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author | Michael Meissner <gnu@the-meissners.org> | 1995-12-19 16:41:06 +0000 |
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committer | Michael Meissner <gnu@the-meissners.org> | 1995-12-19 16:41:06 +0000 |
commit | a9ddbbf5a1c7eb9b55b32e3886ebdb6fe1b413ad (patch) | |
tree | 2743fb47ee1fb387090e014c975570643be20ea0 /sim | |
parent | aef95a96bc12c69fc16c3af8382cda178bfaaea3 (diff) | |
download | gdb-a9ddbbf5a1c7eb9b55b32e3886ebdb6fe1b413ad.zip gdb-a9ddbbf5a1c7eb9b55b32e3886ebdb6fe1b413ad.tar.gz gdb-a9ddbbf5a1c7eb9b55b32e3886ebdb6fe1b413ad.tar.bz2 |
12/19 release from Andrew that fixes Netbsd break problem
Diffstat (limited to 'sim')
-rw-r--r-- | sim/ppc/README.psim | 358 | ||||
-rw-r--r-- | sim/ppc/configure.in | 16 |
2 files changed, 264 insertions, 110 deletions
diff --git a/sim/ppc/README.psim b/sim/ppc/README.psim index 49c8614..55136f9 100644 --- a/sim/ppc/README.psim +++ b/sim/ppc/README.psim @@ -1,65 +1,207 @@ - PSIM + PSIM - model of a PowerPC platform -Copyright (C) 1994-1995, Andrew Cagney <cagney@highland.com.au> + Copyright (C) 1994-1995, Andrew Cagney <cagney@highland.com.au>. -This directory contains the program PSIM that models the PowerPC (tm - -IBM) architecture. It can be run either standalone (psim or run) or -used as part of GDB. + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 2 of the License, or + (at your option) any later version. + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. -KNOWN FEATURES: +This directory contains the program PSIM that implements a model of a +PowerPC platform. PSIM can either be built standalone or as part of +the debugger GDB. -SMP: It is possible to configure this simulator so that it implements -a restricted model of a Symetric Multi-Processor architecture. It is -important to note that the SMP model has limitations. In particular, -the PowerPC's load word and reserve (etc) instructions do not model -the behavour defined in the Architecture manual. People intending to -use this feature should read the code implementing those instructions. -ENDIAN SUPORT: Pure big, pure little and PowerPC little endian (xor -endian) models are suported. +What is PSIM? -UIEA, VEA and OEA: The PowerPC architecture defines three levels of -the PowerPC architecture. This simulator, to a reasonable degree, is -capable of modeling all three. That is the User Instruction Set -Architecture, the Virtual Environment Architecture and finally the -Operating Environment Architecture. + PSIM is an ANSI C program that models a PowerPC platform. + The platform it implements can vary from: -HARDWARE DEVICE TREE: In the OEA, the model of the target machines -hardware is built from a tree of devices (bit like Open Boot). -Included in this is the ability to model bus hierachies and -runtime-configurable devices (eg PCI). + o A user program environment (UEA) complete + with emulated system calls -OS EMULATION: Suport for os/firmware emulations (system or rom-calls) -is included. At present limited implemtations of two emulations are -included:NetBSD (UEA model) and OpenBoot (OEA model). + to -PEDANTIC VEA MEMORY MODEL: In VEA/UEA NetBSD simulations, this model -implements the break (brk, sbrk) system calls. Further, the user -model has very strict memory access controls. User programs can not -assume that they can stray off the end of valid memory areas. This -model defines valid memory addresses in strict accordance to the -executable and does not page allign their values. At first this was a -bug but since then has turned up several problems in user code so it -is now described as a feature. + o A hardware platform with several processors + interacting with each other and modeled hardware. -PERFORMANCE MONITORING: This simulation is able to monitor things such -as cpu/io read/writes and register allocation. -PERFORMANCE: In its default configuration PSIM is configured so that -it will compile fast and run slow. Through the enabling of more -agressive compile options (and the disabling of unwanted features) the -build can be changed to compile slow and run fast. +What motivated PSIM? -FLOATING POINT: Preliminary