A view is a special kind of repository. In most respects a view is like an ordinary repository. They can be searched, they have their own dashboards, users, and queries. But unlike repositories, a view contains no data of its own. Instead views read data from one or more other repositories. In that sense Humio views are very much like the views you might know from SQL databases.

A view is defined as a set of connections to repositories and associated queries that filter or modify the data as it is read.

There are many use-cases for views and you can see a list of examples later on this page.

Searching Multiple Repositories

The main function of a view is joining data from other repositories and allowing you to search across their data.

When creating a new view you connect repositories and write a filter query specifying the subset of the data that should be include:

graph BT; B[Repo 1] --> A("View 1") C[Repo 2] --> A D[Repo 3] --> A
A view that joins data from three connected physical repositories.

When searching, all events include a build-in #repo tag with the name of the repository they where read from.

You can use #repo in conjunction with a case-statement to modify events based on which repository they come from.


By default views contain all data from their connected repositories. This is not always what you want and that is why you can apply a filter to each connection.

A filter will reduce (or transform) the data before it produces the final search result.

A filter is a normal query expression and you can use the same functions that you use when writing queries. The only thing you can’t do is use aggregate functions like groupBy( ) or count( ).

Here is an example view having two connections with a filter applied to each:

Repository Filter
accesslogs method=GET
analytics loglevel=INFO

now, if you run the following query:

ip = | groupBy(url)

This would selects all events with the value in the field ip and then groups the joined result each repository by the field url .

Under the hood two separate searches are executed:

Repository Executed Query
accesslogs `method=GET
analytics `loglevel=INFO

The groupBy( ) (the aggregation) only happens after results of individual searches are joined. Here is a flow diagram of the process:

graph LR; A[Repo: accesslogs] -->|"method = GET | ip ="| B("View") C[Repo: analytics] -->|"loglevel = INFO | ip ="| B B -->|"groupBy(url)"| D{Client}
Query Execution across multiple repositories: Data flows from the repositories to the view and the [groupBy( )]( aggregation is executed on the joined events.

Example Use-Cases

Views are a powerful tool and you can achieve many things, like:

  • Restrict access to a subset of data based on the user
  • Fine-grained retention strategies
  • Consolidating different log formats

Here are some examples of how you can use views to give you an idea of their power.

One eRpository per Service

Say you have a micro-service setup and you store all logs from all applications in a single repository, let’s call it acme-project. It can become cumbersome to examine logs from each individual service, and their log formats may be very diverse.

First you would have to filter your results down to only include logs from your target service and write something like:

#service=login-service | ...

And you would have to do it at the beginning of every single query. Instead you can create a specialized view for each service:

View: Nginx Logs

Repository Filter
acme-project #service=nginx

View: PostgreSQL Logs

Repository Filter
acme-project #service=postgres

View: iOS App Analytics

Repository Filter
acme-project #service=app and eventType=analytics

In this example we create three views that all draw their data from a single repository. If you are using a free cloud account the repository could be you Sandbox

Restricting Access to Subset of a Repository

Say your system produces logs in several regions, but some of the people who have search access should only be able to see logs for their respective region.

It is easy to select a subset of the logs by filtering the results before they reach the user. in this case limiting access to logs Germany :

Repository Filter
website country = "DE"
db ip.geo = "DE"

In this example we are dealing with two repositories.