/* * Copyright (C) 2011 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; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.WorkerThread; import android.app.Activity; import android.app.PendingIntent; import android.app.Service; import android.content.ComponentName; import android.content.Context; import android.content.Intent; import android.content.ServiceConnection; import android.net.Uri; import android.os.IBinder; import android.os.Looper; import android.os.Process; import android.os.RemoteException; import android.os.UserHandle; import android.security.keystore.AndroidKeyStoreProvider; import android.security.keystore.KeyProperties; import java.io.ByteArrayInputStream; import java.io.Closeable; import java.security.Principal; import java.security.PrivateKey; import java.security.UnrecoverableKeyException; import java.security.cert.Certificate; import java.security.cert.CertificateException; import java.security.cert.CertificateFactory; import java.security.cert.X509Certificate; import java.util.ArrayList; import java.util.Collection; import java.util.List; import java.util.Locale; import java.util.concurrent.BlockingQueue; import java.util.concurrent.LinkedBlockingQueue; import com.android.org.conscrypt.TrustedCertificateStore; /** * The {@code KeyChain} class provides access to private keys and * their corresponding certificate chains in credential storage. * *

Applications accessing the {@code KeyChain} normally go through * these steps: * *

    * *
  1. Receive a callback from an {@link javax.net.ssl.X509KeyManager * X509KeyManager} that a private key is requested. * *
  2. Call {@link #choosePrivateKeyAlias * choosePrivateKeyAlias} to allow the user to select from a * list of currently available private keys and corresponding * certificate chains. The chosen alias will be returned by the * callback {@link KeyChainAliasCallback#alias}, or null if no private * key is available or the user cancels the request. * *
  3. Call {@link #getPrivateKey} and {@link #getCertificateChain} to * retrieve the credentials to return to the corresponding {@link * javax.net.ssl.X509KeyManager} callbacks. * *
* *

An application may remember the value of a selected alias to * avoid prompting the user with {@link #choosePrivateKeyAlias * choosePrivateKeyAlias} on subsequent connections. If the alias is * no longer valid, null will be returned on lookups using that value * *

An application can request the installation of private keys and * certificates via the {@code Intent} provided by {@link * #createInstallIntent}. Private keys installed via this {@code * Intent} will be accessible via {@link #choosePrivateKeyAlias} while * Certificate Authority (CA) certificates will be trusted by all * applications through the default {@code X509TrustManager}. */ // TODO reference intent for credential installation when public public final class KeyChain { /** * @hide Also used by KeyChainService implementation */ public static final String ACCOUNT_TYPE = "com.android.keychain"; /** * Package name for KeyChain chooser. */ private static final String KEYCHAIN_PACKAGE = "com.android.keychain"; /** * Action to bring up the KeyChainActivity */ private static final String ACTION_CHOOSER = "com.android.keychain.CHOOSER"; /** * Package name for the Certificate Installer. */ private static final String CERT_INSTALLER_PACKAGE = "com.android.certinstaller"; /** * Extra for use with {@link #ACTION_CHOOSER} * @hide Also used by KeyChainActivity implementation */ public static final String EXTRA_RESPONSE = "response"; /** * Extra for use with {@link #ACTION_CHOOSER} * @hide Also used by KeyChainActivity implementation */ public static final String EXTRA_URI = "uri"; /** * Extra for use with {@link #ACTION_CHOOSER} * @hide Also used by KeyChainActivity implementation */ public static final String EXTRA_ALIAS = "alias"; /** * Extra for use with {@link #ACTION_CHOOSER} * @hide Also used by KeyChainActivity implementation */ public static final String EXTRA_SENDER = "sender"; /** * Action to bring up the CertInstaller. */ private static final String ACTION_INSTALL = "android.credentials.INSTALL"; /** * Optional extra to specify a {@code String} credential name on * the {@code Intent} returned by {@link #createInstallIntent}. */ // Compatible with old com.android.certinstaller.CredentialHelper.CERT_NAME_KEY public static final String EXTRA_NAME = "name"; /** * Optional extra to specify an X.509 certificate to install on * the {@code Intent} returned by {@link #createInstallIntent}. * The extra value should be a PEM or ASN.1 DER encoded {@code * byte[]}. An {@link X509Certificate} can be converted to DER * encoded bytes with {@link X509Certificate#getEncoded}. * *

