logicanalyzer/Software/LogicAnalyzer/ParallelProtocolAnalyzer/ParallelAnalyzer.cs

476 lines
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C#
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2024-05-12 09:39:45 +00:00
using Avalonia.Media;
using AvaloniaEdit.Document;
using LogicAnalyzer.Controls;
using LogicAnalyzer.Protocols;
using System.Reflection;
namespace ParallelProtocolAnalyzer
{
public class ParallelAnalyzer : ProtocolAnalyzerBase
{
private SimpleSegmentRenderer renderer = new SimpleSegmentRenderer();
const string CS_SIGNAL_NAME = "CS";
const string RD_SIGNAL_NAME = "RD";
const string WR_SIGNAL_NAME = "WR";
const string DATA_SIGNAL_NAME = "Data";
const string ADDR_SIGNAL_NAME = "Address";
const string RISING_EDGE = "Rising";
const string FALLING_EDGE = "Falling";
const string READ_OP = "Read";
const string WRITE_OP = "Write";
public override string ProtocolName
{
get
{
return "Parallel";
}
}
static ProtocolAnalyzerSetting[] settings = new ProtocolAnalyzerSetting[]
{
new ProtocolAnalyzerSetting
{
SettingType = ProtocolAnalyzerSetting.ProtocolAnalyzerSettingType.List,
Caption = "CS edge",
ListValues = new string[]{ RISING_EDGE, FALLING_EDGE }
},
new ProtocolAnalyzerSetting
{
SettingType = ProtocolAnalyzerSetting.ProtocolAnalyzerSettingType.List,
Caption = "RD edge",
ListValues = new string[]{ RISING_EDGE, FALLING_EDGE }
},
new ProtocolAnalyzerSetting
{
SettingType = ProtocolAnalyzerSetting.ProtocolAnalyzerSettingType.List,
Caption = "WR edge",
ListValues = new string[]{ RISING_EDGE, FALLING_EDGE }
},
new ProtocolAnalyzerSetting
{
SettingType = ProtocolAnalyzerSetting.ProtocolAnalyzerSettingType.Integer,
Caption = "Read offset (in samples)",
IntegerMinimumValue = 0,
IntegerMaximumValue = 32
},
new ProtocolAnalyzerSetting
{
SettingType = ProtocolAnalyzerSetting.ProtocolAnalyzerSettingType.Integer,
Caption = "Write offset (in samples)",
IntegerMinimumValue = 0,
IntegerMaximumValue = 32
},
new ProtocolAnalyzerSetting
{
SettingType = ProtocolAnalyzerSetting.ProtocolAnalyzerSettingType.Integer,
Caption = "Data width",
IntegerMinimumValue = 4,
IntegerMaximumValue = 32
},
new ProtocolAnalyzerSetting
{
SettingType = ProtocolAnalyzerSetting.ProtocolAnalyzerSettingType.Integer,
Caption = "Address width",
IntegerMinimumValue = 0,
IntegerMaximumValue = 32
}
};
public override ProtocolAnalyzerSetting[] Settings
{
get
{
return settings;
}
}
ProtocolAnalyzerSignal[] signals = new ProtocolAnalyzerSignal[]
{
new ProtocolAnalyzerSignal
{
SignalName = CS_SIGNAL_NAME,
Required = false
},
new ProtocolAnalyzerSignal
{
SignalName = RD_SIGNAL_NAME,
Required = false
},
new ProtocolAnalyzerSignal
{
SignalName = WR_SIGNAL_NAME,
Required = false
},
new ProtocolAnalyzerSignal
{
SignalName = DATA_SIGNAL_NAME,
Required = true,
IsBus = true
},
new ProtocolAnalyzerSignal
{
SignalName = ADDR_SIGNAL_NAME,
Required = false,
IsBus = true
},
};
public override ProtocolAnalyzerSignal[] Signals
{
get
{
return signals;
}
}
public override int GetBusWidth(ProtocolAnalyzerSignal Signal, ProtocolAnalyzerSettingValue[] SelectedSettings)
{
if (Signal.SignalName == DATA_SIGNAL_NAME)
return (int)SelectedSettings[5].Value;
if(Signal.SignalName == ADDR_SIGNAL_NAME)
return (int)SelectedSettings[6].Value;
return 0;
}
public override ProtocolAnalyzedChannel[] Analyze(int SamplingRate, int TriggerSample, ProtocolAnalyzerSettingValue[] SelectedSettings, ProtocolAnalyzerSelectedChannel[] SelectedChannels)
{
/*
* The protocol analysis can work in two ways:
* 1-The CS signal is provided, this is used as the sampling trigger, RD/WR signals will determine
* if the OP is read or write, if none of these are provided then the operation is undetermined.
