/*
* Copyright (c) 2019, Oracle and/or its affiliates. All rights reserved.
* 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).
*
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* 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
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package sun.security.pkcs11;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.nio.ByteBuffer;
import sun.nio.ch.DirectBuffer;
import java.util.Hashtable;
import java.util.Arrays;
import java.security.*;
import java.security.spec.AlgorithmParameterSpec;
import java.security.spec.MGF1ParameterSpec;
import java.security.spec.PSSParameterSpec;
import java.security.interfaces.*;
import sun.security.pkcs11.wrapper.*;
import static sun.security.pkcs11.wrapper.PKCS11Constants.*;
/**
* RSASSA-PSS Signature implementation class. This class currently supports the
* following algorithms:
*
* . RSA-PSS:
* . RSASSA-PSS
* . SHA1withRSASSA-PSS
* . SHA224withRSASSA-PSS
* . SHA256withRSASSA-PSS
* . SHA384withRSASSA-PSS
* . SHA512withRSASSA-PSS
*
* Note that the underlying PKCS#11 token may support complete signature
* algorithm (e.g. CKM_<md>_RSA_PKCS_PSS), or it may just
* implement the signature algorithm without hashing (i.e. CKM_RSA_PKCS_PSS).
* This class uses what is available and adds whatever extra processing
* is needed.
*
* @since 13
*/
final class P11PSSSignature extends SignatureSpi {
private final static boolean DEBUG = false;
// mappings of digest algorithms and their output length in bytes
private static final Hashtable<String, Integer> DIGEST_LENGTHS =
new Hashtable<String, Integer>();
static {
DIGEST_LENGTHS.put("SHA-1", 20);
DIGEST_LENGTHS.put("SHA", 20);
DIGEST_LENGTHS.put("SHA1", 20);
DIGEST_LENGTHS.put("SHA-224", 28);
DIGEST_LENGTHS.put("SHA224", 28);
DIGEST_LENGTHS.put("SHA-256", 32);
DIGEST_LENGTHS.put("SHA256", 32);
DIGEST_LENGTHS.put("SHA-384", 48);
DIGEST_LENGTHS.put("SHA384", 48);
DIGEST_LENGTHS.put("SHA-512", 64);
DIGEST_LENGTHS.put("SHA512", 64);
DIGEST_LENGTHS.put("SHA-512/224", 28);
DIGEST_LENGTHS.put("SHA512/224", 28);
DIGEST_LENGTHS.put("SHA-512/256", 32);
DIGEST_LENGTHS.put("SHA512/256", 32);
}
// utility method for comparing digest algorithms
// NOTE that first argument is assumed to be standard digest name
private static boolean isDigestEqual(String stdAlg, String givenAlg) {
if (stdAlg == null || givenAlg == null) return false;
if (givenAlg.indexOf("-") != -1) {
return stdAlg.equalsIgnoreCase(givenAlg);
} else {
if (stdAlg.equals("SHA-1")) {
return (givenAlg.equalsIgnoreCase("SHA")
|| givenAlg.equalsIgnoreCase("SHA1"));
} else {
StringBuilder sb = new StringBuilder(givenAlg);
// case-insensitive check
if (givenAlg.regionMatches(true, 0, "SHA", 0, 3)) {
givenAlg = sb.insert(3, "-").toString();
return stdAlg.equalsIgnoreCase(givenAlg);
} else {
throw new ProviderException("Unsupported digest algorithm "
+ givenAlg);
}
}
}
}
// token instance
private final Token token;
// algorithm name
private final String algorithm;
// name of the key algorithm, currently just RSA
private static final String KEY_ALGO = "RSA";
// mechanism id
private final CK_MECHANISM mechanism;
// type, one of T_* below
private final int type;
// key instance used, if init*() was called
private P11Key p11Key = null;
// PSS parameters and the flag controlling its access
private PSSParameterSpec sigParams = null;
private boolean isActive = false;
// message digest alg, if implied by the algorithm name
private final String mdAlg;
// message digest, if we do the digesting ourselves
private MessageDigest md = null;
// associated session, if any
private Session session;
// mode, one of M_* below
private int mode;
// flag indicating whether an operation is initialized
private boolean initialized = false;
// buffer, for update(byte)
private final byte[] buffer = new byte[1];
// total number of bytes processed in current operation
private int bytesProcessed = 0;
// constant for signing mode
private final static int M_SIGN = 1;
// constant for verification mode
private final static int M_VERIFY = 2;
// constant for type digesting, we do the hashing ourselves
private final static int T_DIGEST = 1;
// constant for type update, token does everything
private final static int T_UPDATE = 2;
P11PSSSignature(Token token, String algorithm, long mechId)
throws NoSuchAlgorithmException, PKCS11Exception {
super();
this.token = token;
this.algorithm = algorithm;
this.mechanism = new CK_MECHANISM(mechId);
int idx = algorithm.indexOf("with");
this.mdAlg = (idx == -1? null : algorithm.substring(0, idx));
switch ((int)mechId) {
case (int)CKM_SHA1_RSA_PKCS_PSS:
case (int)CKM_SHA224_RSA_PKCS_PSS:
case (int)CKM_SHA256_RSA_PKCS_PSS:
case (int)CKM_SHA384_RSA_PKCS_PSS:
case (int)CKM_SHA512_RSA_PKCS_PSS:
type = T_UPDATE;
break;
case (int)CKM_RSA_PKCS_PSS:
type = T_DIGEST;
break;
default:
throw new ProviderException("Unsupported mechanism: " + mechId);
}
this.md = null;
}
private void ensureInitialized() throws SignatureException {
token.ensureValid();
if (this.p11Key == null) {
throw new SignatureException("Missing key");
}
if (this.sigParams == null) {
if (this.mdAlg == null) {
// PSS Parameters are required for signature verification
throw new SignatureException
("Parameters required for RSASSA-PSS signature");
} else {
int saltLen = DIGEST_LENGTHS.get(this.mdAlg).intValue();
// generate default params for both sign and verify?
