Securing Infrastructure Access at Scale in Large Enterprises
Dec 12
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Teleport

Teleport Single-Instance Deployment on AWS

This guide is designed to accompany our reference starter-cluster Terraform code and describe how to manage the resulting Teleport deployment.

This module will deploy the following components:

  • One AWS EC2 instance running the Teleport Auth Service, Proxy Service and SSH Service components
  • AWS DynamoDB tables for storing the Teleport backend database and audit events
  • An AWS S3 bucket for storing Teleport session recordings
  • A minimal AWS IAM role granting permissions for the EC2 instance to use DynamoDB and S3
  • An AWS security group restricting inbound traffic to the EC2 instance
  • An AWS Route 53 DNS record pointing to the subdomain you control and choose during installation

It also optionally deploys the following components when ACM is enabled:

  • An AWS ACM certificate for the subdomain in AWS Route 53 that you control and choose during installation
  • An AWS Application Load Balancer using the above ACM certificate to secure incoming traffic

More details are provided below.

Teleport Enterprise Cloud takes care of this setup for you so you can provide secure access to your infrastructure right away.

Get started with a free trial of Teleport Enterprise Cloud.

Prerequisites

Our code requires Terraform 0.13+. You can download Terraform here. We will assume that you have terraform installed and available on your path.

which terraform
/usr/local/bin/terraform
terraform version
Terraform v1.5.6

You will also require the aws command line tool. This is available in Ubuntu/Debian/Fedora/CentOS and macOS Homebrew as the awscli package.

Fedora/CentOS: yum -y install awscli

Ubuntu/Debian: apt-get -y install awscli

macOS (with Homebrew): brew install awscli

When possible, installing via a package is always preferable. If you can't find a package available for your distribution, you can also download the tool from https://aws.amazon.com/cli/

We will assume that you have configured your AWS CLI access with credentials available at ~/.aws/credentials:

cat ~/.aws/credentials

[default]

aws_access_key_id = abcd1234-this-is-an-example

aws_secret_access_key = zyxw9876-this-is-an-example

You should also have a default region set under ~/.aws/config:

cat ~/.aws/config

[default]

region = us-west-2

As a result, you should be able to run a command like aws ec2 describe-instances to list running EC2 instances. If you get an "access denied", "403 Forbidden" or similar message, you will need to grant additional permissions to the AWS IAM user that your aws_access_key_id and aws_secret_access_key refers to.

As a general rule, we assume that any user running Terraform has administrator-level permissions for the following AWS services:

The Terraform deployment itself will create a new IAM role to be used by the Teleport instance that has appropriately limited permission scopes for AWS services. However, the initial cluster setup must be done by a user with a high level of AWS permissions.

Get the Terraform code

Firstly, you'll need to clone the Teleport repo to get the Terraform code available on your system:

git clone https://github.com/gravitational/teleport -b branch/v17

Cloning into 'teleport'...

remote: Enumerating objects: 106, done.

remote: Counting objects: 100% (106/106), done.

remote: Compressing objects: 100% (95/95), done.

remote: Total 61144 (delta 33), reused 35 (delta 11), pack-reused 61038

Receiving objects: 100% (61144/61144), 85.17 MiB | 4.66 MiB/s, done.

Resolving deltas: 100% (39141/39141), done.

Once this is done, you can change into the directory where the Terraform code is checked out and run terraform init:

cd teleport/examples/aws/terraform/starter-cluster
terraform init

Initializing the backend...
Initializing provider plugins...- Checking for available provider plugins...- Installing hashicorp/aws v5.31.0...- Installed hashicorp/aws v5.31.0 (signed by HashiCorp)
Terraform has been successfully initialized!
You may now begin working with Terraform. Try running "terraform plan" to seeany changes that are required for your infrastructure. All Terraform commandsshould now work.
If you ever set or change modules or backend configuration for Terraform,rerun this command to reinitialize your working directory. If you forget, othercommands will detect it and remind you to do so if necessary.

This will download the appropriate Terraform plugins needed to spin up Teleport using our reference code.

Set up variables

Terraform modules use variables to pass in input. You can do this in a few ways:

  • on the command line to terraform apply
  • by editing the vars.tf file
  • by setting environment variables

For this guide, we are going to make extensive use of environment variables. This is because it makes it easier for us to reference values from our configuration when running Teleport commands after the cluster has been created.

