go-attestation/attest/attest.go

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// Copyright 2019 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License"); you may not
// use this file except in compliance with the License. You may obtain a copy of
// the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
// License for the specific language governing permissions and limitations under
// the License.
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// Package attest abstracts TPM attestation operations.
package attest
import (
"crypto"
"errors"
"fmt"
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"github.com/google/certificate-transparency-go/x509"
"github.com/google/go-tpm/tpm"
"github.com/google/go-tpm/tpm2"
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)
// TPMVersion is used to configure a preference in
// which TPM to use, if multiple are available.
type TPMVersion uint8
// TPM versions
const (
TPMVersionAgnostic TPMVersion = iota
TPMVersion12
TPMVersion20
)
// TPMInterface indicates how the client communicates
// with the TPM.
type TPMInterface uint8
// TPM interfaces
const (
TPMInterfaceDirect TPMInterface = iota
TPMInterfaceKernelManaged
TPMInterfaceDaemonManaged
)
// OpenConfig encapsulates settings passed to OpenTPM().
type OpenConfig struct {
// TPMVersion indicates which TPM version the library should
// attempt to use. If the specified version is not available,
// ErrTPMNotAvailable is returned. Defaults to TPMVersionAgnostic.
TPMVersion TPMVersion
}
// keyEncoding indicates how an exported TPM key is represented.
type keyEncoding uint8
func (e keyEncoding) String() string {
switch e {
case keyEncodingInvalid:
return "invalid"
case keyEncodingOSManaged:
return "os-managed"
case keyEncodingEncrypted:
return "encrypted"
case keyEncodingParameterized:
return "parameterized"
default:
return fmt.Sprintf("keyEncoding<%d>", int(e))
}
}
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// Key encodings
const (
keyEncodingInvalid keyEncoding = iota
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// Managed by the OS but loadable by name.
keyEncodingOSManaged
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// Key fully represented but in encrypted form.
keyEncodingEncrypted
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// Parameters stored, but key must be regenerated before use.
keyEncodingParameterized
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)
type aik interface {
close(*platformTPM) error
marshal() ([]byte, error)
activateCredential(tpm *platformTPM, in EncryptedCredential) ([]byte, error)
quote(t *platformTPM, nonce []byte, alg HashAlg) (*Quote, error)
attestationParameters() AttestationParameters
}
// AIK represents a key which can be used for attestation.
type AIK struct {
aik aik
}
// Close unloads the AIK from the system.
func (k *AIK) Close(t *TPM) error {
return k.aik.close(t.tpm)
}
// Marshal encodes the AIK in a format that can be reloaded with tpm.LoadAIK().
// This method exists to allow consumers to store the key persistently and load
// it as a later time. Users SHOULD NOT attempt to interpret or extract values
// from this blob.
func (k *AIK) Marshal() ([]byte, error) {
return k.aik.marshal()
}
// ActivateCredential decrypts the secret using the key to prove that the AIK
// was generated on the same TPM as the EK.
//
// This operation is synonymous with TPM2_ActivateCredential.
func (k *AIK) ActivateCredential(tpm *TPM, in EncryptedCredential) (secret []byte, err error) {
return k.aik.activateCredential(tpm.tpm, in)
}
// Quote returns a quote over the platform state, signed by the AIK.
func (k *AIK) Quote(tpm *TPM, nonce []byte, alg HashAlg) (*Quote, error) {
return k.aik.quote(tpm.tpm, nonce, alg)
}
// AttestationParameters returns information about the AIK, typically used to
// generate a credential activation challenge.
func (k *AIK) AttestationParameters() AttestationParameters {
return k.aik.attestationParameters()
}
// AIKConfig encapsulates parameters for minting keys. This type is defined
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// now (despite being empty) for future interface compatibility.
type AIKConfig struct {
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}
// EncryptedCredential represents encrypted parameters which must be activated
// against a key.
type EncryptedCredential struct {
Credential []byte
Secret []byte
}
// Quote encapsulates the results of a Quote operation against the TPM,
// using an attestation key.
type Quote struct {
Version TPMVersion
Quote []byte
Signature []byte
}
// PCR encapsulates the value of a PCR at a point in time.
type PCR struct {
Index int
Digest []byte
DigestAlg crypto.Hash
}
// EK is a burned-in endorcement key bound to a TPM. This optionally contains
// a certificate that can chain to the TPM manufacturer.
type EK struct {
// Public key of the EK.
