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proto.py
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import asyncio, socket, urllib.parse, time, re, base64, hmac, struct, hashlib, io, os
from . import admin
HTTP_LINE = re.compile('([^ ]+) +(.+?) +(HTTP/[^ ]+)$')
packstr = lambda s, n=1: len(s).to_bytes(n, 'big') + s
def netloc_split(loc, default_host=None, default_port=None):
ipv6 = re.fullmatch(r'\[([0-9a-fA-F:]*)\](?::(\d+)?)?', loc)
if ipv6:
host_name, port = ipv6.groups()
elif ':' in loc:
host_name, port = loc.rsplit(':', 1)
else:
host_name, port = loc, None
return host_name or default_host, int(port) if port else default_port
async def socks_address_stream(reader, n):
if n in (1, 17):
data = await reader.read_n(4)
host_name = socket.inet_ntoa(data)
elif n in (3, 19):
data = await reader.read_n(1)
data += await reader.read_n(data[0])
host_name = data[1:].decode()
elif n in (4, 20):
data = await reader.read_n(16)
host_name = socket.inet_ntop(socket.AF_INET6, data)
else:
raise Exception(f'Unknown address header {n}')
data_port = await reader.read_n(2)
return host_name, int.from_bytes(data_port, 'big'), data+data_port
def socks_address(reader, n):
return socket.inet_ntoa(reader.read(4)) if n == 1 else \
reader.read(reader.read(1)[0]).decode() if n == 3 else \
socket.inet_ntop(socket.AF_INET6, reader.read(16)), \
int.from_bytes(reader.read(2), 'big')
class BaseProtocol:
def __init__(self, param):
self.param = param
@property
def name(self):
return self.__class__.__name__.lower()
def reuse(self):
return False
def udp_accept(self, data, **kw):
raise Exception(f'{self.name} don\'t support UDP server')
def udp_connect(self, rauth, host_name, port, data, **kw):
raise Exception(f'{self.name} don\'t support UDP client')
def udp_unpack(self, data):
return data
def udp_pack(self, host_name, port, data):
return data
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, **kw):
raise Exception(f'{self.name} don\'t support client')
async def channel(self, reader, writer, stat_bytes, stat_conn):
try:
stat_conn(1)
while not reader.at_eof() and not writer.is_closing():
data = await reader.read(65536)
if not data:
break
if stat_bytes is None:
continue
stat_bytes(len(data))
writer.write(data)
await writer.drain()
except Exception:
pass
finally:
stat_conn(-1)
writer.close()
class Direct(BaseProtocol):
pass
class Trojan(BaseProtocol):
async def guess(self, reader, users, **kw):
header = await reader.read_w(56)
if users:
for user in users:
if hashlib.sha224(user).hexdigest().encode() == header:
return user
else:
if hashlib.sha224(b'').hexdigest().encode() == header:
return True
reader.rollback(header)
async def accept(self, reader, user, **kw):
assert await reader.read_n(2) == b'\x0d\x0a'
if (await reader.read_n(1))[0] != 1:
raise Exception('Connection closed')
host_name, port, _ = await socks_address_stream(reader, (await reader.read_n(1))[0])
assert await reader.read_n(2) == b'\x0d\x0a'
return user, host_name, port
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, **kw):
toauth = hashlib.sha224(rauth or b'').hexdigest().encode()
writer_remote.write(toauth + b'\x0d\x0a\x01\x03' + packstr(host_name.encode()) + port.to_bytes(2, 'big') + b'\x0d\x0a')
class SSR(BaseProtocol):
async def guess(self, reader, users, **kw):
if users:
header = await reader.read_w(max(len(i) for i in users))
reader.rollback(header)
user = next(filter(lambda x: x == header[:len(x)], users), None)
if user is None:
return
await reader.read_n(len(user))
return user
header = await reader.read_w(1)
reader.rollback(header)
