A {@code KeyStore} manages different types of entries. * Each type of entry implements the {@code KeyStore.Entry} interface. * Three basic {@code KeyStore.Entry} implementations are provided: * *
This type of entry holds a cryptographic {@code PrivateKey}, * which is optionally stored in a protected format to prevent * unauthorized access. It is also accompanied by a certificate chain * for the corresponding public key. * *
Private keys and certificate chains are used by a given entity for * self-authentication. Applications for this authentication include software * distribution organizations which sign JAR files as part of releasing * and/or licensing software. * *
This type of entry holds a cryptographic {@code SecretKey}, * which is optionally stored in a protected format to prevent * unauthorized access. * *
This type of entry contains a single public key {@code Certificate} * belonging to another party. It is called a trusted certificate * because the keystore owner trusts that the public key in the certificate * indeed belongs to the identity identified by the subject (owner) * of the certificate. * *
This type of entry can be used to authenticate other parties. *
Each entry in a keystore is identified by an "alias" string. In the * case of private keys and their associated certificate chains, these strings * distinguish among the different ways in which the entity may authenticate * itself. For example, the entity may authenticate itself using different * certificate authorities, or using different public key algorithms. * *
Whether aliases are case sensitive is implementation dependent. In order * to avoid problems, it is recommended not to use aliases in a KeyStore that * only differ in case. * *
Whether keystores are persistent, and the mechanisms used by the * keystore if it is persistent, are not specified here. This allows * use of a variety of techniques for protecting sensitive (e.g., private or * secret) keys. Smart cards or other integrated cryptographic engines * (SafeKeyper) are one option, and simpler mechanisms such as files may also * be used (in a variety of formats). * *
Typical ways to request a KeyStore object include * relying on the default type and providing a specific keystore type. * *
* KeyStore ks = KeyStore.getInstance(KeyStore.getDefaultType()); ** The system will return a keystore implementation for the default type. * *
* KeyStore ks = KeyStore.getInstance("JKS");
*
* The system will return the most preferred implementation of the
* specified keystore type available in the environment. *
Before a keystore can be accessed, it must be * {@link #load(java.io.InputStream, char[]) loaded}. *
* KeyStore ks = KeyStore.getInstance(KeyStore.getDefaultType());
*
* // get user password and file input stream
* char[] password = getPassword();
*
* try (FileInputStream fis = new FileInputStream("keyStoreName")) {
* ks.load(fis, password);
* }
*
*
* To create an empty keystore using the above {@code load} method,
* pass {@code null} as the {@code InputStream} argument.
*
* Once the keystore has been loaded, it is possible * to read existing entries from the keystore, or to write new entries * into the keystore: *
* KeyStore.ProtectionParameter protParam =
* new KeyStore.PasswordProtection(password);
*
* // get my private key
* KeyStore.PrivateKeyEntry pkEntry = (KeyStore.PrivateKeyEntry)
* ks.getEntry("privateKeyAlias", protParam);
* PrivateKey myPrivateKey = pkEntry.getPrivateKey();
*
* // save my secret key
* javax.crypto.SecretKey mySecretKey;
* KeyStore.SecretKeyEntry skEntry =
* new KeyStore.SecretKeyEntry(mySecretKey);
* ks.setEntry("secretKeyAlias", skEntry, protParam);
*
* // store away the keystore
* try (FileOutputStream fos = new FileOutputStream("newKeyStoreName")) {
* ks.store(fos, password);
* }
*
*
* Note that although the same password may be used to
* load the keystore, to protect the private key entry,
* to protect the secret key entry, and to store the keystore
* (as is shown in the sample code above),
* different passwords or other protection parameters
* may also be used.
*
* Android provides the following KeyStore types:
*
| Algorithm | *Supported API Levels | *
|---|---|
| AndroidCAStore | *14+ | *
| AndroidKeyStore | *18+ | *
| BCPKCS12 | *1-8 | *
| BKS | *1+ | *
| BouncyCastle | *1+ | *
| PKCS12 | *1+ | *
| PKCS12-DEF | *1-8 | *
* keystore.type=jks
*
*/
private static final String KEYSTORE_TYPE = "keystore.type";
// The keystore type
private String type;
// The provider
private Provider provider;
// The provider implementation
private KeyStoreSpi keyStoreSpi;
// Has this keystore been initialized (loaded)?
private boolean initialized = false;
/**
* A marker interface for {@code KeyStore}
* {@link #load(KeyStore.LoadStoreParameter) load}
* and
* {@link #store(KeyStore.LoadStoreParameter) store}
* parameters.
