sys/kern/kern_auth.c

1.20.2.2  rpaulo /* $NetBSD: kern_auth.c,v 1.20.2.2 2006/09/09 02:57:15 rpaulo Exp $ */
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*-
1.20.2.2  rpaulo  * Copyright (c) 2005, 2006 Elad Efrat <elad (at) NetBSD.org>
1.20.2.2  rpaulo  * All rights reserved.
1.20.2.2  rpaulo  *
1.20.2.2  rpaulo  * Redistribution and use in source and binary forms, with or without
1.20.2.2  rpaulo  * modification, are permitted provided that the following conditions
1.20.2.2  rpaulo  * are met:
1.20.2.2  rpaulo  * 1. Redistributions of source code must retain the above copyright
1.20.2.2  rpaulo  *    notice, this list of conditions and the following disclaimer.
1.20.2.2  rpaulo  * 2. Redistributions in binary form must reproduce the above copyright
1.20.2.2  rpaulo  *    notice, this list of conditions and the following disclaimer in the
1.20.2.2  rpaulo  *    documentation and/or other materials provided with the distribution.
1.20.2.2  rpaulo  * 3. All advertising materials mentioning features or use of this software
1.20.2.2  rpaulo  *    must display the following acknowledgement:
1.20.2.2  rpaulo  *      This product includes software developed by Elad Efrat.
1.20.2.2  rpaulo  * 4. The name of the author may not be used to endorse or promote products
1.20.2.2  rpaulo  *    derived from this software without specific prior written permission.
1.20.2.2  rpaulo  *
1.20.2.2  rpaulo  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.20.2.2  rpaulo  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.20.2.2  rpaulo  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.20.2.2  rpaulo  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1.20.2.2  rpaulo  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.20.2.2  rpaulo  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.20.2.2  rpaulo  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.20.2.2  rpaulo  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.20.2.2  rpaulo  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.20.2.2  rpaulo  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Todo:
1.20.2.2  rpaulo  *   - Garbage collection to pool_put() unused scopes/listeners.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo
1.20.2.2  rpaulo #include <sys/types.h>
1.20.2.2  rpaulo #include <sys/param.h>
1.20.2.2  rpaulo #include <sys/queue.h>
1.20.2.2  rpaulo #include <sys/time.h>
1.20.2.2  rpaulo #include <sys/proc.h>
1.20.2.2  rpaulo #include <sys/ucred.h>
1.20.2.2  rpaulo #include <sys/pool.h>
1.20.2.2  rpaulo #include <sys/kauth.h>
1.20.2.2  rpaulo #include <sys/acct.h>
1.20.2.2  rpaulo #include <sys/sysctl.h>
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Credentials.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo struct kauth_cred {
1.20.2.2  rpaulo 	struct simplelock cr_lock;	/* lock on cr_refcnt */
1.20.2.2  rpaulo 	u_int cr_refcnt;		/* reference count */
1.20.2.2  rpaulo 	uid_t cr_uid;			/* user id */
1.20.2.2  rpaulo 	uid_t cr_euid;			/* effective user id */
1.20.2.2  rpaulo 	uid_t cr_svuid;			/* saved effective user id */
1.20.2.2  rpaulo 	gid_t cr_gid;			/* group id */
1.20.2.2  rpaulo 	gid_t cr_egid;			/* effective group id */
1.20.2.2  rpaulo 	gid_t cr_svgid;			/* saved effective group id */
1.20.2.2  rpaulo 	u_int cr_ngroups;		/* number of groups */
1.20.2.2  rpaulo 	gid_t cr_groups[NGROUPS];	/* group memberships */
1.20.2.2  rpaulo };
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Listener.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo struct kauth_listener {
1.20.2.2  rpaulo 	kauth_scope_callback_t		func;		/* callback */
1.20.2.2  rpaulo 	kauth_scope_t			scope;		/* scope backpointer */
1.20.2.2  rpaulo 	u_int				refcnt;		/* reference count */
1.20.2.2  rpaulo 	SIMPLEQ_ENTRY(kauth_listener)	listener_next;	/* listener list */
1.20.2.2  rpaulo };
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Scope.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo struct kauth_scope {
1.20.2.2  rpaulo 	const char		       *id;		/* scope name */
