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/***
* Copyright (C) Microsoft. All rights reserved.
* Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
*
* =+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+
*
* Parallel Patterns Library : cancellation_token
*
* =-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-
****/
#pragma once
#ifndef _PPLX_H
#error This header must not be included directly
#endif
#ifndef _PPLXCANCELLATION_TOKEN_H
#define _PPLXCANCELLATION_TOKEN_H
#if (defined(_MSC_VER) && (_MSC_VER >= 1800)) && !CPPREST_FORCE_PPLX
#error This file must not be included for Visual Studio 12 or later
#endif
#include "pplx/pplxinterface.h"
#include <cstdlib>
#include <string>
#pragma pack(push, _CRT_PACKING)
// All header files are required to be protected from the macro new
#pragma push_macro("new")
#undef new
namespace pplx
{
/// <summary>
/// This class describes an exception thrown by the PPL tasks layer in order to force the current task
/// to cancel. It is also thrown by the <c>get()</c> method on <see cref="task Class">task</see>, for a
/// canceled task.
/// </summary>
/// <seealso cref="task::get Method"/>
/// <seealso cref="cancel_current_task Method"/>
/**/
class task_canceled : public std::exception
{
private:
std::string _message;
public:
/// <summary>
/// Constructs a <c>task_canceled</c> object.
/// </summary>
/// <param name="_Message">
/// A descriptive message of the error.
/// </param>
/**/
explicit task_canceled(_In_z_ const char* _Message) throw() : _message(_Message) {}
/// <summary>
/// Constructs a <c>task_canceled</c> object.
/// </summary>
/**/
task_canceled() throw() : exception() {}
~task_canceled() throw() {}
const char* what() const CPPREST_NOEXCEPT { return _message.c_str(); }
};
/// <summary>
/// This class describes an exception thrown when an invalid operation is performed that is not more accurately
/// described by another exception type thrown by the Concurrency Runtime.
/// </summary>
/// <remarks>
/// The various methods which throw this exception will generally document under what circumstances they will throw
/// it.
/// </remarks>
/**/
class invalid_operation : public std::exception
{
private:
std::string _message;
public:
/// <summary>
/// Constructs an <c>invalid_operation</c> object.
/// </summary>
/// <param name="_Message">
/// A descriptive message of the error.
/// </param>
/**/
invalid_operation(_In_z_ const char* _Message) throw() : _message(_Message) {}
/// <summary>
/// Constructs an <c>invalid_operation</c> object.
/// </summary>
/**/
invalid_operation() throw() : exception() {}
~invalid_operation() throw() {}
const char* what() const CPPREST_NOEXCEPT { return _message.c_str(); }
};
namespace details
{
// Base class for all reference counted objects
class _RefCounter
{
public:
virtual ~_RefCounter() { _ASSERTE(_M_refCount == 0); }
// Acquires a reference
// Returns the new reference count.
long _Reference()
{
long _Refcount = atomic_increment(_M_refCount);
// 0 - 1 transition is illegal
_ASSERTE(_Refcount > 1);
return _Refcount;
}
// Releases the reference
// Returns the new reference count
long _Release()
{
long _Refcount = atomic_decrement(_M_refCount);
_ASSERTE(_Refcount >= 0);
if (_Refcount == 0)
{
_Destroy();
}
return _Refcount;
}
protected:
// Allow derived classes to provide their own deleter
virtual void _Destroy() { delete this; }
// Only allow instantiation through derived class
_RefCounter(long _InitialCount = 1) : _M_refCount(_InitialCount) { _ASSERTE(_M_refCount > 0); }
// Reference count
atomic_long _M_refCount;
};
class _CancellationTokenState;
class _CancellationTokenRegistration : public _RefCounter
{
private:
static const long _STATE_CLEAR = 0;
static const long _STATE_DEFER_DELETE = 1;
static const long _STATE_SYNCHRONIZE = 2;
static const long _STATE_CALLED = 3;
public:
_CancellationTokenRegistration(long _InitialRefs = 1)
: _RefCounter(_InitialRefs), _M_state(_STATE_CALLED), _M_pTokenState(NULL)
{
}
_CancellationTokenState* _GetToken() const { return _M_pTokenState; }
protected:
virtual ~_CancellationTokenRegistration() { _ASSERTE(_M_state != _STATE_CLEAR); }
virtual void _Exec() = 0;
private:
friend class _CancellationTokenState;
void _Invoke()
{
long tid = ::pplx::details::platform::GetCurrentThreadId();
_ASSERTE((tid & 0x3) == 0); // If this ever fires, we need a different encoding for this.
