aboutsummaryrefslogblamecommitdiffstats
path: root/src/cowboy_http2.erl
blob: 67efa61e9dbb323d5d6211d98f54136cc439fcef (plain) (tree)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
















                                                                           
                  





























































                                                                                              
                                                                                       
                                                      















                                                                                




                                                                    
                                                                                                   















                                                                                                         
                                                             

























                                                                                                          
                                                                                     

                                                                      





                                                                                       










                                                                                                          

































































                                                                                                                          
                                                                                

                                               
                                                         


















































































































                                                                                                                      

                                                                                                        


























                                                                                                    
                                                                                                  






                                                                                              
                                                                           

                                                                                                                        




































                                                                                







                                                                                                                             
                                                                                                                        







































































                                                                                                           
%% Copyright (c) 2015, 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_http2).

-export([init/6]).
-export([init/8]).

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

-record(stream, {
	id = undefined :: cowboy_stream:streamid(),
	state = undefined :: any(),
	%% Whether we finished sending data.
	local = nofin :: cowboy_stream:fin(),
	%% Whether we finished receiving data.
	remote = nofin :: cowboy_stream:fin()
}).

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

%% @todo priority: if we receive a message for a stream, do a selective receive
%% to get all messages in the mailbox and prioritize them. (later)

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

	%% Settings are separate for each endpoint. In addition, settings
	%% must be acknowledged before they can be expected to be applied.
	%%
	%% @todo Since the ack is required, we must timeout if we don't receive it.
	%% @todo I haven't put as much thought as I should have on this,
	%% the final settings handling will be very different.
	local_settings = #{} :: map(),
	next_settings = #{} :: undefined | map(), %% @todo perhaps set to undefined by default
	remote_settings = #{} :: map(),

	%% Stream identifiers.
	server_streamid = 2 :: pos_integer(),
	%% @todo last known good streamid

	%% Currently active HTTP/2 streams. Streams may be initiated either
	%% by the client or by the server through PUSH_PROMISE frames.
	streams = [] :: [stream()],

	%% Streams can spawn zero or more children which are then managed
	%% by this module if operating as a supervisor.
	children = [] :: [{pid(), cowboy_stream:streamid()}],

	%% The client starts by sending a sequence of bytes as a preface,
	%% followed by a potentially empty SETTINGS frame. Then the connection
	%% is established and continues normally. An exception is when a HEADERS
	%% frame is sent followed by CONTINUATION frames: no other frame can be
	%% sent in between.
	parse_state = preface :: preface | settings | normal
		| {continuation, cowboy_stream:streamid(), cowboy_stream:fin(), binary()},

	%% HPACK decoding and encoding state.
	decode_state = cow_hpack:init() :: cow_hpack:state(),
	encode_state = cow_hpack:init() :: cow_hpack:state()
}).

-spec init(pid(), ranch:ref(), inet:socket(), module(), cowboy:opts(), module()) -> ok.
init(Parent, Ref, Socket, Transport, Opts, Handler) ->
	init(Parent, Ref, Socket, Transport, Opts, Handler, <<>>, undefined).

-spec init(pid(), ranch:ref(), inet:socket(), module(), cowboy:opts(), module(),
	binary(), binary() | undefined) -> ok.
init(Parent, Ref, Socket, Transport, Opts, Handler, Buffer, SettingsPayload) ->
	State = #state{parent=Parent, ref=Ref, socket=Socket,
		transport=Transport, opts=Opts, handler=Handler},
	preface(State),
	case Buffer of
		<<>> -> before_loop(State, Buffer);
		_ -> parse(State, Buffer)
	end.

preface(#state{socket=Socket, transport=Transport, next_settings=Settings}) ->
	%% We send next_settings and use defaults until we get a ack.
	ok = Transport:send(Socket, cow_http2:settings(Settings)).

