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script-astra/Android/Sdk/sources/android-35/java/security/Signature.java

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/*
* Copyright (c) 1996, 2015, Oracle and/or its affiliates. All rights reserved.
* Copyright (C) 2014 The Android Open Source Project
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package java.security;
import java.security.spec.AlgorithmParameterSpec;
import java.util.*;
import java.util.concurrent.ConcurrentHashMap;
import java.io.*;
import java.security.cert.Certificate;
import java.security.cert.X509Certificate;
import java.nio.ByteBuffer;
import java.security.Provider.Service;
import javax.crypto.Cipher;
import javax.crypto.CipherSpi;
import javax.crypto.IllegalBlockSizeException;
import javax.crypto.BadPaddingException;
import javax.crypto.NoSuchPaddingException;
import sun.security.jca.*;
import sun.security.jca.GetInstance.Instance;
/**
* The Signature class is used to provide applications the functionality
* of a digital signature algorithm. Digital signatures are used for
* authentication and integrity assurance of digital data.
*
* <p> The signature algorithm can be, among others, the NIST standard
* DSA, using DSA and SHA-1. The DSA algorithm using the
* SHA-1 message digest algorithm can be specified as {@code SHA1withDSA}.
* In the case of RSA, there are multiple choices for the message digest
* algorithm, so the signing algorithm could be specified as, for example,
* {@code MD2withRSA}, {@code MD5withRSA}, or {@code SHA1withRSA}.
* The algorithm name must be specified, as there is no default.
*
* <p> A Signature object can be used to generate and verify digital
* signatures.
*
* <p> There are three phases to the use of a Signature object for
* either signing data or verifying a signature:<ol>
*
* <li>Initialization, with either
*
* <ul>
*
* <li>a public key, which initializes the signature for
* verification (see {@link #initVerify(PublicKey) initVerify}), or
*
* <li>a private key (and optionally a Secure Random Number Generator),
* which initializes the signature for signing
* (see {@link #initSign(PrivateKey)}
* and {@link #initSign(PrivateKey, SecureRandom)}).
*
* </ul>
*
* <li>Updating
*
* <p>Depending on the type of initialization, this will update the
* bytes to be signed or verified. See the
* {@link #update(byte) update} methods.
*
* <li>Signing or Verifying a signature on all updated bytes. See the
* {@link #sign() sign} methods and the {@link #verify(byte[]) verify}
* method.
*
* </ol>
*
* <p>Note that this class is abstract and extends from
* {@code SignatureSpi} for historical reasons.
* Application developers should only take notice of the methods defined in
* this {@code Signature} class; all the methods in
* the superclass are intended for cryptographic service providers who wish to
* supply their own implementations of digital signature algorithms.
*
* <p> Android provides the following {@code Signature} algorithms:
* <table>
* <thead>
* <tr>
* <th>Algorithm</th>
* <th>Supported API Levels</th>
* </tr>
* </thead>
* <tbody>
* <tr>
* <td>DSA</td>
* <td>1+</td>
* </tr>
* <tr>
* <td>DSAwithSHA1</td>
* <td>1+</td>
* </tr>
* <tr class="deprecated">
* <td>DSS</td>
* <td>1-19</td>
* </tr>
* <tr>
* <td>ECDSA</td>
* <td>11+</td>
* </tr>
* <tr>
* <td>ECDSAwithSHA1</td>
* <td>11+</td>
* </tr>
* <tr>
* <td>Ed25519</td>
* <td>33+</td>
* </tr>
* <tr class="deprecated">
* <td>MD2withRSA</td>
* <td>1-3</td>
* </tr>
* <tr class="deprecated">
* <td>MD4withRSA</td>
* <td>1-8</td>
* </tr>
* <tr>
* <td>MD5withRSA</td>
* <td>1+</td>
* </tr>
* <tr class="deprecated">
* <td>MD5withRSA/ISO9796-2</td>
* <td>1-8</td>
* </tr>
* <tr>
* <td>NONEwithDSA</td>
* <td>1+</td>
* </tr>
* <tr>
* <td>NONEwithECDSA</td>
* <td>11+</td>
* </tr>
* <tr>
* <td>NONEwithRSA</td>
* <td>17+</td>
* </tr>
* <tr class="deprecated">
* <td>RSASSA-PSS</td>
* <td>1-8</td>
* </tr>
* <tr>
* <td>SHA1withDSA</td>
* <td>1+</td>
* </tr>
* <tr>
* <td>SHA1withECDSA</td>
* <td>11+</td>
* </tr>
* <tr>
* <td>SHA1withRSA</td>
* <td>1+</td>
* </tr>
* <tr class="deprecated">
* <td>SHA1withRSA/ISO9796-2</td>
* <td>1-8</td>
* </tr>
* <tr>
* <td>SHA1withRSA/PSS</td>
* <td>23+</td>
* </tr>
* <tr>
* <td>SHA224withDSA</td>
* <td>20+</td>
* </tr>
* <tr>
* <td>SHA224withECDSA</td>
* <td>20+</td>
* </tr>
* <tr>
* <td>SHA224withRSA</td>
* <td>20+</td>
* </tr>
* <tr>
* <td>SHA224withRSA/PSS</td>
* <td>23+</td>
* </tr>
* <tr>
* <td>SHA256withDSA</td>
* <td>1+</td>
* </tr>
* <tr>
* <td>SHA256withECDSA</td>
* <td>11+</td>
* </tr>
* <tr>
* <td>SHA256withRSA</td>
* <td>1+</td>
* </tr>
* <tr>
* <td>SHA256withRSA/PSS</td>
* <td>23+</td>
* </tr>
* <tr>
* <td>SHA384withECDSA</td>
* <td>11+</td>
* </tr>
* <tr>
* <td>SHA384withRSA</td>
* <td>1+</td>
* </tr>
* <tr>
* <td>SHA384withRSA/PSS</td>
* <td>23+</td>
* </tr>
* <tr>
* <td>SHA512withECDSA</td>
* <td>11+</td>
* </tr>
* <tr>
* <td>SHA512withRSA</td>
* <td>1+</td>
* </tr>
* <tr>
* <td>SHA512withRSA/PSS</td>
* <td>23+</td>
* </tr>
* </tbody>
* </table>
*
* These algorithms are described in the <a href=
* "{@docRoot}/../technotes/guides/security/StandardNames.html#Signature">
* Signature section</a> of the
* Java Cryptography Architecture Standard Algorithm Name Documentation.
