1 // Copyright 2012 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 
5 #ifndef V8_ISOLATE_H_
6 #define V8_ISOLATE_H_
7 
8 #include <queue>
9 #include <set>
10 
11 #include "include/v8-debug.h"
12 #include "src/allocation.h"
13 #include "src/assert-scope.h"
14 #include "src/base/atomicops.h"
15 #include "src/builtins.h"
16 #include "src/cancelable-task.h"
17 #include "src/contexts.h"
18 #include "src/date.h"
19 #include "src/execution.h"
20 #include "src/frames.h"
21 #include "src/futex-emulation.h"
22 #include "src/global-handles.h"
23 #include "src/handles.h"
24 #include "src/hashmap.h"
25 #include "src/heap/heap.h"
26 #include "src/messages.h"
27 #include "src/optimizing-compile-dispatcher.h"
28 #include "src/regexp/regexp-stack.h"
29 #include "src/runtime/runtime.h"
30 #include "src/runtime-profiler.h"
31 #include "src/zone.h"
32 
33 namespace v8 {
34 
35 namespace base {
36 class RandomNumberGenerator;
37 }
38 
39 namespace internal {
40 
41 class BasicBlockProfiler;
42 class Bootstrapper;
43 class CallInterfaceDescriptorData;
44 class CodeGenerator;
45 class CodeRange;
46 class CodeStubDescriptor;
47 class CodeTracer;
48 class CompilationCache;
49 class CompilationStatistics;
50 class ContextSlotCache;
51 class Counters;
52 class CpuFeatures;
53 class CpuProfiler;
54 class DeoptimizerData;
55 class Deserializer;
56 class EmptyStatement;
57 class ExternalCallbackScope;
58 class ExternalReferenceTable;
59 class Factory;
60 class FunctionInfoListener;
61 class HandleScopeImplementer;
62 class HeapProfiler;
63 class HStatistics;
64 class HTracer;
65 class InlineRuntimeFunctionsTable;
66 class InnerPointerToCodeCache;
67 class Logger;
68 class MaterializedObjectStore;
69 class CodeAgingHelper;
70 class RegExpStack;
71 class SaveContext;
72 class StatsTable;
73 class StringTracker;
74 class StubCache;
75 class SweeperThread;
76 class ThreadManager;
77 class ThreadState;
78 class ThreadVisitor;  // Defined in v8threads.h
79 class UnicodeCache;
80 template <StateTag Tag> class VMState;
81 
82 // 'void function pointer', used to roundtrip the
83 // ExternalReference::ExternalReferenceRedirector since we can not include
84 // assembler.h, where it is defined, here.
85 typedef void* ExternalReferenceRedirectorPointer();
86 
87 
88 class Debug;
89 class PromiseOnStack;
90 class Redirection;
91 class Simulator;
92 
93 namespace interpreter {
94 class Interpreter;
95 }
96 
97 // Static indirection table for handles to constants.  If a frame
98 // element represents a constant, the data contains an index into
99 // this table of handles to the actual constants.
100 // Static indirection table for handles to constants.  If a Result
101 // represents a constant, the data contains an index into this table
102 // of handles to the actual constants.
103 typedef ZoneList<Handle<Object> > ZoneObjectList;
104 
105 #define RETURN_FAILURE_IF_SCHEDULED_EXCEPTION(isolate)    \
106   do {                                                    \
107     Isolate* __isolate__ = (isolate);                     \
108     if (__isolate__->has_scheduled_exception()) {         \
109       return __isolate__->PromoteScheduledException();    \
110     }                                                     \
111   } while (false)
112 
113 // Macros for MaybeHandle.
114 
115 #define RETURN_VALUE_IF_SCHEDULED_EXCEPTION(isolate, value) \
116   do {                                                      \
117     Isolate* __isolate__ = (isolate);                       \
118     if (__isolate__->has_scheduled_exception()) {           \
119       __isolate__->PromoteScheduledException();             \
120       return value;                                         \
121     }                                                       \
122   } while (false)
123 
124 #define RETURN_EXCEPTION_IF_SCHEDULED_EXCEPTION(isolate, T) \
125   RETURN_VALUE_IF_SCHEDULED_EXCEPTION(isolate, MaybeHandle<T>())
126 
127 #define ASSIGN_RETURN_ON_EXCEPTION_VALUE(isolate, dst, call, value)  \
128   do {                                                               \
129     if (!(call).ToHandle(&dst)) {                                    \
130       DCHECK((isolate)->has_pending_exception());                    \
131       return value;                                                  \
132     }                                                                \
133   } while (false)
134 
135 #define ASSIGN_RETURN_FAILURE_ON_EXCEPTION(isolate, dst, call)  \
136   ASSIGN_RETURN_ON_EXCEPTION_VALUE(                             \
137       isolate, dst, call, isolate->heap()->exception())
138 
139 #define ASSIGN_RETURN_ON_EXCEPTION(isolate, dst, call, T)  \
140   ASSIGN_RETURN_ON_EXCEPTION_VALUE(isolate, dst, call, MaybeHandle<T>())
141 
142 #define THROW_NEW_ERROR(isolate, call, T)               \
143   do {                                                  \
144     return isolate->Throw<T>(isolate->factory()->call); \
145   } while (false)
146 
147 #define THROW_NEW_ERROR_RETURN_FAILURE(isolate, call) \
148   do {                                                \
149     return isolate->Throw(*isolate->factory()->call); \
150   } while (false)
151 
152 #define RETURN_ON_EXCEPTION_VALUE(isolate, call, value)            \
153   do {                                                             \
154     if ((call).is_null()) {                                        \
155       DCHECK((isolate)->has_pending_exception());                  \
156       return value;                                                \
157     }                                                              \
158   } while (false)
159 
160 #define RETURN_FAILURE_ON_EXCEPTION(isolate, call)  \
161   RETURN_ON_EXCEPTION_VALUE(isolate, call, isolate->heap()->exception())
162 
163 #define RETURN_ON_EXCEPTION(isolate, call, T)  \
164   RETURN_ON_EXCEPTION_VALUE(isolate, call, MaybeHandle<T>())
165 
166 
167 #define FOR_EACH_ISOLATE_ADDRESS_NAME(C)                \
168   C(Handler, handler)                                   \
169   C(CEntryFP, c_entry_fp)                               \
170   C(CFunction, c_function)                              \
171   C(Context, context)                                   \
172   C(PendingException, pending_exception)                \
173   C(PendingHandlerContext, pending_handler_context)     \
174   C(PendingHandlerCode, pending_handler_code)           \
175   C(PendingHandlerOffset, pending_handler_offset)       \
176   C(PendingHandlerFP, pending_handler_fp)               \
177   C(PendingHandlerSP, pending_handler_sp)               \
178   C(ExternalCaughtException, external_caught_exception) \
179   C(JSEntrySP, js_entry_sp)
180 
181 
182 // Platform-independent, reliable thread identifier.
183 class ThreadId {
184  public:
185   // Creates an invalid ThreadId.
ThreadId()186   ThreadId() { base::NoBarrier_Store(&id_, kInvalidId); }
187 
188   ThreadId& operator=(const ThreadId& other) {
189     base::NoBarrier_Store(&id_, base::NoBarrier_Load(&other.id_));
190     return *this;
191   }
192 
193   // Returns ThreadId for current thread.
Current()194   static ThreadId Current() { return ThreadId(GetCurrentThreadId()); }
195 
196   // Returns invalid ThreadId (guaranteed not to be equal to any thread).
Invalid()197   static ThreadId Invalid() { return ThreadId(kInvalidId); }
198 
199   // Compares ThreadIds for equality.
INLINE(bool Equals (const ThreadId & other)const)200   INLINE(bool Equals(const ThreadId& other) const) {
201     return base::NoBarrier_Load(&id_) == base::NoBarrier_Load(&other.id_);
202   }
203 
204   // Checks whether this ThreadId refers to any thread.
INLINE(bool IsValid ()const)205   INLINE(bool IsValid() const) {
206     return base::NoBarrier_Load(&id_) != kInvalidId;
207   }
208 
209   // Converts ThreadId to an integer representation
210   // (required for public API: V8::V8::GetCurrentThreadId).
ToInteger()211   int ToInteger() const { return static_cast<int>(base::NoBarrier_Load(&id_)); }
212 
213   // Converts ThreadId to an integer representation
214   // (required for public API: V8::V8::TerminateExecution).
