windows-nt/Source/XPSP1/NT/base/win32/lz32/tools/expand/diamond.c

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2020-09-26 03:20:57 -05:00
#include <windows.h>
#include <fcntl.h>
//
// lz headers
//
#include "lz_common.h"
#include "lz_buffers.h"
#include "lz_header.h"
//
// diamond headers
//
#include <diamondd.h>
#include "mydiam.h"
HFDI FdiContext;
ERF FdiError;
INT DiamondLastIoError;
BOOL
PatternMatch(
IN PCSTR pszString,
IN PCSTR pszPattern,
IN BOOL fImplyDotAtEnd
);
INT_PTR
DIAMONDAPI
SpdFdiOpen(
IN PSTR FileName,
IN int oflag,
IN int pmode
);
int
DIAMONDAPI
SpdFdiClose(
IN INT_PTR Handle
);
typedef struct _DIAMOND_INFO {
//
// A read handle to the source file.
//
INT_PTR SourceFileHandle;
//
// File names.
//
PSTR SourceFileName;
PSTR TargetFileName;
//
// Flag indicating whether to rename the target file.
//
BOOL RenameTargetFile;
//
// Pointer to LZ information structure.
// We'll fill in some of the fields to fool expand.
//
PLZINFO pLZI;
//
// Expand callback/notification.
//
NOTIFYPROC ExpandNotify;
//
// Selective extraction file spec, ie, "aic*.sys" or NULL
//
PSTR SelectiveFilesSpec;
} DIAMOND_INFO, *PDIAMOND_INFO;
PTSTR
StringRevChar(
IN PTSTR String,
IN TCHAR Char
)
{
//
// Although not the most efficient possible algoeithm in each case,
// this algorithm is correct for unicode, sbcs, or dbcs.
//
PTCHAR Occurrence,Next;
//
// Check each character in the string and remember
// the most recently encountered occurrence of the desired char.
//
for(Occurrence=NULL,Next=CharNext(String); *String; ) {
if(!memcmp(String,&Char,(int)((PUCHAR)Next-(PUCHAR)String))) {
Occurrence = String;
}
String = Next;
Next = CharNext(Next);
}
//
// Return address of final occurrence of the character
// (will be NULL if not found at all).
//
return(Occurrence);
}
#define WILDCARD '*' /* zero or more of any character */
#define WILDCHAR '?' /* one of any character (does not match END) */
#define END '\0' /* terminal character */
#define DOT '.' /* may be implied at end ("hosts" matches "*.") */
static int __inline Lower(c)
{
if ((c >= 'A') && (c <= 'Z'))
{
return(c + ('a' - 'A'));
}
else
{
return(c);
}
}
static int __inline CharacterMatch(char chCharacter, char chPattern)
{
if (Lower(chCharacter) == Lower(chPattern))
{
return(TRUE);
}
else
{
return(FALSE);
}
}
BOOL
PatternMatch(
PCSTR pszString,
PCSTR pszPattern,
IN BOOL fImplyDotAtEnd
)
{
/* RECURSIVE */
//
// This function does not deal with 8.3 conventions which might
// be expected for filename comparisons. (In an 8.3 environment,
// "alongfilename.html" would match "alongfil.htm")
//
// This code is NOT MBCS-enabled
//
for ( ; ; )
{
switch (*pszPattern)
{
case END:
//
// Reached end of pattern, so we're done. Matched if
// end of string, no match if more string remains.
//
return(*pszString == END);
case WILDCHAR:
//
// Next in pattern is a wild character, which matches
// anything except end of string. If we reach the end
// of the string, the implied DOT would also match.
//
if (*pszString == END)
{
if (fImplyDotAtEnd == TRUE)
{
fImplyDotAtEnd = FALSE;
}
else
{
return(FALSE);
}
}
else
{
pszString++;
}
pszPattern++;
break;
case WILDCARD:
//
// Next in pattern is a wildcard, which matches anything.
// Find the required character that follows the wildcard,
// and search the string for it. At each occurence of the
// required character, try to match the remaining pattern.
//
// There are numerous equivalent patterns in which multiple
// WILDCARD and WILDCHAR are adjacent. We deal with these
// before our search for the required character.
//
// Each WILDCHAR burns one non-END from the string. An END
// means we have a match. Additional WILDCARDs are ignored.
