FirstMatchCodeGroup Classe
Définition
Important
Certaines informations portent sur la préversion du produit qui est susceptible d’être en grande partie modifiée avant sa publication. Microsoft exclut toute garantie, expresse ou implicite, concernant les informations fournies ici.
Attention
This type is obsolete. See http://go.microsoft.com/fwlink/?LinkID=155570 for more information.
Attention
This type is obsolete. See https://go.microsoft.com/fwlink/?LinkID=155570 for more information.
Attention
Code Access Security is not supported or honored by the runtime.
Attention
This type is obsolete and will be removed in a future release of the .NET Framework. See http://go.microsoft.com/fwlink/?LinkID=155570 for more information.
Permet à une stratégie de sécurité d'être définie par l'union de l'instruction de stratégie d'un groupe de codes et celle du premier groupe de codes enfant qui correspond. Cette classe ne peut pas être héritée.
public ref class FirstMatchCodeGroup sealed : System::Security::Policy::CodeGroup[System.Obsolete("This type is obsolete. See http://go.microsoft.com/fwlink/?LinkID=155570 for more information.")]
public sealed class FirstMatchCodeGroup : System.Security.Policy.CodeGroup[System.Obsolete("This type is obsolete. See https://go.microsoft.com/fwlink/?LinkID=155570 for more information.")]
public sealed class FirstMatchCodeGroup : System.Security.Policy.CodeGroup[System.Obsolete("Code Access Security is not supported or honored by the runtime.")]
public sealed class FirstMatchCodeGroup : System.Security.Policy.CodeGroup[System.Serializable]
public sealed class FirstMatchCodeGroup : System.Security.Policy.CodeGroup[System.Serializable]
[System.Runtime.InteropServices.ComVisible(true)]
public sealed class FirstMatchCodeGroup : System.Security.Policy.CodeGroup[System.Serializable]
[System.Runtime.InteropServices.ComVisible(true)]
[System.Obsolete("This type is obsolete and will be removed in a future release of the .NET Framework. See http://go.microsoft.com/fwlink/?LinkID=155570 for more information.")]
public sealed class FirstMatchCodeGroup : System.Security.Policy.CodeGroup[<System.Obsolete("This type is obsolete. See http://go.microsoft.com/fwlink/?LinkID=155570 for more information.")>]
type FirstMatchCodeGroup = class
inherit CodeGroup[<System.Obsolete("This type is obsolete. See https://go.microsoft.com/fwlink/?LinkID=155570 for more information.")>]
type FirstMatchCodeGroup = class
inherit CodeGroup[<System.Obsolete("Code Access Security is not supported or honored by the runtime.")>]
type FirstMatchCodeGroup = class
inherit CodeGroup[<System.Serializable>]
type FirstMatchCodeGroup = class
inherit CodeGroup[<System.Serializable>]
[<System.Runtime.InteropServices.ComVisible(true)>]
type FirstMatchCodeGroup = class
inherit CodeGroup[<System.Serializable>]
[<System.Runtime.InteropServices.ComVisible(true)>]
[<System.Obsolete("This type is obsolete and will be removed in a future release of the .NET Framework. See http://go.microsoft.com/fwlink/?LinkID=155570 for more information.")>]
type FirstMatchCodeGroup = class
inherit CodeGroupPublic NotInheritable Class FirstMatchCodeGroup
Inherits CodeGroup- Héritage
- Attributs
Exemples
L’exemple suivant montre l’utilisation des membres de la FirstMatchCodeGroup classe .
using namespace System;
using namespace System::Security;
using namespace System::Security::Policy;
using namespace System::Security::Permissions;
using namespace System::Reflection;
ref class Members
{
public:
[STAThread]
static void Main()
{
// Create a new FirstMatchCodeGroup.
FirstMatchCodeGroup^ codeGroup = constructDefaultGroup();
// Create a deep copy of the FirstMatchCodeGroup.
FirstMatchCodeGroup^ copyCodeGroup =
dynamic_cast<FirstMatchCodeGroup^>(codeGroup->Copy());
// Compare the original code group with the copy.
CompareTwoCodeGroups( codeGroup, copyCodeGroup );
addPolicy( &codeGroup );
addXmlMember( &codeGroup );
updateMembershipCondition( &codeGroup );
addChildCodeGroup( &codeGroup );
Console::Write( L"Comparing the resolved code group " );
Console::WriteLine( L"with the initial code group." );
FirstMatchCodeGroup^ resolvedCodeGroup =
ResolveGroupToEvidence( codeGroup );
if ( CompareTwoCodeGroups( codeGroup, resolvedCodeGroup ) )
{
PrintCodeGroup( resolvedCodeGroup );
}
else
{
PrintCodeGroup( codeGroup );
}
Console::WriteLine( L"This sample completed successfully; "
L"press Enter to exit." );
Console::ReadLine();
}
private:
// Create a FirstMatchCodeGroup with an exclusive policy and membership
// condition.
static FirstMatchCodeGroup^ constructDefaultGroup()
{
// Construct a new FirstMatchCodeGroup with Read, Write, Append
// and PathDiscovery access.
// Create read access permission to the root directory on drive C.
FileIOPermission^ rootFilePermissions =
gcnew FileIOPermission( PermissionState::None );
rootFilePermissions->AllLocalFiles = FileIOPermissionAccess::Read;
rootFilePermissions->SetPathList( FileIOPermissionAccess::Read, L"C:\\" );
// Add a permission to a named permission set.
NamedPermissionSet^ namedPermissions =
gcnew NamedPermissionSet( L"RootPermissions" );
namedPermissions->AddPermission( rootFilePermissions );
// Create a PolicyStatement with exclusive rights to the policy.
