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windows-server-2003/base/boot/lib/cdfsboot.c

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/*++
Copyright (c) 1991 Microsoft Corporation
Module Name:
CdfsBoot.c
Abstract:
This module implements the Cdfs boot file system used by the operating
system loader.
Author:
Brian Andrew [BrianAn] 05-Aug-1991
Revision History:
--*/
#include "bootlib.h"
#include "cd.h"
#include "blcache.h"
BOOTFS_INFO CdfsBootFsInfo = {L"cdfs"};
//
// Local procedure prototypes.
//
ARC_STATUS
CdfsReadDisk(
IN ULONG DeviceId,
IN ULONG Lbo,
IN ULONG ByteCount,
IN OUT PVOID Buffer,
IN BOOLEAN CacheNewData
);
VOID
CdfsFirstComponent(
IN OUT PSTRING String,
OUT PSTRING FirstComponent
);
typedef enum _COMPARISON_RESULTS {
LessThan = -1,
EqualTo = 0,
GreaterThan = 1
} COMPARISON_RESULTS;
COMPARISON_RESULTS
CdfsCompareNames(
IN PSTRING Name1,
IN PSTRING Name2
);
ARC_STATUS
CdfsSearchDirectory(
IN PSTRING Name,
OUT PBOOLEAN IsDirectory
);
VOID
CdfsGetDirectoryInfo(
IN PRAW_DIR_REC DirEntry,
IN BOOLEAN IsoVol,
OUT PULONG SectorOffset,
OUT PULONG DiskOffset,
OUT PULONG Length
);
COMPARISON_RESULTS
CdfsFileMatch(
IN PRAW_DIR_REC DirEntry,
IN PSTRING FileName
);
typedef union _USHORT2 {
USHORT Ushort[2];
ULONG ForceAlignment;
} USHORT2, *PUSHORT2;
//
// This macro copies an unaligned src longword to an aligned dsr longword
// accessing the source on a word boundary.
//
#define CopyUshort2(Dst,Src) { \
((PUSHORT2)(Dst))->Ushort[0] = ((UNALIGNED USHORT2 *)(Src))->Ushort[0]; \
((PUSHORT2)(Dst))->Ushort[1] = ((UNALIGNED USHORT2 *)(Src))->Ushort[1]; \
}
//
// The following macro upcases a single ascii character
//
#define ToUpper(C) ((((C) >= 'a') && ((C) <= 'z')) ? (C) - 'a' + 'A' : (C))
#define SetFlag(Flags,SingleFlag) { (Flags) |= (SingleFlag); }
//
// The following macro indicate if the flag is on or off
//
#define FlagOn(Flags,SingleFlag) ((BOOLEAN)( \
(((Flags) & (SingleFlag)) != 0 ? TRUE : FALSE) \
) \
)
//
// Define global data.
//
// Context Pointer - This is a pointer to the context for the current file
// operation that is active.
//
PCDFS_STRUCTURE_CONTEXT CdfsStructureContext;
//
// File Descriptor - This is a pointer to the file descriptor for the current
// file operation that is active.
//
PBL_FILE_TABLE CdfsFileTableEntry;
//
// File entry table - This is a structure that provides entry to the Cdfs
// file system procedures. It is exported when a Cdfs file structure
// is recognized.
//
BL_DEVICE_ENTRY_TABLE CdfsDeviceEntryTable;
PBL_DEVICE_ENTRY_TABLE
IsCdfsFileStructure (
IN ULONG DeviceId,
IN PVOID StructureContext
)
/*++
Routine Description:
This routine determines if the partition on the specified channel
contains a Cdfs file system volume.
Arguments:
DeviceId - Supplies the file table index for the device on which
read operations are to be performed.
StructureContext - Supplies a pointer to a Hpfs file structure context.
Return Value:
A pointer to the Cdfs entry table is returned if the partition is
recognized as containing a Cdfs volume. Otherwise, NULL is returned.
--*/
{
UCHAR UnalignedSector[CD_SECTOR_SIZE + 256];
PRAW_ISO_VD RawVd;
PRAW_DIR_REC RootDe;
UCHAR DescType;
UCHAR Version;
BOOLEAN IsoVol;
BOOLEAN HsgVol;
STRING IsoVolId;
STRING HsgVolId;
STRING DiskId;
ULONG DiskOffset;
//
// Capture in our global variable the Cdfs Structure context record
//
CdfsStructureContext = (PCDFS_STRUCTURE_CONTEXT)StructureContext;
RtlZeroMemory((PVOID)CdfsStructureContext, sizeof(CDFS_STRUCTURE_CONTEXT));
//
// Compute the properly aligned buffer for reading in cdrom
// sectors.
