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from typing import Any, cast, Dict, List, Optional, Tuple, Type
import pytest
from .._connection import _body_framing, _keep_alive, Connection, NEED_DATA, PAUSED
from .._events import (
ConnectionClosed,
Data,
EndOfMessage,
Event,
InformationalResponse,
Request,
Response,
)
from .._state import (
CLIENT,
CLOSED,
DONE,
ERROR,
IDLE,
MIGHT_SWITCH_PROTOCOL,
MUST_CLOSE,
SEND_BODY,
SEND_RESPONSE,
SERVER,
SWITCHED_PROTOCOL,
)
from .._util import LocalProtocolError, RemoteProtocolError, Sentinel
from .helpers import ConnectionPair, get_all_events, receive_and_get
def test__keep_alive() -> None:
assert _keep_alive(
Request(method="GET", target="/", headers=[("Host", "Example.com")])
)
assert not _keep_alive(
Request(
method="GET",
target="/",
headers=[("Host", "Example.com"), ("Connection", "close")],
)
)
assert not _keep_alive(
Request(
method="GET",
target="/",
headers=[("Host", "Example.com"), ("Connection", "a, b, cLOse, foo")],
)
)
assert not _keep_alive(
Request(method="GET", target="/", headers=[], http_version="1.0") # type: ignore[arg-type]
)
assert _keep_alive(Response(status_code=200, headers=[])) # type: ignore[arg-type]
assert not _keep_alive(Response(status_code=200, headers=[("Connection", "close")]))
assert not _keep_alive(
Response(status_code=200, headers=[("Connection", "a, b, cLOse, foo")])
)
assert not _keep_alive(Response(status_code=200, headers=[], http_version="1.0")) # type: ignore[arg-type]
def test__body_framing() -> None:
def headers(cl: Optional[int], te: bool) -> List[Tuple[str, str]]:
headers = []
if cl is not None:
headers.append(("Content-Length", str(cl)))
if te:
headers.append(("Transfer-Encoding", "chunked"))
return headers
def resp(
status_code: int = 200, cl: Optional[int] = None, te: bool = False
) -> Response:
return Response(status_code=status_code, headers=headers(cl, te))
def req(cl: Optional[int] = None, te: bool = False) -> Request:
h = headers(cl, te)
h += [("Host", "example.com")]
return Request(method="GET", target="/", headers=h)
# Special cases where the headers are ignored:
for kwargs in [{}, {"cl": 100}, {"te": True}, {"cl": 100, "te": True}]:
kwargs = cast(Dict[str, Any], kwargs)
for meth, r in [
(b"HEAD", resp(**kwargs)),
(b"GET", resp(status_code=204, **kwargs)),
(b"GET", resp(status_code=304, **kwargs)),
]:
assert _body_framing(meth, r) == ("content-length", (0,))
# Transfer-encoding
for kwargs in [{"te": True}, {"cl": 100, "te": True}]:
kwargs = cast(Dict[str, Any], kwargs)
for meth, r in [(None, req(**kwargs)), (b"GET", resp(**kwargs))]: # type: ignore
assert _body_framing(meth, r) == ("chunked", ())
# Content-Length
for meth, r in [(None, req(cl=100)), (b"GET", resp(cl=100))]: # type: ignore
assert _body_framing(meth, r) == ("content-length", (100,))
# No headers
assert _body_framing(None, req()) == ("content-length", (0,)) # type: ignore
assert _body_framing(b"GET", resp()) == ("http/1.0", ())
def test_Connection_basics_and_content_length() -> None:
with pytest.raises(ValueError):
Connection("CLIENT") # type: ignore
p = ConnectionPair()
assert p.conn[CLIENT].our_role is CLIENT
assert p.conn[CLIENT].their_role is SERVER
assert p.conn[SERVER].our_role is SERVER
assert p.conn[SERVER].their_role is CLIENT
data = p.send(
CLIENT,
Request(
method="GET",
target="/",
headers=[("Host", "example.com"), ("Content-Length", "10")],
),
)
assert data == (
b"GET / HTTP/1.1\r\n" b"Host: example.com\r\n" b"Content-Length: 10\r\n\r\n"
)
for conn in p.conns:
assert conn.states == {CLIENT: SEND_BODY, SERVER: SEND_RESPONSE}
assert p.conn[CLIENT].our_state is SEND_BODY
assert p.conn[CLIENT].their_state is SEND_RESPONSE
assert p.conn[SERVER].our_state is SEND_RESPONSE
assert p.conn[SERVER].their_state is SEND_BODY
assert p.conn[CLIENT].their_http_version is None
assert p.conn[SERVER].their_http_version == b"1.1"
data = p.send(SERVER, InformationalResponse(status_code=100, headers=[])) # type: ignore[arg-type]
