libfat/source/directory.c

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2006-07-14 04:42:37 +02:00
/*
directory.c
Reading, writing and manipulation of the directory structure on
a FAT partition
Copyright (c) 2006 Michael "Chishm" Chisholm
Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation and/or
other materials provided with the distribution.
3. The name of the author may not be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
2006-08-14 - Chishm
* entryFromPath correctly finds "" and "." now
2006-08-17 - Chishm
* entryFromPath doesn't look for "" anymore - use "." to refer to the current directory
2006-08-19 - Chishm
* Fixed entryFromPath bug when looking for "." in root directory
2006-10-01 - Chishm
* Now clears the whole new cluster when linking in more clusters for a directory
2006-10-28 - Chishm
* stat returns the hostType for the st_dev value
2006-07-14 04:42:37 +02:00
*/
#include <string.h>
#include <ctype.h>
#include "directory.h"
#include "common.h"
#include "partition.h"
#include "file_allocation_table.h"
#include "bit_ops.h"
#include "filetime.h"
// Directory entry codes
#define DIR_ENTRY_LAST 0x00
#define DIR_ENTRY_FREE 0xE5
// Long file name directory entry
enum LFN_offset {
LFN_offset_ordinal = 0x00, // Position within LFN
LFN_offset_char0 = 0x01,
LFN_offset_char1 = 0x03,
LFN_offset_char2 = 0x05,
LFN_offset_char3 = 0x07,
LFN_offset_char4 = 0x09,
LFN_offset_flag = 0x0B, // Should be equal to ATTRIB_LFN
LFN_offset_reserved1 = 0x0C, // Always 0x00
LFN_offset_checkSum = 0x0D, // Checksum of short file name (alias)
LFN_offset_char5 = 0x0E,
LFN_offset_char6 = 0x10,
LFN_offset_char7 = 0x12,
LFN_offset_char8 = 0x14,
LFN_offset_char9 = 0x16,
LFN_offset_char10 = 0x18,
LFN_offset_reserved2 = 0x1A, // Always 0x0000
LFN_offset_char11 = 0x1C,
LFN_offset_char12 = 0x1E
};
const int LFN_offset_table[13]={0x01,0x03,0x05,0x07,0x09,0x0E,0x10,0x12,0x14,0x16,0x18,0x1C,0x1E};
#define LFN_END 0x40
#define LFN_DEL 0x80
bool _FAT_directory_isValidLfn (const char* name) {
u32 i;
u32 nameLength;
// Make sure the name is short enough to be valid
if ( strnlen(name, MAX_FILENAME_LENGTH) >= MAX_FILENAME_LENGTH) {
return false;
}
// Make sure it doesn't contain any invalid characters
if (strpbrk (name, "\\/:*?\"<>|") != NULL) {
return false;
}
nameLength = strnlen(name, MAX_FILENAME_LENGTH);
// Make sure the name doesn't contain any control codes
for (i = 0; i < nameLength; i++) {
if (name[i] < 0x20) {
return false;
}
}
// Otherwise it is valid
return true;
}
bool _FAT_directory_isValidAlias (const char* name) {
u32 i;
u32 nameLength;
const char* dot;
// Make sure the name is short enough to be valid
if ( strnlen(name, MAX_ALIAS_LENGTH) >= MAX_ALIAS_LENGTH) {
return false;
}
// Make sure it doesn't contain any invalid characters
if (strpbrk (name, "\\/:;*?\"<>|&+,=[]") != NULL) {
return false;
}
nameLength = strnlen(name, MAX_ALIAS_LENGTH);
// Make sure the name doesn't contain any control codes
for (i = 0; i < nameLength; i++) {
if (name[i] < 0x20) {
return false;
}
}
dot = strchr ( name, '.');
// Make sure there is only one '.'