//
RawVd = ALIGN_BUFFER( UnalignedSector );
//
// Initialize the string Id's to match.
//
RtlInitString( &IsoVolId, ISO_VOL_ID );
RtlInitString( &HsgVolId, HSG_VOL_ID );
DiskId.Length = 5;
DiskId.MaximumLength = 5;
//
// We initially start at the first volume descriptor.
//
DiskOffset = FIRST_VD_SECTOR * CD_SECTOR_SIZE;
//
// We loop, reading in volume descriptors until we find either
// a primary, terminator or a sector that cannot contain either.
//
while (TRUE) {
//
// Initialize the Hsg boolean.
//
HsgVol = FALSE;
//
// Read the sector at our current position. Return NULL on an
// error
//
if (CdfsReadDisk( DeviceId,
DiskOffset,
CD_SECTOR_SIZE,
RawVd,
CACHE_NEW_DATA) != ESUCCESS) {
return NULL;
}
//
// Compare the Id string in the volume descriptor with the Iso
// and Hsg values.
//
DiskId.Buffer = (PCHAR) RVD_STD_ID( RawVd, TRUE );
IsoVol = (BOOLEAN)(CdfsCompareNames( &DiskId, &IsoVolId ) == EqualTo);
if (!IsoVol) {
//
// Repeat the test with the Hsg Id string.
//
DiskId.Buffer = (PCHAR) RVD_STD_ID( RawVd, FALSE );
HsgVol = (BOOLEAN)(CdfsCompareNames( &DiskId, &HsgVolId ) == EqualTo);
//
// If neither, then return NULL.
//
if (!HsgVol) {
return NULL;
}
}
//
// Get the volume descriptor type and standard version number.
//
DescType = RVD_DESC_TYPE( RawVd, IsoVol );
Version = RVD_VERSION( RawVd, IsoVol );
//
// Return NULL, if the version is incorrect or this is a terminal
// volume descriptor.
//
if (Version != VERSION_1
|| DescType == VD_TERMINATOR) {
return NULL;
}
//
// If this is a primary volume descriptor, then our search is over.
//
if (DescType == VD_PRIMARY) {
//
// Update the fields of the Cdfs context structure that apply
// to the volume.
//
CdfsStructureContext->IsIsoVol = IsoVol;
CdfsStructureContext->LbnBlockSize = RVD_LB_SIZE( RawVd, IsoVol );
CdfsStructureContext->LogicalBlockCount = RVD_VOL_SIZE( RawVd, IsoVol );
//
// Get the information on the root directory and save it in
// the context structure.
//
RootDe = (PRAW_DIR_REC) (RVD_ROOT_DE( RawVd, IsoVol ));
CdfsGetDirectoryInfo( RootDe,
IsoVol,
&CdfsStructureContext->RootDirSectorOffset,
&CdfsStructureContext->RootDirDiskOffset,
&CdfsStructureContext->RootDirSize );
//
// Exit the loop.
//
break;
}
//
// Otherwise move to the next sector.
//
DiskOffset += CD_SECTOR_SIZE;
}
//
// Initialize the file entry table.
//
CdfsDeviceEntryTable.Open = CdfsOpen;
CdfsDeviceEntryTable.Close = CdfsClose;
CdfsDeviceEntryTable.Read = CdfsRead;
CdfsDeviceEntryTable.Seek = CdfsSeek;
CdfsDeviceEntryTable.Write = CdfsWrite;
CdfsDeviceEntryTable.GetFileInformation = CdfsGetFileInformation;
CdfsDeviceEntryTable.SetFileInformation = CdfsSetFileInformation;
CdfsDeviceEntryTable.BootFsInfo = &CdfsBootFsInfo;
//
// And return the address of the table to our caller.
//
return &CdfsDeviceEntryTable;
}
ARC_STATUS
CdfsClose (
IN ULONG FileId
)
/*++
Routine Description:
This routine closes the file specified by the file id.
Arguments:
FileId - Supplies the file table index.
Return Value:
ESUCCESS if returned as the function value.
--*/
{
//
// Indicate that the file isn't open any longer
//
BlFileTable[FileId].Flags.Open = 0;
//
// And return to our caller
//
return ESUCCESS;
}
ARC_STATUS
CdfsOpen (
IN CHAR * FIRMWARE_PTR FileName,
IN OPEN_MODE OpenMode,
IN ULONG * FIRMWARE_PTR FileId
)
/*++
Routine Description:
This routine searches the root directory for a file matching FileName.
