/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.
* Copyright 2015 Joyent, Inc. All rights reserved.
* Copyright 2014 Nexenta Systems, Inc. All rights reserved.
* Copyright 2014 Igor Kozhukhov <ikozhukhov@gmail.com>.
*/
#ifndef _SYS_ZONE_H
#define _SYS_ZONE_H
#include <sys/types.h>
#include <sys/mutex.h>
#include <sys/param.h>
#include <sys/rctl.h>
#include <sys/ipc_rctl.h>
#include <sys/pset.h>
#include <sys/tsol/label.h>
#include <sys/cred.h>
#include <sys/netstack.h>
#include <sys/uadmin.h>
#include <sys/ksynch.h>
#include <sys/socket_impl.h>
#include <sys/secflags.h>
#include <netinet/in.h>
#ifdef __cplusplus
extern "C" {
#endif
/*
* NOTE
*
* The contents of this file are private to the implementation of
* Solaris and are subject to change at any time without notice.
* Applications and drivers using these interfaces may fail to
* run on future releases.
*/
/* Available both in kernel and for user space */
/* zone id restrictions and special ids */
#define MAX_ZONEID 9999
#define MIN_USERZONEID 1 /* lowest user-creatable zone ID */
#define MIN_ZONEID 0 /* minimum zone ID on system */
#define GLOBAL_ZONEID 0
#define ZONEID_WIDTH 4 /* for printf */
/*
* Special zoneid_t token to refer to all zones.
*/
#define ALL_ZONES (-1)
/* system call subcodes */
#define ZONE_CREATE 0
#define ZONE_DESTROY 1
#define ZONE_GETATTR 2
#define ZONE_ENTER 3
#define ZONE_LIST 4
#define ZONE_SHUTDOWN 5
#define ZONE_LOOKUP 6
#define ZONE_BOOT 7
#define ZONE_VERSION 8
#define ZONE_SETATTR 9
#define ZONE_ADD_DATALINK 10
#define ZONE_DEL_DATALINK 11
#define ZONE_CHECK_DATALINK 12
#define ZONE_LIST_DATALINK 13
/* zone attributes */
#define ZONE_ATTR_ROOT 1
#define ZONE_ATTR_NAME 2
#define ZONE_ATTR_STATUS 3
#define ZONE_ATTR_PRIVSET 4
#define ZONE_ATTR_UNIQID 5
#define ZONE_ATTR_POOLID 6
#define ZONE_ATTR_INITPID 7
#define ZONE_ATTR_SLBL 8
#define ZONE_ATTR_INITNAME 9
#define ZONE_ATTR_BOOTARGS 10
#define ZONE_ATTR_BRAND 11
#define ZONE_ATTR_PHYS_MCAP 12
#define ZONE_ATTR_SCHED_CLASS 13
#define ZONE_ATTR_FLAGS 14
#define ZONE_ATTR_HOSTID 15
#define ZONE_ATTR_FS_ALLOWED 16
#define ZONE_ATTR_NETWORK 17
#define ZONE_ATTR_INITNORESTART 20
#define ZONE_ATTR_SECFLAGS 21
/* Start of the brand-specific attribute namespace */
#define ZONE_ATTR_BRAND_ATTRS 32768
#define ZONE_FS_ALLOWED_MAX 1024
#define ZONE_EVENT_CHANNEL "com.sun:zones:status"
#define ZONE_EVENT_STATUS_CLASS "status"
#define ZONE_EVENT_STATUS_SUBCLASS "change"
#define ZONE_EVENT_UNINITIALIZED "uninitialized"
#define ZONE_EVENT_INITIALIZED "initialized"
#define ZONE_EVENT_READY "ready"
#define ZONE_EVENT_RUNNING "running"
#define ZONE_EVENT_SHUTTING_DOWN "shutting_down"
#define ZONE_CB_NAME "zonename"
#define ZONE_CB_NEWSTATE "newstate"
#define ZONE_CB_OLDSTATE "oldstate"
#define ZONE_CB_TIMESTAMP "when"
#define ZONE_CB_ZONEID "zoneid"
/*
* Exit values that may be returned by scripts or programs invoked by various
* zone commands.