PolicyStatement^ policy = gcnew PolicyStatement(
namedPermissions,PolicyStatementAttribute::Exclusive );
// Create a FirstMatchCodeGroup with a membership condition that
// matches all code, and an exclusive policy.
FirstMatchCodeGroup^ codeGroup = gcnew FirstMatchCodeGroup(
gcnew AllMembershipCondition,policy );
// Set the name of the first match code group.
codeGroup->Name = L"TempCodeGroup";
// Set the description of the first match code group.
codeGroup->Description = L"Temp folder permissions group";
return codeGroup;
}
// Add file permission to restrict write access to all files
// on the local machine.
static void addPolicy( interior_ptr<FirstMatchCodeGroup^> codeGroup )
{
// Set the PolicyStatement property to a policy with read access to
// the root directory on drive C.
FileIOPermission^ rootFilePermissions =
gcnew FileIOPermission( PermissionState::None );
rootFilePermissions->AllLocalFiles = FileIOPermissionAccess::Read;
rootFilePermissions->SetPathList( FileIOPermissionAccess::Read, L"C:\\" );
NamedPermissionSet^ namedPermissions =
gcnew NamedPermissionSet( L"RootPermissions" );
namedPermissions->AddPermission( rootFilePermissions );
// Create a PolicyStatement with exclusive rights to the policy.
PolicyStatement^ policy = gcnew PolicyStatement(
namedPermissions,PolicyStatementAttribute::Exclusive );
( *codeGroup )->PolicyStatement = policy;
}
// Set the membership condition of the code group.
static void updateMembershipCondition(
interior_ptr<FirstMatchCodeGroup^> codeGroup )
{
// Set the membership condition of the specified FirstMatchCodeGroup
// to the Intranet zone.
ZoneMembershipCondition^ zoneCondition =
gcnew ZoneMembershipCondition( SecurityZone::Intranet );
( *codeGroup )->MembershipCondition = zoneCondition;
}
// Create a child code group with read-access file permissions and add it
// to the specified code group.
static void addChildCodeGroup( interior_ptr<FirstMatchCodeGroup^> codeGroup )
{
// Create a first match code group with read access.
FileIOPermission^ rootFilePermissions = gcnew FileIOPermission(
PermissionState::None );
rootFilePermissions->AllLocalFiles = FileIOPermissionAccess::Read;
rootFilePermissions->SetPathList( FileIOPermissionAccess::Read, L"C:\\" );
PermissionSet^ permissions = gcnew PermissionSet(
PermissionState::Unrestricted );
permissions->AddPermission( rootFilePermissions );
FirstMatchCodeGroup^ tempFolderCodeGroup =
gcnew FirstMatchCodeGroup( gcnew AllMembershipCondition,
gcnew PolicyStatement( permissions ) );
// Set the name of the child code group and add it to
// the specified code group.
tempFolderCodeGroup->Name = L"Read-only code group";
( *codeGroup )->AddChild( tempFolderCodeGroup );
}
// Compare the two FirstMatchCodeGroups.
static bool CompareTwoCodeGroups( FirstMatchCodeGroup^ firstCodeGroup,
FirstMatchCodeGroup^ secondCodeGroup )
{
// Compare the two specified FirstMatchCodeGroups for equality.
if ( firstCodeGroup->Equals( secondCodeGroup ) )
{
Console::WriteLine( L"The two code groups are equal." );
return true;
}
else
{
Console::WriteLine( L"The two code groups are not equal." );
return false;
}
}
// Retrieve the resolved policy based on executing evidence found
// in the specified code group.
static String^ ResolveEvidence( CodeGroup^ codeGroup )
{
String^ policyString = L"None";
// Resolve the policy based on the executing assembly's evidence.
Assembly^ assembly = Members::typeid->Assembly;
Evidence^ executingEvidence = assembly->Evidence;
PolicyStatement^ policy = codeGroup->Resolve( executingEvidence );
if ( policy != nullptr )
{
policyString = policy->ToString();
}
return policyString;
}
// Retrieve the resolved code group based on the evidence from the
// specified code group.
static FirstMatchCodeGroup^ ResolveGroupToEvidence(
FirstMatchCodeGroup^ codeGroup )
{
// Resolve matching code groups to the executing assembly.
Assembly^ assembly = Members::typeid->Assembly;
Evidence^ evidence = assembly->Evidence;
CodeGroup^ resolvedCodeGroup =
codeGroup->ResolveMatchingCodeGroups( evidence );
return dynamic_cast<FirstMatchCodeGroup^>(resolvedCodeGroup);
}
// If a domain attribute is not found in the specified
// FirstMatchCodeGroup, add a child XML element identifying a custom
// membership condition.
static void addXmlMember( interior_ptr<FirstMatchCodeGroup^> codeGroup )
{
SecurityElement^ xmlElement = ( *codeGroup )->ToXml();
SecurityElement^ rootElement = gcnew SecurityElement( L"CodeGroup" );
if ( xmlElement->Attribute(L"domain") == nullptr )
{
SecurityElement^ newElement = gcnew SecurityElement(
L"CustomMembershipCondition" );
newElement->AddAttribute( L"class", L"CustomMembershipCondition" );
newElement->AddAttribute( L"version", L"1" );
newElement->AddAttribute( L"domain", L"contoso.com" );
rootElement->AddChild( newElement );
( *codeGroup )->FromXml( rootElement );
}
Console::WriteLine( L"Added a custom membership condition:" );
Console::WriteLine( rootElement );
}
// Print the properties of the specified code group to the console.
static void PrintCodeGroup( CodeGroup^ codeGroup )
{
// Compare the type of the specified object with the
// FirstMatchCodeGroup type.
if ( !codeGroup->GetType()->Equals( FirstMatchCodeGroup::typeid ) )
{
throw gcnew ArgumentException( L"Expected the FirstMatchCodeGroup type." );
}
String^ codeGroupName = codeGroup->Name;
String^ membershipCondition = codeGroup->MembershipCondition->ToString();
String^ permissionSetName = codeGroup->PermissionSetName;
int hashCode = codeGroup->GetHashCode();
String^ mergeLogic = L"";
if ( codeGroup->MergeLogic->Equals( L"First Match" ) )
{
mergeLogic = L"with first-match merge logic";
}
// Retrieve the class path for the FirstMatchCodeGroup.
