cfi_cmdset_0001.c 67.9 KB
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/*
 * Common Flash Interface support:
 *   Intel Extended Vendor Command Set (ID 0x0001)
 *
 * (C) 2000 Red Hat. GPL'd
 *
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 * $Id: cfi_cmdset_0001.c,v 1.186 2005/11/23 22:07:52 nico Exp $
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 *
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 *
 * 10/10/2000	Nicolas Pitre <nico@cam.org>
 * 	- completely revamped method functions so they are aware and
 * 	  independent of the flash geometry (buswidth, interleave, etc.)
 * 	- scalability vs code size is completely set at compile-time
 * 	  (see include/linux/mtd/cfi.h for selection)
 *	- optimized write buffer method
 * 02/05/2002	Christopher Hoover <ch@hpl.hp.com>/<ch@murgatroid.com>
 *	- reworked lock/unlock/erase support for var size flash
 */

#include <linux/module.h>
#include <linux/types.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/init.h>
#include <asm/io.h>
#include <asm/byteorder.h>

#include <linux/errno.h>
#include <linux/slab.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
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#include <linux/reboot.h>
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#include <linux/mtd/xip.h>
#include <linux/mtd/map.h>
#include <linux/mtd/mtd.h>
#include <linux/mtd/compatmac.h>
#include <linux/mtd/cfi.h>

/* #define CMDSET0001_DISABLE_ERASE_SUSPEND_ON_WRITE */
/* #define CMDSET0001_DISABLE_WRITE_SUSPEND */

// debugging, turns off buffer write mode if set to 1
#define FORCE_WORD_WRITE 0

#define MANUFACTURER_INTEL	0x0089
#define I82802AB	0x00ad
#define I82802AC	0x00ac
#define MANUFACTURER_ST         0x0020
#define M50LPW080       0x002F

static int cfi_intelext_read (struct mtd_info *, loff_t, size_t, size_t *, u_char *);
static int cfi_intelext_write_words(struct mtd_info *, loff_t, size_t, size_t *, const u_char *);
static int cfi_intelext_write_buffers(struct mtd_info *, loff_t, size_t, size_t *, const u_char *);
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static int cfi_intelext_writev(struct mtd_info *, const struct kvec *, unsigned long, loff_t, size_t *);
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static int cfi_intelext_erase_varsize(struct mtd_info *, struct erase_info *);
static void cfi_intelext_sync (struct mtd_info *);
static int cfi_intelext_lock(struct mtd_info *mtd, loff_t ofs, size_t len);
static int cfi_intelext_unlock(struct mtd_info *mtd, loff_t ofs, size_t len);
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#ifdef CONFIG_MTD_OTP
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static int cfi_intelext_read_fact_prot_reg (struct mtd_info *, loff_t, size_t, size_t *, u_char *);
static int cfi_intelext_read_user_prot_reg (struct mtd_info *, loff_t, size_t, size_t *, u_char *);
static int cfi_intelext_write_user_prot_reg (struct mtd_info *, loff_t, size_t, size_t *, u_char *);
static int cfi_intelext_lock_user_prot_reg (struct mtd_info *, loff_t, size_t);
static int cfi_intelext_get_fact_prot_info (struct mtd_info *,
					    struct otp_info *, size_t);
static int cfi_intelext_get_user_prot_info (struct mtd_info *,
					    struct otp_info *, size_t);
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#endif
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static int cfi_intelext_suspend (struct mtd_info *);
static void cfi_intelext_resume (struct mtd_info *);
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static int cfi_intelext_reboot (struct notifier_block *, unsigned long, void *);
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static void cfi_intelext_destroy(struct mtd_info *);

struct mtd_info *cfi_cmdset_0001(struct map_info *, int);

static struct mtd_info *cfi_intelext_setup (struct mtd_info *);
static int cfi_intelext_partition_fixup(struct mtd_info *, struct cfi_private **);

static int cfi_intelext_point (struct mtd_info *mtd, loff_t from, size_t len,
		     size_t *retlen, u_char **mtdbuf);
static void cfi_intelext_unpoint (struct mtd_info *mtd, u_char *addr, loff_t from,
			size_t len);

static int get_chip(struct map_info *map, struct flchip *chip, unsigned long adr, int mode);
static void put_chip(struct map_info *map, struct flchip *chip, unsigned long adr);
#include "fwh_lock.h"



/*
 *  *********** SETUP AND PROBE BITS  ***********
 */

static struct mtd_chip_driver cfi_intelext_chipdrv = {
	.probe		= NULL, /* Not usable directly */
	.destroy	= cfi_intelext_destroy,
	.name		= "cfi_cmdset_0001",
	.module		= THIS_MODULE
};

/* #define DEBUG_LOCK_BITS */
/* #define DEBUG_CFI_FEATURES */

#ifdef DEBUG_CFI_FEATURES
static void cfi_tell_features(struct cfi_pri_intelext *extp)
{
	int i;
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	printk("  Extended Query version %c.%c\n", extp->MajorVersion, extp->MinorVersion);
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	printk("  Feature/Command Support:      %4.4X\n", extp->FeatureSupport);
	printk("     - Chip Erase:              %s\n", extp->FeatureSupport&1?"supported":"unsupported");
	printk("     - Suspend Erase:           %s\n", extp->FeatureSupport&2?"supported":"unsupported");
	printk("     - Suspend Program:         %s\n", extp->FeatureSupport&4?"supported":"unsupported");
	printk("     - Legacy Lock/Unlock:      %s\n", extp->FeatureSupport&8?"supported":"unsupported");
	printk("     - Queued Erase:            %s\n", extp->FeatureSupport&16?"supported":"unsupported");
	printk("     - Instant block lock:      %s\n", extp->FeatureSupport&32?"supported":"unsupported");
	printk("     - Protection Bits:         %s\n", extp->FeatureSupport&64?"supported":"unsupported");
	printk("     - Page-mode read:          %s\n", extp->FeatureSupport&128?"supported":"unsupported");
	printk("     - Synchronous read:        %s\n", extp->FeatureSupport&256?"supported":"unsupported");
	printk("     - Simultaneous operations: %s\n", extp->FeatureSupport&512?"supported":"unsupported");
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	printk("     - Extended Flash Array:    %s\n", extp->FeatureSupport&1024?"supported":"unsupported");
	for (i=11; i<32; i++) {
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		if (extp->FeatureSupport & (1<<i))
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			printk("     - Unknown Bit %X:      supported\n", i);
	}
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	printk("  Supported functions after Suspend: %2.2X\n", extp->SuspendCmdSupport);
	printk("     - Program after Erase Suspend: %s\n", extp->SuspendCmdSupport&1?"supported":"unsupported");
	for (i=1; i<8; i++) {
		if (extp->SuspendCmdSupport & (1<<i))
			printk("     - Unknown Bit %X:               supported\n", i);
	}
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	printk("  Block Status Register Mask: %4.4X\n", extp->BlkStatusRegMask);
	printk("     - Lock Bit Active:      %s\n", extp->BlkStatusRegMask&1?"yes":"no");
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	printk("     - Lock-Down Bit Active: %s\n", extp->BlkStatusRegMask&2?"yes":"no");
	for (i=2; i<3; i++) {
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		if (extp->BlkStatusRegMask & (1<<i))
			printk("     - Unknown Bit %X Active: yes\n",i);
	}
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	printk("     - EFA Lock Bit:         %s\n", extp->BlkStatusRegMask&16?"yes":"no");
	printk("     - EFA Lock-Down Bit:    %s\n", extp->BlkStatusRegMask&32?"yes":"no");
	for (i=6; i<16; i++) {
		if (extp->BlkStatusRegMask & (1<<i))
			printk("     - Unknown Bit %X Active: yes\n",i);
	}

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	printk("  Vcc Logic Supply Optimum Program/Erase Voltage: %d.%d V\n",
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	       extp->VccOptimal >> 4, extp->VccOptimal & 0xf);
	if (extp->VppOptimal)
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		printk("  Vpp Programming Supply Optimum Program/Erase Voltage: %d.%d V\n",
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		       extp->VppOptimal >> 4, extp->VppOptimal & 0xf);
}
#endif

#ifdef CMDSET0001_DISABLE_ERASE_SUSPEND_ON_WRITE
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/* Some Intel Strata Flash prior to FPO revision C has bugs in this area */
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static void fixup_intel_strataflash(struct mtd_info *mtd, void* param)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	struct cfi_pri_amdstd *extp = cfi->cmdset_priv;

	printk(KERN_WARNING "cfi_cmdset_0001: Suspend "
	                    "erase on write disabled.\n");
	extp->SuspendCmdSupport &= ~1;
}
#endif

#ifdef CMDSET0001_DISABLE_WRITE_SUSPEND
static void fixup_no_write_suspend(struct mtd_info *mtd, void* param)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	struct cfi_pri_intelext *cfip = cfi->cmdset_priv;

	if (cfip && (cfip->FeatureSupport&4)) {
		cfip->FeatureSupport &= ~4;
		printk(KERN_WARNING "cfi_cmdset_0001: write suspend disabled\n");
	}
}
#endif

static void fixup_st_m28w320ct(struct mtd_info *mtd, void* param)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
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	cfi->cfiq->BufWriteTimeoutTyp = 0;	/* Not supported */
	cfi->cfiq->BufWriteTimeoutMax = 0;	/* Not supported */
}

static void fixup_st_m28w320cb(struct mtd_info *mtd, void* param)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
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	/* Note this is done after the region info is endian swapped */
	cfi->cfiq->EraseRegionInfo[1] =
		(cfi->cfiq->EraseRegionInfo[1] & 0xffff0000) | 0x3e;
};

static void fixup_use_point(struct mtd_info *mtd, void *param)
{
	struct map_info *map = mtd->priv;
	if (!mtd->point && map_is_linear(map)) {
		mtd->point   = cfi_intelext_point;
		mtd->unpoint = cfi_intelext_unpoint;
	}
}

static void fixup_use_write_buffers(struct mtd_info *mtd, void *param)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	if (cfi->cfiq->BufWriteTimeoutTyp) {
		printk(KERN_INFO "Using buffer write method\n" );
		mtd->write = cfi_intelext_write_buffers;
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		mtd->writev = cfi_intelext_writev;
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	}
}

static struct cfi_fixup cfi_fixup_table[] = {
#ifdef CMDSET0001_DISABLE_ERASE_SUSPEND_ON_WRITE
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	{ CFI_MFR_ANY, CFI_ID_ANY, fixup_intel_strataflash, NULL },
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#endif
#ifdef CMDSET0001_DISABLE_WRITE_SUSPEND
	{ CFI_MFR_ANY, CFI_ID_ANY, fixup_no_write_suspend, NULL },
#endif
#if !FORCE_WORD_WRITE
	{ CFI_MFR_ANY, CFI_ID_ANY, fixup_use_write_buffers, NULL },
#endif
	{ CFI_MFR_ST, 0x00ba, /* M28W320CT */ fixup_st_m28w320ct, NULL },
	{ CFI_MFR_ST, 0x00bb, /* M28W320CB */ fixup_st_m28w320cb, NULL },
	{ 0, 0, NULL, NULL }
};

static struct cfi_fixup jedec_fixup_table[] = {
	{ MANUFACTURER_INTEL, I82802AB,   fixup_use_fwh_lock, NULL, },
	{ MANUFACTURER_INTEL, I82802AC,   fixup_use_fwh_lock, NULL, },
	{ MANUFACTURER_ST,    M50LPW080,  fixup_use_fwh_lock, NULL, },
	{ 0, 0, NULL, NULL }
};
static struct cfi_fixup fixup_table[] = {
	/* The CFI vendor ids and the JEDEC vendor IDs appear
	 * to be common.  It is like the devices id's are as
	 * well.  This table is to pick all cases where
	 * we know that is the case.
	 */
	{ CFI_MFR_ANY, CFI_ID_ANY, fixup_use_point, NULL },
	{ 0, 0, NULL, NULL }
};

static inline struct cfi_pri_intelext *
read_pri_intelext(struct map_info *map, __u16 adr)
{
	struct cfi_pri_intelext *extp;
	unsigned int extp_size = sizeof(*extp);

