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authorArnd Bergmann <arnd@arndb.de>2022-10-21 17:49:36 +0200
committerMiquel Raynal <miquel.raynal@bootlin.com>2022-11-07 17:14:14 +0100
commita6c5f12b0df22574f8eb02b0159bc71ac66c1a64 (patch)
tree560df74242a90e6724f90e167450a406a092163f /drivers/mtd
parent6c0a15a3dc6b45156c5b9568c8308e3f0d802af0 (diff)
mtd: remove lart flash driver
The sa1100 lart platform was removed, so its flash driver is no longer useful. Signed-off-by: Arnd Bergmann <arnd@arndb.de> Signed-off-by: Miquel Raynal <miquel.raynal@bootlin.com> Link: https://lore.kernel.org/linux-mtd/20221021155000.4108406-7-arnd@kernel.org
Diffstat (limited to 'drivers/mtd')
-rw-r--r--drivers/mtd/devices/Kconfig8
-rw-r--r--drivers/mtd/devices/Makefile1
-rw-r--r--drivers/mtd/devices/lart.c682
3 files changed, 0 insertions, 691 deletions
diff --git a/drivers/mtd/devices/Kconfig b/drivers/mtd/devices/Kconfig
index 79cb981ececc..ff2f9e55ef28 100644
--- a/drivers/mtd/devices/Kconfig
+++ b/drivers/mtd/devices/Kconfig
@@ -136,14 +136,6 @@ config MTD_PHRAM
doesn't have access to, memory beyond the mem=xxx limit, nvram,
memory on the video card, etc...
-config MTD_LART
- tristate "28F160xx flash driver for LART"
- depends on SA1100_LART
- help
- This enables the flash driver for LART. Please note that you do
- not need any mapping/chip driver for LART. This one does it all
- for you, so go disable all of those if you enabled some of them (:
-
config MTD_MTDRAM
tristate "Test driver using RAM"
help
diff --git a/drivers/mtd/devices/Makefile b/drivers/mtd/devices/Makefile
index 0362cf6bdc67..d11eb2b8b6f8 100644
--- a/drivers/mtd/devices/Makefile
+++ b/drivers/mtd/devices/Makefile
@@ -9,7 +9,6 @@ obj-$(CONFIG_MTD_PHRAM) += phram.o
obj-$(CONFIG_MTD_PMC551) += pmc551.o
obj-$(CONFIG_MTD_MS02NV) += ms02-nv.o
obj-$(CONFIG_MTD_MTDRAM) += mtdram.o
-obj-$(CONFIG_MTD_LART) += lart.o
obj-$(CONFIG_MTD_BLOCK2MTD) += block2mtd.o
obj-$(CONFIG_MTD_DATAFLASH) += mtd_dataflash.o
obj-$(CONFIG_MTD_MCHP23K256) += mchp23k256.o
diff --git a/drivers/mtd/devices/lart.c b/drivers/mtd/devices/lart.c
deleted file mode 100644
index aecd441e4183..000000000000
--- a/drivers/mtd/devices/lart.c
+++ /dev/null
@@ -1,682 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0-only
-
-/*
- * MTD driver for the 28F160F3 Flash Memory (non-CFI) on LART.
- *
- * Author: Abraham vd Merwe <abraham@2d3d.co.za>
- *
- * Copyright (c) 2001, 2d3D, Inc.
- *
- * References:
- *
- * [1] 3 Volt Fast Boot Block Flash Memory" Intel Datasheet
- * - Order Number: 290644-005
- * - January 2000
- *
- * [2] MTD internal API documentation
- * - http://www.linux-mtd.infradead.org/
- *
- * Limitations:
- *
- * Even though this driver is written for 3 Volt Fast Boot
- * Block Flash Memory, it is rather specific to LART. With
- * Minor modifications, notably the without data/address line
- * mangling and different bus settings, etc. it should be
- * trivial to adapt to other platforms.
