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/*
* Copyright (c) 2000, 2008, 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
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*/
package java.security.cert;
import java.io.IOException;
import java.math.BigInteger;
import java.security.PublicKey;
import java.util.*;
import javax.security.auth.x500.X500Principal;
import sun.misc.HexDumpEncoder;
import sun.security.util.Debug;
import sun.security.util.DerInputStream;
import sun.security.util.DerValue;
import sun.security.util.ObjectIdentifier;
import sun.security.x509.*;
/**
* A <code>CertSelector</code> that selects <code>X509Certificates</code> that
* match all specified criteria. This class is particularly useful when
* selecting certificates from a <code>CertStore</code> to build a
* PKIX-compliant certification path.
* <p>
* When first constructed, an <code>X509CertSelector</code> has no criteria
* enabled and each of the <code>get</code> methods return a default value
* (<code>null</code>, or <code>-1</code> for the {@link #getBasicConstraints
* getBasicConstraints} method). Therefore, the {@link #match match}
* method would return <code>true</code> for any <code>X509Certificate</code>.
* Typically, several criteria are enabled (by calling
* {@link #setIssuer setIssuer} or
* {@link #setKeyUsage setKeyUsage}, for instance) and then the
* <code>X509CertSelector</code> is passed to
* {@link CertStore#getCertificates CertStore.getCertificates} or some similar
* method.
* <p>
* Several criteria can be enabled (by calling {@link #setIssuer setIssuer}
* and {@link #setSerialNumber setSerialNumber},
* for example) such that the <code>match</code> method
* usually uniquely matches a single <code>X509Certificate</code>. We say
* usually, since it is possible for two issuing CAs to have the same
* distinguished name and each issue a certificate with the same serial
* number. Other unique combinations include the issuer, subject,
* subjectKeyIdentifier and/or the subjectPublicKey criteria.
* <p>
* Please refer to <a href="http://www.ietf.org/rfc/rfc3280.txt">RFC 3280:
* Internet X.509 Public Key Infrastructure Certificate and CRL Profile</a> for
* definitions of the X.509 certificate extensions mentioned below.
* <p>
* <b>Concurrent Access</b>
* <p>
* Unless otherwise specified, the methods defined in this class are not
* thread-safe. Multiple threads that need to access a single
* object concurrently should synchronize amongst themselves and
* provide the necessary locking. Multiple threads each manipulating
* separate objects need not synchronize.
*
* @see CertSelector
* @see X509Certificate
*
* @since 1.4
* @author Steve Hanna
*/
public class X509CertSelector implements CertSelector {
private static final Debug debug = Debug.getInstance("certpath");
private final static ObjectIdentifier ANY_EXTENDED_KEY_USAGE =
ObjectIdentifier.newInternal(new int[] {2, 5, 29, 37, 0});
static {
CertPathHelperImpl.initialize();
}
private BigInteger serialNumber;
private X500Principal issuer;
private X500Principal subject;
private byte[] subjectKeyID;
private byte[] authorityKeyID;
private Date certificateValid;
private Date privateKeyValid;
private ObjectIdentifier subjectPublicKeyAlgID;
private PublicKey subjectPublicKey;
private byte[] subjectPublicKeyBytes;
private boolean[] keyUsage;
private Set<String> keyPurposeSet;
private Set<ObjectIdentifier> keyPurposeOIDSet;
private Set<List<?>> subjectAlternativeNames;
private Set<GeneralNameInterface> subjectAlternativeGeneralNames;
private CertificatePolicySet policy;
private Set<String> policySet;
private Set<List<?>> pathToNames;
private Set<GeneralNameInterface> pathToGeneralNames;
private NameConstraintsExtension nc;
private byte[] ncBytes;
private int basicConstraints = -1;
private X509Certificate x509Cert;
private boolean matchAllSubjectAltNames = true;
private static final Boolean FALSE = Boolean.FALSE;
private static final int PRIVATE_KEY_USAGE_ID = 0;
private static final int SUBJECT_ALT_NAME_ID = 1;
private static final int NAME_CONSTRAINTS_ID = 2;
private static final int CERT_POLICIES_ID = 3;
private static final int EXTENDED_KEY_USAGE_ID = 4;
private static final int NUM_OF_EXTENSIONS = 5;
private static final String[] EXTENSION_OIDS = new String[NUM_OF_EXTENSIONS];
static {
EXTENSION_OIDS[PRIVATE_KEY_USAGE_ID] = "2.5.29.16";
EXTENSION_OIDS[SUBJECT_ALT_NAME_ID] = "2.5.29.17";
EXTENSION_OIDS[NAME_CONSTRAINTS_ID] = "2.5.29.30";
EXTENSION_OIDS[CERT_POLICIES_ID] = "2.5.29.32";
EXTENSION_OIDS[EXTENDED_KEY_USAGE_ID] = "2.5.29.37";
};
/* Constants representing the GeneralName types */
static final int NAME_ANY = 0;
static final int NAME_RFC822 = 1;
static final int NAME_DNS = 2;
static final int NAME_X400 = 3;
static final int NAME_DIRECTORY = 4;
static final int NAME_EDI = 5;
static final int NAME_URI = 6;
static final int NAME_IP = 7;
static final int NAME_OID = 8;
/**
* Creates an <code>X509CertSelector</code>. Initially, no criteria are set
* so any <code>X509Certificate</code> will match.
*/
public X509CertSelector() {
// empty
}
/**
* Sets the certificateEquals criterion. The specified
* <code>X509Certificate</code> must be equal to the
* <code>X509Certificate</code> passed to the <code>match</code> method.
* If <code>null</code>, then this check is not applied.
*
* <p>This method is particularly useful when it is necessary to
* match a single certificate. Although other criteria can be specified
* in conjunction with the certificateEquals criterion, it is usually not
* practical or necessary.
*
* @param cert the <code>X509Certificate</code> to match (or
* <code>null</code>)
* @see #getCertificate
*/
public void setCertificate(X509Certificate cert) {
x509Cert = cert;
}
/**
* Sets the serialNumber criterion. The specified serial number
* must match the certificate serial number in the
* <code>X509Certificate</code>. If <code>null</code>, any certificate
* serial number will do.
*
* @param serial the certificate serial number to match
* (or <code>null</code>)
* @see #getSerialNumber
*/
public void setSerialNumber(BigInteger serial) {
serialNumber = serial;
}
/**
* Sets the issuer criterion. The specified distinguished name
* must match the issuer distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, any issuer
* distinguished name will do.
*
* @param issuer a distinguished name as X500Principal
* (or <code>null</code>)
* @since 1.5
*/
public void setIssuer(X500Principal issuer) {
this.issuer = issuer;
}
/**
* <strong>Denigrated</strong>, use {@linkplain #setIssuer(X500Principal)}
* or {@linkplain #setIssuer(byte[])} instead. This method should not be
* relied on as it can fail to match some certificates because of a loss of
* encoding information in the
* <a href="http://www.ietf.org/rfc/rfc2253.txt">RFC 2253</a> String form
* of some distinguished names.
* <p>
* Sets the issuer criterion. The specified distinguished name
* must match the issuer distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, any issuer
* distinguished name will do.
* <p>
* If <code>issuerDN</code> is not <code>null</code>, it should contain a
* distinguished name, in RFC 2253 format.
*
* @param issuerDN a distinguished name in RFC 2253 format
* (or <code>null</code>)
* @throws IOException if a parsing error occurs (incorrect form for DN)
*/
public void setIssuer(String issuerDN) throws IOException {
if (issuerDN == null) {
issuer = null;
} else {
issuer = new X500Name(issuerDN).asX500Principal();
}
}
/**
* Sets the issuer criterion. The specified distinguished name
* must match the issuer distinguished name in the
* <code>X509Certificate</code>. If <code>null</code> is specified,
* the issuer criterion is disabled and any issuer distinguished name will
* do.
* <p>
* If <code>issuerDN</code> is not <code>null</code>, it should contain a
* single DER encoded distinguished name, as defined in X.501. The ASN.1
* notation for this structure is as follows.
* <pre><code>
* Name ::= CHOICE {
* RDNSequence }
*
* RDNSequence ::= SEQUENCE OF RelativeDistinguishedName
*
* RelativeDistinguishedName ::=
* SET SIZE (1 .. MAX) OF AttributeTypeAndValue
*
* AttributeTypeAndValue ::= SEQUENCE {
* type AttributeType,
* value AttributeValue }
*
* AttributeType ::= OBJECT IDENTIFIER
*
* AttributeValue ::= ANY DEFINED BY AttributeType
* ....
* DirectoryString ::= CHOICE {
* teletexString TeletexString (SIZE (1..MAX)),
* printableString PrintableString (SIZE (1..MAX)),
* universalString UniversalString (SIZE (1..MAX)),
* utf8String UTF8String (SIZE (1.. MAX)),
* bmpString BMPString (SIZE (1..MAX)) }
* </code></pre>
* <p>
* Note that the byte array specified here is cloned to protect against
* subsequent modifications.
*
* @param issuerDN a byte array containing the distinguished name
* in ASN.1 DER encoded form (or <code>null</code>)
* @throws IOException if an encoding error occurs (incorrect form for DN)
*/
public void setIssuer(byte[] issuerDN) throws IOException {
try {
issuer = (issuerDN == null ? null : new X500Principal(issuerDN));
} catch (IllegalArgumentException e) {
throw (IOException)new IOException("Invalid name").initCause(e);
}
}
/**
* Sets the subject criterion. The specified distinguished name
* must match the subject distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, any subject
* distinguished name will do.
*
* @param subject a distinguished name as X500Principal
* (or <code>null</code>)
* @since 1.5
*/
public void setSubject(X500Principal subject) {
this.subject = subject;
}
/**
* <strong>Denigrated</strong>, use {@linkplain #setSubject(X500Principal)}
* or {@linkplain #setSubject(byte[])} instead. This method should not be
* relied on as it can fail to match some certificates because of a loss of
* encoding information in the RFC 2253 String form of some distinguished
* names.
* <p>
* Sets the subject criterion. The specified distinguished name
* must match the subject distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, any subject
* distinguished name will do.
* <p>
* If <code>subjectDN</code> is not <code>null</code>, it should contain a
* distinguished name, in RFC 2253 format.
*
* @param subjectDN a distinguished name in RFC 2253 format
* (or <code>null</code>)
* @throws IOException if a parsing error occurs (incorrect form for DN)
*/
public void setSubject(String subjectDN) throws IOException {
if (subjectDN == null) {
subject = null;
} else {
subject = new X500Name(subjectDN).asX500Principal();
}
}
/**
* Sets the subject criterion. The specified distinguished name
* must match the subject distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, any subject
* distinguished name will do.
