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|
%% Copyright (c) 2011, Loïc Hoguin <[email protected]>
%% Copyright (c) 2011, Anthony Ramine <[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.
%% @doc HTTP request manipulation API.
%%
%% Almost all functions in this module return a new <em>Req</em> variable.
%% It should always be used instead of the one used in your function call
%% because it keeps the state of the request. It also allows Cowboy to do
%% some lazy evaluation and cache results where possible.
-module(cowboy_http_req).
-export([
method/1, version/1, peer/1,
host/1, host_info/1, raw_host/1, port/1,
path/1, path_info/1, raw_path/1,
qs_val/2, qs_val/3, qs_vals/1, raw_qs/1,
binding/2, binding/3, bindings/1,
header/2, header/3, headers/1,
parse_header/2, parse_header/3,
cookie/2, cookie/3, cookies/1
]). %% Request API.
-export([
body/1, body/2, body_qs/1
]). %% Request Body API.
-export([
reply/2, reply/3, reply/4,
chunked_reply/2, chunked_reply/3, chunk/2,
upgrade_reply/3
]). %% Response API.
-export([
compact/1
]). %% Misc API.
-include("include/http.hrl").
-include_lib("eunit/include/eunit.hrl").
%% Request API.
%% @doc Return the HTTP method of the request.
-spec method(#http_req{}) -> {http_method(), #http_req{}}.
method(Req) ->
{Req#http_req.method, Req}.
%% @doc Return the HTTP version used for the request.
-spec version(#http_req{}) -> {http_version(), #http_req{}}.
version(Req) ->
{Req#http_req.version, Req}.
%% @doc Return the peer address and port number of the remote host.
-spec peer(#http_req{}) -> {{inet:ip_address(), inet:ip_port()}, #http_req{}}.
peer(Req=#http_req{socket=Socket, transport=Transport, peer=undefined}) ->
{ok, Peer} = Transport:peername(Socket),
{Peer, Req#http_req{peer=Peer}};
peer(Req) ->
{Req#http_req.peer, Req}.
%% @doc Return the tokens for the hostname requested.
-spec host(#http_req{}) -> {cowboy_dispatcher:tokens(), #http_req{}}.
host(Req) ->
{Req#http_req.host, Req}.
%% @doc Return the extra host information obtained from partially matching
%% the hostname using <em>'...'</em>.
-spec host_info(#http_req{})
-> {cowboy_dispatcher:tokens() | undefined, #http_req{}}.
host_info(Req) ->
{Req#http_req.host_info, Req}.
%% @doc Return the raw host directly taken from the request.
-spec raw_host(#http_req{}) -> {binary(), #http_req{}}.
raw_host(Req) ->
{Req#http_req.raw_host, Req}.
%% @doc Return the port used for this request.
-spec port(#http_req{}) -> {inet:ip_port(), #http_req{}}.
port(Req) ->
{Req#http_req.port, Req}.
%% @doc Return the path segments for the path requested.
%%
%% Following RFC2396, this function may return path segments containing any
%% character, including <em>/</em> if, and only if, a <em>/</em> was escaped
%% and part of a path segment in the path requested.
-spec path(#http_req{}) -> {cowboy_dispatcher:tokens(), #http_req{}}.
path(Req) ->
{Req#http_req.path, Req}.
%% @doc Return the extra path information obtained from partially matching
%% the patch using <em>'...'</em>.
-spec path_info(#http_req{})
-> {cowboy_dispatcher:tokens() | undefined, #http_req{}}.
path_info(Req) ->
{Req#http_req.path_info, Req}.
%% @doc Return the raw path directly taken from the request.
-spec raw_path(#http_req{}) -> {binary(), #http_req{}}.
raw_path(Req) ->
{Req#http_req.raw_path, Req}.
%% @equiv qs_val(Name, Req, undefined)
-spec qs_val(binary(), #http_req{})
-> {binary() | true | undefined, #http_req{}}.
qs_val(Name, Req) when is_binary(Name) ->
qs_val(Name, Req, undefined).
%% @doc Return the query string value for the given key, or a default if
%% missing.
