services/media/framework/engine.cc - Issue 1577953002: Motown in-proc streaming framework used to implement media services.

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Issue 1577953002: Motown in-proc streaming framework used to implement media services. (Closed) Base URL: https://github.com/domokit/mojo.git@master

Patch Set: Addressed feedback including non-const ref parameters. Created 4 years, 10 months ago

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	1 // Copyright 2016 The Chromium Authors. All rights reserved.

	2 // Use of this source code is governed by a BSD-style license that can be

	3 // found in the LICENSE file.

	4

	5 #include "services/media/framework/engine.h"

	6

	7 namespace mojo {

	8 namespace media {

	9

	10 uint32_t Engine::Part::input_count() {

	11 DCHECK(stage_ != nullptr);

	12 return stage_->input_count();

	13 }

	14

	15 Engine::Input Engine::Part::input(uint32_t index) {

	16 DCHECK(stage_ != nullptr && index < stage_->input_count());

	17 return Input(stage_, index);

	18 }

	19

	20 Engine::Input Engine::Part::input() {

	21 DCHECK(stage_ != nullptr && stage_->input_count() == 1);

	22 return Input(stage_, 0);

	23 }

	24

	25 uint32_t Engine::Part::output_count() {

	26 DCHECK(stage_ != nullptr);

	27 return stage_->output_count();

	28 }

	29

	30 Engine::Output Engine::Part::output(uint32_t index) {

	31 DCHECK(stage_ != nullptr && index < stage_->output_count());

	32 return Output(stage_, index);

	33 }

	34

	35 Engine::Output Engine::Part::output() {

	36 DCHECK(stage_ != nullptr && stage_->output_count() == 1);

	37 return Output(stage_, 0);

	38 }

	39

	40 Engine::Part Engine::Part::upstream_part(uint32_t index) {

	41 DCHECK(stage_ != nullptr && index < stage_->input_count());

	42 return Part(stage_->input(index).upstream_stage());

	43 }

	44

	45 Engine::Part Engine::Part::upstream_part() {

	46 DCHECK(stage_ != nullptr && stage_->input_count() == 1);

	47 return Part(stage_->input(0).upstream_stage());

	48 }

	49

	50 Engine::Part Engine::Part::downstream_part(uint32_t index) {

	51 DCHECK(stage_ != nullptr && index < stage_->output_count());

	52 return Part(stage_->output(index).downstream_stage());

	53 }

	54

	55 Engine::Part Engine::Part::downstream_part() {

	56 DCHECK(stage_ != nullptr && stage_->output_count() == 1);

	57 return Part(stage_->output(0).downstream_stage());

	58 }

	59

	60 Engine::Engine() {

	61 update_function_ = [this](Stage* stage) {

	62 DCHECK(stage);

	63 base::AutoLock lock(lock_);

	64 UpdateUnsafe(stage);

	65 UpdateUnsafe();

	66 };

	67 }

	68

	69 Engine::~Engine() {

	70 Reset();

	71 }

	72

	73 void Engine::Remove(Part part) {

	74 DCHECK(part);

	75 base::AutoLock lock(lock_);

	76 RemoveUnsafe(part.stage_);

	77 }

	78

	79 Engine::Part Engine::Connect(Output output, Input input) {

	80 DCHECK(output);

	81 DCHECK(input);

	82

	83 base::AutoLock lock(lock_);

	84

	85 if (output.connected()) {

	86 DisconnectOutputUnsafe(output.stage_, output.index_);

	87 }

	88 if (input.connected()) {

	89 DisconnectInputUnsafe(input.stage_, input.index_);

	90 }

	91

	92 output.stage_output().connect(

	93 input.stage_,

	94 input.index_);

	95

	96 input.stage_input().connect(

	97 output.stage_,

	98 output.index_);

	99

	100 return input.part();

	101 }

	102

	103 Engine::Part Engine::Connect(Part upstream_part, Part downstream_part) {

	104 DCHECK(upstream_part);

	105 DCHECK(downstream_part);

	106 Connect(upstream_part.output(), downstream_part.input());

	107 return downstream_part;

	108 }

	109

	110 Engine::Part Engine::Connect(

	111 Output output,

	112 Part downstream_part) {

	113 DCHECK(output);

	114 DCHECK(downstream_part);

	115 Connect(output, downstream_part.input());

	116 return downstream_part;

	117 }

	118

	119 Engine::Part Engine::Connect(Part upstream_part, Input input) {

	120 DCHECK(upstream_part);

	121 DCHECK(input);

	122 Connect(upstream_part.output(), input);

	123 return input.part();

	124 }

	125

	126 void Engine::Disconnect(Output output) {

	127 DCHECK(output);

	128

	129 base::AutoLock lock(lock_);

