18348SEric.Yu@Sun.COM /* 28348SEric.Yu@Sun.COM * CDDL HEADER START 38348SEric.Yu@Sun.COM * 48348SEric.Yu@Sun.COM * The contents of this file are subject to the terms of the 58348SEric.Yu@Sun.COM * Common Development and Distribution License (the "License"). 68348SEric.Yu@Sun.COM * You may not use this file except in compliance with the License. 78348SEric.Yu@Sun.COM * 88348SEric.Yu@Sun.COM * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 98348SEric.Yu@Sun.COM * or http://www.opensolaris.org/os/licensing. 108348SEric.Yu@Sun.COM * See the License for the specific language governing permissions 118348SEric.Yu@Sun.COM * and limitations under the License. 128348SEric.Yu@Sun.COM * 138348SEric.Yu@Sun.COM * When distributing Covered Code, include this CDDL HEADER in each 148348SEric.Yu@Sun.COM * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 158348SEric.Yu@Sun.COM * If applicable, add the following below this CDDL HEADER, with the 168348SEric.Yu@Sun.COM * fields enclosed by brackets "[]" replaced with your own identifying 178348SEric.Yu@Sun.COM * information: Portions Copyright [yyyy] [name of copyright owner] 188348SEric.Yu@Sun.COM * 198348SEric.Yu@Sun.COM * CDDL HEADER END 208348SEric.Yu@Sun.COM */ 218348SEric.Yu@Sun.COM 228348SEric.Yu@Sun.COM /* 238477SRao.Shoaib@Sun.COM * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 248348SEric.Yu@Sun.COM * Use is subject to license terms. 258348SEric.Yu@Sun.COM */ 268348SEric.Yu@Sun.COM 278348SEric.Yu@Sun.COM #include <sys/types.h> 288348SEric.Yu@Sun.COM #include <sys/param.h> 298348SEric.Yu@Sun.COM #include <sys/signal.h> 308348SEric.Yu@Sun.COM #include <sys/cmn_err.h> 318348SEric.Yu@Sun.COM 328348SEric.Yu@Sun.COM #include <sys/stropts.h> 338348SEric.Yu@Sun.COM #include <sys/socket.h> 348348SEric.Yu@Sun.COM #include <sys/socketvar.h> 358348SEric.Yu@Sun.COM #include <sys/sockio.h> 368348SEric.Yu@Sun.COM #include <sys/strsubr.h> 378348SEric.Yu@Sun.COM #include <sys/strsun.h> 388348SEric.Yu@Sun.COM #include <sys/atomic.h> 398963SAnders.Persson@Sun.COM #include <sys/tihdr.h> 408348SEric.Yu@Sun.COM 418348SEric.Yu@Sun.COM #include <fs/sockfs/sockcommon.h> 428348SEric.Yu@Sun.COM #include <fs/sockfs/socktpi.h> 439491SAnders.Persson@Sun.COM #include <fs/sockfs/sodirect.h> 448348SEric.Yu@Sun.COM #include <sys/ddi.h> 458348SEric.Yu@Sun.COM #include <inet/ip.h> 468348SEric.Yu@Sun.COM #include <sys/time.h> 478348SEric.Yu@Sun.COM #include <sys/cmn_err.h> 488348SEric.Yu@Sun.COM 498348SEric.Yu@Sun.COM #ifdef SOCK_TEST 508348SEric.Yu@Sun.COM extern int do_useracc; 518348SEric.Yu@Sun.COM extern clock_t sock_test_timelimit; 528348SEric.Yu@Sun.COM #endif /* SOCK_TEST */ 538348SEric.Yu@Sun.COM 548348SEric.Yu@Sun.COM #define MBLK_PULL_LEN 64 558348SEric.Yu@Sun.COM uint32_t so_mblk_pull_len = MBLK_PULL_LEN; 568348SEric.Yu@Sun.COM 578348SEric.Yu@Sun.COM #ifdef DEBUG 588348SEric.Yu@Sun.COM boolean_t so_debug_length = B_FALSE; 598348SEric.Yu@Sun.COM static boolean_t so_check_length(sonode_t *so); 608348SEric.Yu@Sun.COM #endif 618348SEric.Yu@Sun.COM 628348SEric.Yu@Sun.COM int 638348SEric.Yu@Sun.COM so_acceptq_enqueue_locked(struct sonode *so, struct sonode *nso) 648348SEric.Yu@Sun.COM { 658348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_acceptq_lock)); 668348SEric.Yu@Sun.COM ASSERT(nso->so_acceptq_next == NULL); 678348SEric.Yu@Sun.COM 688348SEric.Yu@Sun.COM *so->so_acceptq_tail = nso; 698348SEric.Yu@Sun.COM so->so_acceptq_tail = &nso->so_acceptq_next; 708348SEric.Yu@Sun.COM so->so_acceptq_len++; 718348SEric.Yu@Sun.COM 728348SEric.Yu@Sun.COM /* Wakeup a single consumer */ 738348SEric.Yu@Sun.COM cv_signal(&so->so_acceptq_cv); 748348SEric.Yu@Sun.COM 758348SEric.Yu@Sun.COM return (so->so_acceptq_len); 768348SEric.Yu@Sun.COM } 778348SEric.Yu@Sun.COM 788348SEric.Yu@Sun.COM /* 798348SEric.Yu@Sun.COM * int so_acceptq_enqueue(struct sonode *so, struct sonode *nso) 808348SEric.Yu@Sun.COM * 818348SEric.Yu@Sun.COM * Enqueue an incoming connection on a listening socket. 828348SEric.Yu@Sun.COM * 838348SEric.Yu@Sun.COM * Arguments: 848348SEric.Yu@Sun.COM * so - listening socket 858348SEric.Yu@Sun.COM * nso - new connection 868348SEric.Yu@Sun.COM * 878348SEric.Yu@Sun.COM * Returns: 888348SEric.Yu@Sun.COM * Number of queued connections, including the new connection 898348SEric.Yu@Sun.COM */ 908348SEric.Yu@Sun.COM int 918348SEric.Yu@Sun.COM so_acceptq_enqueue(struct sonode *so, struct sonode *nso) 928348SEric.Yu@Sun.COM { 938348SEric.Yu@Sun.COM int conns; 948348SEric.Yu@Sun.COM 958348SEric.Yu@Sun.COM mutex_enter(&so->so_acceptq_lock); 968348SEric.Yu@Sun.COM conns = so_acceptq_enqueue_locked(so, nso); 978348SEric.Yu@Sun.COM mutex_exit(&so->so_acceptq_lock); 988348SEric.Yu@Sun.COM 998348SEric.Yu@Sun.COM return (conns); 1008348SEric.Yu@Sun.COM } 1018348SEric.Yu@Sun.COM 1028348SEric.Yu@Sun.COM static int 1038348SEric.Yu@Sun.COM so_acceptq_dequeue_locked(struct sonode *so, boolean_t dontblock, 1048348SEric.Yu@Sun.COM struct sonode **nsop) 1058348SEric.Yu@Sun.COM { 1068348SEric.Yu@Sun.COM struct sonode *nso = NULL; 1078348SEric.Yu@Sun.COM 1088348SEric.Yu@Sun.COM *nsop = NULL; 1098348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_acceptq_lock)); 1108348SEric.Yu@Sun.COM while ((nso = so->so_acceptq_head) == NULL) { 1118348SEric.Yu@Sun.COM /* 1128348SEric.Yu@Sun.COM * No need to check so_error here, because it is not 1138348SEric.Yu@Sun.COM * possible for a listening socket to be reset or otherwise 1148348SEric.Yu@Sun.COM * disconnected. 1158348SEric.Yu@Sun.COM * 1168348SEric.Yu@Sun.COM * So now we just need check if it's ok to wait. 1178348SEric.Yu@Sun.COM */ 1188348SEric.Yu@Sun.COM if (dontblock) 1198348SEric.Yu@Sun.COM return (EWOULDBLOCK); 1208348SEric.Yu@Sun.COM if (so->so_state & (SS_CLOSING | SS_FALLBACK_PENDING)) 1218348SEric.Yu@Sun.COM return (EINTR); 1228348SEric.Yu@Sun.COM 1238348SEric.Yu@Sun.COM if (cv_wait_sig_swap(&so->so_acceptq_cv, 1248348SEric.Yu@Sun.COM &so->so_acceptq_lock) == 0) 1258348SEric.Yu@Sun.COM return (EINTR); 1268348SEric.Yu@Sun.COM } 1278348SEric.Yu@Sun.COM 1288348SEric.Yu@Sun.COM ASSERT(nso != NULL); 1298348SEric.Yu@Sun.COM so->so_acceptq_head = nso->so_acceptq_next; 1308348SEric.Yu@Sun.COM nso->so_acceptq_next = NULL; 1318348SEric.Yu@Sun.COM 1328348SEric.Yu@Sun.COM if (so->so_acceptq_head == NULL) { 1338348SEric.Yu@Sun.COM ASSERT(so->so_acceptq_tail == &nso->so_acceptq_next); 1348348SEric.Yu@Sun.COM so->so_acceptq_tail = &so->so_acceptq_head; 1358348SEric.Yu@Sun.COM } 1368348SEric.Yu@Sun.COM ASSERT(so->so_acceptq_len > 0); 1378348SEric.Yu@Sun.COM --so->so_acceptq_len; 1388348SEric.Yu@Sun.COM 1398348SEric.Yu@Sun.COM *nsop = nso; 1408348SEric.Yu@Sun.COM 1418348SEric.Yu@Sun.COM return (0); 1428348SEric.Yu@Sun.COM } 1438348SEric.Yu@Sun.COM 1448348SEric.Yu@Sun.COM /* 1458348SEric.Yu@Sun.COM * int so_acceptq_dequeue(struct sonode *, boolean_t, struct sonode **) 1468348SEric.Yu@Sun.COM * 1478348SEric.Yu@Sun.COM * Pulls a connection off of the accept queue. 