Adam / quora /api.py
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rename poe api ( gpt 4 ) to quora
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# ading2210/poe-api: a reverse engineered Python API wrapepr for Quora's Poe
# Copyright (C) 2023 ading2210
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
import requests
import re
import json
import random
import logging
import time
import queue
import threading
import traceback
import websocket
from pathlib import Path
from urllib.parse import urlparse
parent_path = Path(__file__).resolve().parent
queries_path = parent_path / "graphql"
queries = {}
logging.basicConfig()
logger = logging.getLogger()
user_agent = "Mozilla/5.0 (X11; Linux x86_64; rv:102.0) Gecko/20100101 Firefox/102.0"
def load_queries():
for path in queries_path.iterdir():
if path.suffix != ".graphql":
continue
with open(path) as f:
queries[path.stem] = f.read()
def generate_payload(query_name, variables):
return {
"query": queries[query_name],
"variables": variables
}
def request_with_retries(method, *args, **kwargs):
attempts = kwargs.get("attempts") or 10
url = args[0]
for i in range(attempts):
r = method(*args, **kwargs)
if r.status_code == 200:
return r
logger.warn(
f"Server returned a status code of {r.status_code} while downloading {url}. Retrying ({i+1}/{attempts})...")
raise RuntimeError(f"Failed to download {url} too many times.")
class Client:
gql_url = "https://poe.com/api/gql_POST"
gql_recv_url = "https://poe.com/api/receive_POST"
home_url = "https://poe.com"
settings_url = "https://poe.com/api/settings"
formkey = ""
next_data = {}
bots = {}
active_messages = {}
message_queues = {}
ws = None
ws_connected = False
def __init__(self, token, proxy=None):
self.proxy = proxy
self.session = requests.Session()
if proxy:
self.session.proxies = {
"http": self.proxy,
"https": self.proxy
}
logger.info(f"Proxy enabled: {self.proxy}")
self.session.cookies.set("p-b", token, domain="poe.com")
self.headers = {
"User-Agent": user_agent,
"Referrer": "https://poe.com/",
"Origin": "https://poe.com",
}
self.ws_domain = f"tch{random.randint(1, 1e6)}"
self.session.headers.update(self.headers)
self.next_data = self.get_next_data()
self.channel = self.get_channel_data()
self.connect_ws()
self.bots = self.get_bots()
self.bot_names = self.get_bot_names()
self.gql_headers = {
"poe-formkey": self.formkey,
"poe-tchannel": self.channel["channel"],
}
self.gql_headers = {**self.gql_headers, **self.headers}
self.subscribe()
def get_next_data(self):
logger.info("Downloading next_data...")
r = request_with_retries(self.session.get, self.home_url)
json_regex = r'<script id="__NEXT_DATA__" type="application\/json">(.+?)</script>'
json_text = re.search(json_regex, r.text).group(1)
next_data = json.loads(json_text)
self.formkey = next_data["props"]["formkey"]
self.viewer = next_data["props"]["pageProps"]["payload"]["viewer"]
return next_data
def get_bot(self, display_name):
url = f'https://poe.com/_next/data/{self.next_data["buildId"]}/{display_name}.json'
logger.info("Downloading "+url)
r = request_with_retries(self.session.get, url)
chat_data = r.json()["pageProps"]["payload"]["chatOfBotDisplayName"]
return chat_data
def get_bots(self):
viewer = self.next_data["props"]["pageProps"]["payload"]["viewer"]
if not "availableBots" in viewer:
raise RuntimeError("Invalid token.")
bot_list = viewer["availableBots"]
bots = {}
for bot in bot_list:
chat_data = self.get_bot(bot["displayName"].lower())
bots[chat_data["defaultBotObject"]["nickname"]] = chat_data
return bots
def get_bot_names(self):
bot_names = {}
for bot_nickname in self.bots:
bot_obj = self.bots[bot_nickname]["defaultBotObject"]
bot_names[bot_nickname] = bot_obj["displayName"]
return bot_names
def get_channel_data(self, channel=None):
logger.info("Downloading channel data...")
r = request_with_retries(self.session.get, self.settings_url)
data = r.json()
self.formkey = data["formkey"]
return data["tchannelData"]
def get_websocket_url(self, channel=None):
if channel is None:
channel = self.channel
query = f'?min_seq={channel["minSeq"]}&channel={channel["channel"]}&hash={channel["channelHash"]}'
return f'wss://{self.ws_domain}.tch.{channel["baseHost"]}/up/{channel["boxName"]}/updates'+query
def send_query(self, query_name, variables):
for i in range(20):
payload = generate_payload(query_name, variables)
r = request_with_retries(
self.session.post, self.gql_url, json=payload, headers=self.gql_headers)
data = r.json()
if data["data"] == None:
logger.warn(
f'{query_name} returned an error: {data["errors"][0]["message"]} | Retrying ({i+1}/20)')
time.sleep(2)
continue
return r.json()
raise RuntimeError(f'{query_name} failed too many times.')