If a match is found the dirent for the file is saved and the file is
opened.
Arguments:
FileName - Supplies a pointer to a zero terminated file name.
OpenMode - Supplies the mode of the open.
FileId - Supplies a pointer to a variable that specifies the file
table entry that is to be filled in if the open is successful.
Return Value:
ESUCCESS is returned if the open operation is successful. Otherwise,
an unsuccessful status is returned that describes the reason for failure.
--*/
{
ARC_STATUS Status;
ULONG DeviceId;
STRING PathName;
STRING Name;
BOOLEAN IsDirectory;
BOOLEAN SearchSucceeded;
//
// Save the address of the file table entry, context area, and the device
// id in use.
//
CdfsFileTableEntry = &BlFileTable[*FileId];
CdfsStructureContext = (PCDFS_STRUCTURE_CONTEXT)CdfsFileTableEntry->StructureContext;
DeviceId = CdfsFileTableEntry->DeviceId;
//
// Construct a file name descriptor from the input file name.
//
RtlInitString( &PathName, FileName );
//
// Set the starting directory to be the root directory.
//
CdfsStructureContext->DirSectorOffset = CdfsStructureContext->RootDirSectorOffset;
CdfsStructureContext->DirDiskOffset = CdfsStructureContext->RootDirDiskOffset;
CdfsStructureContext->DirSize = CdfsStructureContext->RootDirSize;
//
// While the path name has some characters in it we'll go through our
// loop which extracts the first part of the path name and searches
// the current fnode (which must be a directory) for an the entry.
// If what we find is a directory then we have a new directory fnode
// and simply continue back to the top of the loop.
//
IsDirectory = TRUE;
SearchSucceeded = TRUE;
while (PathName.Length > 0
&& IsDirectory) {
//
// Extract the first component.
//
CdfsFirstComponent( &PathName, &Name );
//
// Copy the name into the filename buffer.
//
CdfsFileTableEntry->FileNameLength = (UCHAR) Name.Length;
RtlMoveMemory( CdfsFileTableEntry->FileName,
Name.Buffer,
Name.Length );
//
// Look to see if the file exists.
//
Status = CdfsSearchDirectory( &Name,
&IsDirectory );
if (Status == ENOENT) {
SearchSucceeded = FALSE;
break;
}
if (Status != ESUCCESS) {
return Status;
}
}
//
// If the path name length is not zero then we were trying to crack a path
// with an nonexistent (or non directory) name in it. For example, we tried
// to crack a\b\c\d and b is not a directory or does not exist (then the path
// name will still contain c\d).
//
if (PathName.Length != 0) {
return ENOTDIR;
}
//
// At this point we've cracked the name up to (an maybe including the last
// component). We located the last component if the SearchSucceeded flag is
// true, otherwise the last component does not exist. If we located the last
// component then this is like an open or a supersede, but not a create.
//
if (SearchSucceeded) {
//
// Check if the last component is a directory
//
if (IsDirectory) {
//
// For an existing directory the only valid open mode is OpenDirectory
// all other modes return an error
//
switch (OpenMode) {
case ArcOpenReadOnly:
case ArcOpenWriteOnly:
case ArcOpenReadWrite:
case ArcCreateWriteOnly:
case ArcCreateReadWrite:
case ArcSupersedeWriteOnly:
case ArcSupersedeReadWrite:
//
// If we reach here then the caller got a directory but didn't
// want to open a directory
//
return EISDIR;
case ArcOpenDirectory:
//
// If we reach here then the caller got a directory and wanted
// to open a directory.
//
CdfsFileTableEntry->u.CdfsFileContext.FileSize = CdfsStructureContext->DirSize;
CdfsFileTableEntry->u.CdfsFileContext.DiskOffset = CdfsStructureContext->DirDiskOffset;
CdfsFileTableEntry->u.CdfsFileContext.IsDirectory = TRUE;
CdfsFileTableEntry->Flags.Open = 1;
CdfsFileTableEntry->Flags.Read = 1;
CdfsFileTableEntry->Position.LowPart = 0;
CdfsFileTableEntry->Position.HighPart = 0;
return ESUCCESS;
case ArcCreateDirectory:
//
// If we reach here then the caller got a directory and wanted
// to create a new directory
//
return EACCES;
}
}
//
// If we get there then we have an existing file that is being opened.
// We can open existing files only read only.
