Mutex.OpenExisting 方法
定义
重要
一些信息与预发行产品相关,相应产品在发行之前可能会进行重大修改。 对于此处提供的信息,Microsoft 不作任何明示或暗示的担保。
打开指定的已命名的互斥体(如果已经存在)。
重载
| OpenExisting(String) |
打开指定的已命名的互斥体(如果已经存在)。 |
| OpenExisting(String, MutexRights) |
用安全访问权限打开指定名称为 mutex(如果已经存在),并返回指示操作是否成功的值。 |
OpenExisting(String)
- Source:
- Mutex.cs
- Source:
- Mutex.cs
- Source:
- Mutex.cs
打开指定的已命名的互斥体(如果已经存在)。
public:
static System::Threading::Mutex ^ OpenExisting(System::String ^ name);[System.Security.SecurityCritical]
public static System.Threading.Mutex OpenExisting (string name);public static System.Threading.Mutex OpenExisting (string name);[<System.Security.SecurityCritical>]
static member OpenExisting : string -> System.Threading.Mutexstatic member OpenExisting : string -> System.Threading.MutexPublic Shared Function OpenExisting (name As String) As Mutex参数
- name
- String
要与其他进程共享的同步对象的名称。 该名称区分大小写。 反斜杠字符 (\) 是保留的,只能用于指定命名空间。 有关命名空间的详细信息,请参阅备注部分。 根据操作系统,名称可能会有进一步的限制。 例如,在基于 Unix 的操作系统上,排除命名空间后的名称必须是有效的文件名。
返回
表示已命名的系统互斥体的对象。
- 属性
例外
name 上声明的默认值为 null。
无法创建具有提供的 name 的同步对象。 不同类型的同步对象可能具有相同的名称。 在某些情况下,可能会针对无效名称引发此异常。
name 无效。 导致这种情况的原因有很多,包括操作系统可能会施加的一些限制,例如未知前缀或无效字符。 请注意,名称和常见前缀“Global\”和“Local\”区分大小写。
或
还有其他一些错误。
HResult 属性可能提供更多信息。
仅限 Windows:name 指定了未知命名空间。 有关详细信息,请参阅对象名称。
name 太长。 长度限制可能取决于操作系统或配置。
存在命名的互斥,但用户没有使用它时所需的安全访问权限。
示例
下面的代码示例演示具有访问控制安全性的命名互斥体的跨进程行为。 该示例使用 OpenExisting(String) 方法重载来测试是否存在命名互斥体。
如果互斥体不存在,则会使用初始所有权和访问控制安全性创建该互斥体,以拒绝当前用户使用该互斥体的权限,但授予对互斥体的读取和更改权限的权限。
如果从两个命令窗口运行编译的示例,则第二个副本将在调用 OpenExisting(String)时引发访问冲突异常。 异常被捕获,该示例使用 OpenExisting(String, MutexRights) 方法重载打开具有读取和更改权限所需的权限的互斥体。
更改权限后,将打开互斥体,并具有输入和释放它所需的权限。 如果从第三个命令窗口运行编译的示例,它将使用新权限运行。
using namespace System;
using namespace System::Threading;
using namespace System::Security::AccessControl;
using namespace System::Security::Permissions;
public ref class Example
{
public:
[SecurityPermissionAttribute(SecurityAction::Demand,Flags=SecurityPermissionFlag::UnmanagedCode)]
static void Main()
{
String^ mutexName = L"MutexExample4";
Mutex^ m = nullptr;
bool doesNotExist = false;
bool unauthorized = false;
// The value of this variable is set by the mutex
// constructor. It is true if the named system mutex was
// created, and false if the named mutex already existed.
//
bool mutexWasCreated = false;
// Attempt to open the named mutex.
try
{
// Open the mutex with (MutexRights.Synchronize |
// MutexRights.Modify), to enter and release the
// named mutex.
//
m = Mutex::OpenExisting( mutexName );
}
catch ( WaitHandleCannotBeOpenedException^ )
{
Console::WriteLine( L"Mutex does not exist." );
doesNotExist = true;
}
catch ( UnauthorizedAccessException^ ex )
{
Console::WriteLine( L"Unauthorized access: {0}", ex->Message );
unauthorized = true;
}
// There are three cases: (1) The mutex does not exist.
// (2) The mutex exists, but the current user doesn't
// have access. (3) The mutex exists and the user has
// access.
//
if ( doesNotExist )
{
// The mutex does not exist, so create it.
// Create an access control list (ACL) that denies the
// current user the right to enter or release the
// mutex, but allows the right to read and change
// security information for the mutex.
