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1 227 jeremybenn
 
2
                PSIM - model the PowerPC environment
3
 
4
    Copyright (C) 1994-1996, Andrew Cagney .
5
 
6
    ----------------------------------------------------------------------
7
 
8
                        Running PSIM
9
 
10
        This file describes how to run the program PSIM.
11
 
12
        o       Walk through a number of examples from the
13
                pre-built tar archive psim-test.
14
 
15
        o       Looks at the device tree used by PSIM.
16
 
17
        o       Notes on building a programmer environment to
18
                use with PSIM (BSD/UEA and BUG/OEA)
19
 
20
 
21
    ----------------------------------------------------------------------
22
 
23
 
24
RUNNING PSIM:
25
 
26
 
27
The compressed tar archive psim-test available from:
28
 
29
        ftp://ftp.ci.com.au/pub/psim/psim-test-1.0.1.tar.gz
30
or      ftp://cambridge.cygnus.com/pub/psim/psim-test-1.0.1.tar.gz
31
 
32
contains a number of pre-built programs for running under PSIM.  Each
33
pre-built binary is built both big and little endian.  The suffixes
34
.be/.le (executables) .bo/.lo (object files) and .ba/.la (libraries)
35
are used.
36
 
37
 
38
To run one of these programs, use:
39
 
40
        powerpc-unknown-eabi-run 
41
 
42
for instance:
43
 
44
        powerpc-unknown-eabi-run psim-test/uea/envp
45
 
46
The program envp prints out your shells environment - very useful!
47
More generally psim is run as (this is part of the output from the -h
48
option):
49
 
50
        psim [  ... ]  [  ... ]
51
 
52
Where
53
 
54
               Name of the PowerPC program to run.
55
                      This can either be a PowerPC binary or
56
                      a text file containing a device tree
57
                      specification.
58
                      PSIM will attempt to determine from the
59
                      specified  the intended emulation
60
                      environment.
61
                      If PSIM gets it wrong, the emulation
62
                      environment can be specified using the
63
                      `-e' option (described below).
64
 
65
           Argument to be passed to 
66
                      These arguments will be passed to
67
                       (as standard C argv, argc)
68
                      when  is started.
69
 
70
         See below
71
 
72
The following are valid s:
73
 
74
        -m     Specify the processor to model (604)
75
                      Selects the processor to use when
76
                      modeling execution units.  Includes:
77
                      604, 603 and 603e
78
 
79
        -e   specify an OS or platform to model
80
                      Can be any of the following:
81
                      bug - OEA + MOTO BUG ROM calls
82
                      netbsd - UEA + NetBSD system calls
83
                      chirp - OEA + a few OpenBoot calls
84
 
85
        -i            Print instruction counting statistics
86
 
87
        -I            Print execution unit statistics
88
 
89
        -r      Set RAM size in bytes (OEA environments)
90
 
91
        -t [!] Enable (disable)  option
92
 
93
        -o      add device  to the device tree
94
 
95
        -h -? -H      give more detailed usage
96
 
97
 
98
The `-H' option gives a long usage output.  This includes a complete
99
list of all the pre-configured devices.
100
 
101
 
102
    ----------------------------------------------------------------------
103
 
104
 
105
RUNNING GDB:
106
 
107
 
108
If you built PSIM with gdb then the following is a quick start
109
tutorial.
110
 
111
At present GDB, if configured big-endian (say) unlike PSIM, does not
112
support the debugging of little endian binaries.  If you find that
113
your program won't run at all, make certain that GDB and your
114
program's endianness match.
115
 
116
 
117
The most important thing is that before you can run the simulator you
118
must enable it.  For the simulator, gdb is started like any program:
119
 
120
        $ powerpc-unknown-eabi-gdb psim-test/uea/envp.be
121
 
122
Next the simulator is enabled.  The command `target sim' accepts the
123
same options as can be specified on the PSIM command line.
124
 
125
        (gdb) target sim
126
 
127
To trace the communication between psim and gdb specify `target sim -t
128
gdb'.  Once enabled, the binary needs to be loaded, any breakpoints of
129
interest set, and the program run:
130
 
131
        (gdb) load
132
        (gdb) break main
133
        (gdb) run
134
        .
135
        .
136
        .
137
 
138
In addition, if you are wanting to run a program described by a device
139
tree you can `attach' to the simulation using (I assume that you have
140
applied the attach patch):
141
 
