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A Java security provider for supporting ShangMi algorithms in public key infrastructure

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/*
 * Copyright (c) 1997, 2015, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * 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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package com.tencent.kona.sun.security.x509;

import java.io.IOException;
import java.io.OutputStream;
import java.util.Enumeration;

import com.tencent.kona.sun.security.util.BitArray;
import com.tencent.kona.sun.security.util.DerOutputStream;
import com.tencent.kona.sun.security.util.DerValue;

/**
 * Represent the Key Usage Extension.
 *
 * 

This extension, if present, defines the purpose (e.g., encipherment, * signature, certificate signing) of the key contained in the certificate. * The usage restriction might be employed when a multipurpose key is to be * restricted (e.g., when an RSA key should be used only for signing or only * for key encipherment). * * @author Amit Kapoor * @author Hemma Prafullchandra * @see Extension * @see CertAttrSet */ public class KeyUsageExtension extends Extension implements CertAttrSet { /** * Identifier for this attribute, to be used with the * get, set, delete methods of Certificate, x509 type. */ public static final String IDENT = "x509.info.extensions.KeyUsage"; /** * Attribute names. */ public static final String NAME = "KeyUsage"; public static final String DIGITAL_SIGNATURE = "digital_signature"; public static final String NON_REPUDIATION = "non_repudiation"; public static final String KEY_ENCIPHERMENT = "key_encipherment"; public static final String DATA_ENCIPHERMENT = "data_encipherment"; public static final String KEY_AGREEMENT = "key_agreement"; public static final String KEY_CERTSIGN = "key_certsign"; public static final String CRL_SIGN = "crl_sign"; public static final String ENCIPHER_ONLY = "encipher_only"; public static final String DECIPHER_ONLY = "decipher_only"; // Private data members private boolean[] bitString; // Encode this extension value private void encodeThis() throws IOException { DerOutputStream os = new DerOutputStream(); os.putTruncatedUnalignedBitString(new BitArray(this.bitString)); this.extensionValue = os.toByteArray(); } /** * Check if bit is set. * * @param position the position in the bit string to check. */ private boolean isSet(int position) { return (position < bitString.length) && bitString[position]; } /** * Set the bit at the specified position. */ private void set(int position, boolean val) { // enlarge bitString if necessary if (position >= bitString.length) { boolean[] tmp = new boolean[position+1]; System.arraycopy(bitString, 0, tmp, 0, bitString.length); bitString = tmp; } bitString[position] = val; } /** * Create a KeyUsageExtension with the passed bit settings. The criticality * is set to true. * * @param bitString the bits to be set for the extension. */ public KeyUsageExtension(byte[] bitString) throws IOException { this.bitString = new BitArray(bitString.length*8,bitString).toBooleanArray(); this.extensionId = PKIXExtensions.KeyUsage_Id; this.critical = true; encodeThis(); } /** * Create a KeyUsageExtension with the passed bit settings. The criticality * is set to true. * * @param bitString the bits to be set for the extension. */ public KeyUsageExtension(boolean[] bitString) throws IOException { this.bitString = bitString; this.extensionId = PKIXExtensions.KeyUsage_Id; this.critical = true; encodeThis(); } /** * Create a KeyUsageExtension with the passed bit settings. The criticality * is set to true. * * @param bitString the bits to be set for the extension. */ public KeyUsageExtension(BitArray bitString) throws IOException { this.bitString = bitString.toBooleanArray(); this.extensionId = PKIXExtensions.KeyUsage_Id; this.critical = true; encodeThis(); } /** * Create the extension from the passed DER encoded value of the same. * The DER encoded value may be wrapped in an OCTET STRING. * * @param critical true if the extension is to be treated as critical. * @param value an array of DER encoded bytes of the actual value (possibly * wrapped in an OCTET STRING). * @exception ClassCastException if value is not an array of bytes * @exception IOException on error. */ public KeyUsageExtension(Boolean critical, Object value) throws IOException { this.extensionId = PKIXExtensions.KeyUsage_Id; this.critical = critical.booleanValue(); /* * The following check should be activated again after * the PKIX profiling work becomes standard and the check * is not a barrier to interoperability ! * if (!this.critical) { * throw new IOException("KeyUsageExtension not marked critical," * + " invalid profile."); * } */ byte[] extValue = (byte[]) value; if (extValue[0] == DerValue.tag_OctetString) { this.extensionValue = new DerValue(extValue).getOctetString(); } else { this.extensionValue = extValue; } DerValue val = new DerValue(this.extensionValue); this.bitString = val.getUnalignedBitString().toBooleanArray(); } /** * Create a default key usage. */ public KeyUsageExtension() { extensionId = PKIXExtensions.KeyUsage_Id; critical = true; bitString = new boolean[0]; } /** * Set the attribute value. */ public void set(String name, Object obj) throws IOException { if (!