#include <cfg/log.h>
#include <cfg/macros.h>
-
#include <io/sam3.h>
-
#include <drv/timer.h>
#include <drv/mt29f.h>
-
+#include <struct/heap.h>
#include <cpu/power.h> /* cpu_relax() */
#include <cpu/types.h>
#define MT29F_CSID(chip) (((chip)->chip_select << NFC_CMD_CSID_SHIFT) & NFC_CMD_CSID_MASK)
+/*
+ * Remap info written in the first page of each block
+ * used to remap bad blocks.
+ */
+struct RemapInfo
+{
+ uint32_t tag; // Magic number to detect valid info
+ uint16_t mapped_blk; // Bad block the block containing this info is remapping
+};
+
+
/*
* Translate flash page index plus a byte offset
* in the five address cycles format needed by NAND.
*cycle0 = offset & 0xff;
*cycle1234 = (page << 8) | ((offset >> 8) & 0xf);
- LOG_INFO("mt29f addr: %lx %lx\n", *cycle1234, *cycle0);
+ //LOG_INFO("mt29f addr: %lx %lx\n", *cycle1234, *cycle0);
}
return HWREG(NFC_CMD_BASE_ADDR + NFC_CMD_NFCCMD) & 0x8000000;
}
+
+/*
+ * Return true if SMC/NFC controller completed the last operations.
+ */
INLINE bool isCmdDone(void)
{
return SMC_SR & SMC_SR_CMDDONE;
}
+
+/*
+ * Wait for edge transition of READY/BUSY NAND
+ * signal.
+ * Return true for edge detection, false in case of timeout.
+ */
static bool waitReadyBusy(void)
{
time_t start = timer_clock();
/**
- * Erase the whole block containing given page.
+ * Erase the whole block.
*/
-int mt29f_blockErase(Mt29f *chip, uint32_t page)
+int mt29f_blockErase(Mt29f *chip, uint16_t block)
{
uint32_t cycle0;
uint32_t cycle1234;
- getAddrCycles(page, 0, &cycle0, &cycle1234);
+ getAddrCycles(block * MT29F_PAGES_PER_BLOCK, 0, &cycle0, &cycle1234);
sendCommand(MT29F_CSID(chip) |
NFC_CMD_NFCCMD | NFC_CMD_ACYCLE_THREE | NFC_CMD_VCMD2 |
uint32_t cycle0;
uint32_t cycle1234;
- LOG_INFO("mt29f_readPage: page 0x%lx off 0x%x\n", page, offset);
+ //LOG_INFO("mt29f_readPage: page 0x%lx off 0x%x\n", page, offset);
getAddrCycles(page, offset, &cycle0, &cycle1234);
/*
- * Write the ECC for a page.
+ * Write the spare area in a page: ECC and remap block index.
*
* ECC data are extracted from ECC_PRx registers and written
* in the page's spare area.
* For 2048 bytes pages and 1 ECC word each 256 bytes,
* 24 bytes of ECC data are stored.
*/
-static bool mt29f_writePageEcc(Mt29f *chip, uint32_t page)
+static bool mt29f_writePageSpare(Mt29f *chip, uint32_t page)
{
int i;
uint32_t *buf = (uint32_t *)NFC_SRAM_BASE_ADDR;
+ uint16_t blk = page / MT29F_PAGES_PER_BLOCK;
+ uint16_t page_in_blk = page % MT29F_PAGES_PER_BLOCK;
+ struct RemapInfo *remap_info = (struct RemapInfo *)(NFC_SRAM_BASE_ADDR + MT29F_REMAP_TAG_OFFSET);
memset((void *)NFC_SRAM_BASE_ADDR, 0xff, MT29F_SPARE_SIZE);
for (i = 0; i < MT29F_ECC_NWORDS; i++)
buf[i] = *((reg32_t *)(SMC_BASE + SMC_ECC_PR0_OFF) + i);
+ // Check for remapped block
+ if (chip->block_map[blk] != blk)
+ page = chip->block_map[blk] * MT29F_PAGES_PER_BLOCK + page_in_blk;
+
+ // Write remap tag in first page in block
+ if (page_in_blk == 0)
+ {
+ remap_info->tag = MT29F_REMAP_TAG;
+ remap_info->mapped_blk = blk;
+ }
+
return mt29f_writePage(chip, page, MT29F_DATA_SIZE);
}
{
return
mt29f_writePageData(chip, page, buf, size) &&
- mt29f_writePageEcc(chip, page);
+ mt29f_writePageSpare(chip, page);
}
}
+/*
+ * Check if the given block is marked bad: ONFI standard mandates
+ * that bad block are marked with "00" bytes on the spare area of the
+ * first page in block.
