Merge git://git.infradead.org/~dwmw2/cafe-2.6

4 files changed, 2162 insertions, 1 deletions

diff --git a/drivers/mtd/nand/Kconfig b/drivers/mtd/nand/Kconfig
index c600868658ef..06627757f500 100644
--- a/drivers/mtd/nand/Kconfig
+++ b/drivers/mtd/nand/Kconfig
@@ -220,6 +220,13 @@ config MTD_NAND_SHARPSL
 	tristate "Support for NAND Flash on Sharp SL Series (C7xx + others)"
 	depends on MTD_NAND && ARCH_PXA
 
+config MTD_NAND_CAFE
+       tristate "NAND support for OLPC CAFÉ chip"
+       depends on PCI
+       help
+	 Use NAND flash attached to the CAFÉ chip designed for the $100
+	 laptop.
+
 config MTD_NAND_CS553X
 	tristate "NAND support for CS5535/CS5536 (AMD Geode companion chip)"
 	depends on MTD_NAND && X86_32 && (X86_PC || X86_GENERICARCH)
diff --git a/drivers/mtd/nand/Makefile b/drivers/mtd/nand/Makefile
index 27c9f0a1ef83..f7a53f0b7017 100644
--- a/drivers/mtd/nand/Makefile
+++ b/drivers/mtd/nand/Makefile
@@ -6,6 +6,7 @@
 obj-$(CONFIG_MTD_NAND)			+= nand.o nand_ecc.o
 obj-$(CONFIG_MTD_NAND_IDS)		+= nand_ids.o
 
+obj-$(CONFIG_MTD_NAND_CAFE)		+= cafe_nand.o
 obj-$(CONFIG_MTD_NAND_SPIA)		+= spia.o
 obj-$(CONFIG_MTD_NAND_AMS_DELTA)	+= ams-delta.o
 obj-$(CONFIG_MTD_NAND_TOTO)		+= toto.o
@@ -24,4 +25,5 @@ obj-$(CONFIG_MTD_NAND_CS553X)		+= cs553x_nand.o
 obj-$(CONFIG_MTD_NAND_NDFC)		+= ndfc.o
 obj-$(CONFIG_MTD_NAND_AT91)		+= at91_nand.o
 
-nand-objs = nand_base.o nand_bbt.o
+nand-objs := nand_base.o nand_bbt.o
+cafe_nand-objs := cafe.o cafe_ecc.o
diff --git a/drivers/mtd/nand/cafe.c b/drivers/mtd/nand/cafe.c
new file mode 100644
index 000000000000..fad304bf7b7e
--- /dev/null
+++ b/drivers/mtd/nand/cafe.c
@@ -0,0 +1,771 @@
+/* 
+ * Driver for One Laptop Per Child ‘CAFÉ’ controller, aka Marvell 88ALP01
+ *
+ * Copyright © 2006 Red Hat, Inc.
+ * Copyright © 2006 David Woodhouse <dwmw2@infradead.org>
+ */
+
+#define DEBUG
+
+#include <linux/device.h>
+#undef DEBUG
+#include <linux/mtd/mtd.h>
+#include <linux/mtd/nand.h>
+#include <linux/pci.h>
+#include <linux/delay.h>
+#include <linux/interrupt.h>
+#include <asm/io.h>
+
+#define CAFE_NAND_CTRL1		0x00
+#define CAFE_NAND_CTRL2		0x04
+#define CAFE_NAND_CTRL3		0x08
+#define CAFE_NAND_STATUS	0x0c
+#define CAFE_NAND_IRQ		0x10
+#define CAFE_NAND_IRQ_MASK	0x14
+#define CAFE_NAND_DATA_LEN	0x18
+#define CAFE_NAND_ADDR1		0x1c
+#define CAFE_NAND_ADDR2		0x20
+#define CAFE_NAND_TIMING1	0x24
+#define CAFE_NAND_TIMING2	0x28
+#define CAFE_NAND_TIMING3	0x2c
+#define CAFE_NAND_NONMEM	0x30
+#define CAFE_NAND_ECC_RESULT	0x3C
+#define CAFE_NAND_DMA_CTRL	0x40
+#define CAFE_NAND_DMA_ADDR0	0x44
+#define CAFE_NAND_DMA_ADDR1	0x48
+#define CAFE_NAND_ECC_SYN01	0x50
+#define CAFE_NAND_ECC_SYN23	0x54
+#define CAFE_NAND_ECC_SYN45	0x58
+#define CAFE_NAND_ECC_SYN67	0x5c
+#define CAFE_NAND_READ_DATA	0x1000
+#define CAFE_NAND_WRITE_DATA	0x2000
+
+#define CAFE_GLOBAL_CTRL	0x3004
+#define CAFE_GLOBAL_IRQ		0x3008
+#define CAFE_GLOBAL_IRQ_MASK	0x300c
+#define CAFE_NAND_RESET		0x3034
+
+int cafe_correct_ecc(unsigned char *buf,
+		     unsigned short *chk_syndrome_list);
+
+struct cafe_priv {
+	struct nand_chip nand;
+	struct pci_dev *pdev;
+	void __iomem *mmio;
+	uint32_t ctl1;
+	uint32_t ctl2;
+	int datalen;
+	int nr_data;
+	int data_pos;
+	int page_addr;
+	dma_addr_t dmaaddr;
+	unsigned char *dmabuf;
+	
+};
+
+static int usedma = 1;
+module_param(usedma, int, 0644);
+
+static int skipbbt = 0;
+module_param(skipbbt, int, 0644);
+
+static int debug = 0;
+module_param(debug, int, 0644);
+
+static int regdebug = 0;
+module_param(regdebug, int, 0644);
+
+static int checkecc = 1;
+module_param(checkecc, int, 0644);
+
+static int slowtiming = 0;
+module_param(slowtiming, int, 0644);
+
+/* Hrm. Why isn't this already conditional on something in the struct device? */
+#define cafe_dev_dbg(dev, args...) do { if (debug) dev_dbg(dev, ##args); } while(0)
+
+/* Make it easier to switch to PIO if we need to */
+#define cafe_readl(cafe, addr)			readl((cafe)->mmio + CAFE_##addr)
+#define cafe_writel(cafe, datum, addr)		writel(datum, (cafe)->mmio + CAFE_##addr)
+
+static int cafe_device_ready(struct mtd_info *mtd)
+{
+	struct cafe_priv *cafe = mtd->priv;
+	int result = !!(cafe_readl(cafe, NAND_STATUS) | 0x40000000);
+	uint32_t irqs = cafe_readl(cafe, NAND_IRQ);
+
+	cafe_writel(cafe, irqs, NAND_IRQ);
+
+	cafe_dev_dbg(&cafe->pdev->dev, "NAND device is%s ready, IRQ %x (%x) (%x,%x)\n",
+		result?"":" not", irqs, cafe_readl(cafe, NAND_IRQ),
+		cafe_readl(cafe, GLOBAL_IRQ), cafe_readl(cafe, GLOBAL_IRQ_MASK));
+
+	return result;
+}
+
+
+static void cafe_write_buf(struct mtd_info *mtd, const uint8_t *buf, int len)
+{
+	struct cafe_priv *cafe = mtd->priv;
+
+	if (usedma)
+		memcpy(cafe->dmabuf + cafe->datalen, buf, len);
+	else
+		memcpy_toio(cafe->mmio + CAFE_NAND_WRITE_DATA + cafe->datalen, buf, len);
+
+	cafe->datalen += len;
+
+	cafe_dev_dbg(&cafe->pdev->dev, "Copy 0x%x bytes to write buffer. datalen 0x%x\n",
+		len, cafe->datalen);
+}
+
+static void cafe_read_buf(struct mtd_info *mtd, uint8_t *buf, int len)
+{
+	struct cafe_priv *cafe = mtd->priv;
+
+	if (usedma)
+		memcpy(buf, cafe->dmabuf + cafe->datalen, len);
+	else
+		memcpy_fromio(buf, cafe->mmio + CAFE_NAND_READ_DATA + cafe->datalen, len);
+
+	cafe_dev_dbg(&cafe->pdev->dev, "Copy 0x%x bytes from position 0x%x in read buffer.\n",
+		  len, cafe->datalen);
+	cafe->datalen += len;
+}
+
+static uint8_t cafe_read_byte(struct mtd_info *mtd)
+{
+	struct cafe_priv *cafe = mtd->priv;
+	uint8_t d;
+
+	cafe_read_buf(mtd, &d, 1);
+	cafe_dev_dbg(&cafe->pdev->dev, "Read %02x\n", d);
+
+	return d;
+}
+
+static void cafe_nand_cmdfunc(struct mtd_info *mtd, unsigned command,
+			      int column, int page_addr)
+{
+	struct cafe_priv *cafe = mtd->priv;
+	int adrbytes = 0;
+	uint32_t ctl1;
+	uint32_t doneint = 0x80000000;
+
+	cafe_dev_dbg(&cafe->pdev->dev, "cmdfunc %02x, 0x%x, 0x%x\n",
+		command, column, page_addr);
+
+	if (command == NAND_CMD_ERASE2 || command == NAND_CMD_PAGEPROG) {
+		/* Second half of a command we already calculated */
+		cafe_writel(cafe, cafe->ctl2 | 0x100 | command, NAND_CTRL2);
+		ctl1 = cafe->ctl1;
+		cafe->ctl2 &= ~(1<<30);
+		cafe_dev_dbg(&cafe->pdev->dev, "Continue command, ctl1 %08x, #data %d\n",
+			  cafe->ctl1, cafe->nr_data);
+		goto do_command;
+	}
+	/* Reset ECC engine */
+	cafe_writel(cafe, 0, NAND_CTRL2);
+
+	/* Emulate NAND_CMD_READOOB on large-page chips */
+	if (mtd->writesize > 512 &&
+	    command == NAND_CMD_READOOB) {
+		column += mtd->writesize;
+		command = NAND_CMD_READ0;
+	}
+
+	/* FIXME: Do we need to send read command before sending data
+	   for small-page chips, to position the buffer correctly? */
+
+	if (column != -1) {
+		cafe_writel(cafe, column, NAND_ADDR1);
+		adrbytes = 2;
+		if (page_addr != -1)
+			goto write_adr2;
+	} else if (page_addr != -1) {
+		cafe_writel(cafe, page_addr & 0xffff, NAND_ADDR1);
+		page_addr >>= 16;
+	write_adr2:
+		cafe_writel(cafe, page_addr, NAND_ADDR2);
+		adrbytes += 2;
+		if (mtd->size > mtd->writesize << 16)
+			adrbytes++;
+	}
+
+	cafe->data_pos = cafe->datalen = 0;
+
+	/* Set command valid bit */
+	ctl1 = 0x80000000 | command;
+
+	/* Set RD or WR bits as appropriate */
+	if (command == NAND_CMD_READID || command == NAND_CMD_STATUS) {
+		ctl1 |= (1<<26); /* rd */
+		/* Always 5 bytes, for now */
+		cafe->datalen = 4;
+		/* And one address cycle -- even for STATUS, since the controller doesn't work without */
