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reactos/rosapps/fraginator/Defragment.cpp
KJK::Hyperion 018539280c - deleted temporary files, generated files, binaries 
- migrated project files to Visual C++ 2005 Express - the latest, the best, for free
 - converted to an Unicode application

svn path=/trunk/; revision=21432
2006-04-01 15:02:38 +00:00

460 lines
12 KiB
C++
Raw Blame History

#include "Defragment.h"
// Ahh yes I ripped this from my old Findupes project :)
// Fits a path name, composed of a path (i.e. "c:\blah\blah\cha\cha") and a filename ("stuff.txt")
// and fits it to a given length. If it has to truncate it will first truncate from the path,
// substituting in periods. So you might end up with something like:
// C:\Program Files\Micro...\Register.exe
int FitName (wchar_t *destination, const wchar_t *path, const wchar_t *filename, uint32 totalWidth)
{
uint32 pathLen=0;
uint32 fnLen=0;
uint32 halfTotLen=0;
uint32 len4fn=0; /* number of chars remaining for filename after path is applied */
uint32 len4path=0; /* number of chars for path before filename is applied */
wchar_t fmtStrPath[20]=L"";
wchar_t fmtStrFile[20]=L"";
wchar_t fmtString[40]=L"";
/*
assert (destination != NULL);
assert (path != NULL);
assert (filename != NULL);
assert (totalWidth != 0);
*/
pathLen = wcslen(path);
fnLen = wcslen(filename);
if (!(totalWidth % 2))
halfTotLen=totalWidth / 2;
else
halfTotLen=(totalWidth-1) / 2; /* -1 because otherwise (halfTotLen*2) ==
(totalWidth+1) which wouldn't be good */
/* determine how much width the path and filename each get */
if ( (pathLen >= halfTotLen) && (fnLen < halfTotLen) )
{
len4fn = fnLen;
len4path = (totalWidth - len4fn);
}
if ( (pathLen < halfTotLen) && (fnLen < halfTotLen) )
{
len4fn = fnLen;
len4path = pathLen;
}
if ( (pathLen >= halfTotLen) && (fnLen >= halfTotLen) )
{
len4fn = halfTotLen;
len4path = halfTotLen;
}
if ( (pathLen < halfTotLen) && (fnLen >= halfTotLen) )
{
len4path = pathLen;
len4fn = (totalWidth - len4path);
}
/*
if halfTotLen was adjusted above to avoid a rounding error, give the
extra wchar_t to the filename
*/
if (halfTotLen < (totalWidth/2)) len4path++;
if (pathLen > len4path) swprintf (fmtStrPath, L"%%.%ds...\\", len4path-4);
else
swprintf (fmtStrPath, L"%%s");
if (fnLen > len4fn) swprintf (fmtStrFile, L"%%.%ds...", len4fn-3);
else
swprintf (fmtStrFile, L"%%s");
wcscpy (fmtString, fmtStrPath);
wcscat (fmtString, fmtStrFile);
/*swprintf (fmtString, L"%s%s", fmtStrPath, fmtStrFile);*/
swprintf (destination, fmtString, path,filename);
return (1);
}
Defragment::Defragment (wstring Name, DefragType DefragMethod)
{
Method = DefragMethod;
DoLimitLength = true;
Error = false;
Done = false;
PleaseStop = false;
PleasePause = false;
DriveName = Name;
StatusPercent = 0.0f;
LastBMPUpdate = GetTickCount ();
SetStatusString (L"Opening volume " + Name);
if (!Volume.Open (Name))
{
SetStatusString (L"Error opening volume " + Name);
Error = true;
Done = true;
StatusPercent = 100.0f;
}
return;
}
Defragment::~Defragment ()
{
if (!IsDoneYet ())
{
Stop ();
while (!IsDoneYet() && !HasError())
{
SetStatusString (L"Waiting for thread to stop ...");
Sleep (150);
}
}
Volume.Close ();
return;
}
void Defragment::SetStatusString (wstring NewStatus)
{
Lock ();
StatusString = NewStatus;
Unlock ();
return;
}
wstring Defragment::GetStatusString (void)
{
wstring ReturnVal;
Lock ();
ReturnVal = StatusString;
Unlock ();
return (ReturnVal);
}
double Defragment::GetStatusPercent (void)
{
return (StatusPercent);
}
bool Defragment::IsDoneYet (void)
{
return (Done);
}
void Defragment::Start (void)
{
uint32 i;
uint64 FirstFreeLCN;
uint64 TotalClusters;
uint64 ClustersProgress;
wchar_t PrintName[80];
int Width = 70;
if (Error)
goto DoneDefrag;
// First thing: build a file list.
