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cobalt / cobalt / HEAD / . / third_party / perfetto / ui / src / common / actions.ts
blob: 1e602fcd7bf63c9f83721d1b55dd47c6dbb51848 [file] [log] [blame]
// 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 {Draft} from 'immer';
import {assertExists, assertTrue, assertUnreachable} from '../base/logging';
import {RecordConfig} from '../controller/record_config_types';
import {globals} from '../frontend/globals';
import {
Aggregation,
AggregationFunction,
TableColumn,
tableColumnEquals,
toggleEnabled,
} from '../frontend/pivot_table_types';
import {DebugTrackV2Config} from '../tracks/debug/slice_track';
import {randomColor} from './colorizer';
import {
computeIntervals,
DropDirection,
performReordering,
} from './dragndrop_logic';
import {createEmptyState} from './empty_state';
import {DEFAULT_VIEWING_OPTION, PERF_SAMPLES_KEY} from './flamegraph_util';
import {traceEventBegin, traceEventEnd, TraceEventScope} from './metatracing';
import {
AdbRecordingTarget,
Area,
CallsiteInfo,
EngineMode,
FlamegraphStateViewingOption,
FtraceFilterPatch,
LoadedConfig,
NewEngineMode,
OmniboxState,
Pagination,
PivotTableResult,
PrimaryTrackSortKey,
ProfileType,
RecordingTarget,
SCROLLING_TRACK_GROUP,
SortDirection,
State,
Status,
ThreadTrackSortKey,
TraceTime,
TrackSortKey,
TrackState,
UtidToTrackSortKey,
VisibleState,
} from './state';
import {toNs} from './time';
export const DEBUG_SLICE_TRACK_KIND = 'DebugSliceTrack';
type StateDraft = Draft<State>;
export interface AddTrackArgs {
id?: string;
engineId: string;
kind: string;
name: string;
labels?: string[];
trackSortKey: TrackSortKey;
trackGroup?: string;
config: {};
}
export interface PostedTrace {
buffer: ArrayBuffer;
title: string;
fileName?: string;
url?: string;
uuid?: string;
localOnly?: boolean;
keepApiOpen?: boolean;
}
export interface PostedScrollToRange {
timeStart: number;
timeEnd: number;
viewPercentage?: number;
}
function clearTraceState(state: StateDraft) {
const nextId = state.nextId;
const recordConfig = state.recordConfig;
const recordingTarget = state.recordingTarget;
const fetchChromeCategories = state.fetchChromeCategories;
const extensionInstalled = state.extensionInstalled;
const availableAdbDevices = state.availableAdbDevices;
const chromeCategories = state.chromeCategories;
const newEngineMode = state.newEngineMode;
Object.assign(state, createEmptyState());
state.nextId = nextId;
state.recordConfig = recordConfig;
state.recordingTarget = recordingTarget;
state.fetchChromeCategories = fetchChromeCategories;
state.extensionInstalled = extensionInstalled;
state.availableAdbDevices = availableAdbDevices;
state.chromeCategories = chromeCategories;
state.newEngineMode = newEngineMode;
}
function generateNextId(draft: StateDraft): string {
const nextId = String(Number(draft.nextId) + 1);
draft.nextId = nextId;
return nextId;
}
// A helper to clean the state for a given removeable track.
// This is not exported as action to make it clear that not all
// tracks are removeable.
