https://github.com/JuliaLang/julia
Tip revision: 8f1f4ad88b1fce1b905519a32f0368846dd6e6f3 authored by Nathan Daly on 20 September 2023, 02:50:10 UTC
Add a test for jl_get_num_stack_mappings
Add a test for jl_get_num_stack_mappings
Tip revision: 8f1f4ad
gc.h
// This file is a part of Julia. License is MIT: https://julialang.org/license
/*
allocation and garbage collection
. non-moving, precise mark and sweep collector
. pool-allocates small objects, keeps big objects on a simple list
*/
#ifndef JL_GC_H
#define JL_GC_H
#include <stddef.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <inttypes.h>
#include "julia.h"
#include "julia_threads.h"
#include "julia_internal.h"
#include "threading.h"
#ifndef _OS_WINDOWS_
#include <sys/mman.h>
#if defined(_OS_DARWIN_) && !defined(MAP_ANONYMOUS)
#define MAP_ANONYMOUS MAP_ANON
#endif
#endif
#include "julia_assert.h"
#include "gc-heap-snapshot.h"
#include "gc-alloc-profiler.h"
#ifdef __cplusplus
extern "C" {
#endif
#define GC_PAGE_LG2 14 // log2(size of a page)
#define GC_PAGE_SZ (1 << GC_PAGE_LG2) // 16k
#define GC_PAGE_OFFSET (JL_HEAP_ALIGNMENT - (sizeof(jl_taggedvalue_t) % JL_HEAP_ALIGNMENT))
#define jl_malloc_tag ((void*)0xdeadaa01)
#define jl_singleton_tag ((void*)0xdeadaa02)
// Used by GC_DEBUG_ENV
typedef struct {
uint64_t num;
uint64_t next;
uint64_t min;
uint64_t interv;
uint64_t max;
unsigned short random[3];
} jl_alloc_num_t;
typedef struct {
int always_full;
int wait_for_debugger;
jl_alloc_num_t pool;
jl_alloc_num_t other;
jl_alloc_num_t print;
} jl_gc_debug_env_t;
// This struct must be kept in sync with the Julia type of the same name in base/timing.jl
typedef struct {
int64_t allocd;
int64_t deferred_alloc;
int64_t freed;
uint64_t malloc;
uint64_t realloc;
uint64_t poolalloc;
uint64_t bigalloc;
uint64_t freecall;
uint64_t total_time;
uint64_t total_allocd;
size_t interval;
int pause;
int full_sweep;
uint64_t max_pause;
uint64_t max_memory;
uint64_t time_to_safepoint;
uint64_t max_time_to_safepoint;
uint64_t total_time_to_safepoint;
uint64_t sweep_time;
uint64_t mark_time;
uint64_t total_sweep_time;
uint64_t total_mark_time;
uint64_t last_full_sweep;
uint64_t last_incremental_sweep;
} jl_gc_num_t;
// Array chunks (work items representing suffixes of
// large arrays of pointers left to be marked)
typedef enum {
GC_empty_chunk = 0, // for sentinel representing no items left in chunk queue
GC_objary_chunk, // for chunk of object array
GC_ary8_chunk, // for chunk of array with 8 bit field descriptors
GC_ary16_chunk, // for chunk of array with 16 bit field descriptors
GC_finlist_chunk, // for chunk of finalizer list
} gc_chunk_id_t;
typedef struct _jl_gc_chunk_t {
gc_chunk_id_t cid;
struct _jl_value_t *parent; // array owner
struct _jl_value_t **begin; // pointer to first element that needs scanning
struct _jl_value_t **end; // pointer to last element that needs scanning
void *elem_begin; // used to scan pointers within objects when marking `ary8` or `ary16`
void *elem_end; // used to scan pointers within objects when marking `ary8` or `ary16`
uint32_t step; // step-size used when marking objarray
uintptr_t nptr; // (`nptr` & 0x1) if array has young element and (`nptr` & 0x2) if array owner is old
} jl_gc_chunk_t;
#define GC_CHUNK_BATCH_SIZE (1 << 16) // maximum number of references that can be processed
// without creating a chunk
#define GC_PTR_QUEUE_INIT_SIZE (1 << 18) // initial size of queue of `jl_value_t *`
#define GC_CHUNK_QUEUE_INIT_SIZE (1 << 14) // initial size of chunk-queue
// layout for big (>2k) objects
JL_EXTENSION typedef struct _bigval_t {
struct _bigval_t *next;
struct _bigval_t **prev; // pointer to the next field of the prev entry
size_t sz;
#ifdef _P64 // Add padding so that the value is 64-byte aligned
// (8 pointers of 8 bytes each) - (4 other pointers in struct)
void *_padding[8 - 4];
#else
// (16 pointers of 4 bytes each) - (4 other pointers in struct)
void *_padding[16 - 4];
#endif
//struct jl_taggedvalue_t <>;
union {
uintptr_t header;
struct {
uintptr_t gc:2;
} bits;
};
// must be 64-byte aligned here, in 32 & 64 bit modes
} bigval_t;
// data structure for tracking malloc'd arrays.
