diff options
Diffstat (limited to 'lib/ssl/src/tls_record.erl')
-rw-r--r-- | lib/ssl/src/tls_record.erl | 447 |
1 files changed, 263 insertions, 184 deletions
diff --git a/lib/ssl/src/tls_record.erl b/lib/ssl/src/tls_record.erl index 188ec6809d..38022030ee 100644 --- a/lib/ssl/src/tls_record.erl +++ b/lib/ssl/src/tls_record.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2007-2017. All Rights Reserved. +%% Copyright Ericsson AB 2007-2019. All Rights Reserved. %% %% Licensed under the Apache License, Version 2.0 (the "License"); %% you may not use this file except in compliance with the License. @@ -75,25 +75,22 @@ init_connection_states(Role, BeastMitigation) -> pending_write => Pending}. %%-------------------------------------------------------------------- --spec get_tls_records(binary(), [tls_version()], binary()) -> {[binary()], binary()} | #alert{}. +-spec get_tls_records( + binary(), [tls_version()] | tls_version(), + Buffer0 :: binary() | {'undefined' | #ssl_tls{}, {[binary()],non_neg_integer(),[binary()]}}) -> + {Records :: [#ssl_tls{}], + Buffer :: {'undefined' | #ssl_tls{}, {[binary()],non_neg_integer(),[binary()]}}} | + #alert{}. %% %% and returns it as a list of tls_compressed binaries also returns leftover %% Description: Given old buffer and new data from TCP, packs up a records %% data %%-------------------------------------------------------------------- -get_tls_records(Data, Versions, Buffer) -> - BinData = list_to_binary([Buffer, Data]), - case erlang:byte_size(BinData) of - N when N >= 3 -> - case assert_version(BinData, Versions) of - true -> - get_tls_records_aux(BinData, []); - false -> - ?ALERT_REC(?FATAL, ?BAD_RECORD_MAC) - end; - _ -> - get_tls_records_aux(BinData, []) - end. + +get_tls_records(Data, Versions, Buffer) when is_binary(Buffer) -> + parse_tls_records(Versions, {[Data],byte_size(Data),[]}, undefined); +get_tls_records(Data, Versions, {Hdr, {Front,Size,Rear}}) -> + parse_tls_records(Versions, {Front,Size + byte_size(Data),[Data|Rear]}, Hdr). %%==================================================================== %% Encoding @@ -113,8 +110,8 @@ encode_handshake(Frag, Version, ConnectionStates) -> case iolist_size(Frag) of N when N > ?MAX_PLAIN_TEXT_LENGTH -> - Data = split_bin(iolist_to_binary(Frag), ?MAX_PLAIN_TEXT_LENGTH, Version, BCA, BeastMitigation), - encode_iolist(?HANDSHAKE, Data, Version, ConnectionStates); + Data = split_iovec(erlang:iolist_to_iovec(Frag), Version, BCA, BeastMitigation), + encode_fragments(?HANDSHAKE, Version, Data, ConnectionStates); _ -> encode_plain_text(?HANDSHAKE, Version, Frag, ConnectionStates) end. @@ -140,18 +137,18 @@ encode_change_cipher_spec(Version, ConnectionStates) -> encode_plain_text(?CHANGE_CIPHER_SPEC, Version, ?byte(?CHANGE_CIPHER_SPEC_PROTO), ConnectionStates). %%-------------------------------------------------------------------- --spec encode_data(binary(), tls_version(), ssl_record:connection_states()) -> - {iolist(), ssl_record:connection_states()}. +-spec encode_data([binary()], tls_version(), ssl_record:connection_states()) -> + {[[binary()]], ssl_record:connection_states()}. %% %% Description: Encodes data to send on the