Cross Reference: /freebsd-10.0-release/sys/security/mac/mac_internal.h

Deleted Added

sdiff udiff text old ( 103514 ) new ( 103570 )

full compact

mac_internal.h (103514)	mac_internal.h (103570)
1/- 2 Copyright (c) 1999, 2000, 2001, 2002 Robert N. M. Watson 3 * Copyright (c) 2001 Ilmar S. Habibulin 4 * Copyright (c) 2001, 2002 Networks Associates Technology, Inc. 5 * All rights reserved. 6 * 7 * This software was developed by Robert Watson and Ilmar Habibulin for the 8 * TrustedBSD Project. 9 * 10 * This software was developed for the FreeBSD Project in part by NAI Labs, 11 * the Security Research Division of Network Associates, Inc. under 12 * DARPA/SPAWAR contract N66001-01-C-8035 ("CBOSS"), as part of the DARPA 13 * CHATS research program. 14 * 15 * Redistribution and use in source and binary forms, with or without 16 * modification, are permitted provided that the following conditions 17 * are met: 18 * 1. Redistributions of source code must retain the above copyright 19 * notice, this list of conditions and the following disclaimer. 20 * 2. Redistributions in binary form must reproduce the above copyright 21 * notice, this list of conditions and the following disclaimer in the 22 * documentation and/or other materials provided with the distribution. 23 * 3. The names of the authors may not be used to endorse or promote 24 * products derived from this software without specific prior written 25 * permission. 26 * 27 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 28 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 29 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 30 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 31 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 32 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 33 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 34 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 35 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 36 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 37 * SUCH DAMAGE. 38 *	1/- 2 Copyright (c) 1999, 2000, 2001, 2002 Robert N. M. Watson 3 * Copyright (c) 2001 Ilmar S. Habibulin 4 * Copyright (c) 2001, 2002 Networks Associates Technology, Inc. 5 * All rights reserved. 6 * 7 * This software was developed by Robert Watson and Ilmar Habibulin for the 8 * TrustedBSD Project. 9 * 10 * This software was developed for the FreeBSD Project in part by NAI Labs, 11 * the Security Research Division of Network Associates, Inc. under 12 * DARPA/SPAWAR contract N66001-01-C-8035 ("CBOSS"), as part of the DARPA 13 * CHATS research program. 14 * 15 * Redistribution and use in source and binary forms, with or without 16 * modification, are permitted provided that the following conditions 17 * are met: 18 * 1. Redistributions of source code must retain the above copyright 19 * notice, this list of conditions and the following disclaimer. 20 * 2. Redistributions in binary form must reproduce the above copyright 21 * notice, this list of conditions and the following disclaimer in the 22 * documentation and/or other materials provided with the distribution. 23 * 3. The names of the authors may not be used to endorse or promote 24 * products derived from this software without specific prior written 25 * permission. 26 * 27 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 28 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 29 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 30 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 31 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 32 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 33 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 34 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 35 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 36 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 37 * SUCH DAMAGE. 38 *
39 * $FreeBSD: head/sys/security/mac/mac_internal.h 103514 2002-09-18 02:02:08Z rwatson $	39 * $FreeBSD: head/sys/security/mac/mac_internal.h 103570 2002-09-18 22:35:02Z rwatson $
40 / 41/ 42 * Developed by the TrustedBSD Project. 43 * 44 * Framework for extensible kernel access control. Kernel and userland 45 * interface to the framework, policy registration and composition. 46 / 47 48#include "opt_mac.h" 49 50#include <sys/param.h> 51#include <sys/extattr.h> 52#include <sys/kernel.h> 53#include <sys/lock.h> 54#include <sys/malloc.h> 55#include <sys/mutex.h> 56#include <sys/mac.h> 57#include <sys/module.h> 58#include <sys/proc.h> 59#include <sys/systm.h> 60#include <sys/sysproto.h> 61#include <sys/sysent.h> 62#include <sys/vnode.h> 63#include <sys/mount.h> 64#include <sys/file.h> 65#include <sys/namei.h> 66#include <sys/socket.h> 67#include <sys/pipe.h> 68#include <sys/socketvar.h> 69#include <sys/sysctl.h> 70 71#include <vm/vm.h> 72#include <vm/pmap.h> 73#include <vm/vm_map.h> 74#include <vm/vm_object.h> 75 76#include <sys/mac_policy.h> 77 78#include <fs/devfs/devfs.h> 79 80#include <net/bpfdesc.h> 81#include <net/if.h> 82#include <net/if_var.h> 83 84#include <netinet/in.h> 85#include <netinet/ip_var.h> 86 87#ifdef MAC 88 89/ 90 * Declare that the kernel provides MAC support, version 1. This permits 91 * modules to refuse to be loaded if the necessary support isn't present, 92 * even if it's pre-boot. 93 / 94MODULE_VERSION(kernel_mac_support, 1); 95 96SYSCTL_DECL(_security); 97 98SYSCTL_NODE(_security, OID_AUTO, mac, CTLFLAG_RW, 0, 99 "TrustedBSD MAC policy controls"); 100SYSCTL_NODE(_security_mac, OID_AUTO, debug, CTLFLAG_RW, 0, 101* "TrustedBSD MAC debug info"); 102 103static int mac_debug_label_fallback = 0; 104SYSCTL_INT(_security_mac_debug, OID_AUTO, label_fallback, CTLFLAG_RW, 105 &mac_debug_label_fallback, 0, "Filesystems should fall back to fs label" 106 "when label is corrupted."); 107TUNABLE_INT("security.mac.debug_label_fallback", 108 &mac_debug_label_fallback); 109 110#ifndef MAC_MAX_POLICIES 111#define MAC_MAX_POLICIES 8 112#endif 113#if MAC_MAX_POLICIES > 32 114#error "MAC_MAX_POLICIES too large" 115#endif 116static unsigned int mac_max_policies = MAC_MAX_POLICIES; 117static unsigned int mac_policy_offsets_free = (1 << MAC_MAX_POLICIES) - 1; 118SYSCTL_UINT(_security_mac, OID_AUTO, max_policies, CTLFLAG_RD, 119 &mac_max_policies, 0, ""); 120 121static int mac_late = 0; 122 123static int mac_enforce_fs = 1; 124SYSCTL_INT(_security_mac, OID_AUTO, enforce_fs, CTLFLAG_RW, 125 &mac_enforce_fs, 0, "Enforce MAC policy on file system objects"); 126TUNABLE_INT("security.mac.enforce_fs", &mac_enforce_fs); 127 128static int mac_enforce_network = 1; 129SYSCTL_INT(_security_mac, OID_AUTO, enforce_network, CTLFLAG_RW, 130 &mac_enforce_network, 0, "Enforce MAC policy on network packets"); 131TUNABLE_INT("security.mac.enforce_network", &mac_enforce_network); 132 133static int mac_enforce_pipe = 1; 134SYSCTL_INT(_security_mac, OID_AUTO, enforce_pipe, CTLFLAG_RW, 135 &mac_enforce_pipe, 0, "Enforce MAC policy on pipe operations"); 136 137static int mac_enforce_process = 1; 138SYSCTL_INT(_security_mac, OID_AUTO, enforce_process, CTLFLAG_RW, 139 &mac_enforce_process, 0, "Enforce MAC policy on inter-process operations"); 140TUNABLE_INT("security.mac.enforce_process", &mac_enforce_process); 141 142static int mac_enforce_socket = 1; 143SYSCTL_INT(_security_mac, OID_AUTO, enforce_socket, CTLFLAG_RW, 144 &mac_enforce_socket, 0, "Enforce MAC policy on socket operations"); 145TUNABLE_INT("security.mac.enforce_socket", &mac_enforce_socket); 146 147static int mac_enforce_vm = 1; 148SYSCTL_INT(_security_mac, OID_AUTO, enforce_vm, CTLFLAG_RW, 149 &mac_enforce_vm, 0, "Enforce MAC policy on vm operations"); 150 151static int mac_label_size = sizeof(struct mac); 152SYSCTL_INT(_security_mac, OID_AUTO, label_size, CTLFLAG_RD, 153 &mac_label_size, 0, "Pre-compiled MAC label size"); 154 155static int mac_cache_fslabel_in_vnode = 1; 156SYSCTL_INT(_security_mac, OID_AUTO, cache_fslabel_in_vnode, CTLFLAG_RW, 157 &mac_cache_fslabel_in_vnode, 0, "Cache mount fslabel in vnode"); 158TUNABLE_INT("security.mac.cache_fslabel_in_vnode", 159 &mac_cache_fslabel_in_vnode); 160 161static int mac_vnode_label_cache_hits = 0; 162SYSCTL_INT(_security_mac, OID_AUTO, vnode_label_cache_hits, CTLFLAG_RD, 163 &mac_vnode_label_cache_hits, 0, "Cache hits on vnode labels"); 164static int mac_vnode_label_cache_misses = 0; 165SYSCTL_INT(_security_mac, OID_AUTO, vnode_label_cache_misses, CTLFLAG_RD, 166 &mac_vnode_label_cache_misses, 0, "Cache misses on vnode labels"); 167 168static int mac_mmap_revocation = 1; 169SYSCTL_INT(_security_mac, OID_AUTO, mmap_revocation, CTLFLAG_RW, 170 &mac_mmap_revocation, 0, "Revoke mmap access to files on subject " 171 "relabel"); 172static int mac_mmap_revocation_via_cow = 0; 173SYSCTL_INT(_security_mac, OID_AUTO, mmap_revocation_via_cow, CTLFLAG_RW, 174 &mac_mmap_revocation_via_cow, 0, "Revoke mmap access to files via " 175 "copy-on-write semantics, or by removing all write access"); 176 177#ifdef MAC_DEBUG 178static unsigned int nmacmbufs, nmaccreds, nmacifnets, nmacbpfdescs, 179 nmacsockets, nmacmounts, nmactemp, nmacvnodes, nmacdevfsdirents, 180 nmacipqs, nmacpipes; 181SYSCTL_UINT(_security_mac_debug, OID_AUTO, mbufs, CTLFLAG_RD, 182 &nmacmbufs, 0, "number of mbufs in use"); 183SYSCTL_UINT(_security_mac_debug, OID_AUTO, creds, CTLFLAG_RD, 184 &nmaccreds, 0, "number of ucreds in use"); 185SYSCTL_UINT(_security_mac_debug, OID_AUTO, ifnets, CTLFLAG_RD, 186 &nmacifnets, 0, "number of ifnets in use"); 187SYSCTL_UINT(_security_mac_debug, OID_AUTO, ipqs, CTLFLAG_RD, 188 &nmacipqs, 0, "number of ipqs in use"); 189SYSCTL_UINT(_security_mac_debug, OID_AUTO, bpfdescs, CTLFLAG_RD, 190 &nmacbpfdescs, 0, "number of bpfdescs in use"); 191SYSCTL_UINT(_security_mac_debug, OID_AUTO, sockets, CTLFLAG_RD, 192 &nmacsockets, 0, "number of sockets in use"); 193SYSCTL_UINT(_security_mac_debug, OID_AUTO, pipes, CTLFLAG_RD, 194 &nmacpipes, 0, "number of pipes in use"); 195SYSCTL_UINT(_security_mac_debug, OID_AUTO, mounts, CTLFLAG_RD, 196 &nmacmounts, 0, "number of mounts in use"); 197SYSCTL_UINT(_security_mac_debug, OID_AUTO, temp, CTLFLAG_RD, 198 &nmactemp, 0, "number of temporary labels in use"); 199SYSCTL_UINT(_security_mac_debug, OID_AUTO, vnodes, CTLFLAG_RD, 200 &nmacvnodes, 0, "number of vnodes in use"); 201SYSCTL_UINT(_security_mac_debug, OID_AUTO, devfsdirents, CTLFLAG_RD, 202 &nmacdevfsdirents, 0, "number of devfs dirents inuse"); 203#endif 204 205static int error_select(int error1, int error2); 206static int mac_externalize(struct label label, struct mac mac); 207static int mac_policy_register(struct mac_policy_conf mpc); 208static int mac_policy_unregister(struct mac_policy_conf mpc); 209 210static int mac_stdcreatevnode_ea(struct vnode vp); 211static void mac_cred_mmapped_drop_perms(struct thread td, 212 struct ucred cred); 213static void mac_cred_mmapped_drop_perms_recurse(struct thread td, 214 struct ucred cred, struct vm_map map); 215 216MALLOC_DEFINE(M_MACOPVEC, "macopvec", "MAC policy operation vector"); 217MALLOC_DEFINE(M_MACPIPELABEL, "macpipelabel", "MAC labels for pipes"); 218 219/* 220 * mac_policy_list_lock protects the consistency of 'mac_policy_list', 221 * the linked list of attached policy modules. Read-only consumers of 222 * the list must acquire a shared lock for the duration of their use; 223 * writers must acquire an exclusive lock. Note that for compound 224 * operations, locks should be held for the entire compound operation, 225 * and that this is not yet done for relabel requests. 226 / 227static struct mtx mac_policy_list_lock; 228static LIST_HEAD(, mac_policy_conf) mac_policy_list; 229static int mac_policy_list_busy; 230#define MAC_POLICY_LIST_LOCKINIT() mtx_init(&mac_policy_list_lock, \ 231* "mac_policy_list_lock", NULL, MTX_DEF); 232#define MAC_POLICY_LIST_LOCK() mtx_lock(&mac_policy_list_lock); 233#define MAC_POLICY_LIST_UNLOCK() mtx_unlock(&mac_policy_list_lock); 234 235#define MAC_POLICY_LIST_BUSY() do { \ 236 MAC_POLICY_LIST_LOCK(); \ 237 mac_policy_list_busy++; \ 238 MAC_POLICY_LIST_UNLOCK(); \ 239} while (0) 240 241#define MAC_POLICY_LIST_UNBUSY() do { \ 242 MAC_POLICY_LIST_LOCK(); \ 243 mac_policy_list_busy--; \ 244 if (mac_policy_list_busy < 0) \ 245 panic("Extra mac_policy_list_busy--"); \ 246 MAC_POLICY_LIST_UNLOCK(); \ 247} while (0) 248 249/* 250 * MAC_CHECK performs the designated check by walking the policy 251 * module list and checking with each as to how it feels about the 252 * request. Note that it returns its value via 'error' in the scope 253 * of the caller. 254 / 255#define MAC_CHECK(check, args...) do { \ 256* struct mac_policy_conf mpc; \ 257* \ 258 error = 0; \ 259 MAC_POLICY_LIST_BUSY(); \ 260 LIST_FOREACH(mpc, &mac_policy_list, mpc_list) { \ 261 if (mpc->mpc_ops->mpo_ ## check != NULL) \ 262 error = error_select( \ 263 mpc->mpc_ops->mpo_ ## check (args), \ 264 error); \ 265 } \ 266 MAC_POLICY_LIST_UNBUSY(); \ 267} while (0) 268 269/* 270 * MAC_BOOLEAN performs the designated boolean composition by walking 271 * the module list, invoking each instance of the operation, and 272 * combining the results using the passed C operator. Note that it 273 * returns its value via 'result' in the scope of the caller, which 274 * should be initialized by the caller in a meaningful way to get 275 * a meaningful result. 276 / 277#define MAC_BOOLEAN(operation, composition, args...) do { \ 278* struct mac_policy_conf mpc; \ 279* \ 280 MAC_POLICY_LIST_BUSY(); \ 281 LIST_FOREACH(mpc, &mac_policy_list, mpc_list) { \ 282 if (mpc->mpc_ops->mpo_ ## operation != NULL) \ 283 result = result composition \ 284 mpc->mpc_ops->mpo_ ## operation (args); \ 285 } \ 286 MAC_POLICY_LIST_UNBUSY(); \ 287} while (0) 288 289/* 290 * MAC_PERFORM performs the designated operation by walking the policy 291 * module list and invoking that operation for each policy. 292 / 293#define MAC_PERFORM(operation, args...) do { \ 294* struct mac_policy_conf mpc; \ 295* \ 296 MAC_POLICY_LIST_BUSY(); \ 297 LIST_FOREACH(mpc, &mac_policy_list, mpc_list) { \ 298 if (mpc->mpc_ops->mpo_ ## operation != NULL) \ 299 mpc->mpc_ops->mpo_ ## operation (args); \ 300 } \ 301 MAC_POLICY_LIST_UNBUSY(); \ 302} while (0) 303 304/* 305 * Initialize the MAC subsystem, including appropriate SMP locks. 306 / 307static void 308mac_init(void) 309{ 310* 311 LIST_INIT(&mac_policy_list); 312 MAC_POLICY_LIST_LOCKINIT(); 313} 314 315/* 316 * For the purposes of modules that want to know if they were loaded 317 * "early", set the mac_late flag once we've processed modules either 318 * linked into the kernel, or loaded before the kernel startup. 319 / 320static void 321mac_late_init(void) 322{ 323* 324 mac_late = 1; 325} 326 327/* 328 * Allow MAC policy modules to register during boot, etc. 329 / 330int 331mac_policy_modevent(module_t mod, int type, void data) 332{ 333 struct mac_policy_conf mpc; 334* int error; 335 336 error = 0; 337 mpc = (struct mac_policy_conf ) data; 338* 339 switch (type) { 340 case MOD_LOAD: 341 if (mpc->mpc_loadtime_flags & MPC_LOADTIME_FLAG_NOTLATE && 342 mac_late) { 343 printf("mac_policy_modevent: can't load %s policy " 344 "after booting\n", mpc->mpc_name); 345 error = EBUSY; 346 break; 347 } 348 error = mac_policy_register(mpc); 349 break; 350 case MOD_UNLOAD: 351 /* Don't unregister the module if it was never registered. / 352* if ((mpc->mpc_runtime_flags & MPC_RUNTIME_FLAG_REGISTERED) 353 != 0) 354 error = mac_policy_unregister(mpc); 355 else 356 error = 0; 357 break; 358 default: 359 break; 360 } 361 362 return (error); 363} 364 365static int 366mac_policy_register(struct mac_policy_conf mpc) 367{ 368* struct mac_policy_conf *tmpc;	40 / 41/ 42 * Developed by the TrustedBSD Project. 43 * 44 * Framework for extensible kernel access control. Kernel and userland 45 * interface to the framework, policy registration and composition. 46 / 47 48#include "opt_mac.h" 49 50#include <sys/param.h> 51#include <sys/extattr.h> 52#include <sys/kernel.h> 53#include <sys/lock.h> 54#include <sys/malloc.h> 55#include <sys/mutex.h> 56#include <sys/mac.h> 57#include <sys/module.h> 58#include <sys/proc.h> 59#include <sys/systm.h> 60#include <sys/sysproto.h> 61#include <sys/sysent.h> 62#include <sys/vnode.h> 63#include <sys/mount.h> 64#include <sys/file.h> 65#include <sys/namei.h> 66#include <sys/socket.h> 67#include <sys/pipe.h> 68#include <sys/socketvar.h> 69#include <sys/sysctl.h> 70 71#include <vm/vm.h> 72#include <vm/pmap.h> 73#include <vm/vm_map.h> 74#include <vm/vm_object.h> 75 76#include <sys/mac_policy.h> 77 78#include <fs/devfs/devfs.h> 79 80#include <net/bpfdesc.h> 81#include <net/if.h> 82#include <net/if_var.h> 83 84#include <netinet/in.h> 85#include <netinet/ip_var.h> 86 87#ifdef MAC 88 89/ 90 * Declare that the kernel provides MAC support, version 1. This permits 91 * modules to refuse to be loaded if the necessary support isn't present, 92 * even if it's pre-boot. 93 / 94MODULE_VERSION(kernel_mac_support, 1); 95 96SYSCTL_DECL(_security); 97 98SYSCTL_NODE(_security, OID_AUTO, mac, CTLFLAG_RW, 0, 99 "TrustedBSD MAC policy controls"); 100SYSCTL_NODE(_security_mac, OID_AUTO, debug, CTLFLAG_RW, 0, 101* "TrustedBSD MAC debug info"); 102 103static int mac_debug_label_fallback = 0; 104SYSCTL_INT(_security_mac_debug, OID_AUTO, label_fallback, CTLFLAG_RW, 105 &mac_debug_label_fallback, 0, "Filesystems should fall back to fs label" 106 "when label is corrupted."); 107TUNABLE_INT("security.mac.debug_label_fallback", 108 &mac_debug_label_fallback); 109 110#ifndef MAC_MAX_POLICIES 111#define MAC_MAX_POLICIES 8 112#endif 113#if MAC_MAX_POLICIES > 32 114#error "MAC_MAX_POLICIES too large" 115#endif 116static unsigned int mac_max_policies = MAC_MAX_POLICIES; 117static unsigned int mac_policy_offsets_free = (1 << MAC_MAX_POLICIES) - 1; 118SYSCTL_UINT(_security_mac, OID_AUTO, max_policies, CTLFLAG_RD, 119 &mac_max_policies, 0, ""); 120 121static int mac_late = 0; 122 123static int mac_enforce_fs = 1; 124SYSCTL_INT(_security_mac, OID_AUTO, enforce_fs, CTLFLAG_RW, 125 &mac_enforce_fs, 0, "Enforce MAC policy on file system objects"); 126TUNABLE_INT("security.mac.enforce_fs", &mac_enforce_fs); 127 128static int mac_enforce_network = 1; 129SYSCTL_INT(_security_mac, OID_AUTO, enforce_network, CTLFLAG_RW, 130 &mac_enforce_network, 0, "Enforce MAC policy on network packets"); 131TUNABLE_INT("security.mac.enforce_network", &mac_enforce_network); 132 133static int mac_enforce_pipe = 1; 134SYSCTL_INT(_security_mac, OID_AUTO, enforce_pipe, CTLFLAG_RW, 135 &mac_enforce_pipe, 0, "Enforce MAC policy on pipe operations"); 136 137static int mac_enforce_process = 1; 138SYSCTL_INT(_security_mac, OID_AUTO, enforce_process, CTLFLAG_RW, 139 &mac_enforce_process, 0, "Enforce MAC policy on inter-process operations"); 140TUNABLE_INT("security.mac.enforce_process", &mac_enforce_process); 141 142static int mac_enforce_socket = 1; 143SYSCTL_INT(_security_mac, OID_AUTO, enforce_socket, CTLFLAG_RW, 144 &mac_enforce_socket, 0, "Enforce MAC policy on socket operations"); 145TUNABLE_INT("security.mac.enforce_socket", &mac_enforce_socket); 146 147static int mac_enforce_vm = 1; 148SYSCTL_INT(_security_mac, OID_AUTO, enforce_vm, CTLFLAG_RW, 149 &mac_enforce_vm, 0, "Enforce MAC policy on vm operations"); 150 151static int mac_label_size = sizeof(struct mac); 152SYSCTL_INT(_security_mac, OID_AUTO, label_size, CTLFLAG_RD, 153 &mac_label_size, 0, "Pre-compiled MAC label size"); 154 155static int mac_cache_fslabel_in_vnode = 1; 156SYSCTL_INT(_security_mac, OID_AUTO, cache_fslabel_in_vnode, CTLFLAG_RW, 157 &mac_cache_fslabel_in_vnode, 0, "Cache mount fslabel in vnode"); 158TUNABLE_INT("security.mac.cache_fslabel_in_vnode", 159 &mac_cache_fslabel_in_vnode); 160 161static int mac_vnode_label_cache_hits = 0; 162SYSCTL_INT(_security_mac, OID_AUTO, vnode_label_cache_hits, CTLFLAG_RD, 163 &mac_vnode_label_cache_hits, 0, "Cache hits on vnode labels"); 164static int mac_vnode_label_cache_misses = 0; 165SYSCTL_INT(_security_mac, OID_AUTO, vnode_label_cache_misses, CTLFLAG_RD, 166 &mac_vnode_label_cache_misses, 0, "Cache misses on vnode labels"); 167 168static int mac_mmap_revocation = 1; 169SYSCTL_INT(_security_mac, OID_AUTO, mmap_revocation, CTLFLAG_RW, 170 &mac_mmap_revocation, 0, "Revoke mmap access to files on subject " 171 "relabel"); 172static int mac_mmap_revocation_via_cow = 0; 173SYSCTL_INT(_security_mac, OID_AUTO, mmap_revocation_via_cow, CTLFLAG_RW, 174 &mac_mmap_revocation_via_cow, 0, "Revoke mmap access to files via " 175 "copy-on-write semantics, or by removing all write access"); 176 177#ifdef MAC_DEBUG 178static unsigned int nmacmbufs, nmaccreds, nmacifnets, nmacbpfdescs, 179 nmacsockets, nmacmounts, nmactemp, nmacvnodes, nmacdevfsdirents, 180 nmacipqs, nmacpipes; 181SYSCTL_UINT(_security_mac_debug, OID_AUTO, mbufs, CTLFLAG_RD, 182 &nmacmbufs, 0, "number of mbufs in use"); 183SYSCTL_UINT(_security_mac_debug, OID_AUTO, creds, CTLFLAG_RD, 184 &nmaccreds, 0, "number of ucreds in use"); 185SYSCTL_UINT(_security_mac_debug, OID_AUTO, ifnets, CTLFLAG_RD, 186 &nmacifnets, 0, "number of ifnets in use"); 187SYSCTL_UINT(_security_mac_debug, OID_AUTO, ipqs, CTLFLAG_RD, 188 &nmacipqs, 0, "number of ipqs in use"); 189SYSCTL_UINT(_security_mac_debug, OID_AUTO, bpfdescs, CTLFLAG_RD, 190 &nmacbpfdescs, 0, "number of bpfdescs in use"); 191SYSCTL_UINT(_security_mac_debug, OID_AUTO, sockets, CTLFLAG_RD, 192 &nmacsockets, 0, "number of sockets in use"); 193SYSCTL_UINT(_security_mac_debug, OID_AUTO, pipes, CTLFLAG_RD, 194 &nmacpipes, 0, "number of pipes in use"); 195SYSCTL_UINT(_security_mac_debug, OID_AUTO, mounts, CTLFLAG_RD, 196 &nmacmounts, 0, "number of mounts in use"); 197SYSCTL_UINT(_security_mac_debug, OID_AUTO, temp, CTLFLAG_RD, 198 &nmactemp, 0, "number of temporary labels in use"); 199SYSCTL_UINT(_security_mac_debug, OID_AUTO, vnodes, CTLFLAG_RD, 200 &nmacvnodes, 0, "number of vnodes in use"); 201SYSCTL_UINT(_security_mac_debug, OID_AUTO, devfsdirents, CTLFLAG_RD, 202 &nmacdevfsdirents, 0, "number of devfs dirents inuse"); 203#endif 204 205static int error_select(int error1, int error2); 206static int mac_externalize(struct label label, struct mac mac); 207static int mac_policy_register(struct mac_policy_conf mpc); 208static int mac_policy_unregister(struct mac_policy_conf mpc); 209 210static int mac_stdcreatevnode_ea(struct vnode vp); 211static void mac_cred_mmapped_drop_perms(struct thread td, 212 struct ucred cred); 213static void mac_cred_mmapped_drop_perms_recurse(struct thread td, 214 struct ucred cred, struct vm_map map); 215 216MALLOC_DEFINE(M_MACOPVEC, "macopvec", "MAC policy operation vector"); 217MALLOC_DEFINE(M_MACPIPELABEL, "macpipelabel", "MAC labels for pipes"); 218 219/* 220 * mac_policy_list_lock protects the consistency of 'mac_policy_list', 221 * the linked list of attached policy modules. Read-only consumers of 222 * the list must acquire a shared lock for the duration of their use; 223 * writers must acquire an exclusive lock. Note that for compound 224 * operations, locks should be held for the entire compound operation, 225 * and that this is not yet done for relabel requests. 