suport for floating point is included. -Real kernels don't need floating point. + As an idea, psim was first discussed seriously during mid + 1994. At that time its main objectives were: -BUILDING PSIM: + o good performance -To build PSIM you will need the following: + Many simulators loose out by only providing + a binary interface to the internals. This + inteface eventually becomming a bottle neck + in the simulators performance. + + It was intended that PSIM would avoid this + problem by giving the user access to the + full source code. + + Further, by exploiting the power of modern + compilers it was hoped that PSIM would achieve + good performance with out having to compromize + its internal design. + + + o practical portability + + Rather than try to be portable to every + C compiler on every platform, it was decided + that PSIM would restrict its self to suporting + ANSI compilers that included the extension + of a long long type. + + GCC is one such compiler, consequenly PSIM + should be portable to any machine running GCC. + + + o flexability in its design + + PSIM should allow the user to select the + features required and customize the build + accordingly. By having the source code, + the compler is able to eliminate any un + used features of the simulator. + + After all, let the compiler do the work. + + + o SMP + + A model that allowed the simulation of + SMP platforms with out the large overhead + often encountered with such models. + + + PSIM achieves each of these objectives. + + +Who would be interested in PSIM? + + o the curious + + Using psim, gdb, gcc and binutils the curious + user can contruct an environment that allows + them to play with PowerPC user programs with out + the need for real hardware. + + + o the analyst + + PSIM includes many (contributed) monitoring + features which (unlike many other simulators) + do not come with a great penalty in performance. + + Thus the performance analyst is able to use + this simulator to model the inpact of changes + to the system they are analysing. Be that + system a compiler or real hardware platform. + + If PSIM doesn't monitor a components of interest, + the source code is freely available, and hence + there is no hinderance to changing things + to meet a specific analysts needs. + + + o the serious SW developer + + PSIM models all three levels of the PowerPC + Architecture: UEA, VEA and OEA. Further, + the internal design is such that PSIM can + be extended to suport additional + development requirements. Such requirements + might include (for the UEA) a new Operating + System emulation through to (for the OEA) + a model of a different hardware platform. + + +What features does PSIM have? + + + Monitoring and modeling + + PSIM includes (thanks to Michael Meissner) + a detailed model of the various PowerPC + implementations schedulers. + + + SMP + + The PowerPC ISA defines SMP synchronizing instructions + this simulator models a limited subset of their + behavor. Consequently, if you limit code to the + use the modeled behavour, PSIM can be used to + model SMP PowerPC platforms. + + People intending to use this system should study + the code implementing the lwarx etc instructions. + + ENDIAN SUPORT + + PSIM implements all of Big-endian, little-endian + and PowerPC little endian (XOR endian). + + ISA models + + PSIM includes a model of UEA, VEA and OEA. This + inclues the time base registers (VEA) and HTAB + and BATS (OEA). + + In addition, a preliminary model of the 64 bit + PowerPC architecture is included. + + Hardware + + PSIM's internals are based around the concept + of a Device Tree. This tree intentionaly + resembles that of the Device Tree found in + OpenBoot firmware. Psim is flexable enough + to allow the user to fully configure the + actual hardware model from a device tree + specification taken from a file. + + PSIM also contains several built in device + trees. + + Emulation + + PSIM is able (UEA) to emulate UNIX calls + based on NetBSD abi through to (preliminary) + the ROM rom calls found in common firmware + (OpenBoot and BUGAPI). + + floating point + + Preliminary suport for floating point is included. + Real