1.20.2.2  rpaulo 	void			       *cookie;		/* user cookie */
1.20.2.2  rpaulo 	u_int				nlisteners;	/* # of listeners */
1.20.2.2  rpaulo 	SIMPLEQ_HEAD(, kauth_listener)	listenq;	/* listener list */
1.20.2.2  rpaulo 	SIMPLEQ_ENTRY(kauth_scope)	next_scope;	/* scope list */
1.20.2.2  rpaulo };
1.20.2.2  rpaulo
1.20.2.2  rpaulo static POOL_INIT(kauth_scope_pool, sizeof(struct kauth_scope), 0, 0, 0,
1.20.2.2  rpaulo 	  "kauth_scopepl", &pool_allocator_nointr);
1.20.2.2  rpaulo static POOL_INIT(kauth_listener_pool, sizeof(struct kauth_listener), 0, 0, 0,
1.20.2.2  rpaulo 	  "kauth_listenerpl", &pool_allocator_nointr);
1.20.2.2  rpaulo static POOL_INIT(kauth_cred_pool, sizeof(struct kauth_cred), 0, 0, 0,
1.20.2.2  rpaulo 	  "kauth_credpl", &pool_allocator_nointr);
1.20.2.2  rpaulo
1.20.2.2  rpaulo /* List of scopes and its lock. */
1.20.2.2  rpaulo static SIMPLEQ_HEAD(, kauth_scope) scope_list;
1.20.2.2  rpaulo static struct simplelock scopes_lock;
1.20.2.2  rpaulo
1.20.2.2  rpaulo /* Built-in scopes: generic, process. */
1.20.2.2  rpaulo static kauth_scope_t kauth_builtin_scope_generic;
1.20.2.2  rpaulo static kauth_scope_t kauth_builtin_scope_process;
1.20.2.2  rpaulo
1.20.2.2  rpaulo /* Allocate new, empty kauth credentials. */
1.20.2.2  rpaulo kauth_cred_t
1.20.2.2  rpaulo kauth_cred_alloc(void)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	kauth_cred_t cred;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred = pool_get(&kauth_cred_pool, PR_WAITOK);
1.20.2.2  rpaulo 	memset(cred, 0, sizeof(*cred));
1.20.2.2  rpaulo 	simple_lock_init(&cred->cr_lock);
1.20.2.2  rpaulo 	cred->cr_refcnt = 1;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /* Increment reference count to cred. */
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_hold(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt > 0);
1.20.2.2  rpaulo
1.20.2.2  rpaulo         simple_lock(&cred->cr_lock);
1.20.2.2  rpaulo         cred->cr_refcnt++;
1.20.2.2  rpaulo         simple_unlock(&cred->cr_lock);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /* Decrease reference count to cred. If reached zero, free it. */
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_free(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	u_int refcnt;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt > 0);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	simple_lock(&cred->cr_lock);
1.20.2.2  rpaulo 	refcnt = --cred->cr_refcnt;
1.20.2.2  rpaulo 	simple_unlock(&cred->cr_lock);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	if (refcnt == 0)
1.20.2.2  rpaulo 		pool_put(&kauth_cred_pool, cred);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_clone(kauth_cred_t from, kauth_cred_t to)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(from != NULL);
1.20.2.2  rpaulo 	KASSERT(to != NULL);
1.20.2.2  rpaulo 	KASSERT(from->cr_refcnt > 0);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	to->cr_uid = from->cr_uid;
1.20.2.2  rpaulo 	to->cr_euid = from->cr_euid;
1.20.2.2  rpaulo 	to->cr_svuid = from->cr_svuid;
1.20.2.2  rpaulo 	to->cr_gid = from->cr_gid;
1.20.2.2  rpaulo 	to->cr_egid = from->cr_egid;
1.20.2.2  rpaulo 	to->cr_svgid = from->cr_svgid;
1.20.2.2  rpaulo 	to->cr_ngroups = from->cr_ngroups;
1.20.2.2  rpaulo 	memcpy(to->cr_groups, from->cr_groups, sizeof(to->cr_groups));
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Duplicate cred and return a new kauth_cred_t.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo kauth_cred_t
1.20.2.2  rpaulo kauth_cred_dup(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	kauth_cred_t new_cred;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt > 0);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	new_cred = kauth_cred_alloc();
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	kauth_cred_clone(cred, new_cred);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (new_cred);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Similar to crcopy(), only on a kauth_cred_t.