- *
- * If somebody would sponsor me a different board, I'll
- * adapt the driver (:
- */
-
-/* debugging */
-//#define LART_DEBUG
-
-#include <linux/kernel.h>
-#include <linux/module.h>
-#include <linux/types.h>
-#include <linux/init.h>
-#include <linux/errno.h>
-#include <linux/string.h>
-#include <linux/mtd/mtd.h>
-#include <linux/mtd/partitions.h>
-
-#ifndef CONFIG_SA1100_LART
-#error This is for LART architecture only
-#endif
-
-static char module_name[] = "lart";
-
-/*
- * These values is specific to 28Fxxxx3 flash memory.
- * See section 2.3.1 in "3 Volt Fast Boot Block Flash Memory" Intel Datasheet
- */
-#define FLASH_BLOCKSIZE_PARAM (4096 * BUSWIDTH)
-#define FLASH_NUMBLOCKS_16m_PARAM 8
-#define FLASH_NUMBLOCKS_8m_PARAM 8
-
-/*
- * These values is specific to 28Fxxxx3 flash memory.
- * See section 2.3.2 in "3 Volt Fast Boot Block Flash Memory" Intel Datasheet
- */
-#define FLASH_BLOCKSIZE_MAIN (32768 * BUSWIDTH)
-#define FLASH_NUMBLOCKS_16m_MAIN 31
-#define FLASH_NUMBLOCKS_8m_MAIN 15
-
-/*
- * These values are specific to LART
- */
-
-/* general */
-#define BUSWIDTH 4 /* don't change this - a lot of the code _will_ break if you change this */
-#define FLASH_OFFSET 0xe8000000 /* see linux/arch/arm/mach-sa1100/lart.c */
-
-/* blob */
-#define NUM_BLOB_BLOCKS FLASH_NUMBLOCKS_16m_PARAM
-#define PART_BLOB_START 0x00000000
-#define PART_BLOB_LEN (NUM_BLOB_BLOCKS * FLASH_BLOCKSIZE_PARAM)
-
-/* kernel */
-#define NUM_KERNEL_BLOCKS 7
-#define PART_KERNEL_START (PART_BLOB_START + PART_BLOB_LEN)
-#define PART_KERNEL_LEN (NUM_KERNEL_BLOCKS * FLASH_BLOCKSIZE_MAIN)
-
-/* initial ramdisk */
-#define NUM_INITRD_BLOCKS 24
-#define PART_INITRD_START (PART_KERNEL_START + PART_KERNEL_LEN)
-#define PART_INITRD_LEN (NUM_INITRD_BLOCKS * FLASH_BLOCKSIZE_MAIN)
-
-/*
- * See section 4.0 in "3 Volt Fast Boot Block Flash Memory" Intel Datasheet
- */
-#define READ_ARRAY 0x00FF00FF /* Read Array/Reset */
-#define READ_ID_CODES 0x00900090 /* Read Identifier Codes */
-#define ERASE_SETUP 0x00200020 /* Block Erase */
-#define ERASE_CONFIRM 0x00D000D0 /* Block Erase and Program Resume */
-#define PGM_SETUP 0x00400040 /* Program */
-#define STATUS_READ 0x00700070 /* Read Status Register */
-#define STATUS_CLEAR 0x00500050 /* Clear Status Register */
-#define STATUS_BUSY 0x00800080 /* Write State Machine Status (WSMS) */
-#define STATUS_ERASE_ERR 0x00200020 /* Erase Status (ES) */
-#define STATUS_PGM_ERR 0x00100010 /* Program Status (PS) */
-
-/*
- * See section 4.2 in "3 Volt Fast Boot Block Flash Memory" Intel Datasheet
- */
-#define FLASH_MANUFACTURER 0x00890089
-#define FLASH_DEVICE_8mbit_TOP 0x88f188f1
-#define FLASH_DEVICE_8mbit_BOTTOM 0x88f288f2
-#define FLASH_DEVICE_16mbit_TOP 0x88f388f3
-#define FLASH_DEVICE_16mbit_BOTTOM 0x88f488f4
