%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2000-2016. 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.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(bs_match_misc_SUITE).
-export([all/0, suite/0,groups/0,init_per_group/2,end_per_group/2,
init_per_testcase/2,end_per_testcase/2,
init_per_suite/1,end_per_suite/1,
bound_var/1,bound_tail/1,t_float/1,little_float/1,sean/1,
kenneth/1,encode_binary/1,native/1,happi/1,
size_var/1,wiger/1,x0_context/1,huge_float_field/1,
writable_binary_matched/1,otp_7198/1,
unordered_bindings/1,float_middle_endian/1]).
-include_lib("common_test/include/ct.hrl").
suite() ->
[{ct_hooks,[ts_install_cth]},
{timetrap,{minutes,15}}].
all() ->
[bound_var, bound_tail, t_float, little_float, sean,
kenneth, encode_binary, native, happi, size_var, wiger,
x0_context, huge_float_field, writable_binary_matched,
otp_7198, unordered_bindings, float_middle_endian].
groups() ->
[].
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
init_per_suite(Config) when is_list(Config) ->
?line test_lib:interpret(?MODULE),
?line true = lists:member(?MODULE, int:interpreted()),
Config.
end_per_suite(Config) when is_list(Config) ->
ok.
init_per_testcase(_Case, Config) ->
test_lib:interpret(?MODULE),
Config.
end_per_testcase(_Case, _Config) ->
ok.
bound_var(doc) -> "Test matching of bound variables.";
bound_var(Config) when is_list(Config) ->
?line ok = bound_var(42, 13, <<42,13>>),
?line nope = bound_var(42, 13, <<42,255>>),
?line nope = bound_var(42, 13, <<154,255>>),
ok.
bound_var(A, B, <<A:8,B:8>>) -> ok;
bound_var(_, _, _) -> nope.
bound_tail(doc) -> "Test matching of a bound tail.";
bound_tail(Config) when is_list(Config) ->
?line ok = bound_tail(<<>>, <<13,14>>),
?line ok = bound_tail(<<2,3>>, <<1,1,2,3>>),
?line nope = bound_tail(<<2,3>>, <<1,1,2,7>>),
?line nope = bound_tail(<<2,3>>, <<1,1,2,3,4>>),
?line nope = bound_tail(<<2,3>>, <<>>),
ok.
bound_tail(T, <<_:16,T/binary>>) -> ok;
bound_tail(_, _) -> nope.
t_float(Config) when is_list(Config) ->
F = f1(),
G = f_one(),
?line G = match_float(<<63,128,0,0>>, 32, 0),
?line G = match_float(<<63,240,0,0,0,0,0,0>>, 64, 0),
?line fcmp(F, match_float(<<F:32/float>>, 32, 0)),
?line fcmp(F, match_float(<<F:64/float>>, 64, 0)),
?line fcmp(F, match_float(<<1:1,F:32/float,127:7>>, 32, 1)),
?line fcmp(F, match_float(<<1:1,F:64/float,127:7>>, 64, 1)),
?line fcmp(F, match_float(<<1:13,F:32/float,127:3>>, 32, 13)),
?line fcmp(F, match_float(<<1:13,F:64/float,127:3>>, 64, 13)),
?line {'EXIT',{{badmatch,_},_}} = (catch match_float(<<0,0>>, 16, 0)),
?line {'EXIT',{{badmatch,_},_}} = (catch match_float(<<0,0>>, 16#7fffffff, 0)),
ok.
float_middle_endian(Config) when is_list(Config) ->
F = 9007199254740990.0, % turns to -NaN when word-swapped
?line fcmp(F, match_float(<<F:64/float>>, 64, 0)),
?line fcmp(F, match_float(<<1:1,F:64/float,127:7>>, 64, 1)),
?line fcmp(F, match_float(<<1:13,F:64/float,127:3>>, 64, 13)),
ok.
fcmp(F1, F2) when (F1 - F2) / F2 < 0.0000001 -> ok.
