ui/src/core/load_trace.ts - third_party/perfetto - Git at Google

 // Copyright (C) 2018 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.

 import {assertExists, assertTrue} from '../base/logging';
 import {time, Time, TimeSpan} from '../base/time';
 import {cacheTrace} from './cache_manager';
 import {
   getEnabledMetatracingCategories,
   isMetatracingEnabled,
 } from './metatracing';
 import {featureFlags} from './feature_flags';
 import {Engine, EngineBase} from '../trace_processor/engine';
 import {HttpRpcEngine} from '../trace_processor/http_rpc_engine';
 import {
   LONG,
   LONG_NULL,
   NUM,
   NUM_NULL,
   STR,
 } from '../trace_processor/query_result';
 import {WasmEngineProxy} from '../trace_processor/wasm_engine_proxy';
 import {
   TraceBufferStream,
   TraceFileStream,
   TraceHttpStream,
   TraceStream,
 } from '../core/trace_stream';
 import {
   deserializeAppStatePhase1,
   deserializeAppStatePhase2,
 } from './state_serialization';
 import {AppImpl} from './app_impl';
 import {raf} from './raf_scheduler';
 import {TraceImpl} from './trace_impl';
 import {SerializedAppState} from './state_serialization_schema';
 import {TraceSource} from './trace_source';
 import {Router} from '../core/router';
 import {TraceInfoImpl} from './trace_info_impl';

 const ENABLE_CHROME_RELIABLE_RANGE_ZOOM_FLAG = featureFlags.register({
   id: 'enableChromeReliableRangeZoom',
   name: 'Enable Chrome reliable range zoom',
   description: 'Automatically zoom into the reliable range for Chrome traces',
   defaultValue: false,
 });

 const ENABLE_CHROME_RELIABLE_RANGE_ANNOTATION_FLAG = featureFlags.register({
   id: 'enableChromeReliableRangeAnnotation',
   name: 'Enable Chrome reliable range annotation',
   description: 'Automatically adds an annotation for the reliable range start',
   defaultValue: false,
 });

 // The following flags control TraceProcessor Config.
 const CROP_TRACK_EVENTS_FLAG = featureFlags.register({
   id: 'cropTrackEvents',
   name: 'Crop track events',
   description: 'Ignores track events outside of the range of interest',
   defaultValue: false,
 });
 const INGEST_FTRACE_IN_RAW_TABLE_FLAG = featureFlags.register({
   id: 'ingestFtraceInRawTable',
   name: 'Ingest ftrace in raw table',
   description: 'Enables ingestion of typed ftrace events into the raw table',
   defaultValue: true,
 });
 const ANALYZE_TRACE_PROTO_CONTENT_FLAG = featureFlags.register({
   id: 'analyzeTraceProtoContent',
   name: 'Analyze trace proto content',
   description:
     'Enables trace proto content analysis (experimental_proto_content table)',
   defaultValue: false,
 });
 const FTRACE_DROP_UNTIL_FLAG = featureFlags.register({
   id: 'ftraceDropUntilAllCpusValid',
   name: 'Crop ftrace events',
   description:
     'Drop ftrace events until all per-cpu data streams are known to be valid',
   defaultValue: true,
 });

 // TODO(stevegolton): Move this into some global "SQL extensions" file and
 // ensure it's only run once.
 async function defineMaxLayoutDepthSqlFunction(engine: Engine): Promise<void> {
   await engine.query(`
     create perfetto function __max_layout_depth(track_count INT, track_ids STRING)
     returns INT AS
     select iif(
       $track_count = 1,
       (
         select max_depth
         from _slice_track_summary
         where id = cast($track_ids AS int)
       ),
       (
         select max(layout_depth)
         from experimental_slice_layout($track_ids)
       )
     );
   `);
 }

 let lastEngineId = 0;

 export async function loadTrace(
   app: AppImpl,
   traceSource: TraceSource,
 ): Promise<TraceImpl> {
   updateStatus(app, 'Opening trace');
   const engineId = `${++lastEngineId}`;
   const engine = await createEngine(app, engineId);
   return await loadTraceIntoEngine(app, traceSource, engine);
 }

 async function createEngine(
   app: AppImpl,
   engineId: string,
 ): Promise<EngineBase> {
   // Check if there is any instance of the trace_processor_shell running in
   // HTTP RPC mode (i.e. trace_processor_shell -D).
   let useRpc = false;
   if (app.httpRpc.newEngineMode === 'USE_HTTP_RPC_IF_AVAILABLE') {
     useRpc = (await HttpRpcEngine.checkConnection()).connected;
   }
   let engine;
   if (useRpc) {
     console.log('Opening trace using native accelerator over HTTP+RPC');
     engine = new HttpRpcEngine(engineId);
   } else {
     console.log('Opening trace using built-in WASM engine');
     engine = new WasmEngineProxy(engineId);
     engine.resetTraceProcessor({
       cropTrackEvents: CROP_TRACK_EVENTS_FLAG.get(),
       ingestFtraceInRawTable: INGEST_FTRACE_IN_RAW_TABLE_FLAG.get(),
       analyzeTraceProtoContent: ANALYZE_TRACE_PROTO_CONTENT_FLAG.get(),
       ftraceDropUntilAllCpusValid: FTRACE_DROP_UNTIL_FLAG.get(),
     });
   }
   engine.onResponseReceived = () => raf.scheduleFullRedraw('force');