SetStatusString (L"Getting volume bitmap");
if (!Volume.GetBitmap())
{
SetStatusString (L"Could not get volume " + DriveName + L" bitmap");
Error = true;
goto DoneDefrag;
}
LastBMPUpdate = GetTickCount ();
if (PleaseStop)
goto DoneDefrag;
SetStatusString (L"Obtaining volume geometry");
if (!Volume.ObtainInfo ())
{
SetStatusString (L"Could not obtain volume " + DriveName + L" geometry");
Error = true;
goto DoneDefrag;
}
if (PleaseStop)
goto DoneDefrag;
SetStatusString (L"Building file database for volume " + DriveName);
if (!Volume.BuildFileList (PleaseStop, StatusPercent))
{
SetStatusString (L"Could not build file database for volume " + DriveName);
Error = true;
goto DoneDefrag;
}
if (PleaseStop)
goto DoneDefrag;
SetStatusString (L"Analyzing database for " + DriveName);
TotalClusters = 0;
for (i = 0; i < Volume.GetDBFileCount(); i++)
{
TotalClusters += Volume.GetDBFile(i).Clusters;
}
// Defragment!
ClustersProgress = 0;
// Find first free LCN for speedier searches ...
Volume.FindFreeRange (0, 1, FirstFreeLCN);
if (PleaseStop)
goto DoneDefrag;
// Analyze?
if (Method == DefragAnalyze)
{
uint32 j;
Report.RootPath = Volume.GetRootPath ();
Report.FraggedFiles.clear ();
Report.UnfraggedFiles.clear ();
Report.UnmovableFiles.clear ();
Report.FilesCount = Volume.GetDBFileCount () - Volume.GetDBDirCount ();
Report.DirsCount = Volume.GetDBDirCount ();
Report.DiskSizeBytes = Volume.GetVolumeInfo().TotalBytes;
Report.FilesSizeClusters = 0;
Report.FilesSlackBytes = 0;
Report.FilesSizeBytes = 0;
Report.FilesFragments = 0;
for (j = 0; j < Volume.GetDBFileCount(); j++)
{
FileInfo Info;
Info = Volume.GetDBFile (j);
Report.FilesFragments += max (1, Info.Fragments.size()); // add 1 fragment even for 0 bytes/0 cluster files
if (Info.Attributes.Process == 0)
continue;
SetStatusString (Volume.GetDBDir (Info.DirIndice) + Info.Name);
Report.FilesSizeClusters += Info.Clusters;
Report.FilesSizeBytes += Info.Size;
if (Info.Attributes.Unmovable == 1)
Report.UnmovableFiles.push_back (j);
if (Info.Fragments.size() > 1)
Report.FraggedFiles.push_back (j);
else
Report.UnfraggedFiles.push_back (j);
StatusPercent = ((double)j / (double)Report.FilesCount) * 100.0f;
}
Report.FilesSizeOnDisk = Report.FilesSizeClusters * (uint64)Volume.GetVolumeInfo().ClusterSize;
Report.FilesSlackBytes = Report.FilesSizeOnDisk - Report.FilesSizeBytes;
Report.AverageFragments = (double)Report.FilesFragments / (double)Report.FilesCount;
Report.PercentFragged = 100.0f * ((double)(signed)Report.FraggedFiles.size() / (double)(signed)Report.FilesCount);
uint64 Percent;
Percent = (10000 * Report.FilesSlackBytes) / Report.FilesSizeOnDisk;
Report.PercentSlack = (double)(signed)Percent / 100.0f;
}
else
// Go through all the files and ... defragment them!
