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/* toplevel.c -- Top level simulator source file

   Copyright (C) 1999 Damjan Lampret, lampret@opencores.org

This file is part of OpenRISC 1000 Architectural Simulator.

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., 675 Mass Ave, Cambridge, MA 02139, USA. */

/* Simulator commands. Help and version output. SIGINT processing.

Stdout redirection is specific to linux (I need to fix this). */

#include <stdio.h>

#include <ctype.h>

#include <string.h>

#include <stdlib.h>

#include <unistd.h>

#include <signal.h>

#include <stdarg.h>

#include <fcntl.h>

#include <limits.h>

#include <time.h>

#include "config.h"

#ifdef HAVE_INTTYPES_H

#include <inttypes.h>

#endif

#include "port.h"

#include "arch.h"

#include "parse.h"

#include "abstract.h"

#include "labels.h"

#include "sim-config.h"

#include "opcode/or32.h"

#include "spr_defs.h"

#include "execute.h"

#include "sprs.h"

#include "vapi.h"

#include "gdbcomm.h"

#include "debug_unit.h"

#include "coff.h"

#include "sched.h"

#include "profiler.h"

#include "mprofiler.h"

#include "pm.h"

#include "pic.h"

#include "stats.h"

#include "immu.h"

#include "dmmu.h"

#include "dcache_model.h"

#include "icache_model.h"

#include "branch_predict.h"

#include "dumpverilog.h"

#include "trace.h"

#include "cuc.h"

#include "tick.h"

const char *or1ksim_ver = "0.1.0";

inline void debug(int level, const char *format, ...)

{

  char *p;

  va_list ap;

  if (config.sim.debug >= level) {

    if ((p = malloc(1000)) == NULL)

      return;

    va_start(ap, format);

    (void) vsnprintf(p, 1000, format, ap);

    va_end(ap);

    PRINTF("%s", p);

    fflush(stdout);

    free(p);

  } else {

#if DEBUG

  if ((p = malloc(1000)) == NULL)

    return;

  va_start(ap, format);

  (void) vsnprintf(p, 1000, format, ap);

  va_end(ap);

  PRINTF("%s\n", p);

  fflush(stdout);

  free(p);

#endif

  }

}

void ctrl_c(signum)

     int signum;

{

  /* Incase the user pressed ctrl+c twice without the sim reacting kill it.

   * This is incase the sim locks up in a high level routine, without executeing

   * any (or) code */

  /* FIXME: Don't kill the sim in handle_sim_command */

  if(runtime.sim.iprompt)

    sim_done();

  runtime.sim.iprompt = 1;

  signal(SIGINT, ctrl_c);

}

/* Periodically checks runtime.sim.iprompt to see if ctrl_c has been pressed */

void check_int(void *dat)

{

  if(runtime.sim.iprompt) {

    set_stall_state (0);

    handle_sim_command();

  }

  SCHED_ADD(check_int, NULL, CHECK_INT_TIME);

}

struct sim_reset_hook {

  void *dat;

  void (*reset_hook)(void *);

  struct sim_reset_hook *next;

};

static struct sim_reset_hook *sim_reset_hooks = NULL;

/* Registers a new reset hook, called when sim_reset below is called */

void reg_sim_reset(void (*reset_hook)(void *), void *dat)

{

  struct sim_reset_hook *new = malloc(sizeof(struct sim_reset_hook));

  if(!new) {

    fprintf(stderr, "reg_sim_reset: Out-of-memory\n");

    exit(1);

  }

  new->dat = dat;

  new->reset_hook = reset_hook;

  new->next = sim_reset_hooks;

  sim_reset_hooks = new;

}

/* Resets all subunits */

void sim_reset (void)

{

  struct sim_reset_hook *cur_reset = sim_reset_hooks;

  /* We absolutely MUST reset the scheduler first */

  sched_reset();

  while(cur_reset) {

    cur_reset->reset_hook(cur_reset->dat);

    cur_reset = cur_reset->next;

  }

  tick_reset();

  pm_reset();

  pic_reset();

  du_reset ();

  /* Make sure that runtime.sim.iprompt is the first thing to get checked */

  SCHED_ADD(check_int, NULL, 1);

