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android / platform / frameworks / base / 12402dafeaf2ec8255d6331d3e82028d694b87d7 / . / keystore / java / android / security / keystore / AndroidKeyStoreSpi.java
blob: 084e30ea8b5437480833802db551007ad40e1678 [file] [log] [blame]
/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.security.keystore;
import libcore.util.EmptyArray;
import android.security.Credentials;
import android.security.KeyStore;
import android.security.KeyStoreParameter;
import android.security.keymaster.KeyCharacteristics;
import android.security.keymaster.KeymasterArguments;
import android.security.keymaster.KeymasterDefs;
import android.security.keystore.KeyProperties;
import android.security.keystore.KeyProtection;
import android.util.Log;
import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.security.Key;
import java.security.KeyStore.Entry;
import java.security.KeyStore.PrivateKeyEntry;
import java.security.KeyStore.ProtectionParameter;
import java.security.KeyStore.SecretKeyEntry;
import java.security.KeyStoreException;
import java.security.KeyStoreSpi;
import java.security.NoSuchAlgorithmException;
import java.security.PrivateKey;
import java.security.PublicKey;
import java.security.UnrecoverableKeyException;
import java.security.cert.Certificate;
import java.security.cert.CertificateEncodingException;
import java.security.cert.CertificateException;
import java.security.cert.CertificateFactory;
import java.security.cert.X509Certificate;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Date;
import java.util.Enumeration;
import java.util.HashSet;
import java.util.Iterator;
import java.util.Set;
import javax.crypto.SecretKey;
/**
* A java.security.KeyStore interface for the Android KeyStore. An instance of
* it can be created via the {@link java.security.KeyStore#getInstance(String)
* KeyStore.getInstance("AndroidKeyStore")} interface. This returns a
* java.security.KeyStore backed by this "AndroidKeyStore" implementation.
* <p>
* This is built on top of Android's keystore daemon. The convention of alias
* use is:
* <p>
* PrivateKeyEntry will have a Credentials.USER_PRIVATE_KEY as the private key,
* Credentials.USER_CERTIFICATE as the first certificate in the chain (the one
* that corresponds to the private key), and then a Credentials.CA_CERTIFICATE
* entry which will have the rest of the chain concatenated in BER format.
* <p>
* TrustedCertificateEntry will just have a Credentials.CA_CERTIFICATE entry
* with a single certificate.
*
* @hide
*/
public class AndroidKeyStoreSpi extends KeyStoreSpi {
public static final String NAME = "AndroidKeyStore";
private KeyStore mKeyStore;
@Override
public Key engineGetKey(String alias, char[] password) throws NoSuchAlgorithmException,
UnrecoverableKeyException {
if (isPrivateKeyEntry(alias)) {
String privateKeyAlias = Credentials.USER_PRIVATE_KEY + alias;
return AndroidKeyStoreProvider.loadAndroidKeyStorePrivateKeyFromKeystore(
mKeyStore, privateKeyAlias);
} else if (isSecretKeyEntry(alias)) {
String secretKeyAlias = Credentials.USER_SECRET_KEY + alias;
return AndroidKeyStoreProvider.loadAndroidKeyStoreSecretKeyFromKeystore(
mKeyStore, secretKeyAlias);
} else {
// Key not found
return null;
}
}
@Override
public Certificate[] engineGetCertificateChain(String alias) {
if (alias == null) {
throw new NullPointerException("alias == null");
}
final X509Certificate leaf = (X509Certificate) engineGetCertificate(alias);
if (leaf == null) {
return null;
}
final Certificate[] caList;
final byte[] caBytes = mKeyStore.get(Credentials.CA_CERTIFICATE + alias);
if (caBytes != null) {
final Collection<X509Certificate> caChain = toCertificates(caBytes);
caList = new Certificate[caChain.size() + 1];
final Iterator<X509Certificate> it = caChain.iterator();
int i = 1;
while (it.hasNext()) {
caList[i++] = it.next();
}
} else {
caList = new Certificate[1];
}
caList[0] = leaf;
return caList;
}
@Override
public Certificate engineGetCertificate(String alias) {
if (alias == null) {
throw new NullPointerException("alias == null");
}
byte[] certificate = mKeyStore.get(Credentials.USER_CERTIFICATE + alias);
if (certificate != null) {
return wrapIntoKeyStoreCertificate(
Credentials.USER_PRIVATE_KEY + alias, toCertificate(certificate));
}
certificate = mKeyStore.get(Credentials.CA_CERTIFICATE + alias);
if (certificate != null) {
return wrapIntoKeyStoreCertificate(
Credentials.USER_PRIVATE_KEY + alias, toCertificate(certificate));
}
return null;
}
/**
* Wraps the provided cerificate into {@link KeyStoreX509Certificate} so that the public key
* returned by the certificate contains information about the alias of the private key in
* keystore. This is needed so that Android Keystore crypto operations using public keys can
* find out which key alias to use. These operations cannot work without an alias.
