The purpose of this guide is to detail changes made by successive versions of the Java Driver.
ConsistencyLevel.LOCAL_SERIAL.isDCLocal()
now returns true. In driver code, isDCLocal()
is only used when evaluating a Statement's ConsistencyLevel (which does not include Serial CLs), but as a matter of correctness this was updated.
ReadFailureException
and WriteFailureException
are now surfaced to RetryPolicy.onRequestError
. Consider updating custom RetryPolicy
implementations to account for this. In the general case, we recommend using RetryDecision.rethrow()
, see JAVA-1944.
The DowngradingConsistencyRetryPolicy
is now deprecated, see JAVA-1752. It will also be removed in the next major release of the driver (4.0.0), see JAVA-1376.
The main motivation is the agreement that this policy‘s behavior should be the application’s concern, not the driver's.
We recognize that there are use cases where downgrading is good – for instance, a dashboard application would present the latest information by reading at QUORUM, but it's acceptable for it to display stale information by reading at ONE sometimes.
But APIs provided by the driver should instead encourage idiomatic use of a distributed system like Apache Cassandra, and a downgrading policy works against this. It suggests that an anti-pattern such as “try to read at QUORUM, but fall back to ONE if that fails” is a good idea in general use cases, when in reality it provides no better consistency guarantees than working directly at ONE, but with higher latencies.
We therefore urge users to carefully choose upfront the consistency level that works best for their use cases, and should they decide that the downgrading behavior of DowngradingConsistencyRetryPolicy
remains a good fit for certain use cases, they will now have to implement this logic themselves, either at application level, or alternatively at driver level, by rolling out their own downgrading retry policy.
To help users migrate existing applications that rely on DowngradingConsistencyRetryPolicy
, see this online example that illustrates how to implement a downgrading logic at application level.
The TokenAwarePolicy
now has a new constructor that takes a ReplicaOrdering
argument, see JAVA-1448.
One of the advantages of this feature is the new NEUTRAL
ordering strategy, which honors its child policy‘s ordering, i.e., replicas are returned in the same relative order as in the child policy’s query plan.
For example, if the child policy returns the plan [A, B, C, D], and the replicas for the query being routed are [D, A, B], then the token aware policy would return the plan [A, B, D, C].
As a consequence, the constructor taking a boolean parameter shuffleReplicas
is now deprecated and will be removed in the next major release.
QueryBuilder
methods in
, lt
, lte
, eq
, gt
, and gte
now accept Iterable
as input rather than just List
. This should have no impact unless you were accessing these methods using reflection in which case you need to account for these new parameter types.
Speculative executions can now be scheduled without delay: if SpeculativeExecutionPlan.nextExecution()
returns 0, the next execution will be fired immediately. This allows aggressive policies that hit multiple replicas right away, in order to get the fastest response possible. Note that this may break existing policies that used 0 to mean “no execution”; make sure you use a negative value instead.
The SSLOptions
interface is now deprecated in favor of RemoteEndpointAwareSSLOptions
. Similarly, the two existing implementations of that interface, JdkSSLOptions
and NettySSLOptions
, are now deprecated in favor of RemoteEndpointAwareJdkSSLOptions
and RemoteEndpointAwareNettySSLOptions
respectively (see JAVA-1364).
In 3.1.0, the driver would log a warning the first time it would skip a retry for a non-idempotent request; this warning has now been removed as users should now have adjusted their applications accordingly.
The caseSensitive
field on @Column
and @Field
annotation now only applies to the name
field on the annotation and not the name of the variable / method itself. If you were previously depending on the name of the field, you should add a name
field to the annotation, i.e.: @Column(name="userName", caseSensitive=true)
.
This version introduces an important change in the default retry behavior: statements that are not idempotent are not always retried automatically anymore.
Prior to 2.1.10, idempotence was not considered for retries. This exposed applications to the risk of applying a non-idempotent statement twice (counter increment, list append...), or to more subtle bugs with lightweight transactions (see JAVA-819).
In 2.1.10 / 3.0.x, we introduced IdempotenceAwareRetryPolicy
, which considers the Statement#isIdempotent()
in the retry decision process. However, for consistency with previous versions, this policy was not enabled by default (in particular because statements are non-idempotent by default, and we didn't want applications to suddenly stop retrying queries that were retried before).
