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%% Copyright (c) 2019, 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(gun_event).
%% init.
-type init_event() :: #{
owner := pid(),
transport := tcp | tls,
origin_scheme := binary(),
origin_host := inet:hostname() | inet:ip_address(),
origin_port := inet:port_number(),
opts := gun:opts()
}.
-callback init(init_event(), State) -> State.
%% domain_lookup_start/domain_lookup_end.
-type domain_lookup_event() :: #{
host := inet:hostname() | inet:ip_address(),
port := inet:port_number(),
tcp_opts := [gen_tcp:connect_option()],
timeout := timeout(),
lookup_info => gun_tcp:lookup_info(),
error => any()
}.
-callback domain_lookup_start(domain_lookup_event(), State) -> State.
-callback domain_lookup_end(domain_lookup_event(), State) -> State.
%% connect_start/connect_end.
-type connect_event() :: #{
lookup_info := gun_tcp:lookup_info(),
timeout := timeout(),
socket => inet:socket(),
protocol => http | http2, %% Only when transport is tcp.
error => any()
}.
-callback connect_start(connect_event(), State) -> State.
-callback connect_end(connect_event(), State) -> State.
%% tls_handshake_start/tls_handshake_end.
%%
%% These events occur when connecting to a TLS server or when
%% upgrading the connection to use TLS, for example using CONNECT.
%% The stream_ref/reply_to values are only present when the TLS
%% handshake occurs as a result of a request.
-type tls_handshake_event() :: #{
stream_ref => reference(),
reply_to => pid(),
socket := inet:socket() | ssl:sslsocket() | pid(), %% The socket before/after will be different.
tls_opts := [ssl:tls_client_option()],
timeout := timeout(),
protocol => http | http2,
error => any()
}.
-callback tls_handshake_start(tls_handshake_event(), State) -> State.
-callback tls_handshake_end(tls_handshake_event(), State) -> State.
%% request_start/request_headers.
-type request_start_event() :: #{
stream_ref := reference(),
reply_to := pid(),
function := headers | request | ws_upgrade,
method := iodata(),
scheme => binary(),
authority := iodata(),
path := iodata(),
headers := [{binary(), iodata()}]
}.
-callback request_start(request_start_event(), State) -> State.
-callback request_headers(request_start_event(), State) -> State.
%% request_end.
-type request_end_event() :: #{
stream_ref := reference(),
reply_to := pid()
}.
-callback request_end(request_end_event(), State) -> State.
%% push_promise_start.
-type push_promise_start_event() :: #{
stream_ref := reference(),
reply_to := pid()
}.
-callback push_promise_start(push_promise_start_event(), State) -> State.
%% push_promise_end.
-type push_promise_end_event() :: #{
stream_ref := reference(),
reply_to := pid(),
promised_stream_ref := reference(),
method := binary(),
uri := binary(),
headers := [{binary(), iodata()}]
}.
-callback push_promise_end(push_promise_end_event(), State) -> State.
%% response_start.
-type response_start_event() :: #{
stream_ref := reference(),
reply_to := pid()
}.
-callback response_start(response_start_event(), State) -> State.
%% response_inform/response_headers.
-type response_headers_event() :: #{
stream_ref := reference(),
reply_to := pid(),
status := non_neg_integer(),
headers := [{binary(), binary()}]
}.
-callback response_inform(response_headers_event(), State) -> State.
-callback response_headers(response_headers_event(), State) -> State.
%% response_trailers.
-type response_trailers_event() :: #{
stream_ref := reference(),
reply_to := pid(),
headers := [{binary(), binary()}]
}.
-callback response_trailers(response_trailers_event(), State) -> State.
%% response_end.
-type response_end_event() :: #{
stream_ref := reference(),
reply_to := pid()
}.
-callback response_end(response_end_event(), State) -> State.
%% ws_upgrade.
%%
%% This event is a signal that the following request and response
%% result from a gun:ws_upgrade/2,3,4 call.
