XmlDsigExcC14NWithCommentsTransform Classe

Définition

Représente la transformation, avec commentaires, selon les spécifications de canonisation (C14N) XML exclusive d'une signature numérique définies par le W3C (World Wide Web Consortium).

public ref class XmlDsigExcC14NWithCommentsTransform : System::Security::Cryptography::Xml::XmlDsigExcC14NTransform
public class XmlDsigExcC14NWithCommentsTransform : System.Security.Cryptography.Xml.XmlDsigExcC14NTransform
type XmlDsigExcC14NWithCommentsTransform = class
    inherit XmlDsigExcC14NTransform
Public Class XmlDsigExcC14NWithCommentsTransform
Inherits XmlDsigExcC14NTransform
Héritage
XmlDsigExcC14NWithCommentsTransform

Exemples

L’exemple de code suivant montre comment signer et vérifier un document XML à l’aide de la XmlDsigExcC14NWithCommentsTransform classe . Cet exemple crée une signature d’enveloppe.

//
// This example signs an XML file using an
// envelope signature. It then verifies the 
// signed XML.
//
#using <System.Xml.dll>
#using <System.Security.dll>
#using <System.dll>

using namespace System;
using namespace System::Security::Cryptography;
using namespace System::Security::Cryptography::X509Certificates;
using namespace System::Security::Cryptography::Xml;
using namespace System::Text;
using namespace System::Xml;

// Sign an XML file and save the signature in a new file.
static void SignXmlFile( String^ FileName, String^ SignedFileName, RSA^ Key )
{
   
   // Create a new XML document.
   XmlDocument^ doc = gcnew XmlDocument;
   
   // Format the document to ignore white spaces.
   doc->PreserveWhitespace = false;
   
   // Load the passed XML file using it's name.
   doc->Load( gcnew XmlTextReader( FileName ) );
   
   // Create a SignedXml object.
   SignedXml^ signedXml = gcnew SignedXml( doc );
   
   // Add the key to the SignedXml document. 
   signedXml->SigningKey = Key;
   
   // Specify a canonicalization method.
   signedXml->SignedInfo->CanonicalizationMethod = SignedXml::XmlDsigExcC14NWithCommentsTransformUrl;
   
   // Set the InclusiveNamespacesPrefixList property.
   XmlDsigExcC14NWithCommentsTransform^ canMethod = dynamic_cast<XmlDsigExcC14NWithCommentsTransform^>(signedXml->SignedInfo->CanonicalizationMethodObject);
   canMethod->InclusiveNamespacesPrefixList = L"Sign";
   
   // Create a reference to be signed.
   Reference^ reference = gcnew Reference;
   reference->Uri = L"";
   
   // Add an enveloped transformation to the reference.
   XmlDsigEnvelopedSignatureTransform^ env = gcnew XmlDsigEnvelopedSignatureTransform;
   reference->AddTransform( env );
   
   // Add the reference to the SignedXml object.
   signedXml->AddReference( reference );
   
   // Add an RSAKeyValue KeyInfo (optional; helps recipient find key to validate).
   KeyInfo^ keyInfo = gcnew KeyInfo;
   keyInfo->AddClause( gcnew RSAKeyValue( dynamic_cast<RSA^>(Key) ) );
   signedXml->KeyInfo = keyInfo;
   
   // Compute the signature.
   signedXml->ComputeSignature();
   
   // Get the XML representation of the signature and save
   // it to an XmlElement object.
   XmlElement^ xmlDigitalSignature = signedXml->GetXml();
   
   // Append the element to the XML document.
   doc->DocumentElement->AppendChild( doc->ImportNode( xmlDigitalSignature, true ) );
   if ( dynamic_cast<XmlDeclaration^>(doc->FirstChild) )
   {
      doc->RemoveChild( doc->FirstChild );
   }

   
   // Save the signed XML document to a file specified
   // using the passed string.
   XmlTextWriter^ xmltw = gcnew XmlTextWriter( SignedFileName,gcnew UTF8Encoding( false ) );
   doc->WriteTo( xmltw );
   xmltw->Close();
}


// Verify the signature of an XML file and return the result.
static Boolean VerifyXmlFile( String^ Name )
{
   
   // Create a new XML document.
   XmlDocument^ xmlDocument = gcnew XmlDocument;
   
   // Format using white spaces.
   xmlDocument->PreserveWhitespace = true;
   
   // Load the passed XML file into the document. 
   xmlDocument->Load( Name );
   
   // Create a new SignedXml object and pass it
   // the XML document class.
   SignedXml^ signedXml = gcnew SignedXml( xmlDocument );
   
