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android / platform / system / keymaster / c6d9000526f463bc109964b73ed751ae09fc2da7 / . / ng / AndroidKeymaster3Device.cpp
blob: c95db0ca7d04c22436cafed6ccc82533afda2188 [file] [log] [blame]
/*
**
** Copyright 2016, 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.keymaster@3.0-impl"
#include "include/AndroidKeymaster3Device.h"
#include <cutils/log.h>
#include "include/authorization_set.h"
#include <keymaster/android_keymaster.h>
#include <keymaster/android_keymaster_messages.h>
#include <keymaster/contexts/soft_keymaster_context.h>
#include <keymaster/contexts/keymaster0_passthrough_context.h>
#include <keymaster/contexts/keymaster1_passthrough_context.h>
#include <keymaster/contexts/keymaster2_passthrough_context.h>
#include <keymaster/contexts/pure_soft_keymaster_context.h>
#include <keymaster/keymaster_configuration.h>
#include <keymaster/keymaster_enforcement.h>
#include <keymaster/km_openssl/soft_keymaster_enforcement.h>
using ::keymaster::AddEntropyRequest;
using ::keymaster::AddEntropyResponse;
using ::keymaster::AttestKeyRequest;
using ::keymaster::AttestKeyResponse;
using ::keymaster::AuthorizationSet;
using ::keymaster::ExportKeyRequest;
using ::keymaster::ExportKeyResponse;
using ::keymaster::GenerateKeyRequest;
using ::keymaster::GenerateKeyResponse;
using ::keymaster::GetKeyCharacteristicsRequest;
using ::keymaster::GetKeyCharacteristicsResponse;
using ::keymaster::ImportKeyRequest;
using ::keymaster::ImportKeyResponse;
using ::keymaster::BeginOperationRequest;
using ::keymaster::BeginOperationResponse;
using ::keymaster::UpdateOperationRequest;
using ::keymaster::UpdateOperationResponse;
using ::keymaster::FinishOperationRequest;
using ::keymaster::FinishOperationResponse;
using ::keymaster::AbortOperationRequest;
using ::keymaster::AbortOperationResponse;
namespace keymaster {
namespace ng {
namespace {
constexpr size_t kOperationTableSize = 16;
inline keymaster_tag_t legacy_enum_conversion(const Tag value) {
return keymaster_tag_t(value);
}
inline Tag legacy_enum_conversion(const keymaster_tag_t value) {
return Tag(value);
}
inline keymaster_purpose_t legacy_enum_conversion(const KeyPurpose value) {
return keymaster_purpose_t(value);
}
inline keymaster_key_format_t legacy_enum_conversion(const KeyFormat value) {
return keymaster_key_format_t(value);
}
inline ErrorCode legacy_enum_conversion(const keymaster_error_t value) {
return ErrorCode(value);
}
inline keymaster_tag_type_t typeFromTag(const keymaster_tag_t tag) {
return keymaster_tag_get_type(tag);
}
class KmParamSet : public keymaster_key_param_set_t {
public:
KmParamSet(const hidl_vec<KeyParameter>& keyParams) {
params = new keymaster_key_param_t[keyParams.size()];
length = keyParams.size();
for (size_t i = 0; i < keyParams.size(); ++i) {
auto tag = legacy_enum_conversion(keyParams[i].tag);
switch (typeFromTag(tag)) {
case KM_ENUM:
case KM_ENUM_REP:
params[i] = keymaster_param_enum(tag, keyParams[i].f.integer);
break;
case KM_UINT:
case KM_UINT_REP:
params[i] = keymaster_param_int(tag, keyParams[i].f.integer);
break;
case KM_ULONG:
case KM_ULONG_REP:
params[i] = keymaster_param_long(tag, keyParams[i].f.longInteger);
break;
case KM_DATE:
params[i] = keymaster_param_date(tag, keyParams[i].f.dateTime);
break;
case KM_BOOL:
if (keyParams[i].f.boolValue)
params[i] = keymaster_param_bool(tag);
else
params[i].tag = KM_TAG_INVALID;
break;
case KM_BIGNUM:
case KM_BYTES:
params[i] =
keymaster_param_blob(tag, &keyParams[i].blob[0], keyParams[i].blob.size());
break;
case KM_INVALID:
default:
params[i].tag = KM_TAG_INVALID;
/* just skip */
break;
}
}
}
KmParamSet(KmParamSet&& other) : keymaster_key_param_set_t{other.params, other.length} {
other.length = 0;
other.params = nullptr;
}
KmParamSet(const KmParamSet&) = delete;
~KmParamSet() { delete[] params; }
};
inline hidl_vec<uint8_t> kmBlob2hidlVec(const keymaster_key_blob_t& blob) {
hidl_vec<uint8_t> result;
result.setToExternal(const_cast<unsigned char*>(blob.key_material), blob.key_material_size);
return result;
}
inline hidl_vec<uint8_t> kmBlob2hidlVec(const keymaster_blob_t& blob) {
hidl_vec<uint8_t> result;
result.setToExternal(const_cast<unsigned char*>(blob.data), blob.data_length);
return result;
}
inline hidl_vec<uint8_t> kmBuffer2hidlVec(const ::keymaster::Buffer& buf) {
hidl_vec<uint8_t> result;
result.setToExternal(const_cast<unsigned char*>(buf.peek_read()), buf.available_read());
return result;
}
inline static hidl_vec<hidl_vec<uint8_t>>
kmCertChain2Hidl(const keymaster_cert_chain_t& cert_chain) {
hidl_vec<hidl_vec<uint8_t>> result;
if (!cert_chain.entry_count || !cert_chain.entries) return result;
result.resize(cert_chain.entry_count);
for (size_t i = 0; i < cert_chain.entry_count; ++i) {
result[i] = kmBlob2hidlVec(cert_chain.entries[i]);
}
return result;
}
static inline hidl_vec<KeyParameter> kmParamSet2Hidl(const keymaster_key_param_set_t& set) {
hidl_vec<KeyParameter> result;
if (set.length == 0 || set.params == nullptr) return result;
result.resize(set.length);
keymaster_key_param_t* params = set.params;
for (size_t i = 0; i < set.length; ++i) {
auto tag = params[i].tag;
result[i].tag = legacy_enum_conversion(tag);
switch (typeFromTag(tag)) {
case KM_ENUM:
case KM_ENUM_REP:
result[i].f.integer = params[i].enumerated;
break;
case KM_UINT:
case KM_UINT_REP:
result[i].f.integer = params[i].integer;
break;
case KM_ULONG:
case KM_ULONG_REP:
result[i].f.longInteger = params[i].long_integer;
break;
case KM_DATE:
result[i].f.dateTime = params[i].date_time;
break;
case KM_BOOL:
result[i].f.boolValue = params[i].boolean;
break;
case KM_BIGNUM:
case KM_BYTES:
result[i].blob.setToExternal(const_cast<unsigned char*>(params[i].blob.data),
params[i].blob.data_length);
break;
case KM_INVALID:
default:
params[i].tag = KM_TAG_INVALID;
/* just skip */
break;
}
}
return result;
}
void addClientAndAppData(const hidl_vec<uint8_t>& clientId, const hidl_vec<uint8_t>& appData,
::keymaster::AuthorizationSet* params) {
params->Clear();
if (clientId.size()) {
params->push_back(::keymaster::TAG_APPLICATION_ID, clientId.data(), clientId.size());
}
if (appData.size()) {
params->push_back(::keymaster::TAG_APPLICATION_DATA, appData.data(), appData.size());
}
}
} // anonymous namespace
AndroidKeymaster3Device::AndroidKeymaster3Device()
: impl_(new ::keymaster::AndroidKeymaster(
[] () -> auto {
auto context = new PureSoftKeymasterContext();
context->SetSystemVersion(GetOsVersion(), GetOsPatchlevel());
return context;
} (), kOperationTableSize)), profile_(KeymasterHardwareProfile::SW) {}
AndroidKeymaster3Device::AndroidKeymaster3Device(KeymasterContext* context, KeymasterHardwareProfile profile)
: impl_(new ::keymaster::AndroidKeymaster(context, kOperationTableSize)), profile_(profile) {}
AndroidKeymaster3Device::~AndroidKeymaster3Device() {}
// Methods from ::android::hardware::keymaster::V3_0::IKeymasterDevice follow.
