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%% Copyright (c) 2016, Loïc Hoguin <[email protected]>
%%
%% 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(cowboy_http).

-export([init/6]).

-export([system_continue/3]).
-export([system_terminate/4]).
-export([system_code_change/4]).

%% @todo map
-type opts() :: [{compress, boolean()}
	| {env, cowboy_middleware:env()}
	| {max_empty_lines, non_neg_integer()}
	| {max_header_name_length, non_neg_integer()}
	| {max_header_value_length, non_neg_integer()}
	| {max_headers, non_neg_integer()}
	| {max_keepalive, non_neg_integer()}
	| {max_request_line_length, non_neg_integer()}
	| {middlewares, [module()]}
	| {onresponse, cowboy:onresponse_fun()}
	| {timeout, timeout()}].
-export_type([opts/0]).

-record(ps_request_line, {
	empty_lines = 0 :: non_neg_integer()
}).

-record(ps_header, {
	method = undefined :: binary(),
	path = undefined :: binary(),
	qs = undefined :: binary(),
	version = undefined :: cowboy:http_version(),
	headers = undefined :: map() | undefined, %% @todo better type than map()
	name = undefined :: binary()
}).

%% @todo We need a state where we wait for the stream process to ask for the body.
%% OR DO WE

%% In HTTP/2 we start receiving data before the body asks for it, even if optionally
%% (and by default), so we need to be able to do the same for HTTP/1.1 too. This means
%% that when we receive data (up to a certain limit, we read from the socket and decode.
%% When we reach a limit, we stop reading from the socket momentarily until the stream
%% process asks for more or the stream ends.

%% This means that we need to keep a buffer in the stream handler (until the stream
%% process asks for it). And that we need the body state to indicate how much we have
%% left to read (and stop/start reading from the socket depending on value).

-record(ps_body, {
	%% @todo flow
	transfer_decode_fun :: fun(), %% @todo better type
	transfer_decode_state :: any() %% @todo better type
}).

-record(stream, {
	%% Stream identifier.
	id = undefined :: cowboy_stream:streamid(),

	%% Stream handler state.
	state = undefined :: any(),

	%% Client HTTP version for this stream.
	version = undefined :: cowboy:http_version(),

	%% Commands queued.
	queue = [] :: [] %% @todo better type
}).

-type stream() :: #stream{}.

-record(state, {
	parent :: pid(),
	ref :: ranch:ref(),
	socket :: inet:socket(),
	transport :: module(),
	opts = #{} :: map(),
	handler :: module(),

	timer = undefined :: undefined | reference(),

	%% Identifier for the stream currently being read (or waiting to be received).
	in_streamid = 1 :: pos_integer(),

	%% Parsing state for the current stream or stream-to-be.
	in_state = #ps_request_line{} :: #ps_request_line{} | #ps_header{} | #ps_body{},

	%% Identifier for the stream currently being written.
	%% Note that out_streamid =< in_streamid.
	out_streamid = 1 :: pos_integer(),

	%% Whether we finished writing data for the current stream.
	out_state = wait :: wait | headers | chunked,

	%% The connection will be closed after this stream.
	last_streamid = undefined :: pos_integer(),

	%% Currently active HTTP/1.1 streams. Streams may be initiated either
	%% by the client or by the server through PUSH_PROMISE frames.
	streams = [] :: [stream()],

	%% Children which are in the process of shutting down.
	children = [] :: [{pid(), cowboy_stream:streamid(), timeout()}]

	%% @todo Automatic compression. (compress option?)
	%% @todo onresponse? Equivalent using streams.
}).

-include_lib("cowlib/include/cow_inline.hrl").
-include_lib("cowlib/include/cow_parse.hrl").

-spec init(pid(), ranch:ref(), inet:socket(), module(), cowboy:opts(), module()) -> ok.
init(Parent, Ref, Socket, Transport, Opts, Handler) ->
	LastStreamID = maps:get(max_keepalive, Opts, 100),
	before_loop(set_request_timeout(#state{
		parent=Parent, ref=Ref, socket=Socket,
		transport=Transport, opts=Opts, handler=Handler,
		last_streamid=LastStreamID}), <<>>).

%% @todo Send a response depending on in_state and whether one was already sent.

%% @todo
%% Timeouts:
%% - waiting for new request (if no stream is currently running)
%%   -> request_timeout: for whole request/headers, set at init/when we set ps_request_line{} state
%% - waiting for body (if a stream requested the body to be read)
%%   -> read_body_timeout: amount of time we wait without receiving any data when reading the body
%% - if we skip the body, skip only for a specific duration
%%   -> skip_body_timeout: also have a skip_body_length
%% - none if we have a stream running and it didn't request the body to be read
%% - global
%%   -> inactivity_timeout: max time to wait without anything happening before giving up

before_loop(State=#state{socket=Socket, transport=Transport}, Buffer) ->
	%% @todo disable this when we get to the body, until the stream asks for it?
	%% Perhaps have a threshold for how much we're willing to read before waiting.
	Transport:setopts(Socket, [{active, once}]),
	loop(State, Buffer).