%% @todo Add the timeout for last time since we heard of connection.
before_loop(State, Buffer) ->
	loop(State, Buffer).

loop(State=#state{parent=Parent, socket=Socket, transport=Transport, children=Children}, Buffer) ->
	Transport:setopts(Socket, [{active, once}]),
	{OK, Closed, Error} = Transport:messages(),
	receive
		%% Socket messages.
		{OK, Socket, Data} ->
			parse(State, << Buffer/binary, Data/binary >>);
		{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.'});
		%% 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);
		Msg ->
			error_logger:error_msg("Received stray message ~p.", [Msg]),
			loop(State, Buffer)
	%% @todo Configurable timeout.
	after 60000 ->
		terminate(State, {internal_error, timeout, 'No message or data received before timeout.'})
	end.

parse(State=#state{socket=Socket, transport=Transport, parse_state=preface}, Data) ->
	case Data of
		<< "PRI * HTTP/2.0\r\n\r\nSM\r\n\r\n", Rest/bits >> ->
			parse(State#state{parse_state=settings}, Rest);
		_ when byte_size(Data) >= 24 ->
			Transport:close(Socket),
			exit({shutdown, {connection_error, protocol_error,
				'The connection preface was invalid. (RFC7540 3.5)'}});
		_ ->
			Len = byte_size(Data),
			<< Preface:Len/binary, _/bits >> = <<"PRI * HTTP/2.0\r\n\r\nSM\r\n\r\n">>,
			case Data of
				Preface ->
					%% @todo OK we should have a timeout when waiting for the preface.
					before_loop(State, Data);
				_ ->
					Transport:close(Socket),
					exit({shutdown, {connection_error, protocol_error,
						'The connection preface was invalid. (RFC7540 3.5)'}})
			end
	end;
%% @todo Perhaps instead of just more we can have {more, Len} to avoid all the checks.
parse(State=#state{parse_state=ParseState}, Data) ->
	case cow_http2:parse(Data) of
		{ok, Frame, Rest} ->
			case ParseState of
				normal -> parse(frame(State, Frame), Rest);
				settings -> parse(frame(State, Frame), Rest);
				_ -> parse(continuation_frame(State, Frame), Rest)
			end;
		{stream_error, StreamID, Reason, Human, Rest} ->
			parse(stream_reset(State, StreamID, {stream_error, Reason, Human}), Rest);
		Error = {connection_error, _, _} ->
			terminate(State, Error);
		more ->
			before_loop(State, Data)
	end.

%% @todo When we get a 'fin' we need to check if the stream had a 'fin' sent back
%% and terminate the stream if this is the end of it.