* <p>
* If <code>subjectDN</code> is not <code>null</code>, it should contain a
* single DER encoded distinguished name, as defined in X.501. For the ASN.1
* notation for this structure, see
* {@link #setIssuer(byte [] issuerDN) setIssuer(byte [] issuerDN)}.
*
* @param subjectDN a byte array containing the distinguished name in
* ASN.1 DER format (or <code>null</code>)
* @throws IOException if an encoding error occurs (incorrect form for DN)
*/
public void setSubject(byte[] subjectDN) throws IOException {
try {
subject = (subjectDN == null ? null : new X500Principal(subjectDN));
} catch (IllegalArgumentException e) {
throw (IOException)new IOException("Invalid name").initCause(e);
}
}
/**
* Sets the subjectKeyIdentifier criterion. The
* <code>X509Certificate</code> must contain a SubjectKeyIdentifier
* extension for which the contents of the extension
* matches the specified criterion value.
* If the criterion value is <code>null</code>, no
* subjectKeyIdentifier check will be done.
* <p>
* If <code>subjectKeyID</code> is not <code>null</code>, it
* should contain a single DER encoded value corresponding to the contents
* of the extension value (not including the object identifier,
* criticality setting, and encapsulating OCTET STRING)
* for a SubjectKeyIdentifier extension.
* The ASN.1 notation for this structure follows.
* <p>
* <pre><code>
* SubjectKeyIdentifier ::= KeyIdentifier
*
* KeyIdentifier ::= OCTET STRING
* </code></pre>
* <p>
* Since the format of subject key identifiers is not mandated by
* any standard, subject key identifiers are not parsed by the
* <code>X509CertSelector</code>. Instead, the values are compared using
* a byte-by-byte comparison.
* <p>
* Note that the byte array supplied here is cloned to protect against
* subsequent modifications.
*
* @param subjectKeyID the subject key identifier (or <code>null</code>)
* @see #getSubjectKeyIdentifier
*/
public void setSubjectKeyIdentifier(byte[] subjectKeyID) {
if (subjectKeyID == null) {
this.subjectKeyID = null;
} else {
this.subjectKeyID = subjectKeyID.clone();
}
}
/**
* Sets the authorityKeyIdentifier criterion. The
* <code>X509Certificate</code> must contain an
* AuthorityKeyIdentifier extension for which the contents of the
* extension value matches the specified criterion value.
* If the criterion value is <code>null</code>, no
* authorityKeyIdentifier check will be done.
* <p>
* If <code>authorityKeyID</code> is not <code>null</code>, it
* should contain a single DER encoded value corresponding to the contents
* of the extension value (not including the object identifier,
* criticality setting, and encapsulating OCTET STRING)
* for an AuthorityKeyIdentifier extension.
* The ASN.1 notation for this structure follows.
* <p>
* <pre><code>
* AuthorityKeyIdentifier ::= SEQUENCE {
* keyIdentifier [0] KeyIdentifier OPTIONAL,
* authorityCertIssuer [1] GeneralNames OPTIONAL,
* authorityCertSerialNumber [2] CertificateSerialNumber OPTIONAL }
*
* KeyIdentifier ::= OCTET STRING
* </code></pre>
* <p>
* Authority key identifiers are not parsed by the
* <code>X509CertSelector</code>. Instead, the values are
* compared using a byte-by-byte comparison.
* <p>
* When the <code>keyIdentifier</code> field of
* <code>AuthorityKeyIdentifier</code> is populated, the value is
* usually taken from the <code>SubjectKeyIdentifier</code> extension
* in the issuer's certificate. Note, however, that the result of
* <code>X509Certificate.getExtensionValue(&lt;SubjectKeyIdentifier Object
* Identifier&gt;)</code> on the issuer's certificate may NOT be used
* directly as the input to <code>setAuthorityKeyIdentifier</code>.
* This is because the SubjectKeyIdentifier contains
* only a KeyIdentifier OCTET STRING, and not a SEQUENCE of
* KeyIdentifier, GeneralNames, and CertificateSerialNumber.
* In order to use the extension value of the issuer certificate's
* <code>SubjectKeyIdentifier</code>
* extension, it will be necessary to extract the value of the embedded
* <code>KeyIdentifier</code> OCTET STRING, then DER encode this OCTET
* STRING inside a SEQUENCE.
* For more details on SubjectKeyIdentifier, see
* {@link #setSubjectKeyIdentifier(byte[] subjectKeyID)}.
* <p>
* Note also that the byte array supplied here is cloned to protect against
* subsequent modifications.
*
* @param authorityKeyID the authority key identifier
* (or <code>null</code>)
* @see #getAuthorityKeyIdentifier
*/
public void setAuthorityKeyIdentifier(byte[] authorityKeyID) {
if (authorityKeyID == null) {
this.authorityKeyID = null;
} else {
this.authorityKeyID = authorityKeyID.clone();
}
}
/**
* Sets the certificateValid criterion. The specified date must fall
* within the certificate validity period for the
* <code>X509Certificate</code>. If <code>null</code>, no certificateValid
* check will be done.
* <p>
* Note that the <code>Date</code> supplied here is cloned to protect
* against subsequent modifications.
*
* @param certValid the <code>Date</code> to check (or <code>null</code>)
* @see #getCertificateValid
*/
public void setCertificateValid(Date certValid) {
if (certValid == null) {
certificateValid = null;
} else {
certificateValid = (Date)certValid.clone();
}
}
/**
* Sets the privateKeyValid criterion. The specified date must fall
* within the private key validity period for the
* <code>X509Certificate</code>. If <code>null</code>, no privateKeyValid
* check will be done.
* <p>
* Note that the <code>Date</code> supplied here is cloned to protect
* against subsequent modifications.
*
* @param privateKeyValid the <code>Date</code> to check (or
* <code>null</code>)
* @see #getPrivateKeyValid
*/
public void setPrivateKeyValid(Date privateKeyValid) {
if (privateKeyValid == null) {
this.privateKeyValid = null;
} else {
this.privateKeyValid = (Date)privateKeyValid.clone();
}
}
/**
* Sets the subjectPublicKeyAlgID criterion. The
* <code>X509Certificate</code> must contain a subject public key
* with the specified algorithm. If <code>null</code>, no
* subjectPublicKeyAlgID check will be done.
*
* @param oid The object identifier (OID) of the algorithm to check
* for (or <code>null</code>). An OID is represented by a
* set of nonnegative integers separated by periods.
* @throws IOException if the OID is invalid, such as
* the first component being not 0, 1 or 2 or the second component
* being greater than 39.
*
* @see #getSubjectPublicKeyAlgID
*/
public void setSubjectPublicKeyAlgID(String oid) throws IOException {
if (oid == null) {
subjectPublicKeyAlgID = null;
} else {
subjectPublicKeyAlgID = new ObjectIdentifier(oid);
}
}
/**
* Sets the subjectPublicKey criterion. The
* <code>X509Certificate</code> must contain the specified subject public
* key. If <code>null</code>, no subjectPublicKey check will be done.
*
* @param key the subject public key to check for (or <code>null</code>)
* @see #getSubjectPublicKey
*/
public void setSubjectPublicKey(PublicKey key) {
if (key == null) {
subjectPublicKey = null;
subjectPublicKeyBytes = null;
} else {
subjectPublicKey = key;
subjectPublicKeyBytes = key.getEncoded();
}
}
/**
* Sets the subjectPublicKey criterion. The <code>X509Certificate</code>
* must contain the specified subject public key. If <code>null</code>,
* no subjectPublicKey check will be done.
* <p>
* Because this method allows the public key to be specified as a byte
* array, it may be used for unknown key types.
* <p>
* If <code>key</code> is not <code>null</code>, it should contain a
* single DER encoded SubjectPublicKeyInfo structure, as defined in X.509.
* The ASN.1 notation for this structure is as follows.
* <pre><code>
* SubjectPublicKeyInfo ::= SEQUENCE {
* algorithm AlgorithmIdentifier,
* subjectPublicKey BIT STRING }
*
* AlgorithmIdentifier ::= SEQUENCE {
* algorithm OBJECT IDENTIFIER,
* parameters ANY DEFINED BY algorithm OPTIONAL }
* -- contains a value of the type
* -- registered for use with the
* -- algorithm object identifier value
* </code></pre>
* <p>
* Note that the byte array supplied here is cloned to protect against
* subsequent modifications.
*
* @param key a byte array containing the subject public key in ASN.1 DER
* form (or <code>null</code>)
* @throws IOException if an encoding error occurs (incorrect form for
* subject public key)
* @see #getSubjectPublicKey
*/
public void setSubjectPublicKey(byte[] key) throws IOException {
if (key == null) {
subjectPublicKey = null;
subjectPublicKeyBytes = null;
} else {
subjectPublicKeyBytes = key.clone();
subjectPublicKey = X509Key.parse(new DerValue(subjectPublicKeyBytes));
}
}
/**
* Sets the keyUsage criterion. The <code>X509Certificate</code>
* must allow the specified keyUsage values. If <code>null</code>, no
* keyUsage check will be done. Note that an <code>X509Certificate</code>
* that has no keyUsage extension implicitly allows all keyUsage values.
* <p>
* Note that the boolean array supplied here is cloned to protect against
* subsequent modifications.
*
* @param keyUsage a boolean array in the same format as the boolean
* array returned by
* {@link X509Certificate#getKeyUsage() X509Certificate.getKeyUsage()}.
* Or <code>null</code>.
* @see #getKeyUsage
*/
public void setKeyUsage(boolean[] keyUsage) {
if (keyUsage == null) {
this.keyUsage = null;
} else {
this.keyUsage = keyUsage.clone();
}
}
/**
* Sets the extendedKeyUsage criterion. The <code>X509Certificate</code>
* must allow the specified key purposes in its extended key usage
* extension. If <code>keyPurposeSet</code> is empty or <code>null</code>,
* no extendedKeyUsage check will be done. Note that an
* <code>X509Certificate</code> that has no extendedKeyUsage extension
* implicitly allows all key purposes.
* <p>
* Note that the <code>Set</code> is cloned to protect against
* subsequent modifications.
*
* @param keyPurposeSet a <code>Set</code> of key purpose OIDs in string
* format (or <code>null</code>). Each OID is represented by a set of
* nonnegative integers separated by periods.
* @throws IOException if the OID is invalid, such as
* the first component being not 0, 1 or 2 or the second component
* being greater than 39.
