sys/kern/kern_ktrace.c

1.101      yamt /*	$NetBSD: kern_ktrace.c,v 1.101 2006/03/01 12:38:21 yamt Exp $	*/
 1.11       cgd
  1.1       cgd /*
  1.9       cgd  * Copyright (c) 1989, 1993
  1.9       cgd  *	The Regents of the University of California.  All rights reserved.
  1.1       cgd  *
  1.1       cgd  * Redistribution and use in source and binary forms, with or without
  1.1       cgd  * modification, are permitted provided that the following conditions
  1.1       cgd  * are met:
  1.1       cgd  * 1. Redistributions of source code must retain the above copyright
  1.1       cgd  *    notice, this list of conditions and the following disclaimer.
  1.1       cgd  * 2. Redistributions in binary form must reproduce the above copyright
  1.1       cgd  *    notice, this list of conditions and the following disclaimer in the
  1.1       cgd  *    documentation and/or other materials provided with the distribution.
 1.77       agc  * 3. Neither the name of the University nor the names of its contributors
  1.1       cgd  *    may be used to endorse or promote products derived from this software
  1.1       cgd  *    without specific prior written permission.
  1.1       cgd  *
  1.1       cgd  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
  1.1       cgd  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  1.1       cgd  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  1.1       cgd  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
  1.1       cgd  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  1.1       cgd  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  1.1       cgd  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  1.1       cgd  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  1.1       cgd  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  1.1       cgd  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  1.1       cgd  * SUCH DAMAGE.
  1.1       cgd  *
 1.25      fvdl  *	@(#)kern_ktrace.c	8.5 (Berkeley) 5/14/95
  1.1       cgd  */
 1.55     lukem
 1.55     lukem #include <sys/cdefs.h>
1.101      yamt __KERNEL_RCSID(0, "$NetBSD: kern_ktrace.c,v 1.101 2006/03/01 12:38:21 yamt Exp $");
 1.29   thorpej
 1.29   thorpej #include "opt_ktrace.h"
 1.62      manu #include "opt_compat_mach.h"
  1.1       cgd
  1.7   mycroft #include <sys/param.h>
 1.13       cgd #include <sys/systm.h>
  1.7   mycroft #include <sys/proc.h>
  1.7   mycroft #include <sys/file.h>
  1.7   mycroft #include <sys/namei.h>
  1.7   mycroft #include <sys/vnode.h>
 1.93     enami #include <sys/kernel.h>
 1.93     enami #include <sys/kthread.h>
  1.7   mycroft #include <sys/ktrace.h>
  1.7   mycroft #include <sys/malloc.h>
  1.7   mycroft #include <sys/syslog.h>
 1.28  christos #include <sys/filedesc.h>
 1.42  sommerfe #include <sys/ioctl.h>
 1.93     enami #include <sys/callout.h>
  1.1       cgd
 1.13       cgd #include <sys/mount.h>
 1.67   thorpej #include <sys/sa.h>
 1.13       cgd #include <sys/syscallargs.h>
 1.22  christos
 1.51  jdolecek #ifdef KTRACE
 1.51  jdolecek
 1.93     enami /*
 1.93     enami  * XXX:
 1.93     enami  *	- need better error reporting?
 1.93     enami  *	- p->p_tracep access lock.  lock p_lock, lock ktd if !NULL, inc ref.
 1.93     enami  *	- userland utility to sort ktrace.out by timestamp.
 1.93     enami  *	- keep minimum information in ktrace_entry when rest of alloc failed.
 1.93     enami  *	- enlarge ktrace_entry so that small entry won't require additional
 1.93     enami  *	  alloc?
 1.93     enami  *	- per trace control of configurable parameters.
 1.93     enami  */
 1.93     enami
 1.93     enami struct ktrace_entry {
 1.93     enami 	TAILQ_ENTRY(ktrace_entry) kte_list;
 1.93     enami 	struct ktr_header kte_kth;
 1.98  christos 	void *kte_buf;
 1.93     enami };
 1.93     enami
 1.93     enami struct ktr_desc {
 1.93     enami 	TAILQ_ENTRY(ktr_desc) ktd_list;
 1.93     enami 	int ktd_flags;
 1.93     enami #define	KTDF_WAIT		0x0001
 1.93     enami #define	KTDF_DONE		0x0002
 1.93     enami #define	KTDF_BLOCKING		0x0004
 1.93     enami #define	KTDF_INTERACTIVE	0x0008
 1.93     enami 	int ktd_error;
 1.93     enami #define	KTDE_ENOMEM		0x0001
 1.93     enami #define	KTDE_ENOSPC		0x0002
 1.93     enami 	int ktd_errcnt;
 1.93     enami 	int ktd_ref;			/* # of reference */
 1.93     enami 	int ktd_qcount;			/* # of entry in the queue */
 1.93     enami
 1.93     enami 	/*
 1.93     enami 	 * Params to control behaviour.
 1.93     enami 	 */
 1.93     enami 	int ktd_delayqcnt;		/* # of entry allowed to delay */
 1.93     enami 	int ktd_wakedelay;		/* delay of wakeup in *tick* */
 1.93     enami 	int ktd_intrwakdl;		/* ditto, but when interactive */
 1.93     enami
 1.93     enami 	struct file *ktd_fp;		/* trace output file */
 1.93     enami 	struct proc *ktd_proc;		/* our kernel thread */
 1.93     enami 	TAILQ_HEAD(, ktrace_entry) ktd_queue;
 1.93     enami 	struct callout ktd_wakch;	/* delayed wakeup */
 1.93     enami 	struct simplelock ktd_slock;
 1.93     enami };
 1.93     enami
 1.98  christos static void	ktrinitheader(struct ktr_header *, struct lwp *, int);
 1.93     enami static void	ktrwrite(struct ktr_desc *, struct ktrace_entry *);
 1.93     enami static int	ktrace_common(struct proc *, int, int, int, struct file *);
 1.93     enami static int	ktrops(struct proc *, struct proc *, int, int,
 1.93     enami 		    struct ktr_desc *);
 1.93     enami static int	ktrsetchildren(struct proc *, struct proc *, int, int,
 1.93     enami 		    struct ktr_desc *);
 1.93     enami static int	ktrcanset(struct proc *, struct proc *);
 1.93     enami static int	ktrsamefile(struct file *, struct file *);
 1.93     enami
 1.93     enami static struct ktr_desc *
 1.93     enami 		ktd_lookup(struct file *);
 1.93     enami static void	ktdrel(struct ktr_desc *);
 1.93     enami static void	ktdref(struct ktr_desc *);
 1.98  christos static void	ktraddentry(struct lwp *, struct ktrace_entry *, int);
 1.93     enami /* Flags for ktraddentry (3rd arg) */
 1.93     enami #define	KTA_NOWAIT		0x0000
 1.93     enami #define	KTA_WAITOK		0x0001
 1.93     enami #define	KTA_LARGE		0x0002
 1.93     enami static void	ktefree(struct ktrace_entry *);
 1.93     enami static void	ktd_logerrl(struct ktr_desc *, int);
 1.93     enami static void	ktd_logerr(struct proc *, int);
 1.93     enami static void	ktrace_thread(void *);
 1.93     enami
 1.93     enami /*
 1.93     enami  * Default vaules.
 1.93     enami  */
 1.93     enami #define	KTD_MAXENTRY		1000	/* XXX: tune */
 1.93     enami #define	KTD_TIMEOUT		5	/* XXX: tune */
 1.93     enami #define	KTD_DELAYQCNT		100	/* XXX: tune */
 1.93     enami #define	KTD_WAKEDELAY		5000	/* XXX: tune */
 1.93     enami #define	KTD_INTRWAKDL		100	/* XXX: tune */
 1.93     enami
 1.93     enami /*
 1.93     enami  * Patchable variables.
