DP44/Common/DTS.CommonCore/.svn/pristine/97/978859ad236c9da1d0e5ba7ae348b0f5887356df.svn-base

using DTS.Common.Enums;
using DTS.Common.Enums.DASFactory;
using System.Collections.Generic;

namespace DTS.Common.Constant.DASSpecific
{
    public class SLICE6AIR
    {
        public const uint IENA_PTYPE_STREAM_MIN_PROTOCOL = 39;
        public const uint UART_STREAM_MIN_PROTOCOL = 41;
        public const uint MaxAAFilterRateHz = 50000;
        public const uint MaxSampleRateHz = 400000;
        public const uint MaxSampleRateHz_OBRDDR = uint.MaxValue;
        
        public const int MIN_PROTOCOL_VER = 1;
        public const int UDP_REALTIME_STREAM = MIN_PROTOCOL_VER;
        public const int SET_DSP_FILTER_SETTINGS = 28;
        public const int RECORD_AND_STREAM_SUBSAMPLE = 29;
        public const int UART_MULTIPLE_EVENT_MIN_PROTOCOL = 45;
        public const int RECORD_ON_BOOT_PROTOCOL = 46;
        /// <summary>
        /// minimum protocol version that S6A supports removing leap seconds
        /// http://manuscript.dts.local/f/cases/31747/Add-support-for-GPS-Time-leap-seconds
        /// </summary>
        public const int REMOVE_LEAP_SECONDS_VER = 42;
        /// <summary>
        /// minimum protocol version that S6A supports setting min packets per sample
        /// http://manuscript.dts.local/f/cases/31754/expose-number-of-ADC-samples-in-UDP-packet
        /// </summary>
        public const int ADC_SAMPLES_PER_PACKET_VER = 43;
		//minimum protocol version for attribute per Manuscript 18294
        public const int AC_COUPLER_ENABLE = 36;
        // minimum protocol version for PPS OUT clock types per Manuscript 29842
        public const int PPS_OUT_CLOCKS = 39;
        public static bool IsRecordingModeSupported(RecordingModes mode, int protocolVersion)
        {
            switch (mode)
            {
                case RecordingModes.CircularBuffer:
                case RecordingModes.Recorder:
                case RecordingModes.MultipleEventCircularBuffer:
                case RecordingModes.MultipleEventRecorder:
                case RecordingModes.HybridRecorder:
                case RecordingModes.MultipleEventHybridRecorder:
                case RecordingModes.ContinuousRecorder:
                case RecordingModes.CircularBufferPlusUART:
                case RecordingModes.RecorderPlusUART:
                case RecordingModes.MultipleEventRAMActive:
                case RecordingModes.RAMActive:
                    return true;
                case RecordingModes.MultipleEventCircularBufferAndStream:
                case RecordingModes.MultipleEventRecorderAndStream:
                case RecordingModes.CircularBufferAndStreamSubSample:
                case RecordingModes.HybridAndStream:
                case RecordingModes.MultipleEventHybridAndStream:
                case RecordingModes.RecorderAndStreamSubSample:
                    return protocolVersion >= RECORD_AND_STREAM_SUBSAMPLE;
                case RecordingModes.S6A_DeviceStreamingOnly:
                    return protocolVersion >= UDP_REALTIME_STREAM;
                case RecordingModes.ContinuousRecorderPlusUART:
                case RecordingModes.MultipleEventCircularBufferPlusUART:
                case RecordingModes.MultipleEventRecorderPlusUART:
                    return protocolVersion >= UART_MULTIPLE_EVENT_MIN_PROTOCOL;
                case RecordingModes.RecordOnBoot:
                case RecordingModes.RecordOnBootPlusUART:
                    return protocolVersion >= RECORD_ON_BOOT_PROTOCOL;
                default:
                    return false;
            }
        }

        public static bool IsStreamingProfileSupported(UDPStreamProfile profile, int protocolVersion)
        {
            switch(profile)
            {
                case UDPStreamProfile.RTCStreaming:
                case UDPStreamProfile.DTS_UDP:
                case UDPStreamProfile.CH10_MANUAL_CONFIG:
                case UDPStreamProfile.CH10_PCM128_MM:
                case UDPStreamProfile.CH10_ANALOG:
                case UDPStreamProfile.CH10_PCM_STANDARD:
                case UDPStreamProfile.CH10_PCM_SUPERCOM:
                case UDPStreamProfile.CH10_PCM_128BIT_2HDR:
                case UDPStreamProfile.CH10_ANALOG_2HDR:
                case UDPStreamProfile.CH10_PCM_STANDARD_2HDR:
                case UDPStreamProfile.CH10_PCM_SUPERCOM_2HDR:
                case UDPStreamProfile.TMNS_PCM_STANDARD:
                case UDPStreamProfile.TMNS_PCM_SUPERCOM:                
                    return true;
                case UDPStreamProfile.IENA_PTYPE_STREAM:
                     return protocolVersion >= IENA_PTYPE_STREAM_MIN_PROTOCOL;
                case UDPStreamProfile.UART_STREAM:
                    return protocolVersion >= UART_STREAM_MIN_PROTOCOL;
                default:
                    return false;
             }
        }

