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authorMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
committerMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
commit5f8de423f190bbb79a62f804151bc24824fa32d8 (patch)
tree10027f336435511475e392454359edea8e25895d /toolkit/components/aboutmemory/content/aboutMemory.js
parent49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff)
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Add m-esr52 at 52.6.0
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diff --git a/toolkit/components/aboutmemory/content/aboutMemory.js b/toolkit/components/aboutmemory/content/aboutMemory.js
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+/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*-*/
+/* vim: set ts=8 sts=2 et sw=2 tw=80: */
+/* 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/. */
+
+// You can direct about:memory to immediately load memory reports from a file
+// by providing a file= query string. For example,
+//
+// about:memory?file=/home/username/reports.json.gz
+//
+// "file=" is not case-sensitive. We'll URI-unescape the contents of the
+// "file=" argument, and obviously the filename is case-sensitive iff you're on
+// a case-sensitive filesystem. If you specify more than one "file=" argument,
+// only the first one is used.
+
+"use strict";
+
+// ---------------------------------------------------------------------------
+
+var Cc = Components.classes;
+var Ci = Components.interfaces;
+var Cu = Components.utils;
+var CC = Components.Constructor;
+
+const KIND_NONHEAP = Ci.nsIMemoryReporter.KIND_NONHEAP;
+const KIND_HEAP = Ci.nsIMemoryReporter.KIND_HEAP;
+const KIND_OTHER = Ci.nsIMemoryReporter.KIND_OTHER;
+
+const UNITS_BYTES = Ci.nsIMemoryReporter.UNITS_BYTES;
+const UNITS_COUNT = Ci.nsIMemoryReporter.UNITS_COUNT;
+const UNITS_COUNT_CUMULATIVE = Ci.nsIMemoryReporter.UNITS_COUNT_CUMULATIVE;
+const UNITS_PERCENTAGE = Ci.nsIMemoryReporter.UNITS_PERCENTAGE;
+
+Cu.import("resource://gre/modules/Services.jsm");
+Cu.import("resource://gre/modules/XPCOMUtils.jsm");
+Cu.import("resource://gre/modules/NetUtil.jsm");
+XPCOMUtils.defineLazyModuleGetter(this, "Downloads",
+ "resource://gre/modules/Downloads.jsm");
+XPCOMUtils.defineLazyModuleGetter(this, "FileUtils",
+ "resource://gre/modules/FileUtils.jsm");
+
+XPCOMUtils.defineLazyGetter(this, "nsBinaryStream",
+ () => CC("@mozilla.org/binaryinputstream;1",
+ "nsIBinaryInputStream",
+ "setInputStream"));
+XPCOMUtils.defineLazyGetter(this, "nsFile",
+ () => CC("@mozilla.org/file/local;1",
+ "nsIFile", "initWithPath"));
+XPCOMUtils.defineLazyGetter(this, "nsGzipConverter",
+ () => CC("@mozilla.org/streamconv;1?from=gzip&to=uncompressed",
+ "nsIStreamConverter"));
+
+var gMgr = Cc["@mozilla.org/memory-reporter-manager;1"]
+ .getService(Ci.nsIMemoryReporterManager);
+
+const gPageName = 'about:memory';
+document.title = gPageName;
+
+const gUnnamedProcessStr = "Main Process";
+
+var gIsDiff = false;
+
+// ---------------------------------------------------------------------------
+
+// Forward slashes in URLs in paths are represented with backslashes to avoid
+// being mistaken for path separators. Paths/names where this hasn't been
+// undone are prefixed with "unsafe"; the rest are prefixed with "safe".
+function flipBackslashes(aUnsafeStr)
+{
+ // Save memory by only doing the replacement if it's necessary.
+ return (aUnsafeStr.indexOf('\\') === -1)
+ ? aUnsafeStr
+ : aUnsafeStr.replace(/\\/g, '/');
+}
+
+const gAssertionFailureMsgPrefix = "aboutMemory.js assertion failed: ";
+
+// This is used for things that should never fail, and indicate a defect in
+// this file if they do.
+function assert(aCond, aMsg)
+{
+ if (!aCond) {
+ reportAssertionFailure(aMsg)
+ throw new Error(gAssertionFailureMsgPrefix + aMsg);
+ }
+}
+
+// This is used for malformed input from memory reporters.
+function assertInput(aCond, aMsg)
+{
+ if (!aCond) {
+ throw new Error("Invalid memory report(s): " + aMsg);
+ }
+}
+
+function handleException(ex)
+{
+ let str = "" + ex;
+ if (str.startsWith(gAssertionFailureMsgPrefix)) {
+ // Argh, assertion failure within this file! Give up.
+ throw ex;
+ } else {
+ // File or memory reporter problem. Print a message.
+ updateMainAndFooter(str, HIDE_FOOTER, "badInputWarning");
+ }
+}
+
+function reportAssertionFailure(aMsg)
+{
+ let debug = Cc["@mozilla.org/xpcom/debug;1"].getService(Ci.nsIDebug2);
+ if (debug.isDebugBuild) {
+ debug.assertion(aMsg, "false", "aboutMemory.js", 0);
+ }
+}
+
+function debug(x)
+{
+ let section = appendElement(document.body, 'div', 'section');
+ appendElementWithText(section, "div", "debug", JSON.stringify(x));
+}
+
+// ---------------------------------------------------------------------------
+
+function onUnload()
+{
+}
+
+// ---------------------------------------------------------------------------
+
+// The <div> holding everything but the header and footer (if they're present).
+// It's what is updated each time the page changes.
+var gMain;
+
+// The <div> holding the footer.
+var gFooter;
+
+// The "verbose" checkbox.
+var gVerbose;
+
+// The "anonymize" checkbox.
+var gAnonymize;
+
+// Values for the |aFooterAction| argument to updateTitleMainAndFooter.
+var HIDE_FOOTER = 0;
+var SHOW_FOOTER = 1;
+
+function updateTitleMainAndFooter(aTitleNote, aMsg, aFooterAction, aClassName)
+{
+ document.title = gPageName;
+ if (aTitleNote) {
+ document.title += " (" + aTitleNote + ")";
+ }
+
+ // Clear gMain by replacing it with an empty node.
+ let tmp = gMain.cloneNode(false);
+ gMain.parentNode.replaceChild(tmp, gMain);
+ gMain = tmp;
+
+ gMain.classList.remove('hidden');
+ gMain.classList.remove('verbose');
+ gMain.classList.remove('non-verbose');
+ if (gVerbose) {
+ gMain.classList.add(gVerbose.checked ? 'verbose' : 'non-verbose');
+ }
+
+ let msgElement;
+ if (aMsg) {
+ let className = "section"
+ if (aClassName) {
+ className = className + " " + aClassName;
+ }
+ msgElement = appendElementWithText(gMain, 'div', className, aMsg);
+ }
+
+ switch (aFooterAction) {
+ case HIDE_FOOTER: gFooter.classList.add('hidden'); break;
+ case SHOW_FOOTER: gFooter.classList.remove('hidden'); break;
+ default: assert(false, "bad footer action in updateTitleMainAndFooter");
+ }
+ return msgElement;
+}
+
+function updateMainAndFooter(aMsg, aFooterAction, aClassName)
+{
+ return updateTitleMainAndFooter("", aMsg, aFooterAction, aClassName);
+}
+
+function appendTextNode(aP, aText)
+{
+ let e = document.createTextNode(aText);
+ aP.appendChild(e);
+ return e;
+}
+
+function appendElement(aP, aTagName, aClassName)
+{
+ let e = document.createElement(aTagName);
+ if (aClassName) {
+ e.className = aClassName;
+ }
+ aP.appendChild(e);
+ return e;
+}
+
+function appendElementWithText(aP, aTagName, aClassName, aText)
+{
+ let e = appendElement(aP, aTagName, aClassName);
+ // Setting textContent clobbers existing children, but there are none. More
+ // importantly, it avoids creating a JS-land object for the node, saving
+ // memory.
+ e.textContent = aText;
+ return e;
+}
+
+// ---------------------------------------------------------------------------
+
+const explicitTreeDescription =
+"This tree covers explicit memory allocations by the application. It includes \
+\n\n\
+* allocations made at the operating system level (via calls to functions such as \
+VirtualAlloc, vm_allocate, and mmap), \
+\n\n\
+* allocations made at the heap allocation level (via functions such as malloc, \
+calloc, realloc, memalign, operator new, and operator new[]) that have not been \
+explicitly decommitted (i.e. evicted from memory and swap), and \
+\n\n\
+* where possible, the overhead of the heap allocator itself.\
+\n\n\
+It excludes memory that is mapped implicitly such as code and data segments, \
+and thread stacks. \
+\n\n\
+'explicit' is not guaranteed to cover every explicit allocation, but it does cover \
+most (including the entire heap), and therefore it is the single best number to \
+focus on when trying to reduce memory usage.";
+
+// ---------------------------------------------------------------------------
+
+function appendButton(aP, aTitle, aOnClick, aText, aId)
+{
+ let b = appendElementWithText(aP, "button", "", aText);
+ b.title = aTitle;
+ b.onclick = aOnClick;
+ if (aId) {
+ b.id = aId;
+ }
+ return b;
+}
+
+function appendHiddenFileInput(aP, aId, aChangeListener)
+{
+ let input = appendElementWithText(aP, "input", "hidden", "");
+ input.type = "file";
+ input.id = aId; // used in testing
+ input.addEventListener("change", aChangeListener);
+ return input;
+}
+
+function onLoad()
+{
+ // Generate the header.