if ((dot != NULL) && (strrchr ( name, '.') != dot)) {
return false;
}
// If there is a '.':
if (dot != NULL) {
// Make sure the filename portion is 1-8 characters long
if (((dot - 1 - name) > 8) || ((dot - 1 - name) < 1)) {
return false;
}
// Make sure the extension is 1-3 characters long, if it exists
if ((strnlen(dot + 1, MAX_ALIAS_LENGTH) > 3) || (strnlen(dot + 1, MAX_ALIAS_LENGTH) < 1)) {
return false;
}
} else {
// Make sure the entire file name is 1-8 characters long
if ((nameLength > 8) || (nameLength < 1)) {
return false;
}
}
// Since we made it through all those tests, it must be valid
return true;
}
static bool _FAT_directory_entryGetAlias (const u8* entryData, char* destName) {
int i=0;
int j=0;
destName[0] = '\0';
if (entryData[0] != DIR_ENTRY_FREE) {
if (entryData[0] == '.') {
destName[0] = '.';
if (entryData[1] == '.') {
destName[1] = '.';
destName[2] = '\0';
} else {
destName[1] = '\0';
}
} else {
// Copy the filename from the dirEntry to the string
for (i = 0; (i < 8) && (entryData[DIR_ENTRY_name + i] != ' '); i++) {
destName[i] = entryData[DIR_ENTRY_name + i];
}
// Copy the extension from the dirEntry to the string
if (entryData[DIR_ENTRY_extension] != ' ') {
destName[i++] = '.';
for ( j = 0; (j < 3) && (entryData[DIR_ENTRY_extension + j] != ' '); j++) {
destName[i++] = entryData[DIR_ENTRY_extension + j];
}
}
destName[i] = '\0';
}
}
return (destName[0] != '\0');
}
u32 _FAT_directory_entryGetCluster (const u8* entryData) {
return u8array_to_u16(entryData,DIR_ENTRY_cluster) | (u8array_to_u16(entryData, DIR_ENTRY_clusterHigh) << 16);
}
static bool _FAT_directory_incrementDirEntryPosition (PARTITION* partition, DIR_ENTRY_POSITION* entryPosition, bool extendDirectory) {
DIR_ENTRY_POSITION position;
position = *entryPosition;
u32 tempCluster;
// Increment offset, wrapping at the end of a sector
++ position.offset;
if (position.offset == BYTES_PER_READ / DIR_ENTRY_DATA_SIZE) {
position.offset = 0;
// Increment sector when wrapping
++ position.sector;
// But wrap at the end of a cluster
if ((position.sector == partition->sectorsPerCluster) && (position.cluster != FAT16_ROOT_DIR_CLUSTER)) {
position.sector = 0;
// Move onto the next cluster, making sure there is another cluster to go to
tempCluster = _FAT_fat_nextCluster(partition, position.cluster);
if (tempCluster == CLUSTER_EOF) {
if (extendDirectory) {
tempCluster = _FAT_fat_linkFreeClusterCleared (partition, position.cluster);
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if (tempCluster == CLUSTER_FREE) {
return false; // This will only happen if the disc is full
}
} else {
return false; // Got to the end of the directory, not extending it
}
}
position.cluster = tempCluster;
} else if ((position.cluster == FAT16_ROOT_DIR_CLUSTER) && (position.sector == (partition->dataStart - partition->rootDirStart))) {
return false; // Got to end of root directory, can't extend it
}
}
*entryPosition = position;
return true;
}
bool _FAT_directory_getNextEntry (PARTITION* partition, DIR_ENTRY* entry) {
DIR_ENTRY_POSITION entryStart;
DIR_ENTRY_POSITION entryEnd;
u8 entryData[0x20];
bool notFound, found;
u32 maxSectors;
int lfnPos;