 1.93     enami  */
 1.93     enami int ktd_maxentry = KTD_MAXENTRY;	/* max # of entry in the queue */
 1.93     enami int ktd_timeout = KTD_TIMEOUT;		/* timeout in seconds */
 1.93     enami int ktd_delayqcnt = KTD_DELAYQCNT;	/* # of entry allowed to delay */
 1.93     enami int ktd_wakedelay = KTD_WAKEDELAY;	/* delay of wakeup in *ms* */
 1.93     enami int ktd_intrwakdl = KTD_INTRWAKDL;	/* ditto, but when interactive */
 1.93     enami
 1.93     enami static struct simplelock ktdq_slock = SIMPLELOCK_INITIALIZER;
 1.93     enami static TAILQ_HEAD(, ktr_desc) ktdq = TAILQ_HEAD_INITIALIZER(ktdq);
 1.93     enami
 1.93     enami MALLOC_DEFINE(M_KTRACE, "ktrace", "ktrace data buffer");
 1.93     enami POOL_INIT(kte_pool, sizeof(struct ktrace_entry), 0, 0, 0,
 1.93     enami     "ktepl", &pool_allocator_nointr);
 1.93     enami
1.100     perry static inline void
 1.93     enami ktd_wakeup(struct ktr_desc *ktd)
 1.93     enami {
 1.93     enami
 1.93     enami 	callout_stop(&ktd->ktd_wakch);
 1.93     enami 	wakeup(ktd);
 1.93     enami }
 1.93     enami
 1.93     enami static void
 1.93     enami ktd_logerrl(struct ktr_desc *ktd, int error)
 1.93     enami {
 1.93     enami
 1.93     enami 	ktd->ktd_error |= error;
 1.93     enami 	ktd->ktd_errcnt++;
 1.93     enami }
 1.93     enami
 1.93     enami static void
 1.93     enami ktd_logerr(struct proc *p, int error)
 1.93     enami {
 1.93     enami 	struct ktr_desc *ktd = p->p_tracep;
 1.93     enami
 1.93     enami 	if (ktd == NULL)
 1.93     enami 		return;
 1.93     enami
 1.93     enami 	simple_lock(&ktd->ktd_slock);
 1.93     enami 	ktd_logerrl(ktd, error);
 1.93     enami 	simple_unlock(&ktd->ktd_slock);
 1.93     enami }
 1.93     enami
 1.93     enami /*
 1.93     enami  * Release a reference.  Called with ktd_slock held.
 1.93     enami  */
 1.93     enami void
 1.93     enami ktdrel(struct ktr_desc *ktd)
 1.93     enami {
 1.93     enami
 1.93     enami 	KDASSERT(ktd->ktd_ref != 0);
 1.93     enami 	KASSERT(ktd->ktd_ref > 0);
 1.93     enami 	if (--ktd->ktd_ref <= 0) {
 1.93     enami 		ktd->ktd_flags |= KTDF_DONE;
 1.93     enami 		wakeup(ktd);
 1.93     enami 	}
 1.93     enami 	simple_unlock(&ktd->ktd_slock);
 1.93     enami }
 1.93     enami
 1.93     enami void
 1.93     enami ktdref(struct ktr_desc *ktd)
 1.93     enami {
 1.93     enami
 1.93     enami 	simple_lock(&ktd->ktd_slock);
 1.93     enami 	ktd->ktd_ref++;
 1.93     enami 	simple_unlock(&ktd->ktd_slock);
 1.93     enami }
 1.93     enami
 1.93     enami struct ktr_desc *
 1.93     enami ktd_lookup(struct file *fp)
 1.93     enami {
 1.93     enami 	struct ktr_desc *ktd;
 1.93     enami
 1.93     enami 	simple_lock(&ktdq_slock);
 1.93     enami 	for (ktd = TAILQ_FIRST(&ktdq); ktd != NULL;
 1.93     enami 	    ktd = TAILQ_NEXT(ktd, ktd_list)) {
 1.93     enami 		simple_lock(&ktd->ktd_slock);
 1.93     enami 		if (ktrsamefile(ktd->ktd_fp, fp)) {
 1.93     enami 			ktd->ktd_ref++;
 1.93     enami 			simple_unlock(&ktd->ktd_slock);
 1.93     enami 			break;
 1.93     enami 		}
 1.93     enami 		simple_unlock(&ktd->ktd_slock);
 1.93     enami 	}
 1.93     enami 	simple_unlock(&ktdq_slock);
 1.93     enami 	return (ktd);
 1.93     enami }
 1.93     enami
 1.93     enami void
 1.98  christos ktraddentry(struct lwp *l, struct ktrace_entry *kte, int flags)
 1.93     enami {
 1.98  christos 	struct proc *p = l->l_proc;
 1.93     enami 	struct ktr_desc *ktd;
 1.93     enami #ifdef DEBUG
 1.93     enami 	struct timeval t;
 1.93     enami 	int s;
 1.93     enami #endif
 1.93     enami
 1.93     enami 	if (p->p_traceflag & KTRFAC_TRC_EMUL) {
 1.93     enami 		/* Add emulation trace before first entry for this process */
 1.93     enami 		p->p_traceflag &= ~KTRFAC_TRC_EMUL;
 1.98  christos 		ktremul(l);
 1.93     enami 	}
 1.93     enami
 1.93     enami 	/*
 1.93     enami 	 * Tracing may be canceled while we were sleeping waiting for
 1.93     enami 	 * memory.
 1.93     enami 	 */
 1.93     enami 	ktd = p->p_tracep;
 1.93     enami 	if (ktd == NULL)
 1.93     enami 		goto freekte;
 1.93     enami
 1.93     enami 	/*
 1.93     enami 	 * Bump reference count so that the object will remain while
 1.93     enami 	 * we are here.  Note that the trace is controlled by other
 1.93     enami 	 * process.
 1.93     enami 	 */
 1.93     enami 	ktdref(ktd);
 1.93     enami
 1.93     enami 	simple_lock(&ktd->ktd_slock);
 1.93     enami 	if (ktd->ktd_flags & KTDF_DONE)
 1.93     enami 		goto relktd;
 1.93     enami
 1.93     enami 	if (ktd->ktd_qcount > ktd_maxentry) {
 1.93     enami 		ktd_logerrl(ktd, KTDE_ENOSPC);
 1.93     enami 		goto relktd;
 1.93     enami 	}
 1.93     enami 	TAILQ_INSERT_TAIL(&ktd->ktd_queue, kte, kte_list);
 1.93     enami 	ktd->ktd_qcount++;
 1.93     enami 	if (ktd->ktd_flags & KTDF_BLOCKING)
 1.93     enami 		goto skip_sync;
 1.93     enami
 1.93     enami 	if (flags & KTA_WAITOK &&
 1.93     enami 	    (/* flags & KTA_LARGE */0 || ktd->ktd_flags & KTDF_WAIT ||
 1.93     enami 	    ktd->ktd_qcount > ktd_maxentry >> 1))
 1.93     enami 		/*
 1.93     enami 		 * Sync with writer thread since we're requesting rather
 1.93     enami 		 * big one or many requests are pending.
 1.93     enami 		 */
 1.93     enami 		do {
 1.93     enami 			ktd->ktd_flags |= KTDF_WAIT;
 1.93     enami 			ktd_wakeup(ktd);
 1.93     enami #ifdef DEBUG
 1.93     enami 			s = splclock();
 1.93     enami 			t = mono_time;
 1.93     enami 			splx(s);
 1.93     enami #endif
 1.93     enami 			if (ltsleep(&ktd->ktd_flags, PWAIT, "ktrsync",
 1.93     enami 			    ktd_timeout * hz, &ktd->ktd_slock) != 0) {
 1.93     enami 				ktd->ktd_flags |= KTDF_BLOCKING;
 1.93     enami 				/*
 1.93     enami 				 * Maybe the writer thread is blocking
 1.93     enami 				 * completely for some reason, but
 1.93     enami 				 * don't stop target process forever.
 1.93     enami 				 */
 1.93     enami 				log(LOG_NOTICE, "ktrace timeout\n");
 1.93     enami 				break;
 1.93     enami 			}
 1.93     enami #ifdef DEBUG
 1.93     enami 			s = splclock();
 1.93     enami 			timersub(&mono_time, &t, &t);
 1.93     enami 			splx(s);
 1.93     enami 			if (t.tv_sec > 0)
 1.93     enami 				log(LOG_NOTICE,
 1.93     enami 				    "ktrace long wait: %ld.%06ld\n",
 1.93     enami 				    t.tv_sec, t.tv_usec);
 1.93     enami #endif
 1.93     enami 		} while (p->p_tracep == ktd &&
 1.93     enami 		    (ktd->ktd_flags & (KTDF_WAIT | KTDF_DONE)) == KTDF_WAIT);
 1.93     enami 	else {
 1.93     enami 		/* Schedule delayed wakeup */
 1.93     enami 		if (ktd->ktd_qcount > ktd->ktd_delayqcnt)
 1.93     enami 			ktd_wakeup(ktd);	/* Wakeup now */
 1.93     enami 		else if (!callout_pending(&ktd->ktd_wakch))
 1.93     enami 			callout_reset(&ktd->ktd_wakch,
 1.93     enami 			    ktd->ktd_flags & KTDF_INTERACTIVE ?