-
-/***************************************************************************************************/
-
-/*
- * The data line mapping on LART is as follows:
- *
- * U2 CPU | U3 CPU
- * -------------------
- * 0 20 | 0 12
- * 1 22 | 1 14
- * 2 19 | 2 11
- * 3 17 | 3 9
- * 4 24 | 4 0
- * 5 26 | 5 2
- * 6 31 | 6 7
- * 7 29 | 7 5
- * 8 21 | 8 13
- * 9 23 | 9 15
- * 10 18 | 10 10
- * 11 16 | 11 8
- * 12 25 | 12 1
- * 13 27 | 13 3
- * 14 30 | 14 6
- * 15 28 | 15 4
- */
-
-/* Mangle data (x) */
-#define DATA_TO_FLASH(x) \
- ( \
- (((x) & 0x08009000) >> 11) + \
- (((x) & 0x00002000) >> 10) + \
- (((x) & 0x04004000) >> 8) + \
- (((x) & 0x00000010) >> 4) + \
- (((x) & 0x91000820) >> 3) + \
- (((x) & 0x22080080) >> 2) + \
- ((x) & 0x40000400) + \
- (((x) & 0x00040040) << 1) + \
- (((x) & 0x00110000) << 4) + \
- (((x) & 0x00220100) << 5) + \
- (((x) & 0x00800208) << 6) + \
- (((x) & 0x00400004) << 9) + \
- (((x) & 0x00000001) << 12) + \
- (((x) & 0x00000002) << 13) \
- )
-
-/* Unmangle data (x) */
-#define FLASH_TO_DATA(x) \
- ( \
- (((x) & 0x00010012) << 11) + \
- (((x) & 0x00000008) << 10) + \
- (((x) & 0x00040040) << 8) + \
- (((x) & 0x00000001) << 4) + \
- (((x) & 0x12200104) << 3) + \
- (((x) & 0x08820020) << 2) + \
- ((x) & 0x40000400) + \
- (((x) & 0x00080080) >> 1) + \
- (((x) & 0x01100000) >> 4) + \
- (((x) & 0x04402000) >> 5) + \
- (((x) & 0x20008200) >> 6) + \
- (((x) & 0x80000800) >> 9) + \
- (((x) & 0x00001000) >> 12) + \
- (((x) & 0x00004000) >> 13) \
- )
-
-/*
- * The address line mapping on LART is as follows:
- *
- * U3 CPU | U2 CPU
- * -------------------
- * 0 2 | 0 2
- * 1 3 | 1 3
- * 2 9 | 2 9
- * 3 13 | 3 8
- * 4 8 | 4 7
- * 5 12 | 5 6
- * 6 11 | 6 5
- * 7 10 | 7 4
- * 8 4 | 8 10
- * 9 5 | 9 11
- * 10 6 | 10 12
- * 11 7 | 11 13
- *
- * BOOT BLOCK BOUNDARY
- *
- * 12 15 | 12 15
- * 13 14 | 13 14
- * 14 16 | 14 16
- *
- * MAIN BLOCK BOUNDARY
- *
- * 15 17 | 15 18
- * 16 18 | 16 17
- * 17 20 | 17 20
- * 18 19 | 18 19
- * 19 21 | 19 21
- *
- * As we can see from above, the addresses aren't mangled across
- * block boundaries, so we don't need to worry about address
- * translations except for sending/reading commands during
- * initialization
- */
-
-/* Mangle address (x) on chip U2 */
-#define ADDR_TO_FLASH_U2(x) \
- ( \
- (((x) & 0x00000f00) >> 4) + \
- (((x) & 0x00042000) << 1) + \
- (((x) & 0x0009c003) << 2) + \
- (((x) & 0x00021080) << 3) + \
- (((x) & 0x00000010) << 4) + \
- (((x) & 0x00000040) << 5) + \
- (((x) & 0x00000024) << 7) + \
- (((x) & 0x00000008) << 10) \
- )
-
-/* Unmangle address (x) on chip U2 */
-#define FLASH_U2_TO_ADDR(x) \
- ( \
- (((x) << 4) & 0x00000f00) + \
- (((x) >> 1) & 0x00042000) + \
- (((x) >> 2) & 0x0009c003) + \
- (((x) >> 3) & 0x00021080) + \
- (((x) >> 4) & 0x00000010) + \
