ISIS is now available for the PC/RT running AIX
Ken Birman
ken at gvax.cs.cornell.edu
Tue Sep 26 23:38:44 AEST 1989
This is to announce the availability of a public distribution of
the ISIS System, a toolkit for distributed and fault-tolerant
programming. The latest version of ISIS runs on UNIX on SUN, IBM
(PC/RT), DEC, GOULD, and HP systems, and on MACH on all platforms.
No kernel changes are needed to support ISIS; you just roll it in,
compile, and should be able to use it immediately. The current
implementation of ISIS performs well in networks of up to about
100-200 sites and is available without charge from Cornell Univ.
--- Who might find ISIS useful? ---
You will find ISIS useful if you are interested in developing
relatively sophisticated distributed programs under UNIX (eventu-
ally, other systems too). These include programs that distribute
computations over multiple processes, need fault-tolerance, coor-
dinate activities underway at several places in a network,
recover automatically from software and hardware crashes, and/or
dynamically reconfigure while maintaining some sort of distri-
buted correctness constraint at all times. ISIS is also useful
in building certain types of distributed real time systems.
Here are examples of problems to which ISIS has been applied:
o On the factory floor, we are working with an industrial
research group that is using ISIS to program decentralized
cell controllers. They need to arrive at a modular, expand-
able, fault-tolerant distributed system. ISIS makes it pos-
sible for them to build such a system without a huge invest-
ment of effort. (The ISIS group also working closely with
an automation standards consortium called ANSA, headed by
Andrew Herbert in Cambridge).
o As part of a network file system, we built an interface to
the UNIX NFS (we call ours the "RNFS") that supports tran-
sparent file replication and fault-tolerance. The RNFS
speaks NFS protocols but employs ISIS internally to maintain
a consistent distributed state. For most operations, the
RNFS performance is at worst 50-75% of that of a normal NFS
-- despite supporting file replication and fault-tolerance.
o A parallel "make" program. Here, ISIS was used within a
control program that splits up large software recompilation
tasks and runs them on idle workstations, tolerating
failures and dynamically adapting if a workstation is
reclaimed by its owner.
o In a hospital, we have looked at using ISIS to manage repli-
cated data and to coordinate activities that may span multi-
ple machines. The problem here is the need for absolute
correctness: if a doctor is to trust a network to carry out
orders that might impact on patient health, there is no room
for errors due to race conditions or failures. At the same
time, cost considerations argue for distributed systems that
can be expanded slowly in a fully decentralized manner.
ISIS addresses both of these issues: it makes it far easier
to build a reliable, correct, distributed system that will
manage replicated data and provide complex distributed
behaviors. And, ISIS is designed to scale well.
o For programming numerical algorithms. One group at Cornell
used ISIS to distribute matrix computations over large
numbers of workstations. They did this because the worksta-
tions were available, mostly idle, and added up to a tremen-
dous computational engine.
o In a particle physics experiment. We are talking to one
group that hopes to use ISIS to implement a distributed con-
trol program. It will operate data collection devices, farm
out the particle track calculations onto lightly loaded
workstations, collect the results, and adapt to failures
automatically by reconfiguring and shifting any interrupted
computation to an operational machine.
The problems above are characterized by several features. First,
they would all be very difficult to solve using remote procedure
calls or transactions against some shared database. They have
complex, distributed correctness constraints on them: what hap-
pens at site "a" often requires a coordinated action at site "b"
to be correct. And, they do a lot of work in the application
program itself, so that the ISIS communication mechanism is not
the bottleneck.
If you have an application like this, or are interested in taking
on this kind of application, ISIS may be a big win for you.
Instead of investing resources in building an environment within
which to solve your application, using ISIS means that you can
tackle the application immediately, and get something working
much faster than if you start with RPC (remote procedure calls).
--- What ISIS does ---
The ISIS system has been under development for several years at
Cornell University. After an initial focus on transactional
"resilient objects", the emphasis shifted in 1986 to a toolkit
style of programming. This approach stresses distributed con-
sistency in applications that manage replicated data or that
require distributed actions to be taken in response to events
occurring in the system. An "event" could be a user request on a
distributed service, a change to the system configuration result-
ing from a process or site failure or recovery, a timeout, etc.
The ISIS toolkit uses a subroutine call style interface similar
to the interface to any conventional operating system. The pri-
mary difference, however, is that ISIS functions as a meta-
operating system. ISIS system calls result in actions that may
span multiple processes and machines in the network. Moreover,
ISIS provides a novel "virtual consistency" property to its
users. This property makes it easy to build software in which
currently executing processes behave in a coordinated way, main-
tain replicated data, or otherwise satisfy a system-wide correct-
ness property. Moreover, virtual synchrony makes even complex
operations look atomic, which generally implies that toolkit
functions will not interfere with one another. One can take
advantage of this to develop distributed ISIS software in a sim-
ple step-by-step style, starting with a non-distributed program,
then adding replicated data or backup processes for fault-
tolerance or higher availability, then extending the distributed
solution to support dynamic reconfiguration, etc. ISIS provides
a really unique style of distributed programming -- at least if
your distributed computing problems run up against the issues we
address. For such applications, the ISIS programming style is
both easy and intuitive.
