Ejemplo n.º 1
0
        public void Read(TextReader reader)
        {
            var sample = new StackSourceSample(this);

            sample.Metric = 1;
            for (; ;)
            {
                var line = reader.ReadLine();
                if (line == null)
                {
                    break;
                }

                if (StackForLine != null)
                {
                    sample.StackIndex = StackForLine(Interner, line);
                }
                else
                {
                    // Form the stack for this entry (trivial one element stack)
                    var frameIndex = Interner.FrameIntern(line);
                    sample.StackIndex = Interner.CallStackIntern(frameIndex, StackSourceCallStackIndex.Invalid);
                }
                if (sample.StackIndex != StackSourceCallStackIndex.Invalid)
                {
                    AddSample(sample);
                }
            }
            Interner.DoneInterning();
        }
Ejemplo n.º 2
0
        /// <summary>
        /// Note that on windows, lastAccessTime does not really work (acts like lastWriteTime).  They turned it off for efficiency reasons.
        /// </summary>
        public FileSizeStackSource(string directoryPath, TextWriter log, bool useWriteTime = true)
        {
            m_useWriteTime = useWriteTime;
            m_nowUtc       = DateTime.UtcNow;
            m_log          = log;
            // Make the full path the root node.
            var stackBase = Interner.CallStackIntern(Interner.FrameIntern("DIR: " + Path.GetFullPath(directoryPath)), StackSourceCallStackIndex.Invalid);

            AddSamplesForDirectory(directoryPath, stackBase);
            Interner.DoneInterning();
        }
Ejemplo n.º 3
0
        public CSVStackSource(CSVReader reader, string eventName, double startRelativeMSec, double endRelativeMSec)
        {
            lock (reader)
            {
                reader.m_stackEventType = eventName;
                reader.T0 = (long)(startRelativeMSec * 1000);
                reader.T1 = long.MaxValue - 1000000;
                double endusec = endRelativeMSec * 1000;
                if (endusec < reader.T1)
                {
                    reader.T1 = (long)endusec;
                }

                reader.m_trace.Parameters.T0 = reader.T0;
                reader.m_trace.Parameters.T1 = reader.T1;

                var result = reader.m_trace.StackStream(delegate(ETLTrace.Frame frame, ETLTrace.TreeComputer treeComputer, long timeUsec, ulong weight)
                {
                    m_fullModulePaths        = treeComputer.fullModuleNames;
                    StackSourceSample sample = new StackSourceSample(this);
                    sample.TimeRelativeMSec  = timeUsec / 1000.0;
                    sample.Metric            = weight;

                    if (reader.m_stackEventType == "CSwitch")
                    {
                        sample.Metric = sample.Metric / 1000.0F;
                    }

                    if (sample.Metric == 0)
                    {
                        sample.Metric = 1;
                    }

                    // Get rid of quotes.
                    treeComputer.fullModuleNames["\"Unknown\""] = "UNKNOWN";

                    // We are traversing frames from the root (threadStart), to leaf (caller before callee).
                    StackSourceCallStackIndex stackIndex = StackSourceCallStackIndex.Invalid;
                    bool callerFrameIsThread             = false;
                    while (frame != null)
                    {
                        var fullFrameName = treeComputer.atomsNodeNames.MakeString(frame.id);
                        string moduleName = "";

                        // Parse it into module and function name
                        var frameName = fullFrameName;
                        var index     = fullFrameName.IndexOf('!');
                        if (index >= 0)
                        {
                            frameName  = fullFrameName.Substring(index + 1);
                            frameName  = frameName.Replace(';', ',');   // They use ';' for template separators for some reason, fix it.
                            moduleName = fullFrameName.Substring(0, index);
                            string fullModuleName;
                            if (treeComputer.fullModuleNames.TryGetValue(moduleName, out fullModuleName))
                            {
                                moduleName = fullModuleName;
                            }

