Author: Nicolas Frankel
Original post on Foojay: Read More
I’m continuing my journey on getting more familiar with HTTP APIs by reading related RFCs. This time, I read the Health Check Response Format for HTTP APIs on the suggestion of Stefano Fago. In this article, I’d like to summarize my reading.
Note that it’s a draft. Moreover, it has been dormant for nearly two years and, thus, has been automatically expired. However, it’s the closest to a specification on health checks and thus deserves some love.
Sample data visualization
Even though it’s not a long read, it’s a bit “dry”. Fortunately, the specification offers a JSON sample. I copy-pasted it in PlantUML, and presto, it shows a visual representation of it:
Let’s have a look at the proposed structure element by element.
The root object
At its simplest, the response is a JSON object with a mandatory status property:
Values can be:
pass for healthy status. The value can also be ok (for NodeJS) and up (for Spring Boot) to account for existing health check libraries. The HTTP status code must be in the range from 2xx to 3xx.
warn for healthy status but with concerns with the same HTTP status range.
fail to indicate unhealthy status. Possible alternative values include error (NodeJS) and down (Spring Boot). The HTTP status code must be in the range from 4xx to 5xx.
One can add additional optional values:
version: public version of the service
releaseId: internal version of the service. For example, the version would be incremented for non-compatible change, while the releaseId could be the commit hash or a semantic version.
serviceId: the unique identifier of the service
description: self-explanatory
notes: array of non-structured notes
output: plain error message in case of pass or warn. The field should be left blank for pass.
The links objects
The links object consists of object pairs. Values are URIs, while keys can be URIs or common/registered ones: see RFC5988 for common values, e.g., self.
The checks objects
Keys of checks objects consist of two terms separated by a colon, component name, and measurement name. The latter can be either:
A pre-defined value: utilization, responseTime, connections, or uptime
A standard term from a well-known source, e.g., IANA, microformat.org, etc.
An URI
Values consist of one of the following keys:
componentId: unique id of this component
componentType:
A pre-defined value, component, datastore, or system
A standard term from a well-known source, e.g., IANA, microformat.org, etc.
An URI
observedValue: any valid JSON value
observedUnit: unit of measurement
status: as the parent object’s status, but for this component, only
affectedEndpoints: if the component is not pass, lists all affected endpoints
time: date-time in ISO8601 format of the observation
output: as the parent object’s output, but for this component, only
links: see the previous section
Any other non-standard value
I tried implementing the above with Spring Boot using a custom HealthIndicator. Here’s the best I could come up with:
The current structure of the JSON response needs to be (easily?) customizable. You’d need to create your endpoint. I hope the Spring Boot team provides the option to generate a compatible structure.
Conclusion
The Healthcheck IETF draft is a great initiative to standardize health checks across the industry. It would allow monitoring tools to rely on HTTP status and response body without ad-hoc configuration on each service.
Unfortunately, the draft is expired because of a lack of activity. I’d love to see it revived, though.
To go further:
Health Check API
“Spring Boot Actuator: Health”
Originally published at A Java Geek on May 28th, 2023
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