Any set environment variable starting with TF_VAR_ is automatically processed and stripped down by Terraform, so TF_VAR_test_variable becomes test_variable.

We maintain an up-to-date list of the variables and what they do in the README.md file under the examples/aws/terraform/starter-cluster section of the Teleport repo but we'll run through an example list here.

Things you will need to decide on:

region

export TF_VAR_region="us-west-2"

The AWS region to run in. You should pick from the supported list as detailed in the README. These are regions that support DynamoDB encryption at rest.

cluster_name

export TF_VAR_cluster_name="teleport-example"

This is the internal Teleport cluster name to use. This should be unique, and not contain spaces, dots (.) or other special characters. Some AWS services will not allow you to use dots in a name, so this should not be set to a domain name. This will appear in the web UI for your cluster and cannot be changed after creation without rebuilding your cluster from scratch, so choose carefully. A good example might be something like teleport-<company-name>.

ami_name

export TF_VAR_ami_name="teleport-ent-17.0.2-x86_64"

Teleport (Gravitational) automatically builds and publishes OSS, Enterprise and Enterprise FIPS 140-2 AMIs when we release a new version of Teleport. The AMI names follow the format: teleport-<type>-<version>-<arch> where <type> is either oss or ent (Enterprise), <version> is the version of Teleport, e.g. 17.0.2, and <arch> is either x86_64 or arm64.

FIPS 140-2 compatible AMIs (which deploy Teleport in FIPS 140-2 mode by default) have the -fips suffix after <arch>, e.g. teleport-ent-17.0.2-x86_64-fips.

The AWS account ID that publishes these AMIs is 146628656107. You can list the available AMIs with the example awscli commands below. The output is in JSON format by default.

List Teleport AMIs

OSS AMIs

aws --region us-west-2 ec2 describe-images --owners 146628656107 --filters 'Name=name,Values=teleport-oss-17.0.2-*'

Enterprise AMIs

aws --region us-west-2 ec2 describe-images --owners 146628656107 --filters 'Name=name,Values=teleport-ent-17.0.2-*'

Enterprise FIPS 140-2 AMIs

aws --region us-west-2 ec2 describe-images --owners 146628656107 --filters 'Name=name,Values=teleport-ent-17.0.2-*-fips-*'

key_name

export TF_VAR_key_name="exampleuser"

The AWS keypair name to use when deploying EC2 instances. This must exist in the same region as you specify in the region variable, and you will need a copy of this keypair available to connect to the deployed EC2 instances. Do not use a keypair that you do not have access to.

license_path

The Teleport Auth Service reads a license file to authenticate your Teleport Enterprise account.

To obtain your license file, navigate to your Teleport account dashboard and log in. You can start at teleport.sh and enter your Teleport account name (e.g. my-company). After logging in you will see a "GENERATE LICENSE KEY" button, which will generate a new license file and allow you to download it.

export TF_VAR_license_path="/home/user/license.pem"

This license will be uploaded to AWS SSM and automatically downloaded to the Teleport instance in order to enable Teleport Enterprise functionality.

(Teleport Community Edition users can run touch /tmp/license.pem locally to create an empty file, and then provide the path '/tmp/license.pem' here. The license file isn't used in Teleport Community Edition installs.)

route53_zone

export TF_VAR_route53_zone="example.com"

Our Terraform setup requires you to have your domain provisioned in AWS Route 53 - it will automatically add DNS records for route53_domain as set up below. You can list these with this command:

aws route53 list-hosted-zones --query "HostedZones[*].Name" --output json
[ "example.com.", "testing.net.", "subdomain.wow.org."]

You should use the appropriate domain without the trailing dot.

route53_domain

export TF_VAR_route53_domain="teleport.example.com"

A subdomain to set up as an A record pointing to the IP of the Teleport cluster host for web access. This will be the public-facing domain that people use to connect to your Teleport cluster, so choose wisely.

