Provisioning Cluster Resources
Provisioning cluster resources is managed at the collection or bucket level, depending upon the service affected. Common use cases are outlined here, less common use cases are covered in the API docs.
The primary means for managing clusters is through the Couchbase Web UI which provides an easy to use interface for adding, removing, monitoring and modifying buckets. In some instances you may wish to have a programmatic interface. For example, if you wish to manage a cluster from a setup script, or if you are setting up buckets in test scaffolding.
The .NET SDK also comes with some convenience functionality for common Couchbase management requests.
Management operations in the SDK may be performed through several interfaces depending on the object:
-
IBucketManager —
Cluster.Buckets
-
IUserManager —
Cluster.Users
-
IQueryIndexManager —
Cluster.QueryIndexes
-
IAnalyticsIndexManager —
Cluster.AnalyticsIndexes
-
ISearchIndexManager —
Cluster.SearchIndexes
-
ICouchbaseCollectionManager —
Bucket.Collections
-
IViewIndexManager —
Bucket.ViewIndexes
When using a Couchbase version earlier than 6.5, you must create a valid Bucket connection using Cluster.Bucket(name) before you can use cluster level managers.
|
Bucket Management
The IBucketManager
interface may be used to create and delete buckets from the Couchbase cluster.
It is referenced via the Cluster.Buckets
property.
var cluster = await Cluster.ConnectAsync("couchbase://localhost", "Administrator", "password");
var bucketMgr = cluster.Buckets;
The BucketSettings
object is used for creating or updating buckets, and for exposing information about existing buckets.
Note that any property that is not explicitly set when building the bucket settings will use the default value. In the case of the update, this is not necessarily the currently configured value, so you should be careful to set all properties to their correct expected values when updating an existing bucket configuration. |
Here is the list of parameters available:
Name |
Description |
Can be updated |
|
The name of the bucket, required for creation. |
false |
|
Enables flushing to be performed on this bucket (see the Flushing Buckets section below). |
true |
|
Whether or not to replicate indexes. |
false |
|
How much memory should each node use for the bucket, required for creation. |
true |
|
The number of replicas to use for the bucket. |
true |
|
The type of the bucket, required for creation. |
false |
|
The type of the eviction to use for the bucket, defaults to |
true (note: changing will cause the bucket to restart causing temporary inaccessibility) |
|
The default maximum time-to-live to apply to documents in the bucket. (note: This option is only available for Couchbase and Ephemeral buckets in Couchbase Enterprise Edition.) |
true |
|
The compression mode to apply to documents in the bucket. (note: This option is only available for Couchbase and Ephemeral buckets in Couchbase Enterprise Edition.) |
true |
|
The conflict resolution type to apply to conflicts on the bucket, defaults to |
false |
The following example creates a "hello" bucket:
await bucketMgr.CreateBucketAsync(
new BucketSettings{
Name = "hello",
FlushEnabled = false,
ReplicaIndexes = true,
RamQuotaMB = 150,
NumReplicas = 1,
BucketType = BucketType.Couchbase,
ConflictResolutionType = ConflictResolutionType.SequenceNumber
}
);
We can now get this bucket and update it to enable Flush:
var settings = await bucketMgr.GetBucketAsync("hello");
settings.FlushEnabled = true;
await bucketMgr.UpdateBucketAsync(settings);
Once you no longer need to use the bucket, you can remove it:
await bucketMgr.DropBucketAsync("hello");
Flushing Buckets
When a bucket is flushed, all content is removed. Because this operation is potentially dangerous it is disabled by default for each bucket. Bucket flushing may be useful in test environments where it becomes a simpler alternative to removing and creating a test bucket. You may enable bucket flushing on a per-bucket basis using the Couchbase Web Console or when creating a bucket.
You can flush a bucket in the SDK by using FlushBucketAsync()
.
await bucketMgr.FlushBucketAsync("hello");
The Flush
operation may fail if the bucket does not have flush enabled, in that case it will return a BucketIsNotFlushableException
.
Collection Management
The CollectionManager interface may be used to create and delete scopes and collections from the Couchbase cluster.
It can be referenced via the Bucket.Collections
property.
Refer to the CollectionManager
API documentation
for further details.
