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from __future__ import annotations
import threading
import types
import typing
import h2.config # type: ignore[import-untyped]
import h2.connection # type: ignore[import-untyped]
import h2.events # type: ignore[import-untyped]
import urllib3.connection
import urllib3.util.ssl_
from urllib3.response import BaseHTTPResponse
from ._collections import HTTPHeaderDict
from .connection import HTTPSConnection
from .connectionpool import HTTPSConnectionPool
orig_HTTPSConnection = HTTPSConnection
T = typing.TypeVar("T")
class _LockedObject(typing.Generic[T]):
"""
A wrapper class that hides a specific object behind a lock.
The goal here is to provide a simple way to protect access to an object
that cannot safely be simultaneously accessed from multiple threads. The
intended use of this class is simple: take hold of it with a context
manager, which returns the protected object.
"""
def __init__(self, obj: T):
self.lock = threading.RLock()
self._obj = obj
def __enter__(self) -> T:
self.lock.acquire()
return self._obj
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: types.TracebackType | None,
) -> None:
self.lock.release()
class HTTP2Connection(HTTPSConnection):
def __init__(
self, host: str, port: int | None = None, **kwargs: typing.Any
) -> None:
self._h2_conn = self._new_h2_conn()
self._h2_stream: int | None = None
self._h2_headers: list[tuple[bytes, bytes]] = []
if "proxy" in kwargs or "proxy_config" in kwargs: # Defensive:
raise NotImplementedError("Proxies aren't supported with HTTP/2")
super().__init__(host, port, **kwargs)
def _new_h2_conn(self) -> _LockedObject[h2.connection.H2Connection]:
config = h2.config.H2Configuration(client_side=True)
return _LockedObject(h2.connection.H2Connection(config=config))
def connect(self) -> None:
super().connect()
with self._h2_conn as h2_conn:
h2_conn.initiate_connection()
self.sock.sendall(h2_conn.data_to_send())
def putrequest(
self,
method: str,
url: str,
skip_host: bool = False,
skip_accept_encoding: bool = False,
) -> None:
with self._h2_conn as h2_conn:
self._request_url = url
self._h2_stream = h2_conn.get_next_available_stream_id()
if ":" in self.host:
authority = f"[{self.host}]:{self.port or 443}"
else:
authority = f"{self.host}:{self.port or 443}"
self._h2_headers.extend(
(
(b":scheme", b"https"),
(b":method", method.encode()),
(b":authority", authority.encode()),
(b":path", url.encode()),
)
)
def putheader(self, header: str, *values: str) -> None: # type: ignore[override]
for value in values:
self._h2_headers.append(
(header.encode("utf-8").lower(), value.encode("utf-8"))
)
def endheaders(self) -> None: # type: ignore[override]
with self._h2_conn as h2_conn:
h2_conn.send_headers(
stream_id=self._h2_stream,
headers=self._h2_headers,
end_stream=True,
)
if data_to_send := h2_conn.data_to_send():
self.sock.sendall(data_to_send)
def send(self, data: bytes) -> None: # type: ignore[override] # Defensive:
if not data:
return
raise NotImplementedError("Sending data isn't supported yet")
def getresponse( # type: ignore[override]
self,
) -> HTTP2Response:
status = None
data = bytearray()
with self._h2_conn as h2_conn:
end_stream = False
while not end_stream:
# TODO: Arbitrary read value.
if received_data := self.sock.recv(65535):
events = h2_conn.receive_data(received_data)
for event in events:
if isinstance(event, h2.events.ResponseReceived):
headers = HTTPHeaderDict()
for header, value in event.headers:
if header == b":status":
status = int(value.decode())
else:
headers.add(
header.decode("ascii"), value.decode("ascii")
)
elif isinstance(event, h2.events.DataReceived):
data += event.data
h2_conn.acknowledge_received_data(
event.flow_controlled_length, event.stream_id
)
elif isinstance(event, h2.events.StreamEnded):
end_stream = True
if data_to_send := h2_conn.data_to_send():
self.sock.sendall(data_to_send)
# We always close to not have to handle connection management.
self.close()
assert status is not None
return HTTP2Response(
status=status,
headers=headers,
request_url=self._request_url,
data=bytes(data),
)
def close(self) -> None:
with self._h2_conn as h2_conn:
try:
h2_conn.close_connection()
if data := h2_conn.data_to_send():
self.sock.sendall(data)
except Exception:
pass
# Reset all our HTTP/2 connection state.
self._h2_conn = self._new_h2_conn()
self._h2_stream = None
self._h2_headers = []
super().close()
class HTTP2Response(BaseHTTPResponse):
# TODO: This is a woefully incomplete response object, but works for non-streaming.
def __init__(
self,
status: int,
headers: HTTPHeaderDict,
request_url: str,
data: bytes,
decode_content: bool = False, # TODO: support decoding
) -> None:
super().__init__(
status=status,
headers=headers,
# Following CPython, we map HTTP versions to major * 10 + minor integers
version=20,
version_string="HTTP/2",
# No reason phrase in HTTP/2
reason=None,
decode_content=decode_content,
request_url=request_url,
)
self._data = data
self.length_remaining = 0
@property
def data(self) -> bytes:
return self._data
def get_redirect_location(self) -> None:
return None
def close(self) -> None:
pass
def inject_into_urllib3() -> None:
HTTPSConnectionPool.ConnectionCls = HTTP2Connection
urllib3.connection.HTTPSConnection = HTTP2Connection # type: ignore[misc]
# TODO: Offer 'http/1.1' as well, but for testing purposes this is handy.
urllib3.util.ssl_.ALPN_PROTOCOLS = ["h2"]
def extract_from_urllib3() -> None:
HTTPSConnectionPool.ConnectionCls = orig_HTTPSConnection
urllib3.connection.HTTPSConnection = orig_HTTPSConnection # type: ignore[misc]
urllib3.util.ssl_.ALPN_PROTOCOLS = ["http/1.1"]