IUMSThreadProxy Structure
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An abstraction for a thread of execution. If you want your scheduler to be granted user-mode schedulable (UMS) threads, set the value for the scheduler policy element SchedulerKind
to UmsThreadDefault
, and implement the IUMSScheduler
interface. UMS threads are only supported on 64-bit operating systems with version Windows 7 and higher.
Syntax
struct IUMSThreadProxy : public IThreadProxy;
Members
Public Methods
Name | Description |
---|---|
IUMSThreadProxy::EnterCriticalRegion Method | Called in order to enter a critical region. When inside a critical region, the scheduler will not observe asynchronous blocking operations that happen during the region. This means that the scheduler will not be reentered for page faults, thread suspensions, kernel asynchronous procedure calls (APCs), and so forth, for a UMS thread. |
IUMSThreadProxy::EnterHyperCriticalRegion Method | Called in order to enter a hyper-critical region. When inside a hyper-critical region, the scheduler will not observe any blocking operations that happen during the region. This means the scheduler will not be reentered for blocking function calls, lock acquisition attempts which block, page faults, thread suspensions, kernel asynchronous procedure calls (APCs), and so forth, for a UMS thread. |
IUMSThreadProxy::ExitCriticalRegion Method | Called in order to exit a critical region. |
IUMSThreadProxy::ExitHyperCriticalRegion Method | Called in order to exit a hyper-critical region. |
IUMSThreadProxy::GetCriticalRegionType Method | Returns what kind of critical region the thread proxy is within. Because hyper-critical regions are a superset of critical regions, if code has entered a critical region and then a hyper-critical region, InsideHyperCriticalRegion will be returned. |
Inheritance Hierarchy
IUMSThreadProxy
Requirements
Header: concrtrm.h
Namespace: concurrency
IUMSThreadProxy::EnterCriticalRegion Method
Called in order to enter a critical region. When inside a critical region, the scheduler will not observe asynchronous blocking operations that happen during the region. This means that the scheduler will not be reentered for page faults, thread suspensions, kernel asynchronous procedure calls (APCs), and so forth, for a UMS thread.
virtual int EnterCriticalRegion() = 0;
Return Value
The new depth of critical region. Critical regions are reentrant.
IUMSThreadProxy::EnterHyperCriticalRegion Method
Called in order to enter a hyper-critical region. When inside a hyper-critical region, the scheduler will not observe any blocking operations that happen during the region. This means the scheduler will not be reentered for blocking function calls, lock acquisition attempts which block, page faults, thread suspensions, kernel asynchronous procedure calls (APCs), and so forth, for a UMS thread.
virtual int EnterHyperCriticalRegion() = 0;
Return Value
The new depth of hyper-critical region. Hyper-critical regions are reentrant.
Remarks
The scheduler must be extraordinarily careful about what methods it calls and what locks it acquires in such regions. If code in such a region blocks on a lock that is held by something the scheduler is responsible for scheduling, deadlock may ensue.
IUMSThreadProxy::ExitCriticalRegion Method
Called in order to exit a critical region.
virtual int ExitCriticalRegion() = 0;
Return Value
The new depth of critical region. Critical regions are reentrant.
IUMSThreadProxy::ExitHyperCriticalRegion Method
Called in order to exit a hyper-critical region.
virtual int ExitHyperCriticalRegion() = 0;
Return Value
The new depth of hyper-critical region. Hyper-critical regions are reentrant.
IUMSThreadProxy::GetCriticalRegionType Method
Returns what kind of critical region the thread proxy is within. Because hyper-critical regions are a superset of critical regions, if code has entered a critical region and then a hyper-critical region, InsideHyperCriticalRegion
will be returned.
virtual CriticalRegionType GetCriticalRegionType() const = 0;
Return Value
The type of critical region the thread proxy is within.