biometrics/face/aidl/default/FakeFaceEngine.cpp - LeafOS-Project/android_hardware_interfaces - Gitiles

 /*
  * Copyright (C) 2023 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 "FaceVirtualHalEngine"

 #include "FakeFaceEngine.h"

 #include <android-base/logging.h>

 #include <face.sysprop.h>

 #include "util/CancellationSignal.h"
 #include "util/Util.h"

 using namespace ::android::face::virt;

 namespace aidl::android::hardware::biometrics::face {

 FaceSensorType FakeFaceEngine::GetSensorType() {
     std::string type = FaceHalProperties::type().value_or("");
     if (type == "IR") {
         return FaceSensorType::IR;
     } else {
         FaceHalProperties::type("RGB");
         return FaceSensorType::RGB;
     }
 }

 common::SensorStrength FakeFaceEngine::GetSensorStrength() {
     std::string strength = FaceHalProperties::strength().value_or("");
     if (strength == "convenience") {
         return common::SensorStrength::CONVENIENCE;
     } else if (strength == "weak") {
         return common::SensorStrength::WEAK;
     } else {
         FaceHalProperties::strength("strong");
         return common::SensorStrength::STRONG;
     }
 }

 void FakeFaceEngine::generateChallengeImpl(ISessionCallback* cb) {
     BEGIN_OP(0);
     std::uniform_int_distribution<int64_t> dist;
     auto challenge = dist(mRandom);
     FaceHalProperties::challenge(challenge);
     cb->onChallengeGenerated(challenge);
 }

 void FakeFaceEngine::revokeChallengeImpl(ISessionCallback* cb, int64_t challenge) {
     BEGIN_OP(0);
     FaceHalProperties::challenge({});
     cb->onChallengeRevoked(challenge);
 }
 void FakeFaceEngine::getEnrollmentConfigImpl(ISessionCallback* /*cb*/,
                                              std::vector<EnrollmentStageConfig>* /*return_val*/) {}
 void FakeFaceEngine::enrollImpl(ISessionCallback* cb, const keymaster::HardwareAuthToken& hat,
                                 EnrollmentType /*enrollmentType*/,
                                 const std::vector<Feature>& /*features*/,
                                 const std::future<void>& cancel) {
     BEGIN_OP(FaceHalProperties::operation_start_enroll_latency().value_or(0));

     // Do proper HAT verification in the real implementation.
     if (hat.mac.empty()) {
         LOG(ERROR) << "Fail: hat";
         cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
         return;
     }

     // Format: <id>:<progress_ms-[acquiredInfo,...],...:<success>
     // ------:-----------------------------------------:--------------
     //          |           |                              |--->enrollment success (true/false)
     //          |           |--> progress_steps
     //          |
     //          |-->enrollment id
     //
     //
     //   progress_steps
     //        <progress_duration>-[acquiredInfo,...]+
     //        ----------------------------  ---------------------
     //                 |                            |-> sequence of acquiredInfo code
     //                 | --> time duration of the step in ms
     //
     //        E.g.   1:2000-[21,1108,5,6,1],1000-[1113,4,1]:true
     //              A success enrollement of id 1 by 2 steps
     //                    1st step lasts 2000ms with acquiredInfo codes (21,1108,5,6,1)
     //                    2nd step lasts 1000ms with acquiredInfo codes (1113,4,1)
     //
     std::string defaultNextEnrollment =
             "1:1000-[21,7,1,1103],1500-[1108,1],2000-[1113,1],2500-[1118,1]:true";
     auto nextEnroll = FaceHalProperties::next_enrollment().value_or(defaultNextEnrollment);
     auto parts = Util::split(nextEnroll, ":");
     if (parts.size() != 3) {
         LOG(ERROR) << "Fail: invalid next_enrollment:" << nextEnroll;
         cb->onError(Error::VENDOR, 0 /* vendorError */);
         return;
     }
     auto enrollmentId = std::stoi(parts[0]);
     auto progress = Util::parseEnrollmentCapture(parts[1]);
     for (size_t i = 0; i < progress.size(); i += 2) {
         auto left = (progress.size() - i) / 2 - 1;
         auto duration = progress[i][0];
         auto acquired = progress[i + 1];
         auto N = acquired.size();

