[umon commit] FAT fs changes: FAT code and larger ROM size
Ben Gras
beng at rtems.org
Tue Jun 21 21:40:54 UTC 2016
Module: umon
Branch: master
Commit: 696ee75469e4e21afa570f8471c81ebd291f243a
Changeset: http://git.rtems.org/umon/commit/?id=696ee75469e4e21afa570f8471c81ebd291f243a
Author: Ben Gras <beng at shrike-systems.com>
Date: Mon Jun 20 14:36:21 2016 +0200
FAT fs changes: FAT code and larger ROM size
. add fatfs umon cli to it. unmodified from the umon 1.19
distribution, apache-licensed.
. also add dosfs from the umon 1.19 distribution, which is
similarly liberally licensed.
. increase available 'ROM' size to 128kB minus
1kB secure + 18kB reserved (numbers from uboot wiki).
. no unaligned access - needed to access fields in
on-disk structs without gcc generating unaligned
access instructions (causes data abort exceptions)
. turn on shellvars for BBB as they are needed to
connect FATFS to the SD i/o functions
---
main/common/dosfs.c | 1326 ++++++++++++++++++++++++++++++++++++++++
main/common/dosfs.h | 393 ++++++++++++
main/common/fatfs.c | 696 +++++++++++++++++++++
ports/beagleboneblack/Makefile | 6 +-
ports/beagleboneblack/config.h | 3 +-
5 files changed, 2420 insertions(+), 4 deletions(-)
diff --git a/main/common/dosfs.c b/main/common/dosfs.c
new file mode 100644
index 0000000..e49fb73
--- /dev/null
+++ b/main/common/dosfs.c
@@ -0,0 +1,1326 @@
+/*
+ DOSFS Embedded FAT-Compatible Filesystem
+ (C) 2005 Lewin A.R.W. Edwards (sysadm at zws.com)
+
+ You are permitted to modify and/or use this code in your own projects without
+ payment of royalty, regardless of the license(s) you choose for those projects.
+
+ You cannot re-copyright or restrict use of the code as released by Lewin Edwards.
+
+ Modifications: Aug 2006 (esutter/ghenderson)
+ Initial integration into uMon source tree.
+ Eliminated a few precedence warnings by adding parenthesis.
+ Eliminated one "variable unused" warning.
+ Modifications: Sept 2006 (ghenderson)
+ Added DFS_DirToCanonical.
+ All structures in dosfs.h have been defined with the
+ __attribute__ ((__packed__)).
+ Added macros in dosfs.h to help in formating time,
+ date, and filesize.
+ Modifications: Sept 25, 2006 (esutter)
+ Updated to dosfs-1.02 (dated Sept 16, 2006).
+ Modifications: Oct 2, 2006 (esutter)
+ Updated to dosfs-1.03 (dated Sept 30, 2006).
+ Incorporate fix from Graham Henderson (see USE_GMHFIX)
+*/
+#include "config.h"
+
+#if INCLUDE_FATFS
+#include "genlib.h"
+#include "dosfs.h"
+
+#define memcpy(a,b,c) memcpy((char *)a, (char *)b,(int)c)
+#define memset(a,b,c) memset((char *)a, (char)b,(int)c)
+#define memcmp(a,b,c) memcmp((char *)a, (char *)b,(int)c)
+
+/*
+ Get starting sector# of specified partition on drive #unit
+ NOTE: This code ASSUMES an MBR on the disk.
+ scratchsector should point to a SECTOR_SIZE scratch area
+ Returns 0xffffffff for any error.
+ If pactive is non-NULL, this function also returns the partition active flag.
+ If pptype is non-NULL, this function also returns the partition type.
+ If psize is non-NULL, this function also returns the partition size.
+*/
+uint32_t DFS_GetPtnStart(uint8_t unit, uint8_t *scratchsector, uint8_t pnum, uint8_t *pactive, uint8_t *pptype, uint32_t *psize)
+{
+ uint32_t result;
+ PMBR mbr = (PMBR) scratchsector;
+
+ // DOS ptable supports maximum 4 partitions
+ if (pnum > 3)
+ return DFS_ERRMISC;
+
+ // Read MBR from target media
+ if (DFS_ReadSector(unit,scratchsector,0,1)) {
+ return DFS_ERRMISC;
+ }
+
+ result = (uint32_t) mbr->ptable[pnum].start_0 |
+ (((uint32_t) mbr->ptable[pnum].start_1) << 8) |
+ (((uint32_t) mbr->ptable[pnum].start_2) << 16) |
+ (((uint32_t) mbr->ptable[pnum].start_3) << 24);
+
+ if (pactive)
+ *pactive = mbr->ptable[pnum].active;
+
+ if (pptype)
+ *pptype = mbr->ptable[pnum].type;
+
+ if (psize)
+ *psize = (uint32_t) mbr->ptable[pnum].size_0 |
+ (((uint32_t) mbr->ptable[pnum].size_1) << 8) |
+ (((uint32_t) mbr->ptable[pnum].size_2) << 16) |
+ (((uint32_t) mbr->ptable[pnum].size_3) << 24);
+
+ return result;
+}
+
+
+/*
+ Retrieve volume info from BPB and store it in a VOLINFO structure
+ You must provide the unit and starting sector of the filesystem, and
+ a pointer to a sector buffer for scratch
+ Attempts to read BPB and glean information about the FS from that.
+ Returns 0 OK, nonzero for any error.
+*/
+uint32_t DFS_GetVolInfo(uint8_t unit, uint8_t *scratchsector, uint32_t startsector, PVOLINFO volinfo)
+{
+ PLBR lbr = (PLBR) scratchsector;
+ volinfo->unit = unit;
+ volinfo->startsector = startsector;
+
+ if(DFS_ReadSector(unit,scratchsector,startsector,1))
+ return DFS_ERRMISC;
+
+// tag: OEMID, refer dosfs.h
+// strncpy(volinfo->oemid, lbr->oemid, 8);
+// volinfo->oemid[8] = 0;
+
+ volinfo->secperclus = lbr->bpb.secperclus;
+ volinfo->reservedsecs = (uint16_t) lbr->bpb.reserved_l |
+ (((uint16_t) lbr->bpb.reserved_h) << 8);
+
+ volinfo->numsecs = (uint16_t) lbr->bpb.sectors_s_l |
+ (((uint16_t) lbr->bpb.sectors_s_h) << 8);
+
+ if (!volinfo->numsecs)
+ volinfo->numsecs = (uint32_t) lbr->bpb.sectors_l_0 |
+ (((uint32_t) lbr->bpb.sectors_l_1) << 8) |
+ (((uint32_t) lbr->bpb.sectors_l_2) << 16) |
+ (((uint32_t) lbr->bpb.sectors_l_3) << 24);
+
+ // If secperfat is 0, we must be in a FAT32 volume; get secperfat
+ // from the FAT32 EBPB. The volume label and system ID string are also
+ // in different locations for FAT12/16 vs FAT32.
+ volinfo->secperfat = (uint16_t) lbr->bpb.secperfat_l |
+ (((uint16_t) lbr->bpb.secperfat_h) << 8);
+ if (!volinfo->secperfat) {
+ volinfo->secperfat = (uint32_t) lbr->ebpb.ebpb32.fatsize_0 |
+ (((uint32_t) lbr->ebpb.ebpb32.fatsize_1) << 8) |
+ (((uint32_t) lbr->ebpb.ebpb32.fatsize_2) << 16) |
+ (((uint32_t) lbr->ebpb.ebpb32.fatsize_3) << 24);
+
+ memcpy(volinfo->label, lbr->ebpb.ebpb32.label, 11);
+ volinfo->label[11] = 0;
+
+// tag: OEMID, refer dosfs.h
+// memcpy(volinfo->system, lbr->ebpb.ebpb32.system, 8);
+// volinfo->system[8] = 0;
+ }
+ else {
+ memcpy(volinfo->label, lbr->ebpb.ebpb.label, 11);
+ volinfo->label[11] = 0;
+
+// tag: OEMID, refer dosfs.h
+// memcpy(volinfo->system, lbr->ebpb.ebpb.system, 8);
+// volinfo->system[8] = 0;
+ }
+
+ // note: if rootentries is 0, we must be in a FAT32 volume.
+ volinfo->rootentries = (uint16_t) lbr->bpb.rootentries_l |
+ (((uint16_t) lbr->bpb.rootentries_h) << 8);
+
+ // after extracting raw info we perform some useful precalculations
+ volinfo->fat1 = startsector + volinfo->reservedsecs;
+
+ // The calculation below is designed to round up the root directory size for FAT12/16
+ // and to simply ignore the root directory for FAT32, since it's a normal, expandable
+ // file in that situation.
+ if (volinfo->rootentries) {
+ volinfo->rootdir = volinfo->fat1 + (volinfo->secperfat * 2);
+ volinfo->dataarea = volinfo->rootdir + (((volinfo->rootentries * 32) + (SECTOR_SIZE - 1)) / SECTOR_SIZE);
+ }
+ else {
+ volinfo->dataarea = volinfo->fat1 + (volinfo->secperfat * 2);
+ volinfo->rootdir = (uint32_t) lbr->ebpb.ebpb32.root_0 |
+ (((uint32_t) lbr->ebpb.ebpb32.root_1) << 8) |
+ (((uint32_t) lbr->ebpb.ebpb32.root_2) << 16) |
+ (((uint32_t) lbr->ebpb.ebpb32.root_3) << 24);
+ }
+
+ // Calculate number of clusters in data area and infer FAT type from this information.
+ volinfo->numclusters = (volinfo->numsecs - volinfo->dataarea) / volinfo->secperclus;
+ if (volinfo->numclusters < 4085)
+ volinfo->filesystem = FAT12;
+ else if (volinfo->numclusters < 65525)
+ volinfo->filesystem = FAT16;
+ else
+ volinfo->filesystem = FAT32;
+
+ return DFS_OK;
+}
+
+/*
+ Fetch FAT entry for specified cluster number
+ You must provide a scratch buffer for one sector (SECTOR_SIZE) and a populated VOLINFO
+ Returns a FAT32 BAD_CLUSTER value for any error, otherwise the contents of the desired
+ FAT entry.
+ scratchcache should point to a UINT32. This variable caches the physical sector number
+ last read into the scratch buffer for performance enhancement reasons.
+*/
+uint32_t DFS_GetFAT(PVOLINFO volinfo, uint8_t *scratch, uint32_t *scratchcache, uint32_t cluster)
+{
+ uint32_t offset, sector, result;
+
+ if (volinfo->filesystem == FAT12) {
+ offset = cluster + (cluster / 2);
+ }
+ else if (volinfo->filesystem == FAT16) {
+ offset = cluster * 2;
+ }
+ else if (volinfo->filesystem == FAT32) {
+ offset = cluster * 4;
+ }
+ else
+ return 0x0ffffff7; // FAT32 bad cluster
+
+ // at this point, offset is the BYTE offset of the desired sector from the start
+ // of the FAT. Calculate the physical sector containing this FAT entry.
+ sector = ldiv(offset, SECTOR_SIZE).quot + volinfo->fat1;
+
+ // If this is not the same sector we last read, then read it into RAM
+ if (sector != *scratchcache) {
+ if(DFS_ReadSector(volinfo->unit, scratch, sector, 1)) {
+ // avoid anyone assuming that this cache value is still valid, which
+ // might cause disk corruption
+ *scratchcache = 0;
+ return 0x0ffffff7; // FAT32 bad cluster
+ }
+ *scratchcache = sector;
+ }
+
+ // At this point, we "merely" need to extract the relevant entry.
+ // This is easy for FAT16 and FAT32, but a royal PITA for FAT12 as a single entry
+ // may span a sector boundary. The normal way around this is always to read two
+ // FAT sectors, but that luxury is (by design intent) unavailable to DOSFS.
+ offset = ldiv(offset, SECTOR_SIZE).rem;
+
+ if (volinfo->filesystem == FAT12) {
+ // Special case for sector boundary - Store last byte of current sector.
+ // Then read in the next sector and put the first byte of that sector into
+ // the high byte of result.
+ if (offset == SECTOR_SIZE - 1) {
+ result = (uint32_t) scratch[offset];
+ sector++;
+ if(DFS_ReadSector(volinfo->unit, scratch, sector, 1)) {
+ // avoid anyone assuming that this cache value is still valid, which
+ // might cause disk corruption
+ *scratchcache = 0;
+ return 0x0ffffff7; // FAT32 bad cluster
+ }
+ *scratchcache = sector;
+ // Thanks to Claudio Leonel for pointing out this missing line.
+ result |= ((uint32_t) scratch[0]) << 8;
+ }
+ else {
+ result = (uint32_t) scratch[offset] |
+ ((uint32_t) scratch[offset+1]) << 8;
+ }
+ if (cluster & 1)
+ result = result >> 4;
+ else
+ result = result & 0xfff;
+ }
+ else if (volinfo->filesystem == FAT16) {
+ result = (uint32_t) scratch[offset] |
+ ((uint32_t) scratch[offset+1]) << 8;
+ }
+ else if (volinfo->filesystem == FAT32) {
+ result = ((uint32_t) scratch[offset] |
+ ((uint32_t) scratch[offset+1]) << 8 |
+ ((uint32_t) scratch[offset+2]) << 16 |
+ ((uint32_t) scratch[offset+3]) << 24) & 0x0fffffff;
+ }
+ else
+ result = 0x0ffffff7; // FAT32 bad cluster
+ return result;
+}
+
+
+/*
+ Set FAT entry for specified cluster number
+ You must provide a scratch buffer for one sector (SECTOR_SIZE) and a populated VOLINFO
+ Returns DFS_ERRMISC for any error, otherwise DFS_OK
+ scratchcache should point to a UINT32. This variable caches the physical sector number
+ last read into the scratch buffer for performance enhancement reasons.
