tests/spki.rs - platform/external/rust/crates/spki - Git at Google

 //! `SubjectPublicKeyInfo` tests.

 use hex_literal::hex;
 use spki::SubjectPublicKeyInfo;

 #[cfg(feature = "alloc")]
 use der::Encode;

 #[cfg(feature = "pem")]
 use der::{pem::LineEnding, EncodePem};

 /// Elliptic Curve (P-256) `SubjectPublicKeyInfo` encoded as ASN.1 DER
 const EC_P256_DER_EXAMPLE: &[u8] = include_bytes!("examples/p256-pub.der");

 /// Ed25519 `SubjectPublicKeyInfo` encoded as ASN.1 DER
 #[cfg(any(feature = "alloc", feature = "fingerprint"))]
 const ED25519_DER_EXAMPLE: &[u8] = include_bytes!("examples/ed25519-pub.der");

 /// RSA-2048 `SubjectPublicKeyInfo` encoded as ASN.1 DER
 const RSA_2048_DER_EXAMPLE: &[u8] = include_bytes!("examples/rsa2048-pub.der");

 /// Elliptic Curve (P-256) public key encoded as PEM
 #[cfg(feature = "pem")]
 const EC_P256_PEM_EXAMPLE: &str = include_str!("examples/p256-pub.pem");

 /// Ed25519 public key encoded as PEM
 #[cfg(feature = "pem")]
 const ED25519_PEM_EXAMPLE: &str = include_str!("examples/ed25519-pub.pem");

 /// RSA-2048 PKCS#8 public key encoded as PEM
 #[cfg(feature = "pem")]
 const RSA_2048_PEM_EXAMPLE: &str = include_str!("examples/rsa2048-pub.pem");

 /// The SPKI fingerprint for `ED25519_SPKI_FINGERPRINT` as a Base64 string
 ///
 /// Generated using `cat ed25519-pub.der | openssl dgst -binary -sha256 | base64`
 #[cfg(all(feature = "fingerprint", feature = "alloc"))]
 const ED25519_SPKI_FINGERPRINT_BASE64: &str = "Vd1MdLDkhTTi9OFzzs61DfjyenrCqomRzHrpFOAwvO0=";

 /// The SPKI fingerprint for `ED25519_SPKI_FINGERPRINT` as straight hash bytes
 ///
 /// Generated using `cat ed25519-pub.der | openssl dgst -sha256`
 #[cfg(all(feature = "fingerprint"))]
 const ED25519_SPKI_FINGERPRINT: &[u8] =
     &hex!("55dd4c74b0e48534e2f4e173ceceb50df8f27a7ac2aa8991cc7ae914e030bced");

 #[test]
 fn decode_ec_p256_der() {
     let spki = SubjectPublicKeyInfo::try_from(EC_P256_DER_EXAMPLE).unwrap();

     assert_eq!(spki.algorithm.oid, "1.2.840.10045.2.1".parse().unwrap());

     assert_eq!(
         spki.algorithm.parameters.unwrap().oid().unwrap(),
         "1.2.840.10045.3.1.7".parse().unwrap()
     );

     assert_eq!(spki.subject_public_key, &hex!("041CACFFB55F2F2CEFD89D89EB374B2681152452802DEEA09916068137D839CF7FC481A44492304D7EF66AC117BEFE83A8D08F155F2B52F9F618DD447029048E0F")[..]);
 }

 #[test]
 #[cfg(feature = "fingerprint")]
 fn decode_ed25519_and_fingerprint_spki() {
     // Repeat the decode test from the pkcs8 crate
     let spki = SubjectPublicKeyInfo::try_from(ED25519_DER_EXAMPLE).unwrap();

     assert_eq!(spki.algorithm.oid, "1.3.101.112".parse().unwrap());
     assert_eq!(spki.algorithm.parameters, None);
     assert_eq!(
         spki.subject_public_key,
         &hex!("4D29167F3F1912A6F7ADFA293A051A15C05EC67B8F17267B1C5550DCE853BD0D")[..]
     );

     // Check the fingerprint
     assert_eq!(
         spki.fingerprint_bytes().unwrap().as_slice(),
         ED25519_SPKI_FINGERPRINT
     );
 }

 #[test]
 #[cfg(all(feature = "fingerprint", feature = "alloc"))]
 fn decode_ed25519_and_fingerprint_base64() {
     // Repeat the decode test from the pkcs8 crate
     let spki = SubjectPublicKeyInfo::try_from(ED25519_DER_EXAMPLE).unwrap();

     assert_eq!(spki.algorithm.oid, "1.3.101.112".parse().unwrap());
     assert_eq!(spki.algorithm.parameters, None);
     assert_eq!(
         spki.subject_public_key,
         &hex!("4D29167F3F1912A6F7ADFA293A051A15C05EC67B8F17267B1C5550DCE853BD0D")[..]
     );

     // Check the fingerprint
     assert_eq!(
         spki.fingerprint_base64().unwrap(),
         ED25519_SPKI_FINGERPRINT_BASE64
     );
 }