//
for ( ; ; )
{
pszPattern++;
if (*pszPattern == END)
{
return(TRUE);
}
else if (*pszPattern == WILDCHAR)
{
if (*pszString == END)
{
if (fImplyDotAtEnd == TRUE)
{
fImplyDotAtEnd = FALSE;
}
else
{
return(FALSE);
}
}
else
{
pszString++;
}
}
else if (*pszPattern != WILDCARD)
{
break;
}
}
//
// Now we have a regular character to search the string for.
//
while (*pszString != END)
{
//
// For each match, use recursion to see if the remainder
// of the pattern accepts the remainder of the string.
// If it does not, continue looking for other matches.
//
if (CharacterMatch(*pszString, *pszPattern) == TRUE)
{
if (PatternMatch(pszString + 1, pszPattern + 1, fImplyDotAtEnd) == TRUE)
{
return(TRUE);
}
}
pszString++;
}
//
// Reached end of string without finding required character
// which followed the WILDCARD. If the required character
// is a DOT, consider matching the implied DOT.
//
// Since the remaining string is empty, the only pattern which
// could match after the DOT would be zero or more WILDCARDs,
// so don't bother with recursion.
//
if ((*pszPattern == DOT) && (fImplyDotAtEnd == TRUE))
{
pszPattern++;
while (*pszPattern != END)
{
if (*pszPattern != WILDCARD)
{
return(FALSE);
}
pszPattern++;
}
return(TRUE);
}
//
// Reached end of the string without finding required character.
//
return(FALSE);
break;
default:
//
// Nothing special about the pattern character, so it
// must match source character.
//
if (CharacterMatch(*pszString, *pszPattern) == FALSE)
{
if ((*pszPattern == DOT) &&
(*pszString == END) &&
(fImplyDotAtEnd == TRUE))
{
fImplyDotAtEnd = FALSE;
}
else
{
return(FALSE);
}
}
if (*pszString != END)
{
pszString++;
}
pszPattern++;
}
}
}
INT_PTR
DIAMONDAPI
DiamondNotifyFunction(
IN FDINOTIFICATIONTYPE Operation,
IN PFDINOTIFICATION Parameters
)
{
switch(Operation) {
case fdintCABINET_INFO:
case fdintNEXT_CABINET:
case fdintPARTIAL_FILE:
default:
//
// Cabinet management functions which we don't use.
// Return success.
//
return(0);
case fdintCOPY_FILE:
//
// Diamond is asking us whether we want to copy the file.
//
{
PDIAMOND_INFO Info = (PDIAMOND_INFO)Parameters->pv;
HFILE h;
//
// If we were given a filespec, see if the name matches.
//
if (Info->SelectiveFilesSpec != NULL) {
//
// Call PatternMatch(), fAllowImpliedDot TRUE if
// there is no '.' in the file's base name.
//
BOOL fAllowImpliedDot = TRUE;
PSTR p;
for (p = Parameters->psz1; *p != '\0'; p++) {
if (*p == '.') {
fAllowImpliedDot = FALSE;
} else if (*p == '\\') {
fAllowImpliedDot = TRUE;
}
}
if (PatternMatch(
Parameters->psz1,
Info->SelectiveFilesSpec,
fAllowImpliedDot) == FALSE) {
return(0); // skip this file
}
}
//
// If we need to rename the target file, do that here.
// The name stored in the cabinet file will be used as
// the uncompressed name.
//
if(Info->RenameTargetFile) {
PSTR p,q;
//
// Find the start of the filename part of the target.
//
if(p = StringRevChar(Info->TargetFileName,'\\')) {
p++;
} else {
p = Info->TargetFileName;
}
//
// Find the start of the filename part of the name in the cabinet.
//
if(q = StringRevChar(Parameters->psz1,'\\')) {
q++;
} else {
q = Parameters->psz1;
}
//
// Copy the filename part of the name in the cabinet over
// the filename part of the name in the target spec.
//
lstrcpy(p,q);
}
//
// Inform the expand callback what we are doing.
//
if(!Info->ExpandNotify(Info->SourceFileName,Info->TargetFileName,NOTIFY_START_EXPAND)) {
return(0); // skip this file.
}
//
// Remember the uncompressed size and open the file.
// Returns -1 if an error occurs opening the file.
//
Info->pLZI->cblOutSize += Parameters->cb;
h = _lcreat(Info->TargetFileName,0);
if(h == HFILE_ERROR) {
DiamondLastIoError = LZERROR_BADOUTHANDLE;
return(-1);
}
return(h);
}
case fdintCLOSE_FILE_INFO:
//
// Diamond is done with the target file and wants us to close it.
// (ie, this is the counterpart to fdint_COPY_FILE).