+
+ NOTE: This code is HIGHLY WRITE-INEFFICIENT, particularly for flash media. Considerable
+ performance gains can be realized by caching the sector. However this is difficult to
+ achieve on FAT12 without requiring 2 sector buffers of scratch space, and it is a design
+ requirement of this code to operate on a single 512-byte scratch.
+
+ If you are operating DOSFS over flash, you are strongly advised to implement a writeback
+ cache in your physical I/O driver. This will speed up your code significantly and will
+ also conserve power and flash write life.
+*/
+uint32_t DFS_SetFAT(PVOLINFO volinfo, uint8_t *scratch, uint32_t *scratchcache, uint32_t cluster, uint32_t new_contents)
+{
+ uint32_t offset, sector, result;
+ if (volinfo->filesystem == FAT12) {
+ offset = cluster + (cluster / 2);
+ new_contents &=0xfff;
+ }
+ else if (volinfo->filesystem == FAT16) {
+ offset = cluster * 2;
+ new_contents &=0xffff;
+ }
+ else if (volinfo->filesystem == FAT32) {
+ offset = cluster * 4;
+ new_contents &=0x0fffffff; // FAT32 is really "FAT28"
+ }
+ else
+ return DFS_ERRMISC;
+
+ // at this point, offset is the BYTE offset of the desired sector from the start
+ // of the FAT. Calculate the physical sector containing this FAT entry.
+ sector = ldiv(offset, SECTOR_SIZE).quot + volinfo->fat1;
+
+ // If this is not the same sector we last read, then read it into RAM
+ if (sector != *scratchcache) {
+ if(DFS_ReadSector(volinfo->unit, scratch, sector, 1)) {
+ // avoid anyone assuming that this cache value is still valid, which
+ // might cause disk corruption
+ *scratchcache = 0;
+ return DFS_ERRMISC;
+ }
+ *scratchcache = sector;
+ }
+
+ // At this point, we "merely" need to extract the relevant entry.
+ // This is easy for FAT16 and FAT32, but a royal PITA for FAT12 as a single entry
+ // may span a sector boundary. The normal way around this is always to read two
+ // FAT sectors, but that luxury is (by design intent) unavailable to DOSFS.
+ offset = ldiv(offset, SECTOR_SIZE).rem;
+
+ if (volinfo->filesystem == FAT12) {
+
+ // If this is an odd cluster, pre-shift the desired new contents 4 bits to
+ // make the calculations below simpler
+ if (cluster & 1)
+ new_contents = new_contents << 4;
+
+ // Special case for sector boundary
+ if (offset == SECTOR_SIZE - 1) {
+
+ // Odd cluster: High 12 bits being set
+ if (cluster & 1) {
+ scratch[offset] = (scratch[offset] & 0x0f) | (new_contents & 0xf0);
+ }
+ // Even cluster: Low 12 bits being set
+ else {
+ scratch[offset] = new_contents & 0xff;
+ }
+ result = DFS_WriteSector(volinfo->unit, scratch, *scratchcache, 1);
+ // mirror the FAT into copy 2
+ if (DFS_OK == result)
+ result = DFS_WriteSector(volinfo->unit, scratch, (*scratchcache)+volinfo->secperfat, 1);
+
+ // If we wrote that sector OK, then read in the subsequent sector
+ // and poke the first byte with the remainder of this FAT entry.
+ if (DFS_OK == result) {
+#if 0
+ /* ELSNOTE:
+ * Original line here is illegal (IMHO). Didn't notice this
+ * till I used a version of GCC that warned me about it.
+ * I changed this to eliminate the warning, and *hopefully*
+ * generate the correct code. Have not been able to test this.
+ */
+ *scratchcache++;
+#else
+ (*scratchcache)++;
+#endif
+ result = DFS_ReadSector(volinfo->unit, scratch, *scratchcache, 1);
+ if (DFS_OK == result) {
+ // Odd cluster: High 12 bits being set
+ if (cluster & 1) {
+ scratch[0] = new_contents & 0xff00;
+ }
+ // Even cluster: Low 12 bits being set
+ else {
+ scratch[0] = (scratch[0] & 0xf0) | (new_contents & 0x0f);
+ }
+ result = DFS_WriteSector(volinfo->unit, scratch, *scratchcache, 1);
+ // mirror the FAT into copy 2
+ if (DFS_OK == result)
+ result = DFS_WriteSector(volinfo->unit, scratch, (*scratchcache)+volinfo->secperfat, 1);
+ }
+ else {
+ // avoid anyone assuming that this cache value is still valid, which
+ // might cause disk corruption
+ *scratchcache = 0;
+ }
+ }
+ } // if (offset == SECTOR_SIZE - 1)
+
+ // Not a sector boundary. But we still have to worry about if it's an odd
+ // or even cluster number.
+ else {
+ // Odd cluster: High 12 bits being set
+ if (cluster & 1) {
+ scratch[offset] = (scratch[offset] & 0x0f) | (new_contents & 0xf0);
+ scratch[offset+1] = new_contents & 0xff00;
+ }
+ // Even cluster: Low 12 bits being set
+ else {
+ scratch[offset] = new_contents & 0xff;
+ scratch[offset+1] = (scratch[offset+1] & 0xf0) | (new_contents & 0x0f);
+ }
+ result = DFS_WriteSector(volinfo->unit, scratch, *scratchcache, 1);
+ // mirror the FAT into copy 2
+ if (DFS_OK == result)
+ result = DFS_WriteSector(volinfo->unit, scratch, (*scratchcache)+volinfo->secperfat, 1);
+ }
+ }
+ else if (volinfo->filesystem == FAT16) {
+ scratch[offset] = (new_contents & 0xff);
+ scratch[offset+1] = (new_contents & 0xff00) >> 8;
+ result = DFS_WriteSector(volinfo->unit, scratch, *scratchcache, 1);
+ // mirror the FAT into copy 2
+ if (DFS_OK == result)
+ result = DFS_WriteSector(volinfo->unit, scratch, (*scratchcache)+volinfo->secperfat, 1);
+ }
+ else if (volinfo->filesystem == FAT32) {
+ scratch[offset] = (new_contents & 0xff);
+ scratch[offset+1] = (new_contents & 0xff00) >> 8;
+ scratch[offset+2] = (new_contents & 0xff0000) >> 16;
+ scratch[offset+3] = (scratch[offset+3] & 0xf0) | ((new_contents & 0x0f000000) >> 24);
+ // Note well from the above: Per Microsoft's guidelines we preserve the upper
+ // 4 bits of the FAT32 cluster value. It's unclear what these bits will be used
+ // for; in every example I've encountered they are always zero.
+ result = DFS_WriteSector(volinfo->unit, scratch, *scratchcache, 1);
+ // mirror the FAT into copy 2
+ if (DFS_OK == result)
+ result = DFS_WriteSector(volinfo->unit, scratch, (*scratchcache)+volinfo->secperfat, 1);
+ }
+ else
+ result = DFS_ERRMISC;
+
+ return result;
+}
+
+/*
+ Convert a filename element from canonical (8.3) to directory entry (11) form
+ src must point to the first non-separator character.
+ dest must point to a 12-byte buffer.
+*/
+uint8_t *DFS_CanonicalToDir(uint8_t *dest, uint8_t *src)
+{
+ uint8_t *destptr = dest;
+
+ memset(dest, ' ', 11);
+ dest[11] = 0;
+
+ while (*src && (*src != DIR_SEPARATOR) && (destptr - dest < 11)) {
+ if (*src >= 'a' && *src <='z') {
+ *destptr++ = (*src - 'a') + 'A';
+ src++;
+ }
+ else if (*src == '.') {
+ src++;
+ destptr = dest + 8;
+ }
+ else {
+ *destptr++ = *src++;
+ }
+ }
+
+ return dest;
+}
+
+/*
+ Find the first unused FAT entry
+ You must provide a scratch buffer for one sector (SECTOR_SIZE) and a populated VOLINFO
+ Returns a FAT32 BAD_CLUSTER value for any error, otherwise the contents of the desired
+ FAT entry.
+ Returns FAT32 bad_sector (0x0ffffff7) if there is no free cluster available
+*/
+uint32_t DFS_GetFreeFAT(PVOLINFO volinfo, uint8_t *scratch)
+{
+ uint32_t i, result = 0xffffffff, scratchcache = 0;
+
+ // Search starts at cluster 2, which is the first usable cluster
+ // NOTE: This search can't terminate at a bad cluster, because there might
+ // legitimately be bad clusters on the disk.
+ for (i=2; i < volinfo->numclusters; i++) {
+ result = DFS_GetFAT(volinfo, scratch, &scratchcache, i);
+ if (!result) {
+ return i;
+ }
+ }
+ return 0x0ffffff7; // Can't find a free cluster
+}
+
+
+/*
+ Open a directory for enumeration by DFS_GetNextDirEnt
+ You must supply a populated VOLINFO (see DFS_GetVolInfo)
+ The empty string or a string containing only the directory separator are
+ considered to be the root directory.
+ Returns 0 OK, nonzero for any error.
+*/
+uint32_t DFS_OpenDir(PVOLINFO volinfo, uint8_t *dirname, PDIRINFO dirinfo)
+{
+ // Default behavior is a regular search for existing entries
+ dirinfo->flags = 0;
+
+ if (!strlen((char *) dirname) || (strlen((char *) dirname) == 1 && dirname[0] == DIR_SEPARATOR)) {
+ if (volinfo->filesystem == FAT32) {
+ dirinfo->currentcluster = volinfo->rootdir;
+ dirinfo->currentsector = 0;
+ dirinfo->currententry = 0;
+
+ // read first sector of directory
+ return DFS_ReadSector(volinfo->unit, dirinfo->scratch, volinfo->dataarea + ((volinfo->rootdir - 2) * volinfo->secperclus), 1);
+ }
+ else {
+ dirinfo->currentcluster = 0;
+ dirinfo->currentsector = 0;
+ dirinfo->currententry = 0;
+
+ // read first sector of directory
+ return DFS_ReadSector(volinfo->unit, dirinfo->scratch, volinfo->rootdir, 1);
+ }
+ }
+
+ // This is not the root directory. We need to find the start of this subdirectory.
+ // We do this by devious means, using our own companion function DFS_GetNext.
+ else {
+ uint8_t tmpfn[12];
+ uint8_t *ptr = dirname;
+ uint32_t result;
+ DIRENT de;
+
+ if (volinfo->filesystem == FAT32) {
+ dirinfo->currentcluster = volinfo->rootdir;
+ dirinfo->currentsector = 0;
+ dirinfo->currententry = 0;
+
+ // read first sector of directory
+ if (DFS_ReadSector(volinfo->unit, dirinfo->scratch, volinfo->dataarea + ((volinfo->rootdir - 2) * volinfo->secperclus), 1))
+ return DFS_ERRMISC;
+ }
+ else {
+ dirinfo->currentcluster = 0;
+ dirinfo->currentsector = 0;
+ dirinfo->currententry = 0;
+
+ // read first sector of directory
+ if (DFS_ReadSector(volinfo->unit, dirinfo->scratch, volinfo->rootdir, 1))
+ return DFS_ERRMISC;
+ }
+
+ // skip leading path separators
+ while (*ptr == DIR_SEPARATOR && *ptr)
+ ptr++;
+
+ // Scan the path from left to right, finding the start cluster of each entry
+ // Observe that this code is inelegant, but obviates the need for recursion.
+ while (*ptr) {
+ DFS_CanonicalToDir(tmpfn, ptr);
+
+ de.name[0] = 0;
+
+ do {
+ result = DFS_GetNext(volinfo, dirinfo, &de);
+ } while (!result && memcmp(de.name, tmpfn, 11));
+
+ if (!memcmp(de.name, tmpfn, 11) && ((de.attr & ATTR_DIRECTORY) == ATTR_DIRECTORY)) {
+ if (volinfo->filesystem == FAT32) {
+ dirinfo->currentcluster = (uint32_t) de.startclus_l_l |
+ ((uint32_t) de.startclus_l_h) << 8 |
+ ((uint32_t) de.startclus_h_l) << 16 |
+ ((uint32_t) de.startclus_h_h) << 24;
+ }
+ else {
+ dirinfo->currentcluster = (uint32_t) de.startclus_l_l |
+ ((uint32_t) de.startclus_l_h) << 8;
+ }
+ dirinfo->currentsector = 0;
+ dirinfo->currententry = 0;
+
+ if (DFS_ReadSector(volinfo->unit, dirinfo->scratch, volinfo->dataarea + ((dirinfo->currentcluster - 2) * volinfo->secperclus), 1))
+ return DFS_ERRMISC;
+ }
+ else if (!memcmp(de.name, tmpfn, 11) && !(de.attr & ATTR_DIRECTORY))
+ return DFS_NOTFOUND;
+
+ // seek to next item in list
+ while (*ptr != DIR_SEPARATOR && *ptr)
+ ptr++;
+ if (*ptr == DIR_SEPARATOR)
+ ptr++;
+ }
+
+ if (!dirinfo->currentcluster)
+ return DFS_NOTFOUND;
+ }
+ return DFS_OK;
+}
+
+/*
+ Get next entry in opened directory structure. Copies fields into the dirent
+ structure, updates dirinfo. Note that it is the _caller's_ responsibility to
+ handle the '.' and '..' entries.