- (((x) >> 5) & 0x00000040) + \
- (((x) >> 7) & 0x00000024) + \
- (((x) >> 10) & 0x00000008) \
- )
-
-/* Mangle address (x) on chip U3 */
-#define ADDR_TO_FLASH_U3(x) \
- ( \
- (((x) & 0x00000080) >> 3) + \
- (((x) & 0x00000040) >> 1) + \
- (((x) & 0x00052020) << 1) + \
- (((x) & 0x00084f03) << 2) + \
- (((x) & 0x00029010) << 3) + \
- (((x) & 0x00000008) << 5) + \
- (((x) & 0x00000004) << 7) \
- )
-
-/* Unmangle address (x) on chip U3 */
-#define FLASH_U3_TO_ADDR(x) \
- ( \
- (((x) << 3) & 0x00000080) + \
- (((x) << 1) & 0x00000040) + \
- (((x) >> 1) & 0x00052020) + \
- (((x) >> 2) & 0x00084f03) + \
- (((x) >> 3) & 0x00029010) + \
- (((x) >> 5) & 0x00000008) + \
- (((x) >> 7) & 0x00000004) \
- )
-
-/***************************************************************************************************/
-
-static __u8 read8 (__u32 offset)
-{
- volatile __u8 *data = (__u8 *) (FLASH_OFFSET + offset);
-#ifdef LART_DEBUG
- printk (KERN_DEBUG "%s(): 0x%.8x -> 0x%.2x\n", __func__, offset, *data);
-#endif
- return (*data);
-}
-
-static __u32 read32 (__u32 offset)
-{
- volatile __u32 *data = (__u32 *) (FLASH_OFFSET + offset);
-#ifdef LART_DEBUG
- printk (KERN_DEBUG "%s(): 0x%.8x -> 0x%.8x\n", __func__, offset, *data);
-#endif
- return (*data);
-}
-
-static void write32 (__u32 x,__u32 offset)
-{
- volatile __u32 *data = (__u32 *) (FLASH_OFFSET + offset);
- *data = x;
-#ifdef LART_DEBUG
- printk (KERN_DEBUG "%s(): 0x%.8x <- 0x%.8x\n", __func__, offset, *data);
-#endif
-}
-
-/***************************************************************************************************/
-
-/*
- * Probe for 16mbit flash memory on a LART board without doing
- * too much damage. Since we need to write 1 dword to memory,
- * we're f**cked if this happens to be DRAM since we can't
- * restore the memory (otherwise we might exit Read Array mode).
- *
- * Returns 1 if we found 16mbit flash memory on LART, 0 otherwise.
- */
-static int flash_probe (void)
-{
- __u32 manufacturer,devtype;
-
- /* setup "Read Identifier Codes" mode */
- write32 (DATA_TO_FLASH (READ_ID_CODES),0x00000000);
-
- /* probe U2. U2/U3 returns the same data since the first 3
- * address lines is mangled in the same way */
- manufacturer = FLASH_TO_DATA (read32 (ADDR_TO_FLASH_U2 (0x00000000)));
- devtype = FLASH_TO_DATA (read32 (ADDR_TO_FLASH_U2 (0x00000001)));
-
- /* put the flash back into command mode */
- write32 (DATA_TO_FLASH (READ_ARRAY),0x00000000);
-
- return (manufacturer == FLASH_MANUFACTURER && (devtype == FLASH_DEVICE_16mbit_TOP || devtype == FLASH_DEVICE_16mbit_BOTTOM));
-}
-
-/*
- * Erase one block of flash memory at offset ``offset'' which is any
- * address within the block which should be erased.
- *
- * Returns 1 if successful, 0 otherwise.
