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windows-nt-4.0/private/windows/win4help/hcrtf/fswrite.cpp

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/*****************************************************************************
*
* FSWRITE.CPP
*
* Copyright (C) Microsoft Corporation 1990-1995.
* All Rights reserved.
*
******************************************************************************
*
* Module Intent
*
* File System Manager functions for writing.
*
*****************************************************************************/
#include "stdafx.h"
#include "fspriv.h"
#ifdef _DEBUG
#include <io.h> // for tell()
#endif
#ifdef _DEBUG
#undef THIS_FILE
static char THIS_FILE[] = __FILE__;
#endif
/*****************************************************************************
* *
* Defines *
* *
*****************************************************************************/
#define CDROM_ALIGN 2048 // CDROM alignment block size
/*****************************************************************************
* *
* Prototypes *
* *
*****************************************************************************/
static int FASTCALL LcbCdRomPadding(int lif, int lcbOffset);
static BOOL STDCALL FCloseOrFlushDirtyQrwfo(QRWFO qrwfo, BOOL fClose, int lcbOffset);
static int STDCALL LcbGetFree(QFSHR qfshr, QRWFO qrwfo, int lcbOffset);
/***************************************************************************\
* *
* Private Functions *
* *
\***************************************************************************/
/***************************************************************************\
*
* Function: FFreeBlock( qfshr, lifThis )
*
* Purpose: Free the block beginning at lifThis.
*
* Method: Insert into free list in sorted order. If this block is
* adjacent to another free block, merge them. If this block
* is at the end of the file, truncate the file.
*
* ASSUMES
*
* returns: fTruth or FALSEhood of success
* If FALSE is returned, free list could be corrupted
*
* args IN: qfshr - pointer to file system header dealie
* - qfshr->fid is valid (plunged)
* lifThis - valid index of nonfree block
*
* PROMISES
*
* args OUT: qfshr - free list has a new entry, fModified flag set
*
* NOTES This function got hacked when I realized that I'd have to
* deal with the case where the block being freed is
* adjacent to EOF and to the last block on the free list.
* Probably this could be done more clearly and cleanly.
*
\***************************************************************************/
BOOL STDCALL FFreeBlock(QFSHR qfshr, LONG lifThis)
{
FID fid;
FH fh;
FREE_HEADER free_header_PrevPrev, free_header_Prev;
FREE_HEADER free_header_This, free_header_Next;
int lifPrevPrev = lifNil, lifPrev, lifNext;
BOOL fWritePrev, fAtEof;
if (lifThis < sizeof(FSH) ||
lifThis + (int) sizeof(FH) > (int) qfshr->fsh.lifEof ||
LSeekFid(qfshr->fid, lifThis, SEEK_SET) != lifThis ||
LcbReadFid(qfshr->fid, &fh, sizeof(FH)) != sizeof(FH)) {
if (SetFSErrorRc(RcGetIOError()) == RC_Success)
SetFSErrorRc(RC_Invalid);
return FALSE;
}
SetFSErrorRc(RC_Failure);
fid = qfshr->fid;
free_header_This.lcbBlock = fh.lcbBlock;
fAtEof = (lifThis + free_header_This.lcbBlock == qfshr->fsh.lifEof);
lifPrev = qfshr->fsh.lifFirstFree;
if (lifPrev == lifNil || lifThis < lifPrev) {
free_header_This.lifNext = lifNext = lifPrev;
qfshr->fsh.lifFirstFree = lifThis;
fWritePrev = FALSE;
}
else {
if (LSeekFid(fid, lifPrev, SEEK_SET) != lifPrev
||
LcbReadFid(fid, &free_header_Prev, sizeof(FREE_HEADER))
