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[/] [or1k/] [trunk/] [or1ksim/] [toplevel.c] - Blame information for rev 1607

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1 2 cvs
/* toplevel.c -- Top level simulator source file
2
   Copyright (C) 1999 Damjan Lampret, lampret@opencores.org
3
 
4
This file is part of OpenRISC 1000 Architectural Simulator.
5
 
6
This program is free software; you can redistribute it and/or modify
7
it under the terms of the GNU General Public License as published by
8
the Free Software Foundation; either version 2 of the License, or
9
(at your option) any later version.
10
 
11
This program is distributed in the hope that it will be useful,
12
but WITHOUT ANY WARRANTY; without even the implied warranty of
13
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
14
GNU General Public License for more details.
15
 
16
You should have received a copy of the GNU General Public License
17
along with this program; if not, write to the Free Software
18
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
19
 
20
/* Simulator commands. Help and version output. SIGINT processing.
21
Stdout redirection is specific to linux (I need to fix this). */
22
 
23 16 jrydberg
 
24 2 cvs
#include <stdio.h>
25
#include <ctype.h>
26
#include <string.h>
27
#include <stdlib.h>
28 46 lampret
#include <unistd.h>
29 2 cvs
#include <signal.h>
30
#include <stdarg.h>
31 123 markom
#include <fcntl.h>
32 728 markom
#include <limits.h>
33 1308 phoenix
#include <time.h>
34 2 cvs
 
35 1350 nogj
#include "config.h"
36
 
37
#ifdef HAVE_INTTYPES_H
38
#include <inttypes.h>
39
#endif
40
 
41
#include "port.h"
42 2 cvs
#include "arch.h"
43
#include "parse.h"
44
#include "abstract.h"
45 261 markom
#include "labels.h"
46 69 lampret
#include "sim-config.h"
47 1432 nogj
#include "opcode/or32.h"
48 103 lampret
#include "spr_defs.h"
49 1432 nogj
#include "execute.h"
50 518 markom
#include "sprs.h"
51 304 markom
#include "vapi.h"
52 479 markom
#include "gdbcomm.h"
53
#include "debug_unit.h"
54 28 lampret
#include "coff.h"
55 728 markom
#include "sched.h"
56 632 ivang
#include "profiler.h"
57
#include "mprofiler.h"
58 1308 phoenix
#include "pm.h"
59
#include "pic.h"
60
#include "stats.h"
61
#include "immu.h"
62
#include "dmmu.h"
63
#include "dcache_model.h"
64
#include "icache_model.h"
65
#include "branch_predict.h"
66
#include "dumpverilog.h"
67
#include "trace.h"
68
#include "cuc.h"
69 1557 nogj
#include "tick.h"
70 632 ivang
 
71 1557 nogj
const char *or1ksim_ver = "0.1.0";
72 2 cvs
 
73 344 markom
inline void debug(int level, const char *format, ...)
74 2 cvs
{
75 7 jrydberg
  char *p;
76
  va_list ap;
77 2 cvs
 
78 344 markom
  if (config.sim.debug >= level) {
79 69 lampret
    if ((p = malloc(1000)) == NULL)
80
      return;
81
    va_start(ap, format);
82
    (void) vsnprintf(p, 1000, format, ap);
83
    va_end(ap);
84 997 markom
    PRINTF("%s", p);
85 69 lampret
    fflush(stdout);
86
    free(p);
87
  } else {
88
#if DEBUG
89 7 jrydberg
  if ((p = malloc(1000)) == NULL)
90
    return;
91
  va_start(ap, format);
92
  (void) vsnprintf(p, 1000, format, ap);
93
  va_end(ap);
94 997 markom
  PRINTF("%s\n", p);
95 7 jrydberg
  fflush(stdout);
96
  free(p);
97 2 cvs
#endif
98 69 lampret
  }
99 2 cvs
}
100
 
101 304 markom
void ctrl_c(signum)
102 7 jrydberg
     int signum;
103 2 cvs
{
104 1480 nogj
  /* Incase the user pressed ctrl+c twice without the sim reacting kill it.
105
   * This is incase the sim locks up in a high level routine, without executeing
106
   * any (or) code */
107 1593 nogj
  if(runtime.sim.iprompt && !runtime.sim.iprompt_run)
108 1480 nogj
    sim_done();
109 551 markom
  runtime.sim.iprompt = 1;
110 7 jrydberg
  signal(SIGINT, ctrl_c);
111 2 cvs
}
112
 
113 1471 nogj
/* Periodically checks runtime.sim.iprompt to see if ctrl_c has been pressed */
114
void check_int(void *dat)
115 2 cvs
{
116 1471 nogj
  if(runtime.sim.iprompt) {
117
    set_stall_state (0);
118
    handle_sim_command();
119
  }
120
  SCHED_ADD(check_int, NULL, CHECK_INT_TIME);
121
}
122
 
