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gc.c
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gc.c
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/**********************************************************************
gc.c -
$Author$
created at: Tue Oct 5 09:44:46 JST 1993
Copyright (C) 1993-2007 Yukihiro Matsumoto
Copyright (C) 2000 Network Applied Communication Laboratory, Inc.
Copyright (C) 2000 Information-technology Promotion Agency, Japan
**********************************************************************/
#define rb_data_object_alloc rb_data_object_alloc
#define rb_data_typed_object_alloc rb_data_typed_object_alloc
#include "ruby/internal/config.h"
#ifdef _WIN32
# include "ruby/ruby.h"
#endif
#include <signal.h>
#define sighandler_t ruby_sighandler_t
#ifndef _WIN32
#include <unistd.h>
#include <sys/mman.h>
#endif
#if defined(__wasm__) && !defined(__EMSCRIPTEN__)
# include "wasm/setjmp.h"
# include "wasm/machine.h"
#else
# include <setjmp.h>
#endif
#include <stdarg.h>
#include <stdio.h>
/* MALLOC_HEADERS_BEGIN */
#ifndef HAVE_MALLOC_USABLE_SIZE
# ifdef _WIN32
# define HAVE_MALLOC_USABLE_SIZE
# define malloc_usable_size(a) _msize(a)
# elif defined HAVE_MALLOC_SIZE
# define HAVE_MALLOC_USABLE_SIZE
# define malloc_usable_size(a) malloc_size(a)
# endif
#endif
#ifdef HAVE_MALLOC_USABLE_SIZE
# ifdef RUBY_ALTERNATIVE_MALLOC_HEADER
/* Alternative malloc header is included in ruby/missing.h */
# elif defined(HAVE_MALLOC_H)
# include <malloc.h>
# elif defined(HAVE_MALLOC_NP_H)
# include <malloc_np.h>
# elif defined(HAVE_MALLOC_MALLOC_H)
# include <malloc/malloc.h>
# endif
#endif
#ifdef HAVE_MALLOC_TRIM
# include <malloc.h>
# ifdef __EMSCRIPTEN__
/* malloc_trim is defined in emscripten/emmalloc.h on emscripten. */
# include <emscripten/emmalloc.h>
# endif
#endif
#if !defined(PAGE_SIZE) && defined(HAVE_SYS_USER_H)
/* LIST_HEAD conflicts with sys/queue.h on macOS */
# include <sys/user.h>
#endif
/* MALLOC_HEADERS_END */
#ifdef HAVE_SYS_TIME_H
# include <sys/time.h>
#endif
#ifdef HAVE_SYS_RESOURCE_H
# include <sys/resource.h>
#endif
#if defined _WIN32 || defined __CYGWIN__
# include <windows.h>
#elif defined(HAVE_POSIX_MEMALIGN)
#elif defined(HAVE_MEMALIGN)
# include <malloc.h>
#endif
#include <sys/types.h>
#ifdef __EMSCRIPTEN__
#include <emscripten.h>
#endif
#ifdef HAVE_MACH_TASK_EXCEPTION_PORTS
# include <mach/task.h>
# include <mach/mach_init.h>
# include <mach/mach_port.h>
#endif
#undef LIST_HEAD /* ccan/list conflicts with BSD-origin sys/queue.h. */
#include "constant.h"
#include "darray.h"
#include "debug_counter.h"
#include "eval_intern.h"
#include "id_table.h"
#include "internal.h"
#include "internal/class.h"
#include "internal/compile.h"
#include "internal/complex.h"
#include "internal/cont.h"
#include "internal/error.h"
#include "internal/eval.h"
#include "internal/gc.h"
#include "internal/hash.h"
#include "internal/imemo.h"
#include "internal/io.h"
#include "internal/numeric.h"
#include "internal/object.h"
#include "internal/proc.h"
#include "internal/rational.h"
#include "internal/sanitizers.h"
#include "internal/struct.h"
#include "internal/symbol.h"
#include "internal/thread.h"
#include "internal/variable.h"
#include "internal/warnings.h"
#include "rjit.h"
#include "probes.h"
#include "regint.h"
#include "ruby/debug.h"
#include "ruby/io.h"
#include "ruby/re.h"
#include "ruby/st.h"
#include "ruby/thread.h"
#include "ruby/util.h"
#include "ruby_assert.h"
#include "ruby_atomic.h"
#include "symbol.h"
#include "vm_core.h"
#include "vm_sync.h"
#include "vm_callinfo.h"
#include "ractor_core.h"
#include "builtin.h"
#include "shape.h"
#define rb_setjmp(env) RUBY_SETJMP(env)
#define rb_jmp_buf rb_jmpbuf_t
#undef rb_data_object_wrap
#if !defined(MAP_ANONYMOUS) && defined(MAP_ANON)
#define MAP_ANONYMOUS MAP_ANON
#endif
static size_t malloc_offset = 0;
#if defined(HAVE_MALLOC_USABLE_SIZE)
static size_t
gc_compute_malloc_offset(void)
{
// Different allocators use different metadata storage strategies which result in different
// ideal sizes.
