9c06d16ca3
Test: treehugger Change-Id: I2c975b2f5f92f23c7357b6f7e785578504298cc6
401 lines
14 KiB
C
401 lines
14 KiB
C
/*
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* Copyright (C) 2012 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#pragma once
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/**
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* @file malloc.h
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* @brief Heap memory allocation.
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*
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* [Debugging Native Memory Use](https://source.android.com/devices/tech/debug/native-memory)
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* is the canonical source for documentation on Android's heap debugging
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* features.
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*/
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#include <sys/cdefs.h>
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#include <stddef.h>
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#include <stdio.h>
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__BEGIN_DECLS
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#define __BIONIC_ALLOC_SIZE(...) __attribute__((__alloc_size__(__VA_ARGS__)))
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/**
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* [malloc(3)](http://man7.org/linux/man-pages/man3/malloc.3.html) allocates
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* memory on the heap.
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*
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* Returns a pointer to the allocated memory on success and returns a null
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* pointer and sets `errno` on failure.
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*
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* Note that Android (like most Unix systems) allows "overcommit". This
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* allows processes to allocate more memory than the system has, provided
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* they don't use it all. This works because only "dirty" pages that have
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* been written to actually require physical memory. In practice, this
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* means that it's rare to see memory allocation functions return a null
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* pointer, and that a non-null pointer does not mean that you actually
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* have all of the memory you asked for.
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*
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* Note also that the Linux Out Of Memory (OOM) killer behaves differently
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* for code run via `adb shell`. The assumption is that if you ran
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* something via `adb shell` you're a developer who actually wants the
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* device to do what you're asking it to do _even if_ that means killing
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* other processes. Obviously this is not the case for apps, which will
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* be killed in preference to killing other processes.
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*/
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void* _Nullable malloc(size_t __byte_count) __mallocfunc __BIONIC_ALLOC_SIZE(1) __wur;
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/**
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* [calloc(3)](http://man7.org/linux/man-pages/man3/calloc.3.html) allocates
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* and clears memory on the heap.
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*
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* Returns a pointer to the allocated memory on success and returns a null
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* pointer and sets `errno` on failure (but see the notes for malloc()).
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*/
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void* _Nullable calloc(size_t __item_count, size_t __item_size) __mallocfunc __BIONIC_ALLOC_SIZE(1,2) __wur;
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/**
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* [realloc(3)](http://man7.org/linux/man-pages/man3/realloc.3.html) resizes
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* allocated memory on the heap.
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*
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* Returns a pointer (which may be different from `__ptr`) to the resized
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* memory on success and returns a null pointer and sets `errno` on failure
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* (but see the notes for malloc()).
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*/
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void* _Nullable realloc(void* _Nullable __ptr, size_t __byte_count) __BIONIC_ALLOC_SIZE(2) __wur;
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/**
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* [reallocarray(3)](http://man7.org/linux/man-pages/man3/realloc.3.html) resizes
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* allocated memory on the heap.
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*
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* Equivalent to `realloc(__ptr, __item_count * __item_size)` but fails if the
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* multiplication overflows.
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*
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* Returns a pointer (which may be different from `__ptr`) to the resized
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* memory on success and returns a null pointer and sets `errno` on failure
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* (but see the notes for malloc()).
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*/
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void* _Nullable reallocarray(void* _Nullable __ptr, size_t __item_count, size_t __item_size) __BIONIC_ALLOC_SIZE(2, 3) __wur __INTRODUCED_IN(29);
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/**
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* [free(3)](http://man7.org/linux/man-pages/man3/free.3.html) deallocates
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* memory on the heap.
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*/
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void free(void* _Nullable __ptr);
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/**
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* [memalign(3)](http://man7.org/linux/man-pages/man3/memalign.3.html) allocates
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* memory on the heap with the required alignment.
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*
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* Returns a pointer to the allocated memory on success and returns a null
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* pointer and sets `errno` on failure (but see the notes for malloc()).
