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kernel_samsung_sm7125/drivers/mtd/devices/doc2001plus.c

1112 lines
31 KiB

/*
* Linux driver for Disk-On-Chip Millennium Plus
*
* (c) 2002-2003 Greg Ungerer <gerg@snapgear.com>
* (c) 2002-2003 SnapGear Inc
* (c) 1999 Machine Vision Holdings, Inc.
* (c) 1999, 2000 David Woodhouse <dwmw2@infradead.org>
*
* $Id: doc2001plus.c,v 1.14 2005/11/07 11:14:24 gleixner Exp $
*
* Released under GPL
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <asm/errno.h>
#include <asm/io.h>
#include <asm/uaccess.h>
#include <linux/miscdevice.h>
#include <linux/pci.h>
#include <linux/delay.h>
#include <linux/slab.h>
#include <linux/sched.h>
#include <linux/init.h>
#include <linux/types.h>
#include <linux/bitops.h>
#include <linux/mtd/mtd.h>
#include <linux/mtd/nand.h>
#include <linux/mtd/doc2000.h>
/* #define ECC_DEBUG */
/* I have no idea why some DoC chips can not use memcop_form|to_io().
* This may be due to the different revisions of the ASIC controller built-in or
* simplily a QA/Bug issue. Who knows ?? If you have trouble, please uncomment
* this:*/
#undef USE_MEMCPY
static int doc_read(struct mtd_info *mtd, loff_t from, size_t len,
size_t *retlen, u_char *buf);
static int doc_write(struct mtd_info *mtd, loff_t to, size_t len,
size_t *retlen, const u_char *buf);
static int doc_read_oob(struct mtd_info *mtd, loff_t ofs,
struct mtd_oob_ops *ops);
static int doc_write_oob(struct mtd_info *mtd, loff_t ofs,
struct mtd_oob_ops *ops);
static int doc_erase (struct mtd_info *mtd, struct erase_info *instr);
static struct mtd_info *docmilpluslist = NULL;
/* Perform the required delay cycles by writing to the NOP register */
static void DoC_Delay(void __iomem * docptr, int cycles)
{
int i;
for (i = 0; (i < cycles); i++)
WriteDOC(0, docptr, Mplus_NOP);
}
#define CDSN_CTRL_FR_B_MASK (CDSN_CTRL_FR_B0 | CDSN_CTRL_FR_B1)
/* DOC_WaitReady: Wait for RDY line to be asserted by the flash chip */
static int _DoC_WaitReady(void __iomem * docptr)
{
unsigned int c = 0xffff;
DEBUG(MTD_DEBUG_LEVEL3,
"_DoC_WaitReady called for out-of-line wait\n");
/* Out-of-line routine to wait for chip response */
while (((ReadDOC(docptr, Mplus_FlashControl) & CDSN_CTRL_FR_B_MASK) != CDSN_CTRL_FR_B_MASK) && --c)
;
if (c == 0)
DEBUG(MTD_DEBUG_LEVEL2, "_DoC_WaitReady timed out.\n");
return (c == 0);
}
static inline int DoC_WaitReady(void __iomem * docptr)
{
/* This is inline, to optimise the common case, where it's ready instantly */
int ret = 0;
/* read form NOP register should be issued prior to the read from CDSNControl
see Software Requirement 11.4 item 2. */
DoC_Delay(docptr, 4);
if ((ReadDOC(docptr, Mplus_FlashControl) & CDSN_CTRL_FR_B_MASK) != CDSN_CTRL_FR_B_MASK)
/* Call the out-of-line routine to wait */
ret = _DoC_WaitReady(docptr);
return ret;
}
/* For some reason the Millennium Plus seems to occassionally put itself
* into reset mode. For me this happens randomly, with no pattern that I
* can detect. M-systems suggest always check this on any block level
* operation and setting to normal mode if in reset mode.
*/
static inline void DoC_CheckASIC(void __iomem * docptr)
{
/* Make sure the DoC is in normal mode */
if ((ReadDOC(docptr, Mplus_DOCControl) & DOC_MODE_NORMAL) == 0) {
WriteDOC((DOC_MODE_NORMAL | DOC_MODE_MDWREN), docptr, Mplus_DOCControl);
WriteDOC(~(DOC_MODE_NORMAL | DOC_MODE_MDWREN), docptr, Mplus_CtrlConfirm);
}
}
/* DoC_Command: Send a flash command to the flash chip through the Flash
* command register. Need 2 Write Pipeline Terminates to complete send.
*/
static void DoC_Command(void __iomem * docptr, unsigned char command,
unsigned char xtraflags)
{
WriteDOC(command, docptr, Mplus_FlashCmd);
WriteDOC(command, docptr, Mplus_WritePipeTerm);
WriteDOC(command, docptr, Mplus_WritePipeTerm);
}
/* DoC_Address: Set the current address for the flash chip through the Flash
* Address register. Need 2 Write Pipeline Terminates to complete send.