String^ firstMatchGroupClass = codeGroup->ToString();
String^ attributeString = L"";
// Retrieve the string representation of the FirstMatchCodeGroup's
// attributes.
if ( codeGroup->AttributeString != nullptr )
{
attributeString = codeGroup->AttributeString;
}
// Write a summary to the console window.
Console::WriteLine( L"\n*** {0} summary ***", firstMatchGroupClass );
Console::Write( L"A FirstMatchCodeGroup named " );
Console::Write( L"{0}{1}", codeGroupName, mergeLogic );
Console::Write( L" has been created with hash code({0}).", hashCode );
Console::Write( L"\nThis code group contains a {0}", membershipCondition );
Console::Write( L" membership condition with the " );
Console::WriteLine( L"{0} permission set.", permissionSetName );
Console::Write( L"The code group contains the following policy: " );
Console::Write( ResolveEvidence( codeGroup ) );
Console::Write( L"\nIt also contains the following attributes: " );
Console::WriteLine( attributeString );
int childCount = codeGroup->Children->Count;
if ( childCount > 0 )
{
Console::Write( L"There are {0}", childCount );
Console::WriteLine( L" child elements in the code group." );
// Iterate through the child code groups to display their names
// and then remove them from the specified code group.
for ( int i = 0; i < childCount; i++ )
{
// Retrieve a child code group, which has been cast as a
// FirstMatchCodeGroup type.
FirstMatchCodeGroup^ childCodeGroup =
dynamic_cast<FirstMatchCodeGroup^>(codeGroup->Children->default[ i ]);
Console::Write( L"Removing the {0}.", childCodeGroup->Name );
// Remove the child code group.
codeGroup->RemoveChild( childCodeGroup );
}
Console::WriteLine();
}
else
{
Console::WriteLine( L" No child code groups were found in this"
L" code group." );
}
}
};
int main()
{
Members::Main();
}
//
// This sample produces the following output:
//
// The two code groups are equal.
// Added a custom membership condition:
// <CustomMembershipCondition class="CustomMembershipCondition"
// version="1"
// domain="contoso.com"/>
//
// Comparing the resolved code group with the initial code group.
// The two code groups are not equal.
//
// *** System.Security.Policy.FirstMatchCodeGroup summary ***
// A FirstMatchCodeGroup named with first-match merge logic has been created
// with hash code(113151525).
// This code group contains a Zone - Intranet membership condition with the
// permission set. The code group contains the following policy:
// It also contains the following attributes:
// There are 1 child elements in the code group.
// Removing the Read-only code group.
// This sample completed successfully; press Enter to exit.
using System;
using System.Security;
using System.Security.Policy;
using System.Security.Permissions;
using System.Reflection;
class Members
{
[STAThread]
static void Main(string[] args)
{
// Create a new FirstMatchCodeGroup.
FirstMatchCodeGroup codeGroup = constructDefaultGroup();
// Create a deep copy of the FirstMatchCodeGroup.
FirstMatchCodeGroup copyCodeGroup =
(FirstMatchCodeGroup)codeGroup.Copy();
// Compare the original code group with the copy.
CompareTwoCodeGroups(codeGroup, copyCodeGroup);
addPolicy(ref codeGroup);
addXmlMember(ref codeGroup);
updateMembershipCondition(ref codeGroup);
addChildCodeGroup(ref codeGroup);
Console.Write("Comparing the resolved code group ");
Console.WriteLine("with the initial code group.");
FirstMatchCodeGroup resolvedCodeGroup =
ResolveGroupToEvidence(codeGroup);
if (CompareTwoCodeGroups(codeGroup, resolvedCodeGroup))
{
PrintCodeGroup(resolvedCodeGroup);
}
else
{
PrintCodeGroup(codeGroup);
}
Console.WriteLine("This sample completed successfully; " +
"press Enter to exit.");
Console.ReadLine();
}
// Create a FirstMatchCodeGroup with an exclusive policy and membership
// condition.
private static FirstMatchCodeGroup constructDefaultGroup()
{
// Construct a new FirstMatchCodeGroup with Read, Write, Append
// and PathDiscovery access.
// Create read access permission to the root directory on drive C.
FileIOPermission rootFilePermissions =
new FileIOPermission(PermissionState.None);
rootFilePermissions.AllLocalFiles = FileIOPermissionAccess.Read;
rootFilePermissions.SetPathList(FileIOPermissionAccess.Read,"C:\\");
// Add a permission to a named permission set.
NamedPermissionSet namedPermissions =
new NamedPermissionSet("RootPermissions");
namedPermissions.AddPermission(rootFilePermissions);
// Create a PolicyStatement with exclusive rights to the policy.
PolicyStatement policy = new PolicyStatement(
namedPermissions,PolicyStatementAttribute.Exclusive);
// Create a FirstMatchCodeGroup with a membership condition that
// matches all code, and an exclusive policy.
FirstMatchCodeGroup codeGroup =
new FirstMatchCodeGroup(
new AllMembershipCondition(),
policy);
// Set the name of the first match code group.
codeGroup.Name = "TempCodeGroup";
// Set the description of the first match code group.
codeGroup.Description = "Temp folder permissions group";
return codeGroup;
}
// Add file permission to restrict write access to all files
// on the local machine.
private static void addPolicy(ref FirstMatchCodeGroup codeGroup)
{
// Set the PolicyStatement property to a policy with read access to
// the root directory on drive C.
