/* * QuickJS Javascript Engine * * Copyright (c) 2017-2021 Fabrice Bellard * Copyright (c) 2017-2021 Charlie Gordon * Copyright (c) 2023 Ben Noordhuis * Copyright (c) 2023 Saúl Ibarra Corretgé * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include #include #include #include #include #include #if !defined(_MSC_VER) #include #if defined(_WIN32) #include #endif #endif #include #include #include #include "cutils.h" #include "list.h" #include "quickjs.h" #include "libregexp.h" #include "libbf.h" #if defined(EMSCRIPTEN) || defined(_MSC_VER) #define DIRECT_DISPATCH 0 #else #define DIRECT_DISPATCH 1 #endif #if defined(__APPLE__) #define MALLOC_OVERHEAD 0 #else #define MALLOC_OVERHEAD 8 #endif #if defined(__NEWLIB__) #define NO_TM_GMTOFF #endif #if !defined(EMSCRIPTEN) && !defined(__wasi__) #include "quickjs-c-atomics.h" #define CONFIG_ATOMICS #endif #ifndef __GNUC__ #define __extension__ #endif // Debug trace system: the debug output will be produced to the dump stream (currently // stdout) if qjs is invoked with -D with the corresponding bit set. #ifndef NDEBUG #define DUMP_BYTECODE_FINAL 0x01 /* dump pass 3 final byte code */ #define DUMP_BYTECODE_PASS2 0x02 /* dump pass 2 code */ #define DUMP_BYTECODE_PASS1 0x04 /* dump pass 1 code */ #define DUMP_BYTECODE_HEX 0x10 /* dump bytecode in hex */ #define DUMP_BYTECODE_PC2LINE 0x20 /* dump line number table */ #define DUMP_BYTECODE_STACK 0x40 /* dump compute_stack_size */ #define DUMP_BYTECODE_STEP 0x80 /* dump executed bytecode */ #define DUMP_READ_OBJECT 0x100 /* dump the marshalled objects at load time */ #define DUMP_FREE 0x200 /* dump every object free */ #define DUMP_GC 0x400 /* dump the occurrence of the automatic GC */ #define DUMP_GC_FREE 0x800 /* dump objects freed by the GC */ #define DUMP_MODULE_RESOLVE 0x1000 /* dump module resolution steps */ #define DUMP_PROMISE 0x2000 /* dump promise steps */ #define DUMP_LEAKS 0x4000 /* dump leaked objects and strings in JS_FreeRuntime */ #define DUMP_ATOM_LEAKS 0x8000 /* dump leaked atoms in JS_FreeRuntime */ #define DUMP_MEM 0x10000 /* dump memory usage in JS_FreeRuntime */ #define DUMP_OBJECTS 0x20000 /* dump objects in JS_FreeRuntime */ #define DUMP_ATOMS 0x40000 /* dump atoms in JS_FreeRuntime */ #define DUMP_SHAPES 0x80000 /* dump shapes in JS_FreeRuntime */ #endif //#define FORCE_GC_AT_MALLOC /* test the GC by forcing it before each object allocation */ #define check_dump_flag(rt, flag) ((rt->dump_flags & (flag +0)) == (flag +0)) #define STRINGIFY_(x) #x #define STRINGIFY(x) STRINGIFY_(x) #define QJS_VERSION_STRING \ STRINGIFY(QJS_VERSION_MAJOR) "." STRINGIFY(QJS_VERSION_MINOR) "." STRINGIFY(QJS_VERSION_PATCH) QJS_VERSION_SUFFIX const char* JS_GetVersion(void) { return QJS_VERSION_STRING; } #undef STRINFIGY_ #undef STRINGIFY enum { /* classid tag */ /* union usage | properties */ JS_CLASS_OBJECT = 1, /* must be first */ JS_CLASS_ARRAY, /* u.array | length */ JS_CLASS_ERROR, JS_CLASS_NUMBER, /* u.object_data */ JS_CLASS_STRING, /* u.object_data */ JS_CLASS_BOOLEAN, /* u.object_data */ JS_CLASS_SYMBOL, /* u.object_data */ JS_CLASS_ARGUMENTS, /* u.array | length */ JS_CLASS_MAPPED_ARGUMENTS, /* | length */ JS_CLASS_DATE, /* u.object_data */ JS_CLASS_MODULE_NS, JS_CLASS_C_FUNCTION, /* u.cfunc */ JS_CLASS_BYTECODE_FUNCTION, /* u.func */ JS_CLASS_BOUND_FUNCTION, /* u.bound_function */ JS_CLASS_C_FUNCTION_DATA, /* u.c_function_data_record */ JS_CLASS_GENERATOR_FUNCTION, /* u.func */ JS_CLASS_FOR_IN_ITERATOR, /* u.for_in_iterator */ JS_CLASS_REGEXP, /* u.regexp */ JS_CLASS_ARRAY_BUFFER, /* u.array_buffer */ JS_CLASS_SHARED_ARRAY_BUFFER, /* u.array_buffer */ JS_CLASS_UINT8C_ARRAY, /* u.array (typed_array) */ JS_CLASS_INT8_ARRAY, /* u.array (typed_array) */ JS_CLASS_UINT8_ARRAY, /* u.array (typed_array) */ JS_CLASS_INT16_ARRAY, /* u.array (typed_array) */ JS_CLASS_UINT16_ARRAY, /* u.array (typed_array) */ JS_CLASS_INT32_ARRAY, /* u.array (typed_array) */ JS_CLASS_UINT32_ARRAY, /* u.array (typed_array) */ JS_CLASS_BIG_INT64_ARRAY, /* u.array (typed_array) */ JS_CLASS_BIG_UINT64_ARRAY, /* u.array (typed_array) */ JS_CLASS_FLOAT16_ARRAY, /* u.array (typed_array) */ JS_CLASS_FLOAT32_ARRAY, /* u.array (typed_array) */ JS_CLASS_FLOAT64_ARRAY, /* u.array (typed_array) */ JS_CLASS_DATAVIEW, /* u.typed_array */ JS_CLASS_BIG_INT, /* u.object_data */ JS_CLASS_MAP, /* u.map_state */ JS_CLASS_SET, /* u.map_state */ JS_CLASS_WEAKMAP, /* u.map_state */ JS_CLASS_WEAKSET, /* u.map_state */ JS_CLASS_MAP_ITERATOR, /* u.map_iterator_data */ JS_CLASS_SET_ITERATOR, /* u.map_iterator_data */ JS_CLASS_ARRAY_ITERATOR, /* u.array_iterator_data */ JS_CLASS_STRING_ITERATOR, /* u.array_iterator_data */ JS_CLASS_REGEXP_STRING_ITERATOR, /* u.regexp_string_iterator_data */ JS_CLASS_GENERATOR, /* u.generator_data */ JS_CLASS_PROXY, /* u.proxy_data */ JS_CLASS_PROMISE, /* u.promise_data */ JS_CLASS_PROMISE_RESOLVE_FUNCTION, /* u.promise_function_data */ JS_CLASS_PROMISE_REJECT_FUNCTION, /* u.promise_function_data */ JS_CLASS_ASYNC_FUNCTION, /* u.func */ JS_CLASS_ASYNC_FUNCTION_RESOLVE, /* u.async_function_data */ JS_CLASS_ASYNC_FUNCTION_REJECT, /* u.async_function_data */ JS_CLASS_ASYNC_FROM_SYNC_ITERATOR, /* u.async_from_sync_iterator_data */ JS_CLASS_ASYNC_GENERATOR_FUNCTION, /* u.func */ JS_CLASS_ASYNC_GENERATOR, /* u.async_generator_data */ JS_CLASS_WEAK_REF, JS_CLASS_FINALIZATION_REGISTRY, JS_CLASS_CALL_SITE, JS_CLASS_INIT_COUNT, /* last entry for predefined classes */ }; /* number of typed array types */ #define JS_TYPED_ARRAY_COUNT (JS_CLASS_FLOAT64_ARRAY - JS_CLASS_UINT8C_ARRAY + 1) static uint8_t const typed_array_size_log2[JS_TYPED_ARRAY_COUNT]; #define typed_array_size_log2(classid) (typed_array_size_log2[(classid)- JS_CLASS_UINT8C_ARRAY]) typedef enum JSErrorEnum { JS_EVAL_ERROR, JS_RANGE_ERROR, JS_REFERENCE_ERROR, JS_SYNTAX_ERROR, JS_TYPE_ERROR, JS_URI_ERROR, JS_INTERNAL_ERROR, JS_AGGREGATE_ERROR, JS_NATIVE_ERROR_COUNT, /* number of different NativeError objects */ JS_PLAIN_ERROR = JS_NATIVE_ERROR_COUNT } JSErrorEnum; #define JS_MAX_LOCAL_VARS 65535 #define JS_STACK_SIZE_MAX 65534 #define JS_STRING_LEN_MAX ((1 << 30) - 1) #define __exception __attribute__((warn_unused_result)) typedef struct JSShape JSShape; typedef struct JSString JSString; typedef struct JSString JSAtomStruct; #define JS_VALUE_GET_STRING(v) ((JSString *)JS_VALUE_GET_PTR(v)) typedef enum { JS_GC_PHASE_NONE, JS_GC_PHASE_DECREF, JS_GC_PHASE_REMOVE_CYCLES, } JSGCPhaseEnum; typedef struct JSMallocState { size_t malloc_count; size_t malloc_size; size_t malloc_limit; void *opaque; /* user opaque */ } JSMallocState; struct JSRuntime { JSMallocFunctions mf; JSMallocState malloc_state; const char *rt_info; int atom_hash_size; /* power of two */ int atom_count; int atom_size; int atom_count_resize; /* resize hash table at this count */ uint32_t *atom_hash; JSAtomStruct **atom_array; int atom_free_index; /* 0 = none */ JSClassID js_class_id_alloc; /* counter for user defined classes */ int class_count; /* size of class_array */ JSClass *class_array; struct list_head context_list; /* list of JSContext.link */ /* list of JSGCObjectHeader.link. List of allocated GC objects (used by the garbage collector) */ struct list_head gc_obj_list; /* list of JSGCObjectHeader.link. Used during JS_FreeValueRT() */ struct list_head gc_zero_ref_count_list; struct list_head tmp_obj_list; /* used during GC */ JSGCPhaseEnum gc_phase : 8; size_t malloc_gc_threshold; #ifdef DUMP_LEAKS struct list_head string_list; /* list of JSString.link */ #endif /* stack limitation */ uintptr_t stack_size; /* in bytes, 0 if no limit */ uintptr_t stack_top; uintptr_t stack_limit; /* lower stack limit */ JSValue current_exception; /* true if inside an out of memory error, to avoid recursing */ BOOL in_out_of_memory : 8; /* and likewise if inside Error.prepareStackTrace() */ BOOL in_prepare_stack_trace : 8; /* true if inside JS_FreeRuntime */ BOOL in_free : 8; struct JSStackFrame *current_stack_frame; JSInterruptHandler *interrupt_handler; void *interrupt_opaque; JSHostPromiseRejectionTracker *host_promise_rejection_tracker; void *host_promise_rejection_tracker_opaque; struct list_head job_list; /* list of JSJobEntry.link */ JSModuleNormalizeFunc *module_normalize_func; JSModuleLoaderFunc *module_loader_func; void *module_loader_opaque; /* timestamp for internal use in module evaluation */ int64_t module_async_evaluation_next_timestamp; /* used to allocate, free and clone SharedArrayBuffers */ JSSharedArrayBufferFunctions sab_funcs; BOOL can_block : 8; /* TRUE if Atomics.wait can block */ uint32_t dump_flags : 24; /* Shape hash table */ int shape_hash_bits; int shape_hash_size; int shape_hash_count; /* number of hashed shapes */ JSShape **shape_hash; bf_context_t bf_ctx; void *user_opaque; }; struct JSClass { uint32_t class_id; /* 0 means free entry */ JSAtom class_name; JSClassFinalizer *finalizer; JSClassGCMark *gc_mark; JSClassCall *call; /* pointers for exotic behavior, can be NULL if none are present */ const JSClassExoticMethods *exotic; }; #define JS_MODE_STRICT (1 << 0) typedef struct JSStackFrame { struct JSStackFrame *prev_frame; /* NULL if first stack frame */ JSValue cur_func; /* current function, JS_UNDEFINED if the frame is detached */ JSValue *arg_buf; /* arguments */ JSValue *var_buf; /* variables */ struct list_head var_ref_list; /* list of JSVarRef.link */ uint8_t *cur_pc; /* only used in bytecode functions : PC of the instruction after the call */ int arg_count; int js_mode; /* only used in generators. Current stack pointer value. NULL if the function is running. */ JSValue *cur_sp; } JSStackFrame; typedef enum { JS_GC_OBJ_TYPE_JS_OBJECT, JS_GC_OBJ_TYPE_FUNCTION_BYTECODE, JS_GC_OBJ_TYPE_SHAPE, JS_GC_OBJ_TYPE_VAR_REF, JS_GC_OBJ_TYPE_ASYNC_FUNCTION, JS_GC_OBJ_TYPE_JS_CONTEXT, } JSGCObjectTypeEnum; /* header for GC objects. GC objects are C data structures with a reference count that can reference other GC objects. JS Objects are a particular type of GC object. */ struct JSGCObjectHeader { int ref_count; /* must come first, 32-bit */ JSGCObjectTypeEnum gc_obj_type : 4; uint8_t mark : 4; /* used by the GC */ uint8_t dummy1; /* not used by the GC */ uint16_t dummy2; /* not used by the GC */ struct list_head link; }; typedef struct JSVarRef { union { JSGCObjectHeader header; /* must come first */ struct { int __gc_ref_count; /* corresponds to header.ref_count */ uint8_t __gc_mark; /* corresponds to header.mark/gc_obj_type */ /* 0 : the JSVarRef is on the stack. header.link is an element of JSStackFrame.var_ref_list. 1 : the JSVarRef is detached. header.link has the normal meanning */ uint8_t is_detached : 1; uint8_t is_arg : 1; uint16_t var_idx; /* index of the corresponding function variable on the stack */ }; }; JSValue *pvalue; /* pointer to the value, either on the stack or to 'value' */ JSValue value; /* used when the variable is no longer on the stack */ } JSVarRef; /* the same structure is used for big integers. Big integers are never infinite or NaNs */ typedef struct JSBigInt { JSRefCountHeader header; /* must come first, 32-bit */ bf_t num; } JSBigInt; typedef enum { JS_AUTOINIT_ID_PROTOTYPE, JS_AUTOINIT_ID_MODULE_NS, JS_AUTOINIT_ID_PROP, } JSAutoInitIDEnum; /* must be large enough to have a negligible runtime cost and small enough to call the interrupt callback often. */ #define JS_INTERRUPT_COUNTER_INIT 10000 struct JSContext { JSGCObjectHeader header; /* must come first */ JSRuntime *rt; struct list_head link; uint16_t binary_object_count; int binary_object_size; JSShape *array_shape; /* initial shape for Array objects */ JSValue *class_proto; JSValue function_proto; JSValue function_ctor; JSValue array_ctor; JSValue regexp_ctor; JSValue promise_ctor; JSValue native_error_proto[JS_NATIVE_ERROR_COUNT]; JSValue error_ctor; JSValue error_prepare_stack; int error_stack_trace_limit; JSValue iterator_proto; JSValue async_iterator_proto; JSValue array_proto_values; JSValue throw_type_error; JSValue eval_obj; JSValue global_obj; /* global object */ JSValue global_var_obj; /* contains the global let/const definitions */ double time_origin; uint64_t random_state; bf_context_t *bf_ctx; /* points to rt->bf_ctx, shared by all contexts */ /* when the counter reaches zero, JSRutime.interrupt_handler is called */ int interrupt_counter; struct list_head loaded_modules; /* list of JSModuleDef.link */ /* if NULL, RegExp compilation is not supported */ JSValue (*compile_regexp)(JSContext *ctx, JSValue pattern, JSValue flags); /* if NULL, eval is not supported */ JSValue (*eval_internal)(JSContext *ctx, JSValue this_obj, const char *input, size_t input_len, const char *filename, int flags, int scope_idx); void *user_opaque; }; typedef union JSFloat64Union { double d; uint64_t u64; uint32_t u32[2]; } JSFloat64Union; typedef enum { JS_WEAK_REF_KIND_MAP, JS_WEAK_REF_KIND_WEAK_REF, JS_WEAK_REF_KIND_FINALIZATION_REGISTRY_ENTRY, } JSWeakRefKindEnum; typedef struct JSWeakRefRecord { JSWeakRefKindEnum kind; struct JSWeakRefRecord *next_weak_ref; union { struct JSMapRecord *map_record; struct JSWeakRefData *weak_ref_data; struct JSFinRecEntry *fin_rec_entry; } u; } JSWeakRefRecord; enum { JS_ATOM_TYPE_STRING = 1, JS_ATOM_TYPE_GLOBAL_SYMBOL, JS_ATOM_TYPE_SYMBOL, JS_ATOM_TYPE_PRIVATE, }; enum { JS_ATOM_HASH_SYMBOL, JS_ATOM_HASH_PRIVATE, }; typedef enum { JS_ATOM_KIND_STRING, JS_ATOM_KIND_SYMBOL, JS_ATOM_KIND_PRIVATE, } JSAtomKindEnum; #define JS_ATOM_HASH_MASK ((1 << 30) - 1) struct JSString { JSRefCountHeader header; /* must come first, 32-bit */ uint32_t len : 31; uint8_t is_wide_char : 1; /* 0 = 8 bits, 1 = 16 bits characters */ /* for JS_ATOM_TYPE_SYMBOL: hash = 0, atom_type = 3, for JS_ATOM_TYPE_PRIVATE: hash = 1, atom_type = 3 XXX: could change encoding to have one more bit in hash */ uint32_t hash : 30; uint8_t atom_type : 2; /* != 0 if atom, JS_ATOM_TYPE_x */ uint32_t hash_next; /* atom_index for JS_ATOM_TYPE_SYMBOL */ JSWeakRefRecord *first_weak_ref; #ifdef DUMP_LEAKS struct list_head link; /* string list */ #endif union { __extension__ uint8_t str8[0]; /* 8 bit strings will get an extra null terminator */ __extension__ uint16_t str16[0]; } u; }; typedef struct JSClosureVar { uint8_t is_local : 1; uint8_t is_arg : 1; uint8_t is_const : 1; uint8_t is_lexical : 1; uint8_t var_kind : 4; /* see JSVarKindEnum */ /* 8 bits available */ uint16_t var_idx; /* is_local = TRUE: index to a normal variable of the parent function. otherwise: index to a closure variable of the parent function */ JSAtom var_name; } JSClosureVar; #define ARG_SCOPE_INDEX 1 #define ARG_SCOPE_END (-2) typedef struct JSVarScope { int parent; /* index into fd->scopes of the enclosing scope */ int first; /* index into fd->vars of the last variable in this scope */ } JSVarScope; typedef enum { /* XXX: add more variable kinds here instead of using bit fields */ JS_VAR_NORMAL, JS_VAR_FUNCTION_DECL, /* lexical var with function declaration */ JS_VAR_NEW_FUNCTION_DECL, /* lexical var with async/generator function declaration */ JS_VAR_CATCH, JS_VAR_FUNCTION_NAME, /* function expression name */ JS_VAR_PRIVATE_FIELD, JS_VAR_PRIVATE_METHOD, JS_VAR_PRIVATE_GETTER, JS_VAR_PRIVATE_SETTER, /* must come after JS_VAR_PRIVATE_GETTER */ JS_VAR_PRIVATE_GETTER_SETTER, /* must come after JS_VAR_PRIVATE_SETTER */ } JSVarKindEnum; /* XXX: could use a different structure in bytecode functions to save memory */ typedef struct JSVarDef { JSAtom var_name; /* index into fd->scopes of this variable lexical scope */ int scope_level; /* during compilation: - if scope_level = 0: scope in which the variable is defined - if scope_level != 0: index into fd->vars of the next variable in the same or enclosing lexical scope in a bytecode function: index into fd->vars of the next variable in the same or enclosing lexical scope */ int scope_next; uint8_t is_const : 1; uint8_t is_lexical : 1; uint8_t is_captured : 1; uint8_t is_static_private : 1; /* only used during private class field parsing */ uint8_t var_kind : 4; /* see JSVarKindEnum */ /* only used during compilation: function pool index for lexical variables with var_kind = JS_VAR_FUNCTION_DECL/JS_VAR_NEW_FUNCTION_DECL or scope level of the definition of the 'var' variables (they have scope_level = 0) */ int func_pool_idx : 24; /* only used during compilation : index in the constant pool for hoisted function definition */ } JSVarDef; /* for the encoding of the pc2line table */ #define PC2LINE_BASE (-1) #define PC2LINE_RANGE 5 #define PC2LINE_OP_FIRST 1 #define PC2LINE_DIFF_PC_MAX ((255 - PC2LINE_OP_FIRST) / PC2LINE_RANGE) typedef enum JSFunctionKindEnum { JS_FUNC_NORMAL = 0, JS_FUNC_GENERATOR = (1 << 0), JS_FUNC_ASYNC = (1 << 1), JS_FUNC_ASYNC_GENERATOR = (JS_FUNC_GENERATOR | JS_FUNC_ASYNC), } JSFunctionKindEnum; #define IC_CACHE_ITEM_CAPACITY 4 typedef struct JSInlineCacheRingSlot { /* SoA for space optimization: 56 bytes */ JSShape* shape[IC_CACHE_ITEM_CAPACITY]; uint32_t prop_offset[IC_CACHE_ITEM_CAPACITY]; JSAtom atom; uint8_t index; } JSInlineCacheRingSlot; typedef struct JSInlineCacheHashSlot { JSAtom atom; uint32_t index; struct JSInlineCacheHashSlot *next; } JSInlineCacheHashSlot; typedef struct JSInlineCache { uint32_t count; uint32_t capacity; uint32_t hash_bits; JSInlineCacheHashSlot **hash; JSInlineCacheRingSlot *cache; uint32_t updated_offset; BOOL updated; } JSInlineCache; static JSInlineCache *init_ic(JSContext *ctx); static int rebuild_ic(JSContext *ctx, JSInlineCache *ic); static int resize_ic_hash(JSContext *ctx, JSInlineCache *ic); static int free_ic(JSRuntime *rt, JSInlineCache *ic); static uint32_t add_ic_slot(JSContext *ctx, JSInlineCache *ic, JSAtom atom, JSObject *object, uint32_t prop_offset); static int32_t get_ic_prop_offset(JSInlineCache *ic, uint32_t cache_offset, JSShape *shape) { uint32_t i; JSInlineCacheRingSlot *cr; JSShape *shape_slot; assert(cache_offset < ic->capacity); cr = ic->cache + cache_offset; i = cr->index; for (;;) { shape_slot = *(cr->shape + i); if (likely(shape_slot == shape)) { cr->index = i; return cr->prop_offset[i]; } i = (i + 1) % countof(cr->shape); if (unlikely(i == cr->index)) { break; } } return -1; } static force_inline JSAtom get_ic_atom(JSInlineCache *ic, uint32_t cache_offset) { assert(cache_offset < ic->capacity); return ic->cache[cache_offset].atom; } typedef struct JSFunctionBytecode { JSGCObjectHeader header; /* must come first */ uint8_t js_mode; uint8_t has_prototype : 1; /* true if a prototype field is necessary */ uint8_t has_simple_parameter_list : 1; uint8_t is_derived_class_constructor : 1; /* true if home_object needs to be initialized */ uint8_t need_home_object : 1; uint8_t func_kind : 2; uint8_t new_target_allowed : 1; uint8_t super_call_allowed : 1; uint8_t super_allowed : 1; uint8_t arguments_allowed : 1; uint8_t backtrace_barrier : 1; /* stop backtrace on this function */ /* XXX: 5 bits available */ uint8_t *byte_code_buf; /* (self pointer) */ int byte_code_len; JSAtom func_name; JSVarDef *vardefs; /* arguments + local variables (arg_count + var_count) (self pointer) */ JSClosureVar *closure_var; /* list of variables in the closure (self pointer) */ uint16_t arg_count; uint16_t var_count; uint16_t defined_arg_count; /* for length function property */ uint16_t stack_size; /* maximum stack size */ JSContext *realm; /* function realm */ JSValue *cpool; /* constant pool (self pointer) */ int cpool_count; int closure_var_count; JSInlineCache *ic; JSAtom filename; int line_num; int col_num; int source_len; int pc2line_len; uint8_t *pc2line_buf; char *source; } JSFunctionBytecode; typedef struct JSBoundFunction { JSValue func_obj; JSValue this_val; int argc; JSValue argv[]; } JSBoundFunction; typedef enum JSIteratorKindEnum { JS_ITERATOR_KIND_KEY, JS_ITERATOR_KIND_VALUE, JS_ITERATOR_KIND_KEY_AND_VALUE, } JSIteratorKindEnum; typedef struct JSForInIterator { JSValue obj; BOOL is_array; uint32_t array_length; uint32_t idx; } JSForInIterator; typedef struct JSRegExp { JSString *pattern; JSString *bytecode; /* also contains the flags */ } JSRegExp; typedef struct JSProxyData { JSValue target; JSValue handler; uint8_t is_func; uint8_t is_revoked; } JSProxyData; typedef struct JSArrayBuffer { int byte_length; /* 0 if detached */ uint8_t detached; uint8_t shared; /* if shared, the array buffer cannot be detached */ uint8_t *data; /* NULL if detached */ struct list_head array_list; void *opaque; JSFreeArrayBufferDataFunc *free_func; } JSArrayBuffer; typedef struct JSTypedArray { struct list_head link; /* link to arraybuffer */ JSObject *obj; /* back pointer to the TypedArray/DataView object */ JSObject *buffer; /* based array buffer */ uint32_t offset; /* offset in the array buffer */ uint32_t length; /* length in the array buffer */ } JSTypedArray; typedef struct JSAsyncFunctionState { JSValue this_val; /* 'this' generator argument */ int argc; /* number of function arguments */ BOOL throw_flag; /* used to throw an exception in JS_CallInternal() */ JSStackFrame frame; } JSAsyncFunctionState; /* XXX: could use an object instead to avoid the JS_TAG_ASYNC_FUNCTION tag for the GC */ typedef struct JSAsyncFunctionData { JSGCObjectHeader header; /* must come first */ JSValue resolving_funcs[2]; BOOL is_active; /* true if the async function state is valid */ JSAsyncFunctionState func_state; } JSAsyncFunctionData; typedef struct JSReqModuleEntry { JSAtom module_name; JSModuleDef *module; /* used using resolution */ } JSReqModuleEntry; typedef enum JSExportTypeEnum { JS_EXPORT_TYPE_LOCAL, JS_EXPORT_TYPE_INDIRECT, } JSExportTypeEnum; typedef struct JSExportEntry { union { struct { int var_idx; /* closure variable index */ JSVarRef *var_ref; /* if != NULL, reference to the variable */ } local; /* for local export */ int req_module_idx; /* module for indirect export */ } u; JSExportTypeEnum export_type; JSAtom local_name; /* '*' if export ns from. not used for local export after compilation */ JSAtom export_name; /* exported variable name */ } JSExportEntry; typedef struct JSStarExportEntry { int req_module_idx; /* in req_module_entries */ } JSStarExportEntry; typedef struct JSImportEntry { int var_idx; /* closure variable index */ JSAtom import_name; int req_module_idx; /* in req_module_entries */ } JSImportEntry; typedef enum { JS_MODULE_STATUS_UNLINKED, JS_MODULE_STATUS_LINKING, JS_MODULE_STATUS_LINKED, JS_MODULE_STATUS_EVALUATING, JS_MODULE_STATUS_EVALUATING_ASYNC, JS_MODULE_STATUS_EVALUATED, } JSModuleStatus; struct JSModuleDef { JSRefCountHeader header; /* must come first, 32-bit */ JSAtom module_name; struct list_head link; JSReqModuleEntry *req_module_entries; int req_module_entries_count; int req_module_entries_size; JSExportEntry *export_entries; int export_entries_count; int export_entries_size; JSStarExportEntry *star_export_entries; int star_export_entries_count; int star_export_entries_size; JSImportEntry *import_entries; int import_entries_count; int import_entries_size; JSValue module_ns; JSValue func_obj; /* only used for JS modules */ JSModuleInitFunc *init_func; /* only used for C modules */ BOOL has_tla : 8; /* true if func_obj contains await */ BOOL resolved : 8; BOOL func_created : 8; JSModuleStatus status : 8; /* temp use during js_module_link() & js_module_evaluate() */ int dfs_index, dfs_ancestor_index; JSModuleDef *stack_prev; /* temp use during js_module_evaluate() */ JSModuleDef **async_parent_modules; int async_parent_modules_count; int async_parent_modules_size; int pending_async_dependencies; BOOL async_evaluation; int64_t async_evaluation_timestamp; JSModuleDef *cycle_root; JSValue promise; /* corresponds to spec field: capability */ JSValue resolving_funcs[2]; /* corresponds to spec field: capability */ /* true if evaluation yielded an exception. It is saved in eval_exception */ BOOL eval_has_exception : 8; JSValue eval_exception; JSValue meta_obj; /* for import.meta */ }; typedef struct JSJobEntry { struct list_head link; JSContext *ctx; JSJobFunc *job_func; int argc; JSValue argv[]; } JSJobEntry; typedef struct JSProperty { union { JSValue value; /* JS_PROP_NORMAL */ struct { /* JS_PROP_GETSET */ JSObject *getter; /* NULL if undefined */ JSObject *setter; /* NULL if undefined */ } getset; JSVarRef *var_ref; /* JS_PROP_VARREF */ struct { /* JS_PROP_AUTOINIT */ /* in order to use only 2 pointers, we compress the realm and the init function pointer */ uintptr_t realm_and_id; /* realm and init_id (JS_AUTOINIT_ID_x) in the 2 low bits */ void *opaque; } init; } u; } JSProperty; #define JS_PROP_INITIAL_SIZE 2 #define JS_PROP_INITIAL_HASH_SIZE 4 /* must be a power of two */ #define JS_ARRAY_INITIAL_SIZE 2 typedef struct JSShapeProperty { uint32_t hash_next : 26; /* 0 if last in list */ uint32_t flags : 6; /* JS_PROP_XXX */ JSAtom atom; /* JS_ATOM_NULL = free property entry */ } JSShapeProperty; struct JSShape { /* hash table of size hash_mask + 1 before the start of the structure (see prop_hash_end()). */ JSGCObjectHeader header; /* true if the shape is inserted in the shape hash table. If not, JSShape.hash is not valid */ uint8_t is_hashed; /* If true, the shape may have small array index properties 'n' with 0 <= n <= 2^31-1. If false, the shape is guaranteed not to have small array index properties */ uint8_t has_small_array_index; uint32_t hash; /* current hash value */ uint32_t prop_hash_mask; int prop_size; /* allocated properties */ int prop_count; /* include deleted properties */ int deleted_prop_count; JSShape *shape_hash_next; /* in JSRuntime.shape_hash[h] list */ JSObject *proto; JSShapeProperty prop[]; /* prop_size elements */ }; struct JSObject { union { JSGCObjectHeader header; struct { int __gc_ref_count; /* corresponds to header.ref_count */ uint8_t __gc_mark; /* corresponds to header.mark/gc_obj_type */ uint8_t extensible : 1; uint8_t free_mark : 1; /* only used when freeing objects with cycles */ uint8_t is_exotic : 1; /* TRUE if object has exotic property handlers */ uint8_t fast_array : 1; /* TRUE if u.array is used for get/put (for JS_CLASS_ARRAY, JS_CLASS_ARGUMENTS and typed arrays) */ uint8_t is_constructor : 1; /* TRUE if object is a constructor function */ uint8_t is_uncatchable_error : 1; /* if TRUE, error is not catchable */ uint8_t tmp_mark : 1; /* used in JS_WriteObjectRec() */ uint8_t is_HTMLDDA : 1; /* specific annex B IsHtmlDDA behavior */ uint16_t class_id; /* see JS_CLASS_x */ }; }; /* byte offsets: 16/24 */ JSShape *shape; /* prototype and property names + flag */ JSProperty *prop; /* array of properties */ /* byte offsets: 24/40 */ JSWeakRefRecord *first_weak_ref; /* byte offsets: 28/48 */ union { void *opaque; struct JSBoundFunction *bound_function; /* JS_CLASS_BOUND_FUNCTION */ struct JSCFunctionDataRecord *c_function_data_record; /* JS_CLASS_C_FUNCTION_DATA */ struct JSForInIterator *for_in_iterator; /* JS_CLASS_FOR_IN_ITERATOR */ struct JSArrayBuffer *array_buffer; /* JS_CLASS_ARRAY_BUFFER, JS_CLASS_SHARED_ARRAY_BUFFER */ struct JSTypedArray *typed_array; /* JS_CLASS_UINT8C_ARRAY..JS_CLASS_DATAVIEW */ struct JSMapState *map_state; /* JS_CLASS_MAP..JS_CLASS_WEAKSET */ struct JSMapIteratorData *map_iterator_data; /* JS_CLASS_MAP_ITERATOR, JS_CLASS_SET_ITERATOR */ struct JSArrayIteratorData *array_iterator_data; /* JS_CLASS_ARRAY_ITERATOR, JS_CLASS_STRING_ITERATOR */ struct JSRegExpStringIteratorData *regexp_string_iterator_data; /* JS_CLASS_REGEXP_STRING_ITERATOR */ struct JSGeneratorData *generator_data; /* JS_CLASS_GENERATOR */ struct JSProxyData *proxy_data; /* JS_CLASS_PROXY */ struct JSPromiseData *promise_data; /* JS_CLASS_PROMISE */ struct JSPromiseFunctionData *promise_function_data; /* JS_CLASS_PROMISE_RESOLVE_FUNCTION, JS_CLASS_PROMISE_REJECT_FUNCTION */ struct JSAsyncFunctionData *async_function_data; /* JS_CLASS_ASYNC_FUNCTION_RESOLVE, JS_CLASS_ASYNC_FUNCTION_REJECT */ struct JSAsyncFromSyncIteratorData *async_from_sync_iterator_data; /* JS_CLASS_ASYNC_FROM_SYNC_ITERATOR */ struct JSAsyncGeneratorData *async_generator_data; /* JS_CLASS_ASYNC_GENERATOR */ struct { /* JS_CLASS_BYTECODE_FUNCTION: 12/24 bytes */ /* also used by JS_CLASS_GENERATOR_FUNCTION, JS_CLASS_ASYNC_FUNCTION and JS_CLASS_ASYNC_GENERATOR_FUNCTION */ struct JSFunctionBytecode *function_bytecode; JSVarRef **var_refs; JSObject *home_object; /* for 'super' access */ } func; struct { /* JS_CLASS_C_FUNCTION: 12/20 bytes */ JSContext *realm; JSCFunctionType c_function; uint8_t length; uint8_t cproto; int16_t magic; } cfunc; /* array part for fast arrays and typed arrays */ struct { /* JS_CLASS_ARRAY, JS_CLASS_ARGUMENTS, JS_CLASS_UINT8C_ARRAY..JS_CLASS_FLOAT64_ARRAY */ union { uint32_t size; /* JS_CLASS_ARRAY, JS_CLASS_ARGUMENTS */ struct JSTypedArray *typed_array; /* JS_CLASS_UINT8C_ARRAY..JS_CLASS_FLOAT64_ARRAY */ } u1; union { JSValue *values; /* JS_CLASS_ARRAY, JS_CLASS_ARGUMENTS */ void *ptr; /* JS_CLASS_UINT8C_ARRAY..JS_CLASS_FLOAT64_ARRAY */ int8_t *int8_ptr; /* JS_CLASS_INT8_ARRAY */ uint8_t *uint8_ptr; /* JS_CLASS_UINT8_ARRAY, JS_CLASS_UINT8C_ARRAY */ int16_t *int16_ptr; /* JS_CLASS_INT16_ARRAY */ uint16_t *uint16_ptr; /* JS_CLASS_UINT16_ARRAY */ int32_t *int32_ptr; /* JS_CLASS_INT32_ARRAY */ uint32_t *uint32_ptr; /* JS_CLASS_UINT32_ARRAY */ int64_t *int64_ptr; /* JS_CLASS_INT64_ARRAY */ uint64_t *uint64_ptr; /* JS_CLASS_UINT64_ARRAY */ uint16_t *fp16_ptr; /* JS_CLASS_FLOAT16_ARRAY */ float *float_ptr; /* JS_CLASS_FLOAT32_ARRAY */ double *double_ptr; /* JS_CLASS_FLOAT64_ARRAY */ } u; uint32_t count; /* <= 2^31-1. 0 for a detached typed array */ } array; /* 12/20 bytes */ JSRegExp regexp; /* JS_CLASS_REGEXP: 8/16 bytes */ JSValue object_data; /* for JS_SetObjectData(): 8/16/16 bytes */ } u; /* byte sizes: 40/48/72 */ }; typedef struct JSCallSiteData { JSValue filename; JSValue func; JSValue func_name; BOOL native; int line_num; int col_num; } JSCallSiteData; enum { __JS_ATOM_NULL = JS_ATOM_NULL, #define DEF(name, str) JS_ATOM_ ## name, #include "quickjs-atom.h" #undef DEF JS_ATOM_END, }; #define JS_ATOM_LAST_KEYWORD JS_ATOM_super #define JS_ATOM_LAST_STRICT_KEYWORD JS_ATOM_yield static const char js_atom_init[] = #define DEF(name, str) str "\0" #include "quickjs-atom.h" #undef DEF ; typedef enum OPCodeFormat { #define FMT(f) OP_FMT_ ## f, #define DEF(id, size, n_pop, n_push, f) #include "quickjs-opcode.h" #undef DEF #undef FMT } OPCodeFormat; typedef enum OPCodeEnum { #define FMT(f) #define DEF(id, size, n_pop, n_push, f) OP_ ## id, #define def(id, size, n_pop, n_push, f) #include "quickjs-opcode.h" #undef def #undef DEF #undef FMT OP_COUNT, /* excluding temporary opcodes */ /* temporary opcodes : overlap with the short opcodes */ OP_TEMP_START = OP_nop + 1, OP___dummy = OP_TEMP_START - 1, #define FMT(f) #define DEF(id, size, n_pop, n_push, f) #define def(id, size, n_pop, n_push, f) OP_ ## id, #include "quickjs-opcode.h" #undef def #undef DEF #undef FMT OP_TEMP_END, } OPCodeEnum; static int JS_InitAtoms(JSRuntime *rt); static JSAtom __JS_NewAtomInit(JSRuntime *rt, const char *str, int len, int atom_type); static void JS_FreeAtomStruct(JSRuntime *rt, JSAtomStruct *p); static void free_function_bytecode(JSRuntime *rt, JSFunctionBytecode *b); static JSValue js_call_c_function(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags); static JSValue js_call_bound_function(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags); static JSValue JS_CallInternal(JSContext *ctx, JSValue func_obj, JSValue this_obj, JSValue new_target, int argc, JSValue *argv, int flags); static JSValue JS_CallConstructorInternal(JSContext *ctx, JSValue func_obj, JSValue new_target, int argc, JSValue *argv, int flags); static JSValue JS_CallFree(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv); static JSValue JS_InvokeFree(JSContext *ctx, JSValue this_val, JSAtom atom, int argc, JSValue *argv); static __exception int JS_ToArrayLengthFree(JSContext *ctx, uint32_t *plen, JSValue val, BOOL is_array_ctor); static JSValue JS_EvalObject(JSContext *ctx, JSValue this_obj, JSValue val, int flags, int scope_idx); JSValue __attribute__((format(printf, 2, 3))) JS_ThrowInternalError(JSContext *ctx, const char *fmt, ...); static __maybe_unused void JS_DumpString(JSRuntime *rt, const JSString *p); static __maybe_unused void JS_DumpObjectHeader(JSRuntime *rt); static __maybe_unused void JS_DumpObject(JSRuntime *rt, JSObject *p); static __maybe_unused void JS_DumpGCObject(JSRuntime *rt, JSGCObjectHeader *p); static __maybe_unused void JS_DumpValue(JSRuntime *rt, JSValue val); static __maybe_unused void JS_DumpAtoms(JSRuntime *rt); static __maybe_unused void JS_DumpShapes(JSRuntime *rt); static JSValue js_function_apply(JSContext *ctx, JSValue this_val, int argc, JSValue *argv, int magic); static void js_array_finalizer(JSRuntime *rt, JSValue val); static void js_array_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_object_data_finalizer(JSRuntime *rt, JSValue val); static void js_object_data_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_c_function_finalizer(JSRuntime *rt, JSValue val); static void js_c_function_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_bytecode_function_finalizer(JSRuntime *rt, JSValue val); static void js_bytecode_function_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_bound_function_finalizer(JSRuntime *rt, JSValue val); static void js_bound_function_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_for_in_iterator_finalizer(JSRuntime *rt, JSValue val); static void js_for_in_iterator_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_regexp_finalizer(JSRuntime *rt, JSValue val); static void js_array_buffer_finalizer(JSRuntime *rt, JSValue val); static void js_typed_array_finalizer(JSRuntime *rt, JSValue val); static void js_typed_array_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_proxy_finalizer(JSRuntime *rt, JSValue val); static void js_proxy_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_map_finalizer(JSRuntime *rt, JSValue val); static void js_map_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_map_iterator_finalizer(JSRuntime *rt, JSValue val); static void js_map_iterator_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_array_iterator_finalizer(JSRuntime *rt, JSValue val); static void js_array_iterator_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_regexp_string_iterator_finalizer(JSRuntime *rt, JSValue val); static void js_regexp_string_iterator_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_generator_finalizer(JSRuntime *rt, JSValue obj); static void js_generator_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_promise_finalizer(JSRuntime *rt, JSValue val); static void js_promise_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static void js_promise_resolve_function_finalizer(JSRuntime *rt, JSValue val); static void js_promise_resolve_function_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); #define HINT_STRING 0 #define HINT_NUMBER 1 #define HINT_NONE 2 #define HINT_FORCE_ORDINARY (1 << 4) // don't try Symbol.toPrimitive static JSValue JS_ToPrimitiveFree(JSContext *ctx, JSValue val, int hint); static JSValue JS_ToStringFree(JSContext *ctx, JSValue val); static int JS_ToBoolFree(JSContext *ctx, JSValue val); static int JS_ToInt32Free(JSContext *ctx, int32_t *pres, JSValue val); static int JS_ToFloat64Free(JSContext *ctx, double *pres, JSValue val); static int JS_ToUint8ClampFree(JSContext *ctx, int32_t *pres, JSValue val); static JSValue js_new_string8_len(JSContext *ctx, const char *buf, int len); static JSValue js_compile_regexp(JSContext *ctx, JSValue pattern, JSValue flags); static JSValue js_regexp_constructor_internal(JSContext *ctx, JSValue ctor, JSValue pattern, JSValue bc); static void gc_decref(JSRuntime *rt); static int JS_NewClass1(JSRuntime *rt, JSClassID class_id, const JSClassDef *class_def, JSAtom name); static JSValue js_array_push(JSContext *ctx, JSValueConst this_val, int argc, JSValueConst *argv, int unshift); typedef enum JSStrictEqModeEnum { JS_EQ_STRICT, JS_EQ_SAME_VALUE, JS_EQ_SAME_VALUE_ZERO, } JSStrictEqModeEnum; static BOOL js_strict_eq2(JSContext *ctx, JSValue op1, JSValue op2, JSStrictEqModeEnum eq_mode); static BOOL js_strict_eq(JSContext *ctx, JSValue op1, JSValue op2); static BOOL js_same_value(JSContext *ctx, JSValue op1, JSValue op2); static BOOL js_same_value_zero(JSContext *ctx, JSValue op1, JSValue op2); static JSValue JS_ToObject(JSContext *ctx, JSValue val); static JSValue JS_ToObjectFree(JSContext *ctx, JSValue val); static JSProperty *add_property(JSContext *ctx, JSObject *p, JSAtom prop, int prop_flags); static JSValue JS_NewBigInt(JSContext *ctx); static inline bf_t *JS_GetBigInt(JSValue val) { JSBigInt *p = JS_VALUE_GET_PTR(val); return &p->num; } static JSValue JS_CompactBigInt1(JSContext *ctx, JSValue val); static JSValue JS_CompactBigInt(JSContext *ctx, JSValue val); static int JS_ToBigInt64Free(JSContext *ctx, int64_t *pres, JSValue val); static bf_t *JS_ToBigInt(JSContext *ctx, bf_t *buf, JSValue val); static bf_t *JS_ToBigInt1(JSContext *ctx, bf_t *buf, JSValue val); static void JS_FreeBigInt(JSContext *ctx, bf_t *a, bf_t *buf); JSValue JS_ThrowOutOfMemory(JSContext *ctx); static JSValue JS_ThrowTypeErrorRevokedProxy(JSContext *ctx); static JSValue js_proxy_getPrototypeOf(JSContext *ctx, JSValue obj); static int js_proxy_setPrototypeOf(JSContext *ctx, JSValue obj, JSValue proto_val, BOOL throw_flag); static int js_proxy_isExtensible(JSContext *ctx, JSValue obj); static int js_proxy_preventExtensions(JSContext *ctx, JSValue obj); static int js_proxy_isArray(JSContext *ctx, JSValue obj); static int JS_CreateProperty(JSContext *ctx, JSObject *p, JSAtom prop, JSValue val, JSValue getter, JSValue setter, int flags); static int js_string_memcmp(const JSString *p1, const JSString *p2, int len); static void reset_weak_ref(JSRuntime *rt, JSWeakRefRecord **first_weak_ref); static BOOL is_valid_weakref_target(JSValue val); static void insert_weakref_record(JSValue target, struct JSWeakRefRecord *wr); static JSValue js_array_buffer_constructor3(JSContext *ctx, JSValue new_target, uint64_t len, JSClassID class_id, uint8_t *buf, JSFreeArrayBufferDataFunc *free_func, void *opaque, BOOL alloc_flag); static JSArrayBuffer *js_get_array_buffer(JSContext *ctx, JSValue obj); static JSValue js_typed_array_constructor(JSContext *ctx, JSValue this_val, int argc, JSValue *argv, int classid); static JSValue js_typed_array_constructor_ta(JSContext *ctx, JSValue new_target, JSValue src_obj, int classid); static BOOL typed_array_is_detached(JSContext *ctx, JSObject *p); static uint32_t typed_array_get_length(JSContext *ctx, JSObject *p); static JSValue JS_ThrowTypeErrorDetachedArrayBuffer(JSContext *ctx); static JSVarRef *get_var_ref(JSContext *ctx, JSStackFrame *sf, int var_idx, BOOL is_arg); static JSValue js_generator_function_call(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags); static void js_async_function_resolve_finalizer(JSRuntime *rt, JSValue val); static void js_async_function_resolve_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static JSValue JS_EvalInternal(JSContext *ctx, JSValue this_obj, const char *input, size_t input_len, const char *filename, int flags, int scope_idx); static void js_free_module_def(JSContext *ctx, JSModuleDef *m); static void js_mark_module_def(JSRuntime *rt, JSModuleDef *m, JS_MarkFunc *mark_func); static JSValue js_import_meta(JSContext *ctx); static JSValue js_dynamic_import(JSContext *ctx, JSValue specifier); static void free_var_ref(JSRuntime *rt, JSVarRef *var_ref); static JSValue js_new_promise_capability(JSContext *ctx, JSValue *resolving_funcs, JSValue ctor); static __exception int perform_promise_then(JSContext *ctx, JSValue promise, JSValue *resolve_reject, JSValue *cap_resolving_funcs); static JSValue js_promise_resolve(JSContext *ctx, JSValue this_val, int argc, JSValue *argv, int magic); static JSValue js_promise_then(JSContext *ctx, JSValueConst this_val, int argc, JSValueConst *argv); static int js_string_compare(JSContext *ctx, const JSString *p1, const JSString *p2); static JSValue JS_ToNumber(JSContext *ctx, JSValue val); static int JS_SetPropertyValue(JSContext *ctx, JSValue this_obj, JSValue prop, JSValue val, int flags); static int JS_NumberIsInteger(JSContext *ctx, JSValue val); static BOOL JS_NumberIsNegativeOrMinusZero(JSContext *ctx, JSValue val); static JSValue JS_ToNumberFree(JSContext *ctx, JSValue val); static int JS_GetOwnPropertyInternal(JSContext *ctx, JSPropertyDescriptor *desc, JSObject *p, JSAtom prop); static void js_free_desc(JSContext *ctx, JSPropertyDescriptor *desc); static void async_func_mark(JSRuntime *rt, JSAsyncFunctionState *s, JS_MarkFunc *mark_func); static void JS_AddIntrinsicBasicObjects(JSContext *ctx); static void js_free_shape(JSRuntime *rt, JSShape *sh); static void js_free_shape_null(JSRuntime *rt, JSShape *sh); static int js_shape_prepare_update(JSContext *ctx, JSObject *p, JSShapeProperty **pprs); static int init_shape_hash(JSRuntime *rt); static __exception int js_get_length32(JSContext *ctx, uint32_t *pres, JSValue obj); static __exception int js_get_length64(JSContext *ctx, int64_t *pres, JSValue obj); static __exception int js_set_length64(JSContext *ctx, JSValue obj, int64_t len); static void free_arg_list(JSContext *ctx, JSValue *tab, uint32_t len); static JSValue *build_arg_list(JSContext *ctx, uint32_t *plen, JSValue array_arg); static BOOL js_get_fast_array(JSContext *ctx, JSValue obj, JSValue **arrpp, uint32_t *countp); static JSValue JS_CreateAsyncFromSyncIterator(JSContext *ctx, JSValue sync_iter); static void js_c_function_data_finalizer(JSRuntime *rt, JSValue val); static void js_c_function_data_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func); static JSValue js_c_function_data_call(JSContext *ctx, JSValue func_obj, JSValue this_val, int argc, JSValue *argv, int flags); static JSAtom js_symbol_to_atom(JSContext *ctx, JSValue val); static void add_gc_object(JSRuntime *rt, JSGCObjectHeader *h, JSGCObjectTypeEnum type); static void remove_gc_object(JSGCObjectHeader *h); static void js_async_function_free0(JSRuntime *rt, JSAsyncFunctionData *s); static JSValue js_instantiate_prototype(JSContext *ctx, JSObject *p, JSAtom atom, void *opaque); static JSValue js_module_ns_autoinit(JSContext *ctx, JSObject *p, JSAtom atom, void *opaque); static JSValue JS_InstantiateFunctionListItem2(JSContext *ctx, JSObject *p, JSAtom atom, void *opaque); void JS_SetUncatchableError(JSContext *ctx, JSValue val, BOOL flag); static JSValue js_new_callsite(JSContext *ctx, JSCallSiteData *csd); static void js_new_callsite_data(JSContext *ctx, JSCallSiteData *csd, JSStackFrame *sf); static void js_new_callsite_data2(JSContext *ctx, JSCallSiteData *csd, const char *filename, int line_num, int col_num); static void _JS_AddIntrinsicCallSite(JSContext *ctx); static const JSClassExoticMethods js_arguments_exotic_methods; static const JSClassExoticMethods js_string_exotic_methods; static const JSClassExoticMethods js_proxy_exotic_methods; static const JSClassExoticMethods js_module_ns_exotic_methods; static inline BOOL double_is_int32(double d) { uint64_t u, e; JSFloat64Union t; t.d = d; u = t.u64; e = ((u >> 52) & 0x7FF) - 1023; if (e > 30) { // accept 0, INT32_MIN, reject too large, too small, nan, inf, -0 return !u || (u == 0xc1e0000000000000); } else { // shift out sign, exponent and whole part bits // value is fractional if remaining low bits are non-zero return !(u << 12 << e); } } static JSValue js_float64(double d) { return __JS_NewFloat64(d); } static int compare_u32(uint32_t a, uint32_t b) { return -(a < b) + (b < a); // -1, 0 or 1 } static JSValue js_int32(int32_t v) { return JS_MKVAL(JS_TAG_INT, v); } static JSValue js_uint32(uint32_t v) { if (v <= INT32_MAX) return js_int32(v); else return js_float64(v); } static JSValue js_int64(int64_t v) { if (v >= INT32_MIN && v <= INT32_MAX) return js_int32(v); else return js_float64(v); } #define JS_NewInt64(ctx, val) js_int64(val) static JSValue js_number(double d) { if (double_is_int32(d)) return js_int32((int32_t)d); else return js_float64(d); } JSValue JS_NewNumber(JSContext *ctx, double d) { return js_number(d); } static JSValue js_bool(JS_BOOL v) { return JS_MKVAL(JS_TAG_BOOL, (v != 0)); } static JSValue js_dup(JSValue v) { if (JS_VALUE_HAS_REF_COUNT(v)) { JSRefCountHeader *p = (JSRefCountHeader *)JS_VALUE_GET_PTR(v); p->ref_count++; } return v; } static void js_trigger_gc(JSRuntime *rt, size_t size) { BOOL force_gc; #ifdef FORCE_GC_AT_MALLOC force_gc = TRUE; #else force_gc = ((rt->malloc_state.malloc_size + size) > rt->malloc_gc_threshold); #endif if (force_gc) { #ifdef DUMP_GC if (check_dump_flag(rt, DUMP_GC)) { printf("GC: size=%" PRIu64 "\n", (uint64_t)rt->malloc_state.malloc_size); } #endif JS_RunGC(rt); rt->malloc_gc_threshold = rt->malloc_state.malloc_size + (rt->malloc_state.malloc_size >> 1); } } static size_t js_malloc_usable_size_unknown(const void *ptr) { return 0; } void *js_calloc_rt(JSRuntime *rt, size_t count, size_t size) { void *ptr; JSMallocState *s; /* Do not allocate zero bytes: behavior is platform dependent */ assert(count != 0 && size != 0); if (size > 0) if (unlikely(count != (count * size) / size)) return NULL; s = &rt->malloc_state; /* When malloc_limit is 0 (unlimited), malloc_limit - 1 will be SIZE_MAX. */ if (unlikely(s->malloc_size + (count * size) > s->malloc_limit - 1)) return NULL; ptr = rt->mf.js_calloc(s->opaque, count, size); if (!ptr) return NULL; s->malloc_count++; s->malloc_size += rt->mf.js_malloc_usable_size(ptr) + MALLOC_OVERHEAD; return ptr; } void *js_malloc_rt(JSRuntime *rt, size_t size) { void *ptr; JSMallocState *s; /* Do not allocate zero bytes: behavior is platform dependent */ assert(size != 0); s = &rt->malloc_state; /* When malloc_limit is 0 (unlimited), malloc_limit - 1 will be SIZE_MAX. */ if (unlikely(s->malloc_size + size > s->malloc_limit - 1)) return NULL; ptr = rt->mf.js_malloc(s->opaque, size); if (!ptr) return NULL; s->malloc_count++; s->malloc_size += rt->mf.js_malloc_usable_size(ptr) + MALLOC_OVERHEAD; return ptr; } void js_free_rt(JSRuntime *rt, void *ptr) { JSMallocState *s; if (!ptr) return; s = &rt->malloc_state; s->malloc_count--; s->malloc_size -= rt->mf.js_malloc_usable_size(ptr) + MALLOC_OVERHEAD; rt->mf.js_free(s->opaque, ptr); } void *js_realloc_rt(JSRuntime *rt, void *ptr, size_t size) { size_t old_size; JSMallocState *s; if (!ptr) { if (size == 0) return NULL; return js_malloc_rt(rt, size); } if (unlikely(size == 0)) { js_free_rt(rt, ptr); return NULL; } old_size = rt->mf.js_malloc_usable_size(ptr); s = &rt->malloc_state; /* When malloc_limit is 0 (unlimited), malloc_limit - 1 will be SIZE_MAX. */ if (s->malloc_size + size - old_size > s->malloc_limit - 1) return NULL; ptr = rt->mf.js_realloc(s->opaque, ptr, size); if (!ptr) return NULL; s->malloc_size += rt->mf.js_malloc_usable_size(ptr) - old_size; return ptr; } static void *js_dbuf_realloc(void *opaque, void *ptr, size_t size) { JSRuntime *rt = opaque; return js_realloc_rt(rt, ptr, size); } size_t js_malloc_usable_size_rt(JSRuntime *rt, const void *ptr) { return rt->mf.js_malloc_usable_size(ptr); } /** * This used to be implemented as malloc + memset, but using calloc * yields better performance in initial, bursty allocations, something useful * for QuickJS. * * More information: https://github.com/quickjs-ng/quickjs/pull/519 */ void *js_mallocz_rt(JSRuntime *rt, size_t size) { return js_calloc_rt(rt, 1, size); } /* called by libbf */ static void *js_bf_realloc(void *opaque, void *ptr, size_t size) { JSRuntime *rt = opaque; return js_realloc_rt(rt, ptr, size); } /* Throw out of memory in case of error */ void *js_calloc(JSContext *ctx, size_t count, size_t size) { void *ptr; ptr = js_calloc_rt(ctx->rt, count, size); if (unlikely(!ptr)) { JS_ThrowOutOfMemory(ctx); return NULL; } return ptr; } /* Throw out of memory in case of error */ void *js_malloc(JSContext *ctx, size_t size) { void *ptr; ptr = js_malloc_rt(ctx->rt, size); if (unlikely(!ptr)) { JS_ThrowOutOfMemory(ctx); return NULL; } return ptr; } /* Throw out of memory in case of error */ void *js_mallocz(JSContext *ctx, size_t size) { void *ptr; ptr = js_mallocz_rt(ctx->rt, size); if (unlikely(!ptr)) { JS_ThrowOutOfMemory(ctx); return NULL; } return ptr; } void js_free(JSContext *ctx, void *ptr) { js_free_rt(ctx->rt, ptr); } /* Throw out of memory in case of error */ void *js_realloc(JSContext *ctx, void *ptr, size_t size) { void *ret; ret = js_realloc_rt(ctx->rt, ptr, size); if (unlikely(!ret && size != 0)) { JS_ThrowOutOfMemory(ctx); return NULL; } return ret; } /* store extra allocated size in *pslack if successful */ void *js_realloc2(JSContext *ctx, void *ptr, size_t size, size_t *pslack) { void *ret; ret = js_realloc_rt(ctx->rt, ptr, size); if (unlikely(!ret && size != 0)) { JS_ThrowOutOfMemory(ctx); return NULL; } if (pslack) { size_t new_size = js_malloc_usable_size_rt(ctx->rt, ret); *pslack = (new_size > size) ? new_size - size : 0; } return ret; } size_t js_malloc_usable_size(JSContext *ctx, const void *ptr) { return js_malloc_usable_size_rt(ctx->rt, ptr); } /* Throw out of memory exception in case of error */ char *js_strndup(JSContext *ctx, const char *s, size_t n) { char *ptr; ptr = js_malloc(ctx, n + 1); if (ptr) { memcpy(ptr, s, n); ptr[n] = '\0'; } return ptr; } char *js_strdup(JSContext *ctx, const char *str) { return js_strndup(ctx, str, strlen(str)); } static no_inline int js_realloc_array(JSContext *ctx, void **parray, int elem_size, int *psize, int req_size) { int new_size; size_t slack; void *new_array; /* XXX: potential arithmetic overflow */ new_size = max_int(req_size, *psize * 3 / 2); new_array = js_realloc2(ctx, *parray, new_size * elem_size, &slack); if (!new_array) return -1; new_size += slack / elem_size; *psize = new_size; *parray = new_array; return 0; } /* resize the array and update its size if req_size > *psize */ static inline int js_resize_array(JSContext *ctx, void **parray, int elem_size, int *psize, int req_size) { if (unlikely(req_size > *psize)) return js_realloc_array(ctx, parray, elem_size, psize, req_size); else return 0; } static inline void js_dbuf_init(JSContext *ctx, DynBuf *s) { dbuf_init2(s, ctx->rt, js_dbuf_realloc); } static inline int is_digit(int c) { return c >= '0' && c <= '9'; } static inline int string_get(const JSString *p, int idx) { return p->is_wide_char ? p->u.str16[idx] : p->u.str8[idx]; } typedef struct JSClassShortDef { JSAtom class_name; JSClassFinalizer *finalizer; JSClassGCMark *gc_mark; } JSClassShortDef; static JSClassShortDef const js_std_class_def[] = { { JS_ATOM_Object, NULL, NULL }, /* JS_CLASS_OBJECT */ { JS_ATOM_Array, js_array_finalizer, js_array_mark }, /* JS_CLASS_ARRAY */ { JS_ATOM_Error, NULL, NULL }, /* JS_CLASS_ERROR */ { JS_ATOM_Number, js_object_data_finalizer, js_object_data_mark }, /* JS_CLASS_NUMBER */ { JS_ATOM_String, js_object_data_finalizer, js_object_data_mark }, /* JS_CLASS_STRING */ { JS_ATOM_Boolean, js_object_data_finalizer, js_object_data_mark }, /* JS_CLASS_BOOLEAN */ { JS_ATOM_Symbol, js_object_data_finalizer, js_object_data_mark }, /* JS_CLASS_SYMBOL */ { JS_ATOM_Arguments, js_array_finalizer, js_array_mark }, /* JS_CLASS_ARGUMENTS */ { JS_ATOM_Arguments, NULL, NULL }, /* JS_CLASS_MAPPED_ARGUMENTS */ { JS_ATOM_Date, js_object_data_finalizer, js_object_data_mark }, /* JS_CLASS_DATE */ { JS_ATOM_Object, NULL, NULL }, /* JS_CLASS_MODULE_NS */ { JS_ATOM_Function, js_c_function_finalizer, js_c_function_mark }, /* JS_CLASS_C_FUNCTION */ { JS_ATOM_Function, js_bytecode_function_finalizer, js_bytecode_function_mark }, /* JS_CLASS_BYTECODE_FUNCTION */ { JS_ATOM_Function, js_bound_function_finalizer, js_bound_function_mark }, /* JS_CLASS_BOUND_FUNCTION */ { JS_ATOM_Function, js_c_function_data_finalizer, js_c_function_data_mark }, /* JS_CLASS_C_FUNCTION_DATA */ { JS_ATOM_GeneratorFunction, js_bytecode_function_finalizer, js_bytecode_function_mark }, /* JS_CLASS_GENERATOR_FUNCTION */ { JS_ATOM_ForInIterator, js_for_in_iterator_finalizer, js_for_in_iterator_mark }, /* JS_CLASS_FOR_IN_ITERATOR */ { JS_ATOM_RegExp, js_regexp_finalizer, NULL }, /* JS_CLASS_REGEXP */ { JS_ATOM_ArrayBuffer, js_array_buffer_finalizer, NULL }, /* JS_CLASS_ARRAY_BUFFER */ { JS_ATOM_SharedArrayBuffer, js_array_buffer_finalizer, NULL }, /* JS_CLASS_SHARED_ARRAY_BUFFER */ { JS_ATOM_Uint8ClampedArray, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_UINT8C_ARRAY */ { JS_ATOM_Int8Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_INT8_ARRAY */ { JS_ATOM_Uint8Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_UINT8_ARRAY */ { JS_ATOM_Int16Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_INT16_ARRAY */ { JS_ATOM_Uint16Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_UINT16_ARRAY */ { JS_ATOM_Int32Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_INT32_ARRAY */ { JS_ATOM_Uint32Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_UINT32_ARRAY */ { JS_ATOM_BigInt64Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_BIG_INT64_ARRAY */ { JS_ATOM_BigUint64Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_BIG_UINT64_ARRAY */ { JS_ATOM_Float16Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_FLOAT16_ARRAY */ { JS_ATOM_Float32Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_FLOAT32_ARRAY */ { JS_ATOM_Float64Array, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_FLOAT64_ARRAY */ { JS_ATOM_DataView, js_typed_array_finalizer, js_typed_array_mark }, /* JS_CLASS_DATAVIEW */ { JS_ATOM_BigInt, js_object_data_finalizer, js_object_data_mark }, /* JS_CLASS_BIG_INT */ { JS_ATOM_Map, js_map_finalizer, js_map_mark }, /* JS_CLASS_MAP */ { JS_ATOM_Set, js_map_finalizer, js_map_mark }, /* JS_CLASS_SET */ { JS_ATOM_WeakMap, js_map_finalizer, js_map_mark }, /* JS_CLASS_WEAKMAP */ { JS_ATOM_WeakSet, js_map_finalizer, js_map_mark }, /* JS_CLASS_WEAKSET */ { JS_ATOM_Map_Iterator, js_map_iterator_finalizer, js_map_iterator_mark }, /* JS_CLASS_MAP_ITERATOR */ { JS_ATOM_Set_Iterator, js_map_iterator_finalizer, js_map_iterator_mark }, /* JS_CLASS_SET_ITERATOR */ { JS_ATOM_Array_Iterator, js_array_iterator_finalizer, js_array_iterator_mark }, /* JS_CLASS_ARRAY_ITERATOR */ { JS_ATOM_String_Iterator, js_array_iterator_finalizer, js_array_iterator_mark }, /* JS_CLASS_STRING_ITERATOR */ { JS_ATOM_RegExp_String_Iterator, js_regexp_string_iterator_finalizer, js_regexp_string_iterator_mark }, /* JS_CLASS_REGEXP_STRING_ITERATOR */ { JS_ATOM_Generator, js_generator_finalizer, js_generator_mark }, /* JS_CLASS_GENERATOR */ }; static int init_class_range(JSRuntime *rt, JSClassShortDef const *tab, int start, int count) { JSClassDef cm_s, *cm = &cm_s; int i, class_id; for(i = 0; i < count; i++) { class_id = i + start; memset(cm, 0, sizeof(*cm)); cm->finalizer = tab[i].finalizer; cm->gc_mark = tab[i].gc_mark; if (JS_NewClass1(rt, class_id, cm, tab[i].class_name) < 0) return -1; } return 0; } /* Note: OS and CPU dependent */ static inline uintptr_t js_get_stack_pointer(void) { return (uintptr_t)__builtin_frame_address(0); } static inline BOOL js_check_stack_overflow(JSRuntime *rt, size_t alloca_size) { uintptr_t sp; sp = js_get_stack_pointer() - alloca_size; return unlikely(sp < rt->stack_limit); } JSRuntime *JS_NewRuntime2(const JSMallocFunctions *mf, void *opaque) { JSRuntime *rt; JSMallocState ms; memset(&ms, 0, sizeof(ms)); ms.opaque = opaque; ms.malloc_limit = 0; rt = mf->js_calloc(opaque, 1, sizeof(JSRuntime)); if (!rt) return NULL; /* Inline what js_malloc_rt does since we cannot use it here. */ ms.malloc_count++; ms.malloc_size += mf->js_malloc_usable_size(rt) + MALLOC_OVERHEAD; rt->mf = *mf; if (!rt->mf.js_malloc_usable_size) { /* use dummy function if none provided */ rt->mf.js_malloc_usable_size = js_malloc_usable_size_unknown; } rt->malloc_state = ms; rt->malloc_gc_threshold = 256 * 1024; bf_context_init(&rt->bf_ctx, js_bf_realloc, rt); init_list_head(&rt->context_list); init_list_head(&rt->gc_obj_list); init_list_head(&rt->gc_zero_ref_count_list); rt->gc_phase = JS_GC_PHASE_NONE; #ifdef DUMP_LEAKS init_list_head(&rt->string_list); #endif init_list_head(&rt->job_list); if (JS_InitAtoms(rt)) goto fail; /* create the object, array and function classes */ if (init_class_range(rt, js_std_class_def, JS_CLASS_OBJECT, countof(js_std_class_def)) < 0) goto fail; rt->class_array[JS_CLASS_ARGUMENTS].exotic = &js_arguments_exotic_methods; rt->class_array[JS_CLASS_STRING].exotic = &js_string_exotic_methods; rt->class_array[JS_CLASS_MODULE_NS].exotic = &js_module_ns_exotic_methods; rt->class_array[JS_CLASS_C_FUNCTION].call = js_call_c_function; rt->class_array[JS_CLASS_C_FUNCTION_DATA].call = js_c_function_data_call; rt->class_array[JS_CLASS_BOUND_FUNCTION].call = js_call_bound_function; rt->class_array[JS_CLASS_GENERATOR_FUNCTION].call = js_generator_function_call; if (init_shape_hash(rt)) goto fail; rt->js_class_id_alloc = JS_CLASS_INIT_COUNT; rt->stack_size = JS_DEFAULT_STACK_SIZE; #ifdef __ASAN__ rt->stack_size *= 2; // stack frames are bigger under AddressSanitizer #endif JS_UpdateStackTop(rt); rt->current_exception = JS_UNINITIALIZED; return rt; fail: JS_FreeRuntime(rt); return NULL; } void *JS_GetRuntimeOpaque(JSRuntime *rt) { return rt->user_opaque; } void JS_SetRuntimeOpaque(JSRuntime *rt, void *opaque) { rt->user_opaque = opaque; } static void *js_def_calloc(void *opaque, size_t count, size_t size) { return calloc(count, size); } static void *js_def_malloc(void *opaque, size_t size) { return malloc(size); } static void js_def_free(void *opaque, void *ptr) { free(ptr); } static void *js_def_realloc(void *opaque, void *ptr, size_t size) { return realloc(ptr, size); } static const JSMallocFunctions def_malloc_funcs = { js_def_calloc, js_def_malloc, js_def_free, js_def_realloc, js__malloc_usable_size }; JSRuntime *JS_NewRuntime(void) { return JS_NewRuntime2(&def_malloc_funcs, NULL); } void JS_SetMemoryLimit(JSRuntime *rt, size_t limit) { rt->malloc_state.malloc_limit = limit; } void JS_SetDumpFlags(JSRuntime *rt, uint64_t flags) { rt->dump_flags = flags; } size_t JS_GetGCThreshold(JSRuntime *rt) { return rt->malloc_gc_threshold; } /* use -1 to disable automatic GC */ void JS_SetGCThreshold(JSRuntime *rt, size_t gc_threshold) { rt->malloc_gc_threshold = gc_threshold; } #define malloc(s) malloc_is_forbidden(s) #define free(p) free_is_forbidden(p) #define realloc(p,s) realloc_is_forbidden(p,s) void JS_SetInterruptHandler(JSRuntime *rt, JSInterruptHandler *cb, void *opaque) { rt->interrupt_handler = cb; rt->interrupt_opaque = opaque; } void JS_SetCanBlock(JSRuntime *rt, BOOL can_block) { rt->can_block = can_block; } void JS_SetSharedArrayBufferFunctions(JSRuntime *rt, const JSSharedArrayBufferFunctions *sf) { rt->sab_funcs = *sf; } /* return 0 if OK, < 0 if exception */ int JS_EnqueueJob(JSContext *ctx, JSJobFunc *job_func, int argc, JSValue *argv) { JSRuntime *rt = ctx->rt; JSJobEntry *e; int i; assert(!rt->in_free); e = js_malloc(ctx, sizeof(*e) + argc * sizeof(JSValue)); if (!e) return -1; e->ctx = ctx; e->job_func = job_func; e->argc = argc; for(i = 0; i < argc; i++) { e->argv[i] = js_dup(argv[i]); } list_add_tail(&e->link, &rt->job_list); return 0; } BOOL JS_IsJobPending(JSRuntime *rt) { return !list_empty(&rt->job_list); } /* return < 0 if exception, 0 if no job pending, 1 if a job was executed successfully. the context of the job is stored in '*pctx' */ int JS_ExecutePendingJob(JSRuntime *rt, JSContext **pctx) { JSContext *ctx; JSJobEntry *e; JSValue res; int i, ret; if (list_empty(&rt->job_list)) { *pctx = NULL; return 0; } /* get the first pending job and execute it */ e = list_entry(rt->job_list.next, JSJobEntry, link); list_del(&e->link); ctx = e->ctx; res = e->job_func(e->ctx, e->argc, e->argv); for(i = 0; i < e->argc; i++) JS_FreeValue(ctx, e->argv[i]); if (JS_IsException(res)) ret = -1; else ret = 1; JS_FreeValue(ctx, res); js_free(ctx, e); *pctx = ctx; return ret; } static inline uint32_t atom_get_free(const JSAtomStruct *p) { return (uintptr_t)p >> 1; } static inline BOOL atom_is_free(const JSAtomStruct *p) { return (uintptr_t)p & 1; } static inline JSAtomStruct *atom_set_free(uint32_t v) { return (JSAtomStruct *)(((uintptr_t)v << 1) | 1); } /* Note: the string contents are uninitialized */ static JSString *js_alloc_string_rt(JSRuntime *rt, int max_len, int is_wide_char) { JSString *str; str = js_malloc_rt(rt, sizeof(JSString) + (max_len << is_wide_char) + 1 - is_wide_char); if (unlikely(!str)) return NULL; str->header.ref_count = 1; str->is_wide_char = is_wide_char; str->len = max_len; str->atom_type = 0; str->hash = 0; /* optional but costless */ str->hash_next = 0; /* optional */ #ifdef DUMP_LEAKS list_add_tail(&str->link, &rt->string_list); #endif return str; } static JSString *js_alloc_string(JSContext *ctx, int max_len, int is_wide_char) { JSString *p; p = js_alloc_string_rt(ctx->rt, max_len, is_wide_char); if (unlikely(!p)) { JS_ThrowOutOfMemory(ctx); return NULL; } return p; } /* same as JS_FreeValueRT() but faster */ static inline void js_free_string(JSRuntime *rt, JSString *str) { if (--str->header.ref_count <= 0) { if (str->atom_type) { JS_FreeAtomStruct(rt, str); } else { #ifdef DUMP_LEAKS list_del(&str->link); #endif js_free_rt(rt, str); } } } void JS_SetRuntimeInfo(JSRuntime *rt, const char *s) { if (rt) rt->rt_info = s; } void JS_FreeRuntime(JSRuntime *rt) { struct list_head *el, *el1; int i; rt->in_free = TRUE; JS_FreeValueRT(rt, rt->current_exception); list_for_each_safe(el, el1, &rt->job_list) { JSJobEntry *e = list_entry(el, JSJobEntry, link); for(i = 0; i < e->argc; i++) JS_FreeValueRT(rt, e->argv[i]); js_free_rt(rt, e); } init_list_head(&rt->job_list); JS_RunGC(rt); #ifdef DUMP_LEAKS /* leaking objects */ if (check_dump_flag(rt, DUMP_LEAKS)) { BOOL header_done; JSGCObjectHeader *p; int count; /* remove the internal refcounts to display only the object referenced externally */ list_for_each(el, &rt->gc_obj_list) { p = list_entry(el, JSGCObjectHeader, link); p->mark = 0; } gc_decref(rt); header_done = FALSE; list_for_each(el, &rt->gc_obj_list) { p = list_entry(el, JSGCObjectHeader, link); if (p->ref_count != 0) { if (!header_done) { printf("Object leaks:\n"); JS_DumpObjectHeader(rt); header_done = TRUE; } JS_DumpGCObject(rt, p); } } count = 0; list_for_each(el, &rt->gc_obj_list) { p = list_entry(el, JSGCObjectHeader, link); if (p->ref_count == 0) { count++; } } if (count != 0) printf("Secondary object leaks: %d\n", count); } #endif assert(list_empty(&rt->gc_obj_list)); /* free the classes */ for(i = 0; i < rt->class_count; i++) { JSClass *cl = &rt->class_array[i]; if (cl->class_id != 0) { JS_FreeAtomRT(rt, cl->class_name); } } js_free_rt(rt, rt->class_array); bf_context_end(&rt->bf_ctx); #ifdef DUMP_ATOM_LEAKS /* only the atoms defined in JS_InitAtoms() should be left */ if (check_dump_flag(rt, DUMP_ATOM_LEAKS)) { BOOL header_done = FALSE; for(i = 0; i < rt->atom_size; i++) { JSAtomStruct *p = rt->atom_array[i]; if (!atom_is_free(p) /* && p->str*/) { if (i >= JS_ATOM_END || p->header.ref_count != 1) { if (!header_done) { header_done = TRUE; if (rt->rt_info) { printf("%s:1: atom leakage:", rt->rt_info); } else { printf("Atom leaks:\n" " %6s %6s %s\n", "ID", "REFCNT", "NAME"); } } if (rt->rt_info) { printf(" "); } else { printf(" %6u %6u ", i, p->header.ref_count); } switch (p->atom_type) { case JS_ATOM_TYPE_STRING: JS_DumpString(rt, p); break; case JS_ATOM_TYPE_GLOBAL_SYMBOL: printf("Symbol.for("); JS_DumpString(rt, p); printf(")"); break; case JS_ATOM_TYPE_SYMBOL: if (p->hash == JS_ATOM_HASH_SYMBOL) { printf("Symbol("); JS_DumpString(rt, p); printf(")"); } else { printf("Private("); JS_DumpString(rt, p); printf(")"); } break; } if (rt->rt_info) { printf(":%u", p->header.ref_count); } else { printf("\n"); } } } } if (rt->rt_info && header_done) printf("\n"); } #endif /* free the atoms */ for(i = 0; i < rt->atom_size; i++) { JSAtomStruct *p = rt->atom_array[i]; if (!atom_is_free(p)) { #ifdef DUMP_LEAKS list_del(&p->link); #endif js_free_rt(rt, p); } } js_free_rt(rt, rt->atom_array); js_free_rt(rt, rt->atom_hash); js_free_rt(rt, rt->shape_hash); #ifdef DUMP_LEAKS if (check_dump_flag(rt, DUMP_LEAKS) && !list_empty(&rt->string_list)) { if (rt->rt_info) { printf("%s:1: string leakage:", rt->rt_info); } else { printf("String leaks:\n" " %6s %s\n", "REFCNT", "VALUE"); } list_for_each_safe(el, el1, &rt->string_list) { JSString *str = list_entry(el, JSString, link); if (rt->rt_info) { printf(" "); } else { printf(" %6u ", str->header.ref_count); } JS_DumpString(rt, str); if (rt->rt_info) { printf(":%u", str->header.ref_count); } else { printf("\n"); } list_del(&str->link); js_free_rt(rt, str); } if (rt->rt_info) printf("\n"); } if (check_dump_flag(rt, DUMP_LEAKS)) { JSMallocState *s = &rt->malloc_state; if (s->malloc_count > 1) { if (rt->rt_info) printf("%s:1: ", rt->rt_info); printf("Memory leak: %"PRIu64" bytes lost in %"PRIu64" block%s\n", (uint64_t)(s->malloc_size - sizeof(JSRuntime)), (uint64_t)(s->malloc_count - 1), &"s"[s->malloc_count == 2]); } } #endif { JSMallocState *ms = &rt->malloc_state; rt->mf.js_free(ms->opaque, rt); } } JSContext *JS_NewContextRaw(JSRuntime *rt) { JSContext *ctx; int i; ctx = js_mallocz_rt(rt, sizeof(JSContext)); if (!ctx) return NULL; ctx->header.ref_count = 1; add_gc_object(rt, &ctx->header, JS_GC_OBJ_TYPE_JS_CONTEXT); ctx->class_proto = js_malloc_rt(rt, sizeof(ctx->class_proto[0]) * rt->class_count); if (!ctx->class_proto) { js_free_rt(rt, ctx); return NULL; } ctx->rt = rt; list_add_tail(&ctx->link, &rt->context_list); ctx->bf_ctx = &rt->bf_ctx; for(i = 0; i < rt->class_count; i++) ctx->class_proto[i] = JS_NULL; ctx->array_ctor = JS_NULL; ctx->regexp_ctor = JS_NULL; ctx->promise_ctor = JS_NULL; ctx->error_ctor = JS_NULL; ctx->error_prepare_stack = JS_UNDEFINED; ctx->error_stack_trace_limit = 10; init_list_head(&ctx->loaded_modules); JS_AddIntrinsicBasicObjects(ctx); return ctx; } JSContext *JS_NewContext(JSRuntime *rt) { JSContext *ctx; ctx = JS_NewContextRaw(rt); if (!ctx) return NULL; JS_AddIntrinsicBaseObjects(ctx); JS_AddIntrinsicDate(ctx); JS_AddIntrinsicEval(ctx); JS_AddIntrinsicRegExp(ctx); JS_AddIntrinsicJSON(ctx); JS_AddIntrinsicProxy(ctx); JS_AddIntrinsicMapSet(ctx); JS_AddIntrinsicTypedArrays(ctx); JS_AddIntrinsicPromise(ctx); JS_AddIntrinsicBigInt(ctx); JS_AddIntrinsicWeakRef(ctx); JS_AddPerformance(ctx); return ctx; } void *JS_GetContextOpaque(JSContext *ctx) { return ctx->user_opaque; } void JS_SetContextOpaque(JSContext *ctx, void *opaque) { ctx->user_opaque = opaque; } /* set the new value and free the old value after (freeing the value can reallocate the object data) */ static inline void set_value(JSContext *ctx, JSValue *pval, JSValue new_val) { JSValue old_val; old_val = *pval; *pval = new_val; JS_FreeValue(ctx, old_val); } void JS_SetClassProto(JSContext *ctx, JSClassID class_id, JSValue obj) { assert(class_id < ctx->rt->class_count); set_value(ctx, &ctx->class_proto[class_id], obj); } JSValue JS_GetClassProto(JSContext *ctx, JSClassID class_id) { assert(class_id < ctx->rt->class_count); return js_dup(ctx->class_proto[class_id]); } typedef enum JSFreeModuleEnum { JS_FREE_MODULE_ALL, JS_FREE_MODULE_NOT_RESOLVED, } JSFreeModuleEnum; /* XXX: would be more efficient with separate module lists */ static void js_free_modules(JSContext *ctx, JSFreeModuleEnum flag) { struct list_head *el, *el1; list_for_each_safe(el, el1, &ctx->loaded_modules) { JSModuleDef *m = list_entry(el, JSModuleDef, link); if (flag == JS_FREE_MODULE_ALL || (flag == JS_FREE_MODULE_NOT_RESOLVED && !m->resolved)) { js_free_module_def(ctx, m); } } } JSContext *JS_DupContext(JSContext *ctx) { ctx->header.ref_count++; return ctx; } /* used by the GC */ static void JS_MarkContext(JSRuntime *rt, JSContext *ctx, JS_MarkFunc *mark_func) { int i; struct list_head *el; /* modules are not seen by the GC, so we directly mark the objects referenced by each module */ list_for_each(el, &ctx->loaded_modules) { JSModuleDef *m = list_entry(el, JSModuleDef, link); js_mark_module_def(rt, m, mark_func); } JS_MarkValue(rt, ctx->global_obj, mark_func); JS_MarkValue(rt, ctx->global_var_obj, mark_func); JS_MarkValue(rt, ctx->throw_type_error, mark_func); JS_MarkValue(rt, ctx->eval_obj, mark_func); JS_MarkValue(rt, ctx->array_proto_values, mark_func); for(i = 0; i < JS_NATIVE_ERROR_COUNT; i++) { JS_MarkValue(rt, ctx->native_error_proto[i], mark_func); } JS_MarkValue(rt, ctx->error_ctor, mark_func); JS_MarkValue(rt, ctx->error_prepare_stack, mark_func); for(i = 0; i < rt->class_count; i++) { JS_MarkValue(rt, ctx->class_proto[i], mark_func); } JS_MarkValue(rt, ctx->iterator_proto, mark_func); JS_MarkValue(rt, ctx->async_iterator_proto, mark_func); JS_MarkValue(rt, ctx->promise_ctor, mark_func); JS_MarkValue(rt, ctx->array_ctor, mark_func); JS_MarkValue(rt, ctx->regexp_ctor, mark_func); JS_MarkValue(rt, ctx->function_ctor, mark_func); JS_MarkValue(rt, ctx->function_proto, mark_func); if (ctx->array_shape) mark_func(rt, &ctx->array_shape->header); } void JS_FreeContext(JSContext *ctx) { JSRuntime *rt = ctx->rt; int i; if (--ctx->header.ref_count > 0) return; assert(ctx->header.ref_count == 0); #ifdef DUMP_ATOMS if (check_dump_flag(rt, DUMP_ATOMS)) JS_DumpAtoms(ctx->rt); #endif #ifdef DUMP_SHAPES if (check_dump_flag(rt, DUMP_SHAPES)) JS_DumpShapes(ctx->rt); #endif #ifdef DUMP_OBJECTS if (check_dump_flag(rt, DUMP_OBJECTS)) { struct list_head *el; JSGCObjectHeader *p; printf("JSObjects: {\n"); JS_DumpObjectHeader(ctx->rt); list_for_each(el, &rt->gc_obj_list) { p = list_entry(el, JSGCObjectHeader, link); JS_DumpGCObject(rt, p); } printf("}\n"); } #endif #ifdef DUMP_MEM if (check_dump_flag(rt, DUMP_MEM)) { JSMemoryUsage stats; JS_ComputeMemoryUsage(rt, &stats); JS_DumpMemoryUsage(stdout, &stats, rt); } #endif js_free_modules(ctx, JS_FREE_MODULE_ALL); JS_FreeValue(ctx, ctx->global_obj); JS_FreeValue(ctx, ctx->global_var_obj); JS_FreeValue(ctx, ctx->throw_type_error); JS_FreeValue(ctx, ctx->eval_obj); JS_FreeValue(ctx, ctx->array_proto_values); for(i = 0; i < JS_NATIVE_ERROR_COUNT; i++) { JS_FreeValue(ctx, ctx->native_error_proto[i]); } JS_FreeValue(ctx, ctx->error_ctor); JS_FreeValue(ctx, ctx->error_prepare_stack); for(i = 0; i < rt->class_count; i++) { JS_FreeValue(ctx, ctx->class_proto[i]); } js_free_rt(rt, ctx->class_proto); JS_FreeValue(ctx, ctx->iterator_proto); JS_FreeValue(ctx, ctx->async_iterator_proto); JS_FreeValue(ctx, ctx->promise_ctor); JS_FreeValue(ctx, ctx->array_ctor); JS_FreeValue(ctx, ctx->regexp_ctor); JS_FreeValue(ctx, ctx->function_ctor); JS_FreeValue(ctx, ctx->function_proto); js_free_shape_null(ctx->rt, ctx->array_shape); list_del(&ctx->link); remove_gc_object(&ctx->header); js_free_rt(ctx->rt, ctx); } JSRuntime *JS_GetRuntime(JSContext *ctx) { return ctx->rt; } static void update_stack_limit(JSRuntime *rt) { #if defined(__wasi__) || (defined(__ASAN__) && !defined(NDEBUG)) rt->stack_limit = 0; /* no limit */ #else if (rt->stack_size == 0) { rt->stack_limit = 0; /* no limit */ } else { rt->stack_limit = rt->stack_top - rt->stack_size; } #endif } void JS_SetMaxStackSize(JSRuntime *rt, size_t stack_size) { rt->stack_size = stack_size; update_stack_limit(rt); } void JS_UpdateStackTop(JSRuntime *rt) { rt->stack_top = js_get_stack_pointer(); update_stack_limit(rt); } static inline BOOL is_strict_mode(JSContext *ctx) { JSStackFrame *sf = ctx->rt->current_stack_frame; return (sf && (sf->js_mode & JS_MODE_STRICT)); } /* JSAtom support */ #define JS_ATOM_TAG_INT (1U << 31) #define JS_ATOM_MAX_INT (JS_ATOM_TAG_INT - 1) #define JS_ATOM_MAX ((1U << 30) - 1) /* return the max count from the hash size */ #define JS_ATOM_COUNT_RESIZE(n) ((n) * 2) static inline BOOL __JS_AtomIsConst(JSAtom v) { return (int32_t)v < JS_ATOM_END; } static inline BOOL __JS_AtomIsTaggedInt(JSAtom v) { return (v & JS_ATOM_TAG_INT) != 0; } static inline JSAtom __JS_AtomFromUInt32(uint32_t v) { return v | JS_ATOM_TAG_INT; } static inline uint32_t __JS_AtomToUInt32(JSAtom atom) { return atom & ~JS_ATOM_TAG_INT; } static inline int is_num(int c) { return c >= '0' && c <= '9'; } /* return TRUE if the string is a number n with 0 <= n <= 2^32-1 */ static inline BOOL is_num_string(uint32_t *pval, const JSString *p) { uint32_t n; uint64_t n64; int c, i, len; len = p->len; if (len == 0 || len > 10) return FALSE; c = string_get(p, 0); if (is_num(c)) { if (c == '0') { if (len != 1) return FALSE; n = 0; } else { n = c - '0'; for(i = 1; i < len; i++) { c = string_get(p, i); if (!is_num(c)) return FALSE; n64 = (uint64_t)n * 10 + (c - '0'); if ((n64 >> 32) != 0) return FALSE; n = n64; } } *pval = n; return TRUE; } else { return FALSE; } } /* XXX: could use faster version ? */ static inline uint32_t hash_string8(const uint8_t *str, size_t len, uint32_t h) { size_t i; for(i = 0; i < len; i++) h = h * 263 + str[i]; return h; } static inline uint32_t hash_string16(const uint16_t *str, size_t len, uint32_t h) { size_t i; for(i = 0; i < len; i++) h = h * 263 + str[i]; return h; } static uint32_t hash_string(const JSString *str, uint32_t h) { if (str->is_wide_char) h = hash_string16(str->u.str16, str->len, h); else h = hash_string8(str->u.str8, str->len, h); return h; } static __maybe_unused void JS_DumpString(JSRuntime *rt, const JSString *p) { int i, c, sep; if (p == NULL) { printf(""); return; } if (p->header.ref_count != 1) printf("%d", p->header.ref_count); if (p->is_wide_char) putchar('L'); sep = '\"'; putchar(sep); for(i = 0; i < p->len; i++) { c = string_get(p, i); if (c == sep || c == '\\') { putchar('\\'); putchar(c); } else if (c >= ' ' && c <= 126) { putchar(c); } else if (c == '\n') { putchar('\\'); putchar('n'); } else { printf("\\u%04x", c); } } putchar(sep); } static __maybe_unused void JS_DumpAtoms(JSRuntime *rt) { JSAtomStruct *p; int h, i; /* This only dumps hashed atoms, not JS_ATOM_TYPE_SYMBOL atoms */ printf("JSAtom count=%d size=%d hash_size=%d:\n", rt->atom_count, rt->atom_size, rt->atom_hash_size); printf("JSAtom hash table: {\n"); for(i = 0; i < rt->atom_hash_size; i++) { h = rt->atom_hash[i]; if (h) { printf(" %d:", i); while (h) { p = rt->atom_array[h]; printf(" "); JS_DumpString(rt, p); h = p->hash_next; } printf("\n"); } } printf("}\n"); printf("JSAtom table: {\n"); for(i = 0; i < rt->atom_size; i++) { p = rt->atom_array[i]; if (!atom_is_free(p)) { printf(" %d: { %d %08x ", i, p->atom_type, p->hash); if (!(p->len == 0 && p->is_wide_char != 0)) JS_DumpString(rt, p); printf(" %d }\n", p->hash_next); } } printf("}\n"); } static int JS_ResizeAtomHash(JSRuntime *rt, int new_hash_size) { JSAtomStruct *p; uint32_t new_hash_mask, h, i, hash_next1, j, *new_hash; assert((new_hash_size & (new_hash_size - 1)) == 0); /* power of two */ new_hash_mask = new_hash_size - 1; new_hash = js_mallocz_rt(rt, sizeof(rt->atom_hash[0]) * new_hash_size); if (!new_hash) return -1; for(i = 0; i < rt->atom_hash_size; i++) { h = rt->atom_hash[i]; while (h != 0) { p = rt->atom_array[h]; hash_next1 = p->hash_next; /* add in new hash table */ j = p->hash & new_hash_mask; p->hash_next = new_hash[j]; new_hash[j] = h; h = hash_next1; } } js_free_rt(rt, rt->atom_hash); rt->atom_hash = new_hash; rt->atom_hash_size = new_hash_size; rt->atom_count_resize = JS_ATOM_COUNT_RESIZE(new_hash_size); // JS_DumpAtoms(rt); return 0; } static int JS_InitAtoms(JSRuntime *rt) { int i, len, atom_type; const char *p; rt->atom_hash_size = 0; rt->atom_hash = NULL; rt->atom_count = 0; rt->atom_size = 0; rt->atom_free_index = 0; if (JS_ResizeAtomHash(rt, 256)) /* there are at least 195 predefined atoms */ return -1; p = js_atom_init; for(i = 1; i < JS_ATOM_END; i++) { if (i == JS_ATOM_Private_brand) atom_type = JS_ATOM_TYPE_PRIVATE; else if (i >= JS_ATOM_Symbol_toPrimitive) atom_type = JS_ATOM_TYPE_SYMBOL; else atom_type = JS_ATOM_TYPE_STRING; len = strlen(p); if (__JS_NewAtomInit(rt, p, len, atom_type) == JS_ATOM_NULL) return -1; p = p + len + 1; } return 0; } static JSAtom JS_DupAtomRT(JSRuntime *rt, JSAtom v) { JSAtomStruct *p; if (!__JS_AtomIsConst(v)) { p = rt->atom_array[v]; p->header.ref_count++; } return v; } JSAtom JS_DupAtom(JSContext *ctx, JSAtom v) { JSRuntime *rt; JSAtomStruct *p; if (!__JS_AtomIsConst(v)) { rt = ctx->rt; p = rt->atom_array[v]; p->header.ref_count++; } return v; } static JSAtomKindEnum JS_AtomGetKind(JSContext *ctx, JSAtom v) { JSRuntime *rt; JSAtomStruct *p; rt = ctx->rt; if (__JS_AtomIsTaggedInt(v)) return JS_ATOM_KIND_STRING; p = rt->atom_array[v]; switch(p->atom_type) { case JS_ATOM_TYPE_STRING: return JS_ATOM_KIND_STRING; case JS_ATOM_TYPE_GLOBAL_SYMBOL: return JS_ATOM_KIND_SYMBOL; case JS_ATOM_TYPE_SYMBOL: switch(p->hash) { case JS_ATOM_HASH_SYMBOL: return JS_ATOM_KIND_SYMBOL; case JS_ATOM_HASH_PRIVATE: return JS_ATOM_KIND_PRIVATE; default: abort(); } default: abort(); } return (JSAtomKindEnum){-1}; // pacify compiler } static JSAtom js_get_atom_index(JSRuntime *rt, JSAtomStruct *p) { uint32_t i = p->hash_next; /* atom_index */ if (p->atom_type != JS_ATOM_TYPE_SYMBOL) { JSAtomStruct *p1; i = rt->atom_hash[p->hash & (rt->atom_hash_size - 1)]; p1 = rt->atom_array[i]; while (p1 != p) { assert(i != 0); i = p1->hash_next; p1 = rt->atom_array[i]; } } return i; } /* string case (internal). Return JS_ATOM_NULL if error. 'str' is freed. */ static JSAtom __JS_NewAtom(JSRuntime *rt, JSString *str, int atom_type) { uint32_t h, h1, i; JSAtomStruct *p; int len; if (atom_type < JS_ATOM_TYPE_SYMBOL) { /* str is not NULL */ if (str->atom_type == atom_type) { /* str is the atom, return its index */ i = js_get_atom_index(rt, str); /* reduce string refcount and increase atom's unless constant */ if (__JS_AtomIsConst(i)) str->header.ref_count--; return i; } /* try and locate an already registered atom */ len = str->len; h = hash_string(str, atom_type); h &= JS_ATOM_HASH_MASK; h1 = h & (rt->atom_hash_size - 1); i = rt->atom_hash[h1]; while (i != 0) { p = rt->atom_array[i]; if (p->hash == h && p->atom_type == atom_type && p->len == len && js_string_memcmp(p, str, len) == 0) { if (!__JS_AtomIsConst(i)) p->header.ref_count++; goto done; } i = p->hash_next; } } else { h1 = 0; /* avoid warning */ if (atom_type == JS_ATOM_TYPE_SYMBOL) { h = JS_ATOM_HASH_SYMBOL; } else { h = JS_ATOM_HASH_PRIVATE; atom_type = JS_ATOM_TYPE_SYMBOL; } } if (rt->atom_free_index == 0) { /* allow new atom entries */ uint32_t new_size, start; JSAtomStruct **new_array; /* alloc new with size progression 3/2: 4 6 9 13 19 28 42 63 94 141 211 316 474 711 1066 1599 2398 3597 5395 8092 preallocating space for predefined atoms (at least 195). */ new_size = max_int(211, rt->atom_size * 3 / 2); if (new_size > JS_ATOM_MAX) goto fail; /* XXX: should use realloc2 to use slack space */ new_array = js_realloc_rt(rt, rt->atom_array, sizeof(*new_array) * new_size); if (!new_array) goto fail; /* Note: the atom 0 is not used */ start = rt->atom_size; if (start == 0) { /* JS_ATOM_NULL entry */ p = js_mallocz_rt(rt, sizeof(JSAtomStruct)); if (!p) { js_free_rt(rt, new_array); goto fail; } p->header.ref_count = 1; /* not refcounted */ p->atom_type = JS_ATOM_TYPE_SYMBOL; #ifdef DUMP_LEAKS list_add_tail(&p->link, &rt->string_list); #endif new_array[0] = p; rt->atom_count++; start = 1; } rt->atom_size = new_size; rt->atom_array = new_array; rt->atom_free_index = start; for(i = start; i < new_size; i++) { uint32_t next; if (i == (new_size - 1)) next = 0; else next = i + 1; rt->atom_array[i] = atom_set_free(next); } } if (str) { if (str->atom_type == 0) { p = str; p->atom_type = atom_type; } else { p = js_malloc_rt(rt, sizeof(JSString) + (str->len << str->is_wide_char) + 1 - str->is_wide_char); if (unlikely(!p)) goto fail; p->header.ref_count = 1; p->is_wide_char = str->is_wide_char; p->len = str->len; #ifdef DUMP_LEAKS list_add_tail(&p->link, &rt->string_list); #endif memcpy(p->u.str8, str->u.str8, (str->len << str->is_wide_char) + 1 - str->is_wide_char); js_free_string(rt, str); } } else { p = js_malloc_rt(rt, sizeof(JSAtomStruct)); /* empty wide string */ if (!p) return JS_ATOM_NULL; p->header.ref_count = 1; p->is_wide_char = 1; /* Hack to represent NULL as a JSString */ p->len = 0; #ifdef DUMP_LEAKS list_add_tail(&p->link, &rt->string_list); #endif } /* use an already free entry */ i = rt->atom_free_index; rt->atom_free_index = atom_get_free(rt->atom_array[i]); rt->atom_array[i] = p; p->hash = h; p->hash_next = i; /* atom_index */ p->atom_type = atom_type; p->first_weak_ref = NULL; rt->atom_count++; if (atom_type != JS_ATOM_TYPE_SYMBOL) { p->hash_next = rt->atom_hash[h1]; rt->atom_hash[h1] = i; if (unlikely(rt->atom_count >= rt->atom_count_resize)) JS_ResizeAtomHash(rt, rt->atom_hash_size * 2); } // JS_DumpAtoms(rt); return i; fail: i = JS_ATOM_NULL; done: if (str) js_free_string(rt, str); return i; } // XXX: `str` must be pure ASCII. No UTF-8 encoded strings // XXX: `str` must not be the string representation of a small integer static JSAtom __JS_NewAtomInit(JSRuntime *rt, const char *str, int len, int atom_type) { JSString *p; p = js_alloc_string_rt(rt, len, 0); if (!p) return JS_ATOM_NULL; memcpy(p->u.str8, str, len); p->u.str8[len] = '\0'; return __JS_NewAtom(rt, p, atom_type); } // XXX: `str` must be raw 8-bit contents. No UTF-8 encoded strings static JSAtom __JS_FindAtom(JSRuntime *rt, const char *str, size_t len, int atom_type) { uint32_t h, h1, i; JSAtomStruct *p; h = hash_string8((const uint8_t *)str, len, JS_ATOM_TYPE_STRING); h &= JS_ATOM_HASH_MASK; h1 = h & (rt->atom_hash_size - 1); i = rt->atom_hash[h1]; while (i != 0) { p = rt->atom_array[i]; if (p->hash == h && p->atom_type == JS_ATOM_TYPE_STRING && p->len == len && p->is_wide_char == 0 && memcmp(p->u.str8, str, len) == 0) { if (!__JS_AtomIsConst(i)) p->header.ref_count++; return i; } i = p->hash_next; } return JS_ATOM_NULL; } static void JS_FreeAtomStruct(JSRuntime *rt, JSAtomStruct *p) { uint32_t i = p->hash_next; /* atom_index */ if (p->atom_type != JS_ATOM_TYPE_SYMBOL) { JSAtomStruct *p0, *p1; uint32_t h0; h0 = p->hash & (rt->atom_hash_size - 1); i = rt->atom_hash[h0]; p1 = rt->atom_array[i]; if (p1 == p) { rt->atom_hash[h0] = p1->hash_next; } else { for(;;) { assert(i != 0); p0 = p1; i = p1->hash_next; p1 = rt->atom_array[i]; if (p1 == p) { p0->hash_next = p1->hash_next; break; } } } } /* insert in free atom list */ rt->atom_array[i] = atom_set_free(rt->atom_free_index); rt->atom_free_index = i; if (unlikely(p->first_weak_ref)) { reset_weak_ref(rt, &p->first_weak_ref); } /* free the string structure */ #ifdef DUMP_LEAKS list_del(&p->link); #endif js_free_rt(rt, p); rt->atom_count--; assert(rt->atom_count >= 0); } static void __JS_FreeAtom(JSRuntime *rt, uint32_t i) { JSAtomStruct *p; p = rt->atom_array[i]; if (--p->header.ref_count > 0) return; JS_FreeAtomStruct(rt, p); } /* Warning: 'p' is freed */ static JSAtom JS_NewAtomStr(JSContext *ctx, JSString *p) { JSRuntime *rt = ctx->rt; uint32_t n; if (is_num_string(&n, p)) { if (n <= JS_ATOM_MAX_INT) { js_free_string(rt, p); return __JS_AtomFromUInt32(n); } } /* XXX: should generate an exception */ return __JS_NewAtom(rt, p, JS_ATOM_TYPE_STRING); } /* `str` may be pure ASCII or UTF-8 encoded */ JSAtom JS_NewAtomLen(JSContext *ctx, const char *str, size_t len) { JSValue val; if (len == 0 || !is_digit(*str)) { // TODO(chqrlie): this does not work if `str` has UTF-8 encoded contents // bug example: `({ "\u00c3\u00a9": 1 }).\u00e9` evaluates to `1`. JSAtom atom = __JS_FindAtom(ctx->rt, str, len, JS_ATOM_TYPE_STRING); if (atom) return atom; } val = JS_NewStringLen(ctx, str, len); if (JS_IsException(val)) return JS_ATOM_NULL; return JS_NewAtomStr(ctx, JS_VALUE_GET_STRING(val)); } /* `str` may be pure ASCII or UTF-8 encoded */ JSAtom JS_NewAtom(JSContext *ctx, const char *str) { return JS_NewAtomLen(ctx, str, strlen(str)); } JSAtom JS_NewAtomUInt32(JSContext *ctx, uint32_t n) { if (n <= JS_ATOM_MAX_INT) { return __JS_AtomFromUInt32(n); } else { char buf[16]; size_t len = u32toa(buf, n); JSValue val = js_new_string8_len(ctx, buf, len); if (JS_IsException(val)) return JS_ATOM_NULL; return __JS_NewAtom(ctx->rt, JS_VALUE_GET_STRING(val), JS_ATOM_TYPE_STRING); } } static JSAtom JS_NewAtomInt64(JSContext *ctx, int64_t n) { if ((uint64_t)n <= JS_ATOM_MAX_INT) { return __JS_AtomFromUInt32((uint32_t)n); } else { char buf[24]; size_t len = i64toa(buf, n); JSValue val = js_new_string8_len(ctx, buf, len); if (JS_IsException(val)) return JS_ATOM_NULL; return __JS_NewAtom(ctx->rt, JS_VALUE_GET_STRING(val), JS_ATOM_TYPE_STRING); } } /* 'p' is freed */ static JSValue JS_NewSymbolInternal(JSContext *ctx, JSString *p, int atom_type) { JSRuntime *rt = ctx->rt; JSAtom atom; atom = __JS_NewAtom(rt, p, atom_type); if (atom == JS_ATOM_NULL) return JS_ThrowOutOfMemory(ctx); return JS_MKPTR(JS_TAG_SYMBOL, rt->atom_array[atom]); } /* descr must be a non-numeric string atom */ static JSValue JS_NewSymbolFromAtom(JSContext *ctx, JSAtom descr, int atom_type) { JSRuntime *rt = ctx->rt; JSString *p; assert(!__JS_AtomIsTaggedInt(descr)); assert(descr < rt->atom_size); p = rt->atom_array[descr]; js_dup(JS_MKPTR(JS_TAG_STRING, p)); return JS_NewSymbolInternal(ctx, p, atom_type); } /* `description` may be pure ASCII or UTF-8 encoded */ JSValue JS_NewSymbol(JSContext *ctx, const char *description, JS_BOOL is_global) { JSAtom atom = JS_NewAtom(ctx, description); if (atom == JS_ATOM_NULL) return JS_EXCEPTION; return JS_NewSymbolFromAtom(ctx, atom, is_global ? JS_ATOM_TYPE_GLOBAL_SYMBOL : JS_ATOM_TYPE_SYMBOL); } #define ATOM_GET_STR_BUF_SIZE 64 /* Should only be used for debug. */ static const char *JS_AtomGetStrRT(JSRuntime *rt, char *buf, int buf_size, JSAtom atom) { if (__JS_AtomIsTaggedInt(atom)) { snprintf(buf, buf_size, "%u", __JS_AtomToUInt32(atom)); } else if (atom == JS_ATOM_NULL) { snprintf(buf, buf_size, ""); } else if (atom >= rt->atom_size) { assert(atom < rt->atom_size); snprintf(buf, buf_size, "", atom); } else { JSAtomStruct *p = rt->atom_array[atom]; *buf = '\0'; if (atom_is_free(p)) { assert(!atom_is_free(p)); snprintf(buf, buf_size, "", atom); } else if (p != NULL) { JSString *str = p; if (str->is_wide_char) { /* encode surrogates correctly */ utf8_encode_buf16(buf, buf_size, str->u.str16, str->len); } else { /* special case ASCII strings */ int i, c = 0; for(i = 0; i < str->len; i++) { c |= str->u.str8[i]; } if (c < 0x80) return (const char *)str->u.str8; utf8_encode_buf8(buf, buf_size, str->u.str8, str->len); } } } return buf; } static const char *JS_AtomGetStr(JSContext *ctx, char *buf, int buf_size, JSAtom atom) { return JS_AtomGetStrRT(ctx->rt, buf, buf_size, atom); } static JSValue __JS_AtomToValue(JSContext *ctx, JSAtom atom, BOOL force_string) { char buf[ATOM_GET_STR_BUF_SIZE]; if (__JS_AtomIsTaggedInt(atom)) { size_t len = u32toa(buf, __JS_AtomToUInt32(atom)); return js_new_string8_len(ctx, buf, len); } else { JSRuntime *rt = ctx->rt; JSAtomStruct *p; assert(atom < rt->atom_size); p = rt->atom_array[atom]; if (p->atom_type == JS_ATOM_TYPE_STRING) { goto ret_string; } else if (force_string) { if (p->len == 0 && p->is_wide_char != 0) { /* no description string */ p = rt->atom_array[JS_ATOM_empty_string]; } ret_string: return js_dup(JS_MKPTR(JS_TAG_STRING, p)); } else { return js_dup(JS_MKPTR(JS_TAG_SYMBOL, p)); } } } JSValue JS_AtomToValue(JSContext *ctx, JSAtom atom) { return __JS_AtomToValue(ctx, atom, FALSE); } JSValue JS_AtomToString(JSContext *ctx, JSAtom atom) { return __JS_AtomToValue(ctx, atom, TRUE); } /* return TRUE if the atom is an array index (i.e. 0 <= index <= 2^32-2 and return its value */ static BOOL JS_AtomIsArrayIndex(JSContext *ctx, uint32_t *pval, JSAtom atom) { if (__JS_AtomIsTaggedInt(atom)) { *pval = __JS_AtomToUInt32(atom); return TRUE; } else { JSRuntime *rt = ctx->rt; JSAtomStruct *p; uint32_t val; assert(atom < rt->atom_size); p = rt->atom_array[atom]; if (p->atom_type == JS_ATOM_TYPE_STRING && is_num_string(&val, p) && val != -1) { *pval = val; return TRUE; } else { *pval = 0; return FALSE; } } } /* This test must be fast if atom is not a numeric index (e.g. a method name). Return JS_UNDEFINED if not a numeric index. JS_EXCEPTION can also be returned. */ static JSValue JS_AtomIsNumericIndex1(JSContext *ctx, JSAtom atom) { JSRuntime *rt = ctx->rt; JSAtomStruct *p1; JSString *p; int c, len, ret; JSValue num, str; if (__JS_AtomIsTaggedInt(atom)) return js_int32(__JS_AtomToUInt32(atom)); assert(atom < rt->atom_size); p1 = rt->atom_array[atom]; if (p1->atom_type != JS_ATOM_TYPE_STRING) return JS_UNDEFINED; p = p1; len = p->len; if (p->is_wide_char) { const uint16_t *r = p->u.str16, *r_end = p->u.str16 + len; if (r >= r_end) return JS_UNDEFINED; c = *r; if (c == '-') { if (r >= r_end) return JS_UNDEFINED; r++; c = *r; /* -0 case is specific */ if (c == '0' && len == 2) goto minus_zero; } /* XXX: should test NaN, but the tests do not check it */ if (!is_num(c)) { /* XXX: String should be normalized, therefore 8-bit only */ const uint16_t nfinity16[7] = { 'n', 'f', 'i', 'n', 'i', 't', 'y' }; if (!(c =='I' && (r_end - r) == 8 && !memcmp(r + 1, nfinity16, sizeof(nfinity16)))) return JS_UNDEFINED; } } else { const uint8_t *r = p->u.str8, *r_end = p->u.str8 + len; if (r >= r_end) return JS_UNDEFINED; c = *r; if (c == '-') { if (r >= r_end) return JS_UNDEFINED; r++; c = *r; /* -0 case is specific */ if (c == '0' && len == 2) { minus_zero: return js_float64(-0.0); } } if (!is_num(c)) { if (!(c =='I' && (r_end - r) == 8 && !memcmp(r + 1, "nfinity", 7))) return JS_UNDEFINED; } } /* this is ECMA CanonicalNumericIndexString primitive */ num = JS_ToNumber(ctx, JS_MKPTR(JS_TAG_STRING, p)); if (JS_IsException(num)) return num; str = JS_ToString(ctx, num); if (JS_IsException(str)) { JS_FreeValue(ctx, num); return str; } ret = js_string_compare(ctx, p, JS_VALUE_GET_STRING(str)); JS_FreeValue(ctx, str); if (ret == 0) { return num; } else { JS_FreeValue(ctx, num); return JS_UNDEFINED; } } /* return -1 if exception or TRUE/FALSE */ static int JS_AtomIsNumericIndex(JSContext *ctx, JSAtom atom) { JSValue num; num = JS_AtomIsNumericIndex1(ctx, atom); if (likely(JS_IsUndefined(num))) return FALSE; if (JS_IsException(num)) return -1; JS_FreeValue(ctx, num); return TRUE; } void JS_FreeAtom(JSContext *ctx, JSAtom v) { if (!__JS_AtomIsConst(v)) __JS_FreeAtom(ctx->rt, v); } void JS_FreeAtomRT(JSRuntime *rt, JSAtom v) { if (!__JS_AtomIsConst(v)) __JS_FreeAtom(rt, v); } /* return TRUE if 'v' is a symbol with a string description */ static BOOL JS_AtomSymbolHasDescription(JSContext *ctx, JSAtom v) { JSRuntime *rt; JSAtomStruct *p; rt = ctx->rt; if (__JS_AtomIsTaggedInt(v)) return FALSE; p = rt->atom_array[v]; return (((p->atom_type == JS_ATOM_TYPE_SYMBOL && p->hash == JS_ATOM_HASH_SYMBOL) || p->atom_type == JS_ATOM_TYPE_GLOBAL_SYMBOL) && !(p->len == 0 && p->is_wide_char != 0)); } static __maybe_unused void print_atom(JSContext *ctx, JSAtom atom) { char buf[ATOM_GET_STR_BUF_SIZE]; const char *p; int i; /* XXX: should handle embedded null characters */ /* XXX: should move encoding code to JS_AtomGetStr */ p = JS_AtomGetStr(ctx, buf, sizeof(buf), atom); for (i = 0; p[i]; i++) { int c = (unsigned char)p[i]; if (!((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (c == '_' || c == '$') || (c >= '0' && c <= '9' && i > 0))) break; } if (i > 0 && p[i] == '\0') { printf("%s", p); } else { putchar('"'); printf("%.*s", i, p); for (; p[i]; i++) { int c = (unsigned char)p[i]; if (c == '\"' || c == '\\') { putchar('\\'); putchar(c); } else if (c >= ' ' && c <= 126) { putchar(c); } else if (c == '\n') { putchar('\\'); putchar('n'); } else { printf("\\u%04x", c); } } putchar('\"'); } } /* free with JS_FreeCString() */ const char *JS_AtomToCString(JSContext *ctx, JSAtom atom) { JSValue str; const char *cstr; str = JS_AtomToString(ctx, atom); if (JS_IsException(str)) return NULL; cstr = JS_ToCString(ctx, str); JS_FreeValue(ctx, str); return cstr; } /* return a string atom containing name concatenated with str1 */ /* `str1` may be pure ASCII or UTF-8 encoded */ // TODO(chqrlie): use string concatenation instead of UTF-8 conversion static JSAtom js_atom_concat_str(JSContext *ctx, JSAtom name, const char *str1) { JSValue str; JSAtom atom; const char *cstr; char *cstr2; size_t len, len1; str = JS_AtomToString(ctx, name); if (JS_IsException(str)) return JS_ATOM_NULL; cstr = JS_ToCStringLen(ctx, &len, str); if (!cstr) goto fail; len1 = strlen(str1); cstr2 = js_malloc(ctx, len + len1 + 1); if (!cstr2) goto fail; memcpy(cstr2, cstr, len); memcpy(cstr2 + len, str1, len1); cstr2[len + len1] = '\0'; atom = JS_NewAtomLen(ctx, cstr2, len + len1); js_free(ctx, cstr2); JS_FreeCString(ctx, cstr); JS_FreeValue(ctx, str); return atom; fail: JS_FreeCString(ctx, cstr); JS_FreeValue(ctx, str); return JS_ATOM_NULL; } static JSAtom js_atom_concat_num(JSContext *ctx, JSAtom name, uint32_t n) { char buf[16]; u32toa(buf, n); return js_atom_concat_str(ctx, name, buf); } static inline BOOL JS_IsEmptyString(JSValue v) { return JS_VALUE_GET_TAG(v) == JS_TAG_STRING && JS_VALUE_GET_STRING(v)->len == 0; } /* JSClass support */ /* a new class ID is allocated if *pclass_id != 0 */ JSClassID JS_NewClassID(JSRuntime *rt, JSClassID *pclass_id) { JSClassID class_id = *pclass_id; if (class_id == 0) { class_id = rt->js_class_id_alloc++; *pclass_id = class_id; } return class_id; } JSClassID JS_GetClassID(JSValue v) { JSObject *p; if (JS_VALUE_GET_TAG(v) != JS_TAG_OBJECT) return JS_INVALID_CLASS_ID; p = JS_VALUE_GET_OBJ(v); return p->class_id; } BOOL JS_IsRegisteredClass(JSRuntime *rt, JSClassID class_id) { return (class_id < rt->class_count && rt->class_array[class_id].class_id != 0); } /* create a new object internal class. Return -1 if error, 0 if OK. The finalizer can be NULL if none is needed. */ static int JS_NewClass1(JSRuntime *rt, JSClassID class_id, const JSClassDef *class_def, JSAtom name) { int new_size, i; JSClass *cl, *new_class_array; struct list_head *el; if (class_id >= (1 << 16)) return -1; if (class_id < rt->class_count && rt->class_array[class_id].class_id != 0) return -1; if (class_id >= rt->class_count) { new_size = max_int(JS_CLASS_INIT_COUNT, max_int(class_id + 1, rt->class_count * 3 / 2)); /* reallocate the context class prototype array, if any */ list_for_each(el, &rt->context_list) { JSContext *ctx = list_entry(el, JSContext, link); JSValue *new_tab; new_tab = js_realloc_rt(rt, ctx->class_proto, sizeof(ctx->class_proto[0]) * new_size); if (!new_tab) return -1; for(i = rt->class_count; i < new_size; i++) new_tab[i] = JS_NULL; ctx->class_proto = new_tab; } /* reallocate the class array */ new_class_array = js_realloc_rt(rt, rt->class_array, sizeof(JSClass) * new_size); if (!new_class_array) return -1; memset(new_class_array + rt->class_count, 0, (new_size - rt->class_count) * sizeof(JSClass)); rt->class_array = new_class_array; rt->class_count = new_size; } cl = &rt->class_array[class_id]; cl->class_id = class_id; cl->class_name = JS_DupAtomRT(rt, name); cl->finalizer = class_def->finalizer; cl->gc_mark = class_def->gc_mark; cl->call = class_def->call; cl->exotic = class_def->exotic; return 0; } int JS_NewClass(JSRuntime *rt, JSClassID class_id, const JSClassDef *class_def) { int ret, len; JSAtom name; // XXX: class_def->class_name must be raw 8-bit contents. No UTF-8 encoded strings len = strlen(class_def->class_name); name = __JS_FindAtom(rt, class_def->class_name, len, JS_ATOM_TYPE_STRING); if (name == JS_ATOM_NULL) { name = __JS_NewAtomInit(rt, class_def->class_name, len, JS_ATOM_TYPE_STRING); if (name == JS_ATOM_NULL) return -1; } ret = JS_NewClass1(rt, class_id, class_def, name); JS_FreeAtomRT(rt, name); return ret; } // XXX: `buf` contains raw 8-bit data, no UTF-8 decoding is performed // XXX: no special case for len == 0 static JSValue js_new_string8_len(JSContext *ctx, const char *buf, int len) { JSString *str; str = js_alloc_string(ctx, len, 0); if (!str) return JS_EXCEPTION; memcpy(str->u.str8, buf, len); str->u.str8[len] = '\0'; return JS_MKPTR(JS_TAG_STRING, str); } // XXX: `buf` contains raw 8-bit data, no UTF-8 decoding is performed // XXX: no special case for the empty string static inline JSValue js_new_string8(JSContext *ctx, const char *str) { return js_new_string8_len(ctx, str, strlen(str)); } static JSValue js_new_string16_len(JSContext *ctx, const uint16_t *buf, int len) { JSString *str; str = js_alloc_string(ctx, len, 1); if (!str) return JS_EXCEPTION; memcpy(str->u.str16, buf, len * 2); return JS_MKPTR(JS_TAG_STRING, str); } static JSValue js_new_string_char(JSContext *ctx, uint16_t c) { if (c < 0x100) { char ch8 = c; return js_new_string8_len(ctx, &ch8, 1); } else { uint16_t ch16 = c; return js_new_string16_len(ctx, &ch16, 1); } } static JSValue js_sub_string(JSContext *ctx, JSString *p, int start, int end) { int len = end - start; if (start == 0 && end == p->len) { return js_dup(JS_MKPTR(JS_TAG_STRING, p)); } if (len <= 0) { return JS_AtomToString(ctx, JS_ATOM_empty_string); } if (p->is_wide_char) { JSString *str; int i; uint16_t c = 0; for (i = start; i < end; i++) { c |= p->u.str16[i]; } if (c > 0xFF) return js_new_string16_len(ctx, p->u.str16 + start, len); str = js_alloc_string(ctx, len, 0); if (!str) return JS_EXCEPTION; for (i = 0; i < len; i++) { str->u.str8[i] = p->u.str16[start + i]; } str->u.str8[len] = '\0'; return JS_MKPTR(JS_TAG_STRING, str); } else { return js_new_string8_len(ctx, (const char *)(p->u.str8 + start), len); } } typedef struct StringBuffer { JSContext *ctx; JSString *str; int len; int size; int is_wide_char; int error_status; } StringBuffer; /* It is valid to call string_buffer_end() and all string_buffer functions even if string_buffer_init() or another string_buffer function returns an error. If the error_status is set, string_buffer_end() returns JS_EXCEPTION. */ static int string_buffer_init2(JSContext *ctx, StringBuffer *s, int size, int is_wide) { s->ctx = ctx; s->size = size; s->len = 0; s->is_wide_char = is_wide; s->error_status = 0; s->str = js_alloc_string(ctx, size, is_wide); if (unlikely(!s->str)) { s->size = 0; return s->error_status = -1; } #ifdef DUMP_LEAKS /* the StringBuffer may reallocate the JSString, only link it at the end */ list_del(&s->str->link); #endif return 0; } static inline int string_buffer_init(JSContext *ctx, StringBuffer *s, int size) { return string_buffer_init2(ctx, s, size, 0); } static void string_buffer_free(StringBuffer *s) { js_free(s->ctx, s->str); s->str = NULL; } static int string_buffer_set_error(StringBuffer *s) { js_free(s->ctx, s->str); s->str = NULL; s->size = 0; s->len = 0; return s->error_status = -1; } static no_inline int string_buffer_widen(StringBuffer *s, int size) { JSString *str; size_t slack; int i; if (s->error_status) return -1; str = js_realloc2(s->ctx, s->str, sizeof(JSString) + (size << 1), &slack); if (!str) return string_buffer_set_error(s); size += slack >> 1; for(i = s->len; i-- > 0;) { str->u.str16[i] = str->u.str8[i]; } s->is_wide_char = 1; s->size = size; s->str = str; return 0; } static no_inline int string_buffer_realloc(StringBuffer *s, int new_len, int c) { JSString *new_str; int new_size; size_t new_size_bytes, slack; if (s->error_status) return -1; if (new_len > JS_STRING_LEN_MAX) { JS_ThrowRangeError(s->ctx, "invalid string length"); return string_buffer_set_error(s); } new_size = min_int(max_int(new_len, s->size * 3 / 2), JS_STRING_LEN_MAX); if (!s->is_wide_char && c >= 0x100) { return string_buffer_widen(s, new_size); } new_size_bytes = sizeof(JSString) + (new_size << s->is_wide_char) + 1 - s->is_wide_char; new_str = js_realloc2(s->ctx, s->str, new_size_bytes, &slack); if (!new_str) return string_buffer_set_error(s); new_size = min_int(new_size + (slack >> s->is_wide_char), JS_STRING_LEN_MAX); s->size = new_size; s->str = new_str; return 0; } static no_inline int string_buffer_putc_slow(StringBuffer *s, uint32_t c) { if (unlikely(s->len >= s->size)) { if (string_buffer_realloc(s, s->len + 1, c)) return -1; } if (s->is_wide_char) { s->str->u.str16[s->len++] = c; } else if (c < 0x100) { s->str->u.str8[s->len++] = c; } else { if (string_buffer_widen(s, s->size)) return -1; s->str->u.str16[s->len++] = c; } return 0; } /* 0 <= c <= 0xff */ static int string_buffer_putc8(StringBuffer *s, uint32_t c) { if (unlikely(s->len >= s->size)) { if (string_buffer_realloc(s, s->len + 1, c)) return -1; } if (s->is_wide_char) { s->str->u.str16[s->len++] = c; } else { s->str->u.str8[s->len++] = c; } return 0; } /* 0 <= c <= 0xffff */ static int string_buffer_putc16(StringBuffer *s, uint32_t c) { if (likely(s->len < s->size)) { if (s->is_wide_char) { s->str->u.str16[s->len++] = c; return 0; } else if (c < 0x100) { s->str->u.str8[s->len++] = c; return 0; } } return string_buffer_putc_slow(s, c); } /* 0 <= c <= 0x10ffff */ static int string_buffer_putc(StringBuffer *s, uint32_t c) { if (unlikely(c >= 0x10000)) { /* surrogate pair */ if (string_buffer_putc16(s, get_hi_surrogate(c))) return -1; c = get_lo_surrogate(c); } return string_buffer_putc16(s, c); } static int string_getc(const JSString *p, int *pidx) { int idx, c, c1; idx = *pidx; if (p->is_wide_char) { c = p->u.str16[idx++]; if (is_hi_surrogate(c) && idx < p->len) { c1 = p->u.str16[idx]; if (is_lo_surrogate(c1)) { c = from_surrogate(c, c1); idx++; } } } else { c = p->u.str8[idx++]; } *pidx = idx; return c; } static int string_buffer_write8(StringBuffer *s, const uint8_t *p, int len) { int i; if (s->len + len > s->size) { if (string_buffer_realloc(s, s->len + len, 0)) return -1; } if (s->is_wide_char) { for (i = 0; i < len; i++) { s->str->u.str16[s->len + i] = p[i]; } s->len += len; } else { memcpy(&s->str->u.str8[s->len], p, len); s->len += len; } return 0; } static int string_buffer_write16(StringBuffer *s, const uint16_t *p, int len) { int c = 0, i; for (i = 0; i < len; i++) { c |= p[i]; } if (s->len + len > s->size) { if (string_buffer_realloc(s, s->len + len, c)) return -1; } else if (!s->is_wide_char && c >= 0x100) { if (string_buffer_widen(s, s->size)) return -1; } if (s->is_wide_char) { memcpy(&s->str->u.str16[s->len], p, len << 1); s->len += len; } else { for (i = 0; i < len; i++) { s->str->u.str8[s->len + i] = p[i]; } s->len += len; } return 0; } /* appending an ASCII string */ static int string_buffer_puts8(StringBuffer *s, const char *str) { return string_buffer_write8(s, (const uint8_t *)str, strlen(str)); } static int string_buffer_concat(StringBuffer *s, const JSString *p, uint32_t from, uint32_t to) { if (to <= from) return 0; if (p->is_wide_char) return string_buffer_write16(s, p->u.str16 + from, to - from); else return string_buffer_write8(s, p->u.str8 + from, to - from); } static int string_buffer_concat_value(StringBuffer *s, JSValue v) { JSString *p; JSValue v1; int res; if (s->error_status) { /* prevent exception overload */ return -1; } if (unlikely(JS_VALUE_GET_TAG(v) != JS_TAG_STRING)) { v1 = JS_ToString(s->ctx, v); if (JS_IsException(v1)) return string_buffer_set_error(s); p = JS_VALUE_GET_STRING(v1); res = string_buffer_concat(s, p, 0, p->len); JS_FreeValue(s->ctx, v1); return res; } p = JS_VALUE_GET_STRING(v); return string_buffer_concat(s, p, 0, p->len); } static int string_buffer_concat_value_free(StringBuffer *s, JSValue v) { JSString *p; int res; if (s->error_status) { /* prevent exception overload */ JS_FreeValue(s->ctx, v); return -1; } if (unlikely(JS_VALUE_GET_TAG(v) != JS_TAG_STRING)) { v = JS_ToStringFree(s->ctx, v); if (JS_IsException(v)) return string_buffer_set_error(s); } p = JS_VALUE_GET_STRING(v); res = string_buffer_concat(s, p, 0, p->len); JS_FreeValue(s->ctx, v); return res; } static int string_buffer_fill(StringBuffer *s, int c, int count) { /* XXX: optimize */ if (s->len + count > s->size) { if (string_buffer_realloc(s, s->len + count, c)) return -1; } while (count-- > 0) { if (string_buffer_putc16(s, c)) return -1; } return 0; } static JSValue string_buffer_end(StringBuffer *s) { JSString *str; str = s->str; if (s->error_status) return JS_EXCEPTION; if (s->len == 0) { js_free(s->ctx, str); s->str = NULL; return JS_AtomToString(s->ctx, JS_ATOM_empty_string); } if (s->len < s->size) { /* smaller size so js_realloc should not fail, but OK if it does */ /* XXX: should add some slack to avoid unnecessary calls */ /* XXX: might need to use malloc+free to ensure smaller size */ str = js_realloc_rt(s->ctx->rt, str, sizeof(JSString) + (s->len << s->is_wide_char) + 1 - s->is_wide_char); if (str == NULL) str = s->str; s->str = str; } if (!s->is_wide_char) str->u.str8[s->len] = 0; #ifdef DUMP_LEAKS list_add_tail(&str->link, &s->ctx->rt->string_list); #endif str->is_wide_char = s->is_wide_char; str->len = s->len; s->str = NULL; return JS_MKPTR(JS_TAG_STRING, str); } /* create a string from a UTF-8 buffer */ JSValue JS_NewStringLen(JSContext *ctx, const char *buf, size_t buf_len) { JSString *str; size_t len; int kind; if (buf_len <= 0) { return JS_AtomToString(ctx, JS_ATOM_empty_string); } /* Compute string kind and length: 7-bit, 8-bit, 16-bit, 16-bit UTF-16 */ kind = utf8_scan(buf, buf_len, &len); if (len > JS_STRING_LEN_MAX) return JS_ThrowRangeError(ctx, "invalid string length"); switch (kind) { case UTF8_PLAIN_ASCII: str = js_alloc_string(ctx, len, 0); if (!str) return JS_EXCEPTION; memcpy(str->u.str8, buf, len); str->u.str8[len] = '\0'; break; case UTF8_NON_ASCII: /* buf contains non-ASCII code-points, but limited to 8-bit values */ str = js_alloc_string(ctx, len, 0); if (!str) return JS_EXCEPTION; utf8_decode_buf8(str->u.str8, len + 1, buf, buf_len); break; default: // This causes a potential problem in JS_ThrowError if message is invalid //if (kind & UTF8_HAS_ERRORS) // return JS_ThrowRangeError(ctx, "invalid UTF-8 sequence"); str = js_alloc_string(ctx, len, 1); if (!str) return JS_EXCEPTION; utf8_decode_buf16(str->u.str16, len, buf, buf_len); break; } return JS_MKPTR(JS_TAG_STRING, str); } static JSValue JS_ConcatString3(JSContext *ctx, const char *str1, JSValue str2, const char *str3) { StringBuffer b_s, *b = &b_s; int len1, len3; JSString *p; if (unlikely(JS_VALUE_GET_TAG(str2) != JS_TAG_STRING)) { str2 = JS_ToStringFree(ctx, str2); if (JS_IsException(str2)) goto fail; } p = JS_VALUE_GET_STRING(str2); len1 = strlen(str1); len3 = strlen(str3); if (string_buffer_init2(ctx, b, len1 + p->len + len3, p->is_wide_char)) goto fail; string_buffer_write8(b, (const uint8_t *)str1, len1); string_buffer_concat(b, p, 0, p->len); string_buffer_write8(b, (const uint8_t *)str3, len3); JS_FreeValue(ctx, str2); return string_buffer_end(b); fail: JS_FreeValue(ctx, str2); return JS_EXCEPTION; } /* `str` may be pure ASCII or UTF-8 encoded */ JSValue JS_NewAtomString(JSContext *ctx, const char *str) { JSAtom atom = JS_NewAtom(ctx, str); if (atom == JS_ATOM_NULL) return JS_EXCEPTION; JSValue val = JS_AtomToString(ctx, atom); JS_FreeAtom(ctx, atom); return val; } /* return (NULL, 0) if exception. */ /* return pointer into a JSString with a live ref_count */ /* cesu8 determines if non-BMP1 codepoints are encoded as 1 or 2 utf-8 sequences */ const char *JS_ToCStringLen2(JSContext *ctx, size_t *plen, JSValue val1, BOOL cesu8) { JSValue val; JSString *str, *str_new; int pos, len, c, c1; JSObject *p; uint8_t *q; if (JS_VALUE_GET_TAG(val1) == JS_TAG_STRING) { val = js_dup(val1); goto go; } val = JS_ToString(ctx, val1); if (!JS_IsException(val)) goto go; // Stringification can fail when there is an exception pending, // e.g. a stack overflow InternalError. Special-case exception // objects to make debugging easier, look up the .message property // and stringify that. if (JS_VALUE_GET_TAG(val1) != JS_TAG_OBJECT) goto fail; p = JS_VALUE_GET_OBJ(val1); if (p->class_id != JS_CLASS_ERROR) goto fail; val = JS_GetProperty(ctx, val1, JS_ATOM_message); if (JS_VALUE_GET_TAG(val) != JS_TAG_STRING) { JS_FreeValue(ctx, val); goto fail; } go: str = JS_VALUE_GET_STRING(val); len = str->len; if (!str->is_wide_char) { const uint8_t *src = str->u.str8; int count; /* count the number of non-ASCII characters */ /* Scanning the whole string is required for ASCII strings, and computing the number of non-ASCII bytes is less expensive than testing each byte, hence this method is faster for ASCII strings, which is the most common case. */ count = 0; for (pos = 0; pos < len; pos++) { count += src[pos] >> 7; } if (count == 0) { if (plen) *plen = len; return (const char *)src; } str_new = js_alloc_string(ctx, len + count, 0); if (!str_new) goto fail; q = str_new->u.str8; for (pos = 0; pos < len; pos++) { c = src[pos]; if (c < 0x80) { *q++ = c; } else { *q++ = (c >> 6) | 0xc0; *q++ = (c & 0x3f) | 0x80; } } } else { const uint16_t *src = str->u.str16; /* Allocate 3 bytes per 16 bit code point. Surrogate pairs may produce 4 bytes but use 2 code points. */ str_new = js_alloc_string(ctx, len * 3, 0); if (!str_new) goto fail; q = str_new->u.str8; pos = 0; while (pos < len) { c = src[pos++]; if (c < 0x80) { *q++ = c; } else { if (is_hi_surrogate(c)) { if (pos < len && !cesu8) { c1 = src[pos]; if (is_lo_surrogate(c1)) { pos++; c = from_surrogate(c, c1); } else { /* Keep unmatched surrogate code points */ /* c = 0xfffd; */ /* error */ } } else { /* Keep unmatched surrogate code points */ /* c = 0xfffd; */ /* error */ } } q += utf8_encode(q, c); } } } *q = '\0'; str_new->len = q - str_new->u.str8; JS_FreeValue(ctx, val); if (plen) *plen = str_new->len; return (const char *)str_new->u.str8; fail: if (plen) *plen = 0; return NULL; } void JS_FreeCString(JSContext *ctx, const char *ptr) { JSString *p; if (!ptr) return; /* purposely removing constness */ p = container_of(ptr, JSString, u); JS_FreeValue(ctx, JS_MKPTR(JS_TAG_STRING, p)); } static int memcmp16_8(const uint16_t *src1, const uint8_t *src2, int len) { int c, i; for(i = 0; i < len; i++) { c = src1[i] - src2[i]; if (c != 0) return c; } return 0; } static int memcmp16(const uint16_t *src1, const uint16_t *src2, int len) { int c, i; for(i = 0; i < len; i++) { c = src1[i] - src2[i]; if (c != 0) return c; } return 0; } static int js_string_memcmp(const JSString *p1, const JSString *p2, int len) { int res; if (likely(!p1->is_wide_char)) { if (likely(!p2->is_wide_char)) res = memcmp(p1->u.str8, p2->u.str8, len); else res = -memcmp16_8(p2->u.str16, p1->u.str8, len); } else { if (!p2->is_wide_char) res = memcmp16_8(p1->u.str16, p2->u.str8, len); else res = memcmp16(p1->u.str16, p2->u.str16, len); } return res; } /* return < 0, 0 or > 0 */ static int js_string_compare(JSContext *ctx, const JSString *p1, const JSString *p2) { int res, len; len = min_int(p1->len, p2->len); res = js_string_memcmp(p1, p2, len); if (res == 0) res = compare_u32(p1->len, p2->len); return res; } static void copy_str16(uint16_t *dst, const JSString *p, int offset, int len) { if (p->is_wide_char) { memcpy(dst, p->u.str16 + offset, len * 2); } else { const uint8_t *src1 = p->u.str8 + offset; int i; for(i = 0; i < len; i++) dst[i] = src1[i]; } } static JSValue JS_ConcatString1(JSContext *ctx, const JSString *p1, const JSString *p2) { JSString *p; uint32_t len; int is_wide_char; len = p1->len + p2->len; if (len > JS_STRING_LEN_MAX) return JS_ThrowRangeError(ctx, "invalid string length"); is_wide_char = p1->is_wide_char | p2->is_wide_char; p = js_alloc_string(ctx, len, is_wide_char); if (!p) return JS_EXCEPTION; if (!is_wide_char) { memcpy(p->u.str8, p1->u.str8, p1->len); memcpy(p->u.str8 + p1->len, p2->u.str8, p2->len); p->u.str8[len] = '\0'; } else { copy_str16(p->u.str16, p1, 0, p1->len); copy_str16(p->u.str16 + p1->len, p2, 0, p2->len); } return JS_MKPTR(JS_TAG_STRING, p); } /* op1 and op2 are converted to strings. For convience, op1 or op2 = JS_EXCEPTION are accepted and return JS_EXCEPTION. */ static JSValue JS_ConcatString(JSContext *ctx, JSValue op1, JSValue op2) { JSValue ret; JSString *p1, *p2; if (unlikely(JS_VALUE_GET_TAG(op1) != JS_TAG_STRING)) { op1 = JS_ToStringFree(ctx, op1); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); return JS_EXCEPTION; } } if (unlikely(JS_VALUE_GET_TAG(op2) != JS_TAG_STRING)) { op2 = JS_ToStringFree(ctx, op2); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); return JS_EXCEPTION; } } p1 = JS_VALUE_GET_STRING(op1); p2 = JS_VALUE_GET_STRING(op2); /* XXX: could also check if p1 is empty */ if (p2->len == 0) { goto ret_op1; } if (p1->header.ref_count == 1 && p1->is_wide_char == p2->is_wide_char && js_malloc_usable_size(ctx, p1) >= sizeof(*p1) + ((p1->len + p2->len) << p2->is_wide_char) + 1 - p1->is_wide_char) { /* Concatenate in place in available space at the end of p1 */ if (p1->is_wide_char) { memcpy(p1->u.str16 + p1->len, p2->u.str16, p2->len << 1); p1->len += p2->len; } else { memcpy(p1->u.str8 + p1->len, p2->u.str8, p2->len); p1->len += p2->len; p1->u.str8[p1->len] = '\0'; } ret_op1: JS_FreeValue(ctx, op2); return op1; } ret = JS_ConcatString1(ctx, p1, p2); JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); return ret; } /* Shape support */ static inline size_t get_shape_size(size_t hash_size, size_t prop_size) { return hash_size * sizeof(uint32_t) + sizeof(JSShape) + prop_size * sizeof(JSShapeProperty); } static inline JSShape *get_shape_from_alloc(void *sh_alloc, size_t hash_size) { return (JSShape *)(void *)((uint32_t *)sh_alloc + hash_size); } static inline uint32_t *prop_hash_end(JSShape *sh) { return (uint32_t *)sh; } static inline void *get_alloc_from_shape(JSShape *sh) { return prop_hash_end(sh) - ((intptr_t)sh->prop_hash_mask + 1); } static inline JSShapeProperty *get_shape_prop(JSShape *sh) { return sh->prop; } static int init_shape_hash(JSRuntime *rt) { rt->shape_hash_bits = 4; /* 16 shapes */ rt->shape_hash_size = 1 << rt->shape_hash_bits; rt->shape_hash_count = 0; rt->shape_hash = js_mallocz_rt(rt, sizeof(rt->shape_hash[0]) * rt->shape_hash_size); if (!rt->shape_hash) return -1; return 0; } /* same magic hash multiplier as the Linux kernel */ static uint32_t shape_hash(uint32_t h, uint32_t val) { return (h + val) * 0x9e370001; } /* truncate the shape hash to 'hash_bits' bits */ static uint32_t get_shape_hash(uint32_t h, int hash_bits) { return h >> (32 - hash_bits); } static uint32_t shape_initial_hash(JSObject *proto) { uint32_t h; h = shape_hash(1, (uintptr_t)proto); if (sizeof(proto) > 4) h = shape_hash(h, (uint64_t)(uintptr_t)proto >> 32); return h; } static int resize_shape_hash(JSRuntime *rt, int new_shape_hash_bits) { int new_shape_hash_size, i; uint32_t h; JSShape **new_shape_hash, *sh, *sh_next; new_shape_hash_size = 1 << new_shape_hash_bits; new_shape_hash = js_mallocz_rt(rt, sizeof(rt->shape_hash[0]) * new_shape_hash_size); if (!new_shape_hash) return -1; for(i = 0; i < rt->shape_hash_size; i++) { for(sh = rt->shape_hash[i]; sh != NULL; sh = sh_next) { sh_next = sh->shape_hash_next; h = get_shape_hash(sh->hash, new_shape_hash_bits); sh->shape_hash_next = new_shape_hash[h]; new_shape_hash[h] = sh; } } js_free_rt(rt, rt->shape_hash); rt->shape_hash_bits = new_shape_hash_bits; rt->shape_hash_size = new_shape_hash_size; rt->shape_hash = new_shape_hash; return 0; } static void js_shape_hash_link(JSRuntime *rt, JSShape *sh) { uint32_t h; h = get_shape_hash(sh->hash, rt->shape_hash_bits); sh->shape_hash_next = rt->shape_hash[h]; rt->shape_hash[h] = sh; rt->shape_hash_count++; } static void js_shape_hash_unlink(JSRuntime *rt, JSShape *sh) { uint32_t h; JSShape **psh; h = get_shape_hash(sh->hash, rt->shape_hash_bits); psh = &rt->shape_hash[h]; while (*psh != sh) psh = &(*psh)->shape_hash_next; *psh = sh->shape_hash_next; rt->shape_hash_count--; } /* create a new empty shape with prototype 'proto' */ static no_inline JSShape *js_new_shape2(JSContext *ctx, JSObject *proto, int hash_size, int prop_size) { JSRuntime *rt = ctx->rt; void *sh_alloc; JSShape *sh; /* resize the shape hash table if necessary */ if (2 * (rt->shape_hash_count + 1) > rt->shape_hash_size) { resize_shape_hash(rt, rt->shape_hash_bits + 1); } sh_alloc = js_malloc(ctx, get_shape_size(hash_size, prop_size)); if (!sh_alloc) return NULL; sh = get_shape_from_alloc(sh_alloc, hash_size); sh->header.ref_count = 1; add_gc_object(rt, &sh->header, JS_GC_OBJ_TYPE_SHAPE); if (proto) js_dup(JS_MKPTR(JS_TAG_OBJECT, proto)); sh->proto = proto; memset(prop_hash_end(sh) - hash_size, 0, sizeof(prop_hash_end(sh)[0]) * hash_size); sh->prop_hash_mask = hash_size - 1; sh->prop_size = prop_size; sh->prop_count = 0; sh->deleted_prop_count = 0; /* insert in the hash table */ sh->hash = shape_initial_hash(proto); sh->is_hashed = TRUE; sh->has_small_array_index = FALSE; js_shape_hash_link(ctx->rt, sh); return sh; } static JSShape *js_new_shape(JSContext *ctx, JSObject *proto) { return js_new_shape2(ctx, proto, JS_PROP_INITIAL_HASH_SIZE, JS_PROP_INITIAL_SIZE); } /* The shape is cloned. The new shape is not inserted in the shape hash table */ static JSShape *js_clone_shape(JSContext *ctx, JSShape *sh1) { JSShape *sh; void *sh_alloc, *sh_alloc1; size_t size; JSShapeProperty *pr; uint32_t i, hash_size; hash_size = sh1->prop_hash_mask + 1; size = get_shape_size(hash_size, sh1->prop_size); sh_alloc = js_malloc(ctx, size); if (!sh_alloc) return NULL; sh_alloc1 = get_alloc_from_shape(sh1); memcpy(sh_alloc, sh_alloc1, size); sh = get_shape_from_alloc(sh_alloc, hash_size); sh->header.ref_count = 1; add_gc_object(ctx->rt, &sh->header, JS_GC_OBJ_TYPE_SHAPE); sh->is_hashed = FALSE; if (sh->proto) { js_dup(JS_MKPTR(JS_TAG_OBJECT, sh->proto)); } for(i = 0, pr = get_shape_prop(sh); i < sh->prop_count; i++, pr++) { JS_DupAtom(ctx, pr->atom); } return sh; } static JSShape *js_dup_shape(JSShape *sh) { sh->header.ref_count++; return sh; } static void js_free_shape0(JSRuntime *rt, JSShape *sh) { uint32_t i; JSShapeProperty *pr; assert(sh->header.ref_count == 0); if (sh->is_hashed) js_shape_hash_unlink(rt, sh); if (sh->proto != NULL) { JS_FreeValueRT(rt, JS_MKPTR(JS_TAG_OBJECT, sh->proto)); } pr = get_shape_prop(sh); for(i = 0; i < sh->prop_count; i++) { JS_FreeAtomRT(rt, pr->atom); pr++; } remove_gc_object(&sh->header); js_free_rt(rt, get_alloc_from_shape(sh)); } static void js_free_shape(JSRuntime *rt, JSShape *sh) { if (unlikely(--sh->header.ref_count <= 0)) { js_free_shape0(rt, sh); } } static void js_free_shape_null(JSRuntime *rt, JSShape *sh) { if (sh) js_free_shape(rt, sh); } /* make space to hold at least 'count' properties */ static no_inline int resize_properties(JSContext *ctx, JSShape **psh, JSObject *p, uint32_t count) { JSShape *sh; uint32_t new_size, new_hash_size, new_hash_mask, i; JSShapeProperty *pr; void *sh_alloc; intptr_t h; sh = *psh; new_size = max_int(count, sh->prop_size * 3 / 2); /* Reallocate prop array first to avoid crash or size inconsistency in case of memory allocation failure */ if (p) { JSProperty *new_prop; new_prop = js_realloc(ctx, p->prop, sizeof(new_prop[0]) * new_size); if (unlikely(!new_prop)) return -1; p->prop = new_prop; } new_hash_size = sh->prop_hash_mask + 1; while (new_hash_size < new_size) new_hash_size = 2 * new_hash_size; if (new_hash_size != (sh->prop_hash_mask + 1)) { JSShape *old_sh; /* resize the hash table and the properties */ old_sh = sh; sh_alloc = js_malloc(ctx, get_shape_size(new_hash_size, new_size)); if (!sh_alloc) return -1; sh = get_shape_from_alloc(sh_alloc, new_hash_size); list_del(&old_sh->header.link); /* copy all the fields and the properties */ memcpy(sh, old_sh, sizeof(JSShape) + sizeof(sh->prop[0]) * old_sh->prop_count); list_add_tail(&sh->header.link, &ctx->rt->gc_obj_list); new_hash_mask = new_hash_size - 1; sh->prop_hash_mask = new_hash_mask; memset(prop_hash_end(sh) - new_hash_size, 0, sizeof(prop_hash_end(sh)[0]) * new_hash_size); for(i = 0, pr = sh->prop; i < sh->prop_count; i++, pr++) { if (pr->atom != JS_ATOM_NULL) { h = ((uintptr_t)pr->atom & new_hash_mask); pr->hash_next = prop_hash_end(sh)[-h - 1]; prop_hash_end(sh)[-h - 1] = i + 1; } } js_free(ctx, get_alloc_from_shape(old_sh)); } else { /* only resize the properties */ list_del(&sh->header.link); sh_alloc = js_realloc(ctx, get_alloc_from_shape(sh), get_shape_size(new_hash_size, new_size)); if (unlikely(!sh_alloc)) { /* insert again in the GC list */ list_add_tail(&sh->header.link, &ctx->rt->gc_obj_list); return -1; } sh = get_shape_from_alloc(sh_alloc, new_hash_size); list_add_tail(&sh->header.link, &ctx->rt->gc_obj_list); } *psh = sh; sh->prop_size = new_size; return 0; } /* remove the deleted properties. */ static int compact_properties(JSContext *ctx, JSObject *p) { JSShape *sh, *old_sh; void *sh_alloc; intptr_t h; uint32_t new_hash_size, i, j, new_hash_mask, new_size; JSShapeProperty *old_pr, *pr; JSProperty *prop, *new_prop; sh = p->shape; assert(!sh->is_hashed); new_size = max_int(JS_PROP_INITIAL_SIZE, sh->prop_count - sh->deleted_prop_count); assert(new_size <= sh->prop_size); new_hash_size = sh->prop_hash_mask + 1; while ((new_hash_size / 2) >= new_size) new_hash_size = new_hash_size / 2; new_hash_mask = new_hash_size - 1; /* resize the hash table and the properties */ old_sh = sh; sh_alloc = js_malloc(ctx, get_shape_size(new_hash_size, new_size)); if (!sh_alloc) return -1; sh = get_shape_from_alloc(sh_alloc, new_hash_size); list_del(&old_sh->header.link); memcpy(sh, old_sh, sizeof(JSShape)); list_add_tail(&sh->header.link, &ctx->rt->gc_obj_list); memset(prop_hash_end(sh) - new_hash_size, 0, sizeof(prop_hash_end(sh)[0]) * new_hash_size); j = 0; old_pr = old_sh->prop; pr = sh->prop; prop = p->prop; for(i = 0; i < sh->prop_count; i++) { if (old_pr->atom != JS_ATOM_NULL) { pr->atom = old_pr->atom; pr->flags = old_pr->flags; h = ((uintptr_t)old_pr->atom & new_hash_mask); pr->hash_next = prop_hash_end(sh)[-h - 1]; prop_hash_end(sh)[-h - 1] = j + 1; prop[j] = prop[i]; j++; pr++; } old_pr++; } assert(j == (sh->prop_count - sh->deleted_prop_count)); sh->prop_hash_mask = new_hash_mask; sh->prop_size = new_size; sh->deleted_prop_count = 0; sh->prop_count = j; p->shape = sh; js_free(ctx, get_alloc_from_shape(old_sh)); /* reduce the size of the object properties */ new_prop = js_realloc(ctx, p->prop, sizeof(new_prop[0]) * new_size); if (new_prop) p->prop = new_prop; return 0; } static int add_shape_property(JSContext *ctx, JSShape **psh, JSObject *p, JSAtom atom, int prop_flags) { JSRuntime *rt = ctx->rt; JSShape *sh = *psh; JSShapeProperty *pr, *prop; uint32_t hash_mask, new_shape_hash = 0; intptr_t h; /* update the shape hash */ if (sh->is_hashed) { js_shape_hash_unlink(rt, sh); new_shape_hash = shape_hash(shape_hash(sh->hash, atom), prop_flags); } if (unlikely(sh->prop_count >= sh->prop_size)) { if (resize_properties(ctx, psh, p, sh->prop_count + 1)) { /* in case of error, reinsert in the hash table. sh is still valid if resize_properties() failed */ if (sh->is_hashed) js_shape_hash_link(rt, sh); return -1; } sh = *psh; } if (sh->is_hashed) { sh->hash = new_shape_hash; js_shape_hash_link(rt, sh); } /* Initialize the new shape property. The object property at p->prop[sh->prop_count] is uninitialized */ prop = get_shape_prop(sh); pr = &prop[sh->prop_count++]; pr->atom = JS_DupAtom(ctx, atom); pr->flags = prop_flags; sh->has_small_array_index |= __JS_AtomIsTaggedInt(atom); /* add in hash table */ hash_mask = sh->prop_hash_mask; h = atom & hash_mask; pr->hash_next = prop_hash_end(sh)[-h - 1]; prop_hash_end(sh)[-h - 1] = sh->prop_count; return 0; } /* find a hashed empty shape matching the prototype. Return NULL if not found */ static JSShape *find_hashed_shape_proto(JSRuntime *rt, JSObject *proto) { JSShape *sh1; uint32_t h, h1; h = shape_initial_hash(proto); h1 = get_shape_hash(h, rt->shape_hash_bits); for(sh1 = rt->shape_hash[h1]; sh1 != NULL; sh1 = sh1->shape_hash_next) { if (sh1->hash == h && sh1->proto == proto && sh1->prop_count == 0) { return sh1; } } return NULL; } /* find a hashed shape matching sh + (prop, prop_flags). Return NULL if not found */ static JSShape *find_hashed_shape_prop(JSRuntime *rt, JSShape *sh, JSAtom atom, int prop_flags) { JSShape *sh1; uint32_t h, h1, i, n; h = sh->hash; h = shape_hash(h, atom); h = shape_hash(h, prop_flags); h1 = get_shape_hash(h, rt->shape_hash_bits); for(sh1 = rt->shape_hash[h1]; sh1 != NULL; sh1 = sh1->shape_hash_next) { /* we test the hash first so that the rest is done only if the shapes really match */ if (sh1->hash == h && sh1->proto == sh->proto && sh1->prop_count == ((n = sh->prop_count) + 1)) { for(i = 0; i < n; i++) { if (unlikely(sh1->prop[i].atom != sh->prop[i].atom) || unlikely(sh1->prop[i].flags != sh->prop[i].flags)) goto next; } if (unlikely(sh1->prop[n].atom != atom) || unlikely(sh1->prop[n].flags != prop_flags)) goto next; return sh1; } next: ; } return NULL; } static __maybe_unused void JS_DumpShape(JSRuntime *rt, int i, JSShape *sh) { char atom_buf[ATOM_GET_STR_BUF_SIZE]; int j; /* XXX: should output readable class prototype */ printf("%5d %3d%c %14p %5d %5d", i, sh->header.ref_count, " *"[sh->is_hashed], (void *)sh->proto, sh->prop_size, sh->prop_count); for(j = 0; j < sh->prop_count; j++) { printf(" %s", JS_AtomGetStrRT(rt, atom_buf, sizeof(atom_buf), sh->prop[j].atom)); } printf("\n"); } static __maybe_unused void JS_DumpShapes(JSRuntime *rt) { int i; JSShape *sh; struct list_head *el; JSObject *p; JSGCObjectHeader *gp; printf("JSShapes: {\n"); printf("%5s %4s %14s %5s %5s %s\n", "SLOT", "REFS", "PROTO", "SIZE", "COUNT", "PROPS"); for(i = 0; i < rt->shape_hash_size; i++) { for(sh = rt->shape_hash[i]; sh != NULL; sh = sh->shape_hash_next) { JS_DumpShape(rt, i, sh); assert(sh->is_hashed); } } /* dump non-hashed shapes */ list_for_each(el, &rt->gc_obj_list) { gp = list_entry(el, JSGCObjectHeader, link); if (gp->gc_obj_type == JS_GC_OBJ_TYPE_JS_OBJECT) { p = (JSObject *)gp; if (!p->shape->is_hashed) { JS_DumpShape(rt, -1, p->shape); } } } printf("}\n"); } static JSValue JS_NewObjectFromShape(JSContext *ctx, JSShape *sh, JSClassID class_id) { JSObject *p; js_trigger_gc(ctx->rt, sizeof(JSObject)); p = js_malloc(ctx, sizeof(JSObject)); if (unlikely(!p)) goto fail; p->class_id = class_id; p->extensible = TRUE; p->free_mark = 0; p->is_exotic = 0; p->fast_array = 0; p->is_constructor = 0; p->is_uncatchable_error = 0; p->tmp_mark = 0; p->is_HTMLDDA = 0; p->first_weak_ref = NULL; p->u.opaque = NULL; p->shape = sh; p->prop = js_malloc(ctx, sizeof(JSProperty) * sh->prop_size); if (unlikely(!p->prop)) { js_free(ctx, p); fail: js_free_shape(ctx->rt, sh); return JS_EXCEPTION; } switch(class_id) { case JS_CLASS_OBJECT: break; case JS_CLASS_ARRAY: { JSProperty *pr; p->is_exotic = 1; p->fast_array = 1; p->u.array.u.values = NULL; p->u.array.count = 0; p->u.array.u1.size = 0; /* the length property is always the first one */ if (likely(sh == ctx->array_shape)) { pr = &p->prop[0]; } else { /* only used for the first array */ /* cannot fail */ pr = add_property(ctx, p, JS_ATOM_length, JS_PROP_WRITABLE | JS_PROP_LENGTH); } pr->u.value = js_int32(0); } break; case JS_CLASS_C_FUNCTION: p->prop[0].u.value = JS_UNDEFINED; break; case JS_CLASS_ARGUMENTS: case JS_CLASS_UINT8C_ARRAY: case JS_CLASS_INT8_ARRAY: case JS_CLASS_UINT8_ARRAY: case JS_CLASS_INT16_ARRAY: case JS_CLASS_UINT16_ARRAY: case JS_CLASS_INT32_ARRAY: case JS_CLASS_UINT32_ARRAY: case JS_CLASS_BIG_INT64_ARRAY: case JS_CLASS_BIG_UINT64_ARRAY: case JS_CLASS_FLOAT16_ARRAY: case JS_CLASS_FLOAT32_ARRAY: case JS_CLASS_FLOAT64_ARRAY: p->is_exotic = 1; p->fast_array = 1; p->u.array.u.ptr = NULL; p->u.array.count = 0; break; case JS_CLASS_DATAVIEW: p->u.array.u.ptr = NULL; p->u.array.count = 0; break; case JS_CLASS_NUMBER: case JS_CLASS_STRING: case JS_CLASS_BOOLEAN: case JS_CLASS_SYMBOL: case JS_CLASS_DATE: case JS_CLASS_BIG_INT: p->u.object_data = JS_UNDEFINED; goto set_exotic; case JS_CLASS_REGEXP: p->u.regexp.pattern = NULL; p->u.regexp.bytecode = NULL; goto set_exotic; default: set_exotic: if (ctx->rt->class_array[class_id].exotic) { p->is_exotic = 1; } break; } p->header.ref_count = 1; add_gc_object(ctx->rt, &p->header, JS_GC_OBJ_TYPE_JS_OBJECT); return JS_MKPTR(JS_TAG_OBJECT, p); } static JSObject *get_proto_obj(JSValue proto_val) { if (JS_VALUE_GET_TAG(proto_val) != JS_TAG_OBJECT) return NULL; else return JS_VALUE_GET_OBJ(proto_val); } /* WARNING: proto must be an object or JS_NULL */ JSValue JS_NewObjectProtoClass(JSContext *ctx, JSValue proto_val, JSClassID class_id) { JSShape *sh; JSObject *proto; proto = get_proto_obj(proto_val); sh = find_hashed_shape_proto(ctx->rt, proto); if (likely(sh)) { sh = js_dup_shape(sh); } else { sh = js_new_shape(ctx, proto); if (!sh) return JS_EXCEPTION; } return JS_NewObjectFromShape(ctx, sh, class_id); } static int JS_SetObjectData(JSContext *ctx, JSValue obj, JSValue val) { JSObject *p; if (JS_VALUE_GET_TAG(obj) == JS_TAG_OBJECT) { p = JS_VALUE_GET_OBJ(obj); switch(p->class_id) { case JS_CLASS_NUMBER: case JS_CLASS_STRING: case JS_CLASS_BOOLEAN: case JS_CLASS_SYMBOL: case JS_CLASS_DATE: case JS_CLASS_BIG_INT: JS_FreeValue(ctx, p->u.object_data); p->u.object_data = val; return 0; } } JS_FreeValue(ctx, val); if (!JS_IsException(obj)) JS_ThrowTypeError(ctx, "invalid object type"); return -1; } JSValue JS_NewObjectClass(JSContext *ctx, int class_id) { return JS_NewObjectProtoClass(ctx, ctx->class_proto[class_id], class_id); } JSValue JS_NewObjectProto(JSContext *ctx, JSValue proto) { return JS_NewObjectProtoClass(ctx, proto, JS_CLASS_OBJECT); } JSValue JS_NewArray(JSContext *ctx) { return JS_NewObjectFromShape(ctx, js_dup_shape(ctx->array_shape), JS_CLASS_ARRAY); } JSValue JS_NewObject(JSContext *ctx) { /* inline JS_NewObjectClass(ctx, JS_CLASS_OBJECT); */ return JS_NewObjectProtoClass(ctx, ctx->class_proto[JS_CLASS_OBJECT], JS_CLASS_OBJECT); } static void js_function_set_properties(JSContext *ctx, JSValue func_obj, JSAtom name, int len) { /* ES6 feature non compatible with ES5.1: length is configurable */ JS_DefinePropertyValue(ctx, func_obj, JS_ATOM_length, js_int32(len), JS_PROP_CONFIGURABLE); JS_DefinePropertyValue(ctx, func_obj, JS_ATOM_name, JS_AtomToString(ctx, name), JS_PROP_CONFIGURABLE); } static BOOL js_class_has_bytecode(JSClassID class_id) { return (class_id == JS_CLASS_BYTECODE_FUNCTION || class_id == JS_CLASS_GENERATOR_FUNCTION || class_id == JS_CLASS_ASYNC_FUNCTION || class_id == JS_CLASS_ASYNC_GENERATOR_FUNCTION); } /* return NULL without exception if not a function or no bytecode */ static JSFunctionBytecode *JS_GetFunctionBytecode(JSValue val) { JSObject *p; if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return NULL; p = JS_VALUE_GET_OBJ(val); if (!js_class_has_bytecode(p->class_id)) return NULL; return p->u.func.function_bytecode; } static void js_method_set_home_object(JSContext *ctx, JSValue func_obj, JSValue home_obj) { JSObject *p, *p1; JSFunctionBytecode *b; if (JS_VALUE_GET_TAG(func_obj) != JS_TAG_OBJECT) return; p = JS_VALUE_GET_OBJ(func_obj); if (!js_class_has_bytecode(p->class_id)) return; b = p->u.func.function_bytecode; if (b->need_home_object) { p1 = p->u.func.home_object; if (p1) { JS_FreeValue(ctx, JS_MKPTR(JS_TAG_OBJECT, p1)); } if (JS_VALUE_GET_TAG(home_obj) == JS_TAG_OBJECT) p1 = JS_VALUE_GET_OBJ(js_dup(home_obj)); else p1 = NULL; p->u.func.home_object = p1; } } static JSValue js_get_function_name(JSContext *ctx, JSAtom name) { JSValue name_str; name_str = JS_AtomToString(ctx, name); if (JS_AtomSymbolHasDescription(ctx, name)) { name_str = JS_ConcatString3(ctx, "[", name_str, "]"); } return name_str; } /* Modify the name of a method according to the atom and 'flags'. 'flags' is a bitmask of JS_PROP_HAS_GET and JS_PROP_HAS_SET. Also set the home object of the method. Return < 0 if exception. */ static int js_method_set_properties(JSContext *ctx, JSValue func_obj, JSAtom name, int flags, JSValue home_obj) { JSValue name_str; name_str = js_get_function_name(ctx, name); if (flags & JS_PROP_HAS_GET) { name_str = JS_ConcatString3(ctx, "get ", name_str, ""); } else if (flags & JS_PROP_HAS_SET) { name_str = JS_ConcatString3(ctx, "set ", name_str, ""); } if (JS_IsException(name_str)) return -1; if (JS_DefinePropertyValue(ctx, func_obj, JS_ATOM_name, name_str, JS_PROP_CONFIGURABLE) < 0) return -1; js_method_set_home_object(ctx, func_obj, home_obj); return 0; } /* Note: at least 'length' arguments will be readable in 'argv' */ /* `name` may be NULL, pure ASCII or UTF-8 encoded */ static JSValue JS_NewCFunction3(JSContext *ctx, JSCFunction *func, const char *name, int length, JSCFunctionEnum cproto, int magic, JSValue proto_val) { JSValue func_obj; JSObject *p; JSAtom name_atom; func_obj = JS_NewObjectProtoClass(ctx, proto_val, JS_CLASS_C_FUNCTION); if (JS_IsException(func_obj)) return func_obj; p = JS_VALUE_GET_OBJ(func_obj); p->u.cfunc.realm = JS_DupContext(ctx); p->u.cfunc.c_function.generic = func; p->u.cfunc.length = length; p->u.cfunc.cproto = cproto; p->u.cfunc.magic = magic; p->is_constructor = (cproto == JS_CFUNC_constructor || cproto == JS_CFUNC_constructor_magic || cproto == JS_CFUNC_constructor_or_func || cproto == JS_CFUNC_constructor_or_func_magic); if (!name) name = ""; name_atom = JS_NewAtom(ctx, name); js_function_set_properties(ctx, func_obj, name_atom, length); JS_FreeAtom(ctx, name_atom); return func_obj; } /* Note: at least 'length' arguments will be readable in 'argv' */ JSValue JS_NewCFunction2(JSContext *ctx, JSCFunction *func, const char *name, int length, JSCFunctionEnum cproto, int magic) { return JS_NewCFunction3(ctx, func, name, length, cproto, magic, ctx->function_proto); } typedef struct JSCFunctionDataRecord { JSCFunctionData *func; uint8_t length; uint8_t data_len; uint16_t magic; JSValue data[]; } JSCFunctionDataRecord; static void js_c_function_data_finalizer(JSRuntime *rt, JSValue val) { JSCFunctionDataRecord *s = JS_GetOpaque(val, JS_CLASS_C_FUNCTION_DATA); int i; if (s) { for(i = 0; i < s->data_len; i++) { JS_FreeValueRT(rt, s->data[i]); } js_free_rt(rt, s); } } static void js_c_function_data_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSCFunctionDataRecord *s = JS_GetOpaque(val, JS_CLASS_C_FUNCTION_DATA); int i; if (s) { for(i = 0; i < s->data_len; i++) { JS_MarkValue(rt, s->data[i], mark_func); } } } static JSValue js_c_function_data_call(JSContext *ctx, JSValue func_obj, JSValue this_val, int argc, JSValue *argv, int flags) { JSCFunctionDataRecord *s = JS_GetOpaque(func_obj, JS_CLASS_C_FUNCTION_DATA); JSValue *arg_buf; int i; /* XXX: could add the function on the stack for debug */ if (unlikely(argc < s->length)) { arg_buf = alloca(sizeof(arg_buf[0]) * s->length); for(i = 0; i < argc; i++) arg_buf[i] = argv[i]; for(i = argc; i < s->length; i++) arg_buf[i] = JS_UNDEFINED; } else { arg_buf = argv; } return s->func(ctx, this_val, argc, arg_buf, s->magic, s->data); } JSValue JS_NewCFunctionData(JSContext *ctx, JSCFunctionData *func, int length, int magic, int data_len, JSValue *data) { JSCFunctionDataRecord *s; JSValue func_obj; int i; func_obj = JS_NewObjectProtoClass(ctx, ctx->function_proto, JS_CLASS_C_FUNCTION_DATA); if (JS_IsException(func_obj)) return func_obj; s = js_malloc(ctx, sizeof(*s) + data_len * sizeof(JSValue)); if (!s) { JS_FreeValue(ctx, func_obj); return JS_EXCEPTION; } s->func = func; s->length = length; s->data_len = data_len; s->magic = magic; for(i = 0; i < data_len; i++) s->data[i] = js_dup(data[i]); JS_SetOpaque(func_obj, s); js_function_set_properties(ctx, func_obj, JS_ATOM_empty_string, length); return func_obj; } static JSContext *js_autoinit_get_realm(JSProperty *pr) { return (JSContext *)(pr->u.init.realm_and_id & ~3); } static JSAutoInitIDEnum js_autoinit_get_id(JSProperty *pr) { return pr->u.init.realm_and_id & 3; } static void js_autoinit_free(JSRuntime *rt, JSProperty *pr) { JS_FreeContext(js_autoinit_get_realm(pr)); } static void js_autoinit_mark(JSRuntime *rt, JSProperty *pr, JS_MarkFunc *mark_func) { mark_func(rt, &js_autoinit_get_realm(pr)->header); } static void free_property(JSRuntime *rt, JSProperty *pr, int prop_flags) { if (unlikely(prop_flags & JS_PROP_TMASK)) { if ((prop_flags & JS_PROP_TMASK) == JS_PROP_GETSET) { if (pr->u.getset.getter) JS_FreeValueRT(rt, JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.getter)); if (pr->u.getset.setter) JS_FreeValueRT(rt, JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.setter)); } else if ((prop_flags & JS_PROP_TMASK) == JS_PROP_VARREF) { free_var_ref(rt, pr->u.var_ref); } else if ((prop_flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { js_autoinit_free(rt, pr); } } else { JS_FreeValueRT(rt, pr->u.value); } } static force_inline JSShapeProperty *find_own_property1(JSObject *p, JSAtom atom) { JSShape *sh; JSShapeProperty *pr, *prop; intptr_t h; sh = p->shape; h = (uintptr_t)atom & sh->prop_hash_mask; h = prop_hash_end(sh)[-h - 1]; prop = get_shape_prop(sh); while (h) { pr = &prop[h - 1]; if (likely(pr->atom == atom)) { return pr; } h = pr->hash_next; } return NULL; } static force_inline JSShapeProperty *find_own_property(JSProperty **ppr, JSObject *p, JSAtom atom) { JSShape *sh; JSShapeProperty *pr, *prop; intptr_t h; sh = p->shape; h = (uintptr_t)atom & sh->prop_hash_mask; h = prop_hash_end(sh)[-h - 1]; prop = get_shape_prop(sh); while (h) { pr = &prop[h - 1]; if (likely(pr->atom == atom)) { *ppr = &p->prop[h - 1]; /* the compiler should be able to assume that pr != NULL here */ return pr; } h = pr->hash_next; } *ppr = NULL; return NULL; } static force_inline JSShapeProperty* find_own_property_ic(JSProperty** ppr, JSObject* p, JSAtom atom, uint32_t* offset) { JSShape* sh; JSShapeProperty *pr, *prop; intptr_t h, i; sh = p->shape; h = (uintptr_t)atom & sh->prop_hash_mask; h = prop_hash_end(sh)[-h - 1]; prop = get_shape_prop(sh); while (h) { i = h - 1; pr = &prop[i]; if (likely(pr->atom == atom)) { *ppr = &p->prop[i]; *offset = i; /* the compiler should be able to assume that pr != NULL here */ return pr; } h = pr->hash_next; } *ppr = NULL; return NULL; } /* indicate that the object may be part of a function prototype cycle */ static void set_cycle_flag(JSContext *ctx, JSValue obj) { } static void free_var_ref(JSRuntime *rt, JSVarRef *var_ref) { if (var_ref) { assert(var_ref->header.ref_count > 0); if (--var_ref->header.ref_count == 0) { if (var_ref->is_detached) { JS_FreeValueRT(rt, var_ref->value); remove_gc_object(&var_ref->header); } else { list_del(&var_ref->header.link); /* still on the stack */ } js_free_rt(rt, var_ref); } } } static void js_array_finalizer(JSRuntime *rt, JSValue val) { JSObject *p = JS_VALUE_GET_OBJ(val); int i; for(i = 0; i < p->u.array.count; i++) { JS_FreeValueRT(rt, p->u.array.u.values[i]); } js_free_rt(rt, p->u.array.u.values); } static void js_array_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSObject *p = JS_VALUE_GET_OBJ(val); int i; for(i = 0; i < p->u.array.count; i++) { JS_MarkValue(rt, p->u.array.u.values[i], mark_func); } } static void js_object_data_finalizer(JSRuntime *rt, JSValue val) { JSObject *p = JS_VALUE_GET_OBJ(val); JS_FreeValueRT(rt, p->u.object_data); p->u.object_data = JS_UNDEFINED; } static void js_object_data_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSObject *p = JS_VALUE_GET_OBJ(val); JS_MarkValue(rt, p->u.object_data, mark_func); } static void js_c_function_finalizer(JSRuntime *rt, JSValue val) { JSObject *p = JS_VALUE_GET_OBJ(val); if (p->u.cfunc.realm) JS_FreeContext(p->u.cfunc.realm); } static void js_c_function_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSObject *p = JS_VALUE_GET_OBJ(val); if (p->u.cfunc.realm) mark_func(rt, &p->u.cfunc.realm->header); } static void js_bytecode_function_finalizer(JSRuntime *rt, JSValue val) { JSObject *p1, *p = JS_VALUE_GET_OBJ(val); JSFunctionBytecode *b; JSVarRef **var_refs; int i; p1 = p->u.func.home_object; if (p1) { JS_FreeValueRT(rt, JS_MKPTR(JS_TAG_OBJECT, p1)); } b = p->u.func.function_bytecode; if (b) { var_refs = p->u.func.var_refs; if (var_refs) { for(i = 0; i < b->closure_var_count; i++) free_var_ref(rt, var_refs[i]); js_free_rt(rt, var_refs); } JS_FreeValueRT(rt, JS_MKPTR(JS_TAG_FUNCTION_BYTECODE, b)); } } static void js_bytecode_function_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSObject *p = JS_VALUE_GET_OBJ(val); JSVarRef **var_refs = p->u.func.var_refs; JSFunctionBytecode *b = p->u.func.function_bytecode; int i; if (p->u.func.home_object) { JS_MarkValue(rt, JS_MKPTR(JS_TAG_OBJECT, p->u.func.home_object), mark_func); } if (b) { if (var_refs) { for(i = 0; i < b->closure_var_count; i++) { JSVarRef *var_ref = var_refs[i]; if (var_ref && var_ref->is_detached) { mark_func(rt, &var_ref->header); } } } /* must mark the function bytecode because template objects may be part of a cycle */ JS_MarkValue(rt, JS_MKPTR(JS_TAG_FUNCTION_BYTECODE, b), mark_func); } } static void js_bound_function_finalizer(JSRuntime *rt, JSValue val) { JSObject *p = JS_VALUE_GET_OBJ(val); JSBoundFunction *bf = p->u.bound_function; int i; JS_FreeValueRT(rt, bf->func_obj); JS_FreeValueRT(rt, bf->this_val); for(i = 0; i < bf->argc; i++) { JS_FreeValueRT(rt, bf->argv[i]); } js_free_rt(rt, bf); } static void js_bound_function_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSObject *p = JS_VALUE_GET_OBJ(val); JSBoundFunction *bf = p->u.bound_function; int i; JS_MarkValue(rt, bf->func_obj, mark_func); JS_MarkValue(rt, bf->this_val, mark_func); for(i = 0; i < bf->argc; i++) JS_MarkValue(rt, bf->argv[i], mark_func); } static void js_for_in_iterator_finalizer(JSRuntime *rt, JSValue val) { JSObject *p = JS_VALUE_GET_OBJ(val); JSForInIterator *it = p->u.for_in_iterator; JS_FreeValueRT(rt, it->obj); js_free_rt(rt, it); } static void js_for_in_iterator_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSObject *p = JS_VALUE_GET_OBJ(val); JSForInIterator *it = p->u.for_in_iterator; JS_MarkValue(rt, it->obj, mark_func); } static void free_object(JSRuntime *rt, JSObject *p) { int i; JSClassFinalizer *finalizer; JSShape *sh; JSShapeProperty *pr; p->free_mark = 1; /* used to tell the object is invalid when freeing cycles */ /* free all the fields */ sh = p->shape; pr = get_shape_prop(sh); for(i = 0; i < sh->prop_count; i++) { free_property(rt, &p->prop[i], pr->flags); pr++; } js_free_rt(rt, p->prop); /* as an optimization we destroy the shape immediately without putting it in gc_zero_ref_count_list */ js_free_shape(rt, sh); /* fail safe */ p->shape = NULL; p->prop = NULL; if (unlikely(p->first_weak_ref)) { reset_weak_ref(rt, &p->first_weak_ref); } finalizer = rt->class_array[p->class_id].finalizer; if (finalizer) (*finalizer)(rt, JS_MKPTR(JS_TAG_OBJECT, p)); /* fail safe */ p->class_id = 0; p->u.opaque = NULL; p->u.func.var_refs = NULL; p->u.func.home_object = NULL; remove_gc_object(&p->header); if (rt->gc_phase == JS_GC_PHASE_REMOVE_CYCLES && p->header.ref_count != 0) { list_add_tail(&p->header.link, &rt->gc_zero_ref_count_list); } else { js_free_rt(rt, p); } } static void free_gc_object(JSRuntime *rt, JSGCObjectHeader *gp) { switch(gp->gc_obj_type) { case JS_GC_OBJ_TYPE_JS_OBJECT: free_object(rt, (JSObject *)gp); break; case JS_GC_OBJ_TYPE_FUNCTION_BYTECODE: free_function_bytecode(rt, (JSFunctionBytecode *)gp); break; default: abort(); } } static void free_zero_refcount(JSRuntime *rt) { struct list_head *el; JSGCObjectHeader *p; rt->gc_phase = JS_GC_PHASE_DECREF; for(;;) { el = rt->gc_zero_ref_count_list.next; if (el == &rt->gc_zero_ref_count_list) break; p = list_entry(el, JSGCObjectHeader, link); assert(p->ref_count == 0); free_gc_object(rt, p); } rt->gc_phase = JS_GC_PHASE_NONE; } /* called with the ref_count of 'v' reaches zero. */ void __JS_FreeValueRT(JSRuntime *rt, JSValue v) { uint32_t tag = JS_VALUE_GET_TAG(v); #ifdef DUMP_FREE if (check_dump_flag(rt, DUMP_FREE)) { /* Prevent invalid object access during GC */ if ((rt->gc_phase != JS_GC_PHASE_REMOVE_CYCLES) || (tag != JS_TAG_OBJECT && tag != JS_TAG_FUNCTION_BYTECODE)) { printf("Freeing "); if (tag == JS_TAG_OBJECT) { JS_DumpObject(rt, JS_VALUE_GET_OBJ(v)); } else { JS_DumpValue(rt, v); printf("\n"); } } } #endif switch(tag) { case JS_TAG_STRING: { JSString *p = JS_VALUE_GET_STRING(v); if (p->atom_type) { JS_FreeAtomStruct(rt, p); } else { #ifdef DUMP_LEAKS list_del(&p->link); #endif js_free_rt(rt, p); } } break; case JS_TAG_OBJECT: case JS_TAG_FUNCTION_BYTECODE: { JSGCObjectHeader *p = JS_VALUE_GET_PTR(v); if (rt->gc_phase != JS_GC_PHASE_REMOVE_CYCLES) { list_del(&p->link); list_add(&p->link, &rt->gc_zero_ref_count_list); if (rt->gc_phase == JS_GC_PHASE_NONE) { free_zero_refcount(rt); } } } break; case JS_TAG_MODULE: abort(); /* never freed here */ break; case JS_TAG_BIG_INT: { JSBigInt *bf = JS_VALUE_GET_PTR(v); bf_delete(&bf->num); js_free_rt(rt, bf); } break; case JS_TAG_SYMBOL: { JSAtomStruct *p = JS_VALUE_GET_PTR(v); JS_FreeAtomStruct(rt, p); } break; default: printf("__JS_FreeValue: unknown tag=%d\n", tag); abort(); } } void __JS_FreeValue(JSContext *ctx, JSValue v) { __JS_FreeValueRT(ctx->rt, v); } /* garbage collection */ static void add_gc_object(JSRuntime *rt, JSGCObjectHeader *h, JSGCObjectTypeEnum type) { h->mark = 0; h->gc_obj_type = type; list_add_tail(&h->link, &rt->gc_obj_list); } static void remove_gc_object(JSGCObjectHeader *h) { list_del(&h->link); } void JS_MarkValue(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { if (JS_VALUE_HAS_REF_COUNT(val)) { switch(JS_VALUE_GET_TAG(val)) { case JS_TAG_OBJECT: case JS_TAG_FUNCTION_BYTECODE: mark_func(rt, JS_VALUE_GET_PTR(val)); break; default: break; } } } static void mark_children(JSRuntime *rt, JSGCObjectHeader *gp, JS_MarkFunc *mark_func) { switch(gp->gc_obj_type) { case JS_GC_OBJ_TYPE_JS_OBJECT: { JSObject *p = (JSObject *)gp; JSShapeProperty *prs; JSShape *sh; int i; sh = p->shape; mark_func(rt, &sh->header); /* mark all the fields */ prs = get_shape_prop(sh); for(i = 0; i < sh->prop_count; i++) { JSProperty *pr = &p->prop[i]; if (prs->atom != JS_ATOM_NULL) { if (prs->flags & JS_PROP_TMASK) { if ((prs->flags & JS_PROP_TMASK) == JS_PROP_GETSET) { if (pr->u.getset.getter) mark_func(rt, &pr->u.getset.getter->header); if (pr->u.getset.setter) mark_func(rt, &pr->u.getset.setter->header); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) { if (pr->u.var_ref->is_detached) { /* Note: the tag does not matter provided it is a GC object */ mark_func(rt, &pr->u.var_ref->header); } } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { js_autoinit_mark(rt, pr, mark_func); } } else { JS_MarkValue(rt, pr->u.value, mark_func); } } prs++; } if (p->class_id != JS_CLASS_OBJECT) { JSClassGCMark *gc_mark; gc_mark = rt->class_array[p->class_id].gc_mark; if (gc_mark) gc_mark(rt, JS_MKPTR(JS_TAG_OBJECT, p), mark_func); } } break; case JS_GC_OBJ_TYPE_FUNCTION_BYTECODE: /* the template objects can be part of a cycle */ { JSShape **shape, *(*shapes)[IC_CACHE_ITEM_CAPACITY]; JSFunctionBytecode *b = (JSFunctionBytecode *)gp; int i; for(i = 0; i < b->cpool_count; i++) { JS_MarkValue(rt, b->cpool[i], mark_func); } if (b->realm) mark_func(rt, &b->realm->header); if (b->ic) { for (i = 0; i < b->ic->count; i++) { shapes = &b->ic->cache[i].shape; for (shape = *shapes; shape != endof(*shapes); shape++) if (*shape) mark_func(rt, &(*shape)->header); } } } break; case JS_GC_OBJ_TYPE_VAR_REF: { JSVarRef *var_ref = (JSVarRef *)gp; /* only detached variable referenced are taken into account */ assert(var_ref->is_detached); JS_MarkValue(rt, *var_ref->pvalue, mark_func); } break; case JS_GC_OBJ_TYPE_ASYNC_FUNCTION: { JSAsyncFunctionData *s = (JSAsyncFunctionData *)gp; if (s->is_active) async_func_mark(rt, &s->func_state, mark_func); JS_MarkValue(rt, s->resolving_funcs[0], mark_func); JS_MarkValue(rt, s->resolving_funcs[1], mark_func); } break; case JS_GC_OBJ_TYPE_SHAPE: { JSShape *sh = (JSShape *)gp; if (sh->proto != NULL) { mark_func(rt, &sh->proto->header); } } break; case JS_GC_OBJ_TYPE_JS_CONTEXT: { JSContext *ctx = (JSContext *)gp; JS_MarkContext(rt, ctx, mark_func); } break; default: abort(); } } static void gc_decref_child(JSRuntime *rt, JSGCObjectHeader *p) { assert(p->ref_count > 0); p->ref_count--; if (p->ref_count == 0 && p->mark == 1) { list_del(&p->link); list_add_tail(&p->link, &rt->tmp_obj_list); } } static void gc_decref(JSRuntime *rt) { struct list_head *el, *el1; JSGCObjectHeader *p; init_list_head(&rt->tmp_obj_list); /* decrement the refcount of all the children of all the GC objects and move the GC objects with zero refcount to tmp_obj_list */ list_for_each_safe(el, el1, &rt->gc_obj_list) { p = list_entry(el, JSGCObjectHeader, link); assert(p->mark == 0); mark_children(rt, p, gc_decref_child); p->mark = 1; if (p->ref_count == 0) { list_del(&p->link); list_add_tail(&p->link, &rt->tmp_obj_list); } } } static void gc_scan_incref_child(JSRuntime *rt, JSGCObjectHeader *p) { p->ref_count++; if (p->ref_count == 1) { /* ref_count was 0: remove from tmp_obj_list and add at the end of gc_obj_list */ list_del(&p->link); list_add_tail(&p->link, &rt->gc_obj_list); p->mark = 0; /* reset the mark for the next GC call */ } } static void gc_scan_incref_child2(JSRuntime *rt, JSGCObjectHeader *p) { p->ref_count++; } static void gc_scan(JSRuntime *rt) { struct list_head *el; JSGCObjectHeader *p; /* keep the objects with a refcount > 0 and their children. */ list_for_each(el, &rt->gc_obj_list) { p = list_entry(el, JSGCObjectHeader, link); assert(p->ref_count > 0); p->mark = 0; /* reset the mark for the next GC call */ mark_children(rt, p, gc_scan_incref_child); } /* restore the refcount of the objects to be deleted. */ list_for_each(el, &rt->tmp_obj_list) { p = list_entry(el, JSGCObjectHeader, link); mark_children(rt, p, gc_scan_incref_child2); } } static void gc_free_cycles(JSRuntime *rt) { struct list_head *el, *el1; JSGCObjectHeader *p; #ifdef DUMP_GC_FREE BOOL header_done = FALSE; #endif rt->gc_phase = JS_GC_PHASE_REMOVE_CYCLES; for(;;) { el = rt->tmp_obj_list.next; if (el == &rt->tmp_obj_list) break; p = list_entry(el, JSGCObjectHeader, link); /* Only need to free the GC object associated with JS values. The rest will be automatically removed because they must be referenced by them. */ switch(p->gc_obj_type) { case JS_GC_OBJ_TYPE_JS_OBJECT: case JS_GC_OBJ_TYPE_FUNCTION_BYTECODE: #ifdef DUMP_GC_FREE if (check_dump_flag(rt, DUMP_GC_FREE)) { if (!header_done) { printf("Freeing cycles:\n"); JS_DumpObjectHeader(rt); header_done = TRUE; } JS_DumpGCObject(rt, p); } #endif free_gc_object(rt, p); break; default: list_del(&p->link); list_add_tail(&p->link, &rt->gc_zero_ref_count_list); break; } } rt->gc_phase = JS_GC_PHASE_NONE; list_for_each_safe(el, el1, &rt->gc_zero_ref_count_list) { p = list_entry(el, JSGCObjectHeader, link); assert(p->gc_obj_type == JS_GC_OBJ_TYPE_JS_OBJECT || p->gc_obj_type == JS_GC_OBJ_TYPE_FUNCTION_BYTECODE); js_free_rt(rt, p); } init_list_head(&rt->gc_zero_ref_count_list); } void JS_RunGC(JSRuntime *rt) { /* decrement the reference of the children of each object. mark = 1 after this pass. */ gc_decref(rt); /* keep the GC objects with a non zero refcount and their childs */ gc_scan(rt); /* free the GC objects in a cycle */ gc_free_cycles(rt); } /* Return false if not an object or if the object has already been freed (zombie objects are visible in finalizers when freeing cycles). */ BOOL JS_IsLiveObject(JSRuntime *rt, JSValue obj) { JSObject *p; if (!JS_IsObject(obj)) return FALSE; p = JS_VALUE_GET_OBJ(obj); return !p->free_mark; } /* Compute memory used by various object types */ /* XXX: poor man's approach to handling multiply referenced objects */ typedef struct JSMemoryUsage_helper { double memory_used_count; double str_count; double str_size; int64_t js_func_count; double js_func_size; int64_t js_func_code_size; int64_t js_func_pc2line_count; int64_t js_func_pc2line_size; } JSMemoryUsage_helper; static void compute_value_size(JSValue val, JSMemoryUsage_helper *hp); static void compute_jsstring_size(JSString *str, JSMemoryUsage_helper *hp) { if (!str->atom_type) { /* atoms are handled separately */ double s_ref_count = str->header.ref_count; hp->str_count += 1 / s_ref_count; hp->str_size += ((sizeof(*str) + (str->len << str->is_wide_char) + 1 - str->is_wide_char) / s_ref_count); } } static void compute_bytecode_size(JSFunctionBytecode *b, JSMemoryUsage_helper *hp) { int memory_used_count, js_func_size, i; memory_used_count = 0; js_func_size = sizeof(*b); if (b->vardefs) { js_func_size += (b->arg_count + b->var_count) * sizeof(*b->vardefs); } if (b->cpool) { js_func_size += b->cpool_count * sizeof(*b->cpool); for (i = 0; i < b->cpool_count; i++) { JSValue val = b->cpool[i]; compute_value_size(val, hp); } } if (b->closure_var) { js_func_size += b->closure_var_count * sizeof(*b->closure_var); } if (b->byte_code_buf) { hp->js_func_code_size += b->byte_code_len; } memory_used_count++; js_func_size += b->source_len + 1; if (b->pc2line_len) { memory_used_count++; hp->js_func_pc2line_count += 1; hp->js_func_pc2line_size += b->pc2line_len; } hp->js_func_size += js_func_size; hp->js_func_count += 1; hp->memory_used_count += memory_used_count; } static void compute_value_size(JSValue val, JSMemoryUsage_helper *hp) { switch(JS_VALUE_GET_TAG(val)) { case JS_TAG_STRING: compute_jsstring_size(JS_VALUE_GET_STRING(val), hp); break; case JS_TAG_BIG_INT: /* should track JSBigInt usage */ break; } } void JS_ComputeMemoryUsage(JSRuntime *rt, JSMemoryUsage *s) { struct list_head *el, *el1; int i; JSMemoryUsage_helper mem = { 0 }, *hp = &mem; memset(s, 0, sizeof(*s)); s->malloc_count = rt->malloc_state.malloc_count; s->malloc_size = rt->malloc_state.malloc_size; s->malloc_limit = rt->malloc_state.malloc_limit; s->memory_used_count = 2; /* rt + rt->class_array */ s->memory_used_size = sizeof(JSRuntime) + sizeof(JSClass) * rt->class_count; list_for_each(el, &rt->context_list) { JSContext *ctx = list_entry(el, JSContext, link); JSShape *sh = ctx->array_shape; s->memory_used_count += 2; /* ctx + ctx->class_proto */ s->memory_used_size += sizeof(JSContext) + sizeof(JSValue) * rt->class_count; s->binary_object_count += ctx->binary_object_count; s->binary_object_size += ctx->binary_object_size; /* the hashed shapes are counted separately */ if (sh && !sh->is_hashed) { int hash_size = sh->prop_hash_mask + 1; s->shape_count++; s->shape_size += get_shape_size(hash_size, sh->prop_size); } list_for_each(el1, &ctx->loaded_modules) { JSModuleDef *m = list_entry(el1, JSModuleDef, link); s->memory_used_count += 1; s->memory_used_size += sizeof(*m); if (m->req_module_entries) { s->memory_used_count += 1; s->memory_used_size += m->req_module_entries_count * sizeof(*m->req_module_entries); } if (m->export_entries) { s->memory_used_count += 1; s->memory_used_size += m->export_entries_count * sizeof(*m->export_entries); for (i = 0; i < m->export_entries_count; i++) { JSExportEntry *me = &m->export_entries[i]; if (me->export_type == JS_EXPORT_TYPE_LOCAL && me->u.local.var_ref) { /* potential multiple count */ s->memory_used_count += 1; compute_value_size(me->u.local.var_ref->value, hp); } } } if (m->star_export_entries) { s->memory_used_count += 1; s->memory_used_size += m->star_export_entries_count * sizeof(*m->star_export_entries); } if (m->import_entries) { s->memory_used_count += 1; s->memory_used_size += m->import_entries_count * sizeof(*m->import_entries); } compute_value_size(m->module_ns, hp); compute_value_size(m->func_obj, hp); } } list_for_each(el, &rt->gc_obj_list) { JSGCObjectHeader *gp = list_entry(el, JSGCObjectHeader, link); JSObject *p; JSShape *sh; JSShapeProperty *prs; /* XXX: could count the other GC object types too */ if (gp->gc_obj_type == JS_GC_OBJ_TYPE_FUNCTION_BYTECODE) { compute_bytecode_size((JSFunctionBytecode *)gp, hp); continue; } else if (gp->gc_obj_type != JS_GC_OBJ_TYPE_JS_OBJECT) { continue; } p = (JSObject *)gp; sh = p->shape; s->obj_count++; if (p->prop) { s->memory_used_count++; s->prop_size += sh->prop_size * sizeof(*p->prop); s->prop_count += sh->prop_count; prs = get_shape_prop(sh); for(i = 0; i < sh->prop_count; i++) { JSProperty *pr = &p->prop[i]; if (prs->atom != JS_ATOM_NULL && !(prs->flags & JS_PROP_TMASK)) { compute_value_size(pr->u.value, hp); } prs++; } } /* the hashed shapes are counted separately */ if (!sh->is_hashed) { int hash_size = sh->prop_hash_mask + 1; s->shape_count++; s->shape_size += get_shape_size(hash_size, sh->prop_size); } switch(p->class_id) { case JS_CLASS_ARRAY: /* u.array | length */ case JS_CLASS_ARGUMENTS: /* u.array | length */ s->array_count++; if (p->fast_array) { s->fast_array_count++; if (p->u.array.u.values) { s->memory_used_count++; s->memory_used_size += p->u.array.count * sizeof(*p->u.array.u.values); s->fast_array_elements += p->u.array.count; for (i = 0; i < p->u.array.count; i++) { compute_value_size(p->u.array.u.values[i], hp); } } } break; case JS_CLASS_NUMBER: /* u.object_data */ case JS_CLASS_STRING: /* u.object_data */ case JS_CLASS_BOOLEAN: /* u.object_data */ case JS_CLASS_SYMBOL: /* u.object_data */ case JS_CLASS_DATE: /* u.object_data */ case JS_CLASS_BIG_INT: /* u.object_data */ compute_value_size(p->u.object_data, hp); break; case JS_CLASS_C_FUNCTION: /* u.cfunc */ s->c_func_count++; break; case JS_CLASS_BYTECODE_FUNCTION: /* u.func */ { JSFunctionBytecode *b = p->u.func.function_bytecode; JSVarRef **var_refs = p->u.func.var_refs; /* home_object: object will be accounted for in list scan */ if (var_refs) { s->memory_used_count++; s->js_func_size += b->closure_var_count * sizeof(*var_refs); for (i = 0; i < b->closure_var_count; i++) { if (var_refs[i]) { double ref_count = var_refs[i]->header.ref_count; s->memory_used_count += 1 / ref_count; s->js_func_size += sizeof(*var_refs[i]) / ref_count; /* handle non object closed values */ if (var_refs[i]->pvalue == &var_refs[i]->value) { /* potential multiple count */ compute_value_size(var_refs[i]->value, hp); } } } } } break; case JS_CLASS_BOUND_FUNCTION: /* u.bound_function */ { JSBoundFunction *bf = p->u.bound_function; /* func_obj and this_val are objects */ for (i = 0; i < bf->argc; i++) { compute_value_size(bf->argv[i], hp); } s->memory_used_count += 1; s->memory_used_size += sizeof(*bf) + bf->argc * sizeof(*bf->argv); } break; case JS_CLASS_C_FUNCTION_DATA: /* u.c_function_data_record */ { JSCFunctionDataRecord *fd = p->u.c_function_data_record; if (fd) { for (i = 0; i < fd->data_len; i++) { compute_value_size(fd->data[i], hp); } s->memory_used_count += 1; s->memory_used_size += sizeof(*fd) + fd->data_len * sizeof(*fd->data); } } break; case JS_CLASS_REGEXP: /* u.regexp */ compute_jsstring_size(p->u.regexp.pattern, hp); compute_jsstring_size(p->u.regexp.bytecode, hp); break; case JS_CLASS_FOR_IN_ITERATOR: /* u.for_in_iterator */ { JSForInIterator *it = p->u.for_in_iterator; if (it) { compute_value_size(it->obj, hp); s->memory_used_count += 1; s->memory_used_size += sizeof(*it); } } break; case JS_CLASS_ARRAY_BUFFER: /* u.array_buffer */ case JS_CLASS_SHARED_ARRAY_BUFFER: /* u.array_buffer */ { JSArrayBuffer *abuf = p->u.array_buffer; if (abuf) { s->memory_used_count += 1; s->memory_used_size += sizeof(*abuf); if (abuf->data) { s->memory_used_count += 1; s->memory_used_size += abuf->byte_length; } } } break; case JS_CLASS_GENERATOR: /* u.generator_data */ case JS_CLASS_UINT8C_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_INT8_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_UINT8_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_INT16_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_UINT16_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_INT32_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_UINT32_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_BIG_INT64_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_BIG_UINT64_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_FLOAT16_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_FLOAT32_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_FLOAT64_ARRAY: /* u.typed_array / u.array */ case JS_CLASS_DATAVIEW: /* u.typed_array */ case JS_CLASS_MAP: /* u.map_state */ case JS_CLASS_SET: /* u.map_state */ case JS_CLASS_WEAKMAP: /* u.map_state */ case JS_CLASS_WEAKSET: /* u.map_state */ case JS_CLASS_MAP_ITERATOR: /* u.map_iterator_data */ case JS_CLASS_SET_ITERATOR: /* u.map_iterator_data */ case JS_CLASS_ARRAY_ITERATOR: /* u.array_iterator_data */ case JS_CLASS_STRING_ITERATOR: /* u.array_iterator_data */ case JS_CLASS_PROXY: /* u.proxy_data */ case JS_CLASS_PROMISE: /* u.promise_data */ case JS_CLASS_PROMISE_RESOLVE_FUNCTION: /* u.promise_function_data */ case JS_CLASS_PROMISE_REJECT_FUNCTION: /* u.promise_function_data */ case JS_CLASS_ASYNC_FUNCTION_RESOLVE: /* u.async_function_data */ case JS_CLASS_ASYNC_FUNCTION_REJECT: /* u.async_function_data */ case JS_CLASS_ASYNC_FROM_SYNC_ITERATOR: /* u.async_from_sync_iterator_data */ case JS_CLASS_ASYNC_GENERATOR: /* u.async_generator_data */ /* TODO */ default: /* XXX: class definition should have an opaque block size */ if (p->u.opaque) { s->memory_used_count += 1; } break; } } s->obj_size += s->obj_count * sizeof(JSObject); /* hashed shapes */ s->memory_used_count++; /* rt->shape_hash */ s->memory_used_size += sizeof(rt->shape_hash[0]) * rt->shape_hash_size; for(i = 0; i < rt->shape_hash_size; i++) { JSShape *sh; for(sh = rt->shape_hash[i]; sh != NULL; sh = sh->shape_hash_next) { int hash_size = sh->prop_hash_mask + 1; s->shape_count++; s->shape_size += get_shape_size(hash_size, sh->prop_size); } } /* atoms */ s->memory_used_count += 2; /* rt->atom_array, rt->atom_hash */ s->atom_count = rt->atom_count; s->atom_size = sizeof(rt->atom_array[0]) * rt->atom_size + sizeof(rt->atom_hash[0]) * rt->atom_hash_size; for(i = 0; i < rt->atom_size; i++) { JSAtomStruct *p = rt->atom_array[i]; if (!atom_is_free(p)) { s->atom_size += (sizeof(*p) + (p->len << p->is_wide_char) + 1 - p->is_wide_char); } } s->str_count = round(mem.str_count); s->str_size = round(mem.str_size); s->js_func_count = mem.js_func_count; s->js_func_size = round(mem.js_func_size); s->js_func_code_size = mem.js_func_code_size; s->js_func_pc2line_count = mem.js_func_pc2line_count; s->js_func_pc2line_size = mem.js_func_pc2line_size; s->memory_used_count += round(mem.memory_used_count) + s->atom_count + s->str_count + s->obj_count + s->shape_count + s->js_func_count + s->js_func_pc2line_count; s->memory_used_size += s->atom_size + s->str_size + s->obj_size + s->prop_size + s->shape_size + s->js_func_size + s->js_func_code_size + s->js_func_pc2line_size; } void JS_DumpMemoryUsage(FILE *fp, const JSMemoryUsage *s, JSRuntime *rt) { fprintf(fp, "QuickJS-ng memory usage -- %s version, %d-bit, %s Endian, malloc limit: %"PRId64"\n\n", JS_GetVersion(), (int)sizeof(void *) * 8, is_be() ? "Big" : "Little", s->malloc_limit); if (rt) { static const struct { const char *name; size_t size; } object_types[] = { { "JSRuntime", sizeof(JSRuntime) }, { "JSContext", sizeof(JSContext) }, { "JSObject", sizeof(JSObject) }, { "JSString", sizeof(JSString) }, { "JSFunctionBytecode", sizeof(JSFunctionBytecode) }, }; int i, usage_size_ok = 0; for(i = 0; i < countof(object_types); i++) { unsigned int size = object_types[i].size; void *p = js_malloc_rt(rt, size); if (p) { unsigned int size1 = js_malloc_usable_size_rt(rt, p); if (size1 >= size) { usage_size_ok = 1; fprintf(fp, " %3u + %-2u %s\n", size, size1 - size, object_types[i].name); } js_free_rt(rt, p); } } if (!usage_size_ok) { fprintf(fp, " malloc_usable_size unavailable\n"); } { int obj_classes[JS_CLASS_INIT_COUNT + 1] = { 0 }; int class_id; struct list_head *el; list_for_each(el, &rt->gc_obj_list) { JSGCObjectHeader *gp = list_entry(el, JSGCObjectHeader, link); JSObject *p; if (gp->gc_obj_type == JS_GC_OBJ_TYPE_JS_OBJECT) { p = (JSObject *)gp; obj_classes[min_uint32(p->class_id, JS_CLASS_INIT_COUNT)]++; } } fprintf(fp, "\n" "JSObject classes\n"); if (obj_classes[0]) fprintf(fp, " %5d %2.0d %s\n", obj_classes[0], 0, "none"); for (class_id = 1; class_id < JS_CLASS_INIT_COUNT; class_id++) { if (obj_classes[class_id]) { char buf[ATOM_GET_STR_BUF_SIZE]; fprintf(fp, " %5d %2.0d %s\n", obj_classes[class_id], class_id, JS_AtomGetStrRT(rt, buf, sizeof(buf), js_std_class_def[class_id - 1].class_name)); } } if (obj_classes[JS_CLASS_INIT_COUNT]) fprintf(fp, " %5d %2.0d %s\n", obj_classes[JS_CLASS_INIT_COUNT], 0, "other"); } fprintf(fp, "\n"); } fprintf(fp, "%-20s %8s %8s\n", "NAME", "COUNT", "SIZE"); if (s->malloc_count) { fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per block)\n", "memory allocated", s->malloc_count, s->malloc_size, (double)s->malloc_size / s->malloc_count); fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%d overhead, %0.1f average slack)\n", "memory used", s->memory_used_count, s->memory_used_size, MALLOC_OVERHEAD, ((double)(s->malloc_size - s->memory_used_size) / s->memory_used_count)); } if (s->atom_count) { fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per atom)\n", "atoms", s->atom_count, s->atom_size, (double)s->atom_size / s->atom_count); } if (s->str_count) { fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per string)\n", "strings", s->str_count, s->str_size, (double)s->str_size / s->str_count); } if (s->obj_count) { fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per object)\n", "objects", s->obj_count, s->obj_size, (double)s->obj_size / s->obj_count); fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per object)\n", " properties", s->prop_count, s->prop_size, (double)s->prop_count / s->obj_count); fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per shape)\n", " shapes", s->shape_count, s->shape_size, (double)s->shape_size / s->shape_count); } if (s->js_func_count) { fprintf(fp, "%-20s %8"PRId64" %8"PRId64"\n", "bytecode functions", s->js_func_count, s->js_func_size); fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per function)\n", " bytecode", s->js_func_count, s->js_func_code_size, (double)s->js_func_code_size / s->js_func_count); if (s->js_func_pc2line_count) { fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per function)\n", " pc2line", s->js_func_pc2line_count, s->js_func_pc2line_size, (double)s->js_func_pc2line_size / s->js_func_pc2line_count); } } if (s->c_func_count) { fprintf(fp, "%-20s %8"PRId64"\n", "C functions", s->c_func_count); } if (s->array_count) { fprintf(fp, "%-20s %8"PRId64"\n", "arrays", s->array_count); if (s->fast_array_count) { fprintf(fp, "%-20s %8"PRId64"\n", " fast arrays", s->fast_array_count); fprintf(fp, "%-20s %8"PRId64" %8"PRId64" (%0.1f per fast array)\n", " elements", s->fast_array_elements, s->fast_array_elements * (int)sizeof(JSValue), (double)s->fast_array_elements / s->fast_array_count); } } if (s->binary_object_count) { fprintf(fp, "%-20s %8"PRId64" %8"PRId64"\n", "binary objects", s->binary_object_count, s->binary_object_size); } } JSValue JS_GetGlobalObject(JSContext *ctx) { return js_dup(ctx->global_obj); } /* WARNING: obj is freed */ JSValue JS_Throw(JSContext *ctx, JSValue obj) { JSRuntime *rt = ctx->rt; JS_FreeValue(ctx, rt->current_exception); rt->current_exception = obj; return JS_EXCEPTION; } /* return the pending exception (cannot be called twice). */ JSValue JS_GetException(JSContext *ctx) { JSValue val; JSRuntime *rt = ctx->rt; val = rt->current_exception; rt->current_exception = JS_UNINITIALIZED; return val; } JS_BOOL JS_HasException(JSContext *ctx) { return !JS_IsUninitialized(ctx->rt->current_exception); } static void dbuf_put_leb128(DynBuf *s, uint32_t v) { uint32_t a; for(;;) { a = v & 0x7f; v >>= 7; if (v != 0) { dbuf_putc(s, a | 0x80); } else { dbuf_putc(s, a); break; } } } static void dbuf_put_sleb128(DynBuf *s, int32_t v1) { uint32_t v = v1; dbuf_put_leb128(s, (2 * v) ^ -(v >> 31)); } static int get_leb128(uint32_t *pval, const uint8_t *buf, const uint8_t *buf_end) { const uint8_t *ptr = buf; uint32_t v, a, i; v = 0; for(i = 0; i < 5; i++) { if (unlikely(ptr >= buf_end)) break; a = *ptr++; v |= (a & 0x7f) << (i * 7); if (!