* @see #getExtendedKeyUsage
*/
public void setExtendedKeyUsage(Set<String> keyPurposeSet) throws IOException {
if ((keyPurposeSet == null) || keyPurposeSet.isEmpty()) {
this.keyPurposeSet = null;
keyPurposeOIDSet = null;
} else {
this.keyPurposeSet =
Collections.unmodifiableSet(new HashSet<String>(keyPurposeSet));
keyPurposeOIDSet = new HashSet<ObjectIdentifier>();
for (String s : this.keyPurposeSet) {
keyPurposeOIDSet.add(new ObjectIdentifier(s));
}
}
}
/**
* Enables/disables matching all of the subjectAlternativeNames
* specified in the {@link #setSubjectAlternativeNames
* setSubjectAlternativeNames} or {@link #addSubjectAlternativeName
* addSubjectAlternativeName} methods. If enabled,
* the <code>X509Certificate</code> must contain all of the
* specified subject alternative names. If disabled, the
* <code>X509Certificate</code> must contain at least one of the
* specified subject alternative names.
*
* <p>The matchAllNames flag is <code>true</code> by default.
*
* @param matchAllNames if <code>true</code>, the flag is enabled;
* if <code>false</code>, the flag is disabled.
* @see #getMatchAllSubjectAltNames
*/
public void setMatchAllSubjectAltNames(boolean matchAllNames) {
this.matchAllSubjectAltNames = matchAllNames;
}
/**
* Sets the subjectAlternativeNames criterion. The
* <code>X509Certificate</code> must contain all or at least one of the
* specified subjectAlternativeNames, depending on the value of
* the matchAllNames flag (see {@link #setMatchAllSubjectAltNames
* setMatchAllSubjectAltNames}).
* <p>
* This method allows the caller to specify, with a single method call,
* the complete set of subject alternative names for the
* subjectAlternativeNames criterion. The specified value replaces
* the previous value for the subjectAlternativeNames criterion.
* <p>
* The <code>names</code> parameter (if not <code>null</code>) is a
* <code>Collection</code> with one
* entry for each name to be included in the subject alternative name
* criterion. Each entry is a <code>List</code> whose first entry is an
* <code>Integer</code> (the name type, 0-8) and whose second
* entry is a <code>String</code> or a byte array (the name, in
* string or ASN.1 DER encoded form, respectively).
* There can be multiple names of the same type. If <code>null</code>
* is supplied as the value for this argument, no
* subjectAlternativeNames check will be performed.
* <p>
* Each subject alternative name in the <code>Collection</code>
* may be specified either as a <code>String</code> or as an ASN.1 encoded
* byte array. For more details about the formats used, see
* {@link #addSubjectAlternativeName(int type, String name)
* addSubjectAlternativeName(int type, String name)} and
* {@link #addSubjectAlternativeName(int type, byte [] name)
* addSubjectAlternativeName(int type, byte [] name)}.
* <p>
* <strong>Note:</strong> for distinguished names, specify the byte
* array form instead of the String form. See the note in
* {@link #addSubjectAlternativeName(int, String)} for more information.
* <p>
* Note that the <code>names</code> parameter can contain duplicate
* names (same name and name type), but they may be removed from the
* <code>Collection</code> of names returned by the
* {@link #getSubjectAlternativeNames getSubjectAlternativeNames} method.
* <p>
* Note that a deep copy is performed on the <code>Collection</code> to
* protect against subsequent modifications.
*
* @param names a <code>Collection</code> of names (or <code>null</code>)
* @throws IOException if a parsing error occurs
* @see #getSubjectAlternativeNames
*/
public void setSubjectAlternativeNames(Collection<List<?>> names)
throws IOException {
if (names == null) {
subjectAlternativeNames = null;
subjectAlternativeGeneralNames = null;
} else {
if (names.isEmpty()) {
subjectAlternativeNames = null;
subjectAlternativeGeneralNames = null;
return;
}
Set<List<?>> tempNames = cloneAndCheckNames(names);
// Ensure that we either set both of these or neither
subjectAlternativeGeneralNames = parseNames(tempNames);
subjectAlternativeNames = tempNames;
}
}
/**
* Adds a name to the subjectAlternativeNames criterion. The
* <code>X509Certificate</code> must contain all or at least one
* of the specified subjectAlternativeNames, depending on the value of
* the matchAllNames flag (see {@link #setMatchAllSubjectAltNames
* setMatchAllSubjectAltNames}).
* <p>
* This method allows the caller to add a name to the set of subject
* alternative names.
* The specified name is added to any previous value for the
* subjectAlternativeNames criterion. If the specified name is a
* duplicate, it may be ignored.
* <p>
* The name is provided in string format.
* <a href="http://www.ietf.org/rfc/rfc822.txt">RFC 822</a>, DNS, and URI
* names use the well-established string formats for those types (subject to
* the restrictions included in RFC 3280). IPv4 address names are
* supplied using dotted quad notation. OID address names are represented
* as a series of nonnegative integers separated by periods. And
* directory names (distinguished names) are supplied in RFC 2253 format.
* No standard string format is defined for otherNames, X.400 names,
* EDI party names, IPv6 address names, or any other type of names. They
* should be specified using the
* {@link #addSubjectAlternativeName(int type, byte [] name)
* addSubjectAlternativeName(int type, byte [] name)}
* method.
* <p>
* <strong>Note:</strong> for distinguished names, use
* {@linkplain #addSubjectAlternativeName(int, byte[])} instead.
* This method should not be relied on as it can fail to match some
* certificates because of a loss of encoding information in the RFC 2253
* String form of some distinguished names.
*
* @param type the name type (0-8, as specified in
* RFC 3280, section 4.2.1.7)
* @param name the name in string form (not <code>null</code>)
* @throws IOException if a parsing error occurs
*/
public void addSubjectAlternativeName(int type, String name)
throws IOException {
addSubjectAlternativeNameInternal(type, name);
}
/**
* Adds a name to the subjectAlternativeNames criterion. The
* <code>X509Certificate</code> must contain all or at least one
* of the specified subjectAlternativeNames, depending on the value of
* the matchAllNames flag (see {@link #setMatchAllSubjectAltNames
* setMatchAllSubjectAltNames}).
* <p>
* This method allows the caller to add a name to the set of subject
* alternative names.
* The specified name is added to any previous value for the
* subjectAlternativeNames criterion. If the specified name is a
* duplicate, it may be ignored.
* <p>
* The name is provided as a byte array. This byte array should contain
* the DER encoded name, as it would appear in the GeneralName structure
* defined in RFC 3280 and X.509. The encoded byte array should only contain
* the encoded value of the name, and should not include the tag associated
* with the name in the GeneralName structure. The ASN.1 definition of this
* structure appears below.
* <pre><code>
* GeneralName ::= CHOICE {
* otherName [0] OtherName,
* rfc822Name [1] IA5String,
* dNSName [2] IA5String,
* x400Address [3] ORAddress,
* directoryName [4] Name,
* ediPartyName [5] EDIPartyName,
* uniformResourceIdentifier [6] IA5String,
* iPAddress [7] OCTET STRING,
* registeredID [8] OBJECT IDENTIFIER}
* </code></pre>
* <p>
* Note that the byte array supplied here is cloned to protect against
* subsequent modifications.
*
* @param type the name type (0-8, as listed above)
* @param name a byte array containing the name in ASN.1 DER encoded form
* @throws IOException if a parsing error occurs
*/
public void addSubjectAlternativeName(int type, byte[] name)
throws IOException {
// clone because byte arrays are modifiable
addSubjectAlternativeNameInternal(type, name.clone());
}
/**
* A private method that adds a name (String or byte array) to the
* subjectAlternativeNames criterion. The <code>X509Certificate</code>
* must contain the specified subjectAlternativeName.
*
* @param type the name type (0-8, as specified in
* RFC 3280, section 4.2.1.7)
* @param name the name in string or byte array form
* @throws IOException if a parsing error occurs
*/
private void addSubjectAlternativeNameInternal(int type, Object name)
throws IOException {
// First, ensure that the name parses
GeneralNameInterface tempName = makeGeneralNameInterface(type, name);
if (subjectAlternativeNames == null) {
subjectAlternativeNames = new HashSet<List<?>>();
}
if (subjectAlternativeGeneralNames == null) {
subjectAlternativeGeneralNames = new HashSet<GeneralNameInterface>();
}
List<Object> list = new ArrayList<Object>(2);
list.add(Integer.valueOf(type));
list.add(name);
subjectAlternativeNames.add(list);
subjectAlternativeGeneralNames.add(tempName);
}
/**
* Parse an argument of the form passed to setSubjectAlternativeNames,
* returning a <code>Collection</code> of
* <code>GeneralNameInterface</code>s.
* Throw an IllegalArgumentException or a ClassCastException
* if the argument is malformed.
*
* @param names a Collection with one entry per name.
* Each entry is a <code>List</code> whose first entry
* is an Integer (the name type, 0-8) and whose second
* entry is a String or a byte array (the name, in
* string or ASN.1 DER encoded form, respectively).
* There can be multiple names of the same type. Null is
* not an acceptable value.
* @return a Set of <code>GeneralNameInterface</code>s
* @throws IOException if a parsing error occurs
*/
private static Set<GeneralNameInterface> parseNames(Collection<List<?>> names) throws IOException {
Set<GeneralNameInterface> genNames = new HashSet<GeneralNameInterface>();
for (List<?> nameList : names) {
if (nameList.size() != 2) {
throw new IOException("name list size not 2");
}
Object o = nameList.get(0);
if (!(o instanceof Integer)) {
throw new IOException("expected an Integer");
}
int nameType = ((Integer)o).intValue();
o = nameList.get(1);
genNames.add(makeGeneralNameInterface(nameType, o));
}
return genNames;
}
/**
* Compare for equality two objects of the form passed to
* setSubjectAlternativeNames (or X509CRLSelector.setIssuerNames).
* Throw an <code>IllegalArgumentException</code> or a
* <code>ClassCastException</code> if one of the objects is malformed.
*
* @param object1 a Collection containing the first object to compare
* @param object2 a Collection containing the second object to compare
* @return true if the objects are equal, false otherwise
*/
static boolean equalNames(Collection object1, Collection object2) {
if ((object1 == null) || (object2 == null)) {
return object1 == object2;
}
return object1.equals(object2);
}
/**
* Make a <code>GeneralNameInterface</code> out of a name type (0-8) and an
* Object that may be a byte array holding the ASN.1 DER encoded
* name or a String form of the name. Except for X.509
* Distinguished Names, the String form of the name must not be the
* result from calling toString on an existing GeneralNameInterface
* implementing class. The output of toString is not compatible
* with the String constructors for names other than Distinguished
* Names.
