sco_socket.c revision 1.26
1 1.26 rtr /* $NetBSD: sco_socket.c,v 1.26 2014/07/23 13:17:18 rtr Exp $ */ 2 1.1 gdamore 3 1.1 gdamore /*- 4 1.1 gdamore * Copyright (c) 2006 Itronix Inc. 5 1.1 gdamore * All rights reserved. 6 1.1 gdamore * 7 1.1 gdamore * Redistribution and use in source and binary forms, with or without 8 1.1 gdamore * modification, are permitted provided that the following conditions 9 1.1 gdamore * are met: 10 1.1 gdamore * 1. Redistributions of source code must retain the above copyright 11 1.1 gdamore * notice, this list of conditions and the following disclaimer. 12 1.1 gdamore * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 gdamore * notice, this list of conditions and the following disclaimer in the 14 1.1 gdamore * documentation and/or other materials provided with the distribution. 15 1.1 gdamore * 3. The name of Itronix Inc. may not be used to endorse 16 1.1 gdamore * or promote products derived from this software without specific 17 1.1 gdamore * prior written permission. 18 1.1 gdamore * 19 1.1 gdamore * THIS SOFTWARE IS PROVIDED BY ITRONIX INC. ``AS IS'' AND 20 1.1 gdamore * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 gdamore * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 gdamore * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL ITRONIX INC. BE LIABLE FOR ANY 23 1.1 gdamore * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 24 1.1 gdamore * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 25 1.1 gdamore * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND 26 1.1 gdamore * ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 gdamore * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 gdamore * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 gdamore * POSSIBILITY OF SUCH DAMAGE. 30 1.1 gdamore */ 31 1.1 gdamore 32 1.1 gdamore #include <sys/cdefs.h> 33 1.26 rtr __KERNEL_RCSID(0, "$NetBSD: sco_socket.c,v 1.26 2014/07/23 13:17:18 rtr Exp $"); 34 1.8 plunky 35 1.8 plunky /* load symbolic names */ 36 1.8 plunky #ifdef BLUETOOTH_DEBUG 37 1.8 plunky #define PRUREQUESTS 38 1.8 plunky #define PRCOREQUESTS 39 1.8 plunky #endif 40 1.1 gdamore 41 1.1 gdamore #include <sys/param.h> 42 1.1 gdamore #include <sys/domain.h> 43 1.1 gdamore #include <sys/kernel.h> 44 1.1 gdamore #include <sys/mbuf.h> 45 1.1 gdamore #include <sys/proc.h> 46 1.1 gdamore #include <sys/protosw.h> 47 1.1 gdamore #include <sys/socket.h> 48 1.1 gdamore #include <sys/socketvar.h> 49 1.1 gdamore #include <sys/systm.h> 50 1.1 gdamore 51 1.1 gdamore #include <netbt/bluetooth.h> 52 1.1 gdamore #include <netbt/hci.h> 53 1.1 gdamore #include <netbt/sco.h> 54 1.1 gdamore 55 1.1 gdamore /******************************************************************************* 