u8 lfnChkSum, chkSum;
char* filename;
bool lfnExists;
int i;
lfnChkSum = 0;
entryStart = entry->dataEnd;
// Make sure we are using the correct root directory, in case of FAT32
if (entryStart.cluster == FAT16_ROOT_DIR_CLUSTER) {
entryStart.cluster = partition->rootDirCluster;
}
entryEnd = entryStart;
filename = entry->filename;
// Can only be FAT16_ROOT_DIR_CLUSTER if it is the root directory on a FAT12 or FAT16 partition
if (entryStart.cluster == FAT16_ROOT_DIR_CLUSTER) {
maxSectors = partition->dataStart - partition->rootDirStart;
} else {
maxSectors = partition->sectorsPerCluster;
}
lfnExists = false;
found = false;
notFound = false;
while (!found && !notFound) {
if (_FAT_directory_incrementDirEntryPosition (partition, &entryEnd, false) == false) {
notFound = true;
}
_FAT_cache_readPartialSector (partition->cache, entryData, _FAT_fat_clusterToSector(partition, entryEnd.cluster) + entryEnd.sector, entryEnd.offset * DIR_ENTRY_DATA_SIZE, DIR_ENTRY_DATA_SIZE);
if (entryData[DIR_ENTRY_attributes] == ATTRIB_LFN) {
// It's an LFN
if (entryData[LFN_offset_ordinal] & LFN_DEL) {
lfnExists = false;
} else if (entryData[LFN_offset_ordinal] & LFN_END) {
// Last part of LFN, make sure it isn't deleted using previous if(Thanks MoonLight)
entryStart = entryEnd; // This is the start of a directory entry
lfnExists = true;
filename[(entryData[LFN_offset_ordinal] & ~LFN_END) * 13] = '\0'; // Set end of lfn to null character
lfnChkSum = entryData[LFN_offset_checkSum];
} if (lfnChkSum != entryData[LFN_offset_checkSum]) {
lfnExists = false;
}
if (lfnExists) {
lfnPos = ((entryData[LFN_offset_ordinal] & ~LFN_END) - 1) * 13;
for (i = 0; i < 13; i++) {
filename[lfnPos + i] = entryData[LFN_offset_table[i]]; // modify this for unicode support;
}
}
} else if (entryData[DIR_ENTRY_attributes] & ATTRIB_VOL) {
// This is a volume name, don't bother with it
} else if (entryData[0] == DIR_ENTRY_LAST) {
notFound = true;
} else if ((entryData[0] != DIR_ENTRY_FREE) && (entryData[0] > 0x20) && !(entryData[DIR_ENTRY_attributes] & ATTRIB_VOL)) {
if (lfnExists) {
// Calculate file checksum
chkSum = 0;
for (i=0; i < 11; i++) {
// NOTE: The operation is an unsigned char rotate right
chkSum = ((chkSum & 1) ? 0x80 : 0) + (chkSum >> 1) + entryData[i];
}
if (chkSum != lfnChkSum) {
lfnExists = false;
filename[0] = '\0';
}
}
if (!lfnExists) {
entryStart = entryEnd;
_FAT_directory_entryGetAlias (entryData, filename);
}
found = true;
}
}
// If no file is found, return false
if (notFound) {
return false;
} else {
// Fill in the directory entry struct
entry->dataStart = entryStart;
entry->dataEnd = entryEnd;
memcpy (entry->entryData, entryData, DIR_ENTRY_DATA_SIZE);
return true;
}
}
bool _FAT_directory_getFirstEntry (PARTITION* partition, DIR_ENTRY* entry, u32 dirCluster) {
entry->dataStart.cluster = dirCluster;
entry->dataStart.sector = 0;
entry->dataStart.offset = -1; // Start before the beginning of the directory
entry->dataEnd = entry->dataStart;
return _FAT_directory_getNextEntry (partition, entry);
}
bool _FAT_directory_getRootEntry (PARTITION* partition, DIR_ENTRY* entry) {
entry->dataStart.cluster = 0;
entry->dataStart.sector = 0;