 1.93     enami 			    ktd->ktd_intrwakdl : ktd->ktd_wakedelay,
 1.93     enami 			    (void (*)(void *))wakeup, ktd);
 1.93     enami 	}
 1.93     enami
 1.93     enami skip_sync:
 1.93     enami 	ktdrel(ktd);
 1.93     enami 	return;
 1.93     enami
 1.93     enami relktd:
 1.93     enami 	ktdrel(ktd);
 1.93     enami
 1.93     enami freekte:
 1.93     enami 	ktefree(kte);
 1.93     enami }
 1.93     enami
 1.93     enami void
 1.93     enami ktefree(struct ktrace_entry *kte)
 1.93     enami {
 1.93     enami
 1.98  christos 	if (kte->kte_buf != NULL)
 1.93     enami 		free(kte->kte_buf, M_KTRACE);
 1.93     enami 	pool_put(&kte_pool, kte);
 1.93     enami }
 1.44  sommerfe
 1.44  sommerfe /*
 1.44  sommerfe  * "deep" compare of two files for the purposes of clearing a trace.
 1.44  sommerfe  * Returns true if they're the same open file, or if they point at the
 1.44  sommerfe  * same underlying vnode/socket.
 1.44  sommerfe  */
 1.44  sommerfe
 1.44  sommerfe int
 1.89     enami ktrsamefile(struct file *f1, struct file *f2)
 1.44  sommerfe {
 1.88     enami
 1.44  sommerfe 	return ((f1 == f2) ||
 1.45  sommerfe 	    ((f1 != NULL) && (f2 != NULL) &&
 1.45  sommerfe 		(f1->f_type == f2->f_type) &&
 1.44  sommerfe 		(f1->f_data == f2->f_data)));
 1.44  sommerfe }
 1.22  christos
 1.28  christos void
 1.89     enami ktrderef(struct proc *p)
 1.28  christos {
 1.93     enami 	struct ktr_desc *ktd = p->p_tracep;
 1.93     enami
 1.42  sommerfe 	p->p_traceflag = 0;
 1.93     enami 	if (ktd == NULL)
 1.28  christos 		return;
 1.84       dsl 	p->p_tracep = NULL;
 1.84       dsl
 1.93     enami 	simple_lock(&ktd->ktd_slock);
 1.93     enami 	wakeup(&ktd->ktd_flags);
 1.93     enami 	ktdrel(ktd);
 1.28  christos }
 1.28  christos
 1.28  christos void
 1.89     enami ktradref(struct proc *p)
 1.28  christos {
 1.93     enami 	struct ktr_desc *ktd = p->p_tracep;
 1.28  christos
 1.93     enami 	ktdref(ktd);
 1.28  christos }
 1.28  christos
 1.39   thorpej void
 1.98  christos ktrinitheader(struct ktr_header *kth, struct lwp *l, int type)
  1.1       cgd {
 1.98  christos 	struct proc *p = l->l_proc;
  1.1       cgd
 1.90  christos 	(void)memset(kth, 0, sizeof(*kth));
  1.1       cgd 	kth->ktr_type = type;
  1.1       cgd 	kth->ktr_pid = p->p_pid;
 1.32     perry 	memcpy(kth->ktr_comm, p->p_comm, MAXCOMLEN);
 1.98  christos
 1.98  christos 	kth->ktr_version = KTRFAC_VERSION(p->p_traceflag);
 1.98  christos
 1.98  christos 	switch (KTRFAC_VERSION(p->p_traceflag)) {
 1.98  christos 	case 0:
 1.98  christos 		/* This is the original format */
 1.98  christos 		microtime(&kth->ktr_tv);
 1.98  christos 		break;
 1.98  christos 	case 1:
 1.98  christos 		kth->ktr_lid = l->l_lid;
 1.98  christos 		nanotime(&kth->ktr_time);
 1.98  christos 		break;
 1.98  christos 	default:
 1.98  christos 		break;
 1.98  christos 	}
  1.1       cgd }
  1.1       cgd
 1.93     enami void
 1.98  christos ktrsyscall(struct lwp *l, register_t code, register_t realcode,
 1.89     enami     const struct sysent *callp, register_t args[])
  1.1       cgd {
 1.98  christos 	struct proc *p = l->l_proc;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	struct ktr_header *kth;
 1.72   darrenr 	struct ktr_syscall *ktp;
 1.17       cgd 	register_t *argp;
 1.93     enami 	int argsize;
 1.57      fvdl 	size_t len;
 1.60   thorpej 	u_int i;
 1.57      fvdl
 1.66      manu 	if (callp == NULL)
 1.66      manu 		callp = p->p_emul->e_sysent;
 1.88     enami
 1.76  drochner 	argsize = callp[code].sy_argsize;
 1.86       mrg #ifdef _LP64
 1.86       mrg 	if (p->p_flag & P_32)
 1.86       mrg 		argsize = argsize << 1;
 1.86       mrg #endif
 1.57      fvdl 	len = sizeof(struct ktr_syscall) + argsize;
  1.1       cgd
  1.9       cgd 	p->p_traceflag |= KTRFAC_ACTIVE;
 1.93     enami 	kte = pool_get(&kte_pool, PR_WAITOK);
 1.93     enami 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, KTR_SYSCALL);
 1.93     enami
 1.93     enami 	ktp = malloc(len, M_KTRACE, M_WAITOK);
 1.61      manu 	ktp->ktr_code = realcode;
 1.17       cgd 	ktp->ktr_argsize = argsize;
 1.93     enami 	argp = (register_t *)(ktp + 1);
 1.31     perry 	for (i = 0; i < (argsize / sizeof(*argp)); i++)
  1.1       cgd 		*argp++ = args[i];
 1.93     enami 	kth->ktr_len = len;
 1.93     enami 	kte->kte_buf = ktp;
 1.93     enami
 1.98  christos 	ktraddentry(l, kte, KTA_WAITOK);
  1.9       cgd 	p->p_traceflag &= ~KTRFAC_ACTIVE;
  1.1       cgd }
  1.1       cgd
 1.93     enami void
 1.98  christos ktrsysret(struct lwp *l, register_t code, int error, register_t *retval)
  1.1       cgd {
 1.98  christos 	struct proc *p = l->l_proc;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	struct ktr_header *kth;
 1.93     enami 	struct ktr_sysret *ktp;
  1.1       cgd
  1.9       cgd 	p->p_traceflag |= KTRFAC_ACTIVE;
 1.93     enami 	kte = pool_get(&kte_pool, PR_WAITOK);
 1.93     enami 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, KTR_SYSRET);
 1.93     enami
 1.93     enami 	ktp = malloc(sizeof(struct ktr_sysret), M_KTRACE, M_WAITOK);
 1.93     enami 	ktp->ktr_code = code;
 1.93     enami 	ktp->ktr_eosys = 0;			/* XXX unused */
 1.93     enami 	ktp->ktr_error = error;
 1.93     enami 	ktp->ktr_retval = retval ? retval[0] : 0;
 1.93     enami 	ktp->ktr_retval_1 = retval ? retval[1] : 0;
  1.1       cgd
 1.93     enami 	kth->ktr_len = sizeof(struct ktr_sysret);
 1.93     enami 	kte->kte_buf = ktp;
  1.1       cgd
 1.98  christos 	ktraddentry(l, kte, KTA_WAITOK);
  1.9       cgd 	p->p_traceflag &= ~KTRFAC_ACTIVE;
  1.1       cgd }
  1.1       cgd
 1.93     enami /*
 1.93     enami  * XXX: ndp->ni_pathlen should be passed.