	130 DisconnectOutputUnsafe(output.stage_, output.index_);

	131 }

	132

	133 void Engine::Disconnect(Input input) {

	134 DCHECK(input);

	135

	136 base::AutoLock lock(lock_);

	137 DisconnectInputUnsafe(input.stage_, input.index_);

	138 }

	139

	140 void Engine::RemoveAll(Part part) {

	141 DCHECK(part);

	142

	143 base::AutoLock lock(lock_);

	144

	145 std::deque<Part> to_remove { part };

	146

	147 while (!to_remove.empty()) {

	148 Part part = to_remove.front();

	149 to_remove.pop_front();

	150

	151 for (uint32_t i = 0; i < part.input_count(); ++i) {

	152 to_remove.push_back(part.upstream_part(i));

	153 }

	154

	155 for (uint32_t i = 0; i < part.output_count(); ++i) {

	156 to_remove.push_back(part.downstream_part(i));

	157 }

	158

	159 RemoveUnsafe(part.stage_);

	160 }

	161 }

	162

	163 void Engine::RemoveAll(Output output) {

	164 DCHECK(output);

	165

	166 if (!output.connected()) {

	167 return;

	168 }

	169

	170 Part downstream_part = output.downstream_part();

	171 Disconnect(output);

	172 RemoveAll(downstream_part);

	173 }

	174

	175 void Engine::RemoveAll(Input input) {

	176 DCHECK(input);

	177

	178 if (!input.connected()) {

	179 return;

	180 }

	181

	182 Part upstream_part = input.upstream_part();

	183 Disconnect(input);

	184 RemoveAll(upstream_part);

	185 }

	186

	187 void Engine::Prepare() {

	188 base::AutoLock lock(lock_);

	189 for (Stage* sink : sinks_) {

	190 sink->Prepare(update_function_);

	191 sink->prepared_ = true;

	192 uint32_t input_count = sink->input_count();

	193 for (uint32_t input_index = 0; input_index < input_count; input_index++) {

	194 PrepareUnsafe(sink->input(input_index).upstream_stage());

	195 }

	196 }

	197 }

	198

	199 void Engine::Prepare(Part part) {

	200 DCHECK(part);

	201 base::AutoLock lock(lock_);

	202 PrepareUnsafe(part.stage_);

	203 }

	204

	205 void Engine::PrimeSinks() {

	206 lock_.Acquire();

	207 std::list<Stage*> sinks(sinks_);

	208 lock_.Release();

	209

	210 for (Stage* sink : sinks) {

	211 sink->Prime();

	212 }

	213 }

	214

	215 void Engine::Reset() {

	216 base::AutoLock lock(lock_);

	217 supply_backlog_.clear();

	218 demand_backlog_.clear();

	219 sources_.clear();

	220 sinks_.clear();

	221 while (!stages_.empty()) {

	222 Stage* stage = stages_.front();

	223 stages_.pop_front();

	224 delete stage;

	225 }

	226 }

	227

	228 void Engine::PushToSupplyBacklogUnsafe(Stage* stage) {

	229 lock_.AssertAcquired();

	230

	231 DCHECK(stage);

	232 packets_produced_ = true;

	233 if (!stage->in_supply_backlog_) {

	234 // LIFO

	235 supply_backlog_.push_back(stage);

	236 stage->in_supply_backlog_ = true;

	237 }

	238 }

	239

	240 void Engine::PushToDemandBacklogUnsafe(Stage* stage) {

	241 lock_.AssertAcquired();

	242

	243 DCHECK(stage);

	244 if (!stage->in_demand_backlog_) {

	245 // FIFO

	246 demand_backlog_.push_front(stage);

	247 stage->in_demand_backlog_ = true;

	248 }

	249 }

	250

	251 Engine::Part Engine::Add(Stage* stage) {

	252 base::AutoLock lock(lock_);

	253

	254 stages_.push_back(stage);

	255 if (stage->input_count() == 0) {

	256 sources_.push_back(stage);

	257 }

	258 if (stage->output_count() == 0) {

	259 sinks_.push_back(stage);

	260 }

	261 return Part(stage);

	262 }

	263

	264 void Engine::DisconnectOutputUnsafe(Stage* stage, uint32_t index) {

	265 DCHECK(stage);

	266 DCHECK(index < stage->output_count());

	267

	268 lock_.AssertAcquired();

	269

	270 StageOutput& stage_output = stage->output(index);

	271

	272 if (stage_output.downstream_stage() == nullptr) {

	273 return;

	274 }

	275

	276 stage_output.mate().connect(nullptr, 0);

	277 stage_output.connect(nullptr, 0);