!=
sizeof(FREE_HEADER)) {
if (RcGetIOError() != RC_Success)
SetFSErrorRc(RcGetIOError());
return FALSE;
}
lifNext = free_header_Prev.lifNext;
for (;;) {
ASSERT(lifPrev < lifThis);
ASSERT(free_header_Prev.lifNext == lifNext);
if (lifNext == lifNil || lifThis < lifNext) {
free_header_This.lifNext = lifNext;
free_header_Prev.lifNext = lifThis;
fWritePrev = TRUE;
break;
}
if (fAtEof) {
lifPrevPrev = lifPrev;
free_header_PrevPrev = free_header_Prev;
}
lifPrev = lifNext;
if (LSeekFid(fid, lifPrev, SEEK_SET) != lifNext
||
LcbReadFid(fid, &free_header_Prev, sizeof(FREE_HEADER))
!=
sizeof(FREE_HEADER)) {
if (RcGetIOError() != RC_Success)
SetFSErrorRc(RcGetIOError());
return FALSE;
}
lifNext = free_header_Prev.lifNext;
}
ASSERT(lifNext == lifNil || lifNext > lifThis);
ASSERT(lifPrev != lifNil);
ASSERT(lifPrev < lifThis);
ASSERT(fWritePrev);
if (lifPrev + free_header_Prev.lcbBlock == lifThis) {
free_header_This.lcbBlock += free_header_Prev.lcbBlock;
lifThis = lifPrev;
if (fAtEof) {
free_header_Prev = free_header_PrevPrev;
lifPrev = lifPrevPrev;
fWritePrev = (lifPrev != lifNil);
}
else {
fWritePrev = FALSE;
}
}
}
if (fAtEof) {
if (SetFSErrorRc(RcChSizeFid(fid, lifThis)) != RC_Success)
return FALSE;
qfshr->fsh.lifEof = lifThis;
ASSERT((lifPrev == lifNil) != fWritePrev);
if (lifPrev == lifNil)
qfshr->fsh.lifFirstFree = lifNil;
else
free_header_Prev.lifNext = lifNil;
}
else {
if (lifThis + free_header_This.lcbBlock == lifNext) {
if (LSeekFid(fid, lifNext, SEEK_SET) != lifNext
||
LcbReadFid(fid, &free_header_Next, sizeof(FREE_HEADER))
!=
sizeof(FREE_HEADER)) {
if (RcGetIOError() != RC_Success)
SetFSErrorRc(RcGetIOError());
return FALSE;
}
free_header_This.lcbBlock += free_header_Next.lcbBlock;
free_header_This.lifNext = free_header_Next.lifNext;
}
if (LSeekFid(fid, lifThis, SEEK_SET) != lifThis
||
LcbWriteFid(fid, &free_header_This, sizeof(FREE_HEADER))
!=
sizeof(FREE_HEADER)) {
if (RcGetIOError() != RC_Success)
SetFSErrorRc(RcGetIOError());
return FALSE;
}
}
if (fWritePrev) {
if (LSeekFid(fid, lifPrev, SEEK_SET) != lifPrev
||
LcbWriteFid(fid, &free_header_Prev, sizeof(FREE_HEADER))
!=
sizeof(FREE_HEADER)) {
if (RcGetIOError() != RC_Success)
SetFSErrorRc(RcGetIOError());
return FALSE;
}
}
qfshr->fsh.bFlags |= FS_DIRTY;
SetFSErrorRc(RC_Success);
return TRUE;
}
/***************************************************************************\
*
* Function: LcbGetFree( qfshr, qrwfo, lcbOffset )
*
* Purpose: Get an adequate block from the free list.
*
* ASSUMES
*
* args IN: qfshr - pointer to file system header
* qrwfo->lcbFile - (+header) is size we need to allocate
*
* PROMISES
*
* returns: actual size of allocated block
*
* globals OUT: rcFSError
*
* args OUT: qfshr->lifFirstFree - a block is allocated from free list
* ->fModified - set to TRUE
*
* qrwfo->lifBase - set to new block index
*
* ALSO: if FS_CDROM is set for the file, we align it on a
* (MOD 2K) - 9 byte boundary so the |Topic file blocks are all
* properly aligned.
* +++
*
* Method: First Fit:
* Walk the free list. If a block is found that is
* big enough, remove it from the free list, plug its
* lif into qrwfo, and return the actual size.
* If a block isn't found, grow the file and make
* a new block starting at the old EOF.
*
* Bugs: The leftover part of the block isn't left on
* the free list. This is the whole point of First Fit.
* If aligning for CDROM, the padding part is not
* added to the free list. This breaks the FS abstraction
* and creates a permanent hole in the FS. This is evil.
