require_relative "../ruby/micronucleus.rb" data = HexProgram.new(open ARGV.first) puts data.instance_variable_get(:@bytes).inspect data = data.bytes # find start address start_address = 16 # skip past baked in trampoline - upgrade firmware generates one anyway! # TODO: Verify jump table? or store it in the upgrade firmware for verbatim installation? start_address += 1 while data[start_address] == 0xFF raise "Seems to be junk data quite early in the bootloader" unless start_address > 100 # trim blank padding data from start of data start_address.times { data.shift } # if data is an odd number of bytes make it even data.push 0xFF while (data.length % 2) != 0 puts "Length: #{data.length}" puts "Start address: #{start_address}" File.open "bootloader_data.c", "w" do |file| file.puts "// This file contains the bootloader data itself and the address to" file.puts "// install the bootloader" file.puts "// Use generate-data.rb with ruby 1.9 or 2.0 to generate these" file.puts "// values from a hex file" file.puts "// Generated from #{ARGV.first} at #{Time.now} by #{ENV['USER']}" file.puts "" file.puts "const uint16_t bootloader_data[#{data.length / 2}] PROGMEM = {" file.puts data.each_slice(2).map { |big_end, little_end| "0x#{ ((little_end * 256) + big_end).to_s(16).rjust(4, '0') }" }.join(', ') file.puts "};" file.puts "" file.puts "uint16_t bootloader_address = #{start_address};" end