gto 0.2.1

Version and deploy your models following GitOps principles

GTO

Git Tag Ops. Turn your Git repository into an Artifact Registry:

• Registry: Track new artifacts and their versions for releases and significant changes.
• Lifecycle Management: Create actionable stages for versions marking status of artifact or it's readiness to be consumed by a specific environment.
• GitOps: Signal CI/CD automation or other downstream systems to act upon these new versions and lifecycle updates.
• Enrichments: Annotate and query artifact metadata with additional information.

GTO works by creating annotated Git tags in a standard format.

Installation

GTO requires Python 3. It works on any OS.

$ python -m pip install gto

This package will install the gto command-line interface (CLI) and make the Python API available for use in code.

There's no need to set up any services or databases :)

Getting started

Note: We will cover CLI usage, but every command has a corresponding Python API counterpart in the gto.api module.

In this document we'll use this example repo: https://github.com/iterative/example-gto. Let's clone it first:

$ git clone https://github.com/iterative/example-gto.git
$ cd example-gto

Versioning an artifact

Registering a version is usually done to mark significant changes to the artifact. To release a new version (including the very first one), use gto register.

$ gto register awesome-model HEAD --version v0.0.1
Created git tag 'awesome-model@v0.0.1' that registers a version

GTO creates a special Git tag for the artifact version, in a standard format: {artifact_name}@{version_number}.

The version is now associated to the current Git commit (HEAD). You can use another Git commit if you provide it's hexsha as an additional argument, like $ gto register awesome-model abc1234.

Assigning a stage to version

To assign an actionable stage for a specific artifact version use the same gto assign command. Stages can mark the artifact readiness for a specific consumer. You can plug in a real downsteam system via CI/CD or web hooks, e.g. to redeploy an ML model.

$ gto assign awesome-model --version v0.0.1 --stage prod
Created git tag 'awesome-model#prod#1' that assigns a stage to 'v0.0.1'

GTO creates a special Git tag in a standard format: {artifact_name}#{stage}#{e}.

The event is now associated to the latest version of the artifact. There can be multiple events for a given version, ordered by an automatic incremental event number ({e}). This will keep the history of your stages creation.

Note: if you prefer, you can use simple stage tag format without the incremental {e}, but this will disable the gto history command. This is because assigning a stage to an artifact version where a stage tag already existed will require deleting the existing tag.

Annotating

So far we've seen how to register a new version and assign a stage to an artifact versions, but we still don't have much information about them. What about the type of artifact (dataset, model, etc.) or the file path to find it in the working tree?

For simple projects (e.g. single artifact) we can assume the details in a downstream system. But for more advanced cases, we should codify them in the registry itself.

To annotate an artifact, use gto annotate. GTO writes to an artifacts.yaml file to save this metadata. Feel free to modify the file directly!

$ gto annotate awesome-model --type model --path s3://awesome/model.pkl

# artifacts.yaml
awesome-model:
  type: model
  path: "s3://awesome/model.pkl"

Don't forget to commit artifacts.yaml with Git to associate it with the latest artifact version and stage in any copy of the repo.

By default GTO saves artifact as virtual. Use the --must_exist flag to tell GTO the artifact file is committed to Git.

• Physical files/directories are committed to the repo. When you create a new version or assign a stage to it, Git guarantees that it's immutable -- you can return a year later and get the same artifact by providing a version.

• Virtual artifacts could be an external path (e.g. s3://mybucket/myfile) or a local path to a metafile representing an externally stored artifact file (as with DVC). In this case, GTO can't pin versions to a physical state of the artifact and guarantee it's immutability later, e.g. if s3://mybucket/myfile changes the registry won't know it, nor have a way to recover the original file.

In future versions, we will support additional enrichments: useful information that other tools like DVC and MLEM can provide about the artifacts. This will allow treating DVC repo outputs as usual artifacts instead of virtual ones.

Unassigning a stage

Sometimes you need to mark an artifact version no longer ready for a specific consumer, and maybe signal a downstream system about this. You can use gto deprecate for that:

$ gto deprecate awesome-model v0.0.1 prod
Created git tag 'awesome-model#prod#2!' that unassigns a stage from 'v0.0.1'

GTO creates a special Git tag in a standard format: {artifact_name}#{stage}#{e}!.

Note, that later you can create this stage again, if you need to, by calling $ gto assign again.

You also may want to delete the git tag instead of creating a new one. This is useful if you don't want to keep extra tags in you Git repo, don't need history and don't want to trigger a CI/CD or another downstream system. For that, you can use:

$ gto deprecate awesome-model v0.0.1 prod --delete
Deleted git tag 'awesome-model#prod#1' that assigned a stage to 'v0.0.1'
To push the changes upstream, run:
git push origin awesome-model#prod#1 --delete

Deregister a version

Sometimes you need mark a specific artifact version as a no longer ready for usage. You could just delete a git tag, but if you want to preserve a history of the actions, you may again use gto deprecate.

$ gto deprecate awesome-model v0.0.1
Created git tag 'awesome-model@v0.0.1!' that deregistered a version.