142
        $ cd psim-test/tree
143
        $ powerpc-unknown-eabi-gdb
144
        (gdb) target sim
145
        (gdb) attach device-tree
146
        (gdb) run
147
 
148
Here GDB takes the programs initial state from the attached
149
device-tree instead of forcing initialisation.
150
 
151
 
152
    ----------------------------------------------------------------------
153
 
154
 
155
PROFILING:
156
 
157
 
158
PSIM includes a number of performance monitoring (profiling)
159
facilities:
160
 
161
        o       instruction frequency counting
162
 
163
        o       execution unit modeling (records
164
                effective usage of units).
165
 
166
        o       instruction cache performance
167
 
168
As discussed in the file INSTALL, each can be configured to individual
169
requirements.
170
 
171
 
172
        -i      Enable instruction counting.
173
 
174
                The frequency of all instructions is tabulated.  In
175
                addition (f configured) the hit/miss rate of the
176
                instruction cache is output.
177
 
178
 
179
        -I      Enable execution unit analysis.
180
 
181
                In addition to counting basic instructions also model
182
                the performance of the processors execution units
183
 
184
 
185
        -m 
186
 
187
                Select the processor to be modelled.
188
 
189
                For execution unit analysis specify the processor that
190
                is to be analysed.  By default the 604 is modelled
191
                however, support for other processors such as the
192
                603 and 603e is included.
193
 
194
The output from a performance run (on a P90) for the program
195
psim-test/profile/bench is below.  In this run psim was fairly
196
agressively configured (see the file INSTALL for compile time
197
configuration).
198
 
199
        CPU #1 executed     41,994 AND instructions.
200
        CPU #1 executed    519,785 AND Immediate instructions.
201
        CPU #1 executed    680,058 Add instructions.
202
        CPU #1 executed     41,994 Add Extended instructions.
203
        CPU #1 executed    921,916 Add Immediate instructions.
204
        CPU #1 executed    221,199 Add Immediate Carrying instructions.
205
        CPU #1 executed    943,823 Add Immediate Shifted instructions.
206
        CPU #1 executed    471,909 Add to Zero Extended instructions.
207
        CPU #1 executed    571,915 Branch instructions.
208
        CPU #1 executed  1,992,403 Branch Conditional instructions.
209
        CPU #1 executed    571,910 Branch Conditional to Link Register instructions.
210
        CPU #1 executed    320,431 Compare instructions.
211
        CPU #1 executed    471,911 Compare Immediate instructions.
212
        CPU #1 executed    145,867 Compare Logical instructions.
213
        CPU #1 executed    442,414 Compare Logical Immediate instructions.
214
        CPU #1 executed          1 Condition Register XOR instruction.
215
        CPU #1 executed    103,873 Divide Word instructions.
216
        CPU #1 executed    104,275 Divide Word Unsigned instructions.
217
        CPU #1 executed    132,510 Extend Sign Byte instructions.
218
        CPU #1 executed    178,895 Extend Sign Half Word instructions.
219
        CPU #1 executed    871,920 Load Word and Zero instructions.
220
        CPU #1 executed     41,994 Move From Condition Register instructions.
221
        CPU #1 executed    100,005 Move from Special Purpose Register instructions.
222
        CPU #1 executed    100,002 Move to Special Purpose Register instructions.
223
        CPU #1 executed    804,619 Multiply Low Word instructions.
224
        CPU #1 executed    421,201 OR instructions.
225
        CPU #1 executed    471,910 OR Immediate instructions.
226
        CPU #1 executed  1,292,020 Rotate Left Word Immediate then AND with Mask instructions.
227
        CPU #1 executed    663,613 Shift Left Word instructions.
228
        CPU #1 executed  1,151,564 Shift Right Algebraic Word Immediate instructions.
229
        CPU #1 executed    871,922 Store Word instructions.
230
        CPU #1 executed    100,004 Store Word with Update instructions.
231
        CPU #1 executed    887,804 Subtract From instructions.
232
        CPU #1 executed     83,988 Subtract From Immediate Carrying instructions.
233
        CPU #1 executed          1 System Call instruction.
234
        CPU #1 executed    207,746 XOR instructions.
235
 
