//
// Copyright 2017 The Abseil Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
// Some of our malloc implementations can invoke the following hooks whenever
// memory is allocated or deallocated. MallocHook is thread-safe, and things
// you do before calling AddFooHook(MyHook) are visible to any resulting calls
// to MyHook. Hooks must be thread-safe. If you write:
//
// CHECK(MallocHook::AddNewHook(&MyNewHook));
//
// MyNewHook will be invoked in subsequent calls in the current thread, but
// there are no guarantees on when it might be invoked in other threads.
//
// There are a limited number of slots available for each hook type. Add*Hook
// will return false if there are no slots available. Remove*Hook will return
// false if the given hook was not already installed.
//
// The order in which individual hooks are called in Invoke*Hook is undefined.
//
// It is safe for a hook to remove itself within Invoke*Hook and add other
// hooks. Any hooks added inside a hook invocation (for the same hook type)
// will not be invoked for the current invocation.
//
// One important user of these hooks is the heap profiler.
//
// CAVEAT: If you add new MallocHook::Invoke* calls then those calls must be
// directly in the code of the (de)allocation function that is provided to the
// user and that function must have an ABSL_ATTRIBUTE_SECTION(malloc_hook)
// attribute.
//
// Note: the Invoke*Hook() functions are defined in malloc_hook-inl.h. If you
// need to invoke a hook (which you shouldn't unless you're part of tcmalloc),
// be sure to #include malloc_hook-inl.h in addition to malloc_hook.h.
//
// NOTE FOR C USERS: If you want to use malloc_hook functionality from
// a C program, #include malloc_hook_c.h instead of this file.
//
// IWYU pragma: private, include "base/malloc_hook.h"
#ifndef ABSL_BASE_INTERNAL_MALLOC_HOOK_H_
#define ABSL_BASE_INTERNAL_MALLOC_HOOK_H_
#include <sys/types.h>
#include <cstddef>
#include "absl/base/config.h"
#include "absl/base/internal/malloc_hook_c.h"
#include "absl/base/port.h"
namespace absl {
namespace base_internal {
// Note: malloc_hook_c.h defines MallocHook_*Hook and
// MallocHook_{Add,Remove}*Hook. The version of these inside the MallocHook
// class are defined in terms of the malloc_hook_c version. See malloc_hook_c.h
// for details of these types/functions.
class MallocHook {
public:
// The NewHook is invoked whenever an object is being allocated.
// Object pointer and size are passed in.
// It may be passed null pointer if the allocator returned null.
typedef MallocHook_NewHook NewHook;
inline static bool AddNewHook(NewHook hook) {
return MallocHook_AddNewHook(hook);
}
inline static bool RemoveNewHook(NewHook hook) {
return MallocHook_RemoveNewHook(hook);
}
inline static void InvokeNewHook(const void* ptr, size_t size);
// The DeleteHook is invoked whenever an object is being deallocated.
// Object pointer is passed in.
// It may be passed null pointer if the caller is trying to delete null.
typedef MallocHook_DeleteHook DeleteHook;
inline static bool AddDeleteHook(DeleteHook hook) {
return MallocHook_AddDeleteHook(hook);
}
inline static bool RemoveDeleteHook(DeleteHook hook) {
return MallocHook_RemoveDeleteHook(hook);
}
inline static void InvokeDeleteHook(const void* ptr);
// The SampledNewHook is invoked for some subset of object allocations
// according to the sampling policy of an allocator such as tcmalloc.
// SampledAlloc has the following fields:
// * AllocHandle handle: to be set to an effectively unique value (in this
// process) by allocator.
// * size_t allocated_size: space actually used by allocator to host
// the object.
// * int stack_depth and const void* stack: invocation stack for
// the allocation.
// The allocator invoking the hook should record the handle value and later
// call InvokeSampledDeleteHook() with that value.
typedef MallocHook_SampledNewHook SampledNewHook;
typedef MallocHook_SampledAlloc SampledAlloc;
inline static bool AddSampledNewHook(SampledNewHook hook) {
return MallocHook_AddSampledNewHook(hook);
}
inline static bool RemoveSampledNewHook(SampledNewHook hook) {
return MallocHook_RemoveSampledNewHook(hook);
}
inline static void InvokeSampledNewHook(const SampledAlloc* sampled_alloc);
// The SampledDeleteHook is invoked whenever an object previously chosen
// by an allocator for sampling is being deallocated.
