2 * Copyright (c) 2000-2007 Apple Inc. All rights reserved.
4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
29 * Implementation of SVID messages
31 * Author: Daniel Boulet
33 * Copyright 1993 Daniel Boulet and RTMX Inc.
35 * This system call was implemented by Daniel Boulet under contract from RTMX.
37 * Redistribution and use in source forms, with and without modification,
38 * are permitted provided that this entire comment appears intact.
40 * Redistribution in binary form may occur without any restrictions.
41 * Obviously, it would be nice if you gave credit where credit is due
42 * but requiring it would be too onerous.
44 * This software is provided ``AS IS'' without any warranties of any kind.
47 * NOTICE: This file was modified by SPARTA, Inc. in 2005 to introduce
48 * support for mandatory and extensible security protections. This notice
49 * is included in support of clause 2.2 (b) of the Apple Public License,
53 #include <sys/param.h>
54 #include <sys/systm.h>
55 #include <sys/kernel.h>
56 #include <sys/proc_internal.h>
57 #include <sys/kauth.h>
59 #include <sys/malloc.h>
60 #include <mach/mach_types.h>
62 #include <security/audit/audit.h>
64 #include <sys/filedesc.h>
65 #include <sys/file_internal.h>
66 #include <sys/sysctl.h>
67 #include <sys/sysproto.h>
72 static int msginit(void *);
77 /* Uncomment this line to see MAC debugging output. */
78 /* #define MAC_DEBUG */
80 #define MPRINTF(a) printf(a)
84 static void msg_freehdr(struct msg
*msghdr
);
86 typedef int sy_call_t(struct proc
*, void *, int *);
88 /* XXX casting to (sy_call_t *) is bogus, as usual. */
89 static sy_call_t
*msgcalls
[] = {
90 (sy_call_t
*)msgctl
, (sy_call_t
*)msgget
,
91 (sy_call_t
*)msgsnd
, (sy_call_t
*)msgrcv
94 static int nfree_msgmaps
; /* # of free map entries */
95 static short free_msgmaps
; /* free map entries list head */
96 static struct msg
*free_msghdrs
; /* list of free msg headers */
97 char *msgpool
; /* MSGMAX byte long msg buffer pool */
98 struct msgmap
*msgmaps
; /* MSGSEG msgmap structures */
99 struct msg
*msghdrs
; /* MSGTQL msg headers */
100 struct msqid_kernel
*msqids
; /* MSGMNI msqid_kernel structs (wrapping user_msqid_ds structs) */
102 static lck_grp_t
*sysv_msg_subsys_lck_grp
;
103 static lck_grp_attr_t
*sysv_msg_subsys_lck_grp_attr
;
104 static lck_attr_t
*sysv_msg_subsys_lck_attr
;
105 static lck_mtx_t sysv_msg_subsys_mutex
;
107 #define SYSV_MSG_SUBSYS_LOCK() lck_mtx_lock(&sysv_msg_subsys_mutex)
108 #define SYSV_MSG_SUBSYS_UNLOCK() lck_mtx_unlock(&sysv_msg_subsys_mutex)
110 void sysv_msg_lock_init(void);
113 #ifdef __APPLE_API_PRIVATE
114 int msgmax
, /* max chars in a message */
115 msgmni
, /* max message queue identifiers */
116 msgmnb
, /* max chars in a queue */
117 msgtql
, /* max messages in system */
118 msgssz
, /* size of a message segment (see notes above) */
119 msgseg
; /* number of message segments */
120 struct msginfo msginfo
= {
121 MSGMAX
, /* = (MSGSSZ*MSGSEG) : max chars in a message */
122 MSGMNI
, /* = 40 : max message queue identifiers */
123 MSGMNB
, /* = 2048 : max chars in a queue */
124 MSGTQL
, /* = 40 : max messages in system */
125 MSGSSZ
, /* = 8 : size of a message segment (2^N long) */
126 MSGSEG
/* = 2048 : number of message segments */
128 #endif /* __APPLE_API_PRIVATE */
130 /* Initialize the mutex governing access to the SysV msg subsystem */
131 __private_extern__
void
132 sysv_msg_lock_init( void )
134 sysv_msg_subsys_lck_grp_attr
= lck_grp_attr_alloc_init();
136 sysv_msg_subsys_lck_grp
= lck_grp_alloc_init("sysv_msg_subsys_lock", sysv_msg_subsys_lck_grp_attr
);
138 sysv_msg_subsys_lck_attr
= lck_attr_alloc_init();
139 lck_mtx_init(&sysv_msg_subsys_mutex
, sysv_msg_subsys_lck_grp
, sysv_msg_subsys_lck_attr
);
142 static __inline__ user_time_t
151 * NOTE: Source and target may *NOT* overlap! (target is smaller)
154 msqid_ds_kerneltouser32(struct user_msqid_ds
*in
, struct user32_msqid_ds
*out
)
156 out
->msg_perm
= in
->msg_perm
;
157 out
->msg_qnum
= in
->msg_qnum
;
158 out
->msg_cbytes
= in
->msg_cbytes
; /* for ipcs */
159 out
->msg_qbytes
= in
->msg_qbytes
;
160 out
->msg_lspid
= in
->msg_lspid
;
161 out
->msg_lrpid
= in
->msg_lrpid
;
162 out
->msg_stime
= in
->msg_stime
; /* XXX loss of range */
163 out
->msg_rtime
= in
->msg_rtime
; /* XXX loss of range */
164 out
->msg_ctime
= in
->msg_ctime
; /* XXX loss of range */
168 msqid_ds_kerneltouser64(struct user_msqid_ds
*in
, struct user64_msqid_ds
