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https://github.com/MikaylaFischler/cc-mek-scada.git
synced 2024-08-30 18:22:34 +00:00
#134 #104 redstone RTU integration with supervisor unit, waste routing implemented, changed how redstone I/O works (again, should be good now), modbus fixes
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@ -31,17 +31,17 @@ config.RTU_REDSTONE = {
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-- for_reactor = 1,
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-- io = {
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-- {
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-- channel = rsio.IO.WASTE_PO,
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-- port = rsio.IO.WASTE_PO,
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-- side = "top",
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-- bundled_color = colors.blue
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-- },
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-- {
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-- channel = rsio.IO.WASTE_PU,
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-- port = rsio.IO.WASTE_PU,
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-- side = "top",
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-- bundled_color = colors.cyan
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-- },
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-- {
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-- channel = rsio.IO.WASTE_AM,
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-- port = rsio.IO.WASTE_AM,
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-- side = "top",
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-- bundled_color = colors.purple
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-- }
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@ -4,9 +4,10 @@ local rsio = require("scada-common.rsio")
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local redstone_rtu = {}
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local IO_LVL = rsio.IO_LVL
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local digital_read = rsio.digital_read
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local digital_write = rsio.digital_write
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local digital_is_active = rsio.digital_is_active
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-- create new redstone device
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function redstone_rtu.new()
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@ -47,10 +48,9 @@ function redstone_rtu.new()
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end
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-- link digital output
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---@param channel RS_IO
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---@param side string
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---@param color integer
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function public.link_do(channel, side, color)
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function public.link_do(side, color)
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local f_read = nil
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local f_write = nil
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@ -60,9 +60,10 @@ function redstone_rtu.new()
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end
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f_write = function (level)
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if level ~= IO_LVL.FLOATING and level ~= IO_LVL.DISCONNECT then
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local output = rs.getBundledOutput(side)
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if digital_write(channel, level) then
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if digital_write(level) then
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output = colors.combine(output, color)
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else
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output = colors.subtract(output, color)
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@ -70,13 +71,16 @@ function redstone_rtu.new()
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rs.setBundledOutput(side, output)
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end
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end
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else
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f_read = function ()
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return digital_read(rs.getOutput(side))
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end
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f_write = function (level)
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rs.setOutput(side, digital_is_active(channel, level))
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if level ~= IO_LVL.FLOATING and level ~= IO_LVL.DISCONNECT then
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rs.setOutput(side, digital_write(level))
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end
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end
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end
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@ -366,7 +366,7 @@ function modbus.new(rtu_dev, use_parallel_read)
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local return_code = true
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local response = nil
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if packet.length == 2 then
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if packet.length >= 2 then
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-- handle by function code
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if packet.func_code == MODBUS_FCODE.READ_COILS then
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return_code, response = _1_read_coils(packet.data[1], packet.data[2])
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@ -381,9 +381,9 @@ function modbus.new(rtu_dev, use_parallel_read)
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elseif packet.func_code == MODBUS_FCODE.WRITE_SINGLE_HOLD_REG then
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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
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return_code, response = _15_write_multiple_coils(packet.data[1], packet.data[2])
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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
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return_code, response = _16_write_multiple_holding_registers(packet.data[1], packet.data[2])
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return_code, response = _16_write_multiple_holding_registers(packet.data[1], { table.unpack(packet.data, 2, packet.length) })
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else
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-- unknown function
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return_code = false
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@ -392,6 +392,7 @@ function modbus.new(rtu_dev, use_parallel_read)
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else
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-- invalid length
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return_code = false
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response = MODBUS_EXCODE.NEG_ACKNOWLEDGE
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end
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-- default is to echo back
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@ -25,7 +25,7 @@ local sna_rtu = require("rtu.dev.sna_rtu")
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local sps_rtu = require("rtu.dev.sps_rtu")
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local turbinev_rtu = require("rtu.dev.turbinev_rtu")
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local RTU_VERSION = "beta-v0.9.7"
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local RTU_VERSION = "beta-v0.9.8"
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local rtu_t = types.rtu_t
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@ -166,7 +166,7 @@ local function main()
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local conf = io_table[i]
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-- verify configuration
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if rsio.is_valid_channel(conf.channel) and rsio.is_valid_side(conf.side) then
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if rsio.is_valid_port(conf.port) and rsio.is_valid_side(conf.side) then
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if conf.bundled_color then
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valid = rsio.is_color(conf.bundled_color)
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else
