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xmpp.chapril.org-ejabberd/src/ejabberd_http.erl
2024-01-22 17:29:13 +01:00

948 lines
30 KiB
Erlang

%%%----------------------------------------------------------------------
%%% File : ejabberd_http.erl
%%% Author : Alexey Shchepin <alexey@process-one.net>
%%% Purpose :
%%% Created : 27 Feb 2004 by Alexey Shchepin <alexey@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2024 ProcessOne
%%%
%%% This program is free software; you can redistribute it and/or
%%% modify it under the terms of the GNU General Public License as
%%% published by the Free Software Foundation; either version 2 of the
%%% License, or (at your option) any later version.
%%%
%%% This program is distributed in the hope that it will be useful,
%%% but WITHOUT ANY WARRANTY; without even the implied warranty of
%%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
%%% General Public License for more details.
%%%
%%% You should have received a copy of the GNU General Public License along
%%% with this program; if not, write to the Free Software Foundation, Inc.,
%%% 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
%%%
%%%----------------------------------------------------------------------
-module(ejabberd_http).
-behaviour(ejabberd_listener).
-author('alexey@process-one.net').
%% External exports
-export([start/3, start_link/3,
accept/1, receive_headers/1, recv_file/2,
listen_opt_type/1, listen_options/0,
apply_custom_headers/2]).
-export([init/3]).
-include("logger.hrl").
-include_lib("xmpp/include/xmpp.hrl").
-include("ejabberd_http.hrl").
-include("ejabberd_stacktrace.hrl").
-include_lib("kernel/include/file.hrl").
-record(state, {sockmod,
socket,
request_method,
request_version,
request_path,
request_auth,
request_keepalive,
request_content_length = 0,
request_lang = <<"en">>,
%% XXX bard: request handlers are configured in
%% ejabberd.cfg under the HTTP service. For example,
%% to have the module test_web handle requests with
%% paths starting with "/test/module":
%%
%% {5280, ejabberd_http, [http_bind, web_admin,
%% {request_handlers, [{["test", "module"], mod_test_web}]}]}
%%
request_handlers = [],
request_host,
request_port,
request_tp,
request_headers = [],
end_of_request = false,
options = [],
default_host,
custom_headers,
trail = <<>>,
addr_re,
sock_peer_name = none
}).
-define(XHTML_DOCTYPE,
<<"<?xml version='1.0'?>\n<!DOCTYPE html "
"PUBLIC \"-//W3C//DTD XHTML 1.0 Transitional//"
"EN\" \"http://www.w3.org/TR/xhtml1/DTD/xhtml1"
"-transitional.dtd\">\n">>).
-define(HTML_DOCTYPE,
<<"<!DOCTYPE html PUBLIC \"-//W3C//DTD "
"XHTML 1.0 Transitional//EN\" \"http://www.w3."
"org/TR/xhtml1/DTD/xhtml1-transitional.dtd\">\n"
"">>).
-define(RECV_BUF, 65536).
-define(SEND_BUF, 65536).
-define(MAX_POST_SIZE, 20971520). %% 20Mb
start(SockMod, Socket, Opts) ->
{ok,
proc_lib:spawn(ejabberd_http, init,
[SockMod, Socket, Opts])}.
start_link(SockMod, Socket, Opts) ->
{ok,
proc_lib:spawn_link(ejabberd_http, init,
[SockMod, Socket, Opts])}.
init(SockMod, Socket, Opts) ->
TLSEnabled = proplists:get_bool(tls, Opts),
TLSOpts1 = lists:filter(fun ({ciphers, _}) -> true;
({dhfile, _}) -> true;
({cafile, _}) -> true;
({protocol_options, _}) -> true;
(_) -> false
end,
Opts),
TLSOpts2 = case proplists:get_bool(tls_compression, Opts) of
false -> [compression_none | TLSOpts1];
true -> TLSOpts1
end,
TLSOpts3 = case ejabberd_pkix:get_certfile(
ejabberd_config:get_myname()) of
error -> TLSOpts2;
{ok, CertFile} -> [{certfile, CertFile}|TLSOpts2]
end,
TLSOpts = [verify_none | TLSOpts3],
{SockMod1, Socket1} = if TLSEnabled ->
inet:setopts(Socket, [{recbuf, ?RECV_BUF}]),
{ok, TLSSocket} = fast_tls:tcp_to_tls(Socket,
TLSOpts),
{fast_tls, TLSSocket};
true -> {SockMod, Socket}
end,
SockPeer = proplists:get_value(sock_peer_name, Opts, none),
RequestHandlers = proplists:get_value(request_handlers, Opts, []),
?DEBUG("S: ~p~n", [RequestHandlers]),
{ok, RE} = re:compile(<<"^(?:\\[(.*?)\\]|(.*?))(?::(\\d+))?$">>),
CustomHeaders = proplists:get_value(custom_headers, Opts, []),
State = #state{sockmod = SockMod1,
socket = Socket1,
custom_headers = CustomHeaders,
options = Opts,
request_handlers = RequestHandlers,
sock_peer_name = SockPeer,
addr_re = RE},
try receive_headers(State) of
V -> V
catch
{error, _} -> State
end.