In 3.1.0, the default is now to not retry after a write timeout or request error if the statement is not idempotent. This is handled internally, the retry policy methods are not even invoked in those cases (and therefore IdempotenceAwareRetryPolicy
has been deprecated). See the manual section about retries for more information.
In practice, here's what upgrading to 3.1.0 means for you:
IdempotenceAwareRetryPolicy
;setIdempotent
flag on statements. In most cases the driver can‘t compute in automatically (because it doesn’t parse query strings), so it takes a conservative approach and sets it to false
by default. If you know the query is idempotent, you should set it to true
manually. See the query idempotence section of the manual.The driver logs a warning the first time it ignores a non-idempotent request; this warning will be removed in version 3.2.0.
The connection pool is now fully non-blocking (JAVA-893), which greatly improves asynchronous programming:
Session.executeAsync
won't ever block the user thread anymore;This new implementation brings a couple of changes:
PoolingOptions.setPoolTimeoutMillis
has been deprecated, and replaced by setMaxQueueSize
;BusyPoolException
instead of TimeoutException
(note that this exception is not rethrown directly to the client, but wrapped in NoHostAvailableException.getErrors()
).This version brings parity with Cassandra 2.2 and 3.0.
It is not binary compatible with the driver‘s 2.1 branch. The main changes were introduced by the custom codecs feature (see below). We’ve also seized the opportunity to remove code that was deprecated in 2.1.
The default consistency level in QueryOptions
is now LOCAL_ONE
.
Custom codecs (JAVA-721) introduce several breaking changes and also modify a few runtime behaviors.
Here is a detailed list of breaking API changes:
TypeCodec
was package-private before and is now public.
DataType
has no more references to TypeCodec
, so methods that dealt with serialization and deserialization of data types have been removed:
ByteBuffer serialize(Object value, ProtocolVersion protocolVersion)
ByteBuffer serializeValue(Object value, ProtocolVersion protocolVersion)
Object deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion)
Object deserialize(ByteBuffer bytes, int protocolVersion)
Object parse(String value)
String format(Object value)
Class<?> asJavaClass()
These methods must now be invoked on TypeCodec
directly. To resolve the TypeCodec
instance for a particular data type, use CodecRegistry#codecFor
.
GettableByIndexData
(affects Row
, BoundStatement
, TupleValue
and UDTValue
). The following public methods were added:
<T> T get(int i, Class<T> targetClass)
<T> T get(int i, TypeToken<T> targetType)
<T> T get(int i, TypeCodec<T> codec)
GettableByNameData
(affects Row
, BoundStatement
and UDTValue
). The following public methods were added:
<T> T get(String name, Class<T> targetClass)
<T> T get(String name, TypeToken<T> targetType)
<T> T get(String name, TypeCodec<T> codec)
SettableByIndexData
(affects Row
, BoundStatement
, TupleValue
and UDTValue
). The following public methods were added:
<V> T set(int i, V v, Class<V> targetClass)
<V> T set(int i, V v, TypeToken<V> targetType)
<V> T set(int i, V v, TypeCodec<V> codec)
SettableByNameData
(affects Row
, BoundStatement
and UDTValue
). The following public methods were added:
<V> T set(String name, V v, Class<V> targetClass)
<V> T set(String name, V v, TypeToken<V> targetType)
<V> T set(String name, V v, TypeCodec<V> codec)
Statement
. The following public methods were modified:
getRoutingKey(ProtocolVersion, CodecRegistry)
: both parameters added.RegularStatement
. The following public methods were modified:
getValues(ProtocolVersion, CodecRegistry)
: second parameter added.getQueryString(CodecRegistry)
and hasValues(CodecRegistry)
: parameter added. No-arg versions are still present and use the default codec registry; refer to the Javadocs for guidance on which version to use.PreparedStatement
. The following public method was added:
CodecRegistry getCodecRegistry()
.TupleType
. The following public method was deleted:
TupleType of(DataType... types)
; users should now use Metadata.newTupleType(DataType...)
.The driver now depends on Guava 16.0.1 (instead of 14.0.1). This update has been mainly motivated by Guava's Issue #1635, which affects TypeToken
, and hence all TypeCodec
implementations handling parameterized types.
UDTMapper
(the type previously used to convert @UDT
-annotated classes to their CQL counterpart) was removed, as well as the corresponding method MappingManager#udtMapper
.
