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1c79356b | 1 | /* |
5ba3f43e | 2 | * Copyright (c) 1998-2017 Apple Inc. All rights reserved. |
5d5c5d0d | 3 | * |
2d21ac55 | 4 | * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ |
39236c6e | 5 | * |
2d21ac55 A |
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. | |
39236c6e | 14 | * |
2d21ac55 A |
15 | * Please obtain a copy of the License at |
16 | * http://www.opensource.apple.com/apsl/ and read it before using this file. | |
39236c6e | 17 | * |
2d21ac55 A |
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 | |
8f6c56a5 A |
20 | * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, |
21 | * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, | |
2d21ac55 A |
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. | |
39236c6e | 25 | * |
2d21ac55 | 26 | * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ |
1c79356b | 27 | */ |
1c79356b A |
28 | /* Copyright (c) 1995 NeXT Computer, Inc. All Rights Reserved */ |
29 | /* | |
30 | * Copyright (c) 1982, 1986, 1988, 1990, 1993 | |
31 | * The Regents of the University of California. All rights reserved. | |
32 | * | |
33 | * Redistribution and use in source and binary forms, with or without | |
34 | * modification, are permitted provided that the following conditions | |
35 | * are met: | |
36 | * 1. Redistributions of source code must retain the above copyright | |
37 | * notice, this list of conditions and the following disclaimer. | |
38 | * 2. Redistributions in binary form must reproduce the above copyright | |
39 | * notice, this list of conditions and the following disclaimer in the | |
40 | * documentation and/or other materials provided with the distribution. | |
41 | * 3. All advertising materials mentioning features or use of this software | |
42 | * must display the following acknowledgement: | |
43 | * This product includes software developed by the University of | |
44 | * California, Berkeley and its contributors. | |
45 | * 4. Neither the name of the University nor the names of its contributors | |
46 | * may be used to endorse or promote products derived from this software | |
47 | * without specific prior written permission. | |
48 | * | |
49 | * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND | |
50 | * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |
51 | * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |
52 | * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE | |
53 | * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL | |
54 | * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS | |
55 | * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) | |
56 | * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT | |
57 | * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY | |
58 | * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF | |
59 | * SUCH DAMAGE. | |
60 | * | |
9bccf70c | 61 | * @(#)uipc_socket.c 8.3 (Berkeley) 4/15/94 |
1c79356b | 62 | */ |
2d21ac55 A |
63 | /* |
64 | * NOTICE: This file was modified by SPARTA, Inc. in 2005 to introduce | |
65 | * support for mandatory and extensible security protections. This notice | |
66 | * is included in support of clause 2.2 (b) of the Apple Public License, | |
67 | * Version 2.0. | |
68 | */ | |
1c79356b A |
69 | |
70 | #include <sys/param.h> | |
71 | #include <sys/systm.h> | |
55e303ae | 72 | #include <sys/filedesc.h> |
2d21ac55 | 73 | #include <sys/proc.h> |
91447636 A |
74 | #include <sys/proc_internal.h> |
75 | #include <sys/kauth.h> | |
76 | #include <sys/file_internal.h> | |
1c79356b A |
77 | #include <sys/fcntl.h> |
78 | #include <sys/malloc.h> | |
79 | #include <sys/mbuf.h> | |
80 | #include <sys/domain.h> | |
81 | #include <sys/kernel.h> | |
55e303ae | 82 | #include <sys/event.h> |
1c79356b A |
83 | #include <sys/poll.h> |
84 | #include <sys/protosw.h> | |
85 | #include <sys/socket.h> | |
86 | #include <sys/socketvar.h> | |
87 | #include <sys/resourcevar.h> | |
88 | #include <sys/signalvar.h> | |
89 | #include <sys/sysctl.h> | |
39236c6e | 90 | #include <sys/syslog.h> |
1c79356b | 91 | #include <sys/uio.h> |
fe8ab488 | 92 | #include <sys/uio_internal.h> |
1c79356b A |
93 | #include <sys/ev.h> |
94 | #include <sys/kdebug.h> | |
2d21ac55 | 95 | #include <sys/un.h> |
d1ecb069 | 96 | #include <sys/user.h> |
316670eb | 97 | #include <sys/priv.h> |
39236c6e | 98 | #include <sys/kern_event.h> |
1c79356b | 99 | #include <net/route.h> |
39236c6e | 100 | #include <net/init.h> |
5ba3f43e | 101 | #include <net/net_api_stats.h> |
316670eb | 102 | #include <net/ntstat.h> |
fe8ab488 | 103 | #include <net/content_filter.h> |
1c79356b A |
104 | #include <netinet/in.h> |
105 | #include <netinet/in_pcb.h> | |
39037602 A |
106 | #include <netinet/in_tclass.h> |
107 | #include <netinet/tcp_var.h> | |
6d2010ae A |
108 | #include <netinet/ip6.h> |
109 | #include <netinet6/ip6_var.h> | |
39236c6e | 110 | #include <netinet/flow_divert.h> |
1c79356b | 111 | #include <kern/zalloc.h> |
91447636 | 112 | #include <kern/locks.h> |
1c79356b | 113 | #include <machine/limits.h> |
2d21ac55 A |
114 | #include <libkern/OSAtomic.h> |
115 | #include <pexpert/pexpert.h> | |
b0d623f7 | 116 | #include <kern/assert.h> |
6d2010ae | 117 | #include <kern/task.h> |
39037602 A |
118 | #include <kern/policy_internal.h> |
119 | ||
316670eb | 120 | #include <sys/kpi_mbuf.h> |
6d2010ae | 121 | #include <sys/mcache.h> |
fe8ab488 | 122 | #include <sys/unpcb.h> |
5ba3f43e | 123 | #include <libkern/section_keywords.h> |
2d21ac55 A |
124 | |
125 | #if CONFIG_MACF | |
2d21ac55 A |
126 | #include <security/mac_framework.h> |
127 | #endif /* MAC */ | |
128 | ||
39236c6e A |
129 | #if MULTIPATH |
130 | #include <netinet/mp_pcb.h> | |
fe8ab488 | 131 | #include <netinet/mptcp_var.h> |
39236c6e A |
132 | #endif /* MULTIPATH */ |
133 | ||
3e170ce0 A |
134 | #define ROUNDUP(a, b) (((a) + ((b) - 1)) & (~((b) - 1))) |
135 | ||
136 | #if DEBUG || DEVELOPMENT | |
137 | #define DEBUG_KERNEL_ADDRPERM(_v) (_v) | |
138 | #else | |
139 | #define DEBUG_KERNEL_ADDRPERM(_v) VM_KERNEL_ADDRPERM(_v) | |
140 | #endif | |
141 | ||
39236c6e A |
142 | /* TODO: this should be in a header file somewhere */ |
143 | extern char *proc_name_address(void *p); | |
39037602 | 144 | extern char *proc_best_name(proc_t); |
39236c6e A |
145 | |
146 | static u_int32_t so_cache_hw; /* High water mark for socache */ | |
147 | static u_int32_t so_cache_timeouts; /* number of timeouts */ | |
148 | static u_int32_t so_cache_max_freed; /* max freed per timeout */ | |
149 | static u_int32_t cached_sock_count = 0; | |
150 | STAILQ_HEAD(, socket) so_cache_head; | |
151 | int max_cached_sock_count = MAX_CACHED_SOCKETS; | |
152 | static u_int32_t so_cache_time; | |
153 | static int socketinit_done; | |
154 | static struct zone *so_cache_zone; | |
155 | ||
156 | static lck_grp_t *so_cache_mtx_grp; | |
157 | static lck_attr_t *so_cache_mtx_attr; | |
91447636 | 158 | static lck_grp_attr_t *so_cache_mtx_grp_attr; |
39236c6e | 159 | static lck_mtx_t *so_cache_mtx; |
91447636 | 160 | |
1c79356b A |
161 | #include <machine/limits.h> |
162 | ||
5ba3f43e | 163 | static int filt_sorattach(struct knote *kn, struct kevent_internal_s *kev); |
2d21ac55 A |
164 | static void filt_sordetach(struct knote *kn); |
165 | static int filt_soread(struct knote *kn, long hint); | |
39037602 A |
166 | static int filt_sortouch(struct knote *kn, struct kevent_internal_s *kev); |
167 | static int filt_sorprocess(struct knote *kn, struct filt_process_s *data, struct kevent_internal_s *kev); | |
168 | ||
5ba3f43e | 169 | static int filt_sowattach(struct knote *kn, struct kevent_internal_s *kev); |
2d21ac55 A |
170 | static void filt_sowdetach(struct knote *kn); |
171 | static int filt_sowrite(struct knote *kn, long hint); | |
39037602 A |
172 | static int filt_sowtouch(struct knote *kn, struct kevent_internal_s *kev); |
173 | static int filt_sowprocess(struct knote *kn, struct filt_process_s *data, struct kevent_internal_s *kev); | |
174 | ||
5ba3f43e | 175 | static int filt_sockattach(struct knote *kn, struct kevent_internal_s *kev); |
316670eb A |
176 | static void filt_sockdetach(struct knote *kn); |
177 | static int filt_sockev(struct knote *kn, long hint); | |
39037602 A |
178 | static int filt_socktouch(struct knote *kn, struct kevent_internal_s *kev); |
179 | static int filt_sockprocess(struct knote *kn, struct filt_process_s *data, struct kevent_internal_s *kev); | |
2d21ac55 | 180 | |
39236c6e A |
181 | static int sooptcopyin_timeval(struct sockopt *, struct timeval *); |
182 | static int sooptcopyout_timeval(struct sockopt *, const struct timeval *); | |
55e303ae | 183 | |
5ba3f43e | 184 | SECURITY_READ_ONLY_EARLY(struct filterops) soread_filtops = { |
39236c6e | 185 | .f_isfd = 1, |
39037602 | 186 | .f_attach = filt_sorattach, |
39236c6e A |
187 | .f_detach = filt_sordetach, |
188 | .f_event = filt_soread, | |
39037602 A |
189 | .f_touch = filt_sortouch, |
190 | .f_process = filt_sorprocess, | |
b0d623f7 | 191 | }; |
39236c6e | 192 | |
5ba3f43e | 193 | SECURITY_READ_ONLY_EARLY(struct filterops) sowrite_filtops = { |
39236c6e | 194 | .f_isfd = 1, |
39037602 | 195 | .f_attach = filt_sowattach, |
39236c6e A |
196 | .f_detach = filt_sowdetach, |
197 | .f_event = filt_sowrite, | |
39037602 A |
198 | .f_touch = filt_sowtouch, |
199 | .f_process = filt_sowprocess, | |
b0d623f7 | 200 | }; |
39236c6e | 201 | |
5ba3f43e | 202 | SECURITY_READ_ONLY_EARLY(struct filterops) sock_filtops = { |
316670eb | 203 | .f_isfd = 1, |
39037602 | 204 | .f_attach = filt_sockattach, |
316670eb A |
205 | .f_detach = filt_sockdetach, |
206 | .f_event = filt_sockev, | |
3e170ce0 | 207 | .f_touch = filt_socktouch, |
39037602 A |
208 | .f_process = filt_sockprocess, |
209 | }; | |
210 | ||
5ba3f43e | 211 | SECURITY_READ_ONLY_EARLY(struct filterops) soexcept_filtops = { |
39037602 A |
212 | .f_isfd = 1, |
213 | .f_attach = filt_sorattach, | |
214 | .f_detach = filt_sordetach, | |
215 | .f_event = filt_soread, | |
216 | .f_touch = filt_sortouch, | |
217 | .f_process = filt_sorprocess, | |
316670eb | 218 | }; |
55e303ae | 219 | |
fe8ab488 A |
220 | SYSCTL_DECL(_kern_ipc); |
221 | ||
2d21ac55 | 222 | #define EVEN_MORE_LOCKING_DEBUG 0 |
fe8ab488 | 223 | |
1c79356b | 224 | int socket_debug = 0; |
fe8ab488 A |
225 | SYSCTL_INT(_kern_ipc, OID_AUTO, socket_debug, |
226 | CTLFLAG_RW | CTLFLAG_LOCKED, &socket_debug, 0, ""); | |
227 | ||
39037602 A |
228 | static unsigned long sodefunct_calls = 0; |
229 | SYSCTL_LONG(_kern_ipc, OID_AUTO, sodefunct_calls, CTLFLAG_LOCKED, | |
230 | &sodefunct_calls, ""); | |
231 | ||
39236c6e | 232 | static int socket_zone = M_SOCKET; |
1c79356b A |
233 | so_gen_t so_gencnt; /* generation count for sockets */ |
234 | ||
235 | MALLOC_DEFINE(M_SONAME, "soname", "socket name"); | |
236 | MALLOC_DEFINE(M_PCB, "pcb", "protocol control block"); | |
237 | ||
2d21ac55 A |
238 | #define DBG_LAYER_IN_BEG NETDBG_CODE(DBG_NETSOCK, 0) |
239 | #define DBG_LAYER_IN_END NETDBG_CODE(DBG_NETSOCK, 2) | |
240 | #define DBG_LAYER_OUT_BEG NETDBG_CODE(DBG_NETSOCK, 1) | |
241 | #define DBG_LAYER_OUT_END NETDBG_CODE(DBG_NETSOCK, 3) | |
242 | #define DBG_FNC_SOSEND NETDBG_CODE(DBG_NETSOCK, (4 << 8) | 1) | |
fe8ab488 | 243 | #define DBG_FNC_SOSEND_LIST NETDBG_CODE(DBG_NETSOCK, (4 << 8) | 3) |
2d21ac55 | 244 | #define DBG_FNC_SORECEIVE NETDBG_CODE(DBG_NETSOCK, (8 << 8)) |
fe8ab488 | 245 | #define DBG_FNC_SORECEIVE_LIST NETDBG_CODE(DBG_NETSOCK, (8 << 8) | 3) |
2d21ac55 | 246 | #define DBG_FNC_SOSHUTDOWN NETDBG_CODE(DBG_NETSOCK, (9 << 8)) |
1c79356b | 247 | |
2d21ac55 | 248 | #define MAX_SOOPTGETM_SIZE (128 * MCLBYTES) |
1c79356b | 249 | |
2d21ac55 | 250 | int somaxconn = SOMAXCONN; |
39236c6e A |
251 | SYSCTL_INT(_kern_ipc, KIPC_SOMAXCONN, somaxconn, |
252 | CTLFLAG_RW | CTLFLAG_LOCKED, &somaxconn, 0, ""); | |
1c79356b A |
253 | |
254 | /* Should we get a maximum also ??? */ | |
fa4905b1 | 255 | static int sosendmaxchain = 65536; |
1c79356b | 256 | static int sosendminchain = 16384; |
55e303ae | 257 | static int sorecvmincopy = 16384; |
39236c6e A |
258 | SYSCTL_INT(_kern_ipc, OID_AUTO, sosendminchain, |
259 | CTLFLAG_RW | CTLFLAG_LOCKED, &sosendminchain, 0, ""); | |
260 | SYSCTL_INT(_kern_ipc, OID_AUTO, sorecvmincopy, | |
261 | CTLFLAG_RW | CTLFLAG_LOCKED, &sorecvmincopy, 0, ""); | |
2d21ac55 A |
262 | |
263 | /* | |
264 | * Set to enable jumbo clusters (if available) for large writes when | |
265 | * the socket is marked with SOF_MULTIPAGES; see below. | |
266 | */ | |
267 | int sosendjcl = 1; | |
39236c6e A |
268 | SYSCTL_INT(_kern_ipc, OID_AUTO, sosendjcl, |
269 | CTLFLAG_RW | CTLFLAG_LOCKED, &sosendjcl, 0, ""); | |
1c79356b | 270 | |
2d21ac55 A |
271 | /* |
272 | * Set this to ignore SOF_MULTIPAGES and use jumbo clusters for large | |
273 | * writes on the socket for all protocols on any network interfaces, | |
274 | * depending upon sosendjcl above. Be extra careful when setting this | |
275 | * to 1, because sending down packets that cross physical pages down to | |
276 | * broken drivers (those that falsely assume that the physical pages | |
277 | * are contiguous) might lead to system panics or silent data corruption. | |
278 | * When set to 0, the system will respect SOF_MULTIPAGES, which is set | |
279 | * only for TCP sockets whose outgoing interface is IFNET_MULTIPAGES | |
280 | * capable. Set this to 1 only for testing/debugging purposes. | |
281 | */ | |
282 | int sosendjcl_ignore_capab = 0; | |
39236c6e A |
283 | SYSCTL_INT(_kern_ipc, OID_AUTO, sosendjcl_ignore_capab, |
284 | CTLFLAG_RW | CTLFLAG_LOCKED, &sosendjcl_ignore_capab, 0, ""); | |
1c79356b | 285 | |
3e170ce0 A |
286 | /* |
287 | * Set this to ignore SOF1_IF_2KCL and use big clusters for large | |
288 | * writes on the socket for all protocols on any network interfaces. | |
289 | * Be extra careful when setting this to 1, because sending down packets with | |
290 | * clusters larger that 2 KB might lead to system panics or data corruption. | |
291 | * When set to 0, the system will respect SOF1_IF_2KCL, which is set | |
292 | * on the outgoing interface | |
293 | * Set this to 1 for testing/debugging purposes only. | |
294 | */ | |
fe8ab488 A |
295 | int sosendbigcl_ignore_capab = 0; |
296 | SYSCTL_INT(_kern_ipc, OID_AUTO, sosendbigcl_ignore_capab, | |
297 | CTLFLAG_RW | CTLFLAG_LOCKED, &sosendbigcl_ignore_capab, 0, ""); | |
298 | ||
6d2010ae A |
299 | int sodefunctlog = 0; |
300 | SYSCTL_INT(_kern_ipc, OID_AUTO, sodefunctlog, CTLFLAG_RW | CTLFLAG_LOCKED, | |
39236c6e | 301 | &sodefunctlog, 0, ""); |
6d2010ae | 302 | |
316670eb A |
303 | int sothrottlelog = 0; |
304 | SYSCTL_INT(_kern_ipc, OID_AUTO, sothrottlelog, CTLFLAG_RW | CTLFLAG_LOCKED, | |
39236c6e A |
305 | &sothrottlelog, 0, ""); |
306 | ||
307 | int sorestrictrecv = 1; | |
308 | SYSCTL_INT(_kern_ipc, OID_AUTO, sorestrictrecv, CTLFLAG_RW | CTLFLAG_LOCKED, | |
309 | &sorestrictrecv, 0, "Enable inbound interface restrictions"); | |
316670eb | 310 | |
fe8ab488 A |
311 | int sorestrictsend = 1; |
312 | SYSCTL_INT(_kern_ipc, OID_AUTO, sorestrictsend, CTLFLAG_RW | CTLFLAG_LOCKED, | |
313 | &sorestrictsend, 0, "Enable outbound interface restrictions"); | |
1c79356b | 314 | |
3e170ce0 A |
315 | int soreserveheadroom = 1; |
316 | SYSCTL_INT(_kern_ipc, OID_AUTO, soreserveheadroom, CTLFLAG_RW | CTLFLAG_LOCKED, | |
317 | &soreserveheadroom, 0, "To allocate contiguous datagram buffers"); | |
318 | ||
39037602 A |
319 | #if (DEBUG || DEVELOPMENT) |
320 | int so_notsent_lowat_check = 1; | |
321 | SYSCTL_INT(_kern_ipc, OID_AUTO, notsent_lowat, CTLFLAG_RW|CTLFLAG_LOCKED, | |
322 | &so_notsent_lowat_check, 0, "enable/disable notsnet lowat check"); | |
323 | #endif /* DEBUG || DEVELOPMENT */ | |
324 | ||
813fb2f6 A |
325 | int so_accept_list_waits = 0; |
326 | #if (DEBUG || DEVELOPMENT) | |
327 | SYSCTL_INT(_kern_ipc, OID_AUTO, accept_list_waits, CTLFLAG_RW|CTLFLAG_LOCKED, | |
328 | &so_accept_list_waits, 0, "number of waits for listener incomp list"); | |
329 | #endif /* DEBUG || DEVELOPMENT */ | |
330 | ||
39236c6e | 331 | extern struct inpcbinfo tcbinfo; |
2d21ac55 A |
332 | |
333 | /* TODO: these should be in header file */ | |
334 | extern int get_inpcb_str_size(void); | |
335 | extern int get_tcp_str_size(void); | |
2d21ac55 | 336 | |
91447636 A |
337 | vm_size_t so_cache_zone_element_size; |
338 | ||
3e170ce0 A |
339 | static int sodelayed_copy(struct socket *, struct uio *, struct mbuf **, |
340 | user_ssize_t *); | |
2d21ac55 A |
341 | static void cached_sock_alloc(struct socket **, int); |
342 | static void cached_sock_free(struct socket *); | |
91447636 | 343 | |
3e170ce0 A |
344 | /* |
345 | * Maximum of extended background idle sockets per process | |
346 | * Set to zero to disable further setting of the option | |
347 | */ | |
348 | ||
349 | #define SO_IDLE_BK_IDLE_MAX_PER_PROC 1 | |
350 | #define SO_IDLE_BK_IDLE_TIME 600 | |
351 | #define SO_IDLE_BK_IDLE_RCV_HIWAT 131072 | |
352 | ||
353 | struct soextbkidlestat soextbkidlestat; | |
354 | ||
355 | SYSCTL_UINT(_kern_ipc, OID_AUTO, maxextbkidleperproc, | |
356 | CTLFLAG_RW | CTLFLAG_LOCKED, &soextbkidlestat.so_xbkidle_maxperproc, 0, | |
357 | "Maximum of extended background idle sockets per process"); | |
358 | ||
359 | SYSCTL_UINT(_kern_ipc, OID_AUTO, extbkidletime, CTLFLAG_RW | CTLFLAG_LOCKED, | |
360 | &soextbkidlestat.so_xbkidle_time, 0, | |
361 | "Time in seconds to keep extended background idle sockets"); | |
362 | ||
363 | SYSCTL_UINT(_kern_ipc, OID_AUTO, extbkidlercvhiwat, CTLFLAG_RW | CTLFLAG_LOCKED, | |
364 | &soextbkidlestat.so_xbkidle_rcvhiwat, 0, | |
365 | "High water mark for extended background idle sockets"); | |
366 | ||
367 | SYSCTL_STRUCT(_kern_ipc, OID_AUTO, extbkidlestat, CTLFLAG_RD | CTLFLAG_LOCKED, | |
368 | &soextbkidlestat, soextbkidlestat, ""); | |
369 | ||
370 | int so_set_extended_bk_idle(struct socket *, int); | |
371 | ||
5ba3f43e | 372 | |
316670eb A |
373 | /* |
374 | * SOTCDB_NO_DSCP is set by default, to prevent the networking stack from | |
375 | * setting the DSCP code on the packet based on the service class; see | |
376 | * <rdar://problem/11277343> for details. | |
377 | */ | |
39037602 | 378 | __private_extern__ u_int32_t sotcdb = 0; |
6d2010ae | 379 | SYSCTL_INT(_kern_ipc, OID_AUTO, sotcdb, CTLFLAG_RW | CTLFLAG_LOCKED, |
39236c6e | 380 | &sotcdb, 0, ""); |
91447636 | 381 | |
2d21ac55 A |
382 | void |
383 | socketinit(void) | |
1c79356b | 384 | { |
fe8ab488 A |
385 | _CASSERT(sizeof(so_gencnt) == sizeof(uint64_t)); |
386 | VERIFY(IS_P2ALIGNED(&so_gencnt, sizeof(uint32_t))); | |
387 | ||
3e170ce0 A |
388 | #ifdef __LP64__ |
389 | _CASSERT(sizeof(struct sa_endpoints) == sizeof(struct user64_sa_endpoints)); | |
390 | _CASSERT(offsetof(struct sa_endpoints, sae_srcif) == offsetof(struct user64_sa_endpoints, sae_srcif)); | |
391 | _CASSERT(offsetof(struct sa_endpoints, sae_srcaddr) == offsetof(struct user64_sa_endpoints, sae_srcaddr)); | |
392 | _CASSERT(offsetof(struct sa_endpoints, sae_srcaddrlen) == offsetof(struct user64_sa_endpoints, sae_srcaddrlen)); | |
393 | _CASSERT(offsetof(struct sa_endpoints, sae_dstaddr) == offsetof(struct user64_sa_endpoints, sae_dstaddr)); | |
394 | _CASSERT(offsetof(struct sa_endpoints, sae_dstaddrlen) == offsetof(struct user64_sa_endpoints, sae_dstaddrlen)); | |
395 | #else | |
396 | _CASSERT(sizeof(struct sa_endpoints) == sizeof(struct user32_sa_endpoints)); | |
397 | _CASSERT(offsetof(struct sa_endpoints, sae_srcif) == offsetof(struct user32_sa_endpoints, sae_srcif)); | |
398 | _CASSERT(offsetof(struct sa_endpoints, sae_srcaddr) == offsetof(struct user32_sa_endpoints, sae_srcaddr)); | |
399 | _CASSERT(offsetof(struct sa_endpoints, sae_srcaddrlen) == offsetof(struct user32_sa_endpoints, sae_srcaddrlen)); | |
400 | _CASSERT(offsetof(struct sa_endpoints, sae_dstaddr) == offsetof(struct user32_sa_endpoints, sae_dstaddr)); | |
401 | _CASSERT(offsetof(struct sa_endpoints, sae_dstaddrlen) == offsetof(struct user32_sa_endpoints, sae_dstaddrlen)); | |
402 | #endif | |
403 | ||
39236c6e | 404 | if (socketinit_done) { |
91447636 A |
405 | printf("socketinit: already called...\n"); |
406 | return; | |
407 | } | |
39236c6e | 408 | socketinit_done = 1; |
91447636 | 409 | |
39236c6e A |
410 | PE_parse_boot_argn("socket_debug", &socket_debug, |
411 | sizeof (socket_debug)); | |
2d21ac55 | 412 | |
91447636 A |
413 | /* |
414 | * allocate lock group attribute and group for socket cache mutex | |
415 | */ | |
416 | so_cache_mtx_grp_attr = lck_grp_attr_alloc_init(); | |
2d21ac55 A |
417 | so_cache_mtx_grp = lck_grp_alloc_init("so_cache", |
418 | so_cache_mtx_grp_attr); | |
419 | ||
91447636 A |
420 | /* |
421 | * allocate the lock attribute for socket cache mutex | |
422 | */ | |
423 | so_cache_mtx_attr = lck_attr_alloc_init(); | |
91447636 | 424 | |
2d21ac55 A |
425 | /* cached sockets mutex */ |
426 | so_cache_mtx = lck_mtx_alloc_init(so_cache_mtx_grp, so_cache_mtx_attr); | |
39236c6e A |
427 | if (so_cache_mtx == NULL) { |
428 | panic("%s: unable to allocate so_cache_mtx\n", __func__); | |
429 | /* NOTREACHED */ | |
430 | } | |
431 | STAILQ_INIT(&so_cache_head); | |
1c79356b | 432 | |
39236c6e A |
433 | so_cache_zone_element_size = (vm_size_t)(sizeof (struct socket) + 4 |
434 | + get_inpcb_str_size() + 4 + get_tcp_str_size()); | |
2d21ac55 | 435 | |
3e170ce0 | 436 | so_cache_zone = zinit(so_cache_zone_element_size, |
39236c6e | 437 | (120000 * so_cache_zone_element_size), 8192, "socache zone"); |
6d2010ae | 438 | zone_change(so_cache_zone, Z_CALLERACCT, FALSE); |
0b4c1975 | 439 | zone_change(so_cache_zone, Z_NOENCRYPT, TRUE); |
1c79356b | 440 | |
3e170ce0 A |
441 | bzero(&soextbkidlestat, sizeof(struct soextbkidlestat)); |
442 | soextbkidlestat.so_xbkidle_maxperproc = SO_IDLE_BK_IDLE_MAX_PER_PROC; | |
443 | soextbkidlestat.so_xbkidle_time = SO_IDLE_BK_IDLE_TIME; | |
444 | soextbkidlestat.so_xbkidle_rcvhiwat = SO_IDLE_BK_IDLE_RCV_HIWAT; | |
316670eb | 445 | |
39236c6e A |
446 | in_pcbinit(); |
447 | sflt_init(); | |
6d2010ae | 448 | socket_tclass_init(); |
39236c6e A |
449 | #if MULTIPATH |
450 | mp_pcbinit(); | |
451 | #endif /* MULTIPATH */ | |
1c79356b A |
452 | } |
453 | ||
2d21ac55 A |
454 | static void |
455 | cached_sock_alloc(struct socket **so, int waitok) | |
1c79356b | 456 | { |
2d21ac55 | 457 | caddr_t temp; |
39236c6e | 458 | uintptr_t offset; |
1c79356b | 459 | |
91447636 A |
460 | lck_mtx_lock(so_cache_mtx); |
461 | ||
39236c6e A |
462 | if (!STAILQ_EMPTY(&so_cache_head)) { |
463 | VERIFY(cached_sock_count > 0); | |
1c79356b | 464 | |
39236c6e A |
465 | *so = STAILQ_FIRST(&so_cache_head); |
466 | STAILQ_REMOVE_HEAD(&so_cache_head, so_cache_ent); | |
467 | STAILQ_NEXT((*so), so_cache_ent) = NULL; | |
91447636 | 468 | |
39236c6e | 469 | cached_sock_count--; |
91447636 | 470 | lck_mtx_unlock(so_cache_mtx); |
1c79356b | 471 | |
2d21ac55 A |
472 | temp = (*so)->so_saved_pcb; |
473 | bzero((caddr_t)*so, sizeof (struct socket)); | |
39236c6e | 474 | |
2d21ac55 | 475 | (*so)->so_saved_pcb = temp; |
2d21ac55 | 476 | } else { |
1c79356b | 477 | |
2d21ac55 | 478 | lck_mtx_unlock(so_cache_mtx); |
1c79356b | 479 | |
2d21ac55 A |
480 | if (waitok) |
481 | *so = (struct socket *)zalloc(so_cache_zone); | |
482 | else | |
483 | *so = (struct socket *)zalloc_noblock(so_cache_zone); | |
1c79356b | 484 | |
39236c6e | 485 | if (*so == NULL) |
2d21ac55 | 486 | return; |
1c79356b | 487 | |
2d21ac55 | 488 | bzero((caddr_t)*so, sizeof (struct socket)); |
1c79356b | 489 | |
2d21ac55 | 490 | /* |
3e170ce0 A |
491 | * Define offsets for extra structures into our |
492 | * single block of memory. Align extra structures | |
39236c6e | 493 | * on longword boundaries. |
2d21ac55 | 494 | */ |
b0d623f7 | 495 | |
39236c6e | 496 | offset = (uintptr_t)*so; |
2d21ac55 | 497 | offset += sizeof (struct socket); |
b0d623f7 A |
498 | |
499 | offset = ALIGN(offset); | |
500 | ||
2d21ac55 A |
501 | (*so)->so_saved_pcb = (caddr_t)offset; |
502 | offset += get_inpcb_str_size(); | |
b0d623f7 A |
503 | |
504 | offset = ALIGN(offset); | |
1c79356b | 505 | |
316670eb | 506 | ((struct inpcb *)(void *)(*so)->so_saved_pcb)->inp_saved_ppcb = |
2d21ac55 | 507 | (caddr_t)offset; |
2d21ac55 | 508 | } |
1c79356b | 509 | |
3e170ce0 | 510 | OSBitOrAtomic(SOF1_CACHED_IN_SOCK_LAYER, &(*so)->so_flags1); |
1c79356b A |
511 | } |
512 | ||
2d21ac55 A |
513 | static void |
514 | cached_sock_free(struct socket *so) | |
1c79356b | 515 | { |
1c79356b | 516 | |
91447636 | 517 | lck_mtx_lock(so_cache_mtx); |
1c79356b | 518 | |
39236c6e | 519 | so_cache_time = net_uptime(); |
b0d623f7 | 520 | if (++cached_sock_count > max_cached_sock_count) { |
1c79356b | 521 | --cached_sock_count; |
91447636 | 522 | lck_mtx_unlock(so_cache_mtx); |
91447636 | 523 | zfree(so_cache_zone, so); |
2d21ac55 | 524 | } else { |
1c79356b A |
525 | if (so_cache_hw < cached_sock_count) |
526 | so_cache_hw = cached_sock_count; | |
527 | ||
39236c6e | 528 | STAILQ_INSERT_TAIL(&so_cache_head, so, so_cache_ent); |
1c79356b A |
529 | |
530 | so->cache_timestamp = so_cache_time; | |
91447636 | 531 | lck_mtx_unlock(so_cache_mtx); |
1c79356b | 532 | } |
1c79356b A |
533 | } |
534 | ||
39236c6e A |
535 | void |
536 | so_update_last_owner_locked(struct socket *so, proc_t self) | |
6d2010ae | 537 | { |
39236c6e A |
538 | if (so->last_pid != 0) { |
539 | /* | |
540 | * last_pid and last_upid should remain zero for sockets | |
541 | * created using sock_socket. The check above achieves that | |
542 | */ | |
543 | if (self == PROC_NULL) | |
316670eb | 544 | self = current_proc(); |
39236c6e A |
545 | |
546 | if (so->last_upid != proc_uniqueid(self) || | |
547 | so->last_pid != proc_pid(self)) { | |
316670eb A |
548 | so->last_upid = proc_uniqueid(self); |
549 | so->last_pid = proc_pid(self); | |
39236c6e A |
550 | proc_getexecutableuuid(self, so->last_uuid, |
551 | sizeof (so->last_uuid)); | |
316670eb | 552 | } |
fe8ab488 | 553 | proc_pidoriginatoruuid(so->so_vuuid, sizeof(so->so_vuuid)); |
6d2010ae A |
554 | } |
555 | } | |
556 | ||
39236c6e A |
557 | void |
558 | so_update_policy(struct socket *so) | |
1c79356b | 559 | { |
39236c6e A |
560 | if (SOCK_DOM(so) == PF_INET || SOCK_DOM(so) == PF_INET6) |
561 | (void) inp_update_policy(sotoinpcb(so)); | |
562 | } | |
1c79356b | 563 | |
fe8ab488 A |
564 | #if NECP |
565 | static void | |
3e170ce0 A |
566 | so_update_necp_policy(struct socket *so, struct sockaddr *override_local_addr, |
567 | struct sockaddr *override_remote_addr) | |
fe8ab488 A |
568 | { |
569 | if (SOCK_DOM(so) == PF_INET || SOCK_DOM(so) == PF_INET6) | |
3e170ce0 A |
570 | inp_update_necp_policy(sotoinpcb(so), override_local_addr, |
571 | override_remote_addr, 0); | |
fe8ab488 A |
572 | } |
573 | #endif /* NECP */ | |
574 | ||
39236c6e A |
575 | boolean_t |
576 | so_cache_timer(void) | |
577 | { | |
578 | struct socket *p; | |
579 | int n_freed = 0; | |
580 | boolean_t rc = FALSE; | |
1c79356b | 581 | |
39236c6e A |
582 | lck_mtx_lock(so_cache_mtx); |
583 | so_cache_timeouts++; | |
584 | so_cache_time = net_uptime(); | |
585 | ||
586 | while (!STAILQ_EMPTY(&so_cache_head)) { | |
587 | VERIFY(cached_sock_count > 0); | |
588 | p = STAILQ_FIRST(&so_cache_head); | |
3e170ce0 | 589 | if ((so_cache_time - p->cache_timestamp) < |
39236c6e | 590 | SO_CACHE_TIME_LIMIT) |
2d21ac55 | 591 | break; |
1c79356b | 592 | |
39236c6e A |
593 | STAILQ_REMOVE_HEAD(&so_cache_head, so_cache_ent); |
594 | --cached_sock_count; | |
1c79356b | 595 | |
91447636 | 596 | zfree(so_cache_zone, p); |
2d21ac55 A |
597 | |
598 | if (++n_freed >= SO_CACHE_MAX_FREE_BATCH) { | |
599 | so_cache_max_freed++; | |
1c79356b A |
600 | break; |
601 | } | |
602 | } | |
1c79356b | 603 | |
39236c6e A |
604 | /* Schedule again if there is more to cleanup */ |
605 | if (!STAILQ_EMPTY(&so_cache_head)) | |
606 | rc = TRUE; | |
607 | ||
608 | lck_mtx_unlock(so_cache_mtx); | |
609 | return (rc); | |
1c79356b | 610 | } |
1c79356b A |
611 | |
612 | /* | |
613 | * Get a socket structure from our zone, and initialize it. | |
614 | * We don't implement `waitok' yet (see comments in uipc_domain.c). | |
615 | * Note that it would probably be better to allocate socket | |
616 | * and PCB at the same time, but I'm not convinced that all | |
617 | * the protocols can be easily modified to do this. | |
618 | */ | |
619 | struct socket * | |
2d21ac55 | 620 | soalloc(int waitok, int dom, int type) |
1c79356b A |
621 | { |
622 | struct socket *so; | |
623 | ||
2d21ac55 A |
624 | if ((dom == PF_INET) && (type == SOCK_STREAM)) { |
625 | cached_sock_alloc(&so, waitok); | |
626 | } else { | |
627 | MALLOC_ZONE(so, struct socket *, sizeof (*so), socket_zone, | |
628 | M_WAITOK); | |
629 | if (so != NULL) | |
630 | bzero(so, sizeof (*so)); | |
1c79356b | 631 | } |
2d21ac55 | 632 | if (so != NULL) { |
fe8ab488 | 633 | so->so_gencnt = OSIncrementAtomic64((SInt64 *)&so_gencnt); |
2d21ac55 | 634 | so->so_zone = socket_zone; |
5ba3f43e A |
635 | |
636 | /* | |
637 | * Increment the socket allocation statistics | |
638 | */ | |
639 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_alloc_total); | |
640 | ||
2d21ac55 | 641 | #if CONFIG_MACF_SOCKET |
39236c6e A |
642 | /* Convert waitok to M_WAITOK/M_NOWAIT for MAC Framework. */ |
643 | if (mac_socket_label_init(so, !waitok) != 0) { | |
2d21ac55 A |
644 | sodealloc(so); |
645 | return (NULL); | |
646 | } | |
647 | #endif /* MAC_SOCKET */ | |
1c79356b A |
648 | } |
649 | ||
2d21ac55 | 650 | return (so); |
1c79356b A |
651 | } |
652 | ||
653 | int | |
39236c6e A |
654 | socreate_internal(int dom, struct socket **aso, int type, int proto, |
655 | struct proc *p, uint32_t flags, struct proc *ep) | |
1c79356b | 656 | { |
39236c6e A |
657 | struct protosw *prp; |
658 | struct socket *so; | |
659 | int error = 0; | |
d1ecb069 | 660 | |
55e303ae A |
661 | #if TCPDEBUG |
662 | extern int tcpconsdebug; | |
663 | #endif | |
39236c6e A |
664 | |
665 | VERIFY(aso != NULL); | |
666 | *aso = NULL; | |
667 | ||
668 | if (proto != 0) | |
1c79356b A |
669 | prp = pffindproto(dom, proto, type); |
670 | else | |
671 | prp = pffindtype(dom, type); | |
9bccf70c | 672 | |
39236c6e A |
673 | if (prp == NULL || prp->pr_usrreqs->pru_attach == NULL) { |
674 | if (pffinddomain(dom) == NULL) | |
2d21ac55 | 675 | return (EAFNOSUPPORT); |
2d21ac55 | 676 | if (proto != 0) { |
39236c6e | 677 | if (pffindprotonotype(dom, proto) != NULL) |
2d21ac55 | 678 | return (EPROTOTYPE); |
2d21ac55 | 679 | } |
9bccf70c A |
680 | return (EPROTONOSUPPORT); |
681 | } | |
1c79356b A |
682 | if (prp->pr_type != type) |
683 | return (EPROTOTYPE); | |
b0d623f7 | 684 | so = soalloc(1, dom, type); |
39236c6e | 685 | if (so == NULL) |
1c79356b A |
686 | return (ENOBUFS); |
687 | ||
5ba3f43e A |
688 | switch (dom) { |
689 | case PF_LOCAL: | |
690 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_local_total); | |
691 | break; | |
692 | case PF_INET: | |
693 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_inet_total); | |
694 | if (type == SOCK_STREAM) { | |
695 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_inet_stream_total); | |
696 | } else { | |
697 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_inet_dgram_total); | |
698 | } | |
699 | break; | |
700 | case PF_ROUTE: | |
701 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_route_total); | |
702 | break; | |
703 | case PF_NDRV: | |
704 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_ndrv_total); | |
705 | break; | |
706 | case PF_KEY: | |
707 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_key_total); | |
708 | break; | |
709 | case PF_INET6: | |
710 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_inet6_total); | |
711 | if (type == SOCK_STREAM) { | |
712 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_inet6_stream_total); | |
713 | } else { | |
714 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_inet6_dgram_total); | |
715 | } | |
716 | break; | |
717 | case PF_SYSTEM: | |
718 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_system_total); | |
719 | break; | |
720 | case PF_MULTIPATH: | |
721 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_multipath_total); | |
722 | break; | |
723 | default: | |
724 | INC_ATOMIC_INT64_LIM(net_api_stats.nas_socket_domain_other_total); | |
725 | break; | |
726 | } | |
727 | ||
39236c6e A |
728 | if (flags & SOCF_ASYNC) |
729 | so->so_state |= SS_NBIO; | |
39236c6e | 730 | |
1c79356b A |
731 | TAILQ_INIT(&so->so_incomp); |
732 | TAILQ_INIT(&so->so_comp); | |
733 | so->so_type = type; | |
316670eb A |
734 | so->last_upid = proc_uniqueid(p); |
735 | so->last_pid = proc_pid(p); | |
39236c6e | 736 | proc_getexecutableuuid(p, so->last_uuid, sizeof (so->last_uuid)); |
fe8ab488 | 737 | proc_pidoriginatoruuid(so->so_vuuid, sizeof(so->so_vuuid)); |
39236c6e A |
738 | |
739 | if (ep != PROC_NULL && ep != p) { | |
740 | so->e_upid = proc_uniqueid(ep); | |
741 | so->e_pid = proc_pid(ep); | |
742 | proc_getexecutableuuid(ep, so->e_uuid, sizeof (so->e_uuid)); | |
743 | so->so_flags |= SOF_DELEGATED; | |
744 | } | |
1c79356b | 745 | |
316670eb | 746 | so->so_cred = kauth_cred_proc_ref(p); |
b0d623f7 | 747 | if (!suser(kauth_cred_get(), NULL)) |
39236c6e | 748 | so->so_state |= SS_PRIV; |
b0d623f7 | 749 | |
1c79356b | 750 | so->so_proto = prp; |
39236c6e | 751 | so->so_rcv.sb_flags |= SB_RECV; |
91447636 | 752 | so->so_rcv.sb_so = so->so_snd.sb_so = so; |
0c530ab8 A |
753 | so->next_lock_lr = 0; |
754 | so->next_unlock_lr = 0; | |
2d21ac55 A |
755 | |
756 | #if CONFIG_MACF_SOCKET | |
757 | mac_socket_label_associate(kauth_cred_get(), so); | |
758 | #endif /* MAC_SOCKET */ | |
759 | ||
2d21ac55 | 760 | /* |
39236c6e A |
761 | * Attachment will create the per pcb lock if necessary and |
762 | * increase refcount for creation, make sure it's done before | |
763 | * socket is inserted in lists. | |
2d21ac55 A |
764 | */ |
765 | so->so_usecount++; | |
91447636 A |
766 | |
767 | error = (*prp->pr_usrreqs->pru_attach)(so, proto, p); | |
39236c6e | 768 | if (error != 0) { |
2d21ac55 A |
769 | /* |
770 | * Warning: | |
771 | * If so_pcb is not zero, the socket will be leaked, | |
772 | * so protocol attachment handler must be coded carefuly | |
55e303ae | 773 | */ |
1c79356b | 774 | so->so_state |= SS_NOFDREF; |
d190cdc3 | 775 | VERIFY(so->so_usecount > 0); |
37839358 A |
776 | so->so_usecount--; |
777 | sofreelastref(so, 1); /* will deallocate the socket */ | |
1c79356b A |
778 | return (error); |
779 | } | |
39236c6e A |
780 | |
781 | atomic_add_32(&prp->pr_domain->dom_refs, 1); | |
1c79356b | 782 | TAILQ_INIT(&so->so_evlist); |
91447636 A |
783 | |
784 | /* Attach socket filters for this protocol */ | |
785 | sflt_initsock(so); | |
55e303ae A |
786 | #if TCPDEBUG |
787 | if (tcpconsdebug == 2) | |
788 | so->so_options |= SO_DEBUG; | |
9bccf70c | 789 | #endif |
6d2010ae | 790 | so_set_default_traffic_class(so); |
39236c6e | 791 | |
d1ecb069 | 792 | /* |
39236c6e A |
793 | * If this thread or task is marked to create backgrounded sockets, |
794 | * mark the socket as background. | |
d1ecb069 | 795 | */ |
3e170ce0 A |
796 | if (proc_get_effective_thread_policy(current_thread(), |
797 | TASK_POLICY_NEW_SOCKETS_BG)) { | |
d1ecb069 | 798 | socket_set_traffic_mgt_flags(so, TRAFFIC_MGT_SO_BACKGROUND); |
6d2010ae A |
799 | so->so_background_thread = current_thread(); |
800 | } | |
801 | ||
802 | switch (dom) { | |
316670eb | 803 | /* |
39236c6e A |
804 | * Don't mark Unix domain, system or multipath sockets as |
805 | * eligible for defunct by default. | |
806 | */ | |
6d2010ae | 807 | case PF_LOCAL: |
316670eb | 808 | case PF_SYSTEM: |
39236c6e | 809 | case PF_MULTIPATH: |
6d2010ae A |
810 | so->so_flags |= SOF_NODEFUNCT; |
811 | break; | |
316670eb A |
812 | default: |
813 | break; | |
d1ecb069 A |
814 | } |