accept(_Pid) ->
ok.
send_text(_State, none) ->
ok;
send_text(State, Text) ->
case (State#state.sockmod):send(State#state.socket, Text) of
ok -> ok;
{error, timeout} ->
?INFO_MSG("Timeout on ~p:send", [State#state.sockmod]),
exit(normal);
Error ->
?DEBUG("Error in ~p:send: ~p",
[State#state.sockmod, Error]),
exit(normal)
end.
send_file(State, Fd, Size, FileName) ->
try
case State#state.sockmod of
gen_tcp ->
case file:sendfile(Fd, State#state.socket, 0, Size, []) of
{ok, _} -> ok
end;
_ ->
case file:read(Fd, ?SEND_BUF) of
{ok, Data} ->
send_text(State, Data),
send_file(State, Fd, Size, FileName);
eof ->
ok
end
end
catch _:{case_clause, {error, Why}} ->
if Why /= closed ->
?WARNING_MSG("Failed to read ~ts: ~ts",
[FileName, file_format_error(Why)]),
exit(normal);
true ->
ok
end
end.
receive_headers(#state{trail = Trail} = State) ->
SockMod = State#state.sockmod,
Socket = State#state.socket,
Data = SockMod:recv(Socket, 0, 300000),
case Data of
{error, closed} when State#state.request_method == undefined ->
% socket closed without receiving anything in it
ok;
{error, Error} ->
?DEBUG("Error when retrieving http headers ~p: ~p",
[State#state.sockmod, Error]),
ok;
{ok, D} ->
parse_headers(State#state{trail = <<Trail/binary, D/binary>>})
end.
parse_headers(#state{trail = <<>>} = State) ->
receive_headers(State);
parse_headers(#state{request_method = Method,
trail = Data} =
State) ->
PktType = case Method of
undefined -> http_bin;
_ -> httph_bin
end,
case erlang:decode_packet(PktType, Data, []) of
{ok, Pkt, Rest} ->
NewState = process_header(State#state{trail = Rest}, {ok, Pkt}),
case NewState#state.end_of_request of
true -> ok;
_ -> parse_headers(NewState)
end;
{more, _} ->
receive_headers(State#state{trail = Data});
_ ->
ok
end.
process_header(State, Data) ->
SockMod = State#state.sockmod,
Socket = State#state.socket,
case Data of
{ok, {http_request, Method, Uri, Version}} ->
KeepAlive = case Version of
{1, 1} -> true;
_ -> false
end,
Path = case Uri of
{absoluteURI, _Scheme, _Host, _Port, P} ->
{abs_path, P};
{abs_path, P} ->
{abs_path, P};
_ -> Uri
end,
State#state{request_method = Method,
request_version = Version, request_path = Path,
request_keepalive = KeepAlive};
{ok, {http_header, _, 'Connection' = Name, _, Conn}} ->
KeepAlive1 = case misc:tolower(Conn) of
<<"keep-alive">> -> true;
<<"close">> -> false;
_ -> State#state.request_keepalive
end,
State#state{request_keepalive = KeepAlive1,
request_headers = add_header(Name, Conn, State)};
{ok,
{http_header, _, 'Authorization' = Name, _, Auth}} ->
State#state{request_auth = parse_auth(Auth),
request_headers = add_header(Name, Auth, State)};
{ok,
{http_header, _, 'Content-Length' = Name, _, SLen}} ->
case catch binary_to_integer(SLen) of
Len when is_integer(Len) ->
State#state{request_content_length = Len,
request_headers = add_header(Name, SLen, State)};
_ -> State
end;
{ok,
{http_header, _, 'Accept-Language' = Name, _, Langs}} ->
State#state{request_lang = parse_lang(Langs),
request_headers = add_header(Name, Langs, State)};
{ok, {http_header, _, 'Host' = Name, _, Value}} ->
{Host, Port, TP} = get_transfer_protocol(State#state.addr_re, SockMod, Value),
State#state{request_host = Host,
request_port = Port,
request_tp = TP,
request_headers = add_header(Name, Value, State)};
{ok, {http_header, _, Name, _, Value}} when is_binary(Name) ->
State#state{request_headers =