// For instance malloc(64) will waste 8B with glibc, but waste 0B with jemalloc.
// But malloc(56) will waste 0B with glibc, but waste 8B with jemalloc.
// So we try allocating 64, 56 and 48 bytes and select the first offset that doesn't
// waste memory.
// This was tested on Linux with glibc 2.35 and jemalloc 5, and for both it result in
// no wasted memory.
size_t offset = 0;
for (offset = 0; offset <= 16; offset += 8) {
size_t allocated = (64 - offset);
void *test_ptr = malloc(allocated);
size_t wasted = malloc_usable_size(test_ptr) - allocated;
free(test_ptr);
if (wasted == 0) {
return offset;
}
}
return 0;
}
#else
static size_t
gc_compute_malloc_offset(void)
{
// If we don't have malloc_usable_size, we use powers of 2.
return 0;
}
#endif
size_t
rb_malloc_grow_capa(size_t current, size_t type_size)
{
size_t current_capacity = current;
if (current_capacity < 4) {
current_capacity = 4;
}
current_capacity *= type_size;
// We double the current capacity.
size_t new_capacity = (current_capacity * 2);
// And round up to the next power of 2 if it's not already one.
if (rb_popcount64(new_capacity) != 1) {
new_capacity = (size_t)(1 << (64 - nlz_int64(new_capacity)));
}
new_capacity -= malloc_offset;
new_capacity /= type_size;
if (current > new_capacity) {
rb_bug("rb_malloc_grow_capa: current_capacity=%zu, new_capacity=%zu, malloc_offset=%zu", current, new_capacity, malloc_offset);
}
RUBY_ASSERT(new_capacity > current);
return new_capacity;
}
static inline struct rbimpl_size_mul_overflow_tag
size_add_overflow(size_t x, size_t y)
{
size_t z;
bool p;
#if 0
#elif __has_builtin(__builtin_add_overflow)
p = __builtin_add_overflow(x, y, &z);
#elif defined(DSIZE_T)
RB_GNUC_EXTENSION DSIZE_T dx = x;
RB_GNUC_EXTENSION DSIZE_T dy = y;
RB_GNUC_EXTENSION DSIZE_T dz = dx + dy;
p = dz > SIZE_MAX;
z = (size_t)dz;
#else
z = x + y;
p = z < y;
#endif
return (struct rbimpl_size_mul_overflow_tag) { p, z, };
}
static inline struct rbimpl_size_mul_overflow_tag
size_mul_add_overflow(size_t x, size_t y, size_t z) /* x * y + z */
{
struct rbimpl_size_mul_overflow_tag t = rbimpl_size_mul_overflow(x, y);
struct rbimpl_size_mul_overflow_tag u = size_add_overflow(t.right, z);
return (struct rbimpl_size_mul_overflow_tag) { t.left || u.left, u.right };
}
static inline struct rbimpl_size_mul_overflow_tag
size_mul_add_mul_overflow(size_t x, size_t y, size_t z, size_t w) /* x * y + z * w */
{
struct rbimpl_size_mul_overflow_tag t = rbimpl_size_mul_overflow(x, y);
