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---
title: AWS Quickstart Part 2
weight: 120
tocHidden: true
aliases:
- /master/getting-started/provider-aws-part-3
---
{{< hint "important" >}}
This guide is part 2 of a series.
[**Part 1**]({{<ref "provider-aws" >}}) covers
to installing Crossplane and connect your Kubernetes cluster to AWS.
{{< /hint >}}
This guide walks you through building and accessing a custom API with Crossplane.
## Prerequisites
* Complete [quickstart part 1]({{<ref "provider-aws" >}}) connecting Kubernetes
to AWS.
* an AWS account with permissions to create an AWS S3 storage bucket and a
DynamoDB instance
{{<expand "Skip part 1 and just get started" >}}
1. Add the Crossplane Helm repository and install Crossplane
```shell
helm repo add \
crossplane-stable https://charts.crossplane.io/stable
helm repo update
helm install crossplane \
crossplane-stable/crossplane \
--namespace crossplane-system \
--create-namespace
```
2. When the Crossplane pods finish installing and are ready, apply the AWS Provider
```yaml {label="provider",copy-lines="all"}
cat <<EOF | kubectl apply -f -
apiVersion: pkg.crossplane.io/v1
kind: Provider
metadata:
name: provider-aws-s3
spec:
package: xpkg.crossplane.io/crossplane-contrib/provider-aws-s3:v1.21.1
EOF
```
3. Create a file with your AWS keys
```ini
[default]
aws_access_key_id = <aws_access_key>
aws_secret_access_key = <aws_secret_key>
```
4. Create a Kubernetes secret from the AWS keys
```shell {label="kube-create-secret",copy-lines="all"}
kubectl create secret \
generic aws-secret \
-n crossplane-system \
--from-file=creds=./aws-credentials.txt
```
5. Create a _ProviderConfig_
```yaml {label="providerconfig",copy-lines="all"}
cat <<EOF | kubectl apply -f -
apiVersion: aws.upbound.io/v1beta1
kind: ProviderConfig
metadata:
name: default
spec:
credentials:
source: Secret
secretRef:
namespace: crossplane-system
name: aws-secret
key: creds
EOF
```
{{</expand >}}
## Install the DynamoDB Provider
Part 1 only installed the AWS S3 Provider. This section deploys an S3 bucket
along with a DynamoDB Table.
Deploying a DynamoDB Table requires the DynamoDB Provider as well.
Add the new Provider to the cluster.
```yaml
cat <<EOF | kubectl apply -f -
apiVersion: pkg.crossplane.io/v1
kind: Provider
metadata:
name: provider-aws-dynamodb
spec:
package: xpkg.crossplane.io/crossplane-contrib/provider-aws-dynamodb:v1.21.1
EOF
```
View the new DynamoDB provider with `kubectl get providers`.
```shell {copy-lines="1"}
kubectl get providers
NAME INSTALLED HEALTHY PACKAGE AGE
crossplane-contrib-provider-family-aws True True xpkg.crossplane.io/crossplane-contrib/provider-family-aws:v1.21.1 15m
provider-aws-dynamodb True True xpkg.crossplane.io/crossplane-contrib/provider-aws-dynamodb:v1.21.1 22s
provider-aws-s3 True True xpkg.crossplane.io/crossplane-contrib/provider-aws-s3:v1.21.1 15m
```
## Create a custom API
<!-- vale alex.Condescending = NO -->
Crossplane allows you to build your own custom APIs for your users, abstracting
away details about the cloud provider and their resources. You can make your API
as complex or simple as you wish.
<!-- vale alex.Condescending = YES -->
The custom API is a Kubernetes object.
Here is an example custom API.
```yaml {label="exAPI"}
apiVersion: database.example.com/v1alpha1
kind: NoSQL
metadata:
name: my-nosql-database
spec:
location: "US"
```
Like any Kubernetes object the API has a
{{<hover label="exAPI" line="1">}}version{{</hover>}},
{{<hover label="exAPI" line="2">}}kind{{</hover>}} and
{{<hover label="exAPI" line="5">}}spec{{</hover>}}.
### Define a group and version
To create your own API start by defining an
[API group](https://kubernetes.io/docs/reference/using-api/#api-groups) and
[version](https://kubernetes.io/docs/reference/using-api/#api-versioning).
The _group_ can be any value, but common convention is to map to a fully
qualified domain name.
<!-- vale gitlab.SentenceLength = NO -->
The version shows how mature or stable the API is and increments when changing,
adding or removing fields in the API.
