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	/*
	* Copyright (c) 2015, 2018, 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).
	*
	* 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 sun.security.ssl;

	import java.security.*;
	import java.security.interfaces.ECPrivateKey;
	import java.security.spec.AlgorithmParameterSpec;
	import java.security.spec.ECParameterSpec;
	import java.security.spec.MGF1ParameterSpec;
	import java.security.spec.PSSParameterSpec;
	import java.util.ArrayList;
	import java.util.Arrays;
	import java.util.Collection;
	import java.util.Collections;
	import java.util.EnumSet;
	import java.util.LinkedList;
	import java.util.List;
	import java.util.Set;
	import sun.security.ssl.SupportedGroupsExtension.NamedGroup;
	import sun.security.ssl.SupportedGroupsExtension.NamedGroupType;
	import sun.security.util.KeyUtil;

	enum SignatureScheme {
	// EdDSA algorithms
	ED25519 (0x0807, "ed25519", "ed25519",
	"ed25519",
	ProtocolVersion.PROTOCOLS_OF_13),
	ED448 (0x0808, "ed448", "ed448",
	"ed448",
	ProtocolVersion.PROTOCOLS_OF_13),

	// ECDSA algorithms
	ECDSA_SECP256R1_SHA256 (0x0403, "ecdsa_secp256r1_sha256",
	"SHA256withECDSA",
	"EC",
	NamedGroup.SECP256_R1,
	ProtocolVersion.PROTOCOLS_TO_13),
	ECDSA_SECP384R1_SHA384 (0x0503, "ecdsa_secp384r1_sha384",
	"SHA384withECDSA",
	"EC",
	NamedGroup.SECP384_R1,
	ProtocolVersion.PROTOCOLS_TO_13),
	ECDSA_SECP512R1_SHA512 (0x0603, "ecdsa_secp512r1_sha512",
	"SHA512withECDSA",
	"EC",
	NamedGroup.SECP521_R1,
	ProtocolVersion.PROTOCOLS_TO_13),

	// RSASSA-PSS algorithms with public key OID rsaEncryption
	//
	// The minimalKeySize is calculated as (See RFC 8017 for details):
	// hash length + salt length + 16
	RSA_PSS_RSAE_SHA256 (0x0804, "rsa_pss_rsae_sha256",
	"RSASSA-PSS", "RSA",
	SigAlgParamSpec.RSA_PSS_SHA256, 528,
	ProtocolVersion.PROTOCOLS_12_13),
	RSA_PSS_RSAE_SHA384 (0x0805, "rsa_pss_rsae_sha384",
	"RSASSA-PSS", "RSA",
	SigAlgParamSpec.RSA_PSS_SHA384, 784,
	ProtocolVersion.PROTOCOLS_12_13),
	RSA_PSS_RSAE_SHA512 (0x0806, "rsa_pss_rsae_sha512",
	"RSASSA-PSS", "RSA",
	SigAlgParamSpec.RSA_PSS_SHA512, 1040,
	ProtocolVersion.PROTOCOLS_12_13),

	// RSASSA-PSS algorithms with public key OID RSASSA-PSS
	//
	// The minimalKeySize is calculated as (See RFC 8017 for details):
	// hash length + salt length + 16
	RSA_PSS_PSS_SHA256 (0x0809, "rsa_pss_pss_sha256",
	"RSASSA-PSS", "RSASSA-PSS",
	SigAlgParamSpec.RSA_PSS_SHA256, 528,
	ProtocolVersion.PROTOCOLS_12_13),
	RSA_PSS_PSS_SHA384 (0x080A, "rsa_pss_pss_sha384",
	"RSASSA-PSS", "RSASSA-PSS",
	SigAlgParamSpec.RSA_PSS_SHA384, 784,
	ProtocolVersion.PROTOCOLS_12_13),
	RSA_PSS_PSS_SHA512 (0x080B, "rsa_pss_pss_sha512",
	"RSASSA-PSS", "RSASSA-PSS",
	SigAlgParamSpec.RSA_PSS_SHA512, 1040,
	ProtocolVersion.PROTOCOLS_12_13),

