file.c - platform/external/mtools - Git at Google

 /*  Copyright 1996-1999,2001-2003,2007-2009,2011 Alain Knaff.
  *  This file is part of mtools.
  *
  *  Mtools is free software: you can redistribute it and/or modify
  *  it under the terms of the GNU General Public License as published by
  *  the Free Software Foundation, either version 3 of the License, or
  *  (at your option) any later version.
  *
  *  Mtools is distributed in the hope that it will be useful,
  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  *  GNU General Public License for more details.
  *
  *  You should have received a copy of the GNU General Public License
  *  along with Mtools.  If not, see <http://www.gnu.org/licenses/>.
  */

 #include "sysincludes.h"
 #include "msdos.h"
 #include "stream.h"
 #include "mtools.h"
 #include "fsP.h"
 #include "file.h"
 #include "htable.h"
 #include "dirCache.h"
 #include "buffer.h"

 typedef struct File_t {
 	struct Stream_t head;

 	struct Stream_t *Buffer;

 	int (*map)(struct File_t *this, uint32_t where, uint32_t *len, int mode,
 			   mt_off_t *res);
 	uint32_t FileSize;

 	/* How many bytes do we project to need for this file
 	   (includes those already in FileSize) */
 	uint32_t preallocatedSize;

 	/* How many clusters we have asked the lower layer to reserve
 	   for us (only what we will need in the future, excluding already
 	   allocated clusters in FileSize) */
 	uint32_t preallocatedClusters;

 	/* Absolute position of first cluster of file */
 	unsigned int FirstAbsCluNr;

 	/* Absolute position of previous cluster */
 	unsigned int PreviousAbsCluNr;

 	/* Relative position of previous cluster */
 	unsigned int PreviousRelCluNr;
 	direntry_t direntry;
 	size_t hint;
 	struct dirCache_t *dcp;

 	unsigned int loopDetectRel;
 	unsigned int loopDetectAbs;

 	uint32_t where;
 } File_t;

 static Class_t FileClass;
 static T_HashTable *filehash;

 static File_t *getUnbufferedFile(Stream_t *Stream)
 {
 	while(Stream->Class != &FileClass)
 		Stream = Stream->Next;
 	return (File_t *) Stream;
 }

 static inline Fs_t *_getFs(File_t *File)
 {
 	return (Fs_t *) File->head.Next;
 }

 Fs_t *getFs(Stream_t *Stream)
 {
 	return (Fs_t *)getUnbufferedFile(Stream)->head.Next;
 }

 struct dirCache_t **getDirCacheP(Stream_t *Stream)
 {
 	return &getUnbufferedFile(Stream)->dcp;
 }

 direntry_t *getDirentry(Stream_t *Stream)
 {
 	return &getUnbufferedFile(Stream)->direntry;
 }

 /**
  * Overflow-safe conversion of bytes to cluster
  */
 static uint32_t filebytesToClusters(uint32_t bytes, uint32_t clus_size) {
 	uint32_t ret = bytes / clus_size;
 	if(bytes % clus_size)
 		ret++;
 	return ret;
 }

 static int recalcPreallocSize(File_t *This)
 {
 	uint32_t currentClusters, neededClusters;
 	unsigned int clus_size;
 	uint32_t neededPrealloc;
 	Fs_t *Fs = _getFs(This);

 #if 0
 	if(This->FileSize & 0xc0000000) {
 		fprintf(stderr, "Bad filesize\n");
 	}
 	if(This->preallocatedSize & 0xc0000000) {
 		fprintf(stderr, "Bad preallocated size %x\n",
 				(int) This->preallocatedSize);
 	}
 #endif
 	clus_size = Fs->cluster_size * Fs->sector_size;
 	currentClusters = filebytesToClusters(This->FileSize, clus_size);
 	neededClusters = filebytesToClusters(This->preallocatedSize, clus_size);
 	if(neededClusters < currentClusters)
 		neededPrealloc = 0;
 	else
 		neededPrealloc = neededClusters - currentClusters;
 	if(neededPrealloc > This->preallocatedClusters) {
 		int r = fsPreallocateClusters(Fs, neededPrealloc-
 					      This->preallocatedClusters);
 		if(r)
 			return r;
 	} else {
 		fsReleasePreallocateClusters(Fs, This->preallocatedClusters -
 					     neededPrealloc);
 	}
 	This->preallocatedClusters = neededPrealloc;
 	return 0;
 }

 static int _loopDetect(unsigned int *oldrel, unsigned int rel,
 		       unsigned int *oldabs, unsigned int absol)
 {
 	if(*oldrel && rel > *oldrel && absol == *oldabs) {
 		fprintf(stderr, "loop detected! oldrel=%d newrel=%d abs=%d\n",
 				*oldrel, rel, absol);
 		return -1;
 	}

 	if(rel >= 2 * *oldrel + 1) {
 		*oldrel = rel;
 		*oldabs = absol;
 	}
 	return 0;
 }


 static int loopDetect(File_t *This, unsigned int rel, unsigned int absol)
 {
 	return _loopDetect(&This->loopDetectRel, rel, &This->loopDetectAbs, absol);
 }

 static unsigned int _countBlocks(Fs_t *This, unsigned int block)
 {
 	unsigned int blocks;
 	unsigned int rel, oldabs, oldrel;

 	blocks = 0;

 	oldabs = oldrel = rel = 0;

 	while (block <= This->last_fat && block != 1 && block) {
 		blocks++;
 		block = fatDecode(This, block);
 		rel++;
 		if(_loopDetect(&oldrel, rel, &oldabs, block) < 0)
 			block = 1;
 	}
 	return blocks;
 }

 unsigned int countBlocks(Stream_t *Dir, unsigned int block)
 {
 	Stream_t *Stream = GetFs(Dir);
 	DeclareThis(Fs_t);

 	return _countBlocks(This, block);
 }

 /* returns number of bytes in a directory.  Represents a file size, and
  * can hence be not bigger than 2^32
  */
 static uint32_t countBytes(Stream_t *Dir, unsigned int block)
 {
 	Stream_t *Stream = GetFs(Dir);
 	DeclareThis(Fs_t);

