Beispiel #1
0
    public static void Main()
    {
        // Create a string representing the current user.
        string user = Environment.UserDomainName + "\\" +
                      Environment.UserName;

        // Create a security object that grants no access.
        MutexSecurity mSec = new MutexSecurity();

        // Add a rule that grants the current user the
        // right to enter or release the mutex and read the
        // permissions on the mutex.
        MutexAccessRule rule = new MutexAccessRule(user,
                                                   MutexRights.Synchronize | MutexRights.Modify
                                                   | MutexRights.ReadPermissions,
                                                   AccessControlType.Allow);

        mSec.AddAccessRule(rule);

        // Add a rule that denies the current user the
        // right to change permissions on the mutex.
        rule = new MutexAccessRule(user,
                                   MutexRights.ChangePermissions,
                                   AccessControlType.Deny);
        mSec.AddAccessRule(rule);

        // Display the rules in the security object.
        ShowSecurity(mSec);

        // Create a rule that grants the current user
        // the right to read permissions on the mutex, and
        // take ownership of the mutex. Use this rule to
        // remove the right to read permissions from the
        // Allow rule for the current user. The inclusion
        // of the right to take ownership has no effect.
        rule = new MutexAccessRule(user,
                                   MutexRights.TakeOwnership |
                                   MutexRights.ReadPermissions,
                                   AccessControlType.Allow);
        mSec.RemoveAccessRule(rule);

        ShowSecurity(mSec);
    }
Beispiel #2
0
    internal static void Main()
    {
        //<Snippet2>
        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;
        }
        //</Snippet2>

        // 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)
        {
            //<Snippet4>
            // 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;
            MutexSecurity 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;
            }
            //</Snippet4>
        }
        else if (unauthorized)
        {
            //<Snippet3>
            // 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);
                //</Snippet3>
            }
            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();
    }
Beispiel #3
0
        /// <summary>
        ///
        /// </summary>
        /// <param name="mutexName">互斥对象的名称</param>
        /// <param name="tryCleanAbandoned">是否尝试释放已经存在的被放弃的mutex</param>
        /// <param name="mutex">成功时返回的互斥对象</param>
        /// <param name="errcode">错误代码,0无错误,1无法创建互斥对象,2互斥对象存在,无法获取访问权限,3互斥对象正被其他线程占用,4有被弃用的互斥对象,被本方法释放,5互斥对象已存在</param>
        /// <returns></returns>
        private static bool TryEnter(string mutexName, bool tryCleanAbandoned, out Mutex mutex, out int errcode)
        {
            mutex   = null;
            errcode = 0; // 无错误
            if (string.IsNullOrEmpty(mutexName))
            {
                return(false);
            }
            Mutex m                  = null;
            bool  doesNotExist       = false;
            bool  unauthorized       = false;
            bool  mutexWasCreated    = false;
            bool  hasAccessException = false;

            try
            {
                // 尝试打开现有的
                m = Mutex.OpenExisting(mutexName);
            }
            catch (WaitHandleCannotBeOpenedException)
            {
                // 不存在
                doesNotExist = true;
            }
            catch (UnauthorizedAccessException)
            {
                // 没有访问权限
                unauthorized = true;
            }

            // 如果不存在则创建
            if (doesNotExist)
            {
                MutexSecurity mSec = null;
                try
                {
                    string user = Environment.UserDomainName + "\\" + Environment.UserName;
                    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);
                }
                catch
                { hasAccessException = true; }
                if (hasAccessException)
                {
                    m = new Mutex(true, mutexName, out mutexWasCreated);
                }
                else
                {
                    m = new Mutex(true, mutexName, out mutexWasCreated, mSec);
                }

                if (mutexWasCreated)
                {
                    mutex = m;
                    return(true);
                }
                else
                {
                    errcode = 1; //无法创建对象
                    return(false);
                }
            }

            // 尝试增加访问权限
            if (unauthorized)
            {
                try
                {
                    m = Mutex.OpenExisting(mutexName,
                                           MutexRights.ReadPermissions | MutexRights.ChangePermissions);

                    MutexSecurity mSec = m.GetAccessControl();

                    string          user = Environment.UserDomainName + "\\" + Environment.UserName;
                    MutexAccessRule rule = new MutexAccessRule(user,
                                                               MutexRights.Synchronize | MutexRights.Modify,
                                                               AccessControlType.Deny);
                    mSec.RemoveAccessRule(rule);

                    rule = new MutexAccessRule(user,
                                               MutexRights.Synchronize | MutexRights.Modify,
                                               AccessControlType.Allow);
                    mSec.AddAccessRule(rule);

                    m.SetAccessControl(mSec);

                    m = Mutex.OpenExisting(mutexName);
                }
                catch (UnauthorizedAccessException)
                {
                    errcode = 2;// 无法获取访问权限
                    return(false);
                }
                catch (Exception)
                {
                    errcode = 3;// mutex对象正被其他线程占用
                    return(false);
                }
            }