entry->dataStart.offset = 0;
entry->dataEnd = entry->dataStart;
memset (entry->filename, '\0', MAX_FILENAME_LENGTH);
entry->filename[0] = '.';
memset (entry->entryData, 0, DIR_ENTRY_DATA_SIZE);
memset (entry->entryData, ' ', 11);
entry->entryData[0] = '.';
entry->entryData[DIR_ENTRY_attributes] = ATTRIB_DIR;
u16_to_u8array (entry->entryData, DIR_ENTRY_cluster, partition->rootDirCluster);
u16_to_u8array (entry->entryData, DIR_ENTRY_clusterHigh, partition->rootDirCluster >> 16);
return true;
}
bool _FAT_directory_entryFromPosition (PARTITION* partition, DIR_ENTRY* entry) {
DIR_ENTRY_POSITION entryStart;
DIR_ENTRY_POSITION entryEnd;
entryStart = entry->dataStart;
entryEnd = entry->dataEnd;
bool entryStillValid;
bool finished;
int i;
int lfnPos;
u8 entryData[DIR_ENTRY_DATA_SIZE];
memset (entry->filename, '\0', MAX_FILENAME_LENGTH);
// Create an empty directory entry to overwrite the old ones with
for ( entryStillValid = true, finished = false;
entryStillValid && !finished;
entryStillValid = _FAT_directory_incrementDirEntryPosition (partition, &entryStart, false))
{
_FAT_cache_readPartialSector (partition->cache, entryData,
_FAT_fat_clusterToSector(partition, entryStart.cluster) + entryStart.sector,
entryStart.offset * DIR_ENTRY_DATA_SIZE, DIR_ENTRY_DATA_SIZE);
if ((entryStart.cluster == entryEnd.cluster)
&& (entryStart.sector == entryEnd.sector)
&& (entryStart.offset == entryEnd.offset)) {
// Copy the entry data and stop, since this is the last section of the directory entry
memcpy (entry->entryData, entryData, DIR_ENTRY_DATA_SIZE);
finished = true;
} else {
// Copy the long file name data
lfnPos = ((entryData[LFN_offset_ordinal] & ~LFN_END) - 1) * 13;
for (i = 0; i < 13; i++) {
entry->filename[lfnPos + i] = entryData[LFN_offset_table[i]]; // modify this for unicode support;
}
}
}
if (!entryStillValid) {
return false;
}
if ((entryStart.cluster == entryEnd.cluster)
&& (entryStart.sector == entryEnd.sector)
&& (entryStart.offset == entryEnd.offset)) {
// Since the entry doesn't have a long file name, extract the short filename
if (!_FAT_directory_entryGetAlias (entry->entryData, entry->filename)) {
return false;
}
}
return true;
}
bool _FAT_directory_entryFromPath (PARTITION* partition, DIR_ENTRY* entry, const char* path, const char* pathEnd) {
size_t dirnameLength;
const char* pathPosition;
const char* nextPathPosition;
u32 dirCluster;
bool foundFile;
char alias[MAX_ALIAS_LENGTH];
bool found, notFound;
pathPosition = path;
found = false;
notFound = false;
if (pathEnd == NULL) {
// Set pathEnd to the end of the path string
pathEnd = strchr (path, '\0');
}
if (pathPosition[0] == DIR_SEPARATOR) {
// Start at root directory
dirCluster = partition->rootDirCluster;
// Consume separator(s)
while (pathPosition[0] == DIR_SEPARATOR) {
pathPosition++;
}
// If the path is only specifying a directory in the form of "/" return it
if (pathPosition >= pathEnd) {
_FAT_directory_getRootEntry (partition, entry);
found = true;
}
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} else {
// Start in current working directory
dirCluster = partition->cwdCluster;
}
// If the path is only specifying a directory in the form "."