function removeTrack(state: StateDraft, trackId: string) {
const track = state.tracks[trackId];
delete state.tracks[trackId];
const removeTrackId = (arr: string[]) => {
const index = arr.indexOf(trackId);
if (index !== -1) arr.splice(index, 1);
};
if (track.trackGroup === SCROLLING_TRACK_GROUP) {
removeTrackId(state.scrollingTracks);
} else if (track.trackGroup !== undefined) {
removeTrackId(state.trackGroups[track.trackGroup].tracks);
}
state.pinnedTracks = state.pinnedTracks.filter((id) => id !== trackId);
}
let statusTraceEvent: TraceEventScope|undefined;
export const StateActions = {
openTraceFromFile(state: StateDraft, args: {file: File}): void {
clearTraceState(state);
const id = generateNextId(state);
state.engine = {
id,
ready: false,
source: {type: 'FILE', file: args.file},
};
},
openTraceFromBuffer(state: StateDraft, args: PostedTrace): void {
clearTraceState(state);
const id = generateNextId(state);
state.engine = {
id,
ready: false,
source: {type: 'ARRAY_BUFFER', ...args},
};
},
openTraceFromUrl(state: StateDraft, args: {url: string}): void {
clearTraceState(state);
const id = generateNextId(state);
state.engine = {
id,
ready: false,
source: {type: 'URL', url: args.url},
};
},
openTraceFromHttpRpc(state: StateDraft, _args: {}): void {
clearTraceState(state);
const id = generateNextId(state);
state.engine = {
id,
ready: false,
source: {type: 'HTTP_RPC'},
};
},
setTraceUuid(state: StateDraft, args: {traceUuid: string}) {
state.traceUuid = args.traceUuid;
},
fillUiTrackIdByTraceTrackId(
state: StateDraft, trackState: TrackState, uiTrackId: string) {
const namespace = (trackState.config as {namespace?: string}).namespace;
if (namespace !== undefined) return;
const setUiTrackId = (trackId: number, uiTrackId: string) => {
if (state.uiTrackIdByTraceTrackId[trackId] !== undefined &&
state.uiTrackIdByTraceTrackId[trackId] !== uiTrackId) {
throw new Error(`Trying to map track id ${trackId} to UI track ${
uiTrackId}, already mapped to ${
state.uiTrackIdByTraceTrackId[trackId]}`);
}
state.uiTrackIdByTraceTrackId[trackId] = uiTrackId;
};
const config = trackState.config as {trackId: number};
if (config.trackId !== undefined) {
setUiTrackId(config.trackId, uiTrackId);
return;
}
const multiple = trackState.config as {trackIds: number[]};
if (multiple.trackIds !== undefined) {
for (const trackId of multiple.trackIds) {
setUiTrackId(trackId, uiTrackId);
}
}
},
addTracks(state: StateDraft, args: {tracks: AddTrackArgs[]}) {
args.tracks.forEach((track) => {
const id = track.id === undefined ? generateNextId(state) : track.id;
track.id = id;
state.tracks[id] = track as TrackState;
this.fillUiTrackIdByTraceTrackId(state, track as TrackState, id);
if (track.trackGroup === SCROLLING_TRACK_GROUP) {
state.scrollingTracks.push(id);
} else if (track.trackGroup !== undefined) {
assertExists(state.trackGroups[track.trackGroup]).tracks.push(id);
}
});
},
setUtidToTrackSortKey(
state: StateDraft, args: {threadOrderingMetadata: UtidToTrackSortKey}) {
state.utidToThreadSortKey = args.threadOrderingMetadata;
},
addTrack(state: StateDraft, args: {
id?: string; engineId: string; kind: string; name: string;
trackGroup?: string; config: {}; trackSortKey: TrackSortKey;
}): void {
const id = args.id !== undefined ? args.id : generateNextId(state);
state.tracks[id] = {
id,
engineId: args.engineId,
kind: args.kind,
name: args.name,
trackSortKey: args.trackSortKey,
trackGroup: args.trackGroup,
config: args.config,
};
this.fillUiTrackIdByTraceTrackId(state, state.tracks[id], id);
if (args.trackGroup === SCROLLING_TRACK_GROUP) {
state.scrollingTracks.push(id);
} else if (args.trackGroup !== undefined) {
assertExists(state.trackGroups[args.trackGroup]).tracks.push(id);
}
},
addTrackGroup(
state: StateDraft,
// Define ID in action so a track group can be referred to without running
// the reducer.
args: {
engineId: string; name: string; id: string; summaryTrackId: string;
collapsed: boolean;
}): void {
state.trackGroups[args.id] = {
engineId: args.engineId,
name: args.name,
id: args.id,
collapsed: args.collapsed,
tracks: [args.summaryTrackId],
};
},
addDebugTrack(
state: StateDraft,
args: {engineId: string, name: string, config: DebugTrackV2Config}):
void {
if (state.debugTrackId !== undefined) return;
const trackId = generateNextId(state);
this.addTrack(state, {
id: trackId,
engineId: args.engineId,
kind: DEBUG_SLICE_TRACK_KIND,
name: args.name,
trackSortKey: PrimaryTrackSortKey.DEBUG_SLICE_TRACK,
trackGroup: SCROLLING_TRACK_GROUP,
config: args.config,
});
this.toggleTrackPinned(state, {trackId});
},
removeDebugTrack(state: StateDraft, args: {trackId: string}): void {
const track = state.tracks[args.trackId];
assertTrue(track.kind === DEBUG_SLICE_TRACK_KIND);
removeTrack(state, args.trackId);
},
removeVisualisedArgTracks(state: StateDraft, args: {trackIds: string[]}) {
for (const trackId of args.trackIds) {
const track = state.tracks[trackId];
const namespace = (track.config as {namespace?: string}).namespace;
if (namespace === undefined) {
throw new Error(
'All visualised arg tracks should have non-empty namespace');
}
removeTrack(state, trackId);
}
},
maybeExpandOnlyTrackGroup(state: StateDraft, _: {}): void {
const trackGroups = Object.values(state.trackGroups);
if (trackGroups.length === 1) {
trackGroups[0].collapsed = false;
}
},
sortThreadTracks(state: StateDraft, _: {}) {
const getFullKey = (a: string) => {
const track = state.tracks[a];
const threadTrackSortKey = track.trackSortKey as ThreadTrackSortKey;
if (threadTrackSortKey.utid === undefined) {
const sortKey = track.trackSortKey as PrimaryTrackSortKey;
return [
sortKey,
0,
0,
0,
];
}
const threadSortKey = state.utidToThreadSortKey[threadTrackSortKey.utid];
return [
threadSortKey ? threadSortKey.sortKey :
PrimaryTrackSortKey.ORDINARY_THREAD,
threadSortKey && threadSortKey.tid !== undefined ? threadSortKey.tid :
Number.MAX_VALUE,
threadTrackSortKey.utid,
threadTrackSortKey.priority,
];
};
// Use a numeric collator so threads are sorted as T1, T2, ..., T10, T11,
// rather than T1, T10, T11, ..., T2, T20, T21 .