(a & 0x80)) { *pval = v; return ptr - buf; } } *pval = 0; return -1; } static int get_sleb128(int32_t *pval, const uint8_t *buf, const uint8_t *buf_end) { int ret; uint32_t val; ret = get_leb128(&val, buf, buf_end); if (ret < 0) { *pval = 0; return -1; } *pval = (val >> 1) ^ -(val & 1); return ret; } static int find_line_num(JSContext *ctx, JSFunctionBytecode *b, uint32_t pc_value, int *col) { const uint8_t *p_end, *p; int new_line_num, new_col_num, line_num, col_num, pc, v, ret; unsigned int op; *col = 1; p = b->pc2line_buf; p_end = p + b->pc2line_len; pc = 0; line_num = b->line_num; col_num = b->col_num; while (p < p_end) { op = *p++; if (op == 0) { uint32_t val; ret = get_leb128(&val, p, p_end); if (ret < 0) goto fail; pc += val; p += ret; ret = get_sleb128(&v, p, p_end); if (ret < 0) goto fail; p += ret; new_line_num = line_num + v; } else { op -= PC2LINE_OP_FIRST; pc += (op / PC2LINE_RANGE); new_line_num = line_num + (op % PC2LINE_RANGE) + PC2LINE_BASE; } ret = get_sleb128(&v, p, p_end); if (ret < 0) goto fail; p += ret; new_col_num = col_num + v; if (pc_value < pc) break; line_num = new_line_num; col_num = new_col_num; } *col = col_num; return line_num; fail: /* should never happen */ return b->line_num; } /* in order to avoid executing arbitrary code during the stack trace generation, we only look at simple 'name' properties containing a string. */ static const char *get_func_name(JSContext *ctx, JSValue func) { JSProperty *pr; JSShapeProperty *prs; JSValue val; if (JS_VALUE_GET_TAG(func) != JS_TAG_OBJECT) return NULL; prs = find_own_property(&pr, JS_VALUE_GET_OBJ(func), JS_ATOM_name); if (!prs) return NULL; if ((prs->flags & JS_PROP_TMASK) != JS_PROP_NORMAL) return NULL; val = pr->u.value; if (JS_VALUE_GET_TAG(val) != JS_TAG_STRING) return NULL; return JS_ToCString(ctx, val); } #define JS_BACKTRACE_FLAG_SKIP_FIRST_LEVEL (1 << 0) /* only taken into account if filename is provided */ #define JS_BACKTRACE_FLAG_SINGLE_LEVEL (1 << 1) /* if filename != NULL, an additional level is added with the filename and line number information (used for parse error). */ static void build_backtrace(JSContext *ctx, JSValue error_obj, const char *filename, int line_num, int col_num, int backtrace_flags) { JSStackFrame *sf; JSValue stack, prepare, saved_exception; DynBuf dbuf; const char *func_name_str; const char *str1; JSObject *p; JSFunctionBytecode *b; BOOL backtrace_barrier, has_prepare; JSRuntime *rt; JSCallSiteData csd[64]; uint32_t i; int stack_trace_limit; stack_trace_limit = ctx->error_stack_trace_limit; stack_trace_limit = min_int(stack_trace_limit, countof(csd)); stack_trace_limit = max_int(stack_trace_limit, 0); rt = ctx->rt; has_prepare = FALSE; i = 0; if (!rt->in_prepare_stack_trace && !JS_IsNull(ctx->error_ctor)) { prepare = js_dup(ctx->error_prepare_stack); has_prepare = JS_IsFunction(ctx, prepare); rt->in_prepare_stack_trace = TRUE; } if (has_prepare) { saved_exception = rt->current_exception; rt->current_exception = JS_NULL; if (stack_trace_limit == 0) goto done; if (filename) js_new_callsite_data2(ctx, &csd[i++], filename, line_num, col_num); } else { js_dbuf_init(ctx, &dbuf); if (stack_trace_limit == 0) goto done; if (filename) { i++; dbuf_printf(&dbuf, " at %s", filename); if (line_num != -1) dbuf_printf(&dbuf, ":%d:%d", line_num, col_num); dbuf_putc(&dbuf, '\n'); } } if (filename && (backtrace_flags & JS_BACKTRACE_FLAG_SINGLE_LEVEL)) goto done; for (sf = rt->current_stack_frame; sf != NULL && i < stack_trace_limit; sf = sf->prev_frame) { if (backtrace_flags & JS_BACKTRACE_FLAG_SKIP_FIRST_LEVEL) { backtrace_flags &= ~JS_BACKTRACE_FLAG_SKIP_FIRST_LEVEL; continue; } p = JS_VALUE_GET_OBJ(sf->cur_func); b = NULL; backtrace_barrier = FALSE; if (js_class_has_bytecode(p->class_id)) { b = p->u.func.function_bytecode; backtrace_barrier = b->backtrace_barrier; } if (has_prepare) { js_new_callsite_data(ctx, &csd[i], sf); } else { /* func_name_str is UTF-8 encoded if needed */ func_name_str = get_func_name(ctx, sf->cur_func); if (!func_name_str || func_name_str[0] == '\0') str1 = ""; else str1 = func_name_str; dbuf_printf(&dbuf, " at %s", str1); JS_FreeCString(ctx, func_name_str); if (b) { const char *atom_str; int line_num1, col_num1; /* Bytecode functions must have cur_pc set in the stack frame. */ if (sf->cur_pc == NULL) abort(); line_num1 = find_line_num(ctx, b, sf->cur_pc - b->byte_code_buf - 1, &col_num1); atom_str = b->filename ? JS_AtomToCString(ctx, b->filename) : NULL; dbuf_printf(&dbuf, " (%s", atom_str ? atom_str : ""); JS_FreeCString(ctx, atom_str); if (line_num1 != -1) dbuf_printf(&dbuf, ":%d:%d", line_num1, col_num1); dbuf_putc(&dbuf, ')'); } else { dbuf_printf(&dbuf, " (native)"); } dbuf_putc(&dbuf, '\n'); } i++; /* stop backtrace if JS_EVAL_FLAG_BACKTRACE_BARRIER was used */ if (backtrace_barrier) break; } done: if (has_prepare) { int j = 0; stack = JS_NewArray(ctx); if (JS_IsException(stack)) { stack = JS_NULL; } else { for (; j < i; j++) { JSValue v = js_new_callsite(ctx, &csd[j]); if (JS_IsException(v)) break; if (JS_DefinePropertyValueUint32(ctx, stack, j, v, JS_PROP_C_W_E) < 0) { JS_FreeValue(ctx, v); break; } } } // Clear the csd's we didn't use in case of error. for (int k = j; k < i; k++) { JS_FreeValue(ctx, csd[k].filename); JS_FreeValue(ctx, csd[k].func); JS_FreeValue(ctx, csd[k].func_name); } JSValue args[] = { error_obj, stack, }; JSValue stack2 = JS_Call(ctx, prepare, ctx->error_ctor, countof(args), args); JS_FreeValue(ctx, stack); if (JS_IsException(stack2)) stack = JS_NULL; else stack = stack2; JS_FreeValue(ctx, prepare); JS_FreeValue(ctx, rt->current_exception); rt->current_exception = saved_exception; } else { if (dbuf_error(&dbuf)) stack = JS_NULL; else stack = JS_NewStringLen(ctx, (char *)dbuf.buf, dbuf.size); dbuf_free(&dbuf); } rt->in_prepare_stack_trace = FALSE; JS_DefinePropertyValue(ctx, error_obj, JS_ATOM_stack, stack, JS_PROP_WRITABLE | JS_PROP_CONFIGURABLE); } /* Note: it is important that no exception is returned by this function */ static BOOL is_backtrace_needed(JSContext *ctx, JSValue obj) { JSObject *p; if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(obj); if (p->class_id != JS_CLASS_ERROR) return FALSE; if (find_own_property1(p, JS_ATOM_stack)) return FALSE; return TRUE; } JSValue JS_NewError(JSContext *ctx) { return JS_NewObjectClass(ctx, JS_CLASS_ERROR); } static JSValue JS_MakeError(JSContext *ctx, JSErrorEnum error_num, const char *message, BOOL add_backtrace) { JSValue obj, msg; if (error_num == JS_PLAIN_ERROR) { obj = JS_NewError(ctx); } else { obj = JS_NewObjectProtoClass(ctx, ctx->native_error_proto[error_num], JS_CLASS_ERROR); } if (JS_IsException(obj)) return JS_EXCEPTION; msg = JS_NewString(ctx, message); if (JS_IsException(msg)) msg = JS_NewString(ctx, "Invalid error message"); if (!JS_IsException(msg)) { JS_DefinePropertyValue(ctx, obj, JS_ATOM_message, msg, JS_PROP_WRITABLE | JS_PROP_CONFIGURABLE); } if (add_backtrace) build_backtrace(ctx, obj, NULL, 0, 0, 0); return obj; } /* fmt and arguments may be pure ASCII or UTF-8 encoded contents */ static JSValue JS_ThrowError2(JSContext *ctx, JSErrorEnum error_num, const char *fmt, va_list ap, BOOL add_backtrace) { char buf[256]; JSValue obj; vsnprintf(buf, sizeof(buf), fmt, ap); obj = JS_MakeError(ctx, error_num, buf, add_backtrace); if (unlikely(JS_IsException(obj))) { /* out of memory: throw JS_NULL to avoid recursing */ obj = JS_NULL; } return JS_Throw(ctx, obj); } static JSValue JS_ThrowError(JSContext *ctx, JSErrorEnum error_num, const char *fmt, va_list ap) { JSRuntime *rt = ctx->rt; JSStackFrame *sf; BOOL add_backtrace; /* the backtrace is added later if called from a bytecode function */ sf = rt->current_stack_frame; add_backtrace = !rt->in_out_of_memory && (!sf || (JS_GetFunctionBytecode(sf->cur_func) == NULL)); return JS_ThrowError2(ctx, error_num, fmt, ap, add_backtrace); } JSValue __attribute__((format(printf, 2, 3))) JS_ThrowPlainError(JSContext *ctx, const char *fmt, ...) { JSValue val; va_list ap; va_start(ap, fmt); val = JS_ThrowError(ctx, JS_PLAIN_ERROR, fmt, ap); va_end(ap); return val; } JSValue __attribute__((format(printf, 2, 3))) JS_ThrowSyntaxError(JSContext *ctx, const char *fmt, ...) { JSValue val; va_list ap; va_start(ap, fmt); val = JS_ThrowError(ctx, JS_SYNTAX_ERROR, fmt, ap); va_end(ap); return val; } JSValue __attribute__((format(printf, 2, 3))) JS_ThrowTypeError(JSContext *ctx, const char *fmt, ...) { JSValue val; va_list ap; va_start(ap, fmt); val = JS_ThrowError(ctx, JS_TYPE_ERROR, fmt, ap); va_end(ap); return val; } static int __attribute__((format(printf, 3, 4))) JS_ThrowTypeErrorOrFalse(JSContext *ctx, int flags, const char *fmt, ...) { va_list ap; if ((flags & JS_PROP_THROW) || ((flags & JS_PROP_THROW_STRICT) && is_strict_mode(ctx))) { va_start(ap, fmt); JS_ThrowError(ctx, JS_TYPE_ERROR, fmt, ap); va_end(ap); return -1; } else { return FALSE; } } /* never use it directly */ static JSValue __attribute__((format(printf, 3, 4))) __JS_ThrowTypeErrorAtom(JSContext *ctx, JSAtom atom, const char *fmt, ...) { char buf[ATOM_GET_STR_BUF_SIZE]; return JS_ThrowTypeError(ctx, fmt, JS_AtomGetStr(ctx, buf, sizeof(buf), atom)); } /* never use it directly */ static JSValue __attribute__((format(printf, 3, 4))) __JS_ThrowSyntaxErrorAtom(JSContext *ctx, JSAtom atom, const char *fmt, ...) { char buf[ATOM_GET_STR_BUF_SIZE]; return JS_ThrowSyntaxError(ctx, fmt, JS_AtomGetStr(ctx, buf, sizeof(buf), atom)); } /* %s is replaced by 'atom'. The macro is used so that gcc can check the format string. */ #define JS_ThrowTypeErrorAtom(ctx, fmt, atom) __JS_ThrowTypeErrorAtom(ctx, atom, fmt, "") #define JS_ThrowSyntaxErrorAtom(ctx, fmt, atom) __JS_ThrowSyntaxErrorAtom(ctx, atom, fmt, "") static int JS_ThrowTypeErrorReadOnly(JSContext *ctx, int flags, JSAtom atom) { if ((flags & JS_PROP_THROW) || ((flags & JS_PROP_THROW_STRICT) && is_strict_mode(ctx))) { JS_ThrowTypeErrorAtom(ctx, "'%s' is read-only", atom); return -1; } else { return FALSE; } } JSValue __attribute__((format(printf, 2, 3))) JS_ThrowReferenceError(JSContext *ctx, const char *fmt, ...) { JSValue val; va_list ap; va_start(ap, fmt); val = JS_ThrowError(ctx, JS_REFERENCE_ERROR, fmt, ap); va_end(ap); return val; } JSValue __attribute__((format(printf, 2, 3))) JS_ThrowRangeError(JSContext *ctx, const char *fmt, ...) { JSValue val; va_list ap; va_start(ap, fmt); val = JS_ThrowError(ctx, JS_RANGE_ERROR, fmt, ap); va_end(ap); return val; } JSValue __attribute__((format(printf, 2, 3))) JS_ThrowInternalError(JSContext *ctx, const char *fmt, ...) { JSValue val; va_list ap; va_start(ap, fmt); val = JS_ThrowError(ctx, JS_INTERNAL_ERROR, fmt, ap); va_end(ap); return val; } JSValue JS_ThrowOutOfMemory(JSContext *ctx) { JSRuntime *rt = ctx->rt; if (!rt->in_out_of_memory) { rt->in_out_of_memory = TRUE; JS_ThrowInternalError(ctx, "out of memory"); rt->in_out_of_memory = FALSE; } return JS_EXCEPTION; } static JSValue JS_ThrowStackOverflow(JSContext *ctx) { return JS_ThrowRangeError(ctx, "Maximum call stack size exceeded"); } static JSValue JS_ThrowTypeErrorNotAnObject(JSContext *ctx) { return JS_ThrowTypeError(ctx, "not an object"); } static JSValue JS_ThrowTypeErrorNotASymbol(JSContext *ctx) { return JS_ThrowTypeError(ctx, "not a symbol"); } static JSValue JS_ThrowReferenceErrorNotDefined(JSContext *ctx, JSAtom name) { char buf[ATOM_GET_STR_BUF_SIZE]; return JS_ThrowReferenceError(ctx, "%s is not defined", JS_AtomGetStr(ctx, buf, sizeof(buf), name)); } static JSValue JS_ThrowReferenceErrorUninitialized(JSContext *ctx, JSAtom name) { char buf[ATOM_GET_STR_BUF_SIZE]; return JS_ThrowReferenceError(ctx, "%s is not initialized", name == JS_ATOM_NULL ? "lexical variable" : JS_AtomGetStr(ctx, buf, sizeof(buf), name)); } static JSValue JS_ThrowReferenceErrorUninitialized2(JSContext *ctx, JSFunctionBytecode *b, int idx, BOOL is_ref) { JSAtom atom = JS_ATOM_NULL; if (is_ref) { atom = b->closure_var[idx].var_name; } else { /* not present if the function is stripped and contains no eval() */ if (b->vardefs) atom = b->vardefs[b->arg_count + idx].var_name; } return JS_ThrowReferenceErrorUninitialized(ctx, atom); } static JSValue JS_ThrowTypeErrorInvalidClass(JSContext *ctx, int class_id) { JSRuntime *rt = ctx->rt; JSAtom name; name = rt->class_array[class_id].class_name; return JS_ThrowTypeErrorAtom(ctx, "%s object expected", name); } static no_inline __exception int __js_poll_interrupts(JSContext *ctx) { JSRuntime *rt = ctx->rt; ctx->interrupt_counter = JS_INTERRUPT_COUNTER_INIT; if (rt->interrupt_handler) { if (rt->interrupt_handler(rt, rt->interrupt_opaque)) { /* XXX: should set a specific flag to avoid catching */ JS_ThrowInternalError(ctx, "interrupted"); JS_SetUncatchableError(ctx, ctx->rt->current_exception, TRUE); return -1; } } return 0; } static inline __exception int js_poll_interrupts(JSContext *ctx) { if (unlikely(--ctx->interrupt_counter <= 0)) { return __js_poll_interrupts(ctx); } else { return 0; } } /* return -1 (exception) or TRUE/FALSE */ static int JS_SetPrototypeInternal(JSContext *ctx, JSValue obj, JSValue proto_val, BOOL throw_flag) { JSObject *proto, *p, *p1; JSShape *sh; if (throw_flag) { if (JS_VALUE_GET_TAG(obj) == JS_TAG_NULL || JS_VALUE_GET_TAG(obj) == JS_TAG_UNDEFINED) goto not_obj; } else { if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) goto not_obj; } p = JS_VALUE_GET_OBJ(obj); if (JS_VALUE_GET_TAG(proto_val) != JS_TAG_OBJECT) { if (JS_VALUE_GET_TAG(proto_val) != JS_TAG_NULL) { not_obj: JS_ThrowTypeErrorNotAnObject(ctx); return -1; } proto = NULL; } else { proto = JS_VALUE_GET_OBJ(proto_val); } if (throw_flag && JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) return TRUE; if (unlikely(p->class_id == JS_CLASS_PROXY)) return js_proxy_setPrototypeOf(ctx, obj, proto_val, throw_flag); sh = p->shape; if (sh->proto == proto) return TRUE; if (p == JS_VALUE_GET_OBJ(ctx->class_proto[JS_CLASS_OBJECT])) { if (throw_flag) { JS_ThrowTypeError(ctx, "'Immutable prototype object \'Object.prototype\' cannot have their prototype set'"); return -1; } return FALSE; } if (!p->extensible) { if (throw_flag) { JS_ThrowTypeError(ctx, "object is not extensible"); return -1; } else { return FALSE; } } if (proto) { /* check if there is a cycle */ p1 = proto; do { if (p1 == p) { if (throw_flag) { JS_ThrowTypeError(ctx, "circular prototype chain"); return -1; } else { return FALSE; } } /* Note: for Proxy objects, proto is NULL */ p1 = p1->shape->proto; } while (p1 != NULL); js_dup(proto_val); } if (js_shape_prepare_update(ctx, p, NULL)) return -1; sh = p->shape; if (sh->proto) JS_FreeValue(ctx, JS_MKPTR(JS_TAG_OBJECT, sh->proto)); sh->proto = proto; return TRUE; } /* return -1 (exception) or TRUE/FALSE */ int JS_SetPrototype(JSContext *ctx, JSValue obj, JSValue proto_val) { return JS_SetPrototypeInternal(ctx, obj, proto_val, TRUE); } /* Only works for primitive types, otherwise return JS_NULL. */ static JSValue JS_GetPrototypePrimitive(JSContext *ctx, JSValue val) { switch(JS_VALUE_GET_NORM_TAG(val)) { case JS_TAG_BIG_INT: val = ctx->class_proto[JS_CLASS_BIG_INT]; break; case JS_TAG_INT: case JS_TAG_FLOAT64: val = ctx->class_proto[JS_CLASS_NUMBER]; break; case JS_TAG_BOOL: val = ctx->class_proto[JS_CLASS_BOOLEAN]; break; case JS_TAG_STRING: val = ctx->class_proto[JS_CLASS_STRING]; break; case JS_TAG_SYMBOL: val = ctx->class_proto[JS_CLASS_SYMBOL]; break; case JS_TAG_OBJECT: case JS_TAG_NULL: case JS_TAG_UNDEFINED: default: val = JS_NULL; break; } return val; } /* Return an Object, JS_NULL or JS_EXCEPTION in case of Proxy object. */ JSValue JS_GetPrototype(JSContext *ctx, JSValue obj) { JSValue val; if (JS_VALUE_GET_TAG(obj) == JS_TAG_OBJECT) { JSObject *p; p = JS_VALUE_GET_OBJ(obj); if (unlikely(p->class_id == JS_CLASS_PROXY)) { val = js_proxy_getPrototypeOf(ctx, obj); } else { p = p->shape->proto; if (!p) val = JS_NULL; else val = js_dup(JS_MKPTR(JS_TAG_OBJECT, p)); } } else { val = js_dup(JS_GetPrototypePrimitive(ctx, obj)); } return val; } static JSValue JS_GetPrototypeFree(JSContext *ctx, JSValue obj) { JSValue obj1; obj1 = JS_GetPrototype(ctx, obj); JS_FreeValue(ctx, obj); return obj1; } int JS_GetLength(JSContext *ctx, JSValue obj, int64_t *pres) { return js_get_length64(ctx, pres, obj); } int JS_SetLength(JSContext *ctx, JSValue obj, int64_t len) { return js_set_length64(ctx, obj, len); } /* return TRUE, FALSE or (-1) in case of exception */ static int JS_OrdinaryIsInstanceOf(JSContext *ctx, JSValue val, JSValue obj) { JSValue obj_proto; JSObject *proto; const JSObject *p, *proto1; BOOL ret; if (!JS_IsFunction(ctx, obj)) return FALSE; p = JS_VALUE_GET_OBJ(obj); if (p->class_id == JS_CLASS_BOUND_FUNCTION) { JSBoundFunction *s = p->u.bound_function; return JS_IsInstanceOf(ctx, val, s->func_obj); } /* Only explicitly boxed values are instances of constructors */ if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return FALSE; obj_proto = JS_GetProperty(ctx, obj, JS_ATOM_prototype); if (JS_VALUE_GET_TAG(obj_proto) != JS_TAG_OBJECT) { if (!JS_IsException(obj_proto)) JS_ThrowTypeError(ctx, "operand 'prototype' property is not an object"); ret = -1; goto done; } proto = JS_VALUE_GET_OBJ(obj_proto); p = JS_VALUE_GET_OBJ(val); for(;;) { proto1 = p->shape->proto; if (!proto1) { /* slow case if proxy in the prototype chain */ if (unlikely(p->class_id == JS_CLASS_PROXY)) { JSValue obj1; obj1 = js_dup(JS_MKPTR(JS_TAG_OBJECT, (JSObject *)p)); for(;;) { obj1 = JS_GetPrototypeFree(ctx, obj1); if (JS_IsException(obj1)) { ret = -1; break; } if (JS_IsNull(obj1)) { ret = FALSE; break; } if (proto == JS_VALUE_GET_OBJ(obj1)) { JS_FreeValue(ctx, obj1); ret = TRUE; break; } /* must check for timeout to avoid infinite loop */ if (js_poll_interrupts(ctx)) { JS_FreeValue(ctx, obj1); ret = -1; break; } } } else { ret = FALSE; } break; } p = proto1; if (proto == p) { ret = TRUE; break; } } done: JS_FreeValue(ctx, obj_proto); return ret; } /* return TRUE, FALSE or (-1) in case of exception */ int JS_IsInstanceOf(JSContext *ctx, JSValue val, JSValue obj) { JSValue method; if (!JS_IsObject(obj)) goto fail; method = JS_GetProperty(ctx, obj, JS_ATOM_Symbol_hasInstance); if (JS_IsException(method)) return -1; if (!JS_IsNull(method) && !JS_IsUndefined(method)) { JSValue ret; ret = JS_CallFree(ctx, method, obj, 1, &val); return JS_ToBoolFree(ctx, ret); } /* legacy case */ if (!JS_IsFunction(ctx, obj)) { fail: JS_ThrowTypeError(ctx, "invalid 'instanceof' right operand"); return -1; } return JS_OrdinaryIsInstanceOf(ctx, val, obj); } /* return the value associated to the autoinit property or an exception */ typedef JSValue JSAutoInitFunc(JSContext *ctx, JSObject *p, JSAtom atom, void *opaque); static JSAutoInitFunc *js_autoinit_func_table[] = { js_instantiate_prototype, /* JS_AUTOINIT_ID_PROTOTYPE */ js_module_ns_autoinit, /* JS_AUTOINIT_ID_MODULE_NS */ JS_InstantiateFunctionListItem2, /* JS_AUTOINIT_ID_PROP */ }; /* warning: 'prs' is reallocated after it */ static int JS_AutoInitProperty(JSContext *ctx, JSObject *p, JSAtom prop, JSProperty *pr, JSShapeProperty *prs) { JSValue val; JSContext *realm; JSAutoInitFunc *func; if (js_shape_prepare_update(ctx, p, &prs)) return -1; realm = js_autoinit_get_realm(pr); func = js_autoinit_func_table[js_autoinit_get_id(pr)]; /* 'func' shall not modify the object properties 'pr' */ val = func(realm, p, prop, pr->u.init.opaque); js_autoinit_free(ctx->rt, pr); prs->flags &= ~JS_PROP_TMASK; pr->u.value = JS_UNDEFINED; if (JS_IsException(val)) return -1; pr->u.value = val; return 0; } static JSValue JS_GetPropertyInternal2(JSContext *ctx, JSValue obj, JSAtom prop, JSValue this_obj, JSInlineCache* ic, BOOL throw_ref_error) { JSObject *p; JSProperty *pr; JSShapeProperty *prs; uint32_t tag, offset, proto_depth; offset = proto_depth = 0; tag = JS_VALUE_GET_TAG(obj); if (unlikely(tag != JS_TAG_OBJECT)) { switch(tag) { case JS_TAG_NULL: return JS_ThrowTypeErrorAtom(ctx, "cannot read property '%s' of null", prop); case JS_TAG_UNDEFINED: return JS_ThrowTypeErrorAtom(ctx, "cannot read property '%s' of undefined", prop); case JS_TAG_EXCEPTION: return JS_EXCEPTION; case JS_TAG_STRING: { JSString *p1 = JS_VALUE_GET_STRING(obj); if (__JS_AtomIsTaggedInt(prop)) { uint32_t idx, ch; idx = __JS_AtomToUInt32(prop); if (idx < p1->len) { ch = string_get(p1, idx); return js_new_string_char(ctx, ch); } } else if (prop == JS_ATOM_length) { return js_int32(p1->len); } } break; default: break; } /* cannot raise an exception */ p = JS_VALUE_GET_OBJ(JS_GetPrototypePrimitive(ctx, obj)); if (!p) return JS_UNDEFINED; } else { p = JS_VALUE_GET_OBJ(obj); } for(;;) { prs = find_own_property_ic(&pr, p, prop, &offset); if (prs) { /* found */ if (unlikely(prs->flags & JS_PROP_TMASK)) { if ((prs->flags & JS_PROP_TMASK) == JS_PROP_GETSET) { if (unlikely(!pr->u.getset.getter)) { return JS_UNDEFINED; } else { JSValue func = JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.getter); /* Note: the field could be removed in the getter */ func = js_dup(func); return JS_CallFree(ctx, func, this_obj, 0, NULL); } } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) { JSValue val = *pr->u.var_ref->pvalue; if (unlikely(JS_IsUninitialized(val))) return JS_ThrowReferenceErrorUninitialized(ctx, prs->atom); return js_dup(val); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { /* Instantiate property and retry */ if (JS_AutoInitProperty(ctx, p, prop, pr, prs)) return JS_EXCEPTION; continue; } } else { if (ic && proto_depth == 0 && p->shape->is_hashed) { ic->updated = TRUE; ic->updated_offset = add_ic_slot(ctx, ic, prop, p, offset); } return js_dup(pr->u.value); } } if (unlikely(p->is_exotic)) { /* exotic behaviors */ if (p->fast_array) { if (__JS_AtomIsTaggedInt(prop)) { uint32_t idx = __JS_AtomToUInt32(prop); if (idx < p->u.array.count) { /* we avoid duplicating the code */ return JS_GetPropertyUint32(ctx, JS_MKPTR(JS_TAG_OBJECT, p), idx); } else if (p->class_id >= JS_CLASS_UINT8C_ARRAY && p->class_id <= JS_CLASS_FLOAT64_ARRAY) { return JS_UNDEFINED; } } else if (p->class_id >= JS_CLASS_UINT8C_ARRAY && p->class_id <= JS_CLASS_FLOAT64_ARRAY) { int ret; ret = JS_AtomIsNumericIndex(ctx, prop); if (ret != 0) { if (ret < 0) return JS_EXCEPTION; return JS_UNDEFINED; } } } else { const JSClassExoticMethods *em = ctx->rt->class_array[p->class_id].exotic; if (em) { if (em->get_property) { JSValue obj1, retval; /* XXX: should pass throw_ref_error */ /* Note: if 'p' is a prototype, it can be freed in the called function */ obj1 = js_dup(JS_MKPTR(JS_TAG_OBJECT, p)); retval = em->get_property(ctx, obj1, prop, this_obj); JS_FreeValue(ctx, obj1); return retval; } if (em->get_own_property) { JSPropertyDescriptor desc; int ret; JSValue obj1; /* Note: if 'p' is a prototype, it can be freed in the called function */ obj1 = js_dup(JS_MKPTR(JS_TAG_OBJECT, p)); ret = em->get_own_property(ctx, &desc, obj1, prop); JS_FreeValue(ctx, obj1); if (ret < 0) return JS_EXCEPTION; if (ret) { if (desc.flags & JS_PROP_GETSET) { JS_FreeValue(ctx, desc.setter); return JS_CallFree(ctx, desc.getter, this_obj, 0, NULL); } else { return desc.value; } } } } } } proto_depth++; p = p->shape->proto; if (!p) break; } if (unlikely(throw_ref_error)) { return JS_ThrowReferenceErrorNotDefined(ctx, prop); } else { return JS_UNDEFINED; } } static JSValue JS_GetPropertyInternal(JSContext *ctx, JSValue obj, JSAtom prop, JSValue this_obj, BOOL throw_ref_error) { return JS_GetPropertyInternal2(ctx, obj, prop, this_obj, NULL, throw_ref_error); } JSValue JS_GetProperty(JSContext *ctx, JSValue this_obj, JSAtom prop) { return JS_GetPropertyInternal2(ctx, this_obj, prop, this_obj, NULL, FALSE); } static JSValue JS_GetPropertyInternalWithIC(JSContext *ctx, JSValue obj, JSAtom prop, JSValue this_obj, JSInlineCache *ic, int32_t offset, BOOL throw_ref_error) { uint32_t tag; JSObject *p; tag = JS_VALUE_GET_TAG(obj); if (unlikely(tag != JS_TAG_OBJECT)) goto slow_path; p = JS_VALUE_GET_OBJ(obj); offset = get_ic_prop_offset(ic, offset, p->shape); if (likely(offset >= 0)) return js_dup(p->prop[offset].u.value); slow_path: return JS_GetPropertyInternal2(ctx, obj, prop, this_obj, ic, throw_ref_error); } static JSValue JS_ThrowTypeErrorPrivateNotFound(JSContext *ctx, JSAtom atom) { return JS_ThrowTypeErrorAtom(ctx, "private class field '%s' does not exist", atom); } /* Private fields can be added even on non extensible objects or Proxies */ static int JS_DefinePrivateField(JSContext *ctx, JSValue obj, JSValue name, JSValue val) { JSObject *p; JSShapeProperty *prs; JSProperty *pr; JSAtom prop; if (unlikely(JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT)) { JS_ThrowTypeErrorNotAnObject(ctx); goto fail; } /* safety check */ if (unlikely(JS_VALUE_GET_TAG(name) != JS_TAG_SYMBOL)) { JS_ThrowTypeErrorNotASymbol(ctx); goto fail; } prop = js_symbol_to_atom(ctx, name); p = JS_VALUE_GET_OBJ(obj); prs = find_own_property(&pr, p, prop); if (prs) { JS_ThrowTypeErrorAtom(ctx, "private class field '%s' already exists", prop); goto fail; } pr = add_property(ctx, p, prop, JS_PROP_C_W_E); if (unlikely(!pr)) { fail: JS_FreeValue(ctx, val); return -1; } pr->u.value = val; return 0; } static JSValue JS_GetPrivateField(JSContext *ctx, JSValue obj, JSValue name) { JSObject *p; JSShapeProperty *prs; JSProperty *pr; JSAtom prop; if (unlikely(JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT)) return JS_ThrowTypeErrorNotAnObject(ctx); /* safety check */ if (unlikely(JS_VALUE_GET_TAG(name) != JS_TAG_SYMBOL)) return JS_ThrowTypeErrorNotASymbol(ctx); prop = js_symbol_to_atom(ctx, name); p = JS_VALUE_GET_OBJ(obj); prs = find_own_property(&pr, p, prop); if (!prs) { JS_ThrowTypeErrorPrivateNotFound(ctx, prop); return JS_EXCEPTION; } return js_dup(pr->u.value); } static int JS_SetPrivateField(JSContext *ctx, JSValue obj, JSValue name, JSValue val) { JSObject *p; JSShapeProperty *prs; JSProperty *pr; JSAtom prop; if (unlikely(JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT)) { JS_ThrowTypeErrorNotAnObject(ctx); goto fail; } /* safety check */ if (unlikely(JS_VALUE_GET_TAG(name) != JS_TAG_SYMBOL)) { JS_ThrowTypeErrorNotASymbol(ctx); goto fail; } prop = js_symbol_to_atom(ctx, name); p = JS_VALUE_GET_OBJ(obj); prs = find_own_property(&pr, p, prop); if (!prs) { JS_ThrowTypeErrorPrivateNotFound(ctx, prop); fail: JS_FreeValue(ctx, val); return -1; } set_value(ctx, &pr->u.value, val); return 0; } /* add a private brand field to 'home_obj' if not already present and if obj is != null add a private brand to it */ static int JS_AddBrand(JSContext *ctx, JSValue obj, JSValue home_obj) { JSObject *p, *p1; JSShapeProperty *prs; JSProperty *pr; JSValue brand; JSAtom brand_atom; if (unlikely(JS_VALUE_GET_TAG(home_obj) != JS_TAG_OBJECT)) { JS_ThrowTypeErrorNotAnObject(ctx); return -1; } p = JS_VALUE_GET_OBJ(home_obj); prs = find_own_property(&pr, p, JS_ATOM_Private_brand); if (!prs) { /* if the brand is not present, add it */ brand = JS_NewSymbolFromAtom(ctx, JS_ATOM_brand, JS_ATOM_TYPE_PRIVATE); if (JS_IsException(brand)) return -1; pr = add_property(ctx, p, JS_ATOM_Private_brand, JS_PROP_C_W_E); if (!pr) { JS_FreeValue(ctx, brand); return -1; } pr->u.value = js_dup(brand); } else { brand = js_dup(pr->u.value); } brand_atom = js_symbol_to_atom(ctx, brand); if (JS_IsObject(obj)) { p1 = JS_VALUE_GET_OBJ(obj); prs = find_own_property(&pr, p1, brand_atom); if (unlikely(prs)) { JS_FreeAtom(ctx, brand_atom); JS_ThrowTypeError(ctx, "private method is already present"); return -1; } pr = add_property(ctx, p1, brand_atom, JS_PROP_C_W_E); JS_FreeAtom(ctx, brand_atom); if (!pr) return -1; pr->u.value = JS_UNDEFINED; } else { JS_FreeAtom(ctx, brand_atom); } return 0; } /* return a boolean telling if the brand of the home object of 'func' is present on 'obj' or -1 in case of exception */ static int JS_CheckBrand(JSContext *ctx, JSValue obj, JSValue func) { JSObject *p, *p1, *home_obj; JSShapeProperty *prs; JSProperty *pr; JSValue brand; /* get the home object of 'func' */ if (unlikely(JS_VALUE_GET_TAG(func) != JS_TAG_OBJECT)) goto not_obj; p1 = JS_VALUE_GET_OBJ(func); if (!js_class_has_bytecode(p1->class_id)) goto not_obj; home_obj = p1->u.func.home_object; if (!home_obj) goto not_obj; prs = find_own_property(&pr, home_obj, JS_ATOM_Private_brand); if (!prs) { JS_ThrowTypeError(ctx, "expecting private field"); return -1; } brand = pr->u.value; /* safety check */ if (unlikely(JS_VALUE_GET_TAG(brand) != JS_TAG_SYMBOL)) goto not_obj; /* get the brand array of 'obj' */ if (unlikely(JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT)) { not_obj: JS_ThrowTypeErrorNotAnObject(ctx); return -1; } p = JS_VALUE_GET_OBJ(obj); prs = find_own_property(&pr, p, js_symbol_to_atom(ctx, brand)); return (prs != NULL); } static uint32_t js_string_obj_get_length(JSContext *ctx, JSValue obj) { JSObject *p; JSString *p1; uint32_t len = 0; /* This is a class exotic method: obj class_id is JS_CLASS_STRING */ p = JS_VALUE_GET_OBJ(obj); if (JS_VALUE_GET_TAG(p->u.object_data) == JS_TAG_STRING) { p1 = JS_VALUE_GET_STRING(p->u.object_data); len = p1->len; } return len; } static int num_keys_cmp(const void *p1, const void *p2, void *opaque) { JSContext *ctx = opaque; JSAtom atom1 = ((const JSPropertyEnum *)p1)->atom; JSAtom atom2 = ((const JSPropertyEnum *)p2)->atom; uint32_t v1, v2; BOOL atom1_is_integer, atom2_is_integer; atom1_is_integer = JS_AtomIsArrayIndex(ctx, &v1, atom1); atom2_is_integer = JS_AtomIsArrayIndex(ctx, &v2, atom2); assert(atom1_is_integer && atom2_is_integer); if (v1 < v2) return -1; else if (v1 == v2) return 0; else return 1; } static void js_free_prop_enum(JSContext *ctx, JSPropertyEnum *tab, uint32_t len) { uint32_t i; if (tab) { for(i = 0; i < len; i++) JS_FreeAtom(ctx, tab[i].atom); js_free(ctx, tab); } } /* return < 0 in case if exception, 0 if OK. ptab and its atoms must be freed by the user. */ static int __exception JS_GetOwnPropertyNamesInternal(JSContext *ctx, JSPropertyEnum **ptab, uint32_t *plen, JSObject *p, int flags) { int i, j; JSShape *sh; JSShapeProperty *prs; JSPropertyEnum *tab_atom, *tab_exotic; JSAtom atom; uint32_t num_keys_count, str_keys_count, sym_keys_count, atom_count; uint32_t num_index, str_index, sym_index, exotic_count, exotic_keys_count; BOOL is_enumerable, num_sorted; uint32_t num_key; JSAtomKindEnum kind; /* clear pointer for consistency in case of failure */ *ptab = NULL; *plen = 0; /* compute the number of returned properties */ num_keys_count = 0; str_keys_count = 0; sym_keys_count = 0; exotic_keys_count = 0; exotic_count = 0; tab_exotic = NULL; sh = p->shape; for(i = 0, prs = get_shape_prop(sh); i < sh->prop_count; i++, prs++) { atom = prs->atom; if (atom != JS_ATOM_NULL) { is_enumerable = ((prs->flags & JS_PROP_ENUMERABLE) != 0); kind = JS_AtomGetKind(ctx, atom); if ((!(flags & JS_GPN_ENUM_ONLY) || is_enumerable) && ((flags >> kind) & 1) != 0) { /* need to raise an exception in case of the module name space (implicit GetOwnProperty) */ if (unlikely((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) && (flags & (JS_GPN_SET_ENUM | JS_GPN_ENUM_ONLY))) { JSVarRef *var_ref = p->prop[i].u.var_ref; if (unlikely(JS_IsUninitialized(*var_ref->pvalue))) { JS_ThrowReferenceErrorUninitialized(ctx, prs->atom); return -1; } } if (JS_AtomIsArrayIndex(ctx, &num_key, atom)) { num_keys_count++; } else if (kind == JS_ATOM_KIND_STRING) { str_keys_count++; } else { sym_keys_count++; } } } } if (p->is_exotic) { if (p->fast_array) { if (flags & JS_GPN_STRING_MASK) { num_keys_count += p->u.array.count; } } else if (p->class_id == JS_CLASS_STRING) { if (flags & JS_GPN_STRING_MASK) { num_keys_count += js_string_obj_get_length(ctx, JS_MKPTR(JS_TAG_OBJECT, p)); } } else { const JSClassExoticMethods *em = ctx->rt->class_array[p->class_id].exotic; if (em && em->get_own_property_names) { if (em->get_own_property_names(ctx, &tab_exotic, &exotic_count, JS_MKPTR(JS_TAG_OBJECT, p))) return -1; for(i = 0; i < exotic_count; i++) { atom = tab_exotic[i].atom; kind = JS_AtomGetKind(ctx, atom); if (((flags >> kind) & 1) != 0) { is_enumerable = FALSE; if (flags & (JS_GPN_SET_ENUM | JS_GPN_ENUM_ONLY)) { JSPropertyDescriptor desc; int res; /* set the "is_enumerable" field if necessary */ res = JS_GetOwnPropertyInternal(ctx, &desc, p, atom); if (res < 0) { js_free_prop_enum(ctx, tab_exotic, exotic_count); return -1; } if (res) { is_enumerable = ((desc.flags & JS_PROP_ENUMERABLE) != 0); js_free_desc(ctx, &desc); } tab_exotic[i].is_enumerable = is_enumerable; } if (!(flags & JS_GPN_ENUM_ONLY) || is_enumerable) { exotic_keys_count++; } } } } } } /* fill them */ atom_count = num_keys_count + str_keys_count + sym_keys_count + exotic_keys_count; /* avoid allocating 0 bytes */ tab_atom = js_malloc(ctx, sizeof(tab_atom[0]) * max_int(atom_count, 1)); if (!tab_atom) { js_free_prop_enum(ctx, tab_exotic, exotic_count); return -1; } num_index = 0; str_index = num_keys_count; sym_index = str_index + str_keys_count; num_sorted = TRUE; sh = p->shape; for(i = 0, prs = get_shape_prop(sh); i < sh->prop_count; i++, prs++) { atom = prs->atom; if (atom != JS_ATOM_NULL) { is_enumerable = ((prs->flags & JS_PROP_ENUMERABLE) != 0); kind = JS_AtomGetKind(ctx, atom); if ((!(flags & JS_GPN_ENUM_ONLY) || is_enumerable) && ((flags >> kind) & 1) != 0) { if (JS_AtomIsArrayIndex(ctx, &num_key, atom)) { j = num_index++; num_sorted = FALSE; } else if (kind == JS_ATOM_KIND_STRING) { j = str_index++; } else { j = sym_index++; } tab_atom[j].atom = JS_DupAtom(ctx, atom); tab_atom[j].is_enumerable = is_enumerable; } } } if (p->is_exotic) { int len; if (p->fast_array) { if (flags & JS_GPN_STRING_MASK) { len = p->u.array.count; goto add_array_keys; } } else if (p->class_id == JS_CLASS_STRING) { if (flags & JS_GPN_STRING_MASK) { len = js_string_obj_get_length(ctx, JS_MKPTR(JS_TAG_OBJECT, p)); add_array_keys: for(i = 0; i < len; i++) { tab_atom[num_index].atom = __JS_AtomFromUInt32(i); if (tab_atom[num_index].atom == JS_ATOM_NULL) { js_free_prop_enum(ctx, tab_atom, num_index); return -1; } tab_atom[num_index].is_enumerable = TRUE; num_index++; } } } else { /* Note: exotic keys are not reordered and comes after the object own properties. */ for(i = 0; i < exotic_count; i++) { atom = tab_exotic[i].atom; is_enumerable = tab_exotic[i].is_enumerable; kind = JS_AtomGetKind(ctx, atom); if ((!(flags & JS_GPN_ENUM_ONLY) || is_enumerable) && ((flags >> kind) & 1) != 0) { tab_atom[sym_index].atom = atom; tab_atom[sym_index].is_enumerable = is_enumerable; sym_index++; } else { JS_FreeAtom(ctx, atom); } } js_free(ctx, tab_exotic); } } assert(num_index == num_keys_count); assert(str_index == num_keys_count + str_keys_count); assert(sym_index == atom_count); if (num_keys_count != 0 && !num_sorted) { rqsort(tab_atom, num_keys_count, sizeof(tab_atom[0]), num_keys_cmp, ctx); } *ptab = tab_atom; *plen = atom_count; return 0; } int JS_GetOwnPropertyNames(JSContext *ctx, JSPropertyEnum **ptab, uint32_t *plen, JSValue obj, int flags) { if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) { JS_ThrowTypeErrorNotAnObject(ctx); return -1; } return JS_GetOwnPropertyNamesInternal(ctx, ptab, plen, JS_VALUE_GET_OBJ(obj), flags); } /* Return -1 if exception, FALSE if the property does not exist, TRUE if it exists. If TRUE is returned, the property descriptor 'desc' is filled present. */ static int JS_GetOwnPropertyInternal(JSContext *ctx, JSPropertyDescriptor *desc, JSObject *p, JSAtom prop) { JSShapeProperty *prs; JSProperty *pr; retry: prs = find_own_property(&pr, p, prop); if (prs) { if (desc) { desc->flags = prs->flags & JS_PROP_C_W_E; desc->getter = JS_UNDEFINED; desc->setter = JS_UNDEFINED; desc->value = JS_UNDEFINED; if (unlikely(prs->flags & JS_PROP_TMASK)) { if ((prs->flags & JS_PROP_TMASK) == JS_PROP_GETSET) { desc->flags |= JS_PROP_GETSET; if (pr->u.getset.getter) desc->getter = js_dup(JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.getter)); if (pr->u.getset.setter) desc->setter = js_dup(JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.setter)); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) { JSValue val = *pr->u.var_ref->pvalue; if (unlikely(JS_IsUninitialized(val))) { JS_ThrowReferenceErrorUninitialized(ctx, prs->atom); return -1; } desc->value = js_dup(val); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { /* Instantiate property and retry */ if (JS_AutoInitProperty(ctx, p, prop, pr, prs)) return -1; goto retry; } } else { desc->value = js_dup(pr->u.value); } } else { /* for consistency, send the exception even if desc is NULL */ if (unlikely((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF)) { if (unlikely(JS_IsUninitialized(*pr->u.var_ref->pvalue))) { JS_ThrowReferenceErrorUninitialized(ctx, prs->atom); return -1; } } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { /* nothing to do: delay instantiation until actual value and/or attributes are read */ } } return TRUE; } if (p->is_exotic) { if (p->fast_array) { /* specific case for fast arrays */ if (__JS_AtomIsTaggedInt(prop)) { uint32_t idx; idx = __JS_AtomToUInt32(prop); if (idx < p->u.array.count) { if (desc) { desc->flags = JS_PROP_WRITABLE | JS_PROP_ENUMERABLE | JS_PROP_CONFIGURABLE; desc->getter = JS_UNDEFINED; desc->setter = JS_UNDEFINED; desc->value = JS_GetPropertyUint32(ctx, JS_MKPTR(JS_TAG_OBJECT, p), idx); } return TRUE; } } } else { const JSClassExoticMethods *em = ctx->rt->class_array[p->class_id].exotic; if (em && em->get_own_property) { return em->get_own_property(ctx, desc, JS_MKPTR(JS_TAG_OBJECT, p), prop); } } } return FALSE; } int JS_GetOwnProperty(JSContext *ctx, JSPropertyDescriptor *desc, JSValue obj, JSAtom prop) { if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) { JS_ThrowTypeErrorNotAnObject(ctx); return -1; } return JS_GetOwnPropertyInternal(ctx, desc, JS_VALUE_GET_OBJ(obj), prop); } void JS_FreePropertyEnum(JSContext *ctx, JSPropertyEnum *tab, uint32_t len) { js_free_prop_enum(ctx, tab, len); } /* return -1 if exception (Proxy object only) or TRUE/FALSE */ int JS_IsExtensible(JSContext *ctx, JSValue obj) { JSObject *p; if (unlikely(JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT)) return FALSE; p = JS_VALUE_GET_OBJ(obj); if (unlikely(p->class_id == JS_CLASS_PROXY)) return js_proxy_isExtensible(ctx, obj); else return p->extensible; } /* return -1 if exception (Proxy object only) or TRUE/FALSE */ int JS_PreventExtensions(JSContext *ctx, JSValue obj) { JSObject *p; if (unlikely(JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT)) return FALSE; p = JS_VALUE_GET_OBJ(obj); if (unlikely(p->class_id == JS_CLASS_PROXY)) return js_proxy_preventExtensions(ctx, obj); p->extensible = FALSE; return TRUE; } /* return -1 if exception otherwise TRUE or FALSE */ int JS_HasProperty(JSContext *ctx, JSValue obj, JSAtom prop) { JSObject *p; int ret; JSValue obj1; if (unlikely(JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT)) return FALSE; p = JS_VALUE_GET_OBJ(obj); for(;;) { if (p->is_exotic) { const JSClassExoticMethods *em = ctx->rt->class_array[p->class_id].exotic; if (em && em->has_property) { /* has_property can free the prototype */ obj1 = js_dup(JS_MKPTR(JS_TAG_OBJECT, p)); ret = em->has_property(ctx, obj1, prop); JS_FreeValue(ctx, obj1); return ret; } } /* JS_GetOwnPropertyInternal can free the prototype */ js_dup(JS_MKPTR(JS_TAG_OBJECT, p)); ret = JS_GetOwnPropertyInternal(ctx, NULL, p, prop); JS_FreeValue(ctx, JS_MKPTR(JS_TAG_OBJECT, p)); if (ret != 0) return ret; if (p->class_id >= JS_CLASS_UINT8C_ARRAY && p->class_id <= JS_CLASS_FLOAT64_ARRAY) { ret = JS_AtomIsNumericIndex(ctx, prop); if (ret != 0) { if (ret < 0) return -1; return FALSE; } } p = p->shape->proto; if (!p) break; } return FALSE; } /* val must be a symbol */ static JSAtom js_symbol_to_atom(JSContext *ctx, JSValue val) { JSAtomStruct *p = JS_VALUE_GET_PTR(val); return js_get_atom_index(ctx->rt, p); } /* return JS_ATOM_NULL in case of exception */ JSAtom JS_ValueToAtom(JSContext *ctx, JSValue val) { JSAtom atom; uint32_t tag; tag = JS_VALUE_GET_TAG(val); if (tag == JS_TAG_INT && (uint32_t)JS_VALUE_GET_INT(val) <= JS_ATOM_MAX_INT) { /* fast path for integer values */ atom = __JS_AtomFromUInt32(JS_VALUE_GET_INT(val)); } else if (tag == JS_TAG_SYMBOL) { JSAtomStruct *p = JS_VALUE_GET_PTR(val); atom = JS_DupAtom(ctx, js_get_atom_index(ctx->rt, p)); } else { JSValue str; str = JS_ToPropertyKey(ctx, val); if (JS_IsException(str)) return JS_ATOM_NULL; if (JS_VALUE_GET_TAG(str) == JS_TAG_SYMBOL) { atom = js_symbol_to_atom(ctx, str); } else { atom = JS_NewAtomStr(ctx, JS_VALUE_GET_STRING(str)); } } return atom; } static BOOL js_get_fast_array_element(JSContext *ctx, JSObject *p, uint32_t idx, JSValue *pval) { switch(p->class_id) { case JS_CLASS_ARRAY: case JS_CLASS_ARGUMENTS: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_dup(p->u.array.u.values[idx]); return TRUE; case JS_CLASS_INT8_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_int32(p->u.array.u.int8_ptr[idx]); return TRUE; case JS_CLASS_UINT8C_ARRAY: case JS_CLASS_UINT8_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_int32(p->u.array.u.uint8_ptr[idx]); return TRUE; case JS_CLASS_INT16_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_int32(p->u.array.u.int16_ptr[idx]); return TRUE; case JS_CLASS_UINT16_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_int32(p->u.array.u.uint16_ptr[idx]); return TRUE; case JS_CLASS_INT32_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_int32(p->u.array.u.int32_ptr[idx]); return TRUE; case JS_CLASS_UINT32_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_uint32(p->u.array.u.uint32_ptr[idx]); return TRUE; case JS_CLASS_BIG_INT64_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = JS_NewBigInt64(ctx, p->u.array.u.int64_ptr[idx]); return TRUE; case JS_CLASS_BIG_UINT64_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = JS_NewBigUint64(ctx, p->u.array.u.uint64_ptr[idx]); return TRUE; case JS_CLASS_FLOAT16_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_float64(fromfp16(p->u.array.u.fp16_ptr[idx])); return TRUE; case JS_CLASS_FLOAT32_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_float64(p->u.array.u.float_ptr[idx]); return TRUE; case JS_CLASS_FLOAT64_ARRAY: if (unlikely(idx >= p->u.array.count)) return FALSE; *pval = js_float64(p->u.array.u.double_ptr[idx]); return TRUE; default: return FALSE; } } static JSValue JS_GetPropertyValue(JSContext *ctx, JSValue this_obj, JSValue prop) { JSAtom atom; JSValue ret; if (likely(JS_VALUE_GET_TAG(this_obj) == JS_TAG_OBJECT && JS_VALUE_GET_TAG(prop) == JS_TAG_INT)) { JSObject *p = JS_VALUE_GET_OBJ(this_obj); uint32_t idx = JS_VALUE_GET_INT(prop); JSValue val; /* fast path for array and typed array access */ if (js_get_fast_array_element(ctx, p, idx, &val)) return val; } atom = JS_ValueToAtom(ctx, prop); JS_FreeValue(ctx, prop); if (unlikely(atom == JS_ATOM_NULL)) return JS_EXCEPTION; ret = JS_GetProperty(ctx, this_obj, atom); JS_FreeAtom(ctx, atom); return ret; } JSValue JS_GetPropertyUint32(JSContext *ctx, JSValue this_obj, uint32_t idx) { return JS_GetPropertyInt64(ctx, this_obj, idx); } /* Check if an object has a generalized numeric property. Return value: -1 for exception, *pval set to JS_EXCEPTION TRUE if property exists, stored into *pval, FALSE if property does not exist. *pval set to JS_UNDEFINED. */ static int JS_TryGetPropertyInt64(JSContext *ctx, JSValue obj, int64_t idx, JSValue *pval) { JSValue val; JSAtom prop; int present; if (likely(JS_VALUE_GET_TAG(obj) == JS_TAG_OBJECT && (uint64_t)idx <= INT32_MAX)) { /* fast path for array and typed array access */ JSObject *p = JS_VALUE_GET_OBJ(obj); if (js_get_fast_array_element(ctx, p, idx, pval)) return TRUE; } val = JS_EXCEPTION; present = -1; prop = JS_NewAtomInt64(ctx, idx); if (likely(prop != JS_ATOM_NULL)) { present = JS_HasProperty(ctx, obj, prop); if (present > 0) { val = JS_GetProperty(ctx, obj, prop); if (unlikely(JS_IsException(val))) present = -1; } else if (present == FALSE) { val = JS_UNDEFINED; } JS_FreeAtom(ctx, prop); } *pval = val; return present; } JSValue JS_GetPropertyInt64(JSContext *ctx, JSValue obj, int64_t idx) { JSAtom prop; JSValue val; if (likely(JS_VALUE_GET_TAG(obj) == JS_TAG_OBJECT && (uint64_t)idx <= INT32_MAX)) { /* fast path for array and typed array access */ JSObject *p = JS_VALUE_GET_OBJ(obj); if (js_get_fast_array_element(ctx, p, idx, &val)) return val; } prop = JS_NewAtomInt64(ctx, idx); if (prop == JS_ATOM_NULL) return JS_EXCEPTION; val = JS_GetProperty(ctx, obj, prop); JS_FreeAtom(ctx, prop); return val; } /* `prop` may be pure ASCII or UTF-8 encoded */ JSValue JS_GetPropertyStr(JSContext *ctx, JSValue this_obj, const char *prop) { JSAtom atom; JSValue ret; atom = JS_NewAtom(ctx, prop); ret = JS_GetProperty(ctx, this_obj, atom); JS_FreeAtom(ctx, atom); return ret; } /* Note: the property value is not initialized. Return NULL if memory error. */ static JSProperty *add_property(JSContext *ctx, JSObject *p, JSAtom prop, int prop_flags) { JSShape *sh, *new_sh; sh = p->shape; if (sh->is_hashed) { /* try to find an existing shape */ new_sh = find_hashed_shape_prop(ctx->rt, sh, prop, prop_flags); if (new_sh) { /* matching shape found: use it */ /* the property array may need to be resized */ if (new_sh->prop_size != sh->prop_size) { JSProperty *new_prop; new_prop = js_realloc(ctx, p->prop, sizeof(p->prop[0]) * new_sh->prop_size); if (!new_prop) return NULL; p->prop = new_prop; } p->shape = js_dup_shape(new_sh); js_free_shape(ctx->rt, sh); return &p->prop[new_sh->prop_count - 1]; } else if (sh->header.ref_count != 1) { /* if the shape is shared, clone it */ new_sh = js_clone_shape(ctx, sh); if (!new_sh) return NULL; /* hash the cloned shape */ new_sh->is_hashed = TRUE; js_shape_hash_link(ctx->rt, new_sh); js_free_shape(ctx->rt, p->shape); p->shape = new_sh; } } assert(p->shape->header.ref_count == 1); if (add_shape_property(ctx, &p->shape, p, prop, prop_flags)) return NULL; return &p->prop[p->shape->prop_count - 1]; } /* can be called on Array or Arguments objects. return < 0 if memory alloc error. */ static no_inline __exception int convert_fast_array_to_array(JSContext *ctx, JSObject *p) { JSProperty *pr; JSShape *sh; JSValue *tab; uint32_t i, len, new_count; if (js_shape_prepare_update(ctx, p, NULL)) return -1; len = p->u.array.count; /* resize the properties once to simplify the error handling */ sh = p->shape; new_count = sh->prop_count + len; if (new_count > sh->prop_size) { if (resize_properties(ctx, &p->shape, p, new_count)) return -1; } tab = p->u.array.u.values; for(i = 0; i < len; i++) { /* add_property cannot fail here but __JS_AtomFromUInt32(i) fails for i > INT32_MAX */ pr = add_property(ctx, p, __JS_AtomFromUInt32(i), JS_PROP_C_W_E); pr->u.value = *tab++; } js_free(ctx, p->u.array.u.values); p->u.array.count = 0; p->u.array.u.values = NULL; /* fail safe */ p->u.array.u1.size = 0; p->fast_array = 0; return 0; } static int delete_property(JSContext *ctx, JSObject *p, JSAtom atom) { JSShape *sh; JSShapeProperty *pr, *lpr, *prop; JSProperty *pr1; uint32_t lpr_idx; intptr_t h, h1; redo: sh = p->shape; h1 = atom & sh->prop_hash_mask; h = prop_hash_end(sh)[-h1 - 1]; prop = get_shape_prop(sh); lpr = NULL; lpr_idx = 0; /* prevent warning */ while (h != 0) { pr = &prop[h - 1]; if (likely(pr->atom == atom)) { /* found ! */ if (!(pr->flags & JS_PROP_CONFIGURABLE)) return FALSE; /* realloc the shape if needed */ if (lpr) lpr_idx = lpr - get_shape_prop(sh); if (js_shape_prepare_update(ctx, p, &pr)) return -1; sh = p->shape; /* remove property */ if (lpr) { lpr = get_shape_prop(sh) + lpr_idx; lpr->hash_next = pr->hash_next; } else { prop_hash_end(sh)[-h1 - 1] = pr->hash_next; } sh->deleted_prop_count++; /* free the entry */ pr1 = &p->prop[h - 1]; free_property(ctx->rt, pr1, pr->flags); JS_FreeAtom(ctx, pr->atom); /* put default values */ pr->flags = 0; pr->atom = JS_ATOM_NULL; pr1->u.value = JS_UNDEFINED; /* compact the properties if too many deleted properties */ if (sh->deleted_prop_count >= 8 && sh->deleted_prop_count >= ((unsigned)sh->prop_count / 2)) { compact_properties(ctx, p); } return TRUE; } lpr = pr; h = pr->hash_next; } if (p->is_exotic) { if (p->fast_array) { uint32_t idx; if (JS_AtomIsArrayIndex(ctx, &idx, atom) && idx < p->u.array.count) { if (p->class_id == JS_CLASS_ARRAY || p->class_id == JS_CLASS_ARGUMENTS) { /* Special case deleting the last element of a fast Array */ if (idx == p->u.array.count - 1) { JS_FreeValue(ctx, p->u.array.u.values[idx]); p->u.array.count = idx; return TRUE; } if (convert_fast_array_to_array(ctx, p)) return -1; goto redo; } else { return FALSE; } } } else { const JSClassExoticMethods *em = ctx->rt->class_array[p->class_id].exotic; if (em && em->delete_property) { return em->delete_property(ctx, JS_MKPTR(JS_TAG_OBJECT, p), atom); } } } /* not found */ return TRUE; } static int call_setter(JSContext *ctx, JSObject *setter, JSValue this_obj, JSValue val, int flags) { JSValue ret, func; if (likely(setter)) { func = JS_MKPTR(JS_TAG_OBJECT, setter); /* Note: the field could be removed in the setter */ func = js_dup(func); ret = JS_CallFree(ctx, func, this_obj, 1, &val); JS_FreeValue(ctx, val); if (JS_IsException(ret)) return -1; JS_FreeValue(ctx, ret); return TRUE; } else { JS_FreeValue(ctx, val); if ((flags & JS_PROP_THROW) || ((flags & JS_PROP_THROW_STRICT) && is_strict_mode(ctx))) { JS_ThrowTypeError(ctx, "no setter for property"); return -1; } return FALSE; } } /* set the array length and remove the array elements if necessary. */ static int set_array_length(JSContext *ctx, JSObject *p, JSValue val, int flags) { uint32_t len, idx, cur_len; int i, ret; /* Note: this call can reallocate the properties of 'p' */ ret = JS_ToArrayLengthFree(ctx, &len, val, FALSE); if (ret) return -1; /* JS_ToArrayLengthFree() must be done before the read-only test */ if (unlikely(!(p->shape->prop[0].flags & JS_PROP_WRITABLE))) return JS_ThrowTypeErrorReadOnly(ctx, flags, JS_ATOM_length); if (likely(p->fast_array)) { uint32_t old_len = p->u.array.count; if (len < old_len) { for(i = len; i < old_len; i++) { JS_FreeValue(ctx, p->u.array.u.values[i]); } p->u.array.count = len; } p->prop[0].u.value = js_uint32(len); } else { /* Note: length is always a uint32 because the object is an array */ JS_ToUint32(ctx, &cur_len, p->prop[0].u.value); if (len < cur_len) { uint32_t d; JSShape *sh; JSShapeProperty *pr; d = cur_len - len; sh = p->shape; if (d <= sh->prop_count) { JSAtom atom; /* faster to iterate */ while (cur_len > len) { atom = JS_NewAtomUInt32(ctx, cur_len - 1); ret = delete_property(ctx, p, atom); JS_FreeAtom(ctx, atom); if (unlikely(!ret)) { /* unlikely case: property is not configurable */ break; } cur_len--; } } else { /* faster to iterate thru all the properties. Need two passes in case one of the property is not configurable */ cur_len = len; for(i = 0, pr = get_shape_prop(sh); i < sh->prop_count; i++, pr++) { if (pr->atom != JS_ATOM_NULL && JS_AtomIsArrayIndex(ctx, &idx, pr->atom)) { if (idx >= cur_len && !(pr->flags & JS_PROP_CONFIGURABLE)) { cur_len = idx + 1; } } } for(i = 0, pr = get_shape_prop(sh); i < sh->prop_count; i++, pr++) { if (pr->atom != JS_ATOM_NULL && JS_AtomIsArrayIndex(ctx, &idx, pr->atom)) { if (idx >= cur_len) { /* remove the property */ delete_property(ctx, p, pr->atom); /* WARNING: the shape may have been modified */ sh = p->shape; pr = get_shape_prop(sh) + i; } } } } } else { cur_len = len; } set_value(ctx, &p->prop[0].u.value, js_uint32(cur_len)); if (unlikely(cur_len > len)) { return JS_ThrowTypeErrorOrFalse(ctx, flags, "not configurable"); } } return TRUE; } /* return -1 if exception */ static int expand_fast_array(JSContext *ctx, JSObject *p, uint32_t new_len) { uint32_t new_size; size_t slack; JSValue *new_array_prop; /* XXX: potential arithmetic overflow */ new_size = max_int(new_len, p->u.array.u1.size * 3 / 2); new_array_prop = js_realloc2(ctx, p->u.array.u.values, sizeof(JSValue) * new_size, &slack); if (!new_array_prop) return -1; new_size += slack / sizeof(*new_array_prop); p->u.array.u.values = new_array_prop; p->u.array.u1.size = new_size; return 0; } /* Preconditions: 'p' must be of class JS_CLASS_ARRAY, p->fast_array = TRUE and p->extensible = TRUE */ static int add_fast_array_element(JSContext *ctx, JSObject *p, JSValue val, int flags) { uint32_t new_len, array_len; /* extend the array by one */ /* XXX: convert to slow array if new_len > 2^31-1 elements */ new_len = p->u.array.count + 1; /* update the length if necessary. We assume that if the length is not an integer, then if it >= 2^31. */ if (likely(JS_VALUE_GET_TAG(p->prop[0].u.value) == JS_TAG_INT)) { array_len = JS_VALUE_GET_INT(p->prop[0].u.value); if (new_len > array_len) { if (unlikely(!(get_shape_prop(p->shape)->flags & JS_PROP_WRITABLE))) { JS_FreeValue(ctx, val); return JS_ThrowTypeErrorReadOnly(ctx, flags, JS_ATOM_length); } p->prop[0].u.value = js_int32(new_len); } } if (unlikely(new_len > p->u.array.u1.size)) { if (expand_fast_array(ctx, p, new_len)) { JS_FreeValue(ctx, val); return -1; } } p->u.array.u.values[new_len - 1] = val; p->u.array.count = new_len; return TRUE; } static void js_free_desc(JSContext *ctx, JSPropertyDescriptor *desc) { JS_FreeValue(ctx, desc->getter); JS_FreeValue(ctx, desc->setter); JS_FreeValue(ctx, desc->value); } /* return -1 in case of exception or TRUE or FALSE. Warning: 'val' is freed by the function. 'flags' is a bitmask of JS_PROP_NO_ADD, JS_PROP_THROW or JS_PROP_THROW_STRICT. If JS_PROP_NO_ADD is set, the new property is not added and an error is raised. 'obj' must be an object when obj != this_obj. */ static int JS_SetPropertyInternal2(JSContext *ctx, JSValue obj, JSAtom prop, JSValue val, JSValue this_obj, int flags, JSInlineCache *ic) { JSObject *p, *p1; JSShapeProperty *prs; JSProperty *pr; JSPropertyDescriptor desc; int ret; uint32_t offset = 0; switch(JS_VALUE_GET_TAG(this_obj)) { case JS_TAG_NULL: JS_ThrowTypeErrorAtom(ctx, "cannot set property '%s' of null", prop); goto fail; case JS_TAG_UNDEFINED: JS_ThrowTypeErrorAtom(ctx, "cannot set property '%s' of undefined", prop); goto fail; case JS_TAG_OBJECT: p = JS_VALUE_GET_OBJ(this_obj); p1 = JS_VALUE_GET_OBJ(obj); if (p == p1) break; goto retry2; default: if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) obj = JS_GetPrototypePrimitive(ctx, obj); p = NULL; p1 = JS_VALUE_GET_OBJ(obj); goto prototype_lookup; } retry: prs = find_own_property_ic(&pr, p1, prop, &offset); if (prs) { if (likely((prs->flags & (JS_PROP_TMASK | JS_PROP_WRITABLE | JS_PROP_LENGTH)) == JS_PROP_WRITABLE)) { /* fast case */ if (ic && p->shape->is_hashed) { ic->updated = TRUE; ic->updated_offset = add_ic_slot(ctx, ic, prop, p, offset); } set_value(ctx, &pr->u.value, val); return TRUE; } else if (prs->flags & JS_PROP_LENGTH) { assert(p->class_id == JS_CLASS_ARRAY); assert(prop == JS_ATOM_length); return set_array_length(ctx, p, val, flags); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_GETSET) { return call_setter(ctx, pr->u.getset.setter, this_obj, val, flags); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) { /* JS_PROP_WRITABLE is always true for variable references, but they are write protected in module name spaces. */ if (p->class_id == JS_CLASS_MODULE_NS) goto read_only_prop; set_value(ctx, pr->u.var_ref->pvalue, val); return TRUE; } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { /* Instantiate property and retry (potentially useless) */ if (JS_AutoInitProperty(ctx, p, prop, pr, prs)) goto fail; goto retry; } else { goto read_only_prop; } } for(;;) { if (p1->is_exotic) { if (p1->fast_array) { if (__JS_AtomIsTaggedInt(prop)) { uint32_t idx = __JS_AtomToUInt32(prop); if (idx < p1->u.array.count) { if (unlikely(p == p1)) return JS_SetPropertyValue(ctx, this_obj, js_int32(idx), val, flags); else break; } else if (p1->class_id >= JS_CLASS_UINT8C_ARRAY && p1->class_id <= JS_CLASS_FLOAT64_ARRAY) { goto typed_array_oob; } } else if (p1->class_id >= JS_CLASS_UINT8C_ARRAY && p1->class_id <= JS_CLASS_FLOAT64_ARRAY) { ret = JS_AtomIsNumericIndex(ctx, prop); if (ret != 0) { if (ret < 0) goto fail; typed_array_oob: // per spec: evaluate value for side effects if (p1->class_id == JS_CLASS_BIG_INT64_ARRAY || p1->class_id == JS_CLASS_BIG_UINT64_ARRAY) { int64_t v; if (JS_ToBigInt64Free(ctx, &v, val)) return -1; } else { val = JS_ToNumberFree(ctx, val); JS_FreeValue(ctx, val); if (JS_IsException(val)) return -1; } return TRUE; } } } else { const JSClassExoticMethods *em = ctx->rt->class_array[p1->class_id].exotic; if (em) { JSValue obj1; if (em->set_property) { /* set_property can free the prototype */ obj1 = js_dup(JS_MKPTR(JS_TAG_OBJECT, p1)); ret = em->set_property(ctx, obj1, prop, val, this_obj, flags); JS_FreeValue(ctx, obj1); JS_FreeValue(ctx, val); return ret; } if (em->get_own_property) { /* get_own_property can free the prototype */ obj1 = js_dup(JS_MKPTR(JS_TAG_OBJECT, p1)); ret = em->get_own_property(ctx, &desc, obj1, prop); JS_FreeValue(ctx, obj1); if (ret < 0) goto fail; if (ret) { if (desc.flags & JS_PROP_GETSET) { JSObject *setter; if (JS_IsUndefined(desc.setter)) setter = NULL; else setter = JS_VALUE_GET_OBJ(desc.setter); ret = call_setter(ctx, setter, this_obj, val, flags); JS_FreeValue(ctx, desc.getter); JS_FreeValue(ctx, desc.setter); return ret; } else { JS_FreeValue(ctx, desc.value); if (!(desc.flags & JS_PROP_WRITABLE)) goto read_only_prop; if (likely(p == p1)) { ret = JS_DefineProperty(ctx, this_obj, prop, val, JS_UNDEFINED, JS_UNDEFINED, JS_PROP_HAS_VALUE); JS_FreeValue(ctx, val); return ret; } else { break; } } } } } } } p1 = p1->shape->proto; prototype_lookup: if (!p1) break; retry2: prs = find_own_property(&pr, p1, prop); if (prs) { if ((prs->flags & JS_PROP_TMASK) == JS_PROP_GETSET) { return call_setter(ctx, pr->u.getset.setter, this_obj, val, flags); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { /* Instantiate property and retry (potentially useless) */ if (JS_AutoInitProperty(ctx, p1, prop, pr, prs)) return -1; goto retry2; } else if (!(prs->flags & JS_PROP_WRITABLE)) { goto read_only_prop; } } } if (unlikely(flags & JS_PROP_NO_ADD)) { JS_ThrowReferenceErrorNotDefined(ctx, prop); goto fail; } if (unlikely(!p)) { ret = JS_ThrowTypeErrorOrFalse(ctx, flags, "not an object"); goto done; } if (unlikely(!p->extensible)) { ret = JS_ThrowTypeErrorOrFalse(ctx, flags, "object is not extensible"); goto done; } if (p == JS_VALUE_GET_OBJ(obj)) { if (p->is_exotic) { if (p->class_id == JS_CLASS_ARRAY && p->fast_array && __JS_AtomIsTaggedInt(prop)) { uint32_t idx = __JS_AtomToUInt32(prop); if (idx == p->u.array.count) { /* fast case */ return add_fast_array_element(ctx, p, val, flags); } } goto generic_create_prop; } else { pr = add_property(ctx, p, prop, JS_PROP_C_W_E); if (!pr) goto fail; pr->u.value = val; return TRUE; } } // TODO(bnoordhuis) return JSProperty slot and update in place // when plain property (not is_exotic/setter/etc.) to avoid // calling find_own_property() thrice? ret = JS_GetOwnPropertyInternal(ctx, &desc, p, prop); if (ret < 0) goto fail; if (ret) { JS_FreeValue(ctx, desc.value); if (desc.flags & JS_PROP_GETSET) { JS_FreeValue(ctx, desc.getter); JS_FreeValue(ctx, desc.setter); ret = JS_ThrowTypeErrorOrFalse(ctx, flags, "setter is forbidden"); goto done; } else if (!(desc.flags & JS_PROP_WRITABLE) || p->class_id == JS_CLASS_MODULE_NS) { read_only_prop: ret = JS_ThrowTypeErrorReadOnly(ctx, flags, prop); goto done; } ret = JS_DefineProperty(ctx, this_obj, prop, val, JS_UNDEFINED, JS_UNDEFINED, JS_PROP_HAS_VALUE); } else { generic_create_prop: ret = JS_CreateProperty(ctx, p, prop, val, JS_UNDEFINED, JS_UNDEFINED, flags | JS_PROP_HAS_VALUE | JS_PROP_HAS_ENUMERABLE | JS_PROP_HAS_WRITABLE | JS_PROP_HAS_CONFIGURABLE | JS_PROP_C_W_E); } done: JS_FreeValue(ctx, val); return ret; fail: JS_FreeValue(ctx, val); return -1; } static int JS_SetPropertyInternal(JSContext *ctx, JSValue this_obj, JSAtom prop, JSValue val, int flags) { return JS_SetPropertyInternal2(ctx, this_obj, prop, val, this_obj, flags, NULL); } int JS_SetProperty(JSContext *ctx, JSValue this_obj, JSAtom prop, JSValue val) { return JS_SetPropertyInternal2(ctx, this_obj, prop, val, this_obj, JS_PROP_THROW, NULL); } static int JS_SetPropertyInternalWithIC(JSContext *ctx, JSValue this_obj, JSAtom prop, JSValue val, int flags, JSInlineCache *ic, int32_t offset) { uint32_t tag; JSObject *p; tag = JS_VALUE_GET_TAG(this_obj); if (unlikely(tag != JS_TAG_OBJECT)) goto slow_path; p = JS_VALUE_GET_OBJ(this_obj); offset = get_ic_prop_offset(ic, offset, p->shape); if (likely(offset >= 0)) { set_value(ctx, &p->prop[offset].u.value, val); return TRUE; } slow_path: return JS_SetPropertyInternal2(ctx, this_obj, prop, val, this_obj, flags, ic); } /* flags can be JS_PROP_THROW or JS_PROP_THROW_STRICT */ static int JS_SetPropertyValue(JSContext *ctx, JSValue this_obj, JSValue prop, JSValue val, int flags) { if (likely(JS_VALUE_GET_TAG(this_obj) == JS_TAG_OBJECT && JS_VALUE_GET_TAG(prop) == JS_TAG_INT)) { JSObject *p; uint32_t idx; double d; int32_t v; /* fast path for array access */ p = JS_VALUE_GET_OBJ(this_obj); idx = JS_VALUE_GET_INT(prop); switch(p->class_id) { case JS_CLASS_ARRAY: if (unlikely(idx >= (uint32_t)p->u.array.count)) { JSObject *p1; JSShape *sh1; /* fast path to add an element to the array */ if (idx != (uint32_t)p->u.array.count || !p->fast_array || !p->extensible) goto slow_path; /* check if prototype chain has a numeric property */ p1 = p->shape->proto; while (p1 != NULL) { sh1 = p1->shape; if (p1->class_id == JS_CLASS_ARRAY) { if (unlikely(!p1->fast_array)) goto slow_path; } else if (p1->class_id == JS_CLASS_OBJECT) { if (unlikely(sh1->has_small_array_index)) goto slow_path; } else { goto slow_path; } p1 = sh1->proto; } /* add element */ return add_fast_array_element(ctx, p, val, flags); } set_value(ctx, &p->u.array.u.values[idx], val); break; case JS_CLASS_ARGUMENTS: if (unlikely(idx >= (uint32_t)p->u.array.count)) goto slow_path; set_value(ctx, &p->u.array.u.values[idx], val); break; case JS_CLASS_UINT8C_ARRAY: if (JS_ToUint8ClampFree(ctx, &v, val)) goto ta_cvt_fail; /* Note: the conversion can detach the typed array, so the array bound check must be done after */ if (unlikely(idx >= (uint32_t)p->u.array.count)) goto ta_out_of_bound; p->u.array.u.uint8_ptr[idx] = v; break; case JS_CLASS_INT8_ARRAY: case JS_CLASS_UINT8_ARRAY: if (JS_ToInt32Free(ctx, &v, val)) goto ta_cvt_fail; if (unlikely(idx >= (uint32_t)p->u.array.count)) goto ta_out_of_bound; p->u.array.u.uint8_ptr[idx] = v; break; case JS_CLASS_INT16_ARRAY: case JS_CLASS_UINT16_ARRAY: if (JS_ToInt32Free(ctx, &v, val)) goto ta_cvt_fail; if (unlikely(idx >= (uint32_t)p->u.array.count)) goto ta_out_of_bound; p->u.array.u.uint16_ptr[idx] = v; break; case JS_CLASS_INT32_ARRAY: case JS_CLASS_UINT32_ARRAY: if (JS_ToInt32Free(ctx, &v, val)) goto ta_cvt_fail; if (unlikely(idx >= (uint32_t)p->u.array.count)) goto ta_out_of_bound; p->u.array.u.uint32_ptr[idx] = v; break; case JS_CLASS_BIG_INT64_ARRAY: case JS_CLASS_BIG_UINT64_ARRAY: /* XXX: need specific conversion function */ { int64_t v; if (JS_ToBigInt64Free(ctx, &v, val)) goto ta_cvt_fail; if (unlikely(idx >= (uint32_t)p->u.array.count)) goto ta_out_of_bound; p->u.array.u.uint64_ptr[idx] = v; } break; case JS_CLASS_FLOAT16_ARRAY: if (JS_ToFloat64Free(ctx, &d, val)) goto ta_cvt_fail; if (unlikely(idx >= (uint32_t)p->u.array.count)) goto ta_out_of_bound; p->u.array.u.fp16_ptr[idx] = tofp16(d); break; case JS_CLASS_FLOAT32_ARRAY: if (JS_ToFloat64Free(ctx, &d, val)) goto ta_cvt_fail; if (unlikely(idx >= (uint32_t)p->u.array.count)) goto ta_out_of_bound; p->u.array.u.float_ptr[idx] = d; break; case JS_CLASS_FLOAT64_ARRAY: if (JS_ToFloat64Free(ctx, &d, val)) { ta_cvt_fail: if (flags & JS_PROP_REFLECT_DEFINE_PROPERTY) { JS_FreeValue(ctx, JS_GetException(ctx)); return FALSE; } return -1; } if (unlikely(idx >= (uint32_t)p->u.array.count)) { ta_out_of_bound: if (typed_array_is_detached(ctx, p)) if (!(flags & JS_PROP_DEFINE_PROPERTY)) return TRUE; // per spec: no OOB exception return JS_ThrowTypeErrorOrFalse(ctx, flags, "out-of-bound numeric index"); } p->u.array.u.double_ptr[idx] = d; break; default: goto slow_path; } return TRUE; } else { JSAtom atom; int ret; slow_path: atom = JS_ValueToAtom(ctx, prop); JS_FreeValue(ctx, prop); if (unlikely(atom == JS_ATOM_NULL)) { JS_FreeValue(ctx, val); return -1; } ret = JS_SetPropertyInternal(ctx, this_obj, atom, val, flags); JS_FreeAtom(ctx, atom); return ret; } } int JS_SetPropertyUint32(JSContext *ctx, JSValue this_obj, uint32_t idx, JSValue val) { return JS_SetPropertyValue(ctx, this_obj, js_uint32(idx), val, JS_PROP_THROW); } int JS_SetPropertyInt64(JSContext *ctx, JSValue this_obj, int64_t idx, JSValue val) { JSAtom prop; int res; if ((uint64_t)idx <= INT32_MAX) { /* fast path for fast arrays */ return JS_SetPropertyValue(ctx, this_obj, js_int32(idx), val, JS_PROP_THROW); } prop = JS_NewAtomInt64(ctx, idx); if (prop == JS_ATOM_NULL) { JS_FreeValue(ctx, val); return -1; } res = JS_SetProperty(ctx, this_obj, prop, val); JS_FreeAtom(ctx, prop); return res; } /* `prop` may be pure ASCII or UTF-8 encoded */ int JS_SetPropertyStr(JSContext *ctx, JSValue this_obj, const char *prop, JSValue val) { JSAtom atom; int ret; atom = JS_NewAtom(ctx, prop); ret = JS_SetPropertyInternal(ctx, this_obj, atom, val, JS_PROP_THROW); JS_FreeAtom(ctx, atom); return ret; } /* compute the property flags. For each flag: (JS_PROP_HAS_x forces it, otherwise def_flags is used) Note: makes assumption about the bit pattern of the flags */ static int get_prop_flags(int flags, int def_flags) { int mask; mask = (flags >> JS_PROP_HAS_SHIFT) & JS_PROP_C_W_E; return (flags & mask) | (def_flags & ~mask); } static int JS_CreateProperty(JSContext *ctx, JSObject *p, JSAtom prop, JSValue val, JSValue getter, JSValue setter, int flags) { JSProperty *pr; int ret, prop_flags; /* add a new property or modify an existing exotic one */ if (p->is_exotic) { if (p->class_id == JS_CLASS_ARRAY) { uint32_t idx, len; if (p->fast_array) { if (__JS_AtomIsTaggedInt(prop)) { idx = __JS_AtomToUInt32(prop); if (idx == p->u.array.count) { if (!p->extensible) goto not_extensible; if (flags & (JS_PROP_HAS_GET | JS_PROP_HAS_SET)) goto convert_to_array; prop_flags = get_prop_flags(flags, 0); if (prop_flags != JS_PROP_C_W_E) goto convert_to_array; return add_fast_array_element(ctx, p, js_dup(val), flags); } else { goto convert_to_array; } } else if (JS_AtomIsArrayIndex(ctx, &idx, prop)) { /* convert the fast array to normal array */ convert_to_array: if (convert_fast_array_to_array(ctx, p)) return -1; goto generic_array; } } else if (JS_AtomIsArrayIndex(ctx, &idx, prop)) { JSProperty *plen; JSShapeProperty *pslen; generic_array: /* update the length field */ plen = &p->prop[0]; JS_ToUint32(ctx, &len, plen->u.value); if ((idx + 1) > len) { pslen = get_shape_prop(p->shape); if (unlikely(!