815 | ||
fe8ab488 A |
816 | /* |
817 | * Entitlements can't be checked at socket creation time except if the | |
818 | * application requested a feature guarded by a privilege (c.f., socket | |
819 | * delegation). | |
820 | * The priv(9) and the Sandboxing APIs are designed with the idea that | |
821 | * a privilege check should only be triggered by a userland request. | |
822 | * A privilege check at socket creation time is time consuming and | |
823 | * could trigger many authorisation error messages from the security | |
824 | * APIs. | |
825 | */ | |
826 | ||
1c79356b | 827 | *aso = so; |
39236c6e | 828 | |
1c79356b A |
829 | return (0); |
830 | } | |
831 | ||
39236c6e A |
832 | /* |
833 | * Returns: 0 Success | |
834 | * EAFNOSUPPORT | |
835 | * EPROTOTYPE | |
836 | * EPROTONOSUPPORT | |
837 | * ENOBUFS | |
838 | * <pru_attach>:ENOBUFS[AF_UNIX] | |
839 | * <pru_attach>:ENOBUFS[TCP] | |
840 | * <pru_attach>:ENOMEM[TCP] | |
841 | * <pru_attach>:??? [other protocol families, IPSEC] | |
842 | */ | |
843 | int | |
844 | socreate(int dom, struct socket **aso, int type, int proto) | |
845 | { | |
846 | return (socreate_internal(dom, aso, type, proto, current_proc(), 0, | |
847 | PROC_NULL)); | |
848 | } | |
849 | ||
850 | int | |
851 | socreate_delegate(int dom, struct socket **aso, int type, int proto, pid_t epid) | |
852 | { | |
853 | int error = 0; | |
854 | struct proc *ep = PROC_NULL; | |
855 | ||
856 | if ((proc_selfpid() != epid) && ((ep = proc_find(epid)) == PROC_NULL)) { | |
857 | error = ESRCH; | |
858 | goto done; | |
859 | } | |
860 | ||
861 | error = socreate_internal(dom, aso, type, proto, current_proc(), 0, ep); | |
862 | ||
863 | /* | |
864 | * It might not be wise to hold the proc reference when calling | |
865 | * socreate_internal since it calls soalloc with M_WAITOK | |
866 | */ | |
867 | done: | |
868 | if (ep != PROC_NULL) | |
869 | proc_rele(ep); | |
870 | ||
871 | return (error); | |
872 | } | |
873 | ||
2d21ac55 A |
874 | /* |
875 | * Returns: 0 Success | |
876 | * <pru_bind>:EINVAL Invalid argument [COMMON_START] | |
877 | * <pru_bind>:EAFNOSUPPORT Address family not supported | |
878 | * <pru_bind>:EADDRNOTAVAIL Address not available. | |
879 | * <pru_bind>:EINVAL Invalid argument | |
880 | * <pru_bind>:EAFNOSUPPORT Address family not supported [notdef] | |
881 | * <pru_bind>:EACCES Permission denied | |
882 | * <pru_bind>:EADDRINUSE Address in use | |
883 | * <pru_bind>:EAGAIN Resource unavailable, try again | |
884 | * <pru_bind>:EPERM Operation not permitted | |
885 | * <pru_bind>:??? | |
886 | * <sf_bind>:??? | |
887 | * | |
888 | * Notes: It's not possible to fully enumerate the return codes above, | |
889 | * since socket filter authors and protocol family authors may | |
890 | * not choose to limit their error returns to those listed, even | |
891 | * though this may result in some software operating incorrectly. | |
892 | * | |
893 | * The error codes which are enumerated above are those known to | |
894 | * be returned by the tcp_usr_bind function supplied. | |
895 | */ | |
1c79356b | 896 | int |
39236c6e | 897 | sobindlock(struct socket *so, struct sockaddr *nam, int dolock) |
1c79356b A |
898 | { |
899 | struct proc *p = current_proc(); | |
91447636 | 900 | int error = 0; |
1c79356b | 901 | |
39236c6e A |
902 | if (dolock) |
903 | socket_lock(so, 1); | |
39236c6e | 904 | |
6d2010ae | 905 | so_update_last_owner_locked(so, p); |
39236c6e | 906 | so_update_policy(so); |
3e170ce0 | 907 | |
fe8ab488 A |
908 | #if NECP |
909 | so_update_necp_policy(so, nam, NULL); | |
910 | #endif /* NECP */ | |
3e170ce0 | 911 | |
2d21ac55 | 912 | /* |
6d2010ae A |
913 | * If this is a bind request on a socket that has been marked |
914 | * as inactive, reject it now before we go any further. | |
2d21ac55 A |
915 | */ |
916 | if (so->so_flags & SOF_DEFUNCT) { | |
917 | error = EINVAL; | |
39037602 A |
918 | SODEFUNCTLOG("%s[%d, %s]: defunct so 0x%llx [%d,%d] (%d)\n", |
919 | __func__, proc_pid(p), proc_best_name(p), | |
920 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
921 | SOCK_DOM(so), SOCK_TYPE(so), error); | |
2d21ac55 A |
922 | goto out; |
923 | } | |
924 | ||
91447636 | 925 | /* Socket filter */ |
6d2010ae | 926 | error = sflt_bind(so, nam); |
2d21ac55 | 927 | |
91447636 A |
928 | if (error == 0) |
929 | error = (*so->so_proto->pr_usrreqs->pru_bind)(so, nam, p); | |
2d21ac55 | 930 | out: |
39236c6e A |
931 | if (dolock) |
932 | socket_unlock(so, 1); | |
2d21ac55 | 933 | |
91447636 A |
934 | if (error == EJUSTRETURN) |
935 | error = 0; | |
2d21ac55 | 936 | |
1c79356b A |
937 | return (error); |
938 | } | |
939 | ||
940 | void | |
2d21ac55 | 941 | sodealloc(struct socket *so) |
1c79356b | 942 | { |
316670eb A |
943 | kauth_cred_unref(&so->so_cred); |
944 | ||
6d2010ae A |
945 | /* Remove any filters */ |
946 | sflt_termsock(so); | |
947 | ||
fe8ab488 A |
948 | #if CONTENT_FILTER |
949 | cfil_sock_detach(so); | |
950 | #endif /* CONTENT_FILTER */ | |
951 | ||
39236c6e A |
952 | /* Delete the state allocated for msg queues on a socket */ |
953 | if (so->so_flags & SOF_ENABLE_MSGS) { | |
954 | FREE(so->so_msg_state, M_TEMP); | |
955 | so->so_msg_state = NULL; | |
956 | } | |
957 | VERIFY(so->so_msg_state == NULL); | |
958 | ||
fe8ab488 | 959 | so->so_gencnt = OSIncrementAtomic64((SInt64 *)&so_gencnt); |
1c79356b | 960 | |
2d21ac55 A |
961 | #if CONFIG_MACF_SOCKET |
962 | mac_socket_label_destroy(so); | |
963 | #endif /* MAC_SOCKET */ | |
39236c6e | 964 | |
3e170ce0 | 965 | if (so->so_flags1 & SOF1_CACHED_IN_SOCK_LAYER) { |
2d21ac55 A |
966 | cached_sock_free(so); |
967 | } else { | |
2d21ac55 | 968 | FREE_ZONE(so, sizeof (*so), so->so_zone); |
91447636 | 969 | } |
1c79356b A |
970 | } |
971 | ||
2d21ac55 A |
972 | /* |
973 | * Returns: 0 Success | |
974 | * EINVAL | |
975 | * EOPNOTSUPP | |
976 | * <pru_listen>:EINVAL[AF_UNIX] | |
977 | * <pru_listen>:EINVAL[TCP] | |
978 | * <pru_listen>:EADDRNOTAVAIL[TCP] Address not available. | |
979 | * <pru_listen>:EINVAL[TCP] Invalid argument | |
980 | * <pru_listen>:EAFNOSUPPORT[TCP] Address family not supported [notdef] | |
981 | * <pru_listen>:EACCES[TCP] Permission denied | |
982 | * <pru_listen>:EADDRINUSE[TCP] Address in use | |
983 | * <pru_listen>:EAGAIN[TCP] Resource unavailable, try again | |
984 | * <pru_listen>:EPERM[TCP] Operation not permitted | |
985 | * <sf_listen>:??? | |
986 | * | |
987 | * Notes: Other <pru_listen> returns depend on the protocol family; all | |
988 | * <sf_listen> returns depend on what the filter author causes | |
989 | * their filter to return. | |
990 | */ | |
1c79356b | 991 | int |
2d21ac55 | 992 | solisten(struct socket *so, int backlog) |
1c79356b | 993 | { |
1c79356b | 994 | struct proc *p = current_proc(); |
2d21ac55 | 995 | int error = 0; |
1c79356b | 996 | |
91447636 | 997 | socket_lock(so, 1); |
39236c6e A |
998 | |
999 | so_update_last_owner_locked(so, p); | |
1000 | so_update_policy(so); | |
3e170ce0 | 1001 | |
fe8ab488 A |
1002 | #if NECP |
1003 | so_update_necp_policy(so, NULL, NULL); | |
1004 | #endif /* NECP */ | |
3e170ce0 | 1005 | |
2d21ac55 A |
1006 | if (so->so_proto == NULL) { |
1007 | error = EINVAL; | |
1008 | goto out; | |
1009 | } | |
1010 | if ((so->so_proto->pr_flags & PR_CONNREQUIRED) == 0) { | |
1011 | error = EOPNOTSUPP; | |
1012 | goto out; | |
1013 | } | |
1014 | ||
1015 | /* | |
1016 | * If the listen request is made on a socket that is not fully | |
6d2010ae A |
1017 | * disconnected, or on a socket that has been marked as inactive, |
1018 | * reject the request now. | |
2d21ac55 A |
1019 | */ |
1020 | if ((so->so_state & | |
1021 | (SS_ISCONNECTED|SS_ISCONNECTING|SS_ISDISCONNECTING)) || | |
1022 | (so->so_flags & SOF_DEFUNCT)) { | |
1023 | error = EINVAL; | |
6d2010ae | 1024 | if (so->so_flags & SOF_DEFUNCT) { |
39037602 | 1025 | SODEFUNCTLOG("%s[%d, %s]: defunct so 0x%llx [%d,%d] " |
39236c6e | 1026 | "(%d)\n", __func__, proc_pid(p), |
39037602 | 1027 | proc_best_name(p), |
3e170ce0 | 1028 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
39037602 | 1029 | SOCK_DOM(so), SOCK_TYPE(so), error); |
6d2010ae | 1030 | } |
2d21ac55 A |
1031 | goto out; |
1032 | } | |
1033 | ||
39236c6e | 1034 | if ((so->so_restrictions & SO_RESTRICT_DENY_IN) != 0) { |
2d21ac55 A |
1035 | error = EPERM; |
1036 | goto out; | |
1037 | } | |
1038 | ||
6d2010ae | 1039 | error = sflt_listen(so); |
39236c6e | 1040 | if (error == 0) |
91447636 | 1041 | error = (*so->so_proto->pr_usrreqs->pru_listen)(so, p); |
2d21ac55 | 1042 | |
1c79356b | 1043 | if (error) { |
91447636 A |
1044 | if (error == EJUSTRETURN) |
1045 | error = 0; | |
2d21ac55 | 1046 | goto out; |
1c79356b | 1047 | } |
2d21ac55 | 1048 | |
91447636 | 1049 | if (TAILQ_EMPTY(&so->so_comp)) |
1c79356b | 1050 | so->so_options |= SO_ACCEPTCONN; |
2d21ac55 A |
1051 | /* |
1052 | * POSIX: The implementation may have an upper limit on the length of | |
1053 | * the listen queue-either global or per accepting socket. If backlog | |
1054 | * exceeds this limit, the length of the listen queue is set to the | |
1055 | * limit. | |
1056 | * | |
1057 | * If listen() is called with a backlog argument value that is less | |
1058 | * than 0, the function behaves as if it had been called with a backlog | |
1059 | * argument value of 0. | |
1060 | * | |
1061 | * A backlog argument of 0 may allow the socket to accept connections, | |
1062 | * in which case the length of the listen queue may be set to an | |
1063 | * implementation-defined minimum value. | |
1064 | */ | |
1065 | if (backlog <= 0 || backlog > somaxconn) | |
1c79356b | 1066 | backlog = somaxconn; |
1c79356b | 1067 | |
2d21ac55 A |
1068 | so->so_qlimit = backlog; |
1069 | out: | |
91447636 | 1070 | socket_unlock(so, 1); |
2d21ac55 | 1071 | return (error); |
1c79356b A |
1072 | } |
1073 | ||
813fb2f6 A |
1074 | /* |
1075 | * The "accept list lock" protects the fields related to the listener queues | |
1076 | * because we can unlock a socket to respect the lock ordering between | |
1077 | * the listener socket and its clients sockets. The lock ordering is first to | |
1078 | * acquire the client socket before the listener socket. | |
1079 | * | |
1080 | * The accept list lock serializes access to the following fields: | |
1081 | * - of the listener socket: | |
1082 | * - so_comp | |
1083 | * - so_incomp | |
1084 | * - so_qlen | |
1085 | * - so_inqlen | |
1086 | * - of client sockets that are in so_comp or so_incomp: | |
1087 | * - so_head | |
1088 | * - so_list | |
1089 | * | |
1090 | * As one can see the accept list lock protects the consistent of the | |
1091 | * linkage of the client sockets. | |
1092 | * | |
1093 | * Note that those fields may be read without holding the accept list lock | |
1094 | * for a preflight provided the accept list lock is taken when committing | |
1095 | * to take an action based on the result of the preflight. The preflight | |
1096 | * saves the cost of doing the unlock/lock dance. | |
1097 | */ | |
1098 | void | |
1099 | so_acquire_accept_list(struct socket *head, struct socket *so) | |
1100 | { | |
1101 | lck_mtx_t *mutex_held; | |
1102 | ||
1103 | if (head->so_proto->pr_getlock == NULL) { | |
1104 | return; | |
1105 | } | |
5ba3f43e A |
1106 | mutex_held = (*head->so_proto->pr_getlock)(head, PR_F_WILLUNLOCK); |
1107 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); | |
813fb2f6 A |
1108 | |
1109 | if (!(head->so_flags1 & SOF1_ACCEPT_LIST_HELD)) { | |
1110 | head->so_flags1 |= SOF1_ACCEPT_LIST_HELD; | |
1111 | return; | |
1112 | } | |
1113 | if (so != NULL) { | |
1114 | socket_unlock(so, 0); | |
1115 | } | |
1116 | while (head->so_flags1 & SOF1_ACCEPT_LIST_HELD) { | |
1117 | so_accept_list_waits += 1; | |
1118 | msleep((caddr_t)&head->so_incomp, mutex_held, | |
1119 | PSOCK | PCATCH, __func__, NULL); | |
1120 | } | |
1121 | head->so_flags1 |= SOF1_ACCEPT_LIST_HELD; | |
1122 | if (so != NULL) { | |
1123 | socket_unlock(head, 0); | |
1124 | socket_lock(so, 0); | |
1125 | socket_lock(head, 0); | |
1126 | } | |
1127 | } | |
1128 | ||
1129 | void | |
1130 | so_release_accept_list(struct socket *head) | |
1131 | { | |
1132 | if (head->so_proto->pr_getlock != NULL) { | |
1133 | lck_mtx_t *mutex_held; | |
1134 | ||
1135 | mutex_held = (*head->so_proto->pr_getlock)(head, 0); | |
5ba3f43e A |
1136 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); |
1137 | ||
813fb2f6 A |
1138 | head->so_flags1 &= ~SOF1_ACCEPT_LIST_HELD; |
1139 | wakeup((caddr_t)&head->so_incomp); | |
1140 | } | |
1141 | } | |
1142 | ||
1c79356b | 1143 | void |
2d21ac55 | 1144 | sofreelastref(struct socket *so, int dealloc) |
9bccf70c | 1145 | { |
1c79356b A |
1146 | struct socket *head = so->so_head; |
1147 | ||
2d21ac55 | 1148 | /* Assume socket is locked */ |
1c79356b | 1149 | |
39236c6e | 1150 | if (!(so->so_flags & SOF_PCBCLEARING) || !(so->so_state & SS_NOFDREF)) { |
0b4e3aa0 A |
1151 | selthreadclear(&so->so_snd.sb_sel); |
1152 | selthreadclear(&so->so_rcv.sb_sel); | |
39236c6e A |
1153 | so->so_rcv.sb_flags &= ~(SB_SEL|SB_UPCALL); |
1154 | so->so_snd.sb_flags &= ~(SB_SEL|SB_UPCALL); | |
fe8ab488 | 1155 | so->so_event = sonullevent; |
1c79356b | 1156 | return; |
0b4e3aa0 | 1157 | } |
9bccf70c | 1158 | if (head != NULL) { |
d190cdc3 A |
1159 | /* |
1160 | * Need to lock the listener when the protocol has | |
1161 | * per socket locks | |
1162 | */ | |
813fb2f6 | 1163 | if (head->so_proto->pr_getlock != NULL) { |
d190cdc3 | 1164 | socket_lock(head, 1); |
813fb2f6 A |
1165 | so_acquire_accept_list(head, so); |
1166 | } | |
9bccf70c | 1167 | if (so->so_state & SS_INCOMP) { |
d190cdc3 | 1168 | so->so_state &= ~SS_INCOMP; |
9bccf70c A |
1169 | TAILQ_REMOVE(&head->so_incomp, so, so_list); |
1170 | head->so_incqlen--; | |
d190cdc3 A |
1171 | head->so_qlen--; |
1172 | so->so_head = NULL; | |
813fb2f6 A |
1173 | |
1174 | if (head->so_proto->pr_getlock != NULL) { | |
1175 | so_release_accept_list(head); | |
1176 | socket_unlock(head, 1); | |
1177 | } | |
9bccf70c | 1178 | } else if (so->so_state & SS_COMP) { |
813fb2f6 A |
1179 | if (head->so_proto->pr_getlock != NULL) { |
1180 | so_release_accept_list(head); | |
1181 | socket_unlock(head, 1); | |
1182 | } | |
9bccf70c A |
1183 | /* |
1184 | * We must not decommission a socket that's | |
1185 | * on the accept(2) queue. If we do, then | |
1186 | * accept(2) may hang after select(2) indicated | |
1187 | * that the listening socket was ready. | |
1188 | */ | |
9bccf70c A |
1189 | selthreadclear(&so->so_snd.sb_sel); |
1190 | selthreadclear(&so->so_rcv.sb_sel); | |
39236c6e A |
1191 | so->so_rcv.sb_flags &= ~(SB_SEL|SB_UPCALL); |
1192 | so->so_snd.sb_flags &= ~(SB_SEL|SB_UPCALL); | |
fe8ab488 | 1193 | so->so_event = sonullevent; |
9bccf70c A |
1194 | return; |
1195 | } else { | |
813fb2f6 A |
1196 | if (head->so_proto->pr_getlock != NULL) { |
1197 | so_release_accept_list(head); | |
5ba3f43e A |
1198 | socket_unlock(head, 1); |
1199 | } | |
813fb2f6 | 1200 | printf("sofree: not queued\n"); |
9bccf70c | 1201 | } |
1c79356b | 1202 | } |
39236c6e | 1203 | sowflush(so); |
1c79356b | 1204 | sorflush(so); |
2d21ac55 | 1205 | |
39236c6e A |
1206 | #if FLOW_DIVERT |
1207 | if (so->so_flags & SOF_FLOW_DIVERT) { | |
1208 | flow_divert_detach(so); | |
1209 | } | |
1210 | #endif /* FLOW_DIVERT */ | |
1211 | ||
91447636 A |
1212 | /* 3932268: disable upcall */ |
1213 | so->so_rcv.sb_flags &= ~SB_UPCALL; | |
39037602 | 1214 | so->so_snd.sb_flags &= ~(SB_UPCALL|SB_SNDBYTE_CNT); |
fe8ab488 | 1215 | so->so_event = sonullevent; |
2d21ac55 | 1216 | |
91447636 A |
1217 | if (dealloc) |
1218 | sodealloc(so); | |
1c79356b A |
1219 | } |
1220 | ||
2d21ac55 A |
1221 | void |
1222 | soclose_wait_locked(struct socket *so) | |
1223 | { | |
1224 | lck_mtx_t *mutex_held; | |
1225 | ||
1226 | if (so->so_proto->pr_getlock != NULL) | |
5ba3f43e | 1227 | mutex_held = (*so->so_proto->pr_getlock)(so, PR_F_WILLUNLOCK); |
2d21ac55 A |
1228 | else |
1229 | mutex_held = so->so_proto->pr_domain->dom_mtx; | |
5ba3f43e | 1230 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); |
2d21ac55 | 1231 | |
4a3eedf9 A |
1232 | /* |
1233 | * Double check here and return if there's no outstanding upcall; | |
1234 | * otherwise proceed further only if SOF_UPCALLCLOSEWAIT is set. | |
1235 | */ | |
316670eb | 1236 | if (!so->so_upcallusecount || !(so->so_flags & SOF_UPCALLCLOSEWAIT)) |
2d21ac55 | 1237 | return; |
316670eb A |
1238 | so->so_rcv.sb_flags &= ~SB_UPCALL; |
1239 | so->so_snd.sb_flags &= ~SB_UPCALL; | |
2d21ac55 | 1240 | so->so_flags |= SOF_CLOSEWAIT; |
5ba3f43e | 1241 | |
39236c6e | 1242 | (void) msleep((caddr_t)&so->so_upcallusecount, mutex_held, (PZERO - 1), |
2d21ac55 | 1243 | "soclose_wait_locked", NULL); |
5ba3f43e | 1244 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); |
2d21ac55 A |
1245 | so->so_flags &= ~SOF_CLOSEWAIT; |
1246 | } | |
1247 | ||
1c79356b A |
1248 | /* |
1249 | * Close a socket on last file table reference removal. | |
1250 | * Initiate disconnect if connected. | |
1251 | * Free socket when disconnect complete. | |
1252 | */ | |
1253 | int | |
2d21ac55 | 1254 | soclose_locked(struct socket *so) |
1c79356b | 1255 | { |
1c79356b | 1256 | int error = 0; |
91447636 | 1257 | struct timespec ts; |
1c79356b | 1258 | |
91447636 | 1259 | if (so->so_usecount == 0) { |
2d21ac55 | 1260 | panic("soclose: so=%p refcount=0\n", so); |
39236c6e | 1261 | /* NOTREACHED */ |
1c79356b A |
1262 | } |
1263 | ||
91447636 | 1264 | sflt_notify(so, sock_evt_closing, NULL); |
2d21ac55 | 1265 | |
39236c6e A |
1266 | if (so->so_upcallusecount) |
1267 | soclose_wait_locked(so); | |
1268 | ||
fe8ab488 A |
1269 | #if CONTENT_FILTER |
1270 | /* | |
1271 | * We have to wait until the content filters are done | |
1272 | */ | |
1273 | if ((so->so_flags & SOF_CONTENT_FILTER) != 0) { | |
1274 | cfil_sock_close_wait(so); | |
1275 | cfil_sock_is_closed(so); | |
1276 | cfil_sock_detach(so); | |
1277 | } | |
1278 | #endif /* CONTENT_FILTER */ | |
1279 | ||
3e170ce0 A |
1280 | if (so->so_flags1 & SOF1_EXTEND_BK_IDLE_INPROG) { |
1281 | soresume(current_proc(), so, 1); | |
1282 | so->so_flags1 &= ~SOF1_EXTEND_BK_IDLE_WANTED; | |
1283 | } | |
1284 | ||
91447636 | 1285 | if ((so->so_options & SO_ACCEPTCONN)) { |
813fb2f6 A |
1286 | struct socket *sp, *sonext; |
1287 | int persocklock = 0; | |
1288 | int incomp_overflow_only; | |
2d21ac55 A |
1289 | |
1290 | /* | |
1291 | * We do not want new connection to be added | |
1292 | * to the connection queues | |
1293 | */ | |
91447636 | 1294 | so->so_options &= ~SO_ACCEPTCONN; |
2d21ac55 | 1295 | |
813fb2f6 A |
1296 | /* |
1297 | * We can drop the lock on the listener once | |
1298 | * we've acquired the incoming list | |
1299 | */ | |
1300 | if (so->so_proto->pr_getlock != NULL) { | |
1301 | persocklock = 1; | |
1302 | so_acquire_accept_list(so, NULL); | |
1303 | socket_unlock(so, 0); | |
1304 | } | |
1305 | again: | |
1306 | incomp_overflow_only = 1; | |
2d21ac55 | 1307 | |
813fb2f6 | 1308 | TAILQ_FOREACH_SAFE(sp, &so->so_incomp, so_list, sonext) { |
39236c6e A |
1309 | /* |
1310 | * Radar 5350314 | |
2d21ac55 A |
1311 | * skip sockets thrown away by tcpdropdropblreq |
1312 | * they will get cleanup by the garbage collection. | |
1313 | * otherwise, remove the incomp socket from the queue | |
1314 | * and let soabort trigger the appropriate cleanup. | |
91447636 | 1315 | */ |
39236c6e | 1316 | if (sp->so_flags & SOF_OVERFLOW) |
2d21ac55 A |
1317 | continue; |
1318 | ||
813fb2f6 | 1319 | if (persocklock != 0) |
ff6e181a | 1320 | socket_lock(sp, 1); |
2d21ac55 | 1321 | |
d190cdc3 A |
1322 | /* |
1323 | * Radar 27945981 | |
1324 | * The extra reference for the list insure the | |
1325 | * validity of the socket pointer when we perform the | |
1326 | * unlock of the head above | |
1327 | */ | |
2d21ac55 A |
1328 | if (sp->so_state & SS_INCOMP) { |
1329 | sp->so_state &= ~SS_INCOMP; | |
1330 | sp->so_head = NULL; | |
d190cdc3 A |
1331 | TAILQ_REMOVE(&so->so_incomp, sp, so_list); |
1332 | so->so_incqlen--; | |
1333 | so->so_qlen--; | |
2d21ac55 A |
1334 | |
1335 | (void) soabort(sp); | |
813fb2f6 A |
1336 | } else { |
1337 | panic("%s sp %p in so_incomp but !SS_INCOMP", | |
1338 | __func__, sp); | |
ff6e181a | 1339 | } |
2d21ac55 | 1340 | |
813fb2f6 | 1341 | if (persocklock != 0) |
2d21ac55 | 1342 | socket_unlock(sp, 1); |
91447636 A |
1343 | } |
1344 | ||
813fb2f6 | 1345 | TAILQ_FOREACH_SAFE(sp, &so->so_comp, so_list, sonext) { |
91447636 | 1346 | /* Dequeue from so_comp since sofree() won't do it */ |
813fb2f6 | 1347 | if (persocklock != 0) |
ff6e181a | 1348 | socket_lock(sp, 1); |
ff6e181a | 1349 | |
2d21ac55 A |
1350 | if (sp->so_state & SS_COMP) { |
1351 | sp->so_state &= ~SS_COMP; | |
1352 | sp->so_head = NULL; | |
d190cdc3 A |
1353 | TAILQ_REMOVE(&so->so_comp, sp, so_list); |
1354 | so->so_qlen--; | |
2d21ac55 A |
1355 | |
1356 | (void) soabort(sp); | |
813fb2f6 A |
1357 | } else { |
1358 | panic("%s sp %p in so_comp but !SS_COMP", | |
1359 | __func__, sp); | |
2d21ac55 | 1360 | } |
91447636 | 1361 | |
813fb2f6 | 1362 | if (persocklock) |
91447636 | 1363 | socket_unlock(sp, 1); |
ff6e181a | 1364 | } |
813fb2f6 A |
1365 | |
1366 | if (incomp_overflow_only == 0 && !TAILQ_EMPTY(&so->so_incomp)) { | |
1367 | #if (DEBUG|DEVELOPMENT) | |
1368 | panic("%s head %p so_comp not empty\n", __func__, so); | |
1369 | #endif /* (DEVELOPMENT || DEBUG) */ | |
1370 | ||
1371 | goto again; | |
91447636 | 1372 | } |
813fb2f6 A |
1373 | |
1374 | if (!TAILQ_EMPTY(&so->so_comp)) { | |
1375 | #if (DEBUG|DEVELOPMENT) | |
1376 | panic("%s head %p so_comp not empty\n", __func__, so); | |
1377 | #endif /* (DEVELOPMENT || DEBUG) */ | |
1378 | ||
1379 | goto again; | |
1380 | } | |
1381 | ||
1382 | if (persocklock) { | |
1383 | socket_lock(so, 0); | |
1384 | so_release_accept_list(so); | |
1385 | } | |
1386 | } | |
39236c6e | 1387 | if (so->so_pcb == NULL) { |
91447636 A |
1388 | /* 3915887: mark the socket as ready for dealloc */ |
1389 | so->so_flags |= SOF_PCBCLEARING; | |
1c79356b | 1390 | goto discard; |
91447636 | 1391 | } |
1c79356b A |
1392 | if (so->so_state & SS_ISCONNECTED) { |
1393 | if ((so->so_state & SS_ISDISCONNECTING) == 0) { | |
91447636 | 1394 | error = sodisconnectlocked(so); |
1c79356b A |
1395 | if (error) |
1396 | goto drop; | |
1397 | } | |
1398 | if (so->so_options & SO_LINGER) { | |
813fb2f6 A |
1399 | lck_mtx_t *mutex_held; |
1400 | ||
1c79356b A |
1401 | if ((so->so_state & SS_ISDISCONNECTING) && |
1402 | (so->so_state & SS_NBIO)) | |
1403 | goto drop; | |
2d21ac55 | 1404 | if (so->so_proto->pr_getlock != NULL) |
5ba3f43e | 1405 | mutex_held = (*so->so_proto->pr_getlock)(so, PR_F_WILLUNLOCK); |
2d21ac55 | 1406 | else |
91447636 | 1407 | mutex_held = so->so_proto->pr_domain->dom_mtx; |
1c79356b | 1408 | while (so->so_state & SS_ISCONNECTED) { |
91447636 | 1409 | ts.tv_sec = (so->so_linger/100); |
2d21ac55 A |
1410 | ts.tv_nsec = (so->so_linger % 100) * |
1411 | NSEC_PER_USEC * 1000 * 10; | |
1412 | error = msleep((caddr_t)&so->so_timeo, | |
1413 | mutex_held, PSOCK | PCATCH, "soclose", &ts); | |
91447636 | 1414 | if (error) { |
2d21ac55 A |
1415 | /* |
1416 | * It's OK when the time fires, | |
1417 | * don't report an error | |
1418 | */ | |
91447636 A |
1419 | if (error == EWOULDBLOCK) |
1420 | error = 0; | |
1c79356b | 1421 | break; |
91447636 | 1422 | } |
1c79356b A |
1423 | } |
1424 | } | |
1425 | } | |
1426 | drop: | |
39236c6e | 1427 | if (so->so_usecount == 0) { |
2d21ac55 | 1428 | panic("soclose: usecount is zero so=%p\n", so); |
39236c6e A |
1429 | /* NOTREACHED */ |
1430 | } | |
1431 | if (so->so_pcb != NULL && !(so->so_flags & SOF_PCBCLEARING)) { | |
1c79356b A |
1432 | int error2 = (*so->so_proto->pr_usrreqs->pru_detach)(so); |
1433 | if (error == 0) | |
1434 | error = error2; | |
1435 | } | |
39236c6e | 1436 | if (so->so_usecount <= 0) { |
2d21ac55 | 1437 | panic("soclose: usecount is zero so=%p\n", so); |
39236c6e A |
1438 | /* NOTREACHED */ |
1439 | } | |
1c79356b | 1440 | discard: |
39236c6e A |
1441 | if (so->so_pcb != NULL && !(so->so_flags & SOF_MP_SUBFLOW) && |
1442 | (so->so_state & SS_NOFDREF)) { | |
1c79356b | 1443 | panic("soclose: NOFDREF"); |
39236c6e A |
1444 | /* NOTREACHED */ |
1445 | } | |
1c79356b | 1446 | so->so_state |= SS_NOFDREF; |
39236c6e | 1447 | |
316670eb A |
1448 | if ((so->so_flags & SOF_KNOTE) != 0) |
1449 | KNOTE(&so->so_klist, SO_FILT_HINT_LOCKED); | |
39236c6e A |
1450 | |
1451 | atomic_add_32(&so->so_proto->pr_domain->dom_refs, -1); | |
1c79356b | 1452 | evsofree(so); |
39236c6e | 1453 | |
d190cdc3 | 1454 | VERIFY(so->so_usecount > 0); |
91447636 | 1455 | so->so_usecount--; |
1c79356b | 1456 | sofree(so); |
1c79356b A |
1457 | return (error); |
1458 | } | |
1459 | ||
91447636 | 1460 | int |
2d21ac55 | 1461 | soclose(struct socket *so) |
91447636 A |
1462 | { |
1463 | int error = 0; | |
1464 | socket_lock(so, 1); | |
2d21ac55 | 1465 | |
2d21ac55 | 1466 | if (so->so_retaincnt == 0) { |
91447636 | 1467 | error = soclose_locked(so); |
2d21ac55 A |
1468 | } else { |
1469 | /* | |
1470 | * if the FD is going away, but socket is | |
1471 | * retained in kernel remove its reference | |
1472 | */ | |
91447636 A |
1473 | so->so_usecount--; |
1474 | if (so->so_usecount < 2) | |
2d21ac55 A |
1475 | panic("soclose: retaincnt non null and so=%p " |
1476 | "usecount=%d\n", so, so->so_usecount); | |
91447636 A |
1477 | } |
1478 | socket_unlock(so, 1); | |
1479 | return (error); | |
1480 | } | |
1481 | ||
1c79356b A |
1482 | /* |
1483 | * Must be called at splnet... | |
1484 | */ | |
2d21ac55 | 1485 | /* Should already be locked */ |
1c79356b | 1486 | int |
2d21ac55 | 1487 | soabort(struct socket *so) |
1c79356b | 1488 | { |
9bccf70c | 1489 | int error; |
1c79356b | 1490 | |
91447636 | 1491 | #ifdef MORE_LOCKING_DEBUG |
2d21ac55 | 1492 | lck_mtx_t *mutex_held; |
91447636 | 1493 | |
2d21ac55 | 1494 | if (so->so_proto->pr_getlock != NULL) |
91447636 | 1495 | mutex_held = (*so->so_proto->pr_getlock)(so, 0); |
2d21ac55 | 1496 | else |
91447636 | 1497 | mutex_held = so->so_proto->pr_domain->dom_mtx; |
5ba3f43e | 1498 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); |
91447636 A |
1499 | #endif |
1500 | ||
2d21ac55 A |
1501 | if ((so->so_flags & SOF_ABORTED) == 0) { |
1502 | so->so_flags |= SOF_ABORTED; | |
1503 | error = (*so->so_proto->pr_usrreqs->pru_abort)(so); | |
1504 | if (error) { | |
1505 | sofree(so); | |
1506 | return (error); | |
1507 | } | |
9bccf70c A |
1508 | } |
1509 | return (0); | |
1c79356b A |
1510 | } |
1511 | ||
1512 | int | |
2d21ac55 | 1513 | soacceptlock(struct socket *so, struct sockaddr **nam, int dolock) |
9bccf70c | 1514 | { |
1c79356b | 1515 | int error; |
91447636 | 1516 | |
2d21ac55 A |
1517 | if (dolock) |
1518 | socket_lock(so, 1); | |
1c79356b | 1519 | |
39236c6e A |
1520 | so_update_last_owner_locked(so, PROC_NULL); |
1521 | so_update_policy(so); | |
fe8ab488 A |
1522 | #if NECP |
1523 | so_update_necp_policy(so, NULL, NULL); | |
1524 | #endif /* NECP */ | |
39236c6e | 1525 | |
1c79356b A |
1526 | if ((so->so_state & SS_NOFDREF) == 0) |
1527 | panic("soaccept: !NOFDREF"); | |
1528 | so->so_state &= ~SS_NOFDREF; | |
1529 | error = (*so->so_proto->pr_usrreqs->pru_accept)(so, nam); | |
2d21ac55 A |
1530 | |
1531 | if (dolock) | |
1532 | socket_unlock(so, 1); | |
1c79356b A |
1533 | return (error); |
1534 | } | |
2d21ac55 | 1535 | |
91447636 | 1536 | int |
2d21ac55 | 1537 | soaccept(struct socket *so, struct sockaddr **nam) |
91447636 A |
1538 | { |
1539 | return (soacceptlock(so, nam, 1)); | |
1540 | } | |
1c79356b A |
1541 | |
1542 | int | |
d190cdc3 | 1543 | soacceptfilter(struct socket *so, struct socket *head) |
2d21ac55 A |
1544 | { |
1545 | struct sockaddr *local = NULL, *remote = NULL; | |
6d2010ae | 1546 | int error = 0; |
2d21ac55 A |
1547 | |
1548 | /* | |
39236c6e A |
1549 | * Hold the lock even if this socket has not been made visible |
1550 | * to the filter(s). For sockets with global locks, this protects | |
1551 | * against the head or peer going away | |
2d21ac55 | 1552 | */ |
b0d623f7 A |
1553 | socket_lock(so, 1); |
1554 | if (sogetaddr_locked(so, &remote, 1) != 0 || | |
1555 | sogetaddr_locked(so, &local, 0) != 0) { | |
d190cdc3 | 1556 | so->so_state &= ~SS_NOFDREF; |
b0d623f7 | 1557 | socket_unlock(so, 1); |
2d21ac55 A |
1558 | soclose(so); |
1559 | /* Out of resources; try it again next time */ | |
1560 | error = ECONNABORTED; | |
1561 | goto done; | |
1562 | } | |
1563 | ||
6d2010ae | 1564 | error = sflt_accept(head, so, local, remote); |
2d21ac55 A |
1565 | |
1566 | /* | |
1567 | * If we get EJUSTRETURN from one of the filters, mark this socket | |
1568 | * as inactive and return it anyway. This newly accepted socket | |
1569 | * will be disconnected later before we hand it off to the caller. | |
1570 | */ | |
1571 | if (error == EJUSTRETURN) { | |
1572 | error = 0; | |
6d2010ae A |
1573 | (void) sosetdefunct(current_proc(), so, |
1574 | SHUTDOWN_SOCKET_LEVEL_DISCONNECT_INTERNAL, FALSE); | |
2d21ac55 A |
1575 | } |
1576 | ||
1577 | if (error != 0) { | |
1578 | /* | |
1579 | * This may seem like a duplication to the above error | |
1580 | * handling part when we return ECONNABORTED, except | |
1581 | * the following is done while holding the lock since | |
1582 | * the socket has been exposed to the filter(s) earlier. | |
1583 | */ | |
5ba3f43e | 1584 | so->so_state &= ~SS_NOFDREF; |
2d21ac55 A |
1585 | socket_unlock(so, 1); |
1586 | soclose(so); | |
1587 | /* Propagate socket filter's error code to the caller */ | |
1588 | } else { | |
1589 | socket_unlock(so, 1); | |
1590 | } | |
1591 | done: | |
1592 | /* Callee checks for NULL pointer */ | |
1593 | sock_freeaddr(remote); | |
1594 | sock_freeaddr(local); | |
1595 | return (error); | |
1596 | } | |
1c79356b | 1597 | |
2d21ac55 A |
1598 | /* |
1599 | * Returns: 0 Success | |
1600 | * EOPNOTSUPP Operation not supported on socket | |
1601 | * EISCONN Socket is connected | |
1602 | * <pru_connect>:EADDRNOTAVAIL Address not available. | |
1603 | * <pru_connect>:EINVAL Invalid argument | |
1604 | * <pru_connect>:EAFNOSUPPORT Address family not supported [notdef] | |
1605 | * <pru_connect>:EACCES Permission denied | |
1606 | * <pru_connect>:EADDRINUSE Address in use | |
1607 | * <pru_connect>:EAGAIN Resource unavailable, try again | |
1608 | * <pru_connect>:EPERM Operation not permitted | |
1609 | * <sf_connect_out>:??? [anything a filter writer might set] | |
1610 | */ | |
1611 | int | |
1612 | soconnectlock(struct socket *so, struct sockaddr *nam, int dolock) | |
1c79356b | 1613 | { |
1c79356b A |
1614 | int error; |
1615 | struct proc *p = current_proc(); | |
1c79356b | 1616 | |
2d21ac55 A |
1617 | if (dolock) |
1618 | socket_lock(so, 1); | |
39236c6e A |
1619 | |
1620 | so_update_last_owner_locked(so, p); | |
1621 | so_update_policy(so); | |
1622 | ||
fe8ab488 A |
1623 | #if NECP |
1624 | so_update_necp_policy(so, NULL, nam); | |
1625 | #endif /* NECP */ | |
1626 | ||
2d21ac55 A |
1627 | /* |
1628 | * If this is a listening socket or if this is a previously-accepted | |
1629 | * socket that has been marked as inactive, reject the connect request. | |
1630 | */ | |
1631 | if ((so->so_options & SO_ACCEPTCONN) || (so->so_flags & SOF_DEFUNCT)) { | |
6d2010ae A |
1632 | error = EOPNOTSUPP; |
1633 | if (so->so_flags & SOF_DEFUNCT) { | |
39037602 | 1634 | SODEFUNCTLOG("%s[%d, %s]: defunct so 0x%llx [%d,%d] " |
39236c6e | 1635 | "(%d)\n", __func__, proc_pid(p), |
39037602 | 1636 | proc_best_name(p), |
3e170ce0 | 1637 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
39037602 | 1638 | SOCK_DOM(so), SOCK_TYPE(so), error); |
6d2010ae | 1639 | } |
2d21ac55 A |
1640 | if (dolock) |
1641 | socket_unlock(so, 1); | |
6d2010ae | 1642 | return (error); |
91447636 | 1643 | } |
2d21ac55 | 1644 | |
39236c6e | 1645 | if ((so->so_restrictions & SO_RESTRICT_DENY_OUT) != 0) { |
2d21ac55 A |
1646 | if (dolock) |
1647 | socket_unlock(so, 1); | |
1648 | return (EPERM); | |
1649 | } | |
1650 | ||
1c79356b A |
1651 | /* |
1652 | * If protocol is connection-based, can only connect once. | |
1653 | * Otherwise, if connected, try to disconnect first. | |
1654 | * This allows user to disconnect by connecting to, e.g., | |
1655 | * a null address. | |
1656 | */ | |
1657 | if (so->so_state & (SS_ISCONNECTED|SS_ISCONNECTING) && | |
1658 | ((so->so_proto->pr_flags & PR_CONNREQUIRED) || | |
2d21ac55 | 1659 | (error = sodisconnectlocked(so)))) { |
1c79356b | 1660 | error = EISCONN; |
2d21ac55 | 1661 | } else { |
91447636 A |
1662 | /* |
1663 | * Run connect filter before calling protocol: | |
1664 | * - non-blocking connect returns before completion; | |
1665 | */ | |
6d2010ae | 1666 | error = sflt_connectout(so, nam); |
39236c6e | 1667 | if (error != 0) { |
91447636 A |
1668 | if (error == EJUSTRETURN) |
1669 | error = 0; | |
6d2010ae | 1670 | } else { |
39236c6e A |
1671 | error = (*so->so_proto->pr_usrreqs->pru_connect) |
1672 | (so, nam, p); | |
91447636 | 1673 | } |
1c79356b | 1674 | } |
2d21ac55 A |
1675 | if (dolock) |
1676 | socket_unlock(so, 1); | |
1c79356b A |
1677 | return (error); |
1678 | } | |
1679 | ||
91447636 | 1680 | int |
2d21ac55 | 1681 | soconnect(struct socket *so, struct sockaddr *nam) |
91447636 A |
1682 | { |
1683 | return (soconnectlock(so, nam, 1)); | |
1684 | } | |
1685 | ||
2d21ac55 A |
1686 | /* |
1687 | * Returns: 0 Success | |
1688 | * <pru_connect2>:EINVAL[AF_UNIX] | |
1689 | * <pru_connect2>:EPROTOTYPE[AF_UNIX] | |
1690 | * <pru_connect2>:??? [other protocol families] | |
1691 | * | |
1692 | * Notes: <pru_connect2> is not supported by [TCP]. | |
1693 | */ | |
1c79356b | 1694 | int |
2d21ac55 | 1695 | soconnect2(struct socket *so1, struct socket *so2) |
1c79356b | 1696 | { |
1c79356b | 1697 | int error; |
91447636 | 1698 | |
0c530ab8 | 1699 | socket_lock(so1, 1); |
2d21ac55 | 1700 | if (so2->so_proto->pr_lock) |
0c530ab8 | 1701 | socket_lock(so2, 1); |
1c79356b A |
1702 | |
1703 | error = (*so1->so_proto->pr_usrreqs->pru_connect2)(so1, so2); | |
2d21ac55 | 1704 | |
0c530ab8 | 1705 | socket_unlock(so1, 1); |
2d21ac55 | 1706 | if (so2->so_proto->pr_lock) |
0c530ab8 | 1707 | socket_unlock(so2, 1); |
1c79356b A |
1708 | return (error); |
1709 | } | |
1710 | ||
39236c6e | 1711 | int |
813fb2f6 A |
1712 | soconnectxlocked(struct socket *so, struct sockaddr *src, |
1713 | struct sockaddr *dst, struct proc *p, uint32_t ifscope, | |
3e170ce0 A |
1714 | sae_associd_t aid, sae_connid_t *pcid, uint32_t flags, void *arg, |
1715 | uint32_t arglen, uio_t auio, user_ssize_t *bytes_written) | |
39236c6e A |
1716 | { |
1717 | int error; | |
1718 | ||
fe8ab488 A |
1719 | so_update_last_owner_locked(so, p); |
1720 | so_update_policy(so); | |
3e170ce0 | 1721 | |
39236c6e A |
1722 | /* |
1723 | * If this is a listening socket or if this is a previously-accepted | |
1724 | * socket that has been marked as inactive, reject the connect request. | |
1725 | */ | |
1726 | if ((so->so_options & SO_ACCEPTCONN) || (so->so_flags & SOF_DEFUNCT)) { | |
1727 | error = EOPNOTSUPP; | |
1728 | if (so->so_flags & SOF_DEFUNCT) { | |
39037602 | 1729 | SODEFUNCTLOG("%s[%d, %s]: defunct so 0x%llx [%d,%d] " |
39236c6e | 1730 | "(%d)\n", __func__, proc_pid(p), |
39037602 | 1731 | proc_best_name(p), |
3e170ce0 | 1732 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
39037602 | 1733 | SOCK_DOM(so), SOCK_TYPE(so), error); |
39236c6e A |
1734 | } |
1735 | return (error); | |
1736 | } | |
1737 | ||
1738 | if ((so->so_restrictions & SO_RESTRICT_DENY_OUT) != 0) | |
1739 | return (EPERM); | |
1740 | ||
1741 | /* | |
1742 | * If protocol is connection-based, can only connect once | |
1743 | * unless PR_MULTICONN is set. Otherwise, if connected, | |
1744 | * try to disconnect first. This allows user to disconnect | |