226 / 227static struct mtx mac_policy_list_lock; 228static LIST_HEAD(, mac_policy_conf) mac_policy_list; 229static int mac_policy_list_busy; 230#define MAC_POLICY_LIST_LOCKINIT() mtx_init(&mac_policy_list_lock, \ 231* "mac_policy_list_lock", NULL, MTX_DEF); 232#define MAC_POLICY_LIST_LOCK() mtx_lock(&mac_policy_list_lock); 233#define MAC_POLICY_LIST_UNLOCK() mtx_unlock(&mac_policy_list_lock); 234 235#define MAC_POLICY_LIST_BUSY() do { \ 236 MAC_POLICY_LIST_LOCK(); \ 237 mac_policy_list_busy++; \ 238 MAC_POLICY_LIST_UNLOCK(); \ 239} while (0) 240 241#define MAC_POLICY_LIST_UNBUSY() do { \ 242 MAC_POLICY_LIST_LOCK(); \ 243 mac_policy_list_busy--; \ 244 if (mac_policy_list_busy < 0) \ 245 panic("Extra mac_policy_list_busy--"); \ 246 MAC_POLICY_LIST_UNLOCK(); \ 247} while (0) 248 249/* 250 * MAC_CHECK performs the designated check by walking the policy 251 * module list and checking with each as to how it feels about the 252 * request. Note that it returns its value via 'error' in the scope 253 * of the caller. 254 / 255#define MAC_CHECK(check, args...) do { \ 256* struct mac_policy_conf mpc; \ 257* \ 258 error = 0; \ 259 MAC_POLICY_LIST_BUSY(); \ 260 LIST_FOREACH(mpc, &mac_policy_list, mpc_list) { \ 261 if (mpc->mpc_ops->mpo_ ## check != NULL) \ 262 error = error_select( \ 263 mpc->mpc_ops->mpo_ ## check (args), \ 264 error); \ 265 } \ 266 MAC_POLICY_LIST_UNBUSY(); \ 267} while (0) 268 269/* 270 * MAC_BOOLEAN performs the designated boolean composition by walking 271 * the module list, invoking each instance of the operation, and 272 * combining the results using the passed C operator. Note that it 273 * returns its value via 'result' in the scope of the caller, which 274 * should be initialized by the caller in a meaningful way to get 275 * a meaningful result. 276 / 277#define MAC_BOOLEAN(operation, composition, args...) do { \ 278* struct mac_policy_conf mpc; \ 279* \ 280 MAC_POLICY_LIST_BUSY(); \ 281 LIST_FOREACH(mpc, &mac_policy_list, mpc_list) { \ 282 if (mpc->mpc_ops->mpo_ ## operation != NULL) \ 283 result = result composition \ 284 mpc->mpc_ops->mpo_ ## operation (args); \ 285 } \ 286 MAC_POLICY_LIST_UNBUSY(); \ 287} while (0) 288 289/* 290 * MAC_PERFORM performs the designated operation by walking the policy 291 * module list and invoking that operation for each policy. 292 / 293#define MAC_PERFORM(operation, args...) do { \ 294* struct mac_policy_conf mpc; \ 295* \ 296 MAC_POLICY_LIST_BUSY(); \ 297 LIST_FOREACH(mpc, &mac_policy_list, mpc_list) { \ 298 if (mpc->mpc_ops->mpo_ ## operation != NULL) \ 299 mpc->mpc_ops->mpo_ ## operation (args); \ 300 } \ 301 MAC_POLICY_LIST_UNBUSY(); \ 302} while (0) 303 304/* 305 * Initialize the MAC subsystem, including appropriate SMP locks. 306 / 307static void 308mac_init(void) 309{ 310* 311 LIST_INIT(&mac_policy_list); 312 MAC_POLICY_LIST_LOCKINIT(); 313} 314 315/* 316 * For the purposes of modules that want to know if they were loaded 317 * "early", set the mac_late flag once we've processed modules either 318 * linked into the kernel, or loaded before the kernel startup. 319 / 320static void 321mac_late_init(void) 322{ 323* 324 mac_late = 1; 325} 326 327/* 328 * Allow MAC policy modules to register during boot, etc. 329 / 330int 331mac_policy_modevent(module_t mod, int type, void data) 332{ 333 struct mac_policy_conf mpc; 334* int error; 335 336 error = 0; 337 mpc = (struct mac_policy_conf ) data; 338* 339 switch (type) { 340 case MOD_LOAD: 341 if (mpc->mpc_loadtime_flags & MPC_LOADTIME_FLAG_NOTLATE && 342 mac_late) { 343 printf("mac_policy_modevent: can't load %s policy " 344 "after booting\n", mpc->mpc_name); 345 error = EBUSY; 346 break; 347 } 348 error = mac_policy_register(mpc); 349 break; 350 case MOD_UNLOAD: 351 /* Don't unregister the module if it was never registered. / 352* if ((mpc->mpc_runtime_flags & MPC_RUNTIME_FLAG_REGISTERED) 353 != 0) 354 error = mac_policy_unregister(mpc); 355 else 356 error = 0; 357 break; 358 default: 359 break; 360 } 361 362 return (error); 363} 364 365static int 366mac_policy_register(struct mac_policy_conf mpc) 367{ 368* struct mac_policy_conf *tmpc;
369 struct mac_policy_ops *ops;
370 struct mac_policy_op_entry mpe; 371* int slot; 372	369 struct mac_policy_op_entry mpe; 370* int slot; 371
373 MALLOC(mpc->mpc_ops, struct mac_policy_ops , sizeof(ops), M_MACOPVEC, 374 M_WAITOK \| M_ZERO);	372 MALLOC(mpc->mpc_ops, struct mac_policy_ops , sizeof(mpc->mpc_ops), 373 M_MACOPVEC, M_WAITOK \| M_ZERO);
375 for (mpe = mpc->mpc_entries; mpe->mpe_constant != MAC_OP_LAST; mpe++) { 376 switch (mpe->mpe_constant) { 377 case MAC_OP_LAST: 378 /* 379 * Doesn't actually happen, but this allows checking 380 * that all enumerated values are handled. 381 / 382* break; 383 case MAC_DESTROY: 384 mpc->mpc_ops->mpo_destroy = 385 mpe->mpe_function; 386 break; 387 case MAC_INIT: 388 mpc->mpc_ops->mpo_init = 389 mpe->mpe_function; 390 break; 391 case MAC_SYSCALL: 392 mpc->mpc_ops->mpo_syscall = 393 mpe->mpe_function; 394 break; 395 case MAC_INIT_BPFDESC: 396 mpc->mpc_ops->mpo_init_bpfdesc = 397 mpe->mpe_function; 398 break; 399 case MAC_INIT_CRED: 400 mpc->mpc_ops->mpo_init_cred = 401 mpe->mpe_function; 402 break; 403 case MAC_INIT_DEVFSDIRENT: 404 mpc->mpc_ops->mpo_init_devfsdirent = 405 mpe->mpe_function; 406 break; 407 case MAC_INIT_IFNET: 408 mpc->mpc_ops->mpo_init_ifnet = 409 mpe->mpe_function; 410 break; 411 case MAC_INIT_IPQ: 412 mpc->mpc_ops->mpo_init_ipq = 413 mpe->mpe_function; 414 break; 415 case MAC_INIT_MBUF: 416 mpc->mpc_ops->mpo_init_mbuf = 417 mpe->mpe_function; 418 break; 419 case MAC_INIT_MOUNT: 420 mpc->mpc_ops->mpo_init_mount = 421 mpe->mpe_function; 422 break; 423 case MAC_INIT_PIPE: 424 mpc->mpc_ops->mpo_init_pipe = 425 mpe->mpe_function; 426 break; 427 case MAC_INIT_SOCKET: 428 mpc->mpc_ops->mpo_init_socket = 429 mpe->mpe_function; 430 break; 431 case MAC_INIT_TEMP: 432 mpc->mpc_ops->mpo_init_temp = 433 mpe->mpe_function; 434 break; 435 case MAC_INIT_VNODE: 436 mpc->mpc_ops->mpo_init_vnode = 437 mpe->mpe_function; 438 break; 439 case MAC_DESTROY_BPFDESC: 440 mpc->mpc_ops->mpo_destroy_bpfdesc = 441 mpe->mpe_function; 442 break; 443 case MAC_DESTROY_CRED: 444 mpc->mpc_ops->mpo_destroy_cred = 445 mpe->mpe_function; 446 break; 447 case MAC_DESTROY_DEVFSDIRENT: 448 mpc->mpc_ops->mpo_destroy_devfsdirent = 449 mpe->mpe_function; 450 break; 451 case MAC_DESTROY_IFNET: 452 mpc->mpc_ops->mpo_destroy_ifnet = 453 mpe->mpe_function; 454 break; 455 case MAC_DESTROY_IPQ: 456 mpc->mpc_ops->mpo_destroy_ipq = 457 mpe->mpe_function; 458 break; 459 case MAC_DESTROY_MBUF: 460 mpc->mpc_ops->mpo_destroy_mbuf = 461 mpe->mpe_function; 462 break; 463 case MAC_DESTROY_MOUNT: 464 mpc->mpc_ops->mpo_destroy_mount = 465 mpe->mpe_function; 466 break; 467 case MAC_DESTROY_PIPE: 468 mpc->mpc_ops->mpo_destroy_pipe = 469 mpe->mpe_function; 470 break; 471 case MAC_DESTROY_SOCKET: 472 mpc->mpc_ops->mpo_destroy_socket = 473 mpe->mpe_function; 474 break; 475 case MAC_DESTROY_TEMP: 476 mpc->mpc_ops->mpo_destroy_temp = 477 mpe->mpe_function; 478 break; 479 case MAC_DESTROY_VNODE: 480 mpc->mpc_ops->mpo_destroy_vnode = 481 mpe->mpe_function; 482 break; 483 case MAC_EXTERNALIZE: 484 mpc->mpc_ops->mpo_externalize = 485 mpe->mpe_function; 486 break; 487 case MAC_INTERNALIZE: 488 mpc->mpc_ops->mpo_internalize = 489 mpe->mpe_function; 490 break; 491 case MAC_CREATE_DEVFS_DEVICE: 492 mpc->mpc_ops->mpo_create_devfs_device = 493 mpe->mpe_function; 494 break; 495 case MAC_CREATE_DEVFS_DIRECTORY: 496 mpc->mpc_ops->mpo_create_devfs_directory = 497 mpe->mpe_function; 498 break; 499 case MAC_CREATE_DEVFS_VNODE: 500 mpc->mpc_ops->mpo_create_devfs_vnode = 501 mpe->mpe_function; 502 break; 503 case MAC_STDCREATEVNODE_EA: 504 mpc->mpc_ops->mpo_stdcreatevnode_ea = 505 mpe->mpe_function; 506 break; 507 case MAC_CREATE_VNODE: 508 mpc->mpc_ops->mpo_create_vnode = 509 mpe->mpe_function; 510 break; 511 case MAC_CREATE_MOUNT: 512 mpc->mpc_ops->mpo_create_mount = 513 mpe->mpe_function; 514 break; 515 case MAC_CREATE_ROOT_MOUNT: 516 mpc->mpc_ops->mpo_create_root_mount = 517 mpe->mpe_function; 518 break; 519 case MAC_RELABEL_VNODE: 520 mpc->mpc_ops->mpo_relabel_vnode = 521 mpe->mpe_function; 522 break; 523 case MAC_UPDATE_DEVFSDIRENT: 524 mpc->mpc_ops->mpo_update_devfsdirent = 525 mpe->mpe_function; 526 break; 527 case MAC_UPDATE_PROCFSVNODE: 528 mpc->mpc_ops->mpo_update_procfsvnode = 529 mpe->mpe_function; 530 break; 531 case MAC_UPDATE_VNODE_FROM_EXTATTR: 532 mpc->mpc_ops->mpo_update_vnode_from_extattr = 533 mpe->mpe_function; 534 break; 535 case MAC_UPDATE_VNODE_FROM_EXTERNALIZED: 536 mpc->mpc_ops->mpo_update_vnode_from_externalized = 537 mpe->mpe_function; 538 break; 539 case MAC_UPDATE_VNODE_FROM_MOUNT: 540 mpc->mpc_ops->mpo_update_vnode_from_mount = 541 mpe->mpe_function; 542 break; 543 case MAC_CREATE_MBUF_FROM_SOCKET: 544 mpc->mpc_ops->mpo_create_mbuf_from_socket = 545 mpe->mpe_function; 546 break; 547 case MAC_CREATE_PIPE: 548 mpc->mpc_ops->mpo_create_pipe = 549 mpe->mpe_function; 550 break; 551 case MAC_CREATE_SOCKET: 552 mpc->mpc_ops->mpo_create_socket = 553 mpe->mpe_function; 554 break; 555 case MAC_CREATE_SOCKET_FROM_SOCKET: 556 mpc->mpc_ops->mpo_create_socket_from_socket = 557 mpe->mpe_function; 558 break; 559 case MAC_RELABEL_PIPE: 560 mpc->mpc_ops->mpo_relabel_pipe = 561 mpe->mpe_function; 562 break; 563 case MAC_RELABEL_SOCKET: 564 mpc->mpc_ops->mpo_relabel_socket = 565 mpe->mpe_function; 566 break; 567 case MAC_SET_SOCKET_PEER_FROM_MBUF: 568 mpc->mpc_ops->mpo_set_socket_peer_from_mbuf = 569 mpe->mpe_function; 570 break; 571 case MAC_SET_SOCKET_PEER_FROM_SOCKET: 572 mpc->mpc_ops->mpo_set_socket_peer_from_socket = 573 mpe->mpe_function; 574 break; 575 case MAC_CREATE_BPFDESC: 576 mpc->mpc_ops->mpo_create_bpfdesc = 577 mpe->mpe_function; 578 break; 579 case MAC_CREATE_DATAGRAM_FROM_IPQ: 580 mpc->mpc_ops->mpo_create_datagram_from_ipq = 581 mpe->mpe_function; 582 break; 583 case MAC_CREATE_FRAGMENT: 584 mpc->mpc_ops->mpo_create_fragment = 585 mpe->mpe_function; 586 break; 587 case MAC_CREATE_IFNET: 588 mpc->mpc_ops->mpo_create_ifnet = 589 mpe->mpe_function; 590 break; 591 case MAC_CREATE_IPQ: 592 mpc->mpc_ops->mpo_create_ipq = 593 mpe->mpe_function; 594 break; 595 case MAC_CREATE_MBUF_FROM_MBUF: 596 mpc->mpc_ops->mpo_create_mbuf_from_mbuf = 597 mpe->mpe_function; 598 break; 599 case MAC_CREATE_MBUF_LINKLAYER: 600 mpc->mpc_ops->mpo_create_mbuf_linklayer = 601 mpe->mpe_function; 602 break; 603 case MAC_CREATE_MBUF_FROM_BPFDESC: 604 mpc->mpc_ops->mpo_create_mbuf_from_bpfdesc = 605 mpe->mpe_function; 606 break; 607 case MAC_CREATE_MBUF_FROM_IFNET: 608 mpc->mpc_ops->mpo_create_mbuf_from_ifnet = 609 mpe->mpe_function; 610 break; 611 case MAC_CREATE_MBUF_MULTICAST_ENCAP: 612 mpc->mpc_ops->mpo_create_mbuf_multicast_encap = 613 mpe->mpe_function; 614 break; 615 case MAC_CREATE_MBUF_NETLAYER: 616 mpc->mpc_ops->mpo_create_mbuf_netlayer = 617 mpe->mpe_function; 618 break; 619 case MAC_FRAGMENT_MATCH: 620 mpc->mpc_ops->mpo_fragment_match = 621 mpe->mpe_function; 622 break; 623 case MAC_RELABEL_IFNET: 624 mpc->mpc_ops->mpo_relabel_ifnet = 625 mpe->mpe_function; 626 break; 627 case MAC_UPDATE_IPQ: 628 mpc->mpc_ops->mpo_update_ipq = 629 mpe->mpe_function; 630 break; 631 case MAC_CREATE_CRED: 632 mpc->mpc_ops->mpo_create_cred = 633 mpe->mpe_function; 634 break; 635 case MAC_EXECVE_TRANSITION: 636 mpc->mpc_ops->mpo_execve_transition = 637 mpe->mpe_function; 638 break; 639 case MAC_EXECVE_WILL_TRANSITION: 640 mpc->mpc_ops->mpo_execve_will_transition = 641 mpe->mpe_function; 642 break; 643 case MAC_CREATE_PROC0: 644 mpc->mpc_ops->mpo_create_proc0 = mpe->mpe_function; 645 break; 646 case MAC_CREATE_PROC1: 647 mpc->mpc_ops->mpo_create_proc1 = mpe->mpe_function; 648 break; 649 case MAC_RELABEL_CRED: 650 mpc->mpc_ops->mpo_relabel_cred = 651 mpe->mpe_function; 652 break; 653 case MAC_CHECK_BPFDESC_RECEIVE: 654 mpc->mpc_ops->mpo_check_bpfdesc_receive = 655 mpe->mpe_function; 656 break; 657 case MAC_CHECK_CRED_RELABEL: 658 mpc->mpc_ops->mpo_check_cred_relabel = 659 mpe->mpe_function; 660 break; 661 case MAC_CHECK_CRED_VISIBLE: 662 mpc->mpc_ops->mpo_check_cred_visible = 663 mpe->mpe_function; 664 break; 665 case MAC_CHECK_IFNET_RELABEL: 666 mpc->mpc_ops->mpo_check_ifnet_relabel = 667 mpe->mpe_function; 668 break; 669 case MAC_CHECK_IFNET_TRANSMIT: 670 mpc->mpc_ops->mpo_check_ifnet_transmit = 671 mpe->mpe_function; 672 break; 673 case MAC_CHECK_MOUNT_STAT: 674 mpc->mpc_ops->mpo_check_mount_stat = 675 mpe->mpe_function; 676 break; 677 case MAC_CHECK_PIPE_IOCTL: 678 mpc->mpc_ops->mpo_check_pipe_ioctl = 679 mpe->mpe_function; 680 break; 681 case MAC_CHECK_PIPE_POLL: 682 mpc->mpc_ops->mpo_check_pipe_poll = 683 mpe->mpe_function; 684 break; 685 case MAC_CHECK_PIPE_READ: 686 mpc->mpc_ops->mpo_check_pipe_read = 687 mpe->mpe_function; 688 break; 689 case MAC_CHECK_PIPE_RELABEL: 690 mpc->mpc_ops->mpo_check_pipe_relabel = 691 mpe->mpe_function; 692 break; 693 case MAC_CHECK_PIPE_STAT: 694 mpc->mpc_ops->mpo_check_pipe_stat = 695 mpe->mpe_function; 696 break; 697 case MAC_CHECK_PIPE_WRITE: 698 mpc->mpc_ops->mpo_check_pipe_write = 699 mpe->mpe_function; 700 break; 701 case MAC_CHECK_PROC_DEBUG: 702 mpc->mpc_ops->mpo_check_proc_debug = 703 mpe->mpe_function; 704 break; 705 case MAC_CHECK_PROC_SCHED: 706 mpc->mpc_ops->mpo_check_proc_sched = 707 mpe->mpe_function; 708 break; 709 case MAC_CHECK_PROC_SIGNAL: 710 mpc->mpc_ops->mpo_check_proc_signal = 711 mpe->mpe_function; 712 break; 713 case MAC_CHECK_SOCKET_BIND: 714 mpc->mpc_ops->mpo_check_socket_bind = 715 mpe->mpe_function; 716 break; 717 case MAC_CHECK_SOCKET_CONNECT: 718 mpc->mpc_ops->mpo_check_socket_connect = 719 mpe->mpe_function; 720 break; 721 case MAC_CHECK_SOCKET_DELIVER: 722 mpc->mpc_ops->mpo_check_socket_deliver = 723 mpe->mpe_function; 724 break; 725 case MAC_CHECK_SOCKET_LISTEN: 726 mpc->mpc_ops->mpo_check_socket_listen = 727 mpe->mpe_function; 728 break; 729 case MAC_CHECK_SOCKET_RELABEL: 730 mpc->mpc_ops->mpo_check_socket_relabel = 731 mpe->mpe_function; 732 break; 733 case MAC_CHECK_SOCKET_VISIBLE: 734 mpc->mpc_ops->mpo_check_socket_visible = 735 mpe->mpe_function; 736 break; 737 case MAC_CHECK_VNODE_ACCESS: 738 mpc->mpc_ops->mpo_check_vnode_access = 739 mpe->mpe_function; 740 break; 741 case MAC_CHECK_VNODE_CHDIR: 742 mpc->mpc_ops->mpo_check_vnode_chdir = 743 mpe->mpe_function; 744 break; 745 case MAC_CHECK_VNODE_CHROOT: 746 mpc->mpc_ops->mpo_check_vnode_chroot = 747 mpe->mpe_function; 748 break; 749 case MAC_CHECK_VNODE_CREATE: 750 mpc->mpc_ops->mpo_check_vnode_create = 751 mpe->mpe_function; 752 break; 753 case MAC_CHECK_VNODE_DELETE: 754 mpc->mpc_ops->mpo_check_vnode_delete = 755 mpe->mpe_function; 756 break; 757 case MAC_CHECK_VNODE_DELETEACL: 758 mpc->mpc_ops->mpo_check_vnode_deleteacl = 759 mpe->mpe_function; 760 break; 761 case MAC_CHECK_VNODE_EXEC: 762 mpc->mpc_ops->mpo_check_vnode_exec = 763 mpe->mpe_function; 764 break; 765 case MAC_CHECK_VNODE_GETACL: 766 mpc->mpc_ops->mpo_check_vnode_getacl = 767 mpe->mpe_function; 768 break; 769 case MAC_CHECK_VNODE_GETEXTATTR: 770 mpc->mpc_ops->mpo_check_vnode_getextattr = 771 mpe->mpe_function; 772 break; 773 case MAC_CHECK_VNODE_LOOKUP: 774 mpc->mpc_ops->mpo_check_vnode_lookup = 775 mpe->mpe_function; 776 break; 777 case MAC_CHECK_VNODE_MMAP_PERMS: 778 mpc->mpc_ops->mpo_check_vnode_mmap_perms = 779 mpe->mpe_function; 780 break; 781 case MAC_CHECK_VNODE_OPEN: 782 mpc->mpc_ops->mpo_check_vnode_open = 783 mpe->mpe_function; 784 break; 785 case MAC_CHECK_VNODE_POLL: 786 mpc->mpc_ops->mpo_check_vnode_poll = 787 mpe->mpe_function; 788 break; 789 case MAC_CHECK_VNODE_READ: 790 mpc->mpc_ops->mpo_check_vnode_read = 791 mpe->mpe_function; 792 break; 793 case MAC_CHECK_VNODE_READDIR: 794 mpc->mpc_ops->mpo_check_vnode_readdir = 795 mpe->mpe_function; 796 break; 797 case MAC_CHECK_VNODE_READLINK: 798 mpc->mpc_ops->mpo_check_vnode_readlink = 799 mpe->mpe_function; 800 break; 801 case MAC_CHECK_VNODE_RELABEL: 802 mpc->mpc_ops->mpo_check_vnode_relabel = 803 mpe->mpe_function; 804 break; 805 case MAC_CHECK_VNODE_RENAME_FROM: 806 mpc->mpc_ops->mpo_check_vnode_rename_from = 807 mpe->mpe_function; 808 break; 809 case MAC_CHECK_VNODE_RENAME_TO: 810 mpc->mpc_ops->mpo_check_vnode_rename_to = 811 mpe->mpe_function; 812 break; 813 case MAC_CHECK_VNODE_REVOKE: 814 mpc->mpc_ops->mpo_check_vnode_revoke = 815 mpe->mpe_function; 816 break; 817 case MAC_CHECK_VNODE_SETACL: 818 mpc->mpc_ops->mpo_check_vnode_setacl = 819 mpe->mpe_function; 820 break; 821 case MAC_CHECK_VNODE_SETEXTATTR: 822 mpc->mpc_ops->mpo_check_vnode_setextattr = 823 mpe->mpe_function; 824 break; 825 case MAC_CHECK_VNODE_SETFLAGS: 826 mpc->mpc_ops->mpo_check_vnode_setflags = 827 mpe->mpe_function; 828 break; 829 case MAC_CHECK_VNODE_SETMODE: 830 mpc->mpc_ops->mpo_check_vnode_setmode = 831 mpe->mpe_function; 832 break; 833 case MAC_CHECK_VNODE_SETOWNER: 834 mpc->mpc_ops->mpo_check_vnode_setowner = 835 mpe->mpe_function; 836 break; 837 case MAC_CHECK_VNODE_SETUTIMES: 838 mpc->mpc_ops->mpo_check_vnode_setutimes = 839 mpe->mpe_function; 840 break; 841 case MAC_CHECK_VNODE_STAT: 842 mpc->mpc_ops->mpo_check_vnode_stat = 843 mpe->mpe_function; 844 break; 845 case MAC_CHECK_VNODE_WRITE: 846 mpc->mpc_ops->mpo_check_vnode_write = 847 mpe->mpe_function; 848 break; 849/* 850 default: 851 printf("MAC policy `%s': unknown operation %d\n", 852 mpc->mpc_name, mpe->mpe_constant); 853 return (EINVAL); 854/ 855* } 856 } 857 MAC_POLICY_LIST_LOCK(); 858 if (mac_policy_list_busy > 0) { 859 MAC_POLICY_LIST_UNLOCK(); 860 FREE(mpc->mpc_ops, M_MACOPVEC); 861 mpc->mpc_ops = NULL; 862 return (EBUSY); 863 } 864 LIST_FOREACH(tmpc, &mac_policy_list, mpc_list) { 865 if (strcmp(tmpc->mpc_name, mpc->mpc_name) == 0) { 866 MAC_POLICY_LIST_UNLOCK(); 867 FREE(mpc->mpc_ops, M_MACOPVEC); 868 mpc->mpc_ops = NULL; 869 return (EEXIST); 870 } 871 } 872 if (mpc->mpc_field_off != NULL) { 873 slot = ffs(mac_policy_offsets_free); 874 if (slot == 0) { 875 MAC_POLICY_LIST_UNLOCK(); 876 FREE(mpc->mpc_ops, M_MACOPVEC); 877 mpc->mpc_ops = NULL; 878 return (ENOMEM); 879 } 880 slot--; 881 mac_policy_offsets_free &= ~(1 << slot); 882 mpc->mpc_field_off = slot; 883* } 884 mpc->mpc_runtime_flags \|= MPC_RUNTIME_FLAG_REGISTERED; 885 LIST_INSERT_HEAD(&mac_policy_list, mpc, mpc_list); 886 887 /* Per-policy initialization. / 888* if (mpc->mpc_ops->mpo_init != NULL) 889 ((mpc->mpc_ops->mpo_init))(mpc); 890* MAC_POLICY_LIST_UNLOCK(); 891 892 printf("Security policy loaded: %s (%s)\n", mpc->mpc_fullname, 893 mpc->mpc_name); 894 895 return (0); 896} 897 898static int 899mac_policy_unregister(struct mac_policy_conf mpc) 900{ 901* 902#if 0 903 /* 904 * Don't allow unloading modules with private data. 905 / 906* if (mpc->mpc_field_off != NULL) 907 return (EBUSY); 908#endif 909 if ((mpc->mpc_loadtime_flags & MPC_LOADTIME_FLAG_UNLOADOK) == 0) 910 return (EBUSY); 911 MAC_POLICY_LIST_LOCK(); 912 if (mac_policy_list_busy > 0) { 913 MAC_POLICY_LIST_UNLOCK(); 914 return (EBUSY); 915 } 916 if (mpc->mpc_ops->mpo_destroy != NULL) 917 ((mpc->mpc_ops->mpo_destroy))(mpc); 918* 919 LIST_REMOVE(mpc, mpc_list); 920 MAC_POLICY_LIST_UNLOCK(); 921 922 FREE(mpc->mpc_ops, M_MACOPVEC); 923 mpc->mpc_ops = NULL; 924 925 printf("Security policy unload: %s (%s)\n", mpc->mpc_fullname, 926 mpc->mpc_name); 927 928 return (0); 929} 930 931/* 932 * Define an error value precedence, and given two arguments, selects the 933 * value with the higher precedence. 934 / 935static int 936error_select(int error1, int error2) 937{ 938* 939 /* Certain decision-making errors take top priority. / 940* if (error1 == EDEADLK \|\| error2 == EDEADLK) 941 return (EDEADLK); 942 943 /* Invalid arguments should be reported where possible. / 944* if (error1 == EINVAL \|\| error2 == EINVAL) 945 return (EINVAL); 946 947 /* Precedence goes to "visibility", with both process and file. / 948* if (error1 == ESRCH \|\| error2 == ESRCH) 949 return (ESRCH); 950 951 if (error1 == ENOENT \|\| error2 == ENOENT) 952 return (ENOENT); 953 954 /* Precedence goes to DAC/MAC protections. / 955* if (error1 == EACCES \|\| error2 == EACCES) 956 return (EACCES); 957 958 /* Precedence goes to privilege. / 959* if (error1 == EPERM \|\| error2 == EPERM) 960 return (EPERM); 961 962 /* Precedence goes to error over success; otherwise, arbitrary. / 963* if (error1 != 0) 964 return (error1); 965 return (error2); 966} 967 968void 969mac_update_devfsdirent(struct devfs_dirent de, struct vnode vp) 970{ 971 972 MAC_PERFORM(update_devfsdirent, de, &de->de_label, vp, &vp->v_label); 973} 974 975void 976mac_update_procfsvnode(struct vnode vp, struct ucred cred) 977{ 978 979 MAC_PERFORM(update_procfsvnode, vp, &vp->v_label, cred); 980} 981 982/* 983 * Support callout for policies that manage their own externalization 984 * using extended attributes. 