#include "gc.h" #include "arena.h" #include "internal.h" #include "common.h" #include #include #include #include #ifdef _WIN32 #include static inline void *gc_mmap(size_t size) { return VirtualAlloc(NULL, size, MEM_COMMIT | MEM_RESERVE, PAGE_READWRITE); } static inline void gc_munmap(void *ptr, size_t size) { (void)size; VirtualFree(ptr, 0, MEM_RELEASE); } #else #include static inline void *gc_mmap(size_t size) { void *p = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, 0); return (p == MAP_FAILED) ? NULL : p; } static inline void gc_munmap(void *ptr, size_t size) { munmap(ptr, size); } #endif #define MCO_API extern #include "minicoro.h" static uint8_t *gc_scratch_buf = NULL; static size_t gc_scratch_size = 0; static time_t gc_last_run_time = 0; #define FWD_EMPTY ((jsoff_t)~0) #define FWD_TOMBSTONE ((jsoff_t)~1) typedef struct { jsoff_t *old_offs; jsoff_t *new_offs; size_t count; size_t capacity; size_t mask; } gc_forward_table_t; typedef struct { jsoff_t *items; size_t count; size_t capacity; } gc_work_queue_t; typedef struct { ant_t *js; uint8_t *new_mem; uint8_t *mark_bits; gc_forward_table_t fwd; gc_work_queue_t work; jsoff_t new_brk; jsoff_t new_size; bool failed; } gc_ctx_t; static jsval_t gc_update_val(gc_ctx_t *ctx, jsval_t val); static inline void mark_set(gc_ctx_t *ctx, jsoff_t off) { jsoff_t idx = off >> 3; ctx->mark_bits[idx >> 3] |= (1 << (idx & 7)); } static inline size_t next_pow2(size_t n) { n--; n |= n >> 1; n |= n >> 2; n |= n >> 4; n |= n >> 8; n |= n >> 16; #if SIZE_MAX > 0xFFFFFFFF n |= n >> 32; #endif return n + 1; } static bool fwd_init(gc_forward_table_t *fwd, size_t estimated) { size_t cap = next_pow2(estimated < 64 ? 64 : estimated); fwd->old_offs = (jsoff_t *)ant_calloc(cap * sizeof(jsoff_t)); fwd->new_offs = (jsoff_t *)ant_calloc(cap * sizeof(jsoff_t)); if (!fwd->old_offs || !fwd->new_offs) { if (fwd->old_offs) free(fwd->old_offs); if (fwd->new_offs) free(fwd->new_offs); return false; } for (size_t i = 0; i < cap; i++) fwd->old_offs[i] = FWD_EMPTY; fwd->count = 0; fwd->capacity = cap; fwd->mask = cap - 1; return true; } static bool fwd_grow(gc_forward_table_t *fwd) { size_t new_cap = fwd->capacity * 2; size_t new_mask = new_cap - 1; jsoff_t *new_old = (jsoff_t *)ant_calloc(new_cap * sizeof(jsoff_t)); jsoff_t *new_new = (jsoff_t *)ant_calloc(new_cap * sizeof(jsoff_t)); if (!new_old || !new_new) { if (new_old) free(new_old); if (new_new) free(new_new); return false; } for (size_t i = 0; i < new_cap; i++) new_old[i] = FWD_EMPTY; for (size_t i = 0; i < fwd->capacity; i++) { jsoff_t key = fwd->old_offs[i]; if (key == FWD_EMPTY || key == FWD_TOMBSTONE) continue; size_t h = (key >> 3) & new_mask; while (new_old[h] != FWD_EMPTY) h = (h + 1) & new_mask; new_old[h] = key; new_new[h] = fwd->new_offs[i]; } free(fwd->old_offs); free(fwd->new_offs); fwd->old_offs = new_old; fwd->new_offs = new_new; fwd->capacity = new_cap; fwd->mask = new_mask; return true; } static inline bool fwd_add(gc_forward_table_t *fwd, jsoff_t old_off, jsoff_t new_off) { if (fwd->count * 100 >= fwd->capacity * GC_FWD_LOAD_FACTOR) { if (!fwd_grow(fwd)) return false; } size_t h = (old_off >> 3) & fwd->mask; while (fwd->old_offs[h] != FWD_EMPTY && fwd->old_offs[h] != FWD_TOMBSTONE) { if (fwd->old_offs[h] == old_off) { fwd->new_offs[h] = new_off; return true; } h = (h + 1) & fwd->mask; } fwd->old_offs[h] = old_off; fwd->new_offs[h] = new_off; fwd->count++; return true; } static inline