Blame - vibrator/bench/benchmark.cpp - android_hardware_interfaces

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Lais Andrade	e29acd8	2020-08-07 13:21:17 +0000	[diff] [blame]	1	/*
				2	* Copyright (C) 2019 The Android Open Source Project
				3	*
				4	* Licensed under the Apache License, Version 2.0 (the "License");
				5	* you may not use this file except in compliance with the License.
				6	* You may obtain a copy of the License at
				7	*
				8	* http://www.apache.org/licenses/LICENSE-2.0
				9	*
				10	* Unless required by applicable law or agreed to in writing, software
				11	* distributed under the License is distributed on an "AS IS" BASIS,
				12	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
				13	* See the License for the specific language governing permissions and
				14	* limitations under the License.
				15	*/
				16
				17	#include "benchmark/benchmark.h"
				18
				19	#include <android/hardware/vibrator/1.3/IVibrator.h>
				20	#include <android/hardware/vibrator/BnVibratorCallback.h>
				21	#include <android/hardware/vibrator/IVibrator.h>
				22	#include <binder/IServiceManager.h>
				23
				24	using ::android::enum_range;
				25	using ::android::sp;
				26	using ::android::hardware::hidl_enum_range;
				27	using ::android::hardware::Return;
				28	using ::android::hardware::details::hidl_enum_values;
				29	using ::benchmark::Counter;
				30	using ::benchmark::Fixture;
				31	using ::benchmark::kMicrosecond;
				32	using ::benchmark::State;
				33	using ::benchmark::internal::Benchmark;
				34	using ::std::chrono::duration;
				35	using ::std::chrono::duration_cast;
				36	using ::std::chrono::high_resolution_clock;
				37
				38	namespace Aidl = ::android::hardware::vibrator;
				39	namespace V1_0 = ::android::hardware::vibrator::V1_0;
				40	namespace V1_1 = ::android::hardware::vibrator::V1_1;
				41	namespace V1_2 = ::android::hardware::vibrator::V1_2;
				42	namespace V1_3 = ::android::hardware::vibrator::V1_3;
				43
				44	template <typename I>
				45	class BaseBench : public Fixture {
				46	public:
				47	void TearDown(State& /state/) override {
				48	if (!mVibrator) {
				49	return;
				50	}
				51	mVibrator->off();
				52	}
				53
				54	static void DefaultConfig(Benchmark* b) { b->Unit(kMicrosecond); }
				55
				56	static void DefaultArgs(Benchmark* /b/) { /* none */
				57	}
				58
				59	protected:
				60	auto getOtherArg(const State& state, std::size_t index) const { return state.range(index + 0); }
				61
				62	protected:
				63	sp<I> mVibrator;
				64	};
				65
				66	template <typename I>
				67	class VibratorBench : public BaseBench<I> {
				68	public:
				69	void SetUp(State& /state/) override { this->mVibrator = I::getService(); }
				70	};
				71
				72	enum class EmptyEnum : uint32_t;
				73	template <>
				74	inline constexpr std::array<EmptyEnum, 0> hidl_enum_values<EmptyEnum> = {};
				75
				76	template <typename T, typename U>
				77	std::set<T> difference(const hidl_enum_range<T>& t, const hidl_enum_range<U>& u) {
				78	class Compare {
				79	public:
				80	bool operator()(const T& a, const U& b) { return a < static_cast<T>(b); }
				81	bool operator()(const U& a, const T& b) { return static_cast<T>(a) < b; }
				82	};
				83	std::set<T> ret;
				84
				85	std::set_difference(t.begin(), t.end(), u.begin(), u.end(),
				86	std::insert_iterator<decltype(ret)>(ret, ret.begin()), Compare());
				87
				88	return ret;
				89	}
				90
				91	template <typename I, typename E1, typename E2 = EmptyEnum>
				92	class VibratorEffectsBench : public VibratorBench<I> {
				93	public:
				94	using Effect = E1;
				95	using EffectStrength = V1_0::EffectStrength;
				96	using Status = V1_0::Status;
				97
				98	public:
				99	static void DefaultArgs(Benchmark* b) {