*
* These are defined as:
*
* ZONE_SUBPROC_OK
* ===============
* The subprocess completed successfully.
*
* ZONE_SUBPROC_USAGE
* ==================
* The subprocess failed with a usage message, or a usage message should
* be output in its behalf.
*
* ZONE_SUBPROC_NOTCOMPLETE
* ========================
* The subprocess did not complete, but the actions performed by the
* subprocess require no recovery actions by the user.
*
* For example, if the subprocess were called by "zoneadm install," the
* installation of the zone did not succeed but the user need not perform
* a "zoneadm uninstall" before attempting another install.
*
* ZONE_SUBPROC_FATAL
* ==================
* The subprocess failed in a fatal manner, usually one that will require
* some type of recovery action by the user.
*
* For example, if the subprocess were called by "zoneadm install," the
* installation of the zone did not succeed and the user will need to
* perform a "zoneadm uninstall" before another install attempt is
* possible.
*
* The non-success exit values are large to avoid accidental collision
* with values used internally by some commands (e.g. "Z_ERR" and
* "Z_USAGE" as used by zoneadm.)
*/
#define ZONE_SUBPROC_OK 0
#define ZONE_SUBPROC_USAGE 253
#define ZONE_SUBPROC_NOTCOMPLETE 254
#define ZONE_SUBPROC_FATAL 255
#ifdef _SYSCALL32
typedef struct {
caddr32_t zone_name;
caddr32_t zone_root;
caddr32_t zone_privs;
size32_t zone_privssz;
caddr32_t rctlbuf;
size32_t rctlbufsz;
caddr32_t extended_error;
caddr32_t zfsbuf;
size32_t zfsbufsz;
int match; /* match level */
uint32_t doi; /* DOI for label */
caddr32_t label; /* label associated with zone */
int flags;
} zone_def32;
#endif
typedef struct {
const char *zone_name;
const char *zone_root;
const struct priv_set *zone_privs;
size_t zone_privssz;
const char *rctlbuf;
size_t rctlbufsz;
int *extended_error;
const char *zfsbuf;
size_t zfsbufsz;
int match; /* match level */
uint32_t doi; /* DOI for label */
const bslabel_t *label; /* label associated with zone */
int flags;
} zone_def;
/* extended error information */
#define ZE_UNKNOWN 0 /* No extended error info */
#define ZE_CHROOTED 1 /* tried to zone_create from chroot */
#define ZE_AREMOUNTS 2 /* there are mounts within the zone */
#define ZE_LABELINUSE 3 /* label is already in use by some other zone */
/*
* zone_status values
*
* You must modify zone_status_names in mdb(1M)'s genunix module
* (genunix/zone.c) when you modify this enum.
*/
typedef enum {
ZONE_IS_UNINITIALIZED = 0,
ZONE_IS_INITIALIZED,
ZONE_IS_READY,
ZONE_IS_BOOTING,
ZONE_IS_RUNNING,
ZONE_IS_SHUTTING_DOWN,
ZONE_IS_EMPTY,
ZONE_IS_DOWN,
ZONE_IS_DYING,
ZONE_IS_DEAD
} zone_status_t;
#define ZONE_MIN_STATE ZONE_IS_UNINITIALIZED
#define ZONE_MAX_STATE ZONE_IS_DEAD
/*
* Valid commands which may be issued by zoneadm to zoneadmd. The kernel also
* communicates with zoneadmd, but only uses Z_REBOOT and Z_HALT.
*/
typedef enum zone_cmd {
Z_READY, Z_BOOT, Z_FORCEBOOT, Z_REBOOT, Z_HALT, Z_NOTE_UNINSTALLING,
Z_MOUNT, Z_FORCEMOUNT, Z_UNMOUNT, Z_SHUTDOWN
} zone_cmd_t;
/*
* The structure of a request to zoneadmd.