*
* @param type name type (0-8)
* @param name name as ASN.1 Der-encoded byte array or String
* @return a GeneralNameInterface name
* @throws IOException if a parsing error occurs
*/
static GeneralNameInterface makeGeneralNameInterface(int type, Object name)
throws IOException {
GeneralNameInterface result;
if (debug != null) {
debug.println("X509CertSelector.makeGeneralNameInterface("
+ type + ")...");
}
if (name instanceof String) {
if (debug != null) {
debug.println("X509CertSelector.makeGeneralNameInterface() "
+ "name is String: " + name);
}
switch (type) {
case NAME_RFC822:
result = new RFC822Name((String)name);
break;
case NAME_DNS:
result = new DNSName((String)name);
break;
case NAME_DIRECTORY:
result = new X500Name((String)name);
break;
case NAME_URI:
result = new URIName((String)name);
break;
case NAME_IP:
result = new IPAddressName((String)name);
break;
case NAME_OID:
result = new OIDName((String)name);
break;
default:
throw new IOException("unable to parse String names of type "
+ type);
}
if (debug != null) {
debug.println("X509CertSelector.makeGeneralNameInterface() "
+ "result: " + result.toString());
}
} else if (name instanceof byte[]) {
DerValue val = new DerValue((byte[]) name);
if (debug != null) {
debug.println
("X509CertSelector.makeGeneralNameInterface() is byte[]");
}
switch (type) {
case NAME_ANY:
result = new OtherName(val);
break;
case NAME_RFC822:
result = new RFC822Name(val);
break;
case NAME_DNS:
result = new DNSName(val);
break;
case NAME_X400:
result = new X400Address(val);
break;
case NAME_DIRECTORY:
result = new X500Name(val);
break;
case NAME_EDI:
result = new EDIPartyName(val);
break;
case NAME_URI:
result = new URIName(val);
break;
case NAME_IP:
result = new IPAddressName(val);
break;
case NAME_OID:
result = new OIDName(val);
break;
default:
throw new IOException("unable to parse byte array names of "
+ "type " + type);
}
if (debug != null) {
debug.println("X509CertSelector.makeGeneralNameInterface() result: "
+ result.toString());
}
} else {
if (debug != null) {
debug.println("X509CertSelector.makeGeneralName() input name "
+ "not String or byte array");
}
throw new IOException("name not String or byte array");
}
return result;
}
/**
* Sets the name constraints criterion. The <code>X509Certificate</code>
* must have subject and subject alternative names that
* meet the specified name constraints.
* <p>
* The name constraints are specified as a byte array. This byte array
* should contain the DER encoded form of the name constraints, as they
* would appear in the NameConstraints structure defined in RFC 3280
* and X.509. The ASN.1 definition of this structure appears below.
*
* <pre><code>
* NameConstraints ::= SEQUENCE {
* permittedSubtrees [0] GeneralSubtrees OPTIONAL,
* excludedSubtrees [1] GeneralSubtrees OPTIONAL }
*
* GeneralSubtrees ::= SEQUENCE SIZE (1..MAX) OF GeneralSubtree
*
* GeneralSubtree ::= SEQUENCE {
* base GeneralName,
* minimum [0] BaseDistance DEFAULT 0,
* maximum [1] BaseDistance OPTIONAL }
*
* BaseDistance ::= INTEGER (0..MAX)
*
* GeneralName ::= CHOICE {
* otherName [0] OtherName,
* rfc822Name [1] IA5String,
* dNSName [2] IA5String,
* x400Address [3] ORAddress,
* directoryName [4] Name,
* ediPartyName [5] EDIPartyName,
* uniformResourceIdentifier [6] IA5String,
* iPAddress [7] OCTET STRING,
* registeredID [8] OBJECT IDENTIFIER}
* </code></pre>
* <p>
* Note that the byte array supplied here is cloned to protect against
* subsequent modifications.
*
* @param bytes a byte array containing the ASN.1 DER encoding of
* a NameConstraints extension to be used for checking
* name constraints. Only the value of the extension is
* included, not the OID or criticality flag. Can be
* <code>null</code>,
* in which case no name constraints check will be performed.
* @throws IOException if a parsing error occurs
* @see #getNameConstraints
*/
public void setNameConstraints(byte[] bytes) throws IOException {
if (bytes == null) {
ncBytes = null;
nc = null;
} else {
ncBytes = bytes.clone();
nc = new NameConstraintsExtension(FALSE, bytes);
}
}
/**
* Sets the basic constraints constraint. If the value is greater than or
* equal to zero, <code>X509Certificates</code> must include a
* basicConstraints extension with
* a pathLen of at least this value. If the value is -2, only end-entity
* certificates are accepted. If the value is -1, no check is done.
* <p>
* This constraint is useful when building a certification path forward
* (from the target toward the trust anchor. If a partial path has been
* built, any candidate certificate must have a maxPathLen value greater
* than or equal to the number of certificates in the partial path.
*
* @param minMaxPathLen the value for the basic constraints constraint
* @throws IllegalArgumentException if the value is less than -2
* @see #getBasicConstraints
*/
public void setBasicConstraints(int minMaxPathLen) {
if (minMaxPathLen < -2) {
throw new IllegalArgumentException("basic constraints less than -2");
}
basicConstraints = minMaxPathLen;
}
/**
* Sets the policy constraint. The <code>X509Certificate</code> must
* include at least one of the specified policies in its certificate
* policies extension. If <code>certPolicySet</code> is empty, then the
* <code>X509Certificate</code> must include at least some specified policy
* in its certificate policies extension. If <code>certPolicySet</code> is
* <code>null</code>, no policy check will be performed.
* <p>
* Note that the <code>Set</code> is cloned to protect against
* subsequent modifications.
*
* @param certPolicySet a <code>Set</code> of certificate policy OIDs in
* string format (or <code>null</code>). Each OID is
* represented by a set of nonnegative integers
* separated by periods.
* @throws IOException if a parsing error occurs on the OID such as
* the first component is not 0, 1 or 2 or the second component is
* greater than 39.
* @see #getPolicy
*/
public void setPolicy(Set<String> certPolicySet) throws IOException {
if (certPolicySet == null) {
policySet = null;
policy = null;
} else {
// Snapshot set and parse it
Set<String> tempSet = Collections.unmodifiableSet
(new HashSet<String>(certPolicySet));
/* Convert to Vector of ObjectIdentifiers */
Iterator<String> i = tempSet.iterator();
Vector<CertificatePolicyId> polIdVector = new Vector<CertificatePolicyId>();
while (i.hasNext()) {
Object o = i.next();
if (!(o instanceof String)) {
throw new IOException("non String in certPolicySet");
}
polIdVector.add(new CertificatePolicyId(new ObjectIdentifier(
(String)o)));
}
// If everything went OK, make the changes
policySet = tempSet;
policy = new CertificatePolicySet(polIdVector);
}
}
/**
* Sets the pathToNames criterion. The <code>X509Certificate</code> must
* not include name constraints that would prohibit building a
* path to the specified names.
* <p>
* This method allows the caller to specify, with a single method call,
* the complete set of names which the <code>X509Certificates</code>'s
* name constraints must permit. The specified value replaces
* the previous value for the pathToNames criterion.
* <p>
* This constraint is useful when building a certification path forward
* (from the target toward the trust anchor. If a partial path has been
* built, any candidate certificate must not include name constraints that
* would prohibit building a path to any of the names in the partial path.
* <p>
* The <code>names</code> parameter (if not <code>null</code>) is a
* <code>Collection</code> with one
* entry for each name to be included in the pathToNames
* criterion. Each entry is a <code>List</code> whose first entry is an
* <code>Integer</code> (the name type, 0-8) and whose second
* entry is a <code>String</code> or a byte array (the name, in
* string or ASN.1 DER encoded form, respectively).
* There can be multiple names of the same type. If <code>null</code>
* is supplied as the value for this argument, no
* pathToNames check will be performed.
* <p>
* Each name in the <code>Collection</code>
* may be specified either as a <code>String</code> or as an ASN.1 encoded
* byte array. For more details about the formats used, see
* {@link #addPathToName(int type, String name)
* addPathToName(int type, String name)} and
* {@link #addPathToName(int type, byte [] name)
* addPathToName(int type, byte [] name)}.
* <p>
* <strong>Note:</strong> for distinguished names, specify the byte
* array form instead of the String form. See the note in
* {@link #addPathToName(int, String)} for more information.
* <p>
* Note that the <code>names</code> parameter can contain duplicate
* names (same name and name type), but they may be removed from the
* <code>Collection</code> of names returned by the
* {@link #getPathToNames getPathToNames} method.
* <p>
* Note that a deep copy is performed on the <code>Collection</code> to
* protect against subsequent modifications.
*
* @param names a <code>Collection</code> with one entry per name
* (or <code>null</code>)
* @throws IOException if a parsing error occurs
* @see #getPathToNames
*/
public void setPathToNames(Collection<List<?>> names) throws IOException {
if ((names == null) || names.isEmpty()) {
pathToNames = null;
pathToGeneralNames = null;
} else {
Set<List<?>> tempNames = cloneAndCheckNames(names);
pathToGeneralNames = parseNames(tempNames);
// Ensure that we either set both of these or neither
pathToNames = tempNames;
}
}
// called from CertPathHelper
void setPathToNamesInternal(Set<GeneralNameInterface> names) {
// set names to non-null dummy value
// this breaks getPathToNames()
pathToNames = Collections.<List<?>>emptySet();
pathToGeneralNames = names;
}
/**
* Adds a name to the pathToNames criterion. The <code>X509Certificate</code>
* must not include name constraints that would prohibit building a
* path to the specified name.
* <p>
* This method allows the caller to add a name to the set of names which
* the <code>X509Certificates</code>'s name constraints must permit.
* The specified name is added to any previous value for the
* pathToNames criterion. If the name is a duplicate, it may be ignored.
* <p>
* The name is provided in string format. RFC 822, DNS, and URI names
* use the well-established string formats for those types (subject to
* the restrictions included in RFC 3280). IPv4 address names are
* supplied using dotted quad notation. OID address names are represented
* as a series of nonnegative integers separated by periods. And
* directory names (distinguished names) are supplied in RFC 2253 format.
* No standard string format is defined for otherNames, X.400 names,
* EDI party names, IPv6 address names, or any other type of names. They
* should be specified using the
* {@link #addPathToName(int type, byte [] name)
* addPathToName(int type, byte [] name)} method.
* <p>
* <strong>Note:</strong> for distinguished names, use
* {@linkplain #addPathToName(int, byte[])} instead.
