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// Copyright (C) 2019 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 {sqliteString} from '../base/string_utils';
import {Engine} from '../common/engine';
import {NUM, STR} from '../common/query_result';
import {escapeSearchQuery} from '../common/query_utils';
import {CurrentSearchResults, SearchSummary} from '../common/search_data';
import {TimeSpan} from '../common/time';
import {toNs} from '../common/time';
import {globals} from '../frontend/globals';
import {publishSearch, publishSearchResult} from '../frontend/publish';
import {Controller} from './controller';
export interface SearchControllerArgs {
engine: Engine;
}
export class SearchController extends Controller<'main'> {
private engine: Engine;
private previousSpan: TimeSpan;
private previousResolution: number;
private previousSearch: string;
private updateInProgress: boolean;
private setupInProgress: boolean;
constructor(args: SearchControllerArgs) {
super('main');
this.engine = args.engine;
this.previousSpan = new TimeSpan(0, 1);
this.previousSearch = '';
this.updateInProgress = false;
this.setupInProgress = true;
this.previousResolution = 1;
this.setup().finally(() => {
this.setupInProgress = false;
this.run();
});
}
private async setup() {
await this.query(`create virtual table search_summary_window
using window;`);
await this.query(`create virtual table search_summary_sched_span using
span_join(sched PARTITIONED cpu, search_summary_window);`);
await this.query(`create virtual table search_summary_slice_span using
span_join(slice PARTITIONED track_id, search_summary_window);`);
}
run() {
if (this.setupInProgress || this.updateInProgress) {
return;
}
const visibleState = globals.state.frontendLocalState.visibleState;
const omniboxState = globals.state.omniboxState;
if (visibleState === undefined || omniboxState === undefined ||
omniboxState.mode === 'COMMAND') {
return;
}
const newSpan = new TimeSpan(visibleState.startSec, visibleState.endSec);
const newSearch = omniboxState.omnibox;
let newResolution = visibleState.resolution;
if (this.previousSpan.contains(newSpan) &&
this.previousResolution === newResolution &&
newSearch === this.previousSearch) {
return;
}
// TODO(hjd): We should restrict this to the start of the trace but
// that is not easily available here.
// N.B. Timestamps can be negative.
const start = newSpan.start - newSpan.duration;
const end = newSpan.end + newSpan.duration;
this.previousSpan = new TimeSpan(start, end);
this.previousResolution = newResolution;
this.previousSearch = newSearch;
if (newSearch === '' || newSearch.length < 4) {
publishSearch({
tsStarts: new Float64Array(0),
tsEnds: new Float64Array(0),
count: new Uint8Array(0),
});
publishSearchResult({
sliceIds: new Float64Array(0),
tsStarts: new Float64Array(0),
utids: new Float64Array(0),
sources: [],
trackIds: [],
totalResults: 0,
});
return;
}
let startNs = toNs(newSpan.start);
let endNs = toNs(newSpan.end);
// TODO(hjd): We shouldn't need to be so defensive here:
if (!Number.isFinite(startNs)) {
startNs = 0;
}
if (!Number.isFinite(endNs)) {
endNs = 1;
}
if (!Number.isFinite(newResolution)) {
newResolution = 1;
}
this.updateInProgress = true;
const computeSummary = this.update(newSearch, startNs, endNs, newResolution)
.then((summary) => {
publishSearch(summary);
});
const computeResults =
this.specificSearch(newSearch).then((searchResults) => {
publishSearchResult(searchResults);
});
Promise.all([computeSummary, computeResults])
.finally(() => {
this.updateInProgress = false;
this.run();
});
}
onDestroy() {}
private async update(
search: string, startNs: number, endNs: number,
resolution: number): Promise<SearchSummary> {
const quantumNs = Math.round(resolution * 10 * 1e9);
const searchLiteral = escapeSearchQuery(search);
startNs = Math.floor(startNs / quantumNs) * quantumNs;
const windowDur = Math.max(endNs - startNs, 1);
await this.query(`update search_summary_window set