+ A deleted file will be returned as a NULL entry (first char of filename=0)
+ by this code. Filenames beginning with 0x05 will be translated to 0xE5
+ automatically. Long file name entries will be returned as NULL.
+ returns DFS_EOF if there are no more entries, DFS_OK if this entry is valid,
+ or DFS_ERRMISC for a media error
+*/
+uint32_t DFS_GetNext(PVOLINFO volinfo, PDIRINFO dirinfo, PDIRENT dirent)
+{
+ uint32_t tempint; // required by DFS_GetFAT
+
+ // Do we need to read the next sector of the directory?
+ if (dirinfo->currententry >= SECTOR_SIZE / sizeof(DIRENT)) {
+ dirinfo->currententry = 0;
+ dirinfo->currentsector++;
+
+ // Root directory; special case handling
+ // Note that currentcluster will only ever be zero if both:
+ // (a) this is the root directory, and
+ // (b) we are on a FAT12/16 volume, where the root dir can't be expanded
+ if (dirinfo->currentcluster == 0) {
+ // Trying to read past end of root directory?
+ if (dirinfo->currentsector * (SECTOR_SIZE / sizeof(DIRENT)) >= volinfo->rootentries)
+ return DFS_EOF;
+
+ // Otherwise try to read the next sector
+ if (DFS_ReadSector(volinfo->unit, dirinfo->scratch, volinfo->rootdir + dirinfo->currentsector, 1))
+ return DFS_ERRMISC;
+ }
+
+ // Normal handling
+ else {
+ if (dirinfo->currentsector >= volinfo->secperclus) {
+ dirinfo->currentsector = 0;
+ if ((dirinfo->currentcluster >= 0xff7 && volinfo->filesystem == FAT12) ||
+ (dirinfo->currentcluster >= 0xfff7 && volinfo->filesystem == FAT16) ||
+ (dirinfo->currentcluster >= 0x0ffffff7 && volinfo->filesystem == FAT32)) {
+
+ // We are at the end of the directory chain. If this is a normal
+ // find operation, we should indicate that there is nothing more
+ // to see.
+ if (!(dirinfo->flags & DFS_DI_BLANKENT))
+ return DFS_EOF;
+
+ // On the other hand, if this is a "find free entry" search,
+ // we need to tell the caller to allocate a new cluster
+ else
+ return DFS_ALLOCNEW;
+ }
+ dirinfo->currentcluster = DFS_GetFAT(volinfo, dirinfo->scratch, &tempint, dirinfo->currentcluster);
+ }
+ if (DFS_ReadSector(volinfo->unit, dirinfo->scratch, volinfo->dataarea + ((dirinfo->currentcluster - 2) * volinfo->secperclus) + dirinfo->currentsector, 1))
+ return DFS_ERRMISC;
+ }
+ }
+
+ memcpy(dirent, &(((PDIRENT) dirinfo->scratch)[dirinfo->currententry]), sizeof(DIRENT));
+
+ if (dirent->name[0] == 0) { // no more files in this directory
+ // If this is a "find blank" then we can reuse this name.
+ if (dirinfo->flags & DFS_DI_BLANKENT)
+ return DFS_OK;
+ else
+ return DFS_EOF;
+ }
+
+ if (dirent->name[0] == 0xe5) // handle deleted file entries
+ dirent->name[0] = 0;
+ else if ((dirent->attr & ATTR_LONG_NAME) == ATTR_LONG_NAME)
+ dirent->name[0] = 0;
+ else if (dirent->name[0] == 0x05) // handle kanji filenames beginning with 0xE5
+ dirent->name[0] = 0xe5;
+
+ dirinfo->currententry++;
+
+ return DFS_OK;
+}
+
+/*
+ INTERNAL
+ Find a free directory entry in the directory specified by path
+ This function MAY cause a disk write if it is necessary to extend the directory
+ size.
+ Note - di.scratch must be preinitialized to point to a sector scratch buffer
+ de is a scratch structure
+ Returns DFS_ERRMISC if a new entry could not be located or created
+ de is updated with the same return information you would expect from DFS_GetNext
+*/
+uint32_t DFS_GetFreeDirEnt(PVOLINFO volinfo, uint8_t *path, PDIRINFO di, PDIRENT de)
+{
+ uint32_t tempclus,i;
+
+ if (DFS_OpenDir(volinfo, path, di))
+ return DFS_NOTFOUND;
+
+ // Set "search for empty" flag so DFS_GetNext knows what we're doing
+ di->flags |= DFS_DI_BLANKENT;
+
+ // We seek through the directory looking for an empty entry
+ // Note we are reusing tempclus as a temporary result holder.
+ tempclus = 0;
+ do {
+ tempclus = DFS_GetNext(volinfo, di, de);
+
+ // Empty entry found
+ if (tempclus == DFS_OK && (!de->name[0])) {
+ return DFS_OK;
+ }
+
+ // End of root directory reached
+ else if (tempclus == DFS_EOF)
+ return DFS_ERRMISC;
+
+ else if (tempclus == DFS_ALLOCNEW) {
+ tempclus = DFS_GetFreeFAT(volinfo, di->scratch);
+ if (tempclus == 0x0ffffff7)
+ return DFS_ERRMISC;
+
+ // write out zeroed sectors to the new cluster
+ memset(di->scratch, 0, SECTOR_SIZE);
+ for (i=0;i<volinfo->secperclus;i++) {
+ if (DFS_WriteSector(volinfo->unit, di->scratch, volinfo->dataarea + ((tempclus - 2) * volinfo->secperclus) + i, 1))
+ return DFS_ERRMISC;
+ }
+ // Point old end cluster to newly allocated cluster
+ i = 0;
+ DFS_SetFAT(volinfo, di->scratch, &i, di->currentcluster, tempclus);
+
+ // Update DIRINFO so caller knows where to place the new file
+ di->currentcluster = tempclus;
+ di->currentsector = 0;
+ di->currententry = 1; // since the code coming after this expects to subtract 1
+
+ // Mark newly allocated cluster as end of chain
+ switch(volinfo->filesystem) {
+ case FAT12: tempclus = 0xff8; break;
+ case FAT16: tempclus = 0xfff8; break;
+ case FAT32: tempclus = 0x0ffffff8; break;
+ default: return DFS_ERRMISC;
+ }
+ DFS_SetFAT(volinfo, di->scratch, &i, di->currentcluster, tempclus);
+ }
+ } while (!tempclus);
+
+ // We shouldn't get here
+ return DFS_ERRMISC;
+}
+
+/*
+ Open a file for reading or writing. You supply populated VOLINFO, a path to the file,
+ mode (DFS_READ or DFS_WRITE) and an empty fileinfo structure. You also need to
+ provide a pointer to a sector-sized scratch buffer.
+ Returns various DFS_* error states. If the result is DFS_OK, fileinfo can be used
+ to access the file from this point on.
+*/
+uint32_t DFS_OpenFile(PVOLINFO volinfo, uint8_t *path, uint8_t mode, uint8_t *scratch, PFILEINFO fileinfo)
+{
+ uint8_t tmppath[MAX_PATH];
+ uint8_t filename[12];
+ uint8_t *p;
+ DIRINFO di;
+ DIRENT de;
+
+ // larwe 2006-09-16 +1 zero out file structure
+ memset(fileinfo, 0, sizeof(FILEINFO));
+
+ // save access mode
+ fileinfo->mode = mode;
+
+ // Get a local copy of the path. If it's longer than MAX_PATH, abort.
+ strncpy((char *) tmppath, (char *) path, MAX_PATH);
+ tmppath[MAX_PATH - 1] = 0;
+ if (strcmp((char *) path,(char *) tmppath)) {
+ return DFS_PATHLEN;
+ }
+
+ // strip leading path separators
+ while (tmppath[0] == DIR_SEPARATOR)
+ strcpy((char *) tmppath, (char *) tmppath + 1);
+
+ // Parse filename off the end of the supplied path
+ p = tmppath;
+ while (*(p++));
+
+ p--;
+ while (p > tmppath && *p != DIR_SEPARATOR) // larwe 9/16/06 ">=" to ">" bugfix
+ p--;
+ if (*p == DIR_SEPARATOR)
+ p++;
+
+ DFS_CanonicalToDir(filename, p);
+
+ if (p > tmppath)
+ p--;
+ if (*p == DIR_SEPARATOR || p == tmppath) // larwe 9/16/06 +"|| p == tmppath" bugfix
+ *p = 0;
+
+ // At this point, if our path was MYDIR/MYDIR2/FILE.EXT, filename = "FILE EXT" and
+ // tmppath = "MYDIR/MYDIR2".
+ di.scratch = scratch;
+ if (DFS_OpenDir(volinfo, tmppath, &di))
+ return DFS_NOTFOUND;
+
+ while (!DFS_GetNext(volinfo, &di, &de)) {
+ if (!memcmp(de.name, filename, 11)) {
+ // You can't use this function call to open a directory.
+ if (de.attr & ATTR_DIRECTORY)
+ return DFS_NOTFOUND;
+
+ fileinfo->volinfo = volinfo;
+ fileinfo->pointer = 0;
+ // The reason we store this extra info about the file is so that we can
+ // speedily update the file size, modification date, etc. on a file that is
+ // opened for writing.
+ if (di.currentcluster == 0)
+ fileinfo->dirsector = volinfo->rootdir + di.currentsector;
+ else
+ fileinfo->dirsector = volinfo->dataarea + ((di.currentcluster - 2) * volinfo->secperclus) + di.currentsector;
+ fileinfo->diroffset = di.currententry - 1;
+ if (volinfo->filesystem == FAT32) {
+ fileinfo->cluster = (uint32_t) de.startclus_l_l |
+ ((uint32_t) de.startclus_l_h) << 8 |
+ ((uint32_t) de.startclus_h_l) << 16 |
+ ((uint32_t) de.startclus_h_h) << 24;
+ }
+ else {
+ fileinfo->cluster = (uint32_t) de.startclus_l_l |
+ ((uint32_t) de.startclus_l_h) << 8;
+ }
+ fileinfo->firstcluster = fileinfo->cluster;
+ fileinfo->filelen = (uint32_t) de.filesize_0 |
+ ((uint32_t) de.filesize_1) << 8 |
+ ((uint32_t) de.filesize_2) << 16 |
+ ((uint32_t) de.filesize_3) << 24;
+
+ return DFS_OK;
+ }
+ }
+
+ // At this point, we KNOW the file does not exist. If the file was opened
+ // with write access, we can create it.
+ if (mode & DFS_WRITE) {
+ uint32_t cluster, temp;
+
+ // Locate or create a directory entry for this file
+ if (DFS_OK != DFS_GetFreeDirEnt(volinfo, tmppath, &di, &de))
+ return DFS_ERRMISC;
+
+ // put sane values in the directory entry
+ memset(&de, 0, sizeof(de));
+ memcpy(de.name, filename, 11);
+ de.crttime_l = 0x20; // 01:01:00am, Jan 1, 2006.
+ de.crttime_h = 0x08;
+ de.crtdate_l = 0x11;
+ de.crtdate_h = 0x34;
+ de.lstaccdate_l = 0x11;
+ de.lstaccdate_h = 0x34;
+ de.wrttime_l = 0x20;
+ de.wrttime_h = 0x08;
+ de.wrtdate_l = 0x11;
+ de.wrtdate_h = 0x34;
+
+ // allocate a starting cluster for the directory entry
+ cluster = DFS_GetFreeFAT(volinfo, scratch);
+
+ de.startclus_l_l = cluster & 0xff;
+ de.startclus_l_h = (cluster & 0xff00) >> 8;
+ de.startclus_h_l = (cluster & 0xff0000) >> 16;
+ de.startclus_h_h = (cluster & 0xff000000) >> 24;
+
+ // update FILEINFO for our caller's sake
+ fileinfo->volinfo = volinfo;
+ fileinfo->pointer = 0;
+ // The reason we store this extra info about the file is so that we can
+ // speedily update the file size, modification date, etc. on a file that is
+ // opened for writing.