*
* @since 1.5
*/
public static interface LoadStoreParameter {
/**
* Gets the parameter used to protect keystore data.
*
* @return the parameter used to protect keystore data, or null
*/
public ProtectionParameter getProtectionParameter();
}
/**
* A marker interface for keystore protection parameters.
*
* The information stored in a {@code ProtectionParameter} * object protects the contents of a keystore. * For example, protection parameters may be used to check * the integrity of keystore data, or to protect the * confidentiality of sensitive keystore data * (such as a {@code PrivateKey}). * * @since 1.5 */ public static interface ProtectionParameter { } /** * A password-based implementation of {@code ProtectionParameter}. * * @since 1.5 */ public static class PasswordProtection implements ProtectionParameter, javax.security.auth.Destroyable { private final char[] password; private final String protectionAlgorithm; private final AlgorithmParameterSpec protectionParameters; private volatile boolean destroyed = false; /** * Creates a password parameter. * *
The specified {@code password} is cloned before it is stored * in the new {@code PasswordProtection} object. * * @param password the password, which may be {@code null} */ public PasswordProtection(char[] password) { this.password = (password == null) ? null : password.clone(); this.protectionAlgorithm = null; this.protectionParameters = null; } /** * Creates a password parameter and specifies the protection algorithm * and associated parameters to use when encrypting a keystore entry. *
* The specified {@code password} is cloned before it is stored in the
* new {@code PasswordProtection} object.
*
* @param password the password, which may be {@code null}
* @param protectionAlgorithm the encryption algorithm name, for
* example, {@code PBEWithHmacSHA256AndAES_256}.
* See the Cipher section in the
* Java Cryptography Architecture Standard Algorithm Name
* Documentation
* for information about standard encryption algorithm names.
* @param protectionParameters the encryption algorithm parameter
* specification, which may be {@code null}
* @exception NullPointerException if {@code protectionAlgorithm} is
* {@code null}
*
* @since 1.8
*/
public PasswordProtection(char[] password, String protectionAlgorithm,
AlgorithmParameterSpec protectionParameters) {
if (protectionAlgorithm == null) {
throw new NullPointerException("invalid null input");
}
this.password = (password == null) ? null : password.clone();
this.protectionAlgorithm = protectionAlgorithm;
this.protectionParameters = protectionParameters;
}
/**
* Gets the name of the protection algorithm.
* If none was set then the keystore provider will use its default
* protection algorithm. The name of the default protection algorithm
* for a given keystore type is set using the
* {@code 'keystore. Note that this method returns a reference to the password.
* If a clone of the array is created it is the caller's
* responsibility to zero out the password information
* after it is no longer needed.
*
* @see #destroy()
* @return the password, which may be {@code null}
* @exception IllegalStateException if the password has
* been cleared (destroyed)
*/
public synchronized char[] getPassword() {
if (destroyed) {
throw new IllegalStateException("password has been cleared");
}
return password;
}
/**
* Clears the password.
*
* @exception DestroyFailedException if this method was unable
* to clear the password
*/
public synchronized void destroy() throws DestroyFailedException {
destroyed = true;
if (password != null) {
Arrays.fill(password, ' ');
}
}
/**
* Determines if password has been cleared.
*
* @return true if the password has been cleared, false otherwise
*/
public synchronized boolean isDestroyed() {
return destroyed;
}
}
/**
* A ProtectionParameter encapsulating a CallbackHandler.
*
* @since 1.5
*/
public static class CallbackHandlerProtection
implements ProtectionParameter {
private final CallbackHandler handler;
/**
* Constructs a new CallbackHandlerProtection from a
* CallbackHandler.
*
* @param handler the CallbackHandler
* @exception NullPointerException if handler is null
*/
public CallbackHandlerProtection(CallbackHandler handler) {
if (handler == null) {
throw new NullPointerException("handler must not be null");
}
this.handler = handler;
}
/**
* Returns the CallbackHandler.
*
* @return the CallbackHandler.
*/
public CallbackHandler getCallbackHandler() {
return handler;
}
}
/**
* A marker interface for {@code KeyStore} entry types.
*
* @since 1.5
*/
public static interface Entry {
/**
* Retrieves the attributes associated with an entry.
*
* The default implementation returns an empty {@code Set}.
*
* @return an unmodifiable {@code Set} of attributes, possibly empty
*
* @since 1.8
*/
public default Set The specified {@code chain} is cloned before it is stored
* in the new {@code PrivateKeyEntry} object.
*
* @param privateKey the {@code PrivateKey}
* @param chain an array of {@code Certificate}s
* representing the certificate chain.