-spec qs_val(binary(), #http_req{}, Default)
-> {binary() | true | Default, #http_req{}} when Default::any().
qs_val(Name, Req=#http_req{raw_qs=RawQs, qs_vals=undefined}, Default)
when is_binary(Name) ->
QsVals = parse_qs(RawQs),
qs_val(Name, Req#http_req{qs_vals=QsVals}, Default);
qs_val(Name, Req, Default) ->
case lists:keyfind(Name, 1, Req#http_req.qs_vals) of
{Name, Value} -> {Value, Req};
false -> {Default, Req}
end.
%% @doc Return the full list of query string values.
-spec qs_vals(#http_req{}) -> {list({binary(), binary() | true}), #http_req{}}.
qs_vals(Req=#http_req{raw_qs=RawQs, qs_vals=undefined}) ->
QsVals = parse_qs(RawQs),
qs_vals(Req#http_req{qs_vals=QsVals});
qs_vals(Req=#http_req{qs_vals=QsVals}) ->
{QsVals, Req}.
%% @doc Return the raw query string directly taken from the request.
-spec raw_qs(#http_req{}) -> {binary(), #http_req{}}.
raw_qs(Req) ->
{Req#http_req.raw_qs, Req}.
%% @equiv binding(Name, Req, undefined)
-spec binding(atom(), #http_req{}) -> {binary() | undefined, #http_req{}}.
binding(Name, Req) when is_atom(Name) ->
binding(Name, Req, undefined).
%% @doc Return the binding value for the given key obtained when matching
%% the host and path against the dispatch list, or a default if missing.
-spec binding(atom(), #http_req{}, Default)
-> {binary() | Default, #http_req{}} when Default::any().
binding(Name, Req, Default) when is_atom(Name) ->
case lists:keyfind(Name, 1, Req#http_req.bindings) of
{Name, Value} -> {Value, Req};
false -> {Default, Req}
end.
%% @doc Return the full list of binding values.
-spec bindings(#http_req{}) -> {list({atom(), binary()}), #http_req{}}.
bindings(Req) ->
{Req#http_req.bindings, Req}.
%% @equiv header(Name, Req, undefined)
-spec header(atom() | binary(), #http_req{})
-> {binary() | undefined, #http_req{}}.
header(Name, Req) when is_atom(Name) orelse is_binary(Name) ->
header(Name, Req, undefined).
%% @doc Return the header value for the given key, or a default if missing.
-spec header(atom() | binary(), #http_req{}, Default)
-> {binary() | Default, #http_req{}} when Default::any().
header(Name, Req, Default) when is_atom(Name) orelse is_binary(Name) ->
case lists:keyfind(Name, 1, Req#http_req.headers) of
{Name, Value} -> {Value, Req};
false -> {Default, Req}
end.
%% @doc Return the full list of headers.
-spec headers(#http_req{}) -> {http_headers(), #http_req{}}.
headers(Req) ->
{Req#http_req.headers, Req}.
%% @doc Semantically parse headers.
%%
%% When the value isn't found, a proper default value for the type
%% returned is used as a return value.
%% @see parse_header/3
-spec parse_header(http_header(), #http_req{})
-> {tokens, [binary()], #http_req{}}
| {undefined, binary(), #http_req{}}
| {error, badarg}.
parse_header('Connection', Req) ->
parse_header('Connection', Req, []);
parse_header(Name, Req) ->
parse_header(Name, Req, undefined).
%% @doc Semantically parse headers.
%%
%% When the header is known, a named tuple is returned containing
%% {Type, P, Req} with Type being the type of value found in P.
%% For example, the header 'Connection' is a list of tokens, therefore
%% the value returned will be a list of binary values and Type will be
%% 'tokens'.
%%
%% When the header is known but not found, the tuple {Type, Default, Req}
%% is returned instead.
%%
%% When the header is unknown, the value is returned directly as an
%% 'undefined' tagged tuple.
-spec parse_header(http_header(), #http_req{}, any())
-> {tokens, [binary()], #http_req{}}
| {undefined, binary(), #http_req{}}
| {error, badarg}.
parse_header(Name, Req=#http_req{p_headers=PHeaders}, Default)
when Name =:= 'Connection' ->
case header(Name, Req) of
{undefined, Req2} -> {tokens, Default, Req2};
{Value, Req2} ->
case cowboy_http:nonempty_list(Value, fun cowboy_http:token_ci/2) of
{error, badarg} ->
{error, badarg};
P ->
{tokens, P, Req2#http_req{
p_headers=[{Name, P}|PHeaders]}}
end
end;
parse_header(Name, Req, Default) ->
{Value, Req2} = header(Name, Req, Default),
{undefined, Value, Req2}.