  /* FIXME: Lame-ass way to get runtime.sim.mem_cycles not going into overly

   * negative numbers.  This happens because parse.c uses setsim_mem32 to load

   * the program but set_mem32 calls dc_simulate_write, which inturn calls

   * setsim_mem32.  This mess of memory statistics needs to be sorted out for

   * good one day */

  runtime.sim.mem_cycles = 0;

  cpu_reset();

}

/* Initalizes all devices and sim */

void sim_init (void)

{

  init_dmmu();

  init_immu();

  init_labels();

  init_breakpoints();

  initstats();

  build_automata();

#if DYNAMIC_EXECUTION

  /* Note: This must be called before the scheduler is used */

  init_dyn_recomp();

#endif

  sched_init();

  if (config.sim.profile) {

    runtime.sim.fprof = fopen(config.sim.prof_fn, "wt+");

    if(!runtime.sim.fprof) {

      fprintf(stderr, "ERROR: Problems opening profile file.\n");

      exit (1);

    } else

      fprintf(runtime.sim.fprof, "+00000000 FFFFFFFF FFFFFFFF [outside_functions]\n");

  }

  if (config.sim.mprofile) {

    runtime.sim.fmprof = fopen(config.sim.mprof_fn, "wb+");

    if(!runtime.sim.fmprof) {

      fprintf(stderr, "ERROR: Problems opening memory profile file.\n");

      exit (1);

    }

  }

  if (config.sim.exe_log) {

    runtime.sim.fexe_log = fopen(config.sim.exe_log_fn, "wt+");

    if(!runtime.sim.fexe_log) {

      PRINTF("ERROR: Problems opening exe_log file.\n");

      exit (1);

    }

  }

  if(runtime.sim.filename) {

    unsigned long endaddr = 0xFFFFFFFF;

    endaddr = loadcode(runtime.sim.filename, 0, 0); /* MM170901 always load at address zero.  */

    if (endaddr == -1) {

      fprintf(stderr, "Problems loading boot code.\n");

      exit(1);

    }

  }

  /* Disable gdb debugging, if debug module is not available.  */

  if (config.debug.gdb_enabled && !config.debug.enabled) {

    config.debug.gdb_enabled = 0;

    if (config.sim.verbose)

      fprintf (stderr, "WARNING: Debug module not enabled, cannot start gdb.\n");

  }

  if (config.debug.gdb_enabled)

    gdbcomm_init ();

  /* Enable dependency stats, if we want to do history analisis */

  if (config.sim.history && !config.cpu.dependstats) {

    config.cpu.dependstats = 1;

    if (config.sim.verbose)

      fprintf (stderr, "WARNING: dependstats stats must be enabled to do history analisis.\n");

  }

  /* Debug forces verbose */

  if (config.sim.debug && !config.sim.verbose) {

    config.sim.verbose = 1;

    fprintf (stderr, "WARNING: verbose turned on.\n");

  }

  /* Start VAPI before device initialization.  */

  if (config.vapi.enabled) {

    runtime.vapi.enabled = 1;

    vapi_init ();

    if (config.sim.verbose)

      PRINTF ("VAPI started, waiting for clients.\n");

  }

  sim_reset ();

  /* Wait till all test are connected.  */

  if (runtime.vapi.enabled) {

    int numu = vapi_num_unconnected (0);

    if (numu) {

      PRINTF ("\nWaiting for VAPI tests with ids:\n");

      vapi_num_unconnected (1);

      PRINTF ("\n");

      while ((numu = vapi_num_unconnected (0))) {

        vapi_check ();

        PRINTF ("\rStill waiting for %i VAPI test(s) to connect.       ", numu);

        usleep (100);

      }

      PRINTF ("\n");

    }

    PRINTF ("All devices connected                         \n");

  }

  /* simulator is initialized */

  runtime.sim.init = 0;

}

/* Cleanup */

void sim_done (void)

{

  if (config.sim.profile) {

    fprintf(runtime.sim.fprof,"-%08llX FFFFFFFF\n", runtime.sim.cycles);

    fclose(runtime.sim.fprof);

  }

  if (config.sim.mprofile) fclose(runtime.sim.fmprof);

  if (config.sim.exe_log)   fclose(runtime.sim.fexe_log);

  if (runtime.vapi.enabled)  vapi_done ();

  done_memory_table ();

  exit(0);

}

/* Executes jobs in time queue */

#if !(DYNAMIC_EXECUTION)

static inline

#endif

void do_scheduler (void)