   if (isMetatracingEnabled()) {
     engine.enableMetatrace(assertExists(getEnabledMetatracingCategories()));
   }
   return engine;
 }

 async function loadTraceIntoEngine(
   app: AppImpl,
   traceSource: TraceSource,
   engine: EngineBase,
 ): Promise<TraceImpl> {
   let traceStream: TraceStream | undefined;
   let serializedAppState: SerializedAppState | undefined;
   if (traceSource.type === 'FILE') {
     traceStream = new TraceFileStream(traceSource.file);
   } else if (traceSource.type === 'ARRAY_BUFFER') {
     traceStream = new TraceBufferStream(traceSource.buffer);
   } else if (traceSource.type === 'URL') {
     traceStream = new TraceHttpStream(traceSource.url);
     serializedAppState = traceSource.serializedAppState;
   } else if (traceSource.type === 'HTTP_RPC') {
     traceStream = undefined;
   } else {
     throw new Error(`Unknown source: ${JSON.stringify(traceSource)}`);
   }

   // |traceStream| can be undefined in the case when we are using the external
   // HTTP+RPC endpoint and the trace processor instance has already loaded
   // a trace (because it was passed as a cmdline argument to
   // trace_processor_shell). In this case we don't want the UI to load any
   // file/stream and we just want to jump to the loading phase.
   if (traceStream !== undefined) {
     const tStart = performance.now();
     for (;;) {
       const res = await traceStream.readChunk();
       await engine.parse(res.data);
       const elapsed = (performance.now() - tStart) / 1000;
       let status = 'Loading trace ';
       if (res.bytesTotal > 0) {
         const progress = Math.round((res.bytesRead / res.bytesTotal) * 100);
         status += `${progress}%`;
       } else {
         status += `${Math.round(res.bytesRead / 1e6)} MB`;
       }
       status += ` - ${Math.ceil(res.bytesRead / elapsed / 1e6)} MB/s`;
       updateStatus(app, status);
       if (res.eof) break;
     }
     await engine.notifyEof();
   } else {
     assertTrue(engine instanceof HttpRpcEngine);
     await engine.restoreInitialTables();
   }
   for (const p of app.extraSqlPackages) {
     await engine.registerSqlPackages(p);
   }

   const traceDetails = await getTraceInfo(engine, traceSource);
   const trace = TraceImpl.createInstanceForCore(app, engine, traceDetails);
   app.setActiveTrace(trace);

   const visibleTimeSpan = await computeVisibleTime(
     traceDetails.start,
     traceDetails.end,
     trace.traceInfo.traceType === 'json',
     engine,
   );

   trace.timeline.updateVisibleTime(visibleTimeSpan);

   const cacheUuid = traceDetails.cached ? traceDetails.uuid : '';
   Router.navigate(`#!/viewer?local_cache_key=${cacheUuid}`);

   // Make sure the helper views are available before we start adding tracks.
   await includeSummaryTables(trace);

   await defineMaxLayoutDepthSqlFunction(engine);

   if (serializedAppState !== undefined) {
     deserializeAppStatePhase1(serializedAppState, trace);
   }

   await app.plugins.onTraceLoad(trace, (id) => {
     updateStatus(app, `Running plugin: ${id}`);
   });

   decideTabs(trace);

   // Trace Processor doesn't support the reliable range feature for JSON
   // traces.
   if (
     trace.traceInfo.traceType !== 'json' &&
     ENABLE_CHROME_RELIABLE_RANGE_ANNOTATION_FLAG.get()
   ) {
     const reliableRangeStart = await computeTraceReliableRangeStart(engine);
     if (reliableRangeStart > 0) {
       trace.notes.addNote({
         timestamp: reliableRangeStart,
         color: '#ff0000',
         text: 'Reliable Range Start',
       });
     }
   }

   for (const callback of trace.getEventListeners('traceready')) {
     await callback();
   }

   if (serializedAppState !== undefined) {
     // Wait that plugins have completed their actions and then proceed with
     // the final phase of app state restore.
     // TODO(primiano): this can probably be removed once we refactor tracks
     // to be URI based and can deal with non-existing URIs.
     deserializeAppStatePhase2(serializedAppState, trace);
   }

   return trace;
 }

 function decideTabs(trace: TraceImpl) {
   // Show the list of default tabs, but don't make them active!
   for (const tabUri of trace.tabs.defaultTabs) {
     trace.tabs.showTab(tabUri);
   }
 }