struct rbimpl_size_mul_overflow_tag u = rbimpl_size_mul_overflow(z, w);
struct rbimpl_size_mul_overflow_tag v = size_add_overflow(t.right, u.right);
return (struct rbimpl_size_mul_overflow_tag) { t.left || u.left || v.left, v.right };
}
PRINTF_ARGS(NORETURN(static void gc_raise(VALUE, const char*, ...)), 2, 3);
static inline size_t
size_mul_or_raise(size_t x, size_t y, VALUE exc)
{
struct rbimpl_size_mul_overflow_tag t = rbimpl_size_mul_overflow(x, y);
if (LIKELY(!t.left)) {
return t.right;
}
else if (rb_during_gc()) {
rb_memerror(); /* or...? */
}
else {
gc_raise(
exc,
"integer overflow: %"PRIuSIZE
" * %"PRIuSIZE
" > %"PRIuSIZE,
x, y, (size_t)SIZE_MAX);
}
}
size_t
rb_size_mul_or_raise(size_t x, size_t y, VALUE exc)
{
return size_mul_or_raise(x, y, exc);
}
static inline size_t
size_mul_add_or_raise(size_t x, size_t y, size_t z, VALUE exc)
{
struct rbimpl_size_mul_overflow_tag t = size_mul_add_overflow(x, y, z);
if (LIKELY(!t.left)) {
return t.right;
}
else if (rb_during_gc()) {
rb_memerror(); /* or...? */
}
else {
gc_raise(
exc,
"integer overflow: %"PRIuSIZE
" * %"PRIuSIZE
" + %"PRIuSIZE
" > %"PRIuSIZE,
x, y, z, (size_t)SIZE_MAX);
}
}
size_t
rb_size_mul_add_or_raise(size_t x, size_t y, size_t z, VALUE exc)
{
return size_mul_add_or_raise(x, y, z, exc);
}
static inline size_t
size_mul_add_mul_or_raise(size_t x, size_t y, size_t z, size_t w, VALUE exc)
{
struct rbimpl_size_mul_overflow_tag t = size_mul_add_mul_overflow(x, y, z, w);
if (LIKELY(!t.left)) {
return t.right;
}
else if (rb_during_gc()) {
rb_memerror(); /* or...? */
}
else {
gc_raise(
exc,
"integer overflow: %"PRIdSIZE
" * %"PRIdSIZE
" + %"PRIdSIZE
" * %"PRIdSIZE
" > %"PRIdSIZE,
x, y, z, w, (size_t)SIZE_MAX);
}
}
#if defined(HAVE_RB_GC_GUARDED_PTR_VAL) && HAVE_RB_GC_GUARDED_PTR_VAL
/* trick the compiler into thinking a external signal handler uses this */
volatile VALUE rb_gc_guarded_val;
volatile VALUE *
rb_gc_guarded_ptr_val(volatile VALUE *ptr, VALUE val)
{
rb_gc_guarded_val = val;
return ptr;
}
#endif
#ifndef GC_HEAP_INIT_SLOTS
#define GC_HEAP_INIT_SLOTS 10000
#endif
#ifndef GC_HEAP_FREE_SLOTS
#define GC_HEAP_FREE_SLOTS 4096
#endif
#ifndef GC_HEAP_GROWTH_FACTOR
#define GC_HEAP_GROWTH_FACTOR 1.8
#endif
#ifndef GC_HEAP_GROWTH_MAX_SLOTS
#define GC_HEAP_GROWTH_MAX_SLOTS 0 /* 0 is disable */
#endif
#ifndef GC_HEAP_REMEMBERED_WB_UNPROTECTED_OBJECTS_LIMIT_RATIO
# define GC_HEAP_REMEMBERED_WB_UNPROTECTED_OBJECTS_LIMIT_RATIO 0.01
#endif