				100	b->ArgNames({"Effect", "Strength"});
				101	for (const auto& effect : difference(hidl_enum_range<E1>(), hidl_enum_range<E2>())) {
				102	for (const auto& strength : hidl_enum_range<EffectStrength>()) {
				103	b->Args({static_cast<long>(effect), static_cast<long>(strength)});
				104	}
				105	}
				106	}
				107
				108	void performBench(State* state, Return<void> (I::*performApi)(Effect, EffectStrength,
				109	typename I::perform_cb)) {
				110	auto effect = getEffect(*state);
				111	auto strength = getStrength(*state);
				112	bool supported = true;
				113
				114	(this->mVibrator.performApi)(effect, strength, [&](Status status, uint32_t /lengthMs/) {
				115	if (status == Status::UNSUPPORTED_OPERATION) {
				116	supported = false;
				117	}
				118	});
				119
				120	if (!supported) {
				121	return;
				122	}
				123
				124	for (auto _ : *state) {
				125	state->ResumeTiming();
				126	(this->mVibrator.performApi)(effect, strength,
				127	[](Status /status/, uint32_t /lengthMs/) {});
				128	state->PauseTiming();
				129	this->mVibrator->off();
				130	}
				131	}
				132
				133	protected:
				134	auto getEffect(const State& state) const {
				135	return static_cast<Effect>(this->getOtherArg(state, 0));
				136	}
				137
				138	auto getStrength(const State& state) const {
				139	return static_cast<EffectStrength>(this->getOtherArg(state, 1));
				140	}
				141	};
				142
				143	#define BENCHMARK_WRAPPER(fixt, test, code) \
				144	BENCHMARK_DEFINE_F(fixt, test) \
				145	/* NOLINTNEXTLINE */ \
				146	(State & state) { \
				147	if (!mVibrator) { \
				148	return; \
				149	} \
				150	\
				151	code \
				152	} \
				153	BENCHMARK_REGISTER_F(fixt, test)->Apply(fixt::DefaultConfig)->Apply(fixt::DefaultArgs)
				154
				155	using VibratorBench_V1_0 = VibratorBench<V1_0::IVibrator>;
				156
				157	BENCHMARK_WRAPPER(VibratorBench_V1_0, on, {
				158	uint32_t ms = UINT32_MAX;
				159
				160	for (auto _ : state) {
				161	state.ResumeTiming();
				162	mVibrator->on(ms);
				163	state.PauseTiming();
				164	mVibrator->off();
				165	}
				166	});
				167
				168	BENCHMARK_WRAPPER(VibratorBench_V1_0, off, {
				169	uint32_t ms = UINT32_MAX;
				170
				171	for (auto _ : state) {
				172	state.PauseTiming();
				173	mVibrator->on(ms);
				174	state.ResumeTiming();
				175	mVibrator->off();
				176	}
				177	});
				178
				179	BENCHMARK_WRAPPER(VibratorBench_V1_0, supportsAmplitudeControl, {
				180	for (auto _ : state) {
				181	mVibrator->supportsAmplitudeControl();
				182	}
				183	});
				184
				185	BENCHMARK_WRAPPER(VibratorBench_V1_0, setAmplitude, {
				186	uint8_t amplitude = UINT8_MAX;
				187
				188	if (!mVibrator->supportsAmplitudeControl()) {
				189	return;
				190	}
				191
				192	mVibrator->on(UINT32_MAX);
				193
				194	for (auto _ : state) {
				195	mVibrator->setAmplitude(amplitude);
				196	}
				197
				198	mVibrator->off();
				199	});
				200
				201	using VibratorEffectsBench_V1_0 = VibratorEffectsBench<V1_0::IVibrator, V1_0::Effect>;
				202
				203	BENCHMARK_WRAPPER(VibratorEffectsBench_V1_0, perform,
				204	{ performBench(&state, &V1_0::IVibrator::perform); });
				205
				206	using VibratorEffectsBench_V1_1 =
				207	VibratorEffectsBench<V1_1::IVibrator, V1_1::Effect_1_1, V1_0::Effect>;
				208
				209	BENCHMARK_WRAPPER(VibratorEffectsBench_V1_1, perform_1_1,
				210	{ performBench(&state, &V1_1::IVibrator::perform_1_1); });
				211
				212	using VibratorEffectsBench_V1_2 =
				213	VibratorEffectsBench<V1_2::IVibrator, V1_2::Effect, V1_1::Effect_1_1>;
				214
				215	BENCHMARK_WRAPPER(VibratorEffectsBench_V1_2, perform_1_2,
				216	{ performBench(&state, &V1_2::IVibrator::perform_1_2); });
				217
				218	using VibratorBench_V1_3 = VibratorBench<V1_3::IVibrator>;