FileIOPermission rootFilePermissions =
new FileIOPermission(PermissionState.None);
rootFilePermissions.AllLocalFiles = FileIOPermissionAccess.Read;
rootFilePermissions.SetPathList(FileIOPermissionAccess.Read,"C:\\");
NamedPermissionSet namedPermissions =
new NamedPermissionSet("RootPermissions");
namedPermissions.AddPermission(rootFilePermissions);
// Create a PolicyStatement with exclusive rights to the policy.
PolicyStatement policy = new PolicyStatement(
namedPermissions,
PolicyStatementAttribute.Exclusive);
codeGroup.PolicyStatement = policy;
}
// Set the membership condition of the code group.
private static void updateMembershipCondition(
ref FirstMatchCodeGroup codeGroup)
{
// Set the membership condition of the specified FirstMatchCodeGroup
// to the Intranet zone.
ZoneMembershipCondition zoneCondition =
new ZoneMembershipCondition(SecurityZone.Intranet);
codeGroup.MembershipCondition = zoneCondition;
}
// Create a child code group with read-access file permissions and add it
// to the specified code group.
private static void addChildCodeGroup(ref FirstMatchCodeGroup codeGroup)
{
// Create a first match code group with read access.
FileIOPermission rootFilePermissions =
new FileIOPermission(PermissionState.None);
rootFilePermissions.AllLocalFiles = FileIOPermissionAccess.Read;
rootFilePermissions.SetPathList(FileIOPermissionAccess.Read,"C:\\");
PermissionSet permissions =
new PermissionSet(PermissionState.Unrestricted);
permissions.AddPermission(rootFilePermissions);
FirstMatchCodeGroup tempFolderCodeGroup = new FirstMatchCodeGroup(
new AllMembershipCondition(),
new PolicyStatement(permissions));
// Set the name of the child code group and add it to
// the specified code group.
tempFolderCodeGroup.Name = "Read-only code group";
codeGroup.AddChild(tempFolderCodeGroup);
}
// Compare the two FirstMatchCodeGroups.
private static bool CompareTwoCodeGroups(
FirstMatchCodeGroup firstCodeGroup,
FirstMatchCodeGroup secondCodeGroup)
{
// Compare the two specified FirstMatchCodeGroups for equality.
if (firstCodeGroup.Equals(secondCodeGroup))
{
Console.WriteLine("The two code groups are equal.");
return true;
}
else
{
Console.WriteLine("The two code groups are not equal.");
return false;
}
}
// Retrieve the resolved policy based on executing evidence found
// in the specified code group.
private static string ResolveEvidence(CodeGroup codeGroup)
{
string policyString = "None";
// Resolve the policy based on the executing assembly's evidence.
Assembly assembly = typeof(Members).Assembly;
Evidence executingEvidence = assembly.Evidence;
PolicyStatement policy = codeGroup.Resolve(executingEvidence);
if (policy != null)
{
policyString = policy.ToString();
}
return policyString;
}
// Retrieve the resolved code group based on the evidence from the
// specified code group.
private static FirstMatchCodeGroup ResolveGroupToEvidence(
FirstMatchCodeGroup codeGroup)
{
// Resolve matching code groups to the executing assembly.
Assembly assembly = typeof(Members).Assembly;
Evidence evidence = assembly.Evidence;
CodeGroup resolvedCodeGroup =
codeGroup.ResolveMatchingCodeGroups(evidence);
return (FirstMatchCodeGroup)resolvedCodeGroup;
}
// If a domain attribute is not found in the specified
// FirstMatchCodeGroup, add a child XML element identifying a custom
// membership condition.
private static void addXmlMember(ref FirstMatchCodeGroup codeGroup)
{
SecurityElement xmlElement = codeGroup.ToXml();
SecurityElement rootElement = new SecurityElement("CodeGroup");
if (xmlElement.Attribute("domain") == null)
{
SecurityElement newElement =
new SecurityElement("CustomMembershipCondition");
newElement.AddAttribute("class","CustomMembershipCondition");
newElement.AddAttribute("version","1");
newElement.AddAttribute("domain","contoso.com");
rootElement.AddChild(newElement);
codeGroup.FromXml(rootElement);
}
Console.WriteLine("Added a custom membership condition:");
Console.WriteLine(rootElement.ToString());
}
// Print the properties of the specified code group to the console.
private static void PrintCodeGroup(CodeGroup codeGroup)
{
// Compare the type of the specified object with the
// FirstMatchCodeGroup type.
if (!codeGroup.GetType().Equals(typeof(FirstMatchCodeGroup)))
{
throw new ArgumentException(
"Expected the FirstMatchCodeGroup type.");
}
string codeGroupName = codeGroup.Name;
string membershipCondition = codeGroup.MembershipCondition.ToString();
string permissionSetName = codeGroup.PermissionSetName;
int hashCode = codeGroup.GetHashCode();
string mergeLogic = "";
if (codeGroup.MergeLogic.Equals("First Match"))
{
mergeLogic = "with first-match merge logic";
}
// Retrieve the class path for the FirstMatchCodeGroup.
string firstMatchGroupClass = codeGroup.ToString();
string attributeString = "";
// Retrieve the string representation of the FirstMatchCodeGroup's
// attributes.
if (codeGroup.AttributeString != null)
{
attributeString = codeGroup.AttributeString;
}
// Write a summary to the console window.