#ifndef GC_HEAP_OLDOBJECT_LIMIT_FACTOR
#define GC_HEAP_OLDOBJECT_LIMIT_FACTOR 2.0
#endif
#ifndef GC_HEAP_FREE_SLOTS_MIN_RATIO
#define GC_HEAP_FREE_SLOTS_MIN_RATIO 0.20
#endif
#ifndef GC_HEAP_FREE_SLOTS_GOAL_RATIO
#define GC_HEAP_FREE_SLOTS_GOAL_RATIO 0.40
#endif
#ifndef GC_HEAP_FREE_SLOTS_MAX_RATIO
#define GC_HEAP_FREE_SLOTS_MAX_RATIO 0.65
#endif
#ifndef GC_MALLOC_LIMIT_MIN
#define GC_MALLOC_LIMIT_MIN (16 * 1024 * 1024 /* 16MB */)
#endif
#ifndef GC_MALLOC_LIMIT_MAX
#define GC_MALLOC_LIMIT_MAX (32 * 1024 * 1024 /* 32MB */)
#endif
#ifndef GC_MALLOC_LIMIT_GROWTH_FACTOR
#define GC_MALLOC_LIMIT_GROWTH_FACTOR 1.4
#endif
#ifndef GC_OLDMALLOC_LIMIT_MIN
#define GC_OLDMALLOC_LIMIT_MIN (16 * 1024 * 1024 /* 16MB */)
#endif
#ifndef GC_OLDMALLOC_LIMIT_GROWTH_FACTOR
#define GC_OLDMALLOC_LIMIT_GROWTH_FACTOR 1.2
#endif
#ifndef GC_OLDMALLOC_LIMIT_MAX
#define GC_OLDMALLOC_LIMIT_MAX (128 * 1024 * 1024 /* 128MB */)
#endif
#ifndef GC_CAN_COMPILE_COMPACTION
#if defined(__wasi__) /* WebAssembly doesn't support signals */
# define GC_CAN_COMPILE_COMPACTION 0
#else
# define GC_CAN_COMPILE_COMPACTION 1
#endif
#endif
#ifndef PRINT_MEASURE_LINE
#define PRINT_MEASURE_LINE 0
#endif
#ifndef PRINT_ENTER_EXIT_TICK
#define PRINT_ENTER_EXIT_TICK 0
#endif
#ifndef PRINT_ROOT_TICKS
#define PRINT_ROOT_TICKS 0
#endif
#define USE_TICK_T (PRINT_ENTER_EXIT_TICK || PRINT_MEASURE_LINE || PRINT_ROOT_TICKS)
#define TICK_TYPE 1
typedef struct {
size_t size_pool_init_slots[SIZE_POOL_COUNT];
size_t heap_free_slots;
double growth_factor;
size_t growth_max_slots;
double heap_free_slots_min_ratio;
double heap_free_slots_goal_ratio;
double heap_free_slots_max_ratio;
double uncollectible_wb_unprotected_objects_limit_ratio;
double oldobject_limit_factor;
size_t malloc_limit_min;
size_t malloc_limit_max;
double malloc_limit_growth_factor;
size_t oldmalloc_limit_min;
size_t oldmalloc_limit_max;
double oldmalloc_limit_growth_factor;
VALUE gc_stress;
} ruby_gc_params_t;
static ruby_gc_params_t gc_params = {
{ 0 },
GC_HEAP_FREE_SLOTS,
GC_HEAP_GROWTH_FACTOR,
GC_HEAP_GROWTH_MAX_SLOTS,
GC_HEAP_FREE_SLOTS_MIN_RATIO,
GC_HEAP_FREE_SLOTS_GOAL_RATIO,
GC_HEAP_FREE_SLOTS_MAX_RATIO,
GC_HEAP_REMEMBERED_WB_UNPROTECTED_OBJECTS_LIMIT_RATIO,
GC_HEAP_OLDOBJECT_LIMIT_FACTOR,
GC_MALLOC_LIMIT_MIN,
GC_MALLOC_LIMIT_MAX,
GC_MALLOC_LIMIT_GROWTH_FACTOR,
GC_OLDMALLOC_LIMIT_MIN,
GC_OLDMALLOC_LIMIT_MAX,
GC_OLDMALLOC_LIMIT_GROWTH_FACTOR,
FALSE,
};
/* GC_DEBUG:
* enable to embed GC debugging information.