* This method should not be relied on as it can fail to match some
* certificates because of a loss of encoding information in the RFC 2253
* String form of some distinguished names.
*
* @param type the name type (0-8, as specified in
* RFC 3280, section 4.2.1.7)
* @param name the name in string form
* @throws IOException if a parsing error occurs
*/
public void addPathToName(int type, String name) throws IOException {
addPathToNameInternal(type, name);
}
/**
* Adds a name to the pathToNames criterion. The <code>X509Certificate</code>
* must not include name constraints that would prohibit building a
* path to the specified name.
* <p>
* This method allows the caller to add a name to the set of names which
* the <code>X509Certificates</code>'s name constraints must permit.
* The specified name is added to any previous value for the
* pathToNames criterion. If the name is a duplicate, it may be ignored.
* <p>
* The name is provided as a byte array. This byte array should contain
* the DER encoded name, as it would appear in the GeneralName structure
* defined in RFC 3280 and X.509. The ASN.1 definition of this structure
* appears in the documentation for
* {@link #addSubjectAlternativeName(int type, byte [] name)
* addSubjectAlternativeName(int type, byte [] name)}.
* <p>
* Note that the byte array supplied here is cloned to protect against
* subsequent modifications.
*
* @param type the name type (0-8, as specified in
* RFC 3280, section 4.2.1.7)
* @param name a byte array containing the name in ASN.1 DER encoded form
* @throws IOException if a parsing error occurs
*/
public void addPathToName(int type, byte [] name) throws IOException {
// clone because byte arrays are modifiable
addPathToNameInternal(type, name.clone());
}
/**
* A private method that adds a name (String or byte array) to the
* pathToNames criterion. The <code>X509Certificate</code> must contain
* the specified pathToName.
*
* @param type the name type (0-8, as specified in
* RFC 3280, section 4.2.1.7)
* @param name the name in string or byte array form
* @throws IOException if an encoding error occurs (incorrect form for DN)
*/
private void addPathToNameInternal(int type, Object name)
throws IOException {
// First, ensure that the name parses
GeneralNameInterface tempName = makeGeneralNameInterface(type, name);
if (pathToGeneralNames == null) {
pathToNames = new HashSet<List<?>>();
pathToGeneralNames = new HashSet<GeneralNameInterface>();
}
List<Object> list = new ArrayList<Object>(2);
list.add(Integer.valueOf(type));
list.add(name);
pathToNames.add(list);
pathToGeneralNames.add(tempName);
}
/**
* Returns the certificateEquals criterion. The specified
* <code>X509Certificate</code> must be equal to the
* <code>X509Certificate</code> passed to the <code>match</code> method.
* If <code>null</code>, this check is not applied.
*
* @return the <code>X509Certificate</code> to match (or <code>null</code>)
* @see #setCertificate
*/
public X509Certificate getCertificate() {
return x509Cert;
}
/**
* Returns the serialNumber criterion. The specified serial number
* must match the certificate serial number in the
* <code>X509Certificate</code>. If <code>null</code>, any certificate
* serial number will do.
*
* @return the certificate serial number to match
* (or <code>null</code>)
* @see #setSerialNumber
*/
public BigInteger getSerialNumber() {
return serialNumber;
}
/**
* Returns the issuer criterion as an <code>X500Principal</code>. This
* distinguished name must match the issuer distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, the issuer criterion
* is disabled and any issuer distinguished name will do.
*
* @return the required issuer distinguished name as X500Principal
* (or <code>null</code>)
* @since 1.5
*/
public X500Principal getIssuer() {
return issuer;
}
/**
* <strong>Denigrated</strong>, use {@linkplain #getIssuer()} or
* {@linkplain #getIssuerAsBytes()} instead. This method should not be
* relied on as it can fail to match some certificates because of a loss of
* encoding information in the RFC 2253 String form of some distinguished
* names.
* <p>
* Returns the issuer criterion as a <code>String</code>. This
* distinguished name must match the issuer distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, the issuer criterion
* is disabled and any issuer distinguished name will do.
* <p>
* If the value returned is not <code>null</code>, it is a
* distinguished name, in RFC 2253 format.
*
* @return the required issuer distinguished name in RFC 2253 format
* (or <code>null</code>)
*/
public String getIssuerAsString() {
return (issuer == null ? null : issuer.getName());
}
/**
* Returns the issuer criterion as a byte array. This distinguished name
* must match the issuer distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, the issuer criterion
* is disabled and any issuer distinguished name will do.
* <p>
* If the value returned is not <code>null</code>, it is a byte
* array containing a single DER encoded distinguished name, as defined in
* X.501. The ASN.1 notation for this structure is supplied in the
* documentation for
* {@link #setIssuer(byte [] issuerDN) setIssuer(byte [] issuerDN)}.
* <p>
* Note that the byte array returned is cloned to protect against
* subsequent modifications.
*
* @return a byte array containing the required issuer distinguished name
* in ASN.1 DER format (or <code>null</code>)
* @throws IOException if an encoding error occurs
*/
public byte[] getIssuerAsBytes() throws IOException {
return (issuer == null ? null: issuer.getEncoded());
}
/**
* Returns the subject criterion as an <code>X500Principal</code>. This
* distinguished name must match the subject distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, the subject criterion
* is disabled and any subject distinguished name will do.
*
* @return the required subject distinguished name as X500Principal
* (or <code>null</code>)
* @since 1.5
*/
public X500Principal getSubject() {
return subject;
}
/**
* <strong>Denigrated</strong>, use {@linkplain #getSubject()} or
* {@linkplain #getSubjectAsBytes()} instead. This method should not be
* relied on as it can fail to match some certificates because of a loss of
* encoding information in the RFC 2253 String form of some distinguished
* names.
* <p>
* Returns the subject criterion as a <code>String</code>. This
* distinguished name must match the subject distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, the subject criterion
* is disabled and any subject distinguished name will do.
* <p>
* If the value returned is not <code>null</code>, it is a
* distinguished name, in RFC 2253 format.
*
* @return the required subject distinguished name in RFC 2253 format
* (or <code>null</code>)
*/
public String getSubjectAsString() {
return (subject == null ? null : subject.getName());
}
/**
* Returns the subject criterion as a byte array. This distinguished name
* must match the subject distinguished name in the
* <code>X509Certificate</code>. If <code>null</code>, the subject criterion
* is disabled and any subject distinguished name will do.
* <p>
* If the value returned is not <code>null</code>, it is a byte
* array containing a single DER encoded distinguished name, as defined in
* X.501. The ASN.1 notation for this structure is supplied in the
* documentation for
* {@link #setSubject(byte [] subjectDN) setSubject(byte [] subjectDN)}.
* <p>
* Note that the byte array returned is cloned to protect against
* subsequent modifications.
*
* @return a byte array containing the required subject distinguished name
* in ASN.1 DER format (or <code>null</code>)
* @throws IOException if an encoding error occurs
*/
public byte[] getSubjectAsBytes() throws IOException {
return (subject == null ? null : subject.getEncoded());
}
/**
* Returns the subjectKeyIdentifier criterion. The
* <code>X509Certificate</code> must contain a SubjectKeyIdentifier
* extension with the specified value. If <code>null</code>, no
* subjectKeyIdentifier check will be done.
* <p>
* Note that the byte array returned is cloned to protect against
* subsequent modifications.
*
* @return the key identifier (or <code>null</code>)
* @see #setSubjectKeyIdentifier
*/
public byte[] getSubjectKeyIdentifier() {
if (subjectKeyID == null) {
return null;
}
return subjectKeyID.clone();
}
/**
* Returns the authorityKeyIdentifier criterion. The
* <code>X509Certificate</code> must contain a AuthorityKeyIdentifier
* extension with the specified value. If <code>null</code>, no
* authorityKeyIdentifier check will be done.
* <p>
* Note that the byte array returned is cloned to protect against
* subsequent modifications.
*
* @return the key identifier (or <code>null</code>)
* @see #setAuthorityKeyIdentifier
*/
public byte[] getAuthorityKeyIdentifier() {
if (authorityKeyID == null) {
return null;
}
return authorityKeyID.clone();
}
/**
* Returns the certificateValid criterion. The specified date must fall
* within the certificate validity period for the
* <code>X509Certificate</code>. If <code>null</code>, no certificateValid
* check will be done.
* <p>
* Note that the <code>Date</code> returned is cloned to protect against
* subsequent modifications.
*
* @return the <code>Date</code> to check (or <code>null</code>)
* @see #setCertificateValid
*/
public Date getCertificateValid() {
if (certificateValid == null) {
return null;
}
return (Date)certificateValid.clone();
}
/**
* Returns the privateKeyValid criterion. The specified date must fall
* within the private key validity period for the
* <code>X509Certificate</code>. If <code>null</code>, no privateKeyValid
* check will be done.
* <p>
* Note that the <code>Date</code> returned is cloned to protect against
* subsequent modifications.
*
* @return the <code>Date</code> to check (or <code>null</code>)
* @see #setPrivateKeyValid
*/
public Date getPrivateKeyValid() {
if (privateKeyValid == null) {
return null;
}
return (Date)privateKeyValid.clone();
}
/**
* Returns the subjectPublicKeyAlgID criterion. The
* <code>X509Certificate</code> must contain a subject public key
* with the specified algorithm. If <code>null</code>, no
* subjectPublicKeyAlgID check will be done.
*
* @return the object identifier (OID) of the signature algorithm to check
* for (or <code>null</code>). An OID is represented by a set of
* nonnegative integers separated by periods.
* @see #setSubjectPublicKeyAlgID
*/
public String getSubjectPublicKeyAlgID() {
if (subjectPublicKeyAlgID == null) {
return null;
}
return subjectPublicKeyAlgID.toString();
}
/**
* Returns the subjectPublicKey criterion. The
* <code>X509Certificate</code> must contain the specified subject
* public key. If <code>null</code>, no subjectPublicKey check will be done.
*
* @return the subject public key to check for (or <code>null</code>)
* @see #setSubjectPublicKey
*/
public PublicKey getSubjectPublicKey() {
return subjectPublicKey;
}
/**
* Returns the keyUsage criterion. The <code>X509Certificate</code>
* must allow the specified keyUsage values. If null, no keyUsage
* check will be done.
* <p>
* Note that the boolean array returned is cloned to protect against
* subsequent modifications.
*
* @return a boolean array in the same format as the boolean
* array returned by
* {@link X509Certificate#getKeyUsage() X509Certificate.getKeyUsage()}.
* Or <code>null</code>.