(pslen->flags & JS_PROP_WRITABLE))) return JS_ThrowTypeErrorReadOnly(ctx, flags, JS_ATOM_length); /* XXX: should update the length after defining the property */ len = idx + 1; set_value(ctx, &plen->u.value, js_uint32(len)); } } } else if (p->class_id >= JS_CLASS_UINT8C_ARRAY && p->class_id <= JS_CLASS_FLOAT64_ARRAY) { ret = JS_AtomIsNumericIndex(ctx, prop); if (ret != 0) { if (ret < 0) return -1; return JS_ThrowTypeErrorOrFalse(ctx, flags, "cannot create numeric index in typed array"); } } else if (!(flags & JS_PROP_NO_EXOTIC)) { const JSClassExoticMethods *em = ctx->rt->class_array[p->class_id].exotic; if (em) { if (em->define_own_property) { return em->define_own_property(ctx, JS_MKPTR(JS_TAG_OBJECT, p), prop, val, getter, setter, flags); } ret = JS_IsExtensible(ctx, JS_MKPTR(JS_TAG_OBJECT, p)); if (ret < 0) return -1; if (!ret) goto not_extensible; } } } if (!p->extensible) { not_extensible: return JS_ThrowTypeErrorOrFalse(ctx, flags, "object is not extensible"); } if (flags & (JS_PROP_HAS_GET | JS_PROP_HAS_SET)) { prop_flags = (flags & (JS_PROP_CONFIGURABLE | JS_PROP_ENUMERABLE)) | JS_PROP_GETSET; } else { prop_flags = flags & JS_PROP_C_W_E; } pr = add_property(ctx, p, prop, prop_flags); if (unlikely(!pr)) return -1; if (flags & (JS_PROP_HAS_GET | JS_PROP_HAS_SET)) { pr->u.getset.getter = NULL; if ((flags & JS_PROP_HAS_GET) && JS_IsFunction(ctx, getter)) { pr->u.getset.getter = JS_VALUE_GET_OBJ(js_dup(getter)); } pr->u.getset.setter = NULL; if ((flags & JS_PROP_HAS_SET) && JS_IsFunction(ctx, setter)) { pr->u.getset.setter = JS_VALUE_GET_OBJ(js_dup(setter)); } } else { if (flags & JS_PROP_HAS_VALUE) { pr->u.value = js_dup(val); } else { pr->u.value = JS_UNDEFINED; } } return TRUE; } /* return FALSE if not OK */ static BOOL check_define_prop_flags(int prop_flags, int flags) { BOOL has_accessor, is_getset; if (!(prop_flags & JS_PROP_CONFIGURABLE)) { if ((flags & (JS_PROP_HAS_CONFIGURABLE | JS_PROP_CONFIGURABLE)) == (JS_PROP_HAS_CONFIGURABLE | JS_PROP_CONFIGURABLE)) { return FALSE; } if ((flags & JS_PROP_HAS_ENUMERABLE) && (flags & JS_PROP_ENUMERABLE) != (prop_flags & JS_PROP_ENUMERABLE)) return FALSE; } if (flags & (JS_PROP_HAS_VALUE | JS_PROP_HAS_WRITABLE | JS_PROP_HAS_GET | JS_PROP_HAS_SET)) { if (!(prop_flags & JS_PROP_CONFIGURABLE)) { has_accessor = ((flags & (JS_PROP_HAS_GET | JS_PROP_HAS_SET)) != 0); is_getset = ((prop_flags & JS_PROP_TMASK) == JS_PROP_GETSET); if (has_accessor != is_getset) return FALSE; if (!has_accessor && !is_getset && !(prop_flags & JS_PROP_WRITABLE)) { /* not writable: cannot set the writable bit */ if ((flags & (JS_PROP_HAS_WRITABLE | JS_PROP_WRITABLE)) == (JS_PROP_HAS_WRITABLE | JS_PROP_WRITABLE)) return FALSE; } } } return TRUE; } /* ensure that the shape can be safely modified */ static int js_shape_prepare_update(JSContext *ctx, JSObject *p, JSShapeProperty **pprs) { JSShape *sh; uint32_t idx = 0; /* prevent warning */ sh = p->shape; if (sh->is_hashed) { if (sh->header.ref_count != 1) { if (pprs) idx = *pprs - get_shape_prop(sh); /* clone the shape (the resulting one is no longer hashed) */ sh = js_clone_shape(ctx, sh); if (!sh) return -1; js_free_shape(ctx->rt, p->shape); p->shape = sh; if (pprs) *pprs = get_shape_prop(sh) + idx; } else { js_shape_hash_unlink(ctx->rt, sh); sh->is_hashed = FALSE; } } return 0; } static int js_update_property_flags(JSContext *ctx, JSObject *p, JSShapeProperty **pprs, int flags) { if (flags != (*pprs)->flags) { if (js_shape_prepare_update(ctx, p, pprs)) return -1; (*pprs)->flags = flags; } return 0; } /* allowed flags: JS_PROP_CONFIGURABLE, JS_PROP_WRITABLE, JS_PROP_ENUMERABLE JS_PROP_HAS_GET, JS_PROP_HAS_SET, JS_PROP_HAS_VALUE, JS_PROP_HAS_CONFIGURABLE, JS_PROP_HAS_WRITABLE, JS_PROP_HAS_ENUMERABLE, JS_PROP_THROW, JS_PROP_NO_EXOTIC. If JS_PROP_THROW is set, return an exception instead of FALSE. if JS_PROP_NO_EXOTIC is set, do not call the exotic define_own_property callback. return -1 (exception), FALSE or TRUE. */ int JS_DefineProperty(JSContext *ctx, JSValue this_obj, JSAtom prop, JSValue val, JSValue getter, JSValue setter, int flags) { JSObject *p; JSShapeProperty *prs; JSProperty *pr; int mask, res; if (JS_VALUE_GET_TAG(this_obj) != JS_TAG_OBJECT) { JS_ThrowTypeErrorNotAnObject(ctx); return -1; } p = JS_VALUE_GET_OBJ(this_obj); redo_prop_update: prs = find_own_property(&pr, p, prop); if (prs) { /* the range of the Array length property is always tested before */ if ((prs->flags & JS_PROP_LENGTH) && (flags & JS_PROP_HAS_VALUE)) { uint32_t array_length; if (JS_ToArrayLengthFree(ctx, &array_length, js_dup(val), FALSE)) { return -1; } /* this code relies on the fact that Uint32 are never allocated */ val = js_uint32(array_length); /* prs may have been modified */ prs = find_own_property(&pr, p, prop); assert(prs != NULL); } /* property already exists */ if (!check_define_prop_flags(prs->flags, flags)) { not_configurable: return JS_ThrowTypeErrorOrFalse(ctx, flags, "property is not configurable"); } if ((prs->flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { /* Instantiate property and retry */ if (JS_AutoInitProperty(ctx, p, prop, pr, prs)) return -1; goto redo_prop_update; } if (flags & (JS_PROP_HAS_VALUE | JS_PROP_HAS_WRITABLE | JS_PROP_HAS_GET | JS_PROP_HAS_SET)) { if (flags & (JS_PROP_HAS_GET | JS_PROP_HAS_SET)) { JSObject *new_getter, *new_setter; if (JS_IsFunction(ctx, getter)) { new_getter = JS_VALUE_GET_OBJ(getter); } else { new_getter = NULL; } if (JS_IsFunction(ctx, setter)) { new_setter = JS_VALUE_GET_OBJ(setter); } else { new_setter = NULL; } if ((prs->flags & JS_PROP_TMASK) != JS_PROP_GETSET) { if (js_shape_prepare_update(ctx, p, &prs)) return -1; /* convert to getset */ if ((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) { free_var_ref(ctx->rt, pr->u.var_ref); } else { JS_FreeValue(ctx, pr->u.value); } prs->flags = (prs->flags & (JS_PROP_CONFIGURABLE | JS_PROP_ENUMERABLE)) | JS_PROP_GETSET; pr->u.getset.getter = NULL; pr->u.getset.setter = NULL; } else { if (!(prs->flags & JS_PROP_CONFIGURABLE)) { if ((flags & JS_PROP_HAS_GET) && new_getter != pr->u.getset.getter) { goto not_configurable; } if ((flags & JS_PROP_HAS_SET) && new_setter != pr->u.getset.setter) { goto not_configurable; } } } if (flags & JS_PROP_HAS_GET) { if (pr->u.getset.getter) JS_FreeValue(ctx, JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.getter)); if (new_getter) js_dup(getter); pr->u.getset.getter = new_getter; } if (flags & JS_PROP_HAS_SET) { if (pr->u.getset.setter) JS_FreeValue(ctx, JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.setter)); if (new_setter) js_dup(setter); pr->u.getset.setter = new_setter; } } else { if ((prs->flags & JS_PROP_TMASK) == JS_PROP_GETSET) { /* convert to data descriptor */ if (js_shape_prepare_update(ctx, p, &prs)) return -1; if (pr->u.getset.getter) JS_FreeValue(ctx, JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.getter)); if (pr->u.getset.setter) JS_FreeValue(ctx, JS_MKPTR(JS_TAG_OBJECT, pr->u.getset.setter)); prs->flags &= ~(JS_PROP_TMASK | JS_PROP_WRITABLE); pr->u.value = JS_UNDEFINED; } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) { /* Note: JS_PROP_VARREF is always writable */ } else { if ((prs->flags & (JS_PROP_CONFIGURABLE | JS_PROP_WRITABLE)) == 0 && (flags & JS_PROP_HAS_VALUE)) { if (!js_same_value(ctx, val, pr->u.value)) { goto not_configurable; } else { return TRUE; } } } if ((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) { if (flags & JS_PROP_HAS_VALUE) { if (p->class_id == JS_CLASS_MODULE_NS) { /* JS_PROP_WRITABLE is always true for variable references, but they are write protected in module name spaces. */ if (!js_same_value(ctx, val, *pr->u.var_ref->pvalue)) goto not_configurable; } /* update the reference */ set_value(ctx, pr->u.var_ref->pvalue, js_dup(val)); } /* if writable is set to false, no longer a reference (for mapped arguments) */ if ((flags & (JS_PROP_HAS_WRITABLE | JS_PROP_WRITABLE)) == JS_PROP_HAS_WRITABLE) { JSValue val1; if (js_shape_prepare_update(ctx, p, &prs)) return -1; val1 = js_dup(*pr->u.var_ref->pvalue); free_var_ref(ctx->rt, pr->u.var_ref); pr->u.value = val1; prs->flags &= ~(JS_PROP_TMASK | JS_PROP_WRITABLE); } } else if (prs->flags & JS_PROP_LENGTH) { if (flags & JS_PROP_HAS_VALUE) { /* Note: no JS code is executable because 'val' is guaranted to be a Uint32 */ res = set_array_length(ctx, p, js_dup(val), flags); } else { res = TRUE; } /* still need to reset the writable flag if needed. The JS_PROP_LENGTH is kept because the Uint32 test is still done if the length property is read-only. */ if ((flags & (JS_PROP_HAS_WRITABLE | JS_PROP_WRITABLE)) == JS_PROP_HAS_WRITABLE) { prs = get_shape_prop(p->shape); if (js_update_property_flags(ctx, p, &prs, prs->flags & ~JS_PROP_WRITABLE)) return -1; } return res; } else { if (flags & JS_PROP_HAS_VALUE) { JS_FreeValue(ctx, pr->u.value); pr->u.value = js_dup(val); } if (flags & JS_PROP_HAS_WRITABLE) { if (js_update_property_flags(ctx, p, &prs, (prs->flags & ~JS_PROP_WRITABLE) | (flags & JS_PROP_WRITABLE))) return -1; } } } } mask = 0; if (flags & JS_PROP_HAS_CONFIGURABLE) mask |= JS_PROP_CONFIGURABLE; if (flags & JS_PROP_HAS_ENUMERABLE) mask |= JS_PROP_ENUMERABLE; if (js_update_property_flags(ctx, p, &prs, (prs->flags & ~mask) | (flags & mask))) return -1; return TRUE; } /* handle modification of fast array elements */ if (p->fast_array) { uint32_t idx; uint32_t prop_flags; if (p->class_id == JS_CLASS_ARRAY) { if (__JS_AtomIsTaggedInt(prop)) { idx = __JS_AtomToUInt32(prop); if (idx < p->u.array.count) { prop_flags = get_prop_flags(flags, JS_PROP_C_W_E); if (prop_flags != JS_PROP_C_W_E) goto convert_to_slow_array; if (flags & (JS_PROP_HAS_GET | JS_PROP_HAS_SET)) { convert_to_slow_array: if (convert_fast_array_to_array(ctx, p)) return -1; else goto redo_prop_update; } if (flags & JS_PROP_HAS_VALUE) { set_value(ctx, &p->u.array.u.values[idx], js_dup(val)); } return TRUE; } } } else if (p->class_id >= JS_CLASS_UINT8C_ARRAY && p->class_id <= JS_CLASS_FLOAT64_ARRAY) { JSValue num; int ret; if (!__JS_AtomIsTaggedInt(prop)) { /* slow path with to handle all numeric indexes */ num = JS_AtomIsNumericIndex1(ctx, prop); if (JS_IsUndefined(num)) goto typed_array_done; if (JS_IsException(num)) return -1; ret = JS_NumberIsInteger(ctx, num); if (ret < 0) { JS_FreeValue(ctx, num); return -1; } if (!ret) { JS_FreeValue(ctx, num); return JS_ThrowTypeErrorOrFalse(ctx, flags, "non integer index in typed array"); } ret = JS_NumberIsNegativeOrMinusZero(ctx, num); JS_FreeValue(ctx, num); if (ret) { return JS_ThrowTypeErrorOrFalse(ctx, flags, "negative index in typed array"); } if (!__JS_AtomIsTaggedInt(prop)) goto typed_array_oob; } idx = __JS_AtomToUInt32(prop); /* if the typed array is detached, p->u.array.count = 0 */ if (idx >= typed_array_get_length(ctx, p)) { typed_array_oob: return JS_ThrowTypeErrorOrFalse(ctx, flags, "out-of-bound index in typed array"); } prop_flags = get_prop_flags(flags, JS_PROP_ENUMERABLE | JS_PROP_WRITABLE | JS_PROP_CONFIGURABLE); if (flags & (JS_PROP_HAS_GET | JS_PROP_HAS_SET) || prop_flags != (JS_PROP_ENUMERABLE | JS_PROP_WRITABLE | JS_PROP_CONFIGURABLE)) { return JS_ThrowTypeErrorOrFalse(ctx, flags, "invalid descriptor flags"); } if (flags & JS_PROP_HAS_VALUE) { return JS_SetPropertyValue(ctx, this_obj, js_int32(idx), js_dup(val), flags); } return TRUE; typed_array_done: ; } } return JS_CreateProperty(ctx, p, prop, val, getter, setter, flags); } static int JS_DefineAutoInitProperty(JSContext *ctx, JSValue this_obj, JSAtom prop, JSAutoInitIDEnum id, void *opaque, int flags) { JSObject *p; JSProperty *pr; if (JS_VALUE_GET_TAG(this_obj) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(this_obj); if (find_own_property(&pr, p, prop)) { /* property already exists */ abort(); return FALSE; } /* Specialized CreateProperty */ pr = add_property(ctx, p, prop, (flags & JS_PROP_C_W_E) | JS_PROP_AUTOINIT); if (unlikely(!pr)) return -1; pr->u.init.realm_and_id = (uintptr_t)JS_DupContext(ctx); assert((pr->u.init.realm_and_id & 3) == 0); assert(id <= 3); pr->u.init.realm_and_id |= id; pr->u.init.opaque = opaque; return TRUE; } /* shortcut to add or redefine a new property value */ int JS_DefinePropertyValue(JSContext *ctx, JSValue this_obj, JSAtom prop, JSValue val, int flags) { int ret; ret = JS_DefineProperty(ctx, this_obj, prop, val, JS_UNDEFINED, JS_UNDEFINED, flags | JS_PROP_HAS_VALUE | JS_PROP_HAS_CONFIGURABLE | JS_PROP_HAS_WRITABLE | JS_PROP_HAS_ENUMERABLE); JS_FreeValue(ctx, val); return ret; } int JS_DefinePropertyValueValue(JSContext *ctx, JSValue this_obj, JSValue prop, JSValue val, int flags) { JSAtom atom; int ret; atom = JS_ValueToAtom(ctx, prop); JS_FreeValue(ctx, prop); if (unlikely(atom == JS_ATOM_NULL)) { JS_FreeValue(ctx, val); return -1; } ret = JS_DefinePropertyValue(ctx, this_obj, atom, val, flags); JS_FreeAtom(ctx, atom); return ret; } int JS_DefinePropertyValueUint32(JSContext *ctx, JSValue this_obj, uint32_t idx, JSValue val, int flags) { return JS_DefinePropertyValueValue(ctx, this_obj, js_uint32(idx), val, flags); } int JS_DefinePropertyValueInt64(JSContext *ctx, JSValue this_obj, int64_t idx, JSValue val, int flags) { return JS_DefinePropertyValueValue(ctx, this_obj, JS_NewInt64(ctx, idx), val, flags); } /* `prop` may be pure ASCII or UTF-8 encoded */ int JS_DefinePropertyValueStr(JSContext *ctx, JSValue this_obj, const char *prop, JSValue val, int flags) { JSAtom atom; int ret; atom = JS_NewAtom(ctx, prop); ret = JS_DefinePropertyValue(ctx, this_obj, atom, val, flags); JS_FreeAtom(ctx, atom); return ret; } /* shortcut to add getter & setter */ int JS_DefinePropertyGetSet(JSContext *ctx, JSValue this_obj, JSAtom prop, JSValue getter, JSValue setter, int flags) { int ret; ret = JS_DefineProperty(ctx, this_obj, prop, JS_UNDEFINED, getter, setter, flags | JS_PROP_HAS_GET | JS_PROP_HAS_SET | JS_PROP_HAS_CONFIGURABLE | JS_PROP_HAS_ENUMERABLE); JS_FreeValue(ctx, getter); JS_FreeValue(ctx, setter); return ret; } static int JS_CreateDataPropertyUint32(JSContext *ctx, JSValue this_obj, int64_t idx, JSValue val, int flags) { return JS_DefinePropertyValueValue(ctx, this_obj, JS_NewInt64(ctx, idx), val, flags | JS_PROP_CONFIGURABLE | JS_PROP_ENUMERABLE | JS_PROP_WRITABLE); } /* return TRUE if 'obj' has a non empty 'name' string */ static BOOL js_object_has_name(JSContext *ctx, JSValue obj) { JSProperty *pr; JSShapeProperty *prs; JSValue val; JSString *p; prs = find_own_property(&pr, JS_VALUE_GET_OBJ(obj), JS_ATOM_name); if (!prs) return FALSE; if ((prs->flags & JS_PROP_TMASK) != JS_PROP_NORMAL) return TRUE; val = pr->u.value; if (JS_VALUE_GET_TAG(val) != JS_TAG_STRING) return TRUE; p = JS_VALUE_GET_STRING(val); return (p->len != 0); } static int JS_DefineObjectName(JSContext *ctx, JSValue obj, JSAtom name, int flags) { if (name != JS_ATOM_NULL && JS_IsObject(obj) && !js_object_has_name(ctx, obj) && JS_DefinePropertyValue(ctx, obj, JS_ATOM_name, JS_AtomToString(ctx, name), flags) < 0) { return -1; } return 0; } static int JS_DefineObjectNameComputed(JSContext *ctx, JSValue obj, JSValue str, int flags) { if (JS_IsObject(obj) && !js_object_has_name(ctx, obj)) { JSAtom prop; JSValue name_str; prop = JS_ValueToAtom(ctx, str); if (prop == JS_ATOM_NULL) return -1; name_str = js_get_function_name(ctx, prop); JS_FreeAtom(ctx, prop); if (JS_IsException(name_str)) return -1; if (JS_DefinePropertyValue(ctx, obj, JS_ATOM_name, name_str, flags) < 0) return -1; } return 0; } #define DEFINE_GLOBAL_LEX_VAR (1 << 7) #define DEFINE_GLOBAL_FUNC_VAR (1 << 6) static JSValue JS_ThrowSyntaxErrorVarRedeclaration(JSContext *ctx, JSAtom prop) { return JS_ThrowSyntaxErrorAtom(ctx, "redeclaration of '%s'", prop); } /* flags is 0, DEFINE_GLOBAL_LEX_VAR or DEFINE_GLOBAL_FUNC_VAR */ /* XXX: could support exotic global object. */ static int JS_CheckDefineGlobalVar(JSContext *ctx, JSAtom prop, int flags) { JSObject *p; JSShapeProperty *prs; p = JS_VALUE_GET_OBJ(ctx->global_obj); prs = find_own_property1(p, prop); /* XXX: should handle JS_PROP_AUTOINIT */ if (flags & DEFINE_GLOBAL_LEX_VAR) { if (prs && !(prs->flags & JS_PROP_CONFIGURABLE)) goto fail_redeclaration; } else { if (!prs && !p->extensible) goto define_error; if (flags & DEFINE_GLOBAL_FUNC_VAR) { if (prs) { if (!(prs->flags & JS_PROP_CONFIGURABLE) && ((prs->flags & JS_PROP_TMASK) == JS_PROP_GETSET || ((prs->flags & (JS_PROP_WRITABLE | JS_PROP_ENUMERABLE)) != (JS_PROP_WRITABLE | JS_PROP_ENUMERABLE)))) { define_error: JS_ThrowTypeErrorAtom(ctx, "cannot define variable '%s'", prop); return -1; } } } } /* check if there already is a lexical declaration */ p = JS_VALUE_GET_OBJ(ctx->global_var_obj); prs = find_own_property1(p, prop); if (prs) { fail_redeclaration: JS_ThrowSyntaxErrorVarRedeclaration(ctx, prop); return -1; } return 0; } /* def_flags is (0, DEFINE_GLOBAL_LEX_VAR) | JS_PROP_CONFIGURABLE | JS_PROP_WRITABLE */ /* XXX: could support exotic global object. */ static int JS_DefineGlobalVar(JSContext *ctx, JSAtom prop, int def_flags) { JSObject *p; JSShapeProperty *prs; JSProperty *pr; JSValue val; int flags; if (def_flags & DEFINE_GLOBAL_LEX_VAR) { p = JS_VALUE_GET_OBJ(ctx->global_var_obj); flags = JS_PROP_ENUMERABLE | (def_flags & JS_PROP_WRITABLE) | JS_PROP_CONFIGURABLE; val = JS_UNINITIALIZED; } else { p = JS_VALUE_GET_OBJ(ctx->global_obj); flags = JS_PROP_ENUMERABLE | JS_PROP_WRITABLE | (def_flags & JS_PROP_CONFIGURABLE); val = JS_UNDEFINED; } prs = find_own_property1(p, prop); if (prs) return 0; if (!p->extensible) return 0; pr = add_property(ctx, p, prop, flags); if (unlikely(!pr)) return -1; pr->u.value = val; return 0; } /* 'def_flags' is 0 or JS_PROP_CONFIGURABLE. */ /* XXX: could support exotic global object. */ static int JS_DefineGlobalFunction(JSContext *ctx, JSAtom prop, JSValue func, int def_flags) { JSObject *p; JSShapeProperty *prs; int flags; p = JS_VALUE_GET_OBJ(ctx->global_obj); prs = find_own_property1(p, prop); flags = JS_PROP_HAS_VALUE | JS_PROP_THROW; if (!prs || (prs->flags & JS_PROP_CONFIGURABLE)) { flags |= JS_PROP_ENUMERABLE | JS_PROP_WRITABLE | def_flags | JS_PROP_HAS_CONFIGURABLE | JS_PROP_HAS_WRITABLE | JS_PROP_HAS_ENUMERABLE; } if (JS_DefineProperty(ctx, ctx->global_obj, prop, func, JS_UNDEFINED, JS_UNDEFINED, flags) < 0) return -1; return 0; } static JSValue JS_GetGlobalVar(JSContext *ctx, JSAtom prop, BOOL throw_ref_error) { JSObject *p; JSShapeProperty *prs; JSProperty *pr; /* no exotic behavior is possible in global_var_obj */ p = JS_VALUE_GET_OBJ(ctx->global_var_obj); prs = find_own_property(&pr, p, prop); if (prs) { /* XXX: should handle JS_PROP_TMASK properties */ if (unlikely(JS_IsUninitialized(pr->u.value))) return JS_ThrowReferenceErrorUninitialized(ctx, prs->atom); return js_dup(pr->u.value); } return JS_GetPropertyInternal(ctx, ctx->global_obj, prop, ctx->global_obj, throw_ref_error); } /* construct a reference to a global variable */ static int JS_GetGlobalVarRef(JSContext *ctx, JSAtom prop, JSValue *sp) { JSObject *p; JSShapeProperty *prs; JSProperty *pr; /* no exotic behavior is possible in global_var_obj */ p = JS_VALUE_GET_OBJ(ctx->global_var_obj); prs = find_own_property(&pr, p, prop); if (prs) { /* XXX: should handle JS_PROP_AUTOINIT properties? */ /* XXX: conformance: do these tests in OP_put_var_ref/OP_get_var_ref ? */ if (unlikely(JS_IsUninitialized(pr->u.value))) { JS_ThrowReferenceErrorUninitialized(ctx, prs->atom); return -1; } if (unlikely(!(prs->flags & JS_PROP_WRITABLE))) { return JS_ThrowTypeErrorReadOnly(ctx, JS_PROP_THROW, prop); } sp[0] = js_dup(ctx->global_var_obj); } else { int ret; ret = JS_HasProperty(ctx, ctx->global_obj, prop); if (ret < 0) return -1; if (ret) { sp[0] = js_dup(ctx->global_obj); } else { sp[0] = JS_UNDEFINED; } } sp[1] = JS_AtomToValue(ctx, prop); return 0; } /* use for strict variable access: test if the variable exists */ static int JS_CheckGlobalVar(JSContext *ctx, JSAtom prop) { JSObject *p; JSShapeProperty *prs; int ret; /* no exotic behavior is possible in global_var_obj */ p = JS_VALUE_GET_OBJ(ctx->global_var_obj); prs = find_own_property1(p, prop); if (prs) { ret = TRUE; } else { ret = JS_HasProperty(ctx, ctx->global_obj, prop); if (ret < 0) return -1; } return ret; } /* flag = 0: normal variable write flag = 1: initialize lexical variable flag = 2: normal variable write, strict check was done before */ static int JS_SetGlobalVar(JSContext *ctx, JSAtom prop, JSValue val, int flag) { JSObject *p; JSShapeProperty *prs; JSProperty *pr; int flags; /* no exotic behavior is possible in global_var_obj */ p = JS_VALUE_GET_OBJ(ctx->global_var_obj); prs = find_own_property(&pr, p, prop); if (prs) { /* XXX: should handle JS_PROP_AUTOINIT properties? */ if (flag != 1) { if (unlikely(JS_IsUninitialized(pr->u.value))) { JS_FreeValue(ctx, val); JS_ThrowReferenceErrorUninitialized(ctx, prs->atom); return -1; } if (unlikely(!(prs->flags & JS_PROP_WRITABLE))) { JS_FreeValue(ctx, val); return JS_ThrowTypeErrorReadOnly(ctx, JS_PROP_THROW, prop); } } set_value(ctx, &pr->u.value, val); return 0; } flags = JS_PROP_THROW_STRICT; if (is_strict_mode(ctx)) flags |= JS_PROP_NO_ADD; return JS_SetPropertyInternal(ctx, ctx->global_obj, prop, val, flags); } /* return -1, FALSE or TRUE. return FALSE if not configurable or invalid object. return -1 in case of exception. flags can be 0, JS_PROP_THROW or JS_PROP_THROW_STRICT */ int JS_DeleteProperty(JSContext *ctx, JSValue obj, JSAtom prop, int flags) { JSValue obj1; JSObject *p; int res; obj1 = JS_ToObject(ctx, obj); if (JS_IsException(obj1)) return -1; p = JS_VALUE_GET_OBJ(obj1); res = delete_property(ctx, p, prop); JS_FreeValue(ctx, obj1); if (res != FALSE) return res; if ((flags & JS_PROP_THROW) || ((flags & JS_PROP_THROW_STRICT) && is_strict_mode(ctx))) { JS_ThrowTypeError(ctx, "could not delete property"); return -1; } return FALSE; } int JS_DeletePropertyInt64(JSContext *ctx, JSValue obj, int64_t idx, int flags) { JSAtom prop; int res; if ((uint64_t)idx <= JS_ATOM_MAX_INT) { /* fast path for fast arrays */ return JS_DeleteProperty(ctx, obj, __JS_AtomFromUInt32(idx), flags); } prop = JS_NewAtomInt64(ctx, idx); if (prop == JS_ATOM_NULL) return -1; res = JS_DeleteProperty(ctx, obj, prop, flags); JS_FreeAtom(ctx, prop); return res; } BOOL JS_IsFunction(JSContext *ctx, JSValue val) { JSObject *p; if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(val); switch(p->class_id) { case JS_CLASS_BYTECODE_FUNCTION: return TRUE; case JS_CLASS_PROXY: return p->u.proxy_data->is_func; default: return (ctx->rt->class_array[p->class_id].call != NULL); } } BOOL JS_IsCFunction(JSContext *ctx, JSValue val, JSCFunction *func, int magic) { JSObject *p; if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(val); if (p->class_id == JS_CLASS_C_FUNCTION) return (p->u.cfunc.c_function.generic == func && p->u.cfunc.magic == magic); else return FALSE; } BOOL JS_IsConstructor(JSContext *ctx, JSValue val) { JSObject *p; if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(val); return p->is_constructor; } BOOL JS_SetConstructorBit(JSContext *ctx, JSValue func_obj, BOOL val) { JSObject *p; if (JS_VALUE_GET_TAG(func_obj) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(func_obj); p->is_constructor = val; return TRUE; } BOOL JS_IsError(JSContext *ctx, JSValue val) { JSObject *p; if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(val); return (p->class_id == JS_CLASS_ERROR); } /* used to avoid catching interrupt exceptions */ BOOL JS_IsUncatchableError(JSContext *ctx, JSValue val) { JSObject *p; if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(val); return p->class_id == JS_CLASS_ERROR && p->is_uncatchable_error; } void JS_SetUncatchableError(JSContext *ctx, JSValue val, BOOL flag) { JSObject *p; if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return; p = JS_VALUE_GET_OBJ(val); if (p->class_id == JS_CLASS_ERROR) p->is_uncatchable_error = flag; } void JS_ResetUncatchableError(JSContext *ctx) { JS_SetUncatchableError(ctx, ctx->rt->current_exception, FALSE); } void JS_SetOpaque(JSValue obj, void *opaque) { JSObject *p; if (JS_VALUE_GET_TAG(obj) == JS_TAG_OBJECT) { p = JS_VALUE_GET_OBJ(obj); p->u.opaque = opaque; } } /* return NULL if not an object of class class_id */ void *JS_GetOpaque(JSValue obj, JSClassID class_id) { JSObject *p; if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) return NULL; p = JS_VALUE_GET_OBJ(obj); if (p->class_id != class_id) return NULL; return p->u.opaque; } void *JS_GetOpaque2(JSContext *ctx, JSValue obj, JSClassID class_id) { void *p = JS_GetOpaque(obj, class_id); if (unlikely(!p)) { JS_ThrowTypeErrorInvalidClass(ctx, class_id); } return p; } void *JS_GetAnyOpaque(JSValue obj, JSClassID *class_id) { JSObject *p; if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) { *class_id = 0; return NULL; } p = JS_VALUE_GET_OBJ(obj); *class_id = p->class_id; return p->u.opaque; } static JSValue JS_ToPrimitiveFree(JSContext *ctx, JSValue val, int hint) { int i; BOOL force_ordinary; JSAtom method_name; JSValue method, ret; if (JS_VALUE_GET_TAG(val) != JS_TAG_OBJECT) return val; force_ordinary = hint & HINT_FORCE_ORDINARY; hint &= ~HINT_FORCE_ORDINARY; if (!force_ordinary) { method = JS_GetProperty(ctx, val, JS_ATOM_Symbol_toPrimitive); if (JS_IsException(method)) goto exception; /* ECMA says *If exoticToPrim is not undefined* but tests in test262 use null as a non callable converter */ if (!JS_IsUndefined(method) && !JS_IsNull(method)) { JSAtom atom; JSValue arg; switch(hint) { case HINT_STRING: atom = JS_ATOM_string; break; case HINT_NUMBER: atom = JS_ATOM_number; break; default: case HINT_NONE: atom = JS_ATOM_default; break; } arg = JS_AtomToString(ctx, atom); ret = JS_CallFree(ctx, method, val, 1, &arg); JS_FreeValue(ctx, arg); if (JS_IsException(ret)) goto exception; JS_FreeValue(ctx, val); if (JS_VALUE_GET_TAG(ret) != JS_TAG_OBJECT) return ret; JS_FreeValue(ctx, ret); return JS_ThrowTypeError(ctx, "toPrimitive"); } } if (hint != HINT_STRING) hint = HINT_NUMBER; for(i = 0; i < 2; i++) { if ((i ^ hint) == 0) { method_name = JS_ATOM_toString; } else { method_name = JS_ATOM_valueOf; } method = JS_GetProperty(ctx, val, method_name); if (JS_IsException(method)) goto exception; if (JS_IsFunction(ctx, method)) { ret = JS_CallFree(ctx, method, val, 0, NULL); if (JS_IsException(ret)) goto exception; if (JS_VALUE_GET_TAG(ret) != JS_TAG_OBJECT) { JS_FreeValue(ctx, val); return ret; } JS_FreeValue(ctx, ret); } else { JS_FreeValue(ctx, method); } } JS_ThrowTypeError(ctx, "toPrimitive"); exception: JS_FreeValue(ctx, val); return JS_EXCEPTION; } static JSValue JS_ToPrimitive(JSContext *ctx, JSValue val, int hint) { return JS_ToPrimitiveFree(ctx, js_dup(val), hint); } void JS_SetIsHTMLDDA(JSContext *ctx, JSValue obj) { JSObject *p; if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) return; p = JS_VALUE_GET_OBJ(obj); p->is_HTMLDDA = TRUE; } static inline BOOL JS_IsHTMLDDA(JSContext *ctx, JSValue obj) { JSObject *p; if (JS_VALUE_GET_TAG(obj) != JS_TAG_OBJECT) return FALSE; p = JS_VALUE_GET_OBJ(obj); return p->is_HTMLDDA; } static int JS_ToBoolFree(JSContext *ctx, JSValue val) { uint32_t tag = JS_VALUE_GET_TAG(val); switch(tag) { case JS_TAG_INT: return JS_VALUE_GET_INT(val) != 0; case JS_TAG_BOOL: case JS_TAG_NULL: case JS_TAG_UNDEFINED: return JS_VALUE_GET_INT(val); case JS_TAG_EXCEPTION: return -1; case JS_TAG_STRING: { BOOL ret = JS_VALUE_GET_STRING(val)->len != 0; JS_FreeValue(ctx, val); return ret; } case JS_TAG_BIG_INT: { JSBigInt *p = JS_VALUE_GET_PTR(val); BOOL ret; ret = p->num.expn != BF_EXP_ZERO && p->num.expn != BF_EXP_NAN; JS_FreeValue(ctx, val); return ret; } case JS_TAG_OBJECT: { JSObject *p = JS_VALUE_GET_OBJ(val); BOOL ret; ret = !p->is_HTMLDDA; JS_FreeValue(ctx, val); return ret; } break; default: if (JS_TAG_IS_FLOAT64(tag)) { double d = JS_VALUE_GET_FLOAT64(val); return !isnan(d) && d != 0; } else { JS_FreeValue(ctx, val); return TRUE; } } } int JS_ToBool(JSContext *ctx, JSValue val) { return JS_ToBoolFree(ctx, js_dup(val)); } /* pc points to pure ASCII or UTF-8, null terminated contents */ static int skip_spaces(const char *pc) { const uint8_t *p, *p_next, *p_start; uint32_t c; p = p_start = (const uint8_t *)pc; for (;;) { c = *p++; if (c < 0x80) { if (!((c >= 0x09 && c <= 0x0d) || (c == 0x20))) break; } else { c = utf8_decode(p - 1, &p_next); /* no need to test for invalid UTF-8, 0xFFFD is not a space */ if (!lre_is_space(c)) break; p = p_next; } } return p - 1 - p_start; } static inline int to_digit(int c) { if (c >= '0' && c <= '9') return c - '0'; else if (c >= 'A' && c <= 'Z') return c - 'A' + 10; else if (c >= 'a' && c <= 'z') return c - 'a' + 10; else return 36; } /* XXX: remove */ static double js_strtod(const char *str, int radix, BOOL is_float) { double d; int c; if (!is_float || radix != 10) { const char *p = str; uint64_t n_max, n; int int_exp, is_neg; is_neg = 0; if (*p == '-') { is_neg = 1; p++; } /* skip leading zeros */ while (*p == '0') p++; n = 0; if (radix == 10) n_max = ((uint64_t)-1 - 9) / 10; /* most common case */ else n_max = ((uint64_t)-1 - (radix - 1)) / radix; /* XXX: could be more precise */ int_exp = 0; while ((c = to_digit(*p)) < radix) { if (n <= n_max) { n = n * radix + c; } else { if (radix == 10) goto strtod_case; int_exp++; } p++; } d = n; if (int_exp != 0) { d *= pow(radix, int_exp); } if (is_neg) d = -d; } else { strtod_case: d = strtod(str, NULL); } return d; } static JSValue js_string_to_bigint(JSContext *ctx, const char *buf, int radix) { bf_t *a; int ret; JSValue val; val = JS_NewBigInt(ctx); if (JS_IsException(val)) return val; a = JS_GetBigInt(val); ret = bf_atof(a, buf, NULL, radix, BF_PREC_INF, BF_RNDZ); if (ret & BF_ST_MEM_ERROR) { JS_FreeValue(ctx, val); return JS_ThrowOutOfMemory(ctx); } return JS_CompactBigInt1(ctx, val); } /* `js_atof(ctx, p, len, pp, radix, flags)` Convert the string pointed to by `p` to a number value. Return an exception in case of memory error. Return `JS_NAN` if invalid syntax. - `p` points to a null terminated UTF-8 encoded char array, - `len` the length of the array, - `pp` if not null receives a pointer to the next character, - `radix` must be in range 2 to 36, else return `JS_NAN`. - `flags` is a combination of the flags below. There is a null byte at `p[len]`, but there might be embedded null bytes between `p[0]` and `p[len]` which must produce `JS_NAN` if the `ATOD_NO_TRAILING_CHARS` flag is present. */ #define ATOD_TRIM_SPACES (1 << 0) /* trim white space */ #define ATOD_ACCEPT_EMPTY (1 << 1) /* accept an empty string, value is 0 */ #define ATOD_ACCEPT_FLOAT (1 << 2) /* parse decimal floating point syntax */ #define ATOD_ACCEPT_INFINITY (1 << 3) /* parse Infinity as a float point number */ #define ATOD_ACCEPT_BIN_OCT (1 << 4) /* accept 0o and 0b prefixes */ #define ATOD_ACCEPT_HEX_PREFIX (1 << 5) /* accept 0x prefix for radix 16 */ #define ATOD_ACCEPT_UNDERSCORES (1 << 6) /* accept _ between digits as a digit separator */ #define ATOD_ACCEPT_SUFFIX (1 << 7) /* allow 'n' suffix to produce BigInt */ #define ATOD_WANT_BIG_INT (1 << 8) /* return type must be BigInt */ #define ATOD_DECIMAL_AFTER_SIGN (1 << 9) /* only accept decimal number after sign */ #define ATOD_NO_TRAILING_CHARS (1 << 10) /* do not accept trailing characters */ static JSValue js_atof(JSContext *ctx, const char *p, size_t len, const char **pp, int radix, int flags) { const char *p_start; const char *end = p + len; int sep; BOOL is_float; char buf1[64], *buf = buf1; size_t i, j; JSValue val = JS_NAN; double d; char sign; if (radix < 2 || radix > 36) goto done; /* optional separator between digits */ sep = (flags & ATOD_ACCEPT_UNDERSCORES) ? '_' : 256; sign = 0; if (flags & ATOD_TRIM_SPACES) p += skip_spaces(p); if (p == end && (flags & ATOD_ACCEPT_EMPTY)) { if (pp) *pp = p; if (flags & ATOD_WANT_BIG_INT) return JS_NewBigInt64(ctx, 0); else return js_int32(0); } if (*p == '+' || *p == '-') { sign = *p; p++; if (flags & ATOD_DECIMAL_AFTER_SIGN) flags &= ~(ATOD_ACCEPT_HEX_PREFIX | ATOD_ACCEPT_BIN_OCT); } if (p[0] == '0') { if ((p[1] == 'x' || p[1] == 'X') && ((flags & ATOD_ACCEPT_HEX_PREFIX) || radix == 16)) { p += 2; radix = 16; } else if (flags & ATOD_ACCEPT_BIN_OCT) { if (p[1] == 'o' || p[1] == 'O') { p += 2; radix = 8; } else if (p[1] == 'b' || p[1] == 'B') { p += 2; radix = 2; } } } else { if (*p == 'I' && (flags & ATOD_ACCEPT_INFINITY) && strstart(p, "Infinity", &p)) { d = INF; if (sign == '-') d = -d; val = js_float64(d); goto done; } } is_float = FALSE; p_start = p; while (to_digit(*p) < radix) { p++; if (*p == sep && to_digit(p[1]) < radix) p++; } if ((flags & ATOD_ACCEPT_FLOAT) && radix == 10) { if (*p == '.' && (p > p_start || to_digit(p[1]) < radix)) { is_float = TRUE; p++; while (to_digit(*p) < radix) { p++; if (*p == sep && to_digit(p[1]) < radix) p++; } } if (p > p_start && (*p == 'e' || *p == 'E')) { i = 1; if (p[1] == '+' || p[1] == '-') { i++; } if (is_digit(p[i])) { is_float = TRUE; p += i + 1; while (is_digit(*p) || (*p == sep && is_digit(p[1]))) p++; } } } if (p == p_start) goto done; len = p - p_start; if (unlikely((len + 2) > sizeof(buf1))) { buf = js_malloc_rt(ctx->rt, len + 2); /* no exception raised */ if (!buf) { if (pp) *pp = p; return JS_ThrowOutOfMemory(ctx); } } /* remove the separators and the radix prefix */ j = 0; if (sign == '-') buf[j++] = '-'; for (i = 0; i < len; i++) { if (p_start[i] != '_') buf[j++] = p_start[i]; } buf[j] = '\0'; if (flags & ATOD_ACCEPT_SUFFIX) { if (*p == 'n') { p++; flags |= ATOD_WANT_BIG_INT; } } if (flags & ATOD_WANT_BIG_INT) { if (!is_float) val = js_string_to_bigint(ctx, buf, radix); } else { d = js_strtod(buf, radix, is_float); val = js_number(d); /* return int or float64 */ } done: if (flags & ATOD_NO_TRAILING_CHARS) { if (flags & ATOD_TRIM_SPACES) p += skip_spaces(p); if (p != end) { JS_FreeValue(ctx, val); val = JS_NAN; } } if (buf != buf1) js_free_rt(ctx->rt, buf); if (pp) *pp = p; return val; } typedef enum JSToNumberHintEnum { TON_FLAG_NUMBER, TON_FLAG_NUMERIC, } JSToNumberHintEnum; static JSValue JS_ToNumberHintFree(JSContext *ctx, JSValue val, JSToNumberHintEnum flag) { uint32_t tag; JSValue ret; redo: tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_BIG_INT: if (flag != TON_FLAG_NUMERIC) { JS_FreeValue(ctx, val); return JS_ThrowTypeError(ctx, "cannot convert BigInt to number"); } ret = val; break; case JS_TAG_FLOAT64: case JS_TAG_INT: case JS_TAG_EXCEPTION: ret = val; break; case JS_TAG_BOOL: case JS_TAG_NULL: ret = js_int32(JS_VALUE_GET_INT(val)); break; case JS_TAG_UNDEFINED: ret = JS_NAN; break; case JS_TAG_OBJECT: val = JS_ToPrimitiveFree(ctx, val, HINT_NUMBER); if (JS_IsException(val)) return JS_EXCEPTION; goto redo; case JS_TAG_STRING: { const char *str; size_t len; int flags; str = JS_ToCStringLen(ctx, &len, val); JS_FreeValue(ctx, val); if (!str) return JS_EXCEPTION; flags = ATOD_TRIM_SPACES | ATOD_ACCEPT_EMPTY | ATOD_ACCEPT_FLOAT | ATOD_ACCEPT_INFINITY | ATOD_ACCEPT_HEX_PREFIX | ATOD_ACCEPT_BIN_OCT | ATOD_DECIMAL_AFTER_SIGN | ATOD_NO_TRAILING_CHARS; ret = js_atof(ctx, str, len, NULL, 10, flags); JS_FreeCString(ctx, str); } break; case JS_TAG_SYMBOL: JS_FreeValue(ctx, val); return JS_ThrowTypeError(ctx, "cannot convert symbol to number"); default: JS_FreeValue(ctx, val); ret = JS_NAN; break; } return ret; } static JSValue JS_ToNumberFree(JSContext *ctx, JSValue val) { return JS_ToNumberHintFree(ctx, val, TON_FLAG_NUMBER); } static JSValue JS_ToNumericFree(JSContext *ctx, JSValue val) { return JS_ToNumberHintFree(ctx, val, TON_FLAG_NUMERIC); } static JSValue JS_ToNumeric(JSContext *ctx, JSValue val) { return JS_ToNumericFree(ctx, js_dup(val)); } static __exception int __JS_ToFloat64Free(JSContext *ctx, double *pres, JSValue val) { double d; uint32_t tag; val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) { *pres = JS_FLOAT64_NAN; return -1; } tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: d = JS_VALUE_GET_INT(val); break; case JS_TAG_FLOAT64: d = JS_VALUE_GET_FLOAT64(val); break; case JS_TAG_BIG_INT: { JSBigInt *p = JS_VALUE_GET_PTR(val); /* XXX: there can be a double rounding issue with some primitives (such as JS_ToUint8ClampFree()), but it is not critical to fix it. */ bf_get_float64(&p->num, &d, BF_RNDN); JS_FreeValue(ctx, val); } break; default: abort(); } *pres = d; return 0; } static inline int JS_ToFloat64Free(JSContext *ctx, double *pres, JSValue val) { uint32_t tag; tag = JS_VALUE_GET_TAG(val); if (tag <= JS_TAG_NULL) { *pres = JS_VALUE_GET_INT(val); return 0; } else if (JS_TAG_IS_FLOAT64(tag)) { *pres = JS_VALUE_GET_FLOAT64(val); return 0; } else { return __JS_ToFloat64Free(ctx, pres, val); } } int JS_ToFloat64(JSContext *ctx, double *pres, JSValue val) { return JS_ToFloat64Free(ctx, pres, js_dup(val)); } static JSValue JS_ToNumber(JSContext *ctx, JSValue val) { return JS_ToNumberFree(ctx, js_dup(val)); } /* same as JS_ToNumber() but return 0 in case of NaN/Undefined */ static __maybe_unused JSValue JS_ToIntegerFree(JSContext *ctx, JSValue val) { uint32_t tag; JSValue ret; redo: tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_BOOL: case JS_TAG_NULL: case JS_TAG_UNDEFINED: ret = js_int32(JS_VALUE_GET_INT(val)); break; case JS_TAG_FLOAT64: { double d = JS_VALUE_GET_FLOAT64(val); if (isnan(d)) { ret = js_int32(0); } else { /* convert -0 to +0 */ d = trunc(d) + 0.0; ret = js_number(d); } } break; default: val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) return val; goto redo; } return ret; } /* Note: the integer value is satured to 32 bits */ static int JS_ToInt32SatFree(JSContext *ctx, int *pres, JSValue val) { uint32_t tag; int ret; redo: tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_BOOL: case JS_TAG_NULL: case JS_TAG_UNDEFINED: ret = JS_VALUE_GET_INT(val); break; case JS_TAG_EXCEPTION: *pres = 0; return -1; case JS_TAG_FLOAT64: { double d = JS_VALUE_GET_FLOAT64(val); if (isnan(d)) { ret = 0; } else { if (d < INT32_MIN) ret = INT32_MIN; else if (d > INT32_MAX) ret = INT32_MAX; else ret = (int)d; } } break; default: val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) { *pres = 0; return -1; } goto redo; } *pres = ret; return 0; } int JS_ToInt32Sat(JSContext *ctx, int *pres, JSValue val) { return JS_ToInt32SatFree(ctx, pres, js_dup(val)); } int JS_ToInt32Clamp(JSContext *ctx, int *pres, JSValue val, int min, int max, int min_offset) { int res = JS_ToInt32SatFree(ctx, pres, js_dup(val)); if (res == 0) { if (*pres < min) { *pres += min_offset; if (*pres < min) *pres = min; } else { if (*pres > max) *pres = max; } } return res; } static int JS_ToInt64SatFree(JSContext *ctx, int64_t *pres, JSValue val) { uint32_t tag; redo: tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_BOOL: case JS_TAG_NULL: case JS_TAG_UNDEFINED: *pres = JS_VALUE_GET_INT(val); return 0; case JS_TAG_EXCEPTION: *pres = 0; return -1; case JS_TAG_FLOAT64: { double d = JS_VALUE_GET_FLOAT64(val); if (isnan(d)) { *pres = 0; } else { if (d < INT64_MIN) *pres = INT64_MIN; else if (d >= 0x1p63) *pres = INT64_MAX; else *pres = (int64_t)d; } } return 0; default: val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) { *pres = 0; return -1; } goto redo; } } int JS_ToInt64Sat(JSContext *ctx, int64_t *pres, JSValue val) { return JS_ToInt64SatFree(ctx, pres, js_dup(val)); } int JS_ToInt64Clamp(JSContext *ctx, int64_t *pres, JSValue val, int64_t min, int64_t max, int64_t neg_offset) { int res = JS_ToInt64SatFree(ctx, pres, js_dup(val)); if (res == 0) { if (*pres < 0) *pres += neg_offset; if (*pres < min) *pres = min; else if (*pres > max) *pres = max; } return res; } /* Same as JS_ToInt32Free() but with a 64 bit result. Return (<0, 0) in case of exception */ static int JS_ToInt64Free(JSContext *ctx, int64_t *pres, JSValue val) { uint32_t tag; int64_t ret; redo: tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_BOOL: case JS_TAG_NULL: case JS_TAG_UNDEFINED: ret = JS_VALUE_GET_INT(val); break; case JS_TAG_FLOAT64: { JSFloat64Union u; double d; int e; d = JS_VALUE_GET_FLOAT64(val); u.d = d; /* we avoid doing fmod(x, 2^64) */ e = (u.u64 >> 52) & 0x7ff; if (likely(e <= (1023 + 62))) { /* fast case */ ret = (int64_t)d; } else if (e <= (1023 + 62 + 53)) { uint64_t v; /* remainder modulo 2^64 */ v = (u.u64 & (((uint64_t)1 << 52) - 1)) | ((uint64_t)1 << 52); ret = v << ((e - 1023) - 52); /* take the sign into account */ if (u.u64 >> 63) if (ret != INT64_MIN) ret = -ret; } else { ret = 0; /* also handles NaN and +inf */ } } break; default: val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) { *pres = 0; return -1; } goto redo; } *pres = ret; return 0; } int JS_ToInt64(JSContext *ctx, int64_t *pres, JSValue val) { return JS_ToInt64Free(ctx, pres, js_dup(val)); } int JS_ToInt64Ext(JSContext *ctx, int64_t *pres, JSValue val) { if (JS_IsBigInt(ctx, val)) return JS_ToBigInt64(ctx, pres, val); else return JS_ToInt64(ctx, pres, val); } /* return (<0, 0) in case of exception */ static int JS_ToInt32Free(JSContext *ctx, int32_t *pres, JSValue val) { uint32_t tag; int32_t ret; redo: tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_BOOL: case JS_TAG_NULL: case JS_TAG_UNDEFINED: ret = JS_VALUE_GET_INT(val); break; case JS_TAG_FLOAT64: { JSFloat64Union u; double d; int e; d = JS_VALUE_GET_FLOAT64(val); u.d = d; /* we avoid doing fmod(x, 2^32) */ e = (u.u64 >> 52) & 0x7ff; if (likely(e <= (1023 + 30))) { /* fast case */ ret = (int32_t)d; } else if (e <= (1023 + 30 + 53)) { uint64_t v; /* remainder modulo 2^32 */ v = (u.u64 & (((uint64_t)1 << 52) - 1)) | ((uint64_t)1 << 52); v = v << ((e - 1023) - 52 + 32); ret = v >> 32; /* take the sign into account */ if (u.u64 >> 63) if (ret != INT32_MIN) ret = -ret; } else { ret = 0; /* also handles NaN and +inf */ } } break; default: val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) { *pres = 0; return -1; } goto redo; } *pres = ret; return 0; } int JS_ToInt32(JSContext *ctx, int32_t *pres, JSValue val) { return JS_ToInt32Free(ctx, pres, js_dup(val)); } static inline int JS_ToUint32Free(JSContext *ctx, uint32_t *pres, JSValue val) { return JS_ToInt32Free(ctx, (int32_t *)pres, val); } static int JS_ToUint8ClampFree(JSContext *ctx, int32_t *pres, JSValue val) { uint32_t tag; int res; redo: tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_BOOL: case JS_TAG_NULL: case JS_TAG_UNDEFINED: res = JS_VALUE_GET_INT(val); res = max_int(0, min_int(255, res)); break; case JS_TAG_FLOAT64: { double d = JS_VALUE_GET_FLOAT64(val); if (isnan(d)) { res = 0; } else { if (d < 0) res = 0; else if (d > 255) res = 255; else res = lrint(d); } } break; default: val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) { *pres = 0; return -1; } goto redo; } *pres = res; return 0; } static __exception int JS_ToArrayLengthFree(JSContext *ctx, uint32_t *plen, JSValue val, BOOL is_array_ctor) { uint32_t tag, len; tag = JS_VALUE_GET_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_BOOL: case JS_TAG_NULL: { int v; v = JS_VALUE_GET_INT(val); if (v < 0) goto fail; len = v; } break; case JS_TAG_BIG_INT: { JSBigInt *p = JS_VALUE_GET_PTR(val); bf_t a; BOOL res; bf_get_int32((int32_t *)&len, &p->num, BF_GET_INT_MOD); bf_init(ctx->bf_ctx, &a); bf_set_ui(&a, len); res = bf_cmp_eq(&a, &p->num); bf_delete(&a); JS_FreeValue(ctx, val); if (!res) goto fail; } break; default: if (JS_TAG_IS_FLOAT64(tag)) { double d; d = JS_VALUE_GET_FLOAT64(val); if (!(d >= 0 && d <= UINT32_MAX)) goto fail; len = (uint32_t)d; if (len != d) goto fail; } else { uint32_t len1; if (is_array_ctor) { val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) return -1; /* cannot recurse because val is a number */ if (JS_ToArrayLengthFree(ctx, &len, val, TRUE)) return -1; } else { /* legacy behavior: must do the conversion twice and compare */ if (JS_ToUint32(ctx, &len, val)) { JS_FreeValue(ctx, val); return -1; } val = JS_ToNumberFree(ctx, val); if (JS_IsException(val)) return -1; /* cannot recurse because val is a number */ if (JS_ToArrayLengthFree(ctx, &len1, val, FALSE)) return -1; if (len1 != len) { fail: JS_ThrowRangeError(ctx, "invalid array length"); return -1; } } } break; } *plen = len; return 0; } #define MAX_SAFE_INTEGER (((int64_t)1 << 53) - 1) static BOOL is_safe_integer(double d) { return isfinite(d) && floor(d) == d && fabs(d) <= (double)MAX_SAFE_INTEGER; } int JS_ToIndex(JSContext *ctx, uint64_t *plen, JSValue val) { int64_t v; if (JS_ToInt64Sat(ctx, &v, val)) return -1; if (v < 0 || v > MAX_SAFE_INTEGER) { JS_ThrowRangeError(ctx, "invalid array index"); *plen = 0; return -1; } *plen = v; return 0; } /* convert a value to a length between 0 and MAX_SAFE_INTEGER. return -1 for exception */ static __exception int JS_ToLengthFree(JSContext *ctx, int64_t *plen, JSValue val) { int res = JS_ToInt64Clamp(ctx, plen, val, 0, MAX_SAFE_INTEGER, 0); JS_FreeValue(ctx, val); return res; } /* Note: can return an exception */ static int JS_NumberIsInteger(JSContext *ctx, JSValue val) { double d; if (!JS_IsNumber(val)) return FALSE; if (unlikely(JS_ToFloat64(ctx, &d, val))) return -1; return isfinite(d) && floor(d) == d; } static BOOL JS_NumberIsNegativeOrMinusZero(JSContext *ctx, JSValue val) { uint32_t tag; tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: { int v; v = JS_VALUE_GET_INT(val); return (v < 0); } case JS_TAG_FLOAT64: { JSFloat64Union u; u.d = JS_VALUE_GET_FLOAT64(val); return (u.u64 >> 63); } case JS_TAG_BIG_INT: { JSBigInt *p = JS_VALUE_GET_PTR(val); /* Note: integer zeros are not necessarily positive */ return p->num.sign && !bf_is_zero(&p->num); } default: return FALSE; } } static JSValue js_bigint_to_string1(JSContext *ctx, JSValue val, int radix) { JSValue ret; bf_t a_s, *a; char *str; int saved_sign; size_t len; a = JS_ToBigInt(ctx, &a_s, val); if (!a) return JS_EXCEPTION; saved_sign = a->sign; if (a->expn == BF_EXP_ZERO) a->sign = 0; str = bf_ftoa(&len, a, radix, 0, BF_RNDZ | BF_FTOA_FORMAT_FRAC | BF_FTOA_JS_QUIRKS); a->sign = saved_sign; JS_FreeBigInt(ctx, a, &a_s); if (!str) return JS_ThrowOutOfMemory(ctx); ret = js_new_string8_len(ctx, str, len); bf_free(ctx->bf_ctx, str); return ret; } static JSValue js_bigint_to_string(JSContext *ctx, JSValue val) { return js_bigint_to_string1(ctx, val, 10); } /*---- floating point number to string conversions ----*/ /* JavaScript rounding is specified as round to nearest tie away from zero (RNDNA), but in `printf` the "ties" case is not specified (in most cases it is RNDN, round to nearest, tie to even), so we must round manually. We generate 2 extra places and make an extra call to snprintf if these are exactly '50'. We set the current rounding mode to FE_DOWNWARD to check if the last 2 places become '49'. If not, we must round up, which is performed in place using the string digits. Note that we cannot rely on snprintf for rounding up: the code below fails on macOS for `0.5.toFixed(0)`: gives `0` expected `1` fesetround(FE_UPWARD); snprintf(dest, size, "%.*f", n_digits, d); fesetround(FE_TONEAREST); */ /* `js_fcvt` minimum buffer length: - up to 21 digits in integral part - 1 potential decimal point - up to 102 decimals - 1 null terminator */ #define JS_FCVT_BUF_SIZE (21+1+102+1) /* `js_ecvt` minimum buffer length: - 1 leading digit - 1 potential decimal point - up to 102 decimals - 5 exponent characters (from 'e-324' to 'e+308') - 1 null terminator */ #define JS_ECVT_BUF_SIZE (1+1+102+5+1) /* `js_dtoa` minimum buffer length: - 8 byte prefix - either JS_FCVT_BUF_SIZE or JS_ECVT_BUF_SIZE - JS_FCVT_BUF_SIZE is larger than JS_ECVT_BUF_SIZE */ #define JS_DTOA_BUF_SIZE (8+JS_FCVT_BUF_SIZE) /* `js_ecvt1`: compute the digits and decimal point spot for a double - `d` is finite, positive or zero - `n_digits` number of significant digits in range 1..103 - `buf` receives the printf result - `buf` has a fixed format: n_digits with a decimal point at offset 1 and exponent 'e{+/-}xx[x]' at offset n_digits+1 Return n_digits Store the position of the decimal point into `*decpt` */ static int js_ecvt1(double d, int n_digits, char dest[minimum_length(JS_ECVT_BUF_SIZE)], size_t size, int *decpt) { /* d is positive, ensure decimal point is always present */ snprintf(dest, size, "%#.*e", n_digits - 1, d); /* dest contents: 0: first digit 1: '.' decimal point (locale specific) 2..n_digits: (n_digits-1) additional digits n_digits+1: 'e' exponent mark n_digits+2..: exponent sign, value and null terminator */ /* extract the exponent (actually the position of the decimal point) */ *decpt = 1 + atoi(dest + n_digits + 2); return n_digits; } /* `js_ecvt`: compute the digits and decimal point spot for a double with proper javascript rounding. We cannot use `ecvt` for multiple resasons: portability, because of the number of digits is typically limited to 17, finally because the default rounding is inadequate. `d` is finite and positive or zero. `n_digits` number of significant digits in range 1..101 or 0 for automatic (only as many digits as necessary) Return the number of digits produced in `dest`. Store the position of the decimal point into `*decpt` */ static int js_ecvt(double d, int n_digits, char dest[minimum_length(JS_ECVT_BUF_SIZE)], size_t size, int *decpt) { if (n_digits == 0) { /* find the minimum number of digits (XXX: inefficient but simple) */ // TODO(chqrlie) use direct method from quickjs-printf unsigned int n_digits_min = 1; unsigned int n_digits_max = 17; for (;;) { n_digits = (n_digits_min + n_digits_max) / 2; js_ecvt1(d, n_digits, dest, size, decpt); if (n_digits_min == n_digits_max) return n_digits; /* dest contents: 0: first digit 1: '.' decimal point (locale specific) 2..n_digits: (n_digits-1) additional digits n_digits+1: 'e' exponent mark n_digits+2..: exponent sign, value and null terminator */ if (strtod(dest, NULL) == d) { unsigned int n0 = n_digits; /* enough digits */ /* strip the trailing zeros */ while (dest[n_digits] == '0') n_digits--; if (n_digits == n_digits_min) return n_digits; /* done if trailing zeros and not denormal or huge */ if (n_digits < n0 && d > 3e-308 && d < 8e307) return n_digits; n_digits_max = n_digits; } else { /* need at least one more digit */ n_digits_min = n_digits + 1; } } } else { #if defined(FE_DOWNWARD) && defined(FE_TONEAREST) /* generate 2 extra digits: 99% chances to avoid 2 calls */ js_ecvt1(d, n_digits + 2, dest, size, decpt); if (dest[n_digits + 1] < '5') return n_digits; /* truncate the 2 extra digits */ if (dest[n_digits + 1] == '5' && dest[n_digits + 2] == '0') { /* close to half-way: try rounding toward 0 */ fesetround(FE_DOWNWARD); js_ecvt1(d, n_digits + 2, dest, size, decpt); fesetround(FE_TONEAREST); if (dest[n_digits + 1] < '5') return n_digits; /* truncate the 2 extra digits */ } /* round up in the string */ for(int i = n_digits;; i--) { /* ignore the locale specific decimal point */ if (is_digit(dest[i])) { if (dest[i]++ < '9') break; dest[i] = '0'; if (i == 0) { dest[0] = '1'; (*decpt)++; break; } } } return n_digits; /* truncate the 2 extra digits */ #else /* No disambiguation available, eg: __wasi__ targets */ return js_ecvt1(d, n_digits, dest, size, decpt); #endif } } /* `js_fcvt`: convert a floating point value to %f format using RNDNA `d` is finite and positive or zero. `n_digits` number of decimal places in range 0..100 Return the number of characters produced in `dest`. */ static size_t js_fcvt(double d, int n_digits, char dest[minimum_length(JS_FCVT_BUF_SIZE)], size_t size) { #if defined(FE_DOWNWARD) && defined(FE_TONEAREST) int i, n1; /* generate 2 extra digits: 99% chances to avoid 2 calls */ n1 = snprintf(dest, size, "%.*f", n_digits + 2, d) - 2; if (dest[n1] >= '5') { if (dest[n1] == '5' && dest[n1 + 1] == '0') { /* close to half-way: try rounding toward 0 */ fesetround(FE_DOWNWARD); n1 = snprintf(dest, size, "%.*f", n_digits + 2, d) - 2; fesetround(FE_TONEAREST); } if (dest[n1] >= '5') { /* number should be rounded up */ /* d is either exactly half way or greater: round the string manually */ for (i = n1 - 1;; i--) { /* ignore the locale specific decimal point */ if (is_digit(dest[i])) { if (dest[i]++ < '9') break; dest[i] = '0'; if (i == 0) { dest[0] = '1'; dest[n1] = '0'; dest[n1 - n_digits - 1] = '0'; dest[n1 - n_digits] = '.'; n1++; break; } } } } } /* truncate the extra 2 digits and the decimal point if !n_digits */ n1 -= !n_digits; //dest[n1] = '\0'; // optional return n1; #else /* No disambiguation available, eg: __wasi__ targets */ return snprintf(dest, size, "%.*f", n_digits, d); #endif } static JSValue js_dtoa_infinite(JSContext *ctx, double d) { // TODO(chqrlie) use atoms for NaN and Infinite? if (isnan(d)) return js_new_string8(ctx, "NaN"); if (d < 0) return js_new_string8(ctx, "-Infinity"); else return js_new_string8(ctx, "Infinity"); } #define JS_DTOA_TOSTRING 0 /* use as many digits as necessary */ #define JS_DTOA_EXPONENTIAL 1 /* use exponential notation either fixed or variable digits */ #define JS_DTOA_FIXED 2 /* force fixed number of fractional digits */ #define JS_DTOA_PRECISION 3 /* use n_digits significant digits (1 <= n_digits <= 101) */ /* `js_dtoa`: convert a floating point number to a string - `mode`: one of the 4 supported formats - `n_digits`: digit number according to mode - TOSTRING: 0 only. As many digits as necessary - EXPONENTIAL: 0 as many decimals as necessary - 1..101 number of significant digits - FIXED: 0..100 number of decimal places - PRECISION: 1..101 number of significant digits */ // XXX: should use libbf or quickjs-printf. static JSValue js_dtoa(JSContext *ctx, double d, int n_digits, int mode) { char buf[JS_DTOA_BUF_SIZE]; size_t len; char *start; int sign, decpt, exp, i, k, n, n_max; if (!isfinite(d)) return js_dtoa_infinite(ctx, d); sign = (d < 0); start = buf + 8; d = fabs(d); /* also converts -0 to 0 */ if (mode != JS_DTOA_EXPONENTIAL && n_digits == 0) { /* fast path for exact integers in variable format: clip to MAX_SAFE_INTEGER because to ensure insignificant digits are generated as 0. used for JS_DTOA_TOSTRING and JS_DTOA_FIXED without decimals. */ if (d <= (double)MAX_SAFE_INTEGER) { uint64_t u64 = (uint64_t)d; if (d == u64) { len = u64toa(start, u64); goto done; } } } if (mode == JS_DTOA_FIXED) { len = js_fcvt(d, n_digits, start, sizeof(buf) - 8); // TODO(chqrlie) patch the locale specific decimal point goto done; } n_max = (n_digits > 0) ? n_digits : 21; /* the number has k digits (1 <= k <= n_max) */ k = js_ecvt(d, n_digits, start, sizeof(buf) - 8, &decpt); /* buffer contents: 0: first digit 1: '.' decimal point 2..k: (k-1) additional digits */ n = decpt; /* d=10^(n-k)*(buf1) i.e. d= < x.yyyy 10^(n-1) */ if (mode != JS_DTOA_EXPONENTIAL) { /* mode is JS_DTOA_PRECISION or JS_DTOA_TOSTRING */ if (n >= 1 && n <= n_max) { /* between 1 and n_max digits before the decimal point */ if (k <= n) { /* all digits before the point, append zeros */ start[1] = start[0]; start++; for(i = k; i < n; i++) start[i] = '0'; len = n; } else { /* k > n: move digits before the point */ for(i = 1; i < n; i++) start[i] = start[i + 1]; start[i] = '.'; len = 1 + k; } goto done; } if (n >= -5 && n <= 0) { /* insert -n leading 0 decimals and a '0.' prefix */ n = -n; start[1] = start[0]; start -= n + 1; start[0] = '0'; start[1] = '.'; for(i = 0; i < n; i++) start[2 + i] = '0'; len = 2 + k + n; goto done; } } /* exponential notation */ exp = n - 1; /* count the digits and the decimal point if at least one decimal */ len = k + (k > 1); start[1] = '.'; /* patch the locale specific decimal point */ start[len] = 'e'; start[len + 1] = '+'; if (exp < 0) { start[len + 1] = '-'; exp = -exp; } len += 2 + 1 + (exp > 9) + (exp > 99); for (i = len - 1; exp > 9;) { int quo = exp / 10; start[i--] = (char)('0' + exp % 10); exp = quo; } start[i] = (char)('0' + exp); done: start[-1] = '-'; /* prepend the sign if negative */ return js_new_string8_len(ctx, start - sign, len + sign); } /* `js_dtoa_radix`: convert a floating point number using a specific base - `d` must be finite - `radix` must be in range 2..36 */ static JSValue js_dtoa_radix(JSContext *ctx, double d, int radix) { char buf[2200], *ptr, *ptr2, *ptr3; int sign, digit; double frac, d0; int64_t n0; if (!isfinite(d)) return js_dtoa_infinite(ctx, d); sign = (d < 0); d = fabs(d); d0 = trunc(d); n0 = 0; frac = d - d0; ptr2 = buf + 1100; /* ptr2 points to the end of the string */ ptr = ptr2; /* ptr points to the beginning of the string */ if (d0 <= MAX_SAFE_INTEGER) { int64_t n = n0 = (int64_t)d0; while (n >= radix) { digit = n % radix; n = n / radix; *--ptr = digits36[digit]; } *--ptr = digits36[(size_t)n]; } else { /* no decimals */ while (d0 >= radix) { digit = fmod(d0, radix); d0 = trunc(d0 / radix); if (d0 >= MAX_SAFE_INTEGER) digit = 0; *--ptr = digits36[digit]; } *--ptr = digits36[(size_t)d0]; goto done; } if (frac != 0) { double log2_radix = log2(radix); double prec = 1023 + 51; // handle subnormals *ptr2++ = '.'; while (frac != 0 && n0 <= MAX_SAFE_INTEGER/2 && prec > 0) { frac *= radix; digit = trunc(frac); frac -= digit; *ptr2++ = digits36[digit]; n0 = n0 * radix + digit; prec -= log2_radix; } if (frac * radix >= radix / 2) { /* round up the string representation manually */ char nine = digits36[radix - 1]; while (ptr2[-1] == nine) { /* strip trailing '9' or equivalent digits */ ptr2--; } if (ptr2[-1] == '.') { /* strip the 'decimal' point */ ptr2--; /* increment the integral part */ for (ptr3 = ptr2;;) { if (ptr3[-1] != nine) { ptr3[-1] = (ptr3[-1] == '9') ? 'a' : ptr3[-1] + 1; break; } *--ptr3 = '0'; if (ptr3 <= ptr) { /* prepend a '1' if number was all nines */ *--ptr = '1'; break; } } } else { /* increment the last fractional digit */ ptr2[-1] = (ptr2[-1] == '9') ? 