mirror of
https://github.com/google/go-attestation.git
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410 lines
12 KiB
Go
410 lines
12 KiB
Go
// Copyright 2019 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License"); you may not
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// use this file except in compliance with the License. You may obtain a copy of
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// the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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// License for the specific language governing permissions and limitations under
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// the License.
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package attest
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import (
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"bytes"
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"crypto/rsa"
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"crypto/sha256"
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"encoding/base64"
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"encoding/binary"
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"fmt"
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"io"
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"strings"
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"github.com/google/certificate-transparency-go/asn1"
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"github.com/google/certificate-transparency-go/x509"
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"github.com/google/go-tpm/tpm2"
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"github.com/google/go-tpm/tpmutil"
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)
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const (
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tpmPtManufacturer = 0x00000100 + 5 // PT_FIXED + offset of 5
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tpmPtVendorString = 0x00000100 + 6 // PT_FIXED + offset of 6
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tpmPtFwVersion1 = 0x00000100 + 11 // PT_FIXED + offset of 11
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// Defined in "Registry of reserved TPM 2.0 handles and localities".
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nvramCertIndex = 0x1c00002
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// Defined in "Registry of reserved TPM 2.0 handles and localities", and checked on a glinux machine.
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commonSrkEquivalentHandle = 0x81000001
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commonEkEquivalentHandle = 0x81010001
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)
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var (
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akTemplate = tpm2.Public{
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Type: tpm2.AlgRSA,
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NameAlg: tpm2.AlgSHA256,
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Attributes: tpm2.FlagSignerDefault,
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RSAParameters: &tpm2.RSAParams{
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Sign: &tpm2.SigScheme{
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Alg: tpm2.AlgRSASSA,
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Hash: tpm2.AlgSHA256,
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},
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KeyBits: 2048,
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},
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}
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defaultSRKTemplate = tpm2.Public{
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Type: tpm2.AlgRSA,
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NameAlg: tpm2.AlgSHA256,
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Attributes: tpm2.FlagStorageDefault | tpm2.FlagNoDA,
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RSAParameters: &tpm2.RSAParams{
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Symmetric: &tpm2.SymScheme{
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Alg: tpm2.AlgAES,
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KeyBits: 128,
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Mode: tpm2.AlgCFB,
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},
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ModulusRaw: make([]byte, 256),
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KeyBits: 2048,
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},
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}
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// Default EK template defined in:
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// https://trustedcomputinggroup.org/wp-content/uploads/Credential_Profile_EK_V2.0_R14_published.pdf
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defaultEKTemplate = tpm2.Public{
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Type: tpm2.AlgRSA,
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NameAlg: tpm2.AlgSHA256,
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Attributes: tpm2.FlagFixedTPM | tpm2.FlagFixedParent | tpm2.FlagSensitiveDataOrigin |
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tpm2.FlagAdminWithPolicy | tpm2.FlagRestricted | tpm2.FlagDecrypt,
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AuthPolicy: []byte{
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0x83, 0x71, 0x97, 0x67, 0x44, 0x84,
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0xB3, 0xF8, 0x1A, 0x90, 0xCC, 0x8D,
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0x46, 0xA5, 0xD7, 0x24, 0xFD, 0x52,
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0xD7, 0x6E, 0x06, 0x52, 0x0B, 0x64,
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0xF2, 0xA1, 0xDA, 0x1B, 0x33, 0x14,
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0x69, 0xAA,
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},
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RSAParameters: &tpm2.RSAParams{
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Symmetric: &tpm2.SymScheme{
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Alg: tpm2.AlgAES,
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KeyBits: 128,
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Mode: tpm2.AlgCFB,
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},
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KeyBits: 2048,
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ModulusRaw: make([]byte, 256),
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},
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}
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)
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type tpm20Info struct {
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vendor string
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manufacturer TCGVendorID
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fwMajor int
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fwMinor int
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}
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func readTPM2VendorAttributes(tpm io.ReadWriter) (tpm20Info, error) {
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var vendorInfo string
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// The Vendor String is split up into 4 sections of 4 bytes,
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// for a maximum length of 16 octets of ASCII text. We iterate
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// through the 4 indexes to get all 16 bytes & construct vendorInfo.