* The chain must be ordered and contain a
* {@code Certificate} at index 0
* corresponding to the private key.
*
* @exception NullPointerException if
* {@code privateKey} or {@code chain}
* is {@code null}
* @exception IllegalArgumentException if the specified chain has a
* length of 0, if the specified chain does not contain
* {@code Certificate}s of the same type,
* or if the {@code PrivateKey} algorithm
* does not match the algorithm of the {@code PublicKey}
* in the end entity {@code Certificate} (at index 0)
*/
public PrivateKeyEntry(PrivateKey privateKey, Certificate[] chain) {
this(privateKey, chain, Collections. The specified {@code chain} and {@code attributes} are cloned
* before they are stored in the new {@code PrivateKeyEntry} object.
*
* @param privateKey the {@code PrivateKey}
* @param chain an array of {@code Certificate}s
* representing the certificate chain.
* The chain must be ordered and contain a
* {@code Certificate} at index 0
* corresponding to the private key.
* @param attributes the attributes
*
* @exception NullPointerException if {@code privateKey}, {@code chain}
* or {@code attributes} is {@code null}
* @exception IllegalArgumentException if the specified chain has a
* length of 0, if the specified chain does not contain
* {@code Certificate}s of the same type,
* or if the {@code PrivateKey} algorithm
* does not match the algorithm of the {@code PublicKey}
* in the end entity {@code Certificate} (at index 0)
*
* @since 1.8
*/
public PrivateKeyEntry(PrivateKey privateKey, Certificate[] chain,
Set The stored chain is cloned before being returned.
*
* @return an array of {@code Certificate}s corresponding
* to the certificate chain for the public key.
* If the certificates are of type X.509,
* the runtime type of the returned array is
* {@code X509Certificate[]}.
*/
public Certificate[] getCertificateChain() {
return chain.clone();
}
/**
* Gets the end entity {@code Certificate}
* from the certificate chain in this entry.
*
* @return the end entity {@code Certificate} (at index 0)
* from the certificate chain in this entry.
* If the certificate is of type X.509,
* the runtime type of the returned certificate is
* {@code X509Certificate}.
*/
public Certificate getCertificate() {
return chain[0];
}
/**
* Retrieves the attributes associated with an entry.
*
*
* @return an unmodifiable {@code Set} of attributes, possibly empty
*
* @since 1.8
*/
@Override
public Set The specified {@code attributes} is cloned before it is stored
* in the new {@code SecretKeyEntry} object.
*
* @param secretKey the {@code SecretKey}
* @param attributes the attributes
*
* @exception NullPointerException if {@code secretKey} or
* {@code attributes} is {@code null}
*
* @since 1.8
*/
public SecretKeyEntry(SecretKey secretKey, Set
*
* @return an unmodifiable {@code Set} of attributes, possibly empty
*
* @since 1.8
*/
@Override
public Set The specified {@code attributes} is cloned before it is stored
* in the new {@code TrustedCertificateEntry} object.
*
* @param trustedCert the trusted {@code Certificate}
* @param attributes the attributes
*
* @exception NullPointerException if {@code trustedCert} or
* {@code attributes} is {@code null}
*
* @since 1.8
*/
public TrustedCertificateEntry(Certificate trustedCert,
Set
*
* @return an unmodifiable {@code Set} of attributes, possibly empty
*
* @since 1.8
*/
@Override
public Set This method traverses the list of registered security Providers,
* starting with the most preferred Provider.
* A new KeyStore object encapsulating the
* KeyStoreSpi implementation from the first
* Provider that supports the specified type is returned.
*
* Note that the list of registered providers may be retrieved via
* the {@link Security#getProviders() Security.getProviders()} method.
*
* @param type the type of keystore.
* See the KeyStore section in the
* Java Cryptography Architecture Standard Algorithm Name Documentation
* for information about standard keystore types.
*
* @return a keystore object of the specified type.
*
* @exception KeyStoreException if no Provider supports a
* KeyStoreSpi implementation for the
* specified type.
*
* @see Provider
*/
public static KeyStore getInstance(String type)
throws KeyStoreException
{
try {
Object[] objs = Security.getImpl(type, "KeyStore", (String)null);
return new KeyStore((KeyStoreSpi)objs[0], (Provider)objs[1], type);
} catch (NoSuchAlgorithmException nsae) {
throw new KeyStoreException(type + " not found", nsae);
} catch (NoSuchProviderException nspe) {
throw new KeyStoreException(type + " not found", nspe);
}
}
/**
* Returns a keystore object of the specified type.