1745 | * by connecting to, e.g., a null address. | |
1746 | */ | |
1747 | if ((so->so_state & (SS_ISCONNECTED|SS_ISCONNECTING)) && | |
1748 | !(so->so_proto->pr_flags & PR_MULTICONN) && | |
1749 | ((so->so_proto->pr_flags & PR_CONNREQUIRED) || | |
1750 | (error = sodisconnectlocked(so)) != 0)) { | |
1751 | error = EISCONN; | |
1752 | } else { | |
1753 | /* | |
1754 | * Run connect filter before calling protocol: | |
1755 | * - non-blocking connect returns before completion; | |
1756 | */ | |
813fb2f6 | 1757 | error = sflt_connectout(so, dst); |
39236c6e | 1758 | if (error != 0) { |
490019cf A |
1759 | /* Disable PRECONNECT_DATA, as we don't need to send a SYN anymore. */ |
1760 | so->so_flags1 &= ~SOF1_PRECONNECT_DATA; | |
39236c6e A |
1761 | if (error == EJUSTRETURN) |
1762 | error = 0; | |
1763 | } else { | |
1764 | error = (*so->so_proto->pr_usrreqs->pru_connectx) | |
813fb2f6 | 1765 | (so, src, dst, p, ifscope, aid, pcid, |
3e170ce0 | 1766 | flags, arg, arglen, auio, bytes_written); |
39236c6e A |
1767 | } |
1768 | } | |
1769 | ||
1770 | return (error); | |
1771 | } | |
1772 | ||
1c79356b | 1773 | int |
2d21ac55 | 1774 | sodisconnectlocked(struct socket *so) |
1c79356b | 1775 | { |
1c79356b | 1776 | int error; |
1c79356b A |
1777 | |
1778 | if ((so->so_state & SS_ISCONNECTED) == 0) { | |
1779 | error = ENOTCONN; | |
1780 | goto bad; | |
1781 | } | |
1782 | if (so->so_state & SS_ISDISCONNECTING) { | |
1783 | error = EALREADY; | |
1784 | goto bad; | |
1785 | } | |
2d21ac55 | 1786 | |
1c79356b | 1787 | error = (*so->so_proto->pr_usrreqs->pru_disconnect)(so); |
39236c6e | 1788 | if (error == 0) |
91447636 | 1789 | sflt_notify(so, sock_evt_disconnected, NULL); |
39236c6e | 1790 | |
1c79356b | 1791 | bad: |
1c79356b A |
1792 | return (error); |
1793 | } | |
2d21ac55 A |
1794 | |
1795 | /* Locking version */ | |
91447636 | 1796 | int |
2d21ac55 | 1797 | sodisconnect(struct socket *so) |
91447636 | 1798 | { |
2d21ac55 | 1799 | int error; |
91447636 A |
1800 | |
1801 | socket_lock(so, 1); | |
1802 | error = sodisconnectlocked(so); | |
1803 | socket_unlock(so, 1); | |
2d21ac55 | 1804 | return (error); |
91447636 | 1805 | } |
1c79356b | 1806 | |
39236c6e | 1807 | int |
3e170ce0 | 1808 | sodisconnectxlocked(struct socket *so, sae_associd_t aid, sae_connid_t cid) |
39236c6e A |
1809 | { |
1810 | int error; | |
1811 | ||
1812 | /* | |
1813 | * Call the protocol disconnectx handler; let it handle all | |
1814 | * matters related to the connection state of this session. | |
1815 | */ | |
1816 | error = (*so->so_proto->pr_usrreqs->pru_disconnectx)(so, aid, cid); | |
1817 | if (error == 0) { | |
1818 | /* | |
1819 | * The event applies only for the session, not for | |
1820 | * the disconnection of individual subflows. | |
1821 | */ | |
1822 | if (so->so_state & (SS_ISDISCONNECTING|SS_ISDISCONNECTED)) | |
1823 | sflt_notify(so, sock_evt_disconnected, NULL); | |
1824 | } | |
1825 | return (error); | |
1826 | } | |
1827 | ||
1828 | int | |
3e170ce0 | 1829 | sodisconnectx(struct socket *so, sae_associd_t aid, sae_connid_t cid) |
39236c6e A |
1830 | { |
1831 | int error; | |
1832 | ||
1833 | socket_lock(so, 1); | |
1834 | error = sodisconnectxlocked(so, aid, cid); | |
1835 | socket_unlock(so, 1); | |
1836 | return (error); | |
1837 | } | |
1838 | ||
39236c6e | 1839 | #define SBLOCKWAIT(f) (((f) & MSG_DONTWAIT) ? 0 : SBL_WAIT) |
91447636 A |
1840 | |
1841 | /* | |
1842 | * sosendcheck will lock the socket buffer if it isn't locked and | |
1843 | * verify that there is space for the data being inserted. | |
2d21ac55 A |
1844 | * |
1845 | * Returns: 0 Success | |
1846 | * EPIPE | |
1847 | * sblock:EWOULDBLOCK | |
1848 | * sblock:EINTR | |
1849 | * sbwait:EBADF | |
1850 | * sbwait:EINTR | |
1851 | * [so_error]:??? | |
91447636 | 1852 | */ |
39236c6e A |
1853 | int |
1854 | sosendcheck(struct socket *so, struct sockaddr *addr, user_ssize_t resid, | |
1855 | int32_t clen, int32_t atomic, int flags, int *sblocked, | |
1856 | struct mbuf *control) | |
91447636 | 1857 | { |
39236c6e | 1858 | int error = 0; |
b0d623f7 | 1859 | int32_t space; |
3a60a9f5 | 1860 | int assumelock = 0; |
91447636 A |
1861 | |
1862 | restart: | |
1863 | if (*sblocked == 0) { | |
3a60a9f5 | 1864 | if ((so->so_snd.sb_flags & SB_LOCK) != 0 && |
2d21ac55 A |
1865 | so->so_send_filt_thread != 0 && |
1866 | so->so_send_filt_thread == current_thread()) { | |
3a60a9f5 A |
1867 | /* |
1868 | * We're being called recursively from a filter, | |
1869 | * allow this to continue. Radar 4150520. | |
1870 | * Don't set sblocked because we don't want | |
1871 | * to perform an unlock later. | |
1872 | */ | |
1873 | assumelock = 1; | |
2d21ac55 | 1874 | } else { |
3a60a9f5 A |
1875 | error = sblock(&so->so_snd, SBLOCKWAIT(flags)); |
1876 | if (error) { | |
6d2010ae A |
1877 | if (so->so_flags & SOF_DEFUNCT) |
1878 | goto defunct; | |
2d21ac55 | 1879 | return (error); |
3a60a9f5 A |
1880 | } |
1881 | *sblocked = 1; | |
1882 | } | |
91447636 | 1883 | } |
2d21ac55 A |
1884 | |
1885 | /* | |
6d2010ae A |
1886 | * If a send attempt is made on a socket that has been marked |
1887 | * as inactive (disconnected), reject the request. | |
2d21ac55 | 1888 | */ |
6d2010ae A |
1889 | if (so->so_flags & SOF_DEFUNCT) { |
1890 | defunct: | |
1891 | error = EPIPE; | |
39037602 A |
1892 | SODEFUNCTLOG("%s[%d, %s]: defunct so 0x%llx [%d,%d] (%d)\n", |
1893 | __func__, proc_selfpid(), proc_best_name(current_proc()), | |
3e170ce0 | 1894 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
39037602 | 1895 | SOCK_DOM(so), SOCK_TYPE(so), error); |
6d2010ae A |
1896 | return (error); |
1897 | } | |
2d21ac55 | 1898 | |
fe8ab488 A |
1899 | if (so->so_state & SS_CANTSENDMORE) { |
1900 | #if CONTENT_FILTER | |
1901 | /* | |
1902 | * Can re-inject data of half closed connections | |
1903 | */ | |
1904 | if ((so->so_state & SS_ISDISCONNECTED) == 0 && | |
1905 | so->so_snd.sb_cfil_thread == current_thread() && | |
1906 | cfil_sock_data_pending(&so->so_snd) != 0) | |
1907 | CFIL_LOG(LOG_INFO, | |
1908 | "so %llx ignore SS_CANTSENDMORE", | |
3e170ce0 | 1909 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so)); |
fe8ab488 A |
1910 | else |
1911 | #endif /* CONTENT_FILTER */ | |
1912 | return (EPIPE); | |
1913 | } | |
91447636 A |
1914 | if (so->so_error) { |
1915 | error = so->so_error; | |
1916 | so->so_error = 0; | |
2d21ac55 | 1917 | return (error); |
91447636 | 1918 | } |
2d21ac55 | 1919 | |
91447636 | 1920 | if ((so->so_state & SS_ISCONNECTED) == 0) { |
2d21ac55 | 1921 | if ((so->so_proto->pr_flags & PR_CONNREQUIRED) != 0) { |
fe8ab488 | 1922 | if (((so->so_state & SS_ISCONFIRMING) == 0) && |
3e170ce0 | 1923 | (resid != 0 || clen == 0) && |
5ba3f43e | 1924 | !(so->so_flags1 & SOF1_PRECONNECT_DATA)) |
2d21ac55 | 1925 | return (ENOTCONN); |
5ba3f43e | 1926 | |
2d21ac55 A |
1927 | } else if (addr == 0 && !(flags&MSG_HOLD)) { |
1928 | return ((so->so_proto->pr_flags & PR_CONNREQUIRED) ? | |
1929 | ENOTCONN : EDESTADDRREQ); | |
1930 | } | |
91447636 | 1931 | } |
3e170ce0 | 1932 | |
39236c6e A |
1933 | if (so->so_flags & SOF_ENABLE_MSGS) |
1934 | space = msgq_sbspace(so, control); | |
1935 | else | |
1936 | space = sbspace(&so->so_snd); | |
1937 | ||
91447636 A |
1938 | if (flags & MSG_OOB) |
1939 | space += 1024; | |
1940 | if ((atomic && resid > so->so_snd.sb_hiwat) || | |
2d21ac55 A |
1941 | clen > so->so_snd.sb_hiwat) |
1942 | return (EMSGSIZE); | |
39236c6e | 1943 | |
316670eb | 1944 | if ((space < resid + clen && |
3e170ce0 A |
1945 | (atomic || (space < (int32_t)so->so_snd.sb_lowat) || |
1946 | space < clen)) || | |
316670eb | 1947 | (so->so_type == SOCK_STREAM && so_wait_for_if_feedback(so))) { |
3e170ce0 A |
1948 | /* |
1949 | * don't block the connectx call when there's more data | |
1950 | * than can be copied. | |
1951 | */ | |
1952 | if (so->so_flags1 & SOF1_PRECONNECT_DATA) { | |
1953 | if (space == 0) { | |
1954 | return (EWOULDBLOCK); | |
1955 | } | |
1956 | if (space < (int32_t)so->so_snd.sb_lowat) { | |
1957 | return (0); | |
1958 | } | |
1959 | } | |
2d21ac55 A |
1960 | if ((so->so_state & SS_NBIO) || (flags & MSG_NBIO) || |
1961 | assumelock) { | |
1962 | return (EWOULDBLOCK); | |
3a60a9f5 | 1963 | } |
39236c6e | 1964 | sbunlock(&so->so_snd, TRUE); /* keep socket locked */ |
6d2010ae | 1965 | *sblocked = 0; |
91447636 A |
1966 | error = sbwait(&so->so_snd); |
1967 | if (error) { | |
6d2010ae A |
1968 | if (so->so_flags & SOF_DEFUNCT) |
1969 | goto defunct; | |
2d21ac55 | 1970 | return (error); |
91447636 A |
1971 | } |
1972 | goto restart; | |
1973 | } | |
2d21ac55 | 1974 | return (0); |
91447636 A |
1975 | } |
1976 | ||
1c79356b A |
1977 | /* |
1978 | * Send on a socket. | |
1979 | * If send must go all at once and message is larger than | |
1980 | * send buffering, then hard error. | |
1981 | * Lock against other senders. | |
1982 | * If must go all at once and not enough room now, then | |
1983 | * inform user that this would block and do nothing. | |
1984 | * Otherwise, if nonblocking, send as much as possible. | |
1985 | * The data to be sent is described by "uio" if nonzero, | |
1986 | * otherwise by the mbuf chain "top" (which must be null | |
1987 | * if uio is not). Data provided in mbuf chain must be small | |
1988 | * enough to send all at once. | |
1989 | * | |
1990 | * Returns nonzero on error, timeout or signal; callers | |
1991 | * must check for short counts if EINTR/ERESTART are returned. | |
1992 | * Data and control buffers are freed on return. | |
1993 | * Experiment: | |
1994 | * MSG_HOLD: go thru most of sosend(), but just enqueue the mbuf | |
1995 | * MSG_SEND: go thru as for MSG_HOLD on current fragment, then | |
1996 | * point at the mbuf chain being constructed and go from there. | |
2d21ac55 A |
1997 | * |
1998 | * Returns: 0 Success | |
1999 | * EOPNOTSUPP | |
2000 | * EINVAL | |
2001 | * ENOBUFS | |
2002 | * uiomove:EFAULT | |
2003 | * sosendcheck:EPIPE | |
2004 | * sosendcheck:EWOULDBLOCK | |
2005 | * sosendcheck:EINTR | |
2006 | * sosendcheck:EBADF | |
2007 | * sosendcheck:EINTR | |
2008 | * sosendcheck:??? [value from so_error] | |
2009 | * <pru_send>:ECONNRESET[TCP] | |
2010 | * <pru_send>:EINVAL[TCP] | |
2011 | * <pru_send>:ENOBUFS[TCP] | |
2012 | * <pru_send>:EADDRINUSE[TCP] | |
2013 | * <pru_send>:EADDRNOTAVAIL[TCP] | |
2014 | * <pru_send>:EAFNOSUPPORT[TCP] | |
2015 | * <pru_send>:EACCES[TCP] | |
2016 | * <pru_send>:EAGAIN[TCP] | |
2017 | * <pru_send>:EPERM[TCP] | |
2018 | * <pru_send>:EMSGSIZE[TCP] | |
2019 | * <pru_send>:EHOSTUNREACH[TCP] | |
2020 | * <pru_send>:ENETUNREACH[TCP] | |
2021 | * <pru_send>:ENETDOWN[TCP] | |
2022 | * <pru_send>:ENOMEM[TCP] | |
2023 | * <pru_send>:ENOBUFS[TCP] | |
2024 | * <pru_send>:???[TCP] [ignorable: mostly IPSEC/firewall/DLIL] | |
2025 | * <pru_send>:EINVAL[AF_UNIX] | |
2026 | * <pru_send>:EOPNOTSUPP[AF_UNIX] | |
2027 | * <pru_send>:EPIPE[AF_UNIX] | |
2028 | * <pru_send>:ENOTCONN[AF_UNIX] | |
2029 | * <pru_send>:EISCONN[AF_UNIX] | |
2030 | * <pru_send>:???[AF_UNIX] [whatever a filter author chooses] | |
2031 | * <sf_data_out>:??? [whatever a filter author chooses] | |
2032 | * | |
2033 | * Notes: Other <pru_send> returns depend on the protocol family; all | |
2034 | * <sf_data_out> returns depend on what the filter author causes | |
2035 | * their filter to return. | |
1c79356b A |
2036 | */ |
2037 | int | |
2d21ac55 A |
2038 | sosend(struct socket *so, struct sockaddr *addr, struct uio *uio, |
2039 | struct mbuf *top, struct mbuf *control, int flags) | |
1c79356b A |
2040 | { |
2041 | struct mbuf **mp; | |
39236c6e | 2042 | struct mbuf *m, *freelist = NULL; |
3e170ce0 | 2043 | user_ssize_t space, len, resid, orig_resid; |
91447636 | 2044 | int clen = 0, error, dontroute, mlen, sendflags; |
1c79356b | 2045 | int atomic = sosendallatonce(so) || top; |
91447636 | 2046 | int sblocked = 0; |
1c79356b | 2047 | struct proc *p = current_proc(); |
39236c6e | 2048 | struct mbuf *control_copy = NULL; |
3e170ce0 A |
2049 | uint16_t headroom = 0; |
2050 | boolean_t en_tracing = FALSE; | |
1c79356b | 2051 | |
39236c6e | 2052 | if (uio != NULL) |
91447636 | 2053 | resid = uio_resid(uio); |
39236c6e | 2054 | else |
1c79356b | 2055 | resid = top->m_pkthdr.len; |
39236c6e | 2056 | |
2d21ac55 A |
2057 | KERNEL_DEBUG((DBG_FNC_SOSEND | DBG_FUNC_START), so, resid, |
2058 | so->so_snd.sb_cc, so->so_snd.sb_lowat, so->so_snd.sb_hiwat); | |
1c79356b | 2059 | |
91447636 | 2060 | socket_lock(so, 1); |
fe8ab488 | 2061 | |
3e170ce0 A |
2062 | /* |
2063 | * trace if tracing & network (vs. unix) sockets & and | |
2064 | * non-loopback | |
2065 | */ | |
2066 | if (ENTR_SHOULDTRACE && | |
2067 | (SOCK_CHECK_DOM(so, AF_INET) || SOCK_CHECK_DOM(so, AF_INET6))) { | |
2068 | struct inpcb *inp = sotoinpcb(so); | |
2069 | if (inp->inp_last_outifp != NULL && | |
2070 | !(inp->inp_last_outifp->if_flags & IFF_LOOPBACK)) { | |
2071 | en_tracing = TRUE; | |
2072 | KERNEL_ENERGYTRACE(kEnTrActKernSockWrite, DBG_FUNC_START, | |
2073 | VM_KERNEL_ADDRPERM(so), | |
2074 | ((so->so_state & SS_NBIO) ? kEnTrFlagNonBlocking : 0), | |
2075 | (int64_t)resid); | |
2076 | orig_resid = resid; | |
2077 | } | |
2078 | } | |
2079 | ||
fe8ab488 A |
2080 | /* |
2081 | * Re-injection should not affect process accounting | |
2082 | */ | |
2083 | if ((flags & MSG_SKIPCFIL) == 0) { | |
3e170ce0 A |
2084 | so_update_last_owner_locked(so, p); |
2085 | so_update_policy(so); | |
2086 | ||
fe8ab488 | 2087 | #if NECP |
3e170ce0 | 2088 | so_update_necp_policy(so, NULL, addr); |
fe8ab488 A |
2089 | #endif /* NECP */ |
2090 | } | |
3e170ce0 | 2091 | |
2d21ac55 A |
2092 | if (so->so_type != SOCK_STREAM && (flags & MSG_OOB) != 0) { |
2093 | error = EOPNOTSUPP; | |
5ba3f43e | 2094 | goto out_locked; |
2d21ac55 | 2095 | } |
91447636 | 2096 | |
1c79356b A |
2097 | /* |
2098 | * In theory resid should be unsigned. | |
2099 | * However, space must be signed, as it might be less than 0 | |
2100 | * if we over-committed, and we must use a signed comparison | |
2101 | * of space and resid. On the other hand, a negative resid | |
2102 | * causes us to loop sending 0-length segments to the protocol. | |
2103 | * | |
39236c6e A |
2104 | * Usually, MSG_EOR isn't used on SOCK_STREAM type sockets. |
2105 | * But it will be used by sockets doing message delivery. | |
2106 | * | |
fe8ab488 | 2107 | * Note: We limit resid to be a positive int value as we use |
39236c6e | 2108 | * imin() to set bytes_to_copy -- radr://14558484 |
1c79356b | 2109 | */ |
fe8ab488 | 2110 | if (resid < 0 || resid > INT_MAX || (so->so_type == SOCK_STREAM && |
39236c6e | 2111 | !(so->so_flags & SOF_ENABLE_MSGS) && (flags & MSG_EOR))) { |
1c79356b | 2112 | error = EINVAL; |
5ba3f43e | 2113 | goto out_locked; |
1c79356b A |
2114 | } |
2115 | ||
39236c6e A |
2116 | dontroute = (flags & MSG_DONTROUTE) && |
2117 | (so->so_options & SO_DONTROUTE) == 0 && | |
1c79356b | 2118 | (so->so_proto->pr_flags & PR_ATOMIC); |
b0d623f7 | 2119 | OSIncrementAtomicLong(&p->p_stats->p_ru.ru_msgsnd); |
39236c6e A |
2120 | |
2121 | if (control != NULL) | |
1c79356b | 2122 | clen = control->m_len; |
1c79356b | 2123 | |
3e170ce0 A |
2124 | if (soreserveheadroom != 0) |
2125 | headroom = so->so_pktheadroom; | |
2126 | ||
1c79356b | 2127 | do { |
2d21ac55 | 2128 | error = sosendcheck(so, addr, resid, clen, atomic, flags, |
39236c6e A |
2129 | &sblocked, control); |
2130 | if (error) | |
5ba3f43e | 2131 | goto out_locked; |
39236c6e | 2132 | |
1c79356b | 2133 | mp = ⊤ |
39236c6e A |
2134 | if (so->so_flags & SOF_ENABLE_MSGS) |
2135 | space = msgq_sbspace(so, control); | |
2136 | else | |
2137 | space = sbspace(&so->so_snd) - clen; | |
2138 | space += ((flags & MSG_OOB) ? 1024 : 0); | |
fa4905b1 | 2139 | |
1c79356b | 2140 | do { |
2d21ac55 | 2141 | if (uio == NULL) { |
91447636 A |
2142 | /* |
2143 | * Data is prepackaged in "top". | |
2144 | */ | |
2145 | resid = 0; | |
1c79356b A |
2146 | if (flags & MSG_EOR) |
2147 | top->m_flags |= M_EOR; | |
91447636 | 2148 | } else { |
2d21ac55 A |
2149 | int chainlength; |
2150 | int bytes_to_copy; | |
2151 | boolean_t jumbocl; | |
fe8ab488 | 2152 | boolean_t bigcl; |
3e170ce0 | 2153 | int bytes_to_alloc; |
2d21ac55 | 2154 | |
b0d623f7 | 2155 | bytes_to_copy = imin(resid, space); |
2d21ac55 | 2156 | |
3e170ce0 A |
2157 | bytes_to_alloc = bytes_to_copy; |
2158 | if (top == NULL) | |
2159 | bytes_to_alloc += headroom; | |
2160 | ||
39236c6e | 2161 | if (sosendminchain > 0) |
91447636 | 2162 | chainlength = 0; |
39236c6e | 2163 | else |
91447636 | 2164 | chainlength = sosendmaxchain; |
2d21ac55 | 2165 | |
fe8ab488 | 2166 | /* |
3e170ce0 A |
2167 | * Use big 4 KB cluster when the outgoing interface |
2168 | * does not prefer 2 KB clusters | |
fe8ab488 | 2169 | */ |
3e170ce0 | 2170 | bigcl = !(so->so_flags1 & SOF1_IF_2KCL) || |
fe8ab488 | 2171 | sosendbigcl_ignore_capab; |
3e170ce0 | 2172 | |
2d21ac55 A |
2173 | /* |
2174 | * Attempt to use larger than system page-size | |
2175 | * clusters for large writes only if there is | |
2176 | * a jumbo cluster pool and if the socket is | |
2177 | * marked accordingly. | |
2178 | */ | |
2179 | jumbocl = sosendjcl && njcl > 0 && | |
2180 | ((so->so_flags & SOF_MULTIPAGES) || | |
fe8ab488 A |
2181 | sosendjcl_ignore_capab) && |
2182 | bigcl; | |
2d21ac55 | 2183 | |
91447636 | 2184 | socket_unlock(so, 0); |
2d21ac55 | 2185 | |
91447636 A |
2186 | do { |
2187 | int num_needed; | |
39236c6e | 2188 | int hdrs_needed = (top == NULL) ? 1 : 0; |
2d21ac55 | 2189 | |
91447636 | 2190 | /* |
2d21ac55 A |
2191 | * try to maintain a local cache of mbuf |
2192 | * clusters needed to complete this | |
2193 | * write the list is further limited to | |
2194 | * the number that are currently needed | |
2195 | * to fill the socket this mechanism | |
2196 | * allows a large number of mbufs/ | |
2197 | * clusters to be grabbed under a single | |
2198 | * mbuf lock... if we can't get any | |
2199 | * clusters, than fall back to trying | |
2200 | * for mbufs if we fail early (or | |
2201 | * miscalcluate the number needed) make | |
2202 | * sure to release any clusters we | |
2203 | * haven't yet consumed. | |
91447636 | 2204 | */ |
2d21ac55 | 2205 | if (freelist == NULL && |
3e170ce0 | 2206 | bytes_to_alloc > MBIGCLBYTES && |
6d2010ae | 2207 | jumbocl) { |
2d21ac55 | 2208 | num_needed = |
3e170ce0 | 2209 | bytes_to_alloc / M16KCLBYTES; |
2d21ac55 | 2210 | |
3e170ce0 | 2211 | if ((bytes_to_alloc - |
2d21ac55 A |
2212 | (num_needed * M16KCLBYTES)) |
2213 | >= MINCLSIZE) | |
2214 | num_needed++; | |
91447636 | 2215 | |
2d21ac55 A |
2216 | freelist = |
2217 | m_getpackets_internal( | |
2218 | (unsigned int *)&num_needed, | |
2219 | hdrs_needed, M_WAIT, 0, | |
2220 | M16KCLBYTES); | |
2221 | /* | |
2222 | * Fall back to 4K cluster size | |
2223 | * if allocation failed | |
2224 | */ | |
2225 | } | |
2226 | ||
2227 | if (freelist == NULL && | |
3e170ce0 | 2228 | bytes_to_alloc > MCLBYTES && |
fe8ab488 | 2229 | bigcl) { |
2d21ac55 | 2230 | num_needed = |
3e170ce0 | 2231 | bytes_to_alloc / MBIGCLBYTES; |
2d21ac55 | 2232 | |
3e170ce0 | 2233 | if ((bytes_to_alloc - |
6d2010ae | 2234 | (num_needed * MBIGCLBYTES)) >= |
2d21ac55 | 2235 | MINCLSIZE) |
91447636 | 2236 | num_needed++; |
2d21ac55 A |
2237 | |
2238 | freelist = | |
2239 | m_getpackets_internal( | |
2240 | (unsigned int *)&num_needed, | |
2241 | hdrs_needed, M_WAIT, 0, | |
6d2010ae | 2242 | MBIGCLBYTES); |
2d21ac55 A |
2243 | /* |
2244 | * Fall back to cluster size | |
2245 | * if allocation failed | |
2246 | */ | |
91447636 | 2247 | } |
2d21ac55 | 2248 | |
3e170ce0 A |
2249 | /* |
2250 | * Allocate a cluster as we want to | |
2251 | * avoid to split the data in more | |
2252 | * that one segment and using MINCLSIZE | |
2253 | * would lead us to allocate two mbufs | |
2254 | */ | |
2255 | if (soreserveheadroom != 0 && | |
2256 | freelist == NULL && | |
2257 | ((top == NULL && | |
2258 | bytes_to_alloc > _MHLEN) || | |
2259 | bytes_to_alloc > _MLEN)) { | |
2260 | num_needed = ROUNDUP(bytes_to_alloc, MCLBYTES) / | |
2261 | MCLBYTES; | |
2262 | freelist = | |
2263 | m_getpackets_internal( | |
2264 | (unsigned int *)&num_needed, | |
2265 | hdrs_needed, M_WAIT, 0, | |
2266 | MCLBYTES); | |
2267 | /* | |
2268 | * Fall back to a single mbuf | |
2269 | * if allocation failed | |
2270 | */ | |
2271 | } else if (freelist == NULL && | |
2272 | bytes_to_alloc > MINCLSIZE) { | |
2d21ac55 | 2273 | num_needed = |
3e170ce0 | 2274 | bytes_to_alloc / MCLBYTES; |
2d21ac55 | 2275 | |
3e170ce0 | 2276 | if ((bytes_to_alloc - |
2d21ac55 A |
2277 | (num_needed * MCLBYTES)) >= |
2278 | MINCLSIZE) | |
91447636 | 2279 | num_needed++; |
2d21ac55 A |
2280 | |
2281 | freelist = | |
2282 | m_getpackets_internal( | |
2283 | (unsigned int *)&num_needed, | |
2284 | hdrs_needed, M_WAIT, 0, | |
2285 | MCLBYTES); | |
2286 | /* | |
2287 | * Fall back to a single mbuf | |
2288 | * if allocation failed | |
2289 | */ | |
91447636 | 2290 | } |
3e170ce0 A |
2291 | /* |
2292 | * For datagram protocols, leave | |
2293 | * headroom for protocol headers | |
2294 | * in the first cluster of the chain | |
2295 | */ | |
2296 | if (freelist != NULL && atomic && | |
2297 | top == NULL && headroom > 0) { | |
2298 | freelist->m_data += headroom; | |
2299 | } | |
39037602 | 2300 | |
3e170ce0 A |
2301 | /* |
2302 | * Fall back to regular mbufs without | |
2303 | * reserving the socket headroom | |
2304 | */ | |
91447636 | 2305 | if (freelist == NULL) { |
39236c6e | 2306 | if (top == NULL) |
2d21ac55 A |
2307 | MGETHDR(freelist, |
2308 | M_WAIT, MT_DATA); | |
91447636 | 2309 | else |
2d21ac55 A |
2310 | MGET(freelist, |
2311 | M_WAIT, MT_DATA); | |
91447636 A |
2312 | |
2313 | if (freelist == NULL) { | |
2314 | error = ENOBUFS; | |
2315 | socket_lock(so, 0); | |
5ba3f43e | 2316 | goto out_locked; |
91447636 A |
2317 | } |
2318 | /* | |
2d21ac55 A |
2319 | * For datagram protocols, |
2320 | * leave room for protocol | |
2321 | * headers in first mbuf. | |
91447636 | 2322 | */ |
39236c6e | 2323 | if (atomic && top == NULL && |
2d21ac55 A |
2324 | bytes_to_copy < MHLEN) { |
2325 | MH_ALIGN(freelist, | |
2326 | bytes_to_copy); | |
2327 | } | |
91447636 A |
2328 | } |
2329 | m = freelist; | |
2330 | freelist = m->m_next; | |
2331 | m->m_next = NULL; | |
2d21ac55 | 2332 | |
91447636 | 2333 | if ((m->m_flags & M_EXT)) |
3e170ce0 A |
2334 | mlen = m->m_ext.ext_size - |
2335 | m_leadingspace(m); | |
91447636 | 2336 | else if ((m->m_flags & M_PKTHDR)) |
2d21ac55 A |
2337 | mlen = |
2338 | MHLEN - m_leadingspace(m); | |
91447636 | 2339 | else |
3e170ce0 | 2340 | mlen = MLEN - m_leadingspace(m); |
b0d623f7 | 2341 | len = imin(mlen, bytes_to_copy); |
91447636 A |
2342 | |
2343 | chainlength += len; | |
2d21ac55 | 2344 | |
91447636 | 2345 | space -= len; |
fa4905b1 | 2346 | |
2d21ac55 | 2347 | error = uiomove(mtod(m, caddr_t), |
b0d623f7 | 2348 | len, uio); |
2d21ac55 | 2349 | |
91447636 | 2350 | resid = uio_resid(uio); |
2d21ac55 | 2351 | |
91447636 A |
2352 | m->m_len = len; |
2353 | *mp = m; | |
2354 | top->m_pkthdr.len += len; | |
2d21ac55 | 2355 | if (error) |
91447636 A |
2356 | break; |
2357 | mp = &m->m_next; | |
2358 | if (resid <= 0) { | |
2359 | if (flags & MSG_EOR) | |
2360 | top->m_flags |= M_EOR; | |
2361 | break; | |
2362 | } | |
2363 | bytes_to_copy = min(resid, space); | |
2d21ac55 A |
2364 | |
2365 | } while (space > 0 && | |
2366 | (chainlength < sosendmaxchain || atomic || | |
2367 | resid < MINCLSIZE)); | |
2368 | ||
91447636 | 2369 | socket_lock(so, 0); |
2d21ac55 | 2370 | |
91447636 | 2371 | if (error) |
5ba3f43e | 2372 | goto out_locked; |
91447636 | 2373 | } |
2d21ac55 A |
2374 | |
2375 | if (flags & (MSG_HOLD|MSG_SEND)) { | |
3a60a9f5 | 2376 | /* Enqueue for later, go away if HOLD */ |
39236c6e | 2377 | struct mbuf *mb1; |
2d21ac55 | 2378 | if (so->so_temp && (flags & MSG_FLUSH)) { |
3a60a9f5 A |
2379 | m_freem(so->so_temp); |
2380 | so->so_temp = NULL; | |
2381 | } | |
2382 | if (so->so_temp) | |
2383 | so->so_tail->m_next = top; | |
2384 | else | |
2385 | so->so_temp = top; | |
2386 | mb1 = top; | |
2387 | while (mb1->m_next) | |
2d21ac55 | 2388 | mb1 = mb1->m_next; |
3a60a9f5 | 2389 | so->so_tail = mb1; |
2d21ac55 | 2390 | if (flags & MSG_HOLD) { |
3a60a9f5 | 2391 | top = NULL; |
5ba3f43e | 2392 | goto out_locked; |
3a60a9f5 A |
2393 | } |
2394 | top = so->so_temp; | |
2d21ac55 A |
2395 | } |
2396 | if (dontroute) | |
2397 | so->so_options |= SO_DONTROUTE; | |
2398 | ||
3e170ce0 A |
2399 | /* |
2400 | * Compute flags here, for pru_send and NKEs | |
2401 | * | |
2402 | * If the user set MSG_EOF, the protocol | |
2403 | * understands this flag and nothing left to | |
2404 | * send then use PRU_SEND_EOF instead of PRU_SEND. | |
2405 | */ | |
2d21ac55 | 2406 | sendflags = (flags & MSG_OOB) ? PRUS_OOB : |
2d21ac55 | 2407 | ((flags & MSG_EOF) && |
3e170ce0 A |
2408 | (so->so_proto->pr_flags & PR_IMPLOPCL) && |
2409 | (resid <= 0)) ? PRUS_EOF : | |
2410 | /* If there is more to send set PRUS_MORETOCOME */ | |
2411 | (resid > 0 && space > 0) ? PRUS_MORETOCOME : 0; | |
2412 | ||
fe8ab488 A |
2413 | if ((flags & MSG_SKIPCFIL) == 0) { |
2414 | /* | |
2415 | * Socket filter processing | |
2416 | */ | |
2417 | error = sflt_data_out(so, addr, &top, | |
2418 | &control, (sendflags & MSG_OOB) ? | |
2419 | sock_data_filt_flag_oob : 0); | |
2420 | if (error) { | |
2421 | if (error == EJUSTRETURN) { | |
2422 | error = 0; | |
2423 | clen = 0; | |
2424 | control = NULL; | |
2425 | top = NULL; | |
2426 | } | |
5ba3f43e | 2427 | goto out_locked; |
91447636 | 2428 | } |
fe8ab488 A |
2429 | #if CONTENT_FILTER |
2430 | /* | |
2431 | * Content filter processing | |
2432 | */ | |
2433 | error = cfil_sock_data_out(so, addr, top, | |
3e170ce0 | 2434 | control, (sendflags & MSG_OOB) ? |
fe8ab488 A |
2435 | sock_data_filt_flag_oob : 0); |
2436 | if (error) { | |
2437 | if (error == EJUSTRETURN) { | |
2438 | error = 0; | |
2439 | clen = 0; | |
2440 | control = NULL; | |
2441 | top = NULL; | |
2442 | } | |
5ba3f43e | 2443 | goto out_locked; |
fe8ab488 A |
2444 | } |
2445 | #endif /* CONTENT_FILTER */ | |
1c79356b | 2446 | } |
39236c6e A |
2447 | if (so->so_flags & SOF_ENABLE_MSGS) { |
2448 | /* | |
2449 | * Make a copy of control mbuf, | |
2450 | * so that msg priority can be | |
2451 | * passed to subsequent mbufs. | |
2452 | */ | |
2453 | control_copy = m_dup(control, M_NOWAIT); | |
2454 | } | |
6d2010ae | 2455 | error = (*so->so_proto->pr_usrreqs->pru_send) |
39236c6e A |
2456 | (so, sendflags, top, addr, control, p); |
2457 | ||
2d21ac55 A |
2458 | if (flags & MSG_SEND) |
2459 | so->so_temp = NULL; | |
39236c6e | 2460 | |
2d21ac55 A |
2461 | if (dontroute) |
2462 | so->so_options &= ~SO_DONTROUTE; | |
2463 | ||
2464 | clen = 0; | |
39236c6e A |
2465 | control = control_copy; |
2466 | control_copy = NULL; | |
2467 | top = NULL; | |
2d21ac55 A |
2468 | mp = ⊤ |
2469 | if (error) | |
5ba3f43e | 2470 | goto out_locked; |
1c79356b A |
2471 | } while (resid && space > 0); |
2472 | } while (resid); | |
2473 | ||
5ba3f43e | 2474 | out_locked: |
3a60a9f5 | 2475 | if (sblocked) |
39236c6e | 2476 | sbunlock(&so->so_snd, FALSE); /* will unlock socket */ |
3a60a9f5 A |
2477 | else |
2478 | socket_unlock(so, 1); | |
39236c6e | 2479 | if (top != NULL) |
1c79356b | 2480 | m_freem(top); |
39236c6e | 2481 | if (control != NULL) |
1c79356b | 2482 | m_freem(control); |
39236c6e | 2483 | if (freelist != NULL) |
2d21ac55 | 2484 | m_freem_list(freelist); |
39236c6e A |
2485 | if (control_copy != NULL) |
2486 | m_freem(control_copy); | |
1c79356b | 2487 | |
5ba3f43e | 2488 | soclearfastopen(so); |
3e170ce0 A |
2489 | |
2490 | if (en_tracing) { | |
2491 | /* resid passed here is the bytes left in uio */ | |
2492 | KERNEL_ENERGYTRACE(kEnTrActKernSockWrite, DBG_FUNC_END, | |
2493 | VM_KERNEL_ADDRPERM(so), | |
2494 | ((error == EWOULDBLOCK) ? kEnTrFlagNoWork : 0), | |
2495 | (int64_t)(orig_resid - resid)); | |
2496 | } | |
2497 | KERNEL_DEBUG(DBG_FNC_SOSEND | DBG_FUNC_END, so, resid, | |
2498 | so->so_snd.sb_cc, space, error); | |
1c79356b A |
2499 | |
2500 | return (error); | |
2501 | } | |
2502 | ||
3e170ce0 A |
2503 | /* |
2504 | * Supported only connected sockets (no address) without ancillary data | |
2505 | * (control mbuf) for atomic protocols | |
2506 | */ | |
fe8ab488 | 2507 | int |
3e170ce0 | 2508 | sosend_list(struct socket *so, struct uio **uioarray, u_int uiocnt, int flags) |
fe8ab488 A |
2509 | { |
2510 | struct mbuf *m, *freelist = NULL; | |
2511 | user_ssize_t len, resid; | |
3e170ce0 A |
2512 | int error, dontroute, mlen; |
2513 | int atomic = sosendallatonce(so); | |
fe8ab488 A |
2514 | int sblocked = 0; |
2515 | struct proc *p = current_proc(); | |
2516 | u_int uiofirst = 0; | |
2517 | u_int uiolast = 0; | |
3e170ce0 A |
2518 | struct mbuf *top = NULL; |
2519 | uint16_t headroom = 0; | |
2520 | boolean_t bigcl; | |
fe8ab488 A |
2521 | |
2522 | KERNEL_DEBUG((DBG_FNC_SOSEND_LIST | DBG_FUNC_START), so, uiocnt, | |
2523 | so->so_snd.sb_cc, so->so_snd.sb_lowat, so->so_snd.sb_hiwat); | |
2524 | ||
2525 | if (so->so_type != SOCK_DGRAM) { | |
2526 | error = EINVAL; | |
2527 | goto out; | |
2528 | } | |
2529 | if (atomic == 0) { | |
2530 | error = EINVAL; | |
2531 | goto out; | |
2532 | } | |
2533 | if (so->so_proto->pr_usrreqs->pru_send_list == NULL) { | |
2534 | error = EPROTONOSUPPORT; | |
2535 | goto out; | |
2536 | } | |
2537 | if (flags & ~(MSG_DONTWAIT | MSG_NBIO)) { | |
2538 | error = EINVAL; | |
2539 | goto out; | |
2540 | } | |
3e170ce0 | 2541 | resid = uio_array_resid(uioarray, uiocnt); |
fe8ab488 A |
2542 | |
2543 | /* | |
2544 | * In theory resid should be unsigned. | |
2545 | * However, space must be signed, as it might be less than 0 | |
2546 | * if we over-committed, and we must use a signed comparison | |
2547 | * of space and resid. On the other hand, a negative resid | |
2548 | * causes us to loop sending 0-length segments to the protocol. | |
2549 | * | |
2550 | * Note: We limit resid to be a positive int value as we use | |
2551 | * imin() to set bytes_to_copy -- radr://14558484 | |
2552 | */ | |
2553 | if (resid < 0 || resid > INT_MAX) { | |
2554 | error = EINVAL; | |
2555 | goto out; | |
2556 | } | |
fe8ab488 A |
2557 | |
2558 | socket_lock(so, 1); | |
2559 | so_update_last_owner_locked(so, p); | |
2560 | so_update_policy(so); | |
3e170ce0 | 2561 | |
fe8ab488 | 2562 | #if NECP |
3e170ce0 | 2563 | so_update_necp_policy(so, NULL, NULL); |
fe8ab488 | 2564 | #endif /* NECP */ |
3e170ce0 | 2565 | |
fe8ab488 A |
2566 | dontroute = (flags & MSG_DONTROUTE) && |
2567 | (so->so_options & SO_DONTROUTE) == 0 && | |
2568 | (so->so_proto->pr_flags & PR_ATOMIC); | |
2569 | OSIncrementAtomicLong(&p->p_stats->p_ru.ru_msgsnd); | |
2570 | ||
3e170ce0 A |
2571 | error = sosendcheck(so, NULL, resid, 0, atomic, flags, |
2572 | &sblocked, NULL); | |
fe8ab488 A |
2573 | if (error) |
2574 | goto release; | |
2575 | ||
3e170ce0 A |
2576 | /* |
2577 | * Use big 4 KB clusters when the outgoing interface does not prefer | |
2578 | * 2 KB clusters | |
2579 | */ | |
2580 | bigcl = !(so->so_flags1 & SOF1_IF_2KCL) || sosendbigcl_ignore_capab; | |
2581 | ||
2582 | if (soreserveheadroom != 0) | |
2583 | headroom = so->so_pktheadroom; | |
2584 | ||
fe8ab488 A |
2585 | do { |
2586 | int i; | |
3e170ce0 A |
2587 | int num_needed = 0; |
2588 | int chainlength; | |
2589 | size_t maxpktlen = 0; | |
2590 | int bytes_to_alloc; | |
fe8ab488 | 2591 | |
3e170ce0 A |
2592 | if (sosendminchain > 0) |
2593 | chainlength = 0; | |
2594 | else | |
2595 | chainlength = sosendmaxchain; | |
fe8ab488 | 2596 | |
3e170ce0 | 2597 | socket_unlock(so, 0); |
fe8ab488 | 2598 | |
3e170ce0 A |
2599 | /* |
2600 | * Find a set of uio that fit in a reasonable number | |
2601 | * of mbuf packets | |
2602 | */ | |
2603 | for (i = uiofirst; i < uiocnt; i++) { | |
2604 | struct uio *auio = uioarray[i]; | |
fe8ab488 | 2605 | |
3e170ce0 | 2606 | len = uio_resid(auio); |
fe8ab488 | 2607 | |
3e170ce0 A |
2608 | /* Do nothing for empty messages */ |
2609 | if (len == 0) | |
2610 | continue; | |
fe8ab488 | 2611 | |
3e170ce0 A |
2612 | num_needed += 1; |
2613 | uiolast += 1; | |
fe8ab488 | 2614 | |
3e170ce0 A |
2615 | if (len > maxpktlen) |
2616 | maxpktlen = len; | |
fe8ab488 | 2617 | |
3e170ce0 A |
2618 | chainlength += len; |
2619 | if (chainlength > sosendmaxchain) | |
fe8ab488 | 2620 | break; |
3e170ce0 A |
2621 | } |
2622 | /* | |
2623 | * Nothing left to send | |
2624 | */ | |
2625 | if (num_needed == 0) { | |
2626 | socket_lock(so, 0); | |
2627 | break; | |
2628 | } | |
2629 | /* | |
2630 | * Allocate buffer large enough to include headroom space for | |
2631 | * network and link header | |
39037602 | 2632 | * |
3e170ce0 A |
2633 | */ |
2634 | bytes_to_alloc = maxpktlen + headroom; | |
2635 | ||
2636 | /* | |
2637 | * Allocate a single contiguous buffer of the smallest available | |
2638 | * size when possible | |
2639 | */ | |
2640 | if (bytes_to_alloc > MCLBYTES && | |
2641 | bytes_to_alloc <= MBIGCLBYTES && bigcl) { | |
2642 | freelist = m_getpackets_internal( | |
2643 | (unsigned int *)&num_needed, | |
2644 | num_needed, M_WAIT, 1, | |
2645 | MBIGCLBYTES); | |
2646 | } else if (bytes_to_alloc > _MHLEN && | |
2647 | bytes_to_alloc <= MCLBYTES) { | |
2648 | freelist = m_getpackets_internal( | |
2649 | (unsigned int *)&num_needed, | |
2650 | num_needed, M_WAIT, 1, | |
2651 | MCLBYTES); | |
2652 | } else { | |
fe8ab488 A |
2653 | freelist = m_allocpacket_internal( |
2654 | (unsigned int *)&num_needed, | |
3e170ce0 A |
2655 | bytes_to_alloc, NULL, M_WAIT, 1, 0); |
2656 | } | |
39037602 | 2657 | |
3e170ce0 A |
2658 | if (freelist == NULL) { |
2659 | socket_lock(so, 0); | |
2660 | error = ENOMEM; | |
2661 | goto release; | |
2662 | } | |
2663 | /* | |
2664 | * Copy each uio of the set into its own mbuf packet | |
2665 | */ | |
2666 | for (i = uiofirst, m = freelist; | |
2667 | i < uiolast && m != NULL; | |
2668 | i++) { | |
2669 | int bytes_to_copy; | |
2670 | struct mbuf *n; | |
2671 | struct uio *auio = uioarray[i]; | |
fe8ab488 | 2672 | |
3e170ce0 A |
2673 | bytes_to_copy = uio_resid(auio); |
2674 | ||
2675 | /* Do nothing for empty messages */ | |
2676 | if (bytes_to_copy == 0) | |
2677 | continue; | |
fe8ab488 | 2678 | /* |
3e170ce0 A |
2679 | * Leave headroom for protocol headers |
2680 | * in the first mbuf of the chain | |
fe8ab488 | 2681 | */ |
3e170ce0 A |
2682 | m->m_data += headroom; |
2683 | ||
2684 | for (n = m; n != NULL; n = n->m_next) { | |
2685 | if ((m->m_flags & M_EXT)) | |
2686 | mlen = m->m_ext.ext_size - | |
2687 | m_leadingspace(m); | |
2688 | else if ((m->m_flags & M_PKTHDR)) | |
2689 | mlen = | |
2690 | MHLEN - m_leadingspace(m); | |
2691 | else | |
2692 | mlen = MLEN - m_leadingspace(m); | |
2693 | len = imin(mlen, bytes_to_copy); | |
fe8ab488 | 2694 | |
3e170ce0 A |
2695 | /* |
2696 | * Note: uiomove() decrements the iovec | |
2697 | * length | |
2698 | */ | |
2699 | error = uiomove(mtod(n, caddr_t), | |
2700 | len, auio); | |
fe8ab488 A |
2701 | if (error != 0) |
2702 | break; | |
3e170ce0 A |
2703 | n->m_len = len; |
2704 | m->m_pkthdr.len += len; | |
fe8ab488 | 2705 | |
3e170ce0 | 2706 | VERIFY(m->m_pkthdr.len <= maxpktlen); |
fe8ab488 | 2707 | |
3e170ce0 A |
2708 | bytes_to_copy -= len; |
2709 | resid -= len; | |
2710 | } | |
2711 | if (m->m_pkthdr.len == 0) { | |
2712 | printf( | |
2713 | "%s:%d so %llx pkt %llx type %u len null\n", | |
2714 | __func__, __LINE__, | |
2715 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
2716 | (uint64_t)DEBUG_KERNEL_ADDRPERM(m), | |
2717 | m->m_type); | |
2718 | } | |
2719 | if (error != 0) | |
2720 | break; | |
2721 | m = m->m_nextpkt; | |
fe8ab488 A |
2722 | } |
2723 | ||
3e170ce0 A |
2724 | socket_lock(so, 0); |
2725 | ||
2726 | if (error) | |
2727 | goto release; | |
2728 | top = freelist; | |