*out
)
170 out
->msg_perm
= in
->msg_perm
;
171 out
->msg_qnum
= in
->msg_qnum
;
172 out
->msg_cbytes
= in
->msg_cbytes
; /* for ipcs */
173 out
->msg_qbytes
= in
->msg_qbytes
;
174 out
->msg_lspid
= in
->msg_lspid
;
175 out
->msg_lrpid
= in
->msg_lrpid
;
176 out
->msg_stime
= in
->msg_stime
; /* XXX loss of range */
177 out
->msg_rtime
= in
->msg_rtime
; /* XXX loss of range */
178 out
->msg_ctime
= in
->msg_ctime
; /* XXX loss of range */
182 * NOTE: Source and target may are permitted to overlap! (source is smaller);
183 * this works because we copy fields in order from the end of the struct to
187 msqid_ds_user32tokernel(struct user32_msqid_ds
*in
, struct user_msqid_ds
*out
)
189 out
->msg_ctime
= in
->msg_ctime
;
190 out
->msg_rtime
= in
->msg_rtime
;
191 out
->msg_stime
= in
->msg_stime
;
192 out
->msg_lrpid
= in
->msg_lrpid
;
193 out
->msg_lspid
= in
->msg_lspid
;
194 out
->msg_qbytes
= in
->msg_qbytes
;
195 out
->msg_cbytes
= in
->msg_cbytes
; /* for ipcs */
196 out
->msg_qnum
= in
->msg_qnum
;
197 out
->msg_perm
= in
->msg_perm
;
201 msqid_ds_user64tokernel(struct user64_msqid_ds
*in
, struct user_msqid_ds
*out
)
203 out
->msg_ctime
= in
->msg_ctime
;
204 out
->msg_rtime
= in
->msg_rtime
;
205 out
->msg_stime
= in
->msg_stime
;
206 out
->msg_lrpid
= in
->msg_lrpid
;
207 out
->msg_lspid
= in
->msg_lspid
;
208 out
->msg_qbytes
= in
->msg_qbytes
;
209 out
->msg_cbytes
= in
->msg_cbytes
; /* for ipcs */
210 out
->msg_qnum
= in
->msg_qnum
;
211 out
->msg_perm
= in
->msg_perm
;
214 /* This routine assumes the system is locked prior to calling this routine */
216 msginit(__unused
void *dummy
)
218 static int initted
= 0;
221 /* Lazy initialization on first system call; we don't have SYSINIT(). */
226 * msginfo.msgssz should be a power of two for efficiency reasons.
227 * It is also pretty silly if msginfo.msgssz is less than 8
228 * or greater than about 256 so ...
231 while (i
< 1024 && i
!= msginfo
.msgssz
)
233 if (i
!= msginfo
.msgssz
) {
234 printf("msginfo.msgssz=%d (0x%x) not a small power of 2; resetting to %d\n", msginfo
.msgssz
, msginfo
.msgssz
, MSGSSZ
);
235 msginfo
.msgssz
= MSGSSZ
;
238 if (msginfo
.msgseg
> 32767) {
239 printf("msginfo.msgseg=%d (> 32767); resetting to %d\n", msginfo
.msgseg
, MSGSEG
);
240 msginfo
.msgseg
= MSGSEG
;
245 * Allocate memory for message pool, maps, headers, and queue IDs;
246 * if this fails, fail safely and leave it uninitialized (related
247 * system calls will fail).
249 msgpool
= (char *)_MALLOC(msginfo
.msgmax
, M_SHM
, M_WAITOK
);
250 if (msgpool
== NULL
) {
251 printf("msginit: can't allocate msgpool");
254 MALLOC(msgmaps
, struct msgmap
*,
255 sizeof(struct msgmap
) * msginfo
.msgseg
,
257 if (msgmaps
== NULL
) {
258 printf("msginit: can't allocate msgmaps");
262 MALLOC(msghdrs
, struct msg
*,
263 sizeof(struct msg
) * msginfo
.msgtql
,
265 if (msghdrs
== NULL
) {
266 printf("msginit: can't allocate msghdrs");
270 MALLOC(msqids
, struct msqid_kernel
*,
271 sizeof(struct user_msqid_ds
) * msginfo
.msgmni
,
273 if (msqids
== NULL
) {
274 printf("msginit: can't allocate msqids");
280 for (i
= 0; i
< msginfo
.msgseg
; i
++) {
282 msgmaps
[i
-1].next
= i
;
283 msgmaps
[i
].next
= -1; /* implies entry is available */
286 nfree_msgmaps
= msginfo
.msgseg
;
290 for (i
= 0; i
< msginfo
.msgtql
; i
++) {
291 msghdrs
[i
].msg_type
= 0;
293 msghdrs
[i
-1].msg_next
= &msghdrs
[i
];
294 msghdrs
[i
].msg_next
= NULL
;
296 mac_sysvmsg_label_init(&msghdrs
[i
]);
299 free_msghdrs
= &msghdrs
[0];
302 for (i
= 0; i
< msginfo
.msgmni
; i
++) {
303 msqids
[i
].u
.msg_qbytes
= 0; /* implies entry is available */
304 msqids
[i
].u
.msg_perm
._seq
= 0; /* reset to a known value */
305 msqids
[i
].u
.msg_perm
.mode
= 0;
307 mac_sysvmsq_label_init(&msqids
[i
]);
315 _FREE(msgpool
, M_SHM
);
317 FREE(msgmaps
, M_SHM
);
319 FREE(msghdrs
, M_SHM
);
329 * Entry point for all MSG calls: msgctl, msgget, msgsnd, msgrcv
331 * Parameters: p Process requesting the call
332 * uap User argument descriptor (see below)
333 * retval Return value of the selected msg call
335 * Indirect parameters: uap->which msg call to invoke (index in array of msg calls)
336 * uap->a2 User argument descriptor
341 * Implicit returns: retval Return value of the selected msg call
343 * DEPRECATED: This interface should not be used to call the other MSG
344 * functions (msgctl, msgget, msgsnd, msgrcv). The correct
345 * usage is to call the other MSG functions directly.
