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openwrt-xburst/target/linux/generic/files/fs/yaffs2/yaffs_mtdif1-compat.c

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From ian@brightstareng.com Fri May 18 15:06:49 2007
From ian@brightstareng.com Fri May 18 15:08:21 2007
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From: Ian McDonnell <ian@brightstareng.com>
To: David Goodenough <david.goodenough@linkchoose.co.uk>
Subject: Re: something tested this time -- yaffs_mtdif1-compat.c
Date: Fri, 18 May 2007 10:06:49 -0400
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References: <200705142207.06909.ian@brightstareng.com> <200705171131.53536.ian@brightstareng.com> <200705181334.32166.david.goodenough@linkchoose.co.uk>
In-Reply-To: <200705181334.32166.david.goodenough@linkchoose.co.uk>
Cc: Andrea Conti <alyf@alyf.net>,
Charles Manning <manningc2@actrix.gen.nz>
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David, Andrea,
On Friday 18 May 2007 08:34, you wrote:
> Yea team. With this fix in place (I put it in the wrong place
> at first) I can now mount and ls the Yaffs partition without
> an error messages!
Good news!
Attached is a newer yaffs_mtdif1.c with a bandaid to help the
2.6.18 and 2.6.19 versions of MTD not trip on the oob read.
See the LINUX_VERSION_CODE conditional in
nandmtd1_ReadChunkWithTagsFromNAND.
-imcd
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filename="yaffs_mtdif1.c"
/*
* YAFFS: Yet another FFS. A NAND-flash specific file system.
* yaffs_mtdif1.c NAND mtd interface functions for small-page NAND.
*
* Copyright (C) 2002 Aleph One Ltd.
* for Toby Churchill Ltd and Brightstar Engineering
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
/*
* This module provides the interface between yaffs_nand.c and the
* MTD API. This version is used when the MTD interface supports the
* 'mtd_oob_ops' style calls to read_oob and write_oob, circa 2.6.17,
* and we have small-page NAND device.
*
* These functions are invoked via function pointers in yaffs_nand.c.
* This replaces functionality provided by functions in yaffs_mtdif.c
* and the yaffs_TagsCompatability functions in yaffs_tagscompat.c that are
* called in yaffs_mtdif.c when the function pointers are NULL.
* We assume the MTD layer is performing ECC (useNANDECC is true).
*/
#include "yportenv.h"
#include "yaffs_guts.h"
#include "yaffs_packedtags1.h"
#include "yaffs_tagscompat.h" // for yaffs_CalcTagsECC
#include "linux/kernel.h"
#include "linux/version.h"
#include "linux/types.h"
#include "linux/mtd/mtd.h"
/* Don't compile this module if we don't have MTD's mtd_oob_ops interface */
#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,17))
const char *yaffs_mtdif1_c_version = "$Id$";
#ifndef CONFIG_YAFFS_9BYTE_TAGS
# define YTAG1_SIZE 8
#else
# define YTAG1_SIZE 9
#endif
#if 0
/* Use the following nand_ecclayout with MTD when using
* CONFIG_YAFFS_9BYTE_TAGS and the older on-NAND tags layout.
* If you have existing Yaffs images and the byte order differs from this,
* adjust 'oobfree' to match your existing Yaffs data.
*
* This nand_ecclayout scatters/gathers to/from the old-yaffs layout with the
* pageStatus byte (at NAND spare offset 4) scattered/gathered from/to
* the 9th byte.
*
* Old-style on-NAND format: T0,T1,T2,T3,P,B,T4,T5,E0,E1,E2,T6,T7,E3,E4,E5
* We have/need PackedTags1 plus pageStatus: T0,T1,T2,T3,T4,T5,T6,T7,P
* where Tn are the tag bytes, En are MTD's ECC bytes, P is the pageStatus
* byte and B is the small-page bad-block indicator byte.
*/
static struct nand_ecclayout nand_oob_16 = {
.eccbytes = 6,
.eccpos = { 8, 9, 10, 13, 14, 15 },
.oobavail = 9,
.oobfree = { { 0, 4 }, { 6, 2 }, { 11, 2 }, { 4, 1 } }
};
#endif
/* Write a chunk (page) of data to NAND.
*
* Caller always provides ExtendedTags data which are converted to a more
* compact (packed) form for storage in NAND. A mini-ECC runs over the
* contents of the tags meta-data; used to valid the tags when read.
*
* - Pack ExtendedTags to PackedTags1 form
* - Compute mini-ECC for PackedTags1
* - Write data and packed tags to NAND.
*
* Note: Due to the use of the PackedTags1 meta-data which does not include
* a full sequence number (as found in the larger PackedTags2 form) it is
* necessary for Yaffs to re-write a chunk/page (just once) to mark it as
* discarded and dirty. This is not ideal: newer NAND parts are supposed
* to be written just once. When Yaffs performs this operation, this
* function is called with a NULL data pointer -- calling MTD write_oob
* without data is valid usage (2.6.17).
*
* Any underlying MTD error results in YAFFS_FAIL.