FromInteger(int id)215   static ThreadId FromInteger(int id) { return ThreadId(id); }
216 
217  private:
218   static const int kInvalidId = -1;
219 
ThreadId(int id)220   explicit ThreadId(int id) { base::NoBarrier_Store(&id_, id); }
221 
222   static int AllocateThreadId();
223 
224   static int GetCurrentThreadId();
225 
226   base::Atomic32 id_;
227 
228   static base::Atomic32 highest_thread_id_;
229 
230   friend class Isolate;
231 };
232 
233 
234 #define FIELD_ACCESSOR(type, name)                 \
235   inline void set_##name(type v) { name##_ = v; }  \
236   inline type name() const { return name##_; }
237 
238 
239 class ThreadLocalTop BASE_EMBEDDED {
240  public:
241   // Does early low-level initialization that does not depend on the
242   // isolate being present.
243   ThreadLocalTop();
244 
245   // Initialize the thread data.
246   void Initialize();
247 
248   // Get the top C++ try catch handler or NULL if none are registered.
249   //
250   // This method is not guaranteed to return an address that can be
251   // used for comparison with addresses into the JS stack.  If such an
252   // address is needed, use try_catch_handler_address.
FIELD_ACCESSOR(v8::TryCatch *,try_catch_handler)253   FIELD_ACCESSOR(v8::TryCatch*, try_catch_handler)
254 
255   // Get the address of the top C++ try catch handler or NULL if
256   // none are registered.
257   //
258   // This method always returns an address that can be compared to
259   // pointers into the JavaScript stack.  When running on actual
260   // hardware, try_catch_handler_address and TryCatchHandler return
261   // the same pointer.  When running on a simulator with a separate JS
262   // stack, try_catch_handler_address returns a JS stack address that
263   // corresponds to the place on the JS stack where the C++ handler
264   // would have been if the stack were not separate.
265   Address try_catch_handler_address() {
266     return reinterpret_cast<Address>(
267         v8::TryCatch::JSStackComparableAddress(try_catch_handler()));
268   }
269 
270   void Free();
271 
272   Isolate* isolate_;
273   // The context where the current execution method is created and for variable
274   // lookups.
275   Context* context_;
276   ThreadId thread_id_;
277   Object* pending_exception_;
278 
279   // Communication channel between Isolate::FindHandler and the CEntryStub.
280   Context* pending_handler_context_;
281   Code* pending_handler_code_;
282   intptr_t pending_handler_offset_;
283   Address pending_handler_fp_;
284   Address pending_handler_sp_;
285 
286   // Communication channel between Isolate::Throw and message consumers.
287   bool rethrowing_message_;
288   Object* pending_message_obj_;
289 
290   // Use a separate value for scheduled exceptions to preserve the
291   // invariants that hold about pending_exception.  We may want to
292   // unify them later.
293   Object* scheduled_exception_;
294   bool external_caught_exception_;
295   SaveContext* save_context_;
296 
297   // Stack.
298   Address c_entry_fp_;  // the frame pointer of the top c entry frame
299   Address handler_;     // try-blocks are chained through the stack
300   Address c_function_;  // C function that was called at c entry.
301 
302   // Throwing an exception may cause a Promise rejection.  For this purpose
303   // we keep track of a stack of nested promises and the corresponding
304   // try-catch handlers.
305   PromiseOnStack* promise_on_stack_;
306 
307 #ifdef USE_SIMULATOR
308   Simulator* simulator_;
309 #endif
310 
311   Address js_entry_sp_;  // the stack pointer of the bottom JS entry frame
312   // the external callback we're currently in
313   ExternalCallbackScope* external_callback_scope_;
314   StateTag current_vm_state_;
315 
316   // Call back function to report unsafe JS accesses.
317   v8::FailedAccessCheckCallback failed_access_check_callback_;
318 
319  private:
320   void InitializeInternal();
321 
322   v8::TryCatch* try_catch_handler_;
323 };
324 
325 
326 #if USE_SIMULATOR
327 
328 #define ISOLATE_INIT_SIMULATOR_LIST(V)                                         \
329   V(bool, simulator_initialized, false)                                        \
330   V(HashMap*, simulator_i_cache, NULL)                                         \
331   V(Redirection*, simulator_redirection, NULL)
332 #else
333 
334 #define ISOLATE_INIT_SIMULATOR_LIST(V)
335 
336 #endif
337 
338 
339 #ifdef DEBUG
340 
341 #define ISOLATE_INIT_DEBUG_ARRAY_LIST(V)                                       \
342   V(CommentStatistic, paged_space_comments_statistics,                         \
343       CommentStatistic::kMaxComments + 1)                                      \
344   V(int, code_kind_statistics, Code::NUMBER_OF_KINDS)
345 #else
346 
347 #define ISOLATE_INIT_DEBUG_ARRAY_LIST(V)
348 
349 #endif
350 
351 #define ISOLATE_INIT_ARRAY_LIST(V)                                             \
352   /* SerializerDeserializer state. */                                          \
353   V(int32_t, jsregexp_static_offsets_vector, kJSRegexpStaticOffsetsVectorSize) \
354   V(int, bad_char_shift_table, kUC16AlphabetSize)                              \
355   V(int, good_suffix_shift_table, (kBMMaxShift + 1))                           \
356   V(int, suffix_table, (kBMMaxShift + 1))                                      \
357   V(uint32_t, private_random_seed, 2)                                          \
358   ISOLATE_INIT_DEBUG_ARRAY_LIST(V)
359 
360 typedef List<HeapObject*> DebugObjectCache;
361 
362 #define ISOLATE_INIT_LIST(V)                                                   \
363   /* Assembler state. */                                                       \
364   V(FatalErrorCallback, exception_behavior, NULL)                              \
365   V(LogEventCallback, event_logger, NULL)                                      \
366   V(AllowCodeGenerationFromStringsCallback, allow_code_gen_callback, NULL)     \
367   /* To distinguish the function templates, so that we can find them in the */ \
368   /* function cache of the native context. */                                  \
369   V(int, next_serial_number, 0)                                                \
370   V(ExternalReferenceRedirectorPointer*, external_reference_redirector, NULL)  \
371   /* Part of the state of liveedit. */                                         \
372   V(FunctionInfoListener*, active_function_info_listener, NULL)                \
373   /* State for Relocatable. */                                                 \
374   V(Relocatable*, relocatable_top, NULL)                                       \
375   V(DebugObjectCache*, string_stream_debug_object_cache, NULL)                 \
376   V(Object*, string_stream_current_security_token, NULL)                       \
377   V(ExternalReferenceTable*, external_reference_table, NULL)                   \
378   V(HashMap*, external_reference_map, NULL)                                    \
379   V(HashMap*, root_index_map, NULL)                                            \
380   V(int, pending_microtask_count, 0)                                           \
381   V(bool, autorun_microtasks, true)                                            \
382   V(HStatistics*, hstatistics, NULL)                                           \
383   V(CompilationStatistics*, turbo_statistics, NULL)                            \
384   V(HTracer*, htracer, NULL)                                                   \
385   V(CodeTracer*, code_tracer, NULL)                                            \
386   V(bool, fp_stubs_generated, false)                                           \
387   V(uint32_t, per_isolate_assert_data, 0xFFFFFFFFu)                            \
388   V(PromiseRejectCallback, promise_reject_callback, NULL)                      \
389   V(const v8::StartupData*, snapshot_blob, NULL)                               \
390   ISOLATE_INIT_SIMULATOR_LIST(V)
391 
392 #define THREAD_LOCAL_TOP_ACCESSOR(type, name)                        \
393   inline void set_##name(type v) { thread_local_top_.name##_ = v; }  \
394   inline type name() const { return thread_local_top_.name##_; }
395 
396 #define THREAD_LOCAL_TOP_ADDRESS(type, name) \
397   type* name##_address() { return &thread_local_top_.name##_; }
398 
399 
400 class Isolate {
401   // These forward declarations are required to make the friend declarations in
402   // PerIsolateThreadData work on some older versions of gcc.
403   class ThreadDataTable;
404   class EntryStackItem;
405  public:
406   ~Isolate();
407 
408   // A thread has a PerIsolateThreadData instance for each isolate that it has
409   // entered. That instance is allocated when the isolate is initially entered
410   // and reused on subsequent entries.
