Reference.cs source code in C# .NET

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Code:

/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / whidbey / NetFXspW7 / ndp / clr / src / ManagedLibraries / Security / System / Security / Cryptography / Xml / Reference.cs / 1 / Reference.cs

                            // ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 

// 
// Reference.cs 
//
// 21 [....] 2000 
//

namespace System.Security.Cryptography.Xml
{ 
    using System;
    using System.IO; 
    using System.Net; 
    using System.Runtime.InteropServices;
    using System.Security.Cryptography; 
    using System.Xml;
    using System.Globalization;

    [Serializable] 
    internal enum ReferenceTargetType {
        Stream, 
        XmlElement, 
        UriReference
    } 

    [System.Security.Permissions.HostProtection(MayLeakOnAbort = true)]
    public class Reference {
        private string m_id; 
        private string m_uri;
        private string m_type; 
        private TransformChain m_transformChain; 
        private string m_digestMethod;
        private byte[] m_digestValue; 
        private HashAlgorithm m_hashAlgorithm;
        private Object m_refTarget;
        private ReferenceTargetType m_refTargetType;
        private XmlElement m_cachedXml; 
        private SignedXml m_signedXml = null;
        internal CanonicalXmlNodeList m_namespaces = null; 
 
        //
        // public constructors 
        //

        public Reference () {
            m_transformChain = new TransformChain(); 
            m_refTarget = null;
            m_refTargetType = ReferenceTargetType.UriReference; 
            m_cachedXml = null; 
            m_digestMethod = SignedXml.XmlDsigSHA1Url;
        } 

        public Reference (Stream stream) {
            m_transformChain = new TransformChain();
            m_refTarget = stream; 
            m_refTargetType = ReferenceTargetType.Stream;
            m_cachedXml = null; 
            m_digestMethod = SignedXml.XmlDsigSHA1Url; 
        }
 
        public Reference (string uri) {
            m_transformChain = new TransformChain();
            m_refTarget = uri;
            m_uri = uri; 
            m_refTargetType = ReferenceTargetType.UriReference;
            m_cachedXml = null; 
            m_digestMethod = SignedXml.XmlDsigSHA1Url; 
        }
 
        internal Reference (XmlElement element) {
            m_transformChain = new TransformChain();
            m_refTarget = element;
            m_refTargetType = ReferenceTargetType.XmlElement; 
            m_cachedXml = null;
            m_digestMethod = SignedXml.XmlDsigSHA1Url; 
        } 

        // 
        // public properties
        //

        public string Id { 
            get { return m_id; }
            set { m_id = value; } 
        } 

        public string Uri { 
            get { return m_uri; }
            set {
                m_uri = value;
                m_cachedXml = null; 
            }
        } 
 
        public string Type {
            get { return m_type; } 
            set {
                m_type = value;
                m_cachedXml = null;
            } 
        }
 
        public string DigestMethod { 
            get { return m_digestMethod; }
            set { 
                m_digestMethod = value;
                m_cachedXml = null;
            }
        } 

        public byte[] DigestValue { 
            get { return m_digestValue; } 
            set {
                m_digestValue = value; 
                m_cachedXml = null;
            }
        }
 
        public TransformChain TransformChain {
            get { 
                if (m_transformChain == null) 
                    m_transformChain = new TransformChain();
                return m_transformChain; 
            }
            [ComVisible(false)]
            set {
                m_transformChain = value; 
                m_cachedXml = null;
            } 
        } 

        internal bool CacheValid { 
            get {
                return (m_cachedXml != null);
            }
        } 

        internal SignedXml SignedXml { 
            get { return m_signedXml; } 
            set { m_signedXml = value; }
        } 

        internal ReferenceTargetType ReferenceTargetType {
            get {
                return m_refTargetType; 
            }
        } 
 
        //
        // public methods 
        //

        public XmlElement GetXml() {
            if (CacheValid) return(m_cachedXml); 

