CryptoHandle.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / cdf / src / WCF / infocard / Client / System / IdentityModel / Selectors / CryptoHandle.cs / 1305376 / CryptoHandle.cs

                            //------------------------------------------------------------------------------ 
// Copyright (c) Microsoft Corporation.  All rights reserved.
//-----------------------------------------------------------------------------
//
// Presharp uses the c# pragma mechanism to supress its warnings. 
// These are not recognised by the base compiler so we need to explictly
// disable the following warnings. See http://winweb/cse/Tools/PREsharp/userguide/default.asp 
// for details. 
//
#pragma warning disable 1634, 1691      // unknown message, unknown pragma 

namespace System.IdentityModel.Selectors
{
    using System; 
    using System.Runtime.InteropServices;
    using System.Threading; 
    using System.Security; 
    using System.Runtime.ConstrainedExecution;
    using System.Runtime.CompilerServices; 
    using IDT=Microsoft.InfoCards.Diagnostics.InfoCardTrace;


    // 
    // For common & resources
    // 
    using Microsoft.InfoCards; 

    // 
    // Summary:
    //  Wraps and manages the lifetime of a native crypto handle passed back from the native InfoCard API.
    //
    internal abstract class CryptoHandle : IDisposable 
    {
        bool m_isDisposed; 
        InternalRefCountedHandle m_internalHandle; 

        // 
        // Summary:
        //  Creates a new CryptoHandle. ParamType has information as to what
        //  nativeParameters has to be marshaled into.
        // 
        protected CryptoHandle( InternalRefCountedHandle nativeHandle, DateTime expiration, IntPtr nativeParameters, Type paramType )
        { 
            m_internalHandle = nativeHandle; 

            m_internalHandle.Initialize( expiration, Marshal.PtrToStructure( nativeParameters, paramType ) ); 
        }

        //
        // Summary: 
        //  This constructor creates a new CryptoHandle instance with the same InternalRefCountedHandle and adds
        //  a ref count to that InternalRefCountedHandle. 
        // 
        protected CryptoHandle( InternalRefCountedHandle internalHandle )
        { 
            m_internalHandle = internalHandle;
            m_internalHandle.AddRef();
        }
 
        public InternalRefCountedHandle InternalHandle
        { 
            get 
            {
                ThrowIfDisposed(); 
                return m_internalHandle;
            }
        }
 

 
        public DateTime Expiration 
        {
            get 
            {
                ThrowIfDisposed();
                return m_internalHandle.Expiration;
            } 
        }
 
        public object Parameters 
        {
            get 
            {
                ThrowIfDisposed();
                return m_internalHandle.Parameters;
            } 
        }
 
        // 
        // Summary:
        //  Creates a new CryptoHandle with same InternalRefCountedCryptoHandle. 
        //
        public CryptoHandle Duplicate()
        {
            ThrowIfDisposed(); 
            return OnDuplicate();
        } 
 

        // 
        // Summary:
        //  Allows subclasses to create a duplicate of their particular class.
        //
        protected abstract CryptoHandle OnDuplicate(); 

        protected void ThrowIfDisposed() 
        { 
            if ( m_isDisposed )
            { 
                throw IDT.ThrowHelperError( new ObjectDisposedException( SR.GetString( SR.ClientCryptoSessionDisposed ) ) );
            }
        }
 
        public void Dispose()
        { 
            if ( m_isDisposed ) 
            {
                return; 
            }

            m_internalHandle.Release();
            m_internalHandle = null; 
            m_isDisposed = true;
        } 
 