	// RSASSA-PKCS1-v1_5 algorithms
	RSA_PKCS1_SHA256 (0x0401, "rsa_pkcs1_sha256", "SHA256withRSA",
	"RSA", null, null, 511,
	ProtocolVersion.PROTOCOLS_TO_13,
	ProtocolVersion.PROTOCOLS_TO_12),
	RSA_PKCS1_SHA384 (0x0501, "rsa_pkcs1_sha384", "SHA384withRSA",
	"RSA", null, null, 768,
	ProtocolVersion.PROTOCOLS_TO_13,
	ProtocolVersion.PROTOCOLS_TO_12),
	RSA_PKCS1_SHA512 (0x0601, "rsa_pkcs1_sha512", "SHA512withRSA",
	"RSA", null, null, 768,
	ProtocolVersion.PROTOCOLS_TO_13,
	ProtocolVersion.PROTOCOLS_TO_12),

	// Legacy algorithms
	DSA_SHA256 (0x0402, "dsa_sha256", "SHA256withDSA",
	"DSA",
	ProtocolVersion.PROTOCOLS_TO_12),
	ECDSA_SHA224 (0x0303, "ecdsa_sha224", "SHA224withECDSA",
	"EC",
	ProtocolVersion.PROTOCOLS_TO_12),
	RSA_SHA224 (0x0301, "rsa_sha224", "SHA224withRSA",
	"RSA", 511,
	ProtocolVersion.PROTOCOLS_TO_12),
	DSA_SHA224 (0x0302, "dsa_sha224", "SHA224withDSA",
	"DSA",
	ProtocolVersion.PROTOCOLS_TO_12),
	ECDSA_SHA1 (0x0203, "ecdsa_sha1", "SHA1withECDSA",
	"EC",
	ProtocolVersion.PROTOCOLS_TO_13),
	RSA_PKCS1_SHA1 (0x0201, "rsa_pkcs1_sha1", "SHA1withRSA",
	"RSA", null, null, 511,
	ProtocolVersion.PROTOCOLS_TO_13,
	ProtocolVersion.PROTOCOLS_TO_12),
	DSA_SHA1 (0x0202, "dsa_sha1", "SHA1withDSA",
	"DSA",
	ProtocolVersion.PROTOCOLS_TO_12),
	RSA_MD5 (0x0101, "rsa_md5", "MD5withRSA",
	"RSA", 511,
	ProtocolVersion.PROTOCOLS_TO_12);

	final int id; // hash + signature
	final String name; // literal name
	private final String algorithm; // signature algorithm
	final String keyAlgorithm; // signature key algorithm
	private final AlgorithmParameterSpec signAlgParameter;
	private final NamedGroup namedGroup; // associated named group

	// The minimal required key size in bits.
	//
	// Only need to check RSA algorithm at present. RSA keys of 512 bits
	// have been shown to be practically breakable, it does not make much
	// sense to use the strong hash algorithm for keys whose key size less
	// than 512 bits. So it is not necessary to calculate the minimal
	// required key size exactly for a hash algorithm.
	//
	// Note that some provider may use 511 bits for 512-bit strength RSA keys.
	final int minimalKeySize;
	final List<ProtocolVersion> supportedProtocols;

	// Some signature schemes are supported in different versions for handshake
	// messages and certificates. This field holds the supported protocols
	// for handshake messages.
	final List<ProtocolVersion> handshakeSupportedProtocols;
	final boolean isAvailable;

	private static final String[] hashAlgorithms = new String[] {
	"none", "md5", "sha1", "sha224",
	"sha256", "sha384", "sha512"
	};

	private static final String[] signatureAlgorithms = new String[] {
	"anonymous", "rsa", "dsa", "ecdsa",
	};

	static enum SigAlgParamSpec { // support RSASSA-PSS only now
	RSA_PSS_SHA256 ("SHA-256", 32),
	RSA_PSS_SHA384 ("SHA-384", 48),
	RSA_PSS_SHA512 ("SHA-512", 64);

	final private AlgorithmParameterSpec parameterSpec;
	final boolean isAvailable;

	SigAlgParamSpec(String hash, int saltLength) {
	// See RFC 8017
	PSSParameterSpec pssParamSpec =
	new PSSParameterSpec(hash, "MGF1",
	new MGF1ParameterSpec(hash), saltLength, 1);

	boolean mediator = true;
	try {
	Signature signer = JsseJce.getSignature("RSASSA-PSS");
	signer.setParameter(pssParamSpec);
	} catch (InvalidAlgorithmParameterException \|
	NoSuchAlgorithmException exp) {
	mediator = false;
	if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) {
	SSLLogger.warning(
	"RSASSA-PSS signature with " + hash +
	" is not supported by the underlying providers", exp);
	}
	}

	this.isAvailable = mediator;
	this.parameterSpec = mediator ? pssParamSpec : null;
	}