            XmlDocument document = new XmlDocument(); 
            document.PreserveWhitespace = true; 
            return GetXml(document);
        } 

        internal XmlElement GetXml (XmlDocument document) {
            // Create the Reference
            XmlElement referenceElement = document.CreateElement("Reference", SignedXml.XmlDsigNamespaceUrl); 

            if (!String.IsNullOrEmpty(m_id)) 
                referenceElement.SetAttribute("Id", m_id); 

            if (m_uri != null) 
                referenceElement.SetAttribute("URI", m_uri);

            if (!String.IsNullOrEmpty(m_type))
                referenceElement.SetAttribute("Type", m_type); 

            // Add the transforms to the Reference 
            if (this.TransformChain.Count != 0) 
                referenceElement.AppendChild(this.TransformChain.GetXml(document, SignedXml.XmlDsigNamespaceUrl));
 
            // Add the DigestMethod
            if (String.IsNullOrEmpty(m_digestMethod))
                throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_DigestMethodRequired"));
 
            XmlElement digestMethodElement = document.CreateElement("DigestMethod", SignedXml.XmlDsigNamespaceUrl);
            digestMethodElement.SetAttribute("Algorithm",m_digestMethod); 
            referenceElement.AppendChild(digestMethodElement); 

            if (DigestValue == null) { 
                if (m_hashAlgorithm.Hash == null)
                    throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_DigestValueRequired"));
                DigestValue = m_hashAlgorithm.Hash;
            } 

            XmlElement digestValueElement = document.CreateElement("DigestValue", SignedXml.XmlDsigNamespaceUrl); 
            digestValueElement.AppendChild(document.CreateTextNode(Convert.ToBase64String(m_digestValue))); 
            referenceElement.AppendChild(digestValueElement);
 
            return referenceElement;
        }

        public void LoadXml(XmlElement value) { 
            if (value == null)
                throw new ArgumentNullException("value"); 
 
            m_id = Utils.GetAttribute(value, "Id", SignedXml.XmlDsigNamespaceUrl);
            m_uri = Utils.GetAttribute(value, "URI", SignedXml.XmlDsigNamespaceUrl); 
            m_type = Utils.GetAttribute(value, "Type", SignedXml.XmlDsigNamespaceUrl);

            XmlNamespaceManager nsm = new XmlNamespaceManager(value.OwnerDocument.NameTable);
            nsm.AddNamespace("ds", SignedXml.XmlDsigNamespaceUrl); 

            // Transforms 
            this.TransformChain = new TransformChain(); 
            XmlElement transformsElement = value.SelectSingleNode("ds:Transforms", nsm) as XmlElement;
            if (transformsElement != null) { 
                XmlNodeList transformNodes = transformsElement.SelectNodes("ds:Transform", nsm);
                if (transformNodes != null) {
                    foreach (XmlNode transformNode in transformNodes) {
                        XmlElement transformElement = transformNode as XmlElement; 
                        string algorithm = Utils.GetAttribute(transformElement, "Algorithm", SignedXml.XmlDsigNamespaceUrl);
                        Transform transform = CryptoConfig.CreateFromName(algorithm) as Transform; 
                        if (transform == null) 
                            throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_UnknownTransform"));
                        AddTransform(transform); 
                        // let the transform read the children of the transformElement for data
                        transform.LoadInnerXml(transformElement.ChildNodes);
                        // Hack! this is done to get around the lack of here() function support in XPath
                        if (transform is XmlDsigEnvelopedSignatureTransform) { 
                            // Walk back to the Signature tag. Find the nearest signature ancestor
                            // Signature-->SignedInfo-->Reference-->Transforms-->Transform 
                            XmlNode signatureTag = transformElement.SelectSingleNode("ancestor::ds:Signature[1]", nsm); 
                            XmlNodeList signatureList = transformElement.SelectNodes("//ds:Signature", nsm);
                            if (signatureList != null) { 
                                int position = 0;
                                foreach(XmlNode node in signatureList) {
                                    position++;
                                    if (node == signatureTag) { 
                                        ((XmlDsigEnvelopedSignatureTransform)transform).SignaturePosition = position;
                                        break; 
                                    } 
                                }
                            } 
                        }
                    }
                }
            } 