         for (int j = 0; j < N; j++) {
             SLEEP_MS(duration / N);

             if (shouldCancel(cancel)) {
                 LOG(ERROR) << "Fail: cancel";
                 cb->onError(Error::CANCELED, 0 /* vendorCode */);
                 return;
             }
             EnrollmentFrame frame = {};
             auto ac = convertAcquiredInfo(acquired[j]);
             frame.data.acquiredInfo = ac.first;
             frame.data.vendorCode = ac.second;
             frame.stage = (i == 0 && j == 0) ? EnrollmentStage::FIRST_FRAME_RECEIVED
                           : (i == progress.size() - 2 && j == N - 1)
                                   ? EnrollmentStage::ENROLLMENT_FINISHED
                                   : EnrollmentStage::WAITING_FOR_CENTERING;
             cb->onEnrollmentFrame(frame);
         }

         if (left == 0 && !IS_TRUE(parts[2])) {  // end and failed
             LOG(ERROR) << "Fail: requested by caller: " << nextEnroll;
             FaceHalProperties::next_enrollment({});
             cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorCode */);
         } else {  // progress and update props if last time
             LOG(INFO) << "onEnroll: " << enrollmentId << " left: " << left;
             if (left == 0) {
                 auto enrollments = FaceHalProperties::enrollments();
                 enrollments.emplace_back(enrollmentId);
                 FaceHalProperties::enrollments(enrollments);
                 FaceHalProperties::next_enrollment({});
                 // change authenticatorId after new enrollment
                 auto id = FaceHalProperties::authenticator_id().value_or(0);
                 auto newId = id + 1;
                 FaceHalProperties::authenticator_id(newId);
                 LOG(INFO) << "Enrolled: " << enrollmentId;
             }
             cb->onEnrollmentProgress(enrollmentId, left);
         }
     }
 }

 void FakeFaceEngine::authenticateImpl(ISessionCallback* cb, int64_t /*operationId*/,
                                       const std::future<void>& cancel) {
     BEGIN_OP(FaceHalProperties::operation_authenticate_latency().value_or(0));

     auto id = FaceHalProperties::enrollment_hit().value_or(0);
     auto enrolls = FaceHalProperties::enrollments();
     auto isEnrolled = std::find(enrolls.begin(), enrolls.end(), id) != enrolls.end();

     auto vec2str = [](std::vector<AcquiredInfo> va) {
         std::stringstream ss;
         bool isFirst = true;
         for (auto ac : va) {
             if (!isFirst) ss << ",";
             ss << std::to_string((int8_t)ac);
             isFirst = false;
         }
         return ss.str();
     };

     // default behavior mimic face sensor in U
     int64_t defaultAuthDuration = 500;
     std::string defaultAcquiredInfo =
             vec2str({AcquiredInfo::START, AcquiredInfo::FIRST_FRAME_RECEIVED});
     if (!isEnrolled) {
         std::vector<AcquiredInfo> v;
         for (int i = 0; i < 56; i++) v.push_back(AcquiredInfo::NOT_DETECTED);
         defaultAcquiredInfo += "," + vec2str(v);
         defaultAuthDuration = 2100;
     } else {
         defaultAcquiredInfo += "," + vec2str({AcquiredInfo::TOO_BRIGHT, AcquiredInfo::TOO_BRIGHT,
                                               AcquiredInfo::TOO_BRIGHT, AcquiredInfo::TOO_BRIGHT,
                                               AcquiredInfo::GOOD, AcquiredInfo::GOOD});
     }

     int64_t now = Util::getSystemNanoTime();
     int64_t duration =
             FaceHalProperties::operation_authenticate_duration().value_or(defaultAuthDuration);
     auto acquired =
             FaceHalProperties::operation_authenticate_acquired().value_or(defaultAcquiredInfo);
     auto acquiredInfos = Util::parseIntSequence(acquired);
     int N = acquiredInfos.size();

