%% Copyright (c) 2014-2018, Loïc Hoguin %% %% Permission to use, copy, modify, and/or distribute this software for any %% purpose with or without fee is hereby granted, provided that the above %% copyright notice and this permission notice appear in all copies. %% %% THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES %% WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF %% MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR %% ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES %% WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN %% ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF %% OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. -module(gun_http). -export([check_options/1]). -export([name/0]). -export([init/4]). -export([handle/2]). -export([close/1]). -export([keepalive/1]). -export([request/8]). -export([request/9]). -export([data/5]). -export([connect/5]). -export([cancel/3]). -export([down/1]). -export([ws_upgrade/7]). -type io() :: head | {body, non_neg_integer()} | body_close | body_chunked | body_trailer. %% @todo Make that a record. -type connect_info() :: {connect, reference(), gun:connect_destination()}. %% @todo Make that a record. -type websocket_info() :: {websocket, reference(), binary(), [binary()], gun:ws_opts()}. %% key, extensions, options -record(stream, { ref :: reference() | connect_info() | websocket_info(), reply_to :: pid(), method :: binary(), is_alive :: boolean(), handler_state :: undefined | gun_content_handler:state() }). -record(http_state, { owner :: pid(), socket :: inet:socket() | ssl:sslsocket(), transport :: module(), version = 'HTTP/1.1' :: cow_http:version(), content_handlers :: gun_content_handler:opt(), connection = keepalive :: keepalive | close, buffer = <<>> :: binary(), streams = [] :: [#stream{}], in = head :: io(), in_state = {0, 0} :: {non_neg_integer(), non_neg_integer()}, out = head :: io(), transform_header_name :: fun((binary()) -> binary()) }). check_options(Opts) -> do_check_options(maps:to_list(Opts)). do_check_options([]) -> ok; do_check_options([Opt={content_handlers, Handlers}|Opts]) -> case gun_content_handler:check_option(Handlers) of ok -> do_check_options(Opts); error -> {error, {options, {http, Opt}}} end; do_check_options([{keepalive, infinity}|Opts]) -> do_check_options(Opts); do_check_options([{keepalive, K}|Opts]) when is_integer(K), K > 0 -> do_check_options(Opts); do_check_options([{transform_header_name, F}|Opts]) when is_function(F) -> do_check_options(Opts); do_check_options([{version, V}|Opts]) when V =:= 'HTTP/1.1'; V =:= 'HTTP/1.0' -> do_check_options(Opts); do_check_options([Opt|_]) -> {error, {options, {http, Opt}}}. name() -> http. init(Owner, Socket, Transport, Opts) -> Version = maps:get(version, Opts, 'HTTP/1.1'), Handlers = maps:get(content_handlers, Opts, [gun_data_h]), TransformHeaderName = maps:get(transform_header_name, Opts, fun (N) -> N end), #http_state{owner=Owner, socket=Socket, transport=Transport, version=Version, content_handlers=Handlers, transform_header_name=TransformHeaderName}. %% Stop looping when we got no more data. handle(<<>>, State) -> {state, State}; %% Close when server responds and we don't have any open streams. handle(_, #http_state{streams=[]}) -> close; %% Wait for the full response headers before trying to parse them. handle(Data, State=#http_state{in=head, buffer=Buffer}) -> Data2 = << Buffer/binary, Data/binary >>, case binary:match(Data2, <<"\r\n\r\n">>) of nomatch -> {state, State#http_state{buffer=Data2}}; {_, _} -> handle_head(Data2, State#http_state{buffer= <<>>}) end; %% Everything sent to the socket until it closes is part of