- */
-static inline int erase_block (__u32 offset)
-{
- __u32 status;
-
-#ifdef LART_DEBUG
- printk (KERN_DEBUG "%s(): 0x%.8x\n", __func__, offset);
-#endif
-
- /* erase and confirm */
- write32 (DATA_TO_FLASH (ERASE_SETUP),offset);
- write32 (DATA_TO_FLASH (ERASE_CONFIRM),offset);
-
- /* wait for block erase to finish */
- do
- {
- write32 (DATA_TO_FLASH (STATUS_READ),offset);
- status = FLASH_TO_DATA (read32 (offset));
- }
- while ((~status & STATUS_BUSY) != 0);
-
- /* put the flash back into command mode */
- write32 (DATA_TO_FLASH (READ_ARRAY),offset);
-
- /* was the erase successful? */
- if ((status & STATUS_ERASE_ERR))
- {
- printk (KERN_WARNING "%s: erase error at address 0x%.8x.\n",module_name,offset);
- return (0);
- }
-
- return (1);
-}
-
-static int flash_erase (struct mtd_info *mtd,struct erase_info *instr)
-{
- __u32 addr,len;
- int i,first;
-
-#ifdef LART_DEBUG
- printk (KERN_DEBUG "%s(addr = 0x%.8x, len = %d)\n", __func__, instr->addr, instr->len);
-#endif
-
- /*
- * check that both start and end of the requested erase are
- * aligned with the erasesize at the appropriate addresses.
- *
- * skip all erase regions which are ended before the start of
- * the requested erase. Actually, to save on the calculations,
- * we skip to the first erase region which starts after the
- * start of the requested erase, and then go back one.
- */
- for (i = 0; i < mtd->numeraseregions && instr->addr >= mtd->eraseregions[i].offset; i++) ;
- i--;
-
- /*
- * ok, now i is pointing at the erase region in which this
- * erase request starts. Check the start of the requested
- * erase range is aligned with the erase size which is in
- * effect here.
- */
- if (i < 0 || (instr->addr & (mtd->eraseregions[i].erasesize - 1)))
- return -EINVAL;
-
- /* Remember the erase region we start on */
- first = i;
-
- /*
- * next, check that the end of the requested erase is aligned
- * with the erase region at that address.
- *
- * as before, drop back one to point at the region in which
- * the address actually falls
- */
- for (; i < mtd->numeraseregions && instr->addr + instr->len >= mtd->eraseregions[i].offset; i++) ;
- i--;
-
- /* is the end aligned on a block boundary? */
- if (i < 0 || ((instr->addr + instr->len) & (mtd->eraseregions[i].erasesize - 1)))
- return -EINVAL;
-
- addr = instr->addr;
- len = instr->len;
-
- i = first;
-
- /* now erase those blocks */
- while (len)
- {
- if (!erase_block (addr))
- return (-EIO);
-
- addr += mtd->eraseregions[i].erasesize;
- len -= mtd->eraseregions[i].erasesize;
-
- if (addr == mtd->eraseregions[i].offset + (mtd->eraseregions[i].erasesize * mtd->eraseregions[i].numblocks)) i++;
- }
-
- return (0);
-}
-
-static int flash_read (struct mtd_info *mtd,loff_t from,size_t len,size_t *retlen,u_char *buf)
-{
-#ifdef LART_DEBUG
- printk (KERN_DEBUG "%s(from = 0x%.8x, len = %d)\n", __func__, (__u32)from, len);
-#endif
-
- /* we always read len bytes */
- *retlen = len;
-
- /* first, we read bytes until we reach a dword boundary */
- if (from & (BUSWIDTH - 1))
- {
- int gap = BUSWIDTH - (from & (BUSWIDTH - 1));
-
- while (len && gap--) {
- *buf++ = read8 (from++);
- len--;
- }
- }
-
- /* now we read dwords until we reach a non-dword boundary */
- while (len >= BUSWIDTH)
- {
- *((__u32 *) buf) = read32 (from);
-
- buf += BUSWIDTH;
- from += BUSWIDTH;
- len -= BUSWIDTH;
- }
-
- /* top up the last unaligned bytes */
- if (len & (BUSWIDTH - 1))
- while (len--) *buf++ = read8 (from++);
-
- return (0);
-}
-
-/*
- * Write one dword ``x'' to flash memory at offset ``offset''. ``offset''
- * must be 32 bits, i.e. it must be on a dword boundary.