        //
        // Summary: 
        //  Given a pointer to a native cryptosession this method creates the appropriate CryptoHandle type.
        //
        static internal CryptoHandle Create( InternalRefCountedHandle nativeHandle )
        { 
            CryptoHandle handle = null;
 
            bool mustRelease = false; 
            RuntimeHelpers.PrepareConstrainedRegions();
            try 
            {
                nativeHandle.DangerousAddRef( ref mustRelease );
                RpcInfoCardCryptoHandle hCrypto =
                    (RpcInfoCardCryptoHandle)Marshal.PtrToStructure( nativeHandle.DangerousGetHandle(), 
                                                                     typeof( RpcInfoCardCryptoHandle ) );
                DateTime expiration = DateTime.FromFileTimeUtc( hCrypto.expiration ); 
 
                switch ( hCrypto.type )
                { 
                    case RpcInfoCardCryptoHandle.HandleType.Asymmetric:
                        handle = new AsymmetricCryptoHandle( nativeHandle, expiration, hCrypto.cryptoParameters );
                        break;
                    case RpcInfoCardCryptoHandle.HandleType.Symmetric: 
                        handle = new SymmetricCryptoHandle( nativeHandle, expiration, hCrypto.cryptoParameters );
                        break; 
                    case RpcInfoCardCryptoHandle.HandleType.Transform: 
                        handle = new TransformCryptoHandle( nativeHandle, expiration, hCrypto.cryptoParameters );
                        break; 
                    case RpcInfoCardCryptoHandle.HandleType.Hash:
                        handle = new HashCryptoHandle( nativeHandle, expiration, hCrypto.cryptoParameters );
                        break;
                    default: 
                        IDT.DebugAssert( false, "Invalid crypto operation type" );
                        throw IDT.ThrowHelperError( new InvalidOperationException( SR.GetString( SR.GeneralExceptionMessage ) ) ); 
                } 

                return handle; 

            }
            finally
            { 
                if( mustRelease )
                { 
                    nativeHandle.DangerousRelease(); 
                }
            } 
        }


    } 

    // 
    // Summary: 
    //  This class manages the lifetime of a native crypto handle through ref counts.  Any number of CryptoHandles
    //  may refer to a single InternalRefCountedHandle, but once they are all disposed this object will dispose 
    //  itself as well.
    //
    internal class InternalRefCountedHandle : SafeHandle
    { 
        int    m_refcount       = 0;
        DateTime m_expiration; 
        object m_parameters     = null; 

        [DllImport( "infocardapi.dll", 
                    EntryPoint      ="CloseCryptoHandle",
                    CharSet         = CharSet.Unicode,
                    CallingConvention = CallingConvention.StdCall,
                    ExactSpelling   = true, 
                    SetLastError    = true ) ]
        [SuppressUnmanagedCodeSecurity] 
        [ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)] 
        private static extern bool CloseCryptoHandle( [In] IntPtr hKey );
 
        private InternalRefCountedHandle() : base( IntPtr.Zero, true )
        {
            m_refcount = 1;
 
        }
 
        public void Initialize( DateTime expiration, object parameters ) 
        {
            m_expiration = expiration; 
            m_parameters = parameters;
        }

 
        //
        // Summary: 
        //  The deserialized parameters specific to a particular type of CryptoHandle. 
        //
        public object Parameters 
        {
            get
            {
                ThrowIfInvalid(); 
                return m_parameters;
            } 
        } 

        // 
        // Summary:
        //  The expiration of this CryptoHandle
        //
        public DateTime Expiration 
        {
            get 
            { 
                ThrowIfInvalid();
                return m_expiration; 
            }
        }

        public void AddRef() 
        {
            ThrowIfInvalid(); 
            Interlocked.Increment( ref m_refcount ); 
        }
 
        public void Release()
        {
            ThrowIfInvalid();
            int refcount = Interlocked.Decrement( ref m_refcount ); 
            if ( 0 == refcount )
            { 
                Dispose(); 
            }
        } 

        private void ThrowIfInvalid()
        {
            if ( IsInvalid ) 
            {
                throw IDT.ThrowHelperError( new ObjectDisposedException( "InternalRefCountedHandle" ) ); 
            } 
        }
        public override bool IsInvalid 
        {
            get
            {
                return ( IntPtr.Zero == base.handle ); 
            }
        } 
 

        protected override bool ReleaseHandle() 
        {
            #pragma warning suppress 56523
            return CloseCryptoHandle( base.handle );
        } 

