SafeSecurityHelper.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / wpf / src / Shared / MS / Internal / SafeSecurityHelper.cs / 1305600 / SafeSecurityHelper.cs

                            /****************************************************************************\ 
*
* File: SafeSecurityHelper.cs
*
* Purpose:  Helper functions that require elevation but are safe to use. 
*
* History: 
*    10/15/04:    [....]        Created 
*
* Copyright (C) 2004 by Microsoft Corporation.  All rights reserved. 
*
\***************************************************************************/

using System; 
using System.Collections.Generic;
using System.Diagnostics; 
using System.Globalization; 
using System.Security;
using System.Security.Permissions; 
using System.Reflection;
using System.Runtime.InteropServices;
using System.Threading;
#if SYSTEM_XAML 
using TypeConverterHelper = System.Xaml.TypeConverterHelper;
#else 
using Microsoft.Win32; 
using MS.Win32;
using TypeConverterHelper = System.Windows.Markup.TypeConverterHelper; 
#endif
#if PRESENTATIONFRAMEWORK
        using System.Windows;
        using System.Windows.Media; 
#endif
 
// The SafeSecurityHelper class differs between assemblies and could not actually be 
//  shared, so it is duplicated across namespaces to prevent name collision.
#if WINDOWS_BASE 
namespace MS.Internal.WindowsBase
#elif PRESENTATION_CORE
namespace MS.Internal.PresentationCore
#elif PRESENTATIONFRAMEWORK 
namespace MS.Internal.PresentationFramework
#elif REACHFRAMEWORK 
namespace MS.Internal.ReachFramework 
#elif DRT
namespace MS.Internal.Drt 
#elif SYSTEM_XAML
namespace System.Xaml
#else
#error Class is being used from an unknown assembly. 
#endif
{ 
    internal static partial class SafeSecurityHelper 
    {
#if PRESENTATION_CORE 
        ///
        /// Given a rectangle with coords in local screen coordinates.
        /// Return the rectangle in global screen coordinates.
        /// 
        ///
        /// Critical - calls a critical function. 
        /// TreatAsSafe - handing out a transformed rect is considered safe. 
        ///
        ///                      Although we are calling a function that passes an array, and no. of elements. 
        ///                      We limit this call to only call this function with a 2 as the count of elements.
        ///                      Thereby containing any potential for the call to Win32 to cause a buffer overrun.
        ///
        [SecurityCritical, SecurityTreatAsSafe ] 
        internal static void TransformLocalRectToScreen(HandleRef hwnd, ref NativeMethods.RECT rcWindowCoords)
        { 
            int retval = MapWindowPoints(hwnd , new HandleRef(null, IntPtr.Zero), ref rcWindowCoords, 2); 
            int win32Err = Marshal.GetLastWin32Error();
            if(retval == 0 && win32Err != 0) 
            {
                throw new System.ComponentModel.Win32Exception(win32Err);
            }
        } 
#endif
 
#if PRESENTATION_CORE || PRESENTATIONFRAMEWORK ||REACHFRAMEWORK || DEBUG 

#if !WINDOWS_BASE && !SYSTEM_XAML 
        /// 
        ///     Given an assembly, returns the partial name of the assembly.
        /// 
        ///  
        ///     This code used to perform an elevation but no longer needs to.
        ///     The method is being kept in this class to ease auditing and 
        ///     should have a security review if changed. 
        ///     The string returned does not contain path information.
        ///     This code is duplicated in SafeSecurityHelperPBT.cs. 
        /// 
        internal static string GetAssemblyPartialName(Assembly assembly)
        {
            AssemblyName name = new AssemblyName(assembly.FullName); 
            string partialName = name.Name;
            return (partialName != null) ? partialName : String.Empty; 
        } 
#endif
 
#endif

#if PRESENTATIONFRAMEWORK
 
        /// 
        ///     Get the full assembly name by combining the partial name passed in 
        ///     with everything else from proto assembly. 
        /// 
        ///  
        ///     This code used to perform an elevation but no longer needs to.
        ///     The method is being kept in this class to ease auditing and
        ///     should have a security review if changed.
        ///     The string returned does not contain path information. 
        /// 
        internal static string GetFullAssemblyNameFromPartialName( 
                                    Assembly protoAssembly, 
                                    string partialName)
        { 
            AssemblyName name = new AssemblyName(protoAssembly.FullName);
            name.Name = partialName;
            return name.FullName;
        } 