2729 | freelist = NULL; | |
2730 | ||
fe8ab488 A |
2731 | if (dontroute) |
2732 | so->so_options |= SO_DONTROUTE; | |
2733 | ||
2734 | if ((flags & MSG_SKIPCFIL) == 0) { | |
2735 | struct mbuf **prevnextp = NULL; | |
3e170ce0 | 2736 | |
fe8ab488 A |
2737 | for (i = uiofirst, m = top; |
2738 | i < uiolast && m != NULL; | |
2739 | i++) { | |
2740 | struct mbuf *nextpkt = m->m_nextpkt; | |
2741 | ||
2742 | /* | |
2743 | * Socket filter processing | |
2744 | */ | |
3e170ce0 A |
2745 | error = sflt_data_out(so, NULL, &m, |
2746 | NULL, 0); | |
fe8ab488 A |
2747 | if (error != 0 && error != EJUSTRETURN) |
2748 | goto release; | |
3e170ce0 | 2749 | |
fe8ab488 A |
2750 | #if CONTENT_FILTER |
2751 | if (error == 0) { | |
2752 | /* | |
2753 | * Content filter processing | |
2754 | */ | |
3e170ce0 A |
2755 | error = cfil_sock_data_out(so, NULL, m, |
2756 | NULL, 0); | |
fe8ab488 A |
2757 | if (error != 0 && error != EJUSTRETURN) |
2758 | goto release; | |
2759 | } | |
2760 | #endif /* CONTENT_FILTER */ | |
2761 | /* | |
2762 | * Remove packet from the list when | |
2763 | * swallowed by a filter | |
2764 | */ | |
2765 | if (error == EJUSTRETURN) { | |
2766 | error = 0; | |
2767 | if (prevnextp != NULL) | |
2768 | *prevnextp = nextpkt; | |
2769 | else | |
2770 | top = nextpkt; | |
3e170ce0 A |
2771 | } |
2772 | ||
fe8ab488 A |
2773 | m = nextpkt; |
2774 | if (m != NULL) | |
2775 | prevnextp = &m->m_nextpkt; | |
2776 | } | |
2777 | } | |
2778 | if (top != NULL) | |
2779 | error = (*so->so_proto->pr_usrreqs->pru_send_list) | |
3e170ce0 | 2780 | (so, 0, top, NULL, NULL, p); |
fe8ab488 A |
2781 | |
2782 | if (dontroute) | |
2783 | so->so_options &= ~SO_DONTROUTE; | |
2784 | ||
fe8ab488 A |
2785 | top = NULL; |
2786 | uiofirst = uiolast; | |
2787 | } while (resid > 0 && error == 0); | |
2788 | release: | |
2789 | if (sblocked) | |
2790 | sbunlock(&so->so_snd, FALSE); /* will unlock socket */ | |
2791 | else | |
2792 | socket_unlock(so, 1); | |
2793 | out: | |
2794 | if (top != NULL) | |
2795 | m_freem(top); | |
fe8ab488 A |
2796 | if (freelist != NULL) |
2797 | m_freem_list(freelist); | |
2798 | ||
2799 | KERNEL_DEBUG(DBG_FNC_SOSEND_LIST | DBG_FUNC_END, so, resid, | |
2800 | so->so_snd.sb_cc, 0, error); | |
2801 | ||
2802 | return (error); | |
2803 | } | |
2804 | ||
3e170ce0 A |
2805 | /* |
2806 | * May return ERESTART when packet is dropped by MAC policy check | |
2807 | */ | |
2808 | static int | |
2809 | soreceive_addr(struct proc *p, struct socket *so, struct sockaddr **psa, | |
2810 | int flags, struct mbuf **mp, struct mbuf **nextrecordp, int canwait) | |
2811 | { | |
2812 | int error = 0; | |
2813 | struct mbuf *m = *mp; | |
2814 | struct mbuf *nextrecord = *nextrecordp; | |
2815 | ||
2816 | KASSERT(m->m_type == MT_SONAME, ("receive 1a")); | |
2817 | #if CONFIG_MACF_SOCKET_SUBSET | |
2818 | /* | |
2819 | * Call the MAC framework for policy checking if we're in | |
2820 | * the user process context and the socket isn't connected. | |
2821 | */ | |
2822 | if (p != kernproc && !(so->so_state & SS_ISCONNECTED)) { | |
2823 | struct mbuf *m0 = m; | |
2824 | /* | |
2825 | * Dequeue this record (temporarily) from the receive | |
2826 | * list since we're about to drop the socket's lock | |
2827 | * where a new record may arrive and be appended to | |
2828 | * the list. Upon MAC policy failure, the record | |
2829 | * will be freed. Otherwise, we'll add it back to | |
2830 | * the head of the list. We cannot rely on SB_LOCK | |
2831 | * because append operation uses the socket's lock. | |
2832 | */ | |
2833 | do { | |
2834 | m->m_nextpkt = NULL; | |
2835 | sbfree(&so->so_rcv, m); | |
2836 | m = m->m_next; | |
2837 | } while (m != NULL); | |
2838 | m = m0; | |
2839 | so->so_rcv.sb_mb = nextrecord; | |
2840 | SB_EMPTY_FIXUP(&so->so_rcv); | |
2841 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 1a"); | |
2842 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 1a"); | |
2843 | socket_unlock(so, 0); | |
2844 | ||
2845 | if (mac_socket_check_received(proc_ucred(p), so, | |
2846 | mtod(m, struct sockaddr *)) != 0) { | |
2847 | /* | |
2848 | * MAC policy failure; free this record and | |
2849 | * process the next record (or block until | |
2850 | * one is available). We have adjusted sb_cc | |
2851 | * and sb_mbcnt above so there is no need to | |
2852 | * call sbfree() again. | |
2853 | */ | |
2854 | m_freem(m); | |
2855 | /* | |
2856 | * Clear SB_LOCK but don't unlock the socket. | |
2857 | * Process the next record or wait for one. | |
2858 | */ | |
2859 | socket_lock(so, 0); | |
2860 | sbunlock(&so->so_rcv, TRUE); /* stay locked */ | |
2861 | error = ERESTART; | |
2862 | goto done; | |
2863 | } | |
2864 | socket_lock(so, 0); | |
2865 | /* | |
2866 | * If the socket has been defunct'd, drop it. | |
2867 | */ | |
2868 | if (so->so_flags & SOF_DEFUNCT) { | |
2869 | m_freem(m); | |
2870 | error = ENOTCONN; | |
2871 | goto done; | |
2872 | } | |
2873 | /* | |
2874 | * Re-adjust the socket receive list and re-enqueue | |
2875 | * the record in front of any packets which may have | |
2876 | * been appended while we dropped the lock. | |
2877 | */ | |
2878 | for (m = m0; m->m_next != NULL; m = m->m_next) | |
2879 | sballoc(&so->so_rcv, m); | |
2880 | sballoc(&so->so_rcv, m); | |
2881 | if (so->so_rcv.sb_mb == NULL) { | |
2882 | so->so_rcv.sb_lastrecord = m0; | |
2883 | so->so_rcv.sb_mbtail = m; | |
2884 | } | |
2885 | m = m0; | |
2886 | nextrecord = m->m_nextpkt = so->so_rcv.sb_mb; | |
2887 | so->so_rcv.sb_mb = m; | |
2888 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 1b"); | |
2889 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 1b"); | |
2890 | } | |
2891 | #endif /* CONFIG_MACF_SOCKET_SUBSET */ | |
2892 | if (psa != NULL) { | |
2893 | *psa = dup_sockaddr(mtod(m, struct sockaddr *), canwait); | |
2894 | if ((*psa == NULL) && (flags & MSG_NEEDSA)) { | |
2895 | error = EWOULDBLOCK; | |
2896 | goto done; | |
2897 | } | |
2898 | } | |
2899 | if (flags & MSG_PEEK) { | |
2900 | m = m->m_next; | |
2901 | } else { | |
2902 | sbfree(&so->so_rcv, m); | |
2903 | if (m->m_next == NULL && so->so_rcv.sb_cc != 0) { | |
2904 | panic("%s: about to create invalid socketbuf", | |
2905 | __func__); | |
2906 | /* NOTREACHED */ | |
2907 | } | |
2908 | MFREE(m, so->so_rcv.sb_mb); | |
2909 | m = so->so_rcv.sb_mb; | |
2910 | if (m != NULL) { | |
2911 | m->m_nextpkt = nextrecord; | |
2912 | } else { | |
2913 | so->so_rcv.sb_mb = nextrecord; | |
2914 | SB_EMPTY_FIXUP(&so->so_rcv); | |
2915 | } | |
2916 | } | |
2917 | done: | |
2918 | *mp = m; | |
2919 | *nextrecordp = nextrecord; | |
2920 | ||
2921 | return (error); | |
2922 | } | |
2923 | ||
2924 | /* | |
2925 | * Process one or more MT_CONTROL mbufs present before any data mbufs | |
2926 | * in the first mbuf chain on the socket buffer. If MSG_PEEK, we | |
2927 | * just copy the data; if !MSG_PEEK, we call into the protocol to | |
2928 | * perform externalization. | |
2929 | */ | |
2930 | static int | |
2931 | soreceive_ctl(struct socket *so, struct mbuf **controlp, int flags, | |
2932 | struct mbuf **mp, struct mbuf **nextrecordp) | |
2933 | { | |
2934 | int error = 0; | |
2935 | struct mbuf *cm = NULL, *cmn; | |
2936 | struct mbuf **cme = &cm; | |
2937 | struct sockbuf *sb_rcv = &so->so_rcv; | |
2938 | struct mbuf **msgpcm = NULL; | |
2939 | struct mbuf *m = *mp; | |
2940 | struct mbuf *nextrecord = *nextrecordp; | |
2941 | struct protosw *pr = so->so_proto; | |
2942 | ||
2943 | /* | |
2944 | * Externalizing the control messages would require us to | |
2945 | * drop the socket's lock below. Once we re-acquire the | |
2946 | * lock, the mbuf chain might change. In order to preserve | |
2947 | * consistency, we unlink all control messages from the | |
2948 | * first mbuf chain in one shot and link them separately | |
2949 | * onto a different chain. | |
2950 | */ | |
2951 | do { | |
2952 | if (flags & MSG_PEEK) { | |
2953 | if (controlp != NULL) { | |
2954 | if (*controlp == NULL) { | |
2955 | msgpcm = controlp; | |
2956 | } | |
2957 | *controlp = m_copy(m, 0, m->m_len); | |
2958 | ||
2959 | /* | |
2960 | * If we failed to allocate an mbuf, | |
2961 | * release any previously allocated | |
2962 | * mbufs for control data. Return | |
2963 | * an error. Keep the mbufs in the | |
2964 | * socket as this is using | |
2965 | * MSG_PEEK flag. | |
2966 | */ | |
2967 | if (*controlp == NULL) { | |
2968 | m_freem(*msgpcm); | |
2969 | error = ENOBUFS; | |
2970 | goto done; | |
2971 | } | |
2972 | controlp = &(*controlp)->m_next; | |
2973 | } | |
2974 | m = m->m_next; | |
2975 | } else { | |
2976 | m->m_nextpkt = NULL; | |
2977 | sbfree(sb_rcv, m); | |
2978 | sb_rcv->sb_mb = m->m_next; | |
2979 | m->m_next = NULL; | |
2980 | *cme = m; | |
2981 | cme = &(*cme)->m_next; | |
2982 | m = sb_rcv->sb_mb; | |
2983 | } | |
2984 | } while (m != NULL && m->m_type == MT_CONTROL); | |
2985 | ||
2986 | if (!(flags & MSG_PEEK)) { | |
2987 | if (sb_rcv->sb_mb != NULL) { | |
2988 | sb_rcv->sb_mb->m_nextpkt = nextrecord; | |
2989 | } else { | |
2990 | sb_rcv->sb_mb = nextrecord; | |
2991 | SB_EMPTY_FIXUP(sb_rcv); | |
2992 | } | |
2993 | if (nextrecord == NULL) | |
2994 | sb_rcv->sb_lastrecord = m; | |
2995 | } | |
2996 | ||
2997 | SBLASTRECORDCHK(&so->so_rcv, "soreceive ctl"); | |
2998 | SBLASTMBUFCHK(&so->so_rcv, "soreceive ctl"); | |
2999 | ||
3000 | while (cm != NULL) { | |
3001 | int cmsg_type; | |
3002 | ||
3003 | cmn = cm->m_next; | |
3004 | cm->m_next = NULL; | |
3005 | cmsg_type = mtod(cm, struct cmsghdr *)->cmsg_type; | |
3006 | ||
3007 | /* | |
3008 | * Call the protocol to externalize SCM_RIGHTS message | |
3009 | * and return the modified message to the caller upon | |
3010 | * success. Otherwise, all other control messages are | |
3011 | * returned unmodified to the caller. Note that we | |
3012 | * only get into this loop if MSG_PEEK is not set. | |
3013 | */ | |
3014 | if (pr->pr_domain->dom_externalize != NULL && | |
3015 | cmsg_type == SCM_RIGHTS) { | |
3016 | /* | |
3017 | * Release socket lock: see 3903171. This | |
3018 | * would also allow more records to be appended | |
3019 | * to the socket buffer. We still have SB_LOCK | |
3020 | * set on it, so we can be sure that the head | |
3021 | * of the mbuf chain won't change. | |
3022 | */ | |
3023 | socket_unlock(so, 0); | |
3024 | error = (*pr->pr_domain->dom_externalize)(cm); | |
3025 | socket_lock(so, 0); | |
3026 | } else { | |
3027 | error = 0; | |
3028 | } | |
3029 | ||
3030 | if (controlp != NULL && error == 0) { | |
3031 | *controlp = cm; | |
3032 | controlp = &(*controlp)->m_next; | |
3033 | } else { | |
3034 | (void) m_free(cm); | |
3035 | } | |
3036 | cm = cmn; | |
3037 | } | |
3038 | /* | |
3039 | * Update the value of nextrecord in case we received new | |
3040 | * records when the socket was unlocked above for | |
3041 | * externalizing SCM_RIGHTS. | |
3042 | */ | |
3043 | if (m != NULL) | |
3044 | nextrecord = sb_rcv->sb_mb->m_nextpkt; | |
3045 | else | |
3046 | nextrecord = sb_rcv->sb_mb; | |
3047 | ||
3048 | done: | |
3049 | *mp = m; | |
3050 | *nextrecordp = nextrecord; | |
3051 | ||
3052 | return (error); | |
3053 | } | |
3054 | ||
1c79356b A |
3055 | /* |
3056 | * Implement receive operations on a socket. | |
3057 | * We depend on the way that records are added to the sockbuf | |
3058 | * by sbappend*. In particular, each record (mbufs linked through m_next) | |
3059 | * must begin with an address if the protocol so specifies, | |
3060 | * followed by an optional mbuf or mbufs containing ancillary data, | |
3061 | * and then zero or more mbufs of data. | |
3062 | * In order to avoid blocking network interrupts for the entire time here, | |
3063 | * we splx() while doing the actual copy to user space. | |
3064 | * Although the sockbuf is locked, new data may still be appended, | |
3065 | * and thus we must maintain consistency of the sockbuf during that time. | |
3066 | * | |
3067 | * The caller may receive the data as a single mbuf chain by supplying | |
3068 | * an mbuf **mp0 for use in returning the chain. The uio is then used | |
3069 | * only for the count in uio_resid. | |
2d21ac55 A |
3070 | * |
3071 | * Returns: 0 Success | |
3072 | * ENOBUFS | |
3073 | * ENOTCONN | |
3074 | * EWOULDBLOCK | |
3075 | * uiomove:EFAULT | |
3076 | * sblock:EWOULDBLOCK | |
3077 | * sblock:EINTR | |
3078 | * sbwait:EBADF | |
3079 | * sbwait:EINTR | |
3080 | * sodelayed_copy:EFAULT | |
3081 | * <pru_rcvoob>:EINVAL[TCP] | |
3082 | * <pru_rcvoob>:EWOULDBLOCK[TCP] | |
3083 | * <pru_rcvoob>:??? | |
3084 | * <pr_domain->dom_externalize>:EMSGSIZE[AF_UNIX] | |
3085 | * <pr_domain->dom_externalize>:ENOBUFS[AF_UNIX] | |
3086 | * <pr_domain->dom_externalize>:??? | |
3087 | * | |
3088 | * Notes: Additional return values from calls through <pru_rcvoob> and | |
3089 | * <pr_domain->dom_externalize> depend on protocols other than | |
3090 | * TCP or AF_UNIX, which are documented above. | |
1c79356b A |
3091 | */ |
3092 | int | |
2d21ac55 A |
3093 | soreceive(struct socket *so, struct sockaddr **psa, struct uio *uio, |
3094 | struct mbuf **mp0, struct mbuf **controlp, int *flagsp) | |
1c79356b | 3095 | { |
39236c6e A |
3096 | struct mbuf *m, **mp, *ml = NULL; |
3097 | struct mbuf *nextrecord, *free_list; | |
3098 | int flags, error, offset; | |
3099 | user_ssize_t len; | |
1c79356b | 3100 | struct protosw *pr = so->so_proto; |
3e170ce0 | 3101 | int moff, type = 0; |
39236c6e A |
3102 | user_ssize_t orig_resid = uio_resid(uio); |
3103 | user_ssize_t delayed_copy_len; | |
55e303ae A |
3104 | int can_delay; |
3105 | int need_event; | |
3106 | struct proc *p = current_proc(); | |
3e170ce0 | 3107 | boolean_t en_tracing = FALSE; |
1c79356b | 3108 | |
fe8ab488 A |
3109 | /* |
3110 | * Sanity check on the length passed by caller as we are making 'int' | |
3111 | * comparisons | |
3112 | */ | |
3113 | if (orig_resid < 0 || orig_resid > INT_MAX) | |
3114 | return (EINVAL); | |
3115 | ||
3e170ce0 A |
3116 | KERNEL_DEBUG(DBG_FNC_SORECEIVE | DBG_FUNC_START, so, |
3117 | uio_resid(uio), so->so_rcv.sb_cc, so->so_rcv.sb_lowat, | |
3118 | so->so_rcv.sb_hiwat); | |
3119 | ||
91447636 | 3120 | socket_lock(so, 1); |
6d2010ae | 3121 | so_update_last_owner_locked(so, p); |
39236c6e | 3122 | so_update_policy(so); |
1c79356b | 3123 | |
91447636 | 3124 | #ifdef MORE_LOCKING_DEBUG |
39236c6e A |
3125 | if (so->so_usecount == 1) { |
3126 | panic("%s: so=%x no other reference on socket\n", __func__, so); | |
3127 | /* NOTREACHED */ | |
3128 | } | |
91447636 | 3129 | #endif |
1c79356b | 3130 | mp = mp0; |
39236c6e A |
3131 | if (psa != NULL) |
3132 | *psa = NULL; | |
3133 | if (controlp != NULL) | |
3134 | *controlp = NULL; | |
3135 | if (flagsp != NULL) | |
1c79356b A |
3136 | flags = *flagsp &~ MSG_EOR; |
3137 | else | |
3138 | flags = 0; | |
2d21ac55 A |
3139 | |
3140 | /* | |
3141 | * If a recv attempt is made on a previously-accepted socket | |
3142 | * that has been marked as inactive (disconnected), reject | |
3143 | * the request. | |
3144 | */ | |
3145 | if (so->so_flags & SOF_DEFUNCT) { | |
3146 | struct sockbuf *sb = &so->so_rcv; | |
3147 | ||
6d2010ae | 3148 | error = ENOTCONN; |
39037602 A |
3149 | SODEFUNCTLOG("%s[%d, %s]: defunct so 0x%llx [%d,%d] (%d)\n", |
3150 | __func__, proc_pid(p), proc_best_name(p), | |
3151 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
3152 | SOCK_DOM(so), SOCK_TYPE(so), error); | |
2d21ac55 A |
3153 | /* |
3154 | * This socket should have been disconnected and flushed | |
6d2010ae A |
3155 | * prior to being returned from sodefunct(); there should |
3156 | * be no data on its receive list, so panic otherwise. | |
2d21ac55 | 3157 | */ |
6d2010ae A |
3158 | if (so->so_state & SS_DEFUNCT) |
3159 | sb_empty_assert(sb, __func__); | |
2d21ac55 | 3160 | socket_unlock(so, 1); |
6d2010ae | 3161 | return (error); |
2d21ac55 A |
3162 | } |
3163 | ||
3e170ce0 A |
3164 | if ((so->so_flags1 & SOF1_PRECONNECT_DATA) && |
3165 | pr->pr_usrreqs->pru_preconnect) { | |
3166 | /* | |
3167 | * A user may set the CONNECT_RESUME_ON_READ_WRITE-flag but not | |
3168 | * calling write() right after this. *If* the app calls a read | |
3169 | * we do not want to block this read indefinetely. Thus, | |
3170 | * we trigger a connect so that the session gets initiated. | |
3171 | */ | |
3172 | error = (*pr->pr_usrreqs->pru_preconnect)(so); | |
3173 | ||
3174 | if (error) { | |
3175 | socket_unlock(so, 1); | |
3176 | return (error); | |
3177 | } | |
3178 | } | |
3179 | ||
3180 | if (ENTR_SHOULDTRACE && | |
3181 | (SOCK_CHECK_DOM(so, AF_INET) || SOCK_CHECK_DOM(so, AF_INET6))) { | |
3182 | /* | |
3183 | * enable energy tracing for inet sockets that go over | |
3184 | * non-loopback interfaces only. | |
3185 | */ | |
3186 | struct inpcb *inp = sotoinpcb(so); | |
3187 | if (inp->inp_last_outifp != NULL && | |
3188 | !(inp->inp_last_outifp->if_flags & IFF_LOOPBACK)) { | |
3189 | en_tracing = TRUE; | |
3190 | KERNEL_ENERGYTRACE(kEnTrActKernSockRead, DBG_FUNC_START, | |
3191 | VM_KERNEL_ADDRPERM(so), | |
3192 | ((so->so_state & SS_NBIO) ? | |
3193 | kEnTrFlagNonBlocking : 0), | |
3194 | (int64_t)orig_resid); | |
3195 | } | |
3196 | } | |
3197 | ||
2d21ac55 A |
3198 | /* |
3199 | * When SO_WANTOOBFLAG is set we try to get out-of-band data | |
3200 | * regardless of the flags argument. Here is the case were | |
3201 | * out-of-band data is not inline. | |
3202 | */ | |
3203 | if ((flags & MSG_OOB) || | |
3204 | ((so->so_options & SO_WANTOOBFLAG) != 0 && | |
3205 | (so->so_options & SO_OOBINLINE) == 0 && | |
3206 | (so->so_oobmark || (so->so_state & SS_RCVATMARK)))) { | |
1c79356b | 3207 | m = m_get(M_WAIT, MT_DATA); |
55e303ae | 3208 | if (m == NULL) { |
91447636 | 3209 | socket_unlock(so, 1); |
2d21ac55 A |
3210 | KERNEL_DEBUG(DBG_FNC_SORECEIVE | DBG_FUNC_END, |
3211 | ENOBUFS, 0, 0, 0, 0); | |
9bccf70c | 3212 | return (ENOBUFS); |
55e303ae | 3213 | } |
1c79356b A |
3214 | error = (*pr->pr_usrreqs->pru_rcvoob)(so, m, flags & MSG_PEEK); |
3215 | if (error) | |
3216 | goto bad; | |
91447636 | 3217 | socket_unlock(so, 0); |
1c79356b A |
3218 | do { |
3219 | error = uiomove(mtod(m, caddr_t), | |
b0d623f7 | 3220 | imin(uio_resid(uio), m->m_len), uio); |
1c79356b | 3221 | m = m_free(m); |
39236c6e | 3222 | } while (uio_resid(uio) && error == 0 && m != NULL); |
91447636 | 3223 | socket_lock(so, 0); |
1c79356b | 3224 | bad: |
39236c6e | 3225 | if (m != NULL) |
1c79356b | 3226 | m_freem(m); |
39236c6e | 3227 | |
9bccf70c A |
3228 | if ((so->so_options & SO_WANTOOBFLAG) != 0) { |
3229 | if (error == EWOULDBLOCK || error == EINVAL) { | |
2d21ac55 | 3230 | /* |
9bccf70c | 3231 | * Let's try to get normal data: |
2d21ac55 A |
3232 | * EWOULDBLOCK: out-of-band data not |
3233 | * receive yet. EINVAL: out-of-band data | |
3234 | * already read. | |
9bccf70c A |
3235 | */ |
3236 | error = 0; | |
3237 | goto nooob; | |
39236c6e | 3238 | } else if (error == 0 && flagsp != NULL) { |
9bccf70c | 3239 | *flagsp |= MSG_OOB; |
2d21ac55 A |
3240 | } |
3241 | } | |
91447636 | 3242 | socket_unlock(so, 1); |
3e170ce0 A |
3243 | if (en_tracing) { |
3244 | KERNEL_ENERGYTRACE(kEnTrActKernSockRead, DBG_FUNC_END, | |
3245 | VM_KERNEL_ADDRPERM(so), 0, | |
3246 | (int64_t)(orig_resid - uio_resid(uio))); | |
3247 | } | |
2d21ac55 A |
3248 | KERNEL_DEBUG(DBG_FNC_SORECEIVE | DBG_FUNC_END, error, |
3249 | 0, 0, 0, 0); | |
39236c6e | 3250 | |
1c79356b A |
3251 | return (error); |
3252 | } | |
3253 | nooob: | |
39236c6e A |
3254 | if (mp != NULL) |
3255 | *mp = NULL; | |
fe8ab488 A |
3256 | |
3257 | if (so->so_state & SS_ISCONFIRMING && uio_resid(uio)) { | |
1c79356b | 3258 | (*pr->pr_usrreqs->pru_rcvd)(so, 0); |
fe8ab488 | 3259 | } |
1c79356b | 3260 | |
39236c6e | 3261 | free_list = NULL; |
55e303ae | 3262 | delayed_copy_len = 0; |
1c79356b | 3263 | restart: |
91447636 A |
3264 | #ifdef MORE_LOCKING_DEBUG |
3265 | if (so->so_usecount <= 1) | |
fe8ab488 | 3266 | printf("soreceive: sblock so=0x%llx ref=%d on socket\n", |
3e170ce0 | 3267 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), so->so_usecount); |
91447636 | 3268 | #endif |
6601e61a A |
3269 | /* |
3270 | * See if the socket has been closed (SS_NOFDREF|SS_CANTRCVMORE) | |
3271 | * and if so just return to the caller. This could happen when | |
3272 | * soreceive() is called by a socket upcall function during the | |
3273 | * time the socket is freed. The socket buffer would have been | |
3274 | * locked across the upcall, therefore we cannot put this thread | |
3275 | * to sleep (else we will deadlock) or return EWOULDBLOCK (else | |
3276 | * we may livelock), because the lock on the socket buffer will | |
3277 | * only be released when the upcall routine returns to its caller. | |
3278 | * Because the socket has been officially closed, there can be | |
3279 | * no further read on it. | |
39236c6e A |
3280 | * |
3281 | * A multipath subflow socket would have its SS_NOFDREF set by | |
3282 | * default, so check for SOF_MP_SUBFLOW socket flag; when the | |
3283 | * socket is closed for real, SOF_MP_SUBFLOW would be cleared. | |
6601e61a A |
3284 | */ |
3285 | if ((so->so_state & (SS_NOFDREF | SS_CANTRCVMORE)) == | |
39236c6e | 3286 | (SS_NOFDREF | SS_CANTRCVMORE) && !(so->so_flags & SOF_MP_SUBFLOW)) { |
6601e61a A |
3287 | socket_unlock(so, 1); |
3288 | return (0); | |
3289 | } | |
3290 | ||
9bccf70c A |
3291 | error = sblock(&so->so_rcv, SBLOCKWAIT(flags)); |
3292 | if (error) { | |
91447636 | 3293 | socket_unlock(so, 1); |
2d21ac55 A |
3294 | KERNEL_DEBUG(DBG_FNC_SORECEIVE | DBG_FUNC_END, error, |
3295 | 0, 0, 0, 0); | |
3e170ce0 A |
3296 | if (en_tracing) { |
3297 | KERNEL_ENERGYTRACE(kEnTrActKernSockRead, DBG_FUNC_END, | |
3298 | VM_KERNEL_ADDRPERM(so), 0, | |
3299 | (int64_t)(orig_resid - uio_resid(uio))); | |
3300 | } | |
1c79356b A |
3301 | return (error); |
3302 | } | |
1c79356b A |
3303 | |
3304 | m = so->so_rcv.sb_mb; | |
3305 | /* | |
3306 | * If we have less data than requested, block awaiting more | |
3307 | * (subject to any timeout) if: | |
3308 | * 1. the current count is less than the low water mark, or | |
3309 | * 2. MSG_WAITALL is set, and it is possible to do the entire | |
3310 | * receive operation at once if we block (resid <= hiwat). | |
3311 | * 3. MSG_DONTWAIT is not set | |
3312 | * If MSG_WAITALL is set but resid is larger than the receive buffer, | |
3313 | * we have to do the receive in sections, and thus risk returning | |
3314 | * a short count if a timeout or signal occurs after we start. | |
3315 | */ | |
39236c6e | 3316 | if (m == NULL || (((flags & MSG_DONTWAIT) == 0 && |
91447636 | 3317 | so->so_rcv.sb_cc < uio_resid(uio)) && |
2d21ac55 | 3318 | (so->so_rcv.sb_cc < so->so_rcv.sb_lowat || |
91447636 | 3319 | ((flags & MSG_WAITALL) && uio_resid(uio) <= so->so_rcv.sb_hiwat)) && |
39236c6e | 3320 | m->m_nextpkt == NULL && (pr->pr_flags & PR_ATOMIC) == 0)) { |
2d21ac55 A |
3321 | /* |
3322 | * Panic if we notice inconsistencies in the socket's | |
3323 | * receive list; both sb_mb and sb_cc should correctly | |
3324 | * reflect the contents of the list, otherwise we may | |
3325 | * end up with false positives during select() or poll() | |
3326 | * which could put the application in a bad state. | |
3327 | */ | |
316670eb | 3328 | SB_MB_CHECK(&so->so_rcv); |
55e303ae | 3329 | |
1c79356b | 3330 | if (so->so_error) { |
39236c6e | 3331 | if (m != NULL) |
1c79356b A |
3332 | goto dontblock; |
3333 | error = so->so_error; | |
3334 | if ((flags & MSG_PEEK) == 0) | |
3335 | so->so_error = 0; | |
3336 | goto release; | |
3337 | } | |
3338 | if (so->so_state & SS_CANTRCVMORE) { | |
fe8ab488 A |
3339 | #if CONTENT_FILTER |
3340 | /* | |
3341 | * Deal with half closed connections | |
3342 | */ | |
3343 | if ((so->so_state & SS_ISDISCONNECTED) == 0 && | |
3344 | cfil_sock_data_pending(&so->so_rcv) != 0) | |
3345 | CFIL_LOG(LOG_INFO, | |
3346 | "so %llx ignore SS_CANTRCVMORE", | |
3e170ce0 A |
3347 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so)); |
3348 | else | |
fe8ab488 | 3349 | #endif /* CONTENT_FILTER */ |
39236c6e | 3350 | if (m != NULL) |
1c79356b A |
3351 | goto dontblock; |
3352 | else | |
3353 | goto release; | |
3354 | } | |
39236c6e | 3355 | for (; m != NULL; m = m->m_next) |
2d21ac55 | 3356 | if (m->m_type == MT_OOBDATA || (m->m_flags & M_EOR)) { |
1c79356b A |
3357 | m = so->so_rcv.sb_mb; |
3358 | goto dontblock; | |
3359 | } | |
3360 | if ((so->so_state & (SS_ISCONNECTED|SS_ISCONNECTING)) == 0 && | |
3361 | (so->so_proto->pr_flags & PR_CONNREQUIRED)) { | |
3362 | error = ENOTCONN; | |
3363 | goto release; | |
3364 | } | |
91447636 | 3365 | if (uio_resid(uio) == 0) |
1c79356b | 3366 | goto release; |
3e170ce0 | 3367 | |
2d21ac55 A |
3368 | if ((so->so_state & SS_NBIO) || |
3369 | (flags & (MSG_DONTWAIT|MSG_NBIO))) { | |
1c79356b A |
3370 | error = EWOULDBLOCK; |
3371 | goto release; | |
3372 | } | |
2d21ac55 A |
3373 | SBLASTRECORDCHK(&so->so_rcv, "soreceive sbwait 1"); |
3374 | SBLASTMBUFCHK(&so->so_rcv, "soreceive sbwait 1"); | |
39236c6e | 3375 | sbunlock(&so->so_rcv, TRUE); /* keep socket locked */ |
2d21ac55 | 3376 | #if EVEN_MORE_LOCKING_DEBUG |
1c79356b | 3377 | if (socket_debug) |
2d21ac55 | 3378 | printf("Waiting for socket data\n"); |
91447636 | 3379 | #endif |
55e303ae | 3380 | |
1c79356b | 3381 | error = sbwait(&so->so_rcv); |
2d21ac55 | 3382 | #if EVEN_MORE_LOCKING_DEBUG |
1c79356b | 3383 | if (socket_debug) |
2d21ac55 | 3384 | printf("SORECEIVE - sbwait returned %d\n", error); |
91447636 | 3385 | #endif |
39236c6e A |
3386 | if (so->so_usecount < 1) { |
3387 | panic("%s: after 2nd sblock so=%p ref=%d on socket\n", | |
3388 | __func__, so, so->so_usecount); | |
3389 | /* NOTREACHED */ | |
3390 | } | |
9bccf70c | 3391 | if (error) { |
91447636 | 3392 | socket_unlock(so, 1); |
2d21ac55 A |
3393 | KERNEL_DEBUG(DBG_FNC_SORECEIVE | DBG_FUNC_END, error, |
3394 | 0, 0, 0, 0); | |
3e170ce0 A |
3395 | if (en_tracing) { |
3396 | KERNEL_ENERGYTRACE(kEnTrActKernSockRead, DBG_FUNC_END, | |
3397 | VM_KERNEL_ADDRPERM(so), 0, | |
3398 | (int64_t)(orig_resid - uio_resid(uio))); | |
3399 | } | |
2d21ac55 | 3400 | return (error); |
1c79356b A |
3401 | } |
3402 | goto restart; | |
3403 | } | |
3404 | dontblock: | |
b0d623f7 | 3405 | OSIncrementAtomicLong(&p->p_stats->p_ru.ru_msgrcv); |
2d21ac55 A |
3406 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 1"); |
3407 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 1"); | |
1c79356b | 3408 | nextrecord = m->m_nextpkt; |
fe8ab488 | 3409 | |
3e170ce0 A |
3410 | if ((pr->pr_flags & PR_ADDR) && m->m_type == MT_SONAME) { |
3411 | error = soreceive_addr(p, so, psa, flags, &m, &nextrecord, | |
3412 | mp0 == NULL); | |
3413 | if (error == ERESTART) | |
3414 | goto restart; | |
3415 | else if (error != 0) | |
3416 | goto release; | |
1c79356b | 3417 | orig_resid = 0; |
1c79356b | 3418 | } |
2d21ac55 A |
3419 | |
3420 | /* | |
3421 | * Process one or more MT_CONTROL mbufs present before any data mbufs | |
3422 | * in the first mbuf chain on the socket buffer. If MSG_PEEK, we | |
3423 | * just copy the data; if !MSG_PEEK, we call into the protocol to | |
3424 | * perform externalization. | |
3425 | */ | |
3426 | if (m != NULL && m->m_type == MT_CONTROL) { | |
3e170ce0 A |
3427 | error = soreceive_ctl(so, controlp, flags, &m, &nextrecord); |
3428 | if (error != 0) | |
3429 | goto release; | |
316670eb | 3430 | orig_resid = 0; |
1c79356b | 3431 | } |
2d21ac55 | 3432 | |
39236c6e A |
3433 | /* |
3434 | * If the socket is a TCP socket with message delivery | |
3435 | * enabled, then create a control msg to deliver the | |
3436 | * relative TCP sequence number for this data. Waiting | |
3437 | * until this point will protect against failures to | |
3438 | * allocate an mbuf for control msgs. | |
3439 | */ | |
3440 | if (so->so_type == SOCK_STREAM && SOCK_PROTO(so) == IPPROTO_TCP && | |
3441 | (so->so_flags & SOF_ENABLE_MSGS) && controlp != NULL) { | |
3442 | struct mbuf *seq_cm; | |
3443 | ||
3444 | seq_cm = sbcreatecontrol((caddr_t)&m->m_pkthdr.msg_seq, | |
3445 | sizeof (uint32_t), SCM_SEQNUM, SOL_SOCKET); | |
3446 | if (seq_cm == NULL) { | |
3447 | /* unable to allocate a control mbuf */ | |
3448 | error = ENOBUFS; | |
3449 | goto release; | |
3450 | } | |
3451 | *controlp = seq_cm; | |
3452 | controlp = &seq_cm->m_next; | |
3453 | } | |
3454 | ||
2d21ac55 A |
3455 | if (m != NULL) { |
3456 | if (!(flags & MSG_PEEK)) { | |
3457 | /* | |
3458 | * We get here because m points to an mbuf following | |
3459 | * any MT_SONAME or MT_CONTROL mbufs which have been | |
3460 | * processed above. In any case, m should be pointing | |
3461 | * to the head of the mbuf chain, and the nextrecord | |
3462 | * should be either NULL or equal to m->m_nextpkt. | |
3463 | * See comments above about SB_LOCK. | |
3464 | */ | |
39236c6e A |
3465 | if (m != so->so_rcv.sb_mb || |
3466 | m->m_nextpkt != nextrecord) { | |
3467 | panic("%s: post-control !sync so=%p m=%p " | |
3468 | "nextrecord=%p\n", __func__, so, m, | |
3469 | nextrecord); | |
3470 | /* NOTREACHED */ | |
3471 | } | |
2d21ac55 A |
3472 | if (nextrecord == NULL) |
3473 | so->so_rcv.sb_lastrecord = m; | |
3474 | } | |
1c79356b A |
3475 | type = m->m_type; |
3476 | if (type == MT_OOBDATA) | |
3477 | flags |= MSG_OOB; | |
2d21ac55 A |
3478 | } else { |
3479 | if (!(flags & MSG_PEEK)) { | |
2d21ac55 A |
3480 | SB_EMPTY_FIXUP(&so->so_rcv); |
3481 | } | |
1c79356b | 3482 | } |
2d21ac55 A |
3483 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 2"); |
3484 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 2"); | |
3485 | ||
1c79356b A |
3486 | moff = 0; |
3487 | offset = 0; | |
fa4905b1 | 3488 | |
91447636 | 3489 | if (!(flags & MSG_PEEK) && uio_resid(uio) > sorecvmincopy) |
2d21ac55 | 3490 | can_delay = 1; |
55e303ae | 3491 | else |
2d21ac55 | 3492 | can_delay = 0; |
55e303ae A |
3493 | |
3494 | need_event = 0; | |
fa4905b1 | 3495 | |
39236c6e A |
3496 | while (m != NULL && |
3497 | (uio_resid(uio) - delayed_copy_len) > 0 && error == 0) { | |
1c79356b A |
3498 | if (m->m_type == MT_OOBDATA) { |
3499 | if (type != MT_OOBDATA) | |
3500 | break; | |
2d21ac55 | 3501 | } else if (type == MT_OOBDATA) { |
1c79356b | 3502 | break; |
2d21ac55 | 3503 | } |
9bccf70c | 3504 | /* |
2d21ac55 | 3505 | * Make sure to allways set MSG_OOB event when getting |
9bccf70c A |
3506 | * out of band data inline. |
3507 | */ | |
1c79356b | 3508 | if ((so->so_options & SO_WANTOOBFLAG) != 0 && |
2d21ac55 A |
3509 | (so->so_options & SO_OOBINLINE) != 0 && |
3510 | (so->so_state & SS_RCVATMARK) != 0) { | |
9bccf70c A |
3511 | flags |= MSG_OOB; |
3512 | } | |
1c79356b | 3513 | so->so_state &= ~SS_RCVATMARK; |
91447636 | 3514 | len = uio_resid(uio) - delayed_copy_len; |
1c79356b A |
3515 | if (so->so_oobmark && len > so->so_oobmark - offset) |
3516 | len = so->so_oobmark - offset; | |
3517 | if (len > m->m_len - moff) | |
3518 | len = m->m_len - moff; | |
3519 | /* | |
3520 | * If mp is set, just pass back the mbufs. | |
3521 | * Otherwise copy them out via the uio, then free. | |
3522 | * Sockbuf must be consistent here (points to current mbuf, | |
3523 | * it points to next record) when we drop priority; | |
3524 | * we must note any additions to the sockbuf when we | |
3525 | * block interrupts again. | |
3526 | */ | |
39236c6e | 3527 | if (mp == NULL) { |
2d21ac55 A |
3528 | SBLASTRECORDCHK(&so->so_rcv, "soreceive uiomove"); |
3529 | SBLASTMBUFCHK(&so->so_rcv, "soreceive uiomove"); | |
55e303ae | 3530 | if (can_delay && len == m->m_len) { |
2d21ac55 | 3531 | /* |
55e303ae A |
3532 | * only delay the copy if we're consuming the |
3533 | * mbuf and we're NOT in MSG_PEEK mode | |
3534 | * and we have enough data to make it worthwile | |
2d21ac55 A |
3535 | * to drop and retake the lock... can_delay |
3536 | * reflects the state of the 2 latter | |
3537 | * constraints moff should always be zero | |
3538 | * in these cases | |
55e303ae | 3539 | */ |
2d21ac55 | 3540 | delayed_copy_len += len; |
55e303ae | 3541 | } else { |
2d21ac55 A |
3542 | if (delayed_copy_len) { |
3543 | error = sodelayed_copy(so, uio, | |
3544 | &free_list, &delayed_copy_len); | |
55e303ae A |
3545 | |
3546 | if (error) { | |
55e303ae A |
3547 | goto release; |
3548 | } | |
2d21ac55 A |
3549 | /* |
3550 | * can only get here if MSG_PEEK is not | |
3551 | * set therefore, m should point at the | |
3552 | * head of the rcv queue; if it doesn't, | |
3553 | * it means something drastically | |
3554 | * changed while we were out from behind | |
3555 | * the lock in sodelayed_copy. perhaps | |
3556 | * a RST on the stream. in any event, | |
3557 | * the stream has been interrupted. it's | |
3558 | * probably best just to return whatever | |
3559 | * data we've moved and let the caller | |
3560 | * sort it out... | |
3561 | */ | |
55e303ae | 3562 | if (m != so->so_rcv.sb_mb) { |
2d21ac55 | 3563 | break; |
55e303ae A |
3564 | } |
3565 | } | |
91447636 | 3566 | socket_unlock(so, 0); |
2d21ac55 A |
3567 | error = uiomove(mtod(m, caddr_t) + moff, |
3568 | (int)len, uio); | |
91447636 | 3569 | socket_lock(so, 0); |
55e303ae | 3570 | |
55e303ae | 3571 | if (error) |
2d21ac55 | 3572 | goto release; |
55e303ae | 3573 | } |
2d21ac55 | 3574 | } else { |
91447636 | 3575 | uio_setresid(uio, (uio_resid(uio) - len)); |
2d21ac55 | 3576 | } |
1c79356b A |
3577 | if (len == m->m_len - moff) { |
3578 | if (m->m_flags & M_EOR) | |
3579 | flags |= MSG_EOR; | |
3580 | if (flags & MSG_PEEK) { | |
3581 | m = m->m_next; | |
3582 | moff = 0; | |
3583 | } else { | |
3584 | nextrecord = m->m_nextpkt; | |
3585 | sbfree(&so->so_rcv, m); | |
91447636 | 3586 | m->m_nextpkt = NULL; |
55e303ae | 3587 | |
39236c6e A |
3588 | /* |
3589 | * If this packet is an unordered packet | |
3590 | * (indicated by M_UNORDERED_DATA flag), remove | |
3591 | * the additional bytes added to the | |
3592 | * receive socket buffer size. | |
3593 | */ | |
3594 | if ((so->so_flags & SOF_ENABLE_MSGS) && | |
3595 | m->m_len && | |
3596 | (m->m_flags & M_UNORDERED_DATA) && | |
3597 | sbreserve(&so->so_rcv, | |
3598 | so->so_rcv.sb_hiwat - m->m_len)) { | |
3599 | if (so->so_msg_state->msg_uno_bytes > | |
3600 | m->m_len) { | |
3601 | so->so_msg_state-> | |
3602 | msg_uno_bytes -= m->m_len; | |
3603 | } else { | |
3604 | so->so_msg_state-> | |
3605 | msg_uno_bytes = 0; | |
3606 | } | |
3607 | m->m_flags &= ~M_UNORDERED_DATA; | |
3608 | } | |
3609 | ||
3610 | if (mp != NULL) { | |
1c79356b A |
3611 | *mp = m; |
3612 | mp = &m->m_next; | |
3613 | so->so_rcv.sb_mb = m = m->m_next; | |
39236c6e | 3614 | *mp = NULL; |
1c79356b | 3615 | } else { |
55e303ae | 3616 | if (free_list == NULL) |
2d21ac55 A |
3617 | free_list = m; |
3618 | else | |
3619 | ml->m_next = m; | |
3620 | ml = m; | |
14353aa8 | 3621 | so->so_rcv.sb_mb = m = m->m_next; |
39236c6e | 3622 | ml->m_next = NULL; |
1c79356b | 3623 | } |
2d21ac55 | 3624 | if (m != NULL) { |
1c79356b | 3625 | m->m_nextpkt = nextrecord; |
2d21ac55 A |
3626 | if (nextrecord == NULL) |
3627 | so->so_rcv.sb_lastrecord = m; | |
3628 | } else { | |
3629 | so->so_rcv.sb_mb = nextrecord; | |
3630 | SB_EMPTY_FIXUP(&so->so_rcv); | |
3631 | } | |
3632 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 3"); | |
3633 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 3"); | |
1c79356b A |
3634 | } |
3635 | } else { | |
2d21ac55 | 3636 | if (flags & MSG_PEEK) { |
1c79356b | 3637 | moff += len; |
2d21ac55 | 3638 | } else { |
6d2010ae A |
3639 | if (mp != NULL) { |
3640 | int copy_flag; | |
3641 | ||
3642 | if (flags & MSG_DONTWAIT) | |
3643 | copy_flag = M_DONTWAIT; | |
3644 | else | |
3645 | copy_flag = M_WAIT; | |
3646 | *mp = m_copym(m, 0, len, copy_flag); | |
39236c6e A |
3647 | /* |
3648 | * Failed to allocate an mbuf? | |
3649 | * Adjust uio_resid back, it was | |
