Share via


CA1060: Move P/Invokes to NativeMethods class

TypeName

MovePInvokesToNativeMethodsClass

CheckId

CA1060

Category

Microsoft.Design

Breaking Change

Breaking

Cause

A method uses Platform Invocation Services to access unmanaged code and is not a member of one of the NativeMethods classes.

Rule Description

Platform Invocation methods, such as those that are marked by using the DllImportAttribute attribute, or methods that are defined by using the Declare keyword in Visual Basic, access unmanaged code. These methods should be in one of the following classes:

  • NativeMethods - This class does not suppress stack walks for unmanaged code permission. (SuppressUnmanagedCodeSecurityAttribute must not be applied to this class.) This class is for methods that can be used anywhere because a stack walk will be performed.

  • SafeNativeMethods - This class suppresses stack walks for unmanaged code permission. (SuppressUnmanagedCodeSecurityAttribute is applied to this class.) This class is for methods that are safe for anyone to call. Callers of these methods are not required to perform a full security review to make sure that the usage is secure because the methods are harmless for any caller.

  • UnsafeNativeMethods - This class suppresses stack walks for unmanaged code permission. (SuppressUnmanagedCodeSecurityAttribute is applied to this class.) This class is for methods that are potentially dangerous. Any caller of these methods must perform a full security review to make sure that the usage is secure because no stack walk will be performed.

These classes are declared as internal (Friend, in Visual Basic) and declare a private constructor to prevent new instances from being created. The methods in these classes should be static and internal (Shared and Friend in Visual Basic).

How to Fix Violations

To fix a violation of this rule, move the method to the appropriate NativeMethods class. For most applications, moving P/Invokes to a new class that is named NativeMethods is enough.

However, if you are developing libraries for use in other applications, you should consider defining two other classes that are called SafeNativeMethods and UnsafeNativeMethods. These classes resemble the NativeMethods class; however, they are marked by using a special attribute called SuppressUnmanagedCodeSecurityAttribute. When this attribute is applied, the runtime does not perform a full stack walk to make sure that all callers have the UnmanagedCode permission. The runtime ordinarily checks for this permission at startup. Because the check is not performed, it can greatly improve performance for calls to these unmanaged methods, It also enables code that has limited permissions to call these methods.

However, you should use this attribute with great care. It can have serious security implications if it is implemented incorrectly..

For information about how to implement the methods, see the NativeMethods Example, SafeNativeMethods Example, and UnsafeNativeMethods Example.

When to Suppress Warnings

Do not suppress a warning from this rule.

Example

The following example declares a method that violates this rule. To correct the violation, the RemoveDirectory P/Invoke should be moved to an appropriate class that is designed to hold only P/Invokes.

Imports System

NameSpace MSInternalLibrary

' Violates rule: MovePInvokesToNativeMethodsClass. 
Friend Class UnmanagedApi
    Friend Declare Function RemoveDirectory Lib "kernel32" ( _
       ByVal Name As String) As Boolean 
End Class 

End NameSpace 
using System;
using System.Runtime.InteropServices;

namespace DesignLibrary
{
// Violates rule: MovePInvokesToNativeMethodsClass. 
    internal class UnmanagedApi
    {
        [DllImport("kernel32.dll", CharSet = CharSet.Unicode)]
        internal static extern bool RemoveDirectory(string name);
    }
}

NativeMethods Example

Description

Because the NativeMethods class should not be marked by using SuppressUnmanagedCodeSecurityAttribute, P/Invokes that are put in it will require UnmanagedCode permission. Because most applications run from the local computer and run together with full trust, this is usually not a problem. However, if you are developing reusable libraries, you should consider defining a SafeNativeMethods or UnsafeNativeMethods class.

The following example shows an Interaction.Beep method that wraps the MessageBeep function from user32.dll. The MessageBeep P/Invoke is put in the NativeMethods class.

Code

Imports System    
Imports System.Runtime.InteropServices    
Imports System.ComponentModel         

Public NotInheritable Class Interaction  

    Private Sub New()        
    End Sub                 

    ' Callers require Unmanaged permission         
    Public Shared Sub Beep()                        
        ' No need to demand a permission as callers of Interaction.Beep                      
        ' will require UnmanagedCode permission                      
        If Not NativeMethods.MessageBeep(-1) Then                 
            Throw New Win32Exception()            
        End If 

    End Sub   

End Class          

Friend NotInheritable Class NativeMethods  

    Private Sub New()        
    End Sub             

    <DllImport("user32.dll", CharSet:=CharSet.Auto)> _        
    Friend Shared Function MessageBeep(ByVal uType As Integer) As <MarshalAs(UnmanagedType.Bool)> Boolean         
    End Function   

End Class
using System;    
using System.Runtime.InteropServices;    
using System.ComponentModel;              

public static class Interaction    
{        
    // Callers require Unmanaged permission         
    public static void Beep()           
    {            
        // No need to demand a permission as callers of Interaction.Beep             
        // will require UnmanagedCode permission             
        if (!NativeMethods.MessageBeep(-1))                
            throw new Win32Exception();        
    }    
}            

internal static class NativeMethods    
{        
    [DllImport("user32.dll", CharSet = CharSet.Auto)]        
    [return: MarshalAs(UnmanagedType.Bool)]        
    internal static extern bool MessageBeep(int uType);    
}

SafeNativeMethods Example

Description

P/Invoke methods that can be safely exposed to any application and that do not have any side effects should be put in a class that is named SafeNativeMethods. You do not have to demand permissions and you do not have to pay much attention to where they are called from.