+
+ let header = appendElement(document.body, "div", "ancillary");
+
+ // A hidden file input element that can be invoked when necessary.
+ let fileInput1 = appendHiddenFileInput(header, "fileInput1", function() {
+ let file = this.files[0];
+ let filename = file.mozFullPath;
+ updateAboutMemoryFromFile(filename);
+ });
+
+ // Ditto.
+ let fileInput2 =
+ appendHiddenFileInput(header, "fileInput2", function(e) {
+ let file = this.files[0];
+ // First time around, we stash a copy of the filename and reinvoke. Second
+ // time around we do the diff and display.
+ if (!this.filename1) {
+ this.filename1 = file.mozFullPath;
+
+ // e.skipClick is only true when testing -- it allows fileInput2's
+ // onchange handler to be re-called without having to go via the file
+ // picker.
+ if (!e.skipClick) {
+ this.click();
+ }
+ } else {
+ let filename1 = this.filename1;
+ delete this.filename1;
+ updateAboutMemoryFromTwoFiles(filename1, file.mozFullPath);
+ }
+ });
+
+ const CuDesc = "Measure current memory reports and show.";
+ const LdDesc = "Load memory reports from file and show.";
+ const DfDesc = "Load memory report data from two files and show the " +
+ "difference.";
+
+ const SvDesc = "Save memory reports to file.";
+
+ const GCDesc = "Do a global garbage collection.";
+ const CCDesc = "Do a cycle collection.";
+ const MMDesc = "Send three \"heap-minimize\" notifications in a " +
+ "row. Each notification triggers a global garbage " +
+ "collection followed by a cycle collection, and causes the " +
+ "process to reduce memory usage in other ways, e.g. by " +
+ "flushing various caches.";
+
+ const GCAndCCLogDesc = "Save garbage collection log and concise cycle " +
+ "collection log.\n" +
+ "WARNING: These logs may be large (>1GB).";
+ const GCAndCCAllLogDesc = "Save garbage collection log and verbose cycle " +
+ "collection log.\n" +
+ "WARNING: These logs may be large (>1GB).";
+
+ const DMDEnabledDesc = "Analyze memory reports coverage and save the " +
+ "output to the temp directory.\n";
+ const DMDDisabledDesc = "DMD is not running. Please re-start with $DMD and " +
+ "the other relevant environment variables set " +
+ "appropriately.";
+
+ let ops = appendElement(header, "div", "");
+
+ let row1 = appendElement(ops, "div", "opsRow");
+
+ let labelDiv1 =
+ appendElementWithText(row1, "div", "opsRowLabel", "Show memory reports");
+ let label1 = appendElementWithText(labelDiv1, "label", "");
+ gVerbose = appendElement(label1, "input", "");
+ gVerbose.type = "checkbox";
+ gVerbose.id = "verbose"; // used for testing
+ appendTextNode(label1, "verbose");
+
+ const kEllipsis = "\u2026";
+
+ // The "measureButton" id is used for testing.
+ appendButton(row1, CuDesc, doMeasure, "Measure", "measureButton");
+ appendButton(row1, LdDesc, () => fileInput1.click(), "Load" + kEllipsis);
+ appendButton(row1, DfDesc, () => fileInput2.click(),
+ "Load and diff" + kEllipsis);
+
+ let row2 = appendElement(ops, "div", "opsRow");
+
+ let labelDiv2 =
+ appendElementWithText(row2, "div", "opsRowLabel", "Save memory reports");
+ appendButton(row2, SvDesc, saveReportsToFile, "Measure and save" + kEllipsis);
+
+ // XXX: this isn't a great place for this checkbox, but I can't think of
+ // anywhere better.
+ let label2 = appendElementWithText(labelDiv2, "label", "");
+ gAnonymize = appendElement(label2, "input", "");
+ gAnonymize.type = "checkbox";
+ appendTextNode(label2, "anonymize");
+
+ let row3 = appendElement(ops, "div", "opsRow");
+
+ appendElementWithText(row3, "div", "opsRowLabel", "Free memory");
+ appendButton(row3, GCDesc, doGC, "GC");
+ appendButton(row3, CCDesc, doCC, "CC");
+ appendButton(row3, MMDesc, doMMU, "Minimize memory usage");
+
+ let row4 = appendElement(ops, "div", "opsRow");
+
+ appendElementWithText(row4, "div", "opsRowLabel", "Save GC & CC logs");
+ appendButton(row4, GCAndCCLogDesc,
+ saveGCLogAndConciseCCLog, "Save concise", 'saveLogsConcise');
+ appendButton(row4, GCAndCCAllLogDesc,
+ saveGCLogAndVerboseCCLog, "Save verbose", 'saveLogsVerbose');
+
+ // Three cases here:
+ // - DMD is disabled (i.e. not built): don't show the button.
+ // - DMD is enabled but is not running: show the button, but disable it.
+ // - DMD is enabled and is running: show the button and enable it.
+ if (gMgr.isDMDEnabled) {
+ let row5 = appendElement(ops, "div", "opsRow");
+
+ appendElementWithText(row5, "div", "opsRowLabel", "Save DMD output");
+ let enableButtons = gMgr.isDMDRunning;
+
+ let dmdButton =
+ appendButton(row5, enableButtons ? DMDEnabledDesc : DMDDisabledDesc,
+ doDMD, "Save");
+ dmdButton.disabled = !enableButtons;
+ }
+
+ // Generate the main div, where content ("section" divs) will go. It's
+ // hidden at first.
+
+ gMain = appendElement(document.body, 'div', '');
+ gMain.id = 'mainDiv';
+
+ // Generate the footer. It's hidden at first.
+
+ gFooter = appendElement(document.body, 'div', 'ancillary hidden');
+
+ let a = appendElementWithText(gFooter, "a", "option",
+ "Troubleshooting information");
+ a.href = "about:support";
+
+ let legendText1 = "Click on a non-leaf node in a tree to expand ('++') " +
+ "or collapse ('--') its children.";
+ let legendText2 = "Hover the pointer over the name of a memory report " +
+ "to see a description of what it measures.";
+
+ appendElementWithText(gFooter, "div", "legend", legendText1);
+ appendElementWithText(gFooter, "div", "legend hiddenOnMobile", legendText2);
+
+ // See if we're loading from a file. (Because about:memory is a non-standard
+ // URL, location.search is undefined, so we have to use location.href
+ // instead.)
+ let search = location.href.split('?')[1];
+ if (search) {
+ let searchSplit = search.split('&');
+ for (let i = 0; i < searchSplit.length; i++) {
+ if (searchSplit[i].toLowerCase().startsWith('file=')) {
+ let filename = searchSplit[i].substring('file='.length);
+ updateAboutMemoryFromFile(decodeURIComponent(filename));
+ return;
+ }
+ }
+ }
+}
+
+// ---------------------------------------------------------------------------
+
+function doGC()
+{
+ Services.obs.notifyObservers(null, "child-gc-request", null);
+ Cu.forceGC();
+ updateMainAndFooter("Garbage collection completed", HIDE_FOOTER);
+}
+
+function doCC()
+{
+ Services.obs.notifyObservers(null, "child-cc-request", null);
+ window.QueryInterface(Ci.nsIInterfaceRequestor)
+ .getInterface(Ci.nsIDOMWindowUtils)
+ .cycleCollect();
+ updateMainAndFooter("Cycle collection completed", HIDE_FOOTER);
+}
+
+function doMMU()
+{
+ Services.obs.notifyObservers(null, "child-mmu-request", null);
+ gMgr.minimizeMemoryUsage(
+ () => updateMainAndFooter("Memory minimization completed", HIDE_FOOTER));
+}
+
+function doMeasure()
+{
+ updateAboutMemoryFromReporters();
+}
+
+function saveGCLogAndConciseCCLog()
+{
+ dumpGCLogAndCCLog(false);
+}
+
+function saveGCLogAndVerboseCCLog()
+{
+ dumpGCLogAndCCLog(true);
+}
+
+function doDMD()
+{
+ updateMainAndFooter("Saving memory reports and DMD output...", HIDE_FOOTER);
+ try {
+ let dumper = Cc["@mozilla.org/memory-info-dumper;1"]
+ .getService(Ci.nsIMemoryInfoDumper);
+
+ dumper.dumpMemoryInfoToTempDir(/* identifier = */ "",
+ gAnonymize.checked,
+ /* minimize = */ false);
+ updateMainAndFooter("Saved memory reports and DMD reports analysis " +
+ "to the temp directory",
+ HIDE_FOOTER);
+ } catch (ex) {
+ updateMainAndFooter(ex.toString(), HIDE_FOOTER);
+ }
+}
+
+function dumpGCLogAndCCLog(aVerbose)
+{
+ let dumper = Cc["@mozilla.org/memory-info-dumper;1"]
+ .getService(Ci.nsIMemoryInfoDumper);
+
+ let inProgress = updateMainAndFooter("Saving logs...", HIDE_FOOTER);
+ let section = appendElement(gMain, 'div', "section");
+
+ function displayInfo(gcLog, ccLog, isParent) {
+ appendElementWithText(section, 'div', "",
+ "Saved GC log to " + gcLog.path);
+
+ let ccLogType = aVerbose ? "verbose" : "concise";
+ appendElementWithText(section, 'div', "",
+ "Saved " + ccLogType + " CC log to " + ccLog.path);
+ }
+
+ dumper.dumpGCAndCCLogsToFile("", aVerbose, /* dumpChildProcesses = */ true,
+ { onDump: displayInfo,
+ onFinish: function() {
+ inProgress.remove();
+ }
+ });
+}
+
+/**
+ * Top-level function that does the work of generating the page from the memory
+ * reporters.