*/
#ifndef GC_DEBUG
#define GC_DEBUG 0
#endif
/* RGENGC_DEBUG:
* 1: basic information
* 2: remember set operation
* 3: mark
* 4:
* 5: sweep
*/
#ifndef RGENGC_DEBUG
#ifdef RUBY_DEVEL
#define RGENGC_DEBUG -1
#else
#define RGENGC_DEBUG 0
#endif
#endif
#if RGENGC_DEBUG < 0 && !defined(_MSC_VER)
# define RGENGC_DEBUG_ENABLED(level) (-(RGENGC_DEBUG) >= (level) && ruby_rgengc_debug >= (level))
#elif defined(HAVE_VA_ARGS_MACRO)
# define RGENGC_DEBUG_ENABLED(level) ((RGENGC_DEBUG) >= (level))
#else
# define RGENGC_DEBUG_ENABLED(level) 0
#endif
int ruby_rgengc_debug;
/* RGENGC_CHECK_MODE
* 0: disable all assertions
* 1: enable assertions (to debug RGenGC)
* 2: enable internal consistency check at each GC (for debugging)
* 3: enable internal consistency check at each GC steps (for debugging)
* 4: enable liveness check
* 5: show all references
*/
#ifndef RGENGC_CHECK_MODE
#define RGENGC_CHECK_MODE 0
#endif
// Note: using RUBY_ASSERT_WHEN() extend a macro in expr (info by nobu).
#define GC_ASSERT(expr) RUBY_ASSERT_MESG_WHEN(RGENGC_CHECK_MODE > 0, expr, #expr)
/* RGENGC_PROFILE
* 0: disable RGenGC profiling
* 1: enable profiling for basic information
* 2: enable profiling for each types
*/
#ifndef RGENGC_PROFILE
#define RGENGC_PROFILE 0
#endif
/* RGENGC_ESTIMATE_OLDMALLOC
* Enable/disable to estimate increase size of malloc'ed size by old objects.
* If estimation exceeds threshold, then will invoke full GC.
* 0: disable estimation.
* 1: enable estimation.
*/
#ifndef RGENGC_ESTIMATE_OLDMALLOC
#define RGENGC_ESTIMATE_OLDMALLOC 1
#endif
/* RGENGC_FORCE_MAJOR_GC
* Force major/full GC if this macro is not 0.
*/
#ifndef RGENGC_FORCE_MAJOR_GC
#define RGENGC_FORCE_MAJOR_GC 0
#endif
#ifndef GC_PROFILE_MORE_DETAIL
#define GC_PROFILE_MORE_DETAIL 0
#endif
#ifndef GC_PROFILE_DETAIL_MEMORY
#define GC_PROFILE_DETAIL_MEMORY 0
#endif
#ifndef GC_ENABLE_LAZY_SWEEP
#define GC_ENABLE_LAZY_SWEEP 1
#endif
#ifndef CALC_EXACT_MALLOC_SIZE
#define CALC_EXACT_MALLOC_SIZE USE_GC_MALLOC_OBJ_INFO_DETAILS
#endif
#if defined(HAVE_MALLOC_USABLE_SIZE) || CALC_EXACT_MALLOC_SIZE > 0
#ifndef MALLOC_ALLOCATED_SIZE
#define MALLOC_ALLOCATED_SIZE 0
#endif
#else
#define MALLOC_ALLOCATED_SIZE 0
#endif
#ifndef MALLOC_ALLOCATED_SIZE_CHECK
#define MALLOC_ALLOCATED_SIZE_CHECK 0
#endif
#ifndef GC_DEBUG_STRESS_TO_CLASS
#define GC_DEBUG_STRESS_TO_CLASS RUBY_DEBUG
#endif
#ifndef RGENGC_OBJ_INFO
#define RGENGC_OBJ_INFO (RGENGC_DEBUG | RGENGC_CHECK_MODE)
#endif
typedef enum {
GPR_FLAG_NONE = 0x000,
/* major reason */
GPR_FLAG_MAJOR_BY_NOFREE = 0x001,
GPR_FLAG_MAJOR_BY_OLDGEN = 0x002,
GPR_FLAG_MAJOR_BY_SHADY = 0x004,
GPR_FLAG_MAJOR_BY_FORCE = 0x008,
#if RGENGC_ESTIMATE_OLDMALLOC
GPR_FLAG_MAJOR_BY_OLDMALLOC = 0x020,
#endif
GPR_FLAG_MAJOR_MASK = 0x0ff,
/* gc reason */
GPR_FLAG_NEWOBJ = 0x100,
GPR_FLAG_MALLOC = 0x200,
GPR_FLAG_METHOD = 0x400,
GPR_FLAG_CAPI = 0x800,
GPR_FLAG_STRESS = 0x1000,
/* others */
GPR_FLAG_IMMEDIATE_SWEEP = 0x2000,
GPR_FLAG_HAVE_FINALIZE = 0x4000,
GPR_FLAG_IMMEDIATE_MARK = 0x8000,
GPR_FLAG_FULL_MARK = 0x10000,
