Exemplo n.º 1
0
        public static StatusCode SecureSymmetric(MemoryBuffer respBuf, int messageEncodedBlockStart, SLChannel.Keyset localKeyset, SLChannel.Keyset remoteKeyset, SecurityPolicy policy, MessageSecurityMode securityMode)
        {
            if (securityMode == MessageSecurityMode.None)
            {
                return(StatusCode.Good);
            }

            int sigSize = Sha1Size;

            if (securityMode >= MessageSecurityMode.SignAndEncrypt)
            {
                //int padSize2 = CalculateSymmetricPaddingSize(remoteKeyset.SymEncKey.Length, sigSize + respBuf.Position - messageEncodedBlockStart);
                int padSize = CalculateSymmetricPaddingSize(localKeyset.SymEncKey.Length, sigSize + respBuf.Position - messageEncodedBlockStart);

                byte paddingValue = (byte)((padSize - 1) & 0xFF);

                var appendPadding = new byte[padSize];
                for (int i = 0; i < padSize; i++)
                {
                    appendPadding[i] = paddingValue;
                }
                respBuf.Append(appendPadding);
            }

            int msgSize = respBuf.Position + sigSize;

            if (securityMode >= MessageSecurityMode.SignAndEncrypt)
            {
                msgSize = messageEncodedBlockStart + CalculateSymmetricEncryptedSize(localKeyset.SymEncKey.Length, msgSize - messageEncodedBlockStart);
            }

            if (msgSize >= respBuf.Capacity)
            {
                return(StatusCode.BadEncodingLimitsExceeded);
            }

            MarkUAMessageSize(respBuf, (UInt32)msgSize);

            var sig = UASecurity.SymmetricSign(localKeyset.SymSignKey,
                                               new ArraySegment <byte>(respBuf.Buffer, 0, respBuf.Position));

            respBuf.Append(sig);

            if (msgSize != respBuf.Position)
            {
                throw new Exception();
                return(StatusCode.BadInternalError);
            }

            if (securityMode >= MessageSecurityMode.SignAndEncrypt)
            {
                int encrLen = UASecurity.RijndaelEncryptInplace(
                    new ArraySegment <byte>(respBuf.Buffer, messageEncodedBlockStart, msgSize - messageEncodedBlockStart),
                    localKeyset.SymEncKey, localKeyset.SymIV);
            }

            return(StatusCode.Good);
        }
Exemplo n.º 2
0
        public static StatusCode SecureSymmetric(
            MemoryBuffer respBuf,
            int messageEncodedBlockStart,
            SLChannel.Keyset localKeyset,
            SLChannel.Keyset remoteKeyset,
            SecurityPolicy policy,
            MessageSecurityMode securityMode)
        {
            if (securityMode == MessageSecurityMode.None)
            {
                return(StatusCode.Good);
            }

            int num1 = UASecurity.SignatureSizeForSecurityPolicy(policy);

            if (securityMode >= MessageSecurityMode.SignAndEncrypt)
            {
                int    symmetricPaddingSize = UASecurity.CalculateSymmetricPaddingSize(localKeyset.SymEncKey.Length, num1 + respBuf.Position - messageEncodedBlockStart);
                byte   num2 = (byte)(symmetricPaddingSize - 1 & byte.MaxValue);
                byte[] Add  = new byte[symmetricPaddingSize];
                for (int index = 0; index < symmetricPaddingSize; ++index)
                {
                    Add[index] = num2;
                }

                respBuf.Append(Add);
            }
            int num3 = respBuf.Position + num1;

            if (securityMode >= MessageSecurityMode.SignAndEncrypt)
            {
                num3 = messageEncodedBlockStart + UASecurity.CalculateSymmetricEncryptedSize(localKeyset.SymEncKey.Length, num3 - messageEncodedBlockStart);
            }

            if (num3 >= respBuf.Capacity)
            {
                return(StatusCode.BadEncodingLimitsExceeded);
            }

