%% Copyright (c) 2014, 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. -module(cow_http_hd). -export([parse_accept/1]). -export([parse_accept_charset/1]). -export([parse_accept_encoding/1]). -export([parse_accept_language/1]). -export([parse_connection/1]). -export([parse_content_length/1]). -export([parse_content_type/1]). -export([parse_expect/1]). -export([parse_max_forwards/1]). -export([parse_transfer_encoding/1]). -type media_type() :: {binary(), binary(), [{binary(), binary()}]}. -export_type([media_type/0]). -type qvalue() :: 0..1000. -export_type([qvalue/0]). -include("cow_inline.hrl"). -ifdef(TEST). -include_lib("triq/include/triq.hrl"). ows() -> list(oneof([$\s, $\t])). alpha_chars() -> "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ". digit_chars() -> "0123456789". alphanum_chars() -> "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ". alpha() -> oneof(alpha_chars()). alphanum() -> oneof(alphanum_chars()). tchar() -> frequency([ {1, oneof([$!, $#, $$, $%, $&, $', $*, $+, $-, $., $^, $_, $`, $|, $~])}, {99, oneof(alphanum_chars())} ]). token() -> ?LET(T, non_empty(list(tchar())), list_to_binary(T)). obs_text() -> [128,129,130,131,132,133,134,135,136,137,138,139,140,141,142,143,144,145, 146,147,148,149,150,151,152,153,154,155,156,157,158,159,160,161,162,163, 164,165,166,167,168,169,170,171,172,173,174,175,176,177,178,179,180,181, 182,183,184,185,186,187,188,189,190,191,192,193,194,195,196,197,198,199, 200,201,202,203,204,205,206,207,208,209,210,211,212,213,214,215,216,217, 218,219,220,221,222,223,224,225,226,227,228,229,230,231,232,233,234,235, 236,237,238,239,240,241,242,243,244,245,246,247,248,249,250,251,252,253, 254,255]. qdtext() -> frequency([ {99, oneof("\t\s!#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[]^_`abcdefghijklmnopqrstuvwxyz{|}~")}, {1, oneof(obs_text())} ]). quoted_pair() -> [$\\, frequency([ {99, oneof("\t\s!\"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~")}, {1, oneof(obs_text())} ])]. quoted_string() -> [$", list(frequency([{100, qdtext()}, {1, quoted_pair()}])), $"]. %% Helper function for ( token / quoted-string ) values. unquote([$", V, $"]) -> unquote(V, <<>>); unquote(V) -> V. unquote([], Acc) -> Acc; unquote([[$\\, C]|Tail], Acc) -> unquote(Tail, << Acc/binary, C >>); unquote([C|Tail], Acc) -> unquote(Tail, << Acc/binary, C >>). parameter() -> ?SUCHTHAT({K, _, _, _}, {token(), oneof([token(), quoted_string()]), ows(), ows()}, K =/= <<"q">>). weight() -> frequency([ {90, int(0, 1000)}, {10, undefined} ]). %% Helper function for weight's qvalue formatting. qvalue_to_iodata(0) -> <<"0">>; qvalue_to_iodata(Q) when Q < 10 -> [<<"0.00">>, integer_to_binary(Q)]; qvalue_to_iodata(Q) when Q < 100 -> [<<"0.0">>, integer_to_binary(Q)]; qvalue_to_iodata(Q) when Q < 1000 -> [<<"0.">>, integer_to_binary(Q)]; qvalue_to_iodata(1000) -> <<"1">>. -endif. %% @doc Parse the Accept header. -spec parse_accept(binary()) -> [{media_type(), qvalue(), [binary() | {binary(), binary()}]}]. parse_accept(<<"*/*">>) -> [{{<<"*">>, <<"*">>, []}, 1000, []}]; parse_accept(Accept) -> media_range_list(Accept, []). media_range_list(<<>>, Acc) -> lists:reverse(Acc); media_range_list(<< $\s, R/bits >>, Acc) -> media_range_list(R, Acc); media_range_list(<< $\t, R/bits >>, Acc) -> media_range_list(R, Acc); media_range_list(<< $,, R/bits >>, Acc) -> media_range_list(R, Acc); media_range_list(<< C, R/bits >>, Acc) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_range_type, R, Acc, <<>>) end. media_range_type(<< $/, R/bits >>, Acc, T) -> media_range_subtype(R, Acc, T, <<>>); %% Special clause for badly behaving user agents that send * instead of */*. media_range_type(<< $;, R/bits >>, Acc, <<"*">>) -> media_range_before_param(R, Acc, <<"*">>, <<"*">>, []); media_range_type(<< C, R/bits >>, Acc, T) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_range_type, R, Acc, T) end. media_range_subtype(<<>>, Acc, T, S) when S =/= <<>> -> lists:reverse([{{T, S, []}, 1000, []}|Acc]); media_range_subtype(<< $,, R/bits >>, Acc, T, S) when S =/= <<>> -> media_range_list(R, [{{T, S, []}, 1000, []}|Acc]); media_range_subtype(<< $;, R/bits >>, Acc, T, S) when S =/= <<>> -> media_range_before_param(R, Acc, T, S, []); media_range_subtype(<< $\s, R/bits >>, Acc, T, S) when S =/= <<>> -> media_range_before_semicolon(R, Acc, T, S, []); media_range_subtype(<< $\t, R/bits >>, Acc, T, S) when S =/= <<>> -> media_range_before_semicolon(R, Acc, T, S, []); media_range_subtype(<< C, R/bits >>, Acc, T, S) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_range_subtype, R, Acc, T, S) end. media_range_before_semicolon(<<>>, Acc, T, S, P) -> lists:reverse([{{T, S, lists:reverse(P)}, 1000, []}|Acc]); media_range_before_semicolon(<< $,, R/bits >>, Acc, T, S, P) -> media_range_list(R, [{{T, S, lists:reverse(P)}, 1000, []}|Acc]); media_range_before_semicolon(<< $;, R/bits >>, Acc, T, S, P) -> media_range_before_param(R, Acc, T, S, P); media_range_before_semicolon(<< $\s, R/bits >>, Acc, T, S, P) -> media_range_before_semicolon(R, Acc, T, S, P); media_range_before_semicolon(<< $\t, R/bits >>, Acc, T, S, P) -> media_range_before_semicolon(R, Acc, T, S, P). media_range_before_param(<< $\s, R/bits >>, Acc, T, S, P) -> media_range_before_param(R, Acc, T, S, P); media_range_before_param(<< $\t, R/bits >>, Acc, T, S, P) -> media_range_before_param(R, Acc, T, S, P); %% Special clause for badly behaving user agents that send .123 instead of 0.123. media_range_before_param(<< $q, $=, $., R/bits >>, Acc, T, S, P) -> media_range_broken_weight(R, Acc, T, S, P); media_range_before_param(<< $q, $=, R/bits >>, Acc, T, S, P) -> media_range_weight(R, Acc, T, S, P); media_range_before_param(<< C, R/bits >>, Acc, T, S, P) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_range_param, R, Acc, T, S, P, <<>>) end. media_range_param(<< $=, $", R/bits >>, Acc, T, S, P, K) -> media_range_quoted(R, Acc, T, S, P, K, <<>>); media_range_param(<< $=, R/bits >>, Acc, T, S, P, K) -> media_range_value(R, Acc, T, S, P, K, <<>>); media_range_param(<< C, R/bits >>, Acc, T, S, P, K) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_range_param, R, Acc, T, S, P, K) end. media_range_quoted(<< $", R/bits >>, Acc, T, S, P, K, V) -> media_range_before_semicolon(R, Acc, T, S, [{K, V}|P]); media_range_quoted(<< $\\, C, R/bits >>, Acc, T, S, P, K, V) when ?IS_VCHAR(C) -> media_range_quoted(R, Acc, T, S, P, K, << V/binary, C >>); media_range_quoted(<< C, R/bits >>, Acc, T, S, P, K, V) when ?IS_VCHAR(C) -> media_range_quoted(R, Acc, T, S, P, K, << V/binary, C >>). media_range_value(<<>>, Acc, T, S, P, K, V) -> lists:reverse([{{T, S, lists:reverse([{K, V}|P])}, 1000, []}|Acc]); media_range_value(<< $,, R/bits >>, Acc, T, S, P, K, V) -> media_range_list(R, [{{T, S, lists:reverse([{K, V}|P])}, 1000, []}|Acc]); media_range_value(<< $;, R/bits >>, Acc, T, S, P, K, V) -> media_range_before_param(R, Acc, T, S, [{K, V}|P]); media_range_value(<< $\s, R/bits >>, Acc, T, S, P, K, V) -> media_range_before_semicolon(R, Acc, T, S, [{K, V}|P]); media_range_value(<< $\t, R/bits >>, Acc, T, S, P, K, V) -> media_range_before_semicolon(R, Acc, T, S, [{K, V}|P]); media_range_value(<< C, R/bits >>, Acc, T, S, P, K, V) when ?IS_TOKEN(C) -> media_range_value(R, Acc, T, S, P, K, << V/binary, C >>). %% Special function for badly behaving user agents that send .123 instead of 0.123. media_range_broken_weight(<< A, B, C, R/bits >>, Acc, T, S, P) when A >= $0, A =< $9, B >= $0, B =< $9, C >= $0, C =< $9 -> accept_before_semicolon(R, Acc, T, S, P, (A - $0) * 100 + (B - $0) * 10 + (C - $0), []); media_range_broken_weight(<< A, B, R/bits >>, Acc, T, S, P) when A >= $0, A =< $9, B >= $0, B =< $9 -> accept_before_semicolon(R, Acc, T, S, P, (A - $0) * 100 + (B - $0) * 10, []); media_range_broken_weight(<< A, R/bits >>, Acc, T, S, P) when A >= $0, A =< $9 -> accept_before_semicolon(R, Acc, T, S, P, (A - $0) * 100, []). media_range_weight(<< "1.000", R/bits >>, Acc, T, S, P) -> accept_before_semicolon(R, Acc, T, S, P, 1000, []); media_range_weight(<< "1.00", R/bits >>, Acc, T, S, P) -> accept_before_semicolon(R, Acc, T, S, P, 1000, []); media_range_weight(<< "1.0", R/bits >>, Acc, T, S, P) -> accept_before_semicolon(R, Acc, T, S, P, 1000, []); media_range_weight(<< "1.", R/bits >>, Acc, T, S, P) -> accept_before_semicolon(R, Acc, T, S, P, 1000, []); media_range_weight(<< "1", R/bits >>, Acc, T, S, P) -> accept_before_semicolon(R, Acc, T, S, P, 1000, []); media_range_weight(<< "0.", A, B, C, R/bits >>, Acc, T, S, P) when A >= $0, A =< $9, B >= $0, B =< $9, C >= $0, C =< $9 -> accept_before_semicolon(R, Acc, T, S, P, (A - $0) * 100 + (B - $0) * 10 + (C - $0), []); media_range_weight(<< "0.", A, B, R/bits >>, Acc, T, S, P) when A >= $0, A =< $9, B >= $0, B =< $9 -> accept_before_semicolon(R, Acc, T, S, P, (A - $0) * 100 + (B - $0) * 10, []); media_range_weight(<< "0.", A, R/bits >>, Acc, T, S, P) when A >= $0, A =< $9 -> accept_before_semicolon(R, Acc, T, S, P, (A - $0) * 100, []); media_range_weight(<< "0.", R/bits >>, Acc, T, S, P) -> accept_before_semicolon(R, Acc, T, S, P, 0, []); media_range_weight(<< "0", R/bits >>, Acc, T, S, P) -> accept_before_semicolon(R, Acc, T, S, P, 0, []). accept_before_semicolon(<<>>, Acc, T, S, P, Q, E) -> lists:reverse([{{T, S, lists:reverse(P)}, Q, lists:reverse(E)}|Acc]); accept_before_semicolon(<< $,, R/bits >>, Acc, T, S, P, Q, E) -> media_range_list(R, [{{T, S, lists:reverse(P)}, Q, lists:reverse(E)}|Acc]); accept_before_semicolon(<< $;, R/bits >>, Acc, T, S, P, Q, E) -> accept_before_ext(R, Acc, T, S, P, Q, E); accept_before_semicolon(<< $\s, R/bits >>, Acc, T, S, P, Q, E) -> accept_before_semicolon(R, Acc, T, S, P, Q, E); accept_before_semicolon(<< $\t, R/bits >>, Acc, T, S, P, Q, E) -> accept_before_semicolon(R, Acc, T, S, P, Q, E). accept_before_ext(<< $\s, R/bits >>, Acc, T, S, P, Q, E) -> accept_before_ext(R, Acc, T, S, P, Q, E); accept_before_ext(<< $\t, R/bits >>, Acc, T, S, P, Q, E) -> accept_before_ext(R, Acc, T, S, P, Q, E); accept_before_ext(<< C, R/bits >>, Acc, T, S, P, Q, E) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(accept_ext, R, Acc, T, S, P, Q, E, <<>>) end. accept_ext(<<>>, Acc, T, S, P, Q, E, K) -> lists:reverse([{{T, S, lists:reverse(P)}, Q, lists:reverse([K|E])}|Acc]); accept_ext(<< $,, R/bits >>, Acc, T, S, P, Q, E, K) -> media_range_list(R, [{{T, S, lists:reverse(P)}, Q, lists:reverse([K|E])}|Acc]); accept_ext(<< $;, R/bits >>, Acc, T, S, P, Q, E, K) -> accept_before_ext(R, Acc, T, S, P, Q, [K|E]); accept_ext(<< $\s, R/bits >>, Acc, T, S, P, Q, E, K) -> accept_before_semicolon(R, Acc, T, S, P, Q, [K|E]); accept_ext(<< $\t, R/bits >>, Acc, T, S, P, Q, E, K) -> accept_before_semicolon(R, Acc, T, S, P, Q, [K|E]); accept_ext(<< $=, $", R/bits >>, Acc, T, S, P, Q, E, K) -> accept_quoted(R, Acc, T, S, P, Q, E, K, <<>>); accept_ext(<< $=, R/bits >>, Acc, T, S, P, Q, E, K) -> accept_value(R, Acc, T, S, P, Q, E, K, <<>>); accept_ext(<< C, R/bits >>, Acc, T, S, P, Q, E, K) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(accept_ext, R, Acc, T, S, P, Q, E, K) end. accept_quoted(<< $", R/bits >>, Acc, T, S, P, Q, E, K, V) -> accept_before_semicolon(R, Acc, T, S, P, Q, [{K, V}|E]); accept_quoted(<< $\\, C, R/bits >>, Acc, T, S, P, Q, E, K, V) when ?IS_VCHAR(C) -> accept_quoted(R, Acc, T, S, P, Q, E, K, << V/binary, C >>); accept_quoted(<< C, R/bits >>, Acc, T, S, P, Q, E, K, V) when ?IS_VCHAR(C) -> accept_quoted(R, Acc, T, S, P, Q, E, K, << V/binary, C >>). accept_value(<<>>, Acc, T, S, P, Q, E, K, V) -> lists:reverse([{{T, S, lists:reverse(P)}, Q, lists:reverse([{K, V}|E])}|Acc]); accept_value(<< $,, R/bits >>, Acc, T, S, P, Q, E, K, V) -> media_range_list(R, [{{T, S, lists:reverse(P)}, Q, lists:reverse([{K, V}|E])}|Acc]); accept_value(<< $;, R/bits >>, Acc, T, S, P, Q, E, K, V) -> accept_before_ext(R, Acc, T, S, P, Q, [{K, V}|E]); accept_value(<< $\s, R/bits >>, Acc, T, S, P, Q, E, K, V) -> accept_before_semicolon(R, Acc, T, S, P, Q, [{K, V}|E]); accept_value(<< $\t, R/bits >>, Acc, T, S, P, Q, E, K, V) -> accept_before_semicolon(R, Acc, T, S, P, Q, [{K, V}|E]); accept_value(<< C, R/bits >>, Acc, T, S, P, Q, E, K, V) when ?IS_TOKEN(C) -> accept_value(R, Acc, T, S, P, Q, E, K, << V/binary, C >>). -ifdef(TEST). accept_ext() -> oneof([token(), parameter()]). accept_params() -> frequency([ {90, []}, {10, list(accept_ext())} ]). accept() -> ?LET({T, S, P, W, E}, {token(), token(), list(parameter()), weight(), accept_params()}, {T, S, P, W, E, iolist_to_binary([T, $/, S, [[OWS1, $;, OWS2, K, $=, V] || {K, V, OWS1, OWS2} <- P], case W of undefined -> []; _ -> [ [<<";q=">>, qvalue_to_iodata(W)], [case Ext of {K, V, OWS1, OWS2} -> [OWS1, $;, OWS2, K, $=, V]; K -> [$;, K] end || Ext <- E]] end])} ). prop_parse_accept() -> ?FORALL(L, non_empty(list(accept())), begin << _, Accept/binary >> = iolist_to_binary([[$,, A] || {_, _, _, _, _, A} <- L]), ResL = parse_accept(Accept), CheckedL = [begin ExpectedP = [{?INLINE_LOWERCASE_BC(K), unquote(V)} || {K, V, _, _} <- P], ExpectedE = [case Ext of {K, V, _, _} -> {?INLINE_LOWERCASE_BC(K), unquote(V)}; K -> ?INLINE_LOWERCASE_BC(K) end || Ext <- E], ResT =:= ?INLINE_LOWERCASE_BC(T) andalso ResS =:= ?INLINE_LOWERCASE_BC(S) andalso ResP =:= ExpectedP andalso (ResW =:= W orelse (W =:= undefined andalso ResW =:= 1000)) andalso ((W =:= undefined andalso ResE =:= []) orelse (W =/= undefined andalso ResE =:= ExpectedE)) end || {{T, S, P, W, E, _}, {{ResT, ResS, ResP}, ResW, ResE}} <- lists:zip(L, ResL)], [true] =:= lists:usort(CheckedL) end ). parse_accept_test_() -> Tests = [ {<<>>, []}, {<<" ">>, []}, {<<"audio/*; q=0.2, audio/basic">>, [ {{<<"audio">>, <<"*">>, []}, 200, []}, {{<<"audio">>, <<"basic">>, []}, 1000, []} ]}, {<<"text/plain; q=0.5, text/html, " "text/x-dvi; q=0.8, text/x-c">>, [ {{<<"text">>, <<"plain">>, []}, 500, []}, {{<<"text">>, <<"html">>, []}, 1000, []}, {{<<"text">>, <<"x-dvi">>, []}, 800, []}, {{<<"text">>, <<"x-c">>, []}, 1000, []} ]}, {<<"text/*, text/html, text/html;level=1, */*">>, [ {{<<"text">>, <<"*">>, []}, 1000, []}, {{<<"text">>, <<"html">>, []}, 1000, []}, {{<<"text">>, <<"html">>, [{<<"level">>, <<"1">>}]}, 1000, []}, {{<<"*">>, <<"*">>, []}, 1000, []} ]}, {<<"text/*;q=0.3, text/html;q=0.7, text/html;level=1, " "text/html;level=2;q=0.4, */*;q=0.5">>, [ {{<<"text">>, <<"*">>, []}, 300, []}, {{<<"text">>, <<"html">>, []}, 700, []}, {{<<"text">>, <<"html">>, [{<<"level">>, <<"1">>}]}, 1000, []}, {{<<"text">>, <<"html">>, [{<<"level">>, <<"2">>}]}, 400, []}, {{<<"*">>, <<"*">>, []}, 500, []} ]}, {<<"text/html;level=1;quoted=\"hi hi hi\";" "q=0.123;standalone;complex=gits, text/plain">>, [ {{<<"text">>, <<"html">>, [{<<"level">>, <<"1">>}, {<<"quoted">>, <<"hi hi hi">>}]}, 123, [<<"standalone">>, {<<"complex">>, <<"gits">>}]}, {{<<"text">>, <<"plain">>, []}, 1000, []} ]}, {<<"text/html, image/gif, image/jpeg, *; q=.2, */*; q=.2">>, [ {{<<"text">>, <<"html">>, []}, 1000, []}, {{<<"image">>, <<"gif">>, []}, 1000, []}, {{<<"image">>, <<"jpeg">>, []}, 1000, []}, {{<<"*">>, <<"*">>, []}, 200, []}, {{<<"*">>, <<"*">>, []}, 200, []} ]} ], [{V, fun() -> R = parse_accept(V) end} || {V, R} <- Tests]. parse_accept_error_test_() -> Tests = [ <<"audio/basic, */;q=0.5">>, <<"audio/, audio/basic">>, <<"aud\tio/basic">>, <<"audio/basic;t=\"zero \\", 0, " woo\"">> ], [{V, fun() -> {'EXIT', _} = (catch parse_accept(V)) end} || V <- Tests]. -endif. -ifdef(PERF). horse_parse_accept() -> horse:repeat(20000, parse_accept(<<"text/*;q=0.3, text/html;q=0.7, text/html;level=1, " "text/html;level=2;q=0.4, */*;q=0.5">>) ). -endif. %% @doc Parse the Accept-Charset header. -spec parse_accept_charset(binary()) -> [{binary(), qvalue()}]. parse_accept_charset(Charset) -> nonempty(conneg_list(Charset, [])). conneg_list(<<>>, Acc) -> lists:reverse(Acc); conneg_list(<< $\s, R/bits >>, Acc) -> conneg_list(R, Acc); conneg_list(<< $\t, R/bits >>, Acc) -> conneg_list(R, Acc); conneg_list(<< $\,, R/bits >>, Acc) -> conneg_list(R, Acc); conneg_list(<< C, R/bits >>, Acc) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(conneg, R, Acc, <<>>) end. conneg(<<>>, Acc, T) -> lists:reverse([{T, 1000}|Acc]); conneg(<< $,, R/bits >>, Acc, T) -> conneg_list(R, [{T, 1000}|Acc]); conneg(<< $;, R/bits >>, Acc, T) -> conneg_before_weight(R, Acc, T); conneg(<< $\s, R/bits >>, Acc, T) -> conneg_before_semicolon(R, Acc, T); conneg(<< $\t, R/bits >>, Acc, T) -> conneg_before_semicolon(R, Acc, T); conneg(<< C, R/bits >>, Acc, T) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(conneg, R, Acc, T) end. conneg_before_semicolon(<<>>, Acc, T) -> lists:reverse([{T, 1000}|Acc]); conneg_before_semicolon(<< $,, R/bits >>, Acc, T) -> conneg_list(R, [{T, 1000}|Acc]); conneg_before_semicolon(<< $;, R/bits >>, Acc, T) -> conneg_before_weight(R, Acc, T); conneg_before_semicolon(<< $\s, R/bits >>, Acc, T) -> conneg_before_semicolon(R, Acc, T); conneg_before_semicolon(<< $\t, R/bits >>, Acc, T) -> conneg_before_semicolon(R, Acc, T). conneg_before_weight(<< $\s, R/bits >>, Acc, T) -> conneg_before_weight(R, Acc, T); conneg_before_weight(<< $\t, R/bits >>, Acc, T) -> conneg_before_weight(R, Acc, T); conneg_before_weight(<< $q, $=, R/bits >>, Acc, T) -> conneg_weight(R, Acc, T); %% Special clause for broken user agents that confuse ; and , separators. conneg_before_weight(<< C, R/bits >>, Acc, T) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(conneg, R, [{T, 1000}|Acc], <<>>) end. conneg_weight(<< "1.000", R/bits >>, Acc, T) -> conneg_list_sep(R, [{T, 1000}|Acc]); conneg_weight(<< "1.00", R/bits >>, Acc, T) -> conneg_list_sep(R, [{T, 1000}|Acc]); conneg_weight(<< "1.0", R/bits >>, Acc, T) -> conneg_list_sep(R, [{T, 1000}|Acc]); conneg_weight(<< "1.", R/bits >>, Acc, T) -> conneg_list_sep(R, [{T, 1000}|Acc]); conneg_weight(<< "1", R/bits >>, Acc, T) -> conneg_list_sep(R, [{T, 1000}|Acc]); conneg_weight(<< "0.", A, B, C, R/bits >>, Acc, T) when A >= $0, A =< $9, B >= $0, B =< $9, C >= $0, C =< $9 -> conneg_list_sep(R, [{T, (A - $0) * 100 + (B - $0) * 10 + (C - $0)}|Acc]); conneg_weight(<< "0.", A, B, R/bits >>, Acc, T) when A >= $0, A =< $9, B >= $0, B =< $9 -> conneg_list_sep(R, [{T, (A - $0) * 100 + (B - $0) * 10}|Acc]); conneg_weight(<< "0.", A, R/bits >>, Acc, T) when A >= $0, A =< $9 -> conneg_list_sep(R, [{T, (A - $0) * 100}|Acc]); conneg_weight(<< "0.", R/bits >>, Acc, T) -> conneg_list_sep(R, [{T, 0}|Acc]); conneg_weight(<< "0", R/bits >>, Acc, T) -> conneg_list_sep(R, [{T, 0}|Acc]). conneg_list_sep(<<>>, Acc) -> lists:reverse(Acc); conneg_list_sep(<< $\s, R/bits >>, Acc) -> conneg_list_sep(R, Acc); conneg_list_sep(<< $\t, R/bits >>, Acc) -> conneg_list_sep(R, Acc); conneg_list_sep(<< $,, R/bits >>, Acc) -> conneg_list(R, Acc). -ifdef(TEST). accept_charset() -> ?LET({C, W}, {token(), weight()}, {C, W, iolist_to_binary([C, case W of undefined -> []; _ -> [<<";q=">>, qvalue_to_iodata(W)] end])} ). prop_parse_accept_charset() -> ?FORALL(L, non_empty(list(accept_charset())), begin << _, AcceptCharset/binary >> = iolist_to_binary([[$,, A] || {_, _, A} <- L]), ResL = parse_accept_charset(AcceptCharset), CheckedL = [begin ResC =:= ?INLINE_LOWERCASE_BC(Ch) andalso (ResW =:= W orelse (W =:= undefined andalso ResW =:= 1000)) end || {{Ch, W, _}, {ResC, ResW}} <- lists:zip(L, ResL)], [true] =:= lists:usort(CheckedL) end). parse_accept_charset_test_() -> Tests = [ {<<"iso-8859-5, unicode-1-1;q=0.8">>, [ {<<"iso-8859-5">>, 1000}, {<<"unicode-1-1">>, 800} ]}, %% Some user agents send this invalid value for the Accept-Charset header {<<"ISO-8859-1;utf-8;q=0.7,*;q=0.7">>, [ {<<"iso-8859-1">>, 1000}, {<<"utf-8">>, 700}, {<<"*">>, 700} ]} ], [{V, fun() -> R = parse_accept_charset(V) end} || {V, R} <- Tests]. parse_accept_charset_error_test_() -> Tests = [ <<>> ], [{V, fun() -> {'EXIT', _} = (catch parse_accept_charset(V)) end} || V <- Tests]. -endif. -ifdef(PERF). horse_parse_accept_charset() -> horse:repeat(20000, parse_accept_charset(<<"iso-8859-5, unicode-1-1;q=0.8">>) ). -endif. %% @doc Parse the Accept-Encoding header. -spec parse_accept_encoding(binary()) -> [{binary(), qvalue()}]. parse_accept_encoding(Encoding) -> conneg_list(Encoding, []). -ifdef(TEST). accept_encoding() -> ?LET({E, W}, {token(), weight()}, {E, W, iolist_to_binary([E, case W of undefined -> []; _ -> [<<";q=">>, qvalue_to_iodata(W)] end])} ). prop_parse_accept_encoding() -> ?FORALL(L, non_empty(list(accept_encoding())), begin << _, AcceptEncoding/binary >> = iolist_to_binary([[$,, A] || {_, _, A} <- L]), ResL = parse_accept_encoding(AcceptEncoding), CheckedL = [begin ResE =:= ?INLINE_LOWERCASE_BC(E) andalso (ResW =:= W orelse (W =:= undefined andalso ResW =:= 1000)) end || {{E, W, _}, {ResE, ResW}} <- lists:zip(L, ResL)], [true] =:= lists:usort(CheckedL) end). parse_accept_encoding_test_() -> Tests = [ {<<>>, []}, {<<"*">>, [{<<"*">>, 1000}]}, {<<"compress, gzip">>, [ {<<"compress">>, 1000}, {<<"gzip">>, 1000} ]}, {<<"compress;q=0.5, gzip;q=1.0">>, [ {<<"compress">>, 500}, {<<"gzip">>, 1000} ]}, {<<"gzip;q=1.0, identity; q=0.5, *;q=0">>, [ {<<"gzip">>, 1000}, {<<"identity">>, 500}, {<<"*">>, 0} ]} ], [{V, fun() -> R = parse_accept_encoding(V) end} || {V, R} <- Tests]. -endif. -ifdef(PERF). horse_parse_accept_encoding() -> horse:repeat(20000, parse_accept_encoding(<<"gzip;q=1.0, identity; q=0.5, *;q=0">>) ). -endif. %% @doc Parse the Accept-Language header. -spec parse_accept_language(binary()) -> [{binary(), qvalue()}]. parse_accept_language(LanguageRange) -> nonempty(language_range_list(LanguageRange, [])). language_range_list(<<>>, Acc) -> lists:reverse(Acc); language_range_list(<< $\s, R/bits >>, Acc) -> language_range_list(R, Acc); language_range_list(<< $\t, R/bits >>, Acc) -> language_range_list(R, Acc); language_range_list(<< $\,, R/bits >>, Acc) -> language_range_list(R, Acc); language_range_list(<< $*, R/bits >>, Acc) -> language_range_before_semicolon(R, Acc, <<"*">>); language_range_list(<< C, R/bits >>, Acc) when ?IS_ALPHA(C) -> case C of ?INLINE_LOWERCASE(language_range, R, Acc, 1, <<>>) end. language_range(<<>>, Acc, _, T) -> lists:reverse([{T, 1000}|Acc]); language_range(<< $,, R/bits >>, Acc, _, T) -> language_range_list(R, [{T, 1000}|Acc]); language_range(<< $;, R/bits >>, Acc, _, T) -> language_range_before_weight(R, Acc, T); language_range(<< $\s, R/bits >>, Acc, _, T) -> language_range_before_semicolon(R, Acc, T); language_range(<< $\t, R/bits >>, Acc, _, T) -> language_range_before_semicolon(R, Acc, T); language_range(<< $-, R/bits >>, Acc, _, T) -> language_range_sub(R, Acc, 0, << T/binary, $- >>); language_range(<< _, _/bits >>, _, 8, _) -> error(badarg); language_range(<< C, R/bits >>, Acc, N, T) when ?IS_ALPHA(C) -> case C of ?INLINE_LOWERCASE(language_range, R, Acc, N + 1, T) end. language_range_sub(<<>>, Acc, N, T) when N > 0 -> lists:reverse([{T, 1000}|Acc]); language_range_sub(<< $,, R/bits >>, Acc, N, T) when N > 0 -> language_range_list(R, [{T, 1000}|Acc]); language_range_sub(<< $;, R/bits >>, Acc, N, T) when N > 0 -> language_range_before_weight(R, Acc, T); language_range_sub(<< $\s, R/bits >>, Acc, N, T) when N > 0 -> language_range_before_semicolon(R, Acc, T); language_range_sub(<< $\t, R/bits >>, Acc, N, T) when N > 0 -> language_range_before_semicolon(R, Acc, T); language_range_sub(<< $-, R/bits >>, Acc, N, T) when N > 0 -> language_range_sub(R, Acc, 0, << T/binary, $- >>); language_range_sub(<< _, _/bits >>, _, 8, _) -> error(badarg); language_range_sub(<< C, R/bits >>, Acc, N, T) when ?IS_ALPHA(C); ?IS_DIGIT(C) -> case C of ?INLINE_LOWERCASE(language_range_sub, R, Acc, N + 1, T) end. language_range_before_semicolon(<<>>, Acc, T) -> lists:reverse([{T, 1000}|Acc]); language_range_before_semicolon(<< $,, R/bits >>, Acc, T) -> language_range_list(R, [{T, 1000}|Acc]); language_range_before_semicolon(<< $;, R/bits >>, Acc, T) -> language_range_before_weight(R, Acc, T); language_range_before_semicolon(<< $\s, R/bits >>, Acc, T) -> language_range_before_semicolon(R, Acc, T); language_range_before_semicolon(<< $\t, R/bits >>, Acc, T) -> language_range_before_semicolon(R, Acc, T). language_range_before_weight(<< $\s, R/bits >>, Acc, T) -> language_range_before_weight(R, Acc, T); language_range_before_weight(<< $\t, R/bits >>, Acc, T) -> language_range_before_weight(R, Acc, T); language_range_before_weight(<< $q, $=, R/bits >>, Acc, T) -> language_range_weight(R, Acc, T); %% Special clause for broken user agents that confuse ; and , separators. language_range_before_weight(<< C, R/bits >>, Acc, T) when ?IS_ALPHA(C) -> case C of ?INLINE_LOWERCASE(language_range, R, [{T, 1000}|Acc], 1, <<>>) end. language_range_weight(<< "1.000", R/bits >>, Acc, T) -> language_range_list_sep(R, [{T, 1000}|Acc]); language_range_weight(<< "1.00", R/bits >>, Acc, T) -> language_range_list_sep(R, [{T, 1000}|Acc]); language_range_weight(<< "1.0", R/bits >>, Acc, T) -> language_range_list_sep(R, [{T, 1000}|Acc]); language_range_weight(<< "1.", R/bits >>, Acc, T) -> language_range_list_sep(R, [{T, 1000}|Acc]); language_range_weight(<< "1", R/bits >>, Acc, T) -> language_range_list_sep(R, [{T, 1000}|Acc]); language_range_weight(<< "0.", A, B, C, R/bits >>, Acc, T) when A >= $0, A =< $9, B >= $0, B =< $9, C >= $0, C =< $9 -> language_range_list_sep(R, [{T, (A - $0) * 100 + (B - $0) * 10 + (C - $0)}|Acc]); language_range_weight(<< "0.", A, B, R/bits >>, Acc, T) when A >= $0, A =< $9, B >= $0, B =< $9 -> language_range_list_sep(R, [{T, (A - $0) * 100 + (B - $0) * 10}|Acc]); language_range_weight(<< "0.", A, R/bits >>, Acc, T) when A >= $0, A =< $9 -> language_range_list_sep(R, [{T, (A - $0) * 100}|Acc]); language_range_weight(<< "0.", R/bits >>, Acc, T) -> language_range_list_sep(R, [{T, 