def subscribe(self):
logger.info("Subscribing to mutations")
result = self.send_query("SubscriptionsMutation", {
"subscriptions": [
{
"subscriptionName": "messageAdded",
"query": queries["MessageAddedSubscription"]
},
{
"subscriptionName": "viewerStateUpdated",
"query": queries["ViewerStateUpdatedSubscription"]
}
]
})
def ws_run_thread(self):
kwargs = {}
if self.proxy:
proxy_parsed = urlparse(self.proxy)
kwargs = {
"proxy_type": proxy_parsed.scheme,
"http_proxy_host": proxy_parsed.hostname,
"http_proxy_port": proxy_parsed.port
}
self.ws.run_forever(**kwargs)
def connect_ws(self):
self.ws = websocket.WebSocketApp(
self.get_websocket_url(),
header={"User-Agent": user_agent},
on_message=self.on_message,
on_open=self.on_ws_connect,
on_error=self.on_ws_error,
on_close=self.on_ws_close
)
t = threading.Thread(target=self.ws_run_thread, daemon=True)
t.start()
while not self.ws_connected:
time.sleep(0.01)
def disconnect_ws(self):
if self.ws:
self.ws.close()
self.ws_connected = False
def on_ws_connect(self, ws):
self.ws_connected = True
def on_ws_close(self, ws, close_status_code):
self.ws_connected = False
logger.warn(f"Websocket closed with status {close_status_code}")
def on_ws_error(self, ws, error):
self.disconnect_ws()
self.connect_ws()
def on_message(self, ws, msg):
try:
data = json.loads(msg)
if not "messages" in data:
return
for message_str in data["messages"]:
message_data = json.loads(message_str)
if message_data["message_type"] != "subscriptionUpdate":
continue
message = message_data["payload"]["data"]["messageAdded"]
copied_dict = self.active_messages.copy()
for key, value in copied_dict.items():
# add the message to the appropriate queue
if value == message["messageId"] and key in self.message_queues:
self.message_queues[key].put(message)
return
# indicate that the response id is tied to the human message id
elif key != "pending" and value == None and message["state"] != "complete":
self.active_messages[key] = message["messageId"]
self.message_queues[key].put(message)
return
except Exception:
logger.error(traceback.format_exc())
self.disconnect_ws()
self.connect_ws()
def send_message(self, chatbot, message, with_chat_break=False, timeout=20):
# if there is another active message, wait until it has finished sending
while None in self.active_messages.values():
time.sleep(0.01)
# None indicates that a message is still in progress
self.active_messages["pending"] = None
logger.info(f"Sending message to {chatbot}: {message}")
# reconnect websocket
if not self.ws_connected:
self.disconnect_ws()
self.connect_ws()
message_data = self.send_query("SendMessageMutation", {
"bot": chatbot,
"query": message,
"chatId": self.bots[chatbot]["chatId"],
"source": None,
"withChatBreak": with_chat_break
})
del self.active_messages["pending"]
if not message_data["data"]["messageEdgeCreate"]["message"]:
raise RuntimeError(f"Daily limit reached for {chatbot}.")
try:
human_message = message_data["data"]["messageEdgeCreate"]["message"]
human_message_id = human_message["node"]["messageId"]
except TypeError:
raise RuntimeError(
f"An unknown error occured. Raw response data: {message_data}")
# indicate that the current message is waiting for a response
self.active_messages[human_message_id] = None
self.message_queues[human_message_id] = queue.Queue()
last_text = ""
message_id = None
while True:
try:
message = self.message_queues[human_message_id].get(
timeout=timeout)
except queue.Empty:
del self.active_messages[human_message_id]
del self.message_queues[human_message_id]
raise RuntimeError("Response timed out.")
# only break when the message is marked as complete
if message["state"] == "complete":
if last_text and message["messageId"] == message_id:
break
else:
continue
# update info about response
message["text_new"] = message["text"][len(last_text):]
last_text = message["text"]
message_id = message["messageId"]
yield message
del self.active_messages[human_message_id]
del self.message_queues[human_message_id]
def send_chat_break(self, chatbot):
logger.info(f"Sending chat break to {chatbot}")
result = self.send_query("AddMessageBreakMutation", {
"chatId": self.bots[chatbot]["chatId"]
})
return result["data"]["messageBreakCreate"]["message"]
def get_message_history(self, chatbot, count=25, cursor=None):
logger.info(f"Downloading {count} messages from {chatbot}")
if cursor == None:
chat_data = self.get_bot(self.bot_names[chatbot])
if not chat_data["messagesConnection"]["edges"]:
return []
cursor = chat_data["messagesConnection"]["edges"][-1]["cursor"]
cursor = str(cursor)
if count > 50:
messages = self.get_message_history(
chatbot, count=50, cursor=cursor)
while count > 0:
new_cursor = messages[0]["cursor"]
new_messages = self.get_message_history(
chatbot, min(50, count), cursor=new_cursor)
messages = new_messages + messages
count -= 50
return messages
result = self.send_query("ChatListPaginationQuery", {
"count": count,
"cursor": cursor,
"id": self.bots[chatbot]["id"]
})
return result["data"]["node"]["messagesConnection"]["edges"]
def delete_message(self, message_ids):
logger.info(f"Deleting messages: {message_ids}")
if not type(message_ids) is list:
message_ids = [int(message_ids)]
result = self.send_query("DeleteMessageMutation", {
"messageIds": message_ids
})
def purge_conversation(self, chatbot, count=-1):
logger.info(f"Purging messages from {chatbot}")
last_messages = self.get_message_history(chatbot, count=50)[::-1]
while last_messages:
message_ids = []
for message in last_messages:
if count == 0:
break
count -= 1
message_ids.append(message["node"]["messageId"])
self.delete_message(message_ids)
if count == 0:
return
last_messages = self.get_message_history(chatbot, count=50)[::-1]
logger.info(f"No more messages left to delete.")
load_queries()