 1.93     enami  */
 1.93     enami void
 1.98  christos ktrnamei(struct lwp *l, char *path)
  1.1       cgd {
  1.1       cgd
 1.98  christos 	ktrkmem(l, KTR_NAMEI, path, strlen(path));
 1.18  christos }
 1.18  christos
 1.93     enami void
 1.98  christos ktremul(struct lwp *l)
 1.18  christos {
 1.98  christos 	const char *emul = l->l_proc->p_emul->e_name;
  1.1       cgd
 1.98  christos 	ktrkmem(l, KTR_EMUL, emul, strlen(emul));
  1.1       cgd }
  1.1       cgd
 1.93     enami void
 1.98  christos ktrkmem(struct lwp *l, int type, const void *bf, size_t len)
 1.75       dsl {
 1.98  christos  	struct proc *p = l->l_proc;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	struct ktr_header *kth;
 1.75       dsl
 1.75       dsl 	p->p_traceflag |= KTRFAC_ACTIVE;
 1.93     enami 	kte = pool_get(&kte_pool, PR_WAITOK);
 1.93     enami 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, type);
 1.93     enami
 1.93     enami 	kth->ktr_len = len;
 1.93     enami 	kte->kte_buf = malloc(len, M_KTRACE, M_WAITOK);
 1.97  christos 	memcpy(kte->kte_buf, bf, len);
 1.75       dsl
 1.98  christos 	ktraddentry(l, kte, KTA_WAITOK);
 1.75       dsl 	p->p_traceflag &= ~KTRFAC_ACTIVE;
 1.75       dsl }
 1.75       dsl
 1.93     enami void
 1.98  christos ktrgenio(struct lwp *l, int fd, enum uio_rw rw, struct iovec *iov,
 1.89     enami     int len, int error)
  1.1       cgd {
 1.98  christos 	struct proc *p = l->l_proc;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	struct ktr_header *kth;
 1.28  christos 	struct ktr_genio *ktp;
 1.98  christos 	int resid = len, cnt;
 1.74      fvdl 	caddr_t cp;
 1.39   thorpej 	int buflen;
 1.39   thorpej
  1.1       cgd 	if (error)
 1.93     enami 		return;
 1.39   thorpej
  1.9       cgd 	p->p_traceflag |= KTRFAC_ACTIVE;
 1.39   thorpej
 1.93     enami next:
 1.93     enami 	buflen = min(PAGE_SIZE, resid + sizeof(struct ktr_genio));
 1.39   thorpej
 1.93     enami 	kte = pool_get(&kte_pool, PR_WAITOK);
 1.93     enami 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, KTR_GENIO);
 1.93     enami
 1.93     enami 	ktp = malloc(buflen, M_KTRACE, M_WAITOK);
  1.1       cgd 	ktp->ktr_fd = fd;
  1.1       cgd 	ktp->ktr_rw = rw;
 1.39   thorpej
 1.93     enami 	kte->kte_buf = ktp;
 1.39   thorpej
 1.93     enami 	cp = (caddr_t)(ktp + 1);
 1.39   thorpej 	buflen -= sizeof(struct ktr_genio);
 1.93     enami 	kth->ktr_len = sizeof(struct ktr_genio);
 1.93     enami
 1.93     enami 	while (buflen > 0) {
 1.93     enami 		cnt = min(iov->iov_len, buflen);
 1.93     enami 		if (copyin(iov->iov_base, cp, cnt) != 0)
 1.93     enami 			goto out;
 1.93     enami 		kth->ktr_len += cnt;
 1.93     enami 		buflen -= cnt;
 1.93     enami 		resid -= cnt;
 1.93     enami 		iov->iov_len -= cnt;
 1.93     enami 		if (iov->iov_len == 0)
 1.93     enami 			iov++;
 1.93     enami 		else
 1.93     enami 			iov->iov_base = (caddr_t)iov->iov_base + cnt;
 1.93     enami 	}
 1.39   thorpej
 1.93     enami 	/*
 1.93     enami 	 * Don't push so many entry at once.  It will cause kmem map
 1.93     enami 	 * shortage.
 1.93     enami 	 */
 1.98  christos 	ktraddentry(l, kte, KTA_WAITOK | KTA_LARGE);
 1.93     enami 	if (resid > 0) {
 1.67   thorpej #if 0 /* XXX NJWLWP */
 1.46   thorpej 		KDASSERT(p->p_cpu != NULL);
 1.46   thorpej 		KDASSERT(p->p_cpu == curcpu());
 1.67   thorpej #endif
 1.67   thorpej 		/* XXX NJWLWP */
 1.67   thorpej 		if (curcpu()->ci_schedstate.spc_flags & SPCF_SHOULDYIELD)
 1.67   thorpej 			preempt(1);
 1.39   thorpej
 1.93     enami 		goto next;
 1.93     enami 	}
 1.39   thorpej
 1.93     enami 	p->p_traceflag &= ~KTRFAC_ACTIVE;
 1.93     enami 	return;
 1.39   thorpej
 1.93     enami out:
 1.93     enami 	ktefree(kte);
  1.9       cgd 	p->p_traceflag &= ~KTRFAC_ACTIVE;
  1.1       cgd }
  1.1       cgd
 1.93     enami void
 1.98  christos ktrpsig(struct lwp *l, int sig, sig_t action, const sigset_t *mask,
 1.89     enami     const ksiginfo_t *ksi)
  1.1       cgd {
 1.98  christos 	struct proc *p = l->l_proc;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	struct ktr_header *kth;
 1.78  christos 	struct {
 1.78  christos 		struct ktr_psig	kp;
 1.78  christos 		siginfo_t	si;
 1.93     enami 	} *kbuf;
  1.1       cgd
  1.9       cgd 	p->p_traceflag |= KTRFAC_ACTIVE;
 1.93     enami 	kte = pool_get(&kte_pool, PR_WAITOK);
 1.93     enami 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, KTR_PSIG);
 1.93     enami
 1.93     enami 	kbuf = malloc(sizeof(*kbuf), M_KTRACE, M_WAITOK);
 1.93     enami 	kbuf->kp.signo = (char)sig;
 1.93     enami 	kbuf->kp.action = action;
 1.93     enami 	kbuf->kp.mask = *mask;
 1.93     enami 	kte->kte_buf = kbuf;
 1.78  christos 	if (ksi) {
 1.93     enami 		kbuf->kp.code = KSI_TRAPCODE(ksi);
 1.93     enami 		(void)memset(&kbuf->si, 0, sizeof(kbuf->si));
 1.93     enami 		kbuf->si._info = ksi->ksi_info;
 1.95     skrll 		kth->ktr_len = sizeof(*kbuf);
 1.78  christos 	} else {
 1.93     enami 		kbuf->kp.code = 0;
 1.93     enami 		kth->ktr_len = sizeof(struct ktr_psig);
 1.78  christos 	}
 1.93     enami
 1.98  christos 	ktraddentry(l, kte, KTA_WAITOK);
  1.9       cgd 	p->p_traceflag &= ~KTRFAC_ACTIVE;
  1.9       cgd }
  1.9       cgd
 1.93     enami void
 1.98  christos ktrcsw(struct lwp *l, int out, int user)
  1.9       cgd {
 1.98  christos 	struct proc *p = l->l_proc;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	struct ktr_header *kth;
 1.93     enami 	struct ktr_csw *kc;
  1.9       cgd
  1.9       cgd 	p->p_traceflag |= KTRFAC_ACTIVE;
  1.9       cgd
 1.93     enami 	/*
 1.93     enami 	 * We can't sleep if we're already going to sleep (if original
 1.93     enami 	 * condition is met during sleep, we hang up).