//
String^ user = String::Concat( Environment::UserDomainName, L"\\",
Environment::UserName );
MutexSecurity^ mSec = gcnew MutexSecurity;
MutexAccessRule^ rule = gcnew MutexAccessRule( user,
static_cast<MutexRights>(
MutexRights::Synchronize |
MutexRights::Modify),
AccessControlType::Deny );
mSec->AddAccessRule( rule );
rule = gcnew MutexAccessRule( user,
static_cast<MutexRights>(
MutexRights::ReadPermissions |
MutexRights::ChangePermissions),
AccessControlType::Allow );
mSec->AddAccessRule( rule );
// Create a Mutex object that represents the system
// mutex named by the constant 'mutexName', with
// initial ownership for this thread, and with the
// specified security access. The Boolean value that
// indicates creation of the underlying system object
// is placed in mutexWasCreated.
//
m = gcnew Mutex( true,mutexName, mutexWasCreated,mSec );
// If the named system mutex was created, it can be
// used by the current instance of this program, even
// though the current user is denied access. The current
// program owns the mutex. Otherwise, exit the program.
//
if ( mutexWasCreated )
{
Console::WriteLine( L"Created the mutex." );
}
else
{
Console::WriteLine( L"Unable to create the mutex." );
return;
}
}
else if ( unauthorized )
{
// Open the mutex to read and change the access control
// security. The access control security defined above
// allows the current user to do this.
//
try
{
m = Mutex::OpenExisting( mutexName,
static_cast<MutexRights>(
MutexRights::ReadPermissions |
MutexRights::ChangePermissions) );
// Get the current ACL. This requires
// MutexRights.ReadPermissions.
MutexSecurity^ mSec = m->GetAccessControl();
String^ user = String::Concat( Environment::UserDomainName,
L"\\", Environment::UserName );
// First, the rule that denied the current user
// the right to enter and release the mutex must
// be removed.
MutexAccessRule^ rule = gcnew MutexAccessRule( user,
static_cast<MutexRights>(
MutexRights::Synchronize |
MutexRights::Modify),
AccessControlType::Deny );
mSec->RemoveAccessRule( rule );
// Now grant the user the correct rights.
//
rule = gcnew MutexAccessRule( user,
static_cast<MutexRights>(
MutexRights::Synchronize |
MutexRights::Modify),
AccessControlType::Allow );
mSec->AddAccessRule( rule );
// Update the ACL. This requires
// MutexRights.ChangePermissions.
m->SetAccessControl( mSec );
Console::WriteLine( L"Updated mutex security." );
// Open the mutex with (MutexRights.Synchronize
// | MutexRights.Modify), the rights required to
// enter and release the mutex.
//
m = Mutex::OpenExisting( mutexName );
}
catch ( UnauthorizedAccessException^ ex )
{
Console::WriteLine(
L"Unable to change permissions: {0}", ex->Message );
return;
}
}
// If this program created the mutex, it already owns
// the mutex.
//
if ( !mutexWasCreated )
{
// Enter the mutex, and hold it until the program
// exits.
//
try
{
Console::WriteLine( L"Wait for the mutex." );
m->WaitOne();
Console::WriteLine( L"Entered the mutex." );
}
catch ( UnauthorizedAccessException^ ex )
{
Console::WriteLine( L"Unauthorized access: {0}",
ex->Message );
}
}
Console::WriteLine( L"Press the Enter key to exit." );
Console::ReadLine();
m->ReleaseMutex();
m->Dispose();
}
};
int main()
{
Example::Main();
}
using System;
using System.Threading;
using System.Security.AccessControl;
internal class Example
{
internal static void Main()
{
const string mutexName = "MutexExample4";
Mutex m = null;
bool doesNotExist = false;
bool unauthorized = false;
// The value of this variable is set by the mutex
// constructor. It is true if the named system mutex was
// created, and false if the named mutex already existed.
//
bool mutexWasCreated = false;
// Attempt to open the named mutex.
try
{
// Open the mutex with (MutexRights.Synchronize |
// MutexRights.Modify), to enter and release the
// named mutex.
//
m = Mutex.OpenExisting(mutexName);
}
catch(WaitHandleCannotBeOpenedException)
{
Console.WriteLine("Mutex does not exist.");
doesNotExist = true;
}
catch(UnauthorizedAccessException ex)
{
Console.WriteLine("Unauthorized access: {0}", ex.Message);
unauthorized = true;
}
// There are three cases: (1) The mutex does not exist.
// (2) The mutex exists, but the current user doesn't
// have access. (3) The mutex exists and the user has
// access.