%% DATA frame.
frame(State=#state{handler=Handler, streams=Streams0}, {data, StreamID, IsFin, Data}) ->
	case lists:keyfind(StreamID, #stream.id, Streams0) of
		Stream = #stream{state=StreamState0} -> %% @todo in=open
			try Handler:data(StreamID, IsFin, Data, 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:data(~p, ~p, ~p, ~p) with reason ~p:~p.",
					[Handler, StreamID, IsFin, Data, StreamState0, Class, Reason]),
				stream_reset(State, StreamID, {internal_error, {Class, Reason},
					'Exception occurred in StreamHandler:data/4 call.'})
			end;
		false ->
			stream_reset(State, StreamID, {stream_error, stream_closed,
				'DATA frame received for a closed or non-existent stream. (RFC7540 6.1)'})
	end;
%% Single HEADERS frame headers block.
frame(State, {headers, StreamID, IsFin, head_fin, HeaderBlock}) ->
	%% @todo We probably need to validate StreamID here and in 4 next clauses.
	stream_init(State, StreamID, IsFin, HeaderBlock);
%% HEADERS frame starting a headers block. Enter continuation mode.
frame(State, {headers, StreamID, IsFin, head_nofin, HeaderBlockFragment}) ->
	State#state{parse_state={continuation, StreamID, IsFin, HeaderBlockFragment}};
%% Single HEADERS frame headers block with priority.
frame(State, {headers, StreamID, IsFin, head_fin,
		_IsExclusive, _DepStreamID, _Weight, HeaderBlock}) ->
	%% @todo Handle priority.
	stream_init(State, StreamID, IsFin, HeaderBlock);
%% HEADERS frame starting a headers block. Enter continuation mode.
frame(State, {headers, StreamID, IsFin, head_nofin,
		_IsExclusive, _DepStreamID, _Weight, HeaderBlockFragment}) ->
	%% @todo Handle priority.
	State#state{parse_state={continuation, StreamID, IsFin, HeaderBlockFragment}};
%% PRIORITY frame.
frame(State, {priority, _StreamID, _IsExclusive, _DepStreamID, _Weight}) ->
	%% @todo Validate StreamID?
	%% @todo Handle priority.
	State;
%% RST_STREAM frame.
frame(State, {rst_stream, StreamID, Reason}) ->
	stream_reset(State, StreamID, {stream_error, Reason, 'Stream reset requested by client.'});
%% SETTINGS frame.
frame(State=#state{socket=Socket, transport=Transport}, {settings, Settings}) ->
	%% @todo Apply SETTINGS.
	io:format("settings ~p~n", [Settings]),
	Transport:send(Socket, cow_http2:settings_ack()),
	State;
%% Ack for a previously sent SETTINGS frame.
frame(State=#state{next_settings=_NextSettings}, settings_ack) ->
	%% @todo Apply SETTINGS that require synchronization.
	State;
%% Unexpected PUSH_PROMISE frame.
frame(State, {push_promise, _, _, _, _}) ->
	terminate(State, {connection_error, protocol_error,
		'PUSH_PROMISE frames MUST only be sent on a peer-initiated stream. (RFC7540 6.6)'});
%% PING frame.
frame(State=#state{socket=Socket, transport=Transport}, {ping, Opaque}) ->
	Transport:send(Socket, cow_http2:ping_ack(Opaque)),
	State;
%% Ack for a previously sent PING frame.
%%
%% @todo Might want to check contents but probably a waste of time.
frame(State, {ping_ack, _Opaque}) ->
	State;
%% GOAWAY frame.
frame(State, Frame={goaway, _, _, _}) ->
	terminate(State, {stop, Frame, 'Client is going away.'});
%% Connection-wide WINDOW_UPDATE frame.
frame(State, {window_update, _Increment}) ->
	%% @todo control flow
	State;
%% Stream-specific WINDOW_UPDATE frame.
frame(State, {window_update, _StreamID, _Increment}) ->
	%% @todo stream-specific control flow
	State;
%% Unexpected CONTINUATION frame.
frame(State, {continuation, _, _, _}) ->
	terminate(State, {connection_error, protocol_error,
		'CONTINUATION frames MUST be preceded by a HEADERS frame. (RFC7540 6.10)'}).

continuation_frame(State=#state{parse_state={continuation, StreamID, IsFin, HeaderBlockFragment0}},
		{continuation, StreamID, fin, HeaderBlockFragment1}) ->
	stream_init(State#state{parse_state=normal}, StreamID, IsFin,
		<< HeaderBlockFragment0/binary, HeaderBlockFragment1/binary >>);
continuation_frame(State=#state{parse_state={continuation, StreamID, IsFin, HeaderBlockFragment0}},
		{continuation, StreamID, nofin, HeaderBlockFragment1}) ->
	State#state{parse_state={continuation, StreamID, IsFin,
		<< HeaderBlockFragment0/binary, HeaderBlockFragment1/binary >>}};
continuation_frame(State, _) ->
	terminate(State, {connection_error, protocol_error,
		'An invalid frame was received while expecting a CONTINUATION frame. (RFC7540 6.2)'}).