*
\***************************************************************************/
static int STDCALL LcbGetFree(QFSHR qfshr, QRWFO qrwfo, int lcbOffset)
{
FID fid;
FREE_HEADER free_header_this, free_header_prev;
int lifPrev, lifThis;
int lcb = qrwfo->lcbFile + sizeof(FH);
int lcbPadding; // padding for file alignment
fid = qfshr->fid;
ASSERT(fid != HFILE_ERROR);
lifPrev = lifNil;
lifThis = qfshr->fsh.lifFirstFree;
for (;;) {
if (lifThis == lifNil) {
// end of free list
// cut the new block
lifThis = qfshr->fsh.lifEof;
if (qrwfo->bFlags & FS_CDROM)
lcbPadding = LcbCdRomPadding(lifThis, lcbOffset);
else
lcbPadding = 0;
if (lifThis != LSeekFid(fid, lifThis, SEEK_SET))
goto error_return;
// Put the hole in the free list someday?-Tom
lifThis += lcbPadding;
qfshr->fsh.lifEof += lcb + lcbPadding;
if (RcChSizeFid(fid, qfshr->fsh.lifEof) != RC_Success) {
qfshr->fsh.lifEof -= lcb + lcbPadding;
goto error_return;
}
break;
}
else {
// get header of this free block
if (LSeekFid(fid, lifThis, SEEK_SET) != lifThis)
goto error_return;
if (LcbReadFid(fid, &free_header_this, (int) sizeof(FREE_HEADER))
!=
(int) sizeof(FREE_HEADER)) {
goto error_return;
}
// Check for alignment requirements:
if (qrwfo->bFlags & FS_CDROM)
lcbPadding = LcbCdRomPadding(lifThis, lcbOffset);
else
lcbPadding = 0;
if (lcb + lcbPadding <= free_header_this.lcbBlock) {
// this block is big enough: take it
/*
* Someday break the free block into two (or three): one to
* return and the leftover piece(s) left in the free list.
*/
lcb = free_header_this.lcbBlock;
if (lifThis == qfshr->fsh.lifFirstFree) {
// lFirst = this->next;
qfshr->fsh.lifFirstFree = free_header_this.lifNext;
}
else {
// prev->next = this->next;
if (LSeekFid(fid, lifPrev, SEEK_SET) != lifPrev)
goto error_return;
if (LcbReadFid(fid, &free_header_prev, (int) sizeof(FREE_HEADER))
!=
(int) sizeof(FREE_HEADER))
goto error_return;
free_header_prev.lifNext = free_header_this.lifNext;
if (LSeekFid(fid, lifPrev, SEEK_SET) != lifPrev)
goto error_return;
if (LcbWriteFid(fid, &free_header_prev, (int) sizeof(FREE_HEADER))
!=
(int) sizeof(FREE_HEADER))
goto error_return;
}
// add padding at beginning:
lifThis += lcbPadding;
break;
}
else {
lifPrev = lifThis;
lifThis = free_header_this.lifNext;
}
}
}
qfshr->fsh.bFlags |= FS_DIRTY;
qrwfo->lifBase = lifThis;
SetFSErrorRc(RC_Success);
return lcb;
error_return:
if (RcGetIOError() == RC_Success)
SetFSErrorRc(RC_Invalid);
else
SetFSErrorRc(RcGetIOError());
return (int) -1;
}
/***************************************************************************\
*
- Function: LcbCdRomPadding( lif, lcbOffset )
-
* Purpose: Returns the number of bytes that must be added to
* lif to align the file on a CD block boundary.
* This is also the amount of the free block that
* should stay a free block.
* This allows block structured data to be retrieved
* more quickly from a CDROM drive.
*
* ASSUMES
* args IN: lif - offset in bytes of the beginning of the
* free block (relative to top of FS)
* lcbOffset - align the file this many bytes from the
* beginning of the file
*
* PROMISES
* returns: the number of bytes that must be added to lif in
* order to align the file
*
* Notes: Currently doesn't ensure that the padding is big enough
* to hold a FREE_HEADER so it can be added to the free list.
* That's what the "#if 0"'ed code does.
