use asn1_rs::*; use hex_literal::hex; // use nom::HexDisplay; use std::collections::BTreeSet; use std::convert::{TryFrom, TryInto}; use std::iter::FromIterator; macro_rules! test_simple_string { ($t:ty, $s:expr) => { let t = <$t>::from($s); let v = t.to_der_vec().expect("serialization failed"); assert_eq!(v[0] as u32, t.tag().0); assert_eq!(v[1] as usize, t.as_ref().len()); assert_eq!(&v[2..], $s.as_bytes()); let (_, t2) = <$t>::from_der(&v).expect("decoding serialized object failed"); assert!(t.eq(&t2)); }; } macro_rules! test_string_invalid_charset { ($t:ty, $s:expr) => { <$t>::test_valid_charset($s.as_bytes()).expect_err("should reject charset"); }; } #[test] fn to_der_length() { // indefinite length let length = Length::Indefinite; let v = length.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x80]); // definite, short form let length = Length::Definite(3); let v = length.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x03]); // definite, long form let length = Length::Definite(250); let v = length.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x81, 0xfa]); } #[test] fn to_der_length_long() { let s = core::str::from_utf8(&[0x41; 256]).unwrap(); let v = s.to_der_vec().expect("serialization failed"); assert_eq!(&v[..4], &[0x0c, 0x82, 0x01, 0x00]); assert_eq!(&v[4..], s.as_bytes()); } #[test] fn to_der_tag() { // short tag, UNIVERSAL let v = (Class::Universal, false, Tag(0x1a)) .to_der_vec() .expect("serialization failed"); assert_eq!(&v, &[0x1a]); // short tag, APPLICATION let v = (Class::Application, false, Tag(0x1a)) .to_der_vec() .expect("serialization failed"); assert_eq!(&v, &[0x1a | (0b01 << 6)]); // short tag, constructed let v = (Class::Universal, true, Tag(0x10)) .to_der_vec() .expect("serialization failed"); assert_eq!(&v, &[0x30]); // long tag, UNIVERSAL let v = (Class::Universal, false, Tag(0x1a1a)) .to_der_vec() .expect("serialization failed"); assert_eq!(&v, &[0b1_1111, 0xb4, 0x1a]); } #[test] fn to_der_header() { // simple header let header = Header::new_simple(Tag::Integer); let v = header.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x2, 0x0]); // indefinite length let header = Header::new(Class::Universal, false, Tag::Integer, Length::Indefinite); let v = header.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x2, 0x80]); } #[test] fn to_der_any() { let header = Header::new_simple(Tag::Integer); let any = Any::new(header, &hex!("02")); assert_eq!(any.to_der_len(), Ok(3)); let v = any.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x02, 0x01, 0x02]); } #[test] fn to_der_any_raw() { let header = Header::new(Class::Universal, false, Tag::Integer, Length::Definite(3)); let any = Any::new(header, &hex!("02")); // to_vec should compute the length let v = any.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x02, 0x01, 0x02]); // to_vec_raw will use the header as provided let v = any.to_der_vec_raw().expect("serialization failed"); assert_eq!(&v, &[0x02, 0x03, 0x02]); } #[test] fn to_der_bitstring() { let bitstring = BitString::new(6, &hex!("6e 5d c0")); let v = bitstring.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("03 04 06 6e 5d c0")); let (_, result) = BitString::from_der(&v).expect("parsing failed"); assert!(bitstring.eq(&result)); } #[test] fn to_der_bmpstring() { let bmpstring = BmpString::new("User"); assert_eq!(bmpstring.to_der_len(), Ok(10)); let v = bmpstring.to_der_vec().expect("serialization failed"); let expected = &hex!("1e 08 00 55 00 73 00 65 00 72"); assert_eq!(&v, expected); assert!(BmpString::test_valid_charset(&v[2..]).is_ok()); let (_, result) = BmpString::from_der(&v).expect("parsing failed"); assert!(bmpstring.eq(&result)); // for coverage let b1 = BmpString::from("s"); let s = b1.string(); let b2 = BmpString::from(s); assert_eq!(b1, b2); // long string let sz = 256; let s = str::repeat("a", sz); let bmpstring = BmpString::new(&s); assert_eq!(bmpstring.to_der_len(), Ok(4 + 2 * s.len())); let _v = bmpstring.to_der_vec().expect("serialization failed"); } #[test] fn to_der_bool() { let v = Boolean::new(0xff) .to_der_vec() .expect("serialization failed"); assert_eq!(&v, &[0x01, 0x01, 0xff]); // let v = false.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x01, 0x01, 0x00]); // let v = true.