public AllocationTickMemoryProfiler(TraceEventSession session, int pid, ProcessAllocationInfo allocations, bool verbose = false)
{
if (session == null)
{
throw new NullReferenceException(nameof(session));
}
_session = session;
if (allocations == null)
{
throw new NullReferenceException(nameof(allocations));
}
_allocations = allocations;
_pid = pid;
_verbose = verbose;
_symbolLookupMessages = new StringWriter();
// By default a symbol Reader uses whatever is in the _NT_SYMBOL_PATH variable. However you can override
// if you wish by passing it to the SymbolReader constructor. Since we want this to work even if you
// have not set an _NT_SYMBOL_PATH, so we add the Microsoft default symbol server path to be sure/
var symbolPath = new SymbolPath(SymbolPath.SymbolPathFromEnvironment).Add(SymbolPath.MicrosoftSymbolServerPath);
_symbolReader = new SymbolReader(_symbolLookupMessages, symbolPath.ToString());
// By default the symbol reader will NOT read PDBs from 'unsafe' locations (like next to the EXE)
// because hackers might make malicious PDBs. If you wish ignore this threat, you can override this
// check to always return 'true' for checking that a PDB is 'safe'.
_symbolReader.SecurityCheck = (path => true);
}
private void AddMSSymbolsClicked(object sender, RoutedEventArgs e)
{
var symPath = new SymbolPath(GetValue());
symPath.Add("SRV*http://msdl.microsoft.com/download/symbols");
SymbolPathTextBox.Text = symPath.InsureHasCache(symPath.DefaultSymbolCache()).CacheFirst().ToString();
GetValue();
}
public CpuSampleProfilerBase()
{
_symbolLookupMessages = new StringWriter();
// By default a symbol Reader uses whatever is in the _NT_SYMBOL_PATH variable. However you can override
// if you wish by passing it to the SymbolReader constructor. Since we want this to work even if you
// have not set an _NT_SYMBOL_PATH, so we add the Microsoft default symbol server path to be sure/
var symbolPath = new SymbolPath(SymbolPath.SymbolPathFromEnvironment).Add(SymbolPath.MicrosoftSymbolServerPath);
_symbolReader = new SymbolReader(_symbolLookupMessages, symbolPath.ToString());
// By default the symbol reader will NOT read PDBs from 'unsafe' locations (like next to the EXE)
// because hackers might make malicious PDBs. If you wish ignore this threat, you can override this
// check to always return 'true' for checking that a PDB is 'safe'.
_symbolReader.SecurityCheck = (path => true);
}
protected SymbolBuilderBase(SymbolPath path, ISymbol symbol, Location location)
{
Path = path ?? throw new ArgumentNullException(nameof(path));
Symbol = symbol ?? throw new ArgumentNullException(nameof(symbol));
Location = location ?? throw new ArgumentNullException(nameof(location));
}
public static void Run()
{
var monitoringTimeSec = 10;
Out.WriteLine("******************** RealTimeTraceLog DEMO (win8) ********************");
Out.WriteLine("This program Shows how to use the real-time support in TraceLog");
Out.WriteLine("We do this by showing how to monitor exceptions in real time ");
Out.WriteLine();
Out.WriteLine("This code depends on a Feature of Windows 8.1 (combined user and kernel sessions)");
Out.WriteLine();
Out.WriteLine("Note that this support is currently experimental and subject to change");
Out.WriteLine();
Out.WriteLine("Monitoring .NET Module load and Exception events (with stacks).");
Out.WriteLine("Run some managed code (ideally that has exceptions) while the monitor is running.");
Out.WriteLine();
if (Environment.OSVersion.Version.Major * 10 + Environment.OSVersion.Version.Minor < 62)
{
Out.WriteLine("This demo only works on Win8 / Win 2012 an above)");
return;
}
TraceEventSession session = null;
// Set up Ctrl-C to stop both user mode and kernel mode sessions
Console.CancelKeyPress += (object sender, ConsoleCancelEventArgs cancelArgs) =>
{
if (session != null)
{
session.Dispose();
}
cancelArgs.Cancel = true;
};
// Cause an exception to be thrown a few seconds in (so we have something interesting to look at)
var exceptionGeneationTask = Task.Factory.StartNew(delegate
{
Thread.Sleep(3000);
ThrowException();
});
Timer timer = null;
// Create the new session to receive the events.