* +++
*
* Notes: Should CDROM_ALIGN be a parameter?
*
\***************************************************************************/
static int FASTCALL LcbCdRomPadding( int lif, int lcbOffset )
{
return CDROM_ALIGN - (lif + sizeof(FH) + lcbOffset) % CDROM_ALIGN;
#if 0
/* Guarantee the padding block can be added to the free list. */
/* #if'ed out because we don't add it to the free list today. */
int lT = lif + sizeof( FREE_HEADER ) + sizeof( FH ) + lcbOffset;
return sizeof( FREE_HEADER ) + CDROM_ALIGN - lT % CDROM_ALIGN;
#endif // 0
}
/***************************************************************************\
*
* Function: RcCopyToTempFile( qrwfo )
*
* Purpose: Copy a FS file into a temp file. This is done when the
* file needs to be modified.
*
* ASSUMES
*
* args IN: qrwfo - specs the open file
*
* PROMISES
*
* returns: RC_Success; RC_Failure
*
\***************************************************************************/
RC_TYPE STDCALL RcCopyToTempFile(QRWFO qrwfo)
{
QFSHR qfshr = (QFSHR) qrwfo->hfs;
ConfirmOrDie(!(qfshr->fsh.bFlags & FS_OPEN_READ_ONLY));
if (!FPlungeQfshr(qfshr))
return rcFSError;
qrwfo->bFlags |= FS_DIRTY;
qrwfo->pTmpFile = new CTmpFile();
// copy from FS file into temp file
if (LSeekFid(qfshr->fid, qrwfo->lifBase, SEEK_SET) != qrwfo->lifBase)
return SetFSErrorRc(RcGetIOError());
ASSERT(qrwfo->pTmpFile);
if (qrwfo->pTmpFile->copyfromfile(qfshr->fid, qrwfo->lcbFile + sizeof(FH))
!= RC_Success) {
delete qrwfo->pTmpFile;
qrwfo->pTmpFile = NULL;
}
return rcFSError;
}
/***************************************************************************
FUNCTION: LcbWriteHf
PURPOSE: Writes buffer to a temporary file
PARAMETERS:
hf
qb
lcb
RETURNS:
Returns ONLY if no errors occured, and what we wrote is the same
amount as what was requested
COMMENTS:
MODIFICATION DATES:
01-Mar-1994 [ralphw]
***************************************************************************/
void STDCALL LcbWriteHf(HF hf, void* pvData, int lcb)
{
int lcbTotalWrote;
ASSERT(hf != NULL);
QRWFO qrwfo = (QRWFO) hf;
ASSERT(!(qrwfo->bFlags & FS_OPEN_READ_ONLY));
if (!(qrwfo->bFlags & FS_DIRTY)) {
ASSERT(!qrwfo->pTmpFile);
// make sure we have a temp file version
// FS permission is checked in RcCopyToTempFile()
if (RcCopyToTempFile(qrwfo) != RC_Success) {
FatalError:
OutErrorRc(rcFSError);
HardExit(); // doesn't return
}
}
// position file pointer in temp file
if (qrwfo->pTmpFile->seek(sizeof(FH) + qrwfo->lifCurrent,
SEEK_SET) != (int) (sizeof(FH) + qrwfo->lifCurrent)) {
ForceFSError();
goto FatalError;
}
lcbTotalWrote = qrwfo->pTmpFile->write(pvData, lcb);
if (lcbTotalWrote != lcb) {
errHpj.ep = epNoFile;
if (!qrwfo->pTmpFile->pszFileName)
OOM();
// This shouldn't return
VReportError(HCERR_CANNOT_WRITE, &errHpj, qrwfo->pTmpFile->pszFileName);
}
// update file pointer and file size
if (lcbTotalWrote > 0) {
qrwfo->lifCurrent += lcbTotalWrote;
if (qrwfo->lifCurrent > qrwfo->lcbFile)
qrwfo->lcbFile = qrwfo->lifCurrent;
}
}
/***************************************************************************
FUNCTION: LcbWriteIntAsShort
PURPOSE: Write a 32-bit integer as a 16-bit value
PARAMETERS:
hf
val
RETURNS:
COMMENTS:
MODIFICATION DATES:
19-Aug-1994 [ralphw]
***************************************************************************/
void STDCALL LcbWriteIntAsShort(HF hf, int val)
{
INT16 iWriteVal = (INT16) val;
LcbWriteHf(hf, &iWriteVal, sizeof(INT16));
}
/***************************************************************************\
*
* Function: FCloseOrFlushDirtyQrwfo( qrwfo, fClose, lcbOffset )
*
* Purpose: flush a dirty open file in a file system
*
* Method: If the file is dirty, copy the scratch file back to the
* FS file. If this is the first time the file has been closed,
* we enter the name into the FS directory. If this file is
* the FS directory, store the location in a special place
* instead. Write the FS directory and header to disk.
