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-rw-r--r--lib/asn1/src/asn1ct_imm.erl21
-rw-r--r--lib/asn1/src/asn1ct_value.erl17
-rw-r--r--lib/asn1/test/asn1_SUITE_data/Constraints.py5
-rw-r--r--lib/asn1/test/testConstraints.erl64
4 files changed, 96 insertions, 11 deletions
diff --git a/lib/asn1/src/asn1ct_imm.erl b/lib/asn1/src/asn1ct_imm.erl
index dfa4ce0d6b..20785cda8c 100644
--- a/lib/asn1/src/asn1ct_imm.erl
+++ b/lib/asn1/src/asn1ct_imm.erl
@@ -1007,6 +1007,25 @@ mk_var(Base, V) ->
per_enc_integer_1(Val, [], Aligned) ->
[{'cond',[['_'|per_enc_unconstrained(Val, Aligned)]]}];
+per_enc_integer_1(Val, [{{'SingleValue',[_|_]=Svs}=Constr,[]}], Aligned) ->
+ %% An extensible constraint such as (1|17, ...).
+ %%
+ %% A subtle detail is that the extension root as described in the
+ %% ASN.1 spec should be used to determine whether a particular value
+ %% belongs to the extension root (as opposed to the effective
+ %% constraint, which will be used for the actual encoding).
+ %%
+ %% So for the example above, only the integers 1 and 17 should be
+ %% encoded as root values (extension bit = 0).
+
+ [{'ValueRange',{Lb,Ub}}] = effective_constraint(integer, [Constr]),
+ Root = [begin
+ {[],_,Put} = per_enc_constrained(Sv, Lb, Ub, Aligned),
+ [{eq,Val,Sv},{put_bits,0,1,[1]}|Put]
+ end || Sv <- Svs],
+ Cs = Root ++ [['_',{put_bits,1,1,[1]}|
+ per_enc_unconstrained(Val, Aligned)]],
+ build_cond(Cs);
per_enc_integer_1(Val0, [{{_,_}=Constr,[]}], Aligned) ->
{Prefix,Check,Action} = per_enc_integer_2(Val0, Constr, Aligned),
Prefix++build_cond([[Check,{put_bits,0,1,[1]}|Action],
@@ -1017,7 +1036,7 @@ per_enc_integer_1(Val0, [Constr], Aligned) ->
Prefix++build_cond([[Check|Action],
['_',{error,Val0}]]).
-per_enc_integer_2(Val, {'SingleValue',Sv}, Aligned) ->
+per_enc_integer_2(Val, {'SingleValue',Sv}, Aligned) when is_integer(Sv) ->
per_enc_constrained(Val, Sv, Sv, Aligned);
per_enc_integer_2(Val0, {'ValueRange',{Lb,'MAX'}}, Aligned)
when is_integer(Lb) ->
diff --git a/lib/asn1/src/asn1ct_value.erl b/lib/asn1/src/asn1ct_value.erl
index 992210232f..862b3c4ea5 100644
--- a/lib/asn1/src/asn1ct_value.erl
+++ b/lib/asn1/src/asn1ct_value.erl
@@ -167,17 +167,16 @@ from_type_prim(M, D) ->
case D#type.def of
'INTEGER' ->
i_random(C);
- {'INTEGER',NamedNumberList} ->
- NN = [X||{X,_} <- NamedNumberList],
- case NN of
+ {'INTEGER',[_|_]=NNL} ->
+ case C of
[] ->
- i_random(C);
+ {N,_} = lists:nth(random(length(NNL)), NNL),
+ N;
_ ->
- case C of
- [] ->
- lists:nth(random(length(NN)),NN);
- _ ->
- lists:nth((fun(0)->1;(X)->X end(i_random(C))),NN)
+ V = i_random(C),
+ case lists:keyfind(V, 2, NNL) of
+ false -> V;
+ {N,V} -> N
end
end;
Enum when is_tuple(Enum),element(1,Enum)=='ENUMERATED' ->
diff --git a/lib/asn1/test/asn1_SUITE_data/Constraints.py b/lib/asn1/test/asn1_SUITE_data/Constraints.py
index e4bc987e4c..581ec2f467 100644
--- a/lib/asn1/test/asn1_SUITE_data/Constraints.py
+++ b/lib/asn1/test/asn1_SUITE_data/Constraints.py
@@ -17,6 +17,11 @@ NegSemiConstrained ::= INTEGER (-128..MAX)
SemiConstrainedExt ::= INTEGER (42..MAX, ...)
NegSemiConstrainedExt ::= INTEGER (-128..MAX, ...)
+-- Union of single values
+Sv1 ::= INTEGER (2|3|17)
+Sv2 ::= INTEGER (2|3|17, ...)
+Sv3 ::= INTEGER {a(2),b(3),z(17)} (2|3|17, ...)