typedef struct _mallocarray_t {
jl_array_t *a;
struct _mallocarray_t *next;
} mallocarray_t;
// pool page metadata
typedef struct _jl_gc_pagemeta_t {
// next metadata structure in per-thread list
// or in one of the `jl_gc_global_page_pool_t`
struct _jl_gc_pagemeta_t *next;
// index of pool that owns this page
uint8_t pool_n;
// Whether any cell in the page is marked
// This bit is set before sweeping iff there are live cells in the page.
// Note that before marking or after sweeping there can be live
// (and young) cells in the page for `!has_marked`.
uint8_t has_marked;
// Whether any cell was live and young **before sweeping**.
// For a normal sweep (quick sweep that is NOT preceded by a
// full sweep) this bit is set iff there are young or newly dead
// objects in the page and the page needs to be swept.
//
// For a full sweep, this bit should be ignored.
//
// For a quick sweep preceded by a full sweep. If this bit is set,
// the page needs to be swept. If this bit is not set, there could
// still be old dead objects in the page and `nold` and `prev_nold`
// should be used to determine if the page needs to be swept.
uint8_t has_young;
// number of old objects in this page
uint16_t nold;
// number of old objects in this page during the previous full sweep
uint16_t prev_nold;
// number of free objects in this page.
// invalid if pool that owns this page is allocating objects from this page.
uint16_t nfree;
uint16_t osize; // size of each object in this page
uint16_t fl_begin_offset; // offset of first free object in this page
uint16_t fl_end_offset; // offset of last free object in this page
uint16_t thread_n; // thread id of the heap that owns this page
char *data;
} jl_gc_pagemeta_t;
typedef struct {
_Atomic(jl_gc_pagemeta_t *) page_metadata_back;
} jl_gc_global_page_pool_t;
extern jl_gc_global_page_pool_t global_page_pool_lazily_freed;
extern jl_gc_global_page_pool_t global_page_pool_clean;
extern jl_gc_global_page_pool_t global_page_pool_freed;
#define GC_BACKOFF_MIN 4
#define GC_BACKOFF_MAX 12
STATIC_INLINE void gc_backoff(int *i) JL_NOTSAFEPOINT
{
if (*i < GC_BACKOFF_MAX) {
(*i)++;
}
for (int j = 0; j < (1 << *i); j++) {
jl_cpu_pause();
}
}
// Lock-free stack implementation taken
// from Herlihy's "The Art of Multiprocessor Programming"
// XXX: this is not a general-purpose lock-free stack. We can
// get away with just using a CAS and not implementing some ABA
// prevention mechanism since once a node is popped from the
// `jl_gc_global_page_pool_t`, it may only be pushed back to them
// in the sweeping phase, which is serial
STATIC_INLINE void push_lf_page_metadata_back(jl_gc_global_page_pool_t *pool, jl_gc_pagemeta_t *elt) JL_NOTSAFEPOINT
{
while (1) {
jl_gc_pagemeta_t *old_back = jl_atomic_load_relaxed(&pool->page_metadata_back);
elt->next = old_back;
if (jl_atomic_cmpswap(&pool->page_metadata_back, &old_back, elt)) {
break;
}
jl_cpu_pause();
}
}
