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JavaTM 2 Platform Std. Ed. v1.4.2
org.ietf.jgss
|
Field Summary | |
static int |
DEFAULT_LIFETIME
A lifetime constant representing the default context lifetime. |
static int |
INDEFINITE_LIFETIME
A lifetime constant representing indefinite context lifetime. |
Method Summary | |
byte[] |
acceptSecContext(byte[] inToken,
int offset,
int len)
Called by the context acceptor upon receiving a token from the peer. |
void |
acceptSecContext(InputStream inStream,
OutputStream outStream)
Called by the context acceptor to process a token from the peer using streams. |
void |
dispose()
Releases any system resources and cryptographic information stored in the context object and invalidates the context. |
byte[] |
export()
Exports this context so that another process may import it.. |
boolean |
getAnonymityState()
Determines if the context initiator is anonymously authenticated to the context acceptor. |
boolean |
getConfState()
Determines if data confidentiality is available over the context. |
boolean |
getCredDelegState()
Determines if credential delegation is enabled on this context. |
GSSCredential |
getDelegCred()
Obtains the credentials delegated by the context initiator to the context acceptor. |
boolean |
getIntegState()
Determines if data integrity is available over the context. |
int |
getLifetime()
Determines what the remaining lifetime for this context is. |
Oid |
getMech()
Determines what mechanism is being used for this context. |
byte[] |
getMIC(byte[] inMsg,
int offset,
int len,
MessageProp msgProp)
Returns a token containing a cryptographic Message Integrity Code (MIC) for the supplied message, for transfer to the peer application. |
void |
getMIC(InputStream inStream,
OutputStream outStream,
MessageProp msgProp)
Uses streams to produce a token containing a cryptographic MIC for the supplied message, for transfer to the peer application. |
boolean |
getMutualAuthState()
Determines if mutual authentication is enabled on this context. |
boolean |
getReplayDetState()
Determines if replay detection is enabled for the per-message security services from this context. |
boolean |
getSequenceDetState()
Determines if sequence checking is enabled for the per-message security services from this context. |
GSSName |
getSrcName()
Returns the name of the context initiator. |
GSSName |
getTargName()
Returns the name of the context acceptor. |
int |
getWrapSizeLimit(int qop,
boolean confReq,
int maxTokenSize)
Used to determine limits on the size of the message that can be passed to wrap . |
byte[] |
initSecContext(byte[] inputBuf,
int offset,
int len)
Called by the context initiator to start the context creation phase and process any tokens generated by the peer's acceptSecContext method. |
int |
initSecContext(InputStream inStream,
OutputStream outStream)
Called by the context initiator to start the context creation phase and process any tokens generated by the peer's acceptSecContext method using
streams. |
boolean |
isEstablished()
Used during context establishment to determine the state of the context. |
boolean |
isInitiator()
Determines if this is the context initiator. |
boolean |
isProtReady()
Determines if the context is ready for per message operations to be used over it. |
boolean |
isTransferable()
Determines if the context is transferable to other processes through the use of the export method. |
void |
requestAnonymity(boolean state)
Requests that the initiator's identity not be disclosed to the acceptor. |
void |
requestConf(boolean state)
Requests that data confidentiality be enabled for the wrap method. |
void |
requestCredDeleg(boolean state)
Requests that the initiator's credentials be delegated to the acceptor during context establishment. |
void |
requestInteg(boolean state)
Requests that data integrity be enabled for the wrap and getMIC methods. |
void |
requestLifetime(int lifetime)
Requests a lifetime in seconds for the context. |
void |
requestMutualAuth(boolean state)
Requests that mutual authentication be done during context establishment. |
void |
requestReplayDet(boolean state)
Requests that replay detection be enabled for the per-message security services after context establishemnt. |
void |
requestSequenceDet(boolean state)
Requests that sequence checking be enabled for the per-message security services after context establishemnt. |
void |
setChannelBinding(ChannelBinding cb)
Sets the channel bindings to be used during context establishment. |
byte[] |
unwrap(byte[] inBuf,
int offset,
int len,
MessageProp msgProp)
Used to process tokens generated by the wrap method on
the other side of the context. |
void |
unwrap(InputStream inStream,
OutputStream outStream,
MessageProp msgProp)
Uses streams to process tokens generated by the wrap
method on the other side of the context. |
void |
verifyMIC(byte[] inToken,
int tokOffset,
int tokLen,
byte[] inMsg,
int msgOffset,
int msgLen,
MessageProp msgProp)
Verifies the cryptographic MIC, contained in the token parameter, over the supplied message. |
void |
verifyMIC(InputStream tokStream,
InputStream msgStream,
MessageProp msgProp)
Uses streams to verify the cryptographic MIC, contained in the token parameter, over the supplied message. |
byte[] |
wrap(byte[] inBuf,
int offset,
int len,
MessageProp msgProp)
Applies per-message security services over the established security context. |
void |
wrap(InputStream inStream,
OutputStream outStream,
MessageProp msgProp)
Applies per-message security services over the established security context using streams. |
Field Detail |
public static final int DEFAULT_LIFETIME
public static final int INDEFINITE_LIFETIME
Integer.MAX_VALUE
.