				219
				220	BENCHMARK_WRAPPER(VibratorBench_V1_3, supportsExternalControl, {
				221	for (auto _ : state) {
				222	mVibrator->supportsExternalControl();
				223	}
				224	});
				225
				226	BENCHMARK_WRAPPER(VibratorBench_V1_3, setExternalControl, {
				227	bool enable = true;
				228
				229	if (!mVibrator->supportsExternalControl()) {
				230	return;
				231	}
				232
				233	for (auto _ : state) {
				234	state.ResumeTiming();
				235	mVibrator->setExternalControl(enable);
				236	state.PauseTiming();
				237	mVibrator->setExternalControl(false);
				238	}
				239	});
				240
				241	BENCHMARK_WRAPPER(VibratorBench_V1_3, supportsExternalAmplitudeControl, {
				242	if (!mVibrator->supportsExternalControl()) {
				243	return;
				244	}
				245
				246	mVibrator->setExternalControl(true);
				247
				248	for (auto _ : state) {
				249	mVibrator->supportsAmplitudeControl();
				250	}
				251
				252	mVibrator->setExternalControl(false);
				253	});
				254
				255	BENCHMARK_WRAPPER(VibratorBench_V1_3, setExternalAmplitude, {
				256	uint8_t amplitude = UINT8_MAX;
				257
				258	if (!mVibrator->supportsExternalControl()) {
				259	return;
				260	}
				261
				262	mVibrator->setExternalControl(true);
				263
				264	if (!mVibrator->supportsAmplitudeControl()) {
				265	return;
				266	}
				267
				268	for (auto _ : state) {
				269	mVibrator->setAmplitude(amplitude);
				270	}
				271
				272	mVibrator->setExternalControl(false);
				273	});
				274
				275	using VibratorEffectsBench_V1_3 = VibratorEffectsBench<V1_3::IVibrator, V1_3::Effect, V1_2::Effect>;
				276
				277	BENCHMARK_WRAPPER(VibratorEffectsBench_V1_3, perform_1_3,
				278	{ performBench(&state, &V1_3::IVibrator::perform_1_3); });
				279
				280	class VibratorBench_Aidl : public BaseBench<Aidl::IVibrator> {
				281	public:
				282	void SetUp(State& /state/) override {
				283	this->mVibrator = android::waitForVintfService<Aidl::IVibrator>();
				284	}
				285	};
				286
				287	class HalCallback : public Aidl::BnVibratorCallback {
				288	public:
				289	HalCallback() = default;
				290	~HalCallback() = default;
				291
				292	android::binder::Status onComplete() override { return android::binder::Status::ok(); }
				293	};
				294
				295	BENCHMARK_WRAPPER(VibratorBench_Aidl, on, {
				296	int32_t capabilities = 0;
				297	mVibrator->getCapabilities(&capabilities);
				298
				299	int32_t ms = INT32_MAX;
				300	auto cb = (capabilities & Aidl::IVibrator::CAP_ON_CALLBACK) ? new HalCallback() : nullptr;
				301
				302	for (auto _ : state) {
				303	state.ResumeTiming();
				304	mVibrator->on(ms, cb);
				305	state.PauseTiming();
				306	mVibrator->off();
				307	}
				308	});
				309
				310	BENCHMARK_WRAPPER(VibratorBench_Aidl, off, {
				311	for (auto _ : state) {
				312	state.PauseTiming();
				313	mVibrator->on(INT32_MAX, nullptr);
				314	state.ResumeTiming();
				315	mVibrator->off();
				316	}
				317	});
				318
				319	BENCHMARK_WRAPPER(VibratorBench_Aidl, getCapabilities, {
				320	int32_t capabilities = 0;
				321
				322	for (auto _ : state) {
				323	mVibrator->getCapabilities(&capabilities);
				324	}
				325	});
				326
				327	BENCHMARK_WRAPPER(VibratorBench_Aidl, setAmplitude, {
				328	int32_t capabilities = 0;
				329	mVibrator->getCapabilities(&capabilities);
				330	if ((capabilities & Aidl::IVibrator::CAP_AMPLITUDE_CONTROL) == 0) {
				331	return;
				332	}
				333
				334	float amplitude = 1.0f;
				335	mVibrator->on(INT32_MAX, nullptr);
				336
				337	for (auto _ : state) {
				338	mVibrator->setAmplitude(amplitude);
				339	}
				340
				341	mVibrator->off();
				342	});
				343
				344	BENCHMARK_WRAPPER(VibratorBench_Aidl, setExternalControl, {
				345	int32_t capabilities = 0;
				346	mVibrator->getCapabilities(&capabilities);