        public static bool IsClockSyncProfileSupported(ClockSyncProfile profile, int protocolVersion)
        {
            switch(profile)
            {
                case ClockSyncProfile.PPS_OUT:
                case ClockSyncProfile.GPS_EXT_PPS_PPS_OUT:
                case ClockSyncProfile.GPS_EXT_PPS_Master_E2E_PPS_OUT:
                case ClockSyncProfile.IRIG_EXT_PPS_PPS_OUT:
                case ClockSyncProfile.IRIG_EXT_PPS_Master_E2E_PPS_OUT:
                case ClockSyncProfile.EXT_PPS_PPS_OUT:
                case ClockSyncProfile.EXT_PPS_Master_E2E_PPS_OUT:
                case ClockSyncProfile.Slave_E2E_Master_E2E_OUT:
                case ClockSyncProfile.Slave_E2E_Master_E2E_PPS_OUT:
                case ClockSyncProfile.Manual:
                //30487: GPS only clock sync option should be removed
                case ClockSyncProfile.GPS: 
                case ClockSyncProfile.Master_E2E_GPS:
                case ClockSyncProfile.GPS_PPS_OUT:
                case ClockSyncProfile.GPS_Master_E2E_PPS_OUT:
                    return false;
                case ClockSyncProfile.Slave_E2E_PPS_OUT:
                case ClockSyncProfile.Master_E2E_PPS_OUT:
                case ClockSyncProfile.IRIG_Master_E2E_PPS_OUT:
                case ClockSyncProfile.IRIG_PPS_OUT:
                    return protocolVersion >= PPS_OUT_CLOCKS;
                default: return true;
            }
        }
        
        // 39151 preliminary guesses via this and 15323, to be tested and filled in by 39201
        private static Dictionary<UartBaudRate, uint> MaxSampleRateHz_UART = new Dictionary<UartBaudRate, uint>()
        {
            [UartBaudRate._110] = 30000,
            [UartBaudRate._300] = 30000,
            [UartBaudRate._600] = 30000,
            [UartBaudRate._1200] = 30000,
            [UartBaudRate._4800] = 30000,
            [UartBaudRate._9600] = 30000,
            [UartBaudRate._14400] = 10000,
            [UartBaudRate._19200] = 10000,
            [UartBaudRate._38400] = 10000,
            [UartBaudRate._57600] = 10000,
            [UartBaudRate._115200] = 10000,
            [UartBaudRate._230400] = 10000,
            [UartBaudRate._460800] = 10000,
            [UartBaudRate._921600] = 10000
        };

        public static uint MaxSampleRateHzForRecordingMode(RecordingModes mode, bool isEthernetRecorder, int protocolVersion = 1,  uint baudRate = 9600)
        {
            //39151
            if (isEthernetRecorder) { return MaxSampleRateHz_OBRDDR; }
            if (!RecordingModeExtensions.IsAUartMode(mode)) { return MaxSampleRateHz; }
            //Per LP, sample rate limit is a function of baud rate:
            //30kHz rate from FB15323 was tested at <=9600bps GPS testing, 10kHz rate limit from this issue was found during 921kbps testing other rates
            switch(baudRate)
            {
                case var n when n >= (uint)UartBaudRate._921600:
                    return MaxSampleRateHz_UART[UartBaudRate._921600];
                case var n when n >= (uint)UartBaudRate._460800:
                    return MaxSampleRateHz_UART[UartBaudRate._460800];
                case var n when n >= (uint)UartBaudRate._230400:
                    return MaxSampleRateHz_UART[UartBaudRate._230400];
                case var n when n >= (uint)UartBaudRate._115200:
                    return MaxSampleRateHz_UART[UartBaudRate._115200];
                case var n when n >= (uint)UartBaudRate._57600:
                    return MaxSampleRateHz_UART[UartBaudRate._57600];
                case var n when n >= (uint)UartBaudRate._38400:
                    return MaxSampleRateHz_UART[UartBaudRate._38400];
                case var n when n >= (uint)UartBaudRate._19200:
                    return MaxSampleRateHz_UART[UartBaudRate._19200];
                case var n when n >= (uint)UartBaudRate._14400:
                    return MaxSampleRateHz_UART[UartBaudRate._14400];
                case var n when n >= (uint)UartBaudRate._9600:
                    return MaxSampleRateHz_UART[UartBaudRate._9600];
                case var n when n >= (uint)UartBaudRate._4800:
                    return MaxSampleRateHz_UART[UartBaudRate._4800];
                case var n when n >= (uint)UartBaudRate._2400:
                    return MaxSampleRateHz_UART[UartBaudRate._2400];
                case var n when n >= (uint)UartBaudRate._1200:
                    return MaxSampleRateHz_UART[UartBaudRate._1200];
                case var n when n >= (uint)UartBaudRate._600:
                    return MaxSampleRateHz_UART[UartBaudRate._600];
                case var n when n >= (uint)UartBaudRate._300:
                    return MaxSampleRateHz_UART[UartBaudRate._300];
                default:
                    return MaxSampleRateHz_UART[UartBaudRate._110];
            }
        }
    }
}