349 msgsys(struct proc
*p
, struct msgsys_args
*uap
, int32_t *retval
)
351 if (uap
->which
>= sizeof(msgcalls
)/sizeof(msgcalls
[0]))
353 return ((*msgcalls
[uap
->which
])(p
, &uap
->a2
, retval
));
357 msg_freehdr(struct msg
*msghdr
)
359 while (msghdr
->msg_ts
> 0) {
361 if (msghdr
->msg_spot
< 0 || msghdr
->msg_spot
>= msginfo
.msgseg
)
362 panic("msghdr->msg_spot out of range");
363 next
= msgmaps
[msghdr
->msg_spot
].next
;
364 msgmaps
[msghdr
->msg_spot
].next
= free_msgmaps
;
365 free_msgmaps
= msghdr
->msg_spot
;
367 msghdr
->msg_spot
= next
;
368 if (msghdr
->msg_ts
>= msginfo
.msgssz
)
369 msghdr
->msg_ts
-= msginfo
.msgssz
;
373 if (msghdr
->msg_spot
!= -1)
374 panic("msghdr->msg_spot != -1");
375 msghdr
->msg_next
= free_msghdrs
;
376 free_msghdrs
= msghdr
;
378 mac_sysvmsg_label_recycle(msghdr
);
381 * Notify waiters that there are free message headers and segments
384 wakeup((caddr_t
)&free_msghdrs
);
388 msgctl(struct proc
*p
, struct msgctl_args
*uap
, int32_t *retval
)
390 int msqid
= uap
->msqid
;
392 kauth_cred_t cred
= kauth_cred_get();
394 struct user_msqid_ds msqbuf
;
395 struct msqid_kernel
*msqptr
;
397 SYSV_MSG_SUBSYS_LOCK();
405 printf("call to msgctl(%d, %d, 0x%qx)\n", msqid
, cmd
, uap
->buf
);
408 AUDIT_ARG(svipc_cmd
, cmd
);
409 AUDIT_ARG(svipc_id
, msqid
);
410 msqid
= IPCID_TO_IX(msqid
);
412 if (msqid
< 0 || msqid
>= msginfo
.msgmni
) {
414 printf("msqid (%d) out of range (0<=msqid<%d)\n", msqid
,
421 msqptr
= &msqids
[msqid
];
423 if (msqptr
->u
.msg_qbytes
== 0) {
425 printf("no such msqid\n");
430 if (msqptr
->u
.msg_perm
._seq
!= IPCID_TO_SEQ(uap
->msqid
)) {
432 printf("wrong sequence number\n");
438 eval
= mac_sysvmsq_check_msqctl(kauth_cred_get(), msqptr
, cmd
);
451 if ((eval
= ipcperm(cred
, &msqptr
->u
.msg_perm
, IPC_M
)))
455 * Check that the thread has MAC access permissions to
456 * individual msghdrs. Note: We need to do this in a
457 * separate loop because the actual loop alters the
458 * msq/msghdr info as it progresses, and there is no going
459 * back if half the way through we discover that the
460 * thread cannot free a certain msghdr. The msq will get
461 * into an inconsistent state.
463 for (msghdr
= msqptr
->u
.msg_first
; msghdr
!= NULL
;
464 msghdr
= msghdr
->msg_next
) {
465 eval
= mac_sysvmsq_check_msgrmid(kauth_cred_get(), msghdr
);
470 /* Free the message headers */
471 msghdr
= msqptr
->u
.msg_first
;
472 while (msghdr
!= NULL
) {
473 struct msg
*msghdr_tmp
;
475 /* Free the segments of each message */
476 msqptr
->u
.msg_cbytes
-= msghdr
->msg_ts
;
477 msqptr
->u
.msg_qnum
--;
479 msghdr
= msghdr
->msg_next
;
480 msg_freehdr(msghdr_tmp
);
483 if (msqptr
->u
.msg_cbytes
!= 0)
484 panic("msg_cbytes is messed up");
485 if (msqptr
->u
.msg_qnum
!= 0)
486 panic("msg_qnum is messed up");
488 msqptr
->u
.msg_qbytes
= 0; /* Mark it as free */
490 mac_sysvmsq_label_recycle(msqptr
);
493 wakeup((caddr_t
)msqptr
);
499 if ((eval
= ipcperm(cred
, &msqptr
->u
.msg_perm
, IPC_M
)))
502 SYSV_MSG_SUBSYS_UNLOCK();
504 if (IS_64BIT_PROCESS(p
)) {
505 struct user64_msqid_ds tmpds
;
506 eval
= copyin(uap
->buf
, &tmpds
, sizeof(tmpds
));
508 msqid_ds_user64tokernel(&tmpds
, &msqbuf
);
510 struct user32_msqid_ds tmpds
;
512 eval
= copyin(uap
->buf
, &tmpds
, sizeof(tmpds
));
514 msqid_ds_user32tokernel(&tmpds
, &msqbuf
);
519 SYSV_MSG_SUBSYS_LOCK();
521 if (msqbuf
.msg_qbytes
> msqptr
->u
.msg_qbytes
) {
522 eval
= suser(cred
, &p
->p_acflag
);
528 /* compare (msglen_t) value against restrict (int) value */
529 if (msqbuf
.msg_qbytes
> (user_msglen_t
)msginfo
.msgmnb
) {
531 printf("can't increase msg_qbytes beyond %d (truncating)\n",
534 msqbuf
.msg_qbytes
= msginfo
.msgmnb
; /* silently restrict qbytes to system limit */
536 if (msqbuf
.msg_qbytes
== 0) {
538 printf("can't reduce msg_qbytes to 0\n");
543 msqptr
->u
.msg_perm
.uid
= msqbuf
.msg_perm
.uid
; /* change the owner */
544 msqptr
->u
.msg_perm
.gid
= msqbuf
.msg_perm
.gid
; /* change the owner */
545 msqptr
->u
.msg_perm
.mode
= (msqptr
->u
.msg_perm
.mode
& ~0777) |
546 (msqbuf
.msg_perm
.mode
& 0777);
547 msqptr
->u
.msg_qbytes
= msqbuf
.msg_qbytes
;
548 msqptr
->u
.msg_ctime
= sysv_msgtime();
552 if ((eval
= ipcperm(cred
, &msqptr
->u
.msg_perm
, IPC_R
))) {
554 printf("requester doesn't have read access\n");
559 SYSV_MSG_SUBSYS_UNLOCK();
560 if (IS_64BIT_PROCESS(p
)) {
561 struct user64_msqid_ds msqid_ds64
;
562 msqid_ds_kerneltouser64(&msqptr