*/
private static KeyStoreX509Certificate wrapIntoKeyStoreCertificate(
String privateKeyAlias, X509Certificate certificate) {
return (certificate != null)
? new KeyStoreX509Certificate(privateKeyAlias, certificate) : null;
}
private static X509Certificate toCertificate(byte[] bytes) {
try {
final CertificateFactory certFactory = CertificateFactory.getInstance("X.509");
return (X509Certificate) certFactory.generateCertificate(
new ByteArrayInputStream(bytes));
} catch (CertificateException e) {
Log.w(NAME, "Couldn't parse certificate in keystore", e);
return null;
}
}
@SuppressWarnings("unchecked")
private static Collection<X509Certificate> toCertificates(byte[] bytes) {
try {
final CertificateFactory certFactory = CertificateFactory.getInstance("X.509");
return (Collection<X509Certificate>) certFactory.generateCertificates(
new ByteArrayInputStream(bytes));
} catch (CertificateException e) {
Log.w(NAME, "Couldn't parse certificates in keystore", e);
return new ArrayList<X509Certificate>();
}
}
private Date getModificationDate(String alias) {
final long epochMillis = mKeyStore.getmtime(alias);
if (epochMillis == -1L) {
return null;
}
return new Date(epochMillis);
}
@Override
public Date engineGetCreationDate(String alias) {
if (alias == null) {
throw new NullPointerException("alias == null");
}
Date d = getModificationDate(Credentials.USER_PRIVATE_KEY + alias);
if (d != null) {
return d;
}
d = getModificationDate(Credentials.USER_SECRET_KEY + alias);
if (d != null) {
return d;
}
d = getModificationDate(Credentials.USER_CERTIFICATE + alias);
if (d != null) {
return d;
}
return getModificationDate(Credentials.CA_CERTIFICATE + alias);
}
@Override
public void engineSetKeyEntry(String alias, Key key, char[] password, Certificate[] chain)
throws KeyStoreException {
if ((password != null) && (password.length > 0)) {
throw new KeyStoreException("entries cannot be protected with passwords");
}
if (key instanceof PrivateKey) {
setPrivateKeyEntry(alias, (PrivateKey) key, chain, null);
} else if (key instanceof SecretKey) {
setSecretKeyEntry(alias, (SecretKey) key, null);
} else {
throw new KeyStoreException("Only PrivateKey and SecretKey are supported");
}
}
private static KeyProtection getLegacyKeyProtectionParameter(PrivateKey key)
throws KeyStoreException {
String keyAlgorithm = key.getAlgorithm();
KeyProtection.Builder specBuilder;
if (KeyProperties.KEY_ALGORITHM_EC.equalsIgnoreCase(keyAlgorithm)) {
specBuilder =
new KeyProtection.Builder(
KeyProperties.PURPOSE_SIGN | KeyProperties.PURPOSE_VERIFY);
// Authorized to be used with any digest (including no digest).
specBuilder.setDigests(KeyProperties.DIGEST_NONE);
} else if (KeyProperties.KEY_ALGORITHM_RSA.equalsIgnoreCase(keyAlgorithm)) {
specBuilder =
new KeyProtection.Builder(
KeyProperties.PURPOSE_ENCRYPT
| KeyProperties.PURPOSE_DECRYPT
| KeyProperties.PURPOSE_SIGN
| KeyProperties.PURPOSE_VERIFY);
// Authorized to be used with any digest (including no digest).