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// See: TPM_PT_VENDOR_STRING_1 in TPM 2.0 Structures reference.
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for i := 0; i < 4; i++ {
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caps, _, err := tpm2.GetCapability(tpm, tpm2.CapabilityTPMProperties, 1, tpmPtVendorString+uint32(i))
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if err != nil {
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return tpm20Info{}, fmt.Errorf("tpm2.GetCapability(PT_VENDOR_STRING_%d) failed: %v", i+1, err)
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}
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subset, ok := caps[0].(tpm2.TaggedProperty)
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if !ok {
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return tpm20Info{}, fmt.Errorf("got capability of type %T, want tpm2.TaggedProperty", caps[0])
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}
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// Reconstruct the 4 ASCII octets from the uint32 value.
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vendorInfo += string(subset.Value&0xFF000000) + string(subset.Value&0xFF0000) + string(subset.Value&0xFF00) + string(subset.Value&0xFF)
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}
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caps, _, err := tpm2.GetCapability(tpm, tpm2.CapabilityTPMProperties, 1, tpmPtManufacturer)
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if err != nil {
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return tpm20Info{}, fmt.Errorf("tpm2.GetCapability(PT_MANUFACTURER) failed: %v", err)
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}
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manu, ok := caps[0].(tpm2.TaggedProperty)
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if !ok {
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return tpm20Info{}, fmt.Errorf("got capability of type %T, want tpm2.TaggedProperty", caps[0])
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}
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caps, _, err = tpm2.GetCapability(tpm, tpm2.CapabilityTPMProperties, 1, tpmPtFwVersion1)
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if err != nil {
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return tpm20Info{}, fmt.Errorf("tpm2.GetCapability(PT_FIRMWARE_VERSION_1) failed: %v", err)
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}
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fw, ok := caps[0].(tpm2.TaggedProperty)
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if !ok {
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return tpm20Info{}, fmt.Errorf("got capability of type %T, want tpm2.TaggedProperty", caps[0])
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}
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return tpm20Info{
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vendor: strings.Trim(vendorInfo, "\x00"),
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manufacturer: TCGVendorID(manu.Value),
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fwMajor: int((fw.Value & 0xffff0000) >> 16),
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fwMinor: int(fw.Value & 0x0000ffff),
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}, nil
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}
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// ParseEKCertificate parses a raw DER encoded EK certificate blob.
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func ParseEKCertificate(ekCert []byte) (*x509.Certificate, error) {
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var wasWrapped bool
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// TCG PC Specific Implementation section 7.3.2 specifies
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// a prefix when storing a certificate in NVRAM. We look
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// for and unwrap the certificate if its present.
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if len(ekCert) > 5 && bytes.Equal(ekCert[:3], []byte{0x10, 0x01, 0x00}) {
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certLen := int(binary.BigEndian.Uint16(ekCert[3:5]))
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if len(ekCert) < certLen+5 {
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return nil, fmt.Errorf("parsing nvram header: ekCert size %d smaller than specified cert length %d", len(ekCert), certLen)
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}
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ekCert = ekCert[5 : 5+certLen]
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wasWrapped = true
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}
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// If the cert parses fine without any changes, we are G2G.
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if c, err := x509.ParseCertificate(ekCert); err == nil {
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return c, nil
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}
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// There might be trailing nonsense in the cert, which Go
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// does not parse correctly. As ASN1 data is TLV encoded, we should
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// be able to just get the certificate, and then send that to Go's
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// certificate parser.