*
* @author Benjamin Renaud
*
*/
public abstract class Signature extends SignatureSpi {
// BEGIN Android-removed: this debugging mechanism is not supported in Android.
/*
private static final Debug debug =
Debug.getInstance("jca", "Signature");
private static final Debug pdebug =
Debug.getInstance("provider", "Provider");
private static final boolean skipDebug =
Debug.isOn("engine=") && !Debug.isOn("signature");
// END Android-removed: this debugging mechanism is not supported in Android.
*/
/*
* The algorithm for this signature object.
* This value is used to map an OID to the particular algorithm.
* The mapping is done in AlgorithmObject.algOID(String algorithm)
*/
private String algorithm;
// The provider
Provider provider;
/**
* Possible {@link #state} value, signifying that
* this signature object has not yet been initialized.
*/
protected final static int UNINITIALIZED = 0;
/**
* Possible {@link #state} value, signifying that
* this signature object has been initialized for signing.
*/
protected final static int SIGN = 2;
/**
* Possible {@link #state} value, signifying that
* this signature object has been initialized for verification.
*/
protected final static int VERIFY = 3;
/**
* Current state of this signature object.
*/
protected int state = UNINITIALIZED;
/**
* Creates a Signature object for the specified algorithm.
*
* @param algorithm the standard string name of the algorithm.
* See the Signature section in the <a href=
* "{@docRoot}/../technotes/guides/security/StandardNames.html#Signature">
* Java Cryptography Architecture Standard Algorithm Name Documentation</a>
* for information about standard algorithm names.
*/
protected Signature(String algorithm) {
this.algorithm = algorithm;
}
// name of the special signature alg
private final static String RSA_SIGNATURE = "NONEwithRSA";
// name of the equivalent cipher alg
private final static String RSA_CIPHER = "RSA/ECB/PKCS1Padding";
// all the services we need to lookup for compatibility with Cipher
private final static List<ServiceId> rsaIds = Arrays.asList(
new ServiceId[] {
new ServiceId("Signature", "NONEwithRSA"),
new ServiceId("Cipher", "RSA/ECB/PKCS1Padding"),
new ServiceId("Cipher", "RSA/ECB"),
new ServiceId("Cipher", "RSA//PKCS1Padding"),
new ServiceId("Cipher", "RSA"),
}
);
/**
* Returns a Signature object that implements the specified signature
* algorithm.
*
* <p> This method traverses the list of registered security Providers,
* starting with the most preferred Provider.
* A new Signature object encapsulating the
* SignatureSpi implementation from the first
* Provider that supports the specified algorithm is returned.
*
* <p> Note that the list of registered providers may be retrieved via
* the {@link Security#getProviders() Security.getProviders()} method.
*
* @param algorithm the standard name of the algorithm requested.
* See the Signature section in the <a href=
* "{@docRoot}/../technotes/guides/security/StandardNames.html#Signature">
* Java Cryptography Architecture Standard Algorithm Name Documentation</a>
* for information about standard algorithm names.
*
* @return the new Signature object.
*
* @exception NoSuchAlgorithmException if no Provider supports a
* Signature implementation for the
* specified algorithm.
*
* @see Provider
*/
public static Signature getInstance(String algorithm)
throws NoSuchAlgorithmException {
List<Service> list;
if (algorithm.equalsIgnoreCase(RSA_SIGNATURE)) {
list = GetInstance.getServices(rsaIds);
} else {
list = GetInstance.getServices("Signature", algorithm);
}
Iterator<Service> t = list.iterator();
if (t.hasNext() == false) {
throw new NoSuchAlgorithmException
(algorithm + " Signature not available");
}
// try services until we find an Spi or a working Signature subclass
NoSuchAlgorithmException failure;
do {
Service s = t.next();
if (isSpi(s)) {
// Android-changed: Delegate constructor only takes algorithm.
