519 lines
22 KiB
Plaintext
519 lines
22 KiB
Plaintext
.\" Copyright (c) 1989 The Regents of the University of California.
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.\" All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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.\" modification, are permitted provided that the following conditions
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.\" are met:
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.\" 1. Redistributions of source code must retain the above copyright
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.\" notice, this list of conditions and the following disclaimer.
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.\" 2. Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\" 3. All advertising materials mentioning features or use of this software
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.\" must display the following acknowledgement:
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.\" This product includes software developed by the University of
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.\" California, Berkeley and its contributors.
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.\" 4. Neither the name of the University nor the names of its contributors
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.\" may be used to endorse or promote products derived from this software
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.\" without specific prior written permission.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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.\" ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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.\" SUCH DAMAGE.
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.\"
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.\" @(#)beyond43.ms 5.1 (Berkeley) 6/5/90
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.\"
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.\" *troff -ms
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.rm CM
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.sp 2
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.ce 100
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\fB\s+2Current Research by
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The Computer Systems Research Group
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of Berkeley\s-2\fP
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.ds DT "February 10, 1989
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.\" \fBDRAFT of \*(DT\fP
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.sp 2
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.nf
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Marshall Kirk McKusick
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Michael J Karels
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Keith Sklower
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Kevin Fall
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Marc Teitelbaum
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Keith Bostic
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.fi
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.sp 2
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.ce 1
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\fISummary\fP
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.ce 0
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.PP
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The release of 4.3BSD in April of 1986 addressed many of the
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performance problems and unfinished interfaces
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present in 4.2BSD [Leffler84] [McKusick85].
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The Computer Systems Research Group at Berkeley
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has now embarked on a new development phase to
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update other major components of the system, as well as to offer
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new functionality.
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There are five major ongoing projects.
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The first is to develop an OSI network protocol suite and to integrate
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existing ISO applications into Berkeley UNIX.
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The second is to develop and support an interface compliant with the
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P1003.1 POSIX standard recently approved by the IEEE.
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The third is to refine the TCP/IP networking to improve
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its performance and limit congestion on slow and/or lossy networks.
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The fourth is to provide a standard interface to file systems
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so that multiple local and remote file systems can be supported,
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much as multiple networking protocols are supported by 4.3BSD.
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The fifth is to evaluate alternate access control mechanisms and
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audit the existing security features of the system, particularly
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with respect to network services.
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Other areas of work include multi-architecture support,
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a general purpose kernel memory allocator, disk labels, and
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extensions to the 4.2BSD fast filesystem.
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.PP
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We are planning to finish implementation prototypes for each of the
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five main areas of work over the next year, and provide an informal
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test release sometime next year for interested developers.
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After incorporating feedback and refinements from the testers,
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they will appear in the next full Berkeley release, which is typically
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made about a year after the test release.
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.br
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.ne 10
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.sp 2
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.NH
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Recently Completed Projects
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.PP
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There have been several changes in the system that were included
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in the recent 4.3BSD Tahoe release.
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.NH 2
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Multi-architecture support
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.PP
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Support has been added for the DEC VAX 8600/8650, VAX 8200/8250,
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MicroVAXII and MicroVAXIII.
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.PP
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The largest change has been the incorporation of support for the first
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non-VAX processor, the CCI Power 6/32 and 6/32SX. (This addition also
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supports the
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Harris HCX-7 and HCX-9, as well as the Sperry 7000/40 and ICL machines.)
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The Power 6 version of 4.3BSD is largely based on the compilers and
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device drivers done for CCI's 4.2BSD UNIX,
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and is otherwise similar to the VAX release of 4.3BSD.
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The entire source tree, including all kernel and user-level sources,
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has been merged using a structure that will easily accommodate the addition
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of other processor families. A MIPS R2000 has been donated to us,
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making the MIPS architecture a likely candidate for inclusion into a future
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BSD release.
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.NH 2
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Kernel Memory Allocator
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.PP
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The 4.3BSD UNIX kernel used 10 different memory allocation mechanisms,
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each designed for the particular needs of the utilizing subsystem.
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These mechanisms have been replaced by a general purpose dynamic
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memory allocator that can be used by all of the kernel subsystems.
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The design of this allocator takes advantage of known memory usage
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patterns in the UNIX kernel and a hybrid strategy that is time-efficient
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for small allocations and space-efficient for large allocations.
