sys/kern/kern_veriexec.c

1.8.2.2  snj /*	$NetBSD: kern_veriexec.c,v 1.8.2.2 2015/05/19 04:42:32 snj Exp $	*/
1.8.2.2  snj
1.8.2.2  snj /*-
1.8.2.2  snj  * Copyright (c) 2005, 2006 Elad Efrat <elad (at) NetBSD.org>
1.8.2.2  snj  * Copyright (c) 2005, 2006 Brett Lymn <blymn (at) NetBSD.org>
1.8.2.2  snj  * All rights reserved.
1.8.2.2  snj  *
1.8.2.2  snj  * Redistribution and use in source and binary forms, with or without
1.8.2.2  snj  * modification, are permitted provided that the following conditions
1.8.2.2  snj  * are met:
1.8.2.2  snj  * 1. Redistributions of source code must retain the above copyright
1.8.2.2  snj  *    notice, this list of conditions and the following disclaimer.
1.8.2.2  snj  * 2. Redistributions in binary form must reproduce the above copyright
1.8.2.2  snj  *    notice, this list of conditions and the following disclaimer in the
1.8.2.2  snj  *    documentation and/or other materials provided with the distribution.
1.8.2.2  snj  * 3. The name of the authors may not be used to endorse or promote products
1.8.2.2  snj  *    derived from this software without specific prior written permission.
1.8.2.2  snj  *
1.8.2.2  snj  * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR
1.8.2.2  snj  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.8.2.2  snj  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.8.2.2  snj  * IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT,
1.8.2.2  snj  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.8.2.2  snj  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.8.2.2  snj  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.8.2.2  snj  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.8.2.2  snj  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.8.2.2  snj  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.8.2.2  snj  */
1.8.2.2  snj
1.8.2.2  snj #include <sys/cdefs.h>
1.8.2.2  snj __KERNEL_RCSID(0, "$NetBSD: kern_veriexec.c,v 1.8.2.2 2015/05/19 04:42:32 snj Exp $");
1.8.2.2  snj
1.8.2.2  snj #include "opt_veriexec.h"
1.8.2.2  snj
1.8.2.2  snj #include <sys/param.h>
1.8.2.2  snj #include <sys/mount.h>
1.8.2.2  snj #include <sys/kmem.h>
1.8.2.2  snj #include <sys/vnode.h>
1.8.2.2  snj #include <sys/namei.h>
1.8.2.2  snj #include <sys/exec.h>
1.8.2.2  snj #include <sys/once.h>
1.8.2.2  snj #include <sys/proc.h>
1.8.2.2  snj #include <sys/rwlock.h>
1.8.2.2  snj #include <sys/syslog.h>
1.8.2.2  snj #include <sys/sysctl.h>
1.8.2.2  snj #include <sys/inttypes.h>
1.8.2.2  snj #include <sys/verified_exec.h>
1.8.2.2  snj #include <sys/sha1.h>
1.8.2.2  snj #include <sys/sha2.h>
1.8.2.2  snj #include <sys/rmd160.h>
1.8.2.2  snj #include <sys/md5.h>
1.8.2.2  snj #include <uvm/uvm_extern.h>
1.8.2.2  snj #include <sys/fileassoc.h>
1.8.2.2  snj #include <sys/kauth.h>
1.8.2.2  snj #include <sys/conf.h>
1.8.2.2  snj #include <miscfs/specfs/specdev.h>
1.8.2.2  snj #include <prop/proplib.h>
1.8.2.2  snj #include <sys/fcntl.h>
1.8.2.2  snj
1.8.2.2  snj /* Readable values for veriexec_file_report(). */
1.8.2.2  snj #define	REPORT_ALWAYS		0x01	/* Always print */
1.8.2.2  snj #define	REPORT_VERBOSE		0x02	/* Print when verbose >= 1 */
1.8.2.2  snj #define	REPORT_DEBUG		0x04	/* Print when verbose >= 2 (debug) */
1.8.2.2  snj #define	REPORT_PANIC		0x08	/* Call panic() */
1.8.2.2  snj #define	REPORT_ALARM		0x10	/* Alarm - also print pid/uid/.. */
1.8.2.2  snj #define	REPORT_LOGMASK		(REPORT_ALWAYS|REPORT_VERBOSE|REPORT_DEBUG)
1.8.2.2  snj
1.8.2.2  snj /* state of locking for veriexec_file_verify */
1.8.2.2  snj #define VERIEXEC_UNLOCKED	0x00	/* Nothing locked, callee does it */
1.8.2.2  snj #define VERIEXEC_LOCKED		0x01	/* Global op lock held */
1.8.2.2  snj
1.8.2.2  snj /* state of file locking for veriexec_file_verify */
1.8.2.2  snj #define VERIEXEC_FILE_UNLOCKED	0x02	/* Nothing locked, callee does it */
1.8.2.2  snj #define VERIEXEC_FILE_LOCKED	0x04	/* File locked */
1.8.2.2  snj
1.8.2.2  snj #define VERIEXEC_RW_UPGRADE(lock)	while((rw_tryupgrade(lock)) == 0){};
1.8.2.2  snj
1.8.2.2  snj struct veriexec_fpops {
1.8.2.2  snj 	const char *type;
1.8.2.2  snj 	size_t hash_len;
1.8.2.2  snj 	size_t context_size;
1.8.2.2  snj 	veriexec_fpop_init_t init;
1.8.2.2  snj 	veriexec_fpop_update_t update;
1.8.2.2  snj 	veriexec_fpop_final_t final;
1.8.2.2  snj 	LIST_ENTRY(veriexec_fpops) entries;
1.8.2.2  snj };
1.8.2.2  snj
1.8.2.2  snj /* Veriexec per-file entry data. */
1.8.2.2  snj struct veriexec_file_entry {
1.8.2.2  snj 	krwlock_t lock;				/* r/w lock */
1.8.2.2  snj 	u_char *filename;			/* File name. */
1.8.2.2  snj 	u_char type;				/* Entry type. */
1.8.2.2  snj 	u_char status;				/* Evaluation status. */
1.8.2.2  snj 	u_char page_fp_status;			/* Per-page FP status. */
1.8.2.2  snj 	u_char *fp;				/* Fingerprint. */
1.8.2.2  snj 	void *page_fp;				/* Per-page fingerprints */
1.8.2.2  snj 	size_t npages;			    	/* Number of pages. */
1.8.2.2  snj 	size_t last_page_size;			/* To support < PAGE_SIZE */
1.8.2.2  snj 	struct veriexec_fpops *ops;		/* Fingerprint ops vector*/
1.8.2.2  snj 	size_t filename_len;			/* Length of filename. */
1.8.2.2  snj };
1.8.2.2  snj
1.8.2.2  snj /* Veriexec per-table data. */
1.8.2.2  snj struct veriexec_table_entry {
1.8.2.2  snj 	uint64_t vte_count;			/* Number of Veriexec entries. */
1.8.2.2  snj 	const struct sysctlnode *vte_node;
1.8.2.2  snj };
1.8.2.2  snj
1.8.2.2  snj static int veriexec_verbose;
1.8.2.2  snj static int veriexec_strict;
1.8.2.2  snj static int veriexec_bypass = 1;
1.8.2.2  snj
1.8.2.2  snj static char *veriexec_fp_names = NULL;
1.8.2.2  snj static size_t veriexec_name_max = 0;
1.8.2.2  snj
1.8.2.2  snj static const struct sysctlnode *veriexec_count_node;
1.8.2.2  snj
1.8.2.2  snj static fileassoc_t veriexec_hook;
1.8.2.2  snj static specificdata_key_t veriexec_mountspecific_key;
1.8.2.2  snj
1.8.2.2  snj static LIST_HEAD(, veriexec_fpops) veriexec_fpops_list =
1.8.2.2  snj 	LIST_HEAD_INITIALIZER(veriexec_fpops_list);
1.8.2.2  snj
1.8.2.2  snj static int veriexec_raw_cb(kauth_cred_t, kauth_action_t, void *,
1.8.2.2  snj     void *, void *, void *, void *);
1.8.2.2  snj static struct veriexec_fpops *veriexec_fpops_lookup(const char *);
1.8.2.2  snj static void veriexec_file_free(struct veriexec_file_entry *);
1.8.2.2  snj
1.8.2.2  snj static unsigned int veriexec_tablecount = 0;
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Veriexec operations global lock - most ops hold this as a read
1.8.2.2  snj  * lock, it is upgraded to a write lock when destroying veriexec file
1.8.2.2  snj  * table entries.
1.8.2.2  snj  */
1.8.2.2  snj static krwlock_t veriexec_op_lock;
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Sysctl helper routine for Veriexec.