loop(State=#state{parent=Parent, socket=Socket, transport=Transport,
		handler=_Handler, timer=TimerRef, children=Children}, Buffer) ->
	{OK, Closed, Error} = Transport:messages(),
	receive
		%% Socket messages.
		{OK, Socket, Data} ->
			parse(<< Buffer/binary, Data/binary >>, State);
		{Closed, Socket} ->
			terminate(State, {socket_error, closed, 'The socket has been closed.'});
		{Error, Socket, Reason} ->
			terminate(State, {socket_error, Reason, 'An error has occurred on the socket.'});
		%% Timeouts.
		{timeout, TimerRef, Reason} ->
			timeout(State, Reason);
		{timeout, _, _} ->
			loop(State, Buffer);
		%% System messages.
		{'EXIT', Parent, Reason} ->
			exit(Reason);
		{system, From, Request} ->
			sys:handle_system_msg(Request, From, Parent, ?MODULE, [], {State, Buffer});
		%% Messages pertaining to a stream.
		{{Pid, StreamID}, Msg} when Pid =:= self() ->
			loop(info(State, StreamID, Msg), Buffer);
		%% Exit signal from children.
		Msg = {'EXIT', Pid, _} ->
			loop(down(State, Pid, Msg), Buffer);
		%% Calls from supervisor module.
		{'$gen_call', {From, Tag}, which_children} ->
			Workers = [{?MODULE, Pid, worker, [?MODULE]} || {Pid, _, _} <- Children],
			From ! {Tag, Workers},
			loop(State, Buffer);
		{'$gen_call', {From, Tag}, count_children} ->
			NbChildren = length(Children),
			Counts = [{specs, 1}, {active, NbChildren},
				{supervisors, 0}, {workers, NbChildren}],
			From ! {Tag, Counts},
			loop(State, Buffer);
		{'$gen_call', {From, Tag}, _} ->
			From ! {Tag, {error, ?MODULE}},
			loop(State, Buffer);
		%% Unknown messages.
		Msg ->
			error_logger:error_msg("Received stray message ~p.", [Msg]),
			loop(State, Buffer)
	%% @todo Configurable timeout. This should be a global inactivity timeout
	%% that triggers when really nothing happens (ie something went really wrong).
	after 300000 ->
		terminate(State, {internal_error, timeout, 'No message or data received before timeout.'})
	end.

set_request_timeout(State0=#state{opts=Opts}) ->
	State = cancel_request_timeout(State0),
	Timeout = maps:get(request_timeout, Opts, 5000),
	TimerRef = erlang:start_timer(Timeout, self(), request_timeout),
	State#state{timer=TimerRef}.

cancel_request_timeout(State=#state{timer=TimerRef}) ->
	ok = case TimerRef of
		undefined -> ok;
		_ -> erlang:cancel_timer(TimerRef, [{async, true}, {info, false}])
	end,
	State#state{timer=undefined}.

%% @todo Honestly it would be much better if we didn't enable pipelining yet.
timeout(State=#state{in_state=#ps_request_line{}}, request_timeout) ->
	%% @todo If other streams are running, just set the connection to be closed
	%% and stop trying to read from the socket?
	terminate(State, {connection_error, timeout, 'No request-line received before timeout.'});
timeout(State=#state{socket=Socket, transport=Transport, in_state=#ps_header{}}, request_timeout) ->
	%% @todo If other streams are running, maybe wait for their reply before sending 408?
	%% -> Definitely. Either way, stop reading from the socket and make that stream the last.
	Transport:send(Socket, cow_http:response(408, 'HTTP/1.1', [])),
	terminate(State, {connection_error, timeout, 'Request headers not received before timeout.'}).

%% Request-line.
parse(<<>>, State) ->
	before_loop(State, <<>>);
parse(Buffer, State=#state{in_state=#ps_request_line{empty_lines=EmptyLines}}) ->
	after_parse(parse_request(Buffer, State, EmptyLines));
parse(Buffer, State=#state{in_state=PS=#ps_header{headers=Headers, name=undefined}}) ->
	after_parse(parse_header(Buffer,
		State#state{in_state=PS#ps_header{headers=undefined}},
		Headers));
parse(Buffer, State=#state{in_state=PS=#ps_header{headers=Headers, name=Name}}) ->
	after_parse(parse_hd_before_value(Buffer,
		State#state{in_state=PS#ps_header{headers=undefined, name=undefined}},
		Headers, Name));
parse(Buffer, State=#state{in_state=#ps_body{}}) ->
	%% @todo We do not want to get the body automatically if the request doesn't ask for it.
	%% We may want to get bodies that are below a threshold without waiting, and buffer them
	%% until the request asks, though.

	%% @todo Transfer-decoding must be done here.
	after_parse(parse_body(Buffer, State)).
%% @todo Don't parse if body is finished but request isn't. Let's not parallelize for now.