add_header(normalize_header_name(Name), Value, State)};
{ok, {http_header, _, Name, _, Value}} ->
State#state{request_headers =
add_header(Name, Value, State)};
{ok, http_eoh} when State#state.request_host == undefined;
State#state.request_host == error ->
{State1, Out} = process_request(State),
send_text(State1, Out),
process_header(State, {ok, {http_error, <<>>}});
{ok, http_eoh} ->
?DEBUG("(~w) http query: ~w ~p~n",
[State#state.socket, State#state.request_method,
element(2, State#state.request_path)]),
{State3, Out} = process_request(State),
send_text(State3, Out),
case State3#state.request_keepalive of
true ->
#state{sockmod = SockMod, socket = Socket,
trail = State3#state.trail,
options = State#state.options,
default_host = State#state.default_host,
custom_headers = State#state.custom_headers,
request_handlers = State#state.request_handlers,
addr_re = State#state.addr_re};
_ ->
#state{end_of_request = true,
trail = State3#state.trail,
options = State#state.options,
default_host = State#state.default_host,
custom_headers = State#state.custom_headers,
request_handlers = State#state.request_handlers,
addr_re = State#state.addr_re}
end;
_ ->
#state{end_of_request = true,
options = State#state.options,
default_host = State#state.default_host,
custom_headers = State#state.custom_headers,
request_handlers = State#state.request_handlers,
addr_re = State#state.addr_re}
end.
add_header(Name, Value, State)->
[{Name, Value} | State#state.request_headers].
get_transfer_protocol(RE, SockMod, HostPort) ->
{Proto, DefPort} = case SockMod of
gen_tcp -> {http, 80};
fast_tls -> {https, 443}
end,
{Host, Port} = case re:run(HostPort, RE, [{capture,[1,2,3],binary}]) of
nomatch ->
{error, DefPort};
{match, [<<>>, H, <<>>]} ->
{jid:nameprep(H), DefPort};
{match, [H, <<>>, <<>>]} ->
{jid:nameprep(H), DefPort};
{match, [<<>>, H, PortStr]} ->
{jid:nameprep(H), binary_to_integer(PortStr)};
{match, [H, <<>>, PortStr]} ->
{jid:nameprep(H), binary_to_integer(PortStr)}
end,
{Host, Port, Proto}.
%% XXX bard: search through request handlers looking for one that
%% matches the requested URL path, and pass control to it. If none is
%% found, answer with HTTP 404.
process([], _) -> ejabberd_web:error(not_found);
process(Handlers, Request) ->
{HandlerPathPrefix, HandlerModule, HandlerOpts, HandlersLeft} =
case Handlers of
[{Pfx, Mod} | Tail] ->
{Pfx, Mod, [], Tail};
[{Pfx, Mod, Opts} | Tail] ->
{Pfx, Mod, Opts, Tail}
end,
case (lists:prefix(HandlerPathPrefix, Request#request.path) or
(HandlerPathPrefix==Request#request.path)) of
true ->
?DEBUG("~p matches ~p", [Request#request.path, HandlerPathPrefix]),
%% LocalPath is the path "local to the handler", i.e. if
%% the handler was registered to handle "/test/" and the
%% requested path is "/test/foo/bar", the local path is
%% ["foo", "bar"]
LocalPath = lists:nthtail(length(HandlerPathPrefix), Request#request.path),
R = case erlang:function_exported(HandlerModule, socket_handoff, 3) of
true ->
HandlerModule:socket_handoff(
LocalPath, Request, HandlerOpts);
false ->
try
HandlerModule:process(LocalPath, Request)
catch
?EX_RULE(Class, Reason, Stack) ->
?ERROR_MSG(
"HTTP handler crashed: ~s",
[misc:format_exception(2, Class, Reason, ?EX_STACK(Stack))]),
erlang:raise(Class, Reason, ?EX_STACK(Stack))
end
end,
ejabberd_hooks:run(http_request_debug, [{LocalPath, Request}]),
R;
false ->
process(HandlersLeft, Request)
end.
