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initial checkin
This commit is contained in:
parent
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16
cmake/mimalloc-config-version.cmake
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16
cmake/mimalloc-config-version.cmake
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@ -0,0 +1,16 @@
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set(mi_version_major 1)
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set(mi_version_minor 0)
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set(mi_version ${mi_version_major}.${mi_version_minor})
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set(PACKAGE_VERSION ${mi_version})
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if("${PACKAGE_FIND_VERSION_MAJOR}" EQUAL "${mi_version_major}")
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if ("${PACKAGE_FIND_VERSION_MINOR}" EQUAL "${mi_version_minor}")
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set(PACKAGE_VERSION_EXACT TRUE)
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elseif("${PACKAGE_FIND_VERSION_MINOR}" LESS "${mi_version_minor}")
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set(PACKAGE_VERSION_COMPATIBLE TRUE)
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else()
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set(PACKAGE_VERSION_UNSUITABLE TRUE)
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endif()
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else()
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set(PACKAGE_VERSION_UNSUITABLE TRUE)
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endif()
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1
cmake/mimalloc-config.cmake
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1
cmake/mimalloc-config.cmake
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@ -0,0 +1 @@
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include(${CMAKE_CURRENT_LIST_DIR}/mimalloc.cmake)
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2575
doc/doxyfile
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2575
doc/doxyfile
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Load Diff
1096
doc/mimalloc-doc.h
Normal file
1096
doc/mimalloc-doc.h
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File diff suppressed because it is too large
Load Diff
49
doc/mimalloc-doxygen.css
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49
doc/mimalloc-doxygen.css
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doc/mimalloc-logo-100.png
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BIN
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BIN
doc/mimalloc-logo.png
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BIN
doc/mimalloc-logo.png
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Binary file not shown.
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doc/mimalloc-logo.svg
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163
doc/mimalloc-logo.svg
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BIN
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224
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ide/vs2017/mimalloc.vcxproj.filters
Normal file
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|
190
include/mimalloc-atomic.h
Normal file
190
include/mimalloc-atomic.h
Normal file
@ -0,0 +1,190 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#pragma once
|
||||
#ifndef __MIMALLOC_ATOMIC_H
|
||||
#define __MIMALLOC_ATOMIC_H
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Atomics
|
||||
// ------------------------------------------------------
|
||||
|
||||
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|
||||
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|
||||
|
||||
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|
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|
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|
||||
|
||||
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|
||||
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|
||||
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|
||||
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|
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||||
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|
||||
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|
||||
|
||||
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|
||||
static inline bool mi_atomic_compare_exchange32(volatile uint32_t* p, uint32_t exchange, uint32_t compare);
|
||||
|
||||
// Atomically compare and exchange a value; returns `true` if successful.
|
||||
static inline bool mi_atomic_compare_exchange(volatile uintptr_t* p, uintptr_t exchange, uintptr_t compare);
|
||||
|
||||
// Atomically exchange a value.
|
||||
static inline uintptr_t mi_atomic_exchange(volatile uintptr_t* p, uintptr_t exchange);
|
||||
|
||||
static inline void mi_atomic_yield();
|
||||
|
||||
// Atomically compare and exchange a pointer; returns `true` if successful.
|
||||
static inline bool mi_atomic_compare_exchange_ptr(volatile void** p, void* newp, void* compare) {
|
||||
return mi_atomic_compare_exchange((volatile uintptr_t*)p, (uintptr_t)newp, (uintptr_t)compare);
|
||||
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|
||||
|
||||
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|
||||
static inline void* mi_atomic_exchange_ptr(volatile void** p, void* exchange) {
|
||||
return (void*)mi_atomic_exchange((volatile uintptr_t*)p, (uintptr_t)exchange);
|
||||
}
|
||||
|
||||
|
||||
|
||||
#define mi_atomic_locked(mutex) for(bool _mheld = mi_mutex_lock(mutex); _mheld; _mheld = mi_mutex_unlock(mutex))
|
||||
|
||||
#ifdef _MSC_VER
|
||||
#define WIN32_LEAN_AND_MEAN
|
||||
#include <windows.h>
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||||
#include <intrin.h>
|
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#if (MI_INTPTR_SIZE==8)
|
||||
#define RC64(f) f##64
|
||||
#else
|
||||
#define RC64(f) f
|
||||
#endif
|
||||
static inline uintptr_t mi_atomic_increment(volatile uintptr_t* p) {
|
||||
return (uintptr_t)RC64(_InterlockedIncrement)((volatile intptr_t*)p);
|
||||
}
|
||||
static inline uint32_t mi_atomic_increment32(volatile uint32_t* p) {
|
||||
return (uint32_t)_InterlockedIncrement((volatile int32_t*)p);
|
||||
}
|
||||
static inline uintptr_t mi_atomic_decrement(volatile uintptr_t* p) {
|
||||
return (uintptr_t)RC64(_InterlockedDecrement)((volatile intptr_t*)p);
|
||||
}
|
||||
static inline uintptr_t mi_atomic_subtract(volatile uintptr_t* p, uintptr_t sub) {
|
||||
return (uintptr_t)RC64(_InterlockedExchangeAdd)((volatile intptr_t*)p, -((intptr_t)sub)) - sub;
|
||||
}
|
||||
static inline uint32_t mi_atomic_subtract32(volatile uint32_t* p, uint32_t sub) {
|
||||
return (uint32_t)_InterlockedExchangeAdd((volatile int32_t*)p, -((int32_t)sub)) - sub;
|
||||
}
|
||||
static inline bool mi_atomic_compare_exchange32(volatile uint32_t* p, uint32_t exchange, uint32_t compare) {
|
||||
return ((int32_t)compare == _InterlockedCompareExchange((volatile int32_t*)p, (int32_t)exchange, (int32_t)compare));
|
||||
}
|
||||
static inline bool mi_atomic_compare_exchange(volatile uintptr_t* p, uintptr_t exchange, uintptr_t compare) {
|
||||
return (compare == RC64(_InterlockedCompareExchange)((volatile intptr_t*)p, (intptr_t)exchange, (intptr_t)compare));
|
||||
}
|
||||
static inline uintptr_t mi_atomic_exchange(volatile uintptr_t* p, uintptr_t exchange) {
|
||||
return (uintptr_t)RC64(_InterlockedExchange)((volatile intptr_t*)p, (intptr_t)exchange);
|
||||
}
|
||||
static inline void mi_atomic_yield() {
|
||||
YieldProcessor();
|
||||
}
|
||||
static inline int64_t mi_atomic_add(volatile int64_t* p, int64_t add) {
|
||||
#if (MI_INTPTR_SIZE==8)
|
||||
return _InterlockedExchangeAdd64(p, add) + add;
|
||||
#else
|
||||
int64_t current;
|
||||
int64_t sum;
|
||||
do {
|
||||
current = *p;
|
||||
sum = current + add;
|
||||
} while (_InterlockedCompareExchange64(p, sum, current) != current);
|
||||
return sum;
|
||||
#endif
|
||||
}
|
||||
|
||||
#else
|
||||
#ifdef __cplusplus
|
||||
#include <atomic>
|
||||
#define MI_USING_STD using namespace std;
|
||||
#define _Atomic(tp) atomic<tp>
|
||||
#else
|
||||
#include <stdatomic.h>
|
||||
#define MI_USING_STD
|
||||
#endif
|
||||
static inline uintptr_t mi_atomic_increment(volatile uintptr_t* p) {
|
||||
MI_USING_STD
|
||||
return atomic_fetch_add_explicit((volatile atomic_uintptr_t*)p, (uintptr_t)1, memory_order_relaxed) + 1;
|
||||
}
|
||||
static inline uint32_t mi_atomic_increment32(volatile uint32_t* p) {
|
||||
MI_USING_STD
|
||||
return atomic_fetch_add_explicit((volatile _Atomic(uint32_t)*)p, (uint32_t)1, memory_order_relaxed) + 1;
|
||||
}
|
||||
static inline uintptr_t mi_atomic_decrement(volatile uintptr_t* p) {
|
||||
MI_USING_STD
|
||||
return atomic_fetch_sub_explicit((volatile atomic_uintptr_t*)p, (uintptr_t)1, memory_order_relaxed) - 1;
|
||||
}
|
||||
static inline int64_t mi_atomic_add(volatile int64_t* p, int64_t add) {
|
||||
MI_USING_STD
|
||||
return atomic_fetch_add_explicit((volatile _Atomic(int64_t)*)p, add, memory_order_relaxed) + add;
|
||||
}
|
||||
static inline uintptr_t mi_atomic_subtract(volatile uintptr_t* p, uintptr_t sub) {
|
||||
MI_USING_STD
|
||||
return atomic_fetch_sub_explicit((volatile atomic_uintptr_t*)p, sub, memory_order_relaxed) - sub;
|
||||
}
|
||||
static inline uint32_t mi_atomic_subtract32(volatile uint32_t* p, uint32_t sub) {
|
||||
MI_USING_STD
|
||||
return atomic_fetch_sub_explicit((volatile _Atomic(uint32_t)*)p, sub, memory_order_relaxed) - sub;
|
||||
}
|
||||
static inline bool mi_atomic_compare_exchange32(volatile uint32_t* p, uint32_t exchange, uint32_t compare) {
|
||||
MI_USING_STD
|
||||
return atomic_compare_exchange_weak_explicit((volatile _Atomic(uint32_t)*)p, &compare, exchange, memory_order_relaxed, memory_order_seq_cst);
|
||||
}
|
||||
static inline bool mi_atomic_compare_exchange(volatile uintptr_t* p, uintptr_t exchange, uintptr_t compare) {
|
||||
MI_USING_STD
|
||||
return atomic_compare_exchange_weak_explicit((volatile atomic_uintptr_t*)p, &compare, exchange, memory_order_relaxed, memory_order_seq_cst);
|
||||
}
|
||||
static inline uintptr_t mi_atomic_exchange(volatile uintptr_t* p, uintptr_t exchange) {
|
||||
MI_USING_STD
|
||||
return atomic_exchange_explicit((volatile atomic_uintptr_t*)p, exchange, memory_order_relaxed);
|
||||
}
|
||||
|
||||
#if defined(__cplusplus)
|
||||
#include <thread>
|
||||
static inline void mi_atomic_yield() {
|
||||
std::this_thread::yield();
|
||||
}
|
||||
#elif (defined(__GNUC__) || defined(__clang__)) && (defined(__x86_64__) || defined(__i386__))
|
||||
static inline void mi_atomic_yield() {
|
||||
asm volatile ("pause" ::: "memory");
|
||||
}
|
||||
#else
|
||||
#include <unistd.h>
|
||||
static inline void mi_atomic_yield() {
|
||||
sleep(0);
|
||||
}
|
||||
#endif
|
||||
|
||||
#endif
|
||||
|
||||
// Light weight mutex for low contention situations
|
||||
typedef struct mi_mutex_s {
|
||||
volatile uint32_t value;
|
||||
} mi_mutex_t;
|
||||
|
||||
static inline bool mi_mutex_lock(mi_mutex_t* mutex) {
|
||||
while(!mi_atomic_compare_exchange32(&mutex->value, 1, 0)) {
|
||||
mi_atomic_yield();
|
||||
}
|
||||
return true;
|
||||
}
|
||||
|
||||
static inline bool mi_mutex_unlock(mi_mutex_t* mutex) {
|
||||
mutex->value = 0;
|
||||
return false;
|
||||
}
|
||||
|
||||
|
||||
#endif // __MIMALLOC_ATOMIC_H
|
317
include/mimalloc-internal.h
Normal file
317
include/mimalloc-internal.h
Normal file
@ -0,0 +1,317 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#pragma once
|
||||
#ifndef __MIMALLOC_INTERNAL_H
|
||||
#define __MIMALLOC_INTERNAL_H
|
||||
|
||||
#include "mimalloc-types.h"
|
||||
|
||||
#if defined(MI_MALLOC_OVERRIDE) && defined(MI_INTERPOSE)
|
||||
#define MI_TLS_RECURSE_GUARD
|
||||
#endif
|
||||
|
||||
|
||||
// "options.c"
|
||||
void _mi_fprintf(FILE* out, const char* fmt, ...);
|
||||
void _mi_error_message(const char* fmt, ...);
|
||||
void _mi_warning_message(const char* fmt, ...);
|
||||
void _mi_verbose_message(const char* fmt, ...);
|
||||
|
||||
// "init.c"
|
||||
extern mi_stats_t _mi_stats_main;
|
||||
extern const mi_page_t _mi_page_empty;
|
||||
bool _mi_is_main_thread();
|
||||
uintptr_t _mi_ptr_cookie(const void* p);
|
||||
uintptr_t _mi_random_shuffle(uintptr_t x);
|
||||
uintptr_t _mi_random_init(uintptr_t seed /* can be zero */);
|
||||
|
||||
// "os.c"
|
||||
bool _mi_os_reset(void* p, size_t size);
|
||||
void* _mi_os_alloc(size_t size, mi_stats_t* stats);
|
||||
void _mi_os_free(void* p, size_t size, mi_stats_t* stats);
|
||||
bool _mi_os_protect(void* addr, size_t size);
|
||||
bool _mi_os_unprotect(void* addr, size_t size);
|
||||
|
||||
void* _mi_os_alloc_aligned(size_t size, size_t alignment, mi_os_tld_t* tld);
|
||||
size_t _mi_os_page_size();
|
||||
uintptr_t _mi_align_up(uintptr_t sz, size_t alignment);
|
||||
|
||||
// "segment.c"
|
||||
mi_page_t* _mi_segment_page_alloc(size_t block_wsize, mi_segments_tld_t* tld, mi_os_tld_t* os_tld);
|
||||
void _mi_segment_page_free(mi_page_t* page, bool force, mi_segments_tld_t* tld);
|
||||
void _mi_segment_page_abandon(mi_page_t* page, mi_segments_tld_t* tld);
|
||||
bool _mi_segment_try_reclaim_abandoned( mi_heap_t* heap, bool try_all, mi_segments_tld_t* tld);
|
||||
void _mi_segment_thread_collect(mi_segments_tld_t* tld);
|
||||
uint8_t* _mi_segment_page_start(const mi_segment_t* segment, const mi_page_t* page, size_t* page_size); // page start for any page
|
||||
|
||||
// "page.c"
|
||||
void* _mi_malloc_generic(mi_heap_t* heap, size_t size) mi_attr_noexcept mi_attr_malloc;
|
||||
|
||||
void _mi_page_retire(mi_page_t* page); // free the page if there are no other pages with many free blocks
|
||||
void _mi_page_unfull(mi_page_t* page);
|
||||
void _mi_page_free(mi_page_t* page, mi_page_queue_t* pq, bool force); // free the page
|
||||
void _mi_page_abandon(mi_page_t* page, mi_page_queue_t* pq); // abandon the page, to be picked up by another thread...
|
||||
void _mi_heap_delayed_free(mi_heap_t* heap);
|
||||
|
||||
void _mi_page_use_delayed_free(mi_page_t* page, bool enable);
|
||||
void _mi_page_queue_append(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_queue_t* append);
|
||||
void _mi_deferred_free(mi_heap_t* heap, bool force);
|
||||
|
||||
void _mi_page_free_collect(mi_page_t* page);
|
||||
void _mi_page_reclaim(mi_heap_t* heap, mi_page_t* page); // callback from segments
|
||||
|
||||
size_t _mi_bin_size(uint8_t bin); // for stats
|
||||
uint8_t _mi_bin(size_t size); // for stats
|
||||
uint8_t _mi_bsr(uintptr_t x); // bit-scan-right, used on BSD in "os.c"
|
||||
|
||||
// "heap.c"
|
||||
void _mi_heap_destroy_pages(mi_heap_t* heap);
|
||||
void _mi_heap_collect_abandon(mi_heap_t* heap);
|
||||
uintptr_t _mi_heap_random(mi_heap_t* heap);
|
||||
|
||||
// "stats.c"
|
||||
void _mi_stats_done(mi_stats_t* stats);
|
||||
|
||||
// "alloc.c"
|
||||
void* _mi_page_malloc(mi_heap_t* heap, mi_page_t* page, size_t size) mi_attr_noexcept; // called from `_mi_malloc_generic`
|
||||
void* _mi_heap_malloc_zero(mi_heap_t* heap, size_t size, bool zero);
|
||||
void* _mi_realloc_zero(void* p, size_t size, bool zero);
|
||||
mi_block_t* _mi_page_ptr_unalign(const mi_segment_t* segment, const mi_page_t* page, void* p);
|
||||
void _mi_free_delayed_block(mi_block_t* block);
|
||||
|
||||
#if MI_DEBUG>1
|
||||
bool _mi_page_is_valid(mi_page_t* page);
|
||||
#endif
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Branches
|
||||
// ------------------------------------------------------
|
||||
|
||||
#if defined(__GNUC__) || defined(__clang__)
|
||||
#define mi_unlikely(x) __builtin_expect((x),0)
|
||||
#define mi_likely(x) __builtin_expect((x),1)
|
||||
#else
|
||||
#define mi_unlikely(x) (x)
|
||||
#define mi_likely(x) (x)
|
||||
#endif
|
||||
|
||||
|
||||
#if defined(_MSC_VER)
|
||||
#define mi_decl_noinline __declspec(noinline)
|
||||
#elif defined(__GNUC__) || defined(__clang__)
|
||||
#define mi_decl_noinline __attribute__((noinline))
|
||||
#else
|
||||
#define mi_decl_noinline
|
||||
#endif
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Inlined definitions
|
||||
----------------------------------------------------------- */
|
||||
#define UNUSED(x) (void)(x)
|
||||
|
||||
#define MI_INIT4(x) x(),x(),x(),x()
|
||||
#define MI_INIT8(x) MI_INIT4(x),MI_INIT4(x)
|
||||
#define MI_INIT16(x) MI_INIT8(x),MI_INIT8(x)
|
||||
#define MI_INIT32(x) MI_INIT16(x),MI_INIT16(x)
|
||||
#define MI_INIT64(x) MI_INIT32(x),MI_INIT32(x)
|
||||
#define MI_INIT128(x) MI_INIT64(x),MI_INIT64(x)
|
||||
#define MI_INIT256(x) MI_INIT128(x),MI_INIT128(x)
|
||||
|
||||
|
||||
// Overflow detecting multiply
|
||||
#define MI_MUL_NO_OVERFLOW ((size_t)1 << (4*sizeof(size_t))) // sqrt(SIZE_MAX)
|
||||
static inline bool mi_mul_overflow(size_t size, size_t count, size_t* total) {
|
||||
*total = size * count;
|
||||
return ((size >= MI_MUL_NO_OVERFLOW || count >= MI_MUL_NO_OVERFLOW)
|
||||
&& size > 0 && (SIZE_MAX / size) < count);
|
||||
}
|
||||
|
||||
// Align a byte size to a size in _machine words_,
|
||||
// i.e. byte size == `wsize*sizeof(void*)`.
|
||||
static inline size_t _mi_wsize_from_size(size_t size) {
|
||||
return (size + sizeof(uintptr_t) - 1) / sizeof(uintptr_t);
|
||||
}
|
||||
|
||||
//extern mi_decl_thread mi_heap_t* _mi_backing_heap; // thread local heap
|
||||
extern const mi_heap_t _mi_heap_empty; // read-only empty heap, initial value of the thread local default heap
|
||||
extern mi_heap_t _mi_heap_main; // statically allocated main backing heap
|
||||
extern bool _mi_process_is_initialized;
|
||||
|
||||
extern mi_decl_thread mi_heap_t* _mi_heap_default; // default heap to allocate from
|
||||
|
||||
static inline mi_heap_t* mi_get_default_heap() {
|
||||
#ifdef MI_TLS_RECURSE_GUARD
|
||||
// on some platforms, like MacOSX, the dynamic loader calls `malloc`
|
||||
// to initialize thread local data. To avoid recursion, we need to avoid
|
||||
// accessing the thread local `_mi_default_heap` until our module is loaded
|
||||
// and use the statically allocated main heap until that time.
|
||||
// TODO: patch ourselves dynamically to avoid this check every time?
|
||||
if (!_mi_process_is_initialized) return &_mi_heap_main;
|
||||
#endif
|
||||
return _mi_heap_default;
|
||||
}
|
||||
|
||||
static inline bool mi_heap_is_default(const mi_heap_t* heap) {
|
||||
return (heap == mi_get_default_heap());
|
||||
}
|
||||
|
||||
static inline bool mi_heap_is_backing(const mi_heap_t* heap) {
|
||||
return (heap->tld->heap_backing == heap);
|
||||
}
|
||||
|
||||
static inline bool mi_heap_is_initialized(mi_heap_t* heap) {
|
||||
mi_assert_internal(heap != NULL);
|
||||
return (heap != &_mi_heap_empty);
|
||||
}
|
||||
|
||||
static inline mi_page_t* _mi_heap_get_free_small_page(mi_heap_t* heap, size_t size) {
|
||||
mi_assert_internal(size <= MI_SMALL_SIZE_MAX);
|
||||
return heap->pages_free_direct[_mi_wsize_from_size(size)];
|
||||
}
|
||||
|
||||
// Get the page belonging to a certain size class
|
||||
static inline mi_page_t* _mi_get_free_small_page(size_t size) {
|
||||
return _mi_heap_get_free_small_page(mi_get_default_heap(), size);
|
||||
}
|
||||
|
||||
|
||||
// Segment that contains the pointer
|
||||
static inline mi_segment_t* _mi_ptr_segment(const void* p) {
|
||||
// mi_assert_internal(p != NULL);
|
||||
return (mi_segment_t*)((uintptr_t)p & ~MI_SEGMENT_MASK);
|
||||
}
|
||||
|
||||
// Segment belonging to a page
|
||||
static inline mi_segment_t* _mi_page_segment(const mi_page_t* page) {
|
||||
mi_segment_t* segment = _mi_ptr_segment(page);
|
||||
mi_assert_internal(page == &segment->pages[page->segment_idx]);
|
||||
return segment;
|
||||
}
|
||||
|
||||
// Get the page containing the pointer
|
||||
static inline mi_page_t* _mi_segment_page_of(const mi_segment_t* segment, const void* p) {
|
||||
// if (segment->page_size > MI_SEGMENT_SIZE) return &segment->pages[0]; // huge pages
|
||||
ptrdiff_t diff = (uint8_t*)p - (uint8_t*)segment;
|
||||
mi_assert_internal(diff >= 0 && diff < MI_SEGMENT_SIZE);
|
||||
uintptr_t idx = (uintptr_t)diff >> segment->page_shift;
|
||||
mi_assert_internal(idx < segment->capacity);
|
||||
mi_assert_internal(segment->page_kind == MI_PAGE_SMALL || idx == 0);
|
||||
return &((mi_segment_t*)segment)->pages[idx];
|
||||
}
|
||||
|
||||
// Quick page start for initialized pages
|
||||
static inline uint8_t* _mi_page_start(const mi_segment_t* segment, const mi_page_t* page, size_t* page_size) {
|
||||
return _mi_segment_page_start(segment, page, page_size);
|
||||
}
|
||||
|
||||
// Get the page containing the pointer
|
||||
static inline mi_page_t* _mi_ptr_page(void* p) {
|
||||
return _mi_segment_page_of(_mi_ptr_segment(p), p);
|
||||
}
|
||||
|
||||
// are all blocks in a page freed?
|
||||
static inline bool mi_page_all_free(const mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
return (page->used - page->thread_freed == 0);
|
||||
}
|
||||
|
||||
// are there immediately available blocks
|
||||
static inline bool mi_page_immediate_available(const mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
return (page->free != NULL);
|
||||
}
|
||||
// are there free blocks in this page?
|
||||
static inline bool mi_page_has_free(mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
bool hasfree = (mi_page_immediate_available(page) || page->local_free != NULL || (page->thread_free.head != 0));
|
||||
mi_assert_internal(hasfree || page->used - page->thread_freed == page->capacity);
|
||||
return hasfree;
|
||||
}
|
||||
|
||||
// are all blocks in use?
|
||||
static inline bool mi_page_all_used(mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
return !mi_page_has_free(page);
|
||||
}
|
||||
|
||||
// is more than 7/8th of a page in use?
|
||||
static inline bool mi_page_mostly_used(const mi_page_t* page) {
|
||||
if (page==NULL) return true;
|
||||
uint16_t frac = page->reserved / 8U;
|
||||
return (page->reserved - page->used + page->thread_freed < frac);
|
||||
}
|
||||
|
||||
static inline mi_page_queue_t* mi_page_queue(const mi_heap_t* heap, size_t size) {
|
||||
return &((mi_heap_t*)heap)->pages[_mi_bin(size)];
|
||||
}
|
||||
|
||||
// -------------------------------------------------------------------
|
||||
// Encoding/Decoding the free list next pointers
|
||||
// -------------------------------------------------------------------
|
||||
|
||||
static inline mi_block_t* mi_block_nextx( uintptr_t cookie, mi_block_t* block ) {
|
||||
#if MI_SECURE
|
||||
return (mi_block_t*)(block->next ^ cookie);
|
||||
#else
|
||||
UNUSED(cookie);
|
||||
return (mi_block_t*)block->next;
|
||||
#endif
|
||||
}
|
||||
|
||||
static inline void mi_block_set_nextx(uintptr_t cookie, mi_block_t* block, mi_block_t* next) {
|
||||
#if MI_SECURE
|
||||
block->next = (mi_encoded_t)next ^ cookie;
|
||||
#else
|
||||
UNUSED(cookie);
|
||||
block->next = (mi_encoded_t)next;
|
||||
#endif
|
||||
}
|
||||
|
||||
static inline mi_block_t* mi_block_next(mi_page_t* page, mi_block_t* block) {
|
||||
return mi_block_nextx(page->cookie,block);
|
||||
}
|
||||
|
||||
static inline void mi_block_set_next(mi_page_t* page, mi_block_t* block, mi_block_t* next) {
|
||||
mi_block_set_nextx(page->cookie,block,next);
|
||||
}
|
||||
// -------------------------------------------------------------------
|
||||
// Getting the thread id should be performant
|
||||
// as it is called in the fast path of `_mi_free`,
|
||||
// so we specialize for various platforms.
|
||||
// -------------------------------------------------------------------
|
||||
#if defined(_WIN32)
|
||||
#define WIN32_LEAN_AND_MEAN
|
||||
#include <windows.h>
|
||||
static inline uintptr_t _mi_thread_id() mi_attr_noexcept {
|
||||
// Windows: works on Intel and ARM in both 32- and 64-bit
|
||||
return (uintptr_t)NtCurrentTeb();
|
||||
}
|
||||
#elif (defined(__GNUC__) || defined(__clang__)) && (defined(__x86_64__) || defined(__i386__))
|
||||
// TLS register on x86 is in the FS or GS register
|
||||
// see: https://akkadia.org/drepper/tls.pdf
|
||||
static inline uintptr_t _mi_thread_id() mi_attr_noexcept {
|
||||
uintptr_t tid;
|
||||
#if defined(__i386__)
|
||||
__asm__("movl %%gs:0, %0" : "=r" (tid) : : ); // 32-bit always uses GS
|
||||
#elif defined(__MACH__)
|
||||
__asm__("movq %%gs:0, %0" : "=r" (tid) : : ); // x86_64 MacOSX uses GS
|
||||
#else
|
||||
__asm__("movq %%fs:0, %0" : "=r" (tid) : : ); // x86_64 Linux, BSD uses FS
|
||||
#endif
|
||||
return tid;
|
||||
}
|
||||
#else
|
||||
// otherwise use standard C
|
||||
static inline uintptr_t _mi_thread_id() mi_attr_noexcept {
|
||||
return (uintptr_t)&_mi_backing_heap;
|
||||
}
|
||||
#endif
|
||||
|
||||
|
||||
#endif
|
398
include/mimalloc-types.h
Normal file
398
include/mimalloc-types.h
Normal file
@ -0,0 +1,398 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#pragma once
|
||||
#ifndef __MIMALLOC_TYPES_H
|
||||
#define __MIMALLOC_TYPES_H
|
||||
|
||||
#include <stdlib.h> // size_t etc.
|
||||
#include <stddef.h> // ptrdiff_t
|
||||
#include <stdint.h> // uintptr_t, uint16_t, etc
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Variants
|
||||
// ------------------------------------------------------
|
||||
|
||||
// Define NDEBUG in the release version to disable assertions.
|
||||
// #define NDEBUG
|
||||
|
||||
// Define MI_STAT as 1 to maintain statistics; set it to 2 to have detailed statitistics (but costs some performance).
|
||||
// #define MI_STAT 1
|
||||
|
||||
// Define MI_SECURE as 1 to encode free lists
|
||||
// #define MI_SECURE 1
|
||||
|
||||
#if !defined(MI_SECURE)
|
||||
#define MI_SECURE 0
|
||||
#endif
|
||||
|
||||
// Define MI_DEBUG as 1 for basic assert checks and statistics
|
||||
// set it to 2 to do internal asserts,
|
||||
// and to 3 to do extensive invariant checking.
|
||||
#if !defined(MI_DEBUG)
|
||||
#if !defined(NDEBUG) || defined(_DEBUG)
|
||||
#define MI_DEBUG 1
|
||||
#else
|
||||
#define MI_DEBUG 0
|
||||
#endif
|
||||
#endif
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Platform specific values
|
||||
// ------------------------------------------------------
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Size of a pointer.
|
||||
// We assume that `sizeof(void*)==sizeof(intptr_t)`
|
||||
// and it holds for all platforms we know of.
|
||||
//
|
||||
// However, the C standard only requires that:
|
||||
// p == (void*)((intptr_t)p))
|
||||
// but we also need:
|
||||
// i == (intptr_t)((void*)i)
|
||||
// or otherwise one might define an intptr_t type that is larger than a pointer...
|
||||
// ------------------------------------------------------
|
||||
|
||||
#if INTPTR_MAX == 9223372036854775807LL
|
||||
# define MI_INTPTR_SHIFT (3)
|
||||
#elif INTPTR_MAX == 2147483647LL
|
||||
# define MI_INTPTR_SHIFT (2)
|
||||
#else
|
||||
#error platform must be 32 or 64 bits
|
||||
#endif
|
||||
|
||||
#define MI_INTPTR_SIZE (1<<MI_INTPTR_SHIFT)
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Main internal data-structures
|
||||
// ------------------------------------------------------
|
||||
|
||||
// Main tuning parameters for segment and page sizes
|
||||
// Sizes for 64-bit, divide by two for 32-bit
|
||||
#define MI_SMALL_PAGE_SHIFT (13 + MI_INTPTR_SHIFT) // 64kb
|
||||
#define MI_LARGE_PAGE_SHIFT ( 6 + MI_SMALL_PAGE_SHIFT) // 4mb
|
||||
#define MI_SEGMENT_SHIFT ( MI_LARGE_PAGE_SHIFT) // 4mb
|
||||
|
||||
// Derived constants
|
||||
#define MI_SEGMENT_SIZE (1<<MI_SEGMENT_SHIFT)
|
||||
#define MI_SEGMENT_MASK ((uintptr_t)MI_SEGMENT_SIZE - 1)
|
||||
|
||||
#define MI_SMALL_PAGE_SIZE (1<<MI_SMALL_PAGE_SHIFT)
|
||||
#define MI_LARGE_PAGE_SIZE (1<<MI_LARGE_PAGE_SHIFT)
|
||||
|
||||
#define MI_SMALL_PAGES_PER_SEGMENT (MI_SEGMENT_SIZE/MI_SMALL_PAGE_SIZE)
|
||||
#define MI_LARGE_PAGES_PER_SEGMENT (MI_SEGMENT_SIZE/MI_LARGE_PAGE_SIZE)
|
||||
|
||||
#define MI_LARGE_SIZE_MAX (MI_LARGE_PAGE_SIZE/8) // 512kb on 64-bit
|
||||
#define MI_LARGE_WSIZE_MAX (MI_LARGE_SIZE_MAX>>MI_INTPTR_SHIFT)
|
||||
|
||||
|
||||
// Maximum number of size classes. (spaced exponentially in 16.7% increments)
|
||||
#define MI_BIN_HUGE (64U)
|
||||
|
||||
// Minimal aligment necessary. On most platforms 16 bytes are needed
|
||||
// due to SSE registers for example. This must be at least `MI_INTPTR_SIZE`
|
||||
#define MI_MAX_ALIGN_SIZE 16 // sizeof(max_align_t)
|
||||
|
||||
#if (MI_LARGE_WSIZE_MAX > 131072)
|
||||
#error "define more bins"
|
||||
#endif
|
||||
|
||||
typedef uintptr_t mi_encoded_t;
|
||||
|
||||
// free lists contain blocks
|
||||
typedef struct mi_block_s {
|
||||
mi_encoded_t next;
|
||||
} mi_block_t;
|
||||
|
||||
|
||||
typedef enum mi_delayed_e {
|
||||
MI_NO_DELAYED_FREE = 0,
|
||||
MI_USE_DELAYED_FREE,
|
||||
MI_DELAYED_FREEING
|
||||
} mi_delayed_t;
|
||||
|
||||
|
||||
typedef union mi_page_flags_u {
|
||||
uint16_t value;
|
||||
struct {
|
||||
bool has_aligned;
|
||||
bool in_full;
|
||||
};
|
||||
} mi_page_flags_t;
|
||||
|
||||
// Thread free list.
|
||||
// We use 2 bits of the pointer for the `use_delayed_free` and `delayed_freeing` flags.
|
||||
typedef union mi_thread_free_u {
|
||||
uintptr_t value;
|
||||
struct {
|
||||
mi_delayed_t delayed:2;
|
||||
#if MI_INTPTR_SIZE==8
|
||||
uintptr_t head:62; // head free block in the list (right-shifted by 2)
|
||||
#elif MI_INTPTR_SIZE==4
|
||||
uintptr_t head:30;
|
||||
#endif
|
||||
};
|
||||
} mi_thread_free_t;
|
||||
|
||||
#define MI_TF_PTR_SHIFT (2)
|
||||
|
||||
// A page contains blocks of one specific size (`block_size`).
|
||||
// Each page has three list of free blocks:
|
||||
// `free` for blocks that can be allocated,
|
||||
// `local_free` for freed blocks that are not yet available to `mi_malloc`
|
||||
// `thread_free` for freed blocks by other threads
|
||||
// The `local_free` and `thread_free` lists are migrated to the `free` list
|
||||
// when it is exhausted. The separate `local_free` list is necessary to
|
||||
// implement a monotonic heartbeat. The `thead_free` list is needed for
|
||||
// avoiding atomic operations in the common case.
|
||||
//
|
||||
// `used - thread_freed` == actual blocks that are in use (alive)
|
||||
// `used - thread_freed + |free| + |local_free| == capacity`
|
||||
//
|
||||
// note: we don't count `freed` (as |free|) instead of `used` to reduce
|
||||
// the number of memory accesses in the `mi_page_all_free` function(s).
|
||||
// note: the funny layout here is due to:
|
||||
// - access is optimized for `mi_free` and `mi_page_alloc`
|
||||
// - using `uint16_t` does not seem to slow things down
|
||||
typedef struct mi_page_s {
|
||||
// "owned" by the segment
|
||||
uint8_t segment_idx; // index in the segment `pages` array, `page == &segment->pages[page->segment_idx]`
|
||||
bool segment_in_use:1; // `true` if the segment allocated this page
|
||||
bool is_reset:1; // `true` if the page memory was reset
|
||||
|
||||
// layout like this to optimize access in `mi_malloc` and `mi_free`
|
||||
mi_page_flags_t flags;
|
||||
uint16_t capacity; // number of blocks committed
|
||||
uint16_t reserved; // numbes of blocks reserved in memory
|
||||
|
||||
mi_block_t* free; // list of available free blocks (`malloc` allocates from this list)
|
||||
uintptr_t cookie; // random cookie to encode the free lists
|
||||
size_t used; // number of blocks in use (including blocks in `local_free` and `thread_free`)
|
||||
|
||||
mi_block_t* local_free; // list of deferred free blocks by this thread (migrates to `free`)
|
||||
volatile uintptr_t thread_freed; // at least this number of blocks are in `thread_free`
|
||||
volatile mi_thread_free_t thread_free; // list of deferred free blocks freed by other threads
|
||||
|
||||
// less accessed info
|
||||
size_t block_size; // size available in each block (always `>0`)
|
||||
mi_heap_t* heap; // the owning heap
|
||||
struct mi_page_s* next; // next page owned by this thread with the same `block_size`
|
||||
struct mi_page_s* prev; // previous page owned by this thread with the same `block_size`
|
||||
|
||||
// improve page index calculation
|
||||
#if MI_INTPTR_SIZE==8
|
||||
//void* padding[1]; // 10 words on 64-bit
|
||||
#elif MI_INTPTR_SIZE==4
|
||||
void* padding[1]; // 12 words on 32-bit
|
||||
#endif
|
||||
} mi_page_t;
|
||||
|
||||
|
||||
|
||||
typedef enum mi_page_kind_e {
|
||||
MI_PAGE_SMALL, // small blocks go into 64kb pages inside a segment
|
||||
MI_PAGE_LARGE, // larger blocks go into a single page spanning a whole segment
|
||||
MI_PAGE_HUGE // huge blocks (>512kb) are put into a single page in a segment of the exact size (but still 2mb aligned)
|
||||
} mi_page_kind_t;
|
||||
|
||||
// Segments are large allocated memory blocks (2mb on 64 bit) from
|
||||
// the OS. Inside segments we allocated fixed size _pages_ that
|
||||
// contain blocks.
|
||||
typedef struct mi_segment_s {
|
||||
struct mi_segment_s* next;
|
||||
struct mi_segment_s* prev;
|
||||
struct mi_segment_s* abandoned_next;
|
||||
size_t abandoned; // abandoned pages (i.e. the original owning thread stopped) (`abandoned <= used`)
|
||||
size_t used; // count of pages in use (`used <= capacity`)
|
||||
size_t capacity; // count of available pages (`#free + used`)
|
||||
size_t segment_size;// for huge pages this may be different from `MI_SEGMENT_SIZE`
|
||||
size_t segment_info_size; // space we are using from the first page for segment meta-data and possible guard pages.
|
||||
uintptr_t cookie; // verify addresses in debug mode: `mi_ptr_cookie(segment) == segment->cookie`
|
||||
|
||||
// layout like this to optimize access in `mi_free`
|
||||
size_t page_shift; // `1 << page_shift` == the page sizes == `page->block_size * page->reserved` (unless the first page, then `-segment_info_size`).
|
||||
uintptr_t thread_id; // unique id of the thread owning this segment
|
||||
mi_page_kind_t page_kind; // kind of pages: small, large, or huge
|
||||
mi_page_t pages[1]; // up to `MI_SMALL_PAGES_PER_SEGMENT` pages
|
||||
} mi_segment_t;
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Heaps
|
||||
// Provide first-class heaps to allocate from.
|
||||
// A heap just owns a set of pages for allocation and
|
||||
// can only be allocate/reallocate from the thread that created it.
|
||||
// Freeing blocks can be done from any thread though.
|
||||
// Per thread, the segments are shared among its heaps.
|
||||
// Per thread, there is always a default heap that is
|
||||
// used for allocation; it is initialized to statically
|
||||
// point to an empty heap to avoid initialization checks
|
||||
// in the fast path.
|
||||
// ------------------------------------------------------
|
||||
|
||||
// Thread local data
|
||||
typedef struct mi_tld_s mi_tld_t;
|
||||
|
||||
// Pages of a certain block size are held in a queue.
|
||||
typedef struct mi_page_queue_s {
|
||||
mi_page_t* first;
|
||||
mi_page_t* last;
|
||||
size_t block_size;
|
||||
} mi_page_queue_t;
|
||||
|
||||
#define MI_BIN_FULL (MI_BIN_HUGE+1)
|
||||
|
||||
// A heap owns a set of pages.
|
||||
struct mi_heap_s {
|
||||
mi_tld_t* tld;
|
||||
mi_page_t* pages_free_direct[MI_SMALL_WSIZE_MAX + 2]; // optimize: array where every entry points a page with possibly free blocks in the corresponding queue for that size.
|
||||
mi_page_queue_t pages[MI_BIN_FULL + 1]; // queue of pages for each size class (or "bin")
|
||||
volatile mi_block_t* thread_delayed_free;
|
||||
uintptr_t thread_id; // thread this heap belongs too
|
||||
uintptr_t cookie;
|
||||
uintptr_t random; // random number used for secure allocation
|
||||
size_t page_count; // total number of pages in the `pages` queues.
