java.security.cert
Class X509Certificatejava.lang.Object | +--java.security.cert.Certificate | +--java.security.cert.X509Certificate
- All Implemented Interfaces:
- Serializable, X509Extension
- public abstract class X509Certificate
- extends Certificate
- implements X509Extension
Abstract class for X.509 certificates. This provides a standard way to access all the attributes of an X.509 certificate.
In June of 1996, the basic X.509 v3 format was completed by ISO/IEC and ANSI X9, which is described below in ASN.1:
Certificate ::= SEQUENCE { tbsCertificate TBSCertificate, signatureAlgorithm AlgorithmIdentifier, signature BIT STRING }These certificates are widely used to support authentication and other functionality in Internet security systems. Common applications include Privacy Enhanced Mail (PEM), Transport Layer Security (SSL), code signing for trusted software distribution, and Secure Electronic Transactions (SET).
These certificates are managed and vouched for by Certificate Authorities (CAs). CAs are services which create certificates by placing data in the X.509 standard format and then digitally signing that data. CAs act as trusted third parties, making introductions between principals who have no direct knowledge of each other. CA certificates are either signed by themselves, or by some other CA such as a "root" CA.
More information can be found in RFC 2459, "Internet X.509 Public Key Infrastructure Certificate and CRL Profile" at http://www.ietf.org/rfc/rfc2459.txt .
The ASN.1 definition of tbsCertificate is:
TBSCertificate ::= SEQUENCE { version [0] EXPLICIT Version DEFAULT v1, serialNumber CertificateSerialNumber, signature AlgorithmIdentifier, issuer Name, validity Validity, subject Name, subjectPublicKeyInfo SubjectPublicKeyInfo, issuerUniqueID [1] IMPLICIT UniqueIdentifier OPTIONAL, -- If present, version must be v2 or v3 subjectUniqueID [2] IMPLICIT UniqueIdentifier OPTIONAL, -- If present, version must be v2 or v3 extensions [3] EXPLICIT Extensions OPTIONAL -- If present, version must be v3 }Certificates are instantiated using a certificate factory. The following is an example of how to instantiate an X.509 certificate:
InputStream inStream = new FileInputStream("fileName-of-cert"); CertificateFactory cf = CertificateFactory.getInstance("X.509"); X509Certificate cert = (X509Certificate)cf.generateCertificate(inStream); inStream.close();
- See Also:
- Certificate, CertificateFactory, X509Extension, Serialized Form
Nested Class Summary
Nested classes inherited from class java.security.cert.Certificate Certificate.CertificateRep
Constructor Summary
protected X509Certificate()
Constructor for X.509 certificates.
Method Summary
abstract void checkValidity()
Checks that the certificate is currently valid.abstract void checkValidity(Date date)
Checks that the given date is within the certificate's validity period.abstract int getBasicConstraints()
Gets the certificate constraints path length from the critical BasicConstraints extension, (OID = 2.5.29.19).List getExtendedKeyUsage()
Gets an unmodifiable list of Strings representing the OBJECT IDENTIFIERs of the ExtKeyUsageSyntax field of the extended key usage extension, (OID = 2.5.29.37).Collection getIssuerAlternativeNames()
Gets an immutable collection of issuer alternative names from the IssuerAltName extension, (OID = 2.5.29.18).abstract Principal getIssuerDN()
Gets the issuer (issuer distinguished name) value from the certificate.abstract boolean[] getIssuerUniqueID()
Gets the issuerUniqueID value from the certificate.X500Principal getIssuerX500Principal()
Returns the issuer (issuer distinguished name) value from the certificate as an X500Principal.abstract boolean[] getKeyUsage()
Gets a boolean array representing bits of the KeyUsage extension, (OID = 2.5.29.15).abstract Date getNotAfter()
Gets the notAfter date from the validity period of the certificate.abstract Date getNotBefore()
Gets the notBefore date from the validity period of the certificate.abstract BigInteger getSerialNumber()
Gets the serialNumber value from the certificate.abstract String getSigAlgName()
Gets the signature algorithm name for the certificate signature algorithm.abstract String getSigAlgOID()
Gets the signature algorithm OID string from the certificate.abstract byte[] getSigAlgParams()
Gets the DER-encoded signature algorithm parameters from this certificate's signature algorithm.abstract byte[] getSignature()
Gets the signature value (the raw signature bits) from the certificate.Collection getSubjectAlternativeNames()
Gets an immutable collection of subject alternative names from the SubjectAltName extension, (OID = 2.5.29.17).abstract Principal getSubjectDN()
Gets the subject (subject distinguished name) value from the certificate.abstract boolean[] getSubjectUniqueID()
Gets the subjectUniqueID value from the certificate.X500Principal getSubjectX500Principal()
Returns the subject (subject distinguished name) value from the certificate as an X500Principal.abstract byte[] getTBSCertificate()
Gets the DER-encoded certificate information, the tbsCertificate from this certificate.abstract int getVersion()
Gets the version (version number) value from the certificate.
