1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 22 /* 23 * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved. 24 * Copyright 2014 Igor Kozhukhov <ikozhukhov@gmail.com>. 25 * Copyright 2019 Nexenta Systems, Inc. All rights reserved. 26 * Copyright 2020 Joyent, Inc. 27 */ 28 29 #ifndef _SYS_ZONE_H 30 #define _SYS_ZONE_H 31 32 #include <sys/types.h> 33 #include <sys/param.h> 34 #include <sys/tsol/label.h> 35 #include <sys/uadmin.h> 36 #include <netinet/in.h> 37 38 #ifdef _KERNEL 39 /* 40 * Many includes are kernel-only to reduce namespace pollution of 41 * userland applications. 42 */ 43 #include <sys/mutex.h> 44 #include <sys/rctl.h> 45 #include <sys/ipc_rctl.h> 46 #include <sys/pset.h> 47 #include <sys/cred.h> 48 #include <sys/netstack.h> 49 #include <sys/ksynch.h> 50 #include <sys/socket_impl.h> 51 #include <sys/secflags.h> 52 #include <sys/cpu_uarray.h> 53 #include <sys/list.h> 54 #include <sys/loadavg.h> 55 #endif /* _KERNEL */ 56 57 #ifdef __cplusplus 58 extern "C" { 59 #endif 60 61 /* 62 * NOTE 63 * 64 * The contents of this file are private to the implementation of 65 * Solaris and are subject to change at any time without notice. 66 * Applications and drivers using these interfaces may fail to 67 * run on future releases. 68 */ 69 70 /* Available both in kernel and for user space */ 71 72 /* zone id restrictions and special ids */ 73 #define MAX_ZONEID 9999 74 #define MIN_USERZONEID 1 /* lowest user-creatable zone ID */ 75 #define MIN_ZONEID 0 /* minimum zone ID on system */ 76 #define GLOBAL_ZONEID 0 77 #define ZONEID_WIDTH 4 /* for printf */ 78 79 /* 80 * Special zoneid_t token to refer to all zones. 81 */ 82 #define ALL_ZONES (-1) 83 84 /* system call subcodes */ 85 #define ZONE_CREATE 0 86 #define ZONE_DESTROY 1 87 #define ZONE_GETATTR 2 88 #define ZONE_ENTER 3 89 #define ZONE_LIST 4 90 #define ZONE_SHUTDOWN 5 91 #define ZONE_LOOKUP 6 92 #define ZONE_BOOT 7 93 #define ZONE_VERSION 8 94 #define ZONE_SETATTR 9 95 #define ZONE_ADD_DATALINK 10 96 #define ZONE_DEL_DATALINK 11 97 #define ZONE_CHECK_DATALINK 12 98 #define ZONE_LIST_DATALINK 13 99 100 /* zone attributes */ 101 #define ZONE_ATTR_ROOT 1 102 #define ZONE_ATTR_NAME 2 103 #define ZONE_ATTR_STATUS 3 104 #define ZONE_ATTR_PRIVSET 4 105 #define ZONE_ATTR_UNIQID 5 106 #define ZONE_ATTR_POOLID 6 107 #define ZONE_ATTR_INITPID 7 108 #define ZONE_ATTR_SLBL 8 109 #define ZONE_ATTR_INITNAME 9 110 #define ZONE_ATTR_BOOTARGS 10 111 #define ZONE_ATTR_BRAND 11 112 #define ZONE_ATTR_PHYS_MCAP 12 113 #define ZONE_ATTR_SCHED_CLASS 13 114 #define ZONE_ATTR_FLAGS 14 115 #define ZONE_ATTR_HOSTID 15 116 #define ZONE_ATTR_FS_ALLOWED 16 117 #define ZONE_ATTR_NETWORK 17 118 #define ZONE_ATTR_INITNORESTART 20 119 #define ZONE_ATTR_SECFLAGS 21 120 #define ZONE_ATTR_INITRESTART0 22 121 #define ZONE_ATTR_INITREBOOT 23 122 123 /* Start of the brand-specific attribute namespace */ 124 #define ZONE_ATTR_BRAND_ATTRS 32768 125 126 #define ZONE_FS_ALLOWED_MAX 1024 127 128 #define ZONE_EVENT_CHANNEL "com.sun:zones:status" 129 #define ZONE_EVENT_STATUS_CLASS "status" 130 #define ZONE_EVENT_STATUS_SUBCLASS "change" 131 132 #define ZONE_EVENT_UNINITIALIZED "uninitialized" 133 #define ZONE_EVENT_INITIALIZED "initialized" 134 #define ZONE_EVENT_READY "ready" 135 #define ZONE_EVENT_RUNNING "running" 136 #define ZONE_EVENT_SHUTTING_DOWN "shutting_down" 137 138 #define ZONE_CB_NAME "zonename" 139 #define ZONE_CB_NEWSTATE "newstate" 140 #define ZONE_CB_OLDSTATE "oldstate" 141 #define ZONE_CB_TIMESTAMP "when" 142 #define ZONE_CB_ZONEID "zoneid" 143 144 /* 145 * Exit values that may be returned by scripts or programs invoked by various 146 * zone commands. 