    } 
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
//------------------------------------------------------------------------------ 
// Copyright (c) Microsoft Corporation.  All rights reserved.
//-----------------------------------------------------------------------------
//
// Presharp uses the c# pragma mechanism to supress its warnings. 
// These are not recognised by the base compiler so we need to explictly
// disable the following warnings. See http://winweb/cse/Tools/PREsharp/userguide/default.asp 
// for details. 
//
#pragma warning disable 1634, 1691      // unknown message, unknown pragma 

namespace System.IdentityModel.Selectors
{
    using System; 
    using System.Runtime.InteropServices;
    using System.Threading; 
    using System.Security; 
    using System.Runtime.ConstrainedExecution;
    using System.Runtime.CompilerServices; 
    using IDT=Microsoft.InfoCards.Diagnostics.InfoCardTrace;


    // 
    // For common & resources
    // 
    using Microsoft.InfoCards; 

    // 
    // Summary:
    //  Wraps and manages the lifetime of a native crypto handle passed back from the native InfoCard API.
    //
    internal abstract class CryptoHandle : IDisposable 
    {
        bool m_isDisposed; 
        InternalRefCountedHandle m_internalHandle; 

        // 
        // Summary:
        //  Creates a new CryptoHandle. ParamType has information as to what
        //  nativeParameters has to be marshaled into.
        // 
        protected CryptoHandle( InternalRefCountedHandle nativeHandle, DateTime expiration, IntPtr nativeParameters, Type paramType )
        { 
            m_internalHandle = nativeHandle; 

            m_internalHandle.Initialize( expiration, Marshal.PtrToStructure( nativeParameters, paramType ) ); 
        }

        //
        // Summary: 
        //  This constructor creates a new CryptoHandle instance with the same InternalRefCountedHandle and adds
        //  a ref count to that InternalRefCountedHandle. 
        // 
        protected CryptoHandle( InternalRefCountedHandle internalHandle )
        { 
            m_internalHandle = internalHandle;
            m_internalHandle.AddRef();
        }
 
        public InternalRefCountedHandle InternalHandle
        { 
            get 
            {
                ThrowIfDisposed(); 
                return m_internalHandle;
            }
        }
 

 
        public DateTime Expiration 
        {
            get 
            {
                ThrowIfDisposed();
                return m_internalHandle.Expiration;
            } 
        }
 
        public object Parameters 
        {
            get 
            {
                ThrowIfDisposed();
                return m_internalHandle.Parameters;
            } 
        }
 
        // 
        // Summary:
        //  Creates a new CryptoHandle with same InternalRefCountedCryptoHandle. 
        //
        public CryptoHandle Duplicate()
        {
            ThrowIfDisposed(); 
            return OnDuplicate();
        } 
 

        // 
        // Summary:
        //  Allows subclasses to create a duplicate of their particular class.
        //
        protected abstract CryptoHandle OnDuplicate(); 

        protected void ThrowIfDisposed() 
        { 
            if ( m_isDisposed )
            { 
                throw IDT.ThrowHelperError( new ObjectDisposedException( SR.GetString( SR.ClientCryptoSessionDisposed ) ) );
            }
        }
 
        public void Dispose()
        { 
            if ( m_isDisposed ) 
            {
                return; 
            }

            m_internalHandle.Release();
            m_internalHandle = null; 
            m_isDisposed = true;
        } 
 