after_parse({request, Req=#{streamid := StreamID, headers := Headers, version := Version},
		State0=#state{handler=Handler, opts=Opts, streams=Streams0}, Buffer}) ->
	%% @todo Opts at the end. Maybe pass the same Opts we got?
	try Handler:init(StreamID, Req, Opts) of
		{Commands, StreamState} ->
			Streams = [#stream{id=StreamID, state=StreamState, version=Version}|Streams0],
			State = case maybe_req_close(State0, Headers, Version) of
				close -> State0#state{streams=Streams, last_streamid=StreamID};
				keepalive -> State0#state{streams=Streams}
			end,
			parse(Buffer, commands(State, StreamID, Commands))
	catch Class:Reason ->
		error_logger:error_msg("Exception occurred in ~s:init(~p, ~p, ~p) "
			"with reason ~p:~p.",
			[Handler, StreamID, Req, Opts, Class, Reason]),
		ok
		%% @todo Status code.
%		stream_reset(State, StreamID, {internal_error, {Class, Reason},
%			'Exception occurred in StreamHandler:init/10 call.'}) %% @todo Check final arity.
	end;
%% Streams are sequential so the body is always about the last stream created
%% unless that stream has terminated.
after_parse({data, StreamID, IsFin, Data, State=#state{handler=Handler,
		streams=Streams0=[Stream=#stream{id=StreamID, state=StreamState0}|_]}, Buffer}) ->
	try Handler:data(StreamID, IsFin, Data, StreamState0) of
		{Commands, StreamState} ->
			Streams = lists:keyreplace(StreamID, #stream.id, Streams0,
				Stream#stream{state=StreamState}),
			parse(Buffer, commands(State#state{streams=Streams}, StreamID, Commands))
	catch Class:Reason ->
		error_logger:error_msg("Exception occurred in ~s:data(~p, ~p, ~p, ~p) with reason ~p:~p.",
			[Handler, StreamID, IsFin, Data, StreamState0, Class, Reason]),
		ok
		%% @todo
%		stream_reset(State, StreamID, {internal_error, {Class, Reason},
%			'Exception occurred in StreamHandler:data/4 call.'})
	end;
%% No corresponding stream, skip.
after_parse({data, _, _, _, State, Buffer}) ->
	before_loop(State, Buffer);
after_parse({more, State, Buffer}) ->
	before_loop(State, Buffer).

%% Request-line.

-spec parse_request(binary(), #state{}, non_neg_integer()) -> ok.
%% Empty lines must be using \r\n.
parse_request(<< $\n, _/bits >>, State, _) ->
	error_terminate(400, State, {connection_error, protocol_error,
		''}); %% @todo
parse_request(<< $\s, _/bits >>, State, _) ->
	error_terminate(400, State, {connection_error, protocol_error,
		''}); %% @todo
%% We limit the length of the Request-line to MaxLength to avoid endlessly
%% reading from the socket and eventually crashing.
parse_request(Buffer, State=#state{opts=Opts}, EmptyLines) ->
	MaxLength = maps:get(max_request_line_length, Opts, 8000),
	MaxEmptyLines = maps:get(max_empty_lines, Opts, 5),
	case match_eol(Buffer, 0) of
		nomatch when byte_size(Buffer) > MaxLength ->
			error_terminate(414, State, {connection_error, limit_reached,
				''}); %% @todo
		nomatch ->
			{more, State#state{in_state=#ps_request_line{empty_lines=EmptyLines}}, Buffer};
		1 when EmptyLines =:= MaxEmptyLines ->
			error_terminate(400, State, {connection_error, limit_reached,
				''}); %% @todo
		1 ->
			<< _:16, Rest/bits >> = Buffer,
			parse_request(Rest, State, EmptyLines + 1);
		_ ->
			case Buffer of
				%% @todo * is only for server-wide OPTIONS request (RFC7230 5.3.4); tests
				<< "OPTIONS * ", Rest/bits >> ->
					parse_version(Rest, State, <<"OPTIONS">>, <<"*">>, <<>>);
%				<< "CONNECT ", Rest/bits >> ->
%					parse_authority( %% @todo
				_ ->
					parse_method(Buffer, State, <<>>,
						maps:get(max_method_length, Opts, 32))
			end
	end.

match_eol(<< $\n, _/bits >>, N) ->
	N;
match_eol(<< _, Rest/bits >>, N) ->
	match_eol(Rest, N + 1);
match_eol(_, _) ->
	nomatch.

parse_method(_, State, _, 0) ->
	error_terminate(501, State, {connection_error, limit_reached,
		'The method name is longer than configuration allows. (RFC7230 3.1.1)'});
parse_method(<< C, Rest/bits >>, State, SoFar, Remaining) ->
	case C of
		$\r -> error_terminate(400, State, {connection_error, protocol_error,
			''}); %% @todo
		$\s -> parse_uri(Rest, State, SoFar);
		_ when ?IS_TOKEN(C) -> parse_method(Rest, State, << SoFar/binary, C >>, Remaining - 1);
		_ -> error_terminate(400, State, {connection_error, protocol_error,
			'The method name must contain only valid token characters. (RFC7230 3.1.1)'})
	end.

parse_uri(<< H, T, T, P, "://", Rest/bits >>, State, Method)
		when H =:= $h orelse H =:= $H, T =:= $t orelse T =:= $T;
			P =:= $p orelse P =:= $P ->
	parse_uri_skip_host(Rest, State, Method);
parse_uri(<< H, T, T, P, S, "://", Rest/bits >>, State, Method)
		when H =:= $h orelse H =:= $H, T =:= $t orelse T =:= $T;
			P =:= $p orelse P =:= $P; S =:= $s orelse S =:= $S ->
	parse_uri_skip_host(Rest, State, Method);
parse_uri(<< $/, Rest/bits >>, State, Method) ->
	parse_uri_path(Rest, State, Method, << $/ >>);
parse_uri(_, State, _) ->
	error_terminate(400, State, {connection_error, protocol_error,
		'Invalid request-line or request-target. (RFC7230 3.1.1, RFC7230 5.3)'}).

parse_uri_skip_host(<< C, Rest/bits >>, State, Method) ->
	case C of
		$\r -> error_terminate(400, State, {connection_error, protocol_error,
			''}); %% @todo
		$/ -> parse_uri_path(Rest, State, Method, <<"/">>);
		$\s -> parse_version(Rest, State, Method, <<"/">>, <<>>);
		$? -> parse_uri_query(Rest, State, Method, <<"/">>, <<>>);
		$# -> skip_uri_fragment(Rest, State, Method, <<"/">>, <<>>);
		_ -> parse_uri_skip_host(Rest, State, Method)
	end.