*
* 2-The CS signal is not provided, then the RD and/or WR signals will be used as trigger
*/
bool csTrigger = false;
bool useRD = false;
bool useWR = false;
//Check which trigger signals are used
csTrigger = SelectedChannels.Any(c => c.SignalName == CS_SIGNAL_NAME);
useRD = SelectedChannels.Any(c => c.SignalName == RD_SIGNAL_NAME);
useWR = SelectedChannels.Any(c => c.SignalName == WR_SIGNAL_NAME);
int csEdge = 0;
int rdEdge = 0;
int wrEdge = 0;
//Obtain the edges
if (csTrigger && SelectedSettings[0].Value?.ToString() == RISING_EDGE)
csEdge = 1;
if(useRD && SelectedSettings[1].Value?.ToString() == RISING_EDGE)
rdEdge = 1;
if(useWR && SelectedSettings[2].Value?.ToString() == RISING_EDGE)
wrEdge = 1;
//Get the sampling offsets
int readOffset = (int)SelectedSettings[3].Value;
int writeOffset = (int)SelectedSettings[4].Value;
//Compose the control channels
List<ControlChannel> controls = new List<ControlChannel>();
if (csTrigger)
controls.Add(new ControlChannel { Edge = (byte)csEdge, Samples = SelectedChannels.First(c => c.SignalName == CS_SIGNAL_NAME).Samples, SignalName = CS_SIGNAL_NAME });
if(useRD)
controls.Add(new ControlChannel { Edge = (byte)rdEdge, Samples = SelectedChannels.First(c => c.SignalName == RD_SIGNAL_NAME).Samples, SignalName = RD_SIGNAL_NAME });
if(useWR)
controls.Add(new ControlChannel { Edge = (byte)wrEdge, Samples = SelectedChannels.First(c => c.SignalName == WR_SIGNAL_NAME).Samples, SignalName = WR_SIGNAL_NAME });
//Compose the data channels
byte[][] dataBits = SelectedChannels.Where(c => c.SignalName == DATA_SIGNAL_NAME).OrderBy(c => c.BusIndex).Select(c => c.Samples).ToArray();
//Compose the address channels
byte[][] addressBits = SelectedChannels.Where(c => c.SignalName == ADDR_SIGNAL_NAME).OrderBy(c => c.BusIndex).Select(c => c.Samples).ToArray();
//Find all ops
List<OpData> foundOps = new List<OpData>();
int offset = 0;
OpData? next = FindNextOp(controls, dataBits, addressBits, readOffset, writeOffset, ref offset);
while (next != null)
{
foundOps.Add(next);
next = FindNextOp(controls, dataBits, addressBits, readOffset, writeOffset, ref offset);
}
//Compose all the data segments
var segments = foundOps.Select(o => ComposeSegment(o, addressBits.Length, dataBits.Length));
List<ProtocolAnalyzedChannel> results = new List<ProtocolAnalyzedChannel>();
//If we are using a CS trigger...
if (csTrigger)
{
var csChannel = SelectedChannels.First(c => c.SignalName == CS_SIGNAL_NAME);
//All the operations are shown in the CS channel
ProtocolAnalyzedChannel csChannelData = new ProtocolAnalyzedChannel(csChannel.SignalName, csChannel.ChannelIndex, renderer, segments.ToArray(), Colors.White, Color.FromArgb(100, Colors.Blue.R, Colors.Blue.G, Colors.Blue.B));
results.Add(csChannelData);
}
else
{
if (useRD)
{
var rdChannel = SelectedChannels.First(c => c.SignalName == RD_SIGNAL_NAME);
//Show read ops in RD channel
ProtocolAnalyzedChannel csChannelData = new ProtocolAnalyzedChannel(rdChannel.SignalName, rdChannel.ChannelIndex, renderer, segments.Where(s => s.Value.Contains(READ_OP)).ToArray(), Colors.White, Color.FromArgb(100, Colors.Green.R, Colors.Green.G, Colors.Green.B));
results.Add(csChannelData);
}
if (useWR)
{
var wrChannel = SelectedChannels.First(c => c.SignalName == WR_SIGNAL_NAME);
//Show read ops in RD channel
ProtocolAnalyzedChannel csChannelData = new ProtocolAnalyzedChannel(wrChannel.SignalName, wrChannel.ChannelIndex, renderer, segments.Where(s => s.Value.Contains(WRITE_OP)).ToArray(), Colors.White, Color.FromArgb(100, Colors.Red.R, Colors.Red.G, Colors.Red.B));
results.Add(csChannelData);
}
}
return results.ToArray();
}
private ProtocolAnalyzerDataSegment ComposeSegment(OpData o, int AddressBits, int DataBits)
{
int addressNibbles = (AddressBits / 4) + ((AddressBits % 4) == 0 ? 0 : 1);
int dataNibbles = (DataBits / 4) + ((DataBits % 4) == 0 ? 0 : 1);
ProtocolAnalyzerDataSegment segment = new ProtocolAnalyzerDataSegment();
segment.FirstSample = o.Start;
segment.LastSample = o.End - 1;
string value = "";
if (addressNibbles != 0 && o.Address != null)
value += $"A: 0x{o.Address.Value.ToString($"X{addressNibbles}")}\r\n";
if (o.Operation != null)
value += $"{o.Operation}: 0x{o.Value.ToString($"X{dataNibbles}")}";
else
value += $"V: 0x{o.Value.ToString($"X{dataNibbles}")}";