        //
        // Summary: 
        //  Given a pointer to a native cryptosession this method creates the appropriate CryptoHandle type.
        //
        static internal CryptoHandle Create( InternalRefCountedHandle nativeHandle )
        { 
            CryptoHandle handle = null;
 
            bool mustRelease = false; 
            RuntimeHelpers.PrepareConstrainedRegions();
            try 
            {
                nativeHandle.DangerousAddRef( ref mustRelease );
                RpcInfoCardCryptoHandle hCrypto =
                    (RpcInfoCardCryptoHandle)Marshal.PtrToStructure( nativeHandle.DangerousGetHandle(), 
                                                                     typeof( RpcInfoCardCryptoHandle ) );
                DateTime expiration = DateTime.FromFileTimeUtc( hCrypto.expiration ); 
 
                switch ( hCrypto.type )
                { 
                    case RpcInfoCardCryptoHandle.HandleType.Asymmetric:
                        handle = new AsymmetricCryptoHandle( nativeHandle, expiration, hCrypto.cryptoParameters );
                        break;
                    case RpcInfoCardCryptoHandle.HandleType.Symmetric: 
                        handle = new SymmetricCryptoHandle( nativeHandle, expiration, hCrypto.cryptoParameters );
                        break; 
                    case RpcInfoCardCryptoHandle.HandleType.Transform: 
                        handle = new TransformCryptoHandle( nativeHandle, expiration, hCrypto.cryptoParameters );
                        break; 
                    case RpcInfoCardCryptoHandle.HandleType.Hash:
                        handle = new HashCryptoHandle( nativeHandle, expiration, hCrypto.cryptoParameters );
                        break;
                    default: 
                        IDT.DebugAssert( false, "Invalid crypto operation type" );
                        throw IDT.ThrowHelperError( new InvalidOperationException( SR.GetString( SR.GeneralExceptionMessage ) ) ); 
                } 

                return handle; 

            }
            finally
            { 
                if( mustRelease )
                { 
                    nativeHandle.DangerousRelease(); 
                }
            } 
        }


    } 

    // 
    // Summary: 
    //  This class manages the lifetime of a native crypto handle through ref counts.  Any number of CryptoHandles
    //  may refer to a single InternalRefCountedHandle, but once they are all disposed this object will dispose 
    //  itself as well.
    //
    internal class InternalRefCountedHandle : SafeHandle
    { 
        int    m_refcount       = 0;
        DateTime m_expiration; 
        object m_parameters     = null; 

        [DllImport( "infocardapi.dll", 
                    EntryPoint      ="CloseCryptoHandle",
                    CharSet         = CharSet.Unicode,
                    CallingConvention = CallingConvention.StdCall,
                    ExactSpelling   = true, 
                    SetLastError    = true ) ]
        [SuppressUnmanagedCodeSecurity] 
        [ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)] 
        private static extern bool CloseCryptoHandle( [In] IntPtr hKey );
 
        private InternalRefCountedHandle() : base( IntPtr.Zero, true )
        {
            m_refcount = 1;
 
        }
 
        public void Initialize( DateTime expiration, object parameters ) 
        {
            m_expiration = expiration; 
            m_parameters = parameters;
        }

 
        //
        // Summary: 
        //  The deserialized parameters specific to a particular type of CryptoHandle. 
        //
        public object Parameters 
        {
            get
            {
                ThrowIfInvalid(); 
                return m_parameters;
            } 
        } 

        // 
        // Summary:
        //  The expiration of this CryptoHandle
        //
        public DateTime Expiration 
        {
            get 
            { 
                ThrowIfInvalid();
                return m_expiration; 
            }
        }

        public void AddRef() 
        {
            ThrowIfInvalid(); 
            Interlocked.Increment( ref m_refcount ); 
        }
 
        public void Release()
        {
            ThrowIfInvalid();
            int refcount = Interlocked.Decrement( ref m_refcount ); 
            if ( 0 == refcount )
            { 
                Dispose(); 
            }
        } 

        private void ThrowIfInvalid()
        {
            if ( IsInvalid ) 
            {
                throw IDT.ThrowHelperError( new ObjectDisposedException( "InternalRefCountedHandle" ) ); 
            } 
        }
        public override bool IsInvalid 
        {
            get
            {
                return ( IntPtr.Zero == base.handle ); 
            }
        } 
 

        protected override bool ReleaseHandle() 
        {
            #pragma warning suppress 56523
            return CloseCryptoHandle( base.handle );
        } 

    } 
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
                        

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