Console.WriteLine("\n*** " + firstMatchGroupClass + " summary ***");
Console.Write("A FirstMatchCodeGroup named ");
Console.Write(codeGroupName + mergeLogic);
Console.Write(" has been created with hash code(" + hashCode + ").");
Console.Write("\nThis code group contains a " + membershipCondition);
Console.Write(" membership condition with the ");
Console.WriteLine(permissionSetName + " permission set.");
Console.Write("The code group contains the following policy: ");
Console.Write(ResolveEvidence(codeGroup));
Console.Write("\nIt also contains the following attributes: ");
Console.WriteLine(attributeString);
int childCount = codeGroup.Children.Count;
if (childCount > 0 )
{
Console.Write("There are " + childCount);
Console.WriteLine(" child elements in the code group.");
// Iterate through the child code groups to display their names
// and then remove them from the specified code group.
for (int i=0; i < childCount; i++)
{
// Retrieve a child code group, which has been cast as a
// FirstMatchCodeGroup type.
FirstMatchCodeGroup childCodeGroup =
(FirstMatchCodeGroup)codeGroup.Children[i];
Console.Write("Removing the " + childCodeGroup.Name + ".");
// Remove the child code group.
codeGroup.RemoveChild(childCodeGroup);
}
Console.WriteLine();
}
else
{
Console.WriteLine(" No child code groups were found in this" +
" code group.");
}
}
}
//
// This sample produces the following output:
//
// The two code groups are equal.
// Added a custom membership condition:
// <CustomMembershipCondition class="CustomMembershipCondition"
// version="1"
// domain="contoso.com"/>
//
// Comparing the resolved code group with the initial code group.
// The two code groups are not equal.
//
// *** System.Security.Policy.FirstMatchCodeGroup summary ***
// A FirstMatchCodeGroup named with first-match merge logic has been created
// with hash code(113151525).
// This code group contains a Zone - Intranet membership condition with the
// permission set. The code group contains the following policy:
// It also contains the following attributes:
// There are 1 child elements in the code group.
// Removing the Read-only code group.
// This sample completed successfully; press Enter to exit.
Imports System.Security
Imports System.Security.Policy
Imports System.Security.Permissions
Imports System.Reflection
Imports System.Windows.Forms
Public Class Form1
Inherits System.Windows.Forms.Form
' Event handler for Run button.
Private Sub Button1_Click( _
ByVal sender As System.Object, _
ByVal e As System.EventArgs) Handles Button1.Click
tbxOutput.Cursor = Cursors.WaitCursor
tbxOutput.Text = ""
' Create a new FirstMatchCodeGroup.
Dim codeGroup As FirstMatchCodeGroup = constructDefaultGroup()
' Create a deep copy of the FirstMatchCodeGroup.
Dim copyCodeGroup As FirstMatchCodeGroup
copyCodeGroup = CType(codeGroup.Copy(), FirstMatchCodeGroup)
' Compare the original code group with the copy.
CompareTwoCodeGroups(codeGroup, copyCodeGroup)
addPolicy(codeGroup)
addXmlMember(codeGroup)
updateMembershipCondition(codeGroup)
addChildCodeGroup(codeGroup)
Write("Comparing the resolved code group ")
WriteLine("with the initial code group.")
Dim resolvedCodeGroup As FirstMatchCodeGroup
resolvedCodeGroup = ResolveGroupToEvidence(codeGroup)
If (CompareTwoCodeGroups(codeGroup, resolvedCodeGroup)) Then
PrintCodeGroup(resolvedCodeGroup)
Else
PrintCodeGroup(codeGroup)
End If
' Reset the cursor and conclude application.
tbxOutput.AppendText(vbCrLf + "This sample completed " + _
"successfully; press Exit to continue.")
tbxOutput.Cursor = Cursors.Default
End Sub
' Create a FirstMatchCodeGroup with an exclusive policy and membership
' condition.
Private Function constructDefaultGroup() As FirstMatchCodeGroup
' Construct a new FirstMatchCodeGroup with Read, Write, Append
' and PathDiscovery access.
' Create read access permission to the root directory on drive C.
Dim rootFilePermissions As New FileIOPermission(PermissionState.None)
rootFilePermissions.AllLocalFiles = FileIOPermissionAccess.Read
rootFilePermissions.SetPathList(FileIOPermissionAccess.Read, "C:\\")
' Add a permission to a named permission set.
Dim namedPermissions As New NamedPermissionSet("RootPermissions")
namedPermissions.AddPermission(rootFilePermissions)
' Create a PolicyStatement with exclusive rights to the policy.
Dim policy As New PolicyStatement( _
namedPermissions, _
PolicyStatementAttribute.Exclusive)
' Create a FirstMatchCodeGroup with a membership condition that
' matches all code, and an exclusive policy.
Dim codeGroup As New FirstMatchCodeGroup( _
New AllMembershipCondition, _
policy)
' Set the name of the first match code group.
codeGroup.Name = "TempCodeGroup"
' Set the description of the first match code group.
codeGroup.Description = "Temp folder permissions group"
Return codeGroup
End Function
' Add file permission to restrict write access to all files
' on the local machine.
Private Sub addPolicy(ByRef codeGroup As FirstMatchCodeGroup)
' Set the PolicyStatement property to a policy with read access to the
' root directory on drive C.
Dim rootFilePermissions As New FileIOPermission(PermissionState.None)
rootFilePermissions.AllLocalFiles = FileIOPermissionAccess.Read
rootFilePermissions.SetPathList(FileIOPermissionAccess.Read, "C:\\")
Dim namedPermissions As New NamedPermissionSet("RootPermissions")
namedPermissions.AddPermission(rootFilePermissions)
' Create a PolicyStatement with exclusive rights to the policy.
Dim policy As New PolicyStatement( _
namedPermissions, _
PolicyStatementAttribute.Exclusive)
codeGroup.PolicyStatement = policy
End Sub
' Set the membership condition of the code group.
Private Sub updateMembershipCondition( _
ByRef codeGroup As FirstMatchCodeGroup)
' Set the membership condition of the specified FirstMatchCodeGroup
' to the Intranet zone.
