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Go-Attestation

GoDoc

Go-Attestation abstracts remote attestation operations across a variety of platforms and TPMs, enabling remote validation of machine identity and state. This project attempts to provide high level primitives for both client and server logic.

Talks on this project:

  • "Making Device Identity Trustworthy" - Open Source Summit Europe - October 2019 - (Slides)
  • "Using TPMs to Cryptographically Verify Devices at Scale" - Open Source Summit North America - September 2019 - (Video 39min)
  • "Making Remote Attestation Useful on Linux" - Linux Security Summit - September 2019 - (Video 26min)

Status

Go-Attestation is under active development. Expect API changes at any time.

Please note that this is not an official Google product.

TPM 1.2 support is best effort, meaning we will accept fixes for TPM 1.2, but testing is not covered by CI.

Installation

The go-attestation package is installable using go get: go get github.com/google/go-attestation/attest

TPM1.2

By default, go-attestation does not build in TPM1.2 support on Linux. Linux users must install libtspi and its headers if they need TPM 1.2 support. This can be installed on debian-based systems using: sudo apt-get install libtspi-dev. Then, build go-attestation with the tspi build tag go build --tags=tspi.

Windows users can use go-attestation with TPM1.2 by default.

Example: device identity

TPMs can be used to identify a device remotely and provision unique per-device hardware-bound keys.

TPMs are provisioned with a set of Endorsement Keys (EKs) by the manufacturer. These optionally include a certificate signed by the manufacturer and act as a TPM's identity. For privacy reasons the EK can't be used to sign or encrypt data directly, and is instead used to attest to the presence of a signing key, an Attestation Key (AK), on the same TPM. (Newer versions of the spec may allow the EK to sign directly.)

During attestation, a TPM generates an AK and proves to a certificate authority that the AK is on the same TPM as a EK. If the certificate authority trusts the EK, it can transitively trust the AK, for example by issuing a certificate for the AK.

To perform attestation, the client generates an AK and sends the EK and AK parameters to the server:

// Client generates an AK and sends it to the server

config := &attest.OpenConfig{}
tpm, err := attest.OpenTPM(config)
if err != nil {
    // handle error
}

eks, err := tpm.EKs()
if err != nil {
    // handle error
}
ek := eks[0]

akConfig := &attest.AKConfig{}
ak, err := tpm.NewAK(akConfig)
if err != nil {
    // handle error
}
attestParams := ak.AttestationParameters()

akBytes, err := ak.Marshal()
if err != nil {
    // handle error
}

if err := os.WriteFile("encrypted_aik.json", akBytes, 0600); err != nil {
    // handle error
}

// send TPM version, EK, and attestParams to the server

The server uses the EK and AK parameters to generate a challenge encrypted to the EK, returning the challenge to the client. During this phase, the server determines if it trusts the EK, either by chaining its certificate to a known manufacturer and/or querying an inventory system.

// Server validates EK and/or EK certificate

params := attest.ActivationParameters{
    TPMVersion: tpmVersion,
    EK:         ek.Public,
    AK:         attestParams,
}
secret, encryptedCredentials, err := params.Generate()
if err != nil {
    // handle error
}

// return encrypted credentials to client

The client proves possession of the AK by decrypting the challenge and returning the same secret to the server.

// Client decrypts the credential

akBytes, err := os.ReadFile("encrypted_aik.json")
if err != nil {
    // handle error
}
ak, err := tpm.LoadAK(akBytes)
if err != nil {
    // handle error
}
secret, err := ak.ActivateCredential(tpm, encryptedCredentials)
if err != nil {
    // handle error
}

// return secret to server

At this point, the server records the AK and EK association and allows the client to use its AK as a credential (e.g. by issuing it a client certificate).