* Do other various hairy stuff.
*
* ASSUMES
*
* args IN: qrwfo -
* fClose - TRUE to close file; FALSE to just flush
* lcbOffset - offset for CDROM alignment
*
* PROMISES
*
* returns: TRUE on success; FALSE for error
*
* failure: If we fail on a flush, the handle is still valid
* but hosed? yes. This is so further file ops will fail but
* not assert.
*
\***************************************************************************/
static BOOL STDCALL FCloseOrFlushDirtyQrwfo(QRWFO qrwfo, BOOL fClose,
int lcbOffset)
{
QFSHR qfshr;
FILE_REC fr;
FH fh;
RC_TYPE rc = RC_Success;
BOOL fChangeFH = FALSE;
qfshr = (QFSHR) qrwfo->hfs;
ASSERT(!(qfshr->fsh.bFlags & FS_OPEN_READ_ONLY));
if (qfshr->fid == HFILE_ERROR && !FPlungeQfshr(qfshr))
return FALSE;
ASSERT(qrwfo->pTmpFile);
// read the file header
if (qrwfo->pTmpFile->seek(0, SEEK_SET) != 0 ||
qrwfo->pTmpFile->read(&fh, sizeof(FH)) != sizeof(FH)) {
ForceFSError();
return FALSE;
}
if (qrwfo->bFlags & FS_NO_BLOCK) {
if ((fh.lcbBlock = LcbGetFree(qfshr, qrwfo, lcbOffset)) == (int) -1)
return FALSE;
fChangeFH = TRUE;
// store file offset for new file
if (qrwfo->bFlags & FS_IS_DIRECTORY)
qfshr->fsh.lifDirectory = qrwfo->lifBase;
else {
fr.lifBase = qrwfo->lifBase;
rc = RcInsertHbt(qfshr->qbthr, (KEY) qrwfo->rgchKey, &fr);
if (rc == RC_Exists) {
// oops there is one (someone else created the same file)
// lookup directory entry and free old block
if (RcLookupByKey(qfshr->qbthr, (KEY) qrwfo->rgchKey, NULL, &fr) !=
RC_Success) {
SetFSErrorRc(RcGetBtreeError());
goto error_freeblock;
}
if (!FFreeBlock(qfshr, fr.lifBase))
goto error_freeblock;
// update directory record to show new block
fr.lifBase = qrwfo->lifBase;
if (RcUpdateHbt(qfshr->qbthr, (KEY) qrwfo->rgchKey, &fr) != RC_Success) {
SetFSErrorRc(RcGetBtreeError());
goto error_freeblock;
}
}
else if (rc != RC_Success) {
// some other btree error: handle it
SetFSErrorRc(rc);
goto error_freeblock;
}
}
}
else {
// see if file still fits in old block
if (qrwfo->lcbFile + (LONG) sizeof(FH) > fh.lcbBlock) {
// file doesn't fit in old block: get a new one, free old one
int lif = qrwfo->lifBase;
if ((fh.lcbBlock = LcbGetFree(qfshr, qrwfo, lcbOffset)) ==
(int) -1)
return FALSE;
if (!FFreeBlock(qfshr, lif))
goto error_freeblock;
fChangeFH = TRUE;
// update directory record to show new block
if (qrwfo->bFlags & FS_IS_DIRECTORY)
qfshr->fsh.lifDirectory = qrwfo->lifBase;
else {
fr.lifBase = qrwfo->lifBase;
rc = RcUpdateHbt(qfshr->qbthr, (KEY) qrwfo->rgchKey, &fr);
if (rc != RC_Success) {
SetFSErrorRc(rc);
return FALSE;
}
}
}
}
// put new header in temp file if block or file size changed
if (fh.lcbFile != qrwfo->lcbFile) {
fChangeFH = TRUE;
fh.lcbFile = qrwfo->lcbFile;
}
if (fChangeFH) {
if (qrwfo->pTmpFile->seek(0, SEEK_SET) != 0 ||
qrwfo->pTmpFile->write(&fh, sizeof(FH)) != sizeof(FH)) {
ForceFSError();
goto error_deletekey;
}
}
qrwfo->pTmpFile->seek(0, SEEK_SET);