extract_path_query(#state{request_method = Method,
request_path = {abs_path, Path}} = State)
when Method =:= 'GET' orelse
Method =:= 'HEAD' orelse
Method =:= 'DELETE' orelse Method =:= 'OPTIONS' ->
case catch url_decode_q_split_normalize(Path) of
{'EXIT', Error} ->
?DEBUG("Error decoding URL '~p': ~p", [Path, Error]),
{State, false};
{LPath, Query} ->
LQuery = case catch parse_urlencoded(Query) of
{'EXIT', _Reason} -> [];
LQ -> LQ
end,
{State, {LPath, LQuery, <<"">>, Path}}
end;
extract_path_query(#state{request_method = Method,
request_path = {abs_path, Path},
request_content_length = Len,
trail = Trail,
sockmod = _SockMod,
socket = _Socket} = State)
when (Method =:= 'POST' orelse Method =:= 'PUT') andalso Len>0 ->
case catch url_decode_q_split_normalize(Path) of
{'EXIT', Error} ->
?DEBUG("Error decoding URL '~p': ~p", [Path, Error]),
{State, false};
{LPath, _Query} ->
case Method of
'PUT' ->
{State, {LPath, [], Trail, Path}};
'POST' ->
case recv_data(State) of
{ok, Data} ->
LQuery = case catch parse_urlencoded(Data) of
{'EXIT', _Reason} -> [];
LQ -> LQ
end,
{State, {LPath, LQuery, Data, Path}};
error ->
{State, false}
end
end
end;
extract_path_query(State) ->
{State, false}.
process_request(#state{request_host = undefined,
custom_headers = CustomHeaders} = State) ->
{State, make_text_output(State, 400, CustomHeaders,
<<"Missing Host header">>)};
process_request(#state{request_host = error,
custom_headers = CustomHeaders} = State) ->
{State, make_text_output(State, 400, CustomHeaders,
<<"Malformed Host header">>)};
process_request(#state{request_method = Method,
request_auth = Auth,
request_lang = Lang,
request_version = Version,
sockmod = SockMod,
socket = Socket,
sock_peer_name = SockPeer,
options = Options,
request_host = Host,
request_port = Port,
request_tp = TP,
request_content_length = Length,
request_headers = RequestHeaders,
request_handlers = RequestHandlers,
custom_headers = CustomHeaders} = State) ->
case proplists:get_value(<<"Expect">>, RequestHeaders, <<>>) of
<<"100-", _/binary>> when Version == {1, 1} ->
send_text(State, <<"HTTP/1.1 100 Continue\r\n\r\n">>);
_ ->
ok
end,
case extract_path_query(State) of
{State2, false} ->
{State2, make_bad_request(State)};
{State2, {LPath, LQuery, Data, RawPath}} ->
PeerName = case SockPeer of
none ->
case SockMod of
gen_tcp ->
inet:peername(Socket);
_ ->
SockMod:peername(Socket)
end;
{_, Peer} ->
{ok, Peer}
end,
IPHere = case PeerName of
{ok, V} -> V;
{error, _} = E -> throw(E)
end,
XFF = proplists:get_value('X-Forwarded-For', RequestHeaders, []),
IP = analyze_ip_xff(IPHere, XFF),
Request = #request{method = Method,
path = LPath,
raw_path = RawPath,
q = LQuery,
auth = Auth,
length = Length,
sockmod = SockMod,
socket = Socket,
data = Data,
lang = Lang,
host = Host,
port = Port,
tp = TP,
opts = Options,
headers = RequestHeaders,
ip = IP},
RequestHandlers1 = ejabberd_hooks:run_fold(
http_request_handlers, RequestHandlers, [Host, Request]),
Res = case process(RequestHandlers1, Request) of
El when is_record(El, xmlel) ->
make_xhtml_output(State, 200, CustomHeaders, El);
{Status, Headers, El}
when is_record(El, xmlel) ->
make_xhtml_output(State, Status,
apply_custom_headers(Headers, CustomHeaders), El);
Output when is_binary(Output) or is_list(Output) ->
make_text_output(State, 200, CustomHeaders, Output);
{Status, Headers, Output}
when is_binary(Output) or is_list(Output) ->
make_text_output(State, Status,
apply_custom_headers(Headers, CustomHeaders), Output);
{Status, Headers, {file, FileName}} ->
make_file_output(State, Status, Headers, FileName);
{Status, Reason, Headers, Output}
when is_binary(Output) or is_list(Output) ->
make_text_output(State, Status, Reason,
apply_custom_headers(Headers, CustomHeaders), Output);
_ ->
none
end,
{State2#state{trail = <<>>}, Res}
end.