985 / 986static int 987mac_update_vnode_from_extattr(struct vnode vp, struct mount mp) 988{ 989* int error; 990 991 MAC_CHECK(update_vnode_from_extattr, vp, &vp->v_label, mp, 992 &mp->mnt_fslabel); 993 994 return (error); 995} 996 997/* 998 * Given an externalized mac label, internalize it and stamp it on a 999 * vnode. 1000 / 1001static int 1002mac_update_vnode_from_externalized(struct vnode vp, struct mac extmac) 1003{ 1004* int error; 1005 1006 MAC_CHECK(update_vnode_from_externalized, vp, &vp->v_label, extmac); 1007 1008 return (error); 1009} 1010 1011/* 1012 * Call out to individual policies to update the label in a vnode from 1013 * the mountpoint. 1014 / 1015void 1016mac_update_vnode_from_mount(struct vnode vp, struct mount mp) 1017{ 1018* 1019 MAC_PERFORM(update_vnode_from_mount, vp, &vp->v_label, mp, 1020 &mp->mnt_fslabel); 1021 1022 ASSERT_VOP_LOCKED(vp, "mac_update_vnode_from_mount"); 1023 if (mac_cache_fslabel_in_vnode) 1024 vp->v_vflag \|= VV_CACHEDLABEL; 1025} 1026 1027/* 1028 * Implementation of VOP_REFRESHLABEL() that relies on extended attributes 1029 * to store label data. Can be referenced by filesystems supporting 1030 * extended attributes. 1031 / 1032int 1033vop_stdrefreshlabel_ea(struct vop_refreshlabel_args ap) 1034{ 1035 struct vnode vp = ap->a_vp; 1036* struct mac extmac; 1037 int buflen, error; 1038 1039 ASSERT_VOP_LOCKED(vp, "vop_stdrefreshlabel_ea"); 1040 1041 /* 1042 * Call out to external policies first. Order doesn't really 1043 * matter, as long as failure of one assures failure of all. 1044 / 1045* error = mac_update_vnode_from_extattr(vp, vp->v_mount); 1046 if (error) 1047 return (error); 1048 1049 buflen = sizeof(extmac); 1050 error = vn_extattr_get(vp, IO_NODELOCKED, 1051 FREEBSD_MAC_EXTATTR_NAMESPACE, FREEBSD_MAC_EXTATTR_NAME, &buflen, 1052 (char )&extmac, curthread); 1053* switch (error) { 1054 case 0: 1055 /* Got it / 1056* break; 1057 1058 case ENOATTR: 1059 /* 1060 * Use the label from the mount point. 1061 / 1062* mac_update_vnode_from_mount(vp, vp->v_mount); 1063 return (0); 1064 1065 case EOPNOTSUPP: 1066 default: 1067 /* Fail horribly. / 1068* return (error); 1069 } 1070 1071 if (buflen != sizeof(extmac)) 1072 error = EPERM; /* Fail very closed. / 1073* if (error == 0) 1074 error = mac_update_vnode_from_externalized(vp, &extmac); 1075 if (error == 0) 1076 vp->v_vflag \|= VV_CACHEDLABEL; 1077 else { 1078 struct vattr va; 1079 1080 printf("Corrupted label on %s", 1081 vp->v_mount->mnt_stat.f_mntonname); 1082 if (VOP_GETATTR(vp, &va, curthread->td_ucred, curthread) == 0) 1083 printf(" inum %ld", va.va_fileid); 1084 if (mac_debug_label_fallback) { 1085 printf(", falling back.\n"); 1086 mac_update_vnode_from_mount(vp, vp->v_mount); 1087 error = 0; 1088 } else { 1089 printf(".\n"); 1090 error = EPERM; 1091 } 1092 } 1093 1094 return (error); 1095} 1096 1097/* 1098 * Make sure the vnode label is up-to-date. If EOPNOTSUPP, then we handle 1099 * the labeling activity outselves. Filesystems should be careful not 1100 * to change their minds regarding whether they support vop_refreshlabel() 1101 * for a vnode or not. Don't cache the vnode here, allow the file 1102 * system code to determine if it's safe to cache. If we update from 1103 * the mount, don't cache since a change to the mount label should affect 1104 * all vnodes. 1105 / 1106static int 1107vn_refreshlabel(struct vnode vp, struct ucred cred) 1108{ 1109* int error; 1110 1111 ASSERT_VOP_LOCKED(vp, "vn_refreshlabel"); 1112 1113 if (vp->v_mount == NULL) { 1114/* 1115 Eventually, we probably want to special-case refreshing 1116 of deadfs vnodes, and if there's a lock-free race somewhere, 1117 that case might be handled here. 1118 1119 mac_update_vnode_deadfs(vp); 1120 return (0); 1121 / 1122* /* printf("vn_refreshlabel: null v_mount\n"); / 1123* if (vp->v_type != VNON) 1124 printf( 1125 "vn_refreshlabel: null v_mount with non-VNON\n"); 1126 return (EBADF); 1127 } 1128 1129 if (vp->v_vflag & VV_CACHEDLABEL) { 1130 mac_vnode_label_cache_hits++; 1131 return (0); 1132 } else 1133 mac_vnode_label_cache_misses++; 1134 1135 if ((vp->v_mount->mnt_flag & MNT_MULTILABEL) == 0) { 1136 mac_update_vnode_from_mount(vp, vp->v_mount); 1137 return (0); 1138 } 1139 1140 error = VOP_REFRESHLABEL(vp, cred, curthread); 1141 switch (error) { 1142 case EOPNOTSUPP: 1143 /* 1144 * If labels are not supported on this vnode, fall back to 1145 * the label in the mount and propagate it to the vnode. 1146 * There should probably be some sort of policy/flag/decision 1147 * about doing this. 1148 / 1149* mac_update_vnode_from_mount(vp, vp->v_mount); 1150 error = 0; 1151 default: 1152 return (error); 1153 } 1154} 1155 1156/* 1157 * Helper function for file systems using the vop_std_ea() calls. This 1158* * function must be called after EA service is available for the vnode, 1159 * but before it's hooked up to the namespace so that the node persists 1160 * if there's a crash, or before it can be accessed. On successful 1161 * commit of the label to disk (etc), do cache the label. 1162 / 1163int 1164vop_stdcreatevnode_ea(struct vnode dvp, struct vnode tvp, struct ucred cred) 1165{ 1166 struct mac extmac; 1167 int error; 1168 1169 ASSERT_VOP_LOCKED(tvp, "vop_stdcreatevnode_ea"); 1170 if ((dvp->v_mount->mnt_flag & MNT_MULTILABEL) == 0) { 1171 mac_update_vnode_from_mount(tvp, tvp->v_mount); 1172 } else { 1173 error = vn_refreshlabel(dvp, cred); 1174 if (error) 1175 return (error); 1176 1177 /* 1178 * Stick the label in the vnode. Then try to write to 1179 * disk. If we fail, return a failure to abort the 1180 * create operation. Really, this failure shouldn't 1181 * happen except in fairly unusual circumstances (out 1182 * of disk, etc). 1183 / 1184* mac_create_vnode(cred, dvp, tvp); 1185 1186 error = mac_stdcreatevnode_ea(tvp); 1187 if (error) 1188 return (error); 1189 1190 /* 1191 * XXX: Eventually this will go away and all policies will 1192 * directly manage their extended attributes. 1193 / 1194* error = mac_externalize(&tvp->v_label, &extmac); 1195 if (error) 1196 return (error); 1197 1198 error = vn_extattr_set(tvp, IO_NODELOCKED, 1199 FREEBSD_MAC_EXTATTR_NAMESPACE, FREEBSD_MAC_EXTATTR_NAME, 1200 sizeof(extmac), (char )&extmac, curthread); 1201* if (error == 0) 1202 tvp->v_vflag \|= VV_CACHEDLABEL; 1203 else { 1204#if 0 1205 /* 1206 * In theory, we could have fall-back behavior here. 1207 * It would probably be incorrect. 1208 / 1209#endif 1210* return (error); 1211 } 1212 } 1213 1214 return (0); 1215} 1216 1217void 1218mac_execve_transition(struct ucred old, struct ucred new, struct vnode vp) 1219{ 1220* int error; 1221 1222 ASSERT_VOP_LOCKED(vp, "mac_execve_transition"); 1223 1224 error = vn_refreshlabel(vp, old); 1225 if (error) { 1226 printf("mac_execve_transition: vn_refreshlabel returned %d\n", 1227 error); 1228 printf("mac_execve_transition: using old vnode label\n"); 1229 } 1230 1231 MAC_PERFORM(execve_transition, old, new, vp, &vp->v_label); 1232} 1233 1234int 1235mac_execve_will_transition(struct ucred old, struct vnode vp) 1236{ 1237 int error, result; 1238 1239 error = vn_refreshlabel(vp, old); 1240 if (error) 1241 return (error); 1242 1243 result = 0; 1244 MAC_BOOLEAN(execve_will_transition, \|\|, old, vp, &vp->v_label); 1245 1246 return (result); 1247} 1248 1249static void 1250mac_init_label(struct label label) 1251{ 1252* 1253 bzero(label, sizeof(label)); 1254* label->l_flags = MAC_FLAG_INITIALIZED; 1255} 1256 1257static void 1258mac_init_structmac(struct mac mac) 1259{ 1260* 1261 bzero(mac, sizeof(mac)); 1262* mac->m_macflags = MAC_FLAG_INITIALIZED; 1263} 1264 1265static void 1266mac_destroy_label(struct label label) 1267{ 1268* 1269 KASSERT(label->l_flags & MAC_FLAG_INITIALIZED, 1270 ("destroying uninitialized label")); 1271 1272 bzero(label, sizeof(label)); 1273* /* implicit: label->l_flags &= ~MAC_FLAG_INITIALIZED; / 1274} 1275* 1276int 1277mac_init_mbuf(struct mbuf m, int how) 1278{ 1279* KASSERT(m->m_flags & M_PKTHDR, ("mac_init_mbuf on non-header mbuf")); 1280 1281 /* "how" is one of M_(TRY\|DONT)WAIT / 1282* mac_init_label(&m->m_pkthdr.label); 1283 MAC_PERFORM(init_mbuf, m, how, &m->m_pkthdr.label); 1284#ifdef MAC_DEBUG 1285 atomic_add_int(&nmacmbufs, 1); 1286#endif 1287 return (0); 1288} 1289 1290void 1291mac_destroy_mbuf(struct mbuf m) 1292{ 1293* 1294 MAC_PERFORM(destroy_mbuf, m, &m->m_pkthdr.label); 1295 mac_destroy_label(&m->m_pkthdr.label); 1296#ifdef MAC_DEBUG 1297 atomic_subtract_int(&nmacmbufs, 1); 1298#endif 1299} 1300 1301void 1302mac_init_cred(struct ucred cr) 1303{ 1304* 1305 mac_init_label(&cr->cr_label); 1306 MAC_PERFORM(init_cred, cr, &cr->cr_label); 1307#ifdef MAC_DEBUG 1308 atomic_add_int(&nmaccreds, 1); 1309#endif 1310} 1311 1312void 1313mac_destroy_cred(struct ucred cr) 1314{ 1315* 1316 MAC_PERFORM(destroy_cred, cr, &cr->cr_label); 1317 mac_destroy_label(&cr->cr_label); 1318#ifdef MAC_DEBUG 1319 atomic_subtract_int(&nmaccreds, 1); 1320#endif 1321} 1322 1323void 1324mac_init_ifnet(struct ifnet ifp) 1325{ 1326* 1327 mac_init_label(&ifp->if_label); 1328 MAC_PERFORM(init_ifnet, ifp, &ifp->if_label); 1329#ifdef MAC_DEBUG 1330 atomic_add_int(&nmacifnets, 1); 1331#endif 1332} 1333 1334void 1335mac_destroy_ifnet(struct ifnet ifp) 1336{ 1337* 1338 MAC_PERFORM(destroy_ifnet, ifp, &ifp->if_label); 1339 mac_destroy_label(&ifp->if_label); 1340#ifdef MAC_DEBUG 1341 atomic_subtract_int(&nmacifnets, 1); 1342#endif 1343} 1344 1345void 1346mac_init_ipq(struct ipq ipq) 1347{ 1348* 1349 mac_init_label(&ipq->ipq_label); 1350 MAC_PERFORM(init_ipq, ipq, &ipq->ipq_label); 1351#ifdef MAC_DEBUG 1352 atomic_add_int(&nmacipqs, 1); 1353#endif 1354} 1355 1356void 1357mac_destroy_ipq(struct ipq ipq) 1358{ 1359* 1360 MAC_PERFORM(destroy_ipq, ipq, &ipq->ipq_label); 1361 mac_destroy_label(&ipq->ipq_label); 1362#ifdef MAC_DEBUG 1363 atomic_subtract_int(&nmacipqs, 1); 1364#endif 1365} 1366 1367void 1368mac_init_socket(struct socket socket) 1369{ 1370* 1371 mac_init_label(&socket->so_label); 1372 mac_init_label(&socket->so_peerlabel); 1373 MAC_PERFORM(init_socket, socket, &socket->so_label, 1374 &socket->so_peerlabel); 1375#ifdef MAC_DEBUG 1376 atomic_add_int(&nmacsockets, 1); 1377#endif 1378} 1379 1380void 1381mac_destroy_socket(struct socket socket) 1382{ 1383* 1384 MAC_PERFORM(destroy_socket, socket, &socket->so_label, 1385 &socket->so_peerlabel); 1386 mac_destroy_label(&socket->so_label); 1387 mac_destroy_label(&socket->so_peerlabel); 1388#ifdef MAC_DEBUG 1389 atomic_subtract_int(&nmacsockets, 1); 1390#endif 1391} 1392 1393void 1394mac_init_pipe(struct pipe pipe) 1395{ 1396* struct label label; 1397* 1398 label = malloc(sizeof(struct label), M_MACPIPELABEL, M_ZERO\|M_WAITOK); 1399 mac_init_label(label); 1400 pipe->pipe_label = label; 1401 pipe->pipe_peer->pipe_label = label; 1402 MAC_PERFORM(init_pipe, pipe, pipe->pipe_label); 1403#ifdef MAC_DEBUG 1404 atomic_add_int(&nmacpipes, 1); 1405#endif 1406} 1407 1408void 1409mac_destroy_pipe(struct pipe pipe) 1410{ 1411* 1412 MAC_PERFORM(destroy_pipe, pipe, pipe->pipe_label); 1413 mac_destroy_label(pipe->pipe_label); 1414 free(pipe->pipe_label, M_MACPIPELABEL); 1415#ifdef MAC_DEBUG 1416 atomic_subtract_int(&nmacpipes, 1); 1417#endif 1418} 1419 1420void 1421mac_init_bpfdesc(struct bpf_d bpf_d) 1422{ 1423* 1424 mac_init_label(&bpf_d->bd_label); 1425 MAC_PERFORM(init_bpfdesc, bpf_d, &bpf_d->bd_label); 1426#ifdef MAC_DEBUG 1427 atomic_add_int(&nmacbpfdescs, 1); 1428#endif 1429} 1430 1431void 1432mac_destroy_bpfdesc(struct bpf_d bpf_d) 1433{ 1434* 1435 MAC_PERFORM(destroy_bpfdesc, bpf_d, &bpf_d->bd_label); 1436 mac_destroy_label(&bpf_d->bd_label); 1437#ifdef MAC_DEBUG 1438 atomic_subtract_int(&nmacbpfdescs, 1); 1439#endif 1440} 1441 1442void 1443mac_init_mount(struct mount mp) 1444{ 1445* 1446 mac_init_label(&mp->mnt_mntlabel); 1447 mac_init_label(&mp->mnt_fslabel); 1448 MAC_PERFORM(init_mount, mp, &mp->mnt_mntlabel, &mp->mnt_fslabel); 1449#ifdef MAC_DEBUG 1450 atomic_add_int(&nmacmounts, 1); 1451#endif 1452} 1453 1454void 1455mac_destroy_mount(struct mount mp) 1456{ 1457* 1458 MAC_PERFORM(destroy_mount, mp, &mp->mnt_mntlabel, &mp->mnt_fslabel); 1459 mac_destroy_label(&mp->mnt_fslabel); 1460 mac_destroy_label(&mp->mnt_mntlabel); 1461#ifdef MAC_DEBUG 1462 atomic_subtract_int(&nmacmounts, 1); 1463#endif 1464} 1465 1466static void 1467mac_init_temp(struct label label) 1468{ 1469* 1470 mac_init_label(label); 1471 MAC_PERFORM(init_temp, label); 1472#ifdef MAC_DEBUG 1473 atomic_add_int(&nmactemp, 1); 1474#endif 1475} 1476 1477static void 1478mac_destroy_temp(struct label label) 1479{ 1480* 1481 MAC_PERFORM(destroy_temp, label); 1482 mac_destroy_label(label); 1483#ifdef MAC_DEBUG 1484 atomic_subtract_int(&nmactemp, 1); 1485#endif 1486} 1487 1488void 1489mac_init_vnode(struct vnode vp) 1490{ 1491* 1492 mac_init_label(&vp->v_label); 1493 MAC_PERFORM(init_vnode, vp, &vp->v_label); 1494#ifdef MAC_DEBUG 1495 atomic_add_int(&nmacvnodes, 1); 1496#endif 1497} 1498 1499void 1500mac_destroy_vnode(struct vnode vp) 1501{ 1502* 1503 MAC_PERFORM(destroy_vnode, vp, &vp->v_label); 1504 mac_destroy_label(&vp->v_label); 1505#ifdef MAC_DEBUG 1506 atomic_subtract_int(&nmacvnodes, 1); 1507#endif 1508} 1509 1510void 1511mac_init_devfsdirent(struct devfs_dirent de) 1512{ 1513* 1514 mac_init_label(&de->de_label); 1515 MAC_PERFORM(init_devfsdirent, de, &de->de_label); 1516#ifdef MAC_DEBUG 1517 atomic_add_int(&nmacdevfsdirents, 1); 1518#endif 1519} 1520 1521void 1522mac_destroy_devfsdirent(struct devfs_dirent de) 1523{ 1524* 1525 MAC_PERFORM(destroy_devfsdirent, de, &de->de_label); 1526 mac_destroy_label(&de->de_label); 1527#ifdef MAC_DEBUG 1528 atomic_subtract_int(&nmacdevfsdirents, 1); 1529#endif 1530} 1531 1532static int 1533mac_externalize(struct label label, struct mac mac) 1534{ 1535 int error; 1536 1537 mac_init_structmac(mac); 1538 MAC_CHECK(externalize, label, mac); 1539 1540 return (error); 1541} 1542 1543static int 1544mac_internalize(struct label label, struct mac mac) 1545{ 1546 int error; 1547 1548 mac_init_temp(label); 1549 MAC_CHECK(internalize, label, mac); 1550 if (error) 1551 mac_destroy_temp(label); 1552 1553 return (error); 1554} 1555 1556/* 1557 * Initialize MAC label for the first kernel process, from which other 1558 * kernel processes and threads are spawned. 1559 / 1560void 1561mac_create_proc0(struct ucred cred) 1562{ 1563 1564 MAC_PERFORM(create_proc0, cred); 1565} 1566 1567/* 1568 * Initialize MAC label for the first userland process, from which other 1569 * userland processes and threads are spawned. 1570 / 1571void 1572mac_create_proc1(struct ucred cred) 1573{ 1574 1575 MAC_PERFORM(create_proc1, cred); 1576} 1577 1578/* 1579 * When a new process is created, its label must be initialized. Generally, 1580 * this involves inheritence from the parent process, modulo possible 1581 * deltas. This function allows that processing to take place. 1582 / 1583void 1584mac_create_cred(struct ucred parent_cred, struct ucred child_cred) 1585{ 1586* 1587 MAC_PERFORM(create_cred, parent_cred, child_cred); 1588} 1589 1590int 1591mac_check_vnode_access(struct ucred cred, struct vnode vp, int flags) 1592{ 1593 int error; 1594 1595 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_access"); 1596 1597 if (!mac_enforce_fs) 1598 return (0); 1599 1600 error = vn_refreshlabel(vp, cred); 1601 if (error) 1602 return (error); 1603 1604 MAC_CHECK(check_vnode_access, cred, vp, &vp->v_label, flags); 1605 return (error); 1606} 1607 1608int 1609mac_check_vnode_chdir(struct ucred cred, struct vnode dvp) 1610{ 1611 int error; 1612 1613 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_chdir"); 1614 1615 if (!mac_enforce_fs) 1616 return (0); 1617 1618 error = vn_refreshlabel(dvp, cred); 1619 if (error) 1620 return (error); 1621 1622 MAC_CHECK(check_vnode_chdir, cred, dvp, &dvp->v_label); 1623 return (error); 1624} 1625 1626int 1627mac_check_vnode_chroot(struct ucred cred, struct vnode dvp) 1628{ 1629 int error; 1630 1631 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_chroot"); 1632 1633 if (!mac_enforce_fs) 1634 return (0); 1635 1636 error = vn_refreshlabel(dvp, cred); 1637 if (error) 1638 return (error); 1639 1640 MAC_CHECK(check_vnode_chroot, cred, dvp, &dvp->v_label); 1641 return (error); 1642} 1643 1644int 1645mac_check_vnode_create(struct ucred cred, struct vnode dvp, 1646 struct componentname cnp, struct vattr vap) 1647{ 1648 int error; 1649 1650 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_create"); 1651 1652 if (!mac_enforce_fs) 1653 return (0); 1654 1655 error = vn_refreshlabel(dvp, cred); 1656 if (error) 1657 return (error); 1658 1659 MAC_CHECK(check_vnode_create, cred, dvp, &dvp->v_label, cnp, vap); 1660 return (error); 1661} 1662 1663int 1664mac_check_vnode_delete(struct ucred cred, struct vnode dvp, struct vnode vp, 1665* struct componentname cnp) 1666{ 1667* int error; 1668 1669 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_delete"); 1670 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_delete"); 1671 1672 if (!mac_enforce_fs) 1673 return (0); 1674 1675 error = vn_refreshlabel(dvp, cred); 1676 if (error) 1677 return (error); 1678 error = vn_refreshlabel(vp, cred); 1679 if (error) 1680 return (error); 1681 1682 MAC_CHECK(check_vnode_delete, cred, dvp, &dvp->v_label, vp, 1683 &vp->v_label, cnp); 1684 return (error); 1685} 1686 1687int 1688mac_check_vnode_deleteacl(struct ucred cred, struct vnode vp, 1689 acl_type_t type) 1690{ 1691 int error; 1692 1693 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_deleteacl"); 1694 1695 if (!mac_enforce_fs) 1696 return (0); 1697 1698 error = vn_refreshlabel(vp, cred); 1699 if (error) 1700 return (error); 1701 1702 MAC_CHECK(check_vnode_deleteacl, cred, vp, &vp->v_label, type); 1703 return (error); 1704} 1705 1706int 1707mac_check_vnode_exec(struct ucred cred, struct vnode vp) 1708{ 1709 int error; 1710 1711 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_exec"); 1712 1713 if (!mac_enforce_process && !mac_enforce_fs) 1714 return (0); 1715 1716 error = vn_refreshlabel(vp, cred); 1717 if (error) 1718 return (error); 1719 MAC_CHECK(check_vnode_exec, cred, vp, &vp->v_label); 1720 1721 return (error); 1722} 1723 1724int 1725mac_check_vnode_getacl(struct ucred cred, struct vnode vp, acl_type_t type) 1726{ 1727 int error; 1728 1729 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_getacl"); 1730 1731 if (!mac_enforce_fs) 1732 return (0); 1733 1734 error = vn_refreshlabel(vp, cred); 1735 if (error) 1736 return (error); 1737 1738 MAC_CHECK(check_vnode_getacl, cred, vp, &vp->v_label, type); 1739 return (error); 1740} 1741 1742int 1743mac_check_vnode_getextattr(struct ucred cred, struct vnode vp, 1744 int attrnamespace, const char name, struct uio uio) 1745{ 1746 int error; 1747 1748 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_getextattr"); 1749 1750 if (!mac_enforce_fs) 1751 return (0); 1752 1753 error = vn_refreshlabel(vp, cred); 1754 if (error) 1755 return (error); 1756 1757 MAC_CHECK(check_vnode_getextattr, cred, vp, &vp->v_label, 1758 attrnamespace, name, uio); 1759 return (error); 1760} 1761 1762int 1763mac_check_vnode_lookup(struct ucred cred, struct vnode dvp, 1764 struct componentname cnp) 1765{ 1766* int error; 1767 1768 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_lookup"); 1769 1770 if (!mac_enforce_fs) 1771 return (0); 1772 1773 error = vn_refreshlabel(dvp, cred); 1774 if (error) 1775 return (error); 1776 1777 MAC_CHECK(check_vnode_lookup, cred, dvp, &dvp->v_label, cnp); 1778 return (error); 1779} 1780 1781vm_prot_t 1782mac_check_vnode_mmap_prot(struct ucred cred, struct vnode vp, int newmapping) 1783{ 1784 vm_prot_t result = VM_PROT_ALL; 1785 1786 if (!mac_enforce_vm) 1787 return (result); 1788 1789 /* 1790 * This should be some sort of MAC_BITWISE, maybe :) 1791 / 1792* ASSERT_VOP_LOCKED(vp, "mac_check_vnode_mmap_perms"); 1793 MAC_BOOLEAN(check_vnode_mmap_perms, &, cred, vp, &vp->v_label, 1794 newmapping); 1795 return (result); 1796} 1797 1798int 1799mac_check_vnode_open(struct ucred cred, struct vnode vp, mode_t acc_mode) 1800{ 1801 int error; 1802 1803 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_open"); 1804 1805 if (!mac_enforce_fs) 1806 return (0); 1807 1808 error = vn_refreshlabel(vp, cred); 1809 if (error) 1810 return (error); 1811 1812 MAC_CHECK(check_vnode_open, cred, vp, &vp->v_label, acc_mode); 1813 return (error); 1814} 1815 1816int 1817mac_check_vnode_poll(struct ucred active_cred, struct ucred file_cred, 1818 struct vnode vp) 1819{ 1820* int error; 1821 1822 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_poll"); 1823 1824 if (!mac_enforce_fs) 1825 return (0); 1826 1827 error = vn_refreshlabel(vp, active_cred); 1828 if (error) 1829 return (error); 1830 1831 MAC_CHECK(check_vnode_poll, active_cred, file_cred, vp, 1832 &vp->v_label); 1833 1834 return (error); 1835} 1836 1837int 1838mac_check_vnode_read(struct ucred active_cred, struct ucred file_cred, 1839 struct vnode vp) 1840{ 1841* int error; 1842 1843 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_read"); 1844 1845 if (!mac_enforce_fs) 1846 return (0); 1847 1848 error = vn_refreshlabel(vp, active_cred); 1849 if (error) 1850 return (error); 1851 1852 MAC_CHECK(check_vnode_read, active_cred, file_cred, vp, 