%%
%% There is no corresponding "end" event. Instead, the success is
%% indicated by a protocol_changed event following the informational
%% response.
-type ws_upgrade_event() :: #{
stream_ref := reference(),
reply_to := pid(),
opts := gun:ws_opts()
}.
-callback ws_upgrade(ws_upgrade_event(), State) -> State.
%% ws_recv_frame_start.
-type ws_recv_frame_start_event() :: #{
stream_ref := reference(),
reply_to := pid(),
frag_state := cow_ws:frag_state(),
extensions := cow_ws:extensions()
}.
-callback ws_recv_frame_start(ws_recv_frame_start_event(), State) -> State.
%% ws_recv_frame_header.
-type ws_recv_frame_header_event() :: #{
stream_ref := reference(),
reply_to := pid(),
frag_state := cow_ws:frag_state(),
extensions := cow_ws:extensions(),
type := cow_ws:frame_type(),
rsv := cow_ws:rsv(),
len := non_neg_integer(),
mask_key := cow_ws:mask_key()
}.
-callback ws_recv_frame_header(ws_recv_frame_header_event(), State) -> State.
%% ws_recv_frame_end.
-type ws_recv_frame_end_event() :: #{
stream_ref := reference(),
reply_to := pid(),
extensions := cow_ws:extensions(),
close_code := undefined | cow_ws:close_code(),
payload := binary()
}.
-callback ws_recv_frame_end(ws_recv_frame_end_event(), State) -> State.
%% ws_send_frame_start/ws_send_frame_end.
-type ws_send_frame_event() :: #{
stream_ref := reference(),
reply_to := pid(),
extensions := cow_ws:extensions(),
frame := gun:ws_frame()
}.
-callback ws_send_frame_start(ws_send_frame_event(), State) -> State.
-callback ws_send_frame_end(ws_send_frame_event(), State) -> State.
%% protocol_changed.
%%
%% This event can occur either following a successful ws_upgrade
%% event or following a successful CONNECT request.
%%
%% @todo Currently there is only a connection-wide variant of this
%% event. In the future there will be a stream-wide variant to
%% support CONNECT and Websocket over HTTP/2.
-type protocol_changed_event() :: #{
protocol := http2 | ws
}.
-callback protocol_changed(protocol_changed_event(), State) -> State.
%% transport_changed.
%%
%% This event can occur following a successful CONNECT request.
%%
%% @todo Currently there is only a connection-wide variant of this
%% event. In the future there will be a stream-wide variant to
%% support CONNECT through TLS proxies over HTTP/2.
-type transport_changed_event() :: #{
socket := ssl:sslsocket() | pid(),
transport := tls | tls_proxy
}.
-callback transport_changed(transport_changed_event(), State) -> State.
%% origin_changed.
-type origin_changed_event() :: #{
type := connect,
origin_scheme := binary(),
origin_host := inet:hostname() | inet:ip_address(),
origin_port := inet:port_number()
}.
-callback origin_changed(origin_changed_event(), State) -> State.
%% cancel.
%%
%% In the case of HTTP/1.1 we cannot actually cancel the stream,
%% we only silence the stream to the user. Further response events
%% may therefore be received and they provide a useful metric as
%% these canceled requests monopolize the connection.
%%
%% For HTTP/2 both the client and the server may cancel streams.
%% Events may still occur for a short time after the cancel.
-type cancel_event() :: #{
stream_ref := reference(),
reply_to := pid(),
endpoint := local | remote,
reason := atom()
}.
-callback cancel(cancel_event(), State) -> State.
%% disconnect.
-type disconnect_event() :: #{
reason := normal | closed | {error, any()}
}.
-callback disconnect(disconnect_event(), State) -> State.
%% terminate.
-type terminate_event() :: #{
state := not_connected | domain_lookup | connecting | tls_handshake | connected,
reason := normal | shutdown | {shutdown, any()} | any()
}.
-callback terminate(terminate_event(), State) -> State.
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