411   class PerIsolateThreadData {
412    public:
PerIsolateThreadData(Isolate * isolate,ThreadId thread_id)413     PerIsolateThreadData(Isolate* isolate, ThreadId thread_id)
414         : isolate_(isolate),
415           thread_id_(thread_id),
416           stack_limit_(0),
417           thread_state_(NULL),
418 #if USE_SIMULATOR
419           simulator_(NULL),
420 #endif
421           next_(NULL),
422           prev_(NULL) { }
423     ~PerIsolateThreadData();
isolate()424     Isolate* isolate() const { return isolate_; }
thread_id()425     ThreadId thread_id() const { return thread_id_; }
426 
FIELD_ACCESSOR(uintptr_t,stack_limit)427     FIELD_ACCESSOR(uintptr_t, stack_limit)
428     FIELD_ACCESSOR(ThreadState*, thread_state)
429 
430 #if USE_SIMULATOR
431     FIELD_ACCESSOR(Simulator*, simulator)
432 #endif
433 
434     bool Matches(Isolate* isolate, ThreadId thread_id) const {
435       return isolate_ == isolate && thread_id_.Equals(thread_id);
436     }
437 
438    private:
439     Isolate* isolate_;
440     ThreadId thread_id_;
441     uintptr_t stack_limit_;
442     ThreadState* thread_state_;
443 
444 #if USE_SIMULATOR
445     Simulator* simulator_;
446 #endif
447 
448     PerIsolateThreadData* next_;
449     PerIsolateThreadData* prev_;
450 
451     friend class Isolate;
452     friend class ThreadDataTable;
453     friend class EntryStackItem;
454 
455     DISALLOW_COPY_AND_ASSIGN(PerIsolateThreadData);
456   };
457 
458 
459   enum AddressId {
460 #define DECLARE_ENUM(CamelName, hacker_name) k##CamelName##Address,
461     FOR_EACH_ISOLATE_ADDRESS_NAME(DECLARE_ENUM)
462 #undef DECLARE_ENUM
463     kIsolateAddressCount
464   };
465 
466   static void InitializeOncePerProcess();
467 
468   // Returns the PerIsolateThreadData for the current thread (or NULL if one is
469   // not currently set).
CurrentPerIsolateThreadData()470   static PerIsolateThreadData* CurrentPerIsolateThreadData() {
471     return reinterpret_cast<PerIsolateThreadData*>(
472         base::Thread::GetThreadLocal(per_isolate_thread_data_key_));
473   }
474 
475   // Returns the isolate inside which the current thread is running.
INLINE(static Isolate * Current ())476   INLINE(static Isolate* Current()) {
477     DCHECK(base::NoBarrier_Load(&isolate_key_created_) == 1);
478     Isolate* isolate = reinterpret_cast<Isolate*>(
479         base::Thread::GetExistingThreadLocal(isolate_key_));
480     DCHECK(isolate != NULL);
481     return isolate;
482   }
483 
484   // Like Current, but skips the check that |isolate_key_| was initialized.
485   // Callers have to ensure that themselves.
486   // DO NOT USE. The only remaining callsite will be deleted soon.
INLINE(static Isolate * UnsafeCurrent ())487   INLINE(static Isolate* UnsafeCurrent()) {
488     return reinterpret_cast<Isolate*>(
489         base::Thread::GetThreadLocal(isolate_key_));
490   }
491 
492   // Usually called by Init(), but can be called early e.g. to allow
493   // testing components that require logging but not the whole
494   // isolate.
495   //
496   // Safe to call more than once.
497   void InitializeLoggingAndCounters();
498 
499   bool Init(Deserializer* des);
500 
501   // True if at least one thread Enter'ed this isolate.
IsInUse()502   bool IsInUse() { return entry_stack_ != NULL; }
503 
504   // Destroys the non-default isolates.
505   // Sets default isolate into "has_been_disposed" state rather then destroying,
506   // for legacy API reasons.
507   void TearDown();
508 
509   static void GlobalTearDown();
510 
511   void ClearSerializerData();
512 
513   // Find the PerThread for this particular (isolate, thread) combination
514   // If one does not yet exist, return null.
515   PerIsolateThreadData* FindPerThreadDataForThisThread();
516 
517   // Find the PerThread for given (isolate, thread) combination
518   // If one does not yet exist, return null.
519   PerIsolateThreadData* FindPerThreadDataForThread(ThreadId thread_id);
520 
521   // Discard the PerThread for this particular (isolate, thread) combination
522   // If one does not yet exist, no-op.
523   void DiscardPerThreadDataForThisThread();
524 
525   // Returns the key used to store the pointer to the current isolate.
526   // Used internally for V8 threads that do not execute JavaScript but still
527   // are part of the domain of an isolate (like the context switcher).
isolate_key()528   static base::Thread::LocalStorageKey isolate_key() {
529     return isolate_key_;
530   }
531 
532   // Returns the key used to store process-wide thread IDs.
thread_id_key()533   static base::Thread::LocalStorageKey thread_id_key() {
534     return thread_id_key_;
535   }
536 
537   static base::Thread::LocalStorageKey per_isolate_thread_data_key();
538 
539   // Mutex for serializing access to break control structures.
break_access()540   base::RecursiveMutex* break_access() { return &break_access_; }
541 
542   Address get_address_from_id(AddressId id);
543 
544   // Access to top context (where the current function object was created).
context()545   Context* context() { return thread_local_top_.context_; }
546   inline void set_context(Context* context);
context_address()547   Context** context_address() { return &thread_local_top_.context_; }
548 
549   THREAD_LOCAL_TOP_ACCESSOR(SaveContext*, save_context)
550 
551   // Access to current thread id.
552   THREAD_LOCAL_TOP_ACCESSOR(ThreadId, thread_id)
553 
554   // Interface to pending exception.
555   inline Object* pending_exception();
556   inline void set_pending_exception(Object* exception_obj);
557   inline void clear_pending_exception();
558 
559   THREAD_LOCAL_TOP_ADDRESS(Object*, pending_exception)
560 
561   inline bool has_pending_exception();
562 
THREAD_LOCAL_TOP_ADDRESS(Context *,pending_handler_context)563   THREAD_LOCAL_TOP_ADDRESS(Context*, pending_handler_context)
564   THREAD_LOCAL_TOP_ADDRESS(Code*, pending_handler_code)
565   THREAD_LOCAL_TOP_ADDRESS(intptr_t, pending_handler_offset)
566   THREAD_LOCAL_TOP_ADDRESS(Address, pending_handler_fp)
567   THREAD_LOCAL_TOP_ADDRESS(Address, pending_handler_sp)
568 
569   THREAD_LOCAL_TOP_ACCESSOR(bool, external_caught_exception)
570 
571   v8::TryCatch* try_catch_handler() {
572     return thread_local_top_.try_catch_handler();
573   }
external_caught_exception_address()574   bool* external_caught_exception_address() {
575     return &thread_local_top_.external_caught_exception_;
576   }
577 
578   THREAD_LOCAL_TOP_ADDRESS(Object*, scheduled_exception)
579 
580   inline void clear_pending_message();
pending_message_obj_address()581   Address pending_message_obj_address() {
582     return reinterpret_cast<Address>(&thread_local_top_.pending_message_obj_);
583   }
584 
585   inline Object* scheduled_exception();
586   inline bool has_scheduled_exception();
587   inline void clear_scheduled_exception();
588 
589   bool IsJavaScriptHandlerOnTop(Object* exception);
590   bool IsExternalHandlerOnTop(Object* exception);
591 
592   inline bool is_catchable_by_javascript(Object* exception);
593 
594   // JS execution stack (see frames.h).
c_entry_fp(ThreadLocalTop * thread)595   static Address c_entry_fp(ThreadLocalTop* thread) {
596     return thread->c_entry_fp_;
597   }
handler(ThreadLocalTop * thread)598   static Address handler(ThreadLocalTop* thread) { return thread->handler_; }
c_function()599   Address c_function() { return thread_local_top_.c_function_; }
600 
c_entry_fp_address()601   inline Address* c_entry_fp_address() {
602     return &thread_local_top_.c_entry_fp_;
603   }
handler_address()604   inline Address* handler_address() { return &thread_local_top_.handler_; }
c_function_address()605   inline Address* c_function_address() {
606     return &thread_local_top_.c_function_;
607   }
608 
609   // Bottom JS entry.
js_entry_sp()610   Address js_entry_sp() {
611     return thread_local_top_.js_entry_sp_;
612   }
js_entry_sp_address()613   inline Address* js_entry_sp_address() {
614     return &thread_local_top_.js_entry_sp_;
615   }
616 
617   // Returns the global object of the current context. It could be
618   // a builtin object, or a JS global object.