STATIC_INLINE jl_gc_pagemeta_t *pop_lf_page_metadata_back(jl_gc_global_page_pool_t *pool) JL_NOTSAFEPOINT
{
while (1) {
jl_gc_pagemeta_t *old_back = jl_atomic_load_relaxed(&pool->page_metadata_back);
if (old_back == NULL) {
return NULL;
}
if (jl_atomic_cmpswap(&pool->page_metadata_back, &old_back, old_back->next)) {
return old_back;
}
jl_cpu_pause();
}
}
#ifdef _P64
#define REGION0_PG_COUNT (1 << 16)
#define REGION1_PG_COUNT (1 << 16)
#define REGION2_PG_COUNT (1 << 18)
#define REGION0_INDEX(p) (((uintptr_t)(p) >> 14) & 0xFFFF) // shift by GC_PAGE_LG2
#define REGION1_INDEX(p) (((uintptr_t)(p) >> 30) & 0xFFFF)
#define REGION_INDEX(p) (((uintptr_t)(p) >> 46) & 0x3FFFF)
#else
#define REGION0_PG_COUNT (1 << 8)
#define REGION1_PG_COUNT (1 << 10)
#define REGION2_PG_COUNT (1 << 0)
#define REGION0_INDEX(p) (((uintptr_t)(p) >> 14) & 0xFF) // shift by GC_PAGE_LG2
#define REGION1_INDEX(p) (((uintptr_t)(p) >> 22) & 0x3FF)
#define REGION_INDEX(p) (0)
#endif
// define the representation of the levels of the page-table (0 to 2)
typedef struct {
uint8_t meta[REGION0_PG_COUNT];
} pagetable0_t;
typedef struct {
pagetable0_t *meta0[REGION1_PG_COUNT];
} pagetable1_t;
typedef struct {
pagetable1_t *meta1[REGION2_PG_COUNT];
} pagetable_t;
typedef struct {
_Atomic(size_t) bytes_mapped;
_Atomic(size_t) bytes_resident;
_Atomic(size_t) heap_size;
_Atomic(size_t) heap_target;
} gc_heapstatus_t;
#define GC_PAGE_UNMAPPED 0
#define GC_PAGE_ALLOCATED 1
#define GC_PAGE_LAZILY_FREED 2
#define GC_PAGE_FREED 3
extern pagetable_t alloc_map;
STATIC_INLINE uint8_t gc_alloc_map_is_set(char *_data) JL_NOTSAFEPOINT
{
uintptr_t data = ((uintptr_t)_data);
unsigned i;
i = REGION_INDEX(data);
pagetable1_t *r1 = alloc_map.meta1[i];
if (r1 == NULL)
return 0;
i = REGION1_INDEX(data);
pagetable0_t *r0 = r1->meta0[i];
if (r0 == NULL)
return 0;
i = REGION0_INDEX(data);
return (r0->meta[i] == GC_PAGE_ALLOCATED);
}
STATIC_INLINE void gc_alloc_map_set(char *_data, uint8_t v) JL_NOTSAFEPOINT
{
uintptr_t data = ((uintptr_t)_data);
unsigned i;
i = REGION_INDEX(data);
pagetable1_t *r1 = alloc_map.meta1[i];
assert(r1 != NULL);
i = REGION1_INDEX(data);
pagetable0_t *r0 = r1->meta0[i];
assert(r0 != NULL);
i = REGION0_INDEX(data);
r0->meta[i] = v;
}
STATIC_INLINE void gc_alloc_map_maybe_create(char *_data) JL_NOTSAFEPOINT
{
uintptr_t data = ((uintptr_t)_data);
unsigned i;
i = REGION_INDEX(data);
pagetable1_t *r1 = alloc_map.meta1[i];
if (r1 == NULL) {
r1 = (pagetable1_t*)calloc_s(sizeof(pagetable1_t));
alloc_map.meta1[i] = r1;
}
i = REGION1_INDEX(data);
pagetable0_t *r0 = r1->meta0[i];
if (r0 == NULL) {
r0 = (pagetable0_t*)calloc_s(sizeof(pagetable0_t));
r1->meta0[i] = r0;
}
}
// Page layout:
// Metadata pointer: sizeof(jl_gc_pagemeta_t*)
// Padding: GC_PAGE_OFFSET - sizeof(jl_gc_pagemeta_t*)
// Blocks: osize * n
// Tag: sizeof(jl_taggedvalue_t)
// Data: <= osize - sizeof(jl_taggedvalue_t)
STATIC_INLINE char *gc_page_data(void *x) JL_NOTSAFEPOINT
{