|
||||
bool no_reclaim; // `true` if this heap should not reclaim abandoned pages
|
||||
};
|
||||
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Debug
|
||||
// ------------------------------------------------------
|
||||
|
||||
#define MI_DEBUG_UNINIT (0xD0)
|
||||
#define MI_DEBUG_FREED (0xDF)
|
||||
|
||||
|
||||
#if (MI_DEBUG)
|
||||
// use our own assertion to print without memory allocation
|
||||
void _mi_assert_fail(const char* assertion, const char* fname, unsigned int line, const char* func );
|
||||
#define mi_assert(expr) ((expr) ? (void)0 : _mi_assert_fail(#expr,__FILE__,__LINE__,__func__))
|
||||
#else
|
||||
#define mi_assert(x)
|
||||
#endif
|
||||
|
||||
#if (MI_DEBUG>1)
|
||||
#define mi_assert_internal mi_assert
|
||||
#else
|
||||
#define mi_assert_internal(x)
|
||||
#endif
|
||||
|
||||
#if (MI_DEBUG>2)
|
||||
#define mi_assert_expensive mi_assert
|
||||
#else
|
||||
#define mi_assert_expensive(x)
|
||||
#endif
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Statistics
|
||||
// ------------------------------------------------------
|
||||
|
||||
#ifndef MI_STAT
|
||||
#if (MI_DEBUG>0)
|
||||
#define MI_STAT 2
|
||||
#else
|
||||
#define MI_STAT 0
|
||||
#endif
|
||||
#endif
|
||||
|
||||
typedef struct mi_stat_count_s {
|
||||
int64_t allocated;
|
||||
int64_t freed;
|
||||
int64_t peak;
|
||||
int64_t current;
|
||||
} mi_stat_count_t;
|
||||
|
||||
typedef struct mi_stat_counter_s {
|
||||
int64_t total;
|
||||
int64_t count;
|
||||
} mi_stat_counter_t;
|
||||
|
||||
typedef struct mi_stats_s {
|
||||
mi_stat_count_t segments;
|
||||
mi_stat_count_t pages;
|
||||
mi_stat_count_t reserved;
|
||||
mi_stat_count_t committed;
|
||||
mi_stat_count_t reset;
|
||||
mi_stat_count_t segments_abandoned;
|
||||
mi_stat_count_t pages_abandoned;
|
||||
mi_stat_count_t pages_extended;
|
||||
mi_stat_count_t mmap_calls;
|
||||
mi_stat_count_t mmap_right_align;
|
||||
mi_stat_count_t mmap_ensure_aligned;
|
||||
mi_stat_count_t threads;
|
||||
mi_stat_count_t huge;
|
||||
mi_stat_count_t malloc;
|
||||
mi_stat_counter_t searches;
|
||||
#if MI_STAT>1
|
||||
mi_stat_count_t normal[MI_BIN_HUGE+1];
|
||||
#endif
|
||||
} mi_stats_t;
|
||||
|
||||
|
||||
void _mi_stat_increase(mi_stat_count_t* stat, size_t amount);
|
||||
void _mi_stat_decrease(mi_stat_count_t* stat, size_t amount);
|
||||
void _mi_stat_counter_increase(mi_stat_counter_t* stat, size_t amount);
|
||||
|
||||
#if (MI_STAT)
|
||||
#define mi_stat_increase(stat,amount) _mi_stat_increase( &(stat), amount)
|
||||
#define mi_stat_decrease(stat,amount) _mi_stat_decrease( &(stat), amount)
|
||||
#define mi_stat_counter_increase(stat,amount) _mi_stat_counter_increase( &(stat), amount)
|
||||
#else
|
||||
#define mi_stat_increase(stat,amount) (void)0
|
||||
#define mi_stat_decrease(stat,amount) (void)0
|
||||
#define mi_stat_counter_increase(stat,amount) (void)0
|
||||
#endif
|
||||
|
||||
#define mi_heap_stat_increase(heap,stat,amount) mi_stat_increase( (heap)->tld->stats.stat, amount)
|
||||
#define mi_heap_stat_decrease(heap,stat,amount) mi_stat_decrease( (heap)->tld->stats.stat, amount)
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Thread Local data
|
||||
// ------------------------------------------------------
|
||||
|
||||
// Queue of segments
|
||||
typedef struct mi_segment_queue_s {
|
||||
mi_segment_t* first;
|
||||
mi_segment_t* last;
|
||||
} mi_segment_queue_t;
|
||||
|
||||
|
||||
// Segments thread local data
|
||||
typedef struct mi_segments_tld_s {
|
||||
mi_segment_queue_t small_free; // queue of segments with free small pages
|
||||
size_t count; // current number of segments
|
||||
size_t peak; // peak number of segments
|
||||
size_t cache_count; // number of segments in the cache
|
||||
mi_segment_t* cache; // small cache of segments (to avoid repeated mmap calls)
|
||||
mi_stats_t* stats; // points to tld stats
|
||||
} mi_segments_tld_t;
|
||||
|
||||
// OS thread local data
|
||||
typedef struct mi_os_tld_s {
|
||||
uintptr_t mmap_next_probable; // probable next address start allocated by mmap (to guess which path to take on alignment)
|
||||
void* mmap_previous; // previous address returned by mmap
|
||||
uint8_t* pool; // pool of segments to reduce mmap calls on some platforms
|
||||
size_t pool_available; // bytes available in the pool
|
||||
mi_stats_t* stats; // points to tld stats
|
||||
} mi_os_tld_t;
|
||||
|
||||
// Thread local data
|
||||
struct mi_tld_s {
|
||||
unsigned long long heartbeat; // monotonic heartbeat count
|
||||
mi_heap_t* heap_backing; // backing heap of this thread (cannot be deleted)
|
||||
mi_segments_tld_t segments; // segment tld
|
||||
mi_os_tld_t os; // os tld
|
||||
mi_stats_t stats; // statistics
|
||||
};
|
||||
|
||||
#endif
|
237
include/mimalloc.h
Normal file
237
include/mimalloc.h
Normal file
@ -0,0 +1,237 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#pragma once
|
||||
#ifndef __MIMALLOC_H
|
||||
#define __MIMALLOC_H
|
||||
|
||||
#define MI_MALLOC_VERSION 100 // major + 2 digits minor
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Compiler specific attributes
|
||||
// ------------------------------------------------------
|
||||
|
||||
#ifdef __cplusplus
|
||||
#if (__GNUC__ <= 5) || (_MSC_VER <= 1900)
|
||||
#define mi_attr_noexcept throw()
|
||||
#else
|
||||
#define mi_attr_noexcept noexcept
|
||||
#endif
|
||||
#else
|
||||
#define mi_attr_noexcept
|
||||
#endif
|
||||
|
||||
#ifdef _MSC_VER
|
||||
#if !defined(MI_SHARED_LIB)
|
||||
#define mi_decl_export
|
||||
#elif defined(MI_SHARED_LIB_EXPORT)
|
||||
#define mi_decl_export __declspec(dllexport)
|
||||
#else
|
||||
#define mi_decl_export __declspec(dllimport)
|
||||
#endif
|
||||
#if (_MSC_VER >= 1900) && !defined(__EDG__)
|
||||
#define mi_decl_allocator __declspec(allocator) __declspec(restrict)
|
||||
#else
|
||||
#define mi_decl_allocator __declspec(restrict)
|
||||
#endif
|
||||
#define mi_decl_thread __declspec(thread)
|
||||
#define mi_attr_malloc
|
||||
#define mi_attr_alloc_size(s)
|
||||
#define mi_attr_alloc_size2(s1,s2)
|
||||
#elif defined(__GNUC__) || defined(__clang__)
|
||||
#define mi_decl_thread __thread
|
||||
#define mi_decl_export __attribute__((visibility("default")))
|
||||
#define mi_decl_allocator
|
||||
#define mi_attr_malloc __attribute__((malloc))
|
||||
#if defined(__clang_major__) && (__clang_major__ < 4)
|
||||
#define mi_attr_alloc_size(s)
|
||||
#define mi_attr_alloc_size2(s1,s2)
|
||||
#else
|
||||
#define mi_attr_alloc_size(s) __attribute__((alloc_size(s)))
|
||||
#define mi_attr_alloc_size2(s1,s2) __attribute__((alloc_size(s1,s2)))
|
||||
#endif
|
||||
#else
|
||||
#define mi_decl_thread __thread
|
||||
#define mi_decl_export
|
||||
#define mi_decl_allocator
|
||||
#define mi_attr_malloc
|
||||
#define mi_attr_alloc_size(s)
|
||||
#define mi_attr_alloc_size2(s1,s2)
|
||||
#endif
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Includes
|
||||
// ------------------------------------------------------
|
||||
|
||||
#include <stdlib.h> // size_t, malloc etc.
|
||||
#include <stdbool.h> // bool
|
||||
#include <stdio.h> // FILE
|
||||
|
||||
#ifdef __cplusplus
|
||||
extern "C" {
|
||||
#endif
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Standard malloc interface
|
||||
// ------------------------------------------------------
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_malloc(size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(1);
|
||||
mi_decl_export mi_decl_allocator void* mi_calloc(size_t count, size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size2(1,2);
|
||||
mi_decl_export mi_decl_allocator void* mi_realloc(void* p, size_t newsize) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
mi_decl_export mi_decl_allocator void* mi_expand(void* p, size_t newsize) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
|
||||
mi_decl_export void mi_free(void* p) mi_attr_noexcept;
|
||||
mi_decl_export char* mi_strdup(const char* s) mi_attr_noexcept;
|
||||
mi_decl_export char* mi_strndup(const char* s, size_t n) mi_attr_noexcept;
|
||||
mi_decl_export char* mi_realpath(const char* fname, char* resolved_name) mi_attr_noexcept;
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Extended functionality
|
||||
// ------------------------------------------------------
|
||||
#define MI_SMALL_WSIZE_MAX (128)
|
||||
#define MI_SMALL_SIZE_MAX (MI_SMALL_WSIZE_MAX*sizeof(void*))
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_malloc_small(size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(1);
|
||||
mi_decl_export mi_decl_allocator void* mi_zalloc_small(size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(1);
|
||||
mi_decl_export mi_decl_allocator void* mi_zalloc(size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(1);
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_mallocn(size_t count, size_t size) mi_attr_noexcept;
|
||||
mi_decl_export mi_decl_allocator void* mi_reallocn(void* p, size_t count, size_t size) mi_attr_noexcept;
|
||||
mi_decl_export mi_decl_allocator void* mi_reallocf(void* p, size_t newsize) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
mi_decl_export mi_decl_allocator void* mi_rezalloc(void* p, size_t newsize) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
mi_decl_export mi_decl_allocator void* mi_recalloc(void* p, size_t count, size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size2(2,3);
|
||||
|
||||
mi_decl_export size_t mi_usable_size(void* p) mi_attr_noexcept;
|
||||
mi_decl_export size_t mi_good_size(size_t size) mi_attr_noexcept;
|
||||
|
||||
mi_decl_export void mi_collect(bool force) mi_attr_noexcept;
|
||||
mi_decl_export void mi_stats_print(FILE* out) mi_attr_noexcept;
|
||||
mi_decl_export void mi_stats_reset() mi_attr_noexcept;
|
||||
|
||||
mi_decl_export void mi_process_init() mi_attr_noexcept;
|
||||
mi_decl_export void mi_thread_init() mi_attr_noexcept;
|
||||
mi_decl_export void mi_thread_done() mi_attr_noexcept;
|
||||
mi_decl_export void mi_thread_stats_print(FILE* out) mi_attr_noexcept;
|
||||
|
||||
typedef void (mi_deferred_free_fun)(bool force, unsigned long long heartbeat);
|
||||
mi_decl_export void mi_register_deferred_free(mi_deferred_free_fun* deferred_free) mi_attr_noexcept;
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Aligned allocation
|
||||
// ------------------------------------------------------
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_malloc_aligned(size_t size, size_t alignment) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(1);
|
||||
mi_decl_export mi_decl_allocator void* mi_malloc_aligned_at(size_t size, size_t alignment, size_t offset) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(1);
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_zalloc_aligned(size_t size, size_t alignment) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(1);
|
||||
mi_decl_export mi_decl_allocator void* mi_zalloc_aligned_at(size_t size, size_t alignment, size_t offset) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(1);
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_calloc_aligned(size_t count, size_t size, size_t alignment) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size2(1,2);
|
||||
mi_decl_export mi_decl_allocator void* mi_calloc_aligned_at(size_t count, size_t size, size_t alignment, size_t offset) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size2(1,2);
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_realloc_aligned(void* p, size_t newsize, size_t alignment) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
mi_decl_export mi_decl_allocator void* mi_realloc_aligned_at(void* p, size_t newsize, size_t alignment, size_t offset) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_rezalloc_aligned(void* p, size_t newsize, size_t alignment) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
mi_decl_export mi_decl_allocator void* mi_rezalloc_aligned_at(void* p, size_t newsize, size_t alignment, size_t offset) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_recalloc_aligned(void* p, size_t count, size_t size, size_t alignment) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size2(2,3);
|
||||
mi_decl_export mi_decl_allocator void* mi_recalloc_aligned_at(void* p, size_t count, size_t size, size_t alignment, size_t offset) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size2(2,3);
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Heaps
|
||||
// ------------------------------------------------------
|
||||
struct mi_heap_s;
|
||||
typedef struct mi_heap_s mi_heap_t;
|
||||
|
||||
mi_decl_export mi_heap_t* mi_heap_new();
|
||||
mi_decl_export void mi_heap_delete(mi_heap_t* heap);
|
||||
mi_decl_export void mi_heap_destroy(mi_heap_t* heap);
|
||||
mi_decl_export mi_heap_t* mi_heap_set_default(mi_heap_t* heap);
|
||||
mi_decl_export mi_heap_t* mi_heap_get_default();
|
||||
mi_decl_export mi_heap_t* mi_heap_get_backing();
|
||||
mi_decl_export void mi_heap_collect(mi_heap_t* heap, bool force) mi_attr_noexcept;
|
||||
|
||||
mi_decl_export mi_decl_allocator void* mi_heap_malloc(mi_heap_t* heap, size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
mi_decl_export mi_decl_allocator void* mi_heap_zalloc(mi_heap_t* heap, size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size(2);
|
||||
mi_decl_export mi_decl_allocator void* mi_heap_calloc(mi_heap_t* heap, size_t count, size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size2(2, 3);
|
||||
mi_decl_export mi_decl_allocator void* mi_heap_mallocn(mi_heap_t* heap, size_t count, size_t size) mi_attr_noexcept mi_attr_malloc mi_attr_alloc_size2(2, 3);
|
||||
|
||||
mi_decl_export char* mi_heap_strdup(mi_heap_t* heap, const char* s) mi_attr_noexcept;
|
||||
mi_decl_export char* mi_heap_strndup(mi_heap_t* heap, const char* s, size_t n) mi_attr_noexcept;
|
||||
mi_decl_export char* mi_heap_realpath(mi_heap_t* heap, const char* fname, char* resolved_name) mi_attr_noexcept;
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Analysis
|
||||
// ------------------------------------------------------
|
||||
|
||||
mi_decl_export bool mi_heap_contains_block(mi_heap_t* heap, const void* p);
|
||||
|
||||
mi_decl_export bool mi_heap_check_owned(mi_heap_t* heap, const void* p);
|
||||
mi_decl_export bool mi_check_owned(const void* p);
|
||||
|
||||
// An area of heap space contains blocks of a single size.
|
||||
typedef struct mi_heap_area_s {
|
||||
void* blocks; // start of the area containing heap blocks
|
||||
size_t reserved; // bytes reserved for this area (virtual)
|
||||
size_t committed; // current available bytes for this area
|
||||
size_t used; // bytes in use by allocated blocks
|
||||
size_t block_size; // size in bytes of each block
|
||||
} mi_heap_area_t;
|
||||
|
||||
typedef bool (mi_block_visit_fun)(const mi_heap_t* heap, const mi_heap_area_t* area, void* block, size_t block_size, void* arg);
|
||||
|
||||
mi_decl_export bool mi_heap_visit_blocks(const mi_heap_t* heap, bool visit_all_blocks, mi_block_visit_fun* visitor, void* arg);
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Convenience
|
||||
// ------------------------------------------------------
|
||||
|
||||
#define mi_malloc_tp(tp) ((tp*)mi_malloc(sizeof(tp)))
|
||||
#define mi_zalloc_tp(tp) ((tp*)mi_zalloc(sizeof(tp)))
|
||||
#define mi_calloc_tp(tp,n) ((tp*)mi_calloc(n,sizeof(tp)))
|
||||
#define mi_mallocn_tp(tp,n) ((tp*)mi_mallocn(n,sizeof(tp)))
|
||||
|
||||
#define mi_reallocn_tp(p,tp,n) ((tp*)mi_reallocn(p,n,sizeof(tp)))
|
||||
#define mi_recalloc_tp(p,tp,n) ((tp*)mi_recalloc(p,n,sizeof(tp)))
|
||||
|
||||
#define mi_heap_malloc_tp(hp,tp) ((tp*)mi_heap_malloc(hp,sizeof(tp)))
|
||||
#define mi_heap_zalloc_tp(hp,tp) ((tp*)mi_heap_zalloc(hp,sizeof(tp)))
|
||||
#define mi_heap_calloc_tp(hp,tp,n) ((tp*)mi_heap_calloc(hp,n,sizeof(tp)))
|
||||
#define mi_heap_mallocn_tp(hp,tp,n) ((tp*)mi_heap_mallocn(hp,n,sizeof(tp)))
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Options, all `false` by default
|
||||
// ------------------------------------------------------
|
||||
|
||||
typedef enum mi_option_e {
|
||||
mi_option_page_reset,
|
||||
mi_option_cache_reset,
|
||||
mi_option_pool_commit,
|
||||
mi_option_secure,
|
||||
mi_option_show_stats,
|
||||
mi_option_show_errors,
|
||||
mi_option_verbose,
|
||||
_mi_option_last
|
||||
} mi_option_t;
|
||||
|
||||
mi_decl_export bool mi_option_is_enabled(mi_option_t option);
|
||||
mi_decl_export void mi_option_enable(mi_option_t option, bool enable);
|
||||
mi_decl_export void mi_option_enable_default(mi_option_t option, bool enable);
|
||||
|
||||
mi_decl_export long mi_option_get(mi_option_t option);
|
||||
mi_decl_export void mi_option_set(mi_option_t option, long value);
|
||||
mi_decl_export void mi_option_set_default(mi_option_t option, long value);
|
||||
|
||||
#ifdef __cplusplus
|
||||
}
|
||||
#endif
|
||||
|
||||
#endif
|
374
readme.md
Normal file
374
readme.md
Normal file
@ -0,0 +1,374 @@
|
||||
|
||||
<img align="left" width="100" height="100" src="doc/mimalloc-logo.png"/>
|
||||
|
||||
# mi-malloc
|
||||
|
||||
|
||||
|
||||
mi-malloc (pronounced "me-malloc")
|
||||
is a general purpose allocator with excellent performance characteristics.
|
||||
Initially developed by Daan Leijen for the run-time systems of the
|
||||
[Koka](https://github.com/koka-lang/koka) and [Lean](https://github.com/leanprover/lean) languages.
|
||||
|
||||
It is a drop-in replacement for `malloc` and can be used in other programs
|
||||
without code changes, for example, on Unix you can use it as:
|
||||
```
|
||||
> LD_PRELOAD=/usr/bin/libmimalloc.so myprogram
|
||||
```
|
||||
|
||||
Notable aspects of the design include:
|
||||
|
||||
- __small and consistent__: the library is less than 3500 LOC using simple and
|
||||
consistent data structures. This makes it very suitable
|
||||
to integrate and adapt in other projects. For runtime systems it
|
||||
provides hooks for a monotonic _heartbeat_ and deferred freeing (for
|
||||
bounded worst-case times with reference counting).
|
||||
- __free list sharding__: the big idea: instead of one big free list (per size class) we have
|
||||
many smaller lists per memory "page" which both reduces fragmentation
|
||||
and increases locality --
|
||||
things that are allocated close in time get allocated close in memory.
|
||||
(A memory "page" in mimalloc contains blocks of one size class and is
|
||||
usually 64KB on a 64-bit system).
|
||||
- __eager page reset__: when a "page" becomes empty (with increased chance
|
||||
due to free list sharding) the memory is marked to the OS as unused ("reset" or "purged")
|
||||
reducing (real) memory pressure and fragmentation, especially in long running
|
||||
programs.
|
||||
- __lazy initialization__: pages in a segment are lazily initialized so
|
||||
no memory is touched until it becomes allocated, reducing the resident
|
||||
memory and potential page faults.
|
||||
- __bounded__: it does not suffer from _blowup_ \[1\], has bounded worst-case allocation
|
||||
times (_wcat_), bounded space overhead (~0.2% meta-data, with at most 16.7% waste in allocation sizes),
|
||||
and has no internal points of contention using atomic operations almost
|
||||
everywhere.
|
||||
|
||||
Enjoy!
|
||||
|
||||
# Building
|
||||
|
||||
## Windows
|
||||
|
||||
Open `ide/vs2017/mimalloc.sln` in Visual Studio 2017 and build.
|
||||
The `mimalloc` project builds a static library (in `out/msvc-x64`), while the
|
||||
`mimalloc-override` project builds a DLL for overriding malloc
|
||||
in the entire program.
|
||||
|
||||
## MacOSX, Linux, BSD, etc.
|
||||
|
||||
We use [`cmake`](https://cmake.org)<sup>1</sup> as the build system:
|
||||
|
||||
- `cd out/release`
|
||||
- `cmake ../..` (generate the make file)
|
||||
- `make` (and build)
|
||||
|
||||
This builds the library as a shared (dynamic)
|
||||
library (`.so` or `.dylib`), a static library (`.a`), and
|
||||
as a single object file (`.o`).
|
||||
|
||||
- `sudo make install` (install the library and header files in `/usr/local/lib` and `/usr/local/include`)
|
||||
|
||||
|
||||
You can build the debug version which does many internal checks and
|
||||
maintains detailed statistics as:
|
||||
|
||||
- `cd out/debug`
|
||||
- `cmake -DCMAKE_BUILD_TYPE=Debug ../..`
|
||||
- `make`
|
||||
|
||||
This will name the shared library as `libmimalloc-debug.so`.
|
||||
|
||||
Or build with `clang`:
|
||||
|
||||
- `CC=clang cmake ../..`
|
||||
|
||||
Use `ccmake`<sup>2</sup> instead of `cmake`
|
||||
to see and customize all the available build options.
|
||||
|
||||
Notes:
|
||||
1. Install CMake: `sudo apt-get install cmake`
|
||||
2. Install CCMake: `sudo apt-get install cmake-curses-gui`
|
||||
|
||||
|
||||
# Using the library
|
||||
|
||||
The preferred usage is including `<mimalloc.h>`, linking with
|
||||
the shared- or static library, and using the `mi_malloc` API exclusively for allocation. For example,
|
||||
```
|
||||
gcc -o myprogram -lmimalloc myfile.c
|
||||
```
|
||||
|
||||
mimalloc uses only safe OS calls (`mmap` and `VirtualAlloc`) and can co-exist
|
||||
with other allocators linked to the same program.
|
||||
If you use `cmake`, you can simply use:
|
||||
```
|
||||
find_package(mimalloc 1.0 REQUIRED)
|
||||
```
|
||||
in your `CMakeLists.txt` to find a locally installed mimalloc. Then use either:
|
||||
```
|
||||
target_link_libraries(myapp PUBLIC mimalloc)
|
||||
```
|
||||
to link with the shared (dynamic) library, or:
|
||||
```
|
||||
target_link_libraries(myapp PUBLIC mimalloc-static)
|
||||
```
|
||||
to link with the static library. See `test\CMakeLists.txt` for an example.
|
||||
|
||||
|
||||
You can pass environment variables to print verbose messages (`MIMALLOC_VERBOSE=1`)
|
||||
and statistics (`MIMALLOC_STATS=1`) (in the debug version):
|
||||
```
|
||||
> env MIMALLOC_STATS=1 ./cfrac 175451865205073170563711388363
|
||||
|
||||
175451865205073170563711388363 = 374456281610909315237213 * 468551
|
||||
|
||||
heap stats: peak total freed unit
|
||||
normal 2: 16.4 kb 17.5 mb 17.5 mb 16 b ok
|
||||
normal 3: 16.3 kb 15.2 mb 15.2 mb 24 b ok
|
||||
normal 4: 64 b 4.6 kb 4.6 kb 32 b ok
|
||||
normal 5: 80 b 118.4 kb 118.4 kb 40 b ok
|
||||
normal 6: 48 b 48 b 48 b 48 b ok
|
||||
normal 17: 960 b 960 b 960 b 320 b ok
|
||||
|
||||
heap stats: peak total freed unit
|
||||
normal: 33.9 kb 32.8 mb 32.8 mb 1 b ok
|
||||
huge: 0 b 0 b 0 b 1 b ok
|
||||
total: 33.9 kb 32.8 mb 32.8 mb 1 b ok
|
||||
malloc requested: 32.8 mb
|
||||
|
||||
committed: 58.2 kb 58.2 kb 58.2 kb 1 b ok
|
||||
reserved: 2.0 mb 2.0 mb 2.0 mb 1 b ok
|
||||
reset: 0 b 0 b 0 b 1 b ok
|
||||
segments: 1 1 1
|
||||
-abandoned: 0
|
||||
pages: 6 6 6
|
||||
-abandoned: 0
|
||||
mmaps: 3
|
||||
mmap fast: 0
|
||||
mmap slow: 1
|
||||
threads: 0
|
||||
elapsed: 2.022s
|
||||
process: user: 1.781s, system: 0.016s, faults: 756, reclaims: 0, rss: 2.7 mb
|
||||
```
|
||||
|
||||
The above model of using the `mi_` prefixed API is not always possible
|
||||
though in existing programs that already use the standard malloc interface,
|
||||
and another option is to override the standard malloc interface
|
||||
completely and redirect all calls to the _mimalloc_ library instead.
|
||||
|
||||
|
||||
|
||||
# Overriding Malloc
|
||||
|
||||
Overriding the standard `malloc` can be done either _dynamically_ or _statically_.
|
||||
|
||||
## Dynamic override
|
||||
|
||||
This is the recommended way to override the standard malloc interface.
|
||||
|
||||
### Unix, BSD, MacOSX
|
||||
|
||||
On these systems we preload the mimalloc shared
|
||||
library so all calls to the standard `malloc` interface are
|
||||
resolved to the _mimalloc_ library.
|
||||
|
||||
- `env LD_PRELOAD=/usr/lib/libmimalloc.so myprogram` (on Linux, BSD, etc.)
|
||||
- `env DYLD_INSERT_LIBRARIES=usr/lib/libmimalloc.dylib myprogram` (On MacOSX)
|
||||
|
||||
Note certain security restrictions may apply when doing this from
|
||||
the [shell](https://stackoverflow.com/questions/43941322/dyld-insert-libraries-ignored-when-calling-application-through-bash).
|
||||
|
||||
You can set extra environment variables to check that mimalloc is running,
|
||||
like:
|
||||
```
|
||||
env MIMALLOC_VERBOSE=1 LD_PRELOAD=/usr/lib/libmimalloc.so myprogram
|
||||
```
|
||||
or run with the debug version to get detailed statistics:
|
||||
```
|
||||
env MIMALLOC_STATS=1 LD_PRELOAD=/usr/lib/libmimalloc-debug.so myprogram
|
||||
```
|
||||
|
||||
### Windows
|
||||
|
||||
On Windows you need to link your program explicitly with the mimalloc
|
||||
DLL, and use the C-runtime library as a DLL (the `/MD` or `/MDd` switch).
|
||||
To ensure the mimalloc DLL gets loaded it is easiest to insert some
|
||||
call to the mimalloc API in the `main` function, like `mi_version()`.
|
||||
|
||||
Due to the way mimalloc intercepts the standard malloc at runtime, it is best
|
||||
to link to the mimalloc import library first on the command line so it gets
|
||||
loaded right after the universal C runtime DLL (`ucrtbase`). See
|
||||
the `mimalloc-override-test` project for an example.
|
||||
|
||||
|
||||
## Static override
|
||||
|
||||
On Unix systems, you can also statically link with _mimalloc_ to override the standard
|
||||
malloc interface. The recommended way is to link the final program with the
|
||||
_mimalloc_ single object file (`mimalloc-override.o` (or `.obj`)). We use
|
||||
an object file instead of a library file as linkers give preference to
|
||||
that over archives to resolve symbols. To ensure that the standard
|
||||
malloc interface resolves to the _mimalloc_ library, link it as the first
|
||||
object file. For example:
|
||||
|
||||
```
|
||||
gcc -o myprogram mimalloc-override.o myfile1.c ...
|
||||
```
|
||||
|
||||
|
||||
# Performance
|
||||
|
||||
_Tldr_: In our benchmarks, mimalloc always outperforms
|
||||
all other leading allocators (jemalloc, tcmalloc, hoard, and glibc), and usually
|
||||
uses less memory (with less then 25% more in the worst case) (as of Jan 2019).
|
||||
A nice property is that it does consistently well over a wide range of benchmarks.
|
||||
|
||||
Disclaimer: allocators are interesting as there is no optimal algorithm -- for
|
||||
a given allocator one can always construct a workload where it does not do so well.
|
||||
The goal is thus to find an allocation strategy that performs well over a wide
|
||||
range of benchmarks without suffering from underperformance in less
|
||||
common situations (which is what our second benchmark set tests for).
|
||||
|
||||
|
||||
## Benchmarking
|
||||
|
||||
We tested _mimalloc_ with 5 other allocators over 11 benchmarks.
|
||||
The tested allocators are:
|
||||
|
||||
- **mi**: The mimalloc allocator (version tag `v1.0.0`).
|
||||
- **je**: [jemalloc](https://github.com/jemalloc/jemalloc), by [Jason Evans](https://www.facebook.com/notes/facebook-engineering/scalable-memory-allocation-using-jemalloc/480222803919) (Facebook);
|
||||
currently (2018) one of the leading allocators and is widely used, for example
|
||||
in BSD, Firefox, and at Facebook. Installed as package `libjemalloc-dev:amd64/bionic 3.6.0-11`.
|
||||
- **tc**: [tcmalloc](https://github.com/gperftools/gperftools), by Google as part of the performance tools.
|
||||
Highly performant and used in the Chrome browser. Installed as package `libgoogle-perftools-dev:amd64/bionic 2.5-2.2ubuntu3`.
|
||||
- **jx**: A compiled version of a more recent instance of [jemalloc](https://github.com/jemalloc/jemalloc).
|
||||
Using commit ` 7a815c1b` ([dev](https://github.com/jemalloc/jemalloc/tree/dev), 2019-01-15).
|
||||
- **hd**: [Hoard](https://github.com/emeryberger/Hoard), by Emery Berger \[1].
|
||||
One of the first multi-thread scalable allocators.
|
||||
([master](https://github.com/emeryberger/Hoard), 2019-01-01, version tag `3.13`)
|
||||
- **mc**: The system allocator. Here we use the LibC allocator (which is originally based on
|
||||
PtMalloc). Using version 2.27. (Note that version 2.26 significantly improved scalability over
|
||||
earlier versions).
|
||||
|
||||
All allocators run exactly the same benchmark programs and use `LD_PRELOAD` to override the system allocator.
|
||||
The wall-clock elapsed time and peak resident memory (_rss_) are
|
||||
measured with the `time` program. The average scores over 5 runs are used
|
||||
(variation between runs is very low though).
|
||||
Performance is reported relative to mimalloc, e.g. a time of 106% means that
|
||||
the program took 6% longer to finish than with mimalloc.
|
||||
|
||||
## On a 16-core AMD EPYC running Linux
|
||||
|
||||
Testing on a big Amazon EC2 instance ([r5a.4xlarge](https://aws.amazon.com/ec2/instance-types/))
|
||||
consisting of a 16-core AMD EPYC 7000 at 2.5GHz
|
||||
with 128GB ECC memory, running Ubuntu 18.04.1 with LibC 2.27 and GCC 7.3.0.
|
||||
|
||||
|
||||
The first benchmark set consists of programs that allocate a lot:
|
||||
|
||||
![bench-r5a-4xlarge-t1](doc/bench-r5a-4xlarge-t1.png)
|
||||
|
||||
Memory usage:
|
||||
|
||||
![bench-r5a-4xlarge-m1](doc/bench-r5a-4xlarge-m1.png)
|
||||
|
||||
The benchmarks above are (with N=16 in our case):
|
||||
|
||||
- __cfrac__: by Dave Barrett, implementation of continued fraction factorization:
|
||||
uses many small short-lived allocations. Factorizes as `./cfrac 175451865205073170563711388363274837927895`.
|
||||
- __espresso__: a programmable logic array analyzer \[3].
|
||||
- __barnes__: a hierarchical n-body particle solver \[4]. Simulates 163840 particles.
|
||||
- __leanN__: by Leonardo de Moura _et al_, the [lean](https://github.com/leanprover/lean)
|
||||
compiler, version 3.4.1, compiling its own standard library concurrently using N cores (`./lean --make -j N`).
|
||||
Big real-world workload with intensive allocation, takes about 1:40s when running on a
|
||||
single high-end core.
|
||||
- __redis__: running the [redis](https://redis.io/) 5.0.3 server on
|
||||
1 million requests pushing 10 new list elements and then requesting the
|
||||
head 10 elements. Measures the requests handled per second.
|
||||
- __alloc-test__: a modern [allocator test](http://ithare.com/testing-memory-allocators-ptmalloc2-tcmalloc-hoard-jemalloc-while-trying-to-simulate-real-world-loads/)
|
||||
developed by by OLogN Technologies AG at [ITHare.com](http://ithare.com). Simulates intensive allocation workloads with a Pareto
|
||||
size distribution. The `alloc-testN` benchmark runs on N cores doing 100×10<sup>6</sup>
|
||||
allocations per thread with objects up to 1KB in size.
|
||||
Using commit `94f6cb` ([master](https://github.com/node-dot-cpp/alloc-test), 2018-07-04)
|
||||
|
||||
We can see mimalloc outperforms the other allocators moderately but all
|
||||
these modern allocators perform well.
|
||||
In `cfrac`, mimalloc is about 13%
|
||||
faster than jemalloc for many small and short-lived allocations.
|
||||
The `cfrac` and `espresso` programs do not use much
|
||||
memory (~1.5MB) so it does not matter too much, but still mimalloc uses about half the resident
|
||||
memory of tcmalloc (and 4× less than Hoard on `espresso`).
|
||||
|
||||
_The `leanN` program is most interesting as a large realistic and concurrent
|
||||
workload and there is a 6% speedup over both tcmalloc and jemalloc._ (This is
|
||||
quite significant: if Lean spends (optimistically) 20% of its time in the allocator
|
||||
that implies a 1.5× speedup with mimalloc).
|
||||
The large `redis` benchmark shows a similar speedup.
|
||||
|
||||
The `alloc-test` is very allocation intensive and we see the largest
|
||||
diffrerences here when running with 16 cores in parallel.
|
||||
|
||||
The second benchmark tests specific aspects of the allocators and
|
||||
shows more extreme differences between allocators:
|
||||
|
||||
![bench-r5a-4xlarge-t2](doc/bench-r5a-4xlarge-t2.png)
|
||||
|
||||
![bench-r5a-4xlarge-m2](doc/bench-r5a-4xlarge-m2.png)
|
||||
|
||||
The benchmarks in the second set are (again with N=16):
|
||||
|
||||
- __larson__: by Larson and Krishnan \[2]. Simulates a server workload using 100
|
||||
separate threads where
|
||||
they allocate and free many objects but leave some objects to
|
||||
be freed by other threads. Larson and Krishnan observe this behavior
|
||||
(which they call _bleeding_) in actual server applications, and the
|
||||
benchmark simulates this.
|
||||
- __sh6bench__: by [MicroQuill](http://www.microquill.com) as part of SmartHeap. Stress test for
|
||||
single-threaded allocation where some of the objects are freed
|
||||
in a usual last-allocated, first-freed (LIFO) order, but others
|
||||
are freed in reverse order. Using the public [source](http://www.microquill.com/smartheap/shbench/bench.zip) (retrieved 2019-01-02)
|
||||
- __sh8bench__: by [MicroQuill](http://www.microquill.com) as part of SmartHeap. Stress test for
|
||||
multithreaded allocation (with N threads) where, just as in `larson`, some objects are freed
|
||||
by other threads, and some objects freed in reverse (as in `sh6bench`).
|
||||
Using the public [source](http://www.microquill.com/smartheap/SH8BENCH.zip) (retrieved 2019-01-02)
|
||||
- __cache-scratch__: by Emery Berger _et al_ \[1]. Introduced with the Hoard
|
||||
allocator to test for _passive-false_ sharing of cache lines: first some
|
||||
small objects are allocated and given to each thread; the threads free that
|
||||
object and allocate another one and access that repeatedly. If an allocator
|
||||
allocates objects from different threads close to each other this will
|
||||
lead to cache-line contention.
|
||||
|
||||
In the `larson` server workload mimalloc is 2.5× faster than
|
||||
tcmalloc and jemalloc which is quite surprising -- probably due to the object
|
||||
migration between different threads. Also in `sh6bench` mimalloc does much
|
||||
better than the others (more than 4× faster than jemalloc).
|
||||
We cannot explain this well but believe it may be
|
||||
caused in part by the "reverse" free-ing in `sh6bench`. Again in `sh8bench`
|
||||
the mimalloc allocator handles object migration between threads much better .
|
||||
|
||||
The `cache-scratch` benchmark also demonstrates the different architectures
|
||||
of the allocators nicely. With a single thread they all perform the same, but when
|
||||
running with multiple threads the allocator induced false sharing of the
|
||||
cache lines causes large run-time differences, where mimalloc is
|
||||
20× faster than tcmalloc here. Only the original jemalloc does almost
|
||||
as well (but the most recent version, jxmalloc, regresses). The
|
||||
Hoard allocator is specifically designed to avoid this false sharing and we
|
||||
are not sure why it is not doing well here (although it still runs almost 5×
|
||||
faster than tcmalloc and jxmalloc).
|
||||
|
||||
|
||||
# References
|
||||
|
||||
- \[1] Emery D. Berger, Kathryn S. McKinley, Robert D. Blumofe, and Paul R. Wilson.
|
||||
_Hoard: A Scalable Memory Allocator for Multithreaded Applications_
|
||||
the Ninth International Conference on Architectural Support for Programming Languages and Operating Systems (ASPLOS-IX). Cambridge, MA, November 2000.
|
||||
[pdf](http://www.cs.utexas.edu/users/mckinley/papers/asplos-2000.pdf)
|
||||
|
||||
|
||||
- \[2] P. Larson and M. Krishnan. _Memory allocation for long-running server applications_. In ISMM, Vancouver, B.C., Canada, 1998.
|
||||
[pdf](http://citeseemi.ist.psu.edu/viewdoc/download;jsessionid=5F0BFB4F57832AEB6C11BF8257271088?doi=10.1.1.45.1947&rep=rep1&type=pdf)
|
||||
|
||||
- \[3] D. Grunwald, B. Zorn, and R. Henderson.
|
||||
_Improving the cache locality of memory allocation_. In R. Cartwright, editor,
|
||||
Proceedings of the Conference on Programming Language Design and Implementation, pages 177–186, New York, NY, USA, June 1993.
|
||||
[pdf](http://citeseemi.ist.psu.edu/viewdoc/download?doi=10.1.1.43.6621&rep=rep1&type=pdf)
|
||||
|
||||
- \[4] J. Barnes and P. Hut. _A hierarchical O(n*log(n)) force-calculation algorithm_. Nature, 324:446-449, 1986.
|
146
src/alloc-aligned.c
Normal file
146
src/alloc-aligned.c
Normal file
@ -0,0 +1,146 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
|
||||
#include <string.h> // memset
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Aligned Allocation
|
||||
// ------------------------------------------------------
|
||||
|
||||
static void* mi_heap_malloc_zero_aligned_at(mi_heap_t* heap, size_t size, size_t alignment, size_t offset, bool zero) mi_attr_noexcept {
|
||||
// note: we don't require `size > offset`, we just guarantee that
|
||||
// the address at offset is aligned regardless of the allocated size.