// copy tmp file back to file system file
if (LSeekFid(qfshr->fid, qrwfo->lifBase, SEEK_SET) != qrwfo->lifBase) {
ForceFSError();
goto error_deletekey;
}
if (qrwfo->pTmpFile->copytofile(qfshr->fid, qrwfo->lcbFile + sizeof(FH))
!= RC_Success)
goto error_deletekey;
delete qrwfo->pTmpFile;
qrwfo->pTmpFile = NULL;
/*
* Don't flush the FS if this file is the FS directory, because if it
* is, we're already closing or flushing it!
*/
if (!(qrwfo->bFlags & FS_IS_DIRECTORY))
RcCloseOrFlushHfs(qrwfo->hfs, FALSE);
return TRUE; // errors here are already cleaned up
error_deletekey:
if (!(qrwfo->bFlags & FS_IS_DIRECTORY) && fClose)
RcDeleteHbt(qfshr->qbthr, (KEY) qrwfo->rgchKey);
error_freeblock:
if (fClose) {
rc = rcFSError;
FFreeBlock(qfshr, qrwfo->lifBase); // we don't want to lose an error
SetFSErrorRc(rc);
}
delete qrwfo->pTmpFile;
qrwfo->pTmpFile = NULL;
return FALSE;
}
/***************************************************************************\
*
- Function: RcCloseOrFlushHfs( hfs, fClose )
-
* Purpose: Close or sync the header and directory of an open file system.
*
* ASSUMES
* args IN: hfs - handle to an open file system
* fClose - fTrue to close the file system;
* FALSE to write through
* PROMISES
* returns: standard return code
* globals OUT:rcFSError
*
* Note: If closing the FS, all FS files must have been closed or
* changes made will be lost.
*
\***************************************************************************/
RC_TYPE STDCALL RcCloseOrFlushHfs(HFS hfs, BOOL fClose)
{
ASSERT(hfs != NULL);
QFSHR qfshr = (QFSHR) hfs;
/*
* We don't call FPlungeQfshr() here because if we need to open the
* file, it will be opened in the btree call. In fixing a bug (help3.5
* 164) I added this FPlungeQfshr() call, but I now think the bug was due
* to inherent FS limitations in dealing with a FS open multiple times.
*/
if (SetFSErrorRc(RcCloseOrFlushHbt(qfshr->qbthr, fClose))
!= RC_Success) {
ASSERT(qfshr->fid != HFILE_ERROR); // see comment above
// out of disk space, internal error, or out of file handles.
if (RC_NoFileHandles != RcGetBtreeError()) {
// attempt to invalidate FS by clobbering magic number
LSeekFid(qfshr->fid, 0L, SEEK_SET);
qfshr->fsh.wMagic = 0;
LcbWriteFid(qfshr->fid, &qfshr->fsh, sizeof(FSH));
}
}
else {
if (qfshr->fsh.bFlags & FS_DIRTY) {
ASSERT(qfshr->fid != HFILE_ERROR); // see comment above
ASSERT(!(qfshr->fsh.bFlags & (FS_OPEN_READ_ONLY | FS_READ_ONLY)));
// save the directory flag, clear before writing, and restore
BOOL fIsDir = qfshr->fsh.bFlags & FS_IS_DIRECTORY;
qfshr->fsh.bFlags &= ~(FS_DIRTY | FS_IS_DIRECTORY);
// write out file system header
if (LSeekFid(qfshr->fid, 0, SEEK_SET) != 0 ||
LcbWriteFid(qfshr->fid, &qfshr->fsh, sizeof(FSH)) != sizeof(FSH))
ForceFSError();
qfshr->fsh.bFlags |= fIsDir;
/*
* REVIEW: should we keep track of open files and make sure they
* are all closed, or close them here?