return header[0] in (1, 3, 4, 17, 19, 20)
async def accept(self, reader, user, **kw):
host_name, port, data = await socks_address_stream(reader, (await reader.read_n(1))[0])
return user, host_name, port
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, **kw):
writer_remote.write(rauth + b'\x03' + packstr(host_name.encode()) + port.to_bytes(2, 'big'))
class SS(SSR):
def patch_ota_reader(self, cipher, reader):
chunk_id, data_len, _buffer = 0, None, bytearray()
def decrypt(s):
nonlocal chunk_id, data_len
_buffer.extend(s)
ret = bytearray()
while 1:
if data_len is None:
if len(_buffer) < 2:
break
data_len = int.from_bytes(_buffer[:2], 'big')
del _buffer[:2]
else:
if len(_buffer) < 10+data_len:
break
data = _buffer[10:10+data_len]
assert _buffer[:10] == hmac.new(cipher.iv+chunk_id.to_bytes(4, 'big'), data, hashlib.sha1).digest()[:10]
del _buffer[:10+data_len]
data_len = None
chunk_id += 1
ret.extend(data)
return bytes(ret)
reader.decrypts.append(decrypt)
if reader._buffer:
reader._buffer = bytearray(decrypt(reader._buffer))
def patch_ota_writer(self, cipher, writer):
chunk_id = 0
def write(data, o=writer.write):
nonlocal chunk_id
if not data: return
checksum = hmac.new(cipher.iv+chunk_id.to_bytes(4, 'big'), data, hashlib.sha1).digest()
chunk_id += 1
return o(len(data).to_bytes(2, 'big') + checksum[:10] + data)
writer.write = write
async def accept(self, reader, user, reader_cipher, **kw):
header = await reader.read_n(1)
ota = (header[0] & 0x10 == 0x10)
host_name, port, data = await socks_address_stream(reader, header[0])
assert ota or not reader_cipher or not reader_cipher.ota, 'SS client must support OTA'
if ota and reader_cipher:
checksum = hmac.new(reader_cipher.iv+reader_cipher.key, header+data, hashlib.sha1).digest()
assert checksum[:10] == await reader.read_n(10), 'Unknown OTA checksum'
self.patch_ota_reader(reader_cipher, reader)
return user, host_name, port
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, writer_cipher_r, **kw):
writer_remote.write(rauth)
if writer_cipher_r and writer_cipher_r.ota:
rdata = b'\x13' + packstr(host_name.encode()) + port.to_bytes(2, 'big')
checksum = hmac.new(writer_cipher_r.iv+writer_cipher_r.key, rdata, hashlib.sha1).digest()
writer_remote.write(rdata + checksum[:10])
self.patch_ota_writer(writer_cipher_r, writer_remote)
else:
writer_remote.write(b'\x03' + packstr(host_name.encode()) + port.to_bytes(2, 'big'))
def udp_accept(self, data, users, **kw):
reader = io.BytesIO(data)
user = True
if users:
user = next(filter(lambda i: data[:len(i)]==i, users), None)
if user is None:
return
reader.read(len(user))
n = reader.read(1)[0]
if n not in (1, 3, 4):
return
host_name, port = socks_address(reader, n)
return user, host_name, port, reader.read()
def udp_unpack(self, data):
reader = io.BytesIO(data)
n = reader.read(1)[0]
host_name, port = socks_address(reader, n)
return reader.read()
def udp_pack(self, host_name, port, data):
try:
return b'\x01' + socket.inet_aton(host_name) + port.to_bytes(2, 'big') + data
except Exception:
pass
return b'\x03' + packstr(host_name.encode()) + port.to_bytes(2, 'big') + data
def udp_connect(self, rauth, host_name, port, data, **kw):
return rauth + b'\x03' + packstr(host_name.encode()) + port.to_bytes(2, 'big') + data
class Socks4(BaseProtocol):
async def guess(self, reader, **kw):
header = await reader.read_w(1)
if header == b'\x04':
return True
reader.rollback(header)
async def accept(self, reader, user, writer, users, authtable, **kw):
assert await reader.read_n(1) == b'\x01'
port = int.from_bytes(await reader.read_n(2), 'big')
ip = await reader.read_n(4)