                            if (moduleName.Length > 4 && moduleName[moduleName.Length - 4] == '.')
                            {
#if false // TODO decide if we want to ignore the .NI.DLL and if so do it uniformly.
                                if (moduleName.Length > 7 && moduleName[moduleName.Length - 7] == '.' &&
                                    moduleName[moduleName.Length - 6] == 'n' &&
                                    moduleName[moduleName.Length - 5] == 'i')
                                {
                                    moduleName = moduleName.Substring(0, moduleName.Length - 7);
                                }
                                else
#endif
                                moduleName = moduleName.Substring(0, moduleName.Length - 4);
                            }

                            // If the thread does not call into ntdll, we consider it broken
                            if (callerFrameIsThread && !moduleName.EndsWith("ntdll", StringComparison.Ordinal))
                            {
                                var brokenFrame = Interner.FrameIntern("BROKEN", Interner.ModuleIntern(""));
                                stackIndex      = Interner.CallStackIntern(brokenFrame, stackIndex);
                            }
                        }
                        else
                        {
                            Match m = Regex.Match(frameName, @"^tid *\( *(\d+)\)");
                            if (m.Success)
                            {
                                frameName = "Thread (" + m.Groups[1].Value + ")";
                            }
                            else
                            {
                                m = Regex.Match(frameName, @"^(.*?)(\.exe)? *\( *(\d+)\) *$");
                                if (m.Success)
                                {
                                    frameName = "Process " + m.Groups[1].Value + " (" + m.Groups[3].Value + ")";
                                }
                            }
                        }

                        var myModuleIndex   = Interner.ModuleIntern(moduleName);
                        var myFrameIndex    = Interner.FrameIntern(frameName, myModuleIndex);
                        stackIndex          = Interner.CallStackIntern(myFrameIndex, stackIndex);
                        callerFrameIsThread = frameName.StartsWith("tid ");
                        frame = frame.next;
                    }

                    sample.StackIndex = stackIndex;
                    AddSample(sample);
                });
                Interner.DoneInterning();
            }
        }
Ejemplo n.º 4
0
        void Read(TextReader reader)
        {
            var framePattern = new Regex(@"\b(\w+?)\!(\S\(?[\S\s]*\)?)");
            var stackStart   = new Regex(@"Call Site");

            // the call stack from the debugger kc command looksl like this
            //Call Site
            //coreclr!JIT_MonEnterWorker_Portable
            //System_Windows_ni!MS.Internal.ManagedPeerTable.TryGetManagedPeer(IntPtr, Boolean, System.Object ByRef)
            //System_Windows_ni!MS.Internal.ManagedPeerTable.EnsureManagedPeer(IntPtr, Int32, System.Type, Boolean)
            //System_Windows_ni!MS.Internal.FrameworkCallbacks.CheckPeerType(IntPtr, System.String, Boolean)
            //System_Windows_ni!DomainBoundILStubClass.IL_STUB_ReversePInvoke(Int32, IntPtr, Int32)
            //coreclr!UM2MThunk_WrapperHelper
            //coreclr!UMThunkStubWorker
            //coreclr!UMThunkStub
            //agcore!CParser::StartObjectElement
            //agcore!CParser::Attribute
            //agcore!CParser::LoadXaml

            var   stack             = new GrowableArray <DebuggerCallStackFrame>();
            bool  newCallStackFound = false;
            var   sample            = new StackSourceSample(this);
            float time = 0;

            for (; ;)
            {
                var line = reader.ReadLine();
                if (line == null)
                {
                    break;
                }
                var match = framePattern.Match(line);
                if (match.Success && newCallStackFound)
                {
                    var module     = match.Groups[1].Value;
                    var methodName = match.Groups[2].Value;

                    // trim the methodName if it has file name info (if the trace is collected with kv instead of kc)
                    int index = methodName.LastIndexOf(")+");
                    if (index != -1)
                    {
                        methodName = methodName.Substring(0, index + 1);
                    }


                    var moduleIndex = Interner.ModuleIntern(module);
                    var frameIndex  = Interner.FrameIntern(methodName, moduleIndex);