GPR_FLAG_COMPACT = 0x20000,
GPR_DEFAULT_REASON =
(GPR_FLAG_FULL_MARK | GPR_FLAG_IMMEDIATE_MARK |
GPR_FLAG_IMMEDIATE_SWEEP | GPR_FLAG_CAPI),
} gc_profile_record_flag;
typedef struct gc_profile_record {
unsigned int flags;
double gc_time;
double gc_invoke_time;
size_t heap_total_objects;
size_t heap_use_size;
size_t heap_total_size;
size_t moved_objects;
#if GC_PROFILE_MORE_DETAIL
double gc_mark_time;
double gc_sweep_time;
size_t heap_use_pages;
size_t heap_live_objects;
size_t heap_free_objects;
size_t allocate_increase;
size_t allocate_limit;
double prepare_time;
size_t removing_objects;
size_t empty_objects;
#if GC_PROFILE_DETAIL_MEMORY
long maxrss;
long minflt;
long majflt;
#endif
#endif
#if MALLOC_ALLOCATED_SIZE
size_t allocated_size;
#endif
#if RGENGC_PROFILE > 0
size_t old_objects;
size_t remembered_normal_objects;
size_t remembered_shady_objects;
#endif
} gc_profile_record;
struct RMoved {
VALUE flags;
VALUE dummy;
VALUE destination;
shape_id_t original_shape_id;
};
#define RMOVED(obj) ((struct RMoved *)(obj))
typedef struct RVALUE {
union {
struct {
VALUE flags; /* always 0 for freed obj */
struct RVALUE *next;
} free;
struct RMoved moved;
struct RBasic basic;
struct RObject object;
struct RClass klass;
struct RFloat flonum;
struct RString string;
struct RArray array;
struct RRegexp regexp;
struct RHash hash;
struct RData data;
struct RTypedData typeddata;
struct RStruct rstruct;
struct RBignum bignum;
struct RFile file;
struct RMatch match;
struct RRational rational;
struct RComplex complex;
struct RSymbol symbol;
union {
rb_cref_t cref;
struct vm_svar svar;
struct vm_throw_data throw_data;
struct vm_ifunc ifunc;
struct MEMO memo;
struct rb_method_entry_struct ment;
const rb_iseq_t iseq;
rb_env_t env;
struct rb_imemo_tmpbuf_struct alloc;
rb_ast_t ast;
} imemo;
struct {
struct RBasic basic;
VALUE v1;
VALUE v2;
VALUE v3;
} values;
} as;
/* Start of RVALUE_OVERHEAD.
* Do not directly read these members from the RVALUE as they're located
* at the end of the slot (which may differ in size depending on the size
* pool). */
#if RACTOR_CHECK_MODE
uint32_t _ractor_belonging_id;
#endif
#if GC_DEBUG
const char *file;
int line;
#endif
} RVALUE;
#if RACTOR_CHECK_MODE
# define RVALUE_OVERHEAD (sizeof(RVALUE) - offsetof(RVALUE, _ractor_belonging_id))
#elif GC_DEBUG
# define RVALUE_OVERHEAD (sizeof(RVALUE) - offsetof(RVALUE, file))
#else
# define RVALUE_OVERHEAD 0
#endif
STATIC_ASSERT(sizeof_rvalue, sizeof(RVALUE) == (SIZEOF_VALUE * 5) + RVALUE_OVERHEAD);
STATIC_ASSERT(alignof_rvalue, RUBY_ALIGNOF(RVALUE) == SIZEOF_VALUE);
typedef uintptr_t bits_t;
enum {
BITS_SIZE = sizeof(bits_t),
BITS_BITLENGTH = ( BITS_SIZE * CHAR_BIT )
};
#define popcount_bits rb_popcount_intptr
struct heap_page_header {
struct heap_page *page;
};
struct heap_page_body {
struct heap_page_header header;
/* char gap[]; */
/* RVALUE values[]; */
};
struct gc_list {
VALUE *varptr;
struct gc_list *next;
};
#define STACK_CHUNK_SIZE 500
typedef struct stack_chunk {
VALUE data[STACK_CHUNK_SIZE];
struct stack_chunk *next;
