889 lines
25 KiB
Plaintext
889 lines
25 KiB
Plaintext
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PSIM - model the PowerPC environment
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Copyright (C) 1994-1996, Andrew Cagney <cagney@highland.com.au>.
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----------------------------------------------------------------------
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Running PSIM
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This file describes how to run the program PSIM.
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o Walk through a number of examples from the
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pre-built tar archive psim-test.
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o Looks at the device tree used by PSIM.
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o Notes on building a programmer environment to
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use with PSIM (BSD/UEA and BUG/OEA)
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----------------------------------------------------------------------
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RUNNING PSIM:
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The compressed tar archive psim-test available from:
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ftp://ftp.ci.com.au/pub/psim/psim-test-1.0.tar.gz
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or ftp://cambridge.cygnus.com/pub/psim/psim-test-1.0.tar.gz
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contains a number of pre-built programs for running under PSIM. Each
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pre-built binary is built both big and little endian. The suffixes
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.be/.le (executables) .bo/.lo (object files) and .ba/.la (libraries)
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are used.
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To run one of these programs, use:
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powerpc-unknown-eabi-run <image>
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vis
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powerpc-unknown-eabi-run psim-test/uea/envp
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(The program envp prints out your shells environment - very useful
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:-). More generally psim is run as (this is part of the output from
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the -h option):
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psim [ <psim-option> ... ] <image> [ <image-arg> ... ]
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Where
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<image> Name of the PowerPC program to run.
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This can either be a PowerPC binary or
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a text file containing a device tree
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specification.
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PSIM will attempt to determine from the
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specified <image> the intended emulation
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environment.
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If PSIM gets it wrong, the emulation
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environment can be specified using the
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`-e' option (described below).
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<image-arg> Argument to be passed to <image>
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These arguments will be passed to
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<image> (as standard C argv, argc)
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when <image> is started.
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<psim-option> See below
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The following are valid <psim-option>s:
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-m <model> Specify the processor to model (604)
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Selects the processor to use when
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modeling execution units. Includes:
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604, 603 and 603e
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-e <os-emul> specify an OS or platform to model
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Can be any of the following:
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bug - OEA + MOTO BUG ROM calls
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netbsd - UEA + NetBSD system calls
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chirp - OEA + a few OpenBoot calls
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-i Print instruction counting statistics
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-I Print execution unit statistics
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-r <size> Set RAM size in bytes (OEA environments)
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-t [!]<trace> Enable (disable) <trace> option
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-o <spec> add device <spec> to the device tree
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-h -? -H give more detailed usage
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The `-H' option gives a long usage output. This includes a complete
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list of all the pre-configured devices.
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----------------------------------------------------------------------
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RUNNING GDB:
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If you built PSIM with gdb then the following is a quick start
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tutorial.
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At present GDB, if configured big-endian (say) unlike PSIM, does not
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support the debugging of little endian binaries. If you find that
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your program won't run at all, make certain that GDB and your
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program's endianness match.
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The most important thing is that before you can run the simulator you
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must enable it. For the simulator, gdb is started like any program:
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$ powerpc-unknown-eabi-gdb psim-test/uea/envp.be
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Next the simulator is enabled. The command `target sim' accepts the
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same options as can be specified on the PSIM command line.
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(gdb) target sim
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To trace the communication between psim and gdb specify `target sim -t
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gdb'. Once enabled, the binary needs to be loaded, any breakpoints of
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interest set, and the program run:
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(gdb) load
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(gdb) break main
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(gdb) run
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.
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.
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.
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In addition, if you are wanting to run a program described by a device
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tree you can `attach' to the simulation using (I assume that you have
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applied the attach patch):
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$ cd psim-test/tree
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$ powerpc-unknown-eabi-gdb
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(gdb) target sim
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(gdb) attach device-tree
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(gdb) run
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Here GDB takes the programs initial state from the attached
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device-tree instead of forcing initialisation.
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----------------------------------------------------------------------
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PROFILING:
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PSIM includes a number of performance monitoring (profiling)
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facilities:
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o instruction frequency counting
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o execution unit modeling (records
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effective usage of units).