*/
typedef struct zone_cmd_arg {
uint64_t uniqid; /* unique "generation number" */
zone_cmd_t cmd; /* requested action */
uint32_t _pad; /* need consistent 32/64 bit alignmt */
char locale[MAXPATHLEN]; /* locale in which to render messages */
char bootbuf[BOOTARGS_MAX]; /* arguments passed to zone_boot() */
} zone_cmd_arg_t;
/*
* Structure of zoneadmd's response to a request. A NULL return value means
* the caller should attempt to restart zoneadmd and retry.
*/
typedef struct zone_cmd_rval {
int rval; /* return value of request */
char errbuf[1]; /* variable-sized buffer containing error messages */
} zone_cmd_rval_t;
/*
* The zone support infrastructure uses the zone name as a component
* of unix domain (AF_UNIX) sockets, which are limited to 108 characters
* in length, so ZONENAME_MAX is limited by that.
*/
#define ZONENAME_MAX 64
#define GLOBAL_ZONENAME "global"
/*
* Extended Regular expression (see regex(5)) which matches all valid zone
* names.
*/
#define ZONENAME_REGEXP "[a-zA-Z0-9][-_.a-zA-Z0-9]{0,62}"
/*
* Where the zones support infrastructure places temporary files.
*/
#define ZONES_TMPDIR "/var/run/zones"
/*
* The path to the door used by clients to communicate with zoneadmd.
*/
#define ZONE_DOOR_PATH ZONES_TMPDIR "/%s.zoneadmd_door"
/* zone_flags */
/*
* Threads that read or write the following flag must hold zone_lock.
*/
#define ZF_REFCOUNTS_LOGGED 0x1 /* a thread logged the zone's refs */
/*
* The following threads are set when the zone is created and never changed.
* Threads that test for these flags don't have to hold zone_lock.
*/
#define ZF_HASHED_LABEL 0x2 /* zone has a unique label */
#define ZF_IS_SCRATCH 0x4 /* scratch zone */
#define ZF_NET_EXCL 0x8 /* Zone has an exclusive IP stack */
/* zone_create flags */
#define ZCF_NET_EXCL 0x1 /* Create a zone with exclusive IP */
/* zone network properties */
#define ZONE_NETWORK_ADDRESS 1
#define ZONE_NETWORK_DEFROUTER 2
#define ZONE_NET_ADDRNAME "address"
#define ZONE_NET_RTRNAME "route"
typedef struct zone_net_data {
int zn_type;
int zn_len;
datalink_id_t zn_linkid;
uint8_t zn_val[1];
} zone_net_data_t;
#ifdef _KERNEL
/*
* We need to protect the definition of 'list_t' from userland applications and
* libraries which may be defining ther own versions.
*/
#include <sys/list.h>
#include <sys/loadavg.h>
#define GLOBAL_ZONEUNIQID 0 /* uniqid of the global zone */
struct pool;
struct brand;
/*
* Each of these constants identifies a kernel subsystem that acquires and
* releases zone references. Each subsystem that invokes
* zone_hold_ref() and zone_rele_ref() should specify the
* zone_ref_subsys_t constant associated with the subsystem. Tracked holds
* help users and developers quickly identify subsystems that stall zone
* shutdowns indefinitely.
*
* NOTE: You must modify zone_ref_subsys_names in usr/src/uts/common/os/zone.c
* when you modify this enumeration.
*/
typedef enum zone_ref_subsys {
ZONE_REF_NFS, /* NFS */
ZONE_REF_NFSV4, /* NFSv4 */
ZONE_REF_SMBFS, /* SMBFS */
ZONE_REF_MNTFS, /* MNTFS */
ZONE_REF_LOFI, /* LOFI devices */
ZONE_REF_VFS, /* VFS infrastructure */
ZONE_REF_IPC, /* IPC infrastructure */
ZONE_REF_NUM_SUBSYS /* This must be the last entry. */
} zone_ref_subsys_t;
/*
* zone_ref represents a general-purpose references to a zone. Each zone's
* references are linked into the zone's zone_t::zone_ref_list. This allows
* debuggers to walk zones' references.
