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https://github.com/AsahiLinux/u-boot
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956b03e180
This patch adds a driver for the diskonchip G4 nand flash device. It is based on the driver from the linux kernel. This also includes a separate SPL driver. A separate SPL driver is used because the device operates in a different mode (reliable mode) when loading a boot image, and also because the storage format of the boot image is different from normal data (pages are stored redundantly). The SPL driver basically mimics how a typical IPL reads data from the device. The special operating mode and storage format are used to compensate for the fact that the IPL does not contain the BCH ecc decoding algorithm (due to size constraints). Although the u-boot SPL *could* use ecc, it operates like an IPL for the sake of simplicity and uniformity, since the IPL and SPL share the task of loading the u-boot image. As a side benefit, the SPL driver is very small. [port from linux kernel 3.4 commit 570469f3bde7f71cc1ece07a18d54a05b6a8775d] Signed-off-by: Mike Dunn <mikedunn@newsguy.com>
222 lines
7 KiB
C
222 lines
7 KiB
C
/*
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* SPL driver for Diskonchip G4 nand flash
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*
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* Copyright (C) 2013 Mike Dunn <mikedunn@newsguy.com>
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*
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* This file is released under the terms of GPL v2 and any later version.
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* See the file COPYING in the root directory of the source tree for details.
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*
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*
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* This driver basically mimics the load functionality of a typical IPL (initial
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* program loader) resident in the 2k NOR-like region of the docg4 that is
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* mapped to the reset vector. It allows the u-boot SPL to continue loading if
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* the IPL loads a fixed number of flash blocks that is insufficient to contain
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* the entire u-boot image. In this case, a concatenated spl + u-boot image is
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* written at the flash offset from which the IPL loads an image, and when the
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* IPL jumps to the SPL, the SPL resumes loading where the IPL left off. See
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* the palmtreo680 for an example.
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*
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* This driver assumes that the data was written to the flash using the device's
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* "reliable" mode, and also assumes that each 512 byte page is stored
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* redundantly in the subsequent page. This storage format is likely to be used
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* by all boards that boot from the docg4. The format compensates for the lack
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* of ecc in the IPL.
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*
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* Reliable mode reduces the capacity of a block by half, and the redundant
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* pages reduce it by half again. As a result, the normal 256k capacity of a
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* block is reduced to 64k for the purposes of the IPL/SPL.
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*/
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#include <asm/io.h>
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#include <linux/mtd/docg4.h>
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/* forward declarations */
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static inline void write_nop(void __iomem *docptr);
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static int poll_status(void __iomem *docptr);
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static void write_addr(void __iomem *docptr, uint32_t docg4_addr);
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static void address_sequence(unsigned int g4_page, unsigned int g4_index,
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void __iomem *docptr);
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static int docg4_load_block_reliable(uint32_t flash_offset, void *dest_addr);
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int nand_spl_load_image(uint32_t offs, unsigned int size, void *dst)
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{
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void *load_addr = dst;
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uint32_t flash_offset = offs;
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const unsigned int block_count =
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(size + DOCG4_BLOCK_CAPACITY_SPL - 1)
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/ DOCG4_BLOCK_CAPACITY_SPL;
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int i;
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for (i = 0; i < block_count; i++) {
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int ret = docg4_load_block_reliable(flash_offset, load_addr);
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if (ret)
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return ret;
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load_addr += DOCG4_BLOCK_CAPACITY_SPL;
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flash_offset += DOCG4_BLOCK_SIZE;
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}
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return 0;
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}
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static inline void write_nop(void __iomem *docptr)
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{
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writew(0, docptr + DOC_NOP);
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}
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static int poll_status(void __iomem *docptr)
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{
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/*
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* Busy-wait for the FLASHREADY bit to be set in the FLASHCONTROL
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* register. Operations known to take a long time (e.g., block erase)
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* should sleep for a while before calling this.