// Because we are on Win 8 this single session can handle both kernel and non-kernel providers.
using (session = new TraceEventSession("TraceLogSession"))
{
// Enable the events we care about for the kernel
// For this instant the session will buffer any incoming events.
// Enabling kernel events must be done before anything else.
// This will fail on Win7.
//
// Note that if you turn on the KernelTraceEventParser.Keywords.Profile, you can also get stacks for CPU sampling
// (every millisecond). (You can use the traceLogSource.Kernel.PerfInfoSample callback).
Out.WriteLine("Enabling Image load, Process and Thread events. These are needed to look up native method names.");
session.EnableKernelProvider(
// KernelTraceEventParser.Keywords.Profile | // If you want CPU sampling events
// KernelTraceEventParser.Keywords.ContextSwitch | // If you want context switch events
// KernelTraceEventParser.Keywords.Thread | // If you want context switch events you also need thread start events.
KernelTraceEventParser.Keywords.ImageLoad |
KernelTraceEventParser.Keywords.Process, /****** The second parameter indicates which kernel events should have stacks *****/
// KernelTraceEventParser.Keywords.ImageLoad | // If you want Stacks image load (load library) events
// KernelTraceEventParser.Keywords.Profile | // If you want Stacks for CPU sampling events
// KernelTraceEventParser.Keywords.ContextSwitch | // If you want Stacks for context switch events
KernelTraceEventParser.Keywords.None
);
Out.WriteLine("Enabling CLR Exception and Load events (and stack for those events)");
// We are monitoring exception events (with stacks) and module load events (with stacks)
session.EnableProvider(
ClrTraceEventParser.ProviderGuid,
TraceEventLevel.Informational,
(ulong)(ClrTraceEventParser.Keywords.Jit | // Turning on JIT events is necessary to resolve JIT compiled code
ClrTraceEventParser.Keywords.JittedMethodILToNativeMap | // This is needed if you want line number information in the stacks
ClrTraceEventParser.Keywords.Loader | // You must include loader events as well to resolve JIT compiled code.
ClrTraceEventParser.Keywords.Exception | // We want to see the exception events.
ClrTraceEventParser.Keywords.Stack)); // And stacks on all CLR events where it makes sense.
// The CLR events turned on above will let you resolve JIT compiled code as long as the JIT compilation
// happens AFTER the session has started. To handle the case for JIT compiled code that was already
// compiled we need to tell the CLR to dump 'Rundown' events for all existing JIT compiled code. We
// do that here.
Out.WriteLine("Enabling CLR Events to 'catch up' on JIT compiled code in running processes.");
session.EnableProvider(ClrRundownTraceEventParser.ProviderGuid, TraceEventLevel.Informational,
(ulong)(ClrTraceEventParser.Keywords.Jit | // We need JIT events to be rundown to resolve method names
ClrTraceEventParser.Keywords.JittedMethodILToNativeMap | // This is needed if you want line number information in the stacks
ClrTraceEventParser.Keywords.Loader | // As well as the module load events.
ClrTraceEventParser.Keywords.StartEnumeration)); // This indicates to do the rundown now (at enable time)
// Because we care about symbols in native code or NGEN images, we need a SymbolReader to decode them.
// There is a lot of messages associated with looking up symbols, but we don't want to clutter up
// The output by default, so we save it to an internal buffer you can ToString in debug code.
// A real app should make this available somehow to the user, because sooner or later you DO need it.