1.8.2.2  snj  */
1.8.2.2  snj static int
1.8.2.2  snj sysctl_kern_veriexec_algorithms(SYSCTLFN_ARGS)
1.8.2.2  snj {
1.8.2.2  snj 	size_t len;
1.8.2.2  snj 	int error;
1.8.2.2  snj 	const char *p;
1.8.2.2  snj
1.8.2.2  snj 	if (newp != NULL)
1.8.2.2  snj 		return EPERM;
1.8.2.2  snj
1.8.2.2  snj 	if (namelen != 0)
1.8.2.2  snj 		return EINVAL;
1.8.2.2  snj
1.8.2.2  snj 	p = veriexec_fp_names == NULL ? "" : veriexec_fp_names;
1.8.2.2  snj
1.8.2.2  snj 	len = strlen(p) + 1;
1.8.2.2  snj
1.8.2.2  snj 	if (*oldlenp < len && oldp)
1.8.2.2  snj 		return ENOMEM;
1.8.2.2  snj
1.8.2.2  snj 	if (oldp && (error = copyout(p, oldp, len)) != 0)
1.8.2.2  snj 		return error;
1.8.2.2  snj
1.8.2.2  snj 	*oldlenp = len;
1.8.2.2  snj 	return 0;
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static int
1.8.2.2  snj sysctl_kern_veriexec_strict(SYSCTLFN_ARGS)
1.8.2.2  snj {
1.8.2.2  snj 	struct sysctlnode node;
1.8.2.2  snj 	int error, newval;
1.8.2.2  snj
1.8.2.2  snj 	node = *rnode;
1.8.2.2  snj 	node.sysctl_data = &newval;
1.8.2.2  snj
1.8.2.2  snj 	newval = veriexec_strict;
1.8.2.2  snj 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
1.8.2.2  snj 	if (error || newp == NULL)
1.8.2.2  snj 		return error;
1.8.2.2  snj
1.8.2.2  snj 	if (newval < veriexec_strict)
1.8.2.2  snj 		return EPERM;
1.8.2.2  snj
1.8.2.2  snj 	veriexec_strict = newval;
1.8.2.2  snj
1.8.2.2  snj 	return 0;
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj SYSCTL_SETUP(sysctl_kern_veriexec_setup, "sysctl kern.veriexec setup")
1.8.2.2  snj {
1.8.2.2  snj 	const struct sysctlnode *rnode = NULL;
1.8.2.2  snj
1.8.2.2  snj 	sysctl_createv(clog, 0, NULL, &rnode,
1.8.2.2  snj 		       CTLFLAG_PERMANENT,
1.8.2.2  snj 		       CTLTYPE_NODE, "veriexec",
1.8.2.2  snj 		       SYSCTL_DESCR("Veriexec"),
1.8.2.2  snj 		       NULL, 0, NULL, 0,
1.8.2.2  snj 		       CTL_KERN, CTL_CREATE, CTL_EOL);
1.8.2.2  snj
1.8.2.2  snj 	sysctl_createv(clog, 0, &rnode, NULL,
1.8.2.2  snj 		       CTLFLAG_PERMANENT|CTLFLAG_READWRITE,
1.8.2.2  snj 		       CTLTYPE_INT, "verbose",
1.8.2.2  snj 		       SYSCTL_DESCR("Veriexec verbose level"),
1.8.2.2  snj 		       NULL, 0, &veriexec_verbose, 0,
1.8.2.2  snj 		       CTL_CREATE, CTL_EOL);
1.8.2.2  snj 	sysctl_createv(clog, 0, &rnode, NULL,
1.8.2.2  snj 		       CTLFLAG_PERMANENT|CTLFLAG_READWRITE,
1.8.2.2  snj 		       CTLTYPE_INT, "strict",
1.8.2.2  snj 		       SYSCTL_DESCR("Veriexec strict level"),
1.8.2.2  snj 		       sysctl_kern_veriexec_strict, 0, NULL, 0,
1.8.2.2  snj 		       CTL_CREATE, CTL_EOL);
1.8.2.2  snj 	sysctl_createv(clog, 0, &rnode, NULL,
1.8.2.2  snj 		       CTLFLAG_PERMANENT,
1.8.2.2  snj 		       CTLTYPE_STRING, "algorithms",
1.8.2.2  snj 		       SYSCTL_DESCR("Veriexec supported hashing "
1.8.2.2  snj 				    "algorithms"),
1.8.2.2  snj 		       sysctl_kern_veriexec_algorithms, 0, NULL, 0,
1.8.2.2  snj 		       CTL_CREATE, CTL_EOL);
1.8.2.2  snj 	sysctl_createv(clog, 0, &rnode, &veriexec_count_node,
1.8.2.2  snj 		       CTLFLAG_PERMANENT,
1.8.2.2  snj 		       CTLTYPE_NODE, "count",
1.8.2.2  snj 		       SYSCTL_DESCR("Number of fingerprints on mount(s)"),
1.8.2.2  snj 		       NULL, 0, NULL, 0,
1.8.2.2  snj 		       CTL_CREATE, CTL_EOL);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Add ops to the fignerprint ops vector list.
1.8.2.2  snj  */
1.8.2.2  snj int
1.8.2.2  snj veriexec_fpops_add(const char *fp_type, size_t hash_len, size_t ctx_size,
1.8.2.2  snj     veriexec_fpop_init_t init, veriexec_fpop_update_t update,
1.8.2.2  snj     veriexec_fpop_final_t final)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_fpops *ops;
1.8.2.2  snj
1.8.2.2  snj 	/* Sanity check all parameters. */
1.8.2.2  snj 	if ((fp_type == NULL) || (hash_len == 0) || (ctx_size == 0) ||
1.8.2.2  snj 	    (init == NULL) || (update == NULL) || (final == NULL))
1.8.2.2  snj 		return (EFAULT);
1.8.2.2  snj
1.8.2.2  snj 	if (veriexec_fpops_lookup(fp_type) != NULL)
1.8.2.2  snj 		return (EEXIST);
1.8.2.2  snj
1.8.2.2  snj 	ops = kmem_alloc(sizeof(*ops), KM_SLEEP);
1.8.2.2  snj
1.8.2.2  snj 	ops->type = fp_type;
1.8.2.2  snj 	ops->hash_len = hash_len;
1.8.2.2  snj 	ops->context_size = ctx_size;
1.8.2.2  snj 	ops->init = init;
1.8.2.2  snj 	ops->update = update;
1.8.2.2  snj 	ops->final = final;
1.8.2.2  snj
1.8.2.2  snj 	LIST_INSERT_HEAD(&veriexec_fpops_list, ops, entries);
1.8.2.2  snj
1.8.2.2  snj 	/*
1.8.2.2  snj 	 * If we don't have space for any names, allocate enough for six
1.8.2.2  snj 	 * which should be sufficient. (it's also enough for all algorithms
1.8.2.2  snj 	 * we can support at the moment)
1.8.2.2  snj 	 */
1.8.2.2  snj 	if (veriexec_fp_names == NULL) {
1.8.2.2  snj 		veriexec_name_max = 64;
1.8.2.2  snj 		veriexec_fp_names = kmem_zalloc(veriexec_name_max, KM_SLEEP);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	/*
1.8.2.2  snj 	 * If we're running out of space for storing supported algorithms,
1.8.2.2  snj 	 * extend the buffer with space for four names.
1.8.2.2  snj 	 */
1.8.2.2  snj 	while (veriexec_name_max - (strlen(veriexec_fp_names) + 1) <
1.8.2.2  snj 	    strlen(fp_type)) {
1.8.2.2  snj 		char *newp;
1.8.2.2  snj 		unsigned int new_max;
1.8.2.2  snj
1.8.2.2  snj 		/* Add space for four algorithm names. */
1.8.2.2  snj 		new_max = veriexec_name_max + 64;
1.8.2.2  snj 		newp = kmem_zalloc(new_max, KM_SLEEP);
1.8.2.2  snj 		strlcpy(newp, veriexec_fp_names, new_max);
1.8.2.2  snj 		kmem_free(veriexec_fp_names, veriexec_name_max);
1.8.2.2  snj 		veriexec_fp_names = newp;
1.8.2.2  snj 		veriexec_name_max = new_max;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	if (*veriexec_fp_names != '\0')
1.8.2.2  snj 		strlcat(veriexec_fp_names, " ", veriexec_name_max);
1.8.2.2  snj
1.8.2.2  snj 	strlcat(veriexec_fp_names, fp_type, veriexec_name_max);
1.8.2.2  snj
1.8.2.2  snj 	return (0);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static void
1.8.2.2  snj veriexec_mountspecific_dtor(void *v)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_table_entry *vte = v;
1.8.2.2  snj
1.8.2.2  snj 	if (vte == NULL) {
1.8.2.2  snj 		return;
1.8.2.2  snj 	}
1.8.2.2  snj 	sysctl_free(__UNCONST(vte->vte_node));
1.8.2.2  snj 	veriexec_tablecount--;
1.8.2.2  snj 	kmem_free(vte, sizeof(*vte));
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static int
1.8.2.2  snj veriexec_listener_cb(kauth_cred_t cred, kauth_action_t action, void *cookie,
1.8.2.2  snj     void *arg0, void *arg1, void *arg2, void *arg3)
1.8.2.2  snj {
1.8.2.2  snj 	int result;
1.8.2.2  snj 	enum kauth_system_req req;
1.8.2.2  snj
1.8.2.2  snj 	if (action != KAUTH_SYSTEM_VERIEXEC)
1.8.2.2  snj 		return KAUTH_RESULT_DEFER;
1.8.2.2  snj
1.8.2.2  snj 	result = KAUTH_RESULT_DEFER;
1.8.2.2  snj 	req = (enum kauth_system_req)arg0;
1.8.2.2  snj
1.8.2.2  snj 	if (req == KAUTH_REQ_SYSTEM_VERIEXEC_MODIFY &&
1.8.2.2  snj 	    veriexec_strict > VERIEXEC_LEARNING) {
1.8.2.2  snj 		log(LOG_WARNING, "Veriexec: Strict mode, modifying "
1.8.2.2  snj 		    "tables not permitted.\n");
1.8.2.2  snj
1.8.2.2  snj 		result = KAUTH_RESULT_DENY;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	return result;
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Initialise Veriexec.