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	extp = (struct cfi_pri_intelext *)cfi_read_pri(map, adr, extp_size, "Intel/Sharp");
	if (!extp)
		return NULL;

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	if (extp->MajorVersion != '1' ||
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	    (extp->MinorVersion < '0' || extp->MinorVersion > '4')) {
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		printk(KERN_ERR "  Unknown Intel/Sharp Extended Query "
		       "version %c.%c.\n",  extp->MajorVersion,
		       extp->MinorVersion);
		kfree(extp);
		return NULL;
	}

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	/* Do some byteswapping if necessary */
	extp->FeatureSupport = le32_to_cpu(extp->FeatureSupport);
	extp->BlkStatusRegMask = le16_to_cpu(extp->BlkStatusRegMask);
	extp->ProtRegAddr = le16_to_cpu(extp->ProtRegAddr);

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	if (extp->MajorVersion == '1' && extp->MinorVersion >= '3') {
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		unsigned int extra_size = 0;
		int nb_parts, i;

		/* Protection Register info */
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		extra_size += (extp->NumProtectionFields - 1) *
			      sizeof(struct cfi_intelext_otpinfo);
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		/* Burst Read info */
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		extra_size += 2;
		if (extp_size < sizeof(*extp) + extra_size)
			goto need_more;
		extra_size += extp->extra[extra_size-1];
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		/* Number of hardware-partitions */
		extra_size += 1;
		if (extp_size < sizeof(*extp) + extra_size)
			goto need_more;
		nb_parts = extp->extra[extra_size - 1];

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		/* skip the sizeof(partregion) field in CFI 1.4 */
		if (extp->MinorVersion >= '4')
			extra_size += 2;

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		for (i = 0; i < nb_parts; i++) {
			struct cfi_intelext_regioninfo *rinfo;
			rinfo = (struct cfi_intelext_regioninfo *)&extp->extra[extra_size];
			extra_size += sizeof(*rinfo);
			if (extp_size < sizeof(*extp) + extra_size)
				goto need_more;
			rinfo->NumIdentPartitions=le16_to_cpu(rinfo->NumIdentPartitions);
			extra_size += (rinfo->NumBlockTypes - 1)
				      * sizeof(struct cfi_intelext_blockinfo);
		}

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		if (extp->MinorVersion >= '4')
			extra_size += sizeof(struct cfi_intelext_programming_regioninfo);

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		if (extp_size < sizeof(*extp) + extra_size) {
			need_more:
			extp_size = sizeof(*extp) + extra_size;
			kfree(extp);
			if (extp_size > 4096) {
				printk(KERN_ERR
					"%s: cfi_pri_intelext is too fat\n",
					__FUNCTION__);
				return NULL;
			}
			goto again;
		}
	}
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	return extp;
}

/* This routine is made available to other mtd code via
 * inter_module_register.  It must only be accessed through
 * inter_module_get which will bump the use count of this module.  The
 * addresses passed back in cfi are valid as long as the use count of
 * this module is non-zero, i.e. between inter_module_get and
 * inter_module_put.  Keith Owens <kaos@ocs.com.au> 29 Oct 2000.
 */
struct mtd_info *cfi_cmdset_0001(struct map_info *map, int primary)
{
	struct cfi_private *cfi = map->fldrv_priv;
	struct mtd_info *mtd;
	int i;

	mtd = kmalloc(sizeof(*mtd), GFP_KERNEL);
	if (!mtd) {
		printk(KERN_ERR "Failed to allocate memory for MTD device\n");
		return NULL;
	}
	memset(mtd, 0, sizeof(*mtd));
	mtd->priv = map;
	mtd->type = MTD_NORFLASH;

	/* Fill in the default mtd operations */
	mtd->erase   = cfi_intelext_erase_varsize;
	mtd->read    = cfi_intelext_read;
	mtd->write   = cfi_intelext_write_words;
	mtd->sync    = cfi_intelext_sync;
	mtd->lock    = cfi_intelext_lock;
	mtd->unlock  = cfi_intelext_unlock;
	mtd->suspend = cfi_intelext_suspend;
	mtd->resume  = cfi_intelext_resume;
	mtd->flags   = MTD_CAP_NORFLASH;
	mtd->name    = map->name;
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	mtd->reboot_notifier.notifier_call = cfi_intelext_reboot;

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	if (cfi->cfi_mode == CFI_MODE_CFI) {
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		/*
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		 * It's a real CFI chip, not one for which the probe
		 * routine faked a CFI structure. So we read the feature
		 * table from it.
		 */
		__u16 adr = primary?cfi->cfiq->P_ADR:cfi->cfiq->A_ADR;
		struct cfi_pri_intelext *extp;

		extp = read_pri_intelext(map, adr);
		if (!extp) {
			kfree(mtd);
			return NULL;
		}

		/* Install our own private info structure */
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		cfi->cmdset_priv = extp;
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		cfi_fixup(mtd, cfi_fixup_table);

#ifdef DEBUG_CFI_FEATURES
		/* Tell the user about it in lots of lovely detail */
		cfi_tell_features(extp);
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#endif
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		if(extp->SuspendCmdSupport & 1) {
			printk(KERN_NOTICE "cfi_cmdset_0001: Erase suspend on write enabled\n");
		}
	}
	else if (cfi->cfi_mode == CFI_MODE_JEDEC) {
		/* Apply jedec specific fixups */
		cfi_fixup(mtd, jedec_fixup_table);
	}
	/* Apply generic fixups */
	cfi_fixup(mtd, fixup_table);

	for (i=0; i< cfi->numchips; i++) {
		cfi->chips[i].word_write_time = 1<<cfi->cfiq->WordWriteTimeoutTyp;
		cfi->chips[i].buffer_write_time = 1<<cfi->cfiq->BufWriteTimeoutTyp;
		cfi->chips[i].erase_time = 1<<cfi->cfiq->BlockEraseTimeoutTyp;
		cfi->chips[i].ref_point_counter = 0;
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	}
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	map->fldrv = &cfi_intelext_chipdrv;
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	return cfi_intelext_setup(mtd);
}

static struct mtd_info *cfi_intelext_setup(struct mtd_info *mtd)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	unsigned long offset = 0;
	int i,j;
	unsigned long devsize = (1<<cfi->cfiq->DevSize) * cfi->interleave;

	//printk(KERN_DEBUG "number of CFI chips: %d\n", cfi->numchips);

	mtd->size = devsize * cfi->numchips;

	mtd->numeraseregions = cfi->cfiq->NumEraseRegions * cfi->numchips;
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	mtd->eraseregions = kmalloc(sizeof(struct mtd_erase_region_info)
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			* mtd->numeraseregions, GFP_KERNEL);
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	if (!mtd->eraseregions) {
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		printk(KERN_ERR "Failed to allocate memory for MTD erase region info\n");
		goto setup_err;
	}
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	for (i=0; i<cfi->cfiq->NumEraseRegions; i++) {
		unsigned long ernum, ersize;
		ersize = ((cfi->cfiq->EraseRegionInfo[i] >> 8) & ~0xff) * cfi->interleave;
		ernum = (cfi->cfiq->EraseRegionInfo[i] & 0xffff) + 1;

		if (mtd->erasesize < ersize) {
			mtd->erasesize = ersize;
		}
		for (j=0; j<cfi->numchips; j++) {
			mtd->eraseregions[(j*cfi->cfiq->NumEraseRegions)+i].offset = (j*devsize)+offset;
			mtd->eraseregions[(j*cfi->cfiq->NumEraseRegions)+i].erasesize = ersize;
			mtd->eraseregions[(j*cfi->cfiq->NumEraseRegions)+i].numblocks = ernum;
		}
		offset += (ersize * ernum);
	}

	if (offset != devsize) {
		/* Argh */
		printk(KERN_WARNING "Sum of regions (%lx) != total size of set of interleaved chips (%lx)\n", offset, devsize);
		goto setup_err;
	}

	for (i=0; i<mtd->numeraseregions;i++){
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		printk(KERN_DEBUG "erase region %d: offset=0x%x,size=0x%x,blocks=%d\n",
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		       i,mtd->eraseregions[i].offset,
		       mtd->eraseregions[i].erasesize,
		       mtd->eraseregions[i].numblocks);
	}

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#ifdef CONFIG_MTD_OTP
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	mtd->read_fact_prot_reg = cfi_intelext_read_fact_prot_reg;
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	mtd->read_user_prot_reg = cfi_intelext_read_user_prot_reg;
	mtd->write_user_prot_reg = cfi_intelext_write_user_prot_reg;
	mtd->lock_user_prot_reg = cfi_intelext_lock_user_prot_reg;
	mtd->get_fact_prot_info = cfi_intelext_get_fact_prot_info;
	mtd->get_user_prot_info = cfi_intelext_get_user_prot_info;
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#endif

	/* This function has the potential to distort the reality
	   a bit and therefore should be called last. */
	if (cfi_intelext_partition_fixup(mtd, &cfi) != 0)
		goto setup_err;

	__module_get(THIS_MODULE);
482
	register_reboot_notifier(&mtd->reboot_notifier);
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	return mtd;

 setup_err:
	if(mtd) {
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		kfree(mtd->eraseregions);
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		kfree(mtd);
	}
	kfree(cfi->cmdset_priv);
	return NULL;
}

static int cfi_intelext_partition_fixup(struct mtd_info *mtd,
					struct cfi_private **pcfi)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = *pcfi;
	struct cfi_pri_intelext *extp = cfi->cmdset_priv;

	/*
	 * Probing of multi-partition flash ships.
	 *
	 * To support multiple partitions when available, we simply arrange
	 * for each of them to have their own flchip structure even if they
	 * are on the same physical chip.  This means completely recreating
	 * a new cfi_private structure right here which is a blatent code
	 * layering violation, but this is still the least intrusive
	 * arrangement at this point. This can be rearranged in the future
	 * if someone feels motivated enough.  --nico
	 */
512
	if (extp && extp->MajorVersion == '1' && extp->MinorVersion >= '3'
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	    && extp->FeatureSupport & (1 << 9)) {
		struct cfi_private *newcfi;
		struct flchip *chip;
		struct flchip_shared *shared;
		int offs, numregions, numparts, partshift, numvirtchips, i, j;