{@link #EXTRA_NAME} may be used to provide a default alias * name for the installed certificate. */ // Compatible with old android.security.Credentials.CERTIFICATE public static final String EXTRA_CERTIFICATE = "CERT"; /** * Optional extra for use with the {@code Intent} returned by * {@link #createInstallIntent} to specify a PKCS#12 key store to * install. The extra value should be a {@code byte[]}. The bytes * may come from an external source or be generated with {@link * java.security.KeyStore#store} on a "PKCS12" instance. * *

The user will be prompted for the password to load the key store. * *

The key store will be scanned for {@link * java.security.KeyStore.PrivateKeyEntry} entries and both the * private key and associated certificate chain will be installed. * *

{@link #EXTRA_NAME} may be used to provide a default alias * name for the installed credentials. */ // Compatible with old android.security.Credentials.PKCS12 public static final String EXTRA_PKCS12 = "PKCS12"; /** * Broadcast Action: Indicates the trusted storage has changed. Sent when * one of this happens: * *

*/ public static final String ACTION_STORAGE_CHANGED = "android.security.STORAGE_CHANGED"; /** * Returns an {@code Intent} that can be used for credential * installation. The intent may be used without any extras, in * which case the user will be able to install credentials from * their own source. * *

Alternatively, {@link #EXTRA_CERTIFICATE} or {@link * #EXTRA_PKCS12} maybe used to specify the bytes of an X.509 * certificate or a PKCS#12 key store for installation. These * extras may be combined with {@link #EXTRA_NAME} to provide a * default alias name for credentials being installed. * *

When used with {@link Activity#startActivityForResult}, * {@link Activity#RESULT_OK} will be returned if a credential was * successfully installed, otherwise {@link * Activity#RESULT_CANCELED} will be returned. */ @NonNull public static Intent createInstallIntent() { Intent intent = new Intent(ACTION_INSTALL); intent.setClassName(CERT_INSTALLER_PACKAGE, "com.android.certinstaller.CertInstallerMain"); return intent; } /** * Launches an {@code Activity} for the user to select the alias * for a private key and certificate pair for authentication. The * selected alias or null will be returned via the * KeyChainAliasCallback callback. * *

The device or profile owner can intercept this before the activity * is shown, to pick a specific private key alias. * *

{@code keyTypes} and {@code issuers} may be used to * highlight suggested choices to the user, although to cope with * sometimes erroneous values provided by servers, the user may be * able to override these suggestions. * *

{@code host} and {@code port} may be used to give the user * more context about the server requesting the credentials. * *

{@code alias} allows the chooser to preselect an existing * alias which will still be subject to user confirmation. * * @param activity The {@link Activity} context to use for * launching the new sub-Activity to prompt the user to select * a private key; used only to call startActivity(); must not * be null. * @param response Callback to invoke when the request completes; * must not be null * @param keyTypes The acceptable types of asymmetric keys such as * "RSA" or "DSA", or a null array. * @param issuers The acceptable certificate issuers for the * certificate matching the private key, or null. * @param host The host name of the server requesting the * certificate, or null if unavailable. * @param port The port number of the server requesting the * certificate, or -1 if unavailable. * @param alias The alias to preselect if available, or null if * unavailable. */ public static void choosePrivateKeyAlias(@NonNull Activity activity, @NonNull KeyChainAliasCallback response, @KeyProperties.KeyAlgorithmEnum String[] keyTypes, Principal[] issuers, @Nullable String host, int port, @Nullable String alias) { Uri uri = null; if (host != null) { uri = new Uri.Builder() .authority(host + (port != -1 ? ":" + port : "")) .build(); } choosePrivateKeyAlias(activity, response, keyTypes, issuers, uri, alias); } /** * Launches an {@code Activity} for the user to select the alias * for a private key and certificate pair for authentication. The * selected alias or null will be returned via the * KeyChainAliasCallback callback. * *

The device or profile owner can intercept this before the activity * is shown, to pick a specific private key alias.