Method Detail |
public byte[] initSecContext(byte[] inputBuf, int offset, int len) throws GSSException
acceptSecContext
method.
This method may return an output token which the application will need
to send to the peer for processing by its acceptSecContext
method. The application can call isEstablished
to determine if the context establishment phase is
complete on this side of the context. A return value of
false
from isEstablished
indicates that
more tokens are expected to be supplied to
initSecContext
. Upon completion of the context
establishment, the available context options may be queried through
the get methods.
Note that it is possible that the initSecContext
method
return a token for the peer, and isEstablished
return
true
also. This indicates that the token needs to be sent
to the peer, but the local end of the context is now fully
established.
Some mechanism providers might require that the caller be granted
permission to initiate a security context. A failed permission check
might cause a SecurityException
to be thrown from this method.
inputBuf
- token generated by the peer. This parameter is ignored
on the first call since no token has been received from the peer.offset
- the offset within the inputBuf where the token begins.len
- the length of the token.
null
indicates that no token is generated.
GSSException
- containing the following
major error codes:
GSSException.DEFECTIVE_TOKEN
,
GSSException.BAD_MIC
,
GSSException.NO_CRED
,
GSSException.CREDENTIALS_EXPIRED
,
GSSException.BAD_BINDINGS
,
GSSException.OLD_TOKEN
,
GSSException.DUPLICATE_TOKEN
,
GSSException.BAD_NAMETYPE
,
GSSException.BAD_MECH
,
GSSException.FAILURE
public int initSecContext(InputStream inStream, OutputStream outStream) throws GSSException
acceptSecContext
method using
streams. This method may write an output token to the
OutpuStream
, which the application will
need to send to the peer for processing by its
acceptSecContext
call. Typically, the application would
ensure this by calling the flush
method on an OutputStream
that encapsulates the
connection between the two peers. The application can
determine if a token is written to the OutputStream from the return
value of this method. A return value of 0
indicates that
no token was written. The application can call
isEstablished
to determine if the context
establishment phase is complete on this side of the context. A
return value of false
from isEstablished
indicates that more tokens are expected to be supplied to
initSecContext
.
Upon completion of the context establishment, the available context
options may be queried through the get methods.
Note that it is possible that the initSecContext
method
return a token for the peer, and isEstablished
return
true
also. This indicates that the token needs to be sent
to the peer, but the local end of the context is now fully
established.
The GSS-API authentication tokens contain a definitive start and
end. This method will attempt to read one of these tokens per
invocation, and may block on the stream if only part of the token is
available. In all other respects this method is equivalent to the
byte array based initSecContext
.
Some mechanism providers might require that the caller be granted
permission to initiate a security context. A failed permission check
might cause a SecurityException
to be thrown from this method.
The following example code demonstrates how this method might be used:
InputStream is ... OutputStream os ... GSSContext context ... // Loop while there is still a token to be processed while (!context.isEstablished()) { context.initSecContext(is, os); // send output token if generated os.flush(); }
inStream
- an InputStream that contains the token generated by
the peer. This parameter is ignored on the first call since no token
has been or will be received from the peer at that point.outStream
- an OutputStream where the output token will be
written. During the final stage of context establishment, there may be
no bytes written.