		/* Protection Register info */
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		offs = (extp->NumProtectionFields - 1) *
		       sizeof(struct cfi_intelext_otpinfo);
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		/* Burst Read info */
524
		offs += extp->extra[offs+1]+2;
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		/* Number of partition regions */
		numregions = extp->extra[offs];
		offs += 1;

530 531 532 533
		/* skip the sizeof(partregion) field in CFI 1.4 */
		if (extp->MinorVersion >= '4')
			offs += 2;

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		/* Number of hardware partitions */
		numparts = 0;
		for (i = 0; i < numregions; i++) {
			struct cfi_intelext_regioninfo *rinfo;
			rinfo = (struct cfi_intelext_regioninfo *)&extp->extra[offs];
			numparts += rinfo->NumIdentPartitions;
			offs += sizeof(*rinfo)
				+ (rinfo->NumBlockTypes - 1) *
				  sizeof(struct cfi_intelext_blockinfo);
		}

545 546 547 548 549 550 551 552 553 554 555 556 557 558
		/* Programming Region info */
		if (extp->MinorVersion >= '4') {
			struct cfi_intelext_programming_regioninfo *prinfo;
			prinfo = (struct cfi_intelext_programming_regioninfo *)&extp->extra[offs];
			MTD_PROGREGION_SIZE(mtd) = cfi->interleave << prinfo->ProgRegShift;
			MTD_PROGREGION_CTRLMODE_VALID(mtd) = cfi->interleave * prinfo->ControlValid;
			MTD_PROGREGION_CTRLMODE_INVALID(mtd) = cfi->interleave * prinfo->ControlInvalid;
			mtd->flags |= MTD_PROGRAM_REGIONS;
			printk(KERN_DEBUG "%s: program region size/ctrl_valid/ctrl_inval = %d/%d/%d\n",
			       map->name, MTD_PROGREGION_SIZE(mtd),
			       MTD_PROGREGION_CTRLMODE_VALID(mtd),
			       MTD_PROGREGION_CTRLMODE_INVALID(mtd));
		}

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		/*
		 * All functions below currently rely on all chips having
		 * the same geometry so we'll just assume that all hardware
		 * partitions are of the same size too.
		 */
		partshift = cfi->chipshift - __ffs(numparts);

		if ((1 << partshift) < mtd->erasesize) {
			printk( KERN_ERR
				"%s: bad number of hw partitions (%d)\n",
				__FUNCTION__, numparts);
			return -EINVAL;
		}

		numvirtchips = cfi->numchips * numparts;
		newcfi = kmalloc(sizeof(struct cfi_private) + numvirtchips * sizeof(struct flchip), GFP_KERNEL);
		if (!newcfi)
			return -ENOMEM;
		shared = kmalloc(sizeof(struct flchip_shared) * cfi->numchips, GFP_KERNEL);
		if (!shared) {
			kfree(newcfi);
			return -ENOMEM;
		}
		memcpy(newcfi, cfi, sizeof(struct cfi_private));
		newcfi->numchips = numvirtchips;
		newcfi->chipshift = partshift;

		chip = &newcfi->chips[0];
		for (i = 0; i < cfi->numchips; i++) {
			shared[i].writing = shared[i].erasing = NULL;
			spin_lock_init(&shared[i].lock);
			for (j = 0; j < numparts; j++) {
				*chip = cfi->chips[i];
				chip->start += j << partshift;
				chip->priv = &shared[i];
				/* those should be reset too since
				   they create memory references. */
				init_waitqueue_head(&chip->wq);
				spin_lock_init(&chip->_spinlock);
				chip->mutex = &chip->_spinlock;
				chip++;
			}
		}

		printk(KERN_DEBUG "%s: %d set(s) of %d interleaved chips "
				  "--> %d partitions of %d KiB\n",
				  map->name, cfi->numchips, cfi->interleave,
				  newcfi->numchips, 1<<(newcfi->chipshift-10));

		map->fldrv_priv = newcfi;
		*pcfi = newcfi;
		kfree(cfi);
	}

	return 0;
}

/*
 *  *********** CHIP ACCESS FUNCTIONS ***********
 */

static int get_chip(struct map_info *map, struct flchip *chip, unsigned long adr, int mode)
{
	DECLARE_WAITQUEUE(wait, current);
	struct cfi_private *cfi = map->fldrv_priv;
	map_word status, status_OK = CMD(0x80), status_PWS = CMD(0x01);
	unsigned long timeo;
	struct cfi_pri_intelext *cfip = cfi->cmdset_priv;

 resettime:
	timeo = jiffies + HZ;
 retry:
631
	if (chip->priv && (mode == FL_WRITING || mode == FL_ERASING || mode == FL_OTP_WRITE)) {
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		/*
		 * OK. We have possibility for contension on the write/erase
		 * operations which are global to the real chip and not per
		 * partition.  So let's fight it over in the partition which
		 * currently has authority on the operation.
		 *
		 * The rules are as follows:
		 *
		 * - any write operation must own shared->writing.
		 *
		 * - any erase operation must own _both_ shared->writing and
		 *   shared->erasing.
		 *
		 * - contension arbitration is handled in the owner's context.
		 *
647 648
		 * The 'shared' struct can be read and/or written only when
		 * its lock is taken.
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		 */
		struct flchip_shared *shared = chip->priv;
		struct flchip *contender;
		spin_lock(&shared->lock);
		contender = shared->writing;
		if (contender && contender != chip) {
			/*
			 * The engine to perform desired operation on this
			 * partition is already in use by someone else.
			 * Let's fight over it in the context of the chip
			 * currently using it.  If it is possible to suspend,
			 * that other partition will do just that, otherwise
			 * it'll happily send us to sleep.  In any case, when
			 * get_chip returns success we're clear to go ahead.
			 */
			int ret = spin_trylock(contender->mutex);
			spin_unlock(&shared->lock);
			if (!ret)
				goto retry;
			spin_unlock(chip->mutex);
			ret = get_chip(map, contender, contender->start, mode);
			spin_lock(chip->mutex);
			if (ret) {
				spin_unlock(contender->mutex);
				return ret;
			}
			timeo = jiffies + HZ;
			spin_lock(&shared->lock);
677
			spin_unlock(contender->mutex);
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		}

		/* We now own it */
		shared->writing = chip;
		if (mode == FL_ERASING)
			shared->erasing = chip;
		spin_unlock(&shared->lock);
	}

	switch (chip->state) {

	case FL_STATUS:
		for (;;) {
			status = map_read(map, adr);
			if (map_word_andequal(map, status, status_OK, status_OK))
				break;

			/* At this point we're fine with write operations
			   in other partitions as they don't conflict. */
			if (chip->priv && map_word_andequal(map, status, status_PWS, status_PWS))
				break;

			if (time_after(jiffies, timeo)) {
701
				printk(KERN_ERR "%s: Waiting for chip to be ready timed out. Status %lx\n",
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				       map->name, status.x[0]);
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				return -EIO;
			}
			spin_unlock(chip->mutex);
			cfi_udelay(1);
			spin_lock(chip->mutex);
			/* Someone else might have been playing with it. */
			goto retry;
		}
711

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	case FL_READY:
	case FL_CFI_QUERY:
	case FL_JEDEC_QUERY:
		return 0;

	case FL_ERASING:
		if (!cfip ||
		    !(cfip->FeatureSupport & 2) ||
		    !(mode == FL_READY || mode == FL_POINT ||
		     (mode == FL_WRITING && (cfip->SuspendCmdSupport & 1))))
			goto sleep;


		/* Erase suspend */
		map_write(map, CMD(0xB0), adr);

		/* If the flash has finished erasing, then 'erase suspend'
		 * appears to make some (28F320) flash devices switch to
		 * 'read' mode.  Make sure that we switch to 'read status'
		 * mode so we get the right data. --rmk
		 */
		map_write(map, CMD(0x70), adr);
		chip->oldstate = FL_ERASING;
		chip->state = FL_ERASE_SUSPENDING;
		chip->erase_suspended = 1;
		for (;;) {
			status = map_read(map, adr);
			if (map_word_andequal(map, status, status_OK, status_OK))
			        break;

			if (time_after(jiffies, timeo)) {
				/* Urgh. Resume and pretend we weren't here.  */
				map_write(map, CMD(0xd0), adr);
				/* Make sure we're in 'read status' mode if it had finished */
				map_write(map, CMD(0x70), adr);
				chip->state = FL_ERASING;
				chip->oldstate = FL_READY;
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				printk(KERN_ERR "%s: Chip not ready after erase "
				       "suspended: status = 0x%lx\n", map->name, status.x[0]);
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				return -EIO;
			}

			spin_unlock(chip->mutex);
			cfi_udelay(1);
			spin_lock(chip->mutex);
			/* Nobody will touch it while it's in state FL_ERASE_SUSPENDING.
			   So we can just loop here. */
		}
		chip->state = FL_STATUS;
		return 0;

	case FL_XIP_WHILE_ERASING:
		if (mode != FL_READY && mode != FL_POINT &&
		    (mode != FL_WRITING || !cfip || !(cfip->SuspendCmdSupport&1)))
			goto sleep;
		chip->oldstate = chip->state;
		chip->state = FL_READY;
		return 0;

	case FL_POINT:
		/* Only if there's no operation suspended... */
		if (mode == FL_READY && chip->oldstate == FL_READY)
			return 0;

	default:
	sleep:
		set_current_state(TASK_UNINTERRUPTIBLE);
		add_wait_queue(&chip->wq, &wait);
		spin_unlock(chip->mutex);
		schedule();
		remove_wait_queue(&chip->wq, &wait);
		spin_lock(chip->mutex);
		goto resettime;
	}
}

static void put_chip(struct map_info *map, struct flchip *chip, unsigned long adr)
{
	struct cfi_private *cfi = map->fldrv_priv;

	if (chip->priv) {
		struct flchip_shared *shared = chip->priv;
		spin_lock(&shared->lock);
		if (shared->writing == chip && chip->oldstate == FL_READY) {
			/* We own the ability to write, but we're done */
			shared->writing = shared->erasing;
			if (shared->writing && shared->writing != chip) {
				/* give back ownership to who we loaned it from */
				struct flchip *loaner = shared->writing;
				spin_lock(loaner->mutex);
				spin_unlock(&shared->lock);
				spin_unlock(chip->mutex);
				put_chip(map, loaner, loaner->start);
				spin_lock(chip->mutex);
				spin_unlock(loaner->mutex);
				wake_up(&chip->wq);
				return;
			}
			shared->erasing = NULL;
			shared->writing = NULL;
		} else if (shared->erasing == chip && shared->writing != chip) {
			/*
			 * We own the ability to erase without the ability
			 * to write, which means the erase was suspended
			 * and some other partition is currently writing.
			 * Don't let the switch below mess things up since
			 * we don't have ownership to resume anything.
			 */
			spin_unlock(&shared->lock);
			wake_up(&chip->wq);
			return;
		}
		spin_unlock(&shared->lock);
	}

	switch(chip->oldstate) {
	case FL_ERASING:
		chip->state = chip->oldstate;
830
		/* What if one interleaved chip has finished and the
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		   other hasn't? The old code would leave the finished
832
		   one in READY mode. That's bad, and caused -EROFS
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		   errors to be returned from do_erase_oneblock because
		   that's the only bit it checked for at the time.
835
		   As the state machine appears to explicitly allow
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		   sending the 0x70 (Read Status) command to an erasing
837
		   chip and expecting it to be ignored, that's what we
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		   do. */
		map_write(map, CMD(0xd0), adr);
		map_write(map, CMD(0x70), adr);
		chip->oldstate = FL_READY;
		chip->state = FL_ERASING;
		break;

	case FL_XIP_WHILE_ERASING:
		chip->state = chip->oldstate;
		chip->oldstate = FL_READY;
		break;

	case FL_READY:
	case FL_STATUS:
	case FL_JEDEC_QUERY:
		/* We should really make set_vpp() count, rather than doing this */
		DISABLE_VPP(map);
		break;
	default:
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		printk(KERN_ERR "%s: put_chip() called with oldstate %d!!\n", map->name, chip->oldstate);
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	}
	wake_up(&chip->wq);
}