long result = atomic_compare_exchange(_M_state, tid, _STATE_CLEAR);
if (result == _STATE_CLEAR)
{
_Exec();
result = atomic_compare_exchange(_M_state, _STATE_CALLED, tid);
if (result == _STATE_SYNCHRONIZE)
{
_M_pSyncBlock->set();
}
}
_Release();
}
atomic_long _M_state;
extensibility::event_t* _M_pSyncBlock;
_CancellationTokenState* _M_pTokenState;
};
template<typename _Function>
class _CancellationTokenCallback : public _CancellationTokenRegistration
{
public:
_CancellationTokenCallback(const _Function& _Func) : _M_function(_Func) {}
protected:
virtual void _Exec() { _M_function(); }
private:
_Function _M_function;
};
class CancellationTokenRegistration_TaskProc : public _CancellationTokenRegistration
{
public:
CancellationTokenRegistration_TaskProc(TaskProc_t proc, _In_ void* pData, int initialRefs)
: _CancellationTokenRegistration(initialRefs), m_proc(proc), m_pData(pData)
{
}
protected:
virtual void _Exec() { m_proc(m_pData); }
private:
TaskProc_t m_proc;
void* m_pData;
};
// The base implementation of a cancellation token.
class _CancellationTokenState : public _RefCounter
{
protected:
class TokenRegistrationContainer
{
private:
typedef struct _Node
{
_CancellationTokenRegistration* _M_token;
_Node* _M_next;
} Node;
public:
TokenRegistrationContainer() : _M_begin(nullptr), _M_last(nullptr) {}
~TokenRegistrationContainer()
{
#if defined(_MSC_VER)
#pragma warning(push)
#pragma warning(disable : 6001)
#endif
auto node = _M_begin;
while (node != nullptr)
{
Node* tmp = node;
node = node->_M_next;
::free(tmp);
}
#if defined(_MSC_VER)
#pragma warning(pop)
#endif
}
void swap(TokenRegistrationContainer& list)
{
std::swap(list._M_begin, _M_begin);
std::swap(list._M_last, _M_last);
}
bool empty() { return _M_begin == nullptr; }
template<typename T>
void for_each(T lambda)
{
Node* node = _M_begin;
while (node != nullptr)
{
lambda(node->_M_token);
node = node->_M_next;
}
}
void push_back(_CancellationTokenRegistration* token)
{
Node* node = reinterpret_cast<Node*>(::malloc(sizeof(Node)));
if (node == nullptr)
{
throw ::std::bad_alloc();
}
node->_M_token = token;
node->_M_next = nullptr;
if (_M_begin == nullptr)
{
_M_begin = node;
}
else
{
_M_last->_M_next = node;
}
_M_last = node;
}
void remove(_CancellationTokenRegistration* token)
{
Node* node = _M_begin;
Node* prev = nullptr;
while (node != nullptr)
{
if (node->_M_token == token)
{
if (prev == nullptr)
{
_M_begin = node->_M_next;
}
else
{
prev->_M_next = node->_M_next;
}
if (node->_M_next == nullptr)
{
_M_last = prev;
}
::free(node);
break;
}
prev = node;
node = node->_M_next;
}
}
private:
Node* _M_begin;
Node* _M_last;
};
public:
static _CancellationTokenState* _NewTokenState() { return new _CancellationTokenState(); }
static _CancellationTokenState* _None() { return reinterpret_cast<_CancellationTokenState*>(2); }
static bool _IsValid(_In_opt_ _CancellationTokenState* _PToken) { return (_PToken != NULL && _PToken != _None()); }
_CancellationTokenState() : _M_stateFlag(0) {}
~_CancellationTokenState()
{
TokenRegistrationContainer rundownList;
{
extensibility::scoped_critical_section_t _Lock(_M_listLock);
_M_registrations.swap(rundownList);
}
rundownList.for_each([](_CancellationTokenRegistration* pRegistration) {
pRegistration->_M_state = _CancellationTokenRegistration::_STATE_SYNCHRONIZE;
pRegistration->_Release();
});
}
bool _IsCanceled() const { return (_M_stateFlag != 0); }
void _Cancel()
{
if (atomic_compare_exchange(_M_stateFlag, 1l, 0l) == 0)
{
TokenRegistrationContainer rundownList;