* Returns YAFFS_OK or YAFFS_FAIL.
*/
int nandmtd1_WriteChunkWithTagsToNAND(yaffs_Device *dev,
int chunkInNAND, const __u8 * data, const yaffs_ExtendedTags * etags)
{
struct mtd_info * mtd = dev->genericDevice;
int chunkBytes = dev->nDataBytesPerChunk;
loff_t addr = ((loff_t)chunkInNAND) * chunkBytes;
struct mtd_oob_ops ops;
yaffs_PackedTags1 pt1;
int retval;
/* we assume that PackedTags1 and yaffs_Tags are compatible */
compile_time_assertion(sizeof(yaffs_PackedTags1) == 12);
compile_time_assertion(sizeof(yaffs_Tags) == 8);
yaffs_PackTags1(&pt1, etags);
yaffs_CalcTagsECC((yaffs_Tags *)&pt1);
/* When deleting a chunk, the upper layer provides only skeletal
* etags, one with chunkDeleted set. However, we need to update the
* tags, not erase them completely. So we use the NAND write property
* that only zeroed-bits stick and set tag bytes to all-ones and
* zero just the (not) deleted bit.
*/
#ifndef CONFIG_YAFFS_9BYTE_TAGS
if (etags->chunkDeleted) {
memset(&pt1, 0xff, 8);
/* clear delete status bit to indicate deleted */
pt1.deleted = 0;
}
#else
((__u8 *)&pt1)[8] = 0xff;
if (etags->chunkDeleted) {
memset(&pt1, 0xff, 8);
/* zero pageStatus byte to indicate deleted */
((__u8 *)&pt1)[8] = 0;
}
#endif
memset(&ops, 0, sizeof(ops));
ops.mode = MTD_OOB_AUTO;
ops.len = (data) ? chunkBytes : 0;
ops.ooblen = YTAG1_SIZE;
ops.datbuf = (__u8 *)data;
ops.oobbuf = (__u8 *)&pt1;
retval = mtd->write_oob(mtd, addr, &ops);
if (retval) {
yaffs_trace(YAFFS_TRACE_MTD,
"write_oob failed, chunk %d, mtd error %d\n",
chunkInNAND, retval);
}
return retval ? YAFFS_FAIL : YAFFS_OK;
}
/* Return with empty ExtendedTags but add eccResult.
*/
static int rettags(yaffs_ExtendedTags * etags, int eccResult, int retval)
{
if (etags) {
memset(etags, 0, sizeof(*etags));
etags->eccResult = eccResult;
}
return retval;
}
/* Read a chunk (page) from NAND.
*
* Caller expects ExtendedTags data to be usable even on error; that is,
* all members except eccResult and blockBad are zeroed.
*
* - Check ECC results for data (if applicable)
* - Check for blank/erased block (return empty ExtendedTags if blank)
* - Check the PackedTags1 mini-ECC (correct if necessary/possible)
* - Convert PackedTags1 to ExtendedTags
* - Update eccResult and blockBad members to refect state.
*
* Returns YAFFS_OK or YAFFS_FAIL.
*/
int nandmtd1_ReadChunkWithTagsFromNAND(yaffs_Device *dev,
int chunkInNAND, __u8 * data, yaffs_ExtendedTags * etags)
{
struct mtd_info * mtd = dev->genericDevice;
int chunkBytes = dev->nDataBytesPerChunk;
loff_t addr = ((loff_t)chunkInNAND) * chunkBytes;
int eccres = YAFFS_ECC_RESULT_NO_ERROR;
struct mtd_oob_ops ops;
yaffs_PackedTags1 pt1;
int retval;
int deleted;
memset(&ops, 0, sizeof(ops));
ops.mode = MTD_OOB_AUTO;
ops.len = (data) ? chunkBytes : 0;
ops.ooblen = YTAG1_SIZE;
ops.datbuf = data;
ops.oobbuf = (__u8 *)&pt1;
#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,20))
/* In MTD 2.6.18 to 2.6.19 nand_base.c:nand_do_read_oob() has a bug;
* help it out with ops.len = ops.ooblen when ops.datbuf == NULL.
*/
ops.len = (ops.datbuf) ? ops.len : ops.ooblen;
#endif
/* Read page and oob using MTD.
* Check status and determine ECC result.
*/
retval = mtd->read_oob(mtd, addr, &ops);
if (retval) {
yaffs_trace(YAFFS_TRACE_MTD,
"read_oob failed, chunk %d, mtd error %d\n",
chunkInNAND, retval);
}
switch (retval) {
case 0:
/* no error */
break;
case -EUCLEAN:
/* MTD's ECC fixed the data */
eccres = YAFFS_ECC_RESULT_FIXED;
dev->eccFixed++;
break;
case -EBADMSG:
/* MTD's ECC could not fix the data */
dev->eccUnfixed++;
/* fall into... */
default:
rettags(etags, YAFFS_ECC_RESULT_UNFIXED, 0);
etags->blockBad = (mtd->block_isbad)(mtd, addr);
return YAFFS_FAIL;
}
/* Check for a blank/erased chunk.