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*
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* See also posix_memalign().
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*/
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void* _Nullable memalign(size_t __alignment, size_t __byte_count) __mallocfunc __BIONIC_ALLOC_SIZE(2) __wur;
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/**
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* [malloc_usable_size(3)](http://man7.org/linux/man-pages/man3/malloc_usable_size.3.html)
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* returns the actual size of the given heap block.
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*/
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size_t malloc_usable_size(const void* _Nullable __ptr);
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#define __MALLINFO_BODY \
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/** Total number of non-mmapped bytes currently allocated from OS. */ \
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size_t arena; \
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/** Number of free chunks. */ \
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size_t ordblks; \
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/** (Unused.) */ \
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size_t smblks; \
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/** (Unused.) */ \
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size_t hblks; \
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/** Total number of bytes in mmapped regions. */ \
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size_t hblkhd; \
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/** Maximum total allocated space; greater than total if trimming has occurred. */ \
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size_t usmblks; \
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/** (Unused.) */ \
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size_t fsmblks; \
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/** Total allocated space (normal or mmapped.) */ \
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size_t uordblks; \
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/** Total free space. */ \
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size_t fordblks; \
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/** Upper bound on number of bytes releasable by a trim operation. */ \
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size_t keepcost;
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#ifndef STRUCT_MALLINFO_DECLARED
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#define STRUCT_MALLINFO_DECLARED 1
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struct mallinfo { __MALLINFO_BODY };
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#endif
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/**
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* [mallinfo(3)](http://man7.org/linux/man-pages/man3/mallinfo.3.html) returns
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* information about the current state of the heap. Note that mallinfo() is
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* inherently unreliable and consider using malloc_info() instead.
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*/
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struct mallinfo mallinfo(void);
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/**
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* On Android the struct mallinfo and struct mallinfo2 are the same.
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*/
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struct mallinfo2 { __MALLINFO_BODY };
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/**
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* [mallinfo2(3)](http://man7.org/linux/man-pages/man3/mallinfo2.3.html) returns
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* information about the current state of the heap. Note that mallinfo2() is
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* inherently unreliable and consider using malloc_info() instead.
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*/
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struct mallinfo2 mallinfo2(void) __RENAME(mallinfo);
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/**
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* [malloc_info(3)](http://man7.org/linux/man-pages/man3/malloc_info.3.html)
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* writes information about the current state of the heap to the given stream.
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*
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* The XML structure for malloc_info() is as follows:
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* ```
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* <malloc version="jemalloc-1">
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* <heap nr="INT">
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* <allocated-large>INT</allocated-large>
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* <allocated-huge>INT</allocated-huge>
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* <allocated-bins>INT</allocated-bins>
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* <bins-total>INT</bins-total>
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* <bin nr="INT">
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* <allocated>INT</allocated>
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* <nmalloc>INT</nmalloc>
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* <ndalloc>INT</ndalloc>
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* </bin>
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* <!-- more bins -->
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* </heap>
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* <!-- more heaps -->
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* </malloc>
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* ```
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*
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* Available since API level 23.
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*/
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int malloc_info(int __must_be_zero, FILE* _Nonnull __fp) __INTRODUCED_IN(23);
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/**
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* mallopt() option to set the decay time. Valid values are 0 and 1.
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*
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* Available since API level 27.
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*/
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#define M_DECAY_TIME (-100)
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/**
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* mallopt() option to immediately purge any memory not in use. This
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* will release the memory back to the kernel. The value is ignored.
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*
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* Available since API level 28.
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*/
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#define M_PURGE (-101)
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/**
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* mallopt() option to immediately purge all possible memory back to
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* the kernel. This call can take longer than a normal purge since it
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* examines everything. In some cases, it can take more than twice the
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* time of a M_PURGE call. The value is ignored.
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*
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* Available since API level 34.