            // DigestMethod 
            XmlElement digestMethodElement = value.SelectSingleNode("ds:DigestMethod", nsm) as XmlElement; 
            if (digestMethodElement == null)
                throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_InvalidElement"), "Reference/DigestMethod"); 
            m_digestMethod = Utils.GetAttribute(digestMethodElement, "Algorithm", SignedXml.XmlDsigNamespaceUrl);

            // DigestValue
            XmlElement digestValueElement = value.SelectSingleNode("ds:DigestValue", nsm) as XmlElement; 
            if (digestValueElement == null)
                throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_InvalidElement"), "Reference/DigestValue"); 
            m_digestValue = Convert.FromBase64String(Utils.DiscardWhiteSpaces(digestValueElement.InnerText)); 

            // cache the Xml 
            m_cachedXml = value;
        }

        public void AddTransform(Transform transform) { 
            if (transform == null)
                throw new ArgumentNullException("transform"); 
 
            transform.Reference = this;
            this.TransformChain.Add(transform); 
        }

        internal void UpdateHashValue(XmlDocument document, CanonicalXmlNodeList refList) {
            DigestValue = CalculateHashValue(document, refList); 
        }
 
        // What we want to do is pump the input throug the TransformChain and then 
        // hash the output of the chain document is the document context for resolving relative references
        internal byte[] CalculateHashValue(XmlDocument document, CanonicalXmlNodeList refList) { 
            // refList is a list of elements that might be targets of references
            // Now's the time to create our hashing algorithm
            m_hashAlgorithm = CryptoConfig.CreateFromName(m_digestMethod) as HashAlgorithm;
            if (m_hashAlgorithm == null) 
                throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_CreateHashAlgorithmFailed"));
 
            // Let's go get the target. 
            string baseUri = (document == null ? System.Environment.CurrentDirectory + "\\" : document.BaseURI);
            Stream hashInputStream = null; 
            WebRequest request = null;
            WebResponse response = null;
            Stream inputStream = null;
            XmlResolver resolver = null; 
            byte[] hashval = null;
 
            try { 
                switch (m_refTargetType) {
                case ReferenceTargetType.Stream: 
                    // This is the easiest case. We already have a stream, so just pump it through the TransformChain
                    resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                    hashInputStream = this.TransformChain.TransformToOctetStream((Stream) m_refTarget, resolver, baseUri);
                    break; 
                case ReferenceTargetType.UriReference:
                    // Second-easiest case -- dereference the URI & pump through the TransformChain 
                    // handle the special cases where the URI is null (meaning whole doc) 
                    // or the URI is just a fragment (meaning a reference to an embedded Object)
                    if (m_uri == null) { 
                        // We need to create a DocumentNavigator out of the XmlElement
                        resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                        // In the case of a Uri-less reference, we will simply pass null to the transform chain.
                        // The first transform in the chain is expected to know how to retrieve the data to hash. 
                        hashInputStream = this.TransformChain.TransformToOctetStream((Stream) null, resolver, baseUri);
                    } else if (m_uri.Length == 0) { 
                        // This is the self-referential case. First, check that we have a document context. 
                        // The Enveloped Signature does not discard comments as per spec; those will be omitted during the transform chain process
                       if (document == null) 
                            throw new CryptographicException(String.Format(CultureInfo.CurrentCulture, SecurityResources.GetResourceString("Cryptography_Xml_SelfReferenceRequiresContext"), m_uri));