+ */
+function updateAboutMemoryFromReporters()
+{
+ updateMainAndFooter("Measuring...", HIDE_FOOTER);
+
+ try {
+ let processLiveMemoryReports =
+ function(aHandleReport, aDisplayReports) {
+ let handleReport = function(aProcess, aUnsafePath, aKind, aUnits,
+ aAmount, aDescription) {
+ aHandleReport(aProcess, aUnsafePath, aKind, aUnits, aAmount,
+ aDescription, /* presence = */ undefined);
+ }
+
+ let displayReportsAndFooter = function() {
+ updateTitleMainAndFooter("live measurement", "", SHOW_FOOTER);
+ aDisplayReports();
+ }
+
+ gMgr.getReports(handleReport, null, displayReportsAndFooter, null,
+ gAnonymize.checked);
+ }
+
+ // Process the reports from the live memory reporters.
+ appendAboutMemoryMain(processLiveMemoryReports,
+ gMgr.hasMozMallocUsableSize);
+
+ } catch (ex) {
+ handleException(ex);
+ }
+}
+
+// Increment this if the JSON format changes.
+//
+var gCurrentFileFormatVersion = 1;
+
+
+/**
+ * Parse a string as JSON and extract the |memory_report| property if it has
+ * one, which indicates the string is from a crash dump.
+ *
+ * @param aStr
+ * The string.
+ * @return The extracted object.
+ */
+function parseAndUnwrapIfCrashDump(aStr) {
+ let obj = JSON.parse(aStr);
+ if (obj.memory_report !== undefined) {
+ // It looks like a crash dump. The memory reports should be in the
+ // |memory_report| property.
+ obj = obj.memory_report;
+ }
+ return obj;
+}
+
+/**
+ * Populate about:memory using the data in the given JSON object.
+ *
+ * @param aObj
+ * An object that (hopefully!) conforms to the JSON schema used by
+ * nsIMemoryInfoDumper.
+ */
+function updateAboutMemoryFromJSONObject(aObj)
+{
+ try {
+ assertInput(aObj.version === gCurrentFileFormatVersion,
+ "data version number missing or doesn't match");
+ assertInput(aObj.hasMozMallocUsableSize !== undefined,
+ "missing 'hasMozMallocUsableSize' property");
+ assertInput(aObj.reports && aObj.reports instanceof Array,
+ "missing or non-array 'reports' property");
+
+ let processMemoryReportsFromFile =
+ function(aHandleReport, aDisplayReports) {
+ for (let i = 0; i < aObj.reports.length; i++) {
+ let r = aObj.reports[i];
+
+ // A hack: for a brief time (late in the FF26 and early in the FF27
+ // cycle) we were dumping memory report files that contained reports
+ // whose path began with "redundant/". Such reports were ignored by
+ // about:memory. These reports are no longer produced, but some older
+ // builds are still floating around and producing files that contain
+ // them, so we need to still handle them (i.e. ignore them). This hack
+ // can be removed once FF26 and associated products (e.g. B2G 1.2) are
+ // no longer in common use.
+ if (!r.path.startsWith("redundant/")) {
+ aHandleReport(r.process, r.path, r.kind, r.units, r.amount,
+ r.description, r._presence);
+ }
+ }
+ aDisplayReports();
+ }
+ appendAboutMemoryMain(processMemoryReportsFromFile,
+ aObj.hasMozMallocUsableSize);
+ } catch (ex) {
+ handleException(ex);
+ }
+}
+
+/**
+ * Populate about:memory using the data in the given JSON string.
+ *
+ * @param aStr
+ * A string containing JSON data conforming to the schema used by
+ * nsIMemoryReporterManager::dumpReports.
+ */
+function updateAboutMemoryFromJSONString(aStr)
+{
+ try {
+ let obj = parseAndUnwrapIfCrashDump(aStr);
+ updateAboutMemoryFromJSONObject(obj);
+ } catch (ex) {
+ handleException(ex);
+ }
+}
+
+/**
+ * Loads the contents of a file into a string and passes that to a callback.
+ *
+ * @param aFilename
+ * The name of the file being read from.
+ * @param aTitleNote
+ * A description to put in the page title upon completion.
+ * @param aFn
+ * The function to call and pass the read string to upon completion.
+ */
+function loadMemoryReportsFromFile(aFilename, aTitleNote, aFn)
+{
+ updateMainAndFooter("Loading...", HIDE_FOOTER);
+
+ try {
+ let reader = new FileReader();
+ reader.onerror = () => { throw new Error("FileReader.onerror"); };
+ reader.onabort = () => { throw new Error("FileReader.onabort"); };
+ reader.onload = (aEvent) => {
+ // Clear "Loading..." from above.
+ updateTitleMainAndFooter(aTitleNote, "", SHOW_FOOTER);
+ aFn(aEvent.target.result);
+ };
+
+ // If it doesn't have a .gz suffix, read it as a (legacy) ungzipped file.
+ if (!aFilename.endsWith(".gz")) {
+ reader.readAsText(File.createFromFileName(aFilename));
+ return;
+ }
+
+ // Read compressed gzip file.
+ let converter = new nsGzipConverter();
+ converter.asyncConvertData("gzip", "uncompressed", {
+ data: [],
+ onStartRequest: function(aR, aC) {},
+ onDataAvailable: function(aR, aC, aStream, aO, aCount) {
+ let bi = new nsBinaryStream(aStream);
+ this.data.push(bi.readBytes(aCount));
+ },
+ onStopRequest: function(aR, aC, aStatusCode) {
+ try {
+ if (!Components.isSuccessCode(aStatusCode)) {
+ throw new Components.Exception("Error while reading gzip file", aStatusCode);
+ }
+ reader.readAsText(new Blob(this.data));
+ } catch (ex) {
+ handleException(ex);
+ }
+ }
+ }, null);
+
+ let file = new nsFile(aFilename);
+ let fileChan = NetUtil.newChannel({
+ uri: Services.io.newFileURI(file),
+ loadUsingSystemPrincipal: true
+ });
+ fileChan.asyncOpen2(converter);
+
+ } catch (ex) {
+ handleException(ex);
+ }
+}
+
+/**
+ * Like updateAboutMemoryFromReporters(), but gets its data from a file instead
+ * of the memory reporters.
+ *
+ * @param aFilename
+ * The name of the file being read from. The expected format of the
+ * file's contents is described in a comment in nsIMemoryInfoDumper.idl.
+ */
+function updateAboutMemoryFromFile(aFilename)
+{
+ loadMemoryReportsFromFile(aFilename, /* title note */ aFilename,
+ updateAboutMemoryFromJSONString);
+}
+
+/**
+ * Like updateAboutMemoryFromFile(), but gets its data from a two files and
+ * diffs them.
+ *
+ * @param aFilename1
+ * The name of the first file being read from.
+ * @param aFilename2
+ * The name of the first file being read from.
+ */
+function updateAboutMemoryFromTwoFiles(aFilename1, aFilename2)
+{
+ let titleNote = "diff of " + aFilename1 + " and " + aFilename2;
+ loadMemoryReportsFromFile(aFilename1, titleNote, function(aStr1) {
+ loadMemoryReportsFromFile(aFilename2, titleNote, function(aStr2) {
+ try {
+ let obj1 = parseAndUnwrapIfCrashDump(aStr1);
+ let obj2 = parseAndUnwrapIfCrashDump(aStr2);
+ gIsDiff = true;
+ updateAboutMemoryFromJSONObject(diffJSONObjects(obj1, obj2));
+ gIsDiff = false;
+ } catch (ex) {
+ handleException(ex);
+ }
+ });
+ });
+}
+
+// ---------------------------------------------------------------------------
+
+// Something unlikely to appear in a process name.
+var kProcessPathSep = "^:^:^";
+
+// Short for "diff report".
+function DReport(aKind, aUnits, aAmount, aDescription, aNMerged, aPresence)
+{
+ this._kind = aKind;
+ this._units = aUnits;
+ this._amount = aAmount;
+ this._description = aDescription;
+ this._nMerged = aNMerged;
+ if (aPresence !== undefined) {
+ this._presence = aPresence;
+ }
+}
+
+DReport.prototype = {
+ assertCompatible: function(aKind, aUnits)
+ {
+ assert(this._kind == aKind, "Mismatched kinds");
+ assert(this._units == aUnits, "Mismatched units");
+
+ // We don't check that the "description" properties match. This is because
+ // on Linux we can get cases where the paths are the same but the
+ // descriptions differ, like this:
+ //
+ // "path": "size/other-files/icon-theme.cache/[r--p]",
+ // "description": "/usr/share/icons/gnome/icon-theme.cache (read-only, not executable, private)"
+ //
+ // "path": "size/other-files/icon-theme.cache/[r--p]"
+ // "description": "/usr/share/icons/hicolor/icon-theme.cache (read-only, not executable, private)"
+ //
+ // In those cases, we just use the description from the first-encountered
+ // one, which is what about:memory also does.