userid = (await reader.read_until(b'\x00'))[:-1]
user = authtable.authed()
if users:
if userid in users:
user = userid
elif not user:
raise Exception(f'Unauthorized SOCKS {userid}')
authtable.set_authed(user)
writer.write(b'\x00\x5a' + port.to_bytes(2, 'big') + ip)
return user, socket.inet_ntoa(ip), port
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, **kw):
ip = socket.inet_aton((await asyncio.get_event_loop().getaddrinfo(host_name, port, family=socket.AF_INET))[0][4][0])
writer_remote.write(b'\x04\x01' + port.to_bytes(2, 'big') + ip + rauth + b'\x00')
assert await reader_remote.read_n(2) == b'\x00\x5a'
await reader_remote.read_n(6)
class Socks5(BaseProtocol):
async def guess(self, reader, **kw):
header = await reader.read_w(1)
if header == b'\x05':
return True
reader.rollback(header)
async def accept(self, reader, user, writer, users, authtable, **kw):
methods = await reader.read_n((await reader.read_n(1))[0])
user = authtable.authed()
if users and (not user or b'\x00' not in methods):
if b'\x02' not in methods:
raise Exception(f'Unauthorized SOCKS')
writer.write(b'\x05\x02')
assert (await reader.read_n(1))[0] == 1, 'Unknown SOCKS auth'
u = await reader.read_n((await reader.read_n(1))[0])
p = await reader.read_n((await reader.read_n(1))[0])
user = u+b':'+p
if user not in users:
raise Exception(f'Unauthorized SOCKS {u}:{p}')
writer.write(b'\x01\x00')
elif users and not user:
raise Exception(f'Unauthorized SOCKS')
else:
writer.write(b'\x05\x00')
if users:
authtable.set_authed(user)
assert await reader.read_n(3) == b'\x05\x01\x00', 'Unknown SOCKS protocol'
header = await reader.read_n(1)
host_name, port, data = await socks_address_stream(reader, header[0])
writer.write(b'\x05\x00\x00' + header + data)
return user, host_name, port
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, **kw):
if rauth:
writer_remote.write(b'\x05\x01\x02')
assert await reader_remote.read_n(2) == b'\x05\x02'
writer_remote.write(b'\x01' + b''.join(packstr(i) for i in rauth.split(b':', 1)))
assert await reader_remote.read_n(2) == b'\x01\x00', 'Unknown SOCKS auth'
else:
writer_remote.write(b'\x05\x01\x00')
assert await reader_remote.read_n(2) == b'\x05\x00'
writer_remote.write(b'\x05\x01\x00\x03' + packstr(host_name.encode()) + port.to_bytes(2, 'big'))
assert await reader_remote.read_n(3) == b'\x05\x00\x00'
header = (await reader_remote.read_n(1))[0]
await reader_remote.read_n(6 if header == 1 else (18 if header == 4 else (await reader_remote.read_n(1))[0]+2))
def udp_accept(self, data, **kw):
reader = io.BytesIO(data)
if reader.read(3) != b'\x00\x00\x00':
return
n = reader.read(1)[0]
if n not in (1, 3, 4):
return
host_name, port = socks_address(reader, n)
return True, host_name, port, reader.read()
def udp_connect(self, rauth, host_name, port, data, **kw):
return b'\x00\x00\x00\x03' + packstr(host_name.encode()) + port.to_bytes(2, 'big') + data
class HTTP(BaseProtocol):
async def guess(self, reader, **kw):
header = await reader.read_w(4)
reader.rollback(header)
return header in (b'GET ', b'HEAD', b'POST', b'PUT ', b'DELE', b'CONN', b'OPTI', b'TRAC', b'PATC')
async def accept(self, reader, user, writer, **kw):
lines = await reader.read_until(b'\r\n\r\n')
headers = lines[:-4].decode().split('\r\n')
method, path, ver = HTTP_LINE.match(headers.pop(0)).groups()
lines = '\r\n'.join(i for i in headers if not i.startswith('Proxy-'))
headers = dict(i.split(': ', 1) for i in headers if ': ' in i)
async def reply(code, message, body=None, wait=False):
writer.write(message)
if body:
writer.write(body)
if wait:
await writer.drain()