assert data == b"HTTP/1.1 100 \r\n\r\n"
data = p.send(SERVER, Response(status_code=200, headers=[("Content-Length", "11")]))
assert data == b"HTTP/1.1 200 \r\nContent-Length: 11\r\n\r\n"
for conn in p.conns:
assert conn.states == {CLIENT: SEND_BODY, SERVER: SEND_BODY}
assert p.conn[CLIENT].their_http_version == b"1.1"
assert p.conn[SERVER].their_http_version == b"1.1"
data = p.send(CLIENT, Data(data=b"12345"))
assert data == b"12345"
data = p.send(
CLIENT, Data(data=b"67890"), expect=[Data(data=b"67890"), EndOfMessage()]
)
assert data == b"67890"
data = p.send(CLIENT, EndOfMessage(), expect=[])
assert data == b""
for conn in p.conns:
assert conn.states == {CLIENT: DONE, SERVER: SEND_BODY}
data = p.send(SERVER, Data(data=b"1234567890"))
assert data == b"1234567890"
data = p.send(SERVER, Data(data=b"1"), expect=[Data(data=b"1"), EndOfMessage()])
assert data == b"1"
data = p.send(SERVER, EndOfMessage(), expect=[])
assert data == b""
for conn in p.conns:
assert conn.states == {CLIENT: DONE, SERVER: DONE}
def test_chunked() -> None:
p = ConnectionPair()
p.send(
CLIENT,
Request(
method="GET",
target="/",
headers=[("Host", "example.com"), ("Transfer-Encoding", "chunked")],
),
)
data = p.send(CLIENT, Data(data=b"1234567890", chunk_start=True, chunk_end=True))
assert data == b"a\r\n1234567890\r\n"
data = p.send(CLIENT, Data(data=b"abcde", chunk_start=True, chunk_end=True))
assert data == b"5\r\nabcde\r\n"
data = p.send(CLIENT, Data(data=b""), expect=[])
assert data == b""
data = p.send(CLIENT, EndOfMessage(headers=[("hello", "there")]))
assert data == b"0\r\nhello: there\r\n\r\n"
p.send(
SERVER, Response(status_code=200, headers=[("Transfer-Encoding", "chunked")])
)
p.send(SERVER, Data(data=b"54321", chunk_start=True, chunk_end=True))
p.send(SERVER, Data(data=b"12345", chunk_start=True, chunk_end=True))
p.send(SERVER, EndOfMessage())
for conn in p.conns:
assert conn.states == {CLIENT: DONE, SERVER: DONE}
def test_chunk_boundaries() -> None:
conn = Connection(our_role=SERVER)
request = (
b"POST / HTTP/1.1\r\n"
b"Host: example.com\r\n"
b"Transfer-Encoding: chunked\r\n"
b"\r\n"
)
conn.receive_data(request)
assert conn.next_event() == Request(
method="POST",
target="/",
headers=[("Host", "example.com"), ("Transfer-Encoding", "chunked")],
)
assert conn.next_event() is NEED_DATA
conn.receive_data(b"5\r\nhello\r\n")
assert conn.next_event() == Data(data=b"hello", chunk_start=True, chunk_end=True)
conn.receive_data(b"5\r\nhel")
assert conn.next_event() == Data(data=b"hel", chunk_start=True, chunk_end=False)
conn.receive_data(b"l")
assert conn.next_event() == Data(data=b"l", chunk_start=False, chunk_end=False)
conn.receive_data(b"o\r\n")
assert conn.next_event() == Data(data=b"o", chunk_start=False, chunk_end=True)
conn.receive_data(b"5\r\nhello")
assert conn.next_event() == Data(data=b"hello", chunk_start=True, chunk_end=True)
conn.receive_data(b"\r\n")
assert conn.next_event() == NEED_DATA
conn.receive_data(b"0\r\n\r\n")
assert conn.next_event() == EndOfMessage()
def test_client_talking_to_http10_server() -> None:
c = Connection(CLIENT)
c.send(Request(method="GET", target="/", headers=[("Host", "example.com")]))
c.send(EndOfMessage())
assert c.our_state is DONE
# No content-length, so Http10 framing for body
assert receive_and_get(c, b"HTTP/1.0 200 OK\r\n\r\n") == [
Response(status_code=200, headers=[], http_version="1.0", reason=b"OK") # type: ignore[arg-type]
]
assert c.our_state is MUST_CLOSE
assert receive_and_get(c, b"12345") == [Data(data=b"12345")]
assert receive_and_get(c, b"67890") == [Data(data=b"67890")]
assert receive_and_get(c, b"") == [EndOfMessage(), ConnectionClosed()]
assert c.their_state is CLOSED
def test_server_talking_to_http10_client() -> None:
c = Connection(SERVER)
# No content-length, so no body
# NB: no host header
assert receive_and_get(c, b"GET / HTTP/1.0\r\n\r\n") == [