1853 &vp->v_label); 1854 1855 return (error); 1856} 1857 1858int 1859mac_check_vnode_readdir(struct ucred cred, struct vnode dvp) 1860{ 1861 int error; 1862 1863 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_readdir"); 1864 1865 if (!mac_enforce_fs) 1866 return (0); 1867 1868 error = vn_refreshlabel(dvp, cred); 1869 if (error) 1870 return (error); 1871 1872 MAC_CHECK(check_vnode_readdir, cred, dvp, &dvp->v_label); 1873 return (error); 1874} 1875 1876int 1877mac_check_vnode_readlink(struct ucred cred, struct vnode vp) 1878{ 1879 int error; 1880 1881 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_readlink"); 1882 1883 if (!mac_enforce_fs) 1884 return (0); 1885 1886 error = vn_refreshlabel(vp, cred); 1887 if (error) 1888 return (error); 1889 1890 MAC_CHECK(check_vnode_readlink, cred, vp, &vp->v_label); 1891 return (error); 1892} 1893 1894static int 1895mac_check_vnode_relabel(struct ucred cred, struct vnode vp, 1896 struct label newlabel) 1897{ 1898* int error; 1899 1900 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_relabel"); 1901 1902 error = vn_refreshlabel(vp, cred); 1903 if (error) 1904 return (error); 1905 1906 MAC_CHECK(check_vnode_relabel, cred, vp, &vp->v_label, newlabel); 1907 1908 return (error); 1909} 1910 1911int 1912mac_check_vnode_rename_from(struct ucred cred, struct vnode dvp, 1913 struct vnode vp, struct componentname cnp) 1914{ 1915 int error; 1916 1917 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_rename_from"); 1918 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_rename_from"); 1919 1920 if (!mac_enforce_fs) 1921 return (0); 1922 1923 error = vn_refreshlabel(dvp, cred); 1924 if (error) 1925 return (error); 1926 error = vn_refreshlabel(vp, cred); 1927 if (error) 1928 return (error); 1929 1930 MAC_CHECK(check_vnode_rename_from, cred, dvp, &dvp->v_label, vp, 1931 &vp->v_label, cnp); 1932 return (error); 1933} 1934 1935int 1936mac_check_vnode_rename_to(struct ucred cred, struct vnode dvp, 1937 struct vnode vp, int samedir, struct componentname cnp) 1938{ 1939 int error; 1940 1941 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_rename_to"); 1942 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_rename_to"); 1943 1944 if (!mac_enforce_fs) 1945 return (0); 1946 1947 error = vn_refreshlabel(dvp, cred); 1948 if (error) 1949 return (error); 1950 if (vp != NULL) { 1951 error = vn_refreshlabel(vp, cred); 1952 if (error) 1953 return (error); 1954 } 1955 MAC_CHECK(check_vnode_rename_to, cred, dvp, &dvp->v_label, vp, 1956 vp != NULL ? &vp->v_label : NULL, samedir, cnp); 1957 return (error); 1958} 1959 1960int 1961mac_check_vnode_revoke(struct ucred cred, struct vnode vp) 1962{ 1963 int error; 1964 1965 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_revoke"); 1966 1967 if (!mac_enforce_fs) 1968 return (0); 1969 1970 error = vn_refreshlabel(vp, cred); 1971 if (error) 1972 return (error); 1973 1974 MAC_CHECK(check_vnode_revoke, cred, vp, &vp->v_label); 1975 return (error); 1976} 1977 1978int 1979mac_check_vnode_setacl(struct ucred cred, struct vnode vp, acl_type_t type, 1980 struct acl acl) 1981{ 1982* int error; 1983 1984 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setacl"); 1985 1986 if (!mac_enforce_fs) 1987 return (0); 1988 1989 error = vn_refreshlabel(vp, cred); 1990 if (error) 1991 return (error); 1992 1993 MAC_CHECK(check_vnode_setacl, cred, vp, &vp->v_label, type, acl); 1994 return (error); 1995} 1996 1997int 1998mac_check_vnode_setextattr(struct ucred cred, struct vnode vp, 1999 int attrnamespace, const char name, struct uio uio) 2000{ 2001 int error; 2002 2003 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setextattr"); 2004 2005 if (!mac_enforce_fs) 2006 return (0); 2007 2008 error = vn_refreshlabel(vp, cred); 2009 if (error) 2010 return (error); 2011 2012 MAC_CHECK(check_vnode_setextattr, cred, vp, &vp->v_label, 2013 attrnamespace, name, uio); 2014 return (error); 2015} 2016 2017int 2018mac_check_vnode_setflags(struct ucred cred, struct vnode vp, u_long flags) 2019{ 2020 int error; 2021 2022 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setflags"); 2023 2024 if (!mac_enforce_fs) 2025 return (0); 2026 2027 error = vn_refreshlabel(vp, cred); 2028 if (error) 2029 return (error); 2030 2031 MAC_CHECK(check_vnode_setflags, cred, vp, &vp->v_label, flags); 2032 return (error); 2033} 2034 2035int 2036mac_check_vnode_setmode(struct ucred cred, struct vnode vp, mode_t mode) 2037{ 2038 int error; 2039 2040 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setmode"); 2041 2042 if (!mac_enforce_fs) 2043 return (0); 2044 2045 error = vn_refreshlabel(vp, cred); 2046 if (error) 2047 return (error); 2048 2049 MAC_CHECK(check_vnode_setmode, cred, vp, &vp->v_label, mode); 2050 return (error); 2051} 2052 2053int 2054mac_check_vnode_setowner(struct ucred cred, struct vnode vp, uid_t uid, 2055 gid_t gid) 2056{ 2057 int error; 2058 2059 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setowner"); 2060 2061 if (!mac_enforce_fs) 2062 return (0); 2063 2064 error = vn_refreshlabel(vp, cred); 2065 if (error) 2066 return (error); 2067 2068 MAC_CHECK(check_vnode_setowner, cred, vp, &vp->v_label, uid, gid); 2069 return (error); 2070} 2071 2072int 2073mac_check_vnode_setutimes(struct ucred cred, struct vnode vp, 2074 struct timespec atime, struct timespec mtime) 2075{ 2076 int error; 2077 2078 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setutimes"); 2079 2080 if (!mac_enforce_fs) 2081 return (0); 2082 2083 error = vn_refreshlabel(vp, cred); 2084 if (error) 2085 return (error); 2086 2087 MAC_CHECK(check_vnode_setutimes, cred, vp, &vp->v_label, atime, 2088 mtime); 2089 return (error); 2090} 2091 2092int 2093mac_check_vnode_stat(struct ucred active_cred, struct ucred file_cred, 2094 struct vnode vp) 2095{ 2096* int error; 2097 2098 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_stat"); 2099 2100 if (!mac_enforce_fs) 2101 return (0); 2102 2103 error = vn_refreshlabel(vp, active_cred); 2104 if (error) 2105 return (error); 2106 2107 MAC_CHECK(check_vnode_stat, active_cred, file_cred, vp, 2108 &vp->v_label); 2109 return (error); 2110} 2111 2112int 2113mac_check_vnode_write(struct ucred active_cred, struct ucred file_cred, 2114 struct vnode vp) 2115{ 2116* int error; 2117 2118 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_write"); 2119 2120 if (!mac_enforce_fs) 2121 return (0); 2122 2123 error = vn_refreshlabel(vp, active_cred); 2124 if (error) 2125 return (error); 2126 2127 MAC_CHECK(check_vnode_write, active_cred, file_cred, vp, 2128 &vp->v_label); 2129 2130 return (error); 2131} 2132 2133/* 2134 * When relabeling a process, call out to the policies for the maximum 2135 * permission allowed for each object type we know about in its 2136 * memory space, and revoke access (in the least surprising ways we 2137 * know) when necessary. The process lock is not held here. 2138 / 2139static void 2140mac_cred_mmapped_drop_perms(struct thread td, struct ucred cred) 2141{ 2142* 2143 /* XXX freeze all other threads / 2144* mac_cred_mmapped_drop_perms_recurse(td, cred, 2145 &td->td_proc->p_vmspace->vm_map); 2146 /* XXX allow other threads to continue / 2147} 2148* 2149static __inline const char * 2150prot2str(vm_prot_t prot) 2151{ 2152 2153 switch (prot & VM_PROT_ALL) { 2154 case VM_PROT_READ: 2155 return ("r--"); 2156 case VM_PROT_READ \| VM_PROT_WRITE: 2157 return ("rw-"); 2158 case VM_PROT_READ \| VM_PROT_EXECUTE: 2159 return ("r-x"); 2160 case VM_PROT_READ \| VM_PROT_WRITE \| VM_PROT_EXECUTE: 2161 return ("rwx"); 2162 case VM_PROT_WRITE: 2163 return ("-w-"); 2164 case VM_PROT_EXECUTE: 2165 return ("--x"); 2166 case VM_PROT_WRITE \| VM_PROT_EXECUTE: 2167 return ("-wx"); 2168 default: 2169 return ("---"); 2170 } 2171} 2172 2173static void 2174mac_cred_mmapped_drop_perms_recurse(struct thread td, struct ucred cred, 2175 struct vm_map map) 2176{ 2177* struct vm_map_entry vme; 2178* vm_prot_t result, revokeperms; 2179 vm_object_t object; 2180 vm_ooffset_t offset; 2181 struct vnode vp; 2182* 2183 if (!mac_mmap_revocation) 2184 return; 2185 2186 vm_map_lock_read(map); 2187 for (vme = map->header.next; vme != &map->header; vme = vme->next) { 2188 if (vme->eflags & MAP_ENTRY_IS_SUB_MAP) { 2189 mac_cred_mmapped_drop_perms_recurse(td, cred, 2190 vme->object.sub_map); 2191 continue; 2192 } 2193 /* 2194 * Skip over entries that obviously are not shared. 2195 / 2196* if (vme->eflags & (MAP_ENTRY_COW \| MAP_ENTRY_NOSYNC) \|\| 2197 !vme->max_protection) 2198 continue; 2199 /* 2200 * Drill down to the deepest backing object. 2201 / 2202* offset = vme->offset; 2203 object = vme->object.vm_object; 2204 if (object == NULL) 2205 continue; 2206 while (object->backing_object != NULL) { 2207 object = object->backing_object; 2208 offset += object->backing_object_offset; 2209 } 2210 /* 2211 * At the moment, vm_maps and objects aren't considered 2212 * by the MAC system, so only things with backing by a 2213 * normal object (read: vnodes) are checked. 2214 / 2215* if (object->type != OBJT_VNODE) 2216 continue; 2217 vp = (struct vnode )object->handle; 2218* vn_lock(vp, LK_EXCLUSIVE \| LK_RETRY, td); 2219 result = mac_check_vnode_mmap_prot(cred, vp, 0); 2220 VOP_UNLOCK(vp, 0, td); 2221 /* 2222 * Find out what maximum protection we may be allowing 2223 * now but a policy needs to get removed. 2224 / 2225* revokeperms = vme->max_protection & ~result; 2226 if (!revokeperms) 2227 continue; 2228 printf("pid %ld: revoking %s perms from %#lx:%ld " 2229 "(max %s/cur %s)\n", (long)td->td_proc->p_pid, 2230 prot2str(revokeperms), (u_long)vme->start, 2231 (long)(vme->end - vme->start), 2232 prot2str(vme->max_protection), prot2str(vme->protection)); 2233 vm_map_lock_upgrade(map); 2234 /* 2235 * This is the really simple case: if a map has more 2236 * max_protection than is allowed, but it's not being 2237 * actually used (that is, the current protection is 2238 * still allowed), we can just wipe it out and do 2239 * nothing more. 2240 / 2241* if ((vme->protection & revokeperms) == 0) { 2242 vme->max_protection -= revokeperms; 2243 } else { 2244 if (revokeperms & VM_PROT_WRITE) { 2245 /* 2246 * In the more complicated case, flush out all 2247 * pending changes to the object then turn it 2248 * copy-on-write. 2249 / 2250* vm_object_reference(object); 2251 vn_lock(vp, LK_EXCLUSIVE \| LK_RETRY, td); 2252 vm_object_page_clean(object, 2253 OFF_TO_IDX(offset), 2254 OFF_TO_IDX(offset + vme->end - vme->start + 2255 PAGE_MASK), 2256 OBJPC_SYNC); 2257 VOP_UNLOCK(vp, 0, td); 2258 vm_object_deallocate(object); 2259 /* 2260 * Why bother if there's no read permissions 2261 * anymore? For the rest, we need to leave 2262 * the write permissions on for COW, or 2263 * remove them entirely if configured to. 2264 / 2265* if (!mac_mmap_revocation_via_cow) { 2266 vme->max_protection &= ~VM_PROT_WRITE; 2267 vme->protection &= ~VM_PROT_WRITE; 2268 } if ((revokeperms & VM_PROT_READ) == 0) 2269 vme->eflags \|= MAP_ENTRY_COW \| 2270 MAP_ENTRY_NEEDS_COPY; 2271 } 2272 if (revokeperms & VM_PROT_EXECUTE) { 2273 vme->max_protection &= ~VM_PROT_EXECUTE; 2274 vme->protection &= ~VM_PROT_EXECUTE; 2275 } 2276 if (revokeperms & VM_PROT_READ) { 2277 vme->max_protection = 0; 2278 vme->protection = 0; 2279 } 2280 pmap_protect(map->pmap, vme->start, vme->end, 2281 vme->protection & ~revokeperms); 2282 vm_map_simplify_entry(map, vme); 2283 } 2284 vm_map_lock_downgrade(map); 2285 } 2286 vm_map_unlock_read(map); 2287} 2288 2289/* 2290 * When the subject's label changes, it may require revocation of privilege 2291 * to mapped objects. This can't be done on-the-fly later with a unified 2292 * buffer cache. 2293 / 2294static void 2295mac_relabel_cred(struct ucred cred, struct label newlabel) 2296{ 2297* 2298 MAC_PERFORM(relabel_cred, cred, newlabel); 2299} 2300 2301void 2302mac_relabel_vnode(struct ucred cred, struct vnode vp, struct label newlabel) 2303{ 2304* 2305 MAC_PERFORM(relabel_vnode, cred, vp, &vp->v_label, newlabel); 2306} 2307 2308void 2309mac_create_ifnet(struct ifnet ifnet) 2310{ 2311* 2312 MAC_PERFORM(create_ifnet, ifnet, &ifnet->if_label); 2313} 2314 2315void 2316mac_create_bpfdesc(struct ucred cred, struct bpf_d bpf_d) 2317{ 2318 2319 MAC_PERFORM(create_bpfdesc, cred, bpf_d, &bpf_d->bd_label); 2320} 2321 2322void 2323mac_create_socket(struct ucred cred, struct socket socket) 2324{ 2325 2326 MAC_PERFORM(create_socket, cred, socket, &socket->so_label); 2327} 2328 2329void 2330mac_create_pipe(struct ucred cred, struct pipe pipe) 2331{ 2332 2333 MAC_PERFORM(create_pipe, cred, pipe, pipe->pipe_label); 2334} 2335 2336void 2337mac_create_socket_from_socket(struct socket oldsocket, 2338* struct socket newsocket) 2339{ 2340* 2341 MAC_PERFORM(create_socket_from_socket, oldsocket, &oldsocket->so_label, 2342 newsocket, &newsocket->so_label); 2343} 2344 2345static void 2346mac_relabel_socket(struct ucred cred, struct socket socket, 2347 struct label newlabel) 2348{ 2349* 2350 MAC_PERFORM(relabel_socket, cred, socket, &socket->so_label, newlabel); 2351} 2352 2353static void 2354mac_relabel_pipe(struct ucred cred, struct pipe pipe, struct label newlabel) 2355{ 2356* 2357 MAC_PERFORM(relabel_pipe, cred, pipe, pipe->pipe_label, newlabel); 2358} 2359 2360void 2361mac_set_socket_peer_from_mbuf(struct mbuf mbuf, struct socket socket) 2362{ 2363 2364 MAC_PERFORM(set_socket_peer_from_mbuf, mbuf, &mbuf->m_pkthdr.label, 2365 socket, &socket->so_peerlabel); 2366} 2367 2368void 2369mac_set_socket_peer_from_socket(struct socket oldsocket, 2370* struct socket newsocket) 2371{ 2372* 2373 MAC_PERFORM(set_socket_peer_from_socket, oldsocket, 2374 &oldsocket->so_label, newsocket, &newsocket->so_peerlabel); 2375} 2376 2377void 2378mac_create_datagram_from_ipq(struct ipq ipq, struct mbuf datagram) 2379{ 2380 2381 MAC_PERFORM(create_datagram_from_ipq, ipq, &ipq->ipq_label, 2382 datagram, &datagram->m_pkthdr.label); 2383} 2384 2385void 2386mac_create_fragment(struct mbuf datagram, struct mbuf fragment) 2387{ 2388 2389 MAC_PERFORM(create_fragment, datagram, &datagram->m_pkthdr.label, 2390 fragment, &fragment->m_pkthdr.label); 2391} 2392 2393void 2394mac_create_ipq(struct mbuf fragment, struct ipq ipq) 2395{ 2396 2397 MAC_PERFORM(create_ipq, fragment, &fragment->m_pkthdr.label, ipq, 2398 &ipq->ipq_label); 2399} 2400 2401void 2402mac_create_mbuf_from_mbuf(struct mbuf oldmbuf, struct mbuf newmbuf) 2403{ 2404 2405 MAC_PERFORM(create_mbuf_from_mbuf, oldmbuf, &oldmbuf->m_pkthdr.label, 2406 newmbuf, &newmbuf->m_pkthdr.label); 2407} 2408 2409void 2410mac_create_mbuf_from_bpfdesc(struct bpf_d bpf_d, struct mbuf mbuf) 2411{ 2412 2413 MAC_PERFORM(create_mbuf_from_bpfdesc, bpf_d, &bpf_d->bd_label, mbuf, 2414 &mbuf->m_pkthdr.label); 2415} 2416 2417void 2418mac_create_mbuf_linklayer(struct ifnet ifnet, struct mbuf mbuf) 2419{ 2420 2421 MAC_PERFORM(create_mbuf_linklayer, ifnet, &ifnet->if_label, mbuf, 2422 &mbuf->m_pkthdr.label); 2423} 2424 2425void 2426mac_create_mbuf_from_ifnet(struct ifnet ifnet, struct mbuf mbuf) 2427{ 2428 2429 MAC_PERFORM(create_mbuf_from_ifnet, ifnet, &ifnet->if_label, mbuf, 2430 &mbuf->m_pkthdr.label); 2431} 2432 2433void 2434mac_create_mbuf_multicast_encap(struct mbuf oldmbuf, struct ifnet ifnet, 2435 struct mbuf newmbuf) 2436{ 2437* 2438 MAC_PERFORM(create_mbuf_multicast_encap, oldmbuf, 2439 &oldmbuf->m_pkthdr.label, ifnet, &ifnet->if_label, newmbuf, 2440 &newmbuf->m_pkthdr.label); 2441} 2442 2443void 2444mac_create_mbuf_netlayer(struct mbuf oldmbuf, struct mbuf newmbuf) 2445{ 2446 2447 MAC_PERFORM(create_mbuf_netlayer, oldmbuf, &oldmbuf->m_pkthdr.label, 2448 newmbuf, &newmbuf->m_pkthdr.label); 2449} 2450 2451int 2452mac_fragment_match(struct mbuf fragment, struct ipq ipq) 2453{ 2454 int result; 2455 2456 result = 1; 2457 MAC_BOOLEAN(fragment_match, &&, fragment, &fragment->m_pkthdr.label, 2458 ipq, &ipq->ipq_label); 2459 2460 return (result); 2461} 2462 2463void 2464mac_update_ipq(struct mbuf fragment, struct ipq ipq) 2465{ 2466 2467 MAC_PERFORM(update_ipq, fragment, &fragment->m_pkthdr.label, ipq, 2468 &ipq->ipq_label); 2469} 2470 2471void 2472mac_create_mbuf_from_socket(struct socket socket, struct mbuf mbuf) 2473{ 2474 2475 MAC_PERFORM(create_mbuf_from_socket, socket, &socket->so_label, mbuf, 2476 &mbuf->m_pkthdr.label); 2477} 2478 2479void 2480mac_create_mount(struct ucred cred, struct mount mp) 2481{ 2482 2483 MAC_PERFORM(create_mount, cred, mp, &mp->mnt_mntlabel, 2484 &mp->mnt_fslabel); 2485} 2486 2487void 2488mac_create_root_mount(struct ucred cred, struct mount mp) 2489{ 2490 2491 MAC_PERFORM(create_root_mount, cred, mp, &mp->mnt_mntlabel, 2492 &mp->mnt_fslabel); 2493} 2494 2495int 2496mac_check_bpfdesc_receive(struct bpf_d bpf_d, struct ifnet ifnet) 2497{ 2498 int error; 2499 2500 if (!mac_enforce_network) 2501 return (0); 2502 2503 MAC_CHECK(check_bpfdesc_receive, bpf_d, &bpf_d->bd_label, ifnet, 2504 &ifnet->if_label); 2505 2506 return (error); 2507} 2508 2509static int 2510mac_check_cred_relabel(struct ucred cred, struct label newlabel) 2511{ 2512 int error; 2513 2514 MAC_CHECK(check_cred_relabel, cred, newlabel); 2515 2516 return (error); 2517} 2518 2519int 2520mac_check_cred_visible(struct ucred u1, struct ucred u2) 2521{ 2522 int error; 2523 2524 if (!mac_enforce_process) 2525 return (0); 2526 2527 MAC_CHECK(check_cred_visible, u1, u2); 2528 2529 return (error); 2530} 2531 2532int 2533mac_check_ifnet_transmit(struct ifnet ifnet, struct mbuf mbuf) 2534{ 2535 int error; 2536 2537 if (!mac_enforce_network) 2538 return (0); 2539 2540 KASSERT(mbuf->m_flags & M_PKTHDR, ("packet has no pkthdr")); 2541 if (!(mbuf->m_pkthdr.label.l_flags & MAC_FLAG_INITIALIZED)) 2542 printf("%s%d: not initialized\n", ifnet->if_name, 2543 ifnet->if_unit); 2544 2545 MAC_CHECK(check_ifnet_transmit, ifnet, &ifnet->if_label, mbuf, 2546 &mbuf->m_pkthdr.label); 2547 2548 return (error); 2549} 2550 2551int 2552mac_check_mount_stat(struct ucred cred, struct mount mount) 2553{ 2554 int error; 2555 2556 if (!mac_enforce_fs) 2557 return (0); 2558 2559 MAC_CHECK(check_mount_stat, cred, mount, &mount->mnt_mntlabel); 2560 2561 return (error); 2562} 2563 2564int 2565mac_check_pipe_ioctl(struct ucred cred, struct pipe pipe, unsigned long cmd, 2566 void data) 2567{ 2568* int error; 2569 2570 MAC_CHECK(check_pipe_ioctl, cred, pipe, pipe->pipe_label, cmd, data); 2571 2572 return (error); 2573} 2574 2575int 2576mac_check_pipe_poll(struct ucred cred, struct pipe pipe) 2577{ 2578 int error; 2579 2580 MAC_CHECK(check_pipe_poll, cred, pipe, pipe->pipe_label); 2581 2582 return (error); 2583} 2584 2585int 2586mac_check_pipe_read(struct ucred cred, struct pipe pipe) 2587{ 2588 int error; 2589 2590 MAC_CHECK(check_pipe_read, cred, pipe, pipe->pipe_label); 2591 2592 return (error); 2593} 2594 2595static int 2596mac_check_pipe_relabel(struct ucred cred, struct pipe pipe, 2597 struct label newlabel) 2598{ 2599* int error; 2600 2601 MAC_CHECK(check_pipe_relabel, cred, pipe, pipe->pipe_label, newlabel); 2602 2603 return (error); 2604} 2605 2606int 2607mac_check_pipe_stat(struct ucred cred, struct pipe pipe) 2608{ 2609 int error; 2610 2611 MAC_CHECK(check_pipe_stat, cred, pipe, pipe->pipe_label); 2612 2613 return (error); 2614} 2615 2616int 2617mac_check_pipe_write(struct ucred cred, struct pipe pipe) 2618{ 2619 int error; 2620 2621 MAC_CHECK(check_pipe_write, cred, pipe, pipe->pipe_label); 2622 2623 return (error); 2624} 2625 2626int 2627mac_check_proc_debug(struct ucred cred, struct proc proc) 2628{ 2629 int error; 2630 2631 PROC_LOCK_ASSERT(proc, MA_OWNED); 2632 2633 if (!mac_enforce_process) 2634 return (0); 2635 2636 MAC_CHECK(check_proc_debug, cred, proc); 2637 2638 return (error); 2639} 2640 2641int 2642mac_check_proc_sched(struct ucred cred, struct proc proc) 2643{ 2644 int error; 2645 2646 PROC_LOCK_ASSERT(proc, MA_OWNED); 2647 2648 if (!mac_enforce_process) 2649 return (0); 2650 2651 MAC_CHECK(check_proc_sched, cred, proc); 2652 2653 return (error); 2654} 2655 2656int 2657mac_check_proc_signal(struct ucred cred, struct proc proc, int signum) 2658{ 2659 int error; 2660 2661 PROC_LOCK_ASSERT(proc, MA_OWNED); 2662 2663 if (!mac_enforce_process) 2664 return (0); 2665 2666 MAC_CHECK(check_proc_signal, cred, proc, signum); 2667 2668 return (error); 2669} 2670 2671int 2672mac_check_socket_bind(struct ucred ucred, struct socket socket, 2673 struct sockaddr sockaddr) 2674{ 2675* int error; 2676 2677 if (!mac_enforce_socket) 2678 return (0); 2679 2680 MAC_CHECK(check_socket_bind, ucred, socket, &socket->so_label, 2681 sockaddr); 2682 2683 return (error); 2684} 2685 2686int 2687mac_check_socket_connect(struct ucred cred, struct socket socket, 2688 struct sockaddr sockaddr) 2689{ 2690* int error; 2691 2692 if (!mac_enforce_socket) 2693 return (0); 2694 2695 MAC_CHECK(check_socket_connect, cred, socket, &socket->so_label, 2696 sockaddr); 2697 2698 return (error); 2699} 2700 2701int 2702mac_check_socket_deliver(struct socket socket, struct mbuf mbuf) 2703{ 2704 int error; 2705 2706 if (!mac_enforce_socket) 2707 return (0); 2708 2709 MAC_CHECK(check_socket_deliver, socket, &socket->so_label, mbuf, 2710 &mbuf->m_pkthdr.label); 2711 2712 return (error); 2713} 2714 2715int 2716mac_check_socket_listen(struct ucred cred, struct socket socket) 2717{ 2718 int error; 2719 2720 if (!mac_enforce_socket) 2721 return (0); 2722 2723 MAC_CHECK(check_socket_listen, cred, socket, &socket->so_label); 2724 return (error); 2725} 2726 2727static int 2728mac_check_socket_relabel(struct ucred cred, struct socket socket, 2729 struct label newlabel) 2730{ 2731* int error; 2732 2733 MAC_CHECK(check_socket_relabel, cred, socket, &socket->so_label, 2734 newlabel); 2735 2736 return (error); 2737} 2738 2739int 2740mac_check_socket_visible(struct ucred cred, struct socket socket) 2741{ 2742 int error; 2743 2744 if (!mac_enforce_socket) 2745 return (0); 2746 2747 MAC_CHECK(check_socket_visible, cred, socket, &socket->so_label); 2748 2749 return (error); 2750} 2751 2752int 2753mac_ioctl_ifnet_get(struct ucred cred, struct ifreq ifr, 2754 struct ifnet ifnet) 2755{ 2756* struct mac label; 2757 int error; 2758 2759 error = mac_externalize(&ifnet->if_label, &label); 2760 if (error) 2761 return (error); 2762 2763 return (copyout(&label, ifr->ifr_ifru.ifru_data, sizeof(label))); 2764} 2765 2766int 2767mac_ioctl_ifnet_set(struct ucred cred, struct ifreq ifr, 2768 struct ifnet ifnet) 2769{ 2770* struct mac newlabel; 2771 struct label intlabel; 2772 int error; 2773 2774 error = copyin(ifr->ifr_ifru.ifru_data, &newlabel, sizeof(newlabel)); 2775 if (error) 2776 return (error); 2777 2778 error = mac_internalize(&intlabel, &newlabel); 2779 if (error) 2780 return (error); 2781 2782 /* 2783 * XXX: Note that this is a redundant privilege check, since 2784 * policies impose this check themselves if required by the 2785 * policy. Eventually, this should go away. 2786 / 2787* error = suser_cred(cred, 0); 2788 if (error) 2789 goto out; 2790 2791 MAC_CHECK(check_ifnet_relabel, cred, ifnet, &ifnet->if_label, 2792 &intlabel); 2793 if (error) 2794 goto out; 2795 2796 MAC_PERFORM(relabel_ifnet, cred, ifnet, &ifnet->if_label, &intlabel); 2797 2798out: 2799 mac_destroy_temp(&intlabel); 2800 return (error); 2801} 2802 2803void 2804mac_create_devfs_vnode(struct devfs_dirent de, struct vnode vp) 2805{ 2806 2807 MAC_PERFORM(create_devfs_vnode, de, &de->de_label, vp, &vp->v_label); 2808} 2809 2810void 2811mac_create_devfs_device(dev_t dev, struct devfs_dirent de) 2812{ 2813* 2814 MAC_PERFORM(create_devfs_device, dev, de, &de->de_label); 2815} 2816 2817static int 2818mac_stdcreatevnode_ea(struct vnode vp) 2819{ 2820* int error; 2821 2822 MAC_CHECK(stdcreatevnode_ea, vp, &vp->v_label); 2823 2824 return (error); 2825} 2826 2827void 2828mac_create_devfs_directory(char dirname, int dirnamelen, 2829* struct devfs_dirent de) 2830{ 2831* 2832 MAC_PERFORM(create_devfs_directory, dirname, dirnamelen, de, 2833 &de->de_label); 2834} 2835 2836/* 2837 * When a new vnode is created, this call will initialize its label. 