Session: Saving changes
Pending session operations like store
, delete
, and many others, will not be sent to the server until saveChanges
is called.
Whenever you execute saveChanges()
to send a batch of operations like put, update, or delete in a request,
the server will wrap these operations in a transaction upon execution in the database.
Either all operations will be saved as a single, atomic transaction or none of them will be.
Once saveChanges()
returns successfully, it is guaranteed that all changes are persisted in the database.
Syntax
void saveChanges();
Example
Employee employee = new Employee();
employee.setFirstName("John");
employee.setLastName("Doe");
session.store(employee);
session.saveChanges();;
Waiting for Indexes
You can ask the server to wait until the indexes are caught up with changes made within the current session before the saveChanges
returns.
- You can set a timeout (default: 15 seconds).
- You can specify whether you want to throw on timeout (default:
false
). - You can specify indexes that you want to wait for. If you don't specify anything here, RavenDB will automatically select just the indexes that are impacted by this write.
session.advanced().waitForIndexesAfterSaveChanges(builder -> {
builder.withTimeout(Duration.ofSeconds(30))
.throwOnTimeout(true)
.waitForIndexes("index/1", "index/2");
Employee employee = new Employee();
employee.setFirstName("John");
employee.setLastName("Doe");
session.store(employee);
session.saveChanges();
});
Waiting for Replication - Write Assurance
Sometimes you might need to ensure that changes made in the session will be replicated to more than one node of the cluster before the saveChanges
returns.
It can be useful if you have some writes that are really important so you want to be sure the stored values will reside on multiple machines. Also it might be necessary to use
when you customize the read balance behavior and need to ensure the next request from the user
will be able to read what he or she just wrote (the next open session might access a different node).
You can ask the server to wait until the replication is caught up with those particular changes.
- You can set a timeout (default: 15 seconds).
- You can specify whether you want to throw on timeout, which may happen in case of network issues (default:
true
). - You can specify to how many replicas (nodes) the currently saved write must be replicated, before the
saveChanges
returns (default: 1). - You can specify whether the
saveChanges
will return only when the current write was replicated to majority of the nodes (default:false
).
session
.advanced()
.waitForReplicationAfterSaveChanges(builder -> {
builder.withTimeout(Duration.ofSeconds(30))
.throwOnTimeout(false) //default true
.numberOfReplicas(2)//minimum replicas to replicate
.majority(false);
});
Employee employee = new Employee();
employee.setFirstName("John");
employee.setLastName("Doe");
session.store(employee);
session.saveChanges();
Important
The waitForReplicationAfterSaveChanges
method waits only for replicas which are part of the cluster. It means that external replication destinations are not counted towards the number specified in replicas
parameter, since they are not part of the cluster.
Important
The usage of waitForReplicationAfterSaveChanges
doesn't involve a distributed transaction (those are not supported since RavenDB 4.0). Even if RavenDB was not able
to write your changes to the number of replicas you specified, the data has been already written to some nodes. You will get an error but data is already there.
This is a powerful feature, but you need to be aware of the possible pitfalls of using it.
Transaction Mode - Cluster Wide
Setting transactionMode
to TransactionMode.CLUSTER_WIDE
will enable the Cluster Transactions feature.
With this feature enabled the Session will support the following write commands:
store
delete
createCompareExchangeValue
updateCompareExchangeValue
deleteCompareExchangeValue
Here is an example of creating a unique user with cluster wide.
try (IDocumentStore store = new DocumentStore()) {
SessionOptions sessionOptions = new SessionOptions();
// default is: TransactionMode.SINGLE_NODE
sessionOptions.setTransactionMode(TransactionMode.CLUSTER_WIDE);
try (IDocumentSession session = store.openSession(sessionOptions)) {
Employee user = new Employee();
user.setFirstName("John");
user.setLastName("Doe");
session.store(user);
// this transaction is now conditional on this being
// successfully created (so, no other users with this name)
// it also creates an association to the new user's id
session.advanced().clusterTransaction()
.createCompareExchangeValue("usernames/John", user.getId());
session.saveChanges();
}
}