-- .../asn1specs/err_test.asn1
--
-- This module exercises snacc's semantic error checking of ASN.1 types.
-- Every line that has the "error" comment should cause snacc to produce
-- at least one error message
--
-- Mike Sample 92/07
--
-- $Header: /cvs/Darwin/Security/SecuritySNACCRuntime/asn1specs/err-test.asn1,v 1.1.1.1 2001/05/18 23:14:05 mb Exp $
-- $Log: err-test.asn1,v $
-- Revision 1.1.1.1 2001/05/18 23:14:05 mb
-- Move from private repository to open source repository
--
-- Revision 1.1.1.1 1999/03/16 18:05:55 aram
-- Originals from SMIME Free Library.
--
-- Revision 1.3 1995/07/25 19:53:16 rj
-- changed `_' to `-' in file names.
--
-- Revision 1.2 1994/08/28 09:54:17 rj
-- comment leader fixed.
--
-- Revision 1.1 1994/08/28 09:51:13 rj
-- first check-in.
ERROR-TEST DEFINITIONS ::=
BEGIN
-- first check that CHOICEs and SETs without distinct tags
-- cause error msgs
AChoice ::= CHOICE -- error
{
f1 [0] INTEGER, -- these two have the same
f2 [0] INTEGER, -- tags
f3 INTEGER, -- the tag of f3
f4 AChoice3 -- conflicts with one of AChoice3's elmt tags
}
ASet ::= SET -- error
{
f1 [0] INTEGER, -- same [0] tags
f2 [0] INTEGER
}
T1 ::= INTEGER
T2 ::= BOOLEAN
AChoice2 ::= CHOICE -- error
{
T1,
INTEGER
}
ASet2 ::= SET -- error
{
T2,
BOOLEAN
}
AChoice3 ::= CHOICE
{
T1,
T2
}
--
-- now check that Sequence have distinct tags
-- on one or consective optional elmts and following (if any)
-- non-optional elmt
--
ASequence ::= SEQUENCE -- no errors
{
f1 [0] INTEGER,
f2 [0] BOOLEAN
}
ASequence1 ::= SEQUENCE
{
INTEGER OPTIONAL,
INTEGER OPTIONAL, -- error, ambiguous values possible
INTEGER, -- error
INTEGER
}
ASequence3 ::= SEQUENCE
{
f1 [0] OBJECT IDENTIFIER OPTIONAL,
f2 [1] INTEGER OPTIONAL,
f3 [0] BOOLEAN, -- error
f4 [2] OCTET STRING OPTIONAL,
f5 [2] BIT STRING OPTIONAL, -- error
f6 [3] ASequence OPTIONAL,
f7 [3] INTEGER, -- error
f8 [4] BOOLEAN OPTIONAL,
f9 [4] INTEGER OPTIONAL -- error
}
--
-- now check that duplicate APPLICATION tag errors are reported
--
Foo1 ::= [APPLICATION 0] INTEGER
Foo2 ::= [APPLICATION 1] INTEGER
Bar1 ::= [APPLICATION 0] IMPLICIT INTEGER -- error
Bar2 ::= [APPLICATION 1] IMPLICIT INTEGER -- error
--
-- check that field name errors are reported
--
AChoice4 ::= CHOICE
{
f1 INTEGER,
f2 BOOLEAN,
[0] AChoice4
}
ASet3 ::= SET
{
f1 [0] INTEGER,
f2 [1] INTEGER,
f3 [2] BOOLEAN,
f3 [3] BOOLEAN, -- error, field name conflict
[4] AChoice4 -- error, field name conflict too
}
--
-- now check some recursive type related errors
--
A2 ::= A2 -- error
A1 ::= B1 -- error
B1 ::= A1 -- error
C1 ::= D1 -- error
D1 ::= E1 -- error
E1 ::= F1 -- error
F1 ::= C1 -- error
RecSeq ::= SEQUENCE
{
INTEGER,
BOOLEAN,
RecSeq, -- warning, infinitely large values?
RecSeq OPTIONAL -- this should be ok 'cause it's optional
}
--
-- now check some named bit and named number related errors
--
aVal INTEGER ::= -4
Enum1 ::= ENUMERATED { zero(0), one(1), two(2), one(0) } -- 2 errors
Int1 ::= INTEGER { zero(0), one(1), two(2), yoyo(2), one(7), foo(aVal) } -- 2 errors
Bits1 ::= BIT STRING { zero(0), one(1), two(2), one(4), foo(-2), pogo(0),
gogo(aVal) } -- 4 errors
--
-- now check that implicitly tagged CHOICE, ANY and ANY DEFINED BY
-- cause error msgs
--
BChoice1 ::= [APPLICATION 5] IMPLICIT CHOICE -- error
{
INTEGER,
BOOLEAN
}
BChoice2 ::= CHOICE -- no error
{
INTEGER,
BOOLEAN
}
BChoice3 ::= [APPLICATION 6] CHOICE -- no error
{
INTEGER,
BOOLEAN
}
BSeq ::= SEQUENCE
{
INTEGER,
BOOLEAN,
[0] IMPLICIT BChoice2, -- error
[1] IMPLICIT BChoice3, -- no error
[2] IMPLICIT CHOICE {INTEGER, BOOLEAN} -- error
}
--
-- now test that errors are reported for multiply defined
-- types and valus
--
TypeCopy1 ::= INTEGER
TypeCopy1 ::= BOOLEAN
TypeCopy1 ::= INTEGER
valCopy1 INTEGER ::= 1
valCopy1 BOOLEAN ::= TRUE
valCopy1 INTEGER ::= 1
--
-- test some OBJECT IDENTIFER value errors
--
oid1 OBJECT IDENTIFIER ::= { oid1 ms(1) 1 } -- error: recursive value
oid2 OBJECT IDENTIFIER ::= { oid1 ms(1) 2 }
-- error: can only ref other oid values from first arc
oid3 OBJECT IDENTIFIER ::= { ms(1) oid2 2 }
boolVal BOOLEAN ::= TRUE
intVal1 INTEGER ::= 1
intVal2 INTEGER ::= -1
oid4 OBJECT IDENTIFIER ::= { oid2 intVal1 intVal2 boolVal 1}
oid5 OBJECT IDENTIFIER ::= { 1 2 -4}
oid6 OBJECT IDENTIFIER ::= { oid7 1}
oid7 OBJECT IDENTIFIER ::= { oid6 1 }
END