147 * 148 * These are defined as: 149 * 150 * ZONE_SUBPROC_OK 151 * =============== 152 * The subprocess completed successfully. 153 * 154 * ZONE_SUBPROC_USAGE 155 * ================== 156 * The subprocess failed with a usage message, or a usage message should 157 * be output in its behalf. 158 * 159 * ZONE_SUBPROC_NOTCOMPLETE 160 * ======================== 161 * The subprocess did not complete, but the actions performed by the 162 * subprocess require no recovery actions by the user. 163 * 164 * For example, if the subprocess were called by "zoneadm install," the 165 * installation of the zone did not succeed but the user need not perform 166 * a "zoneadm uninstall" before attempting another install. 167 * 168 * ZONE_SUBPROC_FATAL 169 * ================== 170 * The subprocess failed in a fatal manner, usually one that will require 171 * some type of recovery action by the user. 172 * 173 * For example, if the subprocess were called by "zoneadm install," the 174 * installation of the zone did not succeed and the user will need to 175 * perform a "zoneadm uninstall" before another install attempt is 176 * possible. 177 * 178 * The non-success exit values are large to avoid accidental collision 179 * with values used internally by some commands (e.g. "Z_ERR" and 180 * "Z_USAGE" as used by zoneadm.) 181 */ 182 #define ZONE_SUBPROC_OK 0 183 #define ZONE_SUBPROC_USAGE 253 184 #define ZONE_SUBPROC_NOTCOMPLETE 254 185 #define ZONE_SUBPROC_FATAL 255 186 187 #ifdef _SYSCALL32 188 typedef struct { 189 caddr32_t zone_name; 190 caddr32_t zone_root; 191 caddr32_t zone_privs; 192 size32_t zone_privssz; 193 caddr32_t rctlbuf; 194 size32_t rctlbufsz; 195 caddr32_t extended_error; 196 caddr32_t zfsbuf; 197 size32_t zfsbufsz; 198 int match; /* match level */ 199 uint32_t doi; /* DOI for label */ 200 caddr32_t label; /* label associated with zone */ 201 int flags; 202 } zone_def32; 203 #endif 204 typedef struct { 205 const char *zone_name; 206 const char *zone_root; 207 const struct priv_set *zone_privs; 208 size_t zone_privssz; 209 const char *rctlbuf; 210 size_t rctlbufsz; 211 int *extended_error; 212 const char *zfsbuf; 213 size_t zfsbufsz; 214 int match; /* match level */ 215 uint32_t doi; /* DOI for label */ 216 const bslabel_t *label; /* label associated with zone */ 217 int flags; 218 } zone_def; 219 220 /* extended error information */ 221 #define ZE_UNKNOWN 0 /* No extended error info */ 222 #define ZE_CHROOTED 1 /* tried to zone_create from chroot */ 223 #define ZE_AREMOUNTS 2 /* there are mounts within the zone */ 224 #define ZE_LABELINUSE 3 /* label is already in use by some other zone */ 225 226 /* 227 * zone_status values 228 * 229 * You must modify zone_status_names in mdb(1M)'s genunix module 230 * (genunix/zone.c) when you modify this enum. 231 */ 232 typedef enum { 233 ZONE_IS_UNINITIALIZED = 0, 234 ZONE_IS_INITIALIZED, 235 ZONE_IS_READY, 236 ZONE_IS_BOOTING, 237 ZONE_IS_RUNNING, 238 ZONE_IS_SHUTTING_DOWN, 239 ZONE_IS_EMPTY, 240 ZONE_IS_DOWN, 241 ZONE_IS_DYING, 242 ZONE_IS_DEAD 243 } zone_status_t; 244 #define ZONE_MIN_STATE ZONE_IS_UNINITIALIZED 245 #define ZONE_MAX_STATE ZONE_IS_DEAD 246 247 /* 248 * Valid commands which may be issued by zoneadm to zoneadmd. The kernel also 249 * communicates with zoneadmd, but only uses Z_REBOOT and Z_HALT. 250 */ 251 typedef enum zone_cmd { 252 Z_READY, Z_BOOT, Z_FORCEBOOT, Z_REBOOT, Z_HALT, Z_NOTE_UNINSTALLING, 253 Z_MOUNT, Z_FORCEMOUNT, Z_UNMOUNT, Z_SHUTDOWN 254 } zone_cmd_t; 255 256 /* 257 * The structure of a request to zoneadmd. 