GSSException
- containing the following
major error codes:
GSSException.DEFECTIVE_TOKEN
,
GSSException.BAD_MIC
,
GSSException.NO_CRED
,
GSSException.CREDENTIALS_EXPIRED
,
GSSException.BAD_BINDINGS
,
GSSException.OLD_TOKEN
,
GSSException.DUPLICATE_TOKEN
,
GSSException.BAD_NAMETYPE
,
GSSException.BAD_MECH
,
GSSException.FAILURE
public byte[] acceptSecContext(byte[] inToken, int offset, int len) throws GSSException
initSecContext
call.
The application can call isEstablished
to
determine if the context establishment phase is complete for this
peer. A return value of false
from
isEstablished
indicates that more tokens are expected to
be supplied to this method. Upon completion of the context
establishment, the available context options may be queried through
the get methods.
Note that it is possible that acceptSecContext
return a
token for the peer, and isEstablished
return
true
also. This indicates that the token needs to be
sent to the peer, but the local end of the context is now fully
established.
Some mechanism providers might require that the caller be granted
permission to accept a security context. A failed permission check
might cause a SecurityException
to be thrown from this method.
The following example code demonstrates how this method might be used:
byte[] inToken; byte[] outToken; GSSContext context ... // Loop while there is still a token to be processed while (!context.isEstablished()) { inToken = readToken(); outToken = context.acceptSecContext(inToken, 0, inToken.length); // send output token if generated if (outToken != null) sendToken(outToken); }
inToken
- token generated by the peer.offset
- the offset within the inToken where the token begins.len
- the length of the token.
null
indicates that no token is generated.
GSSException
- containing the following
major error codes:
GSSException.DEFECTIVE_TOKEN
,
GSSException.BAD_MIC
,
GSSException.NO_CRED
,
GSSException.CREDENTIALS_EXPIRED
,
GSSException.BAD_BINDINGS
,
GSSException.OLD_TOKEN
,
GSSException.DUPLICATE_TOKEN
,
GSSException.BAD_MECH
,
GSSException.FAILURE
public void acceptSecContext(InputStream inStream, OutputStream outStream) throws GSSException
OutputStream
, which the application
will need to send to the peer for processing by its
initSecContext
method. Typically, the application would
ensure this by calling the flush
method on an OutputStream
that encapsulates the
connection between the two peers. The application can call
isEstablished
to determine if the context
establishment phase is complete on this side of the context. A
return value of false
from isEstablished
indicates that more tokens are expected to be supplied to
acceptSecContext
.
Upon completion of the context establishment, the available context
options may be queried through the get methods.
Note that it is possible that acceptSecContext
return a
token for the peer, and isEstablished
return
true
also. This indicates that the token needs to be
sent to the peer, but the local end of the context is now fully
established.
The GSS-API authentication tokens contain a definitive start and
end. This method will attempt to read one of these tokens per
invocation, and may block on the stream if only part of the token is
available. In all other respects this method is equivalent to the byte
array based acceptSecContext
.
Some mechanism providers might require that the caller be granted
permission to accept a security context. A failed permission check
might cause a SecurityException
to be thrown from this method.
The following example code demonstrates how this method might be used:
InputStream is ... OutputStream os ... GSSContext context ... // Loop while there is still a token to be processed while (!context.isEstablished()) { context.acceptSecContext(is, os); // send output token if generated os.flush(); }
inStream
- an InputStream that contains the token generated by
the peer.outStream
- an OutputStream where the output token will be
written. During the final stage of context establishment, there may be
no bytes written.
GSSException
- containing the following
major error codes:
GSSException.DEFECTIVE_TOKEN
,
GSSException.BAD_MIC
,
GSSException.NO_CRED
,
GSSException.CREDENTIALS_EXPIRED
,
GSSException.BAD_BINDINGS
,
GSSException.OLD_TOKEN
,
GSSException.DUPLICATE_TOKEN
,
GSSException.BAD_MECH
,
GSSException.FAILURE
public boolean isEstablished()
true
if this is a fully established context on
the caller's side and no more tokens are needed from the peer.public void dispose() throws GSSException
GSSException
- containing the following
major error codes:
GSSException.FAILURE
public int getWrapSizeLimit(int qop, boolean confReq, int maxTokenSize) throws GSSException
wrap
. Returns the maximum
message size that, if presented to the wrap
method with
the same confReq
and qop
parameters, will
result in an output token containing no more
than maxTokenSize
bytes.This call is intended for use by applications that communicate over protocols that impose a maximum message size. It enables the application to fragment messages prior to applying protection.
