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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* global ThreadSafeChromeUtils*/
// This is a worker which reads offline heap snapshots into memory and performs
// heavyweight analyses on them without blocking the main thread. A
// HeapAnalysesWorker is owned and communicated with by a HeapAnalysesClient
// instance. See HeapAnalysesClient.js.
"use strict";
importScripts("resource://gre/modules/workers/require.js");
importScripts("resource://devtools/shared/worker/helper.js");
const { censusReportToCensusTreeNode } = require("resource://devtools/shared/heapsnapshot/census-tree-node.js");
const DominatorTreeNode = require("resource://devtools/shared/heapsnapshot/DominatorTreeNode.js");
const CensusUtils = require("resource://devtools/shared/heapsnapshot/CensusUtils.js");
const DEFAULT_START_INDEX = 0;
const DEFAULT_MAX_COUNT = 50;
/**
* The set of HeapSnapshot instances this worker has read into memory. Keyed by
* snapshot file path.
*/
const snapshots = Object.create(null);
/**
* The set of `DominatorTree`s that have been computed, mapped by their id (aka
* the index into this array).
*
* @see /dom/webidl/DominatorTree.webidl
*/
const dominatorTrees = [];
/**
* The i^th HeapSnapshot in this array is the snapshot used to generate the i^th
* dominator tree in `dominatorTrees` above. This lets us map from a dominator
* tree id to the snapshot it came from.
*/
const dominatorTreeSnapshots = [];
/**
* @see HeapAnalysesClient.prototype.readHeapSnapshot
*/
workerHelper.createTask(self, "readHeapSnapshot", ({ snapshotFilePath }) => {
snapshots[snapshotFilePath] =
ThreadSafeChromeUtils.readHeapSnapshot(snapshotFilePath);
return true;
});
/**
* @see HeapAnalysesClient.prototype.deleteHeapSnapshot
*/
workerHelper.createTask(self, "deleteHeapSnapshot", ({ snapshotFilePath }) => {
let snapshot = snapshots[snapshotFilePath];
if (!snapshot) {
throw new Error(`No known heap snapshot for '${snapshotFilePath}'`);
}
snapshots[snapshotFilePath] = undefined;
let dominatorTreeId = dominatorTreeSnapshots.indexOf(snapshot);
if (dominatorTreeId != -1) {
dominatorTreeSnapshots[dominatorTreeId] = undefined;
dominatorTrees[dominatorTreeId] = undefined;
}
});
/**
* @see HeapAnalysesClient.prototype.takeCensus
*/
workerHelper.createTask(self, "takeCensus", ({ snapshotFilePath, censusOptions, requestOptions }) => {
if (!snapshots[snapshotFilePath]) {
throw new Error(`No known heap snapshot for '${snapshotFilePath}'`);
}
let report = snapshots[snapshotFilePath].takeCensus(censusOptions);
let parentMap;
if (requestOptions.asTreeNode || requestOptions.asInvertedTreeNode) {
const opts = { filter: requestOptions.filter || null };
if (requestOptions.asInvertedTreeNode) {
opts.invert = true;
}
report = censusReportToCensusTreeNode(censusOptions.breakdown, report, opts);
parentMap = CensusUtils.createParentMap(report);
}
return { report, parentMap };
});
/**
* @see HeapAnalysesClient.prototype.getCensusIndividuals
*/
workerHelper.createTask(self, "getCensusIndividuals", request => {
const {
dominatorTreeId,
indices,
censusBreakdown,
labelBreakdown,
maxRetainingPaths,
maxIndividuals,
} = request;
const dominatorTree = dominatorTrees[dominatorTreeId];
if (!dominatorTree) {
throw new Error(
`There does not exist a DominatorTree with the id ${dominatorTreeId}`);
}
const snapshot = dominatorTreeSnapshots[dominatorTreeId];
const nodeIds = CensusUtils.getCensusIndividuals(indices, censusBreakdown, snapshot);
const nodes = nodeIds
.sort((a, b) => dominatorTree.getRetainedSize(b) - dominatorTree.getRetainedSize(a))
.slice(0, maxIndividuals)
.map(id => {
const { label, shallowSize } =
DominatorTreeNode.getLabelAndShallowSize(id, snapshot, labelBreakdown);
const retainedSize = dominatorTree.getRetainedSize(id);
const node = new DominatorTreeNode(id, label, shallowSize, retainedSize);
node.moreChildrenAvailable = false;
return node;
});
DominatorTreeNode.attachShortestPaths(snapshot,
labelBreakdown,
dominatorTree.root,
nodes,
maxRetainingPaths);
return { nodes };
});
/**
* @see HeapAnalysesClient.prototype.takeCensusDiff
*/
workerHelper.createTask(self, "takeCensusDiff", request => {
const {
firstSnapshotFilePath,
secondSnapshotFilePath,
