tests/readcert.rs - platform/external/rust/crates/x509-parser - Git at Google

 use chrono::offset::{TimeZone, Utc};
 use chrono::Datelike;
 use der_parser::oid;
 use nom::Parser;
 use oid_registry::*;
 use std::collections::HashMap;
 use x509_parser::prelude::*;

 static IGCA_DER: &[u8] = include_bytes!("../assets/IGC_A.der");
 static NO_EXTENSIONS_DER: &[u8] = include_bytes!("../assets/no_extensions.der");
 static V1: &[u8] = include_bytes!("../assets/v1.der");
 static CRL_DER: &[u8] = include_bytes!("../assets/example.crl");
 static EMPTY_CRL_DER: &[u8] = include_bytes!("../assets/empty.crl");
 static MINIMAL_CRL_DER: &[u8] = include_bytes!("../assets/minimal.crl");
 static DUPLICATE_VALUE_IN_AIA: &[u8] =
     include_bytes!("../assets/duplicate_value_in_authority_info_access.der");

 #[test]
 fn test_x509_parser() {
     let empty = &b""[..];
     //assert_eq!(x509_parser(IGCA_DER), IResult::Done(empty, (1)));
     let res = parse_x509_certificate(IGCA_DER);
     // println!("res: {:?}", res);
     match res {
         Ok((e, cert)) => {
             assert_eq!(e, empty);
             //
             let tbs_cert = &cert.tbs_certificate;
             assert_eq!(tbs_cert.version, X509Version::V3);
             //
             let s = tbs_cert.raw_serial_as_string();
             assert_eq!(&s, "39:11:45:10:94");
             //
             let expected_subject = "C=FR, ST=France, L=Paris, O=PM/SGDN, OU=DCSSI, CN=IGC/A, Email=igca@sgdn.pm.gouv.fr";
             assert_eq!(format!("{}", tbs_cert.subject), expected_subject);
             //
             let cn_list: Result<Vec<_>, X509Error> = cert
                 .subject()
                 .iter_common_name()
                 .map(|attr| attr.as_str())
                 .collect();
             assert_eq!(cn_list, Ok(vec!["IGC/A"]));
             //
             let sig = &tbs_cert.signature;
             assert_eq!(sig.algorithm, oid!(1.2.840 .113549 .1 .1 .5));
             //
             let expected_issuer = "C=FR, ST=France, L=Paris, O=PM/SGDN, OU=DCSSI, CN=IGC/A, Email=igca@sgdn.pm.gouv.fr";
             assert_eq!(format!("{}", tbs_cert.issuer), expected_issuer);
             let expected_issuer_der = &IGCA_DER[35..171];
             assert_eq!(tbs_cert.issuer.as_raw(), expected_issuer_der);
             //
             let sig_alg = &cert.signature_algorithm;
             assert_eq!(sig_alg.algorithm, OID_PKCS1_SHA1WITHRSA);
             //
             let not_before = tbs_cert.validity.not_before;
             let not_after = tbs_cert.validity.not_after;
             let nb = Utc.timestamp(not_before.timestamp(), 0);
             let na = Utc.timestamp(not_after.timestamp(), 0);
             assert_eq!(nb.year(), 2002);
             assert_eq!(nb.month(), 12);
             assert_eq!(nb.day(), 13);
             assert_eq!(na.year(), 2020);
             assert_eq!(na.month(), 10);
             assert_eq!(na.day(), 17);
             let policies = vec![PolicyInformation {
                 policy_id: oid!(1.2.250 .1 .121 .1 .1 .1),
                 policy_qualifiers: None,
             }];
             let expected_extensions = vec![
                 X509Extension::new(
                     oid!(2.5.29 .19),
                     true,
                     &[48, 3, 1, 1, 255],
                     ParsedExtension::BasicConstraints(BasicConstraints {
                         ca: true,
                         path_len_constraint: None,
                     }),
                 ),
                 X509Extension::new(
                     oid!(2.5.29 .15),
                     false,
                     &[3, 2, 1, 70],
                     ParsedExtension::KeyUsage(KeyUsage { flags: 98 }),
                 ),
                 X509Extension::new(
                     oid!(2.5.29 .32),
                     false,
                     &[48, 12, 48, 10, 6, 8, 42, 129, 122, 1, 121, 1, 1, 1],
                     ParsedExtension::CertificatePolicies(policies),
                 ),
                 X509Extension::new(
                     oid!(2.5.29 .14),
                     false,
                     &[
                         4, 20, 163, 5, 47, 24, 96, 80, 194, 137, 10, 221, 43, 33, 79, 255, 142, 78,
                         168, 48, 49, 54,
                     ],
                     ParsedExtension::SubjectKeyIdentifier(KeyIdentifier(&[
                         163, 5, 47, 24, 96, 80, 194, 137, 10, 221, 43, 33, 79, 255, 142, 78, 168,
                         48, 49, 54,
                     ])),
                 ),
                 X509Extension::new(
                     oid!(2.5.29 .35),
                     false,
                     &[
                         48, 22, 128, 20, 163, 5, 47, 24, 96, 80, 194, 137, 10, 221, 43, 33, 79,
                         255, 142, 78, 168, 48, 49, 54,
                     ],
                     ParsedExtension::AuthorityKeyIdentifier(AuthorityKeyIdentifier {
                         key_identifier: Some(KeyIdentifier(&[
                             163, 5, 47, 24, 96, 80, 194, 137, 10, 221, 43, 33, 79, 255, 142, 78,
                             168, 48, 49, 54,
                         ])),
                         authority_cert_issuer: None,
                         authority_cert_serial: None,
                     }),
                 ),
             ];
             assert_eq!(tbs_cert.extensions(), &expected_extensions as &[_]);
             //
             assert!(tbs_cert.is_ca());
             //
             assert_eq!(tbs_cert.as_ref(), &IGCA_DER[4..(8 + 746)]);
         }
         _ => panic!("x509 parsing failed: {:?}", res),
     }
 }

