windows-nt/Source/XPSP1/NT/base/ntsetup/mpk/makemast/applyimg.c

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2020-09-26 03:20:57 -05:00
#include <mytypes.h>
#include <diskio.h>
#include <misclib.h>
#include <makepart.h>
#include <partimag.h>
#include <msgfile.h>
#include <stdio.h>
#include <stdlib.h>
#include <memory.h>
#include <dos.h>
#include <share.h>
#include <string.h>
#include "makemast.h"
PARTITION_IMAGE PartitionImage;
ULONG TotalSectorsToTransfer;
ULONG TotalSectorsDone;
BOOL
TransferNonClusterData(
IN HDISK DiskHandle,
IN unsigned FileHandle,
IN ULONG TargetStart
);
BOOL
ExpandClusters(
IN HDISK DiskHandle,
IN unsigned FileHandle,
IN ULONG TargetStart
);
BOOL
InitializeClusterMap(
IN unsigned FileHandle
);
BOOL
GetClusterRun(
IN unsigned FileHandle,
OUT ULONG *StartCluster,
OUT ULONG *ClusterCount
);
BOOL
ApplyImage(
IN HDISK DiskHandle,
IN ULONG TargetStart,
IN ULONG MaxSize,
IN BYTE SectorsPerTrack,
IN USHORT Heads
)
{
unsigned FileHandle;
unsigned Read;
printf("\n");
printf(textTransferringFile,CmdLineArgs.ImageFile,0);
printf("\r");
//
// Open the source file, read the image header, and validate it.
//
if(_dos_open(CmdLineArgs.ImageFile,SH_DENYWR,&FileHandle)) {
fprintf(stderr,"\n%s\n",textCantAccessImageFile);
return(FALSE);
}
if(_dos_read(FileHandle,&PartitionImage,sizeof(PARTITION_IMAGE),&Read)
|| (Read != sizeof(PARTITION_IMAGE))
|| (PartitionImage.Signature != PARTITION_IMAGE_SIGNATURE)
|| (PartitionImage.Size != sizeof(PARTITION_IMAGE))) {
_dos_close(FileHandle);
fprintf(stderr,"\n%s\n",textInvalidImageFile);
return(FALSE);
}
//
// Make sure we've got the space.
//
if(PartitionImage.TotalSectorCount > MaxSize) {
_dos_close(FileHandle);
fprintf(stderr,"\n");
fprintf(stderr,textImageFileTooBig,PartitionImage.TotalSectorCount,MaxSize);
fprintf(stderr,"\n");
return(FALSE);
}
TotalSectorsToTransfer = PartitionImage.NonClusterSectors
+ (PartitionImage.SectorsPerCluster*PartitionImage.UsedClusterCount);
TotalSectorsDone = 0;
//
// Transfer non-cluster data from the image.
//
if(!TransferNonClusterData(DiskHandle,FileHandle,TargetStart)) {
_dos_close(FileHandle);
return(FALSE);
}
//
// Expand out cluster data from the image.
//
if(!ExpandClusters(DiskHandle,FileHandle,TargetStart)) {
_dos_close(FileHandle);
return(FALSE);
}
//
// Fix up BPB.
//
if(!ReadDisk(DiskHandle,TargetStart,1,IoBuffer)) {
_dos_close(FileHandle);
fprintf(stderr,"\n");
fprintf(stderr,textDiskReadError,TargetStart);
fprintf(stderr,"\n");
return(FALSE);
}
*(FPUSHORT)&((FPBYTE)IoBuffer)[24] = SectorsPerTrack;
*(FPUSHORT)&((FPBYTE)IoBuffer)[26] = Heads;
*(FPULONG)&((FPBYTE)IoBuffer)[28] = TargetStart;
if(!WriteDisk(DiskHandle,TargetStart,1,IoBuffer)) {
_dos_close(FileHandle);
fprintf(stderr,"\n");
fprintf(stderr,textDiskWriteError,TargetStart);
fprintf(stderr,"\n");
return(FALSE);
}
_dos_close(FileHandle);
return(TRUE);
}
BOOL
TransferNonClusterData(
IN HDISK DiskHandle,
IN unsigned FileHandle,
IN ULONG TargetStart
)
{
ULONG NonClusterSectorsDone;
ULONG Count;
unsigned Read;
//
// Seek past partition image header
//
if(DosSeek(FileHandle,512,DOSSEEK_START) != 512) {
fprintf(stderr,"\n%s\n",textCantAccessImageFile);
return(FALSE);
}
//
// Now transfer the non-cluster data
//
NonClusterSectorsDone = 0;
while(NonClusterSectorsDone < PartitionImage.NonClusterSectors) {
Count = PartitionImage.NonClusterSectors - NonClusterSectorsDone;
if(Count > 63) {
Count = 63;
}
if(_dos_read(FileHandle,IoBuffer,(unsigned)Count*512,&Read) || (Read != ((unsigned)Count*512))) {
fprintf(stderr,"\n%s\n",textCantAccessImageFile);
return(FALSE);
}
if(!WriteDisk(DiskHandle,TargetStart,(BYTE)Count,IoBuffer)) {
fprintf(stderr,"\n");
fprintf(stderr,textDiskWriteError,TargetStart);
fprintf(stderr,"\n");
return(FALSE);
}
TargetStart += Count;
NonClusterSectorsDone += Count;
TotalSectorsDone += Count;
printf(textTransferringFile,CmdLineArgs.ImageFile,100*TotalSectorsDone/TotalSectorsToTransfer);
printf("\r");
}
return(TRUE);
}
BOOL
ExpandClusters(
IN HDISK DiskHandle,
IN unsigned FileHandle,
IN ULONG TargetStart
)
{
ULONG Start,Count;
ULONG TargetSector;
BYTE u;
unsigned Read;
if(!InitializeClusterMap(FileHandle)) {
return(FALSE);
}
//
// Seek to start of cluster data in input file.