{
extensibility::scoped_critical_section_t _Lock(_M_listLock);
_M_registrations.swap(rundownList);
}
rundownList.for_each([](_CancellationTokenRegistration* pRegistration) { pRegistration->_Invoke(); });
_M_stateFlag = 2;
_M_cancelComplete.set();
}
}
_CancellationTokenRegistration* _RegisterCallback(TaskProc_t _PCallback, _In_ void* _PData, int _InitialRefs = 1)
{
_CancellationTokenRegistration* pRegistration =
new CancellationTokenRegistration_TaskProc(_PCallback, _PData, _InitialRefs);
_RegisterCallback(pRegistration);
return pRegistration;
}
void _RegisterCallback(_In_ _CancellationTokenRegistration* _PRegistration)
{
_PRegistration->_M_state = _CancellationTokenRegistration::_STATE_CLEAR;
_PRegistration->_Reference();
_PRegistration->_M_pTokenState = this;
bool invoke = true;
if (!_IsCanceled())
{
extensibility::scoped_critical_section_t _Lock(_M_listLock);
if (!_IsCanceled())
{
invoke = false;
_M_registrations.push_back(_PRegistration);
}
}
if (invoke)
{
_PRegistration->_Invoke();
}
}
void _DeregisterCallback(_In_ _CancellationTokenRegistration* _PRegistration)
{
bool synchronize = false;
{
extensibility::scoped_critical_section_t _Lock(_M_listLock);
//
// If a cancellation has occurred, the registration list is guaranteed to be empty if we've observed it
// under the auspices of the lock. In this case, we must synchronize with the canceling thread to guarantee
// that the cancellation is finished by the time we return from this method.
//
if (!_M_registrations.empty())
{
_M_registrations.remove(_PRegistration);
_PRegistration->_M_state = _CancellationTokenRegistration::_STATE_SYNCHRONIZE;
_PRegistration->_Release();
}
else
{
synchronize = true;
}
}
//
// If the list is empty, we are in one of several situations:
//
// - The callback has already been made --> do nothing
// - The callback is about to be made --> flag it so it doesn't happen and return
// - The callback is in progress elsewhere --> synchronize with it
// - The callback is in progress on this thread --> do nothing
//
if (synchronize)
{
long result = atomic_compare_exchange(_PRegistration->_M_state,
_CancellationTokenRegistration::_STATE_DEFER_DELETE,
_CancellationTokenRegistration::_STATE_CLEAR);
switch (result)
{
case _CancellationTokenRegistration::_STATE_CLEAR:
case _CancellationTokenRegistration::_STATE_CALLED: break;
case _CancellationTokenRegistration::_STATE_DEFER_DELETE:
case _CancellationTokenRegistration::_STATE_SYNCHRONIZE: _ASSERTE(false); break;
default:
{
long tid = result;
if (tid == ::pplx::details::platform::GetCurrentThreadId())
{
//
// It is entirely legal for a caller to Deregister during a callback instead of having to
// provide their own synchronization mechanism between the two. In this case, we do *NOT* need
// to explicitly synchronize with the callback as doing so would deadlock. If the call happens
// during, skip any extra synchronization.
//
break;
}
extensibility::event_t ev;
_PRegistration->_M_pSyncBlock = &ev;
long result_1 =
atomic_exchange(_PRegistration->_M_state, _CancellationTokenRegistration::_STATE_SYNCHRONIZE);
if (result_1 != _CancellationTokenRegistration::_STATE_CALLED)
{
_PRegistration->_M_pSyncBlock->wait(::pplx::extensibility::event_t::timeout_infinite);
}
break;
}
}
}
}
private:
// The flag for the token state (whether it is canceled or not)
atomic_long _M_stateFlag;
// Notification of completion of cancellation of this token.
extensibility::event_t _M_cancelComplete; // Hmm.. where do we wait for it??