specBuilder.setDigests(KeyProperties.DIGEST_NONE);
// Authorized to be used with any encryption and signature padding scheme (including no
// padding).
specBuilder.setEncryptionPaddings(
KeyProperties.ENCRYPTION_PADDING_NONE);
// Disable randomized encryption requirement to support encryption padding NONE
// above.
specBuilder.setRandomizedEncryptionRequired(false);
} else {
throw new KeyStoreException("Unsupported key algorithm: " + keyAlgorithm);
}
specBuilder.setUserAuthenticationRequired(false);
return specBuilder.build();
}
private void setPrivateKeyEntry(String alias, PrivateKey key, Certificate[] chain,
java.security.KeyStore.ProtectionParameter param) throws KeyStoreException {
int flags = 0;
KeyProtection spec;
if (param == null) {
spec = getLegacyKeyProtectionParameter(key);
} else if (param instanceof KeyStoreParameter) {
spec = getLegacyKeyProtectionParameter(key);
KeyStoreParameter legacySpec = (KeyStoreParameter) param;
if (legacySpec.isEncryptionRequired()) {
flags = KeyStore.FLAG_ENCRYPTED;
}
} else if (param instanceof KeyProtection) {
spec = (KeyProtection) param;
} else {
throw new KeyStoreException(
"Unsupported protection parameter class:" + param.getClass().getName()
+ ". Supported: " + KeyProtection.class.getName() + ", "
+ KeyStoreParameter.class.getName());
}
// Make sure the chain exists since this is a PrivateKey
if ((chain == null) || (chain.length == 0)) {
throw new KeyStoreException("Must supply at least one Certificate with PrivateKey");
}
// Do chain type checking.
X509Certificate[] x509chain = new X509Certificate[chain.length];
for (int i = 0; i < chain.length; i++) {
if (!"X.509".equals(chain[i].getType())) {
throw new KeyStoreException("Certificates must be in X.509 format: invalid cert #"
+ i);
}
if (!(chain[i] instanceof X509Certificate)) {
throw new KeyStoreException("Certificates must be in X.509 format: invalid cert #"
+ i);
}
x509chain[i] = (X509Certificate) chain[i];
}
final byte[] userCertBytes;
try {
userCertBytes = x509chain[0].getEncoded();
} catch (CertificateEncodingException e) {
throw new KeyStoreException("Failed to encode certificate #0", e);
}
/*
* If we have a chain, store it in the CA certificate slot for this
* alias as concatenated DER-encoded certificates. These can be
* deserialized by {@link CertificateFactory#generateCertificates}.
*/
final byte[] chainBytes;
if (chain.length > 1) {
/*
* The chain is passed in as {user_cert, ca_cert_1, ca_cert_2, ...}
* so we only need the certificates starting at index 1.
*/
final byte[][] certsBytes = new byte[x509chain.length - 1][];
int totalCertLength = 0;
for (int i = 0; i < certsBytes.length; i++) {
try {
certsBytes[i] = x509chain[i + 1].getEncoded();
totalCertLength += certsBytes[i].length;
} catch (CertificateEncodingException e) {
throw new KeyStoreException("Failed to encode certificate #" + i, e);
}
}
/*
* Serialize this into one byte array so we can later call
* CertificateFactory#generateCertificates to recover them.
*/
chainBytes = new byte[totalCertLength];
int outputOffset = 0;
for (int i = 0; i < certsBytes.length; i++) {
final int certLength = certsBytes[i].length;
System.arraycopy(certsBytes[i], 0, chainBytes, outputOffset, certLength);
outputOffset += certLength;
certsBytes[i] = null;
}
} else {
chainBytes = null;
}
final String pkeyAlias;
if (key instanceof AndroidKeyStorePrivateKey) {
pkeyAlias = ((AndroidKeyStoreKey) key).getAlias();
} else {
pkeyAlias = null;
}
byte[] pkcs8EncodedPrivateKeyBytes;
KeymasterArguments importArgs;
final boolean shouldReplacePrivateKey;
if (pkeyAlias != null && pkeyAlias.startsWith(Credentials.USER_PRIVATE_KEY)) {
final String keySubalias = pkeyAlias.substring(Credentials.USER_PRIVATE_KEY.length());
if (!alias.equals(keySubalias)) {
throw new KeyStoreException("Can only replace keys with same alias: " + alias
+ " != " + keySubalias);
}
shouldReplacePrivateKey = false;
importArgs = null;
pkcs8EncodedPrivateKeyBytes = null;
} else {
shouldReplacePrivateKey = true;
// Make sure the PrivateKey format is the one we support.
