#!/usr/bin/env python3 # SPDX-FileCopyrightText: © 2024 ZeldaRET # SPDX-License-Identifier: CC0-1.0 from __future__ import annotations import argparse from pathlib import Path from typing import BinaryIO import spimdisasm from file_addresses import DmaFile, parse_file_addresses, get_z_name_for_overlay def load_file_splits( context: spimdisasm.common.Context, config_dir: Path, dma_file: DmaFile, f: BinaryIO, ) -> spimdisasm.mips.FileSplits: # Assume that we're reading from a decompressed ROM where the DMA file is # now located at the same ROM offset as the VROM start f.seek(dma_file.vrom_start) data = f.read(dma_file.vrom_end - dma_file.vrom_start) file_splits_path = config_dir / f"files_{dma_file.name}.csv" if file_splits_path.exists(): default_filename = dma_file.name splits_data = spimdisasm.common.FileSplitFormat() splits_data.readCsvFile(file_splits_path) reloc_section = None elif dma_file.overlay_dir is not None: z_name = get_z_name_for_overlay(dma_file.name) default_filename = ( f"src/overlays/{dma_file.overlay_dir}/{dma_file.name}/{z_name}" ) splits_data = None reloc_section = spimdisasm.mips.sections.SectionRelocZ64( context, vromStart=0, vromEnd=len(data), vram=dma_file.vram_start, filename=f"src/overlays/{dma_file.overlay_dir}/{dma_file.name}/{dma_file.name}", array_of_bytes=data, segmentVromStart=0, overlayCategory=None, ) else: raise Exception( f"DMA file {dma_file.name} is not an overlay but has no file splits" ) return spimdisasm.mips.FileSplits( context, vromStart=0, vromEnd=len(data), vram=dma_file.vram_start, filename=default_filename, array_of_bytes=data, segmentVromStart=0, overlayCategory=None, splitsData=splits_data, relocSection=reloc_section, ) def main(): parser = argparse.ArgumentParser(description="Disassemble a ROM.") parser.add_argument("rom", type=Path, help="Input ROM") parser.add_argument( "-o", "--output-dir", help="Output directory", type=Path, required=True ) parser.add_argument( "--config-dir", help="Config directory", type=Path, required=True ) parser.add_argument( "--split-functions", help="Write functions into separate files", type=Path ) spimdisasm.common.Context.addParametersToArgParse(parser) spimdisasm.common.GlobalConfig.addParametersToArgParse(parser) spimdisasm.mips.InstructionConfig.addParametersToArgParse(parser) args = parser.parse_args() context = spimdisasm.common.Context() context.parseArgs(args) context.changeGlobalSegmentRanges(0x00000000, 0x01000000, 0x8000000, 0x81000000) context.addBannedSymbolRange(0x0000F000, 0x00010100) context.addBannedSymbolRange(0x10000000, 0x80000300) context.addBannedSymbolRange(0xA0000000, 0xFFFFFFFF) context.addBannedSymbol(0x80100000) # z_kaleido_equipment.c context.addBannedSymbol(0x80112200) # z_message.c spimdisasm.mips.InstructionConfig.parseArgs(args) spimdisasm.common.GlobalConfig.parseArgs(args) spimdisasm.common.GlobalConfig.PRODUCE_SYMBOLS_PLUS_OFFSET = True spimdisasm.common.GlobalConfig.TRUST_USER_FUNCTIONS = True dma_files = parse_file_addresses(args.config_dir / "file_addresses.csv") print("Loading disasm info...") all_file_splits: list[spimdisasm.mips.FileSplits] = [] with open(args.rom, "rb") as f: for dma_file in dma_files: file_splits = load_file_splits(context, args.config_dir, dma_file, f) all_file_splits.append(file_splits) print("Analyzing...") for i, file_splits in enumerate(all_file_splits): f = i / len(all_file_splits) spimdisasm.common.Utils.printQuietless( f"{f*100:3.0f}%", "Analyzing", file_splits.name, end=" \r" ) file_splits.analyze() print() print("Analyzing done.") print("Writing disassembled sections...") output_dir: Path = args.output_dir output_dir.mkdir(parents=True, exist_ok=True) for i, file_splits in enumerate(all_file_splits): f = i / len(all_file_splits) spimdisasm.common.Utils.printQuietless( f"{f*100:3.0f}%", "Writing", file_splits.name, end=" \r" ) for sectDict in file_splits.sectionsDict.values(): for name, section in sectDict.items(): basepath = output_dir / name basepath.parent.mkdir(parents=True, exist_ok=True) if section.sectionType == spimdisasm.common.FileSectionType.Reloc: # basepath is like # .../ovl_Overlay_Name/z_overlay_name # and we want to write relocs to # .../ovl_Overlay_Name/ovl_Overlay_Name_reloc.s path = basepath.parent / f"{basepath.parent.name}_reloc.s" with path.open("w", encoding="UTF-8") as f: section.disassembleToFile(f) else: section.saveToFile(str(basepath)) print() print("Writing sections done.") if args.split_functions is not None: print("Writing disassembled functions individually...") for i, file_splits in enumerate(all_file_splits): f = i / len(all_file_splits) spimdisasm.common.Utils.printQuietless( f"{f*100:3.0f}%", "Writing", file_splits.name, end=" \r" ) for section_name, text_section in file_splits.sectionsDict[ spimdisasm.common.FileSectionType.Text ].items(): rodata_section = file_splits.sectionsDict[ spimdisasm.common.FileSectionType.Rodata ].get(section_name) # FunctionRodataEntry represents a function, # plus any associated rodata (strings, floats, jump tables...) # It can also be rodata that hasn't been associated to any function for ( func_rodata_entry ) in spimdisasm.mips.FunctionRodataEntry.getAllEntriesFromSections( text_section, rodata_section ): output_dir = ( args.split_functions / section_name / f"{func_rodata_entry.getName()}.s" ) output_dir.parent.mkdir(parents=True, exist_ok=True) with output_dir.open("w", encoding="UTF-8") as f: func_rodata_entry.writeToFile(f, writeFunction=True) print() print("Writing functions done.") if __name__ == "__main__": main()