const coll = new Intl.Collator([], {sensitivity: 'base', numeric: true});
for (const group of Object.values(state.trackGroups)) {
group.tracks.sort((a: string, b: string) => {
const aRank = getFullKey(a);
const bRank = getFullKey(b);
for (let i = 0; i < aRank.length; i++) {
if (aRank[i] !== bRank[i]) return aRank[i] - bRank[i];
}
const aName = state.tracks[a].name.toLocaleLowerCase();
const bName = state.tracks[b].name.toLocaleLowerCase();
return coll.compare(aName, bName);
});
}
},
updateAggregateSorting(
state: StateDraft, args: {id: string, column: string}) {
let prefs = state.aggregatePreferences[args.id];
if (!prefs) {
prefs = {id: args.id};
state.aggregatePreferences[args.id] = prefs;
}
if (!prefs.sorting || prefs.sorting.column !== args.column) {
// No sorting set for current column.
state.aggregatePreferences[args.id].sorting = {
column: args.column,
direction: 'DESC',
};
} else if (prefs.sorting.direction === 'DESC') {
// Toggle the direction if the column is currently sorted.
state.aggregatePreferences[args.id].sorting = {
column: args.column,
direction: 'ASC',
};
} else {
// If direction is currently 'ASC' toggle to no sorting.
state.aggregatePreferences[args.id].sorting = undefined;
}
},
setVisibleTracks(state: StateDraft, args: {tracks: string[]}) {
state.visibleTracks = args.tracks;
},
updateTrackConfig(state: StateDraft, args: {id: string, config: {}}) {
if (state.tracks[args.id] === undefined) return;
state.tracks[args.id].config = args.config;
},
moveTrack(
state: StateDraft,
args: {srcId: string; op: 'before' | 'after', dstId: string}): void {
const moveWithinTrackList = (trackList: string[]) => {
const newList: string[] = [];
for (let i = 0; i < trackList.length; i++) {
const curTrackId = trackList[i];
if (curTrackId === args.dstId && args.op === 'before') {
newList.push(args.srcId);
}
if (curTrackId !== args.srcId) {
newList.push(curTrackId);
}
if (curTrackId === args.dstId && args.op === 'after') {
newList.push(args.srcId);
}
}
trackList.splice(0);
newList.forEach((x) => {
trackList.push(x);
});
};
moveWithinTrackList(state.pinnedTracks);
moveWithinTrackList(state.scrollingTracks);
},
toggleTrackPinned(state: StateDraft, args: {trackId: string}): void {
const id = args.trackId;
const isPinned = state.pinnedTracks.includes(id);
const trackGroup = assertExists(state.tracks[id]).trackGroup;
if (isPinned) {
state.pinnedTracks.splice(state.pinnedTracks.indexOf(id), 1);
if (trackGroup === SCROLLING_TRACK_GROUP) {
state.scrollingTracks.unshift(id);
}
} else {
if (trackGroup === SCROLLING_TRACK_GROUP) {
state.scrollingTracks.splice(state.scrollingTracks.indexOf(id), 1);
}
state.pinnedTracks.push(id);
}
},
toggleTrackGroupCollapsed(state: StateDraft, args: {trackGroupId: string}):
void {
const id = args.trackGroupId;
const trackGroup = assertExists(state.trackGroups[id]);
trackGroup.collapsed = !trackGroup.collapsed;
},
requestTrackReload(state: StateDraft, _: {}) {
if (state.lastTrackReloadRequest) {
state.lastTrackReloadRequest++;
} else {
state.lastTrackReloadRequest = 1;
}
},
// TODO(hjd): engine.ready should be a published thing. If it's part
// of the state it interacts badly with permalinks.