match_float(Bin0, Fsz, I) ->
Bin = make_sub_bin(Bin0),
Bsz = size(Bin) * 8,
Tsz = Bsz - Fsz - I,
<<_:I,F:Fsz/float,_:Tsz>> = Bin,
F.
little_float(Config) when is_list(Config) ->
F = f2(),
G = f_one(),
?line G = match_float_little(<<0,0,0,0,0,0,240,63>>, 64, 0),
?line G = match_float_little(<<0,0,128,63>>, 32, 0),
?line fcmp(F, match_float_little(<<F:32/float-little>>, 32, 0)),
?line fcmp(F, match_float_little(<<F:64/float-little>>, 64, 0)),
?line fcmp(F, match_float_little(<<1:1,F:32/float-little,127:7>>, 32, 1)),
?line fcmp(F, match_float_little(<<1:1,F:64/float-little,127:7>>, 64, 1)),
?line fcmp(F, match_float_little(<<1:13,F:32/float-little,127:3>>, 32, 13)),
?line fcmp(F, match_float_little(<<1:13,F:64/float-little,127:3>>, 64, 13)),
ok.
match_float_little(Bin0, Fsz, I) ->
Bin = make_sub_bin(Bin0),
Bsz = size(Bin) * 8,
Tsz = Bsz - Fsz - I,
<<_:I,F:Fsz/float-little,_:Tsz>> = Bin,
F.
make_sub_bin(Bin0) ->
Sz = size(Bin0),
Bin1 = <<37,Bin0/binary,38,39>>,
<<_:8,Bin:Sz/binary,_:8,_:8>> = Bin1,
Bin.
f1() ->
3.1415.
f2() ->
2.7133.
f_one() ->
1.0.
sean(Config) when is_list(Config) ->
?line small = sean1(<<>>),
?line small = sean1(<<1>>),
?line small = sean1(<<1,2>>),
?line small = sean1(<<1,2,3>>),
?line large = sean1(<<1,2,3,4>>),
?line small = sean1(<<4>>),
?line small = sean1(<<4,5>>),
?line small = sean1(<<4,5,6>>),
?line {'EXIT',{function_clause,_}} = (catch sean1(<<4,5,6,7>>)),
ok.
sean1(<<B/binary>>) when byte_size(B) < 4 -> small;
sean1(<<1, _B/binary>>) -> large.
kenneth(Config) when is_list(Config) ->
{ok,[145,148,113,129,0,0,0,0]} =
msisdn_internal_storage(<<145,148,113,129,0,0,0,0>>, []).
msisdn_internal_storage(<<>>,MSISDN) ->
{ok,lists:reverse(MSISDN)};
msisdn_internal_storage(<<2#11111111:8,_Rest/binary>>,MSISDN) ->
{ok,lists:reverse(MSISDN)};
msisdn_internal_storage(<<2#1111:4,DigitN:4,_Rest/binary>>,MSISDN) when
DigitN < 10 ->
{ok,lists:reverse([(DigitN bor 2#11110000)|MSISDN])};
msisdn_internal_storage(<<DigitNplus1:4,DigitN:4,Rest/binary>>,MSISDN) when
DigitNplus1 < 10,
DigitN < 10 ->
NewMSISDN=[((DigitNplus1 bsl 4) bor DigitN)|MSISDN],
msisdn_internal_storage(Rest,NewMSISDN);
msisdn_internal_storage(_Rest,_MSISDN) ->
{fault}. %% Mandatory IE incorrect
encode_binary(Config) when is_list(Config) ->
"C2J2QiSc" = encodeBinary(<<11,98,118,66,36,156>>, []),
ok.