//
switch (OpenMode) {
case ArcOpenReadOnly:
//
// If we reach here then the user got a file and wanted to open the
// file read only
//
CdfsFileTableEntry->u.CdfsFileContext.FileSize = CdfsStructureContext->DirSize;
CdfsFileTableEntry->u.CdfsFileContext.DiskOffset = CdfsStructureContext->DirDiskOffset;
CdfsFileTableEntry->u.CdfsFileContext.IsDirectory = FALSE;
CdfsFileTableEntry->Flags.Open = 1;
CdfsFileTableEntry->Flags.Read = 1;
CdfsFileTableEntry->Position.LowPart = 0;
CdfsFileTableEntry->Position.HighPart = 0;
return ESUCCESS;
case ArcOpenWriteOnly:
case ArcOpenReadWrite:
case ArcCreateWriteOnly:
case ArcCreateReadWrite:
case ArcSupersedeWriteOnly:
case ArcSupersedeReadWrite:
//
// If we reach here then we are trying to open a read only
// device for write.
//
return EROFS;
case ArcOpenDirectory:
case ArcCreateDirectory:
//
// If we reach here then the user got a file and wanted a directory
//
return ENOTDIR;
}
}
//
// If we get here the last component does not exist so we are trying to create
// either a new file or a directory.
//
switch (OpenMode) {
case ArcOpenReadOnly:
case ArcOpenWriteOnly:
case ArcOpenReadWrite:
case ArcOpenDirectory:
//
// If we reach here then the user did not get a file but wanted a file
//
return ENOENT;
case ArcCreateWriteOnly:
case ArcSupersedeWriteOnly:
case ArcCreateReadWrite:
case ArcSupersedeReadWrite:
case ArcCreateDirectory:
//
// If we get hre the user wants to create something.
//
return EROFS;
}
//
// If we reach here then the path name is exhausted and we didn't
// reach a file so return an error to our caller
//
return ENOENT;
}
ARC_STATUS
CdfsRead (
IN ULONG FileId,
OUT VOID * FIRMWARE_PTR Buffer,
IN ULONG Length,
OUT ULONG * FIRMWARE_PTR Transfer
)
/*++
Routine Description:
This routine reads data from the specified file.
Arguments:
FileId - Supplies the file table index.
Buffer - Supplies a pointer to the buffer that receives the data
read.
Length - Supplies the number of bytes that are to be read.
Transfer - Supplies a pointer to a variable that receives the number
of bytes actually transfered.
Return Value:
ESUCCESS is returned if the read operation is successful. Otherwise,
an unsuccessful status is returned that describes the reason for failure.
--*/
{
ARC_STATUS Status;
ULONG DeviceId;
ULONG DiskOffset;
//
// Save the address of the file table entry, context area, and the device
// id in use.
//
CdfsFileTableEntry = &BlFileTable[FileId];
CdfsStructureContext = (PCDFS_STRUCTURE_CONTEXT)CdfsFileTableEntry->StructureContext;
DeviceId = CdfsFileTableEntry->DeviceId;
//
// Clear the transfer count and set the initial disk offset.
//
*Transfer = 0;
//
// Check for end of file.
//
//
// If the file position is currently at the end of file, then return
// a success status with no bytes read from the file. If the file
// plus the length of the transfer is beyond the end of file, then
// read only the remaining part of the file. Otherwise, read the
// requested number of bytes.
//
if (CdfsFileTableEntry->Position.LowPart ==
CdfsFileTableEntry->u.CdfsFileContext.FileSize) {
return ESUCCESS;
} else {
if ((CdfsFileTableEntry->Position.LowPart + Length) >=
CdfsFileTableEntry->u.CdfsFileContext.FileSize) {
Length = CdfsFileTableEntry->u.CdfsFileContext.FileSize -
CdfsFileTableEntry->Position.LowPart;
}
}
DiskOffset = CdfsFileTableEntry->Position.LowPart
+ CdfsFileTableEntry->u.CdfsFileContext.DiskOffset;
//
// Read in runs (i.e., sectors) until the byte count goes to zero
//
while (Length > 0) {
ULONG CurrentRunByteCount;
//
// Compute the current read byte count.
//
if (Length > MAX_CDROM_READ) {
CurrentRunByteCount = MAX_CDROM_READ;
} else {
CurrentRunByteCount = Length;
}
//
// Read from the disk.
//
if ((Status = CdfsReadDisk( DeviceId,
DiskOffset,
CurrentRunByteCount,
Buffer,
DONT_CACHE_NEW_DATA)) != ESUCCESS) {
return Status;
}
//
// Update the remaining length.
