#include "constant.h" #include "id_table.h" #include "internal.h" #include "internal/imemo.h" #include "vm_callinfo.h" size_t rb_iseq_memsize(const rb_iseq_t *iseq); void rb_iseq_mark_and_move(rb_iseq_t *iseq, bool reference_updating); void rb_iseq_free(const rb_iseq_t *iseq); const char * rb_imemo_name(enum imemo_type type) { // put no default case to get a warning if an imemo type is missing switch (type) { #define IMEMO_NAME(x) case imemo_##x: return #x; IMEMO_NAME(ast); IMEMO_NAME(callcache); IMEMO_NAME(callinfo); IMEMO_NAME(constcache); IMEMO_NAME(cref); IMEMO_NAME(env); IMEMO_NAME(ifunc); IMEMO_NAME(iseq); IMEMO_NAME(memo); IMEMO_NAME(ment); IMEMO_NAME(parser_strterm); IMEMO_NAME(svar); IMEMO_NAME(throw_data); IMEMO_NAME(tmpbuf); #undef IMEMO_NAME default: rb_bug("unreachable"); } } /* ========================================================================= * allocation * ========================================================================= */ VALUE rb_imemo_new(enum imemo_type type, VALUE v0) { size_t size = RVALUE_SIZE; VALUE flags = T_IMEMO | FL_WB_PROTECTED | (type << FL_USHIFT); NEWOBJ_OF(obj, void, v0, flags, size, 0); return (VALUE)obj; } static rb_imemo_tmpbuf_t * rb_imemo_tmpbuf_new(void) { size_t size = sizeof(struct rb_imemo_tmpbuf_struct); VALUE flags = T_IMEMO | (imemo_tmpbuf << FL_USHIFT); NEWOBJ_OF(obj, struct rb_imemo_tmpbuf_struct, 0, flags, size, 0); return obj; } void * rb_alloc_tmp_buffer_with_count(volatile VALUE *store, size_t size, size_t cnt) { void *ptr; rb_imemo_tmpbuf_t *tmpbuf; /* Keep the order; allocate an empty imemo first then xmalloc, to * get rid of potential memory leak */ tmpbuf = rb_imemo_tmpbuf_new(); *store = (VALUE)tmpbuf; ptr = ruby_xmalloc(size); tmpbuf->ptr = ptr; tmpbuf->cnt = cnt; return ptr; } void * rb_alloc_tmp_buffer(volatile VALUE *store, long len) { long cnt; if (len < 0 || (cnt = (long)roomof(len, sizeof(VALUE))) < 0) { rb_raise(rb_eArgError, "negative buffer size (or size too big)"); } return rb_alloc_tmp_buffer_with_count(store, len, cnt); } void rb_free_tmp_buffer(volatile VALUE *store) { rb_imemo_tmpbuf_t *s = (rb_imemo_tmpbuf_t*)ATOMIC_VALUE_EXCHANGE(*store, 0); if (s) { void *ptr = ATOMIC_PTR_EXCHANGE(s->ptr, 0); s->cnt = 0; ruby_xfree(ptr); } } rb_imemo_tmpbuf_t * rb_imemo_tmpbuf_parser_heap(void *buf, rb_imemo_tmpbuf_t *old_heap, size_t cnt) { rb_imemo_tmpbuf_t *tmpbuf = rb_imemo_tmpbuf_new(); tmpbuf->ptr = buf; tmpbuf->next = old_heap; tmpbuf->cnt = cnt; return tmpbuf; } #if IMEMO_DEBUG VALUE rb_imemo_new_debug(enum imemo_type type, VALUE v0, const char *file, int line) { VALUE memo = rb_imemo_new(type, v0); fprintf(stderr, "memo %p (type: %d) @ %s:%d\n", (void *)memo, imemo_type(memo), file, line); return memo; } #endif /* ========================================================================= * memsize * ========================================================================= */ size_t rb_imemo_memsize(VALUE obj) { size_t size = 0; switch (imemo_type(obj)) { case imemo_ast: size += rb_ast_memsize((rb_ast_t *)obj); break; case imemo_callcache: break; case imemo_callinfo: break; case imemo_constcache: break; case imemo_cref: break; case imemo_env: size += ((rb_env_t *)obj)->env_size * sizeof(VALUE); break; case imemo_ifunc: break; case imemo_iseq: size += rb_iseq_memsize((rb_iseq_t *)obj); break; case imemo_memo: break; case imemo_ment: size += sizeof(((rb_method_entry_t *)obj)->def); break; case imemo_parser_strterm: break; case imemo_svar: break; case imemo_throw_data: break; case imemo_tmpbuf: size += ((rb_imemo_tmpbuf_t *)obj)->cnt * sizeof(VALUE); break; default: rb_bug("unreachable"); } return size; } /* ========================================================================= * mark * ========================================================================= */ static enum rb_id_table_iterator_result cc_table_mark_i(ID id, VALUE ccs_ptr, void *data) { struct rb_class_cc_entries *ccs = (struct rb_class_cc_entries *)ccs_ptr; VM_ASSERT(vm_ccs_p(ccs)); VM_ASSERT(id == ccs->cme->called_id); if (METHOD_ENTRY_INVALIDATED(ccs->cme)) { rb_vm_ccs_free(ccs); return ID_TABLE_DELETE; } else { rb_gc_mark_movable((VALUE)ccs->cme); for (int i=0; ilen; i++) { VM_ASSERT((VALUE)data == ccs->entries[i].cc->klass); VM_ASSERT(vm_cc_check_cme(ccs->entries[i].cc, ccs->cme)); rb_gc_mark_movable((VALUE)ccs->entries[i].ci); rb_gc_mark_movable((VALUE)ccs->entries[i].cc); } return ID_TABLE_CONTINUE; } } void rb_cc_table_mark(VALUE klass) { struct rb_id_table *cc_tbl = RCLASS_CC_TBL(klass); if (cc_tbl) { rb_id_table_foreach(cc_tbl, cc_table_mark_i, (void *)klass); } } static bool moved_or_living_object_strictly_p(VALUE obj) { return obj && (rb_objspace_markable_object_p(obj) || BUILTIN_TYPE(obj) == T_MOVED); } static void mark_and_move_method_entry(rb_method_entry_t *ment, bool reference_updating) { rb_method_definition_t *def = ment->def; rb_gc_mark_and_move(&ment->owner); rb_gc_mark_and_move(&ment->defined_class); if (def) { switch (def->type) { case VM_METHOD_TYPE_ISEQ: if (def->body.iseq.iseqptr) { rb_gc_mark_and_move_ptr(&def->body.iseq.iseqptr); } rb_gc_mark_and_move_ptr(&def->body.iseq.cref); if (!reference_updating) { if (def->iseq_overload && ment->defined_class) { // it can be a key of "overloaded_cme" table // so it should be pinned. rb_gc_mark((VALUE)ment); } } break; case VM_METHOD_TYPE_ATTRSET: case VM_METHOD_TYPE_IVAR: rb_gc_mark_and_move(&def->body.attr.location); break; case VM_METHOD_TYPE_BMETHOD: rb_gc_mark_and_move(&def->body.bmethod.proc); if (!reference_updating) { if (def->body.bmethod.hooks) rb_hook_list_mark(def->body.bmethod.hooks); } break; case VM_METHOD_TYPE_ALIAS: rb_gc_mark_and_move_ptr(&def->body.alias.original_me); return; case VM_METHOD_TYPE_REFINED: rb_gc_mark_and_move_ptr(&def->body.refined.orig_me); break; case VM_METHOD_TYPE_CFUNC: case VM_METHOD_TYPE_ZSUPER: case VM_METHOD_TYPE_MISSING: case VM_METHOD_TYPE_OPTIMIZED: case VM_METHOD_TYPE_UNDEF: case VM_METHOD_TYPE_NOTIMPLEMENTED: break; } } } void rb_imemo_mark_and_move(VALUE obj, bool reference_updating) { switch (imemo_type(obj)) { case imemo_ast: rb_ast_mark_and_move((rb_ast_t *)obj, reference_updating); break; case imemo_callcache: { /* cc is callcache. * * cc->klass (klass) should not be marked because if the klass is * free'ed, the cc->klass will be cleared by `vm_cc_invalidate()`. * * cc->cme (cme) should not be marked because if cc is invalidated * when cme is free'ed. * - klass marks cme if klass uses cme. * - caller classe's ccs->cme marks cc->cme. * - if