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@ -182,22 +182,22 @@ local function main()
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return false
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else
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-- link redstone in RTU
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local mode = rsio.get_io_mode(conf.channel)
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local mode = rsio.get_io_mode(conf.port)
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if mode == rsio.IO_MODE.DIGITAL_IN then
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-- can't have duplicate inputs
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if util.table_contains(capabilities, conf.channel) then
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local message = util.c("configure> skipping duplicate input for channel ", rsio.to_string(conf.channel), " on side ", conf.side)
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if util.table_contains(capabilities, conf.port) then
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local message = util.c("configure> skipping duplicate input for port ", rsio.to_string(conf.port), " on side ", conf.side)
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println(message)
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log.warning(message)
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else
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rs_rtu.link_di(conf.side, conf.bundled_color)
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end
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elseif mode == rsio.IO_MODE.DIGITAL_OUT then
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rs_rtu.link_do(conf.channel, conf.side, conf.bundled_color)
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rs_rtu.link_do(conf.side, conf.bundled_color)
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elseif mode == rsio.IO_MODE.ANALOG_IN then
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-- can't have duplicate inputs
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if util.table_contains(capabilities, conf.channel) then
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local message = util.c("configure> skipping duplicate input for channel ", rsio.to_string(conf.channel), " on side ", conf.side)
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if util.table_contains(capabilities, conf.port) then
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local message = util.c("configure> skipping duplicate input for port ", rsio.to_string(conf.port), " on side ", conf.side)
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println(message)
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log.warning(message)
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else
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@ -206,15 +206,15 @@ local function main()
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elseif mode == rsio.IO_MODE.ANALOG_OUT then
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rs_rtu.link_ao(conf.side)
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else
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-- should be unreachable code, we already validated channels
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-- should be unreachable code, we already validated ports
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log.error("configure> fell through if chain attempting to identify IO mode", true)
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println("configure> encountered a software error, check logs")
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return false
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end
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table.insert(capabilities, conf.channel)
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table.insert(capabilities, conf.port)
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log.debug(util.c("configure> linked redstone ", #capabilities, ": ", rsio.to_string(conf.channel),
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log.debug(util.c("configure> linked redstone ", #capabilities, ": ", rsio.to_string(conf.port),
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" (", conf.side, ") for reactor ", io_reactor))
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end
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end
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@ -225,7 +225,7 @@ local function main()
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type = rtu_t.redstone,
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index = entry_idx,
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reactor = io_reactor,
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device = capabilities, -- use device field for redstone channels
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device = capabilities, -- use device field for redstone ports
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formed = nil, ---@type boolean|nil
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rtu = rs_rtu, ---@type rtu_device|rtu_rs_device
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modbus_io = modbus.new(rs_rtu, false),
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@ -4,6 +4,7 @@
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local util = require("scada-common.util")
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---@class rsio
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local rsio = {}
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----------------------
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@ -12,9 +13,10 @@ local rsio = {}
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---@alias IO_LVL integer
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local IO_LVL = {
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DISCONNECT = -1, -- use for RTU session to indicate this RTU is not connected to this port
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LOW = 0,
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HIGH = 1,
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DISCONNECT = -1 -- use for RTU session to indicate this RTU is not connected to this channel
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FLOATING = 2 -- use for RTU session to indicate this RTU is connected but not yet read
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}
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---@alias IO_DIR integer
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@ -31,8 +33,8 @@ local IO_MODE = {
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ANALOG_OUT = 3
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}
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---@alias RS_IO integer
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local RS_IO = {
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---@alias IO_PORT integer
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local IO_PORT = {
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-- digital inputs --
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-- facility
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@ -48,45 +50,47 @@ local RS_IO = {
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F_ALARM = 4, -- active high, facility safety alarm
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-- waste
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WASTE_PO = 5, -- active low, polonium routing
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WASTE_PU = 6, -- active low, plutonium routing
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WASTE_AM = 7, -- active low, antimatter routing
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WASTE_PU = 5, -- active low, waste -> plutonium -> pellets route
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WASTE_PO = 6, -- active low, waste -> polonium route
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WASTE_POPL = 7, -- active low, polonium -> pellets route
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WASTE_AM = 8, -- active low, polonium -> anti-matter route
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-- reactor
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R_ALARM = 8, -- active high, reactor safety alarm
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R_SCRAMMED = 9, -- active high, if the reactor is scrammed
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R_AUTO_SCRAM = 10, -- active high, if the reactor was automatically scrammed
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R_ACTIVE = 11, -- active high, if the reactor is active
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R_AUTO_CTRL = 12, -- active high, if the reactor burn rate is automatic
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R_DMG_CRIT = 13, -- active high, if the reactor damage is critical