619   inline Handle<JSGlobalObject> global_object();
620 
621   // Returns the global proxy object of the current context.
global_proxy()622   JSObject* global_proxy() {
623     return context()->global_proxy();
624   }
625 
ArchiveSpacePerThread()626   static int ArchiveSpacePerThread() { return sizeof(ThreadLocalTop); }
FreeThreadResources()627   void FreeThreadResources() { thread_local_top_.Free(); }
628 
629   // This method is called by the api after operations that may throw
630   // exceptions.  If an exception was thrown and not handled by an external
631   // handler the exception is scheduled to be rethrown when we return to running
632   // JavaScript code.  If an exception is scheduled true is returned.
633   bool OptionalRescheduleException(bool is_bottom_call);
634 
635   // Push and pop a promise and the current try-catch handler.
636   void PushPromise(Handle<JSObject> promise, Handle<JSFunction> function);
637   void PopPromise();
638   Handle<Object> GetPromiseOnStackOnThrow();
639 
640   class ExceptionScope {
641    public:
642     // Scope currently can only be used for regular exceptions,
643     // not termination exception.
644     inline explicit ExceptionScope(Isolate* isolate);
645     inline ~ExceptionScope();
646 
647    private:
648     Isolate* isolate_;
649     Handle<Object> pending_exception_;
650   };
651 
652   void SetCaptureStackTraceForUncaughtExceptions(
653       bool capture,
654       int frame_limit,
655       StackTrace::StackTraceOptions options);
656 
657   void SetAbortOnUncaughtExceptionCallback(
658       v8::Isolate::AbortOnUncaughtExceptionCallback callback);
659 
660   enum PrintStackMode { kPrintStackConcise, kPrintStackVerbose };
661   void PrintCurrentStackTrace(FILE* out);
662   void PrintStack(StringStream* accumulator,
663                   PrintStackMode mode = kPrintStackVerbose);
664   void PrintStack(FILE* out, PrintStackMode mode = kPrintStackVerbose);
665   Handle<String> StackTraceString();
666   NO_INLINE(void PushStackTraceAndDie(unsigned int magic, void* ptr1,
667                                       void* ptr2, unsigned int magic2));
668   Handle<JSArray> CaptureCurrentStackTrace(
669       int frame_limit,
670       StackTrace::StackTraceOptions options);
671   Handle<Object> CaptureSimpleStackTrace(Handle<JSObject> error_object,
672                                          Handle<Object> caller);
673   MaybeHandle<JSObject> CaptureAndSetDetailedStackTrace(
674       Handle<JSObject> error_object);
675   MaybeHandle<JSObject> CaptureAndSetSimpleStackTrace(
676       Handle<JSObject> error_object, Handle<Object> caller);
677   Handle<JSArray> GetDetailedStackTrace(Handle<JSObject> error_object);
678   Handle<JSArray> GetDetailedFromSimpleStackTrace(
679       Handle<JSObject> error_object);
680 
681   // Returns if the given context may access the given global object. If
682   // the result is false, the pending exception is guaranteed to be
683   // set.
684   bool MayAccess(Handle<Context> accessing_context, Handle<JSObject> receiver);
685 
686   bool IsInternallyUsedPropertyName(Handle<Object> name);
687 
688   void SetFailedAccessCheckCallback(v8::FailedAccessCheckCallback callback);
689   void ReportFailedAccessCheck(Handle<JSObject> receiver);
690 
691   // Exception throwing support. The caller should use the result
692   // of Throw() as its return value.
693   Object* Throw(Object* exception, MessageLocation* location = NULL);
694   Object* ThrowIllegalOperation();
695 
696   template <typename T>
697   MUST_USE_RESULT MaybeHandle<T> Throw(Handle<Object> exception,
698                                        MessageLocation* location = NULL) {
699     Throw(*exception, location);
700     return MaybeHandle<T>();
701   }
702 
703   // Re-throw an exception.  This involves no error reporting since error
704   // reporting was handled when the exception was thrown originally.
705   Object* ReThrow(Object* exception);
706 
707   // Find the correct handler for the current pending exception. This also
708   // clears and returns the current pending exception.
709   Object* UnwindAndFindHandler();
710 
711   // Tries to predict whether an exception will be caught. Note that this can
712   // only produce an estimate, because it is undecidable whether a finally
713   // clause will consume or re-throw an exception. We conservatively assume any
714   // finally clause will behave as if the exception were consumed.
715   enum CatchType { NOT_CAUGHT, CAUGHT_BY_JAVASCRIPT, CAUGHT_BY_EXTERNAL };
716   CatchType PredictExceptionCatcher();
717 
718   void ScheduleThrow(Object* exception);
719   // Re-set pending message, script and positions reported to the TryCatch
720   // back to the TLS for re-use when rethrowing.
721   void RestorePendingMessageFromTryCatch(v8::TryCatch* handler);
722   // Un-schedule an exception that was caught by a TryCatch handler.
723   void CancelScheduledExceptionFromTryCatch(v8::TryCatch* handler);
724   void ReportPendingMessages();
725   // Return pending location if any or unfilled structure.
726   MessageLocation GetMessageLocation();
727 
728   // Promote a scheduled exception to pending. Asserts has_scheduled_exception.
729   Object* PromoteScheduledException();
730 
731   // Attempts to compute the current source location, storing the
732   // result in the target out parameter.
733   bool ComputeLocation(MessageLocation* target);
734   bool ComputeLocationFromException(MessageLocation* target,
735                                     Handle<Object> exception);
736   bool ComputeLocationFromStackTrace(MessageLocation* target,
737                                      Handle<Object> exception);
738 
739   Handle<JSMessageObject> CreateMessage(Handle<Object> exception,
740                                         MessageLocation* location);
741 
742   // Out of resource exception helpers.
743   Object* StackOverflow();
744   Object* TerminateExecution();
745   void CancelTerminateExecution();
746 
747   void RequestInterrupt(InterruptCallback callback, void* data);
748   void InvokeApiInterruptCallbacks();
749 
750   // Administration
751   void Iterate(ObjectVisitor* v);
752   void Iterate(ObjectVisitor* v, ThreadLocalTop* t);
753   char* Iterate(ObjectVisitor* v, char* t);
754   void IterateThread(ThreadVisitor* v, char* t);
755 
756   // Returns the current native context.
757   Handle<Context> native_context();
758 
759   // Returns the native context of the calling JavaScript code.  That
760   // is, the native context of the top-most JavaScript frame.
761   Handle<Context> GetCallingNativeContext();
762 
763   void RegisterTryCatchHandler(v8::TryCatch* that);
764   void UnregisterTryCatchHandler(v8::TryCatch* that);
765 
766   char* ArchiveThread(char* to);
767   char* RestoreThread(char* from);
768 
769   static const char* const kStackOverflowMessage;
770 
771   static const int kUC16AlphabetSize = 256;  // See StringSearchBase.
772   static const int kBMMaxShift = 250;        // See StringSearchBase.
773 
774   // Accessors.
775 #define GLOBAL_ACCESSOR(type, name, initialvalue)                       \
776   inline type name() const {                                            \
777     DCHECK(OFFSET_OF(Isolate, name##_) == name##_debug_offset_);        \
778     return name##_;                                                     \
779   }                                                                     \
780   inline void set_##name(type value) {                                  \
781     DCHECK(OFFSET_OF(Isolate, name##_) == name##_debug_offset_);        \
782     name##_ = value;                                                    \
783   }
784   ISOLATE_INIT_LIST(GLOBAL_ACCESSOR)
785 #undef GLOBAL_ACCESSOR
786 
787 #define GLOBAL_ARRAY_ACCESSOR(type, name, length)                       \
788   inline type* name() {                                                 \
789     DCHECK(OFFSET_OF(Isolate, name##_) == name##_debug_offset_);        \
790     return &(name##_)[0];                                               \
791   }
ISOLATE_INIT_ARRAY_LIST(GLOBAL_ARRAY_ACCESSOR)792   ISOLATE_INIT_ARRAY_LIST(GLOBAL_ARRAY_ACCESSOR)
793 #undef GLOBAL_ARRAY_ACCESSOR
794 
795 #define NATIVE_CONTEXT_FIELD_ACCESSOR(index, type, name) \
796   inline Handle<type> name();                            \
797   inline bool is_##name(type* value);
798   NATIVE_CONTEXT_FIELDS(NATIVE_CONTEXT_FIELD_ACCESSOR)
799 #undef NATIVE_CONTEXT_FIELD_ACCESSOR
800 
801   Bootstrapper* bootstrapper() { return bootstrapper_; }
counters()802   Counters* counters() {
803     // Call InitializeLoggingAndCounters() if logging is needed before
804     // the isolate is fully initialized.