            UASecurity.MarkUAMessageSize(respBuf, (uint)num3);
            byte[] Add1 = UASecurity.SymmetricSign(localKeyset.SymSignKey, new ArraySegment <byte>(respBuf.Buffer, 0, respBuf.Position), policy);
            respBuf.Append(Add1);
            if (num3 != respBuf.Position)
            {
                throw new Exception();
            }

            if (securityMode >= MessageSecurityMode.SignAndEncrypt)
            {
                UASecurity.RijndaelEncryptInplace(new ArraySegment <byte>(respBuf.Buffer, messageEncodedBlockStart, num3 - messageEncodedBlockStart), localKeyset.SymEncKey, localKeyset.SymIV);
            }

            return(StatusCode.Good);
        }
Exemplo n.º 3
0
        public static StatusCode UnsecureSymmetric(MemoryBuffer recvBuf, uint tokenID, uint?prevTokenID, int messageEncodedBlockStart, SLChannel.Keyset localKeyset, SLChannel.Keyset[] remoteKeysets, SecurityPolicy policy, MessageSecurityMode securityMode, out int decrSize)
        {
            decrSize = -1;
            int restorePos = recvBuf.Position;

            byte   type = 0;
            uint   messageSize = 0;
            UInt32 secureChannelId, securityTokenId, securitySeqNum, securityReqId;

            if (!recvBuf.Decode(out type))
            {
                return(StatusCode.BadDecodingError);
            }
            if (!recvBuf.Decode(out messageSize))
            {
                return(StatusCode.BadDecodingError);
            }
            if (!recvBuf.Decode(out secureChannelId))
            {
                return(StatusCode.BadDecodingError);
            }
            if (!recvBuf.Decode(out securityTokenId))
            {
                return(StatusCode.BadDecodingError);
            }

            int keysetIdx = -1;

            if (tokenID == securityTokenId)
            {
                keysetIdx = 0;
            }
            else if (prevTokenID.HasValue && prevTokenID.Value == securityTokenId)
            {
                keysetIdx = 1;
            }
            else
            {
                return(StatusCode.BadSecureChannelTokenUnknown);
            }

            //UInt32 respDecodeSize = messageSize;
            if (securityMode == MessageSecurityMode.SignAndEncrypt)
            {
                try
                {
                    decrSize = UASecurity.RijndaelDecryptInplace(
                        new ArraySegment <byte>(recvBuf.Buffer, messageEncodedBlockStart, (int)messageSize - messageEncodedBlockStart),
                        remoteKeysets[keysetIdx].SymEncKey, remoteKeysets[keysetIdx].SymIV) + messageEncodedBlockStart;

                    //respDecodeSize = (UInt32)(messageEncodedBlockStart + decrSize);
                }
                catch
                {
                    return(StatusCode.BadSecurityChecksFailed);
                }
            }

            if (securityMode >= MessageSecurityMode.Sign)
            {
                try
                {
                    int sigSize = SignatureSizeForSecurityPolicy(policy);
                    var sigData = new ArraySegment <byte>(recvBuf.Buffer, 0, (int)messageSize - sigSize);

                    var sig       = new ArraySegment <byte>(recvBuf.Buffer, (int)messageSize - sigSize, sigSize).ToArray();
                    var sigExpect = UASecurity.SymmetricSign(remoteKeysets[keysetIdx].SymSignKey, sigData, policy);

                    if (sig.Length != sigExpect.Length)
                    {
                        return(StatusCode.BadSecurityChecksFailed);
                    }

                    for (int i = 0; i < sig.Length; i++)
                    {
                        if (sig[i] != sigExpect[i])
                        {
                            return(StatusCode.BadSecurityChecksFailed);
                        }
                    }