TextWriter SymbolLookupMessages = new StringWriter();
// TextWriter SymbolLookupMessages = Out; // If you want the symbol debug spew to go to the output, use this.
// By default a symbol Reader uses whatever is in the _NT_SYMBOL_PATH variable. However you can override
// if you wish by passing it to the SymbolReader constructor. Since we want this to work even if you
// have not set an _NT_SYMBOL_PATH, so we add the Microsoft default symbol server path to be sure/
var symbolPath = new SymbolPath(SymbolPath.SymbolPathFromEnvironment).Add(SymbolPath.MicrosoftSymbolServerPath);
SymbolReader symbolReader = new SymbolReader(SymbolLookupMessages, symbolPath.ToString());
Out.WriteLine("Open a real time TraceLog session (which understands how to decode stacks).");
using (TraceLogEventSource traceLogSource = TraceLog.CreateFromTraceEventSession(session))
{
// We use this action in the particular callbacks below. Basically we pass in a symbol reader so we can decode the stack.
// Often the symbol reader is a global variable instead.
Action <TraceEvent> PrintEvent = ((TraceEvent data) => Print(data, symbolReader));
// We will print Exceptions and ModuleLoad events. (with stacks).
traceLogSource.Clr.ExceptionStart += PrintEvent;
traceLogSource.Clr.LoaderModuleLoad += PrintEvent;
// traceLogSource.Clr.All += PrintEvent;
// If you want to see stacks for various other kernel events, uncomment these (you also need to turn on the events above)
traceLogSource.Kernel.PerfInfoSample += ((SampledProfileTraceData data) => Print(data, symbolReader));
// traceLogSource.Kernel.ImageLoad += ((ImageLoadTraceData data) => Print(data, symbolReader));
// process events until Ctrl-C is pressed or timeout expires
Out.WriteLine("Waiting {0} sec for Events. Run managed code to see data. ", monitoringTimeSec);
Out.WriteLine("Keep in mind there is a several second buffering delay");
// Set up a timer to stop processing after monitoringTimeSec
timer = new Timer(delegate(object state)
{
Out.WriteLine("Stopped Monitoring after {0} sec", monitoringTimeSec);
if (session != null)
{
session.Dispose();
}
session = null;
}, null, monitoringTimeSec * 1000, Timeout.Infinite);
traceLogSource.Process();
}
}
Out.WriteLine("Finished");
if (timer != null)
{
timer.Dispose(); // Turn off the timer.
}
}
public SymbolReference(SymbolPath path, string name, string fullName, SymbolType type, SourceSpan location) :
base(path, name, fullName, type, location)
{
}
public ICallTreeDataProvider Get()
{
var queryString = this.httpRequest.Query;
string filename = queryString["filename"];
string stacktype = queryString["stacktype"];
if (string.IsNullOrEmpty(filename))
{
throw new ArgumentNullException("filename");
}
if (string.IsNullOrEmpty(stacktype))
{
throw new ArgumentNullException("stacktype");
}
/* symbols and sources related parameters */
string sympathStr = (string)queryString["sympath"] ?? SymbolPath.MicrosoftSymbolServerPath;
SymbolPath symPath = new SymbolPath(sympathStr);
string defaultSymbolCache = symPath.DefaultSymbolCache();
// Normalize the symbol path.
symPath = symPath.InsureHasCache(defaultSymbolCache);
sympathStr = symPath.ToString();
string srcpath = (string)queryString["srcpath"];
//TODO FIX NOW: Dont spew to the Console, send it back to the client.
