/// <summary>
/// Initializes a new instance of the <see cref="INTV.LtoFlash.Model.LfsUpdateOperation"/> class.
/// </summary>
/// <param name="updateOperation">The nature of the update operation.</param>
public LfsUpdateOperation(LfsUpdateOperation updateOperation)
{
FileSystem = updateOperation.FileSystem;
Operation = updateOperation.Operation;
Directories = new HashSet <byte>(updateOperation.Directories);
Files = new HashSet <ushort>(updateOperation.Files);
Forks = new HashSet <ushort>(updateOperation.Forks);
Failures = new HashSet <LfsOperationFailure>();
}
/// <summary>
/// Merge the specified operation with this one.
/// </summary>
/// <param name="operation">The operation whose entries are to be merged into this one.</param>
/// <returns>The result of the merge.</returns>
public LfsUpdateOperation Merge(LfsUpdateOperation operation)
{
var mergedOperation = new LfsUpdateOperation(this);
mergedOperation.Operation |= operation.Operation;
mergedOperation.Forks.UnionWith(operation.Forks);
mergedOperation.Files.UnionWith(operation.Files);
mergedOperation.Directories.UnionWith(operation.Directories);
mergedOperation.Failures.UnionWith(operation.Failures);
return(mergedOperation);
}
/// <summary>
/// Removes elements from this operation that are included in the given operation.
/// </summary>
/// <param name="update">An operation whose entries are to be removed from this instance's entries.</param>
public void Prune(LfsUpdateOperation update)
{
if (!object.ReferenceEquals(this, update))
{
Forks.ExceptWith(update.Forks);
Files.ExceptWith(update.Files);
Directories.ExceptWith(update.Directories);
if (!Forks.Any() && !Files.Any() && !Directories.Any())
{
Operation = LfsOperations.None;
}
}
}
// NOTE: The specific task data (ExecuteDeviceCommandAsyncTaskData.Data) must be a Tuple<MenuLayout, bool, bool>.
// The first Boolean value indicates whether the operation should attempt to force the removal of menu position data.
// The second Boolean value indicates whether the operation should update the root file's names (device name, owner).
private static void SyncHostToDevice(AsyncTaskData taskData)
{
var data = (ExecuteDeviceCommandAsyncTaskData)taskData;
var device = data.Device;
data.Task.UpdateTaskProgress(0, Resources.Strings.DeviceMultistageCommand_UpdatingFiles_ComputingChangesProgress);
var currentDirtyFlags = GetDirtyFlags.Instance.Execute <LfsDirtyFlags>(device.Port, data);
var deviceFileSystem = DownloadFileSystemTables.Instance.Execute <FileSystem>(device.Port, data);
deviceFileSystem.Status = currentDirtyFlags;
if (data.AcceptCancelIfRequested())
{
return;
}
var hostData = (Tuple <MenuLayout, bool, bool>)data.Data;
var hostFileSystem = hostData.Item1.FileSystem;
var resetSaveMenuPosition = hostData.Item2;
if (resetSaveMenuPosition)
{
hostFileSystem.ForceRemovalOfMenuPositionData(deviceFileSystem);
}
hostFileSystem.SuppressRootFileNameDifferences(device);
hostFileSystem.PopulateSaveDataForksFromDevice(deviceFileSystem);
// The first pass gathers all differences, including errors.
var allDifferencesWithErrors = hostFileSystem.CompareTo(deviceFileSystem, device, true);
#if USE_SMART_COPY
// Now, use a clone of the original file system to compute the actual work to do, and use the failures for a post-op error report.
var hostFileSystemWorkingCopy = hostFileSystem.Clone();
var ignoreRootFileNames = !hostData.Item3;
if (ignoreRootFileNames)
{
hostFileSystemWorkingCopy.Files[GlobalFileTable.RootDirectoryFileNumber].ShortName = deviceFileSystem.Files[GlobalFileTable.RootDirectoryFileNumber].ShortName;
hostFileSystemWorkingCopy.Files[GlobalFileTable.RootDirectoryFileNumber].LongName = deviceFileSystem.Files[GlobalFileTable.RootDirectoryFileNumber].LongName;
}
var partialErrors = hostFileSystemWorkingCopy.CleanUpInvalidEntries(deviceFileSystem, allDifferencesWithErrors, FileSystemHelpers.ShouldRemoveInvalidEntry, ShouldIncludeError);
var allDifferences = hostFileSystemWorkingCopy.CompareTo(deviceFileSystem, device, true);
#else
// This will try to copy all ROMs, even incompatible ones, and should eventually be removed.