				347	if ((capabilities & Aidl::IVibrator::CAP_EXTERNAL_CONTROL) == 0) {
				348	return;
				349	}
				350
				351	for (auto _ : state) {
				352	state.ResumeTiming();
				353	mVibrator->setExternalControl(true);
				354	state.PauseTiming();
				355	mVibrator->setExternalControl(false);
				356	}
				357	});
				358
				359	BENCHMARK_WRAPPER(VibratorBench_Aidl, setExternalAmplitude, {
				360	int32_t capabilities = 0;
				361	mVibrator->getCapabilities(&capabilities);
				362	if ((capabilities & Aidl::IVibrator::CAP_EXTERNAL_CONTROL) == 0 \|\|
				363	(capabilities & Aidl::IVibrator::CAP_EXTERNAL_AMPLITUDE_CONTROL) == 0) {
				364	return;
				365	}
				366
				367	float amplitude = 1.0f;
				368	mVibrator->setExternalControl(true);
				369
				370	for (auto _ : state) {
				371	mVibrator->setAmplitude(amplitude);
				372	}
				373
				374	mVibrator->setExternalControl(false);
				375	});
				376
				377	BENCHMARK_WRAPPER(VibratorBench_Aidl, getSupportedEffects, {
				378	std::vector<Aidl::Effect> supportedEffects;
				379
				380	for (auto _ : state) {
				381	mVibrator->getSupportedEffects(&supportedEffects);
				382	}
				383	});
				384
				385	BENCHMARK_WRAPPER(VibratorBench_Aidl, getSupportedAlwaysOnEffects, {
				386	std::vector<Aidl::Effect> supportedEffects;
				387
				388	for (auto _ : state) {
				389	mVibrator->getSupportedAlwaysOnEffects(&supportedEffects);
				390	}
				391	});
				392
				393	BENCHMARK_WRAPPER(VibratorBench_Aidl, getSupportedPrimitives, {
				394	std::vector<Aidl::CompositePrimitive> supportedPrimitives;
				395
				396	for (auto _ : state) {
				397	mVibrator->getSupportedPrimitives(&supportedPrimitives);
				398	}
				399	});
				400
				401	class VibratorEffectsBench_Aidl : public VibratorBench_Aidl {
				402	public:
				403	static void DefaultArgs(Benchmark* b) {
				404	b->ArgNames({"Effect", "Strength"});
				405	for (const auto& effect : enum_range<Aidl::Effect>()) {
				406	for (const auto& strength : enum_range<Aidl::EffectStrength>()) {
				407	b->Args({static_cast<long>(effect), static_cast<long>(strength)});
				408	}
				409	}
				410	}
				411
				412	protected:
				413	auto getEffect(const State& state) const {
				414	return static_cast<Aidl::Effect>(this->getOtherArg(state, 0));
				415	}
				416
				417	auto getStrength(const State& state) const {
				418	return static_cast<Aidl::EffectStrength>(this->getOtherArg(state, 1));
				419	}
				420	};
				421
				422	BENCHMARK_WRAPPER(VibratorEffectsBench_Aidl, alwaysOnEnable, {
				423	int32_t capabilities = 0;
				424	mVibrator->getCapabilities(&capabilities);
				425	if ((capabilities & Aidl::IVibrator::CAP_ALWAYS_ON_CONTROL) == 0) {
				426	return;
				427	}
				428
				429	int32_t id = 1;
				430	auto effect = getEffect(state);
				431	auto strength = getStrength(state);
				432
				433	std::vector<Aidl::Effect> supported;
				434	mVibrator->getSupportedAlwaysOnEffects(&supported);
				435	if (std::find(supported.begin(), supported.end(), effect) == supported.end()) {
				436	return;
				437	}
				438
				439	for (auto _ : state) {
				440	state.ResumeTiming();
				441	mVibrator->alwaysOnEnable(id, effect, strength);
				442	state.PauseTiming();
				443	mVibrator->alwaysOnDisable(id);
				444	}
				445	});
				446
				447	BENCHMARK_WRAPPER(VibratorEffectsBench_Aidl, alwaysOnDisable, {
				448	int32_t capabilities = 0;
				449	mVibrator->getCapabilities(&capabilities);
				450	if ((capabilities & Aidl::IVibrator::CAP_ALWAYS_ON_CONTROL) == 0) {
				451	return;
				452	}
				453
				454	int32_t id = 1;
				455	auto effect = getEffect(state);
				456	auto strength = getStrength(state);
				457
				458	std::vector<Aidl::Effect> supported;
				459	mVibrator->getSupportedAlwaysOnEffects(&supported);