->u
, &msqid_ds64
);
563 eval
= copyout(&msqid_ds64
, uap
->buf
, sizeof(msqid_ds64
));
565 struct user32_msqid_ds msqid_ds32
;
566 msqid_ds_kerneltouser32(&msqptr
->u
, &msqid_ds32
);
567 eval
= copyout(&msqid_ds32
, uap
->buf
, sizeof(msqid_ds32
));
569 SYSV_MSG_SUBSYS_LOCK();
574 printf("invalid command %d\n", cmd
);
583 SYSV_MSG_SUBSYS_UNLOCK();
588 msgget(__unused
struct proc
*p
, struct msgget_args
*uap
, int32_t *retval
)
592 int msgflg
= uap
->msgflg
;
593 kauth_cred_t cred
= kauth_cred_get();
594 struct msqid_kernel
*msqptr
= NULL
;
596 SYSV_MSG_SUBSYS_LOCK();
604 printf("msgget(0x%x, 0%o)\n", key
, msgflg
);
607 if (key
!= IPC_PRIVATE
) {
608 for (msqid
= 0; msqid
< msginfo
.msgmni
; msqid
++) {
609 msqptr
= &msqids
[msqid
];
610 if (msqptr
->u
.msg_qbytes
!= 0 &&
611 msqptr
->u
.msg_perm
._key
== key
)
614 if (msqid
< msginfo
.msgmni
) {
616 printf("found public key\n");
618 if ((msgflg
& IPC_CREAT
) && (msgflg
& IPC_EXCL
)) {
620 printf("not exclusive\n");
625 if ((eval
= ipcperm(cred
, &msqptr
->u
.msg_perm
, msgflg
& 0700 ))) {
627 printf("requester doesn't have 0%o access\n",
633 eval
= mac_sysvmsq_check_msqget(cred
, msqptr
);
642 printf("need to allocate the user_msqid_ds\n");
644 if (key
== IPC_PRIVATE
|| (msgflg
& IPC_CREAT
)) {
645 for (msqid
= 0; msqid
< msginfo
.msgmni
; msqid
++) {
647 * Look for an unallocated and unlocked user_msqid_ds.
648 * user_msqid_ds's can be locked by msgsnd or msgrcv
649 * while they are copying the message in/out. We
650 * can't re-use the entry until they release it.
652 msqptr
= &msqids
[msqid
];
653 if (msqptr
->u
.msg_qbytes
== 0 &&
654 (msqptr
->u
.msg_perm
.mode
& MSG_LOCKED
) == 0)
657 if (msqid
== msginfo
.msgmni
) {
659 printf("no more user_msqid_ds's available\n");
665 printf("msqid %d is available\n", msqid
);
667 msqptr
->u
.msg_perm
._key
= key
;
668 msqptr
->u
.msg_perm
.cuid
= kauth_cred_getuid(cred
);
669 msqptr
->u
.msg_perm
.uid
= kauth_cred_getuid(cred
);
670 msqptr
->u
.msg_perm
.cgid
= kauth_cred_getgid(cred
);
671 msqptr
->u
.msg_perm
.gid
= kauth_cred_getgid(cred
);
672 msqptr
->u
.msg_perm
.mode
= (msgflg
& 0777);
673 /* Make sure that the returned msqid is unique */
674 msqptr
->u
.msg_perm
._seq
++;
675 msqptr
->u
.msg_first
= NULL
;
676 msqptr
->u
.msg_last
= NULL
;
677 msqptr
->u
.msg_cbytes
= 0;
678 msqptr
->u
.msg_qnum
= 0;
679 msqptr
->u
.msg_qbytes
= msginfo
.msgmnb
;
680 msqptr
->u
.msg_lspid
= 0;
681 msqptr
->u
.msg_lrpid
= 0;
682 msqptr
->u
.msg_stime
= 0;
683 msqptr
->u
.msg_rtime
= 0;
684 msqptr
->u
.msg_ctime
= sysv_msgtime();
686 mac_sysvmsq_label_associate(cred
, msqptr
);
690 printf("didn't find it and wasn't asked to create it\n");
697 /* Construct the unique msqid */
698 *retval
= IXSEQ_TO_IPCID(msqid
, msqptr
->u
.msg_perm
);
699 AUDIT_ARG(svipc_id
, *retval
);
702 SYSV_MSG_SUBSYS_UNLOCK();
708 msgsnd(struct proc
*p
, struct msgsnd_args
*uap
, int32_t *retval
)
710 __pthread_testcancel(1);
711 return(msgsnd_nocancel(p
, (struct msgsnd_nocancel_args
*)uap
, retval
));
715 msgsnd_nocancel(struct proc
*p
, struct msgsnd_nocancel_args
*uap
, int32_t *retval
)
717 int msqid
= uap
->msqid
;
718 user_addr_t user_msgp
= uap
->msgp
;
719 size_t msgsz
= (size_t)uap
->msgsz
; /* limit to 4G */
720 int msgflg
= uap
->msgflg
;
721 int segs_needed
, eval
;
722 struct msqid_kernel
*msqptr
;
728 SYSV_MSG_SUBSYS_LOCK();
736 printf("call to msgsnd(%d, 0x%qx, %ld, %d)\n", msqid
, user_msgp
, msgsz
,
740 AUDIT_ARG(svipc_id
, msqid
);
741 msqid
= IPCID_TO_IX(msqid
);
743 if (msqid
< 0 || msqid
>= msginfo
.msgmni
) {
745 printf("msqid (%d) out of range (0<=msqid<%d)\n", msqid
,
752 msqptr
= &msqids
[msqid
];
753 if (msqptr
->u
.msg_qbytes
== 0) {
755 printf("no such message queue id\n");
760 if (msqptr
->u
.msg_perm
._seq
!= IPCID_TO_SEQ(uap
->msqid
)) {
762 printf("wrong sequence number\n");
768 if ((eval
= ipcperm(kauth_cred_get(), &msqptr
->u
.msg_perm
, IPC_W
))) {
770 printf("requester doesn't have write access\n");
776 eval
= mac_sysvmsq_check_msqsnd(kauth_cred_get(), msqptr
);
780 segs_needed
= (msgsz
+ msginfo
.msgssz
- 1) / msginfo
.msgssz
;
782 printf("msgsz=%ld, msgssz=%d, segs_needed=%d\n", msgsz
, msginfo
.msgssz
,
787 * If we suffer resource starvation, we will sleep in this loop and
788 * wait for more resources to become available. This is a loop to
789 * ensure reacquisition of the mutex following any sleep, since there
790 * are multiple resources under contention.