Dim zoneCondition As _
New ZoneMembershipCondition(SecurityZone.Intranet)
codeGroup.MembershipCondition = zoneCondition
End Sub
' Create a child code group with read-access file permissions and add it
' to the specified code group.
Private Sub addChildCodeGroup(ByRef codegroup As FirstMatchCodeGroup)
' Create a first match code group with read access.
Dim rootFilePermissions As New FileIOPermission(PermissionState.None)
rootFilePermissions.AllLocalFiles = FileIOPermissionAccess.Read
rootFilePermissions.SetPathList(FileIOPermissionAccess.Read, "C:\\")
Dim permissions As New PermissionSet(PermissionState.Unrestricted)
permissions.AddPermission(rootFilePermissions)
Dim tempFolderCodeGroup = New FirstMatchCodeGroup( _
New AllMembershipCondition, _
New PolicyStatement(permissions))
' Set the name of the child code group and add it to the specified
' code group.
tempFolderCodeGroup.Name = "Read-only code group"
codegroup.AddChild(tempFolderCodeGroup)
End Sub
' Compare the two FirstMatchCodeGroups.
Private Function CompareTwoCodeGroups( _
ByVal firstCodeGroup As FirstMatchCodeGroup, _
ByVal secondCodeGroup As FirstMatchCodeGroup) As Boolean
' Compare the two specified FirstMatchCodeGroups for equality.
If (firstCodeGroup.Equals(secondCodeGroup)) Then
WriteLine("The two code groups are equal.")
Return True
Else
WriteLine("The two code groups are not equal.")
Return False
End If
End Function
' Retrieve the resolved policy based on executing evidence found
' in the specified code group.
Private Function ResolveEvidence(ByVal codeGroup As CodeGroup) As String
Dim policyString As String = "None"
' Resolve the policy based on the executing assembly's evidence.
Dim executingAssembly As [Assembly] = Me.GetType().Assembly
Dim executingEvidence As Evidence
executingEvidence = executingAssembly.Evidence
Dim policy As PolicyStatement = codeGroup.Resolve(executingEvidence)
If (Not policy Is Nothing) Then
policyString = policy.ToString()
End If
Return policyString
End Function
' Retrieve the resolved code group based on the evidence from the
' specified code group.
Private Function ResolveGroupToEvidence( _
ByVal codegroup As FirstMatchCodeGroup) _
As FirstMatchCodeGroup
' Resolve matching code groups to the executing assembly.
Dim executingAssembly As [Assembly] = Me.GetType().Assembly
Dim evidence As Evidence = executingAssembly.Evidence
Dim resolvedCodeGroup As CodeGroup
resolvedCodeGroup = codegroup.ResolveMatchingCodeGroups(Evidence)
Return CType(resolvedCodeGroup, FirstMatchCodeGroup)
End Function
' If a domain attribute is not found in the specified FirstMatchCodeGroup,
' add a child XML element identifying a custom membership condition.
Private Sub addXmlMember(ByRef codeGroup As FirstMatchCodeGroup)
Dim xmlElement As SecurityElement = codeGroup.ToXml()
Dim rootElement As New SecurityElement("CodeGroup")
If (xmlElement.Attribute("domain") Is Nothing) Then
Dim newElement As New SecurityElement("CustomMembershipCondition")
newElement.AddAttribute("class", "CustomMembershipCondition")
newElement.AddAttribute("version", "1")
newElement.AddAttribute("domain", "contoso.com")
rootElement.AddChild(newElement)
codeGroup.FromXml(rootElement)
End If
WriteLine("Added a custom membership condition:")
WriteLine(rootElement.ToString())
End Sub
' Print the properties of the specified code group to the console.
Private Sub PrintCodeGroup(ByVal codeGroup As CodeGroup)
' Compare the type of the specified object with the
' FirstMatchCodeGroup type.
If (Not codeGroup.GetType() Is GetType(FirstMatchCodeGroup)) Then
Throw New ArgumentException( _
"Expected the FirstMatchCodeGroup type.")
End If
Dim codeGroupName As String = codeGroup.Name
Dim membershipCondition As String
membershipCondition = codeGroup.MembershipCondition.ToString()
Dim permissionSetName As String = codeGroup.PermissionSetName
Dim hashCode As Integer = codeGroup.GetHashCode()
Dim mergeLogic As String = ""
If (codeGroup.MergeLogic.Equals("First Match")) Then
mergeLogic = "with first-match merge logic"
End If
' Retrieve the class path for the FirstMatchCodeGroup.
Dim firstMatchGroupClass As String = codeGroup.ToString()
Dim attributeString As String = ""
' Retrieve the string representation of the FirstMatchCodeGroup's
' attributes.
If (Not codeGroup.AttributeString Is Nothing) Then
attributeString = codeGroup.AttributeString
End If
' Write a summary to the console window.
WriteLine(vbCrLf + "* " + firstMatchGroupClass + " summary *")
Write("A FirstMatchCodeGroup named ")
Write(codeGroupName + mergeLogic)
Write(" has been created with hash code ")
WriteLine(hashCode.ToString() + ". ")
Write("This code group contains a " + membershipCondition)
Write(" membership condition with the ")
Write(permissionSetName + " permission set. ")
Write("The code group contains the following policy: ")
Write(ResolveEvidence(codeGroup) + ". ")
Write("It also contains the following attributes: ")
WriteLine(attributeString)
Dim childCount As Integer = codeGroup.Children.Count
If (childCount > 0) Then
Write("There are " + childCount.ToString())
WriteLine(" child elements in the code group.")
' Iterate through the child code groups to display their names
' and then remove them from the specified code group.
For i As Int16 = 0 To childCount - 1 Step 1
' Retrieve each child explicitly casted as a
' FirstMatchCodeGroup type.