*/
typedef struct zone_ref {
struct zone *zref_zone; /* the zone to which the reference refers */
list_node_t zref_linkage; /* linkage for zone_t::zone_ref_list */
} zone_ref_t;
/*
* Structure to record list of ZFS datasets exported to a zone.
*/
typedef struct zone_dataset {
char *zd_dataset;
list_node_t zd_linkage;
} zone_dataset_t;
/*
* structure for zone kstats
*/
typedef struct zone_kstat {
kstat_named_t zk_zonename;
kstat_named_t zk_usage;
kstat_named_t zk_value;
} zone_kstat_t;
struct cpucap;
typedef struct {
kstat_named_t zm_zonename;
kstat_named_t zm_pgpgin;
kstat_named_t zm_anonpgin;
kstat_named_t zm_execpgin;
kstat_named_t zm_fspgin;
kstat_named_t zm_anon_alloc_fail;
} zone_mcap_kstat_t;
typedef struct {
kstat_named_t zm_zonename; /* full name, kstat truncates name */
kstat_named_t zm_utime;
kstat_named_t zm_stime;
kstat_named_t zm_wtime;
kstat_named_t zm_avenrun1;
kstat_named_t zm_avenrun5;
kstat_named_t zm_avenrun15;
kstat_named_t zm_ffcap;
kstat_named_t zm_ffnoproc;
kstat_named_t zm_ffnomem;
kstat_named_t zm_ffmisc;
kstat_named_t zm_nested_intp;
kstat_named_t zm_init_pid;
kstat_named_t zm_boot_time;
} zone_misc_kstat_t;
typedef struct zone {
/*
* zone_name is never modified once set.
*/
char *zone_name; /* zone's configuration name */
/*
* zone_nodename and zone_domain are never freed once allocated.
*/
char *zone_nodename; /* utsname.nodename equivalent */
char *zone_domain; /* srpc_domain equivalent */
/*
* zone_hostid is used for per-zone hostid emulation.
* Currently it isn't modified after it's set (so no locks protect
* accesses), but that might have to change when we allow
* administrators to change running zones' properties.
*
* The global zone's zone_hostid must always be HW_INVALID_HOSTID so
* that zone_get_hostid() will function correctly.
*/
uint32_t zone_hostid; /* zone's hostid, HW_INVALID_HOSTID */
/* if not emulated */
/*
* zone_lock protects the following fields of a zone_t:
* zone_ref
* zone_cred_ref
* zone_subsys_ref
* zone_ref_list
* zone_ntasks
* zone_flags
* zone_zsd
* zone_pfexecd
*/
kmutex_t zone_lock;
/*
* zone_linkage is the zone's linkage into the active or
* death-row list. The field is protected by zonehash_lock.
*/
list_node_t zone_linkage;
zoneid_t zone_id; /* ID of zone */
uint_t zone_ref; /* count of zone_hold()s on zone */
uint_t zone_cred_ref; /* count of zone_hold_cred()s on zone */
/*
* Fixed-sized array of subsystem-specific reference counts
* The sum of all of the counts must be less than or equal to zone_ref.
* The array is indexed by the counts' subsystems' zone_ref_subsys_t
* constants.
*/
uint_t zone_subsys_ref[ZONE_REF_NUM_SUBSYS];
list_t zone_ref_list; /* list of zone_ref_t structs */
/*
* zone_rootvp and zone_rootpath can never be modified once set.