 #[test]
 fn decode_rsa_2048_der() {
     let spki = SubjectPublicKeyInfo::try_from(RSA_2048_DER_EXAMPLE).unwrap();

     assert_eq!(spki.algorithm.oid, "1.2.840.113549.1.1.1".parse().unwrap());
     assert!(spki.algorithm.parameters.unwrap().is_null());
     assert_eq!(spki.subject_public_key, &hex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
 }

 #[test]
 #[cfg(feature = "alloc")]
 fn encode_ec_p256_der() {
     let pk = SubjectPublicKeyInfo::try_from(EC_P256_DER_EXAMPLE).unwrap();
     let pk_encoded = pk.to_vec().unwrap();
     assert_eq!(EC_P256_DER_EXAMPLE, pk_encoded.as_slice());
 }

 #[test]
 #[cfg(feature = "alloc")]
 fn encode_ed25519_der() {
     let pk = SubjectPublicKeyInfo::try_from(ED25519_DER_EXAMPLE).unwrap();
     let pk_encoded = pk.to_vec().unwrap();
     assert_eq!(ED25519_DER_EXAMPLE, pk_encoded.as_slice());
 }

 #[test]
 #[cfg(feature = "alloc")]
 fn encode_rsa_2048_der() {
     let pk = SubjectPublicKeyInfo::try_from(RSA_2048_DER_EXAMPLE).unwrap();
     let pk_encoded = pk.to_vec().unwrap();
     assert_eq!(RSA_2048_DER_EXAMPLE, pk_encoded.as_slice());
 }

 #[test]
 #[cfg(feature = "pem")]
 fn encode_ec_p256_pem() {
     let pk = SubjectPublicKeyInfo::try_from(EC_P256_DER_EXAMPLE).unwrap();
     let pk_encoded = pk.to_pem(LineEnding::LF).unwrap();
     assert_eq!(EC_P256_PEM_EXAMPLE, pk_encoded);
 }

 #[test]
 #[cfg(feature = "pem")]
 fn encode_ed25519_pem() {
     let pk = SubjectPublicKeyInfo::try_from(ED25519_DER_EXAMPLE).unwrap();
     let pk_encoded = pk.to_pem(LineEnding::LF).unwrap();
     assert_eq!(ED25519_PEM_EXAMPLE, pk_encoded);
 }

 #[test]
 #[cfg(feature = "pem")]
 fn encode_rsa_2048_pem() {
     let pk = SubjectPublicKeyInfo::try_from(RSA_2048_DER_EXAMPLE).unwrap();
     let pk_encoded = pk.to_pem(LineEnding::LF).unwrap();
     assert_eq!(RSA_2048_PEM_EXAMPLE, pk_encoded);
 }
	//! `SubjectPublicKeyInfo` tests.

	use hex_literal::hex;
	use spki::SubjectPublicKeyInfo;

	#[cfg(feature = "alloc")]
	use der::Encode;

	#[cfg(feature = "pem")]
	use der::{pem::LineEnding, EncodePem};

	/// Elliptic Curve (P-256) `SubjectPublicKeyInfo` encoded as ASN.1 DER
	const EC_P256_DER_EXAMPLE: &[u8] = include_bytes!("examples/p256-pub.der");

	/// Ed25519 `SubjectPublicKeyInfo` encoded as ASN.1 DER
	#[cfg(any(feature = "alloc", feature = "fingerprint"))]
	const ED25519_DER_EXAMPLE: &[u8] = include_bytes!("examples/ed25519-pub.der");

	/// RSA-2048 `SubjectPublicKeyInfo` encoded as ASN.1 DER
	const RSA_2048_DER_EXAMPLE: &[u8] = include_bytes!("examples/rsa2048-pub.der");

	/// Elliptic Curve (P-256) public key encoded as PEM
	#[cfg(feature = "pem")]
	const EC_P256_PEM_EXAMPLE: &str = include_str!("examples/p256-pub.pem");

	/// Ed25519 public key encoded as PEM
	#[cfg(feature = "pem")]
	const ED25519_PEM_EXAMPLE: &str = include_str!("examples/ed25519-pub.pem");

	/// RSA-2048 PKCS#8 public key encoded as PEM
	#[cfg(feature = "pem")]
	const RSA_2048_PEM_EXAMPLE: &str = include_str!("examples/rsa2048-pub.pem");

	/// The SPKI fingerprint for `ED25519_SPKI_FINGERPRINT` as a Base64 string
	///
	/// Generated using `cat ed25519-pub.der \| openssl dgst -binary -sha256 \| base64`
	#[cfg(all(feature = "fingerprint", feature = "alloc"))]
	const ED25519_SPKI_FINGERPRINT_BASE64: &str = "Vd1MdLDkhTTi9OFzzs61DfjyenrCqomRzHrpFOAwvO0=";

	/// The SPKI fingerprint for `ED25519_SPKI_FINGERPRINT` as straight hash bytes
	///
	/// Generated using `cat ed25519-pub.der \| openssl dgst -sha256`
	#[cfg(all(feature = "fingerprint"))]
	const ED25519_SPKI_FINGERPRINT: &[u8] =
	&hex!("55dd4c74b0e48534e2f4e173ceceb50df8f27a7ac2aa8991cc7ae914e030bced");