				460	if (std::find(supported.begin(), supported.end(), effect) == supported.end()) {
				461	return;
				462	}
				463
				464	for (auto _ : state) {
				465	state.PauseTiming();
				466	mVibrator->alwaysOnEnable(id, effect, strength);
				467	state.ResumeTiming();
				468	mVibrator->alwaysOnDisable(id);
				469	}
				470	});
				471
				472	BENCHMARK_WRAPPER(VibratorEffectsBench_Aidl, perform, {
				473	int32_t capabilities = 0;
				474	mVibrator->getCapabilities(&capabilities);
				475
				476	auto effect = getEffect(state);
				477	auto strength = getStrength(state);
				478	auto cb = (capabilities & Aidl::IVibrator::CAP_PERFORM_CALLBACK) ? new HalCallback() : nullptr;
				479	int32_t lengthMs = 0;
				480
				481	std::vector<Aidl::Effect> supported;
				482	mVibrator->getSupportedEffects(&supported);
				483	if (std::find(supported.begin(), supported.end(), effect) == supported.end()) {
				484	return;
				485	}
				486
				487	for (auto _ : state) {
				488	state.ResumeTiming();
				489	mVibrator->perform(effect, strength, cb, &lengthMs);
				490	state.PauseTiming();
				491	mVibrator->off();
				492	}
				493	});
				494
				495	class VibratorPrimitivesBench_Aidl : public VibratorBench_Aidl {
				496	public:
				497	static void DefaultArgs(Benchmark* b) {
				498	b->ArgNames({"Primitive"});
				499	for (const auto& primitive : enum_range<Aidl::CompositePrimitive>()) {
				500	b->Args({static_cast<long>(primitive)});
				501	}
				502	}
				503
				504	protected:
				505	auto getPrimitive(const State& state) const {
				506	return static_cast<Aidl::CompositePrimitive>(this->getOtherArg(state, 0));
				507	}
				508	};
				509
				510	BENCHMARK_WRAPPER(VibratorBench_Aidl, getCompositionDelayMax, {
				511	int32_t ms = 0;
				512
				513	for (auto _ : state) {
				514	mVibrator->getCompositionDelayMax(&ms);
				515	}
				516	});
				517
				518	BENCHMARK_WRAPPER(VibratorBench_Aidl, getCompositionSizeMax, {
				519	int32_t size = 0;
				520
				521	for (auto _ : state) {
				522	mVibrator->getCompositionSizeMax(&size);
				523	}
				524	});
				525
				526	BENCHMARK_WRAPPER(VibratorPrimitivesBench_Aidl, getPrimitiveDuration, {
				527	int32_t capabilities = 0;
				528	mVibrator->getCapabilities(&capabilities);
				529	if ((capabilities & Aidl::IVibrator::CAP_COMPOSE_EFFECTS) == 0) {
				530	return;
				531	}
				532
				533	auto primitive = getPrimitive(state);
				534	int32_t ms = 0;
				535
				536	std::vector<Aidl::CompositePrimitive> supported;
				537	mVibrator->getSupportedPrimitives(&supported);
				538	if (std::find(supported.begin(), supported.end(), primitive) == supported.end()) {
				539	return;
				540	}
				541
				542	for (auto _ : state) {
				543	mVibrator->getPrimitiveDuration(primitive, &ms);
				544	}
				545	});
				546
				547	BENCHMARK_WRAPPER(VibratorPrimitivesBench_Aidl, compose, {
				548	int32_t capabilities = 0;
				549	mVibrator->getCapabilities(&capabilities);
				550	if ((capabilities & Aidl::IVibrator::CAP_COMPOSE_EFFECTS) == 0) {
				551	return;
				552	}
				553
				554	Aidl::CompositeEffect effect;
				555	effect.primitive = getPrimitive(state);
				556	effect.scale = 1.0f;
				557	effect.delayMs = 0;
				558
				559	std::vector<Aidl::CompositePrimitive> supported;
				560	mVibrator->getSupportedPrimitives(&supported);
				561	if (std::find(supported.begin(), supported.end(), effect.primitive) == supported.end()) {
				562	return;
				563	}
				564
				565	auto cb = new HalCallback();
				566	std::vector<Aidl::CompositeEffect> effects;
				567	effects.push_back(effect);
				568
				569	for (auto _ : state) {
				570	state.ResumeTiming();
				571	mVibrator->compose(effects, cb);
				572	state.PauseTiming();
				573	mVibrator->off();
				574	}
				575	});
				576
				577	BENCHMARK_MAIN();