//
{
PDIAMOND_INFO Info = (PDIAMOND_INFO)Parameters->pv;
HANDLE TargetFileHandle;
FILETIME ftLocal, ftUTC;
_lclose((HFILE)Parameters->hf);
//
// Set the target file's date/time stamp from the value inside
// the CAB.
//
TargetFileHandle = CreateFile(Info->TargetFileName,
GENERIC_READ | GENERIC_WRITE,
0,
NULL,
OPEN_EXISTING,
0,
NULL);
if (TargetFileHandle != INVALID_HANDLE_VALUE)
{
if (DosDateTimeToFileTime(Parameters->date, Parameters->time, &ftLocal) &&
LocalFileTimeToFileTime(&ftLocal, &ftUTC))
{
SetFileTime(TargetFileHandle, NULL, NULL, &ftUTC);
}
CloseHandle(TargetFileHandle);
}
}
return(TRUE);
}
}
PVOID
DIAMONDAPI
SpdFdiAlloc(
IN ULONG NumberOfBytes
)
/*++
Routine Description:
Callback used by FDICopy to allocate memory.
Arguments:
NumberOfBytes - supplies desired size of block.
Return Value:
Returns pointer to a block of memory or NULL
if memory cannot be allocated.
--*/
{
return((PVOID)LocalAlloc(LMEM_FIXED,NumberOfBytes));
}
VOID
DIAMONDAPI
SpdFdiFree(
IN PVOID Block
)
/*++
Routine Description:
Callback used by FDICopy to free a memory block.
The block must have been allocated with SpdFdiAlloc().
Arguments:
Block - supplies pointer to block of memory to be freed.
Return Value:
None.
--*/
{
LocalFree((HLOCAL)Block);
}
INT_PTR
DIAMONDAPI
SpdFdiOpen(
IN PSTR FileName,
IN int oflag,
IN int pmode
)
/*++
Routine Description:
Callback used by FDICopy to open files.
Arguments:
FileName - supplies name of file to be opened.
oflag - supplies flags for open.
pmode - supplies additional flags for open.
Return Value:
Handle to open file or -1 if error occurs.
--*/
{
HFILE h;
int OpenMode;
if(oflag & _O_WRONLY) {
OpenMode = OF_WRITE;
} else {
if(oflag & _O_RDWR) {
OpenMode = OF_READWRITE;
} else {
OpenMode = OF_READ;
}
}
h = _lopen(FileName,OpenMode | OF_SHARE_DENY_WRITE);
if(h == HFILE_ERROR) {
DiamondLastIoError = LZERROR_BADINHANDLE;
return(-1);
}
return((INT_PTR)h);
}
UINT
DIAMONDAPI
SpdFdiRead(
IN INT_PTR Handle,
OUT PVOID pv,
IN UINT ByteCount
)
/*++
Routine Description:
Callback used by FDICopy to read from a file.
Arguments:
Handle - supplies handle to open file to be read from.
pv - supplies pointer to buffer to receive bytes we read.
ByteCount - supplies number of bytes to read.
Return Value:
Number of bytes read (ByteCount) or -1 if an error occurs.
--*/
{
UINT rc;
rc = _lread((HFILE)Handle,pv,ByteCount);
if(rc == HFILE_ERROR) {
rc = (UINT)(-1);
DiamondLastIoError = LZERROR_READ;
}
return(rc);
}
UINT
DIAMONDAPI
SpdFdiWrite(
IN INT_PTR Handle,
IN PVOID pv,
IN UINT ByteCount
)
/*++
Routine Description:
Callback used by FDICopy to write to a file.
Arguments:
Handle - supplies handle to open file to be written to.
pv - supplies pointer to buffer containing bytes to write.
ByteCount - supplies number of bytes to write.
Return Value:
Number of bytes written (ByteCount) or -1 if an error occurs.
--*/
{
UINT rc;
rc = _lwrite((HFILE)Handle,pv,ByteCount);
if(rc == HFILE_ERROR) {
DiamondLastIoError = (GetLastError() == ERROR_DISK_FULL) ? LZERROR_WRITE : LZERROR_BADOUTHANDLE;
} else {
if(rc != ByteCount) {
//
// let caller interpret return value but record last error just in case
//
DiamondLastIoError = LZERROR_WRITE;
}
}
return(rc);
}
int
DIAMONDAPI
SpdFdiClose(
IN INT_PTR Handle
)
/*++
Routine Description:
Callback used by FDICopy to close files.
Arguments:
Handle - handle of file to close.
Return Value:
0 (success).
