mirror of
https://github.com/zeldaret/oot.git
synced 2024-11-14 05:19:36 +00:00
0ac4448d99
* Archive compression support + small cleanups * UNSET spec and PR comment * UNSET -> SYMS * Syms comment * PR review * remove stderr * Format * format2 * Remove trailing ,s
255 lines
7.8 KiB
Python
Executable file
255 lines
7.8 KiB
Python
Executable file
#!/usr/bin/env python3
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# SPDX-FileCopyrightText: © 2024 ZeldaRET
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# SPDX-License-Identifier: CC0-1.0
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from __future__ import annotations
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import argparse
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import hashlib
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import io
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from pathlib import Path
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import struct
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import crunch64
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import ipl3checksum
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import zlib
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import dmadata
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def decompress_zlib(data: bytes) -> bytes:
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decomp = zlib.decompressobj(-zlib.MAX_WBITS)
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output = bytearray()
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output.extend(decomp.decompress(data))
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while decomp.unconsumed_tail:
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output.extend(decomp.decompress(decomp.unconsumed_tail))
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output.extend(decomp.flush())
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return bytes(output)
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def decompress(data: bytes, is_zlib_compressed: bool) -> bytes:
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if is_zlib_compressed:
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return decompress_zlib(data)
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return crunch64.yaz0.decompress(data)
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def round_up(n, shift):
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mod = 1 << shift
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return (n + mod - 1) >> shift << shift
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def update_crc(decompressed: io.BytesIO) -> io.BytesIO:
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print("Recalculating crc...")
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calculated_checksum = ipl3checksum.CICKind.CIC_X105.calculateChecksum(
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bytes(decompressed.getbuffer())
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)
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new_crc = struct.pack(f">II", calculated_checksum[0], calculated_checksum[1])
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decompressed.seek(0x10)
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decompressed.write(new_crc)
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return decompressed
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def decompress_rom(
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file_content: bytearray,
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dmadata_start: int,
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dma_entries: list[dmadata.DmaEntry],
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is_zlib_compressed: bool,
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) -> bytearray:
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rom_segments = {} # vrom start : data s.t. len(data) == vrom_end - vrom_start
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new_dmadata = [] # new dmadata: list[dmadata.Entry]
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decompressed = io.BytesIO(b"")
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for dma_entry in dma_entries:
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v_start = dma_entry.vrom_start
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v_end = dma_entry.vrom_end
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p_start = dma_entry.rom_start
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p_end = dma_entry.rom_end
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if dma_entry.is_syms():
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new_dmadata.append(dma_entry)
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continue
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if dma_entry.is_compressed():
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new_contents = decompress(file_content[p_start:p_end], is_zlib_compressed)
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rom_segments[v_start] = new_contents
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else:
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rom_segments[v_start] = file_content[p_start : p_start + v_end - v_start]
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new_dmadata.append(dmadata.DmaEntry(v_start, v_end, v_start, 0))
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# write rom segments to vaddrs
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for vrom_st, data in rom_segments.items():
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decompressed.seek(vrom_st)
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decompressed.write(data)
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# write new dmadata
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decompressed.seek(dmadata_start)
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for dma_entry in new_dmadata:
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entry_data = bytearray(dmadata.DmaEntry.SIZE_BYTES)
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dma_entry.to_bin(entry_data)
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decompressed.write(entry_data)
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# pad to size
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padding_end = round_up(dma_entries[-1].vrom_end, 14)
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decompressed.seek(padding_end - 1)
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decompressed.write(bytearray([0]))
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# re-calculate crc
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return bytearray(update_crc(decompressed).getbuffer())
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def get_str_hash(byte_array):
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return str(hashlib.md5(byte_array).hexdigest())
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def check_existing_rom(rom_path: Path, correct_str_hash: str):
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# If the baserom exists and is correct, we don't need to change anything
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if rom_path.exists():
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if get_str_hash(rom_path.read_bytes()) == correct_str_hash:
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return True
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return False
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def word_swap(file_content: bytearray) -> bytearray:
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words = str(int(len(file_content) / 4))
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little_byte_format = "<" + words + "I"
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big_byte_format = ">" + words + "I"
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tmp = struct.unpack_from(little_byte_format, file_content, 0)
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struct.pack_into(big_byte_format, file_content, 0, *tmp)
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return file_content
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def byte_swap(file_content: bytearray) -> bytearray:
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halfwords = str(int(len(file_content) / 2))
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little_byte_format = "<" + halfwords + "H"
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big_byte_format = ">" + halfwords + "H"
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tmp = struct.unpack_from(little_byte_format, file_content, 0)
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struct.pack_into(big_byte_format, file_content, 0, *tmp)
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return file_content
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def per_version_fixes(file_content: bytearray, version: str) -> bytearray:
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if version == "gc-eu-mq-dbg":
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# Strip the overdump
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print("Stripping overdump...")