final String keyFormat = key.getFormat();
if ((keyFormat == null) || (!"PKCS#8".equals(keyFormat))) {
throw new KeyStoreException(
"Unsupported private key export format: " + keyFormat
+ ". Only private keys which export their key material in PKCS#8 format are"
+ " supported.");
}
// Make sure we can actually encode the key.
pkcs8EncodedPrivateKeyBytes = key.getEncoded();
if (pkcs8EncodedPrivateKeyBytes == null) {
throw new KeyStoreException("Private key did not export any key material");
}
importArgs = new KeymasterArguments();
try {
importArgs.addInt(KeymasterDefs.KM_TAG_ALGORITHM,
KeyProperties.KeyAlgorithm.toKeymasterAsymmetricKeyAlgorithm(
key.getAlgorithm()));
@KeyProperties.PurposeEnum int purposes = spec.getPurposes();
importArgs.addInts(KeymasterDefs.KM_TAG_PURPOSE,
KeyProperties.Purpose.allToKeymaster(purposes));
if (spec.isDigestsSpecified()) {
importArgs.addInts(KeymasterDefs.KM_TAG_DIGEST,
KeyProperties.Digest.allToKeymaster(spec.getDigests()));
}
importArgs.addInts(KeymasterDefs.KM_TAG_BLOCK_MODE,
KeyProperties.BlockMode.allToKeymaster(spec.getBlockModes()));
int[] keymasterEncryptionPaddings =
KeyProperties.EncryptionPadding.allToKeymaster(
spec.getEncryptionPaddings());
if (((purposes & KeyProperties.PURPOSE_ENCRYPT) != 0)
&& (spec.isRandomizedEncryptionRequired())) {
for (int keymasterPadding : keymasterEncryptionPaddings) {
if (!KeymasterUtils
.isKeymasterPaddingSchemeIndCpaCompatibleWithAsymmetricCrypto(
keymasterPadding)) {
throw new KeyStoreException(
"Randomized encryption (IND-CPA) required but is violated by"
+ " encryption padding mode: "
+ KeyProperties.EncryptionPadding.fromKeymaster(
keymasterPadding)
+ ". See KeyProtection documentation.");
}
}
}
importArgs.addInts(KeymasterDefs.KM_TAG_PADDING, keymasterEncryptionPaddings);
importArgs.addInts(KeymasterDefs.KM_TAG_PADDING,
KeyProperties.SignaturePadding.allToKeymaster(spec.getSignaturePaddings()));
KeymasterUtils.addUserAuthArgs(importArgs,
spec.isUserAuthenticationRequired(),
spec.getUserAuthenticationValidityDurationSeconds());
importArgs.addDateIfNotNull(KeymasterDefs.KM_TAG_ACTIVE_DATETIME,
spec.getKeyValidityStart());
importArgs.addDateIfNotNull(KeymasterDefs.KM_TAG_ORIGINATION_EXPIRE_DATETIME,
spec.getKeyValidityForOriginationEnd());
importArgs.addDateIfNotNull(KeymasterDefs.KM_TAG_USAGE_EXPIRE_DATETIME,
spec.getKeyValidityForConsumptionEnd());
} catch (IllegalArgumentException e) {
throw new KeyStoreException("Invalid parameter", e);
}
}
boolean success = false;
try {
// Store the private key, if necessary
if (shouldReplacePrivateKey) {
// Delete the stored private key and any related entries before importing the
// provided key
Credentials.deleteAllTypesForAlias(mKeyStore, alias);
KeyCharacteristics resultingKeyCharacteristics = new KeyCharacteristics();
int errorCode = mKeyStore.importKey(
Credentials.USER_PRIVATE_KEY + alias,
importArgs,
KeymasterDefs.KM_KEY_FORMAT_PKCS8,
pkcs8EncodedPrivateKeyBytes,
flags,
resultingKeyCharacteristics);
if (errorCode != KeyStore.NO_ERROR) {
throw new KeyStoreException("Failed to store private key",
KeyStore.getKeyStoreException(errorCode));
}
} else {
// Keep the stored private key around -- delete all other entry types
Credentials.deleteCertificateTypesForAlias(mKeyStore, alias);
Credentials.deleteSecretKeyTypeForAlias(mKeyStore, alias);
}
// Store the leaf certificate
int errorCode = mKeyStore.insert(Credentials.USER_CERTIFICATE + alias, userCertBytes,
KeyStore.UID_SELF, flags);
if (errorCode != KeyStore.NO_ERROR) {