56 1.1 gdamore * 57 1.1 gdamore * SCO SOCK_SEQPACKET sockets - low latency audio data 58 1.1 gdamore */ 59 1.1 gdamore 60 1.1 gdamore static void sco_connecting(void *); 61 1.1 gdamore static void sco_connected(void *); 62 1.1 gdamore static void sco_disconnected(void *, int); 63 1.1 gdamore static void *sco_newconn(void *, struct sockaddr_bt *, struct sockaddr_bt *); 64 1.1 gdamore static void sco_complete(void *, int); 65 1.9 plunky static void sco_linkmode(void *, int); 66 1.1 gdamore static void sco_input(void *, struct mbuf *); 67 1.1 gdamore 68 1.1 gdamore static const struct btproto sco_proto = { 69 1.1 gdamore sco_connecting, 70 1.1 gdamore sco_connected, 71 1.1 gdamore sco_disconnected, 72 1.1 gdamore sco_newconn, 73 1.1 gdamore sco_complete, 74 1.9 plunky sco_linkmode, 75 1.1 gdamore sco_input, 76 1.1 gdamore }; 77 1.1 gdamore 78 1.1 gdamore int sco_sendspace = 4096; 79 1.1 gdamore int sco_recvspace = 4096; 80 1.1 gdamore 81 1.14 rmind static int 82 1.16 rmind sco_attach(struct socket *so, int proto) 83 1.14 rmind { 84 1.14 rmind int error; 85 1.14 rmind 86 1.14 rmind KASSERT(so->so_pcb == NULL); 87 1.14 rmind 88 1.14 rmind if (so->so_lock == NULL) { 89 1.14 rmind mutex_obj_hold(bt_lock); 90 1.14 rmind so->so_lock = bt_lock; 91 1.14 rmind solock(so); 92 1.14 rmind } 93 1.14 rmind KASSERT(solocked(so)); 94 1.14 rmind 95 1.14 rmind error = soreserve(so, sco_sendspace, sco_recvspace); 96 1.14 rmind if (error) { 97 1.14 rmind return error; 98 1.14 rmind } 99 1.16 rmind return sco_attach_pcb((struct sco_pcb **)&so->so_pcb, &sco_proto, so); 100 1.14 rmind } 101 1.14 rmind 102 1.14 rmind static void 103 1.16 rmind sco_detach(struct socket *so) 104 1.14 rmind { 105 1.15 martin KASSERT(so->so_pcb != NULL); 106 1.16 rmind sco_detach_pcb((struct sco_pcb **)&so->so_pcb); 107 1.14 rmind KASSERT(so->so_pcb == NULL); 108 1.14 rmind } 109 1.14 rmind 110 1.18 rtr static int 111 1.25 rtr sco_accept(struct socket *so, struct mbuf *nam) 112 1.25 rtr { 113 1.25 rtr struct sco_pcb *pcb = so->so_pcb; 114 1.25 rtr struct sockaddr_bt *sa; 115 1.25 rtr 116 1.25 rtr KASSERT(solocked(so)); 117 1.25 rtr KASSERT(nam != NULL); 118 1.25 rtr 119 1.25 rtr if (pcb == NULL) 120 1.25 rtr return EINVAL; 121 1.25 rtr 122 1.25 rtr sa = mtod(nam, struct sockaddr_bt *); 123 1.25 rtr nam->m_len = sizeof(struct sockaddr_bt); 124 1.25 rtr return sco_peeraddr_pcb(pcb, sa); 125 1.25 rtr } 126 1.25 rtr 127 1.25 rtr static int 128 1.23 rtr sco_ioctl(struct socket *so, u_long cmd, void *nam, struct ifnet *ifp) 129 1.18 rtr { 130 1.18 rtr return EOPNOTSUPP; 131 1.18 rtr } 132 1.18 rtr 133 1.20 rtr static int 134 1.20 rtr sco_stat(struct socket *so, struct stat *ub) 135 1.20 rtr { 136 1.23 rtr KASSERT(solocked(so)); 137 1.23 rtr 138 1.22 rtr return 0; 139 1.20 rtr } 140 1.20 rtr 141 1.24 rtr static int 142 1.24 rtr sco_peeraddr(struct socket *so, struct mbuf *nam) 143 1.24 rtr { 144 1.24 rtr struct sco_pcb *pcb = (struct sco_pcb *)so->so_pcb; 145 1.24 rtr struct sockaddr_bt *sa; 146 1.24 rtr 147 1.24 rtr KASSERT(solocked(so)); 148 1.24 rtr KASSERT(pcb != NULL); 149 1.24 rtr KASSERT(nam != NULL); 150 1.24 rtr 151 1.24 rtr sa = mtod(nam, struct sockaddr_bt *); 152 1.24 rtr nam->m_len = sizeof(struct sockaddr_bt); 153 1.24 rtr return sco_peeraddr_pcb(pcb, sa); 154 1.24 rtr } 155 1.24 rtr 156 1.24 rtr static int 157 1.24 rtr sco_sockaddr(struct socket *so, struct mbuf *nam) 158 1.24 rtr { 159 1.24 rtr struct sco_pcb *pcb = (struct sco_pcb *)so->so_pcb; 160 1.24 rtr struct sockaddr_bt *sa; 161 1.24 rtr 162 1.24 rtr KASSERT(solocked(so)); 163 1.24 rtr KASSERT(pcb != NULL); 164 1.24 rtr KASSERT(nam != NULL); 165 1.24 rtr 166 1.24 rtr sa = mtod(nam, struct sockaddr_bt *); 167 1.24 rtr nam->m_len = sizeof(struct sockaddr_bt); 168 1.24 rtr return sco_sockaddr_pcb(pcb, sa); 169 1.24 rtr } 170 1.24 rtr 171 1.26 rtr static int 172 1.26 rtr sco_recvoob(struct socket *so, struct mbuf *m, int flags) 173 1.26 rtr { 174 1.26 rtr KASSERT(solocked(so)); 175 1.26 rtr 176 1.26 rtr return EOPNOTSUPP; 177 1.26 rtr } 178 1.26 rtr 179 1.26 rtr static int 180 1.26 rtr sco_sendoob(struct socket *so, struct mbuf *m, struct mbuf *control) 181 1.26 rtr { 182 1.26 rtr KASSERT(solocked(so)); 183 1.26 rtr 184 1.26 rtr if (m) 185 1.26 rtr m_freem(m); 186 1.26 rtr if (control) 187 1.26 rtr m_freem(control); 188 1.26 rtr 189 1.26 rtr return EOPNOTSUPP; 190 1.26 rtr } 191 1.26 rtr 192 1.1 gdamore /* 193 1.1 gdamore * User Request. 194 1.1 gdamore * up is socket 195 1.18 rtr * m is optional mbuf chain containing message 196 1.18 rtr * nam is optional mbuf chain containing an address 197 1.1 gdamore * ctl is optional mbuf chain containing socket options 198 1.1 gdamore * l is pointer to process requesting action (if any) 199 1.1 gdamore * 200 1.1 gdamore * we are responsible for disposing of m and ctl if 201 1.1 gdamore * they are mbuf chains 202 1.1 gdamore */ 203 1.13 rmind static int 204 1.1 gdamore sco_usrreq(struct socket *up, int req, struct mbuf *m, 205 1.5 christos struct mbuf *nam, struct mbuf *ctl, struct lwp *l) 206 1.1 gdamore { 207 1.1 gdamore struct sco_pcb *pcb = (struct sco_pcb *)up->so_pcb; 208 1.1 gdamore struct sockaddr_bt *sa; 209 1.1 gdamore struct mbuf *m0; 210 1.1 gdamore int err = 0; 211 1.1 gdamore 212 1.1 gdamore DPRINTFN(2, "%s\n", prurequests[req]); 213 1.14 rmind KASSERT(req != PRU_ATTACH); 214 1.14 rmind KASSERT(req != PRU_DETACH); 215 1.25 rtr KASSERT(req != PRU_ACCEPT); 216 1.18 rtr KASSERT(req != PRU_CONTROL); 217 1.20 rtr KASSERT(req != PRU_SENSE); 218 1.24 rtr KASSERT(req != PRU_PEERADDR); 219 1.24 rtr KASSERT(req != PRU_SOCKADDR); 220 1.26 rtr KASSERT(req != PRU_RCVOOB); 221 1.26 rtr KASSERT(req != PRU_SENDOOB); 222 1.1 gdamore 223 1.1 gdamore switch(req) { 224 1.1 gdamore case PRU_PURGEIF: 225 1.1 gdamore return EOPNOTSUPP; 226 1.1 gdamore } 227 1.1 gdamore 228 1.1 gdamore /* anything after here *requires* a pcb */ 229 1.1 gdamore if (pcb == NULL) { 230 1.1 gdamore err = EINVAL; 231 1.1 gdamore goto release; 232 1.1 gdamore } 233 1.1 gdamore 234 1.1 gdamore switch(req) { 235 1.1 gdamore case PRU_DISCONNECT: 236 1.1 gdamore soisdisconnecting(up); 237 1.1 gdamore return sco_disconnect(pcb, up->so_linger); 238 1.1 gdamore 239 1.1 gdamore case PRU_ABORT: 240 1.1 gdamore sco_disconnect(pcb, 0); 241 1.1 gdamore soisdisconnected(up); 242 1.16 rmind sco_detach(up); 243 1.14 rmind return 0; 244 1.1 gdamore 245 1.1 gdamore case PRU_BIND: 246 1.7 plunky KASSERT(nam != NULL); 247 1.1 gdamore sa = mtod(nam, struct sockaddr_bt *); 248 1.1 gdamore 249 1.1 gdamore if (sa->bt_len != sizeof(struct sockaddr_bt)) 250 1.1 gdamore return EINVAL; 251 1.1 gdamore 252 1.1 gdamore if (sa->bt_family != AF_BLUETOOTH) 253 1.1 gdamore return EAFNOSUPPORT; 254 1.1 gdamore 255 1.1 gdamore return sco_bind(pcb, sa); 256 1.1 gdamore 257 1.1 gdamore case PRU_CONNECT: 258 1.7 plunky KASSERT(nam != NULL); 259 1.1 gdamore sa = mtod(nam, struct sockaddr_bt *); 260 1.1 gdamore 261 1.1 gdamore if (sa->bt_len != sizeof(struct sockaddr_bt)) 262 1.1 gdamore return EINVAL; 263 1.1 gdamore 264 1.1 gdamore if (sa->bt_family != AF_BLUETOOTH) 265 1.1 gdamore return EAFNOSUPPORT; 266 1.1 gdamore 267 1.1 gdamore soisconnecting(up); 268 1.1 gdamore return sco_connect(pcb, sa); 269 1.1 gdamore 270 1.1 gdamore case PRU_SHUTDOWN: 271 1.1 gdamore socantsendmore(up); 272 1.1 gdamore break; 273 1.1 gdamore 274 1.1 gdamore case PRU_SEND: 275 1.7 plunky KASSERT(m != NULL); 276 1.1 gdamore if (m->m_pkthdr.len == 0) 277 1.1 gdamore break; 278 1.1 gdamore 279 1.1 gdamore if (m->m_pkthdr.len > pcb->sp_mtu) { 280 1.1 gdamore err = EMSGSIZE; 281 1.1 gdamore break; 282 1.1 gdamore } 283 1.1 gdamore 284 1.1 gdamore m0 = m_copypacket(m, M_DONTWAIT); 285 1.1 gdamore if (m0 == NULL) { 286 1.1 gdamore err = ENOMEM; 287 1.1 gdamore break; 288 1.1 gdamore } 289 1.1 gdamore 290 1.1 gdamore if (ctl) /* no use for that */ 291 1.1 gdamore m_freem(ctl); 292 1.1 gdamore 293 1.1 gdamore sbappendrecord(&up->so_snd, m); 294 1.1 gdamore return sco_send(pcb, m0); 295 1.1 gdamore 296 1.1 gdamore case PRU_RCVD: 297 1.1 gdamore return EOPNOTSUPP; /* (no