2 * YAFFS: Yet Another Flash File System. A NAND-flash specific file system.
4 * Copyright (C) 2002-2007 Aleph One Ltd.
5 * for Toby Churchill Ltd and Brightstar Engineering
7 * Created by Charles Manning <charles@aleph1.co.uk>
9 * This program is free software; you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License version 2 as
11 * published by the Free Software Foundation.
15 * This is an interface module for handling NOR in yaffs1 mode.
18 /* First set up for M18 with 1k chunks and 16-byte spares.
20 * NB We're using the oddball M18 modes of operation here
21 * The chip is 64MB based at 0x0000, but YAFFS only going to use the top half
22 * ie. YAFFS will be from 32MB to 64MB.
24 * The M18 has two ways of writing data. Every Programming Region (1kbytes)
25 * can be programmed in two modes:
26 * * Object Mode 1024 bytes of write once data.
27 * * Control Mode: 512bytes of bit-writeable data.
28 * This is arranged as 32 * (16 bytes of bit-writable followed by 16 bytes of "dont touch")
30 * The block size is 256kB, making 128 blocks in the 32MB YAFFS area.
31 * Each block comprises:
32 * Offset 0k: 248 x 1k data pages
33 * Offset 248k: 248 x 32-byte spare areas implemented as 16 bytes of spare followed by 16 bytes untouched)
34 * Offset 248k + (248 * 32): Format marker
38 const char *yaffs_norif1_c_version = "$Id: yaffs_norif1.c,v 1.4 2009-01-09 02:54:14 charles Exp $";
40 #include "yaffs_norif1.h"
44 #include "yaffs_flashif.h"
45 #include "yaffs_guts.h"
47 #include "devextras.h"
49 #define SPARE_BYTES_PER_CHUNK 16
51 #define PROG_REGION_SIZE 1024
52 #define BLOCK_SIZE_IN_BYTES (256*1024)
53 #define CHUNKS_PER_BLOCK 248
54 #define SPARE_AREA_OFFSET (CHUNKS_PER_BLOCK * PROG_REGION_SIZE)
56 #define FORMAT_OFFSET (SPARE_AREA_OFFSET + CHUNKS_PER_BLOCK * (SPARE_BYTES_PER_CHUNK + M18_SKIP))
58 #define FORMAT_VALUE 0x1234
60 #define DATA_BYTES_PER_CHUNK 1024
61 #define BLOCKS_IN_DEVICE (8*1024/256)
64 #define YNOR_PREMARKER (0xF6)
65 #define YNOR_POSTMARKER (0xF0)
70 /* Compile this for a simulation */
72 #define ynorif1_FlashInit() ynorsim_Initialise()
73 #define ynorif1_FlashDeinit() ynorsim_Shutdown()
74 #define ynorif1_FlashWrite32(addr,buf,nwords) ynorsim_Write32(addr,buf,nwords)
75 #define ynorif1_FlashRead32(addr,buf,nwords) ynorsim_Read32(addr,buf,nwords)
76 #define ynorif1_FlashEraseBlock(addr) ynorsim_EraseBlock(addr)
77 #define DEVICE_BASE ynorsim_GetBase()
80 /* Compile this for running on blob, hacked for yaffs access */
81 #include "../blob/yflashrw.h"
82 #define ynorif1_FlashInit() do{} while(0)
83 #define ynorif1_FlashDeinit() do {} while(0)
84 #define ynorif1_FlashWrite32(addr,buf,nwords) Y_FlashWrite(addr,buf,nwords)
85 #define ynorif1_FlashRead32(addr,buf,nwords) Y_FlashRead(addr,buf,nwords)
86 #define ynorif1_FlashEraseBlock(addr) Y_FlashErase(addr,BLOCK_SIZE_IN_BYTES)
87 #define DEVICE_BASE (32 * 1024 * 1024)
90 __u32 *Block2Addr(yaffs_Device *dev, int blockNumber)
94 addr = (__u32) DEVICE_BASE;
95 addr += blockNumber * BLOCK_SIZE_IN_BYTES;
97 return (__u32 *) addr;
100 __u32 *Block2FormatAddr(yaffs_Device *dev,int blockNumber)
104 addr = (__u32) Block2Addr(dev,blockNumber);
105 addr += FORMAT_OFFSET;
107 return (__u32 *)addr;
109 __u32 *Chunk2DataAddr(yaffs_Device *dev,int chunkId)
112 unsigned chunkInBlock;
115 block = chunkId/dev->nChunksPerBlock;
116 chunkInBlock = chunkId % dev->nChunksPerBlock;
118 addr = (__u32) Block2Addr(dev,block);
119 addr += chunkInBlock * DATA_BYTES_PER_CHUNK;
121 return (__u32 *)addr;
124 __u32 *Chunk2SpareAddr(yaffs_Device *dev,int chunkId)
127 unsigned chunkInBlock;
130 block = chunkId/dev->nChunksPerBlock;
131 chunkInBlock = chunkId % dev->nChunksPerBlock;
133 addr = (__u32) Block2Addr(dev,block);
