示例#1
0
        private void ProcessMeasurements(IEnumerable <IMeasurement> measurements)
        {
            List <ISupportBinaryImage> packet = new List <ISupportBinaryImage>();
            bool useCompactMeasurementFormat  = m_useCompactMeasurementFormat;
            int  packetSize = 5;

            // Wait for any external events, if needed
            WaitForExternalEvents();

            // If a set of base times has not yet been initialized, initialize a set by rotating
            if (!m_initializedBaseTimeOffsets)
            {
                if (m_parent.UseBaseTimeOffsets)
                {
                    RotateBaseTimes();
                }

                m_initializedBaseTimeOffsets = true;
            }

            foreach (IMeasurement measurement in measurements)
            {
                ISupportBinaryImage binaryMeasurement;
                int binaryLength;

                // Serialize the current measurement.
                if (useCompactMeasurementFormat)
                {
                    binaryMeasurement = new CompactMeasurement(measurement, m_signalIndexCache, m_includeTime, m_baseTimeOffsets, m_timeIndex, m_useMillisecondResolution);
                }
                else
                {
                    binaryMeasurement = new SerializableMeasurement(measurement, m_parent.GetClientEncoding(m_clientID));
                }

                // Determine the size of the measurement in bytes.
                binaryLength = binaryMeasurement.BinaryLength;

                // If the current measurement will not fit in the packet based on the max
                // packet size, process the current packet and start a new packet.
                if (packetSize + binaryLength > DataPublisher.MaxPacketSize)
                {
                    ProcessBinaryMeasurements(packet, useCompactMeasurementFormat);
                    packet.Clear();
                    packetSize = 5;
                }

                // Add the current measurement to the packet.
                packet.Add(binaryMeasurement);
                packetSize += binaryLength;
            }

            // Process the remaining measurements.
            ProcessBinaryMeasurements(packet, useCompactMeasurementFormat);
        }
示例#2
0
        /// <summary>
        /// Publish <see cref="IFrame"/> of time-aligned collection of <see cref="IMeasurement"/> values that arrived within the
        /// concentrator's defined <see cref="ConcentratorBase.LagTime"/>.
        /// </summary>
        /// <param name="frame"><see cref="IFrame"/> of measurements with the same timestamp that arrived within <see cref="ConcentratorBase.LagTime"/> that are ready for processing.</param>
        /// <param name="index">Index of <see cref="IFrame"/> within a second ranging from zero to <c><see cref="ConcentratorBase.FramesPerSecond"/> - 1</c>.</param>
        protected override void PublishFrame(IFrame frame, int index)
        {
            if (!m_disposed)
            {
                List <ISupportBinaryImage> packet = new List <ISupportBinaryImage>();
                bool useCompactMeasurementFormat  = m_useCompactMeasurementFormat;
                long frameLevelTimestamp          = frame.Timestamp;
                int  packetSize = 13;

                foreach (IMeasurement measurement in frame.Measurements.Values)
                {
                    ISupportBinaryImage binaryMeasurement;
                    int binaryLength;

                    // Serialize the current measurement.
                    if (useCompactMeasurementFormat)
                    {
                        binaryMeasurement = new CompactMeasurement(measurement, m_signalIndexCache, false, null, 0, false);
                    }
                    else
                    {
                        binaryMeasurement = new SerializableMeasurement(measurement, m_parent.GetClientEncoding(ClientID));
                    }

                    // Determine the size of the measurement in bytes.
                    binaryLength = binaryMeasurement.BinaryLength;

                    // If the current measurement will not fit in the packet based on
                    // the max packet size, process the packet and start a new one.
                    if (packetSize + binaryLength > DataPublisher.MaxPacketSize)
                    {
                        ProcessBinaryMeasurements(packet, frameLevelTimestamp, useCompactMeasurementFormat);
                        packet.Clear();
                        packetSize = 13;
                    }

                    // Add the measurement to the packet.
                    packet.Add(binaryMeasurement);
                    packetSize += binaryLength;
                }

                // Process the remaining measurements.
                ProcessBinaryMeasurements(packet, frameLevelTimestamp, useCompactMeasurementFormat);
            }
        }
示例#3
0
        private void ProcessMeasurements(IEnumerable <IMeasurement> measurements)
        {
            // Includes data packet flags and measurement count
            const int PacketHeaderSize = DataPublisher.ClientResponseHeaderSize + 5;