     if (N == 0) {
         LOG(ERROR) << "Fail to parse authentiate acquired info: " + acquired;
         cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
         return;
     }

     if (mLockoutTracker.checkIfLockout(cb)) {
         return;
     }

     int i = 0;
     do {
         if (FaceHalProperties::lockout().value_or(false)) {
             LOG(ERROR) << "Fail: lockout";
             cb->onLockoutPermanent();
             cb->onError(Error::HW_UNAVAILABLE, 0 /* vendorError */);
             return;
         }

         if (FaceHalProperties::operation_authenticate_fails().value_or(false)) {
             LOG(ERROR) << "Fail: operation_authenticate_fails";
             mLockoutTracker.addFailedAttempt(cb);
             cb->onAuthenticationFailed();
             return;
         }

         auto err = FaceHalProperties::operation_authenticate_error().value_or(0);
         if (err != 0) {
             LOG(ERROR) << "Fail: operation_authenticate_error";
             auto ec = convertError(err);
             cb->onError(ec.first, ec.second);
             return; /* simply terminating current operation for any user inserted error,
                             revisit if tests need*/
         }

         if (shouldCancel(cancel)) {
             LOG(ERROR) << "Fail: cancel";
             cb->onError(Error::CANCELED, 0 /* vendorCode */);
             return;
         }

         if (i < N) {
             auto ac = convertAcquiredInfo(acquiredInfos[i]);
             AuthenticationFrame frame;
             frame.data.acquiredInfo = ac.first;
             frame.data.vendorCode = ac.second;
             cb->onAuthenticationFrame(frame);
             LOG(INFO) << "AcquiredInfo:" << i << ": (" << (int)ac.first << "," << (int)ac.second
                       << ")";
             i++;
         }

         SLEEP_MS(duration / N);
     } while (!Util::hasElapsed(now, duration));

     if (id > 0 && isEnrolled) {
         mLockoutTracker.reset();
         cb->onAuthenticationSucceeded(id, {} /* hat */);
         return;
     } else {
         LOG(ERROR) << "Fail: face not enrolled";
         mLockoutTracker.addFailedAttempt(cb);
         cb->onAuthenticationFailed();
         cb->onError(Error::TIMEOUT, 0 /* vendorError*/);
         return;
     }
 }

 std::pair<AcquiredInfo, int32_t> FakeFaceEngine::convertAcquiredInfo(int32_t code) {
     std::pair<AcquiredInfo, int32_t> res;
     if (code > FACE_ACQUIRED_VENDOR_BASE) {
         res.first = AcquiredInfo::VENDOR;
         res.second = code - FACE_ACQUIRED_VENDOR_BASE;
     } else {
         res.first = (AcquiredInfo)code;
         res.second = 0;
     }
     return res;
 }

 std::pair<Error, int32_t> FakeFaceEngine::convertError(int32_t code) {
     std::pair<Error, int32_t> res;
     if (code > FACE_ERROR_VENDOR_BASE) {
         res.first = Error::VENDOR;
         res.second = code - FACE_ERROR_VENDOR_BASE;
     } else {
         res.first = (Error)code;
         res.second = 0;
     }
     return res;
 }

 void FakeFaceEngine::detectInteractionImpl(ISessionCallback* cb, const std::future<void>& cancel) {
     BEGIN_OP(FaceHalProperties::operation_detect_interaction_latency().value_or(0));

     if (FaceHalProperties::operation_detect_interaction_fails().value_or(false)) {
         LOG(ERROR) << "Fail: operation_detect_interaction_fails";
         cb->onError(Error::VENDOR, 0 /* vendorError */);
         return;
     }

     if (shouldCancel(cancel)) {
         LOG(ERROR) << "Fail: cancel";
         cb->onError(Error::CANCELED, 0 /* vendorCode */);
         return;
     }