// return new Delegate(s, t, algorithm);
return new Delegate(algorithm);
} else {
// must be a subclass of Signature, disable dynamic selection
try {
Instance instance =
GetInstance.getInstance(s, SignatureSpi.class);
return getInstance(instance, algorithm);
} catch (NoSuchAlgorithmException e) {
failure = e;
}
}
} while (t.hasNext());
throw failure;
}
private static Signature getInstance(Instance instance, String algorithm) {
Signature sig;
if (instance.impl instanceof Signature) {
sig = (Signature)instance.impl;
sig.algorithm = algorithm;
} else {
SignatureSpi spi = (SignatureSpi)instance.impl;
sig = new Delegate(spi, algorithm);
}
sig.provider = instance.provider;
return sig;
}
private final static Map<String,Boolean> signatureInfo;
static {
signatureInfo = new ConcurrentHashMap<String,Boolean>();
Boolean TRUE = Boolean.TRUE;
// pre-initialize with values for our SignatureSpi implementations
signatureInfo.put("sun.security.provider.DSA$RawDSA", TRUE);
signatureInfo.put("sun.security.provider.DSA$SHA1withDSA", TRUE);
signatureInfo.put("sun.security.rsa.RSASignature$MD2withRSA", TRUE);
signatureInfo.put("sun.security.rsa.RSASignature$MD5withRSA", TRUE);
signatureInfo.put("sun.security.rsa.RSASignature$SHA1withRSA", TRUE);
signatureInfo.put("sun.security.rsa.RSASignature$SHA256withRSA", TRUE);
signatureInfo.put("sun.security.rsa.RSASignature$SHA384withRSA", TRUE);
signatureInfo.put("sun.security.rsa.RSASignature$SHA512withRSA", TRUE);
signatureInfo.put("com.sun.net.ssl.internal.ssl.RSASignature", TRUE);
signatureInfo.put("sun.security.pkcs11.P11Signature", TRUE);
}
private static boolean isSpi(Service s) {
if (s.getType().equals("Cipher")) {
// must be a CipherSpi, which we can wrap with the CipherAdapter
return true;
}
String className = s.getClassName();
Boolean result = signatureInfo.get(className);
if (result == null) {
try {
Object instance = s.newInstance(null);
// Signature extends SignatureSpi
// so it is a "real" Spi if it is an
// instance of SignatureSpi but not Signature
boolean r = (instance instanceof SignatureSpi)
&& (instance instanceof Signature == false);
// BEGIN Android-removed: this debugging mechanism is not supported in Android.
/*
if ((debug != null) && (r == false)) {
debug.println("Not a SignatureSpi " + className);
debug.println("Delayed provider selection may not be "
+ "available for algorithm " + s.getAlgorithm());
}
*/
// END Android-removed: this debugging mechanism is not supported in Android.
result = Boolean.valueOf(r);
signatureInfo.put(className, result);
} catch (Exception e) {
// something is wrong, assume not an SPI
return false;
}
}
return result.booleanValue();
}
/**
* Returns a Signature object that implements the specified signature
* algorithm.
*
* <p> A new Signature object encapsulating the
* SignatureSpi implementation from the specified provider
* is returned. The specified provider must be registered
* in the security provider list.
*
* <p> Note that the list of registered providers may be retrieved via
* the {@link Security#getProviders() Security.getProviders()} method.
*
* @param algorithm the name of the algorithm requested.
* See the Signature section in the <a href=
* "{@docRoot}/../technotes/guides/security/StandardNames.html#Signature">
* Java Cryptography Architecture Standard Algorithm Name Documentation</a>
* for information about standard algorithm names.
*
* @param provider the name of the provider.
*
* @return the new Signature object.
*
* @exception NoSuchAlgorithmException if a SignatureSpi
* implementation for the specified algorithm 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 Signature getInstance(String algorithm, String provider)
throws NoSuchAlgorithmException, NoSuchProviderException {
if (algorithm.equalsIgnoreCase(RSA_SIGNATURE)) {
// exception compatibility with existing code
if ((provider == null) || (provider.length() == 0)) {
throw new IllegalArgumentException("missing provider");
}
Provider p = Security.getProvider(provider);
if (p == null) {
throw new NoSuchProviderException
("no such provider: " + provider);
}
return getInstanceRSA(p);
}
// Android-added: Check for Bouncy Castle deprecation
Providers.checkBouncyCastleDeprecation(provider, "Signature", algorithm);
Instance instance = GetInstance.getInstance
("Signature", SignatureSpi.class, algorithm, provider);
return getInstance(instance, algorithm);
}
/**
* Returns a Signature object that implements the specified
* signature algorithm.
*
* <p> A new Signature object encapsulating the
* SignatureSpi 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 algorithm the name of the algorithm requested.
* See the Signature section in the <a href=
* "{@docRoot}/../technotes/guides/security/StandardNames.html#Signature">
* Java Cryptography Architecture Standard Algorithm Name Documentation</a>
* for information about standard algorithm names.
*
* @param provider the provider.
*
* @return the new Signature object.
*
* @exception NoSuchAlgorithmException if a SignatureSpi
* implementation for the specified algorithm is not available
* from the specified Provider object.
*
* @exception IllegalArgumentException if the provider is null.
*
* @see Provider
*
* @since 1.4
*/
public static Signature getInstance(String algorithm, Provider provider)
throws NoSuchAlgorithmException {
if (algorithm.equalsIgnoreCase(RSA_SIGNATURE)) {
// exception compatibility with existing code
if (provider == null) {
throw new IllegalArgumentException("missing provider");
}
return getInstanceRSA(provider);
}
// Android-added: Check for Bouncy Castle deprecation
Providers.checkBouncyCastleDeprecation(provider, "Signature", algorithm);
Instance instance = GetInstance.getInstance
("Signature", SignatureSpi.class, algorithm, provider);
return getInstance(instance, algorithm);
}
// return an implementation for NONEwithRSA, which is a special case
// because of the Cipher.RSA/ECB/PKCS1Padding compatibility wrapper
private static Signature getInstanceRSA(Provider p)
throws NoSuchAlgorithmException {
// try Signature first
Service s = p.getService("Signature", RSA_SIGNATURE);
if (s != null) {
Instance instance = GetInstance.getInstance(s, SignatureSpi.class);
return getInstance(instance, RSA_SIGNATURE);
}
// check Cipher
try {
Cipher c = Cipher.getInstance(RSA_CIPHER, p);
return new Delegate(new CipherAdapter(c), RSA_SIGNATURE);
} catch (GeneralSecurityException e) {
// throw Signature style exception message to avoid confusion,
// but append Cipher exception as cause
throw new NoSuchAlgorithmException("no such algorithm: "
+ RSA_SIGNATURE + " for provider " + p.getName(), e);
}
}
/**
* Returns the provider of this signature object.
