use of android.security.keymaster.ExportResult in project android_frameworks_base by AOSPA.
the class KeyStoreTest method testExportRsa.
public void testExportRsa() throws Exception {
String name = "test";
generateRsaKey(name);
ExportResult result = mKeyStore.exportKey(name, KeymasterDefs.KM_KEY_FORMAT_X509, null, null);
assertEquals("Export success", KeyStore.NO_ERROR, result.resultCode);
// TODO: Verify we have an RSA public key that's well formed.
}
use of android.security.keymaster.ExportResult in project android_frameworks_base by DirtyUnicorns.
the class KeyStoreTest method testExportRsa.
public void testExportRsa() throws Exception {
String name = "test";
generateRsaKey(name);
ExportResult result = mKeyStore.exportKey(name, KeymasterDefs.KM_KEY_FORMAT_X509, null, null);
assertEquals("Export success", KeyStore.NO_ERROR, result.resultCode);
// TODO: Verify we have an RSA public key that's well formed.
}
use of android.security.keymaster.ExportResult in project android_frameworks_base by ResurrectionRemix.
the class AndroidKeyPairGeneratorTest method assertKeyPairCorrect.
private void assertKeyPairCorrect(KeyPair pair, String alias, String keyType, int keySize, AlgorithmParameterSpec spec, X500Principal dn, BigInteger serial, Date start, Date end) throws Exception {
final PublicKey pubKey = pair.getPublic();
assertNotNull("The PublicKey for the KeyPair should be not null", pubKey);
assertEquals(keyType, pubKey.getAlgorithm());
if ("EC".equalsIgnoreCase(keyType)) {
assertEquals("Curve should be what was specified during initialization", keySize, ((ECPublicKey) pubKey).getParams().getCurve().getField().getFieldSize());
} else if ("RSA".equalsIgnoreCase(keyType)) {
RSAPublicKey rsaPubKey = (RSAPublicKey) pubKey;
assertEquals("Modulus size should be what is specified during initialization", (keySize + 7) & ~7, (rsaPubKey.getModulus().bitLength() + 7) & ~7);
if (spec != null) {
RSAKeyGenParameterSpec params = (RSAKeyGenParameterSpec) spec;
assertEquals((keySize + 7) & ~7, (params.getKeysize() + 7) & ~7);
assertEquals(params.getPublicExponent(), rsaPubKey.getPublicExponent());
}
}
final PrivateKey privKey = pair.getPrivate();
assertNotNull("The PrivateKey for the KeyPair should be not null", privKey);
assertEquals(keyType, privKey.getAlgorithm());
if ("EC".equalsIgnoreCase(keyType)) {
assertTrue("EC private key must be instanceof ECKey: " + privKey.getClass().getName(), privKey instanceof ECKey);
assertEquals("Private and public key must have the same EC parameters", ((ECKey) pubKey).getParams(), ((ECKey) privKey).getParams());
} else if ("RSA".equalsIgnoreCase(keyType)) {
assertTrue("RSA private key must be instance of RSAKey: " + privKey.getClass().getName(), privKey instanceof RSAKey);
assertEquals("Private and public key must have the same RSA modulus", ((RSAKey) pubKey).getModulus(), ((RSAKey) privKey).getModulus());
}
final byte[] userCertBytes = mAndroidKeyStore.get(Credentials.USER_CERTIFICATE + alias);
assertNotNull("The user certificate should exist for the generated entry", userCertBytes);
final CertificateFactory cf = CertificateFactory.getInstance("X.509");
final Certificate userCert = cf.generateCertificate(new ByteArrayInputStream(userCertBytes));
assertTrue("Certificate should be in X.509 format", userCert instanceof X509Certificate);
final X509Certificate x509userCert = (X509Certificate) userCert;
assertEquals("Public key used to sign certificate should have the same algorithm as in KeyPair", pubKey.getAlgorithm(), x509userCert.getPublicKey().getAlgorithm());
assertEquals("PublicKey used to sign certificate should match one returned in KeyPair", pubKey, AndroidKeyStoreProvider.getAndroidKeyStorePublicKey(Credentials.USER_PRIVATE_KEY + alias, KeyStore.UID_SELF, x509userCert.getPublicKey().getAlgorithm(), x509userCert.getPublicKey().getEncoded()));
assertEquals("The Subject DN should be the one passed into the params", dn, x509userCert.getSubjectDN());
assertEquals("The Issuer DN should be the same as the Subject DN", dn, x509userCert.getIssuerDN());
assertEquals("The Serial should be the one passed into the params", serial, x509userCert.getSerialNumber());
assertDateEquals("The notBefore date should be the one passed into the params", start, x509userCert.getNotBefore());
assertDateEquals("The notAfter date should be the one passed into the params", end, x509userCert.getNotAfter());
// Assert that the cert's signature verifies using the public key from generated KeyPair
x509userCert.verify(pubKey);
// Assert that the cert's signature verifies using the public key from the cert itself.