	AlgorithmParameterSpec getParameterSpec() {
	return parameterSpec;
	}
	}

	// performance optimization
	private static final Set<CryptoPrimitive> SIGNATURE_PRIMITIVE_SET =
	Collections.unmodifiableSet(EnumSet.of(CryptoPrimitive.SIGNATURE));


	private SignatureScheme(int id, String name,
	String algorithm, String keyAlgorithm,
	ProtocolVersion[] supportedProtocols) {
	this(id, name, algorithm, keyAlgorithm, -1, supportedProtocols);
	}

	private SignatureScheme(int id, String name,
	String algorithm, String keyAlgorithm,
	int minimalKeySize,
	ProtocolVersion[] supportedProtocols) {
	this(id, name, algorithm, keyAlgorithm,
	null, minimalKeySize, supportedProtocols);
	}

	private SignatureScheme(int id, String name,
	String algorithm, String keyAlgorithm,
	SigAlgParamSpec signAlgParamSpec, int minimalKeySize,
	ProtocolVersion[] supportedProtocols) {
	this(id, name, algorithm, keyAlgorithm,
	signAlgParamSpec, null, minimalKeySize,
	supportedProtocols, supportedProtocols);
	}

	private SignatureScheme(int id, String name,
	String algorithm, String keyAlgorithm,
	NamedGroup namedGroup,
	ProtocolVersion[] supportedProtocols) {
	this(id, name, algorithm, keyAlgorithm,
	null, namedGroup, -1,
	supportedProtocols, supportedProtocols);
	}

	private SignatureScheme(int id, String name,
	String algorithm, String keyAlgorithm,
	SigAlgParamSpec signAlgParamSpec,
	NamedGroup namedGroup, int minimalKeySize,
	ProtocolVersion[] supportedProtocols,
	ProtocolVersion[] handshakeSupportedProtocols) {
	this.id = id;
	this.name = name;
	this.algorithm = algorithm;
	this.keyAlgorithm = keyAlgorithm;
	this.signAlgParameter =
	signAlgParamSpec != null ? signAlgParamSpec.parameterSpec : null;
	this.namedGroup = namedGroup;
	this.minimalKeySize = minimalKeySize;
	this.supportedProtocols = Arrays.asList(supportedProtocols);
	this.handshakeSupportedProtocols =
	Arrays.asList(handshakeSupportedProtocols);

	boolean mediator = true;
	if (signAlgParamSpec != null) {
	mediator = signAlgParamSpec.isAvailable;
	} else {
	try {
	JsseJce.getSignature(algorithm);
	} catch (Exception e) {
	mediator = false;
	if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) {
	SSLLogger.warning(
	"Signature algorithm, " + algorithm +
	", is not supported by the underlying providers");
	}
	}
	}

	if (mediator && ((id >> 8) & 0xFF) == 0x03) { // SHA224
	// There are some problems to use SHA224 on Windows.
	if (Security.getProvider("SunMSCAPI") != null) {
	mediator = false;
	}
	}

	this.isAvailable = mediator;
	}

	static SignatureScheme valueOf(int id) {
	for (SignatureScheme ss: SignatureScheme.values()) {
	if (ss.id == id) {
	return ss;
	}
	}

	return null;
	}

	static String nameOf(int id) {
	for (SignatureScheme ss: SignatureScheme.values()) {
	if (ss.id == id) {
	return ss.name;
	}
	}

	// Use TLS 1.2 style name for unknown signature scheme.
	int hashId = ((id >> 8) & 0xFF);
	int signId = (id & 0xFF);
	String hashName = (hashId >= hashAlgorithms.length) ?
	"UNDEFINED-HASH(" + hashId + ")" : hashAlgorithms[hashId];
	String signName = (signId >= signatureAlgorithms.length) ?
	"UNDEFINED-SIGNATURE(" + signId + ")" :
	signatureAlgorithms[signId];

	return signName + "_" + hashName;
	}

	// Return the size of a SignatureScheme structure in TLS record
	static int sizeInRecord() {
	return 2;
	}