Return<void> AndroidKeymaster3Device::getHardwareFeatures(getHardwareFeatures_cb _hidl_cb) {
switch(profile_) {
case KeymasterHardwareProfile::KM0:
_hidl_cb(true /* is_secure */, false /* supports_ec */,
false /* supports_symmetric_cryptography */, false /* supports_attestation */,
false /* supportsAllDigests */, "SoftwareWrappedKeymaster0Device", "Google");
break;
case KeymasterHardwareProfile::KM1:
_hidl_cb(true /* is_secure */, true /* supports_ec */,
true /* supports_symmetric_cryptography */, false /* supports_attestation */,
false /* supportsAllDigests */, "SoftwareWrappedKeymaster1Device", "Google");
break;
case KeymasterHardwareProfile::KM2:
_hidl_cb(true /* is_secure */, true /* supports_ec */,
true /* supports_symmetric_cryptography */, true /* supports_attestation */,
true /* supportsAllDigests */, "SoftwareWrappedKeymaster2Device", "Google");
break;
case KeymasterHardwareProfile::SW:
default:
_hidl_cb(false /* is_secure */, false /* supports_ec */,
false /* supports_symmetric_cryptography */, false /* supports_attestation */,
false /* supportsAllDigests */, "SoftwareKeymasterDevice", "Google");
break;
}
return Void();
}
Return<ErrorCode> AndroidKeymaster3Device::addRngEntropy(const hidl_vec<uint8_t>& data) {
if (data.size() == 0) return ErrorCode::OK;
AddEntropyRequest request;
request.random_data.Reinitialize(data.data(), data.size());
AddEntropyResponse response;
impl_->AddRngEntropy(request, &response);
return legacy_enum_conversion(response.error);
}
Return<void> AndroidKeymaster3Device::generateKey(const hidl_vec<KeyParameter>& keyParams,
generateKey_cb _hidl_cb) {
GenerateKeyRequest request;
request.key_description.Reinitialize(KmParamSet(keyParams));
GenerateKeyResponse response;
impl_->GenerateKey(request, &response);
KeyCharacteristics resultCharacteristics;
hidl_vec<uint8_t> resultKeyBlob;
if (response.error == KM_ERROR_OK) {
resultKeyBlob = kmBlob2hidlVec(response.key_blob);
resultCharacteristics.teeEnforced = kmParamSet2Hidl(response.enforced);
resultCharacteristics.softwareEnforced = kmParamSet2Hidl(response.unenforced);
}
_hidl_cb(legacy_enum_conversion(response.error), resultKeyBlob, resultCharacteristics);
return Void();
}
Return<void> AndroidKeymaster3Device::getKeyCharacteristics(const hidl_vec<uint8_t>& keyBlob,
const hidl_vec<uint8_t>& clientId,
const hidl_vec<uint8_t>& appData,
getKeyCharacteristics_cb _hidl_cb) {
GetKeyCharacteristicsRequest request;
request.SetKeyMaterial(keyBlob.data(), keyBlob.size());
addClientAndAppData(clientId, appData, &request.additional_params);
GetKeyCharacteristicsResponse response;
impl_->GetKeyCharacteristics(request, &response);
KeyCharacteristics resultCharacteristics;
if (response.error == KM_ERROR_OK) {
resultCharacteristics.teeEnforced = kmParamSet2Hidl(response.enforced);
resultCharacteristics.softwareEnforced = kmParamSet2Hidl(response.unenforced);
}
_hidl_cb(legacy_enum_conversion(response.error), resultCharacteristics);
return Void();
}
Return<void> AndroidKeymaster3Device::importKey(const hidl_vec<KeyParameter>& params,