Request(method="GET", target="/", headers=[], http_version="1.0"), # type: ignore[arg-type]
EndOfMessage(),
]
assert c.their_state is MUST_CLOSE
# We automatically Connection: close back at them
assert (
c.send(Response(status_code=200, headers=[])) # type: ignore[arg-type]
== b"HTTP/1.1 200 \r\nConnection: close\r\n\r\n"
)
assert c.send(Data(data=b"12345")) == b"12345"
assert c.send(EndOfMessage()) == b""
assert c.our_state is MUST_CLOSE
# Check that it works if they do send Content-Length
c = Connection(SERVER)
# NB: no host header
assert receive_and_get(c, b"POST / HTTP/1.0\r\nContent-Length: 10\r\n\r\n1") == [
Request(
method="POST",
target="/",
headers=[("Content-Length", "10")],
http_version="1.0",
),
Data(data=b"1"),
]
assert receive_and_get(c, b"234567890") == [Data(data=b"234567890"), EndOfMessage()]
assert c.their_state is MUST_CLOSE
assert receive_and_get(c, b"") == [ConnectionClosed()]
def test_automatic_transfer_encoding_in_response() -> None:
# Check that in responses, the user can specify either Transfer-Encoding:
# chunked or no framing at all, and in both cases we automatically select
# the right option depending on whether the peer speaks HTTP/1.0 or
# HTTP/1.1
for user_headers in [
[("Transfer-Encoding", "chunked")],
[],
# In fact, this even works if Content-Length is set,
# because if both are set then Transfer-Encoding wins
[("Transfer-Encoding", "chunked"), ("Content-Length", "100")],
]:
user_headers = cast(List[Tuple[str, str]], user_headers)
p = ConnectionPair()
p.send(
CLIENT,
[
Request(method="GET", target="/", headers=[("Host", "example.com")]),
EndOfMessage(),
],
)
# When speaking to HTTP/1.1 client, all of the above cases get
# normalized to Transfer-Encoding: chunked
p.send(
SERVER,
Response(status_code=200, headers=user_headers),
expect=Response(
status_code=200, headers=[("Transfer-Encoding", "chunked")]
),
)
# When speaking to HTTP/1.0 client, all of the above cases get
# normalized to no-framing-headers
c = Connection(SERVER)
receive_and_get(c, b"GET / HTTP/1.0\r\n\r\n")
assert (
c.send(Response(status_code=200, headers=user_headers))
== b"HTTP/1.1 200 \r\nConnection: close\r\n\r\n"
)
assert c.send(Data(data=b"12345")) == b"12345"
def test_automagic_connection_close_handling() -> None:
p = ConnectionPair()
# If the user explicitly sets Connection: close, then we notice and
# respect it
p.send(
CLIENT,
[
Request(
method="GET",
target="/",
headers=[("Host", "example.com"), ("Connection", "close")],
),
EndOfMessage(),
],
)
for conn in p.conns:
assert conn.states[CLIENT] is MUST_CLOSE
# And if the client sets it, the server automatically echoes it back
p.send(
SERVER,
# no header here...
[Response(status_code=204, headers=[]), EndOfMessage()], # type: ignore[arg-type]
# ...but oh look, it arrived anyway
expect=[
Response(status_code=204, headers=[("connection", "close")]),
EndOfMessage(),
],
)
for conn in p.conns:
assert conn.states == {CLIENT: MUST_CLOSE, SERVER: MUST_CLOSE}
def test_100_continue() -> None:
def setup() -> ConnectionPair:
p = ConnectionPair()
p.send(
CLIENT,
Request(
method="GET",
target="/",
headers=[
("Host", "example.com"),
("Content-Length", "100"),
("Expect", "100-continue"),
],
),
)
for conn in p.conns:
assert conn.client_is_waiting_for_100_continue
assert not p.conn[CLIENT].they_are_waiting_for_100_continue
assert p.conn[SERVER].they_are_waiting_for_100_continue
return p
# Disabled by 100 Continue
p = setup()
p.send(SERVER, InformationalResponse(status_code=100, headers=[])) # type: ignore[arg-type]
for conn in p.conns:
assert not conn.client_is_waiting_for_100_continue
assert not conn.they_are_waiting_for_100_continue
# Disabled by a real response
p = setup()
p.send(
SERVER, Response(status_code=200, headers=[("Transfer-Encoding", "chunked")])
)
for conn in p.conns:
assert not conn.client_is_waiting_for_100_continue
assert not conn.they_are_waiting_for_100_continue
# Disabled by the client going ahead and sending stuff anyway
p = setup()
