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package sun.security.jgss;
import org.ietf.jgss.*;
import sun.security.jgss.spi.*;
import java.util.Set;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Arrays;
import java.io.IOException;
import sun.security.util.ObjectIdentifier;
import sun.security.util.DerInputStream;
import sun.security.util.DerOutputStream;
import static java.nio.charset.StandardCharsets.UTF_8;
/**
* This is the implementation class for GSSName. Conceptually the
* GSSName is a container with mechanism specific name elements. Each
* name element is a representation of how that particular mechanism
* would canonicalize this principal.
*
* Generally a GSSName is created by an application when it supplies
* a sequence of bytes and a nametype that helps each mechanism
* decide how to interpret those bytes.
*
* It is not necessary to create name elements for each available
* mechanism at the time the application creates the GSSName. This
* implementation does this lazily, as and when name elements for
* mechanisms are required to be handed out. (Generally, other GSS
* classes like GSSContext and GSSCredential request specific
* elements depending on the mechanisms that they are dealing with.)
* Assume that getting a mechanism to parse the applciation specified
* bytes is an expensive call.
*
* When a GSSName is canonicalized wrt some mechanism, it is supposed
* to discard all elements of other mechanisms and retain only the
* element for this mechanism. In GSS terminology this is called a
* Mechanism Name or MN. This implementation tries to retain the
* application provided bytes and name type just in case the MN is
* asked to produce an element for a mechanism that is different.
*
* When a GSSName is to be exported, the name element for the desired
* mechanism is converted to a byte representation and written
* out. It might happen that a name element for that mechanism cannot
* be obtained. This happens when the mechanism is just not supported
* in this GSS-API or when the mechanism is supported but bytes
* corresponding to the nametypes that it understands are not
* available in this GSSName.
*
* This class is safe for sharing. Each retrieval of a name element
* from getElement() might potentially add a new element to the
* hashmap of elements, but getElement() is synchronized.
*
* @author Mayank Upadhyay
* @since 1.4
*/
public class GSSNameImpl implements GSSName {
/**
* The old Oid used in RFC 2853. Now supported as
* input parameters in:
*
* 1. The four overloaded GSSManager.createName(*) methods
* 2. GSSManager.getMechsForName(Oid)
*
* Note that even if a GSSName is created with this old Oid,
* its internal name type and getStringNameType() output are
* always the new value.
*/
final static Oid oldHostbasedServiceName;
static {
Oid tmp = null;
try {
tmp = new Oid("1.3.6.1.5.6.2");
} catch (Exception e) {
// should never happen
}
oldHostbasedServiceName = tmp;
}
private GSSManagerImpl gssManager = null;
/*
* Store whatever the application passed in. We will use this to
* get individual mechanisms to create name elements as and when
* needed.
* Store both the String and the byte[]. Leave I18N to the
* mechanism by allowing it to extract bytes from the String!
*/
private String appNameStr = null;
private byte[] appNameBytes = null;
private Oid appNameType = null;
/*
* When we figure out what the printable name would be, we store
* both the name and its type.
*/
private String printableName = null;
private Oid printableNameType = null;
private HashMap<Oid, GSSNameSpi> elements = null;
private GSSNameSpi mechElement = null;
static GSSNameImpl wrapElement(GSSManagerImpl gssManager,
GSSNameSpi mechElement) throws GSSException {
return (mechElement == null ?