793 void *blocking_resource
= NULL
;
796 * Check that we have not had the maximum message size change
797 * out from under us and render our message invalid while we
798 * slept waiting for some resource.
800 if (msgsz
> msqptr
->u
.msg_qbytes
) {
802 printf("msgsz > msqptr->msg_qbytes\n");
809 * If the user_msqid_ds is already locked, we need to sleep on
810 * the queue until it's unlocked.
812 if (msqptr
->u
.msg_perm
.mode
& MSG_LOCKED
) {
814 printf("msqid is locked\n");
816 blocking_resource
= msqptr
;
820 * If our message plus the messages already in the queue would
821 * cause us to exceed the maximum number of bytes wer are
822 * permitted to queue, then block on the queue until it drains.
824 if (msgsz
+ msqptr
->u
.msg_cbytes
> msqptr
->u
.msg_qbytes
) {
826 printf("msgsz + msg_cbytes > msg_qbytes\n");
828 blocking_resource
= msqptr
;
832 * Both message maps and message headers are protected by
833 * sleeping on the address of the pointer to the list of free
834 * message headers, since they are allocated and freed in
837 if (segs_needed
> nfree_msgmaps
) {
839 printf("segs_needed > nfree_msgmaps\n");
841 blocking_resource
= &free_msghdrs
;
843 if (free_msghdrs
== NULL
) {
845 printf("no more msghdrs\n");
847 blocking_resource
= &free_msghdrs
;
850 if (blocking_resource
!= NULL
) {
853 if ((msgflg
& IPC_NOWAIT
) != 0) {
855 printf("need more resources but caller doesn't want to wait\n");
861 if ((msqptr
->u
.msg_perm
.mode
& MSG_LOCKED
) != 0) {
863 printf("we don't own the user_msqid_ds\n");
867 /* Force later arrivals to wait for our
870 printf("we own the user_msqid_ds\n");
872 msqptr
->u
.msg_perm
.mode
|= MSG_LOCKED
;
876 printf("goodnight\n");
878 eval
= msleep(blocking_resource
, &sysv_msg_subsys_mutex
, (PZERO
- 4) | PCATCH
,
881 printf("good morning, eval=%d\n", eval
);
884 msqptr
->u
.msg_perm
.mode
&= ~MSG_LOCKED
;
887 printf("msgsnd: interrupted system call\n");
894 * Make sure that the msq queue still exists
897 if (msqptr
->u
.msg_qbytes
== 0) {
899 printf("msqid deleted\n");
908 printf("got all the resources that we need\n");
915 * We have the resources that we need.
919 if (msqptr
->u
.msg_perm
.mode
& MSG_LOCKED
)
920 panic("msg_perm.mode & MSG_LOCKED");
921 if (segs_needed
> nfree_msgmaps
)
922 panic("segs_needed > nfree_msgmaps");
923 if (msgsz
+ msqptr
->u
.msg_cbytes
> msqptr
->u
.msg_qbytes
)
924 panic("msgsz + msg_cbytes > msg_qbytes");
925 if (free_msghdrs
== NULL
)
926 panic("no more msghdrs");
929 * Re-lock the user_msqid_ds in case we page-fault when copying in
932 if ((msqptr
->u
.msg_perm
.mode
& MSG_LOCKED
) != 0)
933 panic("user_msqid_ds is already locked");
934 msqptr
->u
.msg_perm
.mode
|= MSG_LOCKED
;
937 * Allocate a message header
939 msghdr
= free_msghdrs
;
940 free_msghdrs
= msghdr
->msg_next
;
941 msghdr
->msg_spot
= -1;
942 msghdr
->msg_ts
= msgsz
;
945 mac_sysvmsg_label_associate(kauth_cred_get(), msqptr
, msghdr
);
948 * Allocate space for the message
951 while (segs_needed
> 0) {
952 if (nfree_msgmaps
<= 0)
953 panic("not enough msgmaps");
954 if (free_msgmaps
== -1)
955 panic("nil free_msgmaps");
958 panic("next too low #1");
959 if (next
>= msginfo
.msgseg
)
960 panic("next out of range #1");
962 printf("allocating segment %d to message\n", next
);
964 free_msgmaps
= msgmaps
[next
].next
;
966 msgmaps
[next
].next
= msghdr
->msg_spot
;
967 msghdr
->msg_spot
= next
;
972 * Copy in the message type. For a 64 bit process, this is 64 bits,
973 * but we only ever use the low 32 bits, so the cast is OK.