1.8.2.2  snj  */
1.8.2.2  snj void
1.8.2.2  snj veriexec_init(void)
1.8.2.2  snj {
1.8.2.2  snj 	int error;
1.8.2.2  snj
1.8.2.2  snj 	/* Register a fileassoc for Veriexec. */
1.8.2.2  snj 	error = fileassoc_register("veriexec",
1.8.2.2  snj 	    (fileassoc_cleanup_cb_t)veriexec_file_free, &veriexec_hook);
1.8.2.2  snj 	if (error)
1.8.2.2  snj 		panic("Veriexec: Can't register fileassoc: error=%d", error);
1.8.2.2  snj
1.8.2.2  snj 	/* Register listener to handle raw disk access. */
1.8.2.2  snj 	if (kauth_listen_scope(KAUTH_SCOPE_DEVICE, veriexec_raw_cb, NULL) ==
1.8.2.2  snj 	    NULL)
1.8.2.2  snj 		panic("Veriexec: Can't listen on device scope");
1.8.2.2  snj
1.8.2.2  snj 	error = mount_specific_key_create(&veriexec_mountspecific_key,
1.8.2.2  snj 	    veriexec_mountspecific_dtor);
1.8.2.2  snj 	if (error)
1.8.2.2  snj 		panic("Veriexec: Can't create mountspecific key");
1.8.2.2  snj
1.8.2.2  snj 	if (kauth_listen_scope(KAUTH_SCOPE_SYSTEM, veriexec_listener_cb,
1.8.2.2  snj 	    NULL) == NULL)
1.8.2.2  snj 		panic("Veriexec: Can't listen on system scope");
1.8.2.2  snj
1.8.2.2  snj 	rw_init(&veriexec_op_lock);
1.8.2.2  snj
1.8.2.2  snj #define	FPOPS_ADD(a, b, c, d, e, f)	\
1.8.2.2  snj 	veriexec_fpops_add(a, b, c, (veriexec_fpop_init_t)d, \
1.8.2.2  snj 	 (veriexec_fpop_update_t)e, (veriexec_fpop_final_t)f)
1.8.2.2  snj
1.8.2.2  snj #ifdef VERIFIED_EXEC_FP_RMD160
1.8.2.2  snj 	FPOPS_ADD("RMD160", RMD160_DIGEST_LENGTH, sizeof(RMD160_CTX),
1.8.2.2  snj 	    RMD160Init, RMD160Update, RMD160Final);
1.8.2.2  snj #endif /* VERIFIED_EXEC_FP_RMD160 */
1.8.2.2  snj
1.8.2.2  snj #ifdef VERIFIED_EXEC_FP_SHA256
1.8.2.2  snj 	FPOPS_ADD("SHA256", SHA256_DIGEST_LENGTH, sizeof(SHA256_CTX),
1.8.2.2  snj 	    SHA256_Init, SHA256_Update, SHA256_Final);
1.8.2.2  snj #endif /* VERIFIED_EXEC_FP_SHA256 */
1.8.2.2  snj
1.8.2.2  snj #ifdef VERIFIED_EXEC_FP_SHA384
1.8.2.2  snj 	FPOPS_ADD("SHA384", SHA384_DIGEST_LENGTH, sizeof(SHA384_CTX),
1.8.2.2  snj 	    SHA384_Init, SHA384_Update, SHA384_Final);
1.8.2.2  snj #endif /* VERIFIED_EXEC_FP_SHA384 */
1.8.2.2  snj
1.8.2.2  snj #ifdef VERIFIED_EXEC_FP_SHA512
1.8.2.2  snj 	FPOPS_ADD("SHA512", SHA512_DIGEST_LENGTH, sizeof(SHA512_CTX),
1.8.2.2  snj 	    SHA512_Init, SHA512_Update, SHA512_Final);
1.8.2.2  snj #endif /* VERIFIED_EXEC_FP_SHA512 */
1.8.2.2  snj
1.8.2.2  snj #ifdef VERIFIED_EXEC_FP_SHA1
1.8.2.2  snj 	FPOPS_ADD("SHA1", SHA1_DIGEST_LENGTH, sizeof(SHA1_CTX),
1.8.2.2  snj 	    SHA1Init, SHA1Update, SHA1Final);
1.8.2.2  snj #endif /* VERIFIED_EXEC_FP_SHA1 */
1.8.2.2  snj
1.8.2.2  snj #ifdef VERIFIED_EXEC_FP_MD5
1.8.2.2  snj 	FPOPS_ADD("MD5", MD5_DIGEST_LENGTH, sizeof(MD5_CTX),
1.8.2.2  snj 	    MD5Init, MD5Update, MD5Final);
1.8.2.2  snj #endif /* VERIFIED_EXEC_FP_MD5 */
1.8.2.2  snj
1.8.2.2  snj #undef FPOPS_ADD
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static struct veriexec_fpops *
1.8.2.2  snj veriexec_fpops_lookup(const char *name)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_fpops *ops;
1.8.2.2  snj
1.8.2.2  snj 	if (name == NULL)
1.8.2.2  snj 		return (NULL);
1.8.2.2  snj
1.8.2.2  snj 	LIST_FOREACH(ops, &veriexec_fpops_list, entries) {
1.8.2.2  snj 		if (strcasecmp(name, ops->type) == 0)
1.8.2.2  snj 			return (ops);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	return (NULL);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Calculate fingerprint. Information on hash length and routines used is
1.8.2.2  snj  * extracted from veriexec_hash_list according to the hash type.
1.8.2.2  snj  *
1.8.2.2  snj  * NOTE: vfe is assumed to be locked for writing on entry.
1.8.2.2  snj  */
1.8.2.2  snj static int
1.8.2.2  snj veriexec_fp_calc(struct lwp *l, struct vnode *vp, int file_lock_state,
1.8.2.2  snj     struct veriexec_file_entry *vfe, u_char *fp)
1.8.2.2  snj {
1.8.2.2  snj 	struct vattr va;
1.8.2.2  snj 	void *ctx, *page_ctx;
1.8.2.2  snj 	u_char *buf, *page_fp;
1.8.2.2  snj 	off_t offset, len;
1.8.2.2  snj 	size_t resid, npages;
1.8.2.2  snj 	int error, do_perpage, pagen;
1.8.2.2  snj
1.8.2.2  snj 	KASSERT(file_lock_state != VERIEXEC_LOCKED);
1.8.2.2  snj 	KASSERT(file_lock_state != VERIEXEC_UNLOCKED);
1.8.2.2  snj
1.8.2.2  snj 	if (file_lock_state == VERIEXEC_FILE_UNLOCKED)
1.8.2.2  snj 		vn_lock(vp, LK_SHARED | LK_RETRY);
1.8.2.2  snj 	error = VOP_GETATTR(vp, &va, l->l_cred);
1.8.2.2  snj 	if (file_lock_state == VERIEXEC_FILE_UNLOCKED)
1.8.2.2  snj 		VOP_UNLOCK(vp);
1.8.2.2  snj 	if (error)
1.8.2.2  snj 		return (error);
1.8.2.2  snj
1.8.2.2  snj #ifdef notyet /* XXX - for now */
1.8.2.2  snj 	if ((vfe->type & VERIEXEC_UNTRUSTED) &&
1.8.2.2  snj 	    (vfe->page_fp_status == PAGE_FP_NONE))
1.8.2.2  snj 		do_perpage = 1;
1.8.2.2  snj 	else
1.8.2.2  snj #endif  /* notyet */
1.8.2.2  snj 		do_perpage = 0;
1.8.2.2  snj
1.8.2.2  snj 	ctx = kmem_alloc(vfe->ops->context_size, KM_SLEEP);
1.8.2.2  snj 	buf = kmem_alloc(PAGE_SIZE, KM_SLEEP);
1.8.2.2  snj
1.8.2.2  snj 	page_ctx = NULL;
1.8.2.2  snj 	page_fp = NULL;
1.8.2.2  snj 	npages = 0;
1.8.2.2  snj 	if (do_perpage) {
1.8.2.2  snj 		npages = (va.va_size >> PAGE_SHIFT) + 1;
1.8.2.2  snj 		page_fp = kmem_alloc(vfe->ops->hash_len * npages, KM_SLEEP);
1.8.2.2  snj 		vfe->page_fp = page_fp;
1.8.2.2  snj 		page_ctx = kmem_alloc(vfe->ops->context_size, KM_SLEEP);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	(vfe->ops->init)(ctx);
1.8.2.2  snj
1.8.2.2  snj 	len = 0;
1.8.2.2  snj 	error = 0;
1.8.2.2  snj 	pagen = 0;
1.8.2.2  snj 	for (offset = 0; offset < va.va_size; offset += PAGE_SIZE) {
1.8.2.2  snj 		len = ((va.va_size - offset) < PAGE_SIZE) ?
1.8.2.2  snj 		    (va.va_size - offset) : PAGE_SIZE;
1.8.2.2  snj
1.8.2.2  snj 		error = vn_rdwr(UIO_READ, vp, buf, len, offset,
1.8.2.2  snj 				UIO_SYSSPACE,
1.8.2.2  snj 				((file_lock_state == VERIEXEC_FILE_LOCKED)?
1.8.2.2  snj 				 IO_NODELOCKED : 0),
1.8.2.2  snj 				l->l_cred, &resid, NULL);
1.8.2.2  snj
1.8.2.2  snj 		if (error) {
1.8.2.2  snj 			if (do_perpage) {
1.8.2.2  snj 				kmem_free(vfe->page_fp,
1.8.2.2  snj 				    vfe->ops->hash_len * npages);
1.8.2.2  snj 				vfe->page_fp = NULL;
1.8.2.2  snj 			}
1.8.2.2  snj
1.8.2.2  snj 			goto bad;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		(vfe->ops->update)(ctx, buf, (unsigned int) len);
1.8.2.2  snj
1.8.2.2  snj 		if (do_perpage) {
1.8.2.2  snj 			(vfe->ops->init)(page_ctx);
1.8.2.2  snj 			(vfe->ops->update)(page_ctx, buf, (unsigned int)len);
1.8.2.2  snj 			(vfe->ops->final)(page_fp, page_ctx);
1.8.2.2  snj
1.8.2.2  snj 			if (veriexec_verbose >= 2) {
1.8.2.2  snj 				int i;
1.8.2.2  snj
1.8.2.2  snj 				printf("hash for page %d: ", pagen);
1.8.2.2  snj 				for (i = 0; i < vfe->ops->hash_len; i++)
1.8.2.2  snj 					printf("%02x", page_fp[i]);
1.8.2.2  snj 				printf("\n");
1.8.2.2  snj 			}
1.8.2.2  snj
1.8.2.2  snj 			page_fp += vfe->ops->hash_len;
1.8.2.2  snj 			pagen++;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		if (len != PAGE_SIZE)
1.8.2.2  snj 			break;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	(vfe->ops->final)(fp, ctx);
1.8.2.2  snj
1.8.2.2  snj 	if (do_perpage) {
1.8.2.2  snj 		vfe->last_page_size = len;
1.8.2.2  snj 		vfe->page_fp_status = PAGE_FP_READY;
1.8.2.2  snj 		vfe->npages = npages;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj bad:
1.8.2.2  snj 	if (do_perpage)
1.8.2.2  snj 		kmem_free(page_ctx, vfe->ops->context_size);
1.8.2.2  snj
1.8.2.2  snj 	kmem_free(ctx, vfe->ops->context_size);
1.8.2.2  snj 	kmem_free(buf, PAGE_SIZE);
1.8.2.2  snj
1.8.2.2  snj 	return (error);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /* Compare two fingerprints of the same type. */
1.8.2.2  snj static int
1.8.2.2  snj veriexec_fp_cmp(struct veriexec_fpops *ops, u_char *fp1, u_char *fp2)
1.8.2.2  snj {
1.8.2.2  snj 	if (veriexec_verbose >= 2) {
1.8.2.2  snj 		int i;
1.8.2.2  snj
1.8.2.2  snj 		printf("comparing hashes...\n");
1.8.2.2  snj 		printf("fp1: ");
1.8.2.2  snj 		for (i = 0; i < ops->hash_len; i++) {
1.8.2.2  snj 			printf("%02x", fp1[i]);
1.8.2.2  snj 		}
1.8.2.2  snj 		printf("\nfp2: ");
1.8.2.2  snj 		for (i = 0; i < ops->hash_len; i++) {
1.8.2.2  snj 			printf("%02x", fp2[i]);
1.8.2.2  snj 		}
1.8.2.2  snj 		printf("\n");
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	return (memcmp(fp1, fp2, ops->hash_len));
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static int
1.8.2.2  snj veriexec_fp_status(struct lwp *l, struct vnode *vp, int file_lock_state,
1.8.2.2  snj     struct veriexec_file_entry *vfe, u_char *status)
1.8.2.2  snj {
1.8.2.2  snj 	size_t hash_len = vfe->ops->hash_len;
1.8.2.2  snj 	u_char *digest;
1.8.2.2  snj 	int error = 0;
1.8.2.2  snj
1.8.2.2  snj 	digest = kmem_zalloc(hash_len, KM_SLEEP);
1.8.2.2  snj
1.8.2.2  snj 	error = veriexec_fp_calc(l, vp, file_lock_state, vfe, digest);
1.8.2.2  snj 	if (error)
1.8.2.2  snj 		goto out;
1.8.2.2  snj
1.8.2.2  snj 	/* Compare fingerprint with loaded data. */
1.8.2.2  snj 	if (veriexec_fp_cmp(vfe->ops, vfe->fp, digest) == 0)
1.8.2.2  snj 		*status = FINGERPRINT_VALID;
1.8.2.2  snj 	else
1.8.2.2  snj 		*status = FINGERPRINT_NOMATCH;
1.8.2.2  snj
1.8.2.2  snj out:
1.8.2.2  snj 	kmem_free(digest, hash_len);
1.8.2.2  snj 	return error;
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj
1.8.2.2  snj static struct veriexec_table_entry *
1.8.2.2  snj veriexec_table_lookup(struct mount *mp)
1.8.2.2  snj {
1.8.2.2  snj 	/* XXX: From raidframe init */
1.8.2.2  snj 	if (mp == NULL)
1.8.2.2  snj 		return NULL;
1.8.2.2  snj
1.8.2.2  snj 	return mount_getspecific(mp, veriexec_mountspecific_key);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static struct veriexec_file_entry *
1.8.2.2  snj veriexec_get(struct vnode *vp)
1.8.2.2  snj {
1.8.2.2  snj 	return (fileassoc_lookup(vp, veriexec_hook));
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj bool
1.8.2.2  snj veriexec_lookup(struct vnode *vp)
1.8.2.2  snj {
1.8.2.2  snj 	return (veriexec_get(vp) == NULL ? false : true);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Routine for maintaining mostly consistent message formats in Veriexec.