   // Find the "Signature" node and create a new
   // XmlNodeList object.
   XmlNodeList^ nodeList = xmlDocument->GetElementsByTagName( L"Signature" );
   
   // Load the signature node.
   signedXml->LoadXml( dynamic_cast<XmlElement^>(nodeList->Item( 0 )) );
   
   // Check the signature and return the result.
   return signedXml->CheckSignature();
}


// Create example data to sign.
static void CreateSomeXml( String^ FileName )
{
   
   // Create a new XmlDocument object.
   XmlDocument^ document = gcnew XmlDocument;
   
   // Create a new XmlNode object.
   XmlNode^ node = document->CreateNode( XmlNodeType::Element, L"", L"MyXML", L"Don't_Sign" );
   
   // Append the node to the document.
   document->AppendChild( node );
   
   // Create a new XmlNode object.
   XmlNode^ subnode = document->CreateNode( XmlNodeType::Element, L"", L"TempElement", L"Sign" );
   
   // Add some text to the node.
   subnode->InnerText = L"Here is some data to sign.";
   
   // Append the node to the document.
   document->DocumentElement->AppendChild( subnode );
   
   // Save the XML document to the file name specified.
   XmlTextWriter^ xmltw = gcnew XmlTextWriter( FileName,gcnew UTF8Encoding( false ) );
   document->WriteTo( xmltw );
   xmltw->Close();
}

int main()
{
   try
   {
      
      // Create an XML file to sign.
      CreateSomeXml( L"Example.xml" );
      Console::WriteLine( L"New XML file created." );
      
      // Sign the XML that was just created and save it in a 
      // new file.
      //SignXmlFile("Example.xml", "SignedExample.xml", Key);
      Console::WriteLine( L"XML file signed." );
      
      // Verify the signature of the signed XML.
      Console::WriteLine( L"Verifying signature..." );
      bool result = VerifyXmlFile( L"SignedExample.xml" );
      
      // Display the results of the signature verification to 
      // the console.
      if ( result )
      {
         Console::WriteLine( L"The XML signature is valid." );
      }
      else
      {
         Console::WriteLine( L"The XML signature is not valid." );
      }
   }
   catch ( CryptographicException^ e ) 
   {
      Console::WriteLine( e->Message );
   }

   return 1;
}
//
// This example signs an XML file using an
// envelope signature. It then verifies the
// signed XML.
//
using System;
using System.Security.Cryptography;
using System.Security.Cryptography.X509Certificates;
using System.Security.Cryptography.Xml;
using System.Text;
using System.Xml;

public class SignVerifyEnvelope
{

    public static void Main(String[] args)
    {
        try
        {
            // Generate a signing key.
            RSA Key = RSA.Create();

            // Create an XML file to sign.
            CreateSomeXml("Example.xml");
            Console.WriteLine("New XML file created.");

            // Sign the XML that was just created and save it in a
            // new file.
            //SignXmlFile("Example.xml", "SignedExample.xml", Key);
            Console.WriteLine("XML file signed.");

            // Verify the signature of the signed XML.
            Console.WriteLine("Verifying signature...");
            bool result = VerifyXmlFile("SignedExample.xml");

            // Display the results of the signature verification to
            // the console.
            if (result)
            {
                Console.WriteLine("The XML signature is valid.");
            }
            else
            {
                Console.WriteLine("The XML signature is not valid.");
            }
        }
        catch (CryptographicException e)
        {
            Console.WriteLine(e.Message);
        }
    }

    // Sign an XML file and save the signature in a new file.
    public static void SignXmlFile(string FileName, string SignedFileName, RSA Key)
    {
        // Create a new XML document.
        XmlDocument doc = new XmlDocument();

        // Format the document to ignore white spaces.
        doc.PreserveWhitespace = false;

        // Load the passed XML file using it's name.
        doc.Load(new XmlTextReader(FileName));

        // Create a SignedXml object.
        SignedXml signedXml = new SignedXml(doc);

        // Add the key to the SignedXml document.
        signedXml.SigningKey = Key;

        // Specify a canonicalization method.
        signedXml.SignedInfo.CanonicalizationMethod = SignedXml.XmlDsigExcC14NWithCommentsTransformUrl;

        // Set the InclusiveNamespacesPrefixList property.
        XmlDsigExcC14NWithCommentsTransform canMethod = (XmlDsigExcC14NWithCommentsTransform)signedXml.SignedInfo.CanonicalizationMethodObject;
        canMethod.InclusiveNamespacesPrefixList = "Sign";

        // Create a reference to be signed.
        Reference reference = new Reference();
        reference.Uri = "";