*
* @return the provider of this signature object
*/
public final Provider getProvider() {
chooseFirstProvider();
return this.provider;
}
void chooseFirstProvider() {
// empty, overridden in Delegate
}
/**
* Initializes this object for verification. If this method is called
* again with a different argument, it negates the effect
* of this call.
*
* @param publicKey the public key of the identity whose signature is
* going to be verified.
*
* @exception InvalidKeyException if the key is invalid.
*/
public final void initVerify(PublicKey publicKey)
throws InvalidKeyException {
engineInitVerify(publicKey);
state = VERIFY;
// BEGIN Android-removed: this debugging mechanism is not supported in Android.
/*
if (!skipDebug && pdebug != null) {
pdebug.println("Signature." + algorithm +
" verification algorithm from: " + this.provider.getName());
}
*/
// END Android-removed: this debugging mechanism is not supported in Android.
}
/**
* Initializes this object for verification, using the public key from
* the given certificate.
* <p>If the certificate is of type X.509 and has a <i>key usage</i>
* extension field marked as critical, and the value of the <i>key usage</i>
* extension field implies that the public key in
* the certificate and its corresponding private key are not
* supposed to be used for digital signatures, an
* {@code InvalidKeyException} is thrown.
*
* @param certificate the certificate of the identity whose signature is
* going to be verified.
*
* @exception InvalidKeyException if the public key in the certificate
* is not encoded properly or does not include required parameter
* information or cannot be used for digital signature purposes.
* @since 1.3
*/
public final void initVerify(Certificate certificate)
throws InvalidKeyException {
// If the certificate is of type X509Certificate,
// we should check whether it has a Key Usage
// extension marked as critical.
if (certificate instanceof java.security.cert.X509Certificate) {
// Check whether the cert has a key usage extension
// marked as a critical extension.
// The OID for KeyUsage extension is 2.5.29.15.
X509Certificate cert = (X509Certificate)certificate;
Set<String> critSet = cert.getCriticalExtensionOIDs();
if (critSet != null && !critSet.isEmpty()
&& critSet.contains("2.5.29.15")) {
boolean[] keyUsageInfo = cert.getKeyUsage();
// keyUsageInfo[0] is for digitalSignature.
if ((keyUsageInfo != null) && (keyUsageInfo[0] == false))
throw new InvalidKeyException("Wrong key usage");
}
}
PublicKey publicKey = certificate.getPublicKey();
engineInitVerify(publicKey);
state = VERIFY;
// BEGIN Android-removed: this debugging mechanism is not supported in Android.
/*
if (!skipDebug && pdebug != null) {
pdebug.println("Signature." + algorithm +
" verification algorithm from: " + this.provider.getName());
}
*/
// END Android-removed: this debugging mechanism is not supported in Android.
}
/**
* Initialize this object for signing. If this method is called
* again with a different argument, it negates the effect
* of this call.
*
* @param privateKey the private key of the identity whose signature
* is going to be generated.
*
* @exception InvalidKeyException if the key is invalid.
*/
public final void initSign(PrivateKey privateKey)
throws InvalidKeyException {
engineInitSign(privateKey);
state = SIGN;
// BEGIN Android-removed: this debugging mechanism is not supported in Android.
/*
if (!skipDebug && pdebug != null) {
pdebug.println("Signature." + algorithm +
" signing algorithm from: " + this.provider.getName());
}
*/
// END Android-removed: this debugging mechanism is not supported in Android.
}
/**
* Initialize this object for signing. If this method is called
* again with a different argument, it negates the effect
* of this call.
*
* @param privateKey the private key of the identity whose signature
* is going to be generated.
*
* @param random the source of randomness for this signature.
*
* @exception InvalidKeyException if the key is invalid.
*/
public final void initSign(PrivateKey privateKey, SecureRandom random)
throws InvalidKeyException {
engineInitSign(privateKey, random);
state = SIGN;
// BEGIN Android-removed: this debugging mechanism is not supported in Android.
/*
if (!skipDebug && pdebug != null) {
pdebug.println("Signature." + algorithm +
" signing algorithm from: " + this.provider.getName());
}
*/
// END Android-removed: this debugging mechanism is not supported in Android.
}
/**
* Returns the signature bytes of all the data updated.
* The format of the signature depends on the underlying
* signature scheme.
*
* <p>A call to this method resets this signature object to the state
* it was in when previously initialized for signing via a
* call to {@code initSign(PrivateKey)}. That is, the object is
* reset and available to generate another signature from the same
* signer, if desired, via new calls to {@code update} and
* {@code sign}.
*
* @return the signature bytes of the signing operation's result.
*
* @exception SignatureException if this signature object is not
* initialized properly or if this signature algorithm is unable to
* process the input data provided.
*/
public final byte[] sign() throws SignatureException {
if (state == SIGN) {
return engineSign();
}
throw new SignatureException("object not initialized for " +
"signing");
}
/**
* Finishes the signature operation and stores the resulting signature
* bytes in the provided buffer {@code outbuf}, starting at
* {@code offset}.
* The format of the signature depends on the underlying
* signature scheme.
*
* <p>This signature object is reset to its initial state (the state it
* was in after a call to one of the {@code initSign} methods) and
* can be reused to generate further signatures with the same private key.
*
* @param outbuf buffer for the signature result.
*
* @param offset offset into {@code outbuf} where the signature is
* stored.