*
* A new KeyStore object encapsulating the
* KeyStoreSpi implementation from the specified provider
* is returned. The specified provider must be registered
* in the security provider list.
*
* Note that the list of registered providers may be retrieved via
* the {@link Security#getProviders() Security.getProviders()} method.
*
* @param type the type of keystore.
* See the KeyStore section in the
* Java Cryptography Architecture Standard Algorithm Name Documentation
* for information about standard keystore types.
*
* @param provider the name of the provider.
*
* @return a keystore object of the specified type.
*
* @exception KeyStoreException if a KeyStoreSpi
* implementation for the specified type is not
* available from the specified provider.
*
* @exception NoSuchProviderException if the specified provider is not
* registered in the security provider list.
*
* @exception IllegalArgumentException if the provider name is null
* or empty.
*
* @see Provider
*/
public static KeyStore getInstance(String type, String provider)
throws KeyStoreException, NoSuchProviderException
{
if (provider == null || provider.length() == 0)
throw new IllegalArgumentException("missing provider");
try {
Object[] objs = Security.getImpl(type, "KeyStore", provider);
return new KeyStore((KeyStoreSpi)objs[0], (Provider)objs[1], type);
} catch (NoSuchAlgorithmException nsae) {
throw new KeyStoreException(type + " not found", nsae);
}
}
/**
* Returns a keystore object of the specified type.
*
* A new KeyStore object encapsulating the
* KeyStoreSpi implementation from the specified Provider
* object is returned. Note that the specified Provider object
* does not have to be registered in the provider list.
*
* @param type the type of keystore.
* See the KeyStore section in the
* Java Cryptography Architecture Standard Algorithm Name Documentation
* for information about standard keystore types.
*
* @param provider the provider.
*
* @return a keystore object of the specified type.
*
* @exception KeyStoreException if KeyStoreSpi
* implementation for the specified type is not available
* from the specified Provider object.
*
* @exception IllegalArgumentException if the specified provider is null.
*
* @see Provider
*
* @since 1.4
*/
public static KeyStore getInstance(String type, Provider provider)
throws KeyStoreException
{
if (provider == null)
throw new IllegalArgumentException("missing provider");
try {
Object[] objs = Security.getImpl(type, "KeyStore", provider);
return new KeyStore((KeyStoreSpi)objs[0], (Provider)objs[1], type);
} catch (NoSuchAlgorithmException nsae) {
throw new KeyStoreException(type + " not found", nsae);
}
}
/**
* Returns the default keystore type as specified by the
* {@code keystore.type} security property, or the string
* {@literal "jks"} (acronym for {@literal "Java keystore"})
* if no such property exists.
*
* The default keystore type can be used by applications that do not
* want to use a hard-coded keystore type when calling one of the
* {@code getInstance} methods, and want to provide a default keystore
* type in case a user does not specify its own.
*
* The default keystore type can be changed by setting the value of the
* {@code keystore.type} security property to the desired keystore type.
*
* @return the default keystore type as specified by the
* {@code keystore.type} security property, or the string {@literal "jks"}
* if no such property exists.
* @see java.security.Security security properties
*/
public final static String getDefaultType() {
String kstype;
kstype = AccessController.doPrivileged(new PrivilegedAction If the given alias name identifies an entry
* created by a call to {@code setCertificateEntry},
* or created by a call to {@code setEntry} with a
* {@code TrustedCertificateEntry},
* then the trusted certificate contained in that entry is returned.
*
* If the given alias name identifies an entry
* created by a call to {@code setKeyEntry},
* or created by a call to {@code setEntry} with a
* {@code PrivateKeyEntry},
* then the first element of the certificate chain in that entry
* is returned.
*
* @param alias the alias name
*
* @return the certificate, or null if the given alias does not exist or
* does not contain a certificate.
*
* @exception KeyStoreException if the keystore has not been initialized
* (loaded).
*/
public final Certificate getCertificate(String alias)
throws KeyStoreException
{
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
return keyStoreSpi.engineGetCertificate(alias);
}
/**
* Returns the creation date of the entry identified by the given alias.
*
* @param alias the alias name
*
* @return the creation date of this entry, or null if the given alias does
* not exist
*
* @exception KeyStoreException if the keystore has not been initialized
* (loaded).
*/
public final Date getCreationDate(String alias)
throws KeyStoreException
{
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
return keyStoreSpi.engineGetCreationDate(alias);
}
/**
* Assigns the given key to the given alias, protecting it with the given
* password.
*
* If the given key is of type {@code java.security.PrivateKey},
* it must be accompanied by a certificate chain certifying the
* corresponding public key.