            List <IBinaryMeasurement> packet;
            int packetSize;

            bool usePayloadCompression;
            bool useCompactMeasurementFormat;

            BufferBlockMeasurement bufferBlockMeasurement;

            byte[] bufferBlock;
            ushort bufferBlockSignalIndex;

            IBinaryMeasurement binaryMeasurement;
            int binaryLength;

            try
            {
                if (!Enabled)
                {
                    return;
                }

                packet     = new List <IBinaryMeasurement>();
                packetSize = PacketHeaderSize;

                usePayloadCompression       = m_usePayloadCompression;
                useCompactMeasurementFormat = m_useCompactMeasurementFormat || usePayloadCompression;

                foreach (IMeasurement measurement in measurements)
                {
                    bufferBlockMeasurement = measurement as BufferBlockMeasurement;

                    if ((object)bufferBlockMeasurement != null)
                    {
                        // Still sending buffer block measurements to client; we are expecting
                        // confirmations which will indicate whether retransmission is necessary,
                        // so we will restart the retransmission timer
                        m_bufferBlockRetransmissionTimer.Stop();

                        // Handle buffer block measurements as a special case - this can be any kind of data,
                        // measurement subscriber will need to know how to interpret buffer
                        bufferBlock = new byte[6 + bufferBlockMeasurement.Length];

                        // Prepend sequence number
                        BigEndian.CopyBytes(m_bufferBlockSequenceNumber, bufferBlock, 0);
                        m_bufferBlockSequenceNumber++;

                        // Copy signal index into buffer
                        bufferBlockSignalIndex = m_signalIndexCache.GetSignalIndex(bufferBlockMeasurement.ID);
                        BigEndian.CopyBytes(bufferBlockSignalIndex, bufferBlock, 4);

                        // Append measurement data and send
                        Buffer.BlockCopy(bufferBlockMeasurement.Buffer, 0, bufferBlock, 6, bufferBlockMeasurement.Length);
                        m_parent.SendClientResponse(m_workingBuffer, m_clientID, ServerResponse.BufferBlock, ServerCommand.Subscribe, bufferBlock);

                        lock (m_bufferBlockCacheLock)
                        {
                            // Cache buffer block for retransmission
                            m_bufferBlockCache.Add(bufferBlock);
                        }

                        // Start the retransmission timer in case we never receive a confirmation
                        m_bufferBlockRetransmissionTimer.Start();
                    }
                    else
                    {
                        // Serialize the current measurement.
                        if (useCompactMeasurementFormat)
                        {
                            binaryMeasurement = new CompactMeasurement(measurement, m_signalIndexCache, m_includeTime, m_baseTimeOffsets, m_timeIndex, m_useMillisecondResolution);
                        }
                        else
                        {
                            binaryMeasurement = new SerializableMeasurement(measurement, m_parent.GetClientEncoding(m_clientID));
                        }

                        // Determine the size of the measurement in bytes.
                        binaryLength = binaryMeasurement.BinaryLength;

                        // If the current measurement will not fit in the packet based on the max
                        // packet size, process the current packet and start a new packet.
                        if (packetSize + binaryLength > DataPublisher.MaxPacketSize)
                        {
                            ProcessBinaryMeasurements(packet, useCompactMeasurementFormat, usePayloadCompression);
                            packet.Clear();
                            packetSize = PacketHeaderSize;
                        }

                        // Add the current measurement to the packet.
                        packet.Add(binaryMeasurement);
                        packetSize += binaryLength;
                    }
                }

                // Process the remaining measurements.
                if (packet.Count > 0)
                {
                    ProcessBinaryMeasurements(packet, useCompactMeasurementFormat, usePayloadCompression);
                }

                IncrementProcessedMeasurements(measurements.Count());