// and this is the root directory, return it
if ((dirCluster == partition->rootDirCluster) && (strncasecmp(".", pathPosition, 2) == 0)) {
_FAT_directory_getRootEntry (partition, entry);
found = true;
}
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while (!found && !notFound) {
// Get the name of the next required subdirectory within the path
nextPathPosition = strchr (pathPosition, DIR_SEPARATOR);
if (nextPathPosition != NULL) {
dirnameLength = nextPathPosition - pathPosition;
} else {
dirnameLength = strlen(pathPosition);
}
if (dirnameLength > MAX_FILENAME_LENGTH) {
// The path is too long to bother with
return false;
}
// Look for the directory within the path
foundFile = _FAT_directory_getFirstEntry (partition, entry, dirCluster);
while (foundFile && !found && !notFound) { // It hasn't already found the file
// Check if the filename matches
if ((dirnameLength == strnlen(entry->filename, MAX_FILENAME_LENGTH))
&& (strncasecmp(entry->filename, pathPosition, dirnameLength) == 0)) {
found = true;
}
// Check if the alias matches
_FAT_directory_entryGetAlias (entry->entryData, alias);
if ((dirnameLength == strnlen(alias, MAX_ALIAS_LENGTH))
&& (strncasecmp(alias, pathPosition, dirnameLength) == 0)) {
found = true;
}
if (found && !(entry->entryData[DIR_ENTRY_attributes] & ATTRIB_DIR) && (nextPathPosition != NULL)) {
// Make sure that we aren't trying to follow a file instead of a directory in the path
found = false;
}
if (!found) {
foundFile = _FAT_directory_getNextEntry (partition, entry);
}
}
if (!foundFile) {
// Check that the search didn't get to the end of the directory
notFound = true;
found = false;
} else if ((nextPathPosition == NULL) || (nextPathPosition >= pathEnd)) {
// Check that we reached the end of the path
found = true;
} else if (entry->entryData[DIR_ENTRY_attributes] & ATTRIB_DIR) {
dirCluster = _FAT_directory_entryGetCluster (entry->entryData);
pathPosition = nextPathPosition;
// Consume separator(s)
while (pathPosition[0] == DIR_SEPARATOR) {
pathPosition++;
}
// The requested directory was found
if (pathPosition >= pathEnd) {
found = true;
} else {
found = false;
}
}
}
if (found && !notFound) {
return true;
} else {
return false;
}
}
bool _FAT_directory_removeEntry (PARTITION* partition, DIR_ENTRY* entry) {
DIR_ENTRY_POSITION entryStart;
DIR_ENTRY_POSITION entryEnd;
entryStart = entry->dataStart;
entryEnd = entry->dataEnd;
bool entryStillValid;
bool finished;
u8 entryData[DIR_ENTRY_DATA_SIZE];
// Create an empty directory entry to overwrite the old ones with
for ( entryStillValid = true, finished = false;
entryStillValid && !finished;
entryStillValid = _FAT_directory_incrementDirEntryPosition (partition, &entryStart, false))
{
_FAT_cache_readPartialSector (partition->cache, entryData, _FAT_fat_clusterToSector(partition, entryStart.cluster) + entryStart.sector, entryStart.offset * DIR_ENTRY_DATA_SIZE, DIR_ENTRY_DATA_SIZE);
entryData[0] = DIR_ENTRY_FREE;
_FAT_cache_writePartialSector (partition->cache, entryData, _FAT_fat_clusterToSector(partition, entryStart.cluster) + entryStart.sector, entryStart.offset * DIR_ENTRY_DATA_SIZE, DIR_ENTRY_DATA_SIZE);
if ((entryStart.cluster == entryEnd.cluster) && (entryStart.sector == entryEnd.sector) && (entryStart.offset == entryEnd.offset)) {
finished = true;
}
}
if (!entryStillValid) {
return false;
}
return true;
}
