Merge pull request #1018 from talentedmrjones/new-get-started-tutorial

DOCS: new getting started tutorial
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slug: /1003/get-started/ slug: /1003/get-started/
--- ---
# Get started with Dagger # Get Started with Dagger
In this guide, you will learn the basics of Dagger by interacting with a pre-configured environment. In this tutorial, you will learn the basics of Dagger by building a Dagger project from scratch. This simple project deploys a [React](https://reactjs.org/) application to your local machine via Docker. In later tutorials, you will learn how to configure Dagger to deploy to remote infrastructure such as EKS and GKE.
Then you will move on to creating your environment from scratch.
Our pre-configured environment deploys a simple [React](https://reactjs.org/) This tutorial does involve writing CUE, so if you haven’t already, be sure to read [What is CUE?](../introduction/1005-what_is_cue.md)
application to a unique hosting environment created and managed by us, the Dagger team, for this tutorial.
This will allow you to deploy something "real" right away without configuring your infrastructure first.
In later guides, you will learn how to configure Dagger to deploy to your infrastructure. And, for advanced users, In this tutorial we will learn:
how to share access to your infrastructure in the same way that we share access to ours now.
## Initial setup - How to initialize and structure a Dagger project
- About Dagger concepts such as
- the plan
- environments
- inputs and outputs
- How to write CUE for Dagger
- How to deploy an application with Dagger
## Deploy an Application Locally
The following instructions assume you are working locally, but could just as easily be run on a remote machine into which you have a shell.
### Install Dagger ### Install Dagger
First, make sure [you have installed Dagger on your local machine](../1001-install.md). First, make sure [you have installed Dagger](../1001-install.md). You can run `dagger version` to ensure you have the latest installed and working.
### Setup example app ### Create a Dagger Project
You will need a local copy of the [Dagger examples repository](https://github.com/dagger/examples). First clone the [Dagger examples repository](https://github.com/dagger/examples), change directories to the `todoapp/` and list its contents:
NOTE: you may use the same local copy across all tutorials.
```shell > Note that all tutorials will operate from the todoapp directory.
git clone https://github.com/dagger/examples
```
Make sure that all commands are run from the `todoapp` directory: ```bash
git clone https://github.com/dagger/examples.git
```shell
cd examples/todoapp cd examples/todoapp
ls -la
``` ```
### Import the tutorial key This React application will use Yarn to build a static website with the following directories and files.
Dagger natively supports encrypted secrets: when a user inputs a value marked as secret ```bash
(for example, a password, API token, or ssh key) it is automatically encrypted with that user's key, -rw-r--r-- ... 794 Sep 7 10:09 package.json
and no other user can access that value unless they are explicitly given access. drwxr-xr-x ... 256 Sep 7 10:09 public
drwxr-xr-x ... 192 Sep 29 11:17 src
In the interest of security, Dagger has no way _not_ to encrypt a secret value. -rw-r--r-- ... 465514 Sep 29 11:17 yarn.lock
But this causes a dilemma for this tutorial: how do we give unrestricted, public access to our
(carefully sandboxed) infrastructure so that anyone can deploy to it?
To solve this dilemma, we included the private key used to encrypt the tutorial's secret inputs.
Import the key to your Dagger installation, and you're good to go:
```shell
./import-tutorial-key.sh
``` ```
## First deployment Now we need to initialize this directory as a Dagger _project_:
Now that your environment is set up, you are ready to deploy: ```bash
dagger init
```shell ls -la
dagger up
``` ```
That's it! You have just made your first deployment with Dagger. You will now see 2 new directories:
The URL of your newly deployed app should be visible towards the end of the command output. - The `.dagger` directory will store metadata about _environments_, _inputs_, and _outputs_ which we will cover later.
If you visit that URL, you should see your application live! - The `cue.mod` directory stores libraries such as [dagger/universe](https://github.com/dagger/universe) which can be _imported_ into your Dagger plan.
## Code, deploy, repeat Dagger will load all `.cue` files recursively in the current Dagger project. More directories can be added to help organize code.