GSS-API implementations are recommended but not required to detect
invalid QOP values when getWrapSizeLimit
is called.
This routine guarantees only a maximum message size, not the
availability of specific QOP values for message protection.
qop
- the level of protection wrap will be asked to provide.confReq
- true
if wrap will be asked to provide
privacy, false
otherwise.maxTokenSize
- the desired maximum size of the token emitted by
wrap.
GSSException
- containing the following
major error codes:
GSSException.CONTEXT_EXPIRED
,
GSSException.BAD_QOP
,
GSSException.FAILURE
public byte[] wrap(byte[] inBuf, int offset, int len, MessageProp msgProp) throws GSSException
The MessageProp object is instantiated by the application and used to specify a QOP value which selects cryptographic algorithms, and a privacy service to optionally encrypt the message. The underlying mechanism that is used in the call may not be able to provide the privacy service. It sets the actual privacy service that it does provide in this MessageProp object which the caller should then query upon return. If the mechanism is not able to provide the requested QOP, it throws a GSSException with the BAD_QOP code.
Since some application-level protocols may wish to use tokens emitted by wrap to provide "secure framing", implementations should support the wrapping of zero-length messages.
The application will be responsible for sending the token to the peer.
inBuf
- application data to be protected.offset
- the offset within the inBuf where the data begins.len
- the length of the datamsgProp
- instance of MessageProp that is used by the
application to set the desired QOP and privacy state. Set the
desired QOP to 0 to request the default QOP. Upon return from this
method, this object will contain the the actual privacy state that
was applied to the message by the underlying mechanism.
GSSException
- containing the following major error codes:
GSSException.CONTEXT_EXPIRED
,
GSSException.BAD_QOP
,
GSSException.FAILURE
public void wrap(InputStream inStream, OutputStream outStream, MessageProp msgProp) throws GSSException
wrap
method.
The application will be responsible for sending the token to the
peer. Typically, the application would
ensure this by calling the flush
method on an OutputStream
that encapsulates the
connection between the two peers.
The MessageProp object is instantiated by the application and used to specify a QOP value which selects cryptographic algorithms, and a privacy service to optionally encrypt the message. The underlying mechanism that is used in the call may not be able to provide the privacy service. It sets the actual privacy service that it does provide in this MessageProp object which the caller should then query upon return. If the mechanism is not able to provide the requested QOP, it throws a GSSException with the BAD_QOP code.
Since some application-level protocols may wish to use tokens emitted by wrap to provide "secure framing", implementations should support the wrapping of zero-length messages.
inStream
- an InputStream containing the application data to be
protected. All of the data that is available in
inStream is used.outStream
- an OutputStream to write the protected message
to.msgProp
- instance of MessageProp that is used by the
application to set the desired QOP and privacy state. Set the
desired QOP to 0 to request the default QOP. Upon return from this
method, this object will contain the the actual privacy state that
was applied to the message by the underlying mechanism.
GSSException
- containing the following
major error codes:
GSSException.CONTEXT_EXPIRED
,
GSSException.BAD_QOP
,
GSSException.FAILURE
public byte[] unwrap(byte[] inBuf, int offset, int len, MessageProp msgProp) throws GSSException
wrap
method on
the other side of the context. The method will return the message
supplied by the peer application to its wrap call, while at the same
time verifying the embedded MIC for that message.The MessageProp object is instantiated by the application and is used by the underlying mechanism to return information to the caller such as the QOP, whether confidentiality was applied to the message, and other supplementary message state information.
Since some application-level protocols may wish to use tokens emitted by wrap to provide "secure framing", implementations should support the wrapping and unwrapping of zero-length messages.
inBuf
- a byte array containing the wrap token received from
peer.offset
- the offset where the token begins.len
- the length of the tokenmsgProp
- upon return from the method, this object will contain
the applied QOP, the privacy state of the message, and supplementary
information stating if the token was a duplicate, old, out of
sequence or arriving after a gap.
GSSException
- containing the following
major error codes:
GSSException.DEFECTIVE_TOKEN
,
GSSException.BAD_MIC
,
GSSException.CONTEXT_EXPIRED
,
GSSException.FAILURE
public void unwrap(InputStream inStream, OutputStream outStream, MessageProp msgProp) throws GSSException
wrap
method on the other side of the context. The method will return the
message supplied by the peer application to its wrap call, while at
the same time verifying the embedded MIC for that message.The MessageProp object is instantiated by the application and is used by the underlying mechanism to return information to the caller such as the QOP, whether confidentiality was applied to the message, and other supplementary message state information.
