compiler-rt/lib/gwp_asan/crash_handler.h - llvm-project - Git at Google

 //===-- crash_handler.h -----------------------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 // This file contains interface functions that can be called by an in-process or
 // out-of-process crash handler after the process has terminated. Functions in
 // this interface are never thread safe. For an in-process crash handler, the
 // handler should call GuardedPoolAllocator::disable() to stop any other threads
 // from retrieving new GWP-ASan allocations, which may corrupt the metadata.
 #ifndef GWP_ASAN_INTERFACE_H_
 #define GWP_ASAN_INTERFACE_H_

 #include "gwp_asan/common.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 // When a process crashes, there are three possible outcomes:
 //  1. The crash is unrelated to GWP-ASan - in which case this function returns
 //     false.
 //  2. The crash is internally detected within GWP-ASan itself (e.g. a
 //     double-free bug is caught in GuardedPoolAllocator::deallocate(), and
 //     GWP-ASan will terminate the process). In this case - this function
 //     returns true.
 //  3. The crash is caused by a memory error at `AccessPtr` that's caught by the
 //     system, but GWP-ASan is responsible for the allocation. In this case -
 //     the function also returns true.
 // This function takes an optional `AccessPtr` parameter. If the pointer that
 // was attempted to be accessed is available, you should provide it here. In the
 // case of some internally-detected errors, the crash may manifest as an abort
 // or trap may or may not have an associated pointer. In these cases, the
 // pointer can be obtained by a call to __gwp_asan_get_internal_crash_address.
 bool __gwp_asan_error_is_mine(const gwp_asan::AllocatorState *State,
                               uintptr_t ErrorPtr = 0u);

 // Diagnose and return the type of error that occurred at `ErrorPtr`. If
 // `ErrorPtr` is unrelated to GWP-ASan, or if the error type cannot be deduced,
 // this function returns Error::UNKNOWN.
 gwp_asan::Error
 __gwp_asan_diagnose_error(const gwp_asan::AllocatorState *State,
                           const gwp_asan::AllocationMetadata *Metadata,
                           uintptr_t ErrorPtr);

 // For internally-detected errors (double free, invalid free), this function
 // returns the pointer that the error occurred at. If the error is unrelated to
 // GWP-ASan, or if the error was caused by a non-internally detected failure,
 // this function returns zero.
 uintptr_t
 __gwp_asan_get_internal_crash_address(const gwp_asan::AllocatorState *State);

 // Returns a pointer to the metadata for the allocation that's responsible for
 // the crash. This metadata should not be dereferenced directly due to API
 // compatibility issues, but should be instead passed to functions below for
 // information retrieval. Returns nullptr if there is no metadata available for
 // this crash.
 const gwp_asan::AllocationMetadata *
 __gwp_asan_get_metadata(const gwp_asan::AllocatorState *State,
                         const gwp_asan::AllocationMetadata *Metadata,
                         uintptr_t ErrorPtr);

 // +---------------------------------------------------------------------------+
 // | Error Information Functions                                               |
 // +---------------------------------------------------------------------------+
 // Functions below return information about the type of error that was caught by
 // GWP-ASan, or information about the allocation that caused the error. These
 // functions generally take an `AllocationMeta` argument, which should be
 // retrieved via. __gwp_asan_get_metadata.

 // Returns the start of the allocation whose metadata is in `AllocationMeta`.
 uintptr_t __gwp_asan_get_allocation_address(
     const gwp_asan::AllocationMetadata *AllocationMeta);

 // Returns the size of the allocation whose metadata is in `AllocationMeta`
 size_t __gwp_asan_get_allocation_size(
     const gwp_asan::AllocationMetadata *AllocationMeta);

 // Returns the Thread ID that allocated the memory that caused the error at
 // `ErrorPtr`. This function may not be called if __gwp_asan_has_metadata()
 // returns false.
 uint64_t __gwp_asan_get_allocation_thread_id(
     const gwp_asan::AllocationMetadata *AllocationMeta);