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This allocator replaces the multiple memory allocation interfaces
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with a single easy-to-program interface,
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results in more efficient use of global memory by eliminating
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partitioned and specialized memory pools,
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and is quick enough (approximately 15 VAX instructions) that no
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performance loss is observed relative to the current implementations.
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[McKusick88].
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.NH 2
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Disk Labels
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.PP
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During the work on the CCI machine,
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it became obvious that disk geometry and filesystem layout information
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must be stored on each disk in a pack label.
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Disk labels were implemented for the CCI disks and for the most common
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types of disk controllers on the VAX.
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A utility was written to create and maintain the disk information,
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and other user-level programs that use such information now obtain
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it from the disk label.
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The use of this facility has allowed improvements in the file system's
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knowledge of irregular disk geometries such as track-to-track skew.
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.NH 2
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Fat Fast File System
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.PP
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The 4.2 fast file system [McKusick84]
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contained several statically sized structures,
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imposing limits on the number of cylinders per cylinder group,
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inodes per cylinder group,
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and number of distinguished rotational positions.
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The new ``fat'' filesystem allows these limits to be set at filesystem
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creation time.
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Old kernels will treat the new filesystems as read-only,
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and new kernels
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will accommodate both formats.
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The filesystem check facility, \fCfsck\fP, has also been modified to check
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either type.
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.br
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.ne 10
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.sp 2
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.NH
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Current UNIX Research at Berkeley
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.PP
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Since the release of 4.3BSD in mid 1986,
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we have begun work on several new major areas of research.
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Our goal is to apply leading edge research ideas into a stable
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and reliable implementation that solves current problems in
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operating systems development.
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.NH 2
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OSI network protocol development
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.PP
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The network architecture of 4.2BSD was designed to accommodate
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multiple network protocol families and address formats,
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and an implementation of the ISO OSI network protocols
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should enter into this framework without much difficulty.
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We plan to
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implement the OSI connectionless internet protocol (CLNP),
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and device drivers for X.25, 802.3, and possibly 802.5 interfaces, and
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to integrate these with an OSI transport class 4 (TP-4) implementation.
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We will also incorporate into the Berkeley Software Distribution an
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updated ISO Development Environment (ISODE)
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featuring International Standard (IS) versions of utilities.
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ISODE implements the session and presentation layers of the OSI protocol suite,
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and will include an implementation of the file transfer protocol (FTAM).
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It is also possible that an X.400 implementation now being done at
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University College, London and the University of Nottingham
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will be available for testing and distribution.
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.LP
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This implementation is comprised of four areas.
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.IP 1)
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We are updating the University of
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Wisconsin TP-4 to match GOSIP requirements.
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The University of Wisconsin developed a transport class 4
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implementation for the 4.2BSD kernel under contract to Mitre.
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This implementation must be updated to reflect the National Institute
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of Standards and Technology (NIST, formerly NBS) workshop agreements,
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GOSIP, and 4.3BSD requirements.
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We will make this TP-4 operate with an OSI IP,
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as the original implementation was built to run over the DoD IP.
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.IP 2)
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A kernel version of the OSI IP and ES-IS protocols must be produced.
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We will implement the kernel version of these protocols.
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.IP 3)
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The required device drivers need to be integrated into a BSD kernel.
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4.3BSD has existing device drivers for many Ethernet devices; future
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BSD versions may also support X.25 devices as well as token ring
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networks.
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These device drivers must be integrated
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into the kernel OSI protocol implementations.
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.IP 4)
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The existing OSINET interoperability test network is available so
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that the interoperability of the ISODE and BSD kernel protocols
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can be established through tests with several vendors.
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Testing is crucial because an openly available version of GOSIP protocols
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that does not interoperate with DEC, IBM, SUN, ICL, HIS, and other
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major vendors would be embarrassing.
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To allow testing of the integrated pieces the most desirable
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approach is to provide access to OSINET at UCB.
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A second approach is to do the interoperability testing at
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the site of an existing OSINET member, such as the NBS.
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.NH 2
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Compliance with POSIX 1003
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.PP
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Berkeley became involved several months ago in the development
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of the IEEE POSIX P1003.1 system interface standard.
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Since then, we have been participating in the working groups
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of P1003.2 (shell and application utility interface),
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P1003.6 (security), P1003.7 (system administration), and P1003.8
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(networking).