236
        CPU #1 executed 23,740,856 cycles.
237
        CPU #1 executed 10,242,780 stalls waiting for data.
238
        CPU #1 executed          1 stall waiting for a function unit.
239
        CPU #1 executed          1 stall waiting for serialization.
240
        CPU #1 executed  1,757,900 times a write-back slot was unavailable.
241
        CPU #1 executed  1,088,135 branches.
242
        CPU #1 executed  2,048,093 conditional branches fell through.
243
        CPU #1 executed  1,088,135 successful branch predictions.
244
        CPU #1 executed    904,268 unsuccessful branch predictions.
245
        CPU #1 executed    742,557 branch if the condition is FALSE conditional branches.
246
        CPU #1 executed  1,249,846 branch if the condition is TRUE conditional branches.
247
        CPU #1 executed    571,910 branch always conditional branches.
248
        CPU #1 executed  9,493,653 1st single cycle integer functional unit instructions.
249
        CPU #1 executed  1,220,900 2nd single cycle integer functional unit instructions.
250
        CPU #1 executed  1,254,768 multiple cycle integer functional unit instructions.
251
        CPU #1 executed  1,843,846 load/store functional unit instructions.
252
        CPU #1 executed  3,136,229 branch functional unit instructions.
253
        CPU #1 executed 16,949,396 instructions that were accounted for in timing info.
254
        CPU #1 executed    871,920 data reads.
255
        CPU #1 executed    971,926 data writes.
256
        CPU #1 executed        221 icache misses.
257
        CPU #1 executed 16,949,396 instructions in total.
258
 
259
        Simulator speed was 250,731 instructions/second
260
 
261
 
262
    ----------------------------------------------------------------------
263
 
264
 
265
PSIM CONFIGURATION - THE DEVICE TREE
266
 
267
 
268
Internally PSIM's configuration is controlled by a tree data
269
structure.  This structure, created at run-time, intentionally
270
resembles the device tree used by OpenBoot firmware to describe a
271
machines hardware configuration.
272
 
273
PSIM can either create its device tree using a builtin emulation or
274
from one read in from a file.
275
 
276
During startup, the device tree is created using the following steps:
277
 
278
        o       Initial empty tree is created
279
 
280
        o       Any tree entry options specified on the
281
                command line are merged in (the -o 
282
                option is used).
283
 
284
                It should be pointed out that most of the
285
                command line options (eg -r, -e, -m, -t
286
                are all just short hand for corresponding
287
                -o options).
288
 
289
        o       If the specified program is a device tree spec, that
290
                is loaded.
291
 
292
                If the specified program is a text file it is assumed
293
                that that file contains a further specification of the
294
                simulators device tree.  That tree is loaded and
295
                merged with the current tree options.
296
 
297
        o       The selected emulation fills out any remaining details.
298
 
299
                By this stage the emulation environment that the program
300
                needs will either be specified in the device tree
301
                (through the -e option) or determined from the
302
                characteristics of the binary.
303
 
304
                The selected emulation will then fill out any missing
305
                nodes in the device tree.
306
 
307
Most importantly earlier additions to the tree are not overridden by
308
later additions.  Thus, command line options override information
309
found in the program file and both override any builtin emulation
310
entries.
311
 
312
The following is a summary of the most useful runtime configuration
313
options:
314
 
315
        -e 
316
        -o '/openprom/options/os-emul '
317
 
318
                Run program using the  run-time
319
                environment.
320
 
321
        -r 
322
        -o '/openprom/options/oea-memory-size '
323
 
324
                Set the size of the first bank of memory
325
                (RAM from address 0 up).
326
 
327
        -t print-device-tree
328
        -o '/openprom/trace/print-device-tree 1'
329
 
330
        -t dump-device-tree
331
        -o '/openprom/trace/dump-device-tree 1'
332
 
333
                Print out the device tree once it has been fully
334
                populated. For dump-device-tree, exit simulator after
335
                dumping the tree.
336
 
337
                PSIM is able to reload the dumped device tree.
338
 
339
                The format of the dumped tree is under development.
340
 
341
        -o '/openprom/options/smp '
342
 
343
                Enable  processors for the simulation run.
344
                See the directory psim-test/oea for an example.
345
 
346
        -o '/openprom/options/alignment '
347
 
348
                Where  is 1 - nonstrict or 2 - strict.
349
                Specify if the missaligned access are allowed
350
                (non-strict) or result in an alignment exception
351
                (strict).
352
 