        ///  
        ///     Critical: This code accesses PresentationSource which is critical but does not 
        ///     expose it.
        ///     TreatAsSafe: PresentationSource is not exposed and Client to Screen co-ordinates is 
        ///     safe to expose
        /// 
        [SecurityCritical,SecurityTreatAsSafe]
        internal static Point ClientToScreen(UIElement relativeTo, Point point) 
        {
            GeneralTransform transform; 
            PresentationSource source = PresentationSource.CriticalFromVisual(relativeTo); 

            if (source == null) 
            {
                return new Point(double.NaN, double.NaN);
            }
            transform = relativeTo.TransformToAncestor(source.RootVisual); 
            Point ptRoot;
            transform.TryTransform(point, out ptRoot); 
            Point ptClient = PointUtil.RootToClient(ptRoot, source); 
            Point ptScreen = PointUtil.ClientToScreen(ptClient, source);
 
            return ptScreen;
        }
#endif // PRESENTATIONFRAMEWORK
 
#if WINDOWS_BASE || PRESENTATION_CORE || SYSTEM_XAML
 
        // Cache of Assembly -> AssemblyName, because calling new AssemblyName() is expensive. 
        // If the assembly is static, the key is the assembly; if it's dynamic, the key is a WeakRefKey
        // pointing to the assembly, so we don't root collectible assemblies. 
        //
        // This cache is bound (gated) by the number of assemblies in the appdomain.
        // We use a callback on GC to purge out collected assemblies, so we don't grow indefinitely.
        // 
        static Dictionary _assemblies; // get key via GetKeyForAssembly
        static object syncObject = new object(); 
        static bool _isGCCallbackPending; 

        ///  
        ///     This function iterates through the assemblies loaded in the current
        ///     AppDomain and finds one that has the same assembly name passed in.
        /// 
        ///  
        ///     The method is being kept in this class to ease auditing and
        ///     should have a security review if changed. 
        /// 
        ///     WARNING! Don't use this method for retrievals of assemblies that
        ///              should rely on a strong match with the given assembly name 
        ///              since this method allows assemblies with the same short name
        ///              to be returned even when other name parts are different.
        ///
        ///        E.g.  ---- 
        ///     matches  ----, Version=2.0.0.0, Culture=en-us, PublicKeyToken=b03f5f7f11d50a3a
        ///  
        internal static Assembly GetLoadedAssembly(AssemblyName assemblyName) 
        {
            Assembly[] assemblies = AppDomain.CurrentDomain.GetAssemblies(); 

            Version reqVersion = assemblyName.Version;
            CultureInfo reqCulture = assemblyName.CultureInfo;
            byte[] reqKeyToken = assemblyName.GetPublicKeyToken(); 

            for (int i = assemblies.Length - 1; i >= 0; i--) 
            { 
                AssemblyName curAsmName = GetAssemblyName(assemblies[i]);
                Version curVersion = curAsmName.Version; 
                CultureInfo curCulture = curAsmName.CultureInfo;
                byte[] curKeyToken = curAsmName.GetPublicKeyToken();

                if ( (String.Compare(curAsmName.Name, assemblyName.Name, true, TypeConverterHelper.InvariantEnglishUS) == 0) && 
                     (reqVersion == null || reqVersion.Equals(curVersion)) &&
                     (reqCulture == null || reqCulture.Equals(curCulture)) && 
                     (reqKeyToken == null || IsSameKeyToken(reqKeyToken, curKeyToken) ) ) 
                {
                    return assemblies[i]; 
                }
            }
            return null;
        } 

        static AssemblyName GetAssemblyName(Assembly assembly) 
        { 
            object key = assembly.IsDynamic ? (object)new WeakRefKey(assembly) : assembly;
            lock (syncObject) 
            {
                AssemblyName result;
                if (_assemblies == null)
                { 
                    _assemblies = new Dictionary();
                } 
                else 
 	            {
                    if (_assemblies.TryGetValue(key, out result)) 
                    {
                        return result;
                    }
	            } 
                //
                // We use AssemblyName ctor here because GetName demands FileIOPermission 
                // and does load more than just the required information. 
                // Essentially we use AssemblyName just to help parsing the name, version, culture
                // and public key token from the assembly's name. 
                //
                result = new AssemblyName(assembly.FullName);
                _assemblies.Add(key, result);
                if (assembly.IsDynamic && !_isGCCallbackPending) 
                {
                    // Make sure we clean up the cache if/when this dynamic assembly is GCed 
                    GCNotificationToken.RegisterCallback(CleanupCollectedAssemblies, null); 
                    _isGCCallbackPending  = true;
                } 
                return result;
            }
        }
 
