cc-mek-scada/rtu/modbus.lua

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local comms = require("scada-common.comms")
local types = require("scada-common.types")
local modbus = {}
local MODBUS_FCODE = types.MODBUS_FCODE
local MODBUS_EXCODE = types.MODBUS_EXCODE
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-- new modbus comms handler object
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---@nodiscard
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---@param rtu_dev rtu_device|rtu_rs_device RTU device
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---@param use_parallel_read boolean whether or not to use parallel calls when reading
function modbus.new(rtu_dev, use_parallel_read)
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local insert = table.insert
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-- read a span of coils (digital outputs)<br>
-- returns a table of readings or a MODBUS_EXCODE error code
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---@nodiscard
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---@param c_addr_start integer
---@param count integer
---@return boolean ok, table|MODBUS_EXCODE readings
local function _1_read_coils(c_addr_start, count)
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local tasks = {}
local readings = {} ---@type table|MODBUS_EXCODE
local access_fault = false
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local _, coils, _, _ = rtu_dev.io_count()
local return_ok = ((c_addr_start + count) <= (coils + 1)) and (count > 0)
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if return_ok then
for i = 1, count do
local addr = c_addr_start + i - 1
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if use_parallel_read then
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insert(tasks, function ()
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local reading, fault = rtu_dev.read_coil(addr)
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if fault then access_fault = true else readings[i] = reading end
end)
else
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readings[i], access_fault = rtu_dev.read_coil(addr)
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if access_fault then
return_ok = false
readings = MODBUS_EXCODE.SERVER_DEVICE_FAIL
break
end
end
end
-- run parallel tasks if configured
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if use_parallel_read then
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parallel.waitForAll(table.unpack(tasks))
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end
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if access_fault or #readings ~= count then
return_ok = false
readings = MODBUS_EXCODE.SERVER_DEVICE_FAIL
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end
else
readings = MODBUS_EXCODE.ILLEGAL_DATA_ADDR
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end
return return_ok, readings
end
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-- read a span of discrete inputs (digital inputs)<br>
-- returns a table of readings or a MODBUS_EXCODE error code
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---@nodiscard
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---@param di_addr_start integer
---@param count integer
---@return boolean ok, table|MODBUS_EXCODE readings
local function _2_read_discrete_inputs(di_addr_start, count)
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local tasks = {}
local readings = {} ---@type table|MODBUS_EXCODE
local access_fault = false
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local discrete_inputs, _, _, _ = rtu_dev.io_count()
local return_ok = ((di_addr_start + count) <= (discrete_inputs + 1)) and (count > 0)
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if return_ok then
for i = 1, count do
local addr = di_addr_start + i - 1
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if use_parallel_read then
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insert(tasks, function ()
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local reading, fault = rtu_dev.read_di(addr)
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if fault then access_fault = true else readings[i] = reading end
end)
else
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readings[i], access_fault = rtu_dev.read_di(addr)
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if access_fault then
return_ok = false
readings = MODBUS_EXCODE.SERVER_DEVICE_FAIL
break
end
end
end
-- run parallel tasks if configured
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if use_parallel_read then
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parallel.waitForAll(table.unpack(tasks))
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end
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if access_fault or #readings ~= count then
return_ok = false
readings = MODBUS_EXCODE.SERVER_DEVICE_FAIL
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end
else
readings = MODBUS_EXCODE.ILLEGAL_DATA_ADDR
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end
return return_ok, readings
end
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-- read a span of holding registers (analog outputs)<br>
-- returns a table of readings or a MODBUS_EXCODE error code
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---@nodiscard
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---@param hr_addr_start integer
---@param count integer
---@return boolean ok, table|MODBUS_EXCODE readings
local function _3_read_multiple_holding_registers(hr_addr_start, count)
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local tasks = {}
local readings = {} ---@type table|MODBUS_EXCODE
local access_fault = false
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local _, _, _, hold_regs = rtu_dev.io_count()
local return_ok = ((hr_addr_start + count) <= (hold_regs + 1)) and (count > 0)
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if return_ok then
for i = 1, count do
local addr = hr_addr_start + i - 1
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if use_parallel_read then
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insert(tasks, function ()
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local reading, fault = rtu_dev.read_holding_reg(addr)
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if fault then access_fault = true else readings[i] = reading end
end)
else
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readings[i], access_fault = rtu_dev.read_holding_reg(addr)
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if access_fault then
return_ok = false
readings = MODBUS_EXCODE.SERVER_DEVICE_FAIL
break
end
end
end
-- run parallel tasks if configured
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if use_parallel_read then
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parallel.waitForAll(table.unpack(tasks))
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end