The mapper now uses custom codecs to convert UDTs. See more explanations here.
All methods that took the protocol version as an int
or assumed a default version have been removed (they were already deprecated in 2.1):
AbstractGettableData(int)
Cluster.Builder#withProtocolVersion(int)
ProtocolOptions
:NEWEST_SUPPORTED_PROTOCOL_VERSION
(replaced by ProtocolVersion#NEWEST_SUPPORTED
)int getProtocolVersion()
There are now variants of these methods using the ProtocolVersion
enum. In addition, ProtocolOptions#getProtocolVersionEnum
has been renamed to ProtocolOptions#getProtocolVersion
.
All methods related to the “suspected” host state have been removed (they had been deprecated in 2.1.6 when the suspicion mechanism was removed):
Host.StateListener#onSuspected()
(was inherited by LoadBalancingPolicy
)Host#getInitialReconnectionAttemptFuture()
PoolingOptions#setMinSimultaneousRequestsPerConnectionThreshold(HostDistance, int)
has been removed. The new connection pool resizing algorithm introduced by JAVA-419 does not need this threshold anymore.
AddressTranslater
has been renamed to AddressTranslator
. All related methods and classes have also been renamed.
In addition, the close()
method has been pulled up into AddressTranslator
, and CloseableAddressTranslator
has been removed. Existing third-party AddressTranslator
implementations only need to add an empty close()
method.
The close()
method has been pulled up into LoadBalancingPolicy
, and CloseableLoadBalancingPolicy
has been removed. Existing third-party LoadBalancingPolicy
implementations only need to add an empty close()
method.
All pluggable components now have callbacks to detect when they get associated with a Cluster
instance:
ReconnectionPolicy
, RetryPolicy
, AddressTranslator
, and TimestampGenerator
:init(Cluster)
close()
Host.StateListener
and LatencyTracker
:onRegister(Cluster)
onUnregister(Cluster)
This gives these components the opportunity to perform initialization / cleanup tasks. Existing third-party implementations only need to add empty methods.
LoadBalancingPolicy
does not extend Host.StateListener
anymore: callback methods (onUp
, onDown
, etc.) have been duplicated. This is unlikely to affect clients.
Client-side timestamp generation is now the default (provided that native protocol v3 or higher is in use). The generator used is AtomicMonotonicTimestampGenerator
.
If a DNS name resolves to multiple A-records, Cluster.Builder#addContactPoint(String)
will now use all of these addresses as contact points. This gives you the possibility of maintaining contact points in DNS configuration, and having a single, static contact point in your Java code.
The following methods were added for Custom payloads:
PreparedStatement
: getIncomingPayload()
, getOutgoingPayload()
and setOutgoingPayload(Map<String,ByteBuffer>)
AbstractSession#prepareAsync(String, Map<String,ByteBuffer>)
Also, note that AbstractSession#prepareAsync(Statement)
does not call AbstractSession#prepareAsync(String)
anymore, they now both delegate to a protected method.
This breaks binary compatibility for these two classes; if you have custom implementations, you will have to adapt them accordingly.
Getters and setters have been added to “data-container” classes for new CQL types:
getByte
/setByte
for the TINYINT
typegetShort
/setShort
for the SMALLINT
typegetTime
/setTime
for the TIME
typegetDate
/setDate
for the DATE
typeThe methods for the TIMESTAMP
CQL type have been renamed to getTimestamp
and setTimestamp
.
This affects Row
, BoundStatement
, TupleValue
and UDTValue
.
New exception types have been added to handle additional server-side errors introduced in Cassandra 2.2:
ReadFailureException
WriteFailureException
FunctionExecutionException
This is not a breaking change since all driver exceptions are unchecked; but clients might decide to handle these errors in a specific way.
In addition, QueryTimeoutException
has been renamed to QueryExecutionException
(this is an intermediary class in our exception hierarchy, it now has new child classes that are not related to timeouts).
ResultSet#fetchMoreResults()
now returns a ListenableFuture<ResultSet>
. This makes the API more friendly if you chain transformations on an async query to process all pages (see AsyncResultSetTest
in the sources for an example).
Frozen
annotations in the mapper are no longer checked at runtime (see JAVA-843 for more explanations). So they become purely informational at this stage. However it is a good idea to keep using these annotations and make sure they match the schema, in anticipation for the schema generation features that will be added in a future version.
