gecko-dev/devtools/shared/heapsnapshot/HeapAnalysesClient.js

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JavaScript

/* 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/. */
"use strict";
const DevToolsUtils = require("devtools/shared/DevToolsUtils");
const { DevToolsWorker } = require("devtools/shared/worker/worker");
const WORKER_URL =
"resource://devtools/shared/heapsnapshot/HeapAnalysesWorker.js";
var workerCounter = 0;
/**
* A HeapAnalysesClient instance provides a developer-friendly interface for
* interacting with a HeapAnalysesWorker. This enables users to be ignorant of
* the message passing protocol used to communicate with the worker. The
* HeapAnalysesClient owns the worker, and terminating the worker is done by
* terminating the client (see the `destroy` method).
*/
const HeapAnalysesClient = (module.exports = function() {
this._worker = new DevToolsWorker(WORKER_URL, {
name: `HeapAnalyses-${workerCounter++}`,
verbose: DevToolsUtils.dumpv.wantVerbose,
});
});
/**
* Destroy the worker, causing it to release its resources (such as heap
* snapshots it has deserialized and read into memory). The client is no longer
* usable after calling this method.
*/
HeapAnalysesClient.prototype.destroy = function() {
this._worker.destroy();
this._worker = null;
};
/**
* Tell the worker to read into memory the heap snapshot at the given file
* path. This is a prerequisite for asking the worker to perform various
* analyses on a heap snapshot.
*
* @param {String} snapshotFilePath
*
* @returns Promise
* The promise is fulfilled if the heap snapshot is successfully
* deserialized and read into memory. The promise is rejected if that
* does not happen, eg due to a bad file path or malformed heap
* snapshot file.
*/
HeapAnalysesClient.prototype.readHeapSnapshot = function(snapshotFilePath) {
return this._worker.performTask("readHeapSnapshot", { snapshotFilePath });
};
/**
* Tell the worker to delete all references to the snapshot and dominator trees
* linked to the provided snapshot file path.
*
* @param {String} snapshotFilePath
* @return Promise<undefined>
*/
HeapAnalysesClient.prototype.deleteHeapSnapshot = function(snapshotFilePath) {
return this._worker.performTask("deleteHeapSnapshot", { snapshotFilePath });
};
/**
* Request the creation time given a snapshot file path. Returns `null`
* if snapshot does not exist.
*
* @param {String} snapshotFilePath
* The path to the snapshot.
* @return {Number?}
* The unix timestamp of the creation time of the snapshot, or null if
* snapshot does not exist.
*/
HeapAnalysesClient.prototype.getCreationTime = function(snapshotFilePath) {
return this._worker.performTask("getCreationTime", snapshotFilePath);
};
/** * Censuses *****************************************************************/
/**
* Ask the worker to perform a census analysis on the heap snapshot with the
* given path. The heap snapshot at the given path must have already been read
* into memory by the worker (see `readHeapSnapshot`).
*
* @param {String} snapshotFilePath
*
* @param {Object} censusOptions
* A structured-cloneable object specifying the requested census's
* breakdown. See the "takeCensus" section of
* `js/src/doc/Debugger/Debugger.Memory.md` for detailed documentation.
*
* @param {Object} requestOptions
* An object specifying options of this worker request.
* - {Boolean} asTreeNode
* Whether or not the census is returned as a CensusTreeNode,
* or just a breakdown report. Defaults to false.
* @see `devtools/shared/heapsnapshot/census-tree-node.js`
* - {Boolean} asInvertedTreeNode
* Whether or not the census is returned as an inverted
* CensusTreeNode. Defaults to false.
* - {String} filter
* A filter string to prune the resulting tree with. Only applies if
* either asTreeNode or asInvertedTreeNode is true.
*
* @returns Promise<Object>
* An object with the following properties:
* - report:
* The report generated by the given census breakdown, or a
* CensusTreeNode generated by the given census breakdown if
* `asTreeNode` is true.
* - parentMap:
* The result of calling CensusUtils.createParentMap on the generated
* report. Only exists if asTreeNode or asInvertedTreeNode are set.
*/
HeapAnalysesClient.prototype.takeCensus = function(
snapshotFilePath,
censusOptions,
requestOptions = {}
) {
return this._worker.performTask("takeCensus", {
snapshotFilePath,
censusOptions,
requestOptions,
});
};
/**
* Get the individual nodes that correspond to the given census report leaf
* indices.
*
* @param {Object} opts
* An object with the following properties:
* - {DominatorTreeId} dominatorTreeId: The id of the dominator tree.
* - {Set<Number>} indices: The indices of the census report leaves we
* would like to get the individuals for.
* - {Object} censusBreakdown: The breakdown used to generate the census.
* - {Object} labelBreakdown: The breakdown we would like to use when
* labeling the resulting nodes.
