Teleport
Database Access with AWS RDS and Aurora for PostgreSQL, MySQL and MariaDB
Version preview- Older Versions
Teleport can provide secure access to Amazon RDS or Aurora via the Teleport Database Service. This allows for fine-grained access control through Teleport's RBAC.
In this guide, you will:
- Configure your Amazon RDS or Aurora database with IAM authentication.
- Add the database to your Teleport cluster.
- Connect to the database via Teleport.
How it works
The Teleport Database Service uses IAM authentication to communicate with RDS. When a user connects to the database via Teleport, the Teleport Database Service obtains AWS credentials and authenticates to AWS as an IAM principal with permissions to manage the database.
The following products are not compatible with Teleport as they don't support IAM authentication:
- Aurora Serverless v1.
- RDS MariaDB versions lower than 10.6.
We recommend upgrading Aurora Serverless v1 to Aurora Serverless v2, which supports IAM authentication.
This guide shows how to register a single RDS with your Teleport cluster. For a more scalable approach, learn how to set up Database Auto-Discovery to automatically enroll all AWS databases in your infrastructure.
Prerequisites
-
A running Teleport cluster version 15.4.22 or above. If you want to get started with Teleport, sign up for a free trial or set up a demo environment.
-
The
tctl
admin tool andtsh
client tool.On Teleport Enterprise, you must use the Enterprise version of
tctl
, which you can download from your Teleport account workspace. Otherwise, visit Installation for instructions on downloadingtctl
andtsh
for Teleport Community Edition.
-
AWS account with RDS and Aurora databases and permissions to create and attach IAM policies.
IAM authenticationYour RDS and Aurora databases must have password and IAM authentication enabled.
If IAM authentication is not enabled on the target RDS and Aurora databases, the Database Service will attempt to enable IAM authentication by modifying them using respective APIs.
-
A Linux host or Amazon Elastic Kubernetes Service cluster where you will run the Teleport Database Service, which proxies connections to your RDS databases.
-
To check that you can connect to your Teleport cluster, sign in with
tsh login
, then verify that you can runtctl
commands using your current credentials.tctl
is supported on macOS and Linux machines.For example:
tsh login --proxy=teleport.example.com --user=email@example.comtctl statusCluster teleport.example.com
Version 15.4.22
CA pin sha256:abdc1245efgh5678abdc1245efgh5678abdc1245efgh5678abdc1245efgh5678
If you can connect to the cluster and run the
tctl status
command, you can use your current credentials to run subsequenttctl
commands from your workstation. If you host your own Teleport cluster, you can also runtctl
commands on the computer that hosts the Teleport Auth Service for full permissions.
If you plan to run the Teleport Database Service on Kubernetes, you will need the following:
-
The
aws
CLI in your PATH. Install it by following the AWS documentation. -
An IAM OIDC provider running in your Kubernetes cluster. See the AWS documentation for how to create an IAM OIDC provider.
To check whether you have an IAM OIDC provider running in your cluster, run the following
aws
command, assigning eks-region to the region where your EKS cluster is running and cluster-name to the name of your Kubernetes cluster:aws --region=eks-region eks describe-cluster --name cluster-name --query "cluster.identity.oidc.issuer" --output textIf you have an IAM OIDC provider associated with your cluster, this command will print its ID.
-
The
jq
CLI tool, which we use to process JSON data in this guide.
Step 1/6. Create a Teleport user
To modify an existing user to provide access to the Database Service, see Database Access Controls
Create a local Teleport user with the built-in access
role:
tctl users add \ --roles=access \ --db-users="*" \ --db-names="*" \ alice
Create a local Teleport user with the built-in access
and requester
roles:
tctl users add \ --roles=access,requester \ --db-users="*" \ --db-names="*" \ alice
Flag | Description |
---|---|
--roles | List of roles to assign to the user. The builtin access role allows them to connect to any database server registered with Teleport. |
--db-users | List of database usernames the user will be allowed to use when connecting to the databases. A wildcard allows any user. |
--db-names | List of logical databases (aka schemas) the user will be allowed to connect to within a database server. A wildcard allows any database. |
Database names are only enforced for PostgreSQL, MongoDB, and Cloud Spanner databases.