This environment is pre-configured to deploy from the `./todoapp` directory, > Note that Dagger, like the CUE CLI command, will only load CUE files from the `cue.mod` directory in response to `import` statements.
so you can make any change you want to that directory, then deploy it with `dagger up`.
You can even replace our example React code with any React application!
NOTE: you don't have to commit your changes to the git repository before deploying them. ### Write a Dagger Plan
## Under the hood A Dagger _plan_ is written in CUE and defines the _resources_, _dependencies_, and _logic_ to deploy an application to an environment. Unlike traditional glue code written in a scripting language such as Bash or PowerShell, a Dagger plan is _declarative_ rather than _imperative_. This frees us from thinking about the order of operations, since Dagger will infer dependendencies and calculate correct order on its own.
This example showed you how to deploy and develop an application that is already configured with Dagger. Now, let's learn a few concepts to help you understand how this was put together. Let’s first create a directory to hold our Dagger plan separately from our application code:
### The Environment ```bash
mkdir -p ./plans/local
```
An Environment holds the entire deployment configuration. We will now create the following files:
You can list existing environment from the `./todoapp` directory: - `plans/todoapp.cue` which will define resources common to all environments
- `plans/local/local.cue` which will define resources specific to the local environment
Create the file `plans/todoapp.cue` with the following content:
```cue file=./tests/getting-started/plans/todoapp.cue
```
This file will define the resources and relationships between them that are common across _all environments_. For example, here we are deploying to our local Docker engine in our `local` environment, but for staging or production as examples, we would deploy the same image to some other container orchestration system such as Kubernetes hosted somewhere out there among the various cloud providers.
Create the file `plans/local/local.cue` with the following content:
```cue file=./tests/getting-started/plans/local/local.cue
```
Notice that both files have the same `package todoapp` declared on the first line. This is crucial to inform CUE that they are to be loaded and evaluated together in the same context.
Our `local.cue` file now holds resources specific to our `local` environment. Also notice that we are defining a concrete value for the `target` key here. The entire `push` object is defined in both files and CUE will merge the values into a single struct with key:value pairs that are _complete_ with concrete values.
### Create an Environment
Before we can deploy the plan, we need to define an environment which is the specific plan to execute, as well as the context from which inputs are pulled and to which state is stored.
For our each environment we need to tell Dagger what CUE files to load, so let’s create a `local` environment:
```shell ```shell
dagger new local -p ./plans/local
dagger list dagger list
``` ```
You should see an environment named `s3`. You can have many environments within your app. For instance, one for `staging`, one for `dev`, etc... The `list` command shows the current environments defined:
Each environment can have a different kind of deployment code. For example, a `dev` environment can deploy locally; a `staging` environment can deploy to a remote infrastructure, and so on. ```bash
local ...todoapp/.dagger/env/local
### The plan
The plan is the deployment code that includes the logic to deploy the local application to an AWS S3 bucket. From the `todoapp` directory, you can list the code of the plan:
```shell
ls -l ./s3
``` ```
Any code change to the plan will be applied during the next `dagger up`. ### Define Input Values per Environment
### The inputs Our Dagger plan includes a number of references to `dagger.#Input` which inform the Dagger engine that the concrete value should be pulled from inputs at runtime. While some values such as the registry target we saw above can be expressed purely in CUE, others such as directories, secrets, and sockets are required to be explicitly defined as _inputs_ to protect against malicious code being injected by third-party packages. If Dagger allowed such things to be stated in CUE, the entire package system could become a source of attacks.
The plan can define one or several `inputs`. Inputs may be configuration values, artifacts, or encrypted secrets provided by the user. Here is how to list the current inputs: List the inputs Dagger is aware of according to our plan:
```shell ```shell
dagger input list dagger -e local input list
``` ```
The inputs are persisted inside the `.dagger` directory and pushed to your git repository. That's why this example application worked out of the box. You should see the following output:
### The outputs ```bash
Input Value Set by user Description
app.source dagger.#Artifact false Application source code
run.socket struct false Mount local docker socket
```
The plan defines one or several `outputs`. They can show helpful information at the end of the deployment. That's how we read the deploy `url` at the end of the deployment. Here is the command to list all outputs: Notice that `Set by user` is _false_ for both, because we have not yet provided Dagger with those values.