1.20.2.2  rpaulo  * XXX: Is this even needed? [kauth_cred_copy]
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo kauth_cred_t
1.20.2.2  rpaulo kauth_cred_copy(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	kauth_cred_t new_cred;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt > 0);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* If the provided credentials already have one reference, use them. */
1.20.2.2  rpaulo 	if (cred->cr_refcnt == 1)
1.20.2.2  rpaulo 		return (cred);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	new_cred = kauth_cred_alloc();
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	kauth_cred_clone(cred, new_cred);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	kauth_cred_free(cred);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (new_cred);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo uid_t
1.20.2.2  rpaulo kauth_cred_getuid(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_uid);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo uid_t
1.20.2.2  rpaulo kauth_cred_geteuid(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_euid);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo uid_t
1.20.2.2  rpaulo kauth_cred_getsvuid(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_svuid);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo gid_t
1.20.2.2  rpaulo kauth_cred_getgid(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_gid);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo gid_t
1.20.2.2  rpaulo kauth_cred_getegid(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_egid);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo gid_t
1.20.2.2  rpaulo kauth_cred_getsvgid(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_svgid);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_setuid(kauth_cred_t cred, uid_t uid)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt == 1);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred->cr_uid = uid;
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_seteuid(kauth_cred_t cred, uid_t uid)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt == 1);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred->cr_euid = uid;
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_setsvuid(kauth_cred_t cred, uid_t uid)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt == 1);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred->cr_svuid = uid;
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_setgid(kauth_cred_t cred, gid_t gid)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt == 1);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred->cr_gid = gid;
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_setegid(kauth_cred_t cred, gid_t gid)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt == 1);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred->cr_egid = gid;
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_setsvgid(kauth_cred_t cred, gid_t gid)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt == 1);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred->cr_svgid = gid;
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /* Checks if gid is a member of the groups in cred. */
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_cred_ismember_gid(kauth_cred_t cred, gid_t gid, int *resultp)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	int i;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(resultp != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	*resultp = 0;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	for (i = 0; i < cred->cr_ngroups; i++)
1.20.2.2  rpaulo 		if (cred->cr_groups[i] == gid) {
1.20.2.2  rpaulo 			*resultp = 1;
1.20.2.2  rpaulo 			break;
1.20.2.2  rpaulo 		}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (0);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo u_int
1.20.2.2  rpaulo kauth_cred_ngroups(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_ngroups);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Return the group at index idx from the groups in cred.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo gid_t
1.20.2.2  rpaulo kauth_cred_group(kauth_cred_t cred, u_int idx)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(idx < cred->cr_ngroups);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_groups[idx]);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /* XXX elad: gmuid is unused for now. */
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_cred_setgroups(kauth_cred_t cred, gid_t *grbuf, size_t len, uid_t gmuid)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(cred->cr_refcnt == 1);
1.20.2.2  rpaulo 	KASSERT(len <= sizeof(cred->cr_groups) / sizeof(cred->cr_groups[0]));
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	if (len)
1.20.2.2  rpaulo 		memcpy(cred->cr_groups, grbuf, len * sizeof(cred->cr_groups[0]));
1.20.2.2  rpaulo 	memset(cred->cr_groups + len, 0xff,
1.20.2.2  rpaulo 	    sizeof(cred->cr_groups) - (len * sizeof(cred->cr_groups[0])));
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred->cr_ngroups = len;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (0);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_cred_getgroups(kauth_cred_t cred, gid_t *grbuf, size_t len)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(len <= cred->cr_ngroups);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	memset(grbuf, 0xff, sizeof(*grbuf) * len);
1.20.2.2  rpaulo 	memcpy(grbuf, cred->cr_groups, sizeof(*grbuf) * len);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (0);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Match uids in two credentials. Checks if cred1 can access stuff owned by
1.20.2.2  rpaulo  * cred2.