encodeBinary(<<>>, Output) ->
lists:reverse(Output);
encodeBinary(<<Data:1/binary>>, Output) ->
<<DChar1:6, DChar2:2>> = Data,
Char1 = getBase64Char(DChar1),
Char2 = getBase64Char(DChar2),
Char3 = "=",
Char4 = "=",
NewOutput = Char4 ++ Char3 ++ Char2 ++ Char1 ++ Output,
encodeBinary(<<>>, NewOutput);
encodeBinary(<<Data:2/binary>>, Output) ->
<<DChar1:6, DChar2:6, DChar3:4>> = Data,
Char1 = getBase64Char(DChar1),
Char2 = getBase64Char(DChar2),
Char3 = getBase64Char(DChar3),
Char4 = "=",
NewOutput = Char4 ++ Char3 ++ Char2 ++ Char1 ++ Output,
encodeBinary(<<>>, NewOutput);
encodeBinary(<<Data:3/binary, Rest/binary>>, Output) ->
<<DChar1:6, DChar2:6, DChar3:6, DChar4:6>> = Data,
Char1 = getBase64Char(DChar1),
Char2 = getBase64Char(DChar2),
Char3 = getBase64Char(DChar3),
Char4 = getBase64Char(DChar4),
NewOutput = Char4 ++ Char3 ++ Char2 ++ Char1 ++ Output,
encodeBinary(Rest, NewOutput);
encodeBinary(_Data, _) ->
error.
getBase64Char(0) -> "A";
getBase64Char(1) -> "B";
getBase64Char(2) -> "C";
getBase64Char(3) -> "D";
getBase64Char(4) -> "E";
getBase64Char(5) -> "F";
getBase64Char(6) -> "G";
getBase64Char(7) -> "H";
getBase64Char(8) -> "I";
getBase64Char(9) -> "J";
getBase64Char(10) -> "K";
getBase64Char(11) -> "L";
getBase64Char(12) -> "M";
getBase64Char(13) -> "N";
getBase64Char(14) -> "O";
getBase64Char(15) -> "P";
getBase64Char(16) -> "Q";
getBase64Char(17) -> "R";
getBase64Char(18) -> "S";
getBase64Char(19) -> "T";
getBase64Char(20) -> "U";
getBase64Char(21) -> "V";
getBase64Char(22) -> "W";
getBase64Char(23) -> "X";
getBase64Char(24) -> "Y";
getBase64Char(25) -> "Z";
getBase64Char(26) -> "a";
getBase64Char(27) -> "b";
getBase64Char(28) -> "c";
getBase64Char(29) -> "d";
getBase64Char(30) -> "e";
getBase64Char(31) -> "f";
getBase64Char(32) -> "g";
getBase64Char(33) -> "h";
getBase64Char(34) -> "i";
getBase64Char(35) -> "j";
getBase64Char(36) -> "k";
getBase64Char(37) -> "l";
getBase64Char(38) -> "m";
getBase64Char(39) -> "n";
getBase64Char(40) -> "o";
getBase64Char(41) -> "p";
getBase64Char(42) -> "q";
getBase64Char(43) -> "r";
getBase64Char(44) -> "s";
getBase64Char(45) -> "t";
getBase64Char(46) -> "u";
getBase64Char(47) -> "v";
getBase64Char(48) -> "w";
getBase64Char(49) -> "x";
getBase64Char(50) -> "y";
getBase64Char(51) -> "z";
getBase64Char(52) -> "0";
getBase64Char(53) -> "1";
getBase64Char(54) -> "2";
getBase64Char(55) -> "3";
getBase64Char(56) -> "4";
getBase64Char(57) -> "5";
getBase64Char(58) -> "6";
getBase64Char(59) -> "7";
getBase64Char(60) -> "8";
getBase64Char(61) -> "9";
getBase64Char(62) -> "+";
getBase64Char(63) -> "/";
getBase64Char(_Else) ->
%% This is an illegal input.
% cgLogEM:log(error, ?MODULE, getBase64Char, [Else],
% "illegal input",
% ?LINE, version()),
"**".