805     DCHECK(counters_ != NULL);
806     return counters_;
807   }
code_range()808   CodeRange* code_range() { return code_range_; }
runtime_profiler()809   RuntimeProfiler* runtime_profiler() { return runtime_profiler_; }
compilation_cache()810   CompilationCache* compilation_cache() { return compilation_cache_; }
logger()811   Logger* logger() {
812     // Call InitializeLoggingAndCounters() if logging is needed before
813     // the isolate is fully initialized.
814     DCHECK(logger_ != NULL);
815     return logger_;
816   }
stack_guard()817   StackGuard* stack_guard() { return &stack_guard_; }
heap()818   Heap* heap() { return &heap_; }
819   StatsTable* stats_table();
stub_cache()820   StubCache* stub_cache() { return stub_cache_; }
code_aging_helper()821   CodeAgingHelper* code_aging_helper() { return code_aging_helper_; }
deoptimizer_data()822   DeoptimizerData* deoptimizer_data() { return deoptimizer_data_; }
thread_local_top()823   ThreadLocalTop* thread_local_top() { return &thread_local_top_; }
materialized_object_store()824   MaterializedObjectStore* materialized_object_store() {
825     return materialized_object_store_;
826   }
827 
memory_allocator()828   MemoryAllocator* memory_allocator() {
829     return memory_allocator_;
830   }
831 
keyed_lookup_cache()832   KeyedLookupCache* keyed_lookup_cache() {
833     return keyed_lookup_cache_;
834   }
835 
context_slot_cache()836   ContextSlotCache* context_slot_cache() {
837     return context_slot_cache_;
838   }
839 
descriptor_lookup_cache()840   DescriptorLookupCache* descriptor_lookup_cache() {
841     return descriptor_lookup_cache_;
842   }
843 
handle_scope_data()844   HandleScopeData* handle_scope_data() { return &handle_scope_data_; }
845 
handle_scope_implementer()846   HandleScopeImplementer* handle_scope_implementer() {
847     DCHECK(handle_scope_implementer_);
848     return handle_scope_implementer_;
849   }
runtime_zone()850   Zone* runtime_zone() { return &runtime_zone_; }
interface_descriptor_zone()851   Zone* interface_descriptor_zone() { return &interface_descriptor_zone_; }
852 
unicode_cache()853   UnicodeCache* unicode_cache() {
854     return unicode_cache_;
855   }
856 
inner_pointer_to_code_cache()857   InnerPointerToCodeCache* inner_pointer_to_code_cache() {
858     return inner_pointer_to_code_cache_;
859   }
860 
global_handles()861   GlobalHandles* global_handles() { return global_handles_; }
862 
eternal_handles()863   EternalHandles* eternal_handles() { return eternal_handles_; }
864 
thread_manager()865   ThreadManager* thread_manager() { return thread_manager_; }
866 
jsregexp_uncanonicalize()867   unibrow::Mapping<unibrow::Ecma262UnCanonicalize>* jsregexp_uncanonicalize() {
868     return &jsregexp_uncanonicalize_;
869   }
870 
jsregexp_canonrange()871   unibrow::Mapping<unibrow::CanonicalizationRange>* jsregexp_canonrange() {
872     return &jsregexp_canonrange_;
873   }
874 
runtime_state()875   RuntimeState* runtime_state() { return &runtime_state_; }
876 
builtins()877   Builtins* builtins() { return &builtins_; }
878 
NotifyExtensionInstalled()879   void NotifyExtensionInstalled() {
880     has_installed_extensions_ = true;
881   }
882 
has_installed_extensions()883   bool has_installed_extensions() { return has_installed_extensions_; }
884 
885   unibrow::Mapping<unibrow::Ecma262Canonicalize>*
regexp_macro_assembler_canonicalize()886       regexp_macro_assembler_canonicalize() {
887     return &regexp_macro_assembler_canonicalize_;
888   }
889 
regexp_stack()890   RegExpStack* regexp_stack() { return regexp_stack_; }
891 
892   unibrow::Mapping<unibrow::Ecma262Canonicalize>*
interp_canonicalize_mapping()893       interp_canonicalize_mapping() {
894     return &interp_canonicalize_mapping_;
895   }
896 
debug()897   Debug* debug() { return debug_; }
898 
cpu_profiler()899   CpuProfiler* cpu_profiler() const { return cpu_profiler_; }
heap_profiler()900   HeapProfiler* heap_profiler() const { return heap_profiler_; }
901 
902 #ifdef DEBUG
heap_histograms()903   HistogramInfo* heap_histograms() { return heap_histograms_; }
904 
js_spill_information()905   JSObject::SpillInformation* js_spill_information() {
906     return &js_spill_information_;
907   }
908 #endif
909 
factory()910   Factory* factory() { return reinterpret_cast<Factory*>(this); }
911 
912   static const int kJSRegexpStaticOffsetsVectorSize = 128;
913 
THREAD_LOCAL_TOP_ACCESSOR(ExternalCallbackScope *,external_callback_scope)914   THREAD_LOCAL_TOP_ACCESSOR(ExternalCallbackScope*, external_callback_scope)
915 
916   THREAD_LOCAL_TOP_ACCESSOR(StateTag, current_vm_state)
917 
918   void SetData(uint32_t slot, void* data) {
919     DCHECK(slot < Internals::kNumIsolateDataSlots);
920     embedder_data_[slot] = data;
921   }
GetData(uint32_t slot)922   void* GetData(uint32_t slot) {
923     DCHECK(slot < Internals::kNumIsolateDataSlots);
924     return embedder_data_[slot];
925   }
926 
serializer_enabled()927   bool serializer_enabled() const { return serializer_enabled_; }
snapshot_available()928   bool snapshot_available() const {
929     return snapshot_blob_ != NULL && snapshot_blob_->raw_size != 0;
930   }
931 
IsDead()932   bool IsDead() { return has_fatal_error_; }
SignalFatalError()933   void SignalFatalError() { has_fatal_error_ = true; }
934 
935   bool use_crankshaft() const;
936 
initialized_from_snapshot()937   bool initialized_from_snapshot() { return initialized_from_snapshot_; }
938 
time_millis_since_init()939   double time_millis_since_init() {
940     return heap_.MonotonicallyIncreasingTimeInMs() - time_millis_at_init_;
941   }
942 
date_cache()943   DateCache* date_cache() {
944     return date_cache_;
945   }
946 
set_date_cache(DateCache * date_cache)947   void set_date_cache(DateCache* date_cache) {
948     if (date_cache != date_cache_) {
949       delete date_cache_;
950     }
951     date_cache_ = date_cache;
952   }
953 
954   Map* get_initial_js_array_map(ElementsKind kind,
955                                 Strength strength = Strength::WEAK);
956 
957   static const int kArrayProtectorValid = 1;
958   static const int kArrayProtectorInvalid = 0;
959 
960   bool IsFastArrayConstructorPrototypeChainIntact();
961 
962   // On intent to set an element in object, make sure that appropriate
963   // notifications occur if the set is on the elements of the array or
964   // object prototype. Also ensure that changes to prototype chain between
965   // Array and Object fire notifications.
966   void UpdateArrayProtectorOnSetElement(Handle<JSObject> object);
UpdateArrayProtectorOnSetLength(Handle<JSObject> object)967   void UpdateArrayProtectorOnSetLength(Handle<JSObject> object) {
968     UpdateArrayProtectorOnSetElement(object);
969   }
UpdateArrayProtectorOnSetPrototype(Handle<JSObject> object)970   void UpdateArrayProtectorOnSetPrototype(Handle<JSObject> object) {
971     UpdateArrayProtectorOnSetElement(object);
972   }
UpdateArrayProtectorOnNormalizeElements(Handle<JSObject> object)973   void UpdateArrayProtectorOnNormalizeElements(Handle<JSObject> object) {
974     UpdateArrayProtectorOnSetElement(object);
975   }
976 
977   // Returns true if array is the initial array prototype in any native context.
