runtime/vm/os_thread.h - sdk.git - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_OS_THREAD_H_
 #define RUNTIME_VM_OS_THREAD_H_

 #include "platform/address_sanitizer.h"
 #include "platform/globals.h"
 #include "platform/safe_stack.h"
 #include "vm/allocation.h"
 #include "vm/globals.h"

 // Declare the OS-specific types ahead of defining the generic classes.
 #if defined(HOST_OS_ANDROID)
 #include "vm/os_thread_android.h"
 #elif defined(HOST_OS_FUCHSIA)
 #include "vm/os_thread_fuchsia.h"
 #elif defined(HOST_OS_LINUX)
 #include "vm/os_thread_linux.h"
 #elif defined(HOST_OS_MACOS)
 #include "vm/os_thread_macos.h"
 #elif defined(HOST_OS_WINDOWS)
 #include "vm/os_thread_win.h"
 #else
 #error Unknown target os.
 #endif

 namespace dart {

 // Forward declarations.
 class Log;
 class Mutex;
 class Thread;
 class TimelineEventBlock;

 class BaseThread {
  public:
   bool is_os_thread() const { return is_os_thread_; }

  private:
   explicit BaseThread(bool is_os_thread) : is_os_thread_(is_os_thread) {}
   ~BaseThread() {}

   bool is_os_thread_;

   friend class Thread;
   friend class OSThread;

   DISALLOW_IMPLICIT_CONSTRUCTORS(BaseThread);
 };

 // Low-level operations on OS platform threads.
 class OSThread : public BaseThread {
  public:
   // The constructor of OSThread is never called directly, instead we call
   // this factory style method 'CreateOSThread' to create OSThread structures.
   // The method can return a NULL if the Dart VM is in shutdown mode.
   static OSThread* CreateOSThread();
   ~OSThread();

   ThreadId id() const {
     ASSERT(id_ != OSThread::kInvalidThreadId);
     return id_;
   }

 #ifndef PRODUCT
   ThreadId trace_id() const {
     ASSERT(trace_id_ != OSThread::kInvalidThreadId);
     return trace_id_;
   }
 #endif

   const char* name() const { return name_; }

   void SetName(const char* name);

   void set_name(const char* name) {
     ASSERT(OSThread::Current() == this);
     ASSERT(name_ == NULL);
     ASSERT(name != NULL);
     name_ = strdup(name);
   }

   Mutex* timeline_block_lock() const { return timeline_block_lock_; }

   // Only safe to access when holding |timeline_block_lock_|.
   TimelineEventBlock* timeline_block() const { return timeline_block_; }

   // Only safe to access when holding |timeline_block_lock_|.
   void set_timeline_block(TimelineEventBlock* block) {
     timeline_block_ = block;
   }

   Log* log() const { return log_; }

   uword stack_base() const { return stack_base_; }
   uword stack_limit() const { return stack_limit_; }
   uword stack_limit_with_headroom() const {
     return stack_limit_ + kStackSizeBuffer;
   }

   bool HasStackHeadroom(intptr_t headroom = kStackSizeBuffer) {
     return GetCurrentStackPointer() > (stack_limit_ + headroom);
   }

   void RefineStackBoundsFromSP(uword sp) {
     if (sp > stack_base_) {
       stack_base_ = sp;
       stack_limit_ = sp - GetSpecifiedStackSize();
     }
   }

   // May fail for the main thread on Linux and Android.
   static bool GetCurrentStackBounds(uword* lower, uword* upper);

   // Returns the current C++ stack pointer. Equivalent taking the address of a
   // stack allocated local, but plays well with AddressSanitizer and SafeStack.
   // Accurate enough for stack overflow checks but not accurate enough for
   // alignment checks.
   static uword GetCurrentStackPointer();

 #if defined(USING_SAFE_STACK)
   static uword GetCurrentSafestackPointer();
   static void SetCurrentSafestackPointer(uword ssp);
 #endif

   // Used to temporarily disable or enable thread interrupts.
   void DisableThreadInterrupts();
   void EnableThreadInterrupts();
   bool ThreadInterruptsEnabled();