1488348SEric.Yu@Sun.COM * 1498348SEric.Yu@Sun.COM * Arguments: 1508348SEric.Yu@Sun.COM * so - listening socket 1518348SEric.Yu@Sun.COM * dontblock - indicate whether it's ok to sleep if there are no 1528348SEric.Yu@Sun.COM * connections on the queue 1538348SEric.Yu@Sun.COM * nsop - Value-return argument 1548348SEric.Yu@Sun.COM * 1558348SEric.Yu@Sun.COM * Return values: 1568348SEric.Yu@Sun.COM * 0 when a connection is successfully dequeued, in which case nsop 1578348SEric.Yu@Sun.COM * is set to point to the new connection. Upon failure a non-zero 1588348SEric.Yu@Sun.COM * value is returned, and the value of nsop is set to NULL. 1598348SEric.Yu@Sun.COM * 1608348SEric.Yu@Sun.COM * Note: 1618348SEric.Yu@Sun.COM * so_acceptq_dequeue() may return prematurly if the socket is falling 1628348SEric.Yu@Sun.COM * back to TPI. 1638348SEric.Yu@Sun.COM */ 1648348SEric.Yu@Sun.COM int 1658348SEric.Yu@Sun.COM so_acceptq_dequeue(struct sonode *so, boolean_t dontblock, 1668348SEric.Yu@Sun.COM struct sonode **nsop) 1678348SEric.Yu@Sun.COM { 1688348SEric.Yu@Sun.COM int error; 1698348SEric.Yu@Sun.COM 1708348SEric.Yu@Sun.COM mutex_enter(&so->so_acceptq_lock); 1718348SEric.Yu@Sun.COM error = so_acceptq_dequeue_locked(so, dontblock, nsop); 1728348SEric.Yu@Sun.COM mutex_exit(&so->so_acceptq_lock); 1738348SEric.Yu@Sun.COM 1748348SEric.Yu@Sun.COM return (error); 1758348SEric.Yu@Sun.COM } 1768348SEric.Yu@Sun.COM 1778348SEric.Yu@Sun.COM /* 1788348SEric.Yu@Sun.COM * void so_acceptq_flush(struct sonode *so) 1798348SEric.Yu@Sun.COM * 1808348SEric.Yu@Sun.COM * Removes all pending connections from a listening socket, and 1818348SEric.Yu@Sun.COM * frees the associated resources. 1828348SEric.Yu@Sun.COM * 1838348SEric.Yu@Sun.COM * Arguments 1848348SEric.Yu@Sun.COM * so - listening socket 1858348SEric.Yu@Sun.COM * 1868348SEric.Yu@Sun.COM * Return values: 1878348SEric.Yu@Sun.COM * None. 1888348SEric.Yu@Sun.COM * 1898348SEric.Yu@Sun.COM * Note: 1908348SEric.Yu@Sun.COM * The caller has to ensure that no calls to so_acceptq_enqueue() or 1918348SEric.Yu@Sun.COM * so_acceptq_dequeue() occur while the accept queue is being flushed. 1928348SEric.Yu@Sun.COM * So either the socket needs to be in a state where no operations 1938348SEric.Yu@Sun.COM * would come in, or so_lock needs to be obtained. 1948348SEric.Yu@Sun.COM */ 1958348SEric.Yu@Sun.COM void 1968348SEric.Yu@Sun.COM so_acceptq_flush(struct sonode *so) 1978348SEric.Yu@Sun.COM { 1988348SEric.Yu@Sun.COM struct sonode *nso; 1998348SEric.Yu@Sun.COM 2008348SEric.Yu@Sun.COM nso = so->so_acceptq_head; 2018348SEric.Yu@Sun.COM 2028348SEric.Yu@Sun.COM while (nso != NULL) { 2038348SEric.Yu@Sun.COM struct sonode *nnso = NULL; 2048348SEric.Yu@Sun.COM 2058348SEric.Yu@Sun.COM nnso = nso->so_acceptq_next; 2068348SEric.Yu@Sun.COM nso->so_acceptq_next = NULL; 2078348SEric.Yu@Sun.COM /* 2088348SEric.Yu@Sun.COM * Since the socket is on the accept queue, there can 2098348SEric.Yu@Sun.COM * only be one reference. We drop the reference and 2108348SEric.Yu@Sun.COM * just blow off the socket. 2118348SEric.Yu@Sun.COM */ 2128348SEric.Yu@Sun.COM ASSERT(nso->so_count == 1); 2138348SEric.Yu@Sun.COM nso->so_count--; 2148348SEric.Yu@Sun.COM socket_destroy(nso); 2158348SEric.Yu@Sun.COM nso = nnso; 2168348SEric.Yu@Sun.COM } 2178348SEric.Yu@Sun.COM 2188348SEric.Yu@Sun.COM so->so_acceptq_head = NULL; 2198348SEric.Yu@Sun.COM so->so_acceptq_tail = &so->so_acceptq_head; 2208348SEric.Yu@Sun.COM so->so_acceptq_len = 0; 2218348SEric.Yu@Sun.COM } 2228348SEric.Yu@Sun.COM 2238348SEric.Yu@Sun.COM int 2248348SEric.Yu@Sun.COM so_wait_connected_locked(struct sonode *so, boolean_t nonblock, 2258348SEric.Yu@Sun.COM sock_connid_t id) 2268348SEric.Yu@Sun.COM { 2278348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_lock)); 2288348SEric.Yu@Sun.COM 2298348SEric.Yu@Sun.COM /* 2308348SEric.Yu@Sun.COM * The protocol has notified us that a connection attempt is being 2318348SEric.Yu@Sun.COM * made, so before we wait for a notification to arrive we must 2328348SEric.Yu@Sun.COM * clear out any errors associated with earlier connection attempts. 2338348SEric.Yu@Sun.COM */ 2348348SEric.Yu@Sun.COM if (so->so_error != 0 && SOCK_CONNID_LT(so->so_proto_connid, id)) 2358348SEric.Yu@Sun.COM so->so_error = 0; 2368348SEric.Yu@Sun.COM 2378348SEric.Yu@Sun.COM while (SOCK_CONNID_LT(so->so_proto_connid, id)) { 2388348SEric.Yu@Sun.COM if (nonblock) 2398348SEric.Yu@Sun.COM return (EINPROGRESS); 2408348SEric.Yu@Sun.COM 2418348SEric.Yu@Sun.COM if (so->so_state & (SS_CLOSING | SS_FALLBACK_PENDING)) 2428348SEric.Yu@Sun.COM return (EINTR); 2438348SEric.Yu@Sun.COM 2448348SEric.Yu@Sun.COM if (cv_wait_sig_swap(&so->so_state_cv, &so->so_lock) == 0) 2458348SEric.Yu@Sun.COM return (EINTR); 2468348SEric.Yu@Sun.COM } 2478348SEric.Yu@Sun.COM 2488348SEric.Yu@Sun.COM if (so->so_error != 0) 2498348SEric.Yu@Sun.COM return (sogeterr(so, B_TRUE)); 2508348SEric.Yu@Sun.COM /* 2518348SEric.Yu@Sun.COM * Under normal circumstances, so_error should contain an error 2528348SEric.Yu@Sun.COM * in case the connect failed. However, it is possible for another 2538348SEric.Yu@Sun.COM * thread to come in a consume the error, so generate a sensible 2548348SEric.Yu@Sun.COM * error in that case. 2558348SEric.Yu@Sun.COM */ 2568348SEric.Yu@Sun.COM if ((so->so_state & SS_ISCONNECTED) == 0) 2578348SEric.Yu@Sun.COM return (ECONNREFUSED); 2588348SEric.Yu@Sun.COM 2598348SEric.Yu@Sun.COM return (0); 2608348SEric.Yu@Sun.COM } 2618348SEric.Yu@Sun.COM 2628348SEric.Yu@Sun.COM /* 2638348SEric.Yu@Sun.COM * int so_wait_connected(struct sonode *so, boolean_t nonblock, 2648348SEric.Yu@Sun.COM * sock_connid_t id) 2658348SEric.Yu@Sun.COM * 2668348SEric.Yu@Sun.COM * Wait until the socket is connected or an error has occured. 2678348SEric.Yu@Sun.COM * 2688348SEric.Yu@Sun.COM * Arguments: 2698348SEric.Yu@Sun.COM * so - socket 2708348SEric.Yu@Sun.COM * nonblock - indicate whether it's ok to sleep if the connection has 2718348SEric.Yu@Sun.COM * not yet been established 2728348SEric.Yu@Sun.COM * gen - generation number that was returned by the protocol 2738348SEric.Yu@Sun.COM * when the operation was started 2748348SEric.Yu@Sun.COM * 2758348SEric.Yu@Sun.COM * Returns: 2768348SEric.Yu@Sun.COM * 0 if the connection attempt was successful, or an error indicating why 2778348SEric.Yu@Sun.COM * the connection attempt failed. 