For more detailed information about database access controls and how to restrict access see RBAC documentation.
Step 2/6. Create a Database Service configuration
In this section, you will configure the Teleport Database Service. To do so, you will:
- Create a join token for the service to demonstrate trust with your Teleport cluster.
- Set up your package manager so you can install and run the Database Service.
- Generate a configuration for the Database Service.
Create a join token
Establish trust between the Teleport Database Service and your Teleport cluster by creating a join token.
Generate a join token by running the following command on your workstation:
tctl tokens add --type=db
The next step depends on how you plan to run the Teleport Database Service:
Save the token in a file called /tmp/token
on the host that will run the
Database Service.
Later in this guide, you will use this join token when configuring the Teleport Database Service.
For users with a lot of infrastructure in AWS, or who might create or recreate many instances, consider alternative methods for joining new EC2 instances running Teleport:
Prepare your environment
Next, get your environment ready to run the Teleport Database Service:
Install Teleport on your Linux server:
-
Assign edition to one of the following, depending on your Teleport edition:
Edition Value Teleport Enterprise Cloud cloud
Teleport Enterprise (Self-Hosted) enterprise
Teleport Community Edition oss
-
Get the version of Teleport to install. If you have automatic agent updates enabled in your cluster, query the latest Teleport version that is compatible with the updater:
TELEPORT_DOMAIN=example.teleport.comTELEPORT_VERSION="$(curl https://$TELEPORT_DOMAIN/v1/webapi/automaticupgrades/channel/default/version | sed 's/v//')"Otherwise, get the version of your Teleport cluster:
TELEPORT_DOMAIN=example.teleport.comTELEPORT_VERSION="$(curl https://$TELEPORT_DOMAIN/v1/webapi/ping | jq -r '.server_version')" -
Install Teleport on your Linux server:
curl https://cdn.teleport.dev/install-v15.4.22.sh | bash -s ${TELEPORT_VERSION} editionThe installation script detects the package manager on your Linux server and uses it to install Teleport binaries. To customize your installation, learn about the Teleport package repositories in the installation guide.
Provide the following information and then generate a configuration file for the Teleport Database Service:
- example.teleport.sh:443 The host and port of your Teleport Proxy Service or cloud-hosted Teleport Enterprise site
- protocol The protocol of the database you want to proxy, either
mysql
orpostgres
- endpoint:port The endpoint and port of the database - the
cluster endpoint for Aurora or the instance endpoint for an RDS instance, e.g.
myrds.us-east-1.rds.amazonaws.com:5432
sudo teleport db configure create \ -o file \ --name=rds-example \ --proxy=example.teleport.sh:443 \ --protocol=protocol \ --uri=endpoint:port \ --labels=env=dev \ --token=/tmp/token
The command will generate a Teleport Database Service configuration file and
place it at the /etc/teleport.yaml
location.
Set up the Teleport Helm repository.
Allow Helm to install charts that are hosted in the Teleport Helm repository:
helm repo add teleport https://charts.releases.teleport.dev
Update the cache of charts from the remote repository so you can upgrade to all available releases:
helm repo update
Step 3/6. Create IAM policies for Teleport
The Teleport Database Service needs AWS IAM permissions to be able to configure IAM authentication for RDS instances and Aurora clusters.
In this step, we will show you how to provide the Teleport Database Service access to AWS credentials:
Follow these instructions on your Linux host.
Grant the Database Service access to credentials that it can use to authenticate to AWS. If you are running the Database Service on an EC2 instance, you may use the EC2 Instance Metadata Service method. Otherwise, you must use environment variables:
Teleport will detect when it is running on an EC2 instance and use the Instance Metadata Service to fetch credentials.
The EC2 instance should be configured to use an EC2 instance profile. For more information, see: Using Instance Profiles.