This must be a subdomain of the domain you chose for route53_zone above.

add_wildcard_route53_record

export TF_VAR_add_wildcard_route53_record="true"

Used to enable the Teleport Application Service for subdomains of the Teleport Proxy Service's public web address. A wildcard entry for the public-facing domain will be set in Route 53, e.g., *.teleport.example.com, to point to the Teleport load balancer. For ACM a wildcard certificate is included if this is set to true. Let's Encrypt automatically includes a wildcard subdomain in certificates that it issues.

enable_mongodb_listener

export TF_VAR_enable_mongodb_listener="false"

When set to true, port 27017 is enabled on the Network Load Balancer that connects to the Teleport MongoDB listener port. Required for MongoDB connections, if not using TLS routing.

enable_mysql_listener

export TF_VAR_enable_mysql_listener="false"

Port 3036 is enabled on the Network Load Balancer that connects to the Teleport MySQL listener port. Required for MySQL connections, if not using TLS routing.

enable_postgres_listener

export TF_VAR_enable_postgres_listener="false"

Port 5432 is enabled on the Network Load Balancer that connects to the Teleport PostgreSQL listener port. Required for PostgreSQL connections, if not using TLS routing.

s3_bucket_name

export TF_VAR_s3_bucket_name="teleport-example"

The Terraform example also provisions an S3 bucket to securely store Teleport session recordings. This can be any S3-compatible name, and will be generated in the same region as set above.

Remember that S3 bucket names must be globally unique, so if you see errors relating to S3 provisioning, pick a more unique bucket name.

cluster_instance_type

export TF_VAR_cluster_instance_type="t3.micro"

This variable sets the type of EC2 instance to provision for running this Teleport cluster.

A micro instance is fine for testing, but if this server will need to support more than a few users you should use a bigger instance.

email

export TF_VAR_email="support@example.com"

Let's Encrypt requires an email address for every certificate registered which can be used to send notifications and useful information. We recommend a generic ops/support email address which the team deploying Teleport has access to.

use_letsencrypt

export TF_VAR_use_letsencrypt="false"

If set to the string "true", Terraform will use Let's Encrypt to provision the public-facing web UI certificate for the Teleport cluster (route53_domain - so https://teleport.example.com in this example). This uses an AWS network load balancer to load-balance connections to the Teleport cluster's web UI, and its SSL termination is handled by Teleport itself.

use_acm

export TF_VAR_use_acm="true"

If set to the string "true", Terraform will use AWS ACM to provision the public-facing web UI certificate for the cluster. This uses an AWS application load balancer to load-balance connections to the Teleport cluster's web UI, and its SSL termination is handled by the load balancer.

If you wish to use a pre-existing ACM certificate rather than having Terraform generate one for you, you can make Terraform use it by running this command before terraform apply:

terraform import aws_acm_certificate.cert <certificate_arn>

We recommend using ACM if possible as it will simplify certificate management for the Teleport cluster. If ACM is enabled, Let's Encrypt will automatically be disabled regardless of the value of the use_letsencrypt variable.

use_tls_routing

export TF_VAR_use_tls_routing="true"

If set to the string true, Teleport will use TLS routing to multiplex all traffic over a single port. This setting should always be used unless you have a specific need to use separate ports in your setup, as it simplifies deployment.

When using this starter-cluster deployment, if ACM is enabled, TLS routing will automatically be enabled too.

teleport_auth_type

export TF_VAR_teleport_auth_type="local"

This value can be used to change the default authentication type used for the Teleport cluster. This is useful for persisting a default authentication type across AMI upgrades when you have a SAML, OIDC or GitHub connector configured in DynamoDB. The default is local.

  • Teleport Community Edition supports local or github
  • Teleport Enterprise Edition supports local, github, oidc, or saml
  • Teleport Enterprise FIPS deployments have local authentication disabled, so should use github, oidc, or saml

See the Teleport authentication reference for more information.

Reference deployment defaults

Instances

Our reference deployment will provision one instance for your cluster.

If using ACM, an Application Load Balancer is configured with an ACM certificate that provides a secure connection to the Teleport instance.

If using Let's Encrypt, no load balancer is configured and traffic goes straight to the instance, secured by a certificate issued by Let's Encrypt.

Cluster state database storage

The reference Terraform deployment sets Teleport up to store its cluster state database in DynamoDB. The name of the table for cluster state will be the same as the cluster name configured in the cluster_name variable above.

In our example, the DynamoDB table would be called teleport-example.

More information about how Teleport works with DynamoDB can be found in our Storage Backends guide.

Audit event storage

The reference Terraform deployment sets Teleport up to store cluster audit logs in DynamoDB. The name of the table for audit event storage will be the same as the cluster name configured in the cluster_name variable above with -events appended to the end.