* @see #setKeyUsage
*/
public boolean[] getKeyUsage() {
if (keyUsage == null) {
return null;
}
return keyUsage.clone();
}
/**
* Returns the extendedKeyUsage criterion. The <code>X509Certificate</code>
* must allow the specified key purposes in its extended key usage
* extension. If the <code>keyPurposeSet</code> returned is empty or
* <code>null</code>, no extendedKeyUsage check will be done. Note that an
* <code>X509Certificate</code> that has no extendedKeyUsage extension
* implicitly allows all key purposes.
*
* @return an immutable <code>Set</code> of key purpose OIDs in string
* format (or <code>null</code>)
* @see #setExtendedKeyUsage
*/
public Set<String> getExtendedKeyUsage() {
return keyPurposeSet;
}
/**
* Indicates if the <code>X509Certificate</code> must contain all
* or at least one of the subjectAlternativeNames
* specified in the {@link #setSubjectAlternativeNames
* setSubjectAlternativeNames} or {@link #addSubjectAlternativeName
* addSubjectAlternativeName} methods. If <code>true</code>,
* the <code>X509Certificate</code> must contain all of the
* specified subject alternative names. If <code>false</code>, the
* <code>X509Certificate</code> must contain at least one of the
* specified subject alternative names.
*
* @return <code>true</code> if the flag is enabled;
* <code>false</code> if the flag is disabled. The flag is
* <code>true</code> by default.
* @see #setMatchAllSubjectAltNames
*/
public boolean getMatchAllSubjectAltNames() {
return matchAllSubjectAltNames;
}
/**
* Returns a copy of the subjectAlternativeNames criterion.
* The <code>X509Certificate</code> must contain all or at least one
* of the specified subjectAlternativeNames, depending on the value
* of the matchAllNames flag (see {@link #getMatchAllSubjectAltNames
* getMatchAllSubjectAltNames}). If the value returned is
* <code>null</code>, no subjectAlternativeNames check will be performed.
* <p>
* If the value returned is not <code>null</code>, it is a
* <code>Collection</code> with
* one entry for each name to be included in the subject alternative name
* criterion. Each entry is a <code>List</code> whose first entry is an
* <code>Integer</code> (the name type, 0-8) and whose second
* entry is a <code>String</code> or a byte array (the name, in
* string or ASN.1 DER encoded form, respectively).
* There can be multiple names of the same type. Note that the
* <code>Collection</code> returned may contain duplicate names (same name
* and name type).
* <p>
* Each subject alternative name in the <code>Collection</code>
* may be specified either as a <code>String</code> or as an ASN.1 encoded
* byte array. For more details about the formats used, see
* {@link #addSubjectAlternativeName(int type, String name)
* addSubjectAlternativeName(int type, String name)} and
* {@link #addSubjectAlternativeName(int type, byte [] name)
* addSubjectAlternativeName(int type, byte [] name)}.
* <p>
* Note that a deep copy is performed on the <code>Collection</code> to
* protect against subsequent modifications.
*
* @return a <code>Collection</code> of names (or <code>null</code>)
* @see #setSubjectAlternativeNames
*/
public Collection<List<?>> getSubjectAlternativeNames() {
if (subjectAlternativeNames == null) {
return null;
}
return cloneNames(subjectAlternativeNames);
}
/**
* Clone an object of the form passed to
* setSubjectAlternativeNames and setPathToNames.
* Throw a <code>RuntimeException</code> if the argument is malformed.
* <p>
* This method wraps cloneAndCheckNames, changing any
* <code>IOException</code> into a <code>RuntimeException</code>. This
* method should be used when the object being
* cloned has already been checked, so there should never be any exceptions.
*
* @param names a <code>Collection</code> with one entry per name.
* Each entry is a <code>List</code> whose first entry
* is an Integer (the name type, 0-8) and whose second
* entry is a String or a byte array (the name, in
* string or ASN.1 DER encoded form, respectively).
* There can be multiple names of the same type. Null
* is not an acceptable value.
* @return a deep copy of the specified <code>Collection</code>
* @throws RuntimeException if a parsing error occurs
*/
private static Set<List<?>> cloneNames(Collection<List<?>> names) {
try {
return cloneAndCheckNames(names);
} catch (IOException e) {
throw new RuntimeException("cloneNames encountered IOException: " +
e.getMessage());
}
}
/**
* Clone and check an argument of the form passed to
* setSubjectAlternativeNames and setPathToNames.
* Throw an <code>IOException</code> if the argument is malformed.
*
* @param names a <code>Collection</code> with one entry per name.
* Each entry is a <code>List</code> whose first entry
* is an Integer (the name type, 0-8) and whose second
* entry is a String or a byte array (the name, in
* string or ASN.1 DER encoded form, respectively).
* There can be multiple names of the same type.
* <code>null</code> is not an acceptable value.
* @return a deep copy of the specified <code>Collection</code>
* @throws IOException if a parsing error occurs
*/
private static Set<List<?>> cloneAndCheckNames(Collection<List<?>> names) throws IOException {
// Copy the Lists and Collection
Set<List<?>> namesCopy = new HashSet<List<?>>();
Iterator<List<?>> i = names.iterator();
while (i.hasNext()) {
Object o = i.next();
if (!(o instanceof List)) {
throw new IOException("expected a List");
}
namesCopy.add(new ArrayList<Object>((List<?>)o));
}
// Check the contents of the Lists and clone any byte arrays
i = namesCopy.iterator();
while (i.hasNext()) {
List<Object> nameList = (List<Object>)i.next();
if (nameList.size() != 2) {
throw new IOException("name list size not 2");
}
Object o = nameList.get(0);
if (!(o instanceof Integer)) {
throw new IOException("expected an Integer");
}
int nameType = ((Integer)o).intValue();
if ((nameType < 0) || (nameType > 8)) {
throw new IOException("name type not 0-8");
}
Object nameObject = nameList.get(1);
if (!(nameObject instanceof byte[]) &&
!(nameObject instanceof String)) {
if (debug != null) {
debug.println("X509CertSelector.cloneAndCheckNames() "
+ "name not byte array");
}
throw new IOException("name not byte array or String");
}
if (nameObject instanceof byte[]) {
nameList.set(1, ((byte[]) nameObject).clone());
}
}
return namesCopy;
}
/**
* Returns the name constraints criterion. The <code>X509Certificate</code>
* must have subject and subject alternative names that
* meet the specified name constraints.
* <p>
* The name constraints are returned as a byte array. This byte array
* contains the DER encoded form of the name constraints, as they
* would appear in the NameConstraints structure defined in RFC 3280
* and X.509. The ASN.1 notation for this structure is supplied in the
* documentation for
* {@link #setNameConstraints(byte [] bytes) setNameConstraints(byte [] bytes)}.
* <p>
* Note that the byte array returned is cloned to protect against
* subsequent modifications.
*
* @return a byte array containing the ASN.1 DER encoding of
* a NameConstraints extension used for checking name constraints.
* <code>null</code> if no name constraints check will be performed.
* @see #setNameConstraints
*/
public byte[] getNameConstraints() {
if (ncBytes == null) {
return null;
} else {
return ncBytes.clone();
}
}
/**
* Returns the basic constraints constraint. If the value is greater than
* or equal to zero, the <code>X509Certificates</code> must include a
* basicConstraints extension with a pathLen of at least this value.
* If the value is -2, only end-entity certificates are accepted. If
* the value is -1, no basicConstraints check is done.
*
* @return the value for the basic constraints constraint
* @see #setBasicConstraints
*/
public int getBasicConstraints() {
return basicConstraints;
}
/**
* Returns the policy criterion. The <code>X509Certificate</code> must
* include at least one of the specified policies in its certificate policies
* extension. If the <code>Set</code> returned is empty, then the
* <code>X509Certificate</code> must include at least some specified policy
* in its certificate policies extension. If the <code>Set</code> returned is
* <code>null</code>, no policy check will be performed.
*
* @return an immutable <code>Set</code> of certificate policy OIDs in
* string format (or <code>null</code>)
* @see #setPolicy
*/
public Set<String> getPolicy() {
return policySet;
}
/**
* Returns a copy of the pathToNames criterion. The
* <code>X509Certificate</code> must not include name constraints that would
* prohibit building a path to the specified names. If the value
* returned is <code>null</code>, no pathToNames check will be performed.
* <p>
* If the value returned is not <code>null</code>, it is a
* <code>Collection</code> with one
* entry for each name to be included in the pathToNames
* criterion. Each entry is a <code>List</code> whose first entry is an
* <code>Integer</code> (the name type, 0-8) and whose second
* entry is a <code>String</code> or a byte array (the name, in
* string or ASN.1 DER encoded form, respectively).
* There can be multiple names of the same type. Note that the
* <code>Collection</code> returned may contain duplicate names (same
* name and name type).
* <p>
* Each name in the <code>Collection</code>
* may be specified either as a <code>String</code> or as an ASN.1 encoded
* byte array. For more details about the formats used, see
* {@link #addPathToName(int type, String name)
* addPathToName(int type, String name)} and
* {@link #addPathToName(int type, byte [] name)
* addPathToName(int type, byte [] name)}.
* <p>
* Note that a deep copy is performed on the <code>Collection</code> to
* protect against subsequent modifications.
*
* @return a <code>Collection</code> of names (or <code>null</code>)
* @see #setPathToNames
*/
public Collection<List<?>> getPathToNames() {
if (pathToNames == null) {
return null;
}
return cloneNames(pathToNames);
}
/**
* Return a printable representation of the <code>CertSelector</code>.
