500 lines
18 KiB
Plaintext
500 lines
18 KiB
Plaintext
.HTML "The Various Ports
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.TL
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The Various Ports
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.PP
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This document collects comments about the various
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architectures supported by Plan 9.
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The system tries to hide most of the differences between machines,
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so the machines as seen by a Plan 9
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user look different from how they are perceived through commercial software.
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Also, because we are a small group, we couldn't do everything:
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exploit every optimization, support every model,
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drive every device.
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This document records what we
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.I have
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done.
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The first section discusses the compiler/assembler/loader suite for each machine.
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The second talks about
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the operating system implemented on each of the various
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machines.
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.SH
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The Motorola MC68020 compiler
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.PP
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This is the oldest compiler of the bunch. Relative to its
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competitors\(emcommercial compilers for the same machine\(emit generates
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quite good code.
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It assumes at least a 68020 architecture: some of the addressing
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modes it generates are not on the 68000 or 68010.
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.PP
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We also use this compiler for the 68040. Except for a few
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instructions and registers available only from assembly language,
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the only user-visible difference between these machines is in
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floating point. Our 68020s all have 68881 or 68882 floating
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point units attached, so to execute floating point programs we
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depend on there being appropriate hardware.
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Unfortunately, the 68040 is not quite so thorough in its implementation
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of the IEEE 754 standard or in its provision of built-in instructions
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for the
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transcendental functions. The latter was easy to get around: we
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don't use them on the 68020 either, but we do have a library,
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.CW -l68881 ,
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that you can use if you need the performance (which can be
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substantial:
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.CW astro
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runs twice as fast).
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We don't use this library by default because we want to run the same
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binaries on both machines and don't want to emulate
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.CW FCOSH
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in the operating system.
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.PP
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The problem with IEEE is nastier. We didn't really want to deal
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with gradual underflow and all that, especially since we had
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half a dozen machines we'd need to do it on, so on the 68040
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we implement non-trapping underflow as truncation to zero and
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do nothing about denormalized numbers and not-a-numbers.
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This means the 68020
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and the 68040 are not precisely compatible.
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.SH
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The Motorola MC68000 compiler
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.PP
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This compiler is a stripped-down version of the MC68020 compiler
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built for an abortive port to the Dragonball processor on the Palm Pilot.
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It generates position-independent code whose overall quality is much
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poorer than the code for the MC68020.
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.SH
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The MIPS compiler
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.PP
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This compiler generates code for the R2000, R3000, and R4000 machines configured
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to be big-endians. The compiler generates no R4000-specific instructions
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although the assembler and loader support the new user-mode instructions.
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There are options to generate code for little-endian machines.
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Considering its speed, the Plan 9 compiler generates good code,
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but the commercial
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MIPS compiler with all the stops pulled out consistently beats it
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by 20% or so, sometimes more. Since ours compiles about 10 times
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faster and we spend most of our time compiling anyway,
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we are content with the tradeoff.
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.PP
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The compiler is solid: we've used it for several big projects and, of course,
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all our applications run under it.
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The behavior of floating-point programs is much like on the 68040:
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the operating system emulates where necessary to get past non-trapping
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underflow and overflow, but does not handle gradual underflow or
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denormalized numbers or not-a-numbers.
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.SH
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The SPARC compiler
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.PP
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The SPARC compiler is also solid and fast, although we haven't
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used it for a few years, due to a lack of current hardware. We have seen it do
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much better than GCC with all the optimizations, but on average
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it is probably about the same.
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.PP
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We used to run some old SPARC machines with no multiply or divide instructions,
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so the compiler
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does not produce them by default.
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Instead it calls internal subroutines.
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A loader flag,
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.CW -M ,
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causes the instructions to be emitted. The operating system has
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trap code to emulate them if necessary, but the traps are slower than
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emulating them in user mode.
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In any modern lab, in which SPARCS have the instructions, it would be worth enabling the
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.CW -M
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flag by default.
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.PP
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The floating point story is the same as on the MIPS.
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.SH
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The Intel i386 compiler
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.PP
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This is really an
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.I x 86
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compiler, for
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.I x >2.
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It works only
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if the machine is in 32-bit protected mode.
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It is solid and generates tolerable code; it is our main compiler these days.
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.PP
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Floating point is well-behaved, but the compiler assumes i387-compatible
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hardware to execute
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the instructions. With 387 hardware,
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the system does the full IEEE 754 job, just like
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the MC68881. By default, the libraries don't use the 387 built-ins for
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transcendentals.
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If you want them,
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build the code in
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.CW /sys/src/libc/386/387 .
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.SH
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The Intel i960 compiler
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.PP
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This compiler was built as a weekend hack to let us get the Cyclone
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boards running. It has only been used to run one program\(emthe on-board
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code in the Cyclone\(emand is therefore likely to be buggy.