In our example, the DynamoDB table would be called teleport-example-events.

More information about how Teleport works with DynamoDB can be found in our Storage Backends guide.

Recorded session storage

The reference Terraform deployment sets Teleport up to store recorded session logs in the same S3 bucket configured in the s3_bucket_name variable, under the records directory.

In our example this would be s3://teleport-example/records

Tip

S3 provides Amazon S3 Object Lock, which is useful for customers deploying Teleport in regulated environments. Configuration of object lock is out of the scope of this guide.

Cluster domain

The reference Terraform deployment sets the Teleport cluster up to be available on a domain defined in Route 53, referenced by the route53_domain variable. In our example this would be teleport.example.com.

Teleport's web interface will be available on port 443 of your Teleport cluster host.

When using ACM, this is an A record aliased to the AWS Application Load Balancer.

When using Let's Encrypt, this is an A record pointing to the instance's public IP.

With use_tls_routing set to true, all Teleport SSH, tunnel, Kubernetes and database traffic will also flow through port 443 on the same hostname as set in route53_domain.

With use_tls_routing set to false:

  • The SSH interface of the Teleport Proxy Service will be available via the cluster's hostname on port 3023. This is the default port used when connecting with the tsh client and will not require any additional configuration.
  • The reverse tunnel listener of the Teleport Proxy Service will be available via the cluster's hostname on port 3024. This allows trusted clusters and nodes connected via reverse tunnel to access the cluster.
  • The Kubernetes listener of the Teleport Proxy Service will be available via the cluster's hostname on port 3026. This allows Kubernetes clients to access Kubernetes clusters via the Teleport cluster.
  • If the MongoDB listener port is enabled, it will be available via the cluster's hostname on port 27017. This allows clients to connect to MongoDB databases registered with the Teleport cluster.
  • If the MySQL listener port is enabled, it will be available via the cluster's hostname on port 3036. This allows clients to connect to MySQL databases registered with the Teleport cluster.
  • If the Postgres listener port is enabled, it will be available via the cluster's hostname on port 5432. This allows clients to connect to Postgres databases registered with the Teleport cluster.

Deploying with Terraform

Once you have set values for and exported all the variables detailed above, you should run terraform plan to validate the configuration.

terraform plan

Refreshing Terraform state in-memory prior to plan...

The refreshed state will be used to calculate this plan, but will not be

persisted to local or remote state storage.


data.template_file.monitor_user_data: Refreshing state...

data.aws_kms_alias.ssm: Refreshing state...

data.aws_caller_identity.current: Refreshing state...

data.aws_ami.base: Refreshing state...

data.aws_availability_zones.available: Refreshing state...

data.aws_route53_zone.proxy: Refreshing state...

data.aws_region.current: Refreshing state...


------------------------------------------------------------------------


An execution plan has been generated and is shown below.

Resource actions are indicated with the following symbols:

+ create

<= read (data resources)


Terraform will perform the following actions:

<output trimmed>


Plan: 30 to add, 0 to change, 0 to destroy.
Changes to Outputs: + cluster_name = "example-cluster" + cluster_web_address = "https://teleport.example.com" + instance_ip_public = (known after apply) + key_name = "example"
Do you want to perform these actions? Terraform will perform the actions described above. Only 'yes' will be accepted to approve.
Enter a value: yes
------------------------------------------------------------------------
Note: You didn't specify an "-out" parameter to save this plan, so Terraformcan't guarantee that exactly these actions will be performed if"terraform apply" is subsequently run.

This looks good (no errors produced by Terraform) so we can run terraform apply:

terraform apply

<output trimmed>


Plan: 30 to add, 0 to change, 0 to destroy.


Do you want to perform these actions?

Terraform will perform the actions described above.

Only 'yes' will be accepted to approve.


Enter a value:

Entering yes here will start the Terraform deployment. It takes around 5 minutes to deploy in full.

Destroy/shut down a Terraform deployment

If you need to tear down a running deployment for any reason, you can run terraform destroy.

Accessing the cluster after Terraform setup

Once the Terraform setup is finished, the URL to your Teleport cluster's web UI will be set in the cluster_web_address Terraform output.