+ // (Note: reports with those paths are no longer generated, but allowing
+ // the descriptions to differ seems reasonable.)
+ },
+
+ merge: function(aJr) {
+ this.assertCompatible(aJr.kind, aJr.units);
+ this._amount += aJr.amount;
+ this._nMerged++;
+ },
+
+ toJSON: function(aProcess, aPath, aAmount) {
+ return {
+ process: aProcess,
+ path: aPath,
+ kind: this._kind,
+ units: this._units,
+ amount: aAmount,
+ description: this._description,
+ _presence: this._presence
+ };
+ }
+};
+
+// Constants that indicate if a DReport was present only in one of the data
+// sets, or had to be added for balance.
+DReport.PRESENT_IN_FIRST_ONLY = 1;
+DReport.PRESENT_IN_SECOND_ONLY = 2;
+DReport.ADDED_FOR_BALANCE = 3;
+
+/**
+ * Make a report map, which has combined path+process strings for keys, and
+ * DReport objects for values.
+ *
+ * @param aJSONReports
+ * The |reports| field of a JSON object.
+ * @return The constructed report map.
+ */
+function makeDReportMap(aJSONReports)
+{
+ let dreportMap = {};
+ for (let i = 0; i < aJSONReports.length; i++) {
+ let jr = aJSONReports[i];
+
+ assert(jr.process !== undefined, "Missing process");
+ assert(jr.path !== undefined, "Missing path");
+ assert(jr.kind !== undefined, "Missing kind");
+ assert(jr.units !== undefined, "Missing units");
+ assert(jr.amount !== undefined, "Missing amount");
+ assert(jr.description !== undefined, "Missing description");
+
+ // Strip out some non-deterministic stuff that prevents clean diffs.
+ // Ideally the memory reports themselves would contain information about
+ // which parts of the the process and path need to be stripped -- saving us
+ // from hardwiring knowledge of specific reporters here -- but we have no
+ // mechanism for that. (Any future redesign of how memory reporters work
+ // should include such a mechanism.)
+
+ // Strip PIDs:
+ // - pid 123
+ // - pid=123
+ let pidRegex = /pid([ =])\d+/g;
+ let pidSubst = "pid$1NNN";
+ let process = jr.process.replace(pidRegex, pidSubst);
+ let path = jr.path.replace(pidRegex, pidSubst);
+
+ // Strip addresses:
+ // - .../js-zone(0x12345678)/...
+ // - .../zone(0x12345678)/...
+ // - .../worker(<URL>, 0x12345678)/...
+ path = path.replace(/zone\(0x[0-9A-Fa-f]+\)\//, "zone(0xNNN)/");
+ path = path.replace(/\/worker\((.+), 0x[0-9A-Fa-f]+\)\//,
+ "/worker($1, 0xNNN)/");
+
+ // Strip top window IDs:
+ // - explicit/window-objects/top(<URL>, id=123)/...
+ path = path.replace(/^(explicit\/window-objects\/top\(.*, id=)\d+\)/,
+ "$1NNN)");
+
+ // Strip null principal UUIDs (but not other UUIDs, because they may be
+ // deterministic, such as those used by add-ons).
+ path = path.replace(
+ /moz-nullprincipal:{........-....-....-....-............}/g,
+ "moz-nullprincipal:{NNNNNNNN-NNNN-NNNN-NNNN-NNNNNNNNNNNN}");
+
+ // Normalize omni.ja! paths.
+ path = path.replace(/jar:file:\\\\\\(.+)\\omni.ja!/,
+ "jar:file:\\\\\\...\\omni.ja!");
+
+ let processPath = process + kProcessPathSep + path;
+ let rOld = dreportMap[processPath];
+ if (rOld === undefined) {
+ dreportMap[processPath] =
+ new DReport(jr.kind, jr.units, jr.amount, jr.description, 1, undefined);
+ } else {
+ rOld.merge(jr);
+ }
+ }
+ return dreportMap;
+}
+
+// Return a new dreportMap which is the diff of two dreportMaps. Empties
+// aDReportMap2 along the way.
+function diffDReportMaps(aDReportMap1, aDReportMap2)
+{
+ let result = {};
+
+ for (let processPath in aDReportMap1) {
+ let r1 = aDReportMap1[processPath];
+ let r2 = aDReportMap2[processPath];
+ let r2_amount, r2_nMerged;
+ let presence;
+ if (r2 !== undefined) {
+ r1.assertCompatible(r2._kind, r2._units);
+ r2_amount = r2._amount;
+ r2_nMerged = r2._nMerged;
+ delete aDReportMap2[processPath];
+ presence = undefined; // represents that it's present in both
+ } else {
+ r2_amount = 0;
+ r2_nMerged = 0;
+ presence = DReport.PRESENT_IN_FIRST_ONLY;
+ }
+ result[processPath] =
+ new DReport(r1._kind, r1._units, r2_amount - r1._amount, r1._description,
+ Math.max(r1._nMerged, r2_nMerged), presence);
+ }
+
+ for (let processPath in aDReportMap2) {
+ let r2 = aDReportMap2[processPath];
+ result[processPath] = new DReport(r2._kind, r2._units, r2._amount,
+ r2._description, r2._nMerged,
+ DReport.PRESENT_IN_SECOND_ONLY);
+ }
+
+ return result;
+}
+
+function makeJSONReports(aDReportMap)
+{
+ let reports = [];
+ for (let processPath in aDReportMap) {
+ let r = aDReportMap[processPath];
+ if (r._amount !== 0) {
+ // If _nMerged > 1, we give the full (aggregated) amount in the first
+ // copy, and then use amount=0 in the remainder. When viewed in
+ // about:memory, this shows up as an entry with a "[2]"-style suffix
+ // and the correct amount.
+ let split = processPath.split(kProcessPathSep);
+ assert(split.length >= 2);
+ let process = split.shift();
+ let path = split.join();
+ reports.push(r.toJSON(process, path, r._amount));
+ for (let i = 1; i < r._nMerged; i++) {
+ reports.push(r.toJSON(process, path, 0));
+ }
+ }
+ }
+
+ return reports;
+}
+
+// Diff two JSON objects holding memory reports.
+function diffJSONObjects(aJson1, aJson2)
+{
+ function simpleProp(aProp)
+ {
+ assert(aJson1[aProp] !== undefined && aJson1[aProp] === aJson2[aProp],
+ aProp + " properties don't match");
+ return aJson1[aProp];
+ }
+
+ return {
+ version: simpleProp("version"),
+
+ hasMozMallocUsableSize: simpleProp("hasMozMallocUsableSize"),
+
+ reports: makeJSONReports(diffDReportMaps(makeDReportMap(aJson1.reports),
+ makeDReportMap(aJson2.reports)))
+ };
+}
+
+// ---------------------------------------------------------------------------
+
+// |PColl| is short for "process collection".
+function PColl()
+{
+ this._trees = {};
+ this._degenerates = {};
+ this._heapTotal = 0;
+}
+
+/**
+ * Processes reports (whether from reporters or from a file) and append the
+ * main part of the page.
+ *
+ * @param aProcessReports
+ * Function that extracts the memory reports from the reporters or from
+ * file.
+ * @param aHasMozMallocUsableSize
+ * Boolean indicating if moz_malloc_usable_size works.
+ */
+function appendAboutMemoryMain(aProcessReports, aHasMozMallocUsableSize)
+{
+ let pcollsByProcess = {};
+
+ function handleReport(aProcess, aUnsafePath, aKind, aUnits, aAmount,
+ aDescription, aPresence)
+ {
+ if (aUnsafePath.startsWith("explicit/")) {
+ assertInput(aKind === KIND_HEAP || aKind === KIND_NONHEAP,
+ "bad explicit kind");
+ assertInput(aUnits === UNITS_BYTES, "bad explicit units");
+ }
+
+ assert(aPresence === undefined ||
+ aPresence == DReport.PRESENT_IN_FIRST_ONLY ||
+ aPresence == DReport.PRESENT_IN_SECOND_ONLY,
+ "bad presence");
+
+ let process = aProcess === "" ? gUnnamedProcessStr : aProcess;
+ let unsafeNames = aUnsafePath.split('/');
+ let unsafeName0 = unsafeNames[0];
+ let isDegenerate = unsafeNames.length === 1;
+
+ // Get the PColl table for the process, creating it if necessary.
+ let pcoll = pcollsByProcess[process];
+ if (!pcollsByProcess[process]) {
+ pcoll = pcollsByProcess[process] = new PColl();
+ }
+
+ // Get the root node, creating it if necessary.
+ let psubcoll = isDegenerate ? pcoll._degenerates : pcoll._trees;
+ let t = psubcoll[unsafeName0];
+ if (!t) {
+ t = psubcoll[unsafeName0] =
+ new TreeNode(unsafeName0, aUnits, isDegenerate);
+ }
+
+ if (!isDegenerate) {
+ // Add any missing nodes in the tree implied by aUnsafePath, and fill in
+ // the properties that we can with a top-down traversal.
+ for (let i = 1; i < unsafeNames.length; i++) {
+ let unsafeName = unsafeNames[i];
+ let u = t.findKid(unsafeName);
+ if (!u) {
+ u = new TreeNode(unsafeName, aUnits, isDegenerate);
+ if (!t._kids) {
+ t._kids = [];
+ }
+ t._kids.push(u);
+ }
+ t = u;
+ }
+
+ // Update the heap total if necessary.