123 1360 nogj
struct sim_reset_hook {
124
  void *dat;
125
  void (*reset_hook)(void *);
126
  struct sim_reset_hook *next;
127
};
128 21 cmchen
 
129 1550 nogj
static struct sim_reset_hook *sim_reset_hooks = NULL;
130 1360 nogj
 
131
/* Registers a new reset hook, called when sim_reset below is called */
132
void reg_sim_reset(void (*reset_hook)(void *), void *dat)
133
{
134
  struct sim_reset_hook *new = malloc(sizeof(struct sim_reset_hook));
135
 
136
  if(!new) {
137
    fprintf(stderr, "reg_sim_reset: Out-of-memory\n");
138
    exit(1);
139
  }
140
 
141
  new->dat = dat;
142
  new->reset_hook = reset_hook;
143
  new->next = sim_reset_hooks;
144
  sim_reset_hooks = new;
145
}
146
 
147 479 markom
/* Resets all subunits */
148 1353 nogj
void sim_reset (void)
149 479 markom
{
150 1360 nogj
  struct sim_reset_hook *cur_reset = sim_reset_hooks;
151
 
152 1390 nogj
  /* We absolutely MUST reset the scheduler first */
153
  sched_reset();
154 1360 nogj
 
155
  while(cur_reset) {
156
    cur_reset->reset_hook(cur_reset->dat);
157
    cur_reset = cur_reset->next;
158
  }
159
 
160 479 markom
  tick_reset();
161
  pm_reset();
162
  pic_reset();
163
  du_reset ();
164 1452 nogj
 
165 1471 nogj
  /* Make sure that runtime.sim.iprompt is the first thing to get checked */
166 1486 nogj
  SCHED_ADD(check_int, NULL, 1);
167 1471 nogj
 
168 1452 nogj
  /* FIXME: Lame-ass way to get runtime.sim.mem_cycles not going into overly
169
   * negative numbers.  This happens because parse.c uses setsim_mem32 to load
170
   * the program but set_mem32 calls dc_simulate_write, which inturn calls
171
   * setsim_mem32.  This mess of memory statistics needs to be sorted out for
172
   * good one day */
173
  runtime.sim.mem_cycles = 0;
174 557 markom
  cpu_reset();
175 479 markom
}
176
 
177 304 markom
/* Initalizes all devices and sim */
178 1486 nogj
void sim_init (void)
179 2 cvs
{
180 1539 nogj
  init_dmmu();
181 1538 nogj
  init_immu();
182 269 markom
  init_labels();
183
  init_breakpoints();
184 361 markom
  initstats();
185
  build_automata();
186 1390 nogj
 
187 1452 nogj
#if DYNAMIC_EXECUTION
188
  /* Note: This must be called before the scheduler is used */
189
  init_dyn_recomp();
190
#endif
191
 
192 1390 nogj
  sched_init();
193 361 markom
 
194 305 markom
  if (config.sim.profile) {
195 361 markom
    runtime.sim.fprof = fopen(config.sim.prof_fn, "wt+");
196
    if(!runtime.sim.fprof) {
197 551 markom
      fprintf(stderr, "ERROR: Problems opening profile file.\n");
198
      exit (1);
199 173 markom
    } else
200 897 markom
      fprintf(runtime.sim.fprof, "+00000000 FFFFFFFF FFFFFFFF [outside_functions]\n");
201 173 markom
  }
202 294 markom
 
203 547 markom
  if (config.sim.mprofile) {
204
    runtime.sim.fmprof = fopen(config.sim.mprof_fn, "wb+");
205
    if(!runtime.sim.fmprof) {
206 551 markom
      fprintf(stderr, "ERROR: Problems opening memory profile file.\n");
207
      exit (1);
208 547 markom
    }
209
  }
210
 
211 294 markom
  if (config.sim.exe_log) {
212 361 markom
    runtime.sim.fexe_log = fopen(config.sim.exe_log_fn, "wt+");
213
    if(!runtime.sim.fexe_log) {
214 997 markom
      PRINTF("ERROR: Problems opening exe_log file.\n");
215 551 markom
      exit (1);
216 294 markom
    }
217
  }
218 263 markom
 
219 361 markom
  if(runtime.sim.filename) {
220
    unsigned long endaddr = 0xFFFFFFFF;
221
    endaddr = loadcode(runtime.sim.filename, 0, 0); /* MM170901 always load at address zero.  */
222
    if (endaddr == -1) {
223
      fprintf(stderr, "Problems loading boot code.\n");
224
      exit(1);
225
    }
226
  }
227 551 markom
 