*/
static inline void DoC_Address(struct DiskOnChip *doc, int numbytes,
unsigned long ofs, unsigned char xtraflags1,
unsigned char xtraflags2)
{
void __iomem * docptr = doc->virtadr;
/* Allow for possible Mill Plus internal flash interleaving */
ofs >>= doc->interleave;
switch (numbytes) {
case 1:
/* Send single byte, bits 0-7. */
WriteDOC(ofs & 0xff, docptr, Mplus_FlashAddress);
break;
case 2:
/* Send bits 9-16 followed by 17-23 */
WriteDOC((ofs >> 9) & 0xff, docptr, Mplus_FlashAddress);
WriteDOC((ofs >> 17) & 0xff, docptr, Mplus_FlashAddress);
break;
case 3:
/* Send 0-7, 9-16, then 17-23 */
WriteDOC(ofs & 0xff, docptr, Mplus_FlashAddress);
WriteDOC((ofs >> 9) & 0xff, docptr, Mplus_FlashAddress);
WriteDOC((ofs >> 17) & 0xff, docptr, Mplus_FlashAddress);
break;
default:
return;
}
WriteDOC(0x00, docptr, Mplus_WritePipeTerm);
WriteDOC(0x00, docptr, Mplus_WritePipeTerm);
}
/* DoC_SelectChip: Select a given flash chip within the current floor */
static int DoC_SelectChip(void __iomem * docptr, int chip)
{
/* No choice for flash chip on Millennium Plus */
return 0;
}
/* DoC_SelectFloor: Select a given floor (bank of flash chips) */
static int DoC_SelectFloor(void __iomem * docptr, int floor)
{
WriteDOC((floor & 0x3), docptr, Mplus_DeviceSelect);
return 0;
}
/*
* Translate the given offset into the appropriate command and offset.
* This does the mapping using the 16bit interleave layout defined by
* M-Systems, and looks like this for a sector pair:
* +-----------+-------+-------+-------+--------------+---------+-----------+
* | 0 --- 511 |512-517|518-519|520-521| 522 --- 1033 |1034-1039|1040 - 1055|
* +-----------+-------+-------+-------+--------------+---------+-----------+
* | Data 0 | ECC 0 |Flags0 |Flags1 | Data 1 |ECC 1 | OOB 1 + 2 |
* +-----------+-------+-------+-------+--------------+---------+-----------+
*/
/* FIXME: This lives in INFTL not here. Other users of flash devices
may not want it */
static unsigned int DoC_GetDataOffset(struct mtd_info *mtd, loff_t *from)
{
struct DiskOnChip *this = mtd->priv;
if (this->interleave) {
unsigned int ofs = *from & 0x3ff;
unsigned int cmd;
if (ofs < 512) {
cmd = NAND_CMD_READ0;
ofs &= 0x1ff;
} else if (ofs < 1014) {
cmd = NAND_CMD_READ1;
ofs = (ofs & 0x1ff) + 10;
} else {
cmd = NAND_CMD_READOOB;
ofs = ofs - 1014;
}
*from = (*from & ~0x3ff) | ofs;
return cmd;
} else {
/* No interleave */
if ((*from) & 0x100)
return NAND_CMD_READ1;
return NAND_CMD_READ0;
}
}
static unsigned int DoC_GetECCOffset(struct mtd_info *mtd, loff_t *from)
{
unsigned int ofs, cmd;
if (*from & 0x200) {
cmd = NAND_CMD_READOOB;
ofs = 10 + (*from & 0xf);
} else {
cmd = NAND_CMD_READ1;
ofs = (*from & 0xf);
}
*from = (*from & ~0x3ff) | ofs;
return cmd;
}
static unsigned int DoC_GetFlagsOffset(struct mtd_info *mtd, loff_t *from)
{
unsigned int ofs, cmd;
cmd = NAND_CMD_READ1;
ofs = (*from & 0x200) ? 8 : 6;
*from = (*from & ~0x3ff) | ofs;
return cmd;
}
static unsigned int DoC_GetHdrOffset(struct mtd_info *mtd, loff_t *from)
{
unsigned int ofs, cmd;
cmd = NAND_CMD_READOOB;
ofs = (*from & 0x200) ? 24 : 16;
*from = (*from & ~0x3ff) | ofs;
return cmd;
}
static inline void MemReadDOC(void __iomem * docptr, unsigned char *buf, int len)
{
#ifndef USE_MEMCPY
int i;
for (i = 0; i < len; i++)
buf[i] = ReadDOC(docptr, Mil_CDSN_IO + i);
#else
memcpy_fromio(buf, docptr + DoC_Mil_CDSN_IO, len);
#endif
}
static inline void MemWriteDOC(void __iomem * docptr, unsigned char *buf, int len)
{
#ifndef USE_MEMCPY
int i;
for (i = 0; i < len; i++)
WriteDOC(buf[i], docptr, Mil_CDSN_IO + i);
#else
memcpy_toio(docptr + DoC_Mil_CDSN_IO, buf, len);