(obj instanceof Boolean)) { throw new IOException("Attribute must be of type Boolean."); } boolean val = ((Boolean)obj).booleanValue(); if (name.equalsIgnoreCase(DIGITAL_SIGNATURE)) { set(0,val); } else if (name.equalsIgnoreCase(NON_REPUDIATION)) { set(1,val); } else if (name.equalsIgnoreCase(KEY_ENCIPHERMENT)) { set(2,val); } else if (name.equalsIgnoreCase(DATA_ENCIPHERMENT)) { set(3,val); } else if (name.equalsIgnoreCase(KEY_AGREEMENT)) { set(4,val); } else if (name.equalsIgnoreCase(KEY_CERTSIGN)) { set(5,val); } else if (name.equalsIgnoreCase(CRL_SIGN)) { set(6,val); } else if (name.equalsIgnoreCase(ENCIPHER_ONLY)) { set(7,val); } else if (name.equalsIgnoreCase(DECIPHER_ONLY)) { set(8,val); } else { throw new IOException("Attribute name not recognized by" + " CertAttrSet:KeyUsage."); } encodeThis(); } /** * Get the attribute value. */ public Boolean get(String name) throws IOException { if (name.equalsIgnoreCase(DIGITAL_SIGNATURE)) { return Boolean.valueOf(isSet(0)); } else if (name.equalsIgnoreCase(NON_REPUDIATION)) { return Boolean.valueOf(isSet(1)); } else if (name.equalsIgnoreCase(KEY_ENCIPHERMENT)) { return Boolean.valueOf(isSet(2)); } else if (name.equalsIgnoreCase(DATA_ENCIPHERMENT)) { return Boolean.valueOf(isSet(3)); } else if (name.equalsIgnoreCase(KEY_AGREEMENT)) { return Boolean.valueOf(isSet(4)); } else if (name.equalsIgnoreCase(KEY_CERTSIGN)) { return Boolean.valueOf(isSet(5)); } else if (name.equalsIgnoreCase(CRL_SIGN)) { return Boolean.valueOf(isSet(6)); } else if (name.equalsIgnoreCase(ENCIPHER_ONLY)) { return Boolean.valueOf(isSet(7)); } else if (name.equalsIgnoreCase(DECIPHER_ONLY)) { return Boolean.valueOf(isSet(8)); } else { throw new IOException("Attribute name not recognized by" + " CertAttrSet:KeyUsage."); } } /** * Delete the attribute value. */ public void delete(String name) throws IOException { if (name.equalsIgnoreCase(DIGITAL_SIGNATURE)) { set(0,false); } else if (name.equalsIgnoreCase(NON_REPUDIATION)) { set(1,false); } else if (name.equalsIgnoreCase(KEY_ENCIPHERMENT)) { set(2,false); } else if (name.equalsIgnoreCase(DATA_ENCIPHERMENT)) { set(3,false); } else if (name.equalsIgnoreCase(KEY_AGREEMENT)) { set(4,false); } else if (name.equalsIgnoreCase(KEY_CERTSIGN)) { set(5,false); } else if (name.equalsIgnoreCase(CRL_SIGN)) { set(6,false); } else if (name.equalsIgnoreCase(ENCIPHER_ONLY)) { set(7,false); } else if (name.equalsIgnoreCase(DECIPHER_ONLY)) { set(8,false); } else { throw new IOException("Attribute name not recognized by" + " CertAttrSet:KeyUsage."); } encodeThis(); } /** * Returns a printable representation of the KeyUsage. */ public String toString() { StringBuilder sb = new StringBuilder(); sb.append(super.toString()); sb.append("KeyUsage [\n"); if (isSet(0)) { sb.append(" DigitalSignature\n"); } if (isSet(1)) { sb.append(" Non_repudiation\n"); } if (isSet(2)) { sb.append(" Key_Encipherment\n"); } if (isSet(3)) { sb.append(" Data_Encipherment\n"); } if (isSet(4)) { sb.append(" Key_Agreement\n"); } if (isSet(5)) { sb.append(" Key_CertSign\n"); } if (isSet(6)) { sb.append(" Crl_Sign\n"); } if (isSet(7)) { sb.append(" Encipher_Only\n"); } if (isSet(8)) { sb.append(" Decipher_Only\n"); } sb.append("]\n"); return sb.toString(); } /** * Write the extension to the DerOutputStream. * * @param out the DerOutputStream to write the extension to. * @exception IOException on encoding errors. */ public void encode(OutputStream out) throws IOException { DerOutputStream tmp = new DerOutputStream(); if (this.extensionValue == null) { this.extensionId = PKIXExtensions.KeyUsage_Id; this.critical = true; encodeThis(); } super.encode(tmp); out.write(tmp.toByteArray()); } /** * Return an enumeration of names of attributes existing within this * attribute. */ public Enumeration getElements() { AttributeNameEnumeration elements = new AttributeNameEnumeration(); elements.addElement(DIGITAL_SIGNATURE); elements.addElement(NON_REPUDIATION); elements.addElement(KEY_ENCIPHERMENT); elements.addElement(DATA_ENCIPHERMENT); elements.addElement(KEY_AGREEMENT); elements.addElement(KEY_CERTSIGN); elements.addElement(CRL_SIGN); elements.addElement(ENCIPHER_ONLY); elements.addElement(DECIPHER_ONLY); return (elements.elements()); } public boolean[] getBits() { return bitString.clone(); } /** * Return the name of this attribute. */ public String getName() { return (NAME); } }





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