%% Copyright (c) 2011-2012, 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. %% @doc SSL transport API. %% %% Wrapper around ssl implementing the Ranch transport API. %% %% This transport requires the crypto, public_key %% and ssl applications to be started. If they aren't started, %% it will try to start them itself before opening a port to listen. %% Applications aren't stopped when the listening socket is closed, though. %% %% @see ssl -module(ranch_ssl). -behaviour(ranch_transport). -export([name/0]). -export([messages/0]). -export([listen/1]). -export([accept/2]). -export([connect/3]). -export([recv/3]). -export([send/2]). -export([sendfile/2]). -export([setopts/2]). -export([controlling_process/2]). -export([peername/1]). -export([sockname/1]). -export([close/1]). %% @doc Name of this transport, ssl. name() -> ssl. %% @doc Atoms used to identify messages in {active, once | true} mode. messages() -> {ssl, ssl_closed, ssl_error}. %% @doc Listen for connections on the given port number. %% %% Calling this function returns a listening socket that can then %% The available options are: %% %%
%%
backlog
Maximum length of the pending connections queue. %% Defaults to 1024.
%%
cacertfile
Optional. Path to file containing PEM encoded %% CA certificates (trusted certificates used for verifying a peer %% certificate).
%%
certfile
Mandatory. Path to a file containing the user's %% certificate.
%%
ciphers
Optional. The cipher suites that should be supported. %% The function ssl:cipher_suites/0 can be used to find all available %% ciphers.
%%
ip
Interface to listen on. Listen on all interfaces %% by default.
%%
keyfile
Optional. Path to the file containing the user's %% private PEM encoded key.
%%
nodelay
Optional. Enable TCP_NODELAY. Enabled by default.
%%
password
Optional. String containing the user's password. %% All private keyfiles must be password protected currently.
%%
port
TCP port number to open. Defaults to 0 (see below)
%%
verify
Optional. If set to verify_peer, performs an x509-path %% validation and request the client for a certificate.
%%
%% %% You can listen to a random port by setting the port option to 0. %% It is then possible to retrieve this port number by calling %% sockname/1 on the listening socket. If you are using Ranch's %% listener API, then this port number can obtained through %% ranch:get_port/1 instead. %% %% @see ssl:listen/2 -spec listen([{backlog, non_neg_integer()} | {cacertfile, string()} | {certfile, string()} | {ciphers, [ssl:erl_cipher_suite()] | string()} | {ip, inet:ip_address()} | {keyfile, string()} | {nodelay, boolean()} | {password, string()} | {port, inet:port_number()} | {verify, ssl:verify_type()}]) -> {ok, ssl:sslsocket()} | {error, atom()}. listen(Opts) -> ranch:require([crypto, public_key, ssl]), {certfile, _} = lists:keyfind(certfile, 1, Opts), Opts2 = ranch:set_option_default(Opts, backlog, 1024), %% We set the port to 0 because it is given in the Opts directly. %% The port in the options takes precedence over the one in the %% first argument. ssl:listen(0, ranch:filter_options(Opts2, [backlog, cacertfile, certfile, ciphers, ip, keyfile, nodelay, password, port, raw, verify], [binary, {active, false}, {packet, raw}, {reuseaddr, true}, {nodelay, true}])). %% @doc Accept connections with the given listening socket. %% %% Note that this function does both the transport accept and %% the SSL handshake. The returned socket is thus fully connected. %% %% @see ssl:transport_accept/2 %% @see ssl:ssl_accept/2 -spec accept(ssl:sslsocket(), timeout()) -> {ok, ssl:sslsocket()} | {error, closed | timeout | atom() | tuple()}. accept(LSocket, Timeout) -> case ssl:transport_accept(LSocket, Timeout) of {ok, CSocket} -> ssl_accept(CSocket, Timeout); {error, Reason} -> {error, Reason} end. %% @private Experimental. Open a connection to the given host and port number. %% @see ssl:connect/3 %% @todo Probably filter Opts? -spec connect(inet:ip_address() | inet:hostname(), inet:port_number(), any()) -> {ok, inet:socket()} | {error, atom()}. connect(Host, Port, Opts) when is_integer(Port) -> ssl:connect(Host, Port, Opts ++ [binary, {active, false}, {packet, raw}]). %% @doc Receive data from a socket in passive mode. %% @see ssl:recv/3 -spec recv(ssl:sslsocket(), non_neg_integer(), timeout()) -> {ok, any()} | {error, closed | atom()}. recv(Socket, Length, Timeout) -> ssl:recv(Socket, Length, Timeout). %% @doc Send data on a socket. %% @see ssl:send/2 -spec send(ssl:sslsocket(), iodata()) -> ok | {error, atom()}. send(Socket, Packet) -> ssl:send(Socket, Packet). %% @doc Send a file on a socket. %% %% Unlike with TCP, no syscall can be used here, so sending files %% through SSL will be much slower in comparison. %% %% @see file:sendfile/2 -spec sendfile(ssl:sslsocket(), file:name()) -> {ok, non_neg_integer()} | {error, atom()}. sendfile(Socket, Filepath) -> {ok, IoDevice} = file:open(Filepath, [read, binary, raw]), sendfile(Socket, IoDevice, 0). -spec sendfile(ssl:sslsocket(), file:io_device(), non_neg_integer()) -> {ok, non_neg_integer()} | {error, atom()}. sendfile(Socket, IoDevice, Sent) -> case file:read(IoDevice, 16#1FFF) of eof -> ok = file:close(IoDevice), {ok, Sent}; {ok, Bin} -> case send(Socket, Bin) of ok -> sendfile(Socket, IoDevice, Sent + byte_size(Bin)); {error, Reason} -> {error, Reason} end end. %% @doc Set options on the given socket. %% @see ssl:setopts/2 %% @todo Probably filter Opts? -spec setopts(ssl:sslsocket(), list()) -> ok | {error, atom()}. setopts(Socket, Opts) -> ssl:setopts(Socket, Opts). %% @doc Give control of the socket to a new process. %% %% Must be called from the process currently controlling the socket, %% otherwise an {error, not_owner} tuple will be returned. %% %% @see ssl:controlling_process/2 -spec controlling_process(ssl:sslsocket(), pid()) -> ok | {error, closed | not_owner | atom()}. controlling_process(Socket, Pid) -> ssl:controlling_process(Socket, Pid). %% @doc Return the remote address and port of the connection. %% @see ssl:peername/1 -spec peername(ssl:sslsocket()) -> {ok, {inet:ip_address(), inet:port_number()}} | {error, atom()}. peername(Socket) -> ssl:peername(Socket). %% @doc Return the local address and port of the connection. %% @see ssl:sockname/1 -spec sockname(ssl:sslsocket()) -> {ok, {inet:ip_address(), inet:port_number()}} | {error, atom()}. sockname(Socket) -> ssl:sockname(Socket). %% @doc Close the given socket. %% @see ssl:close/1 -spec close(ssl:sslsocket()) -> ok. close(Socket) -> ssl:close(Socket). %% Internal. -spec ssl_accept(ssl:sslsocket(), timeout()) -> {ok, ssl:sslsocket()} | {error, {ssl_accept, atom()}}. ssl_accept(Socket, Timeout) -> case ssl:ssl_accept(Socket, Timeout) of ok -> {ok, Socket}; {error, Reason} -> {error, {ssl_accept, Reason}} end.