p.send(CLIENT, Data(data=b"12345"))
for conn in p.conns:
assert not conn.client_is_waiting_for_100_continue
assert not conn.they_are_waiting_for_100_continue
def test_max_incomplete_event_size_countermeasure() -> None:
# Infinitely long headers are definitely not okay
c = Connection(SERVER)
c.receive_data(b"GET / HTTP/1.0\r\nEndless: ")
assert c.next_event() is NEED_DATA
with pytest.raises(RemoteProtocolError):
while True:
c.receive_data(b"a" * 1024)
c.next_event()
# Checking that the same header is accepted / rejected depending on the
# max_incomplete_event_size setting:
c = Connection(SERVER, max_incomplete_event_size=5000)
c.receive_data(b"GET / HTTP/1.0\r\nBig: ")
c.receive_data(b"a" * 4000)
c.receive_data(b"\r\n\r\n")
assert get_all_events(c) == [
Request(
method="GET", target="/", http_version="1.0", headers=[("big", "a" * 4000)]
),
EndOfMessage(),
]
c = Connection(SERVER, max_incomplete_event_size=4000)
c.receive_data(b"GET / HTTP/1.0\r\nBig: ")
c.receive_data(b"a" * 4000)
with pytest.raises(RemoteProtocolError):
c.next_event()
# Temporarily exceeding the size limit is fine, as long as its done with
# complete events:
c = Connection(SERVER, max_incomplete_event_size=5000)
c.receive_data(b"GET / HTTP/1.0\r\nContent-Length: 10000")
c.receive_data(b"\r\n\r\n" + b"a" * 10000)
assert get_all_events(c) == [
Request(
method="GET",
target="/",
http_version="1.0",
headers=[("Content-Length", "10000")],
),
Data(data=b"a" * 10000),
EndOfMessage(),
]
c = Connection(SERVER, max_incomplete_event_size=100)
# Two pipelined requests to create a way-too-big receive buffer... but
# it's fine because we're not checking
c.receive_data(
b"GET /1 HTTP/1.1\r\nHost: a\r\n\r\n"
b"GET /2 HTTP/1.1\r\nHost: b\r\n\r\n" + b"X" * 1000
)
assert get_all_events(c) == [
Request(method="GET", target="/1", headers=[("host", "a")]),
EndOfMessage(),
]
# Even more data comes in, still no problem
c.receive_data(b"X" * 1000)
# We can respond and reuse to get the second pipelined request
c.send(Response(status_code=200, headers=[])) # type: ignore[arg-type]
c.send(EndOfMessage())
c.start_next_cycle()
assert get_all_events(c) == [
Request(method="GET", target="/2", headers=[("host", "b")]),
EndOfMessage(),
]
# But once we unpause and try to read the next message, and find that it's
# incomplete and the buffer is *still* way too large, then *that's* a
# problem:
c.send(Response(status_code=200, headers=[])) # type: ignore[arg-type]
c.send(EndOfMessage())
c.start_next_cycle()
with pytest.raises(RemoteProtocolError):
c.next_event()
def test_reuse_simple() -> None:
p = ConnectionPair()
p.send(
CLIENT,
[Request(method="GET", target="/", headers=[("Host", "a")]), EndOfMessage()],
)
p.send(
SERVER,
[
Response(status_code=200, headers=[(b"transfer-encoding", b"chunked")]),
EndOfMessage(),
],
)
for conn in p.conns:
assert conn.states == {CLIENT: DONE, SERVER: DONE}
conn.start_next_cycle()
p.send(
CLIENT,
[
Request(method="DELETE", target="/foo", headers=[("Host", "a")]),
EndOfMessage(),
],
)
p.send(
SERVER,
[
Response(status_code=404, headers=[(b"transfer-encoding", b"chunked")]),
EndOfMessage(),
],
)
def test_pipelining() -> None:
# Client doesn't support pipelining, so we have to do this by hand
c = Connection(SERVER)
assert c.next_event() is NEED_DATA
# 3 requests all bunched up
c.receive_data(
b"GET /1 HTTP/1.1\r\nHost: a.com\r\nContent-Length: 5\r\n\r\n"
b"12345"
b"GET /2 HTTP/1.1\r\nHost: a.com\r\nContent-Length: 5\r\n\r\n"
b"67890"
b"GET /3 HTTP/1.1\r\nHost: a.com\r\n\r\n"
)
assert get_all_events(c) == [
Request(
method="GET",
target="/1",
headers=[("Host", "a.com"), ("Content-Length", "5")],
),
Data(data=b"12345"),
EndOfMessage(),
]
assert c.their_state is DONE
assert c.our_state is SEND_RESPONSE
assert c.next_event() is PAUSED
c.send(Response(status_code=200, headers=[])) # type: ignore[arg-type]
c.send(EndOfMessage())
assert c.their_state is DONE