 async function includeSummaryTables(trace: TraceImpl) {
   const engine = trace.engine;
   updateStatus(trace, 'Creating slice summaries');
   await engine.query(`include perfetto module viz.summary.slices;`);

   updateStatus(trace, 'Creating counter summaries');
   await engine.query(`include perfetto module viz.summary.counters;`);

   updateStatus(trace, 'Creating thread summaries');
   await engine.query(`include perfetto module viz.summary.threads;`);

   updateStatus(trace, 'Creating processes summaries');
   await engine.query(`include perfetto module viz.summary.processes;`);

   updateStatus(trace, 'Creating track summaries');
   await engine.query(`include perfetto module viz.summary.tracks;`);
 }

 function updateStatus(traceOrApp: TraceImpl | AppImpl, msg: string): void {
   const showUntilDismissed = 0;
   traceOrApp.omnibox.showStatusMessage(msg, showUntilDismissed);
 }

 async function computeFtraceBounds(engine: Engine): Promise<TimeSpan | null> {
   const result = await engine.query(`
     SELECT min(ts) as start, max(ts) as end FROM ftrace_event;
   `);
   const {start, end} = result.firstRow({start: LONG_NULL, end: LONG_NULL});
   if (start !== null && end !== null) {
     return new TimeSpan(Time.fromRaw(start), Time.fromRaw(end));
   }
   return null;
 }

 async function computeTraceReliableRangeStart(engine: Engine): Promise<time> {
   const result =
     await engine.query(`SELECT RUN_METRIC('chrome/chrome_reliable_range.sql');
        SELECT start FROM chrome_reliable_range`);
   const bounds = result.firstRow({start: LONG});
   return Time.fromRaw(bounds.start);
 }

 async function computeVisibleTime(
   traceStart: time,
   traceEnd: time,
   isJsonTrace: boolean,
   engine: Engine,
 ): Promise<TimeSpan> {
   // initialise visible time to the trace time bounds
   let visibleStart = traceStart;
   let visibleEnd = traceEnd;

   // compare start and end with metadata computed by the trace processor
   const mdTime = await getTracingMetadataTimeBounds(engine);
   // make sure the bounds hold
   if (Time.max(visibleStart, mdTime.start) < Time.min(visibleEnd, mdTime.end)) {
     visibleStart = Time.max(visibleStart, mdTime.start);
     visibleEnd = Time.min(visibleEnd, mdTime.end);
   }

   // Trace Processor doesn't support the reliable range feature for JSON
   // traces.
   if (!isJsonTrace && ENABLE_CHROME_RELIABLE_RANGE_ZOOM_FLAG.get()) {
     const reliableRangeStart = await computeTraceReliableRangeStart(engine);
     visibleStart = Time.max(visibleStart, reliableRangeStart);
   }

   // Move start of visible window to the first ftrace event
   const ftraceBounds = await computeFtraceBounds(engine);
   if (ftraceBounds !== null) {
     // Avoid moving start of visible window past its end!
     visibleStart = Time.min(ftraceBounds.start, visibleEnd);
   }
   return new TimeSpan(visibleStart, visibleEnd);
 }

 async function getTraceInfo(
   engine: Engine,
   traceSource: TraceSource,
 ): Promise<TraceInfoImpl> {
   const traceTime = await getTraceTimeBounds(engine);

   // Find the first REALTIME or REALTIME_COARSE clock snapshot.
   // Prioritize REALTIME over REALTIME_COARSE.
   const query = `select
           ts,
           clock_value as clockValue,
           clock_name as clockName
         from clock_snapshot
         where
           snapshot_id = 0 AND
           clock_name in ('REALTIME', 'REALTIME_COARSE')
         `;
   const result = await engine.query(query);
   const it = result.iter({
     ts: LONG,
     clockValue: LONG,
     clockName: STR,
   });

   let snapshot = {
     clockName: '',
     ts: Time.ZERO,
     clockValue: Time.ZERO,
   };

   // Find the most suitable snapshot
   for (let row = 0; it.valid(); it.next(), row++) {
     if (it.clockName === 'REALTIME') {
       snapshot = {
         clockName: it.clockName,
         ts: Time.fromRaw(it.ts),
         clockValue: Time.fromRaw(it.clockValue),
       };
       break;
     } else if (it.clockName === 'REALTIME_COARSE') {
       if (snapshot.clockName !== 'REALTIME') {
         snapshot = {
           clockName: it.clockName,
           ts: Time.fromRaw(it.ts),
           clockValue: Time.fromRaw(it.clockValue),
         };
       }
     }
   }

   // The max() is so the query returns NULL if the tz info doesn't exist.
   const queryTz = `select max(int_value) as tzOffMin from metadata
         where name = 'timezone_off_mins'`;
   const resTz = await assertExists(engine).query(queryTz);
   const tzOffMin = resTz.firstRow({tzOffMin: NUM_NULL}).tzOffMin ?? 0;