Methods inherited from class java.security.cert.Certificate equals, getEncoded, getPublicKey, getType, hashCode, toString, verify, verify, writeReplace
Methods inherited from class java.lang.Object clone, finalize, getClass, notify, notifyAll, wait, wait, wait
Methods inherited from interface java.security.cert.X509Extension getCriticalExtensionOIDs, getExtensionValue, getNonCriticalExtensionOIDs, hasUnsupportedCriticalExtension
Constructor Detail
X509Certificate
protected X509Certificate()
- Constructor for X.509 certificates.
Method Detail
checkValidity
public abstract void checkValidity() throws CertificateExpiredException, CertificateNotYetValidException
- Checks that the certificate is currently valid. It is if the current date and time are within the validity period given in the certificate.
The validity period consists of two date/time values: the first and last dates (and times) on which the certificate is valid. It is defined in ASN.1 as:
validity ValidityValidity ::= SEQUENCE { notBefore CertificateValidityDate, notAfter CertificateValidityDate }
CertificateValidityDate ::= CHOICE { utcTime UTCTime, generalTime GeneralizedTime }
- Throws:
- CertificateExpiredException - if the certificate has expired.
- CertificateNotYetValidException - if the certificate is not yet valid.
checkValidity
public abstract void checkValidity(Date date) throws CertificateExpiredException, CertificateNotYetValidException
- Checks that the given date is within the certificate's validity period. In other words, this determines whether the certificate would be valid at the given date/time.
- Parameters:
- date - the Date to check against to see if this certificate is valid at that date/time.
- Throws:
- CertificateExpiredException - if the certificate has expired with respect to the date supplied.
- CertificateNotYetValidException - if the certificate is not yet valid with respect to the date supplied.
- See Also:
- checkValidity()
getVersion
public abstract int getVersion()
- Gets the version (version number) value from the certificate. The ASN.1 definition for this is:
version [0] EXPLICIT Version DEFAULT v1Version ::= INTEGER { v1(0), v2(1), v3(2) }
- Returns:
- the version number, i.e. 1, 2 or 3.
getSerialNumber
public abstract BigInteger getSerialNumber()
- Gets the serialNumber value from the certificate. The serial number is an integer assigned by the certification authority to each certificate. It must be unique for each certificate issued by a given CA (i.e., the issuer name and serial number identify a unique certificate). The ASN.1 definition for this is:
serialNumber CertificateSerialNumberCertificateSerialNumber ::= INTEGER
- Returns:
- the serial number.
getIssuerDN
public abstract Principal getIssuerDN()
- Gets the issuer (issuer distinguished name) value from the certificate. The issuer name identifies the entity that signed (and issued) the certificate.
The issuer name field contains an X.500 distinguished name (DN). The ASN.1 definition for this is:
issuer NameThe Name describes a hierarchical name composed of attributes, such as country name, and corresponding values, such as US. The type of the AttributeValue component is determined by the AttributeType; in general it will be a directoryString. A directoryString is usually one of PrintableString, TeletexString or UniversalString.Name ::= CHOICE { RDNSequence } RDNSequence ::= SEQUENCE OF RelativeDistinguishedName RelativeDistinguishedName ::= SET OF AttributeValueAssertion AttributeValueAssertion ::= SEQUENCE { AttributeType, AttributeValue } AttributeType ::= OBJECT IDENTIFIER AttributeValue ::= ANY
- Returns:
- a Principal whose name is the issuer distinguished name.
getIssuerX500Principal
public X500Principal getIssuerX500Principal()
- Returns the issuer (issuer distinguished name) value from the certificate as an X500Principal.
It is recommended that subclasses override this method to provide an efficient implementation.
- Returns:
- an X500Principal representing the issuer distinguished name
- Since:
- 1.4
getSubjectDN
public abstract Principal getSubjectDN()
- Gets the subject (subject distinguished name) value from the certificate. If the subject value is empty, then the getName() method of the returned Principal object returns an empty string ("").
The ASN.1 definition for this is:
subject NameSee getIssuerDN for Name and other relevant definitions.
- Returns:
- a Principal whose name is the subject name.
getSubjectX500Principal
public X500Principal getSubjectX500Principal()
- Returns the subject (subject distinguished name) value from the certificate as an X500Principal. If the subject value is empty, then the getName() method of the returned X500Principal object returns an empty string ("").
It is recommended that subclasses override this method to provide an efficient implementation.