* - {Number} maxRetainingPaths: The maximum number of retaining paths to
* compute for each node.
* - {Number} maxIndividuals: The maximum number of individual nodes to
* return.
*
* @returns {Promise<Object>}
* A promise of an object with the following properties:
* - {Array<DominatorTreeNode>} nodes: An array of `DominatorTreeNode`s
* with their shortest paths attached, and without any dominator tree
* child/parent information attached. The results are sorted by
* retained size.
*
*/
HeapAnalysesClient.prototype.getCensusIndividuals = function(opts) {
return this._worker.performTask("getCensusIndividuals", opts);
};
/**
* Request that the worker take a census on the heap snapshots with the given
* paths and then return the difference between them. Both heap snapshots must
* have already been read into memory by the worker (see `readHeapSnapshot`).
*
* @param {String} firstSnapshotFilePath
* The first snapshot file path.
*
* @param {String} secondSnapshotFilePath
* The second snapshot file path.
*
* @param {Object} censusOptions
* A structured-cloneable object specifying the requested census's
* breakdown. See the "takeCensus" section of
* `js/src/doc/Debugger/Debugger.Memory.md` for detailed documentation.
*
* @param {Object} requestOptions
* An object specifying options for this request.
* - {Boolean} asTreeNode
* Whether the resulting delta report should be converted to a census
* tree node before returned. Defaults to false.
* - {Boolean} asInvertedTreeNode
* Whether or not the census is returned as an inverted
* CensusTreeNode. Defaults to false.
* - {String} filter
* A filter string to prune the resulting tree with. Only applies if
* either asTreeNode or asInvertedTreeNode is true.
*
* @returns Promise<Object>
* - delta:
* The delta report generated by diffing the two census reports, or a
* CensusTreeNode generated from the delta report if
* `requestOptions.asTreeNode` was true.
* - parentMap:
* The result of calling CensusUtils.createParentMap on the generated
* delta. Only exists if asTreeNode or asInvertedTreeNode are set.
*/
HeapAnalysesClient.prototype.takeCensusDiff = function(
firstSnapshotFilePath,
secondSnapshotFilePath,
censusOptions,
requestOptions = {}
) {
return this._worker.performTask("takeCensusDiff", {
firstSnapshotFilePath,
secondSnapshotFilePath,
censusOptions,
requestOptions,
});
};
/** * Dominator Trees **********************************************************/
/**
* Compute the dominator tree of the heap snapshot loaded from the given file
* path. Returns the id of the computed dominator tree.
*
* @param {String} snapshotFilePath
*
* @returns {Promise<DominatorTreeId>}
*/
HeapAnalysesClient.prototype.computeDominatorTree = function(snapshotFilePath) {
return this._worker.performTask("computeDominatorTree", snapshotFilePath);
};
/**
* Get the initial, partial view of the dominator tree with the given id.
*
* @param {Object} opts
* An object specifying options for this request.
* - {DominatorTreeId} dominatorTreeId
* The id of the dominator tree.
* - {Object} breakdown
* The breakdown used to generate node labels.
* - {Number} maxDepth
* The maximum depth to traverse down the tree to create this initial
* view.
* - {Number} maxSiblings
* The maximum number of siblings to visit within each traversed node's
* children.
* - {Number} maxRetainingPaths
* The maximum number of retaining paths to find for each node.
*
* @returns {Promise<DominatorTreeNode>}
*/
HeapAnalysesClient.prototype.getDominatorTree = function(opts) {
return this._worker.performTask("getDominatorTree", opts);
};
/**
* Get a subset of a nodes children in the dominator tree.
*
* @param {Object} opts
* An object specifying options for this request.
* - {DominatorTreeId} dominatorTreeId
* The id of the dominator tree.
* - {NodeId} nodeId
* The id of the node whose children are being found.
* - {Object} breakdown
* The breakdown used to generate node labels.
* - {Number} startIndex
* The starting index within the full set of immediately dominated
* children of the children being requested. Children are always sorted
* by greatest to least retained size.
* - {Number} maxCount
* The maximum number of children to return.
* - {Number} maxRetainingPaths
* The maximum number of retaining paths to find for each node.
*
* @returns {Promise<Object>}
* A promise of an object with the following properties:
* - {Array<DominatorTreeNode>} nodes
* The requested nodes that are immediately dominated by the node
* identified by `opts.nodeId`.
* - {Boolean} moreChildrenAvailable
* True iff there are more children available after the returned
* nodes.
* - {Array<NodeId>} path
* The path through the tree from the root to these node's parent, eg
* [root's id, child of root's id, child of child of root's id, ..., `nodeId`].
*/
HeapAnalysesClient.prototype.getImmediatelyDominated = function(opts) {
return this._worker.performTask("getImmediatelyDominated", opts);
};