978   bool IsAnyInitialArrayPrototype(Handle<JSArray> array);
979 
980   CallInterfaceDescriptorData* call_descriptor_data(int index);
981 
982   void IterateDeferredHandles(ObjectVisitor* visitor);
983   void LinkDeferredHandles(DeferredHandles* deferred_handles);
984   void UnlinkDeferredHandles(DeferredHandles* deferred_handles);
985 
986 #ifdef DEBUG
987   bool IsDeferredHandle(Object** location);
988 #endif  // DEBUG
989 
concurrent_recompilation_enabled()990   bool concurrent_recompilation_enabled() {
991     // Thread is only available with flag enabled.
992     DCHECK(optimizing_compile_dispatcher_ == NULL ||
993            FLAG_concurrent_recompilation);
994     return optimizing_compile_dispatcher_ != NULL;
995   }
996 
concurrent_osr_enabled()997   bool concurrent_osr_enabled() const {
998     // Thread is only available with flag enabled.
999     DCHECK(optimizing_compile_dispatcher_ == NULL ||
1000            FLAG_concurrent_recompilation);
1001     return optimizing_compile_dispatcher_ != NULL && FLAG_concurrent_osr;
1002   }
1003 
optimizing_compile_dispatcher()1004   OptimizingCompileDispatcher* optimizing_compile_dispatcher() {
1005     return optimizing_compile_dispatcher_;
1006   }
1007 
id()1008   int id() const { return static_cast<int>(id_); }
1009 
1010   HStatistics* GetHStatistics();
1011   CompilationStatistics* GetTurboStatistics();
1012   HTracer* GetHTracer();
1013   CodeTracer* GetCodeTracer();
1014 
1015   void DumpAndResetCompilationStats();
1016 
function_entry_hook()1017   FunctionEntryHook function_entry_hook() { return function_entry_hook_; }
set_function_entry_hook(FunctionEntryHook function_entry_hook)1018   void set_function_entry_hook(FunctionEntryHook function_entry_hook) {
1019     function_entry_hook_ = function_entry_hook;
1020   }
1021 
stress_deopt_count_address()1022   void* stress_deopt_count_address() { return &stress_deopt_count_; }
1023 
virtual_handler_register_address()1024   void* virtual_handler_register_address() {
1025     return &virtual_handler_register_;
1026   }
1027 
virtual_slot_register_address()1028   void* virtual_slot_register_address() { return &virtual_slot_register_; }
1029 
1030   base::RandomNumberGenerator* random_number_generator();
1031 
1032   // Given an address occupied by a live code object, return that object.
1033   Object* FindCodeObject(Address a);
1034 
NextOptimizationId()1035   int NextOptimizationId() {
1036     int id = next_optimization_id_++;
1037     if (!Smi::IsValid(next_optimization_id_)) {
1038       next_optimization_id_ = 0;
1039     }
1040     return id;
1041   }
1042 
IncrementJsCallsFromApiCounter()1043   void IncrementJsCallsFromApiCounter() { ++js_calls_from_api_counter_; }
1044 
js_calls_from_api_counter()1045   unsigned int js_calls_from_api_counter() {
1046     return js_calls_from_api_counter_;
1047   }
1048 
1049   // Get (and lazily initialize) the registry for per-isolate symbols.
1050   Handle<JSObject> GetSymbolRegistry();
1051 
1052   void AddCallCompletedCallback(CallCompletedCallback callback);
1053   void RemoveCallCompletedCallback(CallCompletedCallback callback);
1054   void FireCallCompletedCallback();
1055 
1056   void SetPromiseRejectCallback(PromiseRejectCallback callback);
1057   void ReportPromiseReject(Handle<JSObject> promise, Handle<Object> value,
1058                            v8::PromiseRejectEvent event);
1059 
1060   void EnqueueMicrotask(Handle<Object> microtask);
1061   void RunMicrotasks();
1062 
1063   void SetUseCounterCallback(v8::Isolate::UseCounterCallback callback);
1064   void CountUsage(v8::Isolate::UseCounterFeature feature);
1065 
1066   BasicBlockProfiler* GetOrCreateBasicBlockProfiler();
basic_block_profiler()1067   BasicBlockProfiler* basic_block_profiler() { return basic_block_profiler_; }
1068 
1069   std::string GetTurboCfgFileName();
1070 
1071 #if TRACE_MAPS
GetNextUniqueSharedFunctionInfoId()1072   int GetNextUniqueSharedFunctionInfoId() { return next_unique_sfi_id_++; }
1073 #endif
1074 
1075 
1076   void AddDetachedContext(Handle<Context> context);
1077   void CheckDetachedContextsAfterGC();
1078 
partial_snapshot_cache()1079   List<Object*>* partial_snapshot_cache() { return &partial_snapshot_cache_; }
1080 
set_array_buffer_allocator(v8::ArrayBuffer::Allocator * allocator)1081   void set_array_buffer_allocator(v8::ArrayBuffer::Allocator* allocator) {
1082     array_buffer_allocator_ = allocator;
1083   }
array_buffer_allocator()1084   v8::ArrayBuffer::Allocator* array_buffer_allocator() const {
1085     return array_buffer_allocator_;
1086   }
1087 
futex_wait_list_node()1088   FutexWaitListNode* futex_wait_list_node() { return &futex_wait_list_node_; }
1089 
cancelable_task_manager()1090   CancelableTaskManager* cancelable_task_manager() {
1091     return cancelable_task_manager_;
1092   }
1093 
interpreter()1094   interpreter::Interpreter* interpreter() const { return interpreter_; }
1095 
1096  protected:
1097   explicit Isolate(bool enable_serializer);
1098 
1099  private:
1100   friend struct GlobalState;
1101   friend struct InitializeGlobalState;
1102   Handle<JSObject> SetUpSubregistry(Handle<JSObject> registry, Handle<Map> map,
1103                                     const char* name);
1104 
1105   // These fields are accessed through the API, offsets must be kept in sync
1106   // with v8::internal::Internals (in include/v8.h) constants. This is also
1107   // verified in Isolate::Init() using runtime checks.
1108   void* embedder_data_[Internals::kNumIsolateDataSlots];
1109   Heap heap_;
1110 
1111   // The per-process lock should be acquired before the ThreadDataTable is
1112   // modified.
1113   class ThreadDataTable {
1114    public:
1115     ThreadDataTable();
1116     ~ThreadDataTable();
1117 
1118     PerIsolateThreadData* Lookup(Isolate* isolate, ThreadId thread_id);
1119     void Insert(PerIsolateThreadData* data);
1120     void Remove(PerIsolateThreadData* data);
1121     void RemoveAllThreads(Isolate* isolate);
1122 
1123    private:
1124     PerIsolateThreadData* list_;
1125   };
1126 
1127   // These items form a stack synchronously with threads Enter'ing and Exit'ing
1128   // the Isolate. The top of the stack points to a thread which is currently
1129   // running the Isolate. When the stack is empty, the Isolate is considered
1130   // not entered by any thread and can be Disposed.
1131   // If the same thread enters the Isolate more then once, the entry_count_
1132   // is incremented rather then a new item pushed to the stack.
1133   class EntryStackItem {
1134    public:
EntryStackItem(PerIsolateThreadData * previous_thread_data,Isolate * previous_isolate,EntryStackItem * previous_item)1135     EntryStackItem(PerIsolateThreadData* previous_thread_data,
1136                    Isolate* previous_isolate,
1137                    EntryStackItem* previous_item)
1138         : entry_count(1),
1139           previous_thread_data(previous_thread_data),
1140           previous_isolate(previous_isolate),
1141           previous_item(previous_item) { }
1142 
1143     int entry_count;
1144     PerIsolateThreadData* previous_thread_data;
1145     Isolate* previous_isolate;
1146     EntryStackItem* previous_item;
1147 
1148    private:
1149     DISALLOW_COPY_AND_ASSIGN(EntryStackItem);
1150   };
1151 
1152   static base::LazyMutex thread_data_table_mutex_;
1153 
1154   static base::Thread::LocalStorageKey per_isolate_thread_data_key_;
1155   static base::Thread::LocalStorageKey isolate_key_;
1156   static base::Thread::LocalStorageKey thread_id_key_;
1157   static ThreadDataTable* thread_data_table_;
1158 
1159   // A global counter for all generated Isolates, might overflow.