-define(M(F), <<F>> = <<F>>).
native(Config) when is_list(Config) ->
?line ?M(3.14:64/native-float),
?line ?M(333:16/native),
?line ?M(38658345:32/native),
case <<1:16/native>> of
<<0,1>> -> native_big();
<<1,0>> -> native_little()
end.
native_big() ->
?line <<37.33:64/native-float>> = <<37.33:64/big-float>>,
?line <<3974:16/native-integer>> = <<3974:16/big-integer>>,
{comment,"Big endian"}.
native_little() ->
?line <<37869.32343:64/native-float>> = <<37869.32343:64/little-float>>,
?line <<7974:16/native-integer>> = <<7974:16/little-integer>>,
{comment,"Little endian"}.
happi(Config) when is_list(Config) ->
Bin = <<".123">>,
?line <<"123">> = lex_digits1(Bin, 1, []),
?line <<"123">> = lex_digits2(Bin, 1, []),
ok.
lex_digits1(<<$., Rest/binary>>,_Val,_Acc) ->
Rest;
lex_digits1(<<N, Rest/binary>>,Val, Acc) when N >= $0 , N =< $9 ->
lex_digits1(Rest,Val*10+dec(N),Acc);
lex_digits1(_Other,_Val,_Acc) ->
not_ok.
lex_digits2(<<N, Rest/binary>>,Val, Acc) when N >= $0 , N =< $9 ->
lex_digits2(Rest,Val*10+dec(N),Acc);
lex_digits2(<<$., Rest/binary>>,_Val,_Acc) ->
Rest;
lex_digits2(_Other,_Val,_Acc) ->
not_ok.
dec(A) ->
A-$0.
size_var(Config) when is_list(Config) ->
?line {<<45>>,<<>>} = split(<<1:16,45>>),
?line {<<45>>,<<46,47>>} = split(<<1:16,45,46,47>>),
?line {<<45,46>>,<<47>>} = split(<<2:16,45,46,47>>),
?line {<<45,46,47>>,<<48>>} = split_2(<<16:8,3:16,45,46,47,48>>),
?line {<<45,46>>,<<47>>} = split(2, <<2:16,45,46,47>>),
?line {'EXIT',{function_clause,_}} = (catch split(42, <<2:16,45,46,47>>)),
?line <<"cdef">> = skip(<<2:8,"abcdef">>),
ok.
split(<<N:16,B:N/binary,T/binary>>) ->
{B,T}.
split(N, <<N:16,B:N/binary,T/binary>>) ->
{B,T}.
split_2(<<N0:8,N:N0,B:N/binary,T/binary>>) ->
{B,T}.
skip(<<N:8,_:N/binary,T/binary>>) -> T.
wiger(Config) when is_list(Config) ->
?line ok1 = wcheck(<<3>>),
?line ok2 = wcheck(<<1,2,3>>),
?line ok3 = wcheck(<<4>>),
?line {error,<<1,2,3,4>>} = wcheck(<<1,2,3,4>>),
?line {error,<<>>} = wcheck(<<>>),
ok.
wcheck(<<A>>) when A==3->
ok1;
wcheck(<<_,_:2/binary>>) ->
ok2;
wcheck(<<_>>) ->
ok3;
wcheck(Other) ->
{error,Other}.
%% Test that having the match context in x(0) works.
x0_context(Config) when is_list(Config) ->
x0_0([], <<3.0:64/float,42:16,123456:32>>).
x0_0(_, Bin) ->
<<3.0:64/float,42:16,_/binary>> = Bin,
x0_1([], Bin, 64, 16, 2).
x0_1(_, Bin, FloatSz, IntSz, BinSz) ->
<<_:FloatSz/float,42:IntSz,B:BinSz/binary,C:1/binary,D/binary>> = Bin,
id({B,C,D}),
<<_:FloatSz/float,42:IntSz,B:BinSz/binary,_/binary>> = Bin,
x0_2([], Bin).
x0_2(_, Bin) ->
<<_:64,0:7,42:9,_/binary>> = Bin,
x0_3([], Bin).
x0_3(_, Bin) ->
case Bin of
<<_:72,7:8,_/binary>> ->
?line ?t:fail();
<<_:64,0:16,_/binary>> ->
?line ?t:fail();
<<_:64,42:16,123456:32,_/binary>> ->
ok
end.
