public Message SecureMessage ()
{
secprop = Message.Properties.Security ?? new SecurityMessageProperty ();
SecurityToken encToken =
secprop.InitiatorToken != null ? secprop.InitiatorToken.SecurityToken : security.EncryptionToken;
// FIXME: it might be still incorrect.
SecurityToken signToken =
Parameters == CounterParameters ? null :
security.SigningToken;
MessageProtectionOrder protectionOrder =
security.MessageProtectionOrder;
SecurityTokenSerializer serializer =
security.TokenSerializer;
SecurityBindingElement element =
security.Element;
SecurityAlgorithmSuite suite = element.DefaultAlgorithmSuite;
// FIXME: remove this hack
if (!ShouldOutputEncryptedKey)
encToken = new BinarySecretSecurityToken (secprop.EncryptionKey);
string messageId = "uuid-" + Guid.NewGuid ();
int identForMessageId = 1;
XmlDocument doc = new XmlDocument ();
doc.PreserveWhitespace = true;
UniqueId relatesTo = RelatesTo;
if (relatesTo != null)
msg.Headers.RelatesTo = relatesTo;
else // FIXME: probably it is always added when it is stateful ?
msg.Headers.MessageId = new UniqueId ("urn:" + messageId);
// FIXME: get correct ReplyTo value
if (Direction == MessageDirection.Input)
msg.Headers.ReplyTo = new EndpointAddress (Constants.WsaAnonymousUri);
if (MessageTo != null)
msg.Headers.To = MessageTo.Uri;
// wss:Security
WSSecurityMessageHeader header =
new WSSecurityMessageHeader (serializer);
msg.Headers.Add (header);
// 1. [Timestamp]
if (element.IncludeTimestamp) {
WsuTimestamp timestamp = new WsuTimestamp ();
timestamp.Id = messageId + "-" + identForMessageId++;
timestamp.Created = DateTime.Now;
// FIXME: on service side, use element.LocalServiceSettings.TimestampValidityDuration
timestamp.Expires = timestamp.Created.Add (element.LocalClientSettings.TimestampValidityDuration);
header.AddContent (timestamp);
}
XmlNamespaceManager nsmgr = new XmlNamespaceManager (doc.NameTable);
nsmgr.AddNamespace ("s", msg.Version.Envelope.Namespace);
nsmgr.AddNamespace ("o", Constants.WssNamespace);
nsmgr.AddNamespace ("u", Constants.WsuNamespace);
nsmgr.AddNamespace ("o11", Constants.Wss11Namespace);
/*WrappedKey*/SecurityToken primaryToken = null;
DerivedKeySecurityToken dkeyToken = null;
SecurityToken actualToken = null;
SecurityKeyIdentifierClause actualClause = null;
Signature sig = null;
List<DerivedKeySecurityToken> derivedKeys =
new List<DerivedKeySecurityToken> ();
SymmetricAlgorithm masterKey = new RijndaelManaged ();
masterKey.KeySize = suite.DefaultSymmetricKeyLength;
masterKey.Mode = CipherMode.CBC;
masterKey.Padding = PaddingMode.ISO10126;
SymmetricAlgorithm actualKey = masterKey;
// 2. [Encryption Token]
// SecurityTokenInclusionMode
// - Initiator or Recipient
// - done or notyet. FIXME: not implemented yet
// It also affects on key reference output
bool includeEncToken = // /* FIXME: remove this hack */Parameters is SslSecurityTokenParameters ? false :
ShouldIncludeToken (
Security.RecipientParameters.InclusionMode, false);
bool includeSigToken = // /* FIXME: remove this hack */ Parameters is SslSecurityTokenParameters ? false :
ShouldIncludeToken (
Security.InitiatorParameters.InclusionMode, false);
SecurityKeyIdentifierClause encClause = ShouldOutputEncryptedKey ?
CounterParameters.CallCreateKeyIdentifierClause (encToken, !ShouldOutputEncryptedKey ? SecurityTokenReferenceStyle.Internal : includeEncToken ? Parameters.ReferenceStyle : SecurityTokenReferenceStyle.External) : null;
MessagePartSpecification sigSpec = SignaturePart;
MessagePartSpecification encSpec = EncryptionPart;
// encryption key (possibly also used for signing)
// FIXME: get correct SymmetricAlgorithm according to the algorithm suite
if (secprop.EncryptionKey != null)
actualKey.Key = secprop.EncryptionKey;
// FIXME: remove thid hack
if (!ShouldOutputEncryptedKey)
primaryToken = RequestContext.RequestMessage.Properties.Security.ProtectionToken.SecurityToken as WrappedKeySecurityToken;
else
primaryToken =
// FIXME: remove this hack?