parse_uri_path(<< C, Rest/bits >>, State, Method, SoFar) ->
	case C of
		$\r -> error_terminate(400, State, {connection_error, protocol_error,
			''}); %% @todo
		$\s -> parse_version(Rest, State, Method, SoFar, <<>>);
		$? -> parse_uri_query(Rest, State, Method, SoFar, <<>>);
		$# -> skip_uri_fragment(Rest, State, Method, SoFar, <<>>);
		_ -> parse_uri_path(Rest, State, Method, << SoFar/binary, C >>)
	end.

parse_uri_query(<< C, Rest/bits >>, State, M, P, SoFar) ->
	case C of
		$\r -> error_terminate(400, State, {connection_error, protocol_error,
			''}); %% @todo
		$\s -> parse_version(Rest, State, M, P, SoFar);
		$# -> skip_uri_fragment(Rest, State, M, P, SoFar);
		_ -> parse_uri_query(Rest, State, M, P, << SoFar/binary, C >>)
	end.

skip_uri_fragment(<< C, Rest/bits >>, State, M, P, Q) ->
	case C of
		$\r -> error_terminate(400, State, {connection_error, protocol_error,
			''}); %% @todo
		$\s -> parse_version(Rest, State, M, P, Q);
		_ -> skip_uri_fragment(Rest, State, M, P, Q)
	end.

%% @todo Calls to parse_header should update the state.
parse_version(<< "HTTP/1.1\r\n", Rest/bits >>, State, M, P, Q) ->
	parse_headers(Rest, State, M, P, Q, 'HTTP/1.1');
parse_version(<< "HTTP/1.0\r\n", Rest/bits >>, State, M, P, Q) ->
	parse_headers(Rest, State, M, P, Q, 'HTTP/1.0');
parse_version(<< "HTTP/1.", _, C, _/bits >>, State, _, _, _) when C =:= $\s; C =:= $\t ->
	error_terminate(400, State, {connection_error, protocol_error,
		'Whitespace is not allowed after the HTTP version. (RFC7230 3.1.1)'});
parse_version(<< C, _/bits >>, State, _, _, _) when C =:= $\s; C =:= $\t ->
	error_terminate(400, State, {connection_error, protocol_error,
		'The separator between request target and version must be a single SP.'});
parse_version(_, State, _, _, _) ->
	error_terminate(505, State, {connection_error, protocol_error,
		''}). %% @todo

parse_headers(Rest, State, M, P, Q, V) ->
	%% @todo Figure out the parse states.
	parse_header(Rest, State#state{in_state=#ps_header{
		method=M, path=P, qs=Q, version=V}}, #{}).

%% Headers.

%% We need two or more bytes in the buffer to continue.
parse_header(Rest, State=#state{in_state=PS}, Headers) when byte_size(Rest) < 2 ->
	{more, State#state{in_state=PS#ps_header{headers=Headers}}, Rest};
parse_header(<< $\r, $\n, Rest/bits >>, S, Headers) ->
	request(Rest, S, Headers);
parse_header(Buffer, State=#state{opts=Opts, in_state=PS}, Headers) ->
	MaxLength = maps:get(max_header_name_length, Opts, 64),
	MaxHeaders = maps:get(max_headers, Opts, 100),
	case match_colon(Buffer, 0) of
		nomatch when byte_size(Buffer) > MaxLength ->
			error_terminate(400, State, {connection_error, limit_reached,
				''}); %% @todo
		nomatch when length(Headers) >= MaxHeaders ->
			error_terminate(400, State, {connection_error, limit_reached,
				''}); %% @todo
		nomatch ->
			{more, State#state{in_state=PS#ps_header{headers=Headers}}, Buffer};
		_ ->
			parse_hd_name(Buffer, State, Headers, <<>>)
	end.

match_colon(<< $:, _/bits >>, N) ->
	N;
match_colon(<< _, Rest/bits >>, N) ->
	match_colon(Rest, N + 1);
match_colon(_, _) ->
	nomatch.

parse_hd_name(<< $:, Rest/bits >>, State, H, SoFar) ->
	parse_hd_before_value(Rest, State, H, SoFar);
parse_hd_name(<< C, _/bits >>, State, _, <<>>) when ?IS_WS(C) ->
	error_terminate(400, State, {connection_error, protocol_error,
		''}); %% @todo
parse_hd_name(<< C, Rest/bits >>, State, H, SoFar) when ?IS_WS(C) ->
	parse_hd_name_ws(Rest, State, H, SoFar);
parse_hd_name(<< C, Rest/bits >>, State, H, SoFar) ->
	?LOWER(parse_hd_name, Rest, State, H, SoFar).

parse_hd_name_ws(<< C, Rest/bits >>, S, H, Name) ->
	case C of
		$\s -> parse_hd_name_ws(Rest, S, H, Name);
		$\t -> parse_hd_name_ws(Rest, S, H, Name);
		$: -> parse_hd_before_value(Rest, S, H, Name)
	end.

parse_hd_before_value(<< $\s, Rest/bits >>, S, H, N) ->
	parse_hd_before_value(Rest, S, H, N);
parse_hd_before_value(<< $\t, Rest/bits >>, S, H, N) ->
	parse_hd_before_value(Rest, S, H, N);
parse_hd_before_value(Buffer, State=#state{opts=Opts, in_state=PS}, H, N) ->
	MaxLength = maps:get(max_header_value_length, Opts, 4096),
	case match_eol(Buffer, 0) of
		nomatch when byte_size(Buffer) > MaxLength ->
			error_terminate(400, State, {connection_error, limit_reached,
				''}); %% @todo
		nomatch ->
			{more, State#state{in_state=PS#ps_header{headers=H, name=N}}, Buffer};
		_ ->
			parse_hd_value(Buffer, State, H, N, <<>>)
	end.