 #[test]
 fn test_x509_no_extensions() {
     let empty = &b""[..];
     let res = parse_x509_certificate(NO_EXTENSIONS_DER);
     match res {
         Ok((e, cert)) => {
             assert_eq!(e, empty);

             let tbs_cert = cert.tbs_certificate;
             assert_eq!(tbs_cert.version, X509Version::V3);
             assert_eq!(tbs_cert.extensions().len(), 0);
         }
         _ => panic!("x509 parsing failed: {:?}", res),
     }
 }

 #[test]
 fn test_parse_subject_public_key_info() {
     let res = SubjectPublicKeyInfo::from_der(&IGCA_DER[339..])
         .expect("Parse public key info")
         .1;
     assert_eq!(res.algorithm.algorithm, OID_PKCS1_RSAENCRYPTION);
     let params = res.algorithm.parameters.expect("algorithm parameters");
     assert_eq!(params.header.tag.0, 5);
     let spk = res.subject_public_key;
     println!("spk.data.len {}", spk.data.len());
     assert_eq!(spk.data.len(), 270);
 }

 #[test]
 fn test_version_v1() {
     let (rem, cert) = parse_x509_certificate(V1).expect("Could not parse v1 certificate");
     assert!(rem.is_empty());
     assert_eq!(cert.version(), X509Version::V1);
     let tbs_cert = cert.tbs_certificate;
     assert_eq!(format!("{}", tbs_cert.subject), "CN=marquee");
     assert_eq!(format!("{}", tbs_cert.issuer), "CN=marquee");
 }