- *
- * Returns 1 if successful, 0 otherwise.
- */
-static inline int write_dword (__u32 offset,__u32 x)
-{
- __u32 status;
-
-#ifdef LART_DEBUG
- printk (KERN_DEBUG "%s(): 0x%.8x <- 0x%.8x\n", __func__, offset, x);
-#endif
-
- /* setup writing */
- write32 (DATA_TO_FLASH (PGM_SETUP),offset);
-
- /* write the data */
- write32 (x,offset);
-
- /* wait for the write to finish */
- do
- {
- write32 (DATA_TO_FLASH (STATUS_READ),offset);
- status = FLASH_TO_DATA (read32 (offset));
- }
- while ((~status & STATUS_BUSY) != 0);
-
- /* put the flash back into command mode */
- write32 (DATA_TO_FLASH (READ_ARRAY),offset);
-
- /* was the write successful? */
- if ((status & STATUS_PGM_ERR) || read32 (offset) != x)
- {
- printk (KERN_WARNING "%s: write error at address 0x%.8x.\n",module_name,offset);
- return (0);
- }
-
- return (1);
-}
-
-static int flash_write (struct mtd_info *mtd,loff_t to,size_t len,size_t *retlen,const u_char *buf)
-{
- __u8 tmp[4];
- int i,n;
-
-#ifdef LART_DEBUG
- printk (KERN_DEBUG "%s(to = 0x%.8x, len = %d)\n", __func__, (__u32)to, len);
-#endif
-
- /* sanity checks */
- if (!len) return (0);
-
- /* first, we write a 0xFF.... padded byte until we reach a dword boundary */
- if (to & (BUSWIDTH - 1))
- {
- __u32 aligned = to & ~(BUSWIDTH - 1);
- int gap = to - aligned;
-
- i = n = 0;
-
- while (gap--) tmp[i++] = 0xFF;
- while (len && i < BUSWIDTH) {
- tmp[i++] = buf[n++];
- len--;
- }
- while (i < BUSWIDTH) tmp[i++] = 0xFF;
-
- if (!write_dword (aligned,*((__u32 *) tmp))) return (-EIO);
-
- to += n;
- buf += n;
- *retlen += n;
- }
-
- /* now we write dwords until we reach a non-dword boundary */
- while (len >= BUSWIDTH)
- {
- if (!write_dword (to,*((__u32 *) buf))) return (-EIO);
-
- to += BUSWIDTH;
- buf += BUSWIDTH;
- *retlen += BUSWIDTH;
- len -= BUSWIDTH;
- }
-
- /* top up the last unaligned bytes, padded with 0xFF.... */
- if (len & (BUSWIDTH - 1))
- {
- i = n = 0;
-
- while (len--) tmp[i++] = buf[n++];
- while (i < BUSWIDTH) tmp[i++] = 0xFF;
-
- if (!write_dword (to,*((__u32 *) tmp))) return (-EIO);
-
- *retlen += n;
- }
-
- return (0);
-}
-
-/***************************************************************************************************/
-
-static struct mtd_info mtd;
-
-static struct mtd_erase_region_info erase_regions[] = {
- /* parameter blocks */
- {
- .offset = 0x00000000,
- .erasesize = FLASH_BLOCKSIZE_PARAM,
- .numblocks = FLASH_NUMBLOCKS_16m_PARAM,
- },
- /* main blocks */
- {
- .offset = FLASH_BLOCKSIZE_PARAM * FLASH_NUMBLOCKS_16m_PARAM,
- .erasesize = FLASH_BLOCKSIZE_MAIN,
- .numblocks = FLASH_NUMBLOCKS_16m_MAIN,
- }
-};
-
-static const struct mtd_partition lart_partitions[] = {
- /* blob */
- {
- .name = "blob",
- .offset = PART_BLOB_START,
- .size = PART_BLOB_LEN,
- },
- /* kernel */
- {
- .name = "kernel",