var hostFileSystemWorkingCopy = hostFileSystem;
var partialErrors = allDifferencesWithErrors.GetAllFailures(ShouldIncludeError);
var allDifferences = allDifferencesWithErrors;
#endif // USE_SMART_COPY
var succeeded = true;
var phaseNumber = 0;
var updateString = string.Empty;
// Run any delete operations...
var total = allDifferences.DirectoryDifferences.ToDelete.Count + allDifferences.FileDifferences.ToDelete.Count + allDifferences.ForkDifferences.ToDelete.Count + allDifferences.ForkDifferences.ToUpdate.Count;
var numComplete = 0;
if (data.AcceptCancelIfRequested())
{
return;
}
if (total > 0)
{
++phaseNumber;
if (!data.CancelRequsted && succeeded && allDifferences.DirectoryDifferences.ToDelete.Any())
{
var deleteOpData = new DeleteOperationData(data, LfsEntityType.Directory)
{
Factory = (gdn) => DeleteFolder.Create((byte)(uint)gdn[0]),
UpdateTitleFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_ProgressTitleFormat,
UpdateTitleInfo = Resources.Strings.LfsOperation_Remove,
UpdateProgressFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_DeletingItemProgressFormat,
UpdateProgressInfo = Resources.Strings.DirectoriesInSentence,
Phase = phaseNumber, Total = total, Current = numComplete
};
currentDirtyFlags |= DeleteEntries(allDifferences.DirectoryDifferences.ToDelete, deleteOpData, currentDirtyFlags, deviceFileSystem);
numComplete = deleteOpData.Current;
succeeded = data.Succeeded;
}
if (!data.CancelRequsted && succeeded && allDifferences.FileDifferences.ToDelete.Any())
{
var deleteOpData = new DeleteOperationData(data, LfsEntityType.File)
{
Factory = (gfn) => DeleteFile.Create((ushort)(uint)gfn[0]),
UpdateTitleFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_ProgressTitleFormat,
UpdateTitleInfo = Resources.Strings.LfsOperation_Remove,
UpdateProgressFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_DeletingItemProgressFormat,
UpdateProgressInfo = Resources.Strings.FilesInSentence,
Phase = phaseNumber, Total = total, Current = numComplete
};
currentDirtyFlags |= DeleteEntries(allDifferences.FileDifferences.ToDelete, deleteOpData, currentDirtyFlags, deviceFileSystem);
numComplete = deleteOpData.Current;
succeeded = data.Succeeded;
}
if (!data.CancelRequsted && succeeded && (allDifferences.ForkDifferences.ToDelete.Any() || allDifferences.ForkDifferences.ToUpdate.Any()))
{
var deleteOpData = new DeleteOperationData(data, LfsEntityType.Fork)
{
Factory = (gkn) => DeleteFork.Create((ushort)(uint)gkn[0]),
UpdateTitleFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_ProgressTitleFormat,
UpdateTitleInfo = Resources.Strings.LfsOperation_Remove,
UpdateProgressFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_DeletingItemProgressFormat,
UpdateProgressInfo = Resources.Strings.DeviceMultistageCommand_RemovingFileContents,
Phase = phaseNumber, Total = total, Current = numComplete
};
var forks = allDifferences.ForkDifferences.ToDelete.ToList();
var updatedForksToTreatAsDeletions = allDifferences.ForkDifferences.ToUpdate.Select(f => (uint)f.GlobalForkNumber).Where(f => !allDifferences.ForkDifferences.FailedOperations.Any(o => (o.Value.GlobalFileSystemNumber == f) && FileSystemHelpers.IsMissingForkError(o.Value)));
forks.AddRange(updatedForksToTreatAsDeletions);
currentDirtyFlags |= DeleteEntries(forks, deleteOpData, currentDirtyFlags, deviceFileSystem);
numComplete = deleteOpData.Current;
succeeded = data.Succeeded;
}
}
if (data.AcceptCancelIfRequested())
{
return;
}
data.CurrentlyExecutingCommand = ProtocolCommandId.UnknownCommand;
data.FailureMessage = Resources.Strings.SyncHostToDeviceCommand_GatherUpdatesFailedMessage;
var updateOperations = hostFileSystemWorkingCopy.GatherAllUpdates(allDifferences, device.UniqueId);
if (updateOperations.Any())
{
do
{
if (data.AcceptCancelIfRequested())
{
break;
}
LfsUpdateOperation operation = null;
data.FailureMessage = Resources.Strings.SyncHostToDevice_FetchUpdateOperationFailedMessage;
updateOperations = updateOperations.FetchUpdateOperation(out operation);
if (data.AcceptCancelIfRequested())
{
break;
}
++phaseNumber;
numComplete = 0;
total = operation.Forks.Count + operation.Files.Count + operation.Directories.Count;
foreach (var failure in operation.Failures)
{
partialErrors[failure.Description] = failure.Exception;
}
// Load forks.