 #[test]
 fn test_crl_parse() {
     match parse_x509_crl(CRL_DER) {
         Ok((e, cert)) => {
             assert!(e.is_empty());

             let tbs_cert_list = cert.tbs_cert_list;
             assert_eq!(tbs_cert_list.version, Some(X509Version::V2));

             let sig = &tbs_cert_list.signature;
             assert_eq!(sig.algorithm, OID_PKCS1_SHA1WITHRSA);

             let expected_issuer =
                 "O=Sample Signer Organization, OU=Sample Signer Unit, CN=Sample Signer Cert";
             assert_eq!(format!("{}", tbs_cert_list.issuer), expected_issuer);

             let sig_alg = &cert.signature_algorithm;
             assert_eq!(sig_alg.algorithm, OID_PKCS1_SHA1WITHRSA);

             let this_update = tbs_cert_list.this_update;
             let next_update = tbs_cert_list.next_update.unwrap();
             let tu = Utc.timestamp(this_update.timestamp(), 0);
             let nu = Utc.timestamp(next_update.timestamp(), 0);
             assert_eq!(tu.year(), 2013);
             assert_eq!(tu.month(), 2);
             assert_eq!(tu.day(), 18);
             assert_eq!(nu.year(), 2013);
             assert_eq!(nu.month(), 2);
             assert_eq!(nu.day(), 18);

             let revocation_date =
                 ASN1Time::from_timestamp(Utc.ymd(2013, 2, 18).and_hms(10, 22, 12).timestamp());
             let invalidity_date =
                 ASN1Time::from_timestamp(Utc.ymd(2013, 2, 18).and_hms(10, 22, 00).timestamp());

             let revoked_certs = &tbs_cert_list.revoked_certificates;
             let revoked_cert_0 = &revoked_certs[0];
             assert_eq!(*revoked_cert_0.serial(), 0x147947u32.into());
             assert_eq!(revoked_cert_0.revocation_date, revocation_date);
             let expected_extensions = vec![
                 X509Extension::new(
                     oid!(2.5.29 .21),
                     false,
                     &[10, 1, 3],
                     ParsedExtension::ReasonCode(ReasonCode::AffiliationChanged),
                 ),
                 X509Extension::new(
                     oid!(2.5.29 .24),
                     false,
                     &[
                         24, 15, 50, 48, 49, 51, 48, 50, 49, 56, 49, 48, 50, 50, 48, 48, 90,
                     ],
                     ParsedExtension::InvalidityDate(invalidity_date),
                 ),
             ];
             assert_eq!(revoked_cert_0.extensions(), &expected_extensions as &[_]);

             assert_eq!(revoked_certs.len(), 5);
             assert_eq!(revoked_certs[4].user_certificate, 1_341_771_u32.into());

             let expected_extensions = vec![
                 X509Extension::new(
                     oid!(2.5.29 .35),
                     false,
                     &[
                         48, 22, 128, 20, 190, 18, 1, 204, 170, 234, 17, 128, 218, 46, 173, 178,
                         234, 199, 181, 251, 159, 249, 173, 52,
                     ],
                     ParsedExtension::AuthorityKeyIdentifier(AuthorityKeyIdentifier {
                         key_identifier: Some(KeyIdentifier(&[
                             190, 18, 1, 204, 170, 234, 17, 128, 218, 46, 173, 178, 234, 199, 181,
                             251, 159, 249, 173, 52,
                         ])),
                         authority_cert_issuer: None,
                         authority_cert_serial: None,
                     }),
                 ),
                 X509Extension::new(
                     oid!(2.5.29 .20),
                     false,
                     &[2, 1, 3],
                     ParsedExtension::CRLNumber(3u32.into()),
                 ),
             ];
             assert_eq!(tbs_cert_list.extensions(), &expected_extensions as &[_]);

             assert_eq!(tbs_cert_list.as_ref(), &CRL_DER[4..(4 + 4 + 508)]);
         }
         err => panic!("x509 parsing failed: {:?}", err),
     }
 }

