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368 lines
17 KiB
Plaintext
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README.TXT (C) Copyright 2006
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DOSFS Level 1 Version 1.02 Lewin A.R.W. Edwards (sysadm@zws.com)
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=====================================================================
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Abstract
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========
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DOSFS is a FAT-compatible filesystem intended for fairly low-end
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embedded applications. It is not the leanest possible implementation
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(the leanest FAT implementations operate in << 512 bytes of RAM, with
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heavy restrictions). This code strikes a good balance between size
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and functionality, with an emphasis on RAM footprint.
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Intended target systems would be in the ballpark of 1K RAM, 4K ROM
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or more.
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Features:
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* Supports FAT12, FAT16 and FAT32 volumes
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* Supports storage devices up to 2048Gbytes in size (LBA32)
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* Supports devices with or without MBRs (hard disks vs. floppy disks
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or ZIP drives formatted as "big floppies")
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* Supports multiple partitions on disks with MBRs
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* Supports subdirectories
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* Can be operated with a single global 512-byte sector buffer
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* Fully reentrant code (assuming the underlying physical device driver
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is reentrant and global sector buffers are not used). There are no
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global variables in the filesystem
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* Does not perform any memory allocation
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* Partial support for random-access files
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Applications:
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* Firmware upgrades
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* Failsafe IPL
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* Media playback
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* Data logging
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* Configuration storage
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There is no technical support for this free product; however, if you
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have questions or suggestions, you are encouraged to email Lewin
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Edwards at sysadm@zws.com. If you need custom additions to the code,
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or if you have other projects for which you need engineering
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assistance, please feel free to email or call (646) 549-3715.
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License
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=======
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The license for DOSFS is very simple but verbose to state.
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1. DOSFS is (C) Copyright 2006 by Lewin A.R.W. Edwards ("Author").
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All rights not explicitly granted herein are reserved. The DOSFS
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code is the permanent property of the Author and no transfer of
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ownership is implied by this license.
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2. DOSFS is an educational project, provided as-is. No guarantee of
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performance or suitability for any application is stated or
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implied. You use this product entirely at your own risk. Use of
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this product in any manner automatically waives any right to seek
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compensation or damages of any sort from the Author. Since the
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products you might make are entirely out of the Author's control,
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use of this product also constitutes an agreement by you to take
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full responsibility for and indemnify the Author against any
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action for any loss or damage (including economic loss of any
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type, and specifically including patent litigation) that arises
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from a product made by you that incorporates any portion of
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the DOSFS code.
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3. If you live under the jurisdiction of any legislation that would
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prohibit or limit any condition in this license, you cannot be
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licensed to use this product.
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4. If you do not fall into the excluded category in point 3, you are
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hereby licensed to use the DOSFS code in any application that you
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see fit. You are not required to pay any fee or notify the Author
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that you are using DOSFS. Any modifications made by you to the
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DOSFS code are your property and you may distribute the modified
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version in any manner that you wish. You are not required to
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disclose sourcecode to such modifications, either to the Author or
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to any third party. Any such disclosure made to the Author will
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irrevocably become the property of the Author in the absence of a
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formal agreement to the contrary, established prior to such
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disclosure being made.
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To summarize the intent of the above: DOSFS is free. You can do what
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you want with it. Anything that happens as a result is entirely your
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responsibility. You can't take ownership of my code and stop me from
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doing whatever I want with it. If you do something nifty with DOSFS
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and send me the sourcecode, I may include your changes in the next
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distribution and it will be released to the world as free software.
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If someone sues you because your DOSFS-containing product causes
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any sort of legal, financial or other problem, it's your lawsuit,
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not mine, and you'll exclude me from the proceedings.
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User-Supplied Functions
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=======================
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You must provide functions to read sectors into memory and write
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them back to the target media. The demo suite includes an emulation
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module that reads/writes a disk image file (#define HOSTVER pulls
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in hostemu.h which wraps the prototypes for these functions).