   // The currently executing thread, or NULL if not yet initialized.
   static OSThread* TryCurrent() {
     BaseThread* thread = GetCurrentTLS();
     OSThread* os_thread = NULL;
     if (thread != NULL) {
       if (thread->is_os_thread()) {
         os_thread = reinterpret_cast<OSThread*>(thread);
       } else {
         Thread* vm_thread = reinterpret_cast<Thread*>(thread);
         os_thread = GetOSThreadFromThread(vm_thread);
       }
     }
     return os_thread;
   }

   // The currently executing thread. If there is no currently executing thread,
   // a new OSThread is created and returned.
   static OSThread* Current() {
     OSThread* os_thread = TryCurrent();
     if (os_thread == NULL) {
       os_thread = CreateAndSetUnknownThread();
     }
     return os_thread;
   }
   static void SetCurrent(OSThread* current);

   // TODO(5411455): Use flag to override default value and Validate the
   // stack size by querying OS.
   static uword GetSpecifiedStackSize() {
     ASSERT(OSThread::kStackSizeBuffer < OSThread::GetMaxStackSize());
     uword stack_size = OSThread::GetMaxStackSize() - OSThread::kStackSizeBuffer;
     return stack_size;
   }
   static BaseThread* GetCurrentTLS() {
     return reinterpret_cast<BaseThread*>(OSThread::GetThreadLocal(thread_key_));
   }
   static void SetCurrentTLS(uword value) { SetThreadLocal(thread_key_, value); }

   typedef void (*ThreadStartFunction)(uword parameter);
   typedef void (*ThreadDestructor)(void* parameter);

   // Start a thread running the specified function. Returns 0 if the
   // thread started successfuly and a system specific error code if
   // the thread failed to start.
   static int Start(const char* name,
                    ThreadStartFunction function,
                    uword parameter);

   static ThreadLocalKey CreateThreadLocal(ThreadDestructor destructor = NULL);
   static void DeleteThreadLocal(ThreadLocalKey key);
   static uword GetThreadLocal(ThreadLocalKey key) {
     return ThreadInlineImpl::GetThreadLocal(key);
   }
   static ThreadId GetCurrentThreadId();
   static void SetThreadLocal(ThreadLocalKey key, uword value);
   static intptr_t GetMaxStackSize();
   static void Join(ThreadJoinId id);
   static intptr_t ThreadIdToIntPtr(ThreadId id);
   static ThreadId ThreadIdFromIntPtr(intptr_t id);
   static bool Compare(ThreadId a, ThreadId b);

   // This function can be called only once per OSThread, and should only be
   // called when the retunred id will eventually be passed to OSThread::Join().
   static ThreadJoinId GetCurrentThreadJoinId(OSThread* thread);

   // Called at VM startup and shutdown.
   static void InitOnce();

   static bool IsThreadInList(ThreadId id);

   static void DisableOSThreadCreation();
   static void EnableOSThreadCreation();

   static const intptr_t kStackSizeBuffer = (4 * KB * kWordSize);

   static const ThreadId kInvalidThreadId;
   static const ThreadJoinId kInvalidThreadJoinId;

  private:
   // The constructor is private as CreateOSThread should be used
   // to create a new OSThread structure.
   OSThread();

   // These methods should not be used in a generic way and hence
   // are private, they have been added to solve the problem of
   // accessing the VM thread structure from an OSThread object
   // in the windows thread interrupter which is used for profiling.
   // We could eliminate this requirement if the windows thread interrupter
   // is implemented differently.
   Thread* thread() const { return thread_; }
   void set_thread(Thread* value) { thread_ = value; }

   static void Cleanup();
 #ifndef PRODUCT
   static ThreadId GetCurrentThreadTraceId();
 #endif  // PRODUCT
   static OSThread* GetOSThreadFromThread(Thread* thread);
   static void AddThreadToListLocked(OSThread* thread);
   static void RemoveThreadFromList(OSThread* thread);
   static OSThread* CreateAndSetUnknownThread();

   static ThreadLocalKey thread_key_;

   const ThreadId id_;
 #if defined(DEBUG)
   // In DEBUG mode we use this field to ensure that GetCurrentThreadJoinId is
   // only called once per OSThread.
   ThreadJoinId join_id_;
 #endif
 #ifndef PRODUCT
   const ThreadId trace_id_;  // Used to interface with tracing tools.
 #endif
   char* name_;  // A name for this thread.