encToken is SecurityContextSecurityToken ? encToken :
new WrappedKeySecurityToken (messageId + "-" + identForMessageId++,
actualKey.Key,
// security.DefaultKeyWrapAlgorithm,
Parameters.InternalHasAsymmetricKey ?
suite.DefaultAsymmetricKeyWrapAlgorithm :
suite.DefaultSymmetricKeyWrapAlgorithm,
encToken,
encClause != null ? new SecurityKeyIdentifier (encClause) : null);
// If it reuses request's encryption key, do not output.
if (ShouldOutputEncryptedKey)
header.AddContent (primaryToken);
actualToken = primaryToken;
// FIXME: I doubt it is correct...
WrappedKeySecurityToken requestEncKey = ShouldOutputEncryptedKey ? null : primaryToken as WrappedKeySecurityToken;
actualClause = requestEncKey == null ? (SecurityKeyIdentifierClause)
new LocalIdKeyIdentifierClause (actualToken.Id, typeof (WrappedKeySecurityToken)) :
new InternalEncryptedKeyIdentifierClause (SHA1.Create ().ComputeHash (requestEncKey.GetWrappedKey ()));
// generate derived key if needed
if (CounterParameters.RequireDerivedKeys) {
RijndaelManaged deriv = new RijndaelManaged ();
deriv.KeySize = suite.DefaultEncryptionKeyDerivationLength;
deriv.Mode = CipherMode.CBC;
deriv.Padding = PaddingMode.ISO10126;
deriv.GenerateKey ();
dkeyToken = new DerivedKeySecurityToken (
GenerateId (doc),
null, // algorithm
actualClause,
new InMemorySymmetricSecurityKey (actualKey.Key),
null, // name
null, // generation
null, // offset
deriv.Key.Length,
null, // label
deriv.Key);
derivedKeys.Add (dkeyToken);
actualToken = dkeyToken;
actualKey.Key = ((SymmetricSecurityKey) dkeyToken.SecurityKeys [0]).GetSymmetricKey ();
actualClause = new LocalIdKeyIdentifierClause (dkeyToken.Id);
header.AddContent (dkeyToken);
}
ReferenceList refList = new ReferenceList ();
// When encrypted with DerivedKeyToken, put references
// immediately after the derived token (not inside the
// primary token).
// Similarly, when we do not output EncryptedKey,
// output ReferenceList in the same way.
if (CounterParameters.RequireDerivedKeys ||
!ShouldOutputEncryptedKey)
header.AddContent (refList);
else
((WrappedKeySecurityToken) primaryToken).ReferenceList = refList;
// [Signature Confirmation]
if (security.RequireSignatureConfirmation && secprop.ConfirmedSignatures.Count > 0)
foreach (string value in secprop.ConfirmedSignatures)
header.AddContent (new Wss11SignatureConfirmation (GenerateId (doc), value));
SupportingTokenInfoCollection tokenInfos =
Direction == MessageDirection.Input ?
security.CollectSupportingTokens (GetAction ()) :
new SupportingTokenInfoCollection (); // empty
foreach (SupportingTokenInfo tinfo in tokenInfos)
header.AddContent (tinfo.Token);
// populate DOM to sign.
XPathNavigator nav = doc.CreateNavigator ();
using (XmlWriter w = nav.AppendChild ()) {
msg.WriteMessage (w);
}
XmlElement body = doc.SelectSingleNode ("/s:Envelope/s:Body/*", nsmgr) as XmlElement;
string bodyId = null;
XmlElement secElem = null;
Collection<WSSignedXml> endorsedSignatures =
new Collection<WSSignedXml> ();
bool signatureProtection = (protectionOrder == MessageProtectionOrder.SignBeforeEncryptAndEncryptSignature);
// Below are o:Security contents that are not signed...