%% @equiv cookie(Name, Req, undefined)
-spec cookie(binary(), #http_req{})
-> {binary() | true | undefined, #http_req{}}.
cookie(Name, Req) when is_binary(Name) ->
cookie(Name, Req, undefined).
%% @doc Return the cookie value for the given key, or a default if
%% missing.
-spec cookie(binary(), #http_req{}, Default)
-> {binary() | true | Default, #http_req{}} when Default::any().
cookie(Name, Req=#http_req{cookies=undefined}, Default) when is_binary(Name) ->
case header('Cookie', Req) of
{undefined, Req2} ->
{Default, Req2#http_req{cookies=[]}};
{RawCookie, Req2} ->
Cookies = cowboy_cookies:parse_cookie(RawCookie),
cookie(Name, Req2#http_req{cookies=Cookies}, Default)
end;
cookie(Name, Req, Default) ->
case lists:keyfind(Name, 1, Req#http_req.cookies) of
{Name, Value} -> {Value, Req};
false -> {Default, Req}
end.
%% @doc Return the full list of cookie values.
-spec cookies(#http_req{}) -> {list({binary(), binary() | true}), #http_req{}}.
cookies(Req=#http_req{cookies=undefined}) ->
case header('Cookie', Req) of
{undefined, Req2} ->
{[], Req2#http_req{cookies=[]}};
{RawCookie, Req2} ->
Cookies = cowboy_cookies:parse_cookie(RawCookie),
cookies(Req2#http_req{cookies=Cookies})
end;
cookies(Req=#http_req{cookies=Cookies}) ->
{Cookies, Req}.
%% Request Body API.
%% @doc Return the full body sent with the request, or <em>{error, badarg}</em>
%% if no <em>Content-Length</em> is available.
%% @todo We probably want to allow a max length.
-spec body(#http_req{}) -> {ok, binary(), #http_req{}} | {error, atom()}.
body(Req) ->
{Length, Req2} = cowboy_http_req:header('Content-Length', Req),
case Length of
undefined -> {error, badarg};
_Any ->
Length2 = list_to_integer(binary_to_list(Length)),
body(Length2, Req2)
end.
%% @doc Return <em>Length</em> bytes of the request body.
%%
%% You probably shouldn't be calling this function directly, as it expects the
%% <em>Length</em> argument to be the full size of the body, and will consider
%% the body to be fully read from the socket.
%% @todo We probably want to configure the timeout.
-spec body(non_neg_integer(), #http_req{})
-> {ok, binary(), #http_req{}} | {error, atom()}.
body(Length, Req=#http_req{body_state=waiting, buffer=Buffer})
when Length =:= byte_size(Buffer) ->
{ok, Buffer, Req#http_req{body_state=done, buffer= <<>>}};
body(Length, Req=#http_req{socket=Socket, transport=Transport,
body_state=waiting, buffer=Buffer})
when is_integer(Length) andalso Length > byte_size(Buffer) ->
case Transport:recv(Socket, Length - byte_size(Buffer), 5000) of
{ok, Body} -> {ok, << Buffer/binary, Body/binary >>,
Req#http_req{body_state=done, buffer= <<>>}};
{error, Reason} -> {error, Reason}
end.
%% @doc Return the full body sent with the reqest, parsed as an
%% application/x-www-form-urlencoded string. Essentially a POST query string.
-spec body_qs(#http_req{}) -> {list({binary(), binary() | true}), #http_req{}}.
body_qs(Req) ->
{ok, Body, Req2} = body(Req),
{parse_qs(Body), Req2}.
%% Response API.
%% @equiv reply(Status, [], [], Req)
-spec reply(http_status(), #http_req{}) -> {ok, #http_req{}}.
reply(Status, Req) ->
reply(Status, [], [], Req).
%% @equiv reply(Status, Headers, [], Req)
-spec reply(http_status(), http_headers(), #http_req{}) -> {ok, #http_req{}}.
reply(Status, Headers, Req) ->
reply(Status, Headers, [], Req).
%% @doc Send a reply to the client.
-spec reply(http_status(), http_headers(), iodata(), #http_req{})
-> {ok, #http_req{}}.
reply(Status, Headers, Body, Req=#http_req{socket=Socket,
transport=Transport, connection=Connection,
method=Method, resp_state=waiting}) ->
RespConn = response_connection(Headers, Connection),
Head = response_head(Status, Headers, [
{<<"Connection">>, atom_to_connection(Connection)},
{<<"Content-Length">>,
list_to_binary(integer_to_list(iolist_size(Body)))},
{<<"Date">>, cowboy_clock:rfc1123()},
{<<"Server">>, <<"Cowboy">>}
]),
case Method of
'HEAD' -> Transport:send(Socket, Head);
_ -> Transport:send(Socket, [Head, Body])
end,
{ok, Req#http_req{connection=RespConn, resp_state=done}}.
%% @equiv chunked_reply(Status, [], Req)
-spec chunked_reply(http_status(), #http_req{}) -> {ok, #http_req{}}.
chunked_reply(Status, Req) ->
chunked_reply(Status, [], Req).
%% @doc Initiate the sending of a chunked reply to the client.
%% @see cowboy_http_req:chunk/2
-spec chunked_reply(http_status(), http_headers(), #http_req{})
-> {ok, #http_req{}}.
chunked_reply(Status, Headers, Req=#http_req{socket=Socket, transport=Transport,
connection=Connection, resp_state=waiting}) ->
RespConn = response_connection(Headers, Connection),
Head = response_head(Status, Headers, [
{<<"Connection">>, atom_to_connection(Connection)},
{<<"Transfer-Encoding">>, <<"chunked">>},
{<<"Date">>, cowboy_clock:rfc1123()},
{<<"Server">>, <<"Cowboy">>}
]),
Transport:send(Socket, Head),
{ok, Req#http_req{connection=RespConn, resp_state=chunks}}.
%% @doc Send a chunk of data.
%%
%% A chunked reply must have been initiated before calling this function.
-spec chunk(iodata(), #http_req{}) -> ok.
chunk(_Data, #http_req{socket=_Socket, transport=_Transport, method='HEAD'}) ->
ok;
chunk(Data, #http_req{socket=Socket, transport=Transport, resp_state=chunks}) ->
Transport:send(Socket, [integer_to_list(iolist_size(Data), 16),
<<"\r\n">>, Data, <<"\r\n">>]).
%% @doc Send an upgrade reply.
-spec upgrade_reply(http_status(), http_headers(), #http_req{})
-> {ok, #http_req{}}.
upgrade_reply(Status, Headers, Req=#http_req{socket=Socket, transport=Transport,
resp_state=waiting}) ->
Head = response_head(Status, Headers, [
{<<"Connection">>, <<"Upgrade">>}
]),
Transport:send(Socket, Head),
{ok, Req#http_req{resp_state=done}}.
%% Misc API.
%% @doc Compact the request data by removing all non-system information.
%%
%% This essentially removes the host, path, query string, bindings and headers.
%% Use it when you really need to save up memory, for example when having
%% many concurrent long-running connections.
-spec compact(#http_req{}) -> #http_req{}.
compact(Req) ->
Req#http_req{host=undefined, host_info=undefined, path=undefined,
path_info=undefined, qs_vals=undefined,
bindings=undefined, headers=[]}.
%% Internal.
-spec parse_qs(binary()) -> list({binary(), binary() | true}).
parse_qs(<<>>) ->
[];
parse_qs(Qs) ->
Tokens = binary:split(Qs, <<"&">>, [global, trim]),
[case binary:split(Token, <<"=">>) of
[Token] -> {quoted:from_url(Token), true};
[Name, Value] -> {quoted:from_url(Name), quoted:from_url(Value)}
end || Token <- Tokens].
-spec response_connection(http_headers(), keepalive | close)
-> keepalive | close.
response_connection([], Connection) ->
Connection;
response_connection([{Name, Value}|Tail], Connection) ->
case Name of
'Connection' -> response_connection_parse(Value);
Name when is_atom(Name) -> response_connection(Tail, Connection);
Name ->
Name2 = cowboy_bstr:to_lower(Name),
case Name2 of
<<"connection">> -> response_connection_parse(Value);
_Any -> response_connection(Tail, Connection)
end
end.
-spec response_connection_parse(binary()) -> keepalive | close.
response_connection_parse(ReplyConn) ->
Tokens = cowboy_http:nonempty_list(ReplyConn, fun cowboy_http:token/2),
cowboy_http:connection_to_atom(Tokens).
-spec response_head(http_status(), http_headers(), http_headers()) -> iolist().
response_head(Status, Headers, DefaultHeaders) ->
StatusLine = <<"HTTP/1.1 ", (status(Status))/binary, "\r\n">>,
Headers2 = [{header_to_binary(Key), Value} || {Key, Value} <- Headers],
Headers3 = lists:keysort(1, Headers2),
Headers4 = lists:ukeymerge(1, Headers3, DefaultHeaders),
Headers5 = [[Key, <<": ">>, Value, <<"\r\n">>]
|| {Key, Value} <- Headers4],
[StatusLine, Headers5, <<"\r\n">>].
-spec atom_to_connection(keepalive) -> <<_:80>>;
(close) -> <<_:40>>.
atom_to_connection(keepalive) ->
<<"keep-alive">>;
atom_to_connection(close) ->
<<"close">>.
-spec status(http_status()) -> binary().
status(100) -> <<"100 Continue">>;
status(101) -> <<"101 Switching Protocols">>;
status(102) -> <<"102 Processing">>;
status(200) -> <<"200 OK">>;
status(201) -> <<"201 Created">>;
status(202) -> <<"202 Accepted">>;
status(203) -> <<"203 Non-Authoritative Information">>;
status(204) -> <<"204 No Content">>;
status(205) -> <<"205 Reset Content">>;
status(206) -> <<"206 Partial Content">>;
status(207) -> <<"207 Multi-Status">>;
status(226) -> <<"226 IM Used">>;
status(300) -> <<"300 Multiple Choices">>;
status(301) -> <<"301 Moved Permanently">>;
status(302) -> <<"302 Found">>;
status(303) -> <<"303 See Other">>;
status(304) -> <<"304 Not Modified">>;
status(305) -> <<"305 Use Proxy">>;
status(306) -> <<"306 Switch Proxy">>;
status(307) -> <<"307 Temporary Redirect">>;
status(400) -> <<"400 Bad Request">>;
status(401) -> <<"401 Unauthorized">>;
status(402) -> <<"402 Payment Required">>;
status(403) -> <<"403 Forbidden">>;
status(404) -> <<"404 Not Found">>;
status(405) -> <<"405 Method Not Allowed">>;
status(406) -> <<"406 Not Acceptable">>;
status(407) -> <<"407 Proxy Authentication Required">>;
status(408) -> <<"408 Request Timeout">>;
status(409) -> <<"409 Conflict">>;
status(410) -> <<"410 Gone">>;
status(411) -> <<"411 Length Required">>;
status(412) -> <<"412 Precondition Failed">>;
status(413) -> <<"413 Request Entity Too Large">>;
status(414) -> <<"414 Request-URI Too Long">>;
status(415) -> <<"415 Unsupported Media Type">>;
status(416) -> <<"416 Requested Range Not Satisfiable">>;
status(417) -> <<"417 Expectation Failed">>;
status(418) -> <<"418 I'm a teapot">>;
status(422) -> <<"422 Unprocessable Entity">>;
status(423) -> <<"423 Locked">>;
status(424) -> <<"424 Failed Dependency">>;
status(425) -> <<"425 Unordered Collection">>;
status(426) -> <<"426 Upgrade Required">>;
status(500) -> <<"500 Internal Server Error">>;
status(501) -> <<"501 Not Implemented">>;
status(502) -> <<"502 Bad Gateway">>;
status(503) -> <<"503 Service Unavailable">>;
status(504) -> <<"504 Gateway Timeout">>;
status(505) -> <<"505 HTTP Version Not Supported">>;
status(506) -> <<"506 Variant Also Negotiates">>;
status(507) -> <<"507 Insufficient Storage">>;
status(510) -> <<"510 Not Extended">>;
status(B) when is_binary(B) -> B.
-spec header_to_binary(http_header()) -> binary().
header_to_binary('Cache-Control') -> <<"Cache-Control">>;
header_to_binary('Connection') -> <<"Connection">>;
header_to_binary('Date') -> <<"Date">>;
header_to_binary('Pragma') -> <<"Pragma">>;
header_to_binary('Transfer-Encoding') -> <<"Transfer-Encoding">>;
header_to_binary('Upgrade') -> <<"Upgrade">>;
header_to_binary('Via') -> <<"Via">>;
header_to_binary('Accept') -> <<"Accept">>;
header_to_binary('Accept-Charset') -> <<"Accept-Charset">>;
header_to_binary('Accept-Encoding') -> <<"Accept-Encoding">>;
header_to_binary('Accept-Language') -> <<"Accept-Language">>;
header_to_binary('Authorization') -> <<"Authorization">>;
header_to_binary('From') -> <<"From">>;
header_to_binary('Host') -> <<"Host">>;
header_to_binary('If-Modified-Since') -> <<"If-Modified-Since">>;
header_to_binary('If-Match') -> <<"If-Match">>;
header_to_binary('If-None-Match') -> <<"If-None-Match">>;
header_to_binary('If-Range') -> <<"If-Range">>;
header_to_binary('If-Unmodified-Since') -> <<"If-Unmodified-Since">>;
header_to_binary('Max-Forwards') -> <<"Max-Forwards">>;
header_to_binary('Proxy-Authorization') -> <<"Proxy-Authorization">>;
header_to_binary('Range') -> <<"Range">>;
header_to_binary('Referer') -> <<"Referer">>;
header_to_binary('User-Agent') -> <<"User-Agent">>;
header_to_binary('Age') -> <<"Age">>;
header_to_binary('Location') -> <<"Location">>;
header_to_binary('Proxy-Authenticate') -> <<"Proxy-Authenticate">>;
header_to_binary('Public') -> <<"Public">>;
header_to_binary('Retry-After') -> <<"Retry-After">>;
header_to_binary('Server') -> <<"Server">>;
header_to_binary('Vary') -> <<"Vary">>;
header_to_binary('Warning') -> <<"Warning">>;
header_to_binary('Www-Authenticate') -> <<"Www-Authenticate">>;
header_to_binary('Allow') -> <<"Allow">>;
header_to_binary('Content-Base') -> <<"Content-Base">>;
header_to_binary('Content-Encoding') -> <<"Content-Encoding">>;
header_to_binary('Content-Language') -> <<"Content-Language">>;
header_to_binary('Content-Length') -> <<"Content-Length">>;
header_to_binary('Content-Location') -> <<"Content-Location">>;
header_to_binary('Content-Md5') -> <<"Content-Md5">>;
header_to_binary('Content-Range') -> <<"Content-Range">>;
header_to_binary('Content-Type') -> <<"Content-Type">>;
header_to_binary('Etag') -> <<"Etag">>;
header_to_binary('Expires') -> <<"Expires">>;
header_to_binary('Last-Modified') -> <<"Last-Modified">>;
header_to_binary('Accept-Ranges') -> <<"Accept-Ranges">>;
header_to_binary('Set-Cookie') -> <<"Set-Cookie">>;
header_to_binary('Set-Cookie2') -> <<"Set-Cookie2">>;
header_to_binary('X-Forwarded-For') -> <<"X-Forwarded-For">>;
header_to_binary('Cookie') -> <<"Cookie">>;
header_to_binary('Keep-Alive') -> <<"Keep-Alive">>;
header_to_binary('Proxy-Connection') -> <<"Proxy-Connection">>;
header_to_binary(B) when is_binary(B) -> B.
%% Tests.
-ifdef(TEST).
parse_qs_test_() ->
%% {Qs, Result}
Tests = [
{<<"">>, []},
{<<"a=b">>, [{<<"a">>, <<"b">>}]},
{<<"aaa=bbb">>, [{<<"aaa">>, <<"bbb">>}]},
{<<"a&b">>, [{<<"a">>, true}, {<<"b">>, true}]},
{<<"a=b&c&d=e">>, [{<<"a">>, <<"b">>},
{<<"c">>, true}, {<<"d">>, <<"e">>}]},
{<<"a=b=c=d=e&f=g">>, [{<<"a">>, <<"b=c=d=e">>}, {<<"f">>, <<"g">>}]},
{<<"a+b=c+d">>, [{<<"a b">>, <<"c d">>}]}
],
[{Qs, fun() -> R = parse_qs(Qs) end} || {Qs, R} <- Tests].
-endif.
|