phunix/kernel/debug.c

/* This file implements kernel debugging functionality that is not included
 * in the standard kernel. Available functionality includes timing of lock
 * functions and sanity checking of the scheduling queues.
 */

#include "kernel.h"
#include "proc.h"
#include "debug.h"

#include <minix/callnr.h>
#include <minix/sysutil.h>
#include <limits.h>
#include <string.h>

#define MAX_LOOP (NR_PROCS + NR_TASKS)

PUBLIC int runqueues_ok_cpu(unsigned cpu)
{
  int q, l = 0;
  register struct proc *xp;
  struct proc **rdy_head, **rdy_tail;

  rdy_head = get_cpu_var(cpu, run_q_head);
  rdy_tail = get_cpu_var(cpu, run_q_tail);

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

  for (q=l=0; q < NR_SCHED_QUEUES; q++) {
    if (rdy_head[q] && !rdy_tail[q]) {
	printf("head but no tail in %d\n", q);
	return 0;
    }
    if (!rdy_head[q] && rdy_tail[q]) {
	printf("tail but no head in %d\n", q);
	return 0;
    }
    if (rdy_tail[q] && rdy_tail[q]->p_nextready) {
	printf("tail and tail->next not null in %d\n", q);
	return 0;
    }
    for(xp = rdy_head[q]; xp; xp = xp->p_nextready) {
	const vir_bytes vxp = (vir_bytes) xp;
	vir_bytes dxp;
	if(vxp < (vir_bytes) BEG_PROC_ADDR || vxp >= (vir_bytes) END_PROC_ADDR) {
  		printf("xp out of range\n");
		return 0;
	}
	dxp = vxp - (vir_bytes) BEG_PROC_ADDR;
	if(dxp % sizeof(struct proc)) {
  		printf("xp not a real pointer");
		return 0;
	}
	if(!proc_ptr_ok(xp)) {
  		printf("xp bogus pointer");
		return 0;
	}
	if (RTS_ISSET(xp, RTS_SLOT_FREE)) {
		printf("scheduling error: dead proc q %d %d\n",
			q, xp->p_endpoint);
		return 0;
	}
        if (!proc_is_runnable(xp)) {
		printf("scheduling error: unready on runq %d proc %d\n",
			q, xp->p_nr);
		return 0;
        }
        if (xp->p_priority != q) {
		printf("scheduling error: wrong priority q %d proc %d ep %d name %s\n",
			q, xp->p_nr, xp->p_endpoint, xp->p_name);
		return 0;
	}
	if (xp->p_found) {
		printf("scheduling error: double sched q %d proc %d\n",
			q, xp->p_nr);
		return 0;
	}
	xp->p_found = 1;
	if (!xp->p_nextready && rdy_tail[q] != xp) {
		printf("sched err: last element not tail q %d proc %d\n",
			q, xp->p_nr);
		return 0;
	}
	if (l++ > MAX_LOOP) {
		printf("loop in schedule queue?");
		return 0;
	}
    }
  }	

  l = 0;
  for (xp = BEG_PROC_ADDR; xp < END_PROC_ADDR; ++xp) {
	if(!proc_ptr_ok(xp)) {
		printf("xp bogus pointer in proc table\n");
		return 0;
	}
	if (isemptyp(xp))
		continue;
	if(proc_is_runnable(xp) && !xp->p_found) {
		printf("sched error: ready proc %d not on queue\n", xp->p_nr);
		return 0;
		if (l++ > MAX_LOOP) {
			printf("loop in debug.c?\n"); 
			return 0;
		}
	}
  }

  /* All is ok. */
  return 1;
}

#ifdef CONFIG_SMP
PRIVATE int runqueues_ok_all(void)
{
	unsigned c;

	for (c = 0 ; c < ncpus; c++) {
		if (!runqueues_ok_cpu(c))
			return 0;
	}
	return 1;	
}

PUBLIC int runqueues_ok(void)
{
	return runqueues_ok_all();
}

#else

PUBLIC int runqueues_ok(void)
{
	return runqueues_ok_cpu(0);
}


#endif

PUBLIC char *
rtsflagstr(const u32_t flags)
{
	static char str[100];
	str[0] = '\0';

#define FLAG(n) if(flags & n) { strcat(str, #n " "); }

	FLAG(RTS_SLOT_FREE);
	FLAG(RTS_PROC_STOP);
	FLAG(RTS_SENDING);
	FLAG(RTS_RECEIVING);
	FLAG(RTS_SIGNALED);
	FLAG(RTS_SIG_PENDING);
	FLAG(RTS_P_STOP);
	FLAG(RTS_NO_PRIV);
	FLAG(RTS_NO_ENDPOINT);
	FLAG(RTS_VMINHIBIT);
	FLAG(RTS_PAGEFAULT);
	FLAG(RTS_VMREQUEST);
	FLAG(RTS_VMREQTARGET);
	FLAG(RTS_PREEMPTED);
	FLAG(RTS_NO_QUANTUM);

	return str;
}

PUBLIC char *
miscflagstr(const u32_t flags)
{
	static char str[100];
	str[0] = '\0';