Teleport's built-in AWS client reads credentials from the following environment variables:
AWS_ACCESS_KEY_ID
AWS_SECRET_ACCESS_KEY
AWS_DEFAULT_REGION
When you start the Database Service, the service reads environment variables from a
file at the path /etc/default/teleport
. Obtain these credentials from your
organization. Ensure that /etc/default/teleport
has the following content,
replacing the values of each variable:
AWS_ACCESS_KEY_ID=00000000000000000000
AWS_SECRET_ACCESS_KEY=0000000000000000000000000000000000000000
AWS_DEFAULT_REGION=<YOUR_REGION>
Teleport's AWS client loads credentials from different sources in the following order:
- Environment Variables
- Shared credentials file
- Shared configuration file (Teleport always enables shared configuration)
- EC2 Instance Metadata (credentials only)
While you can provide AWS credentials via a shared credentials file or shared
configuration file, you will need to run the Database Service with the AWS_PROFILE
environment variable assigned to the name of your profile of choice.
If you have a specific use case that the instructions above do not account for, consult the documentation for the AWS SDK for Go for a detailed description of credential loading behavior.
Teleport can bootstrap IAM permissions for the Database Service based on its
configuration using the teleport db configure bootstrap
command. You can use
this command in automatic or manual mode:
- In automatic mode, Teleport will attempt to create appropriate IAM policies and attach them to the specified IAM identity role. This requires IAM permissions to create and attach IAM policies.
- In manual mode, Teleport will print required IAM policies. You can then create and attach them manually using the AWS management console.
Use this command to bootstrap the permissions automatically when your Teleport Database Service runs as an IAM role (for example, on an EC2 instance with an attached IAM role).
teleport db configure bootstrap -c /etc/teleport.yaml --attach-to-role TeleportRole
Use this command to display required IAM policies which you will then create in your AWS console:
teleport db configure bootstrap -c /etc/teleport.yaml --manual --attach-to-role arn:aws:iam::123456789012:role/TeleportRole
When assume_role_arn
is configured for databases or AWS matchers,
teleport db configure bootstrap
will determine permissions required for the
bootstrap target AWS IAM identity using the following logic:
- When the target does not match
assume_role_arn
in any database resource or AWS matcher in the configuration file, the target is assumed to be the Teleport Database Service's AWS IAM identity and permissions are bootstrapped for all the configured static databases and AWS matchers. - When an
--attach-to-role
target matches anassume_role_arn
setting for static databases or AWS matchers in the configuration file, permissions will be bootstrapped only for those static databases or AWS matchers.
You will need to run the bootstrap command once with the Teleport Database
Service's IAM identity as the policy attachment target, and once for each AWS
IAM role that is used for assume_role_arn
.
Teleport uses rds:ModifyDBInstance
and rds:ModifyDBCluster
to automatically
enable IAM authentication on the RDS instance and the Aurora cluster,
respectively. You can omit these permissions if IAM authentication is already
enabled.
Follow these instructions on your local workstation.
Create an IAM policy document that allows an IAM identity to connect to your RDS
database. Assign rds-region to the name of the AWS region where
your RDS database is running, aws-account to your AWS account
number, and resource-id to the resource ID of your RDS database
or the cluster ID of your Aurora cluster (e.g.,
db-AAAAAAAAAAAAAAAAAAAAAAAAAA
):
cat > connect.json << EOF{ "Version": "2012-10-17", "Statement": [ { "Effect": "Allow", "Action": [ "rds-db:connect" ], "Resource": [ "arn:aws:rds-db:rds-region:aws-account:dbuser:resource-id/*" ] } ]}EOF
Create the IAM policy:
aws iam create-policy --policy-name teleport-rds-policy --policy-document file://connect.json{ "Policy": { "PolicyName": "teleport-rds-policy", "PolicyId": "000000000000000000000", "Arn": "arn:aws:iam::000000000000:policy/teleport-rds-policy", "Path": "/", "DefaultVersionId": "v1", "AttachmentCount": 0, "PermissionsBoundaryUsageCount": 0, "IsAttachable": true, "CreateDate": "2023-07-13T18:03:08+00:00", "UpdateDate": "2023-07-13T18:03:08+00:00" }}
Next, create a trust policy for the teleport-rds-role
, which allows the role
to obtain temporary credentials via the IAM OIDC provider.