975 if (IS_64BIT_PROCESS(p
)) {
976 SYSV_MSG_SUBSYS_UNLOCK();
977 eval
= copyin(user_msgp
, &msgtype
, sizeof(msgtype
));
978 SYSV_MSG_SUBSYS_LOCK();
979 msghdr
->msg_type
= CAST_DOWN(long,msgtype
);
980 user_msgp
= user_msgp
+ sizeof(msgtype
); /* ptr math */
982 SYSV_MSG_SUBSYS_UNLOCK();
984 eval
= copyin(user_msgp
, &msg_type32
, sizeof(msg_type32
));
985 msghdr
->msg_type
= msg_type32
;
986 SYSV_MSG_SUBSYS_LOCK();
987 user_msgp
= user_msgp
+ sizeof(msg_type32
); /* ptr math */
992 printf("error %d copying the message type\n", eval
);
995 msqptr
->u
.msg_perm
.mode
&= ~MSG_LOCKED
;
996 wakeup((caddr_t
)msqptr
);
1002 * Validate the message type
1004 if (msghdr
->msg_type
< 1) {
1005 msg_freehdr(msghdr
);
1006 msqptr
->u
.msg_perm
.mode
&= ~MSG_LOCKED
;
1007 wakeup((caddr_t
)msqptr
);
1009 printf("mtype (%ld) < 1\n", msghdr
->msg_type
);
1016 * Copy in the message body
1018 next
= msghdr
->msg_spot
;
1021 /* compare input (size_t) value against restrict (int) value */
1022 if (msgsz
> (size_t)msginfo
.msgssz
)
1023 tlen
= msginfo
.msgssz
;
1027 panic("next too low #2");
1028 if (next
>= msginfo
.msgseg
)
1029 panic("next out of range #2");
1031 SYSV_MSG_SUBSYS_UNLOCK();
1032 eval
= copyin(user_msgp
, &msgpool
[next
* msginfo
.msgssz
], tlen
);
1033 SYSV_MSG_SUBSYS_LOCK();
1037 printf("error %d copying in message segment\n", eval
);
1039 msg_freehdr(msghdr
);
1040 msqptr
->u
.msg_perm
.mode
&= ~MSG_LOCKED
;
1041 wakeup((caddr_t
)msqptr
);
1046 user_msgp
= user_msgp
+ tlen
; /* ptr math */
1047 next
= msgmaps
[next
].next
;
1050 panic("didn't use all the msg segments");
1053 * We've got the message. Unlock the user_msqid_ds.
1056 msqptr
->u
.msg_perm
.mode
&= ~MSG_LOCKED
;
1059 * Make sure that the user_msqid_ds is still allocated.
1062 if (msqptr
->u
.msg_qbytes
== 0) {
1063 msg_freehdr(msghdr
);
1064 wakeup((caddr_t
)msqptr
);
1065 /* The SVID says to return EIDRM. */
1069 /* Unfortunately, BSD doesn't define that code yet! */
1077 * Note: Since the task/thread allocates the msghdr and usually
1078 * primes it with its own MAC label, for a majority of policies, it
1079 * won't be necessary to check whether the msghdr has access
1080 * permissions to the msgq. The mac_sysvmsq_check_msqsnd check would
1081 * suffice in that case. However, this hook may be required where
1082 * individual policies derive a non-identical label for the msghdr
1083 * from the current thread label and may want to check the msghdr
1084 * enqueue permissions, along with read/write permissions to the
1087 eval
= mac_sysvmsq_check_enqueue(kauth_cred_get(), msghdr
, msqptr
);
1089 msg_freehdr(msghdr
);
1090 wakeup((caddr_t
) msqptr
);
1095 * Put the message into the queue
1098 if (msqptr
->u
.msg_first
== NULL
) {
1099 msqptr
->u
.msg_first
= msghdr
;
1100 msqptr
->u
.msg_last
= msghdr
;
1102 msqptr
->u
.msg_last
->msg_next
= msghdr
;
1103 msqptr
->u
.msg_last
= msghdr
;
1105 msqptr
->u
.msg_last
->msg_next
= NULL
;
1107 msqptr
->u
.msg_cbytes
+= msghdr
->msg_ts
;
1108 msqptr
->u
.msg_qnum
++;
1109 msqptr
->u
.msg_lspid
= p
->p_pid
;
1110 msqptr
->u
.msg_stime
= sysv_msgtime();
1112 wakeup((caddr_t
)msqptr
);
1117 SYSV_MSG_SUBSYS_UNLOCK();
1123 msgrcv(struct proc
*p
, struct msgrcv_args
*uap
, user_ssize_t
*retval
)
1125 __pthread_testcancel(1);
1126 return(msgrcv_nocancel(p
, (struct msgrcv_nocancel_args
*)uap
, retval
));
1130 msgrcv_nocancel(struct proc
*p
, struct msgrcv_nocancel_args
*uap
, user_ssize_t
*retval
)
1132 int msqid
= uap
->msqid
;
1133 user_addr_t user_msgp
= uap
->msgp
;
1134 size_t msgsz
= (size_t)uap
->msgsz
; /* limit to 4G */
1135 long msgtyp
= (long)uap
->msgtyp
; /* limit to 32 bits */
1136 int msgflg
= uap
->msgflg
;
1138 struct msqid_kernel
*msqptr
;
1142 user_long_t msgtype
;
1145 SYSV_MSG_SUBSYS_LOCK();
1153 printf("call to msgrcv(%d, 0x%qx, %ld, %ld, %d)\n", msqid
, user_msgp
,
1154 msgsz
, msgtyp
, msgflg
);
1157 AUDIT_ARG(svipc_id
, msqid
);
1158 msqid
= IPCID_TO_IX(msqid
);
1160 if (msqid
< 0 || msqid
>= msginfo
.msgmni
) {
1162 printf("msqid (%d) out of range (0<=msqid<%d)\n", msqid
,
1169 msqptr
= &msqids
[msqid
];
1170 if (msqptr
->u
.msg_qbytes
== 0) {
1172 printf("no such message queue id\n");
1177 if (msqptr
->u
.msg_perm
._seq
!= IPCID_TO_SEQ(uap
->msqid
)) {
1179 printf("wrong sequence number\n");
1185 if ((eval
= ipcperm(kauth_cred_get(), &msqptr
->u
.msg_perm
, IPC_R
))) {
1187 printf("requester doesn't have read access\n");
1193 eval
= mac_sysvmsq_check_msqrcv(kauth_cred_get(), msqptr
);
1198 while (msghdr
== NULL
) {
1200 msghdr
= msqptr
->u
.msg_first
;
1201 if (msghdr
!= NULL
) {
1202 if (msgsz
< msghdr
->msg_ts
&&
1203 (msgflg
& MSG_NOERROR
) == 0) {
1205 printf("first message on the queue is too big (want %ld, got %d)\n",
1206 msgsz
, msghdr
->msg_ts
);
1212 eval
= mac_sysvmsq_check_msgrcv(kauth_cred_get(),
1217 if (msqptr
->u
.msg_first
== msqptr
->u
.msg_last
) {
1218 msqptr
->u
.msg_first
= NULL
;
1219 msqptr
->u
.msg_last
= NULL
;
1221 msqptr
->u
.msg_first
= msghdr
->msg_next
;
1222 if (msqptr
->u
.msg_first
== NULL
)
1223 panic("msg_first/last messed up #1");
1227 struct msg
*previous
;
1231 prev
= &(msqptr
->u
.msg_first
);
1232 while ((msghdr
= *prev
) != NULL
) {
1234 * Is this message's type an exact match or is
1235 * this message's type less than or equal to
1236 * the absolute value of a negative msgtyp?
