minix/kernel/system/debugging.c

/* The system call implemented in this file:
 *   m_type:	SYS_DEBUG
 *
 * The parameters for this system call are:
 */

#include "../kernel.h"
#include "../system.h"
#include "../proc.h"
#include "../glo.h"
#include <limits.h>

#if ENABLE_LOCK_TIMING

static unsigned long starttimes[TIMING_CATEGORIES][2];

#define HIGHCOUNT	0
#define LOWCOUNT	1

void timer_start(int cat, char *name)
{
	static int init = 0;
	unsigned long h, l;
	int i;

	if(cat < 0 || cat >= TIMING_CATEGORIES) return;

	for(i = 0; i < sizeof(timingdata[0].names) && *name; i++)
		timingdata[cat].names[i] = *name++;
	timingdata[0].names[sizeof(timingdata[0].names)-1] = '\0';

	if(starttimes[cat][HIGHCOUNT]) {  return; }

	if(!init) {
		int t, f;
		init = 1;
		for(t = 0; t < TIMING_CATEGORIES; t++) {
			timingdata[t].lock_timings_range[0] = 0;
			timingdata[t].resets = timingdata[t].misses = 
				timingdata[t].measurements = 0;
		}
	}

	read_tsc(&starttimes[cat][HIGHCOUNT], &starttimes[cat][LOWCOUNT]);

	return;
}

void timer_end(int cat)
{
	unsigned long h, l, d = 0, binsize;
	int bin;

	read_tsc(&h, &l);
	if(cat < 0 || cat >= TIMING_CATEGORIES) return;
	if(!starttimes[cat][HIGHCOUNT]) {
		timingdata[cat].misses++;
		return;
	}
	if(starttimes[cat][HIGHCOUNT] == h) {
		d = (l - starttimes[cat][1]);
	} else if(starttimes[cat][HIGHCOUNT] == h-1 &&
		starttimes[cat][LOWCOUNT] > l) {
		d = ((ULONG_MAX - starttimes[cat][LOWCOUNT]) + l);
	} else {
		timingdata[cat].misses++;
		return;
	}
	starttimes[cat][HIGHCOUNT] = 0;
	if(!timingdata[cat].lock_timings_range[0] ||
		d < timingdata[cat].lock_timings_range[0] ||
		d > timingdata[cat].lock_timings_range[1]) {
		int t;
		if(!timingdata[cat].lock_timings_range[0] ||
			d < timingdata[cat].lock_timings_range[0])
			timingdata[cat].lock_timings_range[0] = d;
		if(!timingdata[cat].lock_timings_range[1] ||
			d > timingdata[cat].lock_timings_range[1])
			timingdata[cat].lock_timings_range[1] = d;
		for(t = 0; t < TIMING_POINTS; t++)
			timingdata[cat].lock_timings[t] = 0;
		timingdata[cat].binsize =
			(timingdata[cat].lock_timings_range[1] -
			timingdata[cat].lock_timings_range[0])/(TIMING_POINTS+1);
		if(timingdata[cat].binsize < 1)
		  timingdata[cat].binsize = 1;
		timingdata[cat].resets++;
	}
	bin = (d-timingdata[cat].lock_timings_range[0]) /
		timingdata[cat].binsize;
	if(bin < 0 || bin >= TIMING_POINTS) {
		int t;
		/* this indicates a bug, but isn't really serious */
		for(t = 0; t < TIMING_POINTS; t++)
			timingdata[cat].lock_timings[t] = 0;
		timingdata[cat].misses++;
	} else {
		timingdata[cat].lock_timings[bin]++;
		timingdata[cat].measurements++;
	}

	return;
}

#endif

#if ENABLE_K_DEBUGGING		/* only include code if enabled */

#define PROCLIMIT 10000

PUBLIC void
check_runqueues(char *when)
{
  int q, l = 0;
  register struct proc *xp;

  for (xp = BEG_PROC_ADDR; xp < END_PROC_ADDR; ++xp) {
	xp->p_found = 0;
	if(l++ > PROCLIMIT) {  panic("check error", NO_NUM); }
  }

  for (q=0; q < NR_SCHED_QUEUES; q++) {
    if(rdy_head[q] && !rdy_tail[q]) {
	kprintf("head but no tail: %s", (karg_t) when);
		 panic("scheduling error", NO_NUM);
    }
    if(!rdy_head[q] && rdy_tail[q]) {
	kprintf("tail but no head: %s", (karg_t) when);
		 panic("scheduling error", NO_NUM);
    }
    if(rdy_tail[q] && rdy_tail[q]->p_nextready != NIL_PROC) {
	kprintf("tail and tail->next not null; %s", (karg_t) when);
		 panic("scheduling error", NO_NUM);
    }
    for(xp = rdy_head[q]; xp != NIL_PROC; xp = xp->p_nextready) {
        if (!xp->p_ready) {
		kprintf("scheduling error: unready on runq: %s\n", (karg_t) when);
		