} stack_chunk_t;
typedef struct mark_stack {
stack_chunk_t *chunk;
stack_chunk_t *cache;
int index;
int limit;
size_t cache_size;
size_t unused_cache_size;
} mark_stack_t;
#define SIZE_POOL_EDEN_HEAP(size_pool) (&(size_pool)->eden_heap)
#define SIZE_POOL_TOMB_HEAP(size_pool) (&(size_pool)->tomb_heap)
typedef int (*gc_compact_compare_func)(const void *l, const void *r, void *d);
typedef struct rb_heap_struct {
struct heap_page *free_pages;
struct ccan_list_head pages;
struct heap_page *sweeping_page; /* iterator for .pages */
struct heap_page *compact_cursor;
uintptr_t compact_cursor_index;
struct heap_page *pooled_pages;
size_t total_pages; /* total page count in a heap */
size_t total_slots; /* total slot count (about total_pages * HEAP_PAGE_OBJ_LIMIT) */
} rb_heap_t;
typedef struct rb_size_pool_struct {
short slot_size;
size_t allocatable_pages;
/* Basic statistics */
size_t total_allocated_pages;
size_t total_freed_pages;
size_t force_major_gc_count;
size_t force_incremental_marking_finish_count;
size_t total_allocated_objects;
size_t total_freed_objects;
/* Sweeping statistics */
size_t freed_slots;
size_t empty_slots;
rb_heap_t eden_heap;
rb_heap_t tomb_heap;
} rb_size_pool_t;
enum gc_mode {
gc_mode_none,
gc_mode_marking,
gc_mode_sweeping,
gc_mode_compacting,
};
typedef struct rb_objspace {
struct {
size_t limit;
size_t increase;
#if MALLOC_ALLOCATED_SIZE
size_t allocated_size;
size_t allocations;
#endif
} malloc_params;
struct {
unsigned int mode : 2;
unsigned int immediate_sweep : 1;
unsigned int dont_gc : 1;
unsigned int dont_incremental : 1;
unsigned int during_gc : 1;
unsigned int during_compacting : 1;
unsigned int during_reference_updating : 1;
unsigned int gc_stressful: 1;
unsigned int has_newobj_hook: 1;
unsigned int during_minor_gc : 1;
unsigned int during_incremental_marking : 1;
unsigned int measure_gc : 1;
} flags;
rb_event_flag_t hook_events;
VALUE next_object_id;
rb_size_pool_t size_pools[SIZE_POOL_COUNT];
struct {
rb_atomic_t finalizing;
} atomic_flags;
mark_stack_t mark_stack;
size_t marked_slots;
struct {
struct heap_page **sorted;
size_t allocated_pages;
size_t allocatable_pages;
size_t sorted_length;
uintptr_t range[2];
size_t freeable_pages;
/* final */
size_t final_slots;
VALUE deferred_final;
} heap_pages;
st_table *finalizer_table;
struct {
int run;
unsigned int latest_gc_info;
gc_profile_record *records;
gc_profile_record *current_record;
size_t next_index;
size_t size;
#if GC_PROFILE_MORE_DETAIL
double prepare_time;
#endif
double invoke_time;
size_t minor_gc_count;
size_t major_gc_count;
size_t compact_count;
size_t read_barrier_faults;
#if RGENGC_PROFILE > 0
size_t total_generated_normal_object_count;
size_t total_generated_shady_object_count;
size_t total_shade_operation_count;
size_t total_promoted_count;
size_t total_remembered_normal_object_count;
size_t total_remembered_shady_object_count;
#if RGENGC_PROFILE >= 2
size_t generated_normal_object_count_types[RUBY_T_MASK];
size_t generated_shady_object_count_types[RUBY_T_MASK];