ssl-socket. %%-------------------------------------------------------------------- -encode_data(Frag, Version, +encode_data(Data, Version, #{current_write := #{beast_mitigation := BeastMitigation, security_parameters := #security_parameters{bulk_cipher_algorithm = BCA}}} = ConnectionStates) -> - Data = split_bin(Frag, ?MAX_PLAIN_TEXT_LENGTH, Version, BCA, BeastMitigation), - encode_iolist(?APPLICATION_DATA, Data, Version, ConnectionStates). + Fragments = split_iovec(Data, Version, BCA, BeastMitigation), + encode_fragments(?APPLICATION_DATA, Version, Fragments, ConnectionStates). %%==================================================================== %% Decoding @@ -163,56 +160,59 @@ encode_data(Frag, Version, %% %% Description: Decode cipher text %%-------------------------------------------------------------------- -decode_cipher_text(#ssl_tls{type = Type, version = Version, - fragment = CipherFragment} = CipherText, +decode_cipher_text(CipherText, #{current_read := - #{compression_state := CompressionS0, - sequence_number := Seq, - cipher_state := CipherS0, + #{sequence_number := Seq, security_parameters := - #security_parameters{ - cipher_type = ?AEAD, - bulk_cipher_algorithm = - BulkCipherAlgo, - compression_algorithm = CompAlg} - } = ReadState0} = ConnnectionStates0, _) -> - AAD = calc_aad(Type, Version, ReadState0), - case ssl_cipher:decipher_aead(BulkCipherAlgo, CipherS0, Seq, AAD, CipherFragment, Version) of - {PlainFragment, CipherS1} -> - {Plain, CompressionS1} = ssl_record:uncompress(CompAlg, - PlainFragment, CompressionS0), - ConnnectionStates = ConnnectionStates0#{ + #security_parameters{cipher_type = ?AEAD, + bulk_cipher_algorithm = BulkCipherAlgo}, + cipher_state := CipherS0 + } + } = ConnectionStates0, _) -> + SeqBin = <<?UINT64(Seq)>>, + #ssl_tls{type = Type, version = {MajVer,MinVer} = Version, fragment = Fragment} = CipherText, + StartAdditionalData = <<SeqBin/binary, ?BYTE(Type), ?BYTE(MajVer), ?BYTE(MinVer)>>, + CipherS = ssl_record:nonce_seed(BulkCipherAlgo, SeqBin, CipherS0), + case ssl_record:decipher_aead( + BulkCipherAlgo, CipherS, StartAdditionalData, Fragment, Version) + of + PlainFragment when is_binary(PlainFragment) -> + #{current_read := + #{security_parameters := SecParams, + compression_state := CompressionS0} = ReadState0} = ConnectionStates0, + {Plain, CompressionS} = ssl_record:uncompress(SecParams#security_parameters.compression_algorithm, + PlainFragment, CompressionS0), + ConnectionStates = ConnectionStates0#{ current_read => ReadState0#{ - cipher_state => CipherS1, + cipher_state => CipherS, sequence_number => Seq + 1, - compression_state => CompressionS1}}, - {CipherText#ssl_tls{fragment = Plain}, ConnnectionStates}; + compression_state => CompressionS}}, + {CipherText#ssl_tls{fragment = Plain}, ConnectionStates}; #alert{} = Alert -> Alert end; -decode_cipher_text(#ssl_tls{type = Type, version = Version, +decode_cipher_text(#ssl_tls{version = Version, fragment = CipherFragment} = CipherText, - #{current_read := - #{compression_state := CompressionS0, - sequence_number := Seq, - security_parameters := - #security_parameters{compression_algorithm = CompAlg} - } = ReadState0} = ConnnectionStates0, PaddingCheck) -> + #{current_read := ReadState0} = ConnnectionStates0, PaddingCheck) -> case ssl_record:decipher(Version, CipherFragment, ReadState0, PaddingCheck) of {PlainFragment, Mac, ReadState1} -> - MacHash = ssl_cipher:calc_mac_hash(Type, Version, PlainFragment, ReadState1), + MacHash = ssl_cipher:calc_mac_hash(CipherText#ssl_tls.type, Version, PlainFragment, ReadState1), case ssl_record:is_correct_mac(Mac, MacHash) of true -> + #{sequence_number := Seq, + compression_state := CompressionS0, + security_parameters := + #security_parameters{compression_algorithm = CompAlg}} = ReadState0, {Plain, CompressionS1} = ssl_record:uncompress(CompAlg, PlainFragment, CompressionS0), - ConnnectionStates = ConnnectionStates0#{ - current_read => ReadState1#{ - sequence_number => Seq + 1, - compression_state => CompressionS1}}, + ConnnectionStates = + ConnnectionStates0#{current_read => + ReadState1#{sequence_number => Seq + 1, + compression_state => CompressionS1}}, {CipherText#ssl_tls{fragment = Plain}, ConnnectionStates}; false -> - ?ALERT_REC(?FATAL, ?BAD_RECORD_MAC) + ?ALERT_REC(?FATAL, ?BAD_RECORD_MAC) end; #alert{} = Alert -> Alert @@ -394,145 +394,224 @@ initial_connection_state(ConnectionEnd, BeastMitigation) -> server_verify_data => undefined }. -assert_version(<<1:1, Length0:15, Data0:Length0/binary, _/binary>>, Versions) -> - case Data0 of - <<?BYTE(?CLIENT_HELLO), ?BYTE(Major), ?BYTE(Minor), _/binary>> -> - %% First check v2_hello_compatible mode is active - lists:member({2,0}, Versions) andalso - %% andalso we want to negotiate higher version - lists:member({Major, Minor}, Versions -- [{2,0}]); - _ -> - false + +parse_tls_records(Versions, Q, undefined) -> + decode_tls_records(Versions, Q, [], undefined, undefined, undefined); +parse_tls_records(Versions, Q, #ssl_tls{type = Type, version = Version, fragment = Length}) -> + decode_tls_records(Versions, Q, [], Type, Version, Length). + +%% Generic code path +decode_tls_records(Versions, {_,Size,_} = Q0, Acc, undefined, _Version, _Length) -> + if + 5 =< Size -> + {<<?BYTE(Type),?BYTE(MajVer),?BYTE(MinVer), ?UINT16(Length)>>, Q} = binary_from_front(5, Q0), + validate_tls_records_type(Versions, Q, Acc, Type, {MajVer,MinVer}, Length); + 3 =< Size -> + {<<?BYTE(Type),?BYTE(MajVer),?BYTE(MinVer)>>, Q} = binary_from_front(3, Q0), + validate_tls_records_type(Versions, Q, Acc, Type, {MajVer,MinVer}, undefined); + 1 =< Size -> + {<<?BYTE(Type)>>, Q} = binary_from_front(1, Q0), + validate_tls_records_type(Versions, Q, Acc, Type, undefined, undefined); + true -> + validate_tls_records_type(Versions, Q0, Acc, undefined, undefined, undefined) + end; +decode_tls_records(Versions, {_,Size,_} = Q0, Acc, Type, undefined, _Length) -> + if + 4 =< Size -> + {<<?BYTE(MajVer),?BYTE(MinVer), ?UINT16(Length)>>, Q} = binary_from_front(4, Q0), + validate_tls_record_version(Versions, Q, Acc, Type, {MajVer,MinVer}, Length); + 2 =< Size -> + {<<?BYTE(MajVer),?BYTE(MinVer)>>, Q} = binary_from_front(2, Q0), + validate_tls_record_version(Versions, Q, Acc, Type, {MajVer,MinVer}, undefined); + true -> + validate_tls_record_version(Versions, Q0, Acc, Type, undefined, undefined) end; -assert_version(<<?BYTE(_), ?BYTE(MajVer), ?BYTE(MinVer), _/binary>>, Versions) -> - is_acceptable_version({MajVer, MinVer}, Versions). - -get_tls_records_aux(<<?BYTE(?APPLICATION_DATA),?BYTE(MajVer),?BYTE(MinVer), - ?UINT16(Length), Data:Length/binary, Rest/binary>>, - Acc) -> - get_tls_records_aux(Rest, [#ssl_tls{type = ?APPLICATION_DATA, - version = {MajVer, MinVer}, - fragment = Data} | Acc]); -get_tls_records_aux(<<?BYTE(?HANDSHAKE),?BYTE(MajVer),?BYTE(MinVer), - ?UINT16(Length), - Data:Length/binary, Rest/binary>>, Acc) -> - get_tls_records_aux(Rest, [#ssl_tls{type = ?HANDSHAKE, - version = {MajVer, MinVer}, - fragment = Data} | Acc]); -get_tls_records_aux(<<?BYTE(?ALERT),?BYTE(MajVer),?BYTE(MinVer), - ?UINT16(Length), Data:Length/binary, - Rest/binary>>, Acc) -> - get_tls_records_aux(Rest, [#ssl_tls{type = ?ALERT, - version = {MajVer, MinVer}, - fragment = Data} | Acc]); -get_tls_records_aux(<<?BYTE(?CHANGE_CIPHER_SPEC),?BYTE(MajVer),?BYTE(MinVer), - ?UINT16(Length), Data:Length/binary, Rest/binary>>, - Acc) -> - get_tls_records_aux(Rest, [#ssl_tls{type = ?CHANGE_CIPHER_SPEC, - version = {MajVer, MinVer}, - fragment = Data} | Acc]); -%% Matches an ssl v2 client hello message. -%% The server must be able to receive such messages, from clients that -%% are willing to use ssl v3 or higher, but have ssl v2 compatibility. -get_tls_records_aux(<<1:1, Length0:15, Data0:Length0/binary, Rest/binary>>, - Acc) -> - case Data0 of - <<?BYTE(?CLIENT_HELLO), ?BYTE(MajVer), ?BYTE(MinVer), _/binary>> -> - Length = Length0-1, - <<?BYTE(_), Data1:Length/binary>> = Data0, - Data = <<?BYTE(?CLIENT_HELLO), ?UINT24(Length), Data1/binary>>, - get_tls_records_aux(Rest, [#ssl_tls{type = ?HANDSHAKE, - version = {MajVer, MinVer}, - fragment = Data} | Acc]); - _ -> - ?ALERT_REC(?FATAL, ?HANDSHAKE_FAILURE) - +decode_tls_records(Versions, {_,Size,_} = Q0, Acc, Type, Version, undefined) -> + if + 2 =< Size -> + {<<?UINT16(Length)>>, Q} = binary_from_front(2, Q0), + validate_tls_record_length(Versions, Q, Acc, Type, Version, Length); + true -> + validate_tls_record_length(Versions, Q0, Acc, Type, Version, undefined) end; +decode_tls_records(Versions, Q, Acc, Type, Version, Length) -> + validate_tls_record_length(Versions, Q, Acc, Type, Version, Length). + +validate_tls_records_type(_Versions, Q, Acc, undefined, _Version, _Length) -> + {lists:reverse(Acc), + {undefined, Q}}; +validate_tls_records_type(Versions, Q, Acc, Type, Version, Length) -> + if + ?KNOWN_RECORD_TYPE(Type) -> + validate_tls_record_version(Versions, Q, Acc, Type, Version, Length); + true -> + %% Not ?KNOWN_RECORD_TYPE(Type) + ?ALERT_REC(?FATAL, ?UNEXPECTED_MESSAGE) + end. -get_tls_records_aux(<<0:1, _CT:7, ?BYTE(_MajVer), ?BYTE(_MinVer), - ?UINT16(Length), _/binary>>, - _Acc) when Length > ?MAX_CIPHER_TEXT_LENGTH -> - ?ALERT_REC(?FATAL, ?RECORD_OVERFLOW); -get_tls_records_aux(<<1:1, Length0:15, _/binary>>,_Acc) - when Length0 > ?MAX_CIPHER_TEXT_LENGTH -> - ?ALERT_REC(?FATAL, ?RECORD_OVERFLOW); - -get_tls_records_aux(Data, Acc) -> - case size(Data) =< ?MAX_CIPHER_TEXT_LENGTH + ?INITIAL_BYTES of - true -> - {lists:reverse(Acc), Data}; - false -> - ?ALERT_REC(?FATAL, ?UNEXPECTED_MESSAGE) - end. -%%-------------------------------------------------------------------- -encode_plain_text(Type, Version, Data, #{current_write := Write0} = ConnectionStates) -> - {CipherFragment, Write1} = do_encode_plain_text(Type, Version, Data, Write0), - {CipherText, Write} = encode_tls_cipher_text(Type, Version, CipherFragment, Write1), - {CipherText, ConnectionStates#{current_write => Write}}. - -encode_tls_cipher_text(Type, {MajVer, MinVer}, Fragment, #{sequence_number := Seq} = Write) -> - Length = erlang:iolist_size(Fragment), - {[<<?BYTE(Type), ?BYTE(MajVer), ?BYTE(MinVer), ?UINT16(Length)>>, Fragment], - Write#{sequence_number => Seq +1}}. - -encode_iolist(Type, Data, Version, ConnectionStates0) -> - {ConnectionStates, EncodedMsg} = - lists:foldl(fun(Text, {CS0, Encoded}) -> - {Enc, CS1} = - encode_plain_text(Type, Version, Text, CS0), - {CS1, [Enc | Encoded]} - end, {ConnectionStates0, []}, Data), - {lists:reverse(EncodedMsg), ConnectionStates}. -%%-------------------------------------------------------------------- -do_encode_plain_text(Type, Version, Data, #{compression_state := CompS0, - security_parameters := - #security_parameters{ - cipher_type = ?AEAD, - compression_algorithm = CompAlg} - } = WriteState0) -> - {Comp, CompS1} = ssl_record:compress(CompAlg, Data, CompS0), - WriteState1 = WriteState0#{compression_state => CompS1}, - AAD = calc_aad(Type, Version, WriteState1), - ssl_record:cipher_aead(Version, Comp, WriteState1, AAD); -do_encode_plain_text(Type, Version, Data, #{compression_state := CompS0, - security_parameters := - #security_parameters{compression_algorithm = CompAlg} - }= WriteState0) -> - {Comp, CompS1} = ssl_record:compress(CompAlg, Data, CompS0), - WriteState1 = WriteState0#{compression_state => CompS1}, - MacHash = ssl_cipher:calc_mac_hash(Type, Version, Comp, WriteState1), - ssl_record:cipher(Version, Comp, WriteState1, MacHash); -do_encode_plain_text(_,_,_,CS) -> +validate_tls_record_version(_Versions, Q, Acc, Type, undefined, _Length) -> + {lists:reverse(Acc), + {#ssl_tls{type = Type, version = undefined, fragment = undefined}, Q}}; +validate_tls_record_version(Versions, Q, Acc, Type, Version, Length) -> + if + is_list(Versions) -> + case is_acceptable_version(Version, Versions) of + true -> + validate_tls_record_length(Versions, Q, Acc, Type, Version, Length); + false -> + ?ALERT_REC(?FATAL, ?BAD_RECORD_MAC) + end; + Version =:= Versions -> + %% Exact version match + validate_tls_record_length(Versions, Q, Acc, Type, Version, Length); + true -> + ?ALERT_REC(?FATAL, ?BAD_RECORD_MAC) + end. + +validate_tls_record_length(_Versions, Q, Acc, Type, Version, undefined) -> + {lists:reverse(Acc), + {#ssl_tls{type = Type, version = Version, fragment = undefined}, Q}}; +validate_tls_record_length(Versions, {_,Size0,_} = Q0, Acc, Type, Version, Length) -> + if + Length =< ?MAX_CIPHER_TEXT_LENGTH -> + if + Length =< Size0 -> + %% Complete record + {Fragment, Q} = binary_from_front(Length, Q0), + Record = #ssl_tls{type = Type, version = Version, fragment = Fragment}, + decode_tls_records(Versions, Q, [Record|Acc], undefined, undefined, undefined); + true -> + {lists:reverse(Acc), + {#ssl_tls{type = Type, version = Version, fragment = Length}, Q0}} + end; + true -> + ?ALERT_REC(?FATAL, ?RECORD_OVERFLOW) + end. + + +binary_from_front(SplitSize, {Front,Size,Rear}) -> + binary_from_front(SplitSize, Front, Size, Rear, []). +%% +binary_from_front(SplitSize, [], Size, [_] = Rear, Acc) -> + %% Optimize a simple case + binary_from_front(SplitSize, Rear, Size, [], Acc); +binary_from_front(SplitSize, [], Size, Rear, Acc) -> + binary_from_front(SplitSize, lists:reverse(Rear), Size, [], Acc); +binary_from_front(SplitSize, [Bin|Front], Size, Rear, []) -> + %% Optimize a frequent case + BinSize = byte_size(Bin), + if + SplitSize < BinSize -> + {RetBin, Rest} = erlang:split_binary(Bin, SplitSize), + {RetBin, {[Rest|Front],Size - SplitSize,Rear}}; + BinSize < SplitSize -> + binary_from_front(SplitSize - BinSize, Front, Size, Rear, [Bin]); + true -> % Perfect fit + {Bin, {Front,Size - SplitSize,Rear}} + end; +binary_from_front(SplitSize, [Bin|Front], Size, Rear, Acc) -> + BinSize = byte_size(Bin), + if + SplitSize < BinSize -> + {Last, Rest} = erlang:split_binary(Bin, SplitSize), + RetBin = iolist_to_binary(lists:reverse(Acc, [Last])), + {RetBin, {[Rest|Front],Size - byte_size(RetBin),Rear}}; + BinSize < SplitSize -> + binary_from_front(SplitSize - BinSize, Front, Size, Rear, [Bin|Acc]); + true -> % Perfect fit + RetBin = iolist_to_binary(lists:reverse(Acc, [Bin])), + {RetBin, {Front,Size - byte_size(RetBin),Rear}} + end. + +%%-------------------------------------------------------------------- +encode_plain_text(Type, Version, Data, ConnectionStates0) -> + {[CipherText],ConnectionStates} = encode_fragments(Type, Version, [Data], ConnectionStates0), + {CipherText,ConnectionStates}. +%%-------------------------------------------------------------------- +encode_fragments(Type, Version, Data, + #{current_write := #{compression_state := CompS, + cipher_state := CipherS, + sequence_number := Seq}} = ConnectionStates) -> + encode_fragments(Type, Version, Data, ConnectionStates, CompS, CipherS, Seq, []). +%% +encode_fragments(_Type, _Version, [], #{current_write := WriteS} = CS, + CompS, CipherS, Seq, CipherFragments) -> + {lists:reverse(CipherFragments), + CS#{current_write := WriteS#{compression_state := CompS, + cipher_state := CipherS, + sequence_number := Seq}}}; +encode_fragments(Type, Version, [Text|Data], + #{current_write := #{security_parameters := + #security_parameters{cipher_type = ?AEAD, + bulk_cipher_algorithm = BCAlg, + compression_algorithm = CompAlg} = SecPars}} = CS, + CompS0, CipherS0, Seq, CipherFragments) -> + {CompText, CompS} = ssl_record:compress(CompAlg, Text, CompS0), + SeqBin = <<?UINT64(Seq)>>, + CipherS1 = ssl_record:nonce_seed(BCAlg, SeqBin, CipherS0), + {MajVer, MinVer} = Version, + VersionBin = <<?BYTE(MajVer), ?BYTE(MinVer)>>, + StartAdditionalData = <<SeqBin/binary, ?BYTE(Type), VersionBin/binary>>, + {CipherFragment,CipherS} = ssl_record:cipher_aead(Version, CompText, CipherS1, StartAdditionalData, SecPars), + Length = byte_size(CipherFragment), + CipherHeader = <<?BYTE(Type), VersionBin/binary, ?UINT16(Length)>>, + encode_fragments(Type, Version, Data, CS, CompS, CipherS, Seq + 