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198 lines
9.9 KiB
Markdown
198 lines
9.9 KiB
Markdown
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This document describes how malloc / new calls are routed in the various Chrome
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platforms.
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Bare in mind that the chromium codebase does not always just use `malloc()`.
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Some examples:
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- Large parts of the renderer (Blink) use two home-brewed allocators,
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PartitionAlloc and BlinkGC (Oilpan).
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- Some subsystems, such as the V8 JavaScript engine, handle memory management
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autonomously.
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- Various parts of the codebase use abstractions such as `SharedMemory` or
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`DiscardableMemory` which, similarly to the above, have their own page-level
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memory management.
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Background
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----------
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The `allocator` target defines at compile-time the platform-specific choice of
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the allocator and extra-hooks which services calls to malloc/new. The relevant
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build-time flags involved are `use_allocator` and `use_allocator_shim`.
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The default choices are as follows:
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**Windows**
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`use_allocator: winheap`, the default Windows heap.
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Additionally, `static_library` (i.e. non-component) builds have a shim
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layer wrapping malloc/new, which is controlled by `use_allocator_shim`.
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The shim layer provides extra security features, such as preventing large
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allocations that can hit signed vs. unsigned bugs in third_party code.
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**Linux Desktop / CrOS**
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`use_allocator: tcmalloc`, a forked copy of tcmalloc which resides in
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`third_party/tcmalloc/chromium`. Setting `use_allocator: none` causes the build
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to fall back to the system (Glibc) symbols.
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**Android**
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`use_allocator: none`, always use the allocator symbols coming from Android's
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libc (Bionic). As it is developed as part of the OS, it is considered to be
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optimized for small devices and more memory-efficient than other choices.
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The actual implementation backing malloc symbols in Bionic is up to the board
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config and can vary (typically *dlmalloc* or *jemalloc* on most Nexus devices).
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**Mac/iOS**
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`use_allocator: none`, we always use the system's allocator implementation.
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In addition, when building for `asan` / `msan` / `syzyasan` `valgrind`, the
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both the allocator and the shim layer are disabled.
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Layering and build deps
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-----------------------
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The `allocator` target provides both the source files for tcmalloc (where
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applicable) and the linker flags required for the Windows shim layer.
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The `base` target is (almost) the only one depending on `allocator`. No other
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targets should depend on it, with the exception of the very few executables /
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dynamic libraries that don't depend, either directly or indirectly, on `base`
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within the scope of a linker unit.
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More importantly, **no other place outside of `/base` should depend on the
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specific allocator** (e.g., directly include `third_party/tcmalloc`).
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If such a functional dependency is required that should be achieved using
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abstractions in `base` (see `/base/allocator/allocator_extension.h` and
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`/base/memory/`)
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**Why `base` depends on `allocator`?**
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Because it needs to provide services that depend on the actual allocator
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implementation. In the past `base` used to pretend to be allocator-agnostic
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and get the dependencies injected by other layers. This ended up being an
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inconsistent mess.
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See the [allocator cleanup doc][url-allocator-cleanup] for more context.
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Linker unit targets (executables and shared libraries) that depend in some way
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on `base` (most of the targets in the codebase) get automatically the correct
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set of linker flags to pull in tcmalloc or the Windows shim-layer.
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Source code
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-----------
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This directory contains just the allocator (i.e. shim) layer that switches
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between the different underlying memory allocation implementations.
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The tcmalloc library originates outside of Chromium and exists in
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`../../third_party/tcmalloc` (currently, the actual location is defined in the
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allocator.gyp file). The third party sources use a vendor-branch SCM pattern to
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track Chromium-specific changes independently from upstream changes.
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The general intent is to push local changes upstream so that over
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time we no longer need any forked files.
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Unified allocator shim
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----------------------
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On most platforms, Chrome overrides the malloc / operator new symbols (and
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corresponding free / delete and other variants). This is to enforce security
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checks and lately to enable the
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[memory-infra heap profiler][url-memory-infra-heap-profiler].
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Historically each platform had its special logic for defining the allocator
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symbols in different places of the codebase. The unified allocator shim is
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a project aimed to unify the symbol definition and allocator routing logic in
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a central place.
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- Full documentation: [Allocator shim design doc][url-allocator-shim].
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- Current state: Available and enabled by default on Android, CrOS, Linux,
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Mac OS and Windows.
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- Tracking bug: [https://crbug.com/550886][crbug.com/550886].
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- Build-time flag: `use_allocator_shim`.