#endif
}
/* DoC_IdentChip: Identify a given NAND chip given {floor,chip} */
static int DoC_IdentChip(struct DiskOnChip *doc, int floor, int chip)
{
int mfr, id, i, j;
volatile char dummy;
void __iomem * docptr = doc->virtadr;
/* Page in the required floor/chip */
DoC_SelectFloor(docptr, floor);
DoC_SelectChip(docptr, chip);
/* Millennium Plus bus cycle sequence as per figure 2, section 2.4 */
WriteDOC((DOC_FLASH_CE | DOC_FLASH_WP), docptr, Mplus_FlashSelect);
/* Reset the chip, see Software Requirement 11.4 item 1. */
DoC_Command(docptr, NAND_CMD_RESET, 0);
DoC_WaitReady(docptr);
/* Read the NAND chip ID: 1. Send ReadID command */
DoC_Command(docptr, NAND_CMD_READID, 0);
/* Read the NAND chip ID: 2. Send address byte zero */
DoC_Address(doc, 1, 0x00, 0, 0x00);
WriteDOC(0, docptr, Mplus_FlashControl);
DoC_WaitReady(docptr);
/* Read the manufacturer and device id codes of the flash device through
CDSN IO register see Software Requirement 11.4 item 5.*/
dummy = ReadDOC(docptr, Mplus_ReadPipeInit);
dummy = ReadDOC(docptr, Mplus_ReadPipeInit);
mfr = ReadDOC(docptr, Mil_CDSN_IO);
if (doc->interleave)
dummy = ReadDOC(docptr, Mil_CDSN_IO); /* 2 way interleave */
id = ReadDOC(docptr, Mil_CDSN_IO);
if (doc->interleave)
dummy = ReadDOC(docptr, Mil_CDSN_IO); /* 2 way interleave */
dummy = ReadDOC(docptr, Mplus_LastDataRead);
dummy = ReadDOC(docptr, Mplus_LastDataRead);
/* Disable flash internally */
WriteDOC(0, docptr, Mplus_FlashSelect);
/* No response - return failure */
if (mfr == 0xff || mfr == 0)
return 0;
for (i = 0; nand_flash_ids[i].name != NULL; i++) {
if (id == nand_flash_ids[i].id) {
/* Try to identify manufacturer */
for (j = 0; nand_manuf_ids[j].id != 0x0; j++) {
if (nand_manuf_ids[j].id == mfr)
break;
}
printk(KERN_INFO "Flash chip found: Manufacturer ID: %2.2X, "
"Chip ID: %2.2X (%s:%s)\n", mfr, id,
nand_manuf_ids[j].name, nand_flash_ids[i].name);
doc->mfr = mfr;
doc->id = id;
doc->chipshift = ffs((nand_flash_ids[i].chipsize << 20)) - 1;
doc->erasesize = nand_flash_ids[i].erasesize << doc->interleave;
break;
}
}
if (nand_flash_ids[i].name == NULL)
return 0;
return 1;
}
/* DoC_ScanChips: Find all NAND chips present in a DiskOnChip, and identify them */
static void DoC_ScanChips(struct DiskOnChip *this)
{
int floor, chip;
int numchips[MAX_FLOORS_MPLUS];
int ret;
this->numchips = 0;
this->mfr = 0;
this->id = 0;
/* Work out the intended interleave setting */
this->interleave = 0;
if (this->ChipID == DOC_ChipID_DocMilPlus32)
this->interleave = 1;
/* Check the ASIC agrees */
if ( (this->interleave << 2) !=
(ReadDOC(this->virtadr, Mplus_Configuration) & 4)) {
u_char conf = ReadDOC(this->virtadr, Mplus_Configuration);
printk(KERN_NOTICE "Setting DiskOnChip Millennium Plus interleave to %s\n",
this->interleave?"on (16-bit)":"off (8-bit)");
conf ^= 4;
WriteDOC(conf, this->virtadr, Mplus_Configuration);
}
/* For each floor, find the number of valid chips it contains */
for (floor = 0,ret = 1; floor < MAX_FLOORS_MPLUS; floor++) {
numchips[floor] = 0;
for (chip = 0; chip < MAX_CHIPS_MPLUS && ret != 0; chip++) {
ret = DoC_IdentChip(this, floor, chip);
if (ret) {
numchips[floor]++;
this->numchips++;
}
}
}
/* If there are none at all that we recognise, bail */
if (!this->numchips) {
printk("No flash chips recognised.\n");
return;
}
/* Allocate an array to hold the information for each chip */
this->chips = kmalloc(sizeof(struct Nand) * this->numchips, GFP_KERNEL);
if (!this->chips){
printk("MTD: No memory for allocating chip info structures\n");
return;
}
/* Fill out the chip array with {floor, chipno} for each
