piaoquan_crawler/test.py

import json
from base64 import b64encode, b64decode
from Crypto.Cipher import AES
from Crypto.Util.Padding import pad, unpad


class ShanHuZhuFuAes:
    def __init__(self):
        self.key = 'xlc2ze7qnqg8xi1d'.encode('utf-8')  # 需要一个bytes类型的key
        self.iv = self.key  # 在这个例子中，key和iv是相同的

    def encrypt(self, data):
        cipher = AES.new(self.key, AES.MODE_CBC, self.iv)
        ct_bytes = cipher.encrypt(pad(data.encode('utf-8'), AES.block_size))
        ct = b64encode(ct_bytes).decode('utf-8')
        return ct

    def decrypt(self, data):
        try:
            ct = b64decode(data.encode('utf-8'))
            cipher = AES.new(self.key, AES.MODE_CBC, self.iv)
            pt = unpad(cipher.decrypt(ct), AES.block_size)
            return pt.decode('utf-8')
        except Exception as e:
            print("Incorrect decryption")
            return None


if __name__ == '__main__':
    cr = {
        "code": 1,
        "info": "",
        "data": "e3Dze+eLj8b4RfUh8Hucja+OFpo79AkOYWC5M2MbEML3hnwQ6JDkHiTS0mebuTt\/JcS2cb53KcpkARDDRlAoiWKtxHLr\/HjTH1SKFRr3rabSlp\/Kjdh\/CEsoD65FYB39Ic2hgd316gS1RX6vIg1\/wRtOuHpY5UJU0JaImYXKPDd0r9C1\/Tx3FWox8RhwOy6azcGNA60TQSbrelvUxuXzb1URIW1n5CjvfejmymAEfi90CZQQYRs+WIsBVS8iNUedfj0yDyBIlWnd3Wc9Xn9ZtjCp1hUyctovAEviNq\/wpHRsdOO8UmAujKjlooajLKLVmPeh1\/\/D+1Sv+JkJ+aAs5D7hiYMZXcX9vZYMCgKp1zhSIhq3sT1SUfiQ9AXJimBwzYDQPnb4pj3OSEIWm\/Iu2KRx2yg0QfvuAyR5qfNFbP7JwEp2pj8d0cCH7kiv32co8JyXowiVqA3smslWyRZeEfCt5W3zG4jsVlOAb6Bt\/vOMhQTzq7WiF+dnhm3CXaEgqvSVo8lu7RZRa2onj+25dg2clhVAG1a6ZOkOjrgV48EVXbGzAT\/VnG\/Dl9dDzxkG8KvXDRBxEDzgPscc08mozc0Z3NaHL91kHQSSU5alSNZ0gx6QAmwWoEXv3dcV3j\/p4tJJaYT2rxBNOWRCXlfRE6CQaarwwylZhkmt+6I3ed\/wOWhkHhselEukTYWnmMttcZbhNZ\/mfQ8lWMisrWZ+0gdHhJM8b+8ySNdXhqTYBC1+lwPJLzp2S1odiGLuycfLF5hV3HfqVokGmELsHjXO9TdMq\/a3iNcOqjIjCYu0x+Kimi3y9M60c2Wf00AVwOYyRgwJTORuB\/XGNROmbQqeHPn4IPuZxQJAiLaJcMfv4vW0ldqDGQrSVV9g5Sy3gAKJ4HNywm8q7vjXG84WQo2Pd4qkgWTOt06myAAoQV4rno84MA86X7wj\/Jajo+EGw71tGZPiniO0DrnvrxJJ3VaDHAU4rieJ0t5YwgK1\/rMImhjj2plmN\/8njsKKFt7C+Ih7xcLCI1XVUD56gieNLPHJ4YeqBPma1GUBMe6KsaCgCnJ5arN9bt3KiMktnjAJYsxSb+oKEWOFczpSt4mcUXB+vBENlEqdNVuJcdwKqGac+GVg+V8iyaU9nEN442eGEcMz4Wrpuhgt10tpvX\/hVSIwTViVK5CZVnyUG1lLkc4bNlf6yxf4t2GzwUfbrBV8xkBaO+p+qVseweJby71EPlv1DChJtQ0QnUF2BdS8Jl8mEySu9vyZJMdNFmIXitxrifdWHFolRvIkxgoYnYJCxXacBRfoJWRYj2H5a3lVNuvRGkU5MaIFiXU2KrGBvMduf4LNsgbASB9ymKDv0S\/mXCDiWF8CIXQAXx4oCZ3sEmUTIhdvtREH0qFlsB3qDcPi0uCm9Pw\/5LOWDbHRYgJgCD4aocgAF7JmWr2iuVn9W9nqfHUJXHplbZcuPhQwQTr9d8RYPYRUaKoaV12vYirQR4lh9IYy5UXBGUN4bKrLgs4S45gdt12s3nyzDH7ukGav5o7FF3huutLvuDUZN3c4PB0DESlsMUndtMr6lpIaWohXH7QgTH3rSyaS3FFuRRnAIQGXHdxB+VIDhQRoxfFGGU4JHT+8IszBTu3cezULre1vexzORUur4Pho3zj6Tkw00gX8EDoin1MSEyTfSGpHhBxEDWRsZNvFMn7PBDp0mvZZzevh10cFPNDDCr0I0DOrvPfHnFMp4lGX3RVmt0RUPPIwPQeQKVeuSm3oUQU9xjQ5YZzUW+PuaX+IcQQqbAhrUQ\/VKFXh749zs28m3WIO\/kOVctkS1B1Ao9HerxQ4gms+dQrvlTAoq6JYnldmTheRpObqxknS+71tzNbjLbBHK1nYGNfai1YFRrE7hNkyTCfuiy+iXCrWoS0j8LW5kW9Q0qbIOXvRvBBAAEcK5HsxikRmKf5Cu7GbNhbGMuDYjts6OkFb2x1GhRT9USz0oObd65k+89+fzvvhHwPt\/Hp3MqwXhFtxUk42RtPXX4P5U36eo28eD6X7Uwnk\/tLVqnxKZZkgKiwACHe7\/pACTf9zziXGS\/0Fn4NRRUlWxnlYmSzeJydeuy\/eUQAHP7NlEf8wuZm72kRx4+6745640XxwZ9LSf6XuQ\/\/QwjipzxfPlt1w+gPFB02\/Q8jRJn2DZA1SHeG55QeY68B3t3Pml3ovfBpRKHQXYqx\/ifC3ND92+L9dZOy91EsTojpWgZ3IHX3f4rpkUJMsvUYGw1dmxvGNVrSi64IvQcy9hK1\/pzucOcz6EyY6OGR6V2xvfJ7G3OxHR52RGMLS0nH5Hl5OQzD8zMl\/NrKnLOdYuWXw9wZTol6jOoKXibGmuTWrJmKkNA6\/WtmZ1yQ5yUZoO8oqij2p\/L+8s4FvMgyQehdOrs6GYLUu+Vh9eVqZpw5TnRmsSkhVgWVym4bQ5x3v0fLEIyF\/9slcq1CbawmKZhMhJx5MoOclV6QppAf0pVDtF7\/qGDqntUaQZ8cp717Uvv\/A1zTYhPlMuI3xPogVSpvd+bUfi33STNeQczDIzoLP+AZwp1bPM0Cw9kUbBqVaiQaGIhLW4umUAjdecmNmA8gqT2Yt5WHvdLsDdu7Xhef\/PxHwfUjMiNGWvkQBLIXsF41VSNpu+ZaSeUw\/fQc8WQ\/GXoag4tXLJlliDfXGLZvn7NrKoXHz33QQbCw89ZGI4iIW\/MKnb8SS+lelyOGHxT2xsLjSc9M7OHZplfSC6Jy7tBqtJVmsqdTy+bJ3QDCx7ZNA5ty4fJT0Cya4fcS9ZTeS7siwwZ06QFfbDJqIzMW1lzb+uvMFlGpolVmppC6RwIZDtCbyuWx0TOGNKbC0XRPqRJRPWWtrlH8x\/ef+7vu24og3PB9WPHZ0WZ7rOi0hEDiubFwwhGEAC9b9esMSG45GW7wVcbFMMvVfDWUkkGn66FA6cx2\/T525Uyi5qERG+GyRIrihQTavrdKq4qkrAg5v2GIQset6yRjXydWd41O2fdNVV61PUhOTZoq+LMCBeU3m3JHHnWCKS5u6cW\/5XCtnpvQmGSAxDU653zjJ1JsuhDg\/XcniLI0vt9V\/J5AUB6B+AHL5LWM8H10up1Teg3MVEDEzGfbxwFJ1ll7yjeVsLqcQksuRCT6dbrroe3LZQcmIptutivUK5mV2IKtsYUG4z9DRFAR74N4Yesyzm7xmAXcuO5xq1f6GFeCMBFTb+Is2efnDsF6g2nR3ld5rGM99EL2p8wYf0U4+TaeVkxm\/AhSuoRj+AIXTT8AOuiWDedGp3dJtWLoGFzjhg5tQ49P\/fpLKG\/ZkTutqKFuDTu9XUrGESeahqfHWBIG3jMPJvK\/bl0ZCTlP0vm\/tln3bSaejp1dJFeyG2t6IgpX4xOoNMbkxh\/CUlsniIwFURJrySs8S0OsuoC67HyhDokade\/88DoXmVsg5GaVVFZptWRkq0ek7kDTkSdlH6Utsdo\/0hf8+K6Yza1uTZtS4DkXmx4nXO\/VWRi3jypUx\/Y1cWZ3CzYtXfptJ9K1GXO6fzIJDOUSRi6svG70OilihtayyR9Szb4NFxPYTGd2XqGzX1CbB\/6sglEGE1E1vlVpTmzeO4TX30Ur3tDsAZUKVP\/jRcMjTyfejhBVXIUB5Rlgd\/ORhEB4\/0i86H0kYjYCpPs7RmRhiuunzhqqDmX08+26d5XEGnFjy2MHG16MvP3YXHnuD4Zkc6AJ77nWMOWhPJXJ5DF8n12vj2IklJzKIvpPf6UhP7yUt3FgCKRSTFqFkMdOcuDTmKU\/OeZuDkjfx+Yy0fNJKSYiTiMNpPV7YmbA9WFPJ8fZG0oKcDMJTaSZTSqMZ79dqKwXP7FuYOFkDvyTdoxANFGj9bqLDiIbN9v5T1UMb\/BrdtaGnkU6BsXuCzoPNESXoirMFrTQ+RcAtCARElAt9HzhBMEhT48MZ1DwgtFSD7dmgX6m4M7H89fA4Td4xMRxl3akWAFDS3QnAPeJGOop7Vqff\/BbHxdkoK1AE8L015+9q880VsTDCALDhsUnaMh3jnCVyL8MAMBr\/S3Mexe3SYF\/3y1VFXaGdv\/O+ODwDcrcVMn2GucngAu6dY5gdeaejDTLYkvqFKRU\/ltvvlgOkp6d6hskHcZa9csn9MVm3mmAHGydifoOYr7k2qEE6zlo\/jULclvDeGL9Lt6GSqcI\/XVz8aVYvhCvdb9WrcWqie3PaTg7KMWICs\/ahWaQN5fKni9gTzCmxq3Xw92tZh4WOfEheNXulZP3jVjkuIxaoPaplwKXN2\/7yDP1eu592UAnCn9nwfVJw6OoXj5yjNcEItLpx0nu\/UyJ\/Y6e4ro+Vxu3JOXrbzzG2sZsRhtPRDIJmaHFcaDp+QFOeAnP4gN\/U7vXdaZg2Rwo5vW+x6cy3A9019aJbtCmfdKmq71oDdGl\/4fL88LyAdeY3YRl0XKO8fopu1LqiOFI3Dwy9MKH4AFjnFU9QvYuRHqZZAYzympDdb09hR6fINUmmFTdRSl1v35NHfVBjbbvchHq\/9OdT4LiD3hkrL1RqdP0FcgT6mTwmxd+C15byE83yNNi3jKtsl3VK7Y7ihTUWwMJgmCoKafKbKUTalRyHbgkk1oZYN9lO10C6k6DnzCAR+chNTLNUGm9n\/3ow5CF8o+3OvRRtzhqasVwmpvqB9N8Z8RClREYSaf8ylvWWd17ggCJgFtBoeSTSv7pDeyNrWIBAnoXbHE8BnHomxsWrFw4nc26eWoDl4q+IbXl7bDNhRsuCu1ekvxtPzvmcWo2poBfLZ27g\/XkakaVvrEKF8K2GU2FpdCQfx5g8fdFFEFVg9K4Tbd33qkAV94JOXwg0v82uGCbWKdx7xw6p\/gVK+33760cFYD2X8I8rE7nWw\/ilVuaLQ0JbxQnnydLsbpNOMlvnrFHh5Fq5snbRWfs9xJ5uzkDNlW4vC1RGjyMz\/KR9I2vLAqrWGbAndloH5kJyhT0ZAwDYodtGxg2c6q94omkFG9DKJjOzAe+GZz297tAVw1BIrIRryHq5qckoiw=="
    }
    A = ShanHuZhuFuAes()
    w = A.decrypt(cr['data'])
    a = json.loads(w)
    print(json.dumps(a, indent=4, ensure_ascii=False))