release) */ 298 1.1 gdamore 299 1.2 tron case PRU_LISTEN: 300 1.2 tron return sco_listen(pcb); 301 1.2 tron 302 1.1 gdamore case PRU_CONNECT2: 303 1.1 gdamore case PRU_FASTTIMO: 304 1.1 gdamore case PRU_SLOWTIMO: 305 1.1 gdamore case PRU_PROTORCV: 306 1.1 gdamore case PRU_PROTOSEND: 307 1.1 gdamore err = EOPNOTSUPP; 308 1.1 gdamore break; 309 1.1 gdamore 310 1.1 gdamore default: 311 1.1 gdamore UNKNOWN(req); 312 1.1 gdamore err = EOPNOTSUPP; 313 1.1 gdamore break; 314 1.1 gdamore } 315 1.1 gdamore 316 1.1 gdamore release: 317 1.1 gdamore if (m) m_freem(m); 318 1.1 gdamore if (ctl) m_freem(ctl); 319 1.1 gdamore return err; 320 1.1 gdamore } 321 1.1 gdamore 322 1.1 gdamore /* 323 1.1 gdamore * get/set socket options 324 1.1 gdamore */ 325 1.1 gdamore int 326 1.11 plunky sco_ctloutput(int req, struct socket *so, struct sockopt *sopt) 327 1.1 gdamore { 328 1.1 gdamore struct sco_pcb *pcb = (struct sco_pcb *)so->so_pcb; 329 1.1 gdamore int err = 0; 330 1.1 gdamore 331 1.1 gdamore DPRINTFN(2, "req %s\n", prcorequests[req]); 332 1.1 gdamore 333 1.1 gdamore if (pcb == NULL) 334 1.1 gdamore return EINVAL; 335 1.1 gdamore 336 1.11 plunky if (sopt->sopt_level != BTPROTO_SCO) 337 1.6 plunky return ENOPROTOOPT; 338 1.1 gdamore 339 1.1 gdamore switch(req) { 340 1.1 gdamore case PRCO_GETOPT: 341 1.11 plunky err = sco_getopt(pcb, sopt); 342 1.1 gdamore break; 343 1.1 gdamore 344 1.1 gdamore case PRCO_SETOPT: 345 1.11 plunky err = sco_setopt(pcb, sopt); 346 1.1 gdamore break; 347 1.1 gdamore 348 1.1 gdamore default: 349 1.6 plunky err = ENOPROTOOPT; 350 1.1 gdamore break; 351 1.1 gdamore } 352 1.1 gdamore 353 1.1 gdamore return err; 354 1.1 gdamore } 355 1.1 gdamore 356 1.1 gdamore /***************************************************************************** 357 1.1 gdamore * 358 1.1 gdamore * SCO Protocol socket callbacks 359 1.1 gdamore * 360 1.1 gdamore */ 361 1.1 gdamore static void 362 1.1 gdamore sco_connecting(void *arg) 363 1.1 gdamore { 364 1.1 gdamore struct socket *so = arg; 365 1.1 gdamore 366 1.1 gdamore DPRINTF("Connecting\n"); 367 1.1 gdamore soisconnecting(so); 368 1.1 gdamore } 369 1.1 gdamore 370 1.1 gdamore static void 371 1.1 gdamore sco_connected(void *arg) 372 1.1 gdamore { 373 1.1 gdamore struct socket *so = arg; 374 1.1 gdamore 375 1.1 gdamore DPRINTF("Connected\n"); 376 1.1 gdamore soisconnected(so); 377 1.1 gdamore } 378 1.1 gdamore 379 1.1 gdamore static void 380 1.1 gdamore sco_disconnected(void *arg, int err) 381 1.1 gdamore { 382 1.1 gdamore struct socket *so = arg; 383 1.1 gdamore 384 1.1 gdamore DPRINTF("Disconnected (%d)\n", err); 385 1.1 gdamore 386 1.1 gdamore so->so_error = err; 387 1.1 gdamore soisdisconnected(so); 388 1.1 gdamore } 389 