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*/
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#define M_PURGE_ALL (-104)
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/**
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* mallopt() option to tune the allocator's choice of memory tags to
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* make it more likely that a certain class of memory errors will be
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* detected. This is only relevant if MTE is enabled in this process
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* and ignored otherwise. The value argument should be one of the
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* M_MEMTAG_TUNING_* flags.
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* NOTE: This is only available in scudo.
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*
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* Available since API level 31.
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*/
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#define M_MEMTAG_TUNING (-102)
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/**
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* When passed as a value of M_MEMTAG_TUNING mallopt() call, enables
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* deterministic detection of linear buffer overflow and underflow
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* bugs by assigning distinct tag values to adjacent allocations. This
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* mode has a slightly reduced chance to detect use-after-free bugs
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* because only half of the possible tag values are available for each
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* memory location.
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*
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* Please keep in mind that MTE can not detect overflow within the
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* same tag granule (16-byte aligned chunk), and can miss small
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* overflows even in this mode. Such overflow can not be the cause of
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* a memory corruption, because the memory within one granule is never
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* used for multiple allocations.
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*/
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#define M_MEMTAG_TUNING_BUFFER_OVERFLOW 0
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/**
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* When passed as a value of M_MEMTAG_TUNING mallopt() call, enables
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* independently randomized tags for uniform ~93% probability of
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* detecting both spatial (buffer overflow) and temporal (use after
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* free) bugs.
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*/
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#define M_MEMTAG_TUNING_UAF 1
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/**
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* mallopt() option for per-thread memory initialization tuning.
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* The value argument should be one of:
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* 1: Disable automatic heap initialization on this thread only.
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* If memory tagging is enabled, disable as much as possible of the
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* memory tagging initialization for this thread.
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* 0: Normal behavior.
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*
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* Available since API level 31.
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*/
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#define M_THREAD_DISABLE_MEM_INIT (-103)
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/**
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* mallopt() option to set the maximum number of items in the secondary
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* cache of the scudo allocator.
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*
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* Available since API level 31.
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*/
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#define M_CACHE_COUNT_MAX (-200)
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/**
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* mallopt() option to set the maximum size in bytes of a cacheable item in
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* the secondary cache of the scudo allocator.
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*
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* Available since API level 31.
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*/
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#define M_CACHE_SIZE_MAX (-201)
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/**
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* mallopt() option to increase the maximum number of shared thread-specific
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* data structures that can be created. This number cannot be decreased,
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* only increased and only applies to the scudo allocator.
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*
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* Available since API level 31.
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*/
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#define M_TSDS_COUNT_MAX (-202)
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/**
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* mallopt() option to decide whether heap memory is zero-initialized on
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* allocation across the whole process. May be called at any time, including
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* when multiple threads are running. An argument of zero indicates memory
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* should not be zero-initialized, any other value indicates to initialize heap
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* memory to zero.
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*
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* Note that this memory mitigation is only implemented in scudo and therefore
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* this will have no effect when using another allocator (such as jemalloc on
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* Android Go devices).
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*
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* Available since API level 31.
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*/
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#define M_BIONIC_ZERO_INIT (-203)
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/**
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* mallopt() option to change the heap tagging state. May be called at any
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* time, including when multiple threads are running.
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* The value must be one of the M_HEAP_TAGGING_LEVEL_ constants.
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* NOTE: This is only available in scudo.
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*
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* Available since API level 31.
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*/
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#define M_BIONIC_SET_HEAP_TAGGING_LEVEL (-204)
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/**
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* Constants for use with the M_BIONIC_SET_HEAP_TAGGING_LEVEL mallopt() option.
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*/
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enum HeapTaggingLevel {
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/**
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* Disable heap tagging and memory tag checks (if supported).
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* Heap tagging may not be re-enabled after being disabled.
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*/
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M_HEAP_TAGGING_LEVEL_NONE = 0,
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#define M_HEAP_TAGGING_LEVEL_NONE M_HEAP_TAGGING_LEVEL_NONE
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/**
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* Address-only tagging. Heap pointers have a non-zero tag in the
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* most significant ("top") byte which is checked in free(). Memory
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* accesses ignore the tag using arm64's Top Byte Ignore (TBI) feature.