2838 / 2839void 2840mac_create_vnode(struct ucred cred, struct vnode parent, 2841* struct vnode child) 2842{ 2843* int error; 2844 2845 ASSERT_VOP_LOCKED(parent, "mac_create_vnode"); 2846 ASSERT_VOP_LOCKED(child, "mac_create_vnode"); 2847 2848 error = vn_refreshlabel(parent, cred); 2849 if (error) { 2850 printf("mac_create_vnode: vn_refreshlabel returned %d\n", 2851 error); 2852 printf("mac_create_vnode: using old vnode label\n"); 2853 } 2854 2855 MAC_PERFORM(create_vnode, cred, parent, &parent->v_label, child, 2856 &child->v_label); 2857} 2858 2859int 2860mac_setsockopt_label_set(struct ucred cred, struct socket so, 2861 struct mac extmac) 2862{ 2863* struct label intlabel; 2864 int error; 2865 2866 error = mac_internalize(&intlabel, extmac); 2867 if (error) 2868 return (error); 2869 2870 mac_check_socket_relabel(cred, so, &intlabel); 2871 if (error) { 2872 mac_destroy_temp(&intlabel); 2873 return (error); 2874 } 2875 2876 mac_relabel_socket(cred, so, &intlabel); 2877 2878 mac_destroy_temp(&intlabel); 2879 return (0); 2880} 2881 2882int 2883mac_pipe_label_set(struct ucred cred, struct pipe pipe, struct label label) 2884{ 2885* int error; 2886 2887 error = mac_check_pipe_relabel(cred, pipe, label); 2888 if (error) 2889 return (error); 2890 2891 mac_relabel_pipe(cred, pipe, label); 2892 2893 return (0); 2894} 2895 2896int 2897mac_getsockopt_label_get(struct ucred cred, struct socket so, 2898 struct mac extmac) 2899{ 2900* 2901 return (mac_externalize(&so->so_label, extmac)); 2902} 2903 2904int 2905mac_getsockopt_peerlabel_get(struct ucred cred, struct socket so, 2906 struct mac extmac) 2907{ 2908* 2909 return (mac_externalize(&so->so_peerlabel, extmac)); 2910} 2911 2912/* 2913 * Implementation of VOP_SETLABEL() that relies on extended attributes 2914 * to store label data. Can be referenced by filesystems supporting 2915 * extended attributes. 2916 / 2917int 2918vop_stdsetlabel_ea(struct vop_setlabel_args ap) 2919{ 2920 struct vnode vp = ap->a_vp; 2921* struct label intlabel = ap->a_label; 2922* struct mac extmac; 2923 int error; 2924 2925 ASSERT_VOP_LOCKED(vp, "vop_stdsetlabel_ea"); 2926 2927 /* 2928 * XXX: Eventually call out to EA check/set calls here. 2929 * Be particularly careful to avoid race conditions, 2930 * consistency problems, and stability problems when 2931 * dealing with multiple EAs. In particular, we require 2932 * the ability to write multiple EAs on the same file in 2933 * a single transaction, which the current EA interface 2934 * does not provide. 2935 / 2936* 2937 error = mac_externalize(intlabel, &extmac); 2938 if (error) 2939 return (error); 2940 2941 error = vn_extattr_set(vp, IO_NODELOCKED, 2942 FREEBSD_MAC_EXTATTR_NAMESPACE, FREEBSD_MAC_EXTATTR_NAME, 2943 sizeof(extmac), (char )&extmac, curthread); 2944* if (error) 2945 return (error); 2946 2947 mac_relabel_vnode(ap->a_cred, vp, intlabel); 2948 2949 vp->v_vflag \|= VV_CACHEDLABEL; 2950 2951 return (0); 2952} 2953 2954static int 2955vn_setlabel(struct vnode vp, struct label intlabel, struct ucred cred) 2956{ 2957* int error; 2958 2959 if (vp->v_mount == NULL) { 2960 /* printf("vn_setlabel: null v_mount\n"); / 2961* if (vp->v_type != VNON) 2962 printf("vn_setlabel: null v_mount with non-VNON\n"); 2963 return (EBADF); 2964 } 2965 2966 if ((vp->v_mount->mnt_flag & MNT_MULTILABEL) == 0) 2967 return (EOPNOTSUPP); 2968 2969 /* 2970 * Multi-phase commit. First check the policies to confirm the 2971 * change is OK. Then commit via the filesystem. Finally, 2972 * update the actual vnode label. Question: maybe the filesystem 2973 * should update the vnode at the end as part of VOP_SETLABEL()? 2974 / 2975* error = mac_check_vnode_relabel(cred, vp, intlabel); 2976 if (error) 2977 return (error); 2978 2979 /* 2980 * VADMIN provides the opportunity for the filesystem to make 2981 * decisions about who is and is not able to modify labels 2982 * and protections on files. This might not be right. We can't 2983 * assume VOP_SETLABEL() will do it, because we might implement 2984 * that as part of vop_stdsetlabel_ea(). 2985 / 2986* error = VOP_ACCESS(vp, VADMIN, cred, curthread); 2987 if (error) 2988 return (error); 2989 2990 error = VOP_SETLABEL(vp, intlabel, cred, curthread); 2991 if (error) 2992 return (error); 2993 2994 return (0); 2995} 2996 2997/* 2998 * MPSAFE 2999 / 3000int 3001__mac_get_proc(struct thread td, struct __mac_get_proc_args uap) 3002{ 3003* struct mac extmac; 3004 int error; 3005 3006 error = mac_externalize(&td->td_ucred->cr_label, &extmac); 3007 if (error == 0) 3008 error = copyout(&extmac, SCARG(uap, mac_p), sizeof(extmac)); 3009 3010 return (error); 3011} 3012 3013/* 3014 * MPSAFE 3015 / 3016int 3017__mac_set_proc(struct thread td, struct __mac_set_proc_args uap) 3018{ 3019* struct ucred newcred, oldcred; 3020 struct proc p; 3021* struct mac extmac; 3022 struct label intlabel; 3023 int error; 3024 3025 error = copyin(SCARG(uap, mac_p), &extmac, sizeof(extmac)); 3026 if (error) 3027 return (error); 3028 3029 error = mac_internalize(&intlabel, &extmac); 3030 if (error) 3031 return (error); 3032 3033 newcred = crget(); 3034 3035 p = td->td_proc; 3036 PROC_LOCK(p); 3037 oldcred = p->p_ucred; 3038 3039 error = mac_check_cred_relabel(oldcred, &intlabel); 3040 if (error) { 3041 PROC_UNLOCK(p); 3042 mac_destroy_temp(&intlabel); 3043 crfree(newcred); 3044 return (error); 3045 } 3046 3047 setsugid(p); 3048 crcopy(newcred, oldcred); 3049 mac_relabel_cred(newcred, &intlabel); 3050 p->p_ucred = newcred; 3051 3052 /* 3053 * Grab additional reference for use while revoking mmaps, prior 3054 * to releasing the proc lock and sharing the cred. 3055 / 3056* crhold(newcred); 3057 PROC_UNLOCK(p); 3058 3059 mtx_lock(&Giant); 3060 mac_cred_mmapped_drop_perms(td, newcred); 3061 mtx_unlock(&Giant); 3062 3063 crfree(newcred); /* Free revocation reference. / 3064* crfree(oldcred); 3065 mac_destroy_temp(&intlabel); 3066 return (0); 3067} 3068 3069/* 3070 * MPSAFE 3071 / 3072int 3073__mac_get_fd(struct thread td, struct __mac_get_fd_args uap) 3074{ 3075* struct file fp; 3076* struct mac extmac; 3077 struct vnode vp; 3078* struct pipe pipe; 3079* int error; 3080 3081 mtx_lock(&Giant); 3082 3083 error = fget(td, SCARG(uap, fd), &fp); 3084 if (error) 3085 goto out; 3086 3087 switch (fp->f_type) { 3088 case DTYPE_FIFO: 3089 case DTYPE_VNODE: 3090 vp = (struct vnode )fp->f_data; 3091* 3092 vn_lock(vp, LK_EXCLUSIVE \| LK_RETRY, td); 3093 error = vn_refreshlabel(vp, td->td_ucred); 3094 if (error == 0) 3095 error = mac_externalize(&vp->v_label, &extmac); 3096 VOP_UNLOCK(vp, 0, td); 3097 break; 3098 case DTYPE_PIPE: 3099 pipe = (struct pipe )fp->f_data; 3100* error = mac_externalize(pipe->pipe_label, &extmac); 3101 break; 3102 default: 3103 error = EINVAL; 3104 } 3105 3106 if (error == 0) 3107 error = copyout(&extmac, SCARG(uap, mac_p), sizeof(extmac)); 3108 3109 fdrop(fp, td); 3110 3111out: 3112 mtx_unlock(&Giant); 3113 return (error); 3114} 3115 3116/* 3117 * MPSAFE 3118 / 3119int 3120__mac_get_file(struct thread td, struct __mac_get_file_args uap) 3121{ 3122* struct nameidata nd; 3123 struct mac extmac; 3124 int error; 3125 3126 mtx_lock(&Giant); 3127 NDINIT(&nd, LOOKUP, LOCKLEAF \| FOLLOW, UIO_USERSPACE, 3128 SCARG(uap, path_p), td); 3129 error = namei(&nd); 3130 if (error) 3131 goto out; 3132 3133 error = vn_refreshlabel(nd.ni_vp, td->td_ucred); 3134 if (error == 0) 3135 error = mac_externalize(&nd.ni_vp->v_label, &extmac); 3136 NDFREE(&nd, 0); 3137 if (error) 3138 goto out; 3139 3140 error = copyout(&extmac, SCARG(uap, mac_p), sizeof(extmac)); 3141 3142out: 3143 mtx_unlock(&Giant); 3144 return (error); 3145} 3146 3147/* 3148 * MPSAFE 3149 / 3150int 3151__mac_set_fd(struct thread td, struct __mac_set_fd_args uap) 3152{ 3153* struct file fp; 3154* struct mac extmac; 3155 struct label intlabel; 3156 struct mount mp; 3157* struct vnode vp; 3158* struct pipe pipe; 3159* int error; 3160 3161 mtx_lock(&Giant); 3162 error = fget(td, SCARG(uap, fd), &fp); 3163 if (error) 3164 goto out1; 3165 3166 error = copyin(SCARG(uap, mac_p), &extmac, sizeof(extmac)); 3167 if (error) 3168 goto out2; 3169 3170 error = mac_internalize(&intlabel, &extmac); 3171 if (error) 3172 goto out2; 3173 3174 switch (fp->f_type) { 3175 case DTYPE_FIFO: 3176 case DTYPE_VNODE: 3177 vp = (struct vnode )fp->f_data; 3178* error = vn_start_write(vp, &mp, V_WAIT \| PCATCH); 3179 if (error != 0) 3180 break; 3181 3182 vn_lock(vp, LK_EXCLUSIVE \| LK_RETRY, td); 3183 error = vn_setlabel(vp, &intlabel, td->td_ucred); 3184 VOP_UNLOCK(vp, 0, td); 3185 vn_finished_write(mp); 3186 mac_destroy_temp(&intlabel); 3187 break; 3188 case DTYPE_PIPE: 3189 pipe = (struct pipe )fp->f_data; 3190* error = mac_pipe_label_set(td->td_ucred, pipe, &intlabel); 3191 break; 3192 default: 3193 error = EINVAL; 3194 } 3195 3196out2: 3197 fdrop(fp, td); 3198out1: 3199 mtx_unlock(&Giant); 3200 return (error); 3201} 3202 3203/* 3204 * MPSAFE 3205 / 3206int 3207__mac_set_file(struct thread td, struct __mac_set_file_args uap) 3208{ 3209* struct nameidata nd; 3210 struct mac extmac; 3211 struct label intlabel; 3212 struct mount mp; 3213* int error; 3214 3215 mtx_lock(&Giant); 3216 3217 error = copyin(SCARG(uap, mac_p), &extmac, sizeof(extmac)); 3218 if (error) 3219 goto out; 3220 3221 error = mac_internalize(&intlabel, &extmac); 3222 if (error) 3223 goto out; 3224 3225 NDINIT(&nd, LOOKUP, LOCKLEAF \| FOLLOW, UIO_USERSPACE, 3226 SCARG(uap, path_p), td); 3227 error = namei(&nd); 3228 if (error) 3229 goto out2; 3230 error = vn_start_write(nd.ni_vp, &mp, V_WAIT \| PCATCH); 3231 if (error) 3232 goto out2; 3233 3234 error = vn_setlabel(nd.ni_vp, &intlabel, td->td_ucred); 3235 3236 vn_finished_write(mp); 3237out2: 3238 mac_destroy_temp(&intlabel); 3239 NDFREE(&nd, 0); 3240out: 3241 mtx_unlock(&Giant); 3242 return (error); 3243} 3244 3245int 3246mac_syscall(struct thread td, struct mac_syscall_args uap) 3247{ 3248 struct mac_policy_conf mpc; 3249* char target[MAC_MAX_POLICY_NAME]; 3250 int error; 3251 3252 error = copyinstr(SCARG(uap, policy), target, sizeof(target), NULL); 3253 if (error) 3254 return (error); 3255 3256 error = ENOSYS; 3257 MAC_POLICY_LIST_BUSY(); 3258 LIST_FOREACH(mpc, &mac_policy_list, mpc_list) { 3259 if (strcmp(mpc->mpc_name, target) == 0 && 3260 mpc->mpc_ops->mpo_syscall != NULL) { 3261 error = mpc->mpc_ops->mpo_syscall(td, 3262 SCARG(uap, call), SCARG(uap, arg)); 3263 goto out; 3264 } 3265 } 3266 3267out: 3268 MAC_POLICY_LIST_UNBUSY(); 3269 return (error); 3270} 3271 3272SYSINIT(mac, SI_SUB_MAC, SI_ORDER_FIRST, mac_init, NULL); 3273SYSINIT(mac_late, SI_SUB_MAC_LATE, SI_ORDER_FIRST, mac_late_init, NULL); 3274 3275#else /* !MAC / 3276* 3277int 3278__mac_get_proc(struct thread td, struct __mac_get_proc_args uap) 3279{ 3280 3281 return (ENOSYS); 3282} 3283 3284int 3285__mac_set_proc(struct thread td, struct __mac_set_proc_args uap) 3286{ 3287 3288 return (ENOSYS); 3289} 3290 3291int 3292__mac_get_fd(struct thread td, struct __mac_get_fd_args uap) 3293{ 3294 3295 return (ENOSYS); 3296} 3297 3298int 3299__mac_get_file(struct thread td, struct __mac_get_file_args uap) 3300{ 3301 3302 return (ENOSYS); 3303} 3304 3305int 3306__mac_set_fd(struct thread td, struct __mac_set_fd_args uap) 3307{ 3308 3309 return (ENOSYS); 3310} 3311 3312int 3313__mac_set_file(struct thread td, struct __mac_set_file_args uap) 3314{ 3315 3316 return (ENOSYS); 3317} 3318 3319int 3320mac_syscall(struct thread td, struct mac_syscall_args uap) 3321{ 3322 3323 return (ENOSYS); 3324} 3325 3326#endif /* !MAC */	374 for (mpe = mpc->mpc_entries; mpe->mpe_constant != MAC_OP_LAST; mpe++) { 375 switch (mpe->mpe_constant) { 376 case MAC_OP_LAST: 377 /* 378 * Doesn't actually happen, but this allows checking 379 * that all enumerated values are handled. 380 / 381* break; 382 case MAC_DESTROY: 383 mpc->mpc_ops->mpo_destroy = 384 mpe->mpe_function; 385 break; 386 case MAC_INIT: 387 mpc->mpc_ops->mpo_init = 388 mpe->mpe_function; 389 break; 390 case MAC_SYSCALL: 391 mpc->mpc_ops->mpo_syscall = 392 mpe->mpe_function; 393 break; 394 case MAC_INIT_BPFDESC: 395 mpc->mpc_ops->mpo_init_bpfdesc = 396 mpe->mpe_function; 397 break; 398 case MAC_INIT_CRED: 399 mpc->mpc_ops->mpo_init_cred = 400 mpe->mpe_function; 401 break; 402 case MAC_INIT_DEVFSDIRENT: 403 mpc->mpc_ops->mpo_init_devfsdirent = 404 mpe->mpe_function; 405 break; 406 case MAC_INIT_IFNET: 407 mpc->mpc_ops->mpo_init_ifnet = 408 mpe->mpe_function; 409 break; 410 case MAC_INIT_IPQ: 411 mpc->mpc_ops->mpo_init_ipq = 412 mpe->mpe_function; 413 break; 414 case MAC_INIT_MBUF: 415 mpc->mpc_ops->mpo_init_mbuf = 416 mpe->mpe_function; 417 break; 418 case MAC_INIT_MOUNT: 419 mpc->mpc_ops->mpo_init_mount = 420 mpe->mpe_function; 421 break; 422 case MAC_INIT_PIPE: 423 mpc->mpc_ops->mpo_init_pipe = 424 mpe->mpe_function; 425 break; 426 case MAC_INIT_SOCKET: 427 mpc->mpc_ops->mpo_init_socket = 428 mpe->mpe_function; 429 break; 430 case MAC_INIT_TEMP: 431 mpc->mpc_ops->mpo_init_temp = 432 mpe->mpe_function; 433 break; 434 case MAC_INIT_VNODE: 435 mpc->mpc_ops->mpo_init_vnode = 436 mpe->mpe_function; 437 break; 438 case MAC_DESTROY_BPFDESC: 439 mpc->mpc_ops->mpo_destroy_bpfdesc = 440 mpe->mpe_function; 441 break; 442 case MAC_DESTROY_CRED: 443 mpc->mpc_ops->mpo_destroy_cred = 444 mpe->mpe_function; 445 break; 446 case MAC_DESTROY_DEVFSDIRENT: 447 mpc->mpc_ops->mpo_destroy_devfsdirent = 448 mpe->mpe_function; 449 break; 450 case MAC_DESTROY_IFNET: 451 mpc->mpc_ops->mpo_destroy_ifnet = 452 mpe->mpe_function; 453 break; 454 case MAC_DESTROY_IPQ: 455 mpc->mpc_ops->mpo_destroy_ipq = 456 mpe->mpe_function; 457 break; 458 case MAC_DESTROY_MBUF: 459 mpc->mpc_ops->mpo_destroy_mbuf = 460 mpe->mpe_function; 461 break; 462 case MAC_DESTROY_MOUNT: 463 mpc->mpc_ops->mpo_destroy_mount = 464 mpe->mpe_function; 465 break; 466 case MAC_DESTROY_PIPE: 467 mpc->mpc_ops->mpo_destroy_pipe = 468 mpe->mpe_function; 469 break; 470 case MAC_DESTROY_SOCKET: 471 mpc->mpc_ops->mpo_destroy_socket = 472 mpe->mpe_function; 473 break; 474 case MAC_DESTROY_TEMP: 475 mpc->mpc_ops->mpo_destroy_temp = 476 mpe->mpe_function; 477 break; 478 case MAC_DESTROY_VNODE: 479 mpc->mpc_ops->mpo_destroy_vnode = 480 mpe->mpe_function; 481 break; 482 case MAC_EXTERNALIZE: 483 mpc->mpc_ops->mpo_externalize = 484 mpe->mpe_function; 485 break; 486 case MAC_INTERNALIZE: 487 mpc->mpc_ops->mpo_internalize = 488 mpe->mpe_function; 489 break; 490 case MAC_CREATE_DEVFS_DEVICE: 491 mpc->mpc_ops->mpo_create_devfs_device = 492 mpe->mpe_function; 493 break; 494 case MAC_CREATE_DEVFS_DIRECTORY: 495 mpc->mpc_ops->mpo_create_devfs_directory = 496 mpe->mpe_function; 497 break; 498 case MAC_CREATE_DEVFS_VNODE: 499 mpc->mpc_ops->mpo_create_devfs_vnode = 500 mpe->mpe_function; 501 break; 502 case MAC_STDCREATEVNODE_EA: 503 mpc->mpc_ops->mpo_stdcreatevnode_ea = 504 mpe->mpe_function; 505 break; 506 case MAC_CREATE_VNODE: 507 mpc->mpc_ops->mpo_create_vnode = 508 mpe->mpe_function; 509 break; 510 case MAC_CREATE_MOUNT: 511 mpc->mpc_ops->mpo_create_mount = 512 mpe->mpe_function; 513 break; 514 case MAC_CREATE_ROOT_MOUNT: 515 mpc->mpc_ops->mpo_create_root_mount = 516 mpe->mpe_function; 517 break; 518 case MAC_RELABEL_VNODE: 519 mpc->mpc_ops->mpo_relabel_vnode = 520 mpe->mpe_function; 521 break; 522 case MAC_UPDATE_DEVFSDIRENT: 523 mpc->mpc_ops->mpo_update_devfsdirent = 524 mpe->mpe_function; 525 break; 526 case MAC_UPDATE_PROCFSVNODE: 527 mpc->mpc_ops->mpo_update_procfsvnode = 528 mpe->mpe_function; 529 break; 530 case MAC_UPDATE_VNODE_FROM_EXTATTR: 531 mpc->mpc_ops->mpo_update_vnode_from_extattr = 532 mpe->mpe_function; 533 break; 534 case MAC_UPDATE_VNODE_FROM_EXTERNALIZED: 535 mpc->mpc_ops->mpo_update_vnode_from_externalized = 536 mpe->mpe_function; 537 break; 538 case MAC_UPDATE_VNODE_FROM_MOUNT: 539 mpc->mpc_ops->mpo_update_vnode_from_mount = 540 mpe->mpe_function; 541 break; 542 case MAC_CREATE_MBUF_FROM_SOCKET: 543 mpc->mpc_ops->mpo_create_mbuf_from_socket = 544 mpe->mpe_function; 545 break; 546 case MAC_CREATE_PIPE: 547 mpc->mpc_ops->mpo_create_pipe = 548 mpe->mpe_function; 549 break; 550 case MAC_CREATE_SOCKET: 551 mpc->mpc_ops->mpo_create_socket = 552 mpe->mpe_function; 553 break; 554 case MAC_CREATE_SOCKET_FROM_SOCKET: 555 mpc->mpc_ops->mpo_create_socket_from_socket = 556 mpe->mpe_function; 557 break; 558 case MAC_RELABEL_PIPE: 559 mpc->mpc_ops->mpo_relabel_pipe = 560 mpe->mpe_function; 561 break; 562 case MAC_RELABEL_SOCKET: 563 mpc->mpc_ops->mpo_relabel_socket = 564 mpe->mpe_function; 565 break; 566 case MAC_SET_SOCKET_PEER_FROM_MBUF: 567 mpc->mpc_ops->mpo_set_socket_peer_from_mbuf = 568 mpe->mpe_function; 569 break; 570 case MAC_SET_SOCKET_PEER_FROM_SOCKET: 571 mpc->mpc_ops->mpo_set_socket_peer_from_socket = 572 mpe->mpe_function; 573 break; 574 case MAC_CREATE_BPFDESC: 575 mpc->mpc_ops->mpo_create_bpfdesc = 576 mpe->mpe_function; 577 break; 578 case MAC_CREATE_DATAGRAM_FROM_IPQ: 579 mpc->mpc_ops->mpo_create_datagram_from_ipq = 580 mpe->mpe_function; 581 break; 582 case MAC_CREATE_FRAGMENT: 583 mpc->mpc_ops->mpo_create_fragment = 584 mpe->mpe_function; 585 break; 586 case MAC_CREATE_IFNET: 587 mpc->mpc_ops->mpo_create_ifnet = 588 mpe->mpe_function; 589 break; 590 case MAC_CREATE_IPQ: 591 mpc->mpc_ops->mpo_create_ipq = 592 mpe->mpe_function; 593 break; 594 case MAC_CREATE_MBUF_FROM_MBUF: 595 mpc->mpc_ops->mpo_create_mbuf_from_mbuf = 596 mpe->mpe_function; 597 break; 598 case MAC_CREATE_MBUF_LINKLAYER: 599 mpc->mpc_ops->mpo_create_mbuf_linklayer = 600 mpe->mpe_function; 601 break; 602 case MAC_CREATE_MBUF_FROM_BPFDESC: 603 mpc->mpc_ops->mpo_create_mbuf_from_bpfdesc = 604 mpe->mpe_function; 605 break; 606 case MAC_CREATE_MBUF_FROM_IFNET: 607 mpc->mpc_ops->mpo_create_mbuf_from_ifnet = 608 mpe->mpe_function; 609 break; 610 case MAC_CREATE_MBUF_MULTICAST_ENCAP: 611 mpc->mpc_ops->mpo_create_mbuf_multicast_encap = 612 mpe->mpe_function; 613 break; 614 case MAC_CREATE_MBUF_NETLAYER: 615 mpc->mpc_ops->mpo_create_mbuf_netlayer = 616 mpe->mpe_function; 617 break; 618 case MAC_FRAGMENT_MATCH: 619 mpc->mpc_ops->mpo_fragment_match = 620 mpe->mpe_function; 621 break; 622 case MAC_RELABEL_IFNET: 623 mpc->mpc_ops->mpo_relabel_ifnet = 624 mpe->mpe_function; 625 break; 626 case MAC_UPDATE_IPQ: 627 mpc->mpc_ops->mpo_update_ipq = 628 mpe->mpe_function; 629 break; 630 case MAC_CREATE_CRED: 631 mpc->mpc_ops->mpo_create_cred = 632 mpe->mpe_function; 633 break; 634 case MAC_EXECVE_TRANSITION: 635 mpc->mpc_ops->mpo_execve_transition = 636 mpe->mpe_function; 637 break; 638 case MAC_EXECVE_WILL_TRANSITION: 639 mpc->mpc_ops->mpo_execve_will_transition = 640 mpe->mpe_function; 641 break; 642 case MAC_CREATE_PROC0: 643 mpc->mpc_ops->mpo_create_proc0 = mpe->mpe_function; 644 break; 645 case MAC_CREATE_PROC1: 646 mpc->mpc_ops->mpo_create_proc1 = mpe->mpe_function; 647 break; 648 case MAC_RELABEL_CRED: 649 mpc->mpc_ops->mpo_relabel_cred = 650 mpe->mpe_function; 651 break; 652 case MAC_CHECK_BPFDESC_RECEIVE: 653 mpc->mpc_ops->mpo_check_bpfdesc_receive = 654 mpe->mpe_function; 655 break; 656 case MAC_CHECK_CRED_RELABEL: 657 mpc->mpc_ops->mpo_check_cred_relabel = 658 mpe->mpe_function; 659 break; 660 case MAC_CHECK_CRED_VISIBLE: 661 mpc->mpc_ops->mpo_check_cred_visible = 662 mpe->mpe_function; 663 break; 664 case MAC_CHECK_IFNET_RELABEL: 665 mpc->mpc_ops->mpo_check_ifnet_relabel = 666 mpe->mpe_function; 667 break; 668 case MAC_CHECK_IFNET_TRANSMIT: 669 mpc->mpc_ops->mpo_check_ifnet_transmit = 670 mpe->mpe_function; 