/* ** ** Copyright 2017, 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. */ #include #include #include namespace android::hardware::keymaster::V4_1::support { using android::hardware::details::StatusOf; namespace { V4_0::ErrorCode convert(V3_0::ErrorCode error) { return static_cast(error); } V3_0::KeyPurpose convert(KeyPurpose purpose) { return static_cast(purpose); } V3_0::KeyFormat convert(KeyFormat purpose) { return static_cast(purpose); } V3_0::KeyParameter convert(const KeyParameter& param) { V3_0::KeyParameter converted; converted.tag = static_cast(param.tag); static_assert(sizeof(converted.f) == sizeof(param.f), "This function assumes sizes match"); memcpy(&converted.f, ¶m.f, sizeof(param.f)); converted.blob = param.blob; return converted; } KeyParameter convert(const V3_0::KeyParameter& param) { KeyParameter converted; converted.tag = static_cast(param.tag); static_assert(sizeof(converted.f) == sizeof(param.f), "This function assumes sizes match"); memcpy(&converted.f, ¶m.f, sizeof(param.f)); converted.blob = param.blob; return converted; } hidl_vec convert(const hidl_vec& params) { hidl_vec converted(params.size()); for (size_t i = 0; i < params.size(); ++i) { converted[i] = convert(params[i]); } return converted; } hidl_vec convert(const hidl_vec& params) { hidl_vec converted(params.size()); for (size_t i = 0; i < params.size(); ++i) { converted[i] = convert(params[i]); } return converted; } template inline static OutIter copy_bytes_to_iterator(const T& value, OutIter dest) { const uint8_t* value_ptr = reinterpret_cast(&value); return std::copy(value_ptr, value_ptr + sizeof(value), dest); } hidl_vec convertAndAddAuthToken(const hidl_vec& params, const HardwareAuthToken& authToken) { hidl_vec converted(params.size() + 1); for (size_t i = 0; i < params.size(); ++i) { converted[i] = convert(params[i]); } converted[params.size()].tag = V3_0::Tag::AUTH_TOKEN; converted[params.size()].blob = V4_0::support::authToken2HidlVec(authToken); return converted; } KeyCharacteristics convert(const V3_0::KeyCharacteristics& chars) { KeyCharacteristics converted; converted.hardwareEnforced = convert(chars.teeEnforced); converted.softwareEnforced = convert(chars.softwareEnforced); return converted; } } // namespace void Keymaster3::getVersionIfNeeded() { if (haveVersion_) return; auto rc = km3_dev_->getHardwareFeatures( [&](bool isSecure, bool supportsEllipticCurve, bool supportsSymmetricCryptography, bool supportsAttestation, bool supportsAllDigests, const hidl_string& keymasterName, const hidl_string& keymasterAuthorName) { version_ = {keymasterName, keymasterAuthorName, 0 /* major version, filled below */, 0 /* minor version */, isSecure ? SecurityLevel::TRUSTED_ENVIRONMENT : SecurityLevel::SOFTWARE, supportsEllipticCurve}; supportsSymmetricCryptography_ = supportsSymmetricCryptography; supportsAttestation_ = supportsAttestation; supportsAllDigests_ = supportsAllDigests; }); CHECK(rc.isOk()) << "Got error " << rc.description() << " trying to get hardware features"; if (version_.securityLevel == SecurityLevel::SOFTWARE) { version_.majorVersion = 3; } else if (supportsAttestation_) { version_.majorVersion = 3; // Could be 2, doesn't matter. } else if (supportsSymmetricCryptography_) { version_.majorVersion = 1; } else { version_.majorVersion = 0; } } Return Keymaster3::getHardwareInfo(Keymaster3::getHardwareInfo_cb _hidl_cb) { getVersionIfNeeded(); _hidl_cb(version_.securityLevel, std::string(version_.keymasterName) + " (wrapped by keystore::Keymaster3)", version_.authorName); return Void(); } Return Keymaster3::addRngEntropy(const hidl_vec& data) { auto rc = km3_dev_->addRngEntropy(data); if (!rc.isOk()) { return StatusOf(rc); } return convert(rc); } Return Keymaster3::generateKey(const hidl_vec& keyParams, generateKey_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, const hidl_vec& keyBlob, const V3_0::KeyCharacteristics& characteristics) { _hidl_cb(convert(error), keyBlob, convert(characteristics)); }; auto rc = km3_dev_->generateKey(convert(keyParams), cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::getKeyCharacteristics(const hidl_vec& keyBlob, const hidl_vec& clientId, const hidl_vec& appData, getKeyCharacteristics_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, const V3_0::KeyCharacteristics& chars) { _hidl_cb(convert(error), convert(chars)); }; auto rc = km3_dev_->getKeyCharacteristics(keyBlob, clientId, appData, cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::importKey(const hidl_vec& params, KeyFormat keyFormat, const hidl_vec& keyData, importKey_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, const hidl_vec& keyBlob, const V3_0::KeyCharacteristics& chars) { _hidl_cb(convert(error), keyBlob, convert(chars)); }; auto rc = km3_dev_->importKey(convert(params), convert(keyFormat), keyData, cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::exportKey(KeyFormat exportFormat, const hidl_vec& keyBlob, const hidl_vec& clientId, const hidl_vec& appData, exportKey_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, const hidl_vec& keyMaterial) { _hidl_cb(convert(error), keyMaterial); }; auto rc = km3_dev_->exportKey(convert(exportFormat), keyBlob, clientId, appData, cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::attestKey(const hidl_vec& keyToAttest, const hidl_vec& attestParams, attestKey_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, const hidl_vec>& certChain) { _hidl_cb(convert(error), certChain); }; auto rc = km3_dev_->attestKey(keyToAttest, convert(attestParams), cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::upgradeKey(const hidl_vec& keyBlobToUpgrade, const hidl_vec& upgradeParams, upgradeKey_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, const hidl_vec& upgradedKeyBlob) { _hidl_cb(convert(error), upgradedKeyBlob); }; auto rc = km3_dev_->upgradeKey(keyBlobToUpgrade, convert(upgradeParams), cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::deleteKey(const hidl_vec& keyBlob) { auto rc = km3_dev_->deleteKey(keyBlob); if (!rc.isOk()) return StatusOf(rc); return convert(rc); } Return Keymaster3::deleteAllKeys() { auto rc = km3_dev_->deleteAllKeys(); if (!rc.isOk()) return StatusOf(rc); return convert(rc); } Return Keymaster3::destroyAttestationIds() { auto rc = km3_dev_->destroyAttestationIds(); if (!rc.isOk()) return StatusOf(rc); return convert(rc); } Return Keymaster3::begin(KeyPurpose purpose, const hidl_vec& key, const hidl_vec& inParams, const HardwareAuthToken& authToken, begin_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, const hidl_vec& outParams, OperationHandle operationHandle) { _hidl_cb(convert(error), convert(outParams), operationHandle); }; auto rc = km3_dev_->begin(convert(purpose), key, convertAndAddAuthToken(inParams, authToken), cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::update(uint64_t operationHandle, const hidl_vec& inParams, const hidl_vec& input, const HardwareAuthToken& authToken, const VerificationToken& /* verificationToken */, update_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, uint32_t inputConsumed, const hidl_vec& outParams, const hidl_vec& output) { _hidl_cb(convert(error), inputConsumed, convert(outParams), output); }; auto rc = km3_dev_->update(operationHandle, convertAndAddAuthToken(inParams, authToken), input, cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::finish(uint64_t operationHandle, const hidl_vec& inParams, const hidl_vec& input, const hidl_vec& signature, const HardwareAuthToken& authToken, const VerificationToken& /* verificationToken */, finish_cb _hidl_cb) { auto cb = [&](V3_0::ErrorCode error, const hidl_vec& outParams, const hidl_vec& output) { _hidl_cb(convert(error), convert(outParams), output); }; auto rc = km3_dev_->finish(operationHandle, convertAndAddAuthToken(inParams, authToken), input, signature, cb); rc.isOk(); // move ctor prereq return rc; } Return Keymaster3::abort(uint64_t operationHandle) { auto rc = km3_dev_->abort(operationHandle); if (!rc.isOk()) return StatusOf(rc); return convert(rc); } } // namespace android::hardware::keymaster::V4_1::support