/* * 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 (c) 1994, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright (c) 2013, OmniTI Computer Consulting, Inc. All rights reserved. * Copyright 2015, Joyent, Inc. */ /* Copyright (c) 1983, 1984, 1985, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Portions of this source code were derived from Berkeley 4.3 BSD * under license from the Regents of the University of California. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static int flock_check(vnode_t *, flock64_t *, offset_t, offset_t); static int flock_get_start(vnode_t *, flock64_t *, offset_t, u_offset_t *); static void fd_too_big(proc_t *); /* * File control. */ int fcntl(int fdes, int cmd, intptr_t arg) { int iarg; int error = 0; int retval; proc_t *p; file_t *fp; vnode_t *vp; u_offset_t offset; u_offset_t start; struct vattr vattr; int in_crit; int flag; struct flock sbf; struct flock64 bf; struct o_flock obf; struct flock64_32 bf64_32; struct fshare fsh; struct shrlock shr; struct shr_locowner shr_own; offset_t maxoffset; model_t datamodel; int fdres; #if defined(_ILP32) && !defined(lint) && defined(_SYSCALL32) ASSERT(sizeof (struct flock) == sizeof (struct flock32)); ASSERT(sizeof (struct flock64) == sizeof (struct flock64_32)); #endif #if defined(_LP64) && !defined(lint) && defined(_SYSCALL32) ASSERT(sizeof (struct flock) == sizeof (struct flock64_64)); ASSERT(sizeof (struct flock64) == sizeof (struct flock64_64)); #endif /* * First, for speed, deal with the subset of cases * that do not require getf() / releasef(). */ switch (cmd) { case F_GETFD: if ((error = f_getfd_error(fdes, &flag)) == 0) retval = flag; goto out; case F_SETFD: error = f_setfd_error(fdes, (int)arg); retval = 0; goto out; case F_GETFL: if ((error = f_getfl(fdes, &flag)) == 0) { retval = (flag & (FMASK | FASYNC)); if ((flag & (FSEARCH | FEXEC)) == 0) retval += FOPEN; else retval |= (flag & (FSEARCH | FEXEC)); } goto out; case F_GETXFL: if ((error = f_getfl(fdes, &flag)) == 0) { retval = flag; if ((flag & (FSEARCH | FEXEC)) == 0) retval += FOPEN; } goto out; case F_BADFD: if ((error = f_badfd(fdes, &fdres, (int)arg)) == 0) retval = fdres; goto out; } /* * Second, for speed, deal with the subset of cases that * require getf() / releasef() but do not require copyin. */ if ((fp = getf(fdes)) == NULL) { error = EBADF; goto out; } iarg = (int)arg; switch (cmd) { case F_DUPFD: case F_DUPFD_CLOEXEC: p = curproc; if ((uint_t)iarg >= p->p_fno_ctl) { if (iarg >= 0) fd_too_big(p); error = EINVAL; goto done; } /* * We need to increment the f_count reference counter * before allocating a new file descriptor. * Doing it other way round opens a window for race condition * with closeandsetf() on the target file descriptor which can * close the file still referenced by the original * file descriptor. */ mutex_enter(&fp->f_tlock); fp->f_count++; mutex_exit(&fp->f_tlock); if ((retval = ufalloc_file(iarg, fp)) == -1) { /* * New file descriptor can't be allocated. * Revert the reference count. */ mutex_enter(&fp->f_tlock); fp->f_count--; mutex_exit(&fp->f_tlock); error = EMFILE; } else { if (cmd == F_DUPFD_CLOEXEC) { f_setfd(retval, FD_CLOEXEC); } } goto done; case F_DUP2FD_CLOEXEC: if (fdes == iarg) { error = EINVAL; goto done; } /*FALLTHROUGH*/ case F_DUP2FD: p = curproc; if (fdes == iarg) { retval = iarg; } else if ((uint_t)iarg >= p->p_fno_ctl) { if (iarg >= 0) fd_too_big(p); error = EBADF; } else { /* * We can't