var address = 0u;
if (!data.CancelRequsted && succeeded && operation.Forks.Any())
{
data.FailureMessage = null;
var uploadOpData = new UploadDataOperationData(data, address)
{
TargetType = LfsEntityType.Fork,
Factory = (upl) => UploadDataBlockToRam.Create((uint)upl[0], (ByteSerializer)upl[1], (uint)upl[2]),
GetSerializer = FileSystemHelpers.ToForkByteSerializer,
ShouldUpdateProgress = (k) => true,
UpdateTitleFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_ProgressTitleFormat,
UpdateTitleInfo = operation.ProgressTitle,
UpdateProgressFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_TransferToRamProgressFormat,
Phase = phaseNumber, Total = total, Current = numComplete
};
address = UploadEntries(operation.FileSystem.Forks, operation.Forks, uploadOpData);
numComplete = uploadOpData.Current;
succeeded = data.Succeeded;
}
// Load GFT update.
if (!data.CancelRequsted && succeeded && operation.Files.Any())
{
data.FailureMessage = null;
var fileRange = operation.GfnRange;
var files = Enumerable.Range(fileRange.Minimum, (fileRange.Maximum - fileRange.Minimum) + 1); // slower than a loop, but who cares?
var uploadOpData = new UploadDataOperationData(data, address)
{
TargetType = LfsEntityType.File,
Factory = (upl) => UploadDataBlockToRam.Create((uint)upl[0], (ByteSerializer)upl[1], (uint)upl[2]),
GetSerializer = FileSystemHelpers.ToFileByteSerializer,
ShouldUpdateProgress = (f) => (f != null) && operation.Files.Contains(((ILfsFileInfo)f).GlobalFileNumber),
UpdateTitleFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_ProgressTitleFormat,
UpdateTitleInfo = operation.ProgressTitle,
UpdateProgressFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_TransferToRamProgressFormat,
Phase = phaseNumber,
Total = total,
Current = numComplete
};
// THIS COULD BE DONE WITH ONE LARGE BLOCK INSTEAD OF MANY SMALLER ONES
address = UploadEntries(operation.FileSystem.Files, files, uploadOpData);
numComplete = uploadOpData.Current;
succeeded = data.Succeeded;
}
// Load GDT update.
if (!data.CancelRequsted && succeeded && operation.Directories.Any())
{
data.FailureMessage = null;
var directoryRange = operation.GdnRange;
var directories = Enumerable.Range(directoryRange.Minimum, (directoryRange.Maximum - directoryRange.Minimum) + 1); // slower than a loop, but who cares?
var uploadOpData = new UploadDataOperationData(data, address)
{
TargetType = LfsEntityType.Directory,
Factory = (upl) => UploadDataBlockToRam.Create((uint)upl[0], (ByteSerializer)upl[1], (uint)upl[2]),
GetSerializer = FileSystemHelpers.ToDirectoryByteSerializer,
ShouldUpdateProgress = (d) => (d != null) && operation.Files.Contains(((IDirectory)d).GlobalDirectoryNumber),
UpdateTitleFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_ProgressTitleFormat,
UpdateTitleInfo = operation.ProgressTitle,
UpdateProgressFormat = Resources.Strings.DeviceMultistageCommand_UpdatingFiles_TransferToRamProgressFormat,
Phase = phaseNumber,
Total = total,
Current = numComplete
};
// THIS COULD BE DONE WITH ONE LARGE BLOCK INSTEAD OF MANY SMALLER ONES
address = UploadEntries(operation.FileSystem.Directories, directories, uploadOpData);
numComplete = uploadOpData.Current;
succeeded = data.Succeeded;
}
if (data.AcceptCancelIfRequested())
{
break;
}
// Everything is in RAM now, so execute commands.
address = 0; // All the data was initially loaded at location zero.
numComplete = 0;
total = operation.Forks.Count;
if (operation.Files.Count > 0)
{
++total;
}
if (operation.Directories.Count > 0)
{
++total;
}
// Create forks.