- Returns:
- an X500Principal representing the subject distinguished name
- Since:
- 1.4
getNotBefore
public abstract Date getNotBefore()
- Gets the notBefore date from the validity period of the certificate. The relevant ASN.1 definitions are:
validity ValidityValidity ::= SEQUENCE { notBefore CertificateValidityDate, notAfter CertificateValidityDate }
CertificateValidityDate ::= CHOICE { utcTime UTCTime, generalTime GeneralizedTime }
- Returns:
- the start date of the validity period.
- See Also:
- checkValidity()
getNotAfter
public abstract Date getNotAfter()
- Gets the notAfter date from the validity period of the certificate. See getNotBefore for relevant ASN.1 definitions.
- Returns:
- the end date of the validity period.
- See Also:
- checkValidity()
getTBSCertificate
public abstract byte[] getTBSCertificate() throws CertificateEncodingException
- Gets the DER-encoded certificate information, the tbsCertificate from this certificate. This can be used to verify the signature independently.
- Returns:
- the DER-encoded certificate information.
- Throws:
- CertificateEncodingException - if an encoding error occurs.
getSignature
public abstract byte[] getSignature()
- Gets the signature value (the raw signature bits) from the certificate. The ASN.1 definition for this is:
signature BIT STRING
- Returns:
- the signature.
getSigAlgName
public abstract String getSigAlgName()
- Gets the signature algorithm name for the certificate signature algorithm. An example is the string "SHA-1/DSA". The ASN.1 definition for this is:
signatureAlgorithm AlgorithmIdentifierAlgorithmIdentifier ::= 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
The algorithm name is determined from the algorithm OID string.
- Returns:
- the signature algorithm name.
getSigAlgOID
public abstract String getSigAlgOID()
- Gets the signature algorithm OID string from the certificate. An OID is represented by a set of nonnegative whole numbers separated by periods. For example, the string "1.2.840.10040.4.3" identifies the SHA-1 with DSA signature algorithm, as per RFC 2459.
See getSigAlgName for relevant ASN.1 definitions.
- Returns:
- the signature algorithm OID string.
getSigAlgParams
public abstract byte[] getSigAlgParams()
- Gets the DER-encoded signature algorithm parameters from this certificate's signature algorithm. In most cases, the signature algorithm parameters are null; the parameters are usually supplied with the certificate's public key. If access to individual parameter values is needed then use AlgorithmParameters and instantiate with the name returned by getSigAlgName.
See getSigAlgName for relevant ASN.1 definitions.
- Returns:
- the DER-encoded signature algorithm parameters, or null if no parameters are present.
getIssuerUniqueID
public abstract boolean[] getIssuerUniqueID()
- Gets the issuerUniqueID value from the certificate. The issuer unique identifier is present in the certificate to handle the possibility of reuse of issuer names over time. RFC 2459 recommends that names not be reused and that conforming certificates not make use of unique identifiers. Applications conforming to that profile should be capable of parsing unique identifiers and making comparisons.
The ASN.1 definition for this is:
issuerUniqueID [1] IMPLICIT UniqueIdentifier OPTIONALUniqueIdentifier ::= BIT STRING
- Returns:
- the issuer unique identifier or null if it is not present in the certificate.
getSubjectUniqueID
public abstract boolean[] getSubjectUniqueID()
- Gets the subjectUniqueID value from the certificate.
The ASN.1 definition for this is:
subjectUniqueID [2] IMPLICIT UniqueIdentifier OPTIONALUniqueIdentifier ::= BIT STRING
- Returns:
- the subject unique identifier or null if it is not present in the certificate.
getKeyUsage
public abstract boolean[] getKeyUsage()
- Gets a boolean array representing bits of the KeyUsage extension, (OID = 2.5.29.15). The key usage extension defines the purpose (e.g., encipherment, signature, certificate signing) of the key contained in the certificate. The ASN.1 definition for this is:
KeyUsage ::= BIT STRING { digitalSignature (0), nonRepudiation (1), keyEncipherment (2), dataEncipherment (3), keyAgreement (4), keyCertSign (5), cRLSign (6), encipherOnly (7), decipherOnly (8) }RFC 2459 recommends that when used, this be marked as a critical extension.
- Returns:
- the KeyUsage extension of this certificate, represented as an array of booleans. The order of KeyUsage values in the array is the same as in the above ASN.1 definition. The array will contain a value for each KeyUsage defined above. If the KeyUsage list encoded in the certificate is longer than the above list, it will not be truncated. Returns null if this certificate does not contain a KeyUsage extension.
getExtendedKeyUsage
public List getExtendedKeyUsage() throws CertificateParsingException
- Gets an unmodifiable list of Strings representing the OBJECT IDENTIFIERs of the ExtKeyUsageSyntax field of the extended key usage extension, (OID = 2.5.29.37). It indicates one or more purposes for which the certified public key may be used, in addition to or in place of the basic purposes indicated in the key usage extension field. The ASN.1 definition for this is:
ExtKeyUsageSyntax ::= SEQUENCE SIZE (1..MAX) OF KeyPurposeIdKey purposes may be defined by any organization with a need. Object identifiers used to identify key purposes shall be assigned in accordance with IANA or ITU-T Rec. X.660 | ISO/IEC/ITU 9834-1.KeyPurposeId ::= OBJECT IDENTIFIER
This method was added to version 1.4 of the Java 2 Platform Standard Edition. In order to maintain backwards compatibility with existing service providers, this method is not abstract and it provides a default implementation. Subclasses should override this method with a correct implementation.
