/// <summary>
/// Check if the RIP is present and valid
/// </summary>
/// <param name="this.File"></param>
/// <param name="results"></param>
public override void OnExecuteTest(ref List <MXFValidationResult> results)
{
MXFValidationResult valResult = new MXFValidationResult("Random Index Pack Test");
results.Add(valResult);
valResult.Category = "Random Index Pack";
Stopwatch sw = Stopwatch.StartNew();
if (this.File.RIP == null)
{
valResult.SetError(string.Format("Error! No RIP found."));
return;
}
if (this.File.RIPEntryCount != this.File.PartitionCount)
{
valResult.SetError(string.Format("Error! Number of RIP entries is not equal to the number of partitions ({0} vs {1}).", this.File.RIPEntryCount, this.File.PartitionCount));
return;
}
int ripErrorCount = 0;
for (int n = 0; n < this.File.RIPEntryCount; n++)
{
MXFEntryRIP rip = this.File.RIP.Children[n] as MXFEntryRIP;
if (rip != null)
{
MXFPartition part = this.File.Partitions.Where(a => (ulong)a.Offset == rip.PartitionOffset).FirstOrDefault();
if (part == null)
{
ripErrorCount++;
valResult.AddError(string.Format("Error! RIP entry {0} not pointing to a valid partion.", n));
return;
}
}
}
if (ripErrorCount > 0)
{
valResult.SetError(string.Format("Error! {0} RIP entries are not pointing to a valid partion.", ripErrorCount));
return;
}
valResult.SetSuccess("Random Index Pack (RIP) is valid.");
LogInfo("Validation completed in {0} msec", sw.ElapsedMilliseconds);
}
/// <summary>
/// Partially Parse an MXF file, skip all data
/// </summary>
protected void ParsePartial(BackgroundWorker worker)
{
Stopwatch sw = Stopwatch.StartNew();
MXFKLVFactory klvFactory = new MXFKLVFactory();
MXFPartition currentPartition = null;
int previousPercentage = 0;
Dictionary <UInt16, MXFEntryPrimer> allPrimerKeys = null;
int[] counters = new int[Enum.GetNames(typeof(KeyType)).Length];
PartialSeekMode seekMode = PartialSeekMode.Unknown;
using (m_reader = new MXFReader(this.Filename))
{
this.Filesize = m_reader.Size;
MXFObject partitions = new MXFNamedObject("Partitions", 0);
this.AddChild(partitions);
// Start with trying to find the RIP
bool ripFound = ReadRIP(klvFactory);
if (ripFound)
{
seekMode = PartialSeekMode.UsingRIP;
}
m_reader.Seek(0); // Start at the beginning
// Start by reading the first partition
int partitionNumber = 0; // For easy partition identification
while (!m_reader.EOF && seekMode != PartialSeekMode.Backwards) // Eof and NOT searching backwards
{
MXFKLV klv = klvFactory.CreateObject(m_reader, currentPartition);
// Update overall counters
if (klv.Key.Type == KeyType.None)
{
counters[(int)klv.Key.Type]++;
}
if (klv.Key.Type == KeyType.Partition && seekMode == PartialSeekMode.Backwards)
{
if (this.Partitions.Exists(a => a.Offset == klv.Offset))
{
// A new partition has been found that we already found, quit the main loop
break;
}
}
// Process the new KLV
ProcessKLVObject(klv, partitions, ref currentPartition, ref partitionNumber, ref allPrimerKeys);
// If we found the second partition
long nextSeekPosition = klv.DataOffset + klv.Length;
if (partitionNumber >= 2) // Header fully read, now busy with the second partition
{
switch (seekMode)
{
case PartialSeekMode.UsingRIP: // And we already found the RIP
if (currentPartition.FirstSystemItem != null) // And we found the first system item
{
MXFEntryRIP ripEntry = this.RIP.GetPartition(partitionNumber);
if (ripEntry != null)
{
// Mark the current partition as not-completely read
currentPartition.IsLoaded = false;
// Start at the next partition
nextSeekPosition = (long)ripEntry.PartitionOffset;
}
}
break;
case PartialSeekMode.Backwards: // NO RIP, searching backwards
// Backwards, jump to the PREVIOUS partition
if (currentPartition.FirstSystemItem != null) // And we found the first system item
{
// Jump to the previous partition
if (currentPartition.PreviousPartition != 0)
{
// And we haven't found this partition yet
if (!this.Partitions.Exists(a => a.ThisPartition == currentPartition.PreviousPartition))
{
nextSeekPosition = (long)currentPartition.PreviousPartition; // Jump to previous
}
}
}
break;
case PartialSeekMode.Unknown: // No RIP....
// Hmmm, RIP is not found, check if we have a footer partition somewhere
MXFPartition part = this.Partitions.Where(a => a.FooterPartition != 0).FirstOrDefault();
if (part != null)
{
// If we are already at the footer, don't bother to seek
if (currentPartition.Offset != (long)part.FooterPartition)
{
nextSeekPosition = (long)part.FooterPartition; // Start at the footer
seekMode = PartialSeekMode.Backwards;
}
}
break;
}
}
// Next KLV please
m_reader.Seek(nextSeekPosition);
// Only report progress when the percentage has changed
int currentPercentage = (int)((m_reader.Position * 90) / m_reader.Size);
if (currentPercentage != previousPercentage)
{
worker.ReportProgress(currentPercentage, "Partial Parsing MXF file");
previousPercentage = currentPercentage;
}
}
}
// Progress should now be 90%
// Update all type descriptions
klvFactory.UpdateAllTypeDescriptions(allPrimerKeys);
Debug.WriteLine("Finished parsing file '{0}' in {1} ms", this.Filename, sw.ElapsedMilliseconds);
sw.Restart();
// Create a list with all UID keys
worker.ReportProgress(91, "Creating key list");
Dictionary <string, MXFObject> allKeys = new Dictionary <string, MXFObject>();
CreateKeyList(allKeys, this);
// Resolve the references
worker.ReportProgress(92, "Resolving references");
ResolveReferences(allKeys, this);
Debug.WriteLine("Finished resolving references in {0} ms", sw.ElapsedMilliseconds);
sw.Restart();
this.FlatList = new List <MXFObject>();
worker.ReportProgress(93, "Creating flat list");
this.AddToList(this.FlatList);
Debug.WriteLine("Flatlist created in {0} ms", sw.ElapsedMilliseconds);
sw.Restart();
// Create the logical tree
worker.ReportProgress(94, "Creating logical tree");
CreateLogicalTree();
Debug.WriteLine("Logical tree created in {0} ms", sw.ElapsedMilliseconds);
sw.Restart();
// And Execute FAST tests
this.ExecuteValidationTest(worker, false);
// Finished
worker.ReportProgress(100, "Finished");
}