NeteaseMusicLyricDownloader/modules/functions/load_file_song.py

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import binascii
import json
import os
import struct
from base64 import b64decode
from multiprocessing import Process, Queue
from queue import Empty
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from time import sleep
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import mutagen.mp3
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from Cryptodome.Cipher import AES
from mutagen import File, flac
from mutagen.id3 import ID3, TPE1, APIC, COMM, TIT2, TALB
from modules.utils.clear_screen import clear
from modules.functions.get_song import get_song_lyric
from modules.utils.inputs import cinput, rinput
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from modules.utils.bar import CompactBar
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def load_information_from_song(path) -> str | dict:
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"""从音乐文件中的 Comment 字段获取 163 key 并解密返回歌曲信息"""
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try:
file = File(path) # 使用 mutagen 获取歌曲信息
except mutagen.mp3.HeaderNotFoundError:
return "not_a_music"
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if os.path.splitext(path)[-1] == ".mp3": # 当文件为 mp3 时使用 ID3 格式读取
if file.tags.get("COMM::XXX"):
if file.tags["COMM::XXX"].text[0][:7] == "163 key":
ciphertext = file.tags["COMM::XXX"].text[0][22:]
else:
return "not_support"
else:
return "not_support"
elif os.path.splitext(path)[-1] == ".flac": # 当文件为 flac 时使用 FLAC 格式读取
if file.tags.get("DESCRIPTION"):
if file.tags["DESCRIPTION"][0][:7] == "163 key":
ciphertext = file.tags["DESCRIPTION"][0][22:]
else:
return "not_support"
else:
return "not_support"
else:
return "not_support"
def unpad(s): # 创建清理针对于网易云的 AES-128-ECB 解密后末尾占位符的函数
if type(s[-1]) == int:
end = s[-1]
else:
end = ord(s[-1])
return s[0:-end]
# return s[0:-(s[-1] if type(s[-1]) == int else ord(s[-1]))] 更加清晰的理解 ↑
cryptor = AES.new(b"#14ljk_!\\]&0U<'(", AES.MODE_ECB) # 使用密钥创建解密器
# 下方这一行将密文 ciphertext 转换为 bytes 后进行 base64 解码, 得到加密过的 AES 密文
# 再通过上方创建的 AES 128-ECB 的解密器进行解密, 然后使用 unpad 清除末尾无用的占位符后得到结果
try:
r = unpad((cryptor.decrypt(b64decode(bytes(ciphertext, "utf-8"))).decode("utf-8")))
except ValueError:
return "decrypt_failed"
if r:
if r[:5] == "music":
return json.loads(r[6:])
else:
return "not_a_normal_music"
else:
return "decrypt_failed"
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def load_and_decrypt_from_ncm(file_path, target_dir) -> dict: # nondanee的源代码, 根据需求更改了某些东西
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core_key = binascii.a2b_hex("687A4852416D736F356B496E62617857")
meta_key = binascii.a2b_hex("2331346C6A6B5F215C5D2630553C2728")
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def unpad(s):
return s[0:-(s[-1] if type(s[-1]) == int else ord(s[-1]))]
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f = open(file_path, 'rb')
header = f.read(8)
assert binascii.b2a_hex(header) == b'4354454e4644414d'
f.seek(2, 1)
key_length = f.read(4)
key_length = struct.unpack('<I', bytes(key_length))[0]
key_data = f.read(key_length)
key_data_array = bytearray(key_data)
for i in range(0, len(key_data_array)):
key_data_array[i] ^= 0x64
key_data = bytes(key_data_array)
cryptor = AES.new(core_key, AES.MODE_ECB)
key_data = unpad(cryptor.decrypt(key_data))[17:]
key_length = len(key_data)
key_data = bytearray(key_data)
key_box = bytearray(range(256))
last_byte = 0
key_offset = 0
for i in range(256):
swap = key_box[i]
c = (swap + last_byte + key_data[key_offset]) & 0xff
key_offset += 1
if key_offset >= key_length:
key_offset = 0
key_box[i] = key_box[c]
key_box[c] = swap
last_byte = c
meta_length = f.read(4)
meta_length = struct.unpack('<I', bytes(meta_length))[0]
meta_data = f.read(meta_length)
meta_data_array = bytearray(meta_data)
for i in range(0, len(meta_data_array)):
meta_data_array[i] ^= 0x63