0}|Acc]); language_range_weight(<< "0", R/bits >>, Acc, T) -> language_range_list_sep(R, [{T, 0}|Acc]). language_range_list_sep(<<>>, Acc) -> lists:reverse(Acc); language_range_list_sep(<< $\s, R/bits >>, Acc) -> language_range_list_sep(R, Acc); language_range_list_sep(<< $\t, R/bits >>, Acc) -> language_range_list_sep(R, Acc); language_range_list_sep(<< $,, R/bits >>, Acc) -> language_range_list(R, Acc). -ifdef(TEST). language_tag() -> oneof([ [alpha()], [alpha(), alpha()], [alpha(), alpha(), alpha()], [alpha(), alpha(), alpha(), alpha()], [alpha(), alpha(), alpha(), alpha(), alpha()], [alpha(), alpha(), alpha(), alpha(), alpha(), alpha()], [alpha(), alpha(), alpha(), alpha(), alpha(), alpha(), alpha()], [alpha(), alpha(), alpha(), alpha(), alpha(), alpha(), alpha(), alpha()] ]). language_subtag() -> [$-, oneof([ [alphanum()], [alphanum(), alphanum()], [alphanum(), alphanum(), alphanum()], [alphanum(), alphanum(), alphanum(), alphanum()], [alphanum(), alphanum(), alphanum(), alphanum(), alphanum()], [alphanum(), alphanum(), alphanum(), alphanum(), alphanum(), alphanum()], [alphanum(), alphanum(), alphanum(), alphanum(), alphanum(), alphanum(), alphanum()], [alphanum(), alphanum(), alphanum(), alphanum(), alphanum(), alphanum(), alphanum(), alphanum()] ])]. language_range() -> [language_tag(), list(language_subtag())]. accept_language() -> ?LET({R, W}, {language_range(), weight()}, {iolist_to_binary(R), W, iolist_to_binary([R, case W of undefined -> []; _ -> [<<";q=">>, qvalue_to_iodata(W)] end])} ). prop_parse_accept_language() -> ?FORALL(L, non_empty(list(accept_language())), begin << _, AcceptLanguage/binary >> = iolist_to_binary([[$,, A] || {_, _, A} <- L]), ResL = parse_accept_language(AcceptLanguage), CheckedL = [begin ResR =:= ?INLINE_LOWERCASE_BC(R) andalso (ResW =:= W orelse (W =:= undefined andalso ResW =:= 1000)) end || {{R, W, _}, {ResR, ResW}} <- lists:zip(L, ResL)], [true] =:= lists:usort(CheckedL) end). parse_accept_language_test_() -> Tests = [ {<<"da, en-gb;q=0.8, en;q=0.7">>, [ {<<"da">>, 1000}, {<<"en-gb">>, 800}, {<<"en">>, 700} ]}, {<<"en, en-US, en-cockney, i-cherokee, x-pig-latin, es-419">>, [ {<<"en">>, 1000}, {<<"en-us">>, 1000}, {<<"en-cockney">>, 1000}, {<<"i-cherokee">>, 1000}, {<<"x-pig-latin">>, 1000}, {<<"es-419">>, 1000} ]} ], [{V, fun() -> R = parse_accept_language(V) end} || {V, R} <- Tests]. parse_accept_language_error_test_() -> Tests = [ <<>>, <<"loooooong">>, <<"en-us-loooooong">>, <<"419-en-us">> ], [{V, fun() -> {'EXIT', _} = (catch parse_accept_language(V)) end} || V <- Tests]. -endif. -ifdef(PERF). horse_parse_accept_language() -> horse:repeat(20000, parse_accept_language(<<"da, en-gb;q=0.8, en;q=0.7">>) ). -endif. %% @doc Parse the Connection header. -spec parse_connection(binary()) -> [binary()]. parse_connection(<<"close">>) -> [<<"close">>]; parse_connection(<<"keep-alive">>) -> [<<"keep-alive">>]; parse_connection(Connection) -> nonempty(token_ci_list(Connection, [])). -ifdef(TEST). parse_connection_test_() -> Tests = [ {<<"close">>, [<<"close">>]}, {<<"ClOsE">>, [<<"close">>]}, {<<"Keep-Alive">>, [<<"keep-alive">>]}, {<<"keep-alive, Upgrade">>, [<<"keep-alive">>, <<"upgrade">>]} ], [{V, fun() -> R = parse_connection(V) end} || {V, R} <- Tests]. -endif. -ifdef(PERF). horse_parse_connection_close() -> horse:repeat(200000, parse_connection(<<"close">>) ). horse_parse_connection_keepalive() -> horse:repeat(200000, parse_connection(<<"keep-alive">>) ). horse_parse_connection_keepalive_upgrade() -> horse:repeat(200000, parse_connection(<<"keep-alive, upgrade">>) ). -endif. %% @doc Parse the Content-Length header. %% %% The value has at least one digit, and may be followed by whitespace. -spec parse_content_length(binary()) -> non_neg_integer(). parse_content_length(<< $0 >>) -> 0; parse_content_length(<< $0, R/bits >>) -> number(R, 0); parse_content_length(<< $1, R/bits >>) -> number(R, 1); parse_content_length(<< $2, R/bits >>) -> number(R, 2); parse_content_length(<< $3, R/bits >>) -> number(R, 3); parse_content_length(<< $4, R/bits >>) -> number(R, 4); parse_content_length(<< $5, R/bits >>) -> number(R, 5); parse_content_length(<< $6, R/bits >>) -> number(R, 6); parse_content_length(<< $7, R/bits >>) -> number(R, 7); parse_content_length(<< $8, R/bits >>) -> number(R, 8); parse_content_length(<< $9, R/bits >>) -> number(R, 9). -ifdef(TEST). prop_parse_content_length() -> ?FORALL( X, non_neg_integer(), X =:= parse_content_length(integer_to_binary(X)) ). parse_content_length_test_() -> Tests = [ {<<"0">>, 0}, {<<"42 ">>, 42}, {<<"69\t">>, 69}, {<<"1337">>, 1337}, {<<"1234567890">>, 1234567890}, {<<"1234567890 ">>, 1234567890} ], [{V, fun() -> R = parse_content_length(V) end} || {V, R} <- Tests]. parse_content_length_error_test_() -> Tests = [ <<>>, <<"123, 123">>, <<"4.17">> ], [{V, fun() -> {'EXIT', _} = (catch parse_content_length(V)) end} || V <- Tests]. -endif. -ifdef(PERF). horse_parse_content_length_zero() -> horse:repeat(100000, parse_content_length(<<"0">>) ). horse_parse_content_length_giga() -> horse:repeat(100000, parse_content_length(<<"1234567890">>) ). -endif. %% @doc Parse the Content-Type