671 break; 672 case MAC_CHECK_MOUNT_STAT: 673 mpc->mpc_ops->mpo_check_mount_stat = 674 mpe->mpe_function; 675 break; 676 case MAC_CHECK_PIPE_IOCTL: 677 mpc->mpc_ops->mpo_check_pipe_ioctl = 678 mpe->mpe_function; 679 break; 680 case MAC_CHECK_PIPE_POLL: 681 mpc->mpc_ops->mpo_check_pipe_poll = 682 mpe->mpe_function; 683 break; 684 case MAC_CHECK_PIPE_READ: 685 mpc->mpc_ops->mpo_check_pipe_read = 686 mpe->mpe_function; 687 break; 688 case MAC_CHECK_PIPE_RELABEL: 689 mpc->mpc_ops->mpo_check_pipe_relabel = 690 mpe->mpe_function; 691 break; 692 case MAC_CHECK_PIPE_STAT: 693 mpc->mpc_ops->mpo_check_pipe_stat = 694 mpe->mpe_function; 695 break; 696 case MAC_CHECK_PIPE_WRITE: 697 mpc->mpc_ops->mpo_check_pipe_write = 698 mpe->mpe_function; 699 break; 700 case MAC_CHECK_PROC_DEBUG: 701 mpc->mpc_ops->mpo_check_proc_debug = 702 mpe->mpe_function; 703 break; 704 case MAC_CHECK_PROC_SCHED: 705 mpc->mpc_ops->mpo_check_proc_sched = 706 mpe->mpe_function; 707 break; 708 case MAC_CHECK_PROC_SIGNAL: 709 mpc->mpc_ops->mpo_check_proc_signal = 710 mpe->mpe_function; 711 break; 712 case MAC_CHECK_SOCKET_BIND: 713 mpc->mpc_ops->mpo_check_socket_bind = 714 mpe->mpe_function; 715 break; 716 case MAC_CHECK_SOCKET_CONNECT: 717 mpc->mpc_ops->mpo_check_socket_connect = 718 mpe->mpe_function; 719 break; 720 case MAC_CHECK_SOCKET_DELIVER: 721 mpc->mpc_ops->mpo_check_socket_deliver = 722 mpe->mpe_function; 723 break; 724 case MAC_CHECK_SOCKET_LISTEN: 725 mpc->mpc_ops->mpo_check_socket_listen = 726 mpe->mpe_function; 727 break; 728 case MAC_CHECK_SOCKET_RELABEL: 729 mpc->mpc_ops->mpo_check_socket_relabel = 730 mpe->mpe_function; 731 break; 732 case MAC_CHECK_SOCKET_VISIBLE: 733 mpc->mpc_ops->mpo_check_socket_visible = 734 mpe->mpe_function; 735 break; 736 case MAC_CHECK_VNODE_ACCESS: 737 mpc->mpc_ops->mpo_check_vnode_access = 738 mpe->mpe_function; 739 break; 740 case MAC_CHECK_VNODE_CHDIR: 741 mpc->mpc_ops->mpo_check_vnode_chdir = 742 mpe->mpe_function; 743 break; 744 case MAC_CHECK_VNODE_CHROOT: 745 mpc->mpc_ops->mpo_check_vnode_chroot = 746 mpe->mpe_function; 747 break; 748 case MAC_CHECK_VNODE_CREATE: 749 mpc->mpc_ops->mpo_check_vnode_create = 750 mpe->mpe_function; 751 break; 752 case MAC_CHECK_VNODE_DELETE: 753 mpc->mpc_ops->mpo_check_vnode_delete = 754 mpe->mpe_function; 755 break; 756 case MAC_CHECK_VNODE_DELETEACL: 757 mpc->mpc_ops->mpo_check_vnode_deleteacl = 758 mpe->mpe_function; 759 break; 760 case MAC_CHECK_VNODE_EXEC: 761 mpc->mpc_ops->mpo_check_vnode_exec = 762 mpe->mpe_function; 763 break; 764 case MAC_CHECK_VNODE_GETACL: 765 mpc->mpc_ops->mpo_check_vnode_getacl = 766 mpe->mpe_function; 767 break; 768 case MAC_CHECK_VNODE_GETEXTATTR: 769 mpc->mpc_ops->mpo_check_vnode_getextattr = 770 mpe->mpe_function; 771 break; 772 case MAC_CHECK_VNODE_LOOKUP: 773 mpc->mpc_ops->mpo_check_vnode_lookup = 774 mpe->mpe_function; 775 break; 776 case MAC_CHECK_VNODE_MMAP_PERMS: 777 mpc->mpc_ops->mpo_check_vnode_mmap_perms = 778 mpe->mpe_function; 779 break; 780 case MAC_CHECK_VNODE_OPEN: 781 mpc->mpc_ops->mpo_check_vnode_open = 782 mpe->mpe_function; 783 break; 784 case MAC_CHECK_VNODE_POLL: 785 mpc->mpc_ops->mpo_check_vnode_poll = 786 mpe->mpe_function; 787 break; 788 case MAC_CHECK_VNODE_READ: 789 mpc->mpc_ops->mpo_check_vnode_read = 790 mpe->mpe_function; 791 break; 792 case MAC_CHECK_VNODE_READDIR: 793 mpc->mpc_ops->mpo_check_vnode_readdir = 794 mpe->mpe_function; 795 break; 796 case MAC_CHECK_VNODE_READLINK: 797 mpc->mpc_ops->mpo_check_vnode_readlink = 798 mpe->mpe_function; 799 break; 800 case MAC_CHECK_VNODE_RELABEL: 801 mpc->mpc_ops->mpo_check_vnode_relabel = 802 mpe->mpe_function; 803 break; 804 case MAC_CHECK_VNODE_RENAME_FROM: 805 mpc->mpc_ops->mpo_check_vnode_rename_from = 806 mpe->mpe_function; 807 break; 808 case MAC_CHECK_VNODE_RENAME_TO: 809 mpc->mpc_ops->mpo_check_vnode_rename_to = 810 mpe->mpe_function; 811 break; 812 case MAC_CHECK_VNODE_REVOKE: 813 mpc->mpc_ops->mpo_check_vnode_revoke = 814 mpe->mpe_function; 815 break; 816 case MAC_CHECK_VNODE_SETACL: 817 mpc->mpc_ops->mpo_check_vnode_setacl = 818 mpe->mpe_function; 819 break; 820 case MAC_CHECK_VNODE_SETEXTATTR: 821 mpc->mpc_ops->mpo_check_vnode_setextattr = 822 mpe->mpe_function; 823 break; 824 case MAC_CHECK_VNODE_SETFLAGS: 825 mpc->mpc_ops->mpo_check_vnode_setflags = 826 mpe->mpe_function; 827 break; 828 case MAC_CHECK_VNODE_SETMODE: 829 mpc->mpc_ops->mpo_check_vnode_setmode = 830 mpe->mpe_function; 831 break; 832 case MAC_CHECK_VNODE_SETOWNER: 833 mpc->mpc_ops->mpo_check_vnode_setowner = 834 mpe->mpe_function; 835 break; 836 case MAC_CHECK_VNODE_SETUTIMES: 837 mpc->mpc_ops->mpo_check_vnode_setutimes = 838 mpe->mpe_function; 839 break; 840 case MAC_CHECK_VNODE_STAT: 841 mpc->mpc_ops->mpo_check_vnode_stat = 842 mpe->mpe_function; 843 break; 844 case MAC_CHECK_VNODE_WRITE: 845 mpc->mpc_ops->mpo_check_vnode_write = 846 mpe->mpe_function; 847 break; 848/* 849 default: 850 printf("MAC policy `%s': unknown operation %d\n", 851 mpc->mpc_name, mpe->mpe_constant); 852 return (EINVAL); 853/ 854* } 855 } 856 MAC_POLICY_LIST_LOCK(); 857 if (mac_policy_list_busy > 0) { 858 MAC_POLICY_LIST_UNLOCK(); 859 FREE(mpc->mpc_ops, M_MACOPVEC); 860 mpc->mpc_ops = NULL; 861 return (EBUSY); 862 } 863 LIST_FOREACH(tmpc, &mac_policy_list, mpc_list) { 864 if (strcmp(tmpc->mpc_name, mpc->mpc_name) == 0) { 865 MAC_POLICY_LIST_UNLOCK(); 866 FREE(mpc->mpc_ops, M_MACOPVEC); 867 mpc->mpc_ops = NULL; 868 return (EEXIST); 869 } 870 } 871 if (mpc->mpc_field_off != NULL) { 872 slot = ffs(mac_policy_offsets_free); 873 if (slot == 0) { 874 MAC_POLICY_LIST_UNLOCK(); 875 FREE(mpc->mpc_ops, M_MACOPVEC); 876 mpc->mpc_ops = NULL; 877 return (ENOMEM); 878 } 879 slot--; 880 mac_policy_offsets_free &= ~(1 << slot); 881 mpc->mpc_field_off = slot; 882* } 883 mpc->mpc_runtime_flags \|= MPC_RUNTIME_FLAG_REGISTERED; 884 LIST_INSERT_HEAD(&mac_policy_list, mpc, mpc_list); 885 886 /* Per-policy initialization. / 887* if (mpc->mpc_ops->mpo_init != NULL) 888 ((mpc->mpc_ops->mpo_init))(mpc); 889* MAC_POLICY_LIST_UNLOCK(); 890 891 printf("Security policy loaded: %s (%s)\n", mpc->mpc_fullname, 892 mpc->mpc_name); 893 894 return (0); 895} 896 897static int 898mac_policy_unregister(struct mac_policy_conf mpc) 899{ 900* 901#if 0 902 /* 903 * Don't allow unloading modules with private data. 904 / 905* if (mpc->mpc_field_off != NULL) 906 return (EBUSY); 907#endif 908 if ((mpc->mpc_loadtime_flags & MPC_LOADTIME_FLAG_UNLOADOK) == 0) 909 return (EBUSY); 910 MAC_POLICY_LIST_LOCK(); 911 if (mac_policy_list_busy > 0) { 912 MAC_POLICY_LIST_UNLOCK(); 913 return (EBUSY); 914 } 915 if (mpc->mpc_ops->mpo_destroy != NULL) 916 ((mpc->mpc_ops->mpo_destroy))(mpc); 917* 918 LIST_REMOVE(mpc, mpc_list); 919 MAC_POLICY_LIST_UNLOCK(); 920 921 FREE(mpc->mpc_ops, M_MACOPVEC); 922 mpc->mpc_ops = NULL; 923 924 printf("Security policy unload: %s (%s)\n", mpc->mpc_fullname, 925 mpc->mpc_name); 926 927 return (0); 928} 929 930/* 931 * Define an error value precedence, and given two arguments, selects the 932 * value with the higher precedence. 933 / 934static int 935error_select(int error1, int error2) 936{ 937* 938 /* Certain decision-making errors take top priority. / 939* if (error1 == EDEADLK \|\| error2 == EDEADLK) 940 return (EDEADLK); 941 942 /* Invalid arguments should be reported where possible. / 943* if (error1 == EINVAL \|\| error2 == EINVAL) 944 return (EINVAL); 945 946 /* Precedence goes to "visibility", with both process and file. / 947* if (error1 == ESRCH \|\| error2 == ESRCH) 948 return (ESRCH); 949 950 if (error1 == ENOENT \|\| error2 == ENOENT) 951 return (ENOENT); 952 953 /* Precedence goes to DAC/MAC protections. / 954* if (error1 == EACCES \|\| error2 == EACCES) 955 return (EACCES); 956 957 /* Precedence goes to privilege. / 958* if (error1 == EPERM \|\| error2 == EPERM) 959 return (EPERM); 960 961 /* Precedence goes to error over success; otherwise, arbitrary. / 962* if (error1 != 0) 963 return (error1); 964 return (error2); 965} 966 967void 968mac_update_devfsdirent(struct devfs_dirent de, struct vnode vp) 969{ 970 971 MAC_PERFORM(update_devfsdirent, de, &de->de_label, vp, &vp->v_label); 972} 973 974void 975mac_update_procfsvnode(struct vnode vp, struct ucred cred) 976{ 977 978 MAC_PERFORM(update_procfsvnode, vp, &vp->v_label, cred); 979} 980 981/* 982 * Support callout for policies that manage their own externalization 983 * using extended attributes. 984 / 985static int 986mac_update_vnode_from_extattr(struct vnode vp, struct mount mp) 987{ 988* int error; 989 990 MAC_CHECK(update_vnode_from_extattr, vp, &vp->v_label, mp, 991 &mp->mnt_fslabel); 992 993 return (error); 994} 995 996/* 997 * Given an externalized mac label, internalize it and stamp it on a 998 * vnode. 999 / 1000static int 1001mac_update_vnode_from_externalized(struct vnode vp, struct mac extmac) 1002{ 1003* int error; 1004 1005 MAC_CHECK(update_vnode_from_externalized, vp, &vp->v_label, extmac); 1006 1007 return (error); 1008} 1009 1010/* 1011 * Call out to individual policies to update the label in a vnode from 1012 * the mountpoint. 1013 / 1014void 1015mac_update_vnode_from_mount(struct vnode vp, struct mount mp) 1016{ 1017* 1018 MAC_PERFORM(update_vnode_from_mount, vp, &vp->v_label, mp, 1019 &mp->mnt_fslabel); 1020 1021 ASSERT_VOP_LOCKED(vp, "mac_update_vnode_from_mount"); 1022 if (mac_cache_fslabel_in_vnode) 1023 vp->v_vflag \|= VV_CACHEDLABEL; 1024} 1025 1026/* 1027 * Implementation of VOP_REFRESHLABEL() that relies on extended attributes 1028 * to store label data. Can be referenced by filesystems supporting 1029 * extended attributes. 1030 / 1031int 1032vop_stdrefreshlabel_ea(struct vop_refreshlabel_args ap) 1033{ 1034 struct vnode vp = ap->a_vp; 1035* struct mac extmac; 1036 int buflen, error; 1037 1038 ASSERT_VOP_LOCKED(vp, "vop_stdrefreshlabel_ea"); 1039 1040 /* 1041 * Call out to external policies first. Order doesn't really 1042 * matter, as long as failure of one assures failure of all. 1043 / 1044* error = mac_update_vnode_from_extattr(vp, vp->v_mount); 1045 if (error) 1046 return (error); 1047 1048 buflen = sizeof(extmac); 1049 error = vn_extattr_get(vp, IO_NODELOCKED, 1050 FREEBSD_MAC_EXTATTR_NAMESPACE, FREEBSD_MAC_EXTATTR_NAME, &buflen, 1051 (char )&extmac, curthread); 1052* switch (error) { 1053 case 0: 1054 /* Got it / 1055* break; 1056 1057 case ENOATTR: 1058 /* 1059 * Use the label from the mount point. 1060 / 1061* mac_update_vnode_from_mount(vp, vp->v_mount); 1062 return (0); 1063 1064 case EOPNOTSUPP: 1065 default: 1066 /* Fail horribly. / 1067* return (error); 1068 } 1069 1070 if (buflen != sizeof(extmac)) 1071 error = EPERM; /* Fail very closed. / 1072* if (error == 0) 1073 error = mac_update_vnode_from_externalized(vp, &extmac); 1074 if (error == 0) 1075 vp->v_vflag \|= VV_CACHEDLABEL; 1076 else { 1077 struct vattr va; 1078 1079 printf("Corrupted label on %s", 1080 vp->v_mount->mnt_stat.f_mntonname); 1081 if (VOP_GETATTR(vp, &va, curthread->td_ucred, curthread) == 0) 1082 printf(" inum %ld", va.va_fileid); 1083 if (mac_debug_label_fallback) { 1084 printf(", falling back.\n"); 1085 mac_update_vnode_from_mount(vp, vp->v_mount); 1086 error = 0; 1087 } else { 1088 printf(".\n"); 1089 error = EPERM; 1090 } 1091 } 1092 1093 return (error); 1094} 1095 1096/* 1097 * Make sure the vnode label is up-to-date. If EOPNOTSUPP, then we handle 1098 * the labeling activity outselves. Filesystems should be careful not 1099 * to change their minds regarding whether they support vop_refreshlabel() 1100 * for a vnode or not. Don't cache the vnode here, allow the file 1101 * system code to determine if it's safe to cache. If we update from 1102 * the mount, don't cache since a change to the mount label should affect 1103 * all vnodes. 1104 / 1105static int 1106vn_refreshlabel(struct vnode vp, struct ucred cred) 1107{ 1108* int error; 1109 1110 ASSERT_VOP_LOCKED(vp, "vn_refreshlabel"); 1111 1112 if (vp->v_mount == NULL) { 1113/* 1114 Eventually, we probably want to special-case refreshing 1115 of deadfs vnodes, and if there's a lock-free race somewhere, 1116 that case might be handled here. 1117 1118 mac_update_vnode_deadfs(vp); 1119 return (0); 1120 / 1121* /* printf("vn_refreshlabel: null v_mount\n"); / 1122* if (vp->v_type != VNON) 1123 printf( 1124 "vn_refreshlabel: null v_mount with non-VNON\n"); 1125 return (EBADF); 1126 } 1127 1128 if (vp->v_vflag & VV_CACHEDLABEL) { 1129 mac_vnode_label_cache_hits++; 1130 return (0); 1131 } else 1132 mac_vnode_label_cache_misses++; 1133 1134 if ((vp->v_mount->mnt_flag & MNT_MULTILABEL) == 0) { 1135 mac_update_vnode_from_mount(vp, vp->v_mount); 1136 return (0); 1137 } 1138 1139 error = VOP_REFRESHLABEL(vp, cred, curthread); 1140 switch (error) { 1141 case EOPNOTSUPP: 1142 /* 1143 * If labels are not supported on this vnode, fall back to 1144 * the label in the mount and propagate it to the vnode. 1145 * There should probably be some sort of policy/flag/decision 1146 * about doing this. 1147 / 1148* mac_update_vnode_from_mount(vp, vp->v_mount); 1149 error = 0; 1150 default: 1151 return (error); 1152 } 1153} 1154 1155/* 1156 * Helper function for file systems using the vop_std_ea() calls. This 1157* * function must be called after EA service is available for the vnode, 1158 * but before it's hooked up to the namespace so that the node persists 1159 * if there's a crash, or before it can be accessed. On successful 1160 * commit of the label to disk (etc), do cache the label. 1161 / 1162int 1163vop_stdcreatevnode_ea(struct vnode dvp, struct vnode tvp, struct ucred cred) 1164{ 1165 struct mac extmac; 1166 int error; 1167 1168 ASSERT_VOP_LOCKED(tvp, "vop_stdcreatevnode_ea"); 1169 if ((dvp->v_mount->mnt_flag & MNT_MULTILABEL) == 0) { 1170 mac_update_vnode_from_mount(tvp, tvp->v_mount); 1171 } else { 1172 error = vn_refreshlabel(dvp, cred); 1173 if (error) 1174 return (error); 1175 1176 /* 1177 * Stick the label in the vnode. Then try to write to 1178 * disk. If we fail, return a failure to abort the 1179 * create operation. Really, this failure shouldn't 1180 * happen except in fairly unusual circumstances (out 1181 * of disk, etc). 1182 / 1183* mac_create_vnode(cred, dvp, tvp); 1184 1185 error = mac_stdcreatevnode_ea(tvp); 1186 if (error) 1187 return (error); 1188 1189 /* 1190 * XXX: Eventually this will go away and all policies will 1191 * directly manage their extended attributes. 1192 / 1193* error = mac_externalize(&tvp->v_label, &extmac); 1194 if (error) 1195 return (error); 1196 1197 error = vn_extattr_set(tvp, IO_NODELOCKED, 1198 FREEBSD_MAC_EXTATTR_NAMESPACE, FREEBSD_MAC_EXTATTR_NAME, 1199 sizeof(extmac), (char )&extmac, curthread); 1200* if (error == 0) 1201 tvp->v_vflag \|= VV_CACHEDLABEL; 1202 else { 1203#if 0 1204 /* 1205 * In theory, we could have fall-back behavior here. 1206 * It would probably be incorrect. 1207 / 1208#endif 1209* return (error); 1210 } 1211 } 1212 1213 return (0); 1214} 1215 1216void 1217mac_execve_transition(struct ucred old, struct ucred new, struct vnode vp) 1218{ 1219* int error; 1220 1221 ASSERT_VOP_LOCKED(vp, "mac_execve_transition"); 1222 1223 error = vn_refreshlabel(vp, old); 1224 if (error) { 1225 printf("mac_execve_transition: vn_refreshlabel returned %d\n", 1226 error); 1227 printf("mac_execve_transition: using old vnode label\n"); 1228 } 1229 1230 MAC_PERFORM(execve_transition, old, new, vp, &vp->v_label); 1231} 1232 1233int 1234mac_execve_will_transition(struct ucred old, struct vnode vp) 1235{ 1236 int error, result; 1237 1238 error = vn_refreshlabel(vp, old); 1239 if (error) 1240 return (error); 1241 1242 result = 0; 1243 MAC_BOOLEAN(execve_will_transition, \|\|, old, vp, &vp->v_label); 1244 1245 return (result); 1246} 1247 1248static void 1249mac_init_label(struct label label) 1250{ 1251* 1252 bzero(label, sizeof(label)); 1253* label->l_flags = MAC_FLAG_INITIALIZED; 1254} 1255 1256static void 1257mac_init_structmac(struct mac mac) 1258{ 1259* 1260 bzero(mac, sizeof(mac)); 1261* mac->m_macflags = MAC_FLAG_INITIALIZED; 1262} 1263 1264static void 1265mac_destroy_label(struct label label) 1266{ 1267* 1268 KASSERT(label->l_flags & MAC_FLAG_INITIALIZED, 1269 ("destroying uninitialized label")); 1270 1271 bzero(label, sizeof(label)); 1272* /* implicit: label->l_flags &= ~MAC_FLAG_INITIALIZED; / 1273} 1274* 1275int 1276mac_init_mbuf(struct mbuf m, int how) 1277{ 1278* KASSERT(m->m_flags & M_PKTHDR, ("mac_init_mbuf on non-header mbuf")); 1279 1280 /* "how" is one of M_(TRY\|DONT)WAIT / 1281* mac_init_label(&m->m_pkthdr.label); 1282 MAC_PERFORM(init_mbuf, m, how, &m->m_pkthdr.label); 1283#ifdef MAC_DEBUG 1284 atomic_add_int(&nmacmbufs, 1); 1285#endif 1286 return (0); 1287} 1288 1289void 1290mac_destroy_mbuf(struct mbuf m) 1291{ 1292* 1293 MAC_PERFORM(destroy_mbuf, m, &m->m_pkthdr.label); 1294 mac_destroy_label(&m->m_pkthdr.label); 1295#ifdef MAC_DEBUG 1296 atomic_subtract_int(&nmacmbufs, 1); 1297#endif 1298} 1299 1300void 1301mac_init_cred(struct ucred cr) 1302{ 1303* 1304 mac_init_label(&cr->cr_label); 1305 MAC_PERFORM(init_cred, cr, &cr->cr_label); 1306#ifdef MAC_DEBUG 1307 atomic_add_int(&nmaccreds, 1); 1308#endif 1309} 1310 1311void 1312mac_destroy_cred(struct ucred cr) 1313{ 1314* 1315 MAC_PERFORM(destroy_cred, cr, &cr->cr_label); 1316 mac_destroy_label(&cr->cr_label); 1317#ifdef MAC_DEBUG 1318 atomic_subtract_int(&nmaccreds, 1); 1319#endif 1320} 1321 1322void 1323mac_init_ifnet(struct ifnet ifp) 1324{ 1325* 1326 mac_init_label(&ifp->if_label); 1327 MAC_PERFORM(init_ifnet, ifp, &ifp->if_label); 1328#ifdef MAC_DEBUG 1329 atomic_add_int(&nmacifnets, 1); 1330#endif 1331} 1332 1333void 1334mac_destroy_ifnet(struct ifnet ifp) 1335{ 1336* 1337 MAC_PERFORM(destroy_ifnet, ifp, &ifp->if_label); 1338 mac_destroy_label(&ifp->if_label); 1339#ifdef MAC_DEBUG 1340 atomic_subtract_int(&nmacifnets, 1); 1341#endif 1342} 1343 1344void 1345mac_init_ipq(struct ipq ipq) 1346{ 1347* 1348 mac_init_label(&ipq->ipq_label); 1349 MAC_PERFORM(init_ipq, ipq, &ipq->ipq_label); 1350#ifdef MAC_DEBUG 1351 atomic_add_int(&nmacipqs, 1); 1352#endif 1353} 1354 1355void 1356mac_destroy_ipq(struct ipq ipq) 1357{ 1358* 1359 MAC_PERFORM(destroy_ipq, ipq, &ipq->ipq_label); 1360 mac_destroy_label(&ipq->ipq_label); 1361#ifdef MAC_DEBUG 1362 atomic_subtract_int(&nmacipqs, 1); 1363#endif 1364} 1365 1366void 1367mac_init_socket(struct socket socket) 1368{ 1369* 1370 mac_init_label(&socket->so_label); 1371 mac_init_label(&socket->so_peerlabel); 1372 MAC_PERFORM(init_socket, socket, &socket->so_label, 1373 &socket->so_peerlabel); 1374#ifdef MAC_DEBUG 1375 atomic_add_int(&nmacsockets, 1); 1376#endif 1377} 1378 1379void 1380mac_destroy_socket(struct socket socket) 1381{ 1382* 1383 MAC_PERFORM(destroy_socket, socket, &socket->so_label, 1384 &socket->so_peerlabel); 1385 mac_destroy_label(&socket->so_label); 1386 mac_destroy_label(&socket->so_peerlabel); 1387#ifdef MAC_DEBUG 1388 atomic_subtract_int(&nmacsockets, 1); 1389#endif 1390} 1391 1392void 1393mac_init_pipe(struct pipe pipe) 1394{ 1395* struct label label; 1396* 1397 label = malloc(sizeof(struct label), M_MACPIPELABEL, M_ZERO\|M_WAITOK); 1398 mac_init_label(label); 1399 pipe->pipe_label = label; 1400 pipe->pipe_peer->pipe_label = label; 1401 MAC_PERFORM(init_pipe, pipe, pipe->pipe_label); 1402#ifdef MAC_DEBUG 1403 atomic_add_int(&nmacpipes, 1); 1404#endif 1405} 1406 1407void 1408mac_destroy_pipe(struct pipe pipe) 1409{ 1410* 1411 MAC_PERFORM(destroy_pipe, pipe, pipe->pipe_label); 1412 mac_destroy_label(pipe->pipe_label); 1413 free(pipe->pipe_label, M_MACPIPELABEL); 1414#ifdef MAC_DEBUG 1415 atomic_subtract_int(&nmacpipes, 1); 1416#endif 1417} 1418 1419void 1420mac_init_bpfdesc(struct bpf_d bpf_d) 1421{ 1422* 1423 mac_init_label(&bpf_d->bd_label); 1424 MAC_PERFORM(init_bpfdesc, bpf_d, &bpf_d->bd_label); 1425#ifdef MAC_DEBUG 1426 atomic_add_int(&nmacbpfdescs, 1); 1427#endif 1428} 1429 1430void 1431mac_destroy_bpfdesc(struct bpf_d bpf_d) 1432{ 1433* 1434 MAC_PERFORM(destroy_bpfdesc, bpf_d, &bpf_d->bd_label); 1435 mac_destroy_label(&bpf_d->bd_label); 1436#ifdef MAC_DEBUG 1437 atomic_subtract_int(&nmacbpfdescs, 1); 1438#endif 1439} 1440 1441void 1442mac_init_mount(struct mount mp) 1443{ 1444* 1445 mac_init_label(&mp->mnt_mntlabel); 1446 mac_init_label(&mp->mnt_fslabel); 1447 MAC_PERFORM(init_mount, mp, &mp->mnt_mntlabel, &mp->mnt_fslabel); 1448#ifdef MAC_DEBUG 1449 atomic_add_int(&nmacmounts, 1); 1450#endif 1451} 1452 1453void 1454mac_destroy_mount(struct mount mp) 1455{ 1456* 1457 MAC_PERFORM(destroy_mount, mp, &mp->mnt_mntlabel, &mp->mnt_fslabel); 1458 mac_destroy_label(&mp->mnt_fslabel); 1459 mac_destroy_label(&mp->mnt_mntlabel); 1460#ifdef MAC_DEBUG 1461 atomic_subtract_int(&nmacmounts, 1); 1462#endif 1463} 1464 1465static void 1466mac_init_temp(struct label label) 1467{ 1468* 1469 mac_init_label(label); 1470 MAC_PERFORM(init_temp, label); 1471#ifdef MAC_DEBUG 1472 atomic_add_int(&nmactemp, 1); 1473#endif 1474} 1475 1476static void 1477mac_destroy_temp(struct label label) 1478{ 1479* 1480 MAC_PERFORM(destroy_temp, label); 1481 mac_destroy_label(label); 1482#ifdef MAC_DEBUG 1483 atomic_subtract_int(&nmactemp, 1); 1484#endif 1485} 1486 1487void 1488mac_init_vnode(struct vnode vp) 1489{ 1490* 1491 mac_init_label(&vp->v_label); 1492 MAC_PERFORM(init_vnode, vp, &vp->v_label); 1493#ifdef MAC_DEBUG 1494 atomic_add_int(&nmacvnodes, 1); 1495#endif 1496} 1497 1498void 1499mac_destroy_vnode(struct vnode vp) 1500{ 1501* 1502 MAC_PERFORM(destroy_vnode, vp, &vp->v_label); 1503 mac_destroy_label(&vp->v_label); 1504#ifdef MAC_DEBUG 1505 atomic_subtract_int(&nmacvnodes, 1); 1506#endif 1507} 1508 1509void 1510mac_init_devfsdirent(struct devfs_dirent de) 1511{ 1512* 1513 mac_init_label(&de->de_label); 1514 MAC_PERFORM(init_devfsdirent, de, &de->de_label); 1515#ifdef MAC_DEBUG 1516 atomic_add_int(&nmacdevfsdirents, 1); 1517#endif 1518} 1519 1520void 1521mac_destroy_devfsdirent(struct devfs_dirent de) 1522{ 1523* 1524 MAC_PERFORM(destroy_devfsdirent, de, &de->de_label); 1525 mac_destroy_label(&de->de_label); 1526#ifdef MAC_DEBUG 1527 atomic_subtract_int(&nmacdevfsdirents, 1); 1528#endif 1529} 1530 1531static int 1532mac_externalize(struct label label, struct mac mac) 1533{ 1534 int error; 1535 1536 mac_init_structmac(mac); 1537 MAC_CHECK(externalize, label, mac); 1538 1539 return (error); 1540} 1541 1542static int 1543mac_internalize(struct label label, struct mac mac) 1544{ 1545 int error; 1546 1547 mac_init_temp(label); 1548 MAC_CHECK(internalize, label, mac); 1549 if (error) 1550 mac_destroy_temp(label); 1551 1552 return (error); 1553} 1554 1555/* 1556 * Initialize MAC label for the first kernel process, from which other 1557 * kernel processes and threads are spawned. 