protected IEnumerator <object> CaptureSnapshotTask(string targetFilename)
{
var now = DateTime.Now;
var mem = new MemoryStatistics(Process);
var psi = new ProcessStartInfo(
Settings.UmdhPath, String.Format(
"-g -p:{0} -f:\"{1}\"", Process.Id, targetFilename
)
);
TemporaryFiles.Add(targetFilename);
using (Activities.AddItem("Capturing heap snapshot"))
yield return(Program.RunProcess(psi));
yield return(Future.RunInThread(
() => File.AppendAllText(targetFilename, mem.GetFileText())
));
var fText = Future.RunInThread(
() => File.ReadAllText(targetFilename)
);
yield return(fText);
var text = fText.Result;
fText = null;
yield return(FinishLoadingSnapshot(Snapshots.Count, now, targetFilename, text));
}
static void Serialize(ref SerializationContext context, ref MemoryStatistics input)
{
var cv = Mapper <MemoryStatistics> .GetColumnValues(input);
var bw = new BinaryWriter(context.Stream, Encoding.UTF8);
bw.Write(cv.Length);
for (int i = 0; i < cv.Length; i++)
{
bw.Write((long)cv[i]);
}
bw.Flush();
}
public HeapSnapshotInfo(
int index, DateTime timestamp, string filename,
MemoryStatistics memory, HeapSnapshot snapshot
) : base(
(from heap in snapshot.Heaps select(from alloc in heap.Allocations select(long) alloc.Size).Sum()).Sum(),
(from heap in snapshot.Heaps select(from alloc in heap.Allocations select(long) alloc.Overhead).Sum()).Sum(),
(from heap in snapshot.Heaps select(from alloc in heap.Allocations select(long)(alloc.Size + alloc.Overhead)).Sum()).Sum(),
(from heap in snapshot.Heaps select heap.Allocations.Count).Sum()
)
{
Index = index;
Timestamp = timestamp;
Filename = filename;
Memory = memory;
_StrongRef = snapshot;
HeapFragmentation = (from heap in snapshot.Heaps select heap.Info.EmptySpans).Sum() / (float)Math.Max(1, (from heap in snapshot.Heaps select heap.Allocations.Count).Sum());
LargestFreeHeapBlock = (from heap in snapshot.Heaps select heap.Info.LargestFreeSpan).Max();
LargestOccupiedHeapBlock = (from heap in snapshot.Heaps select heap.Info.LargestOccupiedSpan).Max();
AverageFreeBlockSize = (long)(from heap in snapshot.Heaps select(heap.Info.EstimatedFree) / Math.Max(heap.Info.EmptySpans, 1)).Average();
AverageOccupiedBlockSize = (long)(from heap in snapshot.Heaps select(heap.Info.TotalOverhead + heap.Info.TotalRequested) / Math.Max(heap.Info.OccupiedSpans, 1)).Average();
}
protected HeapSnapshotInfo(
int index, DateTime timestamp, string filename, MemoryStatistics memory,
float heapFragmentation, long largestFreeHeapBlock, long largestOccupiedHeapBlock,
long averageFreeBlockSize, long averageOccupiedBlockSize,
long bytesAllocated, long bytesOverhead, long bytesTotal,
int allocationCount
) : base(
bytesAllocated, bytesOverhead, bytesTotal, allocationCount
)
{
Index = index;
Timestamp = timestamp;
Filename = filename;
Memory = memory;
HeapFragmentation = heapFragmentation;
LargestFreeHeapBlock = largestFreeHeapBlock;
LargestOccupiedHeapBlock = largestOccupiedHeapBlock;
AverageFreeBlockSize = averageFreeBlockSize;
AverageOccupiedBlockSize = averageOccupiedBlockSize;
_StrongRef = null;
_WeakRef = null;
}
public HeapSnapshot(int index, DateTime when, string filename, string text)
{
MemoryStatistics memory = new MemoryStatistics();
bool scanningForStart = true, scanningForMemory = false;
Heap scanningHeap = null;
var regexes = new Regexes();
int groupModule = regexes.SnapshotModule.GroupNumberFromName("module");
int groupModuleOffset = regexes.SnapshotModule.GroupNumberFromName("offset");
int groupModuleSize = regexes.SnapshotModule.GroupNumberFromName("size");
int groupHeaderId = regexes.HeapHeader.GroupNumberFromName("id");
int groupAllocOffset = regexes.Allocation.GroupNumberFromName("offset");
int groupAllocSize = regexes.Allocation.GroupNumberFromName("size");
int groupAllocOverhead = regexes.Allocation.GroupNumberFromName("overhead");
int groupAllocId = regexes.Allocation.GroupNumberFromName("id");
Match m;
// Instead of allocating a tiny new UInt32[] for every traceback we read in,
// we store groups of tracebacks into fixed-size buffers so that the GC has
// less work to do when performing collections. Tracebacks are read-only after
// being constructed, and all the tracebacks from a snapshot have the same
// lifetime, so this works out well.
