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Message-Id: <72519df9fab2995bd91c2d0bb88294f748b5a86c.1196848533.git.jesper.nilsson@axis.com>
Date:	Fri, 30 Nov 2007 16:01:53 +0100
From:	Jesper Nilsson <jesper.nilsson@...s.com>
To:	Andrew Morton <akpm@...ux-foundation.org>,
	Mikael Starvik <mikael.starvik@...s.com>,
	Jesper Nilsson <jesper.nilsson@...s.com>,
	linux-kernel@...r.kernel.org
Subject: [PATCH 22/47] Update and improve axisflashmap for CRISv32.

- Use default partition table when no partition is found (for initial tests)
- Add config ETRAX_AXISFLASHMAP_MTD0WHOLE to allow whole flash as mtd0.
- Add config for VCS simulator connection.

Signed-off-by: Jesper Nilsson <jesper.nilsson@...s.com>
---
 arch/cris/arch-v32/drivers/axisflashmap.c |  488 ++++++++++++++++++++---------
 1 files changed, 345 insertions(+), 143 deletions(-)

diff --git a/arch/cris/arch-v32/drivers/axisflashmap.c b/arch/cris/arch-v32/drivers/axisflashmap.c
index c5ff95e..51e1e85 100644
--- a/arch/cris/arch-v32/drivers/axisflashmap.c
+++ b/arch/cris/arch-v32/drivers/axisflashmap.c
@@ -1,7 +1,7 @@
 /*
  * Physical mapping layer for MTD using the Axis partitiontable format
  *
- * Copyright (c) 2001, 2002, 2003 Axis Communications AB
+ * Copyright (c) 2001-2007 Axis Communications AB
  *
  * This file is under the GPL.
  *
@@ -10,9 +10,6 @@
  * tells us what other partitions to define. If there isn't, we use a default
  * partition split defined below.
  *
- * Copy of os/lx25/arch/cris/arch-v10/drivers/axisflashmap.c 1.5
- * with minor changes.
- *
  */
 
 #include <linux/module.h>
@@ -27,7 +24,8 @@
 #include <linux/mtd/mtdram.h>
 #include <linux/mtd/partitions.h>
 
-#include <asm/arch/hwregs/config_defs.h>
+#include <linux/cramfs_fs.h>
+
 #include <asm/axisflashmap.h>
 #include <asm/mmu.h>
 
@@ -37,16 +35,24 @@
 #define FLASH_UNCACHED_ADDR  KSEG_E
 #define FLASH_CACHED_ADDR    KSEG_F
 
+#define PAGESIZE (512)
+
 #if CONFIG_ETRAX_FLASH_BUSWIDTH==1
 #define flash_data __u8
 #elif CONFIG_ETRAX_FLASH_BUSWIDTH==2
 #define flash_data __u16
 #elif CONFIG_ETRAX_FLASH_BUSWIDTH==4
-#define flash_data __u16
+#define flash_data __u32
 #endif
 
 /* From head.S */
-extern unsigned long romfs_start, romfs_length, romfs_in_flash;
+extern unsigned long romfs_in_flash; /* 1 when romfs_start, _length in flash */
+extern unsigned long romfs_start, romfs_length;
+extern unsigned long nand_boot; /* 1 when booted from nand flash */
+
+struct partition_name {
+	char name[6];
+};
 
 /* The master mtd for the entire flash. */
 struct mtd_info* axisflash_mtd = NULL;
@@ -112,32 +118,20 @@ static struct map_info map_cse1 = {
 	.map_priv_1 = FLASH_UNCACHED_ADDR + MEM_CSE0_SIZE
 };
 
-/* If no partition-table was found, we use this default-set. */
-#define MAX_PARTITIONS         7
-#define NUM_DEFAULT_PARTITIONS 3
+#define MAX_PARTITIONS			7
+#ifdef CONFIG_ETRAX_NANDBOOT
+#define NUM_DEFAULT_PARTITIONS		4
+#define DEFAULT_ROOTFS_PARTITION_NO	2
+#define DEFAULT_MEDIA_SIZE              0x2000000 /* 32 megs */
+#else
+#define NUM_DEFAULT_PARTITIONS		3
+#define DEFAULT_ROOTFS_PARTITION_NO	(-1)
+#define DEFAULT_MEDIA_SIZE              0x800000 /* 8 megs */
+#endif
 