throw new KeyStoreException("Failed to store certificate #0",
KeyStore.getKeyStoreException(errorCode));
}
// Store the certificate chain
errorCode = mKeyStore.insert(Credentials.CA_CERTIFICATE + alias, chainBytes,
KeyStore.UID_SELF, flags);
if (errorCode != KeyStore.NO_ERROR) {
throw new KeyStoreException("Failed to store certificate chain",
KeyStore.getKeyStoreException(errorCode));
}
success = true;
} finally {
if (!success) {
if (shouldReplacePrivateKey) {
Credentials.deleteAllTypesForAlias(mKeyStore, alias);
} else {
Credentials.deleteCertificateTypesForAlias(mKeyStore, alias);
Credentials.deleteSecretKeyTypeForAlias(mKeyStore, alias);
}
}
}
}
private void setSecretKeyEntry(String entryAlias, SecretKey key,
java.security.KeyStore.ProtectionParameter param)
throws KeyStoreException {
if ((param != null) && (!(param instanceof KeyProtection))) {
throw new KeyStoreException(
"Unsupported protection parameter class: " + param.getClass().getName()
+ ". Supported: " + KeyProtection.class.getName());
}
KeyProtection params = (KeyProtection) param;
if (key instanceof AndroidKeyStoreSecretKey) {
// KeyStore-backed secret key. It cannot be duplicated into another entry and cannot
// overwrite its own entry.
String keyAliasInKeystore = ((AndroidKeyStoreSecretKey) key).getAlias();
if (keyAliasInKeystore == null) {
throw new KeyStoreException("KeyStore-backed secret key does not have an alias");
}
if (!keyAliasInKeystore.startsWith(Credentials.USER_SECRET_KEY)) {
throw new KeyStoreException("KeyStore-backed secret key has invalid alias: "
+ keyAliasInKeystore);
}
String keyEntryAlias =
keyAliasInKeystore.substring(Credentials.USER_SECRET_KEY.length());
if (!entryAlias.equals(keyEntryAlias)) {
throw new KeyStoreException("Can only replace KeyStore-backed keys with same"
+ " alias: " + entryAlias + " != " + keyEntryAlias);
}
// This is the entry where this key is already stored. No need to do anything.
if (params != null) {
throw new KeyStoreException("Modifying KeyStore-backed key using protection"
+ " parameters not supported");
}
return;
}
if (params == null) {
throw new KeyStoreException(
"Protection parameters must be specified when importing a symmetric key");
}
// Not a KeyStore-backed secret key -- import its key material into keystore.
String keyExportFormat = key.getFormat();
if (keyExportFormat == null) {
throw new KeyStoreException(
"Only secret keys that export their key material are supported");
} else if (!"RAW".equals(keyExportFormat)) {
throw new KeyStoreException(
"Unsupported secret key material export format: " + keyExportFormat);
}
byte[] keyMaterial = key.getEncoded();
if (keyMaterial == null) {
throw new KeyStoreException("Key did not export its key material despite supporting"
+ " RAW format export");
}
String keyAlgorithmString = key.getAlgorithm();
int keymasterAlgorithm;
int keymasterDigest;
try {
keymasterAlgorithm =
KeyProperties.KeyAlgorithm.toKeymasterSecretKeyAlgorithm(keyAlgorithmString);
keymasterDigest = KeyProperties.KeyAlgorithm.toKeymasterDigest(keyAlgorithmString);
} catch (IllegalArgumentException e) {
throw new KeyStoreException("Unsupported secret key algorithm: " + keyAlgorithmString);
}
KeymasterArguments args = new KeymasterArguments();
args.addInt(KeymasterDefs.KM_TAG_ALGORITHM, keymasterAlgorithm);
int[] keymasterDigests;
if (params.isDigestsSpecified()) {
// Digest(s) specified in parameters
keymasterDigests = KeyProperties.Digest.allToKeymaster(params.getDigests());
if (keymasterDigest != -1) {
// Digest also specified in the JCA key algorithm name.
