Files
o11pro-unpacked/example/o11.py
T
2026-06-15 18:44:59 +08:00

630 lines
24 KiB
Python

from urllib3.util import connection, parse_url
from dns import message, rdatatype, resolver
from requests.adapters import HTTPAdapter
from requests.packages.urllib3.poolmanager import PoolManager
from requests_toolbelt.adapters.socket_options import SocketOptionsAdapter
from io import BytesIO
from http.cookies import SimpleCookie
from curl_cffi import requests as cffi_requests, CurlOpt, CurlSslVersion, CurlHttpVersion
import ipaddress
import gzip
import requests
import urllib
import http
import ssl
import socket
import socks
import json
import base64
import os
import sys
import cloudscraper
def parse_params(params, name, default=""):
ret = default
for p in params:
if p.split("=")[0] == name and len(p.split("=")) >= 2:
ret = p[len(p.split("=")[0])+1:]
return ret
def get_local_config():
return json.load(open(os.path.abspath(os.path.dirname(sys.modules['__main__'].__file__)) + '/../providers/' + os.path.splitext(os.path.basename(sys.modules['__main__'].__file__))[0] + '.cfg'))
class dns:
def __init__(self, url):
self.url = url
self._orig_create_connection = connection.create_connection
connection.create_connection = self.patched_create_connection
def resolve_dns(self, host):
if len(self.url.split("/"))>=3 and self.url.split("/")[2] == host:
my_resolver = resolver.Resolver()
my_resolver.nameservers = ['1.1.1.1']
return str(my_resolver.query(host)[0])
try:
ipaddress.ip_address(host)
return host
except:
pass
if self.url.startswith('http'):
headers = {
'accept': 'application/dns-message',
'content-type': 'application/dns-message',
}
q = message.make_query(host, rdatatype.A)
response = requests.post(self.url, data=q.to_wire(), headers=headers)
try:
return message.from_wire(response.content).answer[0].to_rdataset()[0].to_text()
except:
return host
else:
if ':' in self.url:
url = self.url.split(':')[0]
port = self.url.split(':')[1]
else:
url = self.url
port = 53
my_resolver = resolver.Resolver()
my_resolver.nameservers = [url]
my_resolver.port = int(port)
result = resolver.query(host)
return str(my_resolver.query(host)[0])
def patched_create_connection(self, address, *args, **kwargs):
host, port = address
hostname = self.resolve_dns(host)
return self._orig_create_connection((hostname, port), *args, **kwargs)
class Custom_Adapter(HTTPAdapter):
def __init__(self, *args, **kwargs):
self.worker = kwargs.pop('worker', None)
super().__init__(*args, **kwargs)
def init_poolmanager(self, connections, maxsize, block=False, ssl_version=None, source_address=(), socket_options=[]):
if ssl_version:
ssl_context = ssl.create_default_context()
ssl_context.minimum_version = ssl.TLSVersion.TLSv1_2
ssl_context.maximum_version = ssl.TLSVersion.TLSv1_2
ssl_context.options = ssl.PROTOCOL_TLS & ssl.OP_NO_TLSv1_3
self.poolmanager = PoolManager(num_pools=connections,
maxsize=maxsize,
block=block,
source_address=source_address,
socket_options=socket_options,
ssl_context=ssl_context)
else:
self.poolmanager = PoolManager(num_pools=connections,
maxsize=maxsize,
block=block,
source_address=source_address,
socket_options=socket_options)
def send(self, request, stream=False, timeout=None, verify=True, cert=None, proxies=None):