#ifdef CONFIG_MTD_XIP

/*
 * No interrupt what so ever can be serviced while the flash isn't in array
 * mode.  This is ensured by the xip_disable() and xip_enable() functions
 * enclosing any code path where the flash is known not to be in array mode.
 * And within a XIP disabled code path, only functions marked with __xipram
 * may be called and nothing else (it's a good thing to inspect generated
 * assembly to make sure inline functions were actually inlined and that gcc
 * didn't emit calls to its own support functions). Also configuring MTD CFI
 * support to a single buswidth and a single interleave is also recommended.
 */

static void xip_disable(struct map_info *map, struct flchip *chip,
			unsigned long adr)
{
	/* TODO: chips with no XIP use should ignore and return */
	(void) map_read(map, adr); /* ensure mmu mapping is up to date */
	local_irq_disable();
}

static void __xipram xip_enable(struct map_info *map, struct flchip *chip,
				unsigned long adr)
{
	struct cfi_private *cfi = map->fldrv_priv;
	if (chip->state != FL_POINT && chip->state != FL_READY) {
		map_write(map, CMD(0xff), adr);
		chip->state = FL_READY;
	}
	(void) map_read(map, adr);
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	xip_iprefetch();
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	local_irq_enable();
}

/*
 * When a delay is required for the flash operation to complete, the
 * xip_udelay() function is polling for both the given timeout and pending
 * (but still masked) hardware interrupts.  Whenever there is an interrupt
 * pending then the flash erase or write operation is suspended, array mode
 * restored and interrupts unmasked.  Task scheduling might also happen at that
 * point.  The CPU eventually returns from the interrupt or the call to
 * schedule() and the suspended flash operation is resumed for the remaining
 * of the delay period.
 *
 * Warning: this function _will_ fool interrupt latency tracing tools.
 */

static void __xipram xip_udelay(struct map_info *map, struct flchip *chip,
				unsigned long adr, int usec)
{
	struct cfi_private *cfi = map->fldrv_priv;
	struct cfi_pri_intelext *cfip = cfi->cmdset_priv;
	map_word status, OK = CMD(0x80);
	unsigned long suspended, start = xip_currtime();
	flstate_t oldstate, newstate;

	do {
		cpu_relax();
		if (xip_irqpending() && cfip &&
		    ((chip->state == FL_ERASING && (cfip->FeatureSupport&2)) ||
		     (chip->state == FL_WRITING && (cfip->FeatureSupport&4))) &&
		    (cfi_interleave_is_1(cfi) || chip->oldstate == FL_READY)) {
			/*
			 * Let's suspend the erase or write operation when
			 * supported.  Note that we currently don't try to
			 * suspend interleaved chips if there is already
			 * another operation suspended (imagine what happens
			 * when one chip was already done with the current
			 * operation while another chip suspended it, then
			 * we resume the whole thing at once).  Yes, it
			 * can happen!
			 */
			map_write(map, CMD(0xb0), adr);
			map_write(map, CMD(0x70), adr);
			usec -= xip_elapsed_since(start);
			suspended = xip_currtime();
			do {
				if (xip_elapsed_since(suspended) > 100000) {
					/*
					 * The chip doesn't want to suspend
					 * after waiting for 100 msecs.
					 * This is a critical error but there
					 * is not much we can do here.
					 */
					return;
				}
				status = map_read(map, adr);
			} while (!map_word_andequal(map, status, OK, OK));

			/* Suspend succeeded */
			oldstate = chip->state;
			if (oldstate == FL_ERASING) {
				if (!map_word_bitsset(map, status, CMD(0x40)))
					break;
				newstate = FL_XIP_WHILE_ERASING;
				chip->erase_suspended = 1;
			} else {
				if (!map_word_bitsset(map, status, CMD(0x04)))
					break;
				newstate = FL_XIP_WHILE_WRITING;
				chip->write_suspended = 1;
			}
			chip->state = newstate;
			map_write(map, CMD(0xff), adr);
			(void) map_read(map, adr);
			asm volatile (".rep 8; nop; .endr");
			local_irq_enable();
969
			spin_unlock(chip->mutex);
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			asm volatile (".rep 8; nop; .endr");
			cond_resched();

			/*
			 * We're back.  However someone else might have
			 * decided to go write to the chip if we are in
			 * a suspended erase state.  If so let's wait
			 * until it's done.
			 */
979
			spin_lock(chip->mutex);
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			while (chip->state != newstate) {
				DECLARE_WAITQUEUE(wait, current);
				set_current_state(TASK_UNINTERRUPTIBLE);
				add_wait_queue(&chip->wq, &wait);
984
				spin_unlock(chip->mutex);
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				schedule();
				remove_wait_queue(&chip->wq, &wait);
987
				spin_lock(chip->mutex);
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			}
			/* Disallow XIP again */
			local_irq_disable();

			/* Resume the write or erase operation */
			map_write(map, CMD(0xd0), adr);
			map_write(map, CMD(0x70), adr);
			chip->state = oldstate;
			start = xip_currtime();
		} else if (usec >= 1000000/HZ) {
			/*
			 * Try to save on CPU power when waiting delay
			 * is at least a system timer tick period.
			 * No need to be extremely accurate here.
			 */
			xip_cpu_idle();
		}
		status = map_read(map, adr);
	} while (!map_word_andequal(map, status, OK, OK)
		 && xip_elapsed_since(start) < usec);
}

#define UDELAY(map, chip, adr, usec)  xip_udelay(map, chip, adr, usec)

/*
 * The INVALIDATE_CACHED_RANGE() macro is normally used in parallel while
 * the flash is actively programming or erasing since we have to poll for
 * the operation to complete anyway.  We can't do that in a generic way with
1016 1017
 * a XIP setup so do it before the actual flash operation in this case
 * and stub it out from INVALIDATE_CACHE_UDELAY.
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 */
1019 1020 1021 1022 1023
#define XIP_INVAL_CACHED_RANGE(map, from, size)  \
	INVALIDATE_CACHED_RANGE(map, from, size)

#define INVALIDATE_CACHE_UDELAY(map, chip, adr, len, usec)  \
	UDELAY(map, chip, adr, usec)
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/*
 * Extra notes:
 *
 * Activating this XIP support changes the way the code works a bit.  For
 * example the code to suspend the current process when concurrent access
 * happens is never executed because xip_udelay() will always return with the
 * same chip state as it was entered with.  This is why there is no care for
 * the presence of add_wait_queue() or schedule() calls from within a couple
 * xip_disable()'d  areas of code, like in do_erase_oneblock for example.
 * The queueing and scheduling are always happening within xip_udelay().
 *
 * Similarly, get_chip() and put_chip() just happen to always be executed
 * with chip->state set to FL_READY (or FL_XIP_WHILE_*) where flash state
 * is in array mode, therefore never executing many cases therein and not
 * causing any problem with XIP.
 */

#else

#define xip_disable(map, chip, adr)
#define xip_enable(map, chip, adr)
#define XIP_INVAL_CACHED_RANGE(x...)

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#define UDELAY(map, chip, adr, usec)  \
do {  \
	spin_unlock(chip->mutex);  \
	cfi_udelay(usec);  \
	spin_lock(chip->mutex);  \
} while (0)

#define INVALIDATE_CACHE_UDELAY(map, chip, adr, len, usec)  \
do {  \
	spin_unlock(chip->mutex);  \
	INVALIDATE_CACHED_RANGE(map, adr, len);  \
	cfi_udelay(usec);  \
	spin_lock(chip->mutex);  \
} while (0)

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#endif

static int do_point_onechip (struct map_info *map, struct flchip *chip, loff_t adr, size_t len)
{
	unsigned long cmd_addr;
	struct cfi_private *cfi = map->fldrv_priv;
	int ret = 0;

	adr += chip->start;

1073 1074
	/* Ensure cmd read/writes are aligned. */
	cmd_addr = adr & ~(map_bankwidth(map)-1);
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	spin_lock(chip->mutex);

	ret = get_chip(map, chip, cmd_addr, FL_POINT);

	if (!ret) {
		if (chip->state != FL_POINT && chip->state != FL_READY)
			map_write(map, CMD(0xff), cmd_addr);

		chip->state = FL_POINT;
		chip->ref_point_counter++;
	}
	spin_unlock(chip->mutex);

	return ret;
}

static int cfi_intelext_point (struct mtd_info *mtd, loff_t from, size_t len, size_t *retlen, u_char **mtdbuf)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	unsigned long ofs;
	int chipnum;
	int ret = 0;

	if (!map->virt || (from + len > mtd->size))
		return -EINVAL;
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	*mtdbuf = (void *)map->virt + from;
	*retlen = 0;

	/* Now lock the chip(s) to POINT state */

	/* ofs: offset within the first chip that the first read should start */
	chipnum = (from >> cfi->chipshift);
	ofs = from - (chipnum << cfi->chipshift);

	while (len) {
		unsigned long thislen;

		if (chipnum >= cfi->numchips)
			break;

		if ((len + ofs -1) >> cfi->chipshift)
			thislen = (1<<cfi->chipshift) - ofs;
		else
			thislen = len;

		ret = do_point_onechip(map, &cfi->chips[chipnum], ofs, thislen);
		if (ret)
			break;

		*retlen += thislen;
		len -= thislen;
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		ofs = 0;
		chipnum++;
	}
	return 0;
}

static void cfi_intelext_unpoint (struct mtd_info *mtd, u_char *addr, loff_t from, size_t len)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	unsigned long ofs;
	int chipnum;