if (!com.android.internal.util.ArrayUtils.contains(
keymasterDigests, keymasterDigest)) {
throw new KeyStoreException("Key digest mismatch"
+ ". Key: " + keyAlgorithmString
+ ", parameter spec: " + Arrays.asList(params.getDigests()));
}
// When the key is read back from keystore we reconstruct the JCA key algorithm
// name from the KM_TAG_ALGORITHM and the first KM_TAG_DIGEST. Thus we need to
// ensure that the digest reflected in the JCA key algorithm name is the first
// KM_TAG_DIGEST tag.
if (keymasterDigests[0] != keymasterDigest) {
// The first digest is not the one implied by the JCA key algorithm name.
// Swap the implied digest with the first one.
for (int i = 0; i < keymasterDigests.length; i++) {
if (keymasterDigests[i] == keymasterDigest) {
keymasterDigests[i] = keymasterDigests[0];
keymasterDigests[0] = keymasterDigest;
break;
}
}
}
}
} else {
// No digest specified in parameters
if (keymasterDigest != -1) {
// Digest specified in the JCA key algorithm name.
keymasterDigests = new int[] {keymasterDigest};
} else {
keymasterDigests = EmptyArray.INT;
}
}
args.addInts(KeymasterDefs.KM_TAG_DIGEST, keymasterDigests);
if (keymasterAlgorithm == KeymasterDefs.KM_ALGORITHM_HMAC) {
if (keymasterDigests.length == 0) {
throw new KeyStoreException("At least one digest algorithm must be specified"
+ " for key algorithm " + keyAlgorithmString);
}
}
@KeyProperties.PurposeEnum int purposes = params.getPurposes();
int[] keymasterBlockModes =
KeyProperties.BlockMode.allToKeymaster(params.getBlockModes());
if (((purposes & KeyProperties.PURPOSE_ENCRYPT) != 0)
&& (params.isRandomizedEncryptionRequired())) {
for (int keymasterBlockMode : keymasterBlockModes) {
if (!KeymasterUtils.isKeymasterBlockModeIndCpaCompatibleWithSymmetricCrypto(
keymasterBlockMode)) {
throw new KeyStoreException(
"Randomized encryption (IND-CPA) required but may be violated by block"
+ " mode: "
+ KeyProperties.BlockMode.fromKeymaster(keymasterBlockMode)
+ ". See KeyProtection documentation.");
}
}
}
args.addInts(KeymasterDefs.KM_TAG_PURPOSE, KeyProperties.Purpose.allToKeymaster(purposes));
args.addInts(KeymasterDefs.KM_TAG_BLOCK_MODE, keymasterBlockModes);
if (params.getSignaturePaddings().length > 0) {
throw new KeyStoreException("Signature paddings not supported for symmetric keys");
}
int[] keymasterPaddings = KeyProperties.EncryptionPadding.allToKeymaster(
params.getEncryptionPaddings());
args.addInts(KeymasterDefs.KM_TAG_PADDING, keymasterPaddings);
KeymasterUtils.addUserAuthArgs(args,
params.isUserAuthenticationRequired(),
params.getUserAuthenticationValidityDurationSeconds());
args.addDateIfNotNull(KeymasterDefs.KM_TAG_ACTIVE_DATETIME, params.getKeyValidityStart());
args.addDateIfNotNull(KeymasterDefs.KM_TAG_ORIGINATION_EXPIRE_DATETIME,
params.getKeyValidityForOriginationEnd());
args.addDateIfNotNull(KeymasterDefs.KM_TAG_USAGE_EXPIRE_DATETIME,
params.getKeyValidityForConsumptionEnd());
if (((purposes & KeyProperties.PURPOSE_ENCRYPT) != 0)
&& (!params.isRandomizedEncryptionRequired())) {
// Permit caller-provided IV when encrypting with this key
args.addBoolean(KeymasterDefs.KM_TAG_CALLER_NONCE);
}
Credentials.deleteAllTypesForAlias(mKeyStore, entryAlias);
String keyAliasInKeystore = Credentials.USER_SECRET_KEY + entryAlias;
int errorCode = mKeyStore.importKey(
keyAliasInKeystore,
args,
KeymasterDefs.KM_KEY_FORMAT_RAW,
keyMaterial,
0, // flags
new KeyCharacteristics());
if (errorCode != KeyStore.NO_ERROR) {
throw new KeyStoreException("Failed to import secret key. Keystore error code: "
+ errorCode);
}
}
@Override
public void engineSetKeyEntry(String alias, byte[] userKey, Certificate[] chain)
throws KeyStoreException {
throw new KeyStoreException("Operation not supported because key encoding is unknown");
}
@Override
public void engineSetCertificateEntry(String alias, Certificate cert) throws KeyStoreException {
if (isKeyEntry(alias)) {
throw new KeyStoreException("Entry exists and is not a trusted certificate");
}
// We can't set something to null.