+ if (unsafeName0 === "explicit" && aKind == KIND_HEAP) {
+ pcollsByProcess[process]._heapTotal += aAmount;
+ }
+ }
+
+ if (t._amount) {
+ // Duplicate! Sum the values and mark it as a dup.
+ t._amount += aAmount;
+ t._nMerged = t._nMerged ? t._nMerged + 1 : 2;
+ assert(t._presence === aPresence, "presence mismatch");
+ } else {
+ // New leaf node. Fill in extra node details from the report.
+ t._amount = aAmount;
+ t._description = aDescription;
+ if (aPresence !== undefined) {
+ t._presence = aPresence;
+ }
+ }
+ }
+
+ function displayReports()
+ {
+ // Sort the processes.
+ let processes = Object.keys(pcollsByProcess);
+ processes.sort(function(aProcessA, aProcessB) {
+ assert(aProcessA != aProcessB,
+ "Elements of Object.keys() should be unique, but " +
+ "saw duplicate '" + aProcessA + "' elem.");
+
+ // Always put the main process first.
+ if (aProcessA == gUnnamedProcessStr) {
+ return -1;
+ }
+ if (aProcessB == gUnnamedProcessStr) {
+ return 1;
+ }
+
+ // Then sort by resident size.
+ let nodeA = pcollsByProcess[aProcessA]._degenerates['resident'];
+ let nodeB = pcollsByProcess[aProcessB]._degenerates['resident'];
+ let residentA = nodeA ? nodeA._amount : -1;
+ let residentB = nodeB ? nodeB._amount : -1;
+
+ if (residentA > residentB) {
+ return -1;
+ }
+ if (residentA < residentB) {
+ return 1;
+ }
+
+ // Then sort by process name.
+ if (aProcessA < aProcessB) {
+ return -1;
+ }
+ if (aProcessA > aProcessB) {
+ return 1;
+ }
+
+ return 0;
+ });
+
+ // Generate output for each process.
+ for (let i = 0; i < processes.length; i++) {
+ let process = processes[i];
+ let section = appendElement(gMain, 'div', 'section');
+
+ appendProcessAboutMemoryElements(section, i, process,
+ pcollsByProcess[process]._trees,
+ pcollsByProcess[process]._degenerates,
+ pcollsByProcess[process]._heapTotal,
+ aHasMozMallocUsableSize);
+ }
+ }
+
+ aProcessReports(handleReport, displayReports);
+}
+
+// ---------------------------------------------------------------------------
+
+// There are two kinds of TreeNode.
+// - Leaf TreeNodes correspond to reports.
+// - Non-leaf TreeNodes are just scaffolding nodes for the tree; their values
+// are derived from their children.
+// Some trees are "degenerate", i.e. they contain a single node, i.e. they
+// correspond to a report whose path has no '/' separators.
+function TreeNode(aUnsafeName, aUnits, aIsDegenerate)
+{
+ this._units = aUnits;
+ this._unsafeName = aUnsafeName;
+ if (aIsDegenerate) {
+ this._isDegenerate = true;
+ }
+
+ // Leaf TreeNodes have these properties added immediately after construction:
+ // - _amount
+ // - _description
+ // - _nMerged (only defined if > 1)
+ // - _presence (only defined if value is PRESENT_IN_{FIRST,SECOND}_ONLY)
+ //
+ // Non-leaf TreeNodes have these properties added later:
+ // - _kids
+ // - _amount
+ // - _description
+ // - _hideKids (only defined if true)
+ // - _maxAbsDescendant (on-demand, only when gIsDiff is set)
+}
+
+TreeNode.prototype = {
+ findKid: function(aUnsafeName) {
+ if (this._kids) {
+ for (let i = 0; i < this._kids.length; i++) {
+ if (this._kids[i]._unsafeName === aUnsafeName) {
+ return this._kids[i];
+ }
+ }
+ }
+ return undefined;
+ },
+
+ // When gIsDiff is false, tree operations -- sorting and determining if a
+ // sub-tree is significant -- are straightforward. But when gIsDiff is true,
+ // the combination of positive and negative values within a tree complicates
+ // things. So for a non-leaf node, instead of just looking at _amount, we
+ // instead look at the maximum absolute value of the node and all of its
+ // descendants.
+ maxAbsDescendant: function() {
+ if (!this._kids) {
+ // No kids? Just return the absolute value of the amount.
+ return Math.abs(this._amount);
+ }
+
+ if ('_maxAbsDescendant' in this) {
+ // We've computed this before? Return the saved value.
+ return this._maxAbsDescendant;
+ }
+
+ // Compute the maximum absolute value of all descendants.
+ let max = Math.abs(this._amount);
+ for (let i = 0; i < this._kids.length; i++) {
+ max = Math.max(max, this._kids[i].maxAbsDescendant());
+ }
+ this._maxAbsDescendant = max;
+ return max;
+ },
+
+ toString: function() {
+ switch (this._units) {
+ case UNITS_BYTES: return formatBytes(this._amount);
+ case UNITS_COUNT:
+ case UNITS_COUNT_CUMULATIVE: return formatInt(this._amount);
+ case UNITS_PERCENTAGE: return formatPercentage(this._amount);
+ default:
+ throw "Invalid memory report(s): bad units in TreeNode.toString";
+ }
+ }
+};
+
+// Sort TreeNodes first by size, then by name. The latter is important for the
+// about:memory tests, which need a predictable ordering of reporters which
+// have the same amount.
+TreeNode.compareAmounts = function(aA, aB) {
+ let a, b;
+ if (gIsDiff) {
+ a = aA.maxAbsDescendant();
+ b = aB.maxAbsDescendant();
+ } else {
+ a = aA._amount;
+ b = aB._amount;
+ }
+ if (a > b) {
+ return -1;
+ }
+ if (a < b) {
+ return 1;
+ }
+ return TreeNode.compareUnsafeNames(aA, aB);
+};
+
+TreeNode.compareUnsafeNames = function(aA, aB) {
+ return aA._unsafeName.localeCompare(aB._unsafeName);
+};
+
+
+/**
+ * Fill in the remaining properties for the specified tree in a bottom-up
+ * fashion.
+ *
+ * @param aRoot
+ * The tree root.
+ */
+function fillInTree(aRoot)
+{
+ // Fill in the remaining properties bottom-up.
+ function fillInNonLeafNodes(aT)
+ {
+ if (!aT._kids) {
+ // Leaf node. Has already been filled in.
+
+ } else if (aT._kids.length === 1 && aT != aRoot) {
+ // Non-root, non-leaf node with one child. Merge the child with the node
+ // to avoid redundant entries.
+ let kid = aT._kids[0];
+ let kidBytes = fillInNonLeafNodes(kid);
+ aT._unsafeName += '/' + kid._unsafeName;
+ if (kid._kids) {
+ aT._kids = kid._kids;
+ } else {
+ delete aT._kids;
+ }
+ aT._amount = kidBytes;
+ aT._description = kid._description;
+ if (kid._nMerged !== undefined) {
+ aT._nMerged = kid._nMerged
+ }
+ assert(!aT._hideKids && !kid._hideKids, "_hideKids set when merging");
+
+ } else {
+ // Non-leaf node with multiple children. Derive its _amount and
+ // _description entirely from its children...
+ let kidsBytes = 0;
+ for (let i = 0; i < aT._kids.length; i++) {
+ kidsBytes += fillInNonLeafNodes(aT._kids[i]);
+ }
+
+ // ... except in one special case. When diffing two memory report sets,
+ // if one set has a node with children and the other has the same node
+ // but without children -- e.g. the first has "a/b/c" and "a/b/d", but
+ // the second only has "a/b" -- we need to add a fake node "a/b/(fake)"
+ // to the second to make the trees comparable. It's ugly, but it works.
+ if (aT._amount !== undefined &&
+ (aT._presence === DReport.PRESENT_IN_FIRST_ONLY ||
+ aT._presence === DReport.PRESENT_IN_SECOND_ONLY)) {
+ aT._amount += kidsBytes;
+ let fake = new TreeNode('(fake child)', aT._units);
+ fake._presence = DReport.ADDED_FOR_BALANCE;
+ fake._amount = aT._amount - kidsBytes;
+ aT._kids.push(fake);
+ delete aT._presence;
+ } else {
+ assert(aT._amount === undefined,
+ "_amount already set for non-leaf node")
+ aT._amount = kidsBytes;
+ }
+ aT._description = "The sum of all entries below this one.";
+ }
+ return aT._amount;
+ }
+
+ // cannotMerge is set because don't want to merge into a tree's root node.
+ fillInNonLeafNodes(aRoot);
+}
+
+/**
+ * Compute the "heap-unclassified" value and insert it into the "explicit"
+ * tree.
+ *
+ * @param aT
+ * The "explicit" tree.
+ * @param aHeapAllocatedNode
+ * The "heap-allocated" tree node.
+ * @param aHeapTotal
+ * The sum of all explicit HEAP reports for this process.
+ * @return A boolean indicating if "heap-allocated" is known for the process.
+ */
+function addHeapUnclassifiedNode(aT, aHeapAllocatedNode, aHeapTotal)
+{
+ if (aHeapAllocatedNode === undefined)
+ return false;
+
+ if (aT.findKid("heap-unclassified")) {
+ // heap-unclassified was already calculated, there's nothing left to do.