   Mutex* timeline_block_lock_;
   TimelineEventBlock* timeline_block_;

   // All |Thread|s are registered in the thread list.
   OSThread* thread_list_next_;

   uintptr_t thread_interrupt_disabled_;
   Log* log_;
   uword stack_base_;
   uword stack_limit_;
   Thread* thread_;

   // thread_list_lock_ cannot have a static lifetime because the order in which
   // destructors run is undefined. At the moment this lock cannot be deleted
   // either since otherwise, if a thread only begins to run after we have
   // started to run TLS destructors for a call to exit(), there will be a race
   // on its deletion in CreateOSThread().
   static Mutex* thread_list_lock_;
   static OSThread* thread_list_head_;
   static bool creation_enabled_;

   friend class Isolate;  // to access set_thread(Thread*).
   friend class OSThreadIterator;
   friend class ThreadInterrupterWin;
   friend class ThreadInterrupterFuchsia;
 };

 // Note that this takes the thread list lock, prohibiting threads from coming
 // on- or off-line.
 class OSThreadIterator : public ValueObject {
  public:
   OSThreadIterator();
   ~OSThreadIterator();

   // Returns false when there are no more threads left.
   bool HasNext() const;

   // Returns the current thread and moves forward.
   OSThread* Next();

  private:
   OSThread* next_;
 };

 class Mutex {
  public:
   explicit Mutex(NOT_IN_PRODUCT(const char* name = "anonymous mutex"));
   ~Mutex();

 #if defined(DEBUG)
   bool IsOwnedByCurrentThread() const {
     return owner_ == OSThread::GetCurrentThreadId();
   }
 #else
   bool IsOwnedByCurrentThread() const {
     UNREACHABLE();
     return false;
   }
 #endif

  private:
   void Lock();
   bool TryLock();  // Returns false if lock is busy and locking failed.
   void Unlock();

   MutexData data_;
   NOT_IN_PRODUCT(const char* name_);
 #if defined(DEBUG)
   ThreadId owner_;
 #endif  // defined(DEBUG)

   friend class MallocLocker;
   friend class MutexLocker;
   friend class SafepointMutexLocker;
   friend class OSThreadIterator;
   friend class TimelineEventBlockIterator;
   friend class TimelineEventRecorder;
   friend class PageSpace;
   friend void Dart_TestMutex();
   DISALLOW_COPY_AND_ASSIGN(Mutex);
 };

 class Monitor {
  public:
   enum WaitResult { kNotified, kTimedOut };

   static const int64_t kNoTimeout = 0;

   Monitor();
   ~Monitor();

 #if defined(DEBUG)
   bool IsOwnedByCurrentThread() const {
     return owner_ == OSThread::GetCurrentThreadId();
   }
 #else
   bool IsOwnedByCurrentThread() const {
     UNREACHABLE();
     return false;
   }
 #endif

  private:
   bool TryEnter();  // Returns false if lock is busy and locking failed.
   void Enter();
   void Exit();

   // Wait for notification or timeout.
   WaitResult Wait(int64_t millis);
   WaitResult WaitMicros(int64_t micros);

   // Notify waiting threads.
   void Notify();
   void NotifyAll();

   MonitorData data_;  // OS-specific data.
 #if defined(DEBUG)
   ThreadId owner_;
 #endif  // defined(DEBUG)

   friend class MonitorLocker;
   friend class SafepointMonitorLocker;
   friend void Dart_TestMonitor();
   DISALLOW_COPY_AND_ASSIGN(Monitor);
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_OS_THREAD_H_
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_OS_THREAD_H_
	#define RUNTIME_VM_OS_THREAD_H_