* detected chip in the device. */
for (floor = 0, ret = 0; floor < MAX_FLOORS_MPLUS; floor++) {
for (chip = 0 ; chip < numchips[floor] ; chip++) {
this->chips[ret].floor = floor;
this->chips[ret].chip = chip;
this->chips[ret].curadr = 0;
this->chips[ret].curmode = 0x50;
ret++;
}
}
/* Calculate and print the total size of the device */
this->totlen = this->numchips * (1 << this->chipshift);
printk(KERN_INFO "%d flash chips found. Total DiskOnChip size: %ld MiB\n",
this->numchips ,this->totlen >> 20);
}
static int DoCMilPlus_is_alias(struct DiskOnChip *doc1, struct DiskOnChip *doc2)
{
int tmp1, tmp2, retval;
if (doc1->physadr == doc2->physadr)
return 1;
/* Use the alias resolution register which was set aside for this
* purpose. If it's value is the same on both chips, they might
* be the same chip, and we write to one and check for a change in
* the other. It's unclear if this register is usuable in the
* DoC 2000 (it's in the Millennium docs), but it seems to work. */
tmp1 = ReadDOC(doc1->virtadr, Mplus_AliasResolution);
tmp2 = ReadDOC(doc2->virtadr, Mplus_AliasResolution);
if (tmp1 != tmp2)
return 0;
WriteDOC((tmp1+1) % 0xff, doc1->virtadr, Mplus_AliasResolution);
tmp2 = ReadDOC(doc2->virtadr, Mplus_AliasResolution);
if (tmp2 == (tmp1+1) % 0xff)
retval = 1;
else
retval = 0;
/* Restore register contents. May not be necessary, but do it just to
* be safe. */
WriteDOC(tmp1, doc1->virtadr, Mplus_AliasResolution);
return retval;
}
/* This routine is found from the docprobe code by symbol_get(),
* which will bump the use count of this module. */
void DoCMilPlus_init(struct mtd_info *mtd)
{
struct DiskOnChip *this = mtd->priv;
struct DiskOnChip *old = NULL;
/* We must avoid being called twice for the same device. */
if (docmilpluslist)
old = docmilpluslist->priv;
while (old) {
if (DoCMilPlus_is_alias(this, old)) {
printk(KERN_NOTICE "Ignoring DiskOnChip Millennium "
"Plus at 0x%lX - already configured\n",
this->physadr);
iounmap(this->virtadr);
kfree(mtd);
return;
}
if (old->nextdoc)
old = old->nextdoc->priv;
else
old = NULL;
}
mtd->name = "DiskOnChip Millennium Plus";
printk(KERN_NOTICE "DiskOnChip Millennium Plus found at "
"address 0x%lX\n", this->physadr);
mtd->type = MTD_NANDFLASH;
mtd->flags = MTD_CAP_NANDFLASH;
mtd->ecctype = MTD_ECC_RS_DiskOnChip;
mtd->size = 0;
mtd->erasesize = 0;
mtd->writesize = 512;
mtd->oobsize = 16;
mtd->owner = THIS_MODULE;
mtd->erase = doc_erase;
mtd->point = NULL;
mtd->unpoint = NULL;
mtd->read = doc_read;
mtd->write = doc_write;
mtd->read_oob = doc_read_oob;
mtd->write_oob = doc_write_oob;
mtd->sync = NULL;
this->totlen = 0;
this->numchips = 0;
this->curfloor = -1;
this->curchip = -1;
/* Ident all the chips present. */
DoC_ScanChips(this);
if (!this->totlen) {
kfree(mtd);
iounmap(this->virtadr);
} else {
this->nextdoc = docmilpluslist;
docmilpluslist = mtd;
mtd->size = this->totlen;
mtd->erasesize = this->erasesize;
add_mtd_device(mtd);
return;
}
}
EXPORT_SYMBOL_GPL(DoCMilPlus_init);
#if 0
static int doc_dumpblk(struct mtd_info *mtd, loff_t from)
{
int i;
loff_t fofs;
struct DiskOnChip *this = mtd->priv;
void __iomem * docptr = this->virtadr;
struct Nand *mychip = &this->chips[from >> (this->chipshift)];
unsigned char *bp, buf[1056];
char c[32];
from &= ~0x3ff;
/* Don't allow read past end of device */
if (from >= this->totlen)
return -EINVAL;
DoC_CheckASIC(docptr);
/* Find the chip which is to be used and select it */
if (this->curfloor != mychip->floor) {
DoC_SelectFloor(docptr, mychip->floor);
DoC_SelectChip(docptr, mychip->chip);
} else if (this->curchip != mychip->chip) {
