python-bzz/main.py

import os
from bitarray import bitarray
from pathlib import Path


class BZZCompressor:
    def decompress(self, input_file_path, input_file, output_folder="out/") -> bytes:
        data = bytes()
        output_buffer = bytearray()
        overflow_buffer = bytearray()

        # read the input file
        try:
            with open(f"{input_file_path}/{input_file}", "rb") as infile:
                temp = bitarray(endian="little")
                temp.fromfile(infile)

                data = temp.tobytes()
        except IOError:
            print("Could not open input file...")
            raise

        ##############################################################################
        #
        # Reading the Headers from the file.
        #
        # This includes the version, some garbage 0s, the number of files, and the
        # file list (probably), and finally a Checksum
        #
        ##############################################################################

        # This is always 1, 0, 0, 0. so I'm just having fun
        bzz_version = int.from_bytes(data[0:4], "little")
        game_id = int.from_bytes(data[4:8], "little")
        num_files = int.from_bytes(data[8:12], "little")

        print(f"BZZ Version: {bzz_version}")
        print(f"Game ID: {game_id}")
        print(f"Number of Files: {num_files}")

        files = []

        for i in range(num_files):
            tmp = (i) * 12
            files.append(
                {
                    "pt_a": hex(
                        int.from_bytes(data[12 + tmp : 12 + tmp + 4], "little")
                    ),
                    "pt_b": hex(
                        int.from_bytes(data[12 + tmp + 4 : 12 + tmp + 8], "little")
                    ),
                    "pt_c": hex(
                        int.from_bytes(data[12 + tmp + 8 : 12 + tmp + 12], "little")
                    ),
                }
            )

        for i, file in enumerate(files):
            print(f"File {i+1}'s Data: {file}")

        checksum = data[0x7FC:0x800]
        print(f"Checksum: {checksum}")

        ##############################################################################
        #
        # This is the File Loop, where we process
        # individual files from the .bzz
        #
        ##############################################################################
        index = 0x800

        # Getting our method, this is likely imprecise, since I'm one dealing with one
        # method type, but it gets what I want
        method = data[index]
        # We move on to the next byte in data
        index = index + 1

        # Gathering variables based on the method according to
        # https://problemkaputt.de/psxspx-cdrom-file-compression-bzz.htm
        # Note: bin(int)[2:].zfill(8) converts a number to an 8-bit binary string

        # `>> 3` is the same as dividing by 8
        shifter = (method >> 3) & 0x03
        len_bits = (method & 0x07) ^ 0x07

        # The bin() function only returns the second half of the byte, so we pad the byte
        len_mask = 1 << len_bits

        threshold = len_mask >> 1

        if threshold > 0x07:
            threshold = 0x13

        len_table = []

        for i in range(len_mask):
            if i > threshold:
                len_table.append((i - threshold << shifter) + threshold + 3)
            else:
                len_table.append(i + 3)

        temp_flags = ""

        for item in data[index : index + 3]:
            temp_flags += bin(item)[2:].zfill(8)

        num_flags = int(temp_flags, 2) + 1
        index = index + 3

        print(f"Method: {hex(method)}")
        print(f"Shifter: {shifter}")
        print(f"Len Bits: {bin(len_bits)}")
        print(f"Len Mask: {bin(len_mask)}")
        print(f"Threshold: {threshold}")
        print(f"Len Table: {len_table}")
        print(f"Loops (based on num flags): {num_flags}")

        # Adding 0x100 here means the bitarray is a length of 9, and the first item is always 1
        # This means that later, when we need to gather more flag bits, we aren't losing any data, or
        # hitting an index out of bounds error
        flag_bits = bitarray(bin(data[index] + 0x100)[2:])
        index = index + 1

        while num_flags > 0:
            carry = flag_bits[-1]
            flag_bits = flag_bits >> 1

            # if we are down to only 0 bits, we are out of file-driven data
            # Here we collect more flag bits and re-iterate the loop
            if int(flag_bits.to01(), 2) == 0x00:
                flag_bits = bitarray(bin(data[index] + 0x100)[2:])
                index = index + 1
                continue

            # Carry means the next byte is raw data, no weird placement or indexing
            if carry:
                try:
                    output_buffer.append(data[index])
                    index = index + 1
                except IndexError:
                    print(output_buffer)
                    print(
                        f"Error processing file. Reached of data stream early. Index: {index}"
                    )
                    return

            # If Carry is 0, then we are doing actual decompression. This is the tricky part
            else:
                # This shouldn't happen
                if len(data) <= index + 1:
                    print("Error processing file. Reached of data stream early.")
                    return

                # This is "temp" in our documentation
                temp = ""
                for item in data[index : index + 2]:
                    temp = temp + bin(item)[2:].zfill(8)

                distance_data = int(temp, 2)
                index = index + 2

                # length here is the length of the data we are copying.
                # We multiply by 8 since we are working with bits instead of bytes
                length = len_table[(distance_data & len_mask) - 1]

                # Displacement is how far back in the existing output_buffer we are
                # looking to copy from. We multiply by 8 since we are working with bits and not bytes
                displacement = distance_data >> len_bits

                # This shouldn't happen
                if displacement <= 0:
                    print(
                        f"Error processing file. Displacement was less than or equal to 0.\n"
                        + f"Distance Data: {distance_data}. Displacement: {displacement}. Index: {hex(index)}"
                    )
                    return

                # print(f"Output Buffer Size {len(output_buffer)}")
                # print(f"Distance Data: {distance_data}")
                # print(f"Displacement: {displacement}")
                # print(f"Length: {length}")

                # Here we copy bit by bit from earlier in the output buffer.
                # we use this instead of index slicing since the slice could lead to
                # data we are currently copying into the buffer
                copy_index = len(output_buffer) - displacement

                # If start index is less than 0, we'll be checking something like output_buffer[-2]
                # or smth, which will have an IndexOutOfBounds exception
                if copy_index < 0:
                    print(output_buffer)
                    print("Error decompressing file. Start Index was out of range.")
                    return

                for i in range(length):
                    output_buffer.append(output_buffer[copy_index + i])

            num_flags = num_flags - 1

        if len(data) > index:
            for item in data[index:]:
                overflow_buffer.append(item)

        # This handoff is so I can change buffer logic without breaking write-out logic
        out_data = output_buffer

        try:
            with open(f"{output_folder}/{input_file}.file", "wb") as outfile:
                outfile.write(out_data)
                print(f"File {output_folder}/{input_file}.file saved successfully!")

            with open(f"{output_folder}/{input_file}.overflow.file", "wb") as outfile:
                outfile.write(overflow_buffer)
                print(
                    f"File {output_folder}/{input_file}.overflow.file saved successfully!"
                )
        except IOError as e:
            print(
                f"Unable to write file for {input_file_path}/{input_file}. Error: {e}"
            )


if __name__ == "__main__":
    compressor = BZZCompressor()

    for dirpath, dirnames, filenames in os.walk("./bin_extract"):
        print(f"{dirpath} | {', '.join(filenames)}")

        for file in filenames:
            if file[-4:] == ".bzz" and file == "language.bzz":
                output_folder_path = Path(f"out/{'/'.join(dirpath.split("/")[2:])}")
                output_folder_path.mkdir(parents=True, exist_ok=True)

                try:
                    compressor.decompress(dirpath, file, str(output_folder_path))
                except Exception as e:
                    print(
                        f"Error while decompressing {output_folder_path}/{file}. Error: {e}"
                    )
                    continue