//
// 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.
//
// Extra extensions exported by some malloc implementations. These
// extensions are accessed through a virtual base class so an
// application can link against a malloc that does not implement these
// extensions, and it will get default versions that do nothing.
//
// NOTE FOR C USERS: If you wish to use this functionality from within
// a C program, see malloc_extension_c.h.
#ifndef ABSL_BASE_INTERNAL_MALLOC_EXTENSION_H_
#define ABSL_BASE_INTERNAL_MALLOC_EXTENSION_H_
#include <atomic>
#include <map>
#include <memory>
#include <vector>
#include <stddef.h>
#include <stdint.h>
#include <string>
#include "absl/base/macros.h"
#include "absl/base/port.h"
namespace absl {
namespace base_internal {
class MallocExtensionWriter;
// Interface to a pluggable system allocator.
class SysAllocator {
public:
SysAllocator() {
}
virtual ~SysAllocator();
// Allocates "size"-byte of memory from system aligned with "alignment".
// Returns null if failed. Otherwise, the returned pointer p up to and
// including (p + actual_size -1) have been allocated.
virtual void* Alloc(size_t size, size_t *actual_size, size_t alignment) = 0;
// Get a human-readable description of the current state of the
// allocator. The state is stored as a null-terminated std::string in
// a prefix of buffer.
virtual void GetStats(char* buffer, int length);
};
// The default implementations of the following routines do nothing.
// All implementations should be thread-safe; the current ones
// (DebugMallocImplementation and TCMallocImplementation) are.
class MallocExtension {
public:
virtual ~MallocExtension();
// Verifies that all blocks are valid. Returns true if all are; dumps
// core otherwise. A no-op except in debug mode. Even in debug mode,
// they may not do any checking except with certain malloc
// implementations. Thread-safe.
virtual bool VerifyAllMemory();
// Verifies that p was returned by new, has not been deleted, and is
// valid. Returns true if p is good; dumps core otherwise. A no-op
// except in debug mode. Even in debug mode, may not do any checking
// except with certain malloc implementations. Thread-safe.
virtual bool VerifyNewMemory(const void* p);
// Verifies that p was returned by new[], has not been deleted, and is
// valid. Returns true if p is good; dumps core otherwise. A no-op
// except in debug mode. Even in debug mode, may not do any checking
// except with certain malloc implementations. Thread-safe.
virtual bool VerifyArrayNewMemory(const void* p);
// Verifies that p was returned by malloc, has not been freed, and is
// valid. Returns true if p is good; dumps core otherwise. A no-op
// except in debug mode. Even in debug mode, may not do any checking
// except with certain malloc implementations. Thread-safe.
virtual bool VerifyMallocMemory(const void* p);
// If statistics collection is enabled, sets *blocks to be the number of
// currently allocated blocks, sets *total to be the total size allocated
// over all blocks, sets histogram[n] to be the number of blocks with
// size between 2^n-1 and 2^(n+1), and returns true. Returns false, and
// does not change *blocks, *total, or *histogram, if statistics
// collection is disabled.
//
// Note that these statistics reflect memory allocated by new, new[],
// malloc(), and realloc(), but not mmap(). They may be larger (if not
// all pages have been written to) or smaller (if pages have been
// allocated by mmap()) than the total RSS size. They will always be
// smaller than the total virtual memory size.
static constexpr int kMallocHistogramSize = 64;
virtual bool MallocMemoryStats(int* blocks, size_t* total,
int histogram[kMallocHistogramSize]);
// Get a human readable description of the current state of the malloc
// data structures. The state is stored as a null-terminated std::string
// in a prefix of "buffer[0,buffer_length-1]".