You can see this after deploy by running terraform output -raw cluster_web_address:

terraform output -raw cluster_web_address
https://teleport.example.com

Adding an admin user to the Teleport cluster

To add users to the Teleport cluster, you will need to connect to the Teleport cluster host via SSH and run the tctl command.

  1. Use the key name and server IP to SSH into the Teleport cluster host. Make sure that the AWS keypair that you specified in the key_name variable is available in the current directory, or update the -i parameter to point to it:

    ssh -i $(terraform output -raw key_name).pem ec2-user@$(terraform output -raw instance_ip_public)

    The authenticity of host '1.2.3.4 (1.2.3.4)' can't be established.

    ECDSA key fingerprint is SHA256:vFPnCFliRsRQ1Dk+muIv2B1Owm96hXiihlOUsj5H3bg.

    Are you sure you want to continue connecting (yes/no/[fingerprint])? yes

    Warning: Permanently added '1.2.3.4' (ECDSA) to the list of known hosts.

    Last login: Tue Mar 3 18:57:12 2020 from 1.2.3.5


    __| __|_ )

    _| ( / Amazon Linux 2 AMI

    ___|\___|___|


    https://aws.amazon.com/amazon-linux-2/

    1 package(s) needed for security, out of 6 available

    Run "sudo yum update" to apply all updates.

    [ec2-user@ip-172-31-29-119 ~]$

  2. Use the tctl command to create an admin user for Teleport:

    On the Teleport cluster host

    sudo tctl users add teleport-admin --roles=editor,access --logins=root,ec2-user

    User "teleport-admin" has been created but requires a password. Share this URL with the user to complete user setup, link is valid for 1h:

    https://teleport.example.com:443/web/newuser/6489ae886babf4232826076279bcb2fb


    NOTE: Make sure teleport.example.com:443 points at a Teleport proxy which users can access.

    On the Teleport cluster host

    sudo tctl users add teleport-admin --roles=editor,access,reviewer --logins=root,ec2-user

    User "teleport-admin" has been created but requires a password. Share this URL with the user to complete user setup, link is valid for 1h:

    https://teleport.example.com:443/web/newuser/6489ae886babf4232826076279bcb2fb


    NOTE: Make sure teleport.example.com:443 points at a Teleport proxy which users can access.

  3. Click the link to launch the Teleport web UI and finish setting up your user. You can choose whether to use a WebAuthn-compatible hardware key (like a Yubikey, passkey or Touch ID) or a scan a QR code with a TOTP-compatible app like Google Authenticator or Authy. You will also set a password for the teleport-admin user on this page.

    Once this user is successfully configured, you should be logged into the Teleport web UI.

Logging into the cluster with tsh

You can use the Teleport command line tool (tsh) to log into your Teleport cluster after provisioning a user.

You can download the Teleport package containing the tsh client from here

  • The client is the same for both Teleport Community Edition and Teleport Enterprise.

When logging in with tsh, the https:// at the beginning of the URL is not needed

export PROXY_ADDRESS=$(terraform output -raw cluster_web_address | sed 's_https://__')
tsh login --proxy=${PROXY_ADDRESS} --user=teleport-admin

Enter password for Teleport user teleport-admin:

Tap any security key

Detected security key tap

> Profile URL: https://teleport.example.com:443

Logged in as: teleport-admin

Cluster: example-cluster

Roles: editor, access

Logins: root

Valid until: 2023-10-06 22:07:11 -0400 AST [valid for 12h0m0s]

Extensions: permit-agent-forwarding, permit-port-forwarding, permit-pty


tsh ls

Node Name Address Labels

---------------------------- ----------------- ------

ip-172-31-11-69-ec2-internal 172.31.11.69:3022


tsh ssh root@ip-172-31-11-69-ec2-internal

[root@ip-172-31-11-69 ~]#

When logging in with tsh, the https:// at the beginning of the URL is not needed

export PROXY_ADDRESS=$(terraform output -raw cluster_web_address | sed 's_https://__')
tsh login --proxy=${PROXY_ADDRESS} --user=teleport-admin

Enter password for Teleport user teleport-admin:

Tap any security key

Detected security key tap

> Profile URL: https://teleport.example.com:443

Logged in as: teleport-admin

Cluster: example-cluster

Roles: editor, access, reviewer

Logins: root

Valid until: 2023-10-06 22:07:11 -0400 AST [valid for 12h0m0s]

Extensions: permit-agent-forwarding, permit-port-forwarding, permit-pty


tsh ls

Node Name Address Labels

---------------------------- ----------------- ------

ip-172-31-11-69-ec2-internal 172.31.11.69:3022


tsh ssh root@ip-172-31-11-69-ec2-internal

[root@ip-172-31-11-69 ~]#

Restarting/checking the Teleport service

The systemd service name is different between Let's Encrypt (teleport.service) and ACM (teleport-acm.service).