meta_data = bytes(meta_data_array)
comment = meta_data
meta_data = b64decode(meta_data[22:])
cryptor = AES.new(meta_key, AES.MODE_ECB)
meta_data = unpad(cryptor.decrypt(meta_data)).decode('utf-8')[6:]
meta_data = json.loads(meta_data)
crc32 = f.read(4)
crc32 = struct.unpack('<I', bytes(crc32))[0]
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..., crc32
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f.seek(5, 1)
image_size = f.read(4)
image_size = struct.unpack('<I', bytes(image_size))[0]
image_data = f.read(image_size)
file_name = f.name.split("/")[-1].split(".ncm")[0] + '.' + meta_data['format']
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m = open(os.path.join(target_dir, file_name), 'wb')
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while True:
chunk = bytearray(f.read(0x8000))
chunk_length = len(chunk)
if not chunk:
break
for i in range(1, chunk_length + 1):
j = i & 0xff
chunk[i - 1] ^= key_box[(key_box[j] + key_box[(key_box[j] + j) & 0xff]) & 0xff]
m.write(chunk)
m.close()
f.close()
# 对解密后的文件进行信息补全
if meta_data["format"] == "mp3": # 针对 mp3 使用 ID3 进行信息补全
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audio = ID3(os.path.join(target_dir, os.path.splitext(file_path.split("/")[-1])[0] + ".mp3"))
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artists = []
for i in meta_data["artist"]:
artists.append(i[0])
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audio["TPE1"] = TPE1(encoding=3, text=artists) # 插入歌手
audio["APIC"] = APIC(encoding=3, mime='image/jpg', type=3, desc='', data=image_data) # 插入封面
audio["COMM::XXX"] = COMM(encoding=3, lang='XXX', desc='', text=[comment.decode("utf-8")]) # 插入 163 key 注释
audio["TIT2"] = TIT2(encoding=3, text=[meta_data["musicName"]]) # 插入歌曲名
audio["TALB"] = TALB(encoding=3, text=[meta_data["album"]]) # 插入专辑名
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audio.save()
elif meta_data["format"] == "flac": # 针对 flac 使用 FLAC 进行信息补全
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audio = flac.FLAC(os.path.join(target_dir, os.path.splitext(file_path.split("/")[-1])[0] + ".flac"))
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artists = []
for i in meta_data["artist"]:
artists.append(i[0])
audio["artist"] = artists[:] # 插入歌手
audio["title"] = [meta_data["musicName"]] # 插入歌曲名
audio["album"] = [meta_data["album"]] # 插入专辑名
audio["description"] = comment.decode("utf-8") # 插入 163 key 注释
audio.save()
return meta_data
def process_work(path, filename, target, q_err: Queue, q_info: Queue):
try:
result = load_and_decrypt_from_ncm(path, target)
except AssertionError:
q_err.put(f"\t- 文件 \"{filename}\" 破解失败!")
else:
q_info.put(result)
def get_lyric_from_folder(self):
clear()
path = cinput(
f"[NeteaseMusicLyricDownloader] {self.version}\n"
"[自动获取]\n"
"请输入歌曲的保存文件夹(绝对路径):")
if not os.path.exists(path):
input("路径不存在.\n按回车返回...")
return
print("正在遍历目录,请稍后...")
musics = []
ncm_files = []
fails = 0
for i in os.listdir(path): # 遍历目录,查找目标文件
ext = os.path.splitext(i)[-1]
if ext in ['.mp3', '.flac']: # 对于 mp3 和 flac 文件, 使用对应读取解密方式
result = load_information_from_song(os.path.join(path, i))
if result == "not_support":
fails += 1
print(f"文件 \"{i}\" 未包含 163 key ,跳过")
elif result == "decrypt_failed":
fails += 1
print(f"文件 \"{i}\" 内 163 key 解密失败,跳过")
elif result == "not_a_normal_music":
fails += 1
print(f"文件 \"{i}\" 内 163 key 不是一个普通音乐文件,这可能是一个电台曲目")
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elif result == "not_a_music":
fails += 1
print(f"文件 \"{i}\" 不是一个音乐文件,请检查该文件是否正常")
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else:
musics.append({"id": result['musicId'], "name": result["musicName"], "artists": result["artist"]})
elif ext == ".ncm": # 对于 ncm 先加入到列表,等待解密
ncm_files.append(i)
else:
pass
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target_path = ""
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if ncm_files:
while True:
print(f"\n发现{len(ncm_files)}个ncm加密文件!")