if (includeSigToken && signToken != null)
header.AddContent (signToken);
switch (protectionOrder) {
case MessageProtectionOrder.EncryptBeforeSign:
// FIXME: implement
throw new NotImplementedException ();
case MessageProtectionOrder.SignBeforeEncrypt:
case MessageProtectionOrder.SignBeforeEncryptAndEncryptSignature:
// sign
// see clause 8 of WS-SecurityPolicy C.2.2
WSSignedXml sxml = new WSSignedXml (doc);
SecurityTokenReferenceKeyInfo sigKeyInfo;
sig = sxml.Signature;
sig.SignedInfo.CanonicalizationMethod =
suite.DefaultCanonicalizationAlgorithm;
foreach (XmlElement elem in doc.SelectNodes ("/s:Envelope/s:Header/o:Security/u:Timestamp", nsmgr))
CreateReference (sig, elem, elem.GetAttribute ("Id", Constants.WsuNamespace));
foreach (XmlElement elem in doc.SelectNodes ("/s:Envelope/s:Header/o:Security/o11:SignatureConfirmation", nsmgr))
CreateReference (sig, elem, elem.GetAttribute ("Id", Constants.WsuNamespace));
foreach (SupportingTokenInfo tinfo in tokenInfos)
if (tinfo.Mode != SecurityTokenAttachmentMode.Endorsing) {
XmlElement el = sxml.GetIdElement (doc, tinfo.Token.Id);
CreateReference (sig, el, el.GetAttribute ("Id", Constants.WsuNamespace));
}
XmlNodeList nodes = doc.SelectNodes ("/s:Envelope/s:Header/*", nsmgr);
for (int i = 0; i < msg.Headers.Count; i++) {
MessageHeaderInfo h = msg.Headers [i];
if (h.Name == "Security" && h.Namespace == Constants.WssNamespace)
secElem = nodes [i] as XmlElement;
else if (sigSpec.HeaderTypes.Count == 0 ||
sigSpec.HeaderTypes.Contains (new XmlQualifiedName (h.Name, h.Namespace))) {
string id = GenerateId (doc);
h.Id = id;
CreateReference (sig, nodes [i] as XmlElement, id);
}
}
if (sigSpec.IsBodyIncluded) {
bodyId = GenerateId (doc);
CreateReference (sig, body.ParentNode as XmlElement, bodyId);
}
if (security.DefaultSignatureAlgorithm == SignedXml.XmlDsigHMACSHA1Url) {
// FIXME: use appropriate hash algorithm
sxml.ComputeSignature (new HMACSHA1 (actualKey.Key));
sigKeyInfo = new SecurityTokenReferenceKeyInfo (actualClause, serializer, doc);
}
else {
SecurityKeyIdentifierClause signClause =
CounterParameters.CallCreateKeyIdentifierClause (signToken, includeSigToken ? CounterParameters.ReferenceStyle : SecurityTokenReferenceStyle.External);
AsymmetricSecurityKey signKey = (AsymmetricSecurityKey) signToken.ResolveKeyIdentifierClause (signClause);
sxml.SigningKey = signKey.GetAsymmetricAlgorithm (security.DefaultSignatureAlgorithm, true);
sxml.ComputeSignature ();
sigKeyInfo = new SecurityTokenReferenceKeyInfo (signClause, serializer, doc);
}
sxml.KeyInfo = new KeyInfo ();
sxml.KeyInfo.AddClause (sigKeyInfo);
if (!signatureProtection)
header.AddContent (sig);
// endorse the signature with (signed)endorsing
// supporting tokens.
foreach (SupportingTokenInfo tinfo in tokenInfos) {
switch (tinfo.Mode) {
case SecurityTokenAttachmentMode.Endorsing:
case SecurityTokenAttachmentMode.SignedEndorsing:
if (sxml.Signature.Id == null) {
sig.Id = GenerateId (doc);
secElem.AppendChild (sxml.GetXml ());
}
WSSignedXml ssxml = new WSSignedXml (doc);
ssxml.Signature.SignedInfo.CanonicalizationMethod = suite.DefaultCanonicalizationAlgorithm;
CreateReference (ssxml.Signature, doc, sig.Id);
SecurityToken sst = tinfo.Token;
SecurityKey ssk = sst.SecurityKeys [0]; // FIXME: could be different?
SecurityKeyIdentifierClause tclause = new LocalIdKeyIdentifierClause (sst.Id); // FIXME: could be different?