*
* If the given alias already exists, the keystore information
* associated with it is overridden by the given key (and possibly
* certificate chain).
*
* @param alias the alias name
* @param key the key to be associated with the alias
* @param password the password to protect the key
* @param chain the certificate chain for the corresponding public
* key (only required if the given key is of type
* {@code java.security.PrivateKey}).
*
* @exception KeyStoreException if the keystore has not been initialized
* (loaded), the given key cannot be protected, or this operation fails
* for some other reason
*/
public final void setKeyEntry(String alias, Key key, char[] password,
Certificate[] chain)
throws KeyStoreException
{
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
if ((key instanceof PrivateKey) &&
(chain == null || chain.length == 0)) {
throw new IllegalArgumentException("Private key must be "
+ "accompanied by certificate "
+ "chain");
}
keyStoreSpi.engineSetKeyEntry(alias, key, password, chain);
}
/**
* Assigns the given key (that has already been protected) to the given
* alias.
*
* If the protected key is of type
* {@code java.security.PrivateKey}, it must be accompanied by a
* certificate chain certifying the corresponding public key. If the
* underlying keystore implementation is of type {@code jks},
* {@code key} must be encoded as an
* {@code EncryptedPrivateKeyInfo} as defined in the PKCS #8 standard.
*
* If the given alias already exists, the keystore information
* associated with it is overridden by the given key (and possibly
* certificate chain).
*
* @param alias the alias name
* @param key the key (in protected format) to be associated with the alias
* @param chain the certificate chain for the corresponding public
* key (only useful if the protected key is of type
* {@code java.security.PrivateKey}).
*
* @exception KeyStoreException if the keystore has not been initialized
* (loaded), or if this operation fails for some other reason.
*/
public final void setKeyEntry(String alias, byte[] key,
Certificate[] chain)
throws KeyStoreException
{
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
keyStoreSpi.engineSetKeyEntry(alias, key, chain);
}
/**
* Assigns the given trusted certificate to the given alias.
*
* If the given alias identifies an existing entry
* created by a call to {@code setCertificateEntry},
* or created by a call to {@code setEntry} with a
* {@code TrustedCertificateEntry},
* the trusted certificate in the existing entry
* is overridden by the given certificate.
*
* @param alias the alias name
* @param cert the certificate
*
* @exception KeyStoreException if the keystore has not been initialized,
* or the given alias already exists and does not identify an
* entry containing a trusted certificate,
* or this operation fails for some other reason.
*/
public final void setCertificateEntry(String alias, Certificate cert)
throws KeyStoreException
{
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
keyStoreSpi.engineSetCertificateEntry(alias, cert);
}
/**
* Deletes the entry identified by the given alias from this keystore.
*
* @param alias the alias name
*
* @exception KeyStoreException if the keystore has not been initialized,
* or if the entry cannot be removed.
*/
public final void deleteEntry(String alias)
throws KeyStoreException
{
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
keyStoreSpi.engineDeleteEntry(alias);
}
/**
* Lists all the alias names of this keystore.
*
* @return enumeration of the alias names
*
* @exception KeyStoreException if the keystore has not been initialized
* (loaded).
*/
public final Enumeration This method attempts to match the given certificate with each
* keystore entry. If the entry being considered was
* created by a call to {@code setCertificateEntry},
* or created by a call to {@code setEntry} with a
* {@code TrustedCertificateEntry},
* then the given certificate is compared to that entry's certificate.
*
* If the entry being considered was
* created by a call to {@code setKeyEntry},
* or created by a call to {@code setEntry} with a
* {@code PrivateKeyEntry},
* then the given certificate is compared to the first
* element of that entry's certificate chain.
*
* @param cert the certificate to match with.
*
* @return the alias name of the first entry with a matching certificate,
* or null if no such entry exists in this keystore.
*
* @exception KeyStoreException if the keystore has not been initialized
* (loaded).
*/
public final String getCertificateAlias(Certificate cert)
throws KeyStoreException
{
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
return keyStoreSpi.engineGetCertificateAlias(cert);
}
/**
* Stores this keystore to the given output stream, and protects its
* integrity with the given password.
*
* @param stream the output stream to which this keystore is written.
* @param password the password to generate the keystore integrity check
*
* @exception KeyStoreException if the keystore has not been initialized
* (loaded).
* @exception IOException if there was an I/O problem with data
* @exception NoSuchAlgorithmException if the appropriate data integrity
* algorithm could not be found
* @exception CertificateException if any of the certificates included in
* the keystore data could not be stored
*/
public final void store(OutputStream stream, char[] password)
throws KeyStoreException, IOException, NoSuchAlgorithmException,
CertificateException
{
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
keyStoreSpi.engineStore(stream, password);
}
/**
* Stores this keystore using the given {@code LoadStoreParameter}.