+ if (di.currentcluster == 0)
+ fileinfo->dirsector = volinfo->rootdir + di.currentsector;
+ else
+ fileinfo->dirsector = volinfo->dataarea + ((di.currentcluster - 2) * volinfo->secperclus) + di.currentsector;
+#ifdef USE_GMHFIX
+ fileinfo->diroffset = di.currententry;
+#else
+ fileinfo->diroffset = di.currententry - 1;
+#endif
+ fileinfo->cluster = cluster;
+ fileinfo->firstcluster = cluster;
+ fileinfo->filelen = 0;
+
+ // write the directory entry
+ // note that we no longer have the sector containing the directory entry,
+ // tragically, so we have to re-read it
+ if (DFS_ReadSector(volinfo->unit, scratch, fileinfo->dirsector, 1))
+ return DFS_ERRMISC;
+#ifdef USE_GMHFIX
+ memcpy(&(((PDIRENT) scratch)[di.currententry]), &de, sizeof(DIRENT));
+#else
+ memcpy(&(((PDIRENT) scratch)[di.currententry-1]), &de, sizeof(DIRENT));
+#endif
+ if (DFS_WriteSector(volinfo->unit, scratch, fileinfo->dirsector, 1))
+ return DFS_ERRMISC;
+
+ // Mark newly allocated cluster as end of chain
+ switch(volinfo->filesystem) {
+ case FAT12: cluster = 0xff8; break;
+ case FAT16: cluster = 0xfff8; break;
+ case FAT32: cluster = 0x0ffffff8; break;
+ default: return DFS_ERRMISC;
+ }
+ temp = 0;
+ DFS_SetFAT(volinfo, scratch, &temp, fileinfo->cluster, cluster);
+
+ return DFS_OK;
+ }
+
+ return DFS_NOTFOUND;
+}
+
+/*
+ Read an open file
+ You must supply a prepopulated FILEINFO as provided by DFS_OpenFile, and a
+ pointer to a SECTOR_SIZE scratch buffer.
+ Note that returning DFS_EOF is not an error condition. This function updates the
+ successcount field with the number of bytes actually read.
+*/
+uint32_t DFS_ReadFile(PFILEINFO fileinfo, uint8_t *scratch, uint8_t *buffer, uint32_t *successcount, uint32_t len)
+{
+ uint32_t remain;
+ uint32_t result = DFS_OK;
+ uint32_t sector;
+ uint32_t bytesread;
+
+ // Don't try to read past EOF
+ if (len > fileinfo->filelen - fileinfo->pointer)
+ len = fileinfo->filelen - fileinfo->pointer;
+
+ remain = len;
+ *successcount = 0;
+
+ while (remain && result == DFS_OK) {
+ // This is a bit complicated. The sector we want to read is addressed at a cluster
+ // granularity by the fileinfo->cluster member. The file pointer tells us how many
+ // extra sectors to add to that number.
+ sector = fileinfo->volinfo->dataarea +
+ ((fileinfo->cluster - 2) * fileinfo->volinfo->secperclus) +
+ div(div(fileinfo->pointer,fileinfo->volinfo->secperclus * SECTOR_SIZE).rem, SECTOR_SIZE).quot;
+
+ // Case 1 - File pointer is not on a sector boundary
+ if (div(fileinfo->pointer, SECTOR_SIZE).rem) {
+ uint16_t tempreadsize;
+
+ // We always have to go through scratch in this case
+ result = DFS_ReadSector(fileinfo->volinfo->unit, scratch, sector, 1);
+
+ // This is the number of bytes that we actually care about in the sector
+ // just read.
+ tempreadsize = SECTOR_SIZE - (div(fileinfo->pointer, SECTOR_SIZE).rem);
+
+ // Case 1A - We want the entire remainder of the sector. After this
+ // point, all passes through the read loop will be aligned on a sector
+ // boundary, which allows us to go through the optimal path 2A below.
+ if (remain >= tempreadsize) {
+ memcpy(buffer, scratch + (SECTOR_SIZE - tempreadsize), tempreadsize);
+ bytesread = tempreadsize;
+ buffer += tempreadsize;
+ fileinfo->pointer += tempreadsize;
+ remain -= tempreadsize;
+ }
+ // Case 1B - This read concludes the file read operation
+ else {
+ memcpy(buffer, scratch + (SECTOR_SIZE - tempreadsize), remain);
+
+ buffer += remain;
+ fileinfo->pointer += remain;
+ bytesread = remain;
+ remain = 0;
+ }
+ }
+ // Case 2 - File pointer is on sector boundary
+ else {
+ // Case 2A - We have at least one more full sector to read and don't have
+ // to go through the scratch buffer. You could insert optimizations here to
+ // read multiple sectors at a time, if you were thus inclined (note that
+ // the maximum multi-read you could perform is a single cluster, so it would
+ // be advantageous to have code similar to case 1A above that would round the
+ // pointer to a cluster boundary the first pass through, so all subsequent
+ // [large] read requests would be able to go a cluster at a time).
+ if (remain >= SECTOR_SIZE) {
+ result = DFS_ReadSector(fileinfo->volinfo->unit, buffer, sector, 1);
+ remain -= SECTOR_SIZE;
+ buffer += SECTOR_SIZE;
+ fileinfo->pointer += SECTOR_SIZE;
+ bytesread = SECTOR_SIZE;
+ }
+ // Case 2B - We are only reading a partial sector
+ else {
+ result = DFS_ReadSector(fileinfo->volinfo->unit, scratch, sector, 1);
+ memcpy(buffer, scratch, remain);
+ buffer += remain;
+ fileinfo->pointer += remain;
+ bytesread = remain;
+ remain = 0;
+ }
+ }
+
+ *successcount += bytesread;
+
+ // check to see if we stepped over a cluster boundary
+ if (div(fileinfo->pointer - bytesread, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot !=
+ div(fileinfo->pointer, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot) {
+ // An act of minor evil - we use bytesread as a scratch integer, knowing that
+ // its value is not used after updating *successcount above
+ bytesread = 0;
+ if (((fileinfo->volinfo->filesystem == FAT12) && (fileinfo->cluster >= 0xff8)) ||
+ ((fileinfo->volinfo->filesystem == FAT16) && (fileinfo->cluster >= 0xfff8)) ||
+ ((fileinfo->volinfo->filesystem == FAT32) && (fileinfo->cluster >= 0x0ffffff8)))
+ result = DFS_EOF;
+ else
+ fileinfo->cluster = DFS_GetFAT(fileinfo->volinfo, scratch, &bytesread, fileinfo->cluster);
+ }
+ }
+
+ return result;
+}
+
+/*
+ Seek file pointer to a given position
+ This function does not return status - refer to the fileinfo->pointer value
+ to see where the pointer wound up.
+ Requires a SECTOR_SIZE scratch buffer
+*/
+void DFS_Seek(PFILEINFO fileinfo, uint32_t offset, uint8_t *scratch)
+{
+ uint32_t tempint;
+
+ // larwe 9/16/06 bugfix split case 0a/0b and changed fallthrough handling
+ // Case 0a - Return immediately for degenerate case
+ if (offset == fileinfo->pointer) {
+ return;
+ }
+
+ // Case 0b - Don't allow the user to seek past the end of the file
+ if (offset > fileinfo->filelen) {
+ offset = fileinfo->filelen;
+ // NOTE NO RETURN HERE!
+ }
+
+ // Case 1 - Simple rewind to start
+ // Note _intentional_ fallthrough from Case 0b above
+ if (offset == 0) {
+ fileinfo->cluster = fileinfo->firstcluster;
+ fileinfo->pointer = 0;
+ return; // larwe 9/16/06 +1 bugfix
+ }
+ // Case 2 - Seeking backwards. Need to reset and seek forwards
+ else if (offset < fileinfo->pointer) {
+ fileinfo->cluster = fileinfo->firstcluster;
+ fileinfo->pointer = 0;
+ // NOTE NO RETURN HERE!
+ }
+
+ // Case 3 - Seeking forwards
+ // Note _intentional_ fallthrough from Case 2 above
+
+ // Case 3a - Seek size does not cross cluster boundary -
+ // very simple case
+ // larwe 9/16/06 changed .rem to .quot in both div calls, bugfix
+ if (div(fileinfo->pointer, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot ==
+ div(fileinfo->pointer + offset, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot) {
+ fileinfo->pointer = offset;
+ }
+ // Case 3b - Seeking across cluster boundary(ies)
+ else {
+ // round file pointer down to cluster boundary
+ fileinfo->pointer = div(fileinfo->pointer, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot *
+ fileinfo->volinfo->secperclus * SECTOR_SIZE;
+
+ // seek by clusters
+ // larwe 9/30/06 bugfix changed .rem to .quot in both div calls
+ while (div(fileinfo->pointer, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot !=
+ div(fileinfo->pointer + offset, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot) {
+
+ fileinfo->cluster = DFS_GetFAT(fileinfo->volinfo, scratch, &tempint, fileinfo->cluster);
+ // Abort if there was an error
+ if (fileinfo->cluster == 0x0ffffff7) {
+ fileinfo->pointer = 0;
+ fileinfo->cluster = fileinfo->firstcluster;
+ return;
+ }
+ fileinfo->pointer += SECTOR_SIZE * fileinfo->volinfo->secperclus;
+ }
+
+ // since we know the cluster is right, we have no more work to do
+ fileinfo->pointer = offset;
+ }
+}
+
+/*
+ Delete a file
+ scratch must point to a sector-sized buffer
+*/
+uint32_t DFS_UnlinkFile(PVOLINFO volinfo, uint8_t *path, uint8_t *scratch)
+{
+ FILEINFO fi;
+ uint32_t cache = 0;
+ uint32_t tempclus;
+
+ // DFS_OpenFile gives us all the information we need to delete it
+ if (DFS_OK != DFS_OpenFile(volinfo, path, DFS_READ, scratch, &fi))
+ return DFS_NOTFOUND;
+
+ // First, read the directory sector and delete that entry
+ if (DFS_ReadSector(volinfo->unit, scratch, fi.dirsector, 1))
+ return DFS_ERRMISC;
+ ((PDIRENT) scratch)[fi.diroffset].name[0] = 0xe5;
+ if (DFS_WriteSector(volinfo->unit, scratch, fi.dirsector, 1))
+ return DFS_ERRMISC;
+
+ // Now follow the cluster chain to free the file space
+ while (!((volinfo->filesystem == FAT12 && fi.firstcluster >= 0x0ff7) ||
+ (volinfo->filesystem == FAT16 && fi.firstcluster >= 0xfff7) ||
+ (volinfo->filesystem == FAT32 && fi.firstcluster >= 0x0ffffff7))) {
+ tempclus = fi.firstcluster;
+
+ fi.firstcluster = DFS_GetFAT(volinfo, scratch, &cache, fi.firstcluster);
+ DFS_SetFAT(volinfo, scratch, &cache, tempclus, 0);
+
+ }
+ return DFS_OK;
+}
+
+
+/*
+ Write an open file
+ You must supply a prepopulated FILEINFO as provided by DFS_OpenFile, and a
+ pointer to a SECTOR_SIZE scratch buffer.
+ This function updates the successcount field with the number of bytes actually written.
+*/
+uint32_t DFS_WriteFile(PFILEINFO fileinfo, uint8_t *scratch, uint8_t *buffer, uint32_t *successcount, uint32_t len)
+{
+ uint32_t remain;
+ uint32_t result = DFS_OK;
+ uint32_t sector;
+ uint32_t byteswritten;
+
+ // Don't allow writes to a file that's open as readonly
+ if (!(fileinfo->mode & DFS_WRITE))
+ return DFS_ERRMISC;
+
+ remain = len;
+ *successcount = 0;
+
+ while (remain && result == DFS_OK) {
+ // This is a bit complicated. The sector we want to read is addressed at a cluster
+ // granularity by the fileinfo->cluster member. The file pointer tells us how many
+ // extra sectors to add to that number.
+ sector = fileinfo->volinfo->dataarea +
+ ((fileinfo->cluster - 2) * fileinfo->volinfo->secperclus) +
+ div(div(fileinfo->pointer,fileinfo->volinfo->secperclus * SECTOR_SIZE).rem, SECTOR_SIZE).quot;
+
+ // Case 1 - File pointer is not on a sector boundary
+ if (div(fileinfo->pointer, SECTOR_SIZE).rem) {
+ uint16_t tempsize;
+
+ // We always have to go through scratch in this case
+ result = DFS_ReadSector(fileinfo->volinfo->unit, scratch, sector, 1);
+
+ // This is the number of bytes that we don't want to molest in the
+ // scratch sector just read.
+ tempsize = div(fileinfo->pointer, SECTOR_SIZE).rem;
+
+ // Case 1A - We are writing the entire remainder of the sector. After
+ // this point, all passes through the read loop will be aligned on a
+ // sector boundary, which allows us to go through the optimal path
+ // 2A below.
+ if (remain >= SECTOR_SIZE - tempsize) {
+ memcpy(scratch + tempsize, buffer, SECTOR_SIZE - tempsize);
+ if (!result)
+ result = DFS_WriteSector(fileinfo->volinfo->unit, scratch, sector, 1);
+
+ byteswritten = SECTOR_SIZE - tempsize;
+ buffer += SECTOR_SIZE - tempsize;
+ fileinfo->pointer += SECTOR_SIZE - tempsize;
+ if (fileinfo->filelen < fileinfo->pointer) {
+ fileinfo->filelen = fileinfo->pointer;
+ }
+ remain -= SECTOR_SIZE - tempsize;
+ }
+ // Case 1B - This concludes the file write operation
+ else {
+ memcpy(scratch + tempsize, buffer, remain);
+ if (!result)
+ result = DFS_WriteSector(fileinfo->volinfo->unit, scratch, sector, 1);
+
+ buffer += remain;
+ fileinfo->pointer += remain;
+ if (fileinfo->filelen < fileinfo->pointer) {
+ fileinfo->filelen = fileinfo->pointer;
+ }
+ byteswritten = remain;
+ remain = 0;
+ }
+ } // case 1
+ // Case 2 - File pointer is on sector boundary
+ else {
+ // Case 2A - We have at least one more full sector to write and don't have
+ // to go through the scratch buffer. You could insert optimizations here to
+ // write multiple sectors at a time, if you were thus inclined. Refer to
+ // similar notes in DFS_ReadFile.