Retrieve your OIDC issuer ID, assigning cluster-name to the name of your EKS cluster and eks-region to the AWS region where your EKS cluster is running:
aws eks describe-cluster --name cluster-name --region eks-region | jq -r .cluster.identity.oidc.issuer | grep -Eo "[A-Z0-9]+$"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
Create a file called trustpolicy.json
with the following content, assigning
oidc-issuer to the issuer string you retrieved:
{ "Version": "2012-10-17", "Statement": [ { "Effect": "Allow", "Principal": { "Federated": "arn:aws:iam::aws-account:oidc-provider/oidc.eks.eks-region.amazonaws.com/id/oidc-issuer" }, "Action": "sts:AssumeRoleWithWebIdentity", "Condition": { "StringEquals": { "oidc.eks.eks-region.amazonaws.com/id/oidc-issuer:aud": "sts.amazonaws.com" } } } ]}
Create an IAM role with your trust policy. On success, the command will show the IAM resource you created:
aws iam create-role --role-name teleport-rds-role --assume-role-policy-document file://trustpolicy.json
Attach the role to the policy you created earlier. On success, this command will show no output:
aws iam attach-role-policy --policy-arn arn:aws:iam::aws-account:policy/teleport-rds-policy --role-name teleport-rds-role
Step 4/6. Start the Database Service
Start the Teleport Database Service in your environment:
Configure the Database Service to start automatically when the host boots up by creating a systemd service for it. The instructions depend on how you installed the Database Service.
On the host where you will run the Database Service, enable and start Teleport:
sudo systemctl enable teleportsudo systemctl start teleport
On the host where you will run the Database Service, create a systemd service configuration for Teleport, enable the Teleport service, and start Teleport:
sudo teleport install systemd -o /etc/systemd/system/teleport.servicesudo systemctl enable teleportsudo systemctl start teleport
You can check the status of the Database Service with systemctl status teleport
and view its logs with journalctl -fu teleport
.
Retrieve the join token you created earlier in this guide by running the
following command and copying a token with the Db
type:
tctl tokens lsToken Type Labels Expiry Time (UTC)-------------------------------- ---- ------ ----------------------------abcd123-insecure-do-not-use-this Db 14 Jun 23 21:21 UTC (20m15s)
Create a Helm values file called values.yaml
, assigning token
to the value of the join token you retrieved above, example.teleport.sh:443 to the host and port of your Teleport
Proxy Service, and endpoint:port to the host and port of your RDS
database (e.g., myrds.us-east-1.rds.amazonaws.com:5432
):
authToken: tokenproxyAddr: example.teleport.sh:443roles: dbdatabases:- name: example uri: "endpoint:port" protocol: protocol static_labels: env: devannotations: serviceAccount: eks.amazonaws.com/role-arn: arn:aws:iam::aws-account:role/teleport-rds-role
Install the Helm chart for Teleport agent services, teleport-kube-agent
:
helm -n teleport-agent install teleport-kube-agent teleport/teleport-kube-agent \ --values values.yaml --create-namespace
Make sure that the Teleport agent pod is running. You should see one
teleport-kube-agent
pod with a single ready container:
kubectl -n teleport-agent get podsNAME READY STATUS RESTARTS AGEteleport-kube-agent-0 1/1 Running 0 32s
Step 5/6. Create a database IAM user
Database users must allow IAM authentication in order to be used with Database
Access for RDS. See below how to enable it for the user alice
on your database
engine. In the next step, we will authenticate to the database as the alice
user via the user's Teleport account.
PostgreSQL users must have a rds_iam
role:
CREATE USER alice;
GRANT rds_iam TO alice;
MySQL and MariaDB users must have the RDS authentication plugin enabled:
CREATE USER alice IDENTIFIED WITH AWSAuthenticationPlugin AS 'RDS';
Created user may not have access to anything by default so let's grant it some permissions:
GRANT ALL ON `%`.* TO 'alice'@'%';
See Creating a database account using IAM authentication for more information.
Step 6/6. Connect
Once the Database Service has started and joined the cluster, log in as the
alice
user you created earlier to see the registered databases:
tsh login --proxy=example.teleport.sh:443 --user=alicetsh db lsName Description Labels
----------- ----------- --------
rds-example env=dev
Retrieve credentials for the database and connect to it as the alice
user:
tsh db connect --db-user=alice --db-name=postgres rds-example
The appropriate database command-line client (psql
, mysql
, mariadb
) should be
available in PATH
in order to be able to connect.