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There are various tools for UNIX, DOS, Windows et al, to create
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images from storage media; my preferred utility is dd.
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The functions you must supply in your embedded app are:
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DFS_ReadSector(unit,buffer,sector,count)
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DFS_WriteSector(unit,buffer,sector,count)
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These two functions read and write, respectively, "count" sectors of
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size SECTOR_SIZE (512 bytes; see below) from/to physical sector
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#"sector" of device "unit", to/from the scratch buffer "buffer". They
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should return 0 for success or nonzero for failure. In the current
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implementation of DOSFS, count will always be 1.
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The "unit" argument is designed to permit implementation of multiple
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storage devices, for example multiple media slots on a single device,
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or to differentiate between master and slave devices on an ATAPI bus.
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This code is designed for 512-byte sectors. Although the sector size
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is a #define, you should not tinker with it because the vast majority
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of FAT filesystems use 512-byte sectors, and the DOSFS code doesn't
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support runtime determination of sector size. This will not affect the
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vast majority of users.
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Example Code
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============
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Refer to the tests in main.c to see how to call DOSFS functions.
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(These tests are all commented out). Note that the only two files
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you need to add to your project are dosfs.c and dosfs.h.
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Mounting Volumes
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================
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--If the device has a partition table (practically all removable flash
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media are formatted this way), call DFS_GetPtnStart to get the
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starting sector# of the desired partition. You can optionally also
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retrieve the active state, partition type byte and partition size
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in this step. The reason this step is broken out separately is so
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you can support devices that are formatted like a floppy disk, i.e.
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the volume starts directly at physical sector 0 of the media.
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--Call DFS_GetVolInfo to read filesystem info into a VOLINFO structure.
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DFS_GetVolInfo needs to know the unit number and partition starting
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sector (as returned by DFS_GetPtnStart, or 0 if this is a "floppy-
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format" volume without an MBR).
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From this point on, the VOLINFO structure is all you'll need - you can
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forget the unit and partition start sector numbers.
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Enumerating Directory Contents
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==============================
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--Call DFS_Opendir and supply a path, populated VOLINFO and a
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DIRINFO structure to receive the results. Note - you must PREPOPULATE
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the DIRINFO.scratch field with a pointer to a sector scratch buffer.
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This buffer must remain unmolested while you have the directory open
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for searching.
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--Call DFS_GetNext to receive the DIRENT contents for the next directory
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item. This function returns DFS_OK for no error, and DFS_EOF if there
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are no more entries in the directory being searched.
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Before using the DIRENT, check the first character of the name. If it
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is NULL, then this is an unusable entry - call DFS_GetNext again to
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keep searching. LFN directory entries are automatically tagged this way
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so your application will not be pestered by them.
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Note: A designed side-effect of this code is that when you locate the
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file of interest, the DIRINFO.currentcluster, DIRINFO.currentsector
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and DIRINFO.currententry-1 fields will identify the directory entry of
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interest.
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Reading a File
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==============
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--Call DFS_OpenFile with mode = DFS_READ and supply a path and the relevant
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VOLINFO structure. DFS_OpenFile will populate a FILEINFO that can be used
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to refer to the file.
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--Optionally call DFS_Seek to set the file pointer. If you attempt to set
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the file pointer past the end of file, the file will NOT be extended. Check
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the FILEINFO.pointer value after DFS_Seek to verify that the pointer is
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where you expect it to be.
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--Observe that functionality similar to the "whence" parameter of fseek() can
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be obtained by using simple arithmetic on the FILEINFO.pointer and
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FILEINFO.filelen members.
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--Call DFS_ReadFile with the FILEINFO you obtained from OpenFile, and a
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pointer to a buffer plus the desired number of bytes to read, and a
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pointer to a sector-sized scratch buffer. The reason a scratch sector is
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required is because the underlying sector read function doesn't know
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about partial reads.
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--Note that a file opened for reading cannot be written. If you need r/w
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access, open with mode = DFS_WRITE (see below).