258 */ 259 typedef struct zone_cmd_arg { 260 uint64_t uniqid; /* unique "generation number" */ 261 zone_cmd_t cmd; /* requested action */ 262 uint32_t _pad; /* need consistent 32/64 bit alignmt */ 263 char locale[MAXPATHLEN]; /* locale in which to render messages */ 264 char bootbuf[BOOTARGS_MAX]; /* arguments passed to zone_boot() */ 265 } zone_cmd_arg_t; 266 267 /* 268 * Structure of zoneadmd's response to a request. A NULL return value means 269 * the caller should attempt to restart zoneadmd and retry. 270 */ 271 typedef struct zone_cmd_rval { 272 int rval; /* return value of request */ 273 char errbuf[1]; /* variable-sized buffer containing error messages */ 274 } zone_cmd_rval_t; 275 276 /* 277 * The zone support infrastructure uses the zone name as a component 278 * of unix domain (AF_UNIX) sockets, which are limited to 108 characters 279 * in length, so ZONENAME_MAX is limited by that. 280 */ 281 #define ZONENAME_MAX 64 282 283 #define GLOBAL_ZONENAME "global" 284 285 /* 286 * Extended Regular expression (see regex(5)) which matches all valid zone 287 * names. 288 */ 289 #define ZONENAME_REGEXP "[a-zA-Z0-9][-_.a-zA-Z0-9]{0,62}" 290 291 /* 292 * Where the zones support infrastructure places temporary files. 293 */ 294 #define ZONES_TMPDIR "/var/run/zones" 295 296 /* 297 * The path to the door used by clients to communicate with zoneadmd. 298 */ 299 #define ZONE_DOOR_PATH ZONES_TMPDIR "/%s.zoneadmd_door" 300 301 302 /* zone_flags */ 303 /* 304 * Threads that read or write the following flag must hold zone_lock. 305 */ 306 #define ZF_REFCOUNTS_LOGGED 0x1 /* a thread logged the zone's refs */ 307 308 /* 309 * The following threads are set when the zone is created and never changed. 310 * Threads that test for these flags don't have to hold zone_lock. 311 */ 312 #define ZF_HASHED_LABEL 0x2 /* zone has a unique label */ 313 #define ZF_IS_SCRATCH 0x4 /* scratch zone */ 314 #define ZF_NET_EXCL 0x8 /* Zone has an exclusive IP stack */ 315 316 317 /* zone_create flags */ 318 #define ZCF_NET_EXCL 0x1 /* Create a zone with exclusive IP */ 319 320 /* zone network properties */ 321 #define ZONE_NETWORK_ADDRESS 1 322 #define ZONE_NETWORK_DEFROUTER 2 323 324 #define ZONE_NET_ADDRNAME "address" 325 #define ZONE_NET_RTRNAME "route" 326 327 typedef struct zone_net_data { 328 int zn_type; 329 int zn_len; 330 datalink_id_t zn_linkid; 331 uint8_t zn_val[1]; 332 } zone_net_data_t; 333 334 335 #ifdef _KERNEL 336 337 #define GLOBAL_ZONEUNIQID 0 /* uniqid of the global zone */ 338 339 /* 340 * Indexes into ->zone_ustate array, summing the micro state of all threads in a 341 * particular zone. 342 */ 343 #define ZONE_USTATE_STIME (0) 344 #define ZONE_USTATE_UTIME (1) 345 #define ZONE_USTATE_WTIME (2) 346 #define ZONE_USTATE_MAX (3) 347 348 struct pool; 349 struct brand; 350 351 /* 352 * Each of these constants identifies a kernel subsystem that acquires and 353 * releases zone references. Each subsystem that invokes 354 * zone_hold_ref() and zone_rele_ref() should specify the 355 * zone_ref_subsys_t constant associated with the subsystem. Tracked holds 356 * help users and developers quickly identify subsystems that stall zone 357 * shutdowns indefinitely. 358 * 359 * NOTE: You must modify zone_ref_subsys_names in usr/src/uts/common/os/zone.c 360 * when you modify this enumeration. 361 */ 362 typedef enum zone_ref_subsys { 363 ZONE_REF_NFS, /* NFS */ 364 ZONE_REF_NFSV4, /* NFSv4 */ 365 ZONE_REF_SMBFS, /* SMBFS */ 366 ZONE_REF_MNTFS, /* MNTFS */ 367 ZONE_REF_LOFI, /* LOFI devices */ 368 ZONE_REF_VFS, /* VFS infrastructure */ 369 ZONE_REF_IPC, /* IPC infrastructure */ 370 ZONE_REF_NUM_SUBSYS /* This must be the last entry. */ 371 } zone_ref_subsys_t; 372 373 /* 374 * zone_ref represents a general-purpose references to a zone. Each zone's 375 * references are linked into the zone's zone_t::zone_ref_list. This allows 376 * debuggers to walk zones' references. 