1.20.2.2  rpaulo  * XXX: root bypasses this!
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo static int
1.20.2.2  rpaulo kauth_cred_uidmatch(kauth_cred_t cred1, kauth_cred_t cred2)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred1 != NULL);
1.20.2.2  rpaulo 	KASSERT(cred2 != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Are we root? */
1.20.2.2  rpaulo 	if (cred1->cr_euid == 0)
1.20.2.2  rpaulo 		return (1);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	if (cred1->cr_uid == cred2->cr_uid ||
1.20.2.2  rpaulo 	    cred1->cr_euid == cred2->cr_uid ||
1.20.2.2  rpaulo 	    cred1->cr_uid == cred2->cr_euid ||
1.20.2.2  rpaulo 	    cred1->cr_euid == cred2->cr_euid)
1.20.2.2  rpaulo 		return (1);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (0);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo u_int
1.20.2.2  rpaulo kauth_cred_getrefcnt(kauth_cred_t cred)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (cred->cr_refcnt);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Convert userland credentials (struct uucred) to kauth_cred_t.
1.20.2.2  rpaulo  * XXX: For NFS code.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_uucvt(kauth_cred_t cred, const struct uucred *uuc)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(uuc != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	cred->cr_refcnt = 1;
1.20.2.2  rpaulo 	cred->cr_uid = uuc->cr_uid;
1.20.2.2  rpaulo 	cred->cr_euid = uuc->cr_uid;
1.20.2.2  rpaulo 	cred->cr_svuid = uuc->cr_uid;
1.20.2.2  rpaulo 	cred->cr_gid = uuc->cr_gid;
1.20.2.2  rpaulo 	cred->cr_egid = uuc->cr_gid;
1.20.2.2  rpaulo 	cred->cr_svgid = uuc->cr_gid;
1.20.2.2  rpaulo 	cred->cr_ngroups = min(uuc->cr_ngroups, NGROUPS);
1.20.2.2  rpaulo 	kauth_cred_setgroups(cred, __UNCONST(uuc->cr_groups),
1.20.2.2  rpaulo 	    cred->cr_ngroups, -1);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Compare kauth_cred_t and uucred credentials.
1.20.2.2  rpaulo  * XXX: Modelled after crcmp() for NFS.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_cred_uucmp(kauth_cred_t cred, const struct uucred *uuc)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(uuc != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	if (cred->cr_euid == uuc->cr_uid &&
1.20.2.2  rpaulo 	    cred->cr_egid == uuc->cr_gid &&
1.20.2.2  rpaulo 	    cred->cr_ngroups == uuc->cr_ngroups) {
1.20.2.2  rpaulo 		int i;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 		/* Check if all groups from uuc appear in cred. */
1.20.2.2  rpaulo 		for (i = 0; i < uuc->cr_ngroups; i++) {
1.20.2.2  rpaulo 			int ismember;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 			ismember = 0;
1.20.2.2  rpaulo 			if (kauth_cred_ismember_gid(cred, uuc->cr_groups[i],
1.20.2.2  rpaulo 			    &ismember) != 0 || !ismember)
1.20.2.2  rpaulo 				return (1);
1.20.2.2  rpaulo 		}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 		return (0);
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (1);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Make a struct ucred out of a kauth_cred_t.  For compatibility.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_toucred(kauth_cred_t cred, struct ucred *uc)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(uc != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	uc->cr_ref = cred->cr_refcnt;
1.20.2.2  rpaulo 	uc->cr_uid = cred->cr_euid;
1.20.2.2  rpaulo 	uc->cr_gid = cred->cr_egid;
1.20.2.2  rpaulo 	uc->cr_ngroups = min(cred->cr_ngroups,
1.20.2.2  rpaulo 			     sizeof(uc->cr_groups) / sizeof(uc->cr_groups[0]));
1.20.2.2  rpaulo 	memcpy(uc->cr_groups, cred->cr_groups,
1.20.2.2  rpaulo 	       uc->cr_ngroups * sizeof(uc->cr_groups[0]));
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Make a struct pcred out of a kauth_cred_t.  For compatibility.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_cred_topcred(kauth_cred_t cred, struct pcred *pc)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	KASSERT(cred != NULL);