        // After a GC, clean up the weakrefs to any collected dynamic assemblies
        static void CleanupCollectedAssemblies(object state) // dummy parameter required by WaitCallback definition 
        { 
            bool foundLiveDynamicAssemblies = false;
            List keysToRemove = null; 
            lock (syncObject)
            {
                foreach (object key in _assemblies.Keys)
                { 
                    WeakReference weakRef = key as WeakReference;
                    if (weakRef == null) 
                    { 
                        continue;
                    } 
                    if (weakRef.IsAlive)
                    {
                        // There is a weak ref that is still alive, register another GC callback for next time
                        foundLiveDynamicAssemblies = true; 
                    }
                    else 
                    { 
                        // The target has been collected, add it to our list of keys to remove
                        if (keysToRemove == null) 
                        {
                            keysToRemove = new List();
                        }
                        keysToRemove.Add(key); 
                    }
                } 
                if (keysToRemove != null) 
                {
                    foreach (object key in keysToRemove) 
                    {
                        _assemblies.Remove(key);
                    }
                } 
                if (foundLiveDynamicAssemblies)
                { 
                    GCNotificationToken.RegisterCallback(CleanupCollectedAssemblies, null); 
                }
                else 
                {
                    _isGCCallbackPending = false;
                }
            } 
        }
 
#endif  // WINDOWS_BASE || PRESENTATION_CORE || SYSTEM_XAML 

        // 
        // Determine if two Public Key Tokens are the same.
        //
#if !REACHFRAMEWORK	
#if PRESENTATIONFRAMEWORK || SYSTEM_XAML 
        internal
#else 
        private 
#endif
        static bool IsSameKeyToken(byte[] reqKeyToken, byte[] curKeyToken) 
        {
           bool isSame = false;

           if (reqKeyToken == null && curKeyToken == null) 
           {
               // Both Key Tokens are not set, treat them as same. 
               isSame = true; 
           }
           else if (reqKeyToken != null && curKeyToken != null) 
           {
               // Both KeyTokens are set.
               if (reqKeyToken.Length == curKeyToken.Length)
               { 
                   isSame = true;
 
                   for (int i = 0; i < reqKeyToken.Length; i++) 
                   {
                      if (reqKeyToken[i] != curKeyToken[i]) 
                      {
                         isSame = false;
                         break;
                      } 
                   }
               } 
           } 

           return isSame; 
        }
#endif //!REACHFRAMEWORK	
	
#if PRESENTATION_CORE || PRESENTATIONFRAMEWORK 
        // enum to choose between the various keys
        internal enum KeyToRead 
        { 
             WebBrowserDisable = 0x01 ,
             MediaAudioDisable = 0x02 , 
             MediaVideoDisable = 0x04 ,
             MediaImageDisable = 0x08 ,
             MediaAudioOrVideoDisable = KeyToRead.MediaVideoDisable | KeyToRead.MediaAudioDisable  ,
             ScriptInteropDisable = 0x10 , 
        }
 
        ///  
        ///   Critical: This code elevates to access registry
        ///   TreatAsSafe: The information it exposes is safe to give out and all it does is read a specific key 
        /// 
        [SecurityCritical,SecurityTreatAsSafe]
        internal static bool IsFeatureDisabled(KeyToRead key)
        { 
            string regValue = null;
            bool fResult = false; 
 
            switch (key)
            { 
                case KeyToRead.WebBrowserDisable:
                    regValue = RegistryKeys.value_WebBrowserDisallow;
                    break;
                case KeyToRead.MediaAudioDisable: 
                    regValue = RegistryKeys.value_MediaAudioDisallow;
                    break; 
                case KeyToRead.MediaVideoDisable: 
                    regValue = RegistryKeys.value_MediaVideoDisallow;
                    break; 
                case KeyToRead.MediaImageDisable:
                    regValue = RegistryKeys.value_MediaImageDisallow;
                    break;
                case KeyToRead.MediaAudioOrVideoDisable: 
                    regValue = RegistryKeys.value_MediaAudioDisallow;
                    break; 
                case KeyToRead.ScriptInteropDisable: 
                    regValue = RegistryKeys.value_ScriptInteropDisallow;
                    break; 
                default:// throw exception for invalid key
                throw(new System.ArgumentException(key.ToString()));

            } 

            RegistryKey featureKey; 
            //Assert for read access to HKLM\Software\Microsoft\Windows\Avalon 
            RegistryPermission regPerm = new RegistryPermission(RegistryPermissionAccess.Read,"HKEY_LOCAL_MACHINE\\"+RegistryKeys.WPF_Features);//BlessedAssert
            regPerm.Assert();//BlessedAssert 
            try
            {
                object obj = null;
                bool keyValue = false; 
                // open the key and read the value
                featureKey = Registry.LocalMachine.OpenSubKey(RegistryKeys.WPF_Features); 
                if (featureKey != null) 
                {
                    // If key exists and value is 1 return true else false 
                    obj = featureKey.GetValue(regValue);
                    keyValue = obj is int && ((int)obj == 1);
                    if (keyValue)
                    { 
                        fResult = true;
                    } 
 