2788348SEric.Yu@Sun.COM */ 2798348SEric.Yu@Sun.COM int 2808348SEric.Yu@Sun.COM so_wait_connected(struct sonode *so, boolean_t nonblock, sock_connid_t id) 2818348SEric.Yu@Sun.COM { 2828348SEric.Yu@Sun.COM int error; 2838348SEric.Yu@Sun.COM 2848348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 2858348SEric.Yu@Sun.COM error = so_wait_connected_locked(so, nonblock, id); 2868348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 2878348SEric.Yu@Sun.COM 2888348SEric.Yu@Sun.COM return (error); 2898348SEric.Yu@Sun.COM } 2908348SEric.Yu@Sun.COM 2918348SEric.Yu@Sun.COM int 2928348SEric.Yu@Sun.COM so_snd_wait_qnotfull_locked(struct sonode *so, boolean_t dontblock) 2938348SEric.Yu@Sun.COM { 2948348SEric.Yu@Sun.COM int error; 2958348SEric.Yu@Sun.COM 2968348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_lock)); 2978348SEric.Yu@Sun.COM while (so->so_snd_qfull) { 2988348SEric.Yu@Sun.COM if (so->so_state & SS_CANTSENDMORE) 2998348SEric.Yu@Sun.COM return (EPIPE); 3008348SEric.Yu@Sun.COM if (dontblock) 3018348SEric.Yu@Sun.COM return (EWOULDBLOCK); 3028348SEric.Yu@Sun.COM 3038348SEric.Yu@Sun.COM if (so->so_state & (SS_CLOSING | SS_FALLBACK_PENDING)) 3048348SEric.Yu@Sun.COM return (EINTR); 3058348SEric.Yu@Sun.COM 3068348SEric.Yu@Sun.COM if (so->so_sndtimeo == 0) { 3078348SEric.Yu@Sun.COM /* 3088348SEric.Yu@Sun.COM * Zero means disable timeout. 3098348SEric.Yu@Sun.COM */ 3108348SEric.Yu@Sun.COM error = cv_wait_sig(&so->so_snd_cv, &so->so_lock); 3118348SEric.Yu@Sun.COM } else { 3128348SEric.Yu@Sun.COM clock_t now; 3138348SEric.Yu@Sun.COM 3148348SEric.Yu@Sun.COM time_to_wait(&now, so->so_sndtimeo); 3158348SEric.Yu@Sun.COM error = cv_timedwait_sig(&so->so_snd_cv, &so->so_lock, 3168348SEric.Yu@Sun.COM now); 3178348SEric.Yu@Sun.COM } 3188348SEric.Yu@Sun.COM if (error == 0) 3198348SEric.Yu@Sun.COM return (EINTR); 3208348SEric.Yu@Sun.COM else if (error == -1) 3218586Sshenjian return (EAGAIN); 3228348SEric.Yu@Sun.COM } 3238348SEric.Yu@Sun.COM return (0); 3248348SEric.Yu@Sun.COM } 3258348SEric.Yu@Sun.COM 3268348SEric.Yu@Sun.COM /* 3278348SEric.Yu@Sun.COM * int so_wait_sendbuf(struct sonode *so, boolean_t dontblock) 3288348SEric.Yu@Sun.COM * 3298348SEric.Yu@Sun.COM * Wait for the transport to notify us about send buffers becoming 3308348SEric.Yu@Sun.COM * available. 3318348SEric.Yu@Sun.COM */ 3328348SEric.Yu@Sun.COM int 3338348SEric.Yu@Sun.COM so_snd_wait_qnotfull(struct sonode *so, boolean_t dontblock) 3348348SEric.Yu@Sun.COM { 3358348SEric.Yu@Sun.COM int error = 0; 3368348SEric.Yu@Sun.COM 3378348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 3388348SEric.Yu@Sun.COM if (so->so_snd_qfull) { 3398348SEric.Yu@Sun.COM so->so_snd_wakeup = B_TRUE; 3408348SEric.Yu@Sun.COM error = so_snd_wait_qnotfull_locked(so, dontblock); 3418348SEric.Yu@Sun.COM so->so_snd_wakeup = B_FALSE; 3428348SEric.Yu@Sun.COM } 3438348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 3448348SEric.Yu@Sun.COM 3458348SEric.Yu@Sun.COM return (error); 3468348SEric.Yu@Sun.COM } 3478348SEric.Yu@Sun.COM 3488348SEric.Yu@Sun.COM void 3498348SEric.Yu@Sun.COM so_snd_qfull(struct sonode *so) 3508348SEric.Yu@Sun.COM { 3518348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 3528348SEric.Yu@Sun.COM so->so_snd_qfull = B_TRUE; 3538348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 3548348SEric.Yu@Sun.COM } 3558348SEric.Yu@Sun.COM 3568348SEric.Yu@Sun.COM void 3578348SEric.Yu@Sun.COM so_snd_qnotfull(struct sonode *so) 3588348SEric.Yu@Sun.COM { 3598348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 3608348SEric.Yu@Sun.COM so->so_snd_qfull = B_FALSE; 3618348SEric.Yu@Sun.COM /* wake up everyone waiting for buffers */ 3628348SEric.Yu@Sun.COM cv_broadcast(&so->so_snd_cv); 3638348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 3648348SEric.Yu@Sun.COM } 3658348SEric.Yu@Sun.COM 3668348SEric.Yu@Sun.COM /* 3678348SEric.Yu@Sun.COM * Change the process/process group to which SIGIO is sent. 3688348SEric.Yu@Sun.COM */ 3698348SEric.Yu@Sun.COM int 3708348SEric.Yu@Sun.COM socket_chgpgrp(struct sonode *so, pid_t pid) 3718348SEric.Yu@Sun.COM { 3728348SEric.Yu@Sun.COM int error; 3738348SEric.Yu@Sun.COM 3748348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_lock)); 3758348SEric.Yu@Sun.COM if (pid != 0) { 3768348SEric.Yu@Sun.COM /* 3778348SEric.Yu@Sun.COM * Permissions check by sending signal 0. 3788348SEric.Yu@Sun.COM * Note that when kill fails it does a 3798348SEric.Yu@Sun.COM * set_errno causing the system call to fail. 3808348SEric.Yu@Sun.COM */ 3818348SEric.Yu@Sun.COM error = kill(pid, 0); 3828348SEric.Yu@Sun.COM if (error != 0) { 3838348SEric.Yu@Sun.COM return (error); 3848348SEric.Yu@Sun.COM } 3858348SEric.Yu@Sun.COM } 3868348SEric.Yu@Sun.COM so->so_pgrp = pid; 3878348SEric.Yu@Sun.COM return (0); 3888348SEric.Yu@Sun.COM } 3898348SEric.Yu@Sun.COM 3908348SEric.Yu@Sun.COM 3918348SEric.Yu@Sun.COM /* 3928348SEric.Yu@Sun.COM * Generate a SIGIO, for 'writable' events include siginfo structure, 3938348SEric.Yu@Sun.COM * for read events just send the signal. 3948348SEric.Yu@Sun.COM */ 3958348SEric.Yu@Sun.COM /*ARGSUSED*/ 3968348SEric.Yu@Sun.COM static void 3978348SEric.Yu@Sun.COM socket_sigproc(proc_t *proc, int event) 3988348SEric.Yu@Sun.COM { 3998348SEric.Yu@Sun.COM k_siginfo_t info; 4008348SEric.Yu@Sun.COM 4018348SEric.Yu@Sun.COM ASSERT(event & (SOCKETSIG_WRITE | SOCKETSIG_READ | SOCKETSIG_URG)); 4028348SEric.Yu@Sun.COM 4038348SEric.Yu@Sun.COM if (event & SOCKETSIG_WRITE) { 4048348SEric.Yu@Sun.COM info.si_signo = SIGPOLL; 4058348SEric.Yu@Sun.COM info.si_code = POLL_OUT; 4068348SEric.Yu@Sun.COM info.si_errno = 0; 4078348SEric.Yu@Sun.COM info.si_fd = 0; 4088348SEric.Yu@Sun.COM info.si_band = 0; 4098348SEric.Yu@Sun.COM sigaddq(proc, NULL, &info, KM_NOSLEEP); 4108348SEric.Yu@Sun.COM } 4118348SEric.Yu@Sun.COM if (event & SOCKETSIG_READ) { 4128348SEric.Yu@Sun.COM sigtoproc(proc, NULL, SIGPOLL); 4138348SEric.Yu@Sun.COM } 4148348SEric.Yu@Sun.COM if (event & SOCKETSIG_URG) { 4158348SEric.Yu@Sun.COM sigtoproc(proc, NULL, SIGURG); 4168348SEric.Yu@Sun.COM } 4178348SEric.Yu@Sun.COM } 4188348SEric.Yu@Sun.COM 4198348SEric.Yu@Sun.COM void 4208348SEric.Yu@Sun.COM socket_sendsig(struct sonode *so, int event) 4218348SEric.Yu@Sun.COM { 4228348SEric.Yu@Sun.COM proc_t *proc; 4238348SEric.Yu@Sun.COM 4248348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_lock)); 4258348SEric.Yu@Sun.COM 4268348SEric.Yu@Sun.COM if (so->so_pgrp == 0 || (!(so->so_state & SS_ASYNC) && 4278348SEric.Yu@Sun.COM event != SOCKETSIG_URG)) { 4288348SEric.Yu@Sun.COM return; 4298348SEric.Yu@Sun.COM } 4308348SEric.Yu@Sun.COM 4318348SEric.Yu@Sun.COM dprint(3, ("sending sig %d to %d\n", event, so->so_pgrp)); 4328348SEric.Yu@Sun.COM 4338348SEric.Yu@Sun.COM if (so->so_pgrp > 0) { 4348348SEric.Yu@Sun.COM /* 4358348SEric.Yu@Sun.COM * XXX This unfortunately still generates 4368348SEric.Yu@Sun.COM * a signal when a fd is closed but 4378348SEric.Yu@Sun.COM * the proc is active. 