window_start=${startNs},
window_dur=${windowDur},
quantum=${quantumNs}
where rowid = 0;`);
const utidRes = await this.query(`select utid from thread join process
using(upid) where thread.name glob ${searchLiteral}
or process.name glob ${searchLiteral}`);
const utids = [];
for (const it = utidRes.iter({utid: NUM}); it.valid(); it.next()) {
utids.push(it.utid);
}
const cpus = await this.engine.getCpus();
const maxCpu = Math.max(...cpus, -1);
const res = await this.query(`
select
(quantum_ts * ${quantumNs} + ${startNs})/1e9 as tsStart,
((quantum_ts+1) * ${quantumNs} + ${startNs})/1e9 as tsEnd,
min(count(*), 255) as count
from (
select
quantum_ts
from search_summary_sched_span
where utid in (${utids.join(',')}) and cpu <= ${maxCpu}
union all
select
quantum_ts
from search_summary_slice_span
where name glob ${searchLiteral}
)
group by quantum_ts
order by quantum_ts;`);
const numRows = res.numRows();
const summary = {
tsStarts: new Float64Array(numRows),
tsEnds: new Float64Array(numRows),
count: new Uint8Array(numRows),
};
const it = res.iter({tsStart: NUM, tsEnd: NUM, count: NUM});
for (let row = 0; it.valid(); it.next(), ++row) {
summary.tsStarts[row] = it.tsStart;
summary.tsEnds[row] = it.tsEnd;
summary.count[row] = it.count;
}
return summary;
}
private async specificSearch(search: string) {
const searchLiteral = escapeSearchQuery(search);
// TODO(hjd): we should avoid recomputing this every time. This will be
// easier once the track table has entries for all the tracks.
const cpuToTrackId = new Map();
for (const track of Object.values(globals.state.tracks)) {
if (track.kind === 'CpuSliceTrack') {
cpuToTrackId.set((track.config as {cpu: number}).cpu, track.id);
continue;
}
}
const utidRes = await this.query(`select utid from thread join process
using(upid) where
thread.name glob ${searchLiteral} or
process.name glob ${searchLiteral}`);
const utids = [];
for (const it = utidRes.iter({utid: NUM}); it.valid(); it.next()) {
utids.push(it.utid);
}
const queryRes = await this.query(`
select
id as sliceId,
ts,
'cpu' as source,
cpu as sourceId,
utid
from sched where utid in (${utids.join(',')})
union
select
slice_id as sliceId,
ts,
'track' as source,
track_id as sourceId,
0 as utid
from slice
where slice.name glob ${searchLiteral}
or (
0 != CAST(${(sqliteString(search))} AS INT) and
sliceId = CAST(${(sqliteString(search))} AS INT)
)
union
select
slice_id as sliceId,
ts,
'track' as source,
track_id as sourceId,
0 as utid
from slice
join args using(arg_set_id)
where string_value glob ${searchLiteral} or key glob ${searchLiteral}
union
select
id as sliceId,
ts,
'log' as source,
0 as sourceId,
utid
from android_logs where msg glob ${searchLiteral}
order by ts
`);
const rows = queryRes.numRows();
const searchResults: CurrentSearchResults = {
sliceIds: new Float64Array(rows),
tsStarts: new Float64Array(rows),
utids: new Float64Array(rows),
trackIds: [],
sources: [],
totalResults: 0,
};
const it = queryRes.iter(
{sliceId: NUM, ts: NUM, source: STR, sourceId: NUM, utid: NUM});
for (; it.valid(); it.next()) {
let trackId = undefined;
if (it.source === 'cpu') {
trackId = cpuToTrackId.get(it.sourceId);
} else if (it.source === 'track') {
trackId = globals.state.uiTrackIdByTraceTrackId[it.sourceId];
} else if (it.source === 'log') {
const logTracks = Object.values(globals.state.tracks)
.filter((t) => t.kind === 'AndroidLogTrack');
if (logTracks.length > 0) {
trackId = logTracks[0].id;
}
}
// The .get() calls above could return undefined, this isn't just an else.
if (trackId === undefined) {
continue;
}
const i = searchResults.totalResults++;
searchResults.trackIds.push(trackId);
searchResults.sources.push(it.source);
searchResults.sliceIds[i] = it.sliceId;
searchResults.tsStarts[i] = it.ts;
searchResults.utids[i] = it.utid;
}
return searchResults;
}
private async query(query: string) {
const result = await this.engine.query(query);
return result;
}
}