Dim childCodeGroup As FirstMatchCodeGroup
childCodeGroup = _
CType(codeGroup.Children(i), FirstMatchCodeGroup)
Write("Removing the " + childCodeGroup.Name + ".")
' Remove the child code group.
codeGroup.RemoveChild(childCodeGroup)
Next
WriteLine("")
Else
WriteLine("No child code groups were found in this code group.")
End If
End Sub
Private Sub WriteLine(ByVal message As String)
tbxOutput.AppendText(message + vbCrLf)
End Sub
Private Sub Write(ByVal message As String)
tbxOutput.AppendText(message)
End Sub
' Event handler for Exit button.
Private Sub Button2_Click( _
ByVal sender As System.Object, _
ByVal e As System.EventArgs) Handles Button2.Click
Application.Exit()
End Sub
#Region " Windows Form Designer generated code "
Public Sub New()
MyBase.New()
'This call is required by the Windows Form Designer.
InitializeComponent()
'Add any initialization after the InitializeComponent() call
End Sub
'Form overrides dispose to clean up the component list.
Protected Overloads Overrides Sub Dispose(ByVal disposing As Boolean)
If disposing Then
If Not (components Is Nothing) Then
components.Dispose()
End If
End If
MyBase.Dispose(disposing)
End Sub
'Required by the Windows Form Designer
Private components As System.ComponentModel.IContainer
'NOTE: The following procedure is required by the Windows Form Designer
'It can be modified using the Windows Form Designer.
'Do not modify it using the code editor.
Friend WithEvents Panel2 As System.Windows.Forms.Panel
Friend WithEvents Panel1 As System.Windows.Forms.Panel
Friend WithEvents Button1 As System.Windows.Forms.Button
Friend WithEvents Button2 As System.Windows.Forms.Button
Friend WithEvents tbxOutput As System.Windows.Forms.RichTextBox
<System.Diagnostics.DebuggerStepThrough()> _
Private Sub InitializeComponent()
Me.Panel2 = New System.Windows.Forms.Panel
Me.Button1 = New System.Windows.Forms.Button
Me.Button2 = New System.Windows.Forms.Button
Me.Panel1 = New System.Windows.Forms.Panel
Me.tbxOutput = New System.Windows.Forms.RichTextBox
Me.Panel2.SuspendLayout()
Me.Panel1.SuspendLayout()
Me.SuspendLayout()
'
'Panel2
'
Me.Panel2.Controls.Add(Me.Button1)
Me.Panel2.Controls.Add(Me.Button2)
Me.Panel2.Dock = System.Windows.Forms.DockStyle.Bottom
Me.Panel2.DockPadding.All = 20
Me.Panel2.Location = New System.Drawing.Point(0, 320)
Me.Panel2.Name = "Panel2"
Me.Panel2.Size = New System.Drawing.Size(616, 64)
Me.Panel2.TabIndex = 1
'
'Button1
'
Me.Button1.Dock = System.Windows.Forms.DockStyle.Right
Me.Button1.Font = New System.Drawing.Font( _
"Microsoft Sans Serif", _
9.0!, _
System.Drawing.FontStyle.Regular, _
System.Drawing.GraphicsUnit.Point, _
CType(0, Byte))
Me.Button1.Location = New System.Drawing.Point(446, 20)
Me.Button1.Name = "Button1"
Me.Button1.Size = New System.Drawing.Size(75, 24)
Me.Button1.TabIndex = 2
Me.Button1.Text = "&Run"
'
'Button2
'
Me.Button2.Dock = System.Windows.Forms.DockStyle.Right
Me.Button2.Font = New System.Drawing.Font( _
"Microsoft Sans Serif", _
9.0!, _
System.Drawing.FontStyle.Regular, _
System.Drawing.GraphicsUnit.Point, _
CType(0, Byte))
Me.Button2.Location = New System.Drawing.Point(521, 20)
Me.Button2.Name = "Button2"
Me.Button2.Size = New System.Drawing.Size(75, 24)
Me.Button2.TabIndex = 3
Me.Button2.Text = "E&xit"
'
'Panel1
'
Me.Panel1.Controls.Add(Me.tbxOutput)
Me.Panel1.Dock = System.Windows.Forms.DockStyle.Fill
Me.Panel1.DockPadding.All = 20
Me.Panel1.Location = New System.Drawing.Point(0, 0)
Me.Panel1.Name = "Panel1"
Me.Panel1.Size = New System.Drawing.Size(616, 320)
Me.Panel1.TabIndex = 2
'
'tbxOutput
'
Me.tbxOutput.AccessibleDescription = _
"Displays output from application."
Me.tbxOutput.AccessibleName = "Output textbox."
Me.tbxOutput.Dock = System.Windows.Forms.DockStyle.Fill
Me.tbxOutput.Location = New System.Drawing.Point(20, 20)
Me.tbxOutput.Name = "tbxOutput"
Me.tbxOutput.Size = New System.Drawing.Size(576, 280)
Me.tbxOutput.TabIndex = 1
Me.tbxOutput.Text = "Click the Run button to run the application."
'
'Form1
'
Me.AutoScaleBaseSize = New System.Drawing.Size(6, 15)
Me.ClientSize = New System.Drawing.Size(616, 384)
Me.Controls.Add(Me.Panel1)
Me.Controls.Add(Me.Panel2)
Me.Name = "Form1"
Me.Text = "FirstMatchCodeGroup"
Me.Panel2.ResumeLayout(False)
Me.Panel1.ResumeLayout(False)
Me.ResumeLayout(False)
End Sub
#End Region
End Class
'
' This sample produces the following output:
'
' The two code groups are equal.
' Added a custom membership condition:
' <CustomMembershipCondition class="CustomMembershipCondition"
' version="1"
' domain="contoso.com"/>
'
' Comparing the resolved code group with the initial code group.