if (ssk is SymmetricSecurityKey) {
SymmetricSecurityKey signKey = (SymmetricSecurityKey) ssk;
ssxml.ComputeSignature (signKey.GetKeyedHashAlgorithm (suite.DefaultSymmetricSignatureAlgorithm));
} else {
AsymmetricSecurityKey signKey = (AsymmetricSecurityKey) ssk;
ssxml.SigningKey = signKey.GetAsymmetricAlgorithm (suite.DefaultAsymmetricSignatureAlgorithm, true);
ssxml.ComputeSignature ();
}
ssxml.KeyInfo.AddClause (new SecurityTokenReferenceKeyInfo (tclause, serializer, doc));
if (!signatureProtection)
header.AddContent (ssxml.Signature);
endorsedSignatures.Add (ssxml);
break;
}
}
// encrypt
WSEncryptedXml exml = new WSEncryptedXml (doc);
EncryptedData edata = Encrypt (body, actualKey, actualToken.Id, refList, actualClause, exml, doc);
EncryptedXml.ReplaceElement (body, edata, false);
// encrypt signature
if (signatureProtection) {
XmlElement sigxml = sig.GetXml ();
edata = Encrypt (sigxml, actualKey, actualToken.Id, refList, actualClause, exml, doc);
header.AddContent (edata);
foreach (WSSignedXml ssxml in endorsedSignatures) {
sigxml = ssxml.GetXml ();
edata = Encrypt (sigxml, actualKey, actualToken.Id, refList, actualClause, exml, doc);
header.AddContent (edata);
}
if (security.RequireSignatureConfirmation) {
Collection<Wss11SignatureConfirmation> confs = header.FindAll<Wss11SignatureConfirmation> ();
int count = 0;
foreach (XmlElement elem in doc.SelectNodes ("/s:Envelope/s:Header/o:Security/o11:SignatureConfirmation", nsmgr)) {
edata = Encrypt (elem, actualKey, confs [count].Id, refList, actualClause, exml, doc);
EncryptedXml.ReplaceElement (elem, edata, false);
header.Contents.Insert (header.Contents.IndexOf (confs [count]), edata);
header.Contents.Remove (confs [count++]);
}
}
}
// encrypt Encrypted supporting tokens
foreach (SupportingTokenInfo tinfo in tokenInfos) {
if (tinfo.Mode == SecurityTokenAttachmentMode.SignedEncrypted) {
XmlElement el = exml.GetIdElement (doc, tinfo.Token.Id);
tinfo.Encrypted = Encrypt (el, actualKey, actualToken.Id, refList, actualClause, exml, doc);
EncryptedXml.ReplaceElement (el, tinfo.Encrypted, false);
header.Contents.Insert (header.Contents.IndexOf (tinfo.Token), tinfo.Encrypted);
header.Contents.Remove (tinfo.Token);
}
}
break;
}
Message ret = new WSSecurityMessage (Message.CreateMessage (msg.Version, msg.Headers.Action, new XmlNodeReader (doc.SelectSingleNode ("/s:Envelope/s:Body/*", nsmgr) as XmlElement)), bodyId);
ret.Properties.Security = (SecurityMessageProperty) secprop.CreateCopy ();
ret.Properties.Security.EncryptionKey = masterKey.Key;
// FIXME: can we support TransportToken here?
if (element is AsymmetricSecurityBindingElement) {
ret.Properties.Security.InitiatorToken = new SecurityTokenSpecification (encToken, null); // FIXME: second argument
ret.Properties.Security.InitiatorToken = new SecurityTokenSpecification (signToken, null); // FIXME: second argument
}
else
ret.Properties.Security.ProtectionToken = new SecurityTokenSpecification (primaryToken, null);
ret.Headers.Clear ();
ret.Headers.CopyHeadersFrom (msg);
// Header contents are:
// - Timestamp
// - SignatureConfirmation if required
// - EncryptionToken if included
// - derived key token for EncryptionToken
// - ReferenceList for encrypted items
// - signed supporting tokens
// - signed endorsing supporting tokens
// (i.e. Signed/SignedEncrypted/SignedEndorsing)
// - Signature Token if different from enc token.
// - derived key token for sig token if different
// - Signature for:
// - Timestamp
// - supporting tokens (regardless of
// its inclusion)
// - message parts in SignedParts
// - SignatureToken if TokenProtection
// (regardless of its inclusion)
// - Signatures for the main signature (above),
// for every endorsing token and signed
// endorsing token.
//
//MessageBuffer zzz = ret.CreateBufferedCopy (100000);
//ret = zzz.CreateMessage ();
//Console.WriteLine (zzz.CreateMessage ());
return ret;
}
void AddTimestampToHeader (WSSecurityMessageHeader header, string id)
{
WsuTimestamp timestamp = new WsuTimestamp ();
timestamp.Id = id;
timestamp.Created = DateTime.Now;
// FIXME: on service side, use element.LocalServiceSettings.TimestampValidityDuration
timestamp.Expires = timestamp.Created.Add (security.Element.LocalClientSettings.TimestampValidityDuration);
header.AddContent (timestamp);
}
public Message SecureMessage ()
{
secprop = Message.Properties.Security ?? new SecurityMessageProperty ();
SecurityToken encToken =
secprop.InitiatorToken != null ? secprop.InitiatorToken.SecurityToken : security.EncryptionToken;
// FIXME: it might be still incorrect.