*
* @param param the {@code LoadStoreParameter}
* that specifies how to store the keystore,
* which may be {@code null}
*
* @exception IllegalArgumentException if the given
* {@code LoadStoreParameter}
* input is not recognized
* @exception KeyStoreException if the keystore has not been initialized
* (loaded)
* @exception IOException if there was an I/O problem with data
* @exception NoSuchAlgorithmException if the appropriate data integrity
* algorithm could not be found
* @exception CertificateException if any of the certificates included in
* the keystore data could not be stored
*
* @since 1.5
*/
public final void store(LoadStoreParameter param)
throws KeyStoreException, IOException,
NoSuchAlgorithmException, CertificateException {
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
keyStoreSpi.engineStore(param);
}
/**
* Loads this KeyStore from the given input stream.
*
* A password may be given to unlock the keystore
* (e.g. the keystore resides on a hardware token device),
* or to check the integrity of the keystore data.
* If a password is not given for integrity checking,
* then integrity checking is not performed.
*
* In order to create an empty keystore, or if the keystore cannot
* be initialized from a stream, pass {@code null}
* as the {@code stream} argument.
*
* Note that if this keystore has already been loaded, it is
* reinitialized and loaded again from the given input stream.
*
* @param stream the input stream from which the keystore is loaded,
* or {@code null}
* @param password the password used to check the integrity of
* the keystore, the password used to unlock the keystore,
* or {@code null}
*
* @exception IOException if there is an I/O or format problem with the
* keystore data, if a password is required but not given,
* or if the given password was incorrect. If the error is due to a
* wrong password, the {@link Throwable#getCause cause} of the
* {@code IOException} should be an
* {@code UnrecoverableKeyException}
* @exception NoSuchAlgorithmException if the algorithm used to check
* the integrity of the keystore cannot be found
* @exception CertificateException if any of the certificates in the
* keystore could not be loaded
*/
public final void load(InputStream stream, char[] password)
throws IOException, NoSuchAlgorithmException, CertificateException
{
keyStoreSpi.engineLoad(stream, password);
initialized = true;
}
/**
* Loads this keystore using the given {@code LoadStoreParameter}.
*
* Note that if this KeyStore has already been loaded, it is
* reinitialized and loaded again from the given parameter.
*
* @param param the {@code LoadStoreParameter}
* that specifies how to load the keystore,
* which may be {@code null}
*
* @exception IllegalArgumentException if the given
* {@code LoadStoreParameter}
* input is not recognized
* @exception IOException if there is an I/O or format problem with the
* keystore data. If the error is due to an incorrect
* {@code ProtectionParameter} (e.g. wrong password)
* the {@link Throwable#getCause cause} of the
* {@code IOException} should be an
* {@code UnrecoverableKeyException}
* @exception NoSuchAlgorithmException if the algorithm used to check
* the integrity of the keystore cannot be found
* @exception CertificateException if any of the certificates in the
* keystore could not be loaded
*
* @since 1.5
*/
public final void load(LoadStoreParameter param)
throws IOException, NoSuchAlgorithmException,
CertificateException {
keyStoreSpi.engineLoad(param);
initialized = true;
}
/**
* Gets a keystore {@code Entry} for the specified alias
* with the specified protection parameter.
*
* @param alias get the keystore {@code Entry} for this alias
* @param protParam the {@code ProtectionParameter}
* used to protect the {@code Entry},
* which may be {@code null}
*
* @return the keystore {@code Entry} for the specified alias,
* or {@code null} if there is no such entry
*
* @exception NullPointerException if
* {@code alias} is {@code null}
* @exception NoSuchAlgorithmException if the algorithm for recovering the
* entry cannot be found
* @exception UnrecoverableEntryException if the specified
* {@code protParam} were insufficient or invalid
* @exception UnrecoverableKeyException if the entry is a
* {@code PrivateKeyEntry} or {@code SecretKeyEntry}
* and the specified {@code protParam} does not contain
* the information needed to recover the key (e.g. wrong password)
* @exception KeyStoreException if the keystore has not been initialized
* (loaded).
* @see #setEntry(String, KeyStore.Entry, KeyStore.ProtectionParameter)
*
* @since 1.5
*/
public final Entry getEntry(String alias, ProtectionParameter protParam)
throws NoSuchAlgorithmException, UnrecoverableEntryException,
KeyStoreException {
if (alias == null) {
throw new NullPointerException("invalid null input");
}
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
return keyStoreSpi.engineGetEntry(alias, protParam);
}
/**
* Saves a keystore {@code Entry} under the specified alias.
