forked from OSchip/llvm-project
230 lines
10 KiB
C++
230 lines
10 KiB
C++
//===-- guarded_pool_allocator.h --------------------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#ifndef GWP_ASAN_GUARDED_POOL_ALLOCATOR_H_
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#define GWP_ASAN_GUARDED_POOL_ALLOCATOR_H_
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#include "gwp_asan/common.h"
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#include "gwp_asan/definitions.h"
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#include "gwp_asan/mutex.h"
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#include "gwp_asan/options.h"
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#include "gwp_asan/platform_specific/guarded_pool_allocator_fuchsia.h" // IWYU pragma: keep
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#include "gwp_asan/platform_specific/guarded_pool_allocator_posix.h" // IWYU pragma: keep
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#include "gwp_asan/platform_specific/guarded_pool_allocator_tls.h"
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#include <stddef.h>
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#include <stdint.h>
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namespace gwp_asan {
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// This class is the primary implementation of the allocator portion of GWP-
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// ASan. It is the sole owner of the pool of sequentially allocated guarded
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// slots. It should always be treated as a singleton.
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// Functions in the public interface of this class are thread-compatible until
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// init() is called, at which point they become thread-safe (unless specified
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// otherwise).
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class GuardedPoolAllocator {
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public:
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// Name of the GWP-ASan mapping that for `Metadata`.
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static constexpr const char *kGwpAsanMetadataName = "GWP-ASan Metadata";
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// During program startup, we must ensure that memory allocations do not land
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// in this allocation pool if the allocator decides to runtime-disable
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// GWP-ASan. The constructor value-initialises the class such that if no
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// further initialisation takes place, calls to shouldSample() and
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// pointerIsMine() will return false.
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constexpr GuardedPoolAllocator() {}
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GuardedPoolAllocator(const GuardedPoolAllocator &) = delete;
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GuardedPoolAllocator &operator=(const GuardedPoolAllocator &) = delete;
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// Note: This class is expected to be a singleton for the lifetime of the
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// program. If this object is initialised, it will leak the guarded page pool
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// and metadata allocations during destruction. We can't clean up these areas
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// as this may cause a use-after-free on shutdown.
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~GuardedPoolAllocator() = default;
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// Initialise the rest of the members of this class. Create the allocation
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// pool using the provided options. See options.inc for runtime configuration
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// options.
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void init(const options::Options &Opts);
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void uninitTestOnly();
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// Functions exported for libmemunreachable's use on Android. disable()
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// installs a lock in the allocator that prevents any thread from being able
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// to allocate memory, until enable() is called.
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void disable();
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void enable();
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typedef void (*iterate_callback)(uintptr_t base, size_t size, void *arg);
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// Execute the callback Cb for every allocation the lies in [Base, Base +
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// Size). Must be called while the allocator is disabled. The callback can not
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// allocate.
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void iterate(void *Base, size_t Size, iterate_callback Cb, void *Arg);
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// This function is used to signal the allocator to indefinitely stop
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// functioning, as a crash has occurred. This stops the allocator from
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// servicing any further allocations permanently.
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void stop();
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// Return whether the allocation should be randomly chosen for sampling.
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GWP_ASAN_ALWAYS_INLINE bool shouldSample() {
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// NextSampleCounter == 0 means we "should regenerate the counter".
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// == 1 means we "should sample this allocation".
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// AdjustedSampleRatePlusOne is designed to intentionally underflow. This
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// class must be valid when zero-initialised, and we wish to sample as
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// infrequently as possible when this is the case, hence we underflow to
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// UINT32_MAX.
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if (GWP_ASAN_UNLIKELY(getThreadLocals()->NextSampleCounter == 0))
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getThreadLocals()->NextSampleCounter =
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((getRandomUnsigned32() % (AdjustedSampleRatePlusOne - 1)) + 1) &
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ThreadLocalPackedVariables::NextSampleCounterMask;
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return GWP_ASAN_UNLIKELY(--getThreadLocals()->NextSampleCounter == 0);
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}
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// Returns whether the provided pointer is a current sampled allocation that
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// is owned by this pool.
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GWP_ASAN_ALWAYS_INLINE bool pointerIsMine(const void *Ptr) const {
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return State.pointerIsMine(Ptr);
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}
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// Allocate memory in a guarded slot, and return a pointer to the new
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// allocation. Returns nullptr if the pool is empty, the requested size is too
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// large for this pool to handle, or the requested size is zero.
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void *allocate(size_t Size);
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// Deallocate memory in a guarded slot. The provided pointer must have been
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// allocated using this pool. This will set the guarded slot as inaccessible.
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void deallocate(void *Ptr);
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// Returns the size of the allocation at Ptr.
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size_t getSize(const void *Ptr);
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// Returns a pointer to the Metadata region, or nullptr if it doesn't exist.
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const AllocationMetadata *getMetadataRegion() const { return Metadata; }
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// Returns a pointer to the AllocatorState region.
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const AllocatorState *getAllocatorState() const { return &State; }
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private:
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// Name of actively-occupied slot mappings.