1558 / 1559void 1560mac_create_proc0(struct ucred cred) 1561{ 1562 1563 MAC_PERFORM(create_proc0, cred); 1564} 1565 1566/* 1567 * Initialize MAC label for the first userland process, from which other 1568 * userland processes and threads are spawned. 1569 / 1570void 1571mac_create_proc1(struct ucred cred) 1572{ 1573 1574 MAC_PERFORM(create_proc1, cred); 1575} 1576 1577/* 1578 * When a new process is created, its label must be initialized. Generally, 1579 * this involves inheritence from the parent process, modulo possible 1580 * deltas. This function allows that processing to take place. 1581 / 1582void 1583mac_create_cred(struct ucred parent_cred, struct ucred child_cred) 1584{ 1585* 1586 MAC_PERFORM(create_cred, parent_cred, child_cred); 1587} 1588 1589int 1590mac_check_vnode_access(struct ucred cred, struct vnode vp, int flags) 1591{ 1592 int error; 1593 1594 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_access"); 1595 1596 if (!mac_enforce_fs) 1597 return (0); 1598 1599 error = vn_refreshlabel(vp, cred); 1600 if (error) 1601 return (error); 1602 1603 MAC_CHECK(check_vnode_access, cred, vp, &vp->v_label, flags); 1604 return (error); 1605} 1606 1607int 1608mac_check_vnode_chdir(struct ucred cred, struct vnode dvp) 1609{ 1610 int error; 1611 1612 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_chdir"); 1613 1614 if (!mac_enforce_fs) 1615 return (0); 1616 1617 error = vn_refreshlabel(dvp, cred); 1618 if (error) 1619 return (error); 1620 1621 MAC_CHECK(check_vnode_chdir, cred, dvp, &dvp->v_label); 1622 return (error); 1623} 1624 1625int 1626mac_check_vnode_chroot(struct ucred cred, struct vnode dvp) 1627{ 1628 int error; 1629 1630 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_chroot"); 1631 1632 if (!mac_enforce_fs) 1633 return (0); 1634 1635 error = vn_refreshlabel(dvp, cred); 1636 if (error) 1637 return (error); 1638 1639 MAC_CHECK(check_vnode_chroot, cred, dvp, &dvp->v_label); 1640 return (error); 1641} 1642 1643int 1644mac_check_vnode_create(struct ucred cred, struct vnode dvp, 1645 struct componentname cnp, struct vattr vap) 1646{ 1647 int error; 1648 1649 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_create"); 1650 1651 if (!mac_enforce_fs) 1652 return (0); 1653 1654 error = vn_refreshlabel(dvp, cred); 1655 if (error) 1656 return (error); 1657 1658 MAC_CHECK(check_vnode_create, cred, dvp, &dvp->v_label, cnp, vap); 1659 return (error); 1660} 1661 1662int 1663mac_check_vnode_delete(struct ucred cred, struct vnode dvp, struct vnode vp, 1664* struct componentname cnp) 1665{ 1666* int error; 1667 1668 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_delete"); 1669 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_delete"); 1670 1671 if (!mac_enforce_fs) 1672 return (0); 1673 1674 error = vn_refreshlabel(dvp, cred); 1675 if (error) 1676 return (error); 1677 error = vn_refreshlabel(vp, cred); 1678 if (error) 1679 return (error); 1680 1681 MAC_CHECK(check_vnode_delete, cred, dvp, &dvp->v_label, vp, 1682 &vp->v_label, cnp); 1683 return (error); 1684} 1685 1686int 1687mac_check_vnode_deleteacl(struct ucred cred, struct vnode vp, 1688 acl_type_t type) 1689{ 1690 int error; 1691 1692 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_deleteacl"); 1693 1694 if (!mac_enforce_fs) 1695 return (0); 1696 1697 error = vn_refreshlabel(vp, cred); 1698 if (error) 1699 return (error); 1700 1701 MAC_CHECK(check_vnode_deleteacl, cred, vp, &vp->v_label, type); 1702 return (error); 1703} 1704 1705int 1706mac_check_vnode_exec(struct ucred cred, struct vnode vp) 1707{ 1708 int error; 1709 1710 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_exec"); 1711 1712 if (!mac_enforce_process && !mac_enforce_fs) 1713 return (0); 1714 1715 error = vn_refreshlabel(vp, cred); 1716 if (error) 1717 return (error); 1718 MAC_CHECK(check_vnode_exec, cred, vp, &vp->v_label); 1719 1720 return (error); 1721} 1722 1723int 1724mac_check_vnode_getacl(struct ucred cred, struct vnode vp, acl_type_t type) 1725{ 1726 int error; 1727 1728 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_getacl"); 1729 1730 if (!mac_enforce_fs) 1731 return (0); 1732 1733 error = vn_refreshlabel(vp, cred); 1734 if (error) 1735 return (error); 1736 1737 MAC_CHECK(check_vnode_getacl, cred, vp, &vp->v_label, type); 1738 return (error); 1739} 1740 1741int 1742mac_check_vnode_getextattr(struct ucred cred, struct vnode vp, 1743 int attrnamespace, const char name, struct uio uio) 1744{ 1745 int error; 1746 1747 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_getextattr"); 1748 1749 if (!mac_enforce_fs) 1750 return (0); 1751 1752 error = vn_refreshlabel(vp, cred); 1753 if (error) 1754 return (error); 1755 1756 MAC_CHECK(check_vnode_getextattr, cred, vp, &vp->v_label, 1757 attrnamespace, name, uio); 1758 return (error); 1759} 1760 1761int 1762mac_check_vnode_lookup(struct ucred cred, struct vnode dvp, 1763 struct componentname cnp) 1764{ 1765* int error; 1766 1767 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_lookup"); 1768 1769 if (!mac_enforce_fs) 1770 return (0); 1771 1772 error = vn_refreshlabel(dvp, cred); 1773 if (error) 1774 return (error); 1775 1776 MAC_CHECK(check_vnode_lookup, cred, dvp, &dvp->v_label, cnp); 1777 return (error); 1778} 1779 1780vm_prot_t 1781mac_check_vnode_mmap_prot(struct ucred cred, struct vnode vp, int newmapping) 1782{ 1783 vm_prot_t result = VM_PROT_ALL; 1784 1785 if (!mac_enforce_vm) 1786 return (result); 1787 1788 /* 1789 * This should be some sort of MAC_BITWISE, maybe :) 1790 / 1791* ASSERT_VOP_LOCKED(vp, "mac_check_vnode_mmap_perms"); 1792 MAC_BOOLEAN(check_vnode_mmap_perms, &, cred, vp, &vp->v_label, 1793 newmapping); 1794 return (result); 1795} 1796 1797int 1798mac_check_vnode_open(struct ucred cred, struct vnode vp, mode_t acc_mode) 1799{ 1800 int error; 1801 1802 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_open"); 1803 1804 if (!mac_enforce_fs) 1805 return (0); 1806 1807 error = vn_refreshlabel(vp, cred); 1808 if (error) 1809 return (error); 1810 1811 MAC_CHECK(check_vnode_open, cred, vp, &vp->v_label, acc_mode); 1812 return (error); 1813} 1814 1815int 1816mac_check_vnode_poll(struct ucred active_cred, struct ucred file_cred, 1817 struct vnode vp) 1818{ 1819* int error; 1820 1821 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_poll"); 1822 1823 if (!mac_enforce_fs) 1824 return (0); 1825 1826 error = vn_refreshlabel(vp, active_cred); 1827 if (error) 1828 return (error); 1829 1830 MAC_CHECK(check_vnode_poll, active_cred, file_cred, vp, 1831 &vp->v_label); 1832 1833 return (error); 1834} 1835 1836int 1837mac_check_vnode_read(struct ucred active_cred, struct ucred file_cred, 1838 struct vnode vp) 1839{ 1840* int error; 1841 1842 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_read"); 1843 1844 if (!mac_enforce_fs) 1845 return (0); 1846 1847 error = vn_refreshlabel(vp, active_cred); 1848 if (error) 1849 return (error); 1850 1851 MAC_CHECK(check_vnode_read, active_cred, file_cred, vp, 1852 &vp->v_label); 1853 1854 return (error); 1855} 1856 1857int 1858mac_check_vnode_readdir(struct ucred cred, struct vnode dvp) 1859{ 1860 int error; 1861 1862 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_readdir"); 1863 1864 if (!mac_enforce_fs) 1865 return (0); 1866 1867 error = vn_refreshlabel(dvp, cred); 1868 if (error) 1869 return (error); 1870 1871 MAC_CHECK(check_vnode_readdir, cred, dvp, &dvp->v_label); 1872 return (error); 1873} 1874 1875int 1876mac_check_vnode_readlink(struct ucred cred, struct vnode vp) 1877{ 1878 int error; 1879 1880 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_readlink"); 1881 1882 if (!mac_enforce_fs) 1883 return (0); 1884 1885 error = vn_refreshlabel(vp, cred); 1886 if (error) 1887 return (error); 1888 1889 MAC_CHECK(check_vnode_readlink, cred, vp, &vp->v_label); 1890 return (error); 1891} 1892 1893static int 1894mac_check_vnode_relabel(struct ucred cred, struct vnode vp, 1895 struct label newlabel) 1896{ 1897* int error; 1898 1899 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_relabel"); 1900 1901 error = vn_refreshlabel(vp, cred); 1902 if (error) 1903 return (error); 1904 1905 MAC_CHECK(check_vnode_relabel, cred, vp, &vp->v_label, newlabel); 1906 1907 return (error); 1908} 1909 1910int 1911mac_check_vnode_rename_from(struct ucred cred, struct vnode dvp, 1912 struct vnode vp, struct componentname cnp) 1913{ 1914 int error; 1915 1916 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_rename_from"); 1917 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_rename_from"); 1918 1919 if (!mac_enforce_fs) 1920 return (0); 1921 1922 error = vn_refreshlabel(dvp, cred); 1923 if (error) 1924 return (error); 1925 error = vn_refreshlabel(vp, cred); 1926 if (error) 1927 return (error); 1928 1929 MAC_CHECK(check_vnode_rename_from, cred, dvp, &dvp->v_label, vp, 1930 &vp->v_label, cnp); 1931 return (error); 1932} 1933 1934int 1935mac_check_vnode_rename_to(struct ucred cred, struct vnode dvp, 1936 struct vnode vp, int samedir, struct componentname cnp) 1937{ 1938 int error; 1939 1940 ASSERT_VOP_LOCKED(dvp, "mac_check_vnode_rename_to"); 1941 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_rename_to"); 1942 1943 if (!mac_enforce_fs) 1944 return (0); 1945 1946 error = vn_refreshlabel(dvp, cred); 1947 if (error) 1948 return (error); 1949 if (vp != NULL) { 1950 error = vn_refreshlabel(vp, cred); 1951 if (error) 1952 return (error); 1953 } 1954 MAC_CHECK(check_vnode_rename_to, cred, dvp, &dvp->v_label, vp, 1955 vp != NULL ? &vp->v_label : NULL, samedir, cnp); 1956 return (error); 1957} 1958 1959int 1960mac_check_vnode_revoke(struct ucred cred, struct vnode vp) 1961{ 1962 int error; 1963 1964 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_revoke"); 1965 1966 if (!mac_enforce_fs) 1967 return (0); 1968 1969 error = vn_refreshlabel(vp, cred); 1970 if (error) 1971 return (error); 1972 1973 MAC_CHECK(check_vnode_revoke, cred, vp, &vp->v_label); 1974 return (error); 1975} 1976 1977int 1978mac_check_vnode_setacl(struct ucred cred, struct vnode vp, acl_type_t type, 1979 struct acl acl) 1980{ 1981* int error; 1982 1983 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setacl"); 1984 1985 if (!mac_enforce_fs) 1986 return (0); 1987 1988 error = vn_refreshlabel(vp, cred); 1989 if (error) 1990 return (error); 1991 1992 MAC_CHECK(check_vnode_setacl, cred, vp, &vp->v_label, type, acl); 1993 return (error); 1994} 1995 1996int 1997mac_check_vnode_setextattr(struct ucred cred, struct vnode vp, 1998 int attrnamespace, const char name, struct uio uio) 1999{ 2000 int error; 2001 2002 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setextattr"); 2003 2004 if (!mac_enforce_fs) 2005 return (0); 2006 2007 error = vn_refreshlabel(vp, cred); 2008 if (error) 2009 return (error); 2010 2011 MAC_CHECK(check_vnode_setextattr, cred, vp, &vp->v_label, 2012 attrnamespace, name, uio); 2013 return (error); 2014} 2015 2016int 2017mac_check_vnode_setflags(struct ucred cred, struct vnode vp, u_long flags) 2018{ 2019 int error; 2020 2021 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setflags"); 2022 2023 if (!mac_enforce_fs) 2024 return (0); 2025 2026 error = vn_refreshlabel(vp, cred); 2027 if (error) 2028 return (error); 2029 2030 MAC_CHECK(check_vnode_setflags, cred, vp, &vp->v_label, flags); 2031 return (error); 2032} 2033 2034int 2035mac_check_vnode_setmode(struct ucred cred, struct vnode vp, mode_t mode) 2036{ 2037 int error; 2038 2039 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setmode"); 2040 2041 if (!mac_enforce_fs) 2042 return (0); 2043 2044 error = vn_refreshlabel(vp, cred); 2045 if (error) 2046 return (error); 2047 2048 MAC_CHECK(check_vnode_setmode, cred, vp, &vp->v_label, mode); 2049 return (error); 2050} 2051 2052int 2053mac_check_vnode_setowner(struct ucred cred, struct vnode vp, uid_t uid, 2054 gid_t gid) 2055{ 2056 int error; 2057 2058 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setowner"); 2059 2060 if (!mac_enforce_fs) 2061 return (0); 2062 2063 error = vn_refreshlabel(vp, cred); 2064 if (error) 2065 return (error); 2066 2067 MAC_CHECK(check_vnode_setowner, cred, vp, &vp->v_label, uid, gid); 2068 return (error); 2069} 2070 2071int 2072mac_check_vnode_setutimes(struct ucred cred, struct vnode vp, 2073 struct timespec atime, struct timespec mtime) 2074{ 2075 int error; 2076 2077 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_setutimes"); 2078 2079 if (!mac_enforce_fs) 2080 return (0); 2081 2082 error = vn_refreshlabel(vp, cred); 2083 if (error) 2084 return (error); 2085 2086 MAC_CHECK(check_vnode_setutimes, cred, vp, &vp->v_label, atime, 2087 mtime); 2088 return (error); 2089} 2090 2091int 2092mac_check_vnode_stat(struct ucred active_cred, struct ucred file_cred, 2093 struct vnode vp) 2094{ 2095* int error; 2096 2097 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_stat"); 2098 2099 if (!mac_enforce_fs) 2100 return (0); 2101 2102 error = vn_refreshlabel(vp, active_cred); 2103 if (error) 2104 return (error); 2105 2106 MAC_CHECK(check_vnode_stat, active_cred, file_cred, vp, 2107 &vp->v_label); 2108 return (error); 2109} 2110 2111int 2112mac_check_vnode_write(struct ucred active_cred, struct ucred file_cred, 2113 struct vnode vp) 2114{ 2115* int error; 2116 2117 ASSERT_VOP_LOCKED(vp, "mac_check_vnode_write"); 2118 2119 if (!mac_enforce_fs) 2120 return (0); 2121 2122 error = vn_refreshlabel(vp, active_cred); 2123 if (error) 2124 return (error); 2125 2126 MAC_CHECK(check_vnode_write, active_cred, file_cred, vp, 2127 &vp->v_label); 2128 2129 return (error); 2130} 2131 2132/* 2133 * When relabeling a process, call out to the policies for the maximum 2134 * permission allowed for each object type we know about in its 2135 * memory space, and revoke access (in the least surprising ways we 2136 * know) when necessary. The process lock is not held here. 2137 / 2138static void 2139mac_cred_mmapped_drop_perms(struct thread td, struct ucred cred) 2140{ 2141* 2142 /* XXX freeze all other threads / 2143* mac_cred_mmapped_drop_perms_recurse(td, cred, 2144 &td->td_proc->p_vmspace->vm_map); 2145 /* XXX allow other threads to continue / 2146} 2147* 2148static __inline const char * 2149prot2str(vm_prot_t prot) 2150{ 2151 2152 switch (prot & VM_PROT_ALL) { 2153 case VM_PROT_READ: 2154 return ("r--"); 2155 case VM_PROT_READ \| VM_PROT_WRITE: 2156 return ("rw-"); 2157 case VM_PROT_READ \| VM_PROT_EXECUTE: 2158 return ("r-x"); 2159 case VM_PROT_READ \| VM_PROT_WRITE \| VM_PROT_EXECUTE: 2160 return ("rwx"); 2161 case VM_PROT_WRITE: 2162 return ("-w-"); 2163 case VM_PROT_EXECUTE: 2164 return ("--x"); 2165 case VM_PROT_WRITE \| VM_PROT_EXECUTE: 2166 return ("-wx"); 2167 default: 2168 return ("---"); 2169 } 2170} 2171 2172static void 2173mac_cred_mmapped_drop_perms_recurse(struct thread td, struct ucred cred, 2174 struct vm_map map) 2175{ 2176* struct vm_map_entry vme; 2177* vm_prot_t result, revokeperms; 2178 vm_object_t object; 2179 vm_ooffset_t offset; 2180 struct vnode vp; 2181* 2182 if (!mac_mmap_revocation) 2183 return; 2184 2185 vm_map_lock_read(map); 2186 for (vme = map->header.next; vme != &map->header; vme = vme->next) { 2187 if (vme->eflags & MAP_ENTRY_IS_SUB_MAP) { 2188 mac_cred_mmapped_drop_perms_recurse(td, cred, 2189 vme->object.sub_map); 2190 continue; 2191 } 2192 /* 2193 * Skip over entries that obviously are not shared. 2194 / 2195* if (vme->eflags & (MAP_ENTRY_COW \| MAP_ENTRY_NOSYNC) \|\| 2196 !vme->max_protection) 2197 continue; 2198 /* 2199 * Drill down to the deepest backing object. 2200 / 2201* offset = vme->offset; 2202 object = vme->object.vm_object; 2203 if (object == NULL) 2204 continue; 2205 while (object->backing_object != NULL) { 2206 object = object->backing_object; 2207 offset += object->backing_object_offset; 2208 } 2209 /* 2210 * At the moment, vm_maps and objects aren't considered 2211 * by the MAC system, so only things with backing by a 2212 * normal object (read: vnodes) are checked. 2213 / 2214* if (object->type != OBJT_VNODE) 2215 continue; 2216 vp = (struct vnode )object->handle; 2217* vn_lock(vp, LK_EXCLUSIVE \| LK_RETRY, td); 2218 result = mac_check_vnode_mmap_prot(cred, vp, 0); 2219 VOP_UNLOCK(vp, 0, td); 2220 /* 2221 * Find out what maximum protection we may be allowing 2222 * now but a policy needs to get removed. 2223 / 2224* revokeperms = vme->max_protection & ~result; 2225 if (!revokeperms) 2226 continue; 2227 printf("pid %ld: revoking %s perms from %#lx:%ld " 2228 "(max %s/cur %s)\n", (long)td->td_proc->p_pid, 2229 prot2str(revokeperms), (u_long)vme->start, 2230 (long)(vme->end - vme->start), 2231 prot2str(vme->max_protection), prot2str(vme->protection)); 2232 vm_map_lock_upgrade(map); 2233 /* 2234 * This is the really simple case: if a map has more 2235 * max_protection than is allowed, but it's not being 2236 * actually used (that is, the current protection is 2237 * still allowed), we can just wipe it out and do 2238 * nothing more. 2239 / 2240* if ((vme->protection & revokeperms) == 0) { 2241 vme->max_protection -= revokeperms; 2242 } else { 2243 if (revokeperms & VM_PROT_WRITE) { 2244 /* 2245 * In the more complicated case, flush out all 2246 * pending changes to the object then turn it 2247 * copy-on-write. 2248 / 2249* vm_object_reference(object); 2250 vn_lock(vp, LK_EXCLUSIVE \| LK_RETRY, td); 2251 vm_object_page_clean(object, 2252 OFF_TO_IDX(offset), 2253 OFF_TO_IDX(offset + vme->end - vme->start + 2254 PAGE_MASK), 2255 OBJPC_SYNC); 2256 VOP_UNLOCK(vp, 0, td); 2257 vm_object_deallocate(object); 2258 /* 2259 * Why bother if there's no read permissions 2260 * anymore? For the rest, we need to leave 2261 * the write permissions on for COW, or 2262 * remove them entirely if configured to. 2263 / 2264* if (!mac_mmap_revocation_via_cow) { 2265 vme->max_protection &= ~VM_PROT_WRITE; 2266 vme->protection &= ~VM_PROT_WRITE; 2267 } if ((revokeperms & VM_PROT_READ) == 0) 2268 vme->eflags \|= MAP_ENTRY_COW \| 2269 MAP_ENTRY_NEEDS_COPY; 2270 } 2271 if (revokeperms & VM_PROT_EXECUTE) { 2272 vme->max_protection &= ~VM_PROT_EXECUTE; 2273 vme->protection &= ~VM_PROT_EXECUTE; 2274 } 2275 if (revokeperms & VM_PROT_READ) { 2276 vme->max_protection = 0; 2277 vme->protection = 0; 2278 } 2279 pmap_protect(map->pmap, vme->start, vme->end, 2280 vme->protection & ~revokeperms); 2281 vm_map_simplify_entry(map, vme); 2282 } 2283 vm_map_lock_downgrade(map); 2284 } 2285 vm_map_unlock_read(map); 2286} 2287 2288/* 2289 * When the subject's label changes, it may require revocation of privilege 2290 * to mapped objects. This can't be done on-the-fly later with a unified 2291 * buffer cache. 