377 */ 378 typedef struct zone_ref { 379 struct zone *zref_zone; /* the zone to which the reference refers */ 380 list_node_t zref_linkage; /* linkage for zone_t::zone_ref_list */ 381 } zone_ref_t; 382 383 /* 384 * Structure to record list of ZFS datasets exported to a zone. 385 */ 386 typedef struct zone_dataset { 387 char *zd_dataset; 388 list_node_t zd_linkage; 389 } zone_dataset_t; 390 391 /* 392 * structure for zone kstats 393 */ 394 typedef struct zone_kstat { 395 kstat_named_t zk_zonename; 396 kstat_named_t zk_usage; 397 kstat_named_t zk_value; 398 } zone_kstat_t; 399 400 struct cpucap; 401 402 typedef struct { 403 kstat_named_t zm_zonename; 404 kstat_named_t zm_pgpgin; 405 kstat_named_t zm_anonpgin; 406 kstat_named_t zm_execpgin; 407 kstat_named_t zm_fspgin; 408 kstat_named_t zm_anon_alloc_fail; 409 } zone_mcap_kstat_t; 410 411 typedef struct { 412 kstat_named_t zm_zonename; /* full name, kstat truncates name */ 413 kstat_named_t zm_utime; 414 kstat_named_t zm_stime; 415 kstat_named_t zm_wtime; 416 kstat_named_t zm_avenrun1; 417 kstat_named_t zm_avenrun5; 418 kstat_named_t zm_avenrun15; 419 kstat_named_t zm_ffcap; 420 kstat_named_t zm_ffnoproc; 421 kstat_named_t zm_ffnomem; 422 kstat_named_t zm_ffmisc; 423 kstat_named_t zm_nested_intp; 424 kstat_named_t zm_init_pid; 425 kstat_named_t zm_boot_time; 426 } zone_misc_kstat_t; 427 428 typedef struct zone { 429 /* 430 * zone_name is never modified once set. 431 */ 432 char *zone_name; /* zone's configuration name */ 433 /* 434 * zone_nodename and zone_domain are never freed once allocated. 435 */ 436 char *zone_nodename; /* utsname.nodename equivalent */ 437 char *zone_domain; /* srpc_domain equivalent */ 438 /* 439 * zone_hostid is used for per-zone hostid emulation. 440 * Currently it isn't modified after it's set (so no locks protect 441 * accesses), but that might have to change when we allow 442 * administrators to change running zones' properties. 443 * 444 * The global zone's zone_hostid must always be HW_INVALID_HOSTID so 445 * that zone_get_hostid() will function correctly. 446 */ 447 uint32_t zone_hostid; /* zone's hostid, HW_INVALID_HOSTID */ 448 /* if not emulated */ 449 /* 450 * zone_lock protects the following fields of a zone_t: 451 * zone_ref 452 * zone_cred_ref 453 * zone_subsys_ref 454 * zone_ref_list 455 * zone_ntasks 456 * zone_flags 457 * zone_zsd 458 * zone_pfexecd 459 */ 460 kmutex_t zone_lock; 461 /* 462 * zone_linkage is the zone's linkage into the active or 463 * death-row list. The field is protected by zonehash_lock. 464 */ 465 list_node_t zone_linkage; 466 zoneid_t zone_id; /* ID of zone */ 467 uint_t zone_ref; /* count of zone_hold()s on zone */ 468 uint_t zone_cred_ref; /* count of zone_hold_cred()s on zone */ 469 /* 470 * Fixed-sized array of subsystem-specific reference counts 471 * The sum of all of the counts must be less than or equal to zone_ref. 472 * The array is indexed by the counts' subsystems' zone_ref_subsys_t 473 * constants. 474 */ 475 uint_t zone_subsys_ref[ZONE_REF_NUM_SUBSYS]; 476 list_t zone_ref_list; /* list of zone_ref_t structs */ 477 /* 478 * zone_rootvp and zone_rootpath can never be modified once set. 479 */ 480 struct vnode *zone_rootvp; /* zone's root vnode */ 481 char *zone_rootpath; /* Path to zone's root + '/' */ 482 ushort_t zone_flags; /* misc flags */ 483 zone_status_t zone_status; /* protected by zone_status_lock */ 484 uint_t zone_ntasks; /* number of tasks executing in zone */ 485 kmutex_t zone_nlwps_lock; /* protects zone_nlwps, and *_nlwps */ 486 /* counters in projects and tasks */ 487 /* that are within the zone */ 488 rctl_qty_t zone_nlwps; /* number of lwps in zone */ 489 rctl_qty_t zone_nlwps_ctl; /* protected by zone_rctls->rcs_lock */ 490 rctl_qty_t zone_shmmax; /* System V shared memory usage */ 491 ipc_rqty_t zone_ipc; /* System V IPC id resource usage */ 492 493 uint_t zone_rootpathlen; /* strlen(zone_rootpath) + 1 */ 494 uint32_t zone_shares; /* FSS shares allocated to zone */ 495 rctl_set_t *zone_rctls; /* zone-wide (zone.