*
* @param len number of bytes within {@code outbuf} allotted for the
* signature.
*
* @return the number of bytes placed into {@code outbuf}.
*
* @exception SignatureException if this signature object is not
* initialized properly, if this signature algorithm is unable to
* process the input data provided, or if {@code len} is less
* than the actual signature length.
*
* @since 1.2
*/
public final int sign(byte[] outbuf, int offset, int len)
throws SignatureException {
if (outbuf == null) {
throw new IllegalArgumentException("No output buffer given");
}
if (offset < 0 || len < 0) {
throw new IllegalArgumentException("offset or len is less than 0");
}
if (outbuf.length - offset < len) {
throw new IllegalArgumentException
("Output buffer too small for specified offset and length");
}
if (state != SIGN) {
throw new SignatureException("object not initialized for " +
"signing");
}
return engineSign(outbuf, offset, len);
}
/**
* Verifies the passed-in signature.
*
* <p>A call to this method resets this signature object to the state
* it was in when previously initialized for verification via a
* call to {@code initVerify(PublicKey)}. That is, the object is
* reset and available to verify another signature from the identity
* whose public key was specified in the call to {@code initVerify}.
*
* @param signature the signature bytes to be verified.
*
* @return true if the signature was verified, false if not.
*
* @exception SignatureException if this signature object is not
* initialized properly, the passed-in signature is improperly
* encoded or of the wrong type, if this signature algorithm is unable to
* process the input data provided, etc.
*/
public final boolean verify(byte[] signature) throws SignatureException {
if (state == VERIFY) {
return engineVerify(signature);
}
throw new SignatureException("object not initialized for " +
"verification");
}
/**
* Verifies the passed-in signature in the specified array
* of bytes, starting at the specified offset.
*
* <p>A call to this method resets this signature object to the state
* it was in when previously initialized for verification via a
* call to {@code initVerify(PublicKey)}. That is, the object is
* reset and available to verify another signature from the identity
* whose public key was specified in the call to {@code initVerify}.
*
*
* @param signature the signature bytes to be verified.
* @param offset the offset to start from in the array of bytes.
* @param length the number of bytes to use, starting at offset.
*
* @return true if the signature was verified, false if not.
*
* @exception SignatureException if this signature object is not
* initialized properly, the passed-in signature is improperly
* encoded or of the wrong type, if this signature algorithm is unable to
* process the input data provided, etc.
* @exception IllegalArgumentException if the {@code signature}
* byte array is null, or the {@code offset} or {@code length}
* is less than 0, or the sum of the {@code offset} and
* {@code length} is greater than the length of the
* {@code signature} byte array.
* @since 1.4
*/
public final boolean verify(byte[] signature, int offset, int length)
throws SignatureException {
if (state == VERIFY) {
if (signature == null) {
throw new IllegalArgumentException("signature is null");
}
if (offset < 0 || length < 0) {
throw new IllegalArgumentException
("offset or length is less than 0");
}
if (signature.length - offset < length) {
throw new IllegalArgumentException
("signature too small for specified offset and length");
}
return engineVerify(signature, offset, length);
}
throw new SignatureException("object not initialized for " +
"verification");
}
/**
* Updates the data to be signed or verified by a byte.
*
* @param b the byte to use for the update.
*
* @exception SignatureException if this signature object is not
* initialized properly.
*/
public final void update(byte b) throws SignatureException {
if (state == VERIFY || state == SIGN) {
engineUpdate(b);
} else {
throw new SignatureException("object not initialized for "
+ "signature or verification");
}
}
/**
* Updates the data to be signed or verified, using the specified
* array of bytes.
*
* @param data the byte array to use for the update.
*
* @exception SignatureException if this signature object is not
* initialized properly.
*/
public final void update(byte[] data) throws SignatureException {
update(data, 0, data.length);
}
/**
* Updates the data to be signed or verified, using the specified
* array of bytes, starting at the specified offset.
*
* @param data the array of bytes.
* @param off the offset to start from in the array of bytes.
* @param len the number of bytes to use, starting at offset.
*
* @exception SignatureException if this signature object is not
* initialized properly.
*/
public final void update(byte[] data, int off, int len)
throws SignatureException {
if (state == SIGN || state == VERIFY) {
if (data == null) {
throw new IllegalArgumentException("data is null");
}
if (off < 0 || len < 0) {
throw new IllegalArgumentException("off or len is less than 0");
}
if (data.length - off < len) {
throw new IllegalArgumentException
("data too small for specified offset and length");
}
engineUpdate(data, off, len);
} else {
throw new SignatureException("object not initialized for "
+ "signature or verification");
}
}
/**
* Updates the data to be signed or verified using the specified
* ByteBuffer. Processes the {@code data.remaining()} bytes
* starting at at {@code data.position()}.
* Upon return, the buffer's position will be equal to its limit;
* its limit will not have changed.
*
* @param data the ByteBuffer
*
* @exception SignatureException if this signature object is not
* initialized properly.
* @since 1.5
*/
public final void update(ByteBuffer data) throws SignatureException {
if ((state != SIGN) && (state != VERIFY)) {
throw new SignatureException("object not initialized for "
+ "signature or verification");
}
if (data == null) {
throw new NullPointerException();
}
engineUpdate(data);
}
/**
* Returns the name of the algorithm for this signature object.
*
* @return the name of the algorithm for this signature object.
*/
public final String getAlgorithm() {
return this.algorithm;
}
/**
* Returns a string representation of this signature object,
* providing information that includes the state of the object
* and the name of the algorithm used.
*
* @return a string representation of this signature object.