static bool _FAT_directory_findEntryGap (PARTITION* partition, DIR_ENTRY* entry, u32 dirCluster, u32 size) {
DIR_ENTRY_POSITION gapStart;
DIR_ENTRY_POSITION gapEnd;
u8 entryData[DIR_ENTRY_DATA_SIZE];
u32 dirEntryRemain;
bool endOfDirectory, entryStillValid;
// Scan Dir for free entry
gapEnd.offset = 0;
gapEnd.sector = 0;
gapEnd.cluster = dirCluster;
gapStart = gapEnd;
entryStillValid = true;
dirEntryRemain = size;
endOfDirectory = false;
while (entryStillValid && !endOfDirectory && (dirEntryRemain > 0)) {
_FAT_cache_readPartialSector (partition->cache, entryData, _FAT_fat_clusterToSector(partition, gapEnd.cluster) + gapEnd.sector, gapEnd.offset * DIR_ENTRY_DATA_SIZE, DIR_ENTRY_DATA_SIZE);
if (entryData[0] == DIR_ENTRY_LAST) {
gapStart = gapEnd;
-- dirEntryRemain;
endOfDirectory = true;
} else if (entryData[0] == DIR_ENTRY_FREE) {
if (dirEntryRemain == size) {
gapStart = gapEnd;
}
-- dirEntryRemain;
} else {
dirEntryRemain = size;
}
if (!endOfDirectory && (dirEntryRemain > 0)) {
entryStillValid = _FAT_directory_incrementDirEntryPosition (partition, &gapEnd, true);
}
}
// Make sure the scanning didn't fail
if (!entryStillValid) {
return false;
}
// Save the start entry, since we know it is valid
entry->dataStart = gapStart;
if (endOfDirectory) {
memset (entryData, DIR_ENTRY_LAST, DIR_ENTRY_DATA_SIZE);
dirEntryRemain += 1; // Increase by one to take account of End Of Directory Marker
while ((dirEntryRemain > 0) && entryStillValid) {
// Get the gapEnd before incrementing it, so the second to last one is saved
entry->dataEnd = gapEnd;
// Increment gapEnd, moving onto the next entry
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entryStillValid = _FAT_directory_incrementDirEntryPosition (partition, &gapEnd, true);
-- dirEntryRemain;
// Fill the entry with blanks
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_FAT_cache_writePartialSector (partition->cache, entryData, _FAT_fat_clusterToSector(partition, gapEnd.cluster) + gapEnd.sector, gapEnd.offset * DIR_ENTRY_DATA_SIZE, DIR_ENTRY_DATA_SIZE);
}
if (!entryStillValid) {
return false;
}
} else {
entry->dataEnd = gapEnd;
}
return true;
}
static bool _FAT_directory_entryExists (PARTITION* partition, const char* name, u32 dirCluster) {
DIR_ENTRY tempEntry;
bool foundFile;
char alias[MAX_ALIAS_LENGTH];
u32 dirnameLength;
dirnameLength = strnlen(name, MAX_FILENAME_LENGTH);
if (dirnameLength >= MAX_FILENAME_LENGTH) {
return false;
}
// Make sure the entry doesn't already exist
foundFile = _FAT_directory_getFirstEntry (partition, &tempEntry, dirCluster);
while (foundFile) { // It hasn't already found the file
// Check if the filename matches
if ((dirnameLength == strnlen(tempEntry.filename, MAX_FILENAME_LENGTH))
&& (strcasecmp(tempEntry.filename, name) == 0)) {
return true;
}
// Check if the alias matches
_FAT_directory_entryGetAlias (tempEntry.entryData, alias);
if ((dirnameLength == strnlen(alias, MAX_ALIAS_LENGTH))
&& (strcasecmp(alias, name) == 0)) {
return true;
}
foundFile = _FAT_directory_getNextEntry (partition, &tempEntry);
}
return false;
}
bool _FAT_directory_addEntry (PARTITION* partition, DIR_ENTRY* entry, u32 dirCluster) {
u32 entrySize;
u8 lfnEntry[DIR_ENTRY_DATA_SIZE];
s32 i,j; // Must be signed for use when decrementing in for loop
char *tmpCharPtr;
DIR_ENTRY_POSITION curEntryPos;
bool entryStillValid;
u8 aliasCheckSum = 0;
char alias [MAX_ALIAS_LENGTH];