 1.93     enami 	 */
 1.93     enami 	kte = pool_get(&kte_pool, out ? PR_NOWAIT : PR_WAITOK);
 1.93     enami 	if (kte == NULL) {
 1.93     enami 		ktd_logerr(p, KTDE_ENOMEM);
 1.93     enami 		goto out;
 1.93     enami 	}
 1.93     enami 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, KTR_CSW);
 1.93     enami
 1.93     enami 	kc = malloc(sizeof(struct ktr_csw), M_KTRACE,
 1.93     enami 	    out ? M_NOWAIT : M_WAITOK);
 1.93     enami 	if (kc == NULL) {
 1.93     enami 		ktd_logerr(p, KTDE_ENOMEM);
 1.93     enami 		goto free_kte;
 1.93     enami 	}
 1.93     enami 	kc->out = out;
 1.93     enami 	kc->user = user;
 1.93     enami 	kth->ktr_len = sizeof(struct ktr_csw);
 1.93     enami 	kte->kte_buf = kc;
 1.93     enami
 1.98  christos 	ktraddentry(l, kte, out ? KTA_NOWAIT : KTA_WAITOK);
 1.93     enami 	p->p_traceflag &= ~KTRFAC_ACTIVE;
 1.93     enami 	return;
 1.93     enami
 1.93     enami free_kte:
 1.93     enami 	pool_put(&kte_pool, kte);
 1.93     enami out:
  1.9       cgd 	p->p_traceflag &= ~KTRFAC_ACTIVE;
  1.1       cgd }
  1.1       cgd
 1.93     enami void
 1.98  christos ktruser(struct lwp *l, const char *id, void *addr, size_t len, int ustr)
 1.51  jdolecek {
 1.98  christos 	struct proc *p = l->l_proc;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	struct ktr_header *kth;
 1.51  jdolecek 	struct ktr_user *ktp;
 1.51  jdolecek 	caddr_t user_dta;
 1.51  jdolecek
 1.51  jdolecek 	p->p_traceflag |= KTRFAC_ACTIVE;
 1.93     enami 	kte = pool_get(&kte_pool, PR_WAITOK);
 1.93     enami 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, KTR_USER);
 1.93     enami
 1.93     enami 	ktp = malloc(sizeof(struct ktr_user) + len, M_KTRACE, M_WAITOK);
 1.51  jdolecek 	if (ustr) {
 1.51  jdolecek 		if (copyinstr(id, ktp->ktr_id, KTR_USER_MAXIDLEN, NULL) != 0)
 1.51  jdolecek 			ktp->ktr_id[0] = '\0';
 1.51  jdolecek 	} else
 1.51  jdolecek 		strncpy(ktp->ktr_id, id, KTR_USER_MAXIDLEN);
 1.51  jdolecek 	ktp->ktr_id[KTR_USER_MAXIDLEN-1] = '\0';
 1.51  jdolecek
 1.93     enami 	user_dta = (caddr_t)(ktp + 1);
 1.93     enami 	if (copyin(addr, (void *)user_dta, len) != 0)
 1.51  jdolecek 		len = 0;
 1.51  jdolecek
 1.93     enami 	kth->ktr_len = sizeof(struct ktr_user) + len;
 1.93     enami 	kte->kte_buf = ktp;
 1.51  jdolecek
 1.98  christos 	ktraddentry(l, kte, KTA_WAITOK);
 1.51  jdolecek 	p->p_traceflag &= ~KTRFAC_ACTIVE;
 1.51  jdolecek }
 1.51  jdolecek
 1.93     enami void
 1.98  christos ktrmmsg(struct lwp *l, const void *msgh, size_t size)
 1.62      manu {
 1.98  christos 	ktrkmem(l, KTR_MMSG, msgh, size);
 1.62      manu }
 1.83      manu
 1.93     enami void
 1.98  christos ktrmool(struct lwp *l, const void *kaddr, size_t size, const void *uaddr)
 1.83      manu {
 1.98  christos 	struct proc *p = l->l_proc;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	struct ktr_header *kth;
 1.83      manu 	struct ktr_mool *kp;
 1.97  christos 	struct ktr_mool *bf;
 1.83      manu
 1.83      manu 	p->p_traceflag |= KTRFAC_ACTIVE;
 1.93     enami 	kte = pool_get(&kte_pool, PR_WAITOK);
 1.93     enami 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, KTR_MOOL);
 1.83      manu
 1.93     enami 	kp = malloc(size + sizeof(*kp), M_KTRACE, M_WAITOK);
 1.83      manu 	kp->uaddr = uaddr;
 1.83      manu 	kp->size = size;
 1.97  christos 	bf = kp + 1; /* Skip uaddr and size */
 1.97  christos 	(void)memcpy(bf, kaddr, size);
 1.88     enami
 1.93     enami 	kth->ktr_len = size + sizeof(*kp);
 1.93     enami 	kte->kte_buf = kp;
 1.83      manu
 1.98  christos 	ktraddentry(l, kte, KTA_WAITOK);
 1.83      manu 	p->p_traceflag &= ~KTRFAC_ACTIVE;
 1.83      manu }
 1.83      manu
 1.98  christos void
 1.98  christos ktrsaupcall(struct lwp *l, int type, int nevent, int nint, void *sas,
 1.98  christos     void *ap)
 1.98  christos {
 1.98  christos 	struct proc *p = l->l_proc;
 1.98  christos 	struct ktrace_entry *kte;
 1.98  christos 	struct ktr_header *kth;
 1.98  christos 	struct ktr_saupcall *ktp;
 1.98  christos 	size_t len;
 1.98  christos 	struct sa_t **sapp;
 1.98  christos 	int i;
 1.98  christos
 1.98  christos 	p->p_traceflag |= KTRFAC_ACTIVE;
 1.98  christos 	kte = pool_get(&kte_pool, PR_WAITOK);
 1.98  christos 	kth = &kte->kte_kth;
 1.98  christos 	ktrinitheader(kth, l, KTR_SAUPCALL);
 1.98  christos
 1.98  christos 	len = sizeof(struct ktr_saupcall);
 1.98  christos 	ktp = malloc(len + sizeof(struct sa_t) * (nevent + nint + 1), M_KTRACE,
 1.98  christos 	    M_WAITOK);
 1.98  christos
 1.98  christos 	ktp->ktr_type = type;
 1.98  christos 	ktp->ktr_nevent = nevent;
 1.98  christos 	ktp->ktr_nint = nint;
 1.98  christos 	ktp->ktr_sas = sas;
 1.98  christos 	ktp->ktr_ap = ap;
 1.98  christos 	/*
 1.98  christos 	 *  Copy the sa_t's
 1.98  christos 	 */
 1.98  christos 	sapp = (struct sa_t **) sas;
 1.98  christos
 1.98  christos 	for (i = nevent + nint; i >= 0; i--) {
 1.98  christos 		if (copyin(*sapp, (char *)ktp + len, sizeof(struct sa_t)) == 0)
 1.98  christos 			len += sizeof(struct sa_t);
 1.98  christos 		sapp++;
 1.98  christos 	}
 1.98  christos
 1.98  christos 	kth->ktr_len = len;
 1.98  christos 	kte->kte_buf = ktp;
 1.98  christos
 1.98  christos 	ktraddentry(l, kte, KTA_WAITOK);
 1.98  christos 	p->p_traceflag &= ~KTRFAC_ACTIVE;
 1.98  christos }
 1.62      manu
  1.1       cgd /* Interface and common routines */
  1.1       cgd
 1.17       cgd int
 1.89     enami ktrace_common(struct proc *curp, int ops, int facs, int pid, struct file *fp)
 1.28  christos {
 1.93     enami 	struct proc *p;
 1.93     enami 	struct pgrp *pg;
 1.93     enami 	struct ktr_desc *ktd = NULL;
 1.74      fvdl 	int ret = 0;
 1.72   darrenr 	int error = 0;
 1.42  sommerfe 	int descend;
 1.28  christos
 1.28  christos 	curp->p_traceflag |= KTRFAC_ACTIVE;
 1.42  sommerfe 	descend = ops & KTRFLAG_DESCEND;
 1.42  sommerfe 	facs = facs & ~((unsigned) KTRFAC_ROOT);
 1.28  christos
 1.93     enami 	switch (KTROP(ops)) {
 1.93     enami
 1.93     enami 	case KTROP_CLEARFILE:
 1.93     enami 		/*
 1.93     enami 		 * Clear all uses of the tracefile
 1.93     enami 		 */
 1.93     enami
 1.93     enami 		ktd = ktd_lookup(fp);
 1.93     enami 		if (ktd == NULL)
 1.93     enami 			goto done;
 1.93     enami
 1.37   thorpej 		proclist_lock_read();
 1.94      yamt 		PROCLIST_FOREACH(p, &allproc) {
 1.93     enami 			if (p->p_tracep == ktd) {
 1.28  christos 				if (ktrcanset(curp, p))
 1.28  christos 					ktrderef(p);
 1.28  christos 				else
 1.28  christos 					error = EPERM;
 1.28  christos 			}
 1.28  christos 		}
 1.36   thorpej 		proclist_unlock_read();
 1.28  christos 		goto done;
 1.42  sommerfe
 1.93     enami 	case KTROP_SET:
 1.93     enami 		ktd = ktd_lookup(fp);
 1.93     enami 		if (ktd == NULL) {
 1.93     enami 			ktd = malloc(sizeof(struct ktr_desc),
 1.93     enami 			    M_KTRACE, M_WAITOK);
 1.93     enami 			TAILQ_INIT(&ktd->ktd_queue);
 1.93     enami 			simple_lock_init(&ktd->ktd_slock);
 1.93     enami 			callout_init(&ktd->ktd_wakch);
 1.93     enami 			ktd->ktd_flags = ktd->ktd_qcount =
 1.93     enami 			    ktd->ktd_error = ktd->ktd_errcnt = 0;
 1.93     enami 			ktd->ktd_ref = 1;
 1.93     enami 			ktd->ktd_delayqcnt = ktd_delayqcnt;
 1.93     enami 			ktd->ktd_wakedelay = mstohz(ktd_wakedelay);
 1.93     enami 			ktd->ktd_intrwakdl = mstohz(ktd_intrwakdl);
 1.93     enami 			/*
 1.93     enami 			 * XXX: not correct.  needs an way to detect
 1.93     enami 			 * whether ktruss or ktrace.