   // This is the offset between the unix epoch and ts in the ts domain.
   // I.e. the value of ts at the time of the unix epoch - usually some large
   // negative value.
   const realtimeOffset = Time.sub(snapshot.ts, snapshot.clockValue);

   // Find the previous closest midnight from the trace start time.
   const utcOffset = Time.getLatestMidnight(traceTime.start, realtimeOffset);

   const traceTzOffset = Time.getLatestMidnight(
     traceTime.start,
     Time.sub(realtimeOffset, Time.fromSeconds(tzOffMin * 60)),
   );

   let traceTitle = '';
   let traceUrl = '';
   switch (traceSource.type) {
     case 'FILE':
       // Split on both \ and / (because C:\Windows\paths\are\like\this).
       traceTitle = traceSource.file.name.split(/[/\\]/).pop()!;
       const fileSizeMB = Math.ceil(traceSource.file.size / 1e6);
       traceTitle += ` (${fileSizeMB} MB)`;
       break;
     case 'URL':
       traceUrl = traceSource.url;
       traceTitle = traceUrl.split('/').pop()!;
       break;
     case 'ARRAY_BUFFER':
       traceTitle = traceSource.title;
       traceUrl = traceSource.url ?? '';
       const arrayBufferSizeMB = Math.ceil(traceSource.buffer.byteLength / 1e6);
       traceTitle += ` (${arrayBufferSizeMB} MB)`;
       break;
     case 'HTTP_RPC':
       traceTitle = `RPC @ ${HttpRpcEngine.hostAndPort}`;
       break;
     default:
       break;
   }

   const traceType = await getTraceType(engine);

   const hasFtrace =
     (await engine.query(`select * from ftrace_event limit 1`)).numRows() > 0;

   const uuidRes = await engine.query(`select str_value as uuid from metadata
     where name = 'trace_uuid'`);
   // trace_uuid can be missing from the TP tables if the trace is empty or in
   // other similar edge cases.
   const uuid = uuidRes.numRows() > 0 ? uuidRes.firstRow({uuid: STR}).uuid : '';
   const cached = await cacheTrace(traceSource, uuid);

   const downloadable =
     (traceSource.type === 'ARRAY_BUFFER' && !traceSource.localOnly) ||
     traceSource.type === 'FILE' ||
     traceSource.type === 'URL';

   return {
     ...traceTime,
     traceTitle,
     traceUrl,
     realtimeOffset,
     utcOffset,
     traceTzOffset,
     cpus: await getCpus(engine),
     importErrors: await getTraceErrors(engine),
     source: traceSource,
     traceType,
     hasFtrace,
     uuid,
     cached,
     downloadable,
   };
 }

 async function getTraceType(engine: Engine) {
   const result = await engine.query(
     `select str_value from metadata where name = 'trace_type'`,
   );

   if (result.numRows() === 0) return undefined;
   return result.firstRow({str_value: STR}).str_value;
 }

 async function getTraceTimeBounds(engine: Engine): Promise<TimeSpan> {
   const result = await engine.query(
     `select start_ts as startTs, end_ts as endTs from trace_bounds`,
   );
   const bounds = result.firstRow({
     startTs: LONG,
     endTs: LONG,
   });
   return new TimeSpan(Time.fromRaw(bounds.startTs), Time.fromRaw(bounds.endTs));
 }

 // TODO(hjd): When streaming must invalidate this somehow.
 async function getCpus(engine: Engine): Promise<number[]> {
   const cpus = [];
   const queryRes = await engine.query(
     'select distinct(cpu) as cpu from sched order by cpu;',
   );
   for (const it = queryRes.iter({cpu: NUM}); it.valid(); it.next()) {
     cpus.push(it.cpu);
   }
   return cpus;
 }

 async function getTraceErrors(engine: Engine): Promise<number> {
   const sql = `SELECT sum(value) as errs FROM stats WHERE severity != 'info'`;
   const result = await engine.query(sql);
   return result.firstRow({errs: NUM}).errs;
 }

 async function getTracingMetadataTimeBounds(engine: Engine): Promise<TimeSpan> {
   const queryRes = await engine.query(`select
        name,
        int_value as intValue
        from metadata
        where name = 'tracing_started_ns' or name = 'tracing_disabled_ns'
        or name = 'all_data_source_started_ns'`);
   let startBound = Time.MIN;
   let endBound = Time.MAX;
   const it = queryRes.iter({name: STR, intValue: LONG_NULL});
   for (; it.valid(); it.next()) {
     const columnName = it.name;
     const timestamp = it.intValue;
     if (timestamp === null) continue;
     if (columnName === 'tracing_disabled_ns') {
       endBound = Time.min(endBound, Time.fromRaw(timestamp));
     } else {
       startBound = Time.max(startBound, Time.fromRaw(timestamp));
     }
   }

   return new TimeSpan(startBound, endBound);
 }
	// Copyright (C) 2018 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.