assert c.our_state is DONE
c.start_next_cycle()
assert get_all_events(c) == [
Request(
method="GET",
target="/2",
headers=[("Host", "a.com"), ("Content-Length", "5")],
),
Data(data=b"67890"),
EndOfMessage(),
]
assert c.next_event() is PAUSED
c.send(Response(status_code=200, headers=[])) # type: ignore[arg-type]
c.send(EndOfMessage())
c.start_next_cycle()
assert get_all_events(c) == [
Request(method="GET", target="/3", headers=[("Host", "a.com")]),
EndOfMessage(),
]
# Doesn't pause this time, no trailing data
assert c.next_event() is NEED_DATA
c.send(Response(status_code=200, headers=[])) # type: ignore[arg-type]
c.send(EndOfMessage())
# Arrival of more data triggers pause
assert c.next_event() is NEED_DATA
c.receive_data(b"SADF")
assert c.next_event() is PAUSED
assert c.trailing_data == (b"SADF", False)
# If EOF arrives while paused, we don't see that either:
c.receive_data(b"")
assert c.trailing_data == (b"SADF", True)
assert c.next_event() is PAUSED
c.receive_data(b"")
assert c.next_event() is PAUSED
# Can't call receive_data with non-empty buf after closing it
with pytest.raises(RuntimeError):
c.receive_data(b"FDSA")
def test_protocol_switch() -> None:
for (req, deny, accept) in [
(
Request(
method="CONNECT",
target="example.com:443",
headers=[("Host", "foo"), ("Content-Length", "1")],
),
Response(status_code=404, headers=[(b"transfer-encoding", b"chunked")]),
Response(status_code=200, headers=[(b"transfer-encoding", b"chunked")]),
),
(
Request(
method="GET",
target="/",
headers=[("Host", "foo"), ("Content-Length", "1"), ("Upgrade", "a, b")],
),
Response(status_code=200, headers=[(b"transfer-encoding", b"chunked")]),
InformationalResponse(status_code=101, headers=[("Upgrade", "a")]),
),
(
Request(
method="CONNECT",
target="example.com:443",
headers=[("Host", "foo"), ("Content-Length", "1"), ("Upgrade", "a, b")],
),
Response(status_code=404, headers=[(b"transfer-encoding", b"chunked")]),
# Accept CONNECT, not upgrade
Response(status_code=200, headers=[(b"transfer-encoding", b"chunked")]),
),
(
Request(
method="CONNECT",
target="example.com:443",
headers=[("Host", "foo"), ("Content-Length", "1"), ("Upgrade", "a, b")],
),
Response(status_code=404, headers=[(b"transfer-encoding", b"chunked")]),
# Accept Upgrade, not CONNECT
InformationalResponse(status_code=101, headers=[("Upgrade", "b")]),
),
]:
def setup() -> ConnectionPair:
p = ConnectionPair()
p.send(CLIENT, req)
# No switch-related state change stuff yet; the client has to
# finish the request before that kicks in
for conn in p.conns:
assert conn.states[CLIENT] is SEND_BODY
p.send(CLIENT, [Data(data=b"1"), EndOfMessage()])
for conn in p.conns:
assert conn.states[CLIENT] is MIGHT_SWITCH_PROTOCOL
assert p.conn[SERVER].next_event() is PAUSED
return p
# Test deny case
p = setup()
p.send(SERVER, deny)
for conn in p.conns:
assert conn.states == {CLIENT: DONE, SERVER: SEND_BODY}
p.send(SERVER, EndOfMessage())
# Check that re-use is still allowed after a denial
for conn in p.conns:
conn.start_next_cycle()
# Test accept case
p = setup()
p.send(SERVER, accept)
for conn in p.conns:
assert conn.states == {CLIENT: SWITCHED_PROTOCOL, SERVER: SWITCHED_PROTOCOL}
conn.receive_data(b"123")
assert conn.next_event() is PAUSED
conn.receive_data(b"456")
assert conn.next_event() is PAUSED
assert conn.trailing_data == (b"123456", False)
# Pausing in might-switch, then recovery
# (weird artificial case where the trailing data actually is valid
# HTTP for some reason, because this makes it easier to test the state
# logic)
p = setup()
sc = p.conn[SERVER]
sc.receive_data(b"GET / HTTP/1.0\r\n\r\n")
assert sc.next_event() is PAUSED
assert sc.trailing_data == (b"GET / HTTP/1.0\r\n\r\n", False)
sc.send(deny)
assert sc.next_event() is PAUSED
sc.send(EndOfMessage())
sc.start_next_cycle()
assert get_all_events(sc) == [
Request(method="GET", target="/", headers=[], http_version="1.0"), # type: ignore[arg-type]
EndOfMessage(),
]