1.20.2.2  rpaulo 	KASSERT(pc != NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	pc->pc_ucred = NULL;
1.20.2.2  rpaulo 	pc->p_ruid = cred->cr_uid;
1.20.2.2  rpaulo 	pc->p_svuid = cred->cr_svuid;
1.20.2.2  rpaulo 	pc->p_rgid = cred->cr_gid;
1.20.2.2  rpaulo 	pc->p_svgid = cred->cr_svgid;
1.20.2.2  rpaulo 	pc->p_refcnt = cred->cr_refcnt;
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Return kauth_cred_t for the current LWP.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo kauth_cred_t
1.20.2.2  rpaulo kauth_cred_get(void)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	return (curlwp->l_cred);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Returns a scope matching the provided id.
1.20.2.2  rpaulo  * Requires the scope list lock to be held by the caller.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo static kauth_scope_t
1.20.2.2  rpaulo kauth_ifindscope(const char *id)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	kauth_scope_t scope;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* XXX: assert lock on scope list? */
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	scope = NULL;
1.20.2.2  rpaulo 	SIMPLEQ_FOREACH(scope, &scope_list, next_scope) {
1.20.2.2  rpaulo 		if (strcmp(scope->id, id) == 0)
1.20.2.2  rpaulo 			break;
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (scope);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Register a new scope.
1.20.2.2  rpaulo  *
1.20.2.2  rpaulo  * id - identifier for the scope
1.20.2.2  rpaulo  * callback - the scope's default listener
1.20.2.2  rpaulo  * cookie - cookie to be passed to the listener(s)
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo kauth_scope_t
1.20.2.2  rpaulo kauth_register_scope(const char *id, kauth_scope_callback_t callback,
1.20.2.2  rpaulo     void *cookie)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	kauth_scope_t scope;
1.20.2.2  rpaulo 	kauth_listener_t listener;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Sanitize input */
1.20.2.2  rpaulo 	if (id == NULL)
1.20.2.2  rpaulo 		return (NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Allocate space for a new scope and listener. */
1.20.2.2  rpaulo 	scope = pool_get(&kauth_scope_pool, PR_WAITOK);
1.20.2.2  rpaulo 	listener = pool_get(&kauth_listener_pool, PR_WAITOK);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Acquire scope list lock. */
1.20.2.2  rpaulo 	simple_lock(&scopes_lock);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Check we don't already have a scope with the same id */
1.20.2.2  rpaulo 	if (kauth_ifindscope(id) != NULL) {
1.20.2.2  rpaulo 		simple_unlock(&scopes_lock);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 		pool_put(&kauth_scope_pool, scope);
1.20.2.2  rpaulo 		pool_put(&kauth_listener_pool, listener);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 		return (NULL);
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Initialize new scope with parameters */
1.20.2.2  rpaulo 	scope->id = id;
1.20.2.2  rpaulo 	scope->cookie = cookie;
1.20.2.2  rpaulo 	scope->nlisteners = 1;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	SIMPLEQ_INIT(&scope->listenq);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Add default listener */
1.20.2.2  rpaulo 	if (callback != NULL) {
1.20.2.2  rpaulo 		listener->func = callback;
1.20.2.2  rpaulo 		listener->scope = scope;
1.20.2.2  rpaulo 		listener->refcnt = 0;
1.20.2.2  rpaulo 		SIMPLEQ_INSERT_HEAD(&scope->listenq, listener, listener_next);
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Insert scope to scopes list */
1.20.2.2  rpaulo 	SIMPLEQ_INSERT_TAIL(&scope_list, scope, next_scope);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	simple_unlock(&scopes_lock);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (scope);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Initialize the kernel authorization subsystem.