SymbolReader symbolReader = new SymbolReader(Console.Out, sympathStr);
if (srcpath != null)
{
symbolReader.SourcePath = srcpath;
}
string modulePatStr = (string)queryString["symLookupPats"] ?? @"^(clr|ntoskrnl|ntdll|.*\.ni)";
/* filtering parameters */
string start = (string)queryString["start"] ?? string.Empty;
string end = (string)queryString["end"] ?? string.Empty;
string incpats = (string)queryString["incpats"] ?? string.Empty;
string excpats = (string)queryString["excpats"] ?? string.Empty;
string foldpats = (string)queryString["foldpats"] ?? string.Empty;
string grouppats = (string)queryString["grouppats"] ?? string.Empty;
string foldpct = (string)queryString["foldpct"] ?? string.Empty;
string find = (string)queryString["find"] ?? string.Empty;
EtlxFile etlxFile;
// Do it twice so that XXX.etl.zip becomes XXX.
string etlxFilePath = Path.ChangeExtension(Path.ChangeExtension(filename, null), ".etlx");
lock (this.etlxCache)
{
if (this.etlxCache.TryGetValue(filename, out etlxFile))
{
if (etlxFile == null)
{
throw new ArgumentNullException("etlxFile");
}
}
else
{
etlxFile = new EtlxFile(filename)
{
Pending = true
};
this.etlxCache.Set(filename, etlxFile, this.cacheExpirationTime);
}
}
lock (etlxFile)
{
if (etlxFile.Pending)
{
if (!File.Exists(etlxFilePath))
{
// if it's a zip file
if (string.Equals(Path.GetExtension(filename), ".zip", StringComparison.OrdinalIgnoreCase))
{
//TODO FIX NOW: Dont spew to the Console, send it back to the client.
ZippedETLReader reader = new ZippedETLReader(filename, Console.Out);
reader.SymbolDirectory = defaultSymbolCache;
reader.EtlFileName = Path.ChangeExtension(etlxFilePath, etlExtension);
reader.UnpackAchive();
TraceLog.CreateFromEventTraceLogFile(reader.EtlFileName, etlxFilePath);
}
else
{
TraceLog.CreateFromEventTraceLogFile(filename, etlxFilePath);
}
}
etlxFile.TraceLog = TraceLog.OpenOrConvert(etlxFilePath);
etlxFile.Pending = false;
}
Regex modulePat = new Regex(modulePatStr, RegexOptions.IgnoreCase);
foreach (var moduleFile in etlxFile.TraceLog.ModuleFiles)
{
if (modulePat.IsMatch(moduleFile.Name))
{
etlxFile.TraceLog.CodeAddresses.LookupSymbolsForModule(symbolReader, moduleFile);
}
}
}
StackViewerSession stackViewerSession;
lock (this.stackViewerSessionCache)
{
var filterParams = new FilterParams {
Name = filename + stacktype, StartTimeRelativeMSec = start, EndTimeRelativeMSec = end, MinInclusiveTimePercent = foldpct, FoldRegExs = foldpats, IncludeRegExs = incpats, ExcludeRegExs = excpats, GroupRegExs = grouppats
};
var keyBuilder = new StringBuilder();
keyBuilder.Append(filterParams.Name).Append("?" + filterParams.StartTimeRelativeMSec).Append("?" + filterParams.EndTimeRelativeMSec).Append("?" + filterParams.MinInclusiveTimePercent).Append("?" + filterParams.FoldRegExs).Append("?" + filterParams.IncludeRegExs).Append("?" + filterParams.ExcludeRegExs).Append("?" + filterParams.GroupRegExs).Append("?" + find);
var stackViewerKey = keyBuilder.ToString();
if (this.stackViewerSessionCache.TryGetValue(stackViewerKey, out stackViewerSession))
{
if (stackViewerSession == null)
{
throw new ArgumentNullException("stackViewerSession");
}
}
else
{
stackViewerSession = new StackViewerSession(filename, stacktype, etlxFile.TraceLog, filterParams, symbolReader);
this.stackViewerSessionCache.Set(stackViewerKey, stackViewerSession, cacheExpirationTime);
}
}
lock (stackViewerSession)
{
if (stackViewerSession.Pending)
{
stackViewerSession.InitializeDataProvider();
stackViewerSession.Pending = false;
}
}
return(stackViewerSession.GetDataProvider());
}
public static void Run()
{
var monitoringTimeSec = 10;
Out.WriteLine("******************** RealTimeTraceLog DEMO (win8) ********************");
Out.WriteLine("This program Shows how to use the real-time support in TraceLog");