3650 | * adjusted down by len bytes which | |
3651 | * we didn't copy over. | |
3652 | */ | |
6d2010ae | 3653 | if (*mp == NULL) { |
39236c6e A |
3654 | uio_setresid(uio, |
3655 | (uio_resid(uio) + len)); | |
6d2010ae A |
3656 | break; |
3657 | } | |
3658 | } | |
1c79356b A |
3659 | m->m_data += len; |
3660 | m->m_len -= len; | |
3661 | so->so_rcv.sb_cc -= len; | |
3662 | } | |
3663 | } | |
3664 | if (so->so_oobmark) { | |
3665 | if ((flags & MSG_PEEK) == 0) { | |
3666 | so->so_oobmark -= len; | |
3667 | if (so->so_oobmark == 0) { | |
2d21ac55 A |
3668 | so->so_state |= SS_RCVATMARK; |
3669 | /* | |
3670 | * delay posting the actual event until | |
3671 | * after any delayed copy processing | |
3672 | * has finished | |
3673 | */ | |
3674 | need_event = 1; | |
3675 | break; | |
1c79356b A |
3676 | } |
3677 | } else { | |
3678 | offset += len; | |
3679 | if (offset == so->so_oobmark) | |
3680 | break; | |
3681 | } | |
3682 | } | |
2d21ac55 | 3683 | if (flags & MSG_EOR) |
1c79356b A |
3684 | break; |
3685 | /* | |
2d21ac55 A |
3686 | * If the MSG_WAITALL or MSG_WAITSTREAM flag is set |
3687 | * (for non-atomic socket), we must not quit until | |
3688 | * "uio->uio_resid == 0" or an error termination. | |
3689 | * If a signal/timeout occurs, return with a short | |
3690 | * count but without error. Keep sockbuf locked | |
3691 | * against other readers. | |
1c79356b | 3692 | */ |
39236c6e | 3693 | while (flags & (MSG_WAITALL|MSG_WAITSTREAM) && m == NULL && |
2d21ac55 | 3694 | (uio_resid(uio) - delayed_copy_len) > 0 && |
1c79356b | 3695 | !sosendallatonce(so) && !nextrecord) { |
fe8ab488 A |
3696 | if (so->so_error || ((so->so_state & SS_CANTRCVMORE) |
3697 | #if CONTENT_FILTER | |
3698 | && cfil_sock_data_pending(&so->so_rcv) == 0 | |
3699 | #endif /* CONTENT_FILTER */ | |
3700 | )) | |
2d21ac55 | 3701 | goto release; |
fa4905b1 | 3702 | |
2d21ac55 A |
3703 | /* |
3704 | * Depending on the protocol (e.g. TCP), the following | |
3705 | * might cause the socket lock to be dropped and later | |
3706 | * be reacquired, and more data could have arrived and | |
3707 | * have been appended to the receive socket buffer by | |
3708 | * the time it returns. Therefore, we only sleep in | |
3709 | * sbwait() below if and only if the socket buffer is | |
3710 | * empty, in order to avoid a false sleep. | |
3711 | */ | |
3712 | if (pr->pr_flags & PR_WANTRCVD && so->so_pcb && | |
3713 | (((struct inpcb *)so->so_pcb)->inp_state != | |
3714 | INPCB_STATE_DEAD)) | |
3715 | (*pr->pr_usrreqs->pru_rcvd)(so, flags); | |
3716 | ||
3717 | SBLASTRECORDCHK(&so->so_rcv, "soreceive sbwait 2"); | |
3718 | SBLASTMBUFCHK(&so->so_rcv, "soreceive sbwait 2"); | |
3719 | ||
3720 | if (so->so_rcv.sb_mb == NULL && sbwait(&so->so_rcv)) { | |
3721 | error = 0; | |
55e303ae | 3722 | goto release; |
fa4905b1 | 3723 | } |
55e303ae | 3724 | /* |
2d21ac55 A |
3725 | * have to wait until after we get back from the sbwait |
3726 | * to do the copy because we will drop the lock if we | |
3727 | * have enough data that has been delayed... by dropping | |
3728 | * the lock we open up a window allowing the netisr | |
3729 | * thread to process the incoming packets and to change | |
3730 | * the state of this socket... we're issuing the sbwait | |
3731 | * because the socket is empty and we're expecting the | |
3732 | * netisr thread to wake us up when more packets arrive; | |
3733 | * if we allow that processing to happen and then sbwait | |
3734 | * we could stall forever with packets sitting in the | |
3735 | * socket if no further packets arrive from the remote | |
3736 | * side. | |
55e303ae | 3737 | * |
2d21ac55 A |
3738 | * we want to copy before we've collected all the data |
3739 | * to satisfy this request to allow the copy to overlap | |
3740 | * the incoming packet processing on an MP system | |
55e303ae | 3741 | */ |
2d21ac55 A |
3742 | if (delayed_copy_len > sorecvmincopy && |
3743 | (delayed_copy_len > (so->so_rcv.sb_hiwat / 2))) { | |
3744 | error = sodelayed_copy(so, uio, | |
3745 | &free_list, &delayed_copy_len); | |
55e303ae A |
3746 | |
3747 | if (error) | |
2d21ac55 | 3748 | goto release; |
1c79356b A |
3749 | } |
3750 | m = so->so_rcv.sb_mb; | |
39236c6e | 3751 | if (m != NULL) { |
1c79356b | 3752 | nextrecord = m->m_nextpkt; |
fa4905b1 | 3753 | } |
316670eb | 3754 | SB_MB_CHECK(&so->so_rcv); |
1c79356b A |
3755 | } |
3756 | } | |
91447636 | 3757 | #ifdef MORE_LOCKING_DEBUG |
39236c6e A |
3758 | if (so->so_usecount <= 1) { |
3759 | panic("%s: after big while so=%p ref=%d on socket\n", | |
3760 | __func__, so, so->so_usecount); | |
3761 | /* NOTREACHED */ | |
3762 | } | |
91447636 | 3763 | #endif |
1c79356b | 3764 | |
39236c6e | 3765 | if (m != NULL && pr->pr_flags & PR_ATOMIC) { |
2d21ac55 | 3766 | if (so->so_options & SO_DONTTRUNC) { |
1c79356b | 3767 | flags |= MSG_RCVMORE; |
2d21ac55 | 3768 | } else { |
9bccf70c | 3769 | flags |= MSG_TRUNC; |
1c79356b A |
3770 | if ((flags & MSG_PEEK) == 0) |
3771 | (void) sbdroprecord(&so->so_rcv); | |
3772 | } | |
3773 | } | |
2d21ac55 A |
3774 | |
3775 | /* | |
3776 | * pru_rcvd below (for TCP) may cause more data to be received | |
3777 | * if the socket lock is dropped prior to sending the ACK; some | |
3778 | * legacy OpenTransport applications don't handle this well | |
3779 | * (if it receives less data than requested while MSG_HAVEMORE | |
3780 | * is set), and so we set the flag now based on what we know | |
3781 | * prior to calling pru_rcvd. | |
3782 | */ | |
3783 | if ((so->so_options & SO_WANTMORE) && so->so_rcv.sb_cc > 0) | |
3784 | flags |= MSG_HAVEMORE; | |
3785 | ||
1c79356b | 3786 | if ((flags & MSG_PEEK) == 0) { |
39236c6e | 3787 | if (m == NULL) { |
1c79356b | 3788 | so->so_rcv.sb_mb = nextrecord; |
2d21ac55 A |
3789 | /* |
3790 | * First part is an inline SB_EMPTY_FIXUP(). Second | |
3791 | * part makes sure sb_lastrecord is up-to-date if | |
3792 | * there is still data in the socket buffer. | |
3793 | */ | |
3794 | if (so->so_rcv.sb_mb == NULL) { | |
3795 | so->so_rcv.sb_mbtail = NULL; | |
3796 | so->so_rcv.sb_lastrecord = NULL; | |
3797 | } else if (nextrecord->m_nextpkt == NULL) { | |
3798 | so->so_rcv.sb_lastrecord = nextrecord; | |
3799 | } | |
316670eb | 3800 | SB_MB_CHECK(&so->so_rcv); |
2d21ac55 A |
3801 | } |
3802 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 4"); | |
3803 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 4"); | |
1c79356b A |
3804 | if (pr->pr_flags & PR_WANTRCVD && so->so_pcb) |
3805 | (*pr->pr_usrreqs->pru_rcvd)(so, flags); | |
3806 | } | |
39236c6e | 3807 | |
55e303ae | 3808 | if (delayed_copy_len) { |
91447636 | 3809 | error = sodelayed_copy(so, uio, &free_list, &delayed_copy_len); |
55e303ae | 3810 | if (error) |
2d21ac55 | 3811 | goto release; |
55e303ae | 3812 | } |
39236c6e A |
3813 | if (free_list != NULL) { |
3814 | m_freem_list(free_list); | |
3815 | free_list = NULL; | |
55e303ae A |
3816 | } |
3817 | if (need_event) | |
2d21ac55 | 3818 | postevent(so, 0, EV_OOB); |
39236c6e | 3819 | |
91447636 | 3820 | if (orig_resid == uio_resid(uio) && orig_resid && |
1c79356b | 3821 | (flags & MSG_EOR) == 0 && (so->so_state & SS_CANTRCVMORE) == 0) { |
39236c6e | 3822 | sbunlock(&so->so_rcv, TRUE); /* keep socket locked */ |
1c79356b A |
3823 | goto restart; |
3824 | } | |
3825 | ||
39236c6e | 3826 | if (flagsp != NULL) |
1c79356b A |
3827 | *flagsp |= flags; |
3828 | release: | |
91447636 | 3829 | #ifdef MORE_LOCKING_DEBUG |
39236c6e A |
3830 | if (so->so_usecount <= 1) { |
3831 | panic("%s: release so=%p ref=%d on socket\n", __func__, | |
2d21ac55 | 3832 | so, so->so_usecount); |
39236c6e A |
3833 | /* NOTREACHED */ |
3834 | } | |
91447636 | 3835 | #endif |
39236c6e | 3836 | if (delayed_copy_len) |
2d21ac55 | 3837 | error = sodelayed_copy(so, uio, &free_list, &delayed_copy_len); |
1c79356b | 3838 | |
39236c6e A |
3839 | if (free_list != NULL) |
3840 | m_freem_list(free_list); | |
3841 | ||
3842 | sbunlock(&so->so_rcv, FALSE); /* will unlock socket */ | |
3843 | ||
3e170ce0 A |
3844 | if (en_tracing) { |
3845 | KERNEL_ENERGYTRACE(kEnTrActKernSockRead, DBG_FUNC_END, | |
3846 | VM_KERNEL_ADDRPERM(so), | |
3847 | ((error == EWOULDBLOCK) ? kEnTrFlagNoWork : 0), | |
3848 | (int64_t)(orig_resid - uio_resid(uio))); | |
3849 | } | |
2d21ac55 A |
3850 | KERNEL_DEBUG(DBG_FNC_SORECEIVE | DBG_FUNC_END, so, uio_resid(uio), |
3851 | so->so_rcv.sb_cc, 0, error); | |
1c79356b A |
3852 | |
3853 | return (error); | |
3854 | } | |
3855 | ||
2d21ac55 A |
3856 | /* |
3857 | * Returns: 0 Success | |
3858 | * uiomove:EFAULT | |
3859 | */ | |
3860 | static int | |
3861 | sodelayed_copy(struct socket *so, struct uio *uio, struct mbuf **free_list, | |
39236c6e | 3862 | user_ssize_t *resid) |
55e303ae | 3863 | { |
2d21ac55 | 3864 | int error = 0; |
55e303ae A |
3865 | struct mbuf *m; |
3866 | ||
3867 | m = *free_list; | |
3868 | ||
91447636 | 3869 | socket_unlock(so, 0); |
55e303ae | 3870 | |
39236c6e | 3871 | while (m != NULL && error == 0) { |
2d21ac55 | 3872 | error = uiomove(mtod(m, caddr_t), (int)m->m_len, uio); |
2d21ac55 A |
3873 | m = m->m_next; |
3874 | } | |
3875 | m_freem_list(*free_list); | |
3876 | ||
39236c6e | 3877 | *free_list = NULL; |
2d21ac55 A |
3878 | *resid = 0; |
3879 | ||
3880 | socket_lock(so, 0); | |
55e303ae | 3881 | |
2d21ac55 A |
3882 | return (error); |
3883 | } | |
3884 | ||
3e170ce0 A |
3885 | static int |
3886 | sodelayed_copy_list(struct socket *so, struct recv_msg_elem *msgarray, | |
3887 | u_int uiocnt, struct mbuf **free_list, user_ssize_t *resid) | |
3888 | { | |
3889 | #pragma unused(so) | |
3890 | int error = 0; | |
3891 | struct mbuf *ml, *m; | |
3892 | int i = 0; | |
3893 | struct uio *auio; | |
3894 | ||
3895 | for (ml = *free_list, i = 0; ml != NULL && i < uiocnt; | |
3896 | ml = ml->m_nextpkt, i++) { | |
3897 | auio = msgarray[i].uio; | |
3898 | for (m = ml; m != NULL; m = m->m_next) { | |
3899 | error = uiomove(mtod(m, caddr_t), m->m_len, auio); | |
3900 | if (error != 0) | |
3901 | goto out; | |
3902 | } | |
3903 | } | |
3904 | out: | |
3905 | m_freem_list(*free_list); | |
3906 | ||
3907 | *free_list = NULL; | |
3908 | *resid = 0; | |
3909 | ||
3910 | return (error); | |
3911 | } | |
3912 | ||
2d21ac55 | 3913 | int |
3e170ce0 A |
3914 | soreceive_list(struct socket *so, struct recv_msg_elem *msgarray, u_int uiocnt, |
3915 | int *flagsp) | |
2d21ac55 | 3916 | { |
3e170ce0 | 3917 | struct mbuf *m; |
fe8ab488 | 3918 | struct mbuf *nextrecord; |
3e170ce0 A |
3919 | struct mbuf *ml = NULL, *free_list = NULL, *free_tail = NULL; |
3920 | int error; | |
3921 | user_ssize_t len, pktlen, delayed_copy_len = 0; | |
fe8ab488 | 3922 | struct protosw *pr = so->so_proto; |
3e170ce0 | 3923 | user_ssize_t resid; |
fe8ab488 A |
3924 | struct proc *p = current_proc(); |
3925 | struct uio *auio = NULL; | |
3e170ce0 | 3926 | int npkts = 0; |
fe8ab488 | 3927 | int sblocked = 0; |
3e170ce0 A |
3928 | struct sockaddr **psa = NULL; |
3929 | struct mbuf **controlp = NULL; | |
3930 | int can_delay; | |
3931 | int flags; | |
3932 | struct mbuf *free_others = NULL; | |
55e303ae | 3933 | |
fe8ab488 A |
3934 | KERNEL_DEBUG(DBG_FNC_SORECEIVE_LIST | DBG_FUNC_START, |
3935 | so, uiocnt, | |
3936 | so->so_rcv.sb_cc, so->so_rcv.sb_lowat, so->so_rcv.sb_hiwat); | |
3937 | ||
fe8ab488 A |
3938 | /* |
3939 | * Sanity checks: | |
3940 | * - Only supports don't wait flags | |
3941 | * - Only support datagram sockets (could be extended to raw) | |
3942 | * - Must be atomic | |
3943 | * - Protocol must support packet chains | |
3944 | * - The uio array is NULL (should we panic?) | |
3945 | */ | |
3e170ce0 A |
3946 | if (flagsp != NULL) |
3947 | flags = *flagsp; | |
3948 | else | |
3949 | flags = 0; | |
3950 | if (flags & ~(MSG_PEEK | MSG_WAITALL | MSG_DONTWAIT | MSG_NEEDSA | | |
3951 | MSG_NBIO)) { | |
3952 | printf("%s invalid flags 0x%x\n", __func__, flags); | |
3953 | error = EINVAL; | |
fe8ab488 A |
3954 | goto out; |
3955 | } | |
3956 | if (so->so_type != SOCK_DGRAM) { | |
3957 | error = EINVAL; | |
3958 | goto out; | |
3959 | } | |
3960 | if (sosendallatonce(so) == 0) { | |
3961 | error = EINVAL; | |
3962 | goto out; | |
3963 | } | |
3964 | if (so->so_proto->pr_usrreqs->pru_send_list == NULL) { | |
3965 | error = EPROTONOSUPPORT; | |
3966 | goto out; | |
3967 | } | |
3e170ce0 | 3968 | if (msgarray == NULL) { |
fe8ab488 A |
3969 | printf("%s uioarray is NULL\n", __func__); |
3970 | error = EINVAL; | |
3971 | goto out; | |
3972 | } | |
3973 | if (uiocnt == 0) { | |
3974 | printf("%s uiocnt is 0\n", __func__); | |
3975 | error = EINVAL; | |
3976 | goto out; | |
3977 | } | |
3978 | /* | |
3979 | * Sanity check on the length passed by caller as we are making 'int' | |
3980 | * comparisons | |
3981 | */ | |
3e170ce0 A |
3982 | resid = recv_msg_array_resid(msgarray, uiocnt); |
3983 | if (resid < 0 || resid > INT_MAX) { | |
fe8ab488 A |
3984 | error = EINVAL; |
3985 | goto out; | |
3986 | } | |
3987 | ||
3e170ce0 A |
3988 | if (!(flags & MSG_PEEK) && sorecvmincopy > 0) |
3989 | can_delay = 1; | |
3990 | else | |
3991 | can_delay = 0; | |
3992 | ||
fe8ab488 A |
3993 | socket_lock(so, 1); |
3994 | so_update_last_owner_locked(so, p); | |
3995 | so_update_policy(so); | |
3996 | ||
3997 | #if NECP | |
3998 | so_update_necp_policy(so, NULL, NULL); | |
3999 | #endif /* NECP */ | |
3e170ce0 | 4000 | |
fe8ab488 A |
4001 | /* |
4002 | * If a recv attempt is made on a previously-accepted socket | |
4003 | * that has been marked as inactive (disconnected), reject | |
4004 | * the request. | |
4005 | */ | |
4006 | if (so->so_flags & SOF_DEFUNCT) { | |
4007 | struct sockbuf *sb = &so->so_rcv; | |
4008 | ||
4009 | error = ENOTCONN; | |
39037602 A |
4010 | SODEFUNCTLOG("%s[%d, %s]: defunct so 0x%llx [%d,%d] (%d)\n", |
4011 | __func__, proc_pid(p), proc_best_name(p), | |
4012 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
4013 | SOCK_DOM(so), SOCK_TYPE(so), error); | |
fe8ab488 A |
4014 | /* |
4015 | * This socket should have been disconnected and flushed | |
4016 | * prior to being returned from sodefunct(); there should | |
4017 | * be no data on its receive list, so panic otherwise. | |
4018 | */ | |
4019 | if (so->so_state & SS_DEFUNCT) | |
4020 | sb_empty_assert(sb, __func__); | |
4021 | goto release; | |
4022 | } | |
3e170ce0 A |
4023 | |
4024 | next: | |
4025 | /* | |
4026 | * The uio may be empty | |
4027 | */ | |
4028 | if (npkts >= uiocnt) { | |
4029 | error = 0; | |
4030 | goto release; | |
4031 | } | |
fe8ab488 A |
4032 | restart: |
4033 | /* | |
4034 | * See if the socket has been closed (SS_NOFDREF|SS_CANTRCVMORE) | |
4035 | * and if so just return to the caller. This could happen when | |
4036 | * soreceive() is called by a socket upcall function during the | |
4037 | * time the socket is freed. The socket buffer would have been | |
4038 | * locked across the upcall, therefore we cannot put this thread | |
4039 | * to sleep (else we will deadlock) or return EWOULDBLOCK (else | |
4040 | * we may livelock), because the lock on the socket buffer will | |
4041 | * only be released when the upcall routine returns to its caller. | |
4042 | * Because the socket has been officially closed, there can be | |
4043 | * no further read on it. | |
4044 | */ | |
4045 | if ((so->so_state & (SS_NOFDREF | SS_CANTRCVMORE)) == | |
4046 | (SS_NOFDREF | SS_CANTRCVMORE)) { | |
4047 | error = 0; | |
4048 | goto release; | |
4049 | } | |
4050 | ||
4051 | error = sblock(&so->so_rcv, SBLOCKWAIT(flags)); | |
4052 | if (error) { | |
4053 | goto release; | |
4054 | } | |
4055 | sblocked = 1; | |
4056 | ||
fe8ab488 A |
4057 | m = so->so_rcv.sb_mb; |
4058 | /* | |
4059 | * Block awaiting more datagram if needed | |
4060 | */ | |
3e170ce0 A |
4061 | if (m == NULL || (((flags & MSG_DONTWAIT) == 0 && |
4062 | (so->so_rcv.sb_cc < so->so_rcv.sb_lowat || | |
4063 | ((flags & MSG_WAITALL) && npkts < uiocnt))))) { | |
fe8ab488 A |
4064 | /* |
4065 | * Panic if we notice inconsistencies in the socket's | |
4066 | * receive list; both sb_mb and sb_cc should correctly | |
4067 | * reflect the contents of the list, otherwise we may | |
4068 | * end up with false positives during select() or poll() | |
4069 | * which could put the application in a bad state. | |
4070 | */ | |
4071 | SB_MB_CHECK(&so->so_rcv); | |
4072 | ||
4073 | if (so->so_error) { | |
4074 | error = so->so_error; | |
3e170ce0 A |
4075 | if ((flags & MSG_PEEK) == 0) |
4076 | so->so_error = 0; | |
fe8ab488 A |
4077 | goto release; |
4078 | } | |
4079 | if (so->so_state & SS_CANTRCVMORE) { | |
4080 | goto release; | |
4081 | } | |
4082 | if ((so->so_state & (SS_ISCONNECTED|SS_ISCONNECTING)) == 0 && | |
4083 | (so->so_proto->pr_flags & PR_CONNREQUIRED)) { | |
4084 | error = ENOTCONN; | |
4085 | goto release; | |
4086 | } | |
4087 | if ((so->so_state & SS_NBIO) || | |
4088 | (flags & (MSG_DONTWAIT|MSG_NBIO))) { | |
4089 | error = EWOULDBLOCK; | |
4090 | goto release; | |
4091 | } | |
4092 | /* | |
4093 | * Do not block if we got some data | |
fe8ab488 | 4094 | */ |
3e170ce0 | 4095 | if (free_list != NULL) { |
fe8ab488 A |
4096 | error = 0; |
4097 | goto release; | |
4098 | } | |
3e170ce0 | 4099 | |
fe8ab488 A |
4100 | SBLASTRECORDCHK(&so->so_rcv, "soreceive sbwait 1"); |
4101 | SBLASTMBUFCHK(&so->so_rcv, "soreceive sbwait 1"); | |
4102 | ||
4103 | sbunlock(&so->so_rcv, TRUE); /* keep socket locked */ | |
4104 | sblocked = 0; | |
4105 | ||
4106 | error = sbwait(&so->so_rcv); | |
4107 | if (error) { | |
4108 | goto release; | |
4109 | } | |
4110 | goto restart; | |
4111 | } | |
4112 | ||
fe8ab488 A |
4113 | OSIncrementAtomicLong(&p->p_stats->p_ru.ru_msgrcv); |
4114 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 1"); | |
4115 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 1"); | |
4116 | ||
4117 | /* | |
4118 | * Consume the current uio index as we have a datagram | |
4119 | */ | |
3e170ce0 A |
4120 | auio = msgarray[npkts].uio; |
4121 | resid = uio_resid(auio); | |
4122 | msgarray[npkts].which |= SOCK_MSG_DATA; | |
4123 | psa = (msgarray[npkts].which & SOCK_MSG_SA) ? | |
4124 | &msgarray[npkts].psa : NULL; | |
4125 | controlp = (msgarray[npkts].which & SOCK_MSG_CONTROL) ? | |
4126 | &msgarray[npkts].controlp : NULL; | |
4127 | npkts += 1; | |
fe8ab488 A |
4128 | nextrecord = m->m_nextpkt; |
4129 | ||
fe8ab488 | 4130 | if ((pr->pr_flags & PR_ADDR) && m->m_type == MT_SONAME) { |
3e170ce0 A |
4131 | error = soreceive_addr(p, so, psa, flags, &m, &nextrecord, 1); |
4132 | if (error == ERESTART) | |
4133 | goto restart; | |
4134 | else if (error != 0) | |
4135 | goto release; | |
fe8ab488 | 4136 | } |
fe8ab488 | 4137 | |
fe8ab488 | 4138 | if (m != NULL && m->m_type == MT_CONTROL) { |
3e170ce0 A |
4139 | error = soreceive_ctl(so, controlp, flags, &m, &nextrecord); |
4140 | if (error != 0) | |
4141 | goto release; | |
fe8ab488 | 4142 | } |
fe8ab488 | 4143 | |
3e170ce0 A |
4144 | if (m->m_pkthdr.len == 0) { |
4145 | printf("%s:%d so %llx pkt %llx type %u pktlen null\n", | |
4146 | __func__, __LINE__, | |
4147 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
4148 | (uint64_t)DEBUG_KERNEL_ADDRPERM(m), | |
4149 | m->m_type); | |
4150 | } | |
fe8ab488 A |
4151 | |
4152 | /* | |
3e170ce0 A |
4153 | * Loop to copy the mbufs of the current record |
4154 | * Support zero length packets | |
fe8ab488 | 4155 | */ |
3e170ce0 A |
4156 | ml = NULL; |
4157 | pktlen = 0; | |
4158 | while (m != NULL && (len = resid - pktlen) >= 0 && error == 0) { | |
fe8ab488 | 4159 | if (m->m_len == 0) |
3e170ce0 A |
4160 | panic("%p m_len zero", m); |
4161 | if (m->m_type == 0) | |
4162 | panic("%p m_type zero", m); | |
fe8ab488 A |
4163 | /* |
4164 | * Clip to the residual length | |
4165 | */ | |
4166 | if (len > m->m_len) | |
4167 | len = m->m_len; | |
3e170ce0 | 4168 | pktlen += len; |
fe8ab488 | 4169 | /* |
3e170ce0 | 4170 | * Copy the mbufs via the uio or delay the copy |
fe8ab488 A |
4171 | * Sockbuf must be consistent here (points to current mbuf, |
4172 | * it points to next record) when we drop priority; | |
4173 | * we must note any additions to the sockbuf when we | |
4174 | * block interrupts again. | |
4175 | */ | |
3e170ce0 | 4176 | if (len > 0 && can_delay == 0) { |
fe8ab488 A |
4177 | socket_unlock(so, 0); |
4178 | error = uiomove(mtod(m, caddr_t), (int)len, auio); | |
4179 | socket_lock(so, 0); | |
fe8ab488 A |
4180 | if (error) |
4181 | goto release; | |
3e170ce0 A |
4182 | } else { |
4183 | delayed_copy_len += len; | |
fe8ab488 | 4184 | } |
3e170ce0 | 4185 | |
fe8ab488 A |
4186 | if (len == m->m_len) { |
4187 | /* | |
3e170ce0 | 4188 | * m was entirely copied |
fe8ab488 | 4189 | */ |
fe8ab488 | 4190 | sbfree(&so->so_rcv, m); |
3e170ce0 | 4191 | nextrecord = m->m_nextpkt; |
fe8ab488 A |
4192 | m->m_nextpkt = NULL; |
4193 | ||
4194 | /* | |
3e170ce0 | 4195 | * Set the first packet to the head of the free list |
fe8ab488 | 4196 | */ |
3e170ce0 A |
4197 | if (free_list == NULL) |
4198 | free_list = m; | |
4199 | /* | |
4200 | * Link current packet to tail of free list | |
4201 | */ | |
4202 | if (ml == NULL) { | |
4203 | if (free_tail != NULL) | |
4204 | free_tail->m_nextpkt = m; | |
4205 | free_tail = m; | |
fe8ab488 | 4206 | } |
3e170ce0 A |
4207 | /* |
4208 | * Link current mbuf to last mbuf of current packet | |
4209 | */ | |
4210 | if (ml != NULL) | |
4211 | ml->m_next = m; | |
4212 | ml = m; | |
4213 | ||
4214 | /* | |
4215 | * Move next buf to head of socket buffer | |
4216 | */ | |
4217 | so->so_rcv.sb_mb = m = ml->m_next; | |
4218 | ml->m_next = NULL; | |
4219 | ||
fe8ab488 A |
4220 | if (m != NULL) { |
4221 | m->m_nextpkt = nextrecord; | |
4222 | if (nextrecord == NULL) | |
4223 | so->so_rcv.sb_lastrecord = m; | |
4224 | } else { | |
4225 | so->so_rcv.sb_mb = nextrecord; | |
4226 | SB_EMPTY_FIXUP(&so->so_rcv); | |
4227 | } | |
4228 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 3"); | |
4229 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 3"); | |
4230 | } else { | |
4231 | /* | |
4232 | * Stop the loop on partial copy | |
4233 | */ | |
fe8ab488 A |
4234 | break; |
4235 | } | |
4236 | } | |
4237 | #ifdef MORE_LOCKING_DEBUG | |
4238 | if (so->so_usecount <= 1) { | |
4239 | panic("%s: after big while so=%llx ref=%d on socket\n", | |
4240 | __func__, | |
3e170ce0 | 4241 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), so->so_usecount); |
fe8ab488 A |
4242 | /* NOTREACHED */ |
4243 | } | |
4244 | #endif | |
4245 | /* | |
4246 | * Tell the caller we made a partial copy | |
4247 | */ | |
4248 | if (m != NULL) { | |
4249 | if (so->so_options & SO_DONTTRUNC) { | |
3e170ce0 A |
4250 | /* |
4251 | * Copyout first the freelist then the partial mbuf | |
4252 | */ | |
4253 | socket_unlock(so, 0); | |
4254 | if (delayed_copy_len) | |
4255 | error = sodelayed_copy_list(so, msgarray, | |
4256 | uiocnt, &free_list, &delayed_copy_len); | |
4257 | ||
4258 | if (error == 0) { | |
4259 | error = uiomove(mtod(m, caddr_t), (int)len, | |
4260 | auio); | |
4261 | } | |
4262 | socket_lock(so, 0); | |
4263 | if (error) | |
4264 | goto release; | |
4265 | ||
fe8ab488 A |
4266 | m->m_data += len; |
4267 | m->m_len -= len; | |
4268 | so->so_rcv.sb_cc -= len; | |
4269 | flags |= MSG_RCVMORE; | |
4270 | } else { | |
4271 | (void) sbdroprecord(&so->so_rcv); | |
4272 | nextrecord = so->so_rcv.sb_mb; | |
4273 | m = NULL; | |
4274 | flags |= MSG_TRUNC; | |
4275 | } | |
4276 | } | |
4277 | ||
4278 | if (m == NULL) { | |
4279 | so->so_rcv.sb_mb = nextrecord; | |
4280 | /* | |
4281 | * First part is an inline SB_EMPTY_FIXUP(). Second | |
4282 | * part makes sure sb_lastrecord is up-to-date if | |
4283 | * there is still data in the socket buffer. | |
4284 | */ | |
4285 | if (so->so_rcv.sb_mb == NULL) { | |
4286 | so->so_rcv.sb_mbtail = NULL; | |
4287 | so->so_rcv.sb_lastrecord = NULL; | |
4288 | } else if (nextrecord->m_nextpkt == NULL) { | |
4289 | so->so_rcv.sb_lastrecord = nextrecord; | |
4290 | } | |
4291 | SB_MB_CHECK(&so->so_rcv); | |
4292 | } | |
4293 | SBLASTRECORDCHK(&so->so_rcv, "soreceive 4"); | |
4294 | SBLASTMBUFCHK(&so->so_rcv, "soreceive 4"); | |
4295 | ||
4296 | /* | |
4297 | * We can continue to the next packet as long as: | |
4298 | * - We haven't exhausted the uio array | |
4299 | * - There was no error | |
4300 | * - A packet was not truncated | |
4301 | * - We can still receive more data | |
3e170ce0 A |
4302 | */ |
4303 | if (npkts < uiocnt && error == 0 && | |
4304 | (flags & (MSG_RCVMORE | MSG_TRUNC)) == 0 && | |
4305 | (so->so_state & SS_CANTRCVMORE) == 0) { | |
fe8ab488 A |
4306 | sbunlock(&so->so_rcv, TRUE); /* keep socket locked */ |
4307 | sblocked = 0; | |
4308 | ||
3e170ce0 | 4309 | goto next; |
fe8ab488 | 4310 | } |
3e170ce0 A |
4311 | if (flagsp != NULL) |
4312 | *flagsp |= flags; | |
fe8ab488 A |
4313 | |
4314 | release: | |
4315 | /* | |
4316 | * pru_rcvd may cause more data to be received if the socket lock | |
4317 | * is dropped so we set MSG_HAVEMORE now based on what we know. | |
3e170ce0 A |
4318 | * That way the caller won't be surprised if it receives less data |
4319 | * than requested. | |
fe8ab488 A |
4320 | */ |
4321 | if ((so->so_options & SO_WANTMORE) && so->so_rcv.sb_cc > 0) | |
4322 | flags |= MSG_HAVEMORE; | |
4323 | ||
4324 | if (pr->pr_flags & PR_WANTRCVD && so->so_pcb) | |
4325 | (*pr->pr_usrreqs->pru_rcvd)(so, flags); | |
4326 | ||
fe8ab488 A |
4327 | if (sblocked) |
4328 | sbunlock(&so->so_rcv, FALSE); /* will unlock socket */ | |
4329 | else | |
4330 | socket_unlock(so, 1); | |
3e170ce0 A |
4331 | |
4332 | if (delayed_copy_len) | |
4333 | error = sodelayed_copy_list(so, msgarray, uiocnt, | |
4334 | &free_list, &delayed_copy_len); | |
fe8ab488 A |
4335 | out: |
4336 | /* | |
3e170ce0 | 4337 | * Amortize the cost of freeing the mbufs |
fe8ab488 A |
4338 | */ |
4339 | if (free_list != NULL) | |
4340 | m_freem_list(free_list); | |
3e170ce0 A |
4341 | if (free_others != NULL) |
4342 | m_freem_list(free_others); | |
fe8ab488 A |
4343 | |
4344 | KERNEL_DEBUG(DBG_FNC_SORECEIVE_LIST | DBG_FUNC_END, error, | |
4345 | 0, 0, 0, 0); | |
4346 | return (error); | |
4347 | } | |
4348 | ||
4349 | /* | |
4350 | * Returns: 0 Success | |
4351 | * EINVAL | |
4352 | * ENOTCONN | |
4353 | * <pru_shutdown>:EINVAL | |
4354 | * <pru_shutdown>:EADDRNOTAVAIL[TCP] | |
4355 | * <pru_shutdown>:ENOBUFS[TCP] | |
4356 | * <pru_shutdown>:EMSGSIZE[TCP] | |
4357 | * <pru_shutdown>:EHOSTUNREACH[TCP] | |
4358 | * <pru_shutdown>:ENETUNREACH[TCP] | |
4359 | * <pru_shutdown>:ENETDOWN[TCP] | |
4360 | * <pru_shutdown>:ENOMEM[TCP] | |
4361 | * <pru_shutdown>:EACCES[TCP] | |
4362 | * <pru_shutdown>:EMSGSIZE[TCP] | |
4363 | * <pru_shutdown>:ENOBUFS[TCP] | |
4364 | * <pru_shutdown>:???[TCP] [ignorable: mostly IPSEC/firewall/DLIL] | |
4365 | * <pru_shutdown>:??? [other protocol families] | |
4366 | */ | |
4367 | int | |
4368 | soshutdown(struct socket *so, int how) | |
4369 | { | |
4370 | int error; | |
4371 | ||
4372 | KERNEL_DEBUG(DBG_FNC_SOSHUTDOWN | DBG_FUNC_START, how, 0, 0, 0, 0); | |
4373 | ||
4374 | switch (how) { | |
4375 | case SHUT_RD: | |
4376 | case SHUT_WR: | |
4377 | case SHUT_RDWR: | |
4378 | socket_lock(so, 1); | |
4379 | if ((so->so_state & | |
4380 | (SS_ISCONNECTED|SS_ISCONNECTING|SS_ISDISCONNECTING)) == 0) { | |
4381 | error = ENOTCONN; | |
2d21ac55 A |
4382 | } else { |
4383 | error = soshutdownlock(so, how); | |
4384 | } | |
4385 | socket_unlock(so, 1); | |
4386 | break; | |
4387 | default: | |
4388 | error = EINVAL; | |
4389 | break; | |
55e303ae | 4390 | } |
55e303ae | 4391 | |
fe8ab488 A |
4392 | KERNEL_DEBUG(DBG_FNC_SOSHUTDOWN | DBG_FUNC_END, how, error, 0, 0, 0); |
4393 | ||
55e303ae A |
4394 | return (error); |
4395 | } | |
4396 | ||
1c79356b | 4397 | int |
fe8ab488 | 4398 | soshutdownlock_final(struct socket *so, int how) |
1c79356b | 4399 | { |
2d21ac55 A |
4400 | struct protosw *pr = so->so_proto; |
4401 | int error = 0; | |
1c79356b | 4402 | |
91447636 | 4403 | sflt_notify(so, sock_evt_shutdown, &how); |
1c79356b | 4404 | |
9bccf70c | 4405 | if (how != SHUT_WR) { |
2d21ac55 A |
4406 | if ((so->so_state & SS_CANTRCVMORE) != 0) { |
4407 | /* read already shut down */ | |
4408 | error = ENOTCONN; | |
4409 | goto done; | |
4410 | } | |
1c79356b A |
4411 | sorflush(so); |
4412 | postevent(so, 0, EV_RCLOSED); | |
4413 | } | |
9bccf70c | 4414 | if (how != SHUT_RD) { |
2d21ac55 A |
4415 | if ((so->so_state & SS_CANTSENDMORE) != 0) { |
4416 | /* write already shut down */ | |
4417 | error = ENOTCONN; | |
4418 | goto done; | |
4419 | } | |
4420 | error = (*pr->pr_usrreqs->pru_shutdown)(so); | |
4421 | postevent(so, 0, EV_WCLOSED); | |
1c79356b | 4422 | } |
2d21ac55 | 4423 | done: |
fe8ab488 A |
4424 | KERNEL_DEBUG(DBG_FNC_SOSHUTDOWN, how, 1, 0, 0, 0); |
4425 | return (error); | |
4426 | } | |
4427 | ||
4428 | int | |
4429 | soshutdownlock(struct socket *so, int how) | |
4430 | { | |
4431 | int error = 0; | |
4432 | ||
4433 | #if CONTENT_FILTER | |
4434 | /* | |
4435 | * A content filter may delay the actual shutdown until it | |
4436 | * has processed the pending data | |
4437 | */ | |
4438 | if (so->so_flags & SOF_CONTENT_FILTER) { | |
4439 | error = cfil_sock_shutdown(so, &how); | |
4440 | if (error == EJUSTRETURN) { | |
4441 | error = 0; | |
4442 | goto done; | |
4443 | } else if (error != 0) { | |
4444 | goto done; | |
4445 | } | |
4446 | } | |
4447 | #endif /* CONTENT_FILTER */ | |
3e170ce0 | 4448 | |
fe8ab488 A |
4449 | error = soshutdownlock_final(so, how); |
4450 | ||
4451 | done: | |
2d21ac55 | 4452 | return (error); |
1c79356b A |
4453 | } |
4454 | ||
39236c6e A |
4455 | void |
4456 | sowflush(struct socket *so) | |
4457 | { | |
4458 | struct sockbuf *sb = &so->so_snd; | |
39236c6e A |
4459 | |
4460 | /* | |
4461 | * Obtain lock on the socket buffer (SB_LOCK). This is required | |
4462 | * to prevent the socket buffer from being unexpectedly altered | |
4463 | * while it is used by another thread in socket send/receive. | |
4464 | * | |
4465 | * sblock() must not fail here, hence the assertion. | |
4466 | */ | |
4467 | (void) sblock(sb, SBL_WAIT | SBL_NOINTR | SBL_IGNDEFUNCT); | |
4468 | VERIFY(sb->sb_flags & SB_LOCK); | |
4469 | ||
4470 | sb->sb_flags &= ~(SB_SEL|SB_UPCALL); | |
4471 | sb->sb_flags |= SB_DROP; | |
4472 | sb->sb_upcall = NULL; | |
4473 | sb->sb_upcallarg = NULL; | |
4474 | ||
4475 | sbunlock(sb, TRUE); /* keep socket locked */ | |
4476 | ||
4477 | selthreadclear(&sb->sb_sel); | |
4478 | sbrelease(sb); | |
4479 | } | |
4480 | ||
1c79356b | 4481 | void |
2d21ac55 | 4482 | sorflush(struct socket *so) |
1c79356b | 4483 | { |
39236c6e A |
4484 | struct sockbuf *sb = &so->so_rcv; |
4485 | struct protosw *pr = so->so_proto; | |
1c79356b | 4486 | struct sockbuf asb; |
39236c6e | 4487 | #ifdef notyet |
2d21ac55 | 4488 | lck_mtx_t *mutex_held; |
39236c6e A |
4489 | /* |
4490 | * XXX: This code is currently commented out, because we may get here | |
4491 | * as part of sofreelastref(), and at that time, pr_getlock() may no | |
4492 | * longer be able to return us the lock; this will be fixed in future. | |
4493 | */ | |
2d21ac55 | 4494 | if (so->so_proto->pr_getlock != NULL) |
91447636 | 4495 | mutex_held = (*so->so_proto->pr_getlock)(so, 0); |
2d21ac55 | 4496 | else |
91447636 | 4497 | mutex_held = so->so_proto->pr_domain->dom_mtx; |
39236c6e | 4498 | |
5ba3f43e | 4499 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); |
39236c6e | 4500 | #endif /* notyet */ |
91447636 A |
4501 | |
4502 | sflt_notify(so, sock_evt_flush_read, NULL); | |
1c79356b | 4503 | |
1c79356b | 4504 | socantrcvmore(so); |
39236c6e A |
4505 | |
4506 | /* | |
4507 | * Obtain lock on the socket buffer (SB_LOCK). This is required | |
4508 | * to prevent the socket buffer from being unexpectedly altered | |
4509 | * while it is used by another thread in socket send/receive. | |
4510 | * | |
4511 | * sblock() must not fail here, hence the assertion. | |
4512 | */ | |
4513 | (void) sblock(sb, SBL_WAIT | SBL_NOINTR | SBL_IGNDEFUNCT); | |
4514 | VERIFY(sb->sb_flags & SB_LOCK); | |
4515 | ||
4516 | /* | |
4517 | * Copy only the relevant fields from "sb" to "asb" which we | |
4518 | * need for sbrelease() to function. In particular, skip | |
4519 | * sb_sel as it contains the wait queue linkage, which would | |
4520 | * wreak havoc if we were to issue selthreadclear() on "asb". | |
4521 | * Make sure to not carry over SB_LOCK in "asb", as we need | |
4522 | * to acquire it later as part of sbrelease(). | |
4523 | */ | |
4524 | bzero(&asb, sizeof (asb)); | |
4525 | asb.sb_cc = sb->sb_cc; | |
4526 | asb.sb_hiwat = sb->sb_hiwat; | |
4527 | asb.sb_mbcnt = sb->sb_mbcnt; | |
4528 | asb.sb_mbmax = sb->sb_mbmax; | |
4529 | asb.sb_ctl = sb->sb_ctl; | |
4530 | asb.sb_lowat = sb->sb_lowat; | |
4531 | asb.sb_mb = sb->sb_mb; | |
4532 | asb.sb_mbtail = sb->sb_mbtail; | |
4533 | asb.sb_lastrecord = sb->sb_lastrecord; | |
4534 | asb.sb_so = sb->sb_so; | |
4535 | asb.sb_flags = sb->sb_flags; | |
4536 | asb.sb_flags &= ~(SB_LOCK|SB_SEL|SB_KNOTE|SB_UPCALL); | |
4537 | asb.sb_flags |= SB_DROP; | |
4538 | ||
4539 | /* | |
4540 | * Ideally we'd bzero() these and preserve the ones we need; | |
4541 | * but to do that we'd need to shuffle things around in the | |
4542 | * sockbuf, and we can't do it now because there are KEXTS | |
4543 | * that are directly referring to the socket structure. | |
4544 | * | |
4545 | * Setting SB_DROP acts as a barrier to prevent further appends. | |
4546 | * Clearing SB_SEL is done for selthreadclear() below. | |
4547 | */ | |
4548 | sb->sb_cc = 0; | |
4549 | sb->sb_hiwat = 0; | |
4550 | sb->sb_mbcnt = 0; | |
4551 | sb->sb_mbmax = 0; | |
4552 | sb->sb_ctl = 0; | |
4553 | sb->sb_lowat = 0; | |
4554 | sb->sb_mb = NULL; | |
4555 | sb->sb_mbtail = NULL; | |
4556 | sb->sb_lastrecord = NULL; | |
4557 | sb->sb_timeo.tv_sec = 0; | |
4558 | sb->sb_timeo.tv_usec = 0; | |
4559 | sb->sb_upcall = NULL; | |
4560 | sb->sb_upcallarg = NULL; | |
4561 | sb->sb_flags &= ~(SB_SEL|SB_UPCALL); | |
4562 | sb->sb_flags |= SB_DROP; | |
4563 | ||
4564 | sbunlock(sb, TRUE); /* keep socket locked */ | |
4565 | ||
4566 | /* | |
4567 | * Note that selthreadclear() is called on the original "sb" and | |
4568 | * not the local "asb" because of the way wait queue linkage is | |
4569 | * implemented. Given that selwakeup() may be triggered, SB_SEL | |
4570 | * should no longer be set (cleared above.) | |
4571 | */ | |
0b4e3aa0 | 4572 | selthreadclear(&sb->sb_sel); |
39236c6e A |
4573 | |
4574 | if ((pr->pr_flags & PR_RIGHTS) && pr->pr_domain->dom_dispose) | |
1c79356b | 4575 | (*pr->pr_domain->dom_dispose)(asb.sb_mb); |
39236c6e | 4576 | |
1c79356b A |
4577 | sbrelease(&asb); |
4578 | } | |
4579 | ||
4580 | /* | |
4581 | * Perhaps this routine, and sooptcopyout(), below, ought to come in | |
4582 | * an additional variant to handle the case where the option value needs | |
4583 | * to be some kind of integer, but not a specific size. | |
4584 | * In addition to their use here, these functions are also called by the | |
4585 | * protocol-level pr_ctloutput() routines. | |
2d21ac55 A |
4586 | * |
4587 | * Returns: 0 Success | |
4588 | * EINVAL | |
4589 | * copyin:EFAULT | |
1c79356b A |
4590 | */ |
4591 | int | |
2d21ac55 | 4592 | sooptcopyin(struct sockopt *sopt, void *buf, size_t len, size_t minlen) |
1c79356b A |
4593 | { |
4594 | size_t valsize; | |
4595 | ||
4596 | /* | |
4597 | * If the user gives us more than we wanted, we ignore it, | |
4598 | * but if we don't get the minimum length the caller | |
4599 | * wants, we return EINVAL. On success, sopt->sopt_valsize | |
4600 | * is set to however much we actually retrieved. | |
4601 | */ | |
4602 | if ((valsize = sopt->sopt_valsize) < minlen) | |
2d21ac55 | 4603 | return (EINVAL); |
1c79356b A |
4604 | if (valsize > len) |
4605 | sopt->sopt_valsize = valsize = len; | |