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Public crypto.PublicKey
// Certificate is the EK certificate for TPMs that provide it.
Certificate *x509.Certificate
// For Intel TPMs, Intel hosts certificates at a public URL derived from the
// Public key. Clients or servers can perform an HTTP GET to this URL, and
// use ParseEKCertificate on the response body.
CertificateURL string
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}
// AttestationParameters describes information about a key which is necessary
// for verifying its properties remotely.
type AttestationParameters struct {
// Public represents the AIK's canonical encoding. This blob includes the
// public key, as well as signing parameters such as the hash algorithm
// used to generate quotes.
//
// Use ParseAIKPublic to access the key's data.
Public []byte
// For TPM 2.0 devices, Public is encoded as a TPMT_PUBLIC structure.
// For TPM 1.2 devices, Public is a TPM_PUBKEY structure, as defined in
// the TPM Part 2 Structures specification, available at
// https://trustedcomputinggroup.org/wp-content/uploads/TPM-Main-Part-2-TPM-Structures_v1.2_rev116_01032011.pdf
// UseTCSDActivationFormat is set when tcsd (trousers daemon) is operating
// as an intermediary between this library and the TPM. A value of true
// indicates that activation challenges should use the TCSD-specific format.
UseTCSDActivationFormat bool
// Subsequent fields are only populated for AIKs generated on a TPM
// implementing version 2.0 of the specification. The specific structures
// referenced for each field are defined in the TPM Revision 2, Part 2 -
// Structures specification, available here:
// https://www.trustedcomputinggroup.org/wp-content/uploads/TPM-Rev-2.0-Part-2-Structures-01.38.pdf
// CreateData represents the properties of a TPM 2.0 key. It is encoded
// as a TPMS_CREATION_DATA structure.
CreateData []byte
// CreateAttestation represents an assertion as to the details of the key.
// It is encoded as a TPMS_ATTEST structure.
CreateAttestation []byte
// CreateSignature represents a signature of the CreateAttestation structure.
// It is encoded as a TPMT_SIGNATURE structure.
CreateSignature []byte
}
// AIKPublic holds structured information about an AIK's public key.
type AIKPublic struct {
// Public is the public part of the AIK. This can either be an *rsa.PublicKey or
// and *ecdsa.PublicKey.
Public crypto.PublicKey
// Hash is the hashing algorithm the AIK will use when signing quotes.
Hash crypto.Hash
}
// ParseAIKPublic parses the Public blob from the AttestationParameters,
// returning the public key and signing parameters for the key.
func ParseAIKPublic(version TPMVersion, public []byte) (*AIKPublic, error) {
switch version {
case TPMVersion12:
rsaPub, err := tpm.UnmarshalPubRSAPublicKey(public)
if err != nil {
return nil, fmt.Errorf("parsing public key: %v", err)
}
return &AIKPublic{Public: rsaPub, Hash: crypto.SHA1}, nil
case TPMVersion20:
pub, err := tpm2.DecodePublic(public)
if err != nil {
return nil, fmt.Errorf("parsing TPM public key structure: %v", err)
}
pubKey, err := pub.Key()
if err != nil {
return nil, fmt.Errorf("parsing public key: %v", err)
}
var h crypto.Hash
switch pub.Type {
case tpm2.AlgRSA:
h, err = cryptoHash(pub.RSAParameters.Sign.Hash)
case tpm2.AlgECC:
h, err = cryptoHash(pub.ECCParameters.Sign.Hash)
default:
return nil, fmt.Errorf("unsupported public key type 0x%x", pub.Type)
}
if err != nil {
return nil, fmt.Errorf("invalid public key hash: %v", err)
}
return &AIKPublic{Public: pubKey, Hash: h}, nil
default:
return nil, fmt.Errorf("unknown tpm version 0x%x", version)
}
}
// Verify is used to prove authenticity of the PCR measurements. It ensures that
// the quote was signed by the AIK, and that its contents matches the PCR and
// nonce combination.