353
Devices (if included in the file device_table.c) can also be specified
354
in a similar way.  For instance, to add a second serial port, a
355
command like:
356
 
357
        -o '/iobus@0x400000/console@0x000010'
358
 
359
would create a `console' device at offset 0x10 within the `iobus' at
360
memory address 0x400000.
361
 
362
For more detailed information on device specifiers see the notes on
363
the function dump_device_tree in the file device.c (found in the
364
source code).
365
 
366
 
367
    ----------------------------------------------------------------------
368
 
369
 
370
BUILDING A BUG/OEA DEVELOPMENT ENVIRONMENT
371
 
372
 
373
Background:
374
 
375
 
376
Included in many PowerPC systems is Motorola's BUG monitor.  This
377
monitor includes, for client programs, a set of services that allow
378
that program to interact with hardware devices such as the console using
379
a simple system call interface.
380
 
381
PSIM is able to emulate a number of the services (including the
382
console IO calls).  If additional services are needed they can easily
383
be added.
384
 
385
Cygnus support's newlib library includes includes an interface to the
386
MOTO BUG services.  The notes below discuss how I both built and run
387
programs compiled using this library on PSIM.
388
 
389
The only confusing part about building a development environment based
390
around newlib/binutils/gcc is a chicken/egg problem with include
391
files:
392
 
393
        For GCC to build, a fairly complete set of include
394
        files must be installed but newlib won't install its
395
        include files until it has been built with gcc ...
396
 
397
I get around this by installing the problematic include files by hand.
398
 
399
 
400
Preparation:
401
 
402
 
403
The following files are needed:
404
 
405
From your favorite FTP site, the sources to gas/ld and gcc - mine
406
happens to be archie.au :
407
 
408
        ftp://archie.au/gnu/binutils-2.6.tar.gz
409
        ftp://archie.au/gnu/gcc-2.7.2.tar.gz
410
 
411
From ftp://ftp.cygnus.com/pub/newlib the source code to a library:
412
 
413
        ftp://ftp.cygnus.com/pub/newlib/newlib-1.7.0.tar.gz
414
 
415
From ftp://ftp.ci.com.au/pub/psim some minor patches and updates to
416
the above library:
417
 
418
        ftp://ftp.ci.com.au/pub/psim/newlib-1.7.0+float+ppc-asm.tar.gz
419
        ftp://ftp.ci.com.au/pub/psim/newlib-1.7.0+ppc-fix.diff.gz
420
        ftp://ftp.ci.com.au/pub/psim/binutils-2.6+note.diff.gz
421
 
422
In addition you'll need to decide where you will be installing the
423
development environment.  You will notice that in the below I install
424
things well away /usr/local instead installing everything under its
425
own directory in /applications.
426
 
427
 
428
Method:
429
 
430
 
431
These notes are based on an installation performed on a Sun-OS-4/SPARC
432
host.  For other hosts and other configurations, the below should be
433
considered as a guideline only.
434
 
435
 
436
        o       Sanity check
437
 
438
                $ cd .../scratch        # your scratch directory
439
                $ ls -1
440
                binutils-2.6.tar.gz
441
                binutils-2.6+note.diff.gz
442
                gcc-2.7.2,tar.gz
443
                newlib-1.7.0+float+ppc-asm.tar.gz
444
                newlib-1.7.0+ppc-fix.diff.gz
445
                newlib-1.7.0.tar.gz
446
 
447
 
448
        o       Unpack/build/install binutils
449
 
450
                This is done first so that there is a gas/ld ready
451
                for the building of GCC and NEWLIB.
452
 
453
                $ cd .../scratch
454
                $ gunzip < binutils-2.6.tar.gz | tar xf -
455
                $ cd binutils-2.6
456
 
457
                Optionally apply the note patch
458
 
459
                $ gunzip ../binutils-2.6+note.diff.gz | patch
460
 
461
                Then continue with the build
462
 
463
                $ ./configure --target=powerpc-unknown-eabi \
464
                              --prefix=/applications/psim
465
                $ make
466
                $ make install
467
                $ cd ..
468
                $ rm -rf binutils-2.6
469
 
470
                This also creates much of the installation directory
471
                tree.
472
 
473
 
474
        o       Unpack newlib, install the include files so that they
475
                are ready for GCC's build.
476
 
477
                $ cd .../scratch
478
                $ gunzip < newlib-1.7.0.tar.gz | tar xf -
479
 