                    DebuggerCallStackFrame frame = new DebuggerCallStackFrame();
                    frame.frame = frameIndex;
                    stack.Add(frame);
                }
                else
                {
                    var stackStartMatch = stackStart.Match(line);
                    if (stackStartMatch.Success)
                    {
                        // start a new sample.
                        // add the previous sample
                        // clear the stack
                        if (stack.Count != 0)
                        {
                            StackSourceCallStackIndex parent = StackSourceCallStackIndex.Invalid;
                            for (int i = stack.Count - 1; i >= 0; --i)
                            {
                                parent = Interner.CallStackIntern(stack[i].frame, parent);
                            }
                            stack.Clear();

                            sample.StackIndex       = parent;
                            sample.TimeRelativeMSec = time;
                            time++;
                            AddSample(sample);
                        }
                        newCallStackFound = true;
                    }
                }
            }
            Interner.DoneInterning();
        }
 private void InternAllLinuxEvents(Stream stream)
 {
     DoInterning();
     Interner.DoneInterning();
 }
Ejemplo n.º 6
0
        private void Read(Stream rawStream)
        {
            XmlReaderSettings settings = new XmlReaderSettings()
            {
                IgnoreWhitespace = true, IgnoreComments = true
            };
            XmlReader reader           = XmlTextReader.Create(rawStream, settings);
            var       stack            = new GrowableArray <StackSourceSample>();
            bool      metricsInclusive = false; // If true, we need to convert them to exclusive as part of processing

            while (reader.Read())
            {
                if (reader.NodeType == XmlNodeType.Element)
                {
                    if (reader.Name == "node")
                    {
                        var    sample   = new StackSourceSample(this);
                        string callTree = reader.GetAttribute("call_tree");

                        // Case for allocation stacks
                        string sizeStr = reader.GetAttribute("size");
                        if (sizeStr != null)
                        {
                            metricsInclusive = true;        // allocation numbers are inclusive
                            int size = 0;
                            int.TryParse(sizeStr, out size);
                            sample.Metric = size;

                            string recoredObectsStr = reader.GetAttribute("recorded_objects");
                            int    recoredObects    = 0;
                            if (recoredObectsStr != null)
                            {
                                int.TryParse(recoredObectsStr, out recoredObects);
                            }

                            sample.Count = recoredObects;
                        }
                        else
                        {
                            Debug.Assert(metricsInclusive == false);        // CPU time is exclusive.
                            // For CPU
                            string own_time_msStr = reader.GetAttribute("own_time_ms");
                            if (own_time_msStr != null)
                            {
                                int own_time_ms;
                                int.TryParse(own_time_msStr, out own_time_ms);
                                sample.Metric = own_time_ms;

                                string countStr = reader.GetAttribute("count");
                                int    count    = 0;
                                if (countStr != null)
                                {
                                    int.TryParse(countStr, out count);
                                }

                                sample.Count = count;
                            }
                        }

                        // Get the parent stack for this line
                        var parentStackIndex = StackSourceCallStackIndex.Invalid;
                        int depth            = stack.Count;
                        if (depth > 0)
                        {
                            StackSourceSample parent = stack[depth - 1];
                            parentStackIndex = parent.StackIndex;

                            if (metricsInclusive)
                            {
                                // The values are inclusive, but StackSoruceSamples are the exclusive amounts, so remove children.
                                parent.Count  -= sample.Count;
                                parent.Metric -= sample.Metric;
                            }
                        }
                        if (callTree != null)
                        {
                            var frameIndex = Interner.FrameIntern(callTree);
                            sample.StackIndex = Interner.CallStackIntern(frameIndex, parentStackIndex);
                        }
                        stack.Add(sample);
                    }
                }
                if (reader.NodeType == XmlNodeType.EndElement || reader.IsEmptyElement)
                {
                    if (reader.Name == "node")
                    {
                        StackSourceSample sample = stack.Pop();
                        if ((sample.Count > 0 || sample.Metric > 0) && sample.StackIndex != StackSourceCallStackIndex.Invalid)
                        {
                            AddSample(sample);
                        }
                    }
                }
            }

            Debug.Assert(stack.Count == 0);
            Interner.DoneInterning();
        }
        public ManagedExeSizeStackSource(string managedExePath)
        {
            // Make the full path the root node.
            var stackBase = Interner.CallStackIntern(Interner.FrameIntern("FILE: " + Path.GetFileName(managedExePath)), StackSourceCallStackIndex.Invalid);