// The handle identifying the object --as previously chosen by
// InvokeSampledNewHook()-- is passed in.
typedef MallocHook_SampledDeleteHook SampledDeleteHook;
typedef MallocHook_AllocHandle AllocHandle;
inline static bool AddSampledDeleteHook(SampledDeleteHook hook) {
return MallocHook_AddSampledDeleteHook(hook);
}
inline static bool RemoveSampledDeleteHook(SampledDeleteHook hook) {
return MallocHook_RemoveSampledDeleteHook(hook);
}
inline static void InvokeSampledDeleteHook(AllocHandle handle);
// The PreMmapHook is invoked with mmap's or mmap64's arguments just
// before the mmap/mmap64 call is actually made. Such a hook may be useful
// in memory limited contexts, to catch allocations that will exceed
// a memory limit, and take outside actions to increase that limit.
typedef MallocHook_PreMmapHook PreMmapHook;
inline static bool AddPreMmapHook(PreMmapHook hook) {
return MallocHook_AddPreMmapHook(hook);
}
inline static bool RemovePreMmapHook(PreMmapHook hook) {
return MallocHook_RemovePreMmapHook(hook);
}
inline static void InvokePreMmapHook(const void* start,
size_t size,
int protection,
int flags,
int fd,
off_t offset);
// The MmapReplacement is invoked with mmap's arguments and place to put the
// result into after the PreMmapHook but before the mmap/mmap64 call is
// actually made.
// The MmapReplacement should return true if it handled the call, or false
// if it is still necessary to call mmap/mmap64.
// This should be used only by experts, and users must be be
// extremely careful to avoid recursive calls to mmap. The replacement
// should be async signal safe.
// Only one MmapReplacement is supported. After setting an MmapReplacement
// you must call RemoveMmapReplacement before calling SetMmapReplacement
// again.
typedef MallocHook_MmapReplacement MmapReplacement;
inline static bool SetMmapReplacement(MmapReplacement hook) {
return MallocHook_SetMmapReplacement(hook);
}
inline static bool RemoveMmapReplacement(MmapReplacement hook) {
return MallocHook_RemoveMmapReplacement(hook);
}
inline static bool InvokeMmapReplacement(const void* start,
size_t size,
int protection,
int flags,
int fd,
off_t offset,
void** result);
// The MmapHook is invoked with mmap's return value and arguments whenever
// a region of memory has been just mapped.
// It may be passed MAP_FAILED if the mmap failed.
typedef MallocHook_MmapHook MmapHook;
inline static bool AddMmapHook(MmapHook hook) {
return MallocHook_AddMmapHook(hook);
}
inline static bool RemoveMmapHook(MmapHook hook) {
return MallocHook_RemoveMmapHook(hook);
}
inline static void InvokeMmapHook(const void* result,
const void* start,
size_t size,
int protection,
int flags,
int fd,
off_t offset);
// The MunmapReplacement is invoked with munmap's arguments and place to put
// the result into just before the munmap call is actually made.
// The MunmapReplacement should return true if it handled the call, or false
// if it is still necessary to call munmap.
// This should be used only by experts. The replacement should be
// async signal safe.
// Only one MunmapReplacement is supported. After setting an
// MunmapReplacement you must call RemoveMunmapReplacement before
// calling SetMunmapReplacement again.
typedef MallocHook_MunmapReplacement MunmapReplacement;
inline static bool SetMunmapReplacement(MunmapReplacement hook) {
return MallocHook_SetMunmapReplacement(hook);
}
inline static bool RemoveMunmapReplacement(MunmapReplacement hook) {
return MallocHook_RemoveMunmapReplacement(hook);
}
inline static bool InvokeMunmapReplacement(const void* start,
size_t size,
int* result);
// The MunmapHook is invoked with munmap's arguments just before the munmap
// call is actually made.
// TODO(maxim): Rename this to PreMunmapHook for consistency with PreMmapHook
// and PreSbrkHook.
typedef MallocHook_MunmapHook MunmapHook;
inline static bool AddMunmapHook(MunmapHook hook) {
return MallocHook_AddMunmapHook(hook);
}
inline static bool RemoveMunmapHook(MunmapHook hook) {
return MallocHook_RemoveMunmapHook(hook);
}
inline static void InvokeMunmapHook(const void* start, size_t size);
// The MremapHook is invoked with mremap's return value and arguments
// whenever a region of memory has been just remapped.
