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ec65c8410d
Also do not allow to register non-native components as weak reporters.
517 lines
20 KiB
Plaintext
517 lines
20 KiB
Plaintext
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "nsISupports.idl"
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interface nsICancelableRunnable;
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interface nsIDOMWindow;
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interface nsIRunnable;
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interface nsISimpleEnumerator;
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/*
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* Memory reporters measure Firefox's memory usage. They are primarily used to
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* generate the about:memory page. You should read
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* https://wiki.mozilla.org/Memory_Reporting before writing a memory
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* reporter.
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*/
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[scriptable, function, uuid(3a61be3b-b93b-461a-a4f8-388214f558b1)]
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interface nsIMemoryReporterCallback : nsISupports
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{
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/*
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* The arguments to the callback are as follows.
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*
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*
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* |process| The name of the process containing this reporter. Each
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* reporter initially has "" in this field, indicating that it applies to the
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* current process. (This is true even for reporters in a child process.)
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* When a reporter from a child process is copied into the main process, the
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* copy has its 'process' field set appropriately.
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*
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*
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* |path| The path that this memory usage should be reported under. Paths
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* are '/'-delimited, eg. "a/b/c".
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*
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* Each reporter can be viewed as representing a leaf node in a tree.
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* Internal nodes of the tree don't have reporters. So, for example, the
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* reporters "explicit/a/b", "explicit/a/c", "explicit/d/e", and
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* "explicit/d/f" define this tree:
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*
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* explicit
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* |--a
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* | |--b [*]
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* | \--c [*]
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* \--d
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* |--e [*]
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* \--f [*]
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*
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* Nodes marked with a [*] have a reporter. Notice that the internal
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* nodes are implicitly defined by the paths.
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*
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* Nodes within a tree should not overlap measurements, otherwise the
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* parent node measurements will be double-counted. So in the example
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* above, |b| should not count any allocations counted by |c|, and vice
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* versa.
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*
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* All nodes within each tree must have the same units.
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*
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* If you want to include a '/' not as a path separator, e.g. because the
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* path contains a URL, you need to convert each '/' in the URL to a '\'.
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* Consumers of the path will undo this change. Any other '\' character
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* in a path will also be changed. This is clumsy but hasn't caused any
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* problems so far.
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*
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* The paths of all reporters form a set of trees. Trees can be
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* "degenerate", i.e. contain a single entry with no '/'.
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*
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*
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* |kind| There are three kinds of memory reporters.
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*
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* - HEAP: reporters measuring memory allocated by the heap allocator,
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* e.g. by calling malloc, calloc, realloc, memalign, operator new, or
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* operator new[]. Reporters in this category must have units
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* UNITS_BYTES.
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*
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* - NONHEAP: reporters measuring memory which the program explicitly
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* allocated, but does not live on the heap. Such memory is commonly
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* allocated by calling one of the OS's memory-mapping functions (e.g.
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* mmap, VirtualAlloc, or vm_allocate). Reporters in this category
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* must have units UNITS_BYTES.
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*
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* - OTHER: reporters which don't fit into either of these categories.
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* They can have any units.
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*
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* The kind only matters for reporters in the "explicit" tree;
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* aboutMemory.js uses it to calculate "heap-unclassified".
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*
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*
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* |units| The units on the reporter's amount. One of the following.
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*
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* - BYTES: The amount contains a number of bytes.
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*
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* - COUNT: The amount is an instantaneous count of things currently in
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* existence. For instance, the number of tabs currently open would have
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* units COUNT.
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*
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* - COUNT_CUMULATIVE: The amount contains the number of times some event
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* has occurred since the application started up. For instance, the
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* number of times the user has opened a new tab would have units
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* COUNT_CUMULATIVE.
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*
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* The amount returned by a reporter with units COUNT_CUMULATIVE must
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* never decrease over the lifetime of the application.
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*
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* - PERCENTAGE: The amount contains a fraction that should be expressed as
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* a percentage. NOTE! The |amount| field should be given a value 100x
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* the actual percentage; this number will be divided by 100 when shown.
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* This allows a fractional percentage to be shown even though |amount| is
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* an integer. E.g. if the actual percentage is 12.34%, |amount| should
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* be 1234.