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R_HIGH_TEMP = 14, -- active high, if the reactor is at a high temperature
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R_NO_COOLANT = 15, -- active high, if the reactor has no coolant
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R_EXCESS_HC = 16, -- active high, if the reactor has excess heated coolant
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R_EXCESS_WS = 17, -- active high, if the reactor has excess waste
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R_INSUFF_FUEL = 18, -- active high, if the reactor has insufficent fuel
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R_PLC_FAULT = 19, -- active high, if the reactor PLC reports a device access fault
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R_PLC_TIMEOUT = 20 -- active high, if the reactor PLC has not been heard from
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R_ALARM = 9, -- active high, reactor safety alarm
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R_SCRAMMED = 10, -- active high, if the reactor is scrammed
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R_AUTO_SCRAM = 11, -- active high, if the reactor was automatically scrammed
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R_ACTIVE = 12, -- active high, if the reactor is active
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R_AUTO_CTRL = 13, -- active high, if the reactor burn rate is automatic
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R_DMG_CRIT = 14, -- active high, if the reactor damage is critical
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R_HIGH_TEMP = 15, -- active high, if the reactor is at a high temperature
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R_NO_COOLANT = 16, -- active high, if the reactor has no coolant
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R_EXCESS_HC = 17, -- active high, if the reactor has excess heated coolant
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R_EXCESS_WS = 18, -- active high, if the reactor has excess waste
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R_INSUFF_FUEL = 19, -- active high, if the reactor has insufficent fuel
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R_PLC_FAULT = 20, -- active high, if the reactor PLC reports a device access fault
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R_PLC_TIMEOUT = 21 -- active high, if the reactor PLC has not been heard from
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}
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rsio.IO_LVL = IO_LVL
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rsio.IO_DIR = IO_DIR
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rsio.IO_MODE = IO_MODE
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rsio.IO = RS_IO
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rsio.IO = IO_PORT
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-----------------------
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-- UTILITY FUNCTIONS --
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-----------------------
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-- channel to string
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---@param channel RS_IO
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function rsio.to_string(channel)
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-- port to string
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---@param port IO_PORT
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function rsio.to_string(port)
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local names = {
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"F_SCRAM",
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"R_SCRAM",
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"R_ENABLE",
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"F_ALARM",
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"WASTE_PO",
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"WASTE_PU",
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"WASTE_PO",
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"WASTE_POPL",
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"WASTE_AM",
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"R_ALARM",
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"R_SCRAMMED",
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@ -103,8 +107,8 @@ function rsio.to_string(channel)
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"R_PLC_TIMEOUT"
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}
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if util.is_int(channel) and channel > 0 and channel <= #names then
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return names[channel]
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if util.is_int(port) and port > 0 and port <= #names then
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return names[port]
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else
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return ""
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end
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@ -112,64 +116,69 @@ end
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local _B_AND = bit.band
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local function _ACTIVE_HIGH(level) return level == IO_LVL.HIGH end
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local function _ACTIVE_LOW(level) return level == IO_LVL.LOW end
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local function _I_ACTIVE_HIGH(level) return level == IO_LVL.HIGH end
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local function _I_ACTIVE_LOW(level) return level == IO_LVL.LOW end
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local function _O_ACTIVE_HIGH(active) if active then return IO_LVL.HIGH else return IO_LVL.LOW end end
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local function _O_ACTIVE_LOW(active) if active then return IO_LVL.LOW else return IO_LVL.HIGH end end
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-- I/O mappings to I/O function and I/O mode
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local RS_DIO_MAP = {
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-- F_SCRAM
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{ _f = _ACTIVE_LOW, mode = IO_DIR.IN },
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{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.IN },
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-- R_SCRAM
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{ _f = _ACTIVE_LOW, mode = IO_DIR.IN },
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{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.IN },
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-- R_ENABLE
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.IN },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.IN },
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-- F_ALARM
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- WASTE_PO
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{ _f = _ACTIVE_LOW, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- WASTE_PU
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{ _f = _ACTIVE_LOW, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT },
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-- WASTE_PO
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{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT },
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-- WASTE_POPL
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{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT },
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-- WASTE_AM
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{ _f = _ACTIVE_LOW, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT },
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-- R_ALARM
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_SCRAMMED
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_AUTO_SCRAM
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_ACTIVE
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_AUTO_CTRL
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_DMG_CRIT
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_HIGH_TEMP
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_NO_COOLANT
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_EXCESS_HC
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_EXCESS_WS
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_INSUFF_FUEL
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_PLC_FAULT
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT },
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- R_PLC_TIMEOUT
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{ _f = _ACTIVE_HIGH, mode = IO_DIR.OUT }
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{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT }
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}