+ if (remain >= SECTOR_SIZE) {
+ result = DFS_WriteSector(fileinfo->volinfo->unit, buffer, sector, 1);
+ remain -= SECTOR_SIZE;
+ buffer += SECTOR_SIZE;
+ fileinfo->pointer += SECTOR_SIZE;
+ if (fileinfo->filelen < fileinfo->pointer) {
+ fileinfo->filelen = fileinfo->pointer;
+ }
+ byteswritten = SECTOR_SIZE;
+ }
+ // Case 2B - We are only writing a partial sector and potentially need to
+ // go through the scratch buffer.
+ else {
+ // If the current file pointer is not yet at or beyond the file
+ // length, we are writing somewhere in the middle of the file and
+ // need to load the original sector to do a read-modify-write.
+ if (fileinfo->pointer < fileinfo->filelen) {
+ result = DFS_ReadSector(fileinfo->volinfo->unit, scratch, sector, 1);
+ if (!result) {
+ memcpy(scratch, buffer, remain);
+ result = DFS_WriteSector(fileinfo->volinfo->unit, scratch, sector, 1);
+ }
+ }
+ else {
+ result = DFS_WriteSector(fileinfo->volinfo->unit, buffer, sector, 1);
+ }
+
+ buffer += remain;
+ fileinfo->pointer += remain;
+ if (fileinfo->filelen < fileinfo->pointer) {
+ fileinfo->filelen = fileinfo->pointer;
+ }
+ byteswritten = remain;
+ remain = 0;
+ }
+ }
+
+ *successcount += byteswritten;
+
+ // check to see if we stepped over a cluster boundary
+ if (div(fileinfo->pointer - byteswritten, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot !=
+ div(fileinfo->pointer, fileinfo->volinfo->secperclus * SECTOR_SIZE).quot) {
+ uint32_t lastcluster;
+
+ // We've transgressed into another cluster. If we were already at EOF,
+ // we need to allocate a new cluster.
+ // An act of minor evil - we use byteswritten as a scratch integer, knowing
+ // that its value is not used after updating *successcount above
+ byteswritten = 0;
+
+ lastcluster = fileinfo->cluster;
+ fileinfo->cluster = DFS_GetFAT(fileinfo->volinfo, scratch, &byteswritten, fileinfo->cluster);
+
+ // Allocate a new cluster?
+ if (((fileinfo->volinfo->filesystem == FAT12) && (fileinfo->cluster >= 0xff8)) ||
+ ((fileinfo->volinfo->filesystem == FAT16) && (fileinfo->cluster >= 0xfff8)) ||
+ ((fileinfo->volinfo->filesystem == FAT32) && (fileinfo->cluster >= 0x0ffffff8))) {
+ uint32_t tempclus;
+
+ tempclus = DFS_GetFreeFAT(fileinfo->volinfo, scratch);
+ byteswritten = 0; // invalidate cache
+ if (tempclus == 0x0ffffff7)
+ return DFS_ERRMISC;
+
+ // Link new cluster onto file
+ DFS_SetFAT(fileinfo->volinfo, scratch, &byteswritten, lastcluster, tempclus);
+ fileinfo->cluster = tempclus;
+
+ // Mark newly allocated cluster as end of chain
+ switch(fileinfo->volinfo->filesystem) {
+ case FAT12: tempclus = 0xff8; break;
+ case FAT16: tempclus = 0xfff8; break;
+ case FAT32: tempclus = 0x0ffffff8; break;
+ default: return DFS_ERRMISC;
+ }
+ DFS_SetFAT(fileinfo->volinfo, scratch, &byteswritten, fileinfo->cluster, tempclus);
+
+ result = DFS_OK;
+ }
+ // No else clause is required.
+ }
+ }
+
+ // Update directory entry
+ if (DFS_ReadSector(fileinfo->volinfo->unit, scratch, fileinfo->dirsector, 1))
+ return DFS_ERRMISC;
+ ((PDIRENT) scratch)[fileinfo->diroffset].filesize_0 = fileinfo->filelen & 0xff;
+ ((PDIRENT) scratch)[fileinfo->diroffset].filesize_1 = (fileinfo->filelen & 0xff00) >> 8;
+ ((PDIRENT) scratch)[fileinfo->diroffset].filesize_2 = (fileinfo->filelen & 0xff0000) >> 16;
+ ((PDIRENT) scratch)[fileinfo->diroffset].filesize_3 = (fileinfo->filelen & 0xff000000) >> 24;
+ if (DFS_WriteSector(fileinfo->volinfo->unit, scratch, fileinfo->dirsector, 1))
+ return DFS_ERRMISC;
+ return result;
+}
+
+/*************************************************************************
+ *
+ * The remainder of this file has been added as a result of the dosfs
+ * distribution being used in MicroMonitor.
+ * This is not part of the original dosfs.c as distributed by Lewin Edwards.
+ *
+ *************************************************************************
+ */
+
+/*
+ * Convert a filename element from directory entry (11) to canonical (8.3) form
+ * dest must point to the first non-separator character.
+ * sec must point to a 12-byte buffer.
+ */
+uint8_t *DFS_DirToCanonical(uint8_t *dest, uint8_t *src)
+{
+ uint8_t *srcptr = src;
+
+ // copy filename until spaces
+ while(( srcptr - src) <= 11)
+ {
+ if (*srcptr == 0) break;
+
+ // name.ext seperator
+ if(( srcptr - src) == 8) *dest++ = '.';
+ if( *srcptr != ' ') *dest++ = *srcptr;
+
+ srcptr++;
+ }
+
+ // null terminate and rewind one char
+ *dest-- = 0;
+
+ // if name has no extension - kill the seperator
+ if( *dest == '.') *dest = 0;
+
+ return dest;
+}
+#endif
diff --git a/main/common/dosfs.h b/main/common/dosfs.h
new file mode 100644
index 0000000..1deb16b
--- /dev/null
+++ b/main/common/dosfs.h
@@ -0,0 +1,393 @@
+/*
+ DOSFS Embedded FAT-Compatible Filesystem
+ (C) 2005 Lewin A.R.W. Edwards (sysadm at zws.com)
+*/
+
+#ifndef _DOSFS_H
+#define _DOSFS_H
+
+#include <stddefs.h>
+
+//#define USE_GMHFIX // Defined to pull in dosfs fixes from Graham Henderson
+
+
+//===================================================================
+// User-supplied functions
+uint32_t DFS_ReadSector(uint8_t unit, uint8_t *buffer, uint32_t sector, uint32_t count);
+uint32_t DFS_WriteSector(uint8_t unit, uint8_t *buffer, uint32_t sector, uint32_t count);
+
+
+//===================================================================
+// Configurable items
+#define MAX_PATH 64 // Maximum path length (increasing this will
+ // GREATLY increase stack requirements!)
+#define DIR_SEPARATOR '/' // character separating directory components
+
+// End of configurable items
+//===================================================================
+
+//===================================================================
+// 32-bit error codes
+#define DFS_OK 0 // no error
+#define DFS_EOF 1 // end of file (not an error)
+#define DFS_WRITEPROT 2 // volume is write protected
+#define DFS_NOTFOUND 3 // path or file not found
+#define DFS_PATHLEN 4 // path too long
+#define DFS_ALLOCNEW 5 // must allocate new directory cluster
+#define DFS_ERRMISC 0xffffffff // generic error
+
+//===================================================================
+// File access modes
+#define DFS_READ 1 // read-only
+#define DFS_WRITE 2 // write-only
+
+//===================================================================
+// Miscellaneous constants
+#define SECTOR_SIZE 512 // sector size in bytes
+
+//===================================================================
+// Internal subformat identifiers
+#define FAT12 0
+#define FAT16 1
+#define FAT32 2
+
+//===================================================================
+// DOS attribute bits
+#define ATTR_READ_ONLY 0x01
+#define ATTR_HIDDEN 0x02
+#define ATTR_SYSTEM 0x04
+#define ATTR_VOLUME_ID 0x08
+#define ATTR_DIRECTORY 0x10
+#define ATTR_ARCHIVE 0x20
+#define ATTR_LONG_NAME (ATTR_READ_ONLY | ATTR_HIDDEN | ATTR_SYSTEM | ATTR_VOLUME_ID)
+
+
+/*
+ Directory entry structure
+ note: if name[0] == 0xe5, this is a free dir entry
+ if name[0] == 0x00, this is a free entry and all subsequent entries are free
+ if name[0] == 0x05, the first character of the name is 0xe5 [a kanji nicety]
+
+ Date format: bit 0-4 = day of month (1-31)
+ bit 5-8 = month, 1=Jan..12=Dec
+ bit 9-15 = count of years since 1980 (0-127)
+ Time format: bit 0-4 = 2-second count, (0-29)
+ bit 5-10 = minutes (0-59)
+ bit 11-15= hours (0-23)
+*/
+
+// some macros to aid in formatting file date, times. and file sizes
+#define CREATE_DAY( _x_) ((_x_.crtdate_l) & 0x1f)
+#define CREATE_MON( _x_) (((_x_.crtdate_l >> 5) & 0x07) | ((_x_.crtdate_h & 1) << 3))
+#define CREATE_YEAR( _x_) ((_x_.crtdate_h >> 1) + 1980)
+
+#define CREATE_SEC( _x_) (((_x_.crttime_l) & 0x1f) * 2)
+#define CREATE_MIN( _x_) (((_x_.crttime_l >> 5) & 0x07) | ((_x_.crttime_h & 0x07) << 3))
+#define CREATE_HR( _x_) ((_x_.crttime_h >> 3))
+
+#define FILESIZE(_x_) (int)( ( _x_.filesize_3 << 24)| ( _x_.filesize_2 << 16) | ( _x_.filesize_1 << 8) | _x_.filesize_0)
+
+
+typedef struct __attribute__ ((__packed__)) _tagDIRENT {
+ uint8_t name[11]; // filename
+ uint8_t attr; // attributes (see ATTR_* constant definitions)
+ uint8_t reserved; // reserved, must be 0
+ uint8_t crttimetenth; // create time, 10ths of a second (0-199 are valid)
+ uint8_t crttime_l; // creation time low byte
+ uint8_t crttime_h; // creation time high byte
+ uint8_t crtdate_l; // creation date low byte
+ uint8_t crtdate_h; // creation date high byte
+ uint8_t lstaccdate_l; // last access date low byte
+ uint8_t lstaccdate_h; // last access date high byte
+ uint8_t startclus_h_l; // high word of first cluster, low byte (FAT32)
+ uint8_t startclus_h_h; // high word of first cluster, high byte (FAT32)
+ uint8_t wrttime_l; // last write time low byte
+ uint8_t wrttime_h; // last write time high byte
+ uint8_t wrtdate_l; // last write date low byte
+ uint8_t wrtdate_h; // last write date high byte
+ uint8_t startclus_l_l; // low word of first cluster, low byte
+ uint8_t startclus_l_h; // low word of first cluster, high byte
+ uint8_t filesize_0; // file size, low byte
+ uint8_t filesize_1; //
+ uint8_t filesize_2; //
+ uint8_t filesize_3; // file size, high byte
+} DIRENT, *PDIRENT;
+
+/*
+ Partition table entry structure
+*/
+typedef struct __attribute__ ((__packed__)) _tagPTINFO {
+ uint8_t active; // 0x80 if partition active
+ uint8_t start_h; // starting head
+ uint8_t start_cs_l; // starting cylinder and sector (low byte)
+ uint8_t start_cs_h; // starting cylinder and sector (high byte)
+ uint8_t type; // type ID byte
+ uint8_t end_h; // ending head
+ uint8_t end_cs_l; // ending cylinder and sector (low byte)
+ uint8_t end_cs_h; // ending cylinder and sector (high byte)
+ uint8_t start_0; // starting sector# (low byte)
+ uint8_t start_1; //
+ uint8_t start_2; //
+ uint8_t start_3; // starting sector# (high byte)
+ uint8_t size_0; // size of partition (low byte)
+ uint8_t size_1; //
+ uint8_t size_2; //
+ uint8_t size_3; // size of partition (high byte)
+} PTINFO, *PPTINFO;
+
+/*
+ Master Boot Record structure
+*/
+typedef struct __attribute__ ((__packed__)) _tagMBR {
+ uint8_t bootcode[0x1be]; // boot sector
+ PTINFO ptable[4]; // four partition table structures
+ uint8_t sig_55; // 0x55 signature byte
+ uint8_t sig_aa; // 0xaa signature byte
+} MBR, *PMBR;
+
+/*
+ BIOS Parameter Block structure (FAT12/16)
+*/
+typedef struct __attribute__ ((__packed__)) _tagBPB {
+ uint8_t bytepersec_l; // bytes per sector low byte (0x00)
+ uint8_t bytepersec_h; // bytes per sector high byte (0x02)
+ uint8_t secperclus; // sectors per cluster (1,2,4,8,16,32,64,128 are valid)
+ uint8_t reserved_l; // reserved sectors low byte
+ uint8_t reserved_h; // reserved sectors high byte
+ uint8_t numfats; // number of FAT copies (2)
+ uint8_t rootentries_l; // number of root dir entries low byte (0x00 normally)
+ uint8_t rootentries_h; // number of root dir entries high byte (0x02 normally)
+ uint8_t sectors_s_l; // small num sectors low byte
