mirror of
https://github.com/processone/ejabberd.git
synced 2024-12-18 17:24:31 +01:00
176 lines
6.4 KiB
Erlang
176 lines
6.4 KiB
Erlang
%%
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% File : ejabberd_websocket_codec.erl
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% Author : Paweł Chmielowski <pawel@process-one.net>
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% Purpose : Coder/Encoder of websocket frames
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% Created : 9 sty 2023 by Paweł Chmielowski <pawel@process-one.net>
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%
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%
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% ejabberd, Copyright (C) 2002-2024 ProcessOne
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%
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% This program is free software; you can redistribute it and/or
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% modify it under the terms of the GNU General Public License as
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% published by the Free Software Foundation; either version 2 of the
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% License, or (at your option) any later version.
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%
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% This program is distributed in the hope that it will be useful,
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% but WITHOUT ANY WARRANTY; without even the implied warranty of
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% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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% General Public License for more details.
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%
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% You should have received a copy of the GNU General Public License along
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% with this program; if not, write to the Free Software Foundation, Inc.,
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% 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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%
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%
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-module(ejabberd_websocket_codec).
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-author("pawel@process-one.net").
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%% API
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-export([new_server/0, new_client/0, decode/2, encode/3]).
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-record(codec_state, {
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our_mask = none :: none | binary(),
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partial = none :: none | {non_neg_integer(), binary()},
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opcode = 0 :: non_neg_integer(),
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is_fin = false :: boolean(),
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mask = none :: none | binary(),
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mask_offset = 0 :: non_neg_integer(),
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required = -1 :: integer(),
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data = <<>> :: binary()
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}).
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-opaque codec_state() :: #codec_state{}.
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-export_type([codec_state/0]).
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-spec new_server() -> codec_state().
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new_server() ->
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#codec_state{}.
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new_client() ->
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#codec_state{our_mask = p1_rand:bytes(4)}.
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-spec decode(codec_state(), binary()) -> {ok, codec_state(), [binary()]} | {error, atom(), [binary()]}.
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decode(#codec_state{required = -1, data = PrevData, partial = Partial} = S, Data) ->
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Data2 = <<PrevData/binary, Data/binary>>,
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case parse_header(Data2) of
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none ->
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{ok, S#codec_state{data = Data2}, []};
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{_, _, Opcode, _, _} when (Opcode > 2 andalso Opcode < 8) orelse (Opcode > 10) ->
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{error, unknown_opcode, []};
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{_, 0, Opcode, _, _} when Opcode > 7 ->
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{error, partial_control_frame, []};
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{_, _, Opcode, _, _} when Opcode > 0 andalso Opcode < 8 andalso Partial /= none ->
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{error, partial_frame_non_finished, []};
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{Len, Final, Opcode, Mask, Payload} ->
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decode(S#codec_state{opcode = Opcode, is_fin = Final == 1,
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mask = Mask, mask_offset = 0,
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required = Len, data = <<>>}, Payload)
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end;
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decode(#codec_state{required = Req, data = PrevData,
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mask = Mask, mask_offset = Offset} = S, Data)
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when byte_size(PrevData) + byte_size(Data) < Req ->
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{Unmasked, NewOffset} = apply_mask(Offset, Mask, Data, PrevData),
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{ok, S#codec_state{data = Unmasked, mask_offset = NewOffset}, []};
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decode(#codec_state{required = Req, data = PrevData,
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mask = Mask, mask_offset = Offset,
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is_fin = IsFin, opcode = Opcode,
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partial = Partial} = S, Data) ->
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Left = Req - byte_size(PrevData),
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<<CurrentPayload:Left/binary, NextPacketData/binary>> = Data,
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{Unmasked, _} = apply_mask(Offset, Mask, CurrentPayload, PrevData),
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{NS, Packets} =
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case {IsFin, Partial} of
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{false, none} ->
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{S#codec_state{partial = {Opcode, Unmasked},
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data = <<>>, required = -1}, []};
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{false, {PartOp, PartData}} ->
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{S#codec_state{partial = {PartOp, <<PartData/binary, Unmasked/binary>>},
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data = <<>>, required = -1}, []};
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{true, none} ->
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{S#codec_state{data = <<>>, required = -1}, [{Opcode, Unmasked}]};
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{true, {PartOp, PartData}} ->
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{S#codec_state{partial = none, data = <<>>, required = -1},
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[{PartOp, <<PartData/binary, Unmasked/binary>>}]}
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end,
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case NextPacketData of
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<<>> ->
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{ok, NS, Packets};
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_ ->
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case decode(NS, NextPacketData) of
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{T1, T2, Packets2} ->
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{T1, T2, Packets ++ Packets2}
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end
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end.