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.PP
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The IEEE published the POSIX P1003.1 standard in late 1988.
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POSIX related changes to the BSD system have included a new terminal
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driver, support for POSIX sessions and job control, expanded signal
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functionality, restructured directory access routines, and new set-user
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and set-group id facilities.
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We currently have a prototype implementation of the
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POSIX driver with extensions to provide binary compatibility with
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applications developed for the old Berkeley terminal driver.
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We also have a prototype implementation of the 4.2BSD-based POSIX
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job control facility.
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.PP
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The P1003.2 draft is currently being voted on by the IEEE
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P1003.2 balloting group.
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Berkeley is particularly interested in the results of this standard,
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as it will profoundly influence the user environment.
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The other groups are in comparatively early phases, with drafts
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coming to ballot sometime in the 90's.
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Berkeley will continue to participate in these groups, and
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move in the near future toward a P1003.1 and P1003.2 compliant
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system.
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We have many of the utilities outlined in the current P1003.2 draft
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already implemented, and have other parties willing to contribute
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additional implementations.
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.NH 2
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Improvements to the TCP/IP Networking Protocols
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.PP
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The Internet and the Berkeley collection of local-area networks
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have both grown at high rates in the last year.
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The Bay Area Regional Research Network (BARRNet),
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connecting several UC campuses, Stanford and NASA-Ames
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has recently become operational, increasing the complexity
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of the network connectivity.
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Both Internet and local routing algorithms are showing the strain
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of continued growth.
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We have made several changes in the local routing algorithm
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to keep accommodating the current topology,
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and are participating in the development of new routing algorithms
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and standard protocols.
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.PP
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Recent work in collaboration with Van Jacobson of the Lawrence Berkeley
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Laboratory has led to the design and implementation of several new algorithms
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for TCP that improve throughput on both local and long-haul networks
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while reducing unnecessary retransmission.
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The improvement is especially striking when connections must traverse
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slow and/or lossy networks.
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The new algorithms include ``slow-start,''
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a technique for opening the TCP flow control window slowly
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and using the returning stream of acknowledgements as a clock
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to drive the connection at the highest speed tolerated by the intervening
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network.
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A modification of this technique allows the sender to dynamically modify
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the send window size to adjust to changing network conditions.
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In addition, the round-trip timer has been modified to estimate the variance
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in round-trip time, thus allowing earlier retransmission of lost packets
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with less spurious retransmission due to increasing network delay.
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Along with a scheme proposed by Phil Karn of Bellcore,
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these changes reduce unnecessary retransmission over difficult paths
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such as Satnet by nearly two orders of magnitude
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while improving throughput dramatically.
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.PP
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The current TCP implementation is now being readied
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for more widespread distribution via the network and as a
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standard Berkeley distribution unencumbered by any commercial licensing.
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We are continuing to refine the TCP and IP implementations
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using the ARPANET, BARRNet, the NSF network
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and local campus nets as testbeds.
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In addition, we are incorporating applicable algorithms from this work
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into the TP-4 protocol implementation.
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.NH 2
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Toward a Compatible File System Interface
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.PP
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The most critical shortcoming of the 4.3BSD UNIX system was in the
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area of distributed file systems.
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As with networking protocols,
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there is no single distributed file system
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that provides sufficient speed and functionality for all problems.
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It is frequently necessary to support several different remote
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file system protocols, just as it is necessary to run several
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different network protocols.
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.PP
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As network or remote file systems have been implemented for UNIX,
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several stylized interfaces between the file system implementation
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and the rest of the kernel have been developed.
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Among these are Sun Microsystems' Virtual File System interface (VFS)
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using \fBvnodes\fP [Sandburg85] [Kleiman86],
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Digital Equipment's Generic File System (GFS) architecture [Rodriguez86],
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AT&T's File System Switch (FSS) [Rifkin86],
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the LOCUS distributed file system [Walker85],
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and Masscomp's extended file system [Cole85].
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Other remote file systems have been implemented in research or
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university groups for internal use,
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notably the network file system in the Eighth Edition UNIX
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system [Weinberger84] and two different file systems used at Carnegie Mellon
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University [Satyanarayanan85].
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Numerous other remote file access methods have been devised for use
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within individual UNIX processes,
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many of them by modifications to the C I/O library
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similar to those in the Newcastle Connection [Brownbridge82].
