self.s_port, self.l_port, packet.raw())
self.seq_num = self.seq_num + 1
end
-- PUBLIC FUNCTIONS --
-- parse a MODBUS/SCADA packet
local parse_packet = function(side, sender, reply_to, message, distance)
local pkt = nil
local s_pkt = scada_packet()
-- parse packet as generic SCADA packet
s_pkt.recieve(side, sender, reply_to, message, distance)
if s_pkt.is_valid() then
-- get as MODBUS TCP packet
if s_pkt.protocol() == PROTOCOLS.MODBUS_TCP then
local m_pkt = modbus_packet()
if m_pkt.decode(s_pkt) then
pkt = m_pkt.get()
end
-- get as SCADA management packet
elseif s_pkt.protocol() == PROTOCOLS.SCADA_MGMT then
local mgmt_pkt = mgmt_packet()
if mgmt_pkt.decode(s_pkt) then
pkt = mgmt_packet.get()
end
else
log._error("illegal packet type " .. s_pkt.protocol(), true)
end
end
return pkt
end
local handle_packet = function(packet, units, ref)
if packet ~= nil then
local protocol = packet.scada_frame.protocol()
if protocol == PROTOCOLS.MODBUS_TCP then
-- MODBUS instruction
if packet.unit_id <= #units then
local unit = units[packet.unit_id]
local return_code, response = unit.modbus_io.handle_packet(packet)
_send(response, PROTOCOLS.MODBUS_TCP)
if not return_code then
log._warning("MODBUS operation failed")
end
else
-- unit ID out of range?
log._error("MODBUS packet requesting non-existent unit")
end
elseif protocol == PROTOCOLS.SCADA_MGMT then
-- SCADA management packet
if packet.type == SCADA_MGMT_TYPES.REMOTE_LINKED then
-- acknowledgement
ref.linked = true
elseif packet.type == SCADA_MGMT_TYPES.RTU_ADVERT then
-- request for capabilities again
send_advertisement(units)
else
-- not supported
log._warning("RTU got unexpected SCADA message type " .. packet.type, true)
end
else
-- should be unreachable assuming packet is from parse_packet()
log._error("illegal packet type " .. protocol, true)
end
end
end
-- send capability advertisement
local send_advertisement = function (units)
local advertisement = {
type = SCADA_MGMT_TYPES.RTU_ADVERT,
units = {}
}
for i = 1, #units do
local type = nil
if units[i].type == "boiler" then
type = RTU_ADVERT_TYPES.BOILER
elseif units[i].type == "turbine" then
type = RTU_ADVERT_TYPES.TURBINE
elseif units[i].type == "imatrix" then
type = RTU_ADVERT_TYPES.IMATRIX
elseif units[i].type == "redstone" then
type = RTU_ADVERT_TYPES.REDSTONE
end
if type ~= nil then
if type == RTU_ADVERT_TYPES.REDSTONE then
table.insert(advertisement.units, {
unit = i,
type = type,
index = units[i].index,
reactor = units[i].for_reactor,
rsio = units[i].device
})
else
table.insert(advertisement.units, {
unit = i,
type = type,
index = units[i].index,
reactor = units[i].for_reactor,
rsio = nil
})
end
end
end
_send(advertisement, PROTOCOLS.SCADA_MGMT)
end
local send_heartbeat = function ()
local heartbeat = {
type = SCADA_MGMT_TYPES.RTU_HEARTBEAT
}
_send(heartbeat, PROTOCOLS.SCADA_MGMT)
end
return {
parse_packet = parse_packet,
handle_packet = handle_packet,
send_advertisement = send_advertisement,
send_heartbeat = send_heartbeat
}
end