parse_hd_value(<< $\r, $\n, Rest/bits >>, S, Headers, Name, SoFar) ->
	%% @todo What to do about duplicate header names.
	parse_header(Rest, S, Headers#{Name => clean_value_ws_end(SoFar, byte_size(SoFar) - 1)});
parse_hd_value(<< C, Rest/bits >>, S, H, N, SoFar) ->
	parse_hd_value(Rest, S, H, N, << SoFar/binary, C >>).

clean_value_ws_end(_, -1) ->
	<<>>;
clean_value_ws_end(Value, N) ->
	case binary:at(Value, N) of
		$\s -> clean_value_ws_end(Value, N - 1);
		$\t -> clean_value_ws_end(Value, N - 1);
		_ ->
			S = N + 1,
			<< Value2:S/binary, _/bits >> = Value,
			Value2
	end.

-ifdef(TEST).
clean_value_ws_end_test_() ->
	Tests = [
		{<<>>, <<>>},
		{<<"     ">>, <<>>},
		{<<"text/*;q=0.3, text/html;q=0.7, text/html;level=1, "
			"text/html;level=2;q=0.4, */*;q=0.5   \t   \t    ">>,
			<<"text/*;q=0.3, text/html;q=0.7, text/html;level=1, "
				"text/html;level=2;q=0.4, */*;q=0.5">>}
	],
	[{V, fun() -> R = clean_value_ws_end(V, byte_size(V) - 1) end} || {V, R} <- Tests].

horse_clean_value_ws_end() ->
	horse:repeat(200000,
		clean_value_ws_end(
			<<"text/*;q=0.3, text/html;q=0.7, text/html;level=1, "
				"text/html;level=2;q=0.4, */*;q=0.5          ">>,
			byte_size(<<"text/*;q=0.3, text/html;q=0.7, text/html;level=1, "
				"text/html;level=2;q=0.4, */*;q=0.5          ">>) - 1)
	).
-endif.

request(Buffer, State=#state{transport=Transport, in_streamid=StreamID,
		in_state=#ps_header{version=Version}}, Headers) ->
	case maps:get(<<"host">>, Headers, undefined) of
		undefined when Version =:= 'HTTP/1.1' ->
			%% @todo Might want to not close the connection on this and next one.
			error_terminate(400, State, {stream_error, StreamID, protocol_error,
				''}); %% @todo
		undefined ->
			request(Buffer, State, Headers, <<>>, default_port(Transport:secure()));
		RawHost ->
			try parse_host(RawHost, false, <<>>) of
				{Host, undefined} ->
					request(Buffer, State, Headers, Host, default_port(Transport:secure()));
				{Host, Port} ->
					request(Buffer, State, Headers, Host, Port)
			catch _:_ ->
				error_terminate(400, State, {stream_error, StreamID, protocol_error,
					''}) %% @todo
			end
	end.

-spec default_port(boolean()) -> 80 | 443.
default_port(true) -> 443;
default_port(_) -> 80.

%% @todo Yeah probably just call the cowlib function.
%% Same code as cow_http:parse_fullhost/1, but inline because we
%% really want this to go fast.
parse_host(<< $[, Rest/bits >>, false, <<>>) ->
	parse_host(Rest, true, << $[ >>);
parse_host(<<>>, false, Acc) ->
	{Acc, undefined};
parse_host(<< $:, Rest/bits >>, false, Acc) ->
	{Acc, list_to_integer(binary_to_list(Rest))};
parse_host(<< $], Rest/bits >>, true, Acc) ->
	parse_host(Rest, false, << Acc/binary, $] >>);
parse_host(<< C, Rest/bits >>, E, Acc) ->
	?LOWER(parse_host, Rest, E, Acc).

%% End of request parsing.

%% @todo We used to get the peername here, bad idea, should
%% get it at the very start of the connection, or the first
%% time requested if we go the route of handler sending a
%% message to get it (we probably shouldn't).
request(Buffer, State0=#state{ref=Ref, transport=Transport, in_streamid=StreamID,
		in_state=#ps_header{method=Method, path=Path, qs=Qs, version=Version}},
		Headers, Host, Port) ->
	Scheme = case Transport:secure() of
		true -> <<"https">>;
		false -> <<"http">>
	end,
	{HasBody, BodyLength, TDecodeFun, TDecodeState} = case Headers of
		#{<<"content-length">> := <<"0">>} ->
			{false, 0, undefined, undefined};
		#{<<"content-length">> := BinLength} ->
			Length = try
				cow_http_hd:parse_content_length(BinLength)
			catch _:_ ->
				error_terminate(400, State0, {stream_error, StreamID, protocol_error,
					''}) %% @todo
				%% @todo Err should terminate here...
			end,
			{true, Length, fun cow_http_te:stream_identity/2, {0, Length}};
		%% @todo Better handling of transfer decoding.
		#{<<"transfer-encoding">> := <<"chunked">>} ->
			{true, undefined, fun cow_http_te:stream_chunked/2, {0, 0}};
		_ ->
			{false, 0, undefined, undefined}
	end,
	Req = #{
		ref => Ref,
		pid => self(),
		streamid => StreamID,

		%% @todo peer
		%% @todo sockname
		%% @todo ssl client cert?