1.8.2.2  snj  */
1.8.2.2  snj static void
1.8.2.2  snj veriexec_file_report(struct veriexec_file_entry *vfe, const u_char *msg,
1.8.2.2  snj     const u_char *filename, struct lwp *l, int f)
1.8.2.2  snj {
1.8.2.2  snj 	if (vfe != NULL && vfe->filename != NULL)
1.8.2.2  snj 		filename = vfe->filename;
1.8.2.2  snj
1.8.2.2  snj 	if (filename == NULL)
1.8.2.2  snj 		return;
1.8.2.2  snj
1.8.2.2  snj 	if (((f & REPORT_LOGMASK) >> 1) <= veriexec_verbose) {
1.8.2.2  snj 		if (!(f & REPORT_ALARM) || (l == NULL))
1.8.2.2  snj 			log(LOG_NOTICE, "Veriexec: %s [%s]\n", msg,
1.8.2.2  snj 			    filename);
1.8.2.2  snj 		else
1.8.2.2  snj 			log(LOG_ALERT, "Veriexec: %s [%s, prog=%s pid=%u, "
1.8.2.2  snj 			    "uid=%u, gid=%u]\n", msg, filename,
1.8.2.2  snj 			    l->l_proc->p_comm, l->l_proc->p_pid,
1.8.2.2  snj 			    kauth_cred_getuid(l->l_cred),
1.8.2.2  snj 			    kauth_cred_getgid(l->l_cred));
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	if (f & REPORT_PANIC)
1.8.2.2  snj 		panic("Veriexec: Unrecoverable error.");
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Verify the fingerprint of the given file. If we're called directly from
1.8.2.2  snj  * sys_execve(), 'flag' will be VERIEXEC_DIRECT. If we're called from
1.8.2.2  snj  * exec_script(), 'flag' will be VERIEXEC_INDIRECT.  If we are called from
1.8.2.2  snj  * vn_open(), 'flag' will be VERIEXEC_FILE.
1.8.2.2  snj  *
1.8.2.2  snj  * 'veriexec_op_lock' must be locked (and remains locked).
1.8.2.2  snj  *
1.8.2.2  snj  * NOTE: The veriexec file entry pointer (vfep) will be returned LOCKED
1.8.2.2  snj  *       on no error.
1.8.2.2  snj  */
1.8.2.2  snj static int
1.8.2.2  snj veriexec_file_verify(struct lwp *l, struct vnode *vp, const u_char *name,
1.8.2.2  snj     int flag, int file_lock_state, struct veriexec_file_entry **vfep)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_file_entry *vfe;
1.8.2.2  snj 	int error = 0;
1.8.2.2  snj
1.8.2.2  snj 	KASSERT(rw_lock_held(&veriexec_op_lock));
1.8.2.2  snj 	KASSERT(file_lock_state != VERIEXEC_LOCKED);
1.8.2.2  snj 	KASSERT(file_lock_state != VERIEXEC_UNLOCKED);
1.8.2.2  snj
1.8.2.2  snj #define VFE_NEEDS_EVAL(vfe) ((vfe->status == FINGERPRINT_NOTEVAL) || \
1.8.2.2  snj 			     (vfe->type & VERIEXEC_UNTRUSTED))
1.8.2.2  snj
1.8.2.2  snj 	if (vfep != NULL)
1.8.2.2  snj 		*vfep = NULL;
1.8.2.2  snj
1.8.2.2  snj 	if (vp->v_type != VREG)
1.8.2.2  snj 		return (0);
1.8.2.2  snj
1.8.2.2  snj 	/* Lookup veriexec table entry, save pointer if requested. */
1.8.2.2  snj 	vfe = veriexec_get(vp);
1.8.2.2  snj 	if (vfep != NULL)
1.8.2.2  snj 		*vfep = vfe;
1.8.2.2  snj
1.8.2.2  snj 	/* No entry in the veriexec tables. */
1.8.2.2  snj 	if (vfe == NULL) {
1.8.2.2  snj 		veriexec_file_report(NULL, "No entry.", name,
1.8.2.2  snj 		    l, REPORT_VERBOSE);
1.8.2.2  snj
1.8.2.2  snj 		/*
1.8.2.2  snj 		 * Lockdown mode: Deny access to non-monitored files.
1.8.2.2  snj 		 * IPS mode: Deny execution of non-monitored files.
1.8.2.2  snj 		 */
1.8.2.2  snj 		if ((veriexec_strict >= VERIEXEC_LOCKDOWN) ||
1.8.2.2  snj 		    ((veriexec_strict >= VERIEXEC_IPS) &&
1.8.2.2  snj 		     (flag != VERIEXEC_FILE)))
1.8.2.2  snj 			return (EPERM);
1.8.2.2  snj
1.8.2.2  snj 		return (0);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	/*
1.8.2.2  snj 	 * Grab the lock for the entry, if we need to do an evaluation
1.8.2.2  snj 	 * then the lock is a write lock, after we have the write
1.8.2.2  snj 	 * lock, check if we really need it - some other thread may
1.8.2.2  snj 	 * have already done the work for us.
1.8.2.2  snj 	 */
1.8.2.2  snj 	if (VFE_NEEDS_EVAL(vfe)) {
1.8.2.2  snj 		rw_enter(&vfe->lock, RW_WRITER);
1.8.2.2  snj 		if (!VFE_NEEDS_EVAL(vfe))
1.8.2.2  snj 			rw_downgrade(&vfe->lock);
1.8.2.2  snj 	} else
1.8.2.2  snj 		rw_enter(&vfe->lock, RW_READER);
1.8.2.2  snj
1.8.2.2  snj 	/* Evaluate fingerprint if needed. */
1.8.2.2  snj 	if (VFE_NEEDS_EVAL(vfe)) {
1.8.2.2  snj 		u_char status;
1.8.2.2  snj
1.8.2.2  snj 		error = veriexec_fp_status(l, vp, file_lock_state, vfe, &status);
1.8.2.2  snj 		if (error) {
1.8.2.2  snj 			veriexec_file_report(vfe, "Fingerprint calculation error.",
1.8.2.2  snj 			    name, NULL, REPORT_ALWAYS);
1.8.2.2  snj 			rw_exit(&vfe->lock);
1.8.2.2  snj 			return (error);
1.8.2.2  snj 		}
1.8.2.2  snj 		vfe->status = status;
1.8.2.2  snj 		rw_downgrade(&vfe->lock);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	if (!(vfe->type & flag)) {
1.8.2.2  snj 		veriexec_file_report(vfe, "Incorrect access type.", name, l,
1.8.2.2  snj 		    REPORT_ALWAYS|REPORT_ALARM);
1.8.2.2  snj
1.8.2.2  snj 		/* IPS mode: Enforce access type. */
1.8.2.2  snj 		if (veriexec_strict >= VERIEXEC_IPS) {
1.8.2.2  snj 			rw_exit(&vfe->lock);
1.8.2.2  snj 			return (EPERM);
1.8.2.2  snj 		}
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	switch (vfe->status) {
1.8.2.2  snj 	case FINGERPRINT_NOTEVAL:
1.8.2.2  snj 		/* Should not happen. */
1.8.2.2  snj 		rw_exit(&vfe->lock);
1.8.2.2  snj 		veriexec_file_report(vfe, "Not-evaluated status "
1.8.2.2  snj 		    "post evaluation; inconsistency detected.", name,
1.8.2.2  snj 		    NULL, REPORT_ALWAYS|REPORT_PANIC);
1.8.2.2  snj 		/* NOTREACHED */
1.8.2.2  snj
1.8.2.2  snj 	case FINGERPRINT_VALID:
1.8.2.2  snj 		/* Valid fingerprint. */
1.8.2.2  snj 		veriexec_file_report(vfe, "Match.", name, NULL,
1.8.2.2  snj 		    REPORT_VERBOSE);
1.8.2.2  snj
1.8.2.2  snj 		break;
1.8.2.2  snj
1.8.2.2  snj 	case FINGERPRINT_NOMATCH:
1.8.2.2  snj 		/* Fingerprint mismatch. */
1.8.2.2  snj 		veriexec_file_report(vfe, "Mismatch.", name,
1.8.2.2  snj 		    NULL, REPORT_ALWAYS|REPORT_ALARM);
1.8.2.2  snj
1.8.2.2  snj 		/* IDS mode: Deny access on fingerprint mismatch. */
1.8.2.2  snj 		if (veriexec_strict >= VERIEXEC_IDS) {
1.8.2.2  snj 			rw_exit(&vfe->lock);
1.8.2.2  snj 			error = EPERM;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		break;
1.8.2.2  snj
1.8.2.2  snj 	default:
1.8.2.2  snj 		/* Should never happen. */
1.8.2.2  snj 		rw_exit(&vfe->lock);
1.8.2.2  snj 		veriexec_file_report(vfe, "Invalid status "
1.8.2.2  snj 		    "post evaluation.", name, NULL, REPORT_ALWAYS|REPORT_PANIC);
1.8.2.2  snj 		/* NOTREACHED */
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	return (error);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj int
1.8.2.2  snj veriexec_verify(struct lwp *l, struct vnode *vp, const u_char *name, int flag,
1.8.2.2  snj     bool *found)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_file_entry *vfe;
1.8.2.2  snj 	int r;
1.8.2.2  snj
1.8.2.2  snj 	if (veriexec_bypass && (veriexec_strict == VERIEXEC_LEARNING))
1.8.2.2  snj 		return 0;
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_READER);
1.8.2.2  snj 	r = veriexec_file_verify(l, vp, name, flag, VERIEXEC_FILE_UNLOCKED,
1.8.2.2  snj 	    &vfe);
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj
1.8.2.2  snj 	if ((r  == 0) && (vfe != NULL))
1.8.2.2  snj 		rw_exit(&vfe->lock);
1.8.2.2  snj
1.8.2.2  snj 	if (found != NULL)
1.8.2.2  snj 		*found = (vfe != NULL) ? true : false;
1.8.2.2  snj
1.8.2.2  snj 	return (r);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj #ifdef notyet
1.8.2.2  snj /*
1.8.2.2  snj  * Evaluate per-page fingerprints.
