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from __future__ import annotations |
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import json |
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import os |
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import uuid |
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import requests |
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from Crypto.Cipher import AES |
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from ..typing import Any, CreateResult |
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from .base_provider import BaseProvider |
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class GetGpt(BaseProvider): |
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url = 'https://chat.getgpt.world/' |
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supports_stream = True |
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working = False |
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supports_gpt_35_turbo = True |
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@staticmethod |
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def create_completion( |
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model: str, |
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messages: list[dict[str, str]], |
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stream: bool, **kwargs: Any) -> CreateResult: |
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headers = { |
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'Content-Type' : 'application/json', |
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'Referer' : 'https://chat.getgpt.world/', |
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'user-agent' : 'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/114.0.0.0 Safari/537.36', |
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} |
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data = json.dumps( |
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{ |
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'messages' : messages, |
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'frequency_penalty' : kwargs.get('frequency_penalty', 0), |
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'max_tokens' : kwargs.get('max_tokens', 4000), |
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'model' : 'gpt-3.5-turbo', |
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'presence_penalty' : kwargs.get('presence_penalty', 0), |
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'temperature' : kwargs.get('temperature', 1), |
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'top_p' : kwargs.get('top_p', 1), |
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'stream' : True, |
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'uuid' : str(uuid.uuid4()) |
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} |
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) |
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res = requests.post('https://chat.getgpt.world/api/chat/stream', |
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headers=headers, json={'signature': _encrypt(data)}, stream=True) |
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res.raise_for_status() |
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for line in res.iter_lines(): |
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if b'content' in line: |
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line_json = json.loads(line.decode('utf-8').split('data: ')[1]) |
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yield (line_json['choices'][0]['delta']['content']) |
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@classmethod |
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@property |
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def params(cls): |
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params = [ |
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('model', 'str'), |
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('messages', 'list[dict[str, str]]'), |
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('stream', 'bool'), |
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('temperature', 'float'), |
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('presence_penalty', 'int'), |
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('frequency_penalty', 'int'), |
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('top_p', 'int'), |
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('max_tokens', 'int'), |
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] |
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param = ', '.join([': '.join(p) for p in params]) |
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return f'g4f.provider.{cls.__name__} supports: ({param})' |
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def _encrypt(e: str): |
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t = os.urandom(8).hex().encode('utf-8') |
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n = os.urandom(8).hex().encode('utf-8') |
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r = e.encode('utf-8') |
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cipher = AES.new(t, AES.MODE_CBC, n) |
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ciphertext = cipher.encrypt(_pad_data(r)) |
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return ciphertext.hex() + t.decode('utf-8') + n.decode('utf-8') |
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def _pad_data(data: bytes) -> bytes: |
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block_size = AES.block_size |
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padding_size = block_size - len(data) % block_size |
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padding = bytes([padding_size] * padding_size) |
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return data + padding |
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