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[/] [or1k/] [trunk/] [rc203soc/] [sw/] [uClinux/] [fs/] [fat/] [file.c] - Rev 1765
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/* * linux/fs/fat/file.c * * Written 1992,1993 by Werner Almesberger * * regular file handling primitives for fat-based filesystems */ #define ASC_LINUX_VERSION(V, P, S) (((V) * 65536) + ((P) * 256) + (S)) #include <linux/version.h> #include <linux/sched.h> #include <linux/locks.h> #include <linux/fs.h> #include <linux/msdos_fs.h> #include <linux/errno.h> #include <linux/fcntl.h> #include <linux/stat.h> #include <linux/string.h> #include <linux/pagemap.h> #if LINUX_VERSION_CODE >= ASC_LINUX_VERSION(2,1,0) #include <asm/uaccess.h> #define FAT_COPY_TO_USER(uaddr, kaddr, len) copy_to_user(uaddr, kaddr, len) #define FAT_COPY_FROM_USER(uaddr, kaddr, len) copy_from_user(uaddr, kaddr, len) #define FAT_GET_USER(c, ptr) get_user((c), ptr) #else #include <asm/segment.h> #define FAT_COPY_TO_USER(uaddr, kaddr, len) memcpy_tofs(uaddr, kaddr, len) #define FAT_COPY_FROM_USER(uaddr, kaddr, len) memcpy_fromfs(uaddr, kaddr, len) #define FAT_GET_USER(c, ptr) (c) = get_user(ptr) #endif #include <asm/system.h> #include "msbuffer.h" #define MIN(a,b) (((a) < (b)) ? (a) : (b)) #define MAX(a,b) (((a) > (b)) ? (a) : (b)) #define PRINTK(x) #define Printk(x) printk x static struct file_operations fat_file_operations = { NULL, /* lseek - default */ fat_file_read, /* read */ fat_file_write, /* write */ NULL, /* readdir - bad */ NULL, /* select v2.0.x/poll v2.1.x - default */ NULL, /* ioctl - default */ generic_file_mmap, /* mmap */ NULL, /* no special open is needed */ NULL, /* release */ file_fsync /* fsync */ }; struct inode_operations fat_file_inode_operations = { &fat_file_operations, /* default file operations */ NULL, /* create */ NULL, /* lookup */ NULL, /* link */ NULL, /* unlink */ NULL, /* symlink */ NULL, /* mkdir */ NULL, /* rmdir */ NULL, /* mknod */ NULL, /* rename */ NULL, /* readlink */ NULL, /* follow_link */ generic_readpage, /* readpage */ NULL, /* writepage */ fat_bmap, /* bmap */ fat_truncate, /* truncate */ NULL, /* permission */ NULL /* smap */ }; /* #Specification: msdos / special devices / mmap Mmapping does work because a special mmap is provide in that case. Note that it is much less efficient than the generic_file_mmap normally used since it allocate extra buffer. generic_file_mmap is used for normal device (512 bytes hardware sectors). */ static struct file_operations fat_file_operations_1024 = { NULL, /* lseek - default */ fat_file_read, /* read */ fat_file_write, /* write */ NULL, /* readdir - bad */ NULL, /* select v2.0.x/poll v2.1.x - default */ NULL, /* ioctl - default */ fat_mmap, /* mmap */ NULL, /* no special open is needed */ NULL, /* release */ file_fsync /* fsync */ }; /* #Specification: msdos / special devices / swap file Swap file can't work on special devices with a large sector size (1024 bytes hard sector). Those devices have a weird MsDOS filesystem layout. Generally a single hardware sector may contain 2 unrelated logical sector. This mean that there is no easy way to do a mapping between disk sector of a file and virtual memory. So swap file is difficult (not available right now) on those devices. Off course, Ext2 does not have this problem. */ struct inode_operations fat_file_inode_operations_1024 = { &fat_file_operations_1024, /* default file operations */ NULL, /* create */ NULL, /* lookup */ NULL, /* link */ NULL, /* unlink */ NULL, /* symlink */ NULL, /* mkdir */ NULL, /* rmdir */ NULL, /* mknod */ NULL, /* rename */ NULL, /* readlink */ NULL, /* follow_link */ NULL, /* readpage */ NULL, /* writepage */ NULL, /* bmap */ fat_truncate, /* truncate */ NULL, /* permission */ NULL /* smap */ }; #define MSDOS_PREFETCH 32 struct fat_pre { int file_sector;/* Next sector to read in the prefetch table */ /* This is relative to the file, not the disk */ struct buffer_head *bhlist[MSDOS_PREFETCH]; /* All buffers needed */ int nblist; /* Number of buffers in bhlist */ int nolist; /* index in bhlist */ }; /* Order the prefetch of more sectors. */ static void fat_prefetch ( struct inode *inode, struct fat_pre *pre, int nb) /* How many must we prefetch at once */ { struct super_block *sb = inode->i_sb; struct buffer_head *bhreq[MSDOS_PREFETCH]; /* Buffers not */ /* already read */ int nbreq = 0; /* Number of buffers in bhreq */ int i; for (i=0; i<nb; i++){ int sector = fat_smap(inode,pre->file_sector); if (sector != 0){ struct buffer_head *bh; PRINTK (("fsector2 %d -> %d\n",pre->file_sector-1,sector)); pre->file_sector++; bh = fat_getblk(sb, sector); if (bh == NULL) break; pre->bhlist[pre->nblist++] = bh; if (!fat_is_uptodate(sb,bh)) bhreq[nbreq++] = bh; }else{ break; } } if (nbreq > 0) fat_ll_rw_block (sb,READ,nbreq,bhreq); for (i=pre->nblist; i<MSDOS_PREFETCH; i++) pre->bhlist[i] = NULL; } /* Read a file into user space */ #if LINUX_VERSION_CODE >= ASC_LINUX_VERSION(2,1,0) long fat_file_read(struct inode *inode,struct file *filp,char *buf, unsigned long count) #else int fat_file_read(struct inode *inode,struct file *filp,char *buf,int count) #endif { struct super_block *sb = inode->i_sb; char *start = buf; char *end = buf + count; int i; int left_in_file; struct fat_pre pre; if (!inode) { printk("fat_file_read: inode = NULL\n"); return -EINVAL; } /* S_ISLNK allows for UMSDOS. Should never happen for normal MSDOS */ if (!S_ISREG(inode->i_mode) && !S_ISLNK(inode->i_mode)) { printk("fat_file_read: mode = %07o\n",inode->i_mode); return -EINVAL; } #if LINUX_VERSION_CODE >= ASC_LINUX_VERSION(2,1,0) if (filp->f_pos >= inode->i_size || count == 0) return 0; #else if (filp->f_pos >= inode->i_size || count <= 0) return 0; #endif /* Tell the buffer cache which block we expect to read in advance Since we are limited with the stack, we preread only MSDOS_PREFETCH because we have to keep the result into the local arrays pre.bhlist and bhreq. Each time we process one block in bhlist, we replace it by a new prefetch block if needed. */ PRINTK (("#### ino %ld pos %ld size %ld count %d\n",inode->i_ino,filp->f_pos,inode->i_size,count)); { /* We must prefetch complete block, so we must take in account the offset in the first block. */ int count_max = (filp->f_pos & (SECTOR_SIZE-1)) + count; int to_reada; /* How many block to read all at once */ pre.file_sector = filp->f_pos >> SECTOR_BITS; to_reada = count_max / SECTOR_SIZE; if (count_max & (SECTOR_SIZE-1)) to_reada++; if (filp->f_reada || !MSDOS_I(inode)->i_binary){ /* Doing a read ahead on ascii file make sure we always */ /* pre read enough, since we don't know how many blocks */ /* we really need */ int ahead = read_ahead[MAJOR(inode->i_dev)]; PRINTK (("to_reada %d ahead %d\n",to_reada,ahead)); if (ahead == 0) ahead = 8; to_reada += ahead; } if (to_reada > MSDOS_PREFETCH) to_reada = MSDOS_PREFETCH; pre.nblist = 0; fat_prefetch (inode,&pre,to_reada); } pre.nolist = 0; PRINTK (("count %d ahead %d nblist %d\n",count,read_ahead[MAJOR(inode->i_dev)],pre.nblist)); while ((left_in_file = inode->i_size - filp->f_pos) > 0 && buf < end){ struct buffer_head *bh = pre.bhlist[pre.nolist]; char *data; int size,offset; if (bh == NULL) break; pre.bhlist[pre.nolist] = NULL; pre.nolist++; if (pre.nolist == MSDOS_PREFETCH/2){ memcpy (pre.bhlist,pre.bhlist+MSDOS_PREFETCH/2 ,(MSDOS_PREFETCH/2)*sizeof(pre.bhlist[0])); pre.nblist -= MSDOS_PREFETCH/2; fat_prefetch (inode,&pre,MSDOS_PREFETCH/2); pre.nolist = 0; } PRINTK (("file_read pos %ld nblist %d %d %d\n",filp->f_pos,pre.nblist,pre.fetched,count)); wait_on_buffer(bh); if (!fat_is_uptodate(sb,bh)){ /* read error ? */ fat_brelse (sb, bh); break; } offset = filp->f_pos & (SECTOR_SIZE-1); data = bh->b_data + offset; size = MIN(SECTOR_SIZE-offset,left_in_file); if (MSDOS_I(inode)->i_binary) { size = MIN(size,end-buf); FAT_COPY_TO_USER(buf,data,size); buf += size; filp->f_pos += size; }else{ for (; size && buf < end; size--) { char ch = *data++; filp->f_pos++; if (ch == 26){ filp->f_pos = inode->i_size; break; }else if (ch != '\r'){ put_user(ch,buf++); } } } fat_brelse(sb, bh); } PRINTK (("--- %d -> %d\n",count,(int)(buf-start))); for (i=0; i<pre.nblist; i++) fat_brelse (sb, pre.bhlist[i]); if (start == buf) return -EIO; if (!IS_RDONLY(inode)) inode->i_atime = CURRENT_TIME; filp->f_reada = 1; /* Will be reset if a lseek is done */ return buf-start; } /* Write to a file either from user space */ #if LINUX_VERSION_CODE >= ASC_LINUX_VERSION(2,1,0) long fat_file_write(struct inode *inode,struct file *filp,const char *buf, unsigned long count) #else int fat_file_write(struct inode *inode,struct file *filp,const char *buf,int count) #endif { struct super_block *sb = inode->i_sb; int sector,offset,size,left,written; int error,carry; const char *start; char *to,ch; struct buffer_head *bh; int binary_mode = MSDOS_I(inode)->i_binary; if (!inode) { printk("fat_file_write: inode = NULL\n"); return -EINVAL; } /* S_ISLNK allows for UMSDOS. Should never happen for normal MSDOS */ if (!S_ISREG(inode->i_mode) && !S_ISLNK(inode->i_mode)) { printk("fat_file_write: mode = %07o\n",inode->i_mode); return -EINVAL; } /* system files may be immutable */ if (IS_IMMUTABLE(inode)) return -EPERM; /* * ok, append may not work when many processes are writing at the same time * but so what. That way leads to madness anyway. */ if (filp->f_flags & O_APPEND) filp->f_pos = inode->i_size; #if LINUX_VERSION_CODE >= ASC_LINUX_VERSION(2,1,0) if (count == 0) return 0; #else if (count <= 0) return 0; #endif if (filp->f_pos + count > 0x7FFFFFFFL) { count = 0x7FFFFFFFL - filp->f_pos; if (!count) return -EFBIG; } error = carry = 0; for (start = buf; count || carry; count -= size) { while (!(sector = fat_smap(inode,filp->f_pos >> SECTOR_BITS))) if ((error = fat_add_cluster(inode)) < 0) break; if (error) { fat_truncate(inode); break; } offset = filp->f_pos & (SECTOR_SIZE-1); size = MIN(SECTOR_SIZE-offset,MAX(carry,count)); if (binary_mode && offset == 0 && (size == SECTOR_SIZE || filp->f_pos + size >= inode->i_size)){ /* No need to read the block first since we will */ /* completely overwrite it */ /* or at least write past the end of file */ if (!(bh = fat_getblk(sb,sector))){ error = -EIO; break; } } else if (!(bh = fat_bread(sb,sector))) { error = -EIO; break; } if (binary_mode) { FAT_COPY_FROM_USER(bh->b_data+offset,buf,written = size); buf += size; } else { written = left = SECTOR_SIZE-offset; to = (char *) bh->b_data+(filp->f_pos & (SECTOR_SIZE-1)); if (carry) { *to++ = '\n'; left--; carry = 0; } for (size = 0; size < count && left; size++) { FAT_GET_USER(ch, buf++); if (ch == '\n') { *to++ = '\r'; left--; } if (!left) carry = 1; else { *to++ = ch; left--; } } written -= left; } update_vm_cache(inode, filp->f_pos, bh->b_data + (filp->f_pos & (SECTOR_SIZE-1)), written); filp->f_pos += written; if (filp->f_pos > inode->i_size) { inode->i_size = filp->f_pos; inode->i_dirt = 1; } fat_set_uptodate(sb, bh, 1); fat_mark_buffer_dirty(sb, bh, 0); fat_brelse(sb, bh); } if (start == buf) return error; inode->i_mtime = inode->i_ctime = CURRENT_TIME; MSDOS_I(inode)->i_attrs |= ATTR_ARCH; inode->i_dirt = 1; return buf-start; } void fat_truncate(struct inode *inode) { int cluster; /* Why no return value? Surely the disk could fail... */ if (IS_IMMUTABLE(inode)) return /* -EPERM */; cluster = SECTOR_SIZE*MSDOS_SB(inode->i_sb)->cluster_size; (void) fat_free(inode,(inode->i_size+(cluster-1))/cluster); MSDOS_I(inode)->i_attrs |= ATTR_ARCH; inode->i_dirt = 1; }