return (char*)(((uintptr_t)x >> GC_PAGE_LG2) << GC_PAGE_LG2);
}
STATIC_INLINE jl_gc_pagemeta_t *page_metadata_unsafe(void *_data) JL_NOTSAFEPOINT
{
return *(jl_gc_pagemeta_t**)(gc_page_data(_data));
}
STATIC_INLINE jl_gc_pagemeta_t *page_metadata(void *_data) JL_NOTSAFEPOINT
{
if (!gc_alloc_map_is_set((char*)_data)) {
return NULL;
}
return page_metadata_unsafe(_data);
}
STATIC_INLINE void set_page_metadata(jl_gc_pagemeta_t *pg) JL_NOTSAFEPOINT
{
*(jl_gc_pagemeta_t**)(pg->data) = pg;
}
STATIC_INLINE void push_page_metadata_back(jl_gc_pagemeta_t **ppg, jl_gc_pagemeta_t *elt) JL_NOTSAFEPOINT
{
elt->next = *ppg;
*ppg = elt;
}
STATIC_INLINE jl_gc_pagemeta_t *pop_page_metadata_back(jl_gc_pagemeta_t **ppg) JL_NOTSAFEPOINT
{
jl_gc_pagemeta_t *v = *ppg;
if (*ppg != NULL) {
*ppg = (*ppg)->next;
}
return v;
}
#ifdef __clang_gcanalyzer__ /* clang may not have __builtin_ffs */
unsigned ffs_u32(uint32_t bitvec) JL_NOTSAFEPOINT;
#else
STATIC_INLINE unsigned ffs_u32(uint32_t bitvec)
{
return __builtin_ffs(bitvec) - 1;
}
#endif
extern jl_gc_num_t gc_num;
extern bigval_t *big_objects_marked;
extern arraylist_t finalizer_list_marked;
extern arraylist_t to_finalize;
extern int64_t lazy_freed_pages;
extern int gc_first_tid;
extern int gc_n_threads;
extern jl_ptls_t* gc_all_tls_states;
extern gc_heapstatus_t gc_heap_stats;
STATIC_INLINE bigval_t *bigval_header(jl_taggedvalue_t *o) JL_NOTSAFEPOINT
{
return container_of(o, bigval_t, header);
}
STATIC_INLINE jl_taggedvalue_t *page_pfl_beg(jl_gc_pagemeta_t *p) JL_NOTSAFEPOINT
{
return (jl_taggedvalue_t*)(p->data + p->fl_begin_offset);
}
STATIC_INLINE jl_taggedvalue_t *page_pfl_end(jl_gc_pagemeta_t *p) JL_NOTSAFEPOINT
{
return (jl_taggedvalue_t*)(p->data + p->fl_end_offset);
}
STATIC_INLINE int gc_marked(uintptr_t bits) JL_NOTSAFEPOINT
{
return (bits & GC_MARKED) != 0;
}
STATIC_INLINE int gc_old(uintptr_t bits) JL_NOTSAFEPOINT
{
return (bits & GC_OLD) != 0;
}
STATIC_INLINE uintptr_t gc_set_bits(uintptr_t tag, int bits) JL_NOTSAFEPOINT
{
return (tag & ~(uintptr_t)3) | bits;
}
STATIC_INLINE uintptr_t gc_ptr_tag(void *v, uintptr_t mask) JL_NOTSAFEPOINT
{
return ((uintptr_t)v) & mask;
}
STATIC_INLINE void *gc_ptr_clear_tag(void *v, uintptr_t mask) JL_NOTSAFEPOINT
{
return (void*)(((uintptr_t)v) & ~mask);
}
NOINLINE uintptr_t gc_get_stack_ptr(void);
STATIC_INLINE void gc_big_object_unlink(const bigval_t *hdr) JL_NOTSAFEPOINT
{
*hdr->prev = hdr->next;
if (hdr->next) {
hdr->next->prev = hdr->prev;
}
}
STATIC_INLINE void gc_big_object_link(bigval_t *hdr, bigval_t **list) JL_NOTSAFEPOINT
{
hdr->next = *list;
hdr->prev = list;
if (*list)
(*list)->prev = &hdr->next;
*list = hdr;
}
extern uv_mutex_t gc_threads_lock;
extern uv_cond_t gc_threads_cond;
extern uv_sem_t gc_sweep_assists_needed;
extern _Atomic(int) gc_n_threads_marking;
void gc_mark_queue_all_roots(jl_ptls_t ptls, jl_gc_markqueue_t *mq);
void gc_mark_finlist_(jl_gc_markqueue_t *mq, jl_value_t **fl_begin, jl_value_t **fl_end) JL_NOTSAFEPOINT;