*/
if (yaffs_CheckFF((__u8 *)&pt1, 8)) {
/* when blank, upper layers want eccResult to be <= NO_ERROR */
return rettags(etags, YAFFS_ECC_RESULT_NO_ERROR, YAFFS_OK);
}
#ifndef CONFIG_YAFFS_9BYTE_TAGS
/* Read deleted status (bit) then return it to it's non-deleted
* state before performing tags mini-ECC check. pt1.deleted is
* inverted.
*/
deleted = !pt1.deleted;
pt1.deleted = 1;
#else
(void) deleted; /* not used */
#endif
/* Check the packed tags mini-ECC and correct if necessary/possible.
*/
retval = yaffs_CheckECCOnTags((yaffs_Tags *)&pt1);
switch (retval) {
case 0:
/* no tags error, use MTD result */
break;
case 1:
/* recovered tags-ECC error */
dev->tagsEccFixed++;
eccres = YAFFS_ECC_RESULT_FIXED;
break;
default:
/* unrecovered tags-ECC error */
dev->tagsEccUnfixed++;
return rettags(etags, YAFFS_ECC_RESULT_UNFIXED, YAFFS_FAIL);
}
/* Unpack the tags to extended form and set ECC result.
* [set shouldBeFF just to keep yaffs_UnpackTags1 happy]
*/
pt1.shouldBeFF = 0xFFFFFFFF;
yaffs_UnpackTags1(etags, &pt1);
etags->eccResult = eccres;
/* Set deleted state.
*/
#ifndef CONFIG_YAFFS_9BYTE_TAGS
etags->chunkDeleted = deleted;
#else
etags->chunkDeleted = (yaffs_CountBits(((__u8 *)&pt1)[8]) < 7);
#endif
return YAFFS_OK;
}
/* Mark a block bad.
*
* This is a persistant state.
* Use of this function should be rare.
*
* Returns YAFFS_OK or YAFFS_FAIL.
*/
int nandmtd1_MarkNANDBlockBad(struct yaffs_DeviceStruct *dev, int blockNo)
{
struct mtd_info * mtd = dev->genericDevice;
int blocksize = dev->nChunksPerBlock * dev->nDataBytesPerChunk;
int retval;
yaffs_trace(YAFFS_TRACE_BAD_BLOCKS, "marking block %d bad", blockNo);
retval = mtd->block_markbad(mtd, (loff_t)blocksize * blockNo);
return (retval) ? YAFFS_FAIL : YAFFS_OK;
}
/* Check any MTD prerequists.
*
* Returns YAFFS_OK or YAFFS_FAIL.
*/
static int nandmtd1_TestPrerequists(struct mtd_info * mtd)
{
/* 2.6.18 has mtd->ecclayout->oobavail */
/* 2.6.21 has mtd->ecclayout->oobavail and mtd->oobavail */
int oobavail = mtd->ecclayout->oobavail;
if (oobavail < YTAG1_SIZE) {
yaffs_trace(YAFFS_TRACE_ERROR,
"mtd device has only %d bytes for tags, need %d",
oobavail, YTAG1_SIZE);
return YAFFS_FAIL;
}
return YAFFS_OK;
}
/* Query for the current state of a specific block.
*
* Examine the tags of the first chunk of the block and return the state:
* - YAFFS_BLOCK_STATE_DEAD, the block is marked bad
* - YAFFS_BLOCK_STATE_NEEDS_SCANNING, the block is in use
* - YAFFS_BLOCK_STATE_EMPTY, the block is clean
*
* Always returns YAFFS_OK.
*/
int nandmtd1_QueryNANDBlock(struct yaffs_DeviceStruct *dev, int blockNo,
yaffs_BlockState * pState, int *pSequenceNumber)
{
struct mtd_info * mtd = dev->genericDevice;
int chunkNo = blockNo * dev->nChunksPerBlock;
yaffs_ExtendedTags etags;
int state = YAFFS_BLOCK_STATE_DEAD;
int seqnum = 0;
int retval;
/* We don't yet have a good place to test for MTD config prerequists.
* Do it here as we are called during the initial scan.
*/
if (nandmtd1_TestPrerequists(mtd) != YAFFS_OK) {
return YAFFS_FAIL;
}
retval = nandmtd1_ReadChunkWithTagsFromNAND(dev, chunkNo, NULL, &etags);
if (etags.blockBad) {
yaffs_trace(YAFFS_TRACE_BAD_BLOCKS,
"block %d is marked bad", blockNo);
state = YAFFS_BLOCK_STATE_DEAD;
}
else if (etags.chunkUsed) {
state = YAFFS_BLOCK_STATE_NEEDS_SCANNING;
seqnum = etags.sequenceNumber;
}
else {
state = YAFFS_BLOCK_STATE_EMPTY;
}
*pState = state;
*pSequenceNumber = seqnum;
/* query always succeeds */
return YAFFS_OK;
}
#endif /*KERNEL_VERSION*/
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