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if access_fault or #readings ~= count then
return_ok = false
readings = MODBUS_EXCODE.SERVER_DEVICE_FAIL
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end
else
readings = MODBUS_EXCODE.ILLEGAL_DATA_ADDR
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end
return return_ok, readings
end
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-- read a span of input registers (analog inputs)<br>
-- returns a table of readings or a MODBUS_EXCODE error code
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---@nodiscard
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---@param ir_addr_start integer
---@param count integer
---@return boolean ok, table|MODBUS_EXCODE readings
local function _4_read_input_registers(ir_addr_start, count)
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local tasks = {}
local readings = {} ---@type table|MODBUS_EXCODE
local access_fault = false
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local _, _, input_regs, _ = rtu_dev.io_count()
local return_ok = ((ir_addr_start + count) <= (input_regs + 1)) and (count > 0)
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if return_ok then
for i = 1, count do
local addr = ir_addr_start + i - 1
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if use_parallel_read then
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insert(tasks, function ()
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local reading, fault = rtu_dev.read_input_reg(addr)
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if fault then access_fault = true else readings[i] = reading end
end)
else
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readings[i], access_fault = rtu_dev.read_input_reg(addr)
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if access_fault then
return_ok = false
readings = MODBUS_EXCODE.SERVER_DEVICE_FAIL
break
end
end
end
-- run parallel tasks if configured
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if use_parallel_read then
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parallel.waitForAll(table.unpack(tasks))
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end
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if access_fault or #readings ~= count then
return_ok = false
readings = MODBUS_EXCODE.SERVER_DEVICE_FAIL
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end
else
readings = MODBUS_EXCODE.ILLEGAL_DATA_ADDR
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end
return return_ok, readings
end
-- write a single coil (digital output)
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---@nodiscard
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---@param c_addr integer
---@param value any
---@return boolean ok, MODBUS_EXCODE
local function _5_write_single_coil(c_addr, value)
local response = nil
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local _, coils, _, _ = rtu_dev.io_count()
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local return_ok = c_addr <= coils
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if return_ok then
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local access_fault = rtu_dev.write_coil(c_addr, value)
if access_fault then
return_ok = false
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response = MODBUS_EXCODE.SERVER_DEVICE_FAIL
end
else
response = MODBUS_EXCODE.ILLEGAL_DATA_ADDR
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end
return return_ok, response
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end
-- write a single holding register (analog output)
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---@nodiscard
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---@param hr_addr integer
---@param value any
---@return boolean ok, MODBUS_EXCODE
local function _6_write_single_holding_register(hr_addr, value)
local response = nil
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local _, _, _, hold_regs = rtu_dev.io_count()
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local return_ok = hr_addr <= hold_regs
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if return_ok then
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local access_fault = rtu_dev.write_holding_reg(hr_addr, value)
if access_fault then
return_ok = false
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response = MODBUS_EXCODE.SERVER_DEVICE_FAIL
end
else
response = MODBUS_EXCODE.ILLEGAL_DATA_ADDR
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end
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return return_ok, response
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end
-- write multiple coils (digital outputs)
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---@nodiscard
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---@param c_addr_start integer
---@param values any
---@return boolean ok, MODBUS_EXCODE
local function _15_write_multiple_coils(c_addr_start, values)
local response = nil
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local _, coils, _, _ = rtu_dev.io_count()
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local count = #values
local return_ok = ((c_addr_start + count) <= (coils + 1)) and (count > 0)
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if return_ok then
for i = 1, count do
local addr = c_addr_start + i - 1
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local access_fault = rtu_dev.write_coil(addr, values[i])
if access_fault then
return_ok = false
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response = MODBUS_EXCODE.SERVER_DEVICE_FAIL
break
end
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end
else
response = MODBUS_EXCODE.ILLEGAL_DATA_ADDR
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end
return return_ok, response
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end
-- write multiple holding registers (analog outputs)
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---@nodiscard
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---@param hr_addr_start integer
---@param values any
---@return boolean ok, MODBUS_EXCODE
local function _16_write_multiple_holding_registers(hr_addr_start, values)
local response = nil
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local _, _, _, hold_regs = rtu_dev.io_count()
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local count = #values
local return_ok = ((hr_addr_start + count) <= (hold_regs + 1)) and (count > 0)
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if return_ok then
for i = 1, count do
local addr = hr_addr_start + i - 1
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local access_fault = rtu_dev.write_holding_reg(addr, values[i])
if access_fault then
return_ok = false
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response = MODBUS_EXCODE.SERVER_DEVICE_FAIL
break
end
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end
else
response = MODBUS_EXCODE.ILLEGAL_DATA_ADDR