            // 对于已经存在的具备访问权限了
            if (tryCleanAbandoned)
            {
                try
                {
                    // 尝试立刻获取控制
                    bool waitSuccess = m.WaitOne(0);
                    // 不排除有能正好获取到访问权限的
                    if (!waitSuccess)
                    {
                        errcode = 3;// mutex对象正被其他线程占用
                    }
                    else
                    {
                        mutex = m;
                    }
                    return(waitSuccess);
                }
                // 如果发现是被弃用的
                catch (AbandonedMutexException)
                {
                    m.ReleaseMutex();
                    errcode = 4; // 有被弃用的mutex对象
                    return(false);
                }
            }
            else
            {
                errcode = 5; // mutex对象存在,用户未尝试释放
                return(false);
            }
        }
Beispiel #4
0
        /// <summary>
        /// Creates the Mutex
        /// </summary>
        public void CreateMutex()
        {
            bool doesNotExist    = false;
            bool unauthorized    = false;
            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.
                //
                Mutex m = Mutex.OpenExisting(Name);
            }
            catch (WaitHandleCannotBeOpenedException)
            {
                doesNotExist = true;
            }
            catch (UnauthorizedAccessException)
            {
                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;
                MutexSecurity 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.
                //
                _mutex = new Mutex(_initialOwner, Name, 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)
                {
#if TRACE
                    Console.WriteLine("Unable to create the mutex.");
#endif
                    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
                {
                    _mutex = Mutex.OpenExisting(Name,
                                                MutexRights.ReadPermissions | MutexRights.ChangePermissions);

                    // Get the current ACL. This requires
                    // MutexRights.ReadPermissions.
                    MutexSecurity mSec = _mutex.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.
                    _mutex.SetAccessControl(mSec);

                    Console.WriteLine("Updated mutex security.");

                    // Open the mutex with (MutexRights.Synchronize
                    // | MutexRights.Modify), the rights required to
                    // enter and release the mutex.
                    //
                    _mutex = Mutex.OpenExisting(Name);
                }
#if TRACE
                catch (UnauthorizedAccessException ex)
                {
                    Console.WriteLine("Unable to change permissions: {0}", ex.Message);
                }
#else
                catch
#endif
                {
                    return;
                }
            }

            MutexCreated = mutexWasCreated;

            if (!mutexWasCreated)
            {
                _mutex.WaitOne();
            }
        }
Beispiel #5
0
        /// <summary>
        /// Gewährt Zugriff auf einen benannten System Mutex.
        /// </summary>
        /// <param name="mutexName">
        ///  Der Namen des benannten System Mutex.
        /// </param>
        /// <param name="create">
        /// Gibt an ob der Mutex erzeugt werden soll wenn er noch nicht existiert.
        /// </param>
        /// <param name="allowAttach">
        /// Gibt an ob der Mutex neu erzeugt werden muss oder existieren darf.
        /// </param>
        /// <returns>
        /// Einen benannten System Mutex oder <c>null</c> wenn der Mutex nicht exisitiert
        /// oder ein anderes Problem aufgetreten ist.
        /// </returns>
        /// <remarks>
        /// Versucht unter allen möglichen Umständen den zugfriff auf den Mutex zu
        /// erlangen oder ihn zu erzeugen.
        /// <para>
        /// 1)  Der Mutex exisitiert nicht.
        /// </para>
        /// Es wird eine ACL erzeugt die dem Benutzer alle Rechte auf den Mutex einräumt
        /// und dem erzeugten Mutex zugewiesen
        /// <para>
        /// 2) Der Mutex exisitiert, doch der aktuelle Benutzer hat keinen Zugriff
        /// </para>
        /// Es wird die aktuelle Regel, die dem Benutzer den Zugriff auf den Mutex verweigert,
        /// entfernt. Dann wird versucht dem Benutzer die nötigen Rechte einzuräumen und
        /// die aktuaiserte Regel dem Mutex hinzugefügt. Wird diese Massname verweigert
        /// wird eine Ausnahme wegen unauthorisiertem Zugriff ausgelöst.
        /// <para>
        /// 3) Der Mutex existiert und der Benutzer hat Zugriff.
        /// </para>
        /// Hier sind keine Massnamen nötig. Der Mutex wird geöffnet und zurückgegeben.
        /// </remarks>
        private static Mutex getNamedMutex(string mutexName, bool create, bool allowAttach)
        {
            Mutex mutex        = null;
            bool  doesNotExist = false;
            bool  unauthorized = false;

            /* Der Wert dieser Variable wird vom Mutex Konstruktor
             * gesetzt. Ist sie true wurde der benannte SystemMutex
             * erzeugt. Wenn der Wert false ist, exisitiert der Mutex
             * bereits.
             */
            bool mutexWasCreated = false;