+ uint8_t sectors_s_h; // small num sectors high byte
+ uint8_t mediatype; // media descriptor byte
+ uint8_t secperfat_l; // sectors per FAT low byte
+ uint8_t secperfat_h; // sectors per FAT high byte
+ uint8_t secpertrk_l; // sectors per track low byte
+ uint8_t secpertrk_h; // sectors per track high byte
+ uint8_t heads_l; // heads low byte
+ uint8_t heads_h; // heads high byte
+ uint8_t hidden_0; // hidden sectors low byte
+ uint8_t hidden_1; // (note - this is the number of MEDIA sectors before
+ uint8_t hidden_2; // first sector of VOLUME - we rely on the MBR instead)
+ uint8_t hidden_3; // hidden sectors high byte
+ uint8_t sectors_l_0; // large num sectors low byte
+ uint8_t sectors_l_1; //
+ uint8_t sectors_l_2; //
+ uint8_t sectors_l_3; // large num sectors high byte
+} BPB, *PBPB;
+
+/*
+ Extended BIOS Parameter Block structure (FAT12/16)
+*/
+typedef struct __attribute__ ((__packed__)) _tagEBPB {
+ uint8_t unit; // int 13h drive#
+ uint8_t head; // archaic, used by Windows NT-class OSes for flags
+ uint8_t signature; // 0x28 or 0x29
+ uint8_t serial_0; // serial#
+ uint8_t serial_1; // serial#
+ uint8_t serial_2; // serial#
+ uint8_t serial_3; // serial#
+ uint8_t label[11]; // volume label
+ uint8_t system[8]; // filesystem ID
+} EBPB, *PEBPB;
+
+/*
+ Extended BIOS Parameter Block structure (FAT32)
+*/
+typedef struct __attribute__ ((__packed__)) _tagEBPB32 {
+ uint8_t fatsize_0; // big FAT size in sectors low byte
+ uint8_t fatsize_1; //
+ uint8_t fatsize_2; //
+ uint8_t fatsize_3; // big FAT size in sectors high byte
+ uint8_t extflags_l; // extended flags low byte
+ uint8_t extflags_h; // extended flags high byte
+ uint8_t fsver_l; // filesystem version (0x00) low byte
+ uint8_t fsver_h; // filesystem version (0x00) high byte
+ uint8_t root_0; // cluster of root dir, low byte
+ uint8_t root_1; //
+ uint8_t root_2; //
+ uint8_t root_3; // cluster of root dir, high byte
+ uint8_t fsinfo_l; // sector pointer to FSINFO within reserved area, low byte (2)
+ uint8_t fsinfo_h; // sector pointer to FSINFO within reserved area, high byte (0)
+ uint8_t bkboot_l; // sector pointer to backup boot sector within reserved area, low byte (6)
+ uint8_t bkboot_h; // sector pointer to backup boot sector within reserved area, high byte (0)
+ uint8_t reserved[12]; // reserved, should be 0
+
+ uint8_t unit; // int 13h drive#
+ uint8_t head; // archaic, used by Windows NT-class OSes for flags
+ uint8_t signature; // 0x28 or 0x29
+ uint8_t serial_0; // serial#
+ uint8_t serial_1; // serial#
+ uint8_t serial_2; // serial#
+ uint8_t serial_3; // serial#
+ uint8_t label[11]; // volume label
+ uint8_t system[8]; // filesystem ID
+} EBPB32, *PEBPB32;
+
+/*
+ Logical Boot Record structure (volume boot sector)
+*/
+typedef struct __attribute__ ((__packed__)) _tagLBR {
+ uint8_t jump[3]; // JMP instruction
+ uint8_t oemid[8]; // OEM ID, space-padded
+ BPB bpb; // BIOS Parameter Block
+ union {
+ EBPB ebpb; // FAT12/16 Extended BIOS Parameter Block
+ EBPB32 ebpb32; // FAT32 Extended BIOS Parameter Block
+ } ebpb;
+ uint8_t code[420]; // boot sector code
+ uint8_t sig_55; // 0x55 signature byte
+ uint8_t sig_aa; // 0xaa signature byte
+} LBR, *PLBR;
+
+/*
+ Volume information structure (Internal to DOSFS)
+*/
+typedef struct __attribute__ ((__packed__)) _tagVOLINFO {
+ uint8_t unit; // unit on which this volume resides
+ uint8_t filesystem; // formatted filesystem
+
+// These two fields aren't very useful, so support for them has been commented out to
+// save memory. (Note that the "system" tag is not actually used by DOS to determine
+// filesystem type - that decision is made entirely on the basis of how many clusters
+// the drive contains. DOSFS works the same way).
+// See tag: OEMID in dosfs.c
+// uint8_t oemid[9]; // OEM ID ASCIIZ
+// uint8_t system[9]; // system ID ASCIIZ
+ uint8_t label[12]; // volume label ASCIIZ
+ uint32_t startsector; // starting sector of filesystem
+ uint8_t secperclus; // sectors per cluster
+ uint16_t reservedsecs; // reserved sectors
+ uint32_t numsecs; // number of sectors in volume
+ uint32_t secperfat; // sectors per FAT
+ uint16_t rootentries; // number of root dir entries
+
+ uint32_t numclusters; // number of clusters on drive
+
+ // The fields below are PHYSICAL SECTOR NUMBERS.
+ uint32_t fat1; // starting sector# of FAT copy 1
+ uint32_t rootdir; // starting sector# of root directory (FAT12/FAT16) or cluster (FAT32)
+ uint32_t dataarea; // starting sector# of data area (cluster #2)
+} VOLINFO, *PVOLINFO;
+
+/*
+ Flags in DIRINFO.flags
+*/
+#define DFS_DI_BLANKENT 0x01 // Searching for blank entry
+
+/*
+ Directory search structure (Internal to DOSFS)
+*/
+typedef struct __attribute__ ((__packed__)) _tagDIRINFO {
+ uint32_t currentcluster; // current cluster in dir
+ uint8_t currentsector; // current sector in cluster
+ uint8_t currententry; // current dir entry in sector
+ uint8_t *scratch; // ptr to user-supplied scratch buffer (one sector)
+ uint8_t flags; // internal DOSFS flags
+} DIRINFO, *PDIRINFO;
+
+/*
+ File handle structure (Internal to DOSFS)
+*/
+typedef struct __attribute__ ((__packed__)) _tagFILEINFO {
+ PVOLINFO volinfo; // VOLINFO used to open this file
+ uint32_t dirsector; // physical sector containing dir entry of this file
+ uint8_t diroffset; // # of this entry within the dir sector
+ uint8_t mode; // mode in which this file was opened
+ uint32_t firstcluster; // first cluster of file
+ uint32_t filelen; // byte length of file
+
+ uint32_t cluster; // current cluster
+ uint32_t pointer; // current (BYTE) pointer
+} FILEINFO, *PFILEINFO;
+
+/*
+ Get starting sector# of specified partition on drive #unit
+ NOTE: This code ASSUMES an MBR on the disk.
+ scratchsector should point to a SECTOR_SIZE scratch area
+ Returns 0xffffffff for any error.
+ If pactive is non-NULL, this function also returns the partition active flag.
+ If pptype is non-NULL, this function also returns the partition type.
+ If psize is non-NULL, this function also returns the partition size.
+*/
+uint32_t DFS_GetPtnStart(uint8_t unit, uint8_t *scratchsector, uint8_t pnum, uint8_t *pactive, uint8_t *pptype, uint32_t *psize);
+
+/*
+ Retrieve volume info from BPB and store it in a VOLINFO structure
+ You must provide the unit and starting sector of the filesystem, and
+ a pointer to a sector buffer for scratch
+ Attempts to read BPB and glean information about the FS from that.
+ Returns 0 OK, nonzero for any error.
+*/
+uint32_t DFS_GetVolInfo(uint8_t unit, uint8_t *scratchsector, uint32_t startsector, PVOLINFO volinfo);
+
+/*
+ Open a directory for enumeration by DFS_GetNextDirEnt
+ You must supply a populated VOLINFO (see DFS_GetVolInfo)
+ The empty string or a string containing only the directory separator are
+ considered to be the root directory.
+ Returns 0 OK, nonzero for any error.
+*/
+uint32_t DFS_OpenDir(PVOLINFO volinfo, uint8_t *dirname, PDIRINFO dirinfo);
+
+/*
+ Get next entry in opened directory structure. Copies fields into the dirent
+ structure, updates dirinfo. Note that it is the _caller's_ responsibility to
+ handle the '.' and '..' entries.
+ A deleted file will be returned as a NULL entry (first char of filename=0)
+ by this code. Filenames beginning with 0x05 will be translated to 0xE5
+ automatically. Long file name entries will be returned as NULL.
+ returns DFS_EOF if there are no more entries, DFS_OK if this entry is valid,
+ or DFS_ERRMISC for a media error
+*/
+uint32_t DFS_GetNext(PVOLINFO volinfo, PDIRINFO dirinfo, PDIRENT dirent);
+
+/*
+ Open a file for reading or writing. You supply populated VOLINFO, a path to the file,
+ mode (DFS_READ or DFS_WRITE) and an empty fileinfo structure. You also need to
+ provide a pointer to a sector-sized scratch buffer.
+ Returns various DFS_* error states. If the result is DFS_OK, fileinfo can be used
+ to access the file from this point on.
+*/
+uint32_t DFS_OpenFile(PVOLINFO volinfo, uint8_t *path, uint8_t mode, uint8_t *scratch, PFILEINFO fileinfo);
+
+/*
+ Read an open file
+ You must supply a prepopulated FILEINFO as provided by DFS_OpenFile, and a
+ pointer to a SECTOR_SIZE scratch buffer.
+ Note that returning DFS_EOF is not an error condition. This function updates the
+ successcount field with the number of bytes actually read.
+*/
+uint32_t DFS_ReadFile(PFILEINFO fileinfo, uint8_t *scratch, uint8_t *buffer, uint32_t *successcount, uint32_t len);
+
+/*
+ Write an open file
+ You must supply a prepopulated FILEINFO as provided by DFS_OpenFile, and a
+ pointer to a SECTOR_SIZE scratch buffer.
+ This function updates the successcount field with the number of bytes actually written.
+*/
+uint32_t DFS_WriteFile(PFILEINFO fileinfo, uint8_t *scratch, uint8_t *buffer, uint32_t *successcount, uint32_t len);
+
+/*
+ Seek file pointer to a given position
+ This function does not return status - refer to the fileinfo->pointer value
+ to see where the pointer wound up.
+ Requires a SECTOR_SIZE scratch buffer
+*/
+void DFS_Seek(PFILEINFO fileinfo, uint32_t offset, uint8_t *scratch);
+
+/*
+ Delete a file
+ scratch must point to a sector-sized buffer
+*/
+uint32_t DFS_UnlinkFile(PVOLINFO volinfo, uint8_t *path, uint8_t *scratch);
+
+uint32_t DFS_GetFAT(PVOLINFO volinfo, uint8_t *scratch, uint32_t *scratchcache, uint32_t cluster);
+uint8_t *DFS_DirToCanonical(uint8_t *dest, uint8_t *src);
+
+// If we are building a host-emulation version, include host support
+#ifdef HOSTVER
+#include "hostemu.h"
+#endif
+
+#endif // _DOSFS_H
diff --git a/main/common/fatfs.c b/main/common/fatfs.c
new file mode 100644
index 0000000..34c6275
--- /dev/null
+++ b/main/common/fatfs.c
@@ -0,0 +1,696 @@
+/* vi: set ts=4: */
+/* fatfs.c:
+ * This is a front end (i.e. the CLI portion) of the dosfs.c source code.
+ * The dosfs.c file is code from Lewin Edwards. The website I got this
+ * from originally was: http://www.zws.com/products/dosfs/index.html .
+ *
+ * The dosfs.c dosfs.h files in uMon common (i.e. here) are taken directly
+ * from that website, with minimal modification (so as to remain compatible
+ * with any DOSFS updates). Much of this fatfs code is also shamelessly
+ * cut-and-pasted from Lewin's source file main.c (part of the dosfs
+ * tarball) used to demonstrate the dosfs interface.
+ *
+ * Discussion on uMon's philosophy of file-systems other than TFS...
+ * The intent under the scope of uMon for support of file systems other than
+ * TFS is to support two commands: a file-system-specific command and an
+ * interface-specific command. The goal is that members of the two different
+ * command sets can be mixed and matched as needed in a particular design.
+ * For example, if we have commands for compact flash (CF), SPI and I2C
+ * interfaces the "fatfs" command could use anyone of them to retrieve files
+ * from that interface (assuming of course, that the interface has an FAT
+ * FS on the other side).