Let’s provide them now:
```shell ```shell
dagger output list dagger -e local input socket run.socket /var/run/docker.sock
dagger -e local input dir app.source ./
``` ```
## What's next? This defines the `run.socket` as a `socket` input type, and the `app.source` input as a `dir` input type.
At this point, you have deployed your first application using Dagger and learned some dagger commands. You are now ready to [learn more about how to program Dagger](./1004-first-env.md). Now let’s replay the `dagger input list` command:
```bash
Input Value Set by user Description
app.source dagger.#Artifact true Application source code
run.socket struct true Mount local docker socket
```
Notice that Dagger now reports that both inputs have been set.
### Deploy the Appplication
With our plan in place, our environment set, and our inputs defined, we can deploy the application as simply as:
```bash
dagger up
```
Once complete you should get logs, and a final output like this:
```bash
Output Value Description
app.build struct Build output directory
push.ref "localhost:5000/todoapp:latest@sha256:<hash>" Image ref
push.digest "sha256:<hash>" Image digest
run.ref "localhost:5000/todoapp:latest@sha256:<hash>" Image reference (e.g: nginx:alpine)
run.run.env.IMAGE_REF "localhost:5000/todoapp:latest@sha256:<hash>" -
```
Congratulations! You&rsquo;ve deployed your first Dagger plan! You can now [view the todo app](http://localhost:8080) in your browser!

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---
slug: /1003/get-started/
---
# Get Started with Dagger
In this tutorial, you will learn the basics of Dagger by building a Dagger project from scratch. This simple
project deploys a [React](https://reactjs.org/) application to your local machine via docker. In later tutorials,
you will learn how to configure Dagger to deploy to your infrastructure. And, for advanced users,
how to share access to your infrastructure in the same way that we share access to ours now.
This tutorial does involve writing CUE, so if you haven&rsquo;t already, be sure to read [What is CUE?](../introduction/1005-what_is_cue.md)
In this tutorial we will learn how to:
- Structure a Dagger project
- Write CUE for Dagger
- Deploy an application using Dagger
## Initial setup
### Install Dagger
First, make sure [you have installed Dagger on your local machine](../1001-install.md).
### Setup example app
You will need a local copy of the [Dagger examples repository](https://github.com/dagger/examples).
NOTE: you may use the same local copy across all tutorials.
```shell
git clone https://github.com/dagger/examples
```
Make sure that all commands are run from the `todoapp` directory:
```shell
cd examples/todoapp
```
### Import the tutorial key
Dagger natively supports encrypted secrets: when a user inputs a value marked as secret
(for example, a password, API token, or ssh key) it is automatically encrypted with that user's key,
and no other user can access that value unless they are explicitly given access.
In the interest of security, Dagger has no way _not_ to encrypt a secret value.
But this causes a dilemma for this tutorial: how do we give unrestricted, public access to our
(carefully sandboxed) infrastructure so that anyone can deploy to it?
To solve this dilemma, we included the private key used to encrypt the tutorial's secret inputs.
Import the key to your Dagger installation, and you're good to go:
```shell
./import-tutorial-key.sh
```
## First deployment
Now that your environment is set up, you are ready to deploy:
```shell
dagger up
```
That's it! You have just made your first deployment with Dagger.
The URL of your newly deployed app should be visible towards the end of the command output.
If you visit that URL, you should see your application live!
## Code, deploy, repeat
This environment is pre-configured to deploy from the `./todoapp` directory,
so you can make any change you want to that directory, then deploy it with `dagger up`.
You can even replace our example React code with any React application!
NOTE: you don't have to commit your changes to the git repository before deploying them.
## Under the hood
This example showed you how to deploy and develop an application that is already configured with Dagger. Now, let's learn a few concepts to help you understand how this was put together.
### The Environment
An Environment holds the entire deployment configuration.
You can list existing environment from the `./todoapp` directory:
```shell
dagger list
```
You should see an environment named `s3`. You can have many environments within your app. For instance, one for `staging`, one for `dev`, etc...