Since some application-level protocols may wish to use tokens emitted by wrap to provide "secure framing", implementations should support the wrapping and unwrapping of zero-length messages.
The format of the input token that this method
reads is defined in the specification for the underlying mechanism that
will be used. This method will attempt to read one of these tokens per
invocation. If the mechanism token contains a definitive start and
end this method may block on the InputStream
if only
part of the token is available. If the start and end of the token
are not definitive then the method will attempt to treat all
available bytes as part of the token.
Other than the possible blocking behaviour described above, this
method is equivalent to the byte array based unwrap
method.
inStream
- an InputStream that contains the wrap token generated
by the peer.outStream
- an OutputStream to write the application message
to.msgProp
- upon return from the method, this object will contain
the applied QOP, the privacy state of the message, and supplementary
information stating if the token was a duplicate, old, out of
sequence or arriving after a gap.
GSSException
- containing the following
major error codes:
GSSException.DEFECTIVE_TOKEN
,
GSSException.BAD_MIC
,
GSSException.CONTEXT_EXPIRED
,
GSSException.FAILURE
public byte[] getMIC(byte[] inMsg, int offset, int len, MessageProp msgProp) throws GSSException
Note that privacy can only be applied through the wrap call.
Since some application-level protocols may wish to use tokens emitted by getMIC to provide "secure framing", implementations should support derivation of MICs from zero-length messages.
inMsg
- the message to generate the MIC over.offset
- offset within the inMsg where the message begins.len
- the length of the messagemsgProp
- an instance of MessageProp
that is used
by the application to set the desired QOP. Set the desired QOP to
0
in msgProp
to request the default
QOP. Alternatively pass in null
for msgProp
to request the default QOP.
GSSException
- containing the following
major error codes:
GSSException.CONTEXT_EXPIRED
,
GSSException.BAD_QOP
,
GSSException.FAILURE
public void getMIC(InputStream inStream, OutputStream outStream, MessageProp msgProp) throws GSSException
getMIC
method.
Note that privacy can only be applied through the wrap call.Since some application-level protocols may wish to use tokens emitted by getMIC to provide "secure framing", implementations should support derivation of MICs from zero-length messages.
inStream
- an InputStream containing the message to generate the
MIC over. All of the data that is available in
inStream is used.outStream
- an OutputStream to write the output token to.msgProp
- an instance of MessageProp
that is used
by the application to set the desired QOP. Set the desired QOP to
0
in msgProp
to request the default
QOP. Alternatively pass in null
for msgProp
to request the default QOP.
GSSException
- containing the following
major error codes:
GSSException.CONTEXT_EXPIRED
,
GSSException.BAD_QOP
,
GSSException.FAILURE
public void verifyMIC(byte[] inToken, int tokOffset, int tokLen, byte[] inMsg, int msgOffset, int msgLen, MessageProp msgProp) throws GSSException
The MessageProp object is instantiated by the application and is used by the underlying mechanism to return information to the caller such as the QOP indicating the strength of protection that was applied to the message and other supplementary message state information.
Since some application-level protocols may wish to use tokens emitted by getMIC to provide "secure framing", implementations should support the calculation and verification of MICs over zero-length messages.
inToken
- the token generated by peer's getMIC method.tokOffset
- the offset within the inToken where the token
begins.tokLen
- the length of the token.inMsg
- the application message to verify the cryptographic MIC
over.msgOffset
- the offset in inMsg where the message begins.msgLen
- the length of the message.msgProp
- upon return from the method, this object will contain
the applied QOP and supplementary information stating if the token
was a duplicate, old, out of sequence or arriving after a gap.
GSSException
- containing the following
major error codes:
GSSException.DEFECTIVE_TOKEN
GSSException.BAD_MIC
GSSException.CONTEXT_EXPIRED
GSSException.FAILURE
public void verifyMIC(InputStream tokStream, InputStream msgStream, MessageProp msgProp) throws GSSException
verifyMIC
method.
The MessageProp object is instantiated by the application and is used
by the underlying mechanism to return information to the caller such
as the QOP indicating the strength of protection that was applied to
the message and other supplementary message state information.Since some application-level protocols may wish to use tokens emitted by getMIC to provide "secure framing", implementations should support the calculation and verification of MICs over zero-length messages.