*
* @return a <code>String</code> describing the contents of the
* <code>CertSelector</code>
*/
public String toString() {
StringBuffer sb = new StringBuffer();
sb.append("X509CertSelector: [\n");
if (x509Cert != null) {
sb.append(" Certificate: " + x509Cert.toString() + "\n");
}
if (serialNumber != null) {
sb.append(" Serial Number: " + serialNumber.toString() + "\n");
}
if (issuer != null) {
sb.append(" Issuer: " + getIssuerAsString() + "\n");
}
if (subject != null) {
sb.append(" Subject: " + getSubjectAsString() + "\n");
}
sb.append(" matchAllSubjectAltNames flag: "
+ String.valueOf(matchAllSubjectAltNames) + "\n");
if (subjectAlternativeNames != null) {
sb.append(" SubjectAlternativeNames:\n");
Iterator<List<?>> i = subjectAlternativeNames.iterator();
while (i.hasNext()) {
List<?> list = i.next();
sb.append(" type " + list.get(0) +
", name " + list.get(1) + "\n");
}
}
if (subjectKeyID != null) {
HexDumpEncoder enc = new HexDumpEncoder();
sb.append(" Subject Key Identifier: " +
enc.encodeBuffer(subjectKeyID) + "\n");
}
if (authorityKeyID != null) {
HexDumpEncoder enc = new HexDumpEncoder();
sb.append(" Authority Key Identifier: " +
enc.encodeBuffer(authorityKeyID) + "\n");
}
if (certificateValid != null) {
sb.append(" Certificate Valid: " +
certificateValid.toString() + "\n");
}
if (privateKeyValid != null) {
sb.append(" Private Key Valid: " +
privateKeyValid.toString() + "\n");
}
if (subjectPublicKeyAlgID != null) {
sb.append(" Subject Public Key AlgID: " +
subjectPublicKeyAlgID.toString() + "\n");
}
if (subjectPublicKey != null) {
sb.append(" Subject Public Key: " +
subjectPublicKey.toString() + "\n");
}
if (keyUsage != null) {
sb.append(" Key Usage: " + keyUsageToString(keyUsage) + "\n");
}
if (keyPurposeSet != null) {
sb.append(" Extended Key Usage: " +
keyPurposeSet.toString() + "\n");
}
if (policy != null) {
sb.append(" Policy: " + policy.toString() + "\n");
}
if (pathToGeneralNames != null) {
sb.append(" Path to names:\n");
Iterator<GeneralNameInterface> i = pathToGeneralNames.iterator();
while (i.hasNext()) {
sb.append(" " + i.next() + "\n");
}
}
sb.append("]");
return sb.toString();
}
// Copied from sun.security.x509.KeyUsageExtension
// (without calling the superclass)
/**
* Returns a printable representation of the KeyUsage.
*/
private static String keyUsageToString(boolean[] k) {
String s = "KeyUsage [\n";
try {
if (k[0]) {
s += " DigitalSignature\n";
}
if (k[1]) {
s += " Non_repudiation\n";
}
if (k[2]) {
s += " Key_Encipherment\n";
}
if (k[3]) {
s += " Data_Encipherment\n";
}
if (k[4]) {
s += " Key_Agreement\n";
}
if (k[5]) {
s += " Key_CertSign\n";
}
if (k[6]) {
s += " Crl_Sign\n";
}
if (k[7]) {
s += " Encipher_Only\n";
}
if (k[8]) {
s += " Decipher_Only\n";
}
} catch (ArrayIndexOutOfBoundsException ex) {}
s += "]\n";
return (s);
}
/**
* Returns an Extension object given any X509Certificate and extension oid.
* Throw an <code>IOException</code> if the extension byte value is
* malformed.
*
* @param cert a <code>X509Certificate</code>
* @param extId an <code>integer</code> which specifies the extension index.
* Currently, the supported extensions are as follows:
* index 0 - PrivateKeyUsageExtension
* index 1 - SubjectAlternativeNameExtension
* index 2 - NameConstraintsExtension
* index 3 - CertificatePoliciesExtension
* index 4 - ExtendedKeyUsageExtension
* @return an <code>Extension</code> object whose real type is as specified
* by the extension oid.
* @throws IOException if cannot construct the <code>Extension</code>
* object with the extension encoding retrieved from the passed in
* <code>X509Certificate</code>.
*/
private static Extension getExtensionObject(X509Certificate cert, int extId)
throws IOException {
if (cert instanceof X509CertImpl) {
X509CertImpl impl = (X509CertImpl)cert;
switch (extId) {
case PRIVATE_KEY_USAGE_ID:
return impl.getPrivateKeyUsageExtension();
case SUBJECT_ALT_NAME_ID:
return impl.getSubjectAlternativeNameExtension();
case NAME_CONSTRAINTS_ID:
return impl.getNameConstraintsExtension();
case CERT_POLICIES_ID:
return impl.getCertificatePoliciesExtension();
case EXTENDED_KEY_USAGE_ID:
return impl.getExtendedKeyUsageExtension();
default:
return null;
}
}
byte[] rawExtVal = cert.getExtensionValue(EXTENSION_OIDS[extId]);
if (rawExtVal == null) {
return null;
}
DerInputStream in = new DerInputStream(rawExtVal);
byte[] encoded = in.getOctetString();
switch (extId) {
case PRIVATE_KEY_USAGE_ID:
try {
return new PrivateKeyUsageExtension(FALSE, encoded);
} catch (CertificateException ex) {
throw new IOException(ex.getMessage());
}
case SUBJECT_ALT_NAME_ID:
return new SubjectAlternativeNameExtension(FALSE, encoded);
case NAME_CONSTRAINTS_ID:
return new NameConstraintsExtension(FALSE, encoded);
case CERT_POLICIES_ID:
return new CertificatePoliciesExtension(FALSE, encoded);
case EXTENDED_KEY_USAGE_ID:
return new ExtendedKeyUsageExtension(FALSE, encoded);
default:
return null;
}
}
/**
* Decides whether a <code>Certificate</code> should be selected.
*
* @param cert the <code>Certificate</code> to be checked
* @return <code>true</code> if the <code>Certificate</code> should be
* selected, <code>false</code> otherwise
*/
public boolean match(Certificate cert) {
if (!(cert instanceof X509Certificate)) {
return false;
}
X509Certificate xcert = (X509Certificate)cert;
if (debug != null) {
debug.println("X509CertSelector.match(SN: "
+ (xcert.getSerialNumber()).toString(16) + "\n Issuer: "
+ xcert.getIssuerDN() + "\n Subject: " + xcert.getSubjectDN()
+ ")");
}
/* match on X509Certificate */
if (x509Cert != null) {
if (!x509Cert.equals(xcert)) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "certs don't match");
}
return false;
}
}
/* match on serial number */
if (serialNumber != null) {
if (!serialNumber.equals(xcert.getSerialNumber())) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "serial numbers don't match");
}
return false;
}
}
/* match on issuer name */
if (issuer != null) {
if (!issuer.equals(xcert.getIssuerX500Principal())) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "issuer DNs don't match");
}
return false;
}
}
/* match on subject name */
if (subject != null) {
if (!subject.equals(xcert.getSubjectX500Principal())) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "subject DNs don't match");
}
return false;
}
}
/* match on certificate validity range */
if (certificateValid != null) {
try {
xcert.checkValidity(certificateValid);
} catch (CertificateException e) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "certificate not within validity period");
}
return false;
}
}
/* match on subject public key */
if (subjectPublicKeyBytes != null) {
byte[] certKey = xcert.getPublicKey().getEncoded();
if (!Arrays.equals(subjectPublicKeyBytes, certKey)) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "subject public keys don't match");
}
return false;
}
}
boolean result = matchBasicConstraints(xcert)
&& matchKeyUsage(xcert)
&& matchExtendedKeyUsage(xcert)
&& matchSubjectKeyID(xcert)
&& matchAuthorityKeyID(xcert)
&& matchPrivateKeyValid(xcert)
&& matchSubjectPublicKeyAlgID(xcert)
&& matchPolicy(xcert)
&& matchSubjectAlternativeNames(xcert)
&& matchPathToNames(xcert)
&& matchNameConstraints(xcert);
if (result && (debug != null)) {
debug.println("X509CertSelector.match returning: true");
}
return result;
}
/* match on subject key identifier extension value */
private boolean matchSubjectKeyID(X509Certificate xcert) {
if (subjectKeyID == null) {
return true;
}
try {
byte[] extVal = xcert.getExtensionValue("2.5.29.14");
if (extVal == null) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "no subject key ID extension");
}
return false;
}
DerInputStream in = new DerInputStream(extVal);
byte[] certSubjectKeyID = in.getOctetString();
if (certSubjectKeyID == null ||
!Arrays.equals(subjectKeyID, certSubjectKeyID)) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "subject key IDs don't match");
}
return false;
}
} catch (IOException ex) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "exception in subject key ID check");
}
return false;
}
return true;
}
/* match on authority key identifier extension value */
private boolean matchAuthorityKeyID(X509Certificate xcert) {
if (authorityKeyID == null) {
return true;
}
try {
byte[] extVal = xcert.getExtensionValue("2.5.29.35");
if (extVal == null) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "no authority key ID extension");
}
return false;
}
DerInputStream in = new DerInputStream(extVal);
byte[] certAuthKeyID = in.getOctetString();
if (certAuthKeyID == null ||
!Arrays.equals(authorityKeyID, certAuthKeyID)) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "authority key IDs don't match");
}
return false;
}
} catch (IOException ex) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "exception in authority key ID check");
}
return false;
}
return true;
}
/* match on private key usage range */
private boolean matchPrivateKeyValid(X509Certificate xcert) {
if (privateKeyValid == null) {
return true;
}
PrivateKeyUsageExtension ext = null;
try {
ext = (PrivateKeyUsageExtension)
getExtensionObject(xcert, PRIVATE_KEY_USAGE_ID);
if (ext != null) {
ext.valid(privateKeyValid);
}
} catch (CertificateExpiredException e1) {
if (debug != null) {
String time = "n/a";
try {
Date notAfter =
(Date)ext.get(PrivateKeyUsageExtension.NOT_AFTER);
time = notAfter.toString();
} catch (CertificateException ex) {
// not able to retrieve notAfter value
}
debug.println("X509CertSelector.match: private key usage not "
+ "within validity date; ext.NOT_After: "
+ time + "; X509CertSelector: "
+ this.toString());
e1.printStackTrace();
}
return false;
} catch (CertificateNotYetValidException e2) {
if (debug != null) {
String time = "n/a";
try {
Date notBefore = (Date)
ext.get(PrivateKeyUsageExtension.NOT_BEFORE);
time = notBefore.toString();
} catch (CertificateException ex) {
// not able to retrieve notBefore value
}
debug.println("X509CertSelector.match: private key usage not "
+ "within validity date; ext.NOT_BEFORE: "
+ time + "; X509CertSelector: "
+ this.toString());
e2.printStackTrace();
}
return false;
} catch (CertificateException e3) {
if (debug != null) {
debug.println("X509CertSelector.match: CertificateException "
+ "in private key usage check; X509CertSelector: "
+ this.toString());
e3.printStackTrace();
}
return false;
} catch (IOException e4) {
if (debug != null) {
debug.println("X509CertSelector.match: IOException in "