  		panic("found unready process on run queue", NO_NUM);
        }
        if(xp->p_priority != q) {
		kprintf("scheduling error: wrong priority: %s\n", (karg_t) when);
		
		panic("wrong priority", NO_NUM);
	}
	if(xp->p_found) {
		kprintf("scheduling error: double scheduling: %s\n", (karg_t) when);
		panic("proc more than once on scheduling queue", NO_NUM);
	}
	xp->p_found = 1;
	if(xp->p_nextready == NIL_PROC && rdy_tail[q] != xp) {
		kprintf("scheduling error: last element not tail: %s\n", (karg_t) when);
		panic("scheduling error", NO_NUM);
	}
	if(l++ > PROCLIMIT) panic("loop in schedule queue?", NO_NUM);
    }
  }	

  for (xp = BEG_PROC_ADDR; xp < END_PROC_ADDR; ++xp) {
	if(! isempty(xp) && xp->p_ready && ! xp->p_found) {
		kprintf("scheduling error: ready not on queue: %s\n", (karg_t) when);
		panic("ready proc not on scheduling queue", NO_NUM);
		if(l++ > PROCLIMIT) { panic("loop in proc.t?", NO_NUM); }
	}
  }
}

/*==========================================================================*
 *				do_debug 				    *
 *==========================================================================*/

#endif	/* ENABLE_K_DEBUGGING */
Initial revision 2005-04-21 16:53:53 +02:00			`/* The system call implemented in this file:`
			`* m_type: SYS_DEBUG`
			`*`
			`* The parameters for this system call are:`
			`*/`

			`#include "../kernel.h"`
			`#include "../system.h"`
added a debugging functionality in system/debugging.c (to check sanity of run queues) and associated prototype in system.h 2005-05-24 14:33:03 +02:00			`#include "../proc.h"`
Added args to lock() and unlock() to tell them apart, for use when lock timing is enabled in minix/config.h. Added phys_zero() routine to klib386.s that zeroes a range of memory, and added corresponding system call. 2005-06-01 11:37:52 +02:00			`#include "../glo.h"`
			`#include <limits.h>`

			`#if ENABLE_LOCK_TIMING`

			`static unsigned long starttimes[TIMING_CATEGORIES][2];`

			`#define HIGHCOUNT 0`
			`#define LOWCOUNT 1`

			`void timer_start(int cat, char *name)`
			`{`
			`static int init = 0;`
			`unsigned long h, l;`
			`int i;`

			`if(cat < 0 \|\| cat >= TIMING_CATEGORIES) return;`

			`for(i = 0; i < sizeof(timingdata[0].names) && *name; i++)`
			`timingdata[cat].names[i] = *name++;`
			`timingdata[0].names[sizeof(timingdata[0].names)-1] = '\0';`

			`if(starttimes[cat][HIGHCOUNT]) { return; }`

			`if(!init) {`
			`int t, f;`
			`init = 1;`
			`for(t = 0; t < TIMING_CATEGORIES; t++) {`
			`timingdata[t].lock_timings_range[0] = 0;`
			`timingdata[t].resets = timingdata[t].misses =`
			`timingdata[t].measurements = 0;`
			`}`
			`}`

			`read_tsc(&starttimes[cat][HIGHCOUNT], &starttimes[cat][LOWCOUNT]);`

			`return;`
			`}`

			`void timer_end(int cat)`
			`{`
			`unsigned long h, l, d = 0, binsize;`
			`int bin;`

			`read_tsc(&h, &l);`
			`if(cat < 0 \|\| cat >= TIMING_CATEGORIES) return;`
			`if(!starttimes[cat][HIGHCOUNT]) {`
			`timingdata[cat].misses++;`
			`return;`
			`}`
			`if(starttimes[cat][HIGHCOUNT] == h) {`
			`d = (l - starttimes[cat][1]);`
			`} else if(starttimes[cat][HIGHCOUNT] == h-1 &&`
			`starttimes[cat][LOWCOUNT] > l) {`
			`d = ((ULONG_MAX - starttimes[cat][LOWCOUNT]) + l);`
			`} else {`
			`timingdata[cat].misses++;`
			`return;`
			`}`
			`starttimes[cat][HIGHCOUNT] = 0;`
			`if(!timingdata[cat].lock_timings_range[0] \|\|`
			`d < timingdata[cat].lock_timings_range[0] \|\|`
			`d > timingdata[cat].lock_timings_range[1]) {`
			`int t;`
			`if(!timingdata[cat].lock_timings_range[0] \|\|`
			`d < timingdata[cat].lock_timings_range[0])`
			`timingdata[cat].lock_timings_range[0] = d;`
			`if(!timingdata[cat].lock_timings_range[1] \|\|`
			`d > timingdata[cat].lock_timings_range[1])`
			`timingdata[cat].lock_timings_range[1] = d;`
			`for(t = 0; t < TIMING_POINTS; t++)`
			`timingdata[cat].lock_timings[t] = 0;`
			`timingdata[cat].binsize =`
			`(timingdata[cat].lock_timings_range[1] -`
			`timingdata[cat].lock_timings_range[0])/(TIMING_POINTS+1);`
			`if(timingdata[cat].binsize < 1)`
			`timingdata[cat].binsize = 1;`
			`timingdata[cat].resets++;`
			`}`
			`bin = (d-timingdata[cat].lock_timings_range[0]) /`
			`timingdata[cat].binsize;`
			`if(bin < 0 \|\| bin >= TIMING_POINTS) {`
			`int t;`
			`/* this indicates a bug, but isn't really serious */`
			`for(t = 0; t < TIMING_POINTS; t++)`
			`timingdata[cat].lock_timings[t] = 0;`
			`timingdata[cat].misses++;`
			`} else {`
			`timingdata[cat].lock_timings[bin]++;`
			`timingdata[cat].measurements++;`
			`}`