parsed = parse_url(request.url)
if self.worker and parsed.scheme in ('http', 'https'):
request.headers['original-host'] = parsed.host
if parsed.query:
new_url = f"{parsed.scheme}://{self.worker}{parsed.path}?{parsed.query}"
else:
new_url = f"{parsed.scheme}://{self.worker}{parsed.path}"
request.url = new_url
return super().send(request, stream, timeout, verify, cert, proxies)
class session1:
def __init__(self, bind="", proxy="", worker="", force_tls1_2=False, cloud=False):
if cloud:
self.session = cloudscraper.create_scraper()
else:
self.session = requests.Session()
if proxy != "":
self.session.proxies = { "http": proxy, "https": proxy }
if cloud:
return
self.session.mount('http://', Custom_Adapter(worker=worker))
self.session.mount('https://', Custom_Adapter(worker=worker))
if bind != "":
if "." not in bind:
socket_options = [(socket.SOL_SOCKET, socket.SO_BINDTODEVICE, bind.encode())]
source_address = ("", 0)
else:
socket_options = []
source_address = (bind, 0)
else:
source_address = ("", 0)
socket_options = []
if force_tls1_2:
ssl_version = ssl.PROTOCOL_TLSv1_2
else:
ssl_version = None
self.session.get_adapter('http://').init_poolmanager(
connections=requests.adapters.DEFAULT_POOLSIZE,
maxsize=requests.adapters.DEFAULT_POOLSIZE,
source_address=source_address,
socket_options=socket_options
)
self.session.get_adapter('https://').init_poolmanager(
connections=requests.adapters.DEFAULT_POOLSIZE,
maxsize=requests.adapters.DEFAULT_POOLSIZE,
source_address=source_address,
socket_options=socket_options,
ssl_version=ssl_version
)
def get_session(self):
return self.session
class Cookies:
def __init__(self, cookie_string):
self.cookies = self._parse_cookies(cookie_string)
def _parse_cookies(self, cookie_header):
cookies = {}
if cookie_header:
simple_cookie = SimpleCookie(cookie_header)
for key, morsel in simple_cookie.items():
cookies[key] = morsel.value
return cookies
def get_dict(self):
return self.cookies
def clear(self):
self.cookies.clear()
def update(self, new_cookies):
if isinstance(new_cookies, str):
# Parse the cookie string and update existing cookies
new_cookie_dict = self._parse_cookies(new_cookies)
self.cookies.update(new_cookie_dict)
elif isinstance(new_cookies, dict):
# If it's already a dictionary, just update the existing cookies
self.cookies.update(new_cookies)
else:
raise ValueError("new_cookies must be either a string or a dictionary.")
class HttpResponse:
def __init__(self, response):
self.status = response.status
self.headers = dict(response.getheaders())
self._body = response.read()
for key, value in self.headers.items():
if key.lower() == 'content-encoding' and value.lower() == 'gzip':
compressed_data = self._body
with gzip.GzipFile(fileobj=BytesIO(compressed_data), mode='rb') as f:
self._body = f.read()
self.cookies = Cookies(self.headers.get('Set-Cookie', ''))
@property
def content(self):
"""Returns the raw response content (bytes)."""
return self._body
@property
def text(self):
"""Returns the response content as a string (decoded)."""
try:
return self._body.decode("utf-8")
except:
return self._body
@property
def status_code(self):
"""Returns the response status code."""
return self.status
def json(self):
"""Returns the response content as a parsed JSON object."""