+ // This can happen when memory reports are exported from areweslimyet.com.
+ return true;
+ }
+
+ assert(aHeapAllocatedNode._isDegenerate, "heap-allocated is not degenerate");
+ let heapAllocatedBytes = aHeapAllocatedNode._amount;
+ let heapUnclassifiedT = new TreeNode("heap-unclassified", UNITS_BYTES);
+ heapUnclassifiedT._amount = heapAllocatedBytes - aHeapTotal;
+ heapUnclassifiedT._description =
+ "Memory not classified by a more specific report. This includes " +
+ "slop bytes due to internal fragmentation in the heap allocator " +
+ "(caused when the allocator rounds up request sizes).";
+ aT._kids.push(heapUnclassifiedT);
+ aT._amount += heapUnclassifiedT._amount;
+ return true;
+}
+
+/**
+ * Sort all kid nodes from largest to smallest, and insert aggregate nodes
+ * where appropriate.
+ *
+ * @param aTotalBytes
+ * The size of the tree's root node.
+ * @param aT
+ * The tree.
+ */
+function sortTreeAndInsertAggregateNodes(aTotalBytes, aT)
+{
+ const kSignificanceThresholdPerc = 1;
+
+ function isInsignificant(aT)
+ {
+ if (gVerbose.checked)
+ return false;
+
+ let perc = gIsDiff
+ ? 100 * aT.maxAbsDescendant() / Math.abs(aTotalBytes)
+ : 100 * aT._amount / aTotalBytes;
+ return perc < kSignificanceThresholdPerc;
+ }
+
+ if (!aT._kids) {
+ return;
+ }
+
+ aT._kids.sort(TreeNode.compareAmounts);
+
+ // If the first child is insignificant, they all are, and there's no point
+ // creating an aggregate node that lacks siblings. Just set the parent's
+ // _hideKids property and process all children.
+ if (isInsignificant(aT._kids[0])) {
+ aT._hideKids = true;
+ for (let i = 0; i < aT._kids.length; i++) {
+ sortTreeAndInsertAggregateNodes(aTotalBytes, aT._kids[i]);
+ }
+ return;
+ }
+
+ // Look at all children except the last one.
+ let i;
+ for (i = 0; i < aT._kids.length - 1; i++) {
+ if (isInsignificant(aT._kids[i])) {
+ // This child is below the significance threshold. If there are other
+ // (smaller) children remaining, move them under an aggregate node.
+ let i0 = i;
+ let nAgg = aT._kids.length - i0;
+ // Create an aggregate node. Inherit units from the parent; everything
+ // in the tree should have the same units anyway (we test this later).
+ let aggT = new TreeNode("(" + nAgg + " tiny)", aT._units);
+ aggT._kids = [];
+ let aggBytes = 0;
+ for ( ; i < aT._kids.length; i++) {
+ aggBytes += aT._kids[i]._amount;
+ aggT._kids.push(aT._kids[i]);
+ }
+ aggT._hideKids = true;
+ aggT._amount = aggBytes;
+ aggT._description =
+ nAgg + " sub-trees that are below the " + kSignificanceThresholdPerc +
+ "% significance threshold.";
+ aT._kids.splice(i0, nAgg, aggT);
+ aT._kids.sort(TreeNode.compareAmounts);
+
+ // Process the moved children.
+ for (i = 0; i < aggT._kids.length; i++) {
+ sortTreeAndInsertAggregateNodes(aTotalBytes, aggT._kids[i]);
+ }
+ return;
+ }
+
+ sortTreeAndInsertAggregateNodes(aTotalBytes, aT._kids[i]);
+ }
+
+ // The first n-1 children were significant. Don't consider if the last child
+ // is significant; there's no point creating an aggregate node that only has
+ // one child. Just process it.
+ sortTreeAndInsertAggregateNodes(aTotalBytes, aT._kids[i]);
+}
+
+// Global variable indicating if we've seen any invalid values for this
+// process; it holds the unsafePaths of any such reports. It is reset for
+// each new process.
+var gUnsafePathsWithInvalidValuesForThisProcess = [];
+
+function appendWarningElements(aP, aHasKnownHeapAllocated,
+ aHasMozMallocUsableSize)
+{
+ if (!aHasKnownHeapAllocated && !aHasMozMallocUsableSize) {
+ appendElementWithText(aP, "p", "",
+ "WARNING: the 'heap-allocated' memory reporter and the " +
+ "moz_malloc_usable_size() function do not work for this platform " +
+ "and/or configuration. This means that 'heap-unclassified' is not " +
+ "shown and the 'explicit' tree shows much less memory than it should.\n\n");
+
+ } else if (!aHasKnownHeapAllocated) {
+ appendElementWithText(aP, "p", "",
+ "WARNING: the 'heap-allocated' memory reporter does not work for this " +
+ "platform and/or configuration. This means that 'heap-unclassified' " +
+ "is not shown and the 'explicit' tree shows less memory than it should.\n\n");
+
+ } else if (!aHasMozMallocUsableSize) {
+ appendElementWithText(aP, "p", "",
+ "WARNING: the moz_malloc_usable_size() function does not work for " +
+ "this platform and/or configuration. This means that much of the " +
+ "heap-allocated memory is not measured by individual memory reporters " +
+ "and so will fall under 'heap-unclassified'.\n\n");
+ }
+
+ if (gUnsafePathsWithInvalidValuesForThisProcess.length > 0) {
+ let div = appendElement(aP, "div");
+ appendElementWithText(div, "p", "",
+ "WARNING: the following values are negative or unreasonably large.\n");
+
+ let ul = appendElement(div, "ul");
+ for (let i = 0;
+ i < gUnsafePathsWithInvalidValuesForThisProcess.length;
+ i++)
+ {
+ appendTextNode(ul, " ");
+ appendElementWithText(ul, "li", "",
+ flipBackslashes(gUnsafePathsWithInvalidValuesForThisProcess[i]) + "\n");
+ }
+
+ appendElementWithText(div, "p", "",
+ "This indicates a defect in one or more memory reporters. The " +
+ "invalid values are highlighted.\n\n");
+ gUnsafePathsWithInvalidValuesForThisProcess = []; // reset for the next process
+ }
+}
+
+/**
+ * Appends the about:memory elements for a single process.
+ *
+ * @param aP
+ * The parent DOM node.
+ * @param aN
+ * The number of the process, starting at 0.
+ * @param aProcess
+ * The name of the process.
+ * @param aTrees
+ * The table of non-degenerate trees for this process.
+ * @param aDegenerates
+ * The table of degenerate trees for this process.
+ * @param aHasMozMallocUsableSize
+ * Boolean indicating if moz_malloc_usable_size works.
+ * @return The generated text.
+ */
+function appendProcessAboutMemoryElements(aP, aN, aProcess, aTrees,
+ aDegenerates, aHeapTotal,
+ aHasMozMallocUsableSize)
+{
+ const kUpwardsArrow = "\u2191",
+ kDownwardsArrow = "\u2193";
+
+ let appendLink = function(aHere, aThere, aArrow) {
+ let link = appendElementWithText(aP, "a", "upDownArrow", aArrow);
+ link.href = "#" + aThere + aN;
+ link.id = aHere + aN;
+ link.title = "Go to the " + aThere + " of " + aProcess;
+ link.style = "text-decoration: none";
+
+ // This jumps to the anchor without the page location getting the anchor
+ // name tacked onto its end, which is what happens with a vanilla link.
+ link.addEventListener("click", function(event) {
+ document.documentElement.scrollTop =
+ document.querySelector(event.target.href).offsetTop;
+ event.preventDefault();
+ }, false);
+
+ // This gives nice spacing when we copy and paste.
+ appendElementWithText(aP, "span", "", "\n");
+ }
+
+ appendElementWithText(aP, "h1", "", aProcess);
+ appendLink("start", "end", kDownwardsArrow);
+
+ // We'll fill this in later.
+ let warningsDiv = appendElement(aP, "div", "accuracyWarning");
+
+ // The explicit tree.
+ let hasExplicitTree;
+ let hasKnownHeapAllocated;
+ {
+ let treeName = "explicit";
+ let t = aTrees[treeName];
+ if (t) {
+ let pre = appendSectionHeader(aP, "Explicit Allocations");
+ hasExplicitTree = true;
+ fillInTree(t);
+ // Using the "heap-allocated" reporter here instead of
+ // nsMemoryReporterManager.heapAllocated goes against the usual pattern.
+ // But the "heap-allocated" node will go in the tree like the others, so
+ // we have to deal with it, and once we're dealing with it, it's easier
+ // to keep doing so rather than switching to the distinguished amount.
+ hasKnownHeapAllocated =
+ aDegenerates &&
+ addHeapUnclassifiedNode(t, aDegenerates["heap-allocated"], aHeapTotal);
+ sortTreeAndInsertAggregateNodes(t._amount, t);
+ t._description = explicitTreeDescription;
+ appendTreeElements(pre, t, aProcess, "");
+ delete aTrees[treeName];
+ }
+ appendTextNode(aP, "\n"); // gives nice spacing when we copy and paste
+ }
+
+ // Fill in and sort all the non-degenerate other trees.
+ let otherTrees = [];
+ for (let unsafeName in aTrees) {
+ let t = aTrees[unsafeName];
+ assert(!t._isDegenerate, "tree is degenerate");
+ fillInTree(t);
+ sortTreeAndInsertAggregateNodes(t._amount, t);
+ otherTrees.push(t);
+ }
+ otherTrees.sort(TreeNode.compareUnsafeNames);
+
+ // Get the length of the longest root value among the degenerate other trees,
+ // and sort them as well.