+ */
+static bool blockIsGood(Mt29f *chip, uint16_t blk)
+{
+ uint8_t *first_byte = (uint8_t *)NFC_SRAM_BASE_ADDR;
+ bool good;
+
+ // Check first byte in spare area of first page in block
+ mt29f_readPage(chip, blk * MT29F_PAGES_PER_BLOCK, MT29F_DATA_SIZE);
+ good = *first_byte == 0xFF;
+
+ if (!good)
+ LOG_INFO("mt29f: bad block %d\n", blk);
+
+ return good;
+}
+
+
+/*
+ * Return the main partition block remapped on given block in the remap
+ * partition (dest_blk).
+ */
+static int getBadBlockFromRemapBlock(Mt29f *chip, uint16_t dest_blk)
+{
+ struct RemapInfo *remap_info = (struct RemapInfo *)NFC_SRAM_BASE_ADDR;
+
+ if (!mt29f_readPage(chip, dest_blk * MT29F_PAGES_PER_BLOCK, MT29F_DATA_SIZE + MT29F_REMAP_TAG_OFFSET))
+ return -1;
+
+ if (remap_info->tag == MT29F_REMAP_TAG)
+ return remap_info->mapped_blk;
+ else
+ return -1;
+}
+
+
+/*
+ * Set a block remapping: src_blk (a block in main data partition) is remappend
+ * on dest_blk (block in reserved remapped blocks partition).
+ */
+static bool setMapping(Mt29f *chip, uint32_t src_blk, uint32_t dest_blk)
+{
+ struct RemapInfo *remap_info = (struct RemapInfo *)NFC_SRAM_BASE_ADDR;
+
+ LOG_INFO("mt29f, setMapping(): src=%ld dst=%ld\n", src_blk, dest_blk);
+
+ if (!mt29f_readPage(chip, dest_blk * MT29F_PAGES_PER_BLOCK, MT29F_DATA_SIZE + MT29F_REMAP_TAG_OFFSET))
+ return false;
+
+ remap_info->tag = MT29F_REMAP_TAG;
+ remap_info->mapped_blk = src_blk;
+
+ return mt29f_writePage(chip, dest_blk * MT29F_PAGES_PER_BLOCK, MT29F_DATA_SIZE + MT29F_REMAP_TAG_OFFSET);
+}
+
+
+/*
+ * Get a new block from the remap partition to use as a substitute
+ * for a bad block.
+ */
+static uint16_t getFreeRemapBlock(Mt29f *chip)
+{
+ int blk;
+
+ for (blk = chip->remap_start; blk < MT29F_NUM_BLOCKS; blk++)
+ {
+ if (blockIsGood(chip, blk))
+ {
+ chip->remap_start = blk + 1;
+ return blk;
+ }
+ }
+
+ LOG_ERR("mt29f: reserved blocks for bad block remapping exhausted!\n");
+ return 0;
+}
+
+
+/*
+ * Check if NAND is initialized.
+ */
+static bool chipIsMarked(Mt29f *chip)
+{
+ return getBadBlockFromRemapBlock(chip, MT29F_NUM_USER_BLOCKS) != -1;
+}
+
+
+/*
+ * Initialize NAND (format). Scan NAND for factory marked bad blocks.
+ * All bad blocks found are remapped to the remap partition: each
+ * block in the remap partition used to remap bad blocks is marked.
+ */
+static void initBlockMap(Mt29f *chip)
+{
+ unsigned b, last;
+
+ // Default is for each block to not be remapped
+ for (b = 0; b < MT29F_NUM_USER_BLOCKS; b++)
+ chip->block_map[b] = b;
+ chip->remap_start = MT29F_NUM_USER_BLOCKS;
+
+ if (chipIsMarked(chip))
+ {
+ LOG_INFO("mt29f: found initialized NAND, searching for remapped blocks\n");
+
+ // Scan for assigned blocks in remap area
+ for (b = last = MT29F_NUM_USER_BLOCKS; b < MT29F_NUM_BLOCKS; b++)
+ {
+ if (blockIsGood(chip, b))
+ {
+ int remapped_blk = getBadBlockFromRemapBlock(chip, b);
+ if (remapped_blk != -1 && remapped_blk != MT29F_NULL_REMAP)
+ {
+ LOG_INFO("mt29f: found remapped block %d->%d\n", remapped_blk, b);
+ chip->block_map[remapped_blk] = b;
+ last = b + 1;
+ }
+ }
+ }
+ chip->remap_start = last;
+ }
+ else
+ {
+ bool remapped_anything = false;
+
+ LOG_INFO("mt29f: found new NAND, searching for bad blocks\n");
+
+ for (b = 0; b < MT29F_NUM_USER_BLOCKS; b++)
+ {
+ if (!blockIsGood(chip, b))
+ {
+ chip->block_map[b] = getFreeRemapBlock(chip);
+ setMapping(chip, b, chip->block_map[b]);
+ remapped_anything = true;
+ LOG_INFO("mt29f: found new bad block %d, remapped to %d\n", b, chip->block_map[b]);
+ }
+ }
+
+ /*
+ * If no bad blocks are found (we're lucky!) write a dummy
+ * remap to mark NAND and detect we already scanned it next time.