                    // special case for audio and video since they can be orred
                    // this is in the condition that audio is enabled since that is 
                    // the path that MediaAudioVideoDisable defaults to
                    // This is purely to optimize perf on the number of calls to assert
                    // in the media or audio scenario.
 
                    if ((fResult == false) && (key == KeyToRead.MediaAudioOrVideoDisable))
                    { 
                        regValue = RegistryKeys.value_MediaVideoDisallow; 
                        // If key exists and value is 1 return true else false
                        obj = featureKey.GetValue(regValue); 
                        keyValue = obj is int && ((int)obj == 1);
                        if (keyValue)
                        {
                            fResult = true; 
                        }
                    } 
                } 
            }
            finally 
            {
                RegistryPermission.RevertAssert();
            }
            return fResult; 
        }
#endif //PRESENTATIONCORE||PRESENTATIONFRAMEWORK 
 
#if PRESENTATION_CORE
 
        /// 
        ///     This function is a wrapper for CultureInfo.GetCultureInfoByIetfLanguageTag().
        ///     The wrapper works around a bug in that routine, which causes it to throw
        ///     a SecurityException in Partial Trust.  VSWhidbey bug #572162. 
        /// 
        ///  
        ///   Critical: This code elevates to access registry 
        ///   TreatAsSafe: The information it exposes is safe to give out and all it does is read a specific key
        ///  
        [SecurityCritical,SecurityTreatAsSafe]
        static internal CultureInfo GetCultureInfoByIetfLanguageTag(string languageTag)
        {
            CultureInfo culture = null; 

            RegistryPermission regPerm = new RegistryPermission(RegistryPermissionAccess.Read, RegistryKeys.HKLM_IetfLanguage);//BlessedAssert 
            regPerm.Assert();//BlessedAssert 
            try
            { 
                culture = CultureInfo.GetCultureInfoByIetfLanguageTag(languageTag);
            }
            finally
            { 
                 RegistryPermission.RevertAssert();
            } 
            return culture; 
        }
#endif //PRESENTATIONCORE 

        //
        // Private p-invokes.
        // 

#if !PRESENTATIONFRAMEWORK && !WINDOWS_BASE && !REACHFRAMEWORK && !SYSTEM_XAML 
        /// 
        /// Critical - this function elevates
        /// 
        [SecurityCritical, SuppressUnmanagedCodeSecurity ]
        [DllImport(ExternDll.User32, SetLastError = true, ExactSpelling=true, CharSet=CharSet.Auto)]
        private static extern int MapWindowPoints(HandleRef hWndFrom, HandleRef hWndTo, [In, Out] ref NativeMethods.RECT rect, int cPoints);
#endif 

        internal const string IMAGE = "image"; 
    } 

#if WINDOWS_BASE || PRESENTATION_CORE || SYSTEM_XAML 
    // for use as the key to a dictionary, when the "real" key is an object
    // that we should not keep alive by a strong reference.
    class WeakRefKey : WeakReference
    { 
        public WeakRefKey(object target)
            :base(target) 
        { 
            Debug.Assert(target != null);
            _hashCode = target.GetHashCode(); 
        }

        public override int GetHashCode()
        { 
            return _hashCode;
        } 
 
        public override bool Equals(object o)
        { 
            WeakRefKey weakRef = o as WeakRefKey;
            if (weakRef != null)
            {
                object target1 = Target; 
                object target2 = weakRef.Target;
 
                if (target1 != null && target2 != null) 
                {
                    return (target1 == target2); 
                }
            }
            return base.Equals(o);
        } 

        public static bool operator ==(WeakRefKey left, WeakRefKey right) 
        { 
            if (object.ReferenceEquals(left, null))
            { 
                return object.ReferenceEquals(right, null);
            }
            return left.Equals(right);
        } 

        public static bool operator !=(WeakRefKey left, WeakRefKey right) 
        { 
            return !(left == right);
        } 

        int _hashCode;  // cache target's hashcode, lest it get GC'd out from under us
    }
 
    // This cleanup token will be immediately thrown away and as a result it will
    // (a couple of GCs later) make it into the finalization queue and when finalized 
    // will kick off a thread-pool job that you can use to purge a weakref cache. 
    class GCNotificationToken
    { 
        WaitCallback callback;
        object state;

        GCNotificationToken(WaitCallback callback, object state) 
        {
            this.callback = callback; 
            this.state = state; 
        }
 