|
||||
mi_assert(alignment > 0);
|
||||
if (alignment <= sizeof(uintptr_t)) return _mi_heap_malloc_zero(heap,size,zero);
|
||||
if (size >= (SIZE_MAX - alignment)) return NULL; // overflow
|
||||
|
||||
// try if there is a current small block with just the right alignment
|
||||
if (size <= MI_SMALL_SIZE_MAX) {
|
||||
mi_page_t* page = _mi_heap_get_free_small_page(heap,size);
|
||||
if (page->free != NULL &&
|
||||
(((uintptr_t)page->free + offset) % alignment) == 0)
|
||||
{
|
||||
#if MI_STAT>1
|
||||
mi_heap_stat_increase( heap, malloc, size);
|
||||
#endif
|
||||
void* p = _mi_page_malloc(heap,page,size);
|
||||
mi_assert_internal(p != NULL);
|
||||
mi_assert_internal(((uintptr_t)p + offset) % alignment == 0);
|
||||
if (zero) memset(p,0,size);
|
||||
return p;
|
||||
}
|
||||
}
|
||||
|
||||
// otherwise over-allocate
|
||||
void* p = _mi_heap_malloc_zero(heap, size + alignment - 1, zero);
|
||||
if (p == NULL) return NULL;
|
||||
|
||||
// .. and align within the allocation
|
||||
_mi_ptr_page(p)->flags.has_aligned = true;
|
||||
uintptr_t adjust = alignment - (((uintptr_t)p + offset) % alignment);
|
||||
mi_assert_internal(adjust % sizeof(uintptr_t) == 0);
|
||||
void* aligned_p = (adjust == alignment ? p : (void*)((uintptr_t)p + adjust));
|
||||
mi_assert_internal(((uintptr_t)aligned_p + offset) % alignment == 0);
|
||||
mi_assert_internal( p == _mi_page_ptr_unalign(_mi_ptr_segment(aligned_p),_mi_ptr_page(aligned_p),aligned_p) );
|
||||
return aligned_p;
|
||||
}
|
||||
|
||||
static void* mi_malloc_zero_aligned_at(size_t size, size_t alignment, size_t offset, bool zero) mi_attr_noexcept {
|
||||
return mi_heap_malloc_zero_aligned_at(mi_get_default_heap(),size,alignment,offset,zero);
|
||||
}
|
||||
|
||||
void* mi_malloc_aligned_at(size_t size, size_t alignment, size_t offset) mi_attr_noexcept {
|
||||
return mi_malloc_zero_aligned_at(size, alignment, offset, false);
|
||||
}
|
||||
|
||||
void* mi_malloc_aligned(size_t size, size_t alignment) mi_attr_noexcept {
|
||||
return mi_malloc_aligned_at(size, alignment, 0);
|
||||
}
|
||||
|
||||
void* mi_zalloc_aligned_at(size_t size, size_t alignment, size_t offset) mi_attr_noexcept {
|
||||
return mi_malloc_zero_aligned_at(size,alignment,offset,true);
|
||||
}
|
||||
|
||||
void* mi_zalloc_aligned(size_t size, size_t alignment) mi_attr_noexcept {
|
||||
return mi_zalloc_aligned_at(size,alignment,0);
|
||||
}
|
||||
|
||||
void* mi_calloc_aligned_at(size_t count, size_t size, size_t alignment, size_t offset) mi_attr_noexcept {
|
||||
size_t total;
|
||||
if (mi_mul_overflow(count,size,&total)) return NULL;
|
||||
return mi_zalloc_aligned_at(total,alignment,offset);
|
||||
}
|
||||
|
||||
void* mi_calloc_aligned(size_t count, size_t size, size_t alignment) mi_attr_noexcept {
|
||||
size_t total;
|
||||
if (mi_mul_overflow(count,size,&total)) return NULL;
|
||||
return mi_zalloc_aligned(total,alignment);
|
||||
}
|
||||
|
||||
|
||||
static void* mi_realloc_zero_aligned_at(void* p, size_t newsize, size_t alignment, size_t offset, bool zero) mi_attr_noexcept {
|
||||
mi_assert(alignment > 0);
|
||||
if (alignment <= sizeof(uintptr_t)) return _mi_realloc_zero(p,newsize,zero);
|
||||
if (p == NULL) return mi_malloc_zero_aligned_at(newsize,alignment,offset,zero);
|
||||
size_t size = mi_usable_size(p);
|
||||
if (newsize <= size && newsize >= (size - (size / 2))
|
||||
&& (((uintptr_t)p + offset) % alignment) == 0) {
|
||||
return p; // reallocation still fits, is aligned and not more than 50% waste
|
||||
}
|
||||
else {
|
||||
void* newp = mi_malloc_aligned_at(newsize,alignment,offset);
|
||||
if (newp != NULL) {
|
||||
if (zero && newsize > size) {
|
||||
// also set last word in the previous allocation to zero to ensure any padding is zero-initialized
|
||||
size_t start = (size >= sizeof(intptr_t) ? size - sizeof(intptr_t) : 0);
|
||||
memset((uint8_t*)newp + start, 0, newsize - start);
|
||||
}
|
||||
memcpy(newp, p, (newsize > size ? size : newsize));
|
||||
mi_free(p); // only free if succesfull
|
||||
}
|
||||
return newp;
|
||||
}
|
||||
}
|
||||
|
||||
static void* _mi_realloc_aligned(void* p, size_t newsize, size_t alignment, bool zero) mi_attr_noexcept {
|
||||
mi_assert(alignment > 0);
|
||||
if (alignment <= sizeof(uintptr_t)) return _mi_realloc_zero(p,newsize,zero);
|
||||
size_t offset = ((uintptr_t)p % alignment); // use offset of previous allocation (p can be NULL)
|
||||
return mi_realloc_zero_aligned_at(p,newsize,alignment,offset,zero);
|
||||
}
|
||||
|
||||
void* mi_realloc_aligned_at(void* p, size_t newsize, size_t alignment, size_t offset) mi_attr_noexcept {
|
||||
return mi_realloc_zero_aligned_at(p,newsize,alignment,offset,false);
|
||||
}
|
||||
|
||||
void* mi_realloc_aligned(void* p, size_t newsize, size_t alignment) mi_attr_noexcept {
|
||||
return _mi_realloc_aligned(p,newsize,alignment,false);
|
||||
}
|
||||
|
||||
void* mi_rezalloc_aligned_at(void* p, size_t newsize, size_t alignment, size_t offset) mi_attr_noexcept {
|
||||
return mi_realloc_zero_aligned_at(p,newsize,alignment,offset,true);
|
||||
}
|
||||
|
||||
void* mi_rezalloc_aligned(void* p, size_t newsize, size_t alignment) mi_attr_noexcept {
|
||||
return _mi_realloc_aligned(p,newsize,alignment,true);
|
||||
}
|
||||
|
||||
void* mi_recalloc_aligned_at(void* p, size_t count, size_t size, size_t alignment, size_t offset) mi_attr_noexcept {
|
||||
size_t total;
|
||||
if (mi_mul_overflow(count,size,&total)) return NULL;
|
||||
return mi_rezalloc_aligned_at(p,total,alignment,offset);
|
||||
}
|
||||
|
||||
void* mi_recalloc_aligned(void* p, size_t count, size_t size, size_t alignment) mi_attr_noexcept {
|
||||
size_t total;
|
||||
if (mi_mul_overflow(count,size,&total)) return NULL;
|
||||
return mi_rezalloc_aligned(p,total,alignment);
|
||||
}
|
||||
|
229
src/alloc-override-osx.c
Normal file
229
src/alloc-override-osx.c
Normal file
@ -0,0 +1,229 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
|
||||
#if defined(MI_MALLOC_OVERRIDE)
|
||||
|
||||
#if !defined(__APPLE__)
|
||||
#error "this file should only be included on MacOSX"
|
||||
#endif
|
||||
|
||||
/* ------------------------------------------------------
|
||||
Override system malloc on MacOSX
|
||||
This is done through the malloc zone interface.
|
||||
------------------------------------------------------ */
|
||||
|
||||
#include <AvailabilityMacros.h>
|
||||
#include <malloc/malloc.h>
|
||||
|
||||
#if defined(MAC_OS_X_VERSION_10_6) && \
|
||||
MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_6
|
||||
// only available from OSX 10.6
|
||||
extern malloc_zone_t* malloc_default_purgeable_zone(void) __attribute__((weak_import));
|
||||
#endif
|
||||
|
||||
|
||||
/* ------------------------------------------------------
|
||||
malloc zone members
|
||||
------------------------------------------------------ */
|
||||
|
||||
static size_t zone_size(malloc_zone_t* zone, const void* p) {
|
||||
return 0; // as we cannot guarantee that `p` comes from us, just return 0
|
||||
}
|
||||
|
||||
static void* zone_malloc(malloc_zone_t* zone, size_t size) {
|
||||
return mi_malloc(size);
|
||||
}
|
||||
|
||||
static void* zone_calloc(malloc_zone_t* zone, size_t count, size_t size) {
|
||||
return mi_calloc(count, size);
|
||||
}
|
||||
|
||||
static void* zone_valloc(malloc_zone_t* zone, size_t size) {
|
||||
return mi_malloc_aligned(size, _mi_os_page_size());
|
||||
}
|
||||
|
||||
static void zone_free(malloc_zone_t* zone, void* p) {
|
||||
return mi_free(p);
|
||||
}
|
||||
|
||||
static void* zone_realloc(malloc_zone_t* zone, void* p, size_t newsize) {
|
||||
return mi_realloc(p, newsize);
|
||||
}
|
||||
|
||||
static void* zone_memalign(malloc_zone_t* zone, size_t alignment, size_t size) {
|
||||
return mi_malloc_aligned(size,alignment);
|
||||
}
|
||||
|
||||
static void zone_destroy(malloc_zone_t* zone) {
|
||||
// todo: ignore for now?
|
||||
}
|
||||
|
||||
static size_t zone_batch_malloc(malloc_zone_t* zone, size_t size, void** ps, size_t count) {
|
||||
size_t i;
|
||||
for (i = 0; i < count; i++) {
|
||||
ps[i] = zone_malloc(zone, size);
|
||||
if (ps[i] == NULL) break;
|
||||
}
|
||||
return i;
|
||||
}
|
||||
|
||||
static void zone_batch_free(malloc_zone_t* zone, void** ps, size_t count) {
|
||||
for(size_t i = 0; i < count; i++) {
|
||||
zone_free(zone, ps[i]);
|
||||
ps[i] = NULL;
|
||||
}
|
||||
}
|
||||
|
||||
static size_t zone_pressure_relief(malloc_zone_t* zone, size_t size) {
|
||||
mi_collect(false);
|
||||
return 0;
|
||||
}
|
||||
|
||||
static void zone_free_definite_size(malloc_zone_t* zone, void* p, size_t size) {
|
||||
zone_free(zone,p);
|
||||
}
|
||||
|
||||
|
||||
/* ------------------------------------------------------
|
||||
Introspection members
|
||||
------------------------------------------------------ */
|
||||
|
||||
static kern_return_t intro_enumerator(task_t task, void* p,
|
||||
unsigned type_mask, vm_address_t zone_address,
|
||||
memory_reader_t reader,
|
||||
vm_range_recorder_t recorder)
|
||||
{
|
||||
// todo: enumerate all memory
|
||||
return KERN_SUCCESS;
|
||||
}
|
||||
|
||||
static size_t intro_good_size(malloc_zone_t* zone, size_t size) {
|
||||
return mi_good_size(size);
|
||||
}
|
||||
|
||||
static boolean_t intro_check(malloc_zone_t* zone) {
|
||||
return true;
|
||||
}
|
||||
|
||||
static void intro_print(malloc_zone_t* zone, boolean_t verbose) {
|
||||
mi_stats_print(NULL);
|
||||
}
|
||||
|
||||
static void intro_log(malloc_zone_t* zone, void* p) {
|
||||
// todo?
|
||||
}
|
||||
|
||||
static void intro_force_lock(malloc_zone_t* zone) {
|
||||
// todo?
|
||||
}
|
||||
|
||||
static void intro_force_unlock(malloc_zone_t* zone) {
|
||||
// todo?
|
||||
}
|
||||
|
||||
static void intro_statistics(malloc_zone_t* zone, malloc_statistics_t* stats) {
|
||||
// todo...
|
||||
stats->blocks_in_use = 0;
|
||||
stats->size_in_use = 0;
|
||||
stats->max_size_in_use = 0;
|
||||
stats->size_allocated = 0;
|
||||
}
|
||||
|
||||
static boolean_t intro_zone_locked(malloc_zone_t* zone) {
|
||||
return false;
|
||||
}
|
||||
|
||||
|
||||
/* ------------------------------------------------------
|
||||
At process start, override the default allocator
|
||||
------------------------------------------------------ */
|
||||
|
||||
static malloc_zone_t* mi_get_default_zone()
|
||||
{
|
||||
// The first returned zone is the real default
|
||||
malloc_zone_t** zones = NULL;
|
||||
size_t count = 0;
|
||||
kern_return_t ret = malloc_get_all_zones(0, NULL, (vm_address_t**)&zones, &count);
|
||||
if (ret == KERN_SUCCESS && count > 0) {
|
||||
return zones[0];
|
||||
}
|
||||
else {
|
||||
// fallback
|
||||
return malloc_default_zone();
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
static void __attribute__((constructor)) _mi_macosx_override_malloc()
|
||||
{
|
||||
static malloc_introspection_t intro;
|
||||
memset(&intro, 0, sizeof(intro));
|
||||
|
||||
intro.enumerator = &intro_enumerator;
|
||||
intro.good_size = &intro_good_size;
|
||||
intro.check = &intro_check;
|
||||
intro.print = &intro_print;
|
||||
intro.log = &intro_log;
|
||||
intro.force_lock = &intro_force_lock;
|
||||
intro.force_unlock = &intro_force_unlock;
|
||||
|
||||
static malloc_zone_t zone;
|
||||
memset(&zone, 0, sizeof(zone));
|
||||
|
||||
zone.version = 4;
|
||||
zone.zone_name = "mimalloc";
|
||||
zone.size = &zone_size;
|
||||
zone.introspect = &intro;
|
||||
zone.malloc = &zone_malloc;
|
||||
zone.calloc = &zone_calloc;
|
||||
zone.valloc = &zone_valloc;
|
||||
zone.free = &zone_free;
|
||||
zone.realloc = &zone_realloc;
|
||||
zone.destroy = &zone_destroy;
|
||||
zone.batch_malloc = &zone_batch_malloc;
|
||||
zone.batch_free = &zone_batch_free;
|
||||
|
||||
malloc_zone_t* purgeable_zone = NULL;
|
||||
|
||||
#if defined(MAC_OS_X_VERSION_10_6) && \
|
||||
MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_6
|
||||
// rwitch to version 9 on OSX 10.6 to support memalign.
|
||||
zone.version = 9;
|
||||
zone.memalign = &zone_memalign;
|
||||
zone.free_definite_size = &zone_free_definite_size;
|
||||
zone.pressure_relief = &zone_pressure_relief;
|
||||
intro.zone_locked = &intro_zone_locked;
|
||||
|
||||
// force the purgable zone to exist to avoid strange bugs
|
||||
if (malloc_default_purgeable_zone) {
|
||||
purgeable_zone = malloc_default_purgeable_zone();
|
||||
}
|
||||
#endif
|
||||
|
||||
// Register our zone
|
||||
malloc_zone_register(&zone);
|
||||
|
||||
// Unregister the default zone, this makes our zone the new default
|
||||
// as that was the last registered.
|
||||
malloc_zone_t *default_zone = mi_get_default_zone();
|
||||
malloc_zone_unregister(default_zone);
|
||||
|
||||
// Reregister the default zone so free and realloc in that zone keep working.
|
||||
malloc_zone_register(default_zone);
|
||||
|
||||
// Unregister, and re-register the purgeable_zone to avoid bugs if it occurs
|
||||
// earlier than the default zone.
|
||||
if (purgeable_zone != NULL) {
|
||||
malloc_zone_unregister(purgeable_zone);
|
||||
malloc_zone_register(purgeable_zone);
|
||||
}
|
||||
}
|
||||
|
||||
#endif // MI_MALLOC_OVERRIDE
|
650
src/alloc-override-win.c
Normal file
650
src/alloc-override-win.c
Normal file
@ -0,0 +1,650 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
|
||||
#if !defined(_WIN32)
|
||||
#error "this file should only be included on Windows"
|
||||
#endif
|
||||
|
||||
#include <windows.h>
|
||||
#include <psapi.h>
|
||||
|
||||
|
||||
/*
|
||||
To override the C runtime `malloc` on Windows we need to patch the allocation
|
||||
functions at runtime initialization. Unfortunately we can never patch before the
|
||||
runtime initializes itself, because as soon as we call `GetProcAddress` on the
|
||||
runtime module (a DLL or EXE in Windows speak), it will first load and initialize
|
||||
(by the OS calling `DllMain` on it).
|
||||
|
||||
This means that some things might be already allocated by the C runtime itself
|
||||
(and possibly other DLL's) before we get to resolve runtime adresses. This is
|
||||
no problem if everyone unwinds in order: when we unload, we unpatch and restore
|
||||
the original crt `free` routines and crt malloc'd memory is freed correctly.
|
||||
|
||||
But things go wrong if such early CRT alloc'd memory is freed or re-allocated
|
||||
_after_ we patch, but _before_ we unload (and unpatch), or if any memory allocated
|
||||
by us is freed after we unpatched.
|
||||
|
||||
There are two tricky situations to deal with:
|
||||
|
||||
1. The Thread Local Storage (TLS): when the main thead stops it will call registered
|
||||
callbacks on TLS entries (allocated by `FlsAlloc`). This is done by the OS
|
||||
before any DLL's are unloaded. Unfortunately, the C runtime registers such
|
||||
TLS entries with CRT allocated memory which is freed in the callback.
|
||||
|
||||
2. Inside the CRT:
|
||||
a. Some variables might get initialized by patched allocated
|
||||
blocks but freed during CRT unloading after we unpatched
|
||||
(like temporary file buffers).
|
||||
b. Some blocks are allocated at CRT and freed by the CRT (like the
|
||||
environment storage).
|
||||
c. And some blocks are allocated by the CRT and then reallocated
|
||||
while patched, and finally freed after unpatching! This
|
||||
happens with the `atexit` functions for example to grow the array
|
||||
of registered functions.
|
||||
|
||||
In principle situation 2 is hopeless: since we cannot patch before CRT initialization,
|
||||
we can never be sure how to free or reallocate a pointer during CRT unloading.
|
||||
However, in practice there is a good solution: when terminating, we just patch
|
||||
the reallocation and free routines to no-ops -- we are winding down anyway! This leaves
|
||||
just the reallocation problm of CRT alloc'd memory once we are patched. Here, a study of the
|
||||
CRT reveals that there seem to be just three such situations:
|
||||
|
||||
1. When registering `atexit` routines (to grow the exit function table),
|
||||
2. When calling `_setmaxstdio` (to grow the file handle table),
|
||||
3. and `_popen`/`_wpopen` (to grow handle pairs). These turn out not to be
|
||||
a problem as these are NULL initialized.
|
||||
|
||||
We fix these by providing wrappers:
|
||||
|
||||
1. We first register a _global_ `atexit` routine ourselves (`mi_patches_at_exit`) before patching,
|
||||
and then patch the `_crt_atexit` function to implement our own global exit list (and the
|
||||
same for `_crt_at_quick_exit`). All module local lists are no problem since they are always fully
|
||||
(un)patched from initialization to end. We can register in the global list by dynamically
|
||||
getting the global `_crt_atexit` entry from `ucrtbase.dll`.
|
||||
|
||||
2. The `_setmaxstdio` is _detoured_: we patch it by a stub that unpatches first,
|
||||
calls the original routine and repatches again.
|
||||
|
||||
That leaves us to reliably shutdown and enter "termination mode":
|
||||
|
||||
1. Using our trick to get the global exit list entry point, we register an exit function `mi_patches_atexit`
|
||||
that first executes all our home brew list of exit functions, and then enters a _termination_
|
||||
phase that patches realloc/free variants with no-ops. Patching later again with special no-ops for
|
||||
`free` also improves efficiency during the program run since no flags need to be checked.
|
||||
|
||||
2. That is not quite good enough yet since after executing exit routines after us on the
|
||||
global exit list (registered by the CRT),
|
||||
the OS starts to unwind the TLS callbacks and we would like to run callbacks registered after loading
|
||||
our DLL to be done in patched mode. So, we also allocate a TLS entry when our DLL is loaded and when its
|
||||
callback is called, we re-enable the original patches again. Since TLS is destroyed in FIFO order
|
||||
this runs any callbacks in later DLL's in patched mode.
|
||||
|
||||
3. Finally the DLL's get unloaded by the OS in order (still patched) until our DLL gets unloaded
|
||||
and then we start a termination phase again, and patch realloc/free with no-ops for good this time.
|
||||
|
||||
*/
|
||||
|
||||
static int __cdecl mi_setmaxstdio(int newmax);
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Microsoft allocation extensions
|
||||
// ------------------------------------------------------
|
||||
|
||||
#define UNUSED(x) (void)(x) // suppress unused variable warnings
|
||||
|
||||
static void* mi__expand(void* p, size_t newsize) {
|
||||
void* res = mi_expand(p, newsize);
|
||||
if (res == NULL) errno = ENOMEM;
|
||||
return res;
|
||||
}
|
||||
|
||||
|
||||
// Versions of `free`, `realloc`, `recalloc`, `expand` and `msize`
|
||||
// that are used during termination and are no-ops.
|
||||
static void mi_free_term(void* p) {
|
||||
UNUSED(p);
|
||||
}
|
||||
|
||||
static void* mi_realloc_term(void* p, size_t newsize) {
|
||||
UNUSED(p); UNUSED(newsize);
|
||||
return NULL;
|
||||
}
|
||||
|
||||
static void* mi__recalloc_term(void* p, size_t newcount, size_t newsize) {
|
||||
UNUSED(p); UNUSED(newcount); UNUSED(newsize);
|
||||
return NULL;
|
||||
}
|
||||
|
||||
static void* mi__expand_term(void* p, size_t newsize) {
|
||||
UNUSED(p); UNUSED(newsize);
|
||||
return NULL;
|
||||
}
|
||||
|
||||
static size_t mi__msize_term(void* p) {
|
||||
UNUSED(p);
|
||||
return 0;
|
||||
}
|
||||
|
||||
|
||||
// Debug versions, forward to base versions (that get patched)
|
||||
|
||||
static void* mi__malloc_dbg(size_t size, int block_type, const char* fname, int line) {
|
||||
UNUSED(block_type); UNUSED(fname); UNUSED(line);
|
||||
return _malloc_base(size);
|
||||
}
|
||||
|
||||
static void* mi__calloc_dbg(size_t count, size_t size, int block_type, const char* fname, int line) {
|
||||
UNUSED(block_type); UNUSED(fname); UNUSED(line);
|
||||
return _calloc_base(count, size);
|
||||
}
|
||||
|
||||
static void* mi__realloc_dbg(void* p, size_t size, int block_type, const char* fname, int line) {
|
||||
UNUSED(block_type); UNUSED(fname); UNUSED(line);
|
||||
return _realloc_base(p, size);
|
||||
}
|
||||
|
||||
static void mi__free_dbg(void* p, int block_type) {
|
||||
UNUSED(block_type);
|
||||
_free_base(p);
|
||||
}
|
||||
|
||||
|
||||
// the `recalloc`,`expand`, and `msize` don't have base versions and thus need a separate term version
|
||||
|
||||
static void* mi__recalloc_dbg(void* p, size_t count, size_t size, int block_type, const char* fname, int line) {
|
||||
UNUSED(block_type); UNUSED(fname); UNUSED(line);
|
||||
return mi_recalloc(p, count, size);
|
||||
}
|
||||
|
||||
static void* mi__expand_dbg(void* p, size_t size, int block_type, const char* fname, int line) {
|
||||
UNUSED(block_type); UNUSED(fname); UNUSED(line);
|
||||
return mi__expand(p, size);
|
||||
}
|
||||
|
||||
static size_t mi__msize_dbg(void* p, int block_type) {
|
||||
UNUSED(block_type);
|
||||
return mi_usable_size(p);
|
||||
}
|
||||
|
||||
static void* mi__recalloc_dbg_term(void* p, size_t count, size_t size, int block_type, const char* fname, int line) {
|
||||
UNUSED(block_type); UNUSED(fname); UNUSED(line);
|
||||
return mi__recalloc_term(p, count, size);
|
||||
}
|
||||
|
||||
static void* mi__expand_dbg_term(void* p, size_t size, int block_type, const char* fname, int line) {
|
||||
UNUSED(block_type); UNUSED(fname); UNUSED(line);
|
||||
return mi__expand_term(p, size);
|
||||
}
|
||||
|
||||
static size_t mi__msize_dbg_term(void* p, int block_type) {
|
||||
UNUSED(block_type);
|
||||
return mi__msize_term(p);
|
||||
}
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// implement our own global atexit handler
|
||||
// ------------------------------------------------------
|
||||
typedef void (cbfun_t)();
|
||||
typedef int (atexit_fun_t)(cbfun_t* fn);
|
||||
typedef uintptr_t encoded_t;
|
||||
|
||||
typedef struct exit_list_s {
|
||||
encoded_t functions; // encoded pointer to array of encoded function pointers
|
||||
size_t count;
|
||||
size_t capacity;
|
||||
} exit_list_t;
|
||||
|
||||
#define MI_EXIT_INC (64)
|
||||
|
||||
static exit_list_t atexit_list = { 0, 0, 0 };
|
||||
static exit_list_t at_quick_exit_list = { 0, 0, 0 };
|
||||
static CRITICAL_SECTION atexit_lock;
|
||||
|
||||
// encode/decode function pointers with a random canary for security
|
||||
static encoded_t canary;
|
||||
|
||||
static inline void *decode(encoded_t x) {
|
||||
return (void*)(x^canary);
|
||||
}
|
||||
|
||||
static inline encoded_t encode(void* p) {
|
||||
return ((uintptr_t)p ^ canary);
|
||||
}
|
||||
|
||||
|
||||
static void init_canary()
|
||||
{
|
||||
canary = _mi_random_init(0);
|
||||
atexit_list.functions = at_quick_exit_list.functions = encode(NULL);
|
||||
}
|
||||
|
||||
|
||||
// initialize the list
|
||||
static void mi_initialize_atexit() {
|
||||
InitializeCriticalSection(&atexit_lock);
|
||||
init_canary();
|
||||
}
|
||||
|
||||
// register an exit function
|
||||
static int mi_register_atexit(exit_list_t* list, cbfun_t* fn) {
|
||||
if (fn == NULL) return EINVAL;
|
||||
EnterCriticalSection(&atexit_lock);
|
||||
encoded_t* functions = (encoded_t*)decode(list->functions);
|
||||
if (list->count >= list->capacity) { // at first `functions == decode(0) == NULL`
|
||||
encoded_t* newf = (encoded_t*)mi_recalloc(functions, list->capacity + MI_EXIT_INC, sizeof(cbfun_t*));
|
||||
if (newf != NULL) {
|
||||
list->capacity += MI_EXIT_INC;
|
||||
list->functions = encode(newf);
|
||||
functions = newf;
|
||||
}
|
||||
}
|
||||
int result;
|
||||
if (list->count < list->capacity && functions != NULL) {
|
||||
functions[list->count] = encode(fn);
|
||||
list->count++;
|
||||
result = 0; // success
|
||||
}
|
||||
else {
|
||||
result = ENOMEM;
|
||||
}
|
||||
LeaveCriticalSection(&atexit_lock);
|
||||
return result;
|
||||
}
|
||||
|
||||
// Register a global `atexit` function
|
||||
static int mi__crt_atexit(cbfun_t* fn) {
|
||||
return mi_register_atexit(&atexit_list,fn);
|
||||
}
|
||||
|
||||
static int mi__crt_at_quick_exit(cbfun_t* fn) {
|
||||
return mi_register_atexit(&at_quick_exit_list,fn);
|
||||
}
|
||||
|
||||
|
||||
// Execute exit functions in a list
|
||||
static void mi_execute_exit_list(exit_list_t* list) {
|
||||
// copy and zero the list structure
|
||||
EnterCriticalSection(&atexit_lock);
|
||||
exit_list_t clist = *list;
|
||||
memset(list,0,sizeof(*list));
|
||||
LeaveCriticalSection(&atexit_lock);
|
||||
|
||||
// now execute the functions outside of the lock
|
||||
encoded_t* functions = (encoded_t*)decode(clist.functions);
|
||||
if (functions != NULL) {
|
||||
for (size_t i = clist.count; i > 0; i--) { // careful with unsigned count down..
|
||||
cbfun_t* fn = (cbfun_t*)decode(functions[i-1]);
|
||||
if (fn==NULL) break; // corrupted!
|
||||
fn();
|
||||
}
|
||||
mi_free(functions);
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Jump assembly instructions for patches
|
||||
// ------------------------------------------------------
|
||||
|
||||
#if defined(_M_IX86) || defined(_M_X64)
|
||||
|
||||
#define MI_JUMP_SIZE 14 // at most 2+4+8 for a long jump or 1+5 for a short one
|
||||
|
||||
typedef struct mi_jump_s {
|
||||
uint8_t opcodes[MI_JUMP_SIZE];
|
||||
} mi_jump_t;
|
||||
|
||||
void mi_jump_restore(void* current, const mi_jump_t* saved) {
|
||||
memcpy(current, &saved->opcodes, MI_JUMP_SIZE);
|
||||
}
|
||||
|
||||
void mi_jump_write(void* current, void* target, mi_jump_t* save) {
|
||||
if (save != NULL) {
|
||||
memcpy(&save->opcodes, current, MI_JUMP_SIZE);
|
||||
}
|
||||
uint8_t* opcodes = ((mi_jump_t*)current)->opcodes;
|
||||
ptrdiff_t diff = (uint8_t*)target - (uint8_t*)current;
|
||||
uint32_t ofs32 = (uint32_t)diff;
|
||||
#ifdef _M_X64
|
||||
uint64_t ofs64 = (uint64_t)diff;
|
||||
if (ofs64 != (uint64_t)ofs32) {
|
||||
// use long jump
|
||||
opcodes[0] = 0xFF;
|
||||
opcodes[1] = 0x25;
|
||||
*((uint32_t*)&opcodes[2]) = 0;
|
||||
*((uint64_t*)&opcodes[6]) = (uint64_t)target;
|
||||
}
|
||||
else
|
||||
#endif
|
||||
{
|
||||
// use short jump
|
||||
opcodes[0] = 0xE9;
|
||||
*((uint32_t*)&opcodes[1]) = ofs32 - 5 /* size of the short jump instruction */;
|
||||
}
|
||||
}
|
||||
|
||||
#elif defined(_M_ARM64)
|
||||
|
||||
#define MI_JUMP_SIZE 16
|
||||
|
||||
typedef struct mi_jump_s {
|
||||
uint8_t opcodes[MI_JUMP_SIZE];
|
||||
} mi_jump_t;
|
||||
|
||||
void mi_jump_restore(void* current, const mi_jump_t* saved) {
|
||||
memcpy(current, &saved->opcodes, MI_JUMP_SIZE);
|
||||
}
|
||||
|
||||
void mi_jump_write(void* current, void* target, mi_jump_t* save) {
|
||||
if (save != NULL) {
|
||||
memcpy(&save->opcodes, current, MI_JUMP_SIZE);
|
||||
}
|
||||
uint8_t* opcodes = ((mi_jump_t*)current)->opcodes;
|
||||
uint64_t diff = (uint8_t*)target - (uint8_t*)current;
|
||||
|
||||
// 0x50 0x00 0x00 0x58 ldr x16, .+8 # load PC relative +8
|
||||
// 0x00 0x02 0x3F 0xD6 blr x16 # and jump
|
||||
// <address>
|
||||
// <address>
|
||||
static const uint8_t jump_opcodes[8] = { 0x50, 0x00, 0x00, 0x58, 0x00, 0x02, 0x3F, 0xD6 };
|
||||
memcpy(&opcodes[0], jump_opcodes, sizeof(jump_opcodes));
|
||||
*((uint64_t*)&opcodes[8]) = diff;
|
||||
}
|
||||
|
||||
#else
|
||||
#error "define jump instructions for this platform"
|
||||
#endif
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Patches
|
||||
// ------------------------------------------------------
|
||||
typedef enum patch_apply_e {
|
||||
PATCH_NONE,
|
||||
PATCH_TARGET,
|
||||
PATCH_TARGET_TERM
|
||||
} patch_apply_t;
|
||||
|
||||
typedef struct mi_patch_s {
|
||||
const char* name; // name of the function to patch
|
||||
void* original; // the resolved address of the function (or NULL)
|
||||
void* target; // the address of the new target (never NULL)
|
||||
void* target_term;// the address of the target during termination (or NULL)
|
||||
patch_apply_t applied; // what target has been applied?
|
||||
mi_jump_t save; // the saved instructions in case it was applied
|
||||
} mi_patch_t;
|
||||
|
||||
#define MI_PATCH_NAME3(name,target,term) { name, NULL, &target, &term, false }
|
||||
#define MI_PATCH_NAME2(name,target) { name, NULL, &target, NULL, false }
|
||||
#define MI_PATCH3(name,target,term) MI_PATCH_NAME3(#name, target, term)
|
||||
#define MI_PATCH2(name,target) MI_PATCH_NAME2(#name, target)
|
||||
#define MI_PATCH1(name) MI_PATCH2(name,mi_##name)
|
||||
|
||||
static mi_patch_t patches[] = {
|
||||
// we implement our own global exit handler (as the CRT versions do a realloc internally)
|
||||
MI_PATCH2(_crt_atexit, mi__crt_atexit),
|
||||
MI_PATCH2(_crt_at_quick_exit, mi__crt_at_quick_exit),
|
||||
MI_PATCH2(_setmaxstdio, mi_setmaxstdio),
|
||||
|
||||
// base versions
|
||||
MI_PATCH2(_malloc_base, mi_malloc),
|
||||
MI_PATCH2(_calloc_base, mi_calloc),
|
||||
MI_PATCH3(_realloc_base, mi_realloc,mi_realloc_term),
|
||||
MI_PATCH3(_free_base, mi_free,mi_free_term),
|
||||
|
||||
// regular entries
|
||||
MI_PATCH3(_expand, mi__expand,mi__expand_term),
|
||||
MI_PATCH3(_recalloc, mi_recalloc,mi__recalloc_term),
|
||||
MI_PATCH3(_msize, mi_usable_size,mi__msize_term),
|
||||
|
||||
// these base versions are in the crt but without import records
|
||||
MI_PATCH_NAME3("_recalloc_base", mi_recalloc,mi__recalloc_term),
|
||||
MI_PATCH_NAME3("_msize_base", mi_usable_size,mi__msize_term),
|
||||
|
||||
// utility
|
||||
MI_PATCH2(_strdup, mi_strdup),
|
||||
MI_PATCH2(_strndup, mi_strndup),
|
||||
|
||||
// debug
|
||||
MI_PATCH2(_malloc_dbg, mi__malloc_dbg),
|
||||
MI_PATCH2(_realloc_dbg, mi__realloc_dbg),
|
||||
MI_PATCH2(_calloc_dbg, mi__calloc_dbg),
|
||||
MI_PATCH2(_free_dbg, mi__free_dbg),
|
||||
|
||||
MI_PATCH3(_expand_dbg, mi__expand_dbg, mi__expand_dbg_term),
|
||||
MI_PATCH3(_recalloc_dbg, mi__recalloc_dbg, mi__recalloc_dbg_term),
|
||||
MI_PATCH3(_msize_dbg, mi__msize_dbg, mi__msize_dbg_term),
|
||||
|
||||
#ifdef _WIN64
|
||||
// 64 bit new/delete
|
||||
MI_PATCH_NAME2("??2@YAPEAX_K@Z", mi_malloc),
|
||||
MI_PATCH_NAME2("??_U@YAPEAX_K@Z", mi_malloc),
|
||||
MI_PATCH_NAME3("??3@YAXPEAX@Z", mi_free, mi_free_term),
|
||||
MI_PATCH_NAME3("??_V@YAXPEAX@Z", mi_free, mi_free_term),
|
||||
MI_PATCH_NAME2("??2@YAPEAX_KAEBUnothrow_t@std@@@Z", mi_malloc),
|
||||
MI_PATCH_NAME2("??_U@YAPEAX_KAEBUnothrow_t@std@@@Z", mi_malloc),
|
||||
MI_PATCH_NAME3("??3@YAXPEAXAEBUnothrow_t@std@@@Z", mi_free, mi_free_term),
|
||||
MI_PATCH_NAME3("??_V@YAXPEAXAEBUnothrow_t@std@@@Z", mi_free, mi_free_term),
|
||||
#else
|
||||
// 32 bit new/delete
|
||||
MI_PATCH_NAME2("??2@YAPAXI@Z", mi_malloc),
|
||||
MI_PATCH_NAME2("??_U@YAPAXI@Z", mi_malloc),
|
||||
MI_PATCH_NAME3("??3@YAXPAX@Z", mi_free, mi_free_term),
|
||||
MI_PATCH_NAME3("??_V@YAXPAX@Z", mi_free, mi_free_term),
|
||||
MI_PATCH_NAME2("??2@YAPAXIABUnothrow_t@std@@@Z", mi_malloc),
|
||||
MI_PATCH_NAME2("??_U@YAPAXIABUnothrow_t@std@@@Z", mi_malloc),
|
||||
MI_PATCH_NAME3("??3@YAXPAXABUnothrow_t@std@@@Z", mi_free, mi_free_term),
|
||||
MI_PATCH_NAME3("??_V@YAXPAXABUnothrow_t@std@@@Z", mi_free, mi_free_term),
|
||||
#endif
|
||||
|
||||
{ NULL, NULL, NULL, false }
|
||||
};
|
||||
|
||||
|
||||
// Apply a patch
|
||||
static bool mi_patch_apply(mi_patch_t* patch, patch_apply_t apply)
|
||||
{
|
||||
if (patch->original == NULL) return true; // unresolved
|
||||
if (apply == PATCH_TARGET_TERM && patch->target_term == NULL) apply = PATCH_TARGET; // avoid re-applying non-term variants
|
||||
if (patch->applied == apply) return false;
|
||||
|
||||
DWORD protect = PAGE_READWRITE;
|
||||
if (!VirtualProtect(patch->original, MI_JUMP_SIZE, PAGE_EXECUTE_READWRITE, &protect)) return false;
|
||||
if (apply == PATCH_NONE) {
|
||||
mi_jump_restore(patch->original, &patch->save);
|
||||
}
|
||||
else {
|
||||
void* target = (apply == PATCH_TARGET ? patch->target : patch->target_term);
|
||||
mi_assert_internal(target!=NULL);
|
||||
if (target != NULL) mi_jump_write(patch->original, target, &patch->save);
|
||||
}
|
||||
patch->applied = apply;
|
||||
VirtualProtect(patch->original, MI_JUMP_SIZE, protect, &protect);
|
||||
return true;
|
||||
}
|
||||
|
||||
// Apply all patches
|
||||
static bool _mi_patches_apply(patch_apply_t apply, patch_apply_t* previous) {
|
||||
static patch_apply_t current = PATCH_NONE;
|
||||
if (previous != NULL) *previous = current;
|
||||
if (current == apply) return true;
|
||||
current = apply;
|
||||
bool ok = true;
|
||||
for (size_t i = 0; patches[i].name != NULL; i++) {
|
||||
if (!mi_patch_apply(&patches[i], apply)) ok = false;
|
||||
}
|
||||
return ok;
|
||||
}
|
||||
|
||||
// Export the following three functions just in case
|
||||
// a user needs that level of control.