make_bad_request(State) ->
make_xhtml_output(State, 400, State#state.custom_headers,
ejabberd_web:make_xhtml([#xmlel{name = <<"h1">>,
attrs = [],
children =
[{xmlcdata,
<<"400 Bad Request">>}]}])).
analyze_ip_xff(IP, []) -> IP;
analyze_ip_xff({IPLast, Port}, XFF) ->
[ClientIP | ProxiesIPs] = str:tokens(XFF, <<", ">>) ++
[misc:ip_to_list(IPLast)],
TrustedProxies = ejabberd_option:trusted_proxies(),
IPClient = case is_ipchain_trusted(ProxiesIPs,
TrustedProxies)
of
true ->
case inet_parse:address(binary_to_list(ClientIP)) of
{ok, IPFirst} ->
?DEBUG("The IP ~w was replaced with ~w due to "
"header X-Forwarded-For: ~ts",
[IPLast, IPFirst, XFF]),
IPFirst;
E -> throw(E)
end;
false -> IPLast
end,
{IPClient, Port}.
is_ipchain_trusted([], _) -> false;
is_ipchain_trusted(_UserIPs, all) -> true;
is_ipchain_trusted(UserIPs, Masks) ->
lists:all(
fun(IP) ->
case inet:parse_address(binary_to_list(IP)) of
{ok, IP2} ->
lists:any(
fun({Mask, MaskLen}) ->
misc:match_ip_mask(IP2, Mask, MaskLen)
end, Masks);
_ ->
false
end
end, UserIPs).
recv_data(#state{request_content_length = Len}) when Len >= ?MAX_POST_SIZE ->
error;
recv_data(#state{request_content_length = Len, trail = Trail,
sockmod = SockMod, socket = Socket}) ->
NewLen = Len - byte_size(Trail),
if NewLen > 0 ->
case SockMod:recv(Socket, NewLen, 60000) of
{ok, Data} -> {ok, <<Trail/binary, Data/binary>>};
{error, _} -> error
end;
true ->
{ok, Trail}
end.
recv_file(#request{length = Len, data = Trail,
sockmod = SockMod, socket = Socket}, Path) ->
case file:open(Path, [write, exclusive, raw]) of
{ok, Fd} ->
Res = case file:write(Fd, Trail) of
ok ->
NewLen = max(0, Len - byte_size(Trail)),
do_recv_file(NewLen, SockMod, Socket, Fd);
{error, _} = Err ->
Err
end,
file:close(Fd),
case Res of
ok -> ok;
{error, _} -> file:delete(Path)
end,
Res;
{error, _} = Err ->
Err
end.
do_recv_file(0, _SockMod, _Socket, _Fd) ->
ok;
do_recv_file(Len, SockMod, Socket, Fd) ->
ChunkLen = min(Len, ?RECV_BUF),
case SockMod:recv(Socket, ChunkLen, timer:seconds(30)) of
{ok, Data} ->
case file:write(Fd, Data) of
ok ->
do_recv_file(Len-size(Data), SockMod, Socket, Fd);
{error, _} = Err ->
Err
end;
{error, _} ->
{error, closed}
end.
