/* This file handles the LINK and UNLINK system calls. It also deals with * deallocating the storage used by a file when the last UNLINK is done to a * file and the blocks must be returned to the free block pool. * * The entry points into this file are * do_link: perform the LINK system call * do_unlink: perform the UNLINK and RMDIR system calls * do_rename: perform the RENAME system call * do_truncate: perform the TRUNCATE system call * do_ftruncate: perform the FTRUNCATE system call * truncate_inode: release the blocks associated with an inode up to a size * freesp_inode: release a range of blocks without setting the size */ #include "fs.h" #include #include #include #include #include "buf.h" #include "file.h" #include "fproc.h" #include "inode.h" #include "param.h" #include "super.h" #define SAME 1000 FORWARD _PROTOTYPE( int remove_dir, (struct inode *rldirp, struct inode *rip, char dir_name[NAME_MAX]) ); FORWARD _PROTOTYPE( int unlink_file, (struct inode *dirp, struct inode *rip, char file_name[NAME_MAX]) ); FORWARD _PROTOTYPE( off_t nextblock, (off_t pos, int zonesize) ); FORWARD _PROTOTYPE( void zeroblock_half, (struct inode *i, off_t p, int l)); FORWARD _PROTOTYPE( void zeroblock_range, (struct inode *i, off_t p, off_t h)); /* Args to zeroblock_half() */ #define FIRST_HALF 0 #define LAST_HALF 1 /*===========================================================================* * do_link * *===========================================================================*/ PUBLIC int do_link() { /* Perform the link(name1, name2) system call. */ struct inode *ip, *rip; register int r; char string[NAME_MAX]; struct inode *new_ip; /* See if 'name' (file to be linked) exists. */ if (fetch_name(m_in.name1, m_in.name1_length, M1) != OK) return(err_code); if ( (rip = eat_path(user_path)) == NIL_INODE) return(err_code); /* Check to see if the file has maximum number of links already. */ r = OK; if (rip->i_nlinks >= (rip->i_sp->s_version == V1 ? CHAR_MAX : SHRT_MAX)) r = EMLINK; /* Only super_user may link to directories. */ if (r == OK) if ( (rip->i_mode & I_TYPE) == I_DIRECTORY && !super_user) r = EPERM; /* If error with 'name', return the inode. */ if (r != OK) { put_inode(rip); return(r); } /* Does the final directory of 'name2' exist? */ if (fetch_name(m_in.name2, m_in.name2_length, M1) != OK) { put_inode(rip); return(err_code); } if ( (ip = last_dir(user_path, string)) == NIL_INODE) r = err_code; /* If 'name2' exists in full (even if no space) set 'r' to error. */ if (r == OK) { if ( (new_ip = advance(&ip, string)) == NIL_INODE) { r = err_code; if (r == ENOENT) r = OK; } else { put_inode(new_ip); r = EEXIST; } } /* Check for links across devices. */ if (r == OK) if (rip->i_dev != ip->i_dev) r = EXDEV; /* Try to link. */ if (r == OK) r = search_dir(ip, string, &rip->i_num, ENTER); /* If success, register the linking. */ if (r == OK) { rip->i_nlinks++; rip->i_update |= CTIME; rip->i_dirt = DIRTY; } /* Done. Release both inodes. */ put_inode(rip); put_inode(ip); return(r); } /*===========================================================================* * do_unlink * *===========================================================================*/ PUBLIC int do_unlink() { /* Perform the unlink(name) or rmdir(name) system call. The code for these two * is almost the same. They differ only in some condition testing. Unlink() * may be used by the superuser to do dangerous things; rmdir() may not. */ register struct inode *rip; struct inode *rldirp; int r; char string[NAME_MAX]; /* Get the last directory in the path. */ if (fetch_name(m_in.name, m_in.name_length, M3) != OK) return(err_code); if ( (rldirp = last_dir(user_path, string)) == NIL_INODE) return(err_code); /* The last directory exists. Does the file also exist? */ r = OK; if ( (rip = advance(&rldirp, string)) == NIL_INODE) r = err_code; /* If error, return inode. */ if (r != OK) { put_inode(rldirp); return(r); } /* Do not remove a mount point. */ if (rip->i_num == ROOT_INODE) { put_inode(rldirp); put_inode(rip); return(EBUSY); } /* Now test if the call is allowed, separately for unlink() and rmdir(). */ if (call_nr == UNLINK) { /* Only the su may unlink directories, but the su can unlink any dir.