You are using ACM if your use_acm variable is set to "true".

systemctl status teleport-acm.service
● teleport-acm.service - Teleport Service (ACM) Loaded: loaded (/etc/systemd/system/teleport-acm.service; static; vendor preset: disabled) Active: active (running) since Thu 2023-09-21 20:35:32 UTC; 9min agoMain PID: 2483 (teleport) CGroup: /system.slice/teleport-acm.service └─2483 /usr/local/bin/teleport start --config=/etc/teleport.yaml --diag-addr=127.0.0.1:3000 --pid-file=/run/teleport/teleport.pid
Sep 21 20:43:12 ip-172-31-29-119.ec2.internal teleport[2483]: 2023-09-21T20:43:12Z [AUDIT] INFO session.data addr.local:127.0.0.1:443 addr.remote:1.2.3.4:25362 cluster_name:teleport-example code:T2006I ei:2.147483646e+09 event:se...Sep 21 20:43:17 ip-172-31-29-119.ec2.internal teleport[2483]: 2023-09-21T20:43:17Z [SESSION:N] INFO Stopping session session_id:ca17914c-e0d5-42c1-9407-fa7a5c2dc163...Sep 21 20:43:17 ip-172-31-29-119.ec2.internal teleport[2483]: 2023-09-21T20:43:17Z [AUDIT] INFO session.end addr.remote:1.2.3.4:25362 cluster_name:teleport-example code:T2004I ei:28 enhanced_recording:false event:s...ver_hostname:ip

You can get detailed logs for the Teleport Proxy Service using the journalctl command:

journalctl -u teleport-acm.service

You are using LetsEncrypt if your use_acm variable is set to "false".

systemctl status teleport.service
● teleport.service - Teleport Service Loaded: loaded (/etc/systemd/system/teleport.service; static; vendor preset: disabled) Active: active (running) since Thu 2023-09-21 20:35:32 UTC; 9min agoMain PID: 2483 (teleport) CGroup: /system.slice/teleport.service └─2483 /usr/local/bin/teleport start --config=/etc/teleport.yaml --diag-addr=127.0.0.1:3000 --pid-file=/run/teleport/teleport.pid
Sep 21 20:43:12 ip-172-31-29-119.ec2.internal teleport[2483]: 2023-09-21T20:43:12Z [AUDIT] INFO session.data addr.local:127.0.0.1:443 addr.remote:1.2.3.4:25362 cluster_name:teleport-example code:T2006I ei:2.147483646e+09 event:se...Sep 21 20:43:17 ip-172-31-29-119.ec2.internal teleport[2483]: 2023-09-21T20:43:17Z [SESSION:N] INFO Stopping session session_id:ca17914c-e0d5-42c1-9407-fa7a5c2dc163...Sep 21 20:43:17 ip-172-31-29-119.ec2.internal teleport[2483]: 2023-09-21T20:43:17Z [AUDIT] INFO session.end addr.remote:1.2.3.4:25362 cluster_name:teleport-example code:T2004I ei:28 enhanced_recording:false event:s...ver_hostname:ip

You can get detailed logs for the Teleport Proxy Service using the journalctl command:

journalctl -u teleport.service

Adding agents to your Teleport cluster

The easiest way to quickly join new resources to your cluster is to use the "Enroll New Resource" wizards in the Teleport web UI.

Customers run many workloads within AWS and depending on how you work, there are many manual ways to integrate Teleport onto your servers. We recommend looking at our Installation guide.

To add new nodes/EC2 servers that you can "SSH into" you'll need to:

Troubleshooting

AWS quotas

If your deployment of Teleport services brings you over your default service quotas, you can request a quota increase from the AWS Support Center. See Amazon's AWS service quotas documentation for more information.

For example, when using DynamoDB as the backend for Teleport cluster state, you may need to request increases for read/write quotas.