 #[test]
 fn test_crl_parse_empty() {
     match parse_x509_crl(EMPTY_CRL_DER) {
         Ok((e, cert)) => {
             assert!(e.is_empty());
             assert!(cert.tbs_cert_list.revoked_certificates.is_empty());

             let expected_extensions = vec![
                 X509Extension::new(
                     oid!(2.5.29 .20),
                     false,
                     &[2, 1, 2],
                     ParsedExtension::CRLNumber(2u32.into()),
                 ),
                 X509Extension::new(
                     OID_X509_EXT_AUTHORITY_KEY_IDENTIFIER,
                     false,
                     &[
                         48, 22, 128, 20, 34, 101, 12, 214, 90, 157, 52, 137, 243, 131, 180, 149,
                         82, 191, 80, 27, 57, 39, 6, 172,
                     ],
                     ParsedExtension::AuthorityKeyIdentifier(AuthorityKeyIdentifier {
                         key_identifier: Some(KeyIdentifier(&[
                             34, 101, 12, 214, 90, 157, 52, 137, 243, 131, 180, 149, 82, 191, 80,
                             27, 57, 39, 6, 172,
                         ])),
                         authority_cert_issuer: None,
                         authority_cert_serial: None,
                     }),
                 ),
             ];
             assert_eq!(cert.extensions(), &expected_extensions as &[_]);
             assert_eq!(
                 cert.tbs_cert_list.as_ref(),
                 &EMPTY_CRL_DER[4..(4 + 3 + 200)]
             );
         }
         err => panic!("x509 parsing failed: {:?}", err),
     }
 }

 #[test]
 fn test_crl_parse_minimal() {
     match parse_x509_crl(MINIMAL_CRL_DER) {
         Ok((e, crl)) => {
             assert!(e.is_empty());
             let revocation_date =
                 ASN1Time::from_timestamp(Utc.ymd(1970, 1, 1).and_hms(0, 0, 0).timestamp());
             let revoked_certificates = &crl.tbs_cert_list.revoked_certificates;
             assert_eq!(revoked_certificates.len(), 1);
             let revoked_cert_0 = &revoked_certificates[0];
             assert_eq!(*revoked_cert_0.serial(), 42u32.into());
             assert_eq!(revoked_cert_0.revocation_date, revocation_date);
             assert!(revoked_cert_0.extensions().is_empty());
             assert!(crl.tbs_cert_list.extensions().is_empty());
             assert_eq!(crl.tbs_cert_list.as_ref(), &MINIMAL_CRL_DER[4..(4 + 79)]);
         }
         err => panic!("x509 parsing failed: {:?}", err),
     }
 }

 #[test]
 fn test_duplicate_authority_info_access() {
     match parse_x509_certificate(DUPLICATE_VALUE_IN_AIA) {
         Ok((_, cert)) => {
             let extension = cert
                 .tbs_certificate
                 .find_extension(&OID_PKIX_AUTHORITY_INFO_ACCESS)
                 .unwrap();
             let mut accessdescs = HashMap::new();
             let ca_issuers = vec![
                 &GeneralName::URI("http://cdp1.pca.dfn.de/dfn-ca-global-g2/pub/cacert/cacert.crt"),
                 &GeneralName::URI("http://cdp2.pca.dfn.de/dfn-ca-global-g2/pub/cacert/cacert.crt"),
             ];
             let ocsp = vec![&GeneralName::URI("http://ocsp.pca.dfn.de/OCSP-Server/OCSP")];
             accessdescs.insert(OID_PKIX_ACCESS_DESCRIPTOR_CA_ISSUERS, ca_issuers);
             accessdescs.insert(OID_PKIX_ACCESS_DESCRIPTOR_OCSP, ocsp);
             if let ParsedExtension::AuthorityInfoAccess(aia) = extension.parsed_extension() {
                 let h = aia.as_hashmap();
                 assert_eq!(h, accessdescs);
             } else {
                 panic!("Wrong extension type parsed");
             }
         }
         err => panic!("x509 parsing failed: {:?}", err),
     }
 }