4388348SEric.Yu@Sun.COM */ 4398348SEric.Yu@Sun.COM mutex_enter(&pidlock); 4408348SEric.Yu@Sun.COM proc = prfind(so->so_pgrp); 4418348SEric.Yu@Sun.COM if (proc == NULL) { 4428348SEric.Yu@Sun.COM mutex_exit(&pidlock); 4438348SEric.Yu@Sun.COM return; 4448348SEric.Yu@Sun.COM } 4458348SEric.Yu@Sun.COM mutex_enter(&proc->p_lock); 4468348SEric.Yu@Sun.COM mutex_exit(&pidlock); 4478348SEric.Yu@Sun.COM socket_sigproc(proc, event); 4488348SEric.Yu@Sun.COM mutex_exit(&proc->p_lock); 4498348SEric.Yu@Sun.COM } else { 4508348SEric.Yu@Sun.COM /* 4518348SEric.Yu@Sun.COM * Send to process group. Hold pidlock across 4528348SEric.Yu@Sun.COM * calls to socket_sigproc(). 4538348SEric.Yu@Sun.COM */ 4548348SEric.Yu@Sun.COM pid_t pgrp = -so->so_pgrp; 4558348SEric.Yu@Sun.COM 4568348SEric.Yu@Sun.COM mutex_enter(&pidlock); 4578348SEric.Yu@Sun.COM proc = pgfind(pgrp); 4588348SEric.Yu@Sun.COM while (proc != NULL) { 4598348SEric.Yu@Sun.COM mutex_enter(&proc->p_lock); 4608348SEric.Yu@Sun.COM socket_sigproc(proc, event); 4618348SEric.Yu@Sun.COM mutex_exit(&proc->p_lock); 4628348SEric.Yu@Sun.COM proc = proc->p_pglink; 4638348SEric.Yu@Sun.COM } 4648348SEric.Yu@Sun.COM mutex_exit(&pidlock); 4658348SEric.Yu@Sun.COM } 4668348SEric.Yu@Sun.COM } 4678348SEric.Yu@Sun.COM 4688348SEric.Yu@Sun.COM #define MIN(a, b) ((a) < (b) ? (a) : (b)) 4698348SEric.Yu@Sun.COM /* Copy userdata into a new mblk_t */ 4708348SEric.Yu@Sun.COM mblk_t * 4718348SEric.Yu@Sun.COM socopyinuio(uio_t *uiop, ssize_t iosize, size_t wroff, ssize_t maxblk, 4728778SErik.Nordmark@Sun.COM size_t tail_len, int *errorp, cred_t *cr) 4738348SEric.Yu@Sun.COM { 4748348SEric.Yu@Sun.COM mblk_t *head = NULL, **tail = &head; 4758348SEric.Yu@Sun.COM 4768348SEric.Yu@Sun.COM ASSERT(iosize == INFPSZ || iosize > 0); 4778348SEric.Yu@Sun.COM 4788348SEric.Yu@Sun.COM if (iosize == INFPSZ || iosize > uiop->uio_resid) 4798348SEric.Yu@Sun.COM iosize = uiop->uio_resid; 4808348SEric.Yu@Sun.COM 4818348SEric.Yu@Sun.COM if (maxblk == INFPSZ) 4828348SEric.Yu@Sun.COM maxblk = iosize; 4838348SEric.Yu@Sun.COM 4848348SEric.Yu@Sun.COM /* Nothing to do in these cases, so we're done */ 4858348SEric.Yu@Sun.COM if (iosize < 0 || maxblk < 0 || (maxblk == 0 && iosize > 0)) 4868348SEric.Yu@Sun.COM goto done; 4878348SEric.Yu@Sun.COM 4888348SEric.Yu@Sun.COM /* 4898348SEric.Yu@Sun.COM * We will enter the loop below if iosize is 0; it will allocate an 4908348SEric.Yu@Sun.COM * empty message block and call uiomove(9F) which will just return. 4918348SEric.Yu@Sun.COM * We could avoid that with an extra check but would only slow 4928348SEric.Yu@Sun.COM * down the much more likely case where iosize is larger than 0. 4938348SEric.Yu@Sun.COM */ 4948348SEric.Yu@Sun.COM do { 4958348SEric.Yu@Sun.COM ssize_t blocksize; 4968348SEric.Yu@Sun.COM mblk_t *mp; 4978348SEric.Yu@Sun.COM 4988348SEric.Yu@Sun.COM blocksize = MIN(iosize, maxblk); 4998348SEric.Yu@Sun.COM ASSERT(blocksize >= 0); 5008778SErik.Nordmark@Sun.COM if (is_system_labeled()) 5018778SErik.Nordmark@Sun.COM mp = allocb_cred(wroff + blocksize + tail_len, 5028778SErik.Nordmark@Sun.COM cr, curproc->p_pid); 5038778SErik.Nordmark@Sun.COM else 5048778SErik.Nordmark@Sun.COM mp = allocb(wroff + blocksize + tail_len, BPRI_MED); 5058778SErik.Nordmark@Sun.COM if (mp == NULL) { 5068348SEric.Yu@Sun.COM *errorp = ENOMEM; 5078348SEric.Yu@Sun.COM return (head); 5088348SEric.Yu@Sun.COM } 5098348SEric.Yu@Sun.COM mp->b_rptr += wroff; 5108348SEric.Yu@Sun.COM mp->b_wptr = mp->b_rptr + blocksize; 5118348SEric.Yu@Sun.COM 5128348SEric.Yu@Sun.COM *tail = mp; 5138348SEric.Yu@Sun.COM tail = &mp->b_cont; 5148348SEric.Yu@Sun.COM 5158348SEric.Yu@Sun.COM /* uiomove(9F) either returns 0 or EFAULT */ 5168348SEric.Yu@Sun.COM if ((*errorp = uiomove(mp->b_rptr, (size_t)blocksize, 5178348SEric.Yu@Sun.COM UIO_WRITE, uiop)) != 0) { 5188348SEric.Yu@Sun.COM ASSERT(*errorp != ENOMEM); 5198348SEric.Yu@Sun.COM freemsg(head); 5208348SEric.Yu@Sun.COM return (NULL); 5218348SEric.Yu@Sun.COM } 5228348SEric.Yu@Sun.COM 5238348SEric.Yu@Sun.COM iosize -= blocksize; 5248348SEric.Yu@Sun.COM } while (iosize > 0); 5258348SEric.Yu@Sun.COM 5268348SEric.Yu@Sun.COM done: 5278348SEric.Yu@Sun.COM *errorp = 0; 5288348SEric.Yu@Sun.COM return (head); 5298348SEric.Yu@Sun.COM } 5308348SEric.Yu@Sun.COM 5318348SEric.Yu@Sun.COM mblk_t * 5328348SEric.Yu@Sun.COM socopyoutuio(mblk_t *mp, struct uio *uiop, ssize_t max_read, int *errorp) 5338348SEric.Yu@Sun.COM { 5348348SEric.Yu@Sun.COM int error; 5358348SEric.Yu@Sun.COM ptrdiff_t n; 5368348SEric.Yu@Sun.COM mblk_t *nmp; 5378348SEric.Yu@Sun.COM 5388348SEric.Yu@Sun.COM ASSERT(mp->b_wptr >= mp->b_rptr); 5398348SEric.Yu@Sun.COM 5408348SEric.Yu@Sun.COM /* 5418348SEric.Yu@Sun.COM * max_read is the offset of the oobmark and read can not go pass 5428348SEric.Yu@Sun.COM * the oobmark. 5438348SEric.Yu@Sun.COM */ 5448348SEric.Yu@Sun.COM if (max_read == INFPSZ || max_read > uiop->uio_resid) 5458348SEric.Yu@Sun.COM max_read = uiop->uio_resid; 5468348SEric.Yu@Sun.COM 5478348SEric.Yu@Sun.COM do { 5488348SEric.Yu@Sun.COM if ((n = MIN(max_read, MBLKL(mp))) != 0) { 5498348SEric.Yu@Sun.COM ASSERT(n > 0); 5508348SEric.Yu@Sun.COM 5518348SEric.Yu@Sun.COM error = uiomove(mp->b_rptr, n, UIO_READ, uiop); 5528348SEric.Yu@Sun.COM if (error != 0) { 5538348SEric.Yu@Sun.COM freemsg(mp); 5548348SEric.Yu@Sun.COM *errorp = error; 5558348SEric.Yu@Sun.COM return (NULL); 5568348SEric.Yu@Sun.COM } 5578348SEric.Yu@Sun.COM } 5588348SEric.Yu@Sun.COM 5598348SEric.Yu@Sun.COM mp->b_rptr += n; 5608348SEric.Yu@Sun.COM max_read -= n; 5618348SEric.Yu@Sun.COM while (mp != NULL && (mp->b_rptr >= mp->b_wptr)) { 5628348SEric.Yu@Sun.COM /* 5638348SEric.Yu@Sun.COM * get rid of zero length mblks 5648348SEric.Yu@Sun.COM */ 5658348SEric.Yu@Sun.COM nmp = mp; 5668348SEric.Yu@Sun.COM mp = mp->b_cont; 5678348SEric.Yu@Sun.COM freeb(nmp); 5688348SEric.Yu@Sun.COM } 5698348SEric.Yu@Sun.COM } while (mp != NULL && max_read > 0); 5708348SEric.Yu@Sun.COM 5718348SEric.Yu@Sun.COM *errorp = 0; 5728348SEric.Yu@Sun.COM return (mp); 5738348SEric.Yu@Sun.COM } 5748348SEric.Yu@Sun.COM 5758348SEric.Yu@Sun.COM static void 5768348SEric.Yu@Sun.COM so_prepend_msg(struct sonode *so, mblk_t *mp, mblk_t *last_tail) 5778348SEric.Yu@Sun.COM { 5788348SEric.Yu@Sun.COM ASSERT(last_tail != NULL); 5798348SEric.Yu@Sun.COM mp->b_next = so->so_rcv_q_head; 5808348SEric.Yu@Sun.COM mp->b_prev = last_tail; 5818348SEric.Yu@Sun.COM ASSERT(!(DB_FLAGS(mp) & DBLK_UIOA)); 5828348SEric.Yu@Sun.COM 5838348SEric.Yu@Sun.COM if (so->so_rcv_q_head == NULL) { 5848348SEric.Yu@Sun.COM ASSERT(so->so_rcv_q_last_head == NULL); 5858348SEric.Yu@Sun.COM so->so_rcv_q_last_head = mp; 5868348SEric.Yu@Sun.COM #ifdef DEBUG 5878348SEric.Yu@Sun.COM } else { 5888348SEric.Yu@Sun.COM ASSERT(!