//
Length -= CurrentRunByteCount;
//
// Update the current position and the number of bytes transfered
//
CdfsFileTableEntry->Position.LowPart += CurrentRunByteCount;
DiskOffset += CurrentRunByteCount;
*Transfer += CurrentRunByteCount;
//
// Update buffer to point to the next byte location to fill in
//
Buffer = (PCHAR)Buffer + CurrentRunByteCount;
}
//
// If we get here then remaining sector count is zero so we can
// return success to our caller
//
return ESUCCESS;
}
ARC_STATUS
CdfsSeek (
IN ULONG FileId,
IN LARGE_INTEGER * FIRMWARE_PTR Offset,
IN SEEK_MODE SeekMode
)
/*++
Routine Description:
This routine seeks to the specified position for the file specified
by the file id.
Arguments:
FileId - Supplies the file table index.
Offset - Supplies the offset in the file to position to.
SeekMode - Supplies the mode of the seek operation.
Return Value:
ESUCCESS if returned as the function value.
--*/
{
ULONG NewPosition;
//
// Compute the new position
//
if (SeekMode == SeekAbsolute) {
NewPosition = Offset->LowPart;
} else {
NewPosition = BlFileTable[FileId].Position.LowPart + Offset->LowPart;
}
//
// If the new position is greater than the file size then return
// an error
//
if (NewPosition > BlFileTable[FileId].u.CdfsFileContext.FileSize) {
return EINVAL;
}
//
// Otherwise set the new position and return to our caller
//
BlFileTable[FileId].Position.LowPart = NewPosition;
return ESUCCESS;
}
ARC_STATUS
CdfsWrite (
IN ULONG FileId,
IN VOID * FIRMWARE_PTR Buffer,
IN ULONG Length,
OUT ULONG * FIRMWARE_PTR Transfer
)
/*++
Routine Description:
This routine writes data to the specified file.
Arguments:
FileId - Supplies the file table index.
Buffer - Supplies a pointer to the buffer that contains the data
written.
Length - Supplies the number of bytes that are to be written.
Transfer - Supplies a pointer to a variable that receives the number
of bytes actually transfered.
Return Value:
ESUCCESS is returned if the write operation is successful. Otherwise,
an unsuccessful status is returned that describes the reason for failure.
--*/
{
return EROFS;
UNREFERENCED_PARAMETER( FileId );
UNREFERENCED_PARAMETER( Buffer );
UNREFERENCED_PARAMETER( Length );
UNREFERENCED_PARAMETER( Transfer );
}
ARC_STATUS
CdfsGetFileInformation (
IN ULONG FileId,
OUT FILE_INFORMATION * FIRMWARE_PTR Buffer
)
/*++
Routine Description:
This procedure returns to the user a buffer filled with file information
Arguments:
FileId - Supplies the File id for the operation
Buffer - Supplies the buffer to receive the file information. Note that
it must be large enough to hold the full file name
Return Value:
ESUCCESS is returned for all get information requests.
--*/
{
PBL_FILE_TABLE FileTableEntry;
ULONG i;
//
// Load our local variables
//
FileTableEntry = &BlFileTable[FileId];
//
// Zero out the buffer, and fill in its non-zero values
//
RtlZeroMemory(Buffer, sizeof(FILE_INFORMATION));
Buffer->EndingAddress.LowPart = FileTableEntry->u.CdfsFileContext.FileSize;
Buffer->CurrentPosition.LowPart = FileTableEntry->Position.LowPart;
Buffer->CurrentPosition.HighPart = 0;
SetFlag(Buffer->Attributes, ArcReadOnlyFile);
if (FileTableEntry->u.CdfsFileContext.IsDirectory) {
SetFlag( Buffer->Attributes, ArcDirectoryFile );
}
Buffer->FileNameLength = FileTableEntry->FileNameLength;
for (i = 0; i < FileTableEntry->FileNameLength; i += 1) {
Buffer->FileName[i] = FileTableEntry->FileName[i];
}
return ESUCCESS;
}
ARC_STATUS
CdfsSetFileInformation (
IN ULONG FileId,
IN ULONG AttributeFlags,
IN ULONG AttributeMask
)
/*++
Routine Description:
This routine sets the file attributes of the indicated file
Arguments:
FileId - Supplies the File Id for the operation
AttributeFlags - Supplies the value (on or off) for each attribute being modified
AttributeMask - Supplies a mask of the attributes being altered. All other
file attributes are left alone.