setEngineReady(
state: StateDraft,
args: {engineId: string; ready: boolean, mode: EngineMode}): void {
const engine = state.engine;
if (engine === undefined || engine.id !== args.engineId) {
return;
}
engine.ready = args.ready;
engine.mode = args.mode;
},
setNewEngineMode(state: StateDraft, args: {mode: NewEngineMode}): void {
state.newEngineMode = args.mode;
},
// Marks all engines matching the given |mode| as failed.
setEngineFailed(state: StateDraft, args: {mode: EngineMode; failure: string}):
void {
if (state.engine !== undefined && state.engine.mode === args.mode) {
state.engine.failed = args.failure;
}
},
createPermalink(state: StateDraft, args: {isRecordingConfig: boolean}): void {
state.permalink = {
requestId: generateNextId(state),
hash: undefined,
isRecordingConfig: args.isRecordingConfig,
};
},
setPermalink(state: StateDraft, args: {requestId: string; hash: string}):
void {
// Drop any links for old requests.
if (state.permalink.requestId !== args.requestId) return;
state.permalink = args;
},
loadPermalink(state: StateDraft, args: {hash: string}): void {
state.permalink = {requestId: generateNextId(state), hash: args.hash};
},
clearPermalink(state: StateDraft, _: {}): void {
state.permalink = {};
},
setTraceTime(state: StateDraft, args: TraceTime): void {
state.traceTime = args;
},
updateStatus(state: StateDraft, args: Status): void {
if (statusTraceEvent) {
traceEventEnd(statusTraceEvent);
}
statusTraceEvent = traceEventBegin(args.msg);
state.status = args;
},
// TODO(hjd): Remove setState - it causes problems due to reuse of ids.
setState(state: StateDraft, args: {newState: State}): void {
for (const key of Object.keys(state)) {
delete (state as any)[key];
}
for (const key of Object.keys(args.newState)) {
(state as any)[key] = (args.newState as any)[key];
}
// If we're loading from a permalink then none of the engines can
// possibly be ready:
if (state.engine !== undefined) {
state.engine.ready = false;
}
},
setRecordConfig(
state: StateDraft,
args: {config: RecordConfig, configType?: LoadedConfig}): void {
state.recordConfig = args.config;
state.lastLoadedConfig = args.configType || {type: 'NONE'};
},
selectNote(state: StateDraft, args: {id: string}): void {
if (args.id) {
state.currentSelection = {
kind: 'NOTE',
id: args.id,
};
}
},
addAutomaticNote(
state: StateDraft,
args: {timestamp: number, color: string, text: string}): void {
const id = generateNextId(state);
state.notes[id] = {
noteType: 'DEFAULT',
id,
timestamp: args.timestamp,
color: args.color,
text: args.text,
};
},
addNote(state: StateDraft, args: {timestamp: number, color: string}): void {
const id = generateNextId(state);
state.notes[id] = {
noteType: 'DEFAULT',
id,
timestamp: args.timestamp,
color: args.color,
text: '',
};
this.selectNote(state, {id});
},
markCurrentArea(
state: StateDraft, args: {color: string, persistent: boolean}):
void {
if (state.currentSelection === null ||
state.currentSelection.kind !== 'AREA') {
return;
}
const id = args.persistent ? generateNextId(state) : '0';
const color = args.persistent ? args.color : '#344596';
state.notes[id] = {
noteType: 'AREA',
id,
areaId: state.currentSelection.areaId,
color,
text: '',
};
state.currentSelection.noteId = id;
},
toggleMarkCurrentArea(state: StateDraft, args: {persistent: boolean}) {
const selection = state.currentSelection;
if (selection != null && selection.kind === 'AREA' &&
selection.noteId !== undefined) {
this.removeNote(state, {id: selection.noteId});
} else {
const color = randomColor();
this.markCurrentArea(state, {color, persistent: args.persistent});
}
},
markArea(state: StateDraft, args: {area: Area, persistent: boolean}): void {
const areaId = generateNextId(state);
assertTrue(args.area.endSec >= args.area.startSec);
state.areas[areaId] = {
id: areaId,
startSec: args.area.startSec,
endSec: args.area.endSec,
tracks: args.area.tracks,
};
const noteId = args.persistent ? generateNextId(state) : '0';
const color = args.persistent ? randomColor() : '#344596';
state.notes[noteId] = {
noteType: 'AREA',
id: noteId,
areaId,
color,
text: '',
};
},
changeNoteColor(state: StateDraft, args: {id: string, newColor: string}):
void {
const note = state.notes[args.id];
if (note === undefined) return;
note.color = args.newColor;
},
changeNoteText(state: StateDraft, args: {id: string, newText: string}): void {
const note = state.notes[args.id];
if (note === undefined) return;
note.text = args.newText;
},
removeNote(state: StateDraft, args: {id: string}): void {
if (state.notes[args.id] === undefined) return;
delete state.notes[args.id];
// For regular notes, we clear the current selection but for an area note
// we only want to clear the note/marking and leave the area selected.