If you want to deregister the version by deleting the Git tags itself, you could use

$ gto deprecate awesome-model v0.0.1 --delete
Deleted git tag 'awesome-model@v0.0.1' that registered a version.
Deleted git tag 'awesome-model#prod#1' that assigned a stage to 'v0.0.1'.
Deleted git tag 'awesome-model#prod#2!' that unassigned a stage to 'v0.0.1'.
To push the changes upstream, run:
git push origin awesome-model@v0.0.1 awesome-model#prod#1 awesome-model#prod#2! --delete

This includes all Git tags related to the version: a tag that registered it and all tags that assigned stages to it.

Deprecating an artifact

Sometimes you need to need to mark the artifact as "deprecated", usually meaning it's outdated and will no longer be developed. To do this, you could run:

$ gto deprecate awesome-model
Created Git tag 'awesome-model@deprecated' that deprecates an artifact.

With awesome-model@deprecated Git tag the artifact will be considered deprecated until you register a new version or assign a new stage to it after the deprecation.

If you want to deprecate an artifact by deleting git tags, you'll need to delete all of them for the artifact. You could do that with

$ gto deprecate awesome-model --delete
Deleted git tag 'awesome-model@v0.0.1' that registered a version.
Deleted git tag 'awesome-model#prod#1' that assigned a stage to 'v0.0.1'.
Deleted git tag 'awesome-model#prod#2!' that unassigned a stage to 'v0.0.1'.
To push the changes upstream, run:
git push origin awesome-model@v0.0.1 awesome-model#prod#1 awesome-model#prod#2! --delete

Using the registry locally

Let's look at the usage of the gto show and gto history.

Show the current state

This is the entire state of the registry: all artifacts, their latest versions, and the greatest versions for each stage.

$ gto show
╒═══════════════╤══════════╤════════╤═════════╤════════════╕
│ name          │ latest   │ #dev   │ #prod   │ #staging   │
╞═══════════════╪══════════╪════════╪═════════╪════════════╡
│ churn         │ v3.1.0   │ v3.1.0 │ v3.0.0  │ v3.1.0     │
│ segment       │ v0.4.1   │ v0.4.1 │ -       │ -          │
│ cv-class      │ v0.1.13  │ -      │ -       │ -          │
│ awesome-model │ v0.0.1   │ -      │ v0.0.1  │ -          │
╘═══════════════╧══════════╧════════╧═════════╧════════════╛

Here we'll see both artifacts that have Git tags only and those annotated in artifacts.yaml. Use --all-branches or --all-commits to read artifacts.yaml from more commits than just HEAD.

Add an artifact name to print all of its versions instead:

$ gto show churn
╒════════════╤═══════════╤══════════════╤═════════════════════╤══════════════╕
│ artifact   │ version   │ stage        │ created_at          │ ref          │
╞════════════╪═══════════╪══════════════╪═════════════════════╪══════════════╡
│ churn      │ v3.1.0    │ staging, dev │ 2022-07-14 10:33:53 │ churn@v3.1.0 │
│ churn      │ v3.0.0    │ prod         │ 2022-07-09 19:27:13 │ churn@v3.0.0 │
╘════════════╧═══════════╧══════════════╧═════════════════════╧══════════════╛

Enabling multiple versions in the same Stage workflow

Note: this functionality is experimental and subject to change. If you find it useful, please share your feedback in GH issues to help us make it stable.

If you would like to see more than a single version assigned in a stage, use --av (short for --assignments-per-version), e.g. -1 to show all versions.

$ gto show churn --av -1
╒════════════╤═══════════╤══════════════╤═════════════════════╤══════════════╕
│ artifact   │ version   │ stage        │ created_at          │ ref          │
╞════════════╪═══════════╪══════════════╪═════════════════════╪══════════════╡
│ churn      │ v3.1.0    │ staging, dev │ 2022-07-14 10:33:53 │ churn@v3.1.0 │
│ churn      │ v3.0.0    │ dev, prod    │ 2022-07-09 19:27:13 │ churn@v3.0.0 │
╘════════════╧═══════════╧══════════════╧═════════════════════╧══════════════╛

To enable this workflow, you need to supply the --av argument to gto show and gto which commands. Other commands behave the same way regardless of the approach you choose.

Enabling Kanban workflow

Note: this functionality is experimental and subject to change. If you find it useful, please share your feedback in GH issues to help us make it stable.

If you would like the latest stage to replace all the previous stages for an artifact version, use --vs flag (or --versions-per-stage for short) combined with --av:

$ gto show churn --av 1 --vs -1
╒════════════╤═══════════╤═════════╤═════════════════════╤══════════════╕
│ artifact   │ version   │ stage   │ created_at          │ ref          │
╞════════════╪═══════════╪═════════╪═════════════════════╪══════════════╡
│ churn      │ v3.1.0    │ staging │ 2022-07-14 10:33:53 │ churn@v3.1.0 │
│ churn      │ v3.0.0    │ dev     │ 2022-07-09 19:27:13 │ churn@v3.0.0 │
╘════════════╧═══════════╧═════════╧═════════════════════╧══════════════╛

In this case the version will always have a single stage (or have no stage at all). This resembles Kanban workflow, when you "move" your artifact version from one column ("stage-1") to another ("stage-2"). This is how MLFlow and some other Model Registries work.