|
||||
|
||||
// Disable all patches
|
||||
mi_decl_export void mi_patches_disable(void) {
|
||||
_mi_patches_apply(PATCH_NONE, NULL);
|
||||
}
|
||||
|
||||
// Enable all patches normally
|
||||
mi_decl_export bool mi_patches_enable() {
|
||||
return _mi_patches_apply( PATCH_TARGET, NULL );
|
||||
}
|
||||
|
||||
// Enable all patches in termination phase where free is a no-op
|
||||
mi_decl_export bool mi_patches_enable_term() {
|
||||
return _mi_patches_apply(PATCH_TARGET_TERM, NULL);
|
||||
}
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Stub for _setmaxstdio
|
||||
// ------------------------------------------------------
|
||||
|
||||
static int __cdecl mi_setmaxstdio(int newmax) {
|
||||
patch_apply_t previous;
|
||||
_mi_patches_apply(PATCH_NONE, &previous); // disable patches
|
||||
int result = _setmaxstdio(newmax); // call original function (that calls original CRT recalloc)
|
||||
_mi_patches_apply(previous,NULL); // and re-enable patches
|
||||
return result;
|
||||
}
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Resolve addresses dynamically
|
||||
// ------------------------------------------------------
|
||||
|
||||
// Try to resolve patches for a given module (DLL)
|
||||
static void mi_module_resolve(HMODULE mod) {
|
||||
// see if any patches apply
|
||||
for (size_t i = 0; patches[i].name != NULL; i++) {
|
||||
mi_patch_t* patch = &patches[i];
|
||||
if (!patch->applied && patch->original==NULL) {
|
||||
void* addr = GetProcAddress(mod, patch->name);
|
||||
if (addr != NULL) {
|
||||
// found it! set the address
|
||||
patch->original = addr;
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
#define MIMALLOC_NAME "mimalloc-override"
|
||||
#define UCRTBASE_NAME "ucrtbase"
|
||||
|
||||
// Resolve addresses of all patches by inspecting the loaded modules
|
||||
static atexit_fun_t* crt_atexit = NULL;
|
||||
static atexit_fun_t* crt_at_quick_exit = NULL;
|
||||
|
||||
|
||||
static bool mi_patches_resolve() {
|
||||
// get all loaded modules
|
||||
HANDLE process = GetCurrentProcess(); // always -1, no need to release
|
||||
DWORD needed = 0;
|
||||
HMODULE modules[400]; // try to stay under 4k to not trigger the guard page
|
||||
EnumProcessModules(process, modules, sizeof(modules), &needed);
|
||||
if (needed == 0) return false;
|
||||
size_t count = needed / sizeof(HMODULE);
|
||||
size_t ucrtbase_index = 0;
|
||||
size_t mimalloc_index = 0;
|
||||
// iterate through the loaded modules
|
||||
for (size_t i = 0; i < count; i++) {
|
||||
HMODULE mod = modules[i];
|
||||
char filename[MAX_PATH] = { 0 };
|
||||
DWORD slen = GetModuleFileName(mod, filename, MAX_PATH);
|
||||
if (slen > 0 && slen < MAX_PATH) {
|
||||
// filter out potential crt modules only
|
||||
filename[slen] = 0;
|
||||
const char* lastsep = strrchr(filename, '\\');
|
||||
const char* basename = (lastsep==NULL ? filename : lastsep+1);
|
||||
if (i==0 // main module to allow static crt linking
|
||||
|| _strnicmp(basename, "ucrt", 4) == 0 // new ucrtbase.dll in windows 10
|
||||
|| _strnicmp(basename, "msvcr", 5) == 0) // older runtimes
|
||||
{
|
||||
// remember indices so we can check load order (in debug mode)
|
||||
if (_stricmp(basename, MIMALLOC_NAME) == 0) mimalloc_index = i;
|
||||
if (_stricmp(basename, UCRTBASE_NAME) == 0) ucrtbase_index = i;
|
||||
|
||||
// probably found a crt module, try to patch it
|
||||
mi_module_resolve(mod);
|
||||
|
||||
// try to find the atexit functions for the main process (in `ucrtbase.dll`)
|
||||
if (crt_atexit==NULL) crt_atexit = (atexit_fun_t*)GetProcAddress(mod, "_crt_atexit");
|
||||
if (crt_at_quick_exit == NULL) crt_at_quick_exit = (atexit_fun_t*)GetProcAddress(mod, "_crt_at_quick_exit");
|
||||
}
|
||||
}
|
||||
}
|
||||
#if (MI_DEBUG)
|
||||
size_t diff = (mimalloc_index > ucrtbase_index ? mimalloc_index - ucrtbase_index : ucrtbase_index - mimalloc_index);
|
||||
if ((mimalloc_index > 0 || ucrtbase_index > 0) && (diff != 1)) {
|
||||
_mi_warning_message("warning: the \"mimalloc-override\" DLL seems not to load right before or after the C runtime (\"ucrtbase\").\n"
|
||||
" Try to fix this by changing the linking order.");
|
||||
}
|
||||
#endif
|
||||
return true;
|
||||
}
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Dll Entry
|
||||
// ------------------------------------------------------
|
||||
|
||||
extern BOOL WINAPI _DllMainCRTStartup(HINSTANCE inst, DWORD reason, LPVOID reserved);
|
||||
|
||||
static DWORD mi_fls_unwind_entry;
|
||||
static void NTAPI mi_fls_unwind(PVOID value) {
|
||||
if (value != NULL) mi_patches_enable(); // and re-enable normal patches again for DLL's loaded after us
|
||||
return;
|
||||
}
|
||||
|
||||
static void mi_patches_atexit() {
|
||||
mi_execute_exit_list(&atexit_list);
|
||||
mi_patches_enable_term(); // enter termination phase and patch realloc/free with a no-op
|
||||
}
|
||||
|
||||
static void mi_patches_at_quick_exit() {
|
||||
mi_execute_exit_list(&at_quick_exit_list);
|
||||
mi_patches_enable_term(); // enter termination phase and patch realloc/free with a no-op
|
||||
}
|
||||
|
||||
__declspec(dllexport) BOOL WINAPI DllEntry(HINSTANCE inst, DWORD reason, LPVOID reserved) {
|
||||
if (reason == DLL_PROCESS_ATTACH) {
|
||||
__security_init_cookie();
|
||||
}
|
||||
else if (reason == DLL_PROCESS_DETACH) {
|
||||
// enter termination phase for good now
|
||||
mi_patches_enable_term();
|
||||
}
|
||||
// C runtime main
|
||||
BOOL ok = _DllMainCRTStartup(inst, reason, reserved);
|
||||
if (reason == DLL_PROCESS_ATTACH && ok) {
|
||||
// Now resolve patches
|
||||
ok = mi_patches_resolve();
|
||||
if (ok) {
|
||||
// and register our unwind entry (this must be after resolving due to possible delayed DLL initialization from GetProcAddress)
|
||||
mi_fls_unwind_entry = FlsAlloc(&mi_fls_unwind);
|
||||
if (mi_fls_unwind_entry != FLS_OUT_OF_INDEXES) {
|
||||
FlsSetValue(mi_fls_unwind_entry, (void*)1);
|
||||
}
|
||||
|
||||
// register our patch disabler in the global exit list
|
||||
mi_initialize_atexit();
|
||||
if (crt_atexit != NULL) (*crt_atexit)(&mi_patches_atexit);
|
||||
if (crt_at_quick_exit != NULL) (*crt_at_quick_exit)(&mi_patches_at_quick_exit);
|
||||
|
||||
// and patch ! this also redirects the `atexit` handling for the global exit list
|
||||
mi_patches_enable();
|
||||
|
||||
// hide internal allocation
|
||||
mi_stats_reset();
|
||||
}
|
||||
}
|
||||
return ok;
|
||||
}
|
187
src/alloc-override.c
Normal file
187
src/alloc-override.c
Normal file
@ -0,0 +1,187 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
|
||||
#if !defined(MI_IN_ALLOC_C)
|
||||
#error "this file should be included from 'alloc.c' (so aliases can work)"
|
||||
#endif
|
||||
|
||||
#if defined(MI_MALLOC_OVERRIDE) && defined(_WIN32) && !(defined(MI_SHARED_LIB) && defined(_DLL))
|
||||
#error "It is only possible to override malloc on Windows when building as a DLL (and linking the C runtime as a DLL)"
|
||||
#endif
|
||||
|
||||
#if defined(MI_MALLOC_OVERRIDE) && !defined(_WIN32)
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Override system malloc
|
||||
// ------------------------------------------------------
|
||||
|
||||
#if defined(_MSC_VER)
|
||||
#pragma warning(disable:4273) // inconsistent dll linking
|
||||
#endif
|
||||
|
||||
#if (defined(__GNUC__) || defined(__clang__)) && !defined(__MACH__)
|
||||
// use aliasing to alias the exported function to one of our `mi_` functions
|
||||
#define MI_FORWARD(fun) __attribute__((alias(#fun), used));
|
||||
#define MI_FORWARD1(fun,x) MI_FORWARD(fun)
|
||||
#define MI_FORWARD2(fun,x,y) MI_FORWARD(fun)
|
||||
#define MI_FORWARD0(fun,x) MI_FORWARD(fun)
|
||||
#else
|
||||
// use forwarding by calling our `mi_` function
|
||||
#define MI_FORWARD1(fun,x) { return fun(x); }
|
||||
#define MI_FORWARD2(fun,x,y) { return fun(x,y); }
|
||||
#define MI_FORWARD0(fun,x) { fun(x); }
|
||||
#endif
|
||||
|
||||
#if defined(__APPLE__) && defined(MI_SHARED_LIB_EXPORT) && defined(MI_INTERPOSE)
|
||||
// use interposing so `DYLD_INSERT_LIBRARIES` works without `DYLD_FORCE_FLAT_NAMESPACE=1`
|
||||
// See: <https://books.google.com/books?id=K8vUkpOXhN4C&pg=PA73>
|
||||
struct mi_interpose_s {
|
||||
const void* replacement;
|
||||
const void* target;
|
||||
};
|
||||
#define MI_INTERPOSEX(oldfun,newfun) { (const void*)&newfun, (const void*)&oldfun }
|
||||
#define MI_INTERPOSE_MI(fun) MI_INTERPOSEX(fun,mi_##fun)
|
||||
__attribute__((used)) static struct mi_interpose_s _mi_interposes[] __attribute__((section("__DATA, __interpose"))) =
|
||||
{
|
||||
MI_INTERPOSE_MI(malloc),
|
||||
MI_INTERPOSE_MI(calloc),
|
||||
MI_INTERPOSE_MI(realloc),
|
||||
MI_INTERPOSE_MI(free)
|
||||
};
|
||||
#else
|
||||
// On all other systems forward to our API
|
||||
void* malloc(size_t size) mi_attr_noexcept MI_FORWARD1(mi_malloc, size)
|
||||
void* calloc(size_t size, size_t n) mi_attr_noexcept MI_FORWARD2(mi_calloc, size, n)
|
||||
void* realloc(void* p, size_t newsize) mi_attr_noexcept MI_FORWARD2(mi_realloc, p, newsize)
|
||||
void free(void* p) mi_attr_noexcept MI_FORWARD0(mi_free, p)
|
||||
#endif
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Override new/delete
|
||||
// This is not really necessary as they usually call
|
||||
// malloc/free anyway, but it improves performance.
|
||||
// ------------------------------------------------------
|
||||
#ifdef __cplusplus
|
||||
// ------------------------------------------------------
|
||||
// With a C++ compiler we override the new/delete operators.
|
||||
// see <https://en.cppreference.com/w/cpp/memory/new/operator_new>
|
||||
// ------------------------------------------------------
|
||||
#include <new>
|
||||
void operator delete(void* p) noexcept MI_FORWARD0(mi_free,p)
|
||||
void operator delete[](void* p) noexcept MI_FORWARD0(mi_free,p)
|
||||
void* operator new(std::size_t n) noexcept(false) MI_FORWARD1(mi_malloc,n)
|
||||
void* operator new[](std::size_t n) noexcept(false) MI_FORWARD1(mi_malloc,n)
|
||||
|
||||
#if (__cplusplus >= 201703L)
|
||||
void* operator new( std::size_t n, std::align_val_t align) noexcept(false) MI_FORWARD2(mi_malloc_aligned,n,align)
|
||||
void* operator new[]( std::size_t n, std::align_val_t align) noexcept(false) MI_FORWARD2(mi_malloc_aligned,n,align)
|
||||
#endif
|
||||
#else
|
||||
// ------------------------------------------------------
|
||||
// With a C compiler we override the new/delete operators
|
||||
// by defining the mangled C++ names of the operators (as
|
||||
// used by GCC and CLang).
|
||||
// See <https://itanium-cxx-abi.github.io/cxx-abi/abi.html#mangling>
|
||||
// ------------------------------------------------------
|
||||
void _ZdlPv(void* p) MI_FORWARD0(mi_free,p) // delete
|
||||
void _ZdaPv(void* p) MI_FORWARD0(mi_free,p) // delete[]
|
||||
#if (MI_INTPTR_SIZE==8)
|
||||
void* _Znwm(uint64_t n) MI_FORWARD1(mi_malloc,n) // new 64-bit
|
||||
void* _Znam(uint64_t n) MI_FORWARD1(mi_malloc,n) // new[] 64-bit
|
||||
void* _Znwmm(uint64_t n, uint64_t align) { return mi_malloc_aligned(n,align); } // aligned new 64-bit
|
||||
void* _Znamm(uint64_t n, uint64_t align) { return mi_malloc_aligned(n,align); } // aligned new[] 64-bit
|
||||
#elif (MI_INTPTR_SIZE==4)
|
||||
void* _Znwj(uint32_t n) MI_FORWARD1(mi_malloc,n) // new 32-bit
|
||||
void* _Znaj(uint32_t n) MI_FORWARD1(mi_malloc,n) // new[] 32-bit
|
||||
void* _Znwjj(uint32_t n, uint32_t align) { return mi_malloc_aligned(n,align); } // aligned new 32-bit
|
||||
void* _Znajj(uint32_t n, uint32_t align) { return mi_malloc_aligned(n,align); } // aligned new[] 32-bit
|
||||
#else
|
||||
#error "define overloads for new/delete for this platform (just for performance, can be skipped)"
|
||||
#endif
|
||||
#endif // __cplusplus
|
||||
|
||||
|
||||
#ifdef __cplusplus
|
||||
extern "C" {
|
||||
#endif
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Posix & Unix functions definitions
|
||||
// ------------------------------------------------------
|
||||
|
||||
#include <errno.h>
|
||||
|
||||
#ifndef EINVAL
|
||||
#define EINVAL 22
|
||||
#endif
|
||||
#ifndef ENOMEM
|
||||
#define ENOMEM 12
|
||||
#endif
|
||||
|
||||
void* reallocf(void* p, size_t newsize) MI_FORWARD2(mi_reallocf,p,newsize)
|
||||
size_t malloc_size(void* p) MI_FORWARD1(mi_usable_size,p)
|
||||
size_t malloc_usable_size(void *p) MI_FORWARD1(mi_usable_size,p)
|
||||
void cfree(void* p) MI_FORWARD0(mi_free, p)
|
||||
|
||||
int posix_memalign(void** p, size_t alignment, size_t size) {
|
||||
if (alignment % sizeof(void*) != 0) { *p = NULL; return EINVAL; };
|
||||
*p = mi_malloc_aligned(size, alignment);
|
||||
return (*p == NULL ? ENOMEM : 0);
|
||||
}
|
||||
|
||||
void* memalign(size_t alignment, size_t size) {
|
||||
return mi_malloc_aligned(size, alignment);
|
||||
}
|
||||
|
||||
void* valloc(size_t size) {
|
||||
return mi_malloc_aligned(size, _mi_os_page_size());
|
||||
}
|
||||
|
||||
void* pvalloc(size_t size) {
|
||||
size_t psize = _mi_os_page_size();
|
||||
if (size >= SIZE_MAX - psize) return NULL; // overflow
|
||||
size_t asize = ((size + psize - 1) / psize) * psize;
|
||||
return mi_malloc_aligned(asize, psize);
|
||||
}
|
||||
|
||||
void* aligned_alloc(size_t alignment, size_t size) {
|
||||
return mi_malloc_aligned(size, alignment);
|
||||
}
|
||||
|
||||
void* reallocarray( void* p, size_t count, size_t size ) { // BSD
|
||||
void* newp = mi_reallocn(p,count,size);
|
||||
if (newp==NULL) errno = ENOMEM;
|
||||
return newp;
|
||||
}
|
||||
|
||||
#if defined(__GLIBC__) && defined(__linux__)
|
||||
// forward __libc interface (needed for redhat linux)
|
||||
void* __libc_malloc(size_t size) MI_FORWARD1(mi_malloc,size)
|
||||
void* __libc_calloc(size_t count, size_t size) MI_FORWARD2(mi_calloc,count,size)
|
||||
void* __libc_realloc(void* p, size_t size) MI_FORWARD2(mi_realloc,p,size)
|
||||
void __libc_free(void* p) MI_FORWARD0(mi_free,p)
|
||||
void __libc_cfree(void* p) MI_FORWARD0(mi_free,p)
|
||||
|
||||
void* __libc_memalign(size_t alignment, size_t size) {
|
||||
return memalign(alignment,size);
|
||||
}
|
||||
void* __libc_valloc(size_t size) {
|
||||
return valloc(size);
|
||||
}
|
||||
void* __libc_pvalloc(size_t size) {
|
||||
return pvalloc(size);
|
||||
}
|
||||
int __posix_memalign(void** p, size_t alignment, size_t size) {
|
||||
return posix_memalign(p,alignment,size);
|
||||
}
|
||||
#endif
|
||||
|
||||
#ifdef __cplusplus
|
||||
}
|
||||
#endif
|
||||
|
||||
#endif // MI_MALLOC_OVERRIDE & !_WIN32
|
445
src/alloc.c
Normal file
445
src/alloc.c
Normal file
@ -0,0 +1,445 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
#include "mimalloc-atomic.h"
|
||||
|
||||
#include <string.h> // memset
|
||||
|
||||
#define MI_IN_ALLOC_C
|
||||
#include "alloc-override.c"
|
||||
#undef MI_IN_ALLOC_C
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Allocation
|
||||
// ------------------------------------------------------
|
||||
|
||||
// Fast allocation in a page: just pop from the free list.
|
||||
// Fall back to generic allocation only if the list is empty.
|
||||
extern inline void* _mi_page_malloc(mi_heap_t* heap, mi_page_t* page, size_t size) mi_attr_noexcept {
|
||||
mi_assert_internal(page->block_size==0||page->block_size >= size);
|
||||
mi_block_t* block = page->free;
|
||||
if (mi_unlikely(block == NULL)) {
|
||||
return _mi_malloc_generic(heap, size); // slow path
|
||||
}
|
||||
mi_assert_internal(block != NULL && _mi_ptr_page(block) == page);
|
||||
// pop from the free list
|
||||
page->free = mi_block_next(page,block);
|
||||
page->used++;
|
||||
mi_assert_internal(page->free == NULL || _mi_ptr_page(page->free) == page);
|
||||
#if (MI_DEBUG)
|
||||
memset(block, MI_DEBUG_UNINIT, size);
|
||||
#elif (MI_SECURE)
|
||||
block->next = 0;
|
||||
#endif
|
||||
#if (MI_STAT>1)
|
||||
if(size <= MI_LARGE_SIZE_MAX) mi_heap_stat_increase(heap,normal[_mi_bin(size)], 1);
|
||||
#endif
|
||||
return block;
|
||||
}
|
||||
|
||||
// allocate a small block
|
||||
extern inline void* mi_heap_malloc_small(mi_heap_t* heap, size_t size) mi_attr_noexcept {
|
||||
mi_assert(size <= MI_SMALL_SIZE_MAX);
|
||||
mi_page_t* page = _mi_heap_get_free_small_page(heap,size);
|
||||
return _mi_page_malloc(heap, page, size);
|
||||
}
|
||||
|
||||
extern inline void* mi_malloc_small(size_t size) mi_attr_noexcept {
|
||||
return mi_heap_malloc_small(mi_get_default_heap(), size);
|
||||
}
|
||||
|
||||
// zero initialized small block
|
||||
void* mi_zalloc_small(size_t size) mi_attr_noexcept {
|
||||
void* p = mi_malloc_small(size);
|
||||
if (p != NULL) { memset(p, 0, size); }
|
||||
return p;
|
||||
}
|
||||
|
||||
// The main allocation function
|
||||
extern inline void* mi_heap_malloc(mi_heap_t* heap, size_t size) mi_attr_noexcept {
|
||||
mi_assert(heap!=NULL);
|
||||
mi_assert(heap->thread_id == 0 || heap->thread_id == _mi_thread_id()); // heaps are thread local
|
||||
void* p;
|
||||
if (mi_likely(size <= MI_SMALL_SIZE_MAX)) {
|
||||
p = mi_heap_malloc_small(heap, size);
|
||||
}
|
||||
else {
|
||||
p = _mi_malloc_generic(heap, size);
|
||||
}
|
||||
#if MI_STAT>1
|
||||
if (p != NULL) {
|
||||
if (!mi_heap_is_initialized(heap)) { heap = mi_get_default_heap(); }
|
||||
mi_heap_stat_increase( heap, malloc, mi_good_size(size) ); // overestimate for aligned sizes
|
||||
}
|
||||
#endif
|
||||
return p;
|
||||
}
|
||||
|
||||
extern inline void* mi_malloc(size_t size) mi_attr_noexcept {
|
||||
return mi_heap_malloc(mi_get_default_heap(), size);
|
||||
}
|
||||
|
||||
void* _mi_heap_malloc_zero(mi_heap_t* heap, size_t size, bool zero) {
|
||||
void* p = mi_heap_malloc(heap,size);
|
||||
if (zero && p != NULL) memset(p,0,size);
|
||||
return p;
|
||||
}
|
||||
|
||||
extern inline void* mi_heap_zalloc(mi_heap_t* heap, size_t size) mi_attr_noexcept {
|
||||
return _mi_heap_malloc_zero(heap, size, true);
|
||||
}
|
||||
|
||||
void* mi_zalloc(size_t size) mi_attr_noexcept {
|
||||
return mi_heap_zalloc(mi_get_default_heap(),size);
|
||||
}
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Free
|
||||
// ------------------------------------------------------
|
||||
|
||||
// multi-threaded free
|
||||
static mi_decl_noinline void _mi_free_block_mt(mi_page_t* page, mi_block_t* block)
|
||||
{
|
||||
mi_thread_free_t tfree;
|
||||
mi_thread_free_t tfreex;
|
||||
bool use_delayed;
|
||||
|
||||
do {
|
||||
tfreex = tfree = page->thread_free;
|
||||
use_delayed = (tfree.delayed == MI_USE_DELAYED_FREE);
|
||||
if (mi_unlikely(use_delayed)) {
|
||||
// unlikely: this only happens on the first concurrent free in a page that is in the full list
|
||||
tfreex.delayed = MI_DELAYED_FREEING;
|
||||
}
|
||||
else {
|
||||
// usual: directly add to page thread_free list
|
||||
mi_block_set_next(page, block, (mi_block_t*)((uintptr_t)tfree.head << MI_TF_PTR_SHIFT));
|
||||
tfreex.head = (uintptr_t)block >> MI_TF_PTR_SHIFT;
|
||||
}
|
||||
} while (!mi_atomic_compare_exchange((volatile uintptr_t*)&page->thread_free, tfreex.value, tfree.value));
|
||||
|
||||
if (mi_likely(!use_delayed)) {
|
||||
// increment the thread free count and return
|
||||
mi_atomic_increment(&page->thread_freed);
|
||||
}
|
||||
else {
|
||||
// racy read on `heap`, but ok because MI_DELAYED_FREEING is set (see `mi_heap_delete` and `mi_heap_collect_abandon`)
|
||||
mi_heap_t* heap = page->heap;
|
||||
mi_assert_internal(heap != NULL);
|
||||
if (heap != NULL) {
|
||||
// add to the delayed free list of this heap. (do this atomically as the lock only protects heap memory validity)
|
||||
mi_block_t* dfree;
|
||||
do {
|
||||
dfree = (mi_block_t*)heap->thread_delayed_free;
|
||||
mi_block_set_nextx(heap->cookie,block,dfree);
|
||||
} while (!mi_atomic_compare_exchange_ptr((volatile void**)&heap->thread_delayed_free, block, dfree));
|
||||
}
|
||||
|
||||
// and reset the MI_DELAYED_FREEING flag
|
||||
do {
|
||||
tfreex = tfree = page->thread_free;
|
||||
tfreex.delayed = MI_NO_DELAYED_FREE;
|
||||
} while (!mi_atomic_compare_exchange((volatile uintptr_t*)&page->thread_free, tfreex.value, tfree.value));
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
// regular free
|
||||
static inline void _mi_free_block(mi_page_t* page, bool local, mi_block_t* block)
|
||||
{
|
||||
#if (MI_DEBUG)
|
||||
memset(block, MI_DEBUG_FREED, page->block_size);
|
||||
#endif
|
||||
|
||||
// and push it on the free list
|
||||
if (mi_likely(local)) {
|
||||
// owning thread can free a block directly
|
||||
mi_block_set_next(page, block, page->local_free);
|
||||
page->local_free = block;
|
||||
page->used--;
|
||||
if (mi_unlikely(mi_page_all_free(page))) {
|
||||
_mi_page_retire(page);
|
||||
}
|
||||
else if (mi_unlikely(page->flags.in_full)) {
|
||||
_mi_page_unfull(page);
|
||||
}
|
||||
}
|
||||
else {
|
||||
_mi_free_block_mt(page,block);
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
// Adjust a block that was allocated aligned, to the actual start of the block in the page.
|
||||
mi_block_t* _mi_page_ptr_unalign(const mi_segment_t* segment, const mi_page_t* page, void* p) {
|
||||
mi_assert_internal(page!=NULL && p!=NULL);
|
||||
size_t diff = (uint8_t*)p - _mi_page_start(segment, page, NULL);
|
||||
size_t adjust = (diff % page->block_size);
|
||||
return (mi_block_t*)((uintptr_t)p - adjust);
|
||||
}
|
||||
|
||||
|
||||
static void mi_decl_noinline mi_free_generic(const mi_segment_t* segment, mi_page_t* page, bool local, void* p) {
|
||||
mi_block_t* block = (page->flags.has_aligned ? _mi_page_ptr_unalign(segment, page, p) : (mi_block_t*)p);
|
||||
_mi_free_block(page, local, block);
|
||||
}
|
||||
|
||||
// Free a block
|
||||
void mi_free(void* p) mi_attr_noexcept
|
||||
{
|
||||
// optimize: merge null check with the segment masking (below)
|
||||
//if (p == NULL) return;
|
||||
|
||||
#if (MI_DEBUG>0)
|
||||
if (mi_unlikely(((uintptr_t)p & (MI_INTPTR_SIZE - 1)) != 0)) {
|
||||
_mi_error_message("trying to free an invalid (unaligned) pointer: %p\n", p);
|
||||
return;
|
||||
}
|
||||
#endif
|
||||
|
||||
const mi_segment_t* const segment = _mi_ptr_segment(p);
|
||||
if (segment == NULL) return; // checks for (p==NULL)
|
||||
bool local = (_mi_thread_id() == segment->thread_id); // preload, note: putting the thread_id in the page->flags does not improve performance
|
||||
|
||||
#if (MI_DEBUG>0)
|
||||
if (mi_unlikely(_mi_ptr_cookie(segment) != segment->cookie)) {
|
||||
_mi_error_message("trying to mi_free a pointer that does not point to a valid heap space: %p\n", p);
|
||||
return;
|
||||
}
|
||||
#endif
|
||||
|
||||
mi_page_t* page = _mi_segment_page_of(segment, p);
|
||||
|
||||
#if (MI_STAT>1)
|
||||
mi_heap_t* heap = mi_heap_get_default();
|
||||
mi_heap_stat_decrease( heap, malloc, mi_usable_size(p));
|
||||
if (page->block_size <= MI_LARGE_SIZE_MAX) {
|
||||
mi_heap_stat_decrease( heap, normal[_mi_bin(page->block_size)], 1);
|
||||
}
|
||||
// huge page stat is accounted for in `_mi_page_retire`
|
||||
#endif
|
||||
|
||||
// adjust if it might be an un-aligned block
|
||||
if (mi_likely(page->flags.value==0)) { // note: merging both tests (local | value) does not matter for performance
|
||||
mi_block_t* block = (mi_block_t*)p;
|
||||
if (mi_likely(local)) {
|
||||
// owning thread can free a block directly
|
||||
mi_block_set_next(page, block, page->local_free); // note: moving this write earlier does not matter for performance
|
||||
page->local_free = block;
|
||||
page->used--;
|
||||
if (mi_unlikely(mi_page_all_free(page))) { _mi_page_retire(page); }
|
||||
}
|
||||
else {
|
||||
// use atomic operations for a multi-threaded free
|
||||
_mi_free_block_mt(page, block);
|
||||
}
|
||||
}
|
||||
else {
|
||||
// aligned blocks, or a full page; use the more generic path
|
||||
mi_free_generic(segment, page, local, p);
|
||||
}
|
||||
}
|
||||
|
||||
void _mi_free_delayed_block(mi_block_t* block) {
|
||||
mi_assert_internal(block != NULL);
|
||||
const mi_segment_t* segment = _mi_ptr_segment(block);
|
||||
mi_assert_internal(_mi_ptr_cookie(segment) == segment->cookie);
|
||||
mi_assert_internal(_mi_thread_id() == segment->thread_id);
|
||||
mi_page_t* page = _mi_segment_page_of(segment,block);
|
||||
_mi_free_block(page,true,block);
|
||||
}
|
||||
|
||||
// Bytes available in a block
|
||||
size_t mi_usable_size(void* p) mi_attr_noexcept {
|
||||
if (p==NULL) return 0;
|
||||
const mi_segment_t* segment = _mi_ptr_segment(p);
|
||||
const mi_page_t* page = _mi_segment_page_of(segment,p);
|
||||
size_t size = page->block_size;
|
||||
if (mi_unlikely(page->flags.has_aligned)) {
|
||||
ptrdiff_t adjust = (uint8_t*)p - (uint8_t*)_mi_page_ptr_unalign(segment,page,p);
|
||||
mi_assert_internal(adjust >= 0 && (size_t)adjust <= size);
|
||||
return (size - adjust);
|
||||
}
|
||||
else {
|
||||
return size;
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// ensure explicit external inline definitions are emitted!
|
||||
// ------------------------------------------------------
|
||||
|
||||
#ifdef __cplusplus
|
||||
void* _mi_externs[] = {
|
||||
(void*)&_mi_page_malloc,
|
||||
(void*)&mi_malloc_small,
|
||||
(void*)&mi_malloc,
|
||||
};
|
||||
|
||||
|
||||
#endif
|
||||
|
||||
|
||||
// ------------------------------------------------------
|
||||
// Allocation extensions
|
||||
// ------------------------------------------------------
|
||||
|
||||
extern inline void* mi_heap_calloc(mi_heap_t* heap, size_t count, size_t size) mi_attr_noexcept {
|
||||
size_t total;
|
||||
if (mi_mul_overflow(count,size,&total)) return NULL;
|
||||
return mi_heap_zalloc(heap,total);
|
||||
}
|
||||
|
||||
void* mi_calloc(size_t count, size_t size) mi_attr_noexcept {
|
||||
return mi_heap_calloc(mi_get_default_heap(),count,size);
|
||||
}
|
||||
|
||||
// Uninitialized `calloc`
|
||||
extern void* mi_heap_mallocn(mi_heap_t* heap, size_t count, size_t size) mi_attr_noexcept {
|
||||
size_t total;
|
||||
if (mi_mul_overflow(count,size,&total)) return NULL;
|
||||
return mi_heap_malloc(heap, total);
|
||||
}
|
||||
|
||||
void* mi_mallocn(size_t count, size_t size) mi_attr_noexcept {
|
||||
return mi_heap_mallocn(mi_get_default_heap(),count,size);
|
||||
}
|
||||
|
||||
// Expand in place or fail
|
||||
void* mi_expand(void* p, size_t newsize) mi_attr_noexcept {
|
||||
if (p == NULL) return NULL;
|
||||
size_t size = mi_usable_size(p);
|
||||
if (newsize > size) return NULL;
|
||||
return p; // it fits
|
||||
}
|
||||
|
||||
void* _mi_realloc_zero(void* p, size_t newsize, bool zero) {
|
||||
if (p == NULL) return _mi_heap_malloc_zero(mi_get_default_heap(),newsize,zero);
|
||||
size_t size = mi_usable_size(p);
|
||||
if (newsize <= size && newsize >= (size / 2)) {
|
||||
return p; // reallocation still fits and not more than 50% waste
|
||||
}
|
||||
void* newp = mi_malloc(newsize); // maybe in another heap
|
||||
if (mi_likely(newp != NULL)) {
|
||||
if (zero && newsize > size) {
|
||||
// also set last word in the previous allocation to zero to ensure any padding is zero-initialized
|
||||
size_t start = (size >= sizeof(intptr_t) ? size - sizeof(intptr_t) : 0);
|
||||
memset((uint8_t*)newp + start, 0, newsize - start);
|
||||
}
|
||||
memcpy(newp, p, (newsize > size ? size : newsize));
|
||||
mi_free(p); // only free if succesfull
|
||||
}
|
||||
return newp;
|
||||
}
|
||||
|
||||
void* mi_realloc(void* p, size_t newsize) mi_attr_noexcept {
|
||||
return _mi_realloc_zero(p,newsize,false);
|
||||
}
|
||||
|
||||
// Zero initialized reallocation
|
||||
void* mi_rezalloc(void* p, size_t newsize) mi_attr_noexcept {
|
||||
return _mi_realloc_zero(p,newsize,true);
|
||||
}
|
||||
|
||||
void* mi_recalloc(void* p, size_t count, size_t size) mi_attr_noexcept {
|
||||
size_t total;
|
||||
if (mi_mul_overflow(count,size,&total)) return NULL;
|
||||
return mi_rezalloc(p,total);
|
||||
}
|
||||
|
||||
void* mi_reallocn(void* p, size_t count, size_t size) mi_attr_noexcept {
|
||||
size_t total;
|
||||
if (mi_mul_overflow(count,size,&total)) return NULL;
|
||||
return mi_realloc(p,total);
|
||||
}
|
||||
|
||||
// Reallocate but free `p` on errors
|
||||
void* mi_reallocf(void* p, size_t newsize) mi_attr_noexcept {
|
||||
void* newp = mi_realloc(p,newsize);
|
||||
if (newp==NULL && p!=NULL) mi_free(p);
|
||||
return newp;
|
||||
}
|
||||
|
||||
// `strdup` using mi_malloc
|
||||
char* mi_heap_strdup(mi_heap_t* heap, const char* s) mi_attr_noexcept {
|
||||
if (s == NULL) return NULL;
|
||||
size_t n = strlen(s);
|
||||
char* t = (char*)mi_heap_malloc(heap,n+1);
|
||||
if (t != NULL) memcpy(t, s, n + 1);
|
||||
return t;
|
||||
}
|
||||
|
||||
char* mi_strdup(const char* s) mi_attr_noexcept {
|
||||
return mi_heap_strdup(mi_get_default_heap(), s);
|
||||
}
|
||||
|
||||
// `strndup` using mi_malloc
|
||||
char* mi_heap_strndup(mi_heap_t* heap, const char* s, size_t n) mi_attr_noexcept {
|
||||
if (s == NULL) return NULL;
|
||||
size_t m = strlen(s);
|
||||
if (n > m) n = m;
|
||||
char* t = (char*)mi_heap_malloc(heap, n+1);
|
||||
if (t == NULL) return NULL;
|
||||
memcpy(t, s, n);
|
||||
t[n] = 0;
|
||||
return t;
|
||||
}
|
||||
|
||||
char* mi_strndup(const char* s, size_t n) mi_attr_noexcept {
|
||||
return mi_heap_strndup(mi_get_default_heap(),s,n);
|
||||
}
|
||||
|
||||
// `realpath` using mi_malloc
|
||||
#ifdef _WIN32
|
||||
#ifndef PATH_MAX
|
||||
#define PATH_MAX MAX_PATH
|
||||
#endif
|
||||
#include <windows.h>
|
||||
char* mi_heap_realpath(mi_heap_t* heap, const char* fname, char* resolved_name) mi_attr_noexcept {
|
||||
// todo: use GetFullPathNameW to allow longer file names
|
||||
char buf[PATH_MAX];
|
||||
DWORD res = GetFullPathNameA(fname, PATH_MAX, (resolved_name == NULL ? buf : resolved_name), NULL);
|
||||
if (res == 0) {
|
||||
errno = GetLastError(); return NULL;
|
||||
}
|
||||
else if (res > PATH_MAX) {
|
||||
errno = EINVAL; return NULL;
|
||||
}
|
||||
else if (resolved_name != NULL) {
|
||||
return resolved_name;
|
||||
}
|
||||
else {
|
||||
return mi_heap_strndup(heap, buf, PATH_MAX);
|
||||
}
|
||||
}
|
||||
#else
|
||||
#include <limits.h>
|
||||
#ifndef PATH_MAX
|
||||
#define PATH_MAX 260
|
||||
#endif
|
||||
|
||||
char* mi_heap_realpath(mi_heap_t* heap, const char* fname, char* resolved_name) mi_attr_noexcept {
|
||||
if (resolved_name != NULL) {
|
||||
return realpath(fname,resolved_name);
|
||||
}
|
||||
else {
|
||||
char buf[PATH_MAX+1];
|
||||
char* rname = realpath(fname,buf);
|
||||
return mi_heap_strndup(heap,rname,PATH_MAX); // ok if `rname==NULL`
|
||||
}
|
||||
}
|
||||
#endif
|
||||
|
||||
char* mi_realpath(const char* fname, char* resolved_name) mi_attr_noexcept {
|
||||
return mi_heap_realpath(mi_get_default_heap(),fname,resolved_name);
|
||||
}
|
506
src/heap.c
Normal file
506
src/heap.c
Normal file
@ -0,0 +1,506 @@
|
||||
/*----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
#include "mimalloc-atomic.h"
|
||||
|
||||
#include <string.h> // memset, memcpy
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Helpers
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// return `true` if ok, `false` to break
|
||||
typedef bool (heap_page_visitor_fun)(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_t* page, void* arg1, void* arg2);
|
||||
|
||||
// Visit all pages in a heap; returns `false` if break was called.
|
||||
static bool mi_heap_visit_pages(mi_heap_t* heap, heap_page_visitor_fun* fn, void* arg1, void* arg2)
|
||||
{
|
||||
if (heap==NULL || heap->page_count==0) return 0;
|
||||
|
||||
// visit all pages
|
||||
#if MI_DEBUG>1
|
||||
size_t total = heap->page_count;
|
||||
#endif
|
||||
size_t count = 0;
|
||||
for (size_t i = 0; i <= MI_BIN_FULL; i++) {
|
||||
mi_page_queue_t* pq = &heap->pages[i];
|
||||
mi_page_t* page = pq->first;
|
||||
while(page != NULL) {
|
||||
mi_page_t* next = page->next; // save next in case the page gets removed from the queue
|
||||
mi_assert_internal(page->heap == heap);
|
||||
count++;
|
||||
if (!fn(heap, pq, page, arg1, arg2)) return false;
|
||||
page = next; // and continue
|
||||
}
|
||||
}
|
||||
mi_assert_internal(count == total);
|
||||
return true;
|
||||
}
|
||||
|
||||
|
||||
#if MI_DEBUG>1
|
||||
static bool _mi_heap_page_is_valid(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_t* page, void* arg1, void* arg2) {
|
||||
UNUSED(arg1);
|
||||
UNUSED(arg2);
|
||||
UNUSED(pq);
|
||||
mi_assert_internal(page->heap == heap);
|
||||
mi_segment_t* segment = _mi_page_segment(page);
|
||||
mi_assert_internal(segment->thread_id == heap->thread_id);
|
||||
mi_assert_expensive(_mi_page_is_valid(page));
|
||||
return true;
|
||||
}
|
||||
|
||||
static bool mi_heap_is_valid(mi_heap_t* heap) {
|
||||
mi_assert_internal(heap!=NULL);
|
||||
mi_heap_visit_pages(heap, &_mi_heap_page_is_valid, NULL, NULL);
|
||||
return true;
|
||||
}
|
||||
#endif
|
||||
|
||||
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
"Collect" pages by migrating `local_free` and `thread_free`
|
||||
lists and freeing empty pages. This is done when a thread
|
||||
stops (and in that case abandons pages if there are still
|
||||
blocks alive)
|
||||
----------------------------------------------------------- */
|
||||
|
||||
typedef enum mi_collect_e {
|
||||
NORMAL,
|
||||
FORCE,
|
||||
ABANDON
|
||||
} mi_collect_t;
|
||||
|
||||
|
||||
static bool mi_heap_page_collect(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_t* page, void* arg_collect, void* arg2 ) {
|
||||
UNUSED(arg2);
|
||||
UNUSED(heap);
|
||||
mi_collect_t collect = (mi_collect_t)arg_collect;
|
||||
_mi_page_free_collect(page);
|
||||
if (mi_page_all_free(page)) {
|
||||
// no more used blocks, free the page. TODO: should we retire here and be less aggressive?
|
||||
_mi_page_free(page, pq, collect != NORMAL);
|
||||
}
|
||||
else if (collect == ABANDON) {
|
||||
// still used blocks but the thread is done; abandon the page
|
||||
_mi_page_abandon(page, pq);
|
||||
}
|
||||
return true; // don't break
|
||||
}
|
||||
|
||||
|
||||
static void mi_heap_collect_ex(mi_heap_t* heap, mi_collect_t collect)
|
||||
{
|
||||
_mi_deferred_free(heap,collect > NORMAL);
|
||||
if (!mi_heap_is_initialized(heap)) return;
|
||||
|
||||
|
||||
// collect (some) abandoned pages
|
||||
if (collect >= NORMAL && !heap->no_reclaim) {
|
||||
if (collect == NORMAL) {
|
||||
// this may free some segments (but also take ownership of abandoned pages)
|
||||
_mi_segment_try_reclaim_abandoned(heap, false, &heap->tld->segments);
|
||||
}
|
||||
#if MI_DEBUG
|
||||
else if (collect == ABANDON && _mi_is_main_thread() && mi_heap_is_backing(heap)) {
|
||||
// the main thread is abandoned, try to free all abandoned segments.
|
||||
// if all memory is freed by now, all segments should be freed.
|
||||
_mi_segment_try_reclaim_abandoned(heap, true, &heap->tld->segments);
|
||||
}
|
||||
#endif
|
||||
}
|
||||
|
||||
// if abandoning, mark all full pages to no longer add to delayed_free
|
||||
if (collect == ABANDON) {
|
||||
for (mi_page_t* page = heap->pages[MI_BIN_FULL].first; page != NULL; page = page->next) {
|
||||
_mi_page_use_delayed_free(page, false); // set thread_free.delayed to MI_NO_DELAYED_FREE
|
||||
}
|
||||
}
|
||||
|
||||
// free thread delayed blocks.
|
||||
// (if abandoning, after this there are no more local references into the pages.)
|
||||
_mi_heap_delayed_free(heap);
|
||||
|
||||
// collect all pages owned by this thread
|
||||
mi_heap_visit_pages(heap, &mi_heap_page_collect, (void*)(collect), NULL);
|
||||
mi_assert_internal( collect != ABANDON || heap->thread_delayed_free == NULL );
|
||||
|
||||
// collect segment caches
|
||||
if (collect >= FORCE) {
|
||||
_mi_segment_thread_collect(&heap->tld->segments);
|
||||
}
|
||||
}
|
||||
|
||||
void _mi_heap_collect_abandon(mi_heap_t* heap) {
|
||||
mi_heap_collect_ex(heap, ABANDON);
|
||||
}
|
||||
|
||||
void mi_heap_collect(mi_heap_t* heap, bool force) mi_attr_noexcept {
|
||||
mi_heap_collect_ex(heap, (force ? FORCE : NORMAL));
|
||||
}
|
||||
|
||||
void mi_collect(bool force) mi_attr_noexcept {
|
||||
mi_heap_collect(mi_get_default_heap(), force);
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Heap new
|
||||
----------------------------------------------------------- */
|
||||
|
||||
mi_heap_t* mi_heap_get_default() {
|
||||
mi_thread_init();
|
||||
return mi_get_default_heap();
|
||||
}
|
||||
|
||||
mi_heap_t* mi_heap_get_backing() {
|
||||
mi_heap_t* heap = mi_heap_get_default();
|
||||
mi_assert_internal(heap!=NULL);
|
||||
mi_heap_t* bheap = heap->tld->heap_backing;
|
||||
mi_assert_internal(bheap!=NULL);
|
||||
mi_assert_internal(bheap->thread_id == _mi_thread_id());
|
||||
return bheap;
|
||||
}
|
||||
|
||||
uintptr_t _mi_heap_random(mi_heap_t* heap) {
|
||||
uintptr_t r = heap->random;
|
||||
heap->random = _mi_random_shuffle(r);
|
||||
return r;
|
||||
}
|
||||
|
||||
mi_heap_t* mi_heap_new() {
|
||||
mi_heap_t* bheap = mi_heap_get_backing();
|
||||
mi_heap_t* heap = mi_heap_malloc_tp(bheap, mi_heap_t);
|
||||
if (heap==NULL) return NULL;
|
||||
memcpy(heap, &_mi_heap_empty, sizeof(mi_heap_t));
|
||||
heap->tld = bheap->tld;
|
||||
heap->thread_id = _mi_thread_id();
|
||||
heap->cookie = ((uintptr_t)heap ^ _mi_heap_random(bheap)) | 1;
|
||||
heap->random = _mi_heap_random(bheap);
|
||||
heap->no_reclaim = true; // don't reclaim abandoned pages or otherwise destroy is unsafe
|
||||
return heap;
|
||||
}
|
||||
|
||||
// zero out the page queues
|
||||
static void mi_heap_reset_pages(mi_heap_t* heap) {
|
||||
mi_assert_internal(mi_heap_is_initialized(heap));
|
||||
// TODO: copy full empty heap instead?