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file_content = file_content[0:0x3600000]
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# Patch the header
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print("Patching header...")
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file_content[0x3E] = 0x50
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return file_content
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def pad_rom(file_content: bytearray, dma_entries: list[dmadata.DmaEntry]) -> bytearray:
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padding_start = round_up(dma_entries[-1].vrom_end, 12)
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padding_end = round_up(dma_entries[-1].vrom_end, 14)
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print(f"Padding from {padding_start:X} to {padding_end:X}...")
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for i in range(padding_start, padding_end):
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file_content[i] = 0xFF
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return file_content
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# Determine if we have a ROM file
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ROM_FILE_EXTENSIONS = ["z64", "n64", "v64"]
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def find_baserom(version: str) -> Path | None:
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for rom_file_ext_lower in ROM_FILE_EXTENSIONS:
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for rom_file_ext in (rom_file_ext_lower, rom_file_ext_lower.upper()):
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rom_file_name_candidate = Path(f"baseroms/{version}/baserom.{rom_file_ext}")
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if rom_file_name_candidate.exists():
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return rom_file_name_candidate
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return None
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def main():
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parser = argparse.ArgumentParser(
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description="Convert a rom that uses dmadata to an uncompressed one."
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)
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parser.add_argument(
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"version",
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help="Version of the game to decompress.",
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)
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args = parser.parse_args()
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version = args.version
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baserom_dir = Path(f"baseroms/{version}")
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if not baserom_dir.exists():
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print(f"Error: Unknown version '{version}'.")
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exit(1)
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uncompressed_path = baserom_dir / "baserom-decompressed.z64"
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dmadata_start = int((baserom_dir / "dmadata_start.txt").read_text(), 16)
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correct_str_hash = (baserom_dir / "checksum.md5").read_text().split()[0]
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if check_existing_rom(uncompressed_path, correct_str_hash):
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print("Found valid baserom - exiting early")
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return
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rom_file_name = find_baserom(version)
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if rom_file_name is None:
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path_list = [
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f"baseroms/{version}/baserom.{rom_file_ext}"
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for rom_file_ext in ROM_FILE_EXTENSIONS
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]
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print(f"Error: Could not find {','.join(path_list)}.")
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exit(1)
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# Read in the original ROM
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print(f"File '{rom_file_name}' found.")
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file_content = bytearray(rom_file_name.read_bytes())
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# Check if ROM needs to be byte/word swapped
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# Little-endian
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if file_content[0] == 0x40:
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# Word Swap ROM
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print("ROM needs to be word swapped...")
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file_content = word_swap(file_content)
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print("Word swapping done.")
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# Byte-swapped
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elif file_content[0] == 0x37:
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# Byte Swap ROM
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print("ROM needs to be byte swapped...")
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file_content = byte_swap(file_content)
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print("Byte swapping done.")
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file_content = per_version_fixes(file_content, version)
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dma_entries = dmadata.read_dmadata(file_content, dmadata_start)
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# Decompress
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if any(dma_entry.is_compressed() for dma_entry in dma_entries):
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print("Decompressing rom...")
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is_zlib_compressed = version in {"ique-cn", "ique-zh"}
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file_content = decompress_rom(
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file_content, dmadata_start, dma_entries, is_zlib_compressed
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)
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file_content = pad_rom(file_content, dma_entries)
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# Check to see if the ROM is a "vanilla" ROM
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str_hash = get_str_hash(file_content)
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if str_hash != correct_str_hash:
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print(
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f"Error: Expected a hash of {correct_str_hash} but got {str_hash}. The baserom has probably been tampered, find a new one"
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)
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if version == "gc-eu-mq-dbg":
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if str_hash == "32fe2770c0f9b1a9cd2a4d449348c1cb":
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print(
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"The provided baserom is a rom which has been edited with ZeldaEdit and is not suitable for use with decomp. Find a new one."
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)
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exit(1)
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# Write out our new ROM
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print(f"Writing new ROM {uncompressed_path}...")
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uncompressed_path.write_bytes(file_content)
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print("Done!")
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if __name__ == "__main__":
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main()
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