*/ if ( (rip->i_mode & I_TYPE) == I_DIRECTORY && !super_user) r = EPERM; /* Don't unlink a file if it is the root of a mounted file system. */ if (rip->i_num == ROOT_INODE) r = EBUSY; /* Actually try to unlink the file; fails if parent is mode 0 etc. */ if (r == OK) r = unlink_file(rldirp, rip, string); } else { r = remove_dir(rldirp, rip, string); /* call is RMDIR */ } /* If unlink was possible, it has been done, otherwise it has not. */ put_inode(rip); put_inode(rldirp); return(r); } /*===========================================================================* * do_rename * *===========================================================================*/ PUBLIC int do_rename() { /* Perform the rename(name1, name2) system call. */ struct inode *old_dirp, *old_ip; /* ptrs to old dir, file inodes */ struct inode *new_dirp, *new_ip; /* ptrs to new dir, file inodes */ struct inode *new_superdirp, *next_new_superdirp; int r = OK; /* error flag; initially no error */ int odir, ndir; /* TRUE iff {old|new} file is dir */ int same_pdir; /* TRUE iff parent dirs are the same */ char old_name[NAME_MAX], new_name[NAME_MAX]; ino_t numb; int r1; /* See if 'name1' (existing file) exists. Get dir and file inodes. */ if (fetch_name(m_in.name1, m_in.name1_length, M1) != OK) return(err_code); if ( (old_dirp = last_dir(user_path, old_name))==NIL_INODE) return(err_code); if ( (old_ip = advance(&old_dirp, old_name)) == NIL_INODE) r = err_code; /* See if 'name2' (new name) exists. Get dir and file inodes. */ if (fetch_name(m_in.name2, m_in.name2_length, M1) != OK) r = err_code; if ( (new_dirp = last_dir(user_path, new_name)) == NIL_INODE) r = err_code; new_ip = advance(&new_dirp, new_name); /* not required to exist */ if (old_ip != NIL_INODE) odir = ((old_ip->i_mode & I_TYPE) == I_DIRECTORY); /* TRUE iff dir */ /* If it is ok, check for a variety of possible errors. */ if (r == OK) { same_pdir = (old_dirp == new_dirp); /* The old inode must not be a superdirectory of the new last dir. */ if (odir && !same_pdir) { dup_inode(new_superdirp = new_dirp); while (TRUE) { /* may hang in a file system loop */ if (new_superdirp == old_ip) { r = EINVAL; break; } next_new_superdirp = advance(&new_superdirp, dot2); put_inode(new_superdirp); if (next_new_superdirp == new_superdirp) break; /* back at system root directory */ new_superdirp = next_new_superdirp; if (new_superdirp == NIL_INODE) { /* Missing ".." entry. Assume the worst. */ r = EINVAL; break; } } put_inode(new_superdirp); } /* The old or new name must not be . or .. */ if (strcmp(old_name, ".")==0 || strcmp(old_name, "..")==0 || strcmp(new_name, ".")==0 || strcmp(new_name, "..")==0) r = EINVAL; /* Both parent directories must be on the same device. */ if (old_dirp->i_dev != new_dirp->i_dev) r = EXDEV; /* Parent dirs must be writable, searchable and on a writable device */ if ((r1 = forbidden(old_dirp, W_BIT | X_BIT)) != OK || (r1 = forbidden(new_dirp, W_BIT | X_BIT)) != OK) r = r1; /* Some tests apply only if the new path exists. */ if (new_ip == NIL_INODE) { /* don't rename a file with a file system mounted on it. */ if (old_ip->i_dev != old_dirp->i_dev) r = EXDEV; if (odir && new_dirp->i_nlinks >= (new_dirp->i_sp->s_version == V1 ? CHAR_MAX : SHRT_MAX) && !same_pdir && r == OK) r = EMLINK; } else { if (old_ip == new_ip) r = SAME; /* old=new */ /* has the old file or new file a file system mounted on it? */ if (old_ip->i_dev != new_ip->i_dev) r = EXDEV; ndir = ((new_ip->i_mode & I_TYPE) == I_DIRECTORY); /* dir ? */ if (odir == TRUE && ndir == FALSE) r = ENOTDIR; if (odir == FALSE && ndir == TRUE) r = EISDIR; } } /* If a process has