     auto id = FaceHalProperties::enrollment_hit().value_or(0);
     auto enrolls = FaceHalProperties::enrollments();
     auto isEnrolled = std::find(enrolls.begin(), enrolls.end(), id) != enrolls.end();
     if (id <= 0 || !isEnrolled) {
         LOG(ERROR) << "Fail: not enrolled";
         cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
         return;
     }

     cb->onInteractionDetected();
 }

 void FakeFaceEngine::enumerateEnrollmentsImpl(ISessionCallback* cb) {
     BEGIN_OP(0);
     std::vector<int32_t> enrollments;
     for (const auto& enrollmentId : FaceHalProperties::enrollments()) {
         if (enrollmentId) {
             enrollments.push_back(*enrollmentId);
         }
     }
     cb->onEnrollmentsEnumerated(enrollments);
 }

 void FakeFaceEngine::removeEnrollmentsImpl(ISessionCallback* cb,
                                            const std::vector<int32_t>& enrollmentIds) {
     BEGIN_OP(0);

     std::vector<std::optional<int32_t>> newEnrollments;
     for (const auto& enrollment : FaceHalProperties::enrollments()) {
         auto id = enrollment.value_or(0);
         if (std::find(enrollmentIds.begin(), enrollmentIds.end(), id) == enrollmentIds.end()) {
             newEnrollments.emplace_back(id);
         }
     }
     FaceHalProperties::enrollments(newEnrollments);
     cb->onEnrollmentsRemoved(enrollmentIds);
 }

 void FakeFaceEngine::getFeaturesImpl(ISessionCallback* cb) {
     BEGIN_OP(0);

     if (FaceHalProperties::enrollments().empty()) {
         cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorCode */);
         return;
     }

     std::vector<Feature> featuresToReturn = {};
     for (const auto& feature : FaceHalProperties::features()) {
         if (feature) {
             featuresToReturn.push_back((Feature)(*feature));
         }
     }
     cb->onFeaturesRetrieved(featuresToReturn);
 }

 void FakeFaceEngine::setFeatureImpl(ISessionCallback* cb, const keymaster::HardwareAuthToken& hat,
                                     Feature feature, bool enabled) {
     BEGIN_OP(0);

     if (FaceHalProperties::enrollments().empty()) {
         LOG(ERROR) << "Unable to set feature, enrollments are empty";
         cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorCode */);
         return;
     }

     if (hat.mac.empty()) {
         LOG(ERROR) << "Unable to set feature, invalid hat";
         cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorCode */);
         return;
     }

     auto features = FaceHalProperties::features();

     auto itr = std::find_if(features.begin(), features.end(), [feature](const auto& theFeature) {
         return *theFeature == (int)feature;
     });

     if (!enabled && (itr != features.end())) {
         features.erase(itr);
     } else if (enabled && (itr == features.end())) {
         features.push_back((int)feature);
     }

     FaceHalProperties::features(features);
     cb->onFeatureSet(feature);
 }

 void FakeFaceEngine::getAuthenticatorIdImpl(ISessionCallback* cb) {
     BEGIN_OP(0);
     // If this is a weak HAL return 0 per the spec.
     if (GetSensorStrength() != common::SensorStrength::STRONG) {
         cb->onAuthenticatorIdRetrieved(0);
     } else {
         cb->onAuthenticatorIdRetrieved(FaceHalProperties::authenticator_id().value_or(0));
     }
 }

 void FakeFaceEngine::invalidateAuthenticatorIdImpl(ISessionCallback* cb) {
     BEGIN_OP(0);
     int64_t authenticatorId = FaceHalProperties::authenticator_id().value_or(0);
     int64_t newId = authenticatorId + 1;
     FaceHalProperties::authenticator_id(newId);
     cb->onAuthenticatorIdInvalidated(newId);
 }

 void FakeFaceEngine::resetLockoutImpl(ISessionCallback* cb,
                                       const keymaster::HardwareAuthToken& /*hat*/) {
     BEGIN_OP(0);
     FaceHalProperties::lockout(false);
     mLockoutTracker.reset();
     cb->onLockoutCleared();
 }

