Teleport provides connectivity, authentication, access controls and audit for infrastructure.

You might use Teleport to:

• Set up single sign-on (SSO) for all of your cloud and on-prem infrastructure.
• Protect access to servers, Kubernetes clusters, databases, Windows desktops, web applications, and cloud APIs without long-lived keys or passwords.
• Establish secure tunnels to reach resources behind NATs and firewalls without VPNs or bastion hosts.
• Record and audit activity across SSH, Kubernetes, database, RDP, and web sessions.
• Apply consistent Role-Based and Attribute-Based Access Control (RBAC/ABAC) across users, machines, workloads, and resource types.
• Enforce least privilege and Just-in-Time (JIT) access requests for elevated roles or sensitive systems.
• Maintain a single identity and access layer for both human users and workloads.

Teleport works with SSH, Kubernetes, databases, RDP, cloud consoles, internal web services, Git repositories, and Model Context Protocol (MCP) servers.

Teleport Getting Started
Teleport Architecture
Reference Guides
FAQ

1. Introduction
2. Why We Built Teleport
3. Supporting & Contributing
4. Installing & Running
5. Docker
6. Building Teleport
7. License
8. FAQ

Teleport includes an identity-aware access proxy, a CA that issues short-lived certificates, a unified access control system, and a tunneling system to access resources behind the firewall.

Teleport is a single Go binary that integrates with multiple protocols and cloud services, including

• SSH nodes
• Kubernetes clusters
• PostgreSQL, MongoDB, CockroachDB and MySQL databases
• Model Context Protocol
• Internal Web apps
• Windows Hosts
• Networked servers

You can set up Teleport as a Linux daemon or a Kubernetes deployment.

Teleport focuses on best practices for infrastructure security, including:

• No shared secrets such as SSH keys or Kubernetes tokens; Teleport uses certificate-based auth with automatic expiration for all protocols.
• Multi-factor authentication (MFA) for everything.
• Single sign-on (SSO) for everything via GitHub Auth, OpenID Connect, or SAML with endpoints like Okta or Microsoft Entra ID.
• Session sharing for collaborative troubleshooting for issues.
• Infrastructure introspection to view the status of every SSH node, database instance, Kubernetes cluster, or internal web app through the Teleport CLI or Web UI.

Teleport uses Go crypto. It is fully compatible with OpenSSH, sshd servers, and ssh clients, Kubernetes clusters and more.

While working together at Rackspace, the creators of Teleport noticed that most cloud users struggle with setting up and configuring infrastructure security. Many popular tools designed for this are complex to understand and expensive to maintain across modern, distributed computing infrastructure.

We decided to build a solution that's easy to use, understand, and scale. A real-time representation of all your servers in the same room as you, as if they were magically teleported. And thus, Teleport was born!

Today, Teleport is trusted by everyone from hobbyists to hyperscalers to simplify security across cloud CLIs and consoles, Kubernetes clusters, SSH servers, databases, internal web apps, and Model Context Protocol (MCP) used by AI agents.

Learn more about Teleport and our history

We aim to make Teleport easy to adopt and contribute to, starting with clear and comprehensive documentation.

If you have questions, are exploring ideas, or want to sanity-check something, please start with a GitHub Discussion. Discussions help us answer questions, explore use cases, and decide together whether something should become a bug report or feature request.

• Start a conversation in Teleport Discussions
  This is the best place to ask questions, share ideas, and get help. Our engineers actively participate there, and discussions can be promoted to issues when there is a clear, actionable next step.

• Issues are for confirmed bugs and well-defined feature requests
  If something has already been validated as a bug or an enhancement, feel free to open an issue. When in doubt, start a discussion and we will help guide it.

• Enterprise and POC support
  If you are evaluating Teleport Enterprise or need more responsive support during a POC, we can set up a dedicated Slack channel. You can reach out to us through our website to get started.

To set up a single-instance Teleport cluster, follow our getting started guide. You can then register your servers, Kubernetes clusters, and other infrastructure with your Teleport cluster.

You can also get started with Teleport Enterprise Cloud, a managed Teleport deployment that makes it easier to enable secure access to your infrastructure.

Sign up for a free trial of Teleport Enterprise Cloud, and follow this guide to register your first server.

If you wish to deploy Teleport inside a Docker container see the installation guide.

To run a full test suite locally, see the test dependencies list

The teleport repository contains the Teleport daemon binary (written in Go) and a web UI written in TypeScript.

If your intention is to build and deploy for use in a production infrastructure a released tag should be used. The default branch, master, is the current development branch for an upcoming major version. Get the latest release tags listed at https://goteleport.com/download/ and then use that tag in the git clone. For example git clone https://github.com/gravitational/teleport.git -b v18.5.0 gets release v18.5.0.

It is often easiest to build with Docker, which ensures that all required tooling is available for the build. To execute a dockerized build, ensure that docker is installed and running, and execute:

make -C build.assets build-binaries

This command will build Linux binaries matching the host architecture. It is not possible to cross-compile to a different target architecture.

The following dependencies are required to build Teleport from source. For maximum compatibility, install the versions of these dependencies using the versions listed in build.assets/versions.mk:

1. Go
2. Rust
3. Node.js
4. libfido2
5. pkg-config

For an example of dev environment setup on macOS, see these instructions.

Important

• The Go compiler is somewhat sensitive to the amount of memory: you will need at least 1GB of virtual memory to compile Teleport. A 512MB instance without swap will not work.
• This will build the latest version of Teleport.