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*
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* Values greater than 100% are allowed.
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*
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*
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* |amount| The numeric value reported by this memory reporter. Accesses
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* can fail if something goes wrong when getting the amount.
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*
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*
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* |description| A human-readable description of this memory usage report.
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*/
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void callback(in ACString process, in AUTF8String path, in int32_t kind,
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in int32_t units, in int64_t amount,
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in AUTF8String description, in nsISupports data);
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};
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/*
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* An nsIMemoryReporter reports one or more memory measurements via a
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* callback function which is called once for each measurement.
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*
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* An nsIMemoryReporter that reports a single measurement is sometimes called a
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* "uni-reporter". One that reports multiple measurements is sometimes called
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* a "multi-reporter".
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*
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* aboutMemory.js is the most important consumer of memory reports. It
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* places the following constraints on reports.
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*
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* - All reports within a single sub-tree must have the same units.
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*
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* - There may be an "explicit" tree. If present, it represents
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* non-overlapping regions of memory that have been explicitly allocated with
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* an OS-level allocation (e.g. mmap/VirtualAlloc/vm_allocate) or a
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* heap-level allocation (e.g. malloc/calloc/operator new). Reporters in
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* this tree must have kind HEAP or NONHEAP, units BYTES.
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*
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* It is preferred, but not required, that report descriptions use complete
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* sentences (i.e. start with a capital letter and end with a period, or
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* similar).
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*/
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[scriptable, uuid(0884cd0f-5829-4381-979b-0f53904030ed)]
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interface nsIMemoryReporter : nsISupports
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{
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/*
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* Run the reporter.
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*/
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void collectReports(in nsIMemoryReporterCallback callback,
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in nsISupports data);
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/*
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* Kinds. See the |kind| comment in nsIMemoryReporterCallback.
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*/
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const int32_t KIND_NONHEAP = 0;
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const int32_t KIND_HEAP = 1;
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const int32_t KIND_OTHER = 2;
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/*
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* Units. See the |units| comment in nsIMemoryReporterCallback.
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*/
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const int32_t UNITS_BYTES = 0;
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const int32_t UNITS_COUNT = 1;
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const int32_t UNITS_COUNT_CUMULATIVE = 2;
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const int32_t UNITS_PERCENTAGE = 3;
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};
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[scriptable, function, uuid(548b3909-c04d-4ca6-8466-b8bee3837457)]
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interface nsIFinishReportingCallback : nsISupports
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{
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void callback(in nsISupports data);
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};
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[scriptable, builtinclass, uuid(e4e4ca56-13e0-46f1-b3c5-62d2c09fc98e)]
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interface nsIMemoryReporterManager : nsISupports
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{
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/*
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* Initialize.
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*/
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void init();
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/*
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* Register the given nsIMemoryReporter. The Manager service will hold a
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* strong reference to the given reporter, and will be responsible for freeing
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* the reporter at shutdown. You may manually unregister the reporter with
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* unregisterStrongReporter() at any point.
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*/
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void registerStrongReporter(in nsIMemoryReporter reporter);
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/*
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* Like registerReporter, but the Manager service will hold a weak reference
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* via a raw pointer to the given reporter. The reporter should be
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* unregistered before shutdown.
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* You cannot register JavaScript components with this function! Always
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* register your JavaScript components with registerStrongReporter().
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*/
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void registerWeakReporter(in nsIMemoryReporter reporter);
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/*
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* Unregister the given memory reporter, which must have been registered with
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* registerStrongReporter(). You normally don't need to unregister your
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* strong reporters, as nsIMemoryReporterManager will take care of that at
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* shutdown.
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*/
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void unregisterStrongReporter(in nsIMemoryReporter reporter);
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/*
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* Unregister the given memory reporter, which must have been registered with
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* registerWeakReporter().
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*/
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void unregisterWeakReporter(in nsIMemoryReporter reporter);
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/*
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* These functions should only be used for testing purposes.
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*/
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void blockRegistrationAndHideExistingReporters();
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void unblockRegistrationAndRestoreOriginalReporters();
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void registerStrongReporterEvenIfBlocked(in nsIMemoryReporter aReporter);
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/*
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* Get memory reports for the current process and all child processes.