ISIS is really intended for, and is good at, problems that draw
heavily on replication of data and coordination of actions by a
set of processes that know about one another's existence. For
example, in a factory, one might need to coordinate the actions
of a set of machine-controlled drills at a manufacturing cell.
Each drill would do its part of the overall work to be done,
using a coordinated scheduling policy that avoids collisions
between the drill heads, and with fault-tolerance mechanisms to
deal with bits breaking. ISIS is ideally suited to solving prob-
lems like this one. Similar problems arise in any distributed
setting, be it local-area network software for the office or a
CAD problem, or the automation of a critical care system in a
hospital.
ISIS is not intended for transactional database applications. If
this is what you need, you should obtain one of the many such
systems that are now available. On the other hand, ISIS would be
useful if your goal is to build a front-end in a setting that
needs databases. The point is that most database systems are
designed to avoid interference between simultaneously executing
processes. If your application also needs cooperation between
processes doing things concurrently at several places, you may
find this aspect hard to solve using just a database because
databases force the interactions to be done indirectly through
the shared data. ISIS is good for solving this kind of problem,
because it provides a direct way to replicate control informa-
tion, coordinate the actions of the front-end processes, and to
detect and react to failures.
ISIS itself runs as a user-domain program on UNIX systems sup-
porting the TCP/IP protocol suite. It currently is operational
on SUN, DEC, GOULD and HP versions of UNIX. Language interfaces
for C, C++, FORTRAN, and Common LISP (both Lucid and Allegro) are
included, and a new C-Prolog interface is being tested now.
The actual set of tools includes the following:
o High performance mechanisms supporting lightweight tasks in
UNIX, a simple message-passing facility, and a very simple
and uniform addressing mechanism. Users do not work
directly with things like ports, sockets, binding, connect-
ing, etc. ISIS handles all of this.
o A process "grouping" facility, which permits processes to
dynamically form and leave symbolically-named associations.
The system serializes changes to the membership of each
group: all members see the same sequence of changes. Groups
names can be used as a location-transparent address.
o A suite of broadcast protocols integrated with a group
addressing mechanism. This suite operates in a way that
makes it look as if all broadcasts are received "simultane-
ously" by all the members of a group, and are received in
the same "view" of group membership.
o Ways of obtaining distributed executions. When a request
arrives in a group, or a distributed event takes place, ISIS
supports any of a variety of execution styles, ranging from
a redundant computation to a coordinator-cohort computation
in which one process takes the requested actions while oth-
ers back it up, taking over if the coordinator fails.
o Replicated data with 1-copy consistency guarantees.
o Synchronization facilities, based on token passing or
read/write locks.
o Facilities for watching a for a process or site (computer)
to fail or recover, triggering execution of subroutines pro-
vided by the user when the watched-for event occurs. If
several members of a group watch for the same event, all
will see it at the same "time" with respect to arriving mes-
sages to the group and other events, such as group member-
ship changes.
o A facility for joining a group and atomically obtaining
copies of any variables or data structures that comprise its
"state" at the instant before the join takes place. The
programmer who designs a group can specify state information
in addition to the state automatically maintained by ISIS.
o Automatic restart of applications when a computer recovers
from a crash, including log-based recovery (if desired) for
cases when all representatives of a service fail simultane-
ously.
o Ways to build transactions or to deal with transactional
files and database systems external to ISIS. ISIS itself
doesn't know about files or transactions.
o Spooler/long-haul mechanism, for saving data to be sent to a
group next time it recovers, or for sending from one ISIS LAN
to another, physically remote one (e.g. from your Norway site
to your San Diego installation). Note: ISIS will not normally
run over communication links subject to frequent failures, al-
though this long-haul interface has no such restrictions.
Everything in ISIS is fault-tolerant. Our programming manual has
been written in a tutorial style, and gives details on each of
these mechanisms. It includes examples of typical small ISIS
applications and how they can be solved. The distribution of the
system includes demos, such as the parallel make facility men-
tioned above; this large ISIS application program illustrates
many system features.
To summarize, ISIS provides a broad range of tools, including
some that require algorithms that would be very hard to support
in other systems or to implement by hand. Performance is quite
good: most tools require between 1/20 and 1/5 second to execute
on a SUN 3/60, although the actual numbers depend on how big
processes groups get, the speed of the network, the locations of
processes involved, etc. Overall, however, the system is really
quite fast when compared with, say, file access over the network.