# When we're DONE, have no trailing data, and the connection gets
# closed, we report ConnectionClosed(). When we're in might-switch or
# switched, we don't.
p = setup()
sc = p.conn[SERVER]
sc.receive_data(b"")
assert sc.next_event() is PAUSED
assert sc.trailing_data == (b"", True)
p.send(SERVER, accept)
assert sc.next_event() is PAUSED
p = setup()
sc = p.conn[SERVER]
sc.receive_data(b"")
assert sc.next_event() is PAUSED
sc.send(deny)
assert sc.next_event() == ConnectionClosed()
# You can't send after switching protocols, or while waiting for a
# protocol switch
p = setup()
with pytest.raises(LocalProtocolError):
p.conn[CLIENT].send(
Request(method="GET", target="/", headers=[("Host", "a")])
)
p = setup()
p.send(SERVER, accept)
with pytest.raises(LocalProtocolError):
p.conn[SERVER].send(Data(data=b"123"))
def test_close_simple() -> None:
# Just immediately closing a new connection without anything having
# happened yet.
for (who_shot_first, who_shot_second) in [(CLIENT, SERVER), (SERVER, CLIENT)]:
def setup() -> ConnectionPair:
p = ConnectionPair()
p.send(who_shot_first, ConnectionClosed())
for conn in p.conns:
assert conn.states == {
who_shot_first: CLOSED,
who_shot_second: MUST_CLOSE,
}
return p
# You can keep putting b"" into a closed connection, and you keep
# getting ConnectionClosed() out:
p = setup()
assert p.conn[who_shot_second].next_event() == ConnectionClosed()
assert p.conn[who_shot_second].next_event() == ConnectionClosed()
p.conn[who_shot_second].receive_data(b"")
assert p.conn[who_shot_second].next_event() == ConnectionClosed()
# Second party can close...
p = setup()
p.send(who_shot_second, ConnectionClosed())
for conn in p.conns:
assert conn.our_state is CLOSED
assert conn.their_state is CLOSED
# But trying to receive new data on a closed connection is a
# RuntimeError (not ProtocolError, because the problem here isn't
# violation of HTTP, it's violation of physics)
p = setup()
with pytest.raises(RuntimeError):
p.conn[who_shot_second].receive_data(b"123")
# And receiving new data on a MUST_CLOSE connection is a ProtocolError
p = setup()
p.conn[who_shot_first].receive_data(b"GET")
with pytest.raises(RemoteProtocolError):
p.conn[who_shot_first].next_event()
def test_close_different_states() -> None:
req = [
Request(method="GET", target="/foo", headers=[("Host", "a")]),
EndOfMessage(),
]
resp = [
Response(status_code=200, headers=[(b"transfer-encoding", b"chunked")]),
EndOfMessage(),
]
# Client before request
p = ConnectionPair()
p.send(CLIENT, ConnectionClosed())
for conn in p.conns:
assert conn.states == {CLIENT: CLOSED, SERVER: MUST_CLOSE}
# Client after request
p = ConnectionPair()
p.send(CLIENT, req)
p.send(CLIENT, ConnectionClosed())
for conn in p.conns:
assert conn.states == {CLIENT: CLOSED, SERVER: SEND_RESPONSE}
# Server after request -> not allowed
p = ConnectionPair()
p.send(CLIENT, req)
with pytest.raises(LocalProtocolError):
p.conn[SERVER].send(ConnectionClosed())
p.conn[CLIENT].receive_data(b"")
with pytest.raises(RemoteProtocolError):
p.conn[CLIENT].next_event()
# Server after response
p = ConnectionPair()
p.send(CLIENT, req)
p.send(SERVER, resp)
p.send(SERVER, ConnectionClosed())
for conn in p.conns:
assert conn.states == {CLIENT: MUST_CLOSE, SERVER: CLOSED}
# Both after closing (ConnectionClosed() is idempotent)
p = ConnectionPair()
p.send(CLIENT, req)
p.send(SERVER, resp)
p.send(CLIENT, ConnectionClosed())
p.send(SERVER, ConnectionClosed())
p.send(CLIENT, ConnectionClosed())
p.send(SERVER, ConnectionClosed())
