示例#1
0
/*===========================================================================*
 *				monparams_dmp				     *
 *===========================================================================*/
PUBLIC void monparams_dmp()
{
  char val[1024];
  char *e;
  int r;

  /* Try to get a copy of the boot monitor parameters. */
  if ((r = sys_getmonparams(val, sizeof(val))) != OK) {
      report("IS","warning: couldn't get copy of monitor params", r);
      return;
  }

  /* Append new lines to the result. */
  e = val;
  do {
	e += strlen(e);
	*e++ = '\n';
  } while (*e != 0); 

  /* Finally, print the result. */
  printf("Dump of kernel environment strings set by boot monitor.\n");
  printf("\n%s\n", val);
}
/*===========================================================================*
 *		            sef_cb_init_fresh                                *
 *===========================================================================*/
static int sef_cb_init_fresh(int UNUSED(type), sef_init_info_t *UNUSED(info))
{
/* Initialize the process manager. 
 * Memory use info is collected from the boot monitor, the kernel, and
 * all processes compiled into the system image. Initially this information
 * is put into an array mem_chunks. Elements of mem_chunks are struct memory,
 * and hold base, size pairs in units of clicks. This array is small, there
 * should be no more than 8 chunks. After the array of chunks has been built
 * the contents are used to initialize the hole list. Space for the hole list
 * is reserved as an array with twice as many elements as the maximum number
 * of processes allowed. It is managed as a linked list, and elements of the
 * array are struct hole, which, in addition to storage for a base and size in 
 * click units also contain space for a link, a pointer to another element.
*/
  int s;
  static struct boot_image image[NR_BOOT_PROCS];
  register struct boot_image *ip;
  static char core_sigs[] = { SIGQUIT, SIGILL, SIGTRAP, SIGABRT,
				SIGEMT, SIGFPE, SIGBUS, SIGSEGV };
  static char ign_sigs[] = { SIGCHLD, SIGWINCH, SIGCONT };
  static char noign_sigs[] = { SIGILL, SIGTRAP, SIGEMT, SIGFPE, 
				SIGBUS, SIGSEGV };
  register struct mproc *rmp;
  register char *sig_ptr;
  message mess;

  /* Initialize process table, including timers. */
  for (rmp=&mproc[0]; rmp<&mproc[NR_PROCS]; rmp++) {
	init_timer(&rmp->mp_timer);
	rmp->mp_magic = MP_MAGIC;
  }

  /* Build the set of signals which cause core dumps, and the set of signals
   * that are by default ignored.
   */
  sigemptyset(&core_sset);
  for (sig_ptr = core_sigs; sig_ptr < core_sigs+sizeof(core_sigs); sig_ptr++)
	sigaddset(&core_sset, *sig_ptr);
  sigemptyset(&ign_sset);
  for (sig_ptr = ign_sigs; sig_ptr < ign_sigs+sizeof(ign_sigs); sig_ptr++)
	sigaddset(&ign_sset, *sig_ptr);
  sigemptyset(&noign_sset);
  for (sig_ptr = noign_sigs; sig_ptr < noign_sigs+sizeof(noign_sigs); sig_ptr++)
	sigaddset(&noign_sset, *sig_ptr);

  /* Obtain a copy of the boot monitor parameters and the kernel info struct.  
   * Parse the list of free memory chunks. This list is what the boot monitor 
   * reported, but it must be corrected for the kernel and system processes.
   */
  if ((s=sys_getmonparams(monitor_params, sizeof(monitor_params))) != OK)
      panic("get monitor params failed: %d", s);
  if ((s=sys_getkinfo(&kinfo)) != OK)
      panic("get kernel info failed: %d", s);

  /* Initialize PM's process table. Request a copy of the system image table 
   * that is defined at the kernel level to see which slots to fill in.
   */
  if (OK != (s=sys_getimage(image))) 
  	panic("couldn't get image table: %d", s);
  procs_in_use = 0;				/* start populating table */
  for (ip = &image[0]; ip < &image[NR_BOOT_PROCS]; ip++) {
  	if (ip->proc_nr >= 0) {			/* task have negative nrs */
  		procs_in_use += 1;		/* found user process */