	/* Now unlock the chip(s) POINT state */

	/* ofs: offset within the first chip that the first read should start */
	chipnum = (from >> cfi->chipshift);
	ofs = from - (chipnum <<  cfi->chipshift);

	while (len) {
		unsigned long thislen;
		struct flchip *chip;

		chip = &cfi->chips[chipnum];
		if (chipnum >= cfi->numchips)
			break;

		if ((len + ofs -1) >> cfi->chipshift)
			thislen = (1<<cfi->chipshift) - ofs;
		else
			thislen = len;

		spin_lock(chip->mutex);
		if (chip->state == FL_POINT) {
			chip->ref_point_counter--;
			if(chip->ref_point_counter == 0)
				chip->state = FL_READY;
		} else
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			printk(KERN_ERR "%s: Warning: unpoint called on non pointed region\n", map->name); /* Should this give an error? */
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		put_chip(map, chip, chip->start);
		spin_unlock(chip->mutex);

		len -= thislen;
		ofs = 0;
		chipnum++;
	}
}

static inline int do_read_onechip(struct map_info *map, struct flchip *chip, loff_t adr, size_t len, u_char *buf)
{
	unsigned long cmd_addr;
	struct cfi_private *cfi = map->fldrv_priv;
	int ret;

	adr += chip->start;

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	/* Ensure cmd read/writes are aligned. */
	cmd_addr = adr & ~(map_bankwidth(map)-1);
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	spin_lock(chip->mutex);
	ret = get_chip(map, chip, cmd_addr, FL_READY);
	if (ret) {
		spin_unlock(chip->mutex);
		return ret;
	}

	if (chip->state != FL_POINT && chip->state != FL_READY) {
		map_write(map, CMD(0xff), cmd_addr);

		chip->state = FL_READY;
	}

	map_copy_from(map, buf, adr, len);

	put_chip(map, chip, cmd_addr);

	spin_unlock(chip->mutex);
	return 0;
}

static int cfi_intelext_read (struct mtd_info *mtd, loff_t from, size_t len, size_t *retlen, u_char *buf)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	unsigned long ofs;
	int chipnum;
	int ret = 0;

	/* ofs: offset within the first chip that the first read should start */
	chipnum = (from >> cfi->chipshift);
	ofs = from - (chipnum <<  cfi->chipshift);

	*retlen = 0;

	while (len) {
		unsigned long thislen;

		if (chipnum >= cfi->numchips)
			break;

		if ((len + ofs -1) >> cfi->chipshift)
			thislen = (1<<cfi->chipshift) - ofs;
		else
			thislen = len;

		ret = do_read_onechip(map, &cfi->chips[chipnum], ofs, thislen, buf);
		if (ret)
			break;

		*retlen += thislen;
		len -= thislen;
		buf += thislen;
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		ofs = 0;
		chipnum++;
	}
	return ret;
}

static int __xipram do_write_oneword(struct map_info *map, struct flchip *chip,
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				     unsigned long adr, map_word datum, int mode)
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{
	struct cfi_private *cfi = map->fldrv_priv;
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	map_word status, status_OK, write_cmd;
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	unsigned long timeo;
	int z, ret=0;

	adr += chip->start;

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	/* Let's determine those according to the interleave only once */
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	status_OK = CMD(0x80);
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	switch (mode) {
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	case FL_WRITING:
		write_cmd = (cfi->cfiq->P_ID != 0x0200) ? CMD(0x40) : CMD(0x41);
		break;
	case FL_OTP_WRITE:
		write_cmd = CMD(0xc0);
		break;
	default:
		return -EINVAL;
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	}
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	spin_lock(chip->mutex);
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	ret = get_chip(map, chip, adr, mode);
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	if (ret) {
		spin_unlock(chip->mutex);
		return ret;
	}

	XIP_INVAL_CACHED_RANGE(map, adr, map_bankwidth(map));
	ENABLE_VPP(map);
	xip_disable(map, chip, adr);
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	map_write(map, write_cmd, adr);
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	map_write(map, datum, adr);
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	chip->state = mode;
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	INVALIDATE_CACHE_UDELAY(map, chip,
				adr, map_bankwidth(map),
				chip->word_write_time);
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	timeo = jiffies + (HZ/2);
	z = 0;
	for (;;) {
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		if (chip->state != mode) {
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			/* Someone's suspended the write. Sleep */
			DECLARE_WAITQUEUE(wait, current);

			set_current_state(TASK_UNINTERRUPTIBLE);
			add_wait_queue(&chip->wq, &wait);
			spin_unlock(chip->mutex);
			schedule();
			remove_wait_queue(&chip->wq, &wait);
			timeo = jiffies + (HZ / 2); /* FIXME */
			spin_lock(chip->mutex);
			continue;
		}

		status = map_read(map, adr);
		if (map_word_andequal(map, status, status_OK, status_OK))
			break;
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		/* OK Still waiting */
		if (time_after(jiffies, timeo)) {
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			map_write(map, CMD(0x70), adr);
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			chip->state = FL_STATUS;
			xip_enable(map, chip, adr);
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			printk(KERN_ERR "%s: word write error (status timeout)\n", map->name);
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			ret = -EIO;
			goto out;
		}

		/* Latency issues. Drop the lock, wait a while and retry */
		z++;
		UDELAY(map, chip, adr, 1);
	}
	if (!z) {
		chip->word_write_time--;
		if (!chip->word_write_time)
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			chip->word_write_time = 1;
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	}
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	if (z > 1)
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		chip->word_write_time++;

	/* Done and happy. */
	chip->state = FL_STATUS;

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	/* check for errors */
	if (map_word_bitsset(map, status, CMD(0x1a))) {
		unsigned long chipstatus = MERGESTATUS(status);

		/* reset status */
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		map_write(map, CMD(0x50), adr);
		map_write(map, CMD(0x70), adr);
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		xip_enable(map, chip, adr);

		if (chipstatus & 0x02) {
			ret = -EROFS;
		} else if (chipstatus & 0x08) {
			printk(KERN_ERR "%s: word write error (bad VPP)\n", map->name);
			ret = -EIO;
		} else {
			printk(KERN_ERR "%s: word write error (status 0x%lx)\n", map->name, chipstatus);
			ret = -EINVAL;
		}

		goto out;
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	}

	xip_enable(map, chip, adr);
 out:	put_chip(map, chip, adr);
	spin_unlock(chip->mutex);
	return ret;
}


static int cfi_intelext_write_words (struct mtd_info *mtd, loff_t to , size_t len, size_t *retlen, const u_char *buf)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	int ret = 0;
	int chipnum;
	unsigned long ofs;

	*retlen = 0;
	if (!len)
		return 0;

	chipnum = to >> cfi->chipshift;
	ofs = to  - (chipnum << cfi->chipshift);

	/* If it's not bus-aligned, do the first byte write */
	if (ofs & (map_bankwidth(map)-1)) {
		unsigned long bus_ofs = ofs & ~(map_bankwidth(map)-1);
		int gap = ofs - bus_ofs;
		int n;
		map_word datum;

		n = min_t(int, len, map_bankwidth(map)-gap);
		datum = map_word_ff(map);
		datum = map_word_load_partial(map, datum, buf, gap, n);

		ret = do_write_oneword(map, &cfi->chips[chipnum],
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					       bus_ofs, datum, FL_WRITING);
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		if (ret)
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			return ret;

		len -= n;
		ofs += n;
		buf += n;
		(*retlen) += n;

		if (ofs >> cfi->chipshift) {
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			chipnum ++;
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			ofs = 0;
			if (chipnum == cfi->numchips)
				return 0;
		}
	}
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	while(len >= map_bankwidth(map)) {
		map_word datum = map_word_load(map, buf);

		ret = do_write_oneword(map, &cfi->chips[chipnum],
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				       ofs, datum, FL_WRITING);
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		if (ret)
			return ret;

		ofs += map_bankwidth(map);
		buf += map_bankwidth(map);
		(*retlen) += map_bankwidth(map);
		len -= map_bankwidth(map);

		if (ofs >> cfi->chipshift) {
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			chipnum ++;
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			ofs = 0;
			if (chipnum == cfi->numchips)
				return 0;
		}
	}

	if (len & (map_bankwidth(map)-1)) {
		map_word datum;

		datum = map_word_ff(map);
		datum = map_word_load_partial(map, datum, buf, 0, len);

		ret = do_write_oneword(map, &cfi->chips[chipnum],
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				       ofs, datum, FL_WRITING);
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		if (ret)
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			return ret;
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		(*retlen) += len;
	}

	return 0;
}


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static int __xipram do_write_buffer(struct map_info *map, struct flchip *chip,
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				    unsigned long adr, const struct kvec **pvec,
				    unsigned long *pvec_seek, int len)
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{
	struct cfi_private *cfi = map->fldrv_priv;
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	map_word status, status_OK, write_cmd, datum;
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	unsigned long cmd_adr, timeo;
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	int wbufsize, z, ret=0, word_gap, words;
	const struct kvec *vec;
	unsigned long vec_seek;
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	wbufsize = cfi_interleave(cfi) << cfi->cfiq->MaxBufWriteSize;
	adr += chip->start;
	cmd_adr = adr & ~(wbufsize-1);
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	/* Let's determine this according to the interleave only once */
	status_OK = CMD(0x80);
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	write_cmd = (cfi->cfiq->P_ID != 0x0200) ? CMD(0xe8) : CMD(0xe9);
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	spin_lock(chip->mutex);
	ret = get_chip(map, chip, cmd_adr, FL_WRITING);
	if (ret) {
		spin_unlock(chip->mutex);
		return ret;
	}

	XIP_INVAL_CACHED_RANGE(map, adr, len);
	ENABLE_VPP(map);
	xip_disable(map, chip, cmd_adr);

	/* 4.8 of the 28FxxxJ3A datasheet says "Any time SR.4 and/or SR.5 is set
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	   [...], the device will not accept any more Write to Buffer commands".
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	   So we must check here and reset those bits if they're set. Otherwise
	   we're just pissing in the wind */
	if (chip->state != FL_STATUS)
		map_write(map, CMD(0x70), cmd_adr);
	status = map_read(map, cmd_adr);
	if (map_word_bitsset(map, status, CMD(0x30))) {
		xip_enable(map, chip, cmd_adr);
		printk(KERN_WARNING "SR.4 or SR.5 bits set in buffer write (status %lx). Clearing.\n", status.x[0]);
		xip_disable(map, chip, cmd_adr);
		map_write(map, CMD(0x50), cmd_adr);
		map_write(map, CMD(0x70), cmd_adr);
	}

	chip->state = FL_WRITING_TO_BUFFER;

	z = 0;
	for (;;) {
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		map_write(map, write_cmd, cmd_adr);
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		status = map_read(map, cmd_adr);
		if (map_word_andequal(map, status, status_OK, status_OK))
			break;

		UDELAY(map, chip, cmd_adr, 1);

		if (++z > 20) {
			/* Argh. Not ready for write to buffer */
			map_word Xstatus;
			map_write(map, CMD(0x70), cmd_adr);
			chip->state = FL_STATUS;
			Xstatus = map_read(map, cmd_adr);
			/* Odd. Clear status bits */
			map_write(map, CMD(0x50), cmd_adr);
			map_write(map, CMD(0x70), cmd_adr);
			xip_enable(map, chip, cmd_adr);
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			printk(KERN_ERR "%s: Chip not ready for buffer write. status = %lx, Xstatus = %lx\n",
			       map->name, status.x[0], Xstatus.x[0]);
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			ret = -EIO;
			goto out;
		}
	}