jsoff_t fwd_lookup(gc_forward_table_t *fwd, jsoff_t old_off) { size_t h = (old_off >> 3) & fwd->mask; for (size_t i = 0; i < fwd->capacity; i++) { jsoff_t key = fwd->old_offs[h]; if (key == FWD_EMPTY) return (jsoff_t)~0; if (key == old_off) return fwd->new_offs[h]; h = (h + 1) & fwd->mask; } return (jsoff_t)~0; } static void fwd_free(gc_forward_table_t *fwd) { if (fwd->old_offs) free(fwd->old_offs); if (fwd->new_offs) free(fwd->new_offs); fwd->old_offs = NULL; fwd->new_offs = NULL; fwd->count = 0; fwd->capacity = 0; } static bool work_init(gc_work_queue_t *work, size_t initial) { work->items = (jsoff_t *)ant_calloc(initial * sizeof(jsoff_t)); if (!work->items) return false; work->count = 0; work->capacity = initial; return true; } static inline bool work_push(gc_work_queue_t *work, jsoff_t off) { if (work->count >= work->capacity) { size_t new_cap = work->capacity * 2; jsoff_t *new_items = (jsoff_t *)ant_calloc(new_cap * sizeof(jsoff_t)); if (!new_items) return false; memcpy(new_items, work->items, work->count * sizeof(jsoff_t)); free(work->items); work->items = new_items; work->capacity = new_cap; } work->items[work->count++] = off; return true; } static inline jsoff_t work_pop(gc_work_queue_t *work) { if (work->count == 0) return (jsoff_t)~0; return work->items[--work->count]; } static void work_free(gc_work_queue_t *work) { if (work->items) free(work->items); work->items = NULL; work->count = 0; work->capacity = 0; } static inline jsoff_t gc_loadoff(uint8_t *mem, jsoff_t off) { jsoff_t val; memcpy(&val, &mem[off], sizeof(val)); return val; } static inline jsval_t gc_loadval(uint8_t *mem, jsoff_t off) { jsval_t val; memcpy(&val, &mem[off], sizeof(val)); return val; } static inline void gc_saveoff(uint8_t *mem, jsoff_t off, jsoff_t val) { memcpy(&mem[off], &val, sizeof(val)); } static inline void gc_saveval(uint8_t *mem, jsoff_t off, jsval_t val) { memcpy(&mem[off], &val, sizeof(val)); } static jsoff_t gc_alloc(gc_ctx_t *ctx, size_t size) { size = (size + 7) / 8 * 8; if (ctx->new_brk + size > ctx->new_size) { ctx->failed = true; return (jsoff_t)~0; } jsoff_t off = ctx->new_brk; ctx->new_brk += (jsoff_t)size; return off; } static inline bool gc_is_tagged(jsval_t v) { return (v >> 53) == NANBOX_PREFIX_CHK; } static inline uint8_t gc_vtype(jsval_t v) { return gc_is_tagged(v) ? ((v >> NANBOX_TYPE_SHIFT) & NANBOX_TYPE_MASK) : 255; } static inline size_t gc_vdata(jsval_t v) { return (size_t)(v & NANBOX_DATA_MASK); } static inline jsval_t gc_mkval(uint8_t type, uint64_t data) { return NANBOX_PREFIX | ((jsval_t)(type & NANBOX_TYPE_MASK) << NANBOX_TYPE_SHIFT) | (data & NANBOX_DATA_MASK); } static jsoff_t gc_copy_string(gc_ctx_t *ctx, jsoff_t old_off) { if (old_off >= ctx->js->brk) return old_off; jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); if (new_off != (jsoff_t)~0) return new_off; jsoff_t header = gc_loadoff(ctx->js->mem, old_off); if ((header & 3) != T_STR) return old_off; jsoff_t size = esize(header); if (size == (jsoff_t)~0) return old_off; new_off = gc_alloc(ctx, size); if (new_off == (jsoff_t)~0) return old_off; memcpy(&ctx->new_mem[new_off], &ctx->js->mem[old_off], size); if (!fwd_add(&ctx->fwd, old_off, new_off)) ctx->failed = true; mark_set(ctx, old_off); return new_off; } static jsoff_t gc_copy_bigint(gc_ctx_t *ctx, jsoff_t old_off) { if (old_off >= ctx->js->brk) return old_off; jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); if (new_off != (jsoff_t)~0) return