(DB_FLAGS(so->so_rcv_q_head) & DBLK_UIOA)); 5898348SEric.Yu@Sun.COM #endif 5908348SEric.Yu@Sun.COM } 5918348SEric.Yu@Sun.COM so->so_rcv_q_head = mp; 5928348SEric.Yu@Sun.COM 5938348SEric.Yu@Sun.COM #ifdef DEBUG 5948348SEric.Yu@Sun.COM if (so_debug_length) { 5958348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 5968348SEric.Yu@Sun.COM ASSERT(so_check_length(so)); 5978348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 5988348SEric.Yu@Sun.COM } 5998348SEric.Yu@Sun.COM #endif 6008348SEric.Yu@Sun.COM } 6018348SEric.Yu@Sun.COM 6029184SAnders.Persson@Sun.COM /* 6039184SAnders.Persson@Sun.COM * Move a mblk chain (mp_head, mp_last_head) to the sonode's rcv queue so it 6049184SAnders.Persson@Sun.COM * can be processed by so_dequeue_msg(). 6059184SAnders.Persson@Sun.COM */ 6069184SAnders.Persson@Sun.COM void 6079184SAnders.Persson@Sun.COM so_process_new_message(struct sonode *so, mblk_t *mp_head, mblk_t *mp_last_head) 6088348SEric.Yu@Sun.COM { 6098348SEric.Yu@Sun.COM ASSERT(mp_head->b_prev != NULL); 6108348SEric.Yu@Sun.COM if (so->so_rcv_q_head == NULL) { 6118348SEric.Yu@Sun.COM so->so_rcv_q_head = mp_head; 6128348SEric.Yu@Sun.COM so->so_rcv_q_last_head = mp_last_head; 6138348SEric.Yu@Sun.COM ASSERT(so->so_rcv_q_last_head->b_prev != NULL); 6148348SEric.Yu@Sun.COM } else { 6158348SEric.Yu@Sun.COM boolean_t flag_equal = ((DB_FLAGS(mp_head) & DBLK_UIOA) == 6168348SEric.Yu@Sun.COM (DB_FLAGS(so->so_rcv_q_last_head) & DBLK_UIOA)); 6178348SEric.Yu@Sun.COM 6188348SEric.Yu@Sun.COM if (mp_head->b_next == NULL && 6198348SEric.Yu@Sun.COM DB_TYPE(mp_head) == M_DATA && 6208348SEric.Yu@Sun.COM DB_TYPE(so->so_rcv_q_last_head) == M_DATA && flag_equal) { 6218348SEric.Yu@Sun.COM so->so_rcv_q_last_head->b_prev->b_cont = mp_head; 6228348SEric.Yu@Sun.COM so->so_rcv_q_last_head->b_prev = mp_head->b_prev; 6238348SEric.Yu@Sun.COM mp_head->b_prev = NULL; 6248348SEric.Yu@Sun.COM } else if (flag_equal && (DB_FLAGS(mp_head) & DBLK_UIOA)) { 6258348SEric.Yu@Sun.COM /* 6268348SEric.Yu@Sun.COM * Append to last_head if more than one mblks, and both 6278348SEric.Yu@Sun.COM * mp_head and last_head are I/OAT mblks. 6288348SEric.Yu@Sun.COM */ 6298348SEric.Yu@Sun.COM ASSERT(mp_head->b_next != NULL); 6308348SEric.Yu@Sun.COM so->so_rcv_q_last_head->b_prev->b_cont = mp_head; 6318348SEric.Yu@Sun.COM so->so_rcv_q_last_head->b_prev = mp_head->b_prev; 6328348SEric.Yu@Sun.COM mp_head->b_prev = NULL; 6338348SEric.Yu@Sun.COM 6348348SEric.Yu@Sun.COM so->so_rcv_q_last_head->b_next = mp_head->b_next; 6358348SEric.Yu@Sun.COM mp_head->b_next = NULL; 6368348SEric.Yu@Sun.COM so->so_rcv_q_last_head = mp_last_head; 6378348SEric.Yu@Sun.COM } else { 6388348SEric.Yu@Sun.COM #ifdef DEBUG 6398348SEric.Yu@Sun.COM { 6408348SEric.Yu@Sun.COM mblk_t *tmp_mblk; 6418348SEric.Yu@Sun.COM tmp_mblk = mp_head; 6428348SEric.Yu@Sun.COM while (tmp_mblk != NULL) { 6438348SEric.Yu@Sun.COM ASSERT(tmp_mblk->b_prev != NULL); 6448348SEric.Yu@Sun.COM tmp_mblk = tmp_mblk->b_next; 6458348SEric.Yu@Sun.COM } 6468348SEric.Yu@Sun.COM } 6478348SEric.Yu@Sun.COM #endif 6488348SEric.Yu@Sun.COM so->so_rcv_q_last_head->b_next = mp_head; 6498348SEric.Yu@Sun.COM so->so_rcv_q_last_head = mp_last_head; 6508348SEric.Yu@Sun.COM } 6518348SEric.Yu@Sun.COM } 6528348SEric.Yu@Sun.COM } 6538348SEric.Yu@Sun.COM 65410192SRao.Shoaib@Sun.COM /* 65510192SRao.Shoaib@Sun.COM * Check flow control on a given sonode. Must have so_lock held, and 65610192SRao.Shoaib@Sun.COM * this function will release the hold. 65710192SRao.Shoaib@Sun.COM */ 65810192SRao.Shoaib@Sun.COM 65910192SRao.Shoaib@Sun.COM static void 66010192SRao.Shoaib@Sun.COM so_check_flow_control(struct sonode *so) 66110192SRao.Shoaib@Sun.COM { 66210192SRao.Shoaib@Sun.COM ASSERT(MUTEX_HELD(&so->so_lock)); 66310192SRao.Shoaib@Sun.COM 66410192SRao.Shoaib@Sun.COM if (so->so_flowctrld && so->so_rcv_queued < so->so_rcvlowat) { 66510192SRao.Shoaib@Sun.COM so->so_flowctrld = B_FALSE; 66610192SRao.Shoaib@Sun.COM mutex_exit(&so->so_lock); 66710192SRao.Shoaib@Sun.COM /* 66810192SRao.Shoaib@Sun.COM * Open up flow control. SCTP does not have any downcalls, and 66910192SRao.Shoaib@Sun.COM * it will clr flow ctrl in sosctp_recvmsg(). 67010192SRao.Shoaib@Sun.COM */ 67110192SRao.Shoaib@Sun.COM if (so->so_downcalls != NULL && 67210192SRao.Shoaib@Sun.COM so->so_downcalls->sd_clr_flowctrl != NULL) { 67310192SRao.Shoaib@Sun.COM (*so->so_downcalls->sd_clr_flowctrl) 67410192SRao.Shoaib@Sun.COM (so->so_proto_handle); 67510192SRao.Shoaib@Sun.COM } 67610192SRao.Shoaib@Sun.COM } else { 67710192SRao.Shoaib@Sun.COM mutex_exit(&so->so_lock); 67810192SRao.Shoaib@Sun.COM } 67910192SRao.Shoaib@Sun.COM } 68010192SRao.Shoaib@Sun.COM 6818348SEric.Yu@Sun.COM int 6828348SEric.Yu@Sun.COM so_dequeue_msg(struct sonode *so, mblk_t **mctlp, struct uio *uiop, 6838348SEric.Yu@Sun.COM rval_t *rvalp, int flags) 6848348SEric.Yu@Sun.COM { 6858348SEric.Yu@Sun.COM mblk_t *mp, *nmp; 6868348SEric.Yu@Sun.COM mblk_t *savemp, *savemptail; 6878348SEric.Yu@Sun.COM mblk_t *new_msg_head; 6888348SEric.Yu@Sun.COM mblk_t *new_msg_last_head; 6898348SEric.Yu@Sun.COM mblk_t *last_tail; 6908348SEric.Yu@Sun.COM boolean_t partial_read; 6918348SEric.Yu@Sun.COM boolean_t reset_atmark = B_FALSE; 6928348SEric.Yu@Sun.COM int more = 0; 6938348SEric.Yu@Sun.COM int error; 6948348SEric.Yu@Sun.COM ssize_t oobmark; 6958348SEric.Yu@Sun.COM sodirect_t *sodp = so->so_direct; 6968348SEric.Yu@Sun.COM 6978348SEric.Yu@Sun.COM partial_read = B_FALSE; 6988348SEric.Yu@Sun.COM *mctlp = NULL; 6998348SEric.Yu@Sun.COM again: 7008348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 7018348SEric.Yu@Sun.COM again1: 7028348SEric.Yu@Sun.COM #ifdef DEBUG 7038348SEric.Yu@Sun.COM if (so_debug_length) { 7048348SEric.Yu@Sun.COM ASSERT(so_check_length(so)); 7058348SEric.Yu@Sun.COM } 7068348SEric.Yu@Sun.COM #endif 7079752SAnders.Persson@Sun.COM if (so->so_state & SS_RCVATMARK) { 7089752SAnders.Persson@Sun.COM /* Check whether the caller is OK to read past the mark */ 7099752SAnders.Persson@Sun.COM if (flags & MSG_NOMARK) { 7109752SAnders.Persson@Sun.COM mutex_exit(&so->so_lock); 7119752SAnders.Persson@Sun.COM return (EWOULDBLOCK); 7129752SAnders.Persson@Sun.COM } 7139752SAnders.Persson@Sun.COM reset_atmark = B_TRUE; 7149752SAnders.Persson@Sun.COM } 7158348SEric.Yu@Sun.COM /* 7168348SEric.Yu@Sun.COM * First move messages from the dump area to processing area 7178348SEric.Yu@Sun.COM */ 7188348SEric.Yu@Sun.COM if (sodp != NULL) { 7199491SAnders.Persson@Sun.COM if (sodp->sod_enabled) { 7208348SEric.Yu@Sun.COM if (sodp->sod_uioa.uioa_state & UIOA_ALLOC) { 7218348SEric.Yu@Sun.COM /* nothing to uioamove */ 7228348SEric.Yu@Sun.COM sodp = NULL; 7238348SEric.Yu@Sun.COM } else if (sodp->sod_uioa.uioa_state & UIOA_INIT) { 7248348SEric.Yu@Sun.COM sodp->sod_uioa.uioa_state &= UIOA_CLR; 7258348SEric.Yu@Sun.COM sodp->sod_uioa.uioa_state |= UIOA_ENABLED; 7268348SEric.Yu@Sun.COM /* 7278348SEric.Yu@Sun.COM * try to uioamove() the data that 7288348SEric.Yu@Sun.COM * has already queued. 