Log out of the database and remove credentials:
tsh db logout rds-example
Troubleshooting
Certificate error
If your tsh db connect
error includes the following text, you likely have an RDS database created before July 28, 2020, which presents an X.509 certificate that is incompatible with Teleport:
x509: certificate relies on legacy Common Name field, use SANs instead
AWS provides instructions to rotate your SSL/TLS certificate.
No credential providers error
If you see the error NoCredentialProviders: no valid providers in chain
in Database Service logs then Teleport
is not detecting the required credentials to connect via AWS IAM permissions. Check whether
the credentials or security role has been applied in the machine running the Teleport Database Service.
When running on EKS, this error may occur if the Teleport Database Service cannot access IMDSv2 when the PUT requests hop limit on the worker node instance is set to 1. You can use the following commands to check the hop limit:
aws ec2 describe-instances --instance-ids <node-instance-id> | grep HttpPutResponseHopLimit"HttpPutResponseHopLimit": 1,
See IMDSv2 support for EKS and EKS best practices for more details.
Timeout errors
The Teleport Database Service needs connectivity to your database endpoints. That may require
enabling inbound traffic on the database from the Database Service on the same VPC or routing rules from another VPC. Using the nc
program you can verify connections to databases:
nc -zv postgres-instance-1.sadas.us-east-1.rds.amazonaws.com 5432Connection to postgres-instance-1.sadas.us-east-1.rds.amazonaws.com (172.31.24.172) 5432 port [tcp/postgresql] succeeded!
Not authorized to perform sts:AssumeRole
The Database Service assumes an IAM role in one of following situations:
- An IAM role is used as
db_user
when accessing AWS services that require IAM roles as database users, such as DynamoDB, Keyspaces, Opensearch, and Redshift Serverless. - The
assume_role_arn
field is specified for the database resources or dynamic resource matchers.
When both of the above conditions are true for a database connection, the
Database Service performs a role chaining by assuming the IAM role specified
assume_role_arn
first then using that IAM role to assume the IAM role for
db_user
.
You may encounter the following error if the trust relationship is not configured properly between the IAM roles:
AccessDenied: User: arn:aws:sts::111111111111:assumed-role/database-service-role/i-* is not authorized to perform: sts:AssumeRole on resource: arn:aws:iam::111111111111:role/database-user-role
To allow IAM Role role1
to assume IAM Role role2
, the following is
generally required:
role1
or its AWS account should be set as Principal
in role2
's trust
policy.
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": {
"AWS": "arn:aws:iam::aws-account-id:role/role1"
},
"Action": "sts:AssumeRole"
}
]
}
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": {
"AWS": "arn:aws:iam::aws-account-id:root"
},
"Action": "sts:AssumeRole"
}
]
}
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": {
"AWS": "arn:aws:iam::external-aws-account-id:role/role1"
},
"Action": "sts:AssumeRole",
"Condition": {
"StringEquals": {
"sts:ExternalId": "example-external-id"
}
}
}
]
}
role1
requires sts:AssumeRole
permissions, for example:
{
"Version": "2012-10-17",
"Statement": [
{
"Action": "sts:AssumeRole",
"Effect": "Allow",
"Resource": "arn:aws:iam::aws-account-id:role/role2"
}
]
}
Note that this policy can be omitted when role1
and role2
are in the same
AWS account and role1
's full ARN is configured as Principal in role2
's
trust policy.
role1
also requires sts:AssumeRole
permissions in its boundary policy, for
example:
{
"Version": "2012-10-17",
"Statement": [
{
"Action": "sts:AssumeRole",
"Effect": "Allow",
"Resource": "*"
}
]
}
Note that this is only required when a boundary policy is attached to role1
.
You can test the trust relationship by running this AWS CLI command as role1
:
aws sts assume-role --role-arn arn:aws:iam::111111111111:role/role2 --role-session-name test-trust-relationship
Learn more on how to use trust policies with IAM roles.