 1.93     enami 			 */
 1.93     enami 			if (fp->f_type == DTYPE_PIPE)
 1.93     enami 				ktd->ktd_flags |= KTDF_INTERACTIVE;
 1.93     enami
 1.93     enami 			error = kthread_create1(ktrace_thread, ktd,
 1.93     enami 			    &ktd->ktd_proc, "ktr %p", ktd);
 1.93     enami 			if (error != 0) {
 1.93     enami 				free(ktd, M_KTRACE);
 1.93     enami 				goto done;
 1.93     enami 			}
 1.93     enami
 1.93     enami 			simple_lock(&fp->f_slock);
 1.93     enami 			fp->f_count++;
 1.93     enami 			simple_unlock(&fp->f_slock);
 1.93     enami 			ktd->ktd_fp = fp;
 1.93     enami
 1.93     enami 			simple_lock(&ktdq_slock);
 1.93     enami 			TAILQ_INSERT_TAIL(&ktdq, ktd, ktd_list);
 1.93     enami 			simple_unlock(&ktdq_slock);
 1.93     enami 		}
 1.93     enami 		break;
 1.42  sommerfe
 1.93     enami 	case KTROP_CLEAR:
 1.93     enami 		break;
 1.43  sommerfe 	}
 1.88     enami
 1.28  christos 	/*
 1.28  christos 	 * need something to (un)trace (XXX - why is this here?)
 1.28  christos 	 */
 1.28  christos 	if (!facs) {
 1.28  christos 		error = EINVAL;
 1.28  christos 		goto done;
 1.28  christos 	}
 1.93     enami
 1.88     enami 	/*
 1.28  christos 	 * do it
 1.28  christos 	 */
 1.42  sommerfe 	if (pid < 0) {
 1.28  christos 		/*
 1.28  christos 		 * by process group
 1.28  christos 		 */
 1.82       dsl 		pg = pg_find(-pid, PFIND_UNLOCK_FAIL);
 1.28  christos 		if (pg == NULL) {
 1.28  christos 			error = ESRCH;
 1.28  christos 			goto done;
 1.28  christos 		}
 1.81  jdolecek 		LIST_FOREACH(p, &pg->pg_members, p_pglist) {
 1.28  christos 			if (descend)
 1.93     enami 				ret |= ktrsetchildren(curp, p, ops, facs, ktd);
 1.88     enami 			else
 1.93     enami 				ret |= ktrops(curp, p, ops, facs, ktd);
 1.39   thorpej 		}
 1.88     enami
 1.28  christos 	} else {
 1.28  christos 		/*
 1.28  christos 		 * by pid
 1.28  christos 		 */
 1.82       dsl 		p = p_find(pid, PFIND_UNLOCK_FAIL);
 1.28  christos 		if (p == NULL) {
 1.28  christos 			error = ESRCH;
 1.28  christos 			goto done;
 1.28  christos 		}
 1.28  christos 		if (descend)
 1.93     enami 			ret |= ktrsetchildren(curp, p, ops, facs, ktd);
 1.28  christos 		else
 1.93     enami 			ret |= ktrops(curp, p, ops, facs, ktd);
 1.28  christos 	}
 1.82       dsl 	proclist_unlock_read();	/* taken by p{g}_find */
 1.28  christos 	if (!ret)
 1.28  christos 		error = EPERM;
 1.28  christos done:
 1.96  christos 	if (ktd != NULL) {
 1.96  christos 		if (error != 0) {
 1.96  christos 			/*
 1.96  christos 			 * Wakeup the thread so that it can be die if we
 1.96  christos 			 * can't trace any process.
 1.96  christos 			 */
 1.96  christos 			ktd_wakeup(ktd);
 1.96  christos 		}
 1.96  christos 		if (KTROP(ops) == KTROP_SET || KTROP(ops) == KTROP_CLEARFILE) {
 1.96  christos 			    simple_lock(&ktd->ktd_slock);
 1.96  christos 			    ktdrel(ktd);
 1.96  christos 		}
 1.93     enami 	}
 1.28  christos 	curp->p_traceflag &= ~KTRFAC_ACTIVE;
 1.28  christos 	return (error);
 1.28  christos }
 1.28  christos
 1.28  christos /*
 1.93     enami  * fktrace system call
 1.28  christos  */
 1.28  christos /* ARGSUSED */
 1.28  christos int
 1.89     enami sys_fktrace(struct lwp *l, void *v, register_t *retval)
 1.42  sommerfe {
 1.42  sommerfe 	struct sys_fktrace_args /* {
 1.42  sommerfe 		syscallarg(int) fd;
 1.42  sommerfe 		syscallarg(int) ops;
 1.42  sommerfe 		syscallarg(int) facs;
 1.42  sommerfe 		syscallarg(int) pid;
 1.42  sommerfe 	} */ *uap = v;
 1.98  christos 	struct proc *curp;
 1.42  sommerfe 	struct file *fp = NULL;
 1.98  christos 	struct filedesc *fdp = l->l_proc->p_fd;
 1.70      yamt 	int error;
 1.42  sommerfe
 1.98  christos 	curp = l->l_proc;
 1.98  christos 	fdp = curp->p_fd;
 1.54   thorpej 	if ((fp = fd_getfile(fdp, SCARG(uap, fd))) == NULL)
 1.54   thorpej 		return (EBADF);
 1.54   thorpej
 1.70      yamt 	FILE_USE(fp);
 1.70      yamt
 1.54   thorpej 	if ((fp->f_flag & FWRITE) == 0)
 1.70      yamt 		error = EBADF;
 1.70      yamt 	else
 1.74      fvdl 		error = ktrace_common(curp, SCARG(uap, ops),
 1.70      yamt 		    SCARG(uap, facs), SCARG(uap, pid), fp);
 1.70      yamt
 1.98  christos 	FILE_UNUSE(fp, l);
 1.42  sommerfe
 1.70      yamt 	return error;
 1.42  sommerfe }
 1.42  sommerfe
 1.42  sommerfe /*
 1.42  sommerfe  * ktrace system call
 1.42  sommerfe  */
 1.42  sommerfe /* ARGSUSED */
 1.42  sommerfe int
 1.89     enami sys_ktrace(struct lwp *l, void *v, register_t *retval)
 1.19   thorpej {
 1.28  christos 	struct sys_ktrace_args /* {
 1.24   mycroft 		syscallarg(const char *) fname;
 1.13       cgd 		syscallarg(int) ops;
 1.13       cgd 		syscallarg(int) facs;
 1.13       cgd 		syscallarg(int) pid;
 1.19   thorpej 	} */ *uap = v;
 1.67   thorpej 	struct proc *curp = l->l_proc;
 1.28  christos 	struct vnode *vp = NULL;
 1.42  sommerfe 	struct file *fp = NULL;
 1.42  sommerfe 	int ops = SCARG(uap, ops);
 1.98  christos 	struct nameidata nd;
 1.74      fvdl 	int error = 0;
 1.98  christos 	int fd;
  1.1       cgd
 1.42  sommerfe 	ops = KTROP(ops) | (ops & KTRFLAG_DESCEND);
 1.42  sommerfe
  1.9       cgd 	curp->p_traceflag |= KTRFAC_ACTIVE;
 1.69  christos 	if ((ops & KTROP_CLEAR) == 0) {
  1.1       cgd 		/*
  1.1       cgd 		 * an operation which requires a file argument.
  1.1       cgd 		 */
 1.13       cgd 		NDINIT(&nd, LOOKUP, FOLLOW, UIO_USERSPACE, SCARG(uap, fname),
 1.98  christos 		    l);
 1.22  christos 		if ((error = vn_open(&nd, FREAD|FWRITE, 0)) != 0) {
  1.9       cgd 			curp->p_traceflag &= ~KTRFAC_ACTIVE;
  1.1       cgd 			return (error);
  1.9       cgd 		}
  1.1       cgd 		vp = nd.ni_vp;
 1.25      fvdl 		VOP_UNLOCK(vp, 0);
  1.1       cgd 		if (vp->v_type != VREG) {
 1.98  christos 			(void) vn_close(vp, FREAD|FWRITE, curp->p_ucred, l);
  1.9       cgd 			curp->p_traceflag &= ~KTRFAC_ACTIVE;
  1.1       cgd 			return (EACCES);
  1.1       cgd 		}
  1.1       cgd 		/*
 1.42  sommerfe 		 * XXX This uses up a file descriptor slot in the
 1.42  sommerfe 		 * tracing process for the duration of this syscall.