4606 | ||
b0d623f7 | 4607 | if (sopt->sopt_p != kernproc) |
1c79356b A |
4608 | return (copyin(sopt->sopt_val, buf, valsize)); |
4609 | ||
91447636 | 4610 | bcopy(CAST_DOWN(caddr_t, sopt->sopt_val), buf, valsize); |
2d21ac55 A |
4611 | return (0); |
4612 | } | |
4613 | ||
4614 | /* | |
4615 | * sooptcopyin_timeval | |
4616 | * Copy in a timeval value into tv_p, and take into account whether the | |
4617 | * the calling process is 64-bit or 32-bit. Moved the sanity checking | |
4618 | * code here so that we can verify the 64-bit tv_sec value before we lose | |
4619 | * the top 32-bits assigning tv64.tv_sec to tv_p->tv_sec. | |
4620 | */ | |
4621 | static int | |
39236c6e | 4622 | sooptcopyin_timeval(struct sockopt *sopt, struct timeval *tv_p) |
2d21ac55 A |
4623 | { |
4624 | int error; | |
b0d623f7 | 4625 | |
2d21ac55 | 4626 | if (proc_is64bit(sopt->sopt_p)) { |
b0d623f7 | 4627 | struct user64_timeval tv64; |
2d21ac55 | 4628 | |
39236c6e | 4629 | if (sopt->sopt_valsize < sizeof (tv64)) |
2d21ac55 | 4630 | return (EINVAL); |
39236c6e A |
4631 | |
4632 | sopt->sopt_valsize = sizeof (tv64); | |
b0d623f7 | 4633 | if (sopt->sopt_p != kernproc) { |
39236c6e | 4634 | error = copyin(sopt->sopt_val, &tv64, sizeof (tv64)); |
b0d623f7 A |
4635 | if (error != 0) |
4636 | return (error); | |
4637 | } else { | |
4638 | bcopy(CAST_DOWN(caddr_t, sopt->sopt_val), &tv64, | |
39236c6e | 4639 | sizeof (tv64)); |
2d21ac55 | 4640 | } |
39236c6e A |
4641 | if (tv64.tv_sec < 0 || tv64.tv_sec > LONG_MAX || |
4642 | tv64.tv_usec < 0 || tv64.tv_usec >= 1000000) | |
2d21ac55 | 4643 | return (EDOM); |
39236c6e | 4644 | |
2d21ac55 A |
4645 | tv_p->tv_sec = tv64.tv_sec; |
4646 | tv_p->tv_usec = tv64.tv_usec; | |
4647 | } else { | |
b0d623f7 A |
4648 | struct user32_timeval tv32; |
4649 | ||
39236c6e | 4650 | if (sopt->sopt_valsize < sizeof (tv32)) |
2d21ac55 | 4651 | return (EINVAL); |
39236c6e A |
4652 | |
4653 | sopt->sopt_valsize = sizeof (tv32); | |
b0d623f7 | 4654 | if (sopt->sopt_p != kernproc) { |
39236c6e | 4655 | error = copyin(sopt->sopt_val, &tv32, sizeof (tv32)); |
2d21ac55 A |
4656 | if (error != 0) { |
4657 | return (error); | |
4658 | } | |
4659 | } else { | |
b0d623f7 | 4660 | bcopy(CAST_DOWN(caddr_t, sopt->sopt_val), &tv32, |
39236c6e | 4661 | sizeof (tv32)); |
2d21ac55 | 4662 | } |
39236c6e A |
4663 | #ifndef __LP64__ |
4664 | /* | |
4665 | * K64todo "comparison is always false due to | |
4666 | * limited range of data type" | |
4667 | */ | |
4668 | if (tv32.tv_sec < 0 || tv32.tv_sec > LONG_MAX || | |
4669 | tv32.tv_usec < 0 || tv32.tv_usec >= 1000000) | |
2d21ac55 | 4670 | return (EDOM); |
b0d623f7 A |
4671 | #endif |
4672 | tv_p->tv_sec = tv32.tv_sec; | |
4673 | tv_p->tv_usec = tv32.tv_usec; | |
2d21ac55 A |
4674 | } |
4675 | return (0); | |
1c79356b A |
4676 | } |
4677 | ||
5ba3f43e A |
4678 | int |
4679 | soopt_cred_check(struct socket *so, int priv, boolean_t allow_root) | |
39037602 A |
4680 | { |
4681 | kauth_cred_t cred = NULL; | |
4682 | proc_t ep = PROC_NULL; | |
5ba3f43e A |
4683 | uid_t uid; |
4684 | int error = 0; | |
39037602 A |
4685 | |
4686 | if (so->so_flags & SOF_DELEGATED) { | |
4687 | ep = proc_find(so->e_pid); | |
4688 | if (ep) | |
4689 | cred = kauth_cred_proc_ref(ep); | |
4690 | } | |
5ba3f43e A |
4691 | |
4692 | uid = kauth_cred_getuid(cred ? cred : so->so_cred); | |
4693 | ||
4694 | /* uid is 0 for root */ | |
4695 | if (uid != 0 || !allow_root) | |
4696 | error = priv_check_cred(cred ? cred : so->so_cred, priv, 0); | |
39037602 A |
4697 | if (cred) |
4698 | kauth_cred_unref(&cred); | |
4699 | if (ep != PROC_NULL) | |
4700 | proc_rele(ep); | |
4701 | ||
4702 | return (error); | |
4703 | } | |
4704 | ||
2d21ac55 A |
4705 | /* |
4706 | * Returns: 0 Success | |
4707 | * EINVAL | |
4708 | * ENOPROTOOPT | |
4709 | * ENOBUFS | |
4710 | * EDOM | |
4711 | * sooptcopyin:EINVAL | |
4712 | * sooptcopyin:EFAULT | |
4713 | * sooptcopyin_timeval:EINVAL | |
4714 | * sooptcopyin_timeval:EFAULT | |
4715 | * sooptcopyin_timeval:EDOM | |
4716 | * <pr_ctloutput>:EOPNOTSUPP[AF_UNIX] | |
4717 | * <pr_ctloutput>:???w | |
4718 | * sflt_attach_private:??? [whatever a filter author chooses] | |
4719 | * <sf_setoption>:??? [whatever a filter author chooses] | |
4720 | * | |
4721 | * Notes: Other <pru_listen> returns depend on the protocol family; all | |
4722 | * <sf_listen> returns depend on what the filter author causes | |
4723 | * their filter to return. | |
4724 | */ | |
1c79356b | 4725 | int |
39236c6e | 4726 | sosetoptlock(struct socket *so, struct sockopt *sopt, int dolock) |
1c79356b A |
4727 | { |
4728 | int error, optval; | |
4729 | struct linger l; | |
4730 | struct timeval tv; | |
2d21ac55 A |
4731 | #if CONFIG_MACF_SOCKET |
4732 | struct mac extmac; | |
4733 | #endif /* MAC_SOCKET */ | |
91447636 | 4734 | |
39236c6e A |
4735 | if (sopt->sopt_dir != SOPT_SET) |
4736 | sopt->sopt_dir = SOPT_SET; | |
4737 | ||
4738 | if (dolock) | |
4739 | socket_lock(so, 1); | |
4740 | ||
4741 | if ((so->so_state & (SS_CANTRCVMORE | SS_CANTSENDMORE)) == | |
4742 | (SS_CANTRCVMORE | SS_CANTSENDMORE) && | |
b0d623f7 | 4743 | (so->so_flags & SOF_NPX_SETOPTSHUT) == 0) { |
2d21ac55 A |
4744 | /* the socket has been shutdown, no more sockopt's */ |
4745 | error = EINVAL; | |
39236c6e | 4746 | goto out; |
9bccf70c A |
4747 | } |
4748 | ||
6d2010ae | 4749 | error = sflt_setsockopt(so, sopt); |
39236c6e | 4750 | if (error != 0) { |
6d2010ae A |
4751 | if (error == EJUSTRETURN) |
4752 | error = 0; | |
39236c6e | 4753 | goto out; |
1c79356b A |
4754 | } |
4755 | ||
1c79356b | 4756 | if (sopt->sopt_level != SOL_SOCKET) { |
39236c6e A |
4757 | if (so->so_proto != NULL && |
4758 | so->so_proto->pr_ctloutput != NULL) { | |
2d21ac55 | 4759 | error = (*so->so_proto->pr_ctloutput)(so, sopt); |
39236c6e | 4760 | goto out; |
91447636 | 4761 | } |
1c79356b A |
4762 | error = ENOPROTOOPT; |
4763 | } else { | |
39236c6e A |
4764 | /* |
4765 | * Allow socket-level (SOL_SOCKET) options to be filtered by | |
4766 | * the protocol layer, if needed. A zero value returned from | |
4767 | * the handler means use default socket-level processing as | |
4768 | * done by the rest of this routine. Otherwise, any other | |
4769 | * return value indicates that the option is unsupported. | |
4770 | */ | |
4771 | if (so->so_proto != NULL && (error = so->so_proto->pr_usrreqs-> | |
4772 | pru_socheckopt(so, sopt)) != 0) | |
4773 | goto out; | |
4774 | ||
4775 | error = 0; | |
1c79356b A |
4776 | switch (sopt->sopt_name) { |
4777 | case SO_LINGER: | |
91447636 | 4778 | case SO_LINGER_SEC: |
2d21ac55 | 4779 | error = sooptcopyin(sopt, &l, sizeof (l), sizeof (l)); |
39236c6e A |
4780 | if (error != 0) |
4781 | goto out; | |
1c79356b | 4782 | |
2d21ac55 A |
4783 | so->so_linger = (sopt->sopt_name == SO_LINGER) ? |
4784 | l.l_linger : l.l_linger * hz; | |
39236c6e | 4785 | if (l.l_onoff != 0) |
1c79356b A |
4786 | so->so_options |= SO_LINGER; |
4787 | else | |
4788 | so->so_options &= ~SO_LINGER; | |
4789 | break; | |
4790 | ||
4791 | case SO_DEBUG: | |
4792 | case SO_KEEPALIVE: | |
4793 | case SO_DONTROUTE: | |
4794 | case SO_USELOOPBACK: | |
4795 | case SO_BROADCAST: | |
4796 | case SO_REUSEADDR: | |
4797 | case SO_REUSEPORT: | |
4798 | case SO_OOBINLINE: | |
4799 | case SO_TIMESTAMP: | |
6d2010ae | 4800 | case SO_TIMESTAMP_MONOTONIC: |
1c79356b A |
4801 | case SO_DONTTRUNC: |
4802 | case SO_WANTMORE: | |
9bccf70c | 4803 | case SO_WANTOOBFLAG: |
fe8ab488 | 4804 | case SO_NOWAKEFROMSLEEP: |
39037602 | 4805 | case SO_NOAPNFALLBK: |
2d21ac55 A |
4806 | error = sooptcopyin(sopt, &optval, sizeof (optval), |
4807 | sizeof (optval)); | |
39236c6e A |
4808 | if (error != 0) |
4809 | goto out; | |
1c79356b A |
4810 | if (optval) |
4811 | so->so_options |= sopt->sopt_name; | |
4812 | else | |
4813 | so->so_options &= ~sopt->sopt_name; | |
4814 | break; | |
4815 | ||
4816 | case SO_SNDBUF: | |
4817 | case SO_RCVBUF: | |
4818 | case SO_SNDLOWAT: | |
4819 | case SO_RCVLOWAT: | |
2d21ac55 A |
4820 | error = sooptcopyin(sopt, &optval, sizeof (optval), |
4821 | sizeof (optval)); | |
39236c6e A |
4822 | if (error != 0) |
4823 | goto out; | |
1c79356b A |
4824 | |
4825 | /* | |
4826 | * Values < 1 make no sense for any of these | |
4827 | * options, so disallow them. | |
4828 | */ | |
4829 | if (optval < 1) { | |
4830 | error = EINVAL; | |
39236c6e | 4831 | goto out; |
1c79356b A |
4832 | } |
4833 | ||
4834 | switch (sopt->sopt_name) { | |
4835 | case SO_SNDBUF: | |
39236c6e A |
4836 | case SO_RCVBUF: { |
4837 | struct sockbuf *sb = | |
4838 | (sopt->sopt_name == SO_SNDBUF) ? | |
4839 | &so->so_snd : &so->so_rcv; | |
4840 | if (sbreserve(sb, (u_int32_t)optval) == 0) { | |
1c79356b | 4841 | error = ENOBUFS; |
39236c6e | 4842 | goto out; |
1c79356b | 4843 | } |
316670eb A |
4844 | sb->sb_flags |= SB_USRSIZE; |
4845 | sb->sb_flags &= ~SB_AUTOSIZE; | |
4846 | sb->sb_idealsize = (u_int32_t)optval; | |
1c79356b | 4847 | break; |
316670eb | 4848 | } |
1c79356b A |
4849 | /* |
4850 | * Make sure the low-water is never greater than | |
4851 | * the high-water. | |
4852 | */ | |
fe8ab488 A |
4853 | case SO_SNDLOWAT: { |
4854 | int space = sbspace(&so->so_snd); | |
4855 | u_int32_t hiwat = so->so_snd.sb_hiwat; | |
4856 | ||
4857 | if (so->so_snd.sb_flags & SB_UNIX) { | |
4858 | struct unpcb *unp = | |
4859 | (struct unpcb *)(so->so_pcb); | |
3e170ce0 A |
4860 | if (unp != NULL && |
4861 | unp->unp_conn != NULL) { | |
fe8ab488 A |
4862 | hiwat += unp->unp_conn->unp_cc; |
4863 | } | |
4864 | } | |
4865 | ||
1c79356b | 4866 | so->so_snd.sb_lowat = |
fe8ab488 A |
4867 | (optval > hiwat) ? |
4868 | hiwat : optval; | |
4869 | ||
4870 | if (space >= so->so_snd.sb_lowat) { | |
4871 | sowwakeup(so); | |
4872 | } | |
1c79356b | 4873 | break; |
3e170ce0 | 4874 | } |
fe8ab488 A |
4875 | case SO_RCVLOWAT: { |
4876 | int64_t data_len; | |
1c79356b A |
4877 | so->so_rcv.sb_lowat = |
4878 | (optval > so->so_rcv.sb_hiwat) ? | |
4879 | so->so_rcv.sb_hiwat : optval; | |
3e170ce0 | 4880 | data_len = so->so_rcv.sb_cc |
fe8ab488 A |
4881 | - so->so_rcv.sb_ctl; |
4882 | if (data_len >= so->so_rcv.sb_lowat) | |
4883 | sorwakeup(so); | |
1c79356b A |
4884 | break; |
4885 | } | |
fe8ab488 | 4886 | } |
1c79356b A |
4887 | break; |
4888 | ||
4889 | case SO_SNDTIMEO: | |
4890 | case SO_RCVTIMEO: | |
2d21ac55 | 4891 | error = sooptcopyin_timeval(sopt, &tv); |
39236c6e A |
4892 | if (error != 0) |
4893 | goto out; | |
1c79356b | 4894 | |
1c79356b A |
4895 | switch (sopt->sopt_name) { |
4896 | case SO_SNDTIMEO: | |
91447636 | 4897 | so->so_snd.sb_timeo = tv; |
1c79356b A |
4898 | break; |
4899 | case SO_RCVTIMEO: | |
91447636 | 4900 | so->so_rcv.sb_timeo = tv; |
1c79356b A |
4901 | break; |
4902 | } | |
4903 | break; | |
4904 | ||
39236c6e | 4905 | case SO_NKE: { |
9bccf70c | 4906 | struct so_nke nke; |
1c79356b | 4907 | |
2d21ac55 A |
4908 | error = sooptcopyin(sopt, &nke, sizeof (nke), |
4909 | sizeof (nke)); | |
39236c6e A |
4910 | if (error != 0) |
4911 | goto out; | |
1c79356b | 4912 | |
6d2010ae | 4913 | error = sflt_attach_internal(so, nke.nke_handle); |
1c79356b A |
4914 | break; |
4915 | } | |
4916 | ||
9bccf70c | 4917 | case SO_NOSIGPIPE: |
2d21ac55 A |
4918 | error = sooptcopyin(sopt, &optval, sizeof (optval), |
4919 | sizeof (optval)); | |
39236c6e A |
4920 | if (error != 0) |
4921 | goto out; | |
4922 | if (optval != 0) | |
2d21ac55 A |
4923 | so->so_flags |= SOF_NOSIGPIPE; |
4924 | else | |
4925 | so->so_flags &= ~SOF_NOSIGPIPE; | |
9bccf70c A |
4926 | break; |
4927 | ||
55e303ae | 4928 | case SO_NOADDRERR: |
2d21ac55 A |
4929 | error = sooptcopyin(sopt, &optval, sizeof (optval), |
4930 | sizeof (optval)); | |
39236c6e A |
4931 | if (error != 0) |
4932 | goto out; | |
4933 | if (optval != 0) | |
2d21ac55 A |
4934 | so->so_flags |= SOF_NOADDRAVAIL; |
4935 | else | |
4936 | so->so_flags &= ~SOF_NOADDRAVAIL; | |
2d21ac55 A |
4937 | break; |
4938 | ||
4939 | case SO_REUSESHAREUID: | |
4940 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
4941 | sizeof (optval)); | |
39236c6e A |
4942 | if (error != 0) |
4943 | goto out; | |
4944 | if (optval != 0) | |
2d21ac55 A |
4945 | so->so_flags |= SOF_REUSESHAREUID; |
4946 | else | |
4947 | so->so_flags &= ~SOF_REUSESHAREUID; | |
4948 | break; | |
39236c6e | 4949 | |
2d21ac55 A |
4950 | case SO_NOTIFYCONFLICT: |
4951 | if (kauth_cred_issuser(kauth_cred_get()) == 0) { | |
4952 | error = EPERM; | |
39236c6e | 4953 | goto out; |
2d21ac55 A |
4954 | } |
4955 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
4956 | sizeof (optval)); | |
39236c6e A |
4957 | if (error != 0) |
4958 | goto out; | |
4959 | if (optval != 0) | |
2d21ac55 A |
4960 | so->so_flags |= SOF_NOTIFYCONFLICT; |
4961 | else | |
4962 | so->so_flags &= ~SOF_NOTIFYCONFLICT; | |
4963 | break; | |
39236c6e | 4964 | |
2d21ac55 | 4965 | case SO_RESTRICTIONS: |
2d21ac55 A |
4966 | error = sooptcopyin(sopt, &optval, sizeof (optval), |
4967 | sizeof (optval)); | |
39236c6e A |
4968 | if (error != 0) |
4969 | goto out; | |
4970 | ||
4971 | error = so_set_restrictions(so, optval); | |
2d21ac55 A |
4972 | break; |
4973 | ||
fe8ab488 A |
4974 | case SO_AWDL_UNRESTRICTED: |
4975 | if (SOCK_DOM(so) != PF_INET && | |
4976 | SOCK_DOM(so) != PF_INET6) { | |
4977 | error = EOPNOTSUPP; | |
4978 | goto out; | |
4979 | } | |
4980 | error = sooptcopyin(sopt, &optval, sizeof(optval), | |
4981 | sizeof(optval)); | |
4982 | if (error != 0) | |
4983 | goto out; | |
4984 | if (optval != 0) { | |
39037602 | 4985 | error = soopt_cred_check(so, |
5ba3f43e | 4986 | PRIV_NET_RESTRICTED_AWDL, false); |
fe8ab488 A |
4987 | if (error == 0) |
4988 | inp_set_awdl_unrestricted( | |
4989 | sotoinpcb(so)); | |
fe8ab488 A |
4990 | } else |
4991 | inp_clear_awdl_unrestricted(sotoinpcb(so)); | |
4992 | break; | |
39037602 A |
4993 | case SO_INTCOPROC_ALLOW: |
4994 | if (SOCK_DOM(so) != PF_INET6) { | |
4995 | error = EOPNOTSUPP; | |
4996 | goto out; | |
4997 | } | |
4998 | error = sooptcopyin(sopt, &optval, sizeof(optval), | |
4999 | sizeof(optval)); | |
5000 | if (error != 0) | |
5001 | goto out; | |
743345f9 A |
5002 | if (optval != 0 && |
5003 | inp_get_intcoproc_allowed(sotoinpcb(so)) == FALSE) { | |
39037602 | 5004 | error = soopt_cred_check(so, |
5ba3f43e | 5005 | PRIV_NET_RESTRICTED_INTCOPROC, false); |
39037602 A |
5006 | if (error == 0) |
5007 | inp_set_intcoproc_allowed( | |
5008 | sotoinpcb(so)); | |
743345f9 | 5009 | } else if (optval == 0) |
39037602 A |
5010 | inp_clear_intcoproc_allowed(sotoinpcb(so)); |
5011 | break; | |
fe8ab488 | 5012 | |
2d21ac55 A |
5013 | case SO_LABEL: |
5014 | #if CONFIG_MACF_SOCKET | |
5015 | if ((error = sooptcopyin(sopt, &extmac, sizeof (extmac), | |
5016 | sizeof (extmac))) != 0) | |
39236c6e | 5017 | goto out; |
2d21ac55 A |
5018 | |
5019 | error = mac_setsockopt_label(proc_ucred(sopt->sopt_p), | |
5020 | so, &extmac); | |
5021 | #else | |
5022 | error = EOPNOTSUPP; | |
5023 | #endif /* MAC_SOCKET */ | |
55e303ae A |
5024 | break; |
5025 | ||
4a3eedf9 A |
5026 | case SO_UPCALLCLOSEWAIT: |
5027 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
5028 | sizeof (optval)); | |
39236c6e A |
5029 | if (error != 0) |
5030 | goto out; | |
5031 | if (optval != 0) | |
4a3eedf9 A |
5032 | so->so_flags |= SOF_UPCALLCLOSEWAIT; |
5033 | else | |
5034 | so->so_flags &= ~SOF_UPCALLCLOSEWAIT; | |
5035 | break; | |
4a3eedf9 | 5036 | |
b0d623f7 A |
5037 | case SO_RANDOMPORT: |
5038 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
5039 | sizeof (optval)); | |
39236c6e A |
5040 | if (error != 0) |
5041 | goto out; | |
5042 | if (optval != 0) | |
b0d623f7 A |
5043 | so->so_flags |= SOF_BINDRANDOMPORT; |
5044 | else | |
5045 | so->so_flags &= ~SOF_BINDRANDOMPORT; | |
5046 | break; | |
5047 | ||
5048 | case SO_NP_EXTENSIONS: { | |
5049 | struct so_np_extensions sonpx; | |
5050 | ||
39236c6e A |
5051 | error = sooptcopyin(sopt, &sonpx, sizeof (sonpx), |
5052 | sizeof (sonpx)); | |
5053 | if (error != 0) | |
5054 | goto out; | |
b0d623f7 A |
5055 | if (sonpx.npx_mask & ~SONPX_MASK_VALID) { |
5056 | error = EINVAL; | |
39236c6e | 5057 | goto out; |
b0d623f7 A |
5058 | } |
5059 | /* | |
5060 | * Only one bit defined for now | |
5061 | */ | |
5062 | if ((sonpx.npx_mask & SONPX_SETOPTSHUT)) { | |
5063 | if ((sonpx.npx_flags & SONPX_SETOPTSHUT)) | |
5064 | so->so_flags |= SOF_NPX_SETOPTSHUT; | |
5065 | else | |
5066 | so->so_flags &= ~SOF_NPX_SETOPTSHUT; | |
5067 | } | |
5068 | break; | |
5069 | } | |
5070 | ||
d41d1dae A |
5071 | case SO_TRAFFIC_CLASS: { |
5072 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
39236c6e A |
5073 | sizeof (optval)); |
5074 | if (error != 0) | |
5075 | goto out; | |
39037602 A |
5076 | if (optval >= SO_TC_NET_SERVICE_OFFSET) { |
5077 | int netsvc = optval - SO_TC_NET_SERVICE_OFFSET; | |
5078 | error = so_set_net_service_type(so, netsvc); | |
5079 | goto out; | |
5080 | } | |
6d2010ae | 5081 | error = so_set_traffic_class(so, optval); |
39236c6e A |
5082 | if (error != 0) |
5083 | goto out; | |
39037602 A |
5084 | so->so_flags1 &= ~SOF1_TC_NET_SERV_TYPE; |
5085 | so->so_netsvctype = _NET_SERVICE_TYPE_UNSPEC; | |
6d2010ae | 5086 | break; |
d41d1dae | 5087 | } |
6d2010ae A |
5088 | |
5089 | case SO_RECV_TRAFFIC_CLASS: { | |
5090 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
39236c6e A |
5091 | sizeof (optval)); |
5092 | if (error != 0) | |
5093 | goto out; | |
6d2010ae A |
5094 | if (optval == 0) |
5095 | so->so_flags &= ~SOF_RECV_TRAFFIC_CLASS; | |
5096 | else | |
5097 | so->so_flags |= SOF_RECV_TRAFFIC_CLASS; | |
5098 | break; | |
5099 | } | |
316670eb | 5100 | |
39037602 | 5101 | #if (DEVELOPMENT || DEBUG) |
6d2010ae A |
5102 | case SO_TRAFFIC_CLASS_DBG: { |
5103 | struct so_tcdbg so_tcdbg; | |
316670eb A |
5104 | |
5105 | error = sooptcopyin(sopt, &so_tcdbg, | |
5106 | sizeof (struct so_tcdbg), sizeof (struct so_tcdbg)); | |
39236c6e A |
5107 | if (error != 0) |
5108 | goto out; | |
6d2010ae | 5109 | error = so_set_tcdbg(so, &so_tcdbg); |
39236c6e A |
5110 | if (error != 0) |
5111 | goto out; | |
6d2010ae A |
5112 | break; |
5113 | } | |
39037602 | 5114 | #endif /* (DEVELOPMENT || DEBUG) */ |
316670eb A |
5115 | |
5116 | case SO_PRIVILEGED_TRAFFIC_CLASS: | |
5117 | error = priv_check_cred(kauth_cred_get(), | |
5118 | PRIV_NET_PRIVILEGED_TRAFFIC_CLASS, 0); | |
39236c6e A |
5119 | if (error != 0) |
5120 | goto out; | |
316670eb | 5121 | error = sooptcopyin(sopt, &optval, sizeof (optval), |
39236c6e A |
5122 | sizeof (optval)); |
5123 | if (error != 0) | |
5124 | goto out; | |
316670eb A |
5125 | if (optval == 0) |
5126 | so->so_flags &= ~SOF_PRIVILEGED_TRAFFIC_CLASS; | |
5127 | else | |
5128 | so->so_flags |= SOF_PRIVILEGED_TRAFFIC_CLASS; | |
5129 | break; | |
5130 | ||
6d2010ae A |
5131 | case SO_DEFUNCTOK: |
5132 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
5133 | sizeof (optval)); | |
5134 | if (error != 0 || (so->so_flags & SOF_DEFUNCT)) { | |
5135 | if (error == 0) | |
5136 | error = EBADF; | |
39236c6e | 5137 | goto out; |
6d2010ae A |
5138 | } |
5139 | /* | |
5140 | * Any process can set SO_DEFUNCTOK (clear | |
5141 | * SOF_NODEFUNCT), but only root can clear | |
5142 | * SO_DEFUNCTOK (set SOF_NODEFUNCT). | |
5143 | */ | |
5144 | if (optval == 0 && | |
5145 | kauth_cred_issuser(kauth_cred_get()) == 0) { | |
5146 | error = EPERM; | |
39236c6e | 5147 | goto out; |
6d2010ae A |
5148 | } |
5149 | if (optval) | |
5150 | so->so_flags &= ~SOF_NODEFUNCT; | |
5151 | else | |
5152 | so->so_flags |= SOF_NODEFUNCT; | |
5153 | ||
39236c6e A |
5154 | if (SOCK_DOM(so) == PF_INET || |
5155 | SOCK_DOM(so) == PF_INET6) { | |
5156 | char s[MAX_IPv6_STR_LEN]; | |
5157 | char d[MAX_IPv6_STR_LEN]; | |
5158 | struct inpcb *inp = sotoinpcb(so); | |
5159 | ||
39037602 A |
5160 | SODEFUNCTLOG("%s[%d, %s]: so 0x%llx " |
5161 | "[%s %s:%d -> %s:%d] is now marked " | |
5162 | "as %seligible for " | |
39236c6e | 5163 | "defunct\n", __func__, proc_selfpid(), |
39037602 | 5164 | proc_best_name(current_proc()), |
3e170ce0 | 5165 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
39236c6e A |
5166 | (SOCK_TYPE(so) == SOCK_STREAM) ? |
5167 | "TCP" : "UDP", inet_ntop(SOCK_DOM(so), | |
5168 | ((SOCK_DOM(so) == PF_INET) ? | |
5169 | (void *)&inp->inp_laddr.s_addr : | |
5170 | (void *)&inp->in6p_laddr), s, sizeof (s)), | |
5171 | ntohs(inp->in6p_lport), | |
5172 | inet_ntop(SOCK_DOM(so), | |
5173 | (SOCK_DOM(so) == PF_INET) ? | |
5174 | (void *)&inp->inp_faddr.s_addr : | |
5175 | (void *)&inp->in6p_faddr, d, sizeof (d)), | |
5176 | ntohs(inp->in6p_fport), | |
5177 | (so->so_flags & SOF_NODEFUNCT) ? | |
39037602 | 5178 | "not " : ""); |
39236c6e | 5179 | } else { |
39037602 A |
5180 | SODEFUNCTLOG("%s[%d, %s]: so 0x%llx [%d,%d] " |
5181 | "is now marked as %seligible for " | |
5182 | "defunct\n", | |
39236c6e | 5183 | __func__, proc_selfpid(), |
39037602 | 5184 | proc_best_name(current_proc()), |
3e170ce0 | 5185 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
39236c6e A |
5186 | SOCK_DOM(so), SOCK_TYPE(so), |
5187 | (so->so_flags & SOF_NODEFUNCT) ? | |
39037602 | 5188 | "not " : ""); |
39236c6e | 5189 | } |
6d2010ae A |
5190 | break; |
5191 | ||
5192 | case SO_ISDEFUNCT: | |
5193 | /* This option is not settable */ | |
5194 | error = EINVAL; | |
5195 | break; | |
d41d1dae | 5196 | |
316670eb A |
5197 | case SO_OPPORTUNISTIC: |
5198 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
5199 | sizeof (optval)); | |
5200 | if (error == 0) | |
5201 | error = so_set_opportunistic(so, optval); | |
5202 | break; | |
5203 | ||
5204 | case SO_FLUSH: | |
5205 | /* This option is handled by lower layer(s) */ | |
5206 | error = 0; | |
5207 | break; | |
5208 | ||
5209 | case SO_RECV_ANYIF: | |
5210 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
5211 | sizeof (optval)); | |
5212 | if (error == 0) | |
5213 | error = so_set_recv_anyif(so, optval); | |
5214 | break; | |
5215 | ||
39236c6e A |
5216 | case SO_TRAFFIC_MGT_BACKGROUND: { |
5217 | /* This option is handled by lower layer(s) */ | |
5218 | error = 0; | |
5219 | break; | |
5220 | } | |
5221 | ||
5222 | #if FLOW_DIVERT | |
5223 | case SO_FLOW_DIVERT_TOKEN: | |
5224 | error = flow_divert_token_set(so, sopt); | |
5225 | break; | |
5226 | #endif /* FLOW_DIVERT */ | |
5227 | ||
5228 | ||
5229 | case SO_DELEGATED: | |
5230 | if ((error = sooptcopyin(sopt, &optval, sizeof (optval), | |
5231 | sizeof (optval))) != 0) | |
5232 | break; | |
5233 | ||
5234 | error = so_set_effective_pid(so, optval, sopt->sopt_p); | |
5235 | break; | |
5236 | ||
5237 | case SO_DELEGATED_UUID: { | |
5238 | uuid_t euuid; | |
5239 | ||
5240 | if ((error = sooptcopyin(sopt, &euuid, sizeof (euuid), | |
5241 | sizeof (euuid))) != 0) | |
5242 | break; | |
5243 | ||
5244 | error = so_set_effective_uuid(so, euuid, sopt->sopt_p); | |
5245 | break; | |
5246 | } | |
3e170ce0 | 5247 | |
fe8ab488 A |
5248 | #if NECP |
5249 | case SO_NECP_ATTRIBUTES: | |
5250 | error = necp_set_socket_attributes(so, sopt); | |
5251 | break; | |
fe8ab488 | 5252 | |
5ba3f43e A |
5253 | case SO_NECP_CLIENTUUID: |
5254 | if (SOCK_DOM(so) == PF_MULTIPATH) { | |
5255 | /* Handled by MPTCP itself */ | |
fe8ab488 A |
5256 | break; |
5257 | } | |
5258 | ||
5ba3f43e A |
5259 | if (SOCK_DOM(so) != PF_INET && SOCK_DOM(so) != PF_INET6) { |
5260 | error = EINVAL; | |
fe8ab488 | 5261 | goto out; |
5ba3f43e A |
5262 | } |
5263 | ||
5264 | struct inpcb *inp = sotoinpcb(so); | |
5265 | if (!uuid_is_null(inp->necp_client_uuid)) { | |
5266 | // Clear out the old client UUID if present | |
5267 | necp_inpcb_remove_cb(inp); | |
5268 | } | |
5269 | ||
5270 | error = sooptcopyin(sopt, &inp->necp_client_uuid, | |
5271 | sizeof(uuid_t), sizeof(uuid_t)); | |
5272 | if (error != 0) { | |
5273 | goto out; | |
5274 | } | |
5275 | ||
5276 | if (uuid_is_null(inp->necp_client_uuid)) { | |
5277 | error = EINVAL; | |
5278 | goto out; | |
5279 | } | |
5280 | ||
5281 | error = necp_client_register_socket_flow(so->last_pid, | |
5282 | inp->necp_client_uuid, inp); | |
5283 | if (error != 0) { | |
5284 | uuid_clear(inp->necp_client_uuid); | |
5285 | goto out; | |
5286 | } | |
5287 | ||
5288 | if (inp->inp_lport != 0) { | |
5289 | // There is bound local port, so this is not | |
5290 | // a fresh socket. Assign to the client. | |
5291 | necp_client_assign_from_socket(so->last_pid, inp->necp_client_uuid, inp); | |
5292 | } | |
5293 | ||
fe8ab488 | 5294 | break; |
5ba3f43e | 5295 | #endif /* NECP */ |
39236c6e | 5296 | |
3e170ce0 A |
5297 | case SO_EXTENDED_BK_IDLE: |
5298 | error = sooptcopyin(sopt, &optval, sizeof (optval), | |
5299 | sizeof (optval)); | |
5300 | if (error == 0) | |
5301 | error = so_set_extended_bk_idle(so, optval); | |
5302 | break; | |
5303 | ||
490019cf A |
5304 | case SO_MARK_CELLFALLBACK: |
5305 | error = sooptcopyin(sopt, &optval, sizeof(optval), | |
5306 | sizeof(optval)); | |
5307 | if (error != 0) | |
5308 | goto out; | |
5309 | if (optval < 0) { | |
5310 | error = EINVAL; | |
5311 | goto out; | |
5312 | } | |
5313 | if (optval == 0) | |
5314 | so->so_flags1 &= ~SOF1_CELLFALLBACK; | |
5315 | else | |
5316 | so->so_flags1 |= SOF1_CELLFALLBACK; | |
5317 | break; | |
39037602 A |
5318 | |
5319 | case SO_NET_SERVICE_TYPE: { | |
5320 | error = sooptcopyin(sopt, &optval, sizeof(optval), | |
5321 | sizeof(optval)); | |
5322 | if (error != 0) | |
5323 | goto out; | |
5324 | error = so_set_net_service_type(so, optval); | |
5325 | break; | |
5326 | } | |
5327 | ||
5328 | case SO_QOSMARKING_POLICY_OVERRIDE: | |
5329 | error = priv_check_cred(kauth_cred_get(), | |
5330 | PRIV_NET_QOSMARKING_POLICY_OVERRIDE, 0); | |
5331 | if (error != 0) | |
5332 | goto out; | |
5333 | error = sooptcopyin(sopt, &optval, sizeof(optval), | |
5334 | sizeof(optval)); | |
5335 | if (error != 0) | |
5336 | goto out; | |
5337 | if (optval == 0) | |
5338 | so->so_flags1 &= ~SOF1_QOSMARKING_POLICY_OVERRIDE; | |
5339 | else | |
5340 | so->so_flags1 |= SOF1_QOSMARKING_POLICY_OVERRIDE; | |
5341 | break; | |
5342 | ||
1c79356b A |
5343 | default: |
5344 | error = ENOPROTOOPT; | |
5345 | break; | |
5346 | } | |
39236c6e A |
5347 | if (error == 0 && so->so_proto != NULL && |
5348 | so->so_proto->pr_ctloutput != NULL) { | |
5349 | (void) so->so_proto->pr_ctloutput(so, sopt); | |
1c79356b A |
5350 | } |
5351 | } | |
39236c6e A |
5352 | out: |
5353 | if (dolock) | |
5354 | socket_unlock(so, 1); | |
1c79356b A |
5355 | return (error); |
5356 | } | |
5357 | ||
2d21ac55 | 5358 | /* Helper routines for getsockopt */ |
1c79356b | 5359 | int |
2d21ac55 | 5360 | sooptcopyout(struct sockopt *sopt, void *buf, size_t len) |
1c79356b A |
5361 | { |
5362 | int error; | |
5363 | size_t valsize; | |
5364 | ||
5365 | error = 0; | |
5366 | ||
5367 | /* | |
5368 | * Documented get behavior is that we always return a value, | |
5369 | * possibly truncated to fit in the user's buffer. | |
5370 | * Traditional behavior is that we always tell the user | |
5371 | * precisely how much we copied, rather than something useful | |
5372 | * like the total amount we had available for her. | |
5373 | * Note that this interface is not idempotent; the entire answer must | |
5374 | * generated ahead of time. | |
5375 | */ | |
5376 | valsize = min(len, sopt->sopt_valsize); | |
5377 | sopt->sopt_valsize = valsize; | |
91447636 | 5378 | if (sopt->sopt_val != USER_ADDR_NULL) { |
b0d623f7 | 5379 | if (sopt->sopt_p != kernproc) |
1c79356b A |
5380 | error = copyout(buf, sopt->sopt_val, valsize); |
5381 | else | |
91447636 | 5382 | bcopy(buf, CAST_DOWN(caddr_t, sopt->sopt_val), valsize); |
1c79356b | 5383 | } |
2d21ac55 A |
5384 | return (error); |
5385 | } | |
5386 | ||
5387 | static int | |
39236c6e | 5388 | sooptcopyout_timeval(struct sockopt *sopt, const struct timeval *tv_p) |
2d21ac55 A |
5389 | { |
5390 | int error; | |
5391 | size_t len; | |
5ba3f43e A |
5392 | struct user64_timeval tv64 = {}; |
5393 | struct user32_timeval tv32 = {}; | |
2d21ac55 A |
5394 | const void * val; |
5395 | size_t valsize; | |
b0d623f7 | 5396 | |
2d21ac55 A |
5397 | error = 0; |
5398 | if (proc_is64bit(sopt->sopt_p)) { | |
39236c6e | 5399 | len = sizeof (tv64); |
2d21ac55 A |
5400 | tv64.tv_sec = tv_p->tv_sec; |
5401 | tv64.tv_usec = tv_p->tv_usec; | |
5402 | val = &tv64; | |
5403 | } else { | |
39236c6e | 5404 | len = sizeof (tv32); |
b0d623f7 A |
5405 | tv32.tv_sec = tv_p->tv_sec; |
5406 | tv32.tv_usec = tv_p->tv_usec; | |
5407 | val = &tv32; | |
2d21ac55 A |
5408 | } |
5409 | valsize = min(len, sopt->sopt_valsize); | |
5410 | sopt->sopt_valsize = valsize; | |
5411 | if (sopt->sopt_val != USER_ADDR_NULL) { | |
b0d623f7 | 5412 | if (sopt->sopt_p != kernproc) |
2d21ac55 A |
5413 | error = copyout(val, sopt->sopt_val, valsize); |
5414 | else | |
5415 | bcopy(val, CAST_DOWN(caddr_t, sopt->sopt_val), valsize); | |
5416 | } | |
5417 | return (error); | |
1c79356b A |
5418 | } |
5419 | ||
2d21ac55 A |
5420 | /* |
5421 | * Return: 0 Success | |
5422 | * ENOPROTOOPT | |
5423 | * <pr_ctloutput>:EOPNOTSUPP[AF_UNIX] | |
5424 | * <pr_ctloutput>:??? | |
5425 | * <sf_getoption>:??? | |
5426 | */ | |
1c79356b | 5427 | int |
39236c6e | 5428 | sogetoptlock(struct socket *so, struct sockopt *sopt, int dolock) |
1c79356b A |
5429 | { |
5430 | int error, optval; | |
5431 | struct linger l; | |
5432 | struct timeval tv; | |
2d21ac55 A |
5433 | #if CONFIG_MACF_SOCKET |
5434 | struct mac extmac; | |
5435 | #endif /* MAC_SOCKET */ | |
1c79356b | 5436 | |
39236c6e | 5437 | if (sopt->sopt_dir != SOPT_GET) |
2d21ac55 | 5438 | sopt->sopt_dir = SOPT_GET; |
9bccf70c | 5439 | |
39236c6e A |
5440 | if (dolock) |
5441 | socket_lock(so, 1); | |
2d21ac55 | 5442 | |
6d2010ae | 5443 | error = sflt_getsockopt(so, sopt); |
39236c6e | 5444 | if (error != 0) { |
6d2010ae A |
5445 | if (error == EJUSTRETURN) |
5446 | error = 0; | |
39236c6e | 5447 | goto out; |
1c79356b | 5448 | } |
39236c6e | 5449 | |
1c79356b | 5450 | if (sopt->sopt_level != SOL_SOCKET) { |
39236c6e A |
5451 | if (so->so_proto != NULL && |
5452 | so->so_proto->pr_ctloutput != NULL) { | |
2d21ac55 | 5453 | error = (*so->so_proto->pr_ctloutput)(so, sopt); |
39236c6e | 5454 | goto out; |
91447636 | 5455 | } |
39236c6e | 5456 | error = ENOPROTOOPT; |
1c79356b | 5457 | } else { |
39236c6e A |
5458 | /* |
5459 | * Allow socket-level (SOL_SOCKET) options to be filtered by | |
5460 | * the protocol layer, if needed. A zero value returned from | |
5461 | * the handler means use default socket-level processing as | |
5462 | * done by the rest of this routine. Otherwise, any other | |
5463 | * return value indicates that the option is unsupported. | |
5464 | */ | |
5465 | if (so->so_proto != NULL && (error = so->so_proto->pr_usrreqs-> | |
5466 | pru_socheckopt(so, sopt)) != 0) | |
5467 | goto out; | |
5468 | ||
5469 | error = 0; | |
1c79356b A |
5470 | switch (sopt->sopt_name) { |
5471 | case SO_LINGER: | |
91447636 | 5472 | case SO_LINGER_SEC: |
39236c6e | 5473 | l.l_onoff = ((so->so_options & SO_LINGER) ? 1 : 0); |
2d21ac55 A |
5474 | l.l_linger = (sopt->sopt_name == SO_LINGER) ? |
5475 | so->so_linger : so->so_linger / hz; | |
5476 | error = sooptcopyout(sopt, &l, sizeof (l)); | |
1c79356b A |
5477 | break; |
5478 | ||
5479 | case SO_USELOOPBACK: | |
5480 | case SO_DONTROUTE: | |
5481 | case SO_DEBUG: | |
5482 | case SO_KEEPALIVE: | |
5483 | case SO_REUSEADDR: | |
5484 | case SO_REUSEPORT: | |
5485 | case SO_BROADCAST: | |
5486 | case SO_OOBINLINE: | |
5487 | case SO_TIMESTAMP: | |
6d2010ae | 5488 | case SO_TIMESTAMP_MONOTONIC: |
1c79356b A |
5489 | case SO_DONTTRUNC: |
5490 | case SO_WANTMORE: | |
9bccf70c | 5491 | case SO_WANTOOBFLAG: |
fe8ab488 | 5492 | case SO_NOWAKEFROMSLEEP: |
39037602 | 5493 | case SO_NOAPNFALLBK: |
1c79356b A |
5494 | optval = so->so_options & sopt->sopt_name; |
5495 | integer: | |
2d21ac55 | 5496 | error = sooptcopyout(sopt, &optval, sizeof (optval)); |
1c79356b A |
5497 | break; |
5498 | ||
5499 | case SO_TYPE: | |
5500 | optval = so->so_type; | |
5501 | goto integer; | |
5502 | ||
5503 | case SO_NREAD: | |
2d21ac55 A |
5504 | if (so->so_proto->pr_flags & PR_ATOMIC) { |
5505 | int pkt_total; | |
5506 | struct mbuf *m1; | |
1c79356b | 5507 | |
2d21ac55 A |
5508 | pkt_total = 0; |
5509 | m1 = so->so_rcv.sb_mb; | |
39236c6e A |
5510 | while (m1 != NULL) { |
5511 | if (m1->m_type == MT_DATA || | |
5512 | m1->m_type == MT_HEADER || | |
5513 | m1->m_type == MT_OOBDATA) | |
1c79356b | 5514 | pkt_total += m1->m_len; |
1c79356b A |
5515 | m1 = m1->m_next; |
5516 | } | |
5517 | optval = pkt_total; | |
2d21ac55 A |
5518 | } else { |
5519 | optval = so->so_rcv.sb_cc - so->so_rcv.sb_ctl; | |
5520 | } | |
1c79356b | 5521 | goto integer; |
39236c6e | 5522 | |
fe8ab488 A |
5523 | case SO_NUMRCVPKT: |
5524 | if (so->so_proto->pr_flags & PR_ATOMIC) { | |
5525 | int cnt = 0; | |
5526 | struct mbuf *m1; | |
5527 | ||
5528 | m1 = so->so_rcv.sb_mb; | |
5529 | while (m1 != NULL) { | |
5530 | if (m1->m_type == MT_DATA || | |
5531 | m1->m_type == MT_HEADER || | |
5532 | m1->m_type == MT_OOBDATA) | |
5533 | cnt += 1; | |
5534 | m1 = m1->m_nextpkt; | |
5535 | } | |
5536 | optval = cnt; | |
5537 | goto integer; | |
5538 | } else { | |
5539 | error = EINVAL; | |
5540 | break; | |
5541 | } | |
5542 | ||
91447636 A |
5543 | case SO_NWRITE: |
5544 | optval = so->so_snd.sb_cc; | |
2d21ac55 | 5545 | goto integer; |
39236c6e | 5546 | |
1c79356b A |
5547 | case SO_ERROR: |
5548 | optval = so->so_error; | |
5549 | so->so_error = 0; | |
5550 | goto integer; | |
5551 | ||
fe8ab488 A |
5552 | case SO_SNDBUF: { |
5553 | u_int32_t hiwat = so->so_snd.sb_hiwat; | |
1c79356b | 5554 | |
fe8ab488 A |
5555 | if (so->so_snd.sb_flags & SB_UNIX) { |
5556 | struct unpcb *unp = | |
5557 | (struct unpcb *)(so->so_pcb); | |
5558 | if (unp != NULL && unp->unp_conn != NULL) { | |
5559 | hiwat += unp->unp_conn->unp_cc; | |
5560 | } | |
5561 | } | |
5562 | ||
5563 | optval = hiwat; | |
5564 | goto integer; | |
5565 | } | |
1c79356b A |
5566 | case SO_RCVBUF: |
5567 | optval = so->so_rcv.sb_hiwat; | |
5568 | goto integer; | |
5569 | ||
5570 | case SO_SNDLOWAT: | |
5571 | optval = so->so_snd.sb_lowat; | |
5572 | goto integer; | |
5573 | ||
5574 | case SO_RCVLOWAT: | |
5575 | optval = so->so_rcv.sb_lowat; | |
5576 | goto integer; | |
5577 | ||
5578 | case SO_SNDTIMEO: | |
5579 | case SO_RCVTIMEO: | |
91447636 | 5580 | tv = (sopt->sopt_name == SO_SNDTIMEO ? |
2d21ac55 | 5581 | so->so_snd.sb_timeo : so->so_rcv.sb_timeo); |
1c79356b | 5582 | |
2d21ac55 A |
5583 | error = sooptcopyout_timeval(sopt, &tv); |
5584 | break; | |
1c79356b | 5585 | |
91447636 A |
5586 | case SO_NOSIGPIPE: |
5587 | optval = (so->so_flags & SOF_NOSIGPIPE); | |
5588 | goto integer; | |
9bccf70c | 5589 | |
55e303ae | 5590 | case SO_NOADDRERR: |
91447636 A |
5591 | optval = (so->so_flags & SOF_NOADDRAVAIL); |
5592 | goto integer; | |
55e303ae | 5593 | |
2d21ac55 A |
5594 | case SO_REUSESHAREUID: |
5595 | optval = (so->so_flags & SOF_REUSESHAREUID); | |
5596 | goto integer; | |
5597 | ||
39236c6e | 5598 | |
2d21ac55 A |
5599 | case SO_NOTIFYCONFLICT: |
5600 | optval = (so->so_flags & SOF_NOTIFYCONFLICT); | |
5601 | goto integer; | |
39236c6e | 5602 | |
2d21ac55 | 5603 | case SO_RESTRICTIONS: |
39236c6e | 5604 | optval = so_get_restrictions(so); |
2d21ac55 A |
5605 | goto integer; |
5606 | ||
fe8ab488 | 5607 | case SO_AWDL_UNRESTRICTED: |
3e170ce0 | 5608 | if (SOCK_DOM(so) == PF_INET || |
fe8ab488 A |
5609 | SOCK_DOM(so) == PF_INET6) { |
5610 | optval = inp_get_awdl_unrestricted( | |
5611 | sotoinpcb(so)); | |
5612 | goto integer; | |
5613 | } else | |
5614 | error = EOPNOTSUPP; | |
5615 | break; | |
5616 | ||
39037602 A |
5617 | case SO_INTCOPROC_ALLOW: |
5618 | if (SOCK_DOM(so) == PF_INET6) { | |
5619 | optval = inp_get_intcoproc_allowed( | |
5620 | sotoinpcb(so)); | |
5621 | goto integer; | |
5622 | } else | |