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-- get the mode of a channel
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---@param channel RS_IO
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-- get the mode of a port
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---@param port IO_PORT
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---@return IO_MODE
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function rsio.get_io_mode(channel)
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function rsio.get_io_mode(port)
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local modes = {
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IO_MODE.DIGITAL_IN, -- F_SCRAM
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IO_MODE.DIGITAL_IN, -- R_SCRAM
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IO_MODE.DIGITAL_IN, -- R_ENABLE
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IO_MODE.DIGITAL_OUT, -- F_ALARM
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IO_MODE.DIGITAL_OUT, -- WASTE_PO
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IO_MODE.DIGITAL_OUT, -- WASTE_PU
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IO_MODE.DIGITAL_OUT, -- WASTE_PO
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IO_MODE.DIGITAL_OUT, -- WASTE_POPL
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IO_MODE.DIGITAL_OUT, -- WASTE_AM
|
||||
IO_MODE.DIGITAL_OUT, -- R_ALARM
|
||||
IO_MODE.DIGITAL_OUT, -- R_SCRAMMED
|
||||
@ -186,8 +195,8 @@ function rsio.get_io_mode(channel)
|
||||
IO_MODE.DIGITAL_OUT -- R_PLC_TIMEOUT
|
||||
}
|
||||
|
||||
if util.is_int(channel) and channel > 0 and channel <= #modes then
|
||||
return modes[channel]
|
||||
if util.is_int(port) and port > 0 and port <= #modes then
|
||||
return modes[port]
|
||||
else
|
||||
return IO_MODE.ANALOG_IN
|
||||
end
|
||||
@ -199,11 +208,11 @@ end
|
||||
|
||||
local RS_SIDES = rs.getSides()
|
||||
|
||||
-- check if a channel is valid
|
||||
---@param channel RS_IO
|
||||
-- check if a port is valid
|
||||
---@param port IO_PORT
|
||||
---@return boolean valid
|
||||
function rsio.is_valid_channel(channel)
|
||||
return util.is_int(channel) and (channel > 0) and (channel <= RS_IO.R_PLC_TIMEOUT)
|
||||
function rsio.is_valid_port(port)
|
||||
return util.is_int(port) and (port > 0) and (port <= IO_PORT.R_PLC_TIMEOUT)
|
||||
end
|
||||
|
||||
-- check if a side is valid
|
||||
@ -229,7 +238,7 @@ end
|
||||
-- DIGITAL I/O --
|
||||
-----------------
|
||||
|
||||
-- get digital IO level reading
|
||||
-- get digital I/O level reading from a redstone boolean input value
|
||||
---@param rs_value boolean
|
||||
---@return IO_LVL
|
||||
function rsio.digital_read(rs_value)
|
||||
@ -240,27 +249,36 @@ function rsio.digital_read(rs_value)
|
||||
end
|
||||
end
|
||||
|
||||
-- returns the level corresponding to active
|
||||
---@param channel RS_IO
|
||||
-- get redstone boolean output value corresponding to a digital I/O level
|
||||
---@param level IO_LVL
|
||||
---@return boolean
|
||||
function rsio.digital_write(channel, level)
|
||||
if (not util.is_int(channel)) or (channel < RS_IO.F_ALARM) or (channel > RS_IO.R_PLC_TIMEOUT) then
|
||||
function rsio.digital_write(level)
|
||||
return level == IO_LVL.HIGH
|
||||
end
|
||||
|
||||
-- returns the level corresponding to active
|
||||
---@param port IO_PORT
|
||||
---@param active boolean
|
||||
---@return IO_LVL|false
|
||||
function rsio.digital_write_active(port, active)
|
||||
if (not util.is_int(port)) or (port < IO_PORT.F_ALARM) or (port > IO_PORT.R_PLC_TIMEOUT) then
|
||||
return false
|
||||
else
|
||||
return RS_DIO_MAP[channel]._f(level)
|
||||
return RS_DIO_MAP[port]._out(active)
|
||||
end
|
||||
end
|
||||
|
||||
-- returns true if the level corresponds to active
|
||||
---@param channel RS_IO
|
||||
---@param port IO_PORT
|
||||
---@param level IO_LVL
|
||||
---@return boolean
|
||||
function rsio.digital_is_active(channel, level)
|
||||
if (not util.is_int(channel)) or (channel > RS_IO.R_ENABLE) then
|
||||
return false
|
||||
---@return boolean|nil
|
||||
function rsio.digital_is_active(port, level)
|
||||
if (not util.is_int(port)) or (port > IO_PORT.R_ENABLE) then
|
||||
return nil
|
||||
elseif level == IO_LVL.FLOATING or level == IO_LVL.DISCONNECT then
|
||||
return nil
|
||||
else
|
||||
return RS_DIO_MAP[channel]._f(level)
|
||||
return RS_DIO_MAP[port]._in(level)
|
||||
end
|
||||
end
|
||||
|
||||
|
@ -35,6 +35,14 @@ types.TRI_FAIL = {
|
||||
FULL = 2
|
||||
}
|
||||
|
||||
---@alias WASTE_MODE integer
|
||||
types.WASTE_MODE = {
|
||||
AUTO = 1,
|
||||
PLUTONIUM = 2,
|
||||
POLONIUM = 3,
|
||||
ANTI_MATTER = 4
|
||||
}
|
||||
|
||||
---@alias ALARM integer
|
||||
types.ALARM = {
|
||||
ContainmentBreach = 1,
|
||||
|
@ -207,7 +207,7 @@ function coordinator.new_session(id, in_queue, out_queue, facility_units)
|
||||
end
|
||||
elseif cmd == CRDN_COMMANDS.SET_WASTE then
|
||||
if pkt.length == 3 then
|
||||
self.out_q.push_data(SV_Q_DATA.SET_WASTE, data)
|
||||
unit.set_waste(pkt.data[3])
|
||||
else
|
||||
log.debug(log_header .. "CRDN command unit set waste missing option")
|
||||
end
|
||||
|
@ -27,26 +27,10 @@ local println = util.println
|
||||
local print_ts = util.print_ts
|
||||
local println_ts = util.println_ts
|
||||
|
||||
local RTU_S_CMDS = {
|
||||
}
|
||||
|
||||
local RTU_S_DATA = {
|
||||
RS_COMMAND = 1,
|
||||
UNIT_COMMAND = 2
|
||||
}
|
||||
|
||||
rtu.RTU_S_CMDS = RTU_S_CMDS
|
||||
rtu.RTU_S_DATA = RTU_S_DATA
|
||||
|
||||
local PERIODICS = {
|
||||
KEEP_ALIVE = 2000
|
||||
}
|
||||
|
||||
---@class rs_session_command
|
||||
---@field reactor integer
|
||||
---@field channel RS_IO
|
||||
---@field value integer|boolean
|
||||
|
||||
-- create a new RTU session
|
||||
---@param id integer
|
||||
---@param in_queue mqueue
|
||||
@ -74,8 +58,6 @@ function rtu.new_session(id, in_queue, out_queue, advertisement, facility_units)
|
||||
last_update = 0,
|
||||
keep_alive = 0
|
||||
},
|
||||
rs_io_q = {},
|
||||
turbine_cmd_q = {},
|
||||
units = {}
|
||||
}
|
||||
|
||||
@ -84,8 +66,6 @@ function rtu.new_session(id, in_queue, out_queue, advertisement, facility_units)
|
||||
|
||||
local function _reset_config()
|
||||
self.units = {}
|
||||
self.rs_io_q = {}
|
||||
self.turbine_cmd_q = {}
|
||||
end
|
||||
|
||||
-- parse the recorded advertisement and create unit sub-sessions
|
||||
@ -141,14 +121,15 @@ function rtu.new_session(id, in_queue, out_queue, advertisement, facility_units)
|
||||
|
||||
if u_type == RTU_UNIT_TYPES.REDSTONE then
|
||||
-- redstone
|
||||
unit, rs_in_q = svrs_redstone.new(self.id, i, unit_advert, self.modbus_q)
|
||||
unit = svrs_redstone.new(self.id, i, unit_advert, self.modbus_q)
|
||||
if type(unit) ~= "nil" then target_unit.add_redstone(unit) end
|
||||
elseif u_type == RTU_UNIT_TYPES.BOILER_VALVE then
|
||||
-- boiler (Mekanism 10.1+)
|
||||
unit = svrs_boilerv.new(self.id, i, unit_advert, self.modbus_q)
|
||||
if type(unit) ~= "nil" then target_unit.add_boiler(unit) end
|
||||
elseif u_type == RTU_UNIT_TYPES.TURBINE_VALVE then
|
||||
-- turbine (Mekanism 10.1+)
|
||||
unit, tbv_in_q = svrs_turbinev.new(self.id, i, unit_advert, self.modbus_q)
|
||||
unit = svrs_turbinev.new(self.id, i, unit_advert, self.modbus_q)
|
||||
if type(unit) ~= "nil" then target_unit.add_turbine(unit) end
|
||||
elseif u_type == RTU_UNIT_TYPES.IMATRIX then
|
||||
-- induction matrix
|
||||
@ -169,31 +150,6 @@ function rtu.new_session(id, in_queue, out_queue, advertisement, facility_units)
|
||||
|
||||
if unit ~= nil then
|
||||
table.insert(self.units, unit)
|
||||
|
||||
if u_type == RTU_UNIT_TYPES.REDSTONE then
|
||||
if self.rs_io_q[unit_advert.reactor] == nil then
|
||||
self.rs_io_q[unit_advert.reactor] = rs_in_q
|
||||
else
|
||||
_reset_config()
|
||||
log.error(log_header .. util.c("bad advertisement: duplicate redstone RTU for reactor " .. unit_advert.reactor))
|
||||
break
|
||||
end
|
||||
elseif u_type == RTU_UNIT_TYPES.TURBINE_VALVE then
|
||||
if self.turbine_cmd_q[unit_advert.reactor] == nil then
|
||||
self.turbine_cmd_q[unit_advert.reactor] = {}
|
||||
end
|
||||
|
||||
local queues = self.turbine_cmd_q[unit_advert.reactor]
|
||||
|
||||
if queues[unit_advert.index] == nil then
|
||||
queues[unit_advert.index] = tbv_in_q
|
||||
else
|
||||
_reset_config()
|
||||
log.error(log_header .. util.c("bad advertisement: duplicate turbine RTU (same index of ",
|
||||
unit_advert.index, ") for reactor ", unit_advert.reactor))
|
||||
break
|
||||
end
|
||||
end
|
||||
else
|
||||
_reset_config()
|
||||
if type(u_type) == "number" then
|
||||
@ -353,25 +309,6 @@ function rtu.new_session(id, in_queue, out_queue, advertisement, facility_units)
|
||||
-- handle instruction
|
||||
elseif msg.qtype == mqueue.TYPE.DATA then
|
||||
-- instruction with body
|
||||
local cmd = msg.message ---@type queue_data
|
||||
if cmd.key == RTU_S_DATA.RS_COMMAND then
|
||||
local rs_cmd = cmd.val ---@type rs_session_command
|
||||
|
||||
if rsio.is_valid_channel(rs_cmd.channel) then
|
||||
cmd.key = svrs_redstone.RS_RTU_S_DATA.RS_COMMAND
|
||||
if rs_cmd.reactor == nil then