typedef MallocHook_MremapHook MremapHook;
inline static bool AddMremapHook(MremapHook hook) {
return MallocHook_AddMremapHook(hook);
}
inline static bool RemoveMremapHook(MremapHook hook) {
return MallocHook_RemoveMremapHook(hook);
}
inline static void InvokeMremapHook(const void* result,
const void* old_addr,
size_t old_size,
size_t new_size,
int flags,
const void* new_addr);
// The PreSbrkHook is invoked with sbrk's argument just before sbrk is called
// -- except when the increment is 0. This is because sbrk(0) is often called
// to get the top of the memory stack, and is not actually a
// memory-allocation call. It may be useful in memory-limited contexts,
// to catch allocations that will exceed the limit and take outside
// actions to increase such a limit.
typedef MallocHook_PreSbrkHook PreSbrkHook;
inline static bool AddPreSbrkHook(PreSbrkHook hook) {
return MallocHook_AddPreSbrkHook(hook);
}
inline static bool RemovePreSbrkHook(PreSbrkHook hook) {
return MallocHook_RemovePreSbrkHook(hook);
}
inline static void InvokePreSbrkHook(ptrdiff_t increment);
// The SbrkHook is invoked with sbrk's result and argument whenever sbrk
// has just executed -- except when the increment is 0.
// This is because sbrk(0) is often called to get the top of the memory stack,
// and is not actually a memory-allocation call.
typedef MallocHook_SbrkHook SbrkHook;
inline static bool AddSbrkHook(SbrkHook hook) {
return MallocHook_AddSbrkHook(hook);
}
inline static bool RemoveSbrkHook(SbrkHook hook) {
return MallocHook_RemoveSbrkHook(hook);
}
inline static void InvokeSbrkHook(const void* result, ptrdiff_t increment);
// Pointer to a absl::GetStackTrace implementation, following the API in
// base/stacktrace.h.
using GetStackTraceFn = int (*)(void**, int, int);
// Get the current stack trace. Try to skip all routines up to and
// including the caller of MallocHook::Invoke*.
// Use "skip_count" (similarly to absl::GetStackTrace from stacktrace.h)
// as a hint about how many routines to skip if better information
// is not available.
// Stack trace is filled into *result up to the size of max_depth.
// The actual number of stack frames filled is returned.
inline static int GetCallerStackTrace(void** result, int max_depth,
int skip_count,
GetStackTraceFn get_stack_trace_fn) {
return MallocHook_GetCallerStackTrace(result, max_depth, skip_count,
get_stack_trace_fn);
}
#if ABSL_HAVE_MMAP
// Unhooked versions of mmap() and munmap(). These should be used
// only by experts, since they bypass heapchecking, etc.
// Note: These do not run hooks, but they still use the MmapReplacement
// and MunmapReplacement.
static void* UnhookedMMap(void* start, size_t size, int protection, int flags,
int fd, off_t offset);
static int UnhookedMUnmap(void* start, size_t size);
#endif
private:
// Slow path versions of Invoke*Hook.
static void InvokeNewHookSlow(const void* ptr,
size_t size) ABSL_ATTRIBUTE_COLD;
static void InvokeDeleteHookSlow(const void* ptr) ABSL_ATTRIBUTE_COLD;
static void InvokeSampledNewHookSlow(const SampledAlloc* sampled_alloc)
ABSL_ATTRIBUTE_COLD;
static void InvokeSampledDeleteHookSlow(AllocHandle handle)
ABSL_ATTRIBUTE_COLD;
static void InvokePreMmapHookSlow(const void* start, size_t size,
int protection, int flags, int fd,
off_t offset) ABSL_ATTRIBUTE_COLD;
static void InvokeMmapHookSlow(const void* result, const void* start,
size_t size, int protection, int flags, int fd,
off_t offset) ABSL_ATTRIBUTE_COLD;
static bool InvokeMmapReplacementSlow(const void* start, size_t size,
int protection, int flags, int fd,
off_t offset,
void** result) ABSL_ATTRIBUTE_COLD;
static void InvokeMunmapHookSlow(const void* ptr,
size_t size) ABSL_ATTRIBUTE_COLD;
static bool InvokeMunmapReplacementSlow(const void* ptr, size_t size,
int* result) ABSL_ATTRIBUTE_COLD;
static void InvokeMremapHookSlow(const void* result, const void* old_addr,
size_t old_size, size_t new_size, int flags,
const void* new_addr) ABSL_ATTRIBUTE_COLD;
static void InvokePreSbrkHookSlow(ptrdiff_t increment) ABSL_ATTRIBUTE_COLD;
static void InvokeSbrkHookSlow(const void* result,
ptrdiff_t increment) ABSL_ATTRIBUTE_COLD;
};
} // namespace base_internal
} // namespace absl
#endif // ABSL_BASE_INTERNAL_MALLOC_HOOK_H_