|
||||
memset(&heap->pages_free_direct, 0, sizeof(heap->pages_free_direct));
|
||||
#ifdef MI_MEDIUM_DIRECT
|
||||
memset(&heap->pages_free_medium, 0, sizeof(heap->pages_free_medium));
|
||||
#endif
|
||||
memcpy(&heap->pages, &_mi_heap_empty.pages, sizeof(heap->pages));
|
||||
heap->thread_delayed_free = NULL;
|
||||
heap->page_count = 0;
|
||||
}
|
||||
|
||||
// called from `mi_heap_destroy` and `mi_heap_delete` to free the internal heap resources.
|
||||
static void mi_heap_free(mi_heap_t* heap) {
|
||||
mi_assert_internal(mi_heap_is_initialized(heap));
|
||||
if (mi_heap_is_backing(heap)) return; // dont free the backing heap
|
||||
|
||||
// reset default
|
||||
if (mi_heap_is_default(heap)) {
|
||||
_mi_heap_default = heap->tld->heap_backing;
|
||||
}
|
||||
// and free the used memory
|
||||
mi_free(heap);
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Heap destroy
|
||||
----------------------------------------------------------- */
|
||||
|
||||
static bool _mi_heap_page_destroy(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_t* page, void* arg1, void* arg2) {
|
||||
UNUSED(arg1);
|
||||
UNUSED(arg2);
|
||||
UNUSED(heap);
|
||||
UNUSED(pq);
|
||||
|
||||
// ensure no more thread_delayed_free will be added
|
||||
_mi_page_use_delayed_free(page, false);
|
||||
|
||||
// stats
|
||||
if (page->block_size > MI_LARGE_SIZE_MAX) {
|
||||
mi_heap_stat_decrease(heap,huge,page->block_size);
|
||||
}
|
||||
#if (MI_STAT>1)
|
||||
size_t inuse = page->used - page->thread_freed;
|
||||
if (page->block_size <= MI_LARGE_SIZE_MAX) {
|
||||
mi_heap_stat_decrease(heap,normal[_mi_bin(page->block_size)], inuse);
|
||||
}
|
||||
mi_heap_stat_decrease(heap,malloc, page->block_size * inuse); // todo: off for aligned blocks...
|
||||
#endif
|
||||
|
||||
// pretend it is all free now
|
||||
mi_assert_internal(page->thread_freed<=0xFFFF);
|
||||
page->used = (uint16_t)page->thread_freed;
|
||||
|
||||
// and free the page
|
||||
_mi_segment_page_free(page,false /* no force? */, &heap->tld->segments);
|
||||
|
||||
return true; // keep going
|
||||
}
|
||||
|
||||
void _mi_heap_destroy_pages(mi_heap_t* heap) {
|
||||
mi_heap_visit_pages(heap, &_mi_heap_page_destroy, NULL, NULL);
|
||||
mi_heap_reset_pages(heap);
|
||||
}
|
||||
|
||||
void mi_heap_destroy(mi_heap_t* heap) {
|
||||
mi_assert(mi_heap_is_initialized(heap));
|
||||
mi_assert(heap->no_reclaim);
|
||||
mi_assert_expensive(mi_heap_is_valid(heap));
|
||||
if (!mi_heap_is_initialized(heap)) return;
|
||||
if (!heap->no_reclaim) {
|
||||
// don't free in case it may contain reclaimed pages
|
||||
mi_heap_delete(heap);
|
||||
}
|
||||
else {
|
||||
// free all pages
|
||||
_mi_heap_destroy_pages(heap);
|
||||
mi_heap_free(heap);
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Safe Heap delete
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// Tranfer the pages from one heap to the other
|
||||
static void mi_heap_absorb(mi_heap_t* heap, mi_heap_t* from) {
|
||||
mi_assert_internal(heap!=NULL);
|
||||
if (from==NULL || from->page_count == 0) return;
|
||||
|
||||
// unfull all full pages
|
||||
mi_page_t* page = heap->pages[MI_BIN_FULL].first;
|
||||
while (page != NULL) {
|
||||
mi_page_t* next = page->next;
|
||||
_mi_page_unfull(page);
|
||||
page = next;
|
||||
}
|
||||
mi_assert_internal(heap->pages[MI_BIN_FULL].first == NULL);
|
||||
|
||||
// free outstanding thread delayed free blocks
|
||||
_mi_heap_delayed_free(from);
|
||||
|
||||
// transfer all pages by appending the queues; this will set
|
||||
// a new heap field which is ok as all pages are unfull'd and thus
|
||||
// other threads won't access this field anymore (see `mi_free_block_mt`)
|
||||
for (size_t i = 0; i < MI_BIN_FULL; i++) {
|
||||
mi_page_queue_t* pq = &heap->pages[i];
|
||||
mi_page_queue_t* append = &from->pages[i];
|
||||
_mi_page_queue_append(heap, pq, append);
|
||||
}
|
||||
mi_assert_internal(from->thread_delayed_free == NULL);
|
||||
|
||||
// and reset the `from` heap
|
||||
mi_heap_reset_pages(from);
|
||||
}
|
||||
|
||||
// Safe delete a heap without freeing any still allocated blocks in that heap.
|
||||
void mi_heap_delete(mi_heap_t* heap)
|
||||
{
|
||||
mi_assert(mi_heap_is_initialized(heap));
|
||||
mi_assert_expensive(mi_heap_is_valid(heap));
|
||||
if (!mi_heap_is_initialized(heap)) return;
|
||||
|
||||
if (!mi_heap_is_backing(heap)) {
|
||||
// tranfer still used pages to the backing heap
|
||||
mi_heap_absorb(heap->tld->heap_backing, heap);
|
||||
}
|
||||
else {
|
||||
// the backing heap abandons its pages
|
||||
_mi_heap_collect_abandon(heap);
|
||||
}
|
||||
mi_assert_internal(heap->page_count==0);
|
||||
mi_heap_free(heap);
|
||||
}
|
||||
|
||||
mi_heap_t* mi_heap_set_default(mi_heap_t* heap) {
|
||||
mi_assert(mi_heap_is_initialized(heap));
|
||||
if (!mi_heap_is_initialized(heap)) return NULL;
|
||||
mi_assert_expensive(mi_heap_is_valid(heap));
|
||||
mi_heap_t* old = _mi_heap_default;
|
||||
_mi_heap_default = heap;
|
||||
return old;
|
||||
}
|
||||
|
||||
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Analysis
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// static since it is not thread safe to access heaps from other threads.
|
||||
static mi_heap_t* mi_heap_of_block(const void* p) {
|
||||
if (p == NULL) return NULL;
|
||||
mi_segment_t* segment = _mi_ptr_segment(p);
|
||||
bool valid = (_mi_ptr_cookie(segment) == segment->cookie);
|
||||
mi_assert_internal(valid);
|
||||
if (mi_unlikely(!valid)) return NULL;
|
||||
return _mi_segment_page_of(segment,p)->heap;
|
||||
}
|
||||
|
||||
bool mi_heap_contains_block(mi_heap_t* heap, const void* p) {
|
||||
mi_assert(heap != NULL);
|
||||
if (!mi_heap_is_initialized(heap)) return false;
|
||||
return (heap == mi_heap_of_block(p));
|
||||
}
|
||||
|
||||
|
||||
static bool mi_heap_page_check_owned(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_t* page, void* p, void* vfound) {
|
||||
UNUSED(heap);
|
||||
UNUSED(pq);
|
||||
bool* found = (bool*)vfound;
|
||||
mi_segment_t* segment = _mi_page_segment(page);
|
||||
void* start = _mi_page_start(segment, page, NULL);
|
||||
void* end = (uint8_t*)start + (page->capacity * page->block_size);
|
||||
*found = (p >= start && p < end);
|
||||
return (!*found); // continue if not found
|
||||
}
|
||||
|
||||
bool mi_heap_check_owned(mi_heap_t* heap, const void* p) {
|
||||
mi_assert(heap != NULL);
|
||||
if (!mi_heap_is_initialized(heap)) return false;
|
||||
if (((uintptr_t)p & (MI_INTPTR_SIZE - 1)) != 0) return false; // only aligned pointers
|
||||
bool found = false;
|
||||
mi_heap_visit_pages(heap, &mi_heap_page_check_owned, (void*)p, &found);
|
||||
return found;
|
||||
}
|
||||
|
||||
bool mi_check_owned(const void* p) {
|
||||
return mi_heap_check_owned(mi_get_default_heap(), p);
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Visit all heap blocks and areas
|
||||
Todo: enable visiting abandoned pages, and
|
||||
enable visiting all blocks of all heaps across threads
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// Separate struct to keep `mi_page_t` out of the public interface
|
||||
typedef struct mi_heap_area_ex_s {
|
||||
mi_heap_area_t area;
|
||||
mi_page_t* page;
|
||||
} mi_heap_area_ex_t;
|
||||
|
||||
static bool mi_heap_area_visit_blocks(const mi_heap_area_ex_t* xarea, mi_block_visit_fun* visitor, void* arg) {
|
||||
mi_assert(xarea != NULL);
|
||||
if (xarea==NULL) return true;
|
||||
const mi_heap_area_t* area = &xarea->area;
|
||||
mi_page_t* page = xarea->page;
|
||||
mi_assert(page != NULL);
|
||||
if (page == NULL) return true;
|
||||
|
||||
_mi_page_free_collect(page);
|
||||
mi_assert_internal(page->local_free == NULL);
|
||||
if (page->used == 0) return true;
|
||||
|
||||
size_t psize;
|
||||
uint8_t* pstart = _mi_page_start(_mi_page_segment(page), page, &psize);
|
||||
|
||||
if (page->capacity == 1) {
|
||||
// optimize page with one block
|
||||
mi_assert_internal(page->used == 1 && page->free == NULL);
|
||||
return visitor(page->heap, area, pstart, page->block_size, arg);
|
||||
}
|
||||
|
||||
// create a bitmap of free blocks.
|
||||
#define MI_MAX_BLOCKS (MI_SMALL_PAGE_SIZE / sizeof(void*))
|
||||
uintptr_t free_map[MI_MAX_BLOCKS / sizeof(uintptr_t)];
|
||||
memset(free_map, 0, sizeof(free_map));
|
||||
|
||||
size_t free_count = 0;
|
||||
for (mi_block_t* block = page->free; block != NULL; block = mi_block_next(page,block)) {
|
||||
free_count++;
|
||||
mi_assert_internal((uint8_t*)block >= pstart && (uint8_t*)block < (pstart + psize));
|
||||
size_t offset = (uint8_t*)block - pstart;
|
||||
mi_assert_internal(offset % page->block_size == 0);
|
||||
size_t blockidx = offset / page->block_size; // Todo: avoid division?
|
||||
mi_assert_internal( blockidx < MI_MAX_BLOCKS);
|
||||
size_t bitidx = (blockidx / sizeof(uintptr_t));
|
||||
size_t bit = blockidx - (bitidx * sizeof(uintptr_t));
|
||||
free_map[bitidx] |= ((uintptr_t)1 << bit);
|
||||
}
|
||||
mi_assert_internal(page->capacity == (free_count + page->used));
|
||||
|
||||
// walk through all blocks skipping the free ones
|
||||
size_t used_count = 0;
|
||||
for (size_t i = 0; i < page->capacity; i++) {
|
||||
size_t bitidx = (i / sizeof(uintptr_t));
|
||||
size_t bit = i - (bitidx * sizeof(uintptr_t));
|
||||
uintptr_t m = free_map[bitidx];
|
||||
if (bit == 0 && m == UINTPTR_MAX) {
|
||||
i += (sizeof(uintptr_t) - 1); // skip a run of free blocks
|
||||
}
|
||||
else if ((m & ((uintptr_t)1 << bit)) == 0) {
|
||||
used_count++;
|
||||
uint8_t* block = pstart + (i * page->block_size);
|
||||
if (!visitor(page->heap, area, block, page->block_size, arg)) return false;
|
||||
}
|
||||
}
|
||||
mi_assert_internal(page->used == used_count);
|
||||
return true;
|
||||
}
|
||||
|
||||
typedef bool (mi_heap_area_visit_fun)(const mi_heap_t* heap, const mi_heap_area_ex_t* area, void* arg);
|
||||
|
||||
|
||||
static bool mi_heap_visit_areas_page(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_t* page, void* vfun, void* arg) {
|
||||
UNUSED(heap);
|
||||
UNUSED(pq);
|
||||
mi_heap_area_visit_fun* fun = (mi_heap_area_visit_fun*)vfun;
|
||||
mi_heap_area_ex_t xarea;
|
||||
xarea.page = page;
|
||||
xarea.area.reserved = page->reserved * page->block_size;
|
||||
xarea.area.committed = page->capacity * page->block_size;
|
||||
xarea.area.blocks = _mi_page_start(_mi_page_segment(page), page, NULL);
|
||||
xarea.area.used = page->used - page->thread_freed; // race is ok
|
||||
xarea.area.block_size = page->block_size;
|
||||
return fun(heap, &xarea, arg);
|
||||
}
|
||||
|
||||
// Visit all heap pages as areas
|
||||
static bool mi_heap_visit_areas(const mi_heap_t* heap, mi_heap_area_visit_fun* visitor, void* arg) {
|
||||
if (visitor == NULL) return false;
|
||||
return mi_heap_visit_pages((mi_heap_t*)heap, &mi_heap_visit_areas_page, visitor, arg);
|
||||
}
|
||||
|
||||
// Just to pass arguments
|
||||
typedef struct mi_visit_blocks_args_s {
|
||||
bool visit_blocks;
|
||||
mi_block_visit_fun* visitor;
|
||||
void* arg;
|
||||
} mi_visit_blocks_args_t;
|
||||
|
||||
static bool mi_heap_area_visitor(const mi_heap_t* heap, const mi_heap_area_ex_t* xarea, void* arg) {
|
||||
mi_visit_blocks_args_t* args = (mi_visit_blocks_args_t*)arg;
|
||||
if (!args->visitor(heap, &xarea->area, NULL, xarea->area.block_size, arg)) return false;
|
||||
if (args->visit_blocks) {
|
||||
return mi_heap_area_visit_blocks(xarea, args->visitor, args->arg);
|
||||
}
|
||||
else {
|
||||
return true;
|
||||
}
|
||||
}
|
||||
|
||||
// Visit all blocks in a heap
|
||||
bool mi_heap_visit_blocks(const mi_heap_t* heap, bool visit_blocks, mi_block_visit_fun* visitor, void* arg) {
|
||||
mi_visit_blocks_args_t args = { visit_blocks, visitor, arg };
|
||||
return mi_heap_visit_areas(heap, &mi_heap_area_visitor, &args);
|
||||
}
|
||||
|
434
src/init.c
Normal file
434
src/init.c
Normal file
@ -0,0 +1,434 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
|
||||
#include <string.h> // memcpy
|
||||
|
||||
// Empty page used to initialize the small free pages array
|
||||
const mi_page_t _mi_page_empty = {
|
||||
0, false, false, {0},
|
||||
0, 0,
|
||||
NULL, 0, 0, // free, used, cookie
|
||||
NULL, 0, {0},
|
||||
0, NULL, NULL, NULL
|
||||
#if (MI_INTPTR_SIZE==4)
|
||||
, { NULL }
|
||||
#endif
|
||||
};
|
||||
|
||||
#define MI_PAGE_EMPTY() ((mi_page_t*)&_mi_page_empty)
|
||||
#define MI_SMALL_PAGES_EMPTY \
|
||||
{ MI_INIT128(MI_PAGE_EMPTY), MI_PAGE_EMPTY(), MI_PAGE_EMPTY() }
|
||||
|
||||
|
||||
// Empty page queues for every bin
|
||||
#define QNULL(sz) { NULL, NULL, (sz)*sizeof(uintptr_t) }
|
||||
#define MI_PAGE_QUEUES_EMPTY \
|
||||
{ QNULL(1), \
|
||||
QNULL(1), QNULL(2), QNULL(3), QNULL(4), QNULL(5), QNULL(6), QNULL(7), QNULL(8), \
|
||||
QNULL(10), QNULL(12), QNULL(14), QNULL(16), QNULL(20), QNULL(24), QNULL(28), QNULL(32), \
|
||||
QNULL(40), QNULL(48), QNULL(56), QNULL(64), QNULL(80), QNULL(96), QNULL(112), QNULL(128), \
|
||||
QNULL(160), QNULL(192), QNULL(224), QNULL(256), QNULL(320), QNULL(384), QNULL(448), QNULL(512), \
|
||||
QNULL(640), QNULL(768), QNULL(896), QNULL(1024), QNULL(1280), QNULL(1536), QNULL(1792), QNULL(2048), \
|
||||
QNULL(2560), QNULL(3072), QNULL(3584), QNULL(4096), QNULL(5120), QNULL(6144), QNULL(7168), QNULL(8192), \
|
||||
QNULL(10240), QNULL(12288), QNULL(14336), QNULL(16384), QNULL(20480), QNULL(24576), QNULL(28672), QNULL(32768), \
|
||||
QNULL(40960), QNULL(49152), QNULL(57344), QNULL(65536), QNULL(81920), QNULL(98304), QNULL(114688), \
|
||||
QNULL(MI_LARGE_WSIZE_MAX + 1 /*131072, Huge queue */), \
|
||||
QNULL(MI_LARGE_WSIZE_MAX + 2) /* Full queue */ }
|
||||
|
||||
#define MI_STAT_COUNT_NULL() {0,0,0,0}
|
||||
|
||||
// Empty statistics
|
||||
#if MI_STAT>1
|
||||
#define MI_STAT_COUNT_END_NULL() , { MI_STAT_COUNT_NULL(), MI_INIT64(MI_STAT_COUNT_NULL) }
|
||||
#else
|
||||
#define MI_STAT_COUNT_END_NULL()
|
||||
#endif
|
||||
|
||||
#define MI_STATS_NULL \
|
||||
MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
|
||||
MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
|
||||
MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
|
||||
MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
|
||||
MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
|
||||
MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
|
||||
MI_STAT_COUNT_NULL(), MI_STAT_COUNT_NULL(), \
|
||||
{ 0, 0 } \
|
||||
MI_STAT_COUNT_END_NULL()
|
||||
|
||||
// --------------------------------------------------------
|
||||
// Statically allocate an empty heap as the initial
|
||||
// thread local value for the default heap,
|
||||
// and statically allocate the backing heap for the main
|
||||
// thread so it can function without doing any allocation
|
||||
// itself (as accessing a thread local for the first time
|
||||
// may lead to allocation itself on some platforms)
|
||||
// --------------------------------------------------------
|
||||
|
||||
const mi_heap_t _mi_heap_empty = {
|
||||
NULL,
|
||||
MI_SMALL_PAGES_EMPTY,
|
||||
MI_PAGE_QUEUES_EMPTY,
|
||||
NULL,
|
||||
0,
|
||||
0,
|
||||
0,
|
||||
0,
|
||||
false
|
||||
};
|
||||
|
||||
mi_decl_thread mi_heap_t* _mi_heap_default = (mi_heap_t*)&_mi_heap_empty;
|
||||
|
||||
|
||||
#define tld_main_stats ((mi_stats_t*)((uint8_t*)&tld_main + offsetof(mi_tld_t,stats)))
|
||||
|
||||
static mi_tld_t tld_main = {
|
||||
0,
|
||||
&_mi_heap_main,
|
||||
{ { NULL, NULL }, 0, 0, 0, NULL, tld_main_stats }, // segments
|
||||
{ 0, NULL, NULL, 0, tld_main_stats }, // os
|
||||
{ MI_STATS_NULL } // stats
|
||||
};
|
||||
|
||||
mi_heap_t _mi_heap_main = {
|
||||
&tld_main,
|
||||
MI_SMALL_PAGES_EMPTY,
|
||||
MI_PAGE_QUEUES_EMPTY,
|
||||
NULL,
|
||||
0,
|
||||
0,
|
||||
0,
|
||||
0,
|
||||
false // can reclaim
|
||||
};
|
||||
|
||||
bool _mi_process_is_initialized = false; // set to `true` in `mi_process_init`.
|
||||
|
||||
mi_stats_t _mi_stats_main = { MI_STATS_NULL };
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Initialization of random numbers
|
||||
----------------------------------------------------------- */
|
||||
|
||||
#ifdef _WIN32
|
||||
#include <windows.h>
|
||||
#else
|
||||
#include <time.h>
|
||||
#endif
|
||||
|
||||
uintptr_t _mi_random_shuffle(uintptr_t x) {
|
||||
#if (MI_INTPTR_SIZE==8)
|
||||
// by Sebastiano Vigna, see: <http://xoshiro.di.unimi.it/splitmix64.c>
|
||||
x ^= x >> 30;
|
||||
x *= 0xbf58476d1ce4e5b9UL;
|
||||
x ^= x >> 27;
|
||||
x *= 0x94d049bb133111ebUL;
|
||||
x ^= x >> 31;
|
||||
#elif (MI_INTPTR_SIZE==4)
|
||||
// by Chris Wellons, see: <https://nullprogram.com/blog/2018/07/31/>
|
||||
x ^= x >> 16;
|
||||
x *= 0x7feb352dUL;
|
||||
x ^= x >> 15;
|
||||
x *= 0x846ca68bUL;
|
||||
x ^= x >> 16;
|
||||
#endif
|
||||
return x;
|
||||
}
|
||||
|
||||
uintptr_t _mi_random_init(uintptr_t seed /* can be zero */) {
|
||||
// Hopefully, ASLR makes our function address random
|
||||
uintptr_t x = (uintptr_t)((void*)&_mi_random_init);
|
||||
x ^= seed;
|
||||
// xor with high res time
|
||||
#ifdef _WIN32
|
||||
LARGE_INTEGER pcount;
|
||||
QueryPerformanceCounter(&pcount);
|
||||
x ^= (uintptr_t)(pcount.QuadPart);
|
||||
#else
|
||||
struct timespec time;
|
||||
clock_gettime(CLOCK_MONOTONIC, &time);
|
||||
x ^= (uintptr_t)time.tv_sec;
|
||||
x ^= (uintptr_t)time.tv_nsec;
|
||||
#endif
|
||||
// and do a few randomization steps
|
||||
uintptr_t max = ((x ^ (x >> 7)) & 0x0F) + 1;
|
||||
for (uintptr_t i = 0; i < max; i++) {
|
||||
x = _mi_random_shuffle(x);
|
||||
}
|
||||
return x;
|
||||
}
|
||||
|
||||
uintptr_t _mi_ptr_cookie(const void* p) {
|
||||
return ((uintptr_t)p ^ _mi_heap_main.cookie);
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Initialization and freeing of the thread local heaps
|
||||
----------------------------------------------------------- */
|
||||
|
||||
typedef struct mi_thread_data_s {
|
||||
mi_heap_t heap; // must come first due to cast in `_mi_heap_done`
|
||||
mi_tld_t tld;
|
||||
} mi_thread_data_t;
|
||||
|
||||
// Initialize the thread local default heap, called from `mi_thread_init`
|
||||
static bool _mi_heap_init() {
|
||||
if (mi_heap_is_initialized(_mi_heap_default)) return true;
|
||||
if (_mi_is_main_thread()) {
|
||||
// the main heap is statically allocated
|
||||
_mi_heap_default = &_mi_heap_main;
|
||||
mi_assert_internal(_mi_heap_default->tld->heap_backing == _mi_heap_default);
|
||||
}
|
||||
else {
|
||||
// use `_mi_os_alloc` to allocate directly from the OS
|
||||
mi_thread_data_t* td = (mi_thread_data_t*)_mi_os_alloc(sizeof(mi_thread_data_t),&_mi_stats_main); // Todo: more efficient allocation?
|
||||
if (td == NULL) {
|
||||
_mi_error_message("failed to allocate thread local heap memory\n");
|
||||
return false;
|
||||
}
|
||||
mi_tld_t* tld = &td->tld;
|
||||
mi_heap_t* heap = &td->heap;
|
||||
memcpy(heap, &_mi_heap_empty, sizeof(*heap));
|
||||
heap->thread_id = _mi_thread_id();
|
||||
heap->random = _mi_random_init(heap->thread_id);
|
||||
heap->cookie = ((uintptr_t)heap ^ _mi_heap_random(heap)) | 1;
|
||||
heap->tld = tld;
|
||||
memset(tld, 0, sizeof(*tld));
|
||||
tld->heap_backing = heap;
|
||||
tld->segments.stats = &tld->stats;
|
||||
tld->os.stats = &tld->stats;
|
||||
_mi_heap_default = heap;
|
||||
}
|
||||
return false;
|
||||
}
|
||||
|
||||
// Free the thread local default heap (called from `mi_thread_done`)
|
||||
static bool _mi_heap_done() {
|
||||
mi_heap_t* heap = _mi_heap_default;
|
||||
if (!mi_heap_is_initialized(heap)) return true;
|
||||
|
||||
// reset default heap
|
||||
_mi_heap_default = (_mi_is_main_thread() ? &_mi_heap_main : (mi_heap_t*)&_mi_heap_empty);
|
||||
|
||||
// todo: delete all non-backing heaps?
|
||||
|
||||
// switch to backing heap and free it
|
||||
heap = heap->tld->heap_backing;
|
||||
if (!mi_heap_is_initialized(heap)) return false;
|
||||
|
||||
_mi_stats_done(&heap->tld->stats);
|
||||
|
||||
// free if not the main thread (or in debug mode)
|
||||
if (heap != &_mi_heap_main) {
|
||||
if (heap->page_count > 0) {
|
||||
_mi_heap_collect_abandon(heap);
|
||||
}
|
||||
_mi_os_free(heap, sizeof(mi_thread_data_t), &_mi_stats_main);
|
||||
}
|
||||
else if (MI_DEBUG > 0) {
|
||||
_mi_heap_destroy_pages(heap);
|
||||
mi_assert_internal(heap->tld->heap_backing == &_mi_heap_main);
|
||||
}
|
||||
return false;
|
||||
}
|
||||
|
||||
|
||||
|
||||
// --------------------------------------------------------
|
||||
// Try to run `mi_thread_done()` automatically so any memory
|
||||
// owned by the thread but not yet released can be abandoned
|
||||
// and re-owned by another thread.
|
||||
//
|
||||
// 1. windows dynamic library:
|
||||
// call from DllMain on DLL_THREAD_DETACH
|
||||
// 2. windows static library:
|
||||
// use `FlsAlloc` to call a destructor when the thread is done
|
||||
// 3. unix, pthreads:
|
||||
// use a pthread key to call a destructor when a pthread is done
|
||||
//
|
||||
// In the last two cases we also need to call `mi_process_init`
|
||||
// to set up the thread local keys.
|
||||
// --------------------------------------------------------
|
||||
|
||||
#ifndef _WIN32
|
||||
#define MI_USE_PTHREADS
|
||||
#endif
|
||||
|
||||
#if defined(_WIN32) && defined(MI_SHARED_LIB)
|
||||
// nothing to do as it is done in DllMain
|
||||
#elif defined(_WIN32) && !defined(MI_SHARED_LIB)
|
||||
// use thread local storage keys to detect thread ending
|
||||
#include <windows.h>
|
||||
static DWORD mi_fls_key;
|
||||
static void NTAPI mi_fls_done(PVOID value) {
|
||||
if (value!=NULL) mi_thread_done();
|
||||
}
|
||||
#elif defined(MI_USE_PTHREADS)
|
||||
// use pthread locol storage keys to detect thread ending
|
||||
#include <pthread.h>
|
||||
static pthread_key_t mi_pthread_key;
|
||||
static void mi_pthread_done(void* value) {
|
||||
if (value!=NULL) mi_thread_done();
|
||||
}
|
||||
#else
|
||||
#pragma message("define a way to call mi_thread_done when a thread is done")
|
||||
#endif
|
||||
|
||||
// Set up handlers so `mi_thread_done` is called automatically
|
||||
static void mi_process_setup_auto_thread_done() {
|
||||
static bool tls_initialized = false; // fine if it races
|
||||
if (tls_initialized) return;
|
||||
tls_initialized = true;
|
||||
#if defined(_WIN32) && defined(MI_SHARED_LIB)
|
||||
// nothing to do as it is done in DllMain
|
||||
#elif defined(_WIN32) && !defined(MI_SHARED_LIB)
|
||||
mi_fls_key = FlsAlloc(&mi_fls_done);
|
||||
#elif defined(MI_USE_PTHREADS)
|
||||
pthread_key_create(&mi_pthread_key, &mi_pthread_done);
|
||||
#endif
|
||||
}
|
||||
|
||||
|
||||
bool _mi_is_main_thread() {
|
||||
return (_mi_heap_main.thread_id==0 || _mi_heap_main.thread_id == _mi_thread_id());
|
||||
}
|
||||
|
||||
// This is called from the `mi_malloc_generic`
|
||||
void mi_thread_init() mi_attr_noexcept
|
||||
{
|
||||
// ensure our process has started already
|
||||
mi_process_init();
|
||||
|
||||
// initialize the thread local default heap
|
||||
if (_mi_heap_init()) return; // returns true if already initialized
|
||||
|
||||
// don't further initialize for the main thread
|
||||
if (_mi_is_main_thread()) return;
|
||||
|
||||
mi_stat_increase(mi_get_default_heap()->tld->stats.threads, 1);
|
||||
|
||||
// set hooks so our mi_thread_done() will be called
|
||||
#if defined(_WIN32) && defined(MI_SHARED_LIB)
|
||||
// nothing to do as it is done in DllMain
|
||||
#elif defined(_WIN32) && !defined(MI_SHARED_LIB)
|
||||
FlsSetValue(mi_fls_key, (void*)(_mi_thread_id()|1)); // set to a dummy value so that `mi_fls_done` is called
|
||||
#elif defined(MI_USE_PTHREADS)
|
||||
pthread_setspecific(mi_pthread_key, (void*)(_mi_thread_id()|1)); // set to a dummy value so that `mi_pthread_done` is called
|
||||
#endif
|
||||
|
||||
_mi_verbose_message("thread init: 0x%zx\n", _mi_thread_id());
|
||||
}
|
||||
|
||||
void mi_thread_done() mi_attr_noexcept {
|
||||
// stats
|
||||
mi_heap_t* heap = mi_get_default_heap();
|
||||
if (!_mi_is_main_thread() && mi_heap_is_initialized(heap)) {
|
||||
mi_stat_decrease(heap->tld->stats.threads, 1);
|
||||
}
|
||||
|
||||
// abandon the thread local heap
|
||||
if (_mi_heap_done()) return; // returns true if already ran
|
||||
|
||||
if (!_mi_is_main_thread()) {
|
||||
_mi_verbose_message("thread done: 0x%zx\n", _mi_thread_id());
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
// --------------------------------------------------------
|
||||
// Run functions on process init/done, and thread init/done
|
||||
// --------------------------------------------------------
|
||||
static void mi_process_done(void);
|
||||
|
||||
void mi_process_init() mi_attr_noexcept {
|
||||
// ensure we are called once
|
||||
if (_mi_process_is_initialized) return;
|
||||
_mi_process_is_initialized = true;
|
||||
|
||||
_mi_heap_main.thread_id = _mi_thread_id();
|
||||
_mi_verbose_message("process init: 0x%zx\n", _mi_heap_main.thread_id);
|
||||
uintptr_t random = _mi_random_init(_mi_heap_main.thread_id);
|
||||
_mi_heap_main.cookie = (uintptr_t)&_mi_heap_main ^ random;
|
||||
_mi_heap_main.random = _mi_random_shuffle(random);
|
||||
#if (MI_DEBUG)
|
||||
_mi_verbose_message("debug level : %d\n", MI_DEBUG);
|
||||
#endif
|
||||
atexit(&mi_process_done);
|
||||
mi_process_setup_auto_thread_done();
|
||||
mi_stats_reset();
|
||||
}
|
||||
|
||||
static void mi_process_done(void) {
|
||||
// only shutdown if we were initialized
|
||||
if (!_mi_process_is_initialized) return;
|
||||
// ensure we are called once
|
||||
static bool process_done = false;
|
||||
if (process_done) return;
|
||||
process_done = true;
|
||||
|
||||
#ifndef NDEBUG
|
||||
mi_collect(true);
|
||||
#endif
|
||||
if (mi_option_is_enabled(mi_option_show_stats) ||
|
||||
mi_option_is_enabled(mi_option_verbose)) {
|
||||
mi_stats_print(NULL);
|
||||
}
|
||||
_mi_verbose_message("process done: 0x%zx\n", _mi_heap_main.thread_id);
|
||||
}
|
||||
|
||||
|
||||
|
||||
#if defined(_WIN32) && defined(MI_SHARED_LIB)
|
||||
// Windows DLL: easy to hook into process_init and thread_done
|
||||
#include <Windows.h>
|
||||
|
||||
__declspec(dllexport) BOOL WINAPI DllMain(HINSTANCE inst, DWORD reason, LPVOID reserved) {
|
||||
if (reason==DLL_PROCESS_ATTACH) {
|
||||
mi_process_init();
|
||||
}
|
||||
else if (reason==DLL_THREAD_DETACH) {
|
||||
mi_thread_done();
|
||||
}
|
||||
return TRUE;
|
||||
}
|
||||
|
||||
#elif defined(__cplusplus)
|
||||
// C++: use static initialization to detect process start
|
||||
static bool _mi_process_init() {
|
||||
mi_process_init();
|
||||
return (mi_main_thread_id != 0);
|
||||
}
|
||||
static bool mi_initialized = _mi_process_init();
|
||||
|
||||
#elif defined(__GNUC__) || defined(__clang__)
|
||||
// GCC,Clang: use the constructor attribute
|
||||
static void __attribute__((constructor)) _mi_process_init() {
|
||||
mi_process_init();
|
||||
}
|
||||
|
||||
#elif defined(_MSC_VER)
|
||||
// MSVC: use data section magic for static libraries
|
||||
// See <https://www.codeguru.com/cpp/misc/misc/applicationcontrol/article.php/c6945/Running-Code-Before-and-After-Main.htm>
|
||||
static int _mi_process_init(void) {
|
||||
mi_process_init();
|
||||
return 0;
|
||||
}
|
||||
typedef int(*_crt_cb)(void);
|
||||
#ifdef _M_X64
|
||||
__pragma(comment(linker, "/include:" "_mi_msvc_initu"))
|
||||
#pragma section(".CRT$XIU", long, read)
|
||||
#else
|
||||
__pragma(comment(linker, "/include:" "__mi_msvc_initu"))
|
||||
#endif
|
||||
#pragma data_seg(".CRT$XIU")
|
||||
_crt_cb _mi_msvc_initu[] = { &_mi_process_init };
|
||||
#pragma data_seg()
|
||||
|
||||
#else
|
||||
#pragma message("define a way to call mi_process_init/done on your platform")
|
||||
#endif
|
197
src/options.c
Normal file
197
src/options.c
Normal file
@ -0,0 +1,197 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
|
||||
#include <stdio.h>
|
||||
#include <string.h> // strcmp
|
||||
#include <ctype.h> // toupper
|
||||
#include <stdarg.h>
|
||||
|
||||
// --------------------------------------------------------
|
||||
// Options
|
||||
// --------------------------------------------------------
|
||||
typedef enum mi_init_e {
|
||||
UNINIT, // not yet initialized
|
||||
DEFAULTED, // not found in the environment, use default value
|
||||
INITIALIZED // found in environment or set explicitly
|
||||
} mi_init_t;
|
||||
|
||||
typedef struct mi_option_desc_s {
|
||||
long value; // the value
|
||||
mi_init_t init; // is it initialized yet? (from the environment)
|
||||
const char* name; // option name without `mimalloc_` prefix
|
||||
} mi_option_desc_t;
|
||||
|
||||
static mi_option_desc_t options[_mi_option_last] = {
|
||||
{ 0, UNINIT, "page_reset" },
|
||||
{ 0, UNINIT, "cache_reset" },
|
||||
{ 0, UNINIT, "pool_commit" },
|
||||
#if MI_SECURE
|
||||
{ MI_SECURE, INITIALIZED, "secure" }, // in secure build the environment setting is ignored
|
||||
#else
|
||||
{ 0, UNINIT, "secure" },
|
||||
#endif
|
||||
{ 0, UNINIT, "show_stats" },
|
||||
{ MI_DEBUG, UNINIT, "show_errors" },
|
||||
{ MI_DEBUG, UNINIT, "verbose" }
|
||||
};
|
||||
|
||||
static void mi_option_init(mi_option_desc_t* desc);
|
||||
|
||||
long mi_option_get(mi_option_t option) {
|
||||
mi_assert(option >= 0 && option < _mi_option_last);
|
||||
mi_option_desc_t* desc = &options[option];
|
||||
if (desc->init == UNINIT) {
|
||||
mi_option_init(desc);
|
||||
if (option != mi_option_verbose) {
|
||||
_mi_verbose_message("option '%s': %zd\n", desc->name, desc->value);
|
||||
}
|
||||
}
|
||||
return desc->value;
|
||||
}
|
||||
|
||||
void mi_option_set(mi_option_t option, long value) {
|
||||
mi_assert(option >= 0 && option < _mi_option_last);
|
||||
mi_option_desc_t* desc = &options[option];
|
||||
desc->value = value;
|
||||
desc->init = INITIALIZED;
|
||||
}
|
||||
|
||||
void mi_option_set_default(mi_option_t option, long value) {
|
||||
mi_assert(option >= 0 && option < _mi_option_last);
|
||||
mi_option_desc_t* desc = &options[option];
|
||||
if (desc->init != INITIALIZED) {
|
||||
desc->value = value;
|
||||
}
|
||||
}
|
||||
|
||||
bool mi_option_is_enabled(mi_option_t option) {
|
||||
return (mi_option_get(option) != 0);
|
||||
}
|
||||
|
||||
void mi_option_enable(mi_option_t option, bool enable) {
|
||||
mi_option_set(option, (enable ? 1 : 0));
|
||||
}
|
||||
|
||||
void mi_option_enable_default(mi_option_t option, bool enable) {
|
||||
mi_option_set_default(option, (enable ? 1 : 0));
|
||||
}
|
||||
|
||||
// --------------------------------------------------------
|
||||
// Messages
|
||||
// --------------------------------------------------------
|
||||
|
||||
// Define our own limited `fprintf` that avoids memory allocation.
|
||||
// We do this using `snprintf` with a limited buffer.
|
||||
static void mi_vfprintf( FILE* out, const char* prefix, const char* fmt, va_list args ) {
|
||||
char buf[256];
|
||||
if (fmt==NULL) return;
|
||||
if (out==NULL) out = stdout;
|
||||
vsnprintf(buf,sizeof(buf)-1,fmt,args);
|
||||
if (prefix != NULL) fputs(prefix,out);
|
||||
fputs(buf,out);
|
||||
}
|
||||
|
||||
void _mi_fprintf( FILE* out, const char* fmt, ... ) {
|
||||
va_list args;
|
||||
va_start(args,fmt);
|
||||
mi_vfprintf(out,NULL,fmt,args);
|
||||
va_end(args);
|
||||
}
|
||||
|
||||
void _mi_verbose_message(const char* fmt, ...) {
|
||||
if (!mi_option_is_enabled(mi_option_verbose)) return;
|
||||
va_list args;
|
||||
va_start(args,fmt);
|
||||
mi_vfprintf(stderr, "mimalloc: ", fmt, args);
|
||||
va_end(args);
|
||||
}
|
||||
|
||||
void _mi_error_message(const char* fmt, ...) {
|
||||
if (!mi_option_is_enabled(mi_option_show_errors) && !mi_option_is_enabled(mi_option_verbose)) return;
|
||||
va_list args;
|
||||
va_start(args,fmt);
|
||||
mi_vfprintf(stderr, "mimalloc: error: ", fmt, args);
|
||||
va_end(args);
|
||||
mi_assert(false);
|
||||
}
|
||||
|
||||
void _mi_warning_message(const char* fmt, ...) {
|
||||
if (!mi_option_is_enabled(mi_option_show_errors) && !mi_option_is_enabled(mi_option_verbose)) return;
|
||||
va_list args;
|
||||
va_start(args,fmt);
|
||||
mi_vfprintf(stderr, "mimalloc: warning: ", fmt, args);
|
||||
va_end(args);
|
||||
}
|
||||
|
||||
|
||||
#if MI_DEBUG
|
||||
void _mi_assert_fail(const char* assertion, const char* fname, unsigned line, const char* func ) {
|
||||
_mi_fprintf(stderr,"mimalloc: assertion failed: at \"%s\":%u, %s\n assertion: \"%s\"\n", fname, line, (func==NULL?"":func), assertion);
|
||||
abort();
|
||||
}
|
||||
#endif
|
||||
|
||||
// --------------------------------------------------------
|
||||
// Initialize options by checking the environment
|
||||
// --------------------------------------------------------
|
||||
|
||||
static void mi_strlcpy(char* dest, const char* src, size_t dest_size) {
|
||||
dest[0] = 0;
|
||||
#pragma warning(suppress:4996)
|
||||
strncpy(dest, src, dest_size - 1);
|
||||
dest[dest_size - 1] = 0;
|
||||
}
|
||||
|
||||
static void mi_strlcat(char* dest, const char* src, size_t dest_size) {
|
||||
#pragma warning(suppress:4996)
|
||||
strncat(dest, src, dest_size - 1);
|
||||
dest[dest_size - 1] = 0;
|
||||
}
|
||||
|
||||
static void mi_option_init(mi_option_desc_t* desc) {
|
||||
desc->init = DEFAULTED;
|
||||
// Read option value from the environment
|
||||
char buf[32];
|
||||
mi_strlcpy(buf, "mimalloc_", sizeof(buf));
|
||||
mi_strlcat(buf, desc->name, sizeof(buf));
|
||||
#pragma warning(suppress:4996)
|
||||
char* s = getenv(buf);
|
||||
if (s == NULL) {
|
||||
for (size_t i = 0; i < strlen(buf); i++) {
|
||||
buf[i] = toupper(buf[i]);
|
||||
}
|
||||
#pragma warning(suppress:4996)
|
||||
s = getenv(buf);
|
||||
}
|
||||
if (s != NULL) {
|
||||
mi_strlcpy(buf, s, sizeof(buf));
|
||||
for (size_t i = 0; i < strlen(buf); i++) {
|
||||
buf[i] = toupper(buf[i]);
|
||||
}
|
||||
if (buf[0]==0 || strstr("1;TRUE;YES;ON", buf) != NULL) {
|
||||
desc->value = 1;
|
||||
desc->init = INITIALIZED;
|
||||
}
|
||||
else if (strstr("0;FALSE;NO;OFF", buf) != NULL) {
|
||||
desc->value = 0;
|
||||
desc->init = INITIALIZED;
|
||||
}
|
||||
else {
|
||||
char* end = buf;
|
||||
long value = strtol(buf, &end, 10);
|
||||
if (*end == 0) {
|
||||
desc->value = value;
|
||||
desc->init = INITIALIZED;
|
||||
}
|
||||
else {
|
||||
_mi_warning_message("environment option mimalloc_%s has an invalid value: %s\n", desc->name, buf);
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
358
src/os.c
Normal file
358
src/os.c
Normal file
@ -0,0 +1,358 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#ifndef _DEFAULT_SOURCE
|
||||
#define _DEFAULT_SOURCE // ensure mmap flags are defined
|
||||
#endif
|
||||
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
|
||||
#include <string.h> // memset
|
||||
#include <stdio.h> // debug fprintf
|
||||
#include <errno.h>
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Raw allocation on Windows (VirtualAlloc) and Unix's (mmap).