if (cert == null) {
throw new NullPointerException("cert == null");
}
final byte[] encoded;
try {
encoded = cert.getEncoded();
} catch (CertificateEncodingException e) {
throw new KeyStoreException(e);
}
if (!mKeyStore.put(Credentials.CA_CERTIFICATE + alias, encoded,
KeyStore.UID_SELF, KeyStore.FLAG_NONE)) {
throw new KeyStoreException("Couldn't insert certificate; is KeyStore initialized?");
}
}
@Override
public void engineDeleteEntry(String alias) throws KeyStoreException {
if (!engineContainsAlias(alias)) {
return;
}
// At least one entry corresponding to this alias exists in keystore
if (!Credentials.deleteAllTypesForAlias(mKeyStore, alias)) {
throw new KeyStoreException("Failed to delete entry: " + alias);
}
}
private Set<String> getUniqueAliases() {
final String[] rawAliases = mKeyStore.list("");
if (rawAliases == null) {
return new HashSet<String>();
}
final Set<String> aliases = new HashSet<String>(rawAliases.length);
for (String alias : rawAliases) {
final int idx = alias.indexOf('_');
if ((idx == -1) || (alias.length() <= idx)) {
Log.e(NAME, "invalid alias: " + alias);
continue;
}
aliases.add(new String(alias.substring(idx + 1)));
}
return aliases;
}
@Override
public Enumeration<String> engineAliases() {
return Collections.enumeration(getUniqueAliases());
}
@Override
public boolean engineContainsAlias(String alias) {
if (alias == null) {
throw new NullPointerException("alias == null");
}
return mKeyStore.contains(Credentials.USER_PRIVATE_KEY + alias)
|| mKeyStore.contains(Credentials.USER_SECRET_KEY + alias)
|| mKeyStore.contains(Credentials.USER_CERTIFICATE + alias)
|| mKeyStore.contains(Credentials.CA_CERTIFICATE + alias);
}
@Override
public int engineSize() {
return getUniqueAliases().size();
}
@Override
public boolean engineIsKeyEntry(String alias) {
return isKeyEntry(alias);
}
private boolean isKeyEntry(String alias) {
return isPrivateKeyEntry(alias) || isSecretKeyEntry(alias);
}
private boolean isPrivateKeyEntry(String alias) {
if (alias == null) {
throw new NullPointerException("alias == null");
}
return mKeyStore.contains(Credentials.USER_PRIVATE_KEY + alias);
}
private boolean isSecretKeyEntry(String alias) {
if (alias == null) {
throw new NullPointerException("alias == null");
}
return mKeyStore.contains(Credentials.USER_SECRET_KEY + alias);
}
private boolean isCertificateEntry(String alias) {
if (alias == null) {
throw new NullPointerException("alias == null");
}
return mKeyStore.contains(Credentials.CA_CERTIFICATE + alias);
}
@Override
public boolean engineIsCertificateEntry(String alias) {
return !isKeyEntry(alias) && isCertificateEntry(alias);
}
@Override
public String engineGetCertificateAlias(Certificate cert) {
if (cert == null) {
return null;
}
if (!"X.509".equalsIgnoreCase(cert.getType())) {
// Only X.509 certificates supported
return null;
}
byte[] targetCertBytes;
try {
targetCertBytes = cert.getEncoded();
} catch (CertificateEncodingException e) {
return null;
}
if (targetCertBytes == null) {
return null;
}
final Set<String> nonCaEntries = new HashSet<String>();
/*
* First scan the PrivateKeyEntry types. The KeyStoreSpi documentation
* says to only compare the first certificate in the chain which is
* equivalent to the USER_CERTIFICATE prefix for the Android keystore
* convention.