                    byte padValue = (byte)(recvBuf.Buffer[messageSize - sigSize - 1] + 1);
                    if (decrSize > 0)
                    {
                        decrSize -= sigSize;
                        decrSize -= (int)padValue;
                        if (decrSize <= 0)
                        {
                            return(StatusCode.BadSecurityChecksFailed);
                        }
                    }
                }
                catch
                {
                    return(StatusCode.BadSecurityChecksFailed);
                }
            }

            if (!recvBuf.Decode(out securitySeqNum))
            {
                return(StatusCode.BadDecodingError);
            }
            if (!recvBuf.Decode(out securityReqId))
            {
                return(StatusCode.BadDecodingError);
            }

            recvBuf.Position = restorePos;

            return(StatusCode.Good);
        }
Exemplo n.º 4
0
        public static StatusCode UnsecureSymmetric(
            MemoryBuffer recvBuf,
            uint tokenID,
            uint?prevTokenID,
            int messageEncodedBlockStart,
            SLChannel.Keyset localKeyset,
            SLChannel.Keyset[] remoteKeysets,
            SecurityPolicy policy,
            MessageSecurityMode securityMode,
            out int decrSize)
        {
            decrSize = -1;
            int position = recvBuf.Position;

            if (!recvBuf.Decode(out byte v1) || !recvBuf.Decode(out uint v2) || (!recvBuf.Decode(out uint _) || !recvBuf.Decode(out uint v3)))
            {
                return(StatusCode.BadDecodingError);
            }

            int index1;

            if ((int)tokenID == (int)v3)
            {
                index1 = 0;
            }
            else
            {
                if (!prevTokenID.HasValue || (int)prevTokenID.Value != (int)v3)
                {
                    return(StatusCode.BadSecureChannelTokenUnknown);
                }

                index1 = 1;
            }
            if (securityMode == MessageSecurityMode.SignAndEncrypt)
            {
                try
                {
                    decrSize = UASecurity.RijndaelDecryptInplace(new ArraySegment <byte>(recvBuf.Buffer, messageEncodedBlockStart, (int)v2 - messageEncodedBlockStart), remoteKeysets[index1].SymEncKey, remoteKeysets[index1].SymIV) + messageEncodedBlockStart;
                }
                catch
                {
                    return(StatusCode.BadSecurityChecksFailed);
                }
            }
            else
            {
                decrSize = (int)v2;
            }

            if (securityMode >= MessageSecurityMode.Sign)
            {
                try
                {
                    int count = UASecurity.SignatureSizeForSecurityPolicy(policy);
                    ArraySegment <byte> data = new ArraySegment <byte>(recvBuf.Buffer, 0, (int)v2 - count);
                    byte[] array             = new ArraySegment <byte>(recvBuf.Buffer, (int)v2 - count, count).ToArray();
                    byte[] numArray          = UASecurity.SymmetricSign(remoteKeysets[index1].SymSignKey, data, policy);
                    if (array.Length != numArray.Length)
                    {
                        return(StatusCode.BadSecurityChecksFailed);
                    }

                    for (int index2 = 0; index2 < array.Length; ++index2)
                    {
                        if (array[index2] != numArray[index2])
                        {
                            return(StatusCode.BadSecurityChecksFailed);
                        }
                    }
                    byte num = securityMode == MessageSecurityMode.SignAndEncrypt ? (byte)(recvBuf.Buffer[v2 - count - 1L] + 1U) : (byte)0;
                    if (decrSize > 0)
                    {
                        decrSize -= count;
                        decrSize -= num;
                        if (decrSize <= 0)
                        {
                            return(StatusCode.BadSecurityChecksFailed);
                        }
                    }
                }
                catch
                {
                    return(StatusCode.BadSecurityChecksFailed);
                }
            }
            if (!recvBuf.Decode(out uint _) || !recvBuf.Decode(out uint _))
            {
                return(StatusCode.BadDecodingError);
            }

            recvBuf.Position = position;
            return(StatusCode.Good);
        }