@Deprecated public class DowngradingConsistencyRetryPolicy extends Object implements RetryPolicy
QUORUM
may not see a preceding write at QUORUM
. Do not use this
policy unless you have understood the cases where this can happen and
are ok with that. It is also highly recommended to always wrap this
policy into LoggingRetryPolicy
to log the occurrences of
such consistency breaks.
This policy implements the same retries than the DefaultRetryPolicy
policy. But on top of that, it also retries in the following cases:
WriteType.UNLOGGED_BATCH
and at least one replica acknowledged the
write, the operation is retried at a lower consistency level.
Furthermore, for other operations, if at least one replica acknowledged
the write, the timeout is ignored.THREE
.ONE
, TWO
or THREE
.EACH_QUORUM
, Cassandra returns the number of live replicas
in the datacenter that failed to reach consistency, not the overall number in the cluster. Therefore if this
number is 0, we still retry at ONE
, on the assumption that a host may still be up in another datacenter.
The reasoning being this retry policy is the following one. If, based
on the information the Cassandra coordinator node returns, retrying the
operation with the initially requested consistency has a chance to
succeed, do it. Otherwise, if based on this information we know the
initially requested consistency level cannot be achieved currently, then:
RetryPolicy.RetryDecision
Modifier and Type | Field and Description |
---|---|
static DowngradingConsistencyRetryPolicy |
INSTANCE
Deprecated.
|
Modifier and Type | Method and Description |
---|---|
void |
close()
Deprecated.
Gets invoked at cluster shutdown.
|
void |
init(Cluster cluster)
Deprecated.
Gets invoked at cluster startup.
|
RetryPolicy.RetryDecision |
onReadTimeout(Statement statement,
ConsistencyLevel cl,
int requiredResponses,
int receivedResponses,
boolean dataRetrieved,
int nbRetry)
Deprecated.
Defines whether to retry and at which consistency level on a read timeout.
|
RetryPolicy.RetryDecision |
onRequestError(Statement statement,
ConsistencyLevel cl,
DriverException e,
int nbRetry)
Deprecated.
Defines whether to retry and at which consistency level on an
unexpected error.
|
RetryPolicy.RetryDecision |
onUnavailable(Statement statement,
ConsistencyLevel cl,
int requiredReplica,
int aliveReplica,
int nbRetry)
Deprecated.
Defines whether to retry and at which consistency level on an
unavailable exception.
|
RetryPolicy.RetryDecision |
onWriteTimeout(Statement statement,
ConsistencyLevel cl,
WriteType writeType,
int requiredAcks,
int receivedAcks,
int nbRetry)
Deprecated.
Defines whether to retry and at which consistency level on a write timeout.
|
public static final DowngradingConsistencyRetryPolicy INSTANCE
public RetryPolicy.RetryDecision onReadTimeout(Statement statement, ConsistencyLevel cl, int requiredResponses, int receivedResponses, boolean dataRetrieved, int nbRetry)
requiredResponses >= receivedResponses
if dataPresent
is
false
(see
ReadTimeoutException.wasDataRetrieved()
).
This implementation triggers a maximum of one retry. If less replicas
responded than required by the consistency level (but at least one
replica did respond), the operation is retried at a lower
consistency level. If enough replicas responded but data was not
retrieved, the operation is retried with the initial consistency
level. Otherwise, an exception is thrown.onReadTimeout
in interface RetryPolicy
statement
- the original query that timed out.cl
- the requested consistency level of the read that timed out.
Note that this can never be a serial
consistency level.requiredResponses
- the number of responses that were required to
achieve the requested consistency level.receivedResponses
- the number of responses that had been received
by the time the timeout exception was raised.dataRetrieved
- whether actual data (by opposition to data checksum)
was present in the received responses.nbRetry
- the number of retry already performed for this operation.RetryDecision.RETHROW
is returned,
a ReadTimeoutException
will
be thrown for the operation.public RetryPolicy.RetryDecision onWriteTimeout(Statement statement, ConsistencyLevel cl, WriteType writeType, int requiredAcks, int receivedAcks, int nbRetry)
not idempotent
, the driver will never retry it on a
write timeout (this method won't even be called).
This implementation triggers a maximum of one retry. If writeType ==
WriteType.BATCH_LOG
, the write is retried with the initial
consistency level. If writeType == WriteType.UNLOGGED_BATCH
and at least one replica acknowledged, the write is retried with a
lower consistency level (with unlogged batch, a write timeout can
always mean that part of the batch haven't been persisted at
all, even if receivedAcks > 0
). For other write types (WriteType.SIMPLE
and WriteType.BATCH
), if we know the write has been persisted on at
least one replica, we ignore the exception. Otherwise, an exception is thrown.onWriteTimeout
in interface RetryPolicy
statement
- the original query that timed out.cl
- the requested consistency level of the write that timed out.
If the timeout occurred at the "paxos" phase of a
Lightweight transaction,
then cl
will actually be the requested serial
consistency level.
Beware that serial consistency levels should never be passed to a RetryDecision
as this would
invariably trigger an InvalidQueryException
.
Also, when cl
is serial
, then writeType
is always CAS
.writeType
- the type of the write that timed out.requiredAcks
- the number of acknowledgments that were required to
achieve the requested consistency level.receivedAcks
- the number of acknowledgments that had been received
by the time the timeout exception was raised.nbRetry
- the number of retry already performed for this operation.RetryDecision.RETHROW
is returned,
a WriteTimeoutException
will
be thrown for the operation.public RetryPolicy.RetryDecision onUnavailable(Statement statement, ConsistencyLevel cl, int requiredReplica, int aliveReplica, int nbRetry)
onUnavailable
in interface RetryPolicy
statement
- the original query for which the consistency level cannot
be achieved.cl
- the requested consistency level for the operation.
If the operation failed at the "paxos" phase of a
Lightweight transaction,
then cl
will actually be the requested serial
consistency level.
Beware that serial consistency levels should never be passed to a RetryDecision
as this would
invariably trigger an InvalidQueryException
.requiredReplica
- the number of replica that should have been
(known) alive for the operation to be attempted.aliveReplica
- the number of replica that were know to be alive by
the coordinator of the operation.nbRetry
- the number of retry already performed for this operation.RetryDecision.RETHROW
is returned,
an UnavailableException
will
be thrown for the operation.public RetryPolicy.RetryDecision onRequestError(Statement statement, ConsistencyLevel cl, DriverException e, int nbRetry)
SocketOptions.getReadTimeoutMillis()
);OVERLOADED
error or a SERVER_ERROR
.not idempotent
, the driver will never retry it
(this method won't even be called).
For historical reasons, this implementation triggers a retry on the next host in the query plan
with the same consistency level, regardless of the statement's idempotence.
Note that this breaks the general rule
stated in RetryPolicy.onRequestError(Statement, ConsistencyLevel, DriverException, int)
:
"a retry should only be attempted if the request is known to be idempotent".`onRequestError
in interface RetryPolicy
statement
- the original query that failed.cl
- the requested consistency level for the operation.
Note that this is not necessarily the achieved consistency level (if any),
and it is never a serial
one.e
- the exception that caused this request to fail.nbRetry
- the number of retries already performed for this operation.RetryDecision.RETHROW
is returned,
the DriverException
passed to this method will be thrown for the operation.public void init(Cluster cluster)
RetryPolicy
init
in interface RetryPolicy
cluster
- the cluster that this policy is associated with.public void close()
RetryPolicy
close
in interface RetryPolicy
Copyright © 2012–2018. All rights reserved.