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.PP
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Each design attempts to isolate file system-dependent details
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below a generic interface and to provide a framework within which
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new file systems may be incorporated.
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However, each of these interfaces is different from
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and incompatible with the others.
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Each addresses somewhat different design goals,
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having been based on a different version of UNIX,
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having targeted a different set of file systems with varying characteristics,
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and having selected a different set of file system primitive operations.
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.PP
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Our effort in this area is aimed at providing a common framework to
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support these different distributed file systems simultaneously rather than to
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simply implement yet another protocol.
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This requires a detailed study of the existing protocols,
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and discussion with their implementors to determine whether
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they could modify their implementation to fit within our proposed
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framework. We have studied the various file system interfaces to determine
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their generality, completeness, robustness, efficiency, and aesthetics
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and are currently working on a file system interface
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that we believe includes the best features of
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each of the existing implementations.
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This work and the rationale underlying its development
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have been presented to major software vendors as an early step
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toward convergence on a standard compatible file system interface.
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Briefly, the proposal adopts the 4.3BSD calling convention for file
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name lookup but otherwise is closely related to Sun's VFS
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and DEC's GFS. [Karels86].
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.NH 2
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System Security
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.PP
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The recent invasion of the DARPA Internet by a quickly reproducing ``worm''
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highlighted the need for a thorough review of the access
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safeguards built into the system.
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Until now, we have taken a passive approach to dealing with
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weaknesses in the system access mechanisms, rather than actively
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searching for possible weaknesses.
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When we are notified of a problem or loophole in a system utility
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by one of our users,
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we have a well defined procedure for fixing the problem and
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expeditiously disseminating the fix to the BSD mailing list.
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This procedure has proven itself to be effective in
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solving known problems as they arise
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(witness its success in handling the recent worm).
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However, we feel that it would be useful to take a more active
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role in identifying problems before they are reported (or exploited).
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We will make a complete audit of the system
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utilities and network servers to find unintended system access mechanisms.
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.PP
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As a part of the work to make the system more resistant to attack
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from local users or via the network, it will be necessary to produce
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additional documentation on the configuration and operation of the system.
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This documentation will cover such topics as file and directory ownership
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and access, network and server configuration,
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and control of privileged operations such as file system backups.
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.PP
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We are investigating the addition of access control lists (ACLs) for
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filesystem objects.
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ACLs provide a much finer granularity of control over file access permissions
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than the current
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discretionary access control mechanism (mode bits).
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Furthermore, they are necessary
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in environments where C2 level security or better, as defined in the DoD
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TCSEC [DoD83], is required.
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The POSIX P1003.6 security group has made notable progress in determining
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how an ACL mechanism should work, and several vendors have implemented
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ACLs for their commercial systems.
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Berkeley will investigate the existing implementations and determine
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how to best integrate ACLs with the existing mechanism.
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.PP
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A major shortcoming of the present system is that authentication
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over the network is based solely on the privileged port mechanism
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between trusting hosts and users.
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Although privileged ports can only be created by processes running as root
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on a UNIX system,
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such processes are easy for a workstation user to obtain;
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they simply reboot their workstation in single user mode.
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Thus, a better authentication mechanism is needed.
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At present, we believe that the MIT Kerberos authentication
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server [Steiner88] provides the best solution to this problem.
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We propose to investigate Kerberos further as well as other
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authentication mechanisms and then to integrate
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the best one into Berkeley UNIX.
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Part of this integration would be the addition of the
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authentication mechanism into utilities such as
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telnet, login, remote shell, etc.
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We will add support for telnet (eventually replacing rlogin),
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the X window system, and the mail system within an authentication
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domain (a Kerberos \fIrealm\fP).
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We hope to replace the existing password authentication on each host
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with the network authentication system.
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.NH
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References
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.sp
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.IP Brownbridge82
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Brownbridge, D.R., L.F. Marshall, B. Randell,
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``The Newcastle Connection, or UNIXes of the World Unite!,''
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\fISoftware\- Practice and Experience\fP, Vol. 12, pp. 1147-1162, 1982.