- .offset = PART_KERNEL_START, /* MTDPART_OFS_APPEND */
- .size = PART_KERNEL_LEN,
- },
- /* initial ramdisk / file system */
- {
- .name = "file system",
- .offset = PART_INITRD_START, /* MTDPART_OFS_APPEND */
- .size = PART_INITRD_LEN, /* MTDPART_SIZ_FULL */
- }
-};
-#define NUM_PARTITIONS ARRAY_SIZE(lart_partitions)
-
-static int __init lart_flash_init (void)
-{
- int result;
- memset (&mtd,0,sizeof (mtd));
- printk ("MTD driver for LART. Written by Abraham vd Merwe <abraham@2d3d.co.za>\n");
- printk ("%s: Probing for 28F160x3 flash on LART...\n",module_name);
- if (!flash_probe ())
- {
- printk (KERN_WARNING "%s: Found no LART compatible flash device\n",module_name);
- return (-ENXIO);
- }
- printk ("%s: This looks like a LART board to me.\n",module_name);
- mtd.name = module_name;
- mtd.type = MTD_NORFLASH;
- mtd.writesize = 1;
- mtd.writebufsize = 4;
- mtd.flags = MTD_CAP_NORFLASH;
- mtd.size = FLASH_BLOCKSIZE_PARAM * FLASH_NUMBLOCKS_16m_PARAM + FLASH_BLOCKSIZE_MAIN * FLASH_NUMBLOCKS_16m_MAIN;
- mtd.erasesize = FLASH_BLOCKSIZE_MAIN;
- mtd.numeraseregions = ARRAY_SIZE(erase_regions);
- mtd.eraseregions = erase_regions;
- mtd._erase = flash_erase;
- mtd._read = flash_read;
- mtd._write = flash_write;
- mtd.owner = THIS_MODULE;
-
-#ifdef LART_DEBUG
- printk (KERN_DEBUG
- "mtd.name = %s\n"
- "mtd.size = 0x%.8x (%uM)\n"
- "mtd.erasesize = 0x%.8x (%uK)\n"
- "mtd.numeraseregions = %d\n",
- mtd.name,
- mtd.size,mtd.size / (1024*1024),
- mtd.erasesize,mtd.erasesize / 1024,
- mtd.numeraseregions);
-
- if (mtd.numeraseregions)
- for (result = 0; result < mtd.numeraseregions; result++)
- printk (KERN_DEBUG
- "\n\n"
- "mtd.eraseregions[%d].offset = 0x%.8x\n"
- "mtd.eraseregions[%d].erasesize = 0x%.8x (%uK)\n"
- "mtd.eraseregions[%d].numblocks = %d\n",
- result,mtd.eraseregions[result].offset,
- result,mtd.eraseregions[result].erasesize,mtd.eraseregions[result].erasesize / 1024,
- result,mtd.eraseregions[result].numblocks);
-
- printk ("\npartitions = %d\n", ARRAY_SIZE(lart_partitions));
-
- for (result = 0; result < ARRAY_SIZE(lart_partitions); result++)
- printk (KERN_DEBUG
- "\n\n"
- "lart_partitions[%d].name = %s\n"
- "lart_partitions[%d].offset = 0x%.8x\n"
- "lart_partitions[%d].size = 0x%.8x (%uK)\n",
- result,lart_partitions[result].name,
- result,lart_partitions[result].offset,
- result,lart_partitions[result].size,lart_partitions[result].size / 1024);
-#endif
-
- result = mtd_device_register(&mtd, lart_partitions,
- ARRAY_SIZE(lart_partitions));
-
- return (result);
-}
-
-static void __exit lart_flash_exit (void)
-{
- mtd_device_unregister(&mtd);
-}
-
-module_init (lart_flash_init);
-module_exit (lart_flash_exit);
-
-MODULE_LICENSE("GPL");
-MODULE_AUTHOR("Abraham vd Merwe <abraham@2d3d.co.za>");
-MODULE_DESCRIPTION("MTD driver for Intel 28F160F3 on LART board");