	import {assertExists, assertTrue} from '../base/logging';
	import {time, Time, TimeSpan} from '../base/time';
	import {cacheTrace} from './cache_manager';
	import {
	getEnabledMetatracingCategories,
	isMetatracingEnabled,
	} from './metatracing';
	import {featureFlags} from './feature_flags';
	import {Engine, EngineBase} from '../trace_processor/engine';
	import {HttpRpcEngine} from '../trace_processor/http_rpc_engine';
	import {
	LONG,
	LONG_NULL,
	NUM,
	NUM_NULL,
	STR,
	} from '../trace_processor/query_result';
	import {WasmEngineProxy} from '../trace_processor/wasm_engine_proxy';
	import {
	TraceBufferStream,
	TraceFileStream,
	TraceHttpStream,
	TraceStream,
	} from '../core/trace_stream';
	import {
	deserializeAppStatePhase1,
	deserializeAppStatePhase2,
	} from './state_serialization';
	import {AppImpl} from './app_impl';
	import {raf} from './raf_scheduler';
	import {TraceImpl} from './trace_impl';
	import {SerializedAppState} from './state_serialization_schema';
	import {TraceSource} from './trace_source';
	import {Router} from '../core/router';
	import {TraceInfoImpl} from './trace_info_impl';

	const ENABLE_CHROME_RELIABLE_RANGE_ZOOM_FLAG = featureFlags.register({
	id: 'enableChromeReliableRangeZoom',
	name: 'Enable Chrome reliable range zoom',
	description: 'Automatically zoom into the reliable range for Chrome traces',
	defaultValue: false,
	});

	const ENABLE_CHROME_RELIABLE_RANGE_ANNOTATION_FLAG = featureFlags.register({
	id: 'enableChromeReliableRangeAnnotation',
	name: 'Enable Chrome reliable range annotation',
	description: 'Automatically adds an annotation for the reliable range start',
	defaultValue: false,
	});

	// The following flags control TraceProcessor Config.
	const CROP_TRACK_EVENTS_FLAG = featureFlags.register({
	id: 'cropTrackEvents',
	name: 'Crop track events',
	description: 'Ignores track events outside of the range of interest',
	defaultValue: false,
	});
	const INGEST_FTRACE_IN_RAW_TABLE_FLAG = featureFlags.register({
	id: 'ingestFtraceInRawTable',
	name: 'Ingest ftrace in raw table',
	description: 'Enables ingestion of typed ftrace events into the raw table',
	defaultValue: true,
	});
	const ANALYZE_TRACE_PROTO_CONTENT_FLAG = featureFlags.register({
	id: 'analyzeTraceProtoContent',
	name: 'Analyze trace proto content',
	description:
	'Enables trace proto content analysis (experimental_proto_content table)',
	defaultValue: false,
	});
	const FTRACE_DROP_UNTIL_FLAG = featureFlags.register({
	id: 'ftraceDropUntilAllCpusValid',
	name: 'Crop ftrace events',
	description:
	'Drop ftrace events until all per-cpu data streams are known to be valid',
	defaultValue: true,
	});

	// TODO(stevegolton): Move this into some global "SQL extensions" file and
	// ensure it's only run once.
	async function defineMaxLayoutDepthSqlFunction(engine: Engine): Promise<void> {
	await engine.query(`
	create perfetto function __max_layout_depth(track_count INT, track_ids STRING)
	returns INT AS
	select iif(
	$track_count = 1,
	(
	select max_depth
	from _slice_track_summary
	where id = cast($track_ids AS int)
	),
	(
	select max(layout_depth)
	from experimental_slice_layout($track_ids)
	)
	);
	`);
	}

	let lastEngineId = 0;

	export async function loadTrace(
	app: AppImpl,
	traceSource: TraceSource,
	): Promise<TraceImpl> {
	updateStatus(app, 'Opening trace');
	const engineId = `${++lastEngineId}`;
	const engine = await createEngine(app, engineId);
	return await loadTraceIntoEngine(app, traceSource, engine);
	}

	async function createEngine(
	app: AppImpl,
	engineId: string,
	): Promise<EngineBase> {
	// Check if there is any instance of the trace_processor_shell running in
	// HTTP RPC mode (i.e. trace_processor_shell -D).
	let useRpc = false;
	if (app.httpRpc.newEngineMode === 'USE_HTTP_RPC_IF_AVAILABLE') {
	useRpc = (await HttpRpcEngine.checkConnection()).connected;
	}
	let engine;
	if (useRpc) {
	console.log('Opening trace using native accelerator over HTTP+RPC');
	engine = new HttpRpcEngine(engineId);
	} else {
	console.log('Opening trace using built-in WASM engine');
	engine = new WasmEngineProxy(engineId);
	engine.resetTraceProcessor({
	cropTrackEvents: CROP_TRACK_EVENTS_FLAG.get(),
	ingestFtraceInRawTable: INGEST_FTRACE_IN_RAW_TABLE_FLAG.get(),
	analyzeTraceProtoContent: ANALYZE_TRACE_PROTO_CONTENT_FLAG.get(),
	ftraceDropUntilAllCpusValid: FTRACE_DROP_UNTIL_FLAG.get(),
	});
	}
	engine.onResponseReceived = () => raf.scheduleFullRedraw('force');