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o instruction cache performance
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As discussed in the file INSTALL, each can be configured to individual
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requirements.
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-i Enable instruction counting.
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The frequency of all instructions is tabulated. In
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addition (f configured) the hit/miss rate of the
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instruction cache is output.
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-I Enable execution unit analysis.
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In addition to counting basic instructions also model
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the performance of the processors execution units
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-m <processor>
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Select the processor to be modelled.
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For execution unit analysis specify the processor that
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is to be analysed. By default the 604 is modelled
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however, support for other processors such as the
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603 and 603e is included.
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The output from a performance run (on a P90) for the program
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psim-test/profile/bench is below. In this run psim was fairly
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agressively configured (see the file INSTALL for compile time
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configuration).
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CPU #1 executed 41,994 AND instructions.
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CPU #1 executed 519,785 AND Immediate instructions.
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CPU #1 executed 680,058 Add instructions.
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CPU #1 executed 41,994 Add Extended instructions.
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CPU #1 executed 921,916 Add Immediate instructions.
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CPU #1 executed 221,199 Add Immediate Carrying instructions.
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CPU #1 executed 943,823 Add Immediate Shifted instructions.
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CPU #1 executed 471,909 Add to Zero Extended instructions.
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CPU #1 executed 571,915 Branch instructions.
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CPU #1 executed 1,992,403 Branch Conditional instructions.
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CPU #1 executed 571,910 Branch Conditional to Link Register instructions.
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CPU #1 executed 320,431 Compare instructions.
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CPU #1 executed 471,911 Compare Immediate instructions.
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CPU #1 executed 145,867 Compare Logical instructions.
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CPU #1 executed 442,414 Compare Logical Immediate instructions.
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CPU #1 executed 1 Condition Register XOR instruction.
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CPU #1 executed 103,873 Divide Word instructions.
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CPU #1 executed 104,275 Divide Word Unsigned instructions.
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CPU #1 executed 132,510 Extend Sign Byte instructions.
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CPU #1 executed 178,895 Extend Sign Half Word instructions.
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CPU #1 executed 871,920 Load Word and Zero instructions.
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CPU #1 executed 41,994 Move From Condition Register instructions.
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CPU #1 executed 100,005 Move from Special Purpose Register instructions.
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CPU #1 executed 100,002 Move to Special Purpose Register instructions.
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CPU #1 executed 804,619 Multiply Low Word instructions.
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CPU #1 executed 421,201 OR instructions.
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CPU #1 executed 471,910 OR Immediate instructions.
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CPU #1 executed 1,292,020 Rotate Left Word Immediate then AND with Mask instructions.
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CPU #1 executed 663,613 Shift Left Word instructions.
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CPU #1 executed 1,151,564 Shift Right Algebraic Word Immediate instructions.
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CPU #1 executed 871,922 Store Word instructions.
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CPU #1 executed 100,004 Store Word with Update instructions.
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CPU #1 executed 887,804 Subtract From instructions.
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CPU #1 executed 83,988 Subtract From Immediate Carrying instructions.
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CPU #1 executed 1 System Call instruction.
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CPU #1 executed 207,746 XOR instructions.
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CPU #1 executed 23,740,856 cycles.
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CPU #1 executed 10,242,780 stalls waiting for data.
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CPU #1 executed 1 stall waiting for a function unit.
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CPU #1 executed 1 stall waiting for serialization.
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CPU #1 executed 1,757,900 times a write-back slot was unavailable.
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CPU #1 executed 1,088,135 branches.
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CPU #1 executed 2,048,093 conditional branches fell through.
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CPU #1 executed 1,088,135 successful branch predictions.
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CPU #1 executed 904,268 unsuccessful branch predictions.
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CPU #1 executed 742,557 branch if the condition is FALSE conditional branches.
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CPU #1 executed 1,249,846 branch if the condition is TRUE conditional branches.
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CPU #1 executed 571,910 branch always conditional branches.
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CPU #1 executed 9,493,653 1st single cycle integer functional unit instructions.
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CPU #1 executed 1,220,900 2nd single cycle integer functional unit instructions.