+ "private key usage check; X509CertSelector: "
+ this.toString());
e4.printStackTrace();
}
return false;
}
return true;
}
/* match on subject public key algorithm OID */
private boolean matchSubjectPublicKeyAlgID(X509Certificate xcert) {
if (subjectPublicKeyAlgID == null) {
return true;
}
try {
byte[] encodedKey = xcert.getPublicKey().getEncoded();
DerValue val = new DerValue(encodedKey);
if (val.tag != DerValue.tag_Sequence) {
throw new IOException("invalid key format");
}
AlgorithmId algID = AlgorithmId.parse(val.data.getDerValue());
if (debug != null) {
debug.println("X509CertSelector.match: subjectPublicKeyAlgID = "
+ subjectPublicKeyAlgID + ", xcert subjectPublicKeyAlgID = "
+ algID.getOID());
}
if (!subjectPublicKeyAlgID.equals(algID.getOID())) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "subject public key alg IDs don't match");
}
return false;
}
} catch (IOException e5) {
if (debug != null) {
debug.println("X509CertSelector.match: IOException in subject "
+ "public key algorithm OID check");
}
return false;
}
return true;
}
/* match on key usage extension value */
private boolean matchKeyUsage(X509Certificate xcert) {
if (keyUsage == null) {
return true;
}
boolean[] certKeyUsage = xcert.getKeyUsage();
if (certKeyUsage != null) {
for (int keyBit = 0; keyBit < keyUsage.length; keyBit++) {
if (keyUsage[keyBit] &&
((keyBit >= certKeyUsage.length) || !certKeyUsage[keyBit])) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "key usage bits don't match");
}
return false;
}
}
}
return true;
}
/* match on extended key usage purpose OIDs */
private boolean matchExtendedKeyUsage(X509Certificate xcert) {
if ((keyPurposeSet == null) || keyPurposeSet.isEmpty()) {
return true;
}
try {
ExtendedKeyUsageExtension ext =
(ExtendedKeyUsageExtension)getExtensionObject(xcert,
EXTENDED_KEY_USAGE_ID);
if (ext != null) {
Vector<ObjectIdentifier> certKeyPurposeVector =
(Vector<ObjectIdentifier>)ext.get(ExtendedKeyUsageExtension.USAGES);
if (!certKeyPurposeVector.contains(ANY_EXTENDED_KEY_USAGE)
&& !certKeyPurposeVector.containsAll(keyPurposeOIDSet)) {
if (debug != null) {
debug.println("X509CertSelector.match: cert failed "
+ "extendedKeyUsage criterion");
}
return false;
}
}
} catch (IOException ex) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "IOException in extended key usage check");
}
return false;
}
return true;
}
/* match on subject alternative name extension names */
private boolean matchSubjectAlternativeNames(X509Certificate xcert) {
if ((subjectAlternativeNames == null) || subjectAlternativeNames.isEmpty()) {
return true;
}
try {
SubjectAlternativeNameExtension sanExt =
(SubjectAlternativeNameExtension) getExtensionObject(xcert,
SUBJECT_ALT_NAME_ID);
if (sanExt == null) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "no subject alternative name extension");
}
return false;
}
GeneralNames certNames = (GeneralNames)
sanExt.get(SubjectAlternativeNameExtension.SUBJECT_NAME);
Iterator<GeneralNameInterface> i =
subjectAlternativeGeneralNames.iterator();
while (i.hasNext()) {
GeneralNameInterface matchName = i.next();
boolean found = false;
for (Iterator<GeneralName> t = certNames.iterator();
t.hasNext() && !found; ) {
GeneralNameInterface certName = (t.next()).getName();
found = certName.equals(matchName);
}
if (!found && (matchAllSubjectAltNames || !i.hasNext())) {
if (debug != null) {
debug.println("X509CertSelector.match: subject alternative "
+ "name " + matchName + " not found");
}
return false;
} else if (found && !matchAllSubjectAltNames) {
break;
}
}
} catch (IOException ex) {
if (debug != null)
debug.println("X509CertSelector.match: IOException in subject "
+ "alternative name check");
return false;
}
return true;
}
/* match on name constraints */
private boolean matchNameConstraints(X509Certificate xcert) {
if (nc == null) {
return true;
}
try {
if (!nc.verify(xcert)) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "name constraints not satisfied");
}
return false;
}
} catch (IOException e) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "IOException in name constraints check");
}
return false;
}
return true;
}
/* match on policy OIDs */
private boolean matchPolicy(X509Certificate xcert) {
if (policy == null) {
return true;
}
try {
CertificatePoliciesExtension ext = (CertificatePoliciesExtension)
getExtensionObject(xcert, CERT_POLICIES_ID);
if (ext == null) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "no certificate policy extension");
}
return false;
}
List<PolicyInformation> policies = (List<PolicyInformation>)ext.get(CertificatePoliciesExtension.POLICIES);
/*
* Convert the Vector of PolicyInformation to a Vector
* of CertificatePolicyIds for easier comparison.
*/
List<CertificatePolicyId> policyIDs = new ArrayList<CertificatePolicyId>(policies.size());
for (PolicyInformation info : policies) {
policyIDs.add(info.getPolicyIdentifier());
}
if (policy != null) {
boolean foundOne = false;
/*
* if the user passes in an empty policy Set, then
* we just want to make sure that the candidate certificate
* has some policy OID in its CertPoliciesExtension
*/
if (policy.getCertPolicyIds().isEmpty()) {
if (policyIDs.isEmpty()) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "cert failed policyAny criterion");
}
return false;
}
} else {
for (CertificatePolicyId id : policy.getCertPolicyIds()) {
if (policyIDs.contains(id)) {
foundOne = true;
break;
}
}
if (!foundOne) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "cert failed policyAny criterion");
}
return false;
}
}
}
} catch (IOException ex) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "IOException in certificate policy ID check");
}
return false;
}
return true;
}
/* match on pathToNames */
private boolean matchPathToNames(X509Certificate xcert) {
if (pathToGeneralNames == null) {
return true;
}
try {
NameConstraintsExtension ext = (NameConstraintsExtension)
getExtensionObject(xcert, NAME_CONSTRAINTS_ID);
if (ext == null) {
return true;
}
if ((debug != null) && debug.isOn("certpath")) {
debug.println("X509CertSelector.match pathToNames:\n");
Iterator<GeneralNameInterface> i =
pathToGeneralNames.iterator();
while (i.hasNext()) {
debug.println(" " + i.next() + "\n");
}
}
GeneralSubtrees permitted = (GeneralSubtrees)
ext.get(NameConstraintsExtension.PERMITTED_SUBTREES);
GeneralSubtrees excluded = (GeneralSubtrees)
ext.get(NameConstraintsExtension.EXCLUDED_SUBTREES);
if (excluded != null) {
if (matchExcluded(excluded) == false) {
return false;
}
}
if (permitted != null) {
if (matchPermitted(permitted) == false) {
return false;
}
}
} catch (IOException ex) {
if (debug != null) {
debug.println("X509CertSelector.match: "
+ "IOException in name constraints check");
}
return false;
}
return true;
}
private boolean matchExcluded(GeneralSubtrees excluded) {
/*
* Enumerate through excluded and compare each entry
* to all pathToNames. If any pathToName is within any of the
* subtrees listed in excluded, return false.
*/
for (Iterator<GeneralSubtree> t = excluded.iterator(); t.hasNext(); ) {
GeneralSubtree tree = t.next();
GeneralNameInterface excludedName = tree.getName().getName();
Iterator<GeneralNameInterface> i = pathToGeneralNames.iterator();
while (i.hasNext()) {
GeneralNameInterface pathToName = i.next();
if (excludedName.getType() == pathToName.getType()) {
switch (pathToName.constrains(excludedName)) {
case GeneralNameInterface.NAME_WIDENS:
case GeneralNameInterface.NAME_MATCH:
if (debug != null) {
debug.println("X509CertSelector.match: name constraints "
+ "inhibit path to specified name");
debug.println("X509CertSelector.match: excluded name: " +
pathToName);
}
return false;
default:
}
}
}
}
return true;
}
private boolean matchPermitted(GeneralSubtrees permitted) {
/*
* Enumerate through pathToNames, checking that each pathToName
* is in at least one of the subtrees listed in permitted.
* If not, return false. However, if no subtrees of a given type
* are listed, all names of that type are permitted.
*/
Iterator<GeneralNameInterface> i = pathToGeneralNames.iterator();
while (i.hasNext()) {
GeneralNameInterface pathToName = i.next();
Iterator<GeneralSubtree> t = permitted.iterator();
boolean permittedNameFound = false;
boolean nameTypeFound = false;
String names = "";
while (t.hasNext() && !permittedNameFound) {
GeneralSubtree tree = t.next();
GeneralNameInterface permittedName = tree.getName().getName();
if (permittedName.getType() == pathToName.getType()) {
nameTypeFound = true;
names = names + " " + permittedName;
switch (pathToName.constrains(permittedName)) {
case GeneralNameInterface.NAME_WIDENS:
case GeneralNameInterface.NAME_MATCH:
permittedNameFound = true;
break;
default:
}
}
}
if (!permittedNameFound && nameTypeFound) {
if (debug != null)
debug.println("X509CertSelector.match: " +
"name constraints inhibit path to specified name; " +
"permitted names of type " + pathToName.getType() +
": " + names);
return false;
}
}
return true;
}
/* match on basic constraints */
private boolean matchBasicConstraints(X509Certificate xcert) {
if (basicConstraints == -1) {
return true;
}
int maxPathLen = xcert.getBasicConstraints();
if (basicConstraints == -2) {
if (maxPathLen != -1) {
if (debug != null) {
debug.println("X509CertSelector.match: not an EE cert");
}
return false;
}
} else {
if (maxPathLen < basicConstraints) {
if (debug != null) {
debug.println("X509CertSelector.match: maxPathLen too small ("
+ maxPathLen + " < " + basicConstraints + ")");
}
return false;
}
}
return true;
}
private static Set<?> cloneSet(Set<?> set) {
if (set instanceof HashSet) {
Object clone = ((HashSet<?>)set).clone();
return (Set<?>)clone;
} else {
return new HashSet<Object>(set);
}
}
/**
* Returns a copy of this object.
*
* @return the copy
*/
public Object clone() {
try {
X509CertSelector copy = (X509CertSelector)super.clone();
// Must clone these because addPathToName et al. modify them
if (subjectAlternativeNames != null) {
copy.subjectAlternativeNames =
(Set<List<?>>)cloneSet(subjectAlternativeNames);
copy.subjectAlternativeGeneralNames =
(Set<GeneralNameInterface>)cloneSet
(subjectAlternativeGeneralNames);
}
if (pathToGeneralNames != null) {
copy.pathToNames =
(Set<List<?>>)cloneSet(pathToNames);
copy.pathToGeneralNames =
(Set<GeneralNameInterface>)cloneSet
(pathToGeneralNames);
}
return copy;
} catch (CloneNotSupportedException e) {
/* Cannot happen */
throw new InternalError(e.toString());
}
}
}