 	return _countBlocks(This, block) *
 		This->sector_size * This->cluster_size;
 }

 void printFat(Stream_t *Stream)
 {
 	File_t *This = getUnbufferedFile(Stream);
 	uint32_t n;
 	unsigned int rel;
 	unsigned long begin, end;
 	int first;

 	n = This->FirstAbsCluNr;
 	if(!n) {
 		printf("Root directory or empty file\n");
 		return;
 	}

 	rel = 0;
 	first = 1;
 	begin = end = 0;
 	do {
 		if (first || n != end+1) {
 			if (!first) {
 				if (begin != end)
 					printf("-%lu", end);
 				printf("> ");
 			}
 			begin = end = n;
 			printf("<%lu", begin);
 		} else {
 			end++;
 		}
 		first = 0;
 		n = fatDecode(_getFs(This), n);
 		rel++;
 		if(loopDetect(This, rel, n) < 0)
 			n = 1;
 	} while (n <= _getFs(This)->last_fat && n != 1);
 	if(!first) {
 		if (begin != end)
 			printf("-%lu", end);
 		printf(">");
 	}
 }

 void printFatWithOffset(Stream_t *Stream, off_t offset) {
 	File_t *This = getUnbufferedFile(Stream);
 	uint32_t n;
 	unsigned int rel;
 	off_t clusSize;

 	n = This->FirstAbsCluNr;
 	if(!n) {
 		printf("Root directory or empty file\n");
 		return;
 	}

 	clusSize = _getFs(This)->cluster_size * _getFs(This)->sector_size;

 	rel = 0;
 	while(offset >= clusSize) {
 		n = fatDecode(_getFs(This), n);
 		rel++;
 		if(loopDetect(This, rel, n) < 0)
 			return;
 		if(n > _getFs(This)->last_fat)
 			return;
 		offset -= clusSize;
 	}

 	printf("%lu", (unsigned long) n);
 }

 static int normal_map(File_t *This, uint32_t where, uint32_t *len, int mode,
 		      mt_off_t *res)
 {
 	unsigned int offset;
 	size_t end;
 	uint32_t NrClu; /* number of clusters to read */
 	uint32_t RelCluNr;
 	uint32_t CurCluNr;
 	uint32_t NewCluNr;
 	uint32_t AbsCluNr;
 	uint32_t clus_size;
 	Fs_t *Fs = _getFs(This);

 	*res = 0;
 	clus_size = Fs->cluster_size * Fs->sector_size;
 	offset = where % clus_size;

 	if (mode == MT_READ)
 		maximize(*len, This->FileSize - where);
 	if (*len == 0 )
 		return 0;

 	if (This->FirstAbsCluNr < 2){
 		if( mode == MT_READ || *len == 0){
 			*len = 0;
 			return 0;
 		}
 		NewCluNr = get_next_free_cluster(_getFs(This), 1);
 		if (NewCluNr == 1 ){
 			errno = ENOSPC;
 			return -2;
 		}
 		hash_remove(filehash, (void *) This, This->hint);
 		This->FirstAbsCluNr = NewCluNr;
 		hash_add(filehash, (void *) This, &This->hint);
 		fatAllocate(_getFs(This), NewCluNr, Fs->end_fat);
 	}

 	RelCluNr = where / clus_size;

 	if (RelCluNr >= This->PreviousRelCluNr){
 		CurCluNr = This->PreviousRelCluNr;
 		AbsCluNr = This->PreviousAbsCluNr;
 	} else {
 		CurCluNr = 0;
 		AbsCluNr = This->FirstAbsCluNr;
 	}


 	NrClu = (offset + *len - 1) / clus_size;
 	while (CurCluNr <= RelCluNr + NrClu){
 		if (CurCluNr == RelCluNr){
 			/* we have reached the beginning of our zone. Save
 			 * coordinates */
 			This->PreviousRelCluNr = RelCluNr;
 			This->PreviousAbsCluNr = AbsCluNr;
 		}
 		NewCluNr = fatDecode(_getFs(This), AbsCluNr);
 		if (NewCluNr == 1 || NewCluNr == 0){
 			fprintf(stderr,"Fat problem while decoding %d %x\n",
 				AbsCluNr, NewCluNr);
 			exit(1);
 		}
 		if(CurCluNr == RelCluNr + NrClu)
 			break;
 		if (NewCluNr > Fs->last_fat && mode == MT_WRITE){
 			/* if at end, and writing, extend it */
 			NewCluNr = get_next_free_cluster(_getFs(This), AbsCluNr);
 			if (NewCluNr == 1 ){ /* no more space */
 				errno = ENOSPC;
 				return -2;
 			}
 			fatAppend(_getFs(This), AbsCluNr, NewCluNr);
 		}

 		if (CurCluNr < RelCluNr && NewCluNr > Fs->last_fat){
 			*len = 0;
 			return 0;
 		}

 		if (CurCluNr >= RelCluNr && NewCluNr != AbsCluNr + 1)
 			break;
 		CurCluNr++;
 		AbsCluNr = NewCluNr;
 		if(loopDetect(This, CurCluNr, AbsCluNr)) {
 			errno = EIO;
 			return -2;
 		}
 	}

 	maximize(*len, (1 + CurCluNr - RelCluNr) * clus_size - offset);

 	end = where + *len;
 	if(batchmode &&
 	   mode == MT_WRITE &&
 	   end >= This->FileSize) {
 		/* In batch mode, when writing at end of file, "pad"
 		 * to nearest cluster boundary so that we don't have
 		 * to read that data back from disk. */
 		*len += ROUND_UP(end, clus_size) - end;
 	}

 	if((*len + offset) / clus_size + This->PreviousAbsCluNr-2 >
 		Fs->num_clus) {
 		fprintf(stderr, "cluster too big\n");
 		exit(1);
 	}

