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INL-retro-progdump/host/scripts/nes/bnrom.lua

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-- create the module's table
local bnrom = {}
-- import required modules
local dict = require "scripts.app.dict"
local nes = require "scripts.app.nes"
local dump = require "scripts.app.dump"
local flash = require "scripts.app.flash"
local time = require "scripts.app.time"
local files = require "scripts.app.files"
local swim = require "scripts.app.swim"
local buffers = require "scripts.app.buffers"
-- file constants & variables
local mapname = "BxROM"
local banktable_base = 0xFF94 --Lizard
--local banktable_base = 0xFFE0 --HH85
--local rom_FF_addr = 0x8000
-- local functions
local function create_header( file, prgKB, chrKB )
local mirroring = nes.detect_mapper_mirroring()
--write_header( file, prgKB, chrKB, mapper, mirroring )
nes.write_header( file, prgKB, 0, op_buffer[mapname], mirroring)
end
local function dump_cic_message( debug )
--test reading back CIC version
dict.io("SWIM_INIT", "SWIM_ON_A0")
--dict.io("SWIM_INIT", "SWIM_ON_EXP0")
if swim.start() then
swim.read_stack()
else
print("ERROR trying to read back CIC signature stack data")
end
swim.stop_and_reset()
dict.io("IO_RESET")
dict.io("NES_INIT")
end
--read PRG-ROM flash ID
local function prgrom_manf_id( debug )
--init_mapper()
if debug then print("reading PRG-ROM manf ID") end
--enter software mode
--ROMSEL controls PRG-ROM /OE which needs to be low for flash writes
--So unlock commands need to be addressed below $8000
--DISCRETE_EXP0_PRGROM_WR doesn't toggle /ROMSEL by definition though, so A15 is unused
-- 15 14 13 12
-- 0x5 = 0b 0 1 0 1 -> $5555
-- 0x2 = 0b 0 0 1 0 -> $2AAA
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x5555, 0xAA)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x2AAA, 0x55)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x5555, 0x90)
--read manf ID
local rv = dict.nes("NES_CPU_RD", 0x8000)
if debug then print("attempted read PRG-ROM manf ID:", string.format("%X", rv)) end
--read prod ID
rv = dict.nes("NES_CPU_RD", 0x8001)
if debug then print("attempted read PRG-ROM prod ID:", string.format("%X", rv)) end
--exit software
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x8000, 0xF0)
end
--writes a byte to the currently selected bank
local function wr_prg_flash_byte(addr, value, debug)
--same as NROM, but desired bank must already be selected
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x5555, 0xAA)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x2AAA, 0x55)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x5555, 0xA0)
dict.nes("DISCRETE_EXP0_PRGROM_WR", addr, value)
local rv = dict.nes("NES_CPU_RD", addr)
local i = 0
while ( rv ~= value ) do
rv = dict.nes("NES_CPU_RD", addr)
i = i + 1
end
if debug then print(i, "naks, done writing byte.") end
end
--base is the actual NES CPU address, not the rom offset (ie $FFF0, not $7FF0)
local function wr_bank_table(base, entries)
--BNROM needs to have a bank table present in each and every bank
--it should also be at the same location in every bank
-- --first select the last bank as cartridge should be erased (all 0xFF)
-- --go ahead and write the value to where it's supposed to be incase rom isn't erased
-- dict.nes("NES_CPU_WR", base+entries-1, entries-1)
--
-- --write bank table to selected bank
-- while( i < entries) do
-- wr_prg_flash_byte(base+i, i)
-- i = i+1;
-- end
-- --now we can use that bank table to jump to any other bank
--smarter solution is to simply count down so we can use just one loop
local cur_bank = entries - 1 --16 minus 1 is 15 = 0x0F
while( cur_bank >= 0 ) do
--select bank to write to (last bank first)
--use the bank table to make the switch
dict.nes("NES_CPU_WR", base+cur_bank, cur_bank)
--write bank table to selected bank
local i = 0
while( i < entries) do
wr_prg_flash_byte(base+i, i)
i = i+1;
end
cur_bank = cur_bank-1
end
end
--dump the PRG ROM
local function dump_prgrom( file, rom_size_KB, debug )
local KB_per_read = 32
local num_reads = rom_size_KB / KB_per_read
local read_count = 0
local addr_base = 0x08 -- $8000
while ( read_count < num_reads ) do
if debug then print( "dump PRG part ", read_count, " of ", num_reads) end
--select desired bank(s) to dump
dict.nes("NES_CPU_WR", banktable_base+read_count, read_count) --32KB @ CPU $8000
dump.dumptofile( file, KB_per_read, addr_base, "NESCPU_4KB", false )
read_count = read_count + 1
end
end
--this is controlled from the host side one bank at a time
--but requires mapper specific firmware flashing functions
local function flash_prgrom(file, rom_size_KB, debug)
--init_mapper()
--bank table should already be written
--test some bytes
--wr_prg_flash_byte(0x0000, 0xA5, true)