-/*
- * Default flash size is 2MB. CONFIG_ETRAX_PTABLE_SECTOR is most likely the
- * size of one flash block and "filesystem"-partition needs 5 blocks to be able
- * to use JFFS.
- */
-static struct mtd_partition axis_default_partitions[NUM_DEFAULT_PARTITIONS] = {
-	{
-		.name = "boot firmware",
-		.size = CONFIG_ETRAX_PTABLE_SECTOR,
-		.offset = 0
-	},
-	{
-		.name = "kernel",
-		.size = 0x200000 - (6 * CONFIG_ETRAX_PTABLE_SECTOR),
-		.offset = CONFIG_ETRAX_PTABLE_SECTOR
-	},
-	{
-		.name = "filesystem",
-		.size = 5 * CONFIG_ETRAX_PTABLE_SECTOR,
-		.offset = 0x200000 - (5 * CONFIG_ETRAX_PTABLE_SECTOR)
-	}
-};
+#if (MAX_PARTITIONS < NUM_DEFAULT_PARTITIONS)
+#error MAX_PARTITIONS must be >= than NUM_DEFAULT_PARTITIONS
+#endif
 
 /* Initialize the ones normally used. */
 static struct mtd_partition axis_partitions[MAX_PARTITIONS] = {
@@ -178,6 +172,56 @@ static struct mtd_partition axis_partitions[MAX_PARTITIONS] = {
 	},
 };
 
+
+/* If no partition-table was found, we use this default-set.
+ * Default flash size is 8MB (NOR). CONFIG_ETRAX_PTABLE_SECTOR is most
+ * likely the size of one flash block and "filesystem"-partition needs
+ * to be >=5 blocks to be able to use JFFS.
+ */
+static struct mtd_partition axis_default_partitions[NUM_DEFAULT_PARTITIONS] = {
+	{
+		.name = "boot firmware",
+		.size = CONFIG_ETRAX_PTABLE_SECTOR,
+		.offset = 0
+	},
+	{
+		.name = "kernel",
+		.size = 10 * CONFIG_ETRAX_PTABLE_SECTOR,
+		.offset = CONFIG_ETRAX_PTABLE_SECTOR
+	},
+#define FILESYSTEM_SECTOR (11 * CONFIG_ETRAX_PTABLE_SECTOR)
+#ifdef CONFIG_ETRAX_NANDBOOT
+	{
+		.name = "rootfs",
+		.size = 10 * CONFIG_ETRAX_PTABLE_SECTOR,
+		.offset = FILESYSTEM_SECTOR
+	},
+#undef FILESYSTEM_SECTOR
+#define FILESYSTEM_SECTOR (21 * CONFIG_ETRAX_PTABLE_SECTOR)
+#endif
+	{
+		.name = "rwfs",
+		.size = DEFAULT_MEDIA_SIZE - FILESYSTEM_SECTOR,
+		.offset = FILESYSTEM_SECTOR
+	}
+};
+
+#ifdef CONFIG_ETRAX_AXISFLASHMAP_MTD0WHOLE
+/* Main flash device */
+static struct mtd_partition main_partition = {
+	.name = "main",
+	.size = 0,
+	.offset = 0
+};
+#endif
+
+/* Auxilliary partition if we find another flash */
+static struct mtd_partition aux_partition = {
+	.name = "aux",
+	.size = 0,
+	.offset = 0
+};
+
 /*
  * Probe a chip select for AMD-compatible (JEDEC) or CFI-compatible flash
  * chips in that order (because the amd_flash-driver is faster).
@@ -191,7 +235,7 @@ static struct mtd_info *probe_cs(struct map_info *map_cs)
 	       map_cs->name, map_cs->size, map_cs->map_priv_1);
 