Out.WriteLine("We do this by showing how to monitor exceptions in real time ");
Out.WriteLine();
Out.WriteLine("This code depends on a Feature of Windows 8.1 (combined user and kernel sessions)");
Out.WriteLine();
Out.WriteLine("Note that this support is currently experimental and subject to change");
Out.WriteLine();
Out.WriteLine("Monitoring .NET Module load and Exception events (with stacks).");
Out.WriteLine("Run some managed code (ideally that has exceptions) while the monitor is running.");
Out.WriteLine();
if (Environment.OSVersion.Version.Major * 10 + Environment.OSVersion.Version.Minor < 62)
{
Out.WriteLine("This demo only works on Win8 / Win 2012 and above)");
return;
}
TraceEventSession session = null;
// Set up Ctrl-C to stop both user mode and kernel mode sessions
Console.CancelKeyPress += (object sender, ConsoleCancelEventArgs cancelArgs) =>
{
if (session != null)
session.Dispose();
cancelArgs.Cancel = true;
};
// Cause an exception to be thrown a few seconds in (so we have something interesting to look at)
var exceptionGeneationTask = Task.Factory.StartNew(delegate
{
Thread.Sleep(3000);
ThrowException();
});
Timer timer = null;
// Create the new session to receive the events.
// Because we are on Win 8 this single session can handle both kernel and non-kernel providers.
using (session = new TraceEventSession("TraceLogSession"))
{
// Enable the events we care about for the kernel
// For this instant the session will buffer any incoming events.
// Enabling kernel events must be done before anything else.
// This will fail on Win7.
//
// Note that if you turn on the KernelTraceEventParser.Keywords.Profile, you can also get stacks for CPU sampling
// (every millisecond). (You can use the traceLogSource.Kernel.PerfInfoSample callback).
Out.WriteLine("Enabling Image load, Process and Thread events. These are needed to look up native method names.");
session.EnableKernelProvider(
// KernelTraceEventParser.Keywords.Profile | // If you want CPU sampling events
// KernelTraceEventParser.Keywords.ContextSwitch | // If you want context switch events
// KernelTraceEventParser.Keywords.Thread | // If you want context switch events you also need thread start events.
KernelTraceEventParser.Keywords.ImageLoad |
KernelTraceEventParser.Keywords.Process, /****** The second parameter indicates which kernel events should have stacks *****/
// KernelTraceEventParser.Keywords.ImageLoad | // If you want Stacks image load (load library) events
// KernelTraceEventParser.Keywords.Profile | // If you want Stacks for CPU sampling events
// KernelTraceEventParser.Keywords.ContextSwitch | // If you want Stacks for context switch events
KernelTraceEventParser.Keywords.None
);
Out.WriteLine("Enabling CLR Exception and Load events (and stack for those events)");
// We are monitoring exception events (with stacks) and module load events (with stacks)
session.EnableProvider(
ClrTraceEventParser.ProviderGuid,
TraceEventLevel.Informational,
(ulong)(ClrTraceEventParser.Keywords.Jit | // Turning on JIT events is necessary to resolve JIT compiled code
ClrTraceEventParser.Keywords.JittedMethodILToNativeMap | // This is needed if you want line number information in the stacks
ClrTraceEventParser.Keywords.Loader | // You must include loader events as well to resolve JIT compiled code.
ClrTraceEventParser.Keywords.Exception | // We want to see the exception events.
ClrTraceEventParser.Keywords.Stack)); // And stacks on all CLR events where it makes sense.
// The CLR events turned on above will let you resolve JIT compiled code as long as the JIT compilation
// happens AFTER the session has started. To handle the case for JIT compiled code that was already
// compiled we need to tell the CLR to dump 'Rundown' events for all existing JIT compiled code. We
// do that here.