censusOptions,
requestOptions
} = request;
if (!snapshots[firstSnapshotFilePath]) {
throw new Error(`No known heap snapshot for '${firstSnapshotFilePath}'`);
}
if (!snapshots[secondSnapshotFilePath]) {
throw new Error(`No known heap snapshot for '${secondSnapshotFilePath}'`);
}
const first = snapshots[firstSnapshotFilePath].takeCensus(censusOptions);
const second = snapshots[secondSnapshotFilePath].takeCensus(censusOptions);
let delta = CensusUtils.diff(censusOptions.breakdown, first, second);
let parentMap;
if (requestOptions.asTreeNode || requestOptions.asInvertedTreeNode) {
const opts = { filter: requestOptions.filter || null };
if (requestOptions.asInvertedTreeNode) {
opts.invert = true;
}
delta = censusReportToCensusTreeNode(censusOptions.breakdown, delta, opts);
parentMap = CensusUtils.createParentMap(delta);
}
return { delta, parentMap };
});
/**
* @see HeapAnalysesClient.prototype.getCreationTime
*/
workerHelper.createTask(self, "getCreationTime", snapshotFilePath => {
if (!snapshots[snapshotFilePath]) {
throw new Error(`No known heap snapshot for '${snapshotFilePath}'`);
}
return snapshots[snapshotFilePath].creationTime;
});
/**
* @see HeapAnalysesClient.prototype.computeDominatorTree
*/
workerHelper.createTask(self, "computeDominatorTree", snapshotFilePath => {
const snapshot = snapshots[snapshotFilePath];
if (!snapshot) {
throw new Error(`No known heap snapshot for '${snapshotFilePath}'`);
}
const id = dominatorTrees.length;
dominatorTrees.push(snapshot.computeDominatorTree());
dominatorTreeSnapshots.push(snapshot);
return id;
});
/**
* @see HeapAnalysesClient.prototype.getDominatorTree
*/
workerHelper.createTask(self, "getDominatorTree", request => {
const {
dominatorTreeId,
breakdown,
maxDepth,
maxSiblings,
maxRetainingPaths,
} = request;
if (!(0 <= dominatorTreeId && dominatorTreeId < dominatorTrees.length)) {
throw new Error(
`There does not exist a DominatorTree with the id ${dominatorTreeId}`);
}
const dominatorTree = dominatorTrees[dominatorTreeId];
const snapshot = dominatorTreeSnapshots[dominatorTreeId];
const tree = DominatorTreeNode.partialTraversal(dominatorTree,
snapshot,
breakdown,
maxDepth,
maxSiblings);
const nodes = [];
(function getNodes(node) {
nodes.push(node);
if (node.children) {
for (let i = 0, length = node.children.length; i < length; i++) {
getNodes(node.children[i]);
}
}
}(tree));
DominatorTreeNode.attachShortestPaths(snapshot,
breakdown,
dominatorTree.root,
nodes,
maxRetainingPaths);
return tree;
});
/**
* @see HeapAnalysesClient.prototype.getImmediatelyDominated
*/
workerHelper.createTask(self, "getImmediatelyDominated", request => {
const {
dominatorTreeId,
nodeId,
breakdown,
startIndex,
maxCount,
maxRetainingPaths,
} = request;
if (!(0 <= dominatorTreeId && dominatorTreeId < dominatorTrees.length)) {
throw new Error(
`There does not exist a DominatorTree with the id ${dominatorTreeId}`);
}
const dominatorTree = dominatorTrees[dominatorTreeId];
const snapshot = dominatorTreeSnapshots[dominatorTreeId];
const childIds = dominatorTree.getImmediatelyDominated(nodeId);
if (!childIds) {
throw new Error(`${nodeId} is not a node id in the dominator tree`);
}
const start = startIndex || DEFAULT_START_INDEX;
const count = maxCount || DEFAULT_MAX_COUNT;
const end = start + count;
const nodes = childIds
.slice(start, end)
.map(id => {
const { label, shallowSize } =
DominatorTreeNode.getLabelAndShallowSize(id, snapshot, breakdown);
const retainedSize = dominatorTree.getRetainedSize(id);
const node = new DominatorTreeNode(id, label, shallowSize, retainedSize);
node.parentId = nodeId;
// DominatorTree.getImmediatelyDominated will always return non-null here
// because we got the id directly from the dominator tree.
node.moreChildrenAvailable = dominatorTree.getImmediatelyDominated(id).length > 0;
return node;
});
const path = [];
let id = nodeId;
do {
path.push(id);
id = dominatorTree.getImmediateDominator(id);
} while (id !== null);
path.reverse();
const moreChildrenAvailable = childIds.length > end;
DominatorTreeNode.attachShortestPaths(snapshot,
breakdown,
dominatorTree.root,
nodes,
maxRetainingPaths);
return { nodes, moreChildrenAvailable, path };
});
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