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CPU #1 executed 1,254,768 multiple cycle integer functional unit instructions.
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CPU #1 executed 1,843,846 load/store functional unit instructions.
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CPU #1 executed 3,136,229 branch functional unit instructions.
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CPU #1 executed 16,949,396 instructions that were accounted for in timing info.
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CPU #1 executed 871,920 data reads.
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CPU #1 executed 971,926 data writes.
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CPU #1 executed 221 icache misses.
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CPU #1 executed 16,949,396 instructions in total.
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Simulator speed was 250,731 instructions/second
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----------------------------------------------------------------------
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PSIM CONFIGURATION - THE DEVICE TREE
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Internally PSIM's configuration is controlled by a tree data
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structure. This structure, created at run-time, intentionally
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resembles the device tree used by OpenBoot firmware to describe a
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machines hardware configuration.
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PSIM can either create its device tree using a builtin emulation or
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from one read in from a file.
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During startup, the device tree is created using the following steps:
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o Initial empty tree is created
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o Any tree entry options specified on the
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command line are merged in (the -o <entry>
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option is used).
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It should be pointed out that most of the
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command line options (eg -r, -e, -m, -t
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are all just short hand for corresponding
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-o options).
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o If the specified program is a device tree spec, that
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is loaded.
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If the specified program is a text file it is assumed
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that that file contains a further specification of the
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simulators device tree. That tree is loaded and
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merged with the current tree options.
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o The selected emulation fills out any remaining details.
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By this stage the emulation environment that the program
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needs will either be specified in the device tree
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(through the -e option) or determined from the
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characteristics of the binary.
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The selected emulation will then fill out any missing
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nodes in the device tree.
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Most importantly earlier additions to the tree are not overridden by
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later additions. Thus, command line options override information
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found in the program file and both override any emulation entries.
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The following is a summary of the most useful runtime configuration
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options:
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-e <os-emul>
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-o '/openprom/options/os-emul <os-emul>'
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Run program using the <emulation> run-time
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environment.
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-r <ram-size>
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-o '/openprom/options/oea-memory-size <ram-size>'
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Set the size of the first bank of memory
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(RAM from address 0 up).
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-t print-device-tree
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-o '/openprom/trace/print-device-tree 1'
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-t dump-device-tree
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-o '/openprom/trace/dump-device-tree 1'
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Print out the device tree once it has been fully
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populated. For dump-device-tree, exit simulator after
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dumping the tree.
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PSIM is able to reload the dumped device tree.
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The format of the dumped tree is under development.
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-o '/openprom/options/smp <N>'
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Enable <N> processors for the simulation run.
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See the directory psim-test/oea for an example.
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-o '/openprom/options/alignment <N>'
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Where <N> is 1 - nonstrict or 2 - strict.
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Specify if the missaligned access are allowed
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(non-strict) or result in an alignment exception
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(strict).
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Devices (if included in the file device_table.c) can also be specified
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in a similar way. For instance, to add a second serial port, a
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command like:
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-o '/iobus@0x400000/console@0x000010'
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would create a `console' device at offset 0x10 within the `iobus' at
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memory address 0x400000.
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For more detailed information on device specifiers see the notes on
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the function dump_device_tree in the file device.c (found in the
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source code).
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----------------------------------------------------------------------
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BUILDING A BUG/OEA DEVELOPMENT ENVIRONMENT
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Background:
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Included in many PowerPC systems is Motorola's BUG monitor. This
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monitor includes, for client programs, a set of services that allow
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that program to interact with hardware devices such as the console using
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a simple system call interface.
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PSIM is able to emulate a number of the services (including the
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console IO calls). If additional services are needed they can easily
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be added.
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Cygnus support's newlib library includes includes an interface to the
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MOTO BUG services. The notes below discuss how I both built and run
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programs compiled using this library on PSIM.
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The only confusing part about building a development environment based
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around newlib/binutils/gcc is a chicken/egg problem with include
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files:
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For GCC to build, a fairly complete set of include
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files must be installed but newlib won't install its
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include files until it has been built with gcc ...
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I get around this by installing the problematic include files by hand.
