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flyapps/fir_ser/api/utils/geetest.py

199 lines
6.6 KiB

# !/usr/bin/env python
# -*- coding:utf-8 -*-
import sys
import random
import json
import requests
import time
from hashlib import md5
if sys.version_info >= (3,):
xrange = range
VERSION = "3.2.0"
class GeeTestLib(object):
FN_CHALLENGE = "geetest_challenge"
FN_VALIDATE = "geetest_validate"
FN_SECCODE = "geetest_seccode"
GT_STATUS_SESSION_KEY = "gt_server_status"
API_URL = "http://api.geetest.com"
REGISTER_HANDLER = "/register.php"
VALIDATE_HANDLER = "/validate.php"
def __init__(self, captcha_id, private_key):
self.private_key = private_key
self.captcha_id = captcha_id
self.sdk_version = VERSION
self._response_str = ""
def pre_process(self, user_id=None):
"""
验证初始化预处理.
"""
status, challenge = self._register(user_id)
self._response_str = self._make_response_format(status, challenge)
return status
def _register(self, user_id=None):
challenge = self._register_challenge(user_id)
if len(challenge) == 32:
challenge = self._md5_encode("".join([challenge, self.private_key]))
return 1, challenge
else:
return 0, self._make_fail_challenge()
def get_response_str(self):
return self._response_str
def _make_fail_challenge(self):
rnd1 = random.randint(0, 99)
rnd2 = random.randint(0, 99)
md5_str1 = self._md5_encode(str(rnd1))
md5_str2 = self._md5_encode(str(rnd2))
challenge = md5_str1 + md5_str2[0:2]
return challenge
def _make_response_format(self, success=1, challenge=None):
if not challenge:
challenge = self._make_fail_challenge()
string_format = json.dumps(
{'success': success, 'gt': self.captcha_id, 'challenge': challenge})
return string_format
def _register_challenge(self, user_id=None):
if user_id:
register_url = "{api_url}{handler}?gt={captcha_ID}&user_id={user_id}".format(
api_url=self.API_URL, handler=self.REGISTER_HANDLER, captcha_ID=self.captcha_id, user_id=user_id)
else:
register_url = "{api_url}{handler}?gt={captcha_ID}".format(
api_url=self.API_URL, handler=self.REGISTER_HANDLER, captcha_ID=self.captcha_id)
try:
response = requests.get(register_url, timeout=2)
if response.status_code == requests.codes.ok:
res_string = response.text
else:
res_string = ""
except:
res_string = ""
return res_string
def success_validate(self, challenge, validate, seccode, user_id=None, gt=None, data='', userinfo=''):
"""
正常模式的二次验证方式.向geetest server 请求验证结果.
"""
if not self._check_para(challenge, validate, seccode):
return 0
if not self._check_result(challenge, validate):
return 0
validate_url = "{api_url}{handler}".format(
api_url=self.API_URL, handler=self.VALIDATE_HANDLER)
query = {
"seccode": seccode,
"sdk": ''.join(["python_", self.sdk_version]),
"user_id": user_id,
"data": data,
"timestamp": time.time(),
"challenge": challenge,
"userinfo": userinfo,
"captchaid": gt
}
backinfo = self._post_values(validate_url, query)
if backinfo == self._md5_encode(seccode):
return 1
else:
return 0
def _post_values(self, apiserver, data):
response = requests.post(apiserver, data)
return response.text
def _check_result(self, origin, validate):
encodeStr = self._md5_encode(self.private_key + "geetest" + origin)
if validate == encodeStr:
return True
else:
return False
def failback_validate(self, challenge, validate, seccode):
"""
failback模式的二次验证方式.在本地对轨迹进行简单的判断返回验证结果.
"""
if not self._check_para(challenge, validate, seccode):
return 0
validate_str = validate.split('_')
encode_ans = validate_str[0]
encode_fbii = validate_str[1]
encode_igi = validate_str[2]
decode_ans = self._decode_response(challenge, encode_ans)
decode_fbii = self._decode_response(challenge, encode_fbii)
decode_igi = self._decode_response(challenge, encode_igi)
validate_result = self._validate_fail_image(
decode_ans, decode_fbii, decode_igi)
return validate_result
def _check_para(self, challenge, validate, seccode):
return (bool(challenge.strip()) and bool(validate.strip()) and bool(seccode.strip()))
def _validate_fail_image(self, ans, full_bg_index, img_grp_index):
thread = 3
full_bg_name = str(self._md5_encode(str(full_bg_index)))[0:10]
bg_name = str(self._md5_encode(str(img_grp_index)))[10:20]
answer_decode = ""
for i in range(0, 9):
if i % 2 == 0:
answer_decode += full_bg_name[i]
elif i % 2 == 1:
answer_decode += bg_name[i]
x_decode = answer_decode[4:]
x_int = int(x_decode, 16)
result = x_int % 200
if result < 40:
result = 40
if abs(ans - result) < thread:
return 1
else:
return 0
def _md5_encode(self, values):
if type(values) == str:
values = values.encode()
m = md5(values)
return m.hexdigest()
def _decode_rand_base(self, challenge):
str_base = challenge[32:]
i = 0
temp_array = []
for i in xrange(len(str_base)):
temp_char = str_base[i]
temp_ascii = ord(temp_char)
result = temp_ascii - 87 if temp_ascii > 57 else temp_ascii - 48
temp_array.append(result)
decode_res = temp_array[0] * 36 + temp_array[1]
return decode_res
def _decode_response(self, challenge, userresponse):
if len(userresponse) > 100:
return 0
shuzi = (1, 2, 5, 10, 50)
chongfu = set()
key = {}
count = 0
for i in challenge:
if i in chongfu:
continue
else:
value = shuzi[count % 5]
chongfu.add(i)
count += 1
key.update({i: value})
res = 0
for i in userresponse:
res += key.get(i, 0)
res = res - self._decode_rand_base(challenge)
return res