-- create the module's table local easyNSF = {} -- import required modules local dict = require "scripts.app.dict" local dump = require "scripts.app.dump" local flash = require "scripts.app.flash" -- file constants -- local functions --local function wr_flash_byte(addr, value, debug) --base is the actual NES CPU address, not the rom offset (ie $FFF0, not $7FF0) --local function wr_bank_table(base, entries) --Action53 not susceptible to bus conflicts, no banktable needed --initialize mapper for dump/flash routines local function init_mapper( debug ) --rom A11-0 are directly connected to CPU --A12 pin is part of sector address --in BYTE mode, pin A12 is actually CPU A13 --so ROM A11 must be valid for flash commands --ROM A11 pin is actually CPU A12 --A12 is actually controlled my mapper register... --So it should need to be initialized to work, but flash ID is responding properly without it.. --Therefore I don't think rom A11 pin (CPU A12) needs to be valid, just A11-0? dict.nes("NES_CPU_WR", 0x5000, 0x00) dict.nes("NES_CPU_WR", 0x5001, 0x00) dict.nes("NES_CPU_WR", 0x5002, 0x00) dict.nes("NES_CPU_WR", 0x5003, 0x00) dict.nes("NES_CPU_WR", 0x5004, 0x00) dict.nes("NES_CPU_WR", 0x5005, 0x00) dict.nes("NES_CPU_WR", 0x5006, 0x00) dict.nes("NES_CPU_WR", 0x5007, 0x00) end --read PRG-ROM flash ID local function prgrom_manf_id( debug ) local rv init_mapper() if debug then print("reading PRG-ROM manf ID") end --A0-A14 are all directly addressable in CNROM mode --and mapper writes don't affect PRG banking dict.nes("NES_CPU_WR", 0x8AAA, 0xAA) dict.nes("NES_CPU_WR", 0x8555, 0x55) dict.nes("NES_CPU_WR", 0x8AAA, 0x90) rv = dict.nes("NES_CPU_RD", 0x8000) if debug then print("attempted read PRG-ROM manf ID:", string.format("%X", rv)) end --0x01 rv = dict.nes("NES_CPU_RD", 0x8002) if debug then print("attempted read PRG-ROM prod ID:", string.format("%X", rv)) end --0xDA(top), 0x5B(bot) --exit software dict.nes("NES_CPU_WR", 0x8000, 0xF0) end --Cart should be in reset state upon calling this function --this function processes all user requests for this specific board/mapper local function process( test, read, erase, program, verify, dumpfile, flashfile, verifyfile) local rv = nil local file --initialize device i/o for NES dict.io("IO_RESET") dict.io("NES_INIT") --test cart by reading manf/prod ID if test then prgrom_manf_id(true) end --dump the cart to dumpfile if read then --initialize the mapper for dumping init_mapper(debug) file = assert(io.open(dumpfile, "wb")) --TODO find bank table to avoid bus conflicts! --dump cart into file dump.dumptofile( file, 1024, "EZNSF", "PRGROM", true ) --close file assert(file:close()) end --erase the cart if erase then --initialize the mapper for erasing init_mapper(debug) print("\nerasing tsop takes ~30sec"); print("erasing PRG-ROM"); --A0-A14 are all directly addressable in CNROM mode --only A0-A11 are required to be valid for tsop-48 --and mapper writes don't affect PRG banking dict.nes("NES_CPU_WR", 0x8AAA, 0xAA) dict.nes("NES_CPU_WR", 0x8555, 0x55) dict.nes("NES_CPU_WR", 0x8AAA, 0x80) dict.nes("NES_CPU_WR", 0x8AAA, 0xAA) dict.nes("NES_CPU_WR", 0x8555, 0x55) dict.nes("NES_CPU_WR", 0x8AAA, 0x10) rv = dict.nes("NES_CPU_RD", 0x8000) local i = 0 --TODO create some function to pass the read value --that's smart enough to figure out if the board is actually erasing or not while ( rv ~= 0xFF ) do rv = dict.nes("NES_CPU_RD", 0x8000) i = i + 1 end print(i, "naks, done erasing prg."); end --program flashfile to the cart if program then --initialize the mapper for dumping init_mapper(debug) --open file file = assert(io.open(flashfile, "rb")) --determine if auto-doubling, deinterleaving, etc, --needs done to make board compatible with rom --not susceptible to bus conflicts --flash cart flash.write_file( file, 1024, "EZNSF", "PRGROM", true ) --close file assert(file:close()) end --verify flashfile is on the cart if verify then --for now let's just dump the file and verify manually --initialize the mapper for dumping init_mapper(debug) file = assert(io.open(verifyfile, "wb")) --dump cart into file dump.dumptofile( file, 1024, "EZNSF", "PRGROM", true ) --close file assert(file:close()) end dict.io("IO_RESET") end -- global variables so other modules can use them -- call functions desired to run when script is called/imported -- functions other modules are able to call easyNSF.process = process -- return the module's table return easyNSF