1.8.2.2  snj  */
1.8.2.2  snj int
1.8.2.2  snj veriexec_page_verify(struct veriexec_file_entry *vfe, struct vm_page *pg,
1.8.2.2  snj     size_t idx, struct lwp *l)
1.8.2.2  snj {
1.8.2.2  snj 	void *ctx;
1.8.2.2  snj 	u_char *fp;
1.8.2.2  snj 	u_char *page_fp;
1.8.2.2  snj 	int error;
1.8.2.2  snj 	vaddr_t kva;
1.8.2.2  snj
1.8.2.2  snj 	if (vfe->page_fp_status == PAGE_FP_NONE)
1.8.2.2  snj 		return (0);
1.8.2.2  snj
1.8.2.2  snj 	if (vfe->page_fp_status == PAGE_FP_FAIL)
1.8.2.2  snj 		return (EPERM);
1.8.2.2  snj
1.8.2.2  snj 	if (idx >= vfe->npages)
1.8.2.2  snj 		return (0);
1.8.2.2  snj
1.8.2.2  snj 	ctx = kmem_alloc(vfe->ops->context_size, KM_SLEEP);
1.8.2.2  snj 	fp = kmem_alloc(vfe->ops->hash_len, KM_SLEEP);
1.8.2.2  snj 	kva = uvm_km_alloc(kernel_map, PAGE_SIZE, VM_PGCOLOR_BUCKET(pg),
1.8.2.2  snj 	    UVM_KMF_COLORMATCH | UVM_KMF_VAONLY | UVM_KMF_WAITVA);
1.8.2.2  snj 	pmap_kenter_pa(kva, VM_PAGE_TO_PHYS(pg), VM_PROT_READ, 0);
1.8.2.2  snj 	pmap_update(pmap_kernel());
1.8.2.2  snj
1.8.2.2  snj 	page_fp = (u_char *) vfe->page_fp + (vfe->ops->hash_len * idx);
1.8.2.2  snj 	(vfe->ops->init)(ctx);
1.8.2.2  snj 	(vfe->ops->update)(ctx, (void *) kva,
1.8.2.2  snj 			   ((vfe->npages - 1) == idx) ? vfe->last_page_size
1.8.2.2  snj 						      : PAGE_SIZE);
1.8.2.2  snj 	(vfe->ops->final)(fp, ctx);
1.8.2.2  snj
1.8.2.2  snj 	pmap_kremove(kva, PAGE_SIZE);
1.8.2.2  snj 	pmap_update(pmap_kernel());
1.8.2.2  snj 	uvm_km_free(kernel_map, kva, PAGE_SIZE, UVM_KMF_VAONLY);
1.8.2.2  snj
1.8.2.2  snj 	error = veriexec_fp_cmp(vfe->ops, page_fp, fp);
1.8.2.2  snj 	if (error) {
1.8.2.2  snj 		const char *msg;
1.8.2.2  snj
1.8.2.2  snj 		if (veriexec_strict > VERIEXEC_LEARNING) {
1.8.2.2  snj 			msg = "Pages modified: Killing process.";
1.8.2.2  snj 		} else {
1.8.2.2  snj 			msg = "Pages modified.";
1.8.2.2  snj 			error = 0;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		veriexec_file_report(msg, "[page_in]", l,
1.8.2.2  snj 		    REPORT_ALWAYS|REPORT_ALARM);
1.8.2.2  snj
1.8.2.2  snj 		if (error) {
1.8.2.2  snj 			ksiginfo_t ksi;
1.8.2.2  snj
1.8.2.2  snj 			KSI_INIT(&ksi);
1.8.2.2  snj 			ksi.ksi_signo = SIGKILL;
1.8.2.2  snj 			ksi.ksi_code = SI_NOINFO;
1.8.2.2  snj 			ksi.ksi_pid = l->l_proc->p_pid;
1.8.2.2  snj 			ksi.ksi_uid = 0;
1.8.2.2  snj
1.8.2.2  snj 			kpsignal(l->l_proc, &ksi, NULL);
1.8.2.2  snj 		}
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	kmem_free(ctx, vfe->ops->context_size);
1.8.2.2  snj 	kmem_free(fp, vfe->ops->hash_len);
1.8.2.2  snj
1.8.2.2  snj 	return (error);
1.8.2.2  snj }
1.8.2.2  snj #endif /* notyet */
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Veriexec remove policy code.
1.8.2.2  snj  */
1.8.2.2  snj int
1.8.2.2  snj veriexec_removechk(struct lwp *l, struct vnode *vp, const char *pathbuf)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_file_entry *vfe;
1.8.2.2  snj 	int error;
1.8.2.2  snj
1.8.2.2  snj 	if (veriexec_bypass && (veriexec_strict == VERIEXEC_LEARNING))
1.8.2.2  snj 		return 0;
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_READER);
1.8.2.2  snj 	vfe = veriexec_get(vp);
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj
1.8.2.2  snj 	if (vfe == NULL) {
1.8.2.2  snj 		/* Lockdown mode: Deny access to non-monitored files. */
1.8.2.2  snj 		if (veriexec_strict >= VERIEXEC_LOCKDOWN)
1.8.2.2  snj 			return (EPERM);
1.8.2.2  snj
1.8.2.2  snj 		return (0);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	veriexec_file_report(vfe, "Remove request.", pathbuf, l,
1.8.2.2  snj 	    REPORT_ALWAYS|REPORT_ALARM);
1.8.2.2  snj
1.8.2.2  snj 	/* IDS mode: Deny removal of monitored files. */
1.8.2.2  snj 	if (veriexec_strict >= VERIEXEC_IDS)
1.8.2.2  snj 		error = EPERM;
1.8.2.2  snj 	else
1.8.2.2  snj 		error = veriexec_file_delete(l, vp);
1.8.2.2  snj
1.8.2.2  snj 	return error;
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Veriexec rename policy.
1.8.2.2  snj  *
1.8.2.2  snj  * XXX: Once there's a way to hook after a successful rename, it would be
1.8.2.2  snj  * XXX: nice to update vfe->filename to the new name if it's not NULL and
1.8.2.2  snj  * XXX: the new name is absolute (ie., starts with a slash).
1.8.2.2  snj  */
1.8.2.2  snj int
1.8.2.2  snj veriexec_renamechk(struct lwp *l, struct vnode *fromvp, const char *fromname,
1.8.2.2  snj     struct vnode *tovp, const char *toname)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_file_entry *fvfe = NULL, *tvfe = NULL;
1.8.2.2  snj
1.8.2.2  snj 	if (veriexec_bypass && (veriexec_strict == VERIEXEC_LEARNING))
1.8.2.2  snj 		return 0;
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_READER);
1.8.2.2  snj
1.8.2.2  snj 	if (veriexec_strict >= VERIEXEC_LOCKDOWN) {
1.8.2.2  snj 		log(LOG_ALERT, "Veriexec: Preventing rename of `%s' to "
1.8.2.2  snj 		    "`%s', uid=%u, pid=%u: Lockdown mode.\n", fromname, toname,
1.8.2.2  snj 		    kauth_cred_geteuid(l->l_cred), l->l_proc->p_pid);
1.8.2.2  snj 		rw_exit(&veriexec_op_lock);
1.8.2.2  snj 		return (EPERM);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	fvfe = veriexec_get(fromvp);
1.8.2.2  snj 	if (tovp != NULL)
1.8.2.2  snj 		tvfe = veriexec_get(tovp);
1.8.2.2  snj
1.8.2.2  snj 	if ((fvfe == NULL) && (tvfe == NULL)) {
1.8.2.2  snj 		/* None of them is monitored */
1.8.2.2  snj 		rw_exit(&veriexec_op_lock);
1.8.2.2  snj 		return 0;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	if (veriexec_strict >= VERIEXEC_IPS) {
1.8.2.2  snj 		log(LOG_ALERT, "Veriexec: Preventing rename of `%s' "
1.8.2.2  snj 		    "to `%s', uid=%u, pid=%u: IPS mode, %s "
1.8.2.2  snj 		    "monitored.\n", fromname, toname,
1.8.2.2  snj 		    kauth_cred_geteuid(l->l_cred),
1.8.2.2  snj 		    l->l_proc->p_pid, (fvfe != NULL && tvfe != NULL) ?