//
if (doesNotExist)
{
// The mutex does not exist, so create it.
// Create an access control list (ACL) that denies the
// current user the right to enter or release the
// mutex, but allows the right to read and change
// security information for the mutex.
//
string user = Environment.UserDomainName + "\\"
+ Environment.UserName;
var mSec = new MutexSecurity();
MutexAccessRule rule = new MutexAccessRule(user,
MutexRights.Synchronize | MutexRights.Modify,
AccessControlType.Deny);
mSec.AddAccessRule(rule);
rule = new MutexAccessRule(user,
MutexRights.ReadPermissions | MutexRights.ChangePermissions,
AccessControlType.Allow);
mSec.AddAccessRule(rule);
// Create a Mutex object that represents the system
// mutex named by the constant 'mutexName', with
// initial ownership for this thread, and with the
// specified security access. The Boolean value that
// indicates creation of the underlying system object
// is placed in mutexWasCreated.
//
m = new Mutex(true, mutexName, out mutexWasCreated, mSec);
// If the named system mutex was created, it can be
// used by the current instance of this program, even
// though the current user is denied access. The current
// program owns the mutex. Otherwise, exit the program.
//
if (mutexWasCreated)
{
Console.WriteLine("Created the mutex.");
}
else
{
Console.WriteLine("Unable to create the mutex.");
return;
}
}
else if (unauthorized)
{
// Open the mutex to read and change the access control
// security. The access control security defined above
// allows the current user to do this.
//
try
{
m = Mutex.OpenExisting(mutexName,
MutexRights.ReadPermissions | MutexRights.ChangePermissions);
// Get the current ACL. This requires
// MutexRights.ReadPermissions.
MutexSecurity mSec = m.GetAccessControl();
string user = Environment.UserDomainName + "\\"
+ Environment.UserName;
// First, the rule that denied the current user
// the right to enter and release the mutex must
// be removed.
MutexAccessRule rule = new MutexAccessRule(user,
MutexRights.Synchronize | MutexRights.Modify,
AccessControlType.Deny);
mSec.RemoveAccessRule(rule);
// Now grant the user the correct rights.
//
rule = new MutexAccessRule(user,
MutexRights.Synchronize | MutexRights.Modify,
AccessControlType.Allow);
mSec.AddAccessRule(rule);
// Update the ACL. This requires
// MutexRights.ChangePermissions.
m.SetAccessControl(mSec);
Console.WriteLine("Updated mutex security.");
// Open the mutex with (MutexRights.Synchronize
// | MutexRights.Modify), the rights required to
// enter and release the mutex.
//
m = Mutex.OpenExisting(mutexName);
}
catch(UnauthorizedAccessException ex)
{
Console.WriteLine("Unable to change permissions: {0}",
ex.Message);
return;
}
}
// If this program created the mutex, it already owns
// the mutex.
//
if (!mutexWasCreated)
{
// Enter the mutex, and hold it until the program
// exits.
//
try
{
Console.WriteLine("Wait for the mutex.");
m.WaitOne();
Console.WriteLine("Entered the mutex.");
}
catch(UnauthorizedAccessException ex)
{
Console.WriteLine("Unauthorized access: {0}", ex.Message);
}
}
Console.WriteLine("Press the Enter key to exit.");
Console.ReadLine();
m.ReleaseMutex();
m.Dispose();
}
}
Imports System.Threading
Imports System.Security.AccessControl
Friend Class Example
<MTAThread> _
Friend Shared Sub Main()
Const mutexName As String = "MutexExample4"
Dim m As Mutex = Nothing
Dim doesNotExist as Boolean = False
Dim unauthorized As Boolean = False
' The value of this variable is set by the mutex
' constructor. It is True if the named system mutex was
' created, and False if the named mutex already existed.
'
Dim mutexWasCreated As Boolean
' Attempt to open the named mutex.
Try
' Open the mutex with (MutexRights.Synchronize Or
' MutexRights.Modify), to enter and release the
' named mutex.
'
m = Mutex.OpenExisting(mutexName)
Catch ex As WaitHandleCannotBeOpenedException
Console.WriteLine("Mutex does not exist.")
doesNotExist = True
Catch ex As UnauthorizedAccessException
Console.WriteLine("Unauthorized access: {0}", ex.Message)
unauthorized = True
End Try
' There are three cases: (1) The mutex does not exist.
' (2) The mutex exists, but the current user doesn't
' have access. (3) The mutex exists and the user has
' access.
'
If doesNotExist Then
' The mutex does not exist, so create it.
' Create an access control list (ACL) that denies the
' current user the right to enter or release the
' mutex, but allows the right to read and change
' security information for the mutex.