 #[test]
 fn test_x509_parser_no_ext() {
     let mut parser = X509CertificateParser::new().with_deep_parse_extensions(false);
     let (_, x509) = parser.parse(IGCA_DER).expect("parsing failed");
     for ext in x509.extensions() {
         assert_eq!(ext.parsed_extension(), &ParsedExtension::Unparsed);
     }
 }
	use chrono::offset::{TimeZone, Utc};
	use chrono::Datelike;
	use der_parser::oid;
	use nom::Parser;
	use oid_registry::*;
	use std::collections::HashMap;
	use x509_parser::prelude::*;

	static IGCA_DER: &[u8] = include_bytes!("../assets/IGC_A.der");
	static NO_EXTENSIONS_DER: &[u8] = include_bytes!("../assets/no_extensions.der");
	static V1: &[u8] = include_bytes!("../assets/v1.der");
	static CRL_DER: &[u8] = include_bytes!("../assets/example.crl");
	static EMPTY_CRL_DER: &[u8] = include_bytes!("../assets/empty.crl");
	static MINIMAL_CRL_DER: &[u8] = include_bytes!("../assets/minimal.crl");
	static DUPLICATE_VALUE_IN_AIA: &[u8] =
	include_bytes!("../assets/duplicate_value_in_authority_info_access.der");

	#[test]
	fn test_x509_parser() {
	let empty = &b""[..];
	//assert_eq!(x509_parser(IGCA_DER), IResult::Done(empty, (1)));
	let res = parse_x509_certificate(IGCA_DER);
	// println!("res: {:?}", res);
	match res {
	Ok((e, cert)) => {
	assert_eq!(e, empty);
	//
	let tbs_cert = &cert.tbs_certificate;
	assert_eq!(tbs_cert.version, X509Version::V3);
	//
	let s = tbs_cert.raw_serial_as_string();
	assert_eq!(&s, "39:11:45:10:94");
	//
	let expected_subject = "C=FR, ST=France, L=Paris, O=PM/SGDN, OU=DCSSI, CN=IGC/A, Email=igca@sgdn.pm.gouv.fr";
	assert_eq!(format!("{}", tbs_cert.subject), expected_subject);
	//
	let cn_list: Result<Vec<_>, X509Error> = cert
	.subject()
	.iter_common_name()
	.map(\|attr\| attr.as_str())
	.collect();
	assert_eq!(cn_list, Ok(vec!["IGC/A"]));
	//
	let sig = &tbs_cert.signature;
	assert_eq!(sig.algorithm, oid!(1.2.840 .113549 .1 .1 .5));
	//
	let expected_issuer = "C=FR, ST=France, L=Paris, O=PM/SGDN, OU=DCSSI, CN=IGC/A, Email=igca@sgdn.pm.gouv.fr";
	assert_eq!(format!("{}", tbs_cert.issuer), expected_issuer);
	let expected_issuer_der = &IGCA_DER[35..171];
	assert_eq!(tbs_cert.issuer.as_raw(), expected_issuer_der);
	//
	let sig_alg = &cert.signature_algorithm;
	assert_eq!(sig_alg.algorithm, OID_PKCS1_SHA1WITHRSA);
	//
	let not_before = tbs_cert.validity.not_before;
	let not_after = tbs_cert.validity.not_after;
	let nb = Utc.timestamp(not_before.timestamp(), 0);
	let na = Utc.timestamp(not_after.timestamp(), 0);
	assert_eq!(nb.year(), 2002);
	assert_eq!(nb.month(), 12);
	assert_eq!(nb.day(), 13);
	assert_eq!(na.year(), 2020);
	assert_eq!(na.month(), 10);
	assert_eq!(na.day(), 17);
	let policies = vec![PolicyInformation {
	policy_id: oid!(1.2.250 .1 .121 .1 .1 .1),
	policy_qualifiers: None,
	}];
	let expected_extensions = vec![
	X509Extension::new(
	oid!(2.5.29 .19),
	true,
	&[48, 3, 1, 1, 255],
	ParsedExtension::BasicConstraints(BasicConstraints {
	ca: true,
	path_len_constraint: None,
	}),
	),
	X509Extension::new(
	oid!(2.5.29 .15),
	false,
	&[3, 2, 1, 70],
	ParsedExtension::KeyUsage(KeyUsage { flags: 98 }),
	),
	X509Extension::new(
	oid!(2.5.29 .32),
	false,
	&[48, 12, 48, 10, 6, 8, 42, 129, 122, 1, 121, 1, 1, 1],
	ParsedExtension::CertificatePolicies(policies),
	),
	X509Extension::new(
	oid!(2.5.29 .14),
	false,
	&[
	4, 20, 163, 5, 47, 24, 96, 80, 194, 137, 10, 221, 43, 33, 79, 255, 142, 78,
	168, 48, 49, 54,
	],
	ParsedExtension::SubjectKeyIdentifier(KeyIdentifier(&[
	163, 5, 47, 24, 96, 80, 194, 137, 10, 221, 43, 33, 79, 255, 142, 78, 168,
	48, 49, 54,
	])),
	),
	X509Extension::new(
	oid!(2.5.29 .35),
	false,
	&[
	48, 22, 128, 20, 163, 5, 47, 24, 96, 80, 194, 137, 10, 221, 43, 33, 79,
	255, 142, 78, 168, 48, 49, 54,
	],
	ParsedExtension::AuthorityKeyIdentifier(AuthorityKeyIdentifier {
	key_identifier: Some(KeyIdentifier(&[
	163, 5, 47, 24, 96, 80, 194, 137, 10, 221, 43, 33, 79, 255, 142, 78,
	168, 48, 49, 54,
	])),
	authority_cert_issuer: None,
	authority_cert_serial: None,
	}),
	),
	];
	assert_eq!(tbs_cert.extensions(), &expected_extensions as &[_]);
	//
	assert!(tbs_cert.is_ca());
	//
	assert_eq!(tbs_cert.as_ref(), &IGCA_DER[4..(8 + 746)]);
	}
	_ => panic!("x509 parsing failed: {:?}", res),
	}
	}