try:
return json.loads(self.text)
except json.JSONDecodeError:
raise ValueError("Response content is not valid JSON")
def resolve_dns(hostname, dns_server, ipv6):
r = resolver.Resolver()
r.nameservers = [dns_server]
reso = 'A'
if ipv6:
reso = 'AAAA'
answer = r.query(hostname, reso)
ip_address = answer[0].address
return ip_address
class session_http_client:
def __init__(self, bind="", proxy="", doh="", dns="", worker="", force_tls1_2=False, force_tls1_3=False, ciphers=None, max_redirects=5, ipv6=False):
self.bind = bind
self.proxy = proxy
self.proxy_username = None
self.proxy_password = None
self.doh = doh
self.dns = dns
self.worker = worker
self.force_tls1_2 = force_tls1_2
self.force_tls1_3 = force_tls1_3
self.max_redirects = max_redirects # Maximum number of redirects
self.cookies = {}
self.ciphers = ciphers
self.ipv6 = ipv6
if self.proxy:
proxy_parsed = urllib.parse.urlparse(proxy)
if proxy_parsed.username and proxy_parsed.password:
self.proxy_username = proxy_parsed.username
self.proxy_password = proxy_parsed.password
self.proxy_host = proxy_parsed.hostname
self.proxy_port = proxy_parsed.port or 80
def get_session(self):
return self
def _create_connection(self, host, port, ssl_context, ipv6):
if ipv6:
print("Using IPV6", file=sys.stderr)
af = socket.AF_INET6
else:
af = socket.AF_INET
# Create a socket object
if self.proxy.startswith('socks'):
sock = socks.socksocket(af, socket.SOCK_STREAM)
sock.set_proxy(socks.SOCKS5, self.proxy_host, self.proxy_port, username=self.proxy_username, password=self.proxy_password)
else:
sock = socket.socket(af, socket.SOCK_STREAM)
if ssl_context:
sock = ssl_context.wrap_socket(sock, server_hostname=host)
# If bind address is specified, create a socket with the bind address
if self.bind:
if "." in self.bind: # IP address bind
sock.bind((self.bind, 0)) # Bind to the specified IP address (port 0 to let OS choose)
else: # Interface bind (e.g., "eth0")
sock.setsockopt(socket.SOL_SOCKET, socket.SO_BINDTODEVICE, self.bind.encode())
# Connect to the host
if self.doh and self.doh.startswith('http'):
headers = {
'accept': 'application/dns-message',
'content-type': 'application/dns-message',
}
q = message.make_query(host, rdatatype.A)
response = requests.post(self.doh, data=q.to_wire(), headers=headers)
try:
host = message.from_wire(response.content).answer[0].to_rdataset()[0].to_text()
print("DOH: resolved ip to", host, file=sys.stderr)
except:
print("DOH failed")
sys.exit(1)
elif self.dns:
host = resolve_dns(host, self.dns, self.ipv6)
print("DNS: resolved ip to", host, file=sys.stderr)
sock.connect((host, port))
if ssl_context and self.proxy.startswith('socks'):
sock = ssl_context.wrap_socket(sock, server_hostname=host)
return sock
def request(self, method, url, params=None, body=None, headers={}, allow_redirects=True, verify=True, cookies=None):
if cookies:
self.cookies.update(cookies)
if params:
if '?' in url:
url += "&" + urllib.parse.urlencode(params)
else:
url += "?" + urllib.parse.urlencode(params)
parsed_url = urllib.parse.urlparse(url)
# Create a connection to the host or proxy if specified
context = None
if parsed_url.scheme == "https":
context = ssl.create_default_context()
if not verify:
context.check_hostname = False
context.verify_mode = ssl.CERT_NONE
if self.force_tls1_2:
context.options |= ssl.OP_NO_TLSv1 | ssl.OP_NO_TLSv1_1 | ssl.OP_NO_TLSv1_3
if self.force_tls1_3:
context.options |= ssl.OP_NO_TLSv1 | ssl.OP_NO_TLSv1_1 | ssl.OP_NO_TLSv1_2
if self.ciphers:
#print("setting ciphers: " + self.ciphers, file=sys.stderr)
context.set_ciphers(self.ciphers)
connection = None
redirects = 0
current_url = url
if isinstance(body, dict):
converted = False
for key, value in headers.items():
if key.lower() == 'content-type':
if 'x-www-form-urlencoded' in value:
body = urllib.parse.urlencode(body, quote_via=urllib.parse.quote)
converted = True
elif 'application/json' in value:
body = json.dumps(body)
converted = True
if not converted:
headers['content-type'] = 'application/x-www-form-urlencoded'
body = urllib.parse.urlencode(body, quote_via=urllib.parse.quote)
while redirects <= self.max_redirects:
host = parsed_url.hostname
port = parsed_url.port or (443 if parsed_url.scheme == "https" else 80)
path = parsed_url.path
if parsed_url.query:
path += '?' + parsed_url.query
if self.worker and parsed_url.scheme in ('http', 'https'):
headers['original-host'] = parsed.host
host = self.worker
if self.proxy and self.proxy.startswith('http'):
real_host = host
host = self.proxy_host
port = self.proxy_port
if parsed_url.scheme == "https":
connection = http.client.HTTPSConnection(host, port, context=context)
else:
connection = http.client.HTTPConnection(host, port)
if self.proxy and self.proxy.startswith('http'):
if self.proxy_username and self.proxy_password:
auth = base64.b64encode(f"{self.proxy_username}:{self.proxy_password}".encode()).decode()
connection.set_tunnel(real_host, headers={'Proxy-Authorization': 'Basic ' + auth})
else:
connection.set_tunnel(real_host)
if not self.proxy or self.proxy.startswith('socks'):
connection.sock = self._create_connection(host, port, context, self.ipv6)
if self.cookies and self.cookies != {}:
headers['cookie'] = "; ".join([f"{key}={value}" for key, value in self.cookies.items()])
connection.request(method, path, body=body, headers=headers)
#if connection.sock:
# print("selected ciphers: ", connection.sock.cipher(), file=sys.stderr)
response = connection.getresponse()
response = HttpResponse(response)
self.cookies.update(response.cookies.get_dict())
if not allow_redirects:
break
# Check for redirects (HTTP 3xx status codes)
if response.status_code in (301, 302, 303, 307, 308):
if 'location' in response.headers or 'Location' in response.headers:
if 'location' in response.headers:
location = response.headers['location']
else:
location = response.headers['Location']
current_url = urllib.parse.urljoin(current_url, location)
parsed_url = urllib.parse.urlparse(current_url) # Reparse the new URL
redirects += 1
print(f"redirect to {location}", file=sys.stderr)
continue # If a redirect, follow it
# If no redirect, break the loop and return the response
break
return response
def get(self, url, headers={}, params=None, allow_redirects=True, verify=True, cookies=None):
headers = { k.lower(): v for k, v in headers.items() }
return self.request("GET", url, params=params, headers=headers, allow_redirects=allow_redirects, verify=verify, cookies=cookies)
def post(self, url, params=None, data=None, json=None, headers={}, allow_redirects=True, verify=True, cookies=None):
headers = { k.lower(): v for k, v in headers.items() }
if json:
data = json
headers['content-type'] = 'application/json;charset=UTF-8'
return self.request("POST", url, params=params, body=data, headers=headers, allow_redirects=allow_redirects, verify=verify, cookies=cookies)
def put(self, url, params=None, data=None, json=None, headers={}, allow_redirects=True, verify=True, cookies=None):
headers = { k.lower(): v for k, v in headers.items() }
if json:
data = json
headers['content-type'] = 'application/json;charset=UTF-8'
return self.request("PUT", url, params=params, body=data, headers=headers, allow_redirects=allow_redirects, verify=verify, cookies=cookies)
def delete(self, url, params=None, headers={}, allow_redirects=True, verify=True, cookies=None):
headers = { k.lower(): v for k, v in headers.items() }
return self.request("DELETE", url, params=params, headers=headers, allow_redirects=allow_redirects, verify=verify, cookies=cookies)
class session_curl_cffi:
def __init__(self, bind="", proxy="", worker="", doh="", dns="", impersonate="", force_tls1_2=False, force_tls1_3=False, ciphers=None, ipv6=False, verbose=False):
if doh != "":
print("DOH not supported with curl_cffi")
sys.exit(1)
if dns != "":
print("DNS not supported with curl_cffi")
sys.exit(1)
if worker != "":
print("Worker not supported with curl_cffi")
sys.exit(1)
if force_tls1_2:
curl_options = { CurlOpt.SSLVERSION: CurlSslVersion.TLSv1_2 }
elif force_tls1_3:
curl_options = { CurlOpt.SSLVERSION: CurlSslVersion.TLSv1_3 }
else:
curl_options = {}
if verbose:
curl_options[CurlOpt.VERBOSE] = True
self._session = cffi_requests.Session(interface=bind, impersonate=impersonate, curl_options=curl_options)