+ let otherDegenerates = [];
+ let maxStringLength = 0;
+ for (let unsafeName in aDegenerates) {
+ let t = aDegenerates[unsafeName];
+ assert(t._isDegenerate, "tree is not degenerate");
+ let length = t.toString().length;
+ if (length > maxStringLength) {
+ maxStringLength = length;
+ }
+ otherDegenerates.push(t);
+ }
+ otherDegenerates.sort(TreeNode.compareUnsafeNames);
+
+ // Now generate the elements, putting non-degenerate trees first.
+ let pre = appendSectionHeader(aP, "Other Measurements");
+ for (let i = 0; i < otherTrees.length; i++) {
+ let t = otherTrees[i];
+ appendTreeElements(pre, t, aProcess, "");
+ appendTextNode(pre, "\n"); // blank lines after non-degenerate trees
+ }
+ for (let i = 0; i < otherDegenerates.length; i++) {
+ let t = otherDegenerates[i];
+ let padText = pad("", maxStringLength - t.toString().length, ' ');
+ appendTreeElements(pre, t, aProcess, padText);
+ }
+ appendTextNode(aP, "\n"); // gives nice spacing when we copy and paste
+
+ // Add any warnings about inaccuracies in the "explicit" tree due to platform
+ // limitations. These must be computed after generating all the text. The
+ // newlines give nice spacing if we copy+paste into a text buffer.
+ if (hasExplicitTree) {
+ appendWarningElements(warningsDiv, hasKnownHeapAllocated,
+ aHasMozMallocUsableSize);
+ }
+
+ appendElementWithText(aP, "h3", "", "End of " + aProcess);
+ appendLink("end", "start", kUpwardsArrow);
+}
+
+/**
+ * Determines if a number has a negative sign when converted to a string.
+ * Works even for -0.
+ *
+ * @param aN
+ * The number.
+ * @return A boolean.
+ */
+function hasNegativeSign(aN)
+{
+ if (aN === 0) { // this succeeds for 0 and -0
+ return 1 / aN === -Infinity; // this succeeds for -0
+ }
+ return aN < 0;
+}
+
+/**
+ * Formats an int as a human-readable string.
+ *
+ * @param aN
+ * The integer to format.
+ * @param aExtra
+ * An extra string to tack onto the end.
+ * @return A human-readable string representing the int.
+ *
+ * Note: building an array of chars and converting that to a string with
+ * Array.join at the end is more memory efficient than using string
+ * concatenation. See bug 722972 for details.
+ */
+function formatInt(aN, aExtra)
+{
+ let neg = false;
+ if (hasNegativeSign(aN)) {
+ neg = true;
+ aN = -aN;
+ }
+ let s = [];
+ while (true) {
+ let k = aN % 1000;
+ aN = Math.floor(aN / 1000);
+ if (aN > 0) {
+ if (k < 10) {
+ s.unshift(",00", k);
+ } else if (k < 100) {
+ s.unshift(",0", k);
+ } else {
+ s.unshift(",", k);
+ }
+ } else {
+ s.unshift(k);
+ break;
+ }
+ }
+ if (neg) {
+ s.unshift("-");
+ }
+ if (aExtra) {
+ s.push(aExtra);
+ }
+ return s.join("");
+}
+
+/**
+ * Converts a byte count to an appropriate string representation.
+ *
+ * @param aBytes
+ * The byte count.
+ * @return The string representation.
+ */
+function formatBytes(aBytes)
+{
+ let unit = gVerbose.checked ? " B" : " MB";
+
+ let s;
+ if (gVerbose.checked) {
+ s = formatInt(aBytes, unit);
+ } else {
+ let mbytes = (aBytes / (1024 * 1024)).toFixed(2);
+ let a = String(mbytes).split(".");
+ // If the argument to formatInt() is -0, it will print the negative sign.
+ s = formatInt(Number(a[0])) + "." + a[1] + unit;
+ }
+ return s;
+}
+
+/**
+ * Converts a percentage to an appropriate string representation.
+ *
+ * @param aPerc100x
+ * The percentage, multiplied by 100 (see nsIMemoryReporter).
+ * @return The string representation
+ */
+function formatPercentage(aPerc100x)
+{
+ return (aPerc100x / 100).toFixed(2) + "%";
+}
+
+/**
+ * Right-justifies a string in a field of a given width, padding as necessary.
+ *
+ * @param aS
+ * The string.
+ * @param aN
+ * The field width.
+ * @param aC
+ * The char used to pad.
+ * @return The string representation.
+ */
+function pad(aS, aN, aC)
+{
+ let padding = "";
+ let n2 = aN - aS.length;
+ for (let i = 0; i < n2; i++) {
+ padding += aC;
+ }
+ return padding + aS;
+}
+
+// There's a subset of the Unicode "light" box-drawing chars that is widely
+// implemented in terminals, and this code sticks to that subset to maximize
+// the chance that copying and pasting about:memory output to a terminal will
+// work correctly.
+const kHorizontal = "\u2500",
+ kVertical = "\u2502",
+ kUpAndRight = "\u2514",
+ kUpAndRight_Right_Right = "\u2514\u2500\u2500",
+ kVerticalAndRight = "\u251c",
+ kVerticalAndRight_Right_Right = "\u251c\u2500\u2500",
+ kVertical_Space_Space = "\u2502 ";
+
+const kNoKidsSep = " \u2500\u2500 ",
+ kHideKidsSep = " ++ ",
+ kShowKidsSep = " -- ";
+
+function appendMrNameSpan(aP, aDescription, aUnsafeName, aIsInvalid, aNMerged,
+ aPresence)
+{
+ let safeName = flipBackslashes(aUnsafeName);
+ if (!aIsInvalid && !aNMerged && !aPresence) {
+ safeName += "\n";
+ }
+ let nameSpan = appendElementWithText(aP, "span", "mrName", safeName);
+ nameSpan.title = aDescription;
+
+ if (aIsInvalid) {
+ let noteText = " [?!]";
+ if (!aNMerged) {
+ noteText += "\n";
+ }
+ let noteSpan = appendElementWithText(aP, "span", "mrNote", noteText);
+ noteSpan.title =
+ "Warning: this value is invalid and indicates a bug in one or more " +
+ "memory reporters. ";
+ }
+
+ if (aNMerged) {
+ let noteText = " [" + aNMerged + "]";
+ if (!aPresence) {
+ noteText += "\n";
+ }
+ let noteSpan = appendElementWithText(aP, "span", "mrNote", noteText);
+ noteSpan.title =
+ "This value is the sum of " + aNMerged +
+ " memory reports that all have the same path.";
+ }
+
+ if (aPresence) {
+ let c, title;
+ switch (aPresence) {
+ case DReport.PRESENT_IN_FIRST_ONLY:
+ c = '-';
+ title = "This value was only present in the first set of memory reports.";
+ break;
+ case DReport.PRESENT_IN_SECOND_ONLY:
+ c = '+';
+ title = "This value was only present in the second set of memory reports.";
+ break;
+ case DReport.ADDED_FOR_BALANCE:
+ c = '!';
+ title = "One of the sets of memory reports lacked children for this " +
+ "node's parent. This is a fake child node added to make the " +
+ "two memory sets comparable.";
+ break;
+ default: assert(false, "bad presence");
+ break;
+ }
+ let noteSpan = appendElementWithText(aP, "span", "mrNote",
+ " [" + c + "]\n");
+ noteSpan.title = title;
+ }
+}
+
+// This is used to record the (safe) IDs of which sub-trees have been manually
+// expanded (marked as true) and collapsed (marked as false). It's used to
+// replicate the collapsed/expanded state when the page is updated. It can end
+// up holding IDs of nodes that no longer exist, e.g. for compartments that
+// have been closed. This doesn't seem like a big deal, because the number is
+// limited by the number of entries the user has changed from their original
+// state.
+var gShowSubtreesBySafeTreeId = {};
+
+function assertClassListContains(e, className) {
+ assert(e, "undefined " + className);
+ assert(e.classList.contains(className), "classname isn't " + className);
+}
+
+function toggle(aEvent)
+{
+ // This relies on each line being a span that contains at least four spans:
+ // mrValue, mrPerc, mrSep, mrName, and then zero or more mrNotes. All
+ // whitespace must be within one of these spans for this function to find the
+ // right nodes. And the span containing the children of this line must
+ // immediately follow. Assertions check this.
+
+ // |aEvent.target| will be one of the spans. Get the outer span.
+ let outerSpan = aEvent.target.parentNode;
+ assertClassListContains(outerSpan, "hasKids");
+
+ // Toggle the '++'/'--' separator.
+ let isExpansion;
+ let sepSpan = outerSpan.childNodes[2];
+ assertClassListContains(sepSpan, "mrSep");
+ if (sepSpan.textContent === kHideKidsSep) {
+ isExpansion = true;
+ sepSpan.textContent = kShowKidsSep;
+ } else if (sepSpan.textContent === kShowKidsSep) {
+ isExpansion = false;
+ sepSpan.textContent = kHideKidsSep;
+ } else {
+ assert(false, "bad sepSpan textContent");
+ }
+
+ // Toggle visibility of the span containing this node's children.