                        // Normalize the containing document
                        resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); 
                        XmlDocument docWithNoComments = Utils.DiscardComments(Utils.PreProcessDocumentInput(document, resolver, baseUri));
                        hashInputStream = this.TransformChain.TransformToOctetStream(docWithNoComments, resolver, baseUri); 
                    } else if (m_uri[0] == '#') { 
                        // If we get here, then we are constructing a Reference to an embedded DataObject
                        // referenced by an Id = attribute. Go find the relevant object 
                        bool discardComments = true;
                        string idref = Utils.GetIdFromLocalUri(m_uri, out discardComments);
                        if (idref == "xpointer(/)") {
                            // This is a self referencial case 
                            if (document == null)
                                throw new CryptographicException(String.Format(CultureInfo.CurrentCulture, SecurityResources.GetResourceString("Cryptography_Xml_SelfReferenceRequiresContext"),m_uri)); 
 
                            // We should not discard comments here!!!
                            resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); 
                            hashInputStream = this.TransformChain.TransformToOctetStream(Utils.PreProcessDocumentInput(document, resolver, baseUri), resolver, baseUri);
                            break;
                        }
 
                        XmlElement elem = this.SignedXml.GetIdElement(document, idref);
                        if (elem != null) 
                            m_namespaces = Utils.GetPropagatedAttributes(elem.ParentNode as XmlElement); 

                        if (elem == null) { 
                            // Go throw the referenced items passed in
                            if (refList != null) {
                                foreach (XmlNode node in refList) {
                                    XmlElement tempElem = node as XmlElement; 
                                    if ((tempElem != null) && (Utils.HasAttribute(tempElem, "Id", SignedXml.XmlDsigNamespaceUrl))
                                        && (Utils.GetAttribute(tempElem, "Id", SignedXml.XmlDsigNamespaceUrl).Equals(idref))) { 
                                        elem = tempElem; 
                                        if (this.m_signedXml.m_context != null)
                                            m_namespaces = Utils.GetPropagatedAttributes(this.m_signedXml.m_context); 
                                        break;
                                    }
                                }
                            } 
                        }
 
                        if (elem == null) 
                            throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_InvalidReference"));
 
                        XmlDocument normDocument = Utils.PreProcessElementInput(elem, resolver, baseUri);
                        // Add the propagated attributes
                        Utils.AddNamespaces(normDocument.DocumentElement, m_namespaces);
 
                        resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                        if (discardComments) { 
                            // We should discard comments before going into the transform chain 
                            XmlDocument docWithNoComments = Utils.DiscardComments(normDocument);
                            hashInputStream = this.TransformChain.TransformToOctetStream(docWithNoComments, resolver, baseUri); 
                        } else {
                            // This is an XPointer reference, do not discard comments!!!
                            hashInputStream = this.TransformChain.TransformToOctetStream(normDocument, resolver, baseUri);
                        } 
                    } else {
                        // WebRequest always expects an Absolute Uri, so try to resolve if we were passed a relative Uri. 
                        System.Uri uri = new System.Uri(m_uri, UriKind.RelativeOrAbsolute); 
                        if (!uri.IsAbsoluteUri) {
                            uri = new Uri(new Uri(baseUri), uri); 
                        }
                        request = WebRequest.Create(uri);
                        if (request == null) goto default;
                        response = request.GetResponse(); 
                        if (response == null) goto default;
                        inputStream = response.GetResponseStream(); 
                        if (inputStream == null) goto default; 
                        resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                        hashInputStream = this.TransformChain.TransformToOctetStream(inputStream, resolver, m_uri); 
                    }
                    break;
                case ReferenceTargetType.XmlElement:
                    // We need to create a DocumentNavigator out of the XmlElement 
                    resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                    hashInputStream = this.TransformChain.TransformToOctetStream(Utils.PreProcessElementInput((XmlElement) m_refTarget, resolver, baseUri), resolver, baseUri); 
                    break; 
                default:
                    throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_UriNotResolved"), m_uri); 
                }

                // Compute the new hash value
                hashval = m_hashAlgorithm.ComputeHash(hashInputStream); 
            }
            finally { 
                if (hashInputStream != null) 
                    hashInputStream.Close();
                if (response != null) 
                    response.Close();
                if (inputStream != null)
                    inputStream.Close();
            } 

            return hashval; 
        } 
    }
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 