*) rctls */ 496 kmutex_t zone_mem_lock; /* protects zone_locked_mem and */ 497 /* kpd_locked_mem for all */ 498 /* projects in zone. */ 499 /* Also protects zone_max_swap */ 500 /* grab after p_lock, before rcs_lock */ 501 rctl_qty_t zone_locked_mem; /* bytes of locked memory in */ 502 /* zone */ 503 rctl_qty_t zone_locked_mem_ctl; /* Current locked memory */ 504 /* limit. Protected by */ 505 /* zone_rctls->rcs_lock */ 506 rctl_qty_t zone_max_swap; /* bytes of swap reserved by zone */ 507 rctl_qty_t zone_max_swap_ctl; /* current swap limit. */ 508 /* Protected by */ 509 /* zone_rctls->rcs_lock */ 510 kmutex_t zone_rctl_lock; /* protects zone_max_lofi */ 511 rctl_qty_t zone_max_lofi; /* lofi devs for zone */ 512 rctl_qty_t zone_max_lofi_ctl; /* current lofi limit. */ 513 /* Protected by */ 514 /* zone_rctls->rcs_lock */ 515 list_t zone_zsd; /* list of Zone-Specific Data values */ 516 kcondvar_t zone_cv; /* used to signal state changes */ 517 struct proc *zone_zsched; /* Dummy kernel "zsched" process */ 518 pid_t zone_proc_initpid; /* pid of "init" for this zone */ 519 char *zone_initname; /* fs path to 'init' */ 520 int zone_boot_err; /* for zone_boot() if boot fails */ 521 char *zone_bootargs; /* arguments passed via zone_boot() */ 522 uint64_t zone_phys_mcap; /* physical memory cap */ 523 /* 524 * zone_kthreads is protected by zone_status_lock. 525 */ 526 kthread_t *zone_kthreads; /* kernel threads in zone */ 527 struct priv_set *zone_privset; /* limit set for zone */ 528 /* 529 * zone_vfslist is protected by vfs_list_lock(). 530 */ 531 struct vfs *zone_vfslist; /* list of FS's mounted in zone */ 532 uint64_t zone_uniqid; /* unique zone generation number */ 533 struct cred *zone_kcred; /* kcred-like, zone-limited cred */ 534 /* 535 * zone_pool is protected by pool_lock(). 536 */ 537 struct pool *zone_pool; /* pool the zone is bound to */ 538 hrtime_t zone_pool_mod; /* last pool bind modification time */ 539 /* zone_psetid is protected by cpu_lock */ 540 psetid_t zone_psetid; /* pset the zone is bound to */ 541 542 time_t zone_boot_time; /* Similar to boot_time */ 543 544 /* 545 * The following two can be read without holding any locks. They are 546 * updated under cpu_lock. 547 */ 548 int zone_ncpus; /* zone's idea of ncpus */ 549 int zone_ncpus_online; /* zone's idea of ncpus_online */ 550 /* 551 * List of ZFS datasets exported to this zone. 552 */ 553 list_t zone_datasets; /* list of datasets */ 554 555 ts_label_t *zone_slabel; /* zone sensitivity label */ 556 int zone_match; /* require label match for packets */ 557 tsol_mlp_list_t zone_mlps; /* MLPs on zone-private addresses */ 558 559 boolean_t zone_restart_init; /* Restart init if it dies? */ 560 boolean_t zone_reboot_on_init_exit; /* Reboot if init dies? */ 561 boolean_t zone_restart_init_0; /* Restart only if it exits 0 */ 562 struct brand *zone_brand; /* zone's brand */ 563 void *zone_brand_data; /* store brand specific data */ 564 id_t zone_defaultcid; /* dflt scheduling class id */ 565 kstat_t *zone_swapresv_kstat; 566 kstat_t *zone_lockedmem_kstat; 567 /* 568 * zone_dl_list is protected by zone_lock 569 */ 570 list_t zone_dl_list; 571 netstack_t *zone_netstack; 572 struct cpucap *zone_cpucap; /* CPU caps data */ 573 /* 574 * Solaris Auditing per-zone audit context 575 */ 576 struct au_kcontext *zone_audit_kctxt; 577 /* 578 * For private use by mntfs. 