make_headers(State, Status, Reason, Headers, Data) ->
Len = if is_integer(Data) -> Data;
true -> iolist_size(Data)
end,
Headers1 = [{<<"Content-Length">>, integer_to_binary(Len)} | Headers],
Headers2 = case lists:keyfind(<<"Content-Type">>, 1, Headers) of
{_, _} ->
Headers1;
false ->
[{<<"Content-Type">>, <<"text/html; charset=utf-8">>}
| Headers1]
end,
HeadersOut = case {State#state.request_version,
State#state.request_keepalive} of
{{1, 1}, true} -> Headers2;
{_, true} ->
[{<<"Connection">>, <<"keep-alive">>} | Headers2];
{_, false} ->
[{<<"Connection">>, <<"close">>} | Headers2]
end,
Version = case State#state.request_version of
{1, 1} -> <<"HTTP/1.1 ">>;
_ -> <<"HTTP/1.0 ">>
end,
H = [[Attr, <<": ">>, Val, <<"\r\n">>] || {Attr, Val} <- HeadersOut],
NewReason = case Reason of
<<"">> -> code_to_phrase(Status);
_ -> Reason
end,
SL = [Version,
integer_to_binary(Status), <<" ">>,
NewReason, <<"\r\n">>],
[SL, H, <<"\r\n">>].
make_xhtml_output(State, Status, Headers, XHTML) ->
Data = case State#state.request_method of
'HEAD' -> <<"">>;
_ ->
DocType = case lists:member(html, Headers) of
true -> ?HTML_DOCTYPE;
false -> ?XHTML_DOCTYPE
end,
iolist_to_binary([DocType, fxml:element_to_binary(XHTML)])
end,
EncodedHdrs = make_headers(State, Status, <<"">>, Headers, Data),
[EncodedHdrs, Data].
make_text_output(State, Status, Headers, Text) ->
make_text_output(State, Status, <<"">>, Headers, Text).
make_text_output(State, Status, Reason, Headers, Text) ->
Data = iolist_to_binary(Text),
Data2 = case State#state.request_method of
'HEAD' -> <<"">>;
_ -> Data
end,
EncodedHdrs = make_headers(State, Status, Reason, Headers, Data2),
[EncodedHdrs, Data2].
make_file_output(State, Status, Headers, FileName) ->
case file:read_file_info(FileName) of
{ok, #file_info{size = Size}} when State#state.request_method == 'HEAD' ->
make_headers(State, Status, <<"">>, Headers, Size);
{ok, #file_info{size = Size}} ->
case file:open(FileName, [raw, read]) of
{ok, Fd} ->
EncodedHdrs = make_headers(State, Status, <<"">>, Headers, Size),
send_text(State, EncodedHdrs),
send_file(State, Fd, Size, FileName),
file:close(Fd),
none;
{error, Why} ->
Reason = file_format_error(Why),
?ERROR_MSG("Failed to open ~ts: ~ts", [FileName, Reason]),
make_text_output(State, 404, Reason, [], <<>>)
end;
{error, Why} ->
Reason = file_format_error(Why),
?ERROR_MSG("Failed to read info of ~ts: ~ts", [FileName, Reason]),
make_text_output(State, 404, Reason, [], <<>>)
end.
parse_lang(Langs) ->
case str:tokens(Langs, <<",; ">>) of
[First | _] -> First;
[] -> <<"en">>
end.
file_format_error(Reason) ->
case file:format_error(Reason) of
"unknown POSIX error" -> atom_to_list(Reason);
Text -> Text
end.
url_decode_q_split_normalize(Path) ->
{NPath, Query} = url_decode_q_split(Path),
LPath = normalize_path([NPE
|| NPE <- str:tokens(path_decode(NPath), <<"/">>)]),
{LPath, Query}.
% Code below is taken (with some modifications) from the yaws webserver, which
% is distributed under the following license:
%
% This software (the yaws webserver) is free software.
% Parts of this software is Copyright (c) Claes Wikstrom <klacke@hyber.org>
% Any use or misuse of the source code is hereby freely allowed.
%
% 1. Redistributions of source code must retain the above copyright
% notice as well as this list of conditions.
%
% 2. Redistributions in binary form must reproduce the above copyright
% notice as well as this list of conditions.
%% @doc Split the URL and return {Path, QueryPart}
url_decode_q_split(Path) ->
url_decode_q_split(Path, <<>>).
url_decode_q_split(<<$?, T/binary>>, Acc) ->
%% Don't decode the query string here, that is parsed separately.
{path_norm_reverse(Acc), T};
url_decode_q_split(<<H, T/binary>>, Acc) when H /= 0 ->
url_decode_q_split(T, <<H, Acc/binary>>);
url_decode_q_split(<<>>, Ack) ->
{path_norm_reverse(Ack), <<>>}.