if (state.currentSelection === null) return;
if (state.currentSelection.kind === 'NOTE' &&
state.currentSelection.id === args.id) {
state.currentSelection = null;
} else if (
state.currentSelection.kind === 'AREA' &&
state.currentSelection.noteId === args.id) {
state.currentSelection.noteId = undefined;
}
},
selectSlice(
state: StateDraft,
args: {id: number, trackId: string, scroll?: boolean}): void {
state.currentSelection = {
kind: 'SLICE',
id: args.id,
trackId: args.trackId,
};
state.pendingScrollId = args.scroll ? args.id : undefined;
},
selectCounter(
state: StateDraft,
args: {leftTs: number, rightTs: number, id: number, trackId: string}):
void {
state.currentSelection = {
kind: 'COUNTER',
leftTs: args.leftTs,
rightTs: args.rightTs,
id: args.id,
trackId: args.trackId,
};
},
selectHeapProfile(
state: StateDraft,
args: {id: number, upid: number, ts: number, type: ProfileType}): void {
state.currentSelection = {
kind: 'HEAP_PROFILE',
id: args.id,
upid: args.upid,
ts: args.ts,
type: args.type,
};
this.openFlamegraph(state, {
type: args.type,
startNs: toNs(state.traceTime.startSec),
endNs: args.ts,
upids: [args.upid],
viewingOption: DEFAULT_VIEWING_OPTION,
});
},
selectPerfSamples(state: StateDraft, args: {
id: number,
upid: number,
leftTs: number,
rightTs: number,
type: ProfileType
}): void {
state.currentSelection = {
kind: 'PERF_SAMPLES',
id: args.id,
upid: args.upid,
leftTs: args.leftTs,
rightTs: args.rightTs,
type: args.type,
};
this.openFlamegraph(state, {
type: args.type,
startNs: args.leftTs,
endNs: args.rightTs,
upids: [args.upid],
viewingOption: PERF_SAMPLES_KEY,
});
},
openFlamegraph(state: StateDraft, args: {
upids: number[],
startNs: number,
endNs: number,
type: ProfileType,
viewingOption: FlamegraphStateViewingOption
}): void {
state.currentFlamegraphState = {
kind: 'FLAMEGRAPH_STATE',
upids: args.upids,
startNs: args.startNs,
endNs: args.endNs,
type: args.type,
viewingOption: args.viewingOption,
focusRegex: '',
};
},
selectCpuProfileSample(
state: StateDraft, args: {id: number, utid: number, ts: number}): void {
state.currentSelection = {
kind: 'CPU_PROFILE_SAMPLE',
id: args.id,
utid: args.utid,
ts: args.ts,
};
},
expandFlamegraphState(
state: StateDraft, args: {expandedCallsite?: CallsiteInfo}): void {
if (state.currentFlamegraphState === null) return;
state.currentFlamegraphState.expandedCallsite = args.expandedCallsite;
},
changeViewFlamegraphState(
state: StateDraft, args: {viewingOption: FlamegraphStateViewingOption}):
void {
if (state.currentFlamegraphState === null) return;
state.currentFlamegraphState.viewingOption = args.viewingOption;
},
changeFocusFlamegraphState(state: StateDraft, args: {focusRegex: string}):
void {
if (state.currentFlamegraphState === null) return;
state.currentFlamegraphState.focusRegex = args.focusRegex;
},
selectChromeSlice(
state: StateDraft,
args: {id: number, trackId: string, table: string, scroll?: boolean}):
void {
state.currentSelection = {
kind: 'CHROME_SLICE',
id: args.id,
trackId: args.trackId,
table: args.table,
};
state.pendingScrollId = args.scroll ? args.id : undefined;
},
selectDebugSlice(state: StateDraft, args: {
id: number,
sqlTableName: string,
startS: number,
durationS: number,
trackId: string,
}): void {
state.currentSelection = {
kind: 'DEBUG_SLICE',
id: args.id,
sqlTableName: args.sqlTableName,
startS: args.startS,
durationS: args.durationS,
trackId: args.trackId,
};
},
clearPendingScrollId(state: StateDraft, _: {}): void {
state.pendingScrollId = undefined;
},
selectThreadState(state: StateDraft, args: {id: number, trackId: string}):
void {
state.currentSelection = {
kind: 'THREAD_STATE',
id: args.id,
trackId: args.trackId,
};
},
selectLog(
state: StateDraft, args: {id: number, trackId: string, scroll?: boolean}):