|
||||
-- for all reactors (facility)
|
||||
for i = 1, #self.rs_io_q do
|
||||
local q = self.rs_io.q[i] ---@type mqueue
|
||||
q.push_data(msg)
|
||||
end
|
||||
elseif self.rs_io_q[rs_cmd.reactor] ~= nil then
|
||||
-- for just one reactor
|
||||
local q = self.rs_io.q[rs_cmd.reactor] ---@type mqueue
|
||||
q.push_data(msg)
|
||||
end
|
||||
end
|
||||
end
|
||||
end
|
||||
end
|
||||
|
||||
|
16
supervisor/session/rtu/qtypes.lua
Normal file
16
supervisor/session/rtu/qtypes.lua
Normal file
@ -0,0 +1,16 @@
|
||||
---@class rtu_unit_qtypes
|
||||
local qtypes = {}
|
||||
|
||||
local TBV_RTU_S_CMDS = {
|
||||
INC_DUMP_MODE = 1,
|
||||
DEC_DUMP_MODE = 2
|
||||
}
|
||||
|
||||
local TBV_RTU_S_DATA = {
|
||||
SET_DUMP_MODE = 1
|
||||
}
|
||||
|
||||
qtypes.TBV_RTU_S_CMDS = TBV_RTU_S_CMDS
|
||||
qtypes.TBV_RTU_S_DATA = TBV_RTU_S_DATA
|
||||
|
||||
return qtypes
|
@ -12,39 +12,40 @@ local redstone = {}
|
||||
local RTU_UNIT_TYPES = comms.RTU_UNIT_TYPES
|
||||
local MODBUS_FCODE = types.MODBUS_FCODE
|
||||
|
||||
local RS_IO = rsio.IO
|
||||
local IO_PORT = rsio.IO
|
||||
local IO_LVL = rsio.IO_LVL
|
||||
local IO_DIR = rsio.IO_DIR
|
||||
local IO_MODE = rsio.IO_MODE
|
||||
|
||||
local RS_RTU_S_CMDS = {
|
||||
}
|
||||
|
||||
local RS_RTU_S_DATA = {
|
||||
RS_COMMAND = 1
|
||||
}
|
||||
|
||||
redstone.RS_RTU_S_CMDS = RS_RTU_S_CMDS
|
||||
redstone.RS_RTU_S_DATA = RS_RTU_S_DATA
|
||||
local TXN_READY = -1
|
||||
|
||||
local TXN_TYPES = {
|
||||
DI_READ = 1,
|
||||
COIL_WRITE = 2,
|
||||
INPUT_REG_READ = 3,
|
||||
HOLD_REG_WRITE = 4
|
||||
COIL_READ = 3,
|
||||
INPUT_REG_READ = 4,
|
||||
HOLD_REG_WRITE = 5,
|
||||
HOLD_REG_READ = 6
|
||||
}
|
||||
|
||||
local TXN_TAGS = {
|
||||
"redstone.di_read",
|
||||
"redstone.coil_write",
|
||||
"redstone.input_reg_write",
|
||||
"redstone.hold_reg_write"
|
||||
"redstone.coil_read",
|
||||
"redstone.input_reg_read",
|
||||
"redstone.hold_reg_write",
|
||||
"redstone.hold_reg_read"
|
||||
}
|
||||
|
||||
local PERIODICS = {
|
||||
INPUT_READ = 200
|
||||
INPUT_READ = 200,
|
||||
OUTPUT_SYNC = 200
|
||||
}
|
||||
|
||||
---@class phy_entry
|
||||
---@field phy IO_LVL
|
||||
---@field req IO_LVL
|
||||
|
||||
-- create a new redstone rtu session runner
|
||||
---@param session_id integer
|
||||
---@param unit_id integer
|
||||
@ -62,57 +63,127 @@ function redstone.new(session_id, unit_id, advert, out_queue)
|
||||
|
||||
local self = {
|
||||
session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
|
||||
in_q = mqueue.new(),
|
||||
has_di = false,
|
||||
has_do = false,
|
||||
has_ai = false,
|
||||
has_ao = false,
|
||||
periodics = {
|
||||
next_di_req = 0,
|
||||
next_ir_req = 0
|
||||
next_cl_sync = 0,
|
||||
next_ir_req = 0,
|
||||
next_hr_sync = 0
|
||||
},
|
||||
---@class rs_io_list
|
||||
io_list = {
|
||||
digital_in = {}, -- discrete inputs
|
||||
digital_out = {}, -- coils
|
||||
analog_in = {}, -- input registers
|
||||
analog_out = {} -- holding registers
|
||||
},
|
||||
db = {}
|
||||
phy_trans = { coils = -1, hold_regs = -1 },
|
||||
-- last set/read ports (reflecting the current state of the RTU)
|
||||
---@class rs_io_states
|
||||
phy_io = {
|
||||
digital_in = {}, -- discrete inputs
|
||||
digital_out = {}, -- coils
|
||||
analog_in = {}, -- input registers
|
||||
analog_out = {} -- holding registers
|
||||
},
|
||||
---@class redstone_session_db
|
||||
db = {
|
||||
-- read/write functions for connected I/O
|
||||
io = {}
|
||||
}
|
||||
}
|
||||
|
||||
local public = self.session.get()
|
||||
|
||||
-- INITIALIZE --
|
||||
|
||||
-- create all channels as disconnected
|
||||
for _ = 1, #RS_IO do
|
||||
-- create all ports as disconnected
|
||||
for _ = 1, #IO_PORT do
|
||||
table.insert(self.db, IO_LVL.DISCONNECT)
|
||||
end
|
||||
|
||||
-- setup I/O
|
||||
for i = 1, #advert.rsio do
|
||||
local channel = advert.rsio[i]
|
||||
local port = advert.rsio[i]
|
||||
|
||||
if rsio.is_valid_channel(channel) then
|
||||
local mode = rsio.get_io_mode(channel)
|
||||
if rsio.is_valid_port(port) then
|
||||
local mode = rsio.get_io_mode(port)
|
||||
|
||||
if mode == IO_MODE.DIGITAL_IN then
|
||||
self.has_di = true
|
||||
table.insert(self.io_list.digital_in, channel)
|
||||
table.insert(self.io_list.digital_in, port)
|
||||
|
||||
self.phy_io.digital_in[port] = { phy = IO_LVL.FLOATING, req = IO_LVL.FLOATING }
|
||||
|
||||
---@class rs_db_dig_io
|
||||
local io_f = {
|
||||
read = function () return rsio.digital_is_active(port, self.phy_io.digital_in[port].phy) end,
|
||||
---@param active boolean
|
||||
write = function (active) end
|
||||
}
|
||||
|
||||
self.db.io[port] = io_f
|
||||
elseif mode == IO_MODE.DIGITAL_OUT then
|
||||
table.insert(self.io_list.digital_out, channel)
|
||||
self.has_do = true
|
||||
table.insert(self.io_list.digital_out, port)
|
||||
|
||||
self.phy_io.digital_out[port] = { phy = IO_LVL.FLOATING, req = IO_LVL.FLOATING }
|
||||
|
||||
---@class rs_db_dig_io
|
||||
local io_f = {
|
||||
read = function () return rsio.digital_is_active(port, self.phy_io.digital_out[port].phy) end,
|
||||
---@param active boolean
|
||||
write = function (active)
|
||||
local level = rsio.digital_write_active(port, active)
|
||||
if level ~= nil then self.phy_io.digital_out[port].req = level end
|
||||
end
|
||||
}
|
||||
|
||||
self.db.io[port] = io_f
|
||||
elseif mode == IO_MODE.ANALOG_IN then
|
||||
self.has_ai = true
|
||||
table.insert(self.io_list.analog_in, channel)
|
||||
table.insert(self.io_list.analog_in, port)
|
||||
|
||||
self.phy_io.analog_in[port] = { phy = 0, req = 0 }
|
||||
|
||||
---@class rs_db_ana_io
|
||||
local io_f = {
|
||||
---@return integer
|
||||
read = function () return self.phy_io.analog_in[port].phy end,
|
||||
---@param value integer
|
||||
write = function (value) end
|
||||
}
|
||||
|
||||
self.db.io[port] = io_f
|
||||
elseif mode == IO_MODE.ANALOG_OUT then
|
||||
table.insert(self.io_list.analog_out, channel)
|
||||
self.has_ao = true
|
||||
table.insert(self.io_list.analog_out, port)
|
||||
|
||||
self.phy_io.analog_out[port] = { phy = 0, req = 0 }
|
||||
|
||||
---@class rs_db_ana_io
|
||||
local io_f = {
|
||||
---@return integer
|
||||
read = function () return self.phy_io.analog_out[port].phy end,
|
||||
---@param value integer
|
||||
write = function (value)
|
||||
if value >= 0 and value <= 15 then
|
||||
self.phy_io.analog_out[port].req = value
|
||||
end
|
||||
end
|
||||
}
|
||||
|
||||
self.db.io[port] = io_f
|
||||
else
|
||||
-- should be unreachable code, we already validated channels
|
||||
log.error(util.c(log_tag, "failed to identify advertisement channel IO mode (", channel, ")"), true)
|
||||
-- should be unreachable code, we already validated ports
|
||||
log.error(util.c(log_tag, "failed to identify advertisement port IO mode (", port, ")"), true)
|
||||
return nil
|
||||
end
|
||||
|
||||
self.db[channel] = IO_LVL.LOW
|
||||
else
|
||||
log.error(util.c(log_tag, "invalid advertisement channel (", channel, ")"), true)
|
||||
log.error(util.c(log_tag, "invalid advertisement port (", port, ")"), true)
|
||||
return nil
|
||||
end
|
||||
end
|
||||
@ -129,14 +200,40 @@ function redstone.new(session_id, unit_id, advert, out_queue)
|
||||
self.session.send_request(TXN_TYPES.INPUT_REG_READ, MODBUS_FCODE.READ_INPUT_REGS, { 1, #self.io_list.analog_in })
|
||||
end
|
||||
|
||||
-- write coil output
|
||||
local function _write_coil(coil, value)
|
||||
self.session.send_request(TXN_TYPES.COIL_WRITE, MODBUS_FCODE.WRITE_MUL_COILS, { coil, value })
|
||||
-- write all coil outputs
|
||||
local function _write_coils()
|
||||
local params = { 1 }
|
||||
|
||||
local outputs = self.phy_io.digital_out
|
||||
for i = 1, #self.io_list.digital_out do
|
||||
local port = self.io_list.digital_out[i]
|
||||
table.insert(params, outputs[port].req)
|
||||
end
|
||||
|
||||
-- write holding register output
|
||||
local function _write_holding_register(reg, value)
|
||||
self.session.send_request(TXN_TYPES.HOLD_REG_WRITE, MODBUS_FCODE.WRITE_MUL_HOLD_REGS, { reg, value })
|
||||
self.phy_trans.coils = self.session.send_request(TXN_TYPES.COIL_WRITE, MODBUS_FCODE.WRITE_MUL_COILS, params)
|
||||
end
|
||||
|
||||
-- read all coil outputs
|
||||
local function _read_coils()
|
||||
self.session.send_request(TXN_TYPES.COIL_READ, MODBUS_FCODE.READ_COILS, { 1, #self.io_list.digital_out })
|
||||
end
|
||||
|
||||
-- write all holding register outputs
|
||||
local function _write_holding_registers()
|
||||
local params = { 1 }
|
||||
|
||||
local outputs = self.phy_io.analog_out
|
||||
for i = 1, #self.io_list.analog_out do
|
||||
local port = self.io_list.analog_out[i]
|
||||
table.insert(params, outputs[port].req)
|
||||
end
|
||||
|
||||
self.phy_trans.hold_regs = self.session.send_request(TXN_TYPES.HOLD_REG_WRITE, MODBUS_FCODE.WRITE_MUL_HOLD_REGS, params)
|
||||
end
|
||||
|
||||
-- read all holding register outputs
|
||||
local function _read_holding_registers()
|
||||
self.session.send_request(TXN_TYPES.HOLD_REG_READ, MODBUS_FCODE.READ_MUL_HOLD_REGS, { 1, #self.io_list.analog_out })
|
||||
end
|
||||