 	*res = sectorsToBytes(Fs,
 			      (This->PreviousAbsCluNr-2) * Fs->cluster_size +
 			      Fs->clus_start) + to_mt_off_t(offset);
 	return 1;
 }


 static int root_map(File_t *This, uint32_t where, uint32_t *len,
 		    int mode UNUSEDP,  mt_off_t *res)
 {
 	Fs_t *Fs = _getFs(This);

 	if(Fs->dir_len * Fs->sector_size < where) {
 		*len = 0;
 		errno = ENOSPC;
 		return -2;
 	}

 	maximize(*len, Fs->dir_len * Fs->sector_size - where);
         if (*len == 0)
             return 0;

 	*res = sectorsToBytes(Fs, Fs->dir_start) +
 		to_mt_off_t(where);
 	return 1;
 }

 static ssize_t read_file(Stream_t *Stream, char *buf, size_t ilen)
 {
 	DeclareThis(File_t);
 	mt_off_t pos;
 	int err;
 	uint32_t len = truncSizeTo32u(ilen);
 	ssize_t ret;

 	Stream_t *Disk = _getFs(This)->head.Next;

 	err = This->map(This, This->where, &len, MT_READ, &pos);
 	if(err <= 0)
 		return err;
 	ret = PREADS(Disk, buf, pos, len);
 	if(ret < 0)
 		return ret;
 	This->where += (size_t) ret;
 	return ret;
 }

 static ssize_t write_file(Stream_t *Stream, char *buf, size_t ilen)
 {
 	DeclareThis(File_t);
 	mt_off_t pos;
 	ssize_t ret;
 	uint32_t requestedLen;
 	uint32_t bytesWritten;
 	Stream_t *Disk = _getFs(This)->head.Next;
 	uint32_t maxLen = UINT32_MAX-This->where;
 	uint32_t len;
 	int err;

 	if(ilen > maxLen) {
 		len = maxLen;
 	} else
 		len = (uint32_t) ilen;
 	requestedLen = len;
 	err = This->map(This, This->where, &len, MT_WRITE, &pos);
 	if( err <= 0)
 		return err;
 	if(batchmode)
 		ret = force_pwrite(Disk, buf, pos, len);
 	else
 		ret = PWRITES(Disk, buf, pos, len);
 	if(ret < 0)
 		/* Error occured */
 		return ret;
 	if((uint32_t)ret > requestedLen)
 		/* More data than requested may be written to lower
 		 * levels if batch mode is active, in order to "pad"
 		 * the last cluster of a file, so that we don't have
 		 * to read that back from disk */
 		bytesWritten = requestedLen;
 	else
 		bytesWritten = (uint32_t)ret;
 	This->where += bytesWritten;
 	if (This->where > This->FileSize )
 		This->FileSize = This->where;
 	recalcPreallocSize(This);
 	return (ssize_t) bytesWritten;
 }

 static ssize_t pread_file(Stream_t *Stream, char *buf, mt_off_t where,
 			  size_t ilen) {
 	DeclareThis(File_t);
 	This->where = truncMtOffTo32u(where);
 	return read_file(Stream, buf, ilen);
 }

 static ssize_t pwrite_file(Stream_t *Stream, char *buf, mt_off_t where,
 			  size_t ilen) {
 	DeclareThis(File_t);
 	This->where = truncMtOffTo32u(where);
 	return write_file(Stream, buf, ilen);
 }

 /*
  * Convert an MSDOS time & date stamp to the Unix time() format
  */

 static int month[] = {0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334,
 					  0, 0, 0 };
 static __inline__ time_t conv_stamp(struct directory *dir)
 {
 	struct tm *tmbuf;
 	long tzone, dst;
 	time_t accum, tmp;

 	accum = DOS_YEAR(dir) - 1970; /* years past */

 	/* days passed */
 	accum = accum * 365L + month[DOS_MONTH(dir)-1] + DOS_DAY(dir);

 	/* leap years */
 	accum += (DOS_YEAR(dir) - 1972) / 4L;

 	/* back off 1 day if before 29 Feb */
 	if (!(DOS_YEAR(dir) % 4) && DOS_MONTH(dir) < 3)
 	        accum--;
 	accum = accum * 24L + DOS_HOUR(dir); /* hours passed */
 	accum = accum * 60L + DOS_MINUTE(dir); /* minutes passed */
 	accum = accum * 60L + DOS_SEC(dir); /* seconds passed */

 	/* correct for Time Zone */
 #ifdef HAVE_GETTIMEOFDAY
 	{
 		struct timeval tv;
 		struct timezone tz;

 		gettimeofday(&tv, &tz);
 		tzone = tz.tz_minuteswest * 60L;
 	}
 #else
 #if defined HAVE_TZSET && !defined OS_mingw32msvc
 	{
 #if !defined OS_ultrix && !defined OS_cygwin
 		/* Ultrix defines this to be a different type */
 		extern long timezone;
 #endif
 		tzset();
 		tzone = (long) timezone;
 	}
 #else
 	tzone = 0;
 #endif /* HAVE_TZSET */
 #endif /* HAVE_GETTIMEOFDAY */

 	accum += tzone;

 	/* correct for Daylight Saving Time */
 	tmp = accum;
 	tmbuf = localtime(&tmp);
 	if(tmbuf) {
 		dst = (tmbuf->tm_isdst) ? (-60L * 60L) : 0L;
 		accum += dst;
 	}
 	return accum;
 }


 static int get_file_data(Stream_t *Stream, time_t *date, mt_off_t *size,
 			 int *type, uint32_t *address)
 {
 	DeclareThis(File_t);

 	if(date)
 		*date = conv_stamp(& This->direntry.dir);
 	if(size)
 		*size = to_mt_off_t(This->FileSize);
 	if(type)
 		*type = This->direntry.dir.attr & ATTR_DIR;
 	if(address)
 		*address = This->FirstAbsCluNr;
 	return 0;
 }