'a' : ptr2[-1] + 1; } } else { /* strip trailing fractional zeros */ while (ptr2[-1] == '0') ptr2--; /* strip the 'decimal' point if last */ ptr2 -= (ptr2[-1] == '.'); } } done: ptr[-1] = '-'; ptr -= sign; return js_new_string8_len(ctx, ptr, ptr2 - ptr); } JSValue JS_ToStringInternal(JSContext *ctx, JSValue val, BOOL is_ToPropertyKey) { uint32_t tag; char buf[32]; size_t len; tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_STRING: return js_dup(val); case JS_TAG_INT: len = i32toa(buf, JS_VALUE_GET_INT(val)); return js_new_string8_len(ctx, buf, len); case JS_TAG_BOOL: return JS_AtomToString(ctx, JS_VALUE_GET_BOOL(val) ? JS_ATOM_true : JS_ATOM_false); case JS_TAG_NULL: return JS_AtomToString(ctx, JS_ATOM_null); case JS_TAG_UNDEFINED: return JS_AtomToString(ctx, JS_ATOM_undefined); case JS_TAG_EXCEPTION: return JS_EXCEPTION; case JS_TAG_OBJECT: { JSValue val1, ret; val1 = JS_ToPrimitive(ctx, val, HINT_STRING); if (JS_IsException(val1)) return val1; ret = JS_ToStringInternal(ctx, val1, is_ToPropertyKey); JS_FreeValue(ctx, val1); return ret; } break; case JS_TAG_FUNCTION_BYTECODE: return js_new_string8(ctx, "[function bytecode]"); case JS_TAG_SYMBOL: if (is_ToPropertyKey) { return js_dup(val); } else { return JS_ThrowTypeError(ctx, "cannot convert symbol to string"); } case JS_TAG_FLOAT64: return js_dtoa(ctx, JS_VALUE_GET_FLOAT64(val), 0, JS_DTOA_TOSTRING); case JS_TAG_BIG_INT: return js_bigint_to_string(ctx, val); case JS_TAG_UNINITIALIZED: return js_new_string8(ctx, "[uninitialized]"); default: return js_new_string8(ctx, "[unsupported type]"); } } JSValue JS_ToString(JSContext *ctx, JSValue val) { return JS_ToStringInternal(ctx, val, FALSE); } static JSValue JS_ToStringFree(JSContext *ctx, JSValue val) { JSValue ret; ret = JS_ToString(ctx, val); JS_FreeValue(ctx, val); return ret; } static JSValue JS_ToLocaleStringFree(JSContext *ctx, JSValue val) { if (JS_IsUndefined(val) || JS_IsNull(val)) return JS_ToStringFree(ctx, val); return JS_InvokeFree(ctx, val, JS_ATOM_toLocaleString, 0, NULL); } JSValue JS_ToPropertyKey(JSContext *ctx, JSValue val) { return JS_ToStringInternal(ctx, val, TRUE); } static JSValue JS_ToStringCheckObject(JSContext *ctx, JSValue val) { uint32_t tag = JS_VALUE_GET_TAG(val); if (tag == JS_TAG_NULL || tag == JS_TAG_UNDEFINED) return JS_ThrowTypeError(ctx, "null or undefined are forbidden"); return JS_ToString(ctx, val); } static JSValue JS_ToQuotedString(JSContext *ctx, JSValue val1) { JSValue val; JSString *p; int i; uint32_t c; StringBuffer b_s, *b = &b_s; char buf[16]; val = JS_ToStringCheckObject(ctx, val1); if (JS_IsException(val)) return val; p = JS_VALUE_GET_STRING(val); if (string_buffer_init(ctx, b, p->len + 2)) goto fail; if (string_buffer_putc8(b, '\"')) goto fail; for(i = 0; i < p->len; ) { c = string_getc(p, &i); switch(c) { case '\t': c = 't'; goto quote; case '\r': c = 'r'; goto quote; case '\n': c = 'n'; goto quote; case '\b': c = 'b'; goto quote; case '\f': c = 'f'; goto quote; case '\"': case '\\': quote: if (string_buffer_putc8(b, '\\')) goto fail; if (string_buffer_putc8(b, c)) goto fail; break; default: if (c < 32 || is_surrogate(c)) { snprintf(buf, sizeof(buf), "\\u%04x", c); if (string_buffer_write8(b, (uint8_t*)buf, 6)) goto fail; } else { if (string_buffer_putc(b, c)) goto fail; } break; } } if (string_buffer_putc8(b, '\"')) goto fail; JS_FreeValue(ctx, val); return string_buffer_end(b); fail: JS_FreeValue(ctx, val); string_buffer_free(b); return JS_EXCEPTION; } static __maybe_unused void JS_DumpObjectHeader(JSRuntime *rt) { printf("%14s %4s %4s %14s %10s %s\n", "ADDRESS", "REFS", "SHRF", "PROTO", "CLASS", "PROPS"); } /* for debug only: dump an object without side effect */ static __maybe_unused void JS_DumpObject(JSRuntime *rt, JSObject *p) { uint32_t i; char atom_buf[ATOM_GET_STR_BUF_SIZE]; JSShape *sh; JSShapeProperty *prs; JSProperty *pr; BOOL is_first = TRUE; /* XXX: should encode atoms with special characters */ sh = p->shape; /* the shape can be NULL while freeing an object */ printf("%14p %4d ", (void *)p, p->header.ref_count); if (sh) { printf("%3d%c %14p ", sh->header.ref_count, " *"[sh->is_hashed], (void *)sh->proto); } else { printf("%3s %14s ", "-", "-"); } printf("%10s ", JS_AtomGetStrRT(rt, atom_buf, sizeof(atom_buf), rt->class_array[p->class_id].class_name)); if (p->is_exotic && p->fast_array) { printf("[ "); for(i = 0; i < p->u.array.count; i++) { if (i != 0) printf(", "); switch (p->class_id) { case JS_CLASS_ARRAY: case JS_CLASS_ARGUMENTS: JS_DumpValue(rt, p->u.array.u.values[i]); break; case JS_CLASS_UINT8C_ARRAY: case JS_CLASS_INT8_ARRAY: case JS_CLASS_UINT8_ARRAY: case JS_CLASS_INT16_ARRAY: case JS_CLASS_UINT16_ARRAY: case JS_CLASS_INT32_ARRAY: case JS_CLASS_UINT32_ARRAY: case JS_CLASS_BIG_INT64_ARRAY: case JS_CLASS_BIG_UINT64_ARRAY: case JS_CLASS_FLOAT16_ARRAY: case JS_CLASS_FLOAT32_ARRAY: case JS_CLASS_FLOAT64_ARRAY: { int size = 1 << typed_array_size_log2(p->class_id); const uint8_t *b = p->u.array.u.uint8_ptr + i * size; while (size-- > 0) printf("%02X", *b++); } break; } } printf(" ] "); } if (sh) { printf("{ "); for(i = 0, prs = get_shape_prop(sh); i < sh->prop_count; i++, prs++) { if (prs->atom != JS_ATOM_NULL) { pr = &p->prop[i]; if (!is_first) printf(", "); printf("%s: ", JS_AtomGetStrRT(rt, atom_buf, sizeof(atom_buf), prs->atom)); if ((prs->flags & JS_PROP_TMASK) == JS_PROP_GETSET) { printf("[getset %p %p]", (void *)pr->u.getset.getter, (void *)pr->u.getset.setter); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_VARREF) { printf("[varref %p]", (void *)pr->u.var_ref); } else if ((prs->flags & JS_PROP_TMASK) == JS_PROP_AUTOINIT) { printf("[autoinit %p %d %p]", (void *)js_autoinit_get_realm(pr), js_autoinit_get_id(pr), (void *)pr->u.init.opaque); } else { JS_DumpValue(rt, pr->u.value); } is_first = FALSE; } } printf(" }"); } if (js_class_has_bytecode(p->class_id)) { JSFunctionBytecode *b = p->u.func.function_bytecode; JSVarRef **var_refs; if (b->closure_var_count) { var_refs = p->u.func.var_refs; printf(" Closure:"); for(i = 0; i < b->closure_var_count; i++) { printf(" "); JS_DumpValue(rt, var_refs[i]->value); } if (p->u.func.home_object) { printf(" HomeObject: "); JS_DumpValue(rt, JS_MKPTR(JS_TAG_OBJECT, p->u.func.home_object)); } } } printf("\n"); } static __maybe_unused void JS_DumpGCObject(JSRuntime *rt, JSGCObjectHeader *p) { if (p->gc_obj_type == JS_GC_OBJ_TYPE_JS_OBJECT) { JS_DumpObject(rt, (JSObject *)p); } else { printf("%14p %4d ", (void *)p, p->ref_count); switch(p->gc_obj_type) { case JS_GC_OBJ_TYPE_FUNCTION_BYTECODE: printf("[function bytecode]"); break; case JS_GC_OBJ_TYPE_SHAPE: printf("[shape]"); break; case JS_GC_OBJ_TYPE_VAR_REF: printf("[var_ref]"); break; case JS_GC_OBJ_TYPE_ASYNC_FUNCTION: printf("[async_function]"); break; case JS_GC_OBJ_TYPE_JS_CONTEXT: printf("[js_context]"); break; default: printf("[unknown %d]", p->gc_obj_type); break; } printf("\n"); } } static __maybe_unused void JS_DumpValue(JSRuntime *rt, JSValue val) { uint32_t tag = JS_VALUE_GET_NORM_TAG(val); const char *str; switch(tag) { case JS_TAG_INT: printf("%d", JS_VALUE_GET_INT(val)); break; case JS_TAG_BOOL: if (JS_VALUE_GET_BOOL(val)) str = "true"; else str = "false"; goto print_str; case JS_TAG_NULL: str = "null"; goto print_str; case JS_TAG_EXCEPTION: str = "exception"; goto print_str; case JS_TAG_UNINITIALIZED: str = "uninitialized"; goto print_str; case JS_TAG_UNDEFINED: str = "undefined"; print_str: printf("%s", str); break; case JS_TAG_FLOAT64: printf("%.14g", JS_VALUE_GET_FLOAT64(val)); break; case JS_TAG_BIG_INT: { JSBigInt *p = JS_VALUE_GET_PTR(val); char *str; str = bf_ftoa(NULL, &p->num, 10, 0, BF_RNDZ | BF_FTOA_FORMAT_FRAC); printf("%sn", str); bf_realloc(&rt->bf_ctx, str, 0); } break; case JS_TAG_STRING: { JSString *p; p = JS_VALUE_GET_STRING(val); JS_DumpString(rt, p); } break; case JS_TAG_FUNCTION_BYTECODE: { JSFunctionBytecode *b = JS_VALUE_GET_PTR(val); char buf[ATOM_GET_STR_BUF_SIZE]; if (b->func_name) { printf("[bytecode %s]", JS_AtomGetStrRT(rt, buf, sizeof(buf), b->func_name)); } else { printf("[bytecode (anonymous)]"); } } break; case JS_TAG_OBJECT: { JSObject *p = JS_VALUE_GET_OBJ(val); JSAtom atom = rt->class_array[p->class_id].class_name; char atom_buf[ATOM_GET_STR_BUF_SIZE]; printf("[%s %p]", JS_AtomGetStrRT(rt, atom_buf, sizeof(atom_buf), atom), (void *)p); } break; case JS_TAG_SYMBOL: { JSAtomStruct *p = JS_VALUE_GET_PTR(val); char atom_buf[ATOM_GET_STR_BUF_SIZE]; printf("Symbol(%s)", JS_AtomGetStrRT(rt, atom_buf, sizeof(atom_buf), js_get_atom_index(rt, p))); } break; case JS_TAG_MODULE: printf("[module]"); break; default: printf("[unknown tag %d]", tag); break; } } /* return -1 if exception (proxy case) or TRUE/FALSE */ int JS_IsArray(JSContext *ctx, JSValue val) { JSObject *p; if (JS_VALUE_GET_TAG(val) == JS_TAG_OBJECT) { p = JS_VALUE_GET_OBJ(val); if (unlikely(p->class_id == JS_CLASS_PROXY)) return js_proxy_isArray(ctx, val); else return p->class_id == JS_CLASS_ARRAY; } else { return FALSE; } } static double js_math_pow(double a, double b) { if (unlikely(!isfinite(b)) && fabs(a) == 1) { /* not compatible with IEEE 754 */ return JS_FLOAT64_NAN; } else { return pow(a, b); } } JSValue JS_NewBigInt64(JSContext *ctx, int64_t v) { JSValue val; bf_t *a; val = JS_NewBigInt(ctx); if (JS_IsException(val)) return val; a = JS_GetBigInt(val); if (bf_set_si(a, v)) { JS_FreeValue(ctx, val); return JS_ThrowOutOfMemory(ctx); } return val; } JSValue JS_NewBigUint64(JSContext *ctx, uint64_t v) { JSValue val; bf_t *a; val = JS_NewBigInt(ctx); if (JS_IsException(val)) return val; a = JS_GetBigInt(val); if (bf_set_ui(a, v)) { JS_FreeValue(ctx, val); return JS_ThrowOutOfMemory(ctx); } return val; } /* if the returned bigint is allocated it is equal to 'buf'. Otherwise it is a pointer to the bigint in 'val'. Return NULL in case of error. */ // TODO(bnoordhuis) Merge with JS_ToBigInt() static bf_t *JS_ToBigInt1(JSContext *ctx, bf_t *buf, JSValue val) { uint32_t tag; bf_t *r; JSBigInt *p; tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_BOOL: case JS_TAG_NULL: r = buf; bf_init(ctx->bf_ctx, r); if (bf_set_si(r, JS_VALUE_GET_INT(val))) goto fail; break; case JS_TAG_FLOAT64: r = buf; bf_init(ctx->bf_ctx, r); if (bf_set_float64(r, JS_VALUE_GET_FLOAT64(val))) { fail: bf_delete(r); return NULL; } break; case JS_TAG_BIG_INT: p = JS_VALUE_GET_PTR(val); r = &p->num; break; case JS_TAG_UNDEFINED: default: r = buf; bf_init(ctx->bf_ctx, r); bf_set_nan(r); break; } return r; } /* return NaN if bad bigint literal */ static JSValue JS_StringToBigInt(JSContext *ctx, JSValue val) { const char *str; size_t len; int flags; str = JS_ToCStringLen(ctx, &len, val); JS_FreeValue(ctx, val); if (!str) return JS_EXCEPTION; flags = ATOD_WANT_BIG_INT | ATOD_TRIM_SPACES | ATOD_ACCEPT_EMPTY | ATOD_ACCEPT_HEX_PREFIX | ATOD_ACCEPT_BIN_OCT | ATOD_DECIMAL_AFTER_SIGN | ATOD_NO_TRAILING_CHARS; val = js_atof(ctx, str, len, NULL, 10, flags); JS_FreeCString(ctx, str); return val; } static JSValue JS_StringToBigIntErr(JSContext *ctx, JSValue val) { val = JS_StringToBigInt(ctx, val); if (JS_VALUE_IS_NAN(val)) return JS_ThrowSyntaxError(ctx, "invalid BigInt literal"); return val; } /* if the returned bigint is allocated it is equal to 'buf'. Otherwise it is a pointer to the bigint in 'val'. */ static bf_t *JS_ToBigIntFree(JSContext *ctx, bf_t *buf, JSValue val) { uint32_t tag; bf_t *r; JSBigInt *p; redo: tag = JS_VALUE_GET_NORM_TAG(val); switch(tag) { case JS_TAG_INT: case JS_TAG_NULL: case JS_TAG_UNDEFINED: case JS_TAG_FLOAT64: goto fail; case JS_TAG_BOOL: r = buf; bf_init(ctx->bf_ctx, r); bf_set_si(r, JS_VALUE_GET_INT(val)); break; case JS_TAG_BIG_INT: p = JS_VALUE_GET_PTR(val); r = &p->num; break; case JS_TAG_STRING: val = JS_StringToBigIntErr(ctx, val); if (JS_IsException(val)) return NULL; goto redo; case JS_TAG_OBJECT: val = JS_ToPrimitiveFree(ctx, val, HINT_NUMBER); if (JS_IsException(val)) return NULL; goto redo; default: fail: JS_FreeValue(ctx, val); JS_ThrowTypeError(ctx, "cannot convert to BigInt"); return NULL; } return r; } static bf_t *JS_ToBigInt(JSContext *ctx, bf_t *buf, JSValue val) { return JS_ToBigIntFree(ctx, buf, js_dup(val)); } static __maybe_unused JSValue JS_ToBigIntValueFree(JSContext *ctx, JSValue val) { if (JS_VALUE_GET_TAG(val) == JS_TAG_BIG_INT) { return val; } else { bf_t a_s, *a, *r; int ret; JSValue res; res = JS_NewBigInt(ctx); if (JS_IsException(res)) return JS_EXCEPTION; a = JS_ToBigIntFree(ctx, &a_s, val); if (!a) { JS_FreeValue(ctx, res); return JS_EXCEPTION; } r = JS_GetBigInt(res); ret = bf_set(r, a); JS_FreeBigInt(ctx, a, &a_s); if (ret) { JS_FreeValue(ctx, res); return JS_ThrowOutOfMemory(ctx); } return JS_CompactBigInt(ctx, res); } } /* free the bf_t allocated by JS_ToBigInt */ static void JS_FreeBigInt(JSContext *ctx, bf_t *a, bf_t *buf) { if (a == buf) { bf_delete(a); } else { JSBigInt *p = (JSBigInt *)((uint8_t *)a - offsetof(JSBigInt, num)); JS_FreeValue(ctx, JS_MKPTR(JS_TAG_BIG_INT, p)); } } /* XXX: merge with JS_ToInt64Free with a specific flag */ static int JS_ToBigInt64Free(JSContext *ctx, int64_t *pres, JSValue val) { bf_t a_s, *a; a = JS_ToBigIntFree(ctx, &a_s, val); if (!a) { *pres = 0; return -1; } bf_get_int64(pres, a, BF_GET_INT_MOD); JS_FreeBigInt(ctx, a, &a_s); return 0; } int JS_ToBigInt64(JSContext *ctx, int64_t *pres, JSValue val) { return JS_ToBigInt64Free(ctx, pres, js_dup(val)); } int JS_ToBigUint64(JSContext *ctx, uint64_t *pres, JSValue val) { return JS_ToBigInt64Free(ctx, (int64_t *)pres, js_dup(val)); } static JSValue JS_NewBigInt(JSContext *ctx) { JSBigInt *p; p = js_malloc(ctx, sizeof(*p)); if (!p) return JS_EXCEPTION; p->header.ref_count = 1; bf_init(ctx->bf_ctx, &p->num); return JS_MKPTR(JS_TAG_BIG_INT, p); } static JSValue JS_CompactBigInt1(JSContext *ctx, JSValue val) { if (JS_VALUE_GET_TAG(val) != JS_TAG_BIG_INT) return val; /* fail safe */ bf_t *a = JS_GetBigInt(val); if (a->expn == BF_EXP_ZERO && a->sign) { assert(((JSBigInt*)JS_VALUE_GET_PTR(val))->header.ref_count == 1); a->sign = 0; } return val; } /* Nnormalize the zero representation. Could also be used to convert the bigint to a short bigint value. The reference count of the value must be 1. Cannot fail */ static JSValue JS_CompactBigInt(JSContext *ctx, JSValue val) { return JS_CompactBigInt1(ctx, val); } static JSValue throw_bf_exception(JSContext *ctx, int status) { const char *str; if (status & BF_ST_MEM_ERROR) return JS_ThrowOutOfMemory(ctx); if (status & BF_ST_DIVIDE_ZERO) { str = "division by zero"; } else if (status & BF_ST_INVALID_OP) { str = "invalid operation"; } else { str = "integer overflow"; } return JS_ThrowRangeError(ctx, "%s", str); } static int js_unary_arith_bigint(JSContext *ctx, JSValue *pres, OPCodeEnum op, JSValue op1) { bf_t a_s, *r, *a; int ret, v; JSValue res; if (op == OP_plus) { JS_ThrowTypeError(ctx, "BigInt argument with unary +"); JS_FreeValue(ctx, op1); return -1; } res = JS_NewBigInt(ctx); if (JS_IsException(res)) { JS_FreeValue(ctx, op1); return -1; } r = JS_GetBigInt(res); a = JS_ToBigIntFree(ctx, &a_s, op1); // infallible, always a bigint ret = 0; switch(op) { case OP_inc: case OP_dec: v = 2 * (op - OP_dec) - 1; ret = bf_add_si(r, a, v, BF_PREC_INF, BF_RNDZ); break; case OP_plus: ret = bf_set(r, a); break; case OP_neg: ret = bf_set(r, a); bf_neg(r); break; case OP_not: ret = bf_add_si(r, a, 1, BF_PREC_INF, BF_RNDZ); bf_neg(r); break; default: abort(); } JS_FreeBigInt(ctx, a, &a_s); if (unlikely(ret)) { JS_FreeValue(ctx, res); throw_bf_exception(ctx, ret); return -1; } res = JS_CompactBigInt(ctx, res); *pres = res; return 0; } static no_inline __exception int js_unary_arith_slow(JSContext *ctx, JSValue *sp, OPCodeEnum op) { JSValue op1; int v; uint32_t tag; op1 = sp[-1]; /* fast path for float64 */ if (JS_TAG_IS_FLOAT64(JS_VALUE_GET_TAG(op1))) goto handle_float64; op1 = JS_ToNumericFree(ctx, op1); if (JS_IsException(op1)) goto exception; tag = JS_VALUE_GET_TAG(op1); switch(tag) { case JS_TAG_INT: { int64_t v64; v64 = JS_VALUE_GET_INT(op1); switch(op) { case OP_inc: case OP_dec: v = 2 * (op - OP_dec) - 1; v64 += v; break; case OP_plus: break; case OP_neg: if (v64 == 0) { sp[-1] = js_float64(-0.0); return 0; } else { v64 = -v64; } break; default: abort(); } sp[-1] = JS_NewInt64(ctx, v64); } break; case JS_TAG_BIG_INT: if (js_unary_arith_bigint(ctx, sp - 1, op, op1)) goto exception; break; default: handle_float64: { double d = JS_VALUE_GET_FLOAT64(op1); switch(op) { case OP_inc: case OP_dec: v = 2 * (op - OP_dec) - 1; d += v; break; case OP_plus: break; case OP_neg: d = -d; break; default: abort(); } sp[-1] = js_float64(d); } break; } return 0; exception: sp[-1] = JS_UNDEFINED; return -1; } static __exception int js_post_inc_slow(JSContext *ctx, JSValue *sp, OPCodeEnum op) { JSValue op1; /* XXX: allow custom operators */ op1 = sp[-1]; op1 = JS_ToNumericFree(ctx, op1); if (JS_IsException(op1)) { sp[-1] = JS_UNDEFINED; return -1; } sp[-1] = op1; sp[0] = js_dup(op1); return js_unary_arith_slow(ctx, sp + 1, op - OP_post_dec + OP_dec); } static no_inline int js_not_slow(JSContext *ctx, JSValue *sp) { JSValue op1; op1 = JS_ToNumericFree(ctx, sp[-1]); if (JS_IsException(op1)) goto exception; if (JS_VALUE_GET_TAG(op1) == JS_TAG_BIG_INT) { if (js_unary_arith_bigint(ctx, sp - 1, OP_not, op1)) goto exception; } else { int32_t v1; if (unlikely(JS_ToInt32Free(ctx, &v1, op1))) goto exception; sp[-1] = js_int32(~v1); } return 0; exception: sp[-1] = JS_UNDEFINED; return -1; } static int js_binary_arith_bigint(JSContext *ctx, OPCodeEnum op, JSValue *pres, JSValue op1, JSValue op2) { bf_t a_s, b_s, *r, *a, *b; int ret; JSValue res; a = JS_ToBigIntFree(ctx, &a_s, op1); if (!a) { JS_FreeValue(ctx, op2); return -1; } b = JS_ToBigIntFree(ctx, &b_s, op2); if (!b) { JS_FreeBigInt(ctx, a, &a_s); return -1; } res = JS_NewBigInt(ctx); if (JS_IsException(res)) { JS_FreeBigInt(ctx, a, &a_s); JS_FreeBigInt(ctx, b, &b_s); return -1; } r = JS_GetBigInt(res); ret = 0; switch(op) { case OP_add: ret = bf_add(r, a, b, BF_PREC_INF, BF_RNDZ); break; case OP_sub: ret = bf_sub(r, a, b, BF_PREC_INF, BF_RNDZ); break; case OP_mul: ret = bf_mul(r, a, b, BF_PREC_INF, BF_RNDZ); break; case OP_div: { bf_t rem_s, *rem = &rem_s; bf_init(ctx->bf_ctx, rem); ret = bf_divrem(r, rem, a, b, BF_PREC_INF, BF_RNDZ, BF_RNDZ); bf_delete(rem); } break; case OP_mod: ret = bf_rem(r, a, b, BF_PREC_INF, BF_RNDZ, BF_RNDZ) & BF_ST_INVALID_OP; break; case OP_pow: if (b->sign) { ret = BF_ST_INVALID_OP; } else { ret = bf_pow(r, a, b, BF_PREC_INF, BF_RNDZ | BF_POW_JS_QUIRKS); } break; /* logical operations */ case OP_shl: case OP_sar: { slimb_t v2; #if LIMB_BITS == 32 bf_get_int32(&v2, b, 0); if (v2 == INT32_MIN) v2 = INT32_MIN + 1; #else bf_get_int64(&v2, b, 0); if (v2 == INT64_MIN) v2 = INT64_MIN + 1; #endif if (op == OP_sar) v2 = -v2; ret = bf_set(r, a); ret |= bf_mul_2exp(r, v2, BF_PREC_INF, BF_RNDZ); if (v2 < 0) { ret |= bf_rint(r, BF_RNDD) & (BF_ST_OVERFLOW | BF_ST_MEM_ERROR); } } break; case OP_and: ret = bf_logic_and(r, a, b); break; case OP_or: ret = bf_logic_or(r, a, b); break; case OP_xor: ret = bf_logic_xor(r, a, b); break; default: abort(); } JS_FreeBigInt(ctx, a, &a_s); JS_FreeBigInt(ctx, b, &b_s); if (unlikely(ret)) { JS_FreeValue(ctx, res); throw_bf_exception(ctx, ret); return -1; } *pres = JS_CompactBigInt(ctx, res); return 0; } static no_inline __exception int js_binary_arith_slow(JSContext *ctx, JSValue *sp, OPCodeEnum op) { JSValue op1, op2; uint32_t tag1, tag2; double d1, d2; op1 = sp[-2]; op2 = sp[-1]; tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); /* fast path for float operations */ if (tag1 == JS_TAG_FLOAT64 && tag2 == JS_TAG_FLOAT64) { d1 = JS_VALUE_GET_FLOAT64(op1); d2 = JS_VALUE_GET_FLOAT64(op2); goto handle_float64; } op1 = JS_ToNumericFree(ctx, op1); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToNumericFree(ctx, op2); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); if (tag1 == JS_TAG_INT && tag2 == JS_TAG_INT) { int32_t v1, v2; int64_t v; v1 = JS_VALUE_GET_INT(op1); v2 = JS_VALUE_GET_INT(op2); switch(op) { case OP_sub: v = (int64_t)v1 - (int64_t)v2; break; case OP_mul: v = (int64_t)v1 * (int64_t)v2; if (v == 0 && (v1 | v2) < 0) { sp[-2] = js_float64(-0.0); return 0; } break; case OP_div: sp[-2] = js_float64((double)v1 / (double)v2); return 0; case OP_mod: if (v1 < 0 || v2 <= 0) { sp[-2] = js_number(fmod(v1, v2)); return 0; } else { v = (int64_t)v1 % (int64_t)v2; } break; case OP_pow: sp[-2] = js_number(js_math_pow(v1, v2)); return 0; default: abort(); } sp[-2] = JS_NewInt64(ctx, v); } else if (tag1 == JS_TAG_BIG_INT || tag2 == JS_TAG_BIG_INT) { if (js_binary_arith_bigint(ctx, op, sp - 2, op1, op2)) goto exception; } else { double dr; /* float64 result */ if (JS_ToFloat64Free(ctx, &d1, op1)) { JS_FreeValue(ctx, op2); goto exception; } if (JS_ToFloat64Free(ctx, &d2, op2)) goto exception; handle_float64: switch(op) { case OP_sub: dr = d1 - d2; break; case OP_mul: dr = d1 * d2; break; case OP_div: dr = d1 / d2; break; case OP_mod: dr = fmod(d1, d2); break; case OP_pow: dr = js_math_pow(d1, d2); break; default: abort(); } sp[-2] = js_float64(dr); } return 0; exception: sp[-2] = JS_UNDEFINED; sp[-1] = JS_UNDEFINED; return -1; } static no_inline __exception int js_add_slow(JSContext *ctx, JSValue *sp) { JSValue op1, op2; uint32_t tag1, tag2; op1 = sp[-2]; op2 = sp[-1]; tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); /* fast path for float64 */ if (tag1 == JS_TAG_FLOAT64 && tag2 == JS_TAG_FLOAT64) { double d1, d2; d1 = JS_VALUE_GET_FLOAT64(op1); d2 = JS_VALUE_GET_FLOAT64(op2); sp[-2] = js_float64(d1 + d2); return 0; } if (tag1 == JS_TAG_OBJECT || tag2 == JS_TAG_OBJECT) { op1 = JS_ToPrimitiveFree(ctx, op1, HINT_NONE); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToPrimitiveFree(ctx, op2, HINT_NONE); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); } if (tag1 == JS_TAG_STRING || tag2 == JS_TAG_STRING) { sp[-2] = JS_ConcatString(ctx, op1, op2); if (JS_IsException(sp[-2])) goto exception; return 0; } op1 = JS_ToNumericFree(ctx, op1); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToNumericFree(ctx, op2); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); if (tag1 == JS_TAG_INT && tag2 == JS_TAG_INT) { int32_t v1, v2; int64_t v; v1 = JS_VALUE_GET_INT(op1); v2 = JS_VALUE_GET_INT(op2); v = (int64_t)v1 + (int64_t)v2; sp[-2] = JS_NewInt64(ctx, v); } else if (tag1 == JS_TAG_BIG_INT || tag2 == JS_TAG_BIG_INT) { if (js_binary_arith_bigint(ctx, OP_add, sp - 2, op1, op2)) goto exception; } else { double d1, d2; /* float64 result */ if (JS_ToFloat64Free(ctx, &d1, op1)) { JS_FreeValue(ctx, op2); goto exception; } if (JS_ToFloat64Free(ctx, &d2, op2)) goto exception; sp[-2] = js_float64(d1 + d2); } return 0; exception: sp[-2] = JS_UNDEFINED; sp[-1] = JS_UNDEFINED; return -1; } static no_inline __exception int js_binary_logic_slow(JSContext *ctx, JSValue *sp, OPCodeEnum op) { JSValue op1, op2; uint32_t tag1, tag2; uint32_t v1, v2, r; op1 = sp[-2]; op2 = sp[-1]; tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); op1 = JS_ToNumericFree(ctx, op1); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToNumericFree(ctx, op2); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } tag1 = JS_VALUE_GET_TAG(op1); tag2 = JS_VALUE_GET_TAG(op2); if (tag1 == JS_TAG_BIG_INT || tag2 == JS_TAG_BIG_INT) { if (tag1 != tag2) { JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); JS_ThrowTypeError(ctx, "both operands must be BigInt"); goto exception; } else if (js_binary_arith_bigint(ctx, op, sp - 2, op1, op2)) { goto exception; } } else { if (unlikely(JS_ToInt32Free(ctx, (int32_t *)&v1, op1))) { JS_FreeValue(ctx, op2); goto exception; } if (unlikely(JS_ToInt32Free(ctx, (int32_t *)&v2, op2))) goto exception; switch(op) { case OP_shl: r = v1 << (v2 & 0x1f); break; case OP_sar: r = (int)v1 >> (v2 & 0x1f); break; case OP_and: r = v1 & v2; break; case OP_or: r = v1 | v2; break; case OP_xor: r = v1 ^ v2; break; default: abort(); } sp[-2] = js_int32(r); } return 0; exception: sp[-2] = JS_UNDEFINED; sp[-1] = JS_UNDEFINED; return -1; } static int js_compare_bigint(JSContext *ctx, OPCodeEnum op, JSValue op1, JSValue op2) { bf_t a_s, b_s, *a, *b; int res; a = JS_ToBigInt1(ctx, &a_s, op1); if (!a) { JS_FreeValue(ctx, op2); return -1; } b = JS_ToBigInt1(ctx, &b_s, op2); if (!b) { if (a == &a_s) bf_delete(a); JS_FreeValue(ctx, op1); return -1; } switch(op) { case OP_lt: res = bf_cmp_lt(a, b); /* if NaN return false */ break; case OP_lte: res = bf_cmp_le(a, b); /* if NaN return false */ break; case OP_gt: res = bf_cmp_lt(b, a); /* if NaN return false */ break; case OP_gte: res = bf_cmp_le(b, a); /* if NaN return false */ break; case OP_eq: res = bf_cmp_eq(a, b); /* if NaN return false */ break; default: abort(); } if (a == &a_s) bf_delete(a); if (b == &b_s) bf_delete(b); JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); return res; } static no_inline int js_relational_slow(JSContext *ctx, JSValue *sp, OPCodeEnum op) { JSValue op1, op2; int res; uint32_t tag1, tag2; op1 = sp[-2]; op2 = sp[-1]; tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); op1 = JS_ToPrimitiveFree(ctx, op1, HINT_NUMBER); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToPrimitiveFree(ctx, op2, HINT_NUMBER); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); if (tag1 == JS_TAG_STRING && tag2 == JS_TAG_STRING) { JSString *p1, *p2; p1 = JS_VALUE_GET_STRING(op1); p2 = JS_VALUE_GET_STRING(op2); res = js_string_compare(ctx, p1, p2); switch(op) { case OP_lt: res = (res < 0); break; case OP_lte: res = (res <= 0); break; case OP_gt: res = (res > 0); break; default: case OP_gte: res = (res >= 0); break; } JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); } else if ((tag1 <= JS_TAG_NULL || tag1 == JS_TAG_FLOAT64) && (tag2 <= JS_TAG_NULL || tag2 == JS_TAG_FLOAT64)) { /* fast path for float64/int */ goto float64_compare; } else { if (((tag1 == JS_TAG_BIG_INT && tag2 == JS_TAG_STRING) || (tag2 == JS_TAG_BIG_INT && tag1 == JS_TAG_STRING))) { if (tag1 == JS_TAG_STRING) { op1 = JS_StringToBigInt(ctx, op1); if (JS_VALUE_GET_TAG(op1) != JS_TAG_BIG_INT) goto invalid_bigint_string; } if (tag2 == JS_TAG_STRING) { op2 = JS_StringToBigInt(ctx, op2); if (JS_VALUE_GET_TAG(op2) != JS_TAG_BIG_INT) { invalid_bigint_string: JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); res = FALSE; goto done; } } } else { op1 = JS_ToNumericFree(ctx, op1); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToNumericFree(ctx, op2); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } } tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); if (tag1 == JS_TAG_BIG_INT || tag2 == JS_TAG_BIG_INT) { res = js_compare_bigint(ctx, op, op1, op2); if (res < 0) goto exception; } else { double d1, d2; float64_compare: /* can use floating point comparison */ if (tag1 == JS_TAG_FLOAT64) { d1 = JS_VALUE_GET_FLOAT64(op1); } else { d1 = JS_VALUE_GET_INT(op1); } if (tag2 == JS_TAG_FLOAT64) { d2 = JS_VALUE_GET_FLOAT64(op2); } else { d2 = JS_VALUE_GET_INT(op2); } switch(op) { case OP_lt: res = (d1 < d2); /* if NaN return false */ break; case OP_lte: res = (d1 <= d2); /* if NaN return false */ break; case OP_gt: res = (d1 > d2); /* if NaN return false */ break; default: case OP_gte: res = (d1 >= d2); /* if NaN return false */ break; } } } done: sp[-2] = js_bool(res); return 0; exception: sp[-2] = JS_UNDEFINED; sp[-1] = JS_UNDEFINED; return -1; } static BOOL tag_is_number(uint32_t tag) { return (tag == JS_TAG_INT || tag == JS_TAG_BIG_INT || tag == JS_TAG_FLOAT64); } static no_inline __exception int js_eq_slow(JSContext *ctx, JSValue *sp, BOOL is_neq) { JSValue op1, op2; int res; uint32_t tag1, tag2; op1 = sp[-2]; op2 = sp[-1]; redo: tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); if (tag_is_number(tag1) && tag_is_number(tag2)) { if (tag1 == JS_TAG_INT && tag2 == JS_TAG_INT) { res = JS_VALUE_GET_INT(op1) == JS_VALUE_GET_INT(op2); } else if ((tag1 == JS_TAG_FLOAT64 && (tag2 == JS_TAG_INT || tag2 == JS_TAG_FLOAT64)) || (tag2 == JS_TAG_FLOAT64 && (tag1 == JS_TAG_INT || tag1 == JS_TAG_FLOAT64))) { double d1, d2; if (tag1 == JS_TAG_FLOAT64) { d1 = JS_VALUE_GET_FLOAT64(op1); } else { d1 = JS_VALUE_GET_INT(op1); } if (tag2 == JS_TAG_FLOAT64) { d2 = JS_VALUE_GET_FLOAT64(op2); } else { d2 = JS_VALUE_GET_INT(op2); } res = (d1 == d2); } else { res = js_compare_bigint(ctx, OP_eq, op1, op2); if (res < 0) goto exception; } } else if (tag1 == tag2) { res = js_strict_eq2(ctx, op1, op2, JS_EQ_STRICT); } else if ((tag1 == JS_TAG_NULL && tag2 == JS_TAG_UNDEFINED) || (tag2 == JS_TAG_NULL && tag1 == JS_TAG_UNDEFINED)) { res = TRUE; } else if ((tag1 == JS_TAG_STRING && tag_is_number(tag2)) || (tag2 == JS_TAG_STRING && tag_is_number(tag1))) { if ((tag1 == JS_TAG_BIG_INT || tag2 == JS_TAG_BIG_INT)) { if (tag1 == JS_TAG_STRING) { op1 = JS_StringToBigInt(ctx, op1); if (JS_VALUE_GET_TAG(op1) != JS_TAG_BIG_INT) goto invalid_bigint_string; } if (tag2 == JS_TAG_STRING) { op2 = JS_StringToBigInt(ctx, op2); if (JS_VALUE_GET_TAG(op2) != JS_TAG_BIG_INT) { invalid_bigint_string: JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); res = FALSE; goto done; } } } else { op1 = JS_ToNumericFree(ctx, op1); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToNumericFree(ctx, op2); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } } res = js_strict_eq(ctx, op1, op2); } else if (tag1 == JS_TAG_BOOL) { op1 = js_int32(JS_VALUE_GET_INT(op1)); goto redo; } else if (tag2 == JS_TAG_BOOL) { op2 = js_int32(JS_VALUE_GET_INT(op2)); goto redo; } else if ((tag1 == JS_TAG_OBJECT && (tag_is_number(tag2) || tag2 == JS_TAG_STRING || tag2 == JS_TAG_SYMBOL)) || (tag2 == JS_TAG_OBJECT && (tag_is_number(tag1) || tag1 == JS_TAG_STRING || tag1 == JS_TAG_SYMBOL))) { op1 = JS_ToPrimitiveFree(ctx, op1, HINT_NONE); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToPrimitiveFree(ctx, op2, HINT_NONE); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } goto redo; } else { /* IsHTMLDDA object is equivalent to undefined for '==' and '!=' */ if ((JS_IsHTMLDDA(ctx, op1) && (tag2 == JS_TAG_NULL || tag2 == JS_TAG_UNDEFINED)) || (JS_IsHTMLDDA(ctx, op2) && (tag1 == JS_TAG_NULL || tag1 == JS_TAG_UNDEFINED))) { res = TRUE; } else { res = FALSE; } JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); } done: sp[-2] = js_bool(res ^ is_neq); return 0; exception: sp[-2] = JS_UNDEFINED; sp[-1] = JS_UNDEFINED; return -1; } static no_inline int js_shr_slow(JSContext *ctx, JSValue *sp) { JSValue op1, op2; uint32_t v1, v2, r; op1 = sp[-2]; op2 = sp[-1]; op1 = JS_ToNumericFree(ctx, op1); if (JS_IsException(op1)) { JS_FreeValue(ctx, op2); goto exception; } op2 = JS_ToNumericFree(ctx, op2); if (JS_IsException(op2)) { JS_FreeValue(ctx, op1); goto exception; } if ((JS_VALUE_GET_TAG(op1) == JS_TAG_BIG_INT || JS_VALUE_GET_TAG(op2) == JS_TAG_BIG_INT)) { JS_ThrowTypeError(ctx, "BigInt operands are forbidden for >>>"); JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); goto exception; } /* cannot give an exception */ JS_ToUint32Free(ctx, &v1, op1); JS_ToUint32Free(ctx, &v2, op2); r = v1 >> (v2 & 0x1f); sp[-2] = js_uint32(r); return 0; exception: sp[-2] = JS_UNDEFINED; sp[-1] = JS_UNDEFINED; return -1; } /* XXX: Should take JSValue arguments */ static BOOL js_strict_eq2(JSContext *ctx, JSValue op1, JSValue op2, JSStrictEqModeEnum eq_mode) { BOOL res; int tag1, tag2; double d1, d2; tag1 = JS_VALUE_GET_NORM_TAG(op1); tag2 = JS_VALUE_GET_NORM_TAG(op2); switch(tag1) { case JS_TAG_BOOL: if (tag1 != tag2) { res = FALSE; } else { res = JS_VALUE_GET_INT(op1) == JS_VALUE_GET_INT(op2); goto done_no_free; } break; case JS_TAG_NULL: case JS_TAG_UNDEFINED: res = (tag1 == tag2); break; case JS_TAG_STRING: { JSString *p1, *p2; if (tag1 != tag2) { res = FALSE; } else { p1 = JS_VALUE_GET_STRING(op1); p2 = JS_VALUE_GET_STRING(op2); res = (js_string_compare(ctx, p1, p2) == 0); } } break; case JS_TAG_SYMBOL: { JSAtomStruct *p1, *p2; if (tag1 != tag2) { res = FALSE; } else { p1 = JS_VALUE_GET_PTR(op1); p2 = JS_VALUE_GET_PTR(op2); res = (p1 == p2); } } break; case JS_TAG_OBJECT: if (tag1 != tag2) res = FALSE; else res = JS_VALUE_GET_OBJ(op1) == JS_VALUE_GET_OBJ(op2); break; case JS_TAG_INT: d1 = JS_VALUE_GET_INT(op1); if (tag2 == JS_TAG_INT) { d2 = JS_VALUE_GET_INT(op2); goto number_test; } else if (tag2 == JS_TAG_FLOAT64) { d2 = JS_VALUE_GET_FLOAT64(op2); goto number_test; } else { res = FALSE; } break; case JS_TAG_FLOAT64: d1 = JS_VALUE_GET_FLOAT64(op1); if (tag2 == JS_TAG_FLOAT64) { d2 = JS_VALUE_GET_FLOAT64(op2); } else if (tag2 == JS_TAG_INT) { d2 = JS_VALUE_GET_INT(op2); } else { res = FALSE; break; } number_test: if (unlikely(eq_mode >= JS_EQ_SAME_VALUE)) { JSFloat64Union u1, u2; /* NaN is not always normalized, so this test is necessary */ if (isnan(d1) || isnan(d2)) { res = isnan(d1) == isnan(d2); } else if (eq_mode == JS_EQ_SAME_VALUE_ZERO) { res = (d1 == d2); /* +0 == -0 */ } else { u1.d = d1; u2.d = d2; res = (u1.u64 == u2.u64); /* +0 != -0 */ } } else { res = (d1 == d2); /* if NaN return false and +0 == -0 */ } goto done_no_free; case JS_TAG_BIG_INT: { bf_t a_s, *a, b_s, *b; if (tag1 != tag2) { res = FALSE; break; } a = JS_ToBigInt1(ctx, &a_s, op1); b = JS_ToBigInt1(ctx, &b_s, op2); res = bf_cmp_eq(a, b); if (a == &a_s) bf_delete(a); if (b == &b_s) bf_delete(b); } break; default: res = FALSE; break; } JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); done_no_free: return res; } static BOOL js_strict_eq(JSContext *ctx, JSValue op1, JSValue op2) { return js_strict_eq2(ctx, op1, op2, JS_EQ_STRICT); } static BOOL js_same_value(JSContext *ctx, JSValue op1, JSValue op2) { return js_strict_eq2(ctx, js_dup(op1), js_dup(op2), JS_EQ_SAME_VALUE); } static BOOL js_same_value_zero(JSContext *ctx, JSValue op1, JSValue op2) { return js_strict_eq2(ctx, js_dup(op1), js_dup(op2), JS_EQ_SAME_VALUE_ZERO); } static no_inline int js_strict_eq_slow(JSContext *ctx, JSValue *sp, BOOL is_neq) { BOOL res; res = js_strict_eq(ctx, sp[-2], sp[-1]); sp[-2] = js_bool(res ^ is_neq); return 0; } static __exception int js_operator_in(JSContext *ctx, JSValue *sp) { JSValue op1, op2; JSAtom atom; int ret; op1 = sp[-2]; op2 = sp[-1]; if (JS_VALUE_GET_TAG(op2) != JS_TAG_OBJECT) { JS_ThrowTypeError(ctx, "invalid 'in' operand"); return -1; } atom = JS_ValueToAtom(ctx, op1); if (unlikely(atom == JS_ATOM_NULL)) return -1; ret = JS_HasProperty(ctx, op2, atom); JS_FreeAtom(ctx, atom); if (ret < 0) return -1; JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); sp[-2] = js_bool(ret); return 0; } static __exception int js_operator_private_in(JSContext *ctx, JSValue *sp) { JSValue op1, op2; int ret; op1 = sp[-2]; /* object */ op2 = sp[-1]; /* field name or method function */ if (JS_VALUE_GET_TAG(op1) != JS_TAG_OBJECT) { JS_ThrowTypeError(ctx, "invalid 'in' operand"); return -1; } if (JS_IsObject(op2)) { /* method: use the brand */ ret = JS_CheckBrand(ctx, op1, op2); if (ret < 0) return -1; } else { JSAtom atom; JSObject *p; JSShapeProperty *prs; JSProperty *pr; /* field */ atom = JS_ValueToAtom(ctx, op2); if (unlikely(atom == JS_ATOM_NULL)) return -1; p = JS_VALUE_GET_OBJ(op1); prs = find_own_property(&pr, p, atom); JS_FreeAtom(ctx, atom); ret = (prs != NULL); } JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); sp[-2] = JS_NewBool(ctx, ret); return 0; } static __exception int js_has_unscopable(JSContext *ctx, JSValue obj, JSAtom atom) { JSValue arr, val; int ret; arr = JS_GetProperty(ctx, obj, JS_ATOM_Symbol_unscopables); if (JS_IsException(arr)) return -1; ret = 0; if (JS_IsObject(arr)) { val = JS_GetProperty(ctx, arr, atom); ret = JS_ToBoolFree(ctx, val); } JS_FreeValue(ctx, arr); return ret; } static __exception int js_operator_instanceof(JSContext *ctx, JSValue *sp) { JSValue op1, op2; BOOL ret; op1 = sp[-2]; op2 = sp[-1]; ret = JS_IsInstanceOf(ctx, op1, op2); if (ret < 0) return ret; JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); sp[-2] = js_bool(ret); return 0; } static __exception int js_operator_typeof(JSContext *ctx, JSValue op1) { JSAtom atom; uint32_t tag; tag = JS_VALUE_GET_NORM_TAG(op1); switch(tag) { case JS_TAG_BIG_INT: atom = JS_ATOM_bigint; break; case JS_TAG_INT: case JS_TAG_FLOAT64: atom = JS_ATOM_number; break; case JS_TAG_UNDEFINED: atom = JS_ATOM_undefined; break; case JS_TAG_BOOL: atom = JS_ATOM_boolean; break; case JS_TAG_STRING: atom = JS_ATOM_string; break; case JS_TAG_OBJECT: { JSObject *p; p = JS_VALUE_GET_OBJ(op1); if (unlikely(p->is_HTMLDDA)) atom = JS_ATOM_undefined; else if (JS_IsFunction(ctx, op1)) atom = JS_ATOM_function; else goto obj_type; } break; case JS_TAG_NULL: obj_type: atom = JS_ATOM_object; break; case JS_TAG_SYMBOL: atom = JS_ATOM_symbol; break; default: atom = JS_ATOM_unknown; break; } return atom; } static __exception int js_operator_delete(JSContext *ctx, JSValue *sp) { JSValue op1, op2; JSAtom atom; int ret; op1 = sp[-2]; op2 = sp[-1]; atom = JS_ValueToAtom(ctx, op2); if (unlikely(atom == JS_ATOM_NULL)) return -1; ret = JS_DeleteProperty(ctx, op1, atom, JS_PROP_THROW_STRICT); JS_FreeAtom(ctx, atom); if (unlikely(ret < 0)) return -1; JS_FreeValue(ctx, op1); JS_FreeValue(ctx, op2); sp[-2] = js_bool(ret); return 0; } static JSValue js_throw_type_error(JSContext *ctx, JSValue this_val, int argc, JSValue *argv) { return JS_ThrowTypeError(ctx, "invalid property access"); } /* XXX: not 100% compatible, but mozilla seems to use a similar implementation to ensure that caller in non strict mode does not throw (ES5 compatibility) */ static JSValue js_function_proto_caller(JSContext *ctx, JSValue this_val, int argc, JSValue *argv) { JSFunctionBytecode *b = JS_GetFunctionBytecode(this_val); if (!b || (b->js_mode & JS_MODE_STRICT) || !b->has_prototype) { return js_throw_type_error(ctx, this_val, 0, NULL); } return JS_UNDEFINED; } static JSValue js_function_proto_fileName(JSContext *ctx, JSValue this_val) { JSFunctionBytecode *b = JS_GetFunctionBytecode(this_val); if (b) { return JS_AtomToString(ctx, b->filename); } return JS_UNDEFINED; } static JSValue js_function_proto_int32(JSContext *ctx, JSValue this_val, int magic) { JSFunctionBytecode *b = JS_GetFunctionBytecode(this_val); if (b) { int *field = (int *) ((char *)b + magic); return js_int32(*field); } return JS_UNDEFINED; } static int js_arguments_define_own_property(JSContext *ctx, JSValue this_obj, JSAtom prop, JSValue val, JSValue getter, JSValue setter, int flags) { JSObject *p; uint32_t idx; p = JS_VALUE_GET_OBJ(this_obj); /* convert to normal array when redefining an existing numeric field */ if (p->fast_array && JS_AtomIsArrayIndex(ctx, &idx, prop) && idx < p->u.array.count) { if (convert_fast_array_to_array(ctx, p)) return -1; } /* run the default define own property */ return JS_DefineProperty(ctx, this_obj, prop, val, getter, setter, flags | JS_PROP_NO_EXOTIC); } static const JSClassExoticMethods js_arguments_exotic_methods = { .define_own_property = js_arguments_define_own_property, }; static JSValue js_build_arguments(JSContext *ctx, int argc, JSValue *argv) { JSValue val, *tab; JSProperty *pr; JSObject *p; int i; val = JS_NewObjectProtoClass(ctx, ctx->class_proto[JS_CLASS_OBJECT], JS_CLASS_ARGUMENTS); if (JS_IsException(val)) return val; p = JS_VALUE_GET_OBJ(val); /* add the length field (cannot fail) */ pr = add_property(ctx, p, JS_ATOM_length, JS_PROP_WRITABLE | JS_PROP_CONFIGURABLE); pr->u.value = js_int32(argc); /* initialize the fast array part */ tab = NULL; if (argc > 0) { tab = js_malloc(ctx, sizeof(tab[0]) * argc); if (!tab) { JS_FreeValue(ctx, val); return JS_EXCEPTION; } for(i = 0; i < argc; i++) { tab[i] = js_dup(argv[i]); } } p->u.array.u.values = tab; p->u.array.count = argc; JS_DefinePropertyValue(ctx, val, JS_ATOM_Symbol_iterator, js_dup(ctx->array_proto_values), JS_PROP_CONFIGURABLE | JS_PROP_WRITABLE); /* add callee property to throw a TypeError in strict mode */ JS_DefineProperty(ctx, val, JS_ATOM_callee, JS_UNDEFINED, ctx->throw_type_error, ctx->throw_type_error, JS_PROP_HAS_GET | JS_PROP_HAS_SET); return val; } #define GLOBAL_VAR_OFFSET 0x40000000 #define ARGUMENT_VAR_OFFSET 0x20000000 /* legacy arguments object: add references to the function arguments */ static JSValue js_build_mapped_arguments(JSContext *ctx, int argc, JSValue *argv, JSStackFrame *sf, int arg_count) { JSValue val; JSProperty *pr; JSObject *p; int i; val = JS_NewObjectProtoClass(ctx, ctx->class_proto[JS_CLASS_OBJECT], JS_CLASS_MAPPED_ARGUMENTS); if (JS_IsException(val)) return val; p = JS_VALUE_GET_OBJ(val); /* add the length field (cannot fail) */ pr = add_property(ctx, p, JS_ATOM_length, JS_PROP_WRITABLE | JS_PROP_CONFIGURABLE); pr->u.value = js_int32(argc); for(i = 0; i < arg_count; i++) { JSVarRef *var_ref; var_ref = get_var_ref(ctx, sf, i, TRUE); if (!var_ref) goto fail; pr = add_property(ctx, p, __JS_AtomFromUInt32(i), JS_PROP_C_W_E | JS_PROP_VARREF); if (!pr) { free_var_ref(ctx->rt, var_ref); goto fail; } pr->u.var_ref = var_ref; } /* the arguments not mapped to the arguments of the function can be normal properties */ for(i = arg_count; i < argc; i++) { if (JS_DefinePropertyValueUint32(ctx, val, i, js_dup(argv[i]), JS_PROP_C_W_E) < 0) goto fail; } JS_DefinePropertyValue(ctx, val, JS_ATOM_Symbol_iterator, js_dup(ctx->array_proto_values), JS_PROP_CONFIGURABLE | JS_PROP_WRITABLE); /* callee returns this function in non strict mode */ JS_DefinePropertyValue(ctx, val, JS_ATOM_callee, js_dup(ctx->rt->current_stack_frame->cur_func), JS_PROP_CONFIGURABLE | JS_PROP_WRITABLE); return val; fail: JS_FreeValue(ctx, val); return JS_EXCEPTION; } static JSValue js_build_rest(JSContext *ctx, int first, int argc, JSValue *argv) { JSValue val; int i, ret; val = JS_NewArray(ctx); if (JS_IsException(val)) return val; for (i = first; i < argc; i++) { ret = JS_DefinePropertyValueUint32(ctx, val, i - first, js_dup(argv[i]), JS_PROP_C_W_E); if (ret < 0) { JS_FreeValue(ctx, val); return JS_EXCEPTION; } } return val; } static JSValue build_for_in_iterator(JSContext *ctx, JSValue obj) { JSObject *p; JSPropertyEnum *tab_atom; int i; JSValue enum_obj, obj1; JSForInIterator *it; uint32_t tag, tab_atom_count; tag = JS_VALUE_GET_TAG(obj); if (tag != JS_TAG_OBJECT && tag != JS_TAG_NULL && tag != JS_TAG_UNDEFINED) { obj = JS_ToObjectFree(ctx, obj); } it = js_malloc(ctx, sizeof(*it)); if (!it) { JS_FreeValue(ctx, obj); return JS_EXCEPTION; } enum_obj = JS_NewObjectProtoClass(ctx, JS_NULL, JS_CLASS_FOR_IN_ITERATOR); if (JS_IsException(enum_obj)) { js_free(ctx, it); JS_FreeValue(ctx, obj); return JS_EXCEPTION; } it->is_array = FALSE; it->obj = obj; it->idx = 0; p = JS_VALUE_GET_OBJ(enum_obj); p->u.for_in_iterator = it; if (tag == JS_TAG_NULL || tag == JS_TAG_UNDEFINED) return enum_obj; /* fast path: assume no enumerable properties in the prototype chain */ obj1 = js_dup(obj); for(;;) { obj1 = JS_GetPrototypeFree(ctx, obj1); if (JS_IsNull(obj1)) break; if (JS_IsException(obj1)) goto fail; if (JS_GetOwnPropertyNamesInternal(ctx, &tab_atom, &tab_atom_count, JS_VALUE_GET_OBJ(obj1), JS_GPN_STRING_MASK | JS_GPN_ENUM_ONLY)) { JS_FreeValue(ctx, obj1); goto fail; } js_free_prop_enum(ctx, tab_atom, tab_atom_count); if (tab_atom_count != 0) { JS_FreeValue(ctx, obj1); goto slow_path; } /* must check for timeout to avoid infinite loop */ if (js_poll_interrupts(ctx)) { JS_FreeValue(ctx, obj1); goto fail; } } p = JS_VALUE_GET_OBJ(obj); if (p->fast_array) { JSShape *sh; JSShapeProperty *prs; /* check that there are no enumerable normal fields */ sh = p->shape; for(i = 0, prs = get_shape_prop(sh); i < sh->prop_count; i++, prs++) { if (prs->flags & JS_PROP_ENUMERABLE) goto normal_case; } /* for fast arrays, we only store the number of elements */ it->is_array = TRUE; it->array_length = p->u.array.count; } else { normal_case: if (JS_GetOwnPropertyNamesInternal(ctx, &tab_atom, &tab_atom_count, p, JS_GPN_STRING_MASK | JS_GPN_ENUM_ONLY)) goto fail; for(i = 0; i < tab_atom_count; i++) { JS_SetPropertyInternal(ctx, enum_obj, tab_atom[i].atom, JS_NULL, 0); } js_free_prop_enum(ctx, tab_atom, tab_atom_count); } return enum_obj; slow_path: /* non enumerable properties hide the enumerables ones in the prototype chain */ obj1 = js_dup(obj); for(;;) { if (JS_GetOwnPropertyNamesInternal(ctx, &tab_atom, &tab_atom_count, JS_VALUE_GET_OBJ(obj1), JS_GPN_STRING_MASK | JS_GPN_SET_ENUM)) { JS_FreeValue(ctx, obj1); goto fail; } for(i = 0; i < tab_atom_count; i++) { JS_DefinePropertyValue(ctx, enum_obj, tab_atom[i].atom, JS_NULL, (tab_atom[i].is_enumerable ? JS_PROP_ENUMERABLE : 0)); } js_free_prop_enum(ctx, tab_atom, tab_atom_count); obj1 = JS_GetPrototypeFree(ctx, obj1); if (JS_IsNull(obj1)) break; if (JS_IsException(obj1)) goto fail; /* must check for timeout to avoid infinite loop */ if (js_poll_interrupts(ctx)) { JS_FreeValue(ctx, obj1); goto fail; } } return enum_obj; fail: JS_FreeValue(ctx, enum_obj); return JS_EXCEPTION; } /* obj -> enum_obj */ static __exception int js_for_in_start(JSContext *ctx, JSValue *sp) { sp[-1] = build_for_in_iterator(ctx, sp[-1]); if (JS_IsException(sp[-1])) return -1; return 0; } /* enum_obj -> enum_obj value done */ static __exception int js_for_in_next(JSContext *ctx, JSValue *sp) { JSValue enum_obj; JSObject *p; JSAtom prop; JSForInIterator *it; int ret; enum_obj = sp[-1]; /* fail safe */ if (JS_VALUE_GET_TAG(enum_obj) != JS_TAG_OBJECT) goto done; p = JS_VALUE_GET_OBJ(enum_obj); if (p->class_id != JS_CLASS_FOR_IN_ITERATOR) goto done; it = p->u.for_in_iterator; for(;;) { if (it->is_array) { if (it->idx >= it->array_length) goto done; prop = __JS_AtomFromUInt32(it->idx); it->idx++; } else { JSShape *sh = p->shape; JSShapeProperty *prs; if (it->idx >= sh->prop_count) goto done; prs = get_shape_prop(sh) + it->idx; prop = prs->atom; it->idx++; if (prop == JS_ATOM_NULL || !(prs->flags & JS_PROP_ENUMERABLE)) continue; } // check if the property was deleted unless we're dealing with a proxy JSValue obj = it->obj; if (JS_VALUE_GET_TAG(obj) == JS_TAG_OBJECT) { JSObject *p = JS_VALUE_GET_OBJ(obj); if (p->class_id == JS_CLASS_PROXY) break; } ret = JS_HasProperty(ctx, obj, prop); if (ret < 0) return ret; if (ret) break; } /* return the property */ sp[0] = JS_AtomToValue(ctx, prop); sp[1] = JS_FALSE; return 0; done: /* return the end */ sp[0] = JS_UNDEFINED; sp[1] = JS_TRUE; return 0; } static JSValue JS_GetIterator2(JSContext *ctx, JSValue obj, JSValue method) { JSValue enum_obj; enum_obj = JS_Call(ctx, method, obj, 0, NULL); if (JS_IsException(enum_obj)) return enum_obj; if (!JS_IsObject(enum_obj)) { JS_FreeValue(ctx, enum_obj); return JS_ThrowTypeErrorNotAnObject(ctx); } return enum_obj; } static JSValue JS_GetIterator(JSContext *ctx, JSValue obj, BOOL is_async) { JSValue method, ret, sync_iter; if (is_async) { method = JS_GetProperty(ctx, obj, JS_ATOM_Symbol_asyncIterator); if (JS_IsException(method)) return method; if (JS_IsUndefined(method) || JS_IsNull(method)) { method = JS_GetProperty(ctx, obj, JS_ATOM_Symbol_iterator); if (JS_IsException(method)) return method; sync_iter = JS_GetIterator2(ctx, obj, method); JS_FreeValue(ctx, method); if (JS_IsException(sync_iter)) return sync_iter; ret = JS_CreateAsyncFromSyncIterator(ctx, sync_iter); JS_FreeValue(ctx, sync_iter); return ret; } } else { method = JS_GetProperty(ctx, obj, JS_ATOM_Symbol_iterator); if (JS_IsException(method)) return method; } if (!JS_IsFunction(ctx, method)) { JS_FreeValue(ctx, method); return JS_ThrowTypeError(ctx, "value is not iterable"); } ret = JS_GetIterator2(ctx, obj, method); JS_FreeValue(ctx, method); return ret; } /* return *pdone = 2 if the iterator object is not parsed */ static JSValue JS_IteratorNext2(JSContext *ctx, JSValue enum_obj, JSValue method, int argc, JSValue *argv, int *pdone) { JSValue obj; /* fast path for the built-in iterators (avoid creating the intermediate result object) */ if (JS_IsObject(method)) { JSObject *p = JS_VALUE_GET_OBJ(method); if (p->class_id == JS_CLASS_C_FUNCTION && p->u.cfunc.cproto == JS_CFUNC_iterator_next) { JSCFunctionType func; JSValue args[1]; /* in case the function expects one argument */ if (argc == 0) { args[0] = JS_UNDEFINED; argv = args; } func = p->u.cfunc.c_function; return func.iterator_next(ctx, enum_obj, argc, argv, pdone, p->u.cfunc.magic); } } obj = JS_Call(ctx, method, enum_obj, argc, argv); if (JS_IsException(obj)) goto fail; if (!JS_IsObject(obj)) { JS_FreeValue(ctx, obj); JS_ThrowTypeError(ctx, "iterator must return an object"); goto fail; } *pdone = 2; return obj; fail: *pdone = FALSE; return JS_EXCEPTION; } static JSValue JS_IteratorNext(JSContext *ctx, JSValue enum_obj, JSValue method, int argc, JSValue *argv, BOOL *pdone) { JSValue obj, value, done_val; int done; obj = JS_IteratorNext2(ctx, enum_obj, method, argc, argv, &done); if (JS_IsException(obj)) goto fail; if (done != 2) { *pdone = done; return obj; } else { done_val = JS_GetProperty(ctx, obj, JS_ATOM_done); if (JS_IsException(done_val)) goto fail; *pdone = JS_ToBoolFree(ctx, done_val); value = JS_UNDEFINED; if (!*pdone) { value = JS_GetProperty(ctx, obj, JS_ATOM_value); } JS_FreeValue(ctx, obj); return value; } fail: JS_FreeValue(ctx, obj); *pdone = FALSE; return JS_EXCEPTION; } /* return < 0 in case of exception */ static int JS_IteratorClose(JSContext *ctx, JSValue enum_obj, BOOL is_exception_pending) { JSValue method, ret, ex_obj; int res; if (is_exception_pending) { ex_obj = ctx->rt->current_exception; ctx->rt->current_exception = JS_UNINITIALIZED; res = -1; } else { ex_obj = JS_UNDEFINED; res = 0; } method = JS_GetProperty(ctx, enum_obj, JS_ATOM_return); if (JS_IsException(method)) { res = -1; goto done; } if (JS_IsUndefined(method) || JS_IsNull(method)) { goto done; } ret = JS_CallFree(ctx, method, enum_obj, 0, NULL); if (!is_exception_pending) { if (JS_IsException(ret)) { res = -1; } else if (!JS_IsObject(ret)) { JS_ThrowTypeErrorNotAnObject(ctx); res = -1; } } JS_FreeValue(ctx, ret); done: if (is_exception_pending) { JS_Throw(ctx, ex_obj); } return res; } /* obj -> enum_rec (3 slots) */ static __exception int js_for_of_start(JSContext *ctx, JSValue *sp, BOOL is_async) { JSValue op1, obj, method; op1 = sp[-1]; obj = JS_GetIterator(ctx, op1, is_async); if (JS_IsException(obj)) return -1; JS_FreeValue(ctx, op1); sp[-1] = obj; method = JS_GetProperty(ctx, obj, JS_ATOM_next); if (JS_IsException(method)) return -1; sp[0] = method; return 0; } /* enum_rec [objs] -> enum_rec [objs] value done. There are 'offset' objs. If 'done' is true or in case of exception, 'enum_rec' is set to undefined. If 'done' is true, 'value' is always set to undefined. */ static __exception int js_for_of_next(JSContext *ctx, JSValue *sp, int offset) { JSValue value = JS_UNDEFINED; int done = 1; if (likely(!JS_IsUndefined(sp[offset]))) { value = JS_IteratorNext(ctx, sp[offset], sp[offset + 1], 0, NULL, &done); if (JS_IsException(value)) done = -1; if (done) { /* value is JS_UNDEFINED or JS_EXCEPTION */ /* replace the iteration object with undefined */ JS_FreeValue(ctx, sp[offset]); sp[offset] = JS_UNDEFINED; if (done < 0) { return -1; } else { JS_FreeValue(ctx, value); value = JS_UNDEFINED; } } } sp[0] = value; sp[1] = js_bool(done); return 0; } static JSValue JS_IteratorGetCompleteValue(JSContext *ctx, JSValue obj, BOOL *pdone) { JSValue done_val, value; BOOL done; done_val = JS_GetProperty(ctx, obj, JS_ATOM_done); if (JS_IsException(done_val)) goto fail; done = JS_ToBoolFree(ctx, done_val); value = JS_GetProperty(ctx, obj, JS_ATOM_value); if (JS_IsException(value)) goto fail; *pdone = done; return value; fail: *pdone = FALSE; return JS_EXCEPTION; } static __exception int js_iterator_get_value_done(JSContext *ctx, JSValue *sp) { JSValue obj, value; BOOL done; obj = sp[-1]; if (!JS_IsObject(obj)) { JS_ThrowTypeError(ctx, "iterator must return an object"); return -1; } value = JS_IteratorGetCompleteValue(ctx, obj, &done); if (JS_IsException(value)) return -1; JS_FreeValue(ctx, obj); sp[-1] = value; sp[0] = js_bool(done); return 0; } static JSValue js_create_iterator_result(JSContext *ctx, JSValue val, BOOL done) { JSValue obj; obj = JS_NewObject(ctx); if (JS_IsException(obj)) { JS_FreeValue(ctx, val); return obj; } if (JS_DefinePropertyValue(ctx, obj, JS_ATOM_value, val, JS_PROP_C_W_E) < 0) { goto fail; } if (JS_DefinePropertyValue(ctx, obj, JS_ATOM_done, js_bool(done), JS_PROP_C_W_E) < 0) { fail: JS_FreeValue(ctx, obj); return JS_EXCEPTION; } return obj; } static JSValue js_array_iterator_next(JSContext *ctx, JSValue this_val, int argc, JSValue *argv, BOOL *pdone, int magic); static JSValue js_create_array_iterator(JSContext *ctx, JSValue this_val, int argc, JSValue *argv, int magic); static BOOL js_is_fast_array(JSContext *ctx, JSValue obj) { /* Try and handle fast arrays explicitly */ if (JS_VALUE_GET_TAG(obj) == JS_TAG_OBJECT) { JSObject *p = JS_VALUE_GET_OBJ(obj); if (p->class_id == JS_CLASS_ARRAY && p->fast_array) { return TRUE; } } return FALSE; } /* Access an Array's internal JSValue array if available */ static BOOL js_get_fast_array(JSContext *ctx, JSValue obj, JSValue **arrpp, uint32_t *countp) { /* Try and handle fast arrays explicitly */ if (JS_VALUE_GET_TAG(obj) == JS_TAG_OBJECT) { JSObject *p = JS_VALUE_GET_OBJ(obj); if (p->class_id == JS_CLASS_ARRAY && p->fast_array) { *countp = p->u.array.count; *arrpp = p->u.array.u.values; return TRUE; } } return FALSE; } static __exception int js_append_enumerate(JSContext *ctx, JSValue *sp) { JSValue iterator, enumobj, method, value; int is_array_iterator; JSValue *arrp; uint32_t i, count32, pos; if (JS_VALUE_GET_TAG(sp[-2]) != JS_TAG_INT) { JS_ThrowInternalError(ctx, "invalid index for append"); return -1; } pos = JS_VALUE_GET_INT(sp[-2]); /* XXX: further optimisations: - use ctx->array_proto_values? - check if array_iterator_prototype next method is built-in and avoid constructing actual iterator object? - build this into js_for_of_start and use in all `for (x of o)` loops */ iterator = JS_GetProperty(ctx, sp[-1], JS_ATOM_Symbol_iterator); if (JS_IsException(iterator)) return -1; /* Used to squelch a -Wcast-function-type warning. */ JSCFunctionType ft = { .generic_magic = js_create_array_iterator }; is_array_iterator = JS_IsCFunction(ctx, iterator, ft.generic, JS_ITERATOR_KIND_VALUE); JS_FreeValue(ctx, iterator); enumobj = JS_GetIterator(ctx, sp[-1], FALSE); if (JS_IsException(enumobj)) return -1; method = JS_GetProperty(ctx, enumobj, JS_ATOM_next); if (JS_IsException(method)) { JS_FreeValue(ctx, enumobj); return -1; } /* Used to squelch a -Wcast-function-type warning. */ JSCFunctionType ft2 = { .iterator_next = js_array_iterator_next }; if (is_array_iterator && JS_IsCFunction(ctx, method, ft2.generic, 0) && js_get_fast_array(ctx, sp[-1], &arrp, &count32)) { uint32_t len; if (js_get_length32(ctx, &len, sp[-1])) goto exception; /* if len > count32, the elements >= count32 might be read in the prototypes and might have side effects */ if (len != count32) goto general_case; /* Handle fast arrays explicitly */ for (i = 0; i < count32; i++) { if (JS_DefinePropertyValueUint32(ctx, sp[-3], pos++, js_dup(arrp[i]), JS_PROP_C_W_E) < 0) goto exception; } } else { general_case: for (;;) { BOOL done; value = JS_IteratorNext(ctx, enumobj, method, 0, NULL, &done); if (JS_IsException(value)) goto exception; if (done) { /* value is JS_UNDEFINED */ break; } if (JS_DefinePropertyValueUint32(ctx, sp[-3], pos++, value, JS_PROP_C_W_E) < 0) goto exception; } } /* Note: could raise an error if too many elements */ sp[-2] = js_int32(pos); JS_FreeValue(ctx, enumobj); JS_FreeValue(ctx, method); return 0; exception: JS_IteratorClose(ctx, enumobj, TRUE); JS_FreeValue(ctx, enumobj); JS_FreeValue(ctx, method); return -1; } static __exception int JS_CopyDataProperties(JSContext *ctx, JSValue target, JSValue source, JSValue excluded, BOOL setprop) { JSPropertyEnum *tab_atom; JSValue val; uint32_t i, tab_atom_count; JSObject *p; JSObject *pexcl = NULL; int ret, gpn_flags; JSPropertyDescriptor desc; BOOL is_enumerable; if (JS_VALUE_GET_TAG(source) != JS_TAG_OBJECT) return 0; if (JS_VALUE_GET_TAG(excluded) == JS_TAG_OBJECT) pexcl = JS_VALUE_GET_OBJ(excluded); p = JS_VALUE_GET_OBJ(source); gpn_flags = JS_GPN_STRING_MASK | JS_GPN_SYMBOL_MASK | JS_GPN_ENUM_ONLY; if (p->is_exotic) { const JSClassExoticMethods *em = ctx->rt->class_array[p->class_id].exotic; /* cannot use JS_GPN_ENUM_ONLY with e.g. proxies because it introduces a visible change */ if (em && em->get_own_property_names) { gpn_flags &= ~JS_GPN_ENUM_ONLY; } } if (JS_GetOwnPropertyNamesInternal(ctx, &tab_atom, &tab_atom_count, p, gpn_flags)) return -1; for (i = 0; i < tab_atom_count; i++) { if (pexcl) { ret = JS_GetOwnPropertyInternal(ctx, NULL, pexcl, tab_atom[i].atom); if (ret) { if (ret < 0) goto exception; continue; } } if (!