AsyncInitSession
has been removed, initAsync()
is now part of the Session
interface (the only purpose of the extra interface was to preserve binary compatibility on the 2.1 branch).
TableMetadata.Options
has been made a top-level class and renamed to TableOptionsMetadata
. It is now also used by MaterializedViewMetadata
.
The mapper annotation @Enumerated
has been removed, users should now use the newly-introduced driver-extras
module to get automatic enum-to-CQL mappings. Two new codecs provide the same functionality: EnumOrdinalCodec
and EnumNameCodec
:
enum Foo {...} enum Bar {...} // register the appropriate codecs CodecRegistry.DEFAULT_INSTANCE .register(new EnumOrdinalCodec<Foo>(Foo.class)) .register(new EnumNameCodec<Bar>(Bar.class)) // the following mappings are handled out-of-the-box @Table public class MyPojo { private Foo foo; private List<Bar> bars; ... }
The interface IdempotenceAwarePreparedStatement
has been removed and now the PreparedStatement
interface exposes 2 new methods, setIdempotent(Boolean)
and isIdempotent()
.
RetryPolicy
and ExtendedRetryPolicy
(introduced in 2.1.10) were merged together; as a consequence, RetryPolicy
now has one more method: onRequestError
; see JAVA-819 for more information. Furthermore, FallthroughRetryPolicy
now returns RetryDecision.rethrow()
when onRequestError
is called.
DseAuthProvider
has been deprecated and is now replaced by DseGSSAPIAuthProvider
for Kerberos authentication. DsePlainTextAuthProvider
has been introduced to handle plain text authentication with the DseAuthenticator
.
The constructor of DCAwareRoundRobinPolicy
is not accessible anymore. You should use DCAwareRoundRobinPolicy#builder()
to create new instances.
ColumnMetadata.getTable()
has been renamed to ColumnMetadata.getParent()
. Also, its return type is now AbstractTableMetadata
which can be either a TableMetadata
object or a MaterializedViewMetadata
object. This change is motivated by the fact that a column can now belong to a table or a materialized view.
ColumnMetadata.getIndex()
has been removed. This is due to the fact that secondary indexes have been completely redesigned in Cassandra 3.0, and the former one-to-one relationship between a column and its index has been replaced with a one-to-many relationship between a table and its indexes. This is reflected in the driver's API by the new methods TableMetadata.getIndexes()
and TableMetadata.getIndex(String name)
. See CASSANDRA-9459 and and JAVA-1008 for more details. Unfortunately, there is no easy way to recover the functionality provided by the deleted method, even for Cassandra versions <= 3.0.
IndexMetadata
is now a top-level class and its structure has been deeply modified. Again, this is due to the fact that secondary indexes have been completely redesigned in Cassandra 3.0.
SSLOptions
has been refactored to allow the option to choose between JDK and Netty-based SSL implementations. See JAVA-841 and the SSL documentation for more details.
2.1.8 is binary-compatible with 2.1.7 but introduces a small change in the driver's behavior:
DCAwareRoundRobinPolicy
without specifying a primary datacenter name, make sure that you only provide local hosts as contact points.This version brings a few changes in the driver's behavior; none of them break binary compatibility.
The DefaultRetryPolicy
's behaviour has changed in the case of an Unavailable exception received from a request. The new behaviour will cause the driver to process a Retry on a different node at most once, otherwise an exception will be thrown. This change makes sense in the case where the node tried initially for the request happens to be isolated from the rest of the cluster (e.g. because of a network partition) but can still answer to the client normally. In this case, trying another node has a chance of success. The previous behaviour was to always throw an exception.
The following properties in PoolingOptions
were renamed:
MaxSimultaneousRequestsPerConnectionThreshold
to NewConnectionThreshold
MaxSimultaneousRequestsPerHostThreshold
to MaxRequestsPerConnection
The old getters/setters were deprecated, but they delegate to the new ones.
Also, note that the connection pool for protocol v3 can now be configured to use multiple connections. See this page for more information.
MappingManager(Session)
will now force the initialization of the Session
if needed. This is a change from 2.1.6, where if you gave it an uninitialized session (created with Cluster#newSession()
instead of Cluster#connect()
), it would only get initialized on the first request.
If this is a problem for you, MappingManager(Session, ProtocolVersion)
preserves the previous behavior (see the API docs for more details).
