NeteaseMusicLyricDownloader/modules/utils/dump.py

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import binascii
import json
import os
import struct
import base64
from Cryptodome.Cipher import AES
from Cryptodome.Util.Padding import unpad
from Cryptodome.Util.strxor import strxor as xor
from mutagen import mp3, flac, id3
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def regular_filename(filename):
"""处理替换非法字符"""
replaces = { # 处理非法字符所用的替换字典(根据网易云下载的文件分析得到)
"|": "",
":": "",
"<": "",
">": "",
"?": "",
"/": "",
"\\": "",
"*": "",
'"': ""
}
for k, v in replaces.items():
filename = filename.replace(k, v)
return filename
def load_and_decrypt_from_ncm(file_path, target_dir, out_format) -> dict | str: # author: Nzix Repo: nondanee
core_key = binascii.a2b_hex('687A4852416D736F356B496E62617857')
meta_key = binascii.a2b_hex('2331346C6A6B5F215C5D2630553C2728')
f = open(file_path, 'rb')
# magic header
header = f.read(8)
assert binascii.b2a_hex(header) == b'4354454e4644414d'
f.seek(2, 1)
# key data
key_length = f.read(4)
key_length = struct.unpack('<I', bytes(key_length))[0]
key_data = bytearray(f.read(key_length))
key_data = bytes(bytearray([byte ^ 0x64 for byte in key_data]))
cryptor = AES.new(core_key, AES.MODE_ECB)
key_data = unpad(cryptor.decrypt(key_data), 16)[17:]
key_length = len(key_data)
# S-box (standard RC4 Key-scheduling algorithm)
key = bytearray(key_data)
S = bytearray(range(256))
j = 0
for i in range(256):
j = (j + S[i] + key[i % key_length]) & 0xFF
S[i], S[j] = S[j], S[i]
# meta data
meta_length = f.read(4)
meta_length = struct.unpack('<I', bytes(meta_length))[0]
if meta_length:
meta_data = bytearray(f.read(meta_length))
meta_data = bytes(bytearray([byte ^ 0x63 for byte in meta_data]))
identifier = meta_data.decode('utf-8')
meta_data = base64.b64decode(meta_data[22:])
cryptor = AES.new(meta_key, AES.MODE_ECB)
meta_data = unpad(cryptor.decrypt(meta_data), 16).decode('utf-8')
meta_data = json.loads(meta_data[6:])
else:
meta_data = {'format': 'flac' if os.fstat(f.fileno()).st_size > 1024 ** 2 * 16 else 'mp3'}
f.seek(5, 1)
# album cover
image_space = f.read(4)
image_space = struct.unpack('<I', bytes(image_space))[0]
image_size = f.read(4)
image_size = struct.unpack('<I', bytes(image_size))[0]
image_data = f.read(image_size) if image_size else None
f.seek(image_space - image_size, 1)
# media data
if meta_length:
output_path = os.path.join(target_dir, regular_filename(out_format % {"name": meta_data["musicName"],
"artists": "".join(
[x[0]+"," for x in meta_data["artist"]]
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)[:-1]} + "." + meta_data["format"]))
else:
output_path = os.path.join(target_dir, "Unnamed." + meta_data["format"])
data = f.read()
f.close()
# stream cipher (modified RC4 Pseudo-random generation algorithm)
stream = [S[(S[i] + S[(i + S[i]) & 0xFF]) & 0xFF] for i in range(256)]
stream = bytes(bytearray(stream * (len(data) // 256 + 1))[1:1 + len(data)])
data = xor(data, stream)
m = open(output_path, 'wb')
m.write(data)
m.close()
# media tag
if meta_length:
def embed(item, content, t):
item.encoding = 0
item.type = t
item.mime = 'image/png' if content[0:4] == binascii.a2b_hex('89504E47') else 'image/jpeg'
item.data = content
if image_data:
if meta_data['format'] == 'flac':
audio = flac.FLAC(output_path)
image = flac.Picture()
embed(image, image_data, 3)
audio.clear_pictures()
audio.add_picture(image)
audio.save()
elif meta_data['format'] == 'mp3':
audio = mp3.MP3(output_path)
image = id3.APIC()
embed(image, image_data, 6)
audio.tags.add(image)
audio.save()
if meta_length:
if meta_data['format'] == 'flac':
audio = flac.FLAC(output_path)
audio['description'] = identifier
else:
audio = mp3.EasyMP3(output_path)
audio['title'] = 'placeholder'
audio.tags.RegisterTextKey('comment', 'COMM')
audio['comment'] = identifier
audio['title'] = meta_data['musicName']
audio['album'] = meta_data['album']
audio['artist'] = '/'.join([artist[0] for artist in meta_data['artist']])
audio.save()
return meta_data
else:
return "no_meta_data"