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.sp
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.IP Cole85
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.br
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Cole, C.T., P.B. Flinn, A.B. Atlas,
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``An Implementation of an Extended File System for UNIX,''
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\fIUsenix Conference Proceedings\fP,
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|
pp. 131-150, June, 1985.
|
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.sp
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.IP DoD83
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.br
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Department of Defense,
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``Trusted Computer System Evaluation Criteria,''
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\fICSC-STD-001-83\fP,
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DoD Computer Security Center, August, 1983.
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.sp
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.IP Karels86
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Karels, M., M. McKusick,
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``Towards a Compatible File System Interface,''
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\fIProceedings of the European UNIX Users Group Meeting\fP,
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Manchester, England, pp. 481-496, September 1986.
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.sp
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.IP Kleiman86
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Kleiman, S.,
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``Vnodes: An Architecture for Multiple File System Types in Sun UNIX,''
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\fIUsenix Conference Proceedings\fP,
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pp. 238-247, June, 1986.
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.sp
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.IP Leffler84
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Leffler, S., M.K. McKusick, M. Karels,
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``Measuring and Improving the Performance of 4.2BSD,''
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\fIUsenix Conference Proceedings\fP, pp. 237-252, June, 1984.
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.sp
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.IP McKusick84
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McKusick, M.K., W. Joy, S. Leffler, R. Fabry,
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``A Fast File System for UNIX'',
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\fIACM Transactions on Computer Systems 2\fP, 3.
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pp 181-197, August 1984.
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.sp
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.IP McKusick85
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McKusick, M.K., M. Karels, S. Leffler,
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|
``Performance Improvements and Functional Enhancements in 4.3BSD,''
|
|
\fIUsenix Conference Proceedings\fP, pp. 519-531, June, 1985.
|
|
.sp
|
|
.IP McKusick86
|
|
McKusick, M.K., M. Karels,
|
|
``A New Virtual Memory Implementation for Berkeley UNIX,''
|
|
\fIProceedings of the European UNIX Users Group Meeting\fP,
|
|
Manchester, England, pp. 451-460, September 1986.
|
|
.sp
|
|
.IP McKusick88
|
|
McKusick, M.K., M. Karels,
|
|
``Design of a General Purpose Memory Allocator for the 4.3BSD UNIX Kernel,''
|
|
\fIUsenix Conference Proceedings\fP,
|
|
pp. 295-303, June, 1988.
|
|
.sp
|
|
.IP Rifkin86
|
|
Rifkin, A.P., M.P. Forbes, R.L. Hamilton, M. Sabrio, S. Shah, K. Yueh,
|
|
``RFS Architectural Overview,'' \fIUsenix Conference Proceedings\fP,
|
|
pp. 248-259, June, 1986.
|
|
.sp
|
|
.IP Rodriguez86
|
|
Rodriguez, R., M. Koehler, R. Hyde,
|
|
``The Generic File System,''
|
|
\fIUsenix Conference Proceedings\fP,
|
|
pp. 260-269, June, 1986.
|
|
.sp
|
|
.IP Sandberg85
|
|
Sandberg, R., D. Goldberg, S. Kleiman, D. Walsh, B. Lyon,
|
|
``Design and Implementation of the Sun Network File System,''
|
|
\fIUsenix Conference Proceedings\fP,
|
|
pp. 119-130, June, 1985.
|
|
.sp
|
|
.IP Satyanarayanan85
|
|
Satyanarayanan, M., \fIet al.\fP,
|
|
``The ITC Distributed File System: Principles and Design,''
|
|
\fIProc. 10th Symposium on Operating Systems Principles\fP, pp. 35-50,
|
|
ACM, December, 1985.
|
|
.sp
|
|
.IP Steiner88
|
|
Steiner, J., C. Newman, J. Schiller,
|
|
``\fIKerberos:\fP An Authentication Service for Open Network Systems,''
|
|
\fIUsenix Conference Proceedings\fP, pp. 191-202, February, 1988.
|
|
.sp
|
|
.IP Walker85
|
|
Walker, B.J. and S.H. Kiser, ``The LOCUS Distributed File System,''
|
|
\fIThe LOCUS Distributed System Architecture\fP,
|
|
G.J. Popek and B.J. Walker, ed., The MIT Press, Cambridge, MA, 1985.
|
|
.sp
|
|
.IP Weinberger84
|
|
Weinberger, P.J., ``The Version 8 Network File System,''
|
|
\fIUsenix Conference presentation\fP,
|
|
June, 1984.
|