the response body. handle(Data, State=#http_state{in=body_close}) -> {state, send_data_if_alive(Data, State, nofin)}; %% Chunked transfer-encoding may contain both data and trailers. handle(Data, State=#http_state{in=body_chunked, in_state=InState, buffer=Buffer, connection=Conn}) -> Buffer2 = << Buffer/binary, Data/binary >>, case cow_http_te:stream_chunked(Buffer2, InState) of more -> {state, State#http_state{buffer=Buffer2}}; {more, Data2, InState2} -> {state, send_data_if_alive(Data2, State#http_state{buffer= <<>>, in_state=InState2}, nofin)}; {more, Data2, Length, InState2} when is_integer(Length) -> %% @todo See if we can recv faster than one message at a time. {state, send_data_if_alive(Data2, State#http_state{buffer= <<>>, in_state=InState2}, nofin)}; {more, Data2, Rest, InState2} -> %% @todo See if we can recv faster than one message at a time. {state, send_data_if_alive(Data2, State#http_state{buffer=Rest, in_state=InState2}, nofin)}; {done, HasTrailers, Rest} -> IsFin = case HasTrailers of trailers -> nofin; no_trailers -> fin end, %% I suppose it doesn't hurt to append an empty binary. State1 = send_data_if_alive(<<>>, State, IsFin), case {HasTrailers, Conn} of {trailers, _} -> handle(Rest, State1#http_state{buffer = <<>>, in=body_trailer}); {no_trailers, keepalive} -> handle(Rest, end_stream(State1#http_state{buffer= <<>>})); {no_trailers, close} -> close end; {done, Data2, HasTrailers, Rest} -> IsFin = case HasTrailers of trailers -> nofin; no_trailers -> fin end, State1 = send_data_if_alive(Data2, State, IsFin), case {HasTrailers, Conn} of {trailers, _} -> handle(Rest, State1#http_state{buffer = <<>>, in=body_trailer}); {no_trailers, keepalive} -> handle(Rest, end_stream(State1#http_state{buffer= <<>>})); {no_trailers, close} -> close end end; handle(Data, State=#http_state{in=body_trailer, buffer=Buffer, connection=Conn, streams=[#stream{ref=StreamRef, reply_to=ReplyTo}|_]}) -> Data2 = << Buffer/binary, Data/binary >>, case binary:match(Data2, <<"\r\n\r\n">>) of nomatch -> {state, State#http_state{buffer=Data2}}; {_, _} -> {Trailers, Rest} = cow_http:parse_headers(Data2), %% @todo We probably want to pass this to gun_content_handler? ReplyTo ! {gun_trailers, self(), stream_ref(StreamRef), Trailers}, case Conn of keepalive -> handle(Rest, end_stream(State#http_state{buffer= <<>>})); close -> close end end; %% We know the length of the rest of the body. handle(Data, State=#http_state{in={body, Length}, connection=Conn}) -> DataSize = byte_size(Data), if %% More data coming. DataSize < Length -> {state, send_data_if_alive(Data, State#http_state{in={body, Length - DataSize}}, nofin)}; %% Stream finished, no rest. DataSize =:= Length -> State1 = send_data_if_alive(Data, State, fin), case Conn of keepalive -> {state, end_stream(State1)}; close -> close end; %% Stream finished, rest. true -> << Body:Length/binary, Rest/bits >> = Data, State1 = send_data_if_alive(Body, State, fin), case Conn of keepalive -> handle(Rest, end_stream(State1)); close -> close end end. handle_head(Data, State=#http_state{socket=Socket, version=ClientVersion, content_handlers=Handlers0, connection=Conn, streams=[Stream=#stream{ref=StreamRef, reply_to=ReplyTo, method=Method, is_alive=IsAlive}|Tail]}) -> {Version, Status, _, Rest} = cow_http:parse_status_line(Data), {Headers, Rest2} = cow_http:parse_headers(Rest), case {Status, StreamRef} of {101, {websocket, RealStreamRef, WsKey, WsExtensions, WsOpts}} -> ws_handshake(Rest2, State, RealStreamRef, Headers, WsKey, WsExtensions, WsOpts); {_, {connect, RealStreamRef, Destination}} when Status >= 200, Status < 300 -> case IsAlive of false -> ok; true -> ReplyTo ! {gun_response, self(), RealStreamRef, fin, Status, Headers}, ok end, %% We expect there to be no additional data after the CONNECT response. <<>> = Rest2, State2 = end_stream(State#http_state{streams=[Stream|Tail]}), NewHost = maps:get(host, Destination), NewPort = maps:get(port, Destination), case Destination of #{transport := tls} -> TLSOpts = maps:get(tls_opts, Destination, []), TLSTimeout = maps:get(tls_handshake_timeout, Destination, infinity), case gun_tls:connect(Socket, TLSOpts, TLSTimeout) of {ok, TLSSocket} -> case ssl:negotiated_protocol(TLSSocket) of {ok, <<"h2">>} -> [{origin, <<"https">>, NewHost, NewPort, connect}, {switch_transport, gun_tls, TLSSocket}, {switch_protocol, gun_http2, State2}]; _ -> [{state, State2#http_state{socket=TLSSocket, transport=gun_tls}}, {origin, <<"https">>, NewHost, NewPort, connect}, {switch_transport, gun_tls, TLSSocket}] end; Error -> Error end; _ -> case maps:get(protocols, Destination, [http]) of [http] -> [{state, State2}, {origin, <<"http">>, NewHost, NewPort, connect}]; [http2] -> [{origin, <<"http">>, NewHost, NewPort, connect}, {switch_protocol, gun_http2, State2}] end end; {_, _} when Status >= 100, Status =< 199 -> ReplyTo ! {gun_inform, self(), stream_ref(StreamRef), Status, Headers}, handle(Rest2, State); _ -> In = response_io_from_headers(Method, Version, Status, Headers), IsFin = case In of head -> fin; _ -> nofin end, Handlers = case IsAlive of false -> undefined; true -> ReplyTo ! {gun_response, self(), stream_ref(StreamRef), IsFin, Status, Headers}, case IsFin of fin -> undefined; nofin -> gun_content_handler:init(ReplyTo, StreamRef, Status, Headers, Handlers0) end end, Conn2 = if Conn =:= close -> close; Version =:= 'HTTP/1.0' -> close; ClientVersion =:= 'HTTP/1.0' -> close; true -> conn_from_headers(Version, Headers) end, %% We always reset in_state even if not chunked. if IsFin =:= fin, Conn2 =:= close -> close; IsFin =:= fin -> handle(Rest2, end_stream(State#http_state{in=In, in_state={0, 0}, connection=Conn2, streams=[Stream#stream{handler_state=Handlers}|Tail]})); true -> handle(Rest2, State#http_state{in=In, in_state={0, 0}, connection=Conn2, streams=[Stream#stream{handler_state=Handlers}|Tail]}) end end. stream_ref({connect, StreamRef, _}) -> StreamRef; stream_ref({websocket, StreamRef, _, _, _}) -> StreamRef; stream_ref(StreamRef) -> StreamRef. send_data_if_alive(<<>>, State, nofin) -> State; %% @todo What if we receive data when the HEAD method was used? send_data_if_alive(Data, State=#http_state{streams=[Stream=#stream{ is_alive=true, handler_state=Handlers0}|Tail]}, IsFin) -> Handlers = gun_content_handler:handle(IsFin, Data, Handlers0), State#http_state{streams=[Stream#stream{handler_state=Handlers}|Tail]}; send_data_if_alive(_, State, _) -> State. close(State=#http_state{in=body_close, streams=[_|Tail]}) -> _ = send_data_if_alive(<<>>, State, fin), close_streams(Tail); close(#http_state{streams=Streams}) -> close_streams(Streams). close_streams([]) -> ok; close_streams([#stream{is_alive=false}|Tail]) -> close_streams(Tail); close_streams([#stream{ref=StreamRef, reply_to=ReplyTo}|Tail]) -> ReplyTo ! {gun_error, self(), StreamRef, {closed, "The connection was lost."