this.sigParams = new PSSParameterSpec(this.mdAlg,
"MGF1", new MGF1ParameterSpec(this.mdAlg),
saltLen, PSSParameterSpec.TRAILER_FIELD_BC);
this.mechanism.setParameter(new CK_RSA_PKCS_PSS_PARAMS(
this.mdAlg, "MGF1", this.mdAlg,
DIGEST_LENGTHS.get(this.mdAlg).intValue()));
}
}
if (initialized == false) {
initialize();
}
}
// reset the states to the pre-initialized values
private void reset(boolean doCancel) {
if (!initialized) {
return;
}
initialized = false;
try {
if (session == null) {
return;
}
if (doCancel && token.explicitCancel) {
cancelOperation();
}
} finally {
p11Key.releaseKeyID();
mechanism.freeHandle();
session = token.releaseSession(session);
isActive = false;
}
}
private void cancelOperation() {
token.ensureValid();
if (DEBUG) System.out.print("Cancelling operation");
if (session.hasObjects() == false) {
if (DEBUG) System.out.println(" by killing session");
session = token.killSession(session);
return;
}
// "cancel" operation by finishing it
if (mode == M_SIGN) {
try {
if (type == T_UPDATE) {
if (DEBUG) System.out.println(" by C_SignFinal");
token.p11.C_SignFinal(session.id(), 0);
} else {
byte[] digest =
(md == null? new byte[0] : md.digest());
if (DEBUG) System.out.println(" by C_Sign");
token.p11.C_Sign(session.id(), digest);
}
} catch (PKCS11Exception e) {
throw new ProviderException("cancel failed", e);
}
} else { // M_VERIFY
try {
byte[] signature =
new byte[(p11Key.length() + 7) >> 3];
if (type == T_UPDATE) {
if (DEBUG) System.out.println(" by C_VerifyFinal");
token.p11.C_VerifyFinal(session.id(), signature);
} else {
byte[] digest =
(md == null? new byte[0] : md.digest());
if (DEBUG) System.out.println(" by C_Verify");
token.p11.C_Verify(session.id(), digest, signature);
}
} catch (PKCS11Exception e) {
// will fail since the signature is incorrect
// XXX check error code
}
}
}
// assumes current state is initialized == false
private void initialize() {
if (DEBUG) System.out.println("Initializing");
if (p11Key == null) {
throw new ProviderException(
"No Key found, call initSign/initVerify first");
}
long keyID = p11Key.getKeyID();
try {
if (session == null) {
session = token.getOpSession();
}
if (mode == M_SIGN) {
token.p11.C_SignInit(session.id(), mechanism, keyID);
} else {
token.p11.C_VerifyInit(session.id(), mechanism, keyID);
}
} catch (PKCS11Exception e) {
p11Key.releaseKeyID();
session = token.releaseSession(session);
throw new ProviderException("Initialization failed", e);
}
if (bytesProcessed != 0) {
bytesProcessed = 0;
if (md != null) {
md.reset();
}
}
initialized = true;
isActive = false;
if (DEBUG) System.out.println("Initialized");
}
private void checkKeySize(Key key) throws InvalidKeyException {
if (DEBUG) System.out.print("Checking Key");
if (!key.getAlgorithm().equals(KEY_ALGO)) {
throw new InvalidKeyException("Only " + KEY_ALGO +
" keys are supported");
}
CK_MECHANISM_INFO mechInfo = null;
try {
mechInfo = token.getMechanismInfo(mechanism.mechanism);
} catch (PKCS11Exception e) {
// should not happen, ignore for now
if (DEBUG) {
System.out.println("Unexpected exception");
e.printStackTrace();
}
}
int keySize = 0; // in bytes
if (mechInfo != null) {
if (key instanceof P11Key) {
keySize = (((P11Key) key).length() + 7) >> 3;
} else if (key instanceof RSAKey) {
keySize = ((RSAKey) key).getModulus().bitLength() >> 3;
} else {
throw new InvalidKeyException("Unrecognized key type " + key);
}
// check against available native info which are in bits
if ((mechInfo.iMinKeySize != 0) &&
(keySize < (mechInfo.iMinKeySize >> 3))) {
throw new InvalidKeyException(KEY_ALGO +
" key must be at least " + mechInfo.iMinKeySize + " bits");
}
if ((mechInfo.iMaxKeySize != Integer.MAX_VALUE) &&
(keySize > (mechInfo.iMaxKeySize >> 3))) {
