SignedXml Clase
Definición
Importante
Parte de la información hace referencia a la versión preliminar del producto, que puede haberse modificado sustancialmente antes de lanzar la versión definitiva. Microsoft no otorga ninguna garantía, explícita o implícita, con respecto a la información proporcionada aquí.
Proporciona un contenedor en un objeto de firma XML base para facilitar la creación de firmas XML.
public ref class SignedXmlpublic class SignedXmltype SignedXml = classPublic Class SignedXml- Herencia
-
SignedXml
Ejemplos
En el ejemplo de código siguiente se muestra cómo firmar y comprobar un documento XML completo mediante una firma sobre.
//
// This example signs an XML file using an
// envelope signature. It then verifies the
// signed XML.
//
#using <System.Security.dll>
#using <System.Xml.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. This method does not
// save the public key within the XML file. This file cannot be verified unless
// the verifying code has the key with which it was signed.
void SignXmlFile( String^ FileName, String^ SignedFileName, RSA^ Key )
{
// Create a new XML document.
XmlDocument^ doc = gcnew XmlDocument;
// Load the passed XML file using its 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;
// Create a reference to be signed.
Reference^ reference = gcnew Reference;
reference->Uri = "";
// Add an enveloped transformation to the reference.
XmlDsigEnvelopedSignatureTransform^ env = gcnew XmlDsigEnvelopedSignatureTransform;
reference->AddTransform( env );
// Add the reference to the SignedXml object.
signedXml->AddReference( reference );
// 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)->GetType() == XmlDeclaration::typeid )
{
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 against an asymmetric
// algorithm and return the result.
Boolean VerifyXmlFile( String^ Name, RSA^ Key )
{
// Create a new XML document.
XmlDocument^ xmlDocument = gcnew XmlDocument;
// 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( "Signature" );
// Load the signature node.
signedXml->LoadXml( safe_cast<XmlElement^>(nodeList->Item( 0 )) );
// Check the signature and return the result.
return signedXml->CheckSignature( Key );
}
// Create example data to sign.
void CreateSomeXml( String^ FileName )
{
// Create a new XmlDocument Object*.
XmlDocument^ document = gcnew XmlDocument;
// Create a new XmlNode object.
XmlNode^ node = document->CreateNode( XmlNodeType::Element, "", "MyElement", "samples" );
// Add some text to the node.
node->InnerText = "Example text to be signed.";
// Append the node to the document.
document->AppendChild( node );
// 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
{
// 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", Key );
// 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 );
}
}
//
// 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", Key);
// 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. This method does not
// save the public key within the XML file. This file cannot be verified unless
// the verifying code has the key with which it was signed.
public static void SignXmlFile(string FileName, string SignedFileName, RSA Key)
{
// Create a new XML document.
XmlDocument doc = new XmlDocument();
// Load the passed XML file using its 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;
// 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);
// 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 against an asymmetric
// algorithm and return the result.
public static Boolean VerifyXmlFile(String Name, RSA Key)
{
// Create a new XML document.
XmlDocument xmlDocument = new XmlDocument();
// 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(Key);
}
// 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, "", "MyElement", "samples");
// Add some text to the node.
node.InnerText = "Example text to be signed.";
// Append the node to the document.
document.AppendChild(node);
// 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
Public Class SignVerifyEnvelope
Overloads Public Shared Sub Main(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", Key)
' 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. This method does not
' save the public key within the XML file. This file cannot be verified unless
' the verifying code has the key with which it was signed.
Public Shared Sub SignXmlFile(FileName As String, SignedFileName As String, Key As RSA)
' Create a new XML document.
Dim doc As New XmlDocument()
' Load the passed XML file using its 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
' 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)
' 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 against an asymmetric
' algorithm and return the result.
Public Shared Function VerifyXmlFile(Name As [String], Key As RSA) As [Boolean]
' Create a new XML document.
Dim xmlDocument As New XmlDocument()
' 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(Key)
End Function
' Create example data to sign.
Public Shared Sub CreateSomeXml(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, "", "MyElement", "samples")
' Add some text to the node.
node.InnerText = "Example text to be signed."