For certain common operations a five to ten-fold performance
improvement is expected within two years, as we implement a col-
lection of optimizations. The system scales well with the size
of the network, and system overhead is largely independent of
network size. On a machine that is not participating in any ISIS
application, the overhead of having ISIS running is negligible.
--- You can get a copy of ISIS in the near future ---
A prototype of ISIS is now fully operational and is being made
available to the public. The version we plan to distribute con-
sists of a C implementation for UNIX, and has been ported to SUN
UNIX, MACH, ULTRIX, Gould UNIX, HP-UX, and APOLLO UNIX (release
10.1. Performance is uniformly good. A 300 page tutorial and sys-
tem manual containing numerous programming examples is also
available. Online manual pages are also provided.
The remainder of this posting focuses on how to get ISIS, and how
to get the manual. Everything is free except bound copies of the
manual. Source is included, but the system is in the public
domain, and is released on condition that any ports to other sys-
tems or minor modifications remain in the public domain. The
manual is copyrighted by the project and is available in hard-
copy form or as a DVI file, with figures available for free on
request.
--- Release schedule ---
June 1: a BETA release of the system for reasonably sophisti-
cated sites that can deal with software that will probably
still have some bugs. The system, as of June 1, will not
scale beyond about 150 sites at one time.
August 1: a final release of the June 1 system and a BETA
release of a version containing some performance enhance-
ments and some tools that are missing from the June-1 Beta
release (notably, an interface from ISIS to transactional
systems like CAMELOT).
--- Release strategy ---
We will place a compressed TAR image in a public directory on one
of our machines and permit people to copy it off using FTP. Also
available will be DVI format versions of our manual. Bound
copies will be available at $10 each. A package of figures to
glue into the DVI version will be provided free of charge.
A tape containing ISIS will be provided to a limited number of
sites upon payment of a charge to cover our costs in making the
tape. Our resources are limited and we do not wish to do much of
this.
--- Commercial support ---
We are working with a local company, ISIS Distributed Systems
Inc., to provide support services for ISIS. This company will
prepare distributions and work to fix bugs. Support contracts
are available for an annual fee; without a contract, we will do
our best to be helpful but make no promises. Other services that
IDS plans to provide will include consulting on fault-tolerant
distributed systems design, instruction on how to work with ISIS,
bug identification and fixes, and contractual joint software
development projects. The company is also prepared to port ISIS
to other systems or other programming languages. Contact
"birman at gvax.cs.cornell.edu" for more information.
--- If you want ISIS, let us know ---
Send mail to croft at gvax.cs.cornell.edu, subject "I want ISIS",
with electronic and physical mailing details. We will send you a
form for acknowledging agreement with the conditions for release
of the software and will later contact you with details on how to
actually copy the system off our machine to yours.
--- You can read more about ISIS if you like ---
The following papers and documents are available from Cornell.
We don't distribute papers by e-mail. Requests for papers should
be transmitted to "croft at gvax.cs.cornell.edu".
1. Exploiting replication. K. Birman and T. Joseph. This is a
preprint of a chapter that will appear in: Arctic 88, An
advanced course on operating systems, Tromso, Norway (July
1988). 50pp.
2. Reliable broadcast protocols. T. Joseph and K. Birman.
This is a preprint of a chapter that will appear in: Arctic
88, An advanced course on operating systems, Tromso, Norway
(July 1988). 30pp.
3. ISIS: A distributed programming environment. User's guide
and reference manual. K. Birman, T. Joseph, F. Schmuck.
Cornell University, March 1988. 275pp.
4. Exploiting virtual synchrony in distributed systems. K.
Birman and T. Joseph. Proc. 11th ACM Symposium on Operating
Systems Principles (SOSP), Nov. 1987. 12pp.
5. Reliable communication in an unreliable environment. K.
Birman and T. Joseph. ACM Transactions on Computer Systems,
Feb. 1987. 29pp.
6. Low cost management of replicated data in fault-tolerant
distributed systems. T. Joseph and K. Birman. ACM Transac-
tions on Computer Systems, Feb. 1986. 15pp.
We will be happy to provide reprints of these papers. Unless we
get an overwhelming number of requests, we plan no fees except
for the manual. We also maintain a mailing list for individuals
who would like to receive publications generated by the project
on an ongoing basis.
If you want to learn about the virtual synchrony as an approach
to distributed computing, the best place to start is with refer-
ence [1]. If you want to learn more about the ISIS system, how-
ever, start with the manual. It has been written in a tutorial
style and should be easily accessible to anyone familiar with the
C programming language.
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