//
// The nonce is used to prevent replays of Quote and PCRs and is signed by the
// quote. Some TPMs don't support nonces longer than 20 bytes, and if the
// nonce is used to tie additional data to the quote, the additional data should be
// hashed to construct the nonce.
func (a *AIKPublic) Verify(quote Quote, pcrs []PCR, nonce []byte) error {
switch quote.Version {
case TPMVersion12:
return a.validate12Quote(quote, pcrs, nonce)
case TPMVersion20:
return a.validate20Quote(quote, pcrs, nonce)
default:
return fmt.Errorf("quote used unknown tpm version 0x%x", quote.Version)
}
}
// HashAlg identifies a hashing Algorithm.
type HashAlg uint8
// Valid hash algorithms.
var (
HashSHA1 = HashAlg(tpm2.AlgSHA1)
HashSHA256 = HashAlg(tpm2.AlgSHA256)
)
func (a HashAlg) cryptoHash() crypto.Hash {
switch a {
case HashSHA1:
return crypto.SHA1
case HashSHA256:
return crypto.SHA256
}
return 0
}
func (a HashAlg) goTPMAlg() tpm2.Algorithm {
switch a {
case HashSHA1:
return tpm2.AlgSHA1
case HashSHA256:
return tpm2.AlgSHA256
}
return 0
}
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var (
defaultOpenConfig = &OpenConfig{}
// ErrTPMNotAvailable is returned in response to OpenTPM() when
// either no TPM is available, or a TPM of the requested version
// is not available (if TPMVersion was set in the provided config).
ErrTPMNotAvailable = errors.New("TPM device not available")
// ErrTPM12NotImplemented is returned in response to methods which
// need to interact with the TPM1.2 device in ways that have not
// yet been implemented.
ErrTPM12NotImplemented = errors.New("TPM 1.2 support not yet implemented")
)
// TPMInfo contains information about the version & interface
// of an open TPM.
type TPMInfo struct {
Version TPMVersion
Interface TPMInterface
VendorInfo string
Manufacturer TCGVendorID
// FirmwareVersionMajor and FirmwareVersionMinor describe
// the firmware version of the TPM, but are only available
// for TPM 2.0 devices.
FirmwareVersionMajor int
FirmwareVersionMinor int
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}
// probedTPM identifies a TPM device on the system, which
// is a candidate for being used.
type probedTPM struct {
Version TPMVersion
Path string
}
// MatchesConfig returns true if the TPM satisfies the constraints
// specified by the given config.
func (t *probedTPM) MatchesConfig(config OpenConfig) bool {
return config.TPMVersion == TPMVersionAgnostic || t.Version == config.TPMVersion
}
// OpenTPM initializes access to the TPM based on the
// config provided.
func OpenTPM(config *OpenConfig) (*TPM, error) {
if config == nil {
config = defaultOpenConfig
}
candidateTPMs, err := probeSystemTPMs()
if err != nil {
return nil, err
}
for _, tpm := range candidateTPMs {
if tpm.MatchesConfig(*config) {
return openTPM(tpm)
}
}
return nil, ErrTPMNotAvailable
}
// AvailableTPMs returns information about available TPMs matching
// the given config, without opening the devices.
func AvailableTPMs(config *OpenConfig) ([]TPMInfo, error) {
if config == nil {
config = defaultOpenConfig
}
candidateTPMs, err := probeSystemTPMs()
if err != nil {
return nil, err
}
var out []TPMInfo
for _, tpm := range candidateTPMs {
if tpm.MatchesConfig(*config) {
t, err := openTPM(tpm)
if err != nil {
return nil, err
}
defer t.Close()
i, err := t.Info()
if err != nil {
return nil, err
}
out = append(out, *i)
}
}
return out, nil
}