*/
public String toString() {
String initState = "";
switch (state) {
case UNINITIALIZED:
initState = "<not initialized>";
break;
case VERIFY:
initState = "<initialized for verifying>";
break;
case SIGN:
initState = "<initialized for signing>";
break;
}
return "Signature object: " + getAlgorithm() + initState;
}
/**
* Sets the specified algorithm parameter to the specified value.
* This method supplies a general-purpose mechanism through
* which it is possible to set the various parameters of this object.
* A parameter may be any settable parameter for the algorithm, such as
* a parameter size, or a source of random bits for signature generation
* (if appropriate), or an indication of whether or not to perform
* a specific but optional computation. A uniform algorithm-specific
* naming scheme for each parameter is desirable but left unspecified
* at this time.
*
* @param param the string identifier of the parameter.
* @param value the parameter value.
*
* @exception InvalidParameterException if {@code param} is an
* invalid parameter for this signature algorithm engine,
* the parameter is already set
* and cannot be set again, a security exception occurs, and so on.
*
* @see #getParameter
*
* @deprecated Use
* {@link #setParameter(java.security.spec.AlgorithmParameterSpec)
* setParameter}.
*/
@Deprecated
public final void setParameter(String param, Object value)
throws InvalidParameterException {
engineSetParameter(param, value);
}
/**
* Initializes this signature engine with the specified parameter set.
*
* @param params the parameters
*
* @exception InvalidAlgorithmParameterException if the given parameters
* are inappropriate for this signature engine
*
* @see #getParameters
*/
public final void setParameter(AlgorithmParameterSpec params)
throws InvalidAlgorithmParameterException {
engineSetParameter(params);
}
/**
* Returns the parameters used with this signature object.
*
* <p>The returned parameters may be the same that were used to initialize
* this signature, or may contain a combination of default and randomly
* generated parameter values used by the underlying signature
* implementation if this signature requires algorithm parameters but
* was not initialized with any.
*
* @return the parameters used with this signature, or null if this
* signature does not use any parameters.
*
* @see #setParameter(AlgorithmParameterSpec)
* @since 1.4
*/
public final AlgorithmParameters getParameters() {
return engineGetParameters();
}
/**
* Gets the value of the specified algorithm parameter. This method
* supplies a general-purpose mechanism through which it is possible to
* get the various parameters of this object. A parameter may be any
* settable parameter for the algorithm, such as a parameter size, or
* a source of random bits for signature generation (if appropriate),
* or an indication of whether or not to perform a specific but optional
* computation. A uniform algorithm-specific naming scheme for each
* parameter is desirable but left unspecified at this time.
*
* @param param the string name of the parameter.
*
* @return the object that represents the parameter value, or null if
* there is none.
*
* @exception InvalidParameterException if {@code param} is an invalid
* parameter for this engine, or another exception occurs while
* trying to get this parameter.
*
* @see #setParameter(String, Object)
*
* @deprecated Deprecated.
*/
@Deprecated
// Android-changed: add "Deprecated."
public final Object getParameter(String param)
throws InvalidParameterException {
return engineGetParameter(param);
}
/**
* Returns a clone if the implementation is cloneable.
*
* @return a clone if the implementation is cloneable.
*
* @exception CloneNotSupportedException if this is called
* on an implementation that does not support {@code Cloneable}.
*/
public Object clone() throws CloneNotSupportedException {
if (this instanceof Cloneable) {
return super.clone();
} else {
throw new CloneNotSupportedException();
}
}
// BEGIN Android-added: Allow access to the current SPI for testing purposes.
/**
* Returns the {@code SignatureSpi} backing this {@code Signature}.
*
* @hide
*/
public SignatureSpi getCurrentSpi() {
return null;
}
// END Android-added: Allow access to the current SPI for testing purposes.
/*
* The following class allows providers to extend from SignatureSpi
* rather than from Signature. It represents a Signature with an
* encapsulated, provider-supplied SPI object (of type SignatureSpi).
* If the provider implementation is an instance of SignatureSpi, the
* getInstance() methods above return an instance of this class, with
* the SPI object encapsulated.
*
* Note: All SPI methods from the original Signature class have been
* moved up the hierarchy into a new class (SignatureSpi), which has
* been interposed in the hierarchy between the API (Signature)
* and its original parent (Object).
*/
@SuppressWarnings("deprecation")
private static class Delegate extends Signature {
// The provider implementation (delegate)
// filled in once the provider is selected
// BEGIN Android-note: Note on sigSpi invariants.
// (Not necessarily Android specific)
// Invariant to be preserved: sigSpi cannot be changed once it was assigned to something
// different than null and lock is null. That is only the case when sigSpi is specified
// in the constructor.
// END Android-note: Note on sigSpi invariants.
private SignatureSpi sigSpi;
// lock for mutex during provider selection
private final Object lock;
// BEGIN Android-removed: Redo the provider selection logic to allow reselecting provider.
// When only the algorithm is specified, we want to allow the Signature provider for that
// algorithm to change if multiple providers exist and they support different subsets of
// keys. To that end, we don't hold an iterator and exhaust it when we need to choose
// a provider like the upstream implementation, we reestablish the list of providers
// each time.
/*
// next service to try in provider selection
// null once provider is selected
private Service firstService;
// remaining services to try in provider selection
// null once provider is selected
private Iterator<Service> serviceIterator;
*/
// END Android-removed: Redo the provider selection logic to allow reselecting provider.
// constructor
Delegate(SignatureSpi sigSpi, String algorithm) {
super(algorithm);
this.sigSpi = sigSpi;
this.lock = null; // no lock needed
}
// used with delayed provider selection
// Android-changed: Remove Service and Iterator from constructor args.