            // versuche den Mutex zu öffnen
            try
            {
                mutex = Mutex.OpenExisting(mutexName);
                if (!allowAttach && mutex != null)
                {
                    // Erfolg, aber Mutex sollte neu sein
                    mutex.Close();
                    throw new SharedMemoryException();
                }
            }
            catch (WaitHandleCannotBeOpenedException)
            {
                // Mutex exisitiert nicht
                doesNotExist = true;
            }
            catch (UnauthorizedAccessException)
            {
                // keine Authorisierung
                unauthorized = true;
            }

            /* Es gibt 3 mögliche Lösungen:
             * (1) Der Mutex exisitiert nicht.
             * (2) Der Mutex exisitiert, doch der aktuelle Benutzer hat keinen Zugriff.
             * (3) Der Mutex existiert und der Benutzer hat Zugriff.
             */
            #region (1) does Not Exist


            if (doesNotExist & create)
            {
                // Der Mutex existiert nicht und soll erzeugt werden, also erzeugen

                // Als erstes eine Access Control List (ACL) erzeugen, die dem
                // Benutzer alle Rechte auf den Mutex einräumt.
                string user = Environment.UserDomainName
                              + "\\" + Environment.UserName;

                // eine Instanz von MutexSecurity erzeugen
                MutexSecurity mutexSec = new MutexSecurity();

                // eine Instanz von MutexAccessRule mit voller Kontrolle erzeugen
                MutexAccessRule rule = new MutexAccessRule(user,
                                                           MutexRights.FullControl, AccessControlType.Allow);

                // die ZugriffsRegel zuweisen
                mutexSec.AddAccessRule(rule);

                // den benannten Mutex mit dem Namen und der ZugriffsRegel erzeugen.
                mutex = new Mutex(false, mutexName, out mutexWasCreated, mutexSec);
                if (mutexWasCreated)
                {
                    return(mutex);
                }
                else
                {
                    throw new SharedMemoryException();
                }
            }

            #endregion

            #region (2) unauthorized

            else if (unauthorized)
            {
                // Den Mutex öffnen um die ZugriffsSicherheit zu lesen
                // und zu ändern
                try
                {
                    mutex = Mutex.OpenExisting(mutexName,
                                               MutexRights.ReadPermissions | MutexRights.ChangePermissions);

                    // die aktuelle ACL holen. Das erfordert das Recht
                    // MutexRights.ReadPermissions.
                    MutexSecurity mutexSec = mutex.GetAccessControl();

                    // den aktuellen Benutzer einlesen
                    string user = Environment.UserDomainName
                                  + "\\" + Environment.UserName;

                    // Als erstes muss die Regel, die dem aktuellen Benutzer
                    // das Sperren und Freigen des Mutex verbietet, entfernt werden.
                    MutexAccessRule rule = new MutexAccessRule(user,
                                                               MutexRights.Synchronize | MutexRights.Modify,
                                                               AccessControlType.Deny);
                    mutexSec.RemoveAccessRule(rule);

                    // jetzt dem Benutzer die richtigen Rechte zuweisen
                    rule = new MutexAccessRule(user,
                                               MutexRights.Synchronize | MutexRights.Modify,
                                               AccessControlType.Allow);
                    mutexSec.AddAccessRule(rule);

                    // aktualisieren der ACL. Das erfordert das Recht
                    // MutexRights.ChangePermissions.
                    mutex.SetAccessControl(mutexSec);

                    // den Mutex öffnen
                    mutex = Mutex.OpenExisting(mutexName);

                    // und den Mutex zurückgeben
                    return(mutex);
                }
                catch (UnauthorizedAccessException)
                {
                    // neu auslösen der Ausname.
                    throw;
                }
            }

            #endregion

            #region (3) Exist and Access granted

            if (!mutexWasCreated)
            {
                // Mutex existiert und der Benutzer hat Zugriff
                if (mutex != null)
                {
                    return(mutex);
                }
            }

            #endregion

            return(null);
        }
Beispiel #6
0
        /// <summary>
        /// Reperimento o creazione del Mutext per l'istanza corrente
        /// </summary>
        /// <param name="instance"></param>
        /// <returns></returns>
        private static Mutex GetOrCreateMutex(ChannelRefInfo instance)
        {
            string mutexName = string.Format("PublisherM-{0}-{1}", instance.Admin.Id.ToString(), instance.Id.ToString());

            logger.DebugFormat("GetOrCreateMutex Name {0}", mutexName);
            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)
            {
                logger.DebugFormat("Mutex does not exist.");
                doesNotExist = true;
            }
            catch (UnauthorizedAccessException ex)
            {
                logger.DebugFormat("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;
                MutexSecurity 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)
                {
                    logger.DebugFormat("Created the mutex.");
                }
                else
                {
                    logger.DebugFormat("Unable to create the mutex.");
                    throw new ApplicationException("Unable to create the mutex.");
                }
            }
            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);

                    logger.DebugFormat("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)
                {
                    logger.DebugFormat("Unable to change permissions: {0}", ex.Message);
                    throw new ApplicationException(string.Format("Unable to change permissions: {0}", ex.Message));
                }
            }

            return(m);
        }