	// Get local supported algorithm collection complying to algorithm
	// constraints.
	static List<SignatureScheme> getSupportedAlgorithms(
	AlgorithmConstraints constraints,
	List<ProtocolVersion> activeProtocols) {
	List<SignatureScheme> supported = new LinkedList<>();
	for (SignatureScheme ss: SignatureScheme.values()) {
	if (!ss.isAvailable) {
	continue;
	}

	boolean isMatch = false;
	for (ProtocolVersion pv : activeProtocols) {
	if (ss.supportedProtocols.contains(pv)) {
	isMatch = true;
	break;
	}
	}

	if (isMatch) {
	if (constraints.permits(
	SIGNATURE_PRIMITIVE_SET, ss.algorithm, null)) {
	supported.add(ss);
	} else if (SSLLogger.isOn &&
	SSLLogger.isOn("ssl,handshake,verbose")) {
	SSLLogger.finest(
	"Ignore disabled signature sheme: " + ss.name);
	}
	} else if (SSLLogger.isOn &&
	SSLLogger.isOn("ssl,handshake,verbose")) {
	SSLLogger.finest(
	"Ignore inactive signature sheme: " + ss.name);
	}
	}

	return supported;
	}

	static List<SignatureScheme> getSupportedAlgorithms(
	AlgorithmConstraints constraints,
	ProtocolVersion protocolVersion, int[] algorithmIds) {
	List<SignatureScheme> supported = new LinkedList<>();
	for (int ssid : algorithmIds) {
	SignatureScheme ss = SignatureScheme.valueOf(ssid);
	if (ss == null) {
	if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) {
	SSLLogger.warning(
	"Unsupported signature scheme: " +
	SignatureScheme.nameOf(ssid));
	}
	} else if (ss.isAvailable &&
	ss.supportedProtocols.contains(protocolVersion) &&
	constraints.permits(SIGNATURE_PRIMITIVE_SET,
	ss.algorithm, null)) {
	supported.add(ss);
	} else {
	if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) {
	SSLLogger.warning(
	"Unsupported signature scheme: " + ss.name);
	}
	}
	}

	return supported;
	}

	static SignatureScheme getPreferableAlgorithm(
	List<SignatureScheme> schemes,
	SignatureScheme certScheme,
	ProtocolVersion version) {

	for (SignatureScheme ss : schemes) {
	if (ss.isAvailable &&
	ss.handshakeSupportedProtocols.contains(version) &&
	certScheme.keyAlgorithm.equalsIgnoreCase(ss.keyAlgorithm)) {

	return ss;
	}
	}

	return null;
	}

	static SignatureScheme getPreferableAlgorithm(
	List<SignatureScheme> schemes,
	PrivateKey signingKey,
	ProtocolVersion version) {

	String keyAlgorithm = signingKey.getAlgorithm();
	int keySize;
	// Only need to check RSA algorithm at present.
	if (keyAlgorithm.equalsIgnoreCase("RSA") \|\|
	keyAlgorithm.equalsIgnoreCase("RSASSA-PSS")) {
	keySize = KeyUtil.getKeySize(signingKey);
	} else {
	keySize = Integer.MAX_VALUE;
	}
	for (SignatureScheme ss : schemes) {
	if (ss.isAvailable && (keySize >= ss.minimalKeySize) &&
	ss.handshakeSupportedProtocols.contains(version) &&
	keyAlgorithm.equalsIgnoreCase(ss.keyAlgorithm)) {
	if (ss.namedGroup != null &&
	ss.namedGroup.type == NamedGroupType.NAMED_GROUP_ECDHE) {
	ECParameterSpec params =
	((ECPrivateKey)signingKey).getParams();
	if (ss.namedGroup == NamedGroup.valueOf(params)) {
	return ss;
	}
	} else {
	return ss;
	}
	}
	}

	return null;
	}

	static String[] getAlgorithmNames(Collection<SignatureScheme> schemes) {
	if (schemes != null) {
	ArrayList<String> names = new ArrayList<>(schemes.size());
	for (SignatureScheme scheme : schemes) {
	names.add(scheme.algorithm);
	}

	return names.toArray(new String[0]);
	}

	return new String[0];
	}

	Signature getSignature(Key key) throws NoSuchAlgorithmException,
	InvalidAlgorithmParameterException, InvalidKeyException {
	if (!isAvailable) {
	return null;
	}

	Signature signer = JsseJce.getSignature(algorithm);
	if (key instanceof PublicKey) {
	signer.initVerify((PublicKey)(key));
	} else {
	signer.initSign((PrivateKey)key);
	}

	// Important note: Please don't set the parameters before signature
	// or verification initialization, so that the crypto provider can
	// be selected properly.
	if (signAlgParameter != null) {
	signer.setParameter(signAlgParameter);
	}

	return signer;
	}
	}

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