DoC_SelectChip(docptr, mychip->chip);
}
this->curfloor = mychip->floor;
this->curchip = mychip->chip;
/* Millennium Plus bus cycle sequence as per figure 2, section 2.4 */
WriteDOC((DOC_FLASH_CE | DOC_FLASH_WP), docptr, Mplus_FlashSelect);
/* Reset the chip, see Software Requirement 11.4 item 1. */
DoC_Command(docptr, NAND_CMD_RESET, 0);
DoC_WaitReady(docptr);
fofs = from;
DoC_Command(docptr, DoC_GetDataOffset(mtd, &fofs), 0);
DoC_Address(this, 3, fofs, 0, 0x00);
WriteDOC(0, docptr, Mplus_FlashControl);
DoC_WaitReady(docptr);
/* disable the ECC engine */
WriteDOC(DOC_ECC_RESET, docptr, Mplus_ECCConf);
ReadDOC(docptr, Mplus_ReadPipeInit);
ReadDOC(docptr, Mplus_ReadPipeInit);
/* Read the data via the internal pipeline through CDSN IO
register, see Pipelined Read Operations 11.3 */
MemReadDOC(docptr, buf, 1054);
buf[1054] = ReadDOC(docptr, Mplus_LastDataRead);
buf[1055] = ReadDOC(docptr, Mplus_LastDataRead);
memset(&c[0], 0, sizeof(c));
printk("DUMP OFFSET=%x:\n", (int)from);
for (i = 0, bp = &buf[0]; (i < 1056); i++) {
if ((i % 16) == 0)
printk("%08x: ", i);
printk(" %02x", *bp);
c[(i & 0xf)] = ((*bp >= 0x20) && (*bp <= 0x7f)) ? *bp : '.';
bp++;
if (((i + 1) % 16) == 0)
printk(" %s\n", c);
}
printk("\n");
/* Disable flash internally */
WriteDOC(0, docptr, Mplus_FlashSelect);
return 0;
}
#endif
static int doc_read(struct mtd_info *mtd, loff_t from, size_t len,
size_t *retlen, u_char *buf)
{
int ret, i;
volatile char dummy;
loff_t fofs;
unsigned char syndrome[6], eccbuf[6];
struct DiskOnChip *this = mtd->priv;
void __iomem * docptr = this->virtadr;
struct Nand *mychip = &this->chips[from >> (this->chipshift)];
/* Don't allow read past end of device */
if (from >= this->totlen)
return -EINVAL;
/* Don't allow a single read to cross a 512-byte block boundary */
if (from + len > ((from | 0x1ff) + 1))
len = ((from | 0x1ff) + 1) - from;
DoC_CheckASIC(docptr);
/* Find the chip which is to be used and select it */
if (this->curfloor != mychip->floor) {
DoC_SelectFloor(docptr, mychip->floor);
DoC_SelectChip(docptr, mychip->chip);
} else if (this->curchip != mychip->chip) {
DoC_SelectChip(docptr, mychip->chip);
}
this->curfloor = mychip->floor;
this->curchip = mychip->chip;
/* Millennium Plus bus cycle sequence as per figure 2, section 2.4 */
WriteDOC((DOC_FLASH_CE | DOC_FLASH_WP), docptr, Mplus_FlashSelect);
/* Reset the chip, see Software Requirement 11.4 item 1. */
DoC_Command(docptr, NAND_CMD_RESET, 0);
DoC_WaitReady(docptr);
fofs = from;
DoC_Command(docptr, DoC_GetDataOffset(mtd, &fofs), 0);
DoC_Address(this, 3, fofs, 0, 0x00);
WriteDOC(0, docptr, Mplus_FlashControl);
DoC_WaitReady(docptr);
/* init the ECC engine, see Reed-Solomon EDC/ECC 11.1 .*/
WriteDOC(DOC_ECC_RESET, docptr, Mplus_ECCConf);
WriteDOC(DOC_ECC_EN, docptr, Mplus_ECCConf);
/* Let the caller know we completed it */
*retlen = len;
ret = 0;
ReadDOC(docptr, Mplus_ReadPipeInit);
ReadDOC(docptr, Mplus_ReadPipeInit);
/* Read the data via the internal pipeline through CDSN IO
register, see Pipelined Read Operations 11.3 */
MemReadDOC(docptr, buf, len);
/* Read the ECC data following raw data */
MemReadDOC(docptr, eccbuf, 4);
eccbuf[4] = ReadDOC(docptr, Mplus_LastDataRead);
eccbuf[5] = ReadDOC(docptr, Mplus_LastDataRead);
/* Flush the pipeline */
dummy = ReadDOC(docptr, Mplus_ECCConf);
dummy = ReadDOC(docptr, Mplus_ECCConf);
/* Check the ECC Status */
if (ReadDOC(docptr, Mplus_ECCConf) & 0x80) {
int nb_errors;
/* There was an ECC error */
#ifdef ECC_DEBUG
printk("DiskOnChip ECC Error: Read at %lx\n", (long)from);
#endif
/* Read the ECC syndrom through the DiskOnChip ECC logic.