*/
struct vnode *zone_rootvp; /* zone's root vnode */
char *zone_rootpath; /* Path to zone's root + '/' */
ushort_t zone_flags; /* misc flags */
zone_status_t zone_status; /* protected by zone_status_lock */
uint_t zone_ntasks; /* number of tasks executing in zone */
kmutex_t zone_nlwps_lock; /* protects zone_nlwps, and *_nlwps */
/* counters in projects and tasks */
/* that are within the zone */
rctl_qty_t zone_nlwps; /* number of lwps in zone */
rctl_qty_t zone_nlwps_ctl; /* protected by zone_rctls->rcs_lock */
rctl_qty_t zone_shmmax; /* System V shared memory usage */
ipc_rqty_t zone_ipc; /* System V IPC id resource usage */
uint_t zone_rootpathlen; /* strlen(zone_rootpath) + 1 */
uint32_t zone_shares; /* FSS shares allocated to zone */
rctl_set_t *zone_rctls; /* zone-wide (zone.*) rctls */
kmutex_t zone_mem_lock; /* protects zone_locked_mem and */
/* kpd_locked_mem for all */
/* projects in zone. */
/* Also protects zone_max_swap */
/* grab after p_lock, before rcs_lock */
rctl_qty_t zone_locked_mem; /* bytes of locked memory in */
/* zone */
rctl_qty_t zone_locked_mem_ctl; /* Current locked memory */
/* limit. Protected by */
/* zone_rctls->rcs_lock */
rctl_qty_t zone_max_swap; /* bytes of swap reserved by zone */
rctl_qty_t zone_max_swap_ctl; /* current swap limit. */
/* Protected by */
/* zone_rctls->rcs_lock */
kmutex_t zone_rctl_lock; /* protects zone_max_lofi */
rctl_qty_t zone_max_lofi; /* lofi devs for zone */
rctl_qty_t zone_max_lofi_ctl; /* current lofi limit. */
/* Protected by */
/* zone_rctls->rcs_lock */
list_t zone_zsd; /* list of Zone-Specific Data values */
kcondvar_t zone_cv; /* used to signal state changes */
struct proc *zone_zsched; /* Dummy kernel "zsched" process */
pid_t zone_proc_initpid; /* pid of "init" for this zone */
char *zone_initname; /* fs path to 'init' */
int zone_boot_err; /* for zone_boot() if boot fails */
char *zone_bootargs; /* arguments passed via zone_boot() */
uint64_t zone_phys_mcap; /* physical memory cap */
/*
* zone_kthreads is protected by zone_status_lock.
*/
kthread_t *zone_kthreads; /* kernel threads in zone */
struct priv_set *zone_privset; /* limit set for zone */
/*
* zone_vfslist is protected by vfs_list_lock().
*/
struct vfs *zone_vfslist; /* list of FS's mounted in zone */
uint64_t zone_uniqid; /* unique zone generation number */
struct cred *zone_kcred; /* kcred-like, zone-limited cred */
/*
* zone_pool is protected by pool_lock().
*/
struct pool *zone_pool; /* pool the zone is bound to */
hrtime_t zone_pool_mod; /* last pool bind modification time */
/* zone_psetid is protected by cpu_lock */
psetid_t zone_psetid; /* pset the zone is bound to */
time_t zone_boot_time; /* Similar to boot_time */
/*
* The following two can be read without holding any locks. They are
* updated under cpu_lock.
*/
int zone_ncpus; /* zone's idea of ncpus */
int zone_ncpus_online; /* zone's idea of ncpus_online */
/*
* List of ZFS datasets exported to this zone.
*/
list_t zone_datasets; /* list of datasets */
ts_label_t *zone_slabel; /* zone sensitivity label */
int zone_match; /* require label match for packets */
tsol_mlp_list_t zone_mlps; /* MLPs on zone-private addresses */
boolean_t zone_restart_init; /* Restart init if it dies? */
struct brand *zone_brand; /* zone's brand */
void *zone_brand_data; /* store brand specific data */
id_t zone_defaultcid; /* dflt scheduling class id */
kstat_t *zone_swapresv_kstat;
kstat_t *zone_lockedmem_kstat;
/*
* zone_dl_list is protected by zone_lock
*/
list_t zone_dl_list;
netstack_t *zone_netstack;
struct cpucap *zone_cpucap; /* CPU caps data */
/*
* Solaris Auditing per-zone audit context
*/
struct au_kcontext *zone_audit_kctxt;
/*
* For private use by mntfs.