+ *
+ * The way this works is simple, the only thing the fatfs command needs is
+ * a set of interface-specific functions: readblock and writeblock. As
+ * long as the CF/SPI/I2C commands support this, and also support the
+ * ability to share those interface functions through the CLI, it simply
+ * becomes a matter of assigning the function pointers in a startup script
+ * when uMon boots up (probably in monrc).
+ *
+ * That being said, here's the model...
+ *
+ * File-system-specific Command:
+ * Each command will support the ability to establish its read and write
+ * pointers through the command line. The -r and -w options do this in
+ * the fatfs command, and it would be nice if other similar commands could
+ * follow the same model. The command should support (at minimum) the
+ * ability to list the files in the FS (ls), query for the presence of a
+ * specific file within the FS (qry), copy a file from the FS to TFS or
+ * ram (get), and also dump the content of an ASCII file from the FS to the
+ * console (cat). If the command supports modification of the FS, then,
+ * it should also support the ability remove (rm) and copy from ram or TFS
+ * to the FS (put). The command also supports default shell variables that
+ * may contain the read write functions.
+ *
+ * Interface-specific Command:
+ * Each command will support the potential of multiple interfaces of the
+ * same type. The command must be able to initialize (with optional
+ * verbosity) said interface and populate a defined set of shell variables
+ * with the address of the read and write functions applicable to that
+ * interface. Ideally the interface command should also support the ability
+ * to do raw reads (FS to memory) and writes (memory to FS) on the interface.
+ *
+ * With the above model we then have the ability to connect the "FS" command
+ * with any "Interface" command; so as file system support in uMon grows,
+ * it immediately becomes useful on a variety of interfaces, as long as
+ * they adhere to the above simple model. As of this writing the "cf" and
+ * "fatfs" commands comply to this model and can be used as a template for
+ * developing new commands that fit into this category.
+ *
+ * Here is an example of their usage:
+ *
+ * uMON> cf init FATFS # Initialize the compact flash interface and
+ * # laod FATFS_RD and FATFS_WR with the read and
+ * # write function pointers.
+ * uMON> fatfs cat file1 # Using the FATFS_RD and FATFS_WR shell variables
+ * # previously set up, dump the content of the file
+ * # named 'file1'.
+ *
+ * General notice:
+ * This code is part of a boot-monitor package developed as a generic base
+ * platform for embedded system designs. As such, it is likely to be
+ * distributed to various projects beyond the control of the original
+ * author. Please notify the author of any enhancements made or bugs found
+ * so that all may benefit from the changes. In addition, notification back
+ * to the author will allow the new user to pick up changes that may have
+ * been made by other users after this version of the code was distributed.
+ *
+ * Note1: the majority of this code was edited with 4-space tabs.
+ * Note2: as more and more contributions are accepted, the term "author"
+ * is becoming a mis-representation of credit.
+ *
+ * Original author: Ed Sutter esutter at lucent.com
+ * Contributor(s): Graham Henderson
+ */
+
+#include "config.h"
+#if INCLUDE_FATFS
+#include "stddefs.h"
+#include "genlib.h"
+#include "cli.h"
+#include "tfs.h"
+#include "tfsprivate.h"
+#include "dosfs.h"
+
+static int (*fatfsRead)(int interface, char *buf, int blknum, int count);
+static int (*fatfsWrite)(int interface, char *buf, int blknum, int count);
+
+static char fatfs_initialized;
+static char *fatfs_tmp_space;
+static VOLINFO vi __attribute__((aligned (32)));
+static uint8_t sector[SECTOR_SIZE] __attribute__ ((aligned (32)));
+static uint8_t sector2[SECTOR_SIZE] __attribute__ ((aligned (32)));
+
+/* Support skipping LFN dir entries...
+ */
+#define ATTR_LONG_NAME \
+ (ATTR_READ_ONLY | ATTR_HIDDEN | ATTR_SYSTEM | ATTR_VOLUME_ID)
+
+#define FATFS_FNAME_STR "FATFSFNAME"
+#define FATFS_FTOT_STR "FATFSFTOT"
+#define FATFS_FSIZE_STR "FATFSFSIZE"
+
+/* fatfsInit():
+ * Start up the fs by reading in volume information.
+ * This function will return if already initialized, unless force
+ * is nonzero.
+ */
+static int
+fatfsInit(int force, int verbose)
+{
+ uint8_t pactive, ptype;
+ uint32_t pstart, psize;
+
+ if ((fatfs_initialized == 1) && (force == 0))
+ return(0);
+
+ /* Obtain pointer to first partition on first (only) unit.
+ */
+ pstart = DFS_GetPtnStart(0, sector, 0, &pactive, &ptype, &psize);
+ if (pstart == 0xffffffff) {
+ printf("Cannot find first partition\n");
+ return(-1);
+ }
+
+ if (verbose) {
+ printf("Partition 0...\n");
+ printf(" Start sector 0x%08lx\n",pstart);
+ printf(" Active %d\n",pactive);
+ printf(" Type 0x%x\n",ptype);
+ printf(" Size 0x%lx\n",psize);
+ }
+
+ if (DFS_GetVolInfo(0, sector, pstart, &vi)) {
+ printf("Error getting volume information\n");
+ return(-1);
+ }
+
+ if (verbose) {
+ printf("Volume label '%-11s'\n", vi.label);
+ printf(" %d sector(s) per cluster\n",vi.secperclus);
+ printf(" %d reserved sector(s)\n",vi.reservedsecs);
+ printf(" %d total volume sector(s)\n", vi.numsecs);
+ printf(" %d sectors per FAT\n",vi.secperfat);
+ printf(" first FAT at sector #%d\n",vi.fat1);
+ printf(" root dir at #%d\n",vi.rootdir);
+
+ printf("For.. FAT32 rootdir is CLUSTER #,\n");
+ printf(" FAT12/16 rootdir is a SECTOR #.\n");
+ printf("%d root dir entries, data area commences at sector #%d.\n",
+ vi.rootentries,vi.dataarea);
+ printf("%d clusters (%d bytes) in data area, filesystem IDd as ",
+ vi.numclusters, vi.numclusters * vi.secperclus * SECTOR_SIZE);
+
+ if (vi.filesystem == FAT12)
+ printf("FAT12.\n");
+ else if (vi.filesystem == FAT16)
+ printf("FAT16.\n");
+ else if (vi.filesystem == FAT32)
+ printf("FAT32.\n");
+ else
+ printf("[unknown]\n");
+ }
+ fatfs_initialized = 1;
+ return(0);
+}
+
+/* fatfsCat():
+ * Dump the content of the specified fatfs file to the console.
+ * This function assumes the data is ASCII.
+ */
+static int
+fatfsCat(char *filepath)
+{
+ uint32_t i, j;
+ FILEINFO fi;
+ uint8_t *p;
+
+ if (DFS_OpenFile(&vi, (uint8_t *)filepath, DFS_READ, sector, &fi)) {
+ printf("error opening '%s'\n",filepath);
+ return(-1);
+ }
+ p = (uint8_t *)fatfs_tmp_space;
+ DFS_ReadFile(&fi, sector, p, &i, fi.filelen);
+ for(j=0;j<fi.filelen;j++)
+ putchar(*p++);
+ putchar('\n');
+ return(0);
+}
+
+/* fatfsGet():
+ * Retreive a file from the FATFS and place it in the specified destination.
+ * The destination may be either a TFS filename or a hex address
+ * (indicated by a leading "0x").
+ *
+ * Input:
+ * char *fatfspath
+ * Pointer to FATFS file and path.
+ * char *dest
+ * Pointer to TFS filename or a addr,len string.
+ * The expected "addr,len" syntax is 0xADDR,LEN or 0xADDR,0xLEN.
+ */
+static int
+fatfsGet(char *fatfile, char *dest)
+{
+ FILEINFO fi;
+ char *p, tfs;
+ uint32_t i;
+
+ if (DFS_OpenFile(&vi, (uint8_t *)fatfile, DFS_READ, sector, &fi)) {
+ printf("error opening file\n");
+ return(-1);
+ }
+ if (strncmp(dest,"0x",2) == 0) {
+ tfs = 0;
+ p = (char *)strtoul(dest,0,0);
+ }
+ else {
+ tfs = 1;
+ p = fatfs_tmp_space;
+ }
+
+ DFS_ReadFile(&fi, sector, (uint8_t *)p, &i, fi.filelen);
+ if (i != fi.filelen) {
+ printf("read %d, expected %d\n",i,fi.filelen);
+ return(-1);
+ }
+ if (tfs) {
+#if INCLUDE_TFS
+ int tfserr;
+ char *flags, *info;
+
+ flags = info = (char *)0;
+ if ((flags = strchr(dest,','))) {
+ *flags++ = 0;
+ if ((info = strchr(flags,',')))
+ *info++ = 0;
+ }
+ tfserr = tfsadd(dest,info,flags,(uchar *)p,fi.filelen);
+ if (tfserr != TFS_OKAY) {
+ printf("TFS error: %s\n",tfserrmsg(tfserr));
+ return(-1);
+ }
+#else
+ printf("TFS not built in\n");
+ return(-1);
+#endif
+ }
+ return(0);
+}
+
+/* fatfsPut():
+ * Copy data or file to a FATFS file.
+ *
+ * Input:
+ * char *fatfspath
+ * Pointer to FATFS file and path.
+ * char *src
+ * Pointer to TFS filename or a addr,len string.
+ * The expected "addr,len" syntax is 0xADDR,LEN or 0xADDR,0xLEN.
+ */
+static int
+fatfsPut(char *src, char *fatfspath)
+{
+ FILEINFO fi;
+ char tfs, *p, *cp;
+ uint32_t successcount, len, size, rc;
+
+ if (strncmp(src,"0x",2) == 0) {
+ tfs = 0;
+ p = (char *)strtoul(src,&cp,0);
+ cp++;
+ len = strtoul(cp,0,0);
+ }
+ else {
+#if INCLUDE_TFS
+ TFILE *tfp;
+
+ tfs = 1;
+ if ((tfp = tfsstat(src)) == 0) {
+ printf("Can't find file '%s' in TFS\n",src);
+ return(CMD_FAILURE);
+ }
+ p = TFS_BASE(tfp);
+ len = TFS_SIZE(tfp);
+#else
+ printf("TFS not built in\n");
+ return(-1);
+#endif
+ }
+
+ /* Copy 'len' bytes from 'p' to DOSFS file 'fatfspath'...
+ */
+ if (DFS_OpenFile(&vi, (uint8_t *)fatfspath, DFS_WRITE, sector, &fi)) {
+ printf("error opening '%s'\n",fatfspath);
+ return(-1);
+ }
+
+ while(len > 0) {
+ if (len >= SECTOR_SIZE)
+ size = SECTOR_SIZE;
+ else
+ size = len;
+
+ rc = DFS_WriteFile(&fi, sector2, (uint8_t *)p, &successcount, size);
+ if ((rc != DFS_OK) || (successcount != size)) {
+ printf("error writing '%s'\n",fatfspath);
+ return(-1);
+ }
+ p += size;
+ len -= size;
+ }
+ return(0);
+}
+
+/* fatfsRm():
+ * Remove the specified file from the FATFS.
+ * If the path is a directory, then don't remove anything.
+ */
+static int
+fatfsRm(char *fatfspath)
+{
+ DIRINFO di;
+
+ di.scratch = sector;
+ if (DFS_OpenDir(&vi, (uint8_t *)fatfspath, &di) == 0) {
+ printf("can't remove directory '%s'\n",fatfspath);
+ return(-1);
+ }
+ if (DFS_UnlinkFile(&vi, (uint8_t *)fatfspath, sector)) {
+ printf("error unlinking file %s\n",fatfspath);
+ return(-1);
+ }
+ return(0);
+}
+
+/* fatfsLs():
+ * The incoming string is assumed to be some directory name.
+ * If NULL, then it is assumed to be the CF's top-most level.
+ */
+static int
+fatfsLs(char *dirname)
+{
+ int ftot;
+ DIRENT de;
+ DIRINFO di;
+ char *dir;
+
+ if (dirname)
+ dir = dirname;
+ else
+ dir = "";
+
+ di.scratch = sector;
+ if (DFS_OpenDir(&vi, (uint8_t *)dir, &di)) {
+ printf("Can't open dir: <%s>\n",dirname);
+ return(CMD_FAILURE);
+ }
+
+ ftot = 0;
+ while (!DFS_GetNext(&vi, &di, &de)) {
+ char tmp[32];
+
+ if (de.name[0] && ((de.attr & ATTR_LONG_NAME) != ATTR_LONG_NAME)) {
+ if ((de.attr & ATTR_VOLUME_ID) > 0) {
+ de.name[8] = 0;
+ printf("Volume: %s\n",de.name);
+ continue;
+ }
+ ftot++;
+
+ printf("%02d/%02d/%4d %02d:%02d ",
+ CREATE_MON(de), CREATE_DAY(de), CREATE_YEAR(de),
+ CREATE_HR(de), CREATE_MIN(de));
+
+ if ((de.attr & ATTR_DIRECTORY) > 0) {
+ // truncate the extension
+ de.name[8] = 0;
+
+ printf("<DIR> %-8s",de.name);
+ }
+ else {
+ DFS_DirToCanonical((uint8_t *)tmp,de.name);
+ printf(" %8d %-12s",FILESIZE(de), tmp);
+ }
+
+ printf(" %c%c%c%c%c\n",
+ (( de.attr & ATTR_VOLUME_ID) ? 'V' : ' '),
+ (( de.attr & ATTR_READ_ONLY) ? 'R' : ' '),
+ (( de.attr & ATTR_ARCHIVE ) ? 'A' : ' '),
+ (( de.attr & ATTR_SYSTEM ) ? 'S' : ' '),
+ (( de.attr & ATTR_HIDDEN ) ? 'H' : ' '));
+ }
+ }
+ shell_sprintf(FATFS_FTOT_STR,"%d",ftot);
+ return(0);
+}
+
+static int
+fatfsQry(char *fatfspath, int verbose)
+{
+ DIRENT de;
+ DIRINFO di;
+ char *lastslash, *fname, *dir, pathcopy[80], matchname[80];
+ int flen, flen1, fsize, pathlen, match, ftot;
+
+ if (!fatfspath)
+ return(-1);
+
+ /* Prior to each 'ls', clear the content of the name and
+ * size shell variables...
