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binutils-gdb/sim/ppc
1995-10-06 21:23:35 +00:00
..
.Sanitize
basics.h
bits.h
ChangeLog Print exit status/signal number if -I 1995-10-06 21:23:35 +00:00
configure
configure.in
COPYING
COPYING.LIB
core.c
core.h
cpu.c Add # in front of CPU number 1995-10-02 18:33:17 +00:00
cpu.h Add support to count the number of instructions issued. 1995-10-02 18:19:17 +00:00
device_tree.c Default stack creation; fixup last change. 1995-09-21 22:50:23 +00:00
device_tree.h
devices.c
devices.h
double.c
dp-bit.c
events.c
events.h
gen.c Add support to count the number of instructions issued. 1995-10-02 18:19:17 +00:00
idecode_branch.h
idecode_fields.h
idecode_insn.h
main.c update usage message 1995-10-02 18:21:46 +00:00
Makefile.in fix typo. 1995-09-10 03:44:58 +00:00
memory_map.c
memory_map.h
ppc-endian.c
ppc-endian.h
ppc.mt
psim.c Print exit status/signal number if -I 1995-10-06 21:23:35 +00:00
psim.h Add support to count the number of instructions issued. 1995-10-02 18:19:17 +00:00
README.psim
sim_callbacks.h
sim_calls.c Add support to count the number of instructions issued. 1995-10-02 18:19:17 +00:00
system.c
system.h
vm.h
words.h

			PSIM

Copyright (C) 1994-1995, Andrew Cagney <cagney@highland.com.au>

This directory contains the program PSIM that models the PowerPC
architecture.  It can either be run stand alone (psim) or linked with
GDB.


CONTENTS:

    psim-*.tar:	

	psim-sim-*.tar.gz	simulator source code

	psim-test-*.tar.gz	test directory for simulator

	psim-gdb-*.diff.gz	patches to integrated psim
				into gdb

    gnu-*.tar:

	gnu-gdb-*.diff.gz	patches to gdb that may have
				already been merged into the
				GDB source tree.

	gnu-*-*.diff.gz		Other noise


BUILDING:

	o Install flex, bison, gnu-make, native gcc and probably also byacc.


	o First you will need a fairly current copy of GDB (try the ftp site
	  ftp.cygnus.com:pub).  I've built it with a beta version of gdb-4.15.

	  Unpack gdb vis:

		$ gunzip < gdb-4.15.tar.gz | tar xf -


	o Apply any patches that haven't yet been merged into the GDB source
	  tree.

		$ cd gdb-4.15
		$ gunzip < ../psim-gdb-*.diff.gz | patch -p1
		$ gunzip < ../gnu-gdb-*.diff.gz | patch -p1


	o Unpack the psim source code (and optionally the test directory)

		$ cd gdb-4.15
		$ gunzip < ../psim-sim-*.tar.gz | tar xvf -
		$ gunzip < ../psim-test-*.tar.gz | tar xvf -


	o Configure gdb as per normal.  I use something along the lines of:

		$ cd gdb-4.15
		$ CC=gcc ./configure --target=powerpcle-unknown-eabi


	o Build your entire gdb tree as per normal.  Something along the
	  lines of:

		$ cd gdb-4.15
		$ make CC=gcc
		.
		.
		.



	o Install it it all as per normal.  Something along the lines of:

		$ cd gdb-4.15
		$ make CC=gcc install

	  The program sim/ppc/psim is not installed.


RUNNING:

	PSIM can either be run as a stand alone program or as part
	of gdb.  The psim-test archive contains pre-compiled and
	linked programs that can be run on PSIM.  The notes below
	assume that you have unpacked that tar archive.

	To rebuild the archive you will need to obtain a working
	version of an ELF compiler/linker for the PowerPC.
	
	Example of running PSIM:

		Print out the users environment:

			$ sim/ppc/psim sim/ppc/test/envp

		Print out the arguments:

			$ sim/ppc/psim sim/ppc/test/argv a b c

		Check the OEA model:

			$ sim/ppc/psim sim/ppc/test/interrupt

		Check that sbrk works

			$ sim/ppc/psim sim/ppc/test/break

		Try for speed.  The program count contains a loop
		of two instructions which is looped <arg> times.
		See later for how to make PSIM run 10-100 times
		faster.