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static constexpr const char *kGwpAsanAliveSlotName = "GWP-ASan Alive Slot";
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// Name of the guard pages. This includes all slots that are not actively in
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// use (i.e. were never used, or have been free()'d).)
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static constexpr const char *kGwpAsanGuardPageName = "GWP-ASan Guard Page";
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// Name of the mapping for `FreeSlots`.
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static constexpr const char *kGwpAsanFreeSlotsName = "GWP-ASan Metadata";
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static constexpr size_t kInvalidSlotID = SIZE_MAX;
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// These functions anonymously map memory or change the permissions of mapped
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// memory into this process in a platform-specific way. Pointer and size
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// arguments are expected to be page-aligned. These functions will never
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// return on error, instead electing to kill the calling process on failure.
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// The pool memory is initially reserved and inaccessible, and RW mappings are
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// subsequently created and destroyed via allocateInGuardedPool() and
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// deallocateInGuardedPool(). Each mapping is named on platforms that support
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// it, primarily Android. This name must be a statically allocated string, as
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// the Android kernel uses the string pointer directly.
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void *map(size_t Size, const char *Name) const;
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void unmap(void *Ptr, size_t Size) const;
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// The pool is managed separately, as some platforms (particularly Fuchsia)
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// manage virtual memory regions as a chunk where individual pages can still
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// have separate permissions. These platforms maintain metadata about the
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// region in order to perform operations. The pool is unique as it's the only
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// thing in GWP-ASan that treats pages in a single VM region on an individual
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// basis for page protection.
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// The pointer returned by reserveGuardedPool() is the reserved address range
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// of (at least) Size bytes.
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void *reserveGuardedPool(size_t Size);
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// allocateInGuardedPool() Ptr and Size must be a subrange of the previously
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// reserved pool range.
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void allocateInGuardedPool(void *Ptr, size_t Size) const;
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// deallocateInGuardedPool() Ptr and Size must be an exact pair previously
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// passed to allocateInGuardedPool().
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void deallocateInGuardedPool(void *Ptr, size_t Size) const;
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void unreserveGuardedPool();
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// Get the page size from the platform-specific implementation. Only needs to
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// be called once, and the result should be cached in PageSize in this class.
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static size_t getPlatformPageSize();
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// Returns a pointer to the metadata for the owned pointer. If the pointer is
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// not owned by this pool, the result is undefined.
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AllocationMetadata *addrToMetadata(uintptr_t Ptr) const;
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// Reserve a slot for a new guarded allocation. Returns kInvalidSlotID if no
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// slot is available to be reserved.
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size_t reserveSlot();
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// Unreserve the guarded slot.
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void freeSlot(size_t SlotIndex);
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// Raise a SEGV and set the corresponding fields in the Allocator's State in
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// order to tell the crash handler what happened. Used when errors are
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// detected internally (Double Free, Invalid Free).
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void trapOnAddress(uintptr_t Address, Error E);
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static GuardedPoolAllocator *getSingleton();
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// Install a pthread_atfork handler.
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void installAtFork();
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gwp_asan::AllocatorState State;
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// A mutex to protect the guarded slot and metadata pool for this class.
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Mutex PoolMutex;
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// Record the number allocations that we've sampled. We store this amount so
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// that we don't randomly choose to recycle a slot that previously had an
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// allocation before all the slots have been utilised.
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size_t NumSampledAllocations = 0;
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// Pointer to the allocation metadata (allocation/deallocation stack traces),
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// if any.
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AllocationMetadata *Metadata = nullptr;
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// Pointer to an array of free slot indexes.
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size_t *FreeSlots = nullptr;
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// The current length of the list of free slots.
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size_t FreeSlotsLength = 0;
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// See options.{h, inc} for more information.
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bool PerfectlyRightAlign = false;
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// Backtrace function provided by the supporting allocator. See `options.h`
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// for more information.
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options::Backtrace_t Backtrace = nullptr;
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// The adjusted sample rate for allocation sampling. Default *must* be
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// nonzero, as dynamic initialisation may call malloc (e.g. from libstdc++)
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// before GPA::init() is called. This would cause an error in shouldSample(),
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// where we would calculate modulo zero. This value is set UINT32_MAX, as when
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// GWP-ASan is disabled, we wish to never spend wasted cycles recalculating
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// the sample rate.
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uint32_t AdjustedSampleRatePlusOne = 0;
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// Additional platform specific data structure for the guarded pool mapping.
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PlatformSpecificMapData GuardedPagePoolPlatformData = {};
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class ScopedRecursiveGuard {
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public:
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ScopedRecursiveGuard() { getThreadLocals()->RecursiveGuard = true; }
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~ScopedRecursiveGuard() { getThreadLocals()->RecursiveGuard = false; }
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};
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// Initialise the PRNG, platform-specific.
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void initPRNG();
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// xorshift (32-bit output), extremely fast PRNG that uses arithmetic
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// operations only. Seeded using platform-specific mechanisms by initPRNG().
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uint32_t getRandomUnsigned32();
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};
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} // namespace gwp_asan
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#endif // GWP_ASAN_GUARDED_POOL_ALLOCATOR_H_
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