ICouchbaseCollectionManager collectionMgr = bucket.Collections;
You can create a scope:
try {
await collectionMgr.CreateScopeAsync("example-scope");
}
catch (ScopeExistsException) {
Console.WriteLine("The scope already exists");
}
You can then create a collection within that scope:
var spec = new CollectionSpec("example-scope", "example-collection");
try {
await collectionMgr.CreateCollectionAsync(spec);
}
catch (CollectionExistsException) {
Console.WriteLine("Collection already exists");
}
catch (ScopeNotFoundException) {
Console.WriteLine("The specified parent scope doesn't exist");
}
Finally, you can drop unneeded collections and scopes:
try {
await collectionMgr.DropCollectionAsync(spec);
}
catch (CollectionNotFoundException) {
Console.WriteLine("The specified collection doesn't exist");
}
catch (ScopeNotFoundException) {
Console.WriteLine("The specified parent scope doesn't exist");
}
try {
await collectionMgr.DropScopeAsync("example-scope");
}
catch (ScopeNotFoundException) {
Console.WriteLine("The specified scope doesn't exist");
}
Note that the most minimal permissions to create and drop a Scope or Collection is Manage Scopes along with Data Reader.
You can create users with the appropriate RBAC programmatically:
ICluster clusterAdmin = await Cluster.ConnectAsync(
"couchbase://localhost", "Administrator", "password");
IUserManager users = clusterAdmin.Users;
var user = new User("scopeAdmin") {
Password = "password",
DisplayName = "Manage Scopes [travel-sample:*]",
Roles = new List<Role>() {
new Role("scope_admin", "travel-sample"),
new Role("data_reader", "travel-sample")}
};
await users.UpsertUserAsync(user);
You can enumerate Scopes and Collections using
the CollectionManager
and the properties of the
ScopeSpec
and CollectionSpec
objects retrieved.
var scopes = await collectionMgr.GetAllScopesAsync();
foreach (ScopeSpec scopeSpec in scopes) {
Console.WriteLine($"Scope: {scopeSpec.Name}");
foreach (CollectionSpec collectionSpec in scopeSpec.Collections) {
Console.WriteLine($" - {collectionSpec.Name}");
}
}
Index Management
In general, you will rarely need to work with Index Managers from the SDK. For those occasions when you do, index management operations can be performed with the following interfaces:
-
IQueryIndexManager —
Cluster.QueryIndexes
-
IAnalyticsIndexManager —
Cluster.AnalyticsIndexes
-
ISearchIndexManager —
Cluster.SearchIndexes
-
IViewIndexManager —
Bucket.ViewIndexes
You will find some of these described in the following section.
QueryIndexManager
The IQueryIndexManager
interface contains the means for managing indexes used for queries.
It can be referenced through the Cluster.QueryIndexes
property.
var cluster = await Cluster.ConnectAsync("couchbase://localhost", "Administrator", "password");
var queryIndexMgr = cluster.QueryIndexes;
Applications can use this manager to perform operations such as creating, deleting, and fetching primary or secondary indexes:
-
A Primary index is built from a document’s key and is mostly suited for simple queries.
-
A Secondary index is the most commonly used type, and is suited for complex queries that require filtering on document fields.
To perform query index operations, the provided user must either be an Admin or assigned the Query Manage Index role. See the Roles page for more information. |
The example below shows how to create a simple primary index, restricted to a named scope and collection, by calling the CreatePrimaryIndexAsync()
method.
Note that you cannot provide a named scope or collection separately, both must be set for the IQueryIndexManager
to create an index on the relevant keyspace path.
await queryIndexMgr.CreatePrimaryIndexAsync(
"travel-sample",
new CreatePrimaryQueryIndexOptions()
.ScopeName("tenant_agent_01")
.CollectionName("users")
// Set this if you wish to use a custom name
// .IndexName("custom_name")
.IgnoreIfExists(true)
);
When a primary index name is not specified, the SDK will create the index as #primary
by default.
However, if you wish to provide a custom name, you can simply set an IndexName
property in the CreatePrimaryQueryIndexOptions
class.
You may have noticed that the example also sets the IgnoreIfExists
boolean flag.
When set to true
, this optional argument ensures that an error is not thrown if an index under the same name already exists.
Creating a secondary index follows a similar approach, with some minor differences:
try
{
await queryIndexMgr.CreateIndexAsync(
"travel-sample",
"tenant_agent_01_users_email",
new[] { "preferred_email" },
new CreateQueryIndexOptions()
.ScopeName("tenant_agent_01")
.CollectionName("users")
);
}
catch (IndexExistsException)
{
Console.WriteLine("Index already exists!");
}
The CreateIndexAsync()
method requires an index name to be provided, along with the fields to create the index on.