// Lock to protect the registrations list
extensibility::critical_section_t _M_listLock;
// The protected list of registrations
TokenRegistrationContainer _M_registrations;
};
} // namespace details
class cancellation_token_source;
class cancellation_token;
/// <summary>
/// The <c>cancellation_token_registration</c> class represents a callback notification from a
/// <c>cancellation_token</c>. When the <c>register</c> method on a <c>cancellation_token</c> is used to receive
/// notification of when cancellation occurs, a <c>cancellation_token_registration</c> object is returned as a
/// handle to the callback so that the caller can request a specific callback no longer be made through use of the
/// <c>deregister</c> method.
/// </summary>
class cancellation_token_registration
{
public:
cancellation_token_registration() : _M_pRegistration(NULL) {}
~cancellation_token_registration() { _Clear(); }
cancellation_token_registration(const cancellation_token_registration& _Src) { _Assign(_Src._M_pRegistration); }
cancellation_token_registration(cancellation_token_registration&& _Src) { _Move(_Src._M_pRegistration); }
cancellation_token_registration& operator=(const cancellation_token_registration& _Src)
{
if (this != &_Src)
{
_Clear();
_Assign(_Src._M_pRegistration);
}
return *this;
}
cancellation_token_registration& operator=(cancellation_token_registration&& _Src)
{
if (this != &_Src)
{
_Clear();
_Move(_Src._M_pRegistration);
}
return *this;
}
bool operator==(const cancellation_token_registration& _Rhs) const
{
return _M_pRegistration == _Rhs._M_pRegistration;
}
bool operator!=(const cancellation_token_registration& _Rhs) const { return !(operator==(_Rhs)); }
private:
friend class cancellation_token;
cancellation_token_registration(_In_ details::_CancellationTokenRegistration* _PRegistration)
: _M_pRegistration(_PRegistration)
{
}
void _Clear()
{
if (_M_pRegistration != NULL)
{
_M_pRegistration->_Release();
}
_M_pRegistration = NULL;
}
void _Assign(_In_ details::_CancellationTokenRegistration* _PRegistration)
{
if (_PRegistration != NULL)
{
_PRegistration->_Reference();
}
_M_pRegistration = _PRegistration;
}
void _Move(_In_ details::_CancellationTokenRegistration*& _PRegistration)
{
_M_pRegistration = _PRegistration;
_PRegistration = NULL;
}
details::_CancellationTokenRegistration* _M_pRegistration;
};
/// <summary>
/// The <c>cancellation_token</c> class represents the ability to determine whether some operation has been
/// requested to cancel. A given token can be associated with a <c>task_group</c>, <c>structured_task_group</c>, or
/// <c>task</c> to provide implicit cancellation. It can also be polled for cancellation or have a callback
/// registered for if and when the associated <c>cancellation_token_source</c> is canceled.
/// </summary>
class cancellation_token
{
public:
typedef details::_CancellationTokenState* _ImplType;
/// <summary>
/// Returns a cancellation token which can never be subject to cancellation.
/// </summary>
/// <returns>
/// A cancellation token that cannot be canceled.
/// </returns>
static cancellation_token none() { return cancellation_token(); }
cancellation_token(const cancellation_token& _Src) { _Assign(_Src._M_Impl); }
cancellation_token(cancellation_token&& _Src) { _Move(_Src._M_Impl); }
cancellation_token& operator=(const cancellation_token& _Src)
{
if (this != &_Src)
{
_Clear();
_Assign(_Src._M_Impl);
}
return *this;
}
cancellation_token& operator=(cancellation_token&& _Src)
{
if (this != &_Src)
{
_Clear();
_Move(_Src._M_Impl);
}
return *this;
}
bool operator==(const cancellation_token& _Src) const { return _M_Impl == _Src._M_Impl; }
bool operator!=(const cancellation_token& _Src) const { return !(operator==(_Src)); }
~cancellation_token() { _Clear(); }
/// <summary>
/// Returns an indication of whether this token can be canceled or not.