null : new GSSNameImpl(gssManager, mechElement));
}
GSSNameImpl(GSSManagerImpl gssManager, GSSNameSpi mechElement) {
this.gssManager = gssManager;
appNameStr = printableName = mechElement.toString();
appNameType = printableNameType = mechElement.getStringNameType();
this.mechElement = mechElement;
elements = new HashMap<Oid, GSSNameSpi>(1);
elements.put(mechElement.getMechanism(), this.mechElement);
}
GSSNameImpl(GSSManagerImpl gssManager,
Object appName,
Oid appNameType)
throws GSSException {
this(gssManager, appName, appNameType, null);
}
GSSNameImpl(GSSManagerImpl gssManager,
Object appName,
Oid appNameType,
Oid mech)
throws GSSException {
if (oldHostbasedServiceName.equals(appNameType)) {
appNameType = GSSName.NT_HOSTBASED_SERVICE;
}
if (appName == null)
throw new GSSExceptionImpl(GSSException.BAD_NAME,
"Cannot import null name");
if (mech == null) mech = ProviderList.DEFAULT_MECH_OID;
if (NT_EXPORT_NAME.equals(appNameType)) {
importName(gssManager, appName);
} else {
init(gssManager, appName, appNameType, mech);
}
}
private void init(GSSManagerImpl gssManager,
Object appName, Oid appNameType,
Oid mech)
throws GSSException {
this.gssManager = gssManager;
this.elements =
new HashMap<Oid, GSSNameSpi>(gssManager.getMechs().length);
if (appName instanceof String) {
this.appNameStr = (String) appName;
/*
* If appNameType is null, then the nametype for this printable
* string is determined only by interrogating the
* mechanism. Thus, defer the setting of printableName and
* printableNameType till later.
*/
if (appNameType != null) {
printableName = appNameStr;
printableNameType = appNameType;
}
} else {
this.appNameBytes = (byte[]) appName;
}
this.appNameType = appNameType;
mechElement = getElement(mech);
/*
* printableName will be null if appName was in a byte[] or if
* appName was in a String but appNameType was null.
*/
if (printableName == null) {
printableName = mechElement.toString();
printableNameType = mechElement.getStringNameType();
}
/*
* At this point the GSSNameImpl has the following set:
* appNameStr or appNameBytes
* appNameType (could be null)
* printableName
* printableNameType
* mechElement (which also exists in the hashmap of elements)
*/
}
private void importName(GSSManagerImpl gssManager,
Object appName)
throws GSSException {
int pos = 0;
byte[] bytes = null;
if (appName instanceof String) {
bytes = ((String) appName).getBytes(UTF_8);
} else {
bytes = (byte[]) appName;
}
if ((bytes[pos++] != 0x04) ||
(bytes[pos++] != 0x01))
throw new GSSExceptionImpl(GSSException.BAD_NAME,
"Exported name token id is corrupted!");
int oidLen = (((0xFF & bytes[pos++]) << 8) |
(0xFF & bytes[pos++]));
ObjectIdentifier temp = null;
try {
DerInputStream din = new DerInputStream(bytes, pos,
oidLen);
temp = new ObjectIdentifier(din);
} catch (IOException e) {
throw new GSSExceptionImpl(GSSException.BAD_NAME,
"Exported name Object identifier is corrupted!");
}
Oid oid = new Oid(temp.toString());
pos += oidLen;
int mechPortionLen = (((0xFF & bytes[pos++]) << 24) |
((0xFF & bytes[pos++]) << 16) |
((0xFF & bytes[pos++]) << 8) |
(0xFF & bytes[pos++]));
if (mechPortionLen < 0 || pos > bytes.length - mechPortionLen) {
throw new GSSExceptionImpl(GSSException.BAD_NAME,
"Exported name mech name is corrupted!");
}
byte[] mechPortion = new byte[mechPortionLen];
System.arraycopy(bytes, pos, mechPortion, 0, mechPortionLen);
init(gssManager, mechPortion, NT_EXPORT_NAME, oid);
}
public GSSName canonicalize(Oid mech) throws GSSException {
if (mech == null) mech = ProviderList.DEFAULT_MECH_OID;
return wrapElement(gssManager, getElement(mech));
}
/**
* This method may return false negatives. But if it says two
* names are equals, then there is some mechanism that
* authenticates them as the same principal.
*/
public boolean equals(GSSName other) throws GSSException {
if (this.isAnonymous() || other.isAnonymous())
return false;
if (other == this)
return true;
if (! (other instanceof GSSNameImpl))
return equals(gssManager.createName(other.toString(),
other.getStringNameType()));
/*
* XXX Do a comparison of the appNameStr/appNameBytes if
* available. If that fails, then proceed with this test.
