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Grafana dashboards for monitoring Triton core

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triton-grafana

The Triton core grafana service. Triton uses Prometheus and Grafana to track its own metrics and monitor itself, as well as Manta. All metrics are gathered via CMON.

(This repository is part of the Triton Data Center project. For general documentation see the main Triton project page.)

Status

We are actively developing Prometheus and Grafana services for use in Triton and Manta. RFD 150 describes the current plan and status.

Setup

Grafana requires either a Triton or Manta Prometheus instance to exist, and will also function with both simultaneously. Ensure that Prometheus is set up in your Triton and/or Manta deployment -- see the triton-prometheus README for Prometheus deployment instructions.

Then, run the following from your Triton headnode's global zone:

sdcadm post-setup grafana [OPTIONS]

This command will automatically detect whether Manta is deployed and give the Grafana zone the necessary "manta" nic if so. If Manta is deployed after a Grafana zone already exists, re-running the above sdcadm command will give the Grafana zone the "manta" nic in an idempotent fashion.

Architecture

This image runs four services of note:

  • An Nginx server performs TLS termination. It runs as the "nginx" SMF service.

  • A Node.js proxy server sits between Nginx and Grafana and authenticates users against the datacenter's UFDS instance. This proxy runs as the "graf-proxy" SMF service.

  • A Grafana instance runs the "grafana" SMF service.

  • A BIND server runs on localhost and forwards DNS lookups to the Triton and Manta binder resolvers.

Nginx

The Nginx instance is compiled to provide support for the ngx_http_auth_request module, which is necessary to support authentication subrequests. Nginx issues authentication subrequests using HTTP basic auth to graf-proxy.

The Nginx instance uses a self-signed certificate by default. The certificate and key are stored under /data/grafana/tls. Operators can manually replace the certificate with a properly signed certificate -- the certificate lives on a delegated dataset to persist across reprovisions.

The Nginx config file is generate from a template that lives in the etc directory.

graf-proxy

The graf-proxy performs authentication against the Triton deployment's UFDS instance. Upon successful authentication via HTTP basic auth, graf-proxy sets triton-grafana-specific HTTP headers in its response to Nginx. Nginx then forwards authenticated requests to the Grafana instance.

The graf-proxy config file is generated from a SAPI template, because it depends on UFDS-related SAPI values.

Security

The graf-proxy restricts access to UFDS operators only. It respects UFDS lockouts, with the caveat that client-side caching in the node-ufds library may delay the presentation of lockout status to the user, though the UFDS server is returning a lockout response.

Grafana

The grafana instance is configured to accept proxy authentication via the HTTP headers set by graf-proxy -- see the documentation here. In this way, users are able to authenticate to Grafana using their UFDS credentials.

If a user's Grafana account does not yet exist upon receipt of an authenticated login request, Grafana will automatically create it. The created Grafana user will have full admin privileges by default. If a UFDS account is disabled, the associated Grafana account will remain, but the affected user will not be able to log in because authentication is always performed against UFDS before forwarding requests to Grafana.

Grafana's persistent data is stored on a delegated dataset, to ensure that it persists across reprovisions of the zone.

This image comes pre-configured with a set of standard Triton dashboards. These dashboards can be edited on the fly, but edits cannot be saved. Users are free to create their own dashboards, which are fully editable and will persist across reprovisions.

The grafana config files, with the exception of triton-datasources.yaml, are generated from templates that live in the etc directory. triton-datasources.yaml is generated from a SAPI template, because it depends on values from SAPI.

BIND

Grafana is currently the only Triton service that must perform resolution of Manta DNS names -- specifically, the DNS names of the Manta Prometheus instances. Thus, Grafana must know the IP addresses of the Manta binder resolvers. It is not sufficient to place these resolvers in /etc/resolv.conf, because there could be an arbitrary number of binder instances across Triton and Manta.

Thus, the Grafana zone runs a BIND server that forwards DNS requests to the Triton and Manta binder resolvers as appropriate. The BIND server runs on localhost, and localhost is the only entry in /etc/resolv.conf.

Any changes in the set of Manta resolvers cannot be detected by config-agent, because Grafana is not deployed under the "manta" SAPI application. However, Grafana can still query SAPI for the set of Manta resolvers.

This image thus runs a cron job, bin/update-named.sh, that checks for changes in the set of Triton and Manta resolvers and updates the BIND configuration if changes are found. To avoid the expense of querying SAPI unnecessarily, if the zone already knows about at least one Manta resolver, it will query the resolver itself for the new set of resolvers before falling back to querying SAPI.

Troubleshooting

Grafana doesn't display Prometheus data

  • Is Prometheus reachable? Go to https://<grafana url>/datasources, select the relevant datasource, and click "Save & Test" at the bottom of the page

  • Is BIND running? svcs bind

  • Are the Prometheus instances healthy and scraping data properly?

  • Is /etc/resolv.conf correct? It should have 127.0.0.1 as its only nameserver entry.

  • Are there visible warnings or errors on the grafana webpage?

  • Does the Grafana log show errors? tail $(svcs -L grafana)

Grafana is unreachable

  • Is Grafana running? svcs grafana

  • Is graf-proxy running? svcs graf-proxy

  • Is Nginx running? svcs nginx

Testing

There exists a small system test suite for graf-proxy. It is driven by the test/runtests script. These tests are designed for a fully deployed Grafana instance. They are non-destructive, but they create temporary users in UFDS and thus should not be run in production.

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