1160   static base::Atomic32 isolate_counter_;
1161 
1162 #if DEBUG
1163   static base::Atomic32 isolate_key_created_;
1164 #endif
1165 
1166   void Deinit();
1167 
1168   static void SetIsolateThreadLocals(Isolate* isolate,
1169                                      PerIsolateThreadData* data);
1170 
1171   // Find the PerThread for this particular (isolate, thread) combination.
1172   // If one does not yet exist, allocate a new one.
1173   PerIsolateThreadData* FindOrAllocatePerThreadDataForThisThread();
1174 
1175   // Initializes the current thread to run this Isolate.
1176   // Not thread-safe. Multiple threads should not Enter/Exit the same isolate
1177   // at the same time, this should be prevented using external locking.
1178   void Enter();
1179 
1180   // Exits the current thread. The previosuly entered Isolate is restored
1181   // for the thread.
1182   // Not thread-safe. Multiple threads should not Enter/Exit the same isolate
1183   // at the same time, this should be prevented using external locking.
1184   void Exit();
1185 
1186   void InitializeThreadLocal();
1187 
1188   void MarkCompactPrologue(bool is_compacting,
1189                            ThreadLocalTop* archived_thread_data);
1190   void MarkCompactEpilogue(bool is_compacting,
1191                            ThreadLocalTop* archived_thread_data);
1192 
1193   void FillCache();
1194 
1195   // Propagate pending exception message to the v8::TryCatch.
1196   // If there is no external try-catch or message was successfully propagated,
1197   // then return true.
1198   bool PropagatePendingExceptionToExternalTryCatch();
1199 
1200   // Remove per-frame stored materialized objects when we are unwinding
1201   // the frame.
1202   void RemoveMaterializedObjectsOnUnwind(StackFrame* frame);
1203 
1204   base::Atomic32 id_;
1205   EntryStackItem* entry_stack_;
1206   int stack_trace_nesting_level_;
1207   StringStream* incomplete_message_;
1208   Address isolate_addresses_[kIsolateAddressCount + 1];  // NOLINT
1209   Bootstrapper* bootstrapper_;
1210   RuntimeProfiler* runtime_profiler_;
1211   CompilationCache* compilation_cache_;
1212   Counters* counters_;
1213   CodeRange* code_range_;
1214   base::RecursiveMutex break_access_;
1215   Logger* logger_;
1216   StackGuard stack_guard_;
1217   StatsTable* stats_table_;
1218   StubCache* stub_cache_;
1219   CodeAgingHelper* code_aging_helper_;
1220   DeoptimizerData* deoptimizer_data_;
1221   MaterializedObjectStore* materialized_object_store_;
1222   ThreadLocalTop thread_local_top_;
1223   bool capture_stack_trace_for_uncaught_exceptions_;
1224   int stack_trace_for_uncaught_exceptions_frame_limit_;
1225   StackTrace::StackTraceOptions stack_trace_for_uncaught_exceptions_options_;
1226   MemoryAllocator* memory_allocator_;
1227   KeyedLookupCache* keyed_lookup_cache_;
1228   ContextSlotCache* context_slot_cache_;
1229   DescriptorLookupCache* descriptor_lookup_cache_;
1230   HandleScopeData handle_scope_data_;
1231   HandleScopeImplementer* handle_scope_implementer_;
1232   UnicodeCache* unicode_cache_;
1233   Zone runtime_zone_;
1234   Zone interface_descriptor_zone_;
1235   InnerPointerToCodeCache* inner_pointer_to_code_cache_;
1236   GlobalHandles* global_handles_;
1237   EternalHandles* eternal_handles_;
1238   ThreadManager* thread_manager_;
1239   RuntimeState runtime_state_;
1240   Builtins builtins_;
1241   bool has_installed_extensions_;
1242   unibrow::Mapping<unibrow::Ecma262UnCanonicalize> jsregexp_uncanonicalize_;
1243   unibrow::Mapping<unibrow::CanonicalizationRange> jsregexp_canonrange_;
1244   unibrow::Mapping<unibrow::Ecma262Canonicalize>
1245       regexp_macro_assembler_canonicalize_;
1246   RegExpStack* regexp_stack_;
1247   DateCache* date_cache_;
1248   unibrow::Mapping<unibrow::Ecma262Canonicalize> interp_canonicalize_mapping_;
1249   CallInterfaceDescriptorData* call_descriptor_data_;
1250   base::RandomNumberGenerator* random_number_generator_;
1251 
1252   // Whether the isolate has been created for snapshotting.
1253   bool serializer_enabled_;
1254 
1255   // True if fatal error has been signaled for this isolate.
1256   bool has_fatal_error_;
1257 
1258   // True if this isolate was initialized from a snapshot.
1259   bool initialized_from_snapshot_;
1260 
1261   // Time stamp at initialization.
1262   double time_millis_at_init_;
1263 
1264 #ifdef DEBUG
1265   // A static array of histogram info for each type.
1266   HistogramInfo heap_histograms_[LAST_TYPE + 1];
1267   JSObject::SpillInformation js_spill_information_;
1268 #endif
1269 
1270   Debug* debug_;
1271   CpuProfiler* cpu_profiler_;
1272   HeapProfiler* heap_profiler_;
1273   FunctionEntryHook function_entry_hook_;
1274 
1275   interpreter::Interpreter* interpreter_;
1276 
1277   typedef std::pair<InterruptCallback, void*> InterruptEntry;
1278   std::queue<InterruptEntry> api_interrupts_queue_;
1279 
1280 #define GLOBAL_BACKING_STORE(type, name, initialvalue)                         \
1281   type name##_;
1282   ISOLATE_INIT_LIST(GLOBAL_BACKING_STORE)
1283 #undef GLOBAL_BACKING_STORE
1284 
1285 #define GLOBAL_ARRAY_BACKING_STORE(type, name, length)                         \
1286   type name##_[length];
1287   ISOLATE_INIT_ARRAY_LIST(GLOBAL_ARRAY_BACKING_STORE)
1288 #undef GLOBAL_ARRAY_BACKING_STORE
1289 
1290 #ifdef DEBUG
1291   // This class is huge and has a number of fields controlled by
1292   // preprocessor defines. Make sure the offsets of these fields agree
1293   // between compilation units.
1294 #define ISOLATE_FIELD_OFFSET(type, name, ignored)                              \
1295   static const intptr_t name##_debug_offset_;
1296   ISOLATE_INIT_LIST(ISOLATE_FIELD_OFFSET)
1297   ISOLATE_INIT_ARRAY_LIST(ISOLATE_FIELD_OFFSET)
1298 #undef ISOLATE_FIELD_OFFSET
1299 #endif
1300 
1301   DeferredHandles* deferred_handles_head_;
1302   OptimizingCompileDispatcher* optimizing_compile_dispatcher_;
1303 
1304   // Counts deopt points if deopt_every_n_times is enabled.
1305   unsigned int stress_deopt_count_;
1306 
1307   Address virtual_handler_register_;
1308   Address virtual_slot_register_;
1309 
1310   int next_optimization_id_;
1311 
1312   // Counts javascript calls from the API. Wraps around on overflow.
1313   unsigned int js_calls_from_api_counter_;
1314 
1315 #if TRACE_MAPS
1316   int next_unique_sfi_id_;
1317 #endif
1318 
1319   // List of callbacks when a Call completes.