// Make sure the filename is not 0 length
if (strnlen (entry->filename, MAX_FILENAME_LENGTH) < 1) {
return false;
}
// Make sure the filename is at least a valid LFN
if ( !(_FAT_directory_isValidLfn (entry->filename))) {
return false;
}
// Remove trailing spaces
for (i = strlen (entry->filename) - 1; (i > 0) && (entry->filename[i] == ' '); --i) {
entry->filename[i] = '\0';
}
// Remove leading spaces
for (i = 0; (i < strlen (entry->filename)) && (entry->filename[i] == ' '); ++i) ;
if (i > 0) {
memmove (entry->filename, entry->filename + i, strlen (entry->filename + i));
}
// Remove junk in filename
i = strlen (entry->filename);
memset (entry->filename + i, '\0', MAX_FILENAME_LENGTH - i);
// Make sure the entry doesn't already exist
if (_FAT_directory_entryExists (partition, entry->filename, dirCluster)) {
return false;
}
// Clear out alias, so we can generate a new one
memset (entry->entryData, ' ', 11);
if ( strncmp(entry->filename, ".", MAX_FILENAME_LENGTH) == 0) {
// "." entry
entry->entryData[0] = '.';
entrySize = 1;
} else if ( strncmp(entry->filename, "..", MAX_FILENAME_LENGTH) == 0) {
// ".." entry
entry->entryData[0] = '.';
entry->entryData[1] = '.';
entrySize = 1;
} else if ( _FAT_directory_isValidAlias (entry->filename)) {
// Short filename
strupr (entry->filename);
entrySize = 1;
// Copy into alias
for (i = 0, j = 0; (j < 8) && (entry->filename[i] != '.') && (entry->filename[i] != '\0'); i++, j++) {
entry->entryData[j] = entry->filename[i];
}
while (j < 8) {
entry->entryData[j] = ' ';
++ j;
}
if (entry->filename[i] == '.') {
// Copy extension
++ i;
while ((entry->filename[i] != '\0') && (j < 11)) {
entry->entryData[j] = entry->filename[i];
++ i;
++ j;
}
}
while (j < 11) {
entry->entryData[j] = ' ';
++ j;
}
} else {
// Long filename needed
entrySize = ((strnlen (entry->filename, MAX_FILENAME_LENGTH) + LFN_ENTRY_LENGTH - 1) / LFN_ENTRY_LENGTH) + 1;
// Generate alias
tmpCharPtr = strrchr (entry->filename, '.');
if (tmpCharPtr == NULL) {
tmpCharPtr = strrchr (entry->filename, '\0');
}
for (i = 0, j = 0; (j < 6) && (entry->filename + i < tmpCharPtr); i++) {
if ( isalnum(entry->filename[i])) {
alias[j] = entry->filename[i];
++ j;
}
}
while (j < 8) {
alias[j] = '_';
++ j;
}
tmpCharPtr = strrchr (entry->filename, '.');
if (tmpCharPtr != NULL) {
alias[8] = '.';
// Copy extension
while ((tmpCharPtr != '\0') && (j < 12)) {
alias[j] = tmpCharPtr[0];
++ tmpCharPtr;
++ j;
}
alias[j] = '\0';
} else {
for (j = 8; j < MAX_ALIAS_LENGTH; j++) {
alias[j] = '\0';
}
}
// Get a valid tail number
alias[5] = '~';
i = 0;
do {
i++;
alias[6] = '0' + ((i / 10) % 10); // 10's digit
alias[7] = '0' + (i % 10); // 1's digit
} while (_FAT_directory_entryExists (partition, alias, dirCluster) && (i < 100));
if (i == 100) {
// Couldn't get a tail number
return false;
}
// Make it upper case
strupr (alias);
// Now copy it into the directory entry data
memcpy (entry->entryData, alias, 8);
memcpy (entry->entryData + 8, alias + 9, 3);
for (i = 0; i < 10; i++) {
if (entry->entryData[i] < 0x20) {
// Replace null and control characters with spaces
entry->entryData[i] = 0x20;
}
}
// Generate alias checksum
for (i=0; i < 11; i++)
{
// NOTE: The operation is an unsigned char rotate right
aliasCheckSum = ((aliasCheckSum & 1) ? 0x80 : 0) + (aliasCheckSum >> 1) + entry->entryData[i];
}
}
// Find or create space for the entry