			$ time sim/ppc/sim sim/ppc/test/count 5000000
			$ expr 10 \* 1000 \* 1000 / <seconds>


	Example of running GDB:	

		The most important thing to be aware of is the fact
		that before the simulator is used, the user must attach
		to it (target sim) and than load the executable (load count).

			$ cd sim/ppc/test
			$ powerpc-unknown-eabi-gdb count
			(gdb) target sim
			(gdb) load count
			(gdb) break main
			(gdb) run
			.
			.
			.


CONFIGURATION: Making it go faster

	See the file sim/ppc/config.h (a.k.a. sim/ppc/data/ppc-config)
	for notes.


KNOWN FEATURES

	SMP, dual-endian, VEA and OEA models, hardware devices
	(console, icu, reset) ...


KNOWN PROBLEMS:

	Configuration could be better.

	HTAB (page) code for OEA model untested.  Some of the vm code
	instructions unimplemented.

	Doesn't detect/handle changing endian bits.  In fact they are
	ignored.

	Return from interrupt instruction unimplemented.

	Flush instruction cache instructions do nothing.  Perhaphs they
	should (if there is an instruction cache) flush it.

	PowerOpen VEA model (a.k.a XCOFF a.k.a AIX) broken.  It was
	working but that is before I changed the create stack frame
	code into an ELF version.

	OpenBoot and PR*P interfaces missing.  Open boot could be
	implemented by putting special instructions at the address
	of the OpenBoot callback functions.  Those instructions
	could than emulate OpenBoot behavour.

	VEA memory read/write performance could be improved by merging
	the data sections.

	When reading in a VEA executable, the binaries text and data
	sections are not made page aligned.

	Missing or commented out instructions.

	Lack of floating point support.
	[workaround: build everything using -msoft-float]

	64bit untested.

	Event code for pending events from signal handlers not
	finished/tested.

	Better and more devices.

	Only two device trees VEA and OEA (clayton) and those hard coded.
	Should be possible to specify a file containing a device tree
	description as the program to run.  At present it a device tree
	file is detected causing psim to abort.

	I wonder if I've got my ppc.instructions copyright
	notice correct.


THANKS:

	Thanks go to the following who each helped in some way.

		Allen Briggs, Bett Koch, David Edelsohn,
		Michael Meissner, Bob Mercier, Richard Perini,
		Richard Stallman, Mitchele Walker


----------------------------------------------------------------


Random notes on performance:


$ cd test
time ../psim count `expr 10000000 / 2`
time ../psim volatile-count `expr 10000000 / 7`

Where 2 and 7 are the number of instructions in the main loop.


	611/729 - baseline

Tests:

	CFLAGS= -c -O2 -m486 -fomit-frame-pointer

	o	different first/second level table/switch combinations

		0 - use a table
		1 - use a simple switch
		2 - use an expanded switch

i486DX4/100 - AMD

	1/108/140 - switch=0/0/0,expand=2,inline=2,nia=1,cache=1
	1/114/140 - switch=0/0/0,expand=2,inline=2,nia=1,cache=1
	1/137/149 - switch=0/0,expand=2,inline=1,nia=1,cache=1
	1/144/155 - switch=2/1,expand=2,inline=1,nia=1,cache=1
	1/153/159 - switch=2/1,expand=0,inline=1,nia=1,cache=1
	1/185/189 - switch=0/0,expand=0,inline=1,nia=1

i486DX2/66

	1/572/695 - switch=1/1,expand=0,inline=0
	1/579/729 - switch=0/0,expand=0,inline=0
	1/570/682 - switch=2/2,expand=0,inline=0
	1/431/492 - switch=0/0,expand=0,inline=1,nia=0
	1/271/292 - switch=2/1,expand=0,inline=1,nia=0
	1/270/316 - switch=2/2,expand=0,inline=1,nia=0
	1/271/281 - switch=1/1,expand=0,inline=1,nia=1
	1/267/274 - switch=2/1,expand=0,inline=1,nia=1