// 
// Reference.cs 
//
// 21 [....] 2000 
//

namespace System.Security.Cryptography.Xml
{ 
    using System;
    using System.IO; 
    using System.Net; 
    using System.Runtime.InteropServices;
    using System.Security.Cryptography; 
    using System.Xml;
    using System.Globalization;

    [Serializable] 
    internal enum ReferenceTargetType {
        Stream, 
        XmlElement, 
        UriReference
    } 

    [System.Security.Permissions.HostProtection(MayLeakOnAbort = true)]
    public class Reference {
        private string m_id; 
        private string m_uri;
        private string m_type; 
        private TransformChain m_transformChain; 
        private string m_digestMethod;
        private byte[] m_digestValue; 
        private HashAlgorithm m_hashAlgorithm;
        private Object m_refTarget;
        private ReferenceTargetType m_refTargetType;
        private XmlElement m_cachedXml; 
        private SignedXml m_signedXml = null;
        internal CanonicalXmlNodeList m_namespaces = null; 
 
        //
        // public constructors 
        //

        public Reference () {
            m_transformChain = new TransformChain(); 
            m_refTarget = null;
            m_refTargetType = ReferenceTargetType.UriReference; 
            m_cachedXml = null; 
            m_digestMethod = SignedXml.XmlDsigSHA1Url;
        } 

        public Reference (Stream stream) {
            m_transformChain = new TransformChain();
            m_refTarget = stream; 
            m_refTargetType = ReferenceTargetType.Stream;
            m_cachedXml = null; 
            m_digestMethod = SignedXml.XmlDsigSHA1Url; 
        }
 
        public Reference (string uri) {
            m_transformChain = new TransformChain();
            m_refTarget = uri;
            m_uri = uri; 
            m_refTargetType = ReferenceTargetType.UriReference;
            m_cachedXml = null; 
            m_digestMethod = SignedXml.XmlDsigSHA1Url; 
        }
 
        internal Reference (XmlElement element) {
            m_transformChain = new TransformChain();
            m_refTarget = element;
            m_refTargetType = ReferenceTargetType.XmlElement; 
            m_cachedXml = null;
            m_digestMethod = SignedXml.XmlDsigSHA1Url; 
        } 

        // 
        // public properties
        //

        public string Id { 
            get { return m_id; }
            set { m_id = value; } 
        } 

        public string Uri { 
            get { return m_uri; }
            set {
                m_uri = value;
                m_cachedXml = null; 
            }
        } 
 
        public string Type {
            get { return m_type; } 
            set {
                m_type = value;
                m_cachedXml = null;
            } 
        }
 
        public string DigestMethod { 
            get { return m_digestMethod; }
            set { 
                m_digestMethod = value;
                m_cachedXml = null;
            }
        } 

        public byte[] DigestValue { 
            get { return m_digestValue; } 
            set {
                m_digestValue = value; 
                m_cachedXml = null;
            }
        }
 
        public TransformChain TransformChain {
            get { 
                if (m_transformChain == null) 
                    m_transformChain = new TransformChain();
                return m_transformChain; 
            }
            [ComVisible(false)]
            set {
                m_transformChain = value; 
                m_cachedXml = null;
            } 
        } 

        internal bool CacheValid { 
            get {
                return (m_cachedXml != null);
            }
        } 

        internal SignedXml SignedXml { 
            get { return m_signedXml; } 
            set { m_signedXml = value; }
        } 

        internal ReferenceTargetType ReferenceTargetType {
            get {
                return m_refTargetType; 
            }
        } 
 
        //
        // public methods 
        //

        public XmlElement GetXml() {
            if (CacheValid) return(m_cachedXml); 