hold our getf(fdes) across the call to * closeandsetf() because it creates a window for * deadlock: if one thread is doing dup2(a, b) while * another is doing dup2(b, a), each one will block * waiting for the other to call releasef(). The * solution is to increment the file reference count * (which we have to do anyway), then releasef(fdes), * then closeandsetf(). Incrementing f_count ensures * that fp won't disappear after we call releasef(). * When closeandsetf() fails, we try avoid calling * closef() because of all the side effects. */ mutex_enter(&fp->f_tlock); fp->f_count++; mutex_exit(&fp->f_tlock); releasef(fdes); if ((error = closeandsetf(iarg, fp)) == 0) { if (cmd == F_DUP2FD_CLOEXEC) { f_setfd(iarg, FD_CLOEXEC); } retval = iarg; } else { mutex_enter(&fp->f_tlock); if (fp->f_count > 1) { fp->f_count--; mutex_exit(&fp->f_tlock); } else { mutex_exit(&fp->f_tlock); (void) closef(fp); } } goto out; } goto done; case F_SETFL: vp = fp->f_vnode; flag = fp->f_flag; if ((iarg & (FNONBLOCK|FNDELAY)) == (FNONBLOCK|FNDELAY)) iarg &= ~FNDELAY; if ((error = VOP_SETFL(vp, flag, iarg, fp->f_cred, NULL)) == 0) { iarg &= FMASK; mutex_enter(&fp->f_tlock); fp->f_flag &= ~FMASK | (FREAD|FWRITE); fp->f_flag |= (iarg - FOPEN) & ~(FREAD|FWRITE); mutex_exit(&fp->f_tlock); } retval = 0; goto done; } /* * Finally, deal with the expensive cases. */ retval = 0; in_crit = 0; maxoffset = MAXOFF_T; datamodel = DATAMODEL_NATIVE; #if defined(_SYSCALL32_IMPL) if ((datamodel = get_udatamodel()) == DATAMODEL_ILP32) maxoffset = MAXOFF32_T; #endif vp = fp->f_vnode; flag = fp->f_flag; offset = fp->f_offset; switch (cmd) { /* * The file system and vnode layers understand and implement * locking with flock64 structures. So here once we pass through * the test for compatibility as defined by LFS API, (for F_SETLK, * F_SETLKW, F_GETLK, F_GETLKW, F_OFD_GETLK, F_OFD_SETLK, F_OFD_SETLKW, * F_FREESP) we transform the flock structure to a flock64 structure * and send it to the lower layers. Similarly in case of GETLK and * OFD_GETLK the returned flock64 structure is transformed to a flock * structure if everything fits in nicely, otherwise we return * EOVERFLOW. */ case F_GETLK: case F_O_GETLK: case F_SETLK: case F_SETLKW: case F_SETLK_NBMAND: case F_OFD_GETLK: case F_OFD_SETLK: case F_OFD_SETLKW: case F_FLOCK: case F_FLOCKW: /* * Copy in input fields only. */ if (cmd == F_O_GETLK) { if (datamodel != DATAMODEL_ILP32) { error = EINVAL; break; } if (copyin((void *)arg, &obf, sizeof (obf))) { error = EFAULT; break; } bf.l_type = obf.l_type; bf.l_whence = obf.l_whence; bf.l_start = (off64_t)obf.l_start; bf.l_len = (off64_t)obf.l_len; bf.l_sysid = (int)obf.l_sysid; bf.l_pid = obf.l_pid; } else if (datamodel == DATAMODEL_NATIVE) { if (copyin((void *)arg, &sbf, sizeof (sbf))) { error = EFAULT; break; } /* * XXX In an LP64 kernel with an LP64 application * there's no need to do a structure copy here * struct flock == struct flock64. However, * we did it this way to avoid more conditional * compilation. */ bf.l_type = sbf.l_type; bf.l_whence = sbf.l_whence; bf.l_start = (off64_t)sbf.l_start; bf.l_len = (off64_t)sbf.l_len; bf.l_sysid = sbf.l_sysid; bf.l_pid = sbf.l_pid; } #if defined(_SYSCALL32_IMPL) else { struct flock32 sbf32; if (copyin((void *)arg, &sbf32, sizeof (sbf32))) { error = EFAULT; break; } bf.l_type = sbf32.l_type; bf.l_whence = sbf32.l_whence; bf.l_start = (off64_t)sbf32.l_start; bf.l_len = (off64_t)sbf32.l_len; bf.l_sysid = sbf32.l_sysid; bf.l_pid = sbf32.l_pid; } #endif /* _SYSCALL32_IMPL */ /* * 64-bit support: check for overflow for 32-bit lock ops */ if ((error = flock_check(vp, &bf, offset, maxoffset)) != 0) break; if (cmd == F_FLOCK || cmd == F_FLOCKW) { /* FLOCK* locking is always over the entire file. */ if (bf.l_whence != 0 || bf.l_start != 0 || bf.l_len != 0) { error = EINVAL; break; } if (bf.l_type < F_RDLCK || bf.l_type > F_UNLCK) { error = EINVAL; break; } } if (cmd == F_OFD_GETLK || cmd == F_OFD_SETLK || cmd == F_OFD_SETLKW) { /* * TBD OFD-style locking is currently limited to * covering the entire file. */ if (bf.l_whence != 0 || bf.l_start != 0 || bf.l_len != 0) { error = EINVAL; break; } } /* * Not all of the filesystems understand F_O_GETLK, and * there's no need for them to know. Map it to F_GETLK. * * The *_frlock functions in the various file systems basically * do some validation and then funnel everything through the * fs_frlock function. For OFD-style locks fs_frlock will do * nothing so that once control returns here we can call the * ofdlock function with the correct fp. For OFD-style locks * the unsupported remote file systems, such as NFS, detect and * reject the OFD-style cmd argument. */ if ((error = VOP_FRLOCK(vp, (cmd == F_O_GETLK) ? F_GETLK : cmd, &bf, flag, offset, NULL, fp->f_cred, NULL)) != 0) break; if (cmd == F_FLOCK || cmd == F_FLOCKW || cmd == F_OFD_GETLK || cmd == F_OFD_SETLK || cmd == F_OFD_SETLKW) { /* * This is an OFD-style lock so we need to handle it * here. Because OFD-style locks are associated with * the file_t we didn't have enough info down the * VOP_FRLOCK path immediately above. */ if ((error = ofdlock(fp, cmd, &bf, flag, offset)) != 0) break; } /* * If command is GETLK and no lock is found, only * the type field is changed. */ if ((cmd == F_O_GETLK || cmd == F_GETLK || cmd == F_OFD_GETLK) && bf.l_type == F_UNLCK) { /* l_type always first entry, always a short */ if (copyout(&bf.l_type, &((struct flock *)arg)->l_type, sizeof (bf.l_type))) error = EFAULT; break; } if (cmd == F_O_GETLK) { /* * Return an SVR3 flock structure to the user. */ obf.l_type = (int16_t)bf.l_type; obf.l_whence = (int16_t)bf.l_whence; obf.l_start = (int32_t)bf.l_start; obf.l_len = (int32_t)bf.l_len; if (bf.l_sysid > SHRT_MAX || bf.l_pid > SHRT_MAX) { /* * One or both values for the above fields * is too large to store in an SVR3 flock * structure. */ error = EOVERFLOW; break; } obf.l_sysid = (int16_t)bf.l_sysid; obf.l_pid = (int16_t)bf.l_pid; if (copyout(&obf, (void *)arg, sizeof (obf))) error = EFAULT; } else if (cmd == F_GETLK || cmd == F_OFD_GETLK) { /* * Copy out SVR4 flock. */ int i; if (bf.l_start > maxoffset || bf.l_len > maxoffset) { error = EOVERFLOW; break; } if (datamodel == DATAMODEL_NATIVE) { for (i = 0; i < 4; i++) sbf.l_pad[i] = 0; /* * XXX In an LP64 kernel with an LP64 * application there's no need to do a * structure copy here as currently * struct flock == struct flock64. * We did it this way to avoid more * conditional compilation. */ sbf.l_type = bf.l_type; sbf.l_whence = bf.l_whence; sbf.l_start = (off_t)bf.l_start; sbf.l_len = (off_t)bf.l_len; sbf.l_sysid = bf.l_sysid; sbf.l_pid = bf.l_pid; if (copyout(&sbf, (void *)arg, sizeof (sbf))) error = EFAULT; } #if defined(_SYSCALL32_IMPL) else { struct flock32 sbf32; if (bf.l_start > MAXOFF32_T || bf.l_len > MAXOFF32_T) { error = EOVERFLOW; break; } for (i = 0; i < 4; i++) sbf32.l_pad[i] = 0; sbf32.l_type = (int16_t)bf.l_type; sbf32.l_whence = (int16_t)bf.l_whence; sbf32.l_start = (off32_t)bf.l_start; sbf32.l_len = (off32_t)bf.l_len; sbf32.l_sysid = (int32_t)bf.l_sysid; sbf32.l_pid = (pid32_t)bf.l_pid; if (copyout(&sbf32, (void *)arg, sizeof (sbf32))) error = EFAULT; } #endif } break; case F_CHKFL: /* * This is for internal use only, to allow the vnode layer * to validate a flags setting before applying it. User * programs can't issue it. */ error = EINVAL; break; case F_ALLOCSP: case F_FREESP: case F_ALLOCSP64: case F_FREESP64: /* * Test for not-a-regular-file (and returning EINVAL) * before testing for open-for-writing (and returning EBADF). * This is relied upon by posix_fallocate() in libc. */ if (vp->v_type != VREG) { error = EINVAL; break; } if ((flag & FWRITE) == 0) { error = EBADF; break; } if (datamodel != DATAMODEL_ILP32 && (cmd == F_ALLOCSP64 || cmd == F_FREESP64)) { error = EINVAL; break; } #if defined(_ILP32) || defined(_SYSCALL32_IMPL) if (datamodel == DATAMODEL_ILP32 && (cmd == F_ALLOCSP || cmd == F_FREESP)) { struct flock32 sbf32; /* * For compatibility we overlay an SVR3 flock on an SVR4 * flock. This works because the input field offsets * in "struct flock" were preserved. */ if (copyin((void *)arg, &sbf32, sizeof (sbf32))) { error = EFAULT; break; } else { bf.l_type = sbf32.l_type; bf.l_whence = sbf32.l_whence; bf.l_start = (off64_t)sbf32.l_start; bf.l_len = (off64_t)sbf32.l_len; bf.l_sysid = sbf32.l_sysid; bf.l_pid = sbf32.l_pid; } } #endif /* _ILP32 || _SYSCALL32_IMPL */ #if defined(_LP64) if (datamodel == DATAMODEL_LP64 && (cmd == F_ALLOCSP || cmd == F_FREESP)) { if (copyin((void *)arg, &bf, sizeof (bf))) { error = EFAULT; break; } } #endif /* defined(_LP64) */ #if !defined(_LP64) || defined(_SYSCALL32_IMPL) if (datamodel == DATAMODEL_ILP32 && (cmd == F_ALLOCSP64 || cmd == F_FREESP64)) { if (copyin((void *)arg, &bf64_32, sizeof (bf64_32))) { error = EFAULT; break; } else { /* * Note that the size of flock64 is different in * the ILP32 and LP64 models, due to the l_pad * field. We do not want to assume that the * flock64 structure is laid out the same in * ILP32 and LP64 environments, so we will * copy in the ILP32 version of flock64 * explicitly and copy it to the native * flock64 structure. */ bf.l_type = (short)bf64_32.l_type; bf.l_whence = (short)bf64_32.l_whence; bf.l_start = bf64_32.l_start; bf.l_len = bf64_32.l_len; bf.l_sysid = (int)bf64_32.l_sysid; bf.l_pid = (pid_t)bf64_32.l_pid; } } #endif /* !defined(_LP64) || defined(_SYSCALL32_IMPL) */ if (cmd == F_ALLOCSP || cmd == F_FREESP) error = flock_check(vp, &bf, offset, maxoffset); else if (cmd == F_ALLOCSP64 || cmd == F_FREESP64) error = flock_check(vp, &bf, offset, MAXOFFSET_T); if (error) break; if (vp->v_type == VREG && bf.l_len == 0 && bf.l_start > OFFSET_MAX(fp)) { error = EFBIG; break; } /* * Make sure that there are no conflicting non-blocking * mandatory locks in the region being manipulated. If * there are such locks then return EACCES. */ if ((error = flock_get_start(vp, &bf, offset, &start)) != 0) break; if (nbl_need_check(vp)) { u_offset_t begin; ssize_t length; nbl_start_crit(vp, RW_READER); in_crit = 1; vattr.va_mask = AT_SIZE; if ((error = VOP_GETATTR(vp, &vattr, 0, CRED(), NULL)) != 0) break; begin = start > vattr.va_size ? vattr.va_size : start; length = vattr.va_size > start ? vattr.va_size - start : start - vattr.va_size; if (nbl_conflict(vp, NBL_WRITE, begin, length, 0, NULL)) { error = EACCES; break; } } if (cmd == F_ALLOCSP64) cmd = F_ALLOCSP; else if (cmd == F_FREESP64) cmd = F_FREESP; error = VOP_SPACE(vp, cmd, &bf, flag, offset, fp->f_cred, NULL); break; #if !defined(_LP64) || defined(_SYSCALL32_IMPL) case F_GETLK64: case F_SETLK64: case F_SETLKW64: case F_SETLK64_NBMAND: case F_OFD_GETLK64: case F_OFD_SETLK64: case F_OFD_SETLKW64: case F_FLOCK64: case F_FLOCKW64: /* * Large Files: Here we set cmd as *LK and send it to * lower layers. *LK64 is only for the user land. * Most of the comments described above for F_SETLK * applies here too. * Large File support is only needed for ILP32 apps! */ if (datamodel != DATAMODEL_ILP32) { error = EINVAL; break; } if (cmd == F_GETLK64) cmd = F_GETLK; else if (cmd == F_SETLK64) cmd = F_SETLK; else if (cmd == F_SETLKW64) cmd = F_SETLKW; else if (cmd == F_SETLK64_NBMAND) cmd = F_SETLK_NBMAND; else if (cmd == F_OFD_GETLK64) cmd = F_OFD_GETLK; else if (cmd == F_OFD_SETLK64) cmd = F_OFD_SETLK; else if (cmd == F_OFD_SETLKW64) cmd = F_OFD_SETLKW; else if (cmd == F_FLOCK64) cmd = F_FLOCK; else if (cmd == F_FLOCKW64) cmd = F_FLOCKW; /* * Note that the size of flock64 is different in the ILP32 * and LP64 models, due to the sucking l_pad field. * We do not want to assume that the flock64 structure is * laid out in the same in ILP32 and LP64 environments, so * we will copy in the ILP32 version of flock64 explicitly * and copy it to the native flock64 structure. */ if (copyin((void *)arg, &bf64_32, sizeof (bf64_32))) { error = EFAULT; break; } bf.l_type = (short)bf64_32.l_type; bf.l_whence = (short)bf64_32.l_whence; bf.l_start = bf64_32.l_start; bf.l_len = bf64_32.l_len; bf.l_sysid = (int)bf64_32.l_sysid; bf.l_pid = (pid_t)bf64_32.l_pid; if ((error = flock_check(vp, &bf, offset, MAXOFFSET_T)) != 0) break; if (cmd == F_FLOCK || cmd == F_FLOCKW) { /* FLOCK* locking is always over the entire file. */ if (bf.l_whence != 0 || bf.l_start != 0 || bf.l_len != 0) { error = EINVAL; break; } if (bf.l_type < F_RDLCK || bf.l_type > F_UNLCK) { error = EINVAL; break; } } if (cmd == F_OFD_SETLK || cmd == F_OFD_SETLKW) { /* * TBD OFD-style locking is currently limited to * covering the entire file. */ if (bf.l_whence != 0 || bf.l_start != 0 || bf.l_len != 0) { error = EINVAL; break; } } /* * The *_frlock functions in the various file systems basically * do some validation and then funnel everything through the * fs_frlock function. For OFD-style locks fs_frlock will do * nothing so that once control returns here we can call the * ofdlock function with the correct fp. For OFD-style locks * the unsupported remote file systems, such as NFS, detect and * reject the OFD-style cmd argument. */ if ((error = VOP_FRLOCK(vp, cmd, &bf, flag, offset, NULL, fp->f_cred, NULL)) != 0) break; if (cmd == F_FLOCK || cmd == F_FLOCKW || cmd == F_OFD_GETLK || cmd == F_OFD_SETLK || cmd == F_OFD_SETLKW) { /* * This is an OFD-style lock so we need to handle it * here. Because OFD-style locks are associated with * the file_t we didn't have enough info down the * VOP_FRLOCK path immediately above. */ if ((error = ofdlock(fp, cmd, &bf, flag, offset)) != 0) break; } if ((cmd == F_GETLK || cmd == F_OFD_GETLK) && bf.l_type == F_UNLCK) { if (copyout(&bf.l_type, &((struct flock *)arg)->l_type, sizeof (bf.l_type))) error = EFAULT; break; } if (cmd == F_GETLK || cmd == F_OFD_GETLK) { int i; /* * We do not want to assume that the flock64 structure * is laid out in the same in ILP32 and LP64 * environments, so we will copy out