	if (isMetatracingEnabled()) {
	engine.enableMetatrace(assertExists(getEnabledMetatracingCategories()));
	}
	return engine;
	}

	async function loadTraceIntoEngine(
	app: AppImpl,
	traceSource: TraceSource,
	engine: EngineBase,
	): Promise<TraceImpl> {
	let traceStream: TraceStream \| undefined;
	let serializedAppState: SerializedAppState \| undefined;
	if (traceSource.type === 'FILE') {
	traceStream = new TraceFileStream(traceSource.file);
	} else if (traceSource.type === 'ARRAY_BUFFER') {
	traceStream = new TraceBufferStream(traceSource.buffer);
	} else if (traceSource.type === 'URL') {
	traceStream = new TraceHttpStream(traceSource.url);
	serializedAppState = traceSource.serializedAppState;
	} else if (traceSource.type === 'HTTP_RPC') {
	traceStream = undefined;
	} else {
	throw new Error(`Unknown source: ${JSON.stringify(traceSource)}`);
	}

	// \|traceStream\| can be undefined in the case when we are using the external
	// HTTP+RPC endpoint and the trace processor instance has already loaded
	// a trace (because it was passed as a cmdline argument to
	// trace_processor_shell). In this case we don't want the UI to load any
	// file/stream and we just want to jump to the loading phase.
	if (traceStream !== undefined) {
	const tStart = performance.now();
	for (;;) {
	const res = await traceStream.readChunk();
	await engine.parse(res.data);
	const elapsed = (performance.now() - tStart) / 1000;
	let status = 'Loading trace ';
	if (res.bytesTotal > 0) {
	const progress = Math.round((res.bytesRead / res.bytesTotal) * 100);
	status += `${progress}%`;
	} else {
	status += `${Math.round(res.bytesRead / 1e6)} MB`;
	}
	status += ` - ${Math.ceil(res.bytesRead / elapsed / 1e6)} MB/s`;
	updateStatus(app, status);
	if (res.eof) break;
	}
	await engine.notifyEof();
	} else {
	assertTrue(engine instanceof HttpRpcEngine);
	await engine.restoreInitialTables();
	}
	for (const p of app.extraSqlPackages) {
	await engine.registerSqlPackages(p);
	}

	const traceDetails = await getTraceInfo(engine, traceSource);
	const trace = TraceImpl.createInstanceForCore(app, engine, traceDetails);
	app.setActiveTrace(trace);

	const visibleTimeSpan = await computeVisibleTime(
	traceDetails.start,
	traceDetails.end,
	trace.traceInfo.traceType === 'json',
	engine,
	);

	trace.timeline.updateVisibleTime(visibleTimeSpan);

	const cacheUuid = traceDetails.cached ? traceDetails.uuid : '';
	Router.navigate(`#!/viewer?local_cache_key=${cacheUuid}`);

	// Make sure the helper views are available before we start adding tracks.
	await includeSummaryTables(trace);

	await defineMaxLayoutDepthSqlFunction(engine);

	if (serializedAppState !== undefined) {
	deserializeAppStatePhase1(serializedAppState, trace);
	}

	await app.plugins.onTraceLoad(trace, (id) => {
	updateStatus(app, `Running plugin: ${id}`);
	});

	decideTabs(trace);

	// Trace Processor doesn't support the reliable range feature for JSON
	// traces.
	if (
	trace.traceInfo.traceType !== 'json' &&
	ENABLE_CHROME_RELIABLE_RANGE_ANNOTATION_FLAG.get()
	) {
	const reliableRangeStart = await computeTraceReliableRangeStart(engine);
	if (reliableRangeStart > 0) {
	trace.notes.addNote({
	timestamp: reliableRangeStart,
	color: '#ff0000',
	text: 'Reliable Range Start',
	});
	}
	}

	for (const callback of trace.getEventListeners('traceready')) {
	await callback();
	}

	if (serializedAppState !== undefined) {
	// Wait that plugins have completed their actions and then proceed with
	// the final phase of app state restore.
	// TODO(primiano): this can probably be removed once we refactor tracks
	// to be URI based and can deal with non-existing URIs.
	deserializeAppStatePhase2(serializedAppState, trace);
	}

	return trace;
	}

	function decideTabs(trace: TraceImpl) {
	// Show the list of default tabs, but don't make them active!
	for (const tabUri of trace.tabs.defaultTabs) {
	trace.tabs.showTab(tabUri);
	}
	}