            StackSourceSample sample = new StackSourceSample(this);;

            Assembly assembly = Assembly.ReflectionOnlyLoadFrom(managedExePath);

            AppDomain.CurrentDomain.ReflectionOnlyAssemblyResolve += delegate(object sender, ResolveEventArgs args)
            {
                Trace.WriteLine("RequestingAssembly " + args.RequestingAssembly.FullName);
                Trace.WriteLine("Name Requested " + args.Name);
                Assembly ret = null;
                try
                {
                    if (args.Name.StartsWith("System") || args.Name.StartsWith("Microsoft"))
                    {
                        ret = Assembly.ReflectionOnlyLoad(args.Name);
                    }
                }
                catch (Exception)
                {
                }
                if (ret == null)
                {
                    Trace.WriteLine("Could not resolve assembly reference " + args.Name);
                }
                return(ret);
            };
            Type[] types = null;
            try
            {
                Trace.WriteLine("Calling GetTypes");
                types = assembly.GetTypes();
            }
            catch (ReflectionTypeLoadException e)
            {
                Trace.WriteLine("Got exception " + e);
                foreach (var loaderException in e.LoaderExceptions)
                {
                    Trace.WriteLine("Loader Exception " + loaderException);
                }
                types = e.Types;
            }
            Trace.WriteLine("Got " + types.Length + " types");

            foreach (Type type in types)
            {
                if (type == null)
                {
                    continue;
                }
                Trace.WriteLine("Looking at TYPE " + type.FullName);
                foreach (MethodInfo methodDef in type.GetMethods())
                {
                    Trace.WriteLine("Looking at METHOD " + methodDef.Name);
                    MethodBody methodBody = methodDef.GetMethodBody();
                    int        ilLen      = 0;
                    if (methodBody != null)
                    {
                        byte[] il = methodBody.GetILAsByteArray();
                        if (il != null)
                        {
                            ilLen = il.Length;
                        }
                    }
                    PerfView.App.CommandProcessor.LogFile.WriteLine(string.Format("Method {0} size {1}", methodDef.Name, ilLen));

                    sample.StackIndex = Interner.CallStackIntern(Interner.FrameIntern("METHOD " + methodDef.Name), stackBase);
                    sample.Metric     = ilLen;
                    AddSample(sample);
                }
            }
            Interner.DoneInterning();
            Trace.WriteLine("Done");
        }
Ejemplo n.º 8
0
        void Read(TextReader reader)
        {
            // TODO this is relatively inefficient.
            var regEx = new Regex(@"^\s*(\d+)\s*(\d+)\s*\[\s*(\d+)\s*\]\s*(\S*?)!?(.*)");

            var         stack  = new GrowableArray <WTStackElem>();
            WTStackElem elem   = new WTStackElem();
            long        time   = 0;
            var         sample = new StackSourceSample(this);

            for (; ;)
            {
                var line = reader.ReadLine();
                if (line == null)
                {
                    break;
                }
                var match = regEx.Match(line);
                if (match.Success)
                {
                    // Parse the line.
                    int    excInstrSoFar = int.Parse(match.Groups[1].Value);
                    int    depth         = int.Parse(match.Groups[3].Value);
                    string module        = match.Groups[4].Value;
                    string method        = match.Groups[5].Value;

                    // Form the name for this line
                    var moduleIndex = Interner.ModuleIntern(module);
                    var frameIndex  = Interner.FrameIntern(method, moduleIndex);

                    // Get the parent stack for this line
                    var parent = StackSourceCallStackIndex.Invalid;
                    if (depth > 0)
                    {
                        parent = stack[depth - 1].FirstCallStackIndex;    // TODO handle out of range
                    }
                    // Form the stack for this entry
                    var callStackIndex = Interner.CallStackIntern(frameIndex, parent);

                    int exclInstr;                              // Number of instructions executed on this line
                    int extra = stack.Count - depth;            // The number of frames we need to pop off (including me)
                    if (extra > 0)
                    {
                        // We returned from one or more methods OR we have not left the current method
                        //
                        elem = stack[depth];