' The two code groups are not equal.
'
' * System.Security.Policy.FirstMatchCodeGroup summary *
' A FirstMatchCodeGroup named with first-match merge logic has been created
' with hash code 113155593. This code group contains a Zone - Intranet
' membership condition with the permission set. The code group contains the
' following policy: None. It also contains the following attributes:
' There are 1 child elements in the code group.
' Removing the Read-only code group.
'
' This sample completed successfully; press Exit to continue.
Remarques
Attention
La sécurité d’accès du code (CAS) a été déconseillée dans toutes les versions du .NET Framework et de .NET. Les versions récentes de .NET ne respectent pas les annotations CAS et produisent des erreurs si les API liées à CAS sont utilisées. Les développeurs doivent chercher d’autres moyens pour accomplir les tâches liées à la sécurité.
Les groupes de code sont les blocs de construction de la stratégie de sécurité d’accès au code. Chaque niveau de stratégie se compose d’un groupe de code racine qui peut avoir des groupes de code enfants. Chaque groupe de code enfant peut avoir ses propres groupes de codes enfants ; ce comportement s’étend à n’importe quel nombre de niveaux, formant une arborescence. Chaque groupe de codes a une condition d’appartenance qui détermine si un assembly donné lui appartient en fonction de la preuve de cet assembly. Seuls les groupes de code dont les conditions d’appartenance correspondent à un assembly donné et leurs groupes de codes enfants appliquent la stratégie.
Comme tout groupe de codes, FirstMatchCodeGroup s’applique uniquement lorsque sa condition d’appartenance correspond à la preuve d’un assembly. S’il existe une correspondance, il teste la condition d’appartenance de chaque enfant dans l’ordre, en s’arrêtant lorsque la première correspondance se produit. Le résultat de FirstMatchCodeGroup est l’union de l’instruction de stratégie du groupe de codes racine et de l’instruction de stratégie du premier groupe enfant de ce groupe de codes qui correspond.
FirstMatchCodeGroup est destiné à une utilisation programmatique par les hôtes de domaine d’application pour définir la stratégie de domaine.
Constructeurs
| FirstMatchCodeGroup(IMembershipCondition, PolicyStatement) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Initialise une nouvelle instance de la classe FirstMatchCodeGroup. |
Propriétés
| AttributeString |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient une chaîne représentant les attributs de l'instruction de stratégie pour le groupe de codes. (Hérité de CodeGroup) |
| Children |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient ou définit une liste triée des groupes de codes enfants d'un groupe de codes. (Hérité de CodeGroup) |
| Description |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient ou définit la description du groupe de codes. (Hérité de CodeGroup) |
| MembershipCondition |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient ou définit la condition d'appartenance du groupe de codes. (Hérité de CodeGroup) |
| MergeLogic |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient la logique de fusion. |
| Name |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient ou définit le nom du groupe de codes. (Hérité de CodeGroup) |
| PermissionSetName |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient le nom du jeu d'autorisations nommé pour le groupe de codes. (Hérité de CodeGroup) |
| PolicyStatement |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient ou définit l'instruction de stratégie associée au groupe de codes. (Hérité de CodeGroup) |
Méthodes
| AddChild(CodeGroup) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Ajoute un groupe de codes enfant au groupe de codes actuel. (Hérité de CodeGroup) |
| Copy() |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Effectue une copie complète du groupe de codes. |
| CreateXml(SecurityElement, PolicyLevel) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
En cas de substitution dans une classe dérivée, sérialise des propriétés et un état interne spécifique à un groupe de codes dérivé et ajoute la sérialisation au SecurityElement spécifié. (Hérité de CodeGroup) |
| Equals(CodeGroup, Boolean) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Détermine si le groupe de codes spécifié est équivalent au groupe de codes actuel, en vérifiant également les groupes de codes enfants, si cela est spécifié. (Hérité de CodeGroup) |
| Equals(Object) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Détermine si le groupe de codes spécifié est équivalent au groupe de codes actuel. (Hérité de CodeGroup) |
| FromXml(SecurityElement) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Reconstruit un objet de sécurité avec un état donné à partir d'un codage XML. (Hérité de CodeGroup) |
| FromXml(SecurityElement, PolicyLevel) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Reconstruit un objet de sécurité avec un état et un niveau de stratégie donnés à partir d'un codage XML. (Hérité de CodeGroup) |
| GetHashCode() |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient le code de hachage du groupe de codes actif. (Hérité de CodeGroup) |
| GetType() |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Obtient le Type de l'instance actuelle. (Hérité de Object) |
| MemberwiseClone() |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Crée une copie superficielle du Object actuel. (Hérité de Object) |
| ParseXml(SecurityElement, PolicyLevel) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
En cas de substitution dans une classe dérivée, reconstruit des propriétés et un état interne spécifique à un groupe de codes dérivé du SecurityElement spécifié. (Hérité de CodeGroup) |
| RemoveChild(CodeGroup) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Supprime le groupe de codes enfants spécifié. (Hérité de CodeGroup) |
| Resolve(Evidence) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Résout la stratégie pour le groupe de codes et ses descendants pour un ensemble de preuves. |
| ResolveMatchingCodeGroups(Evidence) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Résout des groupes de codes correspondants. |
| ToString() |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Retourne une chaîne qui représente l'objet actuel. (Hérité de Object) |
| ToXml() |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Crée un codage XML de l’objet de sécurité et de son état actuel. (Hérité de CodeGroup) |
| ToXml(PolicyLevel) |
Obsolète.
Obsolète.
Obsolète.
Obsolète.
Crée un codage XML de l'objet de sécurité, de son état actuel et du niveau de stratégie dans lequel le code existe. (Hérité de CodeGroup) |