 #ifdef CONFIG_MTD_CFI
-		mtd_cs = do_map_probe("cfi_probe", map_cs);
+	mtd_cs = do_map_probe("cfi_probe", map_cs);
 #endif
 #ifdef CONFIG_MTD_JEDECPROBE
 	if (!mtd_cs)
@@ -204,7 +248,7 @@ static struct mtd_info *probe_cs(struct map_info *map_cs)
 /*
  * Probe each chip select individually for flash chips. If there are chips on
  * both cse0 and cse1, the mtd_info structs will be concatenated to one struct
- * so that MTD partitions can cross chip boundaries.
+ * so that MTD partitions can cross chip boundries.
  *
  * The only known restriction to how you can mount your chips is that each
  * chip select must hold similar flash chips. But you need external hardware
@@ -216,9 +260,8 @@ static struct mtd_info *flash_probe(void)
 {
 	struct mtd_info *mtd_cse0;
 	struct mtd_info *mtd_cse1;
-	struct mtd_info *mtd_nand = NULL;
 	struct mtd_info *mtd_total;
-	struct mtd_info *mtds[3];
+	struct mtd_info *mtds[2];
 	int count = 0;
 
 	if ((mtd_cse0 = probe_cs(&map_cse0)) != NULL)
@@ -226,12 +269,7 @@ static struct mtd_info *flash_probe(void)
 	if ((mtd_cse1 = probe_cs(&map_cse1)) != NULL)
 		mtds[count++] = mtd_cse1;
 
-#ifdef CONFIG_ETRAX_NANDFLASH
-	if ((mtd_nand = crisv32_nand_flash_probe()) != NULL)
-		mtds[count++] = mtd_nand;
-#endif
-
-	if (!mtd_cse0 && !mtd_cse1 && !mtd_nand) {
+	if (!mtd_cse0 && !mtd_cse1) {
 		/* No chip found. */
 		return NULL;
 	}
@@ -245,9 +283,7 @@ static struct mtd_info *flash_probe(void)
 		 * So we use the MTD concatenation layer instead of further
 		 * complicating the probing procedure.
 		 */
-		mtd_total = mtd_concat_create(mtds,
-		                              count,
-		                              "cse0+cse1+nand");
+		mtd_total = mtd_concat_create(mtds, count, "cse0+cse1");
 #else
 		printk(KERN_ERR "%s and %s: Cannot concatenate due to kernel "
 		       "(mis)configuration!\n", map_cse0.name, map_cse1.name);
@@ -255,61 +291,162 @@ static struct mtd_info *flash_probe(void)
 #endif
 		if (!mtd_total) {
 			printk(KERN_ERR "%s and %s: Concatenation failed!\n",
-			       map_cse0.name, map_cse1.name);
+				map_cse0.name, map_cse1.name);
 
 			/* The best we can do now is to only use what we found
-			 * at cse0.
-			 */
+			 * at cse0. */
 			mtd_total = mtd_cse0;
 			map_destroy(mtd_cse1);
 		}
-	} else {
-		mtd_total = mtd_cse0? mtd_cse0 : mtd_cse1 ? mtd_cse1 : mtd_nand;
-
-	}
+	} else
+		mtd_total = mtd_cse0 ? mtd_cse0 : mtd_cse1;
 
 	return mtd_total;
 }
 
-extern unsigned long crisv32_nand_boot;
-extern unsigned long crisv32_nand_cramfs_offset;
-
 /*
  * Probe the flash chip(s) and, if it succeeds, read the partition-table
  * and register the partitions with MTD.
  */
 static int __init init_axis_flash(void)
 {
-	struct mtd_info *mymtd;
+	struct mtd_info *main_mtd;
+	struct mtd_info *aux_mtd = NULL;
 	int err = 0;
 	int pidx = 0;
 	struct partitiontable_head *ptable_head = NULL;
 	struct partitiontable_entry *ptable;
-	int use_default_ptable = 1; /* Until proven otherwise. */
-	const char *pmsg = KERN_INFO "  /dev/flash%d at 0x%08x, size 0x%08x\n";
-	static char page[512];
+	int ptable_ok = 0;
+	static char page[PAGESIZE];
 	size_t len;
+	int ram_rootfs_partition = -1; /* -1 => no RAM rootfs partition */
+	int part;
+
+	/* We need a root fs. If it resides in RAM, we need to use an
+	 * MTDRAM device, so it must be enabled in the kernel config,
+	 * but its size must be configured as 0 so as not to conflict
+	 * with our usage.
+	 */
+#if !defined(CONFIG_MTD_MTDRAM) || (CONFIG_MTDRAM_TOTAL_SIZE != 0) || (CONFIG_MTDRAM_ABS_POS != 0)
+	if (!romfs_in_flash && !nand_boot) {
+		printk(KERN_EMERG "axisflashmap: Cannot create an MTD RAM "
+		       "device; configure CONFIG_MTD_MTDRAM with size = 0!\n");
+		panic("This kernel cannot boot from RAM!\n");
+	}
+#endif
+
+#ifndef CONFIG_ETRAX_VCS_SIM
+	main_mtd = flash_probe();
+	if (main_mtd)
+		printk(KERN_INFO "%s: 0x%08x bytes of NOR flash memory.\n",
+		       main_mtd->name, main_mtd->size);
+
+#ifdef CONFIG_ETRAX_NANDFLASH
+	aux_mtd = crisv32_nand_flash_probe();
+	if (aux_mtd)
+		printk(KERN_INFO "%s: 0x%08x bytes of NAND flash memory.\n",
+			aux_mtd->name, aux_mtd->size);
+
+#ifdef CONFIG_ETRAX_NANDBOOT
+	{
+		struct mtd_info *tmp_mtd;
 