+		adrbytes = 1;
+	} else if (command == NAND_CMD_READ0 || command == NAND_CMD_READ1 ||
+		   command == NAND_CMD_READOOB || command == NAND_CMD_RNDOUT) {
+		ctl1 |= 1<<26; /* rd */
+		/* For now, assume just read to end of page */
+		cafe->datalen = mtd->writesize + mtd->oobsize - column;
+	} else if (command == NAND_CMD_SEQIN)
+		ctl1 |= 1<<25; /* wr */
+
+	/* Set number of address bytes */
+	if (adrbytes)
+		ctl1 |= ((adrbytes-1)|8) << 27;
+
+	if (command == NAND_CMD_SEQIN || command == NAND_CMD_ERASE1) {
+		/* Ignore the first command of a pair; the hardware 
+		   deals with them both at once, later */
+		cafe->ctl1 = ctl1;
+		cafe_dev_dbg(&cafe->pdev->dev, "Setup for delayed command, ctl1 %08x, dlen %x\n",
+			  cafe->ctl1, cafe->datalen);
+		return;
+	}
+	/* RNDOUT and READ0 commands need a following byte */
+	if (command == NAND_CMD_RNDOUT)
+		cafe_writel(cafe, cafe->ctl2 | 0x100 | NAND_CMD_RNDOUTSTART, NAND_CTRL2);
+	else if (command == NAND_CMD_READ0 && mtd->writesize > 512)
+		cafe_writel(cafe, cafe->ctl2 | 0x100 | NAND_CMD_READSTART, NAND_CTRL2);
+
+ do_command:
+	cafe_dev_dbg(&cafe->pdev->dev, "dlen %x, ctl1 %x, ctl2 %x\n", 
+		cafe->datalen, ctl1, cafe_readl(cafe, NAND_CTRL2));
+
+	/* NB: The datasheet lies -- we really should be subtracting 1 here */
+	cafe_writel(cafe, cafe->datalen, NAND_DATA_LEN);
+	cafe_writel(cafe, 0x90000000, NAND_IRQ);
+	if (usedma && (ctl1 & (3<<25))) {
+		uint32_t dmactl = 0xc0000000 + cafe->datalen;
+		/* If WR or RD bits set, set up DMA */
+		if (ctl1 & (1<<26)) {
+			/* It's a read */
+			dmactl |= (1<<29);
+			/* ... so it's done when the DMA is done, not just
+			   the command. */
+			doneint = 0x10000000;
+		}
+		cafe_writel(cafe, dmactl, NAND_DMA_CTRL);
+	}
+	cafe->datalen = 0;
+
+	if (unlikely(regdebug)) {
+		int i;
+		printk("About to write command %08x to register 0\n", ctl1);
+		for (i=4; i< 0x5c; i+=4)
+			printk("Register %x: %08x\n", i, readl(cafe->mmio + i));
+	}
+
+	cafe_writel(cafe, ctl1, NAND_CTRL1);
+	/* Apply this short delay always to ensure that we do wait tWB in
+	 * any case on any machine. */
+	ndelay(100);
+
+	if (1) {
+		int c = 500000;
+		uint32_t irqs;
+
+		while (c--) {
+			irqs = cafe_readl(cafe, NAND_IRQ);
+			if (irqs & doneint)
+				break;
+			udelay(1);
+			if (!(c % 100000))
+				cafe_dev_dbg(&cafe->pdev->dev, "Wait for ready, IRQ %x\n", irqs);
+			cpu_relax();
+		}
+		cafe_writel(cafe, doneint, NAND_IRQ);
+		cafe_dev_dbg(&cafe->pdev->dev, "Command %x completed after %d usec, irqs %x (%x)\n",
+			     command, 500000-c, irqs, cafe_readl(cafe, NAND_IRQ));
+	}
+
+	WARN_ON(cafe->ctl2 & (1<<30));
+
+	switch (command) {
+
+	case NAND_CMD_CACHEDPROG:
+	case NAND_CMD_PAGEPROG:
+	case NAND_CMD_ERASE1:
+	case NAND_CMD_ERASE2:
+	case NAND_CMD_SEQIN:
+	case NAND_CMD_RNDIN:
+	case NAND_CMD_STATUS:
+	case NAND_CMD_DEPLETE1:
+	case NAND_CMD_RNDOUT:
+	case NAND_CMD_STATUS_ERROR:
+	case NAND_CMD_STATUS_ERROR0:
+	case NAND_CMD_STATUS_ERROR1:
+	case NAND_CMD_STATUS_ERROR2:
+	case NAND_CMD_STATUS_ERROR3:
+		cafe_writel(cafe, cafe->ctl2, NAND_CTRL2);
+		return;
+	}
+	nand_wait_ready(mtd);
+	cafe_writel(cafe, cafe->ctl2, NAND_CTRL2);
+}
+
+static void cafe_select_chip(struct mtd_info *mtd, int chipnr)
+{
+	//struct cafe_priv *cafe = mtd->priv;
+	//	cafe_dev_dbg(&cafe->pdev->dev, "select_chip %d\n", chipnr);
+}
+
+static int cafe_nand_interrupt(int irq, void *id, struct pt_regs *regs)
+{
+	struct mtd_info *mtd = id;
+	struct cafe_priv *cafe = mtd->priv;
+	uint32_t irqs = cafe_readl(cafe, NAND_IRQ);
+	cafe_writel(cafe, irqs & ~0x90000000, NAND_IRQ);
+	if (!irqs)
+		return IRQ_NONE;
+
+	cafe_dev_dbg(&cafe->pdev->dev, "irq, bits %x (%x)\n", irqs, cafe_readl(cafe, NAND_IRQ));
+	return IRQ_HANDLED;
+}
+
+static void cafe_nand_bug(struct mtd_info *mtd)
+{
+	BUG();
+}
+
+static int cafe_nand_write_oob(struct mtd_info *mtd,
+			       struct nand_chip *chip, int page)
+{
+	int status = 0;
+
+	chip->cmdfunc(mtd, NAND_CMD_SEQIN, mtd->writesize, page);
+	chip->write_buf(mtd, chip->oob_poi, mtd->oobsize);
+	chip->cmdfunc(mtd, NAND_CMD_PAGEPROG, -1, -1);
+	status = chip->waitfunc(mtd, chip);
+
+	return status & NAND_STATUS_FAIL ? -EIO : 0;
+}
+
+/* Don't use -- use nand_read_oob_std for now */
+static int cafe_nand_read_oob(struct mtd_info *mtd, struct nand_chip *chip,
+			      int page, int sndcmd)
+{
+	chip->cmdfunc(mtd, NAND_CMD_READOOB, 0, page);
+	chip->read_buf(mtd, chip->oob_poi, mtd->oobsize);
+	return 1;
+}
+/**
+ * cafe_nand_read_page_syndrome - {REPLACABLE] hardware ecc syndrom based page read
+ * @mtd:	mtd info structure
+ * @chip:	nand chip info structure
+ * @buf:	buffer to store read data
+ *
+ * The hw generator calculates the error syndrome automatically. Therefor
+ * we need a special oob layout and handling.
+ */
+static int cafe_nand_read_page(struct mtd_info *mtd, struct nand_chip *chip,
+			       uint8_t *buf)
+{
+	struct cafe_priv *cafe = mtd->priv;
+
+	cafe_dev_dbg(&cafe->pdev->dev, "ECC result %08x SYN1,2 %08x\n",
+		     cafe_readl(cafe, NAND_ECC_RESULT),
+		     cafe_readl(cafe, NAND_ECC_SYN01));
+
+	chip->read_buf(mtd, buf, mtd->writesize);
+	chip->read_buf(mtd, chip->oob_poi, mtd->oobsize);
+
+	if (checkecc && cafe_readl(cafe, NAND_ECC_RESULT) & (1<<18)) {
+		unsigned short syn[8];
+		int i;
+
+		for (i=0; i<8; i+=2) {
+			uint32_t tmp = cafe_readl(cafe, NAND_ECC_SYN01 + (i*2));
+			syn[i] = tmp & 0xfff;
+			syn[i+1] = (tmp >> 16) & 0xfff;
+		} 
+
+		if ((i = cafe_correct_ecc(buf, syn)) < 0) {
+			dev_dbg(&cafe->pdev->dev, "Failed to correct ECC at %08x\n",
+				cafe_readl(cafe, NAND_ADDR2) * 2048);
+			for (i=0; i< 0x5c; i+=4)
+				printk("Register %x: %08x\n", i, readl(cafe->mmio + i));
+			mtd->ecc_stats.failed++;
+		} else {
+			dev_dbg(&cafe->pdev->dev, "Corrected %d symbol errors\n", i);
+			mtd->ecc_stats.corrected += i;
+		}
+	}
+
+
+	return 0;
+}
+
+static struct nand_ecclayout cafe_oobinfo_2048 = {
+	.eccbytes = 14,
+	.eccpos = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13},
+	.oobfree = {{14, 50}}
+};
+
+/* Ick. The BBT code really ought to be able to work this bit out 
+   for itself from the above, at least for the 2KiB case */
+static uint8_t cafe_bbt_pattern_2048[] = { 'B', 'b', 't', '0' };
+static uint8_t cafe_mirror_pattern_2048[] = { '1', 't', 'b', 'B' };
+
+static uint8_t cafe_bbt_pattern_512[] = { 0xBB };
+static uint8_t cafe_mirror_pattern_512[] = { 0xBC };
+
+
+static struct nand_bbt_descr cafe_bbt_main_descr_2048 = {
+	.options = NAND_BBT_LASTBLOCK | NAND_BBT_CREATE | NAND_BBT_WRITE
+		| NAND_BBT_2BIT | NAND_BBT_VERSION | NAND_BBT_PERCHIP,
+	.offs =	14,
+	.len = 4,
+	.veroffs = 18,
+	.maxblocks = 4,
+	.pattern = cafe_bbt_pattern_2048
+};
+
+static struct nand_bbt_descr cafe_bbt_mirror_descr_2048 = {
+	.options = NAND_BBT_LASTBLOCK | NAND_BBT_CREATE | NAND_BBT_WRITE
+		| NAND_BBT_2BIT | NAND_BBT_VERSION | NAND_BBT_PERCHIP,
+	.offs =	14,
+	.len = 4,
+	.veroffs = 18,
+	.maxblocks = 4,
+	.pattern = cafe_mirror_pattern_2048
+};
+
+static struct nand_ecclayout cafe_oobinfo_512 = {
+	.eccbytes = 14,
+	.eccpos = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13},
+	.oobfree = {{14, 2}}
+};
+
+static struct nand_bbt_descr cafe_bbt_main_descr_512 = {
+	.options = NAND_BBT_LASTBLOCK | NAND_BBT_CREATE | NAND_BBT_WRITE
+		| NAND_BBT_2BIT | NAND_BBT_VERSION | NAND_BBT_PERCHIP,
+	.offs =	14,