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var cert struct {
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Raw asn1.RawContent
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}
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if _, err := asn1.UnmarshalWithParams(ekCert, &cert, "lax"); err != nil && x509.IsFatal(err) {
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return nil, fmt.Errorf("asn1.Unmarshal() failed: %v, wasWrapped=%v", err, wasWrapped)
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}
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c, err := x509.ParseCertificate(cert.Raw)
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if err != nil && x509.IsFatal(err) {
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return nil, fmt.Errorf("x509.ParseCertificate() failed: %v", err)
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}
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return c, nil
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}
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const (
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manufacturerIntel = "Intel"
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intelEKCertServiceURL = "https://ekop.intel.com/ekcertservice/"
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)
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func intelEKURL(ekPub *rsa.PublicKey) string {
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pubHash := sha256.New()
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pubHash.Write(ekPub.N.Bytes())
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pubHash.Write([]byte{0x1, 0x00, 0x01})
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return intelEKCertServiceURL + base64.URLEncoding.EncodeToString(pubHash.Sum(nil))
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}
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func readEKCertFromNVRAM20(tpm io.ReadWriter) (*x509.Certificate, error) {
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ekCert, err := tpm2.NVReadEx(tpm, nvramCertIndex, tpm2.HandleOwner, "", 0)
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if err != nil {
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return nil, fmt.Errorf("reading EK cert: %v", err)
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}
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return ParseEKCertificate(ekCert)
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}
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func quote20(tpm io.ReadWriter, akHandle tpmutil.Handle, hashAlg tpm2.Algorithm, nonce []byte) (*Quote, error) {
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sel := tpm2.PCRSelection{Hash: hashAlg}
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numPCRs := 24
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for pcr := 0; pcr < numPCRs; pcr++ {
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sel.PCRs = append(sel.PCRs, pcr)
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}
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quote, sig, err := tpm2.Quote(tpm, akHandle, "", "", nonce, sel, tpm2.AlgNull)
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if err != nil {
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return nil, err
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}
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rawSig, err := tpmutil.Pack(sig.Alg, sig.RSA.HashAlg, sig.RSA.Signature)
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return &Quote{
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Version: TPMVersion20,
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Quote: quote,
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Signature: rawSig,
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}, err
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}
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func readAllPCRs20(tpm io.ReadWriter, alg tpm2.Algorithm) (map[uint32][]byte, error) {
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numPCRs := 24
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out := map[uint32][]byte{}
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// The TPM 2.0 spec says that the TPM can partially fulfill the
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// request. As such, we repeat the command up to 8 times to get all
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// 24 PCRs.
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for i := 0; i < numPCRs; i++ {
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// Build a selection structure, specifying all PCRs we do
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// not have the value for.
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sel := tpm2.PCRSelection{Hash: alg}
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for pcr := 0; pcr < numPCRs; pcr++ {
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if _, present := out[uint32(pcr)]; !present {
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sel.PCRs = append(sel.PCRs, pcr)
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}
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}
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// Ask the TPM for those PCR values.
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ret, err := tpm2.ReadPCRs(tpm, sel)
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if err != nil {
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return nil, fmt.Errorf("tpm2.ReadPCRs(%+v) failed with err: %v", sel, err)
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}
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// Keep track of the PCRs we were actually given.
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for pcr, digest := range ret {
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out[uint32(pcr)] = digest
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}
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if len(out) == numPCRs {
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break
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}
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}
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if len(out) != numPCRs {
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return nil, fmt.Errorf("failed to read all PCRs, only read %d", len(out))
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}
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return out, nil
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}
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//TPM interfaces with a TPM device on the system.
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type TPM struct {
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// tpm holds a platform specific implementation of TPM logic: Windows or Linux.
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// see *_linux.go and *_windows.go files for definitions of these structs.
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tpm *platformTPM
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}
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// Close shuts down the connection to the TPM.
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func (t *TPM) Close() error {
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return t.tpm.close()
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}
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// EKs returns the endorsement keys burned-in to the platform.
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func (t *TPM) EKs() ([]EK, error) {
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return t.tpm.eks()
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}
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// Info returns information about the TPM.
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func (t *TPM) Info() (*TPMInfo, error) {
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return t.tpm.info()
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}
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// LoadAK loads a previously-created ak into the TPM for use.
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// A key loaded via this function needs to be closed with .Close().
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// Only blobs generated by calling AK.Serialize() are valid parameters
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// to this function.