 static int free_file(Stream_t *Stream)
 {
 	DeclareThis(File_t);
 	Fs_t *Fs = _getFs(This);
 	fsReleasePreallocateClusters(Fs, This->preallocatedClusters);
 	FREE(&This->direntry.Dir);
 	freeDirCache(Stream);
 	return hash_remove(filehash, (void *) Stream, This->hint);
 }


 static int flush_file(Stream_t *Stream)
 {
 	DeclareThis(File_t);
 	direntry_t *entry = &This->direntry;

 	if(isRootDir(Stream)) {
 		return 0;
 	}

 	if(This->FirstAbsCluNr != getStart(entry->Dir, &entry->dir)) {
 		set_word(entry->dir.start, This->FirstAbsCluNr & 0xffff);
 		set_word(entry->dir.startHi, This->FirstAbsCluNr >> 16);
 		dir_write(entry);
 	}
 	return 0;
 }


 static int pre_allocate_file(Stream_t *Stream, mt_off_t isize)
 {
 	DeclareThis(File_t);

 	uint32_t size = truncMtOffTo32u(isize);

 	if(size > This->FileSize &&
 	   size > This->preallocatedSize) {
 		This->preallocatedSize = size;
 		return recalcPreallocSize(This);
 	} else
 		return 0;
 }

 static Class_t FileClass = {
 	read_file,
 	write_file,
 	pread_file,
 	pwrite_file,
 	flush_file, /* flush */
 	free_file, /* free */
 	0, /* get_geom */
 	get_file_data,
 	pre_allocate_file,
 	get_dosConvert_pass_through,
 	0 /* discard */
 };

 static unsigned int getAbsCluNr(File_t *This)
 {
 	if(This->FirstAbsCluNr)
 		return This->FirstAbsCluNr;
 	if(isRootDir((Stream_t *) This))
 		return 0;
 	return 1;
 }

 static uint32_t func1(void *Stream)
 {
 	DeclareThis(File_t);

 	return getAbsCluNr(This) ^ (uint32_t) (unsigned long) This->head.Next;
 }

 static uint32_t func2(void *Stream)
 {
 	DeclareThis(File_t);

 	return getAbsCluNr(This);
 }

 static int comp(void *Stream, void *Stream2)
 {
 	DeclareThis(File_t);

 	File_t *This2 = (File_t *) Stream2;

 	return _getFs(This) != _getFs(This2) ||
 		getAbsCluNr(This) != getAbsCluNr(This2);
 }

 static void init_hash(void)
 {
 	static int is_initialised=0;

 	if(!is_initialised){
 		make_ht(func1, func2, comp, 20, &filehash);
 		is_initialised = 1;
 	}
 }


 static Stream_t *_internalFileOpen(Stream_t *Dir, unsigned int first,
 				   uint32_t size, direntry_t *entry)
 {
 	Stream_t *Stream = GetFs(Dir);
 	DeclareThis(Fs_t);
 	File_t Pattern;
 	File_t *File;

 	init_hash();
 	This->head.refs++;

 	if(first != 1){
 		/* we use the illegal cluster 1 to mark newly created files.
 		 * do not manage those by hashtable */
 		init_head(&Pattern.head, &FileClass, &This->head);
 		if(first || (entry && !IS_DIR(entry)))
 			Pattern.map = normal_map;
 		else
 			Pattern.map = root_map;
 		Pattern.FirstAbsCluNr = first;
 		Pattern.loopDetectRel = 0;
 		Pattern.loopDetectAbs = first;
 		if(!hash_lookup(filehash, (T_HashTableEl) &Pattern,
 				(T_HashTableEl **)&File, 0)){
 			File->head.refs++;
 			This->head.refs--;
 			return (Stream_t *) File;
 		}
 	}

 	File = New(File_t);
 	if (!File)
 		return NULL;
 	init_head(&File->head, &FileClass, &This->head);
 	File->Buffer = NULL;
 	File->dcp = 0;
 	File->preallocatedClusters = 0;
 	File->preallocatedSize = 0;
 	/* memorize dir for date and attrib */
 	File->direntry = *entry;
 	if(entry->entry == -3)
 		File->direntry.Dir = (Stream_t *) File; /* root directory */
 	else
 		COPY(File->direntry.Dir);
 	File->where = 0;
 	if(first || (entry && !IS_DIR(entry)))
 		File->map = normal_map;
 	else
 		File->map = root_map; /* FAT 12/16 root directory */
 	if(first == 1)
 		File->FirstAbsCluNr = 0;
 	else
 		File->FirstAbsCluNr = first;

 	File->loopDetectRel = 0;
 	File->loopDetectAbs = 0;

 	File->PreviousRelCluNr = 0xffff;
 	File->FileSize = size;
 	hash_add(filehash, (void *) File, &File->hint);
 	return (Stream_t *) File;
 }

 static void bufferize(Stream_t **Dir)
 {
 	Stream_t *BDir;
 	File_t *file = (File_t *) *Dir;

 	if(!*Dir)
 		return;

 	if(file->Buffer){
 		(*Dir)->refs--;
 		file->Buffer->refs++;
 		*Dir = file->Buffer;
 		return;
 	}

 	BDir = buf_init(*Dir, 64*16384, 512, MDIR_SIZE);
 	if(!BDir){
 		FREE(Dir);
 		*Dir = NULL;
 	} else {
 		file->Buffer = BDir;
 		*Dir = BDir;
 	}
 }


 Stream_t *OpenRoot(Stream_t *Dir)
 {
 	unsigned int num;
 	direntry_t entry;
 	uint32_t size;
 	Stream_t *file;

 	memset(&entry, 0, sizeof(direntry_t));

 	num = fat32RootCluster(Dir);

 	/* make the directory entry */
 	entry.entry = -3;
 	entry.name[0] = '\0';
 	mk_entry_from_base("/", ATTR_DIR, num, 0, 0, &entry.dir);

 	if(num)
 		size = countBytes(Dir, num);
 	else {
 		Fs_t *Fs = (Fs_t *) GetFs(Dir);
 		size = Fs->dir_len * Fs->sector_size;
 	}
 	file = _internalFileOpen(Dir, num, size, &entry);
 	bufferize(&file);
 	return file;
 }