+ */
+ if (!remapped_anything)
+ {
+ setMapping(chip, MT29F_NULL_REMAP, MT29F_NUM_USER_BLOCKS);
+ LOG_INFO("mt29f: no bad block founds, marked NAND\n");
+ }
+ }
+}
+
+
+#ifdef _DEBUG
+
+/*
+ * Erase all blocks.
+ * DON'T USE on production chips: this function will try to erase
+ * factory marked bad blocks too.
+ */
+static void mt29f_wipe(Mt29f *chip)
+{
+ int b;
+ for (b = 0; b < MT29F_NUM_BLOCKS; b++)
+ {
+ LOG_INFO("mt29f: erasing block %d\n", b);
+ mt29f_blockErase(chip, b);
+ }
+}
+
+/*
+ * Create some bad blocks, erasing them and writing the bad block mark.
+ */
+static void mt29f_ruinSomeBlocks(Mt29f *chip)
+{
+ int bads[] = { 7, 99, 555, 1003, 1004, 1432 };
+ unsigned i;
+
+ LOG_INFO("mt29f: erasing mark\n");
+ mt29f_blockErase(chip, MT29F_NUM_USER_BLOCKS);
+
+ for (i = 0; i < countof(bads); i++)
+ {
+ LOG_INFO("mt29f: erasing block %d\n", bads[i]);
+ mt29f_blockErase(chip, bads[i]);
+
+ LOG_INFO("mt29f: marking page %d as bad\n", bads[i] * MT29F_PAGES_PER_BLOCK);
+ memset((void *)NFC_SRAM_BASE_ADDR, 0, MT29F_SPARE_SIZE);
+ mt29f_writePage(chip, bads[i] * MT29F_PAGES_PER_BLOCK, MT29F_DATA_SIZE);
+ }
+}
+
+#endif
+
+
static void initPio(void)
{
/*
}
-void mt29f_init(Mt29f *chip, uint8_t chip_select)
+bool mt29f_init(Mt29f *chip, struct Heap *heap, uint8_t chip_select)
{
memset(chip, 0, sizeof(Mt29f));
chip->chip_select = chip_select;
+ chip->block_map = heap_allocmem(heap, MT29F_NUM_USER_BLOCKS * sizeof(*chip->block_map));
+ if (!chip->block_map)
+ {
+ LOG_ERR("mt29f: error allocating block map\n");
+ return false;
+ }
initPio();
initSmc();
chipReset(chip);
+ initBlockMap(chip);
+
+ return true;
}
*
* This module allows read/write access to Micron MT29F serial
* NANDs.
-* It is a block device, so it must be accessed using the KBlock
-* interface functions (see kblock.h).
-*
-* Once you have opened the flash for writing, you may want to use
-* kblock_trim() to avoid overwriting data on other flash banks.
-*
-* Example usage:
-* \code
-* Mt29f chip;
-* mt29f_init(&chip);
-* // enable access only on desired blocks
-* // start block = 50, num blocks = 20
-* kblock_trim(&chip.blk, 50, 20);
-* // ...
-* // now write to the flash
-* // block number is automatically converted
-* kblock_write(&chip.blk, 0, buf, 0, 128);
-* \endcode
*
* \author Stefano Fedrigo <aleph@develer.com>
*
* $WIZ$ module_name = "mt29f"
-* $WIZ$ module_depends = "kfile", "kfile_block", "kblock"
+* $WIZ$ module_depends = "kfile", "kfile_block", "kblock", "heap"
* $WIZ$ module_configuration = "bertos/cfg/cfg_mt29f.h"
*/
#define DRV_MT29F_H
#include "cfg/cfg_mt29f.h"
-
#include <cfg/macros.h>
-//#include <cfg/compiler.h>
-
-//#include <cpu/attr.h>
/**
*/
typedef struct Mt29f
{
- uint8_t chip_select;
- uint8_t status;
+ uint8_t chip_select;
+ uint8_t status;
+
+ uint16_t *block_map; // For bad blocks remapping
+ uint16_t remap_start; // First unused remap block
} Mt29f;
-void mt29f_init(Mt29f *chip, uint8_t chip_select);
+struct Heap;
+
+bool mt29f_init(Mt29f *chip, struct Heap *heap, uint8_t chip_select);
bool mt29f_getDevId(Mt29f *chip, uint8_t dev_id[5]);
-int mt29f_blockErase(Mt29f *chip, uint32_t blk);
+int mt29f_blockErase(Mt29f *chip, uint16_t block);
bool mt29f_read(Mt29f *chip, uint32_t page, void *buf, uint16_t size);
bool mt29f_write(Mt29f *chip, uint32_t page, const void *buf, uint16_t size);
int mt29f_error(Mt29f *chip);
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