        ~GCNotificationToken()
        {
            // Schedule cleanup
            ThreadPool.QueueUserWorkItem(callback, state); 
        }
 
        internal static void RegisterCallback(WaitCallback callback, object state) 
        {
            new GCNotificationToken(callback, state); 
        }
    }
#endif
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
/****************************************************************************\ 
*
* File: SafeSecurityHelper.cs
*
* Purpose:  Helper functions that require elevation but are safe to use. 
*
* History: 
*    10/15/04:    [....]        Created 
*
* Copyright (C) 2004 by Microsoft Corporation.  All rights reserved. 
*
\***************************************************************************/

using System; 
using System.Collections.Generic;
using System.Diagnostics; 
using System.Globalization; 
using System.Security;
using System.Security.Permissions; 
using System.Reflection;
using System.Runtime.InteropServices;
using System.Threading;
#if SYSTEM_XAML 
using TypeConverterHelper = System.Xaml.TypeConverterHelper;
#else 
using Microsoft.Win32; 
using MS.Win32;
using TypeConverterHelper = System.Windows.Markup.TypeConverterHelper; 
#endif
#if PRESENTATIONFRAMEWORK
        using System.Windows;
        using System.Windows.Media; 
#endif
 
// The SafeSecurityHelper class differs between assemblies and could not actually be 
//  shared, so it is duplicated across namespaces to prevent name collision.
#if WINDOWS_BASE 
namespace MS.Internal.WindowsBase
#elif PRESENTATION_CORE
namespace MS.Internal.PresentationCore
#elif PRESENTATIONFRAMEWORK 
namespace MS.Internal.PresentationFramework
#elif REACHFRAMEWORK 
namespace MS.Internal.ReachFramework 
#elif DRT
namespace MS.Internal.Drt 
#elif SYSTEM_XAML
namespace System.Xaml
#else
#error Class is being used from an unknown assembly. 
#endif
{ 
    internal static partial class SafeSecurityHelper 
    {
#if PRESENTATION_CORE 
        ///
        /// Given a rectangle with coords in local screen coordinates.
        /// Return the rectangle in global screen coordinates.
        /// 
        ///
        /// Critical - calls a critical function. 
        /// TreatAsSafe - handing out a transformed rect is considered safe. 
        ///
        ///                      Although we are calling a function that passes an array, and no. of elements. 
        ///                      We limit this call to only call this function with a 2 as the count of elements.
        ///                      Thereby containing any potential for the call to Win32 to cause a buffer overrun.
        ///
        [SecurityCritical, SecurityTreatAsSafe ] 
        internal static void TransformLocalRectToScreen(HandleRef hwnd, ref NativeMethods.RECT rcWindowCoords)
        { 
            int retval = MapWindowPoints(hwnd , new HandleRef(null, IntPtr.Zero), ref rcWindowCoords, 2); 
            int win32Err = Marshal.GetLastWin32Error();
            if(retval == 0 && win32Err != 0) 
            {
                throw new System.ComponentModel.Win32Exception(win32Err);
            }
        } 
#endif
 
#if PRESENTATION_CORE || PRESENTATIONFRAMEWORK ||REACHFRAMEWORK || DEBUG 

#if !WINDOWS_BASE && !SYSTEM_XAML 
        /// 
        ///     Given an assembly, returns the partial name of the assembly.
        /// 
        ///  
        ///     This code used to perform an elevation but no longer needs to.
        ///     The method is being kept in this class to ease auditing and 
        ///     should have a security review if changed. 
        ///     The string returned does not contain path information.
        ///     This code is duplicated in SafeSecurityHelperPBT.cs. 
        /// 
        internal static string GetAssemblyPartialName(Assembly assembly)
        {
            AssemblyName name = new AssemblyName(assembly.FullName); 
            string partialName = name.Name;
            return (partialName != null) ? partialName : String.Empty; 
        } 
#endif
 
#endif

#if PRESENTATIONFRAMEWORK
 
        /// 
        ///     Get the full assembly name by combining the partial name passed in 
        ///     with everything else from proto assembly. 
        /// 
        ///  
        ///     This code used to perform an elevation but no longer needs to.
        ///     The method is being kept in this class to ease auditing and
        ///     should have a security review if changed.
        ///     The string returned does not contain path information. 
        /// 
        internal static string GetFullAssemblyNameFromPartialName( 
                                    Assembly protoAssembly, 
                                    string partialName)
        { 
            AssemblyName name = new AssemblyName(protoAssembly.FullName);
            name.Name = partialName;
            return name.FullName;
        } 