void {
state.currentSelection = {
kind: 'LOG',
id: args.id,
trackId: args.trackId,
};
state.pendingScrollId = args.scroll ? args.id : undefined;
},
deselect(state: StateDraft, _: {}): void {
state.currentSelection = null;
},
updateLogsPagination(state: StateDraft, args: Pagination): void {
state.logsPagination = args;
},
updateFtracePagination(state: StateDraft, args: Pagination): void {
state.ftracePagination = args;
},
updateFtraceFilter(state: StateDraft, patch: FtraceFilterPatch) {
const {excludedNames: diffs} = patch;
const excludedNames = state.ftraceFilter.excludedNames;
for (const [addRemove, name] of diffs) {
switch (addRemove) {
case 'add':
if (!excludedNames.some((excluded: string) => excluded === name)) {
excludedNames.push(name);
}
break;
case 'remove':
state.ftraceFilter.excludedNames =
state.ftraceFilter.excludedNames.filter(
(excluded: string) => excluded !== name);
break;
default:
assertUnreachable(addRemove);
break;
}
}
},
startRecording(state: StateDraft, _: {}): void {
state.recordingInProgress = true;
state.lastRecordingError = undefined;
state.recordingCancelled = false;
},
stopRecording(state: StateDraft, _: {}): void {
state.recordingInProgress = false;
},
cancelRecording(state: StateDraft, _: {}): void {
state.recordingInProgress = false;
state.recordingCancelled = true;
},
setExtensionAvailable(state: StateDraft, args: {available: boolean}): void {
state.extensionInstalled = args.available;
},
setRecordingTarget(state: StateDraft, args: {target: RecordingTarget}): void {
state.recordingTarget = args.target;
},
setFetchChromeCategories(state: StateDraft, args: {fetch: boolean}): void {
state.fetchChromeCategories = args.fetch;
},
setAvailableAdbDevices(
state: StateDraft, args: {devices: AdbRecordingTarget[]}): void {
state.availableAdbDevices = args.devices;
},
setOmnibox(state: StateDraft, args: OmniboxState): void {
state.omniboxState = args;
},
selectArea(state: StateDraft, args: {area: Area}): void {
const areaId = generateNextId(state);
assertTrue(args.area.endSec >= args.area.startSec);
state.areas[areaId] = {
id: areaId,
startSec: args.area.startSec,
endSec: args.area.endSec,
tracks: args.area.tracks,
};
state.currentSelection = {kind: 'AREA', areaId};
},
editArea(state: StateDraft, args: {area: Area, areaId: string}): void {
assertTrue(args.area.endSec >= args.area.startSec);
state.areas[args.areaId] = {
id: args.areaId,
startSec: args.area.startSec,
endSec: args.area.endSec,
tracks: args.area.tracks,
};
},
reSelectArea(state: StateDraft, args: {areaId: string, noteId: string}):
void {
state.currentSelection = {
kind: 'AREA',
areaId: args.areaId,
noteId: args.noteId,
};
},
toggleTrackSelection(
state: StateDraft, args: {id: string, isTrackGroup: boolean}) {
const selection = state.currentSelection;
if (selection === null || selection.kind !== 'AREA') return;
const areaId = selection.areaId;
const index = state.areas[areaId].tracks.indexOf(args.id);
if (index > -1) {
state.areas[areaId].tracks.splice(index, 1);
if (args.isTrackGroup) { // Also remove all child tracks.
for (const childTrack of state.trackGroups[args.id].tracks) {
const childIndex = state.areas[areaId].tracks.indexOf(childTrack);
if (childIndex > -1) {
state.areas[areaId].tracks.splice(childIndex, 1);
}
}
}
} else {
state.areas[areaId].tracks.push(args.id);
if (args.isTrackGroup) { // Also add all child tracks.
for (const childTrack of state.trackGroups[args.id].tracks) {
if (!state.areas[areaId].tracks.includes(childTrack)) {
state.areas[areaId].tracks.push(childTrack);
}
}
}
}
// It's super unexpected that |toggleTrackSelection| does not cause
// selection to be updated and this leads to bugs for people who do:
// if (oldSelection !== state.selection) etc.