	278 }

	279

	280 void Engine::DisconnectInputUnsafe(Stage* stage, uint32_t index) {

	281 DCHECK(stage);

	282 DCHECK(index < stage->input_count());

	283

	284 lock_.AssertAcquired();

	285

	286 StageInput& stage_input = stage->input(index);

	287

	288 if (stage_input.upstream_stage() == nullptr) {

	289 return;

	290 }

	291

	292 stage_input.mate().connect(nullptr, 0);

	293 stage_input.connect(nullptr, 0);

	294 }

	295

	296 void Engine::RemoveUnsafe(Stage* stage) {

	297 DCHECK(stage);

	298

	299 lock_.AssertAcquired();

	300

	301 uint32_t input_count = stage->input_count();

	302 for (uint32_t input_index = 0; input_index < input_count; input_index++) {

	303 if (stage->input(input_index).connected()) {

	304 DisconnectInputUnsafe(stage, input_index);

	305 }

	306 }

	307

	308 uint32_t output_count = stage->output_count();

	309 for (uint32_t output_index = 0; output_index < output_count; output_index++) {

	310 if (stage->output(output_index).connected()) {

	311 DisconnectOutputUnsafe(stage, output_index);

	312 }

	313 }

	314

	315 sources_.remove(stage);

	316 sinks_.remove(stage);

	317 stages_.remove(stage);

	318 delete stage;

	319 }

	320

	321 // static

	322 Stage* Engine::CreateStage(MultiStreamPacketSourcePtr source) {

	323 return new DistributorStage(source);

	324 }

	325

	326 // static

	327 Stage* Engine::CreateStage(PacketTransformPtr transform) {

	328 return new PacketTransformStage(transform);

	329 }

	330

	331 // static

	332 Stage* Engine::CreateStage(ActiveSourcePtr source) {

	333 return new ActiveSourceStage(source);

	334 }

	335

	336 // static

	337 Stage* Engine::CreateStage(ActiveSinkPtr sink) {

	338 return new ActiveSinkStage(sink);

	339 }

	340

	341 // static

	342 Stage* Engine::CreateStage(LpcmTransformPtr transform) {

	343 return new LpcmTransformStage(transform);

	344 }

	345

	346 void Engine::PrepareUnsafe(Stage* stage) {

	347 lock_.AssertAcquired();

	348

	349 if (stage == nullptr \|\| stage->prepared_) {

	350 return;

	351 }

	352

	353 stage->Prepare(update_function_);

	354 stage->prepared_ = true;

	355

	356 uint32_t input_count = stage->input_count();

	357 for (uint32_t input_index = 0; input_index < input_count; input_index++) {

	358 PrepareUnsafe(stage->input(input_index).upstream_stage());

	359 }

	360 }

	361

	362 void Engine::UpdateUnsafe() {

	363 lock_.AssertAcquired();

	364

	365 while (true) {

	366 Stage* stage = PopFromSupplyBacklogUnsafe();

	367 if (stage != nullptr) {

	368 UpdateUnsafe(stage);

	369 continue;

	370 }

	371

	372 stage = PopFromDemandBacklogUnsafe();

	373 if (stage != nullptr) {

	374 UpdateUnsafe(stage);

	375 continue;

	376 }

	377

	378 break;

	379 }

	380 }

	381

	382 void Engine::UpdateUnsafe(Stage *stage) {

	383 lock_.AssertAcquired();

	384

	385 DCHECK(stage);

	386

	387 packets_produced_ = false;

	388

	389 stage->Update(this);

	390

	391 // If the stage produced packets, it may need to reevaluate demand later.

	392 if (packets_produced_) {

	393 PushToDemandBacklogUnsafe(stage);

	394 }

	395 }

	396

	397 Stage* Engine::PopFromSupplyBacklogUnsafe() {

	398 lock_.AssertAcquired();

	399

	400 if (supply_backlog_.empty()) {

	401 return nullptr;

	402 }

	403

	404 Stage* stage = supply_backlog_.front();

	405 supply_backlog_.pop_front();

	406 DCHECK(stage->in_supply_backlog_);

	407 stage->in_supply_backlog_ = false;

	408 return stage;

	409 }

	410

	411 Stage* Engine::PopFromDemandBacklogUnsafe() {

	412 lock_.AssertAcquired();

	413

	414 if (demand_backlog_.empty()) {

	415 return nullptr;

	416 }

	417

	418 Stage* stage = demand_backlog_.front();

	419 demand_backlog_.pop_front();

	420 DCHECK(stage->in_demand_backlog_);

	421 stage->in_demand_backlog_ = false;

	422 return stage;

	423 }

	424

	425 } // namespace media

	426 } // namespace mojo

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