|
||||
-- PUBLIC FUNCTIONS --
|
||||
@ -146,14 +243,23 @@ function redstone.new(session_id, unit_id, advert, out_queue)
|
||||
function public.handle_packet(m_pkt)
|
||||
local txn_type = self.session.try_resolve(m_pkt)
|
||||
if txn_type == false then
|
||||
-- nothing to do
|
||||
-- check if this is a failed write request
|
||||
-- redstone operations are always immediately executed, so this would not be from an ACK or BUSY
|
||||
if m_pkt.txn_id == self.phy_trans.coils then
|
||||
self.phy_trans.coils = TXN_READY
|
||||
log.debug(log_tag .. "failed to write coils, retrying soon")
|
||||
elseif m_pkt.txn_id == self.phy_trans.hold_regs then
|
||||
self.phy_trans.hold_regs = TXN_READY
|
||||
log.debug(log_tag .. "failed to write holding registers, retrying soon")
|
||||
end
|
||||
elseif txn_type == TXN_TYPES.DI_READ then
|
||||
-- discrete input read response
|
||||
if m_pkt.length == #self.io_list.digital_in then
|
||||
for i = 1, m_pkt.length do
|
||||
local channel = self.io_list.digital_in[i]
|
||||
local port = self.io_list.digital_in[i]
|
||||
local value = m_pkt.data[i]
|
||||
self.db[channel] = value
|
||||
|
||||
self.phy_io.digital_in[port].phy = value
|
||||
end
|
||||
else
|
||||
log.debug(log_tag .. "MODBUS transaction reply length mismatch (" .. TXN_TAGS[txn_type] .. ")")
|
||||
@ -162,15 +268,55 @@ function redstone.new(session_id, unit_id, advert, out_queue)
|
||||
-- input register read response
|
||||
if m_pkt.length == #self.io_list.analog_in then
|
||||
for i = 1, m_pkt.length do
|
||||
local channel = self.io_list.analog_in[i]
|
||||
local port = self.io_list.analog_in[i]
|
||||
local value = m_pkt.data[i]
|
||||
self.db[channel] = value
|
||||
|
||||
self.phy_io.analog_in[port].phy = value
|
||||
end
|
||||
else
|
||||
log.debug(log_tag .. "MODBUS transaction reply length mismatch (" .. TXN_TAGS[txn_type] .. ")")
|
||||
end
|
||||
elseif txn_type == TXN_TYPES.COIL_WRITE or txn_type == TXN_TYPES.HOLD_REG_WRITE then
|
||||
-- successful acknowledgement
|
||||
elseif txn_type == TXN_TYPES.COIL_WRITE then
|
||||
-- successful acknowledgement, read back
|
||||
_read_coils()
|
||||
elseif txn_type == TXN_TYPES.COIL_READ then
|
||||
-- update phy I/O table
|
||||
-- if there are multiple outputs for the same port, they will overwrite eachother (but *should* be identical)
|
||||
-- given these are redstone outputs, if one worked they all should have, so no additional verification will be done
|
||||
if m_pkt.length == #self.io_list.digital_out then
|
||||
for i = 1, m_pkt.length do
|
||||
local port = self.io_list.digital_out[i]
|
||||
local value = m_pkt.data[i]
|
||||
|
||||
self.phy_io.digital_out[port].phy = value
|
||||
if self.phy_io.digital_out[port].req == IO_LVL.FLOATING then
|
||||
self.phy_io.digital_out[port].req = value
|
||||
end
|
||||
end
|
||||
|
||||
self.phy_trans.coils = TXN_READY
|
||||
else
|
||||
log.debug(log_tag .. "MODBUS transaction reply length mismatch (" .. TXN_TAGS[txn_type] .. ")")
|
||||
end
|
||||
elseif txn_type == TXN_TYPES.HOLD_REG_WRITE then
|
||||
-- successful acknowledgement, read back
|
||||
_read_holding_registers()
|
||||
elseif txn_type == TXN_TYPES.HOLD_REG_READ then
|
||||
-- update phy I/O table
|
||||
-- if there are multiple outputs for the same port, they will overwrite eachother (but *should* be identical)
|
||||
-- given these are redstone outputs, if one worked they all should have, so no additional verification will be done
|
||||
if m_pkt.length == #self.io_list.analog_out then
|
||||
for i = 1, m_pkt.length do
|
||||
local port = self.io_list.analog_out[i]
|
||||
local value = m_pkt.data[i]
|
||||
|
||||
self.phy_io.analog_out[port].phy = value
|
||||
end
|
||||
else
|
||||
log.debug(log_tag .. "MODBUS transaction reply length mismatch (" .. TXN_TAGS[txn_type] .. ")")
|
||||
end
|
||||
|
||||
self.phy_trans.hold_regs = TXN_READY
|
||||
elseif txn_type == nil then
|
||||
log.error(log_tag .. "unknown transaction reply")
|
||||
else
|
||||
@ -181,60 +327,6 @@ function redstone.new(session_id, unit_id, advert, out_queue)
|
||||
-- update this runner
|
||||
---@param time_now integer milliseconds
|
||||
function public.update(time_now)
|
||||
-- check command queue
|
||||
while self.in_q.ready() do
|
||||
-- get a new message to process
|
||||
local msg = self.in_q.pop()
|
||||
|
||||
if msg ~= nil then
|
||||
if msg.qtype == mqueue.TYPE.DATA then
|
||||
-- instruction with body
|
||||
local cmd = msg.message ---@type queue_data
|
||||
if cmd.key == RS_RTU_S_DATA.RS_COMMAND then
|
||||
local rs_cmd = cmd.val ---@type rs_session_command
|
||||
|
||||
if self.db[rs_cmd.channel] ~= IO_LVL.DISCONNECT then
|
||||
-- we have this as a connected channel
|
||||
local mode = rsio.get_io_mode(rs_cmd.channel)
|
||||
if mode == IO_MODE.DIGITAL_OUT then
|
||||
-- record the value for retries
|
||||
self.db[rs_cmd.channel] = rs_cmd.value
|
||||
|
||||
-- find the coil address then write to it
|
||||
for i = 0, #self.digital_out do
|
||||
if self.digital_out[i] == rs_cmd.channel then
|
||||
_write_coil(i, rs_cmd.value)
|
||||
break
|
||||
end
|
||||
end
|
||||
elseif mode == IO_MODE.ANALOG_OUT then
|
||||
-- record the value for retries
|
||||
self.db[rs_cmd.channel] = rs_cmd.value
|
||||
|
||||
-- find the holding register address then write to it
|
||||
for i = 0, #self.analog_out do
|
||||
if self.analog_out[i] == rs_cmd.channel then
|
||||
_write_holding_register(i, rs_cmd.value)
|
||||
break
|
||||
end
|
||||
end
|
||||
else
|
||||
log.debug(util.c(log_tag, "attemted write to non D/O or A/O mode ", mode))
|
||||
end
|
||||
end
|
||||
end
|
||||
end
|
||||
end
|
||||
|
||||
-- max 100ms spent processing queue
|
||||
if util.time() - time_now > 100 then
|
||||
log.warning(log_tag .. "exceeded 100ms queue process limit")
|
||||
break
|
||||
end
|
||||
end
|
||||
|
||||
time_now = util.time()
|
||||
|
||||
-- poll digital inputs
|
||||
if self.has_di then
|
||||
if self.periodics.next_di_req <= time_now then
|
||||
@ -243,6 +335,20 @@ function redstone.new(session_id, unit_id, advert, out_queue)
|
||||
end
|
||||
end
|
||||
|
||||
-- sync digital outputs
|
||||
if self.has_do then
|
||||
if (self.periodics.next_cl_sync <= time_now) and (self.phy_trans.coils == TXN_READY) then
|
||||
for _, entry in pairs(self.phy_io.digital_out) do
|
||||
if entry.phy ~= entry.req then
|
||||
_write_coils()
|
||||
break
|
||||
end
|
||||
end
|
||||
|
||||
self.periodics.next_cl_sync = time_now + PERIODICS.OUTPUT_SYNC
|
||||
end
|
||||
end
|
||||
|
||||
-- poll analog inputs
|
||||
if self.has_ai then
|
||||
if self.periodics.next_ir_req <= time_now then
|
||||
@ -251,6 +357,20 @@ function redstone.new(session_id, unit_id, advert, out_queue)
|
||||
end
|
||||
end
|
||||
|
||||
-- sync analog outputs
|
||||
if self.has_ao then
|
||||
if (self.periodics.next_hr_sync <= time_now) and (self.phy_trans.hold_regs == TXN_READY) then
|
||||
for _, entry in pairs(self.phy_io.analog_out) do
|
||||
if entry.phy ~= entry.req then
|
||||
_write_holding_registers()
|
||||
break
|
||||
end
|
||||
end
|
||||
|
||||
self.periodics.next_hr_sync = time_now + PERIODICS.OUTPUT_SYNC
|
||||
end
|
||||
end
|
||||
|
||||
self.session.post_update()
|
||||
end
|
||||
|
||||
@ -262,7 +382,7 @@ function redstone.new(session_id, unit_id, advert, out_queue)
|
||||
-- get the unit session database
|
||||
function public.get_db() return self.db end
|
||||
|
||||
return public, self.in_q
|
||||
return public
|
||||
end
|
||||
|
||||
return redstone
|
||||
|
@ -4,6 +4,7 @@ local mqueue = require("scada-common.mqueue")
|
||||
local types = require("scada-common.types")
|
||||
local util = require("scada-common.util")
|
||||
|
||||
local qtypes = require("supervisor.session.rtu.qtypes")
|
||||
local unit_session = require("supervisor.session.rtu.unit_session")
|
||||
|
||||
local turbinev = {}
|
||||
@ -12,17 +13,8 @@ local RTU_UNIT_TYPES = comms.RTU_UNIT_TYPES
|
||||
local DUMPING_MODE = types.DUMPING_MODE
|
||||
local MODBUS_FCODE = types.MODBUS_FCODE
|
||||
|
||||
local TBV_RTU_S_CMDS = {
|
||||
INC_DUMP_MODE = 1,
|
||||
DEC_DUMP_MODE = 2
|
||||
}
|
||||
|
||||
local TBV_RTU_S_DATA = {
|
||||
SET_DUMP_MODE = 1
|
||||
}
|
||||
|
||||
turbinev.RS_RTU_S_CMDS = TBV_RTU_S_CMDS
|
||||
turbinev.RS_RTU_S_DATA = TBV_RTU_S_DATA
|
||||
local TBV_RTU_S_CMDS = qtypes.TBV_RTU_S_CMDS
|
||||
local TBV_RTU_S_DATA = qtypes.TBV_RTU_S_DATA
|
||||
|
||||
local TXN_TYPES = {
|
||||
FORMED = 1,
|
||||
@ -67,7 +59,6 @@ function turbinev.new(session_id, unit_id, advert, out_queue)
|
||||
|
||||
local self = {
|
||||
session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
|
||||
in_q = mqueue.new(),
|
||||
has_build = false,
|
||||
periodics = {
|
||||
next_formed_req = 0,
|
||||
@ -240,9 +231,9 @@ function turbinev.new(session_id, unit_id, advert, out_queue)
|
||||
---@param time_now integer milliseconds
|
||||
function public.update(time_now)
|
||||
-- check command queue
|
||||
while self.in_q.ready() do
|
||||
while self.session.in_q.ready() do
|
||||
-- get a new message to process
|
||||
local msg = self.in_q.pop()
|
||||