* The protection parameter is used to protect the
* {@code Entry}.
*
* If an entry already exists for the specified alias,
* it is overridden.
*
* @param alias save the keystore {@code Entry} under this alias
* @param entry the {@code Entry} to save
* @param protParam the {@code ProtectionParameter}
* used to protect the {@code Entry},
* which may be {@code null}
*
* @exception NullPointerException if
* {@code alias} or {@code entry}
* is {@code null}
* @exception KeyStoreException if the keystore has not been initialized
* (loaded), or if this operation fails for some other reason
*
* @see #getEntry(String, KeyStore.ProtectionParameter)
*
* @since 1.5
*/
public final void setEntry(String alias, Entry entry,
ProtectionParameter protParam)
throws KeyStoreException {
if (alias == null || entry == null) {
throw new NullPointerException("invalid null input");
}
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
keyStoreSpi.engineSetEntry(alias, entry, protParam);
}
/**
* Determines if the keystore {@code Entry} for the specified
* {@code alias} is an instance or subclass of the specified
* {@code entryClass}.
*
* @param alias the alias name
* @param entryClass the entry class
*
* @return true if the keystore {@code Entry} for the specified
* {@code alias} is an instance or subclass of the
* specified {@code entryClass}, false otherwise
*
* @exception NullPointerException if
* {@code alias} or {@code entryClass}
* is {@code null}
* @exception KeyStoreException if the keystore has not been
* initialized (loaded)
*
* @since 1.5
*/
public final boolean
entryInstanceOf(String alias,
Class entryClass)
throws KeyStoreException
{
if (alias == null || entryClass == null) {
throw new NullPointerException("invalid null input");
}
if (!initialized) {
throw new KeyStoreException("Uninitialized keystore");
}
return keyStoreSpi.engineEntryInstanceOf(alias, entryClass);
}
/**
* A description of a to-be-instantiated KeyStore object.
*
* An instance of this class encapsulates the information needed to
* instantiate and initialize a KeyStore object. That process is
* triggered when the {@linkplain #getKeyStore} method is called.
*
* This makes it possible to decouple configuration from KeyStore
* object creation and e.g. delay a password prompt until it is
* needed.
*
* @see KeyStore
* @see javax.net.ssl.KeyStoreBuilderParameters
* @since 1.5
*/
public static abstract class Builder {
// maximum times to try the callbackhandler if the password is wrong
static final int MAX_CALLBACK_TRIES = 3;
/**
* Construct a new Builder.
*/
protected Builder() {
// empty
}
/**
* Returns the KeyStore described by this object.
*
* @return the {@code KeyStore} described by this object
* @exception KeyStoreException if an error occurred during the
* operation, for example if the KeyStore could not be
* instantiated or loaded
*/
public abstract KeyStore getKeyStore() throws KeyStoreException;
/**
* Returns the ProtectionParameters that should be used to obtain
* the {@link KeyStore.Entry Entry} with the given alias.
* The {@code getKeyStore} method must be invoked before this
* method may be called.
*
* @return the ProtectionParameters that should be used to obtain
* the {@link KeyStore.Entry Entry} with the given alias.
* @param alias the alias of the KeyStore entry
* @throws NullPointerException if alias is null
* @throws KeyStoreException if an error occurred during the
* operation
* @throws IllegalStateException if the getKeyStore method has
* not been invoked prior to calling this method
*/
public abstract ProtectionParameter getProtectionParameter(String alias)
throws KeyStoreException;
/**
* Returns a new Builder that encapsulates the given KeyStore.
* The {@linkplain #getKeyStore} method of the returned object
* will return {@code keyStore}, the {@linkplain
* #getProtectionParameter getProtectionParameter()} method will
* return {@code protectionParameters}.
*
* This is useful if an existing KeyStore object needs to be
* used with Builder-based APIs.
*
* @return a new Builder object
* @param keyStore the KeyStore to be encapsulated
* @param protectionParameter the ProtectionParameter used to
* protect the KeyStore entries
* @throws NullPointerException if keyStore or
* protectionParameters is null
* @throws IllegalArgumentException if the keyStore has not been
* initialized
*/
public static Builder newInstance(final KeyStore keyStore,
final ProtectionParameter protectionParameter) {
if ((keyStore == null) || (protectionParameter == null)) {
throw new NullPointerException();
}
if (keyStore.initialized == false) {
throw new IllegalArgumentException("KeyStore not initialized");
}
return new Builder() {
private volatile boolean getCalled;
public KeyStore getKeyStore() {
getCalled = true;
return keyStore;
}
public ProtectionParameter getProtectionParameter(String alias)
{
if (alias == null) {
throw new NullPointerException();
}
if (getCalled == false) {
throw new IllegalStateException
("getKeyStore() must be called first");
}
return protectionParameter;
}
};
}
/**
* Returns a new Builder object.
