drivers/mtd/nand/docg4_spl.c - u-boot - Git at Google

 /*
  * SPL driver for Diskonchip G4 nand flash
  *
  * Copyright (C) 2013 Mike Dunn <mikedunn@newsguy.com>
  *
  * SPDX-License-Identifier:	GPL-2.0+
  *
  * This driver basically mimics the load functionality of a typical IPL (initial
  * program loader) resident in the 2k NOR-like region of the docg4 that is
  * mapped to the reset vector.  It allows the u-boot SPL to continue loading if
  * the IPL loads a fixed number of flash blocks that is insufficient to contain
  * the entire u-boot image.  In this case, a concatenated spl + u-boot image is
  * written at the flash offset from which the IPL loads an image, and when the
  * IPL jumps to the SPL, the SPL resumes loading where the IPL left off.  See
  * the palmtreo680 for an example.
  *
  * This driver assumes that the data was written to the flash using the device's
  * "reliable" mode, and also assumes that each 512 byte page is stored
  * redundantly in the subsequent page.  This storage format is likely to be used
  * by all boards that boot from the docg4.  The format compensates for the lack
  * of ecc in the IPL.
  *
  * Reliable mode reduces the capacity of a block by half, and the redundant
  * pages reduce it by half again.  As a result, the normal 256k capacity of a
  * block is reduced to 64k for the purposes of the IPL/SPL.
  */

 #include <asm/io.h>
 #include <linux/mtd/docg4.h>

 /* forward declarations */
 static inline void write_nop(void __iomem *docptr);
 static int poll_status(void __iomem *docptr);
 static void write_addr(void __iomem *docptr, uint32_t docg4_addr);
 static void address_sequence(unsigned int g4_page, unsigned int g4_index,
 			     void __iomem *docptr);
 static int docg4_load_block_reliable(uint32_t flash_offset, void *dest_addr);

 int nand_spl_load_image(uint32_t offs, unsigned int size, void *dst)
 {
 	void *load_addr = dst;
 	uint32_t flash_offset = offs;
 	const unsigned int block_count =
 		(size + DOCG4_BLOCK_CAPACITY_SPL - 1)
 		/ DOCG4_BLOCK_CAPACITY_SPL;
 	int i;

 	for (i = 0; i < block_count; i++) {
 		int ret = docg4_load_block_reliable(flash_offset, load_addr);
 		if (ret)
 			return ret;
 		load_addr += DOCG4_BLOCK_CAPACITY_SPL;
 		flash_offset += DOCG4_BLOCK_SIZE;
 	}
 	return 0;
 }

 static inline void write_nop(void __iomem *docptr)
 {
 	writew(0, docptr + DOC_NOP);
 }

 static int poll_status(void __iomem *docptr)
 {
 	/*
 	 * Busy-wait for the FLASHREADY bit to be set in the FLASHCONTROL
 	 * register.  Operations known to take a long time (e.g., block erase)
 	 * should sleep for a while before calling this.
 	 */

 	uint8_t flash_status;

 	/* hardware quirk requires reading twice initially */
 	flash_status = readb(docptr + DOC_FLASHCONTROL);

 	do {
 		flash_status = readb(docptr + DOC_FLASHCONTROL);
 	} while (!(flash_status & DOC_CTRL_FLASHREADY));

 	return 0;
 }

 static void write_addr(void __iomem *docptr, uint32_t docg4_addr)
 {
 	/* write the four address bytes packed in docg4_addr to the device */

 	writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
 	docg4_addr >>= 8;
 	writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
 	docg4_addr >>= 8;
 	writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
 	docg4_addr >>= 8;
 	writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
 }

 static void address_sequence(unsigned int g4_page, unsigned int g4_index,
 			     void __iomem *docptr)
 {
 	writew(DOCG4_SEQ_PAGE_READ, docptr + DOC_FLASHSEQUENCE);
 	writew(DOCG4_CMD_PAGE_READ, docptr + DOC_FLASHCOMMAND);
 	write_nop(docptr);
 	write_addr(docptr, ((uint32_t)g4_page << 16) | g4_index);
 	write_nop(docptr);
 }

 static int docg4_load_block_reliable(uint32_t flash_offset, void *dest_addr)
 {
 	void __iomem *docptr = (void *)CONFIG_SYS_NAND_BASE;
 	unsigned int g4_page = flash_offset >> 11; /* 2k page */
 	const unsigned int last_g4_page = g4_page + 0x80; /* last in block */
 	int g4_index = 0;
 	uint16_t flash_status;
 	uint16_t *buf;