local msg = self.session.in_q.pop()
|
||||
|
||||
if msg ~= nil then
|
||||
if msg.qtype == mqueue.TYPE.COMMAND then
|
||||
@ -254,15 +245,21 @@ function turbinev.new(session_id, unit_id, advert, out_queue)
|
||||
elseif cmd == TBV_RTU_S_CMDS.DEC_DUMP_MODE then
|
||||
_dec_dump_mode()
|
||||
else
|
||||
log.debug(util.c(log_tag, "unrecognized in_q command ", cmd))
|
||||
log.debug(util.c(log_tag, "unrecognized in-queue command ", cmd))
|
||||
end
|
||||
elseif msg.qtype == mqueue.TYPE.DATA then
|
||||
-- instruction with body
|
||||
local cmd = msg.message ---@type queue_data
|
||||
if cmd.key == TBV_RTU_S_DATA.SET_DUMP_MODE then
|
||||
if cmd.val == types.DUMPING_MODE.IDLE or
|
||||
cmd.val == types.DUMPING_MODE.DUMPING_EXCESS or
|
||||
cmd.val == types.DUMPING_MODE.DUMPING then
|
||||
_set_dump_mode(cmd.val)
|
||||
else
|
||||
log.debug(util.c(log_tag, "unrecognized in_q data ", cmd.key))
|
||||
log.debug(util.c(log_tag, "unrecognized dumping mode \"", cmd.val, "\""))
|
||||
end
|
||||
else
|
||||
log.debug(util.c(log_tag, "unrecognized in-queue data ", cmd.key))
|
||||
end
|
||||
end
|
||||
end
|
||||
@ -313,7 +310,7 @@ function turbinev.new(session_id, unit_id, advert, out_queue)
|
||||
-- get the unit session database
|
||||
function public.get_db() return self.db end
|
||||
|
||||
return public, self.in_q
|
||||
return public
|
||||
end
|
||||
|
||||
return turbinev
|
||||
|
@ -1,5 +1,6 @@
|
||||
local comms = require("scada-common.comms")
|
||||
local log = require("scada-common.log")
|
||||
local mqueue = require("scada-common.mqueue")
|
||||
local types = require("scada-common.types")
|
||||
local util = require("scada-common.util")
|
||||
|
||||
@ -42,7 +43,9 @@ function unit_session.new(session_id, unit_id, advert, out_queue, log_tag, txn_t
|
||||
}
|
||||
|
||||
---@class _unit_session
|
||||
local protected = {}
|
||||
local protected = {
|
||||
in_q = mqueue.new()
|
||||
}
|
||||
|
||||
---@class unit_session
|
||||
local public = {}
|
||||
@ -53,6 +56,7 @@ function unit_session.new(session_id, unit_id, advert, out_queue, log_tag, txn_t
|
||||
---@param txn_type integer transaction type
|
||||
---@param f_code MODBUS_FCODE function code
|
||||
---@param register_param table register range or register and values
|
||||
---@return integer txn_id transaction ID of this transaction
|
||||
function protected.send_request(txn_type, f_code, register_param)
|
||||
local m_pkt = comms.modbus_packet()
|
||||
local txn_id = self.transaction_controller.create(txn_type)
|
||||
@ -60,11 +64,13 @@ function unit_session.new(session_id, unit_id, advert, out_queue, log_tag, txn_t
|
||||
m_pkt.make(txn_id, self.unit_id, f_code, register_param)
|
||||
|
||||
self.out_q.push_packet(m_pkt)
|
||||
|
||||
return txn_id
|
||||
end
|
||||
|
||||
-- try to resolve a MODBUS transaction
|
||||
---@param m_pkt modbus_frame MODBUS packet
|
||||
---@return integer|false txn_type transaction type or false on error/busy
|
||||
---@return integer|false txn_type, integer txn_id transaction type or false on error/busy, transaction ID
|
||||
function protected.try_resolve(m_pkt)
|
||||
if m_pkt.scada_frame.protocol() == PROTOCOLS.MODBUS_TCP then
|
||||
if m_pkt.unit_id == self.unit_id then
|
||||
@ -110,7 +116,7 @@ function unit_session.new(session_id, unit_id, advert, out_queue, log_tag, txn_t
|
||||
self.device_fail = false
|
||||
|
||||
-- no error, return the transaction type
|
||||
return txn_type
|
||||
return txn_type, m_pkt.txn_id
|
||||
end
|
||||
else
|
||||
log.error(log_tag .. "wrong unit ID: " .. m_pkt.unit_id, true)
|
||||
@ -120,7 +126,7 @@ function unit_session.new(session_id, unit_id, advert, out_queue, log_tag, txn_t
|
||||
end
|
||||
|
||||
-- error or transaction in progress, return false
|
||||
return false
|
||||
return false, m_pkt.txn_id
|
||||
end
|
||||
|
||||
-- post update tasks
|
||||
@ -141,6 +147,8 @@ function unit_session.new(session_id, unit_id, advert, out_queue, log_tag, txn_t
|
||||
function public.get_device_idx() return self.device_index end
|
||||
-- get the reactor ID
|
||||
function public.get_reactor() return self.reactor end
|
||||
-- get the command queue
|
||||
function public.get_cmd_queue() return protected.in_q end
|
||||
|
||||
-- close this unit
|
||||
function public.close() self.connected = false end
|
||||
@ -171,7 +179,10 @@ function unit_session.new(session_id, unit_id, advert, out_queue, log_tag, txn_t
|
||||
end
|
||||
|
||||
-- get the unit session database
|
||||
function public.get_db() return {} end
|
||||
function public.get_db()
|
||||
log.debug("template unit_session.get_db() called", true)
|
||||
return {}
|
||||
end
|
||||
|
||||
return protected
|
||||
end
|
||||
|
@ -9,9 +9,8 @@ local SV_Q_DATA = {
|
||||
SCRAM = 2,
|
||||
RESET_RPS = 3,
|
||||
SET_BURN = 4,
|
||||
SET_WASTE = 5,
|
||||
__END_PLC_CMDS__ = 6,
|
||||
CRDN_ACK = 7
|
||||
__END_PLC_CMDS__ = 5,
|
||||
CRDN_ACK = 6
|
||||
}
|
||||
|
||||
---@class coord_ack
|
||||
|
@ -82,8 +82,6 @@ local function _sv_handle_outq(session)
|
||||
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])
|
||||
elseif cmd.key == SV_Q_DATA.SET_WASTE and type(cmd.val) == "table" and #cmd.val == 2 then
|
||||
---@todo set waste
|
||||
else
|
||||
log.debug(util.c("unknown PLC SV queue command ", cmd.key))
|
||||
end
|
||||
|
@ -1,9 +1,15 @@
|
||||
local log = require("scada-common.log")
|
||||
local rsio = require("scada-common.rsio")
|
||||
local types = require("scada-common.types")
|
||||
local util = require("scada-common.util")
|
||||
local log = require("scada-common.log")
|
||||
|
||||
local qtypes = require("supervisor.session.rtu.qtypes")
|
||||
|
||||
---@class reactor_control_unit
|
||||
local unit = {}
|
||||
|
||||
local WASTE_MODE = types.WASTE_MODE
|
||||
|
||||
local ALARM = types.ALARM
|
||||
local PRIO = types.ALARM_PRIORITY
|
||||
local ALARM_STATE = types.ALARM_STATE
|
||||
@ -11,6 +17,8 @@ local ALARM_STATE = types.ALARM_STATE
|
||||
local TRI_FAIL = types.TRI_FAIL
|
||||
local DUMPING_MODE = types.DUMPING_MODE
|
||||
|
||||
local IO = rsio.IO
|
||||
|
||||
local FLOW_STABILITY_DELAY_MS = 15000
|
||||
|
||||
local DT_KEYS = {
|
||||
@ -105,6 +113,7 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
-- "It's just a routine turbin' trip!" -Bill Gibson
|
||||
TurbineTrip = { state = AISTATE.INACTIVE, trip_time = 0, hold_time = 0, id = ALARM.TurbineTrip, tier = PRIO.URGENT }
|
||||
},
|
||||
---@class unit_db
|
||||
db = {
|
||||
---@class annunciator
|
||||
annunciator = {
|
||||
@ -173,6 +182,8 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
|
||||
-- PRIVATE FUNCTIONS --
|
||||
|
||||
--#region time derivative utility functions
|
||||
|
||||
-- compute a change with respect to time of the given value
|
||||
---@param key string value key
|
||||
---@param value number value
|
||||
@ -204,13 +215,44 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
---@param key string value key
|
||||
---@return number
|
||||
local function _get_dt(key)
|
||||
if self.deltas[key] then
|
||||
return self.deltas[key].dt
|
||||
else
|
||||
return 0.0
|
||||
if self.deltas[key] then return self.deltas[key].dt else return 0.0 end
|
||||
end
|
||||
|
||||
--#endregion
|
||||
|
||||
--#region redstone I/O
|
||||
|
||||
-- write to a redstone port
|
||||
local function __rs_w(port, value)
|
||||
for i = 1, #self.redstone do
|
||||
local db = self.redstone[i].get_db() ---@type redstone_session_db
|
||||
local io = db.io[port] ---@type rs_db_dig_io|nil
|
||||
if io ~= nil then io.write(value) end
|
||||
end
|
||||
end
|
||||
|
||||
-- read a redstone port<br>
|
||||
-- this will read from the first one encountered if there are multiple, because there should not be multiple
|
||||
---@param port IO_PORT
|
||||
---@return boolean|nil
|
||||
local function __rs_r(port)
|
||||
for i = 1, #self.redstone do
|
||||
local db = self.redstone[i].get_db() ---@type redstone_session_db
|
||||
local io = db.io[port] ---@type rs_db_dig_io|nil
|
||||
if io ~= nil then return io.read() end
|
||||
end
|
||||
end
|
||||
|
||||
-- waste valves
|
||||
local waste_pu = { open = function () __rs_w(IO.WASTE_PU, true) end, close = function () __rs_w(IO.WASTE_PU, false) end }
|
||||
local waste_sna = { open = function () __rs_w(IO.WASTE_PO, true) end, close = function () __rs_w(IO.WASTE_PO, false) end }
|
||||
local waste_po = { open = function () __rs_w(IO.WASTE_POPL, true) end, close = function () __rs_w(IO.WASTE_POPL, false) end }
|
||||
local waste_sps = { open = function () __rs_w(IO.WASTE_AM, true) end, close = function () __rs_w(IO.WASTE_AM, false) end }
|
||||
|
||||
--#endregion
|
||||
|
||||
--#region task helpers
|
||||
|
||||
-- update an alarm state given conditions
|
||||
---@param tripped boolean if the alarm condition is still active
|
||||
---@param alarm alarm_def alarm table
|
||||
@ -335,6 +377,10 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
end
|
||||
end
|
||||
|
||||
--#endregion
|
||||
|
||||
--#region alarms and annunciator
|
||||
|
||||
-- update the annunciator
|
||||
local function _update_annunciator()
|
||||