'
Dim user As String = Environment.UserDomainName _
& "\" & Environment.UserName
Dim mSec As New MutexSecurity()
Dim rule As New MutexAccessRule(user, _
MutexRights.Synchronize Or MutexRights.Modify, _
AccessControlType.Deny)
mSec.AddAccessRule(rule)
rule = New MutexAccessRule(user, _
MutexRights.ReadPermissions Or _
MutexRights.ChangePermissions, _
AccessControlType.Allow)
mSec.AddAccessRule(rule)
' Create a Mutex object that represents the system
' mutex named by the constant 'mutexName', with
' initial ownership for this thread, and with the
' specified security access. The Boolean value that
' indicates creation of the underlying system object
' is placed in mutexWasCreated.
'
m = New Mutex(True, mutexName, mutexWasCreated, mSec)
' If the named system mutex was created, it can be
' used by the current instance of this program, even
' though the current user is denied access. The current
' program owns the mutex. Otherwise, exit the program.
'
If mutexWasCreated Then
Console.WriteLine("Created the mutex.")
Else
Console.WriteLine("Unable to create the mutex.")
Return
End If
ElseIf unauthorized Then
' Open the mutex to read and change the access control
' security. The access control security defined above
' allows the current user to do this.
'
Try
m = Mutex.OpenExisting(mutexName, _
MutexRights.ReadPermissions Or _
MutexRights.ChangePermissions)
' Get the current ACL. This requires
' MutexRights.ReadPermissions.
Dim mSec As MutexSecurity = m.GetAccessControl()
Dim user As String = Environment.UserDomainName _
& "\" & Environment.UserName
' First, the rule that denied the current user
' the right to enter and release the mutex must
' be removed.
Dim rule As New MutexAccessRule(user, _
MutexRights.Synchronize Or MutexRights.Modify, _
AccessControlType.Deny)
mSec.RemoveAccessRule(rule)
' Now grant the user the correct rights.
'
rule = New MutexAccessRule(user, _
MutexRights.Synchronize Or MutexRights.Modify, _
AccessControlType.Allow)
mSec.AddAccessRule(rule)
' Update the ACL. This requires
' MutexRights.ChangePermissions.
m.SetAccessControl(mSec)
Console.WriteLine("Updated mutex security.")
' Open the mutex with (MutexRights.Synchronize
' Or MutexRights.Modify), the rights required to
' enter and release the mutex.
'
m = Mutex.OpenExisting(mutexName)
Catch ex As UnauthorizedAccessException
Console.WriteLine("Unable to change permissions: {0}", _
ex.Message)
Return
End Try
End If
' If this program created the mutex, it already owns
' the mutex.
'
If Not mutexWasCreated Then
' Enter the mutex, and hold it until the program
' exits.
'
Try
Console.WriteLine("Wait for the mutex.")
m.WaitOne()
Console.WriteLine("Entered the mutex.")
Catch ex As UnauthorizedAccessException
Console.WriteLine("Unauthorized access: {0}", _
ex.Message)
End Try
End If
Console.WriteLine("Press the Enter key to exit.")
Console.ReadLine()
m.ReleaseMutex()
m.Dispose()
End Sub
End Class
注解
name可以使用 或 Local\ 作为前缀Global\来指定命名空间。
Global指定命名空间后,可以与系统上的任何进程共享同步对象。 如果指定了 Local 命名空间(如果未指定命名空间,这也是默认命名空间),则同步对象可以与同一会话中的进程共享。 在 Windows 上,会话是登录会话,服务通常在不同的非交互式会话中运行。 在类似 Unix 的操作系统上,每个 shell 都有自己的会话。 会话本地同步对象可能适合在具有父/子关系的进程之间进行同步,这些进程都在同一会话中运行。 有关 Windows 上的同步对象名称的详细信息,请参阅 对象名称。
如果命名空间中存在请求类型的同步对象,则会打开现有同步对象。 如果命名空间中不存在同步对象,或者命名空间中存在不同类型的同步对象, WaitHandleCannotBeOpenedException 则会引发 。
方法 OpenExisting 尝试打开指定的命名系统互斥体。 若要在系统互斥体不存在时创建它,请使用具有 参数的构造函数之 Mutex 一 name 。
对此方法使用相同值的 name 多次调用不一定返回相同的 Mutex 对象,即使返回的对象表示相同的命名系统互斥体。
