/// <summary> /// Given a stream with the symbols, this function parses the stream and stores the contents in the given mapper /// </summary> public void ParseSymbolFile(Stream stream, Mapper mapper) { FastStream source = new FastStream(stream); source.MoveNext(); // Prime Current. this.SkipPreamble(source); // Remove encoding stuff if it's there source.SkipWhiteSpace(); StringBuilder sb = new StringBuilder(); Func <byte, bool> untilWhiteSpace = (byte c) => { return(!char.IsWhiteSpace((char)c)); }; while (!source.EndOfStream) { source.ReadAsciiStringUpToTrue(sb, untilWhiteSpace); ulong start = ulong.Parse(sb.ToString(), System.Globalization.NumberStyles.HexNumber); sb.Clear(); source.SkipWhiteSpace(); source.ReadAsciiStringUpToTrue(sb, untilWhiteSpace); ulong size = ulong.Parse(sb.ToString(), System.Globalization.NumberStyles.HexNumber); sb.Clear(); source.SkipWhiteSpace(); source.ReadAsciiStringUpTo('\n', sb); string symbol = sb.ToString().TrimEnd(); sb.Clear(); mapper.Add(start, size, symbol); source.SkipWhiteSpace(); } }
private IEnumerable <LinuxEvent> NextEvent(Regex regex, FastStream source) { string line = string.Empty; while (true) { source.SkipWhiteSpace(); if (source.EndOfStream) { break; } EventKind eventKind = EventKind.Cpu; StringBuilder sb = new StringBuilder(); // Command - Stops at first number AFTER whitespace while (!this.IsNumberChar((char)source.Current)) { sb.Append(' '); source.ReadAsciiStringUpToTrue(sb, delegate(byte c) { return(!char.IsWhiteSpace((char)c)); }); source.SkipWhiteSpace(); } string comm = sb.ToString().Trim(); sb.Clear(); // Process ID int pid = source.ReadInt(); source.MoveNext(); // Move past the "/" // Thread ID int tid = source.ReadInt(); // CPU source.SkipWhiteSpace(); source.MoveNext(); // Move past the "[" int cpu = source.ReadInt(); source.MoveNext(); // Move past the "]" // Time source.SkipWhiteSpace(); source.ReadAsciiStringUpTo(':', sb); double time = double.Parse(sb.ToString()) * 1000; // To convert to MSec sb.Clear(); source.MoveNext(); // Move past ":" // Time Property source.SkipWhiteSpace(); int timeProp = -1; if (this.IsNumberChar((char)source.Current)) { timeProp = source.ReadInt(); } // Event Name source.SkipWhiteSpace(); source.ReadAsciiStringUpTo(':', sb); string eventName = sb.ToString(); sb.Clear(); source.MoveNext(); // Event Properties // I mark a position here because I need to check what type of event this is without screwing up the stream var markedPosition = source.MarkPosition(); source.ReadAsciiStringUpTo('\n', sb); string eventDetails = sb.ToString().Trim(); sb.Clear(); if (eventDetails.Length >= SchedulerEvent.Name.Length && eventDetails.Substring(0, SchedulerEvent.Name.Length) == SchedulerEvent.Name) { eventKind = EventKind.Scheduler; } // Now that we know the header of the trace, we can decide whether or not to skip it given our pattern if (regex != null && !regex.IsMatch(eventName)) { while (true) { source.MoveNext(); if (this.IsEndOfSample(source, source.Current, source.Peek(1))) { break; } } yield return(null); } else { LinuxEvent linuxEvent; Frame threadTimeFrame = null; // For the sake of immutability, I have to do a similar if-statement twice. I'm trying to figure out a better way // but for now this will do. ScheduleSwitch schedSwitch = null; if (eventKind == EventKind.Scheduler) { source.RestoreToMark(markedPosition); schedSwitch = this.ReadScheduleSwitch(source); source.SkipUpTo('\n'); } IEnumerable <Frame> frames = this.ReadFramesForSample(comm, pid, tid, threadTimeFrame, source); if (eventKind == EventKind.Scheduler) { linuxEvent = new SchedulerEvent(comm, tid, pid, time, timeProp, cpu, eventName, eventDetails, frames, schedSwitch); } else { linuxEvent = new CpuEvent(comm, tid, pid, time, timeProp, cpu, eventName, eventDetails, frames); } yield return(linuxEvent); } } }