' Append the node to the document.
document.AppendChild(node)
' 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 Class
En el ejemplo de código siguiente se muestra cómo firmar y comprobar un único elemento de un documento XML mediante una firma envolvente.
//
// 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::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, array<String^>^ElementsToSign )
{
// Check the arguments.
if ( FileName == nullptr )
throw gcnew ArgumentNullException( L"FileName" );
if ( SignedFileName == nullptr )
throw gcnew ArgumentNullException( L"SignedFileName" );
if ( Key == nullptr )
throw gcnew ArgumentNullException( L"Key" );
if ( ElementsToSign == nullptr )
throw gcnew ArgumentNullException( L"ElementsToSign" );
// 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;
// Loop through each passed element to sign
// and create a reference.
System::Collections::IEnumerator^ myEnum = ElementsToSign->GetEnumerator();
while ( myEnum->MoveNext() )
{
String^ s = safe_cast<String^>(myEnum->Current);
// Create a reference to be signed.
Reference^ reference = gcnew Reference;
reference->Uri = s;
// 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 )
{
// Check the arguments.
if ( Name == nullptr )
throw gcnew ArgumentNullException( L"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();
}
int main()
{
// Generate a signing key.
RSA^ Key = RSA::Create();
try
{
// Specify an element to sign.
array<String^>^elements = {L"#tag1"};
// Sign an XML file and save the signature to a
// new file.
SignXmlFile( L"Test.xml", L"SignedExample.xml", Key, elements );
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 );
}
finally
{
// Clear resources associated with the
// RSA instance.
Key->Clear();
}
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.Xml;
using System.Text;
using System.Xml;
public class SignVerifyEnvelope
{
public static void Main(String[] args)
{
// Generate a signing key.
RSA Key = RSA.Create();
try
{
// Specify an element to sign.
string[] elements = { "#tag1" };
// Sign an XML file and save the signature to a
// new file.
SignXmlFile("Test.xml", "SignedExample.xml", Key, elements);
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);
}
finally
{
// Clear resources associated with the
// RSA instance.
Key.Clear();
}
}
// Sign an XML file and save the signature in a new file.
public static void SignXmlFile(string FileName, string SignedFileName, RSA Key, string[] ElementsToSign)
{
// Check the arguments.
if (FileName == null)
throw new ArgumentNullException("FileName");
if (SignedFileName == null)
throw new ArgumentNullException("SignedFileName");
if (Key == null)
throw new ArgumentNullException("Key");
if (ElementsToSign == null)
throw new ArgumentNullException("ElementsToSign");
// 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;
// Loop through each passed element to sign
// and create a reference.
foreach (string s in ElementsToSign)
{
// Create a reference to be signed.
Reference reference = new Reference();
reference.Uri = s;
// 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)
{
// Check the arguments.
if (Name == null)
throw new ArgumentNullException("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();
}
}
' This example signs an XML file using an
' envelope signature. It then verifies the
' signed XML.
'
Imports System.Security.Cryptography
Imports System.Security.Cryptography.Xml
Imports System.Text
Imports System.Xml
Module SignVerifyEnvelope
Sub Main(ByVal args() As String)
' Generate a signing key.
Dim Key As RSA = RSA.Create()
Try
' Specify an element to sign.
Dim elements As String() = New String() {"#tag1"}
' Sign an XML file and save the signature to a
' new file.
SignXmlFile("Test.xml", "SignedExample.xml", Key, elements)
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)
Finally
' Clear resources associated with the
' RSA instance.
Key.Clear()
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, ByVal ElementsToSign() As String)
' Check the arguments.
If FileName Is Nothing Then
Throw New ArgumentNullException("FileName")
End If
If SignedFileName Is Nothing Then
Throw New ArgumentNullException("SignedFileName")
End If
If Key Is Nothing Then
Throw New ArgumentNullException("Key")
End If
If ElementsToSign Is Nothing Then
Throw New ArgumentNullException("ElementsToSign")
End If
' 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
' Loop through each passed element to sign
' and create a reference.
Dim s As String
For Each s In ElementsToSign
' Create a reference to be signed.
Dim reference As New Reference()
reference.Uri = s
' 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)
Next s
' 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]
' Check the arguments.