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x01, 0x01, 0xff]); // raw value (not 0 of 0xff) let v = Boolean::new(0x8a) .to_der_vec_raw() .expect("serialization failed"); assert_eq!(&v, &[0x01, 0x01, 0x8a]); } #[test] fn to_der_enumerated() { let v = Enumerated(2).to_der_vec().expect("serialization failed"); assert_eq!(Enumerated(2).to_der_len(), Ok(3)); assert_eq!(&v, &[0x0a, 0x01, 0x02]); // let (_, result) = Enumerated::from_der(&v).expect("parsing failed"); assert_eq!(result, Enumerated(2)); } #[test] fn to_der_generalizedtime() { // date without millisecond let dt = ASN1DateTime::new(1999, 12, 31, 23, 59, 59, None, ASN1TimeZone::Z); let time = GeneralizedTime::new(dt); let v = time.to_der_vec().expect("serialization failed"); assert_eq!(&v[..2], &hex!("18 0f")); assert_eq!(&v[2..], b"19991231235959Z"); let (_, time2) = GeneralizedTime::from_der(&v).expect("decoding serialized object failed"); assert!(time.eq(&time2)); assert_eq!(time.to_der_len(), Ok(0x11)); // // date with millisecond let dt = ASN1DateTime::new(1999, 12, 31, 23, 59, 59, Some(123), ASN1TimeZone::Z); let time = GeneralizedTime::new(dt); let v = time.to_der_vec().expect("serialization failed"); assert_eq!(&v[..2], &hex!("18 13")); assert_eq!(&v[2..], b"19991231235959.123Z"); let (_, time2) = GeneralizedTime::from_der(&v).expect("decoding serialized object failed"); assert!(time.eq(&time2)); } #[test] fn to_der_graphicstring() { test_simple_string!(GraphicString, "123456"); test_string_invalid_charset!(GraphicString, "é23456"); } fn encode_decode_assert_int(t: T, expected: &[u8]) where T: ToDer + std::fmt::Debug + Eq, for<'a> T: TryFrom, Error = Error>, { let v = t.to_der_vec().expect("serialization failed"); assert_eq!(&v, expected); let (_, obj) = Integer::from_der(&v).expect("decoding serialized object failed"); let t2: T = obj.try_into().unwrap(); assert_eq!(t, t2); } #[test] fn to_der_integer() { let int = Integer::new(&hex!("02")); let v = int.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x02, 0x01, 0x02]); // from_u32 let int = Integer::from_u32(2); let v = int.to_der_vec().expect("serialization failed"); assert_eq!(&v, &[0x02, 0x01, 0x02]); // impl ToDer for primitive types encode_decode_assert_int(2u32, &[0x02, 0x01, 0x02]); // signed i32 (> 0) encode_decode_assert_int(4, &[0x02, 0x01, 0x04]); // signed i32 (< 0) encode_decode_assert_int(-4, &[0x02, 0x01, 0xfc]); // negative number encode_decode_assert_int(-1i8, &[0x02, 0x01, 0xff]); } #[test] fn to_der_null() { let bytes: &[u8] = &hex!("05 00"); let s = Null::new(); assert_eq!(s.to_der_len(), Ok(2)); let v = s.to_der_vec().expect("serialization failed"); assert_eq!(&v, bytes); // unit assert_eq!(().to_der_len(), Ok(2)); let (_, s2) = <()>::from_der(&v).expect("decoding serialized object failed"); assert!(().eq(&s2)); let v2 = ().to_der_vec().expect("serialization failed"); assert_eq!(&v2, bytes); // invalid null encodings let bytes: &[u8] = &hex!("05 01 00"); let _ = Null::from_ber(bytes).expect_err("should fail"); let _ = <()>::from_ber(bytes).expect_err("should fail"); } #[test] fn to_der_numericstring() { test_simple_string!(NumericString, "123456"); test_string_invalid_charset!(NumericString, "abcdef"); test_string_invalid_charset!(NumericString, "1a"); } #[test] fn to_der_objectdescriptor() { test_simple_string!(ObjectDescriptor, "abcdef"); test_string_invalid_charset!(ObjectDescriptor, "abcdéf"); } #[test] fn to_der_octetstring() { let bytes: &[u8] = &hex!("01 02 03 04 05 06 07 08 09 0a 0b 0c 0d 0e 0f"); let s = OctetString::from(bytes); let v = s.to_der_vec().expect("serialization failed"); assert_eq!(s.to_der_len(), Ok(bytes.len() + 2)); assert_eq!(&v[..2], &hex!("04 0f")); assert_eq!(&v[2..], bytes); let (_, s2) = OctetString::from_der(&v).expect("decoding serialized object failed"); assert!(s.eq(&s2)); // let v = bytes.to_der_vec().expect("serialization failed"); assert_eq!(bytes.to_der_len(), Ok(bytes.len() + 2)); assert_eq!(&v[..2], &hex!("04 0f")); assert_eq!(&v[2..], bytes); let (_, s2) = OctetString::from_der(&v).expect("decoding serialized object failed"); assert!(s.eq(&s2)); } #[test] fn to_der_real_binary() { // base = 2, value = 4 let r = Real::binary(2.0, 2, 1); let v = r.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("09 03 80 02 01")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!