Out.WriteLine("Enabling CLR Events to 'catch up' on JIT compiled code in running processes.");
session.EnableProvider(ClrRundownTraceEventParser.ProviderGuid, TraceEventLevel.Informational,
(ulong)(ClrTraceEventParser.Keywords.Jit | // We need JIT events to be rundown to resolve method names
ClrTraceEventParser.Keywords.JittedMethodILToNativeMap | // This is needed if you want line number information in the stacks
ClrTraceEventParser.Keywords.Loader | // As well as the module load events.
ClrTraceEventParser.Keywords.StartEnumeration)); // This indicates to do the rundown now (at enable time)
// Because we care about symbols in native code or NGEN images, we need a SymbolReader to decode them.
// There is a lot of messages associated with looking up symbols, but we don't want to clutter up
// The output by default, so we save it to an internal buffer you can ToString in debug code.
// A real app should make this available somehow to the user, because sooner or later you DO need it.
TextWriter SymbolLookupMessages = new StringWriter();
// TextWriter SymbolLookupMessages = Out; // If you want the symbol debug spew to go to the output, use this.
// By default a symbol Reader uses whatever is in the _NT_SYMBOL_PATH variable. However you can override
// if you wish by passing it to the SymbolReader constructor. Since we want this to work even if you
// have not set an _NT_SYMBOL_PATH, so we add the Microsoft default symbol server path to be sure/
var symbolPath = new SymbolPath(SymbolPath.SymbolPathFromEnvironment).Add(SymbolPath.MicrosoftSymbolServerPath);
SymbolReader symbolReader = new SymbolReader(SymbolLookupMessages, symbolPath.ToString());
Out.WriteLine("Open a real time TraceLog session (which understands how to decode stacks).");
using (TraceLogEventSource traceLogSource = TraceLog.CreateFromTraceEventSession(session))
{
// We use this action in the particular callbacks below. Basically we pass in a symbol reader so we can decode the stack.
// Often the symbol reader is a global variable instead.
Action<TraceEvent> PrintEvent = ((TraceEvent data) => Print(data, symbolReader));
// We will print Exceptions and ModuleLoad events. (with stacks).
traceLogSource.Clr.ExceptionStart += PrintEvent;
traceLogSource.Clr.LoaderModuleLoad += PrintEvent;
// traceLogSource.Clr.All += PrintEvent;
// If you want to see stacks for various other kernel events, uncomment these (you also need to turn on the events above)
traceLogSource.Kernel.PerfInfoSample += ((SampledProfileTraceData data) => Print(data, symbolReader));
// traceLogSource.Kernel.ImageLoad += ((ImageLoadTraceData data) => Print(data, symbolReader));
// process events until Ctrl-C is pressed or timeout expires
Out.WriteLine("Waiting {0} sec for Events. Run managed code to see data. ", monitoringTimeSec);
Out.WriteLine("Keep in mind there is a several second buffering delay");
// Set up a timer to stop processing after monitoringTimeSec
timer = new Timer(delegate(object state)
{
Out.WriteLine("Stopped Monitoring after {0} sec", monitoringTimeSec);
if (session != null)
session.Dispose();
session = null;
}, null, monitoringTimeSec * 1000, Timeout.Infinite);
traceLogSource.Process();
}
}
Out.WriteLine("Finished");
if (timer != null)
timer.Dispose(); // Turn off the timer.