*/
struct mntelem *zone_mntfs_db;
krwlock_t zone_mntfs_db_lock;
struct klpd_reg *zone_pfexecd;
char *zone_fs_allowed;
rctl_qty_t zone_nprocs; /* number of processes in the zone */
rctl_qty_t zone_nprocs_ctl; /* current limit protected by */
/* zone_rctls->rcs_lock */
kstat_t *zone_nprocs_kstat;
kmutex_t zone_mcap_lock; /* protects mcap statistics */
kstat_t *zone_mcap_ksp;
zone_mcap_kstat_t *zone_mcap_stats;
uint64_t zone_pgpgin; /* pages paged in */
uint64_t zone_anonpgin; /* anon pages paged in */
uint64_t zone_execpgin; /* exec pages paged in */
uint64_t zone_fspgin; /* fs pages paged in */
uint64_t zone_anon_alloc_fail; /* cnt of anon alloc fails */
psecflags_t zone_secflags; /* default zone security-flags */
/*
* Misc. kstats and counters for zone cpu-usage aggregation.
* The zone_Xtime values are the sum of the micro-state accounting
* values for all threads that are running or have run in the zone.
* This is tracked in msacct.c as threads change state.
* The zone_stime is the sum of the LMS_SYSTEM times.
* The zone_utime is the sum of the LMS_USER times.
* The zone_wtime is the sum of the LMS_WAIT_CPU times.
* As with per-thread micro-state accounting values, these values are
* not scaled to nanosecs. The scaling is done by the
* zone_misc_kstat_update function when kstats are requested.
*/
kmutex_t zone_misc_lock; /* protects misc statistics */
kstat_t *zone_misc_ksp;
zone_misc_kstat_t *zone_misc_stats;
uint64_t zone_stime; /* total system time */
uint64_t zone_utime; /* total user time */
uint64_t zone_wtime; /* total time waiting in runq */
/* fork-fail kstat tracking */
uint32_t zone_ffcap; /* hit an rctl cap */
uint32_t zone_ffnoproc; /* get proc/lwp error */
uint32_t zone_ffnomem; /* as_dup/memory error */
uint32_t zone_ffmisc; /* misc. other error */
uint32_t zone_nested_intp; /* nested interp. kstat */
struct loadavg_s zone_loadavg; /* loadavg for this zone */
uint64_t zone_hp_avenrun[3]; /* high-precision avenrun */
int zone_avenrun[3]; /* FSCALED avg. run queue len */
/*
* FSS stats updated once per second by fss_decay_usage.
*/
uint32_t zone_fss_gen; /* FSS generation cntr */
uint64_t zone_run_ticks; /* tot # of ticks running */
/*
* DTrace-private per-zone state
*/
int zone_dtrace_getf; /* # of unprivileged getf()s */
/*
* Synchronization primitives used to synchronize between mounts and
* zone creation/destruction.
*/
int zone_mounts_in_progress;
kcondvar_t zone_mount_cv;
kmutex_t zone_mount_lock;
} zone_t;
/*
* Special value of zone_psetid to indicate that pools are disabled.