(gpn_flags & JS_GPN_ENUM_ONLY)) { /* test if the property is enumerable */ ret = JS_GetOwnPropertyInternal(ctx, &desc, p, tab_atom[i].atom); if (ret < 0) goto exception; if (!ret) continue; is_enumerable = (desc.flags & JS_PROP_ENUMERABLE) != 0; js_free_desc(ctx, &desc); if (!is_enumerable) continue; } val = JS_GetProperty(ctx, source, tab_atom[i].atom); if (JS_IsException(val)) goto exception; if (setprop) ret = JS_SetProperty(ctx, target, tab_atom[i].atom, val); else ret = JS_DefinePropertyValue(ctx, target, tab_atom[i].atom, val, JS_PROP_C_W_E); if (ret < 0) goto exception; } js_free_prop_enum(ctx, tab_atom, tab_atom_count); return 0; exception: js_free_prop_enum(ctx, tab_atom, tab_atom_count); return -1; } /* only valid inside C functions */ static JSValue JS_GetActiveFunction(JSContext *ctx) { return ctx->rt->current_stack_frame->cur_func; } static JSVarRef *get_var_ref(JSContext *ctx, JSStackFrame *sf, int var_idx, BOOL is_arg) { JSVarRef *var_ref; struct list_head *el; list_for_each(el, &sf->var_ref_list) { var_ref = list_entry(el, JSVarRef, header.link); if (var_ref->var_idx == var_idx && var_ref->is_arg == is_arg) { var_ref->header.ref_count++; return var_ref; } } /* create a new one */ var_ref = js_malloc(ctx, sizeof(JSVarRef)); if (!var_ref) return NULL; var_ref->header.ref_count = 1; var_ref->is_detached = FALSE; var_ref->is_arg = is_arg; var_ref->var_idx = var_idx; list_add_tail(&var_ref->header.link, &sf->var_ref_list); if (is_arg) var_ref->pvalue = &sf->arg_buf[var_idx]; else var_ref->pvalue = &sf->var_buf[var_idx]; var_ref->value = JS_UNDEFINED; return var_ref; } static JSValue js_closure2(JSContext *ctx, JSValue func_obj, JSFunctionBytecode *b, JSVarRef **cur_var_refs, JSStackFrame *sf) { JSObject *p; JSVarRef **var_refs; int i; p = JS_VALUE_GET_OBJ(func_obj); p->u.func.function_bytecode = b; p->u.func.home_object = NULL; p->u.func.var_refs = NULL; if (b->closure_var_count) { var_refs = js_mallocz(ctx, sizeof(var_refs[0]) * b->closure_var_count); if (!var_refs) goto fail; p->u.func.var_refs = var_refs; for(i = 0; i < b->closure_var_count; i++) { JSClosureVar *cv = &b->closure_var[i]; JSVarRef *var_ref; if (cv->is_local) { /* reuse the existing variable reference if it already exists */ var_ref = get_var_ref(ctx, sf, cv->var_idx, cv->is_arg); if (!var_ref) goto fail; } else { var_ref = cur_var_refs[cv->var_idx]; var_ref->header.ref_count++; } var_refs[i] = var_ref; } } return func_obj; fail: /* bfunc is freed when func_obj is freed */ JS_FreeValue(ctx, func_obj); return JS_EXCEPTION; } static JSValue js_instantiate_prototype(JSContext *ctx, JSObject *p, JSAtom atom, void *opaque) { JSValue obj, this_val; int ret; this_val = JS_MKPTR(JS_TAG_OBJECT, p); obj = JS_NewObject(ctx); if (JS_IsException(obj)) return JS_EXCEPTION; set_cycle_flag(ctx, obj); set_cycle_flag(ctx, this_val); ret = JS_DefinePropertyValue(ctx, obj, JS_ATOM_constructor, js_dup(this_val), JS_PROP_WRITABLE | JS_PROP_CONFIGURABLE); if (ret < 0) { JS_FreeValue(ctx, obj); return JS_EXCEPTION; } return obj; } static const uint16_t func_kind_to_class_id[] = { [JS_FUNC_NORMAL] = JS_CLASS_BYTECODE_FUNCTION, [JS_FUNC_GENERATOR] = JS_CLASS_GENERATOR_FUNCTION, [JS_FUNC_ASYNC] = JS_CLASS_ASYNC_FUNCTION, [JS_FUNC_ASYNC_GENERATOR] = JS_CLASS_ASYNC_GENERATOR_FUNCTION, }; static JSValue js_closure(JSContext *ctx, JSValue bfunc, JSVarRef **cur_var_refs, JSStackFrame *sf) { JSFunctionBytecode *b; JSValue func_obj; JSAtom name_atom; b = JS_VALUE_GET_PTR(bfunc); func_obj = JS_NewObjectClass(ctx, func_kind_to_class_id[b->func_kind]); if (JS_IsException(func_obj)) { JS_FreeValue(ctx, bfunc); return JS_EXCEPTION; } func_obj = js_closure2(ctx, func_obj, b, cur_var_refs, sf); if (JS_IsException(func_obj)) { /* bfunc has been freed */ goto fail; } name_atom = b->func_name; if (name_atom == JS_ATOM_NULL) name_atom = JS_ATOM_empty_string; js_function_set_properties(ctx, func_obj, name_atom, b->defined_arg_count); if (b->func_kind & JS_FUNC_GENERATOR) { JSValue proto; int proto_class_id; /* generators have a prototype field which is used as prototype for the generator object */ if (b->func_kind == JS_FUNC_ASYNC_GENERATOR) proto_class_id = JS_CLASS_ASYNC_GENERATOR; else proto_class_id = JS_CLASS_GENERATOR; proto = JS_NewObjectProto(ctx, ctx->class_proto[proto_class_id]); if (JS_IsException(proto)) goto fail; JS_DefinePropertyValue(ctx, func_obj, JS_ATOM_prototype, proto, JS_PROP_WRITABLE); } else if (b->has_prototype) { /* add the 'prototype' property: delay instantiation to avoid creating cycles for every javascript function. The prototype object is created on the fly when first accessed */ JS_SetConstructorBit(ctx, func_obj, TRUE); JS_DefineAutoInitProperty(ctx, func_obj, JS_ATOM_prototype, JS_AUTOINIT_ID_PROTOTYPE, NULL, JS_PROP_WRITABLE); } return func_obj; fail: /* bfunc is freed when func_obj is freed */ JS_FreeValue(ctx, func_obj); return JS_EXCEPTION; } #define JS_DEFINE_CLASS_HAS_HERITAGE (1 << 0) static int js_op_define_class(JSContext *ctx, JSValue *sp, JSAtom class_name, int class_flags, JSVarRef **cur_var_refs, JSStackFrame *sf, BOOL is_computed_name) { JSValue bfunc, parent_class, proto = JS_UNDEFINED; JSValue ctor = JS_UNDEFINED, parent_proto = JS_UNDEFINED; JSFunctionBytecode *b; parent_class = sp[-2]; bfunc = sp[-1]; if (class_flags & JS_DEFINE_CLASS_HAS_HERITAGE) { if (JS_IsNull(parent_class)) { parent_proto = JS_NULL; parent_class = js_dup(ctx->function_proto); } else { if (!JS_IsConstructor(ctx, parent_class)) { JS_ThrowTypeError(ctx, "parent class must be constructor"); goto fail; } parent_proto = JS_GetProperty(ctx, parent_class, JS_ATOM_prototype); if (JS_IsException(parent_proto)) goto fail; if (!JS_IsNull(parent_proto) && !JS_IsObject(parent_proto)) { JS_ThrowTypeError(ctx, "parent prototype must be an object or null"); goto fail; } } } else { /* parent_class is JS_UNDEFINED in this case */ parent_proto = js_dup(ctx->class_proto[JS_CLASS_OBJECT]); parent_class = js_dup(ctx->function_proto); } proto = JS_NewObjectProto(ctx, parent_proto); if (JS_IsException(proto)) goto fail; b = JS_VALUE_GET_PTR(bfunc); assert(b->func_kind == JS_FUNC_NORMAL); ctor = JS_NewObjectProtoClass(ctx, parent_class, JS_CLASS_BYTECODE_FUNCTION); if (JS_IsException(ctor)) goto fail; ctor = js_closure2(ctx, ctor, b, cur_var_refs, sf); bfunc = JS_UNDEFINED; if (JS_IsException(ctor)) goto fail; js_method_set_home_object(ctx, ctor, proto); JS_SetConstructorBit(ctx, ctor, TRUE); JS_DefinePropertyValue(ctx, ctor, JS_ATOM_length, js_int32(b->defined_arg_count), JS_PROP_CONFIGURABLE); if (is_computed_name) { if (JS_DefineObjectNameComputed(ctx, ctor, sp[-3], JS_PROP_CONFIGURABLE) < 0) goto fail; } else { if (JS_DefineObjectName(ctx, ctor, class_name, JS_PROP_CONFIGURABLE) < 0) goto fail; } /* the constructor property must be first. It can be overriden by computed property names */ if (JS_DefinePropertyValue(ctx, proto, JS_ATOM_constructor, js_dup(ctor), JS_PROP_CONFIGURABLE | JS_PROP_WRITABLE | JS_PROP_THROW) < 0) goto fail; /* set the prototype property */ if (JS_DefinePropertyValue(ctx, ctor, JS_ATOM_prototype, js_dup(proto), JS_PROP_THROW) < 0) goto fail; set_cycle_flag(ctx, ctor); set_cycle_flag(ctx, proto); JS_FreeValue(ctx, parent_proto); JS_FreeValue(ctx, parent_class); sp[-2] = ctor; sp[-1] = proto; return 0; fail: JS_FreeValue(ctx, parent_class); JS_FreeValue(ctx, parent_proto); JS_FreeValue(ctx, bfunc); JS_FreeValue(ctx, proto); JS_FreeValue(ctx, ctor); sp[-2] = JS_UNDEFINED; sp[-1] = JS_UNDEFINED; return -1; } static void close_var_refs(JSRuntime *rt, JSStackFrame *sf) { struct list_head *el, *el1; JSVarRef *var_ref; int var_idx; list_for_each_safe(el, el1, &sf->var_ref_list) { var_ref = list_entry(el, JSVarRef, header.link); var_idx = var_ref->var_idx; if (var_ref->is_arg) var_ref->value = js_dup(sf->arg_buf[var_idx]); else var_ref->value = js_dup(sf->var_buf[var_idx]); var_ref->pvalue = &var_ref->value; /* the reference is no longer to a local variable */ var_ref->is_detached = TRUE; add_gc_object(rt, &var_ref->header, JS_GC_OBJ_TYPE_VAR_REF); } } static void close_lexical_var(JSContext *ctx, JSStackFrame *sf, int idx, int is_arg) { struct list_head *el, *el1; JSVarRef *var_ref; int var_idx = idx; list_for_each_safe(el, el1, &sf->var_ref_list) { var_ref = list_entry(el, JSVarRef, header.link); if (var_idx == var_ref->var_idx && var_ref->is_arg == is_arg) { var_ref->value = js_dup(sf->var_buf[var_idx]); var_ref->pvalue = &var_ref->value; list_del(&var_ref->header.link); /* the reference is no longer to a local variable */ var_ref->is_detached = TRUE; add_gc_object(ctx->rt, &var_ref->header, JS_GC_OBJ_TYPE_VAR_REF); } } } #define JS_CALL_FLAG_COPY_ARGV (1 << 1) #define JS_CALL_FLAG_GENERATOR (1 << 2) static JSValue js_call_c_function(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags) { JSRuntime *rt = ctx->rt; JSCFunctionType func; JSObject *p; JSStackFrame sf_s, *sf = &sf_s, *prev_sf; JSValue ret_val; JSValue *arg_buf; int arg_count, i; JSCFunctionEnum cproto; p = JS_VALUE_GET_OBJ(func_obj); cproto = p->u.cfunc.cproto; arg_count = p->u.cfunc.length; /* better to always check stack overflow */ if (js_check_stack_overflow(rt, sizeof(arg_buf[0]) * arg_count)) return JS_ThrowStackOverflow(ctx); prev_sf = rt->current_stack_frame; sf->prev_frame = prev_sf; rt->current_stack_frame = sf; ctx = p->u.cfunc.realm; /* change the current realm */ sf->js_mode = 0; sf->cur_func = func_obj; sf->arg_count = argc; arg_buf = argv; if (unlikely(argc < arg_count)) { /* ensure that at least argc_count arguments are readable */ arg_buf = alloca(sizeof(arg_buf[0]) * arg_count); for(i = 0; i < argc; i++) arg_buf[i] = argv[i]; for(i = argc; i < arg_count; i++) arg_buf[i] = JS_UNDEFINED; sf->arg_count = arg_count; } sf->arg_buf = arg_buf; func = p->u.cfunc.c_function; switch(cproto) { case JS_CFUNC_constructor: case JS_CFUNC_constructor_or_func: if (!(flags & JS_CALL_FLAG_CONSTRUCTOR)) { if (cproto == JS_CFUNC_constructor) { not_a_constructor: ret_val = JS_ThrowTypeError(ctx, "must be called with new"); break; } else { this_obj = JS_UNDEFINED; } } /* here this_obj is new_target */ /* fall thru */ case JS_CFUNC_generic: ret_val = func.generic(ctx, this_obj, argc, arg_buf); break; case JS_CFUNC_constructor_magic: case JS_CFUNC_constructor_or_func_magic: if (!(flags & JS_CALL_FLAG_CONSTRUCTOR)) { if (cproto == JS_CFUNC_constructor_magic) { goto not_a_constructor; } else { this_obj = JS_UNDEFINED; } } /* fall thru */ case JS_CFUNC_generic_magic: ret_val = func.generic_magic(ctx, this_obj, argc, arg_buf, p->u.cfunc.magic); break; case JS_CFUNC_getter: ret_val = func.getter(ctx, this_obj); break; case JS_CFUNC_setter: ret_val = func.setter(ctx, this_obj, arg_buf[0]); break; case JS_CFUNC_getter_magic: ret_val = func.getter_magic(ctx, this_obj, p->u.cfunc.magic); break; case JS_CFUNC_setter_magic: ret_val = func.setter_magic(ctx, this_obj, arg_buf[0], p->u.cfunc.magic); break; case JS_CFUNC_f_f: { double d1; if (unlikely(JS_ToFloat64(ctx, &d1, arg_buf[0]))) { ret_val = JS_EXCEPTION; break; } ret_val = js_number(func.f_f(d1)); } break; case JS_CFUNC_f_f_f: { double d1, d2; if (unlikely(JS_ToFloat64(ctx, &d1, arg_buf[0]))) { ret_val = JS_EXCEPTION; break; } if (unlikely(JS_ToFloat64(ctx, &d2, arg_buf[1]))) { ret_val = JS_EXCEPTION; break; } ret_val = js_number(func.f_f_f(d1, d2)); } break; case JS_CFUNC_iterator_next: { int done; ret_val = func.iterator_next(ctx, this_obj, argc, arg_buf, &done, p->u.cfunc.magic); if (!JS_IsException(ret_val) && done != 2) { ret_val = js_create_iterator_result(ctx, ret_val, done); } } break; default: abort(); } rt->current_stack_frame = sf->prev_frame; return ret_val; } static JSValue js_call_bound_function(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags) { JSObject *p; JSBoundFunction *bf; JSValue *arg_buf, new_target; int arg_count, i; p = JS_VALUE_GET_OBJ(func_obj); bf = p->u.bound_function; arg_count = bf->argc + argc; if (js_check_stack_overflow(ctx->rt, sizeof(JSValue) * arg_count)) return JS_ThrowStackOverflow(ctx); arg_buf = alloca(sizeof(JSValue) * arg_count); for(i = 0; i < bf->argc; i++) { arg_buf[i] = bf->argv[i]; } for(i = 0; i < argc; i++) { arg_buf[bf->argc + i] = argv[i]; } if (flags & JS_CALL_FLAG_CONSTRUCTOR) { new_target = this_obj; if (js_same_value(ctx, func_obj, new_target)) new_target = bf->func_obj; return JS_CallConstructor2(ctx, bf->func_obj, new_target, arg_count, arg_buf); } else { return JS_Call(ctx, bf->func_obj, bf->this_val, arg_count, arg_buf); } } /* argument of OP_special_object */ typedef enum { OP_SPECIAL_OBJECT_ARGUMENTS, OP_SPECIAL_OBJECT_MAPPED_ARGUMENTS, OP_SPECIAL_OBJECT_THIS_FUNC, OP_SPECIAL_OBJECT_NEW_TARGET, OP_SPECIAL_OBJECT_HOME_OBJECT, OP_SPECIAL_OBJECT_VAR_OBJECT, OP_SPECIAL_OBJECT_IMPORT_META, } OPSpecialObjectEnum; #define FUNC_RET_AWAIT 0 #define FUNC_RET_YIELD 1 #define FUNC_RET_YIELD_STAR 2 #if defined(DUMP_BYTECODE_FINAL) || \ defined(DUMP_BYTECODE_PASS2) || \ defined(DUMP_BYTECODE_PASS1) || \ defined(DUMP_BYTECODE_STACK) || \ defined(DUMP_BYTECODE_STEP) || \ defined(DUMP_READ_OBJECT) #define DUMP_BYTECODE #endif #ifdef DUMP_BYTECODE static void dump_single_byte_code(JSContext *ctx, const uint8_t *pc, JSFunctionBytecode *b, int start_pos); static void print_func_name(JSFunctionBytecode *b); #endif /* argv[] is modified if (flags & JS_CALL_FLAG_COPY_ARGV) = 0. */ static JSValue JS_CallInternal(JSContext *caller_ctx, JSValue func_obj, JSValue this_obj, JSValue new_target, int argc, JSValue *argv, int flags) { JSRuntime *rt = caller_ctx->rt; JSContext *ctx; JSObject *p; JSFunctionBytecode *b; JSStackFrame sf_s, *sf = &sf_s; uint8_t *pc; int opcode, arg_allocated_size, i; JSValue *local_buf, *stack_buf, *var_buf, *arg_buf, *sp, ret_val, *pval; JSVarRef **var_refs; size_t alloca_size; JSInlineCache *ic; #ifdef DUMP_BYTECODE_STEP #define DUMP_BYTECODE_OR_DONT(pc) \ if (check_dump_flag(ctx->rt, DUMP_BYTECODE_STEP)) dump_single_byte_code(ctx, pc, b, 0); #else #define DUMP_BYTECODE_OR_DONT(pc) #endif #if !DIRECT_DISPATCH #define SWITCH(pc) DUMP_BYTECODE_OR_DONT(pc) switch (opcode = *pc++) #define CASE(op) case op #define DEFAULT default #define BREAK break #else __extension__ static const void * const dispatch_table[256] = { #define DEF(id, size, n_pop, n_push, f) && case_OP_ ## id, #define def(id, size, n_pop, n_push, f) #include "quickjs-opcode.h" [ OP_COUNT ... 255 ] = &&case_default }; #define SWITCH(pc) DUMP_BYTECODE_OR_DONT(pc) __extension__ ({ goto *dispatch_table[opcode = *pc++]; }); #define CASE(op) case_ ## op #define DEFAULT case_default #define BREAK SWITCH(pc) #endif if (js_poll_interrupts(caller_ctx)) return JS_EXCEPTION; if (unlikely(JS_VALUE_GET_TAG(func_obj) != JS_TAG_OBJECT)) { if (flags & JS_CALL_FLAG_GENERATOR) { JSAsyncFunctionState *s = JS_VALUE_GET_PTR(func_obj); /* func_obj get contains a pointer to JSFuncAsyncState */ /* the stack frame is already allocated */ sf = &s->frame; p = JS_VALUE_GET_OBJ(sf->cur_func); b = p->u.func.function_bytecode; ctx = b->realm; var_refs = p->u.func.var_refs; local_buf = arg_buf = sf->arg_buf; var_buf = sf->var_buf; stack_buf = sf->var_buf + b->var_count; sp = sf->cur_sp; sf->cur_sp = NULL; /* cur_sp is NULL if the function is running */ pc = sf->cur_pc; sf->prev_frame = rt->current_stack_frame; rt->current_stack_frame = sf; ic = b->ic; if (s->throw_flag) goto exception; else goto restart; } else { goto not_a_function; } } p = JS_VALUE_GET_OBJ(func_obj); if (unlikely(p->class_id != JS_CLASS_BYTECODE_FUNCTION)) { JSClassCall *call_func; call_func = rt->class_array[p->class_id].call; if (!call_func) { not_a_function: return JS_ThrowTypeError(caller_ctx, "not a function"); } return call_func(caller_ctx, func_obj, this_obj, argc, argv, flags); } b = p->u.func.function_bytecode; if (unlikely(argc < b->arg_count || (flags & JS_CALL_FLAG_COPY_ARGV))) { arg_allocated_size = b->arg_count; } else { arg_allocated_size = 0; } alloca_size = sizeof(JSValue) * (arg_allocated_size + b->var_count + b->stack_size); if (js_check_stack_overflow(rt, alloca_size)) return JS_ThrowStackOverflow(caller_ctx); sf->js_mode = b->js_mode; arg_buf = argv; sf->arg_count = argc; sf->cur_func = func_obj; init_list_head(&sf->var_ref_list); var_refs = p->u.func.var_refs; local_buf = alloca(alloca_size); if (unlikely(arg_allocated_size)) { int n = min_int(argc, b->arg_count); arg_buf = local_buf; for(i = 0; i < n; i++) arg_buf[i] = JS_DupValue(caller_ctx, argv[i]); for(; i < b->arg_count; i++) arg_buf[i] = JS_UNDEFINED; sf->arg_count = b->arg_count; } var_buf = local_buf + arg_allocated_size; sf->var_buf = var_buf; sf->arg_buf = arg_buf; for(i = 0; i < b->var_count; i++) var_buf[i] = JS_UNDEFINED; stack_buf = var_buf + b->var_count; sp = stack_buf; pc = b->byte_code_buf; /* sf->cur_pc must we set to pc before any recursive calls to JS_CallInternal. */ sf->cur_pc = NULL; sf->prev_frame = rt->current_stack_frame; rt->current_stack_frame = sf; ctx = b->realm; /* set the current realm */ ic = b->ic; #ifdef DUMP_BYTECODE_STEP if (check_dump_flag(ctx->rt, DUMP_BYTECODE_STEP)) print_func_name(b); #endif restart: for(;;) { int call_argc; JSValue *call_argv; SWITCH(pc) { CASE(OP_push_i32): *sp++ = js_int32(get_u32(pc)); pc += 4; BREAK; CASE(OP_push_const): *sp++ = js_dup(b->cpool[get_u32(pc)]); pc += 4; BREAK; CASE(OP_push_minus1): CASE(OP_push_0): CASE(OP_push_1): CASE(OP_push_2): CASE(OP_push_3): CASE(OP_push_4): CASE(OP_push_5): CASE(OP_push_6): CASE(OP_push_7): *sp++ = js_int32(opcode - OP_push_0); BREAK; CASE(OP_push_i8): *sp++ = js_int32(get_i8(pc)); pc += 1; BREAK; CASE(OP_push_i16): *sp++ = js_int32(get_i16(pc)); pc += 2; BREAK; CASE(OP_push_const8): *sp++ = js_dup(b->cpool[*pc++]); BREAK; CASE(OP_fclosure8): *sp++ = js_closure(ctx, js_dup(b->cpool[*pc++]), var_refs, sf); if (unlikely(JS_IsException(sp[-1]))) goto exception; BREAK; CASE(OP_push_empty_string): *sp++ = JS_AtomToString(ctx, JS_ATOM_empty_string); BREAK; CASE(OP_get_length): { JSValue val; sf->cur_pc = pc; val = JS_GetProperty(ctx, sp[-1], JS_ATOM_length); if (unlikely(JS_IsException(val))) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = val; } BREAK; CASE(OP_push_atom_value): *sp++ = JS_AtomToValue(ctx, get_u32(pc)); pc += 4; BREAK; CASE(OP_undefined): *sp++ = JS_UNDEFINED; BREAK; CASE(OP_null): *sp++ = JS_NULL; BREAK; CASE(OP_push_this): /* OP_push_this is only called at the start of a function */ { JSValue val; if (!(b->js_mode & JS_MODE_STRICT)) { uint32_t tag = JS_VALUE_GET_TAG(this_obj); if (likely(tag == JS_TAG_OBJECT)) goto normal_this; if (tag == JS_TAG_NULL || tag == JS_TAG_UNDEFINED) { val = js_dup(ctx->global_obj); } else { val = JS_ToObject(ctx, this_obj); if (JS_IsException(val)) goto exception; } } else { normal_this: val = js_dup(this_obj); } *sp++ = val; } BREAK; CASE(OP_push_false): *sp++ = JS_FALSE; BREAK; CASE(OP_push_true): *sp++ = JS_TRUE; BREAK; CASE(OP_object): *sp++ = JS_NewObject(ctx); if (unlikely(JS_IsException(sp[-1]))) goto exception; BREAK; CASE(OP_special_object): { int arg = *pc++; switch(arg) { case OP_SPECIAL_OBJECT_ARGUMENTS: *sp++ = js_build_arguments(ctx, argc, argv); if (unlikely(JS_IsException(sp[-1]))) goto exception; break; case OP_SPECIAL_OBJECT_MAPPED_ARGUMENTS: *sp++ = js_build_mapped_arguments(ctx, argc, argv, sf, min_int(argc, b->arg_count)); if (unlikely(JS_IsException(sp[-1]))) goto exception; break; case OP_SPECIAL_OBJECT_THIS_FUNC: *sp++ = js_dup(sf->cur_func); break; case OP_SPECIAL_OBJECT_NEW_TARGET: *sp++ = js_dup(new_target); break; case OP_SPECIAL_OBJECT_HOME_OBJECT: { JSObject *p1; p1 = p->u.func.home_object; if (unlikely(!p1)) *sp++ = JS_UNDEFINED; else *sp++ = js_dup(JS_MKPTR(JS_TAG_OBJECT, p1)); } break; case OP_SPECIAL_OBJECT_VAR_OBJECT: *sp++ = JS_NewObjectProto(ctx, JS_NULL); if (unlikely(JS_IsException(sp[-1]))) goto exception; break; case OP_SPECIAL_OBJECT_IMPORT_META: *sp++ = js_import_meta(ctx); if (unlikely(JS_IsException(sp[-1]))) goto exception; break; default: abort(); } } BREAK; CASE(OP_rest): { int first = get_u16(pc); pc += 2; *sp++ = js_build_rest(ctx, first, argc, argv); if (unlikely(JS_IsException(sp[-1]))) goto exception; } BREAK; CASE(OP_drop): JS_FreeValue(ctx, sp[-1]); sp--; BREAK; CASE(OP_nip): JS_FreeValue(ctx, sp[-2]); sp[-2] = sp[-1]; sp--; BREAK; CASE(OP_nip1): /* a b c -> b c */ JS_FreeValue(ctx, sp[-3]); sp[-3] = sp[-2]; sp[-2] = sp[-1]; sp--; BREAK; CASE(OP_dup): sp[0] = js_dup(sp[-1]); sp++; BREAK; CASE(OP_dup2): /* a b -> a b a b */ sp[0] = js_dup(sp[-2]); sp[1] = js_dup(sp[-1]); sp += 2; BREAK; CASE(OP_dup3): /* a b c -> a b c a b c */ sp[0] = js_dup(sp[-3]); sp[1] = js_dup(sp[-2]); sp[2] = js_dup(sp[-1]); sp += 3; BREAK; CASE(OP_dup1): /* a b -> a a b */ sp[0] = sp[-1]; sp[-1] = js_dup(sp[-2]); sp++; BREAK; CASE(OP_insert2): /* obj a -> a obj a (dup_x1) */ sp[0] = sp[-1]; sp[-1] = sp[-2]; sp[-2] = js_dup(sp[0]); sp++; BREAK; CASE(OP_insert3): /* obj prop a -> a obj prop a (dup_x2) */ sp[0] = sp[-1]; sp[-1] = sp[-2]; sp[-2] = sp[-3]; sp[-3] = js_dup(sp[0]); sp++; BREAK; CASE(OP_insert4): /* this obj prop a -> a this obj prop a */ sp[0] = sp[-1]; sp[-1] = sp[-2]; sp[-2] = sp[-3]; sp[-3] = sp[-4]; sp[-4] = js_dup(sp[0]); sp++; BREAK; CASE(OP_perm3): /* obj a b -> a obj b (213) */ { JSValue tmp; tmp = sp[-2]; sp[-2] = sp[-3]; sp[-3] = tmp; } BREAK; CASE(OP_rot3l): /* x a b -> a b x (231) */ { JSValue tmp; tmp = sp[-3]; sp[-3] = sp[-2]; sp[-2] = sp[-1]; sp[-1] = tmp; } BREAK; CASE(OP_rot4l): /* x a b c -> a b c x */ { JSValue tmp; tmp = sp[-4]; sp[-4] = sp[-3]; sp[-3] = sp[-2]; sp[-2] = sp[-1]; sp[-1] = tmp; } BREAK; CASE(OP_rot5l): /* x a b c d -> a b c d x */ { JSValue tmp; tmp = sp[-5]; sp[-5] = sp[-4]; sp[-4] = sp[-3]; sp[-3] = sp[-2]; sp[-2] = sp[-1]; sp[-1] = tmp; } BREAK; CASE(OP_rot3r): /* a b x -> x a b (312) */ { JSValue tmp; tmp = sp[-1]; sp[-1] = sp[-2]; sp[-2] = sp[-3]; sp[-3] = tmp; } BREAK; CASE(OP_perm4): /* obj prop a b -> a obj prop b */ { JSValue tmp; tmp = sp[-2]; sp[-2] = sp[-3]; sp[-3] = sp[-4]; sp[-4] = tmp; } BREAK; CASE(OP_perm5): /* this obj prop a b -> a this obj prop b */ { JSValue tmp; tmp = sp[-2]; sp[-2] = sp[-3]; sp[-3] = sp[-4]; sp[-4] = sp[-5]; sp[-5] = tmp; } BREAK; CASE(OP_swap): /* a b -> b a */ { JSValue tmp; tmp = sp[-2]; sp[-2] = sp[-1]; sp[-1] = tmp; } BREAK; CASE(OP_swap2): /* a b c d -> c d a b */ { JSValue tmp1, tmp2; tmp1 = sp[-4]; tmp2 = sp[-3]; sp[-4] = sp[-2]; sp[-3] = sp[-1]; sp[-2] = tmp1; sp[-1] = tmp2; } BREAK; CASE(OP_fclosure): { JSValue bfunc = js_dup(b->cpool[get_u32(pc)]); pc += 4; *sp++ = js_closure(ctx, bfunc, var_refs, sf); if (unlikely(JS_IsException(sp[-1]))) goto exception; } BREAK; CASE(OP_call0): CASE(OP_call1): CASE(OP_call2): CASE(OP_call3): call_argc = opcode - OP_call0; goto has_call_argc; CASE(OP_call): CASE(OP_tail_call): { call_argc = get_u16(pc); pc += 2; goto has_call_argc; has_call_argc: call_argv = sp - call_argc; sf->cur_pc = pc; ret_val = JS_CallInternal(ctx, call_argv[-1], JS_UNDEFINED, JS_UNDEFINED, call_argc, call_argv, 0); if (unlikely(JS_IsException(ret_val))) goto exception; if (opcode == OP_tail_call) goto done; for(i = -1; i < call_argc; i++) JS_FreeValue(ctx, call_argv[i]); sp -= call_argc + 1; *sp++ = ret_val; } BREAK; CASE(OP_call_constructor): { call_argc = get_u16(pc); pc += 2; call_argv = sp - call_argc; sf->cur_pc = pc; ret_val = JS_CallConstructorInternal(ctx, call_argv[-2], call_argv[-1], call_argc, call_argv, 0); if (unlikely(JS_IsException(ret_val))) goto exception; for(i = -2; i < call_argc; i++) JS_FreeValue(ctx, call_argv[i]); sp -= call_argc + 2; *sp++ = ret_val; } BREAK; CASE(OP_call_method): CASE(OP_tail_call_method): { call_argc = get_u16(pc); pc += 2; call_argv = sp - call_argc; sf->cur_pc = pc; ret_val = JS_CallInternal(ctx, call_argv[-1], call_argv[-2], JS_UNDEFINED, call_argc, call_argv, 0); if (unlikely(JS_IsException(ret_val))) goto exception; if (opcode == OP_tail_call_method) goto done; for(i = -2; i < call_argc; i++) JS_FreeValue(ctx, call_argv[i]); sp -= call_argc + 2; *sp++ = ret_val; } BREAK; CASE(OP_array_from): { int i, ret; call_argc = get_u16(pc); pc += 2; ret_val = JS_NewArray(ctx); if (unlikely(JS_IsException(ret_val))) goto exception; call_argv = sp - call_argc; for(i = 0; i < call_argc; i++) { ret = JS_DefinePropertyValue(ctx, ret_val, __JS_AtomFromUInt32(i), call_argv[i], JS_PROP_C_W_E | JS_PROP_THROW); call_argv[i] = JS_UNDEFINED; if (ret < 0) { JS_FreeValue(ctx, ret_val); goto exception; } } sp -= call_argc; *sp++ = ret_val; } BREAK; CASE(OP_apply): { int magic; magic = get_u16(pc); pc += 2; sf->cur_pc = pc; ret_val = js_function_apply(ctx, sp[-3], 2, &sp[-2], magic); if (unlikely(JS_IsException(ret_val))) goto exception; JS_FreeValue(ctx, sp[-3]); JS_FreeValue(ctx, sp[-2]); JS_FreeValue(ctx, sp[-1]); sp -= 3; *sp++ = ret_val; } BREAK; CASE(OP_return): ret_val = *--sp; goto done; CASE(OP_return_undef): ret_val = JS_UNDEFINED; goto done; CASE(OP_check_ctor_return): /* return TRUE if 'this' should be returned */ if (!JS_IsObject(sp[-1])) { if (!JS_IsUndefined(sp[-1])) { JS_ThrowTypeError(caller_ctx, "derived class constructor must return an object or undefined"); goto exception; } sp[0] = JS_TRUE; } else { sp[0] = JS_FALSE; } sp++; BREAK; CASE(OP_check_ctor): if (JS_IsUndefined(new_target)) { JS_ThrowTypeError(ctx, "class constructors must be invoked with 'new'"); goto exception; } BREAK; CASE(OP_check_brand): { int ret = JS_CheckBrand(ctx, sp[-2], sp[-1]); if (ret < 0) goto exception; if (!ret) { JS_ThrowTypeError(ctx, "invalid brand on object"); goto exception; } } BREAK; CASE(OP_add_brand): if (JS_AddBrand(ctx, sp[-2], sp[-1]) < 0) goto exception; JS_FreeValue(ctx, sp[-2]); JS_FreeValue(ctx, sp[-1]); sp -= 2; BREAK; CASE(OP_throw): JS_Throw(ctx, *--sp); goto exception; CASE(OP_throw_error): #define JS_THROW_VAR_RO 0 #define JS_THROW_VAR_REDECL 1 #define JS_THROW_VAR_UNINITIALIZED 2 #define JS_THROW_ERROR_DELETE_SUPER 3 #define JS_THROW_ERROR_ITERATOR_THROW 4 { JSAtom atom; int type; atom = get_u32(pc); type = pc[4]; pc += 5; if (type == JS_THROW_VAR_RO) JS_ThrowTypeErrorReadOnly(ctx, JS_PROP_THROW, atom); else if (type == JS_THROW_VAR_REDECL) JS_ThrowSyntaxErrorVarRedeclaration(ctx, atom); else if (type == JS_THROW_VAR_UNINITIALIZED) JS_ThrowReferenceErrorUninitialized(ctx, atom); else if (type == JS_THROW_ERROR_DELETE_SUPER) JS_ThrowReferenceError(ctx, "unsupported reference to 'super'"); else if (type == JS_THROW_ERROR_ITERATOR_THROW) JS_ThrowTypeError(ctx, "iterator does not have a throw method"); else JS_ThrowInternalError(ctx, "invalid throw var type %d", type); } goto exception; CASE(OP_eval): { JSValue obj; int scope_idx; call_argc = get_u16(pc); scope_idx = get_u16(pc + 2) - 1; pc += 4; call_argv = sp - call_argc; sf->cur_pc = pc; if (js_same_value(ctx, call_argv[-1], ctx->eval_obj)) { if (call_argc >= 1) obj = call_argv[0]; else obj = JS_UNDEFINED; ret_val = JS_EvalObject(ctx, JS_UNDEFINED, obj, JS_EVAL_TYPE_DIRECT, scope_idx); } else { ret_val = JS_CallInternal(ctx, call_argv[-1], JS_UNDEFINED, JS_UNDEFINED, call_argc, call_argv, 0); } if (unlikely(JS_IsException(ret_val))) goto exception; for(i = -1; i < call_argc; i++) JS_FreeValue(ctx, call_argv[i]); sp -= call_argc + 1; *sp++ = ret_val; } BREAK; /* could merge with OP_apply */ CASE(OP_apply_eval): { int scope_idx; uint32_t len; JSValue *tab; JSValue obj; scope_idx = get_u16(pc) - 1; pc += 2; sf->cur_pc = pc; tab = build_arg_list(ctx, &len, sp[-1]); if (!tab) goto exception; if (js_same_value(ctx, sp[-2], ctx->eval_obj)) { if (len >= 1) obj = tab[0]; else obj = JS_UNDEFINED; ret_val = JS_EvalObject(ctx, JS_UNDEFINED, obj, JS_EVAL_TYPE_DIRECT, scope_idx); } else { ret_val = JS_Call(ctx, sp[-2], JS_UNDEFINED, len, tab); } free_arg_list(ctx, tab, len); if (unlikely(JS_IsException(ret_val))) goto exception; JS_FreeValue(ctx, sp[-2]); JS_FreeValue(ctx, sp[-1]); sp -= 2; *sp++ = ret_val; } BREAK; CASE(OP_regexp): { sp[-2] = js_regexp_constructor_internal(ctx, JS_UNDEFINED, sp[-2], sp[-1]); sp--; } BREAK; CASE(OP_get_super): { JSValue proto; proto = JS_GetPrototype(ctx, sp[-1]); if (JS_IsException(proto)) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = proto; } BREAK; CASE(OP_import): { JSValue val; sf->cur_pc = pc; val = js_dynamic_import(ctx, sp[-1]); if (JS_IsException(val)) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = val; } BREAK; CASE(OP_check_var): { int ret; JSAtom atom; atom = get_u32(pc); pc += 4; ret = JS_CheckGlobalVar(ctx, atom); if (ret < 0) goto exception; *sp++ = js_bool(ret); } BREAK; CASE(OP_get_var_undef): CASE(OP_get_var): { JSValue val; JSAtom atom; atom = get_u32(pc); pc += 4; sf->cur_pc = pc; val = JS_GetGlobalVar(ctx, atom, opcode - OP_get_var_undef); if (unlikely(JS_IsException(val))) goto exception; *sp++ = val; } BREAK; CASE(OP_put_var): CASE(OP_put_var_init): { int ret; JSAtom atom; atom = get_u32(pc); pc += 4; sf->cur_pc = pc; ret = JS_SetGlobalVar(ctx, atom, sp[-1], opcode - OP_put_var); sp--; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_put_var_strict): { int ret; JSAtom atom; atom = get_u32(pc); pc += 4; sf->cur_pc = pc; /* sp[-2] is JS_TRUE or JS_FALSE */ if (unlikely(!JS_VALUE_GET_INT(sp[-2]))) { JS_ThrowReferenceErrorNotDefined(ctx, atom); goto exception; } ret = JS_SetGlobalVar(ctx, atom, sp[-1], 2); sp -= 2; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_check_define_var): { JSAtom atom; int flags; atom = get_u32(pc); flags = pc[4]; pc += 5; if (JS_CheckDefineGlobalVar(ctx, atom, flags)) goto exception; } BREAK; CASE(OP_define_var): { JSAtom atom; int flags; atom = get_u32(pc); flags = pc[4]; pc += 5; if (JS_DefineGlobalVar(ctx, atom, flags)) goto exception; } BREAK; CASE(OP_define_func): { JSAtom atom; int flags; atom = get_u32(pc); flags = pc[4]; pc += 5; if (JS_DefineGlobalFunction(ctx, atom, sp[-1], flags)) goto exception; JS_FreeValue(ctx, sp[-1]); sp--; } BREAK; CASE(OP_get_loc): { int idx; idx = get_u16(pc); pc += 2; sp[0] = js_dup(var_buf[idx]); sp++; } BREAK; CASE(OP_put_loc): { int idx; idx = get_u16(pc); pc += 2; set_value(ctx, &var_buf[idx], sp[-1]); sp--; } BREAK; CASE(OP_set_loc): { int idx; idx = get_u16(pc); pc += 2; set_value(ctx, &var_buf[idx], js_dup(sp[-1])); } BREAK; CASE(OP_get_arg): { int idx; idx = get_u16(pc); pc += 2; sp[0] = js_dup(arg_buf[idx]); sp++; } BREAK; CASE(OP_put_arg): { int idx; idx = get_u16(pc); pc += 2; set_value(ctx, &arg_buf[idx], sp[-1]); sp--; } BREAK; CASE(OP_set_arg): { int idx; idx = get_u16(pc); pc += 2; set_value(ctx, &arg_buf[idx], js_dup(sp[-1])); } BREAK; CASE(OP_get_loc8): *sp++ = js_dup(var_buf[*pc++]); BREAK; CASE(OP_put_loc8): set_value(ctx, &var_buf[*pc++], *--sp); BREAK; CASE(OP_set_loc8): set_value(ctx, &var_buf[*pc++], js_dup(sp[-1])); BREAK; // Observation: get_loc0 and get_loc1 are individually very // frequent opcodes _and_ they are very often paired together, // making them ideal candidates for opcode fusion. CASE(OP_get_loc0_loc1): *sp++ = js_dup(var_buf[0]); *sp++ = js_dup(var_buf[1]); BREAK; CASE(OP_get_loc0): *sp++ = js_dup(var_buf[0]); BREAK; CASE(OP_get_loc1): *sp++ = js_dup(var_buf[1]); BREAK; CASE(OP_get_loc2): *sp++ = js_dup(var_buf[2]); BREAK; CASE(OP_get_loc3): *sp++ = js_dup(var_buf[3]); BREAK; CASE(OP_put_loc0): set_value(ctx, &var_buf[0], *--sp); BREAK; CASE(OP_put_loc1): set_value(ctx, &var_buf[1], *--sp); BREAK; CASE(OP_put_loc2): set_value(ctx, &var_buf[2], *--sp); BREAK; CASE(OP_put_loc3): set_value(ctx, &var_buf[3], *--sp); BREAK; CASE(OP_set_loc0): set_value(ctx, &var_buf[0], js_dup(sp[-1])); BREAK; CASE(OP_set_loc1): set_value(ctx, &var_buf[1], js_dup(sp[-1])); BREAK; CASE(OP_set_loc2): set_value(ctx, &var_buf[2], js_dup(sp[-1])); BREAK; CASE(OP_set_loc3): set_value(ctx, &var_buf[3], js_dup(sp[-1])); BREAK; CASE(OP_get_arg0): *sp++ = js_dup(arg_buf[0]); BREAK; CASE(OP_get_arg1): *sp++ = js_dup(arg_buf[1]); BREAK; CASE(OP_get_arg2): *sp++ = js_dup(arg_buf[2]); BREAK; CASE(OP_get_arg3): *sp++ = js_dup(arg_buf[3]); BREAK; CASE(OP_put_arg0): set_value(ctx, &arg_buf[0], *--sp); BREAK; CASE(OP_put_arg1): set_value(ctx, &arg_buf[1], *--sp); BREAK; CASE(OP_put_arg2): set_value(ctx, &arg_buf[2], *--sp); BREAK; CASE(OP_put_arg3): set_value(ctx, &arg_buf[3], *--sp); BREAK; CASE(OP_set_arg0): set_value(ctx, &arg_buf[0], js_dup(sp[-1])); BREAK; CASE(OP_set_arg1): set_value(ctx, &arg_buf[1], js_dup(sp[-1])); BREAK; CASE(OP_set_arg2): set_value(ctx, &arg_buf[2], js_dup(sp[-1])); BREAK; CASE(OP_set_arg3): set_value(ctx, &arg_buf[3], js_dup(sp[-1])); BREAK; CASE(OP_get_var_ref0): *sp++ = js_dup(*var_refs[0]->pvalue); BREAK; CASE(OP_get_var_ref1): *sp++ = js_dup(*var_refs[1]->pvalue); BREAK; CASE(OP_get_var_ref2): *sp++ = js_dup(*var_refs[2]->pvalue); BREAK; CASE(OP_get_var_ref3): *sp++ = js_dup(*var_refs[3]->pvalue); BREAK; CASE(OP_put_var_ref0): set_value(ctx, var_refs[0]->pvalue, *--sp); BREAK; CASE(OP_put_var_ref1): set_value(ctx, var_refs[1]->pvalue, *--sp); BREAK; CASE(OP_put_var_ref2): set_value(ctx, var_refs[2]->pvalue, *--sp); BREAK; CASE(OP_put_var_ref3): set_value(ctx, var_refs[3]->pvalue, *--sp); BREAK; CASE(OP_set_var_ref0): set_value(ctx, var_refs[0]->pvalue, js_dup(sp[-1])); BREAK; CASE(OP_set_var_ref1): set_value(ctx, var_refs[1]->pvalue, js_dup(sp[-1])); BREAK; CASE(OP_set_var_ref2): set_value(ctx, var_refs[2]->pvalue, js_dup(sp[-1])); BREAK; CASE(OP_set_var_ref3): set_value(ctx, var_refs[3]->pvalue, js_dup(sp[-1])); BREAK; CASE(OP_get_var_ref): { int idx; JSValue val; idx = get_u16(pc); pc += 2; val = *var_refs[idx]->pvalue; sp[0] = js_dup(val); sp++; } BREAK; CASE(OP_put_var_ref): { int idx; idx = get_u16(pc); pc += 2; set_value(ctx, var_refs[idx]->pvalue, sp[-1]); sp--; } BREAK; CASE(OP_set_var_ref): { int idx; idx = get_u16(pc); pc += 2; set_value(ctx, var_refs[idx]->pvalue, js_dup(sp[-1])); } BREAK; CASE(OP_get_var_ref_check): { int idx; JSValue val; idx = get_u16(pc); pc += 2; val = *var_refs[idx]->pvalue; if (unlikely(JS_IsUninitialized(val))) { JS_ThrowReferenceErrorUninitialized2(ctx, b, idx, TRUE); goto exception; } sp[0] = js_dup(val); sp++; } BREAK; CASE(OP_put_var_ref_check): { int idx; idx = get_u16(pc); pc += 2; if (unlikely(JS_IsUninitialized(*var_refs[idx]->pvalue))) { JS_ThrowReferenceErrorUninitialized2(ctx, b, idx, TRUE); goto exception; } set_value(ctx, var_refs[idx]->pvalue, sp[-1]); sp--; } BREAK; CASE(OP_put_var_ref_check_init): { int idx; idx = get_u16(pc); pc += 2; if (unlikely(!JS_IsUninitialized(*var_refs[idx]->pvalue))) { JS_ThrowReferenceErrorUninitialized2(ctx, b, idx, TRUE); goto exception; } set_value(ctx, var_refs[idx]->pvalue, sp[-1]); sp--; } BREAK; CASE(OP_set_loc_uninitialized): { int idx; idx = get_u16(pc); pc += 2; set_value(ctx, &var_buf[idx], JS_UNINITIALIZED); } BREAK; CASE(OP_get_loc_check): { int idx; idx = get_u16(pc); pc += 2; if (unlikely(JS_IsUninitialized(var_buf[idx]))) { JS_ThrowReferenceErrorUninitialized2(caller_ctx, b, idx, FALSE); goto exception; } sp[0] = js_dup(var_buf[idx]); sp++; } BREAK; CASE(OP_put_loc_check): { int idx; idx = get_u16(pc); pc += 2; if (unlikely(JS_IsUninitialized(var_buf[idx]))) { JS_ThrowReferenceErrorUninitialized2(caller_ctx, b, idx, FALSE); goto exception; } set_value(ctx, &var_buf[idx], sp[-1]); sp--; } BREAK; CASE(OP_put_loc_check_init): { int idx; idx = get_u16(pc); pc += 2; if (unlikely(!JS_IsUninitialized(var_buf[idx]))) { JS_ThrowReferenceError(caller_ctx, "'this' can be initialized only once"); goto exception; } set_value(ctx, &var_buf[idx], sp[-1]); sp--; } BREAK; CASE(OP_close_loc): { int idx; idx = get_u16(pc); pc += 2; close_lexical_var(ctx, sf, idx, FALSE); } BREAK; CASE(OP_make_loc_ref): CASE(OP_make_arg_ref): CASE(OP_make_var_ref_ref): { JSVarRef *var_ref; JSProperty *pr; JSAtom atom; int idx; atom = get_u32(pc); idx = get_u16(pc + 4); pc += 6; *sp++ = JS_NewObjectProto(ctx, JS_NULL); if (unlikely(JS_IsException(sp[-1]))) goto exception; if (opcode == OP_make_var_ref_ref) { var_ref = var_refs[idx]; var_ref->header.ref_count++; } else { var_ref = get_var_ref(ctx, sf, idx, opcode == OP_make_arg_ref); if (!var_ref) goto exception; } pr = add_property(ctx, JS_VALUE_GET_OBJ(sp[-1]), atom, JS_PROP_WRITABLE | JS_PROP_VARREF); if (!pr) { free_var_ref(rt, var_ref); goto exception; } pr->u.var_ref = var_ref; *sp++ = JS_AtomToValue(ctx, atom); } BREAK; CASE(OP_make_var_ref): { JSAtom atom; atom = get_u32(pc); pc += 4; if (JS_GetGlobalVarRef(ctx, atom, sp)) goto exception; sp += 2; } BREAK; CASE(OP_goto): pc += (int32_t)get_u32(pc); if (unlikely(js_poll_interrupts(ctx))) goto exception; BREAK; CASE(OP_goto16): pc += (int16_t)get_u16(pc); if (unlikely(js_poll_interrupts(ctx))) goto exception; BREAK; CASE(OP_goto8): pc += (int8_t)pc[0]; if (unlikely(js_poll_interrupts(ctx))) goto exception; BREAK; CASE(OP_if_true): { int res; JSValue op1; op1 = sp[-1]; pc += 4; if ((uint32_t)JS_VALUE_GET_TAG(op1) <= JS_TAG_UNDEFINED) { res = JS_VALUE_GET_INT(op1); } else { res = JS_ToBoolFree(ctx, op1); } sp--; if (res) { pc += (int32_t)get_u32(pc - 4) - 4; } if (unlikely(js_poll_interrupts(ctx))) goto exception; } BREAK; CASE(OP_if_false): { int res; JSValue op1; op1 = sp[-1]; pc += 4; if ((uint32_t)JS_VALUE_GET_TAG(op1) <= JS_TAG_UNDEFINED) { res = JS_VALUE_GET_INT(op1); } else { res = JS_ToBoolFree(ctx, op1); } sp--; if (!res) { pc += (int32_t)get_u32(pc - 4) - 4; } if (unlikely(js_poll_interrupts(ctx))) goto exception; } BREAK; CASE(OP_if_true8): { int res; JSValue op1; op1 = sp[-1]; pc += 1; if ((uint32_t)JS_VALUE_GET_TAG(op1) <= JS_TAG_UNDEFINED) { res = JS_VALUE_GET_INT(op1); } else { res = JS_ToBoolFree(ctx, op1); } sp--; if (res) { pc += (int8_t)pc[-1] - 1; } if (unlikely(js_poll_interrupts(ctx))) goto exception; } BREAK; CASE(OP_if_false8): { int res; JSValue op1; op1 = sp[-1]; pc += 1; if ((uint32_t)JS_VALUE_GET_TAG(op1) <= JS_TAG_UNDEFINED) { res = JS_VALUE_GET_INT(op1); } else { res = JS_ToBoolFree(ctx, op1); } sp--; if (!res) { pc += (int8_t)pc[-1] - 1; } if (unlikely(js_poll_interrupts(ctx))) goto exception; } BREAK; CASE(OP_catch): { int32_t diff; diff = get_u32(pc); sp[0] = JS_NewCatchOffset(ctx, pc + diff - b->byte_code_buf); sp++; pc += 4; } BREAK; CASE(OP_gosub): { int32_t diff; diff = get_u32(pc); /* XXX: should have a different tag to avoid security flaw */ sp[0] = js_int32(pc + 4 - b->byte_code_buf); sp++; pc += diff; } BREAK; CASE(OP_ret): { JSValue op1; uint32_t pos; op1 = sp[-1]; if (unlikely(JS_VALUE_GET_TAG(op1) != JS_TAG_INT)) goto ret_fail; pos = JS_VALUE_GET_INT(op1); if (unlikely(pos >= b->byte_code_len)) { ret_fail: JS_ThrowInternalError(ctx, "invalid ret value"); goto exception; } sp--; pc = b->byte_code_buf + pos; } BREAK; CASE(OP_for_in_start): sf->cur_pc = pc; if (js_for_in_start(ctx, sp)) goto exception; BREAK; CASE(OP_for_in_next): sf->cur_pc = pc; if (js_for_in_next(ctx, sp)) goto exception; sp += 2; BREAK; CASE(OP_for_of_start): sf->cur_pc = pc; if (js_for_of_start(ctx, sp, FALSE)) goto exception; sp += 1; *sp++ = JS_NewCatchOffset(ctx, 0); BREAK; CASE(OP_for_of_next): { int offset = -3 - pc[0]; pc += 1; sf->cur_pc = pc; if (js_for_of_next(ctx, sp, offset)) goto exception; sp += 2; } BREAK; CASE(OP_for_await_of_start): sf->cur_pc = pc; if (js_for_of_start(ctx, sp, TRUE)) goto exception; sp += 1; *sp++ = JS_NewCatchOffset(ctx, 0); BREAK; CASE(OP_iterator_get_value_done): sf->cur_pc = pc; if (js_iterator_get_value_done(ctx, sp)) goto exception; sp += 1; BREAK; CASE(OP_iterator_check_object): if (unlikely(!JS_IsObject(sp[-1]))) { JS_ThrowTypeError(ctx, "iterator must return an object"); goto exception; } BREAK; CASE(OP_iterator_close): /* iter_obj next catch_offset -> */ sp--; /* drop the catch offset to avoid getting caught by exception */ JS_FreeValue(ctx, sp[-1]); /* drop the next method */ sp--; if (!JS_IsUndefined(sp[-1])) { sf->cur_pc = pc; if (JS_IteratorClose(ctx, sp[-1], FALSE)) goto exception; JS_FreeValue(ctx, sp[-1]); } sp--; BREAK; CASE(OP_nip_catch): { JSValue ret_val; /* catch_offset ... ret_val -> ret_eval */ ret_val = *--sp; while (sp > stack_buf && JS_VALUE_GET_TAG(sp[-1]) != JS_TAG_CATCH_OFFSET) { JS_FreeValue(ctx, *--sp); } if (unlikely(sp == stack_buf)) { JS_ThrowInternalError(ctx, "nip_catch"); JS_FreeValue(ctx, ret_val); goto exception; } sp[-1] = ret_val; } BREAK; CASE(OP_iterator_next): /* stack: iter_obj next catch_offset val */ { JSValue ret; sf->cur_pc = pc; ret = JS_Call(ctx, sp[-3], sp[-4], 1, (sp - 1)); if (JS_IsException(ret)) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = ret; } BREAK; CASE(OP_iterator_call): /* stack: iter_obj next catch_offset val */ { JSValue method, ret; BOOL ret_flag; int flags; flags = *pc++; sf->cur_pc = pc; method = JS_GetProperty(ctx, sp[-4], (flags & 1) ? JS_ATOM_throw : JS_ATOM_return); if (JS_IsException(method)) goto exception; if (JS_IsUndefined(method) || JS_IsNull(method)) { ret_flag = TRUE; } else { if (flags & 2) { /* no argument */ ret = JS_CallFree(ctx, method, sp[-4], 0, NULL); } else { ret = JS_CallFree(ctx, method, sp[-4], 1, (sp - 1)); } if (JS_IsException(ret)) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = ret; ret_flag = FALSE; } sp[0] = js_bool(ret_flag); sp += 1; } BREAK; CASE(OP_lnot): { int res; JSValue op1; op1 = sp[-1]; if ((uint32_t)JS_VALUE_GET_TAG(op1) <= JS_TAG_UNDEFINED) { res = JS_VALUE_GET_INT(op1) != 0; } else { res = JS_ToBoolFree(ctx, op1); } sp[-1] = js_bool(!res); } BREAK; CASE(OP_get_field): { JSValue val; JSAtom atom; atom = get_u32(pc); pc += 4; sf->cur_pc = pc; val = JS_GetPropertyInternal2(ctx, sp[-1], atom, sp[-1], ic, FALSE); if (unlikely(JS_IsException(val))) goto exception; if (ic && ic->updated == TRUE) { ic->updated = FALSE; put_u8(pc - 5, OP_get_field_ic); put_u32(pc - 4, ic->updated_offset); JS_FreeAtom(ctx, atom); } JS_FreeValue(ctx, sp[-1]); sp[-1] = val; } BREAK; CASE(OP_get_field_ic): { JSValue val; JSAtom atom; int32_t ic_offset; ic_offset = get_u32(pc); atom = get_ic_atom(ic, ic_offset); pc += 4; sf->cur_pc = pc; val = JS_GetPropertyInternalWithIC(ctx, sp[-1], atom, sp[-1], ic, ic_offset, FALSE); ic->updated = FALSE; if (unlikely(JS_IsException(val))) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = val; } BREAK; CASE(OP_get_field2): { JSValue val; JSAtom atom; atom = get_u32(pc); pc += 4; sf->cur_pc = pc; val = JS_GetPropertyInternal2(ctx, sp[-1], atom, sp[-1], NULL, FALSE); if (unlikely(JS_IsException(val))) goto exception; if (ic != NULL && ic->updated == TRUE) { ic->updated = FALSE; put_u8(pc - 5, OP_get_field2_ic); put_u32(pc - 4, ic->updated_offset); JS_FreeAtom(ctx, atom); } *sp++ = val; } BREAK; CASE(OP_get_field2_ic): { JSValue val; JSAtom atom; int32_t ic_offset; ic_offset = get_u32(pc); atom = get_ic_atom(ic, ic_offset); pc += 4; sf->cur_pc = pc; val = JS_GetPropertyInternalWithIC(ctx, sp[-1], atom, sp[-1], ic, ic_offset, FALSE); ic->updated = FALSE; if (unlikely(JS_IsException(val))) goto exception; *sp++ = val; } BREAK; CASE(OP_put_field): { int ret; JSAtom atom; atom = get_u32(pc); pc += 4; sf->cur_pc = pc; ret = JS_SetPropertyInternal2(ctx, sp[-2], atom, sp[-1], sp[-2], JS_PROP_THROW_STRICT, ic); JS_FreeValue(ctx, sp[-2]); sp -= 2; if (unlikely(ret < 0)) goto exception; if (ic != NULL && ic->updated == TRUE) { ic->updated = FALSE; put_u8(pc - 5, OP_put_field_ic); put_u32(pc - 4, ic->updated_offset); JS_FreeAtom(ctx, atom); } } BREAK; CASE(OP_put_field_ic): { int ret; JSAtom atom; int32_t ic_offset; ic_offset = get_u32(pc); atom = get_ic_atom(ic, ic_offset); pc += 4; sf->cur_pc = pc; ret = JS_SetPropertyInternalWithIC(ctx, sp[-2], atom, sp[-1], JS_PROP_THROW_STRICT, ic, ic_offset); ic->updated = FALSE; JS_FreeValue(ctx, sp[-2]); sp -= 2; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_private_symbol): { JSAtom atom; JSValue val; atom = get_u32(pc); pc += 4; val = JS_NewSymbolFromAtom(ctx, atom, JS_ATOM_TYPE_PRIVATE); if (JS_IsException(val)) goto exception; *sp++ = val; } BREAK; CASE(OP_get_private_field): { JSValue val; sf->cur_pc = pc; val = JS_GetPrivateField(ctx, sp[-2], sp[-1]); JS_FreeValue(ctx, sp[-1]); JS_FreeValue(ctx, sp[-2]); sp[-2] = val; sp--; if (unlikely(JS_IsException(val))) goto exception; } BREAK; CASE(OP_put_private_field): { int ret; sf->cur_pc = pc; ret = JS_SetPrivateField(ctx, sp[-3], sp[-1], sp[-2]); JS_FreeValue(ctx, sp[-3]); JS_FreeValue(ctx, sp[-1]); sp -= 3; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_define_private_field): { int ret; ret = JS_DefinePrivateField(ctx, sp[-3], sp[-2], sp[-1]); JS_FreeValue(ctx, sp[-2]); sp -= 2; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_define_field): { int ret; JSAtom atom; atom = get_u32(pc); pc += 4; ret = JS_DefinePropertyValue(ctx, sp[-2], atom, sp[-1], JS_PROP_C_W_E | JS_PROP_THROW); sp--; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_set_name): { int ret; JSAtom atom; atom = get_u32(pc); pc += 4; ret = JS_DefineObjectName(ctx, sp[-1], atom, JS_PROP_CONFIGURABLE); if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_set_name_computed): { int ret; ret = JS_DefineObjectNameComputed(ctx, sp[-1], sp[-2], JS_PROP_CONFIGURABLE); if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_set_proto): { JSValue proto; proto = sp[-1]; if (JS_IsObject(proto) || JS_IsNull(proto)) { if (JS_SetPrototypeInternal(ctx, sp[-2], proto, TRUE) < 0) goto exception; } JS_FreeValue(ctx, proto); sp--; } BREAK; CASE(OP_set_home_object): js_method_set_home_object(ctx, sp[-1], sp[-2]); BREAK; CASE(OP_define_method): CASE(OP_define_method_computed): { JSValue getter, setter, value; JSValue obj; JSAtom atom; int flags, ret, op_flags; BOOL is_computed; #define OP_DEFINE_METHOD_METHOD 0 #define OP_DEFINE_METHOD_GETTER 1 #define OP_DEFINE_METHOD_SETTER 2 #define OP_DEFINE_METHOD_ENUMERABLE 4 is_computed = (opcode == OP_define_method_computed); if (is_computed) { atom = JS_ValueToAtom(ctx, sp[-2]); if (unlikely(atom == JS_ATOM_NULL)) goto exception; opcode += OP_define_method - OP_define_method_computed; } else { atom = get_u32(pc); pc += 4; } op_flags = *pc++; obj = sp[-2 - is_computed]; flags = JS_PROP_HAS_CONFIGURABLE | JS_PROP_CONFIGURABLE | JS_PROP_HAS_ENUMERABLE | JS_PROP_THROW; if (op_flags & OP_DEFINE_METHOD_ENUMERABLE) flags |= JS_PROP_ENUMERABLE; op_flags &= 3; value = JS_UNDEFINED; getter = JS_UNDEFINED; setter = JS_UNDEFINED; if (op_flags == OP_DEFINE_METHOD_METHOD) { value = sp[-1]; flags |= JS_PROP_HAS_VALUE | JS_PROP_HAS_WRITABLE | JS_PROP_WRITABLE; } else if (op_flags == OP_DEFINE_METHOD_GETTER) { getter = sp[-1]; flags |= JS_PROP_HAS_GET; } else { setter = sp[-1]; flags |= JS_PROP_HAS_SET; } ret = js_method_set_properties(ctx, sp[-1], atom, flags, obj); if (ret >= 0) { ret = JS_DefineProperty(ctx, obj, atom, value, getter, setter, flags); } JS_FreeValue(ctx, sp[-1]); if (is_computed) { JS_FreeAtom(ctx, atom); JS_FreeValue(ctx, sp[-2]); } sp -= 1 + is_computed; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_define_class): CASE(OP_define_class_computed): { int class_flags; JSAtom atom; atom = get_u32(pc); class_flags = pc[4]; pc += 5; if (js_op_define_class(ctx, sp, atom, class_flags, var_refs, sf, (opcode == OP_define_class_computed)) < 0) goto exception; } BREAK; CASE(OP_get_array_el): { JSValue val; sf->cur_pc = pc; val = JS_GetPropertyValue(ctx, sp[-2], sp[-1]); JS_FreeValue(ctx, sp[-2]); sp[-2] = val; sp--; if (unlikely(JS_IsException(val))) goto exception; } BREAK; CASE(OP_get_array_el2): { JSValue val; sf->cur_pc = pc; val = JS_GetPropertyValue(ctx, sp[-2], sp[-1]); sp[-1] = val; if (unlikely(JS_IsException(val))) goto exception; } BREAK; CASE(OP_get_ref_value): { JSValue val; sf->cur_pc = pc; if (unlikely(JS_IsUndefined(sp[-2]))) { JSAtom atom = JS_ValueToAtom(ctx, sp[-1]); if (atom != JS_ATOM_NULL) { JS_ThrowReferenceErrorNotDefined(ctx, atom); JS_FreeAtom(ctx, atom); } goto exception; } val = JS_GetPropertyValue(ctx, sp[-2], js_dup(sp[-1])); if (unlikely(JS_IsException(val))) goto exception; sp[0] = val; sp++; } BREAK; CASE(OP_get_super_value): { JSValue val; JSAtom atom; sf->cur_pc = pc; atom = JS_ValueToAtom(ctx, sp[-1]); if (unlikely(atom == JS_ATOM_NULL)) goto exception; val = JS_GetPropertyInternal2(ctx, sp[-2], atom, sp[-3], NULL, FALSE); JS_FreeAtom(ctx, atom); if (unlikely(JS_IsException(val))) goto exception; JS_FreeValue(ctx, sp[-1]); JS_FreeValue(ctx, sp[-2]); JS_FreeValue(ctx, sp[-3]); sp[-3] = val; sp -= 2; } BREAK; CASE(OP_put_array_el): { int ret; sf->cur_pc = pc; ret = JS_SetPropertyValue(ctx, sp[-3], sp[-2], sp[-1], JS_PROP_THROW_STRICT); JS_FreeValue(ctx, sp[-3]); sp -= 3; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_put_ref_value): { int ret, flags; sf->cur_pc = pc; flags = JS_PROP_THROW_STRICT; if (unlikely(JS_IsUndefined(sp[-3]))) { if (is_strict_mode(ctx)) { JSAtom atom = JS_ValueToAtom(ctx, sp[-2]); if (atom != JS_ATOM_NULL) { JS_ThrowReferenceErrorNotDefined(ctx, atom); JS_FreeAtom(ctx, atom); } goto exception; } else { sp[-3] = js_dup(ctx->global_obj); } } else { if (is_strict_mode(ctx)) flags |= JS_PROP_NO_ADD; } ret = JS_SetPropertyValue(ctx, sp[-3], sp[-2], sp[-1], flags); JS_FreeValue(ctx, sp[-3]); sp -= 3; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_put_super_value): { int ret; JSAtom atom; sf->cur_pc = pc; if (JS_VALUE_GET_TAG(sp[-3]) != JS_TAG_OBJECT) { JS_ThrowTypeErrorNotAnObject(ctx); goto exception; } atom = JS_ValueToAtom(ctx, sp[-2]); if (unlikely(atom == JS_ATOM_NULL)) goto exception; ret = JS_SetPropertyInternal2(ctx, sp[-3], atom, sp[-1], sp[-4], JS_PROP_THROW_STRICT, NULL); JS_FreeAtom(ctx, atom); JS_FreeValue(ctx, sp[-4]); JS_FreeValue(ctx, sp[-3]); JS_FreeValue(ctx, sp[-2]); sp -= 4; if (ret < 0) goto exception; } BREAK; CASE(OP_define_array_el): { int ret; ret = JS_DefinePropertyValueValue(ctx, sp[-3], js_dup(sp[-2]), sp[-1], JS_PROP_C_W_E | JS_PROP_THROW); sp -= 1; if (unlikely(ret < 0)) goto exception; } BREAK; CASE(OP_append): /* array pos enumobj -- array pos */ { sf->cur_pc = pc; if (js_append_enumerate(ctx, sp)) goto exception; JS_FreeValue(ctx, *--sp); } BREAK; CASE(OP_copy_data_properties): /* target source excludeList */ { /* stack offsets (-1 based): 2 bits for target, 3 bits for source, 2 bits for exclusionList */ int mask; mask = *pc++; sf->cur_pc = pc; if (JS_CopyDataProperties(ctx, sp[-1 - (mask & 3)], sp[-1 - ((mask >> 2) & 7)], sp[-1 - ((mask >> 5) & 7)], 0)) goto exception; } BREAK; CASE(OP_add): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { int64_t r; r = (int64_t)JS_VALUE_GET_INT(op1) + JS_VALUE_GET_INT(op2); if (unlikely((int)r != r)) goto add_slow; sp[-2] = js_int32(r); sp--; } else if (JS_VALUE_IS_BOTH_FLOAT(op1, op2)) { sp[-2] = js_float64(JS_VALUE_GET_FLOAT64(op1) + JS_VALUE_GET_FLOAT64(op2)); sp--; } else { add_slow: sf->cur_pc = pc; if (js_add_slow(ctx, sp)) goto exception; sp--; } } BREAK; CASE(OP_add_loc): { JSValue *pv; int idx; idx = *pc; pc += 1; pv = &var_buf[idx]; if (likely(JS_VALUE_IS_BOTH_INT(*pv, sp[-1]))) { int64_t r; r = (int64_t)JS_VALUE_GET_INT(*pv) + JS_VALUE_GET_INT(sp[-1]); if (unlikely((int)r != r)) goto add_loc_slow; *pv = js_int32(r); sp--; } else if (JS_VALUE_GET_TAG(*pv) == JS_TAG_STRING) { JSValue op1; op1 = sp[-1]; sp--; sf->cur_pc = pc; op1 = JS_ToPrimitiveFree(ctx, op1, HINT_NONE); if (JS_IsException(op1)) goto exception; op1 = JS_ConcatString(ctx, js_dup(*pv), op1); if (JS_IsException(op1)) goto exception; set_value(ctx, pv, op1); } else { JSValue ops[2]; add_loc_slow: /* In case of exception, js_add_slow frees ops[0] and ops[1], so we must duplicate *pv */ sf->cur_pc = pc; ops[0] = js_dup(*pv); ops[1] = sp[-1]; sp--; if (js_add_slow(ctx, ops + 2)) goto exception; set_value(ctx, pv, ops[0]); } } BREAK; CASE(OP_sub): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { int64_t r; r = (int64_t)JS_VALUE_GET_INT(op1) - JS_VALUE_GET_INT(op2); if (unlikely((int)r != r)) goto binary_arith_slow; sp[-2] = js_int32(r); sp--; } else if (JS_VALUE_IS_BOTH_FLOAT(op1, op2)) { sp[-2] = js_float64(JS_VALUE_GET_FLOAT64(op1) - JS_VALUE_GET_FLOAT64(op2)); sp--; } else { goto binary_arith_slow; } } BREAK; CASE(OP_mul): { JSValue op1, op2; double d; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { int32_t v1, v2; int64_t r; v1 = JS_VALUE_GET_INT(op1); v2 = JS_VALUE_GET_INT(op2); r = (int64_t)v1 * v2; if (unlikely((int)r != r)) { d = (double)r; goto mul_fp_res; } /* need to test zero case for -0 result */ if (unlikely(r == 0 && (v1 | v2) < 0)) { d = -0.0; goto mul_fp_res; } sp[-2] = js_int32(r); sp--; } else if (JS_VALUE_IS_BOTH_FLOAT(op1, op2)) { d = JS_VALUE_GET_FLOAT64(op1) * JS_VALUE_GET_FLOAT64(op2); mul_fp_res: sp[-2] = js_float64(d); sp--; } else { goto binary_arith_slow; } } BREAK; CASE(OP_div): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { int v1, v2; v1 = JS_VALUE_GET_INT(op1); v2 = JS_VALUE_GET_INT(op2); sp[-2] = js_number((double)v1 / (double)v2); sp--; } else { goto binary_arith_slow; } } BREAK; CASE(OP_mod): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { int v1, v2, r; v1 = JS_VALUE_GET_INT(op1); v2 = JS_VALUE_GET_INT(op2); /* We must avoid v2 = 0, v1 = INT32_MIN and v2 = -1 and the cases where the result is -0. */ if (unlikely(v1 < 0 || v2 <= 0)) goto binary_arith_slow; r = v1 % v2; sp[-2] = js_int32(r); sp--; } else { goto binary_arith_slow; } } BREAK; CASE(OP_pow): binary_arith_slow: sf->cur_pc = pc; if (js_binary_arith_slow(ctx, sp, opcode)) goto exception; sp--; BREAK; CASE(OP_plus): { JSValue op1; uint32_t tag; op1 = sp[-1]; tag = JS_VALUE_GET_TAG(op1); if (tag == JS_TAG_INT || JS_TAG_IS_FLOAT64(tag)) { } else { sf->cur_pc = pc; if (js_unary_arith_slow(ctx, sp, opcode)) goto exception; } } BREAK; CASE(OP_neg): { JSValue op1; uint32_t tag; int val; double d; op1 = sp[-1]; tag = JS_VALUE_GET_TAG(op1); if (tag == JS_TAG_INT) { val = JS_VALUE_GET_INT(op1); /* Note: -0 cannot be expressed as integer */ if (unlikely(val == 0)) { d = -0.0; goto neg_fp_res; } if (unlikely(val == INT32_MIN)) { d = -(double)val; goto neg_fp_res; } sp[-1] = js_int32(-val); } else if (JS_TAG_IS_FLOAT64(tag)) { d = -JS_VALUE_GET_FLOAT64(op1); neg_fp_res: sp[-1] = js_float64(d); } else { sf->cur_pc = pc; if (js_unary_arith_slow(ctx, sp, opcode)) goto exception; } } BREAK; CASE(OP_inc): { JSValue op1; int val; op1 = sp[-1]; if (JS_VALUE_GET_TAG(op1) == JS_TAG_INT) { val = JS_VALUE_GET_INT(op1); if (unlikely(val == INT32_MAX)) goto inc_slow; sp[-1] = js_int32(val + 1); } else { inc_slow: sf->cur_pc = pc; if (js_unary_arith_slow(ctx, sp, opcode)) goto exception; } } BREAK; CASE(OP_dec): { JSValue op1; int val; op1 = sp[-1]; if (JS_VALUE_GET_TAG(op1) == JS_TAG_INT) { val = JS_VALUE_GET_INT(op1); if (unlikely(val == INT32_MIN)) goto dec_slow; sp[-1] = js_int32(val - 1); } else { dec_slow: sf->cur_pc = pc; if (js_unary_arith_slow(ctx, sp, opcode)) goto exception; } } BREAK; CASE(OP_post_inc): CASE(OP_post_dec): sf->cur_pc = pc; if (js_post_inc_slow(ctx, sp, opcode)) goto exception; sp++; BREAK; CASE(OP_inc_loc): { JSValue op1; int val; int idx; idx = *pc; pc += 1; op1 = var_buf[idx]; if (JS_VALUE_GET_TAG(op1) == JS_TAG_INT) { val = JS_VALUE_GET_INT(op1); if (unlikely(val == INT32_MAX)) goto inc_loc_slow; var_buf[idx] = js_int32(val + 1); } else { inc_loc_slow: sf->cur_pc = pc; /* must duplicate otherwise the variable value may be destroyed before JS code accesses it */ op1 = js_dup(op1); if (js_unary_arith_slow(ctx, &op1 + 1, OP_inc)) goto exception; set_value(ctx, &var_buf[idx], op1); } } BREAK; CASE(OP_dec_loc): { JSValue op1; int val; int idx; idx = *pc; pc += 1; op1 = var_buf[idx]; if (JS_VALUE_GET_TAG(op1) == JS_TAG_INT) { val = JS_VALUE_GET_INT(op1); if (unlikely(val == INT32_MIN)) goto dec_loc_slow; var_buf[idx] = js_int32(val - 1); } else { dec_loc_slow: sf->cur_pc = pc; /* must duplicate otherwise the variable value may be destroyed before JS code accesses it */ op1 = js_dup(op1); if (js_unary_arith_slow(ctx, &op1 + 1, OP_dec)) goto exception; set_value(ctx, &var_buf[idx], op1); } } BREAK; CASE(OP_not): { JSValue op1; op1 = sp[-1]; if (JS_VALUE_GET_TAG(op1) == JS_TAG_INT) { sp[-1] = js_int32(~JS_VALUE_GET_INT(op1)); } else { sf->cur_pc = pc; if (js_not_slow(ctx, sp)) goto exception; } } BREAK; CASE(OP_shl): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { uint32_t v1, v2; v1 = JS_VALUE_GET_INT(op1); v2 = JS_VALUE_GET_INT(op2) & 0x1f; sp[-2] = js_int32(v1 << v2); sp--; } else { sf->cur_pc = pc; if (js_binary_logic_slow(ctx, sp, opcode)) goto exception; sp--; } } BREAK; CASE(OP_shr): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { uint32_t v2; v2 = JS_VALUE_GET_INT(op2); v2 &= 0x1f; sp[-2] = js_uint32((uint32_t)JS_VALUE_GET_INT(op1) >> v2); sp--; } else { sf->cur_pc = pc; if (js_shr_slow(ctx, sp)) goto exception; sp--; } } BREAK; CASE(OP_sar): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { uint32_t v2; v2 = JS_VALUE_GET_INT(op2); if (unlikely(v2 > 0x1f)) { v2 &= 0x1f; } sp[-2] = js_int32((int)JS_VALUE_GET_INT(op1) >> v2); sp--; } else { sf->cur_pc = pc; if (js_binary_logic_slow(ctx, sp, opcode)) goto exception; sp--; } } BREAK; CASE(OP_and): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { sp[-2] = js_int32(JS_VALUE_GET_INT(op1) & JS_VALUE_GET_INT(op2)); sp--; } else { sf->cur_pc = pc; if (js_binary_logic_slow(ctx, sp, opcode)) goto exception; sp--; } } BREAK; CASE(OP_or): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { sp[-2] = js_int32(JS_VALUE_GET_INT(op1) | JS_VALUE_GET_INT(op2)); sp--; } else { sf->cur_pc = pc; if (js_binary_logic_slow(ctx, sp, opcode)) goto exception; sp--; } } BREAK; CASE(OP_xor): { JSValue op1, op2; op1 = sp[-2]; op2 = sp[-1]; if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { sp[-2] = js_int32(JS_VALUE_GET_INT(op1) ^ JS_VALUE_GET_INT(op2)); sp--; } else { sf->cur_pc = pc; if (js_binary_logic_slow(ctx, sp, opcode)) goto exception; sp--; } } BREAK; #define OP_CMP(opcode, binary_op, slow_call) \ CASE(opcode): \ { \ JSValue op1, op2; \ op1 = sp[-2]; \ op2 = sp[-1]; \ if (likely(JS_VALUE_IS_BOTH_INT(op1, op2))) { \ sp[-2] = js_bool(JS_VALUE_GET_INT(op1) binary_op JS_VALUE_GET_INT(op2)); \ sp--; \ } else { \ sf->cur_pc = pc; \ if (slow_call) \ goto exception; \ sp--; \ } \ } \ BREAK OP_CMP(OP_lt, <, js_relational_slow(ctx, sp, opcode)); OP_CMP(OP_lte, <=, js_relational_slow(ctx, sp, opcode)); OP_CMP(OP_gt, >, js_relational_slow(ctx, sp, opcode)); OP_CMP(OP_gte, >=, js_relational_slow(ctx, sp, opcode)); OP_CMP(OP_eq, ==, js_eq_slow(ctx, sp, 0)); OP_CMP(OP_neq, !=, js_eq_slow(ctx, sp, 1)); OP_CMP(OP_strict_eq, ==, js_strict_eq_slow(ctx, sp, 0)); OP_CMP(OP_strict_neq, !