	FLAG(MF_REPLY_PEND);
	FLAG(MF_ASYNMSG);
	FLAG(MF_FULLVM);
	FLAG(MF_DELIVERMSG);
	FLAG(MF_KCALL_RESUME);

	return str;
}

PUBLIC char *
schedulerstr(struct proc *scheduler)
{
	if (scheduler != NULL)
	{
		return scheduler->p_name;
	}

	return "KERNEL";
}

PRIVATE void
print_proc_name(struct proc *pp)
{
	char *name = pp->p_name;
	endpoint_t ep = pp->p_endpoint;

	if(name) {
		printf("%s(%d)", name, ep);
	}
	else {
		printf("%d", ep);
	}
}

PRIVATE void
print_endpoint(endpoint_t ep)
{
	int proc_nr;
	struct proc *pp = NULL;

	switch(ep) {
	case ANY:
		printf("ANY");
	break;
	case SELF:
		printf("SELF");
	break;
	case NONE:
		printf("NONE");
	break;
	default:
		if(!isokendpt(ep, &proc_nr)) {
			printf("??? %d\n", ep);
		}
		else {
			pp = proc_addr(proc_nr);
			if(isemptyp(pp)) {
				printf("??? empty slot %d\n", proc_nr);
			}
			else {
				print_proc_name(pp);
			}
		}
	break;
	}
}

PRIVATE void
print_sigmgr(struct proc *pp)
{
	endpoint_t sig_mgr, bak_sig_mgr;
	sig_mgr = priv(pp)->s_sig_mgr;
	bak_sig_mgr = priv(pp)->s_bak_sig_mgr;
	printf("sigmgr ");
	print_endpoint(sig_mgr);
	if(bak_sig_mgr != NONE) {
		printf(" / ");
		print_endpoint(bak_sig_mgr);
	}
}

PUBLIC void print_proc(struct proc *pp)
{
	struct proc *depproc = NULL;
	endpoint_t dep;

	printf("%d: %s %d prio %d time %d/%d cycles 0x%x%08x cpu %2d "
			"cr3 0x%lx rts %s misc %s sched %s ",
		proc_nr(pp), pp->p_name, pp->p_endpoint, 
		pp->p_priority, pp->p_user_time,
		pp->p_sys_time, ex64hi(pp->p_cycles),
		ex64lo(pp->p_cycles), pp->p_cpu,
		pp->p_seg.p_cr3,
		rtsflagstr(pp->p_rts_flags), miscflagstr(pp->p_misc_flags),
		schedulerstr(pp->p_scheduler));

	print_sigmgr(pp);

	dep = P_BLOCKEDON(pp);
	if(dep != NONE) {
		printf(" blocked on: ");
		print_endpoint(dep);
	}
	printf("\n");
}

PRIVATE void print_proc_depends(struct proc *pp, const int level)
{
	struct proc *depproc = NULL;
	endpoint_t dep;
#define COL { int i; for(i = 0; i < level; i++) printf("> "); }

	if(level >= NR_PROCS) {
		printf("loop??\n");
		return;
	}

	COL

	print_proc(pp);

	COL
	proc_stacktrace(pp);


	dep = P_BLOCKEDON(pp);
	if(dep != NONE && dep != ANY) {
		int procno;
		if(isokendpt(dep, &procno)) {
			depproc = proc_addr(procno);
			if(isemptyp(depproc))
				depproc = NULL;
		}
		if (depproc)
			print_proc_depends(depproc, level+1);
	}
}

PUBLIC void print_proc_recursive(struct proc *pp)
{
	print_proc_depends(pp, 0);
}

#if DEBUG_DUMPIPC
PRIVATE const char *mtypename(int mtype, int iscall)
{
	/* use generated file to recognize message types */
	if (iscall) {
		switch(mtype) {
#define IDENT(x) case x: return #x;
#include "extracted-mtype.h"
#undef IDENT(
		}
	} else {
		switch(mtype) {
#define IDENT(x) case x: return #x;
#include "extracted-errno.h"
#undef IDENT(
		}
	}

	/* no match */
	return NULL;
}

PRIVATE void printparam(const char *name, const void *data, size_t size)
{
	printf(" %s=", name);
	switch (size) {
		case sizeof(char):	printf("%d", *(char *) data);	break;
		case sizeof(short):	printf("%d", *(short *) data);	break;
		case sizeof(int):	printf("%d", *(int *) data);	break;
		default:		printf("(%u bytes)", size);	break;
	}
}

PRIVATE void printproc(struct proc *rp)
{
	if (rp)
		printf(" %s(%d)", rp->p_name, rp - proc);
	else
		printf(" kernel");
}

PRIVATE void printmsg(message *msg, struct proc *src, struct proc *dst, 
	char operation, int iscall, int printparams)
{
	const char *name;
	int mtype = msg->m_type;

	/* source, destination and message type */
	printf("%c", operation);
	printproc(src);
	printproc(dst);
	name = mtypename(mtype, iscall);
	if (name) {
		printf(" %s(%d)", name, mtype);
	} else {
		printf(" %d", mtype);
	}

	if (iscall && printparams) {
#define IDENT(x, y) if (mtype == x) printparam(#y, &msg->y, sizeof(msg->y));
#include "extracted-mfield.h"
#undef IDENT
	}
	printf("\n");
}

PUBLIC void printmsgkcall(message *msg, struct proc *proc)
{
	printmsg(msg, proc, NULL, 'k', 1, 1);
}

PUBLIC void printmsgkresult(message *msg, struct proc *proc)
{
	printmsg(msg, NULL, proc, 'k', 0, 0);
}

PUBLIC void printmsgrecv(message *msg, struct proc *src, struct proc *dst)
{
	printmsg(msg, src, dst, 'r', src->p_misc_flags & MF_REPLY_PEND, 0);
}

PUBLIC void printmsgsend(message *msg, struct proc *src, struct proc *dst)
{
	printmsg(msg, src, dst, 's', src->p_misc_flags & MF_REPLY_PEND, 1);
}
#endif