1.20.2.2  rpaulo  *
1.20.2.2  rpaulo  * Initialize the scopes list lock.
1.20.2.2  rpaulo  * Register built-in scopes: generic, process.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_init(void)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	SIMPLEQ_INIT(&scope_list);
1.20.2.2  rpaulo 	simple_lock_init(&scopes_lock);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Register generic scope. */
1.20.2.2  rpaulo 	kauth_builtin_scope_generic = kauth_register_scope(KAUTH_SCOPE_GENERIC,
1.20.2.2  rpaulo 	    kauth_authorize_cb_generic, NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Register process scope. */
1.20.2.2  rpaulo 	kauth_builtin_scope_process = kauth_register_scope(KAUTH_SCOPE_PROCESS,
1.20.2.2  rpaulo 	    kauth_authorize_cb_process, NULL);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Deregister a scope.
1.20.2.2  rpaulo  * Requires scope list lock to be held by the caller.
1.20.2.2  rpaulo  *
1.20.2.2  rpaulo  * scope - the scope to deregister
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_deregister_scope(kauth_scope_t scope)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	if (scope != NULL) {
1.20.2.2  rpaulo 		/* Remove scope from list */
1.20.2.2  rpaulo 		SIMPLEQ_REMOVE(&scope_list, scope, kauth_scope, next_scope);
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Register a listener.
1.20.2.2  rpaulo  *
1.20.2.2  rpaulo  * id - scope identifier.
1.20.2.2  rpaulo  * callback - the callback routine for the listener.
1.20.2.2  rpaulo  * cookie - cookie to pass unmoidfied to the callback.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo kauth_listener_t
1.20.2.2  rpaulo kauth_listen_scope(const char *id, kauth_scope_callback_t callback,
1.20.2.2  rpaulo 		   void *cookie)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	kauth_scope_t scope;
1.20.2.2  rpaulo 	kauth_listener_t listener;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Find scope struct */
1.20.2.2  rpaulo 	simple_lock(&scopes_lock);
1.20.2.2  rpaulo 	scope = kauth_ifindscope(id);
1.20.2.2  rpaulo 	simple_unlock(&scopes_lock);
1.20.2.2  rpaulo 	if (scope == NULL)
1.20.2.2  rpaulo 		return (NULL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Allocate listener */
1.20.2.2  rpaulo 	listener = pool_get(&kauth_listener_pool, PR_WAITOK);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Initialize listener with parameters */
1.20.2.2  rpaulo 	listener->func = callback;
1.20.2.2  rpaulo 	listener->refcnt = 0;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Add listener to scope */
1.20.2.2  rpaulo 	SIMPLEQ_INSERT_TAIL(&scope->listenq, listener, listener_next);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Raise number of listeners on scope. */
1.20.2.2  rpaulo 	scope->nlisteners++;
1.20.2.2  rpaulo 	listener->scope = scope;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (listener);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Deregister a listener.
1.20.2.2  rpaulo  *
1.20.2.2  rpaulo  * listener - listener reference as returned from kauth_listen_scope().
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo void
1.20.2.2  rpaulo kauth_unlisten_scope(kauth_listener_t listener)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	if (listener != NULL) {
1.20.2.2  rpaulo 		SIMPLEQ_REMOVE(&listener->scope->listenq, listener,
1.20.2.2  rpaulo 		    kauth_listener, listener_next);
1.20.2.2  rpaulo 		listener->scope->nlisteners--;
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Authorize a request.
1.20.2.2  rpaulo  *
1.20.2.2  rpaulo  * scope - the scope of the request as defined by KAUTH_SCOPE_* or as
1.20.2.2  rpaulo  *	   returned from kauth_register_scope().