            XmlDocument document = new XmlDocument(); 
            document.PreserveWhitespace = true; 
            return GetXml(document);
        } 

        internal XmlElement GetXml (XmlDocument document) {
            // Create the Reference
            XmlElement referenceElement = document.CreateElement("Reference", SignedXml.XmlDsigNamespaceUrl); 

            if (!String.IsNullOrEmpty(m_id)) 
                referenceElement.SetAttribute("Id", m_id); 

            if (m_uri != null) 
                referenceElement.SetAttribute("URI", m_uri);

            if (!String.IsNullOrEmpty(m_type))
                referenceElement.SetAttribute("Type", m_type); 

            // Add the transforms to the Reference 
            if (this.TransformChain.Count != 0) 
                referenceElement.AppendChild(this.TransformChain.GetXml(document, SignedXml.XmlDsigNamespaceUrl));
 
            // Add the DigestMethod
            if (String.IsNullOrEmpty(m_digestMethod))
                throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_DigestMethodRequired"));
 
            XmlElement digestMethodElement = document.CreateElement("DigestMethod", SignedXml.XmlDsigNamespaceUrl);
            digestMethodElement.SetAttribute("Algorithm",m_digestMethod); 
            referenceElement.AppendChild(digestMethodElement); 

            if (DigestValue == null) { 
                if (m_hashAlgorithm.Hash == null)
                    throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_DigestValueRequired"));
                DigestValue = m_hashAlgorithm.Hash;
            } 

            XmlElement digestValueElement = document.CreateElement("DigestValue", SignedXml.XmlDsigNamespaceUrl); 
            digestValueElement.AppendChild(document.CreateTextNode(Convert.ToBase64String(m_digestValue))); 
            referenceElement.AppendChild(digestValueElement);
 
            return referenceElement;
        }

        public void LoadXml(XmlElement value) { 
            if (value == null)
                throw new ArgumentNullException("value"); 
 
            m_id = Utils.GetAttribute(value, "Id", SignedXml.XmlDsigNamespaceUrl);
            m_uri = Utils.GetAttribute(value, "URI", SignedXml.XmlDsigNamespaceUrl); 
            m_type = Utils.GetAttribute(value, "Type", SignedXml.XmlDsigNamespaceUrl);

            XmlNamespaceManager nsm = new XmlNamespaceManager(value.OwnerDocument.NameTable);
            nsm.AddNamespace("ds", SignedXml.XmlDsigNamespaceUrl); 

            // Transforms 
            this.TransformChain = new TransformChain(); 
            XmlElement transformsElement = value.SelectSingleNode("ds:Transforms", nsm) as XmlElement;
            if (transformsElement != null) { 
                XmlNodeList transformNodes = transformsElement.SelectNodes("ds:Transform", nsm);
                if (transformNodes != null) {
                    foreach (XmlNode transformNode in transformNodes) {
                        XmlElement transformElement = transformNode as XmlElement; 
                        string algorithm = Utils.GetAttribute(transformElement, "Algorithm", SignedXml.XmlDsigNamespaceUrl);
                        Transform transform = CryptoConfig.CreateFromName(algorithm) as Transform; 
                        if (transform == null) 
                            throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_UnknownTransform"));
                        AddTransform(transform); 
                        // let the transform read the children of the transformElement for data
                        transform.LoadInnerXml(transformElement.ChildNodes);
                        // Hack! this is done to get around the lack of here() function support in XPath
                        if (transform is XmlDsigEnvelopedSignatureTransform) { 
                            // Walk back to the Signature tag. Find the nearest signature ancestor
                            // Signature-->SignedInfo-->Reference-->Transforms-->Transform 
                            XmlNode signatureTag = transformElement.SelectSingleNode("ancestor::ds:Signature[1]", nsm); 
                            XmlNodeList signatureList = transformElement.SelectNodes("//ds:Signature", nsm);
                            if (signatureList != null) { 
                                int position = 0;
                                foreach(XmlNode node in signatureList) {
                                    position++;
                                    if (node == signatureTag) { 
                                        ((XmlDsigEnvelopedSignatureTransform)transform).SignaturePosition = position;
                                        break; 
                                    } 
                                }
                            } 
                        }
                    }
                }
            } 