        ///  
        ///     Critical: This code accesses PresentationSource which is critical but does not 
        ///     expose it.
        ///     TreatAsSafe: PresentationSource is not exposed and Client to Screen co-ordinates is 
        ///     safe to expose
        /// 
        [SecurityCritical,SecurityTreatAsSafe]
        internal static Point ClientToScreen(UIElement relativeTo, Point point) 
        {
            GeneralTransform transform; 
            PresentationSource source = PresentationSource.CriticalFromVisual(relativeTo); 

            if (source == null) 
            {
                return new Point(double.NaN, double.NaN);
            }
            transform = relativeTo.TransformToAncestor(source.RootVisual); 
            Point ptRoot;
            transform.TryTransform(point, out ptRoot); 
            Point ptClient = PointUtil.RootToClient(ptRoot, source); 
            Point ptScreen = PointUtil.ClientToScreen(ptClient, source);
 
            return ptScreen;
        }
#endif // PRESENTATIONFRAMEWORK
 
#if WINDOWS_BASE || PRESENTATION_CORE || SYSTEM_XAML
 
        // Cache of Assembly -> AssemblyName, because calling new AssemblyName() is expensive. 
        // If the assembly is static, the key is the assembly; if it's dynamic, the key is a WeakRefKey
        // pointing to the assembly, so we don't root collectible assemblies. 
        //
        // This cache is bound (gated) by the number of assemblies in the appdomain.
        // We use a callback on GC to purge out collected assemblies, so we don't grow indefinitely.
        // 
        static Dictionary _assemblies; // get key via GetKeyForAssembly
        static object syncObject = new object(); 
        static bool _isGCCallbackPending; 

        ///  
        ///     This function iterates through the assemblies loaded in the current
        ///     AppDomain and finds one that has the same assembly name passed in.
        /// 
        ///  
        ///     The method is being kept in this class to ease auditing and
        ///     should have a security review if changed. 
        /// 
        ///     WARNING! Don't use this method for retrievals of assemblies that
        ///              should rely on a strong match with the given assembly name 
        ///              since this method allows assemblies with the same short name
        ///              to be returned even when other name parts are different.
        ///
        ///        E.g.  ---- 
        ///     matches  ----, Version=2.0.0.0, Culture=en-us, PublicKeyToken=b03f5f7f11d50a3a
        ///  
        internal static Assembly GetLoadedAssembly(AssemblyName assemblyName) 
        {
            Assembly[] assemblies = AppDomain.CurrentDomain.GetAssemblies(); 

            Version reqVersion = assemblyName.Version;
            CultureInfo reqCulture = assemblyName.CultureInfo;
            byte[] reqKeyToken = assemblyName.GetPublicKeyToken(); 

            for (int i = assemblies.Length - 1; i >= 0; i--) 
            { 
                AssemblyName curAsmName = GetAssemblyName(assemblies[i]);
                Version curVersion = curAsmName.Version; 
                CultureInfo curCulture = curAsmName.CultureInfo;
                byte[] curKeyToken = curAsmName.GetPublicKeyToken();

                if ( (String.Compare(curAsmName.Name, assemblyName.Name, true, TypeConverterHelper.InvariantEnglishUS) == 0) && 
                     (reqVersion == null || reqVersion.Equals(curVersion)) &&
                     (reqCulture == null || reqCulture.Equals(curCulture)) && 
                     (reqKeyToken == null || IsSameKeyToken(reqKeyToken, curKeyToken) ) ) 
                {
                    return assemblies[i]; 
                }
            }
            return null;
        } 

        static AssemblyName GetAssemblyName(Assembly assembly) 
        { 
            object key = assembly.IsDynamic ? (object)new WeakRefKey(assembly) : assembly;
            lock (syncObject) 
            {
                AssemblyName result;
                if (_assemblies == null)
                { 
                    _assemblies = new Dictionary();
                } 
                else 
 	            {
                    if (_assemblies.TryGetValue(key, out result)) 
                    {
                        return result;
                    }
	            } 
                //
                // We use AssemblyName ctor here because GetName demands FileIOPermission 
                // and does load more than just the required information. 
                // Essentially we use AssemblyName just to help parsing the name, version, culture
                // and public key token from the assembly's name. 
                //
                result = new AssemblyName(assembly.FullName);
                _assemblies.Add(key, result);
                if (assembly.IsDynamic && !_isGCCallbackPending) 
                {
                    // Make sure we clean up the cache if/when this dynamic assembly is GCed 
                    GCNotificationToken.RegisterCallback(CleanupCollectedAssemblies, null); 
                    _isGCCallbackPending  = true;
                } 
                return result;
            }
        }
 