Each environment can have a different kind of deployment code. For example, a `dev` environment can deploy locally; a `staging` environment can deploy to a remote infrastructure, and so on.
### The plan
The plan is the deployment code that includes the logic to deploy the local application to an AWS S3 bucket. From the `todoapp` directory, you can list the code of the plan:
```shell
ls -l ./s3
```
Any code change to the plan will be applied during the next `dagger up`.
### The inputs
The plan can define one or several `inputs`. Inputs may be configuration values, artifacts, or encrypted secrets provided by the user. Here is how to list the current inputs:
```shell
dagger input list
```
The inputs are persisted inside the `.dagger` directory and pushed to your git repository. That's why this example application worked out of the box.
### The outputs
The plan defines one or several `outputs`. They can show helpful information at the end of the deployment. That's how we read the deploy `url` at the end of the deployment. Here is the command to list all outputs:
```shell
dagger output list
```
## What's next?
At this point, you have deployed your first application using Dagger and learned some dagger commands. You are now ready to [learn more about how to program Dagger](./1004-first-env.md).

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@test "doc-1003-get-started" { @test "doc-1003-get-started" {
setup_example_sandbox setup_example_sandbox
# Set examples private key # Follow tutorial
"$DAGGER_SANDBOX"/import-tutorial-key.sh mkdir -p "$DAGGER_SANDBOX"/plans/local
cp "$DAGGER_PROJECT"/getting-started/plans/todoapp.cue "$DAGGER_SANDBOX"/plans/todoapp.cue
cp "$DAGGER_PROJECT"/getting-started/plans/local/local.cue "$DAGGER_SANDBOX"/plans/local/local.cue
# Collect url dagger --project "$DAGGER_SANDBOX" new 'local' -p "$DAGGER_SANDBOX"/plans/local
dagger --project "$DAGGER_SANDBOX" up dagger --project "$DAGGER_SANDBOX" -e 'local' input socket run.socket /var/run/docker.sock
url=$(dagger --project "$DAGGER_SANDBOX" query -f text url) dagger --project "$DAGGER_SANDBOX" -e 'local' input dir app.source "$DAGGER_SANDBOX"
# More commands dagger --project "$DAGGER_SANDBOX" -e 'local' up
dagger --project "$DAGGER_SANDBOX" list
ls -l "$DAGGER_SANDBOX"/s3
dagger --project "$DAGGER_SANDBOX" input list
# Check output until docker inspect --format "{{json .State.Status }}" todoapp | grep -m 1 "running"; do sleep 1 ; done
run curl "$url" run curl -f -LI http://localhost:8080
assert_output --partial "My Todo app" assert_output --partial '200 OK'
docker stop todoapp && docker rm todoapp
docker stop registry && docker rm registry
} }
@test "doc-1004-first-env" { @test "doc-1004-first-env" {

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package todoapp
import (
"alpha.dagger.io/dagger"
"alpha.dagger.io/docker"
)
// run our todoapp in our local Docker engine
run: docker.#Run & {
ref: push.ref
name: "todoapp"
ports: ["8080:80"]
socket: dagger.#Stream & dagger.#Input
}
// push to our local registry
// this concrete value satisfies the string constraint
// we defined in the previous file
push: target: "localhost:5000/todoapp"

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package todoapp
import (
"alpha.dagger.io/dagger"
"alpha.dagger.io/os"
"alpha.dagger.io/docker"
"alpha.dagger.io/js/yarn"
)
// Build the source code using Yarn
app: yarn.#Package & {
source: dagger.#Artifact & dagger.#Input
}
// package the static HTML from yarn into a Docker image
image: os.#Container & {
image: docker.#Pull & {
from: "nginx"
}
// app.build references our app key above
// which infers a dependency that Dagger
// uses to generate the DAG
copy: "/usr/share/nginx/html": from: app.build
}
// push the image to a registry
push: docker.#Push & {
// leave target blank here so that different
// environments can push to different registries
target: string
// the source of our push resource
// is the image resource we declared above
source: image
}