<!-- vale gitlab.SentenceLength = YES -->
Crossplane doesn't require specific versions or a specific version naming
convention, but following
[Kubernetes API versioning guidelines](https://kubernetes.io/docs/reference/using-api/#api-versioning)
is strongly recommended.
* `v1alpha1` - A new API that may change at any time.
* `v1beta1` - An existing API that's considered stable. Breaking changes are
strongly discouraged.
* `v1` - A stable API that doesn't have breaking changes.
This guide uses the group
{{<hover label="version" line="1">}}database.example.com{{</hover>}}.
Because this is the first version of the API, this guide uses the version
{{<hover label="version" line="1">}}v1alpha1{{</hover>}}.
```yaml {label="version",copy-lines="none"}
apiVersion: database.example.com/v1alpha1
```
### Define a kind
The API group is a logical collection of related APIs. In a group are
individual kinds representing different resources.
For example a `database` group may have a `Relational` and `NoSQL` kinds.
The `kind` can be anything, but it must be
[UpperCamelCased](https://kubernetes.io/docs/contribute/style/style-guide/#use-upper-camel-case-for-api-objects).
This API's kind is
{{<hover label="kind" line="2">}}NoSQL{{</hover>}}
```yaml {label="kind",copy-lines="none"}
apiVersion: database.example.com/v1alpha1
kind: NoSQL
```
### Define a spec
The most important part of an API is the schema. The schema defines the inputs
accepted from users.
This API allows users to provide a
{{<hover label="spec" line="4">}}location{{</hover>}} of where to run their
cloud resources.
All other resource settings can't be configurable by the users. This allows
Crossplane to enforce any policies and standards without worrying about
user errors.
```yaml {label="spec",copy-lines="none"}
apiVersion: database.example.com/v1alpha1
kind: NoSQL
spec:
location: "US"
```
### Apply the API
Crossplane uses
{{<hover label="xrd" line="3">}}Composite Resource Definitions{{</hover>}}
(also called an `XRD`) to install your custom API in
Kubernetes.
The XRD {{<hover label="xrd" line="6">}}spec{{</hover>}} contains all the
information about the API including the
{{<hover label="xrd" line="7">}}group{{</hover>}},
{{<hover label="xrd" line="12">}}version{{</hover>}},
{{<hover label="xrd" line="9">}}kind{{</hover>}} and
{{<hover label="xrd" line="13">}}schema{{</hover>}}.
The XRD's {{<hover label="xrd" line="5">}}name{{</hover>}} must be the
combination of the {{<hover label="xrd" line="9">}}plural{{</hover>}} and
{{<hover label="xrd" line="7">}}group{{</hover>}}.
The {{<hover label="xrd" line="13">}}schema{{</hover>}} uses the
{{<hover label="xrd" line="14">}}OpenAPIv3{{</hover>}} specification to define
the API {{<hover label="xrd" line="17">}}spec{{</hover>}}.
The API defines a {{<hover label="xrd" line="20">}}location{{</hover>}} that
must be {{<hover label="xrd" line="22">}}oneOf{{</hover>}} either
{{<hover label="xrd" line="23">}}EU{{</hover>}} or
{{<hover label="xrd" line="24">}}US{{</hover>}}.
Apply this XRD to create the custom API in your Kubernetes cluster.
```yaml {label="xrd",copy-lines="all"}
cat <<EOF | kubectl apply -f -
apiVersion: apiextensions.crossplane.io/v1
kind: CompositeResourceDefinition
metadata:
name: nosqls.database.example.com
spec:
group: database.example.com
names:
kind: NoSQL
plural: nosqls
versions:
- name: v1alpha1
schema:
openAPIV3Schema:
type: object
properties:
spec:
type: object
properties:
location:
type: string
oneOf:
- pattern: '^EU$'
- pattern: '^US$'
required:
- location
served: true
referenceable: true
claimNames:
kind: NoSQLClaim
plural: nosqlclaim
EOF
```
Adding the {{<hover label="xrd" line="29">}}claimNames{{</hover>}} allows users
to access this API either at the cluster level with the
{{<hover label="xrd" line="9">}}nosql{{</hover>}} endpoint or in a namespace
with the
{{<hover label="xrd" line="29">}}nosqlclaim{{</hover>}} endpoint.
The namespace scoped API is a Crossplane _Claim_.
{{<hint "tip" >}}
For more details on the fields and options of Composite Resource Definitions
read the
[XRD documentation]({{<ref "../concepts/composite-resource-definitions">}}).
{{< /hint >}}
View the installed XRD with `kubectl get xrd`.