	#include "platform/address_sanitizer.h"
	#include "platform/globals.h"
	#include "platform/safe_stack.h"
	#include "vm/allocation.h"
	#include "vm/globals.h"

	// Declare the OS-specific types ahead of defining the generic classes.
	#if defined(HOST_OS_ANDROID)
	#include "vm/os_thread_android.h"
	#elif defined(HOST_OS_FUCHSIA)
	#include "vm/os_thread_fuchsia.h"
	#elif defined(HOST_OS_LINUX)
	#include "vm/os_thread_linux.h"
	#elif defined(HOST_OS_MACOS)
	#include "vm/os_thread_macos.h"
	#elif defined(HOST_OS_WINDOWS)
	#include "vm/os_thread_win.h"
	#else
	#error Unknown target os.
	#endif

	namespace dart {

	// Forward declarations.
	class Log;
	class Mutex;
	class Thread;
	class TimelineEventBlock;

	class BaseThread {
	public:
	bool is_os_thread() const { return is_os_thread_; }

	private:
	explicit BaseThread(bool is_os_thread) : is_os_thread_(is_os_thread) {}
	~BaseThread() {}

	bool is_os_thread_;

	friend class Thread;
	friend class OSThread;

	DISALLOW_IMPLICIT_CONSTRUCTORS(BaseThread);
	};

	// Low-level operations on OS platform threads.
	class OSThread : public BaseThread {
	public:
	// The constructor of OSThread is never called directly, instead we call
	// this factory style method 'CreateOSThread' to create OSThread structures.
	// The method can return a NULL if the Dart VM is in shutdown mode.
	static OSThread* CreateOSThread();
	~OSThread();

	ThreadId id() const {
	ASSERT(id_ != OSThread::kInvalidThreadId);
	return id_;
	}

	#ifndef PRODUCT
	ThreadId trace_id() const {
	ASSERT(trace_id_ != OSThread::kInvalidThreadId);
	return trace_id_;
	}
	#endif

	const char* name() const { return name_; }

	void SetName(const char* name);

	void set_name(const char* name) {
	ASSERT(OSThread::Current() == this);
	ASSERT(name_ == NULL);
	ASSERT(name != NULL);
	name_ = strdup(name);
	}

	Mutex* timeline_block_lock() const { return timeline_block_lock_; }

	// Only safe to access when holding \|timeline_block_lock_\|.
	TimelineEventBlock* timeline_block() const { return timeline_block_; }

	// Only safe to access when holding \|timeline_block_lock_\|.
	void set_timeline_block(TimelineEventBlock* block) {
	timeline_block_ = block;
	}

	Log* log() const { return log_; }

	uword stack_base() const { return stack_base_; }
	uword stack_limit() const { return stack_limit_; }
	uword stack_limit_with_headroom() const {
	return stack_limit_ + kStackSizeBuffer;
	}

	bool HasStackHeadroom(intptr_t headroom = kStackSizeBuffer) {
	return GetCurrentStackPointer() > (stack_limit_ + headroom);
	}

	void RefineStackBoundsFromSP(uword sp) {
	if (sp > stack_base_) {
	stack_base_ = sp;
	stack_limit_ = sp - GetSpecifiedStackSize();
	}
	}

	// May fail for the main thread on Linux and Android.
	static bool GetCurrentStackBounds(uword* lower, uword* upper);

	// Returns the current C++ stack pointer. Equivalent taking the address of a
	// stack allocated local, but plays well with AddressSanitizer and SafeStack.
	// Accurate enough for stack overflow checks but not accurate enough for
	// alignment checks.
	static uword GetCurrentStackPointer();

	#if defined(USING_SAFE_STACK)
	static uword GetCurrentSafestackPointer();
	static void SetCurrentSafestackPointer(uword ssp);
	#endif

	// Used to temporarily disable or enable thread interrupts.
	void DisableThreadInterrupts();
	void EnableThreadInterrupts();
	bool ThreadInterruptsEnabled();