These syndrome will be all ZERO when there is no error */
for (i = 0; i < 6; i++)
syndrome[i] = ReadDOC(docptr, Mplus_ECCSyndrome0 + i);
nb_errors = doc_decode_ecc(buf, syndrome);
#ifdef ECC_DEBUG
printk("ECC Errors corrected: %x\n", nb_errors);
#endif
if (nb_errors < 0) {
/* We return error, but have actually done the
read. Not that this can be told to user-space, via
sys_read(), but at least MTD-aware stuff can know
about it by checking *retlen */
#ifdef ECC_DEBUG
printk("%s(%d): Millennium Plus ECC error (from=0x%x:\n",
__FILE__, __LINE__, (int)from);
printk(" syndrome= %02x:%02x:%02x:%02x:%02x:"
"%02x\n",
syndrome[0], syndrome[1], syndrome[2],
syndrome[3], syndrome[4], syndrome[5]);
printk(" eccbuf= %02x:%02x:%02x:%02x:%02x:"
"%02x\n",
eccbuf[0], eccbuf[1], eccbuf[2],
eccbuf[3], eccbuf[4], eccbuf[5]);
#endif
ret = -EIO;
}
}
#ifdef PSYCHO_DEBUG
printk("ECC DATA at %lx: %2.2X %2.2X %2.2X %2.2X %2.2X %2.2X\n",
(long)from, eccbuf[0], eccbuf[1], eccbuf[2], eccbuf[3],
eccbuf[4], eccbuf[5]);
#endif
/* disable the ECC engine */
WriteDOC(DOC_ECC_DIS, docptr , Mplus_ECCConf);
/* Disable flash internally */
WriteDOC(0, docptr, Mplus_FlashSelect);
return ret;
}
static int doc_write(struct mtd_info *mtd, loff_t to, size_t len,
size_t *retlen, const u_char *buf)
{
int i, before, ret = 0;
loff_t fto;
volatile char dummy;
char eccbuf[6];
struct DiskOnChip *this = mtd->priv;
void __iomem * docptr = this->virtadr;
struct Nand *mychip = &this->chips[to >> (this->chipshift)];
/* Don't allow write past end of device */
if (to >= this->totlen)
return -EINVAL;
/* Don't allow writes which aren't exactly one block (512 bytes) */
if ((to & 0x1ff) || (len != 0x200))
return -EINVAL;
/* Determine position of OOB flags, before or after data */
before = (this->interleave && (to & 0x200));
DoC_CheckASIC(docptr);
/* Find the chip which is to be used and select it */
if (this->curfloor != mychip->floor) {
DoC_SelectFloor(docptr, mychip->floor);
DoC_SelectChip(docptr, mychip->chip);
} else if (this->curchip != mychip->chip) {
DoC_SelectChip(docptr, mychip->chip);
}
this->curfloor = mychip->floor;
this->curchip = mychip->chip;
/* Millennium Plus bus cycle sequence as per figure 2, section 2.4 */
WriteDOC(DOC_FLASH_CE, docptr, Mplus_FlashSelect);
/* Reset the chip, see Software Requirement 11.4 item 1. */
DoC_Command(docptr, NAND_CMD_RESET, 0);
DoC_WaitReady(docptr);
/* Set device to appropriate plane of flash */
fto = to;
WriteDOC(DoC_GetDataOffset(mtd, &fto), docptr, Mplus_FlashCmd);
/* On interleaved devices the flags for 2nd half 512 are before data */
if (eccbuf && before)
fto -= 2;
/* issue the Serial Data In command to initial the Page Program process */
DoC_Command(docptr, NAND_CMD_SEQIN, 0x00);
DoC_Address(this, 3, fto, 0x00, 0x00);
/* Disable the ECC engine */
WriteDOC(DOC_ECC_RESET, docptr, Mplus_ECCConf);
if (before) {
/* Write the block status BLOCK_USED (0x5555) */
WriteDOC(0x55, docptr, Mil_CDSN_IO);
WriteDOC(0x55, docptr, Mil_CDSN_IO);
}
/* init the ECC engine, see Reed-Solomon EDC/ECC 11.1 .*/
WriteDOC(DOC_ECC_EN | DOC_ECC_RW, docptr, Mplus_ECCConf);
MemWriteDOC(docptr, (unsigned char *) buf, len);
/* Write ECC data to flash, the ECC info is generated by
the DiskOnChip ECC logic see Reed-Solomon EDC/ECC 11.1 */
DoC_Delay(docptr, 3);
/* Read the ECC data through the DiskOnChip ECC logic */
for (i = 0; i < 6; i++)
eccbuf[i] = ReadDOC(docptr, Mplus_ECCSyndrome0 + i);
/* disable the ECC engine */
WriteDOC(DOC_ECC_DIS, docptr, Mplus_ECCConf);
/* Write the ECC data to flash */
MemWriteDOC(docptr, eccbuf, 6);
if (!before) {
/* Write the block status BLOCK_USED (0x5555) */
WriteDOC(0x55, docptr, Mil_CDSN_IO+6);
WriteDOC(0x55, docptr, Mil_CDSN_IO+7);
}
#ifdef PSYCHO_DEBUG
printk("OOB data at %lx is %2.2X %2.2X %2.2X %2.2X %2.2X %2.2X\n",
(long) to, eccbuf[0], eccbuf[1], eccbuf[2], eccbuf[3],
eccbuf[4], eccbuf[5]);
#endif
WriteDOC(0x00, docptr, Mplus_WritePipeTerm);
WriteDOC(0x00, docptr, Mplus_WritePipeTerm);
/* Commit the Page Program command and wait for ready
see Software Requirement 11.4 item 1.*/