+	.len = 1,
+	.veroffs = 15,
+	.maxblocks = 4,
+	.pattern = cafe_bbt_pattern_512
+};
+
+static struct nand_bbt_descr cafe_bbt_mirror_descr_512 = {
+	.options = NAND_BBT_LASTBLOCK | NAND_BBT_CREATE | NAND_BBT_WRITE
+		| NAND_BBT_2BIT | NAND_BBT_VERSION | NAND_BBT_PERCHIP,
+	.offs =	14,
+	.len = 1,
+	.veroffs = 15,
+	.maxblocks = 4,
+	.pattern = cafe_mirror_pattern_512
+};
+
+
+static void cafe_nand_write_page_lowlevel(struct mtd_info *mtd,
+					  struct nand_chip *chip, const uint8_t *buf)
+{
+	struct cafe_priv *cafe = mtd->priv;
+
+	chip->write_buf(mtd, buf, mtd->writesize);
+	chip->write_buf(mtd, chip->oob_poi, mtd->oobsize);
+
+	/* Set up ECC autogeneration */
+	cafe->ctl2 |= (1<<30);
+}
+
+static int cafe_nand_write_page(struct mtd_info *mtd, struct nand_chip *chip,
+				const uint8_t *buf, int page, int cached, int raw)
+{
+	int status;
+
+	chip->cmdfunc(mtd, NAND_CMD_SEQIN, 0x00, page);
+
+	if (unlikely(raw))
+		chip->ecc.write_page_raw(mtd, chip, buf);
+	else
+		chip->ecc.write_page(mtd, chip, buf);
+
+	/*
+	 * Cached progamming disabled for now, Not sure if its worth the
+	 * trouble. The speed gain is not very impressive. (2.3->2.6Mib/s)
+	 */
+	cached = 0;
+
+	if (!cached || !(chip->options & NAND_CACHEPRG)) {
+
+		chip->cmdfunc(mtd, NAND_CMD_PAGEPROG, -1, -1);
+		status = chip->waitfunc(mtd, chip);
+		/*
+		 * See if operation failed and additional status checks are
+		 * available
+		 */
+		if ((status & NAND_STATUS_FAIL) && (chip->errstat))
+			status = chip->errstat(mtd, chip, FL_WRITING, status,
+					       page);
+
+		if (status & NAND_STATUS_FAIL)
+			return -EIO;
+	} else {
+		chip->cmdfunc(mtd, NAND_CMD_CACHEDPROG, -1, -1);
+		status = chip->waitfunc(mtd, chip);
+	}
+
+#ifdef CONFIG_MTD_NAND_VERIFY_WRITE
+	/* Send command to read back the data */
+	chip->cmdfunc(mtd, NAND_CMD_READ0, 0, page);
+
+	if (chip->verify_buf(mtd, buf, mtd->writesize))
+		return -EIO;
+#endif
+	return 0;
+}
+
+static int cafe_nand_block_bad(struct mtd_info *mtd, loff_t ofs, int getchip)
+{
+	return 0;
+}
+
+static int __devinit cafe_nand_probe(struct pci_dev *pdev,
+				     const struct pci_device_id *ent)
+{
+	struct mtd_info *mtd;
+	struct cafe_priv *cafe;
+	uint32_t ctrl;
+	int err = 0;
+
+	err = pci_enable_device(pdev);
+	if (err)
+		return err;
+
+	pci_set_master(pdev);
+
+	mtd = kzalloc(sizeof(*mtd) + sizeof(struct cafe_priv), GFP_KERNEL);
+	if (!mtd) {
+		dev_warn(&pdev->dev, "failed to alloc mtd_info\n");
+		return  -ENOMEM;
+	}
+	cafe = (void *)(&mtd[1]);
+
+	mtd->priv = cafe;
+	mtd->owner = THIS_MODULE;
+
+	cafe->pdev = pdev;
+	cafe->mmio = pci_iomap(pdev, 0, 0);
+	if (!cafe->mmio) {
+		dev_warn(&pdev->dev, "failed to iomap\n");
+		err = -ENOMEM;
+		goto out_free_mtd;
+	}
+	cafe->dmabuf = dma_alloc_coherent(&cafe->pdev->dev, 2112 + sizeof(struct nand_buffers),
+					  &cafe->dmaaddr, GFP_KERNEL);
+	if (!cafe->dmabuf) {
+		err = -ENOMEM;
+		goto out_ior;
+	}
+	cafe->nand.buffers = (void *)cafe->dmabuf + 2112;
+
+	cafe->nand.cmdfunc = cafe_nand_cmdfunc;
+	cafe->nand.dev_ready = cafe_device_ready;
+	cafe->nand.read_byte = cafe_read_byte;
+	cafe->nand.read_buf = cafe_read_buf;
+	cafe->nand.write_buf = cafe_write_buf;
+	cafe->nand.select_chip = cafe_select_chip;
+
+	cafe->nand.chip_delay = 0;
+
+	/* Enable the following for a flash based bad block table */
+	cafe->nand.options = NAND_USE_FLASH_BBT | NAND_NO_AUTOINCR | NAND_OWN_BUFFERS;
+
+	if (skipbbt) {
+		cafe->nand.options |= NAND_SKIP_BBTSCAN;
+		cafe->nand.block_bad = cafe_nand_block_bad;
+	}
+	
+	/* Start off by resetting the NAND controller completely */
+	cafe_writel(cafe, 1, NAND_RESET);
+	cafe_writel(cafe, 0, NAND_RESET);
+
+	cafe_writel(cafe, 0xffffffff, NAND_IRQ_MASK);
+
+	/* Timings from Marvell's test code (not verified or calculated by us) */
+	if (!slowtiming) {
+		cafe_writel(cafe, 0x01010a0a, NAND_TIMING1);
+		cafe_writel(cafe, 0x24121212, NAND_TIMING2);
+		cafe_writel(cafe, 0x11000000, NAND_TIMING3);
+	} else {
+		cafe_writel(cafe, 0xffffffff, NAND_TIMING1);
+		cafe_writel(cafe, 0xffffffff, NAND_TIMING2);
+		cafe_writel(cafe, 0xffffffff, NAND_TIMING3);
+	}
+	cafe_writel(cafe, 0xffffffff, NAND_IRQ_MASK);
+	err = request_irq(pdev->irq, &cafe_nand_interrupt, SA_SHIRQ, "CAFE NAND", mtd);
+	if (err) {
+		dev_warn(&pdev->dev, "Could not register IRQ %d\n", pdev->irq);
+		
+		goto out_free_dma;
+	}
+#if 1
+	/* Disable master reset, enable NAND clock */
+	ctrl = cafe_readl(cafe, GLOBAL_CTRL);
+	ctrl &= 0xffffeff0;
+	ctrl |= 0x00007000;
+	cafe_writel(cafe, ctrl | 0x05, GLOBAL_CTRL);
+	cafe_writel(cafe, ctrl | 0x0a, GLOBAL_CTRL);
+	cafe_writel(cafe, 0, NAND_DMA_CTRL);
+
+	cafe_writel(cafe, 0x7006, GLOBAL_CTRL);
+	cafe_writel(cafe, 0x700a, GLOBAL_CTRL);
+
+	/* Set up DMA address */
+	cafe_writel(cafe, cafe->dmaaddr & 0xffffffff, NAND_DMA_ADDR0);
+	if (sizeof(cafe->dmaaddr) > 4)
+		/* Shift in two parts to shut the compiler up */
+		cafe_writel(cafe, (cafe->dmaaddr >> 16) >> 16, NAND_DMA_ADDR1);
+	else
+		cafe_writel(cafe, 0, NAND_DMA_ADDR1);
+
+	cafe_dev_dbg(&cafe->pdev->dev, "Set DMA address to %x (virt %p)\n",
+		cafe_readl(cafe, NAND_DMA_ADDR0), cafe->dmabuf);
+
+	/* Enable NAND IRQ in global IRQ mask register */
+	cafe_writel(cafe, 0x80000007, GLOBAL_IRQ_MASK);
+	cafe_dev_dbg(&cafe->pdev->dev, "Control %x, IRQ mask %x\n",
+		cafe_readl(cafe, GLOBAL_CTRL), cafe_readl(cafe, GLOBAL_IRQ_MASK));
+#endif
+#if 1
+	mtd->writesize=2048;
+	mtd->oobsize = 0x40;
+	memset(cafe->dmabuf, 0x5a, 2112);
+	cafe->nand.cmdfunc(mtd, NAND_CMD_READID, 0, -1);
+	cafe->nand.read_byte(mtd);
+	cafe->nand.read_byte(mtd);
+	cafe->nand.read_byte(mtd);
+	cafe->nand.read_byte(mtd);
+	cafe->nand.read_byte(mtd);
+#endif
+#if 0
+	cafe->nand.cmdfunc(mtd, NAND_CMD_READ0, 0, 0);
+	//	nand_wait_ready(mtd);
+	cafe->nand.read_byte(mtd);
+	cafe->nand.read_byte(mtd);
+	cafe->nand.read_byte(mtd);
+	cafe->nand.read_byte(mtd);
+#endif
+#if 0
+	writel(0x84600070, cafe->mmio);
+	udelay(10);
+	cafe_dev_dbg(&cafe->pdev->dev, "Status %x\n", cafe_readl(cafe, NAND_NONMEM));
+#endif		
+	/* Scan to find existance of the device */
+	if (nand_scan_ident(mtd, 1)) {
+		err = -ENXIO;
+		goto out_irq;
+	}
+
+	cafe->ctl2 = 1<<27; /* Reed-Solomon ECC */
+	if (mtd->writesize == 2048)
+		cafe->ctl2 |= 1<<29; /* 2KiB page size */
+
+	/* Set up ECC according to the type of chip we found */
+	if (mtd->writesize == 2048) {
+		cafe->nand.ecc.layout = &cafe_oobinfo_2048;
+		cafe->nand.bbt_td = &cafe_bbt_main_descr_2048;
+		cafe->nand.bbt_md = &cafe_bbt_mirror_descr_2048;
+	} else if (mtd->writesize == 512) {
+		cafe->nand.ecc.layout = &cafe_oobinfo_512;
+		cafe->nand.bbt_td = &cafe_bbt_main_descr_512;
+		cafe->nand.bbt_md = &cafe_bbt_mirror_descr_512;
+	} else {
+		printk(KERN_WARNING "Unexpected NAND flash writesize %d. Aborting\n",
+		       mtd->writesize);
+		goto out_irq;
+	}
+	cafe->nand.ecc.mode = NAND_ECC_HW_SYNDROME;
+	cafe->nand.ecc.size = mtd->writesize;
+	cafe->nand.ecc.bytes = 14;
+	cafe->nand.ecc.hwctl  = (void *)cafe_nand_bug;
+	cafe->nand.ecc.calculate = (void *)cafe_nand_bug;
+	cafe->nand.ecc.correct  = (void *)cafe_nand_bug;
+	cafe->nand.write_page = cafe_nand_write_page;
+	cafe->nand.ecc.write_page = cafe_nand_write_page_lowlevel;
+	cafe->nand.ecc.write_oob = cafe_nand_write_oob;
+	cafe->nand.ecc.read_page = cafe_nand_read_page;
+	cafe->nand.ecc.read_oob = cafe_nand_read_oob;
+
+	err = nand_scan_tail(mtd);