		method => Method,
		scheme => Scheme,
		host => Host,
		%% host_info (cowboy_router)
		port => Port,
		path => Path,
		%% path_info (cowboy_router)
		%% bindings (cowboy_router)
		qs => Qs,
		version => Version,
		%% We are transparently taking care of transfer-encodings so
		%% the user code has no need to know about it.
		headers => maps:remove(<<"transfer-encoding">>, Headers),

		has_body => HasBody,
		body_length => BodyLength
		%% @todo multipart? keep state separate

		%% meta values (cowboy_websocket, cowboy_rest)
	},
	State = case HasBody of
		true ->
			cancel_request_timeout(State0#state{in_state=#ps_body{
				%% @todo Don't need length anymore?
				transfer_decode_fun = TDecodeFun,
				transfer_decode_state = TDecodeState
			}});
		false ->
			set_request_timeout(State0#state{in_streamid=StreamID + 1, in_state=#ps_request_line{}})
	end,
	{request, Req, State, Buffer}.

%% Request body parsing.

parse_body(Buffer, State=#state{in_streamid=StreamID, in_state=
		PS=#ps_body{transfer_decode_fun=TDecode, transfer_decode_state=TState0}}) ->
	%% @todo Proper trailers.
	case TDecode(Buffer, TState0) of
		more ->
			%% @todo Asks for 0 or more bytes.
			{more, State, Buffer};
		{more, Data, TState} ->
			%% @todo Asks for 0 or more bytes.
			{data, StreamID, nofin, Data, State#state{in_state=
				PS#ps_body{transfer_decode_state=TState}}, <<>>};
		{more, Data, _Length, TState} when is_integer(_Length) ->
			%% @todo Asks for Length more bytes.
			{data, StreamID, nofin, Data, State#state{in_state=
				PS#ps_body{transfer_decode_state=TState}}, <<>>};
		{more, Data, Rest, TState} ->
			%% @todo Asks for 0 or more bytes.
			{data, StreamID, nofin, Data, State#state{in_state=
				PS#ps_body{transfer_decode_state=TState}}, Rest};
		{done, TotalLength, Rest} ->
			{data, StreamID, {fin, TotalLength}, <<>>, set_request_timeout(
				State#state{in_streamid=StreamID + 1, in_state=#ps_request_line{}}), Rest};
		{done, Data, TotalLength, Rest} ->
			{data, StreamID, {fin, TotalLength}, Data, set_request_timeout(
				State#state{in_streamid=StreamID + 1, in_state=#ps_request_line{}}), Rest}
	end.

%% Message handling.

down(State=#state{children=Children0}, Pid, Msg) ->
	case lists:keytake(Pid, 1, Children0) of
		{value, {_, undefined, _}, Children} ->
			State#state{children=Children};
		{value, {_, StreamID, _}, Children} ->
			info(State#state{children=Children}, StreamID, Msg);
		false ->
			error_logger:error_msg("Received EXIT signal ~p for unknown process ~p.", [Msg, Pid]),
			State
	end.

info(State=#state{handler=Handler, streams=Streams0}, StreamID, Msg) ->
	case lists:keyfind(StreamID, #stream.id, Streams0) of
		Stream = #stream{state=StreamState0} ->
			try Handler:info(StreamID, Msg, StreamState0) of
				{Commands, StreamState} ->
					Streams = lists:keyreplace(StreamID, #stream.id, Streams0,
						Stream#stream{state=StreamState}),
					commands(State#state{streams=Streams}, StreamID, Commands)
			catch Class:Reason ->
				error_logger:error_msg("Exception occurred in ~s:info(~p, ~p, ~p) with reason ~p:~p.",
					[Handler, StreamID, Msg, StreamState0, Class, Reason]),
				ok
%% @todo
%				stream_reset(State, StreamID, {internal_error, {Class, Reason},
%					'Exception occurred in StreamHandler:info/3 call.'})
			end;
		false ->
			error_logger:error_msg("Received message ~p for unknown stream ~p.", [Msg, StreamID]),
			State
	end.

%% @todo commands/3
%% @todo stream_reset




%% Commands.

commands(State, _, []) ->
	State;
%% Supervise a child process.
commands(State=#state{children=Children}, StreamID, [{spawn, Pid, Shutdown}|Tail]) ->
	commands(State#state{children=[{Pid, StreamID, Shutdown}|Children]}, StreamID, Tail);
%% Error handling.
commands(State, StreamID, [Error = {internal_error, _, _}|Tail]) ->
	commands(stream_reset(State, StreamID, Error), StreamID, Tail);
%% Commands for a stream currently inactive.
commands(State=#state{out_streamid=Current, streams=Streams0}, StreamID, Commands)
		when Current =/= StreamID ->

	%% @todo We still want to handle some commands...

	Stream = #stream{queue=Queue} = lists:keyfind(StreamID, #stream.id, Streams0),
	Streams = lists:keyreplace(StreamID, #stream.id, Streams0,
		Stream#stream{queue=Queue ++ Commands}),
	State#state{streams=Streams};
%% Read the request body.
commands(State, StreamID, [{flow, _Length}|Tail]) ->
	%% @todo We only read from socket if buffer is empty, otherwise
	%% we decode the buffer.