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	/* Figure out the number of words to write */
	word_gap = (-adr & (map_bankwidth(map)-1));
	words = (len - word_gap + map_bankwidth(map) - 1) / map_bankwidth(map);
	if (!word_gap) {
		words--;
	} else {
		word_gap = map_bankwidth(map) - word_gap;
		adr -= word_gap;
		datum = map_word_ff(map);
	}

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	/* Write length of data to come */
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	map_write(map, CMD(words), cmd_adr );
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	/* Write data */
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	vec = *pvec;
	vec_seek = *pvec_seek;
	do {
		int n = map_bankwidth(map) - word_gap;
		if (n > vec->iov_len - vec_seek)
			n = vec->iov_len - vec_seek;
		if (n > len)
			n = len;
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		if (!word_gap && len < map_bankwidth(map))
			datum = map_word_ff(map);
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		datum = map_word_load_partial(map, datum,
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					      vec->iov_base + vec_seek,
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					      word_gap, n);
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		len -= n;
		word_gap += n;
		if (!len || word_gap == map_bankwidth(map)) {
			map_write(map, datum, adr);
			adr += map_bankwidth(map);
			word_gap = 0;
		}
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		vec_seek += n;
		if (vec_seek == vec->iov_len) {
			vec++;
			vec_seek = 0;
		}
	} while (len);
	*pvec = vec;
	*pvec_seek = vec_seek;
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	/* GO GO GO */
	map_write(map, CMD(0xd0), cmd_adr);
	chip->state = FL_WRITING;

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	INVALIDATE_CACHE_UDELAY(map, chip,
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				cmd_adr, len,
				chip->buffer_write_time);
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	timeo = jiffies + (HZ/2);
	z = 0;
	for (;;) {
		if (chip->state != FL_WRITING) {
			/* Someone's suspended the write. Sleep */
			DECLARE_WAITQUEUE(wait, current);
			set_current_state(TASK_UNINTERRUPTIBLE);
			add_wait_queue(&chip->wq, &wait);
			spin_unlock(chip->mutex);
			schedule();
			remove_wait_queue(&chip->wq, &wait);
			timeo = jiffies + (HZ / 2); /* FIXME */
			spin_lock(chip->mutex);
			continue;
		}

		status = map_read(map, cmd_adr);
		if (map_word_andequal(map, status, status_OK, status_OK))
			break;

		/* OK Still waiting */
		if (time_after(jiffies, timeo)) {
N
Nicolas Pitre 已提交
1601
			map_write(map, CMD(0x70), cmd_adr);
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Linus Torvalds 已提交
1602 1603
			chip->state = FL_STATUS;
			xip_enable(map, chip, cmd_adr);
N
Nicolas Pitre 已提交
1604
			printk(KERN_ERR "%s: buffer write error (status timeout)\n", map->name);
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1605 1606 1607
			ret = -EIO;
			goto out;
		}
1608

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		/* Latency issues. Drop the lock, wait a while and retry */
		z++;
1611
		UDELAY(map, chip, cmd_adr, 1);
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1612 1613 1614 1615
	}
	if (!z) {
		chip->buffer_write_time--;
		if (!chip->buffer_write_time)
N
Nicolas Pitre 已提交
1616
			chip->buffer_write_time = 1;
L
Linus Torvalds 已提交
1617
	}
1618
	if (z > 1)
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1619 1620 1621 1622 1623
		chip->buffer_write_time++;

	/* Done and happy. */
 	chip->state = FL_STATUS;

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Nicolas Pitre 已提交
1624 1625 1626 1627 1628
	/* check for errors */
	if (map_word_bitsset(map, status, CMD(0x1a))) {
		unsigned long chipstatus = MERGESTATUS(status);

		/* reset status */
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1629
		map_write(map, CMD(0x50), cmd_adr);
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Nicolas Pitre 已提交
1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643
		map_write(map, CMD(0x70), cmd_adr);
		xip_enable(map, chip, cmd_adr);

		if (chipstatus & 0x02) {
			ret = -EROFS;
		} else if (chipstatus & 0x08) {
			printk(KERN_ERR "%s: buffer write error (bad VPP)\n", map->name);
			ret = -EIO;
		} else {
			printk(KERN_ERR "%s: buffer write error (status 0x%lx)\n", map->name, chipstatus);
			ret = -EINVAL;
		}

		goto out;
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1644 1645 1646 1647 1648 1649 1650 1651
	}

	xip_enable(map, chip, cmd_adr);
 out:	put_chip(map, chip, cmd_adr);
	spin_unlock(chip->mutex);
	return ret;
}

1652 1653
static int cfi_intelext_writev (struct mtd_info *mtd, const struct kvec *vecs,
				unsigned long count, loff_t to, size_t *retlen)
L
Linus Torvalds 已提交
1654 1655 1656 1657 1658 1659
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	int wbufsize = cfi_interleave(cfi) << cfi->cfiq->MaxBufWriteSize;
	int ret = 0;
	int chipnum;
1660 1661 1662 1663 1664
	unsigned long ofs, vec_seek, i;
	size_t len = 0;

	for (i = 0; i < count; i++)
		len += vecs[i].iov_len;
L
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1665 1666 1667 1668 1669 1670

	*retlen = 0;
	if (!len)
		return 0;

	chipnum = to >> cfi->chipshift;
1671 1672
	ofs = to - (chipnum << cfi->chipshift);
	vec_seek = 0;
L
Linus Torvalds 已提交
1673

1674
	do {
L
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1675 1676 1677 1678 1679
		/* We must not cross write block boundaries */
		int size = wbufsize - (ofs & (wbufsize-1));

		if (size > len)
			size = len;
1680
		ret = do_write_buffer(map, &cfi->chips[chipnum],
1681
				      ofs, &vecs, &vec_seek, size);
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1682 1683 1684 1685 1686 1687 1688 1689
		if (ret)
			return ret;

		ofs += size;
		(*retlen) += size;
		len -= size;

		if (ofs >> cfi->chipshift) {
1690
			chipnum ++;
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1691 1692 1693 1694
			ofs = 0;
			if (chipnum == cfi->numchips)
				return 0;
		}
1695 1696
	} while (len);

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	return 0;
}

1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710
static int cfi_intelext_write_buffers (struct mtd_info *mtd, loff_t to,
				       size_t len, size_t *retlen, const u_char *buf)
{
	struct kvec vec;

	vec.iov_base = (void *) buf;
	vec.iov_len = len;

	return cfi_intelext_writev(mtd, &vec, 1, to, retlen);
}

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1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746
static int __xipram do_erase_oneblock(struct map_info *map, struct flchip *chip,
				      unsigned long adr, int len, void *thunk)
{
	struct cfi_private *cfi = map->fldrv_priv;
	map_word status, status_OK;
	unsigned long timeo;
	int retries = 3;
	DECLARE_WAITQUEUE(wait, current);
	int ret = 0;

	adr += chip->start;

	/* Let's determine this according to the interleave only once */
	status_OK = CMD(0x80);

 retry:
	spin_lock(chip->mutex);
	ret = get_chip(map, chip, adr, FL_ERASING);
	if (ret) {
		spin_unlock(chip->mutex);
		return ret;
	}

	XIP_INVAL_CACHED_RANGE(map, adr, len);
	ENABLE_VPP(map);
	xip_disable(map, chip, adr);

	/* Clear the status register first */
	map_write(map, CMD(0x50), adr);

	/* Now erase */
	map_write(map, CMD(0x20), adr);
	map_write(map, CMD(0xD0), adr);
	chip->state = FL_ERASING;
	chip->erase_suspended = 0;

1747 1748 1749
	INVALIDATE_CACHE_UDELAY(map, chip,
				adr, len,
				chip->erase_time*1000/2);
L
Linus Torvalds 已提交
1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768 1769 1770 1771 1772 1773 1774 1775

	/* FIXME. Use a timer to check this, and return immediately. */
	/* Once the state machine's known to be working I'll do that */

	timeo = jiffies + (HZ*20);
	for (;;) {
		if (chip->state != FL_ERASING) {
			/* Someone's suspended the erase. Sleep */
			set_current_state(TASK_UNINTERRUPTIBLE);
			add_wait_queue(&chip->wq, &wait);
			spin_unlock(chip->mutex);
			schedule();
			remove_wait_queue(&chip->wq, &wait);
			spin_lock(chip->mutex);
			continue;
		}
		if (chip->erase_suspended) {
			/* This erase was suspended and resumed.
			   Adjust the timeout */
			timeo = jiffies + (HZ*20); /* FIXME */
			chip->erase_suspended = 0;
		}

		status = map_read(map, adr);
		if (map_word_andequal(map, status, status_OK, status_OK))
			break;
1776

L
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1777 1778 1779 1780 1781
		/* OK Still waiting */
		if (time_after(jiffies, timeo)) {
			map_write(map, CMD(0x70), adr);
			chip->state = FL_STATUS;
			xip_enable(map, chip, adr);
N
Nicolas Pitre 已提交
1782
			printk(KERN_ERR "%s: block erase error: (status timeout)\n", map->name);
L
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1783 1784 1785
			ret = -EIO;
			goto out;
		}
1786

L
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1787 1788 1789 1790 1791 1792 1793 1794 1795
		/* Latency issues. Drop the lock, wait a while and retry */
		UDELAY(map, chip, adr, 1000000/HZ);
	}

	/* We've broken this before. It doesn't hurt to be safe */
	map_write(map, CMD(0x70), adr);
	chip->state = FL_STATUS;
	status = map_read(map, adr);

N
Nicolas Pitre 已提交
1796
	/* check for errors */
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1797
	if (map_word_bitsset(map, status, CMD(0x3a))) {
N
Nicolas Pitre 已提交
1798
		unsigned long chipstatus = MERGESTATUS(status);
L
Linus Torvalds 已提交
1799 1800 1801 1802 1803 1804 1805