此方法重载等效于调用 OpenExisting(String, MutexRights) 方法重载,并使用按位 OR 运算来指定 MutexRights.Synchronize 和 MutexRights.Modify 权限。
指定 MutexRights.Synchronize 标志允许线程等待互斥,而指定 MutexRights.Modify 标志允许线程调用 ReleaseMutex 方法。
此方法不请求互斥体的所有权。
适用于
OpenExisting(String, MutexRights)
用安全访问权限打开指定名称为 mutex(如果已经存在),并返回指示操作是否成功的值。
public:
static System::Threading::Mutex ^ OpenExisting(System::String ^ name, System::Security::AccessControl::MutexRights rights);public static System.Threading.Mutex OpenExisting (string name, System.Security.AccessControl.MutexRights rights);[System.Security.SecurityCritical]
public static System.Threading.Mutex OpenExisting (string name, System.Security.AccessControl.MutexRights rights);static member OpenExisting : string * System.Security.AccessControl.MutexRights -> System.Threading.Mutex[<System.Security.SecurityCritical>]
static member OpenExisting : string * System.Security.AccessControl.MutexRights -> System.Threading.MutexPublic Shared Function OpenExisting (name As String, rights As MutexRights) As Mutex参数
- name
- String
要与其他进程共享的同步对象的名称。 该名称区分大小写。 反斜杠字符 (\) 是保留的,只能用于指定命名空间。 有关命名空间的详细信息,请参阅备注部分。 根据操作系统,名称可能会有进一步的限制。 例如,在基于 Unix 的操作系统上,排除命名空间后的名称必须是有效的文件名。
- rights
- MutexRights
表示所需的安全访问权限的枚举值的按位组合。
返回
表示已命名的系统互斥体的对象。
- 属性
例外
name 上声明的默认值为 null。
无法创建具有提供的 name 的同步对象。 不同类型的同步对象可能具有相同的名称。 在某些情况下,可能会针对无效名称引发此异常。
name 无效。 导致这种情况的原因有很多,包括操作系统可能会施加的一些限制,例如未知前缀或无效字符。 请注意,名称和常见前缀“Global\”和“Local\”区分大小写。
或
还有其他一些错误。
HResult 属性可能提供更多信息。
仅限 Windows:name 指定了未知命名空间。 有关详细信息,请参阅对象名称。
name 太长。 长度限制可能取决于操作系统或配置。
已命名的 mutex 存在,但是用户不具备所需的安全访问权。
示例
下面的代码示例演示具有访问控制安全性的命名互斥体的跨进程行为。 该示例使用 OpenExisting(String) 方法重载来测试是否存在命名互斥体。
如果互斥体不存在,则会使用初始所有权和访问控制安全性创建该互斥体,以拒绝当前用户使用该互斥体的权限,但授予对互斥体的读取和更改权限的权限。
如果从两个命令窗口运行编译的示例,则第二个副本将在调用 OpenExisting(String)时引发访问冲突异常。 异常被捕获,该示例使用 OpenExisting(String, MutexRights) 方法重载打开具有读取和更改权限所需的权限的互斥体。
更改权限后,将打开互斥体,并具有输入和释放它所需的权限。 如果从第三个命令窗口运行编译的示例,它将使用新权限运行。
using namespace System;
using namespace System::Threading;
using namespace System::Security::AccessControl;
using namespace System::Security::Permissions;
public ref class Example
{
public:
[SecurityPermissionAttribute(SecurityAction::Demand,Flags=SecurityPermissionFlag::UnmanagedCode)]
static void Main()
{
String^ mutexName = L"MutexExample4";
Mutex^ m = nullptr;
bool doesNotExist = false;
bool unauthorized = false;
// The value of this variable is set by the mutex
// constructor. It is true if the named system mutex was
// created, and false if the named mutex already existed.
//
bool mutexWasCreated = false;
// Attempt to open the named mutex.
try
{
// Open the mutex with (MutexRights.Synchronize |
// MutexRights.Modify), to enter and release the
// named mutex.
//
m = Mutex::OpenExisting( mutexName );
}
catch ( WaitHandleCannotBeOpenedException^ )
{
Console::WriteLine( L"Mutex does not exist." );
doesNotExist = true;
}
catch ( UnauthorizedAccessException^ ex )
{
Console::WriteLine( L"Unauthorized access: {0}", ex->Message );
unauthorized = true;
}
// There are three cases: (1) The mutex does not exist.
// (2) The mutex exists, but the current user doesn't
// have access. (3) The mutex exists and the user has
// access.
//
if ( doesNotExist )
{
// The mutex does not exist, so create it.
// Create an access control list (ACL) that denies the
// current user the right to enter or release the
// mutex, but allows the right to read and change
// security information for the mutex.