579 */ 580 struct mntelem *zone_mntfs_db; 581 krwlock_t zone_mntfs_db_lock; 582 583 struct klpd_reg *zone_pfexecd; 584 585 char *zone_fs_allowed; 586 rctl_qty_t zone_nprocs; /* number of processes in the zone */ 587 rctl_qty_t zone_nprocs_ctl; /* current limit protected by */ 588 /* zone_rctls->rcs_lock */ 589 kstat_t *zone_nprocs_kstat; 590 591 kmutex_t zone_mcap_lock; /* protects mcap statistics */ 592 kstat_t *zone_mcap_ksp; 593 zone_mcap_kstat_t *zone_mcap_stats; 594 uint64_t zone_pgpgin; /* pages paged in */ 595 uint64_t zone_anonpgin; /* anon pages paged in */ 596 uint64_t zone_execpgin; /* exec pages paged in */ 597 uint64_t zone_fspgin; /* fs pages paged in */ 598 uint64_t zone_anon_alloc_fail; /* cnt of anon alloc fails */ 599 600 psecflags_t zone_secflags; /* default zone security-flags */ 601 602 /* 603 * Misc. kstats and counters for zone cpu-usage aggregation. 604 */ 605 kmutex_t zone_misc_lock; /* protects misc statistics */ 606 kstat_t *zone_misc_ksp; 607 zone_misc_kstat_t *zone_misc_stats; 608 /* Accumulated microstate for all threads in this zone. */ 609 cpu_uarray_t *zone_ustate; 610 /* fork-fail kstat tracking */ 611 uint32_t zone_ffcap; /* hit an rctl cap */ 612 uint32_t zone_ffnoproc; /* get proc/lwp error */ 613 uint32_t zone_ffnomem; /* as_dup/memory error */ 614 uint32_t zone_ffmisc; /* misc. other error */ 615 616 uint32_t zone_nested_intp; /* nested interp. kstat */ 617 618 struct loadavg_s zone_loadavg; /* loadavg for this zone */ 619 uint64_t zone_hp_avenrun[3]; /* high-precision avenrun */ 620 int zone_avenrun[3]; /* FSCALED avg. run queue len */ 621 622 /* 623 * FSS stats updated once per second by fss_decay_usage. 624 */ 625 uint32_t zone_fss_gen; /* FSS generation cntr */ 626 uint64_t zone_run_ticks; /* tot # of ticks running */ 627 628 /* 629 * DTrace-private per-zone state 630 */ 631 int zone_dtrace_getf; /* # of unprivileged getf()s */ 632 633 /* 634 * Synchronization primitives used to synchronize between mounts and 635 * zone creation/destruction. 636 */ 637 int zone_mounts_in_progress; 638 kcondvar_t zone_mount_cv; 639 kmutex_t zone_mount_lock; 640 } zone_t; 641 642 /* 643 * Special value of zone_psetid to indicate that pools are disabled. 644 */ 645 #define ZONE_PS_INVAL PS_MYID 646 647 extern zone_t zone0; 648 extern zone_t *global_zone; 649 extern uint_t maxzones; 650 extern rctl_hndl_t rc_zone_nlwps; 651 extern rctl_hndl_t rc_zone_nprocs; 652 653 extern long zone(int, void *, void *, void *, void *); 654 extern void zone_zsd_init(void); 655 extern void zone_init(void); 656 extern void zone_hold(zone_t *); 657 extern void zone_rele(zone_t *); 658 extern void zone_init_ref(zone_ref_t *); 659 extern void zone_hold_ref(zone_t *, zone_ref_t *, zone_ref_subsys_t); 660 extern void zone_rele_ref(zone_ref_t *, zone_ref_subsys_t); 661 extern void zone_cred_hold(zone_t *); 662 extern void zone_cred_rele(zone_t *); 663 extern void zone_task_hold(zone_t *); 664 extern void zone_task_rele(zone_t *); 665 extern zone_t *zone_find_by_id(zoneid_t); 666 extern zone_t *zone_find_by_label(const ts_label_t *); 667 extern zone_t *zone_find_by_name(char *); 668 extern zone_t *zone_find_by_any_path(const char *, boolean_t); 669 extern zone_t *zone_find_by_path(const char *); 670 extern zoneid_t getzoneid(void); 671 extern zone_t *zone_find_by_id_nolock(zoneid_t); 672 extern int zone_datalink_walk(zoneid_t, int (*)(datalink_id_t, void *), void *); 673 extern int zone_check_datalink(zoneid_t *, datalink_id_t); 674 extern void zone_loadavg_update(); 675 676 /* 677 * Zone-specific data (ZSD) APIs 678 */ 679 /* 680 * The following is what code should be initializing its zone_key_t to if it 681 * calls zone_getspecific() without necessarily knowing that zone_key_create() 