                        // We expect to return to the same method we were at at this depth.
                        if (callStackIndex == elem.CallStackIndex)
                        {
                            exclInstr = excInstrSoFar - elem.ExclInstrSoFar;    // We are continuing the function
                        }
                        else
                        {
                            // We are tail-calling to another routine.
                            exclInstr           = excInstrSoFar;
                            elem.CallStackIndex = callStackIndex;
                        }

                        // Pop off all the frames we returned from
                        Debug.Assert(exclInstr >= 0);
                        stack.RemoveRange(depth, extra);
                    }
                    else
                    {
                        // Means we are adding a new frame (we called someone)
                        Debug.Assert(extra == 0);       // We always add only one more frame (e.g. we never go from depth 2 to 4)
                        elem.CallStackIndex      = callStackIndex;
                        elem.FirstCallStackIndex = callStackIndex;
                        exclInstr = excInstrSoFar;
                    }
                    elem.ExclInstrSoFar = excInstrSoFar;
                    stack.Add(elem);

                    time += exclInstr;

                    sample.Metric           = exclInstr;
                    sample.TimeRelativeMSec = time - exclInstr;
                    sample.StackIndex       = elem.FirstCallStackIndex;
                    AddSample(sample);
                }
            }
            Interner.DoneInterning();
        }
Ejemplo n.º 9
0
        void Read(TextReader reader)
        {
            var stack = new GrowableArray <StackSourceCallStackIndex>();


            var line   = reader.ReadLine(); // Skip the first line, which is column headers.
            var sample = new StackSourceSample(this);

            for (; ;)
            {
                line = reader.ReadLine();
                if (line == null)
                {
                    break;
                }
                //   0       1           2             3          4       5        6         7          8
                // Order, # of Calls, % Incl Time, % Excl Time, Depth, Function, Module, Incl Time, Excl Time,% Sw. Out, Incl Switched Out, Type, Comments	Min	Avg	Max	Excl Switched Out

                int    idx    = 0;
                int    depth  = 0;
                string method = null;
                string module = null;
                int    intVal;
                long   longVal;
                for (int col = 0; col <= 8; col++)
                {
                    var newIdx = line.IndexOf('\t', idx);
                    Debug.Assert(0 < newIdx);
                    if (newIdx < 0)
                    {
                        goto SKIP;
                    }

                    switch (col)
                    {
                    case 1:
                        int.TryParse(line.Substring(idx, newIdx - idx), System.Globalization.NumberStyles.Number, null, out intVal);
                        sample.Count = intVal;
                        break;

                    case 4:
                        int.TryParse(line.Substring(idx, newIdx - idx), System.Globalization.NumberStyles.Number, null, out depth);
                        break;

                    case 5:
                        while (idx < newIdx)
                        {
                            if (line[idx] != ' ')
                            {
                                break;
                            }
                            idx++;
                        }
                        method = line.Substring(idx, newIdx - idx);
                        method = method.Replace((char)0xFFFD, '@');          // They used this character to separate the method name from signature.
                        break;

                    case 6:
                        module = "";
                        if (depth != 0)
                        {
                            module = line.Substring(idx, newIdx - idx);
                        }
                        break;

                    case 8:
                        long.TryParse(line.Substring(idx, newIdx - idx), System.Globalization.NumberStyles.Number, null, out longVal);
                        sample.Metric = longVal / 1000000;     // TODO what is the metric?
                        break;
                    }
                    idx = newIdx + 1;
                }
                var moduleIdx = Interner.ModuleIntern(module);
                var frameIdx  = Interner.FrameIntern(method, moduleIdx);
                var prevFrame = StackSourceCallStackIndex.Invalid;
                if (0 < depth && depth <= stack.Count)
                {
                    prevFrame = stack[depth - 1];
                }
                var callStackIdx = Interner.CallStackIntern(frameIdx, prevFrame);

                if (depth < stack.Count)
                {
                    stack.Count = depth;
                }
                stack.Add(callStackIdx);

                sample.StackIndex = callStackIdx;
                AddSample(sample);
                SKIP :;
            }
            Interner.DoneInterning();
        }