Return Value:
EROFS is always returned in this case.
--*/
{
return EROFS;
UNREFERENCED_PARAMETER( FileId );
UNREFERENCED_PARAMETER( AttributeFlags );
UNREFERENCED_PARAMETER( AttributeMask );
}
ARC_STATUS
CdfsInitialize (
VOID
)
/*++
Routine Description:
This routine initializes the cdfs boot filesystem.
Currently this is a no-op.
Arguments:
None.
Return Value:
ESUCCESS.
--*/
{
return ESUCCESS;
}
//
// Internal support routine
//
ARC_STATUS
CdfsReadDisk(
IN ULONG DeviceId,
IN ULONG Lbo,
IN ULONG ByteCount,
IN OUT PVOID Buffer,
IN BOOLEAN CacheNewData
)
/*++
Routine Description:
This routine reads in zero or more sectors from the specified device.
Arguments:
DeviceId - Supplies the device id to use in the arc calls.
Lbo - Supplies the LBO to start reading from.
ByteCount - Supplies the number of bytes to read.
Buffer - Supplies a pointer to the buffer to read the bytes into.
Return Value:
ESUCCESS is returned if the read operation is successful. Otherwise,
an unsuccessful status is returned that describes the reason for failure.
--*/
{
LARGE_INTEGER LargeLbo;
ARC_STATUS Status;
ULONG i;
//
// Special case the zero byte read request
//
if (ByteCount == 0) {
return ESUCCESS;
}
//
// Issue the read through the cache.
//
LargeLbo.QuadPart = Lbo;
Status = BlDiskCacheRead(DeviceId,
&LargeLbo,
Buffer,
ByteCount,
&i,
CacheNewData);
if (Status != ESUCCESS) {
return Status;
}
//
// Make sure we got back the amount requested
//
if (ByteCount != i) {
return EIO;
}
//
// Everything is fine so return success to our caller
//
return ESUCCESS;
}
//
// Internal support routine
//
VOID
CdfsFirstComponent(
IN OUT PSTRING String,
OUT PSTRING FirstComponent
)
/*++
Routine Description:
This routine takes an input path name and separates it into its
first file name component and the remaining part.
Arguments:
String - Supplies the original string being dissected. On return
this string will now point to the remaining part.
FirstComponent - Returns the string representing the first file name
in the input string.
Return Value:
None.
--*/
{
ULONG Index;
//
// Copy over the string variable into the first component variable
//
*FirstComponent = *String;
//
// Now if the first character in the name is a backslash then
// simply skip over the backslash.
//
if (FirstComponent->Buffer[0] == '\\') {
FirstComponent->Buffer += 1;
FirstComponent->Length -= 1;
}
//
// Now search the name for a backslash
//
for (Index = 0; Index < FirstComponent->Length; Index += 1) {
if (FirstComponent->Buffer[Index] == '\\') {
break;
}
}
//
// At this point Index denotes a backslash or is equal to the length
// of the string. So update string to be the remaining part.
// Decrement the length of the first component by the approprate
// amount
//
String->Buffer = &FirstComponent->Buffer[Index];
String->Length = (SHORT)(FirstComponent->Length - Index);
FirstComponent->Length = (SHORT)Index;
//
// And return to our caller.
//
return;
}
//
// Internal support routine
//
COMPARISON_RESULTS
CdfsCompareNames(
IN PSTRING Name1,
IN PSTRING Name2
)
/*++
Routine Description:
This routine takes two names and compare them ignoring case. This
routine does not do implied dot or dbcs processing.
Arguments:
Name1 - Supplies the first name to compare
Name2 - Supplies the second name to compare
Return Value:
LessThan if Name1 is lexically less than Name2
EqualTo if Name1 is lexically equal to Name2
GreaterThan if Name1 is lexically greater than Name2
--*/
{
ULONG i;
ULONG MinimumLength;
//
// Compute the smallest of the two name lengths
//
MinimumLength = (Name1->Length < Name2->Length ? Name1->Length : Name2->Length);
//
// Now compare each character in the names.
//
for (i = 0; i < MinimumLength; i += 1) {
if (ToUpper(Name1->Buffer[i]) < ToUpper(Name2->Buffer[i])) {
return LessThan;
}
if (ToUpper(Name1->Buffer[i]) > ToUpper(Name2->Buffer[i])) {
return GreaterThan;
}
}
//
// The names compared equal up to the smallest name length so
// now check the name lengths
//
if (Name1->Length < Name2->Length) {
return LessThan;
}
if (Name1->Length > Name2->Length) {
return GreaterThan;
}
return EqualTo;
}
//
// Internal support routine.