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Preparation:
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The following files are needed:
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From your favorite FTP site, the sources to gas/ld and gcc - mine
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happens to be archie.au :
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ftp://archie.au/gnu/binutils-2.6.tar.gz
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ftp://archie.au/gnu/gcc-2.6.2.tar.gz
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From ftp://ftp.cygnus.com/pub/newlib the source code to a library:
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ftp://ftp.cygnus.com/pub/newlib/newlib-1.7.0.tar.gz
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From ftp://ftp.ci.com.au/pub/psim some minor patches and updates to
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the above library:
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ftp://ftp.ci.com.au/pub/psim/newlib-1.7.0+float+ppc-asm.tar.gz
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ftp://ftp.ci.com.au/pub/psim/newlib-1.7.0+ppc-fix.diff.gz
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ftp://ftp.ci.com.au/pub/psim/binutils-2.6+note.diff.gz
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In addition you'll need to decide where you will be installing the
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development environment. You will notice that in the below I install
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things well away /usr/local instead installing everything under its
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own directory in /applications.
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Method:
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These notes are based on an installation performed on a Sun-OS-4/SPARC
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host. For other hosts and other configurations, the below should be
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considered as a guideline only.
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o Sanity check
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$ cd .../scratch # your scratch directory
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$ ls -1
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binutils-2.6.tar.gz
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binutils-2.6+note.diff.gz
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gcc-2.7.2,tar.gz
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newlib-1.7.0+float+ppc-asm.tar.gz
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newlib-1.7.0+ppc-fix.diff.gz
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newlib-1.7.0.tar.gz
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o Unpack/build/install binutils
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This is done first so that there is a gas/ld ready
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for the building of GCC and NEWLIB.
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$ cd .../scratch
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$ gunzip < binutils-2.6.tar.gz | tar xf -
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$ cd binutils-2.6
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Optionally apply the note patch
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$ gunzip ../binutils-2.6+note.diff.gz | patch
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Then continue with the build
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$ ./configure --target=powerpc-unknown-eabi \
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--prefix=/applications/psim
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$ make
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$ make install
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$ cd ..
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$ rm -rf binutils-2.6
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This also creates much of the installation directory
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tree.
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o Unpack newlib, install the include files so that they
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are ready for GCC's build.
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$ cd .../scratch
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$ gunzip < newlib-1.7.0.tar.gz | tar xf -
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New lib-1.7.0 had a few minor bugs (fixed in current):
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the header files float.h and ppc-asm.h were missing;
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the configure and Makefile's for the rs6000 (ppc) directory
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contained typos:
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$ cd .../scratch
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$ cd newlib-1.7.0
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$ gunzip < ../newlib-1.7.0+float+ppc-asm.tar.gz | tar xvf -
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$ gunzip < ../newlib-1.7.0+ppc-fix.diff.gz | patch -p1
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Finally copy the include files to where GCC will see them:
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$ cd .../scratch
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$ cd newlib-1.7.0/newlib/libc
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$ tar cf - include | \
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( cd /applications/psim/powerpc-unknown-eabi && tar xf - )
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o Unpack/build gcc
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$ cd .../scratch
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$ gunzip < gcc-2.7.2,tar.gz | tar xf -
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$ cd gcc-2.7.2
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$ ./configure --target=powerpc-unknown-eabi \
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--prefix=/applications/psim
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$ make
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$ make install
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$ cd ..
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$ rm -rf gcc-2.7.2
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Gcc likes to install its own dummy version of float that
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just returns an error.
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$ more /applications/psim/lib/gcc-lib/powerpc-unknown-eabi/2.7.2/include/float.h
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$ rm /applications/psim/lib/gcc-lib/powerpc-unknown-eabi/2.7.2/include/float.h
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o Finish building/installing newlib
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$ cd .../scratch
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$ cd newlib-1.7.0
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$ ./configure --target=powerpc-unknown-eabi \
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--prefix=/applications/psim
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Your path will need to include the recently installed
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gas/gcc when building. Either add it to your path or
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use:
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$ PATH=/applications/psim/bin:$PATH make
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$ PATH=/applications/psim/bin:$PATH make install
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o Finally, test out the build
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$ cat hello.c
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main()
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{
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printf("hello world\n");
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}
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The binary is linked with an entry point less than 0x100000
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(1mb) so that psim will recognize the binary as needing
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the BUG/OEA instead of the BSD/UEA runtime environment.