228 361 markom
  /* Disable gdb debugging, if debug module is not available.  */
229
  if (config.debug.gdb_enabled && !config.debug.enabled) {
230
    config.debug.gdb_enabled = 0;
231
    if (config.sim.verbose)
232
      fprintf (stderr, "WARNING: Debug module not enabled, cannot start gdb.\n");
233
  }
234 551 markom
 
235 550 markom
  if (config.debug.gdb_enabled)
236 479 markom
    gdbcomm_init ();
237 551 markom
 
238 361 markom
  /* Enable dependency stats, if we want to do history analisis */
239 394 markom
  if (config.sim.history && !config.cpu.dependstats) {
240
    config.cpu.dependstats = 1;
241 361 markom
    if (config.sim.verbose)
242 394 markom
      fprintf (stderr, "WARNING: dependstats stats must be enabled to do history analisis.\n");
243 361 markom
  }
244 551 markom
 
245 361 markom
  /* Debug forces verbose */
246
  if (config.sim.debug && !config.sim.verbose) {
247
    config.sim.verbose = 1;
248
    fprintf (stderr, "WARNING: verbose turned on.\n");
249
  }
250
 
251
  /* Start VAPI before device initialization.  */
252
  if (config.vapi.enabled) {
253 551 markom
    runtime.vapi.enabled = 1;
254 361 markom
    vapi_init ();
255
    if (config.sim.verbose)
256 997 markom
      PRINTF ("VAPI started, waiting for clients.\n");
257 361 markom
  }
258 538 markom
 
259 479 markom
  sim_reset ();
260 424 markom
 
261 361 markom
  /* Wait till all test are connected.  */
262 551 markom
  if (runtime.vapi.enabled) {
263 361 markom
    int numu = vapi_num_unconnected (0);
264
    if (numu) {
265 997 markom
      PRINTF ("\nWaiting for VAPI tests with ids:\n");
266 361 markom
      vapi_num_unconnected (1);
267 997 markom
      PRINTF ("\n");
268 1308 phoenix
      while ((numu = vapi_num_unconnected (0))) {
269 361 markom
        vapi_check ();
270 997 markom
        PRINTF ("\rStill waiting for %i VAPI test(s) to connect.       ", numu);
271 361 markom
        usleep (100);
272
      }
273 997 markom
      PRINTF ("\n");
274 361 markom
    }
275 997 markom
    PRINTF ("All devices connected                         \n");
276 361 markom
  }
277
  /* simulator is initialized */
278
  runtime.sim.init = 0;
279 304 markom
}
280 7 jrydberg
 
281 304 markom
/* Cleanup */
282 1446 nogj
void sim_done (void)
283 304 markom
{
284
  if (config.sim.profile) {
285 1350 nogj
    fprintf(runtime.sim.fprof,"-%08llX FFFFFFFF\n", runtime.sim.cycles);
286 361 markom
    fclose(runtime.sim.fprof);
287 304 markom
  }
288 547 markom
 
289 847 markom
  if (config.sim.mprofile) fclose(runtime.sim.fmprof);
290 361 markom
  if (config.sim.exe_log)   fclose(runtime.sim.fexe_log);
291 551 markom
  if (runtime.vapi.enabled)  vapi_done ();
292 426 markom
  done_memory_table ();
293 304 markom
  exit(0);
294
}
295
 
296 728 markom
/* Executes jobs in time queue */
297 1452 nogj
#if !(DYNAMIC_EXECUTION)
298
static inline
299
#endif
300
void do_scheduler (void)
301 728 markom
{
302 1390 nogj
  struct sched_entry *tmp;
303 632 ivang
 
304 728 markom
  /* Execute all jobs till now */
305
  do {
306 1390 nogj
    tmp = scheduler.job_queue;
307
    scheduler.job_queue = tmp->next;
308
    tmp->next = scheduler.free_job_queue;
309
    scheduler.free_job_queue = tmp;
310
 
311 1607 nogj
    scheduler.job_queue->time += tmp->time;
312
 
313 1452 nogj
#if DYNAMIC_EXECUTION
314
    /* This is done here and not after the loop has run because the job function
315
     * may raise an exception in which case set_sched_cycle would never be
316
     * called. */
317
    set_sched_cycle(scheduler.job_queue->time);
318
#endif
319
    TRACE_(sched)("Setting to-go cycles to %"PRIi32" at %lli\n",
320
                  scheduler.job_queue->time, runtime.sim.cycles);
321
 
322 1390 nogj
    tmp->func (tmp->param);
323
  } while (scheduler.job_queue->time <= 0);
324 728 markom
}
325 632 ivang
 