if (_FAT_directory_findEntryGap (partition, entry, dirCluster, entrySize) == false) {
return false;
}
// Write out directory entry
curEntryPos = entry->dataStart;
for (entryStillValid = true, i = entrySize; entryStillValid && i > 0;
entryStillValid = _FAT_directory_incrementDirEntryPosition (partition, &curEntryPos, false), -- i )
{
if (i > 1) {
// Long filename entry
lfnEntry[LFN_offset_ordinal] = (i - 1) | (i == entrySize ? LFN_END : 0);
for (j = 0; j < 13; j++) {
if (entry->filename [(i - 2) * 13 + j] == '\0') {
if ((j > 1) && (entry->filename [(i - 2) * 13 + (j-1)] == '\0')) {
u16_to_u8array (lfnEntry, LFN_offset_table[j], 0xffff); // Padding
} else {
u16_to_u8array (lfnEntry, LFN_offset_table[j], 0x0000); // Terminating null character
}
} else {
u16_to_u8array (lfnEntry, LFN_offset_table[j], entry->filename [(i - 2) * 13 + j]);
}
}
lfnEntry[LFN_offset_checkSum] = aliasCheckSum;
lfnEntry[LFN_offset_flag] = ATTRIB_LFN;
lfnEntry[LFN_offset_reserved1] = 0;
u16_to_u8array (lfnEntry, LFN_offset_reserved2, 0);
_FAT_cache_writePartialSector (partition->cache, lfnEntry, _FAT_fat_clusterToSector(partition, curEntryPos.cluster) + curEntryPos.sector, curEntryPos.offset * DIR_ENTRY_DATA_SIZE, DIR_ENTRY_DATA_SIZE);
} else {
// Alias & file data
_FAT_cache_writePartialSector (partition->cache, entry->entryData, _FAT_fat_clusterToSector(partition, curEntryPos.cluster) + curEntryPos.sector, curEntryPos.offset * DIR_ENTRY_DATA_SIZE, DIR_ENTRY_DATA_SIZE);
}
}
return true;
}
bool _FAT_directory_chdir (PARTITION* partition, const char* path) {
DIR_ENTRY entry;
if (!_FAT_directory_entryFromPath (partition, &entry, path, NULL)) {
return false;
}
if (!(entry.entryData[DIR_ENTRY_attributes] & ATTRIB_DIR)) {
return false;
}
partition->cwdCluster = _FAT_directory_entryGetCluster (entry.entryData);
return true;
}
void _FAT_directory_entryStat (PARTITION* partition, DIR_ENTRY* entry, struct stat *st) {
// Fill in the stat struct
// Some of the values are faked for the sake of compatibility
st->st_dev = _FAT_disc_hostType(partition->disc); // The device is the 32bit ioType value
2006-07-14 04:42:37 +02:00
st->st_ino = (ino_t)(_FAT_directory_entryGetCluster(entry->entryData)); // The file serial number is the start cluster
st->st_mode = (_FAT_directory_isDirectory(entry) ? S_IFDIR : S_IFREG) |
(S_IRUSR | S_IRGRP | S_IROTH) |
(_FAT_directory_isWritable (entry) ? (S_IWUSR | S_IWGRP | S_IWOTH) : 0); // Mode bits based on dirEntry ATTRIB byte
st->st_nlink = 1; // Always one hard link on a FAT file
st->st_uid = 1; // Faked for FAT
st->st_gid = 2; // Faked for FAT
st->st_rdev = st->st_dev;
st->st_size = u8array_to_u32 (entry->entryData, DIR_ENTRY_fileSize); // File size
st->st_atime = _FAT_filetime_to_time_t (
0,
u8array_to_u16 (entry->entryData, DIR_ENTRY_aDate)
);
st->st_spare1 = 0;
st->st_mtime = _FAT_filetime_to_time_t (
u8array_to_u16 (entry->entryData, DIR_ENTRY_mTime),
u8array_to_u16 (entry->entryData, DIR_ENTRY_mDate)
);
st->st_spare2 = 0;
st->st_ctime = _FAT_filetime_to_time_t (
u8array_to_u16 (entry->entryData, DIR_ENTRY_cTime),
u8array_to_u16 (entry->entryData, DIR_ENTRY_cDate)
);
st->st_spare3 = 0;
st->st_blksize = BYTES_PER_READ; // Prefered file I/O block size
st->st_blocks = (st->st_size + BYTES_PER_READ - 1) / BYTES_PER_READ; // File size in blocks
st->st_spare4[0] = 0;
st->st_spare4[1] = 0;
}