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$ powerpc-unknown-eabi-gcc -v -o hello \
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-Wl,-Ttext,0x4000,-Tdata,0x10000 \
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/applications/psim/powerpc-unknown-eabi/lib/mvme-crt0.o \
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hello.c \
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-lc -lmvme
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$ powerpc-unknown-eabi-objdump -h hello
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$ powerpc-unknown-eabi-run hello
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It is also possible to force psim to use a specific
|
|
run-time environment using the -e option vis:
|
|
|
|
$ powerpc-unknown-eabi-run -e bug hello
|
|
|
|
|
|
|
|
|
|
----------------------------------------------------------------------
|
|
|
|
|
|
BUILDING A BSD/UEA DEVELOPMENT ENVIRONMENT
|
|
|
|
|
|
Background:
|
|
|
|
|
|
For a UEA to be useful it needs a supporting run-time environment.
|
|
PSIM implements a runtime environment based on the NetBSD system call
|
|
interface.
|
|
|
|
More than any thing, this user level emulation was the first
|
|
implemented because I happened to have the NetBSD source code lying
|
|
lying around.
|
|
|
|
|
|
Preparation:
|
|
|
|
|
|
This requires the NetBSD-1.1 source tree online. It can either be
|
|
obtained vi ftp:
|
|
|
|
try http://www.netbsd.org or ftp://ftp.netbsd.org
|
|
|
|
Alternatively obtain one of the NetBSD cdrom's. Patches to this source
|
|
tree that fill out much of the PowerPC code are available in:
|
|
|
|
ftp://ftp.ci.com.au/pub/clayton
|
|
|
|
Fetch everything in that directory - diffs, tar archives and scripts.
|
|
In addition a patch to binutils is in:
|
|
|
|
ftp://ftp.ci.com.au/pub/psim/binutils-2.6+note.diff.gz
|
|
|
|
Finally you'll require a compiler and assembler/linker:
|
|
|
|
gcc-2.7.2.tar.gz
|
|
binutils-2.6.tar.gz
|
|
|
|
|
|
|
|
|
|
Method:
|
|
|
|
|
|
These notes are based on an installation performed on a Solaris2/x86
|
|
host. For other hosts and other configurations, the below should be
|
|
considered as a guideline only.
|
|
|
|
|
|
o Sanity check
|
|
|
|
I assume that you have already obtained the NetBSD-1.1 source
|
|
code and unpacked it into the directory bsd-src. While the
|
|
full NetBSD source tree may not be needed, things are easier
|
|
if it is all online.
|
|
|
|
$ cd .../scratch
|
|
$ ls -1
|
|
binutils-2.6.tar.gz
|
|
binutils-2.6.tar.gz
|
|
clayton-include-960203.diff.gz
|
|
clayton-lib-960203.diff.gz
|
|
clayton-lib-960203.tar.gz
|
|
clayton-sys-960203.diff.gz
|
|
clayton-sys-960203.tar.gz
|
|
clayton-utils-960203.tar.gz
|
|
clayton.chown.sh
|
|
clayton.install.sh
|
|
clayton.lorder.sh
|
|
clayton.make.sh
|
|
clayton.usr.bin.make.diff
|
|
gcc-2.7.2.tar.gz
|
|
gcc-2.7.2+sys-types.diff.gz
|
|
|
|
|
|
o Unpack the bsd source code (if you haven't already)
|
|
|
|
$ cd .../scratch
|
|
$ mkdir bsd-src
|
|
$ cd bsd-src
|
|
$ for d in /cdrom/bsdisc_12_95_disc2/NetBSD-1.1/source/*11
|
|
do
|
|
echo $d
|
|
cat $d/*.?? | gunzip | tar xf -
|
|
done
|
|
|
|
Flatten the directory structure a little.
|
|
|
|
$ mv usr/src/* .