        // After a GC, clean up the weakrefs to any collected dynamic assemblies
        static void CleanupCollectedAssemblies(object state) // dummy parameter required by WaitCallback definition 
        { 
            bool foundLiveDynamicAssemblies = false;
            List keysToRemove = null; 
            lock (syncObject)
            {
                foreach (object key in _assemblies.Keys)
                { 
                    WeakReference weakRef = key as WeakReference;
                    if (weakRef == null) 
                    { 
                        continue;
                    } 
                    if (weakRef.IsAlive)
                    {
                        // There is a weak ref that is still alive, register another GC callback for next time
                        foundLiveDynamicAssemblies = true; 
                    }
                    else 
                    { 
                        // The target has been collected, add it to our list of keys to remove
                        if (keysToRemove == null) 
                        {
                            keysToRemove = new List();
                        }
                        keysToRemove.Add(key); 
                    }
                } 
                if (keysToRemove != null) 
                {
                    foreach (object key in keysToRemove) 
                    {
                        _assemblies.Remove(key);
                    }
                } 
                if (foundLiveDynamicAssemblies)
                { 
                    GCNotificationToken.RegisterCallback(CleanupCollectedAssemblies, null); 
                }
                else 
                {
                    _isGCCallbackPending = false;
                }
            } 
        }
 
#endif  // WINDOWS_BASE || PRESENTATION_CORE || SYSTEM_XAML 

        // 
        // Determine if two Public Key Tokens are the same.
        //
#if !REACHFRAMEWORK	
#if PRESENTATIONFRAMEWORK || SYSTEM_XAML 
        internal
#else 
        private 
#endif
        static bool IsSameKeyToken(byte[] reqKeyToken, byte[] curKeyToken) 
        {
           bool isSame = false;

           if (reqKeyToken == null && curKeyToken == null) 
           {
               // Both Key Tokens are not set, treat them as same. 
               isSame = true; 
           }
           else if (reqKeyToken != null && curKeyToken != null) 
           {
               // Both KeyTokens are set.
               if (reqKeyToken.Length == curKeyToken.Length)
               { 
                   isSame = true;
 
                   for (int i = 0; i < reqKeyToken.Length; i++) 
                   {
                      if (reqKeyToken[i] != curKeyToken[i]) 
                      {
                         isSame = false;
                         break;
                      } 
                   }
               } 
           } 

           return isSame; 
        }
#endif //!REACHFRAMEWORK	
	
#if PRESENTATION_CORE || PRESENTATIONFRAMEWORK 
        // enum to choose between the various keys
        internal enum KeyToRead 
        { 
             WebBrowserDisable = 0x01 ,
             MediaAudioDisable = 0x02 , 
             MediaVideoDisable = 0x04 ,
             MediaImageDisable = 0x08 ,
             MediaAudioOrVideoDisable = KeyToRead.MediaVideoDisable | KeyToRead.MediaAudioDisable  ,
             ScriptInteropDisable = 0x10 , 
        }
 
        ///  
        ///   Critical: This code elevates to access registry
        ///   TreatAsSafe: The information it exposes is safe to give out and all it does is read a specific key 
        /// 
        [SecurityCritical,SecurityTreatAsSafe]
        internal static bool IsFeatureDisabled(KeyToRead key)
        { 
            string regValue = null;
            bool fResult = false; 
 
            switch (key)
            { 
                case KeyToRead.WebBrowserDisable:
                    regValue = RegistryKeys.value_WebBrowserDisallow;
                    break;
                case KeyToRead.MediaAudioDisable: 
                    regValue = RegistryKeys.value_MediaAudioDisallow;
                    break; 
                case KeyToRead.MediaVideoDisable: 
                    regValue = RegistryKeys.value_MediaVideoDisallow;
                    break; 
                case KeyToRead.MediaImageDisable:
                    regValue = RegistryKeys.value_MediaImageDisallow;
                    break;
                case KeyToRead.MediaAudioOrVideoDisable: 
                    regValue = RegistryKeys.value_MediaAudioDisallow;
                    break; 
                case KeyToRead.ScriptInteropDisable: 
                    regValue = RegistryKeys.value_ScriptInteropDisallow;
                    break; 
                default:// throw exception for invalid key
                throw(new System.ArgumentException(key.ToString()));

            } 

            RegistryKey featureKey; 
            //Assert for read access to HKLM\Software\Microsoft\Windows\Avalon 
            RegistryPermission regPerm = new RegistryPermission(RegistryPermissionAccess.Read,"HKEY_LOCAL_MACHINE\\"+RegistryKeys.WPF_Features);//BlessedAssert
            regPerm.Assert();//BlessedAssert 
            try
            {
                object obj = null;
                bool keyValue = false; 
                // open the key and read the value
                featureKey = Registry.LocalMachine.OpenSubKey(RegistryKeys.WPF_Features); 
                if (featureKey != null) 
                {
                    // If key exists and value is 1 return true else false 
                    obj = featureKey.GetValue(regValue);
                    keyValue = obj is int && ((int)obj == 1);
                    if (keyValue)
                    { 
                        fResult = true;
                    } 
 