Delegate(String algorithm) {
super(algorithm);
this.lock = new Object();
}
/**
* Returns a clone if the delegate is cloneable.
*
* @return a clone if the delegate is cloneable.
*
* @exception CloneNotSupportedException if this is called on a
* delegate that does not support {@code Cloneable}.
*/
public Object clone() throws CloneNotSupportedException {
chooseFirstProvider();
if (sigSpi instanceof Cloneable) {
SignatureSpi sigSpiClone = (SignatureSpi)sigSpi.clone();
// Because 'algorithm' and 'provider' are private
// members of our supertype, we must perform a cast to
// access them.
Signature that =
new Delegate(sigSpiClone, ((Signature)this).algorithm);
that.provider = ((Signature)this).provider;
return that;
} else {
throw new CloneNotSupportedException();
}
}
private static SignatureSpi newInstance(Service s)
throws NoSuchAlgorithmException {
if (s.getType().equals("Cipher")) {
// must be NONEwithRSA
try {
Cipher c = Cipher.getInstance(RSA_CIPHER, s.getProvider());
return new CipherAdapter(c);
} catch (NoSuchPaddingException e) {
throw new NoSuchAlgorithmException(e);
}
} else {
Object o = s.newInstance(null);
if (o instanceof SignatureSpi == false) {
throw new NoSuchAlgorithmException
("Not a SignatureSpi: " + o.getClass().getName());
}
return (SignatureSpi)o;
}
}
// max number of debug warnings to print from chooseFirstProvider()
private static int warnCount = 10;
/**
* Choose the Spi from the first provider available. Used if
* delayed provider selection is not possible because initSign()/
* initVerify() is not the first method called.
*/
void chooseFirstProvider() {
if (sigSpi != null) {
return;
}
synchronized (lock) {
if (sigSpi != null) {
return;
}
// BEGIN Android-removed: this debugging mechanism is not supported in Android.
/*
if (debug != null) {
int w = --warnCount;
if (w >= 0) {
debug.println("Signature.init() not first method "
+ "called, disabling delayed provider selection");
if (w == 0) {
debug.println("Further warnings of this type will "
+ "be suppressed");
}
new Exception("Call trace").printStackTrace();
}
}
*/
// END Android-removed: this debugging mechanism is not supported in Android.
Exception lastException = null;
// BEGIN Android-changed: Provider selection; loop over a new list each time.
List<Service> list;
if (((Signature)this).algorithm.equalsIgnoreCase(RSA_SIGNATURE)) {
list = GetInstance.getServices(rsaIds);
} else {
list = GetInstance.getServices("Signature",
((Signature)this).algorithm);
}
for (Service s : list) {
// END Android-changed: Provider selection; loop over a new list each time.
if (isSpi(s) == false) {
continue;
}
try {
sigSpi = newInstance(s);
provider = s.getProvider();
// Android-removed: Provider selection; loop over a new list each time.
/*
// not needed any more
firstService = null;
serviceIterator = null;
*/
return;
} catch (NoSuchAlgorithmException e) {
lastException = e;
}
}
ProviderException e = new ProviderException
("Could not construct SignatureSpi instance");
if (lastException != null) {
e.initCause(lastException);
}
throw e;
}
}
private void chooseProvider(int type, Key key, SecureRandom random)
throws InvalidKeyException {
synchronized (lock) {
// Android-changed: Use the currently-selected provider only if no key was provided.
// if (sigSpi != null) {
if (sigSpi != null && key == null) {
init(sigSpi, type, key, random);
return;
}
Exception lastException = null;
// BEGIN Android-changed: Provider selection; loop over a new list each time.
List<Service> list;
if (((Signature)this).algorithm.equalsIgnoreCase(RSA_SIGNATURE)) {
list = GetInstance.getServices(rsaIds);
} else {
list = GetInstance.getServices("Signature",
((Signature)this).algorithm);
}
for (Service s : list) {
// END Android-changed: Provider selection; loop over a new list each time.
// if provider says it does not support this key, ignore it
if (s.supportsParameter(key) == false) {
continue;
}
// if instance is not a SignatureSpi, ignore it
if (isSpi(s) == false) {
continue;
}
try {
SignatureSpi spi = newInstance(s);
init(spi, type, key, random);
provider = s.getProvider();
sigSpi = spi;
// Android-removed: Provider selection; loop over a new list each time.
/*
firstService = null;
serviceIterator = null;
*/
return;
} catch (Exception e) {
// NoSuchAlgorithmException from newInstance()
// InvalidKeyException from init()
// RuntimeException (ProviderException) from init()
if (lastException == null) {
lastException = e;
}
// Android-added: Throw InvalidKeyException immediately.
if (lastException instanceof InvalidKeyException) {
throw (InvalidKeyException)lastException;
}
}
}
// no working provider found, fail
if (lastException instanceof InvalidKeyException) {
throw (InvalidKeyException)lastException;
}
if (lastException instanceof RuntimeException) {
throw (RuntimeException)lastException;
}
String k = (key != null) ? key.getClass().getName() : "(null)";
throw new InvalidKeyException
("No installed provider supports this key: "
+ k, lastException);
}
}
private final static int I_PUB = 1;
private final static int I_PRIV = 2;
private final static int I_PRIV_SR = 3;
private void init(SignatureSpi spi, int type, Key key,
SecureRandom random) throws InvalidKeyException {
switch (type) {
case I_PUB:
spi.engineInitVerify((PublicKey)key);
break;
case I_PRIV:
spi.engineInitSign((PrivateKey)key);
break;
case I_PRIV_SR:
spi.engineInitSign((PrivateKey)key, random);
break;
default:
throw new AssertionError("Internal error: " + type);
}
}
protected void engineInitVerify(PublicKey publicKey)
throws InvalidKeyException {
// Android-changed: Use the currently-selected provider only if no key was provided.