//
ARC_STATUS
CdfsSearchDirectory(
IN PSTRING Name,
OUT PBOOLEAN IsDirectory
)
/*++
Routine Description:
This routine walks through the current directory in the Cdfs
context structure, looking for a match for 'Name'. We will find
the first non-multi-extent, non-interleave file. We will ignore
any version number for the file. The details about the file, if
found, are stored in the Cdfs context structure.
Arguments:
Name - This is the name of the file to search for.
IsDirectory - Supplies the address of a boolean where we store
whether this is or is not a directory.
Return Value:
ESUCCESS is returned if the operation is successful. Otherwise,
an unsuccessful status is returned that describes the reason for failure.
--*/
{
ARC_STATUS Status;
ULONG SectorOffset;
ULONG SectorDiskOffset;
ULONG DirentOffset;
ULONG RemainingBytes;
BOOLEAN ReadSector;
BOOLEAN SearchForMultiEnd;
UCHAR UnalignedBuffer[CD_SECTOR_SIZE + 256];
PUCHAR RawSector;
PRAW_DIR_REC RawDe;
COMPARISON_RESULTS ComparisonResult;
//
// Initialize the local variables.
//
RawSector = ALIGN_BUFFER( UnalignedBuffer );
SearchForMultiEnd = FALSE;
//
// Remember where we are within the disk, sector and directory file.
//
SectorOffset = CdfsStructureContext->DirSectorOffset;
SectorDiskOffset = CdfsStructureContext->DirDiskOffset - SectorOffset;
DirentOffset = 0;
ReadSector = FALSE;
//
// If this is the root directory, then we can return immediately.
//
if (Name->Length == 1
&& *Name->Buffer == '\\') {
*IsDirectory = TRUE;
//
// The structure context is already filled in.
//
return ESUCCESS;
}
//
// Compute the remaining bytes in this sector.
//
RemainingBytes = CD_SECTOR_SIZE - SectorOffset;
//
// Loop until the directory is exhausted or a matching dirent for the
// target name is found.
//
while (TRUE) {
//
// If the current offset is beyond the end of the directory,
// raise an appropriate status.
//
if (DirentOffset >= CdfsStructureContext->DirSize) {
return ENOENT;
}
//
// If the remaining bytes in this sector is less than the
// minimum needed for a dirent, then move to the next sector.
//
if (RemainingBytes < MIN_DIR_REC_SIZE) {
SectorDiskOffset += CD_SECTOR_SIZE;
DirentOffset += RemainingBytes;
SectorOffset = 0;
RemainingBytes = CD_SECTOR_SIZE;
ReadSector = FALSE;
continue;
}
//
// If we have not read in the sector, do so now.
//
if (!ReadSector) {
Status = CdfsReadDisk( CdfsFileTableEntry->DeviceId,
SectorDiskOffset,
CD_SECTOR_SIZE,
RawSector,
CACHE_NEW_DATA);
if (Status != ESUCCESS) {
return Status;
}
ReadSector = TRUE;
}
//
// If the first byte of the next dirent is '\0', then we move to
// the next sector.
//
if (*(RawSector + SectorOffset) == '\0') {
SectorDiskOffset += CD_SECTOR_SIZE;
DirentOffset += RemainingBytes;
SectorOffset = 0;
RemainingBytes = CD_SECTOR_SIZE;
ReadSector = FALSE;
continue;
}
RawDe = (PRAW_DIR_REC) ((PUCHAR) RawSector + SectorOffset);
//
// If the size of this dirent extends beyond the end of this sector
// we abort the search.
//
if ((ULONG)RawDe->DirLen > RemainingBytes) {
return EINVAL;
}
//
// We have correctly found the next dirent. We first check whether
// we are looking for the last dirent for a multi-extent.
//
if (SearchForMultiEnd) {
//
// If this is the last of a multi-extent we change our search
// state.
//
if (!FlagOn( DE_FILE_FLAGS( CdfsStructureContext->IsIsoVol, RawDe ),
ISO_ATTR_MULTI )) {
SearchForMultiEnd = TRUE;
}
//
// If this is a multi-extent dirent, we change our search state.
//
} else if (FlagOn( DE_FILE_FLAGS( CdfsStructureContext->IsIsoVol, RawDe ),
ISO_ATTR_MULTI )) {
SearchForMultiEnd = TRUE;
//
// If this is a file match, we update the Cdfs context structure
// and the 'IsDirectory' flag.