var frameBuffer = new UInt32[FrameBufferSize];
int frameBufferCount = 0;
var lr = new LineReader(text);
LineReader.Line line;
while (lr.ReadLine(out line))
{
if (scanningHeap != null)
{
if (line.StartsWith("*-") && line.Contains("End of data for heap"))
{
scanningHeap.Allocations.TrimExcess();
scanningHeap = null;
}
else if (regexes.Allocation.TryMatch(ref line, out m))
{
var tracebackId = UInt32.Parse(m.Groups[groupAllocId].Value, NumberStyles.HexNumber);
Traceback traceback;
if (!Tracebacks.TryGetValue(tracebackId, out traceback))
{
// If the frame buffer could fill up while we're building our traceback,
// let's allocate a new one.
if (frameBufferCount >= frameBuffer.Length - MaxTracebackLength)
{
frameBuffer = new UInt32[frameBuffer.Length];
frameBufferCount = 0;
}
int firstFrame = frameBufferCount;
// This is only valid if every allocation is followed by an empty line
while (lr.ReadLine(out line))
{
if (line.StartsWith("\t"))
{
frameBuffer[frameBufferCount++] = UInt32.Parse(
line.ToString(), NumberStyles.HexNumber | NumberStyles.AllowLeadingWhite
);
}
else
{
lr.Rewind(ref line);
break;
}
}
Tracebacks.Add(traceback = new Traceback(
tracebackId, new ArraySegment <UInt32>(frameBuffer, firstFrame, frameBufferCount - firstFrame)
));
}
scanningHeap.Allocations.Add(new Allocation(
UInt32.Parse(m.Groups[groupAllocOffset].Value, NumberStyles.HexNumber),
UInt32.Parse(m.Groups[groupAllocSize].Value, NumberStyles.HexNumber),
UInt32.Parse(m.Groups[groupAllocOverhead].Value, NumberStyles.HexNumber),
traceback.ID
));
}
}
else if (scanningForMemory)
{
if (regexes.HeapHeader.TryMatch(ref line, out m))
{
scanningHeap = new Heap(index, UInt32.Parse(m.Groups[groupHeaderId].Value, NumberStyles.HexNumber));
Heaps.Add(scanningHeap);
}
else if (line.StartsWith("// Memory="))
{
memory = new MemoryStatistics(line.ToString());
scanningForMemory = false;
break;
}
else
{
continue;
}
}
else if (scanningForStart)
{
if (line.Contains("Loaded modules"))
{
scanningForStart = false;
}
else if (line.Contains("Start of data for heap"))
{
break;
}
else
{
continue;
}
}
else
{
if (!regexes.SnapshotModule.TryMatch(ref line, out m))
{
if (line.Contains("Process modules enumerated"))
{
scanningForMemory = true;
}
else
{
continue;
}
}
else
{
var modulePath = Path.GetFullPath(m.Groups[groupModule].Value).ToLowerInvariant();
Modules.Add(new Module(
modulePath,
UInt32.Parse(m.Groups[groupModuleOffset].Value, System.Globalization.NumberStyles.HexNumber),
UInt32.Parse(m.Groups[groupModuleSize].Value, System.Globalization.NumberStyles.HexNumber)
));
}
}
}
foreach (var heap in Heaps)
{
heap.Allocations.Sort(
(lhs, rhs) => lhs.Address.CompareTo(rhs.Address)
);
heap.ComputeStatistics();
}
Info = new HeapSnapshotInfo(index, when, filename, memory, this);
}
static void Deserialize(ref DeserializationContext context, out MemoryStatistics output)
{
var br = new BinaryReader(context.Stream, Encoding.UTF8);
output = new MemoryStatistics(br);
}