|
|
$ rmdir usr/src usr
|
|
$ cd ..
|
|
|
|
|
|
o Unpack/build/install binutils
|
|
|
|
$ cd .../scratch
|
|
$ gunzip < binutils-2.6.tar.gz | tar xf -
|
|
$ cd binutils-2.6
|
|
|
|
Optionally apply the note patch
|
|
|
|
$ gunzip ../binutils-2.6+note.diff.gz | patch
|
|
|
|
Then continue with the build
|
|
|
|
$ ./configure --target=powerpc-unknown-eabi \
|
|
--prefix=/applications/psim
|
|
$ make
|
|
$ make install
|
|
$ cd ..
|
|
$ rm -rf binutils-2.6
|
|
|
|
This has the intended side effect of partially populating
|
|
the psim directory tree which makes follow on steps easier.
|
|
|
|
|
|
o Fill out the install directory with a few additions (if
|
|
install -d works, this can be simplified).
|
|
|
|
$ mkdir \
|
|
/applications/psim/bsd-root \
|
|
/applications/psim/bsd-root/usr \
|
|
/applications/psim/bsd-root/usr/share \
|
|
/applications/psim/bsd-root/usr/share/doc \
|
|
/applications/psim/bsd-root/usr/share/doc/psd \
|
|
/applications/psim/bsd-root/usr/share/doc/psd/19.curses \
|
|
/applications/psim/bsd-root/usr/include \
|
|
/applications/psim/bsd-root/usr/lib \
|
|
|
|
|
|
o Make the bsd and gnu include directories point to the same
|
|
location.
|
|
|
|
GCC expects include files to be in one location while the
|
|
bsd install expects them in a second. The link is in
|
|
the direction below because bsd's install also insists on
|
|
a directory (not a link) for its install destination.
|
|
|
|
$ ln -s ../bsd-root/usr/include \
|
|
/applications/psim/powerpc-unknown-eabi/include
|
|
|
|
|
|
|
|
o Build/install Berkeley make
|
|
|
|
In building Berkeley make from the NetBSD-1.1 source tree
|
|
a number of problems may be encountered.
|
|
|
|
These problems have been fixed in NetBSD-current (after
|
|
4/2/96 (ie start Feb)) you should probably obtain that
|
|
version of make. Alternatively, you can try following the
|
|
notes below that got make working on a Solaris-2.5/x86
|
|
host.
|
|
|
|
$ cd .../scratch
|
|
$ cd bsd-src/usr.bin/make
|
|
$ pwd
|
|
.../scratch/bsd-src/usr.bin/make
|
|
|
|
Copy/stub some additional include files that your host may not
|
|
have.
|
|
|
|
$ cp ../../include/ranlib.h ranlib.h
|
|
$ mkdir sys
|
|
$ cp ../../sys/sys/cdefs.h sys/cdefs.h
|
|
$ mkdir machine
|
|
$ touch machine/cdefs.h
|
|
|
|
Edit/fix some of the BSDisms. The patch file indicated
|
|
contains fixes I found when compiling on my host, your
|
|
host will probably differ.
|
|
|
|
$ gunzip < ../../../clayton.usr.bin.make.diff.gz | patch
|
|
|
|
Build it with some extra flags (again your flags will differ):
|
|
|
|
$ make -f Makefile.boot CC='gcc -g -DPOSIX'
|
|
|
|
With bmake built, install it into the target specific bin
|
|
directory:
|
|
|
|
$ cp bmake /applications/psim/powerpc-unknown-eabi/bin/make
|
|
$ cd ../../..
|
|
|
|
|
|
o Patch/install Berkeley make's include (mk) files.
|
|
|
|
$ cd .../share
|
|
$ cd bsd-src/share
|
|
$ tar cf - mk | ( cd /applications/psim/bsd-root/usr/share \
|
|
&& tar xf - )
|
|
$ cd ../..
|
|
|
|
|
|
o Set up a number of wrapper scripts for bmake so that it works.
|
|
|
|
In addition to needing BSD make the build process assumes
|
|
a number of BSD specific commands. To get around this
|
|
several wrapper scripts are available.