KeyFormat keyFormat, const hidl_vec<uint8_t>& keyData,
importKey_cb _hidl_cb) {
ImportKeyRequest request;
request.key_description.Reinitialize(KmParamSet(params));
request.key_format = legacy_enum_conversion(keyFormat);
request.SetKeyMaterial(keyData.data(), keyData.size());
ImportKeyResponse response;
impl_->ImportKey(request, &response);
KeyCharacteristics resultCharacteristics;
hidl_vec<uint8_t> resultKeyBlob;
if (response.error == KM_ERROR_OK) {
resultKeyBlob = kmBlob2hidlVec(response.key_blob);
resultCharacteristics.teeEnforced = kmParamSet2Hidl(response.enforced);
resultCharacteristics.softwareEnforced = kmParamSet2Hidl(response.unenforced);
}
_hidl_cb(legacy_enum_conversion(response.error), resultKeyBlob, resultCharacteristics);
return Void();
}
Return<void> AndroidKeymaster3Device::exportKey(KeyFormat exportFormat,
const hidl_vec<uint8_t>& keyBlob,
const hidl_vec<uint8_t>& clientId,
const hidl_vec<uint8_t>& appData,
exportKey_cb _hidl_cb) {
ExportKeyRequest request;
request.key_format = legacy_enum_conversion(exportFormat);
request.SetKeyMaterial(keyBlob.data(), keyBlob.size());
addClientAndAppData(clientId, appData, &request.additional_params);
ExportKeyResponse response;
impl_->ExportKey(request, &response);
hidl_vec<uint8_t> resultKeyBlob;
if (response.error == KM_ERROR_OK) {
resultKeyBlob.setToExternal(response.key_data, response.key_data_length);
}
_hidl_cb(legacy_enum_conversion(response.error), resultKeyBlob);
return Void();
}
Return<void> AndroidKeymaster3Device::attestKey(const hidl_vec<uint8_t>& keyToAttest,
const hidl_vec<KeyParameter>& attestParams,
attestKey_cb _hidl_cb) {
AttestKeyRequest request;
request.SetKeyMaterial(keyToAttest.data(), keyToAttest.size());
request.attest_params.Reinitialize(KmParamSet(attestParams));
AttestKeyResponse response;
impl_->AttestKey(request, &response);
hidl_vec<hidl_vec<uint8_t>> resultCertChain;
if (response.error == KM_ERROR_OK) {
resultCertChain = kmCertChain2Hidl(response.certificate_chain);
}
_hidl_cb(legacy_enum_conversion(response.error), resultCertChain);
return Void();
}
Return<void> AndroidKeymaster3Device::upgradeKey(const hidl_vec<uint8_t>& keyBlobToUpgrade,
const hidl_vec<KeyParameter>& upgradeParams,
upgradeKey_cb _hidl_cb) {
// There's nothing to be done to upgrade software key blobs. Further, the software
// implementation never returns ErrorCode::KEY_REQUIRES_UPGRADE, so this should never be called.
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){
_hidl_cb(ErrorCode::OK, kmBlob2hidlVec(response.upgraded_key));
} else {
_hidl_cb(legacy_enum_conversion(response.error), hidl_vec<uint8_t>());
}
return Void();
}
Return<ErrorCode> AndroidKeymaster3Device::deleteKey(const hidl_vec<uint8_t>& keyBlob) {
// There's nothing to be done to delete software key blobs.
DeleteKeyRequest request;
request.SetKeyMaterial(keyBlob.data(), keyBlob.size());
DeleteKeyResponse response;
impl_->DeleteKey(request, &response);
return legacy_enum_conversion(response.error);
}
Return<ErrorCode> AndroidKeymaster3Device::deleteAllKeys() {
// There's nothing to be done to delete software key blobs.