	#[test]
	fn test_x509_no_extensions() {
	let empty = &b""[..];
	let res = parse_x509_certificate(NO_EXTENSIONS_DER);
	match res {
	Ok((e, cert)) => {
	assert_eq!(e, empty);

	let tbs_cert = cert.tbs_certificate;
	assert_eq!(tbs_cert.version, X509Version::V3);
	assert_eq!(tbs_cert.extensions().len(), 0);
	}
	_ => panic!("x509 parsing failed: {:?}", res),
	}
	}

	#[test]
	fn test_parse_subject_public_key_info() {
	let res = SubjectPublicKeyInfo::from_der(&IGCA_DER[339..])
	.expect("Parse public key info")
	.1;
	assert_eq!(res.algorithm.algorithm, OID_PKCS1_RSAENCRYPTION);
	let params = res.algorithm.parameters.expect("algorithm parameters");
	assert_eq!(params.header.tag.0, 5);
	let spk = res.subject_public_key;
	println!("spk.data.len {}", spk.data.len());
	assert_eq!(spk.data.len(), 270);
	}

	#[test]
	fn test_version_v1() {
	let (rem, cert) = parse_x509_certificate(V1).expect("Could not parse v1 certificate");
	assert!(rem.is_empty());
	assert_eq!(cert.version(), X509Version::V1);
	let tbs_cert = cert.tbs_certificate;
	assert_eq!(format!("{}", tbs_cert.subject), "CN=marquee");
	assert_eq!(format!("{}", tbs_cert.issuer), "CN=marquee");
	}