 1.42  sommerfe 		 * This is not expected to be a problem.  If
 1.42  sommerfe 		 * falloc(NULL, ...) DTRT we could skip that part, but
 1.42  sommerfe 		 * that would require changing its interface to allow
 1.42  sommerfe 		 * the caller to pass in a ucred..
 1.42  sommerfe 		 *
 1.88     enami 		 * This will FILE_USE the fp it returns, if any.
 1.42  sommerfe 		 * Keep it in use until we return.
  1.1       cgd 		 */
 1.42  sommerfe 		if ((error = falloc(curp, &fp, &fd)) != 0)
  1.1       cgd 			goto done;
 1.88     enami
 1.93     enami 		fp->f_flag = FWRITE;
 1.42  sommerfe 		fp->f_type = DTYPE_VNODE;
 1.42  sommerfe 		fp->f_ops = &vnops;
 1.42  sommerfe 		fp->f_data = (caddr_t)vp;
 1.54   thorpej 		FILE_SET_MATURE(fp);
 1.42  sommerfe 		vp = NULL;
 1.42  sommerfe 	}
 1.74      fvdl 	error = ktrace_common(curp, SCARG(uap, ops), SCARG(uap, facs),
 1.42  sommerfe 	    SCARG(uap, pid), fp);
 1.88     enami done:
  1.1       cgd 	if (vp != NULL)
 1.98  christos 		(void) vn_close(vp, FWRITE, curp->p_ucred, l);
 1.42  sommerfe 	if (fp != NULL) {
 1.98  christos 		FILE_UNUSE(fp, l);	/* release file */
 1.98  christos 		fdrelease(l, fd); 	/* release fd table slot */
 1.42  sommerfe 	}
  1.1       cgd 	return (error);
  1.1       cgd }
  1.1       cgd
  1.4    andrew int
 1.89     enami ktrops(struct proc *curp, struct proc *p, int ops, int facs,
 1.93     enami     struct ktr_desc *ktd)
  1.1       cgd {
  1.1       cgd
 1.98  christos 	int vers = ops & KTRFAC_VER_MASK;
 1.98  christos
  1.1       cgd 	if (!ktrcanset(curp, p))
  1.1       cgd 		return (0);
 1.98  christos
 1.98  christos 	switch (vers) {
 1.98  christos 	case KTRFACv0:
 1.98  christos 	case KTRFACv1:
 1.98  christos 		break;
 1.98  christos 	default:
 1.98  christos 		return EINVAL;
 1.98  christos 	}
 1.98  christos
 1.28  christos 	if (KTROP(ops) == KTROP_SET) {
 1.93     enami 		if (p->p_tracep != ktd) {
  1.1       cgd 			/*
  1.1       cgd 			 * if trace file already in use, relinquish
  1.1       cgd 			 */
 1.28  christos 			ktrderef(p);
 1.93     enami 			p->p_tracep = ktd;
 1.28  christos 			ktradref(p);
  1.1       cgd 		}
  1.1       cgd 		p->p_traceflag |= facs;
  1.1       cgd 		if (curp->p_ucred->cr_uid == 0)
  1.1       cgd 			p->p_traceflag |= KTRFAC_ROOT;
 1.88     enami 	} else {
  1.1       cgd 		/* KTROP_CLEAR */
  1.1       cgd 		if (((p->p_traceflag &= ~facs) & KTRFAC_MASK) == 0) {
  1.1       cgd 			/* no more tracing */
 1.28  christos 			ktrderef(p);
  1.1       cgd 		}
  1.1       cgd 	}
 1.21  christos
 1.98  christos 	if (p->p_traceflag)
 1.98  christos 		p->p_traceflag |= vers;
 1.21  christos 	/*
 1.21  christos 	 * Emit an emulation record, every time there is a ktrace
 1.88     enami 	 * change/attach request.
 1.21  christos 	 */
 1.21  christos 	if (KTRPOINT(p, KTR_EMUL))
 1.84       dsl 		p->p_traceflag |= KTRFAC_TRC_EMUL;
 1.49    martin #ifdef __HAVE_SYSCALL_INTERN
 1.48   mycroft 	(*p->p_emul->e_syscall_intern)(p);
 1.49    martin #endif
  1.1       cgd
  1.1       cgd 	return (1);
  1.1       cgd }
  1.1       cgd
 1.22  christos int
 1.89     enami ktrsetchildren(struct proc *curp, struct proc *top, int ops, int facs,
 1.93     enami     struct ktr_desc *ktd)
  1.1       cgd {
 1.28  christos 	struct proc *p;
 1.28  christos 	int ret = 0;
  1.1       cgd
  1.1       cgd 	p = top;
  1.1       cgd 	for (;;) {
 1.93     enami 		ret |= ktrops(curp, p, ops, facs, ktd);
  1.1       cgd 		/*
  1.1       cgd 		 * If this process has children, descend to them next,
  1.1       cgd 		 * otherwise do any siblings, and if done with this level,
  1.1       cgd 		 * follow back up the tree (but not past top).
  1.1       cgd 		 */
 1.82       dsl 		if (LIST_FIRST(&p->p_children) != NULL) {
 1.39   thorpej 			p = LIST_FIRST(&p->p_children);
 1.82       dsl 			continue;
 1.82       dsl 		}
 1.82       dsl 		for (;;) {
  1.1       cgd 			if (p == top)
  1.1       cgd 				return (ret);
 1.39   thorpej 			if (LIST_NEXT(p, p_sibling) != NULL) {
 1.39   thorpej 				p = LIST_NEXT(p, p_sibling);
  1.1       cgd 				break;
  1.1       cgd 			}
 1.12   mycroft 			p = p->p_pptr;
  1.1       cgd 		}
  1.1       cgd 	}
  1.1       cgd 	/*NOTREACHED*/
  1.1       cgd }
  1.1       cgd
 1.93     enami void
 1.93     enami ktrwrite(struct ktr_desc *ktd, struct ktrace_entry *kte)
  1.1       cgd {
 1.74      fvdl 	struct uio auio;
 1.93     enami 	struct iovec aiov[64], *iov;
 1.93     enami 	struct ktrace_entry *top = kte;
 1.93     enami 	struct ktr_header *kth;
 1.93     enami 	struct file *fp = ktd->ktd_fp;
 1.93     enami 	struct proc *p;
 1.93     enami 	int error;
 1.93     enami next:
 1.93     enami 	auio.uio_iov = iov = &aiov[0];
  1.1       cgd 	auio.uio_offset = 0;
  1.1       cgd 	auio.uio_rw = UIO_WRITE;
 1.93     enami 	auio.uio_resid = 0;
 1.93     enami 	auio.uio_iovcnt = 0;
1.101      yamt 	UIO_SETUP_SYSSPACE(&auio);
 1.93     enami 	do {
 1.93     enami 		kth = &kte->kte_kth;
 1.98  christos
 1.98  christos 		if (kth->ktr_version == 0) {
 1.98  christos 			/*
 1.98  christos 			 * Convert back to the old format fields
 1.98  christos 			 */
 1.98  christos 			TIMESPEC_TO_TIMEVAL(&kth->ktr_tv, &kth->ktr_time);
 1.98  christos 			kth->ktr_unused = NULL;
 1.98  christos 		}
 1.93     enami 		iov->iov_base = (caddr_t)kth;
 1.93     enami 		iov++->iov_len = sizeof(struct ktr_header);
 1.93     enami 		auio.uio_resid += sizeof(struct ktr_header);
  1.1       cgd 		auio.uio_iovcnt++;
 1.93     enami 		if (kth->ktr_len > 0) {
 1.93     enami 			iov->iov_base = kte->kte_buf;
 1.93     enami 			iov++->iov_len = kth->ktr_len;
 1.93     enami 			auio.uio_resid += kth->ktr_len;
 1.93     enami 			auio.uio_iovcnt++;
 1.93     enami 		}
 1.93     enami 	} while ((kte = TAILQ_NEXT(kte, kte_list)) != NULL &&
 1.93     enami 	    auio.uio_iovcnt < sizeof(aiov) / sizeof(aiov[0]) - 1);
 1.93     enami
 1.93     enami again:
 1.93     enami 	simple_lock(&fp->f_slock);
 1.93     enami 	FILE_USE(fp);
 1.93     enami 	error = (*fp->f_ops->fo_write)(fp, &fp->f_offset, &auio,
 1.93     enami 	    fp->f_cred, FOF_UPDATE_OFFSET);
 1.93     enami 	FILE_UNUSE(fp, NULL);
 1.93     enami 	switch (error) {
 1.93     enami
 1.93     enami 	case 0:
 1.93     enami 		if (auio.uio_resid > 0)
 1.93     enami 			goto again;
 1.93     enami 		if (kte != NULL)
 1.93     enami 			goto next;
 1.93     enami 		break;
 1.93     enami
 1.93     enami 	case EWOULDBLOCK:
 1.93     enami 		preempt(1);
 1.93     enami 		goto again;
 1.93     enami
 1.93     enami 	default:
 1.93     enami 		/*
 1.93     enami 		 * If error encountered, give up tracing on this
 1.93     enami 		 * vnode.  Don't report EPIPE as this can easily
 1.93     enami 		 * happen with fktrace()/ktruss.