*
* The first call to the {@link #getKeyStore} method on the returned
* builder will create a KeyStore of type {@code type} and call
* its {@link KeyStore#load load()} method.
* The {@code inputStream} argument is constructed from
* {@code file}.
* If {@code protection} is a
* {@code PasswordProtection}, the password is obtained by
* calling the {@code getPassword} method.
* Otherwise, if {@code protection} is a
* {@code CallbackHandlerProtection}, the password is obtained
* by invoking the CallbackHandler.
*
* Subsequent calls to {@link #getKeyStore} return the same object
* as the initial call. If the initial call to failed with a
* KeyStoreException, subsequent calls also throw a
* KeyStoreException.
*
* The KeyStore is instantiated from {@code provider} if
* non-null. Otherwise, all installed providers are searched.
*
* Calls to {@link #getProtectionParameter getProtectionParameter()}
* will return a {@link KeyStore.PasswordProtection PasswordProtection}
* object encapsulating the password that was used to invoke the
* {@code load} method.
*
* Note that the {@link #getKeyStore} method is executed
* within the {@link AccessControlContext} of the code invoking this
* method.
*
* @return a new Builder object
* @param type the type of KeyStore to be constructed
* @param provider the provider from which the KeyStore is to
* be instantiated (or null)
* @param file the File that contains the KeyStore data
* @param protection the ProtectionParameter securing the KeyStore data
* @throws NullPointerException if type, file or protection is null
* @throws IllegalArgumentException if protection is not an instance
* of either PasswordProtection or CallbackHandlerProtection; or
* if file does not exist or does not refer to a normal file
*/
public static Builder newInstance(String type, Provider provider,
File file, ProtectionParameter protection) {
if ((type == null) || (file == null) || (protection == null)) {
throw new NullPointerException();
}
if ((protection instanceof PasswordProtection == false) &&
(protection instanceof CallbackHandlerProtection == false)) {
throw new IllegalArgumentException
("Protection must be PasswordProtection or " +
"CallbackHandlerProtection");
}
if (file.isFile() == false) {
throw new IllegalArgumentException
("File does not exist or it does not refer " +
"to a normal file: " + file);
}
return new FileBuilder(type, provider, file, protection,
AccessController.getContext());
}
private static final class FileBuilder extends Builder {
private final String type;
private final Provider provider;
private final File file;
private ProtectionParameter protection;
private ProtectionParameter keyProtection;
private final AccessControlContext context;
private KeyStore keyStore;
private Throwable oldException;
FileBuilder(String type, Provider provider, File file,
ProtectionParameter protection,
AccessControlContext context) {
this.type = type;
this.provider = provider;
this.file = file;
this.protection = protection;
this.context = context;
}
public synchronized KeyStore getKeyStore() throws KeyStoreException
{
if (keyStore != null) {
return keyStore;
}
if (oldException != null) {
throw new KeyStoreException
("Previous KeyStore instantiation failed",
oldException);
}
PrivilegedExceptionAction Each call to the {@link #getKeyStore} method on the returned
* builder will return a new KeyStore object of type {@code type}.
* Its {@link KeyStore#load(KeyStore.LoadStoreParameter) load()}
* method is invoked using a
* {@code LoadStoreParameter} that encapsulates
* {@code protection}.
*
* The KeyStore is instantiated from {@code provider} if
* non-null. Otherwise, all installed providers are searched.
*
* Calls to {@link #getProtectionParameter getProtectionParameter()}
* will return {@code protection}.
*
* Note that the {@link #getKeyStore} method is executed
* within the {@link AccessControlContext} of the code invoking this
* method.
*
* @return a new Builder object
* @param type the type of KeyStore to be constructed
* @param provider the provider from which the KeyStore is to
* be instantiated (or null)
* @param protection the ProtectionParameter securing the Keystore
* @throws NullPointerException if type or protection is null
*/
public static Builder newInstance(final String type,
final Provider provider, final ProtectionParameter protection) {
if ((type == null) || (protection == null)) {
throw new NullPointerException();
}
final AccessControlContext context = AccessController.getContext();
return new Builder() {
private volatile boolean getCalled;
private IOException oldException;
private final PrivilegedExceptionAction