}}, close_streams(Tail). %% We don't send a keep-alive when a CONNECT request was initiated. keepalive(State=#http_state{streams=[#stream{ref={connect, _, _}}]}) -> State; %% We can only keep-alive by sending an empty line in-between streams. keepalive(State=#http_state{socket=Socket, transport=Transport, out=head}) -> Transport:send(Socket, <<"\r\n">>), State; keepalive(State) -> State. request(State=#http_state{socket=Socket, transport=Transport, version=Version, out=head}, StreamRef, ReplyTo, Method, Host, Port, Path, Headers) -> Host2 = case Host of {local, _SocketPath} -> <<>>; Tuple when is_tuple(Tuple) -> inet:ntoa(Tuple); _ -> Host end, Headers2 = lists:keydelete(<<"transfer-encoding">>, 1, Headers), Headers3 = case lists:keymember(<<"host">>, 1, Headers) of false -> [{<<"host">>, [Host2, $:, integer_to_binary(Port)]}|Headers2]; true -> Headers2 end, %% We use Headers2 because this is the smallest list. Conn = conn_from_headers(Version, Headers2), Out = request_io_from_headers(Headers2), Headers4 = case Out of body_chunked when Version =:= 'HTTP/1.0' -> Headers3; body_chunked -> [{<<"transfer-encoding">>, <<"chunked">>}|Headers3]; _ -> Headers3 end, Headers5 = transform_header_names(State, Headers4), Transport:send(Socket, cow_http:request(Method, Path, Version, Headers5)), new_stream(State#http_state{connection=Conn, out=Out}, StreamRef, ReplyTo, Method). request(State=#http_state{socket=Socket, transport=Transport, version=Version, out=head}, StreamRef, ReplyTo, Method, Host, Port, Path, Headers, Body) -> Host2 = case Host of {local, _SocketPath} -> <<>>; Tuple when is_tuple(Tuple) -> inet:ntoa(Tuple); _ -> Host end, Headers2 = lists:keydelete(<<"content-length">>, 1, lists:keydelete(<<"transfer-encoding">>, 1, Headers)), Headers3 = case lists:keymember(<<"host">>, 1, Headers) of false -> [{<<"host">>, [Host2, $:, integer_to_binary(Port)]}|Headers2]; true -> Headers2 end, Headers4 = transform_header_names(State, Headers3), %% We use Headers2 because this is the smallest list. Conn = conn_from_headers(Version, Headers2), Transport:send(Socket, [ cow_http:request(Method, Path, Version, [ {<<"content-length">>, integer_to_binary(iolist_size(Body))} |Headers4]), Body]), new_stream(State#http_state{connection=Conn}, StreamRef, ReplyTo, Method). transform_header_names(#http_state{transform_header_name = Fun}, Headers) -> lists:keymap(Fun, 1, Headers). %% We are expecting a new stream. data(State=#http_state{out=head}, StreamRef, ReplyTo, _, _) -> error_stream_closed(State, StreamRef, ReplyTo); %% There are no active streams. data(State=#http_state{streams=[]}, StreamRef, ReplyTo, _, _) -> error_stream_not_found(State, StreamRef, ReplyTo); %% We can only send data on the last created stream. data(State=#http_state{socket=Socket, transport=Transport, version=Version, out=Out, streams=Streams}, StreamRef, ReplyTo, IsFin, Data) -> case lists:last(Streams) of #stream{ref=StreamRef, is_alive=true} -> DataLength = iolist_size(Data), case Out of body_chunked when Version =:= 'HTTP/1.1', IsFin =:= fin -> case Data of <<>> -> Transport:send(Socket, cow_http_te:last_chunk()); _ -> Transport:send(Socket, [ cow_http_te:chunk(Data), cow_http_te:last_chunk() ]) end, State#http_state{out=head}; body_chunked when Version =:= 'HTTP/1.1' -> Transport:send(Socket, cow_http_te:chunk(Data)), State; {body, Length} when DataLength =< Length -> Transport:send(Socket, Data), Length2 = Length - DataLength, if Length2 =:= 0, IsFin =:= fin -> State#http_state{out=head}; Length2 > 0, IsFin =:= nofin -> State#http_state{out={body, Length2}} end; body_chunked -> %% HTTP/1.0 Transport:send(Socket, Data), State end; _ -> error_stream_not_found(State, StreamRef, ReplyTo) end. connect(State=#http_state{streams=Streams}, StreamRef, ReplyTo, _, _) when Streams =/= [] -> ReplyTo ! {gun_error, self(), StreamRef, {badstate, "CONNECT can only be used with HTTP/1.1 when no other streams are active."