/* * fs.c * NTFS driver for Linux 2.3.x * * Copyright (C) 1995-1997, 1999 Martin von Löwis * Copyright (C) 1996 Richard Russon * Copyright (C) 1996-1997 Régis Duchesne * Copyright (C) 2000, Anton Altaparmakov */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifdef NTFS_IN_LINUX_KERNEL #include #endif #include "ntfstypes.h" #include "struct.h" #include "util.h" #include "inode.h" #include "super.h" #include "dir.h" #include "support.h" #include "macros.h" #include "sysctl.h" #include #include #include #include #include /* Forward declarations */ static struct inode_operations ntfs_dir_inode_operations; static struct file_operations ntfs_dir_operations; #define ITEM_SIZE 2040 /* io functions to user space */ static void ntfs_putuser(ntfs_io* dest,void *src,ntfs_size_t len) { copy_to_user(dest->param,src,len); dest->param+=len; } #ifdef CONFIG_NTFS_RW struct ntfs_getuser_update_vm_s{ const char *user; struct inode *ino; loff_t off; }; static void ntfs_getuser_update_vm (void *dest, ntfs_io *src, ntfs_size_t len) { struct ntfs_getuser_update_vm_s *p = src->param; copy_from_user (dest, p->user, len); p->user += len; p->off += len; } #endif static ssize_t ntfs_read(struct file * filp, char *buf, size_t count, loff_t *off) { int error; ntfs_io io; ntfs_inode *ino=NTFS_LINO2NINO(filp->f_dentry->d_inode); /* inode is not properly initialized */ if(!ino)return -EINVAL; ntfs_debug(DEBUG_OTHER, "ntfs_read %x,%x,%x ->", (unsigned)ino->i_number,(unsigned)*off,(unsigned)count); /* inode has no unnamed data attribute */ if(!ntfs_find_attr(ino,ino->vol->at_data,NULL)) return -EINVAL; /* read the data */ io.fn_put=ntfs_putuser; io.fn_get=0; io.param=buf; io.size=count; error=ntfs_read_attr(ino,ino->vol->at_data,NULL,*off,&io); if(error && !io.size)return -error; *off+=io.size; return io.size; } #ifdef CONFIG_NTFS_RW static ssize_t ntfs_write(struct file *filp,const char* buf,size_t count,loff_t *pos) { int ret; ntfs_io io; struct inode *inode = filp->f_dentry->d_inode; ntfs_inode *ino = NTFS_LINO2NINO(inode); struct ntfs_getuser_update_vm_s param; if (!ino) return -EINVAL; ntfs_debug (DEBUG_LINUX, "ntfs_write %x,%x,%x ->\n", (unsigned)ino->i_number, (unsigned)*pos, (unsigned)count); /* Allows to lock fs ro at any time */ if (inode->i_sb->s_flags & MS_RDONLY) return -ENOSPC; if (!ntfs_find_attr(ino,ino->vol->at_data,NULL)) return -EINVAL; /* Evaluating O_APPEND is the file system's job... */ if (filp->f_flags & O_APPEND) *pos = inode->i_size; param.user = buf; param.ino = inode; param.off = *pos; io.fn_put = 0; io.fn_get = ntfs_getuser_update_vm; io.param = ¶m; io.size = count; ret = ntfs_write_attr (ino, ino->vol->at_data, NULL, *pos, &io); ntfs_debug (DEBUG_LINUX, "write -> %x\n", ret); if(ret<0) return -EINVAL; *pos += io.size; if (*pos > inode->i_size) inode->i_size = *pos; mark_inode_dirty (filp->f_dentry->d_inode); return io.size; } #endif struct ntfs_filldir{ struct inode *dir; filldir_t filldir; unsigned int type; ntfs_u32 ph,pl; void *dirent; char *name; int namelen; }; static int ntfs_printcb(ntfs_u8 *entry,void *param) { struct ntfs_filldir* nf=param; int flags=NTFS_GETU8(entry+0x51); int show_hidden=0; int length=NTFS_GETU8(entry+0x50); int inum=NTFS_GETU32(entry); int error; #ifdef NTFS_NGT_NT_DOES_LOWER int i,to_lower=0; #endif switch(nf->type){ case ngt_dos: /* Don't display long names */ if((flags & 2)==0) return 0; break; case ngt_nt: /* Don't display short-only names */ switch(flags&3){ case 2: return 0; #ifdef NTFS_NGT_NT_DOES_LOWER case 3: to_lower=1; #endif } break; case ngt_posix: break; case ngt_full: show_hidden=1; break; } if(!show_hidden && ((NTFS_GETU8(entry+0x48) & 2)==2)){ ntfs_debug(DEBUG_OTHER,"Skipping hidden file\n"); return 0; } nf->name=0; if(ntfs_encodeuni(NTFS_INO2VOL(nf->dir),(ntfs_u16*)(entry+0x52), length,&nf->name,&nf->namelen)){ ntfs_debug(DEBUG_OTHER,"Skipping unrepresentable file\n"); if(nf->name)ntfs_free(nf->name); return 0; } /* Do not return ".", as this is faked */ if(length==1 && *nf->name=='.') return 0; #ifdef NTFS_NGT_NT_DOES_LOWER if(to_lower) for(i=0;inamelen;i++) /* This supports ASCII only. Since only DOS-only names get converted, and since those are restricted to ASCII, this should be correct */ if(nf->name[i]>='A' && nf->name[i]<='Z') nf->name[i]+='a'-'A'; #endif nf->name[nf->namelen]=0; ntfs_debug(DEBUG_OTHER, "readdir got %s,len %d\n",nf->name,nf->namelen); /* filldir expects an off_t rather than an loff_t. Hope we don't have more than 65535 index records */ error=nf->filldir(nf->dirent,nf->name,nf->namelen, (nf->ph<<16)|nf->pl,inum); ntfs_free(nf->name); /* Linux filldir errors are negative, other errors positive */ return error; } /* readdir returns '..', then '.', then the directory entries in sequence As the root directory contains a entry for itself, '.' is not emulated for the root directory */ static int ntfs_readdir(struct file* filp, void *dirent, filldir_t filldir) { struct ntfs_filldir cb; int error; struct inode *dir=filp->f_dentry->d_inode; ntfs_debug(DEBUG_OTHER, "ntfs_readdir ino %x mode %x\n", (unsigned)dir->i_ino,(unsigned int)dir->i_mode); ntfs_debug(DEBUG_OTHER, "readdir: Looking for file %x dircount %d\n", (unsigned)filp->f_pos,atomic_read(&dir->i_count)); cb.pl=filp->f_pos & 0xFFFF; cb.ph=filp->f_pos >> 16; /* end of directory */ if(cb.ph==0xFFFF){ /* FIXME: Maybe we can return those with the previous call */ switch(cb.pl){ case 0: filldir(dirent,".",1,filp->f_pos,dir->i_ino); filp->f_pos=0xFFFF0001; return 0; /* FIXME: parent directory */ case 1: filldir(dirent,"..",2,filp->f_pos,0); filp->f_pos=0xFFFF0002; return 0; } ntfs_debug(DEBUG_OTHER, "readdir: EOD\n"); return 0; } cb.dir=dir; cb.filldir=filldir; cb.dirent=dirent; cb.type=NTFS_INO2VOL(dir)->ngt; do{ ntfs_debug(DEBUG_OTHER,"looking for next file\n"); error=ntfs_getdir_unsorted(NTFS_LINO2NINO(dir),&cb.ph,&cb.pl, ntfs_printcb,&cb); }while(!error && cb.ph!=0xFFFFFFFF); filp->f_pos=(cb.ph<<16)|cb.pl; ntfs_debug(DEBUG_OTHER, "new position %x\n",(unsigned)filp->f_pos); /* -EINVAL is on user buffer full. This is not considered as an error by sys_getdents */ if(error<0) error=0; /* Otherwise (device error, inconsistent data), switch the sign */ return -error; } /* Copied from vfat driver */ static int simple_getbool(char *s, int *setval) { if (s) { if (!strcmp(s,"1") || !strcmp(s,"yes") || !strcmp(s,"true")) { *setval = 1; } else if (!strcmp(s,"0") || !strcmp(s,"no") || !strcmp(s,"false")) { *setval = 0; } else { return 0; } } else { *setval = 1; } return 1; } /* Parse the (re)mount options */ static int parse_options(ntfs_volume* vol,char *opt) { char *value; vol->uid=vol->gid=0; vol->umask=0077; vol->ngt=ngt_nt; vol->nls_map=0; vol->nct=0; if(!opt)goto done; for(opt = strtok(opt,",");opt;opt=strtok(NULL,",")) { if ((value = strchr(opt, '=')) != NULL) *value++='\0'; if(strcmp(opt,"uid")==0) { if(!value || !*value)goto needs_arg; vol->uid=simple_strtoul(value,&value,0); if(*value){ printk(KERN_ERR "NTFS: uid invalid argument\n"); return 0; } }else if(strcmp(opt, "gid") == 0) { if(!value || !*value)goto needs_arg; vol->gid=simple_strtoul(value,&value,0); if(*value){ printk(KERN_ERR "gid invalid argument\n"); return 0; } }else if(strcmp(opt, "umask") == 0) { if(!value || !*value)goto needs_arg; vol->umask=simple_strtoul(value,&value,0); if(*value){ printk(KERN_ERR "umask invalid argument\n"); return 0; } }else if(strcmp(opt, "iocharset") == 0){ if(!value || !*value)goto needs_arg; vol->nls_map=load_nls(value); vol->nct |= nct_map; if(!vol->nls_map){ printk(KERN_ERR "NTFS: charset not found"); return 0; } }else if(strcmp(opt, "posix") == 0){ int val; if(!value || !*value)goto needs_arg; if(!simple_getbool(value,&val)) goto needs_bool; vol->ngt=val?ngt_posix:ngt_nt; }else if(strcmp(opt,"utf8") == 0){ int val=0; if(!value || !*value) val=1; else if(!simple_getbool(value,&val)) goto needs_bool; if(val) vol->nct|=nct_utf8; }else if(strcmp(opt,"uni_xlate") == 0){ int val=0; /* no argument: uni_vfat. boolean argument: uni_vfat. "2": uni. */ if(!value || !*value) val=1; else if(strcmp(value,"2")==0) vol->nct |= nct_uni_xlate; else if(!simple_getbool(value,&val)) goto needs_bool; if(val) vol->nct |= nct_uni_xlate_vfat | nct_uni_xlate; }else{ printk(KERN_ERR "NTFS: unkown option '%s'\n", opt); return 0; } } if(vol->nct & nct_utf8 & (nct_map | nct_uni_xlate)){ printk(KERN_ERR "utf8 cannot be combined with iocharset or uni_xlate\n"); return 0; } done: if((vol->nct & (nct_uni_xlate | nct_map | nct_utf8))==0) /* default to UTF-8 */ vol->nct=nct_utf8; if(!vol->nls_map) vol->nls_map=load_nls_default(); return 1; needs_arg: printk(KERN_ERR "NTFS: %s needs an argument",opt); return 0; needs_bool: printk(KERN_ERR "NTFS: %s needs boolean argument",opt); return 0; } static struct dentry *ntfs_lookup(struct inode *dir, struct dentry *d) { struct inode *res=0; char *item=0; ntfs_iterate_s walk; int error; ntfs_debug(DEBUG_NAME1, "Looking up %s in %x\n",d->d_name.name, (unsigned)dir->i_ino); /* convert to wide string */ error=ntfs_decodeuni(NTFS_INO2VOL(dir),(char*)d->d_name.name, d->d_name.len,&walk.name,&walk.namelen); if(error) return ERR_PTR(-error); item=ntfs_malloc(ITEM_SIZE); if( !item ) return ERR_PTR(-ENOMEM); /* ntfs_getdir will place the directory entry into item, and the first long long is the MFT record number */ walk.type=BY_NAME; walk.dir=NTFS_LINO2NINO(dir); walk.result=item; if(ntfs_getdir_byname(&walk)) { res=iget(dir->i_sb,NTFS_GETU32(item)); } d_add(d,res); ntfs_free(item); ntfs_free(walk.name); /* Always return success, the dcache will handle negative entries. */ return NULL; } static struct file_operations ntfs_file_operations_nommap = { read: ntfs_read, #ifdef CONFIG_NTFS_RW write: ntfs_write, #endif }; static struct inode_operations ntfs_inode_operations_nobmap = { }; #ifdef CONFIG_NTFS_RW static int ntfs_create(struct inode* dir,struct dentry *d,int mode) { struct inode *r=0; ntfs_inode *ino=0; ntfs_volume *vol; int error=0; ntfs_attribute *si; r=get_empty_inode(); if(!r){ error=ENOMEM; goto fail; } ntfs_debug(DEBUG_OTHER, "ntfs_create %s\n",d->d_name.name); vol=NTFS_INO2VOL(dir); #ifdef NTFS_IN_LINUX_KERNEL ino=NTFS_LINO2NINO(r); #else ino=ntfs_malloc(sizeof(ntfs_inode)); if(!ino){ error=ENOMEM; goto fail; } r->u.generic_ip=ino; #endif error=ntfs_alloc_file(NTFS_LINO2NINO(dir),ino,(char*)d->d_name.name, d->d_name.len); if(error)goto fail; error=ntfs_update_inode(ino); if(error)goto fail; error=ntfs_update_inode(NTFS_LINO2NINO(dir)); if(error)goto fail; r->i_uid=vol->uid; r->i_gid=vol->gid; r->i_nlink=1; r->i_sb=dir->i_sb; /* FIXME: dirty? dev? */ /* get the file modification times from the standard information */ si=ntfs_find_attr(ino,vol->at_standard_information,NULL); if(si){ char *attr=si->d.data; r->i_atime=ntfs_ntutc2unixutc(NTFS_GETU64(attr+0x18)); r->i_ctime=ntfs_ntutc2unixutc(NTFS_GETU64(attr)); r->i_mtime=ntfs_ntutc2unixutc(NTFS_GETU64(attr+8)); } /* It's not a directory */ r->i_op=&ntfs_inode_operations_nobmap; r->i_fop=&ntfs_file_operations_nommap, r->i_mode=S_IFREG|S_IRUGO; #ifdef CONFIG_NTFS_RW r->i_mode|=S_IWUGO; #endif r->i_mode &= ~vol->umask; insert_inode_hash(r); d_instantiate(d,r); return 0; fail: #ifndef NTFS_IN_LINUX_KERNEL if(ino)ntfs_free(ino); #endif if(r)iput(r); return -error; } static int _linux_ntfs_mkdir(struct inode *dir, struct dentry* d, int mode) { int error; struct inode *r = 0; ntfs_volume *vol; ntfs_inode *ino; ntfs_attribute *si; ntfs_debug (DEBUG_DIR1, "mkdir %s in %x\n",d->d_name.name, dir->i_ino); error = ENAMETOOLONG; if (d->d_name.len > /* FIXME */255) goto out; error = EIO; r = get_empty_inode(); if (!r) goto out; vol = NTFS_INO2VOL(dir); #ifdef NTFS_IN_LINUX_KERNEL ino = NTFS_LINO2NINO(r); #else ino = ntfs_malloc(sizeof(ntfs_inode)); error = ENOMEM; if(!ino) goto out; r->u.generic_ip = ino; #endif error = ntfs_mkdir(NTFS_LINO2NINO(dir), d->d_name.name, d->d_name.len, ino); if(error) goto out; r->i_uid = vol->uid; r->i_gid = vol->gid; r->i_nlink = 1; r->i_sb = dir->i_sb; si = ntfs_find_attr(ino,vol->at_standard_information,NULL); if(si){ char *attr = si->d.data; r->i_atime = ntfs_ntutc2unixutc(NTFS_GETU64(attr+0x18)); r->i_ctime = ntfs_ntutc2unixutc(NTFS_GETU64(attr)); r->i_mtime = ntfs_ntutc2unixutc(NTFS_GETU64(attr+8)); } /* It's a directory */ r->i_op = &ntfs_dir_inode_operations; r->i_fop = &ntfs_dir_operations; r->i_mode = S_IFDIR|S_IRUGO|S_IXUGO; #ifdef CONFIG_NTFS_RW r->i_mode|=S_IWUGO; #endif r->i_mode &= ~vol->umask; insert_inode_hash(r); d_instantiate(d, r); error = 0; out: ntfs_debug (DEBUG_DIR1, "mkdir returns %d\n", -error); return -error; } #endif #if 0 static int ntfs_bmap(struct inode *ino,int block) { int ret=ntfs_vcn_to_lcn(NTFS_LINO2NINO(ino),block); ntfs_debug(DEBUG_OTHER, "bmap of %lx,block %x is %x\n", ino->i_ino,block,ret); return (ret==-1) ? 0:ret; } #endif /* It's fscking broken. */ static int ntfs_get_block(struct inode *inode, long block, struct buffer_head *bh, int create) { BUG(); return -1; } static struct file_operations ntfs_file_operations = { read: ntfs_read, mmap: generic_file_mmap, #ifdef CONFIG_NTFS_RW write: ntfs_write, #endif }; static struct inode_operations ntfs_inode_operations = { }; static struct file_operations ntfs_dir_operations = { read: generic_read_dir, readdir: ntfs_readdir, }; static struct inode_operations ntfs_dir_inode_operations = { lookup: ntfs_lookup, #ifdef CONFIG_NTFS_RW create: ntfs_create, mkdir: _linux_ntfs_mkdir, #endif }; static int ntfs_writepage(struct file *file, struct page *page) { return block_write_full_page(page,ntfs_get_block); } static int ntfs_readpage(struct file *file, struct page *page) { return block_read_full_page(page,ntfs_get_block); } static int ntfs_prepare_write(struct file *file, struct page *page, unsigned from, unsigned to) { return cont_prepare_write(page,from,to,ntfs_get_block, &((struct inode*)page->mapping->host)->u.ntfs_i.mmu_private); } static int _ntfs_bmap(struct address_space *mapping, long block) { return generic_block_bmap(mapping,block,ntfs_get_block); } struct address_space_operations ntfs_aops = { readpage: ntfs_readpage, writepage: ntfs_writepage, sync_page: block_sync_page, prepare_write: ntfs_prepare_write, commit_write: generic_commit_write, bmap: _ntfs_bmap }; /* ntfs_read_inode is called by the Virtual File System (the kernel layer that * deals with filesystems) when iget is called requesting an inode not already * present in the inode table. Typically filesystems have separate * inode_operations for directories, files and symlinks. */ static void ntfs_read_inode(struct inode* inode) { ntfs_volume *vol; int can_mmap=0; ntfs_inode *ino; ntfs_attribute *data; ntfs_attribute *si; vol=NTFS_INO2VOL(inode); inode->i_mode=0; ntfs_debug(DEBUG_OTHER, "ntfs_read_inode %x\n",(unsigned)inode->i_ino); switch(inode->i_ino) { /* those are loaded special files */ case FILE_MFT: ntfs_error("Trying to open MFT\n");return; default: #ifdef NTFS_IN_LINUX_KERNEL ino=&inode->u.ntfs_i; #else /* FIXME: check for ntfs_malloc failure */ ino=(ntfs_inode*)ntfs_malloc(sizeof(ntfs_inode)); inode->u.generic_ip=ino; #endif if(!ino || ntfs_init_inode(ino, NTFS_INO2VOL(inode),inode->i_ino)) { ntfs_debug(DEBUG_OTHER, "NTFS:Error loading inode %x\n", (unsigned int)inode->i_ino); return; } } /* Set uid/gid from mount options */ inode->i_uid=vol->uid; inode->i_gid=vol->gid; inode->i_nlink=1; /* Use the size of the data attribute as file size */ data = ntfs_find_attr(ino,vol->at_data,NULL); if(!data) { inode->i_size=0; can_mmap=0; } else { inode->i_size=data->size; can_mmap=!data->resident && !data->compressed; } /* get the file modification times from the standard information */ si=ntfs_find_attr(ino,vol->at_standard_information,NULL); if(si){ char *attr=si->d.data; inode->i_atime=ntfs_ntutc2unixutc(NTFS_GETU64(attr+0x18)); inode->i_ctime=ntfs_ntutc2unixutc(NTFS_GETU64(attr)); inode->i_mtime=ntfs_ntutc2unixutc(NTFS_GETU64(attr+8)); } /* if it has an index root, it's a directory */ if(ntfs_find_attr(ino,vol->at_index_root,"$I30")) { ntfs_attribute *at; at = ntfs_find_attr (ino, vol->at_index_allocation, "$I30"); inode->i_size = at ? at->size : 0; inode->i_op=&ntfs_dir_inode_operations; inode->i_fop=&ntfs_dir_operations; inode->i_mode=S_IFDIR|S_IRUGO|S_IXUGO; } else { if (can_mmap) { inode->i_op = &ntfs_inode_operations; inode->i_fop = &ntfs_file_operations; inode->i_mapping->a_ops = &ntfs_aops; inode->u.ntfs_i.mmu_private = inode->i_size; } else { inode->i_op=&ntfs_inode_operations_nobmap; inode->i_fop=&ntfs_file_operations_nommap; } inode->i_mode=S_IFREG|S_IRUGO; } #ifdef CONFIG_NTFS_RW if(!data || !data->compressed) inode->i_mode|=S_IWUGO; #endif inode->i_mode &= ~vol->umask; } #ifdef CONFIG_NTFS_RW static void ntfs_write_inode (struct inode *ino, int unused) { ntfs_debug (DEBUG_LINUX, "ntfs:write inode %x\n", ino->i_ino); ntfs_update_inode (NTFS_LINO2NINO (ino)); } #endif static void _ntfs_clear_inode(struct inode *ino) { ntfs_debug(DEBUG_OTHER, "ntfs_clear_inode %lx\n",ino->i_ino); #ifdef NTFS_IN_LINUX_KERNEL if(ino->i_ino!=FILE_MFT) ntfs_clear_inode(&ino->u.ntfs_i); #else if(ino->i_ino!=FILE_MFT && ino->u.generic_ip) { ntfs_clear_inode(ino->u.generic_ip); ntfs_free(ino->u.generic_ip); ino->u.generic_ip=0; } #endif return; } /* Called when umounting a filesystem by do_umount() in fs/super.c */ static void ntfs_put_super(struct super_block *sb) { ntfs_volume *vol; ntfs_debug(DEBUG_OTHER, "ntfs_put_super\n"); vol=NTFS_SB2VOL(sb); ntfs_release_volume(vol); if(vol->nls_map) unload_nls(vol->nls_map); #ifndef NTFS_IN_LINUX_KERNEL ntfs_free(vol); #endif ntfs_debug(DEBUG_OTHER, "ntfs_put_super: done\n"); } /* Called by the kernel when asking for stats */ static int ntfs_statfs(struct super_block *sb, struct statfs *sf) { struct inode *mft; ntfs_volume *vol; ntfs_u64 size; int error; ntfs_debug(DEBUG_OTHER, "ntfs_statfs\n"); vol=NTFS_SB2VOL(sb); sf->f_type=NTFS_SUPER_MAGIC; sf->f_bsize=vol->clustersize; error = ntfs_get_volumesize( NTFS_SB2VOL( sb ), &size ); if( error ) return -error; sf->f_blocks = size; /* volumesize is in clusters */ sf->f_bfree=ntfs_get_free_cluster_count(vol->bitmap); sf->f_bavail=sf->f_bfree; mft=iget(sb,FILE_MFT); if (!mft) return -EIO; /* So ... we lie... thus this following cast of loff_t value is ok here.. */ sf->f_files = (unsigned long)mft->i_size / vol->mft_recordsize; iput(mft); /* should be read from volume */ sf->f_namelen=255; return 0; } /* Called when remounting a filesystem by do_remount_sb() in fs/super.c */ static int ntfs_remount_fs(struct super_block *sb, int *flags, char *options) { if(!parse_options(NTFS_SB2VOL(sb), options)) return -EINVAL; return 0; } /* Define the super block operation that are implemented */ static struct super_operations ntfs_super_operations = { read_inode: ntfs_read_inode, #ifdef CONFIG_NTFS_RW write_inode: ntfs_write_inode, #endif put_super: ntfs_put_super, statfs: ntfs_statfs, remount_fs: ntfs_remount_fs, clear_inode: _ntfs_clear_inode, }; /* Called to mount a filesystem by read_super() in fs/super.c * Return a super block, the main structure of a filesystem * * NOTE : Don't store a pointer to an option, as the page containing the * options is freed after ntfs_read_super() returns. * * NOTE : A context switch can happen in kernel code only if the code blocks * (= calls schedule() in kernel/sched.c). */ struct super_block * ntfs_read_super(struct super_block *sb, void *options, int silent) { ntfs_volume *vol; struct buffer_head *bh; int i; ntfs_debug(DEBUG_OTHER, "ntfs_read_super\n"); #ifdef NTFS_IN_LINUX_KERNEL vol = NTFS_SB2VOL(sb); #else if(!(vol = ntfs_malloc(sizeof(ntfs_volume)))) goto ntfs_read_super_dec; NTFS_SB2VOL(sb)=vol; #endif if(!parse_options(vol,(char*)options)) goto ntfs_read_super_vol; #if 0 /* Set to read only, user option might reset it */ sb->s_flags |= MS_RDONLY; #endif /* Assume a 512 bytes block device for now */ set_blocksize(sb->s_dev, 512); /* Read the super block (boot block) */ if(!(bh=bread(sb->s_dev,0,512))) { ntfs_error("Reading super block failed\n"); goto ntfs_read_super_unl; } ntfs_debug(DEBUG_OTHER, "Done reading boot block\n"); /* Check for 'NTFS' magic number */ if(!IS_NTFS_VOLUME(bh->b_data)){ ntfs_debug(DEBUG_OTHER, "Not a NTFS volume\n"); brelse(bh); goto ntfs_read_super_unl; } ntfs_debug(DEBUG_OTHER, "Going to init volume\n"); ntfs_init_volume(vol,bh->b_data); ntfs_debug(DEBUG_OTHER, "MFT record at cluster 0x%X\n",vol->mft_cluster); brelse(bh); NTFS_SB(vol)=sb; ntfs_debug(DEBUG_OTHER, "Done to init volume\n"); /* Inform the kernel that a device block is a NTFS cluster */ sb->s_blocksize=vol->clustersize; for(i=sb->s_blocksize,sb->s_blocksize_bits=0;i != 1;i>>=1) sb->s_blocksize_bits++; set_blocksize(sb->s_dev,sb->s_blocksize); ntfs_debug(DEBUG_OTHER, "set_blocksize\n"); /* Allocate a MFT record (MFT record can be smaller than a cluster) */ if(!(vol->mft=ntfs_malloc(max(vol->mft_recordsize,vol->clustersize)))) goto ntfs_read_super_unl; /* Read at least the MFT record for $MFT */ for(i=0;imft_clusters_per_record,1);i++){ if(!(bh=bread(sb->s_dev,vol->mft_cluster+i,vol->clustersize))) { ntfs_error("Could not read MFT record 0\n"); goto ntfs_read_super_mft; } ntfs_memcpy(vol->mft+i*vol->clustersize,bh->b_data,vol->clustersize); brelse(bh); ntfs_debug(DEBUG_OTHER, "Read cluster %x\n",vol->mft_cluster+i); } /* Check and fixup this MFT record */ if(!ntfs_check_mft_record(vol,vol->mft)){ ntfs_error("Invalid MFT record 0\n"); goto ntfs_read_super_mft; } /* Inform the kernel about which super operations are available */ sb->s_op = &ntfs_super_operations; sb->s_magic = NTFS_SUPER_MAGIC; ntfs_debug(DEBUG_OTHER, "Reading special files\n"); if(ntfs_load_special_files(vol)){ ntfs_error("Error loading special files\n"); goto ntfs_read_super_mft; } ntfs_debug(DEBUG_OTHER, "Getting RootDir\n"); /* Get the root directory */ if(!(sb->s_root=d_alloc_root(iget(sb,FILE_ROOT)))){ ntfs_error("Could not get root dir inode\n"); goto ntfs_read_super_mft; } ntfs_debug(DEBUG_OTHER, "read_super: done\n"); return sb; ntfs_read_super_mft: ntfs_free(vol->mft); ntfs_read_super_unl: ntfs_read_super_vol: #ifndef NTFS_IN_LINUX_KERNEL ntfs_free(vol); ntfs_read_super_dec: #endif ntfs_debug(DEBUG_OTHER, "read_super: done\n"); return NULL; } /* Define the filesystem */ static DECLARE_FSTYPE_DEV(ntfs_fs_type, "ntfs", ntfs_read_super); static int __init init_ntfs_fs(void) { /* Comment this if you trust klogd. There are reasons not to trust it */ #if defined(DEBUG) && !defined(MODULE) extern int console_loglevel; console_loglevel=15; #endif printk(KERN_NOTICE "NTFS version " NTFS_VERSION "\n"); SYSCTL(1); ntfs_debug(DEBUG_OTHER, "registering %s\n",ntfs_fs_type.name); /* add this filesystem to the kernel table of filesystems */ return register_filesystem(&ntfs_fs_type); } static void __exit exit_ntfs_fs(void) { SYSCTL(0); ntfs_debug(DEBUG_OTHER, "unregistering %s\n",ntfs_fs_type.name); unregister_filesystem(&ntfs_fs_type); } EXPORT_NO_SYMBOLS; MODULE_AUTHOR("Martin von Löwis"); MODULE_DESCRIPTION("NTFS driver"); MODULE_PARM(ntdebug, "i"); MODULE_PARM_DESC(ntdebug, "Debug level"); module_init(init_ntfs_fs) module_exit(exit_ntfs_fs) /* * Local variables: * c-file-style: "linux" * End: */