//
String^ user = String::Concat( Environment::UserDomainName, L"\\",
Environment::UserName );
MutexSecurity^ mSec = gcnew MutexSecurity;
MutexAccessRule^ rule = gcnew MutexAccessRule( user,
static_cast<MutexRights>(
MutexRights::Synchronize |
MutexRights::Modify),
AccessControlType::Deny );
mSec->AddAccessRule( rule );
rule = gcnew MutexAccessRule( user,
static_cast<MutexRights>(
MutexRights::ReadPermissions |
MutexRights::ChangePermissions),
AccessControlType::Allow );
mSec->AddAccessRule( rule );
// Create a Mutex object that represents the system
// mutex named by the constant 'mutexName', with
// initial ownership for this thread, and with the
// specified security access. The Boolean value that
// indicates creation of the underlying system object
// is placed in mutexWasCreated.
//
m = gcnew Mutex( true,mutexName, mutexWasCreated,mSec );
// If the named system mutex was created, it can be
// used by the current instance of this program, even
// though the current user is denied access. The current
// program owns the mutex. Otherwise, exit the program.
//
if ( mutexWasCreated )
{
Console::WriteLine( L"Created the mutex." );
}
else
{
Console::WriteLine( L"Unable to create the mutex." );
return;
}
}
else if ( unauthorized )
{
// Open the mutex to read and change the access control
// security. The access control security defined above
// allows the current user to do this.
//
try
{
m = Mutex::OpenExisting( mutexName,
static_cast<MutexRights>(
MutexRights::ReadPermissions |
MutexRights::ChangePermissions) );
// Get the current ACL. This requires
// MutexRights.ReadPermissions.
MutexSecurity^ mSec = m->GetAccessControl();
String^ user = String::Concat( Environment::UserDomainName,
L"\\", Environment::UserName );
// First, the rule that denied the current user
// the right to enter and release the mutex must
// be removed.
MutexAccessRule^ rule = gcnew MutexAccessRule( user,
static_cast<MutexRights>(
MutexRights::Synchronize |
MutexRights::Modify),
AccessControlType::Deny );
mSec->RemoveAccessRule( rule );
// Now grant the user the correct rights.
//
rule = gcnew MutexAccessRule( user,
static_cast<MutexRights>(
MutexRights::Synchronize |
MutexRights::Modify),
AccessControlType::Allow );
mSec->AddAccessRule( rule );
// Update the ACL. This requires
// MutexRights.ChangePermissions.
m->SetAccessControl( mSec );
Console::WriteLine( L"Updated mutex security." );
// Open the mutex with (MutexRights.Synchronize
// | MutexRights.Modify), the rights required to
// enter and release the mutex.
//
m = Mutex::OpenExisting( mutexName );
}
catch ( UnauthorizedAccessException^ ex )
{
Console::WriteLine(
L"Unable to change permissions: {0}", ex->Message );
return;
}
}
// If this program created the mutex, it already owns
// the mutex.
//
if ( !mutexWasCreated )
{
// Enter the mutex, and hold it until the program
// exits.
//
try
{
Console::WriteLine( L"Wait for the mutex." );
m->WaitOne();
Console::WriteLine( L"Entered the mutex." );
}
catch ( UnauthorizedAccessException^ ex )
{
Console::WriteLine( L"Unauthorized access: {0}",
ex->Message );
}
}
Console::WriteLine( L"Press the Enter key to exit." );
Console::ReadLine();
m->ReleaseMutex();
m->Dispose();
}
};
int main()
{
Example::Main();
}
using System;
using System.Threading;
using System.Security.AccessControl;
internal class Example
{
internal static void Main()
{
const string mutexName = "MutexExample4";
Mutex m = null;
bool doesNotExist = false;
bool unauthorized = false;
// The value of this variable is set by the mutex
// constructor. It is true if the named system mutex was
// created, and false if the named mutex already existed.
//
bool mutexWasCreated = false;
// Attempt to open the named mutex.
try
{
// Open the mutex with (MutexRights.Synchronize |
// MutexRights.Modify), to enter and release the
// named mutex.
//
m = Mutex.OpenExisting(mutexName);
}
catch(WaitHandleCannotBeOpenedException)
{
Console.WriteLine("Mutex does not exist.");
doesNotExist = true;
}
catch(UnauthorizedAccessException ex)
{
Console.WriteLine("Unauthorized access: {0}", ex.Message);
unauthorized = true;
}
// There are three cases: (1) The mutex does not exist.
// (2) The mutex exists, but the current user doesn't
// have access. (3) The mutex exists and the user has
// access.
//
if (doesNotExist)
{
// The mutex does not exist, so create it.