// REQUIRES: buffer_length > 0.
virtual void GetStats(char* buffer, int buffer_length);
// Outputs to "writer" a sample of live objects and the stack traces
// that allocated these objects. The output can be passed to pprof.
virtual void GetHeapSample(MallocExtensionWriter* writer);
// Outputs to "writer" the stack traces that caused growth in the
// address space size. The output can be passed to "pprof".
virtual void GetHeapGrowthStacks(MallocExtensionWriter* writer);
// Outputs to "writer" a fragmentation profile. The output can be
// passed to "pprof". In particular, the result is a list of
// <n,total,stacktrace> tuples that says that "total" bytes in "n"
// objects are currently unusable because of fragmentation caused by
// an allocation with the specified "stacktrace".
virtual void GetFragmentationProfile(MallocExtensionWriter* writer);
// -------------------------------------------------------------------
// Control operations for getting and setting malloc implementation
// specific parameters. Some currently useful properties:
//
// generic
// -------
// "generic.current_allocated_bytes"
// Number of bytes currently allocated by application
// This property is not writable.
//
// "generic.heap_size"
// Number of bytes in the heap ==
// current_allocated_bytes +
// fragmentation +
// freed memory regions
// This property is not writable.
//
// tcmalloc
// --------
// "tcmalloc.max_total_thread_cache_bytes"
// Upper limit on total number of bytes stored across all
// per-thread caches. Default: 16MB.
//
// "tcmalloc.current_total_thread_cache_bytes"
// Number of bytes used across all thread caches.
// This property is not writable.
//
// "tcmalloc.pageheap_free_bytes"
// Number of bytes in free, mapped pages in page heap. These
// bytes can be used to fulfill allocation requests. They
// always count towards virtual memory usage, and unless the
// underlying memory is swapped out by the OS, they also count
// towards physical memory usage. This property is not writable.
//
// "tcmalloc.pageheap_unmapped_bytes"
// Number of bytes in free, unmapped pages in page heap.
// These are bytes that have been released back to the OS,
// possibly by one of the MallocExtension "Release" calls.
// They can be used to fulfill allocation requests, but
// typically incur a page fault. They always count towards
// virtual memory usage, and depending on the OS, typically
// do not count towards physical memory usage. This property
// is not writable.
//
// "tcmalloc.per_cpu_caches_active"
// Whether tcmalloc is using per-CPU caches (1 or 0 respectively).
// This property is not writable.
// -------------------------------------------------------------------
// Get the named "property"'s value. Returns true if the property
// is known. Returns false if the property is not a valid property
// name for the current malloc implementation.
// REQUIRES: property != null; value != null
virtual bool GetNumericProperty(const char* property, size_t* value);
// Set the named "property"'s value. Returns true if the property
// is known and writable. Returns false if the property is not a
// valid property name for the current malloc implementation, or
// is not writable.
// REQUIRES: property != null
virtual bool SetNumericProperty(const char* property, size_t value);
// Mark the current thread as "idle". This routine may optionally
// be called by threads as a hint to the malloc implementation that
// any thread-specific resources should be released. Note: this may
// be an expensive routine, so it should not be called too often.
//
// Also, if the code that calls this routine will go to sleep for
// a while, it should take care to not allocate anything between
// the call to this routine and the beginning of the sleep.
//
// Most malloc implementations ignore this routine.
virtual void MarkThreadIdle();
// Mark the current thread as "busy". This routine should be
// called after MarkThreadIdle() if the thread will now do more
// work. If this method is not called, performance may suffer.
//
// Most malloc implementations ignore this routine.
virtual void MarkThreadBusy();
// Attempt to free any resources associated with cpu <cpu> (in the sense
// of only being usable from that CPU.) Returns the number of bytes
// previously assigned to "cpu" that were freed. Safe to call from
// any processor, not just <cpu>.
//
// Most malloc implementations ignore this routine (known exceptions:
// tcmalloc with --tcmalloc_per_cpu_caches=true.)
virtual size_t ReleaseCPUMemory(int cpu);
// Gets the system allocator used by the malloc extension instance. Returns
// null for malloc implementations that do not support pluggable system
// allocators.
virtual SysAllocator* GetSystemAllocator();
// Sets the system allocator to the specified.