void gc_mark_finlist(jl_gc_markqueue_t *mq, arraylist_t *list, size_t start) JL_NOTSAFEPOINT;
void gc_mark_loop_serial_(jl_ptls_t ptls, jl_gc_markqueue_t *mq);
void gc_mark_loop_serial(jl_ptls_t ptls);
void gc_mark_loop_parallel(jl_ptls_t ptls, int master);
void sweep_stack_pools(void);
void jl_gc_debug_init(void);
// GC pages
void jl_gc_init_page(void) JL_NOTSAFEPOINT;
NOINLINE jl_gc_pagemeta_t *jl_gc_alloc_page(void) JL_NOTSAFEPOINT;
void jl_gc_free_page(jl_gc_pagemeta_t *p) JL_NOTSAFEPOINT;
// GC debug
#if defined(GC_TIME) || defined(GC_FINAL_STATS)
void gc_settime_premark_end(void);
void gc_settime_postmark_end(void);
#else
#define gc_settime_premark_end()
#define gc_settime_postmark_end()
#endif
#ifdef GC_FINAL_STATS
void gc_final_count_page(size_t pg_cnt);
void gc_final_pause_end(int64_t t0, int64_t tend);
#else
#define gc_final_count_page(pg_cnt)
#define gc_final_pause_end(t0, tend)
#endif
#ifdef GC_TIME
void gc_time_pool_start(void) JL_NOTSAFEPOINT;
void gc_time_count_page(int freedall, int pg_skpd) JL_NOTSAFEPOINT;
void gc_time_pool_end(int sweep_full) JL_NOTSAFEPOINT;
void gc_time_sysimg_end(uint64_t t0) JL_NOTSAFEPOINT;
void gc_time_big_start(void) JL_NOTSAFEPOINT;
void gc_time_count_big(int old_bits, int bits) JL_NOTSAFEPOINT;
void gc_time_big_end(void) JL_NOTSAFEPOINT;
void gc_time_mallocd_array_start(void) JL_NOTSAFEPOINT;
void gc_time_count_mallocd_array(int bits) JL_NOTSAFEPOINT;
void gc_time_mallocd_array_end(void) JL_NOTSAFEPOINT;
void gc_time_mark_pause(int64_t t0, int64_t scanned_bytes,
int64_t perm_scanned_bytes);
void gc_time_sweep_pause(uint64_t gc_end_t, int64_t actual_allocd,
int64_t live_bytes, int64_t estimate_freed,
int sweep_full);
void gc_time_summary(int sweep_full, uint64_t start, uint64_t end,
uint64_t freed, uint64_t live, uint64_t interval,
uint64_t pause, uint64_t ttsp, uint64_t mark,
uint64_t sweep);
#else
#define gc_time_pool_start()
STATIC_INLINE void gc_time_count_page(int freedall, int pg_skpd) JL_NOTSAFEPOINT
{
(void)freedall;
(void)pg_skpd;
}
#define gc_time_pool_end(sweep_full) (void)(sweep_full)
#define gc_time_sysimg_end(t0) (void)(t0)
#define gc_time_big_start()
STATIC_INLINE void gc_time_count_big(int old_bits, int bits) JL_NOTSAFEPOINT
{
(void)old_bits;
(void)bits;
}
#define gc_time_big_end()
#define gc_time_mallocd_array_start()
STATIC_INLINE void gc_time_count_mallocd_array(int bits) JL_NOTSAFEPOINT
{
(void)bits;
}
#define gc_time_mallocd_array_end()
#define gc_time_mark_pause(t0, scanned_bytes, perm_scanned_bytes)
#define gc_time_sweep_pause(gc_end_t, actual_allocd, live_bytes, \
estimate_freed, sweep_full)
#define gc_time_summary(sweep_full, start, end, freed, live, \
interval, pause, ttsp, mark, sweep)
#endif
#ifdef MEMFENCE
void gc_verify_tags(void);
#else
static inline void gc_verify_tags(void)
{
}
#endif
#ifdef GC_VERIFY
extern jl_value_t *lostval;
void gc_verify(jl_ptls_t ptls);
void add_lostval_parent(jl_value_t *parent);