// Create an access control list (ACL) that denies the
// current user the right to enter or release the
// mutex, but allows the right to read and change
// security information for the mutex.
//
string user = Environment.UserDomainName + "\\"
+ Environment.UserName;
var mSec = new MutexSecurity();
MutexAccessRule rule = new MutexAccessRule(user,
MutexRights.Synchronize | MutexRights.Modify,
AccessControlType.Deny);
mSec.AddAccessRule(rule);
rule = new MutexAccessRule(user,
MutexRights.ReadPermissions | MutexRights.ChangePermissions,
AccessControlType.Allow);
mSec.AddAccessRule(rule);
// Create a Mutex object that represents the system
// mutex named by the constant 'mutexName', with
// initial ownership for this thread, and with the
// specified security access. The Boolean value that
// indicates creation of the underlying system object
// is placed in mutexWasCreated.
//
m = new Mutex(true, mutexName, out mutexWasCreated, mSec);
// If the named system mutex was created, it can be
// used by the current instance of this program, even
// though the current user is denied access. The current
// program owns the mutex. Otherwise, exit the program.
//
if (mutexWasCreated)
{
Console.WriteLine("Created the mutex.");
}
else
{
Console.WriteLine("Unable to create the mutex.");
return;
}
}
else if (unauthorized)
{
// Open the mutex to read and change the access control
// security. The access control security defined above
// allows the current user to do this.
//
try
{
m = Mutex.OpenExisting(mutexName,
MutexRights.ReadPermissions | MutexRights.ChangePermissions);
// Get the current ACL. This requires
// MutexRights.ReadPermissions.
MutexSecurity mSec = m.GetAccessControl();
string user = Environment.UserDomainName + "\\"
+ Environment.UserName;
// First, the rule that denied the current user
// the right to enter and release the mutex must
// be removed.
MutexAccessRule rule = new MutexAccessRule(user,
MutexRights.Synchronize | MutexRights.Modify,
AccessControlType.Deny);
mSec.RemoveAccessRule(rule);
// Now grant the user the correct rights.
//
rule = new MutexAccessRule(user,
MutexRights.Synchronize | MutexRights.Modify,
AccessControlType.Allow);
mSec.AddAccessRule(rule);
// Update the ACL. This requires
// MutexRights.ChangePermissions.
m.SetAccessControl(mSec);
Console.WriteLine("Updated mutex security.");
// Open the mutex with (MutexRights.Synchronize
// | MutexRights.Modify), the rights required to
// enter and release the mutex.
//
m = Mutex.OpenExisting(mutexName);
}
catch(UnauthorizedAccessException ex)
{
Console.WriteLine("Unable to change permissions: {0}",
ex.Message);
return;
}
}
// If this program created the mutex, it already owns
// the mutex.
//
if (!mutexWasCreated)
{
// Enter the mutex, and hold it until the program
// exits.
//
try
{
Console.WriteLine("Wait for the mutex.");
m.WaitOne();
Console.WriteLine("Entered the mutex.");
}
catch(UnauthorizedAccessException ex)
{
Console.WriteLine("Unauthorized access: {0}", ex.Message);
}
}
Console.WriteLine("Press the Enter key to exit.");
Console.ReadLine();
m.ReleaseMutex();
m.Dispose();
}
}
Imports System.Threading
Imports System.Security.AccessControl
Friend Class Example
<MTAThread> _
Friend Shared Sub Main()
Const mutexName As String = "MutexExample4"
Dim m As Mutex = Nothing
Dim doesNotExist as Boolean = False
Dim unauthorized As Boolean = False
' The value of this variable is set by the mutex
' constructor. It is True if the named system mutex was
' created, and False if the named mutex already existed.
'
Dim mutexWasCreated As Boolean
' Attempt to open the named mutex.
Try
' Open the mutex with (MutexRights.Synchronize Or
' MutexRights.Modify), to enter and release the
' named mutex.
'
m = Mutex.OpenExisting(mutexName)
Catch ex As WaitHandleCannotBeOpenedException
Console.WriteLine("Mutex does not exist.")
doesNotExist = True
Catch ex As UnauthorizedAccessException
Console.WriteLine("Unauthorized access: {0}", ex.Message)
unauthorized = True
End Try
' There are three cases: (1) The mutex does not exist.
' (2) The mutex exists, but the current user doesn't
' have access. (3) The mutex exists and the user has
' access.
'
If doesNotExist Then
' The mutex does not exist, so create it.
' Create an access control list (ACL) that denies the
' current user the right to enter or release the
' mutex, but allows the right to read and change
' security information for the mutex.