                    // special case for audio and video since they can be orred
                    // this is in the condition that audio is enabled since that is 
                    // the path that MediaAudioVideoDisable defaults to
                    // This is purely to optimize perf on the number of calls to assert
                    // in the media or audio scenario.
 
                    if ((fResult == false) && (key == KeyToRead.MediaAudioOrVideoDisable))
                    { 
                        regValue = RegistryKeys.value_MediaVideoDisallow; 
                        // If key exists and value is 1 return true else false
                        obj = featureKey.GetValue(regValue); 
                        keyValue = obj is int && ((int)obj == 1);
                        if (keyValue)
                        {
                            fResult = true; 
                        }
                    } 
                } 
            }
            finally 
            {
                RegistryPermission.RevertAssert();
            }
            return fResult; 
        }
#endif //PRESENTATIONCORE||PRESENTATIONFRAMEWORK 
 
#if PRESENTATION_CORE
 
        /// 
        ///     This function is a wrapper for CultureInfo.GetCultureInfoByIetfLanguageTag().
        ///     The wrapper works around a bug in that routine, which causes it to throw
        ///     a SecurityException in Partial Trust.  VSWhidbey bug #572162. 
        /// 
        ///  
        ///   Critical: This code elevates to access registry 
        ///   TreatAsSafe: The information it exposes is safe to give out and all it does is read a specific key
        ///  
        [SecurityCritical,SecurityTreatAsSafe]
        static internal CultureInfo GetCultureInfoByIetfLanguageTag(string languageTag)
        {
            CultureInfo culture = null; 

            RegistryPermission regPerm = new RegistryPermission(RegistryPermissionAccess.Read, RegistryKeys.HKLM_IetfLanguage);//BlessedAssert 
            regPerm.Assert();//BlessedAssert 
            try
            { 
                culture = CultureInfo.GetCultureInfoByIetfLanguageTag(languageTag);
            }
            finally
            { 
                 RegistryPermission.RevertAssert();
            } 
            return culture; 
        }
#endif //PRESENTATIONCORE 

        //
        // Private p-invokes.
        // 

#if !PRESENTATIONFRAMEWORK && !WINDOWS_BASE && !REACHFRAMEWORK && !SYSTEM_XAML 
        /// 
        /// Critical - this function elevates
        /// 
        [SecurityCritical, SuppressUnmanagedCodeSecurity ]
        [DllImport(ExternDll.User32, SetLastError = true, ExactSpelling=true, CharSet=CharSet.Auto)]
        private static extern int MapWindowPoints(HandleRef hWndFrom, HandleRef hWndTo, [In, Out] ref NativeMethods.RECT rect, int cPoints);
#endif 

        internal const string IMAGE = "image"; 
    } 

#if WINDOWS_BASE || PRESENTATION_CORE || SYSTEM_XAML 
    // for use as the key to a dictionary, when the "real" key is an object
    // that we should not keep alive by a strong reference.
    class WeakRefKey : WeakReference
    { 
        public WeakRefKey(object target)
            :base(target) 
        { 
            Debug.Assert(target != null);
            _hashCode = target.GetHashCode(); 
        }

        public override int GetHashCode()
        { 
            return _hashCode;
        } 
 
        public override bool Equals(object o)
        { 
            WeakRefKey weakRef = o as WeakRefKey;
            if (weakRef != null)
            {
                object target1 = Target; 
                object target2 = weakRef.Target;
 
                if (target1 != null && target2 != null) 
                {
                    return (target1 == target2); 
                }
            }
            return base.Equals(o);
        } 

        public static bool operator ==(WeakRefKey left, WeakRefKey right) 
        { 
            if (object.ReferenceEquals(left, null))
            { 
                return object.ReferenceEquals(right, null);
            }
            return left.Equals(right);
        } 

        public static bool operator !=(WeakRefKey left, WeakRefKey right) 
        { 
            return !(left == right);
        } 

        int _hashCode;  // cache target's hashcode, lest it get GC'd out from under us
    }
 
    // This cleanup token will be immediately thrown away and as a result it will
    // (a couple of GCs later) make it into the finalization queue and when finalized 
    // will kick off a thread-pool job that you can use to purge a weakref cache. 
    class GCNotificationToken
    { 
        WaitCallback callback;
        object state;

        GCNotificationToken(WaitCallback callback, object state) 
        {
            this.callback = callback; 
            this.state = state; 
        }
 
        ~GCNotificationToken()
        {
            // Schedule cleanup
            ThreadPool.QueueUserWorkItem(callback, state); 
        }
 
        internal static void RegisterCallback(WaitCallback callback, object state) 
        {
            new GCNotificationToken(callback, state); 
        }
    }
#endif
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
                        

                        

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