down(State=#state{children=Children0}, Pid, Msg) ->
	case lists:keytake(Pid, 1, Children0) of
		{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]),
				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.

commands(State, _, []) ->
	State;
%% Send response headers.
%%
%% @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(State=#state{socket=Socket, transport=Transport, encode_state=EncodeState0}, StreamID,
		[{response, IsFin, StatusCode, Headers0}|Tail]) ->
	Headers = Headers0#{<<":status">> => integer_to_binary(StatusCode)},
	{HeaderBlock, EncodeState} = headers_encode(Headers, EncodeState0),
	Transport:send(Socket, cow_http2:headers(StreamID, IsFin, HeaderBlock)),
	commands(State#state{encode_state=EncodeState}, StreamID, Tail);
%% Send a response body chunk.
%%
%% @todo WINDOW_UPDATE stuff require us to buffer some data.
commands(State=#state{socket=Socket, transport=Transport}, StreamID,
		[{data, IsFin, Data}|Tail]) ->
	Transport:send(Socket, cow_http2:data(StreamID, IsFin, Data)),
	commands(State, StreamID, Tail);
%% Send a push promise.
%%
%% @todo We need to keep track of what promises we made so that we don't
%% end up with an infinite loop of promises.
commands(State0=#state{socket=Socket, transport=Transport, server_streamid=PromisedStreamID,
		encode_state=EncodeState0}, StreamID,
		[{promise, Method, Scheme, Authority, Path, Headers0}|Tail]) ->
	Headers = Headers0#{<<":method">> => Method,
			<<":scheme">> => Scheme,
			<<":authority">> => Authority,
			<<":path">> => Path},
	{HeaderBlock, EncodeState} = headers_encode(Headers, EncodeState0),
	Transport:send(Socket, cow_http2:push_promise(StreamID, PromisedStreamID, HeaderBlock)),
	%% @todo iolist_to_binary(HeaderBlock) isn't optimal. Need a shortcut.
	State = stream_init(State0#state{server_streamid=PromisedStreamID + 2, encode_state=EncodeState},
		PromisedStreamID, fin, iolist_to_binary(HeaderBlock)),
	commands(State, StreamID, Tail);
%% @todo Update the flow control state.
commands(State, StreamID, [{flow, _Size}|Tail]) ->
	commands(State, StreamID, Tail);
%% Supervise a child process.
commands(State=#state{children=Children}, StreamID, [{spawn, Pid, _Shutdown}|Tail]) -> %% @todo Shutdown
	 commands(State#state{children=[{Pid, StreamID}|Children]}, StreamID, Tail);
%% Upgrade to a new protocol.
%%
%% @todo Implementation.
%% @todo Can only upgrade if: there are no other streams and there are no children left alive.
%% @todo For HTTP/1.1 we should reject upgrading if pipelining is used.
commands(State, StreamID, [{upgrade, _Mod, _ModState}]) ->
	commands(State, StreamID, []);
commands(State, StreamID, [{upgrade, _Mod, _ModState}|Tail]) ->
	%% @todo This is an error. Not sure what to do here yet.
	commands(State, StreamID, Tail).

terminate(#state{socket=Socket, transport=Transport, handler=Handler,
		streams=Streams, children=Children}, Reason) ->
	%% @todo Send GOAWAY frame; need to keep track of last good stream id; how?
	terminate_all_streams(Streams, Reason, Handler, Children),
	Transport:close(Socket),
	exit({shutdown, Reason}).

terminate_all_streams([], _, _, []) ->
	ok;
terminate_all_streams([#stream{id=StreamID, state=StreamState}|Tail], Reason, Handler, Children0) ->
	stream_call_terminate(StreamID, Reason, Handler, StreamState),
	Children = stream_terminate_children(Children0, StreamID, []),
	terminate_all_streams(Tail, Reason, Handler, Children).