return await self.http_accept(user, method, path, None, ver, lines, headers.get('Host', ''), headers.get('Proxy-Authorization'), reply, **kw)
async def http_accept(self, user, method, path, authority, ver, lines, host, pauth, reply, authtable, users, httpget=None, **kw):
url = urllib.parse.urlparse(path)
if method == 'GET' and not url.hostname:
for path, text in (httpget.items() if httpget else ()):
if path == url.path:
user = next(filter(lambda x: x.decode()==url.query, users), None) if users else True
if user:
if users:
authtable.set_authed(user)
if type(text) is str:
text = (text % dict(host=host)).encode()
await reply(200, f'{ver} 200 OK\r\nConnection: close\r\nContent-Type: text/plain\r\nCache-Control: max-age=900\r\nContent-Length: {len(text)}\r\n\r\n'.encode(), text, True)
raise Exception('Connection closed')
raise Exception(f'404 {method} {url.path}')
if users:
user = authtable.authed()
if not user:
user = next(filter(lambda i: ('Basic '+base64.b64encode(i).decode()) == pauth, users), None)
if user is None:
await reply(407, f'{ver} 407 Proxy Authentication Required\r\nConnection: close\r\nProxy-Authenticate: Basic realm="simple"\r\n\r\n'.encode(), wait=True)
raise Exception('Unauthorized HTTP')
authtable.set_authed(user)
if method == 'CONNECT':
host_name, port = netloc_split(authority or path)
return user, host_name, port, lambda writer: reply(200, f'{ver} 200 Connection established\r\nConnection: close\r\n\r\n'.encode())
else:
host_name, port = netloc_split(url.netloc or host, default_port=80)
newpath = url._replace(netloc='', scheme='').geturl()
async def connected(writer):
writer.write(f'{method} {newpath} {ver}\r\n{lines}\r\n\r\n'.encode())
return True
return user, host_name, port, connected
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, **kw):
writer_remote.write(f'CONNECT {host_name}:{port} HTTP/1.1\r\nHost: {host_name}:{port}'.encode() + (b'\r\nProxy-Authorization: Basic '+base64.b64encode(rauth) if rauth else b'') + b'\r\n\r\n')
await reader_remote.read_until(b'\r\n\r\n')
async def http_channel(self, reader, writer, stat_bytes, stat_conn):
try:
stat_conn(1)
while not reader.at_eof() and not writer.is_closing():
data = await reader.read(65536)
if not data:
break
if b'\r\n' in data and HTTP_LINE.match(data.split(b'\r\n', 1)[0].decode()):
if b'\r\n\r\n' not in data:
data += await reader.readuntil(b'\r\n\r\n')
lines, data = data.split(b'\r\n\r\n', 1)
headers = lines.decode().split('\r\n')
method, path, ver = HTTP_LINE.match(headers.pop(0)).groups()
lines = '\r\n'.join(i for i in headers if not i.startswith('Proxy-'))
headers = dict(i.split(': ', 1) for i in headers if ': ' in i)
newpath = urllib.parse.urlparse(path)._replace(netloc='', scheme='').geturl()
data = f'{method} {newpath} {ver}\r\n{lines}\r\n\r\n'.encode() + data
stat_bytes(len(data))
writer.write(data)
await writer.drain()
except Exception:
pass
finally:
stat_conn(-1)
writer.close()
class HTTPOnly(HTTP):
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, myhost, **kw):
buffer = bytearray()
HOST_NAME = re.compile('\r\nHost: ([^\r\n]+)\r\n', re.I)
def write(data, o=writer_remote.write):
if not data: return
buffer.extend(data)
pos = buffer.find(b'\r\n\r\n')
if pos != -1:
text = buffer[:pos].decode()
header = HTTP_LINE.match(text.split('\r\n', 1)[0])
host = HOST_NAME.search(text)
if not header or not host:
writer_remote.close()
raise Exception('Unknown HTTP header for protocol HTTPOnly')
method, path, ver = header.groups()
data = f'{method} http://{host.group(1)}{path} {ver}\r\nHost: {host.group(1)}'.encode() + (b'\r\nProxy-Authorization: Basic '+base64.b64encode(rauth) if rauth else b'') + b'\r\n\r\n' + buffer[pos+4:]