*/
}
}
if (fClose) {
if (qfshr->fid != HFILE_ERROR) {
if (hfs == hfsOut)
cbHlpFile = GetFileSize((HANDLE) qfshr->fid, NULL);
RcCloseFid(qfshr->fid);
if (rcFSError == RC_Success)
rcFSError = RcGetIOError();
}
DisposeFm(qfshr->fm);
lcFree(hfs);
}
return rcFSError;
}
/***************************************************************************\
*
- Function: HfOpenHfs( hfs, sz, bFlags )
-
* Purpose: open a file in a file system
*
* ASSUMES
* args IN: hfs - handle to file system
* sz - name (key) of file to open
* bFlags - FS_OPEN_READ_ONLY, FS_IS_DIRECTORY, or combination
*
* PROMISES
* returns: handle to open file or NULL on failure
* +++
*
* Notes: strlen( NULL ) and strcpy( s, NULL ) don't work as I'd like.
*
\***************************************************************************/
QRWFO STDCALL HfOpenHfs(QFSHR qfshr, PCSTR pszKey, DWORD bFlags)
{
FILE_REC fr;
FH fh;
if ((qfshr->fsh.bFlags & FS_OPEN_READ_ONLY) && !(bFlags & FS_OPEN_READ_ONLY)) {
SetFSErrorRc(RC_NoPermission);
return NULL;
}
if (!FPlungeQfshr(qfshr))
return NULL;
if (bFlags & FS_IS_DIRECTORY) {
// check if directory is already open
if (qfshr->fsh.bFlags & FS_IS_DIRECTORY) {
SetFSErrorRc(RC_BadArg);
return NULL;
}
qfshr->fsh.bFlags |= FS_IS_DIRECTORY;
fr.lifBase = qfshr->fsh.lifDirectory;
}
else if (SetFSErrorRc(RcLookupByKey(qfshr->qbthr, (KEY) pszKey, NULL, &fr))
!= RC_Success)
return NULL;
// sanity check
if (fr.lifBase < sizeof(FSH) || fr.lifBase > qfshr->fsh.lifEof) {
SetFSErrorRc(RC_Invalid);
return NULL;
}
// read the file header
if (LSeekFid(qfshr->fid, fr.lifBase, SEEK_SET) != fr.lifBase
||
LcbReadFid(qfshr->fid, &fh, sizeof(FH)) != sizeof(FH)) {
ForceFSError();
return NULL;
}
// sanity check
if (fh.lcbFile < 0 || fh.lcbFile + (int) sizeof(FH) > (int) fh.lcbBlock ||
fr.lifBase + fh.lcbBlock > qfshr->fsh.lifEof) {
SetFSErrorRc(RC_Invalid);
return NULL;
}
// check mode against fh.bPerms for legality
if ((fh.bPerms & FS_READ_ONLY) && !(bFlags & FS_OPEN_READ_ONLY)) {
SetFSErrorRc(RC_NoPermission);
return NULL;
}
// build file struct
QRWFO qrwfo = (QRWFO) lcCalloc(sizeof(RWFO) +
(pszKey == NULL ? 0 : strlen(pszKey)));
qrwfo->hfs = (HFS) qfshr;
qrwfo->lifBase = fr.lifBase;
qrwfo->lifCurrent = 0;
qrwfo->lcbFile = fh.lcbFile;
qrwfo->bFlags = bFlags & (~(FS_DIRTY | FS_NO_BLOCK));
if (pszKey != NULL)
strcpy(qrwfo->rgchKey, pszKey);
SetFSErrorRc(RC_Success);
return qrwfo;
}
/***************************************************************************\
*
- Function: RcCloseOrFlushHf( hf, fClose, lcbOffset )
-
* Purpose: close or flush an open file in a file system
*
* ASSUMES
* args IN: hf - file handle
* fClose - fTrue to close; FALSE to just flush
* lcbOffset - offset for CDROM alignment (align at this
* offset into the file) (only used if
* FS_CDROM flag is set for the file)
*
* PROMISES
* returns: RC_Success on successful closing
* failure: If we fail on a flush, the handle is still valid
* but hosed? yes. This is so further file ops will fail but
* not assert.