	// The currently executing thread, or NULL if not yet initialized.
	static OSThread* TryCurrent() {
	BaseThread* thread = GetCurrentTLS();
	OSThread* os_thread = NULL;
	if (thread != NULL) {
	if (thread->is_os_thread()) {
	os_thread = reinterpret_cast<OSThread*>(thread);
	} else {
	Thread* vm_thread = reinterpret_cast<Thread*>(thread);
	os_thread = GetOSThreadFromThread(vm_thread);
	}
	}
	return os_thread;
	}

	// The currently executing thread. If there is no currently executing thread,
	// a new OSThread is created and returned.
	static OSThread* Current() {
	OSThread* os_thread = TryCurrent();
	if (os_thread == NULL) {
	os_thread = CreateAndSetUnknownThread();
	}
	return os_thread;
	}
	static void SetCurrent(OSThread* current);

	// TODO(5411455): Use flag to override default value and Validate the
	// stack size by querying OS.
	static uword GetSpecifiedStackSize() {
	ASSERT(OSThread::kStackSizeBuffer < OSThread::GetMaxStackSize());
	uword stack_size = OSThread::GetMaxStackSize() - OSThread::kStackSizeBuffer;
	return stack_size;
	}
	static BaseThread* GetCurrentTLS() {
	return reinterpret_cast<BaseThread*>(OSThread::GetThreadLocal(thread_key_));
	}
	static void SetCurrentTLS(uword value) { SetThreadLocal(thread_key_, value); }

	typedef void (*ThreadStartFunction)(uword parameter);
	typedef void (ThreadDestructor)(void parameter);

	// Start a thread running the specified function. Returns 0 if the
	// thread started successfuly and a system specific error code if
	// the thread failed to start.
	static int Start(const char* name,
	ThreadStartFunction function,
	uword parameter);

	static ThreadLocalKey CreateThreadLocal(ThreadDestructor destructor = NULL);
	static void DeleteThreadLocal(ThreadLocalKey key);
	static uword GetThreadLocal(ThreadLocalKey key) {
	return ThreadInlineImpl::GetThreadLocal(key);
	}
	static ThreadId GetCurrentThreadId();
	static void SetThreadLocal(ThreadLocalKey key, uword value);
	static intptr_t GetMaxStackSize();
	static void Join(ThreadJoinId id);
	static intptr_t ThreadIdToIntPtr(ThreadId id);
	static ThreadId ThreadIdFromIntPtr(intptr_t id);
	static bool Compare(ThreadId a, ThreadId b);

	// This function can be called only once per OSThread, and should only be
	// called when the retunred id will eventually be passed to OSThread::Join().
	static ThreadJoinId GetCurrentThreadJoinId(OSThread* thread);

	// Called at VM startup and shutdown.
	static void InitOnce();

	static bool IsThreadInList(ThreadId id);

	static void DisableOSThreadCreation();
	static void EnableOSThreadCreation();

	static const intptr_t kStackSizeBuffer = (4 * KB * kWordSize);

	static const ThreadId kInvalidThreadId;
	static const ThreadJoinId kInvalidThreadJoinId;

	private:
	// The constructor is private as CreateOSThread should be used
	// to create a new OSThread structure.
	OSThread();

	// These methods should not be used in a generic way and hence
	// are private, they have been added to solve the problem of
	// accessing the VM thread structure from an OSThread object
	// in the windows thread interrupter which is used for profiling.
	// We could eliminate this requirement if the windows thread interrupter
	// is implemented differently.
	Thread* thread() const { return thread_; }
	void set_thread(Thread* value) { thread_ = value; }

	static void Cleanup();
	#ifndef PRODUCT
	static ThreadId GetCurrentThreadTraceId();
	#endif // PRODUCT
	static OSThread* GetOSThreadFromThread(Thread* thread);
	static void AddThreadToListLocked(OSThread* thread);
	static void RemoveThreadFromList(OSThread* thread);
	static OSThread* CreateAndSetUnknownThread();

	static ThreadLocalKey thread_key_;

	const ThreadId id_;
	#if defined(DEBUG)
	// In DEBUG mode we use this field to ensure that GetCurrentThreadJoinId is
	// only called once per OSThread.
	ThreadJoinId join_id_;
	#endif
	#ifndef PRODUCT
	const ThreadId trace_id_; // Used to interface with tracing tools.
	#endif
	char* name_; // A name for this thread.