	%% @todo Set the body reading length to min(Length, BodyLength)

	commands(State, StreamID, Tail);
%% @todo Probably a good idea to have an atomic response send (single send call for resp+body).
%% Send a full response.
%%
%% @todo Kill the stream if it sent a response when one has already been sent.
%% @todo Keep IsFin in the state.
%% @todo Same two things above apply to DATA, possibly promise too.
commands(State0=#state{socket=Socket, transport=Transport, streams=Streams}, StreamID,
		[{response, StatusCode, Headers0, Body}|Tail]) ->
	%% @todo I'm pretty sure the last stream in the list is the one we want
	%% considering all others are queued.
	#stream{version=Version} = lists:keyfind(StreamID, #stream.id, Streams),
	{State, Headers} = connection(State0, Headers0, StreamID, Version),
	%% @todo Ensure content-length is set.
	Response = cow_http:response(StatusCode, 'HTTP/1.1', maps:to_list(Headers)),
	case Body of
		{sendfile, O, B, P} ->
			Transport:send(Socket, Response),
			commands(State#state{out_state=done}, StreamID, [{sendfile, fin, O, B, P}|Tail]);
		_ ->
			Transport:send(Socket, [Response, Body]),
			%% @todo If max number of requests, close connection.
			%% @todo If IsFin, maybe skip body of current request.
			maybe_terminate(State#state{out_state=done}, StreamID, Tail, fin)
	end;
%% Send response headers and initiate chunked encoding.
commands(State0=#state{socket=Socket, transport=Transport, streams=Streams}, StreamID,
		[{headers, StatusCode, Headers0}|Tail]) ->
	%% @todo Same as above.
	#stream{version=Version} = lists:keyfind(StreamID, #stream.id, Streams),
	{State1, Headers1} = case Version of
		'HTTP/1.1' ->
			{State0, Headers0#{<<"transfer-encoding">> => <<"chunked">>}};
		%% Close the connection after streaming the data to HTTP/1.0 client.
		%% @todo I'm guessing we need to differentiate responses with a content-length and others.
		'HTTP/1.0' ->
			{State0#state{last_streamid=StreamID}, Headers0}
	end,
	{State, Headers} = connection(State1, Headers1, StreamID, Version),
	Transport:send(Socket, cow_http:response(StatusCode, 'HTTP/1.1', maps:to_list(Headers))),
	commands(State#state{out_state=chunked}, StreamID, Tail);
%% Send a response body chunk.
%%
%% @todo WINDOW_UPDATE stuff require us to buffer some data.
commands(State=#state{socket=Socket, transport=Transport, streams=Streams}, StreamID,
		[{data, IsFin, Data}|Tail]) ->
	%% @todo Same as above.
	case lists:keyfind(StreamID, #stream.id, Streams) of
		#stream{version='HTTP/1.1'} ->
			Size = iolist_size(Data),
			Transport:send(Socket, [integer_to_list(Size, 16), <<"\r\n">>, Data, <<"\r\n">>]);
		#stream{version='HTTP/1.0'} ->
			Transport:send(Socket, Data)
	end,
	maybe_terminate(State, StreamID, Tail, IsFin);
%% Send a file.
commands(State=#state{socket=Socket, transport=Transport}, StreamID,
		[{sendfile, IsFin, Offset, Bytes, Path}|Tail]) ->
	Transport:sendfile(Socket, Path, Offset, Bytes),
	maybe_terminate(State, StreamID, Tail, IsFin);
%% Protocol takeover.
commands(State0=#state{ref=Ref, parent=Parent, socket=Socket, transport=Transport,
		opts=Opts, children=Children}, StreamID,
		[{switch_protocol, Headers, Protocol, InitialState}|_Tail]) ->
	%% @todo This should be the last stream running otherwise we need to wait before switching.
	%% @todo If there's streams opened after this one, fail instead of 101.
	State = cancel_request_timeout(State0),
	%% @todo When we actually do the upgrade, we only have the one stream left, plus
	%% possibly some processes terminating. We need a smart strategy for handling the
	%% children shutdown. We can start with brutal_kill and discarding the EXIT messages
	%% received before switching to Websocket. Something better would be to let the
	%% stream processes finish but that implies the Websocket module to know about
	%% them and filter the messages. For now, kill them all and discard all messages
	%% in the mailbox.
	_ = [exit(Pid, kill) || {Pid, _, _} <- Children],
	flush(),
	%% Everything good, upgrade!
	_ = commands(State, StreamID, [{response, 101, Headers, <<>>}]),
	%% @todo This is no good because commands return a state normally and here it doesn't
	%% we need to let this module go entirely. Perhaps it should be handled directly in
	%% cowboy_clear/cowboy_tls? Perhaps not. We do want that Buffer.
	Protocol:takeover(Parent, Ref, Socket, Transport, Opts, <<>>, InitialState);
%% Stream shutdown.
commands(State, StreamID, [stop|Tail]) ->
	%% @todo Do we want to run the commands after a stop?
%	commands(stream_terminate(State, StreamID, stop), StreamID, Tail).
	maybe_terminate(State, StreamID, Tail, fin).

flush() ->
	receive _ -> flush() after 0 -> ok end.

maybe_terminate(State, StreamID, Tail, nofin) ->
	commands(State, StreamID, Tail);
%% @todo In these cases I'm not sure if we should continue processing commands.
maybe_terminate(State=#state{last_streamid=StreamID}, StreamID, _Tail, fin) ->
	terminate(stream_terminate(State, StreamID, normal), normal); %% @todo Reason ok?
maybe_terminate(State, StreamID, _Tail, fin) ->
	stream_terminate(State, StreamID, normal).