 }  // namespace aidl::android::hardware::biometrics::face
	/*
	* Copyright (C) 2023 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 "FaceVirtualHalEngine"

	#include "FakeFaceEngine.h"

	#include <android-base/logging.h>

	#include <face.sysprop.h>

	#include "util/CancellationSignal.h"
	#include "util/Util.h"

	using namespace ::android::face::virt;

	namespace aidl::android::hardware::biometrics::face {

	FaceSensorType FakeFaceEngine::GetSensorType() {
	std::string type = FaceHalProperties::type().value_or("");
	if (type == "IR") {
	return FaceSensorType::IR;
	} else {
	FaceHalProperties::type("RGB");
	return FaceSensorType::RGB;
	}
	}

	common::SensorStrength FakeFaceEngine::GetSensorStrength() {
	std::string strength = FaceHalProperties::strength().value_or("");
	if (strength == "convenience") {
	return common::SensorStrength::CONVENIENCE;
	} else if (strength == "weak") {
	return common::SensorStrength::WEAK;
	} else {
	FaceHalProperties::strength("strong");
	return common::SensorStrength::STRONG;
	}
	}

	void FakeFaceEngine::generateChallengeImpl(ISessionCallback* cb) {
	BEGIN_OP(0);
	std::uniform_int_distribution<int64_t> dist;
	auto challenge = dist(mRandom);
	FaceHalProperties::challenge(challenge);
	cb->onChallengeGenerated(challenge);
	}

	void FakeFaceEngine::revokeChallengeImpl(ISessionCallback* cb, int64_t challenge) {
	BEGIN_OP(0);
	FaceHalProperties::challenge({});
	cb->onChallengeRevoked(challenge);
	}
	void FakeFaceEngine::getEnrollmentConfigImpl(ISessionCallback* /cb/,
	std::vector<EnrollmentStageConfig>* /return_val/) {}
	void FakeFaceEngine::enrollImpl(ISessionCallback* cb, const keymaster::HardwareAuthToken& hat,
	EnrollmentType /enrollmentType/,
	const std::vector<Feature>& /features/,
	const std::future<void>& cancel) {
	BEGIN_OP(FaceHalProperties::operation_start_enroll_latency().value_or(0));

	// Do proper HAT verification in the real implementation.
	if (hat.mac.empty()) {
	LOG(ERROR) << "Fail: hat";
	cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
	return;
	}

	// Format: <id>:<progress_ms-[acquiredInfo,...],...:<success>
	// ------:-----------------------------------------:--------------
	// \| \| \|--->enrollment success (true/false)
	// \| \|--> progress_steps
	// \|
	// \|-->enrollment id
	//
	//
	// progress_steps
	// <progress_duration>-[acquiredInfo,...]+
	// ---------------------------- ---------------------
	// \| \|-> sequence of acquiredInfo code
	// \| --> time duration of the step in ms
	//
	// E.g. 1:2000-[21,1108,5,6,1],1000-[1113,4,1]:true
	// A success enrollement of id 1 by 2 steps
	// 1st step lasts 2000ms with acquiredInfo codes (21,1108,5,6,1)
	// 2nd step lasts 1000ms with acquiredInfo codes (1113,4,1)
	//
	std::string defaultNextEnrollment =
	"1:1000-[21,7,1,1103],1500-[1108,1],2000-[1113,1],2500-[1118,1]:true";
	auto nextEnroll = FaceHalProperties::next_enrollment().value_or(defaultNextEnrollment);
	auto parts = Util::split(nextEnroll, ":");
	if (parts.size() != 3) {
	LOG(ERROR) << "Fail: invalid next_enrollment:" << nextEnroll;
	cb->onError(Error::VENDOR, 0 /* vendorError */);
	return;
	}
	auto enrollmentId = std::stoi(parts[0]);
	auto progress = Util::parseEnrollmentCapture(parts[1]);
	for (size_t i = 0; i < progress.size(); i += 2) {
	auto left = (progress.size() - i) / 2 - 1;
	auto duration = progress[i][0];
	auto acquired = progress[i + 1];
	auto N = acquired.size();