buffer.clear()
return o(data)
writer_remote.write = write
class H2(HTTP):
async def guess(self, reader, **kw):
return True
async def accept(self, reader, user, writer, **kw):
if not writer.headers.done():
await writer.headers
headers = writer.headers.result()
headers = {i.decode().lower():j.decode() for i,j in headers}
lines = '\r\n'.join(i for i in headers if not i.startswith('proxy-') and not i.startswith(':'))
async def reply(code, message, body=None, wait=False):
writer.send_headers(((':status', str(code)),))
if body:
writer.write(body)
if wait:
await writer.drain()
return await self.http_accept(user, headers[':method'], headers[':path'], headers[':authority'], '2.0', lines, '', headers.get('proxy-authorization'), reply, **kw)
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, myhost, **kw):
headers = [(':method', 'CONNECT'), (':scheme', 'https'), (':path', '/'),
(':authority', f'{host_name}:{port}')]
if rauth:
headers.append(('proxy-authorization', 'Basic '+base64.b64encode(rauth)))
writer_remote.send_headers(headers)
class H3(H2):
pass
class HTTPAdmin(HTTP):
async def accept(self, reader, user, writer, **kw):
lines = await reader.read_until(b'\r\n\r\n')
headers = lines[:-4].decode().split('\r\n')
method, path, ver = HTTP_LINE.match(headers.pop(0)).groups()
lines = '\r\n'.join(i for i in headers if not i.startswith('Proxy-'))
headers = dict(i.split(': ', 1) for i in headers if ': ' in i)
async def reply(code, message, body=None, wait=False):
writer.write(message)
if body:
writer.write(body)
if wait:
await writer.drain()
content_length = int(headers.get('Content-Length','0'))
content = ''
if content_length > 0:
content = await reader.read_n(content_length)
url = urllib.parse.urlparse(path)
if url.hostname is not None:
raise Exception(f'HTTP Admin Unsupported hostname')
if method in ["GET", "POST", "PUT", "PATCH", "DELETE"]:
for path, handler in admin.httpget.items():
if path == url.path:
await handler(reply=reply, ver=ver, method=method, headers=headers, lines=lines, content=content)
raise Exception('Connection closed')
raise Exception(f'404 {method} {url.path}')
raise Exception(f'405 {method} not allowed')
class SSH(BaseProtocol):
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, myhost, **kw):
pass
class Transparent(BaseProtocol):
async def guess(self, reader, sock, **kw):
remote = self.query_remote(sock)
return remote is not None and (sock is None or sock.getsockname() != remote)
async def accept(self, reader, user, sock, **kw):
remote = self.query_remote(sock)
return user, remote[0], remote[1]
def udp_accept(self, data, sock, **kw):
remote = self.query_remote(sock)
return True, remote[0], remote[1], data
SO_ORIGINAL_DST = 80
SOL_IPV6 = 41
class Redir(Transparent):
def query_remote(self, sock):
try:
#if sock.family == socket.AF_INET:
if "." in sock.getsockname()[0]:
buf = sock.getsockopt(socket.SOL_IP, SO_ORIGINAL_DST, 16)
assert len(buf) == 16
return socket.inet_ntoa(buf[4:8]), int.from_bytes(buf[2:4], 'big')
else:
buf = sock.getsockopt(SOL_IPV6, SO_ORIGINAL_DST, 28)
assert len(buf) == 28
return socket.inet_ntop(socket.AF_INET6, buf[8:24]), int.from_bytes(buf[2:4], 'big')
except Exception:
pass
class Pf(Transparent):
def query_remote(self, sock):
try:
import fcntl
src = sock.getpeername()
dst = sock.getsockname()
src_ip = socket.inet_pton(sock.family, src[0])
dst_ip = socket.inet_pton(sock.family, dst[0])
pnl = bytearray(struct.pack('!16s16s32xHxxHxx8xBBxB', src_ip, dst_ip, src[1], dst[1], sock.family, socket.IPPROTO_TCP, 2))