```shell {copy-lines="1"}
kubectl get xrd
NAME ESTABLISHED OFFERED AGE
nosqls.database.example.com True True 2s
```
View the new custom API endpoints with `kubectl api-resources | grep nosql`
```shell {copy-lines="1",label="apiRes"}
kubectl api-resources | grep nosql
nosqlclaim database.example.com/v1alpha1 true NoSQLClaim
nosqls database.example.com/v1alpha1 false NoSQL
```
## Create a deployment template
When users access the custom API Crossplane takes their inputs and combines them
with a template describing what infrastructure to deploy. Crossplane calls this
template a _Composition_.
The {{<hover label="comp" line="3">}}Composition{{</hover>}} defines all the
cloud resources to deploy. Each entry in the template is a full resource
definition, defining all the resource settings and metadata like labels and
annotations.
This template creates an AWS
{{<hover label="comp" line="13">}}S3{{</hover>}}
{{<hover label="comp" line="14">}}Bucket{{</hover>}} and a
{{<hover label="comp" line="33">}}DynamoDB{{</hover>}}
{{<hover label="comp" line="34">}}Table{{</hover>}}.
This Composition takes the user's
{{<hover label="comp" line="21">}}location{{</hover>}} input and uses it as the
{{<hover label="comp" line="16">}}region{{</hover>}} used in the individual
resource.
{{<hint "important" >}}
This Composition uses an array of resource templates. You can patch each
template with data copied from the custom API. Crossplane calls this a _Patch
and Transform_ Composition.
You don't have to use Patch and Transform. Crossplane supports a variety of
alternatives, including Go Templating and CUE. You can also write a function in
Go or Python to template your resources.
Read the [Composition documentation]({{<ref "../concepts/compositions">}}) for
more information on configuring Compositions and all the available options.
{{< /hint >}}
Apply this Composition to your cluster.
```yaml {label="comp",copy-lines="all"}
cat <<EOF | kubectl apply -f -
apiVersion: apiextensions.crossplane.io/v1
kind: Composition
metadata:
name: dynamo-with-bucket
spec:
mode: Pipeline
pipeline:
- step: patch-and-transform
functionRef:
name: function-patch-and-transform
input:
apiVersion: pt.fn.crossplane.io/v1beta1
kind: Resources
resources:
- name: s3Bucket
base:
apiVersion: s3.aws.upbound.io/v1beta1
kind: Bucket
spec:
forProvider:
region: us-east-2
providerConfigRef:
name: default
patches:
- type: FromCompositeFieldPath
fromFieldPath: "spec.location"
toFieldPath: "spec.forProvider.region"
transforms:
- type: map
map:
EU: "eu-north-1"
US: "us-east-2"
- name: dynamoDB
base:
apiVersion: dynamodb.aws.upbound.io/v1beta1
kind: Table
spec:
forProvider:
region: "us-east-2"
writeCapacity: 1
readCapacity: 1
attribute:
- name: S3ID
type: S
hashKey: S3ID
patches:
- type: FromCompositeFieldPath
fromFieldPath: "spec.location"
toFieldPath: "spec.forProvider.region"
transforms:
- type: map
map:
EU: "eu-north-1"
US: "us-east-2"
compositeTypeRef:
apiVersion: database.example.com/v1alpha1
kind: NoSQL
EOF
```
The {{<hover label="comp" line="52">}}compositeTypeRef{{</hover >}} defines
which custom APIs can use this template to create resources.
A Composition uses a pipeline of _composition functions_ to define the cloud
resources to deploy. This template uses
{{<hover label="comp" line="10">}}function-patch-and-transform{{</hover>}}.
You must install the function before you can use it in a Composition.
Apply this Function to install `function-patch-and-transform`:
```yaml {label="install"}
cat <<EOF | kubectl apply -f -
apiVersion: pkg.crossplane.io/v1
kind: Function
metadata:
name: function-patch-and-transform
spec:
package: xpkg.crossplane.io/crossplane-contrib/function-patch-and-transform:v0.8.2
EOF
```
{{<hint "tip" >}}
Read the [Composition documentation]({{<ref "../concepts/compositions">}}) for
more information on configuring Compositions and all the available options.
Read the
[Patch and Transform function documentation]({{<ref "../guides/function-patch-and-transform">}})
for more information on how it uses patches to map user inputs to Composition
resource templates.
{{< /hint >}}
View the Composition with `kubectl get composition`
```shell {copy-lines="1"}
kubectl get composition
NAME XR-KIND XR-APIVERSION AGE
dynamo-with-bucket NoSQL database.example.com/v1alpha1 3s
```
## Access the custom API
With the custom API (XRD) installed and associated to a resource template
(Composition) users can access the API to create resources.