DeleteAllKeysRequest request;
DeleteAllKeysResponse response;
impl_->DeleteAllKeys(request, &response);
return legacy_enum_conversion(response.error);
}
Return<ErrorCode> AndroidKeymaster3Device::destroyAttestationIds() {
return ErrorCode::UNIMPLEMENTED;
}
Return<void> AndroidKeymaster3Device::begin(KeyPurpose purpose, const hidl_vec<uint8_t>& key,
const hidl_vec<KeyParameter>& inParams, begin_cb _hidl_cb) {
BeginOperationRequest request;
request.purpose = legacy_enum_conversion(purpose);
request.SetKeyMaterial(key.data(), key.size());
request.additional_params.Reinitialize(KmParamSet(inParams));
BeginOperationResponse response;
impl_->BeginOperation(request, &response);
hidl_vec<KeyParameter> resultParams;
if (response.error == KM_ERROR_OK) {
resultParams = kmParamSet2Hidl(response.output_params);
}
_hidl_cb(legacy_enum_conversion(response.error), resultParams, response.op_handle);
return Void();
}
Return<void> AndroidKeymaster3Device::update(uint64_t operationHandle,
const hidl_vec<KeyParameter>& inParams,
const hidl_vec<uint8_t>& input, update_cb _hidl_cb) {
UpdateOperationRequest request;
request.op_handle = operationHandle;
request.input.Reinitialize(input.data(), input.size());
request.additional_params.Reinitialize(KmParamSet(inParams));
UpdateOperationResponse response;
impl_->UpdateOperation(request, &response);
uint32_t resultConsumed = 0;
hidl_vec<KeyParameter> resultParams;
hidl_vec<uint8_t> resultBlob;
if (response.error == KM_ERROR_OK) {
resultConsumed = response.input_consumed;
resultParams = kmParamSet2Hidl(response.output_params);
resultBlob = kmBuffer2hidlVec(response.output);
}
_hidl_cb(legacy_enum_conversion(response.error), resultConsumed, resultParams, resultBlob);
return Void();
}
Return<void> AndroidKeymaster3Device::finish(uint64_t operationHandle,
const hidl_vec<KeyParameter>& inParams,
const hidl_vec<uint8_t>& input,
const hidl_vec<uint8_t>& signature, finish_cb _hidl_cb) {
FinishOperationRequest request;
request.op_handle = operationHandle;
request.input.Reinitialize(input.data(), input.size());
request.signature.Reinitialize(signature.data(), signature.size());
request.additional_params.Reinitialize(KmParamSet(inParams));
FinishOperationResponse response;
impl_->FinishOperation(request, &response);
hidl_vec<KeyParameter> resultParams;
hidl_vec<uint8_t> resultBlob;
if (response.error == KM_ERROR_OK) {
resultParams = kmParamSet2Hidl(response.output_params);
resultBlob = kmBuffer2hidlVec(response.output);
}
_hidl_cb(legacy_enum_conversion(response.error), resultParams, resultBlob);
return Void();
}
Return<ErrorCode> AndroidKeymaster3Device::abort(uint64_t operationHandle) {
AbortOperationRequest request;
request.op_handle = operationHandle;
AbortOperationResponse response;
impl_->AbortOperation(request, &response);
return legacy_enum_conversion(response.error);
}
IKeymasterDevice* CreateKeymasterDevice() {
return new AndroidKeymaster3Device();
}
IKeymasterDevice* CreateKeymasterDevice(keymaster2_device_t* km2_device) {
if (ConfigureDevice(km2_device) != KM_ERROR_OK) return nullptr;
auto context = new Keymaster2PassthroughContext(km2_device);
context->SetSystemVersion(GetOsVersion(), GetOsPatchlevel());
return new AndroidKeymaster3Device(context, KeymasterHardwareProfile::KM2);
}
IKeymasterDevice* CreateKeymasterDevice(keymaster1_device_t* km1_device) {
auto context = new Keymaster1PassthroughContext(km1_device);
context->SetSystemVersion(GetOsVersion(), GetOsPatchlevel());
return new AndroidKeymaster3Device(context, KeymasterHardwareProfile::KM1);
}
IKeymasterDevice* CreateKeymasterDevice(keymaster0_device_t* km0_device) {
auto context = new Keymaster0PassthroughContext(km0_device);
context->SetSystemVersion(GetOsVersion(), GetOsPatchlevel());
return new AndroidKeymaster3Device(context, KeymasterHardwareProfile::KM0);
}
} // namespace ng
} // namespace keymaster