1237 * Note that the second half of this test can
1238 * NEVER be true if msgtyp is positive since
1239 * msg_type is always positive!
1242 if (msgtyp
== msghdr
->msg_type
||
1243 msghdr
->msg_type
<= -msgtyp
) {
1245 printf("found message type %ld, requested %ld\n",
1246 msghdr
->msg_type
, msgtyp
);
1248 if (msgsz
< msghdr
->msg_ts
&&
1249 (msgflg
& MSG_NOERROR
) == 0) {
1251 printf("requested message on the queue is too big (want %ld, got %d)\n",
1252 msgsz
, msghdr
->msg_ts
);
1258 eval
= mac_sysvmsq_check_msgrcv(
1259 kauth_cred_get(), msghdr
);
1263 *prev
= msghdr
->msg_next
;
1264 if (msghdr
== msqptr
->u
.msg_last
) {
1265 if (previous
== NULL
) {
1267 &msqptr
->u
.msg_first
)
1268 panic("msg_first/last messed up #2");
1269 msqptr
->u
.msg_first
=
1271 msqptr
->u
.msg_last
=
1275 &msqptr
->u
.msg_first
)
1276 panic("msg_first/last messed up #3");
1277 msqptr
->u
.msg_last
=
1284 prev
= &(msghdr
->msg_next
);
1289 * We've either extracted the msghdr for the appropriate
1290 * message or there isn't one.
1291 * If there is one then bail out of this loop.
1298 * Hmph! No message found. Does the user want to wait?
1301 if ((msgflg
& IPC_NOWAIT
) != 0) {
1303 printf("no appropriate message found (msgtyp=%ld)\n",
1306 /* The SVID says to return ENOMSG. */
1310 /* Unfortunately, BSD doesn't define that code yet! */
1317 * Wait for something to happen
1321 printf("msgrcv: goodnight\n");
1323 eval
= msleep((caddr_t
)msqptr
, &sysv_msg_subsys_mutex
, (PZERO
- 4) | PCATCH
, "msgwait",
1326 printf("msgrcv: good morning (eval=%d)\n", eval
);
1331 printf("msgsnd: interrupted system call\n");
1338 * Make sure that the msq queue still exists
1341 if (msqptr
->u
.msg_qbytes
== 0 ||
1342 msqptr
->u
.msg_perm
._seq
!= IPCID_TO_SEQ(uap
->msqid
)) {
1344 printf("msqid deleted\n");
1346 /* The SVID says to return EIDRM. */
1350 /* Unfortunately, BSD doesn't define that code yet! */
1358 * Return the message to the user.
1360 * First, do the bookkeeping (before we risk being interrupted).
1363 msqptr
->u
.msg_cbytes
-= msghdr
->msg_ts
;
1364 msqptr
->u
.msg_qnum
--;
1365 msqptr
->u
.msg_lrpid
= p
->p_pid
;
1366 msqptr
->u
.msg_rtime
= sysv_msgtime();
1369 * Make msgsz the actual amount that we'll be returning.
1370 * Note that this effectively truncates the message if it is too long
1371 * (since msgsz is never increased).
1375 printf("found a message, msgsz=%ld, msg_ts=%d\n", msgsz
,
1378 if (msgsz
> msghdr
->msg_ts
)
1379 msgsz
= msghdr
->msg_ts
;
1382 * Return the type to the user.
1386 * Copy out the message type. For a 64 bit process, this is 64 bits,
1387 * but we only ever use the low 32 bits, so the cast is OK.