+
-- Other constraints
FixedSize ::= OCTET STRING (SIZE(10))
FixedSize2 ::= OCTET STRING (SIZE(10|20))
diff --git a/lib/asn1/test/testConstraints.erl b/lib/asn1/test/testConstraints.erl
index 9a1d62993d..34fbbcf6cc 100644
--- a/lib/asn1/test/testConstraints.erl
+++ b/lib/asn1/test/testConstraints.erl
@@ -122,6 +122,42 @@ int_constraints(Rules) ->
range_error(Rules, 'X1', 21),
%%==========================================================
+ %% Union of single values
+ %% Sv1 ::= INTEGER (2|3|17)
+ %% Sv2 ::= INTEGER (2|3|17, ...)
+ %% Sv3 ::= INTEGER {a(2),b(3),z(17)} (2|3|17, ...)
+ %%==========================================================
+
+ range_error(Rules, 'Sv1', 1),
+ range_error(Rules, 'Sv1', 18),
+ roundtrip('Sv1', 2),
+ roundtrip('Sv1', 3),
+ roundtrip('Sv1', 7),
+
+ %% Encoded as root
+ v_roundtrip(Rules, 'Sv2', 2),
+ v_roundtrip(Rules, 'Sv2', 3),
+ v_roundtrip(Rules, 'Sv2', 17),
+
+ %% Encoded as extension
+ v_roundtrip(Rules, 'Sv2', 1),
+ v_roundtrip(Rules, 'Sv2', 4),
+ v_roundtrip(Rules, 'Sv2', 18),
+
+ %% Encoded as root
+ v_roundtrip(Rules, 'Sv3', a),
+ v_roundtrip(Rules, 'Sv3', b),
+ v_roundtrip(Rules, 'Sv3', z),
+ v_roundtrip(Rules, 'Sv3', 2, a),
+ v_roundtrip(Rules, 'Sv3', 3, b),
+ v_roundtrip(Rules, 'Sv3', 17, z),
+
+ %% Encoded as extension
+ v_roundtrip(Rules, 'Sv3', 1),
+ v_roundtrip(Rules, 'Sv3', 4),
+ v_roundtrip(Rules, 'Sv3', 18),
+
+ %%==========================================================
%% SemiConstrained
%%==========================================================
@@ -197,7 +233,29 @@ v(per, 'SemiConstrainedExt', 42+128) -> "000180";
v(uper, 'SemiConstrainedExt', 42+128) -> "00C000";
v(ber, 'NegSemiConstrainedExt', 0) -> "020100";
v(per, 'NegSemiConstrainedExt', 0) -> "000180";
-v(uper, 'NegSemiConstrainedExt', 0) -> "00C000".
+v(uper, 'NegSemiConstrainedExt', 0) -> "00C000";
+v(ber, 'Sv2', 1) -> "020101";
+v(per, 'Sv2', 1) -> "800101";
+v(uper, 'Sv2', 1) -> "808080";
+v(ber, 'Sv2', 2) -> "020102";
+v(per, 'Sv2', 2) -> "00";
+v(uper, 'Sv2', 2) -> "00";
+v(ber, 'Sv2', 3) -> "020103";
+v(per, 'Sv2', 3) -> "08";
+v(uper, 'Sv2', 3) -> "08";
+v(ber, 'Sv2', 4) -> "020104";
+v(per, 'Sv2', 4) -> "800104";
+v(uper, 'Sv2', 4) -> "808200";
+v(ber, 'Sv2', 17) -> "020111";
+v(per, 'Sv2', 17) -> "78";
+v(uper, 'Sv2', 17) -> "78";
+v(ber, 'Sv2', 18) -> "020112";
+v(per, 'Sv2', 18) -> "800112";
+v(uper, 'Sv2', 18) -> "808900";
+v(Rule, 'Sv3', a) -> v(Rule, 'Sv2', 2);
+v(Rule, 'Sv3', b) -> v(Rule, 'Sv2', 3);
+v(Rule, 'Sv3', z) -> v(Rule, 'Sv2', 17);
+v(Rule, 'Sv3', Val) when is_integer(Val) -> v(Rule, 'Sv2', Val).
shorter_ext(per, "a") -> <<16#80,16#01,16#61>>;
shorter_ext(uper, "a") -> <<16#80,16#E1>>;
@@ -211,6 +269,10 @@ v_roundtrip(Erule, Type, Value) ->
Encoded = asn1_test_lib:hex_to_bin(v(Erule, Type, Value)),
Encoded = roundtrip('Constraints', Type, Value).
+v_roundtrip(Erule, Type, Value, Expected) ->
+ Encoded = asn1_test_lib:hex_to_bin(v(Erule, Type, Value)),
+ Encoded = asn1_test_lib:roundtrip_enc('Constraints', Type, Value, Expected).
+
roundtrip(Type, Value) ->
roundtrip('Constraints', Type, Value).