huge_float_field(Config) when is_list(Config) ->
Sz = 1 bsl 27,
?line Bin = <<0:Sz>>,
?line nomatch = overflow_huge_float_skip_32(Bin),
?line nomatch = overflow_huge_float_32(Bin),
?line ok = overflow_huge_float(Bin, lists:seq(25, 32)++lists:seq(50, 64)),
?line ok = overflow_huge_float_unit128(Bin, lists:seq(25, 32)++lists:seq(50, 64)),
ok.
overflow_huge_float_skip_32(<<_:4294967296/float,0,_/binary>>) -> 1; % 1 bsl 32
overflow_huge_float_skip_32(<<_:33554432/float-unit:128,0,_/binary>>) -> 2; % 1 bsl 25
overflow_huge_float_skip_32(<<_:67108864/float-unit:64,0,_/binary>>) -> 3; % 1 bsl 26
overflow_huge_float_skip_32(<<_:134217728/float-unit:32,0,_/binary>>) -> 4; % 1 bsl 27
overflow_huge_float_skip_32(<<_:268435456/float-unit:16,0,_/binary>>) -> 5; % 1 bsl 28
overflow_huge_float_skip_32(<<_:536870912/float-unit:8,0,_/binary>>) -> 6; % 1 bsl 29
overflow_huge_float_skip_32(<<_:1073741824/float-unit:8,0,_/binary>>) -> 7; % 1 bsl 30
overflow_huge_float_skip_32(<<_:2147483648/float-unit:8,0,_/binary>>) -> 8; % 1 bsl 31
overflow_huge_float_skip_32(_) -> nomatch.
overflow_huge_float_32(<<F:4294967296/float,_/binary>>) -> {1,F}; % 1 bsl 32
overflow_huge_float_32(<<F:33554432/float-unit:128,0,_/binary>>) -> {2,F}; % 1 bsl 25
overflow_huge_float_32(<<F:67108864/float-unit:128,0,_/binary>>) -> {3,F}; % 1 bsl 26
overflow_huge_float_32(<<F:134217728/float-unit:128,0,_/binary>>) -> {4,F}; % 1 bsl 27
overflow_huge_float_32(<<F:268435456/float-unit:128,0,_/binary>>) -> {5,F}; % 1 bsl 28
overflow_huge_float_32(<<F:536870912/float-unit:128,0,_/binary>>) -> {6,F}; % 1 bsl 29
overflow_huge_float_32(<<F:1073741824/float-unit:128,0,_/binary>>) -> {7,F}; % 1 bsl 30
overflow_huge_float_32(<<F:2147483648/float-unit:128,0,_/binary>>) -> {8,F}; % 1 bsl 31
overflow_huge_float_32(_) -> nomatch.
overflow_huge_float(Bin, [Sz0|Sizes]) ->
Sz = id(1 bsl Sz0),
case Bin of
<<_:Sz/float-unit:8,0,_/binary>> ->
{error,Sz};
_ ->
case Bin of
<<Var:Sz/float-unit:8,0,_/binary>> ->
{error,Sz,Var};
_ ->
overflow_huge_float(Bin, Sizes)
end
end;
overflow_huge_float(_, []) -> ok.
overflow_huge_float_unit128(Bin, [Sz0|Sizes]) ->
Sz = id(1 bsl Sz0),
case Bin of
<<_:Sz/float-unit:128,0,_/binary>> ->
{error,Sz};
_ ->
case Bin of
<<Var:Sz/float-unit:128,0,_/binary>> ->
{error,Sz,Var};
_ ->
overflow_huge_float_unit128(Bin, Sizes)
end
end;
overflow_huge_float_unit128(_, []) -> ok.
%%
%% Test that a writable binary can be safely matched.