		/* Set process details found in the image table. */
		rmp = &mproc[ip->proc_nr];	
  		strlcpy(rmp->mp_name, ip->proc_name, PROC_NAME_LEN); 
  		(void) sigemptyset(&rmp->mp_ignore);	
  		(void) sigemptyset(&rmp->mp_sigmask);
  		(void) sigemptyset(&rmp->mp_catch);
		if (ip->proc_nr == INIT_PROC_NR) {	/* user process */
  			/* INIT is root, we make it father of itself. This is
  			 * not really OK, INIT should have no father, i.e.
  			 * a father with pid NO_PID. But PM currently assumes 
  			 * that mp_parent always points to a valid slot number.
  			 */
  			rmp->mp_parent = INIT_PROC_NR;
  			rmp->mp_procgrp = rmp->mp_pid = INIT_PID;
			rmp->mp_flags |= IN_USE; 

			/* Set scheduling info */
			rmp->mp_scheduler = KERNEL;
			rmp->mp_nice = get_nice_value(USR_Q);
		}
		else {					/* system process */
  			if(ip->proc_nr == RS_PROC_NR) {
  				rmp->mp_parent = INIT_PROC_NR;
  			}
  			else {
  				rmp->mp_parent = RS_PROC_NR;
  			}
  			rmp->mp_pid = get_free_pid();
			rmp->mp_flags |= IN_USE | PRIV_PROC;

			/* RS schedules this process */
			rmp->mp_scheduler = NONE;
			rmp->mp_nice = get_nice_value(SRV_Q);
		}

		/* Get kernel endpoint identifier. */
		rmp->mp_endpoint = ip->endpoint;

		/* Tell VFS about this system process. */
		mess.m_type = PM_INIT;
		mess.PM_SLOT = ip->proc_nr;
		mess.PM_PID = rmp->mp_pid;
		mess.PM_PROC = rmp->mp_endpoint;
  		if (OK != (s=send(VFS_PROC_NR, &mess)))
			panic("can't sync up with VFS: %d", s);
  	}
  }

  /* Tell VFS that no more system processes follow and synchronize. */
  mess.PR_ENDPT = NONE;
  if (sendrec(VFS_PROC_NR, &mess) != OK || mess.m_type != OK)
	panic("can't sync up with VFS");

#if defined(__i386__)
        uts_val.machine[0] = 'i';
        strcpy(uts_val.machine + 1, itoa(getprocessor()));
#elif defined(__arm__)
        strcpy(uts_val.machine, "arm");
#endif  

 system_hz = sys_hz();

  /* Initialize user-space scheduling. */
  sched_init();

  return(OK);
}
示例#3
0
文件: main.c 项目: wmdwjwm/minix
/*===========================================================================*
 *		            sef_cb_init_fresh                                *
 *===========================================================================*/
static int sef_cb_init_fresh(int UNUSED(type), sef_init_info_t *UNUSED(info))
{
/* Initialize the process manager. */
  int s;
  static struct boot_image image[NR_BOOT_PROCS];
  register struct boot_image *ip;
  static char core_sigs[] = { SIGQUIT, SIGILL, SIGTRAP, SIGABRT,
				SIGEMT, SIGFPE, SIGBUS, SIGSEGV };
  static char ign_sigs[] = { SIGCHLD, SIGWINCH, SIGCONT, SIGINFO };
  static char noign_sigs[] = { SIGILL, SIGTRAP, SIGEMT, SIGFPE, 
				SIGBUS, SIGSEGV };
  register struct mproc *rmp;
  register char *sig_ptr;
  message mess;

  /* Initialize process table, including timers. */
  for (rmp=&mproc[0]; rmp<&mproc[NR_PROCS]; rmp++) {
	init_timer(&rmp->mp_timer);
	rmp->mp_magic = MP_MAGIC;
	rmp->mp_sigact = mpsigact[rmp - mproc];
	rmp->mp_eventsub = NO_EVENTSUB;
  }