	for (int j = 0; j < N; j++) {
	SLEEP_MS(duration / N);

	if (shouldCancel(cancel)) {
	LOG(ERROR) << "Fail: cancel";
	cb->onError(Error::CANCELED, 0 /* vendorCode */);
	return;
	}
	EnrollmentFrame frame = {};
	auto ac = convertAcquiredInfo(acquired[j]);
	frame.data.acquiredInfo = ac.first;
	frame.data.vendorCode = ac.second;
	frame.stage = (i == 0 && j == 0) ? EnrollmentStage::FIRST_FRAME_RECEIVED
	: (i == progress.size() - 2 && j == N - 1)
	? EnrollmentStage::ENROLLMENT_FINISHED
	: EnrollmentStage::WAITING_FOR_CENTERING;
	cb->onEnrollmentFrame(frame);
	}

	if (left == 0 && !IS_TRUE(parts[2])) { // end and failed
	LOG(ERROR) << "Fail: requested by caller: " << nextEnroll;
	FaceHalProperties::next_enrollment({});
	cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorCode */);
	} else { // progress and update props if last time
	LOG(INFO) << "onEnroll: " << enrollmentId << " left: " << left;
	if (left == 0) {
	auto enrollments = FaceHalProperties::enrollments();
	enrollments.emplace_back(enrollmentId);
	FaceHalProperties::enrollments(enrollments);
	FaceHalProperties::next_enrollment({});
	// change authenticatorId after new enrollment
	auto id = FaceHalProperties::authenticator_id().value_or(0);
	auto newId = id + 1;
	FaceHalProperties::authenticator_id(newId);
	LOG(INFO) << "Enrolled: " << enrollmentId;
	}
	cb->onEnrollmentProgress(enrollmentId, left);
	}
	}
	}

	void FakeFaceEngine::authenticateImpl(ISessionCallback* cb, int64_t /operationId/,
	const std::future<void>& cancel) {
	BEGIN_OP(FaceHalProperties::operation_authenticate_latency().value_or(0));

	auto id = FaceHalProperties::enrollment_hit().value_or(0);
	auto enrolls = FaceHalProperties::enrollments();
	auto isEnrolled = std::find(enrolls.begin(), enrolls.end(), id) != enrolls.end();

	auto vec2str = [](std::vector<AcquiredInfo> va) {
	std::stringstream ss;
	bool isFirst = true;
	for (auto ac : va) {
	if (!isFirst) ss << ",";
	ss << std::to_string((int8_t)ac);
	isFirst = false;
	}
	return ss.str();
	};

	// default behavior mimic face sensor in U
	int64_t defaultAuthDuration = 500;
	std::string defaultAcquiredInfo =
	vec2str({AcquiredInfo::START, AcquiredInfo::FIRST_FRAME_RECEIVED});
	if (!isEnrolled) {
	std::vector<AcquiredInfo> v;
	for (int i = 0; i < 56; i++) v.push_back(AcquiredInfo::NOT_DETECTED);
	defaultAcquiredInfo += "," + vec2str(v);
	defaultAuthDuration = 2100;
	} else {
	defaultAcquiredInfo += "," + vec2str({AcquiredInfo::TOO_BRIGHT, AcquiredInfo::TOO_BRIGHT,
	AcquiredInfo::TOO_BRIGHT, AcquiredInfo::TOO_BRIGHT,
	AcquiredInfo::GOOD, AcquiredInfo::GOOD});
	}

	int64_t now = Util::getSystemNanoTime();
	int64_t duration =
	FaceHalProperties::operation_authenticate_duration().value_or(defaultAuthDuration);
	auto acquired =
	FaceHalProperties::operation_authenticate_acquired().value_or(defaultAcquiredInfo);
	auto acquiredInfos = Util::parseIntSequence(acquired);
	int N = acquiredInfos.size();