kernels don't need floating point. + + +Can PSIM model a CHRP a.k.a. PowerPC Platform machine? + + No. but that is now one of its main objectives. (Did you notice + it was written PowerPC Platform instead of PowerPC platform?). + + +How do I build PSIM? + + To build PSIM you will need the following: gdb-4.15.tar.gz From your favorite GNU ftp site. I've also tested psim-951016 with @@ -93,14 +235,12 @@ To build PSIM you will need the following: empty files. -Since PSIM is still being developed, from time to time, further psim -snap shots are occasionally made available. These snapshots may or -may not work with GDB-4.15. Several of the more significant snap -shots are: - - ftp://ftp.ci.com.au/pub/clayton/psim-951215.tar.gz + Since PSIM is still being developed, from time to time, to meet + a specific analysts needsfurther psim snap shots are occasionally + made available. These snapshots may or may not work with GDB-4.15. + Several of the more recent snapshots are: - A dangerous snap shot + ftp://ftp.ci.com.au/pub/clayton/psim-951218.tar.gz Hopefully merges in Michael stuff with mine, adds multiple emulations @@ -118,9 +258,18 @@ shots are: PowerPC's register and bus architectures. -Procedure: + ftp://ftp.ci.com.au/pub/clayton/psim-test-951218.tar.gz + + Prebuilt test programs for PSIM. + Includes examples of UEA, VEA and + OEA code. + Requires gcc-2.7.2 and binutils-2.6 + to rebuild. + -0. A starting point + Procedure: + + 0. A starting point $ ls -1 gdb-4.15+psim-951016.diff.gz @@ -129,13 +278,13 @@ Procedure: psim-test-951016.tar.gz -1. Unpack gdb + 1. Unpack gdb $ gunzip < gdb-4.15.tar.gz | tar xf - -2. Change to the gdb directory, apply the psim patches and unpack - the psim files. + 2. Change to the gdb directory, apply the psim patches and unpack + the psim files. $ cd gdb-4.15 @@ -146,63 +295,64 @@ Procedure: $ gunzip < ../gdb-4.15+psim-951016.tar.gz | tar xvf - -3. Configure gdb + 3. Configure gdb $ more gdb/README - then something like (I assume SH): + then something like (I assume SH): $ CC=gcc ./configure --target=powerpc-unknown-eabisim - eabisim is needed as by default (because PSIM needs GCC) the - simulator is not built. + eabisim is needed as by default (because PSIM needs GCC) the + simulator is not built. -4. Build + 4. Build $ make CC=gcc - alternativly, if you are short on disk space or just want the - simulator built: + alternativly, if you are short on disk space or just want the + simulator built: $ ( cd libiberty && make CC=gcc ) $ ( cd bfd && make CC=gcc ) $ ( cd sim/ppc && make CC=gcc ) -5. Install + 5. Install $ make CC=gcc install - or just + or just $ cp gdb/gdb ~/bin/powerpc-unknown-eabisim-gdb $ cp sim/ppc/run ~/bin/powerpc-unknown-eabisim-run -USING THE SIMULATOR: +How do I use the simulator? + -(I assume that you've unpacked the psim-test archive). + (I assume that you've unpacked the psim-test archive). -1. As a standalone program + 1. As a standalone program - Print out the users environment: + Print out the users environment: $ powerpc-unknown-eabisim-run envp - Print out the arguments: + Print out the arguments: $ powerpc-unknown-eabisim-run argv a b c - Check that sbrk works: + Check that sbrk works: $ powerpc-unknown-eabisim-run break -2. Example of running GDB: + 2. Example of running GDB: - The main thing to note is that before you can run the simulator - you must enable it. The example below illustrates this: + The main thing to note is that before you can run the simulator + you must enable it. The example below illustrates this: $ powerpc-unknown-eabisim-gdb envp (gdb) target sim @@ -214,55 +364,59 @@ USING THE SIMULATOR: . -BUGS AND PROBLEMS: +Where do I send bugs or report problems? -There is a mailing list (subscribe through majordomo@ci.com.au) (that -is almost never used) at: + There is a mailing list (subscribe through majordomo@ci.com.au) (that + is almost never used) at: powerpc-psim@ci.com.au -If I get the ftp archive updated I post a note to that mailing list. -In addition your welcome to send bugs or problems either to me or to -that e-mail list. + If I get the ftp archive updated I post a note to that mailing list. + In addition your welcome