A BuiltStatement
is now considered non-idempotent whenever a fcall()
or raw()
is used to build a value to be inserted in the database. If you know that the CQL functions or expressions are safe, use setIdempotent(true)
on the statement.
See 2.0.10.
2.1.2 brings important internal changes with native protocol v3 support, but the impact on the public API has been kept as low as possible.
ProtocolVersion
. Most public methods that take it as an argument have a backward-compatible version that takes an int
(the exception being RegularStatement
, described below). For new code, prefer the enum version.RegularStatement.getValues
now takes the protocol version as a ProtocolVersion
instead of an int
. This is transparent for callers since there is a backward-compatible alternative, but if you happened to extend the class you'll need to update your implementation.
BatchStatement.setSerialConsistencyLevel
now returns BatchStatement
instead of Statement
. Again, this only matters if you extended this class (if so, it might be a good idea to also have a covariant return in your child class).
The constructor of UnsupportedFeatureException
now takes a ProtocolVersion
as a parameter. This should impact few users, as there's hardly any reason to build instances of that class from client code.
These features are only active when the native protocol v3 is in use.
The driver now uses a single connection per host (as opposed to a pool in 2.1.1). Most options in PoolingOptions
are ignored, except for a new one called maxSimultaneousRequestsPerHostThreshold
. See the class's Javadocs for detailed explanations.
You can now provide a default timestamp with each query (but it will be ignored if the CQL query string already contains a USING TIMESTAMP
clause). This can be done on a per-statement basis with Statement.setDefaultTimestamp
, or automatically with a TimestampGenerator
specified with Cluster.Builder.withTimestampGenerator
(two implementations are provided: ThreadLocalMonotonicTimestampGenerator
and AtomicMonotonicTimestampGenerator
). If you specify both, the statement's timestamp takes precedence over the generator. By default, the driver has the same behavior as 2.1.1 (no generator, timestamps are assigned by Cassandra unless USING TIMESTAMP
was specified).
BatchStatement.setSerialConsistencyLevel
no longer throws an exception, it will honor the serial consistency level for the batch.
ResultSet
interface has a new wasApplied()
method. This will only affect clients that provide their own implementation of this interface.The getCaching
method of TableMetadata#Options
now returns a Map
to account for changes to Cassandra 2.1. Also, the getIndexInterval
method now returns an Integer
instead of an int
which will be null
when connected to Cassandra 2.1 nodes.
BoundStatement
variables that have not been set explicitly will no longer default to null
. Instead, all variables must be bound explicitly, otherwise the execution of the statement will fail (this also applies to statements inside of a BatchStatement
). For variables that map to a primitive Java type, a new setToNull
method has been added. We made this change because the driver might soon distinguish between unset and null variables, so we don't want clients relying on the “leave unset to set to null
” behavior.
The changes listed in this section should normally not impact end users of the driver, but rather third-party frameworks and tools.
The serialize
and deserialize
methods in DataType
now take an additional parameter: the protocol version. As explained in the javadoc, if unsure, the proper value to use for this parameter is the protocol version in use by the driver, i.e. the value returned by cluster.getConfiguration().getProtocolOptions().getProtocolVersion()
.
The parse
method in DataType
now returns a Java object, not a ByteBuffer
. The previous behavior can be obtained by calling the serialize
method on the returned object.
The getValues
method of RegularStatement
now takes the protocol version as a parameter. As above, the proper value if unsure is almost surely the protocol version in use (cluster.getConfiguration().getProtocolOptions().getProtocolVersion()
).
2.0.11 preserves binary compatibility with previous versions. There are a few changes in the driver's behavior:
The DefaultRetryPolicy
's behaviour has changed in the case of an Unavailable exception received from a request. The new behaviour will cause the driver to process a Retry on a different node at most once, otherwise an exception will be thrown. This change makes sense in the case where the node tried initially for the request happens to be isolated from the rest of the cluster (e.g. because of a network partition) but can still answer to the client normally. In this case, trying another node has a chance of success. The previous behaviour was to always throw an exception.
A BuiltStatement
is now considered non-idempotent whenever a fcall()
or raw()
is used to build a value to be inserted in the database. If you know that the CQL functions or expressions are safe, use setIdempotent(true)
on the statement.