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* |handleReport| is called for each report, and |finishReporting| is called
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* once all reports have been handled.
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*
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* |finishReporting| is called even if, for example, some child processes
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* fail to report back. However, calls to this method will silently and
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* immediately abort -- and |finishReporting| will not be called -- if a
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* previous getReports() call is still in flight, i.e. if it has not yet
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* finished invoking |finishReporting|. The silent abort is because the
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* in-flight request will finish soon, and the caller would very likely just
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* catch and ignore any error anyway.
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*/
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void getReports(in nsIMemoryReporterCallback handleReport,
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in nsISupports handleReportData,
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in nsIFinishReportingCallback finishReporting,
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in nsISupports finishReportingData);
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/*
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* Get memory reports in the current process only. |handleReport| is called
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* for each report.
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*/
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void getReportsForThisProcess(in nsIMemoryReporterCallback handleReport,
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in nsISupports handleReportData);
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/*
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* The memory reporter manager, for the most part, treats reporters
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* registered with it as a black box. However, there are some
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* "distinguished" amounts (as could be reported by a memory reporter) that
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* the manager provides as attributes, because they are sufficiently
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* interesting that we want external code (e.g. telemetry) to be able to rely
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* on them.
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*
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* Note that these are not reporters and so getReports() and
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* getReportsForThisProcess() do not look at them. However, distinguished
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* amounts can be embedded in a reporter.
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*
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* Access to these attributes can fail. In particular, some of them are not
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* available on all platforms.
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*
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* If you add a new distinguished amount, please update
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* toolkit/components/aboutmemory/tests/test_memoryReporters.xul.
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*
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* |explicit| (UNITS_BYTES) The total size of explicit memory allocations,
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* both at the OS-level (eg. via mmap, VirtualAlloc) and at the heap level
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* (eg. via malloc, calloc, operator new). It covers all heap allocations,
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* but will miss any OS-level ones not covered by memory reporters.
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*
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* |vsize| (UNITS_BYTES) The virtual size, i.e. the amount of address space
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* taken up.
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*
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* |vsizeMaxContiguous| (UNITS_BYTES) The size of the largest contiguous
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* block of virtual memory.
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*
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* |resident| (UNITS_BYTES) The resident size (a.k.a. RSS or physical memory
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* used).
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*
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* |residentFast| (UNITS_BYTES) This is like |resident|, but on Mac OS
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* |resident| can purge pages, which is slow. It also affects the result of
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* |residentFast|, and so |resident| and |residentFast| should not be used
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* together.
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*
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* |heapAllocated| (UNITS_BYTES) Memory mapped by the heap allocator.
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*
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* |heapOverheadRatio| (UNITS_PERCENTAGE) In the heap allocator, this is the
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* ratio of committed, unused bytes to allocated bytes. Like all
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* UNITS_PERCENTAGE measurements, its amount is multiplied by 100x so it can
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* be represented by an int64_t.
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*
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* |JSMainRuntimeGCHeap| (UNITS_BYTES) Size of the main JS runtime's GC
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* heap.
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*
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* |JSMainRuntimeTemporaryPeak| (UNITS_BYTES) Peak size of the transient
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* storage in the main JSRuntime.
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*
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* |JSMainRuntimeCompartments{System,User}| (UNITS_COUNT) The number of
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* {system,user} compartments in the main JS runtime.
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*
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* |imagesContentUsedUncompressed| (UNITS_BYTES) Memory used for decoded
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* images in content.
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*
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* |storageSQLite| (UNITS_BYTES) Memory used by SQLite.
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*
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* |lowMemoryEvents{Virtual,Physical}| (UNITS_COUNT_CUMULATIVE) The number
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* of low-{virtual,physical}-memory events that have occurred since the
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* process started.
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*
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* |ghostWindows| (UNITS_COUNT) The number of ghost windows.
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*
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* |pageFaultsHard| (UNITS_COUNT_CUMULATIVE) The number of hard (a.k.a.
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* major) page faults that have occurred since the process started.