134 addr += SPARE_AREA_OFFSET;
135 addr += chunkInBlock * (SPARE_BYTES_PER_CHUNK + M18_SKIP);
136 return (__u32 *)addr;
140 void ynorif1_AndBytes(__u8*target, const __u8 *src, int nbytes)
150 int ynorif1_WriteChunkToNAND(yaffs_Device *dev,int chunkInNAND,const __u8 *data, const yaffs_Spare *spare)
152 __u32 *dataAddr = Chunk2DataAddr(dev,chunkInNAND);
153 __u32 *spareAddr = Chunk2SpareAddr(dev,chunkInNAND);
155 yaffs_Spare tmpSpare;
157 /* We should only be getting called for one of 3 reasons:
158 * Writing a chunk: data and spare will not be NULL
159 * Writing a deletion marker: data will be NULL, spare not NULL
160 * Writing a bad block marker: data will be NULL, spare not NULL
163 if(sizeof(yaffs_Spare) != 16)
168 if(spare->pageStatus != 0xff)
170 /* Write a pre-marker */
171 memset(&tmpSpare,0xff,sizeof(tmpSpare));
172 tmpSpare.pageStatus = YNOR_PREMARKER;
173 ynorif1_FlashWrite32(spareAddr,(__u32 *)&tmpSpare,sizeof(yaffs_Spare)/4);
176 ynorif1_FlashWrite32(dataAddr,(__u32 *)data,dev->totalBytesPerChunk / 4);
179 memcpy(&tmpSpare,spare,sizeof(yaffs_Spare));
181 /* Write the real tags, but override the premarker*/
182 tmpSpare.pageStatus = YNOR_PREMARKER;
183 ynorif1_FlashWrite32(spareAddr,(__u32 *)&tmpSpare,sizeof(yaffs_Spare)/4);
185 /* Write a post-marker */
186 tmpSpare.pageStatus = YNOR_POSTMARKER;
187 ynorif1_FlashWrite32(spareAddr,(__u32 *)&tmpSpare,sizeof(tmpSpare)/4);
190 /* This has to be a read-modify-write operation to handle NOR-ness */
192 ynorif1_FlashRead32(spareAddr,(__u32 *)&tmpSpare,16/ 4);
194 ynorif1_AndBytes((__u8 *)&tmpSpare,(__u8 *)spare,sizeof(yaffs_Spare));
196 ynorif1_FlashWrite32(spareAddr,(__u32 *)&tmpSpare,16/ 4);
207 int ynorif1_ReadChunkFromNAND(yaffs_Device *dev,int chunkInNAND, __u8 *data, yaffs_Spare *spare)
210 __u32 *dataAddr = Chunk2DataAddr(dev,chunkInNAND);
211 __u32 *spareAddr = Chunk2SpareAddr(dev,chunkInNAND);
215 ynorif1_FlashRead32(dataAddr,(__u32 *)data,dev->totalBytesPerChunk / 4);
220 ynorif1_FlashRead32(spareAddr,(__u32 *)spare,16/ 4);
222 /* If the page status is YNOR_POSTMARKER then it was written properly
223 * so change that to 0xFF so that the rest of yaffs is happy.
225 if(spare->pageStatus == YNOR_POSTMARKER)
226 spare->pageStatus = 0xFF;
227 else if(spare->pageStatus != 0xff &&
228 (spare->pageStatus | YNOR_PREMARKER) != 0xff)
229 spare->pageStatus = YNOR_PREMARKER;
237 static int ynorif1_FormatBlock(yaffs_Device *dev, int blockNumber)
239 __u32 *blockAddr = Block2Addr(dev,blockNumber);
240 __u32 *formatAddr = Block2FormatAddr(dev,blockNumber);
241 __u32 formatValue = FORMAT_VALUE;
243 ynorif1_FlashEraseBlock(blockAddr);
244 ynorif1_FlashWrite32(formatAddr,&formatValue,1);
249 static int ynorif1_UnformatBlock(yaffs_Device *dev, int blockNumber)
251 __u32 *formatAddr = Block2FormatAddr(dev,blockNumber);
252 __u32 formatValue = 0;
254 ynorif1_FlashWrite32(formatAddr,&formatValue,1);
259 static int ynorif1_IsBlockFormatted(yaffs_Device *dev, int blockNumber)
261 __u32 *formatAddr = Block2FormatAddr(dev,blockNumber);
265 ynorif1_FlashRead32(formatAddr,&formatValue,1);
267 return (formatValue == FORMAT_VALUE);
270 int ynorif1_EraseBlockInNAND(yaffs_Device *dev, int blockNumber)
273 if(blockNumber < 0 || blockNumber >= BLOCKS_IN_DEVICE)
275 T(YAFFS_TRACE_ALWAYS,("Attempt to erase non-existant block %d\n",blockNumber));
280 ynorif1_UnformatBlock(dev,blockNumber);
281 ynorif1_FormatBlock(dev,blockNumber);
287 int ynorif1_InitialiseNAND(yaffs_Device *dev)
292 /* Go through the blocks formatting them if they are not formatted */
293 for(i = dev->startBlock; i <= dev->endBlock; i++){
294 if(!ynorif1_IsBlockFormatted(dev,i)){
295 ynorif1_FormatBlock(dev,i);
301 int ynorif1_DeinitialiseNAND(yaffs_Device *dev)
304 ynorif1_FlashDeinit();