The format of the input token that this method
reads is defined in the specification for the underlying mechanism that
will be used. This method will attempt to read one of these tokens per
invocation. If the mechanism token contains a definitive start and
end this method may block on the InputStream
if only
part of the token is available. If the start and end of the token
are not definitive then the method will attempt to treat all
available bytes as part of the token.
Other than the possible blocking behaviour described above, this
method is equivalent to the byte array based verifyMIC
method.
tokStream
- an InputStream containing the token generated by the
peer's getMIC method.msgStream
- an InputStream containing the application message to
verify the cryptographic MIC over. All of the data
that is available in msgStream is used.msgProp
- upon return from the method, this object will contain
the applied QOP and supplementary information stating if the token
was a duplicate, old, out of sequence or arriving after a gap.
GSSException
- containing the following
major error codes:
GSSException.DEFECTIVE_TOKEN
GSSException.BAD_MIC
GSSException.CONTEXT_EXPIRED
GSSException.FAILURE
public byte[] export() throws GSSException
This method deactivates the security context and creates an
interprocess token which, when passed to GSSManager.createContext
in
another process, will re-activate the context in the second process.
Only a single instantiation of a given context may be active at any
one time; a subsequent attempt by a context exporter to access the
exported security context will fail.
The implementation may constrain the set of processes by which the interprocess token may be imported, either as a function of local security policy, or as a result of implementation decisions. For example, some implementations may constrain contexts to be passed only between processes that run under the same account, or which are part of the same process group.
The interprocess token may contain security-sensitive information (for example cryptographic keys). While mechanisms are encouraged to either avoid placing such sensitive information within interprocess tokens, or to encrypt the token before returning it to the application, in a typical GSS-API implementation this may not be possible. Thus the application must take care to protect the interprocess token, and ensure that any process to which the token is transferred is trustworthy.
Implementations are not required to support the inter-process
transfer of security contexts. Calling the isTransferable
method will indicate if the context object is
transferable.
Calling this method on a context that
is not exportable will result in this exception being thrown with
the error code GSSException.UNAVAILABLE
.
GSSException
- containing the following
major error codes:
GSSException.UNAVAILABLE
,
GSSException.CONTEXT_EXPIRED
,
GSSException.NO_CONTEXT
,
GSSException.FAILURE
GSSManager.createContext(byte[])
public void requestMutualAuth(boolean state) throws GSSException
initSecContext
.
Not all mechanisms support mutual authentication and some mechanisms
might require mutual authentication even if the application
doesn't. Therefore, the application should check to see if the
request was honored with the getMutualAuthState
method.
state
- a boolean value indicating whether mutual
authentication shouls be used or not.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
getMutualAuthState()
public void requestReplayDet(boolean state) throws GSSException
initSecContext
. During context establishment replay
detection is not an option and is a function of the underlying
mechanism's capabilities.
Not all mechanisms support replay detection and some mechanisms
might require replay detection even if the application
doesn't. Therefore, the application should check to see if the
request was honored with the getReplayDetState
method. If replay detection is enabled then the
MessageProp.isDuplicateToken
and MessageProp.isOldToken
methods will return
valid results for the MessageProp
object that is passed
in to the unwrap
method or the verifyMIC
method.
state
- a boolean value indicating whether replay detection
should be enabled over the established context or not.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
getReplayDetState()
public void requestSequenceDet(boolean state) throws GSSException
initSecContext
. During context establishment sequence
checking is not an option and is a function of the underlying
mechanism's capabilities.
Not all mechanisms support sequence checking and some mechanisms
might require sequence checking even if the application
doesn't. Therefore, the application should check to see if the
request was honored with the getSequenceDetState
method. If sequence checking is enabled then the
MessageProp.isDuplicateToken
,
MessageProp.isOldToken
,
MessageProp.isUnseqToken
, and
MessageProp.isGapToken
methods will return
valid results for the MessageProp
object that is passed
in to the unwrap
method or the verifyMIC
method.
state
- a boolean value indicating whether sequence checking
should be enabled over the established context or not.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
getSequenceDetState()
public void requestCredDeleg(boolean state) throws GSSException
initSecContext
.