*/
#define ZONE_PS_INVAL PS_MYID
extern zone_t zone0;
extern zone_t *global_zone;
extern uint_t maxzones;
extern rctl_hndl_t rc_zone_nlwps;
extern rctl_hndl_t rc_zone_nprocs;
extern long zone(int, void *, void *, void *, void *);
extern void zone_zsd_init(void);
extern void zone_init(void);
extern void zone_hold(zone_t *);
extern void zone_rele(zone_t *);
extern void zone_init_ref(zone_ref_t *);
extern void zone_hold_ref(zone_t *, zone_ref_t *, zone_ref_subsys_t);
extern void zone_rele_ref(zone_ref_t *, zone_ref_subsys_t);
extern void zone_cred_hold(zone_t *);
extern void zone_cred_rele(zone_t *);
extern void zone_task_hold(zone_t *);
extern void zone_task_rele(zone_t *);
extern zone_t *zone_find_by_id(zoneid_t);
extern zone_t *zone_find_by_label(const ts_label_t *);
extern zone_t *zone_find_by_name(char *);
extern zone_t *zone_find_by_any_path(const char *, boolean_t);
extern zone_t *zone_find_by_path(const char *);
extern zoneid_t getzoneid(void);
extern zone_t *zone_find_by_id_nolock(zoneid_t);
extern int zone_datalink_walk(zoneid_t, int (*)(datalink_id_t, void *), void *);
extern int zone_check_datalink(zoneid_t *, datalink_id_t);
extern void zone_loadavg_update();
/*
* Zone-specific data (ZSD) APIs
*/
/*
* The following is what code should be initializing its zone_key_t to if it
* calls zone_getspecific() without necessarily knowing that zone_key_create()
* has been called on the key.
*/
#define ZONE_KEY_UNINITIALIZED 0
typedef uint_t zone_key_t;
extern void zone_key_create(zone_key_t *, void *(*)(zoneid_t),
void (*)(zoneid_t, void *), void (*)(zoneid_t, void *));
extern int zone_key_delete(zone_key_t);
extern void *zone_getspecific(zone_key_t, zone_t *);
extern int zone_setspecific(zone_key_t, zone_t *, const void *);
/*
* The definition of a zsd_entry is truly private to zone.c and is only
* placed here so it can be shared with mdb.
*
* State maintained for each zone times each registered key, which tracks
* the state of the create, shutdown and destroy callbacks.
*
* zsd_flags is used to keep track of pending actions to avoid holding locks
* when calling the create/shutdown/destroy callbacks, since doing so
* could lead to deadlocks.
*/
struct zsd_entry {
zone_key_t zsd_key; /* Key used to lookup value */
void *zsd_data; /* Caller-managed value */
/*
* Callbacks to be executed when a zone is created, shutdown, and
* destroyed, respectively.
*/
void *(*zsd_create)(zoneid_t);
void (*zsd_shutdown)(zoneid_t, void *);
void (*zsd_destroy)(zoneid_t, void *);
list_node_t zsd_linkage;
uint16_t zsd_flags; /* See below */
kcondvar_t zsd_cv;
};
/*
* zsd_flags
*/
#define ZSD_CREATE_NEEDED 0x0001
#define ZSD_CREATE_INPROGRESS 0x0002
#define ZSD_CREATE_COMPLETED 0x0004
#define ZSD_SHUTDOWN_NEEDED 0x0010
#define ZSD_SHUTDOWN_INPROGRESS 0x0020
#define ZSD_SHUTDOWN_COMPLETED 0x0040
#define ZSD_DESTROY_NEEDED 0x0100
#define ZSD_DESTROY_INPROGRESS 0x0200
#define ZSD_DESTROY_COMPLETED 0x0400
#define ZSD_CREATE_ALL \
(ZSD_CREATE_NEEDED|ZSD_CREATE_INPROGRESS|ZSD_CREATE_COMPLETED)
#define ZSD_SHUTDOWN_ALL \
(ZSD_SHUTDOWN_NEEDED|ZSD_SHUTDOWN_INPROGRESS|ZSD_SHUTDOWN_COMPLETED)
#define ZSD_DESTROY_ALL \
(ZSD_DESTROY_NEEDED|ZSD_DESTROY_INPROGRESS|ZSD_DESTROY_COMPLETED)
#define ZSD_ALL_INPROGRESS \
(ZSD_CREATE_INPROGRESS|ZSD_SHUTDOWN_INPROGRESS|ZSD_DESTROY_INPROGRESS)
/*
* Macros to help with zone visibility restrictions.
*/
/*
* Is process in the global zone?
*/
#define INGLOBALZONE(p) \
((p)->p_zone == global_zone)
/*
* Can process view objects in given zone?