	async function includeSummaryTables(trace: TraceImpl) {
	const engine = trace.engine;
	updateStatus(trace, 'Creating slice summaries');
	await engine.query(`include perfetto module viz.summary.slices;`);

	updateStatus(trace, 'Creating counter summaries');
	await engine.query(`include perfetto module viz.summary.counters;`);

	updateStatus(trace, 'Creating thread summaries');
	await engine.query(`include perfetto module viz.summary.threads;`);

	updateStatus(trace, 'Creating processes summaries');
	await engine.query(`include perfetto module viz.summary.processes;`);

	updateStatus(trace, 'Creating track summaries');
	await engine.query(`include perfetto module viz.summary.tracks;`);
	}

	function updateStatus(traceOrApp: TraceImpl \| AppImpl, msg: string): void {
	const showUntilDismissed = 0;
	traceOrApp.omnibox.showStatusMessage(msg, showUntilDismissed);
	}

	async function computeFtraceBounds(engine: Engine): Promise<TimeSpan \| null> {
	const result = await engine.query(`
	SELECT min(ts) as start, max(ts) as end FROM ftrace_event;
	`);
	const {start, end} = result.firstRow({start: LONG_NULL, end: LONG_NULL});
	if (start !== null && end !== null) {
	return new TimeSpan(Time.fromRaw(start), Time.fromRaw(end));
	}
	return null;
	}

	async function computeTraceReliableRangeStart(engine: Engine): Promise<time> {
	const result =
	await engine.query(`SELECT RUN_METRIC('chrome/chrome_reliable_range.sql');
	SELECT start FROM chrome_reliable_range`);
	const bounds = result.firstRow({start: LONG});
	return Time.fromRaw(bounds.start);
	}

	async function computeVisibleTime(
	traceStart: time,
	traceEnd: time,
	isJsonTrace: boolean,
	engine: Engine,
	): Promise<TimeSpan> {
	// initialise visible time to the trace time bounds
	let visibleStart = traceStart;
	let visibleEnd = traceEnd;

	// compare start and end with metadata computed by the trace processor
	const mdTime = await getTracingMetadataTimeBounds(engine);
	// make sure the bounds hold
	if (Time.max(visibleStart, mdTime.start) < Time.min(visibleEnd, mdTime.end)) {
	visibleStart = Time.max(visibleStart, mdTime.start);
	visibleEnd = Time.min(visibleEnd, mdTime.end);
	}

	// Trace Processor doesn't support the reliable range feature for JSON
	// traces.
	if (!isJsonTrace && ENABLE_CHROME_RELIABLE_RANGE_ZOOM_FLAG.get()) {
	const reliableRangeStart = await computeTraceReliableRangeStart(engine);
	visibleStart = Time.max(visibleStart, reliableRangeStart);
	}

	// Move start of visible window to the first ftrace event
	const ftraceBounds = await computeFtraceBounds(engine);
	if (ftraceBounds !== null) {
	// Avoid moving start of visible window past its end!
	visibleStart = Time.min(ftraceBounds.start, visibleEnd);
	}
	return new TimeSpan(visibleStart, visibleEnd);
	}

	async function getTraceInfo(
	engine: Engine,
	traceSource: TraceSource,
	): Promise<TraceInfoImpl> {
	const traceTime = await getTraceTimeBounds(engine);

	// Find the first REALTIME or REALTIME_COARSE clock snapshot.
	// Prioritize REALTIME over REALTIME_COARSE.
	const query = `select
	ts,
	clock_value as clockValue,
	clock_name as clockName
	from clock_snapshot
	where
	snapshot_id = 0 AND
	clock_name in ('REALTIME', 'REALTIME_COARSE')
	`;
	const result = await engine.query(query);
	const it = result.iter({
	ts: LONG,
	clockValue: LONG,
	clockName: STR,
	});

	let snapshot = {
	clockName: '',
	ts: Time.ZERO,
	clockValue: Time.ZERO,
	};

	// Find the most suitable snapshot
	for (let row = 0; it.valid(); it.next(), row++) {
	if (it.clockName === 'REALTIME') {
	snapshot = {
	clockName: it.clockName,
	ts: Time.fromRaw(it.ts),
	clockValue: Time.fromRaw(it.clockValue),
	};
	break;
	} else if (it.clockName === 'REALTIME_COARSE') {
	if (snapshot.clockName !== 'REALTIME') {
	snapshot = {
	clockName: it.clockName,
	ts: Time.fromRaw(it.ts),
	clockValue: Time.fromRaw(it.clockValue),
	};
	}
	}
	}

	// The max() is so the query returns NULL if the tz info doesn't exist.
	const queryTz = `select max(int_value) as tzOffMin from metadata
	where name = 'timezone_off_mins'`;
	const resTz = await assertExists(engine).query(queryTz);
	const tzOffMin = resTz.firstRow({tzOffMin: NUM_NULL}).tzOffMin ?? 0;