 // Retrieve the allocation trace for the allocation whose metadata is in
 // `AllocationMeta`, and place it into the provided `Buffer` that has at least
 // `BufferLen` elements. This function returns the number of frames that would
 // have been written into `Buffer` if the space was available (i.e. however many
 // frames were stored by GWP-ASan). A return value greater than `BufferLen`
 // indicates that the trace was truncated when storing to `Buffer`.
 size_t __gwp_asan_get_allocation_trace(
     const gwp_asan::AllocationMetadata *AllocationMeta, uintptr_t *Buffer,
     size_t BufferLen);

 // Returns whether the allocation whose metadata is in `AllocationMeta` has been
 // deallocated. This function may not be called if __gwp_asan_has_metadata()
 // returns false.
 bool __gwp_asan_is_deallocated(
     const gwp_asan::AllocationMetadata *AllocationMeta);

 // Returns the Thread ID that deallocated the memory whose metadata is in
 // `AllocationMeta`. This function may not be called if
 // __gwp_asan_is_deallocated() returns false.
 uint64_t __gwp_asan_get_deallocation_thread_id(
     const gwp_asan::AllocationMetadata *AllocationMeta);

 // Retrieve the deallocation trace for the allocation whose metadata is in
 // `AllocationMeta`, and place it into the provided `Buffer` that has at least
 // `BufferLen` elements. This function returns the number of frames that would
 // have been written into `Buffer` if the space was available (i.e. however many
 // frames were stored by GWP-ASan). A return value greater than `BufferLen`
 // indicates that the trace was truncated when storing to `Buffer`. This
 // function may not be called if __gwp_asan_is_deallocated() returns false.
 size_t __gwp_asan_get_deallocation_trace(
     const gwp_asan::AllocationMetadata *AllocationMeta, uintptr_t *Buffer,
     size_t BufferLen);

 #ifdef __cplusplus
 } // extern "C"
 #endif

 #endif // GWP_ASAN_INTERFACE_H_
	//===-- crash_handler.h ------------------------------------------ C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	// This file contains interface functions that can be called by an in-process or
	// out-of-process crash handler after the process has terminated. Functions in
	// this interface are never thread safe. For an in-process crash handler, the
	// handler should call GuardedPoolAllocator::disable() to stop any other threads
	// from retrieving new GWP-ASan allocations, which may corrupt the metadata.
	#ifndef GWP_ASAN_INTERFACE_H_
	#define GWP_ASAN_INTERFACE_H_

	#include "gwp_asan/common.h"

	#ifdef __cplusplus
	extern "C" {
	#endif

	// When a process crashes, there are three possible outcomes:
	// 1. The crash is unrelated to GWP-ASan - in which case this function returns
	// false.
	// 2. The crash is internally detected within GWP-ASan itself (e.g. a
	// double-free bug is caught in GuardedPoolAllocator::deallocate(), and
	// GWP-ASan will terminate the process). In this case - this function
	// returns true.
	// 3. The crash is caused by a memory error at `AccessPtr` that's caught by the
	// system, but GWP-ASan is responsible for the allocation. In this case -
	// the function also returns true.
	// This function takes an optional `AccessPtr` parameter. If the pointer that
	// was attempted to be accessed is available, you should provide it here. In the
	// case of some internally-detected errors, the crash may manifest as an abort
	// or trap may or may not have an associated pointer. In these cases, the
	// pointer can be obtained by a call to __gwp_asan_get_internal_crash_address.
	bool __gwp_asan_error_is_mine(const gwp_asan::AllocatorState *State,
	uintptr_t ErrorPtr = 0u);

	// Diagnose and return the type of error that occurred at `ErrorPtr`. If
	// `ErrorPtr` is unrelated to GWP-ASan, or if the error type cannot be deduced,
	// this function returns Error::UNKNOWN.
	gwp_asan::Error
	__gwp_asan_diagnose_error(const gwp_asan::AllocatorState *State,
	const gwp_asan::AllocationMetadata *Metadata,
	uintptr_t ErrorPtr);