1.8.2.2  snj 		    "files" : "file");
1.8.2.2  snj 		rw_exit(&veriexec_op_lock);
1.8.2.2  snj 		return (EPERM);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	if (fvfe != NULL) {
1.8.2.2  snj 		/*
1.8.2.2  snj 		 * Monitored file is renamed; filename no longer relevant.
1.8.2.2  snj 		 */
1.8.2.2  snj
1.8.2.2  snj 		/*
1.8.2.2  snj 		 * XXX: We could keep the buffer, and when (and if) updating the
1.8.2.2  snj 		 * XXX: filename post-rename, re-allocate it only if it's not
1.8.2.2  snj 		 * XXX: big enough for the new filename.
1.8.2.2  snj 		 */
1.8.2.2  snj
1.8.2.2  snj 		/* XXX: Get write lock on fvfe here? */
1.8.2.2  snj
1.8.2.2  snj 		VERIEXEC_RW_UPGRADE(&veriexec_op_lock);
1.8.2.2  snj 		/* once we have the op lock in write mode
1.8.2.2  snj 		 * there should be no locks on any file
1.8.2.2  snj 		 * entries so we can destroy the object.
1.8.2.2  snj 		 */
1.8.2.2  snj
1.8.2.2  snj 		if (fvfe->filename_len > 0)
1.8.2.2  snj 			kmem_free(fvfe->filename, fvfe->filename_len);
1.8.2.2  snj
1.8.2.2  snj 		fvfe->filename = NULL;
1.8.2.2  snj 		fvfe->filename_len = 0;
1.8.2.2  snj
1.8.2.2  snj 		rw_downgrade(&veriexec_op_lock);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	log(LOG_NOTICE, "Veriexec: %s file `%s' renamed to "
1.8.2.2  snj 	    "%s file `%s', uid=%u, pid=%u.\n", (fvfe != NULL) ?
1.8.2.2  snj 	    "Monitored" : "Non-monitored", fromname, (tvfe != NULL) ?
1.8.2.2  snj 	    "monitored" : "non-monitored", toname,
1.8.2.2  snj 	    kauth_cred_geteuid(l->l_cred), l->l_proc->p_pid);
1.8.2.2  snj
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj
1.8.2.2  snj 	if (tvfe != NULL) {
1.8.2.2  snj 		/*
1.8.2.2  snj 		 * Monitored file is overwritten. Remove the entry.
1.8.2.2  snj 		 */
1.8.2.2  snj 		(void)veriexec_file_delete(l, tovp);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	return (0);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static void
1.8.2.2  snj veriexec_file_free(struct veriexec_file_entry *vfe)
1.8.2.2  snj {
1.8.2.2  snj 	if (vfe != NULL) {
1.8.2.2  snj 		if (vfe->fp != NULL)
1.8.2.2  snj 			kmem_free(vfe->fp, vfe->ops->hash_len);
1.8.2.2  snj 		if (vfe->page_fp != NULL)
1.8.2.2  snj 			kmem_free(vfe->page_fp, vfe->ops->hash_len);
1.8.2.2  snj 		if (vfe->filename != NULL)
1.8.2.2  snj 			kmem_free(vfe->filename, vfe->filename_len);
1.8.2.2  snj 		rw_destroy(&vfe->lock);
1.8.2.2  snj 		kmem_free(vfe, sizeof(*vfe));
1.8.2.2  snj 	}
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static void
1.8.2.2  snj veriexec_file_purge(struct veriexec_file_entry *vfe, int have_lock)
1.8.2.2  snj {
1.8.2.2  snj 	if (vfe == NULL)
1.8.2.2  snj 		return;
1.8.2.2  snj
1.8.2.2  snj 	if (have_lock == VERIEXEC_UNLOCKED)
1.8.2.2  snj 		rw_enter(&vfe->lock, RW_WRITER);
1.8.2.2  snj 	else
1.8.2.2  snj 		VERIEXEC_RW_UPGRADE(&vfe->lock);
1.8.2.2  snj
1.8.2.2  snj 	vfe->status = FINGERPRINT_NOTEVAL;
1.8.2.2  snj 	if (have_lock == VERIEXEC_UNLOCKED)
1.8.2.2  snj 		rw_exit(&vfe->lock);
1.8.2.2  snj 	else
1.8.2.2  snj 		rw_downgrade(&vfe->lock);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static void
1.8.2.2  snj veriexec_file_purge_cb(struct veriexec_file_entry *vfe, void *cookie)
1.8.2.2  snj {
1.8.2.2  snj 	veriexec_file_purge(vfe, VERIEXEC_UNLOCKED);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Invalidate a Veriexec file entry.
1.8.2.2  snj  * XXX: This should be updated when per-page fingerprints are added.
1.8.2.2  snj  */
1.8.2.2  snj void
1.8.2.2  snj veriexec_purge(struct vnode *vp)
1.8.2.2  snj {
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_READER);
1.8.2.2  snj 	veriexec_file_purge(veriexec_get(vp), VERIEXEC_UNLOCKED);
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Enforce raw disk access policy.
1.8.2.2  snj  *
1.8.2.2  snj  * IDS mode: Invalidate fingerprints on a mount if it's opened for writing.
1.8.2.2  snj  * IPS mode: Don't allow raw writing to disks we monitor.
1.8.2.2  snj  * Lockdown mode: Don't allow raw writing to all disks.
1.8.2.2  snj  *
1.8.2.2  snj  * XXX: This is bogus. There's an obvious race condition between the time
1.8.2.2  snj  * XXX: the disk is open for writing, in which an attacker can access a
1.8.2.2  snj  * XXX: monitored file to get its signature cached again, and when the raw
1.8.2.2  snj  * XXX: file is overwritten on disk.
1.8.2.2  snj  * XXX:
1.8.2.2  snj  * XXX: To solve this, we need something like the following:
1.8.2.2  snj  * XXX:		open raw disk:
1.8.2.2  snj  * XXX:		  - raise refcount,
1.8.2.2  snj  * XXX:		  - invalidate fingerprints,
1.8.2.2  snj  * XXX:		  - mark all entries for that disk with "no cache" flag
1.8.2.2  snj  * XXX:
1.8.2.2  snj  * XXX:		veriexec_verify:
1.8.2.2  snj  * XXX:		  - if "no cache", don't cache evaluation result
1.8.2.2  snj  * XXX:
1.8.2.2  snj  * XXX:		close raw disk:
1.8.2.2  snj  * XXX:		  - lower refcount,
1.8.2.2  snj  * XXX:		  - if refcount == 0, remove "no cache" flag from all entries
1.8.2.2  snj  */
1.8.2.2  snj static int
1.8.2.2  snj veriexec_raw_cb(kauth_cred_t cred, kauth_action_t action, void *cookie,
1.8.2.2  snj     void *arg0, void *arg1, void *arg2, void *arg3)
1.8.2.2  snj {
1.8.2.2  snj 	int result;
1.8.2.2  snj 	enum kauth_device_req req;
1.8.2.2  snj 	struct veriexec_table_entry *vte;
1.8.2.2  snj
1.8.2.2  snj 	result = KAUTH_RESULT_DENY;
1.8.2.2  snj 	req = (enum kauth_device_req)arg0;
1.8.2.2  snj
1.8.2.2  snj 	switch (action) {
1.8.2.2  snj 	case KAUTH_DEVICE_RAWIO_SPEC: {
1.8.2.2  snj 		struct vnode *vp, *bvp;
1.8.2.2  snj 		int error;
1.8.2.2  snj
1.8.2.2  snj 		if (req == KAUTH_REQ_DEVICE_RAWIO_SPEC_READ) {
1.8.2.2  snj 			result = KAUTH_RESULT_DEFER;
1.8.2.2  snj 			break;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		vp = arg1;
1.8.2.2  snj 		KASSERT(vp != NULL);
1.8.2.2  snj
1.8.2.2  snj 		/* Handle /dev/mem and /dev/kmem. */
1.8.2.2  snj 		if (iskmemvp(vp)) {
1.8.2.2  snj 			if (veriexec_strict < VERIEXEC_IPS)
1.8.2.2  snj 				result = KAUTH_RESULT_DEFER;
1.8.2.2  snj
1.8.2.2  snj 			break;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		error = rawdev_mounted(vp, &bvp);
1.8.2.2  snj 		if (error == EINVAL) {
1.8.2.2  snj 			result = KAUTH_RESULT_DEFER;
1.8.2.2  snj 			break;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		/*
1.8.2.2  snj 		 * XXX: See vfs_mountedon() comment in rawdev_mounted().
1.8.2.2  snj 		 */
1.8.2.2  snj 		vte = veriexec_table_lookup(bvp->v_mount);
1.8.2.2  snj 		if (vte == NULL) {
1.8.2.2  snj 			result = KAUTH_RESULT_DEFER;
1.8.2.2  snj 			break;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		switch (veriexec_strict) {
1.8.2.2  snj 		case VERIEXEC_LEARNING:
1.8.2.2  snj 		case VERIEXEC_IDS:
1.8.2.2  snj 			result = KAUTH_RESULT_DEFER;
1.8.2.2  snj
1.8.2.2  snj 			rw_enter(&veriexec_op_lock, RW_WRITER);
1.8.2.2  snj 			fileassoc_table_run(bvp->v_mount, veriexec_hook,
1.8.2.2  snj 			    (fileassoc_cb_t)veriexec_file_purge_cb, NULL);
1.8.2.2  snj 			rw_exit(&veriexec_op_lock);
1.8.2.2  snj
1.8.2.2  snj 			break;
1.8.2.2  snj 		case VERIEXEC_IPS:
1.8.2.2  snj 			result = KAUTH_RESULT_DENY;
1.8.2.2  snj 			break;
1.8.2.2  snj 		case VERIEXEC_LOCKDOWN:
1.8.2.2  snj 			result = KAUTH_RESULT_DENY;
1.8.2.2  snj 			break;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		break;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 	case KAUTH_DEVICE_RAWIO_PASSTHRU:
1.8.2.2  snj 		/* XXX What can we do here? */
1.8.2.2  snj 		if (veriexec_strict < VERIEXEC_IPS)
1.8.2.2  snj 			result = KAUTH_RESULT_DEFER;
1.8.2.2  snj
1.8.2.2  snj 		break;
1.8.2.2  snj
1.8.2.2  snj 	default:
1.8.2.2  snj 		result = KAUTH_RESULT_DEFER;
1.8.2.2  snj 		break;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	return (result);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Create a new Veriexec table.