x509userCert.verify(x509userCert.getPublicKey());
final byte[] caCerts = mAndroidKeyStore.get(Credentials.CA_CERTIFICATE + alias);
assertNull("A list of CA certificates should not exist for the generated entry", caCerts);
ExportResult exportResult = mAndroidKeyStore.exportKey(Credentials.USER_PRIVATE_KEY + alias, KeymasterDefs.KM_KEY_FORMAT_X509, null, null);
assertEquals(KeyStore.NO_ERROR, exportResult.resultCode);
final byte[] pubKeyBytes = exportResult.exportData;
assertNotNull("The keystore should return the public key for the generated key", pubKeyBytes);
assertTrue("Public key X.509 format should be as expected", Arrays.equals(pubKey.getEncoded(), pubKeyBytes));
}
use of android.security.keymaster.ExportResult in project android_frameworks_base by ResurrectionRemix.
the class AndroidKeyStoreProvider method loadAndroidKeyStorePublicKeyFromKeystore.
@NonNull
public static AndroidKeyStorePublicKey loadAndroidKeyStorePublicKeyFromKeystore(@NonNull KeyStore keyStore, @NonNull String privateKeyAlias, int uid) throws UnrecoverableKeyException {
KeyCharacteristics keyCharacteristics = new KeyCharacteristics();
int errorCode = keyStore.getKeyCharacteristics(privateKeyAlias, null, null, uid, keyCharacteristics);
if (errorCode != KeyStore.NO_ERROR) {
throw (UnrecoverableKeyException) new UnrecoverableKeyException("Failed to obtain information about private key").initCause(KeyStore.getKeyStoreException(errorCode));
}
ExportResult exportResult = keyStore.exportKey(privateKeyAlias, KeymasterDefs.KM_KEY_FORMAT_X509, null, null, uid);
if (exportResult.resultCode != KeyStore.NO_ERROR) {
throw (UnrecoverableKeyException) new UnrecoverableKeyException("Failed to obtain X.509 form of public key").initCause(KeyStore.getKeyStoreException(exportResult.resultCode));
}
final byte[] x509EncodedPublicKey = exportResult.exportData;
Integer keymasterAlgorithm = keyCharacteristics.getEnum(KeymasterDefs.KM_TAG_ALGORITHM);
if (keymasterAlgorithm == null) {
throw new UnrecoverableKeyException("Key algorithm unknown");
}
String jcaKeyAlgorithm;
try {
jcaKeyAlgorithm = KeyProperties.KeyAlgorithm.fromKeymasterAsymmetricKeyAlgorithm(keymasterAlgorithm);
} catch (IllegalArgumentException e) {
throw (UnrecoverableKeyException) new UnrecoverableKeyException("Failed to load private key").initCause(e);
}
return AndroidKeyStoreProvider.getAndroidKeyStorePublicKey(privateKeyAlias, uid, jcaKeyAlgorithm, x509EncodedPublicKey);
}
use of android.security.keymaster.ExportResult in project android_frameworks_base by crdroidandroid.
the class KeyStoreTest method testExportRsa.
public void testExportRsa() throws Exception {
String name = "test";
generateRsaKey(name);
ExportResult result = mKeyStore.exportKey(name, KeymasterDefs.KM_KEY_FORMAT_X509, null, null);
assertEquals("Export success", KeyStore.NO_ERROR, result.resultCode);
// TODO: Verify we have an RSA public key that's well formed.
}
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