            // DigestMethod 
            XmlElement digestMethodElement = value.SelectSingleNode("ds:DigestMethod", nsm) as XmlElement; 
            if (digestMethodElement == null)
                throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_InvalidElement"), "Reference/DigestMethod"); 
            m_digestMethod = Utils.GetAttribute(digestMethodElement, "Algorithm", SignedXml.XmlDsigNamespaceUrl);

            // DigestValue
            XmlElement digestValueElement = value.SelectSingleNode("ds:DigestValue", nsm) as XmlElement; 
            if (digestValueElement == null)
                throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_InvalidElement"), "Reference/DigestValue"); 
            m_digestValue = Convert.FromBase64String(Utils.DiscardWhiteSpaces(digestValueElement.InnerText)); 

            // cache the Xml 
            m_cachedXml = value;
        }

        public void AddTransform(Transform transform) { 
            if (transform == null)
                throw new ArgumentNullException("transform"); 
 
            transform.Reference = this;
            this.TransformChain.Add(transform); 
        }

        internal void UpdateHashValue(XmlDocument document, CanonicalXmlNodeList refList) {
            DigestValue = CalculateHashValue(document, refList); 
        }
 
        // What we want to do is pump the input throug the TransformChain and then 
        // hash the output of the chain document is the document context for resolving relative references
        internal byte[] CalculateHashValue(XmlDocument document, CanonicalXmlNodeList refList) { 
            // refList is a list of elements that might be targets of references
            // Now's the time to create our hashing algorithm
            m_hashAlgorithm = CryptoConfig.CreateFromName(m_digestMethod) as HashAlgorithm;
            if (m_hashAlgorithm == null) 
                throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_CreateHashAlgorithmFailed"));
 
            // Let's go get the target. 
            string baseUri = (document == null ? System.Environment.CurrentDirectory + "\\" : document.BaseURI);
            Stream hashInputStream = null; 
            WebRequest request = null;
            WebResponse response = null;
            Stream inputStream = null;
            XmlResolver resolver = null; 
            byte[] hashval = null;
 
            try { 
                switch (m_refTargetType) {
                case ReferenceTargetType.Stream: 
                    // This is the easiest case. We already have a stream, so just pump it through the TransformChain
                    resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                    hashInputStream = this.TransformChain.TransformToOctetStream((Stream) m_refTarget, resolver, baseUri);
                    break; 
                case ReferenceTargetType.UriReference:
                    // Second-easiest case -- dereference the URI & pump through the TransformChain 
                    // handle the special cases where the URI is null (meaning whole doc) 
                    // or the URI is just a fragment (meaning a reference to an embedded Object)
                    if (m_uri == null) { 
                        // We need to create a DocumentNavigator out of the XmlElement
                        resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                        // In the case of a Uri-less reference, we will simply pass null to the transform chain.
                        // The first transform in the chain is expected to know how to retrieve the data to hash. 
                        hashInputStream = this.TransformChain.TransformToOctetStream((Stream) null, resolver, baseUri);
                    } else if (m_uri.Length == 0) { 
                        // This is the self-referential case. First, check that we have a document context. 
                        // The Enveloped Signature does not discard comments as per spec; those will be omitted during the transform chain process
                       if (document == null) 
                            throw new CryptographicException(String.Format(CultureInfo.CurrentCulture, SecurityResources.GetResourceString("Cryptography_Xml_SelfReferenceRequiresContext"), m_uri));

                        // Normalize the containing document
                        resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); 
                        XmlDocument docWithNoComments = Utils.DiscardComments(Utils.PreProcessDocumentInput(document, resolver, baseUri));
                        hashInputStream = this.TransformChain.TransformToOctetStream(docWithNoComments, resolver, baseUri); 
                    } else if (m_uri[0] == '#') { 
                        // If we get here, then we are constructing a Reference to an embedded DataObject
                        // referenced by an Id = attribute. Go find the relevant object 
                        bool discardComments = true;
                        string idref = Utils.GetIdFromLocalUri(m_uri, out discardComments);
                        if (idref == "xpointer(/)") {
                            // This is a self referencial case 
                            if (document == null)
                                throw new CryptographicException(String.Format(CultureInfo.CurrentCulture, SecurityResources.GetResourceString("Cryptography_Xml_SelfReferenceRequiresContext"),m_uri)); 
 