((r.f64() - result.f64()).abs() < f64::EPSILON); // // base = 2, value = 0.5 let r = Real::binary(0.5, 2, 0); let v = r.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("09 03 80 ff 01")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!((r.f64() - result.f64()).abs() < f64::EPSILON); // // base = 2, value = 3.25, but change encoding base (8) let r = Real::binary(3.25, 2, 0).with_enc_base(8); let v = r.to_der_vec().expect("serialization failed"); // note: this encoding has a scale factor (not DER compliant) assert_eq!(&v, &hex!("09 03 94 ff 0d")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!((r.f64() - result.f64()).abs() < f64::EPSILON); // // base = 2, value = 0.00390625, but change encoding base (16) let r = Real::binary(0.00390625, 2, 0).with_enc_base(16); let v = r.to_der_vec().expect("serialization failed"); // note: this encoding has a scale factor (not DER compliant) assert_eq!(&v, &hex!("09 03 a0 fe 01")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!((r.f64() - result.f64()).abs() < f64::EPSILON); // // 2 octets for exponent, negative exponent and abs(exponent) is all 1's and fills the whole octet(s) let r = Real::binary(3.0, 2, -1020); let v = r.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("09 04 81 fc 04 03")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!((r.f64() - result.f64()).abs() < f64::EPSILON); // // 3 octets for exponent, and // check that first 9 bits for exponent are not all 1's let r = Real::binary(1.0, 2, 262140); let v = r.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("09 05 82 03 ff fc 01")); let (_, result) = Real::from_der(&v).expect("parsing failed"); // XXX value cannot be represented as f64 (inf) assert!(result.f64().is_infinite()); // // >3 octets for exponent, and // mantissa < 0 let r = Real::binary(-1.0, 2, 76354972); let v = r.to_der_vec().expect("serialization failed"); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert_eq!(&v, &hex!("09 07 c3 04 04 8d 15 9c 01")); // XXX value cannot be represented as f64 (-inf) assert!(result.f64().is_infinite()); } #[test] fn to_der_real_special() { // ZERO let r = Real::Zero; let v = r.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("09 00")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!(r.eq(&result)); // INFINITY let r = Real::Infinity; let v = r.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("09 01 40")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!(r.eq(&result)); // MINUS INFINITY let r = Real::NegInfinity; let v = r.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("09 01 41")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!(r.eq(&result)); } #[test] fn to_der_real_string() { // non-zero value, base 10 let r = Real::new(1.2345); let v = r.to_der_vec().expect("serialization failed"); // assert_eq!(&v, &hex!("09 00")); let (_, result) = Real::from_der(&v).expect("parsing failed"); assert!(r.eq(&result)); } #[test] fn to_der_sequence() { let it = [2, 3, 4].iter(); let seq = Sequence::from_iter_to_der(it).unwrap(); let v = seq.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("30 09 02 01 02 02 01 03 02 01 04")); let (_, seq2) = Sequence::from_der(&v).expect("decoding serialized object failed"); assert_eq!(seq, seq2); // Vec::ToDer let v = vec![2, 3, 4].to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("30 09 02 01 02 02 01 03 02 01 04")); } #[test] fn to_der_sequenceof() { let seq = SequenceOf::from_iter([2, 3, 4]); let v = seq.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("30 09 02 01 02 02 01 03 02 01 04")); let (_, seq2) = SequenceOf::from_der(&v).expect("decoding serialized object failed"); assert_eq!(seq, seq2); // Vec::ToDer let v = vec![2, 3, 4].to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("30 09 02 01 02 02 01 03 02 01 04")); } #[test] fn to_der_set() { let it = [2u8, 3, 4].iter(); let set = Set::from_iter_to_der(it).unwrap(); let v = set.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("31 09 02 01 02 02 01 03 02 01 04")); // let (_, set2) = Set::from_der(&v).expect("decoding serialized object failed"); // assert_eq!(set, set2); // BTreeSet::ToDer let set2 = BTreeSet::from_iter(vec![2, 3, 4]); let v = set2.