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*/
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uint8_t flash_status;
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/* hardware quirk requires reading twice initially */
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flash_status = readb(docptr + DOC_FLASHCONTROL);
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do {
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flash_status = readb(docptr + DOC_FLASHCONTROL);
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} while (!(flash_status & DOC_CTRL_FLASHREADY));
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return 0;
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}
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static void write_addr(void __iomem *docptr, uint32_t docg4_addr)
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{
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/* write the four address bytes packed in docg4_addr to the device */
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writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
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docg4_addr >>= 8;
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writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
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docg4_addr >>= 8;
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writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
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docg4_addr >>= 8;
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writeb(docg4_addr & 0xff, docptr + DOC_FLASHADDRESS);
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}
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static void address_sequence(unsigned int g4_page, unsigned int g4_index,
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void __iomem *docptr)
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{
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writew(DOCG4_SEQ_PAGE_READ, docptr + DOC_FLASHSEQUENCE);
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writew(DOCG4_CMD_PAGE_READ, docptr + DOC_FLASHCOMMAND);
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write_nop(docptr);
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write_addr(docptr, ((uint32_t)g4_page << 16) | g4_index);
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write_nop(docptr);
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}
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static int docg4_load_block_reliable(uint32_t flash_offset, void *dest_addr)
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{
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void __iomem *docptr = (void *)CONFIG_SYS_NAND_BASE;
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unsigned int g4_page = flash_offset >> 11; /* 2k page */
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const unsigned int last_g4_page = g4_page + 0x80; /* last in block */
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int g4_index = 0;
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uint16_t flash_status;
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uint16_t *buf;
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uint16_t discard, magic_high, magic_low;
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/* flash_offset must be aligned to the start of a block */
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if (flash_offset & 0x3ffff)
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return -1;
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writew(DOC_SEQ_RESET, docptr + DOC_FLASHSEQUENCE);
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writew(DOC_CMD_RESET, docptr + DOC_FLASHCOMMAND);
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write_nop(docptr);
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write_nop(docptr);
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poll_status(docptr);
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write_nop(docptr);
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writew(0x45, docptr + DOC_FLASHSEQUENCE);
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writew(0xa3, docptr + DOC_FLASHCOMMAND);
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write_nop(docptr);
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writew(0x22, docptr + DOC_FLASHCOMMAND);
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write_nop(docptr);
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/* read 1st 4 oob bytes of first subpage of block */
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address_sequence(g4_page, 0x0100, docptr); /* index at oob */
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write_nop(docptr);
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flash_status = readw(docptr + DOC_FLASHCONTROL);
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flash_status = readw(docptr + DOC_FLASHCONTROL);
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if (flash_status & 0x06) /* sequence or protection errors */
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return -1;
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writew(DOCG4_CMD_READ2, docptr + DOC_FLASHCOMMAND);
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write_nop(docptr);
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write_nop(docptr);
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poll_status(docptr);
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writew(DOC_ECCCONF0_READ_MODE | 4, docptr + DOC_ECCCONF0);
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write_nop(docptr);
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write_nop(docptr);
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write_nop(docptr);
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write_nop(docptr);
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write_nop(docptr);
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/*
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* Here we read the first four oob bytes of the first page of the block.
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* The IPL on the palmtreo680 requires that this contain a 32 bit magic
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* number, or the load aborts. We'll ignore it.
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*/
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discard = readw(docptr + 0x103c); /* hw quirk; 1st read discarded */
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magic_low = readw(docptr + 0x103c);
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magic_high = readw(docptr + DOCG4_MYSTERY_REG);
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writew(0, docptr + DOC_DATAEND);
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write_nop(docptr);
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write_nop(docptr);
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/* load contents of block to memory */
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buf = (uint16_t *)dest_addr;
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do {
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int i;
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address_sequence(g4_page, g4_index, docptr);
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writew(DOCG4_CMD_READ2,
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docptr + DOC_FLASHCOMMAND);
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write_nop(docptr);
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write_nop(docptr);
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poll_status(docptr);
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writew(DOC_ECCCONF0_READ_MODE |
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DOC_ECCCONF0_ECC_ENABLE |
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DOCG4_BCH_SIZE,
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docptr + DOC_ECCCONF0);
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write_nop(docptr);
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write_nop(docptr);
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write_nop(docptr);
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write_nop(docptr);
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write_nop(docptr);
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/* read the 512 bytes of page data, 2 bytes at a time */
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discard = readw(docptr + 0x103c);
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for (i = 0; i < 256; i++)
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*buf++ = readw(docptr + 0x103c);
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/* read oob, but discard it */
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for (i = 0; i < 7; i++)
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discard = readw(docptr + 0x103c);
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discard = readw(docptr + DOCG4_OOB_6_7);
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discard = readw(docptr + DOCG4_OOB_6_7);
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writew(0, docptr + DOC_DATAEND);
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write_nop(docptr);
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write_nop(docptr);
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if (!(g4_index & 0x100)) {
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/* not redundant subpage read; check for ecc error */
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write_nop(docptr);
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flash_status = readw(docptr + DOC_ECCCONF1);
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flash_status = readw(docptr + DOC_ECCCONF1);
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if (flash_status & 0x80) { /* ecc error */
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g4_index += 0x108; /* read redundant subpage */
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buf -= 256; /* back up ram ptr */
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continue;
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} else /* no ecc error */
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g4_index += 0x210; /* skip redundant subpage */
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} else /* redundant page was just read; skip ecc error check */
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g4_index += 0x108;
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if (g4_index == 0x420) { /* finished with 2k page */
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g4_index = 0;
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g4_page += 2; /* odd-numbered 2k pages skipped */
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}
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} while (g4_page != last_g4_page); /* while still on same block */
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return 0;
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}
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