if not hasattr(self, 'pf'):
self.pf = open('/dev/pf', 'a+b')
fcntl.ioctl(self.pf.fileno(), 0xc0544417, pnl)
return socket.inet_ntop(sock.family, pnl[48:48+len(src_ip)]), int.from_bytes(pnl[76:78], 'big')
except Exception:
pass
class Tunnel(Transparent):
def query_remote(self, sock):
if not self.param:
return 'tunnel', 0
dst = sock.getsockname() if sock else (None, None)
return netloc_split(self.param, dst[0], dst[1])
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, **kw):
pass
def udp_connect(self, rauth, host_name, port, data, **kw):
return data
class WS(BaseProtocol):
async def guess(self, reader, **kw):
header = await reader.read_w(4)
reader.rollback(header)
return reader == b'GET '
def patch_ws_stream(self, reader, writer, masked=False):
data_len, mask_key, _buffer = None, None, bytearray()
def feed_data(s, o=reader.feed_data):
nonlocal data_len, mask_key
_buffer.extend(s)
while 1:
if data_len is None:
if len(_buffer) < 2:
break
required = 2 + (4 if _buffer[1]&128 else 0)
p = _buffer[1] & 127
required += 2 if p == 126 else 4 if p == 127 else 0
if len(_buffer) < required:
break
data_len = int.from_bytes(_buffer[2:4], 'big') if p == 126 else int.from_bytes(_buffer[2:6], 'big') if p == 127 else p
mask_key = _buffer[required-4:required] if _buffer[1]&128 else None
del _buffer[:required]
else:
if len(_buffer) < data_len:
break
data = _buffer[:data_len]
if mask_key:
data = bytes(data[i]^mask_key[i%4] for i in range(data_len))
del _buffer[:data_len]
data_len = None
o(data)
reader.feed_data = feed_data
if reader._buffer:
reader._buffer, buf = bytearray(), reader._buffer
feed_data(buf)
def write(data, o=writer.write):
if not data: return
data_len = len(data)
if masked:
mask_key = os.urandom(4)
data = bytes(data[i]^mask_key[i%4] for i in range(data_len))
return o(b'\x02' + (bytes([data_len|0x80]) if data_len < 126 else b'\xfe'+data_len.to_bytes(2, 'big') if data_len < 65536 else b'\xff'+data_len.to_bytes(4, 'big')) + mask_key + data)
else:
return o(b'\x02' + (bytes([data_len]) if data_len < 126 else b'\x7e'+data_len.to_bytes(2, 'big') if data_len < 65536 else b'\x7f'+data_len.to_bytes(4, 'big')) + data)
writer.write = write
async def accept(self, reader, user, writer, users, authtable, sock, **kw):
lines = await reader.read_until(b'\r\n\r\n')
headers = lines[:-4].decode().split('\r\n')
method, path, ver = HTTP_LINE.match(headers.pop(0)).groups()
lines = '\r\n'.join(i for i in headers if not i.startswith('Proxy-'))
headers = dict(i.split(': ', 1) for i in headers if ': ' in i)
url = urllib.parse.urlparse(path)
if users:
pauth = headers.get('Proxy-Authorization', None)
user = authtable.authed()
if not user:
user = next(filter(lambda i: ('Basic '+base64.b64encode(i).decode()) == pauth, users), None)
if user is None:
writer.write(f'{ver} 407 Proxy Authentication Required\r\nConnection: close\r\nProxy-Authenticate: Basic realm="simple"\r\n\r\n'.encode())
raise Exception('Unauthorized WebSocket')
authtable.set_authed(user)
if method != 'GET':
raise Exception(f'Unsupported method {method}')
if headers.get('Sec-WebSocket-Key', None) is None:
raise Exception(f'Unsupported headers {headers}')
seckey = base64.b64decode(headers.get('Sec-WebSocket-Key'))
rseckey = base64.b64encode(hashlib.sha1(seckey+b'amtf').digest()[:16]).decode()
writer.write(f'{ver} 101 Switching Protocols\r\nUpgrade: websocket\r\nConnection: Upgrade\r\nSec-WebSocket-Accept: {rseckey}\r\nSec-WebSocket-Protocol: chat\r\n\r\n'.encode())
self.patch_ws_stream(reader, writer, False)
if not self.param:
return 'tunnel', 0