682 * has been called on the key. 683 */ 684 #define ZONE_KEY_UNINITIALIZED 0 685 686 typedef uint_t zone_key_t; 687 688 extern void zone_key_create(zone_key_t *, void *(*)(zoneid_t), 689 void (*)(zoneid_t, void *), void (*)(zoneid_t, void *)); 690 extern int zone_key_delete(zone_key_t); 691 extern void *zone_getspecific(zone_key_t, zone_t *); 692 extern int zone_setspecific(zone_key_t, zone_t *, const void *); 693 694 /* 695 * The definition of a zsd_entry is truly private to zone.c and is only 696 * placed here so it can be shared with mdb. 697 * 698 * State maintained for each zone times each registered key, which tracks 699 * the state of the create, shutdown and destroy callbacks. 700 * 701 * zsd_flags is used to keep track of pending actions to avoid holding locks 702 * when calling the create/shutdown/destroy callbacks, since doing so 703 * could lead to deadlocks. 704 */ 705 struct zsd_entry { 706 zone_key_t zsd_key; /* Key used to lookup value */ 707 void *zsd_data; /* Caller-managed value */ 708 /* 709 * Callbacks to be executed when a zone is created, shutdown, and 710 * destroyed, respectively. 711 */ 712 void *(*zsd_create)(zoneid_t); 713 void (*zsd_shutdown)(zoneid_t, void *); 714 void (*zsd_destroy)(zoneid_t, void *); 715 list_node_t zsd_linkage; 716 uint16_t zsd_flags; /* See below */ 717 kcondvar_t zsd_cv; 718 }; 719 720 /* 721 * zsd_flags 722 */ 723 #define ZSD_CREATE_NEEDED 0x0001 724 #define ZSD_CREATE_INPROGRESS 0x0002 725 #define ZSD_CREATE_COMPLETED 0x0004 726 #define ZSD_SHUTDOWN_NEEDED 0x0010 727 #define ZSD_SHUTDOWN_INPROGRESS 0x0020 728 #define ZSD_SHUTDOWN_COMPLETED 0x0040 729 #define ZSD_DESTROY_NEEDED 0x0100 730 #define ZSD_DESTROY_INPROGRESS 0x0200 731 #define ZSD_DESTROY_COMPLETED 0x0400 732 733 #define ZSD_CREATE_ALL \ 734 (ZSD_CREATE_NEEDED|ZSD_CREATE_INPROGRESS|ZSD_CREATE_COMPLETED) 735 #define ZSD_SHUTDOWN_ALL \ 736 (ZSD_SHUTDOWN_NEEDED|ZSD_SHUTDOWN_INPROGRESS|ZSD_SHUTDOWN_COMPLETED) 737 #define ZSD_DESTROY_ALL \ 738 (ZSD_DESTROY_NEEDED|ZSD_DESTROY_INPROGRESS|ZSD_DESTROY_COMPLETED) 739 740 #define ZSD_ALL_INPROGRESS \ 741 (ZSD_CREATE_INPROGRESS|ZSD_SHUTDOWN_INPROGRESS|ZSD_DESTROY_INPROGRESS) 742 743 /* 744 * Macros to help with zone visibility restrictions. 745 */ 746 747 /* 748 * Is process in the global zone? 749 */ 750 #define INGLOBALZONE(p) \ 751 ((p)->p_zone == global_zone) 752 753 /* 754 * Can process view objects in given zone? 755 */ 756 #define HASZONEACCESS(p, zoneid) \ 757 ((p)->p_zone->zone_id == (zoneid) || INGLOBALZONE(p)) 758 759 /* 760 * Convenience macro to see if a resolved path is visible from within a 761 * given zone. 762 * 763 * The basic idea is that the first (zone_rootpathlen - 1) bytes of the 764 * two strings must be equal. Since the rootpathlen has a trailing '/', 765 * we want to skip everything in the path up to (but not including) the 766 * trailing '/'. 767 */ 768 #define ZONE_PATH_VISIBLE(path, zone) \ 769 (strncmp((path), (zone)->zone_rootpath, \ 770 (zone)->zone_rootpathlen - 1) == 0) 771 772 /* 773 * Convenience macro to go from the global view of a path to that seen 774 * from within said zone. It is the responsibility of the caller to 775 * ensure that the path is a resolved one (ie, no '..'s or '.'s), and is 776 * in fact visible from within the zone. 777 */ 778 #define ZONE_PATH_TRANSLATE(path, zone) \ 779 (ASSERT(ZONE_PATH_VISIBLE(path, zone)), \ 780 (path) + (zone)->zone_rootpathlen - 2) 781 782 /* 783 * Special processes visible in all zones. 