- Returns:
- the ExtendedKeyUsage extension of this certificate, as an unmodifiable list of object identifiers represented as Strings. Returns null if this certificate does not contain an ExtendedKeyUsage extension.
- Throws:
- CertificateParsingException - if the extension cannot be decoded
- Since:
- 1.4
getBasicConstraints
public abstract int getBasicConstraints()
- Gets the certificate constraints path length from the critical BasicConstraints extension, (OID = 2.5.29.19).
The basic constraints extension identifies whether the subject of the certificate is a Certificate Authority (CA) and how deep a certification path may exist through that CA. The pathLenConstraint field (see below) is meaningful only if cA is set to TRUE. In this case, it gives the maximum number of CA certificates that may follow this certificate in a certification path. A value of zero indicates that only an end-entity certificate may follow in the path.
Note that for RFC 2459 this extension is always marked critical if cA is TRUE, meaning this certificate belongs to a Certificate Authority.
The ASN.1 definition for this is:
BasicConstraints ::= SEQUENCE { cA BOOLEAN DEFAULT FALSE, pathLenConstraint INTEGER (0..MAX) OPTIONAL }
- Returns:
- the value of pathLenConstraint if the BasicConstraints extension is present in the certificate and the subject of the certificate is a CA, otherwise -1. If the subject of the certificate is a CA and pathLenConstraint does not appear, Integer.MAX_VALUE is returned to indicate that there is no limit to the allowed length of the certification path.
getSubjectAlternativeNames
public Collection getSubjectAlternativeNames() throws CertificateParsingException
- Gets an immutable collection of subject alternative names from the SubjectAltName extension, (OID = 2.5.29.17).
The ASN.1 definition of the SubjectAltName extension is:
SubjectAltName ::= GeneralNames GeneralNames :: = SEQUENCE SIZE (1..MAX) OF GeneralName 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}If this certificate does not contain a SubjectAltName extension, null is returned. Otherwise, a Collection is returned with an entry representing each GeneralName included in the extension. Each entry is a List 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).
RFC 822, DNS, and URI names are returned as Strings, using the well-established string formats for those types (subject to the restrictions included in RFC 2459). IPv4 address names are returned using dotted quad notation. IPv6 address names are returned in the form "a1:a2:...:a8", where a1-a8 are hexadecimal values representing the eight 16-bit pieces of the address. OID names are returned as Strings represented as a series of nonnegative integers separated by periods. And directory names (distinguished names) are returned in RFC 2253 string format. No standard string format is defined for otherNames, X.400 names, EDI party names, or any other type of names. They are returned as byte arrays containing the ASN.1 DER encoded form of the name.
Note that the Collection returned may contain more than one name of the same type. Also, note that the returned Collection is immutable and any entries containing byte arrays are cloned to protect against subsequent modifications.
This method was added to version 1.4 of the Java 2 Platform Standard Edition. In order to maintain backwards compatibility with existing service providers, this method is not abstract and it provides a default implementation. Subclasses should override this method with a correct implementation.
- Returns:
- an immutable Collection of subject alternative names (or null)
- Throws:
- CertificateParsingException - if the extension cannot be decoded
- Since:
- 1.4
getIssuerAlternativeNames
public Collection getIssuerAlternativeNames() throws CertificateParsingException
- Gets an immutable collection of issuer alternative names from the IssuerAltName extension, (OID = 2.5.29.18).
The ASN.1 definition of the IssuerAltName extension is:
IssuerAltName ::= GeneralNamesThe ASN.1 definition of GeneralNames is defined in getSubjectAlternativeNames.If this certificate does not contain an IssuerAltName extension, null is returned. Otherwise, a Collection is returned with an entry representing each GeneralName included in the extension. Each entry is a List 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). For more details about the formats used for each name type, see the getSubjectAlternativeNames method.
Note that the Collection returned may contain more than one name of the same type. Also, note that the returned Collection is immutable and any entries containing byte arrays are cloned to protect against subsequent modifications.
This method was added to version 1.4 of the Java 2 Platform Standard Edition. In order to maintain backwards compatibility with existing service providers, this method is not abstract and it provides a default implementation. Subclasses should override this method with a correct implementation.
- Returns:
- an immutable Collection of issuer alternative names (or null)
- Throws:
- CertificateParsingException - if the extension cannot be decoded
- Since:
- 1.4