segment.Value = value;
return segment;
}
private OpData? FindNextOp(IEnumerable<ControlChannel> controls, byte[][] dataBits, byte[][] addressBits, int readOffset, int writeOffset, ref int offset)
{
int max = dataBits[0].Length;
int start = -1;
int end = max;
//Find the trigger and range
if (controls.Any(c => c.SignalName == CS_SIGNAL_NAME))
{
var cs = controls.First(c => c.SignalName == CS_SIGNAL_NAME);
for (int buc = offset; buc < max; buc++)
{
if (cs.Samples[buc] == cs.Edge)
{
start = buc;
break;
}
}
if (start == -1)
return null;
for (int buc = start; buc < max; buc++)
{
if (cs.Samples[buc] != cs.Edge)
{
end = buc;
break;
}
}
}
else
{
ControlChannel? trigger = null;
for (int buc = offset; buc < max; buc++)
{
foreach(var control in controls)
{
if (control.Samples[buc] == control.Edge)
{
trigger = control;
start = buc;
break;
}
}
if (trigger != null)
break;
}
if (trigger == null)
return null;
for (int buc = start; buc < max; buc++)
{
if (trigger.Samples[buc] != trigger.Edge)
{
end = buc;
break;
}
}
}
OpData op = new OpData { Start = start, End = end };
int samplePos = start;
op.Operation = GetOp(controls, samplePos);
op.Address = GetAddress(addressBits, samplePos);
if (op.Operation == READ_OP)
{
if (start + readOffset < end)
samplePos = start + readOffset;
else
samplePos = end - 1;
}
else if (op.Operation == WRITE_OP)
{
if (start + writeOffset < end)
samplePos = start + writeOffset;
else
samplePos = end - 1;
}
else
{
int maxOffset = readOffset > writeOffset ? readOffset : writeOffset;
if (start + maxOffset < end)
samplePos = start + maxOffset;
else
samplePos = end - 1;
}
op.Value = GetData(dataBits, samplePos);
offset = end;
return op;
}
private string? GetOp(IEnumerable<ControlChannel> controls, int samplePos)
{
var rdChannel = controls.FirstOrDefault(c => c.SignalName == RD_SIGNAL_NAME);
var wrChannel = controls.FirstOrDefault(c => c.SignalName == WR_SIGNAL_NAME);
if(rdChannel == null && wrChannel == null)
return null;
if (rdChannel != null && rdChannel.Samples[samplePos] == rdChannel.Edge)
return READ_OP;
if (wrChannel != null && wrChannel.Samples[samplePos] == wrChannel.Edge)
return WRITE_OP;
return null;
}
private uint? GetAddress(byte[][] addressBits, int samplePos)
{
if(addressBits == null || addressBits.Length == 0)
return null;
uint address = 0;
for (int buc = 0; buc < addressBits.Length; buc++)
address |= (uint)(addressBits[buc][samplePos] << buc);
return address;
}
private uint GetData(byte[][] dataBits, int samplePos)
{
uint value = 0;
for(int buc = 0; buc < dataBits.Length; buc++)
value |= (uint)(dataBits[buc][samplePos] << buc);
return value;
}
public override bool ValidateSettings(ProtocolAnalyzerSettingValue[] SelectedSettings, ProtocolAnalyzerSelectedChannel[] SelectedChannels)
{
bool csTrigger = false;
bool useRD = false;
bool useWR = false;
//Check which trigger signals are used
csTrigger = SelectedChannels.Any(c => c.SignalName == CS_SIGNAL_NAME);
useRD = SelectedChannels.Any(c => c.SignalName == RD_SIGNAL_NAME);
useWR = SelectedChannels.Any(c => c.SignalName == WR_SIGNAL_NAME);
//If no control signal selected then configuration is invalid
if (!csTrigger && !useRD && !useWR)
return false;
//If CS signal is selected, check for the edge selection
if(csTrigger && SelectedSettings[0].Value == null)
return false;
//If RD signal is selected, check for the edge selection
if (useRD && SelectedSettings[1].Value == null)
return false;
//If WR signal is selected, check for the edge selection
if (useWR && SelectedSettings[2].Value == null)
return false;
int addressSize = 0;
if (SelectedSettings[5].Value != null)
addressSize = (int)SelectedSettings[5].Value;
//If an address size is provided check for its channels
if (addressSize > 0 && !SelectedChannels.Any(c => c.SignalName == ADDR_SIGNAL_NAME))
return false;
//Check for the data channels
if (!SelectedChannels.Any(c => c.SignalName == DATA_SIGNAL_NAME))
return false;
return true;
}
private class ControlChannel
{
public string SignalName { get; set; }
public byte[] Samples { get; set; }
public byte Edge { get; set; }
}
private class OpData
{
public int Start { get; set; }
public int End { get; set; }
public uint? Address { get; set; }
public uint Value { get; set; }
public string? Operation { get; set; }
}
}
}