                            // We should not discard comments here!!!
                            resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); 
                            hashInputStream = this.TransformChain.TransformToOctetStream(Utils.PreProcessDocumentInput(document, resolver, baseUri), resolver, baseUri);
                            break;
                        }
 
                        XmlElement elem = this.SignedXml.GetIdElement(document, idref);
                        if (elem != null) 
                            m_namespaces = Utils.GetPropagatedAttributes(elem.ParentNode as XmlElement); 

                        if (elem == null) { 
                            // Go throw the referenced items passed in
                            if (refList != null) {
                                foreach (XmlNode node in refList) {
                                    XmlElement tempElem = node as XmlElement; 
                                    if ((tempElem != null) && (Utils.HasAttribute(tempElem, "Id", SignedXml.XmlDsigNamespaceUrl))
                                        && (Utils.GetAttribute(tempElem, "Id", SignedXml.XmlDsigNamespaceUrl).Equals(idref))) { 
                                        elem = tempElem; 
                                        if (this.m_signedXml.m_context != null)
                                            m_namespaces = Utils.GetPropagatedAttributes(this.m_signedXml.m_context); 
                                        break;
                                    }
                                }
                            } 
                        }
 
                        if (elem == null) 
                            throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_InvalidReference"));
 
                        XmlDocument normDocument = Utils.PreProcessElementInput(elem, resolver, baseUri);
                        // Add the propagated attributes
                        Utils.AddNamespaces(normDocument.DocumentElement, m_namespaces);
 
                        resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                        if (discardComments) { 
                            // We should discard comments before going into the transform chain 
                            XmlDocument docWithNoComments = Utils.DiscardComments(normDocument);
                            hashInputStream = this.TransformChain.TransformToOctetStream(docWithNoComments, resolver, baseUri); 
                        } else {
                            // This is an XPointer reference, do not discard comments!!!
                            hashInputStream = this.TransformChain.TransformToOctetStream(normDocument, resolver, baseUri);
                        } 
                    } else {
                        // WebRequest always expects an Absolute Uri, so try to resolve if we were passed a relative Uri. 
                        System.Uri uri = new System.Uri(m_uri, UriKind.RelativeOrAbsolute); 
                        if (!uri.IsAbsoluteUri) {
                            uri = new Uri(new Uri(baseUri), uri); 
                        }
                        request = WebRequest.Create(uri);
                        if (request == null) goto default;
                        response = request.GetResponse(); 
                        if (response == null) goto default;
                        inputStream = response.GetResponseStream(); 
                        if (inputStream == null) goto default; 
                        resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                        hashInputStream = this.TransformChain.TransformToOctetStream(inputStream, resolver, m_uri); 
                    }
                    break;
                case ReferenceTargetType.XmlElement:
                    // We need to create a DocumentNavigator out of the XmlElement 
                    resolver = (this.SignedXml.ResolverSet ? this.SignedXml.m_xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri));
                    hashInputStream = this.TransformChain.TransformToOctetStream(Utils.PreProcessElementInput((XmlElement) m_refTarget, resolver, baseUri), resolver, baseUri); 
                    break; 
                default:
                    throw new CryptographicException(SecurityResources.GetResourceString("Cryptography_Xml_UriNotResolved"), m_uri); 
                }

                // Compute the new hash value
                hashval = m_hashAlgorithm.ComputeHash(hashInputStream); 
            }
            finally { 
                if (hashInputStream != null) 
                    hashInputStream.Close();
                if (response != null) 
                    response.Close();
                if (inputStream != null)
                    inputStream.Close();
            } 

            return hashval; 
        } 
    }
} 

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

                        

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