5623 | error = EOPNOTSUPP; | |
5624 | break; | |
5625 | ||
2d21ac55 A |
5626 | case SO_LABEL: |
5627 | #if CONFIG_MACF_SOCKET | |
5628 | if ((error = sooptcopyin(sopt, &extmac, sizeof (extmac), | |
5629 | sizeof (extmac))) != 0 || | |
5630 | (error = mac_socket_label_get(proc_ucred( | |
5631 | sopt->sopt_p), so, &extmac)) != 0) | |
5632 | break; | |
5633 | ||
5634 | error = sooptcopyout(sopt, &extmac, sizeof (extmac)); | |
5635 | #else | |
5636 | error = EOPNOTSUPP; | |
5637 | #endif /* MAC_SOCKET */ | |
5638 | break; | |
5639 | ||
5640 | case SO_PEERLABEL: | |
5641 | #if CONFIG_MACF_SOCKET | |
5642 | if ((error = sooptcopyin(sopt, &extmac, sizeof (extmac), | |
5643 | sizeof (extmac))) != 0 || | |
5644 | (error = mac_socketpeer_label_get(proc_ucred( | |
5645 | sopt->sopt_p), so, &extmac)) != 0) | |
5646 | break; | |
5647 | ||
5648 | error = sooptcopyout(sopt, &extmac, sizeof (extmac)); | |
5649 | #else | |
5650 | error = EOPNOTSUPP; | |
5651 | #endif /* MAC_SOCKET */ | |
5652 | break; | |
5653 | ||
4a3eedf9 A |
5654 | #ifdef __APPLE_API_PRIVATE |
5655 | case SO_UPCALLCLOSEWAIT: | |
5656 | optval = (so->so_flags & SOF_UPCALLCLOSEWAIT); | |
5657 | goto integer; | |
5658 | #endif | |
b0d623f7 A |
5659 | case SO_RANDOMPORT: |
5660 | optval = (so->so_flags & SOF_BINDRANDOMPORT); | |
5661 | goto integer; | |
5662 | ||
5663 | case SO_NP_EXTENSIONS: { | |
5664 | struct so_np_extensions sonpx; | |
5665 | ||
39236c6e A |
5666 | sonpx.npx_flags = (so->so_flags & SOF_NPX_SETOPTSHUT) ? |
5667 | SONPX_SETOPTSHUT : 0; | |
b0d623f7 | 5668 | sonpx.npx_mask = SONPX_MASK_VALID; |
4a3eedf9 | 5669 | |
39236c6e A |
5670 | error = sooptcopyout(sopt, &sonpx, |
5671 | sizeof (struct so_np_extensions)); | |
5672 | break; | |
b0d623f7 | 5673 | } |
6d2010ae | 5674 | |
d41d1dae A |
5675 | case SO_TRAFFIC_CLASS: |
5676 | optval = so->so_traffic_class; | |
5677 | goto integer; | |
316670eb | 5678 | |
6d2010ae A |
5679 | case SO_RECV_TRAFFIC_CLASS: |
5680 | optval = (so->so_flags & SOF_RECV_TRAFFIC_CLASS); | |
5681 | goto integer; | |
5682 | ||
5683 | case SO_TRAFFIC_CLASS_STATS: | |
39236c6e A |
5684 | error = sooptcopyout(sopt, &so->so_tc_stats, |
5685 | sizeof (so->so_tc_stats)); | |
316670eb | 5686 | break; |
6d2010ae | 5687 | |
39037602 | 5688 | #if (DEVELOPMENT || DEBUG) |
39236c6e | 5689 | case SO_TRAFFIC_CLASS_DBG: |
6d2010ae A |
5690 | error = sogetopt_tcdbg(so, sopt); |
5691 | break; | |
39037602 | 5692 | #endif /* (DEVELOPMENT || DEBUG) */ |
316670eb A |
5693 | |
5694 | case SO_PRIVILEGED_TRAFFIC_CLASS: | |
5695 | optval = (so->so_flags & SOF_PRIVILEGED_TRAFFIC_CLASS); | |
5696 | goto integer; | |
5697 | ||
6d2010ae A |
5698 | case SO_DEFUNCTOK: |
5699 | optval = !(so->so_flags & SOF_NODEFUNCT); | |
5700 | goto integer; | |
5701 | ||
5702 | case SO_ISDEFUNCT: | |
5703 | optval = (so->so_flags & SOF_DEFUNCT); | |
5704 | goto integer; | |
d41d1dae | 5705 | |
316670eb A |
5706 | case SO_OPPORTUNISTIC: |
5707 | optval = so_get_opportunistic(so); | |
5708 | goto integer; | |
5709 | ||
5710 | case SO_FLUSH: | |
5711 | /* This option is not gettable */ | |
5712 | error = EINVAL; | |
5713 | break; | |
5714 | ||
5715 | case SO_RECV_ANYIF: | |
5716 | optval = so_get_recv_anyif(so); | |
5717 | goto integer; | |
5718 | ||
39236c6e A |
5719 | case SO_TRAFFIC_MGT_BACKGROUND: |
5720 | /* This option is handled by lower layer(s) */ | |
5721 | if (so->so_proto != NULL && | |
5722 | so->so_proto->pr_ctloutput != NULL) { | |
5723 | (void) so->so_proto->pr_ctloutput(so, sopt); | |
5724 | } | |
5725 | break; | |
5726 | ||
5727 | #if FLOW_DIVERT | |
5728 | case SO_FLOW_DIVERT_TOKEN: | |
5729 | error = flow_divert_token_get(so, sopt); | |
5730 | break; | |
5731 | #endif /* FLOW_DIVERT */ | |
3e170ce0 | 5732 | |
fe8ab488 A |
5733 | #if NECP |
5734 | case SO_NECP_ATTRIBUTES: | |
5735 | error = necp_get_socket_attributes(so, sopt); | |
5736 | break; | |
5ba3f43e A |
5737 | |
5738 | case SO_NECP_CLIENTUUID: | |
5739 | { | |
5740 | uuid_t *ncu; | |
5741 | ||
5742 | if (SOCK_DOM(so) == PF_MULTIPATH) { | |
5743 | ncu = &mpsotomppcb(so)->necp_client_uuid; | |
5744 | } else if (SOCK_DOM(so) == PF_INET || SOCK_DOM(so) == PF_INET6) { | |
5745 | ncu = &sotoinpcb(so)->necp_client_uuid; | |
5746 | } else { | |
5747 | error = EINVAL; | |
5748 | goto out; | |
5749 | } | |
5750 | ||
5751 | error = sooptcopyout(sopt, ncu, sizeof(uuid_t)); | |
5752 | break; | |
5753 | } | |
fe8ab488 A |
5754 | #endif /* NECP */ |
5755 | ||
5756 | #if CONTENT_FILTER | |
5757 | case SO_CFIL_SOCK_ID: { | |
5758 | cfil_sock_id_t sock_id; | |
5759 | ||
5760 | sock_id = cfil_sock_id_from_socket(so); | |
5761 | ||
3e170ce0 | 5762 | error = sooptcopyout(sopt, &sock_id, |
fe8ab488 A |
5763 | sizeof(cfil_sock_id_t)); |
5764 | break; | |
5765 | } | |
5766 | #endif /* CONTENT_FILTER */ | |
5767 | ||
3e170ce0 A |
5768 | case SO_EXTENDED_BK_IDLE: |
5769 | optval = (so->so_flags1 & SOF1_EXTEND_BK_IDLE_WANTED); | |
5770 | goto integer; | |
490019cf A |
5771 | case SO_MARK_CELLFALLBACK: |
5772 | optval = ((so->so_flags1 & SOF1_CELLFALLBACK) > 0) | |
5773 | ? 1 : 0; | |
5774 | goto integer; | |
39037602 A |
5775 | case SO_NET_SERVICE_TYPE: { |
5776 | if ((so->so_flags1 & SOF1_TC_NET_SERV_TYPE)) | |
5777 | optval = so->so_netsvctype; | |
5778 | else | |
5779 | optval = NET_SERVICE_TYPE_BE; | |
5780 | goto integer; | |
5781 | } | |
5782 | case SO_NETSVC_MARKING_LEVEL: | |
5783 | optval = so_get_netsvc_marking_level(so); | |
5784 | goto integer; | |
5785 | ||
1c79356b A |
5786 | default: |
5787 | error = ENOPROTOOPT; | |
5788 | break; | |
5789 | } | |
1c79356b | 5790 | } |
39236c6e A |
5791 | out: |
5792 | if (dolock) | |
5793 | socket_unlock(so, 1); | |
5794 | return (error); | |
1c79356b | 5795 | } |
39236c6e A |
5796 | |
5797 | /* | |
5798 | * The size limits on our soopt_getm is different from that on FreeBSD. | |
6d2010ae A |
5799 | * We limit the size of options to MCLBYTES. This will have to change |
5800 | * if we need to define options that need more space than MCLBYTES. | |
5801 | */ | |
1c79356b | 5802 | int |
9bccf70c | 5803 | soopt_getm(struct sockopt *sopt, struct mbuf **mp) |
1c79356b A |
5804 | { |
5805 | struct mbuf *m, *m_prev; | |
5806 | int sopt_size = sopt->sopt_valsize; | |
b0d623f7 | 5807 | int how; |
1c79356b | 5808 | |
6d2010ae | 5809 | if (sopt_size <= 0 || sopt_size > MCLBYTES) |
2d21ac55 | 5810 | return (EMSGSIZE); |
a3d08fcd | 5811 | |
b0d623f7 A |
5812 | how = sopt->sopt_p != kernproc ? M_WAIT : M_DONTWAIT; |
5813 | MGET(m, how, MT_DATA); | |
39236c6e | 5814 | if (m == NULL) |
2d21ac55 | 5815 | return (ENOBUFS); |
1c79356b | 5816 | if (sopt_size > MLEN) { |
b0d623f7 | 5817 | MCLGET(m, how); |
1c79356b A |
5818 | if ((m->m_flags & M_EXT) == 0) { |
5819 | m_free(m); | |
2d21ac55 | 5820 | return (ENOBUFS); |
1c79356b A |
5821 | } |
5822 | m->m_len = min(MCLBYTES, sopt_size); | |
5823 | } else { | |
5824 | m->m_len = min(MLEN, sopt_size); | |
5825 | } | |
5826 | sopt_size -= m->m_len; | |
5827 | *mp = m; | |
5828 | m_prev = m; | |
5829 | ||
6d2010ae | 5830 | while (sopt_size > 0) { |
b0d623f7 | 5831 | MGET(m, how, MT_DATA); |
39236c6e | 5832 | if (m == NULL) { |
1c79356b | 5833 | m_freem(*mp); |
2d21ac55 | 5834 | return (ENOBUFS); |
1c79356b A |
5835 | } |
5836 | if (sopt_size > MLEN) { | |
b0d623f7 | 5837 | MCLGET(m, how); |
1c79356b A |
5838 | if ((m->m_flags & M_EXT) == 0) { |
5839 | m_freem(*mp); | |
6d2010ae | 5840 | m_freem(m); |
2d21ac55 | 5841 | return (ENOBUFS); |
1c79356b A |
5842 | } |
5843 | m->m_len = min(MCLBYTES, sopt_size); | |
5844 | } else { | |
5845 | m->m_len = min(MLEN, sopt_size); | |
5846 | } | |
5847 | sopt_size -= m->m_len; | |
5848 | m_prev->m_next = m; | |
5849 | m_prev = m; | |
5850 | } | |
2d21ac55 | 5851 | return (0); |
1c79356b A |
5852 | } |
5853 | ||
6d2010ae | 5854 | /* copyin sopt data into mbuf chain */ |
1c79356b | 5855 | int |
9bccf70c | 5856 | soopt_mcopyin(struct sockopt *sopt, struct mbuf *m) |
1c79356b A |
5857 | { |
5858 | struct mbuf *m0 = m; | |
5859 | ||
91447636 | 5860 | if (sopt->sopt_val == USER_ADDR_NULL) |
2d21ac55 | 5861 | return (0); |
1c79356b | 5862 | while (m != NULL && sopt->sopt_valsize >= m->m_len) { |
b0d623f7 | 5863 | if (sopt->sopt_p != kernproc) { |
1c79356b A |
5864 | int error; |
5865 | ||
2d21ac55 A |
5866 | error = copyin(sopt->sopt_val, mtod(m, char *), |
5867 | m->m_len); | |
1c79356b A |
5868 | if (error != 0) { |
5869 | m_freem(m0); | |
2d21ac55 | 5870 | return (error); |
1c79356b | 5871 | } |
2d21ac55 A |
5872 | } else { |
5873 | bcopy(CAST_DOWN(caddr_t, sopt->sopt_val), | |
5874 | mtod(m, char *), m->m_len); | |
5875 | } | |
1c79356b | 5876 | sopt->sopt_valsize -= m->m_len; |
2d21ac55 | 5877 | sopt->sopt_val += m->m_len; |
1c79356b A |
5878 | m = m->m_next; |
5879 | } | |
39236c6e A |
5880 | /* should be allocated enoughly at ip6_sooptmcopyin() */ |
5881 | if (m != NULL) { | |
9bccf70c | 5882 | panic("soopt_mcopyin"); |
39236c6e A |
5883 | /* NOTREACHED */ |
5884 | } | |
2d21ac55 | 5885 | return (0); |
1c79356b A |
5886 | } |
5887 | ||
6d2010ae | 5888 | /* copyout mbuf chain data into soopt */ |
1c79356b | 5889 | int |
9bccf70c | 5890 | soopt_mcopyout(struct sockopt *sopt, struct mbuf *m) |
1c79356b A |
5891 | { |
5892 | struct mbuf *m0 = m; | |
5893 | size_t valsize = 0; | |
5894 | ||
91447636 | 5895 | if (sopt->sopt_val == USER_ADDR_NULL) |
2d21ac55 | 5896 | return (0); |
1c79356b | 5897 | while (m != NULL && sopt->sopt_valsize >= m->m_len) { |
b0d623f7 | 5898 | if (sopt->sopt_p != kernproc) { |
1c79356b A |
5899 | int error; |
5900 | ||
2d21ac55 A |
5901 | error = copyout(mtod(m, char *), sopt->sopt_val, |
5902 | m->m_len); | |
1c79356b A |
5903 | if (error != 0) { |
5904 | m_freem(m0); | |
2d21ac55 | 5905 | return (error); |
1c79356b | 5906 | } |
2d21ac55 A |
5907 | } else { |
5908 | bcopy(mtod(m, char *), | |
5909 | CAST_DOWN(caddr_t, sopt->sopt_val), m->m_len); | |
5910 | } | |
5911 | sopt->sopt_valsize -= m->m_len; | |
5912 | sopt->sopt_val += m->m_len; | |
5913 | valsize += m->m_len; | |
5914 | m = m->m_next; | |
1c79356b A |
5915 | } |
5916 | if (m != NULL) { | |
5917 | /* enough soopt buffer should be given from user-land */ | |
5918 | m_freem(m0); | |
2d21ac55 | 5919 | return (EINVAL); |
1c79356b A |
5920 | } |
5921 | sopt->sopt_valsize = valsize; | |
2d21ac55 | 5922 | return (0); |
1c79356b A |
5923 | } |
5924 | ||
9bccf70c | 5925 | void |
2d21ac55 | 5926 | sohasoutofband(struct socket *so) |
9bccf70c | 5927 | { |
9bccf70c A |
5928 | if (so->so_pgid < 0) |
5929 | gsignal(-so->so_pgid, SIGURG); | |
2d21ac55 A |
5930 | else if (so->so_pgid > 0) |
5931 | proc_signal(so->so_pgid, SIGURG); | |
9bccf70c | 5932 | selwakeup(&so->so_rcv.sb_sel); |
39037602 A |
5933 | if (so->so_rcv.sb_flags & SB_KNOTE) { |
5934 | KNOTE(&so->so_rcv.sb_sel.si_note, | |
5935 | (NOTE_OOB | SO_FILT_HINT_LOCKED)); | |
5936 | } | |
9bccf70c A |
5937 | } |
5938 | ||
5939 | int | |
39236c6e | 5940 | sopoll(struct socket *so, int events, kauth_cred_t cred, void * wql) |
9bccf70c | 5941 | { |
39236c6e | 5942 | #pragma unused(cred) |
9bccf70c A |
5943 | struct proc *p = current_proc(); |
5944 | int revents = 0; | |
91447636 A |
5945 | |
5946 | socket_lock(so, 1); | |
39236c6e A |
5947 | so_update_last_owner_locked(so, PROC_NULL); |
5948 | so_update_policy(so); | |
9bccf70c A |
5949 | |
5950 | if (events & (POLLIN | POLLRDNORM)) | |
5951 | if (soreadable(so)) | |
5952 | revents |= events & (POLLIN | POLLRDNORM); | |
5953 | ||
5954 | if (events & (POLLOUT | POLLWRNORM)) | |
5955 | if (sowriteable(so)) | |
5956 | revents |= events & (POLLOUT | POLLWRNORM); | |
5957 | ||
5958 | if (events & (POLLPRI | POLLRDBAND)) | |
5959 | if (so->so_oobmark || (so->so_state & SS_RCVATMARK)) | |
5960 | revents |= events & (POLLPRI | POLLRDBAND); | |
5961 | ||
5962 | if (revents == 0) { | |
5963 | if (events & (POLLIN | POLLPRI | POLLRDNORM | POLLRDBAND)) { | |
2d21ac55 A |
5964 | /* |
5965 | * Darwin sets the flag first, | |
5966 | * BSD calls selrecord first | |
5967 | */ | |
9bccf70c A |
5968 | so->so_rcv.sb_flags |= SB_SEL; |
5969 | selrecord(p, &so->so_rcv.sb_sel, wql); | |
5970 | } | |
5971 | ||
5972 | if (events & (POLLOUT | POLLWRNORM)) { | |
2d21ac55 A |
5973 | /* |
5974 | * Darwin sets the flag first, | |
5975 | * BSD calls selrecord first | |
5976 | */ | |
9bccf70c A |
5977 | so->so_snd.sb_flags |= SB_SEL; |
5978 | selrecord(p, &so->so_snd.sb_sel, wql); | |
5979 | } | |
5980 | } | |
5981 | ||
91447636 | 5982 | socket_unlock(so, 1); |
9bccf70c A |
5983 | return (revents); |
5984 | } | |
55e303ae | 5985 | |
55e303ae | 5986 | int |
5ba3f43e A |
5987 | soo_kqfilter(struct fileproc *fp, struct knote *kn, |
5988 | struct kevent_internal_s *kev, vfs_context_t ctx) | |
55e303ae | 5989 | { |
39236c6e A |
5990 | #pragma unused(fp) |
5991 | #if !CONFIG_MACF_SOCKET | |
5992 | #pragma unused(ctx) | |
5993 | #endif /* MAC_SOCKET */ | |
91447636 | 5994 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; |
39037602 | 5995 | int result; |
2d21ac55 | 5996 | |
91447636 | 5997 | socket_lock(so, 1); |
39236c6e A |
5998 | so_update_last_owner_locked(so, PROC_NULL); |
5999 | so_update_policy(so); | |
55e303ae | 6000 | |
2d21ac55 | 6001 | #if CONFIG_MACF_SOCKET |
39236c6e A |
6002 | if (mac_socket_check_kqfilter(proc_ucred(vfs_context_proc(ctx)), |
6003 | kn, so) != 0) { | |
2d21ac55 | 6004 | socket_unlock(so, 1); |
39037602 A |
6005 | kn->kn_flags = EV_ERROR; |
6006 | kn->kn_data = EPERM; | |
6007 | return 0; | |
2d21ac55 A |
6008 | } |
6009 | #endif /* MAC_SOCKET */ | |
6010 | ||
55e303ae A |
6011 | switch (kn->kn_filter) { |
6012 | case EVFILT_READ: | |
39037602 | 6013 | kn->kn_filtid = EVFILTID_SOREAD; |
55e303ae A |
6014 | break; |
6015 | case EVFILT_WRITE: | |
39037602 | 6016 | kn->kn_filtid = EVFILTID_SOWRITE; |
316670eb A |
6017 | break; |
6018 | case EVFILT_SOCK: | |
39037602 A |
6019 | kn->kn_filtid = EVFILTID_SCK; |
6020 | break; | |
6021 | case EVFILT_EXCEPT: | |
6022 | kn->kn_filtid = EVFILTID_SOEXCEPT; | |
55e303ae A |
6023 | break; |
6024 | default: | |
91447636 | 6025 | socket_unlock(so, 1); |
39037602 A |
6026 | kn->kn_flags = EV_ERROR; |
6027 | kn->kn_data = EINVAL; | |
6028 | return 0; | |
316670eb | 6029 | } |
55e303ae | 6030 | |
39037602 A |
6031 | /* |
6032 | * call the appropriate sub-filter attach | |
6033 | * with the socket still locked | |
6034 | */ | |
5ba3f43e | 6035 | result = knote_fops(kn)->f_attach(kn, kev); |
55e303ae | 6036 | |
91447636 | 6037 | socket_unlock(so, 1); |
39037602 A |
6038 | |
6039 | return result; | |
55e303ae A |
6040 | } |
6041 | ||
55e303ae | 6042 | static int |
39037602 | 6043 | filt_soread_common(struct knote *kn, struct socket *so) |
55e303ae | 6044 | { |
b0d623f7 | 6045 | if (so->so_options & SO_ACCEPTCONN) { |
39037602 | 6046 | int is_not_empty; |
b0d623f7 | 6047 | |
39236c6e A |
6048 | /* |
6049 | * Radar 6615193 handle the listen case dynamically | |
6050 | * for kqueue read filter. This allows to call listen() | |
6051 | * after registering the kqueue EVFILT_READ. | |
b0d623f7 A |
6052 | */ |
6053 | ||
6054 | kn->kn_data = so->so_qlen; | |
39037602 | 6055 | is_not_empty = ! TAILQ_EMPTY(&so->so_comp); |
b0d623f7 | 6056 | |
39037602 | 6057 | return (is_not_empty); |
b0d623f7 A |
6058 | } |
6059 | ||
6060 | /* socket isn't a listener */ | |
3e170ce0 A |
6061 | /* |
6062 | * NOTE_LOWAT specifies new low water mark in data, i.e. | |
6063 | * the bytes of protocol data. We therefore exclude any | |
6064 | * control bytes. | |
6065 | */ | |
2d21ac55 | 6066 | kn->kn_data = so->so_rcv.sb_cc - so->so_rcv.sb_ctl; |
3e170ce0 | 6067 | |
39037602 A |
6068 | if (kn->kn_sfflags & NOTE_OOB) { |
6069 | if (so->so_oobmark || (so->so_state & SS_RCVATMARK)) { | |
6070 | kn->kn_fflags |= NOTE_OOB; | |
2d21ac55 | 6071 | kn->kn_data -= so->so_oobmark; |
91447636 A |
6072 | return (1); |
6073 | } | |
04b8595b | 6074 | } |
3e170ce0 | 6075 | |
04b8595b | 6076 | if ((so->so_state & SS_CANTRCVMORE) |
fe8ab488 | 6077 | #if CONTENT_FILTER |
04b8595b | 6078 | && cfil_sock_data_pending(&so->so_rcv) == 0 |
fe8ab488 | 6079 | #endif /* CONTENT_FILTER */ |
04b8595b A |
6080 | ) { |
6081 | kn->kn_flags |= EV_EOF; | |
6082 | kn->kn_fflags = so->so_error; | |
04b8595b | 6083 | return (1); |
91447636 A |
6084 | } |
6085 | ||
6086 | if (so->so_error) { /* temporary udp error */ | |
55e303ae | 6087 | return (1); |
91447636 A |
6088 | } |
6089 | ||
6d2010ae | 6090 | int64_t lowwat = so->so_rcv.sb_lowat; |
3e170ce0 A |
6091 | /* |
6092 | * Ensure that when NOTE_LOWAT is used, the derived | |
6093 | * low water mark is bounded by socket's rcv buf's | |
6094 | * high and low water mark values. | |
6095 | */ | |
39236c6e | 6096 | if (kn->kn_sfflags & NOTE_LOWAT) { |
6d2010ae A |
6097 | if (kn->kn_sdata > so->so_rcv.sb_hiwat) |
6098 | lowwat = so->so_rcv.sb_hiwat; | |
6099 | else if (kn->kn_sdata > lowwat) | |
6100 | lowwat = kn->kn_sdata; | |
6101 | } | |
39236c6e | 6102 | |
3e170ce0 A |
6103 | /* |
6104 | * The order below is important. Since NOTE_LOWAT | |
6105 | * overrides sb_lowat, check for NOTE_LOWAT case | |
6106 | * first. | |
6107 | */ | |
6108 | if (kn->kn_sfflags & NOTE_LOWAT) | |
6109 | return (kn->kn_data >= lowwat); | |
6110 | ||
6111 | return (so->so_rcv.sb_cc >= lowwat); | |
55e303ae A |
6112 | } |
6113 | ||
39037602 | 6114 | static int |
5ba3f43e | 6115 | filt_sorattach(struct knote *kn, __unused struct kevent_internal_s *kev) |
39037602 A |
6116 | { |
6117 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6118 | ||
6119 | /* socket locked */ | |
6120 | ||
6121 | /* | |
6122 | * If the caller explicitly asked for OOB results (e.g. poll()) | |
6123 | * from EVFILT_READ, then save that off in the hookid field | |
6124 | * and reserve the kn_flags EV_OOBAND bit for output only. | |
6125 | */ | |
6126 | if (kn->kn_filter == EVFILT_READ && | |
6127 | kn->kn_flags & EV_OOBAND) { | |
6128 | kn->kn_flags &= ~EV_OOBAND; | |
6129 | kn->kn_hookid = EV_OOBAND; | |
6130 | } else { | |
6131 | kn->kn_hookid = 0; | |
6132 | } | |
6133 | if (KNOTE_ATTACH(&so->so_rcv.sb_sel.si_note, kn)) | |
6134 | so->so_rcv.sb_flags |= SB_KNOTE; | |
6135 | ||
6136 | /* indicate if event is already fired */ | |
6137 | return filt_soread_common(kn, so); | |
6138 | } | |
6139 | ||
55e303ae | 6140 | static void |
39037602 | 6141 | filt_sordetach(struct knote *kn) |
55e303ae | 6142 | { |
91447636 | 6143 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; |
39037602 | 6144 | |
91447636 | 6145 | socket_lock(so, 1); |
39037602 A |
6146 | if (so->so_rcv.sb_flags & SB_KNOTE) |
6147 | if (KNOTE_DETACH(&so->so_rcv.sb_sel.si_note, kn)) | |
6148 | so->so_rcv.sb_flags &= ~SB_KNOTE; | |
6149 | socket_unlock(so, 1); | |
6150 | } | |
6151 | ||
6152 | /*ARGSUSED*/ | |
6153 | static int | |
6154 | filt_soread(struct knote *kn, long hint) | |
6155 | { | |
6156 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6157 | int retval; | |
6158 | ||
6159 | if ((hint & SO_FILT_HINT_LOCKED) == 0) | |
6160 | socket_lock(so, 1); | |
6161 | ||
6162 | retval = filt_soread_common(kn, so); | |
6163 | ||
6164 | if ((hint & SO_FILT_HINT_LOCKED) == 0) | |
6165 | socket_unlock(so, 1); | |
6166 | ||
6167 | return retval; | |
6168 | } | |
6169 | ||
6170 | static int | |
6171 | filt_sortouch(struct knote *kn, struct kevent_internal_s *kev) | |
6172 | { | |
6173 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6174 | int retval; | |
6175 | ||
6176 | socket_lock(so, 1); | |
6177 | ||
6178 | /* save off the new input fflags and data */ | |
6179 | kn->kn_sfflags = kev->fflags; | |
6180 | kn->kn_sdata = kev->data; | |
6181 | if ((kn->kn_status & KN_UDATA_SPECIFIC) == 0) | |
6182 | kn->kn_udata = kev->udata; | |
6183 | ||
6184 | /* determine if changes result in fired events */ | |
6185 | retval = filt_soread_common(kn, so); | |
55e303ae | 6186 | |
91447636 | 6187 | socket_unlock(so, 1); |
39037602 A |
6188 | |
6189 | return retval; | |
6190 | } | |
6191 | ||
6192 | static int | |
6193 | filt_sorprocess(struct knote *kn, struct filt_process_s *data, struct kevent_internal_s *kev) | |
6194 | { | |
6195 | #pragma unused(data) | |
6196 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6197 | int retval; | |
6198 | ||
6199 | socket_lock(so, 1); | |
6200 | retval = filt_soread_common(kn, so); | |
6201 | if (retval) { | |
6202 | *kev = kn->kn_kevent; | |
6203 | if (kn->kn_flags & EV_CLEAR) { | |
6204 | kn->kn_fflags = 0; | |
6205 | kn->kn_data = 0; | |
6206 | } | |
6207 | } | |
6208 | socket_unlock(so, 1); | |
6209 | ||
6210 | return retval; | |
55e303ae A |
6211 | } |
6212 | ||
316670eb A |
6213 | int |
6214 | so_wait_for_if_feedback(struct socket *so) | |
6215 | { | |
39236c6e | 6216 | if ((SOCK_DOM(so) == PF_INET || SOCK_DOM(so) == PF_INET6) && |
316670eb A |
6217 | (so->so_state & SS_ISCONNECTED)) { |
6218 | struct inpcb *inp = sotoinpcb(so); | |
6219 | if (INP_WAIT_FOR_IF_FEEDBACK(inp)) | |
6220 | return (1); | |
6221 | } | |
6222 | return (0); | |
6223 | } | |
6224 | ||
55e303ae | 6225 | static int |
39037602 | 6226 | filt_sowrite_common(struct knote *kn, struct socket *so) |
55e303ae | 6227 | { |
316670eb | 6228 | int ret = 0; |
91447636 | 6229 | |
55e303ae A |
6230 | kn->kn_data = sbspace(&so->so_snd); |
6231 | if (so->so_state & SS_CANTSENDMORE) { | |
2d21ac55 | 6232 | kn->kn_flags |= EV_EOF; |
55e303ae | 6233 | kn->kn_fflags = so->so_error; |
39037602 | 6234 | return 1; |
55e303ae | 6235 | } |
91447636 | 6236 | if (so->so_error) { /* temporary udp error */ |
39037602 | 6237 | return 1; |
91447636 | 6238 | } |
3e170ce0 | 6239 | if (!socanwrite(so)) { |
39037602 | 6240 | return 0; |
91447636 | 6241 | } |
3e170ce0 | 6242 | if (so->so_flags1 & SOF1_PRECONNECT_DATA) { |
39037602 | 6243 | return 1; |
3e170ce0 | 6244 | } |
6d2010ae | 6245 | int64_t lowwat = so->so_snd.sb_lowat; |
39236c6e | 6246 | if (kn->kn_sfflags & NOTE_LOWAT) { |
6d2010ae A |
6247 | if (kn->kn_sdata > so->so_snd.sb_hiwat) |
6248 | lowwat = so->so_snd.sb_hiwat; | |
6249 | else if (kn->kn_sdata > lowwat) | |
6250 | lowwat = kn->kn_sdata; | |
6251 | } | |
316670eb | 6252 | if (kn->kn_data >= lowwat) { |
39037602 A |
6253 | if ((so->so_flags & SOF_NOTSENT_LOWAT) |
6254 | #if (DEBUG || DEVELOPMENT) | |
6255 | && so_notsent_lowat_check == 1 | |
6256 | #endif /* DEBUG || DEVELOPMENT */ | |
6257 | ) { | |
6258 | if ((SOCK_DOM(so) == PF_INET || | |
6259 | SOCK_DOM(so) == PF_INET6) && | |
6260 | so->so_type == SOCK_STREAM) { | |
fe8ab488 A |
6261 | ret = tcp_notsent_lowat_check(so); |
6262 | } | |
6263 | #if MPTCP | |
6264 | else if ((SOCK_DOM(so) == PF_MULTIPATH) && | |
6265 | (SOCK_PROTO(so) == IPPROTO_TCP)) { | |
6266 | ret = mptcp_notsent_lowat_check(so); | |
6267 | } | |
6268 | #endif | |
6269 | else { | |
39037602 | 6270 | return 1; |
fe8ab488 | 6271 | } |
316670eb A |
6272 | } else { |
6273 | ret = 1; | |
6274 | } | |
6275 | } | |
6276 | if (so_wait_for_if_feedback(so)) | |
6277 | ret = 0; | |
39236c6e | 6278 | return (ret); |
316670eb A |
6279 | } |
6280 | ||
39037602 | 6281 | static int |
5ba3f43e | 6282 | filt_sowattach(struct knote *kn, __unused struct kevent_internal_s *kev) |
39037602 A |
6283 | { |
6284 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6285 | ||
6286 | /* socket locked */ | |
6287 | if (KNOTE_ATTACH(&so->so_snd.sb_sel.si_note, kn)) | |
6288 | so->so_snd.sb_flags |= SB_KNOTE; | |
6289 | ||
6290 | /* determine if its already fired */ | |
6291 | return filt_sowrite_common(kn, so); | |
6292 | } | |
6293 | ||
316670eb | 6294 | static void |
39037602 | 6295 | filt_sowdetach(struct knote *kn) |
316670eb A |
6296 | { |
6297 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6298 | socket_lock(so, 1); | |
39236c6e | 6299 | |
39037602 A |
6300 | if (so->so_snd.sb_flags & SB_KNOTE) |
6301 | if (KNOTE_DETACH(&so->so_snd.sb_sel.si_note, kn)) | |
6302 | so->so_snd.sb_flags &= ~SB_KNOTE; | |
316670eb A |
6303 | socket_unlock(so, 1); |
6304 | } | |
6305 | ||
39037602 | 6306 | /*ARGSUSED*/ |
316670eb | 6307 | static int |
39037602 | 6308 | filt_sowrite(struct knote *kn, long hint) |
316670eb | 6309 | { |
316670eb | 6310 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; |
39037602 | 6311 | int ret; |
316670eb | 6312 | |
39037602 | 6313 | if ((hint & SO_FILT_HINT_LOCKED) == 0) |
316670eb | 6314 | socket_lock(so, 1); |
39037602 A |
6315 | |
6316 | ret = filt_sowrite_common(kn, so); | |
6317 | ||
6318 | if ((hint & SO_FILT_HINT_LOCKED) == 0) | |
6319 | socket_unlock(so, 1); | |
6320 | ||
6321 | return ret; | |
6322 | } | |
6323 | ||
6324 | static int | |
6325 | filt_sowtouch(struct knote *kn, struct kevent_internal_s *kev) | |
6326 | { | |
6327 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6328 | int ret; | |
6329 | ||
6330 | socket_lock(so, 1); | |
6331 | ||
6332 | /*save off the new input fflags and data */ | |
6333 | kn->kn_sfflags = kev->fflags; | |
6334 | kn->kn_sdata = kev->data; | |
6335 | if ((kn->kn_status & KN_UDATA_SPECIFIC) == 0) | |
6336 | kn->kn_udata = kev->udata; | |
6337 | ||
6338 | /* determine if these changes result in a triggered event */ | |
6339 | ret = filt_sowrite_common(kn, so); | |
6340 | ||
6341 | socket_unlock(so, 1); | |
6342 | ||
6343 | return ret; | |
6344 | } | |
6345 | ||
6346 | static int | |
6347 | filt_sowprocess(struct knote *kn, struct filt_process_s *data, struct kevent_internal_s *kev) | |
6348 | { | |
6349 | #pragma unused(data) | |
6350 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6351 | int ret; | |
6352 | ||
6353 | socket_lock(so, 1); | |
6354 | ret = filt_sowrite_common(kn, so); | |
6355 | if (ret) { | |
6356 | *kev = kn->kn_kevent; | |
6357 | if (kn->kn_flags & EV_CLEAR) { | |
6358 | kn->kn_fflags = 0; | |
6359 | kn->kn_data = 0; | |
6360 | } | |
316670eb | 6361 | } |
39037602 A |
6362 | socket_unlock(so, 1); |
6363 | return ret; | |
6364 | } | |
6365 | ||
6366 | static int | |
6367 | filt_sockev_common(struct knote *kn, struct socket *so, long ev_hint) | |
6368 | { | |
6369 | int ret = 0; | |
6370 | uint32_t level_trigger = 0; | |
316670eb | 6371 | |
39236c6e | 6372 | if (ev_hint & SO_FILT_HINT_CONNRESET) { |
3e170ce0 | 6373 | kn->kn_fflags |= NOTE_CONNRESET; |
39236c6e A |
6374 | } |
6375 | if (ev_hint & SO_FILT_HINT_TIMEOUT) { | |
3e170ce0 | 6376 | kn->kn_fflags |= NOTE_TIMEOUT; |
39236c6e A |
6377 | } |
6378 | if (ev_hint & SO_FILT_HINT_NOSRCADDR) { | |
3e170ce0 | 6379 | kn->kn_fflags |= NOTE_NOSRCADDR; |
39236c6e A |
6380 | } |
6381 | if (ev_hint & SO_FILT_HINT_IFDENIED) { | |
3e170ce0 | 6382 | kn->kn_fflags |= NOTE_IFDENIED; |
39236c6e A |
6383 | } |
6384 | if (ev_hint & SO_FILT_HINT_KEEPALIVE) { | |
3e170ce0 | 6385 | kn->kn_fflags |= NOTE_KEEPALIVE; |
316670eb | 6386 | } |
39236c6e | 6387 | if (ev_hint & SO_FILT_HINT_ADAPTIVE_WTIMO) { |
3e170ce0 | 6388 | kn->kn_fflags |= NOTE_ADAPTIVE_WTIMO; |
39236c6e A |
6389 | } |
6390 | if (ev_hint & SO_FILT_HINT_ADAPTIVE_RTIMO) { | |
3e170ce0 | 6391 | kn->kn_fflags |= NOTE_ADAPTIVE_RTIMO; |
39236c6e | 6392 | } |
3e170ce0 A |
6393 | if ((ev_hint & SO_FILT_HINT_CONNECTED) || |
6394 | (so->so_state & SS_ISCONNECTED)) { | |
6395 | kn->kn_fflags |= NOTE_CONNECTED; | |
6396 | level_trigger |= NOTE_CONNECTED; | |
39236c6e | 6397 | } |
3e170ce0 A |
6398 | if ((ev_hint & SO_FILT_HINT_DISCONNECTED) || |
6399 | (so->so_state & SS_ISDISCONNECTED)) { | |
6400 | kn->kn_fflags |= NOTE_DISCONNECTED; | |
6401 | level_trigger |= NOTE_DISCONNECTED; | |
39236c6e A |
6402 | } |
6403 | if (ev_hint & SO_FILT_HINT_CONNINFO_UPDATED) { | |
6404 | if (so->so_proto != NULL && | |
3e170ce0 | 6405 | (so->so_proto->pr_flags & PR_EVCONNINFO)) |
39236c6e A |
6406 | kn->kn_fflags |= NOTE_CONNINFO_UPDATED; |
6407 | } | |
316670eb | 6408 | |
39037602 A |
6409 | if ((ev_hint & SO_FILT_HINT_NOTIFY_ACK) || |
6410 | tcp_notify_ack_active(so)) { | |
6411 | kn->kn_fflags |= NOTE_NOTIFY_ACK; | |
6412 | } | |
6413 | ||
3e170ce0 | 6414 | if ((so->so_state & SS_CANTRCVMORE) |
fe8ab488 | 6415 | #if CONTENT_FILTER |
3e170ce0 | 6416 | && cfil_sock_data_pending(&so->so_rcv) == 0 |
fe8ab488 | 6417 | #endif /* CONTENT_FILTER */ |
3e170ce0 | 6418 | ) { |
316670eb | 6419 | kn->kn_fflags |= NOTE_READCLOSED; |
3e170ce0 A |
6420 | level_trigger |= NOTE_READCLOSED; |
6421 | } | |
316670eb | 6422 | |
3e170ce0 | 6423 | if (so->so_state & SS_CANTSENDMORE) { |
316670eb | 6424 | kn->kn_fflags |= NOTE_WRITECLOSED; |
3e170ce0 A |
6425 | level_trigger |= NOTE_WRITECLOSED; |
6426 | } | |
316670eb | 6427 | |
3e170ce0 A |
6428 | if ((ev_hint & SO_FILT_HINT_SUSPEND) || |
6429 | (so->so_flags & SOF_SUSPENDED)) { | |
39236c6e | 6430 | kn->kn_fflags &= ~(NOTE_SUSPEND | NOTE_RESUME); |
3e170ce0 A |
6431 | |
6432 | /* If resume event was delivered before, reset it */ | |
6433 | kn->kn_hookid &= ~NOTE_RESUME; | |
6434 | ||
316670eb | 6435 | kn->kn_fflags |= NOTE_SUSPEND; |
3e170ce0 | 6436 | level_trigger |= NOTE_SUSPEND; |
316670eb A |
6437 | } |
6438 | ||
3e170ce0 A |
6439 | if ((ev_hint & SO_FILT_HINT_RESUME) || |
6440 | (so->so_flags & SOF_SUSPENDED) == 0) { | |
39236c6e | 6441 | kn->kn_fflags &= ~(NOTE_SUSPEND | NOTE_RESUME); |
3e170ce0 A |
6442 | |
6443 | /* If suspend event was delivered before, reset it */ | |
6444 | kn->kn_hookid &= ~NOTE_SUSPEND; | |
6445 | ||
316670eb | 6446 | kn->kn_fflags |= NOTE_RESUME; |
3e170ce0 | 6447 | level_trigger |= NOTE_RESUME; |
316670eb A |
6448 | } |
6449 | ||
6450 | if (so->so_error != 0) { | |
6451 | ret = 1; | |
6452 | kn->kn_data = so->so_error; | |
6453 | kn->kn_flags |= EV_EOF; | |
6454 | } else { | |
6455 | get_sockev_state(so, (u_int32_t *)&(kn->kn_data)); | |
6456 | } | |
6457 | ||
3e170ce0 A |
6458 | /* Reset any events that are not requested on this knote */ |
6459 | kn->kn_fflags &= (kn->kn_sfflags & EVFILT_SOCK_ALL_MASK); | |
6460 | level_trigger &= (kn->kn_sfflags & EVFILT_SOCK_ALL_MASK); | |
6461 | ||
6462 | /* Find the level triggerred events that are already delivered */ | |
6463 | level_trigger &= kn->kn_hookid; | |
6464 | level_trigger &= EVFILT_SOCK_LEVEL_TRIGGER_MASK; | |
6465 | ||
6466 | /* Do not deliver level triggerred events more than once */ | |
6467 | if ((kn->kn_fflags & ~level_trigger) != 0) | |
316670eb A |
6468 | ret = 1; |
6469 | ||
39236c6e | 6470 | return (ret); |
316670eb A |
6471 | } |
6472 | ||
39037602 | 6473 | static int |
5ba3f43e | 6474 | filt_sockattach(struct knote *kn, __unused struct kevent_internal_s *kev) |
39037602 A |
6475 | { |
6476 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6477 | ||
6478 | /* socket locked */ | |
6479 | kn->kn_hookid = 0; | |
6480 | if (KNOTE_ATTACH(&so->so_klist, kn)) | |
6481 | so->so_flags |= SOF_KNOTE; | |
6482 | ||
6483 | /* determine if event already fired */ | |
6484 | return filt_sockev_common(kn, so, 0); | |
6485 | } | |
6486 | ||
3e170ce0 | 6487 | static void |
39037602 | 6488 | filt_sockdetach(struct knote *kn) |
3e170ce0 | 6489 | { |
39037602 A |
6490 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; |
6491 | socket_lock(so, 1); | |
3e170ce0 | 6492 | |
39037602 A |
6493 | if ((so->so_flags & SOF_KNOTE) != 0) |
6494 | if (KNOTE_DETACH(&so->so_klist, kn)) | |
6495 | so->so_flags &= ~SOF_KNOTE; | |
6496 | socket_unlock(so, 1); | |
6497 | } | |
6498 | ||
6499 | static int | |
6500 | filt_sockev(struct knote *kn, long hint) | |
6501 | { | |
6502 | int ret = 0, locked = 0; | |
6503 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6504 | long ev_hint = (hint & SO_FILT_HINT_EV); | |
6505 | ||
6506 | if ((hint & SO_FILT_HINT_LOCKED) == 0) { | |
6507 | socket_lock(so, 1); | |
6508 | locked = 1; | |
3e170ce0 | 6509 | } |
39037602 A |
6510 | |
6511 | ret = filt_sockev_common(kn, so, ev_hint); | |
6512 | ||
6513 | if (locked) | |
6514 | socket_unlock(so, 1); | |
6515 | ||
6516 | return ret; | |
6517 | } | |
6518 | ||
6519 | ||
6520 | ||
6521 | /* | |
6522 | * filt_socktouch - update event state | |
6523 | */ | |
6524 | static int | |
6525 | filt_socktouch( | |
6526 | struct knote *kn, | |
6527 | struct kevent_internal_s *kev) | |
6528 | { | |
6529 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6530 | uint32_t changed_flags; | |
6531 | int ret; | |
6532 | ||
6533 | socket_lock(so, 1); | |
6534 | ||
6535 | /* save off the [result] data and fflags */ | |
6536 | changed_flags = (kn->kn_sfflags ^ kn->kn_hookid); | |
6537 | ||
6538 | /* save off the new input fflags and data */ | |
6539 | kn->kn_sfflags = kev->fflags; | |
6540 | kn->kn_sdata = kev->data; | |
6541 | if ((kn->kn_status & KN_UDATA_SPECIFIC) == 0) | |
6542 | kn->kn_udata = kev->udata; | |
6543 | ||
6544 | /* restrict the current results to the (smaller?) set of new interest */ | |
6545 | /* | |
6546 | * For compatibility with previous implementations, we leave kn_fflags | |
6547 | * as they were before. | |
6548 | */ | |
6549 | //kn->kn_fflags &= kev->fflags; | |
6550 | ||
6551 | /* | |
6552 | * Since we keep track of events that are already | |
6553 | * delivered, if any of those events are not requested | |
6554 | * anymore the state related to them can be reset | |
6555 | */ | |
6556 | kn->kn_hookid &= | |
6557 | ~(changed_flags & EVFILT_SOCK_LEVEL_TRIGGER_MASK); | |
6558 | ||
6559 | /* determine if we have events to deliver */ | |
6560 | ret = filt_sockev_common(kn, so, 0); | |
6561 | ||
6562 | socket_unlock(so, 1); | |
6563 | ||
6564 | return ret; | |
6565 | } | |
6566 | ||
6567 | /* | |
6568 | * filt_sockprocess - query event fired state and return data | |
6569 | */ | |
6570 | static int | |
6571 | filt_sockprocess( | |
6572 | struct knote *kn, | |
6573 | struct filt_process_s *data, | |
6574 | struct kevent_internal_s *kev) | |
6575 | { | |
6576 | #pragma unused(data) | |
6577 | ||
6578 | struct socket *so = (struct socket *)kn->kn_fp->f_fglob->fg_data; | |
6579 | int ret = 0; | |
6580 | ||
6581 | socket_lock(so, 1); | |
6582 | ||
6583 | ret = filt_sockev_common(kn, so, 0); | |
6584 | if (ret) { | |
6585 | *kev = kn->kn_kevent; | |
6586 | ||
3e170ce0 A |
6587 | /* |
6588 | * Store the state of the events being delivered. This | |
6589 | * state can be used to deliver level triggered events | |
6590 | * ateast once and still avoid waking up the application | |
6591 | * multiple times as long as the event is active. | |
6592 | */ | |
6593 | if (kn->kn_fflags != 0) | |
6594 | kn->kn_hookid |= (kn->kn_fflags & | |
39037602 | 6595 | EVFILT_SOCK_LEVEL_TRIGGER_MASK); |
3e170ce0 A |
6596 | |
6597 | /* | |
6598 | * NOTE_RESUME and NOTE_SUSPEND are an exception, deliver | |
6599 | * only one of them and remember the last one that was | |
6600 | * delivered last | |
6601 | */ | |
6602 | if (kn->kn_fflags & NOTE_SUSPEND) | |
6603 | kn->kn_hookid &= ~NOTE_RESUME; | |
6604 | if (kn->kn_fflags & NOTE_RESUME) | |
6605 | kn->kn_hookid &= ~NOTE_SUSPEND; | |
39037602 A |
6606 | |
6607 | if (kn->kn_flags & EV_CLEAR) { | |
6608 | kn->kn_data = 0; | |
6609 | kn->kn_fflags = 0; | |
6610 | } | |
3e170ce0 | 6611 | } |
39037602 A |
6612 | |
6613 | socket_unlock(so, 1); | |
6614 | ||
6615 | return ret; | |
3e170ce0 A |
6616 | } |
6617 | ||
316670eb | 6618 | void |
39236c6e A |
6619 | get_sockev_state(struct socket *so, u_int32_t *statep) |
6620 | { | |
316670eb A |
6621 | u_int32_t state = *(statep); |
6622 | ||
39037602 A |
6623 | /* |
6624 | * If the state variable is already used by a previous event, | |
6625 | * reset it. | |
6626 | */ | |
6627 | if (state != 0) | |
6628 | return; | |
6629 | ||
39236c6e | 6630 | if (so->so_state & SS_ISCONNECTED) |
316670eb | 6631 | state |= SOCKEV_CONNECTED; |
39236c6e | 6632 | else |
316670eb | 6633 | state &= ~(SOCKEV_CONNECTED); |
39236c6e | 6634 | state |= ((so->so_state & SS_ISDISCONNECTED) ? SOCKEV_DISCONNECTED : 0); |
316670eb | 6635 | *(statep) = state; |
55e303ae A |
6636 | } |
6637 | ||
39236c6e A |
6638 | #define SO_LOCK_HISTORY_STR_LEN \ |
6639 | (2 * SO_LCKDBG_MAX * (2 + (2 * sizeof (void *)) + 1) + 1) | |
b0d623f7 | 6640 | |