--wr_prg_flash_byte(0xFFFF, 0x5A, true)
print("\nProgramming PRG-ROM flash")
local base_addr = 0x8000 --writes occur $8000-9FFF
local bank_size = 32*1024 --BNROM 32KByte per PRG bank
local buff_size = 1 --number of bytes to write at a time
local cur_bank = 0
local total_banks = rom_size_KB*1024/bank_size
local byte_num --byte number gets reset for each bank
local byte_str, data, readdata
while cur_bank < total_banks do
if (cur_bank %4 == 0) then
print("writting PRG bank: ", cur_bank, " of ", total_banks-1)
end
--write the current bank to the mapper register
dict.nes("NES_CPU_WR", banktable_base+cur_bank, cur_bank)
--program the entire bank's worth of data
--[[ This version of the code programs a single byte at a time but doesn't require
-- MMC3 specific functions in the firmware
print("This is slow as molasses, but gets the job done")
byte_num = 0 --current byte within the bank
while byte_num < bank_size do
--read next byte from the file and convert to binary
byte_str = file:read(buff_size)
data = string.unpack("B", byte_str, 1)
--write the data
--SLOWEST OPTION: no firmware MMC3 specific functions 100% host flash algo:
--wr_prg_flash_byte(base_addr+byte_num, data, false) --0.7KBps
--EASIEST FIRMWARE SPEEDUP: 5x faster, create MMC3 write byte function:
--can use same write function as NROM
dict.nes("NROM_PRG_FLASH_WR", base_addr+byte_num, data) --3.8KBps (5.5x faster than above)
if (verify) then
readdata = dict.nes("NES_CPU_RD", base_addr+byte_num)
if readdata ~= data then
print("ERROR flashing byte number", byte_num, " in bank",cur_bank, " to flash ", data, readdata)
end
end
byte_num = byte_num + 1
end
--]]
--Have the device write a banks worth of data
--Same as NROM
flash.write_file( file, bank_size/1024, "NROM", "PRGROM", false )
cur_bank = cur_bank + 1
end
print("Done Programming PRG-ROM flash")
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 function process(process_opts, console_opts)
local test = process_opts["test"]
local read = process_opts["read"]
local erase = process_opts["erase"]
local program = process_opts["program"]
local verify = process_opts["verify"]
local dumpfile = process_opts["dump_filename"]
local flashfile = process_opts["flash_filename"]
local verifyfile = process_opts["verify_filename"]
local rv = nil
local file
local prg_size = console_opts["prg_rom_size_kb"]
local chr_size = console_opts["chr_rom_size_kb"]
local wram_size = console_opts["wram_size_kb"]
--initialize device i/o for NES
dict.io("IO_RESET")
dict.io("NES_INIT")
--test cart by reading manf/prod ID
if test then
print("Testing ", mapname)
nes.detect_mapper_mirroring(true)
nes.ppu_ram_sense(0x1000, true)
print("EXP0 pull-up test:", dict.io("EXP0_PULLUP_TEST"))
prgrom_manf_id(true)
--dump_cic_message( )
--
end
--dump the cart to dumpfile
if read then
print("\nDumping PRG-ROM...")
file = assert(io.open(dumpfile, "wb"))
--create header: pass open & empty file & rom sizes
create_header(file, prg_size, chr_size)
--TODO find bank table to avoid bus conflicts!
--dump cart into file
time.start()
dump_prgrom(file, prg_size, false)
time.report(prg_size)
--close file
assert(file:close())
print("DONE Dumping PRG-ROM")
end
--erase the cart
if erase then
print("\nErasing", mapname);
print("erasing PRG-ROM");
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x5555, 0xAA)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x2AAA, 0x55)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x5555, 0x80)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x5555, 0xAA)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x2AAA, 0x55)
dict.nes("DISCRETE_EXP0_PRGROM_WR", 0x5555, 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
--open file
file = assert(io.open(flashfile, "rb"))
--determine if auto-doubling, deinterleaving, etc,
--needs done to make board compatible with rom
time.start()
--write bank table to all banks of cartridge
wr_bank_table(banktable_base, prg_size/32) --32KB per bank
--TODO need to verify where bank table belongs and properly determine number of banks
--flash cart
flash_prgrom(file, prg_size, true)
time.report(prg_size)
--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
print("\nPost dumping PRG-ROM")
file = assert(io.open(verifyfile, "wb"))
--dump cart into file
time.start()
dump_prgrom(file, prg_size, false)
time.report(prg_size)
--close file
assert(file:close())
print("DONE post dumping PRG-ROM")
--compare the flash file vs post dump file
if (files.compare( verifyfile, flashfile, true ) ) then
print("\nSUCCESS! Flash verified")
else
print("\n\n\n FAILURE! Flash verification did not match")
end
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
bnrom.process = process
-- return the module's table
return bnrom
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