+ */
+ setenv(FATFS_FNAME_STR,0);
+ setenv(FATFS_FSIZE_STR,0);
+ setenv(FATFS_FTOT_STR,0);
+
+ pathlen = strlen(fatfspath);
+ if (pathlen > sizeof(pathcopy)) {
+ printf("path too big\n");
+ return(-1);
+ }
+ strcpy(pathcopy, fatfspath);
+ lastslash = strrchr(pathcopy,DIR_SEPARATOR);
+
+ if (lastslash == 0) {
+ dir = "";
+ fname = pathcopy;
+ }
+ else {
+ *lastslash = 0;
+ dir = pathcopy;
+ fname = lastslash+1;
+ }
+
+ flen = strlen(fname);
+ if (verbose > 1)
+ printf("Qry opening dir <%s>, fname <%s>...\n",dir,fname);
+
+ di.scratch = sector;
+ if (DFS_OpenDir(&vi, (uint8_t *)dir, &di)) {
+ printf("error opening subdirectory\n");
+ return(CMD_FAILURE);
+ }
+
+ match = fsize = ftot = flen1 = 0;
+ while (!DFS_GetNext(&vi, &di, &de)) {
+ int i;
+ char dosname[16];
+
+ memset(dosname,0,sizeof(dosname));
+ if (de.name[0] && ((de.attr & ATTR_LONG_NAME) != ATTR_LONG_NAME)) {
+ if ((de.attr & ATTR_VOLUME_ID) || (de.attr & ATTR_DIRECTORY)) {
+ for(i=0;i<8;i++) {
+ if (de.name[i] != ' ') {
+ dosname[i] = de.name[i];
+ }
+ else {
+ dosname[i] = 0;
+ break;
+ }
+ }
+ dosname[8] = 0;
+ }
+ else
+ DFS_DirToCanonical((uint8_t *)dosname,de.name);
+
+ flen1 = strlen(dosname);
+
+ if ((fname[0] == '*') && (fname[flen-1] == '*')) {
+ fname[flen-1] = 0;
+ if (strstr(dosname,fname+1))
+ match = 1;
+ fname[flen-1] = '*';
+ }
+ else if (fname[0] == '*') {
+ if (!strcmp(dosname+(flen1-flen+1),fname+1))
+ match = 1;
+ }
+ else if (fname[flen-1] == '*') {
+ fname[flen-1] = 0;
+ if (!strncmp(dosname,fname,flen-1))
+ match = 1;
+ fname[flen-1] = '*';
+ }
+ else if (!strcmp(dosname,fname)) {
+ match = 1;
+ }
+ if (match) {
+ strcpy(matchname,dosname);
+ fsize = FILESIZE(de);
+ ftot++;
+ match = 0;
+ if (verbose)
+ printf(" %s (%d)\n",dosname,fsize);
+ }
+ }
+ }
+ shell_sprintf(FATFS_FTOT_STR,"%d",ftot);
+ if (ftot) {
+ shell_sprintf(FATFS_FSIZE_STR,"%d",fsize);
+ setenv(FATFS_FNAME_STR,matchname);
+ }
+ return(0);
+}
+
+
+char *FatfsHelp[] = {
+ "Fat 12|16|32 File System Support",
+ "[r:s:w:v] {operation} [args]...",
+#if INCLUDE_VERBOSEHELP
+ "",
+ "Options:",
+ " -r {addr} set read-block func ptr (default: FATFS_RD)",
+ " -s {addr} base of ram scratch space used by fatfs",
+ " (default is APPRAMBASE)",
+ " -w {addr} set write-block func ptr (default: FATFS_WR)",
+ " -v additive verbosity",
+ "",
+ "Operations:",
+ " cat {fname}",
+ " get {fat_file} {tfs_file | addr}",
+ " (get from fatfs)",
+ " init initialize internal structures",
+ " put {tfs_file | addr,size} {fat_file}",
+ " (put to fatfs)",
+ " ls [dir] list files within specified directory (or top)",
+ " qry {fltr} qry for file or directory presence",
+ " - fltr format: sss, *sss, sss*, *sss* ('sss' is any string)",
+ " - loads " FATFS_FNAME_STR " & " FATFS_FSIZE_STR " based on most recent match",
+ " - loads " FATFS_FTOT_STR " with number of files listed",
+ " rm {fname}",
+#endif
+ 0
+};
+
+/* FatfsCmd():
+ * This command provides a front end (command line interface) to the
+ * dosfs.c code. The intent is that this be a template for other
+ * "fs-ish" commands within uMon (refer to discussion at the top of this
+ * file).
+ */
+int
+FatfsCmd(int argc, char *argv[])
+{
+ uint32_t i, j;
+ int opt, verbose;
+ char *cmd, *env, *arg1, *arg2, *arg3;
+
+ /* Establish default read/write functions to access underlying
+ * storage media. These defaults can be overridden by the
+ * command line options -r & -w below.
+ */
+ if ((env = getenv("FATFS_RD")) != 0)
+ fatfsRead = (int(*)(int,char*,int,int))strtol(env,0,0);
+
+ if ((env = getenv("FATFS_WR")) != 0)
+ fatfsWrite = (int(*)(int,char*,int,int))strtol(env,0,0);
+
+ verbose = 0;
+ fatfs_tmp_space = (char *)0xffffffff;
+ while ((opt=getopt(argc,argv,"r:s:vw:")) != -1) {
+ switch(opt) {
+ case 'r':
+ fatfsRead = (int(*)(int,char*,int,int))strtoul(optarg,0,0);
+ break;
+ case 's':
+ fatfs_tmp_space = (char *)strtoul(optarg,0,0);
+ break;
+ case 'w':
+ fatfsWrite = (int(*)(int,char*,int,int))strtoul(optarg,0,0);
+ break;
+ case 'v':
+ verbose++;
+ break;
+ default:
+ return(CMD_PARAM_ERROR);
+ }
+ }
+
+ if ((fatfsRead == 0) || (fatfsWrite == 0)) {
+ printf("FATFS access pointers not initialized\n");
+ return(CMD_FAILURE);
+ }
+
+ if (argc < optind + 1)
+ return(CMD_PARAM_ERROR);
+
+ if (fatfs_tmp_space == (char *)0xffffffff)
+ fatfs_tmp_space = (char *)getAppRamStart();
+
+ cmd = argv[optind];
+ arg1 = argv[optind+1];
+ arg2 = argv[optind+2];
+ arg3 = argv[optind+3];
+
+ if (strcmp(cmd,"init") == 0) {
+ if (fatfsInit(1,verbose) < 0)
+ return(CMD_FAILURE);
+ }
+ else if (strcmp(cmd,"cat") == 0) {
+ if (argc != optind + 2)
+ return(CMD_PARAM_ERROR);
+
+ if (fatfsInit(0,0) < 0)
+ return(CMD_FAILURE);
+
+ for(i=optind+1;i<argc;i++) {
+ if (fatfsCat(argv[i]) < 0)
+ return(CMD_FAILURE);
+ }
+ }
+ else if (strcmp(cmd,"get") == 0) {
+ if (argc != optind + 3)
+ return(CMD_PARAM_ERROR);
+
+ if (fatfsInit(0,0) < 0)
+ return(CMD_FAILURE);
+
+ if (fatfsGet(arg1,arg2) < 0)
+ return(CMD_FAILURE);
+
+ }
+ else if (strcmp(cmd,"put") == 0) {
+ if (argc != optind + 3)
+ return(CMD_PARAM_ERROR);
+
+ if (fatfsInit(0,0) < 0)
+ return(CMD_FAILURE);
+
+ if (fatfsPut(arg1,arg2) < 0)
+ return(CMD_FAILURE);
+ }
+ else if (strcmp(cmd,"qry") == 0) {
+ if (argc != optind + 2)
+ return(CMD_PARAM_ERROR);
+
+ if (fatfsInit(0,0) < 0)
+ return(CMD_FAILURE);
+
+ if (fatfsQry(arg1,verbose) < 0)
+ return(CMD_FAILURE);
+ }
+ else if (strcmp(cmd,"ls") == 0) {
+ if (fatfsInit(0,0) < 0)
+ return(CMD_FAILURE);
+
+ if (fatfsLs(arg1) < 0)
+ return(CMD_FAILURE);
+ }
+ else if (strcmp(cmd,"rm") == 0) {
+ if (fatfsInit(0,0) < 0)
+ return(CMD_FAILURE);
+
+ for(j=optind+1;j<argc;j++) {
+ if (fatfsRm(argv[j]) < 0)
+ return(CMD_FAILURE);
+ }
+ }
+ else {
+ printf("fatfs op <%s> not found\n",cmd);
+ return(CMD_FAILURE);
+ }
+
+ return(CMD_SUCCESS);
+}
+
+/* Hookup between DOSFS and this command...
+ * The dosfs.c code requires that the user provide two functions
+ * (DFS_ReadSector() and DFS_WriteSector()) to hook it up to an
+ * external interface. These two functions are configured by
+ * the fatfs command to point to whatever driver is to be established
+ * as the FATFS physical interface. For more information refer to the
+ * discussion at the top of this file.
+ */
+uint32_t
+DFS_ReadSector(uint8_t unit, uint8_t *data, uint32_t sec,uint32_t count)
+{
+ return((uint32_t)fatfsRead((int)unit, (char *)data, sec, count));
+}
+
+uint32_t
+DFS_WriteSector(uint8_t unit, uint8_t *data, uint32_t sec,uint32_t count)
+{
+ return((uint32_t)fatfsWrite((int)unit, (char *)data, sec, count));
+}
+
+#endif
diff --git a/ports/beagleboneblack/Makefile b/ports/beagleboneblack/Makefile
index e0676b1..11956db 100644
--- a/ports/beagleboneblack/Makefile
+++ b/ports/beagleboneblack/Makefile
@@ -39,7 +39,7 @@ endif
LIBABIDIR = -L $(ABIDIR)
COMMON_AFLAGS = -c -D PLATFORM_$(PLATFORM)=1 -D ASSEMBLY_ONLY
-CUSTOM_CFLAGS = -mcpu=cortex-a8 -O2 -isystem $(ABIDIR)/include -Wno-char-subscripts
+CUSTOM_CFLAGS = -mcpu=cortex-a8 -O2 -isystem $(ABIDIR)/include -Wno-char-subscripts -mno-unaligned-access
###############################################################################
@@ -48,7 +48,7 @@ CUSTOM_CFLAGS = -mcpu=cortex-a8 -O2 -isystem $(ABIDIR)/include -Wno-char-subscri
# The following variables are used to establish the system's memory map.
#
BOOTROMBASE=0x402F0400
-BOOTROMLEN=0x010000
+BOOTROMLEN=0x01b000
BOOTRAMBASE=0x80000000
BOOTRAMLEN=0x010000
RAMTSTROMBASE=0x80100000
@@ -75,7 +75,7 @@ COMCSRC = arp.c cast.c cache.c chario.c cmdtbl.c \
reg_cache.c sbrk.c sd.c \
start.c struct.c symtbl.c syslog.c tcpstuff.c tfs.c tfsapi.c \
tfsclean1.c tfscli.c tfsloader.c tfslog.c tftp.c timestuff.c \
- tsi.c xmodem.c
+ tsi.c xmodem.c dosfs.c fatfs.c
CPUCSRC = except_arm.c misc_arm.c strace_arm.c
IODEVSRC = uart16550.c
FLASHSRC =
diff --git a/ports/beagleboneblack/config.h b/ports/beagleboneblack/config.h
index 2592fdf..b0136c3 100644
--- a/ports/beagleboneblack/config.h
+++ b/ports/beagleboneblack/config.h
@@ -176,7 +176,7 @@
#define INCLUDE_PROFILER 0
#define INCLUDE_BBC 0
#define INCLUDE_STOREMAC 0
-#define INCLUDE_SHELLVARS 0
+#define INCLUDE_SHELLVARS 1
#define INCLUDE_MALLOC 0
#define INCLUDE_PORTCMD 0
#define INCLUDE_SYSLOG 0
@@ -191,6 +191,7 @@
#define INCLUDE_SD 1
#define INCLUDE_DNS 0
#define INCLUDE_BLINKLED 1
+#define INCLUDE_FATFS 1
#define TARGET_BLINKLED target_blinkled
/* Inclusion of this next file will make sure that all of the above
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