7298348SEric.Yu@Sun.COM */ 7308348SEric.Yu@Sun.COM sod_uioa_so_init(so, sodp, uiop); 7318348SEric.Yu@Sun.COM } 7328348SEric.Yu@Sun.COM } else { 7338348SEric.Yu@Sun.COM sodp = NULL; 7348348SEric.Yu@Sun.COM } 7358348SEric.Yu@Sun.COM } 7368348SEric.Yu@Sun.COM new_msg_head = so->so_rcv_head; 7378348SEric.Yu@Sun.COM new_msg_last_head = so->so_rcv_last_head; 7388348SEric.Yu@Sun.COM so->so_rcv_head = NULL; 7398348SEric.Yu@Sun.COM so->so_rcv_last_head = NULL; 7408348SEric.Yu@Sun.COM oobmark = so->so_oobmark; 7418348SEric.Yu@Sun.COM /* 7428348SEric.Yu@Sun.COM * We can release the lock as there can only be one reader 7438348SEric.Yu@Sun.COM */ 7448348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 7458348SEric.Yu@Sun.COM 7468348SEric.Yu@Sun.COM if (new_msg_head != NULL) { 7479184SAnders.Persson@Sun.COM so_process_new_message(so, new_msg_head, new_msg_last_head); 7488348SEric.Yu@Sun.COM } 7498348SEric.Yu@Sun.COM savemp = savemptail = NULL; 7508348SEric.Yu@Sun.COM rvalp->r_val1 = 0; 7518348SEric.Yu@Sun.COM error = 0; 7528348SEric.Yu@Sun.COM mp = so->so_rcv_q_head; 7538348SEric.Yu@Sun.COM 7548348SEric.Yu@Sun.COM if (mp != NULL && 7558348SEric.Yu@Sun.COM (so->so_rcv_timer_tid == 0 || 7568348SEric.Yu@Sun.COM so->so_rcv_queued >= so->so_rcv_thresh)) { 7578348SEric.Yu@Sun.COM partial_read = B_FALSE; 7588348SEric.Yu@Sun.COM 7598348SEric.Yu@Sun.COM if (flags & MSG_PEEK) { 7608348SEric.Yu@Sun.COM if ((nmp = dupmsg(mp)) == NULL && 7618348SEric.Yu@Sun.COM (nmp = copymsg(mp)) == NULL) { 7628348SEric.Yu@Sun.COM size_t size = msgsize(mp); 7638348SEric.Yu@Sun.COM 7648348SEric.Yu@Sun.COM error = strwaitbuf(size, BPRI_HI); 7658348SEric.Yu@Sun.COM if (error) { 7668348SEric.Yu@Sun.COM return (error); 7678348SEric.Yu@Sun.COM } 7688348SEric.Yu@Sun.COM goto again; 7698348SEric.Yu@Sun.COM } 7708348SEric.Yu@Sun.COM mp = nmp; 7718348SEric.Yu@Sun.COM } else { 7728348SEric.Yu@Sun.COM ASSERT(mp->b_prev != NULL); 7738348SEric.Yu@Sun.COM last_tail = mp->b_prev; 7748348SEric.Yu@Sun.COM mp->b_prev = NULL; 7758348SEric.Yu@Sun.COM so->so_rcv_q_head = mp->b_next; 7768348SEric.Yu@Sun.COM if (so->so_rcv_q_head == NULL) { 7778348SEric.Yu@Sun.COM so->so_rcv_q_last_head = NULL; 7788348SEric.Yu@Sun.COM } 7798348SEric.Yu@Sun.COM mp->b_next = NULL; 7808348SEric.Yu@Sun.COM } 7818348SEric.Yu@Sun.COM 7828348SEric.Yu@Sun.COM ASSERT(mctlp != NULL); 7838348SEric.Yu@Sun.COM /* 7848348SEric.Yu@Sun.COM * First process PROTO or PCPROTO blocks, if any. 7858348SEric.Yu@Sun.COM */ 7868348SEric.Yu@Sun.COM if (DB_TYPE(mp) != M_DATA) { 7878348SEric.Yu@Sun.COM *mctlp = mp; 7888348SEric.Yu@Sun.COM savemp = mp; 7898348SEric.Yu@Sun.COM savemptail = mp; 7908348SEric.Yu@Sun.COM ASSERT(DB_TYPE(mp) == M_PROTO || 7918348SEric.Yu@Sun.COM DB_TYPE(mp) == M_PCPROTO); 7928348SEric.Yu@Sun.COM while (mp->b_cont != NULL && 7938348SEric.Yu@Sun.COM DB_TYPE(mp->b_cont) != M_DATA) { 7948348SEric.Yu@Sun.COM ASSERT(DB_TYPE(mp->b_cont) == M_PROTO || 7958348SEric.Yu@Sun.COM DB_TYPE(mp->b_cont) == M_PCPROTO); 7968348SEric.Yu@Sun.COM mp = mp->b_cont; 7978348SEric.Yu@Sun.COM savemptail = mp; 7988348SEric.Yu@Sun.COM } 7998348SEric.Yu@Sun.COM mp = savemptail->b_cont; 8008348SEric.Yu@Sun.COM savemptail->b_cont = NULL; 8018348SEric.Yu@Sun.COM } 8028348SEric.Yu@Sun.COM 8038348SEric.Yu@Sun.COM ASSERT(DB_TYPE(mp) == M_DATA); 8048348SEric.Yu@Sun.COM /* 8058348SEric.Yu@Sun.COM * Now process DATA blocks, if any. Note that for sodirect 8068348SEric.Yu@Sun.COM * enabled socket, uio_resid can be 0. 8078348SEric.Yu@Sun.COM */ 8088348SEric.Yu@Sun.COM if (uiop->uio_resid >= 0) { 8098348SEric.Yu@Sun.COM ssize_t copied = 0; 8108348SEric.Yu@Sun.COM 8118348SEric.Yu@Sun.COM if (sodp != NULL && (DB_FLAGS(mp) & DBLK_UIOA)) { 8129491SAnders.Persson@Sun.COM mutex_enter(&so->so_lock); 8138348SEric.Yu@Sun.COM ASSERT(uiop == (uio_t *)&sodp->sod_uioa); 8148348SEric.Yu@Sun.COM copied = sod_uioa_mblk(so, mp); 8158348SEric.Yu@Sun.COM if (copied > 0) 8168348SEric.Yu@Sun.COM partial_read = B_TRUE; 8179491SAnders.Persson@Sun.COM mutex_exit(&so->so_lock); 8188348SEric.Yu@Sun.COM /* mark this mblk as processed */ 8198348SEric.Yu@Sun.COM mp = NULL; 8208348SEric.Yu@Sun.COM } else { 8218348SEric.Yu@Sun.COM ssize_t oldresid = uiop->uio_resid; 8228348SEric.Yu@Sun.COM 8238348SEric.Yu@Sun.COM if (MBLKL(mp) < so_mblk_pull_len) { 8248348SEric.Yu@Sun.COM if (pullupmsg(mp, -1) == 1) { 8258348SEric.Yu@Sun.COM last_tail = mp; 8268348SEric.Yu@Sun.COM } 8278348SEric.Yu@Sun.COM } 8288348SEric.Yu@Sun.COM /* 8298348SEric.Yu@Sun.COM * Can not read beyond the oobmark 8308348SEric.Yu@Sun.COM */ 8318348SEric.Yu@Sun.COM mp = socopyoutuio(mp, uiop, 8328348SEric.Yu@Sun.COM oobmark == 0 ? INFPSZ : oobmark, &error); 8338348SEric.Yu@Sun.COM if (error != 0) { 8348348SEric.Yu@Sun.COM freemsg(*mctlp); 8358348SEric.Yu@Sun.COM *mctlp = NULL; 8368348SEric.Yu@Sun.COM more = 0; 8378348SEric.Yu@Sun.COM goto done; 8388348SEric.Yu@Sun.COM } 8398348SEric.Yu@Sun.COM ASSERT(oldresid >= uiop->uio_resid); 8408348SEric.Yu@Sun.COM copied = oldresid - uiop->uio_resid; 8418348SEric.Yu@Sun.COM if (oldresid > uiop->uio_resid) 8428348SEric.Yu@Sun.COM partial_read = B_TRUE; 8438348SEric.Yu@Sun.COM } 8448348SEric.Yu@Sun.COM ASSERT(copied >= 0); 8458348SEric.Yu@Sun.COM if (copied > 0 && !(flags & MSG_PEEK)) { 8468348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 8478348SEric.Yu@Sun.COM so->so_rcv_queued -= copied; 8488348SEric.Yu@Sun.COM ASSERT(so->so_oobmark >= 0); 8498348SEric.Yu@Sun.COM if (so->so_oobmark > 0) { 8508348SEric.Yu@Sun.COM so->so_oobmark -= copied; 8518348SEric.Yu@Sun.COM ASSERT(so->so_oobmark >= 0); 8528348SEric.Yu@Sun.COM if (so->so_oobmark == 0) { 8538348SEric.Yu@Sun.COM ASSERT(so->so_state & 8548348SEric.Yu@Sun.COM SS_OOBPEND); 8558348SEric.Yu@Sun.COM so->so_oobmark = 0; 8568348SEric.Yu@Sun.COM so->so_state |= SS_RCVATMARK; 8578348SEric.Yu@Sun.COM } 8588348SEric.Yu@Sun.COM } 85910192SRao.Shoaib@Sun.COM /* 86010192SRao.Shoaib@Sun.COM * so_check_flow_control() will drop 86110192SRao.Shoaib@Sun.COM * so->so_lock. 86210192SRao.Shoaib@Sun.COM */ 86310192SRao.Shoaib@Sun.COM so_check_flow_control(so); 8648348SEric.Yu@Sun.COM } 8658348SEric.Yu@Sun.COM } 8668348SEric.Yu@Sun.COM if (mp != NULL) { /* more data blocks in msg */ 8678348SEric.Yu@Sun.COM more |= MOREDATA; 8688348SEric.Yu@Sun.COM if ((flags & (MSG_PEEK|MSG_TRUNC))) { 86910192SRao.Shoaib@Sun.COM if (flags & MSG_PEEK) { 87010192SRao.Shoaib@Sun.COM freemsg(mp); 87110192SRao.Shoaib@Sun.COM } else { 87210192SRao.Shoaib@Sun.COM unsigned int msize = msgdsize(mp); 87310192SRao.Shoaib@Sun.COM 87410192SRao.Shoaib@Sun.COM freemsg(mp); 8758348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 87610192SRao.Shoaib@Sun.COM so->so_rcv_queued -= msize; 87710192SRao.Shoaib@Sun.COM /* 87810192SRao.Shoaib@Sun.COM * so_check_flow_control() will drop 87910192SRao.Shoaib@Sun.COM * so->so_lock. 88010192SRao.Shoaib@Sun.COM */ 88110192SRao.Shoaib@Sun.COM so_check_flow_control(so); 8828348SEric.Yu@Sun.COM } 8838348SEric.Yu@Sun.COM } else if (partial_read && !somsghasdata(mp)) { 8848348SEric.Yu@Sun.COM /* 8858348SEric.Yu@Sun.COM * Avoid queuing a zero-length tail part of 8868348SEric.Yu@Sun.COM * a message. partial_read == 1 indicates that 8878348SEric.Yu@Sun.COM * we read some of the message. 