|
||||
Defines a portable `mmap`, `munmap` and `mmap_trim`.
|
||||
----------------------------------------------------------- */
|
||||
|
||||
#if defined(_WIN32)
|
||||
#include <windows.h>
|
||||
#else
|
||||
#include <sys/mman.h> // mmap
|
||||
#include <unistd.h> // sysconf
|
||||
#endif
|
||||
|
||||
|
||||
uintptr_t _mi_align_up(uintptr_t sz, size_t alignment) {
|
||||
uintptr_t x = (sz / alignment) * alignment;
|
||||
if (x < sz) x += alignment;
|
||||
if (x < sz) return 0; // overflow
|
||||
return x;
|
||||
}
|
||||
|
||||
static void* mi_align_up_ptr(void* p, size_t alignment) {
|
||||
return (void*)_mi_align_up((uintptr_t)p, alignment);
|
||||
}
|
||||
|
||||
static uintptr_t _mi_align_down(uintptr_t sz, size_t alignment) {
|
||||
return (sz / alignment) * alignment;
|
||||
}
|
||||
|
||||
static void* mi_align_down_ptr(void* p, size_t alignment) {
|
||||
return (void*)_mi_align_down((uintptr_t)p, alignment);
|
||||
}
|
||||
|
||||
static void* os_pool_alloc(size_t size, size_t alignment, mi_os_tld_t* tld);
|
||||
|
||||
// cached OS page size
|
||||
size_t _mi_os_page_size() {
|
||||
static size_t page_size = 0;
|
||||
if (page_size == 0) {
|
||||
#if defined(_WIN32)
|
||||
SYSTEM_INFO si;
|
||||
GetSystemInfo(&si);
|
||||
page_size = (si.dwPageSize > 0 ? si.dwPageSize : 4096);
|
||||
#else
|
||||
long result = sysconf(_SC_PAGESIZE);
|
||||
page_size = (result > 0 ? (size_t)result : 4096);
|
||||
#endif
|
||||
}
|
||||
return page_size;
|
||||
}
|
||||
|
||||
|
||||
static void mi_munmap(void* addr, size_t size)
|
||||
{
|
||||
if (addr == NULL || size == 0) return;
|
||||
bool err = false;
|
||||
#if defined(_WIN32)
|
||||
err = (VirtualFree(addr, 0, MEM_RELEASE) == 0);
|
||||
#else
|
||||
err = (munmap(addr, size) == -1);
|
||||
#endif
|
||||
if (err) {
|
||||
#pragma warning(suppress:4996)
|
||||
_mi_warning_message("munmap failed: %s, addr 0x%8li, size %lu\n", strerror(errno), (size_t)addr, size);
|
||||
}
|
||||
}
|
||||
|
||||
static void* mi_mmap(void* addr, size_t size, int extra_flags, mi_stats_t* stats) {
|
||||
UNUSED(stats);
|
||||
if (size == 0) return NULL;
|
||||
void* p;
|
||||
#if defined(_WIN32)
|
||||
p = VirtualAlloc(addr, size, MEM_RESERVE | MEM_COMMIT | extra_flags, PAGE_READWRITE);
|
||||
#else
|
||||
#if !defined(MAP_ANONYMOUS)
|
||||
#define MAP_ANONYMOUS MAP_ANON
|
||||
#endif
|
||||
int flags = MAP_PRIVATE | MAP_ANONYMOUS | extra_flags;
|
||||
if (addr != NULL) {
|
||||
#if defined(MAP_EXCL)
|
||||
flags |= MAP_FIXED | MAP_EXCL; // BSD
|
||||
#elif defined(MAP_FIXED_NOREPLACE)
|
||||
flags |= MAP_FIXED_NOREPLACE; // Linux
|
||||
#elif defined(MAP_FIXED)
|
||||
flags |= MAP_FIXED;
|
||||
#endif
|
||||
}
|
||||
p = mmap(addr, size, (PROT_READ | PROT_WRITE), flags, -1, 0);
|
||||
if (p == MAP_FAILED) p = NULL;
|
||||
if (addr != NULL && p != addr) {
|
||||
mi_munmap(p, size);
|
||||
p = NULL;
|
||||
}
|
||||
#endif
|
||||
mi_assert(p == NULL || (addr == NULL && p != addr) || (addr != NULL && p == addr));
|
||||
if (p != NULL) mi_stat_increase(stats->mmap_calls, 1);
|
||||
return p;
|
||||
}
|
||||
|
||||
|
||||
static void* mi_os_page_align_region(void* addr, size_t size, size_t* newsize) {
|
||||
mi_assert(addr != NULL && size > 0);
|
||||
if (newsize != NULL) *newsize = 0;
|
||||
if (size == 0 || addr == NULL) return NULL;
|
||||
|
||||
// page align conservatively within the range
|
||||
void* start = mi_align_up_ptr(addr, _mi_os_page_size());
|
||||
void* end = mi_align_down_ptr((uint8_t*)addr + size, _mi_os_page_size());
|
||||
ptrdiff_t diff = (uint8_t*)end - (uint8_t*)start;
|
||||
if (diff <= 0) return NULL;
|
||||
|
||||
mi_assert_internal((size_t)diff <= size);
|
||||
if (newsize != NULL) *newsize = (size_t)diff;
|
||||
return start;
|
||||
}
|
||||
|
||||
// Signal to the OS that the address range is no longer in use
|
||||
// but may be used later again. This will release physical memory
|
||||
// pages and reduce swapping while keeping the memory committed.
|
||||
// We page align to a conservative area inside the range to reset.
|
||||
bool _mi_os_reset(void* addr, size_t size) {
|
||||
// page align conservatively within the range
|
||||
size_t csize;
|
||||
void* start = mi_os_page_align_region(addr,size,&csize);
|
||||
if (csize==0) return true;
|
||||
|
||||
#if defined(_WIN32)
|
||||
void* p = VirtualAlloc(start, csize, MEM_RESET, PAGE_READWRITE);
|
||||
mi_assert(p == start);
|
||||
return (p == start);
|
||||
#else
|
||||
#if defined(MADV_FREE)
|
||||
static int advice = MADV_FREE;
|
||||
int err = madvise(start, csize, advice);
|
||||
if (err!=0 && errno==EINVAL && advice==MADV_FREE) {
|
||||
// if MADV_FREE is not supported, fall back to MADV_DONTNEED from now on
|
||||
advice = MADV_DONTNEED;
|
||||
err = madvise(start, csize, advice);
|
||||
}
|
||||
#else
|
||||
int err = madvise(start, csize, MADV_DONTNEED);
|
||||
#endif
|
||||
if (err != 0) {
|
||||
_mi_warning_message("madvise reset error: start: 0x%8p, csize: 0x%8zux, errno: %i\n", start, csize, errno);
|
||||
}
|
||||
//mi_assert(err == 0);
|
||||
return (err == 0);
|
||||
#endif
|
||||
}
|
||||
|
||||
// Protect a region in memory to be not accessible.
|
||||
static bool mi_os_protectx(void* addr, size_t size, bool protect) {
|
||||
// page align conservatively within the range
|
||||
size_t csize = 0;
|
||||
void* start = mi_os_page_align_region(addr, size, &csize);
|
||||
if (csize==0) return false;
|
||||
|
||||
int err = 0;
|
||||
#ifdef _WIN32
|
||||
DWORD oldprotect = 0;
|
||||
BOOL ok = VirtualProtect(start,csize,protect ? PAGE_NOACCESS : PAGE_READWRITE,&oldprotect);
|
||||
err = (ok ? 0 : -1);
|
||||
#else
|
||||
err = mprotect(start,csize,protect ? PROT_NONE : (PROT_READ|PROT_WRITE));
|
||||
#endif
|
||||
if (err != 0) {
|
||||
_mi_warning_message("mprotect error: start: 0x%8p, csize: 0x%8zux, errno: %i\n", start, csize, errno);
|
||||
}
|
||||
return (err==0);
|
||||
}
|
||||
|
||||
bool _mi_os_protect(void* addr, size_t size) {
|
||||
return mi_os_protectx(addr,size,true);
|
||||
}
|
||||
|
||||
bool _mi_os_unprotect(void* addr, size_t size) {
|
||||
return mi_os_protectx(addr, size, false);
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
OS allocation using mmap/munmap
|
||||
----------------------------------------------------------- */
|
||||
|
||||
void* _mi_os_alloc(size_t size, mi_stats_t* stats) {
|
||||
if (size == 0) return NULL;
|
||||
void* p = mi_mmap(NULL, size, 0, stats);
|
||||
mi_assert(p!=NULL);
|
||||
if (p != NULL) mi_stat_increase(stats->reserved, size);
|
||||
return p;
|
||||
}
|
||||
|
||||
void _mi_os_free(void* p, size_t size, mi_stats_t* stats) {
|
||||
UNUSED(stats);
|
||||
mi_munmap(p, size);
|
||||
mi_stat_decrease(stats->reserved, size);
|
||||
}
|
||||
|
||||
// Slow but guaranteed way to allocated aligned memory
|
||||
// by over-allocating and then reallocating at a fixed aligned
|
||||
// address that should be available then.
|
||||
static void* mi_os_alloc_aligned_ensured(size_t size, size_t alignment, size_t trie, mi_stats_t* stats)
|
||||
{
|
||||
if (trie >= 3) return NULL; // stop recursion (only on Windows)
|
||||
size_t alloc_size = size + alignment;
|
||||
mi_assert(alloc_size >= size); // overflow?
|
||||
if (alloc_size < size) return NULL;
|
||||
|
||||
// allocate a chunk that includes the alignment
|
||||
void* p = mi_mmap(NULL, alloc_size, 0, stats);
|
||||
if (p == NULL) return NULL;
|
||||
// create an aligned pointer in the allocated area
|
||||
void* aligned_p = mi_align_up_ptr(p, alignment);
|
||||
mi_assert(aligned_p != NULL);
|
||||
#if defined(_WIN32)
|
||||
// free it and try to allocate `size` at exactly `aligned_p`
|
||||
// note: this may fail in case another thread happens to VirtualAlloc
|
||||
// concurrently at that spot. We try up to 3 times to mitigate this.
|
||||
mi_munmap(p, alloc_size);
|
||||
p = mi_mmap(aligned_p, size, 0, stats);
|
||||
if (p != aligned_p) {
|
||||
if (p != NULL) mi_munmap(p, size);
|
||||
return mi_os_alloc_aligned_ensured(size, alignment, trie++, stats);
|
||||
}
|
||||
#else
|
||||
// we selectively unmap parts around the over-allocated area.
|
||||
size_t pre_size = (uint8_t*)aligned_p - (uint8_t*)p;
|
||||
size_t mid_size = _mi_align_up(size, _mi_os_page_size());
|
||||
size_t post_size = alloc_size - pre_size - mid_size;
|
||||
if (pre_size > 0) mi_munmap(p, pre_size);
|
||||
if (post_size > 0) mi_munmap((uint8_t*)aligned_p + mid_size, post_size);
|
||||
#endif
|
||||
|
||||
mi_assert(((uintptr_t)aligned_p) % alignment == 0);
|
||||
return aligned_p;
|
||||
}
|
||||
|
||||
// Allocate an aligned block.
|
||||
// Since `mi_mmap` is relatively slow we try to allocate directly at first and
|
||||
// hope to get an aligned address; only when that fails we fall back
|
||||
// to a guaranteed method by overallocating at first and adjusting.
|
||||
// TODO: use VirtualAlloc2 with alignment on Windows 10 / Windows Server 2016.
|
||||
void* _mi_os_alloc_aligned(size_t size, size_t alignment, mi_os_tld_t* tld)
|
||||
{
|
||||
if (size == 0) return NULL;
|
||||
if (alignment < 1024) return _mi_os_alloc(size, tld->stats);
|
||||
|
||||
void* p = os_pool_alloc(size,alignment,tld);
|
||||
if (p != NULL) return p;
|
||||
|
||||
void* suggest = NULL;
|
||||
|
||||
#if defined(MAP_ALIGNED)
|
||||
// on BSD, use the aligned mmap api
|
||||
size_t n = _mi_bsr(alignment);
|
||||
if ((size_t)1 << n == alignment && n >= 12) { // alignment is a power of 2 and >= 4096
|
||||
p = mi_mmap(suggest, size, MAP_ALIGNED(n)); // use the freeBSD aligned flags
|
||||
}
|
||||
#endif
|
||||
if (p==NULL && (tld->mmap_next_probable % alignment) == 0) {
|
||||
// if the next probable address is aligned,
|
||||
// then try to just allocate `size` and hope it is aligned...
|
||||
p = mi_mmap(suggest, size, 0, tld->stats);
|
||||
if (p == NULL) return NULL;
|
||||
if (((uintptr_t)p % alignment) == 0) mi_stat_increase(tld->stats->mmap_right_align, 1);
|
||||
}
|
||||
//fprintf(stderr, "segment address guess: %s, p=%lxu, guess:%lxu\n", (p != NULL && (uintptr_t)p % alignment ==0 ? "correct" : "incorrect"), (uintptr_t)p, next_probable);
|
||||
|
||||
if (p==NULL || ((uintptr_t)p % alignment) != 0) {
|
||||
// if `p` is not yet aligned after all, free the block and use a slower
|
||||
// but guaranteed way to allocate an aligned block
|
||||
if (p != NULL) mi_munmap(p, size);
|
||||
mi_stat_increase( tld->stats->mmap_ensure_aligned, 1);
|
||||
//fprintf(stderr, "mimalloc: slow mmap 0x%lx\n", _mi_thread_id());
|
||||
p = mi_os_alloc_aligned_ensured(size, alignment,0,tld->stats);
|
||||
}
|
||||
if (p != NULL) {
|
||||
mi_stat_increase( tld->stats->reserved, size);
|
||||
|
||||
// next probable address is the page-aligned address just after the newly allocated area.
|
||||
const size_t alloc_align =
|
||||
#if defined(_WIN32)
|
||||
64 * 1024; // Windows allocates 64kb aligned
|
||||
#else
|
||||
_mi_os_page_size(); // page size on other OS's
|
||||
#endif
|
||||
size_t probable_size = MI_SEGMENT_SIZE;
|
||||
if (tld->mmap_previous > p) {
|
||||
// Linux tends to allocate downward
|
||||
tld->mmap_next_probable = _mi_align_down((uintptr_t)p - probable_size, alloc_align); // ((uintptr_t)previous - (uintptr_t)p);
|
||||
}
|
||||
else {
|
||||
// Otherwise, guess the next address is page aligned `size` from current pointer
|
||||
tld->mmap_next_probable = _mi_align_up((uintptr_t)p + probable_size, alloc_align);
|
||||
}
|
||||
tld->mmap_previous = p;
|
||||
}
|
||||
return p;
|
||||
}
|
||||
|
||||
// Pooled allocation: on 64-bit systems with plenty
|
||||
// of virtual addresses, we allocate 10 segments at the
|
||||
// time to minimize `mmap` calls and increase aligned
|
||||
// allocations. This is only good on systems that
|
||||
// do overcommit so we put it behind the `MIMALLOC_POOL_COMMIT` option.
|
||||
// For now, we disable it on windows as VirtualFree must
|
||||
// be called on the original allocation and cannot be called
|
||||
// for individual fragments.
|
||||
#if !defined(_WIN32) || (MI_INTPTR_SIZE<8)
|
||||
|
||||
static void* os_pool_alloc(size_t size, size_t alignment, mi_os_tld_t* tld) {
|
||||
UNUSED(size);
|
||||
UNUSED(alignment);
|
||||
UNUSED(tld);
|
||||
return NULL;
|
||||
}
|
||||
|
||||
#else
|
||||
|
||||
#define MI_POOL_ALIGNMENT MI_SEGMENT_SIZE
|
||||
#define MI_POOL_SIZE (10*MI_POOL_ALIGNMENT)
|
||||
|
||||
static void* os_pool_alloc(size_t size, size_t alignment, mi_os_tld_t* tld)
|
||||
{
|
||||
if (!mi_option_is_enabled(mi_option_pool_commit)) return NULL;
|
||||
if (alignment != MI_POOL_ALIGNMENT) return NULL;
|
||||
size = _mi_align_up(size,MI_POOL_ALIGNMENT);
|
||||
if (size > MI_POOL_SIZE) return NULL;
|
||||
|
||||
if (tld->pool_available == 0) {
|
||||
tld->pool = (uint8_t*)mi_os_alloc_aligned_ensured(MI_POOL_SIZE,MI_POOL_ALIGNMENT,0,tld->stats);
|
||||
if (tld->pool == NULL) return NULL;
|
||||
tld->pool_available += MI_POOL_SIZE;
|
||||
}
|
||||
|
||||
if (size > tld->pool_available) return NULL;
|
||||
void* p = tld->pool;
|
||||
tld->pool_available -= size;
|
||||
tld->pool += size;
|
||||
return p;
|
||||
}
|
||||
|
||||
#endif
|
352
src/page-queue.c
Normal file
352
src/page-queue.c
Normal file
@ -0,0 +1,352 @@
|
||||
/*----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Definition of page queues for each block size
|
||||
----------------------------------------------------------- */
|
||||
|
||||
#ifndef MI_IN_PAGE_C
|
||||
#error "this file should be included from 'page.c'"
|
||||
#endif
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Minimal alignment in machine words (i.e. `sizeof(void*)`)
|
||||
----------------------------------------------------------- */
|
||||
|
||||
#if (MI_MAX_ALIGN_SIZE > 4*MI_INTPTR_SIZE)
|
||||
#error "define aligment for more than 4x word size for this platform"
|
||||
#elif (MI_MAX_ALIGN_SIZE > 2*MI_INTPTR_SIZE)
|
||||
#define MI_ALIGN4W // 4 machine words minimal alignment
|
||||
#elif (MI_MAX_ALIGN_SIZE > MI_INTPTR_SIZE)
|
||||
#define MI_ALIGN2W // 2 machine words minimal alignment
|
||||
#else
|
||||
// ok, default aligment is 1 word
|
||||
#endif
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Queue query
|
||||
----------------------------------------------------------- */
|
||||
|
||||
|
||||
static inline bool mi_page_queue_is_huge(const mi_page_queue_t* pq) {
|
||||
return (pq->block_size == (MI_LARGE_SIZE_MAX+sizeof(uintptr_t)));
|
||||
}
|
||||
|
||||
static inline bool mi_page_queue_is_full(const mi_page_queue_t* pq) {
|
||||
return (pq->block_size == (MI_LARGE_SIZE_MAX+(2*sizeof(uintptr_t))));
|
||||
}
|
||||
|
||||
static inline bool mi_page_queue_is_special(const mi_page_queue_t* pq) {
|
||||
return (pq->block_size > MI_LARGE_SIZE_MAX);
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Bins
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// Bit scan reverse: return the index of the highest bit.
|
||||
static inline uint8_t mi_bsr32(uint32_t x);
|
||||
|
||||
#if defined(_MSC_VER)
|
||||
#include <intrin.h>
|
||||
static inline uint8_t mi_bsr32(uint32_t x) {
|
||||
uint32_t idx;
|
||||
_BitScanReverse(&idx, x);
|
||||
return idx;
|
||||
}
|
||||
#elif defined(__GNUC__) || defined(__clang__)
|
||||
static inline uint8_t mi_bsr32(uint32_t x) {
|
||||
return (31 - __builtin_clz(x));
|
||||
}
|
||||
#else
|
||||
static inline uint8_t mi_bsr32(uint32_t x) {
|
||||
// de Bruijn multiplication, see <http://supertech.csail.mit.edu/papers/debruijn.pdf>
|
||||
static const uint8_t debruijn[32] = {
|
||||
31, 0, 22, 1, 28, 23, 18, 2, 29, 26, 24, 10, 19, 7, 3, 12,
|
||||
30, 21, 27, 17, 25, 9, 6, 11, 20, 16, 8, 5, 15, 4, 14, 13,
|
||||
};
|
||||
x |= x >> 1;
|
||||
x |= x >> 2;
|
||||
x |= x >> 4;
|
||||
x |= x >> 8;
|
||||
x |= x >> 16;
|
||||
x++;
|
||||
return debruijn[(x*0x076be629) >> 27];
|
||||
}
|
||||
#endif
|
||||
|
||||
// Bit scan reverse: return the index of the highest bit.
|
||||
uint8_t _mi_bsr(uintptr_t x) {
|
||||
if (x == 0) return 0;
|
||||
#if MI_INTPTR_SIZE==8
|
||||
uint32_t hi = (x >> 32);
|
||||
return (hi == 0 ? mi_bsr32((uint32_t)x) : 32 + mi_bsr32(hi));
|
||||
#elif MI_INTPTR_SIZE==4
|
||||
return mi_bsr32(x);
|
||||
#else
|
||||
# error "define bsr for non-32 or 64-bit platforms"
|
||||
#endif
|
||||
}
|
||||
|
||||
// Return the bin for a given field size.
|
||||
// Returns MI_BIN_HUGE if the size is too large.
|
||||
// We use `wsize` for the size in "machine word sizes",
|
||||
// i.e. byte size == `wsize*sizeof(void*)`.
|
||||
inline uint8_t _mi_bin(size_t size) {
|
||||
size_t wsize = _mi_wsize_from_size(size);
|
||||
uint8_t bin;
|
||||
if (wsize <= 1) {
|
||||
bin = 1;
|
||||
}
|
||||
#if defined(MI_ALIGN4W)
|
||||
else if (wsize <= 4) {
|
||||
bin = (uint8_t)((wsize+1)&~1); // round to double word sizes
|
||||
}
|
||||
#elif defined(MI_ALIGN2W)
|
||||
else if (wsize <= 8) {
|
||||
bin = (uint8_t)((wsize+1)&~1); // round to double word sizes
|
||||
}
|
||||
#else
|
||||
else if (wsize <= 8) {
|
||||
bin = (uint8_t)wsize;
|
||||
}
|
||||
#endif
|
||||
else if (wsize > MI_LARGE_WSIZE_MAX) {
|
||||
bin = MI_BIN_HUGE;
|
||||
}
|
||||
else {
|
||||
#if defined(MI_ALIGN4W)
|
||||
if (wsize <= 16) { wsize = (wsize+3)&~3; } // round to 4x word sizes
|
||||
#endif
|
||||
wsize--;
|
||||
// find the highest bit
|
||||
uint8_t b = mi_bsr32((uint32_t)wsize);
|
||||
// and use the top 3 bits to determine the bin (~16% worst internal fragmentation).
|
||||
// - adjust with 3 because we use do not round the first 8 sizes
|
||||
// which each get an exact bin
|
||||
bin = ((b << 2) + (uint8_t)((wsize >> (b - 2)) & 0x03)) - 3;
|
||||
}
|
||||
mi_assert_internal(bin > 0 && bin <= MI_BIN_HUGE);
|
||||
return bin;
|
||||
}
|
||||
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Queue of pages with free blocks
|
||||
----------------------------------------------------------- */
|
||||
|
||||
size_t _mi_bin_size(uint8_t bin) {
|
||||
return _mi_heap_empty.pages[bin].block_size;
|
||||
}
|
||||
|
||||
// Good size for allocation
|
||||
size_t mi_good_size(size_t size) mi_attr_noexcept {
|
||||
if (size <= MI_LARGE_SIZE_MAX) {
|
||||
return _mi_bin_size(_mi_bin(size));
|
||||
}
|
||||
else {
|
||||
return _mi_align_up(size,_mi_os_page_size());
|
||||
}
|
||||
}
|
||||
|
||||
#if (MI_DEBUG>1)
|
||||
static bool mi_page_queue_contains(mi_page_queue_t* queue, const mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
mi_page_t* list = queue->first;
|
||||
while (list != NULL) {
|
||||
mi_assert_internal(list->next == NULL || list->next->prev == list);
|
||||
mi_assert_internal(list->prev == NULL || list->prev->next == list);
|
||||
if (list == page) break;
|
||||
list = list->next;
|
||||
}
|
||||
return (list == page);
|
||||
}
|
||||
|
||||
#endif
|
||||
|
||||
#if (MI_DEBUG>1)
|
||||
static bool mi_heap_contains_queue(const mi_heap_t* heap, const mi_page_queue_t* pq) {
|
||||
return (pq >= &heap->pages[0] && pq <= &heap->pages[MI_BIN_FULL]);
|
||||
}
|
||||
#endif
|
||||
|
||||
static mi_page_queue_t* mi_page_queue_of(const mi_page_t* page) {
|
||||
uint8_t bin = (page->flags.in_full ? MI_BIN_FULL : _mi_bin(page->block_size));
|
||||
mi_heap_t* heap = page->heap;
|
||||
mi_assert_internal(heap != NULL && bin <= MI_BIN_FULL);
|
||||
mi_page_queue_t* pq = &heap->pages[bin];
|
||||
mi_assert_internal(bin >= MI_BIN_HUGE || page->block_size == pq->block_size);
|
||||
mi_assert_expensive(mi_page_queue_contains(pq, page));
|
||||
return pq;
|
||||
}
|
||||
|
||||
static mi_page_queue_t* mi_heap_page_queue_of(mi_heap_t* heap, const mi_page_t* page) {
|
||||
uint8_t bin = (page->flags.in_full ? MI_BIN_FULL : _mi_bin(page->block_size));
|
||||
mi_assert_internal(bin <= MI_BIN_FULL);
|
||||
mi_page_queue_t* pq = &heap->pages[bin];
|
||||
mi_assert_internal(page->flags.in_full || page->block_size == pq->block_size);
|
||||
return pq;
|
||||
}
|
||||
|
||||
// The current small page array is for efficiency and for each
|
||||
// small size (up to 256) it points directly to the page for that
|
||||
// size without having to compute the bin. This means when the
|
||||
// current free page queue is updated for a small bin, we need to update a
|
||||
// range of entries in `_mi_page_small_free`.
|
||||
static inline void mi_heap_queue_first_update(mi_heap_t* heap, const mi_page_queue_t* pq) {
|
||||
mi_assert_internal(mi_heap_contains_queue(heap,pq));
|
||||
size_t size = pq->block_size;
|
||||
if (size > MI_SMALL_SIZE_MAX) return;
|
||||
|
||||
mi_page_t* page = pq->first;
|
||||
if (pq->first == NULL) page = (mi_page_t*)&_mi_page_empty;
|
||||
|
||||
// find index in the right direct page array
|
||||
size_t start;
|
||||
size_t idx = _mi_wsize_from_size(size);
|
||||
mi_page_t** pages_free = heap->pages_free_direct;
|
||||
|
||||
if (pages_free[idx] == page) return; // already set
|
||||
|
||||
// find start slot
|
||||
if (idx<=1) {
|
||||
start = 0;
|
||||
}
|
||||
else {
|
||||
// find previous size; due to minimal alignment upto 3 previous bins may need to be skipped
|
||||
uint8_t bin = _mi_bin(size);
|
||||
const mi_page_queue_t* prev = pq - 1;
|
||||
while( bin == _mi_bin(prev->block_size) && prev > &heap->pages[0]) {
|
||||
prev--;
|
||||
}
|
||||
start = 1 + _mi_wsize_from_size(prev->block_size);
|
||||
if (start > idx) start = idx;
|
||||
}
|
||||
|
||||
// set size range to the right page
|
||||
mi_assert(start <= idx);
|
||||
for (size_t sz = start; sz <= idx; sz++) {
|
||||
pages_free[sz] = page;
|
||||
}
|
||||
}
|
||||
|
||||
/*
|
||||
static bool mi_page_queue_is_empty(mi_page_queue_t* queue) {
|
||||
return (queue->first == NULL);
|
||||
}
|
||||
*/
|
||||
|
||||
static void mi_page_queue_remove(mi_page_queue_t* queue, mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
mi_assert_expensive(mi_page_queue_contains(queue, page));
|
||||
mi_assert_internal(page->block_size == queue->block_size || (page->block_size > MI_LARGE_SIZE_MAX && mi_page_queue_is_huge(queue)) || (page->flags.in_full && mi_page_queue_is_full(queue)));
|
||||
if (page->prev != NULL) page->prev->next = page->next;
|
||||
if (page->next != NULL) page->next->prev = page->prev;
|
||||
if (page == queue->last) queue->last = page->prev;
|
||||
if (page == queue->first) {
|
||||
queue->first = page->next;
|
||||
// update first
|
||||
mi_heap_t* heap = page->heap;
|
||||
mi_assert_internal(mi_heap_contains_queue(heap, queue));
|
||||
mi_heap_queue_first_update(heap,queue);
|
||||
}
|
||||
page->heap->page_count--;
|
||||
page->next = NULL;
|
||||
page->prev = NULL;
|
||||
page->heap = NULL;
|
||||
page->flags.in_full = false;
|
||||
}
|
||||
|
||||
|
||||
static void mi_page_queue_push(mi_heap_t* heap, mi_page_queue_t* queue, mi_page_t* page) {
|
||||
mi_assert_internal(page->heap == NULL);
|
||||
mi_assert_internal(!mi_page_queue_contains(queue, page));
|
||||
mi_assert_internal(page->block_size == queue->block_size || (page->block_size > MI_LARGE_SIZE_MAX && mi_page_queue_is_huge(queue)) || (page->flags.in_full && mi_page_queue_is_full(queue)));
|
||||
|
||||
page->flags.in_full = mi_page_queue_is_full(queue);
|
||||
page->heap = heap;
|
||||
page->next = queue->first;
|
||||
page->prev = NULL;
|
||||
if (queue->first != NULL) {
|
||||
mi_assert_internal(queue->first->prev == NULL);
|
||||
queue->first->prev = page;
|
||||
queue->first = page;
|
||||
}
|
||||
else {
|
||||
queue->first = queue->last = page;
|
||||
}
|
||||
|
||||
// update direct
|
||||
mi_heap_queue_first_update(heap, queue);
|
||||
heap->page_count++;
|
||||
}
|
||||
|
||||
|
||||
static void mi_page_queue_enqueue_from(mi_page_queue_t* to, mi_page_queue_t* from, mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
mi_assert_expensive(mi_page_queue_contains(from, page));
|
||||
mi_assert_expensive(!mi_page_queue_contains(to, page));
|
||||
mi_assert_internal(page->block_size == to->block_size ||
|
||||
(page->block_size > MI_LARGE_SIZE_MAX && mi_page_queue_is_huge(to)) ||
|
||||
(page->block_size == from->block_size && mi_page_queue_is_full(to)));
|
||||
|
||||
if (page->prev != NULL) page->prev->next = page->next;
|
||||
if (page->next != NULL) page->next->prev = page->prev;
|
||||
if (page == from->last) from->last = page->prev;
|
||||
if (page == from->first) {
|
||||
from->first = page->next;
|
||||
// update first
|
||||
mi_heap_t* heap = page->heap;
|
||||
mi_assert_internal(mi_heap_contains_queue(heap, from));
|
||||
mi_heap_queue_first_update(heap, from);
|
||||
}
|
||||
|
||||
page->prev = to->last;
|
||||
page->next = NULL;
|
||||
if (to->last != NULL) {
|
||||
mi_assert_internal(page->heap == to->last->heap);
|
||||
to->last->next = page;
|
||||
to->last = page;
|
||||
}
|
||||
else {
|
||||
to->first = page;
|
||||
to->last = page;
|
||||
mi_heap_queue_first_update(page->heap, to);
|
||||
}
|
||||
|
||||
page->flags.in_full = mi_page_queue_is_full(to);
|
||||
}
|
||||
|
||||
void _mi_page_queue_append(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_queue_t* append) {
|
||||
mi_assert_internal(mi_heap_contains_queue(heap,pq));
|
||||
mi_assert_internal(pq->block_size == append->block_size);
|
||||
|
||||
if (append->first==NULL) return;
|
||||
|
||||
// set append pages to new heap
|
||||
for (mi_page_t* page = append->first; page != NULL; page = page->next) {
|
||||
page->heap = heap;
|
||||
}
|
||||
|
||||
if (pq->last==NULL) {
|
||||
// take over afresh
|
||||
mi_assert_internal(pq->first==NULL);
|
||||
pq->first = append->first;
|
||||
pq->last = append->last;
|
||||
mi_heap_queue_first_update(heap, pq);
|
||||
}
|
||||
else {
|
||||
// append to end
|
||||
mi_assert_internal(pq->last!=NULL);
|
||||
mi_assert_internal(append->first!=NULL);
|
||||
pq->last->next = append->first;
|
||||
append->first->prev = pq->last;
|
||||
pq->last = append->last;
|
||||
}
|
||||
}
|
710
src/page.c
Normal file
710
src/page.c
Normal file
@ -0,0 +1,710 @@
|
||||
/*----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
The core of the allocator. Every segment contains
|
||||
pages of a certain block size. The main function
|
||||
exported is `mi_malloc_generic`.
|
||||
----------------------------------------------------------- */
|
||||
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
#include "mimalloc-atomic.h"
|
||||
|
||||
#include <string.h> // memset, memcpy
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Definition of page queues for each block size
|
||||
----------------------------------------------------------- */
|
||||
|
||||
#define MI_IN_PAGE_C
|
||||
#include "page-queue.c"
|
||||
#undef MI_IN_PAGE_C
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Page helpers
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// Index a block in a page
|
||||
static inline mi_block_t* mi_page_block_at(const mi_page_t* page, void* page_start, size_t i) {
|
||||
mi_assert_internal(page != NULL);
|
||||
mi_assert_internal(i <= page->reserved);
|
||||
return (mi_block_t*)((uint8_t*)page_start + (i * page->block_size));
|
||||
}
|
||||
|
||||
static void mi_page_init(mi_heap_t* heap, mi_page_t* page, size_t size, mi_stats_t* stats);
|
||||
|
||||
|
||||
#if (MI_DEBUG>1)
|
||||
static size_t mi_page_list_count(mi_page_t* page, mi_block_t* head) {
|
||||
size_t count = 0;
|
||||
while (head != NULL) {
|
||||
mi_assert_internal(page == _mi_ptr_page(head));
|
||||
count++;
|
||||
head = mi_block_next(page, head);
|
||||
}
|
||||
return count;
|
||||
}
|
||||
|
||||
// Start of the page available memory
|
||||
static inline uint8_t* mi_page_area(const mi_page_t* page) {
|
||||
return _mi_page_start(_mi_page_segment(page), page, NULL);
|
||||
}
|
||||
|
||||
|
||||
static bool mi_page_list_is_valid(mi_page_t* page, mi_block_t* p) {
|
||||
size_t psize;
|
||||
uint8_t* page_area = _mi_page_start(_mi_page_segment(page), page, &psize);
|
||||
mi_block_t* start = (mi_block_t*)page_area;
|
||||
mi_block_t* end = (mi_block_t*)(page_area + psize);
|
||||
while(p != NULL) {
|
||||
if (p < start || p >= end) return false;
|
||||
p = mi_block_next(page, p);
|
||||
}
|
||||
return true;
|
||||
}
|
||||
|
||||
static bool mi_page_is_valid_init(mi_page_t* page) {
|
||||
mi_assert_internal(page->block_size > 0);
|
||||
mi_assert_internal(page->used <= page->capacity);
|
||||
mi_assert_internal(page->capacity <= page->reserved);
|
||||
|
||||
mi_segment_t* segment = _mi_page_segment(page);
|
||||
uint8_t* start = _mi_page_start(segment,page,NULL);
|
||||
mi_assert_internal(start == _mi_segment_page_start(segment,page,NULL));
|
||||
//mi_assert_internal(start + page->capacity*page->block_size == page->top);
|
||||
|
||||
mi_assert_internal(mi_page_list_is_valid(page,page->free));
|
||||
mi_assert_internal(mi_page_list_is_valid(page,page->local_free));
|
||||
|
||||
mi_block_t* tfree = (mi_block_t*)((uintptr_t)page->thread_free.head << MI_TF_PTR_SHIFT);
|
||||
mi_assert_internal(mi_page_list_is_valid(page, tfree));
|
||||
size_t tfree_count = mi_page_list_count(page, tfree);
|
||||
mi_assert_internal(tfree_count <= page->thread_freed + 1);
|
||||
|
||||
size_t free_count = mi_page_list_count(page, page->free) + mi_page_list_count(page, page->local_free);
|
||||
mi_assert_internal(page->used + free_count == page->capacity);
|
||||
|
||||
return true;
|
||||
}
|
||||
|
||||
bool _mi_page_is_valid(mi_page_t* page) {
|
||||
mi_assert_internal(mi_page_is_valid_init(page));
|
||||
mi_assert_internal(page->cookie != 0);
|
||||
if (page->heap!=NULL) {
|
||||
mi_segment_t* segment = _mi_page_segment(page);
|
||||
mi_assert_internal(segment->thread_id == page->heap->thread_id);
|
||||
mi_page_queue_t* pq = mi_page_queue_of(page);
|
||||
mi_assert_internal(mi_page_queue_contains(pq, page));
|
||||
mi_assert_internal(pq->block_size==page->block_size || page->block_size > MI_LARGE_SIZE_MAX || page->flags.in_full);
|
||||
mi_assert_internal(mi_heap_contains_queue(page->heap,pq));
|
||||
}
|
||||
return true;
|
||||
}
|
||||
#endif
|
||||
|
||||
|
||||
void _mi_page_use_delayed_free(mi_page_t* page, bool enable) {
|
||||
mi_thread_free_t tfree;
|
||||
mi_thread_free_t tfreex;
|
||||
|
||||
do {
|
||||
tfreex = tfree = page->thread_free;
|
||||
tfreex.delayed = (enable ? MI_USE_DELAYED_FREE : MI_NO_DELAYED_FREE);
|
||||
if (mi_unlikely(tfree.delayed == MI_DELAYED_FREEING)) {
|
||||
mi_atomic_yield(); // delay until outstanding MI_DELAYED_FREEING are done.
|
||||
continue; // and try again
|
||||
}
|
||||
}
|
||||
while(tfreex.delayed != tfree.delayed && // avoid atomic operation if already equal
|
||||
!mi_atomic_compare_exchange((volatile uintptr_t*)&page->thread_free, tfreex.value, tfree.value));
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Page collect the `local_free` and `thread_free` lists
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// Collect the local `thread_free` list using an atomic exchange.
|
||||
// Note: The exchange must be done atomically as this is used right after
|
||||
// moving to the full list in `mi_page_collect_ex` and we need to
|
||||
// ensure that there was no race where the page became unfull just before the move.