                // Update latency statistics
                m_parent.UpdateLatencyStatistics(measurements.Select(m => (long)(m_lastPublishTime - m.Timestamp)));
            }
            catch (Exception ex)
            {
                string message = string.Format("Error processing measurements: {0}", ex.Message);
                OnProcessException(new InvalidOperationException(message, ex));
            }
        }
        /// <summary>
        /// Publish <see cref="IFrame"/> of time-aligned collection of <see cref="IMeasurement"/> values that arrived within the
        /// concentrator's defined <see cref="ConcentratorBase.LagTime"/>.
        /// </summary>
        /// <param name="frame"><see cref="IFrame"/> of measurements with the same timestamp that arrived within <see cref="ConcentratorBase.LagTime"/> that are ready for processing.</param>
        /// <param name="index">Index of <see cref="IFrame"/> within a second ranging from zero to <c><see cref="ConcentratorBase.FramesPerSecond"/> - 1</c>.</param>
        protected override void PublishFrame(IFrame frame, int index)
        {
            if ((object)m_parent == null || m_disposed)
            {
                return;
            }

            if (m_usePayloadCompression && m_compressionModes.HasFlag(CompressionModes.TSSC))
            {
                ProcessTSSCMeasurements(frame);
                return;
            }

            // Includes data packet flags, frame level timestamp and measurement count
            const int PacketHeaderSize = DataPublisher.ClientResponseHeaderSize + 13;

            List <IBinaryMeasurement> packet = new List <IBinaryMeasurement>();
            bool usePayloadCompression       = m_usePayloadCompression;
            bool useCompactMeasurementFormat = m_useCompactMeasurementFormat || usePayloadCompression;
            long frameLevelTimestamp         = frame.Timestamp;
            BufferBlockMeasurement bufferBlockMeasurement;
            IBinaryMeasurement     binaryMeasurement;

            byte[] bufferBlock;
            int    binaryLength;
            int    packetSize = PacketHeaderSize;

            long publishTime;

            foreach (IMeasurement measurement in frame.Measurements.Values)
            {
                bufferBlockMeasurement = measurement as BufferBlockMeasurement;

                if ((object)bufferBlockMeasurement != null)
                {
                    // Still sending buffer block measurements to client; we are expecting
                    // confirmations which will indicate whether retransmission is necessary,
                    // so we will restart the retransmission timer
                    m_bufferBlockRetransmissionTimer.Stop();

                    // Handle buffer block measurements as a special case - this can be any kind of data,
                    // measurement subscriber will need to know how to interpret buffer
                    bufferBlock = new byte[4 + bufferBlockMeasurement.Length];

                    // Prepend sequence number
                    BigEndian.CopyBytes(m_bufferBlockSequenceNumber, bufferBlock, 0);
                    m_bufferBlockSequenceNumber++;

                    // Append measurement data and send
                    Buffer.BlockCopy(bufferBlockMeasurement.Buffer, 0, bufferBlock, 4, bufferBlockMeasurement.Length);
                    m_parent.SendClientResponse(m_clientID, ServerResponse.BufferBlock, ServerCommand.Subscribe, bufferBlock);

                    lock (m_bufferBlockCacheLock)
                    {
                        // Cache buffer block for retransmission
                        m_bufferBlockCache.Add(bufferBlock);
                    }

                    // Start the retransmission timer in case we never receive a confirmation
                    m_bufferBlockRetransmissionTimer.Start();
                }
                else
                {
                    // Serialize the current measurement.
                    if (useCompactMeasurementFormat)
                    {
                        binaryMeasurement = new CompactMeasurement(measurement, m_signalIndexCache, false);
                    }
                    else
                    {
                        binaryMeasurement = new SerializableMeasurement(measurement, m_parent.GetClientEncoding(ClientID));
                    }

                    // Determine the size of the measurement in bytes.
                    binaryLength = binaryMeasurement.BinaryLength;

                    // If the current measurement will not fit in the packet based on
                    // the max packet size, process the packet and start a new one.
                    if (packetSize + binaryLength > DataPublisher.MaxPacketSize)
                    {
                        ProcessBinaryMeasurements(packet, frameLevelTimestamp, useCompactMeasurementFormat, usePayloadCompression);
                        packet.Clear();
                        packetSize = PacketHeaderSize;
                    }

                    // Add the measurement to the packet.
                    packet.Add(binaryMeasurement);
                    packetSize += binaryLength;
                }
            }

            // Process the remaining measurements.
            if (packet.Count > 0)
            {
                ProcessBinaryMeasurements(packet, frameLevelTimestamp, useCompactMeasurementFormat, usePayloadCompression);
            }

            // Update latency statistics
            publishTime = DateTime.UtcNow.Ticks;
            m_parent.UpdateLatencyStatistics(frame.Measurements.Values.Select(m => (long)(publishTime - m.Timestamp)));
        }