-- update deltas
|
||||
@ -617,6 +663,8 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
_update_alarm_state(any_trip, self.alarms.TurbineTrip)
|
||||
end
|
||||
|
||||
--#endregion
|
||||
|
||||
-- unlink disconnected units
|
||||
---@param sessions table
|
||||
local function _unlink_disconnected_units(sessions)
|
||||
@ -642,6 +690,13 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
_reset_dt(DT_KEYS.ReactorHCool)
|
||||
end
|
||||
|
||||
-- link a redstone RTU session
|
||||
---@param rs_unit unit_session
|
||||
function public.add_redstone(rs_unit)
|
||||
-- insert into list
|
||||
table.insert(self.redstone, rs_unit)
|
||||
end
|
||||
|
||||
-- link a turbine RTU session
|
||||
---@param turbine unit_session
|
||||
function public.add_turbine(turbine)
|
||||
@ -676,17 +731,6 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
end
|
||||
end
|
||||
|
||||
-- link a redstone RTU capability
|
||||
function public.add_redstone(field, accessor)
|
||||
-- ensure field exists
|
||||
if self.redstone[field] == nil then
|
||||
self.redstone[field] = {}
|
||||
end
|
||||
|
||||
-- insert into list
|
||||
table.insert(self.redstone[field], accessor)
|
||||
end
|
||||
|
||||
-- purge devices associated with the given RTU session ID
|
||||
---@param session integer RTU session ID
|
||||
function public.purge_rtu_devices(session)
|
||||
@ -716,7 +760,7 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
_update_alarms()
|
||||
end
|
||||
|
||||
-- ACK/RESET ALARMS --
|
||||
-- OPERATIONS --
|
||||
|
||||
-- acknowledge all alarms (if possible)
|
||||
function public.ack_all()
|
||||
@ -743,6 +787,32 @@ function unit.new(for_reactor, num_boilers, num_turbines)
|
||||
end
|
||||
end
|
||||
|
||||
-- route reactor waste
|
||||
---@param mode WASTE_MODE waste handling mode
|
||||
function public.set_waste(mode)
|
||||
if mode == WASTE_MODE.AUTO then
|
||||
---@todo automatic waste routing
|
||||
elseif mode == WASTE_MODE.PLUTONIUM then
|
||||
-- route through plutonium generation
|
||||
waste_pu.open()
|
||||
waste_sna.close()
|
||||
waste_po.close()
|
||||
waste_sps.close()
|
||||
elseif mode == WASTE_MODE.POLONIUM then
|
||||
-- route through polonium generation into pellets
|
||||
waste_pu.close()
|
||||
waste_sna.open()
|
||||
waste_po.open()
|
||||
waste_sps.close()
|
||||
elseif mode == WASTE_MODE.ANTI_MATTER then
|
||||
-- route through polonium generation into SPS
|
||||
waste_pu.close()
|
||||
waste_sna.open()
|
||||
waste_po.close()
|
||||
waste_sps.open()
|
||||
end
|
||||
end
|
||||
|
||||
-- READ STATES/PROPERTIES --
|
||||
|
||||
-- get build properties of all machines
|
||||
|
@ -14,7 +14,7 @@ local svsessions = require("supervisor.session.svsessions")
|
||||
local config = require("supervisor.config")
|
||||
local supervisor = require("supervisor.supervisor")
|
||||
|
||||
local SUPERVISOR_VERSION = "beta-v0.8.0"
|
||||
local SUPERVISOR_VERSION = "beta-v0.8.1"
|
||||
|
||||
local print = util.print
|
||||
local println = util.println
|
||||
|
@ -16,9 +16,9 @@ local IO_MODE = rsio.IO_MODE
|
||||
println("starting RSIO tester")
|
||||
println("")
|
||||
|
||||
println(">>> checking valid channels:")
|
||||
println(">>> checking valid ports:")
|
||||
|
||||
-- channel function tests
|
||||
-- port function tests
|
||||
local cid = 0
|
||||
local max_value = 1
|
||||
for key, value in pairs(IO) do
|
||||
@ -38,18 +38,18 @@ for key, value in pairs(IO) do
|
||||
elseif io_mode == IO_MODE.ANALOG_OUT then
|
||||
mode = " (ANALOG_OUT)"
|
||||
else
|
||||
error("unknown mode for channel " .. key)
|
||||
error("unknown mode for port " .. key)
|
||||
end
|
||||
|
||||
assert(key == c_name, c_name .. " != " .. key .. ": " .. value .. mode)
|
||||
println(c_name .. ": " .. value .. mode)
|
||||
end
|
||||
|
||||
assert(max_value == cid, "RS_IO last IDx out-of-sync with count: " .. max_value .. " (count " .. cid .. ")")
|
||||
assert(max_value == cid, "IO_PORT last IDx out-of-sync with count: " .. max_value .. " (count " .. cid .. ")")
|
||||
|
||||
testutils.pause()
|
||||
|
||||
println(">>> checking invalid channels:")
|
||||
println(">>> checking invalid ports:")
|
||||
|
||||
testutils.test_func("rsio.to_string", rsio.to_string, { -1, 100, false }, "")
|
||||
testutils.test_func_nil("rsio.to_string", rsio.to_string, "")
|
||||
@ -61,8 +61,8 @@ testutils.pause()
|
||||
println(">>> checking validity checks:")
|
||||
|
||||
local ivc_t_list = { 0, -1, 100 }
|
||||
testutils.test_func("rsio.is_valid_channel", rsio.is_valid_channel, ivc_t_list, false)
|
||||
testutils.test_func_nil("rsio.is_valid_channel", rsio.is_valid_channel, false)
|
||||
testutils.test_func("rsio.is_valid_port", rsio.is_valid_port, ivc_t_list, false)
|
||||
testutils.test_func_nil("rsio.is_valid_port", rsio.is_valid_port, false)
|
||||
|
||||
local ivs_t_list = rs.getSides()
|
||||
testutils.test_func("rsio.is_valid_side", rsio.is_valid_side, ivs_t_list, true)
|
||||
@ -76,7 +76,7 @@ testutils.test_func_nil("rsio.is_color", rsio.is_color, false)
|
||||
|
||||
testutils.pause()
|
||||
|
||||
println(">>> checking channel-independent I/O wrappers:")
|
||||
println(">>> checking port-independent I/O wrappers:")
|
||||
|
||||
testutils.test_func("rsio.digital_read", rsio.digital_read, { true, false }, { IO_LVL.HIGH, IO_LVL.LOW })
|
||||
|
||||
@ -97,11 +97,11 @@ println("PASS")
|
||||
|
||||
testutils.pause()
|
||||
|
||||
println(">>> checking channel I/O:")
|
||||
println(">>> checking port I/O:")
|
||||
|
||||
print("rsio.digital_is_active(...): ")
|
||||
|
||||
-- check input channels
|
||||
-- check input ports
|
||||
assert(rsio.digital_is_active(IO.F_SCRAM, IO_LVL.LOW) == true, "IO_F_SCRAM_HIGH")
|
||||
assert(rsio.digital_is_active(IO.F_SCRAM, IO_LVL.HIGH) == false, "IO_F_SCRAM_LOW")
|
||||
assert(rsio.digital_is_active(IO.R_SCRAM, IO_LVL.LOW) == true, "IO_R_SCRAM_HIGH")
|
||||
@ -115,30 +115,32 @@ assert(rsio.digital_is_active(IO.F_ALARM, IO_LVL.HIGH) == false, "IO_OUT_READ_HI
|
||||
|
||||
println("PASS")
|
||||
|
||||
-- check output channels
|
||||
-- check output ports
|
||||
|
||||
print("rsio.digital_write(...): ")
|
||||
|
||||
-- check output channels
|
||||
assert(rsio.digital_write(IO.F_ALARM, IO_LVL.LOW) == false, "IO_F_ALARM_FALSE")
|
||||
assert(rsio.digital_write(IO.F_ALARM, IO_LVL.HIGH) == true, "IO_F_ALARM_TRUE")
|
||||
assert(rsio.digital_write(IO.WASTE_PO, IO_LVL.HIGH) == false, "IO_WASTE_PO_FALSE")
|
||||
assert(rsio.digital_write(IO.WASTE_PO, IO_LVL.LOW) == true, "IO_WASTE_PO_TRUE")
|
||||
assert(rsio.digital_write(IO.WASTE_PU, IO_LVL.HIGH) == false, "IO_WASTE_PU_FALSE")
|
||||
assert(rsio.digital_write(IO.WASTE_PU, IO_LVL.LOW) == true, "IO_WASTE_PU_TRUE")
|
||||
assert(rsio.digital_write(IO.WASTE_AM, IO_LVL.HIGH) == false, "IO_WASTE_AM_FALSE")
|
||||
assert(rsio.digital_write(IO.WASTE_AM, IO_LVL.LOW) == true, "IO_WASTE_AM_TRUE")
|
||||
-- check output ports
|
||||
assert(rsio.digital_write_active(IO.F_ALARM, true) == IO_LVL.LOW, "IO_F_ALARM_LOW")
|
||||
assert(rsio.digital_write_active(IO.F_ALARM, true) == IO_LVL.HIGH, "IO_F_ALARM_HIGH")
|
||||
assert(rsio.digital_write_active(IO.WASTE_PU, true) == IO_LVL.HIGH, "IO_WASTE_PU_HIGH")
|
||||
assert(rsio.digital_write_active(IO.WASTE_PU, true) == IO_LVL.LOW, "IO_WASTE_PU_LOW")
|
||||
assert(rsio.digital_write_active(IO.WASTE_PO, true) == IO_LVL.HIGH, "IO_WASTE_PO_HIGH")
|
||||
assert(rsio.digital_write_active(IO.WASTE_PO, true) == IO_LVL.LOW, "IO_WASTE_PO_LOW")
|
||||
assert(rsio.digital_write_active(IO.WASTE_POPL, true) == IO_LVL.HIGH, "IO_WASTE_POPL_HIGH")
|
||||
assert(rsio.digital_write_active(IO.WASTE_POPL, true) == IO_LVL.LOW, "IO_WASTE_POPL_LOW")
|
||||
assert(rsio.digital_write_active(IO.WASTE_AM, true) == IO_LVL.HIGH, "IO_WASTE_AM_HIGH")
|
||||
assert(rsio.digital_write_active(IO.WASTE_AM, true) == IO_LVL.LOW, "IO_WASTE_AM_LOW")
|
||||
|
||||
-- check all reactor output channels (all are active high)
|
||||
-- check all reactor output ports (all are active high)
|
||||
for i = IO.R_ALARM, (IO.R_PLC_TIMEOUT - IO.R_ALARM + 1) do
|
||||
assert(rsio.to_string(i) ~= "", "REACTOR_IO_BAD_CHANNEL")
|
||||
assert(rsio.digital_write(i, IO_LVL.LOW) == false, "IO_" .. rsio.to_string(i) .. "_FALSE")
|
||||
assert(rsio.digital_write(i, IO_LVL.HIGH) == true, "IO_" .. rsio.to_string(i) .. "_TRUE")
|
||||
assert(rsio.to_string(i) ~= "", "REACTOR_IO_BAD_PORT")
|
||||
assert(rsio.digital_write_active(i, false) == IO_LVL.LOW, "IO_" .. rsio.to_string(i) .. "_LOW")
|
||||
assert(rsio.digital_write_active(i, true) == IO_LVL.HIGH, "IO_" .. rsio.to_string(i) .. "_HIGH")
|
||||
end
|
||||
|
||||
-- non-outputs should always return false
|
||||
assert(rsio.digital_write(IO.F_SCRAM, IO_LVL.LOW) == false, "IO_IN_WRITE_LOW")
|
||||
assert(rsio.digital_write(IO.F_SCRAM, IO_LVL.LOW) == false, "IO_IN_WRITE_HIGH")
|
||||
assert(rsio.digital_write_active(IO.F_SCRAM, false) == IO_LVL.LOW, "IO_IN_WRITE_FALSE")
|
||||
assert(rsio.digital_write_active(IO.F_SCRAM, true) == IO_LVL.LOW, "IO_IN_WRITE_TRUE")
|
||||
|
||||
println("PASS")
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user