|author||Michael Anthony Knyszek <firstname.lastname@example.org>||Wed Dec 28 01:04:37 2022 +0000|
|committer||Michael Knyszek <email@example.com>||Fri Jan 20 21:48:02 2023 +0000|
perf: improve regressions page on performance dashboard This change makes a few improvements to the regressions page: 1. It binds regressions to benchmark+unit, so now the regressions page might break up the groupings compared to before (which is probably OK). 2. This binding lets us avoid putting regression information into the benchmark name, which previously broke the title's link, so this change also moves that information to just above each graph. 3. This change adds a link to the regression information which jumps to the offending commit on the per-benchmark+unit page. 4. It adds a file-an-issue link to the regressions page which streamlines some of the overhead of triaging. Note that deltaScore isn't exported to the regressions page anymore because JSON can't tolerate negative infinities, and the new code is trying to be as simple as possible. The next step is probably to filter out non-regressions entirely, rather than try to make the deltaScore work. We can also always bring it back as a string if we feel it's very useful. Change-Id: Ib7cf16ef92534fd1d9b9c23798e9474e20f4e8c2 Reviewed-on: https://go-review.googlesource.com/c/build/+/459518 Run-TryBot: Michael Knyszek <firstname.lastname@example.org> TryBot-Result: Gopher Robot <email@example.com> Reviewed-by: Michael Pratt <firstname.lastname@example.org>
This repository holds the source for various packages and tools that support Go's build system and the development of the Go programming language.
Warning: Packages here are internal to Go's build system and its needs. Some may one day be promoted to another
golang.org/x repository, or they may be modified arbitrarily or even disappear altogether. In short, code in this repository is not subject to the Go 1 compatibility promise nor the Release Policy.
This repository uses Gerrit for code changes. To contribute, see https://golang.org/doc/contribute.html.
The main issue tracker for the blog is located at https://github.com/golang/go/issues. Prefix your issue with “
x/build/DIR: ” in the subject line.
The main components of the Go build system are:
The coordinator, in cmd/coordinator/, serves https://farmer.golang.org/ and https://build.golang.org/. It runs on GKE and coordinates the whole build system. It finds work to do (both pre-submit “TryBot” work, and post-submit work) and executes builds, allocating machines to run the builds. It is the owner of all machines. It holds the state for which builds passed or failed, and the build logs.
The Go package in buildenv/ contains constants for where the dashboard and coordinator run, for prod, staging, and local development.
The buildlet, in cmd/buildlet/, is the HTTP server that runs on each worker machine to execute builds on the coordinator's behalf. This runs on every possible GOOS/GOARCH value. The buildlet binaries are stored on Google Cloud Storage and fetched per-build, so we can update the buildlet binary independently of the underlying machine images. The buildlet is the most insecure server possible: it has HTTP handlers to read & write arbitrary content to disk, and to execute any file on disk. It also has an SSH tunnel handler. The buildlet must never be exposed to the Internet. The coordinator provisions buildlets in one of three ways:
by creating VMs on Google Compute Engine (GCE) with custom images configured to fetch & run the buildlet on boot, listening on port 80 in a private network.
by running Linux containers (on either Google Kubernetes Engine or GCE with the Container-Optimized OS image), with the container images configured to fetch & run the buildlet on start, also listening on port 80 in a private network.
by taking buildlets out of a pool of connected, dedicated machines. The buildlet can run in either listen mode (as on GCE and GKE) or in reverse mode. In reverse mode, the buildlet connects out to https://farmer.golang.org/ and registers itself with the coordinator. The TCP connection is then logically reversed (using revdial and when the coordinator needs to do a build, it makes HTTP requests to the coordinator over the already-open TCP connection.
These three pools can be viewed at the coordinator's https://farmer.golang.org/#pools.
The env/ directory describes build environments. It contains scripts to create VM images, Dockerfiles to create Kubernetes containers, and instructions and tools for dedicated machines.
maintner in maintner/ is a library for slurping all of Go's GitHub and Gerrit state into memory. The daemon maintnerd in maintner/maintnerd/ runs on GKE and serves https://maintner.golang.org/. The daemon watches GitHub and Gerrit and appends to a mutation log whenever it sees new activity. The logs are stored on GCS and served to clients.
The godata package in maintner/godata/ provides a trivial API to let anybody write programs against Go's maintner corpus (all of our GitHub and Gerrit history), live up to the second. It takes a few seconds to load into memory and a few hundred MB of RAM after it downloads the mutation log from the network.
pubsubhelper in cmd/pubsubhelper/ is a dependency of maintnerd. It runs on GKE, is available at https://pubsubhelper.golang.org/, and runs an HTTP server to receive Webhook updates from GitHub on new activity and an SMTP server to receive new activity emails from Gerrit. It then is a pubsub system for maintnerd to subscribe to.
The gitmirror server in cmd/gitmirror/ mirrors Gerrit to GitHub, and also serves a mirror of the Gerrit code to the coordinator for builds, so we don't overwhelm Gerrit and blow our quota.
The Go gopherbot bot logic runs on GKE. The code is in cmd/gopherbot. It depends on maintner via the godata package.
cmd/retrybuilds: a Go client program to delete build results from the dashboard
If you wish to run a Go builder, please email email@example.com first. There is documentation at https://golang.org/wiki/DashboardBuilders, but depending on the type of builder, we may want to run it ourselves, after you prepare an environment description (resulting in a VM image) of it. See the env directory.