// To solve this re-create the selection object here:
state.currentSelection = Object.assign({}, state.currentSelection);
},
setVisibleTraceTime(state: StateDraft, args: VisibleState): void {
state.frontendLocalState.visibleState = {...args};
},
setChromeCategories(state: StateDraft, args: {categories: string[]}): void {
state.chromeCategories = args.categories;
},
setLastRecordingError(state: StateDraft, args: {error?: string}): void {
state.lastRecordingError = args.error;
state.recordingStatus = undefined;
},
setRecordingStatus(state: StateDraft, args: {status?: string}): void {
state.recordingStatus = args.status;
state.lastRecordingError = undefined;
},
requestSelectedMetric(state: StateDraft, _: {}): void {
if (!state.metrics.availableMetrics) throw Error('No metrics available');
if (state.metrics.selectedIndex === undefined) {
throw Error('No metric selected');
}
state.metrics.requestedMetric =
state.metrics.availableMetrics[state.metrics.selectedIndex];
},
resetMetricRequest(state: StateDraft, args: {name: string}): void {
if (state.metrics.requestedMetric !== args.name) return;
state.metrics.requestedMetric = undefined;
},
setAvailableMetrics(state: StateDraft, args: {availableMetrics: string[]}):
void {
state.metrics.availableMetrics = args.availableMetrics;
if (args.availableMetrics.length > 0) state.metrics.selectedIndex = 0;
},
setMetricSelectedIndex(state: StateDraft, args: {index: number}): void {
if (!state.metrics.availableMetrics ||
args.index >= state.metrics.availableMetrics.length) {
throw Error('metric selection out of bounds');
}
state.metrics.selectedIndex = args.index;
},
togglePerfDebug(state: StateDraft, _: {}): void {
state.perfDebug = !state.perfDebug;
},
toggleSidebar(state: StateDraft, _: {}): void {
state.sidebarVisible = !state.sidebarVisible;
},
setHoveredUtidAndPid(state: StateDraft, args: {utid: number, pid: number}) {
state.hoveredPid = args.pid;
state.hoveredUtid = args.utid;
},
setHighlightedSliceId(state: StateDraft, args: {sliceId: number}) {
state.highlightedSliceId = args.sliceId;
},
setHighlightedFlowLeftId(state: StateDraft, args: {flowId: number}) {
state.focusedFlowIdLeft = args.flowId;
},
setHighlightedFlowRightId(state: StateDraft, args: {flowId: number}) {
state.focusedFlowIdRight = args.flowId;
},
setSearchIndex(state: StateDraft, args: {index: number}) {
state.searchIndex = args.index;
},
setHoverCursorTimestamp(state: StateDraft, args: {ts: number}) {
state.hoverCursorTimestamp = args.ts;
},
setHoveredNoteTimestamp(state: StateDraft, args: {ts: number}) {
state.hoveredNoteTimestamp = args.ts;
},
setCurrentTab(state: StateDraft, args: {tab: string|undefined}) {
state.currentTab = args.tab;
},
toggleAllTrackGroups(state: StateDraft, args: {collapsed: boolean}) {
for (const group of Object.values(state.trackGroups)) {
group.collapsed = args.collapsed;
}
},
clearAllPinnedTracks(state: StateDraft, _: {}) {
if (state.pinnedTracks.length > 0) {
// Clear pinnedTracks array
state.pinnedTracks.length = 0;
}
},
togglePivotTable(state: StateDraft, args: {areaId: string|null}) {
state.nonSerializableState.pivotTable.selectionArea = args.areaId === null ?