1389 if (IS_64BIT_PROCESS(p
)) {
1390 msgtype
= msghdr
->msg_type
;
1391 SYSV_MSG_SUBSYS_UNLOCK();
1392 eval
= copyout(&msgtype
, user_msgp
, sizeof(msgtype
));
1393 SYSV_MSG_SUBSYS_LOCK();
1394 user_msgp
= user_msgp
+ sizeof(msgtype
); /* ptr math */
1396 msg_type32
= msghdr
->msg_type
;
1397 SYSV_MSG_SUBSYS_UNLOCK();
1398 eval
= copyout(&msg_type32
, user_msgp
, sizeof(msg_type32
));
1399 SYSV_MSG_SUBSYS_LOCK();
1400 user_msgp
= user_msgp
+ sizeof(msg_type32
); /* ptr math */
1405 printf("error (%d) copying out message type\n", eval
);
1407 msg_freehdr(msghdr
);
1408 wakeup((caddr_t
)msqptr
);
1415 * Return the segments to the user
1418 next
= msghdr
->msg_spot
;
1419 for (len
= 0; len
< msgsz
; len
+= msginfo
.msgssz
) {
1422 /* compare input (size_t) value against restrict (int) value */
1423 if (msgsz
> (size_t)msginfo
.msgssz
)
1424 tlen
= msginfo
.msgssz
;
1428 panic("next too low #3");
1429 if (next
>= msginfo
.msgseg
)
1430 panic("next out of range #3");
1431 SYSV_MSG_SUBSYS_UNLOCK();
1432 eval
= copyout(&msgpool
[next
* msginfo
.msgssz
],
1434 SYSV_MSG_SUBSYS_LOCK();
1437 printf("error (%d) copying out message segment\n",
1440 msg_freehdr(msghdr
);
1441 wakeup((caddr_t
)msqptr
);
1444 user_msgp
= user_msgp
+ tlen
; /* ptr math */
1445 next
= msgmaps
[next
].next
;
1449 * Done, return the actual number of bytes copied out.
1452 msg_freehdr(msghdr
);
1453 wakeup((caddr_t
)msqptr
);
1457 SYSV_MSG_SUBSYS_UNLOCK();
1462 IPCS_msg_sysctl(__unused
struct sysctl_oid
*oidp
, __unused
void *arg1
,
1463 __unused
int arg2
, struct sysctl_req
*req
)
1468 struct user32_IPCS_command u32
;
1469 struct user_IPCS_command u64
;
1471 struct user32_msqid_ds msqid_ds32
; /* post conversion, 32 bit version */
1472 struct user64_msqid_ds msqid_ds64
; /* post conversion, 64 bit version */
1476 struct proc
*p
= current_proc();
1478 if (IS_64BIT_PROCESS(p
)) {
1479 ipcs_sz
= sizeof(struct user_IPCS_command
);
1480 msqid_ds_sz
= sizeof(struct user64_msqid_ds
);
1482 ipcs_sz
= sizeof(struct user32_IPCS_command
);
1483 msqid_ds_sz
= sizeof(struct user32_msqid_ds
);
1486 /* Copy in the command structure */
1487 if ((error
= SYSCTL_IN(req
, &ipcs
, ipcs_sz
)) != 0) {
1491 if (!IS_64BIT_PROCESS(p
)) /* convert in place */
1492 ipcs
.u64
.ipcs_data
= CAST_USER_ADDR_T(ipcs
.u32
.ipcs_data
);
1494 /* Let us version this interface... */
1495 if (ipcs
.u64
.ipcs_magic
!= IPCS_MAGIC
) {
1499 SYSV_MSG_SUBSYS_LOCK();
1501 switch(ipcs
.u64
.ipcs_op
) {
1502 case IPCS_MSG_CONF
: /* Obtain global configuration data */
1503 if (ipcs
.u64
.ipcs_datalen
!= sizeof(struct msginfo
)) {
1507 if (ipcs
.u64
.ipcs_cursor
!= 0) { /* fwd. compat. */
1511 SYSV_MSG_SUBSYS_UNLOCK();
1512 error
= copyout(&msginfo
, ipcs
.u64
.ipcs_data
, ipcs
.u64
.ipcs_datalen
);
1513 SYSV_MSG_SUBSYS_LOCK();
1516 case IPCS_MSG_ITER
: /* Iterate over existing segments */
1517 /* Not done up top so we can set limits via sysctl (later) */
1523 cursor
= ipcs
.u64
.ipcs_cursor
;
1524 if (cursor
< 0 || cursor
>= msginfo
.msgmni
) {
1528 if (ipcs
.u64
.ipcs_datalen
!= (int)msqid_ds_sz
) {
1532 for( ; cursor
< msginfo
.msgmni
; cursor
++) {
1533 if (msqids
[cursor
].u
.msg_qbytes
!= 0) /* allocated */
1537 if (cursor
== msginfo
.msgmni
) {
1542 msqid_dsp
= &msqids
[cursor
]; /* default: 64 bit */
1545 * If necessary, convert the 64 bit kernel segment
1546 * descriptor to a 32 bit user one.
1548 if (IS_64BIT_PROCESS(p
)) {
1549 msqid_ds_kerneltouser64(msqid_dsp
, &msqid_ds64
);
1550 msqid_dsp
= &msqid_ds64
;
1552 msqid_ds_kerneltouser32(msqid_dsp
, &msqid_ds32
);
1553 msqid_dsp
= &msqid_ds32
;
1556 SYSV_MSG_SUBSYS_UNLOCK();
1557 error
= copyout(msqid_dsp
, ipcs
.u64
.ipcs_data
, ipcs
.u64
.ipcs_datalen
);
1560 ipcs
.u64
.ipcs_cursor
= cursor
+ 1;
1562 if (!IS_64BIT_PROCESS(p
)) /* convert in place */
1563 ipcs
.u32
.ipcs_data
= CAST_DOWN_EXPLICIT(user32_addr_t
,ipcs
.u64
.ipcs_data
);
1564 error
= SYSCTL_OUT(req
, &ipcs
, ipcs_sz
);
1566 SYSV_MSG_SUBSYS_LOCK();
1574 SYSV_MSG_SUBSYS_UNLOCK();
1578 SYSCTL_DECL(_kern_sysv_ipcs
);
1579 SYSCTL_PROC(_kern_sysv_ipcs
, OID_AUTO
, msg
, CTLFLAG_RW
| CTLFLAG_ANYBODY
| CTLFLAG_LOCKED
,
1580 0, 0, IPCS_msg_sysctl
,
1581 "S,IPCS_msg_command",
1582 "ipcs msg command interface");
1584 #endif /* SYSV_MSG */