public override void LoadInnerXml(XmlNodeList nodeList) { if (nodeList != null) { foreach (XmlNode n in nodeList) { XmlElement e = n as XmlElement; if (e != null) { if (e.LocalName.Equals("InclusiveNamespaces") && e.NamespaceURI.Equals(SignedXml.XmlDsigExcC14NTransformUrl) && Utils.HasAttribute(e, "PrefixList", SignedXml.XmlDsigNamespaceUrl)) { if (!Utils.VerifyAttributes(e, "PrefixList")) { throw new CryptographicException(SR.Cryptography_Xml_UnknownTransform); } this.InclusiveNamespacesPrefixList = Utils.GetAttribute(e, "PrefixList", SignedXml.XmlDsigNamespaceUrl); return; } else { throw new CryptographicException(SR.Cryptography_Xml_UnknownTransform); } } } } }
public override void LoadInnerXml(XmlNodeList nodeList) { if (nodeList != null) { foreach (XmlNode n in nodeList) { XmlElement e = n as XmlElement; if (e != null && e.LocalName.Equals("InclusiveNamespaces") && e.NamespaceURI.Equals(SignedXml.XmlDsigExcC14NTransformUrl) && Utils.HasAttribute(e, "PrefixList", SignedXml.XmlDsigNamespaceUrl)) { InclusiveNamespacesPrefixList = Utils.GetAttribute(e, "PrefixList", SignedXml.XmlDsigNamespaceUrl); return; } } } }
// 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 _hashAlgorithm = CryptoHelpers.CreateFromName <HashAlgorithm>(_digestMethod); if (_hashAlgorithm == null) { throw new CryptographicException(SR.Cryptography_Xml_CreateHashAlgorithmFailed); } // Let's go get the target. string baseUri = (document == null ? System.Environment.CurrentDirectory + "\\" : document.BaseURI); Stream hashInputStream = null; WebResponse response = null; Stream inputStream = null; XmlResolver resolver = null; byte[] hashval = null; try { switch (_refTargetType) { case ReferenceTargetType.Stream: // This is the easiest case. We already have a stream, so just pump it through the TransformChain resolver = (SignedXml.ResolverSet ? SignedXml._xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); hashInputStream = TransformChain.TransformToOctetStream((Stream)_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 (_uri == null) { // We need to create a DocumentNavigator out of the XmlElement resolver = (SignedXml.ResolverSet ? SignedXml._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 = TransformChain.TransformToOctetStream((Stream)null, resolver, baseUri); } else if (_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(SR.Format(SR.Cryptography_Xml_SelfReferenceRequiresContext, _uri)); } // Normalize the containing document resolver = (SignedXml.ResolverSet ? SignedXml._xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); XmlDocument docWithNoComments = Utils.DiscardComments(Utils.PreProcessDocumentInput(document, resolver, baseUri)); hashInputStream = TransformChain.TransformToOctetStream(docWithNoComments, resolver, baseUri); } else if (_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(_uri, out discardComments); if (idref == "xpointer(/)") { // This is a self referencial case if (document == null) { throw new CryptographicException(SR.Format(SR.Cryptography_Xml_SelfReferenceRequiresContext, _uri)); } // We should not discard comments here!!! resolver = (SignedXml.ResolverSet ? SignedXml._xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); hashInputStream = TransformChain.TransformToOctetStream(Utils.PreProcessDocumentInput(document, resolver, baseUri), resolver, baseUri); break; } XmlElement elem = SignedXml.GetIdElement(document, idref); if (elem != null) { _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 (_signedXml._context != null) { _namespaces = Utils.GetPropagatedAttributes(_signedXml._context); } break; } } } } if (elem == null) { throw new CryptographicException(SR.Cryptography_Xml_InvalidReference); } XmlDocument normDocument = Utils.PreProcessElementInput(elem, resolver, baseUri); // Add the propagated attributes Utils.AddNamespaces(normDocument.DocumentElement, _namespaces); resolver = (SignedXml.ResolverSet ? SignedXml._xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); if (discardComments) { // We should discard comments before going into the transform chain XmlDocument docWithNoComments = Utils.DiscardComments(normDocument); hashInputStream = TransformChain.TransformToOctetStream(docWithNoComments, resolver, baseUri); } else { // This is an XPointer reference, do not discard comments!!! hashInputStream = TransformChain.TransformToOctetStream(normDocument, resolver, baseUri); } } else { throw new CryptographicException(SR.Cryptography_Xml_UriNotResolved, _uri); } break; case ReferenceTargetType.XmlElement: // We need to create a DocumentNavigator out of the XmlElement resolver = (SignedXml.ResolverSet ? SignedXml._xmlResolver : new XmlSecureResolver(new XmlUrlResolver(), baseUri)); hashInputStream = TransformChain.TransformToOctetStream(Utils.PreProcessElementInput((XmlElement)_refTarget, resolver, baseUri), resolver, baseUri); break; default: throw new CryptographicException(SR.Cryptography_Xml_UriNotResolved, _uri); } // Compute the new hash value hashInputStream = SignedXmlDebugLog.LogReferenceData(this, hashInputStream); hashval = _hashAlgorithm.ComputeHash(hashInputStream); } finally { if (hashInputStream != null) { hashInputStream.Close(); } if (response != null) { response.Close(); } if (inputStream != null) { inputStream.Close(); } } return(hashval); }
// 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 void UpdateHashValue(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 _hashAlgorithm = SHA1.Create(); // Let's go get the target. string baseUri = document.BaseURI; Stream hashInputStream = null; byte[] hashval = null; try { // 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 (_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(_uri, out discardComments); XmlElement elem = document.GetElementsByTagName(tag)[0] as XmlElement; if (elem != null) { _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 (_signedXml._context != null) { _namespaces = Utils.GetPropagatedAttributes(_signedXml._context); } break; } } } } XmlDocument normDocument = Utils.PreProcessElementInput(elem); // Add the propagated attributes Utils.AddNamespaces(normDocument.DocumentElement, _namespaces); if (discardComments) { // We should discard comments before going into the transform chain hashInputStream = TransformChain.TransformToOctetStream(normDocument); } else { // This is an XPointer reference, do not discard comments!!! hashInputStream = TransformChain.TransformToOctetStream(normDocument); } } // Compute the new hash value hashval = _hashAlgorithm.ComputeHash(hashInputStream); } finally { if (hashInputStream != null) { hashInputStream.Dispose(); } } DigestValue = hashval; }