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*/
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readonly attribute int64_t explicit;
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readonly attribute int64_t vsize;
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readonly attribute int64_t vsizeMaxContiguous;
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readonly attribute int64_t resident;
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readonly attribute int64_t residentFast;
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readonly attribute int64_t heapAllocated;
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readonly attribute int64_t heapOverheadRatio;
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readonly attribute int64_t JSMainRuntimeGCHeap;
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readonly attribute int64_t JSMainRuntimeTemporaryPeak;
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readonly attribute int64_t JSMainRuntimeCompartmentsSystem;
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readonly attribute int64_t JSMainRuntimeCompartmentsUser;
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readonly attribute int64_t imagesContentUsedUncompressed;
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readonly attribute int64_t storageSQLite;
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readonly attribute int64_t lowMemoryEventsVirtual;
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readonly attribute int64_t lowMemoryEventsPhysical;
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readonly attribute int64_t ghostWindows;
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readonly attribute int64_t pageFaultsHard;
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/*
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* This attribute indicates if moz_malloc_usable_size() works.
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*/
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[infallible] readonly attribute boolean hasMozMallocUsableSize;
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/*
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* Run a series of GC/CC's in an attempt to minimize the application's memory
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* usage. When we're finished, we invoke the given runnable if it's not
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* null. Returns a reference to the runnable used for carrying out the task.
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*/
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nsICancelableRunnable minimizeMemoryUsage(in nsIRunnable callback);
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/*
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* Measure the memory that is known to be owned by this tab, split up into
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* several broad categories. Note that this will be an underestimate of the
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* true number, due to imperfect memory reporter coverage (corresponding to
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* about:memory's "heap-unclassified"), and due to some memory shared between
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* tabs not being counted.
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*
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* The time taken for the measurement (split into JS and non-JS parts) is
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* also returned.
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*/
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void sizeOfTab(in nsIDOMWindow window,
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out int64_t jsObjectsSize, out int64_t jsStringsSize,
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out int64_t jsOtherSize, out int64_t domSize,
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out int64_t styleSize, out int64_t otherSize,
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out int64_t totalSize,
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out double jsMilliseconds, out double nonJSMilliseconds);
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};
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%{C++
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#include "js/TypeDecls.h"
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#include "nsStringGlue.h"
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#include "nsTArray.h"
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class nsPIDOMWindow;
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// nsIHandleReportCallback is a better name, but keep nsIMemoryReporterCallback
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// around for backwards compatibility.
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typedef nsIMemoryReporterCallback nsIHandleReportCallback;
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namespace mozilla {
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// Register a memory reporter. The manager service will hold a strong
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// reference to this reporter.
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XPCOM_API(nsresult) RegisterStrongMemoryReporter(nsIMemoryReporter* aReporter);
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// Register a memory reporter. The manager service will hold a weak reference
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// to this reporter.
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XPCOM_API(nsresult) RegisterWeakMemoryReporter(nsIMemoryReporter* aReporter);
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// Unregister a weak memory reporter.
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XPCOM_API(nsresult) UnregisterWeakMemoryReporter(nsIMemoryReporter* aReporter);
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// The memory reporter manager provides access to several distinguished
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// amounts via attributes. Some of these amounts are provided by Gecko
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// components that cannot be accessed directly from XPCOM code. So we provide
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// the following functions for those components to be registered with the
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// manager.
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typedef int64_t (*InfallibleAmountFn)();
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typedef nsresult (*FallibleAmountFn)(int64_t* aAmount);
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#define DECL_REGISTER_DISTINGUISHED_AMOUNT(kind, name) \
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nsresult Register##name##DistinguishedAmount(kind##AmountFn aAmountFn);
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#define DECL_UNREGISTER_DISTINGUISHED_AMOUNT(name) \
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nsresult Unregister##name##DistinguishedAmount();
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, JSMainRuntimeGCHeap)
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, JSMainRuntimeTemporaryPeak)
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, JSMainRuntimeCompartmentsSystem)
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, JSMainRuntimeCompartmentsUser)
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, ImagesContentUsedUncompressed)
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, StorageSQLite)
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DECL_UNREGISTER_DISTINGUISHED_AMOUNT(StorageSQLite)
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, LowMemoryEventsVirtual)
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, LowMemoryEventsPhysical)
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DECL_REGISTER_DISTINGUISHED_AMOUNT(Infallible, GhostWindows)
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#undef DECL_REGISTER_DISTINGUISHED_AMOUNT
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#undef DECL_UNREGISTER_DISTINGUISHED_AMOUNT
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// Likewise for per-tab measurement.