cc is invalidated (klass doesn't refer the cc), * cc is invalidated by `vm_cc_invalidate()` and cc->cme is * not be accessed. * - On the multi-Ractors, cme will be collected with global GC * so that it is safe if GC is not interleaving while accessing * cc and cme. * - However, cc_type_super and cc_type_refinement are not chained * from ccs so cc->cme should be marked; the cme might be * reachable only through cc in these cases. */ struct rb_callcache *cc = (struct rb_callcache *)obj; if (reference_updating) { if (!cc->klass) { // already invalidated } else { if (moved_or_living_object_strictly_p(cc->klass) && moved_or_living_object_strictly_p((VALUE)cc->cme_)) { *((VALUE *)&cc->klass) = rb_gc_location(cc->klass); *((struct rb_callable_method_entry_struct **)&cc->cme_) = (struct rb_callable_method_entry_struct *)rb_gc_location((VALUE)cc->cme_); } else { vm_cc_invalidate(cc); } } } else { if (vm_cc_super_p(cc) || vm_cc_refinement_p(cc)) { rb_gc_mark_movable((VALUE)cc->cme_); } } break; } case imemo_callinfo: break; case imemo_constcache: { struct iseq_inline_constant_cache_entry *ice = (struct iseq_inline_constant_cache_entry *)obj; rb_gc_mark_and_move(&ice->value); break; } case imemo_cref: { rb_cref_t *cref = (rb_cref_t *)obj; rb_gc_mark_and_move(&cref->klass_or_self); rb_gc_mark_and_move_ptr(&cref->next); rb_gc_mark_and_move(&cref->refinements); break; } case imemo_env: { rb_env_t *env = (rb_env_t *)obj; if (LIKELY(env->ep)) { // just after newobj() can be NULL here. RUBY_ASSERT(rb_gc_location(env->ep[VM_ENV_DATA_INDEX_ENV]) == rb_gc_location(obj)); RUBY_ASSERT(reference_updating || VM_ENV_ESCAPED_P(env->ep)); for (unsigned int i = 0; i < env->env_size; i++) { rb_gc_mark_and_move((VALUE *)&env->env[i]); } rb_gc_mark_and_move_ptr(&env->iseq); if (reference_updating) { ((VALUE *)env->ep)[VM_ENV_DATA_INDEX_ENV] = rb_gc_location(env->ep[VM_ENV_DATA_INDEX_ENV]); } else { VM_ENV_FLAGS_SET(env->ep, VM_ENV_FLAG_WB_REQUIRED); rb_gc_mark_movable( (VALUE)rb_vm_env_prev_env(env)); } } break; } case imemo_ifunc: { struct vm_ifunc *ifunc = (struct vm_ifunc *)obj; if (!reference_updating) { rb_gc_mark_maybe((VALUE)ifunc->data); } break; } case imemo_iseq: rb_iseq_mark_and_move((rb_iseq_t *)obj, reference_updating); break; case imemo_memo: { struct MEMO *memo = (struct MEMO *)obj; rb_gc_mark_and_move((VALUE *)&memo->v1); rb_gc_mark_and_move((VALUE *)&memo->v2); if (!reference_updating) { rb_gc_mark_maybe(memo->u3.value); } break; } case imemo_ment: mark_and_move_method_entry((rb_method_entry_t *)obj, reference_updating); break; case imemo_parser_strterm: break; case imemo_svar: { struct vm_svar *svar = (struct vm_svar *)obj; rb_gc_mark_and_move((VALUE *)&svar->cref_or_me); rb_gc_mark_and_move((VALUE *)&svar->lastline); rb_gc_mark_and_move((VALUE *)&svar->backref); rb_gc_mark_and_move((VALUE *)&svar->others); break; } case imemo_throw_data: { struct vm_throw_data *throw_data = (struct vm_throw_data *)obj; rb_gc_mark_and_move((VALUE *)&throw_data->throw_obj); break; } case imemo_tmpbuf: { const rb_imemo_tmpbuf_t *m = (const rb_imemo_tmpbuf_t *)obj; if (!reference_updating) { do { rb_gc_mark_locations(m->ptr, m->ptr + m->cnt); } while ((m = m->next) != NULL); } break; } default: rb_bug("unreachable"); } } /* ========================================================================= * free * ========================================================================= */ static enum rb_id_table_iterator_result free_const_entry_i(VALUE value, void *data) { rb_const_entry_t *ce = (rb_const_entry_t *)value; xfree(ce); return ID_TABLE_CONTINUE; } void rb_free_const_table(struct rb_id_table *tbl) { rb_id_table_foreach_values(tbl, free_const_entry_i, 0); rb_id_table_free(tbl); } // alive: if false, target pointers can be freed already. static void vm_ccs_free(struct rb_class_cc_entries *ccs, int alive, VALUE klass) { if (ccs->entries) { for (int i=0; ilen; i++) { const struct rb_callcache *cc = ccs->entries[i].cc; if (!alive) { void *ptr = asan_unpoison_object_temporary((VALUE)cc); // ccs can be free'ed. if (rb_objspace_markable_object_p((VALUE)cc) && IMEMO_TYPE_P(cc, imemo_callcache) && cc->klass == klass) { // OK. maybe target cc. } else { if (ptr) { asan_poison_object((VALUE)cc); } continue; } if (ptr) { asan_poison_object((VALUE)cc); } } VM_ASSERT(!vm_cc_super_p(cc) && !vm_cc_refinement_p(cc)); vm_cc_invalidate(cc); } ruby_xfree(ccs->entries); } ruby_xfree(ccs); } void rb_vm_ccs_free(struct rb_class_cc_entries *ccs) { RB_DEBUG_COUNTER_INC(ccs_free); vm_ccs_free(ccs, true, Qundef); } static enum rb_id_table_iterator_result cc_table_free_i(VALUE ccs_ptr, void *data) { struct rb_class_cc_entries *ccs = (struct rb_class_cc_entries *)ccs_ptr; VALUE klass = (VALUE)data; VM_ASSERT(vm_ccs_p(ccs)); vm_ccs_free(ccs, false, klass); return ID_TABLE_CONTINUE; } void rb_cc_table_free(VALUE klass) { struct rb_id_table *cc_tbl = RCLASS_CC_TBL(klass); if (cc_tbl) { rb_id_table_foreach_values(cc_tbl, cc_table_free_i, (void *)klass); rb_id_table_free(cc_tbl); } } void rb_imemo_free(VALUE obj) { switch (imemo_type(obj)) { case imemo_ast: rb_ast_free((rb_ast_t *)obj); RB_DEBUG_COUNTER_INC(obj_imemo_ast); break; case imemo_callcache: RB_DEBUG_COUNTER_INC(obj_imemo_callcache); break; case imemo_callinfo:{ const struct rb_callinfo *ci = ((const struct rb_callinfo *)obj); rb_vm_ci_free(ci); if (ci->kwarg) { ((struct rb_callinfo_kwarg *)ci->kwarg)->references--; if (ci->kwarg->references == 0) xfree((void *)ci->kwarg); } RB_DEBUG_COUNTER_INC(obj_imemo_callinfo); break; } case imemo_constcache: RB_DEBUG_COUNTER_INC(obj_imemo_constcache); break; case imemo_cref: RB_DEBUG_COUNTER_INC(obj_imemo_cref); break; case imemo_env: { rb_env_t *env = (rb_env_t *)obj; RUBY_ASSERT(VM_ENV_ESCAPED_P(env->ep)); xfree((VALUE *)env->env); RB_DEBUG_COUNTER_INC(obj_imemo_env); break; } case imemo_ifunc: RB_DEBUG_COUNTER_INC(obj_imemo_ifunc); break; case imemo_iseq: rb_iseq_free((rb_iseq_t *)obj); RB_DEBUG_COUNTER_INC(obj_imemo_iseq); break; case imemo_memo: RB_DEBUG_COUNTER_INC(obj_imemo_memo); break; case imemo_ment: rb_free_method_entry((rb_method_entry_t *)obj); RB_DEBUG_COUNTER_INC(obj_imemo_ment); break; case imemo_parser_strterm: RB_DEBUG_COUNTER_INC(obj_imemo_parser_strterm); break; case imemo_svar: RB_DEBUG_COUNTER_INC(obj_imemo_svar); break; case imemo_throw_data: RB_DEBUG_COUNTER_INC(obj_imemo_throw_data); break; case imemo_tmpbuf: xfree(((rb_imemo_tmpbuf_t *)obj)->ptr); RB_DEBUG_COUNTER_INC(obj_imemo_tmpbuf); break; default: rb_bug("unreachable"); } }