/// </summary>
/// <returns>
/// An indication of whether this token can be canceled or not.
/// </returns>
bool is_cancelable() const { return (_M_Impl != NULL); }
/// <summary>
/// Returns <c>true</c> if the token has been canceled.
/// </summary>
/// <returns>
/// The value <c>true</c> if the token has been canceled; otherwise, the value <c>false</c>.
/// </returns>
bool is_canceled() const { return (_M_Impl != NULL && _M_Impl->_IsCanceled()); }
/// <summary>
/// Registers a callback function with the token. If and when the token is canceled, the callback will be made.
/// Note that if the token is already canceled at the point where this method is called, the callback will be
/// made immediately and synchronously.
/// </summary>
/// <typeparam name="_Function">
/// The type of the function object that will be called back when this <c>cancellation_token</c> is canceled.
/// </typeparam>
/// <param name="_Func">
/// The function object that will be called back when this <c>cancellation_token</c> is canceled.
/// </param>
/// <returns>
/// A <c>cancellation_token_registration</c> object which can be utilized in the <c>deregister</c> method to
/// deregister a previously registered callback and prevent it from being made. The method will throw an <see
/// cref="invalid_operation Class">invalid_operation </see> exception if it is called on a
/// <c>cancellation_token</c> object that was created using the <see cref="cancellation_token::none
/// Method">cancellation_token::none </see> method.
/// </returns>
template<typename _Function>
::pplx::cancellation_token_registration register_callback(const _Function& _Func) const
{
if (_M_Impl == NULL)
{
// A callback cannot be registered if the token does not have an associated source.
throw invalid_operation();
}
#if defined(_MSC_VER)
#pragma warning(suppress : 28197)
#endif
details::_CancellationTokenCallback<_Function>* _PCallback =
new details::_CancellationTokenCallback<_Function>(_Func);
_M_Impl->_RegisterCallback(_PCallback);
return cancellation_token_registration(_PCallback);
}
/// <summary>
/// Removes a callback previously registered via the <c>register</c> method based on the
/// <c>cancellation_token_registration</c> object returned at the time of registration.
/// </summary>
/// <param name="_Registration">
/// The <c>cancellation_token_registration</c> object corresponding to the callback to be deregistered. This
/// token must have been previously returned from a call to the <c>register</c> method.
/// </param>
void deregister_callback(const cancellation_token_registration& _Registration) const
{
_M_Impl->_DeregisterCallback(_Registration._M_pRegistration);
}
_ImplType _GetImpl() const { return _M_Impl; }
_ImplType _GetImplValue() const
{
return (_M_Impl == NULL) ? ::pplx::details::_CancellationTokenState::_None() : _M_Impl;
}
static cancellation_token _FromImpl(_ImplType _Impl) { return cancellation_token(_Impl); }
private:
friend class cancellation_token_source;
_ImplType _M_Impl;
void _Clear()
{
if (_M_Impl != NULL)
{
_M_Impl->_Release();
}
_M_Impl = NULL;
}
void _Assign(_ImplType _Impl)
{
if (_Impl != NULL)
{
_Impl->_Reference();
}
_M_Impl = _Impl;
}
void _Move(_ImplType& _Impl)
{
_M_Impl = _Impl;
_Impl = NULL;
}
cancellation_token() : _M_Impl(NULL) {}
cancellation_token(_ImplType _Impl) : _M_Impl(_Impl)
{
if (_M_Impl == ::pplx::details::_CancellationTokenState::_None())
{
_M_Impl = NULL;
}
if (_M_Impl != NULL)
{
_M_Impl->_Reference();
}
}
};
/// <summary>
/// The <c>cancellation_token_source</c> class represents the ability to cancel some cancelable operation.
/// </summary>
class cancellation_token_source
{
public:
typedef ::pplx::details::_CancellationTokenState* _ImplType;
/// <summary>
/// Constructs a new <c>cancellation_token_source</c>. The source can be used to flag cancellation of some
/// cancelable operation.