throw new InvalidKeyException(KEY_ALGO +
" key must be at most " + mechInfo.iMaxKeySize + " bits");
}
}
if (this.sigParams != null) {
String digestAlg = this.sigParams.getDigestAlgorithm();
int sLen = this.sigParams.getSaltLength();
int hLen = DIGEST_LENGTHS.get(digestAlg).intValue();
int minKeyLen = Math.addExact(Math.addExact(sLen, hLen), 2);
if (keySize < minKeyLen) {
throw new InvalidKeyException
("Key is too short for current params, need min " + minKeyLen);
}
}
}
private void setSigParams(AlgorithmParameterSpec p)
throws InvalidAlgorithmParameterException {
if (p == null) {
throw new InvalidAlgorithmParameterException("PSS Parameter required");
}
if (!(p instanceof PSSParameterSpec)) {
throw new InvalidAlgorithmParameterException
("Only PSSParameterSpec is supported");
}
// no need to validate again if same as current signature parameters
PSSParameterSpec params = (PSSParameterSpec) p;
if (params == this.sigParams) return;
String digestAlgorithm = params.getDigestAlgorithm();
if (this.mdAlg != null && !isDigestEqual(digestAlgorithm, this.mdAlg)) {
throw new InvalidAlgorithmParameterException
("Digest algorithm in Signature parameters must be " +
this.mdAlg);
}
Integer digestLen = DIGEST_LENGTHS.get(digestAlgorithm);
if (digestLen == null) {
throw new InvalidAlgorithmParameterException
("Unsupported digest algorithm in Signature parameters: " +
digestAlgorithm);
}
if (!(params.getMGFAlgorithm().equalsIgnoreCase("MGF1"))) {
throw new InvalidAlgorithmParameterException("Only supports MGF1");
}
// defaults to the digest algorithm unless overridden
String mgfDigestAlgo = digestAlgorithm;
AlgorithmParameterSpec mgfParams = params.getMGFParameters();
if (mgfParams != null) {
if (!(mgfParams instanceof MGF1ParameterSpec)) {
throw new InvalidAlgorithmParameterException
("Only MGF1ParameterSpec is supported");
}
mgfDigestAlgo = ((MGF1ParameterSpec)mgfParams).getDigestAlgorithm();
}
if (params.getTrailerField() != PSSParameterSpec.TRAILER_FIELD_BC) {
throw new InvalidAlgorithmParameterException
("Only supports TrailerFieldBC(1)");
}
int saltLen = params.getSaltLength();
if (this.p11Key != null) {
int maxSaltLen = ((this.p11Key.length() + 7) >> 3) -
digestLen.intValue() - 2;
if (DEBUG) {
System.out.println("Max saltLen = " + maxSaltLen);
System.out.println("Curr saltLen = " + saltLen);
}
if (maxSaltLen < 0 || saltLen > maxSaltLen) {
throw new InvalidAlgorithmParameterException
("Invalid with current key size");
}
} else if (DEBUG) {
System.out.println("No key available for validating saltLen");
}
// validated, now try to store the parameter internally
try {
this.mechanism.setParameter(
new CK_RSA_PKCS_PSS_PARAMS(digestAlgorithm, "MGF1",
mgfDigestAlgo, saltLen));
this.sigParams = params;
} catch (IllegalArgumentException iae) {
throw new InvalidAlgorithmParameterException(iae);
}
}
// see JCA spec
@Override
protected void engineInitVerify(PublicKey publicKey)
throws InvalidKeyException {
if (publicKey == null) {
throw new InvalidKeyException("Key must not be null");
}
// Need to check key length whenever a new key is set
if (publicKey != p11Key) {
checkKeySize(publicKey);
}
reset(true);
mode = M_VERIFY;
p11Key = P11KeyFactory.convertKey(token, publicKey, KEY_ALGO);
// For PSS, defer PKCS11 initialization calls to update/doFinal as it
// needs both key and params
}
// see JCA spec
@Override
protected void engineInitSign(PrivateKey privateKey)
throws InvalidKeyException {
if (privateKey == null) {
throw new InvalidKeyException("Key must not be null");
}
// Need to check RSA key length whenever a new key is set
if (privateKey != p11Key) {
checkKeySize(privateKey);
}
reset(true);
mode = M_SIGN;