new_off; jsoff_t header = gc_loadoff(ctx->js->mem, old_off); size_t total = (header >> 4) + sizeof(jsoff_t); total = (total + 7) / 8 * 8; new_off = gc_alloc(ctx, total); if (new_off == (jsoff_t)~0) return old_off; memcpy(&ctx->new_mem[new_off], &ctx->js->mem[old_off], total); if (!fwd_add(&ctx->fwd, old_off, new_off)) ctx->failed = true; mark_set(ctx, old_off); return new_off; } static jsoff_t gc_reserve_object(gc_ctx_t *ctx, jsoff_t old_off) { if (old_off >= ctx->js->brk) return old_off; jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); if (new_off != (jsoff_t)~0) return new_off; jsoff_t header = gc_loadoff(ctx->js->mem, old_off); if ((header & 3) != T_OBJ) return old_off; jsoff_t size = esize(header); if (size == (jsoff_t)~0) return old_off; new_off = gc_alloc(ctx, size); if (new_off == (jsoff_t)~0) return old_off; memcpy(&ctx->new_mem[new_off], &ctx->js->mem[old_off], size); if (!fwd_add(&ctx->fwd, old_off, new_off)) ctx->failed = true; mark_set(ctx, old_off); if (!work_push(&ctx->work, old_off)) ctx->failed = true; return new_off; } static jsoff_t gc_reserve_prop(gc_ctx_t *ctx, jsoff_t old_off) { if (old_off >= ctx->js->brk) return old_off; jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); if (new_off != (jsoff_t)~0) return new_off; jsoff_t header = gc_loadoff(ctx->js->mem, old_off); if ((header & 3) != T_PROP) return old_off; jsoff_t size = esize(header); if (size == (jsoff_t)~0) return old_off; new_off = gc_alloc(ctx, size); if (new_off == (jsoff_t)~0) return old_off; memcpy(&ctx->new_mem[new_off], &ctx->js->mem[old_off], size); if (!fwd_add(&ctx->fwd, old_off, new_off)) ctx->failed = true; mark_set(ctx, old_off); if (!work_push(&ctx->work, old_off)) ctx->failed = true; return new_off; } static void gc_process_prop(gc_ctx_t *ctx, jsoff_t old_off) { jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); if (new_off == (jsoff_t)~0) return; jsoff_t header = gc_loadoff(ctx->js->mem, old_off); jsoff_t next_prop = header & ~(3ULL | FLAGMASK); if (next_prop != 0 && next_prop < ctx->js->brk) { jsoff_t new_next = gc_reserve_prop(ctx, next_prop); jsoff_t new_header = (new_next & ~3ULL) | (header & (3ULL | FLAGMASK)); gc_saveoff(ctx->new_mem, new_off, new_header); } bool is_slot = (header & SLOTMASK) != 0; if (!is_slot) { jsoff_t key_off = gc_loadoff(ctx->js->mem, old_off + sizeof(jsoff_t)); if (key_off < ctx->js->brk) { jsoff_t new_key = gc_copy_string(ctx, key_off); gc_saveoff(ctx->new_mem, new_off + sizeof(jsoff_t), new_key); } } jsval_t val = gc_loadval(ctx->js->mem, old_off + sizeof(jsoff_t) + sizeof(jsoff_t)); jsval_t new_val = gc_update_val(ctx, val); gc_saveval(ctx->new_mem, new_off + sizeof(jsoff_t) + sizeof(jsoff_t), new_val); } static void gc_process_object(gc_ctx_t *ctx, jsoff_t old_off) { jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); if (new_off == (jsoff_t)~0) return; jsoff_t header = gc_loadoff(ctx->js->mem, old_off); jsoff_t first_prop = header & ~(3ULL | FLAGMASK); if (first_prop != 0 && first_prop < ctx->js->brk) { jsoff_t new_first = gc_reserve_prop(ctx, first_prop); jsoff_t new_header = (new_first & ~3ULL) | (header & (3ULL | FLAGMASK)); gc_saveoff(ctx->new_mem, new_off, new_header); } jsoff_t parent_off = gc_loadoff(ctx->js->mem, old_off + sizeof(jsoff_t)); if (parent_off != 0 && parent_off < ctx->js->brk) { jsoff_t new_parent = gc_reserve_object(ctx, parent_off); gc_saveoff(ctx->new_mem, new_off + sizeof(jsoff_t), new_parent); } jsoff_t