	if (N == 0) {
	LOG(ERROR) << "Fail to parse authentiate acquired info: " + acquired;
	cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
	return;
	}

	if (mLockoutTracker.checkIfLockout(cb)) {
	return;
	}

	int i = 0;
	do {
	if (FaceHalProperties::lockout().value_or(false)) {
	LOG(ERROR) << "Fail: lockout";
	cb->onLockoutPermanent();
	cb->onError(Error::HW_UNAVAILABLE, 0 /* vendorError */);
	return;
	}

	if (FaceHalProperties::operation_authenticate_fails().value_or(false)) {
	LOG(ERROR) << "Fail: operation_authenticate_fails";
	mLockoutTracker.addFailedAttempt(cb);
	cb->onAuthenticationFailed();
	return;
	}

	auto err = FaceHalProperties::operation_authenticate_error().value_or(0);
	if (err != 0) {
	LOG(ERROR) << "Fail: operation_authenticate_error";
	auto ec = convertError(err);
	cb->onError(ec.first, ec.second);
	return; /* simply terminating current operation for any user inserted error,
	revisit if tests need*/
	}

	if (shouldCancel(cancel)) {
	LOG(ERROR) << "Fail: cancel";
	cb->onError(Error::CANCELED, 0 /* vendorCode */);
	return;
	}

	if (i < N) {
	auto ac = convertAcquiredInfo(acquiredInfos[i]);
	AuthenticationFrame frame;
	frame.data.acquiredInfo = ac.first;
	frame.data.vendorCode = ac.second;
	cb->onAuthenticationFrame(frame);
	LOG(INFO) << "AcquiredInfo:" << i << ": (" << (int)ac.first << "," << (int)ac.second
	<< ")";
	i++;
	}

	SLEEP_MS(duration / N);
	} while (!Util::hasElapsed(now, duration));

	if (id > 0 && isEnrolled) {
	mLockoutTracker.reset();
	cb->onAuthenticationSucceeded(id, {} /* hat */);
	return;
	} else {
	LOG(ERROR) << "Fail: face not enrolled";
	mLockoutTracker.addFailedAttempt(cb);
	cb->onAuthenticationFailed();
	cb->onError(Error::TIMEOUT, 0 /* vendorError*/);
	return;
	}
	}

	std::pair<AcquiredInfo, int32_t> FakeFaceEngine::convertAcquiredInfo(int32_t code) {
	std::pair<AcquiredInfo, int32_t> res;
	if (code > FACE_ACQUIRED_VENDOR_BASE) {
	res.first = AcquiredInfo::VENDOR;
	res.second = code - FACE_ACQUIRED_VENDOR_BASE;
	} else {
	res.first = (AcquiredInfo)code;
	res.second = 0;
	}
	return res;
	}

	std::pair<Error, int32_t> FakeFaceEngine::convertError(int32_t code) {
	std::pair<Error, int32_t> res;
	if (code > FACE_ERROR_VENDOR_BASE) {
	res.first = Error::VENDOR;
	res.second = code - FACE_ERROR_VENDOR_BASE;
	} else {
	res.first = (Error)code;
	res.second = 0;
	}
	return res;
	}

	void FakeFaceEngine::detectInteractionImpl(ISessionCallback* cb, const std::future<void>& cancel) {
	BEGIN_OP(FaceHalProperties::operation_detect_interaction_latency().value_or(0));

	if (FaceHalProperties::operation_detect_interaction_fails().value_or(false)) {
	LOG(ERROR) << "Fail: operation_detect_interaction_fails";
	cb->onError(Error::VENDOR, 0 /* vendorError */);
	return;
	}

	if (shouldCancel(cancel)) {
	LOG(ERROR) << "Fail: cancel";
	cb->onError(Error::CANCELED, 0 /* vendorCode */);
	return;
	}