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**Overview of the unified allocator shim**
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The allocator shim consists of three stages:
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```
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+-------------------------+ +-----------------------+ +----------------+
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| malloc & friends | -> | shim layer | -> | Routing to |
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| symbols definition | | implementation | | allocator |
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+-------------------------+ +-----------------------+ +----------------+
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| - libc symbols (malloc, | | - Security checks | | - tcmalloc |
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| calloc, free, ...) | | - Chain of dispatchers| | - glibc |
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| - C++ symbols (operator | | that can intercept | | - Android |
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| new, delete, ...) | | and override | | bionic |
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| - glibc weak symbols | | allocations | | - WinHeap |
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| (__libc_malloc, ...) | +-----------------------+ +----------------+
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+-------------------------+
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```
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**1. malloc symbols definition**
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This stage takes care of overriding the symbols `malloc`, `free`,
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`operator new`, `operator delete` and friends and routing those calls inside the
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allocator shim (next point).
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This is taken care of by the headers in `allocator_shim_override_*`.
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*On Linux/CrOS*: the allocator symbols are defined as exported global symbols
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in `allocator_shim_override_libc_symbols.h` (for `malloc`, `free` and friends)
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and in `allocator_shim_override_cpp_symbols.h` (for `operator new`,
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`operator delete` and friends).
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This enables proper interposition of malloc symbols referenced by the main
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executable and any third party libraries. Symbol resolution on Linux is a breadth first search that starts from the root link unit, that is the executable
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(see EXECUTABLE AND LINKABLE FORMAT (ELF) - Portable Formats Specification).
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Additionally, when tcmalloc is the default allocator, some extra glibc symbols
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are also defined in `allocator_shim_override_glibc_weak_symbols.h`, for subtle
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reasons explained in that file.
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The Linux/CrOS shim was introduced by
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[crrev.com/1675143004](https://crrev.com/1675143004).
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*On Android*: load-time symbol interposition (unlike the Linux/CrOS case) is not
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possible. This is because Android processes are `fork()`-ed from the Android
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zygote, which pre-loads libc.so and only later native code gets loaded via
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`dlopen()` (symbols from `dlopen()`-ed libraries get a different resolution
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scope).
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In this case, the approach instead of wrapping symbol resolution at link time
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(i.e. during the build), via the `--Wl,-wrap,malloc` linker flag.
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The use of this wrapping flag causes:
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- All references to allocator symbols in the Chrome codebase to be rewritten as
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references to `__wrap_malloc` and friends. The `__wrap_malloc` symbols are
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defined in the `allocator_shim_override_linker_wrapped_symbols.h` and
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route allocator calls inside the shim layer.
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- The reference to the original `malloc` symbols (which typically is defined by
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the system's libc.so) are accessible via the special `__real_malloc` and
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friends symbols (which will be relocated, at load time, against `malloc`).
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In summary, this approach is transparent to the dynamic loader, which still sees
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undefined symbol references to malloc symbols.
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These symbols will be resolved against libc.so as usual.
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More details in [crrev.com/1719433002](https://crrev.com/1719433002).
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**2. Shim layer implementation**
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This stage contains the actual shim implementation. This consists of:
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- A singly linked list of dispatchers (structs with function pointers to `malloc`-like functions). Dispatchers can be dynamically inserted at runtime
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(using the `InsertAllocatorDispatch` API). They can intercept and override
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allocator calls.
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- The security checks (suicide on malloc-failure via `std::new_handler`, etc).
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This happens inside `allocator_shim.cc`
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**3. Final allocator routing**
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The final element of the aforementioned dispatcher chain is statically defined
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at build time and ultimately routes the allocator calls to the actual allocator
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(as described in the *Background* section above). This is taken care of by the
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headers in `allocator_shim_default_dispatch_to_*` files.
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Appendixes
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----------
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**How does the Windows shim layer replace the malloc symbols?**
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The mechanism for hooking LIBCMT in Windows is rather tricky. The core
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problem is that by default, the Windows library does not declare malloc and
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free as weak symbols. Because of this, they cannot be overridden. To work
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around this, we start with the LIBCMT.LIB, and manually remove all allocator
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related functions from it using the visual studio library tool. Once removed,
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we can now link against the library and provide custom versions of the
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allocator related functionality.
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See the script `preb_libc.py` in this folder.
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Related links
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-------------
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- [Unified allocator shim doc - Feb 2016][url-allocator-shim]
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- [Allocator cleanup doc - Jan 2016][url-allocator-cleanup]
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- [Proposal to use PartitionAlloc as default allocator](https://crbug.com/339604)
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- [Memory-Infra: Tools to profile memory usage in Chrome](/docs/memory-infra/README.md)
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[url-allocator-cleanup]: https://docs.google.com/document/d/1V77Kgp_4tfaaWPEZVxNevoD02wXiatnAv7Ssgr0hmjg/edit?usp=sharing
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[url-memory-infra-heap-profiler]: /docs/memory-infra/heap_profiler.md
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[url-allocator-shim]: https://docs.google.com/document/d/1yKlO1AO4XjpDad9rjcBOI15EKdAGsuGO_IeZy0g0kxo/edit?usp=sharing
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