480
                New lib-1.7.0 had a few minor bugs (fixed in current):
481
                the header files float.h and ppc-asm.h were missing;
482
                the configure and Makefile's for the rs6000 (ppc) directory
483
                contained typos:
484
 
485
                $ cd .../scratch
486
                $ cd newlib-1.7.0
487
                $ gunzip < ../newlib-1.7.0+float+ppc-asm.tar.gz | tar xvf -
488
                $ gunzip < ../newlib-1.7.0+ppc-fix.diff.gz | patch -p1
489
 
490
                Finally copy the include files to where GCC will see them:
491
 
492
                $ cd .../scratch
493
                $ cd newlib-1.7.0/newlib/libc
494
                $ tar cf - include | \
495
                   ( cd /applications/psim/powerpc-unknown-eabi && tar xf - )
496
 
497
 
498
        o       Unpack/build gcc
499
 
500
                $ cd .../scratch
501
                $ gunzip < gcc-2.7.2,tar.gz | tar xf -
502
                $ cd gcc-2.7.2
503
                $ ./configure --target=powerpc-unknown-eabi \
504
                              --prefix=/applications/psim
505
                $ make
506
                $ make install
507
                $ cd ..
508
                $ rm -rf gcc-2.7.2
509
 
510
                Gcc likes to install its own dummy version of float that
511
                just returns an error.
512
 
513
                $ more /applications/psim/lib/gcc-lib/powerpc-unknown-eabi/2.7.2/include/float.h
514
                $ rm /applications/psim/lib/gcc-lib/powerpc-unknown-eabi/2.7.2/include/float.h
515
 
516
 
517
        o       Finish building/installing newlib
518
 
519
                $ cd .../scratch
520
                $ cd newlib-1.7.0
521
                $ ./configure --target=powerpc-unknown-eabi \
522
                              --prefix=/applications/psim
523
 
524
                Your path will need to include the recently installed
525
                gas/gcc when building.  Either add it to your path or
526
                use:
527
 
528
                $ PATH=/applications/psim/bin:$PATH make
529
                $ PATH=/applications/psim/bin:$PATH make install
530
 
531
 
532
        o       Finally, test out the build
533
 
534
                $ cat hello.c
535
                main()
536
                {
537
                  printf("hello world\n");
538
                }
539
 
540
                The binary is linked with an entry point less than 0x100000
541
                (1mb) so that psim will recognize the binary as needing
542
                the BUG/OEA instead of the BSD/UEA runtime environment.
543
 
544
                $ powerpc-unknown-eabi-gcc -v -o hello \
545
                    -Wl,-Ttext,0x4000,-Tdata,0x10000 \
546
                    /applications/psim/powerpc-unknown-eabi/lib/mvme-crt0.o \
547
                    hello.c \
548
                    -lc -lmvme
549
                $ powerpc-unknown-eabi-objdump -h hello
550
                $ powerpc-unknown-eabi-run hello
551
 
552
                It is also possible to force psim to use a specific
553
                run-time environment using the -e option vis:
554
 
555
                $ powerpc-unknown-eabi-run -e bug hello
556
 
557
 
558
 
559
 
560
    ----------------------------------------------------------------------
561
 
562
 
563
BUILDING A BSD/UEA DEVELOPMENT ENVIRONMENT
564
 
565
 
566
Background:
567
 
568
 
569
For a UEA to be useful it needs a supporting run-time environment.
570
PSIM implements a runtime environment based on the NetBSD system call
571
interface.
572
 
573
More than any thing, this user level emulation was the first
574
implemented because I happened to have the NetBSD source code lying
575
around.
576
 
577
 
578
Preparation:
579
 
580
 
581
This requires the NetBSD-1.1 source tree online.  It can either be
582
obtained vi ftp:
583
 
584
        try http://www.netbsd.org  or  ftp://ftp.netbsd.org
585
 
586
Alternatively obtain one of the NetBSD cdrom's.  Patches to this source
587
tree that fill out much of the PowerPC code are available in:
588
 
589
        ftp://ftp.ci.com.au/pub/clayton
590
 
591
Fetch everything in that directory - diffs, tar archives and scripts.
592
In addition patches to the bintuils and gcc are in:
593
 
594
        ftp://ftp.ci.com.au/pub/psim/binutils-2.6+note.diff.gz
595
        ftp://ftp.ci.com.au/pub/psim/gcc-2.7.2+sys-types.diff.gz
596
 