tail_off = gc_loadoff(ctx->js->mem, old_off + sizeof(jsoff_t) + sizeof(jsoff_t)); if (tail_off != 0 && tail_off < ctx->js->brk) { jsoff_t new_tail = fwd_lookup(&ctx->fwd, tail_off); if (new_tail == (jsoff_t)~0) new_tail = gc_reserve_prop(ctx, tail_off); gc_saveoff(ctx->new_mem, new_off + sizeof(jsoff_t) + sizeof(jsoff_t), new_tail); } } static void gc_drain_work_queue(gc_ctx_t *ctx) { jsoff_t off; while ((off = work_pop(&ctx->work)) != (jsoff_t)~0) { jsoff_t header = gc_loadoff(ctx->js->mem, off); switch (header & 3) { case T_OBJ: gc_process_object(ctx, off); break; case T_PROP: gc_process_prop(ctx, off); break; default: break; } } } static jsval_t gc_update_val(gc_ctx_t *ctx, jsval_t val) { if (!gc_is_tagged(val)) return val; uint8_t type = gc_vtype(val); jsoff_t old_off = (jsoff_t)gc_vdata(val); switch (type) { case T_OBJ: case T_FUNC: case T_ARR: case T_PROMISE: case T_GENERATOR: { if (old_off >= ctx->js->brk) return val; jsoff_t new_off = gc_reserve_object(ctx, old_off); if (new_off != (jsoff_t)~0) return gc_mkval(type, new_off); break; } case T_STR: { if (old_off >= ctx->js->brk) return val; jsoff_t new_off = gc_copy_string(ctx, old_off); if (new_off != (jsoff_t)~0) return gc_mkval(type, new_off); break; } case T_PROP: { if (old_off >= ctx->js->brk) return val; jsoff_t new_off = gc_reserve_prop(ctx, old_off); if (new_off != (jsoff_t)~0) return gc_mkval(type, new_off); break; } case T_BIGINT: { if (old_off >= ctx->js->brk) return val; jsoff_t new_off = gc_copy_bigint(ctx, old_off); if (new_off != (jsoff_t)~0) return gc_mkval(type, new_off); break; } default: break; } return val; } static jsoff_t gc_fwd_off_callback(void *ctx_ptr, jsoff_t old_off) { gc_ctx_t *ctx = (gc_ctx_t *)ctx_ptr; if (old_off == 0) return 0; if (old_off >= ctx->js->brk) return old_off; jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); if (new_off != (jsoff_t)~0) return new_off; static const void *dispatch[] = { &&l_obj, &&l_prop, &&l_str, &&l_default }; jsoff_t header = gc_loadoff(ctx->js->mem, old_off); goto *dispatch[header & 3]; l_obj: new_off = gc_reserve_object(ctx, old_off); goto l_done; l_prop: new_off = gc_reserve_prop(ctx, old_off); goto l_done; l_str: new_off = gc_copy_string(ctx, old_off); goto l_done; l_default: return old_off; l_done: return (new_off != (jsoff_t)~0) ? new_off : old_off; } static jsval_t gc_fwd_val_callback(void *ctx_ptr, jsval_t val) { gc_ctx_t *ctx = (gc_ctx_t *)ctx_ptr; return gc_update_val(ctx, val); } static jsoff_t gc_apply_off_callback(void *ctx_ptr, jsoff_t old_off) { gc_ctx_t *ctx = (gc_ctx_t *)ctx_ptr; if (old_off == 0) return 0; if (old_off >= ctx->js->brk) return old_off; jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); return (new_off != (jsoff_t)~0) ? new_off : old_off; } static jsval_t gc_apply_val(gc_ctx_t *ctx, jsval_t val) { if (!gc_is_tagged(val)) return val; uint8_t type = gc_vtype(val); jsoff_t old_off = (jsoff_t)gc_vdata(val); if (old_off >= ctx->js->brk) return val; switch (type) { case T_OBJ: case T_FUNC: case T_ARR: case T_PROMISE: case T_GENERATOR: case T_STR: case T_PROP: case T_BIGINT: { jsoff_t new_off = fwd_lookup(&ctx->fwd, old_off); if (new_off != (jsoff_t)~0) return gc_mkval(type, new_off); break; } default: break; } return val; } static jsval_t gc_apply_val_callback(void *ctx_ptr, jsval_t val) { gc_ctx_t *ctx = (gc_ctx_t *)ctx_ptr; return gc_apply_val(ctx, val); } size_t js_gc_compact(ant_t *js) { if (!js || js->brk == 0) return 0; if (js->brk < 2 * 1024 * 1024) return 0; time_t now = time(NULL); if (now != (time_t)-1 && gc_last_run_time != 0) { double elapsed = difftime(now, gc_last_run_time); double cooldown; if (js->brk > 128 * 1024 * 1024) cooldown = 2.0; else if (js->brk > 64 * 1024 * 1024) cooldown = 4.0; else if (js->brk > 16 * 1024 * 1024) cooldown = 6.0; else cooldown = 8.0; if (elapsed >= 0.0 && elapsed < cooldown && js->gc_alloc_since < js->brk) return 0; } mco_coro *running = mco_running(); int in_coroutine = (running != NULL && running->stack_base != NULL); if (in_coroutine) return 0; if (now != (time_t)-1) gc_last_run_time = now; size_t old_brk = js->brk; size_t new_size = js->size; if (new_size > gc_scratch_size) { if (gc_scratch_buf) gc_munmap(gc_scratch_buf, gc_scratch_size); gc_scratch_buf = (uint8_t *)gc_mmap(new_size); gc_scratch_size = gc_scratch_buf ? new_size : 0; } if (!gc_scratch_buf) return 0; uint8_t *new_mem = gc_scratch_buf; memset(new_mem, 0, new_size); size_t bitmap_size = (js->brk / 8 + 7) / 8 + 1; uint8_t *mark_bits = (uint8_t *)calloc(1, bitmap_size); if (!mark_bits) return 0; size_t estimated_objs = js->brk / 64; if (estimated_objs < 256) estimated_objs = 256; gc_ctx_t ctx; ctx.js = js; ctx.new_mem = new_mem; ctx.new_brk = 0; ctx.new_size = (jsoff_t)new_size; ctx.mark_bits = mark_bits; if (!fwd_init(&ctx.fwd, estimated_objs)) { free(mark_bits); return 0; } if (!work_init(&ctx.work, estimated_objs / 4 < 64 ? 64 : estimated_objs / 4)) { fwd_free(&ctx.fwd); free(mark_bits); return 0; } ctx.failed = false; if (js->brk > 0) { jsoff_t header_at_0 = gc_loadoff(js->mem, 0); if ((header_at_0 & 3) == T_OBJ) gc_reserve_object(&ctx, 0); } jsoff_t scope_off = (jsoff_t)gc_vdata(js->scope); if (scope_off < js->brk) { (void)gc_reserve_object(&ctx, scope_off); } (void)gc_update_val(&ctx, js->this_val); (void)gc_update_val(&ctx, js->module_ns); (void)gc_update_val(&ctx, js->current_func); (void)gc_update_val(&ctx, js->thrown_value); (void)gc_update_val(&ctx, js->tval); js_gc_reserve_roots( js, gc_fwd_off_callback, gc_fwd_val_callback, &ctx ); gc_drain_work_queue(&ctx); if (ctx.failed) { free(mark_bits); work_free(&ctx.work); fwd_free(&ctx.fwd); return 0; } js->scope = gc_apply_val(&ctx, js->scope); js->this_val = gc_apply_val(&ctx, js->this_val); js->module_ns = gc_apply_val(&ctx, js->module_ns); js->current_func = gc_apply_val(&ctx, js->current_func); js->thrown_value = gc_apply_val(&ctx, js->thrown_value); js->tval = gc_apply_val(&ctx, js->tval); js_gc_update_roots(js, gc_apply_off_callback, gc_apply_val_callback, &ctx); memcpy(js->mem, new_mem, ctx.new_brk); js->brk = ctx.new_brk; free(mark_bits); work_free(&ctx.work); fwd_free(&ctx.fwd); if (gc_scratch_buf) { gc_munmap(gc_scratch_buf, gc_scratch_size); gc_scratch_buf = NULL; gc_scratch_size = 0; } size_t page_size = 4096; size_t used_pages = (ctx.new_brk + page_size - 1) & ~(page_size - 1); if (js->size > used_pages) { size_t release_size = js->size - used_pages; void *release_start = js->mem + used_pages; #ifdef _WIN32 VirtualFree(release_start, release_size, MEM_DECOMMIT); VirtualAlloc(release_start, release_size, MEM_COMMIT, PAGE_READWRITE); #else void *p = mmap(release_start, release_size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON | MAP_FIXED, -1, 0); if (p == MAP_FAILED) madvise(release_start, release_size, MADV_DONTNEED); #endif } return (old_brk > ctx.new_brk ? old_brk - ctx.new_brk : 0); }