%% Stream functions.

stream_init(State0=#state{ref=Ref, socket=Socket, transport=Transport, handler=Handler, opts=Opts,
		streams=Streams0, decode_state=DecodeState0}, StreamID, IsFin, HeaderBlock) ->
	%% @todo Add clause for CONNECT requests (no scheme/path).
	try headers_decode(HeaderBlock, DecodeState0) of
		{Headers0=#{
				<<":method">> := Method,
				<<":scheme">> := Scheme,
				<<":authority">> := Authority,
				<<":path">> := PathWithQs}, DecodeState} ->
			State = State0#state{decode_state=DecodeState},
			Headers = maps:without([<<":method">>, <<":scheme">>, <<":authority">>, <<":path">>], Headers0),
			%% @todo We need to parse the port out of :authority.
			%% @todo We need to parse the query string out of :path.
			%% @todo We need to give a way to get the socket infos.

			Host = Authority, %% @todo
			Port = todo, %% @todo
			Path = PathWithQs, %% @todo
			Qs = todo, %% @todo

			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 => 'HTTP/2',
				headers => Headers,

				has_body => IsFin =:= nofin
				%% @todo multipart? keep state separate

				%% meta values (cowboy_websocket, cowboy_rest)
			},

			try Handler:init(StreamID, Req, Opts) of
				{Commands, StreamState} ->
					Streams = [#stream{id=StreamID, state=StreamState}|Streams0],
					commands(State#state{streams=Streams}, StreamID, Commands)
			catch Class:Reason ->
				error_logger:error_msg("Exception occurred in ~s:init(~p, ~p, ~p, ~p, ~p, ~p, ~p) "
					"with reason ~p:~p.",
					[Handler, StreamID, IsFin, Method, Scheme, Authority, Path, Headers, Class, Reason]),
				stream_reset(State, StreamID, {internal_error, {Class, Reason},
					'Exception occurred in StreamHandler:init/7 call.'}) %% @todo Check final arity.
			end;
		{_, DecodeState} ->
			Transport:send(Socket, cow_http2:rst_stream(StreamID, protocol_error)),
			State0#state{decode_state=DecodeState}
	catch _:_ ->
		terminate(State0, {connection_error, compression_error,
			'Error while trying to decode HPACK-encoded header block. (RFC7540 4.3)'})
	end.

%% @todo We might need to keep track of which stream has been reset so we don't send lots of them.
stream_reset(State=#state{socket=Socket, transport=Transport}, StreamID,
		StreamError={internal_error, _, _}) ->
	Transport:send(Socket, cow_http2:rst_stream(StreamID, internal_error)),
	stream_terminate(State, StreamID, StreamError);
stream_reset(State=#state{socket=Socket, transport=Transport}, StreamID,
		StreamError={stream_error, Reason, _}) ->
	Transport:send(Socket, cow_http2:rst_stream(StreamID, Reason)),
	stream_terminate(State, StreamID, StreamError).

stream_terminate(State=#state{handler=Handler, streams=Streams0, children=Children0}, StreamID, Reason) ->
	case lists:keytake(StreamID, #stream.id, Streams0) of
		{value, #stream{state=StreamState}, Streams} ->
			stream_call_terminate(StreamID, Reason, Handler, StreamState),
			Children = stream_terminate_children(Children0, StreamID, []),
			State#state{streams=Streams, children=Children};
		false ->
			%% @todo Unknown stream. Not sure what to do here. Check again once all
			%% terminate calls have been written.
			State
	end.

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]).

%% Headers encode/decode.

headers_decode(HeaderBlock, DecodeState0) ->
	{Headers, DecodeState} = cow_hpack:decode(HeaderBlock, DecodeState0),
	{maps:from_list(Headers), DecodeState}.

%% @todo We will need to special-case the set-cookie header here.
headers_encode(Headers0, EncodeState) ->
	Headers = maps:to_list(Headers0),
	cow_hpack:encode(Headers, EncodeState).

%% 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}.