the ILP32 version * of flock64 explicitly after copying the native * flock64 structure to it. */ for (i = 0; i < 4; i++) bf64_32.l_pad[i] = 0; bf64_32.l_type = (int16_t)bf.l_type; bf64_32.l_whence = (int16_t)bf.l_whence; bf64_32.l_start = bf.l_start; bf64_32.l_len = bf.l_len; bf64_32.l_sysid = (int32_t)bf.l_sysid; bf64_32.l_pid = (pid32_t)bf.l_pid; if (copyout(&bf64_32, (void *)arg, sizeof (bf64_32))) error = EFAULT; } break; #endif /* !defined(_LP64) || defined(_SYSCALL32_IMPL) */ case F_SHARE: case F_SHARE_NBMAND: case F_UNSHARE: /* * Copy in input fields only. */ if (copyin((void *)arg, &fsh, sizeof (fsh))) { error = EFAULT; break; } /* * Local share reservations always have this simple form */ shr.s_access = fsh.f_access; shr.s_deny = fsh.f_deny; shr.s_sysid = 0; shr.s_pid = ttoproc(curthread)->p_pid; shr_own.sl_pid = shr.s_pid; shr_own.sl_id = fsh.f_id; shr.s_own_len = sizeof (shr_own); shr.s_owner = (caddr_t)&shr_own; error = VOP_SHRLOCK(vp, cmd, &shr, flag, fp->f_cred, NULL); break; default: error = EINVAL; break; } if (in_crit) nbl_end_crit(vp); done: releasef(fdes); out: if (error) return (set_errno(error)); return (retval); } int flock_check(vnode_t *vp, flock64_t *flp, offset_t offset, offset_t max) { struct vattr vattr; int error; u_offset_t start, end; /* * Determine the starting point of the request */ switch (flp->l_whence) { case 0: /* SEEK_SET */ start = (u_offset_t)flp->l_start; if (start > max) return (EINVAL); break; case 1: /* SEEK_CUR */ if (flp->l_start > (max - offset)) return (EOVERFLOW); start = (u_offset_t)(flp->l_start + offset); if (start > max) return (EINVAL); break; case 2: /* SEEK_END */ vattr.va_mask = AT_SIZE; if (error = VOP_GETATTR(vp, &vattr, 0, CRED(), NULL)) return (error); if (flp->l_start > (max - (offset_t)vattr.va_size)) return (EOVERFLOW); start = (u_offset_t)(flp->l_start + (offset_t)vattr.va_size); if (start > max) return (EINVAL); break; default: return (EINVAL); } /* * Determine the range covered by the request. */ if (flp->l_len == 0) end = MAXEND; else if ((offset_t)flp->l_len > 0) { if (flp->l_len > (max - start + 1)) return (EOVERFLOW); end = (u_offset_t)(start + (flp->l_len - 1)); ASSERT(end <= max); } else { /* * Negative length; why do we even allow this ? * Because this allows easy specification of * the last n bytes of the file. */ end = start; start += (u_offset_t)flp->l_len; (start)++; if (start > max) return (EINVAL); ASSERT(end <= max); } ASSERT(start <= max); if (flp->l_type == F_UNLCK && flp->l_len > 0 && end == (offset_t)max) { flp->l_len = 0; } if (start > end) return (EINVAL); return (0); } static int flock_get_start(vnode_t *vp, flock64_t *flp, offset_t offset, u_offset_t *start) { struct vattr vattr; int error; /* * Determine the starting point of the request. Assume that it is * a valid starting point. */ switch (flp->l_whence) { case 0: /* SEEK_SET */ *start = (u_offset_t)flp->l_start; break; case 1: /* SEEK_CUR */ *start = (u_offset_t)(flp->l_start + offset); break; case 2: /* SEEK_END */ vattr.va_mask = AT_SIZE; if (error = VOP_GETATTR(vp, &vattr, 0, CRED(), NULL)) return (error); *start = (u_offset_t)(flp->l_start + (offset_t)vattr.va_size); break; default: return (EINVAL); } return (0); } /* * Take rctl action when the requested file descriptor is too big. */ static void fd_too_big(proc_t *p) { mutex_enter(&p->p_lock); (void) rctl_action(rctlproc_legacy[RLIMIT_NOFILE], p->p_rctls, p, RCA_SAFE); mutex_exit(&p->p_lock); }