	// This is the offset between the unix epoch and ts in the ts domain.
	// I.e. the value of ts at the time of the unix epoch - usually some large
	// negative value.
	const realtimeOffset = Time.sub(snapshot.ts, snapshot.clockValue);

	// Find the previous closest midnight from the trace start time.
	const utcOffset = Time.getLatestMidnight(traceTime.start, realtimeOffset);

	const traceTzOffset = Time.getLatestMidnight(
	traceTime.start,
	Time.sub(realtimeOffset, Time.fromSeconds(tzOffMin * 60)),
	);

	let traceTitle = '';
	let traceUrl = '';
	switch (traceSource.type) {
	case 'FILE':
	// Split on both \ and / (because C:\Windows\paths\are\like\this).
	traceTitle = traceSource.file.name.split(/[/\\]/).pop()!;
	const fileSizeMB = Math.ceil(traceSource.file.size / 1e6);
	traceTitle += ` (${fileSizeMB} MB)`;
	break;
	case 'URL':
	traceUrl = traceSource.url;
	traceTitle = traceUrl.split('/').pop()!;
	break;
	case 'ARRAY_BUFFER':
	traceTitle = traceSource.title;
	traceUrl = traceSource.url ?? '';
	const arrayBufferSizeMB = Math.ceil(traceSource.buffer.byteLength / 1e6);
	traceTitle += ` (${arrayBufferSizeMB} MB)`;
	break;
	case 'HTTP_RPC':
	traceTitle = `RPC @ ${HttpRpcEngine.hostAndPort}`;
	break;
	default:
	break;
	}

	const traceType = await getTraceType(engine);

	const hasFtrace =
	(await engine.query(`select * from ftrace_event limit 1`)).numRows() > 0;

	const uuidRes = await engine.query(`select str_value as uuid from metadata
	where name = 'trace_uuid'`);
	// trace_uuid can be missing from the TP tables if the trace is empty or in
	// other similar edge cases.
	const uuid = uuidRes.numRows() > 0 ? uuidRes.firstRow({uuid: STR}).uuid : '';
	const cached = await cacheTrace(traceSource, uuid);

	const downloadable =
	(traceSource.type === 'ARRAY_BUFFER' && !traceSource.localOnly) \|\|
	traceSource.type === 'FILE' \|\|
	traceSource.type === 'URL';

	return {
	...traceTime,
	traceTitle,
	traceUrl,
	realtimeOffset,
	utcOffset,
	traceTzOffset,
	cpus: await getCpus(engine),
	importErrors: await getTraceErrors(engine),
	source: traceSource,
	traceType,
	hasFtrace,
	uuid,
	cached,
	downloadable,
	};
	}

	async function getTraceType(engine: Engine) {
	const result = await engine.query(
	`select str_value from metadata where name = 'trace_type'`,
	);

	if (result.numRows() === 0) return undefined;
	return result.firstRow({str_value: STR}).str_value;
	}

	async function getTraceTimeBounds(engine: Engine): Promise<TimeSpan> {
	const result = await engine.query(
	`select start_ts as startTs, end_ts as endTs from trace_bounds`,
	);
	const bounds = result.firstRow({
	startTs: LONG,
	endTs: LONG,
	});
	return new TimeSpan(Time.fromRaw(bounds.startTs), Time.fromRaw(bounds.endTs));
	}

	// TODO(hjd): When streaming must invalidate this somehow.
	async function getCpus(engine: Engine): Promise<number[]> {
	const cpus = [];
	const queryRes = await engine.query(
	'select distinct(cpu) as cpu from sched order by cpu;',
	);
	for (const it = queryRes.iter({cpu: NUM}); it.valid(); it.next()) {
	cpus.push(it.cpu);
	}
	return cpus;
	}

	async function getTraceErrors(engine: Engine): Promise<number> {
	const sql = `SELECT sum(value) as errs FROM stats WHERE severity != 'info'`;
	const result = await engine.query(sql);
	return result.firstRow({errs: NUM}).errs;
	}

	async function getTracingMetadataTimeBounds(engine: Engine): Promise<TimeSpan> {
	const queryRes = await engine.query(`select
	name,
	int_value as intValue
	from metadata
	where name = 'tracing_started_ns' or name = 'tracing_disabled_ns'
	or name = 'all_data_source_started_ns'`);
	let startBound = Time.MIN;
	let endBound = Time.MAX;
	const it = queryRes.iter({name: STR, intValue: LONG_NULL});
	for (; it.valid(); it.next()) {
	const columnName = it.name;
	const timestamp = it.intValue;
	if (timestamp === null) continue;
	if (columnName === 'tracing_disabled_ns') {
	endBound = Time.min(endBound, Time.fromRaw(timestamp));
	} else {
	startBound = Time.max(startBound, Time.fromRaw(timestamp));
	}
	}

	return new TimeSpan(startBound, endBound);
	}