 Stream_t *OpenFileByDirentry(direntry_t *entry)
 {
 	Stream_t *file;
 	unsigned int first;
 	uint32_t size;

 	first = getStart(entry->Dir, &entry->dir);

 	if(!first && IS_DIR(entry))
 		return OpenRoot(entry->Dir);
 	if (IS_DIR(entry))
 		size = countBytes(entry->Dir, first);
 	else
 		size = FILE_SIZE(&entry->dir);
 	file = _internalFileOpen(entry->Dir, first, size, entry);
 	if(IS_DIR(entry)) {
 		bufferize(&file);
 		if(first == 1)
 			dir_grow(file, 0);
 	}

 	return file;
 }


 int isRootDir(Stream_t *Stream)
 {
 	File_t *This = getUnbufferedFile(Stream);

 	return This->map == root_map;
 }
	/* Copyright 1996-1999,2001-2003,2007-2009,2011 Alain Knaff.
	* This file is part of mtools.
	*
	* Mtools is free software: you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation, either version 3 of the License, or
	* (at your option) any later version.
	*
	* Mtools is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with Mtools. If not, see <http://www.gnu.org/licenses/>.
	*/

	#include "sysincludes.h"
	#include "msdos.h"
	#include "stream.h"
	#include "mtools.h"
	#include "fsP.h"
	#include "file.h"
	#include "htable.h"
	#include "dirCache.h"
	#include "buffer.h"

	typedef struct File_t {
	struct Stream_t head;

	struct Stream_t *Buffer;

	int (map)(struct File_t this, uint32_t where, uint32_t *len, int mode,
	mt_off_t *res);
	uint32_t FileSize;

	/* How many bytes do we project to need for this file
	(includes those already in FileSize) */
	uint32_t preallocatedSize;

	/* How many clusters we have asked the lower layer to reserve
	for us (only what we will need in the future, excluding already
	allocated clusters in FileSize) */
	uint32_t preallocatedClusters;

	/* Absolute position of first cluster of file */
	unsigned int FirstAbsCluNr;

	/* Absolute position of previous cluster */
	unsigned int PreviousAbsCluNr;

	/* Relative position of previous cluster */
	unsigned int PreviousRelCluNr;
	direntry_t direntry;
	size_t hint;
	struct dirCache_t *dcp;

	unsigned int loopDetectRel;
	unsigned int loopDetectAbs;

	uint32_t where;
	} File_t;

	static Class_t FileClass;
	static T_HashTable *filehash;

	static File_t getUnbufferedFile(Stream_t Stream)
	{
	while(Stream->Class != &FileClass)
	Stream = Stream->Next;
	return (File_t *) Stream;
	}

	static inline Fs_t _getFs(File_t File)
	{
	return (Fs_t *) File->head.Next;
	}

	Fs_t getFs(Stream_t Stream)
	{
	return (Fs_t *)getUnbufferedFile(Stream)->head.Next;
	}

	struct dirCache_t *getDirCacheP(Stream_t Stream)
	{
	return &getUnbufferedFile(Stream)->dcp;
	}

	direntry_t getDirentry(Stream_t Stream)
	{
	return &getUnbufferedFile(Stream)->direntry;
	}

	/**
	* Overflow-safe conversion of bytes to cluster
	*/
	static uint32_t filebytesToClusters(uint32_t bytes, uint32_t clus_size) {
	uint32_t ret = bytes / clus_size;
	if(bytes % clus_size)
	ret++;
	return ret;
	}

	static int recalcPreallocSize(File_t *This)
	{
	uint32_t currentClusters, neededClusters;
	unsigned int clus_size;
	uint32_t neededPrealloc;
	Fs_t *Fs = _getFs(This);

	#if 0
	if(This->FileSize & 0xc0000000) {
	fprintf(stderr, "Bad filesize\n");
	}
	if(This->preallocatedSize & 0xc0000000) {
	fprintf(stderr, "Bad preallocated size %x\n",
	(int) This->preallocatedSize);
	}
	#endif
	clus_size = Fs->cluster_size * Fs->sector_size;
	currentClusters = filebytesToClusters(This->FileSize, clus_size);
	neededClusters = filebytesToClusters(This->preallocatedSize, clus_size);
	if(neededClusters < currentClusters)
	neededPrealloc = 0;
	else
	neededPrealloc = neededClusters - currentClusters;
	if(neededPrealloc > This->preallocatedClusters) {
	int r = fsPreallocateClusters(Fs, neededPrealloc-
	This->preallocatedClusters);
	if(r)
	return r;
	} else {
	fsReleasePreallocateClusters(Fs, This->preallocatedClusters -
	neededPrealloc);
	}
	This->preallocatedClusters = neededPrealloc;
	return 0;
	}

	static int _loopDetect(unsigned int *oldrel, unsigned int rel,
	unsigned int *oldabs, unsigned int absol)
	{
	if(oldrel && rel > oldrel && absol == *oldabs) {
	fprintf(stderr, "loop detected! oldrel=%d newrel=%d abs=%d\n",
	*oldrel, rel, absol);
	return -1;
	}

	if(rel >= 2 * *oldrel + 1) {
	*oldrel = rel;
	*oldabs = absol;
	}
	return 0;
	}


	static int loopDetect(File_t *This, unsigned int rel, unsigned int absol)
	{
	return _loopDetect(&This->loopDetectRel, rel, &This->loopDetectAbs, absol);
	}

	static unsigned int _countBlocks(Fs_t *This, unsigned int block)
	{
	unsigned int blocks;
	unsigned int rel, oldabs, oldrel;

	blocks = 0;

	oldabs = oldrel = rel = 0;

	while (block <= This->last_fat && block != 1 && block) {
	blocks++;
	block = fatDecode(This, block);
	rel++;
	if(_loopDetect(&oldrel, rel, &oldabs, block) < 0)
	block = 1;
	}
	return blocks;
	}