+	if (err)
+		goto out_irq;
+
+	pci_set_drvdata(pdev, mtd);
+	add_mtd_device(mtd);
+	goto out;
+
+ out_irq:
+	/* Disable NAND IRQ in global IRQ mask register */
+	cafe_writel(cafe, ~1 & cafe_readl(cafe, GLOBAL_IRQ_MASK), GLOBAL_IRQ_MASK);
+	free_irq(pdev->irq, mtd);
+ out_free_dma:
+	dma_free_coherent(&cafe->pdev->dev, 2112, cafe->dmabuf, cafe->dmaaddr);
+ out_ior:
+	pci_iounmap(pdev, cafe->mmio);
+ out_free_mtd:
+	kfree(mtd);
+ out:
+	return err;
+}
+
+static void __devexit cafe_nand_remove(struct pci_dev *pdev)
+{
+	struct mtd_info *mtd = pci_get_drvdata(pdev);
+	struct cafe_priv *cafe = mtd->priv;
+
+	del_mtd_device(mtd);
+	/* Disable NAND IRQ in global IRQ mask register */
+	cafe_writel(cafe, ~1 & cafe_readl(cafe, GLOBAL_IRQ_MASK), GLOBAL_IRQ_MASK);
+	free_irq(pdev->irq, mtd);
+	nand_release(mtd);
+	pci_iounmap(pdev, cafe->mmio);
+	dma_free_coherent(&cafe->pdev->dev, 2112, cafe->dmabuf, cafe->dmaaddr);
+	kfree(mtd);
+}
+
+static struct pci_device_id cafe_nand_tbl[] = {
+	{ 0x11ab, 0x4100, PCI_ANY_ID, PCI_ANY_ID, PCI_CLASS_MEMORY_FLASH << 8, 0xFFFF0 }
+};
+
+MODULE_DEVICE_TABLE(pci, cafe_nand_tbl);
+
+static struct pci_driver cafe_nand_pci_driver = {
+	.name = "CAFÉ NAND",
+	.id_table = cafe_nand_tbl,
+	.probe = cafe_nand_probe,
+	.remove = __devexit_p(cafe_nand_remove),
+#ifdef CONFIG_PMx
+	.suspend = cafe_nand_suspend,
+	.resume = cafe_nand_resume,
+#endif
+};
+
+static int cafe_nand_init(void)
+{
+	return pci_register_driver(&cafe_nand_pci_driver);
+}
+
+static void cafe_nand_exit(void)
+{
+	pci_unregister_driver(&cafe_nand_pci_driver);
+}
+module_init(cafe_nand_init);
+module_exit(cafe_nand_exit);
+
+MODULE_LICENSE("GPL");
+MODULE_AUTHOR("David Woodhouse <dwmw2@infradead.org>");
+MODULE_DESCRIPTION("NAND flash driver for OLPC CAFE chip");
+
+/* Correct ECC for 2048 bytes of 0xff:
+   41 a0 71 65 54 27 f3 93 ec a9 be ed 0b a1 */
+
+/* dwmw2's B-test board, in case of completely screwing it:
+Bad eraseblock 2394 at 0x12b40000
+Bad eraseblock 2627 at 0x14860000
+Bad eraseblock 3349 at 0x1a2a0000
+*/
diff --git a/drivers/mtd/nand/cafe_ecc.c b/drivers/mtd/nand/cafe_ecc.c
new file mode 100644
index 000000000000..2d29265cc904
--- /dev/null
+++ b/drivers/mtd/nand/cafe_ecc.c
@@ -0,0 +1,1381 @@
+/* Error correction for CAFÉ NAND controller 
+ *
+ * © 2006 Marvell, Inc.
+ * Author: Tom Chiou
+ *
+ * This program is free software; you can redistribute it and/or modify it 
+ * under the terms of the GNU General Public License as published by the Free 
+ * Software Foundation; either version 2 of the License, or (at your option) 
+ * any later version.
+ *
+ * This program is distributed in the hope that it will be useful, but WITHOUT 
+ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
+ * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for 
+ * more details.
+ *
+ * You should have received a copy of the GNU General Public License along with
+ * this program; if not, write to the Free Software Foundation, Inc., 59 
+ * Temple Place - Suite 330, Boston, MA  02111-1307, USA.
+ */
+
+#include <linux/kernel.h>
+#include <linux/module.h>
+#include <linux/errno.h>
+
+static unsigned short gf4096_mul(unsigned short, unsigned short);
+static unsigned short gf64_mul(unsigned short, unsigned short);
+static unsigned short gf4096_inv(unsigned short);
+static unsigned short err_pos(unsigned short);
+static void find_4bit_err_coefs(unsigned short, unsigned short, unsigned short,
+				unsigned short, unsigned short, unsigned short,
+				unsigned short, unsigned short, unsigned short *);
+static void zero_4x5_col3(unsigned short[4][5]);
+static void zero_4x5_col2(unsigned short[4][5]);
+static void zero_4x5_col1(unsigned short[4][5]);
+static void swap_4x5_rows(unsigned short[4][5], int, int, int);
+static void swap_2x3_rows(unsigned short m[2][3]);
+static void solve_4x5(unsigned short m[4][5], unsigned short *, int *);
+static void sort_coefs(int *, unsigned short *, int);
+static void find_4bit_err_pats(unsigned short, unsigned short, unsigned short,
+			       unsigned short, unsigned short, unsigned short,
+			       unsigned short, unsigned short, unsigned short *);
+static void find_3bit_err_coefs(unsigned short, unsigned short, unsigned short,
+				unsigned short, unsigned short, unsigned short,
+				unsigned short *);
+static void zero_3x4_col2(unsigned short[3][4]);
+static void zero_3x4_col1(unsigned short[3][4]);
+static void swap_3x4_rows(unsigned short[3][4], int, int, int);
+static void solve_3x4(unsigned short[3][4], unsigned short *, int *);
+static void find_3bit_err_pats(unsigned short, unsigned short, unsigned short,
+			       unsigned short, unsigned short, unsigned short,
+			       unsigned short *);
+
+static void find_2bit_err_pats(unsigned short, unsigned short, unsigned short,
+			       unsigned short, unsigned short *);
+static void find_2x2_soln(unsigned short, unsigned short, unsigned short,
+			  unsigned short, unsigned short, unsigned short,
+			  unsigned short *);
+static void solve_2x3(unsigned short[2][3], unsigned short *);
+static int chk_no_err_only(unsigned short *, unsigned short *);
+static int chk_1_err_only(unsigned short *, unsigned short *);
+static int chk_2_err_only(unsigned short *, unsigned short *);
+static int chk_3_err_only(unsigned short *, unsigned short *);
+static int chk_4_err_only(unsigned short *, unsigned short *);
+
+static unsigned short gf64_mul(unsigned short a, unsigned short b)
+{
+	unsigned short tmp1, tmp2, tmp3, tmp4, tmp5;
+	unsigned short c_bit0, c_bit1, c_bit2, c_bit3, c_bit4, c_bit5, c;
+
+	tmp1 = ((a) ^ (a >> 5));
+	tmp2 = ((a >> 4) ^ (a >> 5));
+	tmp3 = ((a >> 3) ^ (a >> 4));
+	tmp4 = ((a >> 2) ^ (a >> 3));
+	tmp5 = ((a >> 1) ^ (a >> 2));
+
+	c_bit0 = ((a & b) ^ ((a >> 5) & (b >> 1)) ^ ((a >> 4) & (b >> 2)) ^
+		  ((a >> 3) & (b >> 3)) ^ ((a >> 2) & (b >> 4)) ^ ((a >> 1) & (b >> 5))) & 0x1;
+
+	c_bit1 = (((a >> 1) & b) ^ (tmp1 & (b >> 1)) ^ (tmp2 & (b >> 2)) ^
+		  (tmp3 & (b >> 3)) ^ (tmp4 & (b >> 4)) ^ (tmp5 & (b >> 5))) & 0x1;
+
+	c_bit2 = (((a >> 2) & b) ^ ((a >> 1) & (b >> 1)) ^ (tmp1 & (b >> 2)) ^
+		  (tmp2 & (b >> 3)) ^ (tmp3 & (b >> 4)) ^ (tmp4 & (b >> 5))) & 0x1;
+
+	c_bit3 = (((a >> 3) & b) ^ ((a >> 2) & (b >> 1)) ^ ((a >> 1) & (b >> 2)) ^
+		  (tmp1 & (b >> 3)) ^ (tmp2 & (b >> 4)) ^ (tmp3 & (b >> 5))) & 0x1;
+
+	c_bit4 = (((a >> 4) & b) ^ ((a >> 3) & (b >> 1)) ^ ((a >> 2) & (b >> 2)) ^
+		  ((a >> 1) & (b >> 3)) ^ (tmp1 & (b >> 4)) ^ (tmp2 & (b >> 5))) & 0x1;
+
+	c_bit5 = (((a >> 5) & b) ^ ((a >> 4) & (b >> 1)) ^ ((a >> 3) & (b >> 2)) ^
+		  ((a >> 2) & (b >> 3)) ^ ((a >> 1) & (b >> 4)) ^ (tmp1 & (b >> 5))) & 0x1;
+
+	c = c_bit0 | (c_bit1 << 1) | (c_bit2 << 2) | (c_bit3 << 3) | (c_bit4 << 4) | (c_bit5 << 5);
+
+	return c;
+}
+
+static unsigned short gf4096_mul(unsigned short a, unsigned short b)
+{
+	unsigned short ah, al, bh, bl, alxah, blxbh, ablh, albl, ahbh, ahbhB, c;
+
+	ah = (a >> 6) & 0x3f;
+	al = a & 0x3f;
+	bh = (b >> 6) & 0x3f;
+	bl = b & 0x3f;
+	alxah = al ^ ah;
+	blxbh = bl ^ bh;
+
+	ablh = gf64_mul(alxah, blxbh);
+	albl = gf64_mul(al, bl);
+	ahbh = gf64_mul(ah, bh);
+
+	ahbhB = ((ahbh & 0x1) << 5) |
+	    ((ahbh & 0x20) >> 1) |
+	    ((ahbh & 0x10) >> 1) | ((ahbh & 0x8) >> 1) | ((ahbh & 0x4) >> 1) | (((ahbh >> 1) ^ ahbh) & 0x1);
+
+	c = ((ablh ^ albl) << 6) | (ahbhB ^ albl);
+	return c;
+}
+