597
while the compiler (gcc) and assember (binutils) can be found at your
598
favorite gnu ftp site.  I used versions:
599
 
600
        gcc-2.7.2.tar.gz
601
        binutils-2.6.tar.gz
602
 
603
 
604
 
605
 
606
Method:
607
 
608
 
609
These notes are based on an installation performed on a Solaris2/x86
610
host.  For other hosts and other configurations, the below should be
611
considered as a guideline only.
612
 
613
 
614
        o       Sanity check
615
 
616
                I assume that you have already obtained the NetBSD-1.1 source
617
                code and unpacked it into the directory bsd-src.  While the
618
                full NetBSD source tree may not be needed, things are easier
619
                if it is all online.
620
 
621
                $ cd .../scratch
622
                $ ls -1
623
                binutils-2.6.tar.gz
624
                binutils-2.6+note.diff.gz
625
                clayton-include-960203.diff.gz
626
                clayton-lib-960203.diff.gz
627
                clayton-lib-960203.tar.gz
628
                clayton-sys-960203.diff.gz
629
                clayton-sys-960203.tar.gz
630
                clayton.chown.sh
631
                clayton.install.sh
632
                clayton.lorder.sh
633
                clayton.make.sh
634
                gcc-2.7.2.tar.gz
635
                gcc-2.7.2+sys-types.diff.gz
636
                make.tar.gz
637
                make.diff.gz
638
 
639
 
640
        o       Prepare the destination directory ready for installation.
641
 
642
                Firstly create many of the needed directories (some are
643
                created automatically later):
644
 
645
                $ for d in \
646
                    /applications/psim \
647
                    /applications/psim/bsd-root \
648
                    /applications/psim/bsd-root/usr \
649
                    /applications/psim/bsd-root/usr/share \
650
                    /applications/psim/bsd-root/usr/share/doc \
651
                    /applications/psim/bsd-root/usr/share/doc/psd \
652
                    /applications/psim/bsd-root/usr/share/doc/psd/19.curses \
653
                    /applications/psim/bsd-root/usr/include \
654
                    /applications/psim/bsd-root/usr/lib \
655
                    /applications/psim/powerpc-unknown-eabi \
656
                    /applications/psim/powerpc-unknown-eabi/bin \
657
                    ; \
658
                  do test -d $d || mkdir $d ; done
659
 
660
                Next, link the BSD and GNU include directories together.
661
                GCC expects include files to be in one location while the
662
                bsd install expects them in a second.  The link is in
663
                the direction below because bsd's install also insists on
664
                a directory (not a link) for its install destination.
665
 
666
                $ rm -rf /applications/psim/powerpc-unknown-eabi/include
667
                $ ln -s /applications/psim/bsd-root/usr/include \
668
                    /applications/psim/powerpc-unknown-eabi/include
669
 
670
                $ ls -l /applications/psim/powerpc-unknown-eabi/include
671
                lrwxr-xr-x  1 cagney  wheel  39 Mar 21 18:09
672
                /applications/psim/powerpc-unknown-eabi/include
673
                -> /applications/psim/bsd-root/usr/include
674
 
675
 
676
        o       Build/install Berkeley make
677
 
678
                The tar archive make.tar.gz contains a recent snapshot
679
                of bmake from the NetBSD source tree.  The notes below
680
                describe how to build/install it.  If you have access
681
                to an even more recent version of bmake, use that.
682
 
683
                Unpack the source code:
684
 
685
                $ cd .../scratch
686
                $ gunzip < make.tar.gz | tar xf -
687
                $ cd make
688
 
689
                Apply the patch in make.diff.gz that fixes a minor
690
                problem with a build under Solaris (by now it should
691
                be fixed in the NetBSD-current source tree).
692
 
693
                $ gunzip < ../make.diff.gz | more
694
                $ gunzip < ../make.diff.gz | patch
695
 
696
                Build it
697
 
698
                $ make -f Makefile.boot 'CC=gcc -g -DPOSIX'
699
 
700
                With bmake built, install it into the target specific bin
701
                directory:
702
 
703
                $ cp bmake /applications/psim/powerpc-unknown-eabi/bin/make
704
                $ cd ..
705
                $ rm -rf make
706
 