  /* Build the set of signals which cause core dumps, and the set of signals
   * that are by default ignored.
   */
  sigemptyset(&core_sset);
  for (sig_ptr = core_sigs; sig_ptr < core_sigs+sizeof(core_sigs); sig_ptr++)
	sigaddset(&core_sset, *sig_ptr);
  sigemptyset(&ign_sset);
  for (sig_ptr = ign_sigs; sig_ptr < ign_sigs+sizeof(ign_sigs); sig_ptr++)
	sigaddset(&ign_sset, *sig_ptr);
  sigemptyset(&noign_sset);
  for (sig_ptr = noign_sigs; sig_ptr < noign_sigs+sizeof(noign_sigs); sig_ptr++)
	sigaddset(&noign_sset, *sig_ptr);

  /* Obtain a copy of the boot monitor parameters.
   */
  if ((s=sys_getmonparams(monitor_params, sizeof(monitor_params))) != OK)
      panic("get monitor params failed: %d", s);

  /* Initialize PM's process table. Request a copy of the system image table 
   * that is defined at the kernel level to see which slots to fill in.
   */
  if (OK != (s=sys_getimage(image))) 
  	panic("couldn't get image table: %d", s);
  procs_in_use = 0;				/* start populating table */
  for (ip = &image[0]; ip < &image[NR_BOOT_PROCS]; ip++) {
  	if (ip->proc_nr >= 0) {			/* task have negative nrs */
  		procs_in_use += 1;		/* found user process */

		/* Set process details found in the image table. */
		rmp = &mproc[ip->proc_nr];	
  		strlcpy(rmp->mp_name, ip->proc_name, PROC_NAME_LEN); 
  		(void) sigemptyset(&rmp->mp_ignore);	
  		(void) sigemptyset(&rmp->mp_sigmask);
  		(void) sigemptyset(&rmp->mp_catch);
		if (ip->proc_nr == INIT_PROC_NR) {	/* user process */
  			/* INIT is root, we make it father of itself. This is
  			 * not really OK, INIT should have no father, i.e.
  			 * a father with pid NO_PID. But PM currently assumes 
  			 * that mp_parent always points to a valid slot number.
  			 */
  			rmp->mp_parent = INIT_PROC_NR;
  			rmp->mp_procgrp = rmp->mp_pid = INIT_PID;
			rmp->mp_flags |= IN_USE; 

			/* Set scheduling info */
			rmp->mp_scheduler = KERNEL;
			rmp->mp_nice = get_nice_value(USR_Q);
		}
		else {					/* system process */
  			if(ip->proc_nr == RS_PROC_NR) {
  				rmp->mp_parent = INIT_PROC_NR;
  			}
  			else {
  				rmp->mp_parent = RS_PROC_NR;
  			}
  			rmp->mp_pid = get_free_pid();
			rmp->mp_flags |= IN_USE | PRIV_PROC;

			/* RS schedules this process */
			rmp->mp_scheduler = NONE;
			rmp->mp_nice = get_nice_value(SRV_Q);
		}

		/* Get kernel endpoint identifier. */
		rmp->mp_endpoint = ip->endpoint;

		/* Tell VFS about this system process. */
		memset(&mess, 0, sizeof(mess));
		mess.m_type = VFS_PM_INIT;
		mess.VFS_PM_SLOT = ip->proc_nr;
		mess.VFS_PM_PID = rmp->mp_pid;
		mess.VFS_PM_ENDPT = rmp->mp_endpoint;
  		if (OK != (s=ipc_send(VFS_PROC_NR, &mess)))
			panic("can't sync up with VFS: %d", s);
  	}
  }

  /* Tell VFS that no more system processes follow and synchronize. */
  memset(&mess, 0, sizeof(mess));
  mess.m_type = VFS_PM_INIT;
  mess.VFS_PM_ENDPT = NONE;
  if (ipc_sendrec(VFS_PROC_NR, &mess) != OK || mess.m_type != OK)
	panic("can't sync up with VFS");

 system_hz = sys_hz();

  /* Initialize user-space scheduling. */
  sched_init();

  return(OK);
}