+ let subTreeSpan = outerSpan.nextSibling;
+ assertClassListContains(subTreeSpan, "kids");
+ subTreeSpan.classList.toggle("hidden");
+
+ // Record/unrecord that this sub-tree was toggled.
+ let safeTreeId = outerSpan.id;
+ if (gShowSubtreesBySafeTreeId[safeTreeId] !== undefined) {
+ delete gShowSubtreesBySafeTreeId[safeTreeId];
+ } else {
+ gShowSubtreesBySafeTreeId[safeTreeId] = isExpansion;
+ }
+}
+
+function expandPathToThisElement(aElement)
+{
+ if (aElement.classList.contains("kids")) {
+ // Unhide the kids.
+ aElement.classList.remove("hidden");
+ expandPathToThisElement(aElement.previousSibling); // hasKids
+
+ } else if (aElement.classList.contains("hasKids")) {
+ // Change the separator to '--'.
+ let sepSpan = aElement.childNodes[2];
+ assertClassListContains(sepSpan, "mrSep");
+ sepSpan.textContent = kShowKidsSep;
+ expandPathToThisElement(aElement.parentNode); // kids or pre.entries
+
+ } else {
+ assertClassListContains(aElement, "entries");
+ }
+}
+
+/**
+ * Appends the elements for the tree, including its heading.
+ *
+ * @param aP
+ * The parent DOM node.
+ * @param aRoot
+ * The tree root.
+ * @param aProcess
+ * The process the tree corresponds to.
+ * @param aPadText
+ * A string to pad the start of each entry.
+ */
+function appendTreeElements(aP, aRoot, aProcess, aPadText)
+{
+ /**
+ * Appends the elements for a particular tree, without a heading.
+ *
+ * @param aP
+ * The parent DOM node.
+ * @param aProcess
+ * The process the tree corresponds to.
+ * @param aUnsafeNames
+ * An array of the names forming the path to aT.
+ * @param aRoot
+ * The root of the tree this sub-tree belongs to.
+ * @param aT
+ * The tree.
+ * @param aTreelineText1
+ * The first part of the treeline for this entry and this entry's
+ * children.
+ * @param aTreelineText2a
+ * The second part of the treeline for this entry.
+ * @param aTreelineText2b
+ * The second part of the treeline for this entry's children.
+ * @param aParentStringLength
+ * The length of the formatted byte count of the top node in the tree.
+ */
+ function appendTreeElements2(aP, aProcess, aUnsafeNames, aRoot, aT,
+ aTreelineText1, aTreelineText2a,
+ aTreelineText2b, aParentStringLength)
+ {
+ function appendN(aS, aC, aN)
+ {
+ for (let i = 0; i < aN; i++) {
+ aS += aC;
+ }
+ return aS;
+ }
+
+ // The tree line. Indent more if this entry is narrower than its parent.
+ let valueText = aT.toString();
+ let extraTreelineLength =
+ Math.max(aParentStringLength - valueText.length, 0);
+ if (extraTreelineLength > 0) {
+ aTreelineText2a =
+ appendN(aTreelineText2a, kHorizontal, extraTreelineLength);
+ aTreelineText2b =
+ appendN(aTreelineText2b, " ", extraTreelineLength);
+ }
+ let treelineText = aTreelineText1 + aTreelineText2a;
+ appendElementWithText(aP, "span", "treeline", treelineText);
+
+ // Detect and record invalid values. But not if gIsDiff is true, because
+ // we expect negative values in that case.
+ assertInput(aRoot._units === aT._units,
+ "units within a tree are inconsistent");
+ let tIsInvalid = false;
+ if (!gIsDiff && !(0 <= aT._amount && aT._amount <= aRoot._amount)) {
+ tIsInvalid = true;
+ let unsafePath = aUnsafeNames.join("/");
+ gUnsafePathsWithInvalidValuesForThisProcess.push(unsafePath);
+ reportAssertionFailure("Invalid value (" + aT._amount + " / " +
+ aRoot._amount + ") for " +
+ flipBackslashes(unsafePath));
+ }
+
+ // For non-leaf nodes, the entire sub-tree is put within a span so it can
+ // be collapsed if the node is clicked on.
+ let d;
+ let sep;
+ let showSubtrees;
+ if (aT._kids) {
+ // Determine if we should show the sub-tree below this entry; this
+ // involves reinstating any previous toggling of the sub-tree.
+ let unsafePath = aUnsafeNames.join("/");
+ let safeTreeId = aProcess + ":" + flipBackslashes(unsafePath);
+ showSubtrees = !aT._hideKids;
+ if (gShowSubtreesBySafeTreeId[safeTreeId] !== undefined) {
+ showSubtrees = gShowSubtreesBySafeTreeId[safeTreeId];
+ }
+ d = appendElement(aP, "span", "hasKids");
+ d.id = safeTreeId;
+ d.onclick = toggle;
+ sep = showSubtrees ? kShowKidsSep : kHideKidsSep;
+ } else {
+ assert(!aT._hideKids, "leaf node with _hideKids set")
+ sep = kNoKidsSep;
+ d = aP;
+ }
+
+ // The value.
+ appendElementWithText(d, "span", "mrValue" + (tIsInvalid ? " invalid" : ""),
+ valueText);
+
+ // The percentage (omitted for single entries).
+ let percText;
+ if (!aT._isDegenerate) {
+ // Treat 0 / 0 as 100%.
+ let num = aRoot._amount === 0 ? 100 : (100 * aT._amount / aRoot._amount);
+ let numText = num.toFixed(2);
+ percText = numText === "100.00"
+ ? " (100.0%)"
+ : (0 <= num && num < 10 ? " (0" : " (") + numText + "%)";
+ appendElementWithText(d, "span", "mrPerc", percText);
+ }
+
+ // The separator.
+ appendElementWithText(d, "span", "mrSep", sep);
+
+ // The entry's name.
+ appendMrNameSpan(d, aT._description, aT._unsafeName,
+ tIsInvalid, aT._nMerged, aT._presence);
+
+ // In non-verbose mode, invalid nodes can be hidden in collapsed sub-trees.
+ // But it's good to always see them, so force this.
+ if (!gVerbose.checked && tIsInvalid) {
+ expandPathToThisElement(d);
+ }
+
+ // Recurse over children.
+ if (aT._kids) {
+ // The 'kids' class is just used for sanity checking in toggle().
+ d = appendElement(aP, "span", showSubtrees ? "kids" : "kids hidden");
+
+ let kidTreelineText1 = aTreelineText1 + aTreelineText2b;
+ for (let i = 0; i < aT._kids.length; i++) {
+ let kidTreelineText2a, kidTreelineText2b;
+ if (i < aT._kids.length - 1) {
+ kidTreelineText2a = kVerticalAndRight_Right_Right;
+ kidTreelineText2b = kVertical_Space_Space;
+ } else {
+ kidTreelineText2a = kUpAndRight_Right_Right;
+ kidTreelineText2b = " ";
+ }
+ aUnsafeNames.push(aT._kids[i]._unsafeName);
+ appendTreeElements2(d, aProcess, aUnsafeNames, aRoot, aT._kids[i],
+ kidTreelineText1, kidTreelineText2a,
+ kidTreelineText2b, valueText.length);
+ aUnsafeNames.pop();
+ }
+ }
+ }
+
+ let rootStringLength = aRoot.toString().length;
+ appendTreeElements2(aP, aProcess, [aRoot._unsafeName], aRoot, aRoot,
+ aPadText, "", "", rootStringLength);
+}
+
+// ---------------------------------------------------------------------------
+
+function appendSectionHeader(aP, aText)
+{
+ appendElementWithText(aP, "h2", "", aText + "\n");
+ return appendElement(aP, "pre", "entries");
+}
+
+// ---------------------------------------------------------------------------
+
+function saveReportsToFile()
+{
+ let fp = Cc["@mozilla.org/filepicker;1"].createInstance(Ci.nsIFilePicker);
+ fp.appendFilter("Zipped JSON files", "*.json.gz");
+ fp.appendFilters(Ci.nsIFilePicker.filterAll);
+ fp.filterIndex = 0;
+ fp.addToRecentDocs = true;
+ fp.defaultString = "memory-report.json.gz";
+
+ let fpFinish = function(file) {
+ let dumper = Cc["@mozilla.org/memory-info-dumper;1"]
+ .getService(Ci.nsIMemoryInfoDumper);
+ let finishDumping = () => {
+ updateMainAndFooter("Saved memory reports to " + file.path, HIDE_FOOTER);
+ }
+ dumper.dumpMemoryReportsToNamedFile(file.path, finishDumping, null,
+ gAnonymize.checked);
+ }
+
+ let fpCallback = function(aResult) {
+ if (aResult == Ci.nsIFilePicker.returnOK ||
+ aResult == Ci.nsIFilePicker.returnReplace) {
+ fpFinish(fp.file);
+ }
+ };
+
+ try {
+ fp.init(window, "Save Memory Reports", Ci.nsIFilePicker.modeSave);
+ } catch (ex) {
+ // This will fail on Android, since there is no Save as file picker there.
+ // Just save to the default downloads dir if it does.
+ Downloads.getSystemDownloadsDirectory().then(function(dirPath) {
+ let file = FileUtils.File(dirPath);
+ file.append(fp.defaultString);
+ fpFinish(file);
+ });
+
+ return;
+ }
+ fp.open(fpCallback);
+}