'
Dim user As String = Environment.UserDomainName _
& "\" & Environment.UserName
Dim mSec As New MutexSecurity()
Dim rule As New MutexAccessRule(user, _
MutexRights.Synchronize Or MutexRights.Modify, _
AccessControlType.Deny)
mSec.AddAccessRule(rule)
rule = New MutexAccessRule(user, _
MutexRights.ReadPermissions Or _
MutexRights.ChangePermissions, _
AccessControlType.Allow)
mSec.AddAccessRule(rule)
' Create a Mutex object that represents the system
' mutex named by the constant 'mutexName', with
' initial ownership for this thread, and with the
' specified security access. The Boolean value that
' indicates creation of the underlying system object
' is placed in mutexWasCreated.
'
m = New Mutex(True, mutexName, mutexWasCreated, mSec)
' If the named system mutex was created, it can be
' used by the current instance of this program, even
' though the current user is denied access. The current
' program owns the mutex. Otherwise, exit the program.
'
If mutexWasCreated Then
Console.WriteLine("Created the mutex.")
Else
Console.WriteLine("Unable to create the mutex.")
Return
End If
ElseIf unauthorized Then
' Open the mutex to read and change the access control
' security. The access control security defined above
' allows the current user to do this.
'
Try
m = Mutex.OpenExisting(mutexName, _
MutexRights.ReadPermissions Or _
MutexRights.ChangePermissions)
' Get the current ACL. This requires
' MutexRights.ReadPermissions.
Dim mSec As MutexSecurity = m.GetAccessControl()
Dim user As String = Environment.UserDomainName _
& "\" & Environment.UserName
' First, the rule that denied the current user
' the right to enter and release the mutex must
' be removed.
Dim rule As New MutexAccessRule(user, _
MutexRights.Synchronize Or MutexRights.Modify, _
AccessControlType.Deny)
mSec.RemoveAccessRule(rule)
' Now grant the user the correct rights.
'
rule = New MutexAccessRule(user, _
MutexRights.Synchronize Or MutexRights.Modify, _
AccessControlType.Allow)
mSec.AddAccessRule(rule)
' Update the ACL. This requires
' MutexRights.ChangePermissions.
m.SetAccessControl(mSec)
Console.WriteLine("Updated mutex security.")
' Open the mutex with (MutexRights.Synchronize
' Or MutexRights.Modify), the rights required to
' enter and release the mutex.
'
m = Mutex.OpenExisting(mutexName)
Catch ex As UnauthorizedAccessException
Console.WriteLine("Unable to change permissions: {0}", _
ex.Message)
Return
End Try
End If
' If this program created the mutex, it already owns
' the mutex.
'
If Not mutexWasCreated Then
' Enter the mutex, and hold it until the program
' exits.
'
Try
Console.WriteLine("Wait for the mutex.")
m.WaitOne()
Console.WriteLine("Entered the mutex.")
Catch ex As UnauthorizedAccessException
Console.WriteLine("Unauthorized access: {0}", _
ex.Message)
End Try
End If
Console.WriteLine("Press the Enter key to exit.")
Console.ReadLine()
m.ReleaseMutex()
m.Dispose()
End Sub
End Class
注解
name可以使用 或 Local\ 作为前缀Global\来指定命名空间。
Global指定命名空间后,可以与系统上的任何进程共享同步对象。 如果指定了 Local 命名空间(如果未指定命名空间,这也是默认命名空间),则同步对象可以与同一会话中的进程共享。 在 Windows 上,会话是登录会话,服务通常在不同的非交互式会话中运行。 在类似 Unix 的操作系统上,每个 shell 都有自己的会话。 会话本地同步对象可能适合在具有父/子关系的进程之间进行同步,这些进程都在同一会话中运行。 有关 Windows 上的同步对象名称的详细信息,请参阅 对象名称。
如果命名空间中存在请求类型的同步对象,则会打开现有同步对象。 如果命名空间中不存在同步对象,或者命名空间中存在不同类型的同步对象, WaitHandleCannotBeOpenedException 则会引发 。
参数 rights 必须包含 MutexRights.Synchronize 标志以允许线程等待互斥体,以及 MutexRights.Modify 允许线程调用 方法的 ReleaseMutex 标志。
方法 OpenExisting 尝试打开现有的命名互斥体。 若要在系统互斥体不存在时创建它,请使用具有 参数的 Mutex 构造函数之一 name 。
对此方法使用相同值的 name 多次调用不一定返回同一 Mutex 对象,即使返回的对象表示相同的命名系统互斥体。
此方法不请求互斥体的所有权。