If Name Is Nothing Then
Throw New ArgumentNullException("Name")
End If
' 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
End Module
Comentarios
Para más información sobre esta API, consulte Comentarios complementarios de la API para SignedXml.
Constructores
| SignedXml() |
Inicializa una nueva instancia de la clase SignedXml. |
| SignedXml(XmlDocument) |
Inicializa una nueva instancia de la clase SignedXml a partir del documento XML especificado. |
| SignedXml(XmlElement) |
Inicializa una nueva instancia de la clase SignedXml a partir del objeto XmlElement especificado. |
Campos
| m_signature | |
| m_strSigningKeyName |
Representa el nombre de la clave instalada que se va a utilizar para firmar el objeto SignedXml. |
| XmlDecryptionTransformUrl |
Representa el identificador uniforme de recursos (URI) para la transformación de descifrado de modo XML. Este campo es constante. |
| XmlDsigBase64TransformUrl |
Representa el identificador uniforme de recursos (URI) para la transformación de base 64. Este campo es constante. |
| XmlDsigC14NTransformUrl |
Representa el identificador uniforme de recursos (URI) para la transformación de XML canónico. Este campo es constante. |
| XmlDsigC14NWithCommentsTransformUrl |
Representa el identificador uniforme de recursos (URI) para la transformación de XML canónico, con comentarios. Este campo es constante. |
| XmlDsigCanonicalizationUrl |
Representa el identificador uniforme de recursos (URI) del algoritmo de canonización estándar para las firmas digitales XML. Este campo es constante. |
| XmlDsigCanonicalizationWithCommentsUrl |
Representa el identificador uniforme de recursos (URI) del algoritmo de canonización estándar para las firmas digitales XML e incluye comentarios. Este campo es constante. |
| XmlDsigDSAUrl |
Representa el identificador uniforme de recursos (URI) del algoritmo DSA estándar para las firmas digitales XML. Este campo es constante. |
| XmlDsigEnvelopedSignatureTransformUrl |
Representa el identificador uniforme de recursos (URI) para la transformación de firma con doble cifrado. Este campo es constante. |
| XmlDsigExcC14NTransformUrl |
Representa el identificador uniforme de recursos (URI) para la canonización XML exclusiva. Este campo es constante. |
| XmlDsigExcC14NWithCommentsTransformUrl |
Representa el identificador uniforme de recursos (URI) para la canonización XML exclusiva, con comentarios. Este campo es constante. |
| XmlDsigHMACSHA1Url |
Representa el identificador uniforme de recursos (URI) del algoritmo HMACSHA1 estándar para las firmas digitales XML. Este campo es constante. |
| XmlDsigMinimalCanonicalizationUrl |
Representa el identificador uniforme de recursos (URI) del algoritmo de canonización mínima estándar para las firmas digitales XML. Este campo es constante. |
| XmlDsigNamespaceUrl |
Representa el identificador uniforme de recursos (URI) del espacio de nombres estándar para las firmas digitales XML. Este campo es constante. |
| XmlDsigRSASHA1Url |
Representa el identificador uniforme de recursos (URI) del método de firma RSA estándar para las firmas digitales XML. Este campo es constante. |
| XmlDsigRSASHA256Url |
Representa el identificador uniforme de recursos (URI) para la variación del RSA método de firma SHA-256 para las firmas digitales XML. Este campo es constante. |
| XmlDsigRSASHA384Url |
Representa el identificador uniforme de recursos (URI) para la variación del RSA método de firma SHA-384 para las firmas digitales XML. Este campo es constante. |
| XmlDsigRSASHA512Url |
Representa el identificador uniforme de recursos (URI) para la variación del RSA método de firma SHA-512 para las firmas digitales XML. Este campo es constante. |
| XmlDsigSHA1Url |
Representa el identificador uniforme de recursos (URI) para el método implícito estándar SHA1 para firmas digitales XML. Este campo es constante. |
| XmlDsigSHA256Url |
Representa el identificador uniforme de recursos (URI) para el método implícito estándar SHA256 para firmas digitales XML. Este campo es constante. |
| XmlDsigSHA384Url |