To enable this workflow, you need to supply the --vs and --av arguments to gto show and gto which commands. Other commands behave the same way regardless of the approach you choose.

See the history of an artifact

gto history will print a journal of the events that happened to an artifact. This allows you to audit the changes.

$ gto history churn
╒═════════════════════╤════════════╤══════════════╤═══════════╤═════════╤══════════╤═════════════════╕
│ timestamp           │ artifact   │ event        │ version   │ stage   │ commit   │ ref             │
╞═════════════════════╪════════════╪══════════════╪═══════════╪═════════╪══════════╪═════════════════╡
│ 2022-07-29 14:50:10 │ churn      │ assignment   │ v3.1.0    │ dev     │ 8e4b8e9  │ churn#dev#4     │
│ 2022-07-17 21:53:53 │ churn      │ assignment   │ v3.0.0    │ prod    │ 0d4e471  │ churn#prod#3    │
│ 2022-07-16 18:07:13 │ churn      │ assignment   │ v3.1.0    │ staging │ 8e4b8e9  │ churn#staging#2 │
│ 2022-07-15 14:20:33 │ churn      │ assignment   │ v3.0.0    │ dev     │ 0d4e471  │ churn#dev#1     │
│ 2022-07-14 10:33:53 │ churn      │ registration │ v3.1.0    │ -       │ 8e4b8e9  │ churn@v3.1.0    │
│ 2022-07-13 06:47:13 │ churn      │ commit       │ v3.1.0    │ -       │ 8e4b8e9  │ 8e4b8e9         │
│ 2022-07-13 06:47:13 │ churn      │ commit       │ v3.1.0    │ -       │ 8e4b8e9  │ 8e4b8e9         │
│ 2022-07-09 19:27:13 │ churn      │ registration │ v3.0.0    │ -       │ 0d4e471  │ churn@v3.0.0    │
│ 2022-07-08 15:40:33 │ churn      │ commit       │ v3.0.0    │ -       │ 0d4e471  │ 0d4e471         │
╘═════════════════════╧════════════╧══════════════╧═══════════╧═════════╧══════════╧═════════════════╛

Consuming the registry downstream

Let's look at integrating with GTO via Git as well as using the gto check-ref, gto latest, gto which, and gto describe utility commands downstream.

Act on new versions and stage assignments in CI

To act upon annotations (Git tags), you can create simple CI workflow. With GitHub Actions for example, it can look like this:

name: Act on versions or stage assignments of the "churn" actifact
on:
  push:
    tags:
      - "churn*"

When CI is triggered, you can use the Git reference to determine the version of the artifact. In GH Actions, you can use the GITHUB_REF environment variable (check out our example workflow). You can parse tags manually or use gto check-ref:

$ gto check-ref awesome-model@v0.0.1
{
    "version": {
        "awesome-model": {
            "artifact": "awesome-model",
            "name": "v0.0.1",
            "created_at": "2022-04-21T17:39:14",
            "author": "Alexander Guschin",
            "commit_hexsha": "26cafe958dca65d726b3c9023fbae71ed259b566",
            "discovered": false,
            "tag": "awesome-model@v0.0.1",
        }
    },
    "stage": {}
}

Getting the right version

To get the latest artifact version, its path, and Git reference, use gto latest:

$ gto latest churn
v3.1.0

$ gto latest churn --ref
churn@v3.1.0

To get the version that is currently assigned to an environment (stage), use gto which:

$ gto which churn dev
v3.1.0

$ gto which churn dev --ref
churn#dev#4

To get details about an artifact (from artifacts.yaml) use gto describe:

$ gto describe churn

{ "type": "model", "path": "models/churn.pkl", "virtual": false }

The output is in JSON format for ease of parsing programatically.

Configuration

To configure GTO, use file .gto in the root of your repo or use environment variables (note the GTO_ prefix):

# .gto config file
types: [model, dataset]  # list of allowed Types
stages: [dev, stage, prod]  # list of allowed Stages

When allowed Stages or Types are specified, GTO will check commands you run and error out if you provided a value that doesn't exist in the config. Note, that GTO applies the config from the workspace, so if want to apply the config from main branch, you need to check out it first with git checkout main.

$ GTO_EMOJIS=false gto show

Setup GTO development environment

1. Clone this repository

$ git clone git@github.com:iterative/gto.git
$ cd gto

2. Create virtual environment named venv

$ python3 -m venv venv
$ source venv/bin/activate

Install python libraries

$ pip install --upgrade pip setuptools wheel ".[tests]"

3. Run

$ pytest --basetemp=pytest-basetemp

This will create pytest-basetemp/ directory with some fixtures that can serve as examples.

Notably, check out this dir:

$ cd pytest-basetemp/test_api0/
$ gto show -v

The code that generates this folder could be found in this fixture.

To continue experimenting, call gto --help