		/* Reset the error bits */
		map_write(map, CMD(0x50), adr);
		map_write(map, CMD(0x70), adr);
		xip_enable(map, chip, adr);

		if ((chipstatus & 0x30) == 0x30) {
N
Nicolas Pitre 已提交
1806 1807
			printk(KERN_ERR "%s: block erase error: (bad command sequence, status 0x%lx)\n", map->name, chipstatus);
			ret = -EINVAL;
L
Linus Torvalds 已提交
1808 1809 1810 1811 1812
		} else if (chipstatus & 0x02) {
			/* Protection bit set */
			ret = -EROFS;
		} else if (chipstatus & 0x8) {
			/* Voltage */
N
Nicolas Pitre 已提交
1813
			printk(KERN_ERR "%s: block erase error: (bad VPP)\n", map->name);
L
Linus Torvalds 已提交
1814
			ret = -EIO;
N
Nicolas Pitre 已提交
1815 1816 1817 1818 1819 1820 1821 1822
		} else if (chipstatus & 0x20 && retries--) {
			printk(KERN_DEBUG "block erase failed at 0x%08lx: status 0x%lx. Retrying...\n", adr, chipstatus);
			timeo = jiffies + HZ;
			put_chip(map, chip, adr);
			spin_unlock(chip->mutex);
			goto retry;
		} else {
			printk(KERN_ERR "%s: block erase failed at 0x%08lx (status 0x%lx)\n", map->name, adr, chipstatus);
L
Linus Torvalds 已提交
1823 1824
			ret = -EIO;
		}
N
Nicolas Pitre 已提交
1825 1826

		goto out;
L
Linus Torvalds 已提交
1827 1828
	}

N
Nicolas Pitre 已提交
1829
	xip_enable(map, chip, adr);
L
Linus Torvalds 已提交
1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848
 out:	put_chip(map, chip, adr);
	spin_unlock(chip->mutex);
	return ret;
}

int cfi_intelext_erase_varsize(struct mtd_info *mtd, struct erase_info *instr)
{
	unsigned long ofs, len;
	int ret;

	ofs = instr->addr;
	len = instr->len;

	ret = cfi_varsize_frob(mtd, do_erase_oneblock, ofs, len, NULL);
	if (ret)
		return ret;

	instr->state = MTD_ERASE_DONE;
	mtd_erase_callback(instr);
1849

L
Linus Torvalds 已提交
1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869
	return 0;
}

static void cfi_intelext_sync (struct mtd_info *mtd)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	int i;
	struct flchip *chip;
	int ret = 0;

	for (i=0; !ret && i<cfi->numchips; i++) {
		chip = &cfi->chips[i];

		spin_lock(chip->mutex);
		ret = get_chip(map, chip, chip->start, FL_SYNCING);

		if (!ret) {
			chip->oldstate = chip->state;
			chip->state = FL_SYNCING;
1870
			/* No need to wake_up() on this state change -
L
Linus Torvalds 已提交
1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883
			 * as the whole point is that nobody can do anything
			 * with the chip now anyway.
			 */
		}
		spin_unlock(chip->mutex);
	}

	/* Unlock the chips again */

	for (i--; i >=0; i--) {
		chip = &cfi->chips[i];

		spin_lock(chip->mutex);
1884

L
Linus Torvalds 已提交
1885 1886
		if (chip->state == FL_SYNCING) {
			chip->state = chip->oldstate;
1887
			chip->oldstate = FL_READY;
L
Linus Torvalds 已提交
1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902
			wake_up(&chip->wq);
		}
		spin_unlock(chip->mutex);
	}
}

#ifdef DEBUG_LOCK_BITS
static int __xipram do_printlockstatus_oneblock(struct map_info *map,
						struct flchip *chip,
						unsigned long adr,
						int len, void *thunk)
{
	struct cfi_private *cfi = map->fldrv_priv;
	int status, ofs_factor = cfi->interleave * cfi->device_type;

1903
	adr += chip->start;
L
Linus Torvalds 已提交
1904
	xip_disable(map, chip, adr+(2*ofs_factor));
1905
	map_write(map, CMD(0x90), adr+(2*ofs_factor));
L
Linus Torvalds 已提交
1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 1921
	chip->state = FL_JEDEC_QUERY;
	status = cfi_read_query(map, adr+(2*ofs_factor));
	xip_enable(map, chip, 0);
	printk(KERN_DEBUG "block status register for 0x%08lx is %x\n",
	       adr, status);
	return 0;
}
#endif

#define DO_XXLOCK_ONEBLOCK_LOCK		((void *) 1)
#define DO_XXLOCK_ONEBLOCK_UNLOCK	((void *) 2)

static int __xipram do_xxlock_oneblock(struct map_info *map, struct flchip *chip,
				       unsigned long adr, int len, void *thunk)
{
	struct cfi_private *cfi = map->fldrv_priv;
1922
	struct cfi_pri_intelext *extp = cfi->cmdset_priv;
L
Linus Torvalds 已提交
1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940
	map_word status, status_OK;
	unsigned long timeo = jiffies + HZ;
	int ret;

	adr += chip->start;

	/* Let's determine this according to the interleave only once */
	status_OK = CMD(0x80);

	spin_lock(chip->mutex);
	ret = get_chip(map, chip, adr, FL_LOCKING);
	if (ret) {
		spin_unlock(chip->mutex);
		return ret;
	}

	ENABLE_VPP(map);
	xip_disable(map, chip, adr);
1941

L
Linus Torvalds 已提交
1942 1943 1944 1945 1946 1947 1948 1949 1950 1951
	map_write(map, CMD(0x60), adr);
	if (thunk == DO_XXLOCK_ONEBLOCK_LOCK) {
		map_write(map, CMD(0x01), adr);
		chip->state = FL_LOCKING;
	} else if (thunk == DO_XXLOCK_ONEBLOCK_UNLOCK) {
		map_write(map, CMD(0xD0), adr);
		chip->state = FL_UNLOCKING;
	} else
		BUG();

1952 1953 1954 1955 1956
	/*
	 * If Instant Individual Block Locking supported then no need
	 * to delay.
	 */

1957
	if (!extp || !(extp->FeatureSupport & (1 << 5)))
1958
		UDELAY(map, chip, adr, 1000000/HZ);
L
Linus Torvalds 已提交
1959 1960 1961 1962 1963 1964 1965 1966 1967 1968

	/* FIXME. Use a timer to check this, and return immediately. */
	/* Once the state machine's known to be working I'll do that */

	timeo = jiffies + (HZ*20);
	for (;;) {

		status = map_read(map, adr);
		if (map_word_andequal(map, status, status_OK, status_OK))
			break;
1969

L
Linus Torvalds 已提交
1970 1971 1972 1973 1974
		/* OK Still waiting */
		if (time_after(jiffies, timeo)) {
			map_write(map, CMD(0x70), adr);
			chip->state = FL_STATUS;
			xip_enable(map, chip, adr);
N
Nicolas Pitre 已提交
1975
			printk(KERN_ERR "%s: block unlock error: (status timeout)\n", map->name);
L
Linus Torvalds 已提交
1976 1977 1978 1979
			put_chip(map, chip, adr);
			spin_unlock(chip->mutex);
			return -EIO;
		}
1980

L
Linus Torvalds 已提交
1981 1982 1983
		/* Latency issues. Drop the lock, wait a while and retry */
		UDELAY(map, chip, adr, 1);
	}
1984

L
Linus Torvalds 已提交
1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003
	/* Done and happy. */
	chip->state = FL_STATUS;
	xip_enable(map, chip, adr);
	put_chip(map, chip, adr);
	spin_unlock(chip->mutex);
	return 0;
}

static int cfi_intelext_lock(struct mtd_info *mtd, loff_t ofs, size_t len)
{
	int ret;

#ifdef DEBUG_LOCK_BITS
	printk(KERN_DEBUG "%s: lock status before, ofs=0x%08llx, len=0x%08X\n",
	       __FUNCTION__, ofs, len);
	cfi_varsize_frob(mtd, do_printlockstatus_oneblock,
		ofs, len, 0);
#endif

2004
	ret = cfi_varsize_frob(mtd, do_xxlock_oneblock,
L
Linus Torvalds 已提交
2005
		ofs, len, DO_XXLOCK_ONEBLOCK_LOCK);
2006

L
Linus Torvalds 已提交
2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029
#ifdef DEBUG_LOCK_BITS
	printk(KERN_DEBUG "%s: lock status after, ret=%d\n",
	       __FUNCTION__, ret);
	cfi_varsize_frob(mtd, do_printlockstatus_oneblock,
		ofs, len, 0);
#endif

	return ret;
}

static int cfi_intelext_unlock(struct mtd_info *mtd, loff_t ofs, size_t len)
{
	int ret;

#ifdef DEBUG_LOCK_BITS
	printk(KERN_DEBUG "%s: lock status before, ofs=0x%08llx, len=0x%08X\n",
	       __FUNCTION__, ofs, len);
	cfi_varsize_frob(mtd, do_printlockstatus_oneblock,
		ofs, len, 0);
#endif

	ret = cfi_varsize_frob(mtd, do_xxlock_oneblock,
					ofs, len, DO_XXLOCK_ONEBLOCK_UNLOCK);
2030

L
Linus Torvalds 已提交
2031 2032 2033
#ifdef DEBUG_LOCK_BITS
	printk(KERN_DEBUG "%s: lock status after, ret=%d\n",
	       __FUNCTION__, ret);
2034
	cfi_varsize_frob(mtd, do_printlockstatus_oneblock,
L
Linus Torvalds 已提交
2035 2036
		ofs, len, 0);
#endif
2037

L
Linus Torvalds 已提交
2038 2039 2040
	return ret;
}

2041 2042
#ifdef CONFIG_MTD_OTP

2043
typedef int (*otp_op_t)(struct map_info *map, struct flchip *chip,
2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061
			u_long data_offset, u_char *buf, u_int size,
			u_long prot_offset, u_int groupno, u_int groupsize);

static int __xipram
do_otp_read(struct map_info *map, struct flchip *chip, u_long offset,
	    u_char *buf, u_int size, u_long prot, u_int grpno, u_int grpsz)
{
	struct cfi_private *cfi = map->fldrv_priv;
	int ret;

	spin_lock(chip->mutex);
	ret = get_chip(map, chip, chip->start, FL_JEDEC_QUERY);
	if (ret) {
		spin_unlock(chip->mutex);
		return ret;
	}

	/* let's ensure we're not reading back cached data from array mode */
2062
	INVALIDATE_CACHED_RANGE(map, chip->start + offset, size);
2063 2064 2065 2066 2067 2068 2069 2070 2071 2072

	xip_disable(map, chip, chip->start);
	if (chip->state != FL_JEDEC_QUERY) {
		map_write(map, CMD(0x90), chip->start);
		chip->state = FL_JEDEC_QUERY;
	}
	map_copy_from(map, buf, chip->start + offset, size);
	xip_enable(map, chip, chip->start);

	/* then ensure we don't keep OTP data in the cache */
2073
	INVALIDATE_CACHED_RANGE(map, chip->start + offset, size);
2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093

	put_chip(map, chip, chip->start);
	spin_unlock(chip->mutex);
	return 0;
}

static int
do_otp_write(struct map_info *map, struct flchip *chip, u_long offset,
	     u_char *buf, u_int size, u_long prot, u_int grpno, u_int grpsz)
{
	int ret;

	while (size) {
		unsigned long bus_ofs = offset & ~(map_bankwidth(map)-1);
		int gap = offset - bus_ofs;
		int n = min_t(int, size, map_bankwidth(map)-gap);
		map_word datum = map_word_ff(map);

		datum = map_word_load_partial(map, datum, buf, gap, n);
		ret = do_write_oneword(map, chip, bus_ofs, datum, FL_OTP_WRITE);
2094
		if (ret)
2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112
			return ret;

		offset += n;
		buf += n;
		size -= n;
	}

	return 0;
}

static int
do_otp_lock(struct map_info *map, struct flchip *chip, u_long offset,
	    u_char *buf, u_int size, u_long prot, u_int grpno, u_int grpsz)
{
	struct cfi_private *cfi = map->fldrv_priv;
	map_word datum;