dst = sock.getsockname()
host, port = netloc_split(self.param, dst[0], dst[1])
return user, host, port
async def connect(self, reader_remote, writer_remote, rauth, host_name, port, myhost, **kw):
seckey = base64.b64encode(os.urandom(16)).decode()
writer_remote.write(f'GET / HTTP/1.1\r\nHost: {myhost}\r\nUpgrade: websocket\r\nConnection: Upgrade\r\nSec-WebSocket-Key: {seckey}\r\nSec-WebSocket-Protocol: chat\r\nSec-WebSocket-Version: 13'.encode() + (b'\r\nProxy-Authorization: Basic '+base64.b64encode(rauth) if rauth else b'') + b'\r\n\r\n')
await reader_remote.read_until(b'\r\n\r\n')
self.patch_ws_stream(reader_remote, writer_remote, True)
class Echo(Transparent):
def query_remote(self, sock):
return 'echo', 0
async def accept(protos, reader, **kw):
for proto in protos:
try:
user = await proto.guess(reader, **kw)
except Exception:
raise Exception('Connection closed')
if user:
ret = await proto.accept(reader, user, **kw)
while len(ret) < 4:
ret += (None,)
return (proto,) + ret
raise Exception(f'Unsupported protocol')
def udp_accept(protos, data, **kw):
for proto in protos:
ret = proto.udp_accept(data, **kw)
if ret:
return (proto,) + ret
raise Exception(f'Unsupported protocol {data[:10]}')
MAPPINGS = dict(direct=Direct, http=HTTP, httponly=HTTPOnly, httpadmin=HTTPAdmin, ssh=SSH, socks5=Socks5, socks4=Socks4, socks=Socks5, ss=SS, ssr=SSR, redir=Redir, pf=Pf, tunnel=Tunnel, echo=Echo, ws=WS, trojan=Trojan, h2=H2, h3=H3, ssl='', secure='', quic='')
MAPPINGS['in'] = ''
def get_protos(rawprotos):
protos = []
for s in rawprotos:
s, _, param = s.partition('{')
param = param[:-1] if param else None
p = MAPPINGS.get(s)
if p is None:
return f'existing protocols: {list(MAPPINGS.keys())}', None
if p and p not in protos:
protos.append(p(param))
if not protos:
return 'no protocol specified', None
return None, protos
def sslwrap(reader, writer, sslcontext, server_side=False, server_hostname=None, verbose=None):
if sslcontext is None:
return reader, writer
ssl_reader = asyncio.StreamReader()
class Protocol(asyncio.Protocol):
def data_received(self, data):
ssl_reader.feed_data(data)
def eof_received(self):
ssl_reader.feed_eof()
def connection_lost(self, exc):
ssl_reader.feed_eof()
ssl = asyncio.sslproto.SSLProtocol(asyncio.get_event_loop(), Protocol(), sslcontext, None, server_side, server_hostname, False)
class Transport(asyncio.Transport):
_paused = False
def __init__(self, extra={}):
self._extra = extra
self.closed = False
def write(self, data):
if data and not self.closed:
writer.write(data)
def close(self):
self.closed = True
writer.close()
def _force_close(self, exc):
if not self.closed:
(verbose or print)(f'{exc} from {writer.get_extra_info("peername")[0]}')
ssl._app_transport._closed = True
self.close()
def abort(self):
self.close()
ssl.connection_made(Transport())
async def channel():
read_size=65536
buffer=None
if hasattr(ssl,'get_buffer'):
buffer=ssl.get_buffer(read_size)
try:
while not reader.at_eof() and not ssl._app_transport._closed:
data = await reader.read(read_size)
if not data:
break
if buffer!=None:
data_len=len(data)
buffer[:data_len]=data
ssl.buffer_updated(data_len)
else:
ssl.data_received(data)
except Exception:
pass
finally:
ssl.eof_received()
asyncio.ensure_future(channel())
class Writer():
def get_extra_info(self, key):
return writer.get_extra_info(key)
def write(self, data):
ssl._app_transport.write(data)
def drain(self):
return writer.drain()
def is_closing(self):
return ssl._app_transport._closed
def close(self):
if not ssl._app_transport._closed:
ssl._app_transport.close()
return ssl_reader, Writer()