	Mutex* timeline_block_lock_;
	TimelineEventBlock* timeline_block_;

	// All \|Thread\|s are registered in the thread list.
	OSThread* thread_list_next_;

	uintptr_t thread_interrupt_disabled_;
	Log* log_;
	uword stack_base_;
	uword stack_limit_;
	Thread* thread_;

	// thread_list_lock_ cannot have a static lifetime because the order in which
	// destructors run is undefined. At the moment this lock cannot be deleted
	// either since otherwise, if a thread only begins to run after we have
	// started to run TLS destructors for a call to exit(), there will be a race
	// on its deletion in CreateOSThread().
	static Mutex* thread_list_lock_;
	static OSThread* thread_list_head_;
	static bool creation_enabled_;

	friend class Isolate; // to access set_thread(Thread*).
	friend class OSThreadIterator;
	friend class ThreadInterrupterWin;
	friend class ThreadInterrupterFuchsia;
	};

	// Note that this takes the thread list lock, prohibiting threads from coming
	// on- or off-line.
	class OSThreadIterator : public ValueObject {
	public:
	OSThreadIterator();
	~OSThreadIterator();

	// Returns false when there are no more threads left.
	bool HasNext() const;

	// Returns the current thread and moves forward.
	OSThread* Next();

	private:
	OSThread* next_;
	};

	class Mutex {
	public:
	explicit Mutex(NOT_IN_PRODUCT(const char* name = "anonymous mutex"));
	~Mutex();

	#if defined(DEBUG)
	bool IsOwnedByCurrentThread() const {
	return owner_ == OSThread::GetCurrentThreadId();
	}
	#else
	bool IsOwnedByCurrentThread() const {
	UNREACHABLE();
	return false;
	}
	#endif

	private:
	void Lock();
	bool TryLock(); // Returns false if lock is busy and locking failed.
	void Unlock();

	MutexData data_;
	NOT_IN_PRODUCT(const char* name_);
	#if defined(DEBUG)
	ThreadId owner_;
	#endif // defined(DEBUG)

	friend class MallocLocker;
	friend class MutexLocker;
	friend class SafepointMutexLocker;
	friend class OSThreadIterator;
	friend class TimelineEventBlockIterator;
	friend class TimelineEventRecorder;
	friend class PageSpace;
	friend void Dart_TestMutex();
	DISALLOW_COPY_AND_ASSIGN(Mutex);
	};

	class Monitor {
	public:
	enum WaitResult { kNotified, kTimedOut };

	static const int64_t kNoTimeout = 0;

	Monitor();
	~Monitor();

	#if defined(DEBUG)
	bool IsOwnedByCurrentThread() const {
	return owner_ == OSThread::GetCurrentThreadId();
	}
	#else
	bool IsOwnedByCurrentThread() const {
	UNREACHABLE();
	return false;
	}
	#endif

	private:
	bool TryEnter(); // Returns false if lock is busy and locking failed.
	void Enter();
	void Exit();

	// Wait for notification or timeout.
	WaitResult Wait(int64_t millis);
	WaitResult WaitMicros(int64_t micros);

	// Notify waiting threads.
	void Notify();
	void NotifyAll();

	MonitorData data_; // OS-specific data.
	#if defined(DEBUG)
	ThreadId owner_;
	#endif // defined(DEBUG)

	friend class MonitorLocker;
	friend class SafepointMonitorLocker;
	friend void Dart_TestMonitor();
	DISALLOW_COPY_AND_ASSIGN(Monitor);
	};

	} // namespace dart

	#endif // RUNTIME_VM_OS_THREAD_H_