	#[test]
	fn test_crl_parse() {
	match parse_x509_crl(CRL_DER) {
	Ok((e, cert)) => {
	assert!(e.is_empty());

	let tbs_cert_list = cert.tbs_cert_list;
	assert_eq!(tbs_cert_list.version, Some(X509Version::V2));

	let sig = &tbs_cert_list.signature;
	assert_eq!(sig.algorithm, OID_PKCS1_SHA1WITHRSA);

	let expected_issuer =
	"O=Sample Signer Organization, OU=Sample Signer Unit, CN=Sample Signer Cert";
	assert_eq!(format!("{}", tbs_cert_list.issuer), expected_issuer);

	let sig_alg = &cert.signature_algorithm;
	assert_eq!(sig_alg.algorithm, OID_PKCS1_SHA1WITHRSA);

	let this_update = tbs_cert_list.this_update;
	let next_update = tbs_cert_list.next_update.unwrap();
	let tu = Utc.timestamp(this_update.timestamp(), 0);
	let nu = Utc.timestamp(next_update.timestamp(), 0);
	assert_eq!(tu.year(), 2013);
	assert_eq!(tu.month(), 2);
	assert_eq!(tu.day(), 18);
	assert_eq!(nu.year(), 2013);
	assert_eq!(nu.month(), 2);
	assert_eq!(nu.day(), 18);

	let revocation_date =
	ASN1Time::from_timestamp(Utc.ymd(2013, 2, 18).and_hms(10, 22, 12).timestamp());
	let invalidity_date =
	ASN1Time::from_timestamp(Utc.ymd(2013, 2, 18).and_hms(10, 22, 00).timestamp());

	let revoked_certs = &tbs_cert_list.revoked_certificates;
	let revoked_cert_0 = &revoked_certs[0];
	assert_eq!(*revoked_cert_0.serial(), 0x147947u32.into());
	assert_eq!(revoked_cert_0.revocation_date, revocation_date);
	let expected_extensions = vec![
	X509Extension::new(
	oid!(2.5.29 .21),
	false,
	&[10, 1, 3],
	ParsedExtension::ReasonCode(ReasonCode::AffiliationChanged),
	),
	X509Extension::new(
	oid!(2.5.29 .24),
	false,
	&[
	24, 15, 50, 48, 49, 51, 48, 50, 49, 56, 49, 48, 50, 50, 48, 48, 90,
	],
	ParsedExtension::InvalidityDate(invalidity_date),
	),
	];
	assert_eq!(revoked_cert_0.extensions(), &expected_extensions as &[_]);

	assert_eq!(revoked_certs.len(), 5);
	assert_eq!(revoked_certs[4].user_certificate, 1_341_771_u32.into());

	let expected_extensions = vec![
	X509Extension::new(
	oid!(2.5.29 .35),
	false,
	&[
	48, 22, 128, 20, 190, 18, 1, 204, 170, 234, 17, 128, 218, 46, 173, 178,
	234, 199, 181, 251, 159, 249, 173, 52,
	],
	ParsedExtension::AuthorityKeyIdentifier(AuthorityKeyIdentifier {
	key_identifier: Some(KeyIdentifier(&[
	190, 18, 1, 204, 170, 234, 17, 128, 218, 46, 173, 178, 234, 199, 181,
	251, 159, 249, 173, 52,
	])),
	authority_cert_issuer: None,
	authority_cert_serial: None,
	}),
	),
	X509Extension::new(
	oid!(2.5.29 .20),
	false,
	&[2, 1, 3],
	ParsedExtension::CRLNumber(3u32.into()),
	),
	];
	assert_eq!(tbs_cert_list.extensions(), &expected_extensions as &[_]);

	assert_eq!(tbs_cert_list.as_ref(), &CRL_DER[4..(4 + 4 + 508)]);
	}
	err => panic!("x509 parsing failed: {:?}", err),
	}
	}