another root directory than the system root, we might * "accidently" be moving it's working directory to a place where it's * root directory isn't a super directory of it anymore. This can make * the function chroot useless. If chroot will be used often we should * probably check for it here. */ /* The rename will probably work. Only two things can go wrong now: * 1. being unable to remove the new file. (when new file already exists) * 2. being unable to make the new directory entry. (new file doesn't exists) * [directory has to grow by one block and cannot because the disk * is completely full]. */ if (r == OK) { if (new_ip != NIL_INODE) { /* There is already an entry for 'new'. Try to remove it. */ if (odir) r = remove_dir(new_dirp, new_ip, new_name); else r = unlink_file(new_dirp, new_ip, new_name); } /* if r is OK, the rename will succeed, while there is now an * unused entry in the new parent directory. */ } if (r == OK) { /* If the new name will be in the same parent directory as the old one, * first remove the old name to free an entry for the new name, * otherwise first try to create the new name entry to make sure * the rename will succeed. */ numb = old_ip->i_num; /* inode number of old file */ if (same_pdir) { r = search_dir(old_dirp, old_name, (ino_t *) 0, DELETE); /* shouldn't go wrong. */ if (r==OK) (void) search_dir(old_dirp, new_name, &numb, ENTER); } else { r = search_dir(new_dirp, new_name, &numb, ENTER); if (r == OK) (void) search_dir(old_dirp, old_name, (ino_t *) 0, DELETE); } } /* If r is OK, the ctime and mtime of old_dirp and new_dirp have been marked * for update in search_dir. */ if (r == OK && odir && !same_pdir) { /* Update the .. entry in the directory (still points to old_dirp). */ numb = new_dirp->i_num; (void) unlink_file(old_ip, NIL_INODE, dot2); if (search_dir(old_ip, dot2, &numb, ENTER) == OK) { /* New link created. */ new_dirp->i_nlinks++; new_dirp->i_dirt = DIRTY; } } /* Release the inodes. */ put_inode(old_dirp); put_inode(old_ip); put_inode(new_dirp); put_inode(new_ip); return(r == SAME ? OK : r); } /*===========================================================================* * do_truncate * *===========================================================================*/ PUBLIC int do_truncate() { /* truncate_inode() does the actual work of do_truncate() and do_ftruncate(). * do_truncate() and do_ftruncate() have to get hold of the inode, either * by name or fd, do checks on it, and call truncate_inode() to do the * work. */ int r; struct inode *rip; /* pointer to inode to be truncated */ if (fetch_name(m_in.m2_p1, m_in.m2_i1, M1) != OK) return err_code; if( (rip = eat_path(user_path)) == NIL_INODE) return err_code; if ( (rip->i_mode & I_TYPE) != I_REGULAR) r = EINVAL; else r = truncate_inode(rip, m_in.m2_l1); put_inode(rip); return r; } /*===========================================================================* * do_ftruncate * *===========================================================================*/ PUBLIC int do_ftruncate() { /* As with do_truncate(), truncate_inode() does the actual work. */ struct filp *rfilp; if ( (rfilp = get_filp(m_in.m2_i1)) == NIL_FILP) return err_code; if ( (rfilp->filp_ino->i_mode & I_TYPE) != I_REGULAR) return EINVAL; return truncate_inode(rfilp->filp_ino, m_in.m2_l1); } /*===========================================================================* * truncate_inode * *===========================================================================*/ PUBLIC int truncate_inode(rip, newsize) register struct inode *rip; /* pointer to inode to be truncated */ off_t newsize; /* inode must become this size */ { /* Set inode to a certain size, freeing any zones no longer referenced * and updating the size in the inode. If the inode is extended, the * extra space is a hole that reads as zeroes. * * Nothing special has to happen to file pointers if inode is opened in * O_APPEND mode, as this is different per fd and is checked when * writing is done. */ zone_t zone_size; int scale, file_type, waspipe; dev_t dev; file_type = rip->i_mode & I_TYPE; /* check to see if file is special */ if (file_type == I_CHAR_SPECIAL || file_type == I_BLOCK_SPECIAL) return EINVAL; if(newsize > rip->i_sp->s_max_size) /* don't let inode grow too big */ return EFBIG; dev = rip->i_dev; /* device on which inode resides */ scale = rip->i_sp->s_log_zone_size; zone_size = (zone_t) rip->i_sp->s_block_size << scale; /* Pipes can shrink, so adjust size to make sure all zones are removed. */ waspipe = rip->i_pipe == I_PIPE; /* TRUE if this was a pipe */ if (waspipe) { if(newsize != 0) return EINVAL; /* Only truncate pipes to 0. */ rip->i_size = PIPE_SIZE(rip->i_sp->s_block_size); } /* Free the actual space if relevant. */ if(newsize < rip->i_size) freesp_inode(rip, newsize, rip->i_size); /* Next correct the inode size. */ if(!waspipe) rip->i_size = newsize; else wipe_inode(rip); /* Pipes can only be truncated to 0. */ rip->i_dirt = DIRTY; return OK; } /*===========================================================================* * freesp_inode * *===========================================================================*/ PUBLIC int freesp_inode(rip, start, end) register struct inode *rip; /* pointer to inode to be partly freed */ off_t start, end; /* range of bytes to free (end uninclusive) */ { /* Cut an arbitrary hole in an inode. The caller is responsible for checking * the reasonableness of the inode type of rip. The reason is this is that * this function can be called for different reasons, for which different * sets of inode types are reasonable. Adjusting the final size of the inode * is to be done by the caller too, if wished. * * Consumers of this function currently are truncate_inode() (used to * free indirect and data blocks for any type of inode, but also to * implement the ftruncate() and truncate() system calls) and the F_FREESP * fcntl(). */ off_t p, e; int zone_size, dev; if(end > rip->i_size) /* freeing beyond end makes no sense */ end = rip->i_size; if(end <= start) /* end is uninclusive, so starti_sp->s_block_size << rip->i_sp->s_log_zone_size; dev = rip->i_dev; /* device on which inode resides */ /* If freeing doesn't cross a zone boundary, then we may only zero * a range of the block. */ if(start/zone_size == (end-1)/zone_size) { zeroblock_range(rip, start, end-start); } else { /* First zero unused part of partly used blocks. */ if(start%zone_size) zeroblock_half(rip, start, LAST_HALF); if(end%zone_size && end < rip->i_size) zeroblock_half(rip, end, FIRST_HALF); } /* Now completely free the completely unused blocks. * write_map() will free unused (double) indirect * blocks too. Converting the range to zone numbers avoids * overflow on p when doing e.g. 'p += zone_size'. */ e = end/zone_size; if(end == rip->i_size && (end % zone_size)) e++; for(p = nextblock(start, zone_size)/zone_size; p < e; p ++) write_map(rip, p*zone_size, NO_ZONE, WMAP_FREE); return OK; } /*===========================================================================* * nextblock * *===========================================================================*/ PRIVATE off_t nextblock(pos, zone_size) off_t pos; int zone_size; { /* Return the first position in the next block after position 'pos' * (unless this is the first position in the current block). * This can be done in one expression, but that can overflow pos. */ off_t p; p = (pos/zone_size)*zone_size; if((pos % zone_size)) p += zone_size; /* Round up. */ return p; } /*===========================================================================* * zeroblock_half * *===========================================================================*/ PRIVATE void zeroblock_half(rip, pos, half) struct inode *rip; off_t pos; int half; { /* Zero the upper or lower 'half' of a block that holds position 'pos'. * half can be FIRST_HALF or LAST_HALF. * * FIRST_HALF: 0..pos-1 will be zeroed * LAST_HALF: pos..blocksize-1 will be zeroed */ int offset, len; /* Offset of zeroing boundary. */ offset = pos % rip->i_sp->s_block_size; if(half == LAST_HALF) { len = rip->i_sp->s_block_size - offset; } else { len = offset; pos -= offset; offset = 0; } zeroblock_range(rip, pos, len); } /*===========================================================================* * zeroblock_range * *===========================================================================*/ PRIVATE void zeroblock_range(rip, pos, len) struct inode *rip; off_t pos; off_t len; { /* Zero a range in a block. * This function is used to zero a segment of a block, either * FIRST_HALF of LAST_HALF. * */ block_t b; struct buf *bp; off_t offset; if(!len) return; /* no zeroing to be done. */ if( (b = read_map(rip, pos)) == NO_BLOCK) return; if( (bp = get_block(rip->i_dev, b, NORMAL)) == NIL_BUF) panic(__FILE__, "zeroblock_range: no block", NO_NUM); offset = pos % rip->i_sp->s_block_size; if(offset + len > rip->i_sp->s_block_size) panic(__FILE__, "zeroblock_range: len too long", len); memset(bp->b_data + offset, 0, len); bp->b_dirt = DIRTY; put_block(bp, FULL_DATA_BLOCK); } /*===========================================================================* * remove_dir * *===========================================================================*/ PRIVATE int remove_dir(rldirp, rip, dir_name) struct inode *rldirp; /* parent directory */ struct inode *rip; /* directory to be removed */ char dir_name[NAME_MAX]; /* name of directory to be removed */ { /* A directory file has to be removed. Five conditions have to met: * - The file must be a directory * - The directory must be empty (except for . and ..) * - The final component of the path must not be . or .. * - The directory must not be the root of a mounted file system * - The directory must not be anybody's root/working directory */ int r; register struct fproc *rfp; /* search_dir checks that rip is a directory too. */ if ((r = search_dir(rip, "", (ino_t *) 0, IS_EMPTY)) != OK) return r; if (strcmp(dir_name, ".") == 0 || strcmp(dir_name, "..") == 0)return(EINVAL); if (rip->i_num == ROOT_INODE) return(EBUSY); /* can't remove 'root' */ for (rfp = &fproc[INIT_PROC_NR + 1]; rfp < &fproc[NR_PROCS]; rfp++) if (rfp->fp_pid != PID_FREE && (rfp->fp_workdir == rip || rfp->fp_rootdir == rip)) return(EBUSY); /* can't remove anybody's working dir */ /* Actually try to unlink the file; fails if parent is mode 0 etc. */ if ((r = unlink_file(rldirp, rip, dir_name)) != OK) return r; /* Unlink . and .. from the dir. The super user can link and unlink any dir, * so don't make too many assumptions about them. */ (void) unlink_file(rip, NIL_INODE, dot1); (void) unlink_file(rip, NIL_INODE, dot2); return(OK); } /*===========================================================================* * unlink_file * *===========================================================================*/ PRIVATE int unlink_file(dirp, rip, file_name) struct inode *dirp; /* parent directory of file */ struct inode *rip; /* inode of file, may be NIL_INODE too. */ char file_name[NAME_MAX]; /* name of file to be removed */ { /* Unlink 'file_name'; rip must be the inode of 'file_name' or NIL_INODE. */ ino_t numb; /* inode number */ int r; /* If rip is not NIL_INODE, it is used to get faster access to the inode. */ if (rip == NIL_INODE) { /* Search for file in directory and try to get its inode. */ err_code = search_dir(dirp, file_name, &numb, LOOK_UP); if (err_code == OK) rip = get_inode(dirp->i_dev, (int) numb); if (err_code != OK || rip == NIL_INODE) return(err_code); } else { dup_inode(rip); /* inode will be returned with put_inode */ } r = search_dir(dirp, file_name, (ino_t *) 0, DELETE); if (r == OK) { rip->i_nlinks--; /* entry deleted from parent's dir */ rip->i_update |= CTIME; rip->i_dirt = DIRTY; } put_inode(rip); return(r); }