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end
return return_ok, response
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end
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---@class modbus
local public = {}
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-- validate a request without actually executing it
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---@nodiscard
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---@param packet modbus_frame
---@return boolean return_code, modbus_packet reply
function public.check_request(packet)
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local return_code = true
local response = { MODBUS_EXCODE.ACKNOWLEDGE }
if packet.length == 2 then
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-- handle by function code
if packet.func_code == MODBUS_FCODE.READ_COILS then
elseif packet.func_code == MODBUS_FCODE.READ_DISCRETE_INPUTS then
elseif packet.func_code == MODBUS_FCODE.READ_MUL_HOLD_REGS then
elseif packet.func_code == MODBUS_FCODE.READ_INPUT_REGS then
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elseif packet.func_code == MODBUS_FCODE.WRITE_SINGLE_COIL then
elseif packet.func_code == MODBUS_FCODE.WRITE_SINGLE_HOLD_REG then
elseif packet.func_code == MODBUS_FCODE.WRITE_MUL_COILS then
elseif packet.func_code == MODBUS_FCODE.WRITE_MUL_HOLD_REGS then
else
-- unknown function
return_code = false
response = { MODBUS_EXCODE.ILLEGAL_FUNCTION }
end
else
-- invalid length
return_code = false
response = { MODBUS_EXCODE.NEG_ACKNOWLEDGE }
end
-- default is to echo back
local func_code = packet.func_code
-- echo back with error flag, on success the "error" will be acknowledgement
func_code = bit.bor(packet.func_code, MODBUS_FCODE.ERROR_FLAG)
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-- create reply
local reply = comms.modbus_packet()
reply.make(packet.txn_id, packet.unit_id, func_code, response)
return return_code, reply
end
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-- handle a MODBUS TCP packet and generate a reply
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---@nodiscard
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---@param packet modbus_frame
---@return boolean return_code, modbus_packet reply
function public.handle_packet(packet)
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local return_code = true
local response = nil
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if packet.length >= 2 then
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-- handle by function code
if packet.func_code == MODBUS_FCODE.READ_COILS then
return_code, response = _1_read_coils(packet.data[1], packet.data[2])
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elseif packet.func_code == MODBUS_FCODE.READ_DISCRETE_INPUTS then
return_code, response = _2_read_discrete_inputs(packet.data[1], packet.data[2])
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elseif packet.func_code == MODBUS_FCODE.READ_MUL_HOLD_REGS then
return_code, response = _3_read_multiple_holding_registers(packet.data[1], packet.data[2])
elseif packet.func_code == MODBUS_FCODE.READ_INPUT_REGS then
return_code, response = _4_read_input_registers(packet.data[1], packet.data[2])
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elseif packet.func_code == MODBUS_FCODE.WRITE_SINGLE_COIL then
return_code, response = _5_write_single_coil(packet.data[1], packet.data[2])
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elseif packet.func_code == MODBUS_FCODE.WRITE_SINGLE_HOLD_REG then
return_code, response = _6_write_single_holding_register(packet.data[1], packet.data[2])
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elseif packet.func_code == MODBUS_FCODE.WRITE_MUL_COILS then
return_code, response = _15_write_multiple_coils(packet.data[1], { table.unpack(packet.data, 2, packet.length) })
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elseif packet.func_code == MODBUS_FCODE.WRITE_MUL_HOLD_REGS then
return_code, response = _16_write_multiple_holding_registers(packet.data[1], { table.unpack(packet.data, 2, packet.length) })
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else
-- unknown function
return_code = false
response = MODBUS_EXCODE.ILLEGAL_FUNCTION
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end
else
-- invalid length
return_code = false
response = MODBUS_EXCODE.NEG_ACKNOWLEDGE
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end
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-- default is to echo back
local func_code = packet.func_code
if not return_code then
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-- echo back with error flag
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func_code = bit.bor(packet.func_code, MODBUS_FCODE.ERROR_FLAG)
end
if type(response) == "table" then
elseif type(response) == "nil" then
response = {}
else
response = { response }
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end
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-- create reply
local reply = comms.modbus_packet()
reply.make(packet.txn_id, packet.unit_id, func_code, response)
return return_code, reply
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end
return public
end
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-- return a SERVER_DEVICE_BUSY error reply
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---@nodiscard
---@param packet modbus_frame MODBUS packet frame
---@return modbus_packet reply
function modbus.reply__srv_device_busy(packet)
-- reply back with error flag and exception code
local reply = comms.modbus_packet()
local fcode = bit.bor(packet.func_code, MODBUS_FCODE.ERROR_FLAG)
local data = { MODBUS_EXCODE.SERVER_DEVICE_BUSY }
reply.make(packet.txn_id, packet.unit_id, fcode, data)
return reply
end
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-- return a NEG_ACKNOWLEDGE error reply
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---@nodiscard
---@param packet modbus_frame MODBUS packet frame
---@return modbus_packet reply
function modbus.reply__neg_ack(packet)
-- reply back with error flag and exception code
local reply = comms.modbus_packet()
local fcode = bit.bor(packet.func_code, MODBUS_FCODE.ERROR_FLAG)
local data = { MODBUS_EXCODE.NEG_ACKNOWLEDGE }
reply.make(packet.txn_id, packet.unit_id, fcode, data)
return reply
end
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-- return a GATEWAY_PATH_UNAVAILABLE error reply
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---@nodiscard
---@param packet modbus_frame MODBUS packet frame
---@return modbus_packet reply
function modbus.reply__gw_unavailable(packet)
-- reply back with error flag and exception code
local reply = comms.modbus_packet()
local fcode = bit.bor(packet.func_code, MODBUS_FCODE.ERROR_FLAG)
local data = { MODBUS_EXCODE.GATEWAY_PATH_UNAVAILABLE }
reply.make(packet.txn_id, packet.unit_id, fcode, data)
return reply
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end
return modbus