undefined :
{areaId: args.areaId, tracks: globals.state.areas[args.areaId].tracks};
if (args.areaId !==
state.nonSerializableState.pivotTable.selectionArea?.areaId) {
state.nonSerializableState.pivotTable.queryResult = null;
}
},
setPivotStateQueryResult(
state: StateDraft, args: {queryResult: PivotTableResult|null}) {
state.nonSerializableState.pivotTable.queryResult = args.queryResult;
},
setPivotTableConstrainToArea(state: StateDraft, args: {constrain: boolean}) {
state.nonSerializableState.pivotTable.constrainToArea = args.constrain;
},
dismissFlamegraphModal(state: StateDraft, _: {}) {
state.flamegraphModalDismissed = true;
},
addPivotTableAggregation(
state: StateDraft, args: {aggregation: Aggregation, after: number}) {
state.nonSerializableState.pivotTable.selectedAggregations.splice(
args.after, 0, args.aggregation);
},
removePivotTableAggregation(state: StateDraft, args: {index: number}) {
state.nonSerializableState.pivotTable.selectedAggregations.splice(
args.index, 1);
},
setPivotTableQueryRequested(
state: StateDraft, args: {queryRequested: boolean}) {
state.nonSerializableState.pivotTable.queryRequested = args.queryRequested;
},
setPivotTablePivotSelected(
state: StateDraft, args: {column: TableColumn, selected: boolean}) {
toggleEnabled(
tableColumnEquals,
state.nonSerializableState.pivotTable.selectedPivots,
args.column,
args.selected);
},
setPivotTableAggregationFunction(
state: StateDraft, args: {index: number, function: AggregationFunction}) {
state.nonSerializableState.pivotTable.selectedAggregations[args.index]
.aggregationFunction = args.function;
},
setPivotTableSortColumn(
state: StateDraft,
args: {aggregationIndex: number, order: SortDirection}) {
state.nonSerializableState.pivotTable.selectedAggregations =
state.nonSerializableState.pivotTable.selectedAggregations.map(
(agg, index) => ({
column: agg.column,
aggregationFunction: agg.aggregationFunction,
sortDirection: (index === args.aggregationIndex) ? args.order :
undefined,
}));
},
addVisualisedArg(state: StateDraft, args: {argName: string}) {
if (!state.visualisedArgs.includes(args.argName)) {
state.visualisedArgs.push(args.argName);
}
},
removeVisualisedArg(state: StateDraft, args: {argName: string}) {
state.visualisedArgs =
state.visualisedArgs.filter((val) => val !== args.argName);
},
setPivotTableArgumentNames(
state: StateDraft, args: {argumentNames: string[]}) {
state.nonSerializableState.pivotTable.argumentNames = args.argumentNames;
},
changePivotTablePivotOrder(
state: StateDraft,
args: {from: number, to: number, direction: DropDirection}) {
const pivots = state.nonSerializableState.pivotTable.selectedPivots;
state.nonSerializableState.pivotTable.selectedPivots = performReordering(
computeIntervals(pivots.length, args.from, args.to, args.direction),
pivots);
},
changePivotTableAggregationOrder(
state: StateDraft,
args: {from: number, to: number, direction: DropDirection}) {
const aggregations =
state.nonSerializableState.pivotTable.selectedAggregations;
state.nonSerializableState.pivotTable.selectedAggregations =
performReordering(
computeIntervals(
aggregations.length, args.from, args.to, args.direction),
aggregations);
},
setMinimumLogLevel(state: StateDraft, args: {minimumLevel: number}) {
state.logFilteringCriteria.minimumLevel = args.minimumLevel;
},
addLogTag(state: StateDraft, args: {tag: string}) {
if (!state.logFilteringCriteria.tags.includes(args.tag)) {
state.logFilteringCriteria.tags.push(args.tag);
}
},
removeLogTag(state: StateDraft, args: {tag: string}) {
state.logFilteringCriteria.tags =
state.logFilteringCriteria.tags.filter((t) => t !== args.tag);
},
updateLogFilterText(state: StateDraft, args: {textEntry: string}) {
state.logFilteringCriteria.textEntry = args.textEntry;
},
toggleCollapseByTextEntry(state: StateDraft, _: {}) {
state.logFilteringCriteria.hideNonMatching =
!state.logFilteringCriteria.hideNonMatching;
},
};
// When we are on the frontend side, we don't really want to execute the
// actions above, we just want to serialize them and marshal their
// arguments, send them over to the controller side and have them being
// executed there. The magic below takes care of turning each action into a
// function that returns the marshaled args.
// A DeferredAction is a bundle of Args and a method name. This is the marshaled
// version of a StateActions method call.
export interface DeferredAction<Args = {}> {
type: string;
args: Args;
}
// This type magic creates a type function DeferredActions<T> which takes a type
// T and 'maps' its attributes. For each attribute on T matching the signature:
// (state: StateDraft, args: Args) => void
// DeferredActions<T> has an attribute:
// (args: Args) => DeferredAction<Args>
type ActionFunction<Args> = (state: StateDraft, args: Args) => void;
type DeferredActionFunc<T> = T extends ActionFunction<infer Args>?
(args: Args) => DeferredAction<Args>:
never;
type DeferredActions<C> = {
[P in keyof C]: DeferredActionFunc<C[P]>;
};
// Actions is an implementation of DeferredActions<typeof StateActions>.
// (since StateActions is a variable not a type we have to do
// 'typeof StateActions' to access the (unnamed) type of StateActions).
// It's a Proxy such that any attribute access returns a function:
// (args) => {return {type: ATTRIBUTE_NAME, args};}
export const Actions =
new Proxy<DeferredActions<typeof StateActions>>({} as any, {
get(_: any, prop: string, _2: any) {
return (args: {}): DeferredAction<{}> => {
return {
type: prop,
args,
};
};
},
});