/// </summary>
cancellation_token_source() { _M_Impl = new ::pplx::details::_CancellationTokenState; }
cancellation_token_source(const cancellation_token_source& _Src) { _Assign(_Src._M_Impl); }
cancellation_token_source(cancellation_token_source&& _Src) { _Move(_Src._M_Impl); }
cancellation_token_source& operator=(const cancellation_token_source& _Src)
{
if (this != &_Src)
{
_Clear();
_Assign(_Src._M_Impl);
}
return *this;
}
cancellation_token_source& operator=(cancellation_token_source&& _Src)
{
if (this != &_Src)
{
_Clear();
_Move(_Src._M_Impl);
}
return *this;
}
bool operator==(const cancellation_token_source& _Src) const { return _M_Impl == _Src._M_Impl; }
bool operator!=(const cancellation_token_source& _Src) const { return !(operator==(_Src)); }
~cancellation_token_source()
{
if (_M_Impl != NULL)
{
_M_Impl->_Release();
}
}
/// <summary>
/// Returns a cancellation token associated with this source. The returned token can be polled for cancellation
/// or provide a callback if and when cancellation occurs.
/// </summary>
/// <returns>
/// A cancellation token associated with this source.
/// </returns>
cancellation_token get_token() const { return cancellation_token(_M_Impl); }
/// <summary>
/// Creates a <c>cancellation_token_source</c> which is canceled when the provided token is canceled.
/// </summary>
/// <param name="_Src">
/// A token whose cancellation will cause cancellation of the returned token source. Note that the returned
/// token source can also be canceled independently of the source contained in this parameter.
/// </param>
/// <returns>
/// A <c>cancellation_token_source</c> which is canceled when the token provided by the <paramref name="_Src"/>
/// parameter is canceled.
/// </returns>
static cancellation_token_source create_linked_source(cancellation_token& _Src)
{
cancellation_token_source newSource;
_Src.register_callback([newSource]() { newSource.cancel(); });
return newSource;
}
/// <summary>
/// Creates a <c>cancellation_token_source</c> which is canceled when one of a series of tokens represented by
/// an STL iterator pair is canceled.
/// </summary>
/// <param name="_Begin">
/// The STL iterator corresponding to the beginning of the range of tokens to listen for cancellation of.
/// </param>
/// <param name="_End">
/// The STL iterator corresponding to the ending of the range of tokens to listen for cancellation of.
/// </param>
/// <returns>
/// A <c>cancellation_token_source</c> which is canceled when any of the tokens provided by the range described
/// by the STL iterators contained in the <paramref name="_Begin"/> and <paramref name="_End"/> parameters is
/// canceled.
/// </returns>
template<typename _Iter>
static cancellation_token_source create_linked_source(_Iter _Begin, _Iter _End)
{
cancellation_token_source newSource;
for (_Iter _It = _Begin; _It != _End; ++_It)
{
_It->register_callback([newSource]() { newSource.cancel(); });
}
return newSource;
}
/// <summary>
/// Cancels the token. Any <c>task_group</c>, <c>structured_task_group</c>, or <c>task</c> which utilizes the
/// token will be canceled upon this call and throw an exception at the next interruption point.
/// </summary>
void cancel() const { _M_Impl->_Cancel(); }
_ImplType _GetImpl() const { return _M_Impl; }
static cancellation_token_source _FromImpl(_ImplType _Impl) { return cancellation_token_source(_Impl); }
private:
_ImplType _M_Impl;
void _Clear()
{
if (_M_Impl != NULL)
{
_M_Impl->_Release();
}
_M_Impl = NULL;
}
void _Assign(_ImplType _Impl)
{
if (_Impl != NULL)
{
_Impl->_Reference();
}
_M_Impl = _Impl;
}
void _Move(_ImplType& _Impl)
{
_M_Impl = _Impl;
_Impl = NULL;
}
cancellation_token_source(_ImplType _Impl) : _M_Impl(_Impl)
{
if (_M_Impl == ::pplx::details::_CancellationTokenState::_None())
{
_M_Impl = NULL;
}
if (_M_Impl != NULL)
{
_M_Impl->_Reference();
}
}
};
} // namespace pplx
#pragma pop_macro("new")
#pragma pack(pop)
#endif // _PPLXCANCELLATION_TOKEN_H