p11Key = P11KeyFactory.convertKey(token, privateKey, KEY_ALGO);
// For PSS, defer PKCS11 initialization calls to update/doFinal as it
// needs both key and params
}
// see JCA spec
@Override
protected void engineUpdate(byte b) throws SignatureException {
ensureInitialized();
isActive = true;
buffer[0] = b;
engineUpdate(buffer, 0, 1);
}
// see JCA spec
@Override
protected void engineUpdate(byte[] b, int ofs, int len)
throws SignatureException {
ensureInitialized();
if (len == 0) {
return;
}
// check for overflow
if (len + bytesProcessed < 0) {
throw new ProviderException("Processed bytes limits exceeded.");
}
isActive = true;
switch (type) {
case T_UPDATE:
try {
if (mode == M_SIGN) {
System.out.println(this + ": Calling C_SignUpdate");
token.p11.C_SignUpdate(session.id(), 0, b, ofs, len);
} else {
System.out.println(this + ": Calling C_VerfifyUpdate");
token.p11.C_VerifyUpdate(session.id(), 0, b, ofs, len);
}
bytesProcessed += len;
} catch (PKCS11Exception e) {
reset(false);
throw new ProviderException(e);
}
break;
case T_DIGEST:
// should not happen as this should be covered by earlier checks
if (md == null) {
throw new ProviderException("PSS Parameters required");
}
md.update(b, ofs, len);
bytesProcessed += len;
break;
default:
throw new ProviderException("Internal error");
}
}
// see JCA spec
@Override
protected void engineUpdate(ByteBuffer byteBuffer) {
try {
ensureInitialized();
} catch (SignatureException se) {
throw new ProviderException(se);
}
int len = byteBuffer.remaining();
if (len <= 0) {
return;
}
isActive = true;
switch (type) {
case T_UPDATE:
if (byteBuffer instanceof DirectBuffer == false) {
// cannot do better than default impl
super.engineUpdate(byteBuffer);
return;
}
long addr = ((DirectBuffer)byteBuffer).address();
int ofs = byteBuffer.position();
try {
if (mode == M_SIGN) {
System.out.println(this + ": Calling C_SignUpdate");
token.p11.C_SignUpdate
(session.id(), addr + ofs, null, 0, len);
} else {
System.out.println(this + ": Calling C_VerifyUpdate");
token.p11.C_VerifyUpdate
(session.id(), addr + ofs, null, 0, len);
}
bytesProcessed += len;
byteBuffer.position(ofs + len);
} catch (PKCS11Exception e) {
reset(false);
throw new ProviderException("Update failed", e);
}
break;
case T_DIGEST:
// should not happen as this should be covered by earlier checks
if (md == null) {
throw new ProviderException("PSS Parameters required");
}
md.update(byteBuffer);
bytesProcessed += len;
break;
default:
reset(false);
throw new ProviderException("Internal error");
}
}
// see JCA spec
@Override
protected byte[] engineSign() throws SignatureException {
ensureInitialized();
boolean doCancel = true;
if (DEBUG) System.out.print("Generating signature");
try {
byte[] signature;
if (type == T_UPDATE) {
if (DEBUG) System.out.println(" by C_SignFinal");
signature = token.p11.C_SignFinal(session.id(), 0);
} else {
if (md == null) {
throw new ProviderException("PSS Parameters required");
}
byte[] digest = md.digest();
if (DEBUG) System.out.println(" by C_Sign");
signature = token.p11.C_Sign(session.id(), digest);
}
doCancel = false;
return signature;
} catch (PKCS11Exception pe) {
doCancel = false;
throw new ProviderException(pe);
} catch (ProviderException e) {
throw e;
} finally {
reset(doCancel);
}
}
// see JCA spec
@Override
protected boolean engineVerify(byte[] signature) throws SignatureException {
ensureInitialized();
boolean doCancel = true;
if (DEBUG) System.out.print("Verifying signature");
try {
if (type == T_UPDATE) {
if (DEBUG) System.out.println(" by C_VerifyFinal");
token.p11.C_VerifyFinal(session.id(), signature);
} else {
if (md == null) {
throw new ProviderException("PSS Parameters required");
}
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