|
||||
static void mi_page_thread_free_collect(mi_page_t* page)
|
||||
{
|
||||
mi_block_t* head;
|
||||
mi_thread_free_t tfree;
|
||||
mi_thread_free_t tfreex;
|
||||
do {
|
||||
tfreex = tfree = page->thread_free;
|
||||
head = (mi_block_t*)((uintptr_t)tfree.head << MI_TF_PTR_SHIFT);
|
||||
tfreex.head = 0;
|
||||
} while (!mi_atomic_compare_exchange((volatile uintptr_t*)&page->thread_free, tfreex.value, tfree.value));
|
||||
|
||||
// return if the list is empty
|
||||
if (head == NULL) return;
|
||||
|
||||
// find the tail
|
||||
uint16_t count = 1;
|
||||
mi_block_t* tail = head;
|
||||
mi_block_t* next;
|
||||
while ((next = mi_block_next(page,tail)) != NULL) {
|
||||
count++;
|
||||
tail = next;
|
||||
}
|
||||
|
||||
// and prepend to the free list
|
||||
mi_block_set_next(page,tail, page->free);
|
||||
page->free = head;
|
||||
|
||||
// update counts now
|
||||
mi_atomic_subtract(&page->thread_freed, count);
|
||||
page->used -= count;
|
||||
}
|
||||
|
||||
void _mi_page_free_collect(mi_page_t* page) {
|
||||
mi_assert_internal(page!=NULL);
|
||||
//if (page->free != NULL) return; // avoid expensive append
|
||||
|
||||
// free the local free list
|
||||
if (page->local_free != NULL) {
|
||||
if (mi_likely(page->free == NULL)) {
|
||||
// usual caes
|
||||
page->free = page->local_free;
|
||||
}
|
||||
else {
|
||||
mi_block_t* tail = page->free;
|
||||
mi_block_t* next;
|
||||
while ((next = mi_block_next(page, tail)) != NULL) {
|
||||
tail = next;
|
||||
}
|
||||
mi_block_set_next(page, tail, page->local_free);
|
||||
}
|
||||
page->local_free = NULL;
|
||||
}
|
||||
// and the thread free list
|
||||
if (page->thread_free.head != 0) { // quick test to avoid an atomic operation
|
||||
mi_page_thread_free_collect(page);
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Page fresh and retire
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// called from segments when reclaiming abandoned pages
|
||||
void _mi_page_reclaim(mi_heap_t* heap, mi_page_t* page) {
|
||||
mi_assert_expensive(mi_page_is_valid_init(page));
|
||||
mi_assert_internal(page->heap == NULL);
|
||||
_mi_page_free_collect(page);
|
||||
mi_page_queue_t* pq = mi_page_queue(heap, page->block_size);
|
||||
mi_page_queue_push(heap, pq, page);
|
||||
mi_assert_expensive(_mi_page_is_valid(page));
|
||||
}
|
||||
|
||||
// allocate a fresh page from a segment
|
||||
static mi_page_t* mi_page_fresh_alloc(mi_heap_t* heap, mi_page_queue_t* pq, size_t block_size) {
|
||||
mi_assert_internal(mi_heap_contains_queue(heap, pq));
|
||||
mi_page_t* page = _mi_segment_page_alloc(block_size, &heap->tld->segments, &heap->tld->os);
|
||||
if (page == NULL) return NULL;
|
||||
mi_page_init(heap, page, block_size, &heap->tld->stats);
|
||||
mi_heap_stat_increase( heap, pages, 1);
|
||||
mi_page_queue_push(heap, pq, page);
|
||||
mi_assert_expensive(_mi_page_is_valid(page));
|
||||
return page;
|
||||
}
|
||||
|
||||
// Get a fresh page to use
|
||||
static mi_page_t* mi_page_fresh(mi_heap_t* heap, mi_page_queue_t* pq) {
|
||||
mi_assert_internal(mi_heap_contains_queue(heap, pq));
|
||||
|
||||
// try to reclaim an abandoned page first
|
||||
mi_page_t* page = pq->first;
|
||||
if (!heap->no_reclaim &&
|
||||
_mi_segment_try_reclaim_abandoned(heap, false, &heap->tld->segments) &&
|
||||
page != pq->first)
|
||||
{
|
||||
// we reclaimed, and we got lucky with a reclaimed page in our queue
|
||||
page = pq->first;
|
||||
if (page->free != NULL) return page;
|
||||
}
|
||||
// otherwise allocate the page
|
||||
page = mi_page_fresh_alloc(heap, pq, pq->block_size);
|
||||
if (page==NULL) return NULL;
|
||||
mi_assert_internal(pq->block_size==page->block_size);
|
||||
mi_assert_internal(pq==mi_page_queue(heap,page->block_size));
|
||||
return page;
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Do any delayed frees
|
||||
(put there by other threads if they deallocated in a full page)
|
||||
----------------------------------------------------------- */
|
||||
void _mi_heap_delayed_free(mi_heap_t* heap) {
|
||||
// take over the list
|
||||
mi_block_t* block;
|
||||
do {
|
||||
block = (mi_block_t*)heap->thread_delayed_free;
|
||||
} while (block != NULL && !mi_atomic_compare_exchange_ptr((volatile void**)&heap->thread_delayed_free, NULL, block));
|
||||
|
||||
// and free them all
|
||||
while(block != NULL) {
|
||||
mi_block_t* next = mi_block_nextx(heap->cookie,block);
|
||||
// use internal free instead of regular one to keep stats etc correct
|
||||
_mi_free_delayed_block(block);
|
||||
block = next;
|
||||
}
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Unfull, abandon, free and retire
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// Move a page from the full list back to a regular list
|
||||
void _mi_page_unfull(mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
mi_assert_expensive(_mi_page_is_valid(page));
|
||||
mi_assert_internal(page->flags.in_full);
|
||||
|
||||
_mi_page_use_delayed_free(page, false);
|
||||
if (!page->flags.in_full) return;
|
||||
|
||||
mi_heap_t* heap = page->heap;
|
||||
mi_page_queue_t* pqfull = &heap->pages[MI_BIN_FULL];
|
||||
page->flags.in_full = false; // to get the right queue
|
||||
mi_page_queue_t* pq = mi_heap_page_queue_of(heap, page);
|
||||
page->flags.in_full = true;
|
||||
mi_page_queue_enqueue_from(pq, pqfull, page);
|
||||
}
|
||||
|
||||
static void mi_page_to_full(mi_page_t* page, mi_page_queue_t* pq) {
|
||||
mi_assert_internal(pq == mi_page_queue_of(page));
|
||||
mi_assert_internal(!mi_page_immediate_available(page));
|
||||
mi_assert_internal(!page->flags.in_full);
|
||||
|
||||
_mi_page_use_delayed_free(page, true);
|
||||
if (page->flags.in_full) return;
|
||||
|
||||
mi_page_queue_enqueue_from(&page->heap->pages[MI_BIN_FULL], pq, page);
|
||||
mi_page_thread_free_collect(page); // try to collect right away in case another thread freed just before MI_USE_DELAYED_FREE was set
|
||||
}
|
||||
|
||||
|
||||
// Abandon a page with used blocks at the end of a thread.
|
||||
// Note: only call if it is ensured that no references exist from
|
||||
// the `page->heap->thread_delayed_free` into this page.
|
||||
// Currently only called through `mi_heap_collect_ex` which ensures this.
|
||||
void _mi_page_abandon(mi_page_t* page, mi_page_queue_t* pq) {
|
||||
mi_assert_internal(page != NULL);
|
||||
mi_assert_expensive(_mi_page_is_valid(page));
|
||||
mi_assert_internal(pq == mi_page_queue_of(page));
|
||||
mi_assert_internal(page->heap != NULL);
|
||||
mi_assert_internal(page->thread_free.delayed == MI_NO_DELAYED_FREE);
|
||||
|
||||
#if MI_DEBUG>1
|
||||
// check there are no references left..
|
||||
for (mi_block_t* block = (mi_block_t*)page->heap->thread_delayed_free; block != NULL; block = mi_block_nextx(page->heap->cookie,block)) {
|
||||
mi_assert_internal(_mi_ptr_page(block) != page);
|
||||
}
|
||||
#endif
|
||||
|
||||
// and then remove from our page list
|
||||
mi_segments_tld_t* segments_tld = &page->heap->tld->segments;
|
||||
mi_page_queue_remove(pq, page);
|
||||
|
||||
// and abandon it
|
||||
mi_assert_internal(page->heap == NULL);
|
||||
_mi_segment_page_abandon(page,segments_tld);
|
||||
}
|
||||
|
||||
|
||||
// Free a page with no more free blocks
|
||||
void _mi_page_free(mi_page_t* page, mi_page_queue_t* pq, bool force) {
|
||||
mi_assert_internal(page != NULL);
|
||||
mi_assert_expensive(_mi_page_is_valid(page));
|
||||
mi_assert_internal(pq == mi_page_queue_of(page));
|
||||
mi_assert_internal(mi_page_all_free(page));
|
||||
mi_assert_internal(page->thread_free.delayed != MI_DELAYED_FREEING);
|
||||
|
||||
page->flags.has_aligned = false;
|
||||
|
||||
// account for huge pages here
|
||||
if (page->block_size > MI_LARGE_SIZE_MAX) {
|
||||
mi_heap_stat_decrease(page->heap, huge, page->block_size);
|
||||
}
|
||||
|
||||
// remove from the page list
|
||||
// (no need to do _mi_heap_delayed_free first as all blocks are already free)
|
||||
mi_segments_tld_t* segments_tld = &page->heap->tld->segments;
|
||||
mi_page_queue_remove(pq, page);
|
||||
|
||||
// and free it
|
||||
mi_assert_internal(page->heap == NULL);
|
||||
_mi_segment_page_free(page, force, segments_tld);
|
||||
}
|
||||
|
||||
// Retire a page with no more used blocks
|
||||
// Important to not retire too quickly though as new
|
||||
// allocations might coming.
|
||||
// Note: called from `mi_free` and benchmarks often
|
||||
// trigger this due to freeing everything and then
|
||||
// allocating again so careful when changing this.
|
||||
void _mi_page_retire(mi_page_t* page) {
|
||||
mi_assert_internal(page != NULL);
|
||||
mi_assert_expensive(_mi_page_is_valid(page));
|
||||
mi_assert_internal(mi_page_all_free(page));
|
||||
|
||||
page->flags.has_aligned = false;
|
||||
|
||||
// don't retire too often..
|
||||
// (or we end up retiring and re-allocating most of the time)
|
||||
// NOTE: refine this more: we should not retire if this
|
||||
// is the only page left with free blocks. It is not clear
|
||||
// how to check this efficiently though... for now we just check
|
||||
// if its neighbours are almost fully used.
|
||||
if (mi_likely(page->block_size <= MI_LARGE_SIZE_MAX)) {
|
||||
if (mi_page_mostly_used(page->prev) && mi_page_mostly_used(page->next)) {
|
||||
return; // dont't retire after all
|
||||
}
|
||||
}
|
||||
|
||||
_mi_page_free(page, mi_page_queue_of(page), false);
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Initialize the initial free list in a page.
|
||||
In secure mode we initialize a randomized list by
|
||||
alternating between slices.
|
||||
----------------------------------------------------------- */
|
||||
|
||||
#define MI_MAX_SLICE_SHIFT (6) // at most 64 slices
|
||||
#define MI_MAX_SLICES (1UL << MI_MAX_SLICE_SHIFT)
|
||||
#define MI_MIN_SLICES (2)
|
||||
|
||||
static void mi_page_free_list_extend( mi_heap_t* heap, mi_page_t* page, size_t extend, mi_stats_t* stats)
|
||||
{
|
||||
UNUSED(stats);
|
||||
void* page_area = _mi_page_start(_mi_page_segment(page), page, NULL );
|
||||
size_t bsize = page->block_size;
|
||||
mi_block_t* start = mi_page_block_at(page, page_area, page->capacity);
|
||||
if (extend < MI_MIN_SLICES || !mi_option_is_enabled(mi_option_secure)) {
|
||||
// initialize a sequential free list
|
||||
mi_block_t* end = mi_page_block_at(page, page_area, page->capacity + extend - 1);
|
||||
mi_block_t* block = start;
|
||||
for (size_t i = 0; i < extend; i++) {
|
||||
mi_block_t* next = (mi_block_t*)((uint8_t*)block + bsize);
|
||||
mi_block_set_next(page,block,next);
|
||||
block = next;
|
||||
}
|
||||
mi_block_set_next(page, end, NULL);
|
||||
page->free = start;
|
||||
}
|
||||
else {
|
||||
// initialize a randomized free list
|
||||
// set up `slice_count` slices to alternate between
|
||||
size_t shift = MI_MAX_SLICE_SHIFT;
|
||||
while ((extend >> shift) == 0) {
|
||||
shift--;
|
||||
}
|
||||
size_t slice_count = (size_t)1U << shift;
|
||||
size_t slice_extend = extend / slice_count;
|
||||
mi_assert_internal(slice_extend >= 1);
|
||||
mi_block_t* blocks[MI_MAX_SLICES]; // current start of the slice
|
||||
size_t counts[MI_MAX_SLICES]; // available objects in the slice
|
||||
for (size_t i = 0; i < slice_count; i++) {
|
||||
blocks[i] = mi_page_block_at(page, page_area, page->capacity + i*slice_extend);
|
||||
counts[i] = slice_extend;
|
||||
}
|
||||
counts[slice_count-1] += (extend % slice_count); // final slice holds the modulus too (todo: distribute evenly?)
|
||||
|
||||
// and initialize the free list by randomly threading through them
|
||||
// set up first element
|
||||
size_t current = _mi_heap_random(heap) % slice_count;
|
||||
counts[current]--;
|
||||
page->free = blocks[current];
|
||||
// and iterate through the rest
|
||||
uintptr_t rnd = heap->random;
|
||||
for (size_t i = 1; i < extend; i++) {
|
||||
// call random_shuffle only every INTPTR_SIZE rounds
|
||||
size_t round = i%MI_INTPTR_SIZE;
|
||||
if (round == 0) rnd = _mi_random_shuffle(rnd);
|
||||
// select a random next slice index
|
||||
size_t next = ((rnd >> 8*round) & (slice_count-1));
|
||||
while (counts[next]==0) { // ensure it still has space
|
||||
next++;
|
||||
if (next==slice_count) next = 0;
|
||||
}
|
||||
// and link the current block to it
|
||||
counts[next]--;
|
||||
mi_block_t* block = blocks[current];
|
||||
blocks[current] = (mi_block_t*)((uint8_t*)block + bsize); // bump to the following block
|
||||
mi_block_set_next(page, block, blocks[next]); // and set next; note: we may have `current == next`
|
||||
current = next;
|
||||
}
|
||||
mi_block_set_next( page, blocks[current], NULL); // end of the list
|
||||
heap->random = _mi_random_shuffle(rnd);
|
||||
}
|
||||
// enable the new free list
|
||||
page->capacity += (uint16_t)extend;
|
||||
mi_stat_increase(stats->committed, extend * page->block_size);
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Page initialize and extend the capacity
|
||||
----------------------------------------------------------- */
|
||||
|
||||
#define MI_MAX_EXTEND_SIZE (4*1024) // heuristic, one OS page seems to work well.
|
||||
#if MI_SECURE
|
||||
#define MI_MIN_EXTEND (8*MI_SECURE) // extend at least by this many
|
||||
#else
|
||||
#define MI_MIN_EXTEND (1)
|
||||
#endif
|
||||
|
||||
// Extend the capacity (up to reserved) by initializing a free list
|
||||
// We do at most `MI_MAX_EXTEND` to avoid touching too much memory
|
||||
// Note: we also experimented with "bump" allocation on the first
|
||||
// allocations but this did not speed up any benchmark (due to an
|
||||
// extra test in malloc? or cache effects?)
|
||||
static void mi_page_extend_free(mi_heap_t* heap, mi_page_t* page, mi_stats_t* stats) {
|
||||
UNUSED(stats);
|
||||
mi_assert(page->free == NULL);
|
||||
mi_assert(page->local_free == NULL);
|
||||
mi_assert_expensive(mi_page_is_valid_init(page));
|
||||
if (page->free != NULL) return;
|
||||
if (page->capacity >= page->reserved) return;
|
||||
|
||||
size_t page_size;
|
||||
_mi_page_start(_mi_page_segment(page), page, &page_size);
|
||||
if (page->is_reset) {
|
||||
page->is_reset = false;
|
||||
mi_stat_decrease( stats->reset, page_size);
|
||||
}
|
||||
|
||||
mi_stat_increase( stats->pages_extended, 1);
|
||||
|
||||
// calculate the extend count
|
||||
size_t extend = page->reserved - page->capacity;
|
||||
size_t max_extend = MI_MAX_EXTEND_SIZE/page->block_size;
|
||||
if (max_extend < MI_MIN_EXTEND) max_extend = MI_MIN_EXTEND;
|
||||
|
||||
if (extend > max_extend) {
|
||||
// ensure we don't touch memory beyond the page to reduce page commit.
|
||||
// the `lean` benchmark tests this. Going from 1 to 8 increases rss by 50%.
|
||||
extend = (max_extend==0 ? 1 : max_extend);
|
||||
}
|
||||
|
||||
mi_assert_internal(extend > 0 && extend + page->capacity <= page->reserved);
|
||||
mi_assert_internal(extend < (1UL<<16));
|
||||
|
||||
// and append the extend the free list
|
||||
mi_page_free_list_extend(heap, page, extend, stats );
|
||||
|
||||
mi_assert_expensive(mi_page_is_valid_init(page));
|
||||
}
|
||||
|
||||
// Initialize a fresh page
|
||||
static void mi_page_init(mi_heap_t* heap, mi_page_t* page, size_t block_size, mi_stats_t* stats) {
|
||||
mi_assert(page != NULL);
|
||||
mi_segment_t* segment = _mi_page_segment(page);
|
||||
mi_assert(segment != NULL);
|
||||
// set fields
|
||||
size_t page_size;
|
||||
_mi_segment_page_start(segment, page, &page_size);
|
||||
page->block_size = block_size;
|
||||
mi_assert_internal(block_size>0);
|
||||
mi_assert_internal(page_size / block_size < (1L<<16));
|
||||
page->reserved = (uint16_t)(page_size / block_size);
|
||||
page->cookie = _mi_heap_random(heap) | 1;
|
||||
|
||||
mi_assert_internal(page->capacity == 0);
|
||||
mi_assert_internal(page->free == NULL);
|
||||
mi_assert_internal(page->used == 0);
|
||||
mi_assert_internal(page->thread_free.value == 0);
|
||||
mi_assert_internal(page->thread_freed == 0);
|
||||
mi_assert_internal(page->next == NULL);
|
||||
mi_assert_internal(page->prev == NULL);
|
||||
mi_assert_internal(page->flags.has_aligned == false);
|
||||
mi_assert_internal(page->cookie != 0);
|
||||
mi_assert_expensive(mi_page_is_valid_init(page));
|
||||
|
||||
// initialize an initial free list
|
||||
mi_page_extend_free(heap,page,stats);
|
||||
mi_assert(mi_page_immediate_available(page));
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Find pages with free blocks
|
||||
-------------------------------------------------------------*/
|
||||
|
||||
// Find a page with free blocks of `page->block_size`.
|
||||
static mi_page_t* mi_page_queue_find_free_ex(mi_heap_t* heap, mi_page_queue_t* pq)
|
||||
{
|
||||
// search through the pages in "next fit" order
|
||||
mi_page_t* rpage = NULL;
|
||||
size_t count = 0;
|
||||
size_t page_free_count = 0;
|
||||
mi_page_t* page = pq->first;
|
||||
while( page != NULL)
|
||||
{
|
||||
mi_page_t* next = page->next; // remember next
|
||||
count++;
|
||||
|
||||
// 0. collect freed blocks by us and other threads
|
||||
_mi_page_free_collect(page);
|
||||
|
||||
// 1. if the page contains free blocks, we are done
|
||||
if (mi_page_immediate_available(page)) {
|
||||
// If all blocks are free, we might retire this page instead.
|
||||
// do this at most 8 times to bound allocation time.
|
||||
// (note: this can happen if a page was earlier not retired due
|
||||
// to having neighbours that were mostly full or due to concurrent frees)
|
||||
if (page_free_count < 8 && mi_page_all_free(page)) {
|
||||
page_free_count++;
|
||||
if (rpage != NULL) _mi_page_free(rpage,pq,false);
|
||||
rpage = page;
|
||||
page = next;
|
||||
continue; // and keep looking
|
||||
}
|
||||
else {
|
||||
break; // pick this one
|
||||
}
|
||||
}
|
||||
|
||||
// 2. Try to extend
|
||||
if (page->capacity < page->reserved) {
|
||||
mi_page_extend_free(heap, page, &heap->tld->stats);
|
||||
mi_assert_internal(mi_page_immediate_available(page));
|
||||
break;
|
||||
}
|
||||
|
||||
// 3. If the page is completely full, move it to the `mi_pages_full`
|
||||
// queue so we don't visit long-lived pages too often.
|
||||
mi_assert_internal(!page->flags.in_full && !mi_page_immediate_available(page));
|
||||
mi_page_to_full(page,pq);
|
||||
|
||||
page = next;
|
||||
} // for each page
|
||||
|
||||
mi_stat_counter_increase(heap->tld->stats.searches,count);
|
||||
|
||||
if (page == NULL) {
|
||||
page = rpage;
|
||||
rpage = NULL;
|
||||
}
|
||||
if (rpage != NULL) {
|
||||
_mi_page_free(rpage,pq,false);
|
||||
}
|
||||
|
||||
if (page == NULL) {
|
||||
page = mi_page_fresh(heap, pq);
|
||||
}
|
||||
else {
|
||||
mi_assert(pq->first == page);
|
||||
}
|
||||
mi_assert_internal(mi_page_immediate_available(page));
|
||||
return page;
|
||||
}
|
||||
|
||||
|
||||
// Find a page with free blocks of `size`.
|
||||
static inline mi_page_t* mi_find_free_page(mi_heap_t* heap, size_t size) {
|
||||
_mi_heap_delayed_free(heap);
|
||||
mi_page_queue_t* pq = mi_page_queue(heap,size);
|
||||
mi_page_t* page = pq->first;
|
||||
if (page != NULL) {
|
||||
if (mi_option_get(mi_option_secure) >= 3 && page->capacity < page->reserved && ((_mi_heap_random(heap) & 1) == 1)) {
|
||||
// in secure mode, we extend half the time to increase randomness
|
||||
mi_page_extend_free(heap, page, &heap->tld->stats);
|
||||
mi_assert_internal(mi_page_immediate_available(page));
|
||||
}
|
||||
else {
|
||||
_mi_page_free_collect(page);
|
||||
}
|
||||
if (mi_page_immediate_available(page)) {
|
||||
return page; // fast path
|
||||
}
|
||||
}
|
||||
return mi_page_queue_find_free_ex(heap, pq);
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Users can register a deferred free function called
|
||||
when the `free` list is empty. Since the `local_free`
|
||||
is separate this is deterministically called after
|
||||
a certain number of allocations.
|
||||
----------------------------------------------------------- */
|
||||
|
||||
static mi_deferred_free_fun* deferred_free = NULL;
|
||||
|
||||
void _mi_deferred_free(mi_heap_t* heap, bool force) {
|
||||
heap->tld->heartbeat++;
|
||||
if (deferred_free != NULL) {
|
||||
deferred_free(force, heap->tld->heartbeat);
|
||||
}
|
||||
}
|
||||
|
||||
void mi_register_deferred_free(mi_deferred_free_fun* fn) mi_attr_noexcept {
|
||||
deferred_free = fn;
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
General allocation
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// A huge page is allocated directly without being in a queue
|
||||
static mi_page_t* mi_huge_page_alloc(mi_heap_t* heap, size_t size) {
|
||||
size_t block_size = _mi_wsize_from_size(size) * sizeof(uintptr_t);
|
||||
mi_assert_internal(_mi_bin(block_size) == MI_BIN_HUGE);
|
||||
mi_page_queue_t* pq = mi_page_queue(heap,block_size);
|
||||
mi_assert_internal(mi_page_queue_is_huge(pq));
|
||||
mi_page_t* page = mi_page_fresh_alloc(heap,pq,block_size);
|
||||
if (page != NULL) {
|
||||
mi_assert_internal(mi_page_immediate_available(page));
|
||||
mi_assert_internal(page->block_size == block_size);
|
||||
mi_heap_stat_increase( heap, huge, block_size);
|
||||
}
|
||||
return page;
|
||||
}
|
||||
|
||||
|
||||
// Generic allocation routine if the fast path (`alloc.c:mi_page_malloc`) does not succeed.
|
||||
void* _mi_malloc_generic(mi_heap_t* heap, size_t size) mi_attr_noexcept
|
||||
{
|
||||
mi_assert_internal(heap != NULL);
|
||||
|
||||
// initialize if necessary
|
||||
if (mi_unlikely(!mi_heap_is_initialized(heap))) {
|
||||
mi_thread_init(); // calls `_mi_heap_init` in turn
|
||||
heap = mi_get_default_heap();
|
||||
}
|
||||
mi_assert_internal(mi_heap_is_initialized(heap));
|
||||
|
||||
// call potential deferred free routines
|
||||
_mi_deferred_free(heap, false);
|
||||
|
||||
// huge allocation?
|
||||
mi_page_t* page;
|
||||
if (mi_unlikely(size > MI_LARGE_SIZE_MAX)) {
|
||||
page = mi_huge_page_alloc(heap,size);
|
||||
}
|
||||
else {
|
||||
// otherwise find a page with free blocks in our size segregated queues
|
||||
page = mi_find_free_page(heap,size);
|
||||
}
|
||||
if (page == NULL) return NULL; // out of memory
|
||||
|
||||
mi_assert_internal(mi_page_immediate_available(page));
|
||||
mi_assert_internal(page->block_size >= size);
|
||||
|
||||
// and try again, this time succeeding! (i.e. this should never recurse)
|
||||
return _mi_page_malloc(heap, page, size);
|
||||
}
|
647
src/segment.c
Normal file
647
src/segment.c
Normal file
@ -0,0 +1,647 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
#include "mimalloc-atomic.h"
|
||||
|
||||
#include <string.h> // memset
|
||||
#include <stdio.h>
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Segment allocation
|
||||
We allocate pages inside big OS allocated "segments"
|
||||
(2mb on 64-bit). This is to avoid splitting VMA's on Linux
|
||||
and reduce fragmentation on other OS's. Each thread
|
||||
owns its own segments.
|
||||
|
||||
Currently we have:
|
||||
- small pages (64kb), 32 in one segment
|
||||
- large pages (2mb), 1 in one segment
|
||||
- huge blocks > RC_LARGE_SIZE_MAX (256kb) are directly allocated by the OS
|
||||
|
||||
It might be good to have "medium" pages too (of, say 256kb)
|
||||
to reduce pressure on the virtual address space on 32-bit systems
|
||||
but for now we choose the simpler implementation since this
|
||||
will only be a problem if multiple threads allocate many
|
||||
differently sized objects between 8kb and 2mb which is not common.
|
||||
|
||||
In any case the memory for a segment is virtual and only
|
||||
committed on demand (i.e. we are careful to not touch the memory
|
||||
until we actually allocate a block there)
|
||||
|
||||
If a thread ends, it "abandons" pages with used blocks
|
||||
and there is an abandoned segment list whose segments can
|
||||
be reclaimed by still running threads, much like work-stealing.
|
||||
----------------------------------------------------------- */
|
||||
|
||||
|
||||
#if (MI_DEBUG > 1)
|
||||
static bool mi_segment_is_valid(mi_segment_t* segment) {
|
||||
mi_assert_internal(segment != NULL);
|
||||
mi_assert_internal(_mi_ptr_cookie(segment) == segment->cookie);
|
||||
mi_assert_internal(segment->used <= segment->capacity);
|
||||
mi_assert_internal(segment->abandoned <= segment->used);
|
||||
size_t nfree = 0;
|
||||
for (size_t i = 0; i < segment->capacity; i++) {
|
||||
if (!segment->pages[i].segment_in_use) nfree++;
|
||||
}
|
||||
mi_assert_internal(nfree + segment->used == segment->capacity);
|
||||
mi_assert_internal(segment->thread_id == _mi_thread_id()); // or 0
|
||||
return true;
|
||||
}
|
||||
#endif
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Queue of segments containing free pages
|
||||
----------------------------------------------------------- */
|
||||
|
||||
|
||||
#if (MI_DEBUG>1)
|
||||
static bool mi_segment_queue_contains(const mi_segment_queue_t* queue, mi_segment_t* segment) {
|
||||
mi_assert_internal(segment != NULL);
|
||||
mi_segment_t* list = queue->first;
|
||||
while (list != NULL) {
|
||||
if (list == segment) break;
|
||||
mi_assert_internal(list->next==NULL || list->next->prev == list);
|
||||
mi_assert_internal(list->prev==NULL || list->prev->next == list);
|
||||
list = list->next;
|
||||
}
|
||||
return (list == segment);
|
||||
}
|
||||
#endif
|
||||
|
||||
// quick test to see if a segment is in the free pages queue
|
||||
static bool mi_segment_is_in_free_queue(mi_segment_t* segment, mi_segments_tld_t* tld) {
|
||||
bool in_queue = (segment->next != NULL || segment->prev != NULL || tld->small_free.first == segment);
|
||||
if (in_queue) {
|
||||
mi_assert(segment->page_kind == MI_PAGE_SMALL); // for now we only support small pages
|
||||
mi_assert_expensive(mi_segment_queue_contains(&tld->small_free, segment));
|
||||
}
|
||||
return in_queue;
|
||||
}
|
||||
|
||||
static bool mi_segment_queue_is_empty(const mi_segment_queue_t* queue) {
|
||||
return (queue->first == NULL);
|
||||
}
|
||||
|
||||
static void mi_segment_queue_remove(mi_segment_queue_t* queue, mi_segment_t* segment) {
|
||||
mi_assert_expensive(mi_segment_queue_contains(queue, segment));
|
||||
if (segment->prev != NULL) segment->prev->next = segment->next;
|
||||
if (segment->next != NULL) segment->next->prev = segment->prev;
|
||||
if (segment == queue->first) queue->first = segment->next;
|
||||
if (segment == queue->last) queue->last = segment->prev;
|
||||
segment->next = NULL;
|
||||
segment->prev = NULL;
|
||||
}
|
||||
|
||||
static void mi_segment_enqueue(mi_segment_queue_t* queue, mi_segment_t* segment) {
|
||||
mi_assert_expensive(!mi_segment_queue_contains(queue, segment));
|
||||
segment->next = NULL;
|
||||
segment->prev = queue->last;
|
||||
if (queue->last != NULL) {
|
||||
mi_assert_internal(queue->last->next == NULL);
|
||||
queue->last->next = segment;
|
||||
queue->last = segment;
|
||||
}
|
||||
else {
|
||||
queue->last = queue->first = segment;
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
// Start of the page available memory
|
||||
uint8_t* _mi_segment_page_start(const mi_segment_t* segment, const mi_page_t* page, size_t* page_size)
|
||||
{
|
||||
size_t psize = (segment->page_kind == MI_PAGE_HUGE ? segment->segment_size : (size_t)1 << segment->page_shift);
|
||||
uint8_t* p = (uint8_t*)segment + page->segment_idx*psize;
|
||||
|
||||
if (page->segment_idx == 0) {
|
||||
// the first page starts after the segment info (and possible guard page)
|
||||
p += segment->segment_info_size;
|
||||
psize -= segment->segment_info_size;
|
||||
}
|
||||
long secure = mi_option_get(mi_option_secure);
|
||||
if (secure > 1 || (secure == 1 && page->segment_idx == segment->capacity - 1)) {
|
||||
// secure == 1: the last page has an os guard page at the end
|
||||
// secure > 1: every page has an os guard page
|
||||
psize -= _mi_os_page_size();
|
||||
}
|
||||
|
||||
if (page_size != NULL) *page_size = psize;
|
||||
mi_assert_internal(_mi_ptr_page(p) == page);
|
||||
mi_assert_internal(_mi_ptr_segment(p) == segment);
|
||||
return p;
|
||||
}
|
||||
|
||||
static size_t mi_segment_size(size_t capacity, size_t required, size_t* pre_size, size_t* info_size) {
|
||||
/*
|
||||
if (mi_option_is_enabled(mi_option_secure)) {
|
||||
// always reserve maximally so the protection falls on
|
||||
// the same address area, as we need to reuse them from the caches interchangably.
|
||||
capacity = MI_SMALL_PAGES_PER_SEGMENT;
|
||||
}
|
||||
*/
|
||||
size_t minsize = sizeof(mi_segment_t) + ((capacity - 1) * sizeof(mi_page_t)) + 16 /* padding */;
|
||||
size_t guardsize = 0;
|
||||
size_t isize = 0;
|
||||
|
||||
if (!mi_option_is_enabled(mi_option_secure)) {
|
||||
// normally no guard pages
|
||||
isize = _mi_align_up(minsize, (16 > MI_MAX_ALIGN_SIZE ? 16 : MI_MAX_ALIGN_SIZE));
|
||||
}
|
||||
else {
|
||||
// in secure mode, we set up a protected page in between the segment info
|
||||
// and the page data (and one at the end of the segment)
|
||||
size_t page_size = _mi_os_page_size();
|
||||
isize = _mi_align_up(minsize, page_size);
|
||||
guardsize = page_size;
|
||||
required = _mi_align_up(required, page_size);
|
||||
}
|
||||
;
|
||||
if (info_size != NULL) *info_size = isize;
|
||||
if (pre_size != NULL) *pre_size = isize + guardsize;
|
||||
return (required==0 ? MI_SEGMENT_SIZE : required + isize + 2*guardsize);
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Segment caches
|
||||
We keep a small segment cache per thread to avoid repeated allocation
|
||||
and free in the OS if a program allocates memory and then frees
|
||||
all again repeatedly. (We tried a one-element cache but that
|
||||
proves to be too small for certain workloads).
|
||||
----------------------------------------------------------- */
|
||||
|
||||
static void mi_segments_count_add(long inc, mi_segments_tld_t* tld) {
|
||||
if (inc>=0) mi_stat_increase(tld->stats->segments,inc);
|
||||
else mi_stat_decrease(tld->stats->segments,-inc);
|
||||
mi_assert_internal(inc < 0 ? tld->count >= (size_t)(-inc) : tld->count < (SIZE_MAX - inc));
|
||||
mi_assert_internal(tld->peak >= tld->count);
|
||||
tld->count += inc;
|
||||
if (tld->count > tld->peak) tld->peak = tld->count;
|
||||
}
|
||||
|
||||
static size_t mi_segments_peak(mi_segments_tld_t* tld) {
|
||||
return tld->peak;
|
||||
}
|
||||
|
||||
static void mi_segment_os_free(mi_segment_t* segment, size_t segment_size, mi_segments_tld_t* tld) {
|
||||
mi_segments_count_add(-1,tld);
|
||||
_mi_os_free(segment, segment_size,tld->stats);
|
||||
}
|
||||
|
||||
// The segment cache is limited to be at most 1/2 of the peak
|
||||
// number of segments in use (and no more than 32)
|
||||
#define MI_SEGMENT_CACHE_MAX (16)
|
||||
#define MI_SEGMENT_CACHE_FRACTION (6)
|
||||
|
||||
|
||||
static mi_segment_t* mi_segment_cache_pop(mi_segments_tld_t* tld) {
|
||||
mi_segment_t* segment = tld->cache;
|
||||
if (segment == NULL) return NULL;
|
||||
tld->cache_count--;
|
||||
tld->cache = segment->next;
|
||||
segment->next = NULL;
|
||||
return segment;
|
||||
}
|
||||
|
||||
static bool mi_segment_cache_full(mi_segments_tld_t* tld) {
|
||||
if (tld->cache_count < MI_SEGMENT_CACHE_MAX &&
|
||||
tld->cache_count*MI_SEGMENT_CACHE_FRACTION < mi_segments_peak(tld)) return false;
|
||||
// take the opportunity to reduce the segment cache if it is too large (now)
|
||||
while (tld->cache_count*MI_SEGMENT_CACHE_FRACTION >= mi_segments_peak(tld) + 1) {
|
||||
mi_segment_t* segment = mi_segment_cache_pop(tld);
|
||||
mi_assert_internal(segment != NULL);
|
||||
if (segment != NULL) mi_segment_os_free(segment, MI_SEGMENT_SIZE, tld);
|
||||
}
|
||||
return true;
|
||||
}
|
||||
|
||||
static bool mi_segment_cache_push(mi_segment_t* segment, mi_segments_tld_t* tld) {
|
||||
mi_assert_internal(!mi_segment_is_in_free_queue(segment,tld));
|
||||
mi_assert_internal(segment->next==NULL);
|
||||
if (mi_segment_cache_full(tld)) return false;
|
||||
|
||||
mi_assert_internal(segment->segment_size == MI_SEGMENT_SIZE);
|
||||
if (mi_option_is_enabled(mi_option_cache_reset) && !mi_option_is_enabled(mi_option_page_reset)) {
|
||||
_mi_os_reset((uint8_t*)segment + segment->segment_info_size, segment->segment_size - segment->segment_info_size);
|
||||
}
|
||||
segment->next = tld->cache;
|
||||
tld->cache = segment;
|
||||
tld->cache_count++;
|
||||
return true;
|
||||
}
|
||||
|
||||
// called by ending threads to free cached segments
|
||||
void _mi_segment_thread_collect(mi_segments_tld_t* tld) {
|
||||
mi_segment_t* segment;
|
||||
while ((segment = mi_segment_cache_pop(tld)) != NULL) {
|
||||
mi_segment_os_free(segment, MI_SEGMENT_SIZE, tld);
|
||||
}
|
||||
mi_assert_internal(tld->cache_count == 0);
|
||||
mi_assert_internal(tld->cache == NULL);
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Segment allocation
|
||||
----------------------------------------------------------- */
|
||||
|
||||
|
||||
// Allocate a segment from the OS aligned to `MI_SEGMENT_SIZE` .
|
||||
static mi_segment_t* mi_segment_alloc( size_t required, mi_page_kind_t page_kind, size_t page_shift, mi_segments_tld_t* tld, mi_os_tld_t* os_tld)
|
||||
{
|
||||
// calculate needed sizes first
|
||||
|
||||
size_t capacity;
|
||||
if (page_kind == MI_PAGE_HUGE) {
|
||||
mi_assert_internal(page_shift==MI_SEGMENT_SHIFT && required > 0);
|
||||
capacity = 1;
|
||||
}
|
||||
else {
|
||||
mi_assert_internal(required==0);
|
||||
size_t page_size = (size_t)1 << page_shift;
|
||||
capacity = MI_SEGMENT_SIZE / page_size;
|
||||
mi_assert_internal(MI_SEGMENT_SIZE % page_size == 0);
|
||||
mi_assert_internal(capacity >= 1 && capacity <= MI_SMALL_PAGES_PER_SEGMENT);
|
||||
}
|
||||
size_t info_size;
|
||||
size_t pre_size;
|
||||
size_t segment_size = mi_segment_size( capacity, required, &pre_size, &info_size);
|
||||
|
||||
size_t page_size = (page_kind == MI_PAGE_HUGE ? segment_size : (size_t)1 << page_shift);
|
||||
|
||||
// Allocate the segment
|
||||
mi_segment_t* segment = NULL;
|
||||
|
||||
// try to get it from our caches
|
||||
if (segment_size == MI_SEGMENT_SIZE) {
|
||||
segment = mi_segment_cache_pop(tld);
|
||||
if (segment != NULL && mi_option_is_enabled(mi_option_secure) && segment->page_kind != page_kind) {
|
||||
_mi_os_unprotect(segment,segment->segment_size);
|
||||
}
|
||||
}
|
||||
|
||||
// and otherwise allocate it from the OS
|
||||
if (segment == NULL) {
|
||||
segment = (mi_segment_t*)_mi_os_alloc_aligned(segment_size, MI_SEGMENT_SIZE, os_tld);
|
||||
if (segment == NULL) return NULL;
|
||||
mi_segments_count_add(1,tld);
|
||||
}
|
||||
|
||||
mi_assert_internal((uintptr_t)segment % MI_SEGMENT_SIZE == 0);
|
||||
|
||||
memset(segment, 0, info_size);
|
||||
if (mi_option_is_enabled(mi_option_secure)) {
|
||||
// in secure mode, we set up a protected page in between the segment info
|
||||
// and the page data
|
||||
mi_assert_internal( info_size == pre_size - _mi_os_page_size() && info_size % _mi_os_page_size() == 0);
|
||||
_mi_os_protect( (uint8_t*)segment + info_size, (pre_size - info_size) );
|
||||
size_t os_page_size = _mi_os_page_size();
|
||||
if (mi_option_get(mi_option_secure) <= 1) {
|
||||
// and protect the last page too
|
||||
_mi_os_protect( (uint8_t*)segment + segment_size - os_page_size, os_page_size );
|
||||
}
|
||||
else {
|
||||
// protect every page
|
||||
for (size_t i = 0; i < capacity; i++) {
|
||||
_mi_os_protect( (uint8_t*)segment + (i+1)*page_size - os_page_size, os_page_size );
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
segment->page_kind = page_kind;
|
||||
segment->capacity = capacity;
|
||||
segment->page_shift = page_shift;
|
||||
segment->segment_size = segment_size;
|
||||
segment->segment_info_size = pre_size;
|
||||
segment->thread_id = _mi_thread_id();
|
||||
segment->cookie = _mi_ptr_cookie(segment);
|
||||
for (uint8_t i = 0; i < segment->capacity; i++) {
|
||||
segment->pages[i].segment_idx = i;
|
||||
}
|
||||
mi_stat_increase(tld->stats->committed, segment->segment_info_size);
|
||||
//fprintf(stderr,"mimalloc: alloc segment at %p\n", (void*)segment);
|
||||
return segment;
|
||||
}
|
||||
|
||||
#if MI_STAT
|
||||
// Available memory in a page
|
||||
static size_t mi_page_size(const mi_page_t* page) {
|
||||
size_t psize;
|
||||
_mi_segment_page_start(_mi_page_segment(page), page, &psize);
|
||||
return psize;
|
||||
}
|
||||
#endif
|
||||
|
||||
static void mi_segment_free(mi_segment_t* segment, bool force, mi_segments_tld_t* tld) {
|
||||
//fprintf(stderr,"mimalloc: free segment at %p\n", (void*)segment);
|
||||
mi_assert(segment != NULL);
|
||||
if (mi_segment_is_in_free_queue(segment,tld)) {
|
||||
if (segment->page_kind != MI_PAGE_SMALL) {
|
||||
fprintf(stderr, "mimalloc: expecting small segment: %i, %p, %p, %p\n", segment->page_kind, segment->prev, segment->next, tld->small_free.first);
|
||||
fflush(stderr);
|
||||
}
|
||||
else {
|
||||
mi_assert_internal(segment->page_kind == MI_PAGE_SMALL); // for now we only support small pages
|
||||
mi_assert_expensive(mi_segment_queue_contains(&tld->small_free, segment));
|
||||
mi_segment_queue_remove(&tld->small_free, segment);
|
||||
}
|
||||
}
|
||||
mi_assert_expensive(!mi_segment_queue_contains(&tld->small_free, segment));
|
||||
mi_assert(segment->next == NULL);
|
||||
mi_assert(segment->prev == NULL);
|
||||
mi_stat_decrease( tld->stats->committed, segment->segment_info_size);
|
||||
segment->thread_id = 0;
|
||||
|
||||
// update reset memory statistics
|
||||
for (uint8_t i = 0; i < segment->capacity; i++) {
|
||||
mi_page_t* page = &segment->pages[i];
|
||||
if (page->is_reset) {
|
||||
page->is_reset = false;
|
||||
mi_stat_decrease( tld->stats->reset,mi_page_size(page));
|
||||
}
|
||||
}
|
||||
|
||||
if (segment->page_kind == MI_PAGE_HUGE) {
|
||||
mi_segment_os_free(segment, segment->segment_size, tld);
|
||||
}
|
||||
else if (!force && mi_segment_cache_push(segment, tld)) {
|
||||
// it is put in our cache
|
||||
}
|
||||
else {
|
||||
// otherwise return it to the OS
|
||||
mi_segment_os_free(segment, MI_SEGMENT_SIZE,tld);
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Free page management inside a segment
|
||||
----------------------------------------------------------- */
|
||||
|
||||
|
||||
static bool mi_segment_has_free(const mi_segment_t* segment) {
|
||||
return (segment->used < segment->capacity);
|
||||
}
|
||||
|
||||
static mi_page_t* mi_segment_find_free(mi_segment_t* segment) {
|
||||
mi_assert_internal(mi_segment_has_free(segment));
|
||||
mi_assert_expensive(mi_segment_is_valid(segment));
|
||||
for (size_t i = 0; i < segment->capacity; i++) {
|
||||
mi_page_t* page = &segment->pages[i];
|
||||
if (!page->segment_in_use) {
|
||||
return page;
|
||||
}
|
||||
}
|
||||
mi_assert(false);
|
||||
return NULL;
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Free
|
||||
----------------------------------------------------------- */
|
||||
|
||||
static void mi_segment_abandon(mi_segment_t* segment, mi_segments_tld_t* tld);
|
||||
|
||||
static void mi_segment_page_clear(mi_segment_t* segment, mi_page_t* page, mi_stats_t* stats) {
|
||||
UNUSED(stats);
|
||||
mi_assert_internal(page->segment_in_use);
|
||||
mi_assert_internal(mi_page_all_free(page));
|
||||
size_t inuse = page->capacity * page->block_size;
|
||||
mi_stat_decrease( stats->committed, inuse);
|
||||
mi_stat_decrease( stats->pages, 1);
|
||||
|
||||
// reset the page memory to reduce memory pressure?