1.1 gdamore 390 1.1 gdamore static void * 391 1.5 christos sco_newconn(void *arg, struct sockaddr_bt *laddr, 392 1.5 christos struct sockaddr_bt *raddr) 393 1.1 gdamore { 394 1.2 tron struct socket *so = arg; 395 1.1 gdamore 396 1.3 plunky DPRINTF("New Connection\n"); 397 1.12 rmind so = sonewconn(so, false); 398 1.2 tron if (so == NULL) 399 1.2 tron return NULL; 400 1.2 tron 401 1.2 tron soisconnecting(so); 402 1.2 tron return so->so_pcb; 403 1.1 gdamore } 404 1.1 gdamore 405 1.1 gdamore static void 406 1.1 gdamore sco_complete(void *arg, int num) 407 1.1 gdamore { 408 1.1 gdamore struct socket *so = arg; 409 1.1 gdamore 410 1.1 gdamore while (num-- > 0) 411 1.1 gdamore sbdroprecord(&so->so_snd); 412 1.1 gdamore 413 1.1 gdamore sowwakeup(so); 414 1.1 gdamore } 415 1.1 gdamore 416 1.1 gdamore static void 417 1.9 plunky sco_linkmode(void *arg, int mode) 418 1.9 plunky { 419 1.9 plunky } 420 1.9 plunky 421 1.9 plunky static void 422 1.1 gdamore sco_input(void *arg, struct mbuf *m) 423 1.1 gdamore { 424 1.1 gdamore struct socket *so = arg; 425 1.1 gdamore 426 1.1 gdamore /* 427 1.1 gdamore * since this data is time sensitive, if the buffer 428 1.1 gdamore * is full we just dump data until the latest one 429 1.1 gdamore * will fit. 430 1.1 gdamore */ 431 1.1 gdamore 432 1.1 gdamore while (m->m_pkthdr.len > sbspace(&so->so_rcv)) 433 1.1 gdamore sbdroprecord(&so->so_rcv); 434 1.1 gdamore 435 1.1 gdamore DPRINTFN(10, "received %d bytes\n", m->m_pkthdr.len); 436 1.1 gdamore 437 1.1 gdamore sbappendrecord(&so->so_rcv, m); 438 1.1 gdamore sorwakeup(so); 439 1.1 gdamore } 440 1.13 rmind 441 1.17 rmind PR_WRAP_USRREQS(sco) 442 1.13 rmind 443 1.17 rmind #define sco_attach sco_attach_wrapper 444 1.17 rmind #define sco_detach sco_detach_wrapper 445 1.25 rtr #define sco_accept sco_accept_wrapper 446 1.18 rtr #define sco_ioctl sco_ioctl_wrapper 447 1.20 rtr #define sco_stat sco_stat_wrapper 448 1.24 rtr #define sco_peeraddr sco_peeraddr_wrapper 449 1.24 rtr #define sco_sockaddr sco_sockaddr_wrapper 450 1.26 rtr #define sco_recvoob sco_recvoob_wrapper 451 1.26 rtr #define sco_sendoob sco_sendoob_wrapper 452 1.13 rmind #define sco_usrreq sco_usrreq_wrapper 453 1.13 rmind 454 1.13 rmind const struct pr_usrreqs sco_usrreqs = { 455 1.16 rmind .pr_attach = sco_attach, 456 1.16 rmind .pr_detach = sco_detach, 457 1.25 rtr .pr_accept = sco_accept, 458 1.18 rtr .pr_ioctl = sco_ioctl, 459 1.20 rtr .pr_stat = sco_stat, 460 1.24 rtr .pr_peeraddr = sco_peeraddr, 461 1.24 rtr .pr_sockaddr = sco_sockaddr, 462 1.26 rtr .pr_recvoob = sco_recvoob, 463 1.26 rtr .pr_sendoob = sco_sendoob, 464 1.13 rmind .pr_generic = sco_usrreq, 465 1.13 rmind }; 466
Indexes created Tue Sep 23 20:09:58 GMT 2025