*/
GSSNameImpl that = (GSSNameImpl) other;
GSSNameSpi myElement = this.mechElement;
GSSNameSpi element = that.mechElement;
/*
* XXX If they are not of the same mechanism type, convert both to
* Kerberos since it is guaranteed to be present.
*/
if ((myElement == null) && (element != null)) {
myElement = this.getElement(element.getMechanism());
} else if ((myElement != null) && (element == null)) {
element = that.getElement(myElement.getMechanism());
}
if (myElement != null && element != null) {
return myElement.equals(element);
}
if ((this.appNameType != null) &&
(that.appNameType != null)) {
if (!this.appNameType.equals(that.appNameType)) {
return false;
}
byte[] myBytes =
(this.appNameStr != null ?
this.appNameStr.getBytes(UTF_8) :
this.appNameBytes);
byte[] bytes =
(that.appNameStr != null ?
that.appNameStr.getBytes(UTF_8) :
that.appNameBytes);
return Arrays.equals(myBytes, bytes);
}
return false;
}
/**
* Returns a hashcode value for this GSSName.
*
* @return a hashCode value
*/
public int hashCode() {
/*
* XXX
* In order to get this to work reliably and properly(!), obtain a
* Kerberos name element for the name and then call hashCode on its
* string representation. But this cannot be done if the nametype
* is not one of those supported by the Kerberos provider and hence
* this name cannot be imported by Kerberos. In that case return a
* constant value!
*/
return 1;
}
public boolean equals(Object another) {
try {
// XXX This can lead to an infinite loop. Extract info
// and create a GSSNameImpl with it.
if (another instanceof GSSName)
return equals((GSSName) another);
} catch (GSSException e) {
// Squelch it and return false
}
return false;
}
/**
* Returns a flat name representation for this object. The name
* format is defined in RFC 2743:
*<pre>
* Length Name Description
* 2 TOK_ID Token Identifier
* For exported name objects, this
* must be hex 04 01.
* 2 MECH_OID_LEN Length of the Mechanism OID
* MECH_OID_LEN MECH_OID Mechanism OID, in DER
* 4 NAME_LEN Length of name
* NAME_LEN NAME Exported name; format defined in
* applicable mechanism draft.
*</pre>
*
* Note that it is not required to canonicalize a name before
* calling export(). i.e., the name need not be an MN. If it is
* not an MN, an implementation defined algorithm can be used for
* choosing the mechanism which should export this name.
*
* @return the flat name representation for this object
* @exception GSSException with major codes NAME_NOT_MN, BAD_NAME,
* BAD_NAME, FAILURE.
*/
public byte[] export() throws GSSException {
if (mechElement == null) {
/* Use default mech */
mechElement = getElement(ProviderList.DEFAULT_MECH_OID);
}
byte[] mechPortion = mechElement.export();
byte[] oidBytes = null;
ObjectIdentifier oid = null;
try {
oid = new ObjectIdentifier
(mechElement.getMechanism().toString());
} catch (IOException e) {
throw new GSSExceptionImpl(GSSException.FAILURE,
"Invalid OID String ");
}
DerOutputStream dout = new DerOutputStream();
try {
dout.putOID(oid);
} catch (IOException e) {
throw new GSSExceptionImpl(GSSException.FAILURE,
"Could not ASN.1 Encode "
+ oid.toString());
}
oidBytes = dout.toByteArray();
byte[] retVal = new byte[2
+ 2 + oidBytes.length
+ 4 + mechPortion.length];
int pos = 0;
retVal[pos++] = 0x04;
retVal[pos++] = 0x01;
retVal[pos++] = (byte) (oidBytes.length>>>8);
retVal[pos++] = (byte) oidBytes.length;
System.arraycopy(oidBytes, 0, retVal, pos, oidBytes.length);
pos += oidBytes.length;
retVal[pos++] = (byte) (mechPortion.length>>>24);
retVal[pos++] = (byte) (mechPortion.length>>>16);
retVal[pos++] = (byte) (mechPortion.length>>>8);
retVal[pos++] = (byte) mechPortion.length;
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