--*/
{
_lclose((HFILE)Handle);
return(0);
}
LONG
DIAMONDAPI
SpdFdiSeek(
IN INT_PTR Handle,
IN long Distance,
IN int SeekType
)
/*++
Routine Description:
Callback used by FDICopy to seek files.
Arguments:
Handle - handle of file to close.
Distance - supplies distance to seek. Interpretation of this
parameter depends on the value of SeekType.
SeekType - supplies a value indicating how Distance is to be
interpreted; one of SEEK_SET, SEEK_CUR, SEEK_END.
Return Value:
New file offset or -1 if an error occurs.
--*/
{
LONG rc;
rc = _llseek((HFILE)Handle,Distance,SeekType);
if(rc == HFILE_ERROR) {
DiamondLastIoError = LZERROR_BADINHANDLE;
rc = -1L;
}
return(rc);
}
INT
ExpandDiamondFile(
IN NOTIFYPROC ExpandNotify,
IN PSTR SourceFileName,
IN PSTR TargetFileName,
IN BOOL RenameTarget,
IN PSTR SelectiveFilesSpec,
OUT PLZINFO pLZI
)
{
BOOL b;
INT rc;
INT_PTR h;
DIAMOND_INFO DiamondInfo;
if(!FdiContext) {
return(LZERROR_BADVALUE);
}
DiamondLastIoError = TRUE;
//
// Get a handle to the source to use to
// copy the date and time stamp.
//
h = SpdFdiOpen(SourceFileName,_O_RDONLY,0);
if(h == -1) {
return(LZERROR_BADINHANDLE);
}
pLZI->cblInSize = GetFileSize((HANDLE)h,NULL);
if(pLZI->cblInSize == -1) {
SpdFdiClose(h);
return(LZERROR_BADINHANDLE);
}
DiamondInfo.SourceFileHandle = h;
DiamondInfo.SourceFileName = SourceFileName;
DiamondInfo.TargetFileName = TargetFileName;
DiamondInfo.RenameTargetFile = RenameTarget;
DiamondInfo.ExpandNotify = ExpandNotify;
DiamondInfo.SelectiveFilesSpec = SelectiveFilesSpec;
DiamondInfo.pLZI = pLZI;
b = FDICopy(
FdiContext,
SourceFileName, // pass the whole path as the name
"", // don't bother with the path part
0, // flags
DiamondNotifyFunction,
NULL, // no decryption
&DiamondInfo
);
if(b) {
rc = TRUE;
} else {
switch(FdiError.erfOper) {
case FDIERROR_CORRUPT_CABINET:
case FDIERROR_UNKNOWN_CABINET_VERSION:
case FDIERROR_BAD_COMPR_TYPE:
rc = LZERROR_READ; // causes SID_FORMAT_ERROR message
break;
case FDIERROR_ALLOC_FAIL:
rc = LZERROR_GLOBALLOC;
break;
case FDIERROR_TARGET_FILE:
case FDIERROR_USER_ABORT:
rc = DiamondLastIoError;
break;
default:
//
// The rest of the errors are not handled specially.
//
rc = LZERROR_BADVALUE;
break;
}
//
// Remove the partial target file.
//
DeleteFile(TargetFileName);
}
SpdFdiClose(h);
return(rc);
}
BOOL
IsDiamondFile(
IN PSTR FileName,
OUT PBOOL ContainsMultipleFiles
)
{
FDICABINETINFO CabinetInfo;
BOOL b;
INT_PTR h;
*ContainsMultipleFiles = FALSE;
if(!FdiContext) {
return(FALSE);
}
//
// Open the file such that the handle is valid for use
// in the diamond context (ie, seek, read routines above).
//
h = SpdFdiOpen(FileName,_O_RDONLY,0);
if(h == -1) {
return(FALSE);
}
b = FDIIsCabinet(FdiContext,h,&CabinetInfo);
SpdFdiClose(h);
if (b && (CabinetInfo.cFiles > 1)) {
*ContainsMultipleFiles = TRUE;
}
return(b);
}
BOOL
InitDiamond(
VOID
)
{
if(FdiContext == NULL) {
FdiContext = FDICreate(
SpdFdiAlloc,
SpdFdiFree,
SpdFdiOpen,
SpdFdiRead,
SpdFdiWrite,
SpdFdiClose,
SpdFdiSeek,
cpuUNKNOWN,
&FdiError
);
}
return(FdiContext != NULL);
}
VOID
TermDiamond(
VOID
)
{
if(FdiContext) {
FDIDestroy(FdiContext);
FdiContext = NULL;
}
}