--- layout: "guides" page_title: "Secure Introduction of Vault Clients - Guides" sidebar_current: "guides-identity-secure-intro" description: |- This introductory guide walk through the mechanism of Vault clients to authenticate with Vault. There are two approaches at a high-level: platform integration, and trusted orchestrator. --- # Secure Introduction of Vault Clients A _secret_ is something that will elevate the risk if exposed to unauthorized entities and results in undesired consequences (e.g. unauthorized data access); therefore, only the ***trusted entities*** should have an access to your secrets. If you can securely get the first secret from an originator to a consumer, all subsequent secrets transmitted between this originator and consumer can be authenticated with the trust established by the successful distribution and user of that first secret. Getting the first secret to the consumer, is the ***secure introduction*** challenge. ![Secure Introduction](/assets/images/vault-secure-intro-1.png) The Vault authentication process verifies the secret consumer's identity and then generate a **token** to associate with that identity. [Tokens](/docs/concepts/tokens.html) are the core method for authentication within Vault which means that the secret consumer must first acquire a valid token. ## Challenge How does a secret consumer (an application or machine) prove that it is the legitimate recipient for a secret so that it can acquire a token? How can you avoid persisting raw token values during our secure introduction? ## Secure Introduction Approach Vault's auth methods perform authentication of its client and assigning a set of policies which defines the permitted operations for the client. ![Auth Method](/assets/images/vault-auth-method.png) There are two basic patterns to securely authenticate a secret consumer: [platform integration](#platform-integration) and [trusted orchestrator](#trusted-orchestrator). ### Platform Integration In the **Platform Integration** model, Vault trusts the underlying platform (e.g. AWS, Azure, GCP) which assigns a token or cryptographic identity (such as IAM token, signed JWT) to virtual machine, container, or serverless function. Vault uses the provided identifier to verify the identity of the client by interacting with the underlying platform. After the client identity is verified, Vault returns a token to the client that is bound to their identity and policies that grant access to secrets. ![Platform Integration](/assets/images/vault-secure-intro-2.png) For example, suppose we have an application running on a virtual machine in AWS EC2. When that instance is started, an IAM token is provided via the machine local metadata URL. That IAM token is provided to Vault, as part of the AWS Auth Method, to login and authenticate the client. Vault uses that token to query the AWS API and verify the token validity and fetch additional metadata about the instance (Account ID, VPC ID, AMI, Region, etc). These properties are used to determine the identity of the client and to distinguish between different roles (e.g. a Web server versus an API server). Once validated and assigned to a role, Vault generates a token that is appropriately scoped and returns it to the client. All future requests from the client are made with the associated token, allowing Vault to efficiently authenticate the client and check for proper authorizations when consuming secrets. ![Vault AWS EC2 Authentication Flow](/assets/images/vault-aws-ec2-auth-flow.png) **Use Case** When the client app is running on a VM hosted on a supported cloud platform, you can leverage the corresponding auth method to authenticate with Vault. **Reference Materials:** - [AWS Auth Method](/docs/auth/aws.html) - [Azure Auth Method](/docs/auth/azure.html) - [GCP Auth Method](/docs/auth/gcp.html) ### Trusted Orchestrator In the **Trusted Orchestrator** model, you have an _orchestrator_ which is already authenticated against Vault with privileged permissions. The orchestrator launches new applications and inject a mechanism they can use to authenticate (e.g. AppRole, PKI cert, token, etc) with Vault. ![Trusted Orchestrator](/assets/images/vault-secure-intro-3.png) For example, suppose [Terraform](https://www.terraform.io/) is being used as a trusted orchestrator. This means Terraform already has a Vault token, with enough capabilities to generate new tokens or create new mechanisms to authenticate such as an AppRole. Terraform can interact with platforms such as VMware to provision new virtual machines. VMware does not provide a cryptographic identity, so a platform integration isn't possible. Instead, Terraform can provision a new AppRole credential, and SSH into the new machine to inject the credentials. Terraform is creating the new credential in Vault, and making that credential available to the new resource. In this way, Terraform is acting as a trusted orchestrator and extending trust to the new machine. The new machine, or application running on it, can use the injected credentials to authenticate against Vault. ![AppRole auth method workflow](/assets/images/vault-secure-intro-4.png) **Use Case** When you are using an orchestrator tool such as Chef to launch applications, this model can be applied regardless of where the applications are running. **Reference Materials:** - [AppRole Auth Method](/docs/auth/approle.html) - [AppRole Pull Authentication](/guides/identity/authentication.html) - [AppRole with Terraform and Chef Demo](/guides/identity/approle-trusted-entities.html) - [TLS Certificates Auth Method](/docs/auth/cert.html) - [Token Auth Method](/docs/auth/token.html) - [Cubbyhole Response Wrapping](/guides/secret-mgmt/cubbyhole.html) ## Next steps When a [platform integration](#platform-integration) is available that should be preferred, as it is generally the simpler solution and works independent of the orchestration mechanism. For a [trusted orchestrator](#trusted-orchestrator), specific documentation for that orchestrator should be consulted on Vault integration.