A typical workflow to manage time-series data consists of setting up aliases, performing rollover operations, configuring read and write indices, and defining common mapping fields such as a timestamp field. Data streams simplifies this process.
With data streams, you can store append-only time-series data across multiple indices with a single endpoint for ingesting and searching data. We recommend using data streams in place of index aliases for time-series data.
A data stream consists of one or more hidden auto-generated backing indices. These backing indices are named using the following convention:
```
.ds-<data-stream-name>-<generation-id>
```
For example, `.ds-logs-redis-000003`, where generation-id is a six-digit, zero-padded integer that acts as a cumulative count of the data stream’s rollovers, starting at `000001`.
The most recently created backing index is the data stream’s write index. You can’t add documents directly to any of the backing indices. You can only add them via the data stream handle:
The data stream routes search requests to all of its backing indices. It uses the timestamp field to intelligently route search requests to the right set of indices and shards:
The following operations are not supported on the write index because they might hinder the indexing operation:
- close
- clone
- delete
- shrink
- split
## Get started with data streams
### Step 1: Create an index template
To create a data stream, you first need to create an index template that configures a set of indices as a data stream. The `data_stream` object indicates that it’s a data stream and not a regular index template. The index pattern matches with the name of the data stream:
```json
PUT _index_template/logs-template
{
"index_patterns": [
"my-data-stream",
"logs-*"
],
"data_stream": {},
"priority": 100
}
```
In this case, each ingested document must have an `@timestamp` field.
You also have the ability to define your own custom timestamp field as a property in the `data_stream` object. You can also add index mappings and other settings here, just as you would for a regular index template.
```json
PUT _index_template/logs-template-nginx
{
"index_patterns": "logs-nginx",
"data_stream": {
"timestamp_field": {
"name": "request_time"
}
},
"priority": 200,
"template": {
"settings": {
"number_of_shards": 1,
"number_of_replicas": 0
}
}
}
```
In this case, `logs-nginx` index matches both the `logs-template` and `logs-template-nginx` templates. When you have a tie, OpenSearch selects the matching index template with the higher priority value.
### Step 2: Create a data stream
After you create an index template, you can create a data stream.
You can use the data stream API to explicitly create a data stream. The data stream API initializes the first backing index:
```json
PUT _data_stream/logs-redis
PUT _data_stream/logs-nginx
```
You can also directly start ingesting data without creating a data stream.
Because we have a matching index template with a data_stream object, OpenSearch automatically creates the data stream:
```json
POST logs-staging/_doc
{
"message": "login attempt failed",
"@timestamp": "2013-03-01T00:00:00"
}
```
To see information about a specific data stream:
```json
GET _data_stream/logs-nginx
```
#### Sample response
```json
{
"data_streams" : [
{
"name" : "logs-nginx",
"timestamp_field" : {
"name" : "request_time"
},
"indices" : [
{
"index_name" : ".ds-logs-nginx-000001",
"index_uuid" : "-VhmuhrQQ6ipYCmBhn6vLw"
}
],
"generation" : 1,
"status" : "GREEN",
"template" : "logs-template-nginx"
}
]
}
```
You can see the name of the timestamp field, the list of the backing indices, and the template that's used to create the data stream. You can also see the health of the data stream, which represents the lowest status of all its backing indices.
To see more insights about the data stream, use the `_stats` endpoint:
To ingest data into a data stream, you can use the regular indexing APIs. Make sure every document that you index has a timestamp field. If you try to ingest a document that doesn't have a timestamp field, you get an error.
A rollover operation creates a new backing index that becomes the data stream’s new write index.
To perform manual rollover operation on the data stream:
```json
POST logs-redis/_rollover
```
#### Sample response
```json
{
"acknowledged" : true,
"shards_acknowledged" : true,
"old_index" : ".ds-logs-redis-000001",
"new_index" : ".ds-logs-redis-000002",
"rolled_over" : true,
"dry_run" : false,
"conditions" : { }
}
```
If you now perform a `GET` operation on the `logs-redis` data stream, you see that the generation ID is incremented from 1 to 2.
You can also set up an [Index State Management (ISM) policy]({{site.url}}{{site.baseurl}}/ism/policies/) to automate the rollover process for the data stream.
The ISM policy is applied to the backing indices at the time of their creation. When you associate a policy to a data stream, it only affects the future backing indices of that data stream.
### Step 6: Manage data streams in OpenSearch Dashboards
To manage data streams from OpenSearch Dashboards, open **OpenSearch Dashboards**, choose **Index Management**, select **Indices** or **Policy managed indices**.
You see a toggle switch for data streams that you can use to show or hide indices belonging to a data stream.
You can select one or more data streams and apply an ISM policy on them. You can also apply a policy on any individual backing index.
You can performing visualizations on a data stream just like you would on a regular index or index alias.
### Step 7: Delete a data stream
The delete operation first deletes the backing indices of a data stream and then deletes the data stream itself.
To delete a data stream and all of its hidden backing indices:
```json
DELETE _data_stream/<name_of_data_stream>
```
You can use wildcards to delete more than one data stream.
We recommend deleting data from a data stream using an ISM policy.
You can also use [asynchronous search]({{site.url}}{{site.baseurl}}/async/index/) and [SQL]({{site.url}}{{site.baseurl}}/sql/index/) and [PPL]({{site.url}}{{site.baseurl}}/ppl/index/) to query your data stream directly. You can also use the security plugin to define granular permissions on the data stream name.