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There are a number of obvious optimizations to the code that have
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never been attempted.
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For example, the compiler does not support pipelining.
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The code runs in little-endian mode.
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.SH
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The DEC Alpha compiler
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.PP
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The Alpha compiler is based on a port done by David Hogan while
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studying at the Basser Department of Computer Science, University of Sydney.
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It has been used to build a running version of the operating system, but has
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not been stressed as much as some of the other compilers.
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.PP
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Although the Alpha is a 64-bit architecture, this compiler treats
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.CW int s,
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.CW long s
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and pointers as 32 bits. Access to the 64-bit operations is available through the
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.CW vlong
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type, as with the other architectures.
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.PP
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The compiler assumes that the target CPU supports the optional byte and
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word memory operations (the ``BWX'' extension).
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If you have an old system, you can generate code without using the extension
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by passing the loader the
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.CW -x
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option.
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.PP
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There are a number of optimizations that the Alpha Architecture Handbook
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recommends, but this compiler does not do. In particular, there is currently
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no support for the code alignment and code scheduling optimizations.
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.PP
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The compiler tries to conform to IEEE, but some Alpha CPUs do not implement
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all of the rounding and trapping modes in silicon. Fixing this problem requires
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some software emulation code in the kernel; to date, this has not been attempted.
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.SH
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The PowerPC compiler
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.PP
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The PowerPC compiler supports the 32-bit PowerPC architecture only;
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it does not support either the 64-bit extensions or the POWER compatibility instructions.
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It has been used for production operating system work on the 603, 603e, 604e, 821, 823, and 860,
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and experimental work on the 405, 440 and 450.
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On the 8xx floating-point instructions must be emulated.
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Instruction scheduling is not implemented; otherwise the code generated
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is similar to that for the other load-store architectures.
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The compiler makes little or no use of unusual PowerPC features such as the
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counter register, several condition code registers, and multiply-accumulate
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instructions, but they are sometimes
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used by assembly language routines in the libraries.
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.SH
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The ARM compiler
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.PP
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The ARM compiler is fairly solid; it has been used for some production
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operating system work including Inferno and the Plan 9 kernel
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for the iPAQ, which uses a StrongArm SA1, and the Sheevaplug,
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Guruplug, Dreamplug and others.
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The compiler supports the ARMv4 architecture;
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it does not support the Thumb instruction sets.
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It has been used on ARM7500FE, ARM926 and Cortex-A8 processors
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and the Strongarm SA1 core machines.
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The compiler generates instructions for
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ARM 7500 FPA floating-point coprocessor 1,
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but probably should instead generate VFP 3+ instructions
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for coprocessors 10 and 11.
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.SH
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The AMD 29000 compiler
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.PP
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This compiler was used to port an operating system to an AMD 29240 processor.
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The project is long abandoned, but the compiler lives on.
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.SH
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The Carrera operating system
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.PP
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We used to have a number of MIPS R4400 PC-like devices called Carreras,
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with custom-built frame buffers, that we used as terminals.
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They're almost all decommissioned now, but we're including the source as a reference
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in case someone wants to get another MIPS-based system running.
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.SH
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The IBM PC operating system
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.PP
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The PC version of Plan 9 can boot either from MS-DOS
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or directly from a disk created by the
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.CW format
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command; see
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.I prep (8).
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Plan 9 runs in 32-bit mode\(emwhich requires a 386 or later model x86 processor\(emand
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has an interrupt-driven I/O system, so it does not
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use the BIOS (except for a small portion of the boot program and floppy boot block).
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This helps performance but limits the set of I/O devices that it can support without
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special code.
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.PP
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Plan 9 supports the ISA, EISA, and PCI buses as well as PCMCIA and PC card devices.
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It is infeasible to list all the supported machines, because
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the PC-clone marketplace is too volatile and there is
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no guarantee that the machine you buy today will contain the
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same components as the one you bought yesterday.
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(For our lab, we buy components and assemble the machines
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ourselves in an attempt to lessen this effect.)
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Both IDE/ATA and SCSI disks are supported, and
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there is support for large ATA drives.
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CD-ROMs are supported two ways, either on the SCSI bus, or as ATA(PI) devices.
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The SCSI adapter must be a member of the Mylex Multimaster (old Buslogic BT-*) series
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or the Symbios 53C8XX series.
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Supported Ethernet cards include the
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AMD79C790,
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3COM Etherlink III and 3C589 series,
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Lucent Wavelan and compatibles,
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NE2000,
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WD8003,
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WD8013,
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SMC Elite and Elite Ultra,
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Linksys Combo EthernetCard and EtherFast 10/100,
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and a variety of controllers based on the
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Intel i8255[789] and Digital (now Intel) 21114x chips.