stream_reset(State=#state{socket=Socket, transport=Transport}, StreamID,
		StreamError={internal_error, _, _}) ->
	%% @todo headers
	%% @todo Don't send this if there are no streams left.
	Transport:send(Socket, cow_http:response(500, 'HTTP/1.1', [
		{<<"content-length">>, <<"0">>}
	])),
	%% @todo update IsFin local
	stream_terminate(State#state{out_state=done}, StreamID, StreamError).

stream_terminate(State=#state{socket=Socket, transport=Transport, handler=Handler,
		out_streamid=OutStreamID, out_state=OutState,
		streams=Streams0, children=Children0}, StreamID, Reason) ->
	{value, #stream{state=StreamState, version=Version}, Streams}
		= lists:keytake(StreamID, #stream.id, Streams0),
	_ = case OutState of
		wait ->
			Transport:send(Socket, cow_http:response(204, 'HTTP/1.1', []));
		chunked when Version =:= 'HTTP/1.1' ->
			Transport:send(Socket, <<"0\r\n\r\n">>);
		_ -> %% done or Version =:= 'HTTP/1.0'
			ok
	end,

	stream_call_terminate(StreamID, Reason, Handler, StreamState),
%% @todo initiate children shutdown
%			Children = stream_terminate_children(Children0, StreamID, []),
	Children = [case C of
		{Pid, StreamID, Shutdown} -> {Pid, undefined, Shutdown};
		_ -> C
	end || C <- Children0],

	%% @todo Skip the body, if any, or drop the connection if too large.

	%% @todo Only do this if Current =:= StreamID.
	NextOutStreamID = OutStreamID + 1,
	case lists:keyfind(NextOutStreamID, #stream.id, Streams) of
		false ->
			%% @todo This is clearly wrong, if the stream is gone we need to check if
			%% there used to be such a stream, and if there was to send an error.
			State#state{out_streamid=NextOutStreamID, out_state=wait, streams=Streams, children=Children};
		#stream{queue=Commands} ->
			%% @todo Remove queue from the stream.
			commands(State#state{out_streamid=NextOutStreamID, out_state=wait,
				streams=Streams, children=Children}, NextOutStreamID, Commands)
	end.

%% @todo Taken directly from _http2
stream_call_terminate(StreamID, Reason, Handler, StreamState) ->
	try
		Handler:terminate(StreamID, Reason, StreamState),
		ok
	catch Class:Reason ->
		error_logger:error_msg("Exception occurred in ~s:terminate(~p, ~p, ~p) with reason ~p:~p.",
			[Handler, StreamID, Reason, StreamState, Class, Reason])
	end.

%stream_terminate_children([], _, Acc) ->
%	Acc;
%stream_terminate_children([{Pid, StreamID}|Tail], StreamID, Acc) ->
%	exit(Pid, kill),
%	stream_terminate_children(Tail, StreamID, Acc);
%stream_terminate_children([Child|Tail], StreamID, Acc) ->
%	stream_terminate_children(Tail, StreamID, [Child|Acc]).


%% @todo max_reqs also
maybe_req_close(_, #{<<"connection">> := Conn}, 'HTTP/1.0') ->
	Conns = cow_http_hd:parse_connection(Conn),
	case lists:member(<<"keep-alive">>, Conns) of
		true -> keepalive;
		false -> close
	end;
maybe_req_close(_, _, 'HTTP/1.0') ->
	close;
maybe_req_close(_, #{<<"connection">> := Conn}, 'HTTP/1.1') ->
	case connection_hd_is_close(Conn) of
		true -> close;
		false -> keepalive
	end;
maybe_req_close(_State, _, _) ->
	keepalive.

connection(State=#state{last_streamid=StreamID}, Headers=#{<<"connection">> := Conn}, StreamID, _) ->
	case connection_hd_is_close(Conn) of
		true -> {State, Headers};
		%% @todo Here we need to remove keep-alive and add close, not just add close.
		false -> {State, Headers#{<<"connection">> => [<<"close, ">>, Conn]}}
	end;
connection(State=#state{last_streamid=StreamID}, Headers, StreamID, _) ->
	{State, Headers#{<<"connection">> => <<"close">>}};
connection(State, Headers=#{<<"connection">> := Conn}, StreamID, _) ->
	case connection_hd_is_close(Conn) of
		true -> {State#state{last_streamid=StreamID}, Headers};
		%% @todo Here we need to set keep-alive only if it wasn't set before.
		false -> {State, Headers}
	end;
connection(State, Headers, _, 'HTTP/1.0') ->
	{State, Headers#{<<"connection">> => <<"keep-alive">>}};
connection(State, Headers, _, _) ->
	{State, Headers}.

connection_hd_is_close(Conn) ->
	Conns = cow_http_hd:parse_connection(iolist_to_binary(Conn)),
	lists:member(<<"close">>, Conns).

error_terminate(StatusCode, State=#state{socket=Socket, transport=Transport}, Reason) ->
	Transport:send(Socket, cow_http:response(StatusCode, 'HTTP/1.1', [
		{<<"content-length">>, <<"0">>}
	])),
	terminate(State, Reason).

terminate(_State, _Reason) ->
	exit(normal). %% @todo













%% System callbacks.

-spec system_continue(_, _, #state{}) -> ok.
system_continue(_, _, {State, Buffer}) ->
	loop(State, Buffer).

-spec system_terminate(any(), _, _, _) -> no_return().
system_terminate(Reason, _, _, _) ->
	exit(Reason).

-spec system_code_change(Misc, _, _, _) -> {ok, Misc} when Misc::{#state{}, binary()}.
system_code_change(Misc, _, _, _) ->
	{ok, Misc}.