*/
final String[] certAliases = mKeyStore.list(Credentials.USER_CERTIFICATE);
if (certAliases != null) {
for (String alias : certAliases) {
final byte[] certBytes = mKeyStore.get(Credentials.USER_CERTIFICATE + alias);
if (certBytes == null) {
continue;
}
nonCaEntries.add(alias);
if (Arrays.equals(certBytes, targetCertBytes)) {
return alias;
}
}
}
/*
* Look at all the TrustedCertificateEntry types. Skip all the
* PrivateKeyEntry we looked at above.
*/
final String[] caAliases = mKeyStore.list(Credentials.CA_CERTIFICATE);
if (certAliases != null) {
for (String alias : caAliases) {
if (nonCaEntries.contains(alias)) {
continue;
}
final byte[] certBytes = mKeyStore.get(Credentials.CA_CERTIFICATE + alias);
if (certBytes == null) {
continue;
}
if (Arrays.equals(certBytes, targetCertBytes)) {
return alias;
}
}
}
return null;
}
@Override
public void engineStore(OutputStream stream, char[] password) throws IOException,
NoSuchAlgorithmException, CertificateException {
throw new UnsupportedOperationException("Can not serialize AndroidKeyStore to OutputStream");
}
@Override
public void engineLoad(InputStream stream, char[] password) throws IOException,
NoSuchAlgorithmException, CertificateException {
if (stream != null) {
throw new IllegalArgumentException("InputStream not supported");
}
if (password != null) {
throw new IllegalArgumentException("password not supported");
}
// Unfortunate name collision.
mKeyStore = KeyStore.getInstance();
}
@Override
public void engineSetEntry(String alias, Entry entry, ProtectionParameter param)
throws KeyStoreException {
if (entry == null) {
throw new KeyStoreException("entry == null");
}
Credentials.deleteAllTypesForAlias(mKeyStore, alias);
if (entry instanceof java.security.KeyStore.TrustedCertificateEntry) {
java.security.KeyStore.TrustedCertificateEntry trE =
(java.security.KeyStore.TrustedCertificateEntry) entry;
engineSetCertificateEntry(alias, trE.getTrustedCertificate());
return;
}
if (entry instanceof PrivateKeyEntry) {
PrivateKeyEntry prE = (PrivateKeyEntry) entry;
setPrivateKeyEntry(alias, prE.getPrivateKey(), prE.getCertificateChain(), param);
} else if (entry instanceof SecretKeyEntry) {
SecretKeyEntry secE = (SecretKeyEntry) entry;
setSecretKeyEntry(alias, secE.getSecretKey(), param);
} else {
throw new KeyStoreException(
"Entry must be a PrivateKeyEntry, SecretKeyEntry or TrustedCertificateEntry"
+ "; was " + entry);
}
}
/**
* {@link X509Certificate} which returns {@link AndroidKeyStorePublicKey} from
* {@link #getPublicKey()}. This is so that crypto operations on these public keys contain
* can find out which keystore private key entry to use. This is needed so that Android Keystore
* crypto operations using public keys can find out which key alias to use. These operations
* require an alias.
*/
static class KeyStoreX509Certificate extends DelegatingX509Certificate {
private final String mPrivateKeyAlias;
KeyStoreX509Certificate(String privateKeyAlias, X509Certificate delegate) {
super(delegate);
mPrivateKeyAlias = privateKeyAlias;
}
@Override
public PublicKey getPublicKey() {
PublicKey original = super.getPublicKey();
return AndroidKeyStoreProvider.getAndroidKeyStorePublicKey(
mPrivateKeyAlias, original.getAlgorithm(), original.getEncoded());
}
}
}