#define verify_val(v) do { \
if (lostval == (jl_value_t*)(v) && (v) != 0) { \
jl_printf(JL_STDOUT, \
"Found lostval %p at %s:%d oftype: ", \
(void*)(lostval), __FILE__, __LINE__); \
jl_static_show(JL_STDOUT, jl_typeof(v)); \
jl_printf(JL_STDOUT, "\n"); \
} \
} while(0);
#define verify_parent(ty, obj, slot, args...) do { \
if (gc_ptr_clear_tag(*(void**)(slot), 3) == (void*)lostval && \
(jl_value_t*)(obj) != lostval) { \
jl_printf(JL_STDOUT, "Found parent %p %p at %s:%d\n", \
(void*)(ty), (void*)(obj), __FILE__, __LINE__); \
jl_printf(JL_STDOUT, "\tloc %p : ", (void*)(slot)); \
jl_printf(JL_STDOUT, args); \
jl_printf(JL_STDOUT, "\n"); \
jl_printf(JL_STDOUT, "\ttype: "); \
jl_static_show(JL_STDOUT, jl_typeof(obj)); \
jl_printf(JL_STDOUT, "\n"); \
add_lostval_parent((jl_value_t*)(obj)); \
} \
} while(0);
#define verify_parent1(ty,obj,slot,arg1) verify_parent(ty,obj,slot,arg1)
#define verify_parent2(ty,obj,slot,arg1,arg2) verify_parent(ty,obj,slot,arg1,arg2)
extern int gc_verifying;
#else
#define gc_verify(ptls)
#define verify_val(v)
#define verify_parent1(ty,obj,slot,arg1) do {} while (0)
#define verify_parent2(ty,obj,slot,arg1,arg2) do {} while (0)
#define gc_verifying (0)
#endif
int gc_slot_to_fieldidx(void *_obj, void *slot, jl_datatype_t *vt) JL_NOTSAFEPOINT;
int gc_slot_to_arrayidx(void *_obj, void *begin) JL_NOTSAFEPOINT;
NOINLINE void gc_mark_loop_unwind(jl_ptls_t ptls, jl_gc_markqueue_t *mq, int offset) JL_NOTSAFEPOINT;
#ifdef GC_DEBUG_ENV
JL_DLLEXPORT extern jl_gc_debug_env_t jl_gc_debug_env;
#define gc_sweep_always_full jl_gc_debug_env.always_full
int jl_gc_debug_check_other(void);
int gc_debug_check_pool(void);
void jl_gc_debug_print(void);
void gc_scrub_record_task(jl_task_t *ta) JL_NOTSAFEPOINT;
void gc_scrub(void);
#else
#define gc_sweep_always_full 0
static inline int jl_gc_debug_check_other(void)
{
return 0;
}
static inline int gc_debug_check_pool(void)
{
return 0;
}
static inline void jl_gc_debug_print(void)
{
}
static inline void gc_scrub_record_task(jl_task_t *ta) JL_NOTSAFEPOINT
{
(void)ta;
}
static inline void gc_scrub(void)
{
}
#endif
#ifdef OBJPROFILE
void objprofile_count(void *ty, int old, int sz) JL_NOTSAFEPOINT;
void objprofile_printall(void);
void objprofile_reset(void);
#else
static inline void objprofile_count(void *ty, int old, int sz) JL_NOTSAFEPOINT
{
}
static inline void objprofile_printall(void)
{
}
static inline void objprofile_reset(void)
{
}
#endif
#ifdef MEMPROFILE
void gc_stats_all_pool(void);
void gc_stats_big_obj(void);
#else
#define gc_stats_all_pool()
#define gc_stats_big_obj()
#endif
// For debugging
void gc_count_pool(void);
size_t jl_array_nbytes(jl_array_t *a) JL_NOTSAFEPOINT;
JL_DLLEXPORT void jl_enable_gc_logging(int enable);
JL_DLLEXPORT uint32_t jl_get_num_stack_mappings(void);
void _report_gc_finished(uint64_t pause, uint64_t freed, int full, int recollect, int64_t live_bytes) JL_NOTSAFEPOINT;
#ifdef __cplusplus
}
#endif
#endif