			`return;`
			`}`

			`#endif`
Initial revision 2005-04-21 16:53:53 +02:00
			`#if ENABLE_K_DEBUGGING /* only include code if enabled */`

added a debugging functionality in system/debugging.c (to check sanity of run queues) and associated prototype in system.h 2005-05-24 14:33:03 +02:00			`#define PROCLIMIT 10000`

			`PUBLIC void`
			`check_runqueues(char *when)`
			`{`
			`int q, l = 0;`
			`register struct proc *xp;`

			`for (xp = BEG_PROC_ADDR; xp < END_PROC_ADDR; ++xp) {`
			`xp->p_found = 0;`
			`if(l++ > PROCLIMIT) { panic("check error", NO_NUM); }`
			`}`

			`for (q=0; q < NR_SCHED_QUEUES; q++) {`
			`if(rdy_head[q] && !rdy_tail[q]) {`
			`kprintf("head but no tail: %s", (karg_t) when);`
			`panic("scheduling error", NO_NUM);`
			`}`
			`if(!rdy_head[q] && rdy_tail[q]) {`
			`kprintf("tail but no head: %s", (karg_t) when);`
			`panic("scheduling error", NO_NUM);`
			`}`
			`if(rdy_tail[q] && rdy_tail[q]->p_nextready != NIL_PROC) {`
			`kprintf("tail and tail->next not null; %s", (karg_t) when);`
			`panic("scheduling error", NO_NUM);`
			`}`
			`for(xp = rdy_head[q]; xp != NIL_PROC; xp = xp->p_nextready) {`
			`if (!xp->p_ready) {`
			`kprintf("scheduling error: unready on runq: %s\n", (karg_t) when);`

			`panic("found unready process on run queue", NO_NUM);`
			`}`
			`if(xp->p_priority != q) {`
			`kprintf("scheduling error: wrong priority: %s\n", (karg_t) when);`

			`panic("wrong priority", NO_NUM);`
			`}`
			`if(xp->p_found) {`
			`kprintf("scheduling error: double scheduling: %s\n", (karg_t) when);`
			`panic("proc more than once on scheduling queue", NO_NUM);`
			`}`
			`xp->p_found = 1;`
			`if(xp->p_nextready == NIL_PROC && rdy_tail[q] != xp) {`
			`kprintf("scheduling error: last element not tail: %s\n", (karg_t) when);`
			`panic("scheduling error", NO_NUM);`
			`}`
			`if(l++ > PROCLIMIT) panic("loop in schedule queue?", NO_NUM);`
			`}`
			`}`

			`for (xp = BEG_PROC_ADDR; xp < END_PROC_ADDR; ++xp) {`
Cleaned up process table structure: removed p_type, p_pendcount. Removed stop sequence when MINIX is shut down. Disabled send mask checks --- to be replaced by proper mechanism. Fixed bug relating to 'shutdown -x'. Simplified clock accounting of realtime. Updated Makefiles for mkdept script. 2005-06-24 18:24:40 +02:00			`if(! isempty(xp) && xp->p_ready && ! xp->p_found) {`
added a debugging functionality in system/debugging.c (to check sanity of run queues) and associated prototype in system.h 2005-05-24 14:33:03 +02:00			`kprintf("scheduling error: ready not on queue: %s\n", (karg_t) when);`
			`panic("ready proc not on scheduling queue", NO_NUM);`
			`if(l++ > PROCLIMIT) { panic("loop in proc.t?", NO_NUM); }`
			`}`
			`}`
			`}`

Initial revision 2005-04-21 16:53:53 +02:00			`/==========================================================================`
			`* do_debug *`
			`==========================================================================/`

			`#endif /* ENABLE_K_DEBUGGING */`