        // Add an enveloped transformation to the reference.
        XmlDsigEnvelopedSignatureTransform env = new XmlDsigEnvelopedSignatureTransform();
        reference.AddTransform(env);

        // Add the reference to the SignedXml object.
        signedXml.AddReference(reference);

        // Add an RSAKeyValue KeyInfo (optional; helps recipient find key to validate).
        KeyInfo keyInfo = new KeyInfo();
        keyInfo.AddClause(new RSAKeyValue((RSA)Key));
        signedXml.KeyInfo = keyInfo;

        // Compute the signature.
        signedXml.ComputeSignature();

        // Get the XML representation of the signature and save
        // it to an XmlElement object.
        XmlElement xmlDigitalSignature = signedXml.GetXml();

        // Append the element to the XML document.
        doc.DocumentElement.AppendChild(doc.ImportNode(xmlDigitalSignature, true));

        if (doc.FirstChild is XmlDeclaration)
        {
            doc.RemoveChild(doc.FirstChild);
        }

        // Save the signed XML document to a file specified
        // using the passed string.
        XmlTextWriter xmltw = new XmlTextWriter(SignedFileName, new UTF8Encoding(false));
        doc.WriteTo(xmltw);
        xmltw.Close();
    }
    // Verify the signature of an XML file and return the result.
    public static Boolean VerifyXmlFile(String Name)
    {
        // Create a new XML document.
        XmlDocument xmlDocument = new XmlDocument();

        // Format using white spaces.
        xmlDocument.PreserveWhitespace = true;

        // Load the passed XML file into the document.
        xmlDocument.Load(Name);

        // Create a new SignedXml object and pass it
        // the XML document class.
        SignedXml signedXml = new SignedXml(xmlDocument);

        // Find the "Signature" node and create a new
        // XmlNodeList object.
        XmlNodeList nodeList = xmlDocument.GetElementsByTagName("Signature");

        // Load the signature node.
        signedXml.LoadXml((XmlElement)nodeList[0]);

        // Check the signature and return the result.
        return signedXml.CheckSignature();
    }

    // Create example data to sign.
    public static void CreateSomeXml(string FileName)
    {
        // Create a new XmlDocument object.
        XmlDocument document = new XmlDocument();

        // Create a new XmlNode object.
        XmlNode node = document.CreateNode(XmlNodeType.Element, "", "MyXML", "Don't_Sign");

        // Append the node to the document.
        document.AppendChild(node);

        // Create a new XmlNode object.
        XmlNode subnode = document.CreateNode(XmlNodeType.Element, "", "TempElement", "Sign");

        // Add some text to the node.
        subnode.InnerText = "Here is some data to sign.";

        // Append the node to the document.
        document.DocumentElement.AppendChild(subnode);

        // Save the XML document to the file name specified.
        XmlTextWriter xmltw = new XmlTextWriter(FileName, new UTF8Encoding(false));
        document.WriteTo(xmltw);
        xmltw.Close();
    }
}
'
' This example signs an XML file using an
' envelope signature. It then verifies the 
' signed XML.
'
Imports System.Security.Cryptography
Imports System.Security.Cryptography.X509Certificates
Imports System.Security.Cryptography.Xml
Imports System.Text
Imports System.Xml



Module SignVerifyEnvelope


    Sub Main(ByVal args() As String)
        Try
            ' Generate a signing key.
            Dim Key As RSA = RSA.Create()

            ' Create an XML file to sign.
            CreateSomeXml("Example.xml")
            Console.WriteLine("New XML file created.")

            ' Sign the XML that was just created and save it in a 
            ' new file.
            'SignXmlFile("Example.xml", "SignedExample.xml", Key);
            Console.WriteLine("XML file signed.")

            ' Verify the signature of the signed XML.
            Console.WriteLine("Verifying signature...")
            Dim result As Boolean = VerifyXmlFile("SignedExample.xml")

            ' Display the results of the signature verification to 
            ' the console.
            If result Then
                Console.WriteLine("The XML signature is valid.")
            Else
                Console.WriteLine("The XML signature is not valid.")
            End If
        Catch e As CryptographicException
            Console.WriteLine(e.Message)
        End Try

    End Sub


    ' Sign an XML file and save the signature in a new file.
    Sub SignXmlFile(ByVal FileName As String, ByVal SignedFileName As String, ByVal Key As RSA)
        ' Create a new XML document.
        Dim doc As New XmlDocument()

        ' Format the document to ignore white spaces.
        doc.PreserveWhitespace = False

        ' Load the passed XML file using it's name.
        doc.Load(New XmlTextReader(FileName))

        ' Create a SignedXml object.
        Dim signedXml As New SignedXml(doc)