1.20.2.2  rpaulo  * credential - credentials of the user ("actor") making the request.
1.20.2.2  rpaulo  * action - request identifier.
1.20.2.2  rpaulo  * arg[0-3] - passed unmodified to listener(s).
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_authorize_action(kauth_scope_t scope, kauth_cred_t cred,
1.20.2.2  rpaulo 		       kauth_action_t action, void *arg0, void *arg1,
1.20.2.2  rpaulo 		       void *arg2, void *arg3)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	kauth_listener_t listener;
1.20.2.2  rpaulo 	int error, allow, fail;
1.20.2.2  rpaulo
1.20.2.2  rpaulo #if 0 /* defined(LOCKDEBUG) */
1.20.2.2  rpaulo 	spinlock_switchcheck();
1.20.2.2  rpaulo 	simple_lock_only_held(NULL, "kauth_authorize_action");
1.20.2.2  rpaulo #endif
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Sanitize input */
1.20.2.2  rpaulo 	if (scope == NULL || cred == NULL)
1.20.2.2  rpaulo 		return (EFAULT);
1.20.2.2  rpaulo 	if (!action)
1.20.2.2  rpaulo 		return (EINVAL);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Short-circuit requests coming from the kernel. */
1.20.2.2  rpaulo 	if (cred == NOCRED || cred == FSCRED)
1.20.2.2  rpaulo 		return (0);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/* Short-circuit requests when there are no listeners. */
1.20.2.2  rpaulo 	if (SIMPLEQ_EMPTY(&scope->listenq))
1.20.2.2  rpaulo 		return (0);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	/*
1.20.2.2  rpaulo 	 * Each scope is associated with at least one listener. We need to
1.20.2.2  rpaulo 	 * traverse that list of listeners, as long as they return either
1.20.2.2  rpaulo 	 * KAUTH_REQUEST_DEFER or KAUTH_REQUEST_ALLOW.
1.20.2.2  rpaulo 	 */
1.20.2.2  rpaulo 	fail = 0;
1.20.2.2  rpaulo 	allow = 0;
1.20.2.2  rpaulo 	SIMPLEQ_FOREACH(listener, &scope->listenq, listener_next) {
1.20.2.2  rpaulo 		error = listener->func(cred, action, scope->cookie, arg0,
1.20.2.2  rpaulo 				       arg1, arg2, arg3);
1.20.2.2  rpaulo
1.20.2.2  rpaulo 		if (error == KAUTH_RESULT_ALLOW)
1.20.2.2  rpaulo 			allow = 1;
1.20.2.2  rpaulo 		else if (error == KAUTH_RESULT_DENY)
1.20.2.2  rpaulo 			fail = 1;
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return ((allow && !fail) ? 0 : EPERM);
1.20.2.2  rpaulo };
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Generic scope default callback.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_authorize_cb_generic(kauth_cred_t cred, kauth_action_t action,
1.20.2.2  rpaulo 			   void *cookie, void *arg0, void *arg1, void *arg2,
1.20.2.2  rpaulo 			   void *arg3)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	int error;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	error = KAUTH_RESULT_DEFER;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	switch (action) {
1.20.2.2  rpaulo 	case KAUTH_GENERIC_ISSUSER:
1.20.2.2  rpaulo 		/* Check if credential belongs to superuser. */
1.20.2.2  rpaulo 		if (cred->cr_euid == 0) {
1.20.2.2  rpaulo 			u_short *acflag = (u_short *)arg0;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 			if (acflag != NULL)
1.20.2.2  rpaulo 				*acflag |= ASU;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 			error = KAUTH_RESULT_ALLOW;
1.20.2.2  rpaulo 		} else
1.20.2.2  rpaulo 			error = KAUTH_RESULT_DENY;
1.20.2.2  rpaulo 		break;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	case KAUTH_GENERIC_CANSEE:
1.20.2.2  rpaulo 		if (!security_curtain) {
1.20.2.2  rpaulo 			error = KAUTH_RESULT_ALLOW;
1.20.2.2  rpaulo 		} else {
1.20.2.2  rpaulo 			kauth_cred_t cred2 = arg0;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 			if (kauth_cred_uidmatch(cred, cred2))
1.20.2.2  rpaulo 				error = KAUTH_RESULT_ALLOW;
1.20.2.2  rpaulo 			else
1.20.2.2  rpaulo 				error = KAUTH_RESULT_DENY;
1.20.2.2  rpaulo 		}
1.20.2.2  rpaulo 		break;
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (error);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Generic scope authorization wrapper.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_authorize_generic(kauth_cred_t cred, kauth_action_t action, void *arg0)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	return (kauth_authorize_action(kauth_builtin_scope_generic, cred,
1.20.2.2  rpaulo 	    action, arg0, NULL, NULL, NULL));
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Process scope default callback.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_authorize_cb_process(kauth_cred_t cred, kauth_action_t action,
1.20.2.2  rpaulo 			   void *cookie, void *arg0, void *arg1, void *arg2,
1.20.2.2  rpaulo 			   void *arg3)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	struct proc *p;
1.20.2.2  rpaulo 	int error;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	error = KAUTH_RESULT_DEFER;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	p = arg0;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	switch (action) {
1.20.2.2  rpaulo 	case KAUTH_PROCESS_CANSIGNAL: {
1.20.2.2  rpaulo 		int signum;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 		signum = (int)(unsigned long)arg1;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 		if (kauth_cred_uidmatch(cred, p->p_cred) ||
1.20.2.2  rpaulo 		    (signum == SIGCONT && (curproc->p_session == p->p_session)))
1.20.2.2  rpaulo 			error = KAUTH_RESULT_ALLOW;
1.20.2.2  rpaulo 		else
1.20.2.2  rpaulo 			error = KAUTH_RESULT_DEFER;
1.20.2.2  rpaulo 		break;
1.20.2.2  rpaulo 		}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	case KAUTH_PROCESS_CANPTRACE:
1.20.2.2  rpaulo 		if (kauth_cred_uidmatch(cred, p->p_cred))
1.20.2.2  rpaulo 			error = KAUTH_RESULT_ALLOW;
1.20.2.2  rpaulo 		else
1.20.2.2  rpaulo 			error = KAUTH_RESULT_DENY;
1.20.2.2  rpaulo 		break;
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	case KAUTH_PROCESS_CANSEE:
1.20.2.2  rpaulo 		if (!security_curtain) {
1.20.2.2  rpaulo 			error = KAUTH_RESULT_ALLOW;
1.20.2.2  rpaulo 		} else {
1.20.2.2  rpaulo 			if (kauth_cred_uidmatch(cred, p->p_cred))
1.20.2.2  rpaulo 				error = KAUTH_RESULT_ALLOW;
1.20.2.2  rpaulo 			else
1.20.2.2  rpaulo 				error = KAUTH_RESULT_DENY;
1.20.2.2  rpaulo 				/* arg2 - type of information [XXX NOTIMPL] */
1.20.2.2  rpaulo 		}
1.20.2.2  rpaulo 		break;
1.20.2.2  rpaulo 	}
1.20.2.2  rpaulo
1.20.2.2  rpaulo 	return (error);
1.20.2.2  rpaulo }
1.20.2.2  rpaulo
1.20.2.2  rpaulo /*
1.20.2.2  rpaulo  * Process scope authorization wrapper.
1.20.2.2  rpaulo  */
1.20.2.2  rpaulo int
1.20.2.2  rpaulo kauth_authorize_process(kauth_cred_t cred, kauth_action_t action,
1.20.2.2  rpaulo     struct proc *p, void *arg1, void *arg2, void *arg3)
1.20.2.2  rpaulo {
1.20.2.2  rpaulo 	return (kauth_authorize_action(kauth_builtin_scope_process, cred,
1.20.2.2  rpaulo 	    action, p, arg1, arg2, arg3));
1.20.2.2  rpaulo }