print("请问解密后的文件保存在哪里?\n"
"[1] 保存在相同文件夹内\n"
"[2] 保存在程序设定的下载文件夹中\n"
"[3] 保存在自定义文件夹内\n"
"[q] 取消解密,下载歌词时将忽略这些文件")
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select = rinput("请选择: ")
if select == 'q':
target_path = "NOT_DECRYPT"
break
elif select == '1':
target_path = path
break
elif select == '2':
target_path = self.settings.lyric_path
break
elif select == '3':
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target_path = cinput("请输入: ")
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break
else:
print("输入无效!按回车继续...")
if target_path != "NOT_DECRYPT": # 开始进行逐个文件解密
errors = [] # 初始化变量
q_err = Queue() # 错误信息队列
q_info = Queue() # 返回信息队列
max_process = 20 # 最大进程数
current_process = 0 # 当前正在活动的进程数
passed = 0 # 总共结束的进程数
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with CompactBar(f"正在破解 %(index){len(str(len(ncm_files)))}d/%(max)d",
suffix="", max=len(ncm_files), color="blue", width=9999) as bar:
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total = len(ncm_files)
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allocated = 0 # 已经分配的任务数量
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while True: # 进入循环,执行 新建进程->检测队列->检测任务完成 的循环
sleep(0.05)
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if current_process <= max_process and allocated < total: # 分配进程
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Process(target=process_work,
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args=(os.path.join(path, ncm_files[allocated]),
ncm_files[allocated],
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target_path,
q_err,
q_info)).start()
bar.print_onto_bar("已分配: %s" % ncm_files[allocated])
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allocated += 1
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current_process += 1
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while True: # 错误队列检测
try:
errors.append(q_err.get_nowait())
passed += 1 # 总任务完成数
current_process -= 1 # 检测到进程完毕将进程-1
bar.next() # 推动进度条
fails += 1 # 错误数量+1
except Empty:
break
while True: # 信息队列检测
try:
r = q_info.get_nowait()
musics.append({"id": r['musicId'], "name": r["musicName"], "artists": r["artist"]})
passed += 1
current_process -= 1
bar.print_onto_bar(f"\"{r['musicName']} - "
f"{''.join([x + ', ' for x in [x[0] for x in r['artist']]])[:-2]}"
"\" 已完成!")
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bar.next()
except Empty:
break
if passed >= len(ncm_files):
break
if errors:
print("解密过程中发现了以下错误:")
for i in errors:
print(i)
# 汇报索引结果
ncm_files_num = 0
if ncm_files:
if target_path == "NOT_DECRYPT":
ncm_files_num = len(ncm_files)
print(f"\n索引完毕!共找到{fails + len(musics) + ncm_files_num}个目标文件\n{len(musics)}个文件已载入\n{fails}个文件失败")
if ncm_files:
if target_path == "NOT_DECRYPT":
print(f"{len(ncm_files)}个文件放弃加载")
while True:
print("\n你希望如何保存这些歌曲的歌词?\n[1]保存到刚刚输入的绝对路径中\n[2]保存到程序设定的下载路径中")
r = rinput("请选择: ")
if r == "1":
lyric_path = path
break
elif r == "2":
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lyric_path = self.settings.lyric_path
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break
else:
try:
input("无效选择, 若取消请按 ^C ,继续请按回车")
clear()
except KeyboardInterrupt:
return
clear()
for i in range(0, len(musics)): # 根据索引结果获取歌词
print("\n进度: %d/%d" % (i + 1, len(musics)))
if get_song_lyric(musics[i], lyric_path, allinfo=True) == "dl_err_connection":
input("下载发生错误!可能是连接被拒绝!请检查网络后再试\n按回车键继续任务(该任务会被跳过)...")
if ncm_files:
if target_path != "NOT_DECRYPT":
agree = rinput("是否删除原ncm文件? (y/n)")
if agree == "y":
for i in range(0, len(ncm_files)):
print("删除进度: %d/%d\n -> %s\033[F" % (i + 1, len(ncm_files), ncm_files[i]), end="")
os.remove(os.path.join(path, ncm_files[i]))
else:
print("取消.", end="")
input("\n\033[K按回车返回...")
return