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We mostly use Etherlink III, i8255[789], and 21114x, so those drivers may be more robust.
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There must be an explicit Plan 9 driver for peripherals;
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it cannot use DOS or Windows drivers.
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Also,
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Plan 9 cannot exploit special hardware-related features that fall outside of the
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IBM PC model,
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such as power management,
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unless architecture-dependent code is added to the kernel.
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For more details see
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.I plan9.ini (8).
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.PP
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Over the years,
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Plan 9 has run on a number of VGA cards.
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Recent changes to the graphics system have not been
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tested on most of the older cards; some effort may be needed to get them working again.
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In our lab, most of our machines use the ATI Mach64, S3 ViRGE, or S3 Savage chips,
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so such devices are probably
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the most reliable.
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We also use a few Matrox and TNT cards.
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The system requires a hardware cursor.
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For more details see
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.I vgadb (6)
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and
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.I vga (8).
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The wiki
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.CW http://plan9.bell-labs.com/wiki/plan9 ) (
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contains the definitive list of cards that are known to work; see the ``supported PC hardware''
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page.
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.PP
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For audio, Plan 9 supports the Sound Blaster 16 and compatibles.
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(Note that audio doesn't work under Plan 9 with 8-bit Sound Blasters.)
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There is also user-level support for USB audio devices; see
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.I usb (4).
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.PP
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Finally, it's important to have a three-button mouse with Plan 9.
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The system currently works only with mice on the PS/2 port or USB.
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Serial mouse support should return before long.
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.PP
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Once you have Plan 9 installed (see the wiki's installation document)
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run the program
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.CW ld
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from DOS
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or use a boot disk. See
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.I booting (8),
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.I 9load (8),
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and
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.I prep (8)
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for more information.
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.SH
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The Alpha PC operating system
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.PP
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Plan 9 runs on the Alpha PC 164.
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The Alpha port has not been used as much as the others,
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and should be considered a preliminary release.
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.PP
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The port uses the OSF/1 flavor
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of PALcode, and should be booted from the SRM firmware (booting
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from ARC is not supported).
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Supported devices are a subset of the PC ones; currently
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this includes DECchip 2114x-based ethernet cards, S3 VGA cards,
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Sound Blaster 16-compatible audio, floppy drives, and ATA hard disks.
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.PP
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The system has to be booted via tftp.
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See
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.I booting (8)
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for details.
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.SH
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The PowerPC operating system
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.PP
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We have a version of the system that runs on the PowerPC
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on a home-grown machine called Viaduct.
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The Viaduct minibrick is a small (12x9x3 cm) low-cost embedded
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computer consisting of a 50Mhz MPC850, 16MB sdram, 2MB flash,
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and two 10Mb Ethernet ports. It is designed for home/SOHO
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networking applications such as VPN, firewalls, NAT, etc.
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.PP
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The kernel has also been ported to the Motorola MTX embedded motherboard;
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that port is included in the distribution.
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The port only works with a 604e processor (the 603e is substantially different)
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and at present only a single CPU is permitted.
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.SH
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The Compaq iPAQ operating system
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.PP
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Plan 9 was ported to Compaq's iPAQ Pocket PC,
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which uses the StrongArm SA1 processor.
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The model we have is a 3630; neighboring models also work.
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The kernel can drive a PCMCIA sleeve with a WaveLAN card, but no other PCMCIA
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devices have been ported yet.
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.PP
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The iPAQ runs
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.CW rio
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with a small keyboard application that allows Palm-style handwriting
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input as well as typing with the stylus on a miniature keyboard.
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.PP
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Fco. J. Ballesteros
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.CW nemo@plan9.escet.urjc.es ) (
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added support for hibernation, but we haven't been able to
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get that to work again in the new kernel; the code is there, however,
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for volunteers to play with.
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See the file
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.CW /sys/src/9/bitsy/Booting101
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for information about installing Plan 9 on the iPAQ.
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.SH
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The Marvell Kirkwood operating system
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.PP
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This is an ARM kernel for the ARM926EJ-S processor
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and it emulates floating-point and
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CAS (compare-and-swap) instructions.
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It is known to run on the Sheevaplug, Guruplug, Dreamplug
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and Openrd-client boards.
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It is derived from a port of native Inferno to the Sheevaplug
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by Salva Peir\f(Jpó\fP and Mechiel Lukkien.
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There are many features of the Kirkwood system-on-a-chip
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that it does not exploit.
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There are currently drivers for up to two
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Gigabit Ethernet interfaces,
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USB and the console serial port;
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we hope to add crypto acceleration, and a video driver for the Openrd-client.