* +++
*
* Method: If the file is dirty, copy the scratch file back to the
* FS file. If this is the first time the file has been closed,
* we enter the name into the FS directory. If this file is
* the FS directory, store the location in a special place
* instead. Write the FS directory and header to disk.
* Do other various hairy stuff.
*
\***************************************************************************/
RC_TYPE STDCALL RcCloseOrFlushHf(HF hf, BOOL fClose, int lcbOffset)
{
QRWFO qrwfo;
BOOL fError = FALSE;
ASSERT(hf);
qrwfo = (QRWFO) hf;
if (qrwfo->bFlags & FS_DIRTY)
fError = !FCloseOrFlushDirtyQrwfo(qrwfo, fClose, lcbOffset);
else
SetFSErrorRc(RC_Success);
if (fClose || fError)
lcFree(hf);
else
qrwfo->bFlags &= ~(FS_NO_BLOCK | FS_DIRTY);
return rcFSError;
}
/***************************************************************************\
*
- Function: HfsOpenFm( fm, bFlags )
-
* Purpose: Open a file system
*
* ASSUMES
* args IN: fm - descriptor of file system to open
* bFlags - FS_OPEN_READ_ONLY or FS_OPEN_READ_WRITE
*
* PROMISES
* returns: handle to file system if opened OK, else NULL
*
* Bugs: don't have mode now (a file system is opened r/w)
*
\***************************************************************************/
HFS STDCALL HfsOpenFm(FM fm, BYTE bFlags)
{
QFSHR qfshr;
int lcb;
// make header
qfshr = (QFSHR) lcCalloc(sizeof(FSHR));
qfshr->fm = FmCopyFm(fm);
qfshr->fid = HFILE_ERROR;
if (qfshr->fm == fmNil) {
SetFSErrorRc(RcGetIOError());
goto error_return;
}
qfshr->fsh.bFlags = (BYTE) ((bFlags & FS_OPEN_READ_ONLY)
? FS_OPEN_READ_ONLY : FS_OPEN_READ_WRITE);
if (!FPlungeQfshr(qfshr))
goto error_return;
lcb = LcbReadFid(qfshr->fid, &qfshr->fsh, sizeof(FSH));
// restore the FS_OPEN_READ_ONLY bit
if (bFlags & FS_OPEN_READ_ONLY)
qfshr->fsh.bFlags |= FS_OPEN_READ_ONLY;
if (lcb != sizeof(FSH) ||
qfshr->fsh.wMagic != wFileSysMagic ||
qfshr->fsh.lifDirectory < sizeof(FSH) ||
qfshr->fsh.lifDirectory > qfshr->fsh.lifEof ||
(qfshr->fsh.lifFirstFree < sizeof(FSH) &&
qfshr->fsh.lifFirstFree != lifNil) ||
qfshr->fsh.lifFirstFree > qfshr->fsh.lifEof) {
if (RcGetIOError() == RC_Success)
SetFSErrorRc(RC_Invalid);
else
SetFSErrorRc(RcGetIOError());
goto error_return;
}
if (qfshr->fsh.bVersion != FILESYSVERSION) {
SetFSErrorRc(RC_BadVersion);
goto error_return;
}
// open btree directory
qfshr->qbthr = HbtOpenBtreeSz(NULL,
(HFS) qfshr,
(BYTE) (qfshr->fsh.bFlags | FS_IS_DIRECTORY));
if (!qfshr->qbthr) {
SetFSErrorRc(RcGetBtreeError());
goto error_return;
}
SetFSErrorRc(RC_Success);
return (HFS) qfshr;
error_return:
if (qfshr->fid != HFILE_ERROR) {
RcCloseFid(qfshr->fid);
qfshr->fid = HFILE_ERROR;
}
if (FValidFm(qfshr->fm))
DisposeFm(qfshr->fm);
lcFree(qfshr);
return NULL;
}