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/*
**
** Copyright 2020, The Android Open Source Project
**
** 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.
*/
#define LOG_TAG "android.hardware.keymint@1.0-impl"
#include <log/log.h>
#include "include/AndroidKeyMint1Device.h"
#include "KeyMintAidlUtils.h"
#include "include/AndroidKeyMint1Operation.h"
#include <aidl/android/hardware/keymint/ErrorCode.h>
#include <keymaster/android_keymaster.h>
#include <keymaster/contexts/pure_soft_keymaster_context.h>
#include <keymaster/keymaster_configuration.h>
namespace aidl {
namespace android {
namespace hardware {
namespace keymint {
namespace V1_0 {
using ::aidl::android::hardware::keymint::ErrorCode;
using ::aidl::android::hardware::keymint::HardwareAuthToken;
using ::aidl::android::hardware::keymint::VerificationToken;
using namespace ::keymaster;
constexpr size_t kOperationTableSize = 16;
AndroidKeyMint1Device::AndroidKeyMint1Device(SecurityLevel securityLevel)
: impl_(new ::keymaster::AndroidKeymaster(
[&]() -> auto {
auto context = new PureSoftKeymasterContext(
static_cast<keymaster_security_level_t>(securityLevel));
context->SetSystemVersion(::keymaster::GetOsVersion(),
::keymaster::GetOsPatchlevel());
return context;
}(),
kOperationTableSize)),
securityLevel_(securityLevel) {}
AndroidKeyMint1Device::~AndroidKeyMint1Device() {}
ScopedAStatus AndroidKeyMint1Device::getHardwareInfo(KeyMintHardwareInfo* info) {
info->versionNumber = 1;
info->securityLevel = securityLevel_;
info->keyMintName = "FakeKeyMintDevice";
info->keyMintAuthorName = "Google";
return ScopedAStatus::ok();
}
ScopedAStatus AndroidKeyMint1Device::verifyAuthorization(int64_t challenge, //
const HardwareAuthToken& authToken, //
VerificationToken* verificationToken) {
VerifyAuthorizationRequest request;
request.challenge = static_cast<uint64_t>(challenge);
request.auth_token.challenge = authToken.challenge;
request.auth_token.user_id = authToken.userId;
request.auth_token.authenticator_id = authToken.authenticatorId;
request.auth_token.authenticator_type = legacy_enum_conversion(authToken.authenticatorType);
// TODO(seleneh) b/162481130 remove the casting once uint is supported in aidl
request.auth_token.timestamp = static_cast<uint64_t>(authToken.timestamp.milliSeconds);
KeymasterBlob mac(authToken.mac.data(), authToken.mac.size());
request.auth_token.mac = KeymasterBlob(authToken.mac.data(), authToken.mac.size());
auto response = impl_->VerifyAuthorization(request);
if (response.error != KM_ERROR_OK) {
return kmError2ScopedAStatus(response.error);
}
verificationToken->challenge = response.token.challenge;
verificationToken->timestamp.milliSeconds = static_cast<int64_t>(response.token.timestamp);
verificationToken->securityLevel = legacy_enum_conversion(response.token.security_level);
verificationToken->mac = kmBlob2vector(response.token.mac);
return ScopedAStatus::ok();
}
ScopedAStatus AndroidKeyMint1Device::addRngEntropy(const vector<uint8_t>& data) {
if (data.size() == 0) {
return ScopedAStatus::ok();
}
AddEntropyRequest request;
request.random_data.Reinitialize(data.data(), data.size());
AddEntropyResponse response;
impl_->AddRngEntropy(request, &response);
return kmError2ScopedAStatus(response.error);
}
ScopedAStatus AndroidKeyMint1Device::generateKey(const vector<KeyParameter>& keyParams,
ByteArray* generatedKeyBlob,
KeyCharacteristics* generatedKeyCharacteristics,
vector<Certificate>* /* certChain */) {
GenerateKeyRequest request;
request.key_description.Reinitialize(KmParamSet(keyParams));
GenerateKeyResponse response;
impl_->GenerateKey(request, &response);
if (response.error != KM_ERROR_OK) {
// Note a key difference between this current aidl and previous hal, is
// that hal returns void where as aidl returns the error status. If
// aidl returns error, then aidl will not return any change you may make
// to the out parameters. This is quite different from hal where all
// output variable can be modified due to hal returning void.
//
// So the caller need to be aware not to expect aidl functions to clear
// the output variables for you in case of error. If you left some
// wrong data set in the out parameters, they will stay there.
