This class represents a "most-trusted CA", which is used as a trust anchor
for validating X.509 certification paths. A most-trusted CA includes the
public key of the CA, the CA's name, and any constraints upon the set of
paths which may be validated using this key. These parameters can be
specified in the form of a trusted X509Certificate
or as
individual parameters.
Concurrent Access
All TrustAnchor
objects must be immutable and
thread-safe. That is, multiple threads may concurrently invoke the
methods defined in this class on a single TrustAnchor
object (or more than one) with no ill effects. Requiring
TrustAnchor
objects to be immutable and thread-safe
allows them to be passed around to various pieces of code without
worrying about coordinating access. This stipulation applies to all
public fields and methods of this class and any added or overridden
by subclasses.
- Since:
- 1.4
- See Also:
PKIXParameters(Set)
,PKIXBuilderParameters(Set, CertSelector)
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Constructor Summary
ConstructorDescriptionTrustAnchor(String caName, PublicKey pubKey, byte[] nameConstraints)
Creates an instance ofTrustAnchor
where the most-trusted CA is specified as a distinguished name and public key.TrustAnchor(X509Certificate trustedCert, byte[] nameConstraints)
Creates an instance ofTrustAnchor
with the specifiedX509Certificate
and optional name constraints, which are intended to be used as additional constraints when validating an X.509 certification path.TrustAnchor(X500Principal caPrincipal, PublicKey pubKey, byte[] nameConstraints)
Creates an instance ofTrustAnchor
where the most-trusted CA is specified as an X500Principal and public key. -
Method Summary
Modifier and TypeMethodDescriptiongetCA()
Returns the name of the most-trusted CA as an X500Principal.Returns the name of the most-trusted CA in RFC 2253String
format.Returns the public key of the most-trusted CA.byte[]
Returns the name constraints parameter.Returns the most-trusted CA certificate.toString()
Returns a formatted string describing theTrustAnchor
.
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Constructor Details
-
TrustAnchor
Creates an instance ofTrustAnchor
with the specifiedX509Certificate
and optional name constraints, which are intended to be used as additional constraints when validating an X.509 certification path.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 5280 and X.509. The ASN.1 definition of this structure appears below.
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}
Note that the name constraints byte array supplied is cloned to protect against subsequent modifications.
- Parameters:
trustedCert
- a trustedX509Certificate
nameConstraints
- 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. Specifynull
to omit the parameter.- Throws:
IllegalArgumentException
- if the name constraints cannot be decodedNullPointerException
- if the specifiedX509Certificate
isnull
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TrustAnchor
Creates an instance ofTrustAnchor
where the most-trusted CA is specified as an X500Principal and public key. Name constraints are an optional parameter, and are intended to be used as additional constraints when validating an X.509 certification path.The name constraints are specified 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 5280 and X.509. The ASN.1 notation for this structure is supplied in the documentation for
TrustAnchor(X509Certificate trustedCert, byte[] nameConstraints)
.Note that the name constraints byte array supplied here is cloned to protect against subsequent modifications.
- Parameters:
caPrincipal
- the name of the most-trusted CA as X500PrincipalpubKey
- the public key of the most-trusted CAnameConstraints
- 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. Specifynull
to omit the parameter.- Throws:
NullPointerException
- if the specifiedcaPrincipal
orpubKey
parameter isnull
- Since:
- 1.5
-
TrustAnchor
Creates an instance ofTrustAnchor
where the most-trusted CA is specified as a distinguished name and public key. Name constraints are an optional parameter, and are intended to be used as additional constraints when validating an X.509 certification path.The name constraints are specified 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 5280 and X.509. The ASN.1 notation for this structure is supplied in the documentation for
TrustAnchor(X509Certificate trustedCert, byte[] nameConstraints)
.Note that the name constraints byte array supplied here is cloned to protect against subsequent modifications.
- Parameters:
caName
- the X.500 distinguished name of the most-trusted CA in RFC 2253String
formatpubKey
- the public key of the most-trusted CAnameConstraints
- 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. Specifynull
to omit the parameter.- Throws:
IllegalArgumentException
- if the specifiedcaName
parameter is empty(caName.length() == 0)
or incorrectly formatted or the name constraints cannot be decodedNullPointerException
- if the specifiedcaName
orpubKey
parameter isnull
-
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Method Details
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getTrustedCert
Returns the most-trusted CA certificate.- Returns:
- a trusted
X509Certificate
ornull
if the trust anchor was not specified as a trusted certificate
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getCA
Returns the name of the most-trusted CA as an X500Principal.- Returns:
- the X.500 distinguished name of the most-trusted CA, or
null
if the trust anchor was not specified as a trusted public key and name or X500Principal pair - Since:
- 1.5
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getCAName
Returns the name of the most-trusted CA in RFC 2253String
format.- Returns:
- the X.500 distinguished name of the most-trusted CA, or
null
if the trust anchor was not specified as a trusted public key and name or X500Principal pair
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getCAPublicKey
Returns the public key of the most-trusted CA.- Returns:
- the public key of the most-trusted CA, or
null
if the trust anchor was not specified as a trusted public key and name or X500Principal pair
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getNameConstraints
public final byte[] getNameConstraints()Returns the name constraints parameter. The specified name constraints are associated with this trust anchor and are intended to be used as additional constraints when validating an X.509 certification path.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 5280 and X.509. The ASN.1 notation for this structure is supplied in the documentation for
TrustAnchor(X509Certificate trustedCert, byte[] nameConstraints)
.Note that the byte array returned is cloned to protect against subsequent modifications.
- Returns:
- a byte array containing the ASN.1 DER encoding of
a NameConstraints extension used for checking name constraints,
or
null
if not set.
-
toString
Returns a formatted string describing theTrustAnchor
.
-