-#ifndef CONFIG_ETRAXFS_SIM
-	mymtd = flash_probe();
-	mymtd->read(mymtd, CONFIG_ETRAX_PTABLE_SECTOR, 512, &len, page);
-	ptable_head = (struct partitiontable_head *)(page + PARTITION_TABLE_OFFSET);
+		printk(KERN_INFO "axisflashmap: Set to boot from NAND flash, "
+		       "making NAND flash primary device.\n");
+		tmp_mtd = main_mtd;
+		main_mtd = aux_mtd;
+		aux_mtd = tmp_mtd;
+	}
+#endif /* CONFIG_ETRAX_NANDBOOT */
+#endif /* CONFIG_ETRAX_NANDFLASH */
 
-	if (!mymtd) {
+	if (!main_mtd && !aux_mtd) {
 		/* There's no reason to use this module if no flash chip can
 		 * be identified. Make sure that's understood.
 		 */
 		printk(KERN_INFO "axisflashmap: Found no flash chip.\n");
-	} else {
-		printk(KERN_INFO "%s: 0x%08x bytes of flash memory.\n",
-		       mymtd->name, mymtd->size);
-		axisflash_mtd = mymtd;
 	}
 
-	if (mymtd) {
-		mymtd->owner = THIS_MODULE;
+#if 0 /* Dump flash memory so we can see what is going on */
+	if (main_mtd) {
+		int sectoraddr, i;
+		for (sectoraddr = 0; sectoraddr < 2*65536+4096;
+				sectoraddr += PAGESIZE) {
+			main_mtd->read(main_mtd, sectoraddr, PAGESIZE, &len,
+				page);
+			printk(KERN_INFO
+			       "Sector at %d (length %d):\n",
+			       sectoraddr, len);
+			for (i = 0; i < PAGESIZE; i += 16) {
+				printk(KERN_INFO
+				       "%02x %02x %02x %02x "
+				       "%02x %02x %02x %02x "
+				       "%02x %02x %02x %02x "
+				       "%02x %02x %02x %02x\n",
+				       page[i] & 255, page[i+1] & 255,
+				       page[i+2] & 255, page[i+3] & 255,
+				       page[i+4] & 255, page[i+5] & 255,
+				       page[i+6] & 255, page[i+7] & 255,
+				       page[i+8] & 255, page[i+9] & 255,
+				       page[i+10] & 255, page[i+11] & 255,
+				       page[i+12] & 255, page[i+13] & 255,
+				       page[i+14] & 255, page[i+15] & 255);
+			}
+		}
+	}
+#endif
+
+	if (main_mtd) {
+		main_mtd->owner = THIS_MODULE;
+		axisflash_mtd = main_mtd;
+
+		loff_t ptable_sector = CONFIG_ETRAX_PTABLE_SECTOR;
+
+		/* First partition (rescue) is always set to the default. */
+		pidx++;
+#ifdef CONFIG_ETRAX_NANDBOOT
+		/* We know where the partition table should be located,
+		 * it will be in first good block after that.
+		 */
+		int blockstat;
+		do {
+			blockstat = main_mtd->block_isbad(main_mtd,
+				ptable_sector);
+			if (blockstat < 0)
+				ptable_sector = 0; /* read error */
+			else if (blockstat)
+				ptable_sector += main_mtd->erasesize;
+		} while (blockstat && ptable_sector);
+#endif
+		if (ptable_sector) {
+			main_mtd->read(main_mtd, ptable_sector, PAGESIZE,
+				&len, page);
+			ptable_head = &((struct partitiontable *) page)->head;
+		}
+
+#if 0 /* Dump partition table so we can see what is going on */
+		printk(KERN_INFO
+		       "axisflashmap: flash read %d bytes at 0x%08x, data: "
+		       "%02x %02x %02x %02x %02x %02x %02x %02x\n",
+		       len, CONFIG_ETRAX_PTABLE_SECTOR,
+		       page[0] & 255, page[1] & 255,
+		       page[2] & 255, page[3] & 255,
+		       page[4] & 255, page[5] & 255,
+		       page[6] & 255, page[7] & 255);
+		printk(KERN_INFO
+		       "axisflashmap: partition table offset %d, data: "
+		       "%02x %02x %02x %02x %02x %02x %02x %02x\n",
+		       PARTITION_TABLE_OFFSET,
+		       page[PARTITION_TABLE_OFFSET+0] & 255,
+		       page[PARTITION_TABLE_OFFSET+1] & 255,
+		       page[PARTITION_TABLE_OFFSET+2] & 255,
+		       page[PARTITION_TABLE_OFFSET+3] & 255,
+		       page[PARTITION_TABLE_OFFSET+4] & 255,
+		       page[PARTITION_TABLE_OFFSET+5] & 255,
+		       page[PARTITION_TABLE_OFFSET+6] & 255,
+		       page[PARTITION_TABLE_OFFSET+7] & 255);
+#endif
 	}
-	pidx++;  /* First partition is always set to the default. */
 