1, + [[CipherHeader, CipherFragment] | CipherFragments]); +encode_fragments(Type, Version, [Text|Data], + #{current_write := #{security_parameters := + #security_parameters{compression_algorithm = CompAlg, + mac_algorithm = MacAlgorithm} = SecPars, + mac_secret := MacSecret}} = CS, + CompS0, CipherS0, Seq, CipherFragments) -> + {CompText, CompS} = ssl_record:compress(CompAlg, Text, CompS0), + MacHash = ssl_cipher:calc_mac_hash(Type, Version, CompText, MacAlgorithm, MacSecret, Seq), + {CipherFragment,CipherS} = ssl_record:cipher(Version, CompText, CipherS0, MacHash, SecPars), + Length = byte_size(CipherFragment), + {MajVer, MinVer} = Version, + CipherHeader = <<?BYTE(Type), ?BYTE(MajVer), ?BYTE(MinVer), ?UINT16(Length)>>, + encode_fragments(Type, Version, Data, CS, CompS, CipherS, Seq + 1, + [[CipherHeader, CipherFragment] | CipherFragments]); +encode_fragments(_Type, _Version, _Data, CS, _CompS, _CipherS, _Seq, _CipherFragments) -> exit({cs, CS}). %%-------------------------------------------------------------------- -calc_aad(Type, {MajVer, MinVer}, - #{sequence_number := SeqNo}) -> - <<?UINT64(SeqNo), ?BYTE(Type), ?BYTE(MajVer), ?BYTE(MinVer)>>. %% 1/n-1 splitting countermeasure Rizzo/Duong-Beast, RC4 chiphers are %% not vulnerable to this attack. -split_bin(<<FirstByte:8, Rest/binary>>, ChunkSize, Version, BCA, one_n_minus_one) when - BCA =/= ?RC4 andalso ({3, 1} == Version orelse - {3, 0} == Version) -> - do_split_bin(Rest, ChunkSize, [[FirstByte]]); +split_iovec(Data, Version, BCA, one_n_minus_one) + when (BCA =/= ?RC4) andalso ({3, 1} == Version orelse + {3, 0} == Version) -> + {Part, RestData} = split_iovec(Data, 1, []), + [Part|split_iovec(RestData)]; %% 0/n splitting countermeasure for clients that are incompatible with 1/n-1 %% splitting. -split_bin(Bin, ChunkSize, Version, BCA, zero_n) when - BCA =/= ?RC4 andalso ({3, 1} == Version orelse - {3, 0} == Version) -> - do_split_bin(Bin, ChunkSize, [[<<>>]]); -split_bin(Bin, ChunkSize, _, _, _) -> - do_split_bin(Bin, ChunkSize, []). - -do_split_bin(<<>>, _, Acc) -> - lists:reverse(Acc); -do_split_bin(Bin, ChunkSize, Acc) -> - case Bin of - <<Chunk:ChunkSize/binary, Rest/binary>> -> - do_split_bin(Rest, ChunkSize, [Chunk | Acc]); - _ -> - lists:reverse(Acc, [Bin]) - end. +split_iovec(Data, Version, BCA, zero_n) + when (BCA =/= ?RC4) andalso ({3, 1} == Version orelse + {3, 0} == Version) -> + {Part, RestData} = split_iovec(Data, 0, []), + [Part|split_iovec(RestData)]; +split_iovec(Data, _Version, _BCA, _BeatMitigation) -> + split_iovec(Data). + +split_iovec([]) -> + []; +split_iovec(Data) -> + {Part,Rest} = split_iovec(Data, ?MAX_PLAIN_TEXT_LENGTH, []), + [Part|split_iovec(Rest)]. +%% +split_iovec([Bin|Data] = Bin_Data, SplitSize, Acc) -> + BinSize = byte_size(Bin), + if + BinSize =< SplitSize -> + split_iovec(Data, SplitSize - BinSize, [Bin|Acc]); + SplitSize == 0 -> + {lists:reverse(Acc), Bin_Data}; + SplitSize < BinSize -> + {Last, Rest} = erlang:split_binary(Bin, SplitSize), + {lists:reverse(Acc, [Last]), [Rest|Data]} + end; +split_iovec([], _SplitSize, Acc) -> + {lists:reverse(Acc),[]}. + %%-------------------------------------------------------------------- lowest_list_protocol_version(Ver, []) -> Ver; |