1320   List<CallCompletedCallback> call_completed_callbacks_;
1321 
1322   v8::Isolate::UseCounterCallback use_counter_callback_;
1323   BasicBlockProfiler* basic_block_profiler_;
1324 
1325   List<Object*> partial_snapshot_cache_;
1326 
1327   v8::ArrayBuffer::Allocator* array_buffer_allocator_;
1328 
1329   FutexWaitListNode futex_wait_list_node_;
1330 
1331   CancelableTaskManager* cancelable_task_manager_;
1332 
1333   v8::Isolate::AbortOnUncaughtExceptionCallback
1334       abort_on_uncaught_exception_callback_;
1335 
1336   friend class ExecutionAccess;
1337   friend class HandleScopeImplementer;
1338   friend class OptimizingCompileDispatcher;
1339   friend class SweeperThread;
1340   friend class ThreadManager;
1341   friend class Simulator;
1342   friend class StackGuard;
1343   friend class ThreadId;
1344   friend class TestMemoryAllocatorScope;
1345   friend class TestCodeRangeScope;
1346   friend class v8::Isolate;
1347   friend class v8::Locker;
1348   friend class v8::Unlocker;
1349   friend v8::StartupData v8::V8::CreateSnapshotDataBlob(const char*);
1350 
1351   DISALLOW_COPY_AND_ASSIGN(Isolate);
1352 };
1353 
1354 
1355 #undef FIELD_ACCESSOR
1356 #undef THREAD_LOCAL_TOP_ACCESSOR
1357 
1358 
1359 class PromiseOnStack {
1360  public:
PromiseOnStack(Handle<JSFunction> function,Handle<JSObject> promise,PromiseOnStack * prev)1361   PromiseOnStack(Handle<JSFunction> function, Handle<JSObject> promise,
1362                  PromiseOnStack* prev)
1363       : function_(function), promise_(promise), prev_(prev) {}
function()1364   Handle<JSFunction> function() { return function_; }
promise()1365   Handle<JSObject> promise() { return promise_; }
prev()1366   PromiseOnStack* prev() { return prev_; }
1367 
1368  private:
1369   Handle<JSFunction> function_;
1370   Handle<JSObject> promise_;
1371   PromiseOnStack* prev_;
1372 };
1373 
1374 
1375 // If the GCC version is 4.1.x or 4.2.x an additional field is added to the
1376 // class as a work around for a bug in the generated code found with these
1377 // versions of GCC. See V8 issue 122 for details.
1378 class SaveContext BASE_EMBEDDED {
1379  public:
1380   explicit SaveContext(Isolate* isolate);
1381   ~SaveContext();
1382 
context()1383   Handle<Context> context() { return context_; }
prev()1384   SaveContext* prev() { return prev_; }
1385 
1386   // Returns true if this save context is below a given JavaScript frame.
IsBelowFrame(JavaScriptFrame * frame)1387   bool IsBelowFrame(JavaScriptFrame* frame) {
1388     return (c_entry_fp_ == 0) || (c_entry_fp_ > frame->sp());
1389   }
1390 
1391  private:
1392   Isolate* isolate_;
1393   Handle<Context> context_;
1394   SaveContext* prev_;
1395   Address c_entry_fp_;
1396 };
1397 
1398 
1399 class AssertNoContextChange BASE_EMBEDDED {
1400 #ifdef DEBUG
1401  public:
1402   explicit AssertNoContextChange(Isolate* isolate);
~AssertNoContextChange()1403   ~AssertNoContextChange() {
1404     DCHECK(isolate_->context() == *context_);
1405   }
1406 
1407  private:
1408   Isolate* isolate_;
1409   Handle<Context> context_;
1410 #else
1411  public:
1412   explicit AssertNoContextChange(Isolate* isolate) { }
1413 #endif
1414 };
1415 
1416 
1417 class ExecutionAccess BASE_EMBEDDED {
1418  public:
ExecutionAccess(Isolate * isolate)1419   explicit ExecutionAccess(Isolate* isolate) : isolate_(isolate) {
1420     Lock(isolate);
1421   }
~ExecutionAccess()1422   ~ExecutionAccess() { Unlock(isolate_); }
1423 
Lock(Isolate * isolate)1424   static void Lock(Isolate* isolate) { isolate->break_access()->Lock(); }
Unlock(Isolate * isolate)1425   static void Unlock(Isolate* isolate) { isolate->break_access()->Unlock(); }
1426 
TryLock(Isolate * isolate)1427   static bool TryLock(Isolate* isolate) {
1428     return isolate->break_access()->TryLock();
1429   }
1430 
1431  private:
1432   Isolate* isolate_;
1433 };
1434 
1435 
1436 // Support for checking for stack-overflows.
1437 class StackLimitCheck BASE_EMBEDDED {
1438  public:
StackLimitCheck(Isolate * isolate)1439   explicit StackLimitCheck(Isolate* isolate) : isolate_(isolate) { }
1440 
1441   // Use this to check for stack-overflows in C++ code.
HasOverflowed()1442   bool HasOverflowed() const {
1443     StackGuard* stack_guard = isolate_->stack_guard();
1444     return GetCurrentStackPosition() < stack_guard->real_climit();
1445   }
1446 
1447   // Use this to check for interrupt request in C++ code.
InterruptRequested()1448   bool InterruptRequested() {
1449     StackGuard* stack_guard = isolate_->stack_guard();
1450     return GetCurrentStackPosition() < stack_guard->climit();
1451   }
1452 
1453   // Use this to check for stack-overflow when entering runtime from JS code.
1454   bool JsHasOverflowed(uintptr_t gap = 0) const;
1455 
1456  private:
1457   Isolate* isolate_;
1458 };
1459 
1460 
1461 // Support for temporarily postponing interrupts. When the outermost
1462 // postpone scope is left the interrupts will be re-enabled and any
1463 // interrupts that occurred while in the scope will be taken into
1464 // account.
1465 class PostponeInterruptsScope BASE_EMBEDDED {
1466  public:
1467   PostponeInterruptsScope(Isolate* isolate,
1468                           int intercept_mask = StackGuard::ALL_INTERRUPTS)
1469       : stack_guard_(isolate->stack_guard()),
1470         intercept_mask_(intercept_mask),
1471         intercepted_flags_(0) {
1472     stack_guard_->PushPostponeInterruptsScope(this);
1473   }
1474 
~PostponeInterruptsScope()1475   ~PostponeInterruptsScope() {
1476     stack_guard_->PopPostponeInterruptsScope();
1477   }
1478 
1479   // Find the bottom-most scope that intercepts this interrupt.
1480   // Return whether the interrupt has been intercepted.
1481   bool Intercept(StackGuard::InterruptFlag flag);
1482 
1483  private:
1484   StackGuard* stack_guard_;
1485   int intercept_mask_;
1486   int intercepted_flags_;
1487   PostponeInterruptsScope* prev_;
1488 
1489   friend class StackGuard;
1490 };
1491 
1492 
1493 class CodeTracer final : public Malloced {
1494  public:
CodeTracer(int isolate_id)1495   explicit CodeTracer(int isolate_id)
1496       : file_(NULL),
1497         scope_depth_(0) {
1498     if (!ShouldRedirect()) {
1499       file_ = stdout;
1500       return;
1501     }
1502 
1503     if (FLAG_redirect_code_traces_to == NULL) {
1504       SNPrintF(filename_,
1505                "code-%d-%d.asm",
1506                base::OS::GetCurrentProcessId(),
1507                isolate_id);
1508     } else {
1509       StrNCpy(filename_, FLAG_redirect_code_traces_to, filename_.length());
1510     }
1511 
1512     WriteChars(filename_.start(), "", 0, false);
1513   }
1514 
1515   class Scope {
1516    public:
Scope(CodeTracer * tracer)1517     explicit Scope(CodeTracer* tracer) : tracer_(tracer) { tracer->OpenFile(); }
~Scope()1518     ~Scope() { tracer_->CloseFile();  }
1519 
file()1520     FILE* file() const { return tracer_->file(); }
1521 
1522    private:
1523     CodeTracer* tracer_;
1524   };
1525 
OpenFile()1526   void OpenFile() {
1527     if (!ShouldRedirect()) {
1528       return;
1529     }
1530 
1531     if (file_ == NULL) {
1532       file_ = base::OS::FOpen(filename_.start(), "ab");
1533     }
1534 
1535     scope_depth_++;
1536   }
1537 
CloseFile()1538   void CloseFile() {
1539     if (!ShouldRedirect()) {
1540       return;
1541     }
1542 
1543     if (--scope_depth_ == 0) {
1544       fclose(file_);
1545       file_ = NULL;
1546     }
1547   }
1548 
file()1549   FILE* file() const { return file_; }
1550 
1551  private:
ShouldRedirect()1552   static bool ShouldRedirect() {
1553     return FLAG_redirect_code_traces;
1554   }
1555 
1556   EmbeddedVector<char, 128> filename_;
1557   FILE* file_;
1558   int scope_depth_;
1559 };
1560 
1561 }  // namespace internal
1562 }  // namespace v8
1563 
1564 #endif  // V8_ISOLATE_H_
1565