	unsigned int countBlocks(Stream_t *Dir, unsigned int block)
	{
	Stream_t *Stream = GetFs(Dir);
	DeclareThis(Fs_t);

	return _countBlocks(This, block);
	}

	/* returns number of bytes in a directory. Represents a file size, and
	* can hence be not bigger than 2^32
	*/
	static uint32_t countBytes(Stream_t *Dir, unsigned int block)
	{
	Stream_t *Stream = GetFs(Dir);
	DeclareThis(Fs_t);

	return _countBlocks(This, block) *
	This->sector_size * This->cluster_size;
	}

	void printFat(Stream_t *Stream)
	{
	File_t *This = getUnbufferedFile(Stream);
	uint32_t n;
	unsigned int rel;
	unsigned long begin, end;
	int first;

	n = This->FirstAbsCluNr;
	if(!n) {
	printf("Root directory or empty file\n");
	return;
	}

	rel = 0;
	first = 1;
	begin = end = 0;
	do {
	if (first \|\| n != end+1) {
	if (!first) {
	if (begin != end)
	printf("-%lu", end);
	printf("> ");
	}
	begin = end = n;
	printf("<%lu", begin);
	} else {
	end++;
	}
	first = 0;
	n = fatDecode(_getFs(This), n);
	rel++;
	if(loopDetect(This, rel, n) < 0)
	n = 1;
	} while (n <= _getFs(This)->last_fat && n != 1);
	if(!first) {
	if (begin != end)
	printf("-%lu", end);
	printf(">");
	}
	}

	void printFatWithOffset(Stream_t *Stream, off_t offset) {
	File_t *This = getUnbufferedFile(Stream);
	uint32_t n;
	unsigned int rel;
	off_t clusSize;

	n = This->FirstAbsCluNr;
	if(!n) {
	printf("Root directory or empty file\n");
	return;
	}

	clusSize = _getFs(This)->cluster_size * _getFs(This)->sector_size;

	rel = 0;
	while(offset >= clusSize) {
	n = fatDecode(_getFs(This), n);
	rel++;
	if(loopDetect(This, rel, n) < 0)
	return;
	if(n > _getFs(This)->last_fat)
	return;
	offset -= clusSize;
	}

	printf("%lu", (unsigned long) n);
	}

	static int normal_map(File_t This, uint32_t where, uint32_t len, int mode,
	mt_off_t *res)
	{
	unsigned int offset;
	size_t end;
	uint32_t NrClu; /* number of clusters to read */
	uint32_t RelCluNr;
	uint32_t CurCluNr;
	uint32_t NewCluNr;
	uint32_t AbsCluNr;
	uint32_t clus_size;
	Fs_t *Fs = _getFs(This);

	*res = 0;
	clus_size = Fs->cluster_size * Fs->sector_size;
	offset = where % clus_size;

	if (mode == MT_READ)
	maximize(*len, This->FileSize - where);
	if (*len == 0 )
	return 0;

	if (This->FirstAbsCluNr < 2){
	if( mode == MT_READ \|\| *len == 0){
	*len = 0;
	return 0;
	}
	NewCluNr = get_next_free_cluster(_getFs(This), 1);
	if (NewCluNr == 1 ){
	errno = ENOSPC;
	return -2;
	}
	hash_remove(filehash, (void *) This, This->hint);
	This->FirstAbsCluNr = NewCluNr;
	hash_add(filehash, (void *) This, &This->hint);
	fatAllocate(_getFs(This), NewCluNr, Fs->end_fat);
	}

	RelCluNr = where / clus_size;

	if (RelCluNr >= This->PreviousRelCluNr){
	CurCluNr = This->PreviousRelCluNr;
	AbsCluNr = This->PreviousAbsCluNr;
	} else {
	CurCluNr = 0;
	AbsCluNr = This->FirstAbsCluNr;
	}


	NrClu = (offset + *len - 1) / clus_size;
	while (CurCluNr <= RelCluNr + NrClu){
	if (CurCluNr == RelCluNr){
	/* we have reached the beginning of our zone. Save
	* coordinates */
	This->PreviousRelCluNr = RelCluNr;
	This->PreviousAbsCluNr = AbsCluNr;
	}
	NewCluNr = fatDecode(_getFs(This), AbsCluNr);
	if (NewCluNr == 1 \|\| NewCluNr == 0){
	fprintf(stderr,"Fat problem while decoding %d %x\n",
	AbsCluNr, NewCluNr);
	exit(1);
	}
	if(CurCluNr == RelCluNr + NrClu)
	break;
	if (NewCluNr > Fs->last_fat && mode == MT_WRITE){
	/* if at end, and writing, extend it */
	NewCluNr = get_next_free_cluster(_getFs(This), AbsCluNr);
	if (NewCluNr == 1 ){ /* no more space */
	errno = ENOSPC;
	return -2;
	}
	fatAppend(_getFs(This), AbsCluNr, NewCluNr);
	}

	if (CurCluNr < RelCluNr && NewCluNr > Fs->last_fat){
	*len = 0;
	return 0;
	}

	if (CurCluNr >= RelCluNr && NewCluNr != AbsCluNr + 1)
	break;
	CurCluNr++;
	AbsCluNr = NewCluNr;
	if(loopDetect(This, CurCluNr, AbsCluNr)) {
	errno = EIO;
	return -2;
	}
	}

	maximize(len, (1 + CurCluNr - RelCluNr) clus_size - offset);

	end = where + *len;
	if(batchmode &&
	mode == MT_WRITE &&
	end >= This->FileSize) {
	/* In batch mode, when writing at end of file, "pad"
	* to nearest cluster boundary so that we don't have
	* to read that data back from disk. */
	*len += ROUND_UP(end, clus_size) - end;
	}

	if((*len + offset) / clus_size + This->PreviousAbsCluNr-2 >
	Fs->num_clus) {
	fprintf(stderr, "cluster too big\n");
	exit(1);
	}