if (!data.CancelRequsted && succeeded && operation.Forks.Any())
{
data.FailureMessage = null;
var numCreated = 0;
var numToCreate = operation.Forks.Count;
foreach (var gkn in operation.Forks)
{
if (data.AcceptCancelIfRequested())
{
break;
}
address = address.Align();
var fork = operation.FileSystem.Forks[gkn];
updateString = string.Format(System.Globalization.CultureInfo.CurrentCulture, Resources.Strings.DeviceMultistageCommand_UpdatingFiles_ProgressTitleFormat, operation.ProgressTitle, ++numComplete, total, phaseNumber);
data.Task.UpdateTaskTitle(updateString);
updateString = string.Format(System.Globalization.CultureInfo.CurrentCulture, Resources.Strings.DeviceMultistageCommand_UpdatingFiles_CreatingItemProgressFormat, fork.Name, ++numCreated, numToCreate);
data.Task.UpdateTaskProgress((double)numCreated / numToCreate, updateString);
currentDirtyFlags |= currentDirtyFlags.UpdateFileSystemDirtyState(deviceFileSystem, data, gkn, LfsOperations.Add, LfsEntityType.Fork);
CreateForkFromRam.Create(address, fork).Execute(device.Port, data, out succeeded);
address += (uint)fork.SerializeByteCount;
}
address = address.Align();
}
// Update GFT.
if (!data.CancelRequsted && succeeded && operation.Files.Any())
{
data.FailureMessage = null;
if (data.AcceptCancelIfRequested())
{
break;
}
var gftRange = operation.GfnRange;
if (operation.Files.Count == 1)
{
updateString = string.Format(System.Globalization.CultureInfo.CurrentCulture, Resources.Strings.DeviceMultistageCommand_UpdatingFileSystemTablesOneEntry_ProgressTitleFormat, Resources.Strings.File, gftRange.Minimum, phaseNumber);
}
else
{
updateString = string.Format(System.Globalization.CultureInfo.CurrentCulture, Resources.Strings.DeviceMultistageCommand_UpdatingFileSystemTables_ProgressTitleFormat, Resources.Strings.File, gftRange.Minimum, gftRange.Maximum, phaseNumber);
}
data.Task.UpdateTaskTitle(updateString);
data.Task.UpdateTaskProgress((double)(++numComplete) / total, Resources.Strings.DeviceMultistageCommand_UpdatingGlobalFilesTable);
currentDirtyFlags |= currentDirtyFlags.UpdateFileSystemDirtyState(deviceFileSystem, data, gftRange.Minimum, LfsOperations.Update, LfsEntityType.File);
UpdateGlobalFileTable.Create(address, gftRange).Execute(device.Port, data, out succeeded);
address += (uint)(gftRange.Maximum - gftRange.Minimum + 1) * LfsFileInfo.FlatSizeInBytes;
}
// Update GDT.
if (!data.CancelRequsted && succeeded && operation.Directories.Any())
{
data.FailureMessage = null;
if (data.AcceptCancelIfRequested())
{
break;
}
var gdtRange = operation.GdnRange;
if (operation.Directories.Count == 1)
{
updateString = string.Format(System.Globalization.CultureInfo.CurrentCulture, Resources.Strings.DeviceMultistageCommand_UpdatingFileSystemTablesOneEntry_ProgressTitleFormat, Resources.Strings.Directory, gdtRange.Minimum, phaseNumber);
}
else
{
updateString = string.Format(System.Globalization.CultureInfo.CurrentCulture, Resources.Strings.DeviceMultistageCommand_UpdatingFileSystemTables_ProgressTitleFormat, Resources.Strings.Directory, gdtRange.Minimum, gdtRange.Maximum, phaseNumber);
}
data.Task.UpdateTaskTitle(updateString);
data.Task.UpdateTaskProgress((double)(++numComplete) / total, Resources.Strings.DeviceMultistageCommand_UpdatingGlobalDirectoriesTable);
currentDirtyFlags |= currentDirtyFlags.UpdateFileSystemDirtyState(deviceFileSystem, data, gdtRange.Minimum, LfsOperations.Update, LfsEntityType.Directory);
UpdateGlobalDirectoryTable.Create(address, gdtRange).Execute(device.Port, data, out succeeded);
address += (uint)(gdtRange.Maximum - gdtRange.Minimum + 1) * Directory.FlatSizeInBytes;
}
}while (!data.CancelRequsted && succeeded && updateOperations.Any());
}
if (!data.CancelRequsted && data.Succeeded)
{
SetDirtyFlags.Create(LfsDirtyFlags.None).Execute(device.Port, data, out succeeded);
deviceFileSystem.Status = LfsDirtyFlags.None;
}
if (!data.CancelRequsted && data.Succeeded)
{
var updatedFileSystem = DownloadFileSystemTables.Instance.Execute(device.Port, data, out succeeded) as FileSystem;
#if USE_SMART_COPY
partialErrors = allDifferences.CombineAllFailures(partialErrors, ShouldIncludeError);
#endif // USE_SMART_COPY
data.Result = new Tuple <FileSystem, IDictionary <string, FailedOperationException> >(updatedFileSystem, partialErrors);
}
}