to send bugs or problems either to me or to + that e-mail list. -KNOWN PROBLEMS: +Are there any known problems? -See the ChangeLog file looking for lines taged with the word FIXME. + See the ChangeLog file looking for lines taged with the word FIXME. -COREFILE.C: The implementation of corefile.c (defined by corefile.h) isn't the -best. It is intended to be functionaly correct rather than fast. + COREFILE.C: The implementation of corefile.c (defined by + corefile.h) isn't the best. It is intended to be functionaly + correct rather than fast. One option being considered + is to add a data cache to reduce the overhead of the most + common case of data read/writes. -HTAB (page) code for OEA model untested. Some of the vm code -instructions unimplemented. + HTAB (page) code for OEA model untested. Some of the vm code + instructions unimplemented. -Lacks PowerOpen (a.k.a. XCOFF a.k.a. AIX) and NT startups. The -PowerOpen worked until I added the ELF one. + Lacks PowerOpen (a.k.a. XCOFF a.k.a. AIX) and NT startups. The + PowerOpen worked until I added the ELF one. -Missing VEA system calls. + Missing VEA system calls. -Missing or commented out instructions. + Missing or commented out instructions. -64bit target untested. + 64bit target untested. -64bit host broken. For instance use of scanf "%x", &long long. + 64bit host broken. For instance use of scanf "%x", &long long. -Event code for pending events from within signal handlers not -finished/tested. + Event code for pending events from within signal handlers not + finished/tested. -Better and more devices. + Better and more devices. -PORTABILITY (Notes taken from Michael Meissner): Heavy use of the ## -operator - fix using the clasic X/**/Y hack; Use of the signed -keyword. In particular, signed char has no analogue in classic C -(though most implementations of classic C use signed chars); Use of -long long which restricts the target compiler to be GCC. + PORTABILITY (Notes taken from Michael Meissner): Heavy use of the ## + operator - fix using the clasic X/**/Y hack; Use of the signed + keyword. In particular, signed char has no analogue in classic C + (though most implementations of classic C use signed chars); Use of + long long which restricts the target compiler to be GCC. -THANKS: +Who helped? -Thanks go to the following who each helped in some way. + Thanks go to the following who each helped in some way. Allen Briggs, Bett Koch, David Edelsohn, Gordon Irlam, Michael Meissner, Bob Mercier, Richard Perini, Richard Stallman, Mitchele Walker + diff --git a/sim/ppc/configure.in b/sim/ppc/configure.in index 6b6870b..acdb679 100644 --- a/sim/ppc/configure.in +++ b/sim/ppc/configure.in @@ -126,7 +126,7 @@ AC_ARG_ENABLE(sim-inline, [ --enable-sim-inline=inlines Specify which functions should be inlined.], [sim_inline="" case "$enableval" in - no) sim_inline="-DDEFAULT_INLINE=0 -DINLINE=";; + no) sim_inline="-DDEFAULT_INLINE=0";; 0) sim_inline="-DDEFAULT_INLINE=0";; yes | 2) sim_inline="-DDEFAULT_INLINE=ALL_INLINE";; 1) sim_inline="-DDEFAULT_INLINE=INLINE_LOCALS";; @@ -320,15 +320,15 @@ fi],[sim_float=""])dnl AC_ARG_ENABLE(sim-monitor, [ --enable-sim-monitor=mon Specify whether to enable monitoring events.], [case "${enableval}" in - yes) sim_mon="-DWITH_MON='MONITOR_INSTRUCTION_ISSUE | MONITOR_LOAD_STORE_UNIT'";; - no) sim_mon="-DWITH_MON=0";; - instruction) sim_mon="-DWITH_MON=MONITOR_INSTRUCTION_ISSUE";; - memory) sim_mon="-DWITH_MON=MONITOR_LOAD_STORE_UNIT";; + yes) sim_monitor="-DWITH_MON='MONITOR_INSTRUCTION_ISSUE | MONITOR_LOAD_STORE_UNIT'";; + no) sim_monitor="-DWITH_MON=0";; + instruction) sim_monitor="-DWITH_MON=MONITOR_INSTRUCTION_ISSUE";; + memory) sim_monitor="-DWITH_MON=MONITOR_LOAD_STORE_UNIT";; *) AC_MSG_ERROR("Unknown value $enableval passed to --enable-sim-mon"); sim_env="";; esac -if test x"$silent" != x"yes" && test x"$sim_mon" != x""; then - echo "Setting monitor flags = $sim_mon" 6>&1 -fi],[sim_mon=""])dnl +if test x"$silent" != x"yes" && test x"$sim_monitor" != x""; then + echo "Setting monitor flags = $sim_monitor" 6>&1 +fi],[sim_monitor=""])dnl AC_ARG_ENABLE(sim-model, [ --enable-sim-model=which Specify PowerPC to model.], |