	*res = sectorsToBytes(Fs,
	(This->PreviousAbsCluNr-2) * Fs->cluster_size +
	Fs->clus_start) + to_mt_off_t(offset);
	return 1;
	}


	static int root_map(File_t This, uint32_t where, uint32_t len,
	int mode UNUSEDP, mt_off_t *res)
	{
	Fs_t *Fs = _getFs(This);

	if(Fs->dir_len * Fs->sector_size < where) {
	*len = 0;
	errno = ENOSPC;
	return -2;
	}

	maximize(len, Fs->dir_len Fs->sector_size - where);
	if (*len == 0)
	return 0;

	*res = sectorsToBytes(Fs, Fs->dir_start) +
	to_mt_off_t(where);
	return 1;
	}

	static ssize_t read_file(Stream_t Stream, char buf, size_t ilen)
	{
	DeclareThis(File_t);
	mt_off_t pos;
	int err;
	uint32_t len = truncSizeTo32u(ilen);
	ssize_t ret;

	Stream_t *Disk = _getFs(This)->head.Next;

	err = This->map(This, This->where, &len, MT_READ, &pos);
	if(err <= 0)
	return err;
	ret = PREADS(Disk, buf, pos, len);
	if(ret < 0)
	return ret;
	This->where += (size_t) ret;
	return ret;
	}

	static ssize_t write_file(Stream_t Stream, char buf, size_t ilen)
	{
	DeclareThis(File_t);
	mt_off_t pos;
	ssize_t ret;
	uint32_t requestedLen;
	uint32_t bytesWritten;
	Stream_t *Disk = _getFs(This)->head.Next;
	uint32_t maxLen = UINT32_MAX-This->where;
	uint32_t len;
	int err;

	if(ilen > maxLen) {
	len = maxLen;
	} else
	len = (uint32_t) ilen;
	requestedLen = len;
	err = This->map(This, This->where, &len, MT_WRITE, &pos);
	if( err <= 0)
	return err;
	if(batchmode)
	ret = force_pwrite(Disk, buf, pos, len);
	else
	ret = PWRITES(Disk, buf, pos, len);
	if(ret < 0)
	/* Error occured */
	return ret;
	if((uint32_t)ret > requestedLen)
	/* More data than requested may be written to lower
	* levels if batch mode is active, in order to "pad"
	* the last cluster of a file, so that we don't have
	* to read that back from disk */
	bytesWritten = requestedLen;
	else
	bytesWritten = (uint32_t)ret;
	This->where += bytesWritten;
	if (This->where > This->FileSize )
	This->FileSize = This->where;
	recalcPreallocSize(This);
	return (ssize_t) bytesWritten;
	}

	static ssize_t pread_file(Stream_t Stream, char buf, mt_off_t where,
	size_t ilen) {
	DeclareThis(File_t);
	This->where = truncMtOffTo32u(where);
	return read_file(Stream, buf, ilen);
	}

	static ssize_t pwrite_file(Stream_t Stream, char buf, mt_off_t where,
	size_t ilen) {
	DeclareThis(File_t);
	This->where = truncMtOffTo32u(where);
	return write_file(Stream, buf, ilen);
	}

	/*
	* Convert an MSDOS time & date stamp to the Unix time() format
	*/

	static int month[] = {0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334,
	0, 0, 0 };
	static __inline__ time_t conv_stamp(struct directory *dir)
	{
	struct tm *tmbuf;
	long tzone, dst;
	time_t accum, tmp;

	accum = DOS_YEAR(dir) - 1970; /* years past */

	/* days passed */
	accum = accum * 365L + month[DOS_MONTH(dir)-1] + DOS_DAY(dir);

	/* leap years */
	accum += (DOS_YEAR(dir) - 1972) / 4L;

	/* back off 1 day if before 29 Feb */
	if (!(DOS_YEAR(dir) % 4) && DOS_MONTH(dir) < 3)
	accum--;
	accum = accum * 24L + DOS_HOUR(dir); /* hours passed */
	accum = accum * 60L + DOS_MINUTE(dir); /* minutes passed */
	accum = accum * 60L + DOS_SEC(dir); /* seconds passed */

	/* correct for Time Zone */
	#ifdef HAVE_GETTIMEOFDAY
	{
	struct timeval tv;
	struct timezone tz;

	gettimeofday(&tv, &tz);
	tzone = tz.tz_minuteswest * 60L;
	}
	#else
	#if defined HAVE_TZSET && !defined OS_mingw32msvc
	{
	#if !defined OS_ultrix && !defined OS_cygwin
	/* Ultrix defines this to be a different type */
	extern long timezone;
	#endif
	tzset();
	tzone = (long) timezone;
	}
	#else
	tzone = 0;
	#endif /* HAVE_TZSET */
	#endif /* HAVE_GETTIMEOFDAY */

	accum += tzone;

	/* correct for Daylight Saving Time */
	tmp = accum;
	tmbuf = localtime(&tmp);
	if(tmbuf) {
	dst = (tmbuf->tm_isdst) ? (-60L * 60L) : 0L;
	accum += dst;
	}
	return accum;
	}


	static int get_file_data(Stream_t Stream, time_t date, mt_off_t *size,
	int type, uint32_t address)
	{
	DeclareThis(File_t);

	if(date)
	*date = conv_stamp(& This->direntry.dir);
	if(size)
	*size = to_mt_off_t(This->FileSize);
	if(type)
	*type = This->direntry.dir.attr & ATTR_DIR;
	if(address)
	*address = This->FirstAbsCluNr;
	return 0;
	}


	static int free_file(Stream_t *Stream)
	{
	DeclareThis(File_t);
	Fs_t *Fs = _getFs(This);
	fsReleasePreallocateClusters(Fs, This->preallocatedClusters);
	FREE(&This->direntry.Dir);
	freeDirCache(Stream);
	return hash_remove(filehash, (void *) Stream, This->hint);
	}


	static int flush_file(Stream_t *Stream)
	{
	DeclareThis(File_t);
	direntry_t *entry = &This->direntry;