# In the middle of sending -> not allowed
p = ConnectionPair()
p.send(
CLIENT,
Request(
method="GET", target="/", headers=[("Host", "a"), ("Content-Length", "10")]
),
)
with pytest.raises(LocalProtocolError):
p.conn[CLIENT].send(ConnectionClosed())
p.conn[SERVER].receive_data(b"")
with pytest.raises(RemoteProtocolError):
p.conn[SERVER].next_event()
# Receive several requests and then client shuts down their side of the
# connection; we can respond to each
def test_pipelined_close() -> None:
c = Connection(SERVER)
# 2 requests then a close
c.receive_data(
b"GET /1 HTTP/1.1\r\nHost: a.com\r\nContent-Length: 5\r\n\r\n"
b"12345"
b"GET /2 HTTP/1.1\r\nHost: a.com\r\nContent-Length: 5\r\n\r\n"
b"67890"
)
c.receive_data(b"")
assert get_all_events(c) == [
Request(
method="GET",
target="/1",
headers=[("host", "a.com"), ("content-length", "5")],
),
Data(data=b"12345"),
EndOfMessage(),
]
assert c.states[CLIENT] is DONE
c.send(Response(status_code=200, headers=[])) # type: ignore[arg-type]
c.send(EndOfMessage())
assert c.states[SERVER] is DONE
c.start_next_cycle()
assert get_all_events(c) == [
Request(
method="GET",
target="/2",
headers=[("host", "a.com"), ("content-length", "5")],
),
Data(data=b"67890"),
EndOfMessage(),
ConnectionClosed(),
]
assert c.states == {CLIENT: CLOSED, SERVER: SEND_RESPONSE}
c.send(Response(status_code=200, headers=[])) # type: ignore[arg-type]
c.send(EndOfMessage())
assert c.states == {CLIENT: CLOSED, SERVER: MUST_CLOSE}
c.send(ConnectionClosed())
assert c.states == {CLIENT: CLOSED, SERVER: CLOSED}
def test_sendfile() -> None:
class SendfilePlaceholder:
def __len__(self) -> int:
return 10
placeholder = SendfilePlaceholder()
def setup(
header: Tuple[str, str], http_version: str
) -> Tuple[Connection, Optional[List[bytes]]]:
c = Connection(SERVER)
receive_and_get(
c, "GET / HTTP/{}\r\nHost: a\r\n\r\n".format(http_version).encode("ascii")
)
headers = []
if header:
headers.append(header)
c.send(Response(status_code=200, headers=headers))
return c, c.send_with_data_passthrough(Data(data=placeholder)) # type: ignore
c, data = setup(("Content-Length", "10"), "1.1")
assert data == [placeholder] # type: ignore
# Raises an error if the connection object doesn't think we've sent
# exactly 10 bytes
c.send(EndOfMessage())
_, data = setup(("Transfer-Encoding", "chunked"), "1.1")
assert placeholder in data # type: ignore
data[data.index(placeholder)] = b"x" * 10 # type: ignore
assert b"".join(data) == b"a\r\nxxxxxxxxxx\r\n" # type: ignore
c, data = setup(None, "1.0") # type: ignore
assert data == [placeholder] # type: ignore
assert c.our_state is SEND_BODY
def test_errors() -> None:
# After a receive error, you can't receive
for role in [CLIENT, SERVER]:
c = Connection(our_role=role)
c.receive_data(b"gibberish\r\n\r\n")
with pytest.raises(RemoteProtocolError):
c.next_event()
# Now any attempt to receive continues to raise
assert c.their_state is ERROR
assert c.our_state is not ERROR
print(c._cstate.states)
with pytest.raises(RemoteProtocolError):
c.next_event()
# But we can still yell at the client for sending us gibberish
if role is SERVER:
assert (
c.send(Response(status_code=400, headers=[])) # type: ignore[arg-type]
== b"HTTP/1.1 400 \r\nConnection: close\r\n\r\n"
)
# After an error sending, you can no longer send
# (This is especially important for things like content-length errors,
# where there's complex internal state being modified)
def conn(role: Type[Sentinel]) -> Connection:
c = Connection(our_role=role)
if role is SERVER:
# Put it into the state where it *could* send a response...
receive_and_get(c, b"GET / HTTP/1.0\r\n\r\n")
assert c.our_state is SEND_RESPONSE
return c
for role in [CLIENT, SERVER]:
if role is CLIENT:
# This HTTP/1.0 request won't be detected as bad until after we go
# through the state machine and hit the writing code
good = Request(method="GET", target="/", headers=[("Host", "example.com")])
bad = Request(
method="GET",
target="/",
headers=[("Host", "example.com")],
http_version="1.0",
)
elif role is SERVER:
good = Response(status_code=200, headers=[]) # type: ignore[arg-type,assignment]
bad = Response(status_code=200, headers=[], http_version="1.0") # type: ignore[arg-type,assignment]
# Make sure 'good' actually is good
c = conn(role)
c.send(good)
assert c.our_state is not ERROR
# Do that again, but this time sending 'bad' first
c = conn(role)
with pytest.raises(LocalProtocolError):
c.send(bad)
assert c.our_state is ERROR
assert c.their_state is not ERROR
# Now 'good' is not so good
with pytest.raises(LocalProtocolError):
c.send(good)
# And check send_failed() too
c = conn(role)
c.send_failed()
assert c.our_state is ERROR
assert c.their_state is not ERROR
# This is idempotent
c.send_failed()
assert c.our_state is ERROR
assert c.their_state is not ERROR
def test_idle_receive_nothing() -> None:
# At one point this incorrectly raised an error
for role in [CLIENT, SERVER]:
c = Connection(role)
assert c.next_event() is NEED_DATA
def test_connection_drop() -> None:
c = Connection(SERVER)
c.receive_data(b"GET /")
assert c.next_event() is NEED_DATA
c.receive_data(b"")
with pytest.raises(RemoteProtocolError):
c.next_event()
def test_408_request_timeout() -> None:
# Should be able to send this spontaneously as a server without seeing
# anything from client
p = ConnectionPair()
p.send(SERVER, Response(status_code=408, headers=[(b"connection", b"close")]))
# This used to raise IndexError
def test_empty_request() -> None:
c = Connection(SERVER)
c.receive_data(b"\r\n")
with pytest.raises(RemoteProtocolError):
c.next_event()
# This used to raise IndexError
def test_empty_response() -> None:
c = Connection(CLIENT)
c.send(Request(method="GET", target="/", headers=[("Host", "a")]))
c.receive_data(b"\r\n")
with pytest.raises(RemoteProtocolError):
c.next_event()
@pytest.mark.parametrize(
"data",
[
b"\x00",
b"\x20",
b"\x16\x03\x01\x00\xa5", # Typical start of a TLS Client Hello
],
)
def test_early_detection_of_invalid_request(data: bytes) -> None:
c = Connection(SERVER)
# Early detection should occur before even receiving a `\r\n`
c.receive_data(data)
with pytest.raises(RemoteProtocolError):
c.next_event()
@pytest.mark.parametrize(
"data",
[
b"\x00",
b"\x20",
b"\x16\x03\x03\x00\x31", # Typical start of a TLS Server Hello
],
)
def test_early_detection_of_invalid_response(data: bytes) -> None:
c = Connection(CLIENT)
# Early detection should occur before even receiving a `\r\n`
c.receive_data(data)
with pytest.raises(RemoteProtocolError):
c.next_event()
# This used to give different headers for HEAD and GET.
# The correct way to handle HEAD is to put whatever headers we *would* have
# put if it were a GET -- even though we know that for HEAD, those headers
# will be ignored.
def test_HEAD_framing_headers() -> None:
def setup(method: bytes, http_version: bytes) -> Connection:
c = Connection(SERVER)
c.receive_data(
method + b" / HTTP/" + http_version + b"\r\n" + b"Host: example.com\r\n\r\n"
)
assert type(c.next_event()) is Request
assert type(c.next_event()) is EndOfMessage
return c
for method in [b"GET", b"HEAD"]:
# No Content-Length, HTTP/1.1 peer, should use chunked
c = setup(method, b"1.1")
assert (
c.send(Response(status_code=200, headers=[])) == b"HTTP/1.1 200 \r\n" # type: ignore[arg-type]
b"Transfer-Encoding: chunked\r\n\r\n"
)
# No Content-Length, HTTP/1.0 peer, frame with connection: close
c = setup(method, b"1.0")
assert (
c.send(Response(status_code=200, headers=[])) == b"HTTP/1.1 200 \r\n" # type: ignore[arg-type]
b"Connection: close\r\n\r\n"
)
# Content-Length + Transfer-Encoding, TE wins
c = setup(method, b"1.1")
assert (
c.send(
Response(
status_code=200,
headers=[
("Content-Length", "100"),
("Transfer-Encoding", "chunked"),
],
)
)
== b"HTTP/1.1 200 \r\n"
b"Transfer-Encoding: chunked\r\n\r\n"
)
def test_special_exceptions_for_lost_connection_in_message_body() -> None:
c = Connection(SERVER)
c.receive_data(
b"POST / HTTP/1.1\r\n" b"Host: example.com\r\n" b"Content-Length: 100\r\n\r\n"
)
assert type(c.next_event()) is Request
assert c.next_event() is NEED_DATA
c.receive_data(b"12345")
assert c.next_event() == Data(data=b"12345")
c.receive_data(b"")
with pytest.raises(RemoteProtocolError) as excinfo:
c.next_event()
assert "received 5 bytes" in str(excinfo.value)
assert "expected 100" in str(excinfo.value)
c = Connection(SERVER)
c.receive_data(
b"POST / HTTP/1.1\r\n"
b"Host: example.com\r\n"
b"Transfer-Encoding: chunked\r\n\r\n"
)
assert type(c.next_event()) is Request
assert c.next_event() is NEED_DATA
c.receive_data(b"8\r\n012345")
assert c.next_event().data == b"012345" # type: ignore
c.receive_data(b"")
with pytest.raises(RemoteProtocolError) as excinfo:
c.next_event()
assert "incomplete chunked read" in str(excinfo.value)