}}, State; connect(State=#http_state{socket=Socket, transport=Transport, version=Version}, StreamRef, ReplyTo, Destination=#{host := Host0}, Headers0) -> Host = case Host0 of Tuple when is_tuple(Tuple) -> inet:ntoa(Tuple); _ -> Host0 end, Port = maps:get(port, Destination, 1080), Authority = [Host, $:, integer_to_binary(Port)], Headers1 = lists:keydelete(<<"content-length">>, 1, lists:keydelete(<<"transfer-encoding">>, 1, Headers0)), Headers2 = case lists:keymember(<<"host">>, 1, Headers1) of false -> [{<<"host">>, Authority}|Headers1]; true -> Headers1 end, HasProxyAuthorization = lists:keymember(<<"proxy-authorization">>, 1, Headers2), Headers3 = case {HasProxyAuthorization, Destination} of {false, #{username := UserID, password := Password}} -> [{<<"proxy-authorization">>, [ <<"Basic ">>, base64:encode(iolist_to_binary([UserID, $:, Password]))]} |Headers2]; _ -> Headers2 end, Headers = transform_header_names(State, Headers3), Transport:send(Socket, [ cow_http:request(<<"CONNECT">>, Authority, Version, Headers) ]), new_stream(State, {connect, StreamRef, Destination}, ReplyTo, <<"CONNECT">>). %% We can't cancel anything, we can just stop forwarding messages to the owner. cancel(State, StreamRef, ReplyTo) -> case is_stream(State, StreamRef) of true -> cancel_stream(State, StreamRef); false -> error_stream_not_found(State, StreamRef, ReplyTo) end. %% HTTP does not provide any way to figure out what streams are unprocessed. down(#http_state{streams=Streams}) -> KilledStreams = [case Ref of {connect, Ref2, _} -> Ref2; {websocket, Ref2, _, _, _} -> Ref2; _ -> Ref end || #stream{ref=Ref} <- Streams], {KilledStreams, []}. error_stream_closed(State, StreamRef, ReplyTo) -> ReplyTo ! {gun_error, self(), StreamRef, {badstate, "The stream has already been closed."}}, State. error_stream_not_found(State, StreamRef, ReplyTo) -> ReplyTo ! {gun_error, self(), StreamRef, {badstate, "The stream cannot be found."}}, State. %% Headers information retrieval. conn_from_headers(Version, Headers) -> case lists:keyfind(<<"connection">>, 1, Headers) of false when Version =:= 'HTTP/1.0' -> close; false -> keepalive; {_, ConnHd} -> ConnList = cow_http_hd:parse_connection(ConnHd), case lists:member(<<"keep-alive">>, ConnList) of true -> keepalive; false -> close end end. request_io_from_headers(Headers) -> case lists:keyfind(<<"content-length">>, 1, Headers) of {_, <<"0">>} -> head; {_, Length} -> {body, cow_http_hd:parse_content_length(Length)}; _ -> case lists:keymember(<<"content-type">>, 1, Headers) of true -> body_chunked; false -> head end end. response_io_from_headers(<<"HEAD">>, _, _, _) -> head; response_io_from_headers(_, _, Status, _) when (Status =:= 204) or (Status =:= 304) -> head; response_io_from_headers(_, Version, _Status, Headers) -> case lists:keyfind(<<"transfer-encoding">>, 1, Headers) of {_, TE} when Version =:= 'HTTP/1.1' -> case cow_http_hd:parse_transfer_encoding(TE) of [<<"chunked">>] -> body_chunked; [<<"identity">>] -> body_close end; _ -> case lists:keyfind(<<"content-length">>, 1, Headers) of {_, <<"0">>} -> head; {_, Length} -> {body, cow_http_hd:parse_content_length(Length)}; _ -> body_close end end. %% Streams. new_stream(State=#http_state{streams=Streams}, StreamRef, ReplyTo, Method) -> State#http_state{streams=Streams ++ [#stream{ref=StreamRef, reply_to=ReplyTo, method=iolist_to_binary(Method), is_alive=true}]}. is_stream(#http_state{streams=Streams}, StreamRef) -> lists:keymember(StreamRef, #stream.ref, Streams). cancel_stream(State=#http_state{streams=Streams}, StreamRef) -> Streams2 = [case Ref of StreamRef -> Tuple#stream{is_alive=false}; _ -> Tuple end || Tuple = #stream{ref=Ref} <- Streams], State#http_state{streams=Streams2}. end_stream(State=#http_state{streams=[_|Tail]}) -> State#http_state{in=head, streams=Tail}. %% Websocket