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Writing a file
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==============
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--Call DFS_OpenFile with mode = DFS_WRITE and supply a path and the relevant
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VOLINFO structure. DFS_OpenFile will populate a FILEINFO that can be used to
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refer to the file.
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--Optionally call DFS_Seek to set the file pointer. Refer to the notes on
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this topic in the section on reading files, above.
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--Call DFS_WriteFile with the FILEINFO you obtained from OpenFile, and a
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pointer to the source buffer, and a pointer to a sector-sized scratch
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buffer.
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--Note that a file open for writing can also be read.
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--Files are created automatically if they do not exist. Subdirectories are
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NOT automatically created.
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--If you open an existing file for writing, the file pointer will start at
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the beginning of the data; if you want to append, seek to the end before
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writing new data.
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--If you perform random-access writes to a file, the length will NOT change
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unless you exceed the file's original length. There is currently no
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function to truncate a file at the current pointer position.
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--On-disk consistency is guaranteed when DFS_WriteFile exits, unless your
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physical layer has a writeback cache in it.
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Deleting a file
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===============
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--Call DFS_UnlinkFile
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--WARNING: This call will delete a subdirectory (correctly) but will NOT
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first recurse the directory to delete the contents - so you will end up
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with lost clusters.
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Notes
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=====
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Some platforms may require explicit pragmas or attributes to the structures
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and unions. For example, arm-gcc will require __attribute__ ((__packed__))
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otherwise it will try to be "smart" and place the uint8_t members on 4-byte
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boundaries. There is no truly elegant compiler-independent method to get
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around this sort of problem.
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The code assumes either a von Neumann architecture, or a compiler that
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is smart enough to understand where your pointers are aimed and emit
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the right kind of memory read and write instructions. The implications
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of this statement depend on your target processor and the compiler you
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are using. Be very careful not to straddle bank boundaries on bank-
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switched memory systems.
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Physical 32-bit sector numbers are used throughout. Therefore, the
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CHS geometry (if any) of the storage media is not known to DOSFS. Your
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sector r/w functions may need to query the CHS geometry and perform
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mapping.
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File timestamps set by DOSFS are always 1:01:00am on Jan 1, 2006. If
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your system has a concept of real time, you can enhance this.
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FILEINFO structures contain a pointer to the corresponding VOLINFO
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used to open the file, mainly in order to avoid mixups but also to
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obviate the need for an extra parameter to every file read/write. DOSFS
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assumes that the VOLINFO won't move around. If you need to move or
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destroy VOLINFOs pertaining to open files, you'll have to fix up the
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pointer in the FILEINFO structure yourself.
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The subdirectory delimiter is a forward slash ( '/' ) by default. The
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reason for this is to avoid the common programming error of forgetting
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that backslash is an escape character in C strings; i.e. "\MYDIR\FILE"
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is NOT what you want; "\\MYDIR\\FILE" is what you wanted to type. If you
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are porting DOS code into an embedded environment, feel free to change
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this #define.
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DOSFS does not have a concept of "current directory". A current directory
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is owned by a process, and a process is an operating system concept.
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DOSFS is a filesystem library, not an operating system. Therefore, any
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path you provide to a DOSFS call is assumed to be relative to the root of
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the volume.
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There is no call to close a file or directory that is open for reading or
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writing. You can simply destroy or reuse the data structures allocated for
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that operation; there is no internal state in DOSFS so no cleanup is
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necessary. Similarly, there is no call to close a file that is open for
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writing. (Observe that dosfs.c has no global variables. All state information
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is stored in data structures provided by the caller).
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MAX_PATH is defined as 64. MS-type DOS filesystems support 128 characters
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or more in paths. You can increase this define, but it may GREATLY
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increase memory requirements.
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VFAT long filenames are not supported. There is a certain amount of
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patent controversy about them, but more importantly they don't really
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belong in the scope of a "minimalist embedded filesystem".