	auto id = FaceHalProperties::enrollment_hit().value_or(0);
	auto enrolls = FaceHalProperties::enrollments();
	auto isEnrolled = std::find(enrolls.begin(), enrolls.end(), id) != enrolls.end();
	if (id <= 0 \|\| !isEnrolled) {
	LOG(ERROR) << "Fail: not enrolled";
	cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
	return;
	}

	cb->onInteractionDetected();
	}

	void FakeFaceEngine::enumerateEnrollmentsImpl(ISessionCallback* cb) {
	BEGIN_OP(0);
	std::vector<int32_t> enrollments;
	for (const auto& enrollmentId : FaceHalProperties::enrollments()) {
	if (enrollmentId) {
	enrollments.push_back(*enrollmentId);
	}
	}
	cb->onEnrollmentsEnumerated(enrollments);
	}

	void FakeFaceEngine::removeEnrollmentsImpl(ISessionCallback* cb,
	const std::vector<int32_t>& enrollmentIds) {
	BEGIN_OP(0);

	std::vector<std::optional<int32_t>> newEnrollments;
	for (const auto& enrollment : FaceHalProperties::enrollments()) {
	auto id = enrollment.value_or(0);
	if (std::find(enrollmentIds.begin(), enrollmentIds.end(), id) == enrollmentIds.end()) {
	newEnrollments.emplace_back(id);
	}
	}
	FaceHalProperties::enrollments(newEnrollments);
	cb->onEnrollmentsRemoved(enrollmentIds);
	}

	void FakeFaceEngine::getFeaturesImpl(ISessionCallback* cb) {
	BEGIN_OP(0);

	if (FaceHalProperties::enrollments().empty()) {
	cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorCode */);
	return;
	}

	std::vector<Feature> featuresToReturn = {};
	for (const auto& feature : FaceHalProperties::features()) {
	if (feature) {
	featuresToReturn.push_back((Feature)(*feature));
	}
	}
	cb->onFeaturesRetrieved(featuresToReturn);
	}

	void FakeFaceEngine::setFeatureImpl(ISessionCallback* cb, const keymaster::HardwareAuthToken& hat,
	Feature feature, bool enabled) {
	BEGIN_OP(0);

	if (FaceHalProperties::enrollments().empty()) {
	LOG(ERROR) << "Unable to set feature, enrollments are empty";
	cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorCode */);
	return;
	}

	if (hat.mac.empty()) {
	LOG(ERROR) << "Unable to set feature, invalid hat";
	cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorCode */);
	return;
	}

	auto features = FaceHalProperties::features();

	auto itr = std::find_if(features.begin(), features.end(), [feature](const auto& theFeature) {
	return *theFeature == (int)feature;
	});

	if (!enabled && (itr != features.end())) {
	features.erase(itr);
	} else if (enabled && (itr == features.end())) {
	features.push_back((int)feature);
	}

	FaceHalProperties::features(features);
	cb->onFeatureSet(feature);
	}

	void FakeFaceEngine::getAuthenticatorIdImpl(ISessionCallback* cb) {
	BEGIN_OP(0);
	// If this is a weak HAL return 0 per the spec.
	if (GetSensorStrength() != common::SensorStrength::STRONG) {
	cb->onAuthenticatorIdRetrieved(0);
	} else {
	cb->onAuthenticatorIdRetrieved(FaceHalProperties::authenticator_id().value_or(0));
	}
	}

	void FakeFaceEngine::invalidateAuthenticatorIdImpl(ISessionCallback* cb) {
	BEGIN_OP(0);
	int64_t authenticatorId = FaceHalProperties::authenticator_id().value_or(0);
	int64_t newId = authenticatorId + 1;
	FaceHalProperties::authenticator_id(newId);
	cb->onAuthenticatorIdInvalidated(newId);
	}

	void FakeFaceEngine::resetLockoutImpl(ISessionCallback* cb,
	const keymaster::HardwareAuthToken& /hat/) {
	BEGIN_OP(0);
	FaceHalProperties::lockout(false);
	mLockoutTracker.reset();
	cb->onLockoutCleared();
	}

	} // namespace aidl::android::hardware::biometrics::face