Not all mechanisms support credential delegation. Therefore, an
application that desires delegation should check to see if the
request was honored with the getCredDelegState
method. If the application indicates that
delegation must not be used, then the mechanism will honor the
request and delegation will not occur. This is an exception
to the general rule that a mechanism may enable a service even if it
is not requested.
state
- a boolean value indicating whether the credentials
should be delegated or not.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
getCredDelegState()
public void requestAnonymity(boolean state) throws GSSException
initSecContext
.
Not all mechanisms support anonymity for the initiator. Therefore, the
application should check to see if the request was honored with the
getAnonymityState
method.
state
- a boolean value indicating if the initiator should
be authenticated to the acceptor as an anonymous principal.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
getAnonymityState()
public void requestConf(boolean state) throws GSSException
wrap
method. This request can only be made on
the context initiator's side and it has to be done prior to the
first call to initSecContext
.
Not all mechanisms support confidentiality and other mechanisms
might enable it even if the application doesn't request
it. The application may check to see if the request was honored with
the getConfState
method. If confidentiality
is enabled, only then will the mechanism honor a request for privacy
in the MessageProp
object that is passed in to the wrap
method.Enabling confidentiality will also automatically enable integrity.
state
- a boolean value indicating whether confidentiality
should be enabled or not.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
getConfState()
,
getIntegState()
,
requestInteg(boolean)
,
MessageProp
public void requestInteg(boolean state) throws GSSException
wrap
and getMIC
methods. This
request can only be made on the context initiator's side and it has
to be done prior to the first call to initSecContext
.
Not all mechanisms support integrity and other mechanisms
might enable it even if the application doesn't request
it. The application may check to see if the request was honored with
the getIntegState
method.Disabling integrity will also automatically disable confidentiality.
state
- a boolean value indicating whether integrity
should be enabled or not.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
getIntegState()
public void requestLifetime(int lifetime) throws GSSException
initSecContext
.
The actual lifetime of the context will depend on the capabilites of
the underlying mechanism and the application should call the getLifetime
method to determine this.
lifetime
- the desired context lifetime in seconds. Use
INDEFINITE_LIFETIME
to request an indefinite lifetime
and DEFAULT_LIFETIME
to request a default lifetime.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
getLifetime()
public void setChannelBinding(ChannelBinding cb) throws GSSException
initSecContext
and the acceptor must call it before the
first call to acceptSecContext
.
cb
- the channel bindings to use.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
public boolean getCredDelegState()
requestCredDeleg
method will honor that
request and this method will return false
on the
initiator's side from that point onwards.
requestCredDeleg(boolean)
public boolean getMutualAuthState()
requestMutualAuth(boolean)
public boolean getReplayDetState()
requestReplayDet(boolean)
public boolean getSequenceDetState()
requestSequenceDet(boolean)
public boolean getAnonymityState()
initSecContext
. An initiator that absolutely must be
authenticated anonymously should call this method after each call to
initSecContext
to determine if the generated token
should be sent to the peer or the context aborted. On the
acceptor side, a call to this method determines if any of the tokens
processed by acceptSecContext
thus far have divulged
the identity of the initiator.
requestAnonymity(boolean)
public boolean isTransferable() throws GSSException
export
method. This call
is only valid on fully established contexts.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
public boolean isProtReady()
wrap
, unwrap
,
getMIC
, and verifyMIC
can be used with
this context at the current stage of context establishment, false
otherwise.public boolean getConfState()
isProtReady
or isEstablished
return true
. If this method returns
true
, so will getIntegState
requestConf(boolean)
public boolean getIntegState()
isProtReady
or isEstablished
return true
. This method will always
return true
if getConfState
returns true.
requestInteg(boolean)
public int getLifetime()
isEstablished
returns
true.
requestLifetime(int)
public GSSName getSrcName() throws GSSException
isProtReady
or isEstablished
return true
.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
GSSName
public GSSName getTargName() throws GSSException
isProtReady
or isEstablished
return true
.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
public Oid getMech() throws GSSException
GSSException
- containing the following
major error codes:
GSSException.FAILURE
public GSSCredential getDelegCred() throws GSSException
getCredDelegState
to determine if there are
any delegated credentials.
null
is no credentials
were delegated.
GSSException
- containing the following
major error codes:
GSSException.FAILURE
public boolean isInitiator() throws GSSException
GSSException
- containing the following
major error codes:
GSSException.FAILURE