DoC_Command(docptr, NAND_CMD_PAGEPROG, 0x00);
DoC_WaitReady(docptr);
/* Read the status of the flash device through CDSN IO register
see Software Requirement 11.4 item 5.*/
DoC_Command(docptr, NAND_CMD_STATUS, 0);
dummy = ReadDOC(docptr, Mplus_ReadPipeInit);
dummy = ReadDOC(docptr, Mplus_ReadPipeInit);
DoC_Delay(docptr, 2);
if ((dummy = ReadDOC(docptr, Mplus_LastDataRead)) & 1) {
printk("MTD: Error 0x%x programming at 0x%x\n", dummy, (int)to);
/* Error in programming
FIXME: implement Bad Block Replacement (in nftl.c ??) */
*retlen = 0;
ret = -EIO;
}
dummy = ReadDOC(docptr, Mplus_LastDataRead);
/* Disable flash internally */
WriteDOC(0, docptr, Mplus_FlashSelect);
/* Let the caller know we completed it */
*retlen = len;
return ret;
}
static int doc_read_oob(struct mtd_info *mtd, loff_t ofs,
struct mtd_oob_ops *ops)
{
loff_t fofs, base;
struct DiskOnChip *this = mtd->priv;
void __iomem * docptr = this->virtadr;
struct Nand *mychip = &this->chips[ofs >> this->chipshift];
size_t i, size, got, want;
uint8_t *buf = ops->oobbuf;
size_t len = ops->len;
BUG_ON(ops->mode != MTD_OOB_PLACE);
ofs += ops->ooboffs;
DoC_CheckASIC(docptr);
/* Find the chip which is to be used and select it */
if (this->curfloor != mychip->floor) {
DoC_SelectFloor(docptr, mychip->floor);
DoC_SelectChip(docptr, mychip->chip);
} else if (this->curchip != mychip->chip) {
DoC_SelectChip(docptr, mychip->chip);
}
this->curfloor = mychip->floor;
this->curchip = mychip->chip;
/* Millennium Plus bus cycle sequence as per figure 2, section 2.4 */
WriteDOC((DOC_FLASH_CE | DOC_FLASH_WP), docptr, Mplus_FlashSelect);
/* disable the ECC engine */
WriteDOC(DOC_ECC_RESET, docptr, Mplus_ECCConf);
DoC_WaitReady(docptr);
/* Maximum of 16 bytes in the OOB region, so limit read to that */
if (len > 16)
len = 16;
got = 0;
want = len;
for (i = 0; ((i < 3) && (want > 0)); i++) {
/* Figure out which region we are accessing... */
fofs = ofs;
base = ofs & 0xf;
if (!this->interleave) {
DoC_Command(docptr, NAND_CMD_READOOB, 0);
size = 16 - base;
} else if (base < 6) {
DoC_Command(docptr, DoC_GetECCOffset(mtd, &fofs), 0);
size = 6 - base;
} else if (base < 8) {
DoC_Command(docptr, DoC_GetFlagsOffset(mtd, &fofs), 0);
size = 8 - base;
} else {
DoC_Command(docptr, DoC_GetHdrOffset(mtd, &fofs), 0);
size = 16 - base;
}
if (size > want)
size = want;
/* Issue read command */
DoC_Address(this, 3, fofs, 0, 0x00);
WriteDOC(0, docptr, Mplus_FlashControl);
DoC_WaitReady(docptr);
ReadDOC(docptr, Mplus_ReadPipeInit);
ReadDOC(docptr, Mplus_ReadPipeInit);
MemReadDOC(docptr, &buf[got], size - 2);
buf[got + size - 2] = ReadDOC(docptr, Mplus_LastDataRead);
buf[got + size - 1] = ReadDOC(docptr, Mplus_LastDataRead);
ofs += size;
got += size;
want -= size;
}
/* Disable flash internally */
WriteDOC(0, docptr, Mplus_FlashSelect);
ops->retlen = len;
return 0;
}
static int doc_write_oob(struct mtd_info *mtd, loff_t ofs,
struct mtd_oob_ops *ops)
{
volatile char dummy;
loff_t fofs, base;
struct DiskOnChip *this = mtd->priv;
void __iomem * docptr = this->virtadr;
struct Nand *mychip = &this->chips[ofs >> this->chipshift];
size_t i, size, got, want;
int ret = 0;
uint8_t *buf = ops->oobbuf;
size_t len = ops->len;
BUG_ON(ops->mode != MTD_OOB_PLACE);
ofs += ops->ooboffs;
DoC_CheckASIC(docptr);
/* Find the chip which is to be used and select it */
if (this->curfloor != mychip->floor) {
DoC_SelectFloor(docptr, mychip->floor);
DoC_SelectChip(docptr, mychip->chip);
} else if (this->curchip != mychip->chip) {
DoC_SelectChip(docptr, mychip->chip);
}
this->curfloor = mychip->floor;
this->curchip = mychip->chip;
/* Millennium Plus bus cycle sequence as per figure 2, section 2.4 */
WriteDOC(DOC_FLASH_CE, docptr, Mplus_FlashSelect);
/* Maximum of 16 bytes in the OOB region, so limit write to that */
if (len > 16)
len = 16;
got = 0;
want = len;
for (i = 0; ((i < 3) && (want > 0)); i++) {
/* Reset the chip, see Software Requirement 11.4 item 1. */
DoC_Command(docptr, NAND_CMD_RESET, 0);
DoC_WaitReady(docptr);
/* Figure out which region we are accessing... */
fofs = ofs;
base = ofs & 0x0f;
if (!this->interleave) {