*/
#define HASZONEACCESS(p, zoneid) \
((p)->p_zone->zone_id == (zoneid) || INGLOBALZONE(p))
/*
* Convenience macro to see if a resolved path is visible from within a
* given zone.
*
* The basic idea is that the first (zone_rootpathlen - 1) bytes of the
* two strings must be equal. Since the rootpathlen has a trailing '/',
* we want to skip everything in the path up to (but not including) the
* trailing '/'.
*/
#define ZONE_PATH_VISIBLE(path, zone) \
(strncmp((path), (zone)->zone_rootpath, \
(zone)->zone_rootpathlen - 1) == 0)
/*
* Convenience macro to go from the global view of a path to that seen
* from within said zone. It is the responsibility of the caller to
* ensure that the path is a resolved one (ie, no '..'s or '.'s), and is
* in fact visible from within the zone.
*/
#define ZONE_PATH_TRANSLATE(path, zone) \
(ASSERT(ZONE_PATH_VISIBLE(path, zone)), \
(path) + (zone)->zone_rootpathlen - 2)
/*
* Special processes visible in all zones.
*/
#define ZONE_SPECIALPID(x) ((x) == 0 || (x) == 1)
/*
* Zone-safe version of thread_create() to be used when the caller wants to
* create a kernel thread to run within the current zone's context.
*/
extern kthread_t *zthread_create(caddr_t, size_t, void (*)(), void *, size_t,
pri_t);
extern void zthread_exit(void);
/*
* Functions for an external observer to register interest in a zone's status
* change. Observers will be woken up when the zone status equals the status
* argument passed in (in the case of zone_status_timedwait, the function may
* also return because of a timeout; zone_status_wait_sig may return early due
* to a signal being delivered; zone_status_timedwait_sig may return for any of
* the above reasons).
*
* Otherwise these behave identically to cv_timedwait(), cv_wait(), and
* cv_wait_sig() respectively.
*/
extern clock_t zone_status_timedwait(zone_t *, clock_t, zone_status_t);
extern clock_t zone_status_timedwait_sig(zone_t *, clock_t, zone_status_t);
extern void zone_status_wait(zone_t *, zone_status_t);
extern int zone_status_wait_sig(zone_t *, zone_status_t);
/*
* Get the status of the zone (at the time it was called). The state may
* have progressed by the time it is returned.
*/
extern zone_status_t zone_status_get(zone_t *);
/*
* Safely get the hostid of the specified zone (defaults to machine's hostid
* if the specified zone doesn't emulate a hostid). Passing NULL retrieves
* the global zone's (i.e., physical system's) hostid.
*/
extern uint32_t zone_get_hostid(zone_t *);
/*
* Get the "kcred" credentials corresponding to the given zone.
*/
extern struct cred *zone_get_kcred(zoneid_t);
/*
* Get/set the pool the zone is currently bound to.
*/
extern struct pool *zone_pool_get(zone_t *);
extern void zone_pool_set(zone_t *, struct pool *);
/*
* Get/set the pset the zone is currently using.
*/
extern psetid_t zone_pset_get(zone_t *);
extern void zone_pset_set(zone_t *, psetid_t);
/*
* Get the number of cpus/online-cpus visible from the given zone.
*/
extern int zone_ncpus_get(zone_t *);
extern int zone_ncpus_online_get(zone_t *);
/*
* Returns true if the named pool/dataset is visible in the current zone.
*/
extern int zone_dataset_visible(const char *, int *);
/*
* zone version of kadmin()
*/
extern int zone_kadmin(int, int, const char *, cred_t *);
extern void zone_shutdown_global(void);
extern void mount_in_progress(zone_t *);
extern void mount_completed(zone_t *);
extern int zone_walk(int (*)(zone_t *, void *), void *);
extern rctl_hndl_t rc_zone_locked_mem;
extern rctl_hndl_t rc_zone_max_swap;
extern rctl_hndl_t rc_zone_max_lofi;
#endif /* _KERNEL */
#ifdef __cplusplus
}
#endif
#endif /* _SYS_ZONE_H */