+static void find_2bit_err_pats(unsigned short s0, unsigned short s1, unsigned short r0, unsigned short r1, unsigned short *pats)
+{
+	find_2x2_soln(0x1, 0x1, r0, r1, s0, s1, pats);
+}
+
+static void find_3bit_err_coefs(unsigned short s0, unsigned short s1,
+				unsigned short s2, unsigned short s3, unsigned short s4, unsigned short s5, unsigned short *coefs)
+{
+	unsigned short m[3][4];
+	int row_order[3];
+
+	row_order[0] = 0;
+	row_order[1] = 1;
+	row_order[2] = 2;
+	m[0][0] = s2;
+	m[0][1] = s1;
+	m[0][2] = s0;
+	m[0][3] = s3;
+	m[1][0] = s3;
+	m[1][1] = s2;
+	m[1][2] = s1;
+	m[1][3] = s4;
+	m[2][0] = s4;
+	m[2][1] = s3;
+	m[2][2] = s2;
+	m[2][3] = s5;
+
+	if (m[0][2] != 0x0) {
+		zero_3x4_col2(m);
+	} else if (m[1][2] != 0x0) {
+		swap_3x4_rows(m, 0, 1, 4);
+		zero_3x4_col2(m);
+	} else if (m[2][2] != 0x0) {
+		swap_3x4_rows(m, 0, 2, 4);
+		zero_3x4_col2(m);
+	} else {
+		printk(KERN_ERR "Error: find_3bit_err_coefs, s0,s1,s2 all zeros!\n");
+	}
+
+	if (m[1][1] != 0x0) {
+		zero_3x4_col1(m);
+	} else if (m[2][1] != 0x0) {
+		swap_3x4_rows(m, 1, 2, 4);
+		zero_3x4_col1(m);
+	} else {
+		printk(KERN_ERR "Error: find_3bit_err_coefs, cannot resolve col 1!\n");
+	}
+
+	/* solve coefs */
+	solve_3x4(m, coefs, row_order);
+}
+
+static void zero_3x4_col2(unsigned short m[3][4])
+{
+	unsigned short minv1, minv2;
+
+	minv1 = gf4096_mul(m[1][2], gf4096_inv(m[0][2]));
+	minv2 = gf4096_mul(m[2][2], gf4096_inv(m[0][2]));
+	m[1][0] = m[1][0] ^ gf4096_mul(m[0][0], minv1);
+	m[1][1] = m[1][1] ^ gf4096_mul(m[0][1], minv1);
+	m[1][3] = m[1][3] ^ gf4096_mul(m[0][3], minv1);
+	m[2][0] = m[2][0] ^ gf4096_mul(m[0][0], minv2);
+	m[2][1] = m[2][1] ^ gf4096_mul(m[0][1], minv2);
+	m[2][3] = m[2][3] ^ gf4096_mul(m[0][3], minv2);
+}
+
+static void zero_3x4_col1(unsigned short m[3][4])
+{
+	unsigned short minv;
+	minv = gf4096_mul(m[2][1], gf4096_inv(m[1][1]));
+	m[2][0] = m[2][0] ^ gf4096_mul(m[1][0], minv);
+	m[2][3] = m[2][3] ^ gf4096_mul(m[1][3], minv);
+}
+
+static void swap_3x4_rows(unsigned short m[3][4], int i, int j, int col_width)
+{
+	unsigned short tmp0;
+	int cnt;
+	for (cnt = 0; cnt < col_width; cnt++) {
+		tmp0 = m[i][cnt];
+		m[i][cnt] = m[j][cnt];
+		m[j][cnt] = tmp0;
+	}
+}
+
+static void solve_3x4(unsigned short m[3][4], unsigned short *coefs, int *row_order)
+{
+	unsigned short tmp[3];
+	tmp[0] = gf4096_mul(m[2][3], gf4096_inv(m[2][0]));
+	tmp[1] = gf4096_mul((gf4096_mul(tmp[0], m[1][0]) ^ m[1][3]), gf4096_inv(m[1][1]));
+	tmp[2] = gf4096_mul((gf4096_mul(tmp[0], m[0][0]) ^ gf4096_mul(tmp[1], m[0][1]) ^ m[0][3]), gf4096_inv(m[0][2]));
+	sort_coefs(row_order, tmp, 3);
+	coefs[0] = tmp[0];
+	coefs[1] = tmp[1];
+	coefs[2] = tmp[2];
+}
+
+static void find_3bit_err_pats(unsigned short s0, unsigned short s1,
+			       unsigned short s2, unsigned short r0,
+			       unsigned short r1, unsigned short r2,
+			       unsigned short *pats)
+{
+	find_2x2_soln(r0 ^ r2, r1 ^ r2,
+		      gf4096_mul(r0, r0 ^ r2), gf4096_mul(r1, r1 ^ r2),
+		      gf4096_mul(s0, r2) ^ s1, gf4096_mul(s1, r2) ^ s2, pats);
+	pats[2] = s0 ^ pats[0] ^ pats[1];
+}
+
+static void find_4bit_err_coefs(unsigned short s0, unsigned short s1,
+				unsigned short s2, unsigned short s3,
+				unsigned short s4, unsigned short s5,
+				unsigned short s6, unsigned short s7,
+				unsigned short *coefs)
+{
+	unsigned short m[4][5];
+	int row_order[4];
+
+	row_order[0] = 0;
+	row_order[1] = 1;
+	row_order[2] = 2;
+	row_order[3] = 3;
+
+	m[0][0] = s3;
+	m[0][1] = s2;
+	m[0][2] = s1;
+	m[0][3] = s0;
+	m[0][4] = s4;
+	m[1][0] = s4;
+	m[1][1] = s3;
+	m[1][2] = s2;
+	m[1][3] = s1;
+	m[1][4] = s5;
+	m[2][0] = s5;
+	m[2][1] = s4;
+	m[2][2] = s3;
+	m[2][3] = s2;
+	m[2][4] = s6;
+	m[3][0] = s6;
+	m[3][1] = s5;
+	m[3][2] = s4;
+	m[3][3] = s3;
+	m[3][4] = s7;
+
+	if (m[0][3] != 0x0) {
+		zero_4x5_col3(m);
+	} else if (m[1][3] != 0x0) {
+		swap_4x5_rows(m, 0, 1, 5);
+		zero_4x5_col3(m);
+	} else if (m[2][3] != 0x0) {
+		swap_4x5_rows(m, 0, 2, 5);
+		zero_4x5_col3(m);
+	} else if (m[3][3] != 0x0) {
+		swap_4x5_rows(m, 0, 3, 5);
+		zero_4x5_col3(m);
+	} else {
+		printk(KERN_ERR "Error: find_4bit_err_coefs, s0,s1,s2,s3 all zeros!\n");
+	}
+
+	if (m[1][2] != 0x0) {
+		zero_4x5_col2(m);
+	} else if (m[2][2] != 0x0) {
+		swap_4x5_rows(m, 1, 2, 5);
+		zero_4x5_col2(m);
+	} else if (m[3][2] != 0x0) {
+		swap_4x5_rows(m, 1, 3, 5);
+		zero_4x5_col2(m);
+	} else {
+		printk(KERN_ERR "Error: find_4bit_err_coefs, cannot resolve col 2!\n");
+	}
+
+	if (m[2][1] != 0x0) {
+		zero_4x5_col1(m);
+	} else if (m[3][1] != 0x0) {
+		swap_4x5_rows(m, 2, 3, 5);
+		zero_4x5_col1(m);
+	} else {
+		printk(KERN_ERR "Error: find_4bit_err_coefs, cannot resolve col 1!\n");
+	}
+
+	solve_4x5(m, coefs, row_order);
+}
+
+static void zero_4x5_col3(unsigned short m[4][5])
+{
+	unsigned short minv1, minv2, minv3;
+
+	minv1 = gf4096_mul(m[1][3], gf4096_inv(m[0][3]));
+	minv2 = gf4096_mul(m[2][3], gf4096_inv(m[0][3]));
+	minv3 = gf4096_mul(m[3][3], gf4096_inv(m[0][3]));
+
+	m[1][0] = m[1][0] ^ gf4096_mul(m[0][0], minv1);
+	m[1][1] = m[1][1] ^ gf4096_mul(m[0][1], minv1);
+	m[1][2] = m[1][2] ^ gf4096_mul(m[0][2], minv1);
+	m[1][4] = m[1][4] ^ gf4096_mul(m[0][4], minv1);
+	m[2][0] = m[2][0] ^ gf4096_mul(m[0][0], minv2);
+	m[2][1] = m[2][1] ^ gf4096_mul(m[0][1], minv2);
+	m[2][2] = m[2][2] ^ gf4096_mul(m[0][2], minv2);
+	m[2][4] = m[2][4] ^ gf4096_mul(m[0][4], minv2);
+	m[3][0] = m[3][0] ^ gf4096_mul(m[0][0], minv3);
+	m[3][1] = m[3][1] ^ gf4096_mul(m[0][1], minv3);
+	m[3][2] = m[3][2] ^ gf4096_mul(m[0][2], minv3);
+	m[3][4] = m[3][4] ^ gf4096_mul(m[0][4], minv3);
+}
+
+static void zero_4x5_col2(unsigned short m[4][5])
+{
+	unsigned short minv2, minv3;
+
+	minv2 = gf4096_mul(m[2][2], gf4096_inv(m[1][2]));
+	minv3 = gf4096_mul(m[3][2], gf4096_inv(m[1][2]));
+
+	m[2][0] = m[2][0] ^ gf4096_mul(m[1][0], minv2);
+	m[2][1] = m[2][1] ^ gf4096_mul(m[1][1], minv2);
+	m[2][4] = m[2][4] ^ gf4096_mul(m[1][4], minv2);
+	m[3][0] = m[3][0] ^ gf4096_mul(m[1][0], minv3);
+	m[3][1] = m[3][1] ^ gf4096_mul(m[1][1], minv3);
+	m[3][4] = m[3][4] ^ gf4096_mul(m[1][4], minv3);
+}
+
+static void zero_4x5_col1(unsigned short m[4][5])
+{
+	unsigned short minv;
+
+	minv = gf4096_mul(m[3][1], gf4096_inv(m[2][1]));
+
+	m[3][0] = m[3][0] ^ gf4096_mul(m[2][0], minv);
+	m[3][4] = m[3][4] ^ gf4096_mul(m[2][4], minv);
+}
+
+static void swap_4x5_rows(unsigned short m[4][5], int i, int j, int col_width)
+{
+	unsigned short tmp0;
+	int cnt;
+
+	for (cnt = 0; cnt < col_width; cnt++) {
+		tmp0 = m[i][cnt];
+		m[i][cnt] = m[j][cnt];
+		m[j][cnt] = tmp0;
+	}
+}
+
+static void solve_4x5(unsigned short m[4][5], unsigned short *coefs, int *row_order)
+{
+	unsigned short tmp[4];
+
+	tmp[0] = gf4096_mul(m[3][4], gf4096_inv(m[3][0]));
+	tmp[1] = gf4096_mul((gf4096_mul(tmp[0], m[2][0]) ^ m[2][4]), gf4096_inv(m[2][1]));
+	tmp[2] = gf4096_mul((gf4096_mul(tmp[0], m[1][0]) ^ gf4096_mul(tmp[1], m[1][1]) ^ m[1][4]), gf4096_inv(m[1][2]));
+	tmp[3] = gf4096_mul((gf4096_mul(tmp[0], m[0][0]) ^
+			gf4096_mul(tmp[1], m[0][1]) ^ gf4096_mul(tmp[2], m[0][2]) ^ m[0][4]), gf4096_inv(m[0][3]));
+	sort_coefs(row_order, tmp, 4);
+	coefs[0] = tmp[0];
+	coefs[1] = tmp[1];
+	coefs[2] = tmp[2];
+	coefs[3] = tmp[3];
+}
+
+static void sort_coefs(int *order, unsigned short *soln, int len)
+{
+	int cnt, start_cnt, least_ord, least_cnt;
+	unsigned short tmp0;
+	for (start_cnt = 0; start_cnt < len; start_cnt++) {