 	/* flash_offset must be aligned to the start of a block */
 	if (flash_offset & 0x3ffff)
 		return -1;

 	writew(DOC_SEQ_RESET, docptr + DOC_FLASHSEQUENCE);
 	writew(DOC_CMD_RESET, docptr + DOC_FLASHCOMMAND);
 	write_nop(docptr);
 	write_nop(docptr);
 	poll_status(docptr);
 	write_nop(docptr);
 	writew(0x45, docptr + DOC_FLASHSEQUENCE);
 	writew(0xa3, docptr + DOC_FLASHCOMMAND);
 	write_nop(docptr);
 	writew(0x22, docptr + DOC_FLASHCOMMAND);
 	write_nop(docptr);

 	/* read 1st 4 oob bytes of first subpage of block */
 	address_sequence(g4_page, 0x0100, docptr); /* index at oob */
 	write_nop(docptr);
 	flash_status = readw(docptr + DOC_FLASHCONTROL);
 	flash_status = readw(docptr + DOC_FLASHCONTROL);
 	if (flash_status & 0x06) /* sequence or protection errors */
 		return -1;
 	writew(DOCG4_CMD_READ2, docptr + DOC_FLASHCOMMAND);
 	write_nop(docptr);
 	write_nop(docptr);
 	poll_status(docptr);
 	writew(DOC_ECCCONF0_READ_MODE | 4, docptr + DOC_ECCCONF0);
 	write_nop(docptr);
 	write_nop(docptr);
 	write_nop(docptr);
 	write_nop(docptr);
 	write_nop(docptr);

 	/*
 	 * Here we read the first four oob bytes of the first page of the block.
 	 * The IPL on the palmtreo680 requires that this contain a 32 bit magic
 	 * number, or the load aborts.  We'll ignore it.
 	 */
 	readw(docptr + 0x103c); /* hw quirk; 1st read discarded */
 	readw(docptr + 0x103c);	/* lower 16 bits of magic number */
 	readw(docptr + DOCG4_MYSTERY_REG); /* upper 16 bits of magic number */
 	writew(0, docptr + DOC_DATAEND);
 	write_nop(docptr);
 	write_nop(docptr);

 	/* load contents of block to memory */
 	buf = (uint16_t *)dest_addr;
 	do {
 		int i;

 		address_sequence(g4_page, g4_index, docptr);
 		writew(DOCG4_CMD_READ2,
 		       docptr + DOC_FLASHCOMMAND);
 		write_nop(docptr);
 		write_nop(docptr);
 		poll_status(docptr);
 		writew(DOC_ECCCONF0_READ_MODE |
 		       DOC_ECCCONF0_ECC_ENABLE |
 		       DOCG4_BCH_SIZE,
 		       docptr + DOC_ECCCONF0);
 		write_nop(docptr);
 		write_nop(docptr);
 		write_nop(docptr);
 		write_nop(docptr);
 		write_nop(docptr);

 		/* read the 512 bytes of page data, 2 bytes at a time */
 		readw(docptr + 0x103c); /* hw quirk */
 		for (i = 0; i < 256; i++)
 			*buf++ = readw(docptr + 0x103c);

 		/* read oob, but discard it */
 		for (i = 0; i < 7; i++)
 			readw(docptr + 0x103c);
 		readw(docptr + DOCG4_OOB_6_7);
 		readw(docptr + DOCG4_OOB_6_7);

 		writew(0, docptr + DOC_DATAEND);
 		write_nop(docptr);
 		write_nop(docptr);

 		if (!(g4_index & 0x100)) {
 			/* not redundant subpage read; check for ecc error */
 			write_nop(docptr);
 			flash_status = readw(docptr + DOC_ECCCONF1);
 			flash_status = readw(docptr + DOC_ECCCONF1);
 			if (flash_status & 0x80) { /* ecc error */
 				g4_index += 0x108; /* read redundant subpage */
 				buf -= 256;        /* back up ram ptr */
 				continue;
 			} else                       /* no ecc error */
 				g4_index += 0x210; /* skip redundant subpage */
 		} else  /* redundant page was just read; skip ecc error check */
 			g4_index += 0x108;

 		if (g4_index == 0x420) { /* finished with 2k page */
 			g4_index = 0;
 			g4_page += 2; /* odd-numbered 2k pages skipped */
 		}