%% @doc Decode a part of the URL and return string()
path_decode(Path) -> path_decode(Path, <<>>).
path_decode(<<$%, Hi, Lo, Tail/binary>>, Acc) ->
Hex = list_to_integer([Hi, Lo], 16),
if Hex == 0 -> exit(badurl);
true -> ok
end,
path_decode(Tail, <<Acc/binary, Hex>>);
path_decode(<<H, T/binary>>, Acc) when H /= 0 ->
path_decode(T, <<Acc/binary, H>>);
path_decode(<<>>, Acc) -> Acc.
path_norm_reverse(<<"/", T/binary>>) -> start_dir(0, <<"/">>, T);
path_norm_reverse(T) -> start_dir(0, <<"">>, T).
start_dir(N, Path, <<"..">>) -> rest_dir(N, Path, <<"">>);
start_dir(N, Path, <<"/", T/binary>>) -> start_dir(N, Path, T);
start_dir(N, Path, <<"./", T/binary>>) -> start_dir(N, Path, T);
start_dir(N, Path, <<"../", T/binary>>) ->
start_dir(N + 1, Path, T);
start_dir(N, Path, T) -> rest_dir(N, Path, T).
rest_dir(_N, Path, <<>>) ->
case Path of
<<>> -> <<"/">>;
_ -> Path
end;
rest_dir(0, Path, <<$/, T/binary>>) ->
start_dir(0, <<$/, Path/binary>>, T);
rest_dir(N, Path, <<$/, T/binary>>) ->
start_dir(N - 1, Path, T);
rest_dir(0, Path, <<H, T/binary>>) ->
rest_dir(0, <<H, Path/binary>>, T);
rest_dir(N, Path, <<_H, T/binary>>) -> rest_dir(N, Path, T).
code_to_phrase(100) -> <<"Continue">>;
code_to_phrase(101) -> <<"Switching Protocols ">>;
code_to_phrase(200) -> <<"OK">>;
code_to_phrase(201) -> <<"Created">>;
code_to_phrase(202) -> <<"Accepted">>;
code_to_phrase(203) ->
<<"Non-Authoritative Information">>;
code_to_phrase(204) -> <<"No Content">>;
code_to_phrase(205) -> <<"Reset Content">>;
code_to_phrase(206) -> <<"Partial Content">>;
code_to_phrase(300) -> <<"Multiple Choices">>;
code_to_phrase(301) -> <<"Moved Permanently">>;
code_to_phrase(302) -> <<"Found">>;
code_to_phrase(303) -> <<"See Other">>;
code_to_phrase(304) -> <<"Not Modified">>;
code_to_phrase(305) -> <<"Use Proxy">>;
code_to_phrase(306) -> <<"(Unused)">>;
code_to_phrase(307) -> <<"Temporary Redirect">>;
code_to_phrase(400) -> <<"Bad Request">>;
code_to_phrase(401) -> <<"Unauthorized">>;
code_to_phrase(402) -> <<"Payment Required">>;
code_to_phrase(403) -> <<"Forbidden">>;
code_to_phrase(404) -> <<"Not Found">>;
code_to_phrase(405) -> <<"Method Not Allowed">>;
code_to_phrase(406) -> <<"Not Acceptable">>;
code_to_phrase(407) ->
<<"Proxy Authentication Required">>;
code_to_phrase(408) -> <<"Request Timeout">>;
code_to_phrase(409) -> <<"Conflict">>;
code_to_phrase(410) -> <<"Gone">>;
code_to_phrase(411) -> <<"Length Required">>;
code_to_phrase(412) -> <<"Precondition Failed">>;
code_to_phrase(413) -> <<"Request Entity Too Large">>;
code_to_phrase(414) -> <<"Request-URI Too Long">>;
code_to_phrase(415) -> <<"Unsupported Media Type">>;
code_to_phrase(416) ->
<<"Requested Range Not Satisfiable">>;
code_to_phrase(417) -> <<"Expectation Failed">>;
code_to_phrase(500) -> <<"Internal Server Error">>;
code_to_phrase(501) -> <<"Not Implemented">>;
code_to_phrase(502) -> <<"Bad Gateway">>;
code_to_phrase(503) -> <<"Service Unavailable">>;
code_to_phrase(504) -> <<"Gateway Timeout">>;
code_to_phrase(505) -> <<"HTTP Version Not Supported">>.