SecurityToken signToken =
Parameters == CounterParameters ? null :
security.SigningToken;
MessageProtectionOrder protectionOrder =
security.MessageProtectionOrder;
SecurityBindingElement element =
security.Element;
SecurityAlgorithmSuite suite = element.DefaultAlgorithmSuite;
string messageId = "uuid-" + Guid.NewGuid ();
int identForMessageId = 1;
XmlDocument doc = new XmlDocument ();
doc.PreserveWhitespace = true;
var action = msg.Headers.Action;
if (msg.Version.Addressing != AddressingVersion.None) {
AddAddressingToHeader (msg.Headers);
}
// wss:Security
WSSecurityMessageHeader header =
new WSSecurityMessageHeader (security.TokenSerializer);
msg.Headers.Add (header);
// 1. [Timestamp]
if (element.IncludeTimestamp) {
AddTimestampToHeader (header, messageId + "-" + identForMessageId++);
}
XmlNamespaceManager nsmgr = new XmlNamespaceManager (doc.NameTable);
nsmgr.AddNamespace ("s", msg.Version.Envelope.Namespace);
nsmgr.AddNamespace ("o", Constants.WssNamespace);
nsmgr.AddNamespace ("u", Constants.WsuNamespace);
nsmgr.AddNamespace ("o11", Constants.Wss11Namespace);
/*WrappedKey*/SecurityToken primaryToken = null;
SecurityToken actualToken = null;
SecurityKeyIdentifierClause actualClause = null;
SymmetricAlgorithm masterKey = new RijndaelManaged ();
masterKey.KeySize = suite.DefaultSymmetricKeyLength;
masterKey.Mode = CipherMode.CBC;
masterKey.Padding = PaddingMode.ISO10126;
SymmetricAlgorithm actualKey = masterKey;
// 2. [Encryption Token]
// SecurityTokenInclusionMode
// - Initiator or Recipient
// - done or notyet. FIXME: not implemented yet
// It also affects on key reference output
bool includeEncToken = // /* FIXME: remove this hack */Parameters is SslSecurityTokenParameters ? false :
ShouldIncludeToken (
Security.RecipientParameters.InclusionMode, false);
bool includeSigToken = // /* FIXME: remove this hack */ Parameters is SslSecurityTokenParameters ? false :
ShouldIncludeToken (
Security.InitiatorParameters.InclusionMode, false);
SecurityKeyIdentifierClause encClause = ShouldOutputEncryptedKey ?
CounterParameters.CallCreateKeyIdentifierClause (encToken, !ShouldOutputEncryptedKey ? SecurityTokenReferenceStyle.Internal : includeEncToken ? Parameters.ReferenceStyle : SecurityTokenReferenceStyle.External) : null;
MessagePartSpecification encSpec = EncryptionPart;
// encryption key (possibly also used for signing)
// FIXME: get correct SymmetricAlgorithm according to the algorithm suite
if (secprop.EncryptionKey != null)
actualKey.Key = secprop.EncryptionKey;
// FIXME: remove thid hack
if (!ShouldOutputEncryptedKey)
primaryToken = secprop.ProtectionToken.SecurityToken as WrappedKeySecurityToken;
else
primaryToken =
// FIXME: remove this hack?
encToken is SecurityContextSecurityToken ? encToken :
new WrappedKeySecurityToken (messageId + "-" + identForMessageId++,
actualKey.Key,
// security.DefaultKeyWrapAlgorithm,
Parameters.InternalHasAsymmetricKey ?
suite.DefaultAsymmetricKeyWrapAlgorithm :
suite.DefaultSymmetricKeyWrapAlgorithm,
encToken,
encClause != null ? new SecurityKeyIdentifier (encClause) : null);
// If it reuses request's encryption key, do not output.
if (ShouldOutputEncryptedKey)
header.AddContent (primaryToken);
actualToken = primaryToken;
// FIXME: I doubt it is correct...
WrappedKeySecurityToken requestEncKey = ShouldOutputEncryptedKey ? null : primaryToken as WrappedKeySecurityToken;
actualClause = requestEncKey == null ? (SecurityKeyIdentifierClause)
new LocalIdKeyIdentifierClause (actualToken.Id, typeof (WrappedKeySecurityToken)) :
new InternalEncryptedKeyIdentifierClause (SHA1.Create ().ComputeHash (requestEncKey.GetWrappedKey ()));
// generate derived key if needed
if (CounterParameters.RequireDerivedKeys) {
var dkeyToken = CreateDerivedKey (GenerateId (doc), actualClause, actualKey);
actualToken = dkeyToken;
actualKey.Key = ((SymmetricSecurityKey)dkeyToken.SecurityKeys [0]).GetSymmetricKey ();
actualClause = new LocalIdKeyIdentifierClause (dkeyToken.Id);
header.AddContent (dkeyToken);
}
ReferenceList refList = new ReferenceList ();
// When encrypted with DerivedKeyToken, put references
// immediately after the derived token (not inside the
// primary token).
