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// Copyright 2014 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <string>
#include <base/gtest_prod_util.h>
#include <crypto/secure_hash.h>
#include <gtest/gtest_prod.h>
#include "trunks/authorization_delegate.h"
#include "trunks/tpm_generated.h"
#include "trunks/trunks_export.h"
namespace trunks {
const uint8_t kContinueSession = 1;
const size_t kAesKeySize = 16; // 128 bits is minimum AES key size.
const size_t kHashDigestSize = 32; // 256 bits is SHA256 digest size.
// HmacAuthorizationDelegate is an implementation of the AuthorizationDelegate
// interface. It provides the necessary Auth data for HMAC sessions.
// This delegate also does parameter encryption on sessions that support it.
// Usage:
// 1) After running the StartAuthSession command on the TPM2.0, we declare this
// delegate using the constructor. We can specify if we want parameter
// obfuscation enabled or not.
// 2) We initialize the session using |InitSession|. We feed in the handle and
// tpm_nonce returned by StartAuthSession. Additionally we inject the
// caller_nonce, salt and auth_value of the bound entity we fed into
// StartAuthSession.
// 3) Pass a pointer to this delegate to any TPM command that needs
// authorization using this delegate.
// Sample control flow:
// TrunksProxy proxy;
// proxy.Init();
// Tpm tpm(&proxy);
// tpm.StartAuthSession(...);
// HmacAuthorizationDelegate hmac();
// hmac.InitSession(...);
// tpm.Create(..., &hmac);
// hmac.set_entity_authorization_value(...);
// tpm.Load(..., &hmac);
class TRUNKS_EXPORT HmacAuthorizationDelegate : public AuthorizationDelegate {
HmacAuthorizationDelegate(const HmacAuthorizationDelegate&) = delete;
HmacAuthorizationDelegate& operator=(const HmacAuthorizationDelegate&) =
~HmacAuthorizationDelegate() override;
// AuthorizationDelegate methods.
bool GetCommandAuthorization(const std::string& command_hash,
bool is_command_parameter_encryption_possible,
bool is_response_parameter_encryption_possible,
std::string* authorization) override;
bool CheckResponseAuthorization(const std::string& response_hash,
const std::string& authorization) override;
bool EncryptCommandParameter(std::string* parameter) override;
bool DecryptResponseParameter(std::string* parameter) override;
bool GetTpmNonce(std::string* nonce) override;
// This function is called with the return data of |StartAuthSession|. It
// will initialize the session to start providing auth information. It can
// only be called once per delegate, and must be called before the delegate
// is used for any operation. The boolean arg |enable_parameter_encryption|
// specifies if parameter encryption should be enabled for this delegate.
// |salt| and |bind_auth_value| specify the injected auth values into this
// delegate.
bool InitSession(TPM_HANDLE session_handle,
const TPM2B_NONCE& tpm_nonce,
const TPM2B_NONCE& caller_nonce,
const std::string& salt,
const std::string& bind_auth_value,
bool enable_parameter_encryption);
// This method sets the FutureAuthorizationValue. This value is used in
// computing the HMAC response of TPM2_HierarchyChangeAuth.
void set_future_authorization_value(const std::string& auth_value);
std::string future_authorization_value() {
return future_authorization_value_;
// This method is used to inject an auth_value associated with an entity.
// This auth_value is then used when generating HMACs and encryption keys.
// Note: This value will be used for all commands until explicitly reset.
void set_entity_authorization_value(const std::string& auth_value) {
entity_authorization_value_ = auth_value;
std::string entity_authorization_value() const {
return entity_authorization_value_;
TPM_HANDLE session_handle() const { return session_handle_; }
void set_use_entity_authorization_for_encryption_only(bool value) {
use_entity_authorization_for_encryption_only_ = value;
FRIEND_TEST(HmacAuthorizationDelegateFixture, NonceRegenerationTest);
FRIEND_TEST(HmacAuthorizationDelegateTest, EncryptDecryptTest);
FRIEND_TEST(HmacAuthorizationDelegateTest, SessionKeyTest);
// This method implements the key derivation function used in the TPM.
// NOTE: It only returns 32 byte keys.
std::string CreateKey(const std::string& hmac_key,
const std::string& label,
const TPM2B_NONCE& nonce_newer,
const TPM2B_NONCE& nonce_older);
// This method performs a FIPS198 HMAC operation on |data| using |key|
std::string HmacSha256(const std::string& key, const std::string& data);
// This method performs an AES operation using a 128 bit key.
// |operation_type| can be either AES_ENCRYPT or AES_DECRYPT and it
// determines if the operation is an encryption or decryption.
void AesOperation(std::string* parameter,
const TPM2B_NONCE& nonce_newer,
const TPM2B_NONCE& nonce_older,
int operation_type);
// This method regenerates the caller nonce. The new nonce is the same
// length as the previous nonce. The buffer is filled with random data using
// openssl's |RAND_bytes| function.
// NOTE: This operation is DESTRUCTIVE, and rewrites the caller_nonce_ field.
void RegenerateCallerNonce();
TPM_HANDLE session_handle_;
TPM2B_NONCE caller_nonce_;
TPM2B_NONCE tpm_nonce_;
bool is_parameter_encryption_enabled_;
bool nonce_generated_;
std::string session_key_;
std::string entity_authorization_value_;
bool future_authorization_value_set_;
std::string future_authorization_value_;
// This boolean flag determines if the entity_authorization_value_ is needed
// when computing the hmac_key to create the authorization hmac. Defaults
// to false, but policy sessions may set this flag to true.
bool use_entity_authorization_for_encryption_only_;
} // namespace trunks