|
|
|
|
powerpc-unknown-eabi-make (clayton.make)
|
|
|
|
Front end to Berkeley make setting it up for a
|
|
cross compilation
|
|
|
|
/applications/psim/bin/powerpc-unknown-eabi-make
|
|
|
|
chown (clayton.chown)
|
|
|
|
Wrapper that does not do any thing.
|
|
Avoids the need to be root when installing.
|
|
|
|
/applications/psim/powerpc-unknown-eabi/bin
|
|
|
|
install (clayton.install)
|
|
|
|
Wrapper to strip away a number of bsd specific install
|
|
arguments.
|
|
|
|
/applications/psim/powerpc-unknown-eabi/bin/install
|
|
|
|
lorder (clayton.lorder)
|
|
|
|
Tweaked lorder script that will use nm etc from
|
|
binutils.
|
|
|
|
/applications/psim/powerpc-unknown-eabi/bin/lorder
|
|
|
|
|
|
o Apply the remaining patches for the BSD source tree
|
|
|
|
$ cd .../scratch
|
|
$ cd bsd-src
|
|
|
|
Diffs are applied using something like:
|
|
|
|
$ gunzip < ../clayton-include-960203.diff.gz | more
|
|
...
|
|
|
|
The patch to sys/dev/pci/ncr.c.rej might fail.
|
|
|
|
The tar archives have a different problem, you need
|
|
to remove the `src' prefix. I used
|
|
|
|
$ ln -s . src
|
|
$ gunzip < ../clayton-lib-960203.tar.gz | tar xtf -
|
|
...
|
|
|
|
So that src/xxx unpacked into ./xxx
|
|
|
|
|
|
$ cd ..
|
|
|
|
|
|
|
|
o Install the include files
|
|
|
|
$ cd .../scratch
|
|
$ cd bsd-src/include
|
|
$ powerpc-unknown-eabi-make install
|
|
$ cd ../..
|
|
|
|
|
|
o Install a few other include files.
|
|
|
|
As with building libnew, the bsd build process has
|
|
several include file problems.
|
|
|
|
$ cd .../scratch
|
|
$ cd bsd-src
|
|
$ cp gnu/lib/libg++/g++-include/values.h \
|
|
/applications/psim/powerpc-unknown-eabi/include
|
|
$ cp lib/libcurses/curses.h \
|
|
/applications/psim/powerpc-unknown-eabi/include
|
|
|
|
$ cd ..
|
|
|
|
|
|
|
|
o Build/install gcc
|
|
|
|
$ cd .../scratch
|
|
$ gunzip < gcc-2.7.2,tar.gz | tar xf -
|
|
$ cd gcc-2.7.2
|
|
|
|
GCC and BSD (for PowerPC) have a conflicting type
|
|
declaration. The patch below gets around this
|
|
problem:
|
|
|
|
$ gunzip < ../gcc-2.7.2+sys-types.diff.gz | patch
|
|
|
|
Other than that, assuming the include files installed
|
|
okay, the rest should be fine ....
|
|
|
|
$ ./configure --target=powerpc-unknown-eabi \
|
|
--prefix=/applications/psim
|
|
$ make CC=gcc
|
|
$ make CC=gcc install
|
|
$ cd ..
|
|
$ rm -rf gcc-2.7.2
|
|
|
|
|
|
o Build/install the Berkeley library:
|
|
|
|
$ cd .../scratch
|
|
$ cd bsd-src/lib
|
|
$ powerpc-unknown-eabi-make
|
|
$ powerpc-unknown-eabi-make install
|
|
$ cd ../..
|
|
|
|
If you encounter problems try the following: an include
|
|
file not yet installed; a directory not yet created;
|
|
running the hosts version of a program instead of a
|
|
bsd version.
|
|
|
|
o Build/run a simple BSD program
|
|
|
|
$ cd .../scratch
|
|
$ cd bsd-src/usr.bin/printenv
|
|
$ powerpc-unknown-eabi-make
|
|
$ powerpc-unknown-eabi-run printenv
|
|
.
|
|
.
|
|
.
|
|
|
|
|
|
----------------------------------------------------------------------
|