	if(isRootDir(Stream)) {
	return 0;
	}

	if(This->FirstAbsCluNr != getStart(entry->Dir, &entry->dir)) {
	set_word(entry->dir.start, This->FirstAbsCluNr & 0xffff);
	set_word(entry->dir.startHi, This->FirstAbsCluNr >> 16);
	dir_write(entry);
	}
	return 0;
	}


	static int pre_allocate_file(Stream_t *Stream, mt_off_t isize)
	{
	DeclareThis(File_t);

	uint32_t size = truncMtOffTo32u(isize);

	if(size > This->FileSize &&
	size > This->preallocatedSize) {
	This->preallocatedSize = size;
	return recalcPreallocSize(This);
	} else
	return 0;
	}

	static Class_t FileClass = {
	read_file,
	write_file,
	pread_file,
	pwrite_file,
	flush_file, /* flush */
	free_file, /* free */
	0, /* get_geom */
	get_file_data,
	pre_allocate_file,
	get_dosConvert_pass_through,
	0 /* discard */
	};

	static unsigned int getAbsCluNr(File_t *This)
	{
	if(This->FirstAbsCluNr)
	return This->FirstAbsCluNr;
	if(isRootDir((Stream_t *) This))
	return 0;
	return 1;
	}

	static uint32_t func1(void *Stream)
	{
	DeclareThis(File_t);

	return getAbsCluNr(This) ^ (uint32_t) (unsigned long) This->head.Next;
	}

	static uint32_t func2(void *Stream)
	{
	DeclareThis(File_t);

	return getAbsCluNr(This);
	}

	static int comp(void Stream, void Stream2)
	{
	DeclareThis(File_t);

	File_t This2 = (File_t ) Stream2;

	return _getFs(This) != _getFs(This2) \|\|
	getAbsCluNr(This) != getAbsCluNr(This2);
	}

	static void init_hash(void)
	{
	static int is_initialised=0;

	if(!is_initialised){
	make_ht(func1, func2, comp, 20, &filehash);
	is_initialised = 1;
	}
	}


	static Stream_t _internalFileOpen(Stream_t Dir, unsigned int first,
	uint32_t size, direntry_t *entry)
	{
	Stream_t *Stream = GetFs(Dir);
	DeclareThis(Fs_t);
	File_t Pattern;
	File_t *File;

	init_hash();
	This->head.refs++;

	if(first != 1){
	/* we use the illegal cluster 1 to mark newly created files.
	* do not manage those by hashtable */
	init_head(&Pattern.head, &FileClass, &This->head);
	if(first \|\| (entry && !IS_DIR(entry)))
	Pattern.map = normal_map;
	else
	Pattern.map = root_map;
	Pattern.FirstAbsCluNr = first;
	Pattern.loopDetectRel = 0;
	Pattern.loopDetectAbs = first;
	if(!hash_lookup(filehash, (T_HashTableEl) &Pattern,
	(T_HashTableEl **)&File, 0)){
	File->head.refs++;
	This->head.refs--;
	return (Stream_t *) File;
	}
	}

	File = New(File_t);
	if (!File)
	return NULL;
	init_head(&File->head, &FileClass, &This->head);
	File->Buffer = NULL;
	File->dcp = 0;
	File->preallocatedClusters = 0;
	File->preallocatedSize = 0;
	/* memorize dir for date and attrib */
	File->direntry = *entry;
	if(entry->entry == -3)
	File->direntry.Dir = (Stream_t ) File; / root directory */
	else
	COPY(File->direntry.Dir);
	File->where = 0;
	if(first \|\| (entry && !IS_DIR(entry)))
	File->map = normal_map;
	else
	File->map = root_map; /* FAT 12/16 root directory */
	if(first == 1)
	File->FirstAbsCluNr = 0;
	else
	File->FirstAbsCluNr = first;

	File->loopDetectRel = 0;
	File->loopDetectAbs = 0;

	File->PreviousRelCluNr = 0xffff;
	File->FileSize = size;
	hash_add(filehash, (void *) File, &File->hint);
	return (Stream_t *) File;
	}

	static void bufferize(Stream_t **Dir)
	{
	Stream_t *BDir;
	File_t file = (File_t ) *Dir;

	if(!*Dir)
	return;

	if(file->Buffer){
	(*Dir)->refs--;
	file->Buffer->refs++;
	*Dir = file->Buffer;
	return;
	}

	BDir = buf_init(Dir, 6416384, 512, MDIR_SIZE);
	if(!BDir){
	FREE(Dir);
	*Dir = NULL;
	} else {
	file->Buffer = BDir;
	*Dir = BDir;
	}
	}


	Stream_t OpenRoot(Stream_t Dir)
	{
	unsigned int num;
	direntry_t entry;
	uint32_t size;
	Stream_t *file;

	memset(&entry, 0, sizeof(direntry_t));

	num = fat32RootCluster(Dir);

	/* make the directory entry */
	entry.entry = -3;
	entry.name[0] = '\0';
	mk_entry_from_base("/", ATTR_DIR, num, 0, 0, &entry.dir);

	if(num)
	size = countBytes(Dir, num);
	else {
	Fs_t Fs = (Fs_t ) GetFs(Dir);
	size = Fs->dir_len * Fs->sector_size;
	}
	file = _internalFileOpen(Dir, num, size, &entry);
	bufferize(&file);
	return file;
	}


	Stream_t OpenFileByDirentry(direntry_t entry)
	{
	Stream_t *file;
	unsigned int first;
	uint32_t size;

	first = getStart(entry->Dir, &entry->dir);

	if(!first && IS_DIR(entry))
	return OpenRoot(entry->Dir);
	if (IS_DIR(entry))
	size = countBytes(entry->Dir, first);
	else
	size = FILE_SIZE(&entry->dir);
	file = _internalFileOpen(entry->Dir, first, size, entry);
	if(IS_DIR(entry)) {
	bufferize(&file);
	if(first == 1)
	dir_grow(file, 0);
	}

	return file;
	}


	int isRootDir(Stream_t *Stream)
	{
	File_t *This = getUnbufferedFile(Stream);

	return This->map == root_map;
	}