WriteDOC(NAND_CMD_READOOB, docptr, Mplus_FlashCmd);
size = 16 - base;
} else if (base < 6) {
WriteDOC(DoC_GetECCOffset(mtd, &fofs), docptr, Mplus_FlashCmd);
size = 6 - base;
} else if (base < 8) {
WriteDOC(DoC_GetFlagsOffset(mtd, &fofs), docptr, Mplus_FlashCmd);
size = 8 - base;
} else {
WriteDOC(DoC_GetHdrOffset(mtd, &fofs), docptr, Mplus_FlashCmd);
size = 16 - base;
}
if (size > want)
size = want;
/* Issue the Serial Data In command to initial the Page Program process */
DoC_Command(docptr, NAND_CMD_SEQIN, 0x00);
DoC_Address(this, 3, fofs, 0, 0x00);
/* Disable the ECC engine */
WriteDOC(DOC_ECC_RESET, docptr, Mplus_ECCConf);
/* Write the data via the internal pipeline through CDSN IO
register, see Pipelined Write Operations 11.2 */
MemWriteDOC(docptr, (unsigned char *) &buf[got], size);
WriteDOC(0x00, docptr, Mplus_WritePipeTerm);
WriteDOC(0x00, docptr, Mplus_WritePipeTerm);
/* Commit the Page Program command and wait for ready
see Software Requirement 11.4 item 1.*/
DoC_Command(docptr, NAND_CMD_PAGEPROG, 0x00);
DoC_WaitReady(docptr);
/* Read the status of the flash device through CDSN IO register
see Software Requirement 11.4 item 5.*/
DoC_Command(docptr, NAND_CMD_STATUS, 0x00);
dummy = ReadDOC(docptr, Mplus_ReadPipeInit);
dummy = ReadDOC(docptr, Mplus_ReadPipeInit);
DoC_Delay(docptr, 2);
if ((dummy = ReadDOC(docptr, Mplus_LastDataRead)) & 1) {
printk("MTD: Error 0x%x programming oob at 0x%x\n",
dummy, (int)ofs);
/* FIXME: implement Bad Block Replacement */
ops->retlen = 0;
ret = -EIO;
}
dummy = ReadDOC(docptr, Mplus_LastDataRead);
ofs += size;
got += size;
want -= size;
}
/* Disable flash internally */
WriteDOC(0, docptr, Mplus_FlashSelect);
ops->retlen = len;
return ret;
}
int doc_erase(struct mtd_info *mtd, struct erase_info *instr)
{
volatile char dummy;
struct DiskOnChip *this = mtd->priv;
__u32 ofs = instr->addr;
__u32 len = instr->len;
void __iomem * docptr = this->virtadr;
struct Nand *mychip = &this->chips[ofs >> this->chipshift];
DoC_CheckASIC(docptr);
if (len != mtd->erasesize)
printk(KERN_WARNING "MTD: Erase not right size (%x != %x)n",
len, mtd->erasesize);
/* Find the chip which is to be used and select it */
if (this->curfloor != mychip->floor) {
DoC_SelectFloor(docptr, mychip->floor);
DoC_SelectChip(docptr, mychip->chip);
} else if (this->curchip != mychip->chip) {
DoC_SelectChip(docptr, mychip->chip);
}
this->curfloor = mychip->floor;
this->curchip = mychip->chip;
instr->state = MTD_ERASE_PENDING;
/* Millennium Plus bus cycle sequence as per figure 2, section 2.4 */
WriteDOC(DOC_FLASH_CE, docptr, Mplus_FlashSelect);
DoC_Command(docptr, NAND_CMD_RESET, 0x00);
DoC_WaitReady(docptr);
DoC_Command(docptr, NAND_CMD_ERASE1, 0);
DoC_Address(this, 2, ofs, 0, 0x00);
DoC_Command(docptr, NAND_CMD_ERASE2, 0);
DoC_WaitReady(docptr);
instr->state = MTD_ERASING;
/* Read the status of the flash device through CDSN IO register
see Software Requirement 11.4 item 5. */
DoC_Command(docptr, NAND_CMD_STATUS, 0);
dummy = ReadDOC(docptr, Mplus_ReadPipeInit);
dummy = ReadDOC(docptr, Mplus_ReadPipeInit);
if ((dummy = ReadDOC(docptr, Mplus_LastDataRead)) & 1) {
printk("MTD: Error 0x%x erasing at 0x%x\n", dummy, ofs);
/* FIXME: implement Bad Block Replacement (in nftl.c ??) */
instr->state = MTD_ERASE_FAILED;
} else {
instr->state = MTD_ERASE_DONE;
}
dummy = ReadDOC(docptr, Mplus_LastDataRead);
/* Disable flash internally */
WriteDOC(0, docptr, Mplus_FlashSelect);
mtd_erase_callback(instr);
return 0;
}
/****************************************************************************
*
* Module stuff
*
****************************************************************************/
static void __exit cleanup_doc2001plus(void)
{
struct mtd_info *mtd;
struct DiskOnChip *this;
while ((mtd=docmilpluslist)) {
this = mtd->priv;
docmilpluslist = this->nextdoc;
del_mtd_device(mtd);
iounmap(this->virtadr);
kfree(this->chips);
kfree(mtd);
}
}
module_exit(cleanup_doc2001plus);
MODULE_LICENSE("GPL");
MODULE_AUTHOR("Greg Ungerer <gerg@snapgear.com> et al.");
MODULE_DESCRIPTION("Driver for DiskOnChip Millennium Plus");