1.8.2.2  snj  */
1.8.2.2  snj static struct veriexec_table_entry *
1.8.2.2  snj veriexec_table_add(struct lwp *l, struct mount *mp)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_table_entry *vte;
1.8.2.2  snj 	u_char buf[16];
1.8.2.2  snj
1.8.2.2  snj 	vte = kmem_zalloc(sizeof(*vte), KM_SLEEP);
1.8.2.2  snj 	mount_setspecific(mp, veriexec_mountspecific_key, vte);
1.8.2.2  snj
1.8.2.2  snj 	snprintf(buf, sizeof(buf), "table%u", veriexec_tablecount++);
1.8.2.2  snj 	sysctl_createv(NULL, 0, &veriexec_count_node, &vte->vte_node,
1.8.2.2  snj 		       0, CTLTYPE_NODE, buf, NULL, NULL, 0, NULL,
1.8.2.2  snj 		       0, CTL_CREATE, CTL_EOL);
1.8.2.2  snj
1.8.2.2  snj 	sysctl_createv(NULL, 0, &vte->vte_node, NULL,
1.8.2.2  snj 		       CTLFLAG_READONLY, CTLTYPE_STRING, "mntpt",
1.8.2.2  snj 		       NULL, NULL, 0, mp->mnt_stat.f_mntonname,
1.8.2.2  snj 		       0, CTL_CREATE, CTL_EOL);
1.8.2.2  snj 	sysctl_createv(NULL, 0, &vte->vte_node, NULL,
1.8.2.2  snj 		       CTLFLAG_READONLY, CTLTYPE_STRING, "fstype",
1.8.2.2  snj 		       NULL, NULL, 0, mp->mnt_stat.f_fstypename,
1.8.2.2  snj 		       0, CTL_CREATE, CTL_EOL);
1.8.2.2  snj 	sysctl_createv(NULL, 0, &vte->vte_node, NULL,
1.8.2.2  snj 		       CTLFLAG_READONLY, CTLTYPE_QUAD, "nentries",
1.8.2.2  snj 		       NULL, NULL, 0, &vte->vte_count, 0, CTL_CREATE, CTL_EOL);
1.8.2.2  snj
1.8.2.2  snj 	return (vte);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Add a file to be monitored by Veriexec.
1.8.2.2  snj  *
1.8.2.2  snj  * Expected elements in dict: file, fp, fp-type, entry-type.
1.8.2.2  snj  */
1.8.2.2  snj int
1.8.2.2  snj veriexec_file_add(struct lwp *l, prop_dictionary_t dict)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_table_entry *vte;
1.8.2.2  snj 	struct veriexec_file_entry *vfe = NULL;
1.8.2.2  snj 	struct vnode *vp;
1.8.2.2  snj 	const char *file, *fp_type;
1.8.2.2  snj 	int error;
1.8.2.2  snj
1.8.2.2  snj 	if (!prop_dictionary_get_cstring_nocopy(dict, "file", &file))
1.8.2.2  snj 		return (EINVAL);
1.8.2.2  snj
1.8.2.2  snj 	error = namei_simple_kernel(file, NSM_FOLLOW_NOEMULROOT, &vp);
1.8.2.2  snj 	if (error)
1.8.2.2  snj 		return (error);
1.8.2.2  snj
1.8.2.2  snj 	/* Add only regular files. */
1.8.2.2  snj 	if (vp->v_type != VREG) {
1.8.2.2  snj 		log(LOG_ERR, "Veriexec: Not adding `%s': Not a regular file.\n",
1.8.2.2  snj 		    file);
1.8.2.2  snj 		error = EBADF;
1.8.2.2  snj 		goto out;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	vfe = kmem_zalloc(sizeof(*vfe), KM_SLEEP);
1.8.2.2  snj 	rw_init(&vfe->lock);
1.8.2.2  snj
1.8.2.2  snj 	/* Lookup fingerprint hashing algorithm. */
1.8.2.2  snj 	fp_type = prop_string_cstring_nocopy(prop_dictionary_get(dict,
1.8.2.2  snj 	    "fp-type"));
1.8.2.2  snj 	if ((vfe->ops = veriexec_fpops_lookup(fp_type)) == NULL) {
1.8.2.2  snj 		log(LOG_ERR, "Veriexec: Invalid or unknown fingerprint type "
1.8.2.2  snj 		    "`%s' for file `%s'.\n", fp_type, file);
1.8.2.2  snj 		error = EOPNOTSUPP;
1.8.2.2  snj 		goto out;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	if (prop_data_size(prop_dictionary_get(dict, "fp")) !=
1.8.2.2  snj 	    vfe->ops->hash_len) {
1.8.2.2  snj 		log(LOG_ERR, "Veriexec: Bad fingerprint length for `%s'.\n",
1.8.2.2  snj 		    file);
1.8.2.2  snj 		error = EINVAL;
1.8.2.2  snj 		goto out;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	vfe->fp = kmem_alloc(vfe->ops->hash_len, KM_SLEEP);
1.8.2.2  snj 	memcpy(vfe->fp, prop_data_data_nocopy(prop_dictionary_get(dict, "fp")),
1.8.2.2  snj 	    vfe->ops->hash_len);
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_WRITER);
1.8.2.2  snj
1.8.2.2  snj 	if (veriexec_get(vp)) {
1.8.2.2  snj 		/* We already have an entry for this file. */
1.8.2.2  snj 		error = EEXIST;
1.8.2.2  snj 		goto unlock_out;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	/* Continue entry initialization. */
1.8.2.2  snj 	if (prop_dictionary_get_uint8(dict, "entry-type", &vfe->type) == FALSE)
1.8.2.2  snj 		vfe->type = 0;
1.8.2.2  snj 	else {
1.8.2.2  snj 		uint8_t extra_flags;
1.8.2.2  snj
1.8.2.2  snj 		extra_flags = vfe->type & ~(VERIEXEC_DIRECT |
1.8.2.2  snj 		    VERIEXEC_INDIRECT | VERIEXEC_FILE | VERIEXEC_UNTRUSTED);
1.8.2.2  snj 		if (extra_flags) {
1.8.2.2  snj 			log(LOG_NOTICE, "Veriexec: Contaminated flags `0x%x' "
1.8.2.2  snj 			    "for `%s', skipping.\n", extra_flags, file);
1.8.2.2  snj 			error = EINVAL;
1.8.2.2  snj 			goto unlock_out;
1.8.2.2  snj 		}
1.8.2.2  snj 	}
1.8.2.2  snj 	if (!(vfe->type & (VERIEXEC_DIRECT | VERIEXEC_INDIRECT |
1.8.2.2  snj 	    VERIEXEC_FILE)))
1.8.2.2  snj 		vfe->type |= VERIEXEC_DIRECT;
1.8.2.2  snj
1.8.2.2  snj 	vfe->status = FINGERPRINT_NOTEVAL;
1.8.2.2  snj 	if (prop_bool_true(prop_dictionary_get(dict, "keep-filename"))) {
1.8.2.2  snj 		vfe->filename_len = strlen(file) + 1;
1.8.2.2  snj 		vfe->filename = kmem_alloc(vfe->filename_len, KM_SLEEP);
1.8.2.2  snj 		strlcpy(vfe->filename, file, vfe->filename_len);
1.8.2.2  snj 	} else
1.8.2.2  snj 		vfe->filename = NULL;
1.8.2.2  snj
1.8.2.2  snj 	vfe->page_fp = NULL;
1.8.2.2  snj 	vfe->page_fp_status = PAGE_FP_NONE;
1.8.2.2  snj 	vfe->npages = 0;
1.8.2.2  snj 	vfe->last_page_size = 0;
1.8.2.2  snj
1.8.2.2  snj 	if (prop_bool_true(prop_dictionary_get(dict, "eval-on-load")) ||
1.8.2.2  snj 	    (vfe->type & VERIEXEC_UNTRUSTED)) {
1.8.2.2  snj 		u_char status;
1.8.2.2  snj
1.8.2.2  snj 		error = veriexec_fp_status(l, vp, VERIEXEC_FILE_UNLOCKED,
1.8.2.2  snj 		    vfe, &status);
1.8.2.2  snj 		if (error)
1.8.2.2  snj 			goto unlock_out;
1.8.2.2  snj 		vfe->status = status;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	vte = veriexec_table_lookup(vp->v_mount);
1.8.2.2  snj 	if (vte == NULL)
1.8.2.2  snj 		vte = veriexec_table_add(l, vp->v_mount);
1.8.2.2  snj
1.8.2.2  snj 	/* XXX if we bail below this, we might want to gc newly created vtes. */
1.8.2.2  snj
1.8.2.2  snj 	error = fileassoc_add(vp, veriexec_hook, vfe);
1.8.2.2  snj 	if (error)
1.8.2.2  snj 		goto unlock_out;
1.8.2.2  snj
1.8.2.2  snj 	vte->vte_count++;
1.8.2.2  snj
1.8.2.2  snj 	veriexec_file_report(NULL, "New entry.", file, NULL, REPORT_DEBUG);
1.8.2.2  snj 	veriexec_bypass = 0;
1.8.2.2  snj
1.8.2.2  snj   unlock_out:
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj
1.8.2.2  snj   out:
1.8.2.2  snj 	vrele(vp);
1.8.2.2  snj 	if (error)
1.8.2.2  snj 		veriexec_file_free(vfe);
1.8.2.2  snj
1.8.2.2  snj 	return (error);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj int
1.8.2.2  snj veriexec_table_delete(struct lwp *l, struct mount *mp)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_table_entry *vte;
1.8.2.2  snj
1.8.2.2  snj 	vte = veriexec_table_lookup(mp);
1.8.2.2  snj 	if (vte == NULL)
1.8.2.2  snj 		return (ENOENT);
1.8.2.2  snj
1.8.2.2  snj 	veriexec_mountspecific_dtor(vte);
1.8.2.2  snj 	mount_setspecific(mp, veriexec_mountspecific_key, NULL);
1.8.2.2  snj
1.8.2.2  snj 	return (fileassoc_table_clear(mp, veriexec_hook));
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj int
1.8.2.2  snj veriexec_file_delete(struct lwp *l, struct vnode *vp)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_table_entry *vte;
1.8.2.2  snj 	int error;
1.8.2.2  snj
1.8.2.2  snj 	vte = veriexec_table_lookup(vp->v_mount);
1.8.2.2  snj 	if (vte == NULL)
1.8.2.2  snj 		return (ENOENT);
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_WRITER);
1.8.2.2  snj 	error = fileassoc_clear(vp, veriexec_hook);
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj 	if (!error) {
1.8.2.2  snj 		KASSERT(vte->vte_count > 0);
1.8.2.2  snj 		vte->vte_count--;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	return (error);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj /*
1.8.2.2  snj  * Convert Veriexec entry data to a dictionary readable by userland tools.