	/* make sure area matches group boundaries */
N
Nicolas Pitre 已提交
2113
	if (size != grpsz)
2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143
		return -EXDEV;

	datum = map_word_ff(map);
	datum = map_word_clr(map, datum, CMD(1 << grpno));
	return do_write_oneword(map, chip, prot, datum, FL_OTP_WRITE);
}

static int cfi_intelext_otp_walk(struct mtd_info *mtd, loff_t from, size_t len,
				 size_t *retlen, u_char *buf,
				 otp_op_t action, int user_regs)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	struct cfi_pri_intelext *extp = cfi->cmdset_priv;
	struct flchip *chip;
	struct cfi_intelext_otpinfo *otp;
	u_long devsize, reg_prot_offset, data_offset;
	u_int chip_num, chip_step, field, reg_fact_size, reg_user_size;
	u_int groups, groupno, groupsize, reg_fact_groups, reg_user_groups;
	int ret;

	*retlen = 0;

	/* Check that we actually have some OTP registers */
	if (!extp || !(extp->FeatureSupport & 64) || !extp->NumProtectionFields)
		return -ENODATA;

	/* we need real chips here not virtual ones */
	devsize = (1 << cfi->cfiq->DevSize) * cfi->interleave;
	chip_step = devsize >> cfi->chipshift;
2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155
	chip_num = 0;

	/* Some chips have OTP located in the _top_ partition only.
	   For example: Intel 28F256L18T (T means top-parameter device) */
	if (cfi->mfr == MANUFACTURER_INTEL) {
		switch (cfi->id) {
		case 0x880b:
		case 0x880c:
		case 0x880d:
			chip_num = chip_step - 1;
		}
	}
2156

2157
	for ( ; chip_num < cfi->numchips; chip_num += chip_step) {
2158 2159 2160 2161 2162 2163 2164 2165 2166 2167 2168 2169 2170 2171 2172 2173 2174 2175 2176 2177 2178 2179 2180 2181 2182 2183 2184 2185 2186 2187 2188
		chip = &cfi->chips[chip_num];
		otp = (struct cfi_intelext_otpinfo *)&extp->extra[0];

		/* first OTP region */
		field = 0;
		reg_prot_offset = extp->ProtRegAddr;
		reg_fact_groups = 1;
		reg_fact_size = 1 << extp->FactProtRegSize;
		reg_user_groups = 1;
		reg_user_size = 1 << extp->UserProtRegSize;

		while (len > 0) {
			/* flash geometry fixup */
			data_offset = reg_prot_offset + 1;
			data_offset *= cfi->interleave * cfi->device_type;
			reg_prot_offset *= cfi->interleave * cfi->device_type;
			reg_fact_size *= cfi->interleave;
			reg_user_size *= cfi->interleave;

			if (user_regs) {
				groups = reg_user_groups;
				groupsize = reg_user_size;
				/* skip over factory reg area */
				groupno = reg_fact_groups;
				data_offset += reg_fact_groups * reg_fact_size;
			} else {
				groups = reg_fact_groups;
				groupsize = reg_fact_size;
				groupno = 0;
			}

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			while (len > 0 && groups > 0) {
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				if (!action) {
					/*
					 * Special case: if action is NULL
					 * we fill buf with otp_info records.
					 */
					struct otp_info *otpinfo;
					map_word lockword;
					len -= sizeof(struct otp_info);
					if (len <= 0)
						return -ENOSPC;
					ret = do_otp_read(map, chip,
							  reg_prot_offset,
							  (u_char *)&lockword,
							  map_bankwidth(map),
							  0, 0,  0);
					if (ret)
						return ret;
					otpinfo = (struct otp_info *)buf;
					otpinfo->start = from;
					otpinfo->length = groupsize;
					otpinfo->locked =
					   !map_word_bitsset(map, lockword,
							     CMD(1 << groupno));
					from += groupsize;
					buf += sizeof(*otpinfo);
					*retlen += sizeof(*otpinfo);
				} else if (from >= groupsize) {
					from -= groupsize;
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					data_offset += groupsize;
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				} else {
					int size = groupsize;
					data_offset += from;
					size -= from;
					from = 0;
					if (size > len)
						size = len;
					ret = action(map, chip, data_offset,
						     buf, size, reg_prot_offset,
						     groupno, groupsize);
					if (ret < 0)
						return ret;
					buf += size;
					len -= size;
					*retlen += size;
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					data_offset += size;
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				}
				groupno++;
				groups--;
			}

			/* next OTP region */
			if (++field == extp->NumProtectionFields)
				break;
			reg_prot_offset = otp->ProtRegAddr;
			reg_fact_groups = otp->FactGroups;
			reg_fact_size = 1 << otp->FactProtRegSize;
			reg_user_groups = otp->UserGroups;
			reg_user_size = 1 << otp->UserProtRegSize;
			otp++;
		}
	}

	return 0;
}

static int cfi_intelext_read_fact_prot_reg(struct mtd_info *mtd, loff_t from,
					   size_t len, size_t *retlen,
					    u_char *buf)
{
	return cfi_intelext_otp_walk(mtd, from, len, retlen,
				     buf, do_otp_read, 0);
}

static int cfi_intelext_read_user_prot_reg(struct mtd_info *mtd, loff_t from,
					   size_t len, size_t *retlen,
					    u_char *buf)
{
	return cfi_intelext_otp_walk(mtd, from, len, retlen,
				     buf, do_otp_read, 1);
}

static int cfi_intelext_write_user_prot_reg(struct mtd_info *mtd, loff_t from,
					    size_t len, size_t *retlen,
					     u_char *buf)
{
	return cfi_intelext_otp_walk(mtd, from, len, retlen,
				     buf, do_otp_write, 1);
}

static int cfi_intelext_lock_user_prot_reg(struct mtd_info *mtd,
					   loff_t from, size_t len)
{
	size_t retlen;
	return cfi_intelext_otp_walk(mtd, from, len, &retlen,
				     NULL, do_otp_lock, 1);
}

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static int cfi_intelext_get_fact_prot_info(struct mtd_info *mtd,
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					   struct otp_info *buf, size_t len)
{
	size_t retlen;
	int ret;

	ret = cfi_intelext_otp_walk(mtd, 0, len, &retlen, (u_char *)buf, NULL, 0);
	return ret ? : retlen;
}

static int cfi_intelext_get_user_prot_info(struct mtd_info *mtd,
					   struct otp_info *buf, size_t len)
{
	size_t retlen;
	int ret;

	ret = cfi_intelext_otp_walk(mtd, 0, len, &retlen, (u_char *)buf, NULL, 1);
	return ret ? : retlen;
}

#endif

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static int cfi_intelext_suspend(struct mtd_info *mtd)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	int i;
	struct flchip *chip;
	int ret = 0;

	for (i=0; !ret && i<cfi->numchips; i++) {
		chip = &cfi->chips[i];

		spin_lock(chip->mutex);

		switch (chip->state) {
		case FL_READY:
		case FL_STATUS:
		case FL_CFI_QUERY:
		case FL_JEDEC_QUERY:
			if (chip->oldstate == FL_READY) {
				chip->oldstate = chip->state;
				chip->state = FL_PM_SUSPENDED;
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				/* No need to wake_up() on this state change -
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				 * as the whole point is that nobody can do anything
				 * with the chip now anyway.
				 */
			} else {
				/* There seems to be an operation pending. We must wait for it. */
				printk(KERN_NOTICE "Flash device refused suspend due to pending operation (oldstate %d)\n", chip->oldstate);
				ret = -EAGAIN;
			}
			break;
		default:
			/* Should we actually wait? Once upon a time these routines weren't
			   allowed to. Or should we return -EAGAIN, because the upper layers
			   ought to have already shut down anything which was using the device
			   anyway? The latter for now. */
			printk(KERN_NOTICE "Flash device refused suspend due to active operation (state %d)\n", chip->oldstate);
			ret = -EAGAIN;
		case FL_PM_SUSPENDED:
			break;
		}
		spin_unlock(chip->mutex);
	}

	/* Unlock the chips again */

	if (ret) {
		for (i--; i >=0; i--) {
			chip = &cfi->chips[i];
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			spin_lock(chip->mutex);
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			if (chip->state == FL_PM_SUSPENDED) {
				/* No need to force it into a known state here,
				   because we're returning failure, and it didn't
				   get power cycled */
				chip->state = chip->oldstate;
				chip->oldstate = FL_READY;
				wake_up(&chip->wq);
			}
			spin_unlock(chip->mutex);
		}
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	}

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	return ret;
}

static void cfi_intelext_resume(struct mtd_info *mtd)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	int i;
	struct flchip *chip;

	for (i=0; i<cfi->numchips; i++) {
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		chip = &cfi->chips[i];

		spin_lock(chip->mutex);
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		/* Go to known state. Chip may have been power cycled */
		if (chip->state == FL_PM_SUSPENDED) {
			map_write(map, CMD(0xFF), cfi->chips[i].start);
			chip->oldstate = chip->state = FL_READY;
			wake_up(&chip->wq);
		}

		spin_unlock(chip->mutex);
	}
}

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static int cfi_intelext_reset(struct mtd_info *mtd)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
	int i, ret;

	for (i=0; i < cfi->numchips; i++) {
		struct flchip *chip = &cfi->chips[i];

		/* force the completion of any ongoing operation
2410
		   and switch to array mode so any bootloader in
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		   flash is accessible for soft reboot. */
		spin_lock(chip->mutex);
		ret = get_chip(map, chip, chip->start, FL_SYNCING);
		if (!ret) {
			map_write(map, CMD(0xff), chip->start);
			chip->state = FL_READY;
		}
		spin_unlock(chip->mutex);
	}

	return 0;
}

static int cfi_intelext_reboot(struct notifier_block *nb, unsigned long val,
			       void *v)
{
	struct mtd_info *mtd;

	mtd = container_of(nb, struct mtd_info, reboot_notifier);
	cfi_intelext_reset(mtd);
	return NOTIFY_DONE;
}

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static void cfi_intelext_destroy(struct mtd_info *mtd)
{
	struct map_info *map = mtd->priv;
	struct cfi_private *cfi = map->fldrv_priv;
2438 2439
	cfi_intelext_reset(mtd);
	unregister_reboot_notifier(&mtd->reboot_notifier);
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	kfree(cfi->cmdset_priv);
	kfree(cfi->cfiq);
	kfree(cfi->chips[0].priv);
	kfree(cfi);
	kfree(mtd->eraseregions);
}

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static char im_name_0001[] = "cfi_cmdset_0001";
static char im_name_0003[] = "cfi_cmdset_0003";
static char im_name_0200[] = "cfi_cmdset_0200";
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static int __init cfi_intelext_init(void)
{
2453 2454 2455
	inter_module_register(im_name_0001, THIS_MODULE, &cfi_cmdset_0001);
	inter_module_register(im_name_0003, THIS_MODULE, &cfi_cmdset_0001);
	inter_module_register(im_name_0200, THIS_MODULE, &cfi_cmdset_0001);
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	return 0;
}

static void __exit cfi_intelext_exit(void)
{
2461 2462 2463
	inter_module_unregister(im_name_0001);
	inter_module_unregister(im_name_0003);
	inter_module_unregister(im_name_0200);
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}

module_init(cfi_intelext_init);
module_exit(cfi_intelext_exit);

MODULE_LICENSE("GPL");
MODULE_AUTHOR("David Woodhouse <dwmw2@infradead.org> et al.");
MODULE_DESCRIPTION("MTD chip driver for Intel/Sharp flash chips");