707
 
708
        o       Set up a number of wrapper scripts for bmake so that it works.
709
 
710
                In addition to needing BSD make the build process assumes
711
                a number of BSD specific commands.  To get around this
712
                several wrapper scripts are available.
713
 
714
                powerpc-unknown-eabi-make (clayton.make.sh)
715
 
716
                        Front end to Berkeley make setting it up for a
717
                        cross compilation
718
 
719
                        $ cp clayton.make.sh \
720
                          /applications/psim/bin/powerpc-unknown-eabi-make
721
                        $ chmod a+x \
722
                          /applications/psim/bin/powerpc-unknown-eabi-make
723
 
724
                chown (clayton.chown.sh)
725
 
726
                        Wrapper that does not do any thing.
727
                        Avoids the need to be root when installing.
728
 
729
                        $ cp clayton.chown.sh \
730
                          /applications/psim/powerpc-unknown-eabi/bin/chown
731
                        $ chmod a+x \
732
                          /applications/psim/powerpc-unknown-eabi/bin/chown
733
 
734
                install (clayton.install.sh)
735
 
736
                        Wrapper to strip away a number of bsd specific install
737
                        arguments.
738
 
739
                        $ cp clayton.install.sh \
740
                          /applications/psim/powerpc-unknown-eabi/bin/install
741
                        $ chmod a+x \
742
                          /applications/psim/powerpc-unknown-eabi/bin/install
743
 
744
                lorder (clayton.lorder.sh)
745
 
746
                        Tweaked lorder script that will use nm etc from
747
                        binutils.
748
 
749
                        $ cp clayton.lorder.sh \
750
                          /applications/psim/powerpc-unknown-eabi/bin/lorder
751
                        $ chmod a+x \
752
                          /applications/psim/powerpc-unknown-eabi/bin/lorder
753
 
754
 
755
                printf (?)
756
 
757
                        Some operating systems don't include the program
758
                        printf.  If you host doesn't have one, then a
759
                        good source is the gnu sh-utils version.
760
 
761
                        Again, if that program is missing, then I suggest
762
                        installing it onto the powerpc specific program
763
                        directory:
764
 
765
                        /applications/psim/powerpc-unknown-eabi/bin
766
 
767
 
768
        o       Unpack the bsd source code (if you haven't already)
769
 
770
                If you're short on disk space (like me) just unpack:
771
 
772
                        sys, lib, share/mk, include, usr.sbin/config,
773
                        usr.sbin/dbsym, gnu/lib/libg++/g++-include,
774
                        usr.bin/lex
775
 
776
                Otherwize, assuming you have a CD-DRIVE:
777
 
778
                $ cd .../scratch
779
                $ mkdir bsd-src
780
                $ cd bsd-src
781
                $ for d in /cdrom/bsdisc_12_95_disc2/NetBSD-1.1/source/*11
782
                  do
783
                    echo $d
784
                    cat $d/*.?? | gunzip | tar xf -
785
                  done
786
 
787
                Flatten the directory structure a little.
788
 
789
                $ mv usr/src/* .
790
                $ rmdir usr/src usr
791
                $ cd ..
792
 
793
 
794
        o       Apply the clayton (PowerPC) patches to your constructed
795
                tree.
796
 
797
                $ cd .../scratch
798
                $ cd bsd-src
799
 
800
                Diffs are applied using something like:
801
 
802
                $ gunzip < ../clayton-include-960312.diff.gz | patch -p1
803
                $ gunzip < ../clayton-lib-960203.diff.gz | patch -p1
804
                $ gunzip < ../clayton-sys-960203.diff.gz | patch -p1
805
 
806
                The patch to sys/dev/pci/ncr.c.rej might fail.
807
 
808
                The tar archives have a different problem, you need
809
                to remove the `src' prefix.  I used
810
 
811
                $ ln -s . src
812
                $ gunzip < ../clayton-lib-960203.tar.gz | tar xvf -
813
                $ gunzip < ../clayton-sys-960203.tar.gz | tar xvf -
814
 
815
                So that src/xxx unpacked into ./xxx
816
 
817
                $ cd ..
818
 
819
 
820
        o       install Berkeley make's include (mk) files.
821
 
822
                $ cd .../scrath
823
                $ cd bsd-src/share
824
                $ tar cf - mk | ( cd /applications/psim/bsd-root/usr/share \
825
                     && tar xvf - )
826
                $ cd ../..
827
 