Like the primary index, you can restrict a secondary index to a named scope and collection by passing some options.
Indexes can easily take a long time to build if they contain a lot of documents.
In these situations, it is more ideal to build indexes in the background.
To achieve this we can use the Deferred
boolean option, and set it to true
.
try
{
// Create a deferred index
await queryIndexMgr.CreateIndexAsync(
"travel-sample",
"tenant_agent_01_users_phone",
new[] { "preferred_phone" },
new CreateQueryIndexOptions()
.ScopeName("tenant_agent_01")
.CollectionName("users")
.Deferred(true)
);
// Build any deferred indexes within `travel-sample`.tenant_agent_01.users
await queryIndexMgr.BuildDeferredIndexesAsync(
"travel-sample",
new BuildDeferredQueryIndexOptions()
.ScopeName("tenant_agent_01")
.CollectionName("users")
);
// Wait for indexes to come online
await queryIndexMgr.WatchIndexesAsync(
"travel-sample",
new[] { "tenant_agent_01_users_phone" },
new WatchQueryIndexOptions()
.ScopeName("users")
.CollectionName("tenant_agent_01")
);
}
catch (IndexExistsException)
{
Console.WriteLine("Index already exists!");
}
To delete a query index you can use the DropIndexAsync()
or DropPrimaryIndexAsync()
methods.
Which one you use depends on the type of query index you wish to drop from the database.
// Drop primary index
await queryIndexMgr.DropPrimaryIndexAsync(
"travel-sample",
new DropPrimaryQueryIndexOptions()
.ScopeName("tenant_agent_01")
.CollectionName("users")
);
// Drop secondary index
await queryIndexMgr.DropIndexAsync(
"travel-sample",
"tenant_agent_01_users_email",
new DropQueryIndexOptions()
.ScopeName("tenant_agent_01")
.CollectionName("users")
);
View Management
Views are stored in design documents. The SDK provides convenient methods to create, retrieve, and remove design documents. To set up views, you create design documents that contain one or more view definitions, and then insert the design documents into a bucket. Each view in a design document is represented by a name and a set of MapReduce functions. The mandatory map function describes how to select and transform the data from the bucket, and the optional reduce function describes how to aggregate the results.
In the SDK, design documents are represented by the DesignDocument
and View
classes.
All operations on design documents are performed on the ViewIndexManager
instance:
var cluster = await Cluster.ConnectAsync("couchbase://localhost", "Administrator", "password");
var bucket = await cluster.BucketAsync("travel-sample");
var viewMgr = bucket.ViewIndexes;
The following example upserts a design document with two views:
var views = new Dictionary<string, View>();
views.Add(
"by_country",
new View{ Map = "function (doc, meta) { if (doc.type == 'landmark') { emit([doc.country, doc.city], null); } }" }
);
views.Add(
"by_activity",
new View{ Map="function (doc, meta) { if (doc.type == 'landmark') { emit([doc.country, doc.city], null); } }",
Reduce="_count" }
);
var designDocument = new DesignDocument { Name = "landmarks", Views = views };
await viewMgr.UpsertDesignDocumentAsync(designDocument, DesignDocumentNamespace.Development);
When you want to update an existing document with a new view (or a modification of a view’s definition), you can use the However, this method needs the list of views in the document to be exhaustive, meaning that if you just create the new view definition as previously and add it to a new design document that you upsert, all your other views will be erased! The solution is to perform a |
Note the use of DesignDocumentNamespace.Development
, the other option is DesignDocumentNamespace.Production
.
This parameter specifies whether the design document should be created as development, or as production — with the former running over only a small fraction of the documents.
Now that we’ve created a design document we can fetch it:
var designDocument = await viewMgr.GetDesignDocumentAsync("landmarks", DesignDocumentNamespace.Development);
Console.WriteLine($"Design Document: {designDocument.Name}");
We’ve created the design document using DesignDocumentNamespace.Development
and now want to push it to production, we can do this with:
await viewMgr.PublishDesignDocumentAsync("landmarks");
To remove this design document:
await viewMgr.DropDesignDocumentAsync("landmarks", DesignDocumentNamespace.Production);