* *

{@code keyTypes} and {@code issuers} may be used to * highlight suggested choices to the user, although to cope with * sometimes erroneous values provided by servers, the user may be * able to override these suggestions. * *

{@code host} and {@code port} may be used to give the user * more context about the server requesting the credentials. * *

{@code alias} allows the chooser to preselect an existing * alias which will still be subject to user confirmation. * * @param activity The {@link Activity} context to use for * launching the new sub-Activity to prompt the user to select * a private key; used only to call startActivity(); must not * be null. * @param response Callback to invoke when the request completes; * must not be null * @param keyTypes The acceptable types of asymmetric keys such as * "EC" or "RSA", or a null array. * @param issuers The acceptable certificate issuers for the * certificate matching the private key, or null. * @param uri The full URI the server is requesting the certificate * for, or null if unavailable. * @param alias The alias to preselect if available, or null if * unavailable. */ public static void choosePrivateKeyAlias(@NonNull Activity activity, @NonNull KeyChainAliasCallback response, @KeyProperties.KeyAlgorithmEnum String[] keyTypes, Principal[] issuers, @Nullable Uri uri, @Nullable String alias) { /* * TODO currently keyTypes, issuers are unused. They are meant * to follow the semantics and purpose of X509KeyManager * method arguments. * * keyTypes would allow the list to be filtered and typically * will be set correctly by the server. In practice today, * most all users will want only RSA or EC, and usually * only a small number of certs will be available. * * issuers is typically not useful. Some servers historically * will send the entire list of public CAs known to the * server. Others will send none. If this is used, if there * are no matches after applying the constraint, it should be * ignored. */ if (activity == null) { throw new NullPointerException("activity == null"); } if (response == null) { throw new NullPointerException("response == null"); } Intent intent = new Intent(ACTION_CHOOSER); intent.setPackage(KEYCHAIN_PACKAGE); intent.putExtra(EXTRA_RESPONSE, new AliasResponse(response)); intent.putExtra(EXTRA_URI, uri); intent.putExtra(EXTRA_ALIAS, alias); // the PendingIntent is used to get calling package name intent.putExtra(EXTRA_SENDER, PendingIntent.getActivity(activity, 0, new Intent(), 0)); activity.startActivity(intent); } private static class AliasResponse extends IKeyChainAliasCallback.Stub { private final KeyChainAliasCallback keyChainAliasResponse; private AliasResponse(KeyChainAliasCallback keyChainAliasResponse) { this.keyChainAliasResponse = keyChainAliasResponse; } @Override public void alias(String alias) { keyChainAliasResponse.alias(alias); } } /** * Returns the {@code PrivateKey} for the requested alias, or null * if there is no result. * *

This method may block while waiting for a connection to another process, and must never * be called from the main thread. *

As {@link Activity} and {@link Service} contexts are short-lived and can be destroyed * at any time from the main thread, it is safer to rely on a long-lived context such as one * returned from {@link Context#getApplicationContext()}. * * @param alias The alias of the desired private key, typically returned via * {@link KeyChainAliasCallback#alias}. * @throws KeyChainException if the alias was valid but there was some problem accessing it. * @throws IllegalStateException if called from the main thread. */ @Nullable @WorkerThread public static PrivateKey getPrivateKey(@NonNull Context context, @NonNull String alias) throws KeyChainException, InterruptedException { if (alias == null) { throw new NullPointerException("alias == null"); } KeyChainConnection keyChainConnection = bind(context.getApplicationContext()); try { final IKeyChainService keyChainService = keyChainConnection.getService(); final String keyId = keyChainService.requestPrivateKey(alias); if (keyId == null) { return null; } return AndroidKeyStoreProvider.loadAndroidKeyStorePrivateKeyFromKeystore( KeyStore.getInstance(), keyId, KeyStore.UID_SELF); } catch (RemoteException e) { throw new KeyChainException(e); } catch (RuntimeException e) { // only certain RuntimeExceptions can be propagated across the IKeyChainService call throw new KeyChainException(e); } catch (UnrecoverableKeyException e) { throw new KeyChainException(e); } finally { keyChainConnection.close(); } } /** * Returns the {@code X509Certificate} chain for the requested * alias, or null if there is no result. *