for (i = 0; i < Volume.GetDBFileCount(); i++)
{
FileInfo Info;
bool Result;
uint64 TargetLCN;
uint64 PreviousClusters;
// What? They want us to pause? Oh ok.
if (PleasePause)
{
SetStatusString (L"Paused");
PleasePause = false;
while (PleasePause == false)
{
Sleep (50);
}
PleasePause = false;
}
if (PleaseStop)
{
SetStatusString (L"Stopping");
break;
}
//
Info = Volume.GetDBFile (i);
PreviousClusters = ClustersProgress;
ClustersProgress += Info.Clusters;
if (Info.Attributes.Process == 0)
continue;
if (!DoLimitLength)
SetStatusString (Volume.GetDBDir (Info.DirIndice) + Info.Name);
else
{
FitName (PrintName, Volume.GetDBDir (Info.DirIndice).c_str(), Info.Name.c_str(), Width);
SetStatusString (PrintName);
}
// Calculate percentage complete
StatusPercent = 100.0f * double((double)PreviousClusters / (double)TotalClusters);
// Can't defrag directories yet
if (Info.Attributes.Directory == 1)
continue;
// Can't defrag 0 byte files :)
if (Info.Fragments.size() == 0)
continue;
// If doing fast defrag, skip non-fragmented files
// Note: This assumes that the extents stored in Info.Fragments
// are consolidated. I.e. we assume it is NOT the case that
// two extents account for a sequential range of (non-
// fragmented) clusters.
if (Info.Fragments.size() == 1 && Method == DefragFast)
continue;
// Otherwise, defrag0rize it!
int Retry = 3; // retry a few times
while (Retry > 0)
{
// Find a place that can fit the file
Result = Volume.FindFreeRange (FirstFreeLCN, Info.Clusters, TargetLCN);
// If yes, try moving it
if (Result)
{
// If we're doing an extensive defrag and the file is already defragmented
// and if its new location would be after its current location, don't
// move it.
if (Method == DefragExtensive && Info.Fragments.size() == 1 &&
TargetLCN > Info.Fragments[0].StartLCN)
{
Retry = 1;
}
else
{
if (Volume.MoveFileDumb (i, TargetLCN))
{
Retry = 1; // yay, all done with this file.
Volume.FindFreeRange (0, 1, FirstFreeLCN);
}
}
}
// New: Only update bitmap if it's older than 15 seconds
if ((GetTickCount() - LastBMPUpdate) < 15000)
Retry = 1;
else
if (!Result || Retry != 1)
{ // hmm. Wait for a moment, then update the drive bitmap
//SetStatusString (L"(Reobtaining volume " + DriveName + L" bitmap)");
if (!DoLimitLength)
{
SetStatusString (GetStatusString() + wstring (L" ."));
}
if (Volume.GetBitmap ())
{
LastBMPUpdate = GetTickCount ();
if (!DoLimitLength)
SetStatusString (Volume.GetDBDir (Info.DirIndice) + Info.Name);
else
SetStatusString (PrintName);
Volume.FindFreeRange (0, 1, FirstFreeLCN);
}
else
{
SetStatusString (L"Could not re-obtain volume " + DriveName + L" bitmap");
Error = true;
}
}
Retry--;
}
if (Error == true)
break;
}
DoneDefrag:
wstring OldStatus;
OldStatus = GetStatusString ();
StatusPercent = 99.999999f;
SetStatusString (L"Closing volume " + DriveName);
Volume.Close ();
StatusPercent = 100.0f;
// If there was an error then the wstring has already been set
if (Error)
SetStatusString (OldStatus);
else
if (PleaseStop)
SetStatusString (L"Volume " + DriveName + L" defragmentation was stopped");
else
SetStatusString (L"Finished defragmenting " + DriveName);
Done = true;
return;
}
void Defragment::TogglePause (void)
{
Lock ();
SetStatusString (L"Pausing ...");
PleasePause = true;
Unlock ();
return;
}
void Defragment::Stop (void)
{
Lock ();
SetStatusString (L"Stopping ...");
PleaseStop = true;
Unlock ();
return;
}
bool Defragment::HasError (void)
{
return (Error);
}
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