size_t shade_operation_count_types[RUBY_T_MASK];
size_t promoted_types[RUBY_T_MASK];
size_t remembered_normal_object_count_types[RUBY_T_MASK];
size_t remembered_shady_object_count_types[RUBY_T_MASK];
#endif
#endif /* RGENGC_PROFILE */
/* temporary profiling space */
double gc_sweep_start_time;
size_t total_allocated_objects_at_gc_start;
size_t heap_used_at_gc_start;
/* basic statistics */
size_t count;
uint64_t marking_time_ns;
struct timespec marking_start_time;
uint64_t sweeping_time_ns;
struct timespec sweeping_start_time;
/* Weak references */
size_t weak_references_count;
size_t retained_weak_references_count;
} profile;
struct gc_list *global_list;
VALUE gc_stress_mode;
struct {
VALUE parent_object;
int need_major_gc;
size_t last_major_gc;
size_t uncollectible_wb_unprotected_objects;
size_t uncollectible_wb_unprotected_objects_limit;
size_t old_objects;
size_t old_objects_limit;
#if RGENGC_ESTIMATE_OLDMALLOC
size_t oldmalloc_increase;
size_t oldmalloc_increase_limit;
#endif
#if RGENGC_CHECK_MODE >= 2
struct st_table *allrefs_table;
size_t error_count;
#endif
} rgengc;
struct {
size_t considered_count_table[T_MASK];
size_t moved_count_table[T_MASK];
size_t moved_up_count_table[T_MASK];
size_t moved_down_count_table[T_MASK];
size_t total_moved;
/* This function will be used, if set, to sort the heap prior to compaction */
gc_compact_compare_func compare_func;
} rcompactor;
struct {
size_t pooled_slots;
size_t step_slots;
} rincgc;
st_table *id_to_obj_tbl;
st_table *obj_to_id_tbl;
#if GC_DEBUG_STRESS_TO_CLASS
VALUE stress_to_class;
#endif
rb_darray(VALUE *) weak_references;
rb_postponed_job_handle_t finalize_deferred_pjob;
#ifdef RUBY_ASAN_ENABLED
rb_execution_context_t *marking_machine_context_ec;
#endif
} rb_objspace_t;
#ifndef HEAP_PAGE_ALIGN_LOG
/* default tiny heap size: 64KiB */
#define HEAP_PAGE_ALIGN_LOG 16
#endif
#define BASE_SLOT_SIZE sizeof(RVALUE)
#define CEILDIV(i, mod) roomof(i, mod)
enum {
HEAP_PAGE_ALIGN = (1UL << HEAP_PAGE_ALIGN_LOG),
HEAP_PAGE_ALIGN_MASK = (~(~0UL << HEAP_PAGE_ALIGN_LOG)),
HEAP_PAGE_SIZE = HEAP_PAGE_ALIGN,
HEAP_PAGE_OBJ_LIMIT = (unsigned int)((HEAP_PAGE_SIZE - sizeof(struct heap_page_header)) / BASE_SLOT_SIZE),
HEAP_PAGE_BITMAP_LIMIT = CEILDIV(CEILDIV(HEAP_PAGE_SIZE, BASE_SLOT_SIZE), BITS_BITLENGTH),
HEAP_PAGE_BITMAP_SIZE = (BITS_SIZE * HEAP_PAGE_BITMAP_LIMIT),
};
#define HEAP_PAGE_ALIGN (1 << HEAP_PAGE_ALIGN_LOG)
#define HEAP_PAGE_SIZE HEAP_PAGE_ALIGN
#if !defined(INCREMENTAL_MARK_STEP_ALLOCATIONS)
# define INCREMENTAL_MARK_STEP_ALLOCATIONS 500
#endif
#undef INIT_HEAP_PAGE_ALLOC_USE_MMAP
/* Must define either HEAP_PAGE_ALLOC_USE_MMAP or
* INIT_HEAP_PAGE_ALLOC_USE_MMAP. */
#ifndef HAVE_MMAP
/* We can't use mmap of course, if it is not available. */
static const bool HEAP_PAGE_ALLOC_USE_MMAP = false;
#elif defined(__wasm__)
/* wasmtime does not have proper support for mmap.
* See https://github.com/bytecodealliance/wasmtime/blob/main/docs/WASI-rationale.md#why-no-mmap-and-friends
*/
static const bool HEAP_PAGE_ALLOC_USE_MMAP = false;