The list of contact points provided at startup is now shuffled before trying to open the control connection, so that multiple clients with the same contact points don‘t all pick the same control host. As a result, you can’t assume that the driver will try contact points in a deterministic order. In particular, if you use the DCAwareRoundRobinPolicy
without specifying a primary datacenter name, make sure that you only provide local hosts as contact points.
We try to avoid breaking changes within a branch (2.0.x to 2.0.y), but 2.0.10 saw a lot of new features and internal improvements. There is one breaking change:
LatencyTracker#update
now has a different signature and takes two new parameters: the statement that has been executed (never null), and the exception thrown while executing the query (or null, if the query executed successfully). Existing implementations of this interface, once upgraded to the new method signature, should continue to work as before.The following might also be of interest:
SocketOptions#getTcpNoDelay()
is now TRUE by default (it was previously undefined). This reflects the new behavior of Netty (which was upgraded from version 3.9.0 to 4.0.27): TCP_NODELAY
is now turned on by default, instead of depending on the OS default like in previous versions.
Netty is not shaded anymore in the default Maven artifact. However we publish a shaded artifact under a different classifier.
The internal initialization sequence of the Cluster object has been slightly changed: some fields that were previously initialized in the constructor are now set when the init()
method is called. In particular, Cluster#getMetrics()
will return null
until the cluster is initialized.
We used the opportunity of a major version bump to incorporate your feedback and improve the API, to fix a number of inconsistencies and remove cruft. Unfortunately this means there are some breaking changes, but the new API should be both simpler and more complete.
The following describes the changes for 2.0 that are breaking changes of the 1.0 API. For ease of use, we distinguish two categories of API changes: the “main” ones and the “other” ones.
The “main” API changes are the ones that are either likely to affect most upgraded apps or are incompatible changes that, even if minor, will not be detected at compile time. Upgraders are highly encouraged to check this list of “main” changes while upgrading their application to 2.0 (even though most applications are likely to be affected by only a handful of changes).
The “other” list is, well, other changes: those that are likely to affect a minor number of applications and will be detected by compile time errors anyway. It is ok to skip those initially and only come back to them if you have trouble compiling your application after an upgrade.
The Query
class has been renamed into Statement
(it was confusing to some that the BoundStatement
was not a Statement
). To allow this, the old Statement
class has been renamed to RegularStatement
.
The Cluster
and Session
shutdown API has changed. There is now a closeAsync
that is asynchronous but returns a Future
on the completion of the shutdown process. There is also a close
shortcut that does the same but blocks. Also, close
now waits for ongoing queries to complete by default (but you can force the closing of all connections if you want to).
NoHostAvailableException#getErrors
now returns the full exception objects for each node instead of just a message. In other words, it returns a Map<InetAddress, Throwable>
instead of a Map<InetAddress, String>
.
Statement#getConsistencyLevel
(previously Query#getConsistencyLevel
, see first point) will now return null
by default (instead of CL.ONE
), with the meaning of “use the default consistency level”. The default consistency level can now be configured through the new QueryOptions
object in the cluster Configuration
.
The Metrics
class now uses the Codahale metrics library version 3 (version 2 was used previously). This new major version of the library has many API changes compared to its version 2 (see the release notes for details), which can thus impact consumers of the Metrics class. Furthermore, the default JmxReporter
now includes a name specific to the cluster instance (to avoid conflicts when multiple Cluster instances are created in the same JVM). As a result, tools that were polling JMX info will have to be updated accordingly.
The QueryBuilder#in
method now has the following special case: using QueryBuilder.in(QueryBuilder.bindMarker())
will generate the string IN ?
, not IN (?)
as was the case in 1.0. The reasoning being that the former syntax, made valid by CASSANDRA-4210 is a lot more useful than IN (?)
, as the latter can more simply use an equality. Note that if you really want to output IN (?)
with the query builder, you can use QueryBuilder.in(QueryBuilder.raw("?"))
.
When binding values by name in BoundStatement
(i.e. using the setX(String, X)
methods), if more than one variable have the same name, then all values corresponding to that variable name are set instead of just the first occurrence.
The QueryBuilder#raw
method does not automatically add quotes anymore, but rather output its result without any change (as the raw name implies). This means for instance that eq("x", raw(foo))
will output x = foo
, not x = 'foo'
(you don't need the raw method to output the latter string).