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typedef nsresult (*JSSizeOfTabFn)(JSObject* aObj,
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size_t* aJsObjectsSize,
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size_t* aJsStringSize,
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size_t* aJsPrivateSize,
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size_t* aJsOtherSize);
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typedef nsresult (*NonJSSizeOfTabFn)(nsPIDOMWindow* aWindow,
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size_t* aDomSize,
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size_t* aStyleSize,
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size_t* aOtherSize);
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nsresult RegisterJSSizeOfTab(JSSizeOfTabFn aSizeOfTabFn);
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nsresult RegisterNonJSSizeOfTab(NonJSSizeOfTabFn aSizeOfTabFn);
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}
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#if defined(MOZ_DMD)
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namespace mozilla {
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namespace dmd {
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// This runs all the memory reporters in the current process but does nothing
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// with the results; i.e. it does the minimal amount of work possible for DMD
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// to do its thing. It does nothing with child processes.
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void RunReportersForThisProcess();
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}
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}
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#if !defined(MOZ_MEMORY)
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#error "MOZ_DMD requires MOZ_MEMORY"
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#endif
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#include "DMD.h"
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#define MOZ_REPORT(ptr) mozilla::dmd::Report(ptr)
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#define MOZ_REPORT_ON_ALLOC(ptr) mozilla::dmd::ReportOnAlloc(ptr)
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#else
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|
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#define MOZ_REPORT(ptr)
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#define MOZ_REPORT_ON_ALLOC(ptr)
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#endif // defined(MOZ_DMD)
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// Functions generated via this macro should be used by all traversal-based
|
|
// memory reporters. Such functions return |moz_malloc_size_of(ptr)|; this
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// will always be zero on some obscure platforms.
|
|
//
|
|
// You might be wondering why we have a macro that creates multiple functions
|
|
// that differ only in their name, instead of a single MallocSizeOf function.
|
|
// It's mostly to help with DMD integration, though it sometimes also helps
|
|
// with debugging and temporary ad hoc profiling. The function name chosen
|
|
// doesn't matter greatly, but it's best to make it similar to the path used by
|
|
// the relevant memory reporter(s).
|
|
#define MOZ_DEFINE_MALLOC_SIZE_OF(fn) \
|
|
static size_t fn(const void* aPtr) \
|
|
{ \
|
|
MOZ_REPORT(aPtr); \
|
|
return moz_malloc_size_of(aPtr); \
|
|
}
|
|
|
|
// Functions generated by the next two macros should be used by wrapping
|
|
// allocators that report heap blocks as soon as they are allocated and
|
|
// unreport them as soon as they are freed. Such allocators are used in cases
|
|
// where we have third-party code that we cannot modify. The two functions
|
|
// must always be used in tandem.
|
|
#define MOZ_DEFINE_MALLOC_SIZE_OF_ON_ALLOC(fn) \
|
|
static size_t fn(const void* aPtr) \
|
|
{ \
|
|
MOZ_REPORT_ON_ALLOC(aPtr); \
|
|
return moz_malloc_size_of(aPtr); \
|
|
}
|
|
#define MOZ_DEFINE_MALLOC_SIZE_OF_ON_FREE(fn) \
|
|
static size_t fn(const void* aPtr) \
|
|
{ \
|
|
return moz_malloc_size_of(aPtr); \
|
|
}
|
|
|
|
// This macro assumes the presence of appropriate |aHandleReport| and |aData|
|
|
// variables.
|
|
#define MOZ_COLLECT_REPORT(path, kind, units, amount, description) \
|
|
aHandleReport->Callback(EmptyCString(), NS_LITERAL_CSTRING(path), \
|
|
kind, units, amount, \
|
|
NS_LITERAL_CSTRING(description), aData)
|
|
|
|
%}
|