+		for (cnt = start_cnt; cnt < len; cnt++) {
+			if (cnt == start_cnt) {
+				least_ord = order[cnt];
+				least_cnt = start_cnt;
+			} else {
+				if (least_ord > order[cnt]) {
+					least_ord = order[cnt];
+					least_cnt = cnt;
+				}
+			}
+		}
+		if (least_cnt != start_cnt) {
+			tmp0 = order[least_cnt];
+			order[least_cnt] = order[start_cnt];
+			order[start_cnt] = tmp0;
+			tmp0 = soln[least_cnt];
+			soln[least_cnt] = soln[start_cnt];
+			soln[start_cnt] = tmp0;
+		}
+	}
+}
+
+static void find_4bit_err_pats(unsigned short s0, unsigned short s1,
+			       unsigned short s2, unsigned short s3,
+			       unsigned short z1, unsigned short z2,
+			       unsigned short z3, unsigned short z4,
+			       unsigned short *pats)
+{
+	unsigned short z4_z1, z3z4_z3z3, z4_z2, s0z4_s1, z1z4_z1z1,
+		z4_z3, z2z4_z2z2, s1z4_s2, z3z3z4_z3z3z3, z1z1z4_z1z1z1, z2z2z4_z2z2z2, s2z4_s3;
+	unsigned short tmp0, tmp1, tmp2, tmp3;
+
+	z4_z1 = z4 ^ z1;
+	z3z4_z3z3 = gf4096_mul(z3, z4) ^ gf4096_mul(z3, z3);
+	z4_z2 = z4 ^ z2;
+	s0z4_s1 = gf4096_mul(s0, z4) ^ s1;
+	z1z4_z1z1 = gf4096_mul(z1, z4) ^ gf4096_mul(z1, z1);
+	z4_z3 = z4 ^ z3;
+	z2z4_z2z2 = gf4096_mul(z2, z4) ^ gf4096_mul(z2, z2);
+	s1z4_s2 = gf4096_mul(s1, z4) ^ s2;
+	z3z3z4_z3z3z3 = gf4096_mul(gf4096_mul(z3, z3), z4) ^ gf4096_mul(gf4096_mul(z3, z3), z3);
+	z1z1z4_z1z1z1 = gf4096_mul(gf4096_mul(z1, z1), z4) ^ gf4096_mul(gf4096_mul(z1, z1), z1);
+	z2z2z4_z2z2z2 = gf4096_mul(gf4096_mul(z2, z2), z4) ^ gf4096_mul(gf4096_mul(z2, z2), z2);
+	s2z4_s3 = gf4096_mul(s2, z4) ^ s3;
+
+	//find err pat 0,1
+	find_2x2_soln(gf4096_mul(z4_z1, z3z4_z3z3) ^
+		      gf4096_mul(z1z4_z1z1, z4_z3), gf4096_mul(z4_z2,
+							       z3z4_z3z3) ^
+		      gf4096_mul(z2z4_z2z2, z4_z3), gf4096_mul(z1z4_z1z1,
+							       z3z3z4_z3z3z3) ^
+		      gf4096_mul(z1z1z4_z1z1z1, z3z4_z3z3),
+		      gf4096_mul(z2z4_z2z2,
+				 z3z3z4_z3z3z3) ^ gf4096_mul(z2z2z4_z2z2z2,
+							     z3z4_z3z3),
+		      gf4096_mul(s0z4_s1, z3z4_z3z3) ^ gf4096_mul(s1z4_s2,
+								  z4_z3),
+		      gf4096_mul(s1z4_s2, z3z3z4_z3z3z3) ^ gf4096_mul(s2z4_s3, z3z4_z3z3), pats);
+	tmp0 = pats[0];
+	tmp1 = pats[1];
+	tmp2 = pats[0] ^ pats[1] ^ s0;
+	tmp3 = gf4096_mul(pats[0], z1) ^ gf4096_mul(pats[1], z2) ^ s1;
+
+	//find err pat 2,3
+	find_2x2_soln(0x1, 0x1, z3, z4, tmp2, tmp3, pats);
+	pats[2] = pats[0];
+	pats[3] = pats[1];
+	pats[0] = tmp0;
+	pats[1] = tmp1;
+}
+
+static void find_2x2_soln(unsigned short c00, unsigned short c01,
+			  unsigned short c10, unsigned short c11,
+			  unsigned short lval0, unsigned short lval1,
+			  unsigned short *soln)
+{
+	unsigned short m[2][3];
+	m[0][0] = c00;
+	m[0][1] = c01;
+	m[0][2] = lval0;
+	m[1][0] = c10;
+	m[1][1] = c11;
+	m[1][2] = lval1;
+
+	if (m[0][1] != 0x0) {
+		/* */
+	} else if (m[1][1] != 0x0) {
+		swap_2x3_rows(m);
+	} else {
+		printk(KERN_ERR "Warning: find_2bit_err_coefs, s0,s1 all zeros!\n");
+	}
+
+	solve_2x3(m, soln);
+}
+
+static void swap_2x3_rows(unsigned short m[2][3])
+{
+	unsigned short tmp0;
+	int cnt;
+
+	for (cnt = 0; cnt < 3; cnt++) {
+		tmp0 = m[0][cnt];
+		m[0][cnt] = m[1][cnt];
+		m[1][cnt] = tmp0;
+	}
+}
+
+static void solve_2x3(unsigned short m[2][3], unsigned short *coefs)
+{
+	unsigned short minv;
+
+	minv = gf4096_mul(m[1][1], gf4096_inv(m[0][1]));
+	m[1][0] = m[1][0] ^ gf4096_mul(m[0][0], minv);
+	m[1][2] = m[1][2] ^ gf4096_mul(m[0][2], minv);
+	coefs[0] = gf4096_mul(m[1][2], gf4096_inv(m[1][0]));
+	coefs[1] = gf4096_mul((gf4096_mul(coefs[0], m[0][0]) ^ m[0][2]), gf4096_inv(m[0][1]));
+}
+
+static unsigned char gf64_inv[64] = {
+	 0,  1, 33, 62, 49, 43, 31, 44, 57, 37, 52, 28, 46, 40, 22, 25, 
+	61, 54, 51, 39, 26, 35, 14, 24, 23, 15, 20, 34, 11, 53, 45,  6, 
+	63,  2, 27, 21, 56,  9, 50, 19, 13, 47, 48,  5,  7, 30, 12, 41, 
+	42,  4, 38, 18, 10, 29, 17, 60, 36,  8, 59, 58, 55, 16,  3, 32
+};
+
+static unsigned short gf4096_inv(unsigned short din)
+{
+	unsigned short alahxal, ah2B, deno, inv, bl, bh;
+	unsigned short ah, al, ahxal;
+	unsigned short dout;
+
+	ah = (din >> 6) & 0x3f;
+	al = din & 0x3f;
+	ahxal = ah ^ al;
+	ah2B = (((ah ^ (ah >> 3)) & 0x1) << 5) |
+		((ah >> 1) & 0x10) |
+		((((ah >> 5) ^ (ah >> 2)) & 0x1) << 3) |
+		((ah >> 2) & 0x4) | ((((ah >> 4) ^ (ah >> 1)) & 0x1) << 1) | (ah & 0x1);
+	alahxal = gf64_mul(ahxal, al);
+	deno = alahxal ^ ah2B;
+	inv = gf64_inv[deno];
+	bl = gf64_mul(inv, ahxal);
+	bh = gf64_mul(inv, ah);
+	dout = ((bh & 0x3f) << 6) | (bl & 0x3f);
+	return (((bh & 0x3f) << 6) | (bl & 0x3f));
+}
+
+static unsigned short err_pos_lut[4096] = {
+	0xfff, 0x000, 0x451, 0xfff, 0xfff, 0x3cf, 0xfff, 0x041, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0x28a, 0xfff, 0x492, 0xfff, 
+	0x145, 0xfff, 0xfff, 0x514, 0xfff, 0x082, 0xfff, 0xfff, 
+	0xfff, 0x249, 0x38e, 0x410, 0xfff, 0x104, 0x208, 0x1c7, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0x2cb, 0xfff, 0xfff, 0xfff, 
+	0x0c3, 0x34d, 0x4d3, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x186, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0x30c, 0x555, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x166, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0x385, 0x14e, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x4e1, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0x538, 0xfff, 0x16d, 0xfff, 
+	0xfff, 0xfff, 0x45b, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x29c, 0x2cc, 0x30b, 0x2b3, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x0b3, 0xfff, 0x2f7, 
+	0xfff, 0x32b, 0xfff, 0xfff, 0xfff, 0xfff, 0x0a7, 0xfff, 
+	0xfff, 0x2da, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0x07e, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x11c, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x22f, 0xfff, 0x1f4, 0xfff, 0xfff, 
+	0x2b0, 0x504, 0xfff, 0x114, 0xfff, 0xfff, 0xfff, 0x21d, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0x00d, 0x3c4, 0x340, 0x10f, 
+	0xfff, 0xfff, 0x266, 0x02e, 0xfff, 0xfff, 0xfff, 0x4f8, 
+	0x337, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x07b, 0x168, 0xfff, 0xfff, 0x0fe, 
+	0xfff, 0xfff, 0x51a, 0xfff, 0x458, 0xfff, 0x36d, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x073, 0x37d, 0x415, 0x550, 0xfff, 
+	0xfff, 0xfff, 0x23b, 0x4b4, 0xfff, 0xfff, 0xfff, 0x1a1, 
+	0xfff, 0xfff, 0x3aa, 0xfff, 0x117, 0x04d, 0x341, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x518, 0x03e, 0x0f2, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x363, 0xfff, 0x0b9, 0xfff, 0xfff, 
+	0x241, 0xfff, 0xfff, 0x049, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0x15f, 0x52d, 0xfff, 0xfff, 0xfff, 0x29e, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0x4cf, 0x0fc, 0xfff, 0x36f, 0x3d3, 0xfff, 
+	0x228, 0xfff, 0xfff, 0x45e, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0x238, 0xfff, 0xfff, 0xfff, 0xfff, 0x47f, 0xfff, 0xfff, 
+	0x43a, 0x265, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x3e8, 
+	0xfff, 0xfff, 0x01a, 0xfff, 0xfff, 0xfff, 0xfff, 0x21e, 
+	0x1fc, 0x40b, 0xfff, 0xfff, 0xfff, 0x2d0, 0x159, 0xfff, 
+	0xfff, 0x313, 0xfff, 0xfff, 0x05c, 0x4cc, 0xfff, 0xfff, 
+	0x0f6, 0x3d5, 0xfff, 0xfff, 0xfff, 0x54f, 0xfff, 0xfff, 
+	0xfff, 0x172, 0x1e4, 0x07c, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x53c, 0x1ad, 0x535, 