The QueryBuilder
will now sometimes use the new ability to send value as bytes instead of serializing everything to string. In general the QueryBuilder will do the right thing, but if you were calling the getQueryString()
method on a Statement created with a QueryBuilder (for other reasons than to prepare a query) then the returned string may contain bind markers in place of some of the values provided (and in that case, getValues()
will contain the values corresponding to those markers). If need be, it is possible to force the old behavior by using the new setForceNoValues()
method.
Creating a Cluster instance (through Cluster#buildFrom
or the Cluster.Builder#build
method) does not create any connection right away anymore (and thus cannot throw a NoHostAvailableException
or an AuthenticationException
). Instead, the initial contact points are checked the first time a call to Cluster#connect
is done. If for some reason you want to emulate the previous behavior, you can use the new method Cluster#init
: Cluster.builder().build()
in 1.0 is equivalent to Cluster.builder().build().init()
in 2.0.
Methods from Metadata
, KeyspaceMetadata
and TableMetadata
now use by default case insensitive identifiers (for keyspace, table and column names in parameter). You can double-quote an identifier if you want it to be a case sensitive one (as you would do in CQL) and there is a Metadata.quote
helper method for that.
The TableMetadata#getClusteringKey
method has been renamed TableMetadata#getClusteringColumns
to match the “official” vocabulary.
The UnavailableException#getConsistency
method has been renamed to UnavailableException#getConsistencyLevel
for consistency with the method of QueryTimeoutException
.
The RegularStatement
class (ex-Statement
class, see above) must now implement two additional methods: RegularStatement#getKeyspace
and RegularStatement#getValues
. If you had extended this class, you will have to implement those new methods, but both can return null if they are not useful in your case.
The Cluster.Initializer
interface should now implement 2 new methods: Cluster.Initializer#getInitialListeners
(which can return an empty collection) and Cluster.Initializer#getClusterName
(which can return null).
The Metadata#getReplicas
method now takes 2 arguments. On top of the partition key, you must now provide the keyspace too. The previous behavior was buggy: it's impossible to properly return the full list of replica for a partition key without knowing the keyspace since replication may depend on the keyspace).
The method LoadBalancingPolicy#newQueryPlan()
method now takes the currently logged keyspace as 2nd argument. This information is necessary to do proper token aware balancing (see preceding point).
The ResultSetFuture#set
and ResultSetFuture#setException
methods have been removed (from the public API at least). They were never meant to be exposed publicly: a resultSetFuture
is always set by the driver itself and should not be set manually.
The deprecated since 1.0.2 Host.HealthMonitor
class has been removed. You will now need to use Host#isUp
and Cluster#register
if you were using that class.
This section details the biggest additions to 2.0 API wise. It is not an exhaustive list of new features in 2.0.
The new BatchStatement
class allows to group any type of insert Statements (BoundStatement
or RegularStatement
) for execution as a batch. For instance, you can do something like:
List<String> values = ...; PreparedStatement ps = session.prepare("INSERT INTO myTable(value) VALUES (?)"); BatchStatement bs = new BatchStatement(); for (String value : values) bs.add(ps.bind(value)); session.execute(bs);
SimpleStatement
can now take a list of values in addition to the query. This allows to do the equivalent of a prepare+execute but with only one round-trip to the server and without keeping the prepared statement after the execution.
This is typically useful if a given query should be executed only once (i.e. you don‘t want to prepare it) but you also don’t want to serialize all values into strings. Shortcut Session#execute()
and Session#executeAsync()
methods are also provided so you that you can do:
String imgName = ...; ByteBuffer imgBytes = ...; session.execute("INSERT INTO images(name, bytes) VALUES (?, ?)", imgName, imgBytes);
SELECT queries are now “paged” under the hood. In other words, if a query yields a very large result, only the beginning of the ResultSet
will be fetched initially, the rest being fetched “on-demand”. In practice, this means that:
for (Row r : session.execute("SELECT * FROM mytable")) ... process r ...
should not timeout or OOM the server anymore even if “mytable” contains a lot of data. In general paging should be transparent for the application (as in the example above), but the implementation provides a number of knobs to fine tune the behavior of that paging:
Statement#setFetchSize()
)ResultSet
object provides 2 methods to check the state of paging (ResultSet#getAvailableWithoutFetching
and ResultSet#isFullyFetched
) as well as a mean to force the pre-fetching of the next page (ResultSet#fetchMoreResults
).