Create a {{<hover label="xr" line="2">}}NoSQL{{</hover>}} object to create the
cloud resources.
```yaml {copy-lines="all",label="xr"}
cat <<EOF | kubectl apply -f -
apiVersion: database.example.com/v1alpha1
kind: NoSQL
metadata:
name: my-nosql-database
spec:
location: "US"
EOF
```
View the resource with `kubectl get nosql`.
```shell {copy-lines="1"}
kubectl get nosql
NAME SYNCED READY COMPOSITION AGE
my-nosql-database True True dynamo-with-bucket 14s
```
This object is a Crossplane _composite resource_ (also called an `XR`).
It's a
single object representing the collection of resources created from the
Composition template.
View the individual resources with `kubectl get managed`
```shell {copy-lines="1"}
kubectl get managed
NAME READY SYNCED EXTERNAL-NAME AGE
table.dynamodb.aws.upbound.io/my-nosql-database-t5wtx True True my-nosql-database-t5wtx 33s
NAME READY SYNCED EXTERNAL-NAME AGE
bucket.s3.aws.upbound.io/my-nosql-database-xtzph True True my-nosql-database-xtzph 33s
```
Delete the resources with `kubectl delete nosql`.
```shell {copy-lines="1"}
kubectl delete nosql my-nosql-database
nosql.database.example.com "my-nosql-database" deleted
```
Verify Crossplane deleted the resources with `kubectl get managed`
{{<hint "note" >}}
It may take up to 5 minutes to delete the resources.
{{< /hint >}}
```shell {copy-lines="1"}
kubectl get managed
No resources found
```
## Using the API with namespaces
Accessing the API `nosql` happens at the cluster scope.
Most organizations
isolate their users into namespaces.
A Crossplane _Claim_ is the custom API in a namespace.
Creating a _Claim_ is just like accessing the custom API endpoint, but with the
{{<hover label="claim" line="3">}}kind{{</hover>}}
from the custom API's `claimNames`.
Create a new namespace to test create a Claim in.
```shell
kubectl create namespace crossplane-test
```
Then create a Claim in the `crossplane-test` namespace.
```yaml {label="claim",copy-lines="all"}
cat <<EOF | kubectl apply -f -
apiVersion: database.example.com/v1alpha1
kind: NoSQLClaim
metadata:
name: my-nosql-database
namespace: crossplane-test
spec:
location: "US"
EOF
```
View the Claim with `kubectl get claim -n crossplane-test`.
```shell {copy-lines="1"}
kubectl get claim -n crossplane-test
NAME SYNCED READY CONNECTION-SECRET AGE
my-nosql-database True True 17s
```
The Claim automatically creates a composite resource, which creates the managed
resources.
View the Crossplane created composite resource with `kubectl get composite`.
```shell {copy-lines="1"}
kubectl get composite
NAME SYNCED READY COMPOSITION AGE
my-nosql-database-t9qrw True True dynamo-with-bucket 77s
```
Again, view the managed resources with `kubectl get managed`.
```shell {copy-lines="1"}
kubectl get managed
NAME READY SYNCED EXTERNAL-NAME AGE
table.dynamodb.aws.upbound.io/my-nosql-database-t9qrw-dcpwv True True my-nosql-database-t9qrw-dcpwv 116s
NAME READY SYNCED EXTERNAL-NAME AGE
bucket.s3.aws.upbound.io/my-nosql-database-t9qrw-g98lv True True my-nosql-database-t9qrw-g98lv 117s
```
Deleting the Claim deletes all the Crossplane generated resources.
`kubectl delete claim -n crossplane-test my-nosql-database`
```shell {copy-lines="1"}
kubectl delete claim -n crossplane-test my-nosql-database
nosqlclaim.database.example.com "my-nosql-database" deleted
```
{{<hint "note" >}}
It may take up to 5 minutes to delete the resources.
{{< /hint >}}
Verify Crossplane deleted the composite resource with `kubectl get composite`.
```shell {copy-lines="1"}
kubectl get composite
No resources found
```
Verify Crossplane deleted the managed resources with `kubectl get managed`.
```shell {copy-lines="1"}
kubectl get managed
No resources found
```
## Next steps
* Explore AWS resources that Crossplane can configure in the
[provider CRD reference](https://github.com/crossplane-contrib/provider-upjet-aws/blob/main/package/crds).
* Join the [Crossplane Slack](https://slack.crossplane.io/) and connect with
Crossplane users and contributors.
* Read more about the [Crossplane concepts]({{<ref "../concepts">}}) to find out what else you can do
with Crossplane.
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