2292 / 2293static void 2294mac_relabel_cred(struct ucred cred, struct label newlabel) 2295{ 2296* 2297 MAC_PERFORM(relabel_cred, cred, newlabel); 2298} 2299 2300void 2301mac_relabel_vnode(struct ucred cred, struct vnode vp, struct label newlabel) 2302{ 2303* 2304 MAC_PERFORM(relabel_vnode, cred, vp, &vp->v_label, newlabel); 2305} 2306 2307void 2308mac_create_ifnet(struct ifnet ifnet) 2309{ 2310* 2311 MAC_PERFORM(create_ifnet, ifnet, &ifnet->if_label); 2312} 2313 2314void 2315mac_create_bpfdesc(struct ucred cred, struct bpf_d bpf_d) 2316{ 2317 2318 MAC_PERFORM(create_bpfdesc, cred, bpf_d, &bpf_d->bd_label); 2319} 2320 2321void 2322mac_create_socket(struct ucred cred, struct socket socket) 2323{ 2324 2325 MAC_PERFORM(create_socket, cred, socket, &socket->so_label); 2326} 2327 2328void 2329mac_create_pipe(struct ucred cred, struct pipe pipe) 2330{ 2331 2332 MAC_PERFORM(create_pipe, cred, pipe, pipe->pipe_label); 2333} 2334 2335void 2336mac_create_socket_from_socket(struct socket oldsocket, 2337* struct socket newsocket) 2338{ 2339* 2340 MAC_PERFORM(create_socket_from_socket, oldsocket, &oldsocket->so_label, 2341 newsocket, &newsocket->so_label); 2342} 2343 2344static void 2345mac_relabel_socket(struct ucred cred, struct socket socket, 2346 struct label newlabel) 2347{ 2348* 2349 MAC_PERFORM(relabel_socket, cred, socket, &socket->so_label, newlabel); 2350} 2351 2352static void 2353mac_relabel_pipe(struct ucred cred, struct pipe pipe, struct label newlabel) 2354{ 2355* 2356 MAC_PERFORM(relabel_pipe, cred, pipe, pipe->pipe_label, newlabel); 2357} 2358 2359void 2360mac_set_socket_peer_from_mbuf(struct mbuf mbuf, struct socket socket) 2361{ 2362 2363 MAC_PERFORM(set_socket_peer_from_mbuf, mbuf, &mbuf->m_pkthdr.label, 2364 socket, &socket->so_peerlabel); 2365} 2366 2367void 2368mac_set_socket_peer_from_socket(struct socket oldsocket, 2369* struct socket newsocket) 2370{ 2371* 2372 MAC_PERFORM(set_socket_peer_from_socket, oldsocket, 2373 &oldsocket->so_label, newsocket, &newsocket->so_peerlabel); 2374} 2375 2376void 2377mac_create_datagram_from_ipq(struct ipq ipq, struct mbuf datagram) 2378{ 2379 2380 MAC_PERFORM(create_datagram_from_ipq, ipq, &ipq->ipq_label, 2381 datagram, &datagram->m_pkthdr.label); 2382} 2383 2384void 2385mac_create_fragment(struct mbuf datagram, struct mbuf fragment) 2386{ 2387 2388 MAC_PERFORM(create_fragment, datagram, &datagram->m_pkthdr.label, 2389 fragment, &fragment->m_pkthdr.label); 2390} 2391 2392void 2393mac_create_ipq(struct mbuf fragment, struct ipq ipq) 2394{ 2395 2396 MAC_PERFORM(create_ipq, fragment, &fragment->m_pkthdr.label, ipq, 2397 &ipq->ipq_label); 2398} 2399 2400void 2401mac_create_mbuf_from_mbuf(struct mbuf oldmbuf, struct mbuf newmbuf) 2402{ 2403 2404 MAC_PERFORM(create_mbuf_from_mbuf, oldmbuf, &oldmbuf->m_pkthdr.label, 2405 newmbuf, &newmbuf->m_pkthdr.label); 2406} 2407 2408void 2409mac_create_mbuf_from_bpfdesc(struct bpf_d bpf_d, struct mbuf mbuf) 2410{ 2411 2412 MAC_PERFORM(create_mbuf_from_bpfdesc, bpf_d, &bpf_d->bd_label, mbuf, 2413 &mbuf->m_pkthdr.label); 2414} 2415 2416void 2417mac_create_mbuf_linklayer(struct ifnet ifnet, struct mbuf mbuf) 2418{ 2419 2420 MAC_PERFORM(create_mbuf_linklayer, ifnet, &ifnet->if_label, mbuf, 2421 &mbuf->m_pkthdr.label); 2422} 2423 2424void 2425mac_create_mbuf_from_ifnet(struct ifnet ifnet, struct mbuf mbuf) 2426{ 2427 2428 MAC_PERFORM(create_mbuf_from_ifnet, ifnet, &ifnet->if_label, mbuf, 2429 &mbuf->m_pkthdr.label); 2430} 2431 2432void 2433mac_create_mbuf_multicast_encap(struct mbuf oldmbuf, struct ifnet ifnet, 2434 struct mbuf newmbuf) 2435{ 2436* 2437 MAC_PERFORM(create_mbuf_multicast_encap, oldmbuf, 2438 &oldmbuf->m_pkthdr.label, ifnet, &ifnet->if_label, newmbuf, 2439 &newmbuf->m_pkthdr.label); 2440} 2441 2442void 2443mac_create_mbuf_netlayer(struct mbuf oldmbuf, struct mbuf newmbuf) 2444{ 2445 2446 MAC_PERFORM(create_mbuf_netlayer, oldmbuf, &oldmbuf->m_pkthdr.label, 2447 newmbuf, &newmbuf->m_pkthdr.label); 2448} 2449 2450int 2451mac_fragment_match(struct mbuf fragment, struct ipq ipq) 2452{ 2453 int result; 2454 2455 result = 1; 2456 MAC_BOOLEAN(fragment_match, &&, fragment, &fragment->m_pkthdr.label, 2457 ipq, &ipq->ipq_label); 2458 2459 return (result); 2460} 2461 2462void 2463mac_update_ipq(struct mbuf fragment, struct ipq ipq) 2464{ 2465 2466 MAC_PERFORM(update_ipq, fragment, &fragment->m_pkthdr.label, ipq, 2467 &ipq->ipq_label); 2468} 2469 2470void 2471mac_create_mbuf_from_socket(struct socket socket, struct mbuf mbuf) 2472{ 2473 2474 MAC_PERFORM(create_mbuf_from_socket, socket, &socket->so_label, mbuf, 2475 &mbuf->m_pkthdr.label); 2476} 2477 2478void 2479mac_create_mount(struct ucred cred, struct mount mp) 2480{ 2481 2482 MAC_PERFORM(create_mount, cred, mp, &mp->mnt_mntlabel, 2483 &mp->mnt_fslabel); 2484} 2485 2486void 2487mac_create_root_mount(struct ucred cred, struct mount mp) 2488{ 2489 2490 MAC_PERFORM(create_root_mount, cred, mp, &mp->mnt_mntlabel, 2491 &mp->mnt_fslabel); 2492} 2493 2494int 2495mac_check_bpfdesc_receive(struct bpf_d bpf_d, struct ifnet ifnet) 2496{ 2497 int error; 2498 2499 if (!mac_enforce_network) 2500 return (0); 2501 2502 MAC_CHECK(check_bpfdesc_receive, bpf_d, &bpf_d->bd_label, ifnet, 2503 &ifnet->if_label); 2504 2505 return (error); 2506} 2507 2508static int 2509mac_check_cred_relabel(struct ucred cred, struct label newlabel) 2510{ 2511 int error; 2512 2513 MAC_CHECK(check_cred_relabel, cred, newlabel); 2514 2515 return (error); 2516} 2517 2518int 2519mac_check_cred_visible(struct ucred u1, struct ucred u2) 2520{ 2521 int error; 2522 2523 if (!mac_enforce_process) 2524 return (0); 2525 2526 MAC_CHECK(check_cred_visible, u1, u2); 2527 2528 return (error); 2529} 2530 2531int 2532mac_check_ifnet_transmit(struct ifnet ifnet, struct mbuf mbuf) 2533{ 2534 int error; 2535 2536 if (!mac_enforce_network) 2537 return (0); 2538 2539 KASSERT(mbuf->m_flags & M_PKTHDR, ("packet has no pkthdr")); 2540 if (!(mbuf->m_pkthdr.label.l_flags & MAC_FLAG_INITIALIZED)) 2541 printf("%s%d: not initialized\n", ifnet->if_name, 2542 ifnet->if_unit); 2543 2544 MAC_CHECK(check_ifnet_transmit, ifnet, &ifnet->if_label, mbuf, 2545 &mbuf->m_pkthdr.label); 2546 2547 return (error); 2548} 2549 2550int 2551mac_check_mount_stat(struct ucred cred, struct mount mount) 2552{ 2553 int error; 2554 2555 if (!mac_enforce_fs) 2556 return (0); 2557 2558 MAC_CHECK(check_mount_stat, cred, mount, &mount->mnt_mntlabel); 2559 2560 return (error); 2561} 2562 2563int 2564mac_check_pipe_ioctl(struct ucred cred, struct pipe pipe, unsigned long cmd, 2565 void data) 2566{ 2567* int error; 2568 2569 MAC_CHECK(check_pipe_ioctl, cred, pipe, pipe->pipe_label, cmd, data); 2570 2571 return (error); 2572} 2573 2574int 2575mac_check_pipe_poll(struct ucred cred, struct pipe pipe) 2576{ 2577 int error; 2578 2579 MAC_CHECK(check_pipe_poll, cred, pipe, pipe->pipe_label); 2580 2581 return (error); 2582} 2583 2584int 2585mac_check_pipe_read(struct ucred cred, struct pipe pipe) 2586{ 2587 int error; 2588 2589 MAC_CHECK(check_pipe_read, cred, pipe, pipe->pipe_label); 2590 2591 return (error); 2592} 2593 2594static int 2595mac_check_pipe_relabel(struct ucred cred, struct pipe pipe, 2596 struct label newlabel) 2597{ 2598* int error; 2599 2600 MAC_CHECK(check_pipe_relabel, cred, pipe, pipe->pipe_label, newlabel); 2601 2602 return (error); 2603} 2604 2605int 2606mac_check_pipe_stat(struct ucred cred, struct pipe pipe) 2607{ 2608 int error; 2609 2610 MAC_CHECK(check_pipe_stat, cred, pipe, pipe->pipe_label); 2611 2612 return (error); 2613} 2614 2615int 2616mac_check_pipe_write(struct ucred cred, struct pipe pipe) 2617{ 2618 int error; 2619 2620 MAC_CHECK(check_pipe_write, cred, pipe, pipe->pipe_label); 2621 2622 return (error); 2623} 2624 2625int 2626mac_check_proc_debug(struct ucred cred, struct proc proc) 2627{ 2628 int error; 2629 2630 PROC_LOCK_ASSERT(proc, MA_OWNED); 2631 2632 if (!mac_enforce_process) 2633 return (0); 2634 2635 MAC_CHECK(check_proc_debug, cred, proc); 2636 2637 return (error); 2638} 2639 2640int 2641mac_check_proc_sched(struct ucred cred, struct proc proc) 2642{ 2643 int error; 2644 2645 PROC_LOCK_ASSERT(proc, MA_OWNED); 2646 2647 if (!mac_enforce_process) 2648 return (0); 2649 2650 MAC_CHECK(check_proc_sched, cred, proc); 2651 2652 return (error); 2653} 2654 2655int 2656mac_check_proc_signal(struct ucred cred, struct proc proc, int signum) 2657{ 2658 int error; 2659 2660 PROC_LOCK_ASSERT(proc, MA_OWNED); 2661 2662 if (!mac_enforce_process) 2663 return (0); 2664 2665 MAC_CHECK(check_proc_signal, cred, proc, signum); 2666 2667 return (error); 2668} 2669 2670int 2671mac_check_socket_bind(struct ucred ucred, struct socket socket, 2672 struct sockaddr sockaddr) 2673{ 2674* int error; 2675 2676 if (!mac_enforce_socket) 2677 return (0); 2678 2679 MAC_CHECK(check_socket_bind, ucred, socket, &socket->so_label, 2680 sockaddr); 2681 2682 return (error); 2683} 2684 2685int 2686mac_check_socket_connect(struct ucred cred, struct socket socket, 2687 struct sockaddr sockaddr) 2688{ 2689* int error; 2690 2691 if (!mac_enforce_socket) 2692 return (0); 2693 2694 MAC_CHECK(check_socket_connect, cred, socket, &socket->so_label, 2695 sockaddr); 2696 2697 return (error); 2698} 2699 2700int 2701mac_check_socket_deliver(struct socket socket, struct mbuf mbuf) 2702{ 2703 int error; 2704 2705 if (!mac_enforce_socket) 2706 return (0); 2707 2708 MAC_CHECK(check_socket_deliver, socket, &socket->so_label, mbuf, 2709 &mbuf->m_pkthdr.label); 2710 2711 return (error); 2712} 2713 2714int 2715mac_check_socket_listen(struct ucred cred, struct socket socket) 2716{ 2717 int error; 2718 2719 if (!mac_enforce_socket) 2720 return (0); 2721 2722 MAC_CHECK(check_socket_listen, cred, socket, &socket->so_label); 2723 return (error); 2724} 2725 2726static int 2727mac_check_socket_relabel(struct ucred cred, struct socket socket, 2728 struct label newlabel) 2729{ 2730* int error; 2731 2732 MAC_CHECK(check_socket_relabel, cred, socket, &socket->so_label, 2733 newlabel); 2734 2735 return (error); 2736} 2737 2738int 2739mac_check_socket_visible(struct ucred cred, struct socket socket) 2740{ 2741 int error; 2742 2743 if (!mac_enforce_socket) 2744 return (0); 2745 2746 MAC_CHECK(check_socket_visible, cred, socket, &socket->so_label); 2747 2748 return (error); 2749} 2750 2751int 2752mac_ioctl_ifnet_get(struct ucred cred, struct ifreq ifr, 2753 struct ifnet ifnet) 2754{ 2755* struct mac label; 2756 int error; 2757 2758 error = mac_externalize(&ifnet->if_label, &label); 2759 if (error) 2760 return (error); 2761 2762 return (copyout(&label, ifr->ifr_ifru.ifru_data, sizeof(label))); 2763} 2764 2765int 2766mac_ioctl_ifnet_set(struct ucred cred, struct ifreq ifr, 2767 struct ifnet ifnet) 2768{ 2769* struct mac newlabel; 2770 struct label intlabel; 2771 int error; 2772 2773 error = copyin(ifr->ifr_ifru.ifru_data, &newlabel, sizeof(newlabel)); 2774 if (error) 2775 return (error); 2776 2777 error = mac_internalize(&intlabel, &newlabel); 2778 if (error) 2779 return (error); 2780 2781 /* 2782 * XXX: Note that this is a redundant privilege check, since 2783 * policies impose this check themselves if required by the 2784 * policy. Eventually, this should go away. 2785 / 2786* error = suser_cred(cred, 0); 2787 if (error) 2788 goto out; 2789 2790 MAC_CHECK(check_ifnet_relabel, cred, ifnet, &ifnet->if_label, 2791 &intlabel); 2792 if (error) 2793 goto out; 2794 2795 MAC_PERFORM(relabel_ifnet, cred, ifnet, &ifnet->if_label, &intlabel); 2796 2797out: 2798 mac_destroy_temp(&intlabel); 2799 return (error); 2800} 2801 2802void 2803mac_create_devfs_vnode(struct devfs_dirent de, struct vnode vp) 2804{ 2805 2806 MAC_PERFORM(create_devfs_vnode, de, &de->de_label, vp, &vp->v_label); 2807} 2808 2809void 2810mac_create_devfs_device(dev_t dev, struct devfs_dirent de) 2811{ 2812* 2813 MAC_PERFORM(create_devfs_device, dev, de, &de->de_label); 2814} 2815 2816static int 2817mac_stdcreatevnode_ea(struct vnode vp) 2818{ 2819* int error; 2820 2821 MAC_CHECK(stdcreatevnode_ea, vp, &vp->v_label); 2822 2823 return (error); 2824} 2825 2826void 2827mac_create_devfs_directory(char dirname, int dirnamelen, 2828* struct devfs_dirent de) 2829{ 2830* 2831 MAC_PERFORM(create_devfs_directory, dirname, dirnamelen, de, 2832 &de->de_label); 2833} 2834 2835/* 2836 * When a new vnode is created, this call will initialize its label. 2837 / 2838void 2839mac_create_vnode(struct ucred cred, struct vnode parent, 2840* struct vnode child) 2841{ 2842* int error; 2843 2844 ASSERT_VOP_LOCKED(parent, "mac_create_vnode"); 2845 ASSERT_VOP_LOCKED(child, "mac_create_vnode"); 2846 2847 error = vn_refreshlabel(parent, cred); 2848 if (error) { 2849 printf("mac_create_vnode: vn_refreshlabel returned %d\n", 2850 error); 2851 printf("mac_create_vnode: using old vnode label\n"); 2852 } 2853 2854 MAC_PERFORM(create_vnode, cred, parent, &parent->v_label, child, 2855 &child->v_label); 2856} 2857 2858int 2859mac_setsockopt_label_set(struct ucred cred, struct socket so, 2860 struct mac extmac) 2861{ 2862* struct label intlabel; 2863 int error; 2864 2865 error = mac_internalize(&intlabel, extmac); 2866 if (error) 2867 return (error); 2868 2869 mac_check_socket_relabel(cred, so, &intlabel); 2870 if (error) { 2871 mac_destroy_temp(&intlabel); 2872 return (error); 2873 } 2874 2875 mac_relabel_socket(cred, so, &intlabel); 2876 2877 mac_destroy_temp(&intlabel); 2878 return (0); 2879} 2880 2881int 2882mac_pipe_label_set(struct ucred cred, struct pipe pipe, struct label label) 2883{ 2884* int error; 2885 2886 error = mac_check_pipe_relabel(cred, pipe, label); 2887 if (error) 2888 return (error); 2889 2890 mac_relabel_pipe(cred, pipe, label); 2891 2892 return (0); 2893} 2894 2895int 2896mac_getsockopt_label_get(struct ucred cred, struct socket so, 2897 struct mac extmac) 2898{ 2899* 2900 return (mac_externalize(&so->so_label, extmac)); 2901} 2902 2903int 2904mac_getsockopt_peerlabel_get(struct ucred cred, struct socket so, 2905 struct mac extmac) 2906{ 2907* 2908 return (mac_externalize(&so->so_peerlabel, extmac)); 2909} 2910 2911/* 2912 * Implementation of VOP_SETLABEL() that relies on extended attributes 2913 * to store label data. Can be referenced by filesystems supporting 2914 * extended attributes. 2915 / 2916int 2917vop_stdsetlabel_ea(struct vop_setlabel_args ap) 2918{ 2919 struct vnode vp = ap->a_vp; 2920* struct label intlabel = ap->a_label; 2921* struct mac extmac; 2922 int error; 2923 2924 ASSERT_VOP_LOCKED(vp, "vop_stdsetlabel_ea"); 2925 2926 /* 2927 * XXX: Eventually call out to EA check/set calls here. 2928 * Be particularly careful to avoid race conditions, 2929 * consistency problems, and stability problems when 2930 * dealing with multiple EAs. In particular, we require 2931 * the ability to write multiple EAs on the same file in 2932 * a single transaction, which the current EA interface 2933 * does not provide. 2934 / 2935* 2936 error = mac_externalize(intlabel, &extmac); 2937 if (error) 2938 return (error); 2939 2940 error = vn_extattr_set(vp, IO_NODELOCKED, 2941 FREEBSD_MAC_EXTATTR_NAMESPACE, FREEBSD_MAC_EXTATTR_NAME, 2942 sizeof(extmac), (char )&extmac, curthread); 2943* if (error) 2944 return (error); 2945 2946 mac_relabel_vnode(ap->a_cred, vp, intlabel); 2947 2948 vp->v_vflag \|= VV_CACHEDLABEL; 2949 2950 return (0); 2951} 2952 2953static int 2954vn_setlabel(struct vnode vp, struct label intlabel, struct ucred cred) 2955{ 2956* int error; 2957 2958 if (vp->v_mount == NULL) { 2959 /* printf("vn_setlabel: null v_mount\n"); / 2960* if (vp->v_type != VNON) 2961 printf("vn_setlabel: null v_mount with non-VNON\n"); 2962 return (EBADF); 2963 } 2964 2965 if ((vp->v_mount->mnt_flag & MNT_MULTILABEL) == 0) 2966 return (EOPNOTSUPP); 2967 2968 /* 2969 * Multi-phase commit. First check the policies to confirm the 2970 * change is OK. Then commit via the filesystem. Finally, 2971 * update the actual vnode label. Question: maybe the filesystem 2972 * should update the vnode at the end as part of VOP_SETLABEL()? 2973 / 2974* error = mac_check_vnode_relabel(cred, vp, intlabel); 2975 if (error) 2976 return (error); 2977 2978 /* 2979 * VADMIN provides the opportunity for the filesystem to make 2980 * decisions about who is and is not able to modify labels 2981 * and protections on files. This might not be right. We can't 2982 * assume VOP_SETLABEL() will do it, because we might implement 2983 * that as part of vop_stdsetlabel_ea(). 2984 / 2985* error = VOP_ACCESS(vp, VADMIN, cred, curthread); 2986 if (error) 2987 return (error); 2988 2989 error = VOP_SETLABEL(vp, intlabel, cred, curthread); 2990 if (error) 2991 return (error); 2992 2993 return (0); 2994} 2995 2996/* 2997 * MPSAFE 2998 / 2999int 3000__mac_get_proc(struct thread td, struct __mac_get_proc_args uap) 3001{ 3002* struct mac extmac; 3003 int error; 3004 3005 error = mac_externalize(&td->td_ucred->cr_label, &extmac); 3006 if (error == 0) 3007 error = copyout(&extmac, SCARG(uap, mac_p), sizeof(extmac)); 3008 3009 return (error); 3010} 3011 3012/* 3013 * MPSAFE 3014 / 3015int 3016__mac_set_proc(struct thread td, struct __mac_set_proc_args uap) 3017{ 3018* struct ucred newcred, oldcred; 3019 struct proc p; 3020* struct mac extmac; 3021 struct label intlabel; 3022 int error; 3023 3024 error = copyin(SCARG(uap, mac_p), &extmac, sizeof(extmac)); 3025 if (error) 3026 return (error); 3027 3028 error = mac_internalize(&intlabel, &extmac); 3029 if (error) 3030 return (error); 3031 3032 newcred = crget(); 3033 3034 p = td->td_proc; 3035 PROC_LOCK(p); 3036 oldcred = p->p_ucred; 3037 3038 error = mac_check_cred_relabel(oldcred, &intlabel); 3039 if (error) { 3040 PROC_UNLOCK(p); 3041 mac_destroy_temp(&intlabel); 3042 crfree(newcred); 3043 return (error); 3044 } 3045 3046 setsugid(p); 3047 crcopy(newcred, oldcred); 3048 mac_relabel_cred(newcred, &intlabel); 3049 p->p_ucred = newcred; 3050 3051 /* 3052 * Grab additional reference for use while revoking mmaps, prior 3053 * to releasing the proc lock and sharing the cred. 3054 / 3055* crhold(newcred); 3056 PROC_UNLOCK(p); 3057 3058 mtx_lock(&Giant); 3059 mac_cred_mmapped_drop_perms(td, newcred); 3060 mtx_unlock(&Giant); 3061 3062 crfree(newcred); /* Free revocation reference. / 3063* crfree(oldcred); 3064 mac_destroy_temp(&intlabel); 3065 return (0); 3066} 3067 3068/* 3069 * MPSAFE 3070 / 3071int 3072__mac_get_fd(struct thread td, struct __mac_get_fd_args uap) 3073{ 3074* struct file fp; 3075* struct mac extmac; 3076 struct vnode vp; 3077* struct pipe pipe; 3078* int error; 3079 3080 mtx_lock(&Giant); 3081 3082 error = fget(td, SCARG(uap, fd), &fp); 3083 if (error) 3084 goto out; 3085 3086 switch (fp->f_type) { 3087 case DTYPE_FIFO: 3088 case DTYPE_VNODE: 3089 vp = (struct vnode )fp->f_data; 3090* 3091 vn_lock(vp, LK_EXCLUSIVE \| LK_RETRY, td); 3092 error = vn_refreshlabel(vp, td->td_ucred); 3093 if (error == 0) 3094 error = mac_externalize(&vp->v_label, &extmac); 3095 VOP_UNLOCK(vp, 0, td); 3096 break; 3097 case DTYPE_PIPE: 3098 pipe = (struct pipe )fp->f_data; 3099* error = mac_externalize(pipe->pipe_label, &extmac); 3100 break; 3101 default: 3102 error = EINVAL; 3103 } 3104 3105 if (error == 0) 3106 error = copyout(&extmac, SCARG(uap, mac_p), sizeof(extmac)); 3107 3108 fdrop(fp, td); 3109 3110out: 3111 mtx_unlock(&Giant); 3112 return (error); 3113} 3114 3115/* 3116 * MPSAFE 3117 / 3118int 3119__mac_get_file(struct thread td, struct __mac_get_file_args uap) 3120{ 3121* struct nameidata nd; 3122 struct mac extmac; 3123 int error; 3124 3125 mtx_lock(&Giant); 3126 NDINIT(&nd, LOOKUP, LOCKLEAF \| FOLLOW, UIO_USERSPACE, 3127 SCARG(uap, path_p), td); 3128 error = namei(&nd); 3129 if (error) 3130 goto out; 3131 3132 error = vn_refreshlabel(nd.ni_vp, td->td_ucred); 3133 if (error == 0) 3134 error = mac_externalize(&nd.ni_vp->v_label, &extmac); 3135 NDFREE(&nd, 0); 3136 if (error) 3137 goto out; 3138 3139 error = copyout(&extmac, SCARG(uap, mac_p), sizeof(extmac)); 3140 3141out: 3142 mtx_unlock(&Giant); 3143 return (error); 3144} 3145 3146/* 3147 * MPSAFE 3148 / 3149int 3150__mac_set_fd(struct thread td, struct __mac_set_fd_args uap) 3151{ 3152* struct file fp; 3153* struct mac extmac; 3154 struct label intlabel; 3155 struct mount mp; 3156* struct vnode vp; 3157* struct pipe pipe; 3158* int error; 3159 3160 mtx_lock(&Giant); 3161 error = fget(td, SCARG(uap, fd), &fp); 3162 if (error) 3163 goto out1; 3164 3165 error = copyin(SCARG(uap, mac_p), &extmac, sizeof(extmac)); 3166 if (error) 3167 goto out2; 3168 3169 error = mac_internalize(&intlabel, &extmac); 3170 if (error) 3171 goto out2; 3172 3173 switch (fp->f_type) { 3174 case DTYPE_FIFO: 3175 case DTYPE_VNODE: 3176 vp = (struct vnode )fp->f_data; 3177* error = vn_start_write(vp, &mp, V_WAIT \| PCATCH); 3178 if (error != 0) 3179 break; 3180 3181 vn_lock(vp, LK_EXCLUSIVE \| LK_RETRY, td); 3182 error = vn_setlabel(vp, &intlabel, td->td_ucred); 3183 VOP_UNLOCK(vp, 0, td); 3184 vn_finished_write(mp); 3185 mac_destroy_temp(&intlabel); 3186 break; 3187 case DTYPE_PIPE: 3188 pipe = (struct pipe )fp->f_data; 3189* error = mac_pipe_label_set(td->td_ucred, pipe, &intlabel); 3190 break; 3191 default: 3192 error = EINVAL; 3193 } 3194 3195out2: 3196 fdrop(fp, td); 3197out1: 3198 mtx_unlock(&Giant); 3199 return (error); 3200} 3201 3202/* 3203 * MPSAFE 3204 / 3205int 3206__mac_set_file(struct thread td, struct __mac_set_file_args uap) 3207{ 3208* struct nameidata nd; 3209 struct mac extmac; 3210 struct label intlabel; 3211 struct mount mp; 3212* int error; 3213 3214 mtx_lock(&Giant); 3215 3216 error = copyin(SCARG(uap, mac_p), &extmac, sizeof(extmac)); 3217 if (error) 3218 goto out; 3219 3220 error = mac_internalize(&intlabel, &extmac); 3221 if (error) 3222 goto out; 3223 3224 NDINIT(&nd, LOOKUP, LOCKLEAF \| FOLLOW, UIO_USERSPACE, 3225 SCARG(uap, path_p), td); 3226 error = namei(&nd); 3227 if (error) 3228 goto out2; 3229 error = vn_start_write(nd.ni_vp, &mp, V_WAIT \| PCATCH); 3230 if (error) 3231 goto out2; 3232 3233 error = vn_setlabel(nd.ni_vp, &intlabel, td->td_ucred); 3234 3235 vn_finished_write(mp); 3236out2: 3237 mac_destroy_temp(&intlabel); 3238 NDFREE(&nd, 0); 3239out: 3240 mtx_unlock(&Giant); 3241 return (error); 3242} 3243 3244int 3245mac_syscall(struct thread td, struct mac_syscall_args uap) 3246{ 3247 struct mac_policy_conf mpc; 3248* char target[MAC_MAX_POLICY_NAME]; 3249 int error; 3250 3251 error = copyinstr(SCARG(uap, policy), target, sizeof(target), NULL); 3252 if (error) 3253 return (error); 3254 3255 error = ENOSYS; 3256 MAC_POLICY_LIST_BUSY(); 3257 LIST_FOREACH(mpc, &mac_policy_list, mpc_list) { 3258 if (strcmp(mpc->mpc_name, target) == 0 && 3259 mpc->mpc_ops->mpo_syscall != NULL) { 3260 error = mpc->mpc_ops->mpo_syscall(td, 3261 SCARG(uap, call), SCARG(uap, arg)); 3262 goto out; 3263 } 3264 } 3265 3266out: 3267 MAC_POLICY_LIST_UNBUSY(); 3268 return (error); 3269} 3270 3271SYSINIT(mac, SI_SUB_MAC, SI_ORDER_FIRST, mac_init, NULL); 3272SYSINIT(mac_late, SI_SUB_MAC_LATE, SI_ORDER_FIRST, mac_late_init, NULL); 3273 3274#else /* !MAC / 3275* 3276int 3277__mac_get_proc(struct thread td, struct __mac_get_proc_args uap) 3278{ 3279 3280 return (ENOSYS); 3281} 3282 3283int 3284__mac_set_proc(struct thread td, struct __mac_set_proc_args uap) 3285{ 3286 3287 return (ENOSYS); 3288} 3289 3290int 3291__mac_get_fd(struct thread td, struct __mac_get_fd_args uap) 3292{ 3293 3294 return (ENOSYS); 3295} 3296 3297int 3298__mac_get_file(struct thread td, struct __mac_get_file_args uap) 3299{ 3300 3301 return (ENOSYS); 3302} 3303 3304int 3305__mac_set_fd(struct thread td, struct __mac_set_fd_args uap) 3306{ 3307 3308 return (ENOSYS); 3309} 3310 3311int 3312__mac_set_file(struct thread td, struct __mac_set_file_args uap) 3313{ 3314 3315 return (ENOSYS); 3316} 3317 3318int 3319mac_syscall(struct thread td, struct mac_syscall_args uap) 3320{ 3321 3322 return (ENOSYS); 3323} 3324 3325#endif /* !MAC */