//
// Users could register their own system allocators for malloc implementation
// that supports pluggable system allocators, such as TCMalloc, by doing:
// alloc = new MyOwnSysAllocator();
// MallocExtension::instance()->SetSystemAllocator(alloc);
// It's up to users whether to fall back (recommended) to the default
// system allocator (use GetSystemAllocator() above) or not. The caller is
// responsible to any necessary locking.
// See tcmalloc/system-alloc.h for the interface and
// tcmalloc/memfs_malloc.cc for the examples.
//
// It's a no-op for malloc implementations that do not support pluggable
// system allocators.
virtual void SetSystemAllocator(SysAllocator *a);
// Try to release num_bytes of free memory back to the operating
// system for reuse. Use this extension with caution -- to get this
// memory back may require faulting pages back in by the OS, and
// that may be slow. (Currently only implemented in tcmalloc.)
virtual void ReleaseToSystem(size_t num_bytes);
// Same as ReleaseToSystem() but release as much memory as possible.
virtual void ReleaseFreeMemory();
// Sets the rate at which we release unused memory to the system.
// Zero means we never release memory back to the system. Increase
// this flag to return memory faster; decrease it to return memory
// slower. Reasonable rates are in the range [0,10]. (Currently
// only implemented in tcmalloc).
virtual void SetMemoryReleaseRate(double rate);
// Gets the release rate. Returns a value < 0 if unknown.
virtual double GetMemoryReleaseRate();
// Returns the estimated number of bytes that will be allocated for
// a request of "size" bytes. This is an estimate: an allocation of
// SIZE bytes may reserve more bytes, but will never reserve less.
// (Currently only implemented in tcmalloc, other implementations
// always return SIZE.)
// This is equivalent to malloc_good_size() in OS X.
virtual size_t GetEstimatedAllocatedSize(size_t size);
// Returns the actual number N of bytes reserved by tcmalloc for the
// pointer p. This number may be equal to or greater than the
// number of bytes requested when p was allocated.
//
// This routine is just useful for statistics collection. The
// client must *not* read or write from the extra bytes that are
// indicated by this call.
//
// Example, suppose the client gets memory by calling
// p = malloc(10)
// and GetAllocatedSize(p) returns 16. The client must only use the
// first 10 bytes p[0..9], and not attempt to read or write p[10..15].
//
// p must have been allocated by this malloc implementation, must
// not be an interior pointer -- that is, must be exactly the
// pointer returned to by malloc() et al., not some offset from that
// -- and should not have been freed yet. p may be null.
// (Currently only implemented in tcmalloc; other implementations
// will return 0.)
virtual size_t GetAllocatedSize(const void* p);
// Returns kOwned if this malloc implementation allocated the memory
// pointed to by p, or kNotOwned if some other malloc implementation
// allocated it or p is null. May also return kUnknownOwnership if
// the malloc implementation does not keep track of ownership.
// REQUIRES: p must be a value returned from a previous call to
// malloc(), calloc(), realloc(), memalign(), posix_memalign(),
// valloc(), pvalloc(), new, or new[], and must refer to memory that
// is currently allocated (so, for instance, you should not pass in
// a pointer after having called free() on it).
enum Ownership {
// NOTE: Enum values MUST be kept in sync with the version in
// malloc_extension_c.h
kUnknownOwnership = 0,
kOwned,
kNotOwned
};
virtual Ownership GetOwnership(const void* p);
// The current malloc implementation. Always non-null.
static MallocExtension* instance() {
InitModuleOnce();
return current_instance_.load(std::memory_order_acquire);
}
// Change the malloc implementation. Typically called by the
// malloc implementation during initialization.
static void Register(MallocExtension* implementation);
// Type used by GetProperties. See comment on GetProperties.
struct Property {
size_t value;
// Stores breakdown of the property value bucketed by object size.
struct Bucket {
size_t min_object_size;
size_t max_object_size;
size_t size;
};
// Empty unless detailed info was asked for and this type has buckets
std::vector<Bucket> buckets;
};
// Type used by GetProperties. See comment on GetProperties.
enum StatLevel { kSummary, kDetailed };
// Stores in *result detailed statistics about the malloc
// implementation. *result will be a map keyed by the name of
// the statistic. Each statistic has at least a "value" field.