if proxy != "":
self._session.proxies = {
"http": proxy,
"https": proxy
}
def get_session(self):
return self._session
mydns = dns
class session:
def __init__(self, bind="", proxy="", doh="", dns="", worker="", impersonate="chrome", force_tls1_2=False, force_tls1_3=False, ciphers=None, ipv6=False, alt=False, curl_cffi=False, cloud=False, verbose=False):
if curl_cffi:
print("Using curl_cffi", file=sys.stderr)
s = session_curl_cffi(bind=bind, proxy=proxy, doh=doh, dns=dns, impersonate=impersonate, worker=worker, force_tls1_2=force_tls1_2, force_tls1_3 = force_tls1_3, ciphers=ciphers, ipv6=ipv6, verbose=verbose)
self.session = s.get_session()
elif alt:
print("Using http.client", file=sys.stderr)
s = session_http_client(bind=bind, proxy=proxy, doh=doh, dns=dns, worker=worker, force_tls1_2=force_tls1_2, force_tls1_3 = force_tls1_3, ciphers=ciphers, ipv6=ipv6)
self.session = s.get_session()
else:
if cloud:
print("Using cloudscraper", file=sys.stderr)
if bind != "" or worker != "":
print("cannot use bind and/or worker with cloudscraper")
sys.exit(1)
else:
print("Using requests", file=sys.stderr)
if doh != "":
mydns(doh)
elif dns != "":
mydns(dns)
s = session1(bind=bind, proxy=proxy, worker=worker, force_tls1_2=force_tls1_2, cloud=cloud)
self.session = s.get_session()
def get_session(self):
return self.session
class api:
def __init__(self, url="", user="", password=""):
self.url = url
self.token = ""
if user != "" and password != "":
json_data = {
'Username': user,
'Password': password
}
response = requests.post(url + '/api/login', json=json_data, verify=False)
try:
self.token = response.json()['Token']
except:
print("O11 API login failed")
sys.exit(1)
info = self.get_info()
if "API error" in info:
print("Could not connect to O11 API: " + info)
sys.exit(1)
def get_info(self):
headers = {
'Authorization': self.token
}
json_data = {
'Id': 'local',
}
response = requests.post(self.url + '/api/server/getinfo', headers=headers, json=json_data, verify=False)
if response.status_code != 200:
return f"API error {response.status_code}"
else:
return response.text
def add_stream(self, type="event", provider_id="", name="", id="", autostart=True, start=0, end=0):
headers = {
'Authorization': self.token
}
json_data = {
'ProviderId': provider_id,
'StreamName': name,
'Stream': {
'Type': type,
'Name': name,
'Id': id,
'Autostart': autostart,
'Start': start,
'End': end
},
}
response = requests.post(self.url + '/api/stream/add', headers=headers, json=json_data, verify=False)
print(response.text, file=sys.stderr)
def edit_stream(self, provider_id="", stream_id="", manifest="", keys=[], start=0, end=0):
headers = {
'Authorization': self.token
}
json_data = {
'ProviderId': provider_id,
'StreamId': stream_id,
'Manifest': manifest,
'Keys': keys,
'Start': start,
'End': end
}
response = requests.post(self.url + '/api/stream/edit', headers=headers, json=json_data, verify=False)
print(response.text, file=sys.stderr)
def delete_stream(self, provider_id="", stream_id=""):
headers = {
'Authorization': self.token
}
json_data = {
'ProviderId': provider_id,
'StreamId': stream_id,
}
response = requests.post(self.url + '/api/stream/delete', headers=headers, json=json_data, verify=False)
print(response.text, file=sys.stderr)
def start_stop_stream(self, action="", provider_id="", stream_id=""):
headers = {
'Authorization': self.token
}
json_data = {
'ProviderId': provider_id,
'StreamId': stream_id
}
response = requests.post(self.url + '/api/stream/' + action, headers=headers, json=json_data, verify=False)
print(response.text, file=sys.stderr)
def add_job(self, name, cron, description="", script_name="", script_params="" , script_timeout=30):
headers = {
'Authorization': self.token
}
json_data = {
'Job': {
'Enabled': True,
'Name': name,
'Description': description,
'ScriptName': script_name,
'ScriptParams': script_params,
'ScriptTimeout': script_timeout,
'Cron': cron,
}
}
response = requests.post(self.url + '/api/job/add', headers=headers, json=json_data, verify=False)
print(response.text, file=sys.stderr)