784 */ 785 #define ZONE_SPECIALPID(x) ((x) == 0 || (x) == 1) 786 787 /* 788 * A root vnode of the current zone. 789 * 790 * NOTE: It may be necessary (initialization time for file sharing where an 791 * NGZ loads a file-sharing kernel module that does zsd initialization) to NOT 792 * use this macro. One should ASSERT() that curzone == active ZSD (an 793 * ASSERTion that's not always true at ZSD initialization time) during regular 794 * use of this macro. 795 */ 796 #define ZONE_ROOTVP() (curzone->zone_rootvp) 797 798 /* 799 * Since a zone's root isn't necessarily an actual filesystem boundary 800 * (i.e. VROOT may not be set on zone->zone_rootvp) we need to not assume it. 801 * This macro helps in checking if a vnode is the current zone's rootvp. 802 * NOTE: Using the VN_ prefix, even though it's defined here in zone.h. 803 * NOTE2: See above warning about ZONE_ROOTVP(). 804 */ 805 #define VN_IS_CURZONEROOT(vp) (VN_CMP(vp, ZONE_ROOTVP())) 806 807 /* 808 * Zone-safe version of thread_create() to be used when the caller wants to 809 * create a kernel thread to run within the current zone's context. 810 */ 811 extern kthread_t *zthread_create(caddr_t, size_t, void (*)(), void *, size_t, 812 pri_t); 813 extern void zthread_exit(void); 814 815 /* 816 * Functions for an external observer to register interest in a zone's status 817 * change. Observers will be woken up when the zone status equals the status 818 * argument passed in (in the case of zone_status_timedwait, the function may 819 * also return because of a timeout; zone_status_wait_sig may return early due 820 * to a signal being delivered; zone_status_timedwait_sig may return for any of 821 * the above reasons). 822 * 823 * Otherwise these behave identically to cv_timedwait(), cv_wait(), and 824 * cv_wait_sig() respectively. 825 */ 826 extern clock_t zone_status_timedwait(zone_t *, clock_t, zone_status_t); 827 extern clock_t zone_status_timedwait_sig(zone_t *, clock_t, zone_status_t); 828 extern void zone_status_wait(zone_t *, zone_status_t); 829 extern int zone_status_wait_sig(zone_t *, zone_status_t); 830 831 /* 832 * Get the status of the zone (at the time it was called). The state may 833 * have progressed by the time it is returned. 834 */ 835 extern zone_status_t zone_status_get(zone_t *); 836 837 /* 838 * Safely get the hostid of the specified zone (defaults to machine's hostid 839 * if the specified zone doesn't emulate a hostid). Passing NULL retrieves 840 * the global zone's (i.e., physical system's) hostid. 841 */ 842 extern uint32_t zone_get_hostid(zone_t *); 843 844 /* 845 * Get the "kcred" credentials corresponding to the given zone. 846 */ 847 extern struct cred *zone_get_kcred(zoneid_t); 848 849 /* 850 * Get/set the pool the zone is currently bound to. 851 */ 852 extern struct pool *zone_pool_get(zone_t *); 853 extern void zone_pool_set(zone_t *, struct pool *); 854 855 /* 856 * Get/set the pset the zone is currently using. 857 */ 858 extern psetid_t zone_pset_get(zone_t *); 859 extern void zone_pset_set(zone_t *, psetid_t); 860 861 /* 862 * Get the number of cpus/online-cpus visible from the given zone. 863 */ 864 extern int zone_ncpus_get(zone_t *); 865 extern int zone_ncpus_online_get(zone_t *); 866 867 /* 868 * Returns true if the named pool/dataset is visible in the current zone. 869 */ 870 extern int zone_dataset_visible(const char *, int *); 871 872 /* 873 * zone version of kadmin() 874 */ 875 extern int zone_kadmin(int, int, const char *, cred_t *); 876 extern void zone_shutdown_global(void); 877 878 extern void mount_in_progress(zone_t *); 879 extern void mount_completed(zone_t *); 880 881 extern int zone_walk(int (*)(zone_t *, void *), void *); 882 883 extern rctl_hndl_t rc_zone_locked_mem; 884 extern rctl_hndl_t rc_zone_max_swap; 885 extern rctl_hndl_t rc_zone_max_lofi; 886 887 #endif /* _KERNEL */ 888 889 #ifdef __cplusplus 890 } 891 #endif 892 893 #endif /* _SYS_ZONE_H */ 894