-- Reads data in from UART and logs to dataflash -- find the serial first (0) scripting serial port instance local port = serial:find_serial(0) if not port or baud == 0 then gcs:send_text(0, "No Scripting Serial Port") return end -- begin the serial port port:begin(9600) port:set_flow_control(0) -- table for strings used in decoding local log_data = {} local term_number = 1 local valid = true local term -- number of terms we expect in the message local num_terms = 3 -- maximum length of terms each term we expect local max_length = 20 -- decode a basic string local function decode(byte) local char = string.char(byte) if char == '\r' or char == '\n' or char == ',' then -- decode the term, note this assumes it is a number log_data[term_number] = tonumber(term) if not log_data[term_number] then -- could not convert to a number, discard this message valid = false end term = nil -- not got to the end yet if char == ',' then -- move onto next term if term_number < num_terms then term_number = term_number + 1 end return false end -- make sure we have the correct number of terms if #log_data ~= num_terms then valid = false end if not valid then log_data = {} end -- reset for the next message local is_valid = valid term_number = 1 valid = true return is_valid end -- ordinary characters are added to term -- if we have too many terms or they are too long then don't add to them if term_number <= num_terms then if term then if string.len(term) < max_length then term = term .. char else valid = false end else term = char end else valid = false end return false end -- the main update function that is used to read in data from serial port function update() if not port then gcs:send_text(0, "no Scripting Serial Port") return update, 100 end local n_bytes = port:available() while n_bytes > 0 do local byte = port:read() if decode(byte) then -- we have got a full line -- save to data flash -- care must be taken when selecting a name, must be less than four characters and not clash with an existing log type -- format characters specify the type of variable to be logged, see AP_Logger/README.md -- not all format types are supported by scripting only: i, L, e, f, n, M, B, I, E, and N -- Note that Lua automatically adds a timestamp in micro seconds logger.write('SCR','Sensor1, Sensor2, Sensor3','fff',table.unpack(log_data)) -- reset for the next message log_data = {} end n_bytes = n_bytes - 1 end return update, 100 end return update, 100