}
public SymbolDefinitionBuilder(SymbolPath path, ISymbol symbol, Location location) : base(path, symbol, location)
{
}
public static SymbolReader GetSymbolReader(string additionalPath, string etlFilePath = null, SymbolReaderOptions symbolFlags = SymbolReaderOptions.None)
{
string localSymbolPath = @"D:\home\data\DaaS\symbols";
if (!Directory.Exists(@"D:\home\data\DaaS"))
{
localSymbolPath = Path.Combine(Path.GetDirectoryName(Assembly.GetExecutingAssembly().Location), "symbols");
}
SymbolPath symPath = new SymbolPath(string.Format(@"srv*{0}*http://msdl.microsoft.com/download/symbols", localSymbolPath));
if ((symbolFlags & SymbolReaderOptions.CacheOnly) != 0)
{
symPath = new SymbolPath("SRV*" + symPath.DefaultSymbolCache());
}
var assemblyDir = Assembly.GetEntryAssembly().Location;
//
// This is required if we ever don't end up caching the symbols of
// our images on the symbol server. In those cases, the DAAS package
// should be updated with the Symbols folder for ngen binaries.
//
var daasPath = assemblyDir.Substring(0, assemblyDir.IndexOf("bin", StringComparison.InvariantCultureIgnoreCase));
var daasSymbolPath = Path.Combine(daasPath, "Symbols");
if (!Directory.Exists(daasSymbolPath))
{
daasSymbolPath = "";
}
symPath.Insert(@"srv*d:\NdpCorePdb*");
symPath.Insert(@"srv*D:\home\data\DaaS\symbols*" + daasSymbolPath);
string localSymDir = symPath.DefaultSymbolCache();
if (etlFilePath != null)
{
// Add the directory where the file resides and a 'symbols' subdirectory
var filePathDir = Path.GetDirectoryName(etlFilePath);
if (filePathDir.Length != 0)
{
// Then the directory where the .ETL file lives.
symPath.Insert(filePathDir);
// If there is a 'symbols' directory next to the data file, look for symbols there
// as well. Note that we also put copies of any symbols here as well (see below)
string potentiallocalSymDir = Path.Combine(filePathDir, "symbols");
if (Directory.Exists(potentiallocalSymDir))
{
symPath.Insert(potentiallocalSymDir);
symPath.Insert("SRV*" + potentiallocalSymDir);
localSymDir = potentiallocalSymDir;
}
// WPR conventions add any .etl.ngenPDB directory to the path too. has higher priority still.
var wprSymDir = etlFilePath + ".NGENPDB";
if (Directory.Exists(wprSymDir))
{
symPath.Insert("SRV*" + wprSymDir);
}
else
{
// I have now seen both conventions .etl.ngenpdb and .ngenpdb, so look for both.
wprSymDir = Path.ChangeExtension(etlFilePath, ".NGENPDB");
if (Directory.Exists(wprSymDir))
{
symPath.Insert("SRV*" + wprSymDir);
}
}
// VS uses .NGENPDBS as a convention.
wprSymDir = etlFilePath + ".NGENPDBS";
if (Directory.Exists(wprSymDir))
{
symPath.Insert("SRV*" + wprSymDir);
}
if (Directory.Exists(additionalPath))
{
symPath.Insert(additionalPath);
}
}
}
DaaS.Logger.LogInfo("Symbol reader _NT_SYMBOL_PATH=");
foreach (var element in symPath.Elements)
{
DaaS.Logger.LogInfo($" {element};");
}
TextWriter textWriter = null;
if (Trace.Listeners["TextWriterTraceListener"] != null)
{
var textWriterListener = Trace.Listeners["TextWriterTraceListener"] as System.Diagnostics.TextWriterTraceListener;
textWriter = textWriterListener.Writer;
}
else
{
textWriter = Console.Out;
}
SymbolReader ret = new SymbolReader(textWriter, symPath.ToString())
{
Options = symbolFlags
};
ret.SecurityCheck = (pdbFile => true);
if (localSymDir != null)
{
ret.OnSymbolFileFound += (pdbPath, pdbGuid, pdbAge) => CacheInLocalSymDir(localSymDir, pdbPath, pdbGuid, pdbAge, Console.Out);
}
return(ret);
}
public SymbolReferenceBuilder(SymbolPath path, ISymbol symbol, Location location) : base(path, symbol, location)
{
}