Maximum policy size exceeded errors
Due to IAM and STS character limits, you may encounter one of the following errors in the Database Service logs when large numbers of databases are registered:
LimitExceeded: Maximum policy size of 2048 bytes exceeded for user <iam-user>
LimitExceeded: Maximum policy size of 10240 bytes exceeded for role <iam-role>
For reference, a user policy can maintain permissions for approximately 6 Redshift databases, or 20 RDS databases due to the IAM policy character limits. A role policy can maintain permissions for approximately 30 Redshift databases, or 100 RDS databases.
To get around this limit, try using one or a combination of the following methods:
You can reduce the policy size by separating them into multiple IAM roles. Use
assume_role_arn
to specify different IAM roles for accessing the databases:
You can specify assume_role_arn
in the AWS matchers of Discovery Service's
configuration:
discovery_service:
enabled: "yes"
aws:
- types: ["rds"]
regions: ["us-west-1", "us-west-2"]
assume_role_arn: "arn:aws:iam::123456789012:role/example-role-rds-env-prod-discovery"
tags:
"env": "prod"
- types: ["redshift", "redshift-serverless"]
regions: ["us-west-2"]
assume_role_arn: "arn:aws:iam::123456789012:role/example-role-redshift-env-dev"
tags:
"env": "dev"
The Discovery Service will use the IAM roles specified in assume_role_arn
for discovery, and by default the Database Service will use the same IAM
roles for authentication.
However, you can also overwrite the IAM roles for authentication by Database Service if you wish to use different roles:
db_service:
enabled: "yes"
resources:
# Matches us-west-1 env=prod RDS databases from Discovery Service, and
# overwrites assume_role_arn.
- labels:
"env": "prod"
"region": "us-west-1"
aws:
assume_role_arn: "arn:aws:iam::123456789012:role/example-role-rds-env-prod-us-west-1-access"
# Matches us-west-2 env=prod RDS databases from Discovery Service, and
# overwrites assume_role_arn.
- labels:
"env": "prod"
"region": "us-west-2"
aws:
assume_role_arn: "arn:aws:iam::123456789012:role/example-role-rds-env-prod-us-west-2-access"
# Matches env=dev Redshift databases from Discovery Service and inherits
# "arn:aws:iam::123456789012:role/example-role-redshift-env-dev"
- labels:
"env": "dev"
Teleport generates certain labels derived from the cloud resource attributes during discovery. See Auto-Discovery labels /labels/#auto-discovery) for more details.
Create or print the required IAM policies with the following commands and attach them to the respective IAM roles:
teleport db configure aws create-iam --types redshift,redshift-serverless --name teleport-redshift-accessteleport db configure aws print-iam --types redshift,redshift-serverless
Refer to the command usage for a complete list of database types supported by
the --types
option.
You can specify assume_role_arn
in the AWS matchers of Database Service's
configuration:
db_service:
enabled: "yes"
aws:
- types: ["rds"]
regions: ["us-west-1", "us-west-2"]
assume_role_arn: "arn:aws:iam::123456789012:role/example-role-rds-env-prod"
tags:
"env": "prod"
- types: ["redshift", "redshift-serverless"]
regions: ["us-west-2"]
assume_role_arn: "arn:aws:iam::123456789012:role/example-role-redshift-env-dev"
tags:
"env": "dev"
The Database Service will use the IAM roles specified assume_role_arn
for
both discovery and authentication.
To bootstrap IAM permissions, run the bootstrap command for each assume_role_arn
:
teleport db configure bootstrap \ -c /etc/teleport.yaml \ --policy-name teleport-policy-rds-env-prod \ --attach-to-role "arn:aws:iam::123456789012:role/example-role-rds-env-prod"
You can specify aws.assume_role_arn
when defining databases in Database
Service's configuration:
db_service:
enabled: "yes"
databases:
- name: "rds-postgres"
protocol: "postgres"
uri: "rds-postgres.abcdef012345.us-west-1.rds.amazonaws.com:5432"
aws:
assume_role_arn: "arn:aws:iam::123456789012:role/example-rds-access-role"
To bootstrap IAM permissions, run the bootstrap command for each assume_role_arn
:
teleport db configure bootstrap \ -c /etc/teleport.yaml \ --policy-name teleport-policy-rds-access \ --attach-to-role "arn:aws:iam::123456789012:role/example-rds-access-role"
You can specify aws.assume_role_arn
when defining databases:
kind: db
version: v3
metadata:
name: "rds-postgres"
labels:
env: "dev"
spec:
protocol: "postgres"
uri: "rds-postgres.abcdef012345.us-west-1.rds.amazonaws.com:5432"
aws:
assume_role_arn: "arn:aws:iam::123456789012:role/example-rds-access-role"
Alternatively, you can overwrite the IAM roles for authentication by Database Service:
db_service:
enabled: "yes"
resources:
# Matches env=dev databases and overwrites assume_role_arn.
- labels:
"env": "dev"
aws:
assume_role_arn: "arn:aws:iam::123456789012:role/example-env-dev-access"
# Matches env=prod database, and use the assume_role_arn in the database's
# definition or use the host IAM identity if assume_role_arn is empty.
- labels:
"env": "prod"
Create or print the required IAM policies with the following commands and attach them to the respective IAM roles:
teleport db configure aws create-iam --types rds --name teleport-rds-accessteleport db configure aws print-iam --types rds
Refer to the command usage for a complete list of database types supported by
the --types
option.
The IAM roles specified in assume_role_arn
must
trust
the IAM identity of the host running the Database Service.
The assume_role_arn
is not limited to the same AWS account so you can also
use this feature for AWS Cross-Account
Access.
You can manually manage IAM policies for database connections instead of relying on the Database Service to update them.
For example, you can limit the character size by attaching a policy with a wildcard "*" for "Resource":
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": "rds-db:connect",
"Resource": "*"
}
]
}
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": "redshift:GetClusterCredentials",
"Resource": "*"
}
]
}
You can safely remove the inline policy created by the Database Service and the
IAM permissions for the Database Service to Get/Put/Delete
the user or role
policy.
You can deploy the Database Service in a highly available (HA) configuration where databases can be sharded to separate Database Services with different IAM roles.
IAM users have a lower character limit compared to IAM roles. If the limit is exceeded for a user policy, it is recommended to use IAM roles for the Database Service instead.
Unable to cancel a query
If you use a PostgreSQL cli client like psql
, and you try to cancel a query
with ctrl+c
, but it doesn't cancel the query, then you need to connect using a
tsh local proxy instead.
When psql
cancels a query, it establishes a new connection without TLS
certificates, however Teleport requires TLS certificates not only for
authentication, but also to route database connections.
If you
enable TLS Routing in Teleport
then tsh db connect
will automatically start a local proxy for every
connection.
Alternatively, you can connect via
Teleport Connect
which also uses a local proxy.
Otherwise, you need to start a tsh local proxy manually using tsh proxy db
and connect via the local proxy.
If you have already started a long-running query in a psql
session that you
cannot cancel with ctrl+c, you can start a new client session to cancel that
query manually:
First, find the query's process identifier (PID):
SELECT pid,usename,backend_start,query FROM pg_stat_activity WHERE state = 'active';
Next, gracefully cancel the query using its PID. This will send a SIGINT signal to the postgres backend process for that query:
SELECT pg_cancel_backend(<PID>);
You should always try to gracefully terminate a query first, but if graceful cancellation is taking too long, then you can forcefully terminate the query instead. This will send a SIGTERM signal to the postgres backend process for that query:
SELECT pg_terminate_backend(<PID>);
See the PostgreSQL documentation on
admin functions
for more information about the pg_cancel_backend
and pg_terminate_backend
functions.
SSL SYSCALL error
You may encounter the following error when your local psql
is not compatible
with newer versions of OpenSSL:
tsh db connect --db-user postgres --db-name postgres postgrespsql: error: connection to server at "localhost" (::1), port 12345 failed: Connection refused Is the server running on that host and accepting TCP/IP connections?connection to server at "localhost" (127.0.0.1), port 12345 failed: SSL SYSCALL error: Undefined error: 0
Please upgrade your local psql
to the latest version.
Next steps
- Learn how to restrict access to certain users and databases.
- View the High Availability (HA) guide.
- Take a look at the YAML configuration reference.
- See the full CLI reference.