326 1471 nogj
void recalc_do_stats(void)
327
{
328
  extern int do_stats;
329 1550 nogj
  do_stats = config.cpu.superscalar || config.cpu.dependstats ||
330
             config.sim.history || config.sim.exe_log;
331 1471 nogj
}
332
 
333 728 markom
/* Main function */
334 304 markom
int main(argc, argv)
335
     int argc;
336
     char *argv[];
337
{
338 361 markom
  srand(getpid());
339
  init_defconfig();
340 1358 nogj
  reg_config_secs();
341 361 markom
  if (parse_args(argc, argv)) {
342 997 markom
    PRINTF("Usage: %s [options] <filename>\n", argv[0]);
343
    PRINTF("Options:\n");
344
    PRINTF(" -v                   version and copyright note\n");
345
    PRINTF(" -i                   enable interactive command prompt\n");
346
    PRINTF(" --nosrv              do not launch JTAG proxy server\n"); /* (CZ) */
347
    PRINTF(" --srv <n>            launch JTAG proxy server on port <n>; [random]\n"); /* (CZ) */
348
    PRINTF(" -f or --file         load script file [sim.cfg]\n");
349 1548 nogj
    PRINTF(" -d <debug config>    Enable debug channels\n");
350 997 markom
    PRINTF(" --enable-profile     enable profiling.\n");
351
    PRINTF(" --enable-mprofile    enable memory profiling.\n");
352
    PRINTF("\nor   : %s ", argv[0]);
353 847 markom
    mp_help ();
354 997 markom
    PRINTF("\nor   : %s ", argv[0]);
355 847 markom
    prof_help ();
356 361 markom
    exit(-1);
357
  }
358 304 markom
 
359
  /* Read configuration file.  */
360 361 markom
  if (!runtime.sim.script_file_specified)
361
    read_script_file ("sim.cfg");
362 883 markom
 
363
  /* Overide parameters with command line ones */
364
  if (runtime.simcmd.profile) config.sim.profile = 1;
365
  if (runtime.simcmd.mprofile) config.sim.mprofile = 1;
366
 
367 424 markom
  if (!runtime.sim.script_file_specified && config.sim.verbose)
368
    fprintf (stderr, "WARNING: No config file read, assuming default configuration.\n");
369 304 markom
  print_config();
370
  signal(SIGINT, ctrl_c);
371 335 markom
 
372 1353 nogj
  runtime.sim.hush = 1;
373 1471 nogj
  recalc_do_stats();
374 1353 nogj
 
375 1471 nogj
  sim_init ();
376
 
377 361 markom
  while(1) {
378 1471 nogj
    long long time_start = runtime.sim.cycles;
379
    if (config.debug.enabled) {
380
      du_clock(); // reset watchpoints
381
      while (runtime.cpu.stalled) {
382
        if(config.debug.gdb_enabled) {
383
          BlockJTAG();
384
          HandleServerSocket(false);
385
        } else {
386
          fprintf (stderr, "WARNING: CPU stalled and gdb connection not enabled.\n");
387
          /* Dump the user into interactive mode.  From there he can decide what
388
           * to do. */
389
          handle_sim_command();
390
          sim_done();
391 557 markom
        }
392 1471 nogj
        if(runtime.sim.iprompt)
393
          handle_sim_command();
394 479 markom
      }
395 1471 nogj
    }
396 127 chris
 
397 1471 nogj
    /* Each cycle has counter of mem_cycles; this value is joined with cycles
398
       at the end of the cycle; no sim originated memory accesses should be
399
       performed inbetween. */
400
    runtime.sim.mem_cycles = 0;
401 1506 nogj
    if (!config.pm.enabled ||
402
        !(cpu_state.sprs[SPR_PMR] & (SPR_PMR_DME | SPR_PMR_SME)))
403 1471 nogj
      if (cpu_clock ())
404
        /* A breakpoint has been hit, drop to interactive mode */
405
        handle_sim_command();
406 304 markom
 
407 1471 nogj
    if (config.vapi.enabled && runtime.vapi.enabled) vapi_check();
408
    if (config.debug.gdb_enabled) HandleServerSocket(false); /* block & check_stdin = false */
409
    if(config.debug.enabled)
410 1506 nogj
      if (cpu_state.sprs[SPR_DMR1] & SPR_DMR1_ST) set_stall_state (1);
411 557 markom
 
412 1471 nogj
    runtime.sim.cycles += runtime.sim.mem_cycles;
413
    scheduler.job_queue->time -= runtime.sim.cycles - time_start;
414
    if (scheduler.job_queue->time <= 0) do_scheduler ();
415 361 markom
  }
416
  sim_done();
417 2 cvs
}

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