 	if (ptable_head && (ptable_head->magic == PARTITION_TABLE_MAGIC)
 	    && (ptable_head->size <
@@ -322,7 +459,6 @@ static int __init init_axis_flash(void)
 		/* Looks like a start, sane length and end of a
 		 * partition table, lets check csum etc.
 		 */
-		int ptable_ok = 0;
 		struct partitiontable_entry *max_addr =
 			(struct partitiontable_entry *)
 			((unsigned long)ptable_head + sizeof(*ptable_head) +
@@ -346,104 +482,170 @@ static int __init init_axis_flash(void)
 		ptable_ok = (csum == ptable_head->checksum);
 
 		/* Read the entries and use/show the info.  */
-		printk(KERN_INFO " Found a%s partition table at 0x%p-0x%p.\n",
+		printk(KERN_INFO "axisflashmap: "
+		       "Found a%s partition table at 0x%p-0x%p.\n",
 		       (ptable_ok ? " valid" : "n invalid"), ptable_head,
 		       max_addr);
 
 		/* We have found a working bootblock.  Now read the
-		 * partition table.  Scan the table.  It ends when
-		 * there is 0xffffffff, that is, empty flash.
+		 * partition table.  Scan the table.  It ends with 0xffffffff.
 		 */
 		while (ptable_ok
-		       && ptable->offset != 0xffffffff
+		       && ptable->offset != PARTITIONTABLE_END_MARKER
 		       && ptable < max_addr
-		       && pidx < MAX_PARTITIONS) {
+		       && pidx < MAX_PARTITIONS - 1) {
 
-			axis_partitions[pidx].offset = offset + ptable->offset + (crisv32_nand_boot ? 16384 : 0);
-			axis_partitions[pidx].size = ptable->size;
-
-			printk(pmsg, pidx, axis_partitions[pidx].offset,
-			       axis_partitions[pidx].size);
+			axis_partitions[pidx].offset = offset + ptable->offset;
+#ifdef CONFIG_ETRAX_NANDFLASH
+			if (main_mtd->type == MTD_NANDFLASH) {
+				axis_partitions[pidx].size =
+					(((ptable+1)->offset ==
+					  PARTITIONTABLE_END_MARKER) ?
+					  main_mtd->size :
+					  ((ptable+1)->offset + offset)) -
+					(ptable->offset + offset);
+
+			} else
+#endif /* CONFIG_ETRAX_NANDFLASH */
+				axis_partitions[pidx].size = ptable->size;
+#ifdef CONFIG_ETRAX_NANDBOOT
+			/* Save partition number of jffs2 ro partition.
+			 * Needed if RAM booting or root file system in RAM.
+			 */
+			if (!nand_boot &&
+			    ram_rootfs_partition < 0 && /* not already set */
+			    ptable->type == PARTITION_TYPE_JFFS2 &&
+			    (ptable->flags & PARTITION_FLAGS_READONLY_MASK) ==
+				PARTITION_FLAGS_READONLY)
+				ram_rootfs_partition = pidx;
+#endif /* CONFIG_ETRAX_NANDBOOT */
 			pidx++;
 			ptable++;
 		}
-		use_default_ptable = !ptable_ok;
 	}
 