* Note: If a certificate chain was explicitly specified when the alias was * installed, this method will return that chain. If only the client certificate was specified * at the installation time, this method will try to build a certificate chain using all * available trust anchors (preinstalled and user-added). * *

This method may block while waiting for a connection to another process, and must never * be called from the main thread. *

As {@link Activity} and {@link Service} contexts are short-lived and can be destroyed * at any time from the main thread, it is safer to rely on a long-lived context such as one * returned from {@link Context#getApplicationContext()}. * * @param alias The alias of the desired certificate chain, typically * returned via {@link KeyChainAliasCallback#alias}. * @throws KeyChainException if the alias was valid but there was some problem accessing it. * @throws IllegalStateException if called from the main thread. */ @Nullable @WorkerThread public static X509Certificate[] getCertificateChain(@NonNull Context context, @NonNull String alias) throws KeyChainException, InterruptedException { if (alias == null) { throw new NullPointerException("alias == null"); } KeyChainConnection keyChainConnection = bind(context.getApplicationContext()); try { IKeyChainService keyChainService = keyChainConnection.getService(); final byte[] certificateBytes = keyChainService.getCertificate(alias); if (certificateBytes == null) { return null; } X509Certificate leafCert = toCertificate(certificateBytes); final byte[] certChainBytes = keyChainService.getCaCertificates(alias); // If the keypair is installed with a certificate chain by either // DevicePolicyManager.installKeyPair or CertInstaller, return that chain. if (certChainBytes != null && certChainBytes.length != 0) { Collection chain = toCertificates(certChainBytes); ArrayList fullChain = new ArrayList<>(chain.size() + 1); fullChain.add(leafCert); fullChain.addAll(chain); return fullChain.toArray(new X509Certificate[fullChain.size()]); } else { // If there isn't a certificate chain, either due to a pre-existing keypair // installed before N, or no chain is explicitly installed under the new logic, // fall back to old behavior of constructing the chain from trusted credentials. // // This logic exists to maintain old behaviour for already installed keypair, at // the cost of potentially returning extra certificate chain for new clients who // explicitly installed only the client certificate without a chain. The latter // case is actually no different from pre-N behaviour of getCertificateChain(), // in that sense this change introduces no regression. Besides the returned chain // is still valid so the consumer of the chain should have no problem verifying it. TrustedCertificateStore store = new TrustedCertificateStore(); List chain = store.getCertificateChain(leafCert); return chain.toArray(new X509Certificate[chain.size()]); } } catch (CertificateException e) { throw new KeyChainException(e); } catch (RemoteException e) { throw new KeyChainException(e); } catch (RuntimeException e) { // only certain RuntimeExceptions can be propagated across the IKeyChainService call throw new KeyChainException(e); } finally { keyChainConnection.close(); } } /** * Returns {@code true} if the current device's {@code KeyChain} supports a * specific {@code PrivateKey} type indicated by {@code algorithm} (e.g., * "RSA"). */ public static boolean isKeyAlgorithmSupported( @NonNull @KeyProperties.KeyAlgorithmEnum String algorithm) { final String algUpper = algorithm.toUpperCase(Locale.US); return KeyProperties.KEY_ALGORITHM_EC.equals(algUpper) || KeyProperties.KEY_ALGORITHM_RSA.equals(algUpper); } /** * Returns {@code true} if the current device's {@code KeyChain} binds any * {@code PrivateKey} of the given {@code algorithm} to the device once * imported or generated. This can be used to tell if there is special * hardware support that can be used to bind keys to the device in a way * that makes it non-exportable. * * @deprecated Whether the key is bound to the secure hardware is known only * once the key has been imported. To find out, use: *