// Similarly, when we do not output EncryptedKey,
// output ReferenceList in the same way.
if (CounterParameters.RequireDerivedKeys ||
!ShouldOutputEncryptedKey)
header.AddContent (refList);
else
((WrappedKeySecurityToken) primaryToken).ReferenceList = refList;
// [Signature Confirmation]
if (security.RequireSignatureConfirmation && secprop.ConfirmedSignatures.Count > 0)
foreach (string value in secprop.ConfirmedSignatures)
header.AddContent (new Wss11SignatureConfirmation (GenerateId (doc), value));
SupportingTokenInfoCollection tokenInfos =
Direction == MessageDirection.Input ?
security.CollectSupportingTokens (GetAction ()) :
new SupportingTokenInfoCollection (); // empty
foreach (SupportingTokenInfo tinfo in tokenInfos)
header.AddContent (tinfo.Token);
// populate DOM to sign.
XPathNavigator nav = doc.CreateNavigator ();
using (XmlWriter w = nav.AppendChild ()) {
msg.WriteMessage (w);
}
XmlElement body = doc.SelectSingleNode ("/s:Envelope/s:Body/*", nsmgr) as XmlElement;
string bodyId = null;
Collection<WSSignedXml> endorsedSignatures =
new Collection<WSSignedXml> ();
bool signatureProtection = (protectionOrder == MessageProtectionOrder.SignBeforeEncryptAndEncryptSignature);
// Below are o:Security contents that are not signed...
if (includeSigToken && signToken != null)
header.AddContent (signToken);
switch (protectionOrder) {
case MessageProtectionOrder.EncryptBeforeSign:
// FIXME: implement
throw new NotImplementedException ();
case MessageProtectionOrder.SignBeforeEncrypt:
case MessageProtectionOrder.SignBeforeEncryptAndEncryptSignature:
var sig = CreateSignature (doc, body, nsmgr, tokenInfos,
actualClause, actualKey, signToken, includeSigToken,
signatureProtection, header, endorsedSignatures,
ref bodyId);
// encrypt
WSEncryptedXml exml = new WSEncryptedXml (doc);
EncryptedData edata = Encrypt (body, actualKey, actualToken.Id, refList, actualClause, exml, doc, EncryptedXml.XmlEncElementContentUrl);
EncryptedXml.ReplaceElement (body, edata, false);
// encrypt signature
if (signatureProtection) {
XmlElement sigxml = sig.GetXml ();
edata = Encrypt (sigxml, actualKey, actualToken.Id, refList, actualClause, exml, doc, EncryptedXml.XmlEncElementUrl);
header.AddContent (edata);
foreach (WSSignedXml ssxml in endorsedSignatures) {
sigxml = ssxml.GetXml ();
edata = Encrypt (sigxml, actualKey, actualToken.Id, refList, actualClause, exml, doc, EncryptedXml.XmlEncElementUrl);
header.AddContent (edata);
}
if (security.RequireSignatureConfirmation) {
Collection<Wss11SignatureConfirmation> confs = header.FindAll<Wss11SignatureConfirmation> ();
int count = 0;
foreach (XmlElement elem in doc.SelectNodes ("/s:Envelope/s:Header/o:Security/o11:SignatureConfirmation", nsmgr)) {
edata = Encrypt (elem, actualKey, confs [count].Id, refList, actualClause, exml, doc, EncryptedXml.XmlEncElementUrl);
EncryptedXml.ReplaceElement (elem, edata, false);
header.Contents.Insert (header.Contents.IndexOf (confs [count]), edata);
header.Contents.Remove (confs [count++]);
}
}
}
// encrypt Encrypted supporting tokens
foreach (SupportingTokenInfo tinfo in tokenInfos) {
if (tinfo.Mode == SecurityTokenAttachmentMode.SignedEncrypted) {
XmlElement el = exml.GetIdElement (doc, tinfo.Token.Id);
tinfo.Encrypted = Encrypt (el, actualKey, actualToken.Id, refList, actualClause, exml, doc, EncryptedXml.XmlEncElementUrl);
EncryptedXml.ReplaceElement (el, tinfo.Encrypted, false);
header.Contents.Insert (header.Contents.IndexOf (tinfo.Token), tinfo.Encrypted);
header.Contents.Remove (tinfo.Token);
}
}
break;
}
Message ret = new WSSecurityMessage (Message.CreateMessage (msg.Version, action, new XmlNodeReader (doc.SelectSingleNode ("/s:Envelope/s:Body/*", nsmgr) as XmlElement)), bodyId);
ret.Properties.Security = (SecurityMessageProperty) secprop.CreateCopy ();
ret.Properties.Security.EncryptionKey = masterKey.Key;
// FIXME: can we support TransportToken here?