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("31 09 02 01 02 02 01 03 02 01 04")); } #[test] fn to_der_set_of() { let seq = SetOf::from_iter([2, 3, 4]); let v = seq.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("31 09 02 01 02 02 01 03 02 01 04")); let (_, seq2) = SetOf::from_der(&v).expect("decoding serialized object failed"); assert_eq!(seq, seq2); } #[test] fn to_der_str() { let s = "abcdef"; assert_eq!(s.to_der_len(), Ok(2 + s.len())); let v = s.to_der_vec().expect("serialization failed"); assert_eq!(&v[..2], &hex!("0c 06")); assert_eq!(&v[2..], b"abcdef"); let (_, s2) = Utf8String::from_der(&v).expect("decoding serialized object failed"); assert!(s.eq(s2.as_ref())); // long string let sz = 256; let s = str::repeat("a", sz); let s = s.as_str(); assert_eq!(s.to_der_len(), Ok(4 + sz)); let v = s.to_der_vec().expect("serialization failed"); assert_eq!(v.len(), 4 + sz); } #[test] fn to_der_string() { let s = "abcdef".to_string(); assert_eq!(s.to_der_len(), Ok(2 + s.len())); let v = s.to_der_vec().expect("serialization failed"); assert_eq!(&v[..2], &hex!("0c 06")); assert_eq!(&v[2..], b"abcdef"); let (_, s2) = Utf8String::from_der(&v).expect("decoding serialized object failed"); assert!(s.eq(s2.as_ref())); // long string let sz = 256; let s = str::repeat("a", sz); assert_eq!(s.to_der_len(), Ok(4 + sz)); let v = s.to_der_vec().expect("serialization failed"); assert_eq!(v.len(), 4 + sz); } #[test] fn to_der_tagged_explicit() { let tagged = TaggedParser::new_explicit(Class::ContextSpecific, 1, 2u32); let v = tagged.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("a1 03 02 01 02")); let (_, t2) = TaggedParser::::from_der(&v).expect("decoding serialized object failed"); assert!(tagged.eq(&t2)); // TaggedValue API let tagged = TaggedValue::explicit(2u32); let v = tagged.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("a1 03 02 01 02")); let (_, t2) = TaggedExplicit::::from_der(&v).expect("decoding serialized object failed"); assert!(tagged.eq(&t2)); } #[test] fn to_der_tagged_implicit() { let tagged = TaggedParser::new_implicit(Class::ContextSpecific, false, 1, 2u32); let v = tagged.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("81 01 02")); let (_, t2) = TaggedParser::::from_der(&v).expect("decoding serialized object failed"); assert!(tagged.eq(&t2)); // TaggedValue API let tagged = TaggedValue::implicit(2u32); let v = tagged.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("81 01 02")); let (_, t2) = TaggedImplicit::::from_der(&v).expect("decoding serialized object failed"); assert!(tagged.eq(&t2)); } #[test] fn to_der_tagged_implicit_optional() { // TaggedValue API let tagged = Some(TaggedValue::implicit(Integer::from(2))); let v = tagged.to_der_vec().expect("serialization failed"); assert_eq!(&v, &hex!("81 01 02")); let (_, t2) = OptTaggedImplicit::::from_der(&v) .expect("decoding serialized object failed"); assert!(tagged.eq(&t2)); } #[test] fn to_der_teletexstring() { test_simple_string!(TeletexString, "abcdef"); } #[test] fn to_der_utctime() { let dt = ASN1DateTime::new(99, 12, 31, 23, 59, 59, None, ASN1TimeZone::Z); let time = UtcTime::new(dt); let v = time.to_der_vec().expect("serialization failed"); assert_eq!(&v[..2], &hex!("17 0d")); assert_eq!(&v[2..], b"991231235959Z"); let (_, time2) = UtcTime::from_der(&v).expect("decoding serialized object failed"); assert!(time.eq(&time2)); } #[test] fn to_der_universalstring() { const S: &str = "abcdef"; let s = UniversalString::from(S); assert_eq!(s.to_der_len(), Ok(2 + 4 * S.len())); let v = s.to_der_vec().expect("serialization failed"); assert_eq!( &v, &hex!("1c 18 00000061 00000062 00000063 00000064 00000065 00000066") ); let (_, s2) = UniversalString::from_der(&v).expect("decoding serialized object failed"); assert!(s.eq(&s2)); // long string let sz = 256; let s = str::repeat("a", sz); let s = UniversalString::from(s); assert_eq!(s.to_der_len(), Ok(4 + 4 * sz)); let v = s.to_der_vec().expect("serialization failed"); assert_eq!(v.len(), 4 + 4 * sz); } #[test] fn to_der_utf8string() { test_simple_string!(Utf8String, "abcdef"); } #[test] fn to_der_visiblestring() { test_simple_string!(VisibleString, "abcdef"); test_string_invalid_charset!(VisibleString, "abcdéf"); } #[test] fn to_der_videotexstring() { test_simple_string!(VideotexString, "abcdef"); }