828
 
829
        o       Install the include files
830
 
831
                $ cd .../scratch
832
                $ cd bsd-src/include
833
                $ powerpc-unknown-eabi-make install
834
                $ cd ../..
835
 
836
 
837
        o       Install a few other include files.
838
 
839
                As discussed above in the section on building libnew,
840
                the build process can have chicken/egg problems.  In the
841
                case of BSD's libc, it wants to use several include files
842
                (from the installed include directory) before they are
843
                installed.  Just copy them in as seen below:
844
 
845
                $ cd .../scratch
846
                $ cd bsd-src
847
                $ cp gnu/lib/libg++/g++-include/values.h \
848
                    /applications/psim/powerpc-unknown-eabi/include
849
                $ cp lib/libcurses/curses.h \
850
                    /applications/psim/powerpc-unknown-eabi/include
851
                $ cd ..
852
 
853
 
854
        o       Unpack/patch/build/install BINUTILS
855
 
856
                $ cd .../scratch
857
                $ gunzip < binutils-2.6.tar.gz | tar xf -
858
 
859
                gas (bfd) 2.6 didn't support the reading and writing of
860
                note sections.  The patch binutils-2.6+note.diff.gz
861
                adds support for this.  PowerPC/ELF boot files being loaded
862
                by OpenBoot ROM's should contain a PowerPC note section.
863
 
864
                $ cd .../scratch
865
                $ cd binutils-2.6/bfd
866
                $ gunzip < ../../binutils-2.6+note.diff.gz | more
867
                $ gunzip < ../../binutils-2.6+note.diff.gz | patch
868
                $ cd ../..
869
 
870
                Then continue with the build
871
 
872
                $ cd .../scratch
873
                $ cd binutils-2.6
874
                $ ./configure --target=powerpc-unknown-eabi \
875
                              --prefix=/applications/psim
876
                $ make
877
                $ make install
878
                $ cd ..
879
                $ rm -rf binutils-2.6
880
 
881
                This has the intended side effect of partially populating
882
                the psim directory tree which makes follow on steps easier.
883
 
884
 
885
        o       Unpack/patch/build/install GCC
886
 
887
                $ cd .../scratch
888
                $ gunzip < gcc-2.7.2.tar.gz | tar xf -
889
                $ cd gcc-2.7.2
890
 
891
                GCC-2.7.2 and the BSD include files have a conflicting type
892
                declaration.  The patch below gets around this problem
893
                (it may still be applicable to more recent versions of
894
                GCC):
895
 
896
                $ gunzip < ../gcc-2.7.2+sys-types.diff.gz | more
897
                $ gunzip < ../gcc-2.7.2+sys-types.diff.gz | patch
898
 
899
                If your version of GCC includes the file ginclude/ppc-asm.h
900
                then you should install that header file into the directory:
901
                /applications/psim/powerpc-unknown-eabi/include.  More
902
                recent versions of GCC expect this file to be installed:
903
 
904
                $ test -r ginclude/ppc-asm.h \
905
                  && cp ginclude/ppc-asm.h \
906
                     /applications/psim/powerpc-unknown-eabi/include
907
 
908
                Other than that, assuming the include files installed
909
                okay, the rest should be fine ....
910
 
911
                $ ./configure --target=powerpc-unknown-eabi \
912
                              --prefix=/applications/psim
913
                $ make CC=gcc
914
                $ make CC=gcc install
915
                $ cd ..
916
                $ rm -rf gcc-2.7.2
917
 
918
 
919
        o       Build/install the Berkeley library:
920
 
921
                $ cd .../scratch
922
                $ cd bsd-src/lib
923
                $ powerpc-unknown-eabi-make
924
                $ powerpc-unknown-eabi-make install
925
                $ cd ../..
926
 
927
                If you encounter problems check the following (each
928
                discussed above):
929
 
930
                        o       GCC and BSD have a common include
931
                                directory
932
 
933
                        o       all the missing include files installed
934
 
935
                        o       all the wrapper programs installed
936
 
937
 
938
        o       Build/run a simple BSD program
939
 
940
                $ cd .../scratch
941
                $ cd bsd-src/usr.bin/printenv
942
                $ powerpc-unknown-eabi-make
943
                $ powerpc-unknown-eabi-run printenv
944
                .
945
                .
946
                .
947
 
948
 
949
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