{@code
     * PrivateKey key = ...; // private key from KeyChain
     *
     * KeyFactory keyFactory =
     *     KeyFactory.getInstance(key.getAlgorithm(), "AndroidKeyStore");
     * KeyInfo keyInfo = keyFactory.getKeySpec(key, KeyInfo.class);
     * if (keyInfo.isInsideSecureHardware()) {
     *     // The key is bound to the secure hardware of this Android
     * }}
*/ @Deprecated public static boolean isBoundKeyAlgorithm( @NonNull @KeyProperties.KeyAlgorithmEnum String algorithm) { if (!isKeyAlgorithmSupported(algorithm)) { return false; } return KeyStore.getInstance().isHardwareBacked(algorithm); } /** @hide */ @NonNull public static X509Certificate toCertificate(@NonNull byte[] bytes) { if (bytes == null) { throw new IllegalArgumentException("bytes == null"); } try { CertificateFactory certFactory = CertificateFactory.getInstance("X.509"); Certificate cert = certFactory.generateCertificate(new ByteArrayInputStream(bytes)); return (X509Certificate) cert; } catch (CertificateException e) { throw new AssertionError(e); } } /** @hide */ @NonNull public static Collection toCertificates(@NonNull byte[] bytes) { if (bytes == null) { throw new IllegalArgumentException("bytes == null"); } try { CertificateFactory certFactory = CertificateFactory.getInstance("X.509"); return (Collection) certFactory.generateCertificates( new ByteArrayInputStream(bytes)); } catch (CertificateException e) { throw new AssertionError(e); } } /** * @hide for reuse by CertInstaller and Settings. * @see KeyChain#bind */ public final static class KeyChainConnection implements Closeable { private final Context context; private final ServiceConnection serviceConnection; private final IKeyChainService service; private KeyChainConnection(Context context, ServiceConnection serviceConnection, IKeyChainService service) { this.context = context; this.serviceConnection = serviceConnection; this.service = service; } @Override public void close() { context.unbindService(serviceConnection); } public IKeyChainService getService() { return service; } } /** * @hide for reuse by CertInstaller and Settings. * * Caller should call unbindService on the result when finished. */ @WorkerThread public static KeyChainConnection bind(@NonNull Context context) throws InterruptedException { return bindAsUser(context, Process.myUserHandle()); } /** * @hide */ @WorkerThread public static KeyChainConnection bindAsUser(@NonNull Context context, UserHandle user) throws InterruptedException { if (context == null) { throw new NullPointerException("context == null"); } ensureNotOnMainThread(context); final BlockingQueue q = new LinkedBlockingQueue(1); ServiceConnection keyChainServiceConnection = new ServiceConnection() { volatile boolean mConnectedAtLeastOnce = false; @Override public void onServiceConnected(ComponentName name, IBinder service) { if (!mConnectedAtLeastOnce) { mConnectedAtLeastOnce = true; try { q.put(IKeyChainService.Stub.asInterface(service)); } catch (InterruptedException e) { // will never happen, since the queue starts with one available slot } } } @Override public void onServiceDisconnected(ComponentName name) {} }; Intent intent = new Intent(IKeyChainService.class.getName()); ComponentName comp = intent.resolveSystemService(context.getPackageManager(), 0); intent.setComponent(comp); if (comp == null || !context.bindServiceAsUser( intent, keyChainServiceConnection, Context.BIND_AUTO_CREATE, user)) { throw new AssertionError("could not bind to KeyChainService"); } return new KeyChainConnection(context, keyChainServiceConnection, q.take()); } private static void ensureNotOnMainThread(@NonNull Context context) { Looper looper = Looper.myLooper(); if (looper != null && looper == context.getMainLooper()) { throw new IllegalStateException( "calling this from your main thread can lead to deadlock"); } } }