1.8.2.2  snj  */
1.8.2.2  snj static void
1.8.2.2  snj veriexec_file_convert(struct veriexec_file_entry *vfe, prop_dictionary_t rdict)
1.8.2.2  snj {
1.8.2.2  snj 	if (vfe->filename)
1.8.2.2  snj 		prop_dictionary_set(rdict, "file",
1.8.2.2  snj 		    prop_string_create_cstring(vfe->filename));
1.8.2.2  snj 	prop_dictionary_set_uint8(rdict, "entry-type", vfe->type);
1.8.2.2  snj 	prop_dictionary_set_uint8(rdict, "status", vfe->status);
1.8.2.2  snj 	prop_dictionary_set(rdict, "fp-type",
1.8.2.2  snj 	    prop_string_create_cstring(vfe->ops->type));
1.8.2.2  snj 	prop_dictionary_set(rdict, "fp",
1.8.2.2  snj 	    prop_data_create_data(vfe->fp, vfe->ops->hash_len));
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj int
1.8.2.2  snj veriexec_convert(struct vnode *vp, prop_dictionary_t rdict)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_file_entry *vfe;
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_READER);
1.8.2.2  snj
1.8.2.2  snj 	vfe = veriexec_get(vp);
1.8.2.2  snj 	if (vfe == NULL) {
1.8.2.2  snj 		rw_exit(&veriexec_op_lock);
1.8.2.2  snj 		return (ENOENT);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&vfe->lock, RW_READER);
1.8.2.2  snj 	veriexec_file_convert(vfe, rdict);
1.8.2.2  snj 	rw_exit(&vfe->lock);
1.8.2.2  snj
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj 	return (0);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj int
1.8.2.2  snj veriexec_unmountchk(struct mount *mp)
1.8.2.2  snj {
1.8.2.2  snj 	int error;
1.8.2.2  snj
1.8.2.2  snj 	if ((veriexec_bypass && (veriexec_strict == VERIEXEC_LEARNING))
1.8.2.2  snj 	    || doing_shutdown)
1.8.2.2  snj 		return (0);
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_READER);
1.8.2.2  snj
1.8.2.2  snj 	switch (veriexec_strict) {
1.8.2.2  snj 	case VERIEXEC_LEARNING:
1.8.2.2  snj 		error = 0;
1.8.2.2  snj 		break;
1.8.2.2  snj
1.8.2.2  snj 	case VERIEXEC_IDS:
1.8.2.2  snj 		if (veriexec_table_lookup(mp) != NULL) {
1.8.2.2  snj 			log(LOG_INFO, "Veriexec: IDS mode, allowing unmount "
1.8.2.2  snj 			    "of \"%s\".\n", mp->mnt_stat.f_mntonname);
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		error = 0;
1.8.2.2  snj 		break;
1.8.2.2  snj
1.8.2.2  snj 	case VERIEXEC_IPS: {
1.8.2.2  snj 		struct veriexec_table_entry *vte;
1.8.2.2  snj
1.8.2.2  snj 		vte = veriexec_table_lookup(mp);
1.8.2.2  snj 		if ((vte != NULL) && (vte->vte_count > 0)) {
1.8.2.2  snj 			log(LOG_ALERT, "Veriexec: IPS mode, preventing"
1.8.2.2  snj 			    " unmount of \"%s\" with monitored files.\n",
1.8.2.2  snj 			    mp->mnt_stat.f_mntonname);
1.8.2.2  snj
1.8.2.2  snj 			error = EPERM;
1.8.2.2  snj 		} else
1.8.2.2  snj 			error = 0;
1.8.2.2  snj 		break;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 	case VERIEXEC_LOCKDOWN:
1.8.2.2  snj 	default:
1.8.2.2  snj 		log(LOG_ALERT, "Veriexec: Lockdown mode, preventing unmount "
1.8.2.2  snj 		    "of \"%s\".\n", mp->mnt_stat.f_mntonname);
1.8.2.2  snj 		error = EPERM;
1.8.2.2  snj 		break;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj 	return (error);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj int
1.8.2.2  snj veriexec_openchk(struct lwp *l, struct vnode *vp, const char *path, int fmode)
1.8.2.2  snj {
1.8.2.2  snj 	struct veriexec_file_entry *vfe = NULL;
1.8.2.2  snj 	int error = 0;
1.8.2.2  snj
1.8.2.2  snj 	if (veriexec_bypass && (veriexec_strict == VERIEXEC_LEARNING))
1.8.2.2  snj 		return 0;
1.8.2.2  snj
1.8.2.2  snj 	if (vp == NULL) {
1.8.2.2  snj 		/* If no creation requested, let this fail normally. */
1.8.2.2  snj 		if (!(fmode & O_CREAT))
1.8.2.2  snj 			goto out;
1.8.2.2  snj
1.8.2.2  snj 		/* Lockdown mode: Prevent creation of new files. */
1.8.2.2  snj 		if (veriexec_strict >= VERIEXEC_LOCKDOWN) {
1.8.2.2  snj 			log(LOG_ALERT, "Veriexec: Preventing new file "
1.8.2.2  snj 			    "creation in `%s'.\n", path);
1.8.2.2  snj 			error = EPERM;
1.8.2.2  snj 		}
1.8.2.2  snj
1.8.2.2  snj 		goto out;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	rw_enter(&veriexec_op_lock, RW_READER);
1.8.2.2  snj 	error = veriexec_file_verify(l, vp, path, VERIEXEC_FILE,
1.8.2.2  snj 				     VERIEXEC_FILE_LOCKED, &vfe);
1.8.2.2  snj
1.8.2.2  snj 	if (error) {
1.8.2.2  snj 		rw_exit(&veriexec_op_lock);
1.8.2.2  snj 		goto out;
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	if ((vfe != NULL) && ((fmode & FWRITE) || (fmode & O_TRUNC))) {
1.8.2.2  snj 		veriexec_file_report(vfe, "Write access request.", path, l,
1.8.2.2  snj 		    REPORT_ALWAYS | REPORT_ALARM);
1.8.2.2  snj
1.8.2.2  snj 		/* IPS mode: Deny write access to monitored files. */
1.8.2.2  snj 		if (veriexec_strict >= VERIEXEC_IPS)
1.8.2.2  snj 			error = EPERM;
1.8.2.2  snj 		else
1.8.2.2  snj 			veriexec_file_purge(vfe, VERIEXEC_LOCKED);
1.8.2.2  snj 	}
1.8.2.2  snj
1.8.2.2  snj 	if (vfe != NULL)
1.8.2.2  snj 		rw_exit(&vfe->lock);
1.8.2.2  snj
1.8.2.2  snj 	rw_exit(&veriexec_op_lock);
1.8.2.2  snj  out:
1.8.2.2  snj 	return (error);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj static void
1.8.2.2  snj veriexec_file_dump(struct veriexec_file_entry *vfe, prop_array_t entries)
1.8.2.2  snj {
1.8.2.2  snj 	prop_dictionary_t entry;
1.8.2.2  snj
1.8.2.2  snj 	/* If we don't have a filename, this is meaningless. */
1.8.2.2  snj 	if (vfe->filename == NULL)
1.8.2.2  snj 		return;
1.8.2.2  snj
1.8.2.2  snj 	entry = prop_dictionary_create();
1.8.2.2  snj
1.8.2.2  snj 	veriexec_file_convert(vfe, entry);
1.8.2.2  snj
1.8.2.2  snj 	prop_array_add(entries, entry);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj int
1.8.2.2  snj veriexec_dump(struct lwp *l, prop_array_t rarray)
1.8.2.2  snj {
1.8.2.2  snj 	struct mount *mp, *nmp;
1.8.2.2  snj
1.8.2.2  snj 	mutex_enter(&mountlist_lock);
1.8.2.2  snj 	for (mp = TAILQ_FIRST(&mountlist); mp != NULL; mp = nmp) {
1.8.2.2  snj 		/* If it fails, the file-system is [being] unmounted. */
1.8.2.2  snj 		if (vfs_busy(mp, &nmp) != 0)
1.8.2.2  snj 			continue;
1.8.2.2  snj
1.8.2.2  snj 		fileassoc_table_run(mp, veriexec_hook,
1.8.2.2  snj 		    (fileassoc_cb_t)veriexec_file_dump, rarray);
1.8.2.2  snj
1.8.2.2  snj 		vfs_unbusy(mp, false, &nmp);
1.8.2.2  snj 	}
1.8.2.2  snj 	mutex_exit(&mountlist_lock);
1.8.2.2  snj
1.8.2.2  snj 	return (0);
1.8.2.2  snj }
1.8.2.2  snj
1.8.2.2  snj int
1.8.2.2  snj veriexec_flush(struct lwp *l)
1.8.2.2  snj {
1.8.2.2  snj 	struct mount *mp, *nmp;
1.8.2.2  snj 	int error = 0;
1.8.2.2  snj
1.8.2.2  snj 	mutex_enter(&mountlist_lock);
1.8.2.2  snj 	for (mp = TAILQ_FIRST(&mountlist); mp != NULL; mp = nmp) {
1.8.2.2  snj 		int lerror;
1.8.2.2  snj
1.8.2.2  snj 		/* If it fails, the file-system is [being] unmounted. */
1.8.2.2  snj 		if (vfs_busy(mp, &nmp) != 0)
1.8.2.2  snj 			continue;
1.8.2.2  snj
1.8.2.2  snj 		lerror = veriexec_table_delete(l, mp);
1.8.2.2  snj 		if (lerror && lerror != ENOENT)
1.8.2.2  snj 			error = lerror;
1.8.2.2  snj
1.8.2.2  snj 		vfs_unbusy(mp, false, &nmp);
1.8.2.2  snj 	}
1.8.2.2  snj 	mutex_exit(&mountlist_lock);
1.8.2.2  snj
1.8.2.2  snj 	return (error);
1.8.2.2  snj }