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-spec encode(codec_state(), non_neg_integer(), binary()) -> binary().
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encode(#codec_state{our_mask = none}, Opcode, Data) ->
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case byte_size(Data) of
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S1 when S1 < 126 ->
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<<1:1, 0:3, Opcode:4, 0:1, S1:7, Data/binary>>;
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S2 when S2 < 65536 ->
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<<1:1, 0:3, Opcode:4, 0:1, 126:7, S2:16, Data/binary>>;
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S3 ->
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<<1:1, 0:3, Opcode:4, 0:1, 127:7, S3:64, Data/binary>>
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end;
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encode(#codec_state{our_mask = Mask}, Opcode, Data) ->
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{MaskedData, _} = apply_mask(0, Mask, Data, <<>>),
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case byte_size(Data) of
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S1 when S1 < 126 ->
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<<1:1, 0:3, Opcode:4, 1:1, S1:7, Mask/binary, MaskedData/binary>>;
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S2 when S2 < 65536 ->
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<<1:1, 0:3, Opcode:4, 1:1, 126:7, S2:16, Mask/binary, MaskedData/binary>>;
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S3 ->
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<<1:1, 0:3, Opcode:4, 1:1, 127:7, S3:64, Mask/binary, MaskedData/binary>>
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end.
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-spec parse_header(binary()) -> none | {integer(), integer(), integer(), none | binary(), binary()}.
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parse_header(<<Final:1, _:3, Opcode:4, 0:1,
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Len:7, Data/binary>>)
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when Len < 126 ->
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{Len, Final, Opcode, none, Data};
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parse_header(<<Final:1, _:3, Opcode:4, 0:1,
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126:7, Len:16/integer, Data/binary>>) ->
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{Len, Final, Opcode, none, Data};
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parse_header(<<Final:1, _:3, Opcode:4, 0:1,
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127:7, Len:64/integer, Data/binary>>) ->
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{Len, Final, Opcode, none, Data};
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parse_header(<<Final:1, _:3, Opcode:4, 1:1,
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Len:7, Mask:4/binary, Data/binary>>)
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when Len < 126 ->
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{Len, Final, Opcode, Mask, Data};
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parse_header(<<Final:1, _:3, Opcode:4, 1:1,
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126:7, Len:16/integer, Mask:4/binary, Data/binary>>) ->
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{Len, Final, Opcode, Mask, Data};
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parse_header(<<Final:1, _:3, Opcode:4, 1:1,
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127:7, Len:64/integer, Mask:4/binary, Data/binary>>) ->
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{Len, Final, Opcode, Mask, Data};
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parse_header(_) ->
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none.
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-spec apply_mask(integer(), none | binary(), binary(), binary()) -> {binary(), non_neg_integer()}.
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apply_mask(_, none, Data, _) ->
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{Data, 0};
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apply_mask(Offset, _, <<>>, Acc) ->
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{Acc, Offset};
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apply_mask(0, <<M:32>> = Mask,
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<<N:32, Rest/binary>>, Acc) ->
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apply_mask(0, Mask, Rest,
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<<Acc/binary, (M bxor N):32>>);
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apply_mask(0, <<M:8, _/binary>> = Mask,
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<<N:8, Rest/binary>>, Acc) ->
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apply_mask(1, Mask, Rest,
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<<Acc/binary, (M bxor N):8>>);
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apply_mask(1, <<_:8, M:8, _/binary>> = Mask,
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<<N:8, Rest/binary>>, Acc) ->
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apply_mask(2, Mask, Rest,
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<<Acc/binary, (M bxor N):8>>);
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apply_mask(2, <<_:16, M:8, _/binary>> = Mask,
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<<N:8, Rest/binary>>, Acc) ->
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apply_mask(3, Mask, Rest,
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<<Acc/binary, (M bxor N):8>>);
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apply_mask(3, <<_:24, M:8>> = Mask,
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<<N:8, Rest/binary>>, Acc) ->
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apply_mask(0, Mask, Rest,
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<<Acc/binary, (M bxor N):8>>).
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