=, js_strict_eq_slow(ctx, sp, 1)); CASE(OP_in): sf->cur_pc = pc; if (js_operator_in(ctx, sp)) goto exception; sp--; BREAK; CASE(OP_private_in): if (js_operator_private_in(ctx, sp)) goto exception; sp--; BREAK; CASE(OP_instanceof): sf->cur_pc = pc; if (js_operator_instanceof(ctx, sp)) goto exception; sp--; BREAK; CASE(OP_typeof): { JSValue op1; JSAtom atom; op1 = sp[-1]; atom = js_operator_typeof(ctx, op1); JS_FreeValue(ctx, op1); sp[-1] = JS_AtomToString(ctx, atom); } BREAK; CASE(OP_delete): sf->cur_pc = pc; if (js_operator_delete(ctx, sp)) goto exception; sp--; BREAK; CASE(OP_delete_var): { JSAtom atom; int ret; atom = get_u32(pc); pc += 4; sf->cur_pc = pc; ret = JS_DeleteProperty(ctx, ctx->global_obj, atom, 0); if (unlikely(ret < 0)) goto exception; *sp++ = js_bool(ret); } BREAK; CASE(OP_to_object): if (JS_VALUE_GET_TAG(sp[-1]) != JS_TAG_OBJECT) { sf->cur_pc = pc; ret_val = JS_ToObject(ctx, sp[-1]); if (JS_IsException(ret_val)) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = ret_val; } BREAK; CASE(OP_to_propkey): switch (JS_VALUE_GET_TAG(sp[-1])) { case JS_TAG_INT: case JS_TAG_STRING: case JS_TAG_SYMBOL: break; default: sf->cur_pc = pc; ret_val = JS_ToPropertyKey(ctx, sp[-1]); if (JS_IsException(ret_val)) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = ret_val; break; } BREAK; CASE(OP_to_propkey2): /* must be tested first */ if (unlikely(JS_IsUndefined(sp[-2]) || JS_IsNull(sp[-2]))) { JS_ThrowTypeError(ctx, "value has no property"); goto exception; } switch (JS_VALUE_GET_TAG(sp[-1])) { case JS_TAG_INT: case JS_TAG_STRING: case JS_TAG_SYMBOL: break; default: sf->cur_pc = pc; ret_val = JS_ToPropertyKey(ctx, sp[-1]); if (JS_IsException(ret_val)) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = ret_val; break; } BREAK; CASE(OP_with_get_var): CASE(OP_with_put_var): CASE(OP_with_delete_var): CASE(OP_with_make_ref): CASE(OP_with_get_ref): CASE(OP_with_get_ref_undef): { JSAtom atom; int32_t diff; JSValue obj, val; int ret, is_with; atom = get_u32(pc); diff = get_u32(pc + 4); is_with = pc[8]; pc += 9; sf->cur_pc = pc; obj = sp[-1]; ret = JS_HasProperty(ctx, obj, atom); if (unlikely(ret < 0)) goto exception; if (ret) { if (is_with) { ret = js_has_unscopable(ctx, obj, atom); if (unlikely(ret < 0)) goto exception; if (ret) goto no_with; } switch (opcode) { case OP_with_get_var: val = JS_GetProperty(ctx, obj, atom); if (unlikely(JS_IsException(val))) goto exception; set_value(ctx, &sp[-1], val); break; case OP_with_put_var: /* XXX: check if strict mode */ ret = JS_SetPropertyInternal(ctx, obj, atom, sp[-2], JS_PROP_THROW_STRICT); JS_FreeValue(ctx, sp[-1]); sp -= 2; if (unlikely(ret < 0)) goto exception; break; case OP_with_delete_var: ret = JS_DeleteProperty(ctx, obj, atom, 0); if (unlikely(ret < 0)) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = js_bool(ret); break; case OP_with_make_ref: /* produce a pair object/propname on the stack */ *sp++ = JS_AtomToValue(ctx, atom); break; case OP_with_get_ref: /* produce a pair object/method on the stack */ val = JS_GetProperty(ctx, obj, atom); if (unlikely(JS_IsException(val))) goto exception; *sp++ = val; break; case OP_with_get_ref_undef: /* produce a pair undefined/function on the stack */ val = JS_GetProperty(ctx, obj, atom); if (unlikely(JS_IsException(val))) goto exception; JS_FreeValue(ctx, sp[-1]); sp[-1] = JS_UNDEFINED; *sp++ = val; break; } pc += diff - 5; } else { no_with: /* if not jumping, drop the object argument */ JS_FreeValue(ctx, sp[-1]); sp--; } } BREAK; CASE(OP_await): ret_val = js_int32(FUNC_RET_AWAIT); goto done_generator; CASE(OP_yield): ret_val = js_int32(FUNC_RET_YIELD); goto done_generator; CASE(OP_yield_star): CASE(OP_async_yield_star): ret_val = js_int32(FUNC_RET_YIELD_STAR); goto done_generator; CASE(OP_return_async): CASE(OP_initial_yield): ret_val = JS_UNDEFINED; goto done_generator; CASE(OP_nop): BREAK; CASE(OP_is_undefined_or_null): if (JS_VALUE_GET_TAG(sp[-1]) == JS_TAG_UNDEFINED || JS_VALUE_GET_TAG(sp[-1]) == JS_TAG_NULL) { goto set_true; } else { goto free_and_set_false; } CASE(OP_is_undefined): if (JS_VALUE_GET_TAG(sp[-1]) == JS_TAG_UNDEFINED) { goto set_true; } else { goto free_and_set_false; } CASE(OP_is_null): if (JS_VALUE_GET_TAG(sp[-1]) == JS_TAG_NULL) { goto set_true; } else { goto free_and_set_false; } /* XXX: could merge to a single opcode */ CASE(OP_typeof_is_undefined): /* different from OP_is_undefined because of isHTMLDDA */ if (js_operator_typeof(ctx, sp[-1]) == JS_ATOM_undefined) { goto free_and_set_true; } else { goto free_and_set_false; } CASE(OP_typeof_is_function): if (js_operator_typeof(ctx, sp[-1]) == JS_ATOM_function) { goto free_and_set_true; } else { goto free_and_set_false; } free_and_set_true: JS_FreeValue(ctx, sp[-1]); set_true: sp[-1] = JS_TRUE; BREAK; free_and_set_false: JS_FreeValue(ctx, sp[-1]); sp[-1] = JS_FALSE; BREAK; CASE(OP_invalid): DEFAULT: JS_ThrowInternalError(ctx, "invalid opcode: pc=%u opcode=0x%02x", (int)(pc - b->byte_code_buf - 1), opcode); goto exception; } } exception: if (is_backtrace_needed(ctx, rt->current_exception)) { /* add the backtrace information now (it is not done before if the exception happens in a bytecode operation */ sf->cur_pc = pc; build_backtrace(ctx, rt->current_exception, NULL, 0, 0, 0); } if (!JS_IsUncatchableError(ctx, rt->current_exception)) { while (sp > stack_buf) { JSValue val = *--sp; JS_FreeValue(ctx, val); if (JS_VALUE_GET_TAG(val) == JS_TAG_CATCH_OFFSET) { int pos = JS_VALUE_GET_INT(val); if (pos == 0) { /* enumerator: close it with a throw */ JS_FreeValue(ctx, sp[-1]); /* drop the next method */ sp--; JS_IteratorClose(ctx, sp[-1], TRUE); } else { *sp++ = rt->current_exception; rt->current_exception = JS_UNINITIALIZED; pc = b->byte_code_buf + pos; goto restart; } } } } ret_val = JS_EXCEPTION; /* the local variables are freed by the caller in the generator case. Hence the label 'done' should never be reached in a generator function. */ if (b->func_kind != JS_FUNC_NORMAL) { done_generator: sf->cur_pc = pc; sf->cur_sp = sp; } else { done: if (unlikely(!list_empty(&sf->var_ref_list))) { /* variable references reference the stack: must close them */ close_var_refs(rt, sf); } /* free the local variables and stack */ for(pval = local_buf; pval < sp; pval++) { JS_FreeValue(ctx, *pval); } } rt->current_stack_frame = sf->prev_frame; return ret_val; } JSValue JS_Call(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv) { return JS_CallInternal(ctx, func_obj, this_obj, JS_UNDEFINED, argc, argv, JS_CALL_FLAG_COPY_ARGV); } static JSValue JS_CallFree(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv) { JSValue res = JS_CallInternal(ctx, func_obj, this_obj, JS_UNDEFINED, argc, argv, JS_CALL_FLAG_COPY_ARGV); JS_FreeValue(ctx, func_obj); return res; } /* warning: the refcount of the context is not incremented. Return NULL in case of exception (case of revoked proxy only) */ static JSContext *JS_GetFunctionRealm(JSContext *ctx, JSValue func_obj) { JSObject *p; JSContext *realm; if (JS_VALUE_GET_TAG(func_obj) != JS_TAG_OBJECT) return ctx; p = JS_VALUE_GET_OBJ(func_obj); switch(p->class_id) { case JS_CLASS_C_FUNCTION: realm = p->u.cfunc.realm; break; case JS_CLASS_BYTECODE_FUNCTION: case JS_CLASS_GENERATOR_FUNCTION: case JS_CLASS_ASYNC_FUNCTION: case JS_CLASS_ASYNC_GENERATOR_FUNCTION: { JSFunctionBytecode *b; b = p->u.func.function_bytecode; realm = b->realm; } break; case JS_CLASS_PROXY: { JSProxyData *s = p->u.opaque; if (!s) return ctx; if (s->is_revoked) { JS_ThrowTypeErrorRevokedProxy(ctx); return NULL; } else { realm = JS_GetFunctionRealm(ctx, s->target); } } break; case JS_CLASS_BOUND_FUNCTION: { JSBoundFunction *bf = p->u.bound_function; realm = JS_GetFunctionRealm(ctx, bf->func_obj); } break; default: realm = ctx; break; } return realm; } static JSValue js_create_from_ctor(JSContext *ctx, JSValue ctor, int class_id) { JSValue proto, obj; JSContext *realm; if (JS_IsUndefined(ctor)) { proto = js_dup(ctx->class_proto[class_id]); } else { proto = JS_GetProperty(ctx, ctor, JS_ATOM_prototype); if (JS_IsException(proto)) return proto; if (!JS_IsObject(proto)) { JS_FreeValue(ctx, proto); realm = JS_GetFunctionRealm(ctx, ctor); if (!realm) return JS_EXCEPTION; proto = js_dup(realm->class_proto[class_id]); } } obj = JS_NewObjectProtoClass(ctx, proto, class_id); JS_FreeValue(ctx, proto); return obj; } /* argv[] is modified if (flags & JS_CALL_FLAG_COPY_ARGV) = 0. */ static JSValue JS_CallConstructorInternal(JSContext *ctx, JSValue func_obj, JSValue new_target, int argc, JSValue *argv, int flags) { JSObject *p; JSFunctionBytecode *b; if (js_poll_interrupts(ctx)) return JS_EXCEPTION; flags |= JS_CALL_FLAG_CONSTRUCTOR; if (unlikely(JS_VALUE_GET_TAG(func_obj) != JS_TAG_OBJECT)) goto not_a_function; p = JS_VALUE_GET_OBJ(func_obj); if (unlikely(!p->is_constructor)) return JS_ThrowTypeError(ctx, "not a constructor"); if (unlikely(p->class_id != JS_CLASS_BYTECODE_FUNCTION)) { JSClassCall *call_func; call_func = ctx->rt->class_array[p->class_id].call; if (!call_func) { not_a_function: return JS_ThrowTypeError(ctx, "not a function"); } return call_func(ctx, func_obj, new_target, argc, argv, flags); } b = p->u.func.function_bytecode; if (b->is_derived_class_constructor) { return JS_CallInternal(ctx, func_obj, JS_UNDEFINED, new_target, argc, argv, flags); } else { JSValue obj, ret; /* legacy constructor behavior */ obj = js_create_from_ctor(ctx, new_target, JS_CLASS_OBJECT); if (JS_IsException(obj)) return JS_EXCEPTION; ret = JS_CallInternal(ctx, func_obj, obj, new_target, argc, argv, flags); if (JS_VALUE_GET_TAG(ret) == JS_TAG_OBJECT || JS_IsException(ret)) { JS_FreeValue(ctx, obj); return ret; } else { JS_FreeValue(ctx, ret); return obj; } } } JSValue JS_CallConstructor2(JSContext *ctx, JSValue func_obj, JSValue new_target, int argc, JSValue *argv) { return JS_CallConstructorInternal(ctx, func_obj, new_target, argc, argv, JS_CALL_FLAG_COPY_ARGV); } JSValue JS_CallConstructor(JSContext *ctx, JSValue func_obj, int argc, JSValue *argv) { return JS_CallConstructorInternal(ctx, func_obj, func_obj, argc, argv, JS_CALL_FLAG_COPY_ARGV); } JSValue JS_Invoke(JSContext *ctx, JSValue this_val, JSAtom atom, int argc, JSValue *argv) { JSValue func_obj; func_obj = JS_GetProperty(ctx, this_val, atom); if (JS_IsException(func_obj)) return func_obj; return JS_CallFree(ctx, func_obj, this_val, argc, argv); } static JSValue JS_InvokeFree(JSContext *ctx, JSValue this_val, JSAtom atom, int argc, JSValue *argv) { JSValue res = JS_Invoke(ctx, this_val, atom, argc, argv); JS_FreeValue(ctx, this_val); return res; } /* JSAsyncFunctionState (used by generator and async functions) */ static __exception int async_func_init(JSContext *ctx, JSAsyncFunctionState *s, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv) { JSObject *p; JSFunctionBytecode *b; JSStackFrame *sf; int local_count, i, arg_buf_len, n; sf = &s->frame; init_list_head(&sf->var_ref_list); p = JS_VALUE_GET_OBJ(func_obj); b = p->u.func.function_bytecode; sf->js_mode = b->js_mode; sf->cur_pc = b->byte_code_buf; arg_buf_len = max_int(b->arg_count, argc); local_count = arg_buf_len + b->var_count + b->stack_size; sf->arg_buf = js_malloc(ctx, sizeof(JSValue) * max_int(local_count, 1)); if (!sf->arg_buf) return -1; sf->cur_func = js_dup(func_obj); s->this_val = js_dup(this_obj); s->argc = argc; sf->arg_count = arg_buf_len; sf->var_buf = sf->arg_buf + arg_buf_len; sf->cur_sp = sf->var_buf + b->var_count; for(i = 0; i < argc; i++) sf->arg_buf[i] = js_dup(argv[i]); n = arg_buf_len + b->var_count; for(i = argc; i < n; i++) sf->arg_buf[i] = JS_UNDEFINED; return 0; } static void async_func_mark(JSRuntime *rt, JSAsyncFunctionState *s, JS_MarkFunc *mark_func) { JSStackFrame *sf; JSValue *sp; sf = &s->frame; JS_MarkValue(rt, sf->cur_func, mark_func); JS_MarkValue(rt, s->this_val, mark_func); if (sf->cur_sp) { /* if the function is running, cur_sp is not known so we cannot mark the stack. Marking the variables is not needed because a running function cannot be part of a removable cycle */ for(sp = sf->arg_buf; sp < sf->cur_sp; sp++) JS_MarkValue(rt, *sp, mark_func); } } static void async_func_free(JSRuntime *rt, JSAsyncFunctionState *s) { JSStackFrame *sf; JSValue *sp; sf = &s->frame; /* close the closure variables. */ close_var_refs(rt, sf); if (sf->arg_buf) { /* cannot free the function if it is running */ assert(sf->cur_sp != NULL); for(sp = sf->arg_buf; sp < sf->cur_sp; sp++) { JS_FreeValueRT(rt, *sp); } js_free_rt(rt, sf->arg_buf); } JS_FreeValueRT(rt, sf->cur_func); JS_FreeValueRT(rt, s->this_val); } static JSValue async_func_resume(JSContext *ctx, JSAsyncFunctionState *s) { JSValue func_obj; if (js_check_stack_overflow(ctx->rt, 0)) return JS_ThrowStackOverflow(ctx); /* the tag does not matter provided it is not an object */ func_obj = JS_MKPTR(JS_TAG_INT, s); return JS_CallInternal(ctx, func_obj, s->this_val, JS_UNDEFINED, s->argc, s->frame.arg_buf, JS_CALL_FLAG_GENERATOR); } /* Generators */ typedef enum JSGeneratorStateEnum { JS_GENERATOR_STATE_SUSPENDED_START, JS_GENERATOR_STATE_SUSPENDED_YIELD, JS_GENERATOR_STATE_SUSPENDED_YIELD_STAR, JS_GENERATOR_STATE_EXECUTING, JS_GENERATOR_STATE_COMPLETED, } JSGeneratorStateEnum; typedef struct JSGeneratorData { JSGeneratorStateEnum state; JSAsyncFunctionState func_state; } JSGeneratorData; static void free_generator_stack_rt(JSRuntime *rt, JSGeneratorData *s) { if (s->state == JS_GENERATOR_STATE_COMPLETED) return; async_func_free(rt, &s->func_state); s->state = JS_GENERATOR_STATE_COMPLETED; } static void js_generator_finalizer(JSRuntime *rt, JSValue obj) { JSGeneratorData *s = JS_GetOpaque(obj, JS_CLASS_GENERATOR); if (s) { free_generator_stack_rt(rt, s); js_free_rt(rt, s); } } static void free_generator_stack(JSContext *ctx, JSGeneratorData *s) { free_generator_stack_rt(ctx->rt, s); } static void js_generator_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSObject *p = JS_VALUE_GET_OBJ(val); JSGeneratorData *s = p->u.generator_data; if (!s || s->state == JS_GENERATOR_STATE_COMPLETED) return; async_func_mark(rt, &s->func_state, mark_func); } /* XXX: use enum */ #define GEN_MAGIC_NEXT 0 #define GEN_MAGIC_RETURN 1 #define GEN_MAGIC_THROW 2 static JSValue js_generator_next(JSContext *ctx, JSValue this_val, int argc, JSValue *argv, BOOL *pdone, int magic) { JSGeneratorData *s = JS_GetOpaque(this_val, JS_CLASS_GENERATOR); JSStackFrame *sf; JSValue ret, func_ret; *pdone = TRUE; if (!s) return JS_ThrowTypeError(ctx, "not a generator"); sf = &s->func_state.frame; switch(s->state) { default: case JS_GENERATOR_STATE_SUSPENDED_START: if (magic == GEN_MAGIC_NEXT) { goto exec_no_arg; } else { free_generator_stack(ctx, s); goto done; } break; case JS_GENERATOR_STATE_SUSPENDED_YIELD_STAR: case JS_GENERATOR_STATE_SUSPENDED_YIELD: /* cur_sp[-1] was set to JS_UNDEFINED in the previous call */ ret = js_dup(argv[0]); if (magic == GEN_MAGIC_THROW && s->state == JS_GENERATOR_STATE_SUSPENDED_YIELD) { JS_Throw(ctx, ret); s->func_state.throw_flag = TRUE; } else { sf->cur_sp[-1] = ret; sf->cur_sp[0] = js_int32(magic); sf->cur_sp++; exec_no_arg: s->func_state.throw_flag = FALSE; } s->state = JS_GENERATOR_STATE_EXECUTING; func_ret = async_func_resume(ctx, &s->func_state); s->state = JS_GENERATOR_STATE_SUSPENDED_YIELD; if (JS_IsException(func_ret)) { /* finalize the execution in case of exception */ free_generator_stack(ctx, s); return func_ret; } if (JS_VALUE_GET_TAG(func_ret) == JS_TAG_INT) { /* get the returned yield value at the top of the stack */ ret = sf->cur_sp[-1]; sf->cur_sp[-1] = JS_UNDEFINED; if (JS_VALUE_GET_INT(func_ret) == FUNC_RET_YIELD_STAR) { s->state = JS_GENERATOR_STATE_SUSPENDED_YIELD_STAR; /* return (value, done) object */ *pdone = 2; } else { *pdone = FALSE; } } else { /* end of iterator */ ret = sf->cur_sp[-1]; sf->cur_sp[-1] = JS_UNDEFINED; JS_FreeValue(ctx, func_ret); free_generator_stack(ctx, s); } break; case JS_GENERATOR_STATE_COMPLETED: done: /* execution is finished */ switch(magic) { default: case GEN_MAGIC_NEXT: ret = JS_UNDEFINED; break; case GEN_MAGIC_RETURN: ret = js_dup(argv[0]); break; case GEN_MAGIC_THROW: ret = JS_Throw(ctx, js_dup(argv[0])); break; } break; case JS_GENERATOR_STATE_EXECUTING: ret = JS_ThrowTypeError(ctx, "cannot invoke a running generator"); break; } return ret; } static JSValue js_generator_function_call(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags) { JSValue obj, func_ret; JSGeneratorData *s; s = js_mallocz(ctx, sizeof(*s)); if (!s) return JS_EXCEPTION; s->state = JS_GENERATOR_STATE_SUSPENDED_START; if (async_func_init(ctx, &s->func_state, func_obj, this_obj, argc, argv)) { s->state = JS_GENERATOR_STATE_COMPLETED; goto fail; } /* execute the function up to 'OP_initial_yield' */ func_ret = async_func_resume(ctx, &s->func_state); if (JS_IsException(func_ret)) goto fail; JS_FreeValue(ctx, func_ret); obj = js_create_from_ctor(ctx, func_obj, JS_CLASS_GENERATOR); if (JS_IsException(obj)) goto fail; JS_SetOpaque(obj, s); return obj; fail: free_generator_stack_rt(ctx->rt, s); js_free(ctx, s); return JS_EXCEPTION; } /* AsyncFunction */ static void js_async_function_terminate(JSRuntime *rt, JSAsyncFunctionData *s) { if (s->is_active) { async_func_free(rt, &s->func_state); s->is_active = FALSE; } } static void js_async_function_free0(JSRuntime *rt, JSAsyncFunctionData *s) { js_async_function_terminate(rt, s); JS_FreeValueRT(rt, s->resolving_funcs[0]); JS_FreeValueRT(rt, s->resolving_funcs[1]); remove_gc_object(&s->header); js_free_rt(rt, s); } static void js_async_function_free(JSRuntime *rt, JSAsyncFunctionData *s) { if (--s->header.ref_count == 0) { js_async_function_free0(rt, s); } } static void js_async_function_resolve_finalizer(JSRuntime *rt, JSValue val) { JSObject *p = JS_VALUE_GET_OBJ(val); JSAsyncFunctionData *s = p->u.async_function_data; if (s) { js_async_function_free(rt, s); } } static void js_async_function_resolve_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSObject *p = JS_VALUE_GET_OBJ(val); JSAsyncFunctionData *s = p->u.async_function_data; if (s) { mark_func(rt, &s->header); } } static int js_async_function_resolve_create(JSContext *ctx, JSAsyncFunctionData *s, JSValue *resolving_funcs) { int i; JSObject *p; for(i = 0; i < 2; i++) { resolving_funcs[i] = JS_NewObjectProtoClass(ctx, ctx->function_proto, JS_CLASS_ASYNC_FUNCTION_RESOLVE + i); if (JS_IsException(resolving_funcs[i])) { if (i == 1) JS_FreeValue(ctx, resolving_funcs[0]); return -1; } p = JS_VALUE_GET_OBJ(resolving_funcs[i]); s->header.ref_count++; p->u.async_function_data = s; } return 0; } static void js_async_function_resume(JSContext *ctx, JSAsyncFunctionData *s) { JSValue func_ret, ret2; func_ret = async_func_resume(ctx, &s->func_state); if (JS_IsException(func_ret)) { JSValue error; fail: error = JS_GetException(ctx); ret2 = JS_Call(ctx, s->resolving_funcs[1], JS_UNDEFINED, 1, &error); JS_FreeValue(ctx, error); js_async_function_terminate(ctx->rt, s); JS_FreeValue(ctx, ret2); /* XXX: what to do if exception ? */ } else { JSValue value; value = s->func_state.frame.cur_sp[-1]; s->func_state.frame.cur_sp[-1] = JS_UNDEFINED; if (JS_IsUndefined(func_ret)) { /* function returned */ ret2 = JS_Call(ctx, s->resolving_funcs[0], JS_UNDEFINED, 1, &value); JS_FreeValue(ctx, ret2); /* XXX: what to do if exception ? */ JS_FreeValue(ctx, value); js_async_function_terminate(ctx->rt, s); } else { JSValue promise, resolving_funcs[2], resolving_funcs1[2]; int i, res; /* await */ JS_FreeValue(ctx, func_ret); /* not used */ promise = js_promise_resolve(ctx, ctx->promise_ctor, 1, &value, 0); JS_FreeValue(ctx, value); if (JS_IsException(promise)) goto fail; if (js_async_function_resolve_create(ctx, s, resolving_funcs)) { JS_FreeValue(ctx, promise); goto fail; } /* Note: no need to create 'thrownawayCapability' as in the spec */ for(i = 0; i < 2; i++) resolving_funcs1[i] = JS_UNDEFINED; res = perform_promise_then(ctx, promise, resolving_funcs, resolving_funcs1); JS_FreeValue(ctx, promise); for(i = 0; i < 2; i++) JS_FreeValue(ctx, resolving_funcs[i]); if (res) goto fail; } } } static JSValue js_async_function_resolve_call(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags) { JSObject *p = JS_VALUE_GET_OBJ(func_obj); JSAsyncFunctionData *s = p->u.async_function_data; BOOL is_reject = p->class_id - JS_CLASS_ASYNC_FUNCTION_RESOLVE; JSValue arg; if (argc > 0) arg = argv[0]; else arg = JS_UNDEFINED; s->func_state.throw_flag = is_reject; if (is_reject) { JS_Throw(ctx, js_dup(arg)); } else { /* return value of await */ s->func_state.frame.cur_sp[-1] = js_dup(arg); } js_async_function_resume(ctx, s); return JS_UNDEFINED; } static JSValue js_async_function_call(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags) { JSValue promise; JSAsyncFunctionData *s; s = js_mallocz(ctx, sizeof(*s)); if (!s) return JS_EXCEPTION; s->header.ref_count = 1; add_gc_object(ctx->rt, &s->header, JS_GC_OBJ_TYPE_ASYNC_FUNCTION); s->is_active = FALSE; s->resolving_funcs[0] = JS_UNDEFINED; s->resolving_funcs[1] = JS_UNDEFINED; promise = JS_NewPromiseCapability(ctx, s->resolving_funcs); if (JS_IsException(promise)) goto fail; if (async_func_init(ctx, &s->func_state, func_obj, this_obj, argc, argv)) { fail: JS_FreeValue(ctx, promise); js_async_function_free(ctx->rt, s); return JS_EXCEPTION; } s->is_active = TRUE; js_async_function_resume(ctx, s); js_async_function_free(ctx->rt, s); return promise; } /* AsyncGenerator */ typedef enum JSAsyncGeneratorStateEnum { JS_ASYNC_GENERATOR_STATE_SUSPENDED_START, JS_ASYNC_GENERATOR_STATE_SUSPENDED_YIELD, JS_ASYNC_GENERATOR_STATE_SUSPENDED_YIELD_STAR, JS_ASYNC_GENERATOR_STATE_EXECUTING, JS_ASYNC_GENERATOR_STATE_AWAITING_RETURN, JS_ASYNC_GENERATOR_STATE_COMPLETED, } JSAsyncGeneratorStateEnum; typedef struct JSAsyncGeneratorRequest { struct list_head link; /* completion */ int completion_type; /* GEN_MAGIC_x */ JSValue result; /* promise capability */ JSValue promise; JSValue resolving_funcs[2]; } JSAsyncGeneratorRequest; typedef struct JSAsyncGeneratorData { JSObject *generator; /* back pointer to the object (const) */ JSAsyncGeneratorStateEnum state; JSAsyncFunctionState func_state; struct list_head queue; /* list of JSAsyncGeneratorRequest.link */ } JSAsyncGeneratorData; static void js_async_generator_free(JSRuntime *rt, JSAsyncGeneratorData *s) { struct list_head *el, *el1; JSAsyncGeneratorRequest *req; list_for_each_safe(el, el1, &s->queue) { req = list_entry(el, JSAsyncGeneratorRequest, link); JS_FreeValueRT(rt, req->result); JS_FreeValueRT(rt, req->promise); JS_FreeValueRT(rt, req->resolving_funcs[0]); JS_FreeValueRT(rt, req->resolving_funcs[1]); js_free_rt(rt, req); } if (s->state != JS_ASYNC_GENERATOR_STATE_COMPLETED && s->state != JS_ASYNC_GENERATOR_STATE_AWAITING_RETURN) { async_func_free(rt, &s->func_state); } js_free_rt(rt, s); } static void js_async_generator_finalizer(JSRuntime *rt, JSValue obj) { JSAsyncGeneratorData *s = JS_GetOpaque(obj, JS_CLASS_ASYNC_GENERATOR); if (s) { js_async_generator_free(rt, s); } } static void js_async_generator_mark(JSRuntime *rt, JSValue val, JS_MarkFunc *mark_func) { JSAsyncGeneratorData *s = JS_GetOpaque(val, JS_CLASS_ASYNC_GENERATOR); struct list_head *el; JSAsyncGeneratorRequest *req; if (s) { list_for_each(el, &s->queue) { req = list_entry(el, JSAsyncGeneratorRequest, link); JS_MarkValue(rt, req->result, mark_func); JS_MarkValue(rt, req->promise, mark_func); JS_MarkValue(rt, req->resolving_funcs[0], mark_func); JS_MarkValue(rt, req->resolving_funcs[1], mark_func); } if (s->state != JS_ASYNC_GENERATOR_STATE_COMPLETED && s->state != JS_ASYNC_GENERATOR_STATE_AWAITING_RETURN) { async_func_mark(rt, &s->func_state, mark_func); } } } static JSValue js_async_generator_resolve_function(JSContext *ctx, JSValue this_obj, int argc, JSValue *argv, int magic, JSValue *func_data); static int js_async_generator_resolve_function_create(JSContext *ctx, JSValue generator, JSValue *resolving_funcs, BOOL is_resume_next) { int i; JSValue func; for(i = 0; i < 2; i++) { func = JS_NewCFunctionData(ctx, js_async_generator_resolve_function, 1, i + is_resume_next * 2, 1, &generator); if (JS_IsException(func)) { if (i == 1) JS_FreeValue(ctx, resolving_funcs[0]); return -1; } resolving_funcs[i] = func; } return 0; } static int js_async_generator_await(JSContext *ctx, JSAsyncGeneratorData *s, JSValue value) { JSValue promise, resolving_funcs[2], resolving_funcs1[2]; int i, res; promise = js_promise_resolve(ctx, ctx->promise_ctor, 1, &value, 0); if (JS_IsException(promise)) goto fail; if (js_async_generator_resolve_function_create(ctx, JS_MKPTR(JS_TAG_OBJECT, s->generator), resolving_funcs, FALSE)) { JS_FreeValue(ctx, promise); goto fail; } /* Note: no need to create 'thrownawayCapability' as in the spec */ for(i = 0; i < 2; i++) resolving_funcs1[i] = JS_UNDEFINED; res = perform_promise_then(ctx, promise, resolving_funcs, resolving_funcs1); JS_FreeValue(ctx, promise); for(i = 0; i < 2; i++) JS_FreeValue(ctx, resolving_funcs[i]); if (res) goto fail; return 0; fail: return -1; } static void js_async_generator_resolve_or_reject(JSContext *ctx, JSAsyncGeneratorData *s, JSValue result, int is_reject) { JSAsyncGeneratorRequest *next; JSValue ret; next = list_entry(s->queue.next, JSAsyncGeneratorRequest, link); list_del(&next->link); ret = JS_Call(ctx, next->resolving_funcs[is_reject], JS_UNDEFINED, 1, &result); JS_FreeValue(ctx, ret); JS_FreeValue(ctx, next->result); JS_FreeValue(ctx, next->promise); JS_FreeValue(ctx, next->resolving_funcs[0]); JS_FreeValue(ctx, next->resolving_funcs[1]); js_free(ctx, next); } static void js_async_generator_resolve(JSContext *ctx, JSAsyncGeneratorData *s, JSValue value, BOOL done) { JSValue result; result = js_create_iterator_result(ctx, js_dup(value), done); /* XXX: better exception handling ? */ js_async_generator_resolve_or_reject(ctx, s, result, 0); JS_FreeValue(ctx, result); } static void js_async_generator_reject(JSContext *ctx, JSAsyncGeneratorData *s, JSValue exception) { js_async_generator_resolve_or_reject(ctx, s, exception, 1); } static void js_async_generator_complete(JSContext *ctx, JSAsyncGeneratorData *s) { if (s->state != JS_ASYNC_GENERATOR_STATE_COMPLETED) { s->state = JS_ASYNC_GENERATOR_STATE_COMPLETED; async_func_free(ctx->rt, &s->func_state); } } static int js_async_generator_completed_return(JSContext *ctx, JSAsyncGeneratorData *s, JSValue value) { JSValue promise, resolving_funcs[2], resolving_funcs1[2]; int res; // Can fail looking up JS_ATOM_constructor when is_reject==0. promise = js_promise_resolve(ctx, ctx->promise_ctor, 1, &value, /*is_reject*/0); // A poisoned .constructor property is observable and the resulting // exception should be delivered to the catch handler. if (JS_IsException(promise)) { JSValue err = JS_GetException(ctx); promise = js_promise_resolve(ctx, ctx->promise_ctor, 1, &err, /*is_reject*/1); JS_FreeValue(ctx, err); if (JS_IsException(promise)) return -1; } if (js_async_generator_resolve_function_create(ctx, JS_MKPTR(JS_TAG_OBJECT, s->generator), resolving_funcs1, TRUE)) { JS_FreeValue(ctx, promise); return -1; } resolving_funcs[0] = JS_UNDEFINED; resolving_funcs[1] = JS_UNDEFINED; res = perform_promise_then(ctx, promise, resolving_funcs1, resolving_funcs); JS_FreeValue(ctx, resolving_funcs1[0]); JS_FreeValue(ctx, resolving_funcs1[1]); JS_FreeValue(ctx, promise); return res; } static void js_async_generator_resume_next(JSContext *ctx, JSAsyncGeneratorData *s) { JSAsyncGeneratorRequest *next; JSValue func_ret, value; for(;;) { if (list_empty(&s->queue)) break; next = list_entry(s->queue.next, JSAsyncGeneratorRequest, link); switch(s->state) { case JS_ASYNC_GENERATOR_STATE_EXECUTING: /* only happens when restarting execution after await() */ goto resume_exec; case JS_ASYNC_GENERATOR_STATE_AWAITING_RETURN: goto done; case JS_ASYNC_GENERATOR_STATE_SUSPENDED_START: if (next->completion_type == GEN_MAGIC_NEXT) { goto exec_no_arg; } else { js_async_generator_complete(ctx, s); } break; case JS_ASYNC_GENERATOR_STATE_COMPLETED: if (next->completion_type == GEN_MAGIC_NEXT) { js_async_generator_resolve(ctx, s, JS_UNDEFINED, TRUE); } else if (next->completion_type == GEN_MAGIC_RETURN) { s->state = JS_ASYNC_GENERATOR_STATE_AWAITING_RETURN; js_async_generator_completed_return(ctx, s, next->result); } else { js_async_generator_reject(ctx, s, next->result); } goto done; case JS_ASYNC_GENERATOR_STATE_SUSPENDED_YIELD: case JS_ASYNC_GENERATOR_STATE_SUSPENDED_YIELD_STAR: value = js_dup(next->result); if (next->completion_type == GEN_MAGIC_THROW && s->state == JS_ASYNC_GENERATOR_STATE_SUSPENDED_YIELD) { JS_Throw(ctx, value); s->func_state.throw_flag = TRUE; } else { /* 'yield' returns a value. 'yield *' also returns a value in case the 'throw' method is called */ s->func_state.frame.cur_sp[-1] = value; s->func_state.frame.cur_sp[0] = js_int32(next->completion_type); s->func_state.frame.cur_sp++; exec_no_arg: s->func_state.throw_flag = FALSE; } s->state = JS_ASYNC_GENERATOR_STATE_EXECUTING; resume_exec: func_ret = async_func_resume(ctx, &s->func_state); if (JS_IsException(func_ret)) { value = JS_GetException(ctx); js_async_generator_complete(ctx, s); js_async_generator_reject(ctx, s, value); JS_FreeValue(ctx, value); } else if (JS_VALUE_GET_TAG(func_ret) == JS_TAG_INT) { int func_ret_code, ret; value = s->func_state.frame.cur_sp[-1]; s->func_state.frame.cur_sp[-1] = JS_UNDEFINED; func_ret_code = JS_VALUE_GET_INT(func_ret); switch(func_ret_code) { case FUNC_RET_YIELD: case FUNC_RET_YIELD_STAR: if (func_ret_code == FUNC_RET_YIELD_STAR) s->state = JS_ASYNC_GENERATOR_STATE_SUSPENDED_YIELD_STAR; else s->state = JS_ASYNC_GENERATOR_STATE_SUSPENDED_YIELD; js_async_generator_resolve(ctx, s, value, FALSE); JS_FreeValue(ctx, value); break; case FUNC_RET_AWAIT: ret = js_async_generator_await(ctx, s, value); JS_FreeValue(ctx, value); if (ret < 0) { /* exception: throw it */ s->func_state.throw_flag = TRUE; goto resume_exec; } goto done; default: abort(); } } else { assert(JS_IsUndefined(func_ret)); /* end of function */ value = s->func_state.frame.cur_sp[-1]; s->func_state.frame.cur_sp[-1] = JS_UNDEFINED; js_async_generator_complete(ctx, s); js_async_generator_resolve(ctx, s, value, TRUE); JS_FreeValue(ctx, value); } break; default: abort(); } } done: ; } static JSValue js_async_generator_resolve_function(JSContext *ctx, JSValue this_obj, int argc, JSValue *argv, int magic, JSValue *func_data) { BOOL is_reject = magic & 1; JSAsyncGeneratorData *s = JS_GetOpaque(func_data[0], JS_CLASS_ASYNC_GENERATOR); JSValue arg = argv[0]; /* XXX: what if s == NULL */ if (magic >= 2) { /* resume next case in AWAITING_RETURN state */ assert(s->state == JS_ASYNC_GENERATOR_STATE_AWAITING_RETURN || s->state == JS_ASYNC_GENERATOR_STATE_COMPLETED); s->state = JS_ASYNC_GENERATOR_STATE_COMPLETED; if (is_reject) { js_async_generator_reject(ctx, s, arg); } else { js_async_generator_resolve(ctx, s, arg, TRUE); } } else { /* restart function execution after await() */ assert(s->state == JS_ASYNC_GENERATOR_STATE_EXECUTING); s->func_state.throw_flag = is_reject; if (is_reject) { JS_Throw(ctx, js_dup(arg)); } else { /* return value of await */ s->func_state.frame.cur_sp[-1] = js_dup(arg); } js_async_generator_resume_next(ctx, s); } return JS_UNDEFINED; } /* magic = GEN_MAGIC_x */ static JSValue js_async_generator_next(JSContext *ctx, JSValue this_val, int argc, JSValue *argv, int magic) { JSAsyncGeneratorData *s = JS_GetOpaque(this_val, JS_CLASS_ASYNC_GENERATOR); JSValue promise, resolving_funcs[2]; JSAsyncGeneratorRequest *req; promise = JS_NewPromiseCapability(ctx, resolving_funcs); if (JS_IsException(promise)) return JS_EXCEPTION; if (!s) { JSValue err, res2; JS_ThrowTypeError(ctx, "not an AsyncGenerator object"); err = JS_GetException(ctx); res2 = JS_Call(ctx, resolving_funcs[1], JS_UNDEFINED, 1, &err); JS_FreeValue(ctx, err); JS_FreeValue(ctx, res2); JS_FreeValue(ctx, resolving_funcs[0]); JS_FreeValue(ctx, resolving_funcs[1]); return promise; } req = js_mallocz(ctx, sizeof(*req)); if (!req) goto fail; req->completion_type = magic; req->result = js_dup(argv[0]); req->promise = js_dup(promise); req->resolving_funcs[0] = resolving_funcs[0]; req->resolving_funcs[1] = resolving_funcs[1]; list_add_tail(&req->link, &s->queue); if (s->state != JS_ASYNC_GENERATOR_STATE_EXECUTING) { js_async_generator_resume_next(ctx, s); } return promise; fail: JS_FreeValue(ctx, resolving_funcs[0]); JS_FreeValue(ctx, resolving_funcs[1]); JS_FreeValue(ctx, promise); return JS_EXCEPTION; } static JSValue js_async_generator_function_call(JSContext *ctx, JSValue func_obj, JSValue this_obj, int argc, JSValue *argv, int flags) { JSValue obj, func_ret; JSAsyncGeneratorData *s; s = js_mallocz(ctx, sizeof(*s)); if (!s) return JS_EXCEPTION; s->state = JS_ASYNC_GENERATOR_STATE_SUSPENDED_START; init_list_head(&s->queue); if (async_func_init(ctx, &s->func_state, func_obj, this_obj, argc, argv)) { s->state = JS_ASYNC_GENERATOR_STATE_COMPLETED; goto fail; } /* execute the function up to 'OP_initial_yield' (no yield nor await are possible) */ func_ret = async_func_resume(ctx, &s->func_state); if (JS_IsException(func_ret)) goto fail; JS_FreeValue(ctx, func_ret); obj = js_create_from_ctor(ctx, func_obj, JS_CLASS_ASYNC_GENERATOR); if (JS_IsException(obj)) goto fail; s->generator = JS_VALUE_GET_OBJ(obj); JS_SetOpaque(obj, s); return obj; fail: js_async_generator_free(ctx->rt, s); return JS_EXCEPTION; } /* JS parser */ enum { TOK_NUMBER = -128, TOK_STRING, TOK_TEMPLATE, TOK_IDENT, TOK_REGEXP, /* warning: order matters (see js_parse_assign_expr) */ TOK_MUL_ASSIGN, TOK_DIV_ASSIGN, TOK_MOD_ASSIGN, TOK_PLUS_ASSIGN, TOK_MINUS_ASSIGN, TOK_SHL_ASSIGN, TOK_SAR_ASSIGN, TOK_SHR_ASSIGN, TOK_AND_ASSIGN, TOK_XOR_ASSIGN, TOK_OR_ASSIGN, TOK_POW_ASSIGN, TOK_LAND_ASSIGN, TOK_LOR_ASSIGN, TOK_DOUBLE_QUESTION_MARK_ASSIGN, TOK_DEC, TOK_INC, TOK_SHL, TOK_SAR, TOK_SHR, TOK_LT, TOK_LTE, TOK_GT, TOK_GTE, TOK_EQ, TOK_STRICT_EQ, TOK_NEQ, TOK_STRICT_NEQ, TOK_LAND, TOK_LOR, TOK_POW, TOK_ARROW, TOK_ELLIPSIS, TOK_DOUBLE_QUESTION_MARK, TOK_QUESTION_MARK_DOT, TOK_ERROR, TOK_PRIVATE_NAME, TOK_EOF, /* keywords: WARNING: same order as atoms */ TOK_NULL, /* must be first */ TOK_FALSE, TOK_TRUE, TOK_IF, TOK_ELSE, TOK_RETURN, TOK_VAR, TOK_THIS, TOK_DELETE, TOK_VOID, TOK_TYPEOF, TOK_NEW, TOK_IN, TOK_INSTANCEOF, TOK_DO, TOK_WHILE, TOK_FOR, TOK_BREAK, TOK_CONTINUE, TOK_SWITCH, TOK_CASE, TOK_DEFAULT, TOK_THROW, TOK_TRY, TOK_CATCH, TOK_FINALLY, TOK_FUNCTION, TOK_DEBUGGER, TOK_WITH, /* FutureReservedWord */ TOK_CLASS, TOK_CONST, TOK_ENUM, TOK_EXPORT, TOK_EXTENDS, TOK_IMPORT, TOK_SUPER, /* FutureReservedWords when parsing strict mode code */ TOK_IMPLEMENTS, TOK_INTERFACE, TOK_LET, TOK_PACKAGE, TOK_PRIVATE, TOK_PROTECTED, TOK_PUBLIC, TOK_STATIC, TOK_YIELD, TOK_AWAIT, /* must be last */ TOK_OF, /* only used for js_parse_skip_parens_token() */ }; #define TOK_FIRST_KEYWORD TOK_NULL #define TOK_LAST_KEYWORD TOK_AWAIT /* unicode code points */ #define CP_NBSP 0x00a0 #define CP_BOM 0xfeff #define CP_LS 0x2028 #define CP_PS 0x2029 typedef struct BlockEnv { struct BlockEnv *prev; JSAtom label_name; /* JS_ATOM_NULL if none */ int label_break; /* -1 if none */ int label_cont; /* -1 if none */ int drop_count; /* number of stack elements to drop */ int label_finally; /* -1 if none */ int scope_level; int has_iterator; } BlockEnv; typedef struct JSGlobalVar { int cpool_idx; /* if >= 0, index in the constant pool for hoisted function defintion*/ uint8_t force_init : 1; /* force initialization to undefined */ uint8_t is_lexical : 1; /* global let/const definition */ uint8_t is_const : 1; /* const definition */ int scope_level; /* scope of definition */ JSAtom var_name; /* variable name */ } JSGlobalVar; typedef struct RelocEntry { struct RelocEntry *next; uint32_t addr; /* address to patch */ int size; /* address size: 1, 2 or 4 bytes */ } RelocEntry; typedef struct JumpSlot { int op; int size; int pos; int label; } JumpSlot; typedef struct LabelSlot { int ref_count; int pos; /* phase 1 address, -1 means not resolved yet */ int pos2; /* phase 2 address, -1 means not resolved yet */ int addr; /* phase 3 address, -1 means not resolved yet */ RelocEntry *first_reloc; } LabelSlot; typedef struct SourceLocSlot { uint32_t pc; int line_num; int col_num; } SourceLocSlot; typedef enum JSParseFunctionEnum { JS_PARSE_FUNC_STATEMENT, JS_PARSE_FUNC_VAR, JS_PARSE_FUNC_EXPR, JS_PARSE_FUNC_ARROW, JS_PARSE_FUNC_GETTER, JS_PARSE_FUNC_SETTER, JS_PARSE_FUNC_METHOD, JS_PARSE_FUNC_CLASS_STATIC_INIT, JS_PARSE_FUNC_CLASS_CONSTRUCTOR, JS_PARSE_FUNC_DERIVED_CLASS_CONSTRUCTOR, } JSParseFunctionEnum; typedef enum JSParseExportEnum { JS_PARSE_EXPORT_NONE, JS_PARSE_EXPORT_NAMED, JS_PARSE_EXPORT_DEFAULT, } JSParseExportEnum; typedef struct JSFunctionDef { JSContext *ctx; struct JSFunctionDef *parent; int parent_cpool_idx; /* index in the constant pool of the parent or -1 if none */ int parent_scope_level; /* scope level in parent at point of definition */ struct list_head child_list; /* list of JSFunctionDef.link */ struct list_head link; BOOL is_eval; /* TRUE if eval code */ int eval_type; /* only valid if is_eval = TRUE */ BOOL is_global_var; /* TRUE if variables are not defined locally: eval global, eval module or non strict eval */ BOOL is_func_expr; /* TRUE if function expression */ BOOL has_home_object; /* TRUE if the home object is available */ BOOL has_prototype; /* true if a prototype field is necessary */ BOOL has_simple_parameter_list; BOOL has_parameter_expressions; /* if true, an argument scope is created */ BOOL has_use_strict; /* to reject directive in special cases */ BOOL has_eval_call; /* true if the function contains a call to eval() */ BOOL has_arguments_binding; /* true if the 'arguments' binding is available in the function */ BOOL has_this_binding; /* true if the 'this' and new.target binding are available in the function */ BOOL new_target_allowed; /* true if the 'new.target' does not throw a syntax error */ BOOL super_call_allowed; /* true if super() is allowed */ BOOL super_allowed; /* true if super. or super[] is allowed */ BOOL arguments_allowed; /* true if the 'arguments' identifier is allowed */ BOOL is_derived_class_constructor; BOOL in_function_body; BOOL backtrace_barrier; JSFunctionKindEnum func_kind : 8; JSParseFunctionEnum func_type : 8; uint8_t js_mode; /* bitmap of JS_MODE_x */ JSAtom func_name; /* JS_ATOM_NULL if no name */ JSVarDef *vars; int var_size; /* allocated size for vars[] */ int var_count; JSVarDef *args; int arg_size; /* allocated size for args[] */ int arg_count; /* number of arguments */ int defined_arg_count; int var_object_idx; /* -1 if none */ int arg_var_object_idx; /* -1 if none (var object for the argument scope) */ int arguments_var_idx; /* -1 if none */ int arguments_arg_idx; /* argument variable definition in argument scope, -1 if none */ int func_var_idx; /* variable containing the current function (-1 if none, only used if is_func_expr is true) */ int eval_ret_idx; /* variable containing the return value of the eval, -1 if none */ int this_var_idx; /* variable containg the 'this' value, -1 if none */ int new_target_var_idx; /* variable containg the 'new.target' value, -1 if none */ int this_active_func_var_idx; /* variable containg the 'this.active_func' value, -1 if none */ int home_object_var_idx; BOOL need_home_object; int scope_level; /* index into fd->scopes if the current lexical scope */ int scope_first; /* index into vd->vars of first lexically scoped variable */ int scope_size; /* allocated size of fd->scopes array */ int scope_count; /* number of entries used in the fd->scopes array */ JSVarScope *scopes; JSVarScope def_scope_array[4]; int body_scope; /* scope of the body of the function or eval */ int global_var_count; int global_var_size; JSGlobalVar *global_vars; DynBuf byte_code; int last_opcode_pos; /* -1 if no last opcode */ int last_opcode_line_num; int last_opcode_col_num; BOOL use_short_opcodes; /* true if short opcodes are used in byte_code */ LabelSlot *label_slots; int label_size; /* allocated size for label_slots[] */ int label_count; BlockEnv *top_break; /* break/continue label stack */ /* constant pool (strings, functions, numbers) */ JSValue *cpool; int cpool_count; int cpool_size; /* list of variables in the closure */ int closure_var_count; int closure_var_size; JSClosureVar *closure_var; JumpSlot *jump_slots; int jump_size; int jump_count; SourceLocSlot *source_loc_slots; int source_loc_size; int source_loc_count; int line_number_last; int line_number_last_pc; int col_number_last; /* pc2line table */ JSAtom filename; int line_num; int col_num; DynBuf pc2line; char *source; /* raw source, utf-8 encoded */ int source_len; JSModuleDef *module; /* != NULL when parsing a module */ BOOL has_await; /* TRUE if await is used (used in module eval) */ JSInlineCache *ic; /* inline cache for field op */ } JSFunctionDef; typedef struct JSToken { int val; int line_num; /* line number of token start */ int col_num; /* column number of token start */ const uint8_t *ptr; union { struct { JSValue str; int sep; } str; struct { JSValue val; } num; struct { JSAtom atom; BOOL has_escape; BOOL is_reserved; } ident; struct { JSValue body; JSValue flags; } regexp; } u; } JSToken; typedef struct JSParseState { JSContext *ctx; int last_line_num; /* line number of last token */ int last_col_num; /* column number of last token */ int line_num; /* line number of current offset */ int col_num; /* column number of current offset */ const char *filename; JSToken token; BOOL got_lf; /* true if got line feed before the current token */ const uint8_t *last_ptr; const uint8_t *buf_start; const uint8_t *buf_ptr; const uint8_t *buf_end; const uint8_t *eol; // most recently seen end-of-line character const uint8_t *mark; // first token character, invariant: eol < mark /* current function code */ JSFunctionDef *cur_func; BOOL is_module; /* parsing a module */ BOOL allow_html_comments; } JSParseState; typedef struct JSOpCode { #ifdef DUMP_BYTECODE const char *name; #endif uint8_t size; /* in bytes */ /* the opcodes remove n_pop items from the top of the stack, then pushes n_push items */ uint8_t n_pop; uint8_t n_push; uint8_t fmt; } JSOpCode; static const JSOpCode opcode_info[OP_COUNT + (OP_TEMP_END - OP_TEMP_START)] = { #define FMT(f) #ifdef DUMP_BYTECODE #define DEF(id, size, n_pop, n_push, f) { #id, size, n_pop, n_push, OP_FMT_ ## f }, #else #define DEF(id, size, n_pop, n_push, f) { size, n_pop, n_push, OP_FMT_ ## f }, #endif #include "quickjs-opcode.h" #undef DEF #undef FMT }; /* After the final compilation pass, short opcodes are used. Their opcodes overlap with the temporary opcodes which cannot appear in the final bytecode. Their description is after the temporary opcodes in opcode_info[]. */ #define short_opcode_info(op) \ opcode_info[(op) >= OP_TEMP_START ? \ (op) + (OP_TEMP_END - OP_TEMP_START) : (op)] static __exception int next_token(JSParseState *s); static void free_token(JSParseState *s, JSToken *token) { switch(token->val) { case TOK_NUMBER: JS_FreeValue(s->ctx, token->u.num.val); break; case TOK_STRING: case TOK_TEMPLATE: JS_FreeValue(s->ctx, token->u.str.str); break; case TOK_REGEXP: JS_FreeValue(s->ctx, token->u.regexp.body); JS_FreeValue(s->ctx, token->u.regexp.flags); break; case TOK_IDENT: case TOK_PRIVATE_NAME: JS_FreeAtom(s->ctx, token->u.ident.atom); break; default: if (token->val >= TOK_FIRST_KEYWORD && token->val <= TOK_LAST_KEYWORD) { JS_FreeAtom(s->ctx, token->u.ident.atom); } break; } } static void __attribute((unused)) dump_token(JSParseState *s, const JSToken *token) { printf("%d:%d ", token->line_num, token->col_num); switch(token->val) { case TOK_NUMBER: { double d; JS_ToFloat64(s->ctx, &d, token->u.num.val); /* no exception possible */ printf("number: %.14g\n", d); } break; case TOK_IDENT: dump_atom: { char buf[ATOM_GET_STR_BUF_SIZE]; printf("ident: '%s'\n", JS_AtomGetStr(s->ctx, buf, sizeof(buf), token->u.ident.atom)); } break; case TOK_STRING: { const char *str; /* XXX: quote the string */ str = JS_ToCString(s->ctx, token->u.str.str); printf("string: '%s'\n", str); JS_FreeCString(s->ctx, str); } break; case TOK_TEMPLATE: { const char *str; str = JS_ToCString(s->ctx, token->u.str.str); printf("template: `%s`\n", str); JS_FreeCString(s->ctx, str); } break; case TOK_REGEXP: { const char *str, *str2; str = JS_ToCString(s->ctx, token->u.regexp.body); str2 = JS_ToCString(s->ctx, token->u.regexp.flags); printf("regexp: '%s' '%s'\n", str, str2); JS_FreeCString(s->ctx, str); JS_FreeCString(s->ctx, str2); } break; case TOK_EOF: printf("eof\n"); break; default: if (s->token.val >= TOK_NULL && s->token.val <= TOK_LAST_KEYWORD) { goto dump_atom; } else if (s->token.val >= 256) { printf("token: %d\n", token->val); } else { printf("token: '%c'\n", token->val); } break; } } int __attribute__((format(printf, 2, 3))) js_parse_error(JSParseState *s, const char *fmt, ...) { JSContext *ctx = s->ctx; va_list ap; int backtrace_flags; va_start(ap, fmt); JS_ThrowError2(ctx, JS_SYNTAX_ERROR, fmt, ap, FALSE); va_end(ap); backtrace_flags = 0; if (s->cur_func && s->cur_func->backtrace_barrier) backtrace_flags = JS_BACKTRACE_FLAG_SINGLE_LEVEL; build_backtrace(ctx, ctx->rt->current_exception, s->filename, s->line_num, s->col_num, backtrace_flags); return -1; } static int js_parse_expect(JSParseState *s, int tok) { char buf[ATOM_GET_STR_BUF_SIZE]; if (s->token.val == tok) return next_token(s); switch(s->token.val) { case TOK_EOF: return js_parse_error(s, "Unexpected end of input"); case TOK_NUMBER: return js_parse_error(s, "Unexpected number"); case TOK_STRING: return js_parse_error(s, "Unexpected string"); case TOK_TEMPLATE: return js_parse_error(s, "Unexpected string template"); case TOK_REGEXP: return js_parse_error(s, "Unexpected regexp"); case TOK_IDENT: return js_parse_error(s, "Unexpected identifier '%s'", JS_AtomGetStr(s->ctx, buf, sizeof(buf), s->token.u.ident.atom)); case TOK_ERROR: return js_parse_error(s, "Invalid or unexpected token"); default: return js_parse_error(s, "Unexpected token '%.*s'", (int)(s->buf_ptr - s->token.ptr), (const char *)s->token.ptr); } } static int js_parse_expect_semi(JSParseState *s) { if (s->token.val != ';') { /* automatic insertion of ';' */ if (s->token.val == TOK_EOF || s->token.val == '}' || s->got_lf) { return 0; } return js_parse_error(s, "expecting '%c'", ';'); } return next_token(s); } static int js_parse_error_reserved_identifier(JSParseState *s) { char buf1[ATOM_GET_STR_BUF_SIZE]; return js_parse_error(s, "'%s' is a reserved identifier", JS_AtomGetStr(s->ctx, buf1, sizeof(buf1), s->token.u.ident.atom)); } static __exception int js_parse_template_part(JSParseState *s, const uint8_t *p) { const uint8_t *p_next; uint32_t c; StringBuffer b_s, *b = &b_s; /* p points to the first byte of the template part */ if (string_buffer_init(s->ctx, b, 32)) goto fail; for(;;) { if (p >= s->buf_end) goto unexpected_eof; c = *p++; if (c == '`') { /* template end part */ break; } if (c == '$' && *p == '{') { /* template start or middle part */ p++; break; } if (c == '\\') { if (string_buffer_putc8(b, c)) goto fail; if (p >= s->buf_end) goto unexpected_eof; c = *p++; } /* newline sequences are normalized as single '\n' bytes */ if (c == '\r') { if (*p == '\n') p++; c = '\n'; } if (c == '\n') { s->line_num++; s->eol = &p[-1]; s->mark = p; } else if (c >= 0x80) { c = utf8_decode(p - 1, &p_next); if (p_next == p) { js_parse_error(s, "invalid UTF-8 sequence"); goto fail; } p = p_next; } if (string_buffer_putc(b, c)) goto fail; } s->token.val = TOK_TEMPLATE; s->token.u.str.sep = c; s->token.u.str.str = string_buffer_end(b); s->buf_ptr = p; return 0; unexpected_eof: js_parse_error(s, "unexpected end of string"); fail: string_buffer_free(b); return -1; } static __exception int js_parse_string(JSParseState *s, int sep, BOOL do_throw, const uint8_t *p, JSToken *token, const uint8_t **pp) { const uint8_t *p_next; int ret; uint32_t c; StringBuffer b_s, *b = &b_s; /* string */ if (string_buffer_init(s->ctx, b, 32)) goto fail; for(;;) { if (p >= s->buf_end) goto invalid_char; c = *p; if (c < 0x20) { if (sep == '`') { if (c == '\r') { if (p[1] == '\n') p++; c = '\n'; } /* do not update s->line_num */ } else if (c == '\n' || c == '\r') goto invalid_char; } p++; if (c == sep) break; if (c == '$' && *p == '{' && sep == '`') { /* template start or middle part */ p++; break; } if (c == '\\') { c = *p; switch(c) { case '\0': if (p >= s->buf_end) { if (sep != '`') goto invalid_char; if (do_throw) js_parse_error(s, "Unexpected end of input"); goto fail; } p++; break; case '\'': case '\"': case '\\': p++; break; case '\r': /* accept DOS and MAC newline sequences */ if (p[1] == '\n') { p++; } /* fall thru */ case '\n': /* ignore escaped newline sequence */ p++; if (sep != '`') { s->line_num++; s->eol = &p[-1]; s->mark = p; } continue; default: if (c == '0' && !(p[1] >= '0' && p[1] <= '9')) { /* accept isolated \0 */ p++; c = '\0'; } else if ((c >= '0' && c <= '9') && ((s->cur_func->js_mode & JS_MODE_STRICT) || sep == '`')) { if (do_throw) { js_parse_error(s, "%s are not allowed in %s", (c >= '8') ? "\\8 and \\9" : "Octal escape sequences", (sep == '`') ? "template strings" : "strict mode"); } goto fail; } else if (c >= 0x80) { c = utf8_decode(p, &p_next); if (p_next == p + 1) { goto invalid_utf8; } p = p_next; /* LS or PS are skipped */ if (c == CP_LS || c == CP_PS) continue; } else { ret = lre_parse_escape(&p, TRUE); if (ret == -1) { if (do_throw) { js_parse_error(s, "Invalid %s escape sequence", c == 'u' ? "Unicode" : "hexadecimal"); } goto fail; } else if (ret < 0) { /* ignore the '\' (could output a warning) */ p++; } else { c = ret; } } break; } } else if (c >= 0x80) { c = utf8_decode(p - 1, &p_next); if (p_next == p) goto invalid_utf8; p = p_next; } if (string_buffer_putc(b, c)) goto fail; } token->val = TOK_STRING; token->u.str.sep = c; token->u.str.str = string_buffer_end(b); *pp = p; return 0; invalid_utf8: if (do_throw) js_parse_error(s, "invalid UTF-8 sequence"); goto fail; invalid_char: if (do_throw) js_parse_error(s, "unexpected end of string"); fail: string_buffer_free(b); return -1; } static inline BOOL token_is_pseudo_keyword(JSParseState *s, JSAtom atom) { return s->token.val == TOK_IDENT && s->token.u.ident.atom == atom && !s->token.u.ident.has_escape; } static __exception int js_parse_regexp(JSParseState *s) { const uint8_t *p, *p_next; BOOL in_class; StringBuffer b_s, *b = &b_s; StringBuffer b2_s, *b2 = &b2_s; uint32_t c; p = s->buf_ptr; p++; in_class = FALSE; if (string_buffer_init(s->ctx, b, 32)) return -1; if (string_buffer_init(s->ctx, b2, 1)) goto fail; for(;;) { if (p >= s->buf_end) { eof_error: js_parse_error(s, "unexpected end of regexp"); goto fail; } c = *p++; if (c == '\n' || c == '\r') { goto eol_error; } else if (c == '/') { if (!in_class) break; } else if (c == '[') { in_class = TRUE; } else if (c == ']') { /* XXX: incorrect as the first character in a class */ in_class = FALSE; } else if (c == '\\') { if (string_buffer_putc8(b, c)) goto fail; c = *p++; if (c == '\n' || c == '\r') goto eol_error; else if (c == '\0' && p >= s->buf_end) goto eof_error; else if (c >= 0x80) { c = utf8_decode(p - 1, &p_next); if (p_next == p) { goto invalid_utf8; } p = p_next; if (c == CP_LS || c == CP_PS) goto eol_error; } } else if (c >= 0x80) { c = utf8_decode(p - 1, &p_next); if (p_next == p) { invalid_utf8: js_parse_error(s, "invalid UTF-8 sequence"); goto fail; } p = p_next; /* LS or PS are considered as line terminator */ if (c == CP_LS || c == CP_PS) { eol_error: js_parse_error(s, "unexpected line terminator in regexp"); goto fail; } } if (string_buffer_putc(b, c)) goto fail; } /* flags */ for(;;) { c = utf8_decode(p, &p_next); /* no need to test for invalid UTF-8, 0xFFFD is not ident_next */ if (!lre_js_is_ident_next(c)) break; if (string_buffer_putc(b2, c)) goto fail; p = p_next; } s->token.val = TOK_REGEXP; s->token.u.regexp.body = string_buffer_end(b); s->token.u.regexp.flags = string_buffer_end(b2); s->buf_ptr = p; return 0; fail: string_buffer_free(b); string_buffer_free(b2); return -1; } static __exception int ident_realloc(JSContext *ctx, char **pbuf, size_t *psize, char *static_buf) { char *buf, *new_buf; size_t size, new_size; buf = *pbuf; size = *psize; if (size >= (SIZE_MAX / 3) * 2) new_size = SIZE_MAX; else new_size = size + (size >> 1); if (buf == static_buf) { new_buf = js_malloc(ctx, new_size); if (!new_buf) return -1; memcpy(new_buf, buf, size); } else { new_buf = js_realloc(ctx, buf, new_size); if (!new_buf) return -1; } *pbuf = new_buf; *psize = new_size; return 0; } /* 'c' is the first character. Return JS_ATOM_NULL in case of error */ static JSAtom parse_ident(JSParseState *s, const uint8_t **pp, BOOL *pident_has_escape, int c, BOOL is_private) { const uint8_t *p, *p_next; char ident_buf[128], *buf; size_t ident_size, ident_pos; JSAtom atom = JS_ATOM_NULL; p = *pp; buf = ident_buf; ident_size = sizeof(ident_buf); ident_pos = 0; if (is_private) buf[ident_pos++] = '#'; for(;;) { if (c < 0x80) { buf[ident_pos++] = c; } else { ident_pos += utf8_encode((uint8_t*)buf + ident_pos, c); } c = *p; p_next = p + 1; if (c == '\\' && *p_next == 'u') { c = lre_parse_escape(&p_next, TRUE); *pident_has_escape = TRUE; } else if (c >= 0x80) { c = utf8_decode(p, &p_next); /* no need to test for invalid UTF-8, 0xFFFD is not ident_next */ } if (!lre_js_is_ident_next(c)) break; p = p_next; if (unlikely(ident_pos >= ident_size - UTF8_CHAR_LEN_MAX)) { if (ident_realloc(s->ctx, &buf, &ident_size, ident_buf)) goto done; } } /* buf is pure ASCII or UTF-8 encoded */ atom = JS_NewAtomLen(s->ctx, buf, ident_pos); done: if (unlikely(buf != ident_buf)) js_free(s->ctx, buf); *pp = p; return atom; } static __exception int next_token(JSParseState *s) { const uint8_t *p, *p_next; int c; BOOL ident_has_escape; JSAtom atom; int flags, radix; if (js_check_stack_overflow(s->ctx->rt, 1000)) { JS_ThrowStackOverflow(s->ctx); return -1; } free_token(s, &s->token); p = s->last_ptr = s->buf_ptr; s->got_lf = FALSE; s->last_line_num = s->token.line_num; s->last_col_num = s->token.col_num; redo: s->token.line_num = s->line_num; s->token.col_num = s->col_num; s->token.ptr = p; c = *p; switch(c) { case 0: if (p >= s->buf_end) { s->token.val = TOK_EOF; } else { goto def_token; } break; case '`': if (js_parse_template_part(s, p + 1)) goto fail; p = s->buf_ptr; break; case '\'': case '\"': if (js_parse_string(s, c, TRUE, p + 1, &s->token, &p)) goto fail; break; case '\r': /* accept DOS and MAC newline sequences */ if (p[1] == '\n') { p++; } /* fall thru */ case '\n': p++; line_terminator: s->eol = &p[-1]; s->mark = p; s->got_lf = TRUE; s->line_num++; goto redo; case '\f': case '\v': case ' ': case '\t': s->mark = ++p; goto redo; case '/': if (p[1] == '*') { /* comment */ p += 2; for(;;) { if (*p == '\0' && p >= s->buf_end) { js_parse_error(s, "unexpected end of comment"); goto fail; } if (p[0] == '*' && p[1] == '/') { p += 2; break; } if (*p == '\n') { s->line_num++; s->got_lf = TRUE; /* considered as LF for ASI */ s->eol = p++; s->mark = p; } else if (*p == '\r') { s->got_lf = TRUE; /* considered as LF for ASI */ p++; } else if (*p >= 0x80) { c = utf8_decode(p, &p); /* ignore invalid UTF-8 in comments */ if (c == CP_LS || c == CP_PS) { s->got_lf = TRUE; /* considered as LF for ASI */ } } else { p++; } } s->mark = p; goto redo; } else if (p[1] == '/') { /* line comment */ p += 2; skip_line_comment: for(;;) { if (*p == '\0' && p >= s->buf_end) break; if (*p == '\r' || *p == '\n') break; if (*p >= 0x80) { c = utf8_decode(p, &p); /* ignore invalid UTF-8 in comments */ /* LS or PS are considered as line terminator */ if (c == CP_LS || c == CP_PS) { break; } } else { p++; } } s->mark = p; goto redo; } else if (p[1] == '=') { p += 2; s->token.val = TOK_DIV_ASSIGN; } else { p++; s->token.val = c; } break; case '\\': if (p[1] == 'u') { const uint8_t *p1 = p + 1; int c1 = lre_parse_escape(&p1, TRUE); if (c1 >= 0 && lre_js_is_ident_first(c1)) { c = c1; p = p1; ident_has_escape = TRUE; goto has_ident; } else { /* XXX: syntax error? */ } } goto def_token; case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'g': case 'h': case 'i': case 'j': case 'k': case 'l': case 'm': case 'n': case 'o': case 'p': case 'q': case 'r': case 's': case 't': case 'u': case 'v': case 'w': case 'x': case 'y': case 'z': case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'G': case 'H': case 'I': case 'J': case 'K': case 'L': case 'M': case 'N': case 'O': case 'P': case 'Q': case 'R': case 'S': case 'T': case 'U': case 'V': case 'W': case 'X': case 'Y': case 'Z': case '_': case '$': /* identifier */ p++; ident_has_escape = FALSE; has_ident: atom = parse_ident(s, &p, &ident_has_escape, c, FALSE); if (atom == JS_ATOM_NULL) goto fail; s->token.u.ident.atom = atom; s->token.u.ident.has_escape = ident_has_escape; s->token.u.ident.is_reserved = FALSE; // TODO(bnoordhuis) accept await when used in a function expression // inside the static initializer block if (s->cur_func->func_type == JS_PARSE_FUNC_CLASS_STATIC_INIT && (atom == JS_ATOM_arguments || atom == JS_ATOM_await)) { s->token.u.ident.is_reserved = TRUE; s->token.val = TOK_IDENT; } else if (s->token.u.ident.atom <= JS_ATOM_LAST_KEYWORD || (s->token.u.ident.atom <= JS_ATOM_LAST_STRICT_KEYWORD && (s->cur_func->js_mode & JS_MODE_STRICT)) || (s->token.u.ident.atom == JS_ATOM_yield && ((s->cur_func->func_kind & JS_FUNC_GENERATOR) || (s->cur_func->func_type == JS_PARSE_FUNC_ARROW && !s->cur_func->in_function_body && s->cur_func->parent && (s->cur_func->parent->func_kind & JS_FUNC_GENERATOR)))) || (s->token.u.ident.atom == JS_ATOM_await && (s->is_module || (((s->cur_func->func_kind & JS_FUNC_ASYNC) || (s->cur_func->func_type == JS_PARSE_FUNC_ARROW && !s->cur_func->in_function_body && s->cur_func->parent && (s->cur_func->parent->func_kind & JS_FUNC_ASYNC))))))) { if (ident_has_escape) { s->token.u.ident.is_reserved = TRUE; s->token.val = TOK_IDENT; } else { /* The keywords atoms are pre allocated */ s->token.val = s->token.u.ident.atom - 1 + TOK_FIRST_KEYWORD; } } else { s->token.val = TOK_IDENT; } break; case '#': /* private name */ { p++; c = *p; p_next = p + 1; if (c == '\\' && *p_next == 'u') { c = lre_parse_escape(&p_next, TRUE); } else if (c >= 0x80) { c = utf8_decode(p, &p_next); if (p_next == p + 1) goto invalid_utf8; } if (!lre_js_is_ident_first(c)) { js_parse_error(s, "invalid first character of private name"); goto fail; } p = p_next; ident_has_escape = FALSE; /* not used */ atom = parse_ident(s, &p, &ident_has_escape, c, TRUE); if (atom == JS_ATOM_NULL) goto fail; s->token.u.ident.atom = atom; s->token.val = TOK_PRIVATE_NAME; } break; case '.': if (p[1] == '.' && p[2] == '.') { p += 3; s->token.val = TOK_ELLIPSIS; break; } if (p[1] >= '0' && p[1] <= '9') { flags = ATOD_ACCEPT_UNDERSCORES | ATOD_ACCEPT_FLOAT; radix = 10; goto parse_number; } goto def_token; case '0': if (is_digit(p[1])) { /* handle legacy octal */ if (s->cur_func->js_mode & JS_MODE_STRICT) { js_parse_error(s, "Octal literals are not allowed in strict mode"); goto fail; } /* Legacy octal: no separators, no suffix, no floats, base 8 unless non octal digits are detected */ flags = 0; radix = 8; while (is_digit(*p)) { if (*p >= '8' && *p <= '9') radix = 10; p++; } p = s->token.ptr; goto parse_number; } if (p[1] == '_') { js_parse_error(s, "Numeric separator can not be used after leading 0"); goto fail; } flags = ATOD_ACCEPT_HEX_PREFIX | ATOD_ACCEPT_BIN_OCT | ATOD_ACCEPT_FLOAT | ATOD_ACCEPT_UNDERSCORES | ATOD_ACCEPT_SUFFIX; radix = 10; goto parse_number; case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* number */ { JSValue ret; const char *p1; flags = ATOD_ACCEPT_FLOAT | ATOD_ACCEPT_UNDERSCORES | ATOD_ACCEPT_SUFFIX; radix = 10; parse_number: p1 = (const char *)p; ret = js_atof(s->ctx, p1, s->buf_end - p, &p1, radix, flags); p = (const uint8_t *)p1; if (JS_IsException(ret)) goto fail; /* reject `10instanceof Number` */ if (JS_VALUE_IS_NAN(ret) || lre_js_is_ident_next(utf8_decode(p, &p_next))) { JS_FreeValue(s->ctx, ret); js_parse_error(s, "invalid number literal"); goto fail; } s->token.val = TOK_NUMBER; s->token.u.num.val = ret; } break; case '*': if (p[1] == '=') { p += 2; s->token.val = TOK_MUL_ASSIGN; } else if (p[1] == '*') { if (p[2] == '=') { p += 3; s->token.val = TOK_POW_ASSIGN; } else { p += 2; s->token.val = TOK_POW; } } else { goto def_token; } break; case '%': if (p[1] == '=') { p += 2; s->token.val = TOK_MOD_ASSIGN; } else { goto def_token; } break; case '+': if (p[1] == '=') { p += 2; s->token.val = TOK_PLUS_ASSIGN; } else if (p[1] == '+') { p += 2; s->token.val = TOK_INC; } else { goto def_token; } break; case '-': if (p[1] == '=') { p += 2; s->token.val = TOK_MINUS_ASSIGN; } else if (p[1] == '-') { if (s->allow_html_comments && p[2] == '>' && (s->got_lf || s->last_ptr == s->buf_start)) { /* Annex B: `-->` at beginning of line is an html comment end. It extends to the end of the line. */ goto skip_line_comment; } p += 2; s->token.val = TOK_DEC; } else { goto def_token; } break; case '<': if (p[1] == '=') { p += 2; s->token.val = TOK_LTE; } else if (p[1] == '<') { if (p[2] == '=') { p += 3; s->token.val = TOK_SHL_ASSIGN; } else { p += 2; s->token.val = TOK_SHL; } } else if (s->allow_html_comments && p[1] == '!' && p[2] == '-' && p[3] == '-') { /* Annex B: handle `