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*/
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M_HEAP_TAGGING_LEVEL_TBI = 1,
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#define M_HEAP_TAGGING_LEVEL_TBI M_HEAP_TAGGING_LEVEL_TBI
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/**
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* Enable heap tagging and asynchronous memory tag checks (if supported).
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* Disable stack trace collection.
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*/
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M_HEAP_TAGGING_LEVEL_ASYNC = 2,
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#define M_HEAP_TAGGING_LEVEL_ASYNC M_HEAP_TAGGING_LEVEL_ASYNC
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/**
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* Enable heap tagging and synchronous memory tag checks (if supported).
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* Enable stack trace collection.
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*/
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M_HEAP_TAGGING_LEVEL_SYNC = 3,
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#define M_HEAP_TAGGING_LEVEL_SYNC M_HEAP_TAGGING_LEVEL_SYNC
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};
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/**
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* mallopt() option to print human readable statistics about the memory
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* allocator to the log. There is no format for this data, each allocator
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* can use a different format, and the data that is printed can
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* change at any time. This is expected to be used as a debugging aid.
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*
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* Available since API level 35.
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*/
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#define M_LOG_STATS (-205)
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/**
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* [mallopt(3)](http://man7.org/linux/man-pages/man3/mallopt.3.html) modifies
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* heap behavior. Values of `__option` are the `M_` constants from this header.
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*
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* Returns 1 on success, 0 on error.
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*
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* Available since API level 26.
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*/
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int mallopt(int __option, int __value) __INTRODUCED_IN(26);
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/**
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* [__malloc_hook(3)](http://man7.org/linux/man-pages/man3/__malloc_hook.3.html)
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* is called to implement malloc(). By default this points to the system's
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* implementation.
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*
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* Available since API level 28.
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*
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* See also: [extra documentation](https://android.googlesource.com/platform/bionic/+/main/libc/malloc_hooks/README.md)
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*/
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extern void* _Nonnull (*volatile _Nonnull __malloc_hook)(size_t __byte_count, const void* _Nonnull __caller) __INTRODUCED_IN(28);
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/**
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* [__realloc_hook(3)](http://man7.org/linux/man-pages/man3/__realloc_hook.3.html)
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* is called to implement realloc(). By default this points to the system's
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* implementation.
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*
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* Available since API level 28.
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*
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* See also: [extra documentation](https://android.googlesource.com/platform/bionic/+/main/libc/malloc_hooks/README.md)
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*/
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extern void* _Nonnull (*volatile _Nonnull __realloc_hook)(void* _Nullable __ptr, size_t __byte_count, const void* _Nonnull __caller) __INTRODUCED_IN(28);
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/**
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* [__free_hook(3)](http://man7.org/linux/man-pages/man3/__free_hook.3.html)
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* is called to implement free(). By default this points to the system's
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* implementation.
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*
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* Available since API level 28.
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*
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* See also: [extra documentation](https://android.googlesource.com/platform/bionic/+/main/libc/malloc_hooks/README.md)
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*/
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extern void (*volatile _Nonnull __free_hook)(void* _Nullable __ptr, const void* _Nonnull __caller) __INTRODUCED_IN(28);
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/**
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* [__memalign_hook(3)](http://man7.org/linux/man-pages/man3/__memalign_hook.3.html)
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* is called to implement memalign(). By default this points to the system's
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* implementation.
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*
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* Available since API level 28.
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*
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* See also: [extra documentation](https://android.googlesource.com/platform/bionic/+/main/libc/malloc_hooks/README.md)
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*/
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extern void* _Nonnull (*volatile _Nonnull __memalign_hook)(size_t __alignment, size_t __byte_count, const void* _Nonnull __caller) __INTRODUCED_IN(28);
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__END_DECLS
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