if (element is AsymmetricSecurityBindingElement) {
ret.Properties.Security.InitiatorToken = new SecurityTokenSpecification (encToken, null); // FIXME: second argument
ret.Properties.Security.InitiatorToken = new SecurityTokenSpecification (signToken, null); // FIXME: second argument
}
else
ret.Properties.Security.ProtectionToken = new SecurityTokenSpecification (primaryToken, null);
ret.Headers.Clear ();
ret.Headers.CopyHeadersFrom (msg);
// Header contents are:
// - Timestamp
// - SignatureConfirmation if required
// - EncryptionToken if included
// - derived key token for EncryptionToken
// - ReferenceList for encrypted items
// - signed supporting tokens
// - signed endorsing supporting tokens
// (i.e. Signed/SignedEncrypted/SignedEndorsing)
// - Signature Token if different from enc token.
// - derived key token for sig token if different
// - Signature for:
// - Timestamp
// - supporting tokens (regardless of
// its inclusion)
// - message parts in SignedParts
// - SignatureToken if TokenProtection
// (regardless of its inclusion)
// - Signatures for the main signature (above),
// for every endorsing token and signed
// endorsing token.
//
//MessageBuffer zzz = ret.CreateBufferedCopy (100000);
//ret = zzz.CreateMessage ();
//Console.WriteLine (zzz.CreateMessage ());
return ret;
}
Signature CreateSignature (XmlDocument doc, XmlElement body,
XmlNamespaceManager nsmgr,
SupportingTokenInfoCollection tokenInfos,
SecurityKeyIdentifierClause actualClause,
SymmetricAlgorithm actualKey,
SecurityToken signToken,
bool includeSigToken,
bool signatureProtection,
WSSecurityMessageHeader header,
Collection<WSSignedXml> endorsedSignatures,
ref string bodyId)
{
// sign
// see clause 8 of WS-SecurityPolicy C.2.2
WSSignedXml sxml = new WSSignedXml (doc);
SecurityTokenReferenceKeyInfo sigKeyInfo;
XmlElement secElem = null;
var sigSpec = SignaturePart;
var serializer = security.TokenSerializer;
var suite = security.Element.DefaultAlgorithmSuite;
var sig = sxml.Signature;
sig.SignedInfo.CanonicalizationMethod =
suite.DefaultCanonicalizationAlgorithm;
foreach (XmlElement elem in doc.SelectNodes ("/s:Envelope/s:Header/o:Security/u:Timestamp", nsmgr))
CreateReference(sig, elem, elem.GetAttribute ("Id", Constants.WsuNamespace));
foreach (XmlElement elem in doc.SelectNodes ("/s:Envelope/s:Header/o:Security/o11:SignatureConfirmation", nsmgr))
CreateReference(sig, elem, elem.GetAttribute ("Id", Constants.WsuNamespace));
foreach (SupportingTokenInfo tinfo in tokenInfos)
if (tinfo.Mode != SecurityTokenAttachmentMode.Endorsing) {
XmlElement el = sxml.GetIdElement (doc, tinfo.Token.Id);
CreateReference (sig, el, el.GetAttribute ("Id", Constants.WsuNamespace));
}
XmlNodeList nodes = doc.SelectNodes ("/s:Envelope/s:Header/*", nsmgr);
for (int i = 0; i < msg.Headers.Count; i++) {
MessageHeaderInfo h = msg.Headers [i];
if (h.Name == "Security" && h.Namespace == Constants.WssNamespace)
secElem = nodes [i] as XmlElement;
else if ((sigSpec.HeaderTypes.Count == 0 ||
sigSpec.HeaderTypes.Contains (new XmlQualifiedName(h.Name, h.Namespace))) &&
(msg.Version.Addressing != AddressingVersion.None ||
!String.Equals (h.Name, "Action", StringComparison.Ordinal))) {
string id = GenerateId (doc);
h.Id = id;
CreateReference (sig, nodes [i] as XmlElement, id);
}
}
if (sigSpec.IsBodyIncluded) {
bodyId = GenerateId (doc);
CreateReference (sig, body.ParentNode as XmlElement, bodyId);
}
if (security.DefaultSignatureAlgorithm == SignedXml.XmlDsigHMACSHA1Url) {
// FIXME: use appropriate hash algorithm
sxml.ComputeSignature (new HMACSHA1(actualKey.Key));
sigKeyInfo = new SecurityTokenReferenceKeyInfo (actualClause, serializer, doc);
} else {
SecurityKeyIdentifierClause signClause =
CounterParameters.CallCreateKeyIdentifierClause (signToken, includeSigToken ? CounterParameters.ReferenceStyle : SecurityTokenReferenceStyle.External);
AsymmetricSecurityKey signKey = (AsymmetricSecurityKey)signToken.ResolveKeyIdentifierClause (signClause);
sxml.SigningKey = signKey.GetAsymmetricAlgorithm (security.DefaultSignatureAlgorithm, true);
sxml.ComputeSignature ();
sigKeyInfo = new SecurityTokenReferenceKeyInfo (signClause, serializer, doc);
}
sxml.KeyInfo = new KeyInfo ();
sxml.KeyInfo.AddClause (sigKeyInfo);
if (!signatureProtection)
header.AddContent (sig);
// endorse the signature with (signed)endorsing
// supporting tokens.