{

  struct sched_entry *tmp;

  /* Execute all jobs till now */

  do {

    tmp = scheduler.job_queue;

    scheduler.job_queue = tmp->next;

    tmp->next = scheduler.free_job_queue;

    scheduler.free_job_queue = tmp;

#if DYNAMIC_EXECUTION

    /* This is done here and not after the loop has run because the job function

     * may raise an exception in which case set_sched_cycle would never be

     * called. */

    set_sched_cycle(scheduler.job_queue->time);

#endif

    TRACE_(sched)("Setting to-go cycles to %"PRIi32" at %lli\n",

                  scheduler.job_queue->time, runtime.sim.cycles);

    tmp->func (tmp->param);

  } while (scheduler.job_queue->time <= 0);

}

void recalc_do_stats(void)

{

  extern int do_stats;

  do_stats = config.cpu.superscalar || config.cpu.dependstats ||

             config.sim.history || config.sim.exe_log;

}

/* Main function */

int main(argc, argv)

     int argc;

     char *argv[];

{

  srand(getpid());

  init_defconfig();

  reg_config_secs();

  if (parse_args(argc, argv)) {

    PRINTF("Usage: %s [options] <filename>\n", argv[0]);

    PRINTF("Options:\n");

    PRINTF(" -v                   version and copyright note\n");

    PRINTF(" -i                   enable interactive command prompt\n");

    PRINTF(" --nosrv              do not launch JTAG proxy server\n"); /* (CZ) */

    PRINTF(" --srv <n>            launch JTAG proxy server on port <n>; [random]\n"); /* (CZ) */

    PRINTF(" -f or --file         load script file [sim.cfg]\n");

    PRINTF(" -d <debug config>    Enable debug channels\n");

    PRINTF(" --enable-profile     enable profiling.\n");

    PRINTF(" --enable-mprofile    enable memory profiling.\n");

    PRINTF("\nor   : %s ", argv[0]);

    mp_help ();

    PRINTF("\nor   : %s ", argv[0]);

    prof_help ();

    exit(-1);

  }

  /* Read configuration file.  */

  if (!runtime.sim.script_file_specified)

    read_script_file ("sim.cfg");

  /* Overide parameters with command line ones */

  if (runtime.simcmd.profile) config.sim.profile = 1;

  if (runtime.simcmd.mprofile) config.sim.mprofile = 1;

  if (!runtime.sim.script_file_specified && config.sim.verbose)

    fprintf (stderr, "WARNING: No config file read, assuming default configuration.\n");

  print_config();

  signal(SIGINT, ctrl_c);

  runtime.sim.hush = 1;

  recalc_do_stats();

  sim_init ();

  while(1) {

    long long time_start = runtime.sim.cycles;

    if (config.debug.enabled) {

      du_clock(); // reset watchpoints

      while (runtime.cpu.stalled) {

        if(config.debug.gdb_enabled) {

          BlockJTAG();

          HandleServerSocket(false);

        } else {

          fprintf (stderr, "WARNING: CPU stalled and gdb connection not enabled.\n");

          /* Dump the user into interactive mode.  From there he can decide what

           * to do. */

          handle_sim_command();

          sim_done();

        }

        if(runtime.sim.iprompt)

          handle_sim_command();

      }

    }

    /* Each cycle has counter of mem_cycles; this value is joined with cycles

       at the end of the cycle; no sim originated memory accesses should be

       performed inbetween. */

    runtime.sim.mem_cycles = 0;

    if (!config.pm.enabled ||

        !(cpu_state.sprs[SPR_PMR] & (SPR_PMR_DME | SPR_PMR_SME)))

      if (cpu_clock ())

        /* A breakpoint has been hit, drop to interactive mode */

        handle_sim_command();

    if (config.vapi.enabled && runtime.vapi.enabled) vapi_check();

    if (config.debug.gdb_enabled) HandleServerSocket(false); /* block & check_stdin = false */

    if(config.debug.enabled)

      if (cpu_state.sprs[SPR_DMR1] & SPR_DMR1_ST) set_stall_state (1);

    runtime.sim.cycles += runtime.sim.mem_cycles;

    scheduler.job_queue->time -= runtime.sim.cycles - time_start;

    if (scheduler.job_queue->time <= 0) do_scheduler ();

  }

  sim_done();

}