-spec parse_auth(binary()) -> {binary(), binary()} | {oauth, binary(), []} | invalid.
parse_auth(<<"Basic ", Auth64/binary>>) ->
try base64:decode(Auth64) of
Auth ->
case binary:split(Auth, <<":">>) of
[User, Pass] ->
PassUtf8 = unicode:characters_to_binary(Pass, utf8),
{User, PassUtf8};
_ ->
invalid
end
catch _:_ ->
invalid
end;
parse_auth(<<"Bearer ", SToken/binary>>) ->
Token = str:strip(SToken),
{oauth, Token, []};
parse_auth(<<_/binary>>) ->
invalid.
parse_urlencoded(S) ->
parse_urlencoded(S, nokey, <<>>, key).
parse_urlencoded(<<$%, Hi, Lo, Tail/binary>>, Last, Cur,
State) ->
Hex = list_to_integer([Hi, Lo], 16),
parse_urlencoded(Tail, Last, <<Cur/binary, Hex>>, State);
parse_urlencoded(<<$&, Tail/binary>>, _Last, Cur, key) ->
[{Cur, <<"">>} | parse_urlencoded(Tail,
nokey, <<>>,
key)]; %% cont keymode
parse_urlencoded(<<$&, Tail/binary>>, Last, Cur, value) ->
V = {Last, Cur},
[V | parse_urlencoded(Tail, nokey, <<>>, key)];
parse_urlencoded(<<$+, Tail/binary>>, Last, Cur, State) ->
parse_urlencoded(Tail, Last, <<Cur/binary, $\s>>, State);
parse_urlencoded(<<$=, Tail/binary>>, _Last, Cur, key) ->
parse_urlencoded(Tail, Cur, <<>>,
value); %% change mode
parse_urlencoded(<<H, Tail/binary>>, Last, Cur, State) ->
parse_urlencoded(Tail, Last, <<Cur/binary, H>>, State);
parse_urlencoded(<<>>, Last, Cur, _State) ->
[{Last, Cur}];
parse_urlencoded(undefined, _, _, _) -> [].
apply_custom_headers(Headers, CustomHeaders) ->
{Doctype, Headers2} = case Headers -- [html] of
Headers -> {[], Headers};
Other -> {[html], Other}
end,
M = maps:merge(maps:from_list(Headers2),
maps:from_list(CustomHeaders)),
Doctype ++ maps:to_list(M).
% The following code is mostly taken from yaws_ssl.erl
toupper(C) when C >= $a andalso C =< $z -> C - 32;
toupper(C) -> C.
tolower(C) when C >= $A andalso C =< $Z -> C + 32;
tolower(C) -> C.
normalize_header_name(Name) ->
normalize_header_name(Name, [], true).
normalize_header_name(<<"">>, Acc, _) ->
iolist_to_binary(Acc);
normalize_header_name(<<"-", Rest/binary>>, Acc, _) ->
normalize_header_name(Rest, [Acc, "-"], true);
normalize_header_name(<<C:8, Rest/binary>>, Acc, true) ->
normalize_header_name(Rest, [Acc, toupper(C)], false);
normalize_header_name(<<C:8, Rest/binary>>, Acc, false) ->
normalize_header_name(Rest, [Acc, tolower(C)], false).
normalize_path(Path) ->
normalize_path(Path, []).
normalize_path([], Norm) -> lists:reverse(Norm);
normalize_path([<<"..">>|Path], Norm) ->
normalize_path(Path, Norm);
normalize_path([_Parent, <<"..">>|Path], Norm) ->
normalize_path(Path, Norm);
normalize_path([Part | Path], Norm) ->
normalize_path(Path, [Part|Norm]).
listen_opt_type(tag) ->
econf:binary();
listen_opt_type(request_handlers) ->
econf:map(
econf:and_then(
econf:binary(),
fun(Path) -> str:tokens(Path, <<"/">>) end),
econf:beam([[{socket_handoff, 3}, {process, 2}]]));
listen_opt_type(default_host) ->
econf:domain();
listen_opt_type(custom_headers) ->
econf:map(
econf:binary(),
econf:and_then(
econf:binary(),
fun(V) ->
misc:expand_keyword(<<"@VERSION@">>, V,
ejabberd_option:version())
end)).
listen_options() ->
[{ciphers, undefined},
{dhfile, undefined},
{cafile, undefined},
{protocol_options, undefined},
{tls, false},
{tls_compression, false},
{request_handlers, []},
{tag, <<>>},
{default_host, undefined},
{custom_headers, []}].