39236c6e A |
6641 | __private_extern__ const char * |
6642 | solockhistory_nr(struct socket *so) | |
55e303ae | 6643 | { |
39236c6e A |
6644 | size_t n = 0; |
6645 | int i; | |
6646 | static char lock_history_str[SO_LOCK_HISTORY_STR_LEN]; | |
6647 | ||
6648 | bzero(lock_history_str, sizeof (lock_history_str)); | |
6649 | for (i = SO_LCKDBG_MAX - 1; i >= 0; i--) { | |
6650 | n += snprintf(lock_history_str + n, | |
6651 | SO_LOCK_HISTORY_STR_LEN - n, "%p:%p ", | |
6652 | so->lock_lr[(so->next_lock_lr + i) % SO_LCKDBG_MAX], | |
6653 | so->unlock_lr[(so->next_unlock_lr + i) % SO_LCKDBG_MAX]); | |
b0d623f7 | 6654 | } |
39236c6e | 6655 | return (lock_history_str); |
55e303ae A |
6656 | } |
6657 | ||
5ba3f43e | 6658 | void |
2d21ac55 | 6659 | socket_lock(struct socket *so, int refcount) |
91447636 | 6660 | { |
b0d623f7 | 6661 | void *lr_saved; |
0c530ab8 | 6662 | |
b0d623f7 | 6663 | lr_saved = __builtin_return_address(0); |
91447636 A |
6664 | |
6665 | if (so->so_proto->pr_lock) { | |
5ba3f43e | 6666 | (*so->so_proto->pr_lock)(so, refcount, lr_saved); |
2d21ac55 | 6667 | } else { |
91447636 | 6668 | #ifdef MORE_LOCKING_DEBUG |
5ba3f43e | 6669 | LCK_MTX_ASSERT(so->so_proto->pr_domain->dom_mtx, |
2d21ac55 | 6670 | LCK_MTX_ASSERT_NOTOWNED); |
91447636 A |
6671 | #endif |
6672 | lck_mtx_lock(so->so_proto->pr_domain->dom_mtx); | |
6673 | if (refcount) | |
6674 | so->so_usecount++; | |
b0d623f7 | 6675 | so->lock_lr[so->next_lock_lr] = lr_saved; |
0c530ab8 | 6676 | so->next_lock_lr = (so->next_lock_lr+1) % SO_LCKDBG_MAX; |
91447636 | 6677 | } |
5ba3f43e | 6678 | } |
91447636 | 6679 | |
5ba3f43e A |
6680 | void |
6681 | socket_lock_assert_owned(struct socket *so) | |
6682 | { | |
6683 | lck_mtx_t *mutex_held; | |
6684 | ||
6685 | if (so->so_proto->pr_getlock != NULL) | |
6686 | mutex_held = (*so->so_proto->pr_getlock)(so, 0); | |
6687 | else | |
6688 | mutex_held = so->so_proto->pr_domain->dom_mtx; | |
6689 | ||
6690 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); | |
91447636 A |
6691 | } |
6692 | ||
6693 | int | |
5ba3f43e A |
6694 | socket_try_lock(struct socket *so) |
6695 | { | |
6696 | lck_mtx_t *mtx; | |
6697 | ||
6698 | if (so->so_proto->pr_getlock != NULL) | |
6699 | mtx = (*so->so_proto->pr_getlock)(so, 0); | |
6700 | else | |
6701 | mtx = so->so_proto->pr_domain->dom_mtx; | |
6702 | ||
6703 | return (lck_mtx_try_lock(mtx)); | |
6704 | } | |
6705 | ||
6706 | void | |
2d21ac55 | 6707 | socket_unlock(struct socket *so, int refcount) |
91447636 | 6708 | { |
b0d623f7 | 6709 | void *lr_saved; |
2d21ac55 | 6710 | lck_mtx_t *mutex_held; |
91447636 | 6711 | |
b0d623f7 | 6712 | lr_saved = __builtin_return_address(0); |
91447636 | 6713 | |
39236c6e A |
6714 | if (so->so_proto == NULL) { |
6715 | panic("%s: null so_proto so=%p\n", __func__, so); | |
6716 | /* NOTREACHED */ | |
6717 | } | |
91447636 | 6718 | |
2d21ac55 | 6719 | if (so && so->so_proto->pr_unlock) { |
5ba3f43e | 6720 | (*so->so_proto->pr_unlock)(so, refcount, lr_saved); |
2d21ac55 | 6721 | } else { |
91447636 A |
6722 | mutex_held = so->so_proto->pr_domain->dom_mtx; |
6723 | #ifdef MORE_LOCKING_DEBUG | |
5ba3f43e | 6724 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); |
91447636 | 6725 | #endif |
b0d623f7 | 6726 | so->unlock_lr[so->next_unlock_lr] = lr_saved; |
0c530ab8 A |
6727 | so->next_unlock_lr = (so->next_unlock_lr+1) % SO_LCKDBG_MAX; |
6728 | ||
91447636 | 6729 | if (refcount) { |
39236c6e A |
6730 | if (so->so_usecount <= 0) { |
6731 | panic("%s: bad refcount=%d so=%p (%d, %d, %d) " | |
6732 | "lrh=%s", __func__, so->so_usecount, so, | |
6733 | SOCK_DOM(so), so->so_type, | |
6734 | SOCK_PROTO(so), solockhistory_nr(so)); | |
6735 | /* NOTREACHED */ | |
6736 | } | |
6737 | ||
91447636 | 6738 | so->so_usecount--; |
39236c6e | 6739 | if (so->so_usecount == 0) |
91447636 | 6740 | sofreelastref(so, 1); |
91447636 A |
6741 | } |
6742 | lck_mtx_unlock(mutex_held); | |
6743 | } | |
91447636 | 6744 | } |
2d21ac55 A |
6745 | |
6746 | /* Called with socket locked, will unlock socket */ | |
91447636 | 6747 | void |
2d21ac55 | 6748 | sofree(struct socket *so) |
91447636 | 6749 | { |
2d21ac55 | 6750 | lck_mtx_t *mutex_held; |
39236c6e | 6751 | |
2d21ac55 | 6752 | if (so->so_proto->pr_getlock != NULL) |
91447636 | 6753 | mutex_held = (*so->so_proto->pr_getlock)(so, 0); |
2d21ac55 | 6754 | else |
91447636 | 6755 | mutex_held = so->so_proto->pr_domain->dom_mtx; |
5ba3f43e | 6756 | LCK_MTX_ASSERT(mutex_held, LCK_MTX_ASSERT_OWNED); |
2d21ac55 | 6757 | |
91447636 A |
6758 | sofreelastref(so, 0); |
6759 | } | |
6760 | ||
6761 | void | |
2d21ac55 | 6762 | soreference(struct socket *so) |
91447636 A |
6763 | { |
6764 | socket_lock(so, 1); /* locks & take one reference on socket */ | |
6765 | socket_unlock(so, 0); /* unlock only */ | |
6766 | } | |
6767 | ||
6768 | void | |
2d21ac55 | 6769 | sodereference(struct socket *so) |
91447636 A |
6770 | { |
6771 | socket_lock(so, 0); | |
6772 | socket_unlock(so, 1); | |
6773 | } | |
2d21ac55 A |
6774 | |
6775 | /* | |
6776 | * Set or clear SOF_MULTIPAGES on the socket to enable or disable the | |
6777 | * possibility of using jumbo clusters. Caller must ensure to hold | |
6778 | * the socket lock. | |
6779 | */ | |
6780 | void | |
6781 | somultipages(struct socket *so, boolean_t set) | |
6782 | { | |
6783 | if (set) | |
6784 | so->so_flags |= SOF_MULTIPAGES; | |
6785 | else | |
6786 | so->so_flags &= ~SOF_MULTIPAGES; | |
6787 | } | |
b0d623f7 | 6788 | |
fe8ab488 A |
6789 | void |
6790 | soif2kcl(struct socket *so, boolean_t set) | |
6791 | { | |
6792 | if (set) | |
6793 | so->so_flags1 |= SOF1_IF_2KCL; | |
6794 | else | |
6795 | so->so_flags1 &= ~SOF1_IF_2KCL; | |
6796 | } | |
6797 | ||
b0d623f7 A |
6798 | int |
6799 | so_isdstlocal(struct socket *so) { | |
6800 | ||
6801 | struct inpcb *inp = (struct inpcb *)so->so_pcb; | |
6802 | ||
39236c6e A |
6803 | if (SOCK_DOM(so) == PF_INET) |
6804 | return (inaddr_local(inp->inp_faddr)); | |
6805 | else if (SOCK_DOM(so) == PF_INET6) | |
6806 | return (in6addr_local(&inp->in6p_faddr)); | |
6807 | ||
6808 | return (0); | |
b0d623f7 | 6809 | } |
6d2010ae A |
6810 | |
6811 | int | |
6812 | sosetdefunct(struct proc *p, struct socket *so, int level, boolean_t noforce) | |
6813 | { | |
39236c6e | 6814 | struct sockbuf *rcv, *snd; |
6d2010ae A |
6815 | int err = 0, defunct; |
6816 | ||
39236c6e A |
6817 | rcv = &so->so_rcv; |
6818 | snd = &so->so_snd; | |
6819 | ||
6d2010ae A |
6820 | defunct = (so->so_flags & SOF_DEFUNCT); |
6821 | if (defunct) { | |
39236c6e | 6822 | if (!(snd->sb_flags & rcv->sb_flags & SB_DROP)) { |
6d2010ae | 6823 | panic("%s: SB_DROP not set", __func__); |
39236c6e A |
6824 | /* NOTREACHED */ |
6825 | } | |
6d2010ae A |
6826 | goto done; |
6827 | } | |
6828 | ||
6829 | if (so->so_flags & SOF_NODEFUNCT) { | |
6830 | if (noforce) { | |
6831 | err = EOPNOTSUPP; | |
39037602 A |
6832 | SODEFUNCTLOG("%s[%d, %s]: (target pid %d " |
6833 | "name %s level %d) so 0x%llx [%d,%d] " | |
6834 | "is not eligible for defunct " | |
6835 | "(%d)\n", __func__, proc_selfpid(), | |
6836 | proc_best_name(current_proc()), proc_pid(p), | |
6837 | proc_best_name(p), level, | |
6838 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
6839 | SOCK_DOM(so), SOCK_TYPE(so), err); | |
6d2010ae A |
6840 | return (err); |
6841 | } | |
6842 | so->so_flags &= ~SOF_NODEFUNCT; | |
39037602 A |
6843 | SODEFUNCTLOG("%s[%d, %s]: (target pid %d name %s level %d) " |
6844 | "so 0x%llx [%d,%d] defunct by force\n", __func__, | |
6845 | proc_selfpid(), proc_best_name(current_proc()), | |
6846 | proc_pid(p), proc_best_name(p), level, | |
6847 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
6848 | SOCK_DOM(so), SOCK_TYPE(so)); | |
3e170ce0 A |
6849 | } else if (so->so_flags1 & SOF1_EXTEND_BK_IDLE_WANTED) { |
6850 | struct inpcb *inp = (struct inpcb *)so->so_pcb; | |
6851 | struct ifnet *ifp = inp->inp_last_outifp; | |
6852 | ||
6853 | if (ifp && IFNET_IS_CELLULAR(ifp)) { | |
6854 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_nocell); | |
6855 | } else if (so->so_flags & SOF_DELEGATED) { | |
6856 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_nodlgtd); | |
6857 | } else if (soextbkidlestat.so_xbkidle_time == 0) { | |
6858 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_notime); | |
6859 | } else if (noforce) { | |
6860 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_active); | |
39037602 | 6861 | |
3e170ce0 A |
6862 | so->so_flags1 |= SOF1_EXTEND_BK_IDLE_INPROG; |
6863 | so->so_extended_bk_start = net_uptime(); | |
6864 | OSBitOrAtomic(P_LXBKIDLEINPROG, &p->p_ladvflag); | |
39037602 | 6865 | |
3e170ce0 | 6866 | inpcb_timer_sched(inp->inp_pcbinfo, INPCB_TIMER_LAZY); |
39037602 | 6867 | |
3e170ce0 | 6868 | err = EOPNOTSUPP; |
39037602 A |
6869 | SODEFUNCTLOG("%s[%d, %s]: (target pid %d name %s " |
6870 | "level %d) extend bk idle so 0x%llx rcv hw %d " | |
6871 | "cc %d\n", | |
6872 | __func__, proc_selfpid(), | |
6873 | proc_best_name(current_proc()), proc_pid(p), | |
6874 | proc_best_name(p), level, | |
6875 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
6876 | so->so_rcv.sb_hiwat, so->so_rcv.sb_cc); | |
3e170ce0 A |
6877 | return (err); |
6878 | } else { | |
6879 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_forced); | |
6880 | } | |
6d2010ae A |
6881 | } |
6882 | ||
6883 | so->so_flags |= SOF_DEFUNCT; | |
39236c6e | 6884 | |
6d2010ae | 6885 | /* Prevent further data from being appended to the socket buffers */ |
39236c6e A |
6886 | snd->sb_flags |= SB_DROP; |
6887 | rcv->sb_flags |= SB_DROP; | |
6888 | ||
6889 | /* Flush any existing data in the socket buffers */ | |
6890 | if (rcv->sb_cc != 0) { | |
6891 | rcv->sb_flags &= ~SB_SEL; | |
6892 | selthreadclear(&rcv->sb_sel); | |
6893 | sbrelease(rcv); | |
6894 | } | |
6895 | if (snd->sb_cc != 0) { | |
6896 | snd->sb_flags &= ~SB_SEL; | |
6897 | selthreadclear(&snd->sb_sel); | |
6898 | sbrelease(snd); | |
6899 | } | |
6d2010ae A |
6900 | |
6901 | done: | |
39037602 A |
6902 | SODEFUNCTLOG("%s[%d, %s]: (target pid %d name %s level %d) " |
6903 | "so 0x%llx [%d,%d] %s defunct%s\n", __func__, proc_selfpid(), | |
6904 | proc_best_name(current_proc()), proc_pid(p), proc_best_name(p), | |
6905 | level, (uint64_t)DEBUG_KERNEL_ADDRPERM(so), SOCK_DOM(so), | |
6906 | SOCK_TYPE(so), defunct ? "is already" : "marked as", | |
6907 | (so->so_flags1 & SOF1_EXTEND_BK_IDLE_WANTED) ? " extbkidle" : ""); | |
6d2010ae A |
6908 | |
6909 | return (err); | |
6910 | } | |
6911 | ||
6912 | int | |
6913 | sodefunct(struct proc *p, struct socket *so, int level) | |
6914 | { | |
6915 | struct sockbuf *rcv, *snd; | |
6916 | ||
39236c6e | 6917 | if (!(so->so_flags & SOF_DEFUNCT)) { |
6d2010ae | 6918 | panic("%s improperly called", __func__); |
39236c6e A |
6919 | /* NOTREACHED */ |
6920 | } | |
6d2010ae A |
6921 | if (so->so_state & SS_DEFUNCT) |
6922 | goto done; | |
6923 | ||
6924 | rcv = &so->so_rcv; | |
6925 | snd = &so->so_snd; | |
6926 | ||
39236c6e A |
6927 | if (SOCK_DOM(so) == PF_INET || SOCK_DOM(so) == PF_INET6) { |
6928 | char s[MAX_IPv6_STR_LEN]; | |
6929 | char d[MAX_IPv6_STR_LEN]; | |
6930 | struct inpcb *inp = sotoinpcb(so); | |
6931 | ||
39037602 A |
6932 | SODEFUNCTLOG("%s[%d, %s]: (target pid %d name %s level %d) " |
6933 | "so 0x%llx [%s %s:%d -> %s:%d] is now defunct " | |
6934 | "[rcv_si 0x%x, snd_si 0x%x, rcv_fl 0x%x, snd_fl 0x%x]\n", | |
6935 | __func__, proc_selfpid(), proc_best_name(current_proc()), | |
6936 | proc_pid(p), proc_best_name(p), level, | |
6937 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
39236c6e A |
6938 | (SOCK_TYPE(so) == SOCK_STREAM) ? "TCP" : "UDP", |
6939 | inet_ntop(SOCK_DOM(so), ((SOCK_DOM(so) == PF_INET) ? | |
6940 | (void *)&inp->inp_laddr.s_addr : (void *)&inp->in6p_laddr), | |
6941 | s, sizeof (s)), ntohs(inp->in6p_lport), | |
6942 | inet_ntop(SOCK_DOM(so), (SOCK_DOM(so) == PF_INET) ? | |
6943 | (void *)&inp->inp_faddr.s_addr : (void *)&inp->in6p_faddr, | |
6944 | d, sizeof (d)), ntohs(inp->in6p_fport), | |
6945 | (uint32_t)rcv->sb_sel.si_flags, | |
6946 | (uint32_t)snd->sb_sel.si_flags, | |
39037602 | 6947 | rcv->sb_flags, snd->sb_flags); |
39236c6e | 6948 | } else { |
39037602 A |
6949 | SODEFUNCTLOG("%s[%d, %s]: (target pid %d name %s level %d) " |
6950 | "so 0x%llx [%d,%d] is now defunct [rcv_si 0x%x, " | |
6951 | "snd_si 0x%x, rcv_fl 0x%x, snd_fl 0x%x]\n", __func__, | |
6952 | proc_selfpid(), proc_best_name(current_proc()), | |
6953 | proc_pid(p), proc_best_name(p), level, | |
6954 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), | |
6955 | SOCK_DOM(so), SOCK_TYPE(so), | |
6956 | (uint32_t)rcv->sb_sel.si_flags, | |
39236c6e | 6957 | (uint32_t)snd->sb_sel.si_flags, rcv->sb_flags, |
39037602 | 6958 | snd->sb_flags); |
39236c6e | 6959 | } |
6d2010ae A |
6960 | |
6961 | /* | |
6962 | * Unwedge threads blocked on sbwait() and sb_lock(). | |
6963 | */ | |
6964 | sbwakeup(rcv); | |
6965 | sbwakeup(snd); | |
6966 | ||
fe8ab488 | 6967 | so->so_flags1 |= SOF1_DEFUNCTINPROG; |
6d2010ae | 6968 | if (rcv->sb_flags & SB_LOCK) |
39236c6e | 6969 | sbunlock(rcv, TRUE); /* keep socket locked */ |
6d2010ae | 6970 | if (snd->sb_flags & SB_LOCK) |
39236c6e | 6971 | sbunlock(snd, TRUE); /* keep socket locked */ |
6d2010ae A |
6972 | |
6973 | /* | |
6974 | * Flush the buffers and disconnect. We explicitly call shutdown | |
6975 | * on both data directions to ensure that SS_CANT{RCV,SEND}MORE | |
6976 | * states are set for the socket. This would also flush out data | |
6977 | * hanging off the receive list of this socket. | |
6978 | */ | |
fe8ab488 A |
6979 | (void) soshutdownlock_final(so, SHUT_RD); |
6980 | (void) soshutdownlock_final(so, SHUT_WR); | |
6d2010ae A |
6981 | (void) sodisconnectlocked(so); |
6982 | ||
6983 | /* | |
6984 | * Explicitly handle connectionless-protocol disconnection | |
6985 | * and release any remaining data in the socket buffers. | |
6986 | */ | |
5ba3f43e | 6987 | if (!(so->so_state & SS_ISDISCONNECTED)) |
6d2010ae A |
6988 | (void) soisdisconnected(so); |
6989 | ||
6990 | if (so->so_error == 0) | |
6991 | so->so_error = EBADF; | |
6992 | ||
39236c6e A |
6993 | if (rcv->sb_cc != 0) { |
6994 | rcv->sb_flags &= ~SB_SEL; | |
6995 | selthreadclear(&rcv->sb_sel); | |
6d2010ae | 6996 | sbrelease(rcv); |
39236c6e A |
6997 | } |
6998 | if (snd->sb_cc != 0) { | |
6999 | snd->sb_flags &= ~SB_SEL; | |
7000 | selthreadclear(&snd->sb_sel); | |
6d2010ae | 7001 | sbrelease(snd); |
39236c6e | 7002 | } |
6d2010ae | 7003 | so->so_state |= SS_DEFUNCT; |
39037602 | 7004 | OSIncrementAtomicLong((volatile long *)&sodefunct_calls); |
6d2010ae A |
7005 | |
7006 | done: | |
7007 | return (0); | |
7008 | } | |
316670eb | 7009 | |
3e170ce0 A |
7010 | int |
7011 | soresume(struct proc *p, struct socket *so, int locked) | |
7012 | { | |
7013 | if (locked == 0) | |
7014 | socket_lock(so, 1); | |
7015 | ||
7016 | if (so->so_flags1 & SOF1_EXTEND_BK_IDLE_INPROG) { | |
39037602 A |
7017 | SODEFUNCTLOG("%s[%d, %s]: (target pid %d name %s) so 0x%llx " |
7018 | "[%d,%d] resumed from bk idle\n", | |
7019 | __func__, proc_selfpid(), proc_best_name(current_proc()), | |
7020 | proc_pid(p), proc_best_name(p), | |
3e170ce0 | 7021 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
39037602 | 7022 | SOCK_DOM(so), SOCK_TYPE(so)); |
3e170ce0 A |
7023 | |
7024 | so->so_flags1 &= ~SOF1_EXTEND_BK_IDLE_INPROG; | |
7025 | so->so_extended_bk_start = 0; | |
7026 | OSBitAndAtomic(~P_LXBKIDLEINPROG, &p->p_ladvflag); | |
7027 | ||
7028 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_resumed); | |
7029 | OSDecrementAtomic(&soextbkidlestat.so_xbkidle_active); | |
7030 | VERIFY(soextbkidlestat.so_xbkidle_active >= 0); | |
7031 | } | |
7032 | if (locked == 0) | |
7033 | socket_unlock(so, 1); | |
7034 | ||
7035 | return (0); | |
7036 | } | |
7037 | ||
7038 | /* | |
7039 | * Does not attempt to account for sockets that are delegated from | |
7040 | * the current process | |
7041 | */ | |
7042 | int | |
7043 | so_set_extended_bk_idle(struct socket *so, int optval) | |
7044 | { | |
7045 | int error = 0; | |
7046 | ||
7047 | if ((SOCK_DOM(so) != PF_INET && SOCK_DOM(so) != PF_INET6) || | |
7048 | SOCK_PROTO(so) != IPPROTO_TCP) { | |
7049 | OSDecrementAtomic(&soextbkidlestat.so_xbkidle_notsupp); | |
7050 | error = EOPNOTSUPP; | |
7051 | } else if (optval == 0) { | |
7052 | so->so_flags1 &= ~SOF1_EXTEND_BK_IDLE_WANTED; | |
7053 | ||
7054 | soresume(current_proc(), so, 1); | |
7055 | } else { | |
7056 | struct proc *p = current_proc(); | |
7057 | int i; | |
7058 | struct filedesc *fdp; | |
7059 | int count = 0; | |
7060 | ||
5ba3f43e A |
7061 | /* |
7062 | * Unlock socket to avoid lock ordering issue with | |
7063 | * the proc fd table lock | |
7064 | */ | |
7065 | socket_unlock(so, 0); | |
7066 | ||
3e170ce0 A |
7067 | proc_fdlock(p); |
7068 | ||
7069 | fdp = p->p_fd; | |
7070 | for (i = 0; i < fdp->fd_nfiles; i++) { | |
7071 | struct fileproc *fp = fdp->fd_ofiles[i]; | |
7072 | struct socket *so2; | |
7073 | ||
7074 | if (fp == NULL || | |
7075 | (fdp->fd_ofileflags[i] & UF_RESERVED) != 0 || | |
7076 | FILEGLOB_DTYPE(fp->f_fglob) != DTYPE_SOCKET) | |
7077 | continue; | |
7078 | ||
7079 | so2 = (struct socket *)fp->f_fglob->fg_data; | |
7080 | if (so != so2 && | |
7081 | so2->so_flags1 & SOF1_EXTEND_BK_IDLE_WANTED) | |
7082 | count++; | |
7083 | if (count >= soextbkidlestat.so_xbkidle_maxperproc) | |
7084 | break; | |
7085 | } | |
5ba3f43e A |
7086 | proc_fdunlock(p); |
7087 | ||
7088 | socket_lock(so, 0); | |
7089 | ||
3e170ce0 A |
7090 | if (count >= soextbkidlestat.so_xbkidle_maxperproc) { |
7091 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_toomany); | |
7092 | error = EBUSY; | |
7093 | } else if (so->so_flags & SOF_DELEGATED) { | |
7094 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_nodlgtd); | |
7095 | error = EBUSY; | |
7096 | } else { | |
7097 | so->so_flags1 |= SOF1_EXTEND_BK_IDLE_WANTED; | |
7098 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_wantok); | |
7099 | } | |
39037602 | 7100 | SODEFUNCTLOG("%s[%d, %s]: so 0x%llx [%d,%d] " |
3e170ce0 | 7101 | "%s marked for extended bk idle\n", |
39037602 | 7102 | __func__, proc_selfpid(), proc_best_name(current_proc()), |
3e170ce0 A |
7103 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
7104 | SOCK_DOM(so), SOCK_TYPE(so), | |
7105 | (so->so_flags1 & SOF1_EXTEND_BK_IDLE_WANTED) ? | |
39037602 | 7106 | "is" : "not"); |
3e170ce0 A |
7107 | } |
7108 | ||
7109 | return (error); | |
7110 | } | |
7111 | ||
7112 | static void | |
7113 | so_stop_extended_bk_idle(struct socket *so) | |
7114 | { | |
7115 | so->so_flags1 &= ~SOF1_EXTEND_BK_IDLE_INPROG; | |
7116 | so->so_extended_bk_start = 0; | |
7117 | ||
7118 | OSDecrementAtomic(&soextbkidlestat.so_xbkidle_active); | |
7119 | VERIFY(soextbkidlestat.so_xbkidle_active >= 0); | |
7120 | /* | |
7121 | * Force defunct | |
7122 | */ | |
7123 | sosetdefunct(current_proc(), so, | |
7124 | SHUTDOWN_SOCKET_LEVEL_DISCONNECT_INTERNAL, FALSE); | |
7125 | if (so->so_flags & SOF_DEFUNCT) { | |
7126 | sodefunct(current_proc(), so, | |
7127 | SHUTDOWN_SOCKET_LEVEL_DISCONNECT_INTERNAL); | |
7128 | } | |
7129 | } | |
7130 | ||
7131 | void | |
7132 | so_drain_extended_bk_idle(struct socket *so) | |
7133 | { | |
7134 | if (so && (so->so_flags1 & SOF1_EXTEND_BK_IDLE_INPROG)) { | |
7135 | /* | |
7136 | * Only penalize sockets that have outstanding data | |
7137 | */ | |
7138 | if (so->so_rcv.sb_cc || so->so_snd.sb_cc) { | |
7139 | so_stop_extended_bk_idle(so); | |
7140 | ||
7141 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_drained); | |
7142 | } | |
7143 | } | |
7144 | } | |
7145 | ||
7146 | /* | |
7147 | * Return values tells if socket is still in extended background idle | |
7148 | */ | |
7149 | int | |
7150 | so_check_extended_bk_idle_time(struct socket *so) | |
7151 | { | |
7152 | int ret = 1; | |
7153 | ||
7154 | if ((so->so_flags1 & SOF1_EXTEND_BK_IDLE_INPROG)) { | |
39037602 A |
7155 | SODEFUNCTLOG("%s[%d, %s]: so 0x%llx [%d,%d]\n", |
7156 | __func__, proc_selfpid(), proc_best_name(current_proc()), | |
3e170ce0 | 7157 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
39037602 | 7158 | SOCK_DOM(so), SOCK_TYPE(so)); |
3e170ce0 A |
7159 | if (net_uptime() - so->so_extended_bk_start > |
7160 | soextbkidlestat.so_xbkidle_time) { | |
7161 | so_stop_extended_bk_idle(so); | |
7162 | ||
7163 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_expired); | |
7164 | ||
7165 | ret = 0; | |
7166 | } else { | |
7167 | struct inpcb *inp = (struct inpcb *)so->so_pcb; | |
7168 | ||
7169 | inpcb_timer_sched(inp->inp_pcbinfo, INPCB_TIMER_LAZY); | |
7170 | OSIncrementAtomic(&soextbkidlestat.so_xbkidle_resched); | |
7171 | } | |
7172 | } | |
39037602 | 7173 | |
3e170ce0 A |
7174 | return (ret); |
7175 | } | |
7176 | ||
7177 | void | |
7178 | resume_proc_sockets(proc_t p) | |
7179 | { | |
7180 | if (p->p_ladvflag & P_LXBKIDLEINPROG) { | |
7181 | struct filedesc *fdp; | |
7182 | int i; | |
7183 | ||
7184 | proc_fdlock(p); | |
7185 | fdp = p->p_fd; | |
7186 | for (i = 0; i < fdp->fd_nfiles; i++) { | |
7187 | struct fileproc *fp; | |
7188 | struct socket *so; | |
7189 | ||
7190 | fp = fdp->fd_ofiles[i]; | |
39037602 | 7191 | if (fp == NULL || |
3e170ce0 A |
7192 | (fdp->fd_ofileflags[i] & UF_RESERVED) != 0 || |
7193 | FILEGLOB_DTYPE(fp->f_fglob) != DTYPE_SOCKET) | |
7194 | continue; | |
7195 | ||
7196 | so = (struct socket *)fp->f_fglob->fg_data; | |
7197 | (void) soresume(p, so, 0); | |
7198 | } | |
7199 | proc_fdunlock(p); | |
7200 | ||
7201 | OSBitAndAtomic(~P_LXBKIDLEINPROG, &p->p_ladvflag); | |
7202 | } | |
7203 | } | |
7204 | ||
316670eb A |
7205 | __private_extern__ int |
7206 | so_set_recv_anyif(struct socket *so, int optval) | |
7207 | { | |
7208 | int ret = 0; | |
7209 | ||
7210 | #if INET6 | |
39236c6e | 7211 | if (SOCK_DOM(so) == PF_INET || SOCK_DOM(so) == PF_INET6) { |
316670eb | 7212 | #else |
39236c6e | 7213 | if (SOCK_DOM(so) == PF_INET) { |
316670eb A |
7214 | #endif /* !INET6 */ |
7215 | if (optval) | |
7216 | sotoinpcb(so)->inp_flags |= INP_RECV_ANYIF; | |
7217 | else | |
7218 | sotoinpcb(so)->inp_flags &= ~INP_RECV_ANYIF; | |
316670eb A |
7219 | } |
7220 | ||
5ba3f43e | 7221 | |
316670eb A |
7222 | return (ret); |
7223 | } | |
7224 | ||
7225 | __private_extern__ int | |
7226 | so_get_recv_anyif(struct socket *so) | |
7227 | { | |
7228 | int ret = 0; | |
7229 | ||
7230 | #if INET6 | |
39236c6e | 7231 | if (SOCK_DOM(so) == PF_INET || SOCK_DOM(so) == PF_INET6) { |
316670eb | 7232 | #else |
39236c6e | 7233 | if (SOCK_DOM(so) == PF_INET) { |
316670eb A |
7234 | #endif /* !INET6 */ |
7235 | ret = (sotoinpcb(so)->inp_flags & INP_RECV_ANYIF) ? 1 : 0; | |
7236 | } | |
7237 | ||
7238 | return (ret); | |
7239 | } | |
39236c6e A |
7240 | |
7241 | int | |
7242 | so_set_restrictions(struct socket *so, uint32_t vals) | |
7243 | { | |
7244 | int nocell_old, nocell_new; | |
fe8ab488 | 7245 | int noexpensive_old, noexpensive_new; |
39236c6e A |
7246 | |
7247 | /* | |
7248 | * Deny-type restrictions are trapdoors; once set they cannot be | |
7249 | * unset for the lifetime of the socket. This allows them to be | |
7250 | * issued by a framework on behalf of the application without | |
7251 | * having to worry that they can be undone. | |
7252 | * | |
7253 | * Note here that socket-level restrictions overrides any protocol | |
7254 | * level restrictions. For instance, SO_RESTRICT_DENY_CELLULAR | |
7255 | * socket restriction issued on the socket has a higher precendence | |
7256 | * than INP_NO_IFT_CELLULAR. The latter is affected by the UUID | |
7257 | * policy PROC_UUID_NO_CELLULAR for unrestricted sockets only, | |
7258 | * i.e. when SO_RESTRICT_DENY_CELLULAR has not been issued. | |
7259 | */ | |
7260 | nocell_old = (so->so_restrictions & SO_RESTRICT_DENY_CELLULAR); | |
fe8ab488 | 7261 | noexpensive_old = (so->so_restrictions & SO_RESTRICT_DENY_EXPENSIVE); |
39236c6e | 7262 | so->so_restrictions |= (vals & (SO_RESTRICT_DENY_IN | |
3e170ce0 | 7263 | SO_RESTRICT_DENY_OUT | SO_RESTRICT_DENY_CELLULAR | |
fe8ab488 | 7264 | SO_RESTRICT_DENY_EXPENSIVE)); |
39236c6e | 7265 | nocell_new = (so->so_restrictions & SO_RESTRICT_DENY_CELLULAR); |
fe8ab488 | 7266 | noexpensive_new = (so->so_restrictions & SO_RESTRICT_DENY_EXPENSIVE); |
39236c6e A |
7267 | |
7268 | /* we can only set, not clear restrictions */ | |
fe8ab488 A |
7269 | if ((nocell_new - nocell_old) == 0 && |
7270 | (noexpensive_new - noexpensive_old) == 0) | |
7271 | return (0); | |
39236c6e A |
7272 | #if INET6 |
7273 | if (SOCK_DOM(so) == PF_INET || SOCK_DOM(so) == PF_INET6) { | |
7274 | #else | |
7275 | if (SOCK_DOM(so) == PF_INET) { | |
7276 | #endif /* !INET6 */ | |
fe8ab488 | 7277 | if (nocell_new - nocell_old != 0) { |
3e170ce0 A |
7278 | /* |
7279 | * if deny cellular is now set, do what's needed | |
7280 | * for INPCB | |
7281 | */ | |
fe8ab488 A |
7282 | inp_set_nocellular(sotoinpcb(so)); |
7283 | } | |
7284 | if (noexpensive_new - noexpensive_old != 0) { | |
7285 | inp_set_noexpensive(sotoinpcb(so)); | |
7286 | } | |
39236c6e A |
7287 | } |
7288 | ||
5ba3f43e A |
7289 | if (SOCK_DOM(so) == PF_MULTIPATH) |
7290 | mptcp_set_restrictions(so); | |
7291 | ||
fe8ab488 | 7292 | return (0); |
39236c6e A |
7293 | } |
7294 | ||
7295 | uint32_t | |
7296 | so_get_restrictions(struct socket *so) | |
7297 | { | |
7298 | return (so->so_restrictions & (SO_RESTRICT_DENY_IN | | |
3e170ce0 | 7299 | SO_RESTRICT_DENY_OUT | |
fe8ab488 | 7300 | SO_RESTRICT_DENY_CELLULAR | SO_RESTRICT_DENY_EXPENSIVE)); |
39236c6e A |
7301 | } |
7302 | ||
39236c6e A |
7303 | int |
7304 | so_set_effective_pid(struct socket *so, int epid, struct proc *p) | |
7305 | { | |
7306 | struct proc *ep = PROC_NULL; | |
7307 | int error = 0; | |
7308 | ||
7309 | /* pid 0 is reserved for kernel */ | |
7310 | if (epid == 0) { | |
7311 | error = EINVAL; | |
7312 | goto done; | |
7313 | } | |
7314 | ||
7315 | /* | |
7316 | * If this is an in-kernel socket, prevent its delegate | |
7317 | * association from changing unless the socket option is | |
7318 | * coming from within the kernel itself. | |
7319 | */ | |
7320 | if (so->last_pid == 0 && p != kernproc) { | |
7321 | error = EACCES; | |
7322 | goto done; | |
7323 | } | |
7324 | ||
7325 | /* | |
7326 | * If this is issued by a process that's recorded as the | |
7327 | * real owner of the socket, or if the pid is the same as | |
7328 | * the process's own pid, then proceed. Otherwise ensure | |
7329 | * that the issuing process has the necessary privileges. | |
7330 | */ | |
7331 | if (epid != so->last_pid || epid != proc_pid(p)) { | |
7332 | if ((error = priv_check_cred(kauth_cred_get(), | |
7333 | PRIV_NET_PRIVILEGED_SOCKET_DELEGATE, 0))) { | |
7334 | error = EACCES; | |
7335 | goto done; | |
7336 | } | |
7337 | } | |
7338 | ||
7339 | /* Find the process that corresponds to the effective pid */ | |
7340 | if ((ep = proc_find(epid)) == PROC_NULL) { | |
7341 | error = ESRCH; | |
7342 | goto done; | |
7343 | } | |
7344 | ||
7345 | /* | |
7346 | * If a process tries to delegate the socket to itself, then | |
7347 | * there's really nothing to do; treat it as a way for the | |
7348 | * delegate association to be cleared. Note that we check | |
7349 | * the passed-in proc rather than calling proc_selfpid(), | |
7350 | * as we need to check the process issuing the socket option | |
7351 | * which could be kernproc. Given that we don't allow 0 for | |
7352 | * effective pid, it means that a delegated in-kernel socket | |
7353 | * stays delegated during its lifetime (which is probably OK.) | |
7354 | */ | |
7355 | if (epid == proc_pid(p)) { | |
7356 | so->so_flags &= ~SOF_DELEGATED; | |
7357 | so->e_upid = 0; | |
7358 | so->e_pid = 0; | |
7359 | uuid_clear(so->e_uuid); | |
7360 | } else { | |
7361 | so->so_flags |= SOF_DELEGATED; | |
7362 | so->e_upid = proc_uniqueid(ep); | |
7363 | so->e_pid = proc_pid(ep); | |
7364 | proc_getexecutableuuid(ep, so->e_uuid, sizeof (so->e_uuid)); | |
7365 | } | |
39236c6e A |
7366 | done: |
7367 | if (error == 0 && net_io_policy_log) { | |
7368 | uuid_string_t buf; | |
7369 | ||
7370 | uuid_unparse(so->e_uuid, buf); | |
7371 | log(LOG_DEBUG, "%s[%s,%d]: so 0x%llx [%d,%d] epid %d (%s) " | |
7372 | "euuid %s%s\n", __func__, proc_name_address(p), | |
3e170ce0 A |
7373 | proc_pid(p), (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
7374 | SOCK_DOM(so), SOCK_TYPE(so), | |
7375 | so->e_pid, proc_name_address(ep), buf, | |
39236c6e A |
7376 | ((so->so_flags & SOF_DELEGATED) ? " [delegated]" : "")); |
7377 | } else if (error != 0 && net_io_policy_log) { | |
7378 | log(LOG_ERR, "%s[%s,%d]: so 0x%llx [%d,%d] epid %d (%s) " | |
7379 | "ERROR (%d)\n", __func__, proc_name_address(p), | |
3e170ce0 A |
7380 | proc_pid(p), (uint64_t)DEBUG_KERNEL_ADDRPERM(so), |
7381 | SOCK_DOM(so), SOCK_TYPE(so), | |
7382 | epid, (ep == PROC_NULL) ? "PROC_NULL" : | |
39236c6e A |
7383 | proc_name_address(ep), error); |
7384 | } | |
7385 | ||
fe8ab488 A |
7386 | /* Update this socket's policy upon success */ |
7387 | if (error == 0) { | |
7388 | so->so_policy_gencnt *= -1; | |
7389 | so_update_policy(so); | |
7390 | #if NECP | |
7391 | so_update_necp_policy(so, NULL, NULL); | |
7392 | #endif /* NECP */ | |
7393 | } | |
7394 | ||
39236c6e A |
7395 | if (ep != PROC_NULL) |
7396 | proc_rele(ep); | |
7397 | ||
7398 | return (error); | |
7399 | } | |
7400 | ||
7401 | int | |
7402 | so_set_effective_uuid(struct socket *so, uuid_t euuid, struct proc *p) | |
7403 | { | |
7404 | uuid_string_t buf; | |
7405 | uuid_t uuid; | |
7406 | int error = 0; | |
7407 | ||
7408 | /* UUID must not be all-zeroes (reserved for kernel) */ | |
7409 | if (uuid_is_null(euuid)) { | |
7410 | error = EINVAL; | |
3e170ce0 | 7411 | goto done; |
39236c6e A |
7412 | } |
7413 | ||
7414 | /* | |
7415 | * If this is an in-kernel socket, prevent its delegate | |
7416 | * association from changing unless the socket option is | |
7417 | * coming from within the kernel itself. | |
7418 | */ | |
7419 | if (so->last_pid == 0 && p != kernproc) { | |
7420 | error = EACCES; | |
7421 | goto done; | |
7422 | } | |
7423 | ||
7424 | /* Get the UUID of the issuing process */ | |
7425 | proc_getexecutableuuid(p, uuid, sizeof (uuid)); | |
7426 | ||
7427 | /* | |
7428 | * If this is issued by a process that's recorded as the | |
7429 | * real owner of the socket, or if the uuid is the same as | |
7430 | * the process's own uuid, then proceed. Otherwise ensure | |
7431 | * that the issuing process has the necessary privileges. | |
7432 | */ | |
7433 | if (uuid_compare(euuid, so->last_uuid) != 0 || | |
7434 | uuid_compare(euuid, uuid) != 0) { | |
7435 | if ((error = priv_check_cred(kauth_cred_get(), | |
7436 | PRIV_NET_PRIVILEGED_SOCKET_DELEGATE, 0))) { | |
7437 | error = EACCES; | |
7438 | goto done; | |
7439 | } | |
7440 | } | |
7441 | ||
7442 | /* | |
7443 | * If a process tries to delegate the socket to itself, then | |
7444 | * there's really nothing to do; treat it as a way for the | |
7445 | * delegate association to be cleared. Note that we check | |
7446 | * the uuid of the passed-in proc rather than that of the | |
7447 | * current process, as we need to check the process issuing | |
7448 | * the socket option which could be kernproc itself. Given | |
7449 | * that we don't allow 0 for effective uuid, it means that | |
7450 | * a delegated in-kernel socket stays delegated during its | |
7451 | * lifetime (which is okay.) | |
7452 | */ | |
7453 | if (uuid_compare(euuid, uuid) == 0) { | |
7454 | so->so_flags &= ~SOF_DELEGATED; | |
7455 | so->e_upid = 0; | |
7456 | so->e_pid = 0; | |
7457 | uuid_clear(so->e_uuid); | |
7458 | } else { | |
7459 | so->so_flags |= SOF_DELEGATED; | |
7460 | /* | |
7461 | * Unlike so_set_effective_pid(), we only have the UUID | |
7462 | * here and the process ID is not known. Inherit the | |
7463 | * real {pid,upid} of the socket. | |
7464 | */ | |
7465 | so->e_upid = so->last_upid; | |
7466 | so->e_pid = so->last_pid; | |
7467 | uuid_copy(so->e_uuid, euuid); | |
7468 | } | |
7469 | ||
7470 | done: | |
7471 | if (error == 0 && net_io_policy_log) { | |
7472 | uuid_unparse(so->e_uuid, buf); | |
7473 | log(LOG_DEBUG, "%s[%s,%d]: so 0x%llx [%d,%d] epid %d " | |
7474 | "euuid %s%s\n", __func__, proc_name_address(p), proc_pid(p), | |
3e170ce0 | 7475 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), SOCK_DOM(so), |
39236c6e A |
7476 | SOCK_TYPE(so), so->e_pid, buf, |
7477 | ((so->so_flags & SOF_DELEGATED) ? " [delegated]" : "")); | |
7478 | } else if (error != 0 && net_io_policy_log) { | |
7479 | uuid_unparse(euuid, buf); | |
7480 | log(LOG_DEBUG, "%s[%s,%d]: so 0x%llx [%d,%d] euuid %s " | |
7481 | "ERROR (%d)\n", __func__, proc_name_address(p), proc_pid(p), | |
3e170ce0 | 7482 | (uint64_t)DEBUG_KERNEL_ADDRPERM(so), SOCK_DOM(so), |
39236c6e A |
7483 | SOCK_TYPE(so), buf, error); |
7484 | } | |
7485 | ||
fe8ab488 A |
7486 | /* Update this socket's policy upon success */ |
7487 | if (error == 0) { | |
7488 | so->so_policy_gencnt *= -1; | |
7489 | so_update_policy(so); | |
7490 | #if NECP | |
7491 | so_update_necp_policy(so, NULL, NULL); | |
7492 | #endif /* NECP */ | |
7493 | } | |
7494 | ||
39236c6e A |
7495 | return (error); |
7496 | } | |
7497 | ||
7498 | void | |
7499 | netpolicy_post_msg(uint32_t ev_code, struct netpolicy_event_data *ev_data, | |
7500 | uint32_t ev_datalen) | |
7501 | { | |
7502 | struct kev_msg ev_msg; | |
7503 | ||
7504 | /* | |
7505 | * A netpolicy event always starts with a netpolicy_event_data | |
7506 | * structure, but the caller can provide for a longer event | |
7507 | * structure to post, depending on the event code. | |
7508 | */ | |
7509 | VERIFY(ev_data != NULL && ev_datalen >= sizeof (*ev_data)); | |
7510 | ||
7511 | bzero(&ev_msg, sizeof (ev_msg)); | |
7512 | ev_msg.vendor_code = KEV_VENDOR_APPLE; | |
7513 | ev_msg.kev_class = KEV_NETWORK_CLASS; | |
7514 | ev_msg.kev_subclass = KEV_NETPOLICY_SUBCLASS; | |
7515 | ev_msg.event_code = ev_code; | |
7516 | ||
7517 | ev_msg.dv[0].data_ptr = ev_data; | |
7518 | ev_msg.dv[0].data_length = ev_datalen; | |
7519 | ||
7520 | kev_post_msg(&ev_msg); | |
7521 | } | |
fe8ab488 A |
7522 | |
7523 | void | |
3e170ce0 | 7524 | socket_post_kev_msg(uint32_t ev_code, |
fe8ab488 A |
7525 | struct kev_socket_event_data *ev_data, |
7526 | uint32_t ev_datalen) | |
7527 | { | |
7528 | struct kev_msg ev_msg; | |
7529 | ||
7530 | bzero(&ev_msg, sizeof(ev_msg)); | |
7531 | ev_msg.vendor_code = KEV_VENDOR_APPLE; | |
7532 | ev_msg.kev_class = KEV_NETWORK_CLASS; | |
7533 | ev_msg.kev_subclass = KEV_SOCKET_SUBCLASS; | |
7534 | ev_msg.event_code = ev_code; | |
7535 | ||
7536 | ev_msg.dv[0].data_ptr = ev_data; | |
7537 | ev_msg.dv[0]. data_length = ev_datalen; | |
7538 | ||
7539 | kev_post_msg(&ev_msg); | |
7540 | } | |
7541 | ||
7542 | void | |
7543 | socket_post_kev_msg_closed(struct socket *so) | |
7544 | { | |
7545 | struct kev_socket_closed ev; | |
7546 | struct sockaddr *socksa = NULL, *peersa = NULL; | |
7547 | int err; | |
7548 | bzero(&ev, sizeof(ev)); | |
7549 | err = (*so->so_proto->pr_usrreqs->pru_sockaddr)(so, &socksa); | |
7550 | if (err == 0) { | |
7551 | err = (*so->so_proto->pr_usrreqs->pru_peeraddr)(so, | |
7552 | &peersa); | |
7553 | if (err == 0) { | |
7554 | memcpy(&ev.ev_data.kev_sockname, socksa, | |
7555 | min(socksa->sa_len, | |
7556 | sizeof (ev.ev_data.kev_sockname))); | |
7557 | memcpy(&ev.ev_data.kev_peername, peersa, | |
7558 | min(peersa->sa_len, | |
7559 | sizeof (ev.ev_data.kev_peername))); | |
7560 | socket_post_kev_msg(KEV_SOCKET_CLOSED, | |
3e170ce0 | 7561 | &ev.ev_data, sizeof (ev)); |
fe8ab488 A |
7562 | } |
7563 | } | |
7564 | if (socksa != NULL) | |
7565 | FREE(socksa, M_SONAME); | |
7566 | if (peersa != NULL) | |
7567 | FREE(peersa, M_SONAME); | |
7568 | } |