Get the source

git clone https://github.com/gravitational/teleport.git
cd teleport

To perform a build

make full

tsh dynamically links against libfido2 by default, to support development environments, as long as the library itself can be found:

$ brew install libfido2 pkg-config  # Replace with your package manager of choice

$ make build/tsh
> libfido2 found, setting FIDO2=dynamic
> (...)

Release binaries are linked statically against libfido2. You may switch the linking mode using the FIDO2 variable:

make build/tsh FIDO2=dynamic # dynamic linking
make build/tsh FIDO2=static  # static linking, for an easy setup use `make enter`
                             # or `build.assets/macos/build-fido2-macos.sh`.
make build/tsh FIDO2=off     # doesn't link libfido2 in any way

tsh builds with Touch ID support require access to an Apple Developer account. If you are a Teleport maintainer, ask the team for access.

If the build succeeds, the installer will place the binaries in the build directory.

Before starting, create default data directories:

sudo mkdir -p -m0700 /var/lib/teleport
sudo chown $USER /var/lib/teleport

To speed up your development process, you can run Teleport using CompileDaemon. This will build and run the Teleport binary, and then rebuild and restart it whenever any Go source files change.

1. Install CompileDaemon:

   go install github.com/githubnemo/CompileDaemon@latest

   Note that we use go install instead of the suggested go get, because we don't want CompileDaemon to become a dependency of the project.

2. Build and run the Teleport binary:

   make teleport-hot-reload

   By default, this runs a teleport start command. If you want to customize the command, for example by providing a custom config file location, you can use the TELEPORT_ARGS parameter:

   make teleport-hot-reload TELEPORT_ARGS='start --config=/path/to/config.yaml'

Note that you still need to run make grpc if you modify any Protocol Buffers files to regenerate the generated Go sources; regenerating these sources should in turn cause the CompileDaemon to rebuild and restart Teleport.

The Teleport Web UI resides in the web directory.

To rebuild the Teleport UI package, run the following command:

make docker-ui

Then you can replace Teleport Web UI files with the files from the newly-generated /dist folder.

To enable speedy iterations on the Web UI, you can run a local web-dev server.

You can also tell Teleport to load the Web UI assets from the source directory. To enable this behavior, set the environment variable DEBUG=1 and rebuild with the default target:

# Run Teleport as a single-node cluster in development mode:
DEBUG=1 ./build/teleport start -d

Keep the server running in this mode, and make your UI changes in /dist directory. For instructions about how to update the Web UI, read the web README.

All dependencies are managed using Go modules. Here are the instructions for some common tasks:

Latest version:

go get github.com/new/dependency

and update the source to use this dependency.

To get a specific version, use go get github.com/new/dependency@version instead.

go get github.com/new/dependency@version

go get -u github.com/new/dependency

go get -u all

Why is a specific package imported?

go mod why $pkgname

Why is a specific module imported?

go mod why -m $modname

Why is a specific version of a module imported?

go mod graph | grep $modname

Teleport is distributed in multiple forms with different licensing implications.

The Teleport API module (all code in this repository under /api) is available under the Apache 2.0 license.

The remainder of the source code in this repository is available under the GNU Affero General Public License. Users compiling Teleport from source must comply with the terms of this license.

Teleport Community Edition builds distributed on http://goteleport.com/download are available under a modified Apache 2.0 license.

Yes, Teleport is production-ready and used to protect and facilitate access to the most precious and mission-critical applications at many of today's leading companies. You can learn more about the companies using Teleport in production on our website.

Yes, Teleport has completed several security audits from nationally and internationally recognized technology security companies. We publicize audit results, our security philosophy, and related information on our trust page.

Teleport secures access to a broad set of infrastructure resources, including Linux servers, Windows desktops, Kubernetes clusters, databases, internal web applications, cloud provider APIs and consoles (such as AWS, Azure, and GCP), and Model Context Protocol (MCP) servers used by AI agents.

Teleport can be deployed to fit most environments, either as a self-hosted cluster on Linux or Kubernetes or using Teleport Enterprise Cloud. In all cases, Teleport agents run close to your resources and connect through an Auth Service and Proxy Service that enforces identity, access control, and audit.

Teleport uses existing IdPs (Okta, Google Workspace, Microsoft Entra ID, or GitHub) to issue short-lived certificates and apply access policies. Teleport can also be configured to act as a SAML IdP to authenticate users into applications when needed.

Teleport eliminates long-lived passwords, SSH keys, database credentials, credential rotations, and vault processes by issuing short-lived, auto-expiring mTLS and SSH certificates bound to human or non-human identity.

Teleport provides modern PAM software capabilities like strong authentication, session recording, policy-based access, and JIT elevation without secrets, credential rotation, or vault dependencies. This enables controlled, audited access to servers, Kubernetes, databases, cloud consoles, and other privileged environments using short-lived certificates and role-based policies.

Teleport enables JIT access through time-bound Access Requests. Users request the roles or resources they temporarily need, policies decide whether approval is required, and privileges automatically expire. This approach maintains least privilege while keeping access workflows efficient and predictable.

Teleport can proxy and secure Kubernetes access with identity-based authentication, role-based access controls, and detailed auditing of kubectl activity.

Teleport supports SPIFFE-compatible identities for workloads, allowing it to participate in SPIFFE ecosystems and federation. Teleport issues short-lived SVIDs and can integrate with external PKI hierarchies.

Yes. Teleport is frequently used as an alternative to traditional VPNs and bastion hosts, enabling direct, identity-based access to resources instead of broad network access.

Teleport secures MCP connections by placing identity-aware policy enforcement between MCP clients and servers. This ensures all tool invocations are authenticated, authorized, and audited without custom authorization code and that sensitive systems are protected from overly broad access.