foreach (SupportingTokenInfo tinfo in tokenInfos) {
switch (tinfo.Mode) {
case SecurityTokenAttachmentMode.Endorsing:
case SecurityTokenAttachmentMode.SignedEndorsing:
if (sxml.Signature.Id == null) {
sig.Id = GenerateId (doc);
secElem.AppendChild (sxml.GetXml ());
}
WSSignedXml ssxml = new WSSignedXml (doc);
ssxml.Signature.SignedInfo.CanonicalizationMethod = suite.DefaultCanonicalizationAlgorithm;
CreateReference (ssxml.Signature, doc, sig.Id);
SecurityToken sst = tinfo.Token;
SecurityKey ssk = sst.SecurityKeys [0]; // FIXME: could be different?
SecurityKeyIdentifierClause tclause = new LocalIdKeyIdentifierClause (sst.Id); // FIXME: could be different?
if (ssk is SymmetricSecurityKey) {
SymmetricSecurityKey signKey = (SymmetricSecurityKey)ssk;
ssxml.ComputeSignature (signKey.GetKeyedHashAlgorithm(suite.DefaultSymmetricSignatureAlgorithm));
} else {
AsymmetricSecurityKey signKey = (AsymmetricSecurityKey)ssk;
ssxml.SigningKey = signKey.GetAsymmetricAlgorithm (suite.DefaultAsymmetricSignatureAlgorithm, true);
ssxml.ComputeSignature ();
}
ssxml.KeyInfo.AddClause (new SecurityTokenReferenceKeyInfo (tclause, serializer, doc));
if (!signatureProtection)
header.AddContent (ssxml.Signature);
endorsedSignatures.Add (ssxml);
break;
}
}
return sig;
}
void ReadHeaders (Message srcmsg)
{
SecurityTokenSerializer serializer =
security.TokenSerializer;
tokens = new List<SecurityToken> ();
token_resolver = SecurityTokenResolver.CreateDefaultSecurityTokenResolver (
new ReadOnlyCollection <SecurityToken> (tokens),
true);
token_resolver = new UnionSecurityTokenResolver (token_resolver, security.OutOfBandTokenResolver);
// Add relevant protection token and supporting tokens.
tokens.Add (security.EncryptionToken);
// FIXME: this is just a workaround for symmetric binding to not require extra client certificate.
if (security.Element is AsymmetricSecurityBindingElement)
tokens.Add (security.SigningToken);
if (RequestSecurity != null && RequestSecurity.ProtectionToken != null)
tokens.Add (RequestSecurity.ProtectionToken.SecurityToken);
// FIXME: handle supporting tokens
for (int i = 0; i < srcmsg.Headers.Count; i++) {
MessageHeaderInfo header = srcmsg.Headers [i];
// FIXME: check SOAP Actor.
// MessageHeaderDescription.Actor needs to be accessible from here.
if (header.Namespace == Constants.WssNamespace &&
header.Name == "Security") {
wss_header = new WSSecurityMessageHeader (null);
wss_header_reader = new WSSecurityMessageHeaderReader (wss_header, serializer, token_resolver, doc, nsmgr, tokens);
wss_header_reader.ReadContents (srcmsg.Headers.GetReaderAtHeader (i));
headers.Add (wss_header);
}
else
headers.Add (header);
}
if (wss_header == null)
throw new InvalidOperationException ("In this service contract, a WS-Security header is required in the Message, but was not found.");
}