+	0x19b, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0x092, 0xfff, 0x2be, 0xfff, 0xfff, 0x482, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x0e6, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x476, 0xfff, 0x51d, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0x342, 0x2b5, 0x22e, 0x09a, 0xfff, 0x08d, 
+	0x44f, 0x3ed, 0xfff, 0xfff, 0xfff, 0xfff, 0x3d1, 0xfff, 
+	0xfff, 0x543, 0xfff, 0x48f, 0xfff, 0x3d2, 0xfff, 0x0d5, 
+	0x113, 0x0ec, 0x427, 0xfff, 0xfff, 0xfff, 0x4c4, 0xfff, 
+	0xfff, 0x50a, 0xfff, 0x144, 0xfff, 0x105, 0x39f, 0x294, 
+	0x164, 0xfff, 0x31a, 0xfff, 0xfff, 0x49a, 0xfff, 0x130, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0x1be, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0x49e, 0x371, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0x0e8, 0x49c, 0x0f4, 0xfff, 
+	0x338, 0x1a7, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0x36c, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0x1ae, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0x31b, 0xfff, 0xfff, 0x2dd, 0x522, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x2f4, 
+	0x3c6, 0x30d, 0xfff, 0xfff, 0xfff, 0xfff, 0x34c, 0x18f, 
+	0x30a, 0xfff, 0x01f, 0x079, 0xfff, 0xfff, 0x54d, 0x46b, 
+	0x28c, 0x37f, 0xfff, 0xfff, 0xfff, 0xfff, 0x355, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x14f, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x359, 0x3fe, 0x3c5, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0x423, 0xfff, 0xfff, 0x34a, 0x22c, 0xfff, 
+	0x25a, 0xfff, 0xfff, 0x4ad, 0xfff, 0x28d, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0x547, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0x2e2, 0xfff, 0xfff, 0x1d5, 0xfff, 0x2a8, 0xfff, 0xfff, 
+	0x03f, 0xfff, 0xfff, 0xfff, 0xfff, 0x3eb, 0x0fa, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0x55b, 0xfff, 
+	0x08e, 0xfff, 0x3ae, 0xfff, 0x3a4, 0xfff, 0x282, 0x158, 
+	0xfff, 0x382, 0xfff, 0xfff, 0x499, 0xfff, 0xfff, 0x08a, 
+	0xfff, 0xfff, 0xfff, 0x456, 0x3be, 0xfff, 0x1e2, 0xfff, 
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+	0x3f6, 0x3bb, 0x3e4, 0xfff, 0xfff, 0x2e3, 0xfff, 0x245, 
+	0xfff, 0x149, 0xfff, 0xfff, 0xfff, 0x2db, 0xfff, 0xfff, 
+	0x181, 0xfff, 0x089, 0x2c5, 0xfff, 0x1f5, 0xfff, 0x2d6, 
+	0x507, 0xfff, 0x42d, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0x080, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 0xfff, 
+	0xfff, 0xfff, 0xfff, 0xfff, 0x3c3, 0x320, 0xfff, 0x1e1, 
+	0xfff, 0x0f5, 0x13b, 0xfff, 0xfff, 0xfff, 0x003, 0x4da, 
+	0xfff, 0xfff, 0xfff, 0x42c, 0xfff, 0xfff, 0x0cb, 0xfff, 
+	0x536, 0x2c3, 0xfff, 0xfff, 0xfff, 0xfff, 0x199, 0xfff, 
+	0xfff, 0x0c0, 0xfff, 0x01e, 0x497, 0xfff, 0xfff, 0x3e5, 
+	0xfff, 0xfff, 0xfff, 0x0cf, 0xfff, 0x2bd, 0xfff, 0x223, 
+	0xfff, 0x3ff, 0xfff, 0x058, 0x174, 0x3ef, 0xfff, 0x002
+};
+
+static unsigned short err_pos(unsigned short din)
+{
+	BUG_ON(din > 4096);
+	return err_pos_lut[din];
+}
+static int chk_no_err_only(unsigned short *chk_syndrome_list, unsigned short *err_info)
+{
+	if ((chk_syndrome_list[0] | chk_syndrome_list[1] |
+	     chk_syndrome_list[2] | chk_syndrome_list[3] |
+	     chk_syndrome_list[4] | chk_syndrome_list[5] |
+	     chk_syndrome_list[6] | chk_syndrome_list[7]) != 0x0) {
+		return -EINVAL;
+	} else {
+		err_info[0] = 0x0;
+		return 0;
+	}
+}
+static int chk_1_err_only(unsigned short *chk_syndrome_list, unsigned short *err_info)
+{
+	unsigned short tmp0, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6;
+	tmp0 = gf4096_mul(chk_syndrome_list[1], gf4096_inv(chk_syndrome_list[0]));
+	tmp1 = gf4096_mul(chk_syndrome_list[2], gf4096_inv(chk_syndrome_list[1]));
+	tmp2 = gf4096_mul(chk_syndrome_list[3], gf4096_inv(chk_syndrome_list[2]));
+	tmp3 = gf4096_mul(chk_syndrome_list[4], gf4096_inv(chk_syndrome_list[3]));
+	tmp4 = gf4096_mul(chk_syndrome_list[5], gf4096_inv(chk_syndrome_list[4]));
+	tmp5 = gf4096_mul(chk_syndrome_list[6], gf4096_inv(chk_syndrome_list[5]));
+	tmp6 = gf4096_mul(chk_syndrome_list[7], gf4096_inv(chk_syndrome_list[6]));
+	if ((tmp0 == tmp1) & (tmp1 == tmp2) & (tmp2 == tmp3) & (tmp3 == tmp4) & (tmp4 == tmp5) & (tmp5 == tmp6)) {
+		err_info[0] = 0x1;	// encode 1-symbol error as 0x1
+		err_info[1] = err_pos(tmp0);
+		err_info[1] = (unsigned short)(0x55e - err_info[1]);
+		err_info[5] = chk_syndrome_list[0];
+		return 0;
+	} else
+		return -EINVAL;
+}
+static int chk_2_err_only(unsigned short *chk_syndrome_list, unsigned short *err_info)
+{
+	unsigned short tmp0, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+	unsigned short coefs[4];
+	unsigned short err_pats[4];
+	int found_num_root = 0;
+	unsigned short bit2_root0, bit2_root1;
+	unsigned short bit2_root0_inv, bit2_root1_inv;
+	unsigned short err_loc_eqn, test_root;
+	unsigned short bit2_loc0, bit2_loc1;
+	unsigned short bit2_pat0, bit2_pat1;
+
+	find_2x2_soln(chk_syndrome_list[1],
+		      chk_syndrome_list[0],
+		      chk_syndrome_list[2], chk_syndrome_list[1], chk_syndrome_list[2], chk_syndrome_list[3], coefs);
+	for (test_root = 0x1; test_root < 0xfff; test_root++) {
+		err_loc_eqn =
+		    gf4096_mul(coefs[1], gf4096_mul(test_root, test_root)) ^ gf4096_mul(coefs[0], test_root) ^ 0x1;
+		if (err_loc_eqn == 0x0) {
+			if (found_num_root == 0) {
+				bit2_root0 = test_root;
+				found_num_root = 1;
+			} else if (found_num_root == 1) {
+				bit2_root1 = test_root;
+				found_num_root = 2;
+				break;
+			}
+		}
+	}
+	if (found_num_root != 2)
+		return -EINVAL;
+	else {
+		bit2_root0_inv = gf4096_inv(bit2_root0);
+		bit2_root1_inv = gf4096_inv(bit2_root1);
+		find_2bit_err_pats(chk_syndrome_list[0],
+				   chk_syndrome_list[1], bit2_root0_inv, bit2_root1_inv, err_pats);
+		bit2_pat0 = err_pats[0];
+		bit2_pat1 = err_pats[1];
+		//for(x+1)
+		tmp0 = gf4096_mul(gf4096_mul(bit2_root0_inv, bit2_root0_inv), gf4096_mul(bit2_root0_inv, bit2_root0_inv));	//rinv0^4
+		tmp1 = gf4096_mul(bit2_root0_inv, tmp0);	//rinv0^5
+		tmp2 = gf4096_mul(bit2_root0_inv, tmp1);	//rinv0^6
+		tmp3 = gf4096_mul(bit2_root0_inv, tmp2);	//rinv0^7
+		tmp4 = gf4096_mul(gf4096_mul(bit2_root1_inv, bit2_root1_inv), gf4096_mul(bit2_root1_inv, bit2_root1_inv));	//rinv1^4
+		tmp5 = gf4096_mul(bit2_root1_inv, tmp4);	//rinv1^5
+		tmp6 = gf4096_mul(bit2_root1_inv, tmp5);	//rinv1^6
+		tmp7 = gf4096_mul(bit2_root1_inv, tmp6);	//rinv1^7
+		//check if only 2-bit error
+		if ((chk_syndrome_list[4] ==
+		     (gf4096_mul(bit2_pat0, tmp0) ^
+		      gf4096_mul(bit2_pat1,
+				 tmp4))) & (chk_syndrome_list[5] ==
+					    (gf4096_mul(bit2_pat0, tmp1) ^
+					     gf4096_mul(bit2_pat1,
+							tmp5))) &
+		    (chk_syndrome_list[6] ==
+		     (gf4096_mul(bit2_pat0, tmp2) ^
+		      gf4096_mul(bit2_pat1,
+				 tmp6))) & (chk_syndrome_list[7] ==
+					    (gf4096_mul(bit2_pat0, tmp3) ^ gf4096_mul(bit2_pat1, tmp7)))) {
+			if ((err_pos(bit2_root0_inv) == 0xfff) | (err_pos(bit2_root1_inv) == 0xfff)) {
+				return -EINVAL;
+			} else {
+				bit2_loc0 = 0x55e - err_pos(bit2_root0_inv);
+				bit2_loc1 = 0x55e - err_pos(bit2_root1_inv);
+				err_info[0] = 0x2;	// encode 2-symbol error as 0x2
+				err_info[1] = bit2_loc0;
+				err_info[2] = bit2_loc1;
+				err_info[5] = bit2_pat0;
+				err_info[6] = bit2_pat1;
+				return 0;
+			}
+		} else
+			return -EINVAL;
+	}
+}
+static int chk_3_err_only(unsigned short *chk_syndrome_list, unsigned short *err_info)
+{
+	unsigned short tmp0, tmp1, tmp2, tmp3, tmp4, tmp5;
+	unsigned short coefs[4];
+	unsigned short err_pats[4];
+	int found_num_root = 0;
+	unsigned short bit3_root0, bit3_root1, bit3_root2;