return kmError2ScopedAStatus(response.error);
}
generatedKeyBlob->data = kmBlob2vector(response.key_blob);
generatedKeyCharacteristics->hardwareEnforced = kmParamSet2Aidl(response.enforced);
generatedKeyCharacteristics->softwareEnforced = kmParamSet2Aidl(response.unenforced);
return ScopedAStatus::ok();
}
ScopedAStatus AndroidKeyMint1Device::importKey(const vector<KeyParameter>& keyParams,
KeyFormat keyFormat, const vector<uint8_t>& keyData,
ByteArray* importedKeyBlob,
KeyCharacteristics* importedKeyCharacteristics,
vector<Certificate>* /* certChain */) {
ImportKeyRequest request;
request.key_description.Reinitialize(KmParamSet(keyParams));
request.key_format = legacy_enum_conversion(keyFormat);
request.SetKeyMaterial(keyData.data(), keyData.size());
ImportKeyResponse response;
impl_->ImportKey(request, &response);
if (response.error != KM_ERROR_OK) {
return kmError2ScopedAStatus(response.error);
}
importedKeyBlob->data = kmBlob2vector(response.key_blob);
importedKeyCharacteristics->hardwareEnforced = kmParamSet2Aidl(response.enforced);
importedKeyCharacteristics->softwareEnforced = kmParamSet2Aidl(response.unenforced);
return ScopedAStatus::ok();
}
ScopedAStatus AndroidKeyMint1Device::importWrappedKey(
const vector<uint8_t>& wrappedKeyData, const vector<uint8_t>& wrappingKeyBlob,
const vector<uint8_t>& maskingKey, const vector<KeyParameter>& unwrappingParams,
int64_t passwordSid, int64_t biometricSid, ByteArray* importedKeyBlob,
KeyCharacteristics* importedKeyCharacteristics) {
ImportWrappedKeyRequest request;
request.SetWrappedMaterial(wrappedKeyData.data(), wrappedKeyData.size());
request.SetWrappingMaterial(wrappingKeyBlob.data(), wrappingKeyBlob.size());
request.SetMaskingKeyMaterial(maskingKey.data(), maskingKey.size());
request.additional_params.Reinitialize(KmParamSet(unwrappingParams));
request.password_sid = static_cast<uint64_t>(passwordSid);
request.biometric_sid = static_cast<uint64_t>(biometricSid);
ImportWrappedKeyResponse response;
impl_->ImportWrappedKey(request, &response);
if (response.error != KM_ERROR_OK) {
return kmError2ScopedAStatus(response.error);
}
importedKeyBlob->data = kmBlob2vector(response.key_blob);
importedKeyCharacteristics->hardwareEnforced = kmParamSet2Aidl(response.enforced);
importedKeyCharacteristics->softwareEnforced = kmParamSet2Aidl(response.unenforced);
return ScopedAStatus::ok();
}
ScopedAStatus AndroidKeyMint1Device::upgradeKey(const vector<uint8_t>& keyBlobToUpgrade,
const vector<KeyParameter>& upgradeParams,
vector<uint8_t>* keyBlob) {
UpgradeKeyRequest request;
request.SetKeyMaterial(keyBlobToUpgrade.data(), keyBlobToUpgrade.size());
request.upgrade_params.Reinitialize(KmParamSet(upgradeParams));
UpgradeKeyResponse response;
impl_->UpgradeKey(request, &response);
if (response.error != KM_ERROR_OK) {
return kmError2ScopedAStatus(response.error);
}
*keyBlob = kmBlob2vector(response.upgraded_key);
return ScopedAStatus::ok();
}
ScopedAStatus AndroidKeyMint1Device::deleteKey(const vector<uint8_t>& keyBlob) {
DeleteKeyRequest request;
request.SetKeyMaterial(keyBlob.data(), keyBlob.size());
DeleteKeyResponse response;
impl_->DeleteKey(request, &response);
return kmError2ScopedAStatus(response.error);
}
ScopedAStatus AndroidKeyMint1Device::deleteAllKeys() {
// There's nothing to be done to delete software key blobs.
DeleteAllKeysRequest request;
DeleteAllKeysResponse response;
impl_->DeleteAllKeys(request, &response);
return kmError2ScopedAStatus(response.error);
}
ScopedAStatus AndroidKeyMint1Device::destroyAttestationIds() {
return kmError2ScopedAStatus(KM_ERROR_UNIMPLEMENTED);
}
ScopedAStatus AndroidKeyMint1Device::begin(KeyPurpose purpose, const vector<uint8_t>& keyBlob,
const vector<KeyParameter>& params,
const HardwareAuthToken& authToken,
BeginResult* result) {
BeginOperationRequest request;
request.purpose = legacy_enum_conversion(purpose);
request.SetKeyMaterial(keyBlob.data(), keyBlob.size());
request.additional_params.Reinitialize(KmParamSet(params));
vector<uint8_t> vector_token = authToken2AidlVec(authToken);
request.additional_params.push_back(
TAG_AUTH_TOKEN, reinterpret_cast<uint8_t*>(vector_token.data()), vector_token.size());
BeginOperationResponse response;
impl_->BeginOperation(request, &response);
if (response.error != KM_ERROR_OK) {
return kmError2ScopedAStatus(response.error);
}
result->params = kmParamSet2Aidl(response.output_params);
result->challenge = response.op_handle;
result->operation =
ndk::SharedRefBase::make<AndroidKeyMint1Operation>(impl_, response.op_handle);
return ScopedAStatus::ok();
}
IKeyMintDevice* CreateKeyMintDevice(SecurityLevel securityLevel) {
return ::new AndroidKeyMint1Device(securityLevel);
}
} // namespace V1_0
} // namespace keymint
} // namespace hardware
} // namespace android
} // namespace aidl
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