Representa el identificador uniforme de recursos (URI) para el método implícito estándar SHA384 para firmas digitales XML. Este campo es constante. |
| XmlDsigSHA512Url |
Representa el identificador uniforme de recursos (URI) para el método implícito estándar SHA512 para firmas digitales XML. Este campo es constante. |
| XmlDsigXPathTransformUrl |
Representa el identificador uniforme de recursos (URI) para XPath (lenguaje de rutas XML). Este campo es constante. |
| XmlDsigXsltTransformUrl |
Representa el identificador uniforme de recursos (URI) para las transformaciones XSLT. Este campo es constante. |
| XmlLicenseTransformUrl |
Representa el identificador uniforme de recursos (URI) del algoritmo de transformación de licencias utilizado para normalizar licencias XrML para firmas. |
Propiedades
| EncryptedXml |
Obtiene o establece un objeto EncryptedXml que define las reglas de procesamiento del cifrado XML. |
| KeyInfo |
Obtiene o establece el objeto KeyInfo del objeto SignedXml actual. |
| Resolver |
Establece el objeto XmlResolver actual. |
| SafeCanonicalizationMethods |
Obtiene los nombres de los métodos cuyos algoritmos de nombres canónicos se permiten de forma explícita. |
| Signature | |
| SignatureFormatValidator |
Obtiene un delegado al que se va a llamar para validar el formato (no la seguridad criptográfica) de una signatura XML. |
| SignatureLength |
Obtiene la longitud de la firma para el objeto SignedXml actual. |
| SignatureMethod |
Obtiene el método de firma del objeto SignedXml actual. |
| SignatureValue |
Obtiene el valor de firma del objeto SignedXml actual. |
| SignedInfo |
Obtiene el objeto SignedInfo del objeto SignedXml actual. |
| SigningKey |
Obtiene o establece la clave del algoritmo asimétrico que se utiliza para la firma de un objeto SignedXml. |
| SigningKeyName |
Obtiene o establece el nombre de la clave instalada que se va a utilizar para firmar el objeto SignedXml. |
Métodos
| AddObject(DataObject) |
Agrega un objeto DataObject a la lista de objetos que se van a firmar. |
| AddReference(Reference) |
Agrega un objeto Reference al objeto SignedXml, que describe un método de síntesis, valor de síntesis y transformación que se utilizan para crear una firma digital XML. |
| CheckSignature() |
Determina si la propiedad Signature realiza una comprobación utilizando la clave pública de la firma. |
| CheckSignature(AsymmetricAlgorithm) |
Determina si la propiedad Signature realiza una comprobación para la clave especificada. |
| CheckSignature(KeyedHashAlgorithm) |
Determina si la propiedad Signature comprueba el algoritmo de código de autenticación de mensajes (MAC) especificado. |
| CheckSignature(X509Certificate2, Boolean) |
Determina si la propiedad Signature realiza una comprobación del objeto X509Certificate2 especificado y, opcionalmente, si el certificado es válido. |
| CheckSignatureReturningKey(AsymmetricAlgorithm) |
Determina si la propiedad Signature realiza una comprobación utilizando la clave pública de la firma. |
| ComputeSignature() |
Calcula una firma digital XML. |
| ComputeSignature(KeyedHashAlgorithm) |
Calcula una firma digital XML utilizando el algoritmo de código de autenticación de mensajes (MAC) especificado. |
| Equals(Object) |
Determina si el objeto especificado es igual que el objeto actual. (Heredado de Object) |
| GetHashCode() |
Sirve como la función hash predeterminada. (Heredado de Object) |
| GetIdElement(XmlDocument, String) |
Devuelve el objeto XmlElement con el identificador del objeto XmlDocument especificado. |
| GetPublicKey() |
Devuelve la clave pública de una firma. |
| GetType() |
Obtiene el Type de la instancia actual. (Heredado de Object) |
| GetXml() |
Devuelve la representación XML de un objeto SignedXml. |
| LoadXml(XmlElement) |
Carga un estado de la clase SignedXml a partir de un elemento XML. |
| MemberwiseClone() |
Crea una copia superficial del Object actual. (Heredado de Object) |
| ToString() |
Devuelve una cadena que representa el objeto actual. (Heredado de Object) |
Se aplica a
Consulte también
Comentarios
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