//
} else {
ComparisonResult = CdfsFileMatch( RawDe, Name );
if (ComparisonResult == EqualTo) {
CdfsGetDirectoryInfo( RawDe,
CdfsStructureContext->IsIsoVol,
&CdfsStructureContext->DirSectorOffset,
&CdfsStructureContext->DirDiskOffset,
&CdfsStructureContext->DirSize );
*IsDirectory = FlagOn( DE_FILE_FLAGS( CdfsStructureContext->IsIsoVol, RawDe ),
ISO_ATTR_DIRECTORY );
return ESUCCESS;
//
// If we have passed this file in the directory, then
// exit with the appropriate error code.
//
} else if (ComparisonResult == GreaterThan) {
return ENOENT;
}
}
//
// Otherwise we simply compute the next sector offset, disk offset
// and file offset.
//
SectorOffset += RawDe->DirLen;
DirentOffset += RawDe->DirLen;
RemainingBytes -= RawDe->DirLen;
}
return ESUCCESS;
}
//
// Internal support routine.
//
VOID
CdfsGetDirectoryInfo(
IN PRAW_DIR_REC DirEntry,
IN BOOLEAN IsoVol,
OUT PULONG SectorOffset,
OUT PULONG DiskOffset,
OUT PULONG Length
)
/*++
Routine Description:
This routine takes a pointer to a raw directory structure on the disk
and computes the file size, disk offset and file length for the
directory entry.
Arguments:
DirEntry - This points to raw data from the disk.
IsoVol - Boolean indicating that this is an ISO volume.
SectorOffset - This supplies the address to store the sector offset of the
start of the disk data.
DiskOffset - This supplies the address to store the disk offset of the
start of the disk data.
Length - This supplies the address to store the number of bytes in
the file referred by this disk directory.
Return Value:
None.
--*/
{
//
// The disk offset is length of the Xar blocks added to the starting
// location for the file.
//
CopyUshort2( DiskOffset, DirEntry->FileLoc );
*DiskOffset *= CdfsStructureContext->LbnBlockSize;
*DiskOffset += (DirEntry->XarLen * CdfsStructureContext->LbnBlockSize);
//
// The sector offset is the least significant bytes of the disk offset.
//
*SectorOffset = *DiskOffset & (CD_SECTOR_SIZE - 1);
//
// The file size is pulled straight from the dirent. We round it
// to a sector size to protect us from faulty disks if this is a
// directory. Otherwise we use it directly from the dirent.
//
CopyUshort2( Length, DirEntry->DataLen );
if (FlagOn( DE_FILE_FLAGS( IsoVol, DirEntry ), ISO_ATTR_DIRECTORY )) {
*Length += (*SectorOffset + CD_SECTOR_SIZE - 1);
*Length &= ~(CD_SECTOR_SIZE - 1);
*Length -= *SectorOffset;
}
return;
}
//
// Internal support routine.
//
COMPARISON_RESULTS
CdfsFileMatch(
IN PRAW_DIR_REC DirEntry,
IN PSTRING FileName
)
{
STRING DirentString;
ULONG Count;
PCHAR StringPtr;
//
// We never match either '\0' or '\1'. We will return 'LessThan' in
// all of these cases.
//
if (DirEntry->FileIdLen == 1
&& (DirEntry->FileId[0] == '\0'
|| DirEntry->FileId[0] == '\1')) {
return LessThan;
}
//
// We assume that we can use the entire file name in the dirent.
//
DirentString.Length = DirEntry->FileIdLen;
DirentString.Buffer = (PCHAR) DirEntry->FileId;
//
// We walk backwards through the dirent name to check for the
// existance of a ';' character. We then set the string length
// to this position.
//
StringPtr = DirentString.Buffer + DirentString.Length - 1;
Count = DirentString.Length;
while (Count--) {
if (*StringPtr == ';') {
DirentString.Length = (SHORT)Count;
break;
}
StringPtr--;
}
//
// We also check for a terminating '.' character and truncate it.
//
StringPtr = DirentString.Buffer + DirentString.Length - 1;
Count = DirentString.Length;
while (Count--) {
if (*StringPtr == '.') {
DirentString.Length = (SHORT)Count;
} else {
break;
}
StringPtr--;
}
//
// We now have the two filenames to compare. The result of this
// operation is simply the comparison of the two of them.
//
DirentString.MaximumLength = DirentString.Length;
return CdfsCompareNames( &DirentString, FileName );
}