The following example shows an Environment.TickCount property that wraps the GetTickCount function from kernel32.dll.

Code

Imports System   
Imports System.Runtime.InteropServices   
Imports System.Security       

Public NotInheritable Class Environment       

    Private Sub New()       
    End Sub            

    ' Callers do not require Unmanaged permission        
    Public Shared ReadOnly Property TickCount() As Integer            
        Get                
            ' No need to demand a permission in place of                
            ' UnmanagedCode as GetTickCount is considered                
            ' a safe method                
            Return SafeNativeMethods.GetTickCount()               
        End Get        
    End Property        

End Class       

<SuppressUnmanagedCodeSecurityAttribute()> _   
Friend NotInheritable Class SafeNativeMethods             

    Private Sub New()       
    End Sub           

    <DllImport("kernel32.dll", CharSet:=CharSet.Auto, ExactSpelling:=True)> _       
    Friend Shared Function GetTickCount() As Integer        
    End Function        

End Class
using System;   
using System.Runtime.InteropServices;   
using System.Security;  

public static class Environment   
{       
    // Callers do not require UnmanagedCode permission        
    public static int TickCount        
    {           
        get           
        {              
            // No need to demand a permission in place of                
            // UnmanagedCode as GetTickCount is considered               
            // a safe method               
            return SafeNativeMethods.GetTickCount();           
        }       
    }   
}            

[SuppressUnmanagedCodeSecurityAttribute]   
internal static class SafeNativeMethods   
{       
    [DllImport("kernel32.dll", CharSet=CharSet.Auto, ExactSpelling=true)]       
    internal static extern int GetTickCount();   
}

UnsafeNativeMethods Example

Description

P/Invoke methods that cannot be safely called and that could cause side effects should be put in a class that is named UnsafeNativeMethods. These methods should be rigorously checked to make sure that they are not exposed to the user unintentionally. The rule CA2118: Review SuppressUnmanagedCodeSecurityAttribute usage can help with this. Alternatively, the methods should have another permission that is demanded instead of UnmanagedCode when they use them.

The following example shows a Cursor.Hide method that wraps the ShowCursor function from user32.dll.

Code

Imports System   
Imports System.Runtime.InteropServices   
Imports System.Security   
Imports System.Security.Permissions       

Public NotInheritable Class Cursor           

    Private Sub New()       
    End Sub            

    ' Callers do not require Unmanaged permission, however,          
    ' they do require UIPermission.AllWindows        
    Public Shared Sub Hide()                 
        ' Need to demand an appropriate permission                    
        ' in  place of UnmanagedCode permission as                     
        ' ShowCursor is not considered a safe method                    
        Dim permission As New UIPermission(UIPermissionWindow.AllWindows)           
        permission.Demand()           
        UnsafeNativeMethods.ShowCursor(False)                

    End Sub        

End Class       

<SuppressUnmanagedCodeSecurityAttribute()> _   
Friend NotInheritable Class UnsafeNativeMethods           

    Private Sub New()       
    End Sub           

    <DllImport("user32.dll", CharSet:=CharSet.Auto, ExactSpelling:=True)> _       
    Friend Shared Function ShowCursor(<MarshalAs(UnmanagedType.Bool)> ByVal bShow As Boolean) As Integer        
    End Function        

End Class
using System;   
using System.Runtime.InteropServices;   
using System.Security;   
using System.Security.Permissions;           

public static class Cursor   
{       
    // Callers do not require UnmanagedCode permission, however,        
    // they do require UIPermissionWindow.AllWindows        
    public static void Hide()          
    {           
        // Need to demand an appropriate permission            
        // in  place of UnmanagedCode permission as             
        // ShowCursor is not considered a safe method            
        new UIPermission(UIPermissionWindow.AllWindows).Demand();           
        UnsafeNativeMethods.ShowCursor(false);       
    }   
}            

[SuppressUnmanagedCodeSecurityAttribute]   
internal static class UnsafeNativeMethods   
{       
    [DllImport("user32.dll", CharSet = CharSet.Auto, ExactSpelling = true)]       
    internal static extern int ShowCursor([MarshalAs(UnmanagedType.Bool)]bool bShow);   
}

See Also

Other Resources

Design Warnings