upgrade. %% Ensure version is 1.1. ws_upgrade(#http_state{version='HTTP/1.0'}, _, _, _, _, _, _) -> error; %% @todo ws_upgrade(State=#http_state{socket=Socket, transport=Transport, owner=Owner, out=head}, StreamRef, Host, Port, Path, Headers0, WsOpts) -> {Headers1, GunExtensions} = case maps:get(compress, WsOpts, false) of true -> {[{<<"sec-websocket-extensions">>, <<"permessage-deflate; client_max_window_bits; server_max_window_bits=15">>} |Headers0], [<<"permessage-deflate">>]}; false -> {Headers0, []} end, Headers2 = case maps:get(protocols, WsOpts, []) of [] -> Headers1; ProtoOpt -> << _, _, Proto/bits >> = iolist_to_binary([[<<", ">>, P] || {P, _} <- ProtoOpt]), [{<<"sec-websocket-protocol">>, Proto}|Headers1] end, Key = cow_ws:key(), Headers3 = [ {<<"connection">>, <<"upgrade">>}, {<<"upgrade">>, <<"websocket">>}, {<<"sec-websocket-version">>, <<"13">>}, {<<"sec-websocket-key">>, Key} |Headers2 ], IsSecure = Transport =:= gun_tls, Headers = case lists:keymember(<<"host">>, 1, Headers0) of true -> Headers3; false when Port =:= 80, not IsSecure -> [{<<"host">>, Host}|Headers3]; false when Port =:= 443, IsSecure -> [{<<"host">>, Host}|Headers3]; false -> [{<<"host">>, [Host, $:, integer_to_binary(Port)]}|Headers3] end, Transport:send(Socket, cow_http:request(<<"GET">>, Path, 'HTTP/1.1', Headers)), new_stream(State#http_state{connection=keepalive, out=head}, {websocket, StreamRef, Key, GunExtensions, WsOpts}, Owner, <<"GET">>). ws_handshake(Buffer, State, StreamRef, Headers, Key, GunExtensions, Opts) -> %% @todo check upgrade, connection case lists:keyfind(<<"sec-websocket-accept">>, 1, Headers) of false -> close; {_, Accept} -> case cow_ws:encode_key(Key) of Accept -> ws_handshake_extensions(Buffer, State, StreamRef, Headers, GunExtensions, Opts); _ -> close end end. ws_handshake_extensions(Buffer, State, StreamRef, Headers, GunExtensions, Opts) -> case lists:keyfind(<<"sec-websocket-extensions">>, 1, Headers) of false -> ws_handshake_protocols(Buffer, State, StreamRef, Headers, #{}, Opts); {_, ExtHd} -> case ws_validate_extensions(cow_http_hd:parse_sec_websocket_extensions(ExtHd), GunExtensions, #{}, Opts) of close -> close; Extensions -> ws_handshake_protocols(Buffer, State, StreamRef, Headers, Extensions, Opts) end end. ws_validate_extensions([], _, Acc, _) -> Acc; ws_validate_extensions([{Name = <<"permessage-deflate">>, Params}|Tail], GunExts, Acc, Opts) -> case lists:member(Name, GunExts) of true -> case cow_ws:validate_permessage_deflate(Params, Acc, Opts) of {ok, Acc2} -> ws_validate_extensions(Tail, GunExts, Acc2, Opts); error -> close end; %% Fail the connection if extension was not requested. false -> close end; %% Fail the connection on unknown extension. ws_validate_extensions(_, _, _, _) -> close. %% @todo Validate protocols. ws_handshake_protocols(Buffer, State, StreamRef, Headers, Extensions, Opts) -> case lists:keyfind(<<"sec-websocket-protocol">>, 1, Headers) of false -> ws_handshake_end(Buffer, State, StreamRef, Headers, Extensions, maps:get(default_protocol, Opts, gun_ws_h), Opts); {_, Proto} -> ProtoOpt = maps:get(protocols, Opts, []), case lists:keyfind(Proto, 1, ProtoOpt) of {_, Handler} -> ws_handshake_end(Buffer, State, StreamRef, Headers, Extensions, Handler, Opts); false -> close end end. ws_handshake_end(Buffer, #http_state{owner=Owner, socket=Socket, transport=Transport}, StreamRef, Headers, Extensions, Handler, Opts) -> %% Send ourselves the remaining buffer, if any. _ = case Buffer of <<>> -> ok; _ -> {OK, _, _} = Transport:messages(), self() ! {OK, Socket, Buffer} end, gun_ws:init(Owner, Socket, Transport, StreamRef, Headers, Extensions, Handler, Opts).