%%
writable_binary_matched(Config) when is_list(Config) ->
?line WritableBin = create_writeable_binary(),
?line writable_binary_matched(WritableBin, WritableBin, 500).
writable_binary_matched(<<0>>, _, N) ->
if
N =:= 0 -> ok;
true ->
put(grow_heap, [N|get(grow_heap)]),
?line WritableBin = create_writeable_binary(),
?line writable_binary_matched(WritableBin, WritableBin, N-1)
end;
writable_binary_matched(<<B:8,T/binary>>, WritableBin0, N) ->
?line WritableBin = writable_binary(WritableBin0, B),
writable_binary_matched(T, WritableBin, N).
writable_binary(WritableBin0, B) when is_binary(WritableBin0) ->
%% Heavy append to force the binary to move.
?line WritableBin = <<WritableBin0/binary,0:(size(WritableBin0))/unit:8,B>>,
?line id(<<(id(0)):128/unit:8>>),
WritableBin.
create_writeable_binary() ->
<<(id(<<>>))/binary,1,2,3,4,5,6,0>>.
otp_7198(Config) when is_list(Config) ->
%% When a match context was reused, and grown at the same time to
%% increase the number of saved positions, the thing word was not updated
%% to account for the new size. Therefore, if there was a garbage collection,
%% the new slots would be included in the garbage collection.
?line [do_otp_7198(FillerSize) || FillerSize <- lists:seq(0, 256)],
ok.
do_otp_7198(FillerSize) ->
Filler = erlang:make_tuple(FillerSize, 42),
{Pid,Ref} = spawn_monitor(fun() -> do_otp_7198_test(Filler) end),
receive
{'DOWN',Ref,process,Pid,normal} ->
ok;
{'DOWN',Ref,process,Pid,Reason} ->
io:format("unexpected: ~p", [Reason]),
?line ?t:fail()
end.
do_otp_7198_test(_) ->
[{'KEYWORD',114},
{'KEYWORD',101},
{'KEYWORD',103},
{'KEYWORD',105},
{'KEYWORD',111},
{'FIELD',110},
{'KEYWORD',119},
{'KEYWORD',104},
{'KEYWORD',97},
{'KEYWORD',116},
{'KEYWORD',101},
{'KEYWORD',118},
{'KEYWORD',101},
{'KEYWORD',114},
'$thats_all_folks$'] = otp_7198_scan(<<"region:whatever">>, []).
otp_7198_scan(<<>>, TokAcc) ->
lists:reverse(['$thats_all_folks$' | TokAcc]);
otp_7198_scan(<<D, Z, Rest/binary>>, TokAcc) when
(D =:= $D orelse D =:= $d) and
((Z =:= $\s) or (Z =:= $() or (Z =:= $))) ->
otp_7198_scan(<<Z, Rest/binary>>, ['AND' | TokAcc]);
otp_7198_scan(<<D>>, TokAcc) when
(D =:= $D) or (D =:= $d) ->
otp_7198_scan(<<>>, ['AND' | TokAcc]);
otp_7198_scan(<<N, Z, Rest/binary>>, TokAcc) when
(N =:= $N orelse N =:= $n) and
((Z =:= $\s) or (Z =:= $() or (Z =:= $))) ->
otp_7198_scan(<<Z, Rest/binary>>, ['NOT' | TokAcc]);
otp_7198_scan(<<C, Rest/binary>>, TokAcc) when
(C >= $A) and (C =< $Z);
(C >= $a) and (C =< $z);
(C >= $0) and (C =< $9) ->
case Rest of
<<$:, R/binary>> ->
otp_7198_scan(R, [{'FIELD', C} | TokAcc]);
_ ->
otp_7198_scan(Rest, [{'KEYWORD', C} | TokAcc])
end.
unordered_bindings(Config) when is_list(Config) ->
{<<1,2,3,4>>,<<42,42>>,<<3,3,3>>} =
unordered_bindings(4, 2, 3, <<1,2,3,4, 42,42, 3,3,3, 3>>),
ok.
unordered_bindings(CompressedLength, HashSize, PadLength, T) ->
<<Content:CompressedLength/binary,Mac:HashSize/binary,
Padding:PadLength/binary,PadLength>> = T,
{Content,Mac,Padding}.
id(I) -> I.