	#[test]
	fn decode_ec_p256_der() {
	let spki = SubjectPublicKeyInfo::try_from(EC_P256_DER_EXAMPLE).unwrap();

	assert_eq!(spki.algorithm.oid, "1.2.840.10045.2.1".parse().unwrap());

	assert_eq!(
	spki.algorithm.parameters.unwrap().oid().unwrap(),
	"1.2.840.10045.3.1.7".parse().unwrap()
	);

	assert_eq!(spki.subject_public_key, &hex!("041CACFFB55F2F2CEFD89D89EB374B2681152452802DEEA09916068137D839CF7FC481A44492304D7EF66AC117BEFE83A8D08F155F2B52F9F618DD447029048E0F")[..]);
	}

	#[test]
	#[cfg(feature = "fingerprint")]
	fn decode_ed25519_and_fingerprint_spki() {
	// Repeat the decode test from the pkcs8 crate
	let spki = SubjectPublicKeyInfo::try_from(ED25519_DER_EXAMPLE).unwrap();

	assert_eq!(spki.algorithm.oid, "1.3.101.112".parse().unwrap());
	assert_eq!(spki.algorithm.parameters, None);
	assert_eq!(
	spki.subject_public_key,
	&hex!("4D29167F3F1912A6F7ADFA293A051A15C05EC67B8F17267B1C5550DCE853BD0D")[..]
	);

	// Check the fingerprint
	assert_eq!(
	spki.fingerprint_bytes().unwrap().as_slice(),
	ED25519_SPKI_FINGERPRINT
	);
	}

	#[test]
	#[cfg(all(feature = "fingerprint", feature = "alloc"))]
	fn decode_ed25519_and_fingerprint_base64() {
	// Repeat the decode test from the pkcs8 crate
	let spki = SubjectPublicKeyInfo::try_from(ED25519_DER_EXAMPLE).unwrap();

	assert_eq!(spki.algorithm.oid, "1.3.101.112".parse().unwrap());
	assert_eq!(spki.algorithm.parameters, None);
	assert_eq!(
	spki.subject_public_key,
	&hex!("4D29167F3F1912A6F7ADFA293A051A15C05EC67B8F17267B1C5550DCE853BD0D")[..]
	);

	// Check the fingerprint
	assert_eq!(
	spki.fingerprint_base64().unwrap(),
	ED25519_SPKI_FINGERPRINT_BASE64
	);
	}

	#[test]
	fn decode_rsa_2048_der() {
	let spki = SubjectPublicKeyInfo::try_from(RSA_2048_DER_EXAMPLE).unwrap();

	assert_eq!(spki.algorithm.oid, "1.2.840.113549.1.1.1".parse().unwrap());
	assert!(spki.algorithm.parameters.unwrap().is_null());
	assert_eq!(spki.subject_public_key, &hex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
	}

	#[test]
	#[cfg(feature = "alloc")]
	fn encode_ec_p256_der() {
	let pk = SubjectPublicKeyInfo::try_from(EC_P256_DER_EXAMPLE).unwrap();
	let pk_encoded = pk.to_vec().unwrap();
	assert_eq!(EC_P256_DER_EXAMPLE, pk_encoded.as_slice());
	}

	#[test]
	#[cfg(feature = "alloc")]
	fn encode_ed25519_der() {
	let pk = SubjectPublicKeyInfo::try_from(ED25519_DER_EXAMPLE).unwrap();
	let pk_encoded = pk.to_vec().unwrap();
	assert_eq!(ED25519_DER_EXAMPLE, pk_encoded.as_slice());
	}

	#[test]
	#[cfg(feature = "alloc")]
	fn encode_rsa_2048_der() {
	let pk = SubjectPublicKeyInfo::try_from(RSA_2048_DER_EXAMPLE).unwrap();
	let pk_encoded = pk.to_vec().unwrap();
	assert_eq!(RSA_2048_DER_EXAMPLE, pk_encoded.as_slice());
	}

	#[test]
	#[cfg(feature = "pem")]
	fn encode_ec_p256_pem() {
	let pk = SubjectPublicKeyInfo::try_from(EC_P256_DER_EXAMPLE).unwrap();
	let pk_encoded = pk.to_pem(LineEnding::LF).unwrap();
	assert_eq!(EC_P256_PEM_EXAMPLE, pk_encoded);
	}

	#[test]
	#[cfg(feature = "pem")]
	fn encode_ed25519_pem() {
	let pk = SubjectPublicKeyInfo::try_from(ED25519_DER_EXAMPLE).unwrap();
	let pk_encoded = pk.to_pem(LineEnding::LF).unwrap();
	assert_eq!(ED25519_PEM_EXAMPLE, pk_encoded);
	}

	#[test]
	#[cfg(feature = "pem")]
	fn encode_rsa_2048_pem() {
	let pk = SubjectPublicKeyInfo::try_from(RSA_2048_DER_EXAMPLE).unwrap();
	let pk_encoded = pk.to_pem(LineEnding::LF).unwrap();
	assert_eq!(RSA_2048_PEM_EXAMPLE, pk_encoded);
	}