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.SH
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The Marvell PXA168 operating system
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.PP
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This is an ARM kernel for the ARM-v5-architecture processor in the
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Marvell PXA168 system-on-a-chip
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and it emulates floating-point and
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CAS (compare-and-swap) instructions.
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It is known to run on the Guruplug Display.
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There are many features of the system-on-a-chip
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that it does not exploit.
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There are currently drivers for
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a Fast Ethernet interface,
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.\" USB
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and the console serial port;
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we hope to add crypto acceleration, and a video driver.
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.SH
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The TI OMAP35 operating system
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.PP
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This is an ARM kernel for the Cortex-A8 processor
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and it emulates pre-VFPv3 floating-point and
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CAS (compare-and-swap) instructions.
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It is known to run on the IGEPv2 board and the Gumstix Overo,
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and might eventually run on the Beagleboard, once USB is working.
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There are many features of the OMAP system-on-a-chip that it does not exploit.
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Initially, there are drivers for the SMSC 9221 100Mb/s Ethernet
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interface in the IGEPv2 and Overo,
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and the console serial port;
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we hope to add USB, flash memory and video drivers.
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.
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.
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.ig
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.SH
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The file server
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.PP
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The file server runs on only a handful of distinct machines.
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It is a stand-alone program, distantly related to the CPU server
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code, that runs no user code: all it does is serve files on
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network connections.
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It supports only SCSI disks, which can be interleaved for
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faster throughput.
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A DOS file on
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an IDE drive can hold the configuration information.
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See
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.I fsconfig (8)
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for an explanation of how
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to configure a file server.
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.PP
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To boot a file server, follow the directions for booting a CPU server
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using the file name
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.CW 9\f2machtype\fPfs
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where
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.I machtype
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is
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.CW pc ,
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etc. as appropriate.
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We are releasing only the PC version.
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.SH
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The IBM PC file server
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.PP
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Except for the restriction to SCSI disks,
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the PC file server has the same hardware requirements as
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the regular PC operating system.
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However, only a subset of the supported SCSI (Adaptec 1542, Mylex Multimaster,
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and Symbios 53C8XX) and Ethernet (Digital 2114x,
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Intel 8255x, and 3Com) controllers
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may be
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used.
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Any of the boot methods described in
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.I 9load (8)
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will work.
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.PP
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To boot any PC, the file
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.CW 9load
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must reside on a MS-DOS formatted floppy, IDE disk,
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or SCSI disk.
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However, PCs have no non-volatile RAM in which the
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file server can store its configuration information, so the system
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stores it in a file on an MS-DOS file system instead.
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This file, however, cannot live on a SCSI disk, only a floppy or IDE.
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(This restriction avoids a lot of duplicated interfaces in the
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system.)
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Thus the file server cannot be all-SCSI.
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See
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.I plan9.ini (8)
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for details about the
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.I nvr
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variable and specifying the console device.
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.SH
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Backup
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.PP
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Our main file server is unlikely to be much like yours.
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It is a PC with 128 megabytes
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of cache memory, 56 gigabytes of SCSI magnetic
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disk, and a Hewlett-Packard SureStore Optical 1200ex
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magneto-optical jukebox, with 1.2 terabytes of storage.
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This driver runs the SCSI standard jukebox protocol.
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We also have a driver for a (non-standard)
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SONY WDA-610
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Writable Disk Auto Changer (WORM),
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which stores almost 350 gigabytes of data.
|
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.PP
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The WORM is actually the prime storage; the SCSI disk is just
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a cache to improve performance.
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Early each morning the system constructs on WORM an image of
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the entire system as it appears that day. Our backup system
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is therefore just a file server that lets
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you look at yesterday's (or last year's) file system.
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.PP
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If you don't have a magneto-optical jukebox,
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you might consider attaching a CD-R jukebox or even just
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using a single WORM drive and managing the dumps a little less
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automatically. This is just a long way of saying that the
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system as distributed has no explicit method of backup other
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than through the WORM jukebox.
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.PP
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Not everyone can invest in such expensive hardware, however.
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Although it wouldn't be as luxurious,
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it would be possible to use
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.I mkfs (8)
|
|
to build regular file system archives and use
|
|
.I scuzz (8)
|
|
to stream them to a SCSI 8mm tape drive.
|
|
.CW Mkext
|
|
could then extract them.
|
|
Another alternative is to use
|
|
.I dump9660
|
|
(see
|
|
.I mk9660 (8)),
|
|
which stores incremental backups on CD images
|
|
in the form of a dump hierarchy.
|
|
.PP
|
|
It is also possible to treat a regular disk, or even a part of a disk,
|
|
as a fake WORM, which can then be streamed to tape when it fills.
|
|
This is a bad idea for a production system but a good way to
|
|
learn about the WORM software.
|
|
Again, see
|
|
.I fsconfig (8)
|
|
for details.
|
|
..
|