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Improving Performance
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=====================
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Read performance is fairly good, but can be improved by implementing read
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caching on the FAT (see below) and, depending on your hardware platform,
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possibly by implementing multi-sector reads.
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Write performance may benefit ENORMOUSLY from platform-specific
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optimization, especially if you are working with a flash media type that
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has a large erase block size. While it is not possible to offer detailed
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platform-independent advice, my general advice is to implement writeback
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caching on the FAT area. One method for doing this would be to have a
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cache system that lives in the DFS_ReadSector/WriteSector functions (on
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top of the physical sector r/w functions) and is initially switched off.
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Once you have called DFS_GetVolInfo, you then extract the VOLINFO.fat1
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and VOLINFO.rootdir parameters and pass them to your caching layer.
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Sectors >= fat1 and < rootdir should be cached. The cache strategy is
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determined by the physical storage medium underlying the filesystem.
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CACHING HINT:
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Observe that there will be numerous read-modify-write operations in the
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region from VOLINFO.fat1 through VOLINFO.fat1+VOLINFO.secperfat-1, but
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in the region from VOLINFO.fat1+VOLINFO.secperfat through VOLINFO.rootdir
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there will ONLY be write operations.
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Platform Compatibility
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======================
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DOSFS was derived from code originally written for ARM7TDMI but
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designed to be portable. It has been tested on AVR (using avrgcc),
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MSP430 (using Rowley's CrossWorks) and PPC603e (using gcc); the host
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test suite has also been validated on x86 using gcc under both Cygwin
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and 32-bit Fedora Core 4 Linux.
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TODO list
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=========
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* Add function to create subdirectory
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* Make DFS_UnlinkFile recognize non-empty subdirectories
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* Support "fast write" files where the FAT is not updated, for
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logging applications where latency is important.
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Test cases for V1.02
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====================
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Version 1.02 has NOT been through full regression testing. However the
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bugs fixed in this version are important, and people have been asking
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about them.
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Test cases for V1.01
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====================
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See below.
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Test cases for V1.00
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====================
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These are the test cases that were used to validate the correct
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functionality of the DOSFS suite. Each test was performed on FAT12,
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FAT16 and FAT32 volumes. P=Pass, F=Fail.
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Case F12 F16 F32
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---------------------------------------------------------------------
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Get volume information P P P
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Open root directory P P P
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List contents of root directory (fully populated) P P P
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Open subdirectory P P P
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List contents of subdirectory (<= 1 cluster) P P P
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List contents of large subdirectory (> 1 cluster) P P P
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Open 5-level nested subdirectory P P P
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Open existing file for reading P P P
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Open nonexistent file for reading P P P
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Seek past EOF, file open for reading P P P
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Seek to cluster boundary P P P
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Seek past cluster boundary P P P
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Seek backwards to nonzero offset, pointer > cluster size P P P
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Block-read entire file >1 cluster in size, odd size P P P
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Seek to odd location in file P P P
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Perform <1 sector reads from random file locations P P P
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Open nonexistent file for writing in root dir P P P
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Open nonexistent file for writing in subdir P P P
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Repeat prev. 2 tests on volume with 0 free clusters P P P
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Seek past EOF, file open for writing P P P
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Open existing file for writing in root dir P P P
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Write random-length records to file, 20 clusters total P P P
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MS-DOS 6.0 SCANDISK cross-check P P P
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Revision History
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================
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Jan-06-2005 larwe Initial release (1.0)
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Jan-29-2006 larwe Bugfix release (1.01)
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- Fixed error in FAT12 FAT read on boundary of sector
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- Improved compilability under avrgcc
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Sep-16-2006 larwe Bugfix release (1.02)
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- DFS_Seek would not correctly rewind to start of file
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- DFS_Seek would not correctly seek to a position not on a cluster
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boundary
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- DFS_OpenFile fencepost error caused memory access at [start of
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string-1] with a local variable
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- DFS_OpenFile could not open a file in the root directory
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