 1.93     enami 		 */
 1.93     enami #ifndef DEBUG
 1.93     enami 		if (error != EPIPE)
 1.93     enami #endif
 1.93     enami 			log(LOG_NOTICE,
 1.93     enami 			    "ktrace write failed, errno %d, tracing stopped\n",
 1.93     enami 			    error);
 1.93     enami 		proclist_lock_read();
 1.94      yamt 		PROCLIST_FOREACH(p, &allproc) {
 1.93     enami 			if (p->p_tracep == ktd)
 1.93     enami 				ktrderef(p);
 1.93     enami 		}
 1.93     enami 		proclist_unlock_read();
 1.93     enami 	}
 1.93     enami
 1.93     enami 	while ((kte = top) != NULL) {
 1.93     enami 		top = TAILQ_NEXT(top, kte_list);
 1.93     enami 		ktefree(kte);
 1.93     enami 	}
 1.93     enami }
 1.93     enami
 1.93     enami void
 1.93     enami ktrace_thread(void *arg)
 1.93     enami {
 1.93     enami 	struct ktr_desc *ktd = arg;
 1.93     enami 	struct file *fp = ktd->ktd_fp;
 1.93     enami 	struct ktrace_entry *kte;
 1.93     enami 	int ktrerr, errcnt;
 1.93     enami
 1.93     enami 	for (;;) {
 1.93     enami 		simple_lock(&ktd->ktd_slock);
 1.93     enami 		kte = TAILQ_FIRST(&ktd->ktd_queue);
 1.93     enami 		if (kte == NULL) {
 1.93     enami 			if (ktd->ktd_flags & KTDF_WAIT) {
 1.93     enami 				ktd->ktd_flags &= ~(KTDF_WAIT | KTDF_BLOCKING);
 1.93     enami 				wakeup(&ktd->ktd_flags);
 1.93     enami 			}
 1.93     enami 			if (ktd->ktd_ref == 0)
 1.93     enami 				break;
 1.93     enami 			ltsleep(ktd, PWAIT | PNORELOCK, "ktrwait", 0,
 1.93     enami 			    &ktd->ktd_slock);
 1.93     enami 			continue;
 1.93     enami 		}
 1.93     enami 		TAILQ_INIT(&ktd->ktd_queue);
 1.93     enami 		ktd->ktd_qcount = 0;
 1.93     enami 		ktrerr = ktd->ktd_error;
 1.93     enami 		errcnt = ktd->ktd_errcnt;
 1.93     enami 		ktd->ktd_error = ktd->ktd_errcnt = 0;
 1.93     enami 		simple_unlock(&ktd->ktd_slock);
 1.93     enami
 1.93     enami 		if (ktrerr) {
 1.93     enami 			log(LOG_NOTICE,
 1.93     enami 			    "ktrace failed, fp %p, error 0x%x, total %d\n",
 1.93     enami 			    fp, ktrerr, errcnt);
 1.93     enami 		}
 1.93     enami 		ktrwrite(ktd, kte);
  1.1       cgd 	}
 1.93     enami 	simple_unlock(&ktd->ktd_slock);
 1.93     enami
 1.93     enami 	simple_lock(&ktdq_slock);
 1.93     enami 	TAILQ_REMOVE(&ktdq, ktd, ktd_list);
 1.93     enami 	simple_unlock(&ktdq_slock);
 1.28  christos
 1.68        pk 	simple_lock(&fp->f_slock);
 1.42  sommerfe 	FILE_USE(fp);
 1.42  sommerfe
  1.1       cgd 	/*
 1.93     enami 	 * ktrace file descriptor can't be watched (are not visible to
 1.93     enami 	 * userspace), so no kqueue stuff here
 1.93     enami 	 * XXX: The above comment is wrong, because the fktrace file
 1.93     enami 	 * descriptor is available in userland.
  1.1       cgd 	 */
 1.93     enami 	closef(fp, NULL);
 1.93     enami
 1.93     enami 	callout_stop(&ktd->ktd_wakch);
 1.93     enami 	free(ktd, M_KTRACE);
 1.39   thorpej
 1.93     enami 	kthread_exit(0);
  1.1       cgd }
  1.1       cgd
  1.1       cgd /*
  1.1       cgd  * Return true if caller has permission to set the ktracing state
  1.1       cgd  * of target.  Essentially, the target can't possess any
  1.1       cgd  * more permissions than the caller.  KTRFAC_ROOT signifies that
 1.88     enami  * root previously set the tracing status on the target process, and
  1.1       cgd  * so, only root may further change it.
  1.1       cgd  *
  1.1       cgd  * TODO: check groups.  use caller effective gid.
  1.1       cgd  */
 1.22  christos int
 1.89     enami ktrcanset(struct proc *callp, struct proc *targetp)
  1.1       cgd {
 1.28  christos 	struct pcred *caller = callp->p_cred;
 1.28  christos 	struct pcred *target = targetp->p_cred;
  1.1       cgd
  1.1       cgd 	if ((caller->pc_ucred->cr_uid == target->p_ruid &&
 1.88     enami 	    target->p_ruid == target->p_svuid &&
 1.88     enami 	    caller->p_rgid == target->p_rgid &&	/* XXX */
 1.88     enami 	    target->p_rgid == target->p_svgid &&
 1.88     enami 	    (targetp->p_traceflag & KTRFAC_ROOT) == 0 &&
 1.88     enami 	    (targetp->p_flag & P_SUGID) == 0) ||
 1.88     enami 	    caller->pc_ucred->cr_uid == 0)
  1.1       cgd 		return (1);
  1.1       cgd
  1.1       cgd 	return (0);
  1.1       cgd }
 1.47   thorpej #endif /* KTRACE */
 1.51  jdolecek
 1.51  jdolecek /*
 1.51  jdolecek  * Put user defined entry to ktrace records.
 1.51  jdolecek  */
 1.51  jdolecek int
 1.89     enami sys_utrace(struct lwp *l, void *v, register_t *retval)
 1.51  jdolecek {
 1.51  jdolecek #ifdef KTRACE
 1.51  jdolecek 	struct sys_utrace_args /* {
 1.52  jdolecek 		syscallarg(const char *) label;
 1.51  jdolecek 		syscallarg(void *) addr;
 1.51  jdolecek 		syscallarg(size_t) len;
 1.51  jdolecek 	} */ *uap = v;
 1.67   thorpej 	struct proc *p = l->l_proc;
 1.88     enami
 1.51  jdolecek 	if (!KTRPOINT(p, KTR_USER))
 1.51  jdolecek 		return (0);
 1.53  jdolecek
 1.53  jdolecek 	if (SCARG(uap, len) > KTR_USER_MAXLEN)
 1.53  jdolecek 		return (EINVAL);
 1.51  jdolecek
 1.98  christos 	ktruser(l, SCARG(uap, label), SCARG(uap, addr), SCARG(uap, len), 1);
 1.51  jdolecek
 1.51  jdolecek 	return (0);
 1.51  jdolecek #else /* !KTRACE */
 1.51  jdolecek 	return ENOSYS;
 1.51  jdolecek #endif /* KTRACE */
 1.51  jdolecek }