// if (sigSpi != null) {
if (sigSpi != null && (lock == null || publicKey == null)) {
sigSpi.engineInitVerify(publicKey);
} else {
chooseProvider(I_PUB, publicKey, null);
}
}
protected void engineInitSign(PrivateKey privateKey)
throws InvalidKeyException {
// Android-changed: Use the currently-selected provider only if no key was provided.
// if (sigSpi != null) {
if (sigSpi != null && (lock == null || privateKey == null)) {
sigSpi.engineInitSign(privateKey);
} else {
chooseProvider(I_PRIV, privateKey, null);
}
}
protected void engineInitSign(PrivateKey privateKey, SecureRandom sr)
throws InvalidKeyException {
// Android-changed: Use the currently-selected provider only if no key was provided.
// if (sigSpi != null) {
if (sigSpi != null && (lock == null || privateKey == null)) {
sigSpi.engineInitSign(privateKey, sr);
} else {
chooseProvider(I_PRIV_SR, privateKey, sr);
}
}
protected void engineUpdate(byte b) throws SignatureException {
chooseFirstProvider();
sigSpi.engineUpdate(b);
}
protected void engineUpdate(byte[] b, int off, int len)
throws SignatureException {
chooseFirstProvider();
sigSpi.engineUpdate(b, off, len);
}
protected void engineUpdate(ByteBuffer data) {
chooseFirstProvider();
sigSpi.engineUpdate(data);
}
protected byte[] engineSign() throws SignatureException {
chooseFirstProvider();
return sigSpi.engineSign();
}
protected int engineSign(byte[] outbuf, int offset, int len)
throws SignatureException {
chooseFirstProvider();
return sigSpi.engineSign(outbuf, offset, len);
}
protected boolean engineVerify(byte[] sigBytes)
throws SignatureException {
chooseFirstProvider();
return sigSpi.engineVerify(sigBytes);
}
protected boolean engineVerify(byte[] sigBytes, int offset, int length)
throws SignatureException {
chooseFirstProvider();
return sigSpi.engineVerify(sigBytes, offset, length);
}
protected void engineSetParameter(String param, Object value)
throws InvalidParameterException {
chooseFirstProvider();
sigSpi.engineSetParameter(param, value);
}
protected void engineSetParameter(AlgorithmParameterSpec params)
throws InvalidAlgorithmParameterException {
chooseFirstProvider();
sigSpi.engineSetParameter(params);
}
protected Object engineGetParameter(String param)
throws InvalidParameterException {
chooseFirstProvider();
return sigSpi.engineGetParameter(param);
}
protected AlgorithmParameters engineGetParameters() {
chooseFirstProvider();
return sigSpi.engineGetParameters();
}
// BEGIN Android-added: Allow access to the current SPI for testing purposes.
@Override
public SignatureSpi getCurrentSpi() {
if (lock == null) {
return sigSpi;
}
synchronized (lock) {
return sigSpi;
}
}
// END Android-added: Allow access to the current SPI for testing purposes.
}
// adapter for RSA/ECB/PKCS1Padding ciphers
@SuppressWarnings("deprecation")
private static class CipherAdapter extends SignatureSpi {
private final Cipher cipher;
private ByteArrayOutputStream data;
CipherAdapter(Cipher cipher) {
this.cipher = cipher;
}
protected void engineInitVerify(PublicKey publicKey)
throws InvalidKeyException {
cipher.init(Cipher.DECRYPT_MODE, publicKey);
if (data == null) {
data = new ByteArrayOutputStream(128);
} else {
data.reset();
}
}
protected void engineInitSign(PrivateKey privateKey)
throws InvalidKeyException {
cipher.init(Cipher.ENCRYPT_MODE, privateKey);
data = null;
}
protected void engineInitSign(PrivateKey privateKey,
SecureRandom random) throws InvalidKeyException {
cipher.init(Cipher.ENCRYPT_MODE, privateKey, random);
data = null;
}
protected void engineUpdate(byte b) throws SignatureException {
engineUpdate(new byte[] {b}, 0, 1);
}
protected void engineUpdate(byte[] b, int off, int len)
throws SignatureException {
if (data != null) {
data.write(b, off, len);
return;
}
byte[] out = cipher.update(b, off, len);
if ((out != null) && (out.length != 0)) {
throw new SignatureException
("Cipher unexpectedly returned data");
}
}
protected byte[] engineSign() throws SignatureException {
try {
return cipher.doFinal();
} catch (IllegalBlockSizeException e) {
throw new SignatureException("doFinal() failed", e);
} catch (BadPaddingException e) {
throw new SignatureException("doFinal() failed", e);
}
}
protected boolean engineVerify(byte[] sigBytes)
throws SignatureException {
try {
byte[] out = cipher.doFinal(sigBytes);
byte[] dataBytes = data.toByteArray();
data.reset();
return MessageDigest.isEqual(out, dataBytes);
} catch (BadPaddingException e) {
// e.g. wrong public key used
// return false rather than throwing exception
return false;
} catch (IllegalBlockSizeException e) {
throw new SignatureException("doFinal() failed", e);
}
}
protected void engineSetParameter(String param, Object value)
throws InvalidParameterException {
throw new InvalidParameterException("Parameters not supported");
}
protected Object engineGetParameter(String param)
throws InvalidParameterException {
throw new InvalidParameterException("Parameters not supported");
}
}
}
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