 	} while (g4_page != last_g4_page); /* while still on same block */

 	return 0;
 }
	/*
	* SPL driver for Diskonchip G4 nand flash
	*
	* Copyright (C) 2013 Mike Dunn <mikedunn@newsguy.com>
	*
	* SPDX-License-Identifier: GPL-2.0+
	*
	* This driver basically mimics the load functionality of a typical IPL (initial
	* program loader) resident in the 2k NOR-like region of the docg4 that is
	* mapped to the reset vector. It allows the u-boot SPL to continue loading if
	* the IPL loads a fixed number of flash blocks that is insufficient to contain
	* the entire u-boot image. In this case, a concatenated spl + u-boot image is
	* written at the flash offset from which the IPL loads an image, and when the
	* IPL jumps to the SPL, the SPL resumes loading where the IPL left off. See
	* the palmtreo680 for an example.
	*
	* This driver assumes that the data was written to the flash using the device's
	* "reliable" mode, and also assumes that each 512 byte page is stored
	* redundantly in the subsequent page. This storage format is likely to be used
	* by all boards that boot from the docg4. The format compensates for the lack
	* of ecc in the IPL.
	*
	* Reliable mode reduces the capacity of a block by half, and the redundant
	* pages reduce it by half again. As a result, the normal 256k capacity of a
	* block is reduced to 64k for the purposes of the IPL/SPL.
	*/

	#include <asm/io.h>
	#include <linux/mtd/docg4.h>

	/* forward declarations */
	static inline void write_nop(void __iomem *docptr);
	static int poll_status(void __iomem *docptr);
	static void write_addr(void __iomem *docptr, uint32_t docg4_addr);
	static void address_sequence(unsigned int g4_page, unsigned int g4_index,
	void __iomem *docptr);
	static int docg4_load_block_reliable(uint32_t flash_offset, void *dest_addr);

	int nand_spl_load_image(uint32_t offs, unsigned int size, void *dst)
	{
	void *load_addr = dst;
	uint32_t flash_offset = offs;
	const unsigned int block_count =
	(size + DOCG4_BLOCK_CAPACITY_SPL - 1)
	/ DOCG4_BLOCK_CAPACITY_SPL;
	int i;

	for (i = 0; i < block_count; i++) {
	int ret = docg4_load_block_reliable(flash_offset, load_addr);
	if (ret)
	return ret;
	load_addr += DOCG4_BLOCK_CAPACITY_SPL;
	flash_offset += DOCG4_BLOCK_SIZE;
	}
	return 0;
	}

	static inline void write_nop(void __iomem *docptr)
	{
	writew(0, docptr + DOC_NOP);
	}

	static int poll_status(void __iomem *docptr)
	{
	/*
	* Busy-wait for the FLASHREADY bit to be set in the FLASHCONTROL
	* register. Operations known to take a long time (e.g., block erase)
	* should sleep for a while before calling this.
	*/

	uint8_t flash_status;

	/* hardware quirk requires reading twice initially */
	flash_status = readb(docptr + DOC_FLASHCONTROL);

	do {
	flash_status = readb(docptr + DOC_FLASHCONTROL);
	} while (!(flash_status & DOC_CTRL_FLASHREADY));

	return 0;
	}

	static void write_addr(void __iomem *docptr, uint32_t docg4_addr)
	{
	/* write the four address bytes packed in docg4_addr to the device */

	writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
	docg4_addr >>= 8;
	writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
	docg4_addr >>= 8;
	writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
	docg4_addr >>= 8;
	writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
	}

	static void address_sequence(unsigned int g4_page, unsigned int g4_index,
	void __iomem *docptr)
	{
	writew(DOCG4_SEQ_PAGE_READ, docptr + DOC_FLASHSEQUENCE);
	writew(DOCG4_CMD_PAGE_READ, docptr + DOC_FLASHCOMMAND);
	write_nop(docptr);
	write_addr(docptr, ((uint32_t)g4_page << 16) \| g4_index);
	write_nop(docptr);
	}

	static int docg4_load_block_reliable(uint32_t flash_offset, void *dest_addr)
	{
	void __iomem docptr = (void )CONFIG_SYS_NAND_BASE;
	unsigned int g4_page = flash_offset >> 11; /* 2k page */
	const unsigned int last_g4_page = g4_page + 0x80; /* last in block */
	int g4_index = 0;
	uint16_t flash_status;
	uint16_t *buf;

	/* flash_offset must be aligned to the start of a block */
	if (flash_offset & 0x3ffff)
	return -1;

	writew(DOC_SEQ_RESET, docptr + DOC_FLASHSEQUENCE);
	writew(DOC_CMD_RESET, docptr + DOC_FLASHCOMMAND);
	write_nop(docptr);
	write_nop(docptr);
	poll_status(docptr);
	write_nop(docptr);
	writew(0x45, docptr + DOC_FLASHSEQUENCE);
	writew(0xa3, docptr + DOC_FLASHCOMMAND);
	write_nop(docptr);
	writew(0x22, docptr + DOC_FLASHCOMMAND);
	write_nop(docptr);

	/* read 1st 4 oob bytes of first subpage of block */
	address_sequence(g4_page, 0x0100, docptr); /* index at oob */
	write_nop(docptr);
	flash_status = readw(docptr + DOC_FLASHCONTROL);
	flash_status = readw(docptr + DOC_FLASHCONTROL);
	if (flash_status & 0x06) /* sequence or protection errors */
	return -1;
	writew(DOCG4_CMD_READ2, docptr + DOC_FLASHCOMMAND);
	write_nop(docptr);
	write_nop(docptr);
	poll_status(docptr);
	writew(DOC_ECCCONF0_READ_MODE \| 4, docptr + DOC_ECCCONF0);
	write_nop(docptr);
	write_nop(docptr);
	write_nop(docptr);
	write_nop(docptr);
	write_nop(docptr);

	/*
	* Here we read the first four oob bytes of the first page of the block.
	* The IPL on the palmtreo680 requires that this contain a 32 bit magic
	* number, or the load aborts. We'll ignore it.
	*/
	readw(docptr + 0x103c); /* hw quirk; 1st read discarded */
	readw(docptr + 0x103c); /* lower 16 bits of magic number */
	readw(docptr + DOCG4_MYSTERY_REG); /* upper 16 bits of magic number */
	writew(0, docptr + DOC_DATAEND);
	write_nop(docptr);
	write_nop(docptr);

	/* load contents of block to memory */
	buf = (uint16_t *)dest_addr;
	do {
	int i;

	address_sequence(g4_page, g4_index, docptr);
	writew(DOCG4_CMD_READ2,
	docptr + DOC_FLASHCOMMAND);
	write_nop(docptr);
	write_nop(docptr);
	poll_status(docptr);
	writew(DOC_ECCCONF0_READ_MODE \|
	DOC_ECCCONF0_ECC_ENABLE \|
	DOCG4_BCH_SIZE,
	docptr + DOC_ECCCONF0);
	write_nop(docptr);
	write_nop(docptr);
	write_nop(docptr);
	write_nop(docptr);
	write_nop(docptr);

	/* read the 512 bytes of page data, 2 bytes at a time */
	readw(docptr + 0x103c); /* hw quirk */
	for (i = 0; i < 256; i++)
	*buf++ = readw(docptr + 0x103c);

	/* read oob, but discard it */
	for (i = 0; i < 7; i++)
	readw(docptr + 0x103c);
	readw(docptr + DOCG4_OOB_6_7);
	readw(docptr + DOCG4_OOB_6_7);

	writew(0, docptr + DOC_DATAEND);
	write_nop(docptr);
	write_nop(docptr);

	if (!(g4_index & 0x100)) {
	/* not redundant subpage read; check for ecc error */
	write_nop(docptr);
	flash_status = readw(docptr + DOC_ECCCONF1);
	flash_status = readw(docptr + DOC_ECCCONF1);
	if (flash_status & 0x80) { /* ecc error */
	g4_index += 0x108; /* read redundant subpage */
	buf -= 256; /* back up ram ptr */
	continue;
	} else /* no ecc error */
	g4_index += 0x210; /* skip redundant subpage */
	} else /* redundant page was just read; skip ecc error check */
	g4_index += 0x108;

	if (g4_index == 0x420) { /* finished with 2k page */
	g4_index = 0;
	g4_page += 2; /* odd-numbered 2k pages skipped */
	}

	} while (g4_page != last_g4_page); /* while still on same block */

	return 0;
	}