-	if (romfs_in_flash) {
-		/* Add an overlapping device for the root partition (romfs). */
+	/* Decide whether to use default partition table. */
+	/* Only use default table if we actually have a device (main_mtd) */
 
-		axis_partitions[pidx].name = "romfs";
-		if (crisv32_nand_boot) {
-			char* data = kmalloc(1024, GFP_KERNEL);
-			int len;
-			int offset = crisv32_nand_cramfs_offset & ~(1024-1);
-			char* tmp;
-
-			mymtd->read(mymtd, offset, 1024, &len, data);
-			tmp = &data[crisv32_nand_cramfs_offset % 512];
-			axis_partitions[pidx].size = *(unsigned*)(tmp + 4);
-			axis_partitions[pidx].offset = crisv32_nand_cramfs_offset;
-			kfree(data);
-		} else {
-			axis_partitions[pidx].size = romfs_length;
-			axis_partitions[pidx].offset = romfs_start - FLASH_CACHED_ADDR;
-		}
+	struct mtd_partition *partition = &axis_partitions[0];
+	if (main_mtd && !ptable_ok) {
+		memcpy(axis_partitions, axis_default_partitions,
+		       sizeof(axis_default_partitions));
+		pidx = NUM_DEFAULT_PARTITIONS;
+		ram_rootfs_partition = DEFAULT_ROOTFS_PARTITION_NO;
+	}
 
+	/* Add artificial partitions for rootfs if necessary */
+	if (romfs_in_flash) {
+		/* rootfs is in directly accessible flash memory = NOR flash.
+		   Add an overlapping device for the rootfs partition. */
+		printk(KERN_INFO "axisflashmap: Adding partition for "
+		       "overlapping root file system image\n");
+		axis_partitions[pidx].size = romfs_length;
+		axis_partitions[pidx].offset = romfs_start - FLASH_CACHED_ADDR;
+		axis_partitions[pidx].name = "romfs";
 		axis_partitions[pidx].mask_flags |= MTD_WRITEABLE;
-
-		printk(KERN_INFO
-                       " Adding readonly flash partition for romfs image:\n");
-		printk(pmsg, pidx, axis_partitions[pidx].offset,
-		       axis_partitions[pidx].size);
+		ram_rootfs_partition = -1;
 		pidx++;
-	}
-
-        if (mymtd) {
-		if (use_default_ptable) {
-			printk(KERN_INFO " Using default partition table.\n");
-			err = add_mtd_partitions(mymtd, axis_default_partitions,
-						 NUM_DEFAULT_PARTITIONS);
-		} else {
-			err = add_mtd_partitions(mymtd, axis_partitions, pidx);
+	} else if (romfs_length && !nand_boot) {
+		/* romfs exists in memory, but not in flash, so must be in RAM.
+		 * Configure an MTDRAM partition. */
+		if (ram_rootfs_partition < 0) {
+			/* None set yet, put it at the end */
+			ram_rootfs_partition = pidx;
+			pidx++;
 		}
+		printk(KERN_INFO "axisflashmap: Adding partition for "
+		       "root file system image in RAM\n");
+		axis_partitions[ram_rootfs_partition].size = romfs_length;
+		axis_partitions[ram_rootfs_partition].offset = romfs_start;
+		axis_partitions[ram_rootfs_partition].name = "romfs";
+		axis_partitions[ram_rootfs_partition].mask_flags |=
+			MTD_WRITEABLE;
+	}
 
-		if (err) {
-			panic("axisflashmap could not add MTD partitions!\n");
-		}
+#ifdef CONFIG_ETRAX_AXISFLASHMAP_MTD0WHOLE
+	if (main_mtd) {
+		main_partition.size = main_mtd->size;
+		err = add_mtd_partitions(main_mtd, &main_partition, 1);
+		if (err)
+			panic("axisflashmap: Could not initialize "
+			      "partition for whole main mtd device!\n");
 	}
-/* CONFIG_EXTRAXFS_SIM */
 #endif
 
-	if (!romfs_in_flash) {
-		/* Create an RAM device for the root partition (romfs). */
+	/* Now, register all partitions with mtd.
+	 * We do this one at a time so we can slip in an MTDRAM device
+	 * in the proper place if required. */
+
+	for (part = 0; part < pidx; part++) {
+		if (part == ram_rootfs_partition) {
+			/* add MTDRAM partition here */
+			struct mtd_info *mtd_ram;
+
+			mtd_ram = kmalloc(sizeof(struct mtd_info), GFP_KERNEL);
+			if (!mtd_ram)
+				panic("axisflashmap: Couldn't allocate memory "
+				      "for mtd_info!\n");
+			printk(KERN_INFO "axisflashmap: Adding RAM partition "
+			       "for rootfs image.\n");
+			err = mtdram_init_device(mtd_ram,
+						 (void *)partition[part].offset,
+						 partition[part].size,
+						 partition[part].name);
+			if (err)
+				panic("axisflashmap: Could not initialize "
+				      "MTD RAM device!\n");
+			/* JFFS2 likes to have an erasesize. Keep potential
+			 * JFFS2 rootfs happy by providing one. Since image
+			 * was most likely created for main mtd, use that
+			 * erasesize, if available. Otherwise, make a guess. */
+			mtd_ram->erasesize = (main_mtd ? main_mtd->erasesize :
+				CONFIG_ETRAX_PTABLE_SECTOR);
+		} else {
+			err = add_mtd_partitions(main_mtd, &partition[part], 1);
+			if (err)
+				panic("axisflashmap: Could not add mtd "
+					"partition %d\n", part);
+		}
+	}
+#endif /* CONFIG_EXTRAX_VCS_SIM */
+
+#ifdef CONFIG_ETRAX_VCS_SIM
+	/* For simulator, always use a RAM partition.
+	 * The rootfs will be found after the kernel in RAM,
+	 * with romfs_start and romfs_end indicating location and size.
+	 */
+	struct mtd_info *mtd_ram;
+
+	mtd_ram = kmalloc(sizeof(struct mtd_info), GFP_KERNEL);
+	if (!mtd_ram) {
+		panic("axisflashmap: Couldn't allocate memory for "
+		      "mtd_info!\n");
+	}
 
-#if !defined(CONFIG_MTD_MTDRAM) || (CONFIG_MTDRAM_TOTAL_SIZE != 0) || (CONFIG_MTDRAM_ABS_POS != 0)
-		/* No use trying to boot this kernel from RAM. Panic! */
-		printk(KERN_EMERG "axisflashmap: Cannot create an MTD RAM "
-		       "device due to kernel (mis)configuration!\n");
-		panic("This kernel cannot boot from RAM!\n");
-#else
-		struct mtd_info *mtd_ram;
+	printk(KERN_INFO "axisflashmap: Adding RAM partition for romfs, "
+	       "at %u, size %u\n",
+	       (unsigned) romfs_start, (unsigned) romfs_length);
 
-		mtd_ram = kmalloc(sizeof(struct mtd_info),
-						     GFP_KERNEL);
-		if (!mtd_ram) {
-			panic("axisflashmap couldn't allocate memory for "
-			      "mtd_info!\n");
-		}
+	err = mtdram_init_device(mtd_ram, (void *)romfs_start,
+				 romfs_length, "romfs");
+	if (err) {
+		panic("axisflashmap: Could not initialize MTD RAM "
+		      "device!\n");
+	}
+#endif /* CONFIG_EXTRAX_VCS_SIM */
 
-		printk(KERN_INFO " Adding RAM partition for romfs image:\n");
-		printk(pmsg, pidx, romfs_start, romfs_length);
+#ifndef CONFIG_ETRAX_VCS_SIM
+	if (aux_mtd) {
+		aux_partition.size = aux_mtd->size;
+		err = add_mtd_partitions(aux_mtd, &aux_partition, 1);
+		if (err)
+			panic("axisflashmap: Could not initialize "
+			      "aux mtd device!\n");
 
-		err = mtdram_init_device(mtd_ram, (void*)romfs_start,
-		                         romfs_length, "romfs");
-		if (err) {
-			panic("axisflashmap could not initialize MTD RAM "
-			      "device!\n");
-		}
-#endif
 	}
+#endif /* CONFIG_EXTRAX_VCS_SIM */
 
 	return err;
 }
-- 
1.5.3.6.970.gd25430

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