+	unsigned short bit3_root0_inv, bit3_root1_inv, bit3_root2_inv;
+	unsigned short err_loc_eqn, test_root;
+
+	find_3bit_err_coefs(chk_syndrome_list[0], chk_syndrome_list[1],
+			    chk_syndrome_list[2], chk_syndrome_list[3],
+			    chk_syndrome_list[4], chk_syndrome_list[5], coefs);
+
+	for (test_root = 0x1; test_root < 0xfff; test_root++) {
+		err_loc_eqn = gf4096_mul(coefs[2],
+					 gf4096_mul(gf4096_mul(test_root, test_root),
+						    test_root)) ^ gf4096_mul(coefs[1], gf4096_mul(test_root, test_root))
+			^ gf4096_mul(coefs[0], test_root) ^ 0x1;
+
+		if (err_loc_eqn == 0x0) {
+			if (found_num_root == 0) {
+				bit3_root0 = test_root;
+				found_num_root = 1;
+			} else if (found_num_root == 1) {
+				bit3_root1 = test_root;
+				found_num_root = 2;
+			} else if (found_num_root == 2) {
+				bit3_root2 = test_root;
+				found_num_root = 3;
+				break;
+			}
+		}
+	}
+	if (found_num_root != 3)
+		return -EINVAL;
+	else {
+		bit3_root0_inv = gf4096_inv(bit3_root0);
+		bit3_root1_inv = gf4096_inv(bit3_root1);
+		bit3_root2_inv = gf4096_inv(bit3_root2);
+
+		find_3bit_err_pats(chk_syndrome_list[0], chk_syndrome_list[1],
+				   chk_syndrome_list[2], bit3_root0_inv,
+				   bit3_root1_inv, bit3_root2_inv, err_pats);
+
+		//check if only 3-bit error
+		tmp0 = gf4096_mul(bit3_root0_inv, bit3_root0_inv);
+		tmp0 = gf4096_mul(tmp0, tmp0);
+		tmp0 = gf4096_mul(tmp0, bit3_root0_inv);
+		tmp0 = gf4096_mul(tmp0, bit3_root0_inv);	//rinv0^6
+		tmp1 = gf4096_mul(tmp0, bit3_root0_inv);	//rinv0^7
+		tmp2 = gf4096_mul(bit3_root1_inv, bit3_root1_inv);
+		tmp2 = gf4096_mul(tmp2, tmp2);
+		tmp2 = gf4096_mul(tmp2, bit3_root1_inv);
+		tmp2 = gf4096_mul(tmp2, bit3_root1_inv);	//rinv1^6
+		tmp3 = gf4096_mul(tmp2, bit3_root1_inv);	//rinv1^7
+		tmp4 = gf4096_mul(bit3_root2_inv, bit3_root2_inv);
+		tmp4 = gf4096_mul(tmp4, tmp4);
+		tmp4 = gf4096_mul(tmp4, bit3_root2_inv);
+		tmp4 = gf4096_mul(tmp4, bit3_root2_inv);	//rinv2^6
+		tmp5 = gf4096_mul(tmp4, bit3_root2_inv);	//rinv2^7
+
+		//check if only 3 errors
+		if ((chk_syndrome_list[6] == (gf4096_mul(err_pats[0], tmp0) ^
+					      gf4096_mul(err_pats[1], tmp2) ^
+					      gf4096_mul(err_pats[2], tmp4))) &
+		    (chk_syndrome_list[7] == (gf4096_mul(err_pats[0], tmp1) ^
+					      gf4096_mul(err_pats[1], tmp3) ^ gf4096_mul(err_pats[2], tmp5)))) {
+			if ((err_pos(bit3_root0_inv) == 0xfff) |
+			    (err_pos(bit3_root1_inv) == 0xfff) | (err_pos(bit3_root2_inv) == 0xfff)) {
+				return -EINVAL;
+			} else {
+				err_info[0] = 0x3;
+				err_info[1] = (0x55e - err_pos(bit3_root0_inv));
+				err_info[2] = (0x55e - err_pos(bit3_root1_inv));
+				err_info[3] = (0x55e - err_pos(bit3_root2_inv));
+				err_info[5] = err_pats[0];
+				err_info[6] = err_pats[1];
+				err_info[7] = err_pats[2];
+				return 0;
+			}
+		} else
+			return -EINVAL;
+	}
+}
+static int chk_4_err_only(unsigned short *chk_syndrome_list, unsigned short *err_info)
+{
+	unsigned short coefs[4];
+	unsigned short err_pats[4];
+	int found_num_root = 0;
+	unsigned short bit4_root0, bit4_root1, bit4_root2, bit4_root3;
+	unsigned short bit4_root0_inv, bit4_root1_inv, bit4_root2_inv, bit4_root3_inv;
+	unsigned short err_loc_eqn, test_root;
+
+	find_4bit_err_coefs(chk_syndrome_list[0],
+			    chk_syndrome_list[1],
+			    chk_syndrome_list[2],
+			    chk_syndrome_list[3],
+			    chk_syndrome_list[4],
+			    chk_syndrome_list[5], chk_syndrome_list[6], chk_syndrome_list[7], coefs);
+
+	for (test_root = 0x1; test_root < 0xfff; test_root++) {
+		err_loc_eqn =
+		    gf4096_mul(coefs[3],
+			       gf4096_mul(gf4096_mul
+					  (gf4096_mul(test_root, test_root),
+					   test_root),
+					  test_root)) ^ gf4096_mul(coefs[2],
+								   gf4096_mul
+								   (gf4096_mul(test_root, test_root), test_root))
+		    ^ gf4096_mul(coefs[1], gf4096_mul(test_root, test_root)) ^ gf4096_mul(coefs[0], test_root)
+		    ^ 0x1;
+		if (err_loc_eqn == 0x0) {
+			if (found_num_root == 0) {
+				bit4_root0 = test_root;
+				found_num_root = 1;
+			} else if (found_num_root == 1) {
+				bit4_root1 = test_root;
+				found_num_root = 2;
+			} else if (found_num_root == 2) {
+				bit4_root2 = test_root;
+				found_num_root = 3;
+			} else {
+				found_num_root = 4;
+				bit4_root3 = test_root;
+				break;
+			}
+		}
+	}
+	if (found_num_root != 4) {
+		return -EINVAL;
+	} else {
+		bit4_root0_inv = gf4096_inv(bit4_root0);
+		bit4_root1_inv = gf4096_inv(bit4_root1);
+		bit4_root2_inv = gf4096_inv(bit4_root2);
+		bit4_root3_inv = gf4096_inv(bit4_root3);
+		find_4bit_err_pats(chk_syndrome_list[0],
+				   chk_syndrome_list[1],
+				   chk_syndrome_list[2],
+				   chk_syndrome_list[3],
+				   bit4_root0_inv, bit4_root1_inv, bit4_root2_inv, bit4_root3_inv, err_pats);
+		err_info[0] = 0x4;
+		err_info[1] = (0x55e - err_pos(bit4_root0_inv));
+		err_info[2] = (0x55e - err_pos(bit4_root1_inv));
+		err_info[3] = (0x55e - err_pos(bit4_root2_inv));
+		err_info[4] = (0x55e - err_pos(bit4_root3_inv));
+		err_info[5] = err_pats[0];
+		err_info[6] = err_pats[1];
+		err_info[7] = err_pats[2];
+		err_info[8] = err_pats[3];
+		return 0;
+	}
+}
+
+void correct_12bit_symbol(unsigned char *buf, unsigned short sym,
+			  unsigned short val)
+{
+	if (unlikely(sym > 1366)) {
+		printk(KERN_ERR "Error: symbol %d out of range; cannot correct\n", sym);
+	} else if (sym == 0) {
+		buf[0] ^= val;
+	} else if (sym & 1) {
+		buf[1+(3*(sym-1))/2] ^= (val >> 4);
+		buf[2+(3*(sym-1))/2] ^= ((val & 0xf) << 4);
+	} else {
+		buf[2+(3*(sym-2))/2] ^= (val >> 8);
+		buf[3+(3*(sym-2))/2] ^= (val & 0xff);
+	}
+}
+
+static int debugecc = 0;
+module_param(debugecc, int, 0644);
+
+int cafe_correct_ecc(unsigned char *buf,
+		     unsigned short *chk_syndrome_list)
+{
+	unsigned short err_info[9];
+	int i;
+
+	if (debugecc) {
+		printk(KERN_WARNING "cafe_correct_ecc invoked. Syndromes %x %x %x %x %x %x %x %x\n",
+		       chk_syndrome_list[0], chk_syndrome_list[1],
+		       chk_syndrome_list[2], chk_syndrome_list[3],
+		       chk_syndrome_list[4], chk_syndrome_list[5],
+		       chk_syndrome_list[6], chk_syndrome_list[7]);
+		for (i=0; i < 2048; i+=16) {
+			printk(KERN_WARNING "D %04x: %02x %02x %02x %02x %02x %02x %02x %02x  %02x %02x %02x %02x %02x %02x %02x %02x\n",
+			       i,
+			       buf[i], buf[i+1], buf[i+2], buf[i+3],
+			       buf[i+4], buf[i+5], buf[i+6], buf[i+7],
+			       buf[i+8], buf[i+9], buf[i+10], buf[i+11],
+			       buf[i+12], buf[i+13], buf[i+14], buf[i+15]);
+		}
+		for ( ; i < 2112; i+=16) {
+			printk(KERN_WARNING "O   %02x: %02x %02x %02x %02x %02x %02x %02x %02x  %02x %02x %02x %02x %02x %02x %02x %02x\n",
+			       i - 2048,
+			       buf[i], buf[i+1], buf[i+2], buf[i+3],
+			       buf[i+4], buf[i+5], buf[i+6], buf[i+7],
+			       buf[i+8], buf[i+9], buf[i+10], buf[i+11],
+			       buf[i+12], buf[i+13], buf[i+14], buf[i+15]);
+		}
+	}
+			
+
+
+	if (chk_no_err_only(chk_syndrome_list, err_info) &&
+	    chk_1_err_only(chk_syndrome_list, err_info) &&
+	    chk_2_err_only(chk_syndrome_list, err_info) &&
+	    chk_3_err_only(chk_syndrome_list, err_info) &&
+	    chk_4_err_only(chk_syndrome_list, err_info)) {
+		return -EIO;
+	}
+
+	for (i=0; i < err_info[0]; i++) {
+		if (debugecc)
+			printk(KERN_WARNING "Correct symbol %d with 0x%03x\n",
+			       err_info[1+i], err_info[5+i]);
+
+		correct_12bit_symbol(buf, err_info[1+i], err_info[5+i]);
+	}
+
+	return err_info[0];
+}
+