//
// Some statistics may also contain an array of buckets if
// level==kDetailed and the "value" can be subdivided
// into different buckets for different object sizes. If
// such detailed statistics are not available, Property::buckets
// will be empty. Otherwise Property::buckets will contain
// potentially many entries. For each bucket b, b.value
// will count the value contributed by objects in the range
// [b.min_object_size, b.max_object_size].
//
// Common across malloc implementations:
// generic.bytes_in_use_by_app -- Bytes currently in use by application
// generic.physical_memory_used -- Overall (including malloc internals)
// generic.virtual_memory_used -- Overall (including malloc internals)
//
// Tcmalloc specific properties
// tcmalloc.cpu_free -- Bytes in per-cpu free-lists
// tcmalloc.thread_cache_free -- Bytes in per-thread free-lists
// tcmalloc.transfer_cache -- Bytes in cross-thread transfer caches
// tcmalloc.central_cache_free -- Bytes in central cache
// tcmalloc.page_heap_free -- Bytes in page heap
// tcmalloc.page_heap_unmapped -- Bytes in page heap (no backing phys. mem)
// tcmalloc.metadata_bytes -- Used by internal data structures
// tcmalloc.thread_cache_count -- Number of thread caches in use
//
// Debug allocator
// debug.free_queue -- Recently freed objects
virtual void GetProperties(StatLevel level,
std::map<std::string, Property>* result);
private:
static MallocExtension* InitModule();
static void InitModuleOnce() {
// Pointer stored here so heap leak checker will consider the default
// instance reachable, even if current_instance_ is later overridden by
// MallocExtension::Register().
ABSL_ATTRIBUTE_UNUSED static MallocExtension* default_instance =
InitModule();
}
static std::atomic<MallocExtension*> current_instance_;
};
// Base class than can handle output generated by GetHeapSample() and
// GetHeapGrowthStacks(). Use the available subclass or roll your
// own. Useful if you want explicit control over the type of output
// buffer used (e.g. IOBuffer, Cord, etc.)
class MallocExtensionWriter {
public:
virtual ~MallocExtensionWriter() {}
virtual void Write(const char* buf, int len) = 0;
protected:
MallocExtensionWriter() {}
MallocExtensionWriter(const MallocExtensionWriter&) = delete;
MallocExtensionWriter& operator=(const MallocExtensionWriter&) = delete;
};
// A subclass that writes to the std::string "out". NOTE: The generated
// data is *appended* to "*out". I.e., the old contents of "*out" are
// preserved.
class StringMallocExtensionWriter : public MallocExtensionWriter {
public:
explicit StringMallocExtensionWriter(std::string* out) : out_(out) {}
virtual void Write(const char* buf, int len) {
out_->append(buf, len);
}
private:
std::string* const out_;
StringMallocExtensionWriter(const StringMallocExtensionWriter&) = delete;
StringMallocExtensionWriter& operator=(const StringMallocExtensionWriter&) =
delete;
};
} // namespace base_internal
} // namespace absl
// The nallocx function allocates no memory, but it performs the same size
// computation as the malloc function, and returns the real size of the
// allocation that would result from the equivalent malloc function call.
// Default weak implementation returns size unchanged, but tcmalloc overrides it
// and returns rounded up size. See the following link for details:
// http://www.unix.com/man-page/freebsd/3/nallocx/
extern "C" size_t nallocx(size_t size, int flags);
#ifndef MALLOCX_LG_ALIGN
#define MALLOCX_LG_ALIGN(la) (la)
#endif
#endif // ABSL_BASE_INTERNAL_MALLOC_EXTENSION_H_