	// For internally-detected errors (double free, invalid free), this function
	// returns the pointer that the error occurred at. If the error is unrelated to
	// GWP-ASan, or if the error was caused by a non-internally detected failure,
	// this function returns zero.
	uintptr_t
	__gwp_asan_get_internal_crash_address(const gwp_asan::AllocatorState *State);

	// Returns a pointer to the metadata for the allocation that's responsible for
	// the crash. This metadata should not be dereferenced directly due to API
	// compatibility issues, but should be instead passed to functions below for
	// information retrieval. Returns nullptr if there is no metadata available for
	// this crash.
	const gwp_asan::AllocationMetadata *
	__gwp_asan_get_metadata(const gwp_asan::AllocatorState *State,
	const gwp_asan::AllocationMetadata *Metadata,
	uintptr_t ErrorPtr);

	// +---------------------------------------------------------------------------+
	// \| Error Information Functions \|
	// +---------------------------------------------------------------------------+
	// Functions below return information about the type of error that was caught by
	// GWP-ASan, or information about the allocation that caused the error. These
	// functions generally take an `AllocationMeta` argument, which should be
	// retrieved via. __gwp_asan_get_metadata.

	// Returns the start of the allocation whose metadata is in `AllocationMeta`.
	uintptr_t __gwp_asan_get_allocation_address(
	const gwp_asan::AllocationMetadata *AllocationMeta);

	// Returns the size of the allocation whose metadata is in `AllocationMeta`
	size_t __gwp_asan_get_allocation_size(
	const gwp_asan::AllocationMetadata *AllocationMeta);

	// Returns the Thread ID that allocated the memory that caused the error at
	// `ErrorPtr`. This function may not be called if __gwp_asan_has_metadata()
	// returns false.
	uint64_t __gwp_asan_get_allocation_thread_id(
	const gwp_asan::AllocationMetadata *AllocationMeta);

	// Retrieve the allocation trace for the allocation whose metadata is in
	// `AllocationMeta`, and place it into the provided `Buffer` that has at least
	// `BufferLen` elements. This function returns the number of frames that would
	// have been written into `Buffer` if the space was available (i.e. however many
	// frames were stored by GWP-ASan). A return value greater than `BufferLen`
	// indicates that the trace was truncated when storing to `Buffer`.
	size_t __gwp_asan_get_allocation_trace(
	const gwp_asan::AllocationMetadata AllocationMeta, uintptr_t Buffer,
	size_t BufferLen);

	// Returns whether the allocation whose metadata is in `AllocationMeta` has been
	// deallocated. This function may not be called if __gwp_asan_has_metadata()
	// returns false.
	bool __gwp_asan_is_deallocated(
	const gwp_asan::AllocationMetadata *AllocationMeta);

	// Returns the Thread ID that deallocated the memory whose metadata is in
	// `AllocationMeta`. This function may not be called if
	// __gwp_asan_is_deallocated() returns false.
	uint64_t __gwp_asan_get_deallocation_thread_id(
	const gwp_asan::AllocationMetadata *AllocationMeta);

	// Retrieve the deallocation trace for the allocation whose metadata is in
	// `AllocationMeta`, and place it into the provided `Buffer` that has at least
	// `BufferLen` elements. This function returns the number of frames that would
	// have been written into `Buffer` if the space was available (i.e. however many
	// frames were stored by GWP-ASan). A return value greater than `BufferLen`
	// indicates that the trace was truncated when storing to `Buffer`. This
	// function may not be called if __gwp_asan_is_deallocated() returns false.
	size_t __gwp_asan_get_deallocation_trace(
	const gwp_asan::AllocationMetadata AllocationMeta, uintptr_t Buffer,
	size_t BufferLen);

	#ifdef __cplusplus
	} // extern "C"
	#endif

	#endif // GWP_ASAN_INTERFACE_H_