        ' Add the key to the SignedXml document. 
        signedXml.SigningKey = Key

        ' Specify a canonicalization method.
        signedXml.SignedInfo.CanonicalizationMethod = signedXml.XmlDsigExcC14NWithCommentsTransformUrl

        ' Set the InclusiveNamespacesPrefixList property.
        Dim canMethod As XmlDsigExcC14NWithCommentsTransform = CType(signedXml.SignedInfo.CanonicalizationMethodObject, XmlDsigExcC14NWithCommentsTransform)
        canMethod.InclusiveNamespacesPrefixList = "Sign"

        ' Create a reference to be signed.
        Dim reference As New Reference()
        reference.Uri = ""

        ' Add an enveloped transformation to the reference.
        Dim env As New XmlDsigEnvelopedSignatureTransform()
        reference.AddTransform(env)

        ' Add the reference to the SignedXml object.
        signedXml.AddReference(reference)


        ' Add an RSAKeyValue KeyInfo (optional; helps recipient find key to validate).
        Dim keyInfo As New KeyInfo()
        keyInfo.AddClause(New RSAKeyValue(CType(Key, RSA)))
        signedXml.KeyInfo = keyInfo

        ' Compute the signature.
        signedXml.ComputeSignature()

        ' Get the XML representation of the signature and save
        ' it to an XmlElement object.
        Dim xmlDigitalSignature As XmlElement = signedXml.GetXml()

        ' Append the element to the XML document.
        doc.DocumentElement.AppendChild(doc.ImportNode(xmlDigitalSignature, True))


        If TypeOf doc.FirstChild Is XmlDeclaration Then
            doc.RemoveChild(doc.FirstChild)
        End If

        ' Save the signed XML document to a file specified
        ' using the passed string.
        Dim xmltw As New XmlTextWriter(SignedFileName, New UTF8Encoding(False))
        doc.WriteTo(xmltw)
        xmltw.Close()

    End Sub

    ' Verify the signature of an XML file and return the result.
    Function VerifyXmlFile(ByVal Name As String) As [Boolean]
        ' Create a new XML document.
        Dim xmlDocument As New XmlDocument()

        ' Format using white spaces.
        xmlDocument.PreserveWhitespace = True

        ' Load the passed XML file into the document. 
        xmlDocument.Load(Name)

        ' Create a new SignedXml object and pass it
        ' the XML document class.
        Dim signedXml As New SignedXml(xmlDocument)

        ' Find the "Signature" node and create a new
        ' XmlNodeList object.
        Dim nodeList As XmlNodeList = xmlDocument.GetElementsByTagName("Signature")

        ' Load the signature node.
        signedXml.LoadXml(CType(nodeList(0), XmlElement))

        ' Check the signature and return the result.
        Return signedXml.CheckSignature()

    End Function


    ' Create example data to sign.
    Sub CreateSomeXml(ByVal FileName As String)
        ' Create a new XmlDocument object.
        Dim document As New XmlDocument()

        ' Create a new XmlNode object.
        Dim node As XmlNode = document.CreateNode(XmlNodeType.Element, "", "MyXML", "Don't_Sign")

        ' Append the node to the document.
        document.AppendChild(node)

        ' Create a new XmlNode object.
        Dim subnode As XmlNode = document.CreateNode(XmlNodeType.Element, "", "TempElement", "Sign")

        ' Add some text to the node.
        subnode.InnerText = "Here is some data to sign."

        ' Append the node to the document.
        document.DocumentElement.AppendChild(subnode)

        ' Save the XML document to the file name specified.
        Dim xmltw As New XmlTextWriter(FileName, New UTF8Encoding(False))
        document.WriteTo(xmltw)
        xmltw.Close()

    End Sub
End Module

Remarques

La XmlDsigExcC14NWithCommentsTransform classe représente la transformation de canonisation XML C14N exclusive avec des commentaires. Cette classe est similaire à la XmlDsigExcC14NTransform classe , qui permet à un signataire de créer un condensé à l’aide de la forme canonique d’un document XML. Toutefois, la classe exclut le XmlDsigExcC14NWithCommentsTransform contexte ancêtre d’un sous-document canonique.

Utilisez la XmlDsigExcC14NWithCommentsTransform classe lorsque vous devez canoniser un sous-document XML afin qu’il soit indépendant de son contexte XML. Par exemple, les applications telles que les services Web qui utilisent du code XML signé dans des protocoles de communication complexes doivent souvent canoniser le code XML de cette manière. Ces applications enveloppent souvent du code XML dans divers éléments construits dynamiquement, ce qui peut modifier considérablement le document et entraîner l’échec de la vérification de la signature XML. La XmlDsigExcC14NWithCommentsTransform classe résout ce problème en excluant ce contexte ancêtre du sous-document canonique.