	#[test]
	fn test_crl_parse_empty() {
	match parse_x509_crl(EMPTY_CRL_DER) {
	Ok((e, cert)) => {
	assert!(e.is_empty());
	assert!(cert.tbs_cert_list.revoked_certificates.is_empty());

	let expected_extensions = vec![
	X509Extension::new(
	oid!(2.5.29 .20),
	false,
	&[2, 1, 2],
	ParsedExtension::CRLNumber(2u32.into()),
	),
	X509Extension::new(
	OID_X509_EXT_AUTHORITY_KEY_IDENTIFIER,
	false,
	&[
	48, 22, 128, 20, 34, 101, 12, 214, 90, 157, 52, 137, 243, 131, 180, 149,
	82, 191, 80, 27, 57, 39, 6, 172,
	],
	ParsedExtension::AuthorityKeyIdentifier(AuthorityKeyIdentifier {
	key_identifier: Some(KeyIdentifier(&[
	34, 101, 12, 214, 90, 157, 52, 137, 243, 131, 180, 149, 82, 191, 80,
	27, 57, 39, 6, 172,
	])),
	authority_cert_issuer: None,
	authority_cert_serial: None,
	}),
	),
	];
	assert_eq!(cert.extensions(), &expected_extensions as &[_]);
	assert_eq!(
	cert.tbs_cert_list.as_ref(),
	&EMPTY_CRL_DER[4..(4 + 3 + 200)]
	);
	}
	err => panic!("x509 parsing failed: {:?}", err),
	}
	}

	#[test]
	fn test_crl_parse_minimal() {
	match parse_x509_crl(MINIMAL_CRL_DER) {
	Ok((e, crl)) => {
	assert!(e.is_empty());
	let revocation_date =
	ASN1Time::from_timestamp(Utc.ymd(1970, 1, 1).and_hms(0, 0, 0).timestamp());
	let revoked_certificates = &crl.tbs_cert_list.revoked_certificates;
	assert_eq!(revoked_certificates.len(), 1);
	let revoked_cert_0 = &revoked_certificates[0];
	assert_eq!(*revoked_cert_0.serial(), 42u32.into());
	assert_eq!(revoked_cert_0.revocation_date, revocation_date);
	assert!(revoked_cert_0.extensions().is_empty());
	assert!(crl.tbs_cert_list.extensions().is_empty());
	assert_eq!(crl.tbs_cert_list.as_ref(), &MINIMAL_CRL_DER[4..(4 + 79)]);
	}
	err => panic!("x509 parsing failed: {:?}", err),
	}
	}

	#[test]
	fn test_duplicate_authority_info_access() {
	match parse_x509_certificate(DUPLICATE_VALUE_IN_AIA) {
	Ok((_, cert)) => {
	let extension = cert
	.tbs_certificate
	.find_extension(&OID_PKIX_AUTHORITY_INFO_ACCESS)
	.unwrap();
	let mut accessdescs = HashMap::new();
	let ca_issuers = vec![
	&GeneralName::URI("http://cdp1.pca.dfn.de/dfn-ca-global-g2/pub/cacert/cacert.crt"),
	&GeneralName::URI("http://cdp2.pca.dfn.de/dfn-ca-global-g2/pub/cacert/cacert.crt"),
	];
	let ocsp = vec![&GeneralName::URI("http://ocsp.pca.dfn.de/OCSP-Server/OCSP")];
	accessdescs.insert(OID_PKIX_ACCESS_DESCRIPTOR_CA_ISSUERS, ca_issuers);
	accessdescs.insert(OID_PKIX_ACCESS_DESCRIPTOR_OCSP, ocsp);
	if let ParsedExtension::AuthorityInfoAccess(aia) = extension.parsed_extension() {
	let h = aia.as_hashmap();
	assert_eq!(h, accessdescs);
	} else {
	panic!("Wrong extension type parsed");
	}
	}
	err => panic!("x509 parsing failed: {:?}", err),
	}
	}

	#[test]
	fn test_x509_parser_no_ext() {
	let mut parser = X509CertificateParser::new().with_deep_parse_extensions(false);
	let (_, x509) = parser.parse(IGCA_DER).expect("parsing failed");
	for ext in x509.extensions() {
	assert_eq!(ext.parsed_extension(), &ParsedExtension::Unparsed);
	}
	}