|
||||
if (!page->is_reset && mi_option_is_enabled(mi_option_page_reset)) {
|
||||
size_t psize;
|
||||
uint8_t* start = _mi_segment_page_start(segment, page, &psize);
|
||||
mi_stat_increase( stats->reset, psize); // for stats we assume resetting the full page
|
||||
page->is_reset = true;
|
||||
if (inuse > 0) {
|
||||
_mi_os_reset(start, inuse);
|
||||
}
|
||||
}
|
||||
|
||||
// zero the page data
|
||||
uint8_t idx = page->segment_idx; // don't clear the index
|
||||
bool is_reset = page->is_reset; // don't clear the reset flag
|
||||
memset(page, 0, sizeof(*page));
|
||||
page->segment_idx = idx;
|
||||
page->segment_in_use = false;
|
||||
page->is_reset = is_reset;
|
||||
segment->used--;
|
||||
}
|
||||
|
||||
void _mi_segment_page_free(mi_page_t* page, bool force, mi_segments_tld_t* tld)
|
||||
{
|
||||
mi_assert(page != NULL);
|
||||
mi_segment_t* segment = _mi_page_segment(page);
|
||||
mi_assert_expensive(mi_segment_is_valid(segment));
|
||||
|
||||
// mark it as free now
|
||||
mi_segment_page_clear(segment, page, tld->stats);
|
||||
|
||||
if (segment->used == 0) {
|
||||
// no more used pages; remove from the free list and free the segment
|
||||
mi_segment_free(segment, force, tld);
|
||||
}
|
||||
else {
|
||||
if (segment->used == segment->abandoned) {
|
||||
// only abandoned pages; remove from free list and abandon
|
||||
mi_segment_abandon(segment,tld);
|
||||
}
|
||||
else if (segment->used + 1 == segment->capacity) {
|
||||
mi_assert_internal(segment->page_kind == MI_PAGE_SMALL); // for now we only support small pages
|
||||
// move back to segments small pages free list
|
||||
mi_segment_enqueue(&tld->small_free, segment);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Abandonment
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// When threads terminate, they can leave segments with
|
||||
// live blocks (reached through other threads). Such segments
|
||||
// are "abandoned" and will be reclaimed by other threads to
|
||||
// reuse their pages and/or free them eventually
|
||||
static volatile mi_segment_t* abandoned = NULL;
|
||||
static volatile uintptr_t abandoned_count = 0;
|
||||
|
||||
static void mi_segment_abandon(mi_segment_t* segment, mi_segments_tld_t* tld) {
|
||||
mi_assert_internal(segment->used == segment->abandoned);
|
||||
mi_assert_internal(segment->used > 0);
|
||||
mi_assert_internal(segment->abandoned_next == NULL);
|
||||
mi_assert_expensive(mi_segment_is_valid(segment));
|
||||
// remove the segment from the free page queue if needed
|
||||
if (mi_segment_is_in_free_queue(segment,tld)) {
|
||||
mi_assert(segment->page_kind == MI_PAGE_SMALL); // for now we only support small pages
|
||||
mi_assert_expensive(mi_segment_queue_contains(&tld->small_free, segment));
|
||||
mi_segment_queue_remove(&tld->small_free, segment);
|
||||
}
|
||||
mi_assert_internal(segment->next == NULL && segment->prev == NULL);
|
||||
// all pages in the segment are abandoned; add it to the abandoned list
|
||||
segment->thread_id = 0;
|
||||
do {
|
||||
segment->abandoned_next = (mi_segment_t*)abandoned;
|
||||
} while (!mi_atomic_compare_exchange_ptr((volatile void**)&abandoned, segment, segment->abandoned_next));
|
||||
mi_atomic_increment(&abandoned_count);
|
||||
mi_stat_increase( tld->stats->segments_abandoned,1);
|
||||
}
|
||||
|
||||
void _mi_segment_page_abandon(mi_page_t* page, mi_segments_tld_t* tld) {
|
||||
mi_assert(page != NULL);
|
||||
mi_segment_t* segment = _mi_page_segment(page);
|
||||
mi_assert_expensive(mi_segment_is_valid(segment));
|
||||
segment->abandoned++;
|
||||
mi_stat_increase( tld->stats->pages_abandoned, 1);
|
||||
mi_assert_internal(segment->abandoned <= segment->used);
|
||||
if (segment->used == segment->abandoned) {
|
||||
// all pages are abandoned, abandon the entire segment
|
||||
mi_segment_abandon(segment,tld);
|
||||
}
|
||||
}
|
||||
|
||||
bool _mi_segment_try_reclaim_abandoned( mi_heap_t* heap, bool try_all, mi_segments_tld_t* tld) {
|
||||
uintptr_t reclaimed = 0;
|
||||
uintptr_t atmost;
|
||||
if (try_all) {
|
||||
atmost = abandoned_count+16; // close enough
|
||||
}
|
||||
else {
|
||||
atmost = abandoned_count/8; // at most 1/8th of all outstanding (estimated)
|
||||
if (atmost < 8) atmost = 8; // but at least 8
|
||||
}
|
||||
|
||||
// for `atmost` `reclaimed` abandoned segments...
|
||||
while(atmost > reclaimed) {
|
||||
// try to claim the head of the abandoned segments
|
||||
mi_segment_t* segment;
|
||||
do {
|
||||
segment = (mi_segment_t*)abandoned;
|
||||
} while(segment != NULL && !mi_atomic_compare_exchange_ptr((volatile void**)&abandoned, segment->abandoned_next, segment));
|
||||
if (segment==NULL) break; // stop early if no more segments available
|
||||
|
||||
// got it.
|
||||
mi_atomic_decrement(&abandoned_count);
|
||||
segment->thread_id = _mi_thread_id();
|
||||
segment->abandoned_next = NULL;
|
||||
mi_segments_count_add(1,tld);
|
||||
mi_assert_internal(segment->next == NULL && segment->prev == NULL);
|
||||
mi_assert_expensive(mi_segment_is_valid(segment));
|
||||
mi_stat_decrease(tld->stats->segments_abandoned,1);
|
||||
// add its free pages to the the current thread
|
||||
if (segment->page_kind == MI_PAGE_SMALL && mi_segment_has_free(segment)) {
|
||||
mi_segment_enqueue(&tld->small_free, segment);
|
||||
}
|
||||
// add its abandoned pages to the current thread
|
||||
mi_assert(segment->abandoned == segment->used);
|
||||
for (size_t i = 0; i < segment->capacity; i++) {
|
||||
mi_page_t* page = &segment->pages[i];
|
||||
if (page->segment_in_use) {
|
||||
segment->abandoned--;
|
||||
mi_assert(page->next == NULL);
|
||||
mi_stat_decrease( tld->stats->pages_abandoned, 1);
|
||||
if (mi_page_all_free(page)) {
|
||||
// if everything free by now, free the page
|
||||
mi_segment_page_clear(segment,page,tld->stats);
|
||||
}
|
||||
else {
|
||||
// otherwise reclaim it
|
||||
_mi_page_reclaim(heap,page);
|
||||
}
|
||||
}
|
||||
}
|
||||
mi_assert(segment->abandoned == 0);
|
||||
if (segment->used == 0) { // due to page_clear
|
||||
mi_segment_free(segment,false,tld);
|
||||
}
|
||||
else {
|
||||
reclaimed++;
|
||||
}
|
||||
}
|
||||
return (reclaimed>0);
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Small page allocation
|
||||
----------------------------------------------------------- */
|
||||
|
||||
// Allocate a small page inside a segment.
|
||||
// Requires that the page has free pages
|
||||
static mi_page_t* mi_segment_small_page_alloc_in(mi_segment_t* segment, mi_segments_tld_t* tld) {
|
||||
mi_assert_internal(mi_segment_has_free(segment));
|
||||
mi_page_t* page = mi_segment_find_free(segment);
|
||||
page->segment_in_use = true;
|
||||
segment->used++;
|
||||
mi_assert_internal(segment->used <= segment->capacity);
|
||||
if (segment->used == segment->capacity) {
|
||||
// if no more free pages, remove from the queue
|
||||
mi_assert_internal(!mi_segment_has_free(segment));
|
||||
mi_assert_expensive(mi_segment_queue_contains(&tld->small_free, segment));
|
||||
mi_segment_queue_remove(&tld->small_free, segment);
|
||||
}
|
||||
return page;
|
||||
}
|
||||
|
||||
static mi_page_t* mi_segment_small_page_alloc(mi_segments_tld_t* tld, mi_os_tld_t* os_tld) {
|
||||
if (mi_segment_queue_is_empty(&tld->small_free)) {
|
||||
mi_segment_t* segment = mi_segment_alloc(0,MI_PAGE_SMALL,MI_SMALL_PAGE_SHIFT,tld,os_tld);
|
||||
if (segment == NULL) return NULL;
|
||||
mi_segment_enqueue(&tld->small_free, segment);
|
||||
}
|
||||
mi_assert_internal(tld->small_free.first != NULL);
|
||||
return mi_segment_small_page_alloc_in(tld->small_free.first,tld);
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
large page allocation
|
||||
----------------------------------------------------------- */
|
||||
|
||||
static mi_page_t* mi_segment_large_page_alloc(mi_segments_tld_t* tld, mi_os_tld_t* os_tld) {
|
||||
mi_segment_t* segment = mi_segment_alloc(0,MI_PAGE_LARGE,MI_LARGE_PAGE_SHIFT,tld,os_tld);
|
||||
if (segment == NULL) return NULL;
|
||||
segment->used = 1;
|
||||
mi_page_t* page = &segment->pages[0];
|
||||
page->segment_in_use = true;
|
||||
return page;
|
||||
}
|
||||
|
||||
static mi_page_t* mi_segment_huge_page_alloc(size_t size, mi_segments_tld_t* tld, mi_os_tld_t* os_tld)
|
||||
{
|
||||
mi_segment_t* segment = mi_segment_alloc(size, MI_PAGE_HUGE, MI_SEGMENT_SHIFT,tld,os_tld);
|
||||
if (segment == NULL) return NULL;
|
||||
mi_assert_internal(segment->segment_size - segment->segment_info_size >= size);
|
||||
segment->used = 1;
|
||||
mi_page_t* page = &segment->pages[0];
|
||||
page->segment_in_use = true;
|
||||
return page;
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Page allocation and free
|
||||
----------------------------------------------------------- */
|
||||
|
||||
mi_page_t* _mi_segment_page_alloc(size_t block_size, mi_segments_tld_t* tld, mi_os_tld_t* os_tld) {
|
||||
mi_page_t* page;
|
||||
if (block_size < MI_SMALL_PAGE_SIZE / 8)
|
||||
// smaller blocks than 8kb (assuming MI_SMALL_PAGE_SIZE == 64kb)
|
||||
page = mi_segment_small_page_alloc(tld,os_tld);
|
||||
else if (block_size < (MI_LARGE_SIZE_MAX - sizeof(mi_segment_t)))
|
||||
page = mi_segment_large_page_alloc(tld, os_tld);
|
||||
else
|
||||
page = mi_segment_huge_page_alloc(block_size,tld,os_tld);
|
||||
mi_assert_expensive(mi_segment_is_valid(_mi_page_segment(page)));
|
||||
return page;
|
||||
}
|
24
src/static.c
Normal file
24
src/static.c
Normal file
@ -0,0 +1,24 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#define _DEFAULT_SOURCE
|
||||
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
|
||||
// For a static override we create a single object file
|
||||
// containing the whole library. If it is linked first
|
||||
// it will override all the standard library allocation
|
||||
// functions (on Unix's).
|
||||
#include "stats.c"
|
||||
#include "os.c"
|
||||
#include "segment.c"
|
||||
#include "page.c"
|
||||
#include "heap.c"
|
||||
#include "alloc.c"
|
||||
#include "alloc-aligned.c"
|
||||
#include "init.c"
|
||||
#include "options.c"
|
414
src/stats.c
Normal file
414
src/stats.c
Normal file
@ -0,0 +1,414 @@
|
||||
/* ----------------------------------------------------------------------------
|
||||
Copyright (c) 2018, Microsoft Research, Daan Leijen
|
||||
This is free software; you can redistribute it and/or modify it under the
|
||||
terms of the MIT license. A copy of the license can be found in the file
|
||||
"license.txt" at the root of this distribution.
|
||||
-----------------------------------------------------------------------------*/
|
||||
#include "mimalloc.h"
|
||||
#include "mimalloc-internal.h"
|
||||
#include "mimalloc-atomic.h"
|
||||
|
||||
#include <string.h> // memset
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Merge thread statistics with the main one.
|
||||
----------------------------------------------------------- */
|
||||
|
||||
static void mi_stats_add(mi_stats_t* stats, const mi_stats_t* src);
|
||||
|
||||
void _mi_stats_done(mi_stats_t* stats) {
|
||||
if (stats == &_mi_stats_main) return;
|
||||
mi_stats_add(&_mi_stats_main, stats);
|
||||
memset(stats,0,sizeof(*stats));
|
||||
}
|
||||
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Statistics operations
|
||||
----------------------------------------------------------- */
|
||||
|
||||
static void mi_stat_update(mi_stat_count_t* stat, int64_t amount) {
|
||||
if (amount == 0) return;
|
||||
bool in_main = ((uint8_t*)stat >= (uint8_t*)&_mi_stats_main
|
||||
&& (uint8_t*)stat < ((uint8_t*)&_mi_stats_main + sizeof(mi_stats_t)));
|
||||
if (in_main)
|
||||
{
|
||||
// add atomically (for abandoned pages)
|
||||
int64_t current = mi_atomic_add(&stat->current,amount);
|
||||
if (current > stat->peak) stat->peak = stat->current; // racing.. it's ok
|
||||
if (amount > 0) {
|
||||
mi_atomic_add(&stat->allocated,amount);
|
||||
}
|
||||
else {
|
||||
mi_atomic_add(&stat->freed, -amount);
|
||||
}
|
||||
}
|
||||
else {
|
||||
// add thread local
|
||||
stat->current += amount;
|
||||
if (stat->current > stat->peak) stat->peak = stat->current;
|
||||
if (amount > 0) {
|
||||
stat->allocated += amount;
|
||||
}
|
||||
else {
|
||||
stat->freed += -amount;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
void _mi_stat_counter_increase(mi_stat_counter_t* stat, size_t amount) {
|
||||
// TODO: add thread safe code
|
||||
stat->count++;
|
||||
stat->total += amount;
|
||||
}
|
||||
|
||||
|
||||
void _mi_stat_increase(mi_stat_count_t* stat, size_t amount) {
|
||||
mi_stat_update(stat, (int64_t)amount);
|
||||
}
|
||||
|
||||
void _mi_stat_decrease(mi_stat_count_t* stat, size_t amount) {
|
||||
mi_stat_update(stat, -((int64_t)amount));
|
||||
}
|
||||
|
||||
// must be thread safe as it is called from stats_merge
|
||||
static void mi_stat_add(mi_stat_count_t* stat, const mi_stat_count_t* src, int64_t unit) {
|
||||
if (stat==src) return;
|
||||
mi_atomic_add( &stat->allocated, src->allocated * unit);
|
||||
mi_atomic_add( &stat->current, src->current * unit);
|
||||
mi_atomic_add( &stat->freed, src->freed * unit);
|
||||
mi_atomic_add( &stat->peak, src->peak * unit);
|
||||
}
|
||||
|
||||
static void mi_stat_counter_add(mi_stat_counter_t* stat, const mi_stat_counter_t* src, int64_t unit) {
|
||||
if (stat==src) return;
|
||||
mi_atomic_add( &stat->total, src->total * unit);
|
||||
mi_atomic_add( &stat->count, src->count * unit);
|
||||
}
|
||||
|
||||
// must be thread safe as it is called from stats_merge
|
||||
static void mi_stats_add(mi_stats_t* stats, const mi_stats_t* src) {
|
||||
if (stats==src) return;
|
||||
mi_stat_add(&stats->segments, &src->segments,1);
|
||||
mi_stat_add(&stats->pages, &src->pages,1);
|
||||
mi_stat_add(&stats->reserved, &src->reserved, 1);
|
||||
mi_stat_add(&stats->committed, &src->committed, 1);
|
||||
mi_stat_add(&stats->reset, &src->reset, 1);
|
||||
|
||||
mi_stat_add(&stats->pages_abandoned, &src->pages_abandoned, 1);
|
||||
mi_stat_add(&stats->segments_abandoned, &src->segments_abandoned, 1);
|
||||
mi_stat_add(&stats->mmap_calls, &src->mmap_calls, 1);
|
||||
mi_stat_add(&stats->mmap_ensure_aligned, &src->mmap_ensure_aligned, 1);
|
||||
mi_stat_add(&stats->mmap_right_align, &src->mmap_right_align, 1);
|
||||
mi_stat_add(&stats->threads, &src->threads, 1);
|
||||
mi_stat_add(&stats->pages_extended, &src->pages_extended, 1);
|
||||
|
||||
mi_stat_add(&stats->malloc, &src->malloc, 1);
|
||||
mi_stat_add(&stats->huge, &src->huge, 1);
|
||||
mi_stat_counter_add(&stats->searches, &src->searches, 1);
|
||||
#if MI_STAT>1
|
||||
for (size_t i = 0; i <= MI_BIN_HUGE; i++) {
|
||||
if (src->normal[i].allocated > 0 || src->normal[i].freed > 0) {
|
||||
mi_stat_add(&stats->normal[i], &src->normal[i], 1);
|
||||
}
|
||||
}
|
||||
#endif
|
||||
}
|
||||
|
||||
/* -----------------------------------------------------------
|
||||
Display statistics
|
||||
----------------------------------------------------------- */
|
||||
|
||||
static void mi_printf_amount(int64_t n, int64_t unit, FILE* out, const char* fmt) {
|
||||
char buf[32];
|
||||
int len = 32;
|
||||
char* suffix = (unit <= 0 ? " " : "b");
|
||||
double base = (unit == 0 ? 1000.0 : 1024.0);
|
||||
if (unit>0) n *= unit;
|
||||
|
||||
double pos = (double)(n < 0 ? -n : n);
|
||||
if (pos < base)
|
||||
snprintf(buf,len, "%d %s ", (int)n, suffix);
|
||||
else if (pos < base*base)
|
||||
snprintf(buf, len, "%.1f k%s", (double)n / base, suffix);
|
||||
else if (pos < base*base*base)
|
||||
snprintf(buf, len, "%.1f m%s", (double)n / (base*base), suffix);
|
||||
else
|
||||
snprintf(buf, len, "%.1f g%s", (double)n / (base*base*base), suffix);
|
||||
|
||||
_mi_fprintf(out, (fmt==NULL ? "%11s" : fmt), buf);
|
||||
}
|
||||
|
||||
#if MI_STAT>0
|
||||
static void mi_print_amount(int64_t n, int64_t unit, FILE* out) {
|
||||
mi_printf_amount(n,unit,out,NULL);
|
||||
}
|
||||
|
||||
static void mi_print_count(int64_t n, int64_t unit, FILE* out) {
|
||||
if (unit==1) _mi_fprintf(out,"%11s"," ");
|
||||
else mi_print_amount(n,0,out);
|
||||
}
|
||||
|
||||
static void mi_stat_print(const mi_stat_count_t* stat, const char* msg, int64_t unit, FILE* out ) {
|
||||
_mi_fprintf(out,"%10s:", msg);
|
||||
mi_print_amount(stat->peak, unit, out);
|
||||
if (unit!=0) {
|
||||
mi_print_amount(stat->allocated, unit, out);
|
||||
mi_print_amount(stat->freed, unit, out);
|
||||
}
|
||||
if (unit>0) {
|
||||
mi_print_amount(unit, (unit==0 ? 0 : 1), out);
|
||||
mi_print_count(stat->allocated, unit, out);
|
||||
if (stat->allocated > stat->freed)
|
||||
_mi_fprintf(out, " not all freed!\n");
|
||||
else
|
||||
_mi_fprintf(out, " ok\n");
|
||||
}
|
||||
else {
|
||||
_mi_fprintf(out, "\n");
|
||||
}
|
||||
}
|
||||
|
||||
static void mi_stat_counter_print(const mi_stat_counter_t* stat, const char* msg, FILE* out ) {
|
||||
double avg = (stat->count == 0 ? 0.0 : (double)stat->total / (double)stat->count);
|
||||
_mi_fprintf(out,"%10s: %7.1f avg\n", msg, avg);
|
||||
}
|
||||
#endif
|
||||
|
||||
static void mi_print_header( FILE* out ) {
|
||||
_mi_fprintf(out,"%10s: %10s %10s %10s %10s %10s\n", "heap stats", "peak ", "total ", "freed ", "unit ", "count ");
|
||||
}
|
||||
|
||||
#if MI_STAT>1
|
||||
static void mi_stats_print_bins(mi_stat_count_t* all, const mi_stat_count_t* bins, size_t max, const char* fmt, FILE* out) {
|
||||
bool found = false;
|
||||
char buf[64];
|
||||
for (size_t i = 0; i <= max; i++) {
|
||||
if (bins[i].allocated > 0) {
|
||||
found = true;
|
||||
int64_t unit = _mi_bin_size((uint8_t)i);
|
||||
snprintf(buf, 64, "%s %3zd", fmt, i);
|
||||
mi_stat_add(all, &bins[i], unit);
|
||||
mi_stat_print(&bins[i], buf, unit, out);
|
||||
}
|
||||
}
|
||||
//snprintf(buf, 64, "%s all", fmt);
|
||||
//mi_stat_print(all, buf, 1);
|
||||
if (found) {
|
||||
_mi_fprintf(out, "\n");
|
||||
mi_print_header(out);
|
||||
}
|
||||
}
|
||||
#endif
|
||||
|
||||
|
||||
static void mi_process_info(double* utime, double* stime, size_t* peak_rss, size_t* page_faults, size_t* page_reclaim);
|
||||
|
||||
static void _mi_stats_print(mi_stats_t* stats, double secs, FILE* out) mi_attr_noexcept {
|
||||
if (out == NULL) out = stderr;
|
||||
mi_print_header(out);
|
||||
#if !defined(MI_STAT) || (MI_STAT==0)
|
||||
UNUSED(stats);
|
||||
//_mi_fprintf(out,"(mimalloc built without statistics)\n");
|
||||
#else
|
||||
#if MI_STAT>1
|
||||
mi_stat_count_t normal = { 0,0,0,0 };
|
||||
mi_stats_print_bins(&normal, stats->normal, MI_BIN_HUGE, "normal",out);
|
||||
mi_stat_print(&normal, "normal", 1, out);
|
||||
#endif
|
||||
mi_stat_print(&stats->huge, "huge", 1, out);
|
||||
#if MI_STAT>1
|
||||
mi_stat_count_t total = { 0,0,0,0 };
|
||||
mi_stat_add(&total, &normal, 1);
|
||||
mi_stat_add(&total, &stats->huge, 1);
|
||||
mi_stat_print(&total, "total", 1, out);
|
||||
#endif
|
||||
_mi_fprintf(out, "malloc requested: ");
|
||||
mi_print_amount(stats->malloc.allocated, 1, out);
|
||||
_mi_fprintf(out, "\n\n");
|
||||
mi_stat_print(&stats->committed, "committed", 1, out);
|
||||
mi_stat_print(&stats->reserved, "reserved", 1, out);
|
||||
mi_stat_print(&stats->reset, "reset", -1, out);
|
||||
mi_stat_print(&stats->segments, "segments", -1, out);
|
||||
mi_stat_print(&stats->segments_abandoned, "-abandoned", -1, out);
|
||||
mi_stat_print(&stats->pages, "pages", -1, out);
|
||||
mi_stat_print(&stats->pages_abandoned, "-abandoned", -1, out);
|
||||
mi_stat_print(&stats->pages_extended, "-extended", 0, out);
|
||||
mi_stat_print(&stats->mmap_calls, "mmaps", 0, out);
|
||||
mi_stat_print(&stats->mmap_right_align, "mmap fast", 0, out);
|
||||
mi_stat_print(&stats->mmap_ensure_aligned, "mmap slow", 0, out);
|
||||
mi_stat_print(&stats->threads, "threads", 0, out);
|
||||
mi_stat_counter_print(&stats->searches, "searches", out);
|
||||
#endif
|
||||
|
||||
if (secs >= 0.0) _mi_fprintf(out, "%10s: %9.3f s\n", "elapsed", secs);
|
||||
|
||||
double user_time;
|
||||
double sys_time;
|
||||
size_t peak_rss;
|
||||
size_t page_faults;
|
||||
size_t page_reclaim;
|
||||
mi_process_info(&user_time, &sys_time, &peak_rss, &page_faults, &page_reclaim);
|
||||
_mi_fprintf(out,"%10s: user: %.3f s, system: %.3f s, faults: %lu, reclaims: %lu, rss: ", "process", user_time, sys_time, (unsigned long)page_faults, (unsigned long)page_reclaim );
|
||||
mi_printf_amount((int64_t)peak_rss, 1, out, "%s");
|
||||
_mi_fprintf(out,"\n");
|
||||
}
|
||||
|
||||
static double mi_clock_end(double start);
|
||||
static double mi_clock_start();
|
||||
static double mi_time_start = 0.0;
|
||||
|
||||
static mi_stats_t* mi_stats_get_default() {
|
||||
mi_heap_t* heap = mi_heap_get_default();
|
||||
return &heap->tld->stats;
|
||||
}
|
||||
|
||||
void mi_stats_reset() mi_attr_noexcept {
|
||||
mi_stats_t* stats = mi_stats_get_default();
|
||||
if (stats != &_mi_stats_main) { memset(stats, 0, sizeof(mi_stats_t)); }
|
||||
memset(&_mi_stats_main, 0, sizeof(mi_stats_t));
|
||||
mi_time_start = mi_clock_start();
|
||||
}
|
||||
|
||||
static void mi_stats_print_ex(mi_stats_t* stats, double secs, FILE* out) {
|
||||
if (stats != &_mi_stats_main) {
|
||||
mi_stats_add(&_mi_stats_main,stats);
|
||||
memset(stats,0,sizeof(mi_stats_t));
|
||||
}
|
||||
_mi_stats_print(&_mi_stats_main, secs, out);
|
||||
}
|
||||
|
||||
void mi_stats_print(FILE* out) mi_attr_noexcept {
|
||||
mi_stats_print_ex(mi_stats_get_default(),mi_clock_end(mi_time_start),out);
|
||||
}
|
||||
|
||||
void mi_thread_stats_print(FILE* out) mi_attr_noexcept {
|
||||
_mi_stats_print(mi_stats_get_default(), mi_clock_end(mi_time_start), out);
|
||||
}
|
||||
|
||||
|
||||
|
||||
// --------------------------------------------------------
|
||||
// Basic timer for convenience
|
||||
// --------------------------------------------------------
|
||||
|
||||
#ifdef _WIN32
|
||||
#include <windows.h>
|
||||
static double mi_to_seconds(LARGE_INTEGER t) {
|
||||
static double freq = 0.0;
|
||||
if (freq <= 0.0) {
|
||||
LARGE_INTEGER f;
|
||||
QueryPerformanceFrequency(&f);
|
||||
freq = (double)(f.QuadPart);
|
||||
}
|
||||
return ((double)(t.QuadPart) / freq);
|
||||
}
|
||||
|
||||
static double mi_clock_now() {
|
||||
LARGE_INTEGER t;
|
||||
QueryPerformanceCounter(&t);
|
||||
return mi_to_seconds(t);
|
||||
}
|
||||
#else
|
||||
#include <time.h>
|
||||
#ifdef TIME_UTC
|
||||
static double mi_clock_now() {
|
||||
struct timespec t;
|
||||
timespec_get(&t, TIME_UTC);
|
||||
return (double)t.tv_sec + (1.0e-9 * (double)t.tv_nsec);
|
||||
}
|
||||
#else
|
||||
// low resolution timer
|
||||
static double mi_clock_now() {
|
||||
return ((double)clock() / (double)CLOCKS_PER_SEC);
|
||||
}
|
||||
#endif
|
||||
#endif
|
||||
|
||||
|
||||
static double mi_clock_diff = 0.0;
|
||||
|
||||
static double mi_clock_start() {
|
||||
if (mi_clock_diff == 0.0) {
|
||||
double t0 = mi_clock_now();
|
||||
mi_clock_diff = mi_clock_now() - t0;
|
||||
}
|
||||
return mi_clock_now();
|
||||
}
|
||||
|
||||
static double mi_clock_end(double start) {
|
||||
double end = mi_clock_now();
|
||||
return (end - start - mi_clock_diff);
|
||||
}
|
||||
|
||||
|
||||
// --------------------------------------------------------
|
||||
// Basic process statistics
|
||||
// --------------------------------------------------------
|
||||
|
||||
#if defined(_WIN32)
|
||||
#include <windows.h>
|
||||
#include <psapi.h>
|
||||
#pragma comment(lib,"psapi.lib")
|
||||
|
||||
static double filetime_secs(const FILETIME* ftime) {
|
||||
ULARGE_INTEGER i;
|
||||
i.LowPart = ftime->dwLowDateTime;
|
||||
i.HighPart = ftime->dwHighDateTime;
|
||||
double secs = (double)(i.QuadPart) * 1.0e-7; // FILETIME is in 100 nano seconds
|
||||
return secs;
|
||||
}
|
||||
static void mi_process_info(double* utime, double* stime, size_t* peak_rss, size_t* page_faults, size_t* page_reclaim) {
|
||||
FILETIME ct;
|
||||
FILETIME ut;
|
||||
FILETIME st;
|
||||
FILETIME et;
|
||||
GetProcessTimes(GetCurrentProcess(), &ct, &et, &st, &ut);
|
||||
*utime = filetime_secs(&ut);
|
||||
*stime = filetime_secs(&st);
|
||||
|
||||
PROCESS_MEMORY_COUNTERS info;
|
||||
GetProcessMemoryInfo(GetCurrentProcess(), &info, sizeof(info));
|
||||
*peak_rss = (size_t)info.PeakWorkingSetSize;
|
||||
*page_faults = (size_t)info.PageFaultCount;
|
||||
*page_reclaim = 0;
|
||||
}
|
||||
|
||||
#elif defined(__unix__) || defined(__unix) || defined(unix) || (defined(__APPLE__) && defined(__MACH__))
|
||||
#include <stdio.h>
|
||||
#include <unistd.h>
|
||||
#include <sys/resource.h>
|
||||
|
||||
#if defined(__APPLE__) && defined(__MACH__)
|
||||
#include <mach/mach.h>
|
||||
#endif
|
||||
|
||||
static double timeval_secs(const struct timeval* tv) {
|
||||
return (double)tv->tv_sec + ((double)tv->tv_usec * 1.0e-6);
|
||||
}
|
||||
|
||||
static void mi_process_info(double* utime, double* stime, size_t* peak_rss, size_t* page_faults, size_t* page_reclaim) {
|
||||
struct rusage rusage;
|
||||
getrusage(RUSAGE_SELF, &rusage);
|
||||
#if defined(__APPLE__) && defined(__MACH__)
|
||||
*peak_rss = rusage.ru_maxrss;
|
||||
#else
|
||||
*peak_rss = rusage.ru_maxrss * 1024;
|
||||
#endif
|
||||
*page_faults = rusage.ru_majflt;
|
||||
*page_reclaim = rusage.ru_minflt;
|
||||
*utime = timeval_secs(&rusage.ru_utime);
|
||||
*stime = timeval_secs(&rusage.ru_stime);
|
||||
}
|
||||
|
||||
#else
|
||||
#pragma message("define a way to get process info")
|
||||
static size_t mi_process_info(double* utime, double* stime, size_t* peak_rss, size_t* page_faults, size_t* page_reclaim) {
|
||||
*peak_rss = 0;
|
||||
*page_faults = 0;
|
||||
*page_reclaim = 0;
|
||||
*utime = 0.0;
|
||||
*stime = 0.0;
|
||||
}
|
||||
#endif
|
29
test/CMakeLists.txt
Normal file
29
test/CMakeLists.txt
Normal file
@ -0,0 +1,29 @@
|
||||
cmake_minimum_required(VERSION 3.0)
|
||||
project(mimalloc-test C CXX)
|
||||
|
||||
# Set default build type
|
||||
if (NOT CMAKE_BUILD_TYPE)
|
||||
if ("${CMAKE_BINARY_DIR}" MATCHES ".*(D|d)ebug$")
|
||||
message(STATUS "No build type selected, default to *** Debug ***")
|
||||
set(CMAKE_BUILD_TYPE "Debug")
|
||||
else()
|
||||
message(STATUS "No build type selected, default to *** Release ***")
|
||||
set(CMAKE_BUILD_TYPE "Release")
|
||||
endif()
|
||||
endif()
|
||||
|
||||
# Import mimalloc (if installed)
|
||||
find_package(mimalloc 1.0 REQUIRED)
|
||||
|
||||
# Tests
|
||||
add_executable(static-override main-override.c)
|
||||
target_link_libraries(static-override PUBLIC mimalloc-static)
|
||||
|
||||
add_executable(static-override-cxx main-override.cpp)
|
||||
target_link_libraries(static-override-cxx PUBLIC mimalloc-static)
|
||||
|
||||
add_executable(dynamic-override main-override.c)
|
||||
target_link_libraries(dynamic-override PUBLIC mimalloc)
|
||||
|
||||
add_executable(dynamic-override-cxx main-override.cpp)
|
||||
target_link_libraries(dynamic-override-cxx PUBLIC mimalloc)
|
25
test/main-override.c
Normal file
25
test/main-override.c
Normal file
@ -0,0 +1,25 @@
|
||||
#include <stdlib.h>
|
||||
#include <stdio.h>
|
||||
#include <assert.h>
|
||||
#include <string.h>
|
||||
|
||||
#include <mimalloc.h>
|
||||
|
||||
|
||||
int main() {
|
||||
mi_stats_reset();
|
||||
void* p1 = malloc(78);
|
||||
void* p2 = malloc(24);
|
||||
free(p1);
|
||||
p1 = malloc(8);
|
||||
char* s = strdup("hello\n");
|
||||
free(p2);
|
||||
p2 = malloc(16);
|
||||
p1 = realloc(p1, 32);
|
||||
free(p1);
|
||||
free(p2);
|
||||
free(s);
|
||||
mi_collect(true);
|
||||
mi_stats_print(NULL);
|
||||
return 0;
|
||||
}
|
48
test/main-override.cpp
Normal file
48
test/main-override.cpp
Normal file
@ -0,0 +1,48 @@
|
||||
#include <stdlib.h>
|
||||
#include <stdio.h>
|
||||
#include <assert.h>
|
||||
#include <string.h>
|
||||
|
||||
#include <mimalloc.h>
|
||||
|
||||
static void* p = malloc(8);
|
||||
|
||||
void free_p() {
|
||||
free(p);
|
||||
return;
|
||||
}
|
||||
|
||||
int main() {
|
||||
mi_stats_reset();
|
||||
atexit(free_p);
|
||||
void* p1 = malloc(78);
|
||||
void* p2 = malloc(24);
|
||||
free(p1);
|
||||
p1 = malloc(8);
|
||||
char* s = mi_strdup("hello\n");
|
||||
free(p2);
|
||||
p2 = malloc(16);
|
||||
p1 = realloc(p1, 32);
|
||||
free(p1);
|
||||
free(p2);
|
||||
free(s);
|
||||
mi_collect(true);
|
||||
mi_stats_print(NULL);
|
||||
return 0;
|
||||
}
|
||||
|
||||
class Static {
|
||||
private:
|
||||
void* p;
|
||||
public:
|
||||
Static() {
|
||||
p = malloc(64);
|
||||
return;
|
||||
}
|
||||
~Static() {
|
||||
free(p);
|
||||
return;
|
||||
}
|
||||
};
|
||||
|
||||
static Static s = Static();
|
35
test/main.c
Normal file
35
test/main.c
Normal file
@ -0,0 +1,35 @@
|
||||
#include <stdio.h>
|
||||
#include <assert.h>
|
||||
#include <mimalloc.h>
|
||||
|
||||
void test_heap(void* p_out) {
|
||||
mi_heap_t* heap = mi_heap_new();
|
||||
void* p1 = mi_heap_malloc(heap,32);
|
||||
void* p2 = mi_heap_malloc(heap,48);
|
||||
mi_free(p_out);
|
||||
mi_heap_destroy(heap);
|
||||
//mi_heap_delete(heap); mi_free(p1); mi_free(p2);
|
||||
}
|
||||
|
||||
int main() {
|
||||
void* p1 = mi_malloc(16);
|
||||
void* p2 = mi_malloc(1000000);
|
||||
mi_free(p1);
|
||||
mi_free(p2);
|
||||
p1 = mi_malloc(16);
|
||||
p2 = mi_malloc(16);
|
||||
mi_free(p1);
|
||||
mi_free(p2);
|
||||
|
||||
test_heap(mi_malloc(32));
|
||||
|
||||
p1 = mi_malloc_aligned(64, 16);
|
||||
p2 = mi_malloc_aligned(160,24);
|
||||
mi_free(p2);
|
||||
mi_free(p1);
|
||||
|
||||
mi_collect(true);
|
||||
mi_stats_print(NULL);
|
||||
return 0;
|
||||
}
|
||||
|
17
test/main.cpp
Normal file
17
test/main.cpp
Normal file
@ -0,0 +1,17 @@
|
||||
#include <stdio.h>
|
||||
#include <assert.h>
|
||||
#include <rcmalloc.h>
|
||||
|
||||
int main() {
|
||||
void* p1 = rc_malloc(16);
|
||||
void* p2 = rc_malloc(16);
|
||||
rc_free(p1);
|
||||
rc_free(p2);
|
||||
p1 = rc_malloc(16);
|
||||
p2 = rc_malloc(16);
|
||||
rc_free(p1);
|
||||
rc_free(p2);
|
||||
rc_collect(true);
|
||||
rc_stats_print();
|
||||
return 0;
|
||||
}
|
Loading…
x
Reference in New Issue
Block a user