8888348SEric.Yu@Sun.COM */ 8898348SEric.Yu@Sun.COM freemsg(mp); 8908348SEric.Yu@Sun.COM more &= ~MOREDATA; 8918348SEric.Yu@Sun.COM } else { 8928348SEric.Yu@Sun.COM if (savemp != NULL && 8938348SEric.Yu@Sun.COM (flags & MSG_DUPCTRL)) { 8948348SEric.Yu@Sun.COM mblk_t *nmp; 8958348SEric.Yu@Sun.COM /* 8968348SEric.Yu@Sun.COM * There should only be non data mblks 8978348SEric.Yu@Sun.COM */ 8988348SEric.Yu@Sun.COM ASSERT(DB_TYPE(savemp) != M_DATA && 8998348SEric.Yu@Sun.COM DB_TYPE(savemptail) != M_DATA); 9008348SEric.Yu@Sun.COM try_again: 9018348SEric.Yu@Sun.COM if ((nmp = dupmsg(savemp)) == NULL && 9028348SEric.Yu@Sun.COM (nmp = copymsg(savemp)) == NULL) { 9038348SEric.Yu@Sun.COM 9048348SEric.Yu@Sun.COM size_t size = msgsize(savemp); 9058348SEric.Yu@Sun.COM 9068348SEric.Yu@Sun.COM error = strwaitbuf(size, 9078348SEric.Yu@Sun.COM BPRI_HI); 9088348SEric.Yu@Sun.COM if (error != 0) { 9098348SEric.Yu@Sun.COM /* 9108348SEric.Yu@Sun.COM * In case we 9118348SEric.Yu@Sun.COM * cannot copy 9128348SEric.Yu@Sun.COM * control data 9138348SEric.Yu@Sun.COM * free the remaining 9148348SEric.Yu@Sun.COM * data. 9158348SEric.Yu@Sun.COM */ 9168348SEric.Yu@Sun.COM freemsg(mp); 9178348SEric.Yu@Sun.COM goto done; 9188348SEric.Yu@Sun.COM } 9198348SEric.Yu@Sun.COM goto try_again; 9208348SEric.Yu@Sun.COM } 9218348SEric.Yu@Sun.COM 9228348SEric.Yu@Sun.COM ASSERT(nmp != NULL); 9238348SEric.Yu@Sun.COM ASSERT(DB_TYPE(nmp) != M_DATA); 9248348SEric.Yu@Sun.COM savemptail->b_cont = mp; 9258348SEric.Yu@Sun.COM *mctlp = nmp; 9268348SEric.Yu@Sun.COM mp = savemp; 9278348SEric.Yu@Sun.COM } 9288348SEric.Yu@Sun.COM /* 9298348SEric.Yu@Sun.COM * putback mp 9308348SEric.Yu@Sun.COM */ 9318348SEric.Yu@Sun.COM so_prepend_msg(so, mp, last_tail); 9328348SEric.Yu@Sun.COM } 9338348SEric.Yu@Sun.COM } 9348348SEric.Yu@Sun.COM 9358348SEric.Yu@Sun.COM /* fast check so_rcv_head if there is more data */ 9368348SEric.Yu@Sun.COM if (partial_read && !(so->so_state & SS_RCVATMARK) && 9378348SEric.Yu@Sun.COM *mctlp == NULL && uiop->uio_resid > 0 && 9388348SEric.Yu@Sun.COM !(flags & MSG_PEEK) && so->so_rcv_head != NULL) { 9398348SEric.Yu@Sun.COM goto again; 9408348SEric.Yu@Sun.COM } 9418348SEric.Yu@Sun.COM } else if (!partial_read) { 9428348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 9438348SEric.Yu@Sun.COM if (so->so_error != 0) { 9448348SEric.Yu@Sun.COM error = sogeterr(so, !(flags & MSG_PEEK)); 9458348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 9468348SEric.Yu@Sun.COM return (error); 9478348SEric.Yu@Sun.COM } 9488348SEric.Yu@Sun.COM /* 9498348SEric.Yu@Sun.COM * No pending data. Return right away for nonblocking 9508348SEric.Yu@Sun.COM * socket, otherwise sleep waiting for data. 9518348SEric.Yu@Sun.COM */ 9528466SMike.Cheng@Sun.COM if (!(so->so_state & SS_CANTRCVMORE) && uiop->uio_resid > 0) { 9538348SEric.Yu@Sun.COM if ((uiop->uio_fmode & (FNDELAY|FNONBLOCK)) || 9548348SEric.Yu@Sun.COM (flags & MSG_DONTWAIT)) { 9558348SEric.Yu@Sun.COM error = EWOULDBLOCK; 9568348SEric.Yu@Sun.COM } else { 9578348SEric.Yu@Sun.COM if (so->so_state & (SS_CLOSING | 9588348SEric.Yu@Sun.COM SS_FALLBACK_PENDING)) { 9598348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 9608348SEric.Yu@Sun.COM error = EINTR; 9618348SEric.Yu@Sun.COM goto done; 9628348SEric.Yu@Sun.COM } 9638348SEric.Yu@Sun.COM 9648348SEric.Yu@Sun.COM if (so->so_rcv_head != NULL) { 9658348SEric.Yu@Sun.COM goto again1; 9668348SEric.Yu@Sun.COM } 9678348SEric.Yu@Sun.COM so->so_rcv_wakeup = B_TRUE; 9688348SEric.Yu@Sun.COM so->so_rcv_wanted = uiop->uio_resid; 9698348SEric.Yu@Sun.COM if (so->so_rcvtimeo == 0) { 9708348SEric.Yu@Sun.COM /* 9718348SEric.Yu@Sun.COM * Zero means disable timeout. 9728348SEric.Yu@Sun.COM */ 9738348SEric.Yu@Sun.COM error = cv_wait_sig(&so->so_rcv_cv, 9748348SEric.Yu@Sun.COM &so->so_lock); 9758348SEric.Yu@Sun.COM } else { 9768348SEric.Yu@Sun.COM clock_t now; 9778348SEric.Yu@Sun.COM time_to_wait(&now, so->so_rcvtimeo); 9788348SEric.Yu@Sun.COM error = cv_timedwait_sig(&so->so_rcv_cv, 9798348SEric.Yu@Sun.COM &so->so_lock, now); 9808348SEric.Yu@Sun.COM } 9818348SEric.Yu@Sun.COM so->so_rcv_wakeup = B_FALSE; 9828348SEric.Yu@Sun.COM so->so_rcv_wanted = 0; 9838348SEric.Yu@Sun.COM 9848348SEric.Yu@Sun.COM if (error == 0) { 9858348SEric.Yu@Sun.COM error = EINTR; 9868348SEric.Yu@Sun.COM } else if (error == -1) { 9878586Sshenjian error = EAGAIN; 9888348SEric.Yu@Sun.COM } else { 9898348SEric.Yu@Sun.COM goto again1; 9908348SEric.Yu@Sun.COM } 9918348SEric.Yu@Sun.COM } 9928348SEric.Yu@Sun.COM } 9938348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 9948348SEric.Yu@Sun.COM } 9958348SEric.Yu@Sun.COM if (reset_atmark && partial_read && !(flags & MSG_PEEK)) { 9968348SEric.Yu@Sun.COM /* 9978348SEric.Yu@Sun.COM * We are passed the mark, update state 9988348SEric.Yu@Sun.COM * 4.3BSD and 4.4BSD clears the mark when peeking across it. 9998348SEric.Yu@Sun.COM * The draft Posix socket spec states that the mark should 10008348SEric.Yu@Sun.COM * not be cleared when peeking. We follow the latter. 