//
Start = (1 + PartitionImage.NonClusterSectors) * 512;
if(DosSeek(FileHandle,Start,DOSSEEK_START) != Start) {
fprintf(stderr,"\n%s\n",textCantAccessImageFile);
return(FALSE);
}
//
// Get a run of clusters. If there are no more clusters left, we're done.
//
nextrun:
if(!GetClusterRun(FileHandle,&Start,&Count)) {
return(FALSE);
}
if(!Count) {
return(TRUE);
}
Count *= PartitionImage.SectorsPerCluster;
//
// Calculate the offset of the data in the source file and
// the starting sector number of the target.
//
TargetSector = TargetStart + PartitionImage.NonClusterSectors + (Start*PartitionImage.SectorsPerCluster);
while(Count) {
u = (BYTE)((Count > 63L) ? 63L : Count);
if(_dos_read(FileHandle,IoBuffer,u*512U,&Read) || (Read != (u*512U))) {
fprintf(stderr,"\n%s\n",textCantAccessImageFile);
return(FALSE);
}
if(!WriteDisk(DiskHandle,TargetSector,u,IoBuffer)) {
fprintf(stderr,"\n");
fprintf(stderr,textDiskWriteError,TargetSector);
fprintf(stderr,"\n");
return(FALSE);
}
TargetSector += u;
Count -= u;
TotalSectorsDone += u;
printf(textTransferringFile,CmdLineArgs.ImageFile,100*TotalSectorsDone/TotalSectorsToTransfer);
printf("\r");
}
//
// Process additional clusters.
//
goto nextrun;
}
////////////////////////////////////////////////////
ULONG _ClusterSectorFileOffset;
ULONG _NextClusterToExamine;
ULONG _ClusterBufferBase;
BYTE _ClusterBuffer[512];
extern BYTE BitValue[8];
BOOL
InitializeClusterMap(
IN unsigned FileHandle
)
{
unsigned read;
//
// Figure out where in the file the cluster bitmap starts.
//
_ClusterSectorFileOffset = PartitionImage.NonClusterSectors
+ (PartitionImage.UsedClusterCount * PartitionImage.SectorsPerCluster)
+ 1;
_ClusterSectorFileOffset *= 512;
//
// Read the first sector of the cluster bitmap. Read into IoBuffer to avoid
// DMA boundary issues.
//
if((DosSeek(FileHandle,_ClusterSectorFileOffset,DOSSEEK_START) != _ClusterSectorFileOffset)
|| _dos_read(FileHandle,IoBuffer,512,&read) || (read != 512)) {
fprintf(stderr,"\n%s\n",textCantAccessImageFile);
return(FALSE);
}
memmove(_ClusterBuffer,IoBuffer,512);
_NextClusterToExamine = 0;
_ClusterBufferBase = 0;
return(TRUE);
}
BOOL
GetClusterRun(
IN unsigned FileHandle,
OUT ULONG *StartCluster,
OUT ULONG *ClusterCount
)
{
ULONG Offset;
UINT cluster;
BOOL b;
*ClusterCount = 0;
//
// Locate the next 1 bit in the map.
//
while(_NextClusterToExamine <= PartitionImage.LastUsedCluster) {
//
// Reload the cluster buffer if necessary. Preserve file pointer!
//
if(_NextClusterToExamine && !(_NextClusterToExamine % (8*512))) {
_ClusterSectorFileOffset += 512;
if(((Offset = DosSeek(FileHandle,0,DOSSEEK_CURRENT)) == (ULONG)(-1))
|| (DosSeek(FileHandle,_ClusterSectorFileOffset,DOSSEEK_START) != _ClusterSectorFileOffset)
|| _dos_read(FileHandle,IoBuffer,512,&cluster)
|| (cluster != 512)
|| (DosSeek(FileHandle,Offset,DOSSEEK_START) != Offset)) {
fprintf(stderr,"\n%s\n",textCantAccessImageFile);
return(FALSE);
}
memmove(_ClusterBuffer,IoBuffer,512);
_ClusterBufferBase += 8*512;
}
cluster = (UINT)(_NextClusterToExamine - _ClusterBufferBase);
//
// See if this bit is one, which starts a run of used clusters.
// To simplify things, we won't return a run that spans sectors
// in the cluster bitmap.
//
b = FALSE;
while((_ClusterBuffer[cluster/8] & BitValue[cluster%8])
&& (cluster < (8*512))
&& (_NextClusterToExamine <= PartitionImage.LastUsedCluster)) {
if(!b) {
*StartCluster = _NextClusterToExamine;
b = TRUE;
}
*ClusterCount += 1;
cluster++;
_NextClusterToExamine++;
}
if(b) {
return(TRUE);
}
_NextClusterToExamine++;
}
return(TRUE);
}