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func (t *TPM) LoadAK(opaqueBlob []byte) (*AK, error) {
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return t.tpm.loadAK(opaqueBlob)
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}
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// MeasurementLog returns the present value of the System Measurement Log.
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//
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// This is a low-level API. Consumers seeking to attest the state of the
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// platform should use tpm.AttestPlatform() instead.
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func (t *TPM) MeasurementLog() ([]byte, error) {
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el, err := t.tpm.measurementLog()
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if err != nil {
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return nil, err
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}
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// A valid event log contains at least one SpecID event header (28 bytes).
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// For TPM 1.2, we would expect at least an event header (32 bytes).
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if minValidSize := 28; len(el) < minValidSize {
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return nil, fmt.Errorf("event log too short: %d < %d", len(el), minValidSize)
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}
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return el, nil
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}
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// NewAK creates an attestation key.
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func (t *TPM) NewAK(opts *AKConfig) (*AK, error) {
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return t.tpm.newAK(opts)
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}
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// PCRs returns the present value of Platform Configuration Registers with
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// the given digest algorithm.
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//
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// This is a low-level API. Consumers seeking to attest the state of the
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// platform should use tpm.AttestPlatform() instead.
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func (t *TPM) PCRs(alg HashAlg) ([]PCR, error) {
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return t.tpm.pcrs(alg)
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}
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func (t *TPM) attestPCRs(ak *AK, nonce []byte, alg HashAlg) (*Quote, []PCR, error) {
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pcrs, err := t.PCRs(alg)
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if err != nil {
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return nil, nil, fmt.Errorf("failed to read %v PCRs: %v", alg, err)
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}
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quote, err := ak.Quote(t, nonce, alg)
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if err != nil {
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return nil, nil, fmt.Errorf("failed to quote using %v: %v", alg, err)
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}
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return quote, pcrs, nil
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}
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func (t *TPM) attestPlatform(ak *AK, nonce []byte, eventLog []byte) (*PlatformParameters, error) {
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out := PlatformParameters{
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TPMVersion: t.Version(),
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Public: ak.AttestationParameters().Public,
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EventLog: eventLog,
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}
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algs := []HashAlg{HashSHA1}
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if t.Version() == TPMVersion20 {
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algs = []HashAlg{HashSHA1, HashSHA256}
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}
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var lastErr error
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for _, alg := range algs {
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quote, pcrs, err := t.attestPCRs(ak, nonce, alg)
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if err != nil {
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lastErr = err
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continue
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}
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out.Quotes = append(out.Quotes, *quote)
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out.PCRs = append(out.PCRs, pcrs...)
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}
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if len(out.Quotes) == 0 {
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return nil, lastErr
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}
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return &out, nil
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}
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// PlatformAttestConfig configures how attestations are generated through
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// tpm.AttestPlatform().
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type PlatformAttestConfig struct {
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// If non-nil, the raw event log will be read from EventLog
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// instead of being obtained from the running system.
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EventLog []byte
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}
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// AttestPlatform computes the set of information necessary to attest the
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// state of the platform. For TPM 2.0 devices, AttestPlatform will attempt
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// to read both SHA1 & SHA256 PCR banks and quote both of them, so bugs in
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// platform firmware which break replay for one PCR bank can be mitigated
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// using the other.
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// The provided config, if not nil, can be used to configure aspects of the
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// platform attestation.
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func (t *TPM) AttestPlatform(ak *AK, nonce []byte, config *PlatformAttestConfig) (*PlatformParameters, error) {
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if config == nil {
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config = &PlatformAttestConfig{}
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}
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var el []byte
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if config.EventLog != nil {
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el = config.EventLog
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} else {
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var err error
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if el, err = t.MeasurementLog(); err != nil {
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return nil, fmt.Errorf("failed to read event log: %v", err)
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}
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}
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return t.attestPlatform(ak, nonce, el)
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}
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// Version returns the version of the TPM.
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func (t *TPM) Version() TPMVersion {
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return t.tpm.tpmVersion()
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}
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