Notez que vous ne pouvez pas créer directement une nouvelle instance d’une classe de transformation de canonisation. Pour spécifier une transformation de canonisation, transmettez l’URI (Uniform Resource Identifier) qui décrit la transformation à la CanonicalizationMethod propriété, qui est accessible à partir de la SignedInfo propriété . Pour acquérir une référence à la transformation de canonisation, utilisez la CanonicalizationMethodObject propriété , qui est accessible à partir de la SignedInfo propriété .

L’URI qui décrit la XmlDsigExcC14NWithCommentsTransform classe est défini par le XmlDsigExcC14NWithCommentsTransformUrl champ .

Pour plus d’informations sur la transformation C14N exclusive, consultez la spécification XMLDSIG, disponible sur le site web W3C. L’algorithme de canonisation est défini dans la spécification XML canonique du W3C.

Constructeurs

XmlDsigExcC14NWithCommentsTransform()

Initialise une nouvelle instance de la classe XmlDsigExcC14NWithCommentsTransform.

XmlDsigExcC14NWithCommentsTransform(String)

Initialise une nouvelle instance de la classe XmlDsigExcC14NWithCommentsTransform en spécifiant une liste de préfixes d'espace de noms à canoniser à l'aide de l'algorithme canonisation standard.

Propriétés

Algorithm

Obtient ou définit l'URI (Uniform Resource Identifier) qui identifie l'algorithme exécuté par la transformation actuelle.

(Hérité de Transform)
Context

Obtient ou définit un objet XmlElement qui représente le contexte de document dans lequel l'objet Transform actuel est exécuté.

(Hérité de Transform)
InclusiveNamespacesPrefixList

Obtient ou définit une chaîne qui contient des préfixes d'espace de noms à canoniser à l'aide de l'algorithme de canonisation standard.

(Hérité de XmlDsigExcC14NTransform)
InputTypes

Obtient un tableau de types qui constituent des entrées valides dans les méthodes LoadInput(Object) de l'objet XmlDsigExcC14NTransform en cours.

(Hérité de XmlDsigExcC14NTransform)
OutputTypes

Obtient un tableau de types qui constituent des sorties valides des méthodes GetOutput() de l'objet XmlDsigExcC14NTransform en cours.

(Hérité de XmlDsigExcC14NTransform)
PropagatedNamespaces

Obtient ou définit un objet Hashtable qui contient les espaces de noms qui sont propagés dans la signature.

(Hérité de Transform)
Resolver

Définit l'objet XmlResolver en cours.

(Hérité de Transform)

Méthodes

Equals(Object)

Détermine si l'objet spécifié est égal à l'objet actuel.

(Hérité de Object)
GetDigestedOutput(HashAlgorithm)

Retourne le Digest associé à un objet XmlDsigExcC14NTransform.

(Hérité de XmlDsigExcC14NTransform)
GetHashCode()

Fait office de fonction de hachage par défaut.

(Hérité de Object)
GetInnerXml()

Retourne une représentation XML des paramètres d'un objet XmlDsigExcC14NTransform pouvant être inclus comme sous-éléments d'un élément <Transform> XMLDSIG.

(Hérité de XmlDsigExcC14NTransform)
GetOutput()

Retourne la sortie de l'objet XmlDsigExcC14NTransform en cours.

(Hérité de XmlDsigExcC14NTransform)
GetOutput(Type)

Retourne la sortie de l'objet XmlDsigExcC14NTransform en cours en tant qu'objet du type spécifié.

(Hérité de XmlDsigExcC14NTransform)
GetType()

Obtient le Type de l'instance actuelle.

(Hérité de Object)
GetXml()

Retourne la représentation XML de l'objet Transform en cours.

(Hérité de Transform)
LoadInnerXml(XmlNodeList)

Analyse l'objet XmlNodeList spécifié en tant que contenu propre à la transformation d'un élément <Transform> et configure l'état interne de l'objet XmlDsigExcC14NTransform en cours pour qu'il corresponde à l'élément <Transform>.

(Hérité de XmlDsigExcC14NTransform)
LoadInput(Object)

En cas de substitution dans une classe dérivée, charge l'entrée spécifiée dans l'objet XmlDsigExcC14NTransform en cours.

(Hérité de XmlDsigExcC14NTransform)
MemberwiseClone()

Crée une copie superficielle du Object actuel.

(Hérité de Object)
ToString()

Retourne une chaîne qui représente l'objet actuel.

(Hérité de Object)

S’applique à