10018348SEric.Yu@Sun.COM */ 10028348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 10038348SEric.Yu@Sun.COM ASSERT(so_verify_oobstate(so)); 10048348SEric.Yu@Sun.COM so->so_state &= ~(SS_OOBPEND|SS_HAVEOOBDATA|SS_RCVATMARK); 10058348SEric.Yu@Sun.COM freemsg(so->so_oobmsg); 10068348SEric.Yu@Sun.COM so->so_oobmsg = NULL; 10078348SEric.Yu@Sun.COM ASSERT(so_verify_oobstate(so)); 10088348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 10098348SEric.Yu@Sun.COM } 10108348SEric.Yu@Sun.COM ASSERT(so->so_rcv_wakeup == B_FALSE); 10118348SEric.Yu@Sun.COM done: 10128348SEric.Yu@Sun.COM if (sodp != NULL) { 10139491SAnders.Persson@Sun.COM mutex_enter(&so->so_lock); 10149491SAnders.Persson@Sun.COM if (sodp->sod_enabled && 10158348SEric.Yu@Sun.COM (sodp->sod_uioa.uioa_state & UIOA_ENABLED)) { 10168348SEric.Yu@Sun.COM SOD_UIOAFINI(sodp); 10178348SEric.Yu@Sun.COM if (sodp->sod_uioa.uioa_mbytes > 0) { 10188348SEric.Yu@Sun.COM ASSERT(so->so_rcv_q_head != NULL || 10198348SEric.Yu@Sun.COM so->so_rcv_head != NULL); 10208348SEric.Yu@Sun.COM so->so_rcv_queued -= sod_uioa_mblk(so, NULL); 10218348SEric.Yu@Sun.COM if (error == EWOULDBLOCK) 10228348SEric.Yu@Sun.COM error = 0; 10238348SEric.Yu@Sun.COM } 10248348SEric.Yu@Sun.COM } 10259491SAnders.Persson@Sun.COM mutex_exit(&so->so_lock); 10268348SEric.Yu@Sun.COM } 10278348SEric.Yu@Sun.COM #ifdef DEBUG 10288348SEric.Yu@Sun.COM if (so_debug_length) { 10298348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 10308348SEric.Yu@Sun.COM ASSERT(so_check_length(so)); 10318348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 10328348SEric.Yu@Sun.COM } 10338348SEric.Yu@Sun.COM #endif 10348348SEric.Yu@Sun.COM rvalp->r_val1 = more; 103510192SRao.Shoaib@Sun.COM ASSERT(MUTEX_NOT_HELD(&so->so_lock)); 10368348SEric.Yu@Sun.COM return (error); 10378348SEric.Yu@Sun.COM } 10388348SEric.Yu@Sun.COM 10399184SAnders.Persson@Sun.COM /* 10409184SAnders.Persson@Sun.COM * Enqueue data from the protocol on the socket's rcv queue. 10419184SAnders.Persson@Sun.COM * 10429184SAnders.Persson@Sun.COM * We try to hook new M_DATA mblks onto an existing chain, however, 10439184SAnders.Persson@Sun.COM * that cannot be done if the existing chain has already been 10449184SAnders.Persson@Sun.COM * processed by I/OAT. Non-M_DATA mblks are just linked together via 10459184SAnders.Persson@Sun.COM * b_next. In all cases the b_prev of the enqueued mblk is set to 10469184SAnders.Persson@Sun.COM * point to the last mblk in its b_cont chain. 10479184SAnders.Persson@Sun.COM */ 10488348SEric.Yu@Sun.COM void 10498348SEric.Yu@Sun.COM so_enqueue_msg(struct sonode *so, mblk_t *mp, size_t msg_size) 10508348SEric.Yu@Sun.COM { 10518348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_lock)); 10528348SEric.Yu@Sun.COM 10538348SEric.Yu@Sun.COM #ifdef DEBUG 10548348SEric.Yu@Sun.COM if (so_debug_length) { 10558348SEric.Yu@Sun.COM ASSERT(so_check_length(so)); 10568348SEric.Yu@Sun.COM } 10578348SEric.Yu@Sun.COM #endif 10588348SEric.Yu@Sun.COM so->so_rcv_queued += msg_size; 10598348SEric.Yu@Sun.COM 10608348SEric.Yu@Sun.COM if (so->so_rcv_head == NULL) { 10618348SEric.Yu@Sun.COM ASSERT(so->so_rcv_last_head == NULL); 10628348SEric.Yu@Sun.COM so->so_rcv_head = mp; 10638348SEric.Yu@Sun.COM so->so_rcv_last_head = mp; 10648348SEric.Yu@Sun.COM } else if ((DB_TYPE(mp) == M_DATA && 10658348SEric.Yu@Sun.COM DB_TYPE(so->so_rcv_last_head) == M_DATA) && 10668348SEric.Yu@Sun.COM ((DB_FLAGS(mp) & DBLK_UIOA) == 10678348SEric.Yu@Sun.COM (DB_FLAGS(so->so_rcv_last_head) & DBLK_UIOA))) { 10688348SEric.Yu@Sun.COM /* Added to the end */ 10698348SEric.Yu@Sun.COM ASSERT(so->so_rcv_last_head != NULL); 10708348SEric.Yu@Sun.COM ASSERT(so->so_rcv_last_head->b_prev != NULL); 10718348SEric.Yu@Sun.COM so->so_rcv_last_head->b_prev->b_cont = mp; 10728348SEric.Yu@Sun.COM } else { 10738348SEric.Yu@Sun.COM /* Start a new end */ 10748348SEric.Yu@Sun.COM so->so_rcv_last_head->b_next = mp; 10758348SEric.Yu@Sun.COM so->so_rcv_last_head = mp; 10768348SEric.Yu@Sun.COM } 10778348SEric.Yu@Sun.COM while (mp->b_cont != NULL) 10788348SEric.Yu@Sun.COM mp = mp->b_cont; 10798348SEric.Yu@Sun.COM 10808348SEric.Yu@Sun.COM so->so_rcv_last_head->b_prev = mp; 10818348SEric.Yu@Sun.COM #ifdef DEBUG 10828348SEric.Yu@Sun.COM if (so_debug_length) { 10838348SEric.Yu@Sun.COM ASSERT(so_check_length(so)); 10848348SEric.Yu@Sun.COM } 10858348SEric.Yu@Sun.COM #endif 10868348SEric.Yu@Sun.COM } 10878348SEric.Yu@Sun.COM 10888348SEric.Yu@Sun.COM /* 10898348SEric.Yu@Sun.COM * Return B_TRUE if there is data in the message, B_FALSE otherwise. 10908348SEric.Yu@Sun.COM */ 10918348SEric.Yu@Sun.COM boolean_t 10928348SEric.Yu@Sun.COM somsghasdata(mblk_t *mp) 10938348SEric.Yu@Sun.COM { 10948348SEric.Yu@Sun.COM for (; mp; mp = mp->b_cont) 10958348SEric.Yu@Sun.COM if (mp->b_datap->db_type == M_DATA) { 10968348SEric.Yu@Sun.COM ASSERT(mp->b_wptr >= mp->b_rptr); 10978348SEric.Yu@Sun.COM if (mp->b_wptr > mp->b_rptr) 10988348SEric.Yu@Sun.COM return (B_TRUE); 10998348SEric.Yu@Sun.COM } 11008348SEric.Yu@Sun.COM return (B_FALSE); 11018348SEric.Yu@Sun.COM } 11028348SEric.Yu@Sun.COM 11038348SEric.Yu@Sun.COM /* 11048348SEric.Yu@Sun.COM * Flush the read side of sockfs. 11058348SEric.Yu@Sun.COM * 11068348SEric.Yu@Sun.COM * The caller must be sure that a reader is not already active when the 11078348SEric.Yu@Sun.COM * buffer is being flushed. 11088348SEric.Yu@Sun.COM */ 11098348SEric.Yu@Sun.COM void 11108348SEric.Yu@Sun.COM so_rcv_flush(struct sonode *so) 11118348SEric.Yu@Sun.COM { 11128348SEric.Yu@Sun.COM mblk_t *mp; 11138348SEric.Yu@Sun.COM 11148348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_lock)); 11158348SEric.Yu@Sun.COM 11168348SEric.Yu@Sun.COM if (so->so_oobmsg != NULL) { 11178348SEric.Yu@Sun.COM freemsg(so->so_oobmsg); 11188348SEric.Yu@Sun.COM so->so_oobmsg = NULL; 11198348SEric.Yu@Sun.COM so->so_oobmark = 0; 11208348SEric.Yu@Sun.COM so->so_state &= 11218348SEric.Yu@Sun.COM ~(SS_OOBPEND|SS_HAVEOOBDATA|SS_HADOOBDATA|SS_RCVATMARK); 11228348SEric.Yu@Sun.COM } 11238348SEric.Yu@Sun.COM 11248348SEric.Yu@Sun.COM /* 11258348SEric.Yu@Sun.COM * Free messages sitting in the send and recv queue 11268348SEric.Yu@Sun.COM */ 11278348SEric.Yu@Sun.COM while (so->so_rcv_q_head != NULL) { 11288348SEric.Yu@Sun.COM mp = so->so_rcv_q_head; 11298348SEric.Yu@Sun.COM so->so_rcv_q_head = mp->b_next; 11308348SEric.Yu@Sun.COM mp->b_next = mp->b_prev = NULL; 11318348SEric.Yu@Sun.COM freemsg(mp); 11328348SEric.Yu@Sun.COM } 11338348SEric.Yu@Sun.COM while (so->so_rcv_head != NULL) { 11348348SEric.Yu@Sun.COM mp = so->so_rcv_head; 11358348SEric.Yu@Sun.COM so->so_rcv_head = mp->b_next; 11368348SEric.Yu@Sun.COM mp->b_next = mp->b_prev = NULL; 11378348SEric.Yu@Sun.COM freemsg(mp); 11388348SEric.Yu@Sun.COM } 11398348SEric.Yu@Sun.COM so->so_rcv_queued = 0; 11408348SEric.Yu@Sun.COM so->so_rcv_q_head = NULL; 11418348SEric.Yu@Sun.COM so->so_rcv_q_last_head = NULL; 11428348SEric.Yu@Sun.COM so->so_rcv_head = NULL; 11438348SEric.Yu@Sun.COM so->so_rcv_last_head = NULL; 11448348SEric.Yu@Sun.COM } 11458348SEric.Yu@Sun.COM 11468348SEric.Yu@Sun.COM /* 11478348SEric.Yu@Sun.COM * Handle recv* calls that set MSG_OOB or MSG_OOB together with MSG_PEEK. 11488348SEric.Yu@Sun.COM */ 11498348SEric.Yu@Sun.COM int 11508348SEric.Yu@Sun.COM sorecvoob(struct sonode *so, struct nmsghdr *msg, struct uio *uiop, int flags, 11518348SEric.Yu@Sun.COM boolean_t oob_inline) 11528348SEric.Yu@Sun.COM { 11538348SEric.Yu@Sun.COM mblk_t *mp, *nmp; 11548348SEric.Yu@Sun.COM int error; 11558348SEric.Yu@Sun.COM 11568348SEric.Yu@Sun.COM dprintso(so, 1, ("sorecvoob(%p, %p, 0x%x)\n", (void *)so, (void *)msg, