/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static int pcfs_open(struct vnode **, int, struct cred *, caller_context_t *ct); static int pcfs_close(struct vnode *, int, int, offset_t, struct cred *, caller_context_t *ct); static int pcfs_read(struct vnode *, struct uio *, int, struct cred *, caller_context_t *); static int pcfs_write(struct vnode *, struct uio *, int, struct cred *, caller_context_t *); static int pcfs_getattr(struct vnode *, struct vattr *, int, struct cred *, caller_context_t *ct); static int pcfs_setattr(struct vnode *, struct vattr *, int, struct cred *, caller_context_t *); static int pcfs_access(struct vnode *, int, int, struct cred *, caller_context_t *ct); static int pcfs_lookup(struct vnode *, char *, struct vnode **, struct pathname *, int, struct vnode *, struct cred *, caller_context_t *, int *, pathname_t *); static int pcfs_create(struct vnode *, char *, struct vattr *, enum vcexcl, int mode, struct vnode **, struct cred *, int, caller_context_t *, vsecattr_t *); static int pcfs_remove(struct vnode *, char *, struct cred *, caller_context_t *, int); static int pcfs_rename(struct vnode *, char *, struct vnode *, char *, struct cred *, caller_context_t *, int); static int pcfs_mkdir(struct vnode *, char *, struct vattr *, struct vnode **, struct cred *, caller_context_t *, int, vsecattr_t *); static int pcfs_rmdir(struct vnode *, char *, struct vnode *, struct cred *, caller_context_t *, int); static int pcfs_readdir(struct vnode *, struct uio *, struct cred *, int *, caller_context_t *, int); static int pcfs_fsync(struct vnode *, int, struct cred *, caller_context_t *); static void pcfs_inactive(struct vnode *, struct cred *, caller_context_t *); static int pcfs_fid(struct vnode *vp, struct fid *fidp, caller_context_t *); static int pcfs_space(struct vnode *, int, struct flock64 *, int, offset_t, cred_t *, caller_context_t *); static int pcfs_getpage(struct vnode *, offset_t, size_t, uint_t *, page_t *[], size_t, struct seg *, caddr_t, enum seg_rw, struct cred *, caller_context_t *); static int pcfs_getapage(struct vnode *, u_offset_t, size_t, uint_t *, page_t *[], size_t, struct seg *, caddr_t, enum seg_rw, struct cred *); static int pcfs_putpage(struct vnode *, offset_t, size_t, int, struct cred *, caller_context_t *); static int pcfs_map(struct vnode *, offset_t, struct as *, caddr_t *, size_t, uchar_t, uchar_t, uint_t, struct cred *, caller_context_t *); static int pcfs_addmap(struct vnode *, offset_t, struct as *, caddr_t, size_t, uchar_t, uchar_t, uint_t, struct cred *, caller_context_t *); static int pcfs_delmap(struct vnode *, offset_t, struct as *, caddr_t, size_t, uint_t, uint_t, uint_t, struct cred *, caller_context_t *); static int pcfs_seek(struct vnode *, offset_t, offset_t *, caller_context_t *); static int pcfs_pathconf(struct vnode *, int, ulong_t *, struct cred *, caller_context_t *); int pcfs_putapage(struct vnode *, page_t *, u_offset_t *, size_t *, int, struct cred *); static int rwpcp(struct pcnode *, struct uio *, enum uio_rw, int); static int get_long_fn_chunk(struct pcdir_lfn *ep, char *buf, int foldcase); extern krwlock_t pcnodes_lock; #define lround(r) (((r)+sizeof (long long)-1)&(~(sizeof (long long)-1))) /* * vnode op vectors for files and directories. */ struct vnodeops *pcfs_fvnodeops; struct vnodeops *pcfs_dvnodeops; const fs_operation_def_t pcfs_fvnodeops_template[] = { VOPNAME_OPEN, { .vop_open = pcfs_open }, VOPNAME_CLOSE, { .vop_close = pcfs_close }, VOPNAME_READ, { .vop_read = pcfs_read }, VOPNAME_WRITE, { .vop_write = pcfs_write }, VOPNAME_GETATTR, { .vop_getattr = pcfs_getattr }, VOPNAME_SETATTR, { .vop_setattr = pcfs_setattr }, VOPNAME_ACCESS, { .vop_access = pcfs_access }, VOPNAME_FSYNC, { .vop_fsync = pcfs_fsync }, VOPNAME_INACTIVE, { .vop_inactive = pcfs_inactive }, VOPNAME_FID, { .vop_fid = pcfs_fid }, VOPNAME_SEEK, { .vop_seek = pcfs_seek }, VOPNAME_SPACE, { .vop_space = pcfs_space }, VOPNAME_GETPAGE, { .vop_getpage = pcfs_getpage }, VOPNAME_PUTPAGE, { .vop_putpage = pcfs_putpage }, VOPNAME_MAP, { .vop_map = pcfs_map }, VOPNAME_ADDMAP, { .vop_addmap = pcfs_addmap }, VOPNAME_DELMAP, { .vop_delmap = pcfs_delmap }, VOPNAME_PATHCONF, { .vop_pathconf = pcfs_pathconf }, VOPNAME_VNEVENT, { .vop_vnevent = fs_vnevent_support }, NULL, NULL }; const fs_operation_def_t pcfs_dvnodeops_template[] = { VOPNAME_OPEN, { .vop_open = pcfs_open }, VOPNAME_CLOSE, { .vop_close = pcfs_close }, VOPNAME_GETATTR, { .vop_getattr = pcfs_getattr }, VOPNAME_SETATTR, { .vop_setattr = pcfs_setattr }, VOPNAME_ACCESS, { .vop_access = pcfs_access }, VOPNAME_LOOKUP, { .vop_lookup = pcfs_lookup }, VOPNAME_CREATE, { .vop_create = pcfs_create }, VOPNAME_REMOVE, { .vop_remove = pcfs_remove }, VOPNAME_RENAME, { .vop_rename = pcfs_rename }, VOPNAME_MKDIR, { .vop_mkdir = pcfs_mkdir }, VOPNAME_RMDIR, { .vop_rmdir = pcfs_rmdir }, VOPNAME_READDIR, { .vop_readdir = pcfs_readdir }, VOPNAME_FSYNC, { .vop_fsync = pcfs_fsync }, VOPNAME_INACTIVE, { .vop_inactive = pcfs_inactive }, VOPNAME_FID, { .vop_fid = pcfs_fid }, VOPNAME_SEEK, { .vop_seek = pcfs_seek }, VOPNAME_PATHCONF, { .vop_pathconf = pcfs_pathconf }, VOPNAME_VNEVENT, { .vop_vnevent = fs_vnevent_support }, NULL, NULL }; /*ARGSUSED*/ static int pcfs_open( struct vnode **vpp, int flag, struct cred *cr, caller_context_t *ct) { return (0); } /* * files are sync'ed on close to keep floppy up to date */ /*ARGSUSED*/ static int pcfs_close( struct vnode *vp, int flag, int count, offset_t offset, struct cred *cr, caller_context_t *ct) { return (0); } /*ARGSUSED*/ static int pcfs_read( struct vnode *vp, struct uio *uiop, int ioflag, struct cred *cr, struct caller_context *ct) { struct pcfs *fsp; struct pcnode *pcp; int error; fsp = VFSTOPCFS(vp->v_vfsp); if (error = pc_verify(fsp)) return (error); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if ((pcp = VTOPC(vp)) == NULL || pcp->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } error = rwpcp(pcp, uiop, UIO_READ, ioflag); if ((fsp->pcfs_vfs->vfs_flag & VFS_RDONLY) == 0) { pc_mark_acc(fsp, pcp); } pc_unlockfs(fsp); if (error) { PC_DPRINTF1(1, "pcfs_read: io error = %d\n", error); } return (error); } /*ARGSUSED*/ static int pcfs_write( struct vnode *vp, struct uio *uiop, int ioflag, struct cred *cr, struct caller_context *ct) { struct pcfs *fsp; struct pcnode *pcp; int error; fsp = VFSTOPCFS(vp->v_vfsp); if (error = pc_verify(fsp)) return (error); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if ((pcp = VTOPC(vp)) == NULL || pcp->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } if (ioflag & FAPPEND) { /* * in append mode start at end of file. */ uiop->uio_loffset = pcp->pc_size; } error = rwpcp(pcp, uiop, UIO_WRITE, ioflag); pcp->pc_flags |= PC_MOD; pc_mark_mod(fsp, pcp); if (ioflag & (FSYNC|FDSYNC)) (void) pc_nodeupdate(pcp); pc_unlockfs(fsp); if (error) { PC_DPRINTF1(1, "pcfs_write: io error = %d\n", error); } return (error); } /* * read or write a vnode */ static int rwpcp( struct pcnode *pcp, struct uio *uio, enum uio_rw rw, int ioflag) { struct vnode *vp = PCTOV(pcp); struct pcfs *fsp; daddr_t bn; /* phys block number */ int n; offset_t off; caddr_t base; int mapon, pagecreate; int newpage; int error = 0; rlim64_t limit = uio->uio_llimit; int oresid = uio->uio_resid; /* * If the filesystem was umounted by force, return immediately. */ if (vp->v_vfsp->vfs_flag & VFS_UNMOUNTED) return (EIO); PC_DPRINTF4(5, "rwpcp pcp=%p off=%lld resid=%ld size=%u\n", (void *)pcp, uio->uio_loffset, uio->uio_resid, pcp->pc_size); ASSERT(rw == UIO_READ || rw == UIO_WRITE); ASSERT(vp->v_type == VREG); if (uio->uio_loffset >= UINT32_MAX && rw == UIO_READ) { return (0); } if (uio->uio_loffset < 0) return (EINVAL); if (limit == RLIM64_INFINITY || limit > MAXOFFSET_T) limit = MAXOFFSET_T; if (uio->uio_loffset >= limit && rw == UIO_WRITE) { proc_t *p = ttoproc(curthread); mutex_enter(&p->p_lock); (void) rctl_action(rctlproc_legacy[RLIMIT_FSIZE], p->p_rctls, p, RCA_UNSAFE_SIGINFO); mutex_exit(&p->p_lock); return (EFBIG); } /* the following condition will occur only for write */ if (uio->uio_loffset >= UINT32_MAX) return (EFBIG); if (uio->uio_resid == 0) return (0); if (limit > UINT32_MAX) limit = UINT32_MAX; fsp = VFSTOPCFS(vp->v_vfsp); if (fsp->pcfs_flags & PCFS_IRRECOV) return (EIO); do { /* * Assignments to "n" in this block may appear * to overflow in some cases. However, after careful * analysis it was determined that all assignments to * "n" serve only to make "n" smaller. Since "n" * starts out as no larger than MAXBSIZE, "int" is * safe. */ off = uio->uio_loffset & MAXBMASK; mapon = (int)(uio->uio_loffset & MAXBOFFSET); n = MIN(MAXBSIZE - mapon, uio->uio_resid); if (rw == UIO_READ) { offset_t diff; diff = pcp->pc_size - uio->uio_loffset; if (diff <= 0) return (0); if (diff < n) n = (int)diff; } /* * Compare limit with the actual offset + n, not the * rounded down offset "off" or we will overflow * the maximum file size after all. */ if (rw == UIO_WRITE && uio->uio_loffset + n >= limit) { if (uio->uio_loffset >= limit) { error = EFBIG; break; } n = (int)(limit - uio->uio_loffset); } base = segmap_getmap(segkmap, vp, (u_offset_t)off); pagecreate = 0; newpage = 0; if (rw == UIO_WRITE) { /* * If PAGESIZE < MAXBSIZE, perhaps we ought to deal * with one page at a time, instead of one MAXBSIZE * at a time, so we can fully explore pagecreate * optimization?? */ if (uio->uio_loffset + n > pcp->pc_size) { uint_t ncl, lcn; ncl = (uint_t)howmany((offset_t)pcp->pc_size, fsp->pcfs_clsize); if (uio->uio_loffset > pcp->pc_size && ncl < (uint_t)howmany(uio->uio_loffset, fsp->pcfs_clsize)) { /* * Allocate and zerofill skipped * clusters. This may not be worth the * effort since a small lseek beyond * eof but still within the cluster * will not be zeroed out. */ lcn = pc_lblkno(fsp, uio->uio_loffset); error = pc_balloc(pcp, (daddr_t)lcn, 1, &bn); ncl = lcn + 1; } if (!error && ncl < (uint_t)howmany(uio->uio_loffset + n, fsp->pcfs_clsize)) /* * allocate clusters w/o zerofill */ error = pc_balloc(pcp, (daddr_t)pc_lblkno(fsp, uio->uio_loffset + n - 1), 0, &bn); pcp->pc_flags |= PC_CHG; if (error) { pc_cluster32_t ncl; int nerror; /* * figure out new file size from * cluster chain length. If this * is detected to loop, the chain * is corrupted and we'd better * keep our fingers off that file. */ nerror = pc_fileclsize(fsp, pcp->pc_scluster, &ncl); if (nerror) { PC_DPRINTF1(2, "cluster chain " "corruption, " "scluster=%d\n", pcp->pc_scluster); pcp->pc_size = 0; pcp->pc_flags |= PC_INVAL; error = nerror; (void) segmap_release(segkmap, base, 0); break; } pcp->pc_size = fsp->pcfs_clsize * ncl; if (error == ENOSPC && (pcp->pc_size - uio->uio_loffset) > 0) { PC_DPRINTF3(2, "rwpcp ENOSPC " "off=%lld n=%d size=%d\n", uio->uio_loffset, n, pcp->pc_size); n = (int)(pcp->pc_size - uio->uio_loffset); } else { PC_DPRINTF1(1, "rwpcp error1=%d\n", error); (void) segmap_release(segkmap, base, 0); break; } } else { pcp->pc_size = (uint_t)(uio->uio_loffset + n); } if (mapon == 0) { newpage = segmap_pagecreate(segkmap, base, (size_t)n, 0); pagecreate = 1; } } else if (n == MAXBSIZE) { newpage = segmap_pagecreate(segkmap, base, (size_t)n, 0); pagecreate = 1; } } error = uiomove(base + mapon, (size_t)n, rw, uio); if (pagecreate && uio->uio_loffset < roundup(off + mapon + n, PAGESIZE)) { offset_t nzero, nmoved; nmoved = uio->uio_loffset - (off + mapon); nzero = roundup(mapon + n, PAGESIZE) - nmoved; (void) kzero(base + mapon + nmoved, (size_t)nzero); } /* * Unlock the pages which have been allocated by * page_create_va() in segmap_pagecreate(). */ if (newpage) { segmap_pageunlock(segkmap, base, (size_t)n, rw == UIO_WRITE ? S_WRITE : S_READ); } if (error) { PC_DPRINTF1(1, "rwpcp error2=%d\n", error); /* * If we failed on a write, we may have already * allocated file blocks as well as pages. It's hard * to undo the block allocation, but we must be sure * to invalidate any pages that may have been * allocated. */ if (rw == UIO_WRITE) (void) segmap_release(segkmap, base, SM_INVAL); else (void) segmap_release(segkmap, base, 0); } else { uint_t flags = 0; if (rw == UIO_READ) { if (n + mapon == MAXBSIZE || uio->uio_loffset == pcp->pc_size) flags = SM_DONTNEED; } else if (ioflag & (FSYNC|FDSYNC)) { flags = SM_WRITE; } else if (n + mapon == MAXBSIZE) { flags = SM_WRITE|SM_ASYNC|SM_DONTNEED; } error = segmap_release(segkmap, base, flags); } } while (error == 0 && uio->uio_resid > 0 && n != 0); if (oresid != uio->uio_resid) error = 0; return (error); } /*ARGSUSED*/ static int pcfs_getattr( struct vnode *vp, struct vattr *vap, int flags, struct cred *cr, caller_context_t *ct) { struct pcnode *pcp; struct pcfs *fsp; int error; char attr; struct pctime atime; int64_t unixtime; PC_DPRINTF1(8, "pcfs_getattr: vp=%p\n", (void *)vp); fsp = VFSTOPCFS(vp->v_vfsp); error = pc_lockfs(fsp, 0, 0); if (error) return (error); /* * Note that we don't check for "invalid node" (PC_INVAL) here * only in order to make stat() succeed. We allow no I/O on such * a node, but do allow to check for its existence. */ if ((pcp = VTOPC(vp)) == NULL) { pc_unlockfs(fsp); return (EIO); } /* * Copy from pcnode. */ vap->va_type = vp->v_type; attr = pcp->pc_entry.pcd_attr; if (PCA_IS_HIDDEN(fsp, attr)) vap->va_mode = 0; else if (attr & PCA_LABEL) vap->va_mode = 0444; else if (attr & PCA_RDONLY) vap->va_mode = 0555; else if (fsp->pcfs_flags & PCFS_BOOTPART) { vap->va_mode = 0755; } else { vap->va_mode = 0777; } if (attr & PCA_DIR) vap->va_mode |= S_IFDIR; else vap->va_mode |= S_IFREG; if (fsp->pcfs_flags & PCFS_BOOTPART) { vap->va_uid = 0; vap->va_gid = 0; } else { vap->va_uid = crgetuid(cr); vap->va_gid = crgetgid(cr); } vap->va_fsid = vp->v_vfsp->vfs_dev; vap->va_nodeid = (ino64_t)pc_makenodeid(pcp->pc_eblkno, pcp->pc_eoffset, pcp->pc_entry.pcd_attr, pc_getstartcluster(fsp, &pcp->pc_entry), pc_direntpersec(fsp)); vap->va_nlink = 1; vap->va_size = (u_offset_t)pcp->pc_size; vap->va_rdev = 0; vap->va_nblocks = (fsblkcnt64_t)howmany((offset_t)pcp->pc_size, DEV_BSIZE); vap->va_blksize = fsp->pcfs_clsize; /* * FAT root directories have no timestamps. In order not to return * "time zero" (1/1/1970), we record the time of the mount and give * that. This breaks less expectations. */ if (vp->v_flag & VROOT) { vap->va_mtime = fsp->pcfs_mounttime; vap->va_atime = fsp->pcfs_mounttime; vap->va_ctime = fsp->pcfs_mounttime; pc_unlockfs(fsp); return (0); } pc_pcttotv(&pcp->pc_entry.pcd_mtime, &unixtime); if ((fsp->pcfs_flags & PCFS_NOCLAMPTIME) == 0) { if (unixtime > INT32_MAX) DTRACE_PROBE1(pcfs__mtimeclamped, int64_t, unixtime); unixtime = MIN(unixtime, INT32_MAX); } else if (unixtime > INT32_MAX && get_udatamodel() == DATAMODEL_ILP32) { pc_unlockfs(fsp); DTRACE_PROBE1(pcfs__mtimeoverflowed, int64_t, unixtime); return (EOVERFLOW); } vap->va_mtime.tv_sec = (time_t)unixtime; vap->va_mtime.tv_nsec = 0; /* * FAT doesn't know about POSIX ctime. * Best approximation is to always set it to mtime. */ vap->va_ctime = vap->va_mtime; /* * FAT only stores "last access date". If that's the * same as the date of last modification then the time * of last access is known. Otherwise, use midnight. */ atime.pct_date = pcp->pc_entry.pcd_ladate; if (atime.pct_date == pcp->pc_entry.pcd_mtime.pct_date) atime.pct_time = pcp->pc_entry.pcd_mtime.pct_time; else atime.pct_time = 0; pc_pcttotv(&atime, &unixtime); if ((fsp->pcfs_flags & PCFS_NOCLAMPTIME) == 0) { if (unixtime > INT32_MAX) DTRACE_PROBE1(pcfs__atimeclamped, int64_t, unixtime); unixtime = MIN(unixtime, INT32_MAX); } else if (unixtime > INT32_MAX && get_udatamodel() == DATAMODEL_ILP32) { pc_unlockfs(fsp); DTRACE_PROBE1(pcfs__atimeoverflowed, int64_t, unixtime); return (EOVERFLOW); } vap->va_atime.tv_sec = (time_t)unixtime; vap->va_atime.tv_nsec = 0; pc_unlockfs(fsp); return (0); } /*ARGSUSED*/ static int pcfs_setattr( struct vnode *vp, struct vattr *vap, int flags, struct cred *cr, caller_context_t *ct) { struct pcnode *pcp; mode_t mask = vap->va_mask; int error; struct pcfs *fsp; timestruc_t now, *timep; PC_DPRINTF2(6, "pcfs_setattr: vp=%p mask=%x\n", (void *)vp, (int)mask); /* * cannot set these attributes */ if (mask & (AT_NOSET | AT_UID | AT_GID)) { return (EINVAL); } /* * pcfs_setattr is now allowed on directories to avoid silly warnings * from 'tar' when it tries to set times on a directory, and console * printf's on the NFS server when it gets EINVAL back on such a * request. One possible problem with that since a directory entry * identifies a file, '.' and all the '..' entries in subdirectories * may get out of sync when the directory is updated since they're * treated like separate files. We could fix that by looking for * '.' and giving it the same attributes, and then looking for * all the subdirectories and updating '..', but that's pretty * expensive for something that doesn't seem likely to matter. */ /* can't do some ops on directories anyway */ if ((vp->v_type == VDIR) && (mask & AT_SIZE)) { return (EINVAL); } fsp = VFSTOPCFS(vp->v_vfsp); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if ((pcp = VTOPC(vp)) == NULL || pcp->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } if (fsp->pcfs_flags & PCFS_BOOTPART) { if (secpolicy_pcfs_modify_bootpartition(cr) != 0) { pc_unlockfs(fsp); return (EACCES); } } /* * Change file access modes. * If nobody has write permission, file is marked readonly. * Otherwise file is writable by anyone. */ if ((mask & AT_MODE) && (vap->va_mode != (mode_t)-1)) { if ((vap->va_mode & 0222) == 0) pcp->pc_entry.pcd_attr |= PCA_RDONLY; else pcp->pc_entry.pcd_attr &= ~PCA_RDONLY; pcp->pc_flags |= PC_CHG; } /* * Truncate file. Must have write permission. */ if ((mask & AT_SIZE) && (vap->va_size != (u_offset_t)-1)) { if (pcp->pc_entry.pcd_attr & PCA_RDONLY) { error = EACCES; goto out; } if (vap->va_size > UINT32_MAX) { error = EFBIG; goto out; } error = pc_truncate(pcp, (uint_t)vap->va_size); if (error) goto out; } /* * Change file modified times. */ if (mask & (AT_MTIME | AT_CTIME)) { /* * If SysV-compatible option to set access and * modified times if privileged, owner, or write access, * use current time rather than va_mtime. * * XXX - va_mtime.tv_sec == -1 flags this. */ timep = &vap->va_mtime; if (vap->va_mtime.tv_sec == -1) { gethrestime(&now); timep = &now; } if ((fsp->pcfs_flags & PCFS_NOCLAMPTIME) == 0 && timep->tv_sec > INT32_MAX) { error = EOVERFLOW; goto out; } error = pc_tvtopct(timep, &pcp->pc_entry.pcd_mtime); if (error) goto out; pcp->pc_flags |= PC_CHG; } /* * Change file access times. */ if (mask & AT_ATIME) { /* * If SysV-compatible option to set access and * modified times if privileged, owner, or write access, * use current time rather than va_mtime. * * XXX - va_atime.tv_sec == -1 flags this. */ struct pctime atime; timep = &vap->va_atime; if (vap->va_atime.tv_sec == -1) { gethrestime(&now); timep = &now; } if ((fsp->pcfs_flags & PCFS_NOCLAMPTIME) == 0 && timep->tv_sec > INT32_MAX) { error = EOVERFLOW; goto out; } error = pc_tvtopct(timep, &atime); if (error) goto out; pcp->pc_entry.pcd_ladate = atime.pct_date; pcp->pc_flags |= PC_CHG; } out: pc_unlockfs(fsp); return (error); } /*ARGSUSED*/ static int pcfs_access( struct vnode *vp, int mode, int flags, struct cred *cr, caller_context_t *ct) { struct pcnode *pcp; struct pcfs *fsp; fsp = VFSTOPCFS(vp->v_vfsp); if ((pcp = VTOPC(vp)) == NULL || pcp->pc_flags & PC_INVAL) return (EIO); if ((mode & VWRITE) && (pcp->pc_entry.pcd_attr & PCA_RDONLY)) return (EACCES); /* * If this is a boot partition, privileged users have full access while * others have read-only access. */ if (fsp->pcfs_flags & PCFS_BOOTPART) { if ((mode & VWRITE) && secpolicy_pcfs_modify_bootpartition(cr) != 0) return (EACCES); } return (0); } /*ARGSUSED*/ static int pcfs_fsync( struct vnode *vp, int syncflag, struct cred *cr, caller_context_t *ct) { struct pcfs *fsp; struct pcnode *pcp; int error; fsp = VFSTOPCFS(vp->v_vfsp); if (error = pc_verify(fsp)) return (error); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if ((pcp = VTOPC(vp)) == NULL || pcp->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } rw_enter(&pcnodes_lock, RW_WRITER); error = pc_nodesync(pcp); rw_exit(&pcnodes_lock); pc_unlockfs(fsp); return (error); } /*ARGSUSED*/ static void pcfs_inactive( struct vnode *vp, struct cred *cr, caller_context_t *ct) { struct pcnode *pcp; struct pcfs *fsp; int error; fsp = VFSTOPCFS(vp->v_vfsp); error = pc_lockfs(fsp, 0, 1); /* * If the filesystem was umounted by force, all dirty * pages associated with this vnode are invalidated * and then the vnode will be freed. */ if (vp->v_vfsp->vfs_flag & VFS_UNMOUNTED) { pcp = VTOPC(vp); if (vn_has_cached_data(vp)) { (void) pvn_vplist_dirty(vp, (u_offset_t)0, pcfs_putapage, B_INVAL, (struct cred *)NULL); } remque(pcp); if (error == 0) pc_unlockfs(fsp); vn_free(vp); kmem_free(pcp, sizeof (struct pcnode)); VFS_RELE(PCFSTOVFS(fsp)); return; } mutex_enter(&vp->v_lock); ASSERT(vp->v_count >= 1); if (vp->v_count > 1) { vp->v_count--; /* release our hold from vn_rele */ mutex_exit(&vp->v_lock); pc_unlockfs(fsp); return; } mutex_exit(&vp->v_lock); /* * Check again to confirm that no intervening I/O error * with a subsequent pc_diskchanged() call has released * the pcnode. If it has then release the vnode as above. */ pcp = VTOPC(vp); if (pcp == NULL || pcp->pc_flags & PC_INVAL) { if (vn_has_cached_data(vp)) (void) pvn_vplist_dirty(vp, (u_offset_t)0, pcfs_putapage, B_INVAL | B_TRUNC, (struct cred *)NULL); } if (pcp == NULL) { vn_free(vp); } else { pc_rele(pcp); } if (!error) pc_unlockfs(fsp); } /*ARGSUSED*/ static int pcfs_lookup( struct vnode *dvp, char *nm, struct vnode **vpp, struct pathname *pnp, int flags, struct vnode *rdir, struct cred *cr, caller_context_t *ct, int *direntflags, pathname_t *realpnp) { struct pcfs *fsp; struct pcnode *pcp; int error; /* * If the filesystem was umounted by force, return immediately. */ if (dvp->v_vfsp->vfs_flag & VFS_UNMOUNTED) return (EIO); /* * verify that the dvp is still valid on the disk */ fsp = VFSTOPCFS(dvp->v_vfsp); if (error = pc_verify(fsp)) return (error); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if (VTOPC(dvp) == NULL || VTOPC(dvp)->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } /* * Null component name is a synonym for directory being searched. */ if (*nm == '\0') { VN_HOLD(dvp); *vpp = dvp; pc_unlockfs(fsp); return (0); } error = pc_dirlook(VTOPC(dvp), nm, &pcp); if (!error) { *vpp = PCTOV(pcp); pcp->pc_flags |= PC_EXTERNAL; } pc_unlockfs(fsp); return (error); } /*ARGSUSED*/ static int pcfs_create( struct vnode *dvp, char *nm, struct vattr *vap, enum vcexcl exclusive, int mode, struct vnode **vpp, struct cred *cr, int flag, caller_context_t *ct, vsecattr_t *vsecp) { int error; struct pcnode *pcp; struct vnode *vp; struct pcfs *fsp; /* * can't create directories. use pcfs_mkdir. * can't create anything other than files. */ if (vap->va_type == VDIR) return (EISDIR); else if (vap->va_type != VREG) return (EINVAL); pcp = NULL; fsp = VFSTOPCFS(dvp->v_vfsp); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if (VTOPC(dvp) == NULL || VTOPC(dvp)->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } if (fsp->pcfs_flags & PCFS_BOOTPART) { if (secpolicy_pcfs_modify_bootpartition(cr) != 0) { pc_unlockfs(fsp); return (EACCES); } } if (*nm == '\0') { /* * Null component name refers to the directory itself. */ VN_HOLD(dvp); pcp = VTOPC(dvp); error = EEXIST; } else { error = pc_direnter(VTOPC(dvp), nm, vap, &pcp); } /* * if file exists and this is a nonexclusive create, * check for access permissions */ if (error == EEXIST) { vp = PCTOV(pcp); if (exclusive == NONEXCL) { if (vp->v_type == VDIR) { error = EISDIR; } else if (mode) { error = pcfs_access(PCTOV(pcp), mode, 0, cr, ct); } else { error = 0; } } if (error) { VN_RELE(PCTOV(pcp)); } else if ((vp->v_type == VREG) && (vap->va_mask & AT_SIZE) && (vap->va_size == 0)) { error = pc_truncate(pcp, 0L); if (error) { VN_RELE(PCTOV(pcp)); } else { vnevent_create(PCTOV(pcp), ct); } } } if (error) { pc_unlockfs(fsp); return (error); } *vpp = PCTOV(pcp); pcp->pc_flags |= PC_EXTERNAL; pc_unlockfs(fsp); return (error); } /*ARGSUSED*/ static int pcfs_remove( struct vnode *vp, char *nm, struct cred *cr, caller_context_t *ct, int flags) { struct pcfs *fsp; struct pcnode *pcp; int error; fsp = VFSTOPCFS(vp->v_vfsp); if (error = pc_verify(fsp)) return (error); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if ((pcp = VTOPC(vp)) == NULL || pcp->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } if (fsp->pcfs_flags & PCFS_BOOTPART) { if (secpolicy_pcfs_modify_bootpartition(cr) != 0) { pc_unlockfs(fsp); return (EACCES); } } error = pc_dirremove(pcp, nm, (struct vnode *)0, VREG, ct); pc_unlockfs(fsp); return (error); } /* * Rename a file or directory * This rename is restricted to only rename files within a directory. * XX should make rename more general */ /*ARGSUSED*/ static int pcfs_rename( struct vnode *sdvp, /* old (source) parent vnode */ char *snm, /* old (source) entry name */ struct vnode *tdvp, /* new (target) parent vnode */ char *tnm, /* new (target) entry name */ struct cred *cr, caller_context_t *ct, int flags) { struct pcfs *fsp; struct pcnode *dp; /* parent pcnode */ struct pcnode *tdp; int error; fsp = VFSTOPCFS(sdvp->v_vfsp); if (error = pc_verify(fsp)) return (error); /* * make sure we can muck with this directory. */ error = pcfs_access(sdvp, VWRITE, 0, cr, ct); if (error) { return (error); } error = pc_lockfs(fsp, 0, 0); if (error) return (error); if (((dp = VTOPC(sdvp)) == NULL) || ((tdp = VTOPC(tdvp)) == NULL) || (dp->pc_flags & PC_INVAL) || (tdp->pc_flags & PC_INVAL)) { pc_unlockfs(fsp); return (EIO); } error = pc_rename(dp, tdp, snm, tnm, ct); pc_unlockfs(fsp); return (error); } /*ARGSUSED*/ static int pcfs_mkdir( struct vnode *dvp, char *nm, struct vattr *vap, struct vnode **vpp, struct cred *cr, caller_context_t *ct, int flags, vsecattr_t *vsecp) { struct pcfs *fsp; struct pcnode *pcp; int error; fsp = VFSTOPCFS(dvp->v_vfsp); if (error = pc_verify(fsp)) return (error); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if (VTOPC(dvp) == NULL || VTOPC(dvp)->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } if (fsp->pcfs_flags & PCFS_BOOTPART) { if (secpolicy_pcfs_modify_bootpartition(cr) != 0) { pc_unlockfs(fsp); return (EACCES); } } error = pc_direnter(VTOPC(dvp), nm, vap, &pcp); if (!error) { pcp -> pc_flags |= PC_EXTERNAL; *vpp = PCTOV(pcp); } else if (error == EEXIST) { VN_RELE(PCTOV(pcp)); } pc_unlockfs(fsp); return (error); } /*ARGSUSED*/ static int pcfs_rmdir( struct vnode *dvp, char *nm, struct vnode *cdir, struct cred *cr, caller_context_t *ct, int flags) { struct pcfs *fsp; struct pcnode *pcp; int error; fsp = VFSTOPCFS(dvp -> v_vfsp); if (error = pc_verify(fsp)) return (error); if (error = pc_lockfs(fsp, 0, 0)) return (error); if ((pcp = VTOPC(dvp)) == NULL || pcp->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } if (fsp->pcfs_flags & PCFS_BOOTPART) { if (secpolicy_pcfs_modify_bootpartition(cr) != 0) { pc_unlockfs(fsp); return (EACCES); } } error = pc_dirremove(pcp, nm, cdir, VDIR, ct); pc_unlockfs(fsp); return (error); } /* * read entries in a directory. * we must convert pc format to unix format */ /*ARGSUSED*/ static int pcfs_readdir( struct vnode *dvp, struct uio *uiop, struct cred *cr, int *eofp, caller_context_t *ct, int flags) { struct pcnode *pcp; struct pcfs *fsp; struct pcdir *ep; struct buf *bp = NULL; offset_t offset; int boff; struct pc_dirent lbp; struct pc_dirent *ld = &lbp; int error; /* * If the filesystem was umounted by force, return immediately. */ if (dvp->v_vfsp->vfs_flag & VFS_UNMOUNTED) return (EIO); if ((uiop->uio_iovcnt != 1) || (uiop->uio_loffset % sizeof (struct pcdir)) != 0) { return (EINVAL); } fsp = VFSTOPCFS(dvp->v_vfsp); /* * verify that the dp is still valid on the disk */ if (error = pc_verify(fsp)) { return (error); } error = pc_lockfs(fsp, 0, 0); if (error) return (error); if ((pcp = VTOPC(dvp)) == NULL || pcp->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } bzero(ld, sizeof (*ld)); if (eofp != NULL) *eofp = 0; offset = uiop->uio_loffset; if (dvp->v_flag & VROOT) { /* * kludge up entries for "." and ".." in the root. */ if (offset == 0) { (void) strcpy(ld->d_name, "."); ld->d_reclen = DIRENT64_RECLEN(1); ld->d_off = (off64_t)sizeof (struct pcdir); ld->d_ino = (ino64_t)UINT_MAX; if (ld->d_reclen > uiop->uio_resid) { pc_unlockfs(fsp); return (ENOSPC); } (void) uiomove(ld, ld->d_reclen, UIO_READ, uiop); uiop->uio_loffset = ld->d_off; offset = uiop->uio_loffset; } if (offset == sizeof (struct pcdir)) { (void) strcpy(ld->d_name, ".."); ld->d_reclen = DIRENT64_RECLEN(2); if (ld->d_reclen > uiop->uio_resid) { pc_unlockfs(fsp); return (ENOSPC); } ld->d_off = (off64_t)(uiop->uio_loffset + sizeof (struct pcdir)); ld->d_ino = (ino64_t)UINT_MAX; (void) uiomove(ld, ld->d_reclen, UIO_READ, uiop); uiop->uio_loffset = ld->d_off; offset = uiop->uio_loffset; } offset -= 2 * sizeof (struct pcdir); /* offset now has the real offset value into directory file */ } for (;;) { boff = pc_blkoff(fsp, offset); if (boff == 0 || bp == NULL || boff >= bp->b_bcount) { if (bp != NULL) { brelse(bp); bp = NULL; } error = pc_blkatoff(pcp, offset, &bp, &ep); if (error) { if (error == ENOENT) { error = 0; if (eofp) *eofp = 1; } break; } } if (ep->pcd_filename[0] == PCD_UNUSED) { if (eofp) *eofp = 1; break; } /* * Don't display label because it may contain funny characters. */ if (ep->pcd_filename[0] == PCD_ERASED) { uiop->uio_loffset += sizeof (struct pcdir); offset += sizeof (struct pcdir); ep++; continue; } if (PCDL_IS_LFN(ep)) { if (pc_read_long_fn(dvp, uiop, ld, &ep, &offset, &bp) != 0) break; continue; } if (pc_read_short_fn(dvp, uiop, ld, &ep, &offset, &bp) != 0) break; } if (bp) brelse(bp); pc_unlockfs(fsp); return (error); } /* * Called from pvn_getpages or pcfs_getpage to get a particular page. * When we are called the pcfs is already locked. */ /*ARGSUSED*/ static int pcfs_getapage( struct vnode *vp, u_offset_t off, size_t len, uint_t *protp, page_t *pl[], /* NULL if async IO is requested */ size_t plsz, struct seg *seg, caddr_t addr, enum seg_rw rw, struct cred *cr) { struct pcnode *pcp; struct pcfs *fsp = VFSTOPCFS(vp->v_vfsp); struct vnode *devvp; page_t *pp; page_t *pagefound; int err; /* * If the filesystem was umounted by force, return immediately. */ if (vp->v_vfsp->vfs_flag & VFS_UNMOUNTED) return (EIO); PC_DPRINTF3(5, "pcfs_getapage: vp=%p off=%lld len=%lu\n", (void *)vp, off, len); if ((pcp = VTOPC(vp)) == NULL || pcp->pc_flags & PC_INVAL) return (EIO); devvp = fsp->pcfs_devvp; /* pcfs doesn't do readaheads */ if (pl == NULL) return (0); pl[0] = NULL; err = 0; /* * If the accessed time on the pcnode has not already been * set elsewhere (e.g. for read/setattr) we set the time now. * This gives us approximate modified times for mmap'ed files * which are accessed via loads in the user address space. */ if ((pcp->pc_flags & PC_ACC) == 0 && ((fsp->pcfs_vfs->vfs_flag & VFS_RDONLY) == 0)) { pc_mark_acc(fsp, pcp); } reread: if ((pagefound = page_exists(vp, off)) == NULL) { /* * Need to really do disk IO to get the page(s). */ struct buf *bp; daddr_t lbn, bn; u_offset_t io_off; size_t io_len; u_offset_t lbnoff, xferoffset; u_offset_t pgoff; uint_t xfersize; int err1; lbn = pc_lblkno(fsp, off); lbnoff = off & ~(fsp->pcfs_clsize - 1); xferoffset = off & ~(fsp->pcfs_secsize - 1); pp = pvn_read_kluster(vp, off, seg, addr, &io_off, &io_len, off, (size_t)MIN(pc_blksize(fsp, pcp, off), PAGESIZE), 0); if (pp == NULL) /* * XXX - If pcfs is made MT-hot, this should go * back to reread. */ panic("pcfs_getapage pvn_read_kluster"); for (pgoff = 0; pgoff < PAGESIZE && xferoffset < pcp->pc_size; pgoff += xfersize, lbn += howmany(xfersize, fsp->pcfs_clsize), lbnoff += xfersize, xferoffset += xfersize) { /* * read as many contiguous blocks as possible to * fill this page */ xfersize = PAGESIZE - pgoff; err1 = pc_bmap(pcp, lbn, &bn, &xfersize); if (err1) { PC_DPRINTF1(1, "pc_getapage err=%d", err1); err = err1; goto out; } bp = pageio_setup(pp, xfersize, devvp, B_READ); bp->b_edev = devvp->v_rdev; bp->b_dev = cmpdev(devvp->v_rdev); bp->b_blkno = bn + btodt(xferoffset - lbnoff); bp->b_un.b_addr = (caddr_t)(uintptr_t)pgoff; bp->b_file = vp; bp->b_offset = (offset_t)(off + pgoff); (void) bdev_strategy(bp); lwp_stat_update(LWP_STAT_INBLK, 1); if (err == 0) err = biowait(bp); else (void) biowait(bp); pageio_done(bp); if (err) goto out; } if (pgoff < PAGESIZE) { pagezero(pp->p_prev, pgoff, PAGESIZE - pgoff); } pvn_plist_init(pp, pl, plsz, off, io_len, rw); } out: if (err) { if (pp != NULL) pvn_read_done(pp, B_ERROR); return (err); } if (pagefound) { /* * Page exists in the cache, acquire the "shared" * lock. If this fails, go back to reread. */ if ((pp = page_lookup(vp, off, SE_SHARED)) == NULL) { goto reread; } pl[0] = pp; pl[1] = NULL; } return (err); } /* * Return all the pages from [off..off+len] in given file */ /* ARGSUSED */ static int pcfs_getpage( struct vnode *vp, offset_t off, size_t len, uint_t *protp, page_t *pl[], size_t plsz, struct seg *seg, caddr_t addr, enum seg_rw rw, struct cred *cr, caller_context_t *ct) { struct pcfs *fsp = VFSTOPCFS(vp->v_vfsp); int err; PC_DPRINTF0(6, "pcfs_getpage\n"); if (err = pc_verify(fsp)) return (err); if (vp->v_flag & VNOMAP) return (ENOSYS); ASSERT(off <= UINT32_MAX); err = pc_lockfs(fsp, 0, 0); if (err) return (err); if (protp != NULL) *protp = PROT_ALL; ASSERT((off & PAGEOFFSET) == 0); if (len <= PAGESIZE) { err = pcfs_getapage(vp, off, len, protp, pl, plsz, seg, addr, rw, cr); } else { err = pvn_getpages(pcfs_getapage, vp, off, len, protp, pl, plsz, seg, addr, rw, cr); } pc_unlockfs(fsp); return (err); } /* * Flags are composed of {B_INVAL, B_FREE, B_DONTNEED, B_FORCE} * If len == 0, do from off to EOF. * * The normal cases should be len == 0 & off == 0 (entire vp list), * len == MAXBSIZE (from segmap_release actions), and len == PAGESIZE * (from pageout). * */ /*ARGSUSED*/ static int pcfs_putpage( struct vnode *vp, offset_t off, size_t len, int flags, struct cred *cr, caller_context_t *ct) { struct pcnode *pcp; page_t *pp; struct pcfs *fsp; u_offset_t io_off; size_t io_len; offset_t eoff; int err; /* * If the filesystem was umounted by force, return immediately. */ if (vp->v_vfsp->vfs_flag & VFS_UNMOUNTED) return (EIO); PC_DPRINTF1(6, "pcfs_putpage vp=0x%p\n", (void *)vp); if (vp->v_flag & VNOMAP) return (ENOSYS); fsp = VFSTOPCFS(vp->v_vfsp); if (err = pc_verify(fsp)) return (err); if ((pcp = VTOPC(vp)) == NULL) { PC_DPRINTF1(3, "pcfs_putpage NULL vp=0x%p\n", (void *)vp); return (EIO); } if (pcp->pc_flags & PC_INVAL) return (EIO); if (curproc == proc_pageout) { /* * XXX - This is a quick hack to avoid blocking * pageout. Also to avoid pcfs_getapage deadlocking * with putpage when memory is running out, * since we only have one global lock and we don't * support async putpage. * It should be fixed someday. * * Interestingly, this used to be a test of NOMEMWAIT(). * We only ever got here once pcfs started supporting * NFS sharing, and then only because the NFS server * threads seem to do writes in sched's process context. * Since everyone else seems to just care about pageout, * the test was changed to look for pageout directly. */ return (ENOMEM); } ASSERT(off <= UINT32_MAX); flags &= ~B_ASYNC; /* XXX should fix this later */ err = pc_lockfs(fsp, 0, 0); if (err) return (err); if (!vn_has_cached_data(vp) || off >= pcp->pc_size) { pc_unlockfs(fsp); return (0); } if (len == 0) { /* * Search the entire vp list for pages >= off */ err = pvn_vplist_dirty(vp, off, pcfs_putapage, flags, cr); } else { eoff = off + len; for (io_off = off; io_off < eoff && io_off < pcp->pc_size; io_off += io_len) { /* * If we are not invalidating, synchronously * freeing or writing pages use the routine * page_lookup_nowait() to prevent reclaiming * them from the free list. */ if ((flags & B_INVAL) || ((flags & B_ASYNC) == 0)) { pp = page_lookup(vp, io_off, (flags & (B_INVAL | B_FREE)) ? SE_EXCL : SE_SHARED); } else { pp = page_lookup_nowait(vp, io_off, (flags & B_FREE) ? SE_EXCL : SE_SHARED); } if (pp == NULL || pvn_getdirty(pp, flags) == 0) io_len = PAGESIZE; else { err = pcfs_putapage(vp, pp, &io_off, &io_len, flags, cr); if (err != 0) break; /* * "io_off" and "io_len" are returned as * the range of pages we actually wrote. * This allows us to skip ahead more quickly * since several pages may've been dealt * with by this iteration of the loop. */ } } } if (err == 0 && (flags & B_INVAL) && off == 0 && len == 0 && vn_has_cached_data(vp)) { /* * If doing "invalidation", make sure that * all pages on the vnode list are actually * gone. */ cmn_err(CE_PANIC, "pcfs_putpage: B_INVAL, pages not gone"); } else if (err) { PC_DPRINTF1(1, "pcfs_putpage err=%d\n", err); } pc_unlockfs(fsp); return (err); } /* * Write out a single page, possibly klustering adjacent dirty pages. */ /*ARGSUSED*/ int pcfs_putapage( struct vnode *vp, page_t *pp, u_offset_t *offp, size_t *lenp, int flags, struct cred *cr) { struct pcnode *pcp; struct pcfs *fsp; struct vnode *devvp; size_t io_len; daddr_t bn; u_offset_t lbn, lbnoff, xferoffset; uint_t pgoff, xfersize; int err = 0; u_offset_t io_off; pcp = VTOPC(vp); fsp = VFSTOPCFS(vp->v_vfsp); devvp = fsp->pcfs_devvp; /* * If the modified time on the inode has not already been * set elsewhere (e.g. for write/setattr) and this is not * a call from msync (B_FORCE) we set the time now. * This gives us approximate modified times for mmap'ed files * which are modified via stores in the user address space. */ if ((pcp->pc_flags & PC_MOD) == 0 || (flags & B_FORCE)) { pcp->pc_flags |= PC_MOD; pc_mark_mod(fsp, pcp); } pp = pvn_write_kluster(vp, pp, &io_off, &io_len, pp->p_offset, PAGESIZE, flags); if (fsp->pcfs_flags & PCFS_IRRECOV) { goto out; } PC_DPRINTF1(7, "pc_putpage writing dirty page off=%llu\n", io_off); lbn = pc_lblkno(fsp, io_off); lbnoff = io_off & ~(fsp->pcfs_clsize - 1); xferoffset = io_off & ~(fsp->pcfs_secsize - 1); for (pgoff = 0; pgoff < io_len && xferoffset < pcp->pc_size; pgoff += xfersize, lbn += howmany(xfersize, fsp->pcfs_clsize), lbnoff += xfersize, xferoffset += xfersize) { struct buf *bp; int err1; /* * write as many contiguous blocks as possible from this page */ xfersize = io_len - pgoff; err1 = pc_bmap(pcp, (daddr_t)lbn, &bn, &xfersize); if (err1) { err = err1; goto out; } bp = pageio_setup(pp, xfersize, devvp, B_WRITE | flags); bp->b_edev = devvp->v_rdev; bp->b_dev = cmpdev(devvp->v_rdev); bp->b_blkno = bn + btodt(xferoffset - lbnoff); bp->b_un.b_addr = (caddr_t)(uintptr_t)pgoff; bp->b_file = vp; bp->b_offset = (offset_t)(io_off + pgoff); (void) bdev_strategy(bp); lwp_stat_update(LWP_STAT_OUBLK, 1); if (err == 0) err = biowait(bp); else (void) biowait(bp); pageio_done(bp); } pvn_write_done(pp, ((err) ? B_ERROR : 0) | B_WRITE | flags); pp = NULL; out: if ((fsp->pcfs_flags & PCFS_IRRECOV) && pp != NULL) { pvn_write_done(pp, B_WRITE | flags); } else if (err != 0 && pp != NULL) { pvn_write_done(pp, B_ERROR | B_WRITE | flags); } if (offp) *offp = io_off; if (lenp) *lenp = io_len; PC_DPRINTF4(4, "pcfs_putapage: vp=%p pp=%p off=%lld len=%lu\n", (void *)vp, (void *)pp, io_off, io_len); if (err) { PC_DPRINTF1(1, "pcfs_putapage err=%d", err); } return (err); } /*ARGSUSED*/ static int pcfs_map( struct vnode *vp, offset_t off, struct as *as, caddr_t *addrp, size_t len, uchar_t prot, uchar_t maxprot, uint_t flags, struct cred *cr, caller_context_t *ct) { struct segvn_crargs vn_a; int error; PC_DPRINTF0(6, "pcfs_map\n"); if (vp->v_flag & VNOMAP) return (ENOSYS); if (off > UINT32_MAX || off + len > UINT32_MAX) return (ENXIO); as_rangelock(as); error = choose_addr(as, addrp, len, off, ADDR_VACALIGN, flags); if (error != 0) { as_rangeunlock(as); return (error); } vn_a.vp = vp; vn_a.offset = off; vn_a.type = flags & MAP_TYPE; vn_a.prot = prot; vn_a.maxprot = maxprot; vn_a.flags = flags & ~MAP_TYPE; vn_a.cred = cr; vn_a.amp = NULL; vn_a.szc = 0; vn_a.lgrp_mem_policy_flags = 0; error = as_map(as, *addrp, len, segvn_create, &vn_a); as_rangeunlock(as); return (error); } /* ARGSUSED */ static int pcfs_seek( struct vnode *vp, offset_t ooff, offset_t *noffp, caller_context_t *ct) { if (*noffp < 0) return (EINVAL); else if (*noffp > MAXOFFSET_T) return (EINVAL); else return (0); } /* ARGSUSED */ static int pcfs_addmap( struct vnode *vp, offset_t off, struct as *as, caddr_t addr, size_t len, uchar_t prot, uchar_t maxprot, uint_t flags, struct cred *cr, caller_context_t *ct) { if (vp->v_flag & VNOMAP) return (ENOSYS); return (0); } /*ARGSUSED*/ static int pcfs_delmap( struct vnode *vp, offset_t off, struct as *as, caddr_t addr, size_t len, uint_t prot, uint_t maxprot, uint_t flags, struct cred *cr, caller_context_t *ct) { if (vp->v_flag & VNOMAP) return (ENOSYS); return (0); } /* * POSIX pathconf() support. */ /* ARGSUSED */ static int pcfs_pathconf( struct vnode *vp, int cmd, ulong_t *valp, struct cred *cr, caller_context_t *ct) { struct pcfs *fsp = VFSTOPCFS(vp->v_vfsp); switch (cmd) { case _PC_LINK_MAX: *valp = 1; return (0); case _PC_CASE_BEHAVIOR: return (EINVAL); case _PC_FILESIZEBITS: /* * Both FAT16 and FAT32 support 4GB - 1 byte for file size. * FAT12 can only go up to the maximum filesystem capacity * which is ~509MB. */ *valp = IS_FAT12(fsp) ? 30 : 33; return (0); default: return (fs_pathconf(vp, cmd, valp, cr, ct)); } } /* ARGSUSED */ static int pcfs_space( struct vnode *vp, int cmd, struct flock64 *bfp, int flag, offset_t offset, cred_t *cr, caller_context_t *ct) { struct vattr vattr; int error; if (cmd != F_FREESP) return (EINVAL); if ((error = convoff(vp, bfp, 0, offset)) == 0) { if ((bfp->l_start > UINT32_MAX) || (bfp->l_len > UINT32_MAX)) return (EFBIG); /* * we only support the special case of l_len == 0, * meaning free to end of file at this moment. */ if (bfp->l_len != 0) return (EINVAL); vattr.va_mask = AT_SIZE; vattr.va_size = bfp->l_start; error = VOP_SETATTR(vp, (vattr_t *)&vattr, 0, cr, ct); } return (error); } /* * Break up 'len' chars from 'buf' into a long file name chunk. * Pad with '0xff' to make Norton Disk Doctor and Microsoft ScanDisk happy. */ void set_long_fn_chunk(struct pcdir_lfn *ep, char *buf, int len) { int i; ASSERT(buf != NULL); for (i = 0; i < PCLF_FIRSTNAMESIZE; i += 2) { if (len > 0) { ep->pcdl_firstfilename[i] = *buf++; ep->pcdl_firstfilename[i + 1] = *buf++; len -= 2; } else { ep->pcdl_firstfilename[i] = (uchar_t)0xff; ep->pcdl_firstfilename[i + 1] = (uchar_t)0xff; } } for (i = 0; i < PCLF_SECONDNAMESIZE; i += 2) { if (len > 0) { ep->pcdl_secondfilename[i] = *buf++; ep->pcdl_secondfilename[i + 1] = *buf++; len -= 2; } else { ep->pcdl_secondfilename[i] = (uchar_t)0xff; ep->pcdl_secondfilename[i + 1] = (uchar_t)0xff; } } for (i = 0; i < PCLF_THIRDNAMESIZE; i += 2) { if (len > 0) { ep->pcdl_thirdfilename[i] = *buf++; ep->pcdl_thirdfilename[i + 1] = *buf++; len -= 2; } else { ep->pcdl_thirdfilename[i] = (uchar_t)0xff; ep->pcdl_thirdfilename[i + 1] = (uchar_t)0xff; } } } /* * Extract the characters from the long filename chunk into 'buf'. * Return the number of characters extracted. */ static int get_long_fn_chunk(struct pcdir_lfn *ep, char *buf, int foldcase) { char *tmp = buf; int i; /* Copy all the names, no filtering now */ for (i = 0; i < PCLF_FIRSTNAMESIZE; i += 2, tmp += 2) { *tmp = ep->pcdl_firstfilename[i]; *(tmp + 1) = ep->pcdl_firstfilename[i + 1]; if ((*tmp == '\0') && (*(tmp+1) == '\0')) return (tmp - buf); if (*(tmp + 1) == '\0' && foldcase) { *tmp = toupper(*tmp); } } for (i = 0; i < PCLF_SECONDNAMESIZE; i += 2, tmp += 2) { *tmp = ep->pcdl_secondfilename[i]; *(tmp + 1) = ep->pcdl_secondfilename[i + 1]; if ((*tmp == '\0') && (*(tmp+1) == '\0')) return (tmp - buf); if (*(tmp + 1) == '\0' && foldcase) { *tmp = toupper(*tmp); } } for (i = 0; i < PCLF_THIRDNAMESIZE; i += 2, tmp += 2) { *tmp = ep->pcdl_thirdfilename[i]; *(tmp + 1) = ep->pcdl_thirdfilename[i + 1]; if ((*tmp == '\0') && (*(tmp+1) == '\0')) return (tmp - buf); if (*(tmp + 1) == '\0' && foldcase) { *tmp = toupper(*tmp); } } return (tmp - buf); } /* * Checksum the passed in short filename. * This is used to validate each component of the long name to make * sure the long name is valid (it hasn't been "detached" from the * short filename). This algorithm was found in FreeBSD. * (sys/fs/msdosfs/msdosfs_conv.c:winChksum(), Wolfgang Solfrank) */ uchar_t pc_checksum_long_fn(char *name, char *ext) { uchar_t c; char b[11]; bcopy(name, b, 8); bcopy(ext, b+8, 3); c = b[0]; c = ((c << 7) | (c >> 1)) + b[1]; c = ((c << 7) | (c >> 1)) + b[2]; c = ((c << 7) | (c >> 1)) + b[3]; c = ((c << 7) | (c >> 1)) + b[4]; c = ((c << 7) | (c >> 1)) + b[5]; c = ((c << 7) | (c >> 1)) + b[6]; c = ((c << 7) | (c >> 1)) + b[7]; c = ((c << 7) | (c >> 1)) + b[8]; c = ((c << 7) | (c >> 1)) + b[9]; c = ((c << 7) | (c >> 1)) + b[10]; return (c); } /* * Read a chunk of long filename entries into 'namep'. * Return with offset pointing to short entry (on success), or next * entry to read (if this wasn't a valid lfn really). * Uses the passed-in buffer if it can, otherwise kmem_allocs() room for * a long filename. * * Can also be called with a NULL namep, in which case it just returns * whether this was really a valid long filename and consumes it * (used by pc_dirempty()). */ int pc_extract_long_fn(struct pcnode *pcp, char *namep, struct pcdir **epp, offset_t *offset, struct buf **bp) { struct pcdir *ep = *epp; struct pcdir_lfn *lep = (struct pcdir_lfn *)ep; struct vnode *dvp = PCTOV(pcp); struct pcfs *fsp = VFSTOPCFS(dvp->v_vfsp); char *lfn; char *lfn_base; int boff; int i, cs; char *buf; uchar_t cksum; int detached = 0; int error = 0; int foldcase; int count = 0; size_t u16l = 0, u8l = 0; foldcase = (fsp->pcfs_flags & PCFS_FOLDCASE); lfn_base = kmem_alloc(PCMAXNAM_UTF16, KM_SLEEP); lfn = lfn_base + PCMAXNAM_UTF16 - sizeof (uint16_t); *lfn = '\0'; *(lfn + 1) = '\0'; cksum = lep->pcdl_checksum; buf = kmem_alloc(PCMAXNAM_UTF16, KM_SLEEP); for (i = (lep->pcdl_ordinal & ~0xc0); i > 0; i--) { /* read next block if necessary */ boff = pc_blkoff(fsp, *offset); if (boff == 0 || *bp == NULL || boff >= (*bp)->b_bcount) { if (*bp != NULL) { brelse(*bp); *bp = NULL; } error = pc_blkatoff(pcp, *offset, bp, &ep); if (error) { kmem_free(lfn_base, PCMAXNAM_UTF16); kmem_free(buf, PCMAXNAM_UTF16); return (error); } lep = (struct pcdir_lfn *)ep; } /* can this happen? Bad fs? */ if (!PCDL_IS_LFN((struct pcdir *)lep)) { detached = 1; break; } if (cksum != lep->pcdl_checksum) detached = 1; /* process current entry */ cs = get_long_fn_chunk(lep, buf, foldcase); count += cs; for (; cs > 0; cs--) { /* see if we underflow */ if (lfn >= lfn_base) *--lfn = buf[cs - 1]; else detached = 1; } lep++; *offset += sizeof (struct pcdir); } kmem_free(buf, PCMAXNAM_UTF16); /* read next block if necessary */ boff = pc_blkoff(fsp, *offset); ep = (struct pcdir *)lep; if (boff == 0 || *bp == NULL || boff >= (*bp)->b_bcount) { if (*bp != NULL) { brelse(*bp); *bp = NULL; } error = pc_blkatoff(pcp, *offset, bp, &ep); if (error) { kmem_free(lfn_base, PCMAXNAM_UTF16); return (error); } } /* should be on the short one */ if (PCDL_IS_LFN(ep) || ((ep->pcd_filename[0] == PCD_UNUSED) || (ep->pcd_filename[0] == PCD_ERASED))) { detached = 1; } if (detached || (cksum != pc_checksum_long_fn(ep->pcd_filename, ep->pcd_ext)) || !pc_valid_long_fn(lfn, 0)) { /* * process current entry again. This may end up another lfn * or a short name. */ *epp = ep; kmem_free(lfn_base, PCMAXNAM_UTF16); return (EINVAL); } if (PCA_IS_HIDDEN(fsp, ep->pcd_attr)) { /* * Don't display label because it may contain * funny characters. */ *offset += sizeof (struct pcdir); ep++; *epp = ep; kmem_free(lfn_base, PCMAXNAM_UTF16); return (EINVAL); } if (namep) { u16l = count / 2; u8l = PCMAXNAMLEN; error = uconv_u16tou8((const uint16_t *)lfn, &u16l, (uchar_t *)namep, &u8l, UCONV_IN_LITTLE_ENDIAN); /* * uconv_u16tou8() will catch conversion errors including * the case where there is not enough room to write the * converted result and the u8l will never go over the given * PCMAXNAMLEN. */ if (error != 0) { kmem_free(lfn_base, PCMAXNAM_UTF16); return (EINVAL); } namep[u8l] = '\0'; } kmem_free(lfn_base, PCMAXNAM_UTF16); *epp = ep; return (0); } /* * Read a long filename into the pc_dirent structure and copy it out. */ int pc_read_long_fn(struct vnode *dvp, struct uio *uiop, struct pc_dirent *ld, struct pcdir **epp, offset_t *offset, struct buf **bp) { struct pcdir *ep; struct pcnode *pcp = VTOPC(dvp); struct pcfs *fsp = VFSTOPCFS(dvp->v_vfsp); offset_t uiooffset = uiop->uio_loffset; int error = 0; offset_t oldoffset; oldoffset = *offset; error = pc_extract_long_fn(pcp, ld->d_name, epp, offset, bp); if (error) { if (error == EINVAL) { uiop->uio_loffset += *offset - oldoffset; return (0); } else return (error); } ep = *epp; uiop->uio_loffset += *offset - oldoffset; ld->d_reclen = DIRENT64_RECLEN(strlen(ld->d_name)); if (ld->d_reclen > uiop->uio_resid) { uiop->uio_loffset = uiooffset; return (ENOSPC); } ld->d_off = uiop->uio_loffset + sizeof (struct pcdir); ld->d_ino = pc_makenodeid(pc_daddrdb(fsp, (*bp)->b_blkno), pc_blkoff(fsp, *offset), ep->pcd_attr, pc_getstartcluster(fsp, ep), pc_direntpersec(fsp)); (void) uiomove((caddr_t)ld, ld->d_reclen, UIO_READ, uiop); uiop->uio_loffset = ld->d_off; *offset += sizeof (struct pcdir); ep++; *epp = ep; return (0); } /* * Read a short filename into the pc_dirent structure and copy it out. */ int pc_read_short_fn(struct vnode *dvp, struct uio *uiop, struct pc_dirent *ld, struct pcdir **epp, offset_t *offset, struct buf **bp) { struct pcfs *fsp = VFSTOPCFS(dvp->v_vfsp); int boff = pc_blkoff(fsp, *offset); struct pcdir *ep = *epp; offset_t oldoffset = uiop->uio_loffset; int error; int foldcase; if (PCA_IS_HIDDEN(fsp, ep->pcd_attr)) { uiop->uio_loffset += sizeof (struct pcdir); *offset += sizeof (struct pcdir); ep++; *epp = ep; return (0); } ld->d_ino = (ino64_t)pc_makenodeid(pc_daddrdb(fsp, (*bp)->b_blkno), boff, ep->pcd_attr, pc_getstartcluster(fsp, ep), pc_direntpersec(fsp)); foldcase = (fsp->pcfs_flags & PCFS_FOLDCASE); error = pc_fname_ext_to_name(&ld->d_name[0], &ep->pcd_filename[0], &ep->pcd_ext[0], foldcase); if (error == 0) { ld->d_reclen = DIRENT64_RECLEN(strlen(ld->d_name)); if (ld->d_reclen > uiop->uio_resid) { uiop->uio_loffset = oldoffset; return (ENOSPC); } ld->d_off = (off64_t)(uiop->uio_loffset + sizeof (struct pcdir)); (void) uiomove((caddr_t)ld, ld->d_reclen, UIO_READ, uiop); uiop->uio_loffset = ld->d_off; } else { uiop->uio_loffset += sizeof (struct pcdir); } *offset += sizeof (struct pcdir); ep++; *epp = ep; return (0); } /* ARGSUSED */ static int pcfs_fid(struct vnode *vp, struct fid *fidp, caller_context_t *ct) { struct pc_fid *pcfid; struct pcnode *pcp; struct pcfs *fsp; int error; fsp = VFSTOPCFS(vp->v_vfsp); if (fsp == NULL) return (EIO); error = pc_lockfs(fsp, 0, 0); if (error) return (error); if ((pcp = VTOPC(vp)) == NULL || pcp->pc_flags & PC_INVAL) { pc_unlockfs(fsp); return (EIO); } if (fidp->fid_len < (sizeof (struct pc_fid) - sizeof (ushort_t))) { fidp->fid_len = sizeof (struct pc_fid) - sizeof (ushort_t); pc_unlockfs(fsp); return (ENOSPC); } pcfid = (struct pc_fid *)fidp; bzero(pcfid, sizeof (struct pc_fid)); pcfid->pcfid_len = sizeof (struct pc_fid) - sizeof (ushort_t); if (vp->v_flag & VROOT) { pcfid->pcfid_block = 0; pcfid->pcfid_offset = 0; pcfid->pcfid_ctime = 0; } else { pcfid->pcfid_block = pcp->pc_eblkno; pcfid->pcfid_offset = pcp->pc_eoffset; pcfid->pcfid_ctime = pcp->pc_entry.pcd_crtime.pct_time; } pc_unlockfs(fsp); return (0); }