header. -spec parse_content_type(binary()) -> media_type(). parse_content_type(<< C, R/bits >>) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_type, R, <<>>) end. media_type(<< $/, C, R/bits >>, T) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_subtype, R, T, <<>>) end; media_type(<< C, R/bits >>, T) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_type, R, T) end. media_subtype(<<>>, T, S) -> {T, S, []}; media_subtype(<< $;, R/bits >>, T, S) -> media_before_param(R, T, S, []); media_subtype(<< $\s, R/bits >>, T, S) -> media_before_semicolon(R, T, S, []); media_subtype(<< $\t, R/bits >>, T, S) -> media_before_semicolon(R, T, S, []); media_subtype(<< C, R/bits >>, T, S) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_subtype, R, T, S) end. media_before_semicolon(<<>>, T, S, P) -> {T, S, lists:reverse(P)}; media_before_semicolon(<< $;, R/bits >>, T, S, P) -> media_before_param(R, T, S, P); media_before_semicolon(<< $\s, R/bits >>, T, S, P) -> media_before_semicolon(R, T, S, P); media_before_semicolon(<< $\t, R/bits >>, T, S, P) -> media_before_semicolon(R, T, S, P). media_before_param(<< $\s, R/bits >>, T, S, P) -> media_before_param(R, T, S, P); media_before_param(<< $\t, R/bits >>, T, S, P) -> media_before_param(R, T, S, P); media_before_param(<< "charset=", $", R/bits >>, T, S, P) -> media_charset_quoted(R, T, S, P, <<>>); media_before_param(<< "charset=", R/bits >>, T, S, P) -> media_charset(R, T, S, P, <<>>); media_before_param(<< C, R/bits >>, T, S, P) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_param, R, T, S, P, <<>>) end. media_charset_quoted(<< $", R/bits >>, T, S, P, V) -> media_before_semicolon(R, T, S, [{<<"charset">>, V}|P]); media_charset_quoted(<< $\\, C, R/bits >>, T, S, P, V) when ?IS_VCHAR(C) -> case C of ?INLINE_LOWERCASE(media_charset_quoted, R, T, S, P, V) end; media_charset_quoted(<< C, R/bits >>, T, S, P, V) when ?IS_VCHAR(C) -> case C of ?INLINE_LOWERCASE(media_charset_quoted, R, T, S, P, V) end. media_charset(<<>>, T, S, P, V) -> {T, S, lists:reverse([{<<"charset">>, V}|P])}; media_charset(<< $;, R/bits >>, T, S, P, V) -> media_before_param(R, T, S, [{<<"charset">>, V}|P]); media_charset(<< $\s, R/bits >>, T, S, P, V) -> media_before_semicolon(R, T, S, [{<<"charset">>, V}|P]); media_charset(<< $\t, R/bits >>, T, S, P, V) -> media_before_semicolon(R, T, S, [{<<"charset">>, V}|P]); media_charset(<< C, R/bits >>, T, S, P, V) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_charset, R, T, S, P, V) end. media_param(<< $=, $", R/bits >>, T, S, P, K) -> media_quoted(R, T, S, P, K, <<>>); media_param(<< $=, R/bits >>, T, S, P, K) -> media_value(R, T, S, P, K, <<>>); media_param(<< C, R/bits >>, T, S, P, K) when ?IS_TOKEN(C) -> case C of ?INLINE_LOWERCASE(media_param, R, T, S, P, K) end. media_quoted(<< $", R/bits >>, T, S, P, K, V) -> media_before_semicolon(R, T, S, [{K, V}|P]); media_quoted(<< $\\, C, R/bits >>, T, S, P, K, V) when ?IS_VCHAR(C) -> media_quoted(R, T, S, P, K, << V/binary, C >>); media_quoted(<< C, R/bits >>, T, S, P, K, V) when ?IS_VCHAR(C) -> media_quoted(R, T, S, P, K, << V/binary, C >>). media_value(<<>>, T, S, P, K, V) -> {T, S, lists:reverse([{K, V}|P])}; media_value(<< $;, R/bits >>, T, S, P, K, V) -> media_before_param(R, T, S, [{K, V}|P]); media_value(<< $\s, R/bits >>, T, S, P, K, V) -> media_before_semicolon(R, T, S, [{K, V}|P]); media_value(<< $\t, R/bits >>, T, S, P, K, V) -> media_before_semicolon(R, T, S, [{K, V}|P]); media_value(<< C, R/bits >>, T, S, P, K, V) when ?IS_TOKEN(C) -> media_value(R, T, S, P, K, << V/binary, C >>). -ifdef(TEST). media_type_parameter() -> frequency([ {90, parameter()}, {10, {<<"charset">>, oneof([token(), quoted_string()]), <<>>, <<>>}} ]). media_type() -> ?LET({T, S, P}, {token(), token(), list(media_type_parameter())}, {T, S, P, iolist_to_binary([T, $/, S, [[OWS1, $;, OWS2, K, $=, V] || {K, V, OWS1, OWS2} <- P]])} ). prop_parse_content_type() -> ?FORALL({T, S, P, MediaType}, media_type(), begin {ResT, ResS, ResP} = parse_content_type(MediaType), ExpectedP = [case ?INLINE_LOWERCASE_BC(K) of <<"charset">> -> {<<"charset">>, ?INLINE_LOWERCASE_BC(unquote(V))}; LowK -> {LowK, unquote(V)} end || {K, V, _, _} <- P], ResT =:= ?INLINE_LOWERCASE_BC(T) andalso ResS =:= ?INLINE_LOWERCASE_BC(S) andalso ResP =:= ExpectedP end ). parse_content_type_test_() -> Tests = [ {<<"text/html;charset=utf-8">>, {<<"text">>, <<"html">>, [{<<"charset">>, <<"utf-8">>}]}}, {<<"text/html;charset=UTF-8">>, {<<"text">>, <<"html">>, [{<<"charset">>, <<"utf-8">>}]}}, {<<"Text/HTML;Charset=\"utf-8\"">>, {<<"text">>, <<"html">>, [{<<"charset">>, <<"utf-8">>}]}}, {<<"text/html; charset=\"utf-8\"">>, {<<"text">>, <<"html">>, [{<<"charset">>, <<"utf-8">>}]}}, {<<"text/html; charset=ISO-8859-4">>, {<<"text">>, <<"html">>, [{<<"charset">>, <<"iso-8859-4">>}]}}, {<<"text/plain; charset=iso-8859-4">>, {<<"text">>, <<"plain">>, [{<<"charset">>, <<"iso-8859-4">>}]}}, {<<"multipart/form-data \t;Boundary=\"MultipartIsUgly\"">>, {<<"multipart">>, <<"form-data">>, [ {<<"boundary">>, <<"MultipartIsUgly">>} ]}}, {<<"foo/bar; one=FirstParam; two=SecondParam">>, {<<"foo">>, <<"bar">>, [ {<<"one">>, <<"FirstParam">>}, {<<"two">>, <<"SecondParam">>} ]}} ], [{V, fun() -> R = parse_content_type(V) end} || {V, R} <- Tests]. -endif. -ifdef(PERF). horse_parse_content_type() -> horse:repeat(200000, parse_content_type(<<"text/html;charset=utf-8">>) ). -endif. %% @doc Parse the Expect header. -spec parse_expect(binary()) -> continue. parse_expect(<<"100-continue", Rest/bits >>) -> ws_end(Rest), continue; parse_expect(<<"100-", C, O, N, T, I, M, U, E, Rest/bits >>) when C =:= $C orelse C =:= $c, O =:= $O orelse O =:= $o, N =:= $N orelse N =:= $n, T =:= $T orelse T =:= $t, I =:= $I orelse I =:= $i, M =:= $N orelse M =:= $n, U =:= $U orelse U =:= $u, E =:= $E orelse E =:= $e -> ws_end(Rest), continue. -ifdef(TEST). parse_expect_test_() -> Tests = [ <<"100-continue">>, <<"100-CONTINUE">>, <<"100-Continue">>, <<"100-CoNtInUe">>, <<"100-continue ">> ], [{V, fun() -> continue = parse_expect(V) end} || V <- Tests]. parse_expect_error_test_() -> Tests = [ <<>>, <<" ">>, <<"200-OK">>, <<"Cookies">> ], [{V, fun() -> {'EXIT', _} = (catch parse_expect(V)) end} || V <- Tests]. -endif. -ifdef(PERF). horse_parse_expect() -> horse:repeat(200000, parse_expect(<<"100-continue">>) ). -endif. %% @doc Parse the Max-Forwards header. -spec parse_max_forwards(binary()) -> integer(). parse_max_forwards(<< $0, R/bits >>) -> number(R, 0); parse_max_forwards(<< $1, R/bits >>) -> number(R, 1); parse_max_forwards(<< $2, R/bits >>) -> number(R, 2); parse_max_forwards(<< $3, R/bits >>) -> number(R, 3); parse_max_forwards(<< $4, R/bits >>) -> number(R, 4); parse_max_forwards(<< $5, R/bits >>) -> number(R, 5); parse_max_forwards(<< $6, R/bits >>) -> number(R, 6); parse_max_forwards(<< $7, R/bits >>) -> number(R, 7); parse_max_forwards(<< $8, R/bits >>) -> number(R, 8); parse_max_forwards(<< $9, R/bits >>) -> number(R, 9). -ifdef(TEST). parse_max_forwards_test_() -> Tests = [ {<<"0">>, 0}, {<<"42 ">>, 42}, {<<"69\t">>, 69}, {<<"1337">>, 1337}, {<<"1234567890">>, 1234567890}, {<<"1234567890 ">>, 1234567890} ], [{V, fun() -> R = parse_max_forwards(V) end} || {V, R} <- Tests]. -endif. %% @doc Parse the Transfer-Encoding header. %% %% @todo Extension parameters. -spec parse_transfer_encoding(binary()) -> [binary()]. parse_transfer_encoding(<<"chunked">>) -> [<<"chunked">>]; parse_transfer_encoding(TransferEncoding) -> nonempty(token_ci_list(TransferEncoding, [])). -ifdef(TEST). parse_transfer_encoding_test_() -> Tests = [ {<<"a , , , ">>, [<<"a">>]}, {<<" , , , a">>, [<<"a">>]}, {<<"a , , b">>, [<<"a">>, <<"b">>]}, {<<"chunked">>, [<<"chunked">>]}, {<<"chunked, something">>, [<<"chunked">>, <<"something">>]} ], [{V, fun() -> R = parse_transfer_encoding(V) end} || {V, R} <- Tests]. parse_transfer_encoding_error_test_() -> Tests = [ <<>>, <<" ">>, <<" , ">>, <<",,,">>, <<"a b">> ], [{V, fun() -> {'EXIT', _} = (catch parse_transfer_encoding(V)) end} || V <- Tests]. -endif. -ifdef(PERF). horse_parse_transfer_encoding_chunked() -> horse:repeat(200000, parse_transfer_encoding(<<"chunked">>) ). horse_parse_transfer_encoding_custom() -> horse:repeat(200000, parse_transfer_encoding(<<"chunked, something">>) ). -endif. %% Internal. %% Only return if the list is not empty. nonempty(L) when L =/= [] -> L. %% Parse a number optionally followed by whitespace. number(<< $0, R/bits >>, Acc) -> number(R, Acc * 10); number(<< $1, R/bits >>, Acc) -> number(R, Acc * 10 + 1); number(<< $2, R/bits >>, Acc) -> number(R, Acc * 10 + 2); number(<< $3, R/bits >>, Acc) -> number(R, Acc * 10 + 3); number(<< $4, R/bits >>, Acc) -> number(R, Acc * 10 + 4); number(<< $5, R/bits >>, Acc) -> number(R, Acc * 10 + 5); number(<< $6, R/bits >>, Acc) -> number(R, Acc * 10 + 6); number(<< $7, R/bits >>, Acc) -> number(R, Acc * 10 + 7); number(<< $8, R/bits >>, Acc) -> number(R, Acc * 10 + 8); number(<< $9, R/bits >>, Acc) -> number(R, Acc * 10 + 9); number(<< $\s, R/bits >>, Acc) -> ws_end(R), Acc; number(<< $\t, R/bits >>, Acc) -> ws_end(R), Acc; number(<<>>, Acc) -> Acc. ws_end(<< $\s, R/bits >>) -> ws_end(R); ws_end(<< $\t, R/bits >>) -> ws_end(R); ws_end(<<>>) -> ok. %% Parse a list of case insensitive tokens. token_ci_list(<<>>, Acc) -> lists:reverse(Acc); token_ci_list(<< $\s, R/bits >>, Acc) -> token_ci_list(R, Acc); token_ci_list(<< $\t, R/bits >>, Acc) -> token_ci_list(R, Acc); token_ci_list(<< $,, R/bits >>, Acc) -> token_ci_list(R, Acc); token_ci_list(<< C, R/bits >>, Acc) -> case C of ?INLINE_LOWERCASE(token_ci_list, R, Acc, <<>>) end. token_ci_list(<<>>, Acc, T) -> lists:reverse([T|Acc]); token_ci_list(<< $\s, R/bits >>, Acc, T) -> token_ci_list_sep(R, Acc, T); token_ci_list(<< $\t, R/bits >>, Acc, T) -> token_ci_list_sep(R, Acc, T); token_ci_list(<< $,, R/bits >>, Acc, T) -> token_ci_list(R, [T|Acc]); token_ci_list(<< C, R/bits >>, Acc, T) -> case C of ?INLINE_LOWERCASE(token_ci_list, R, Acc, T) end. token_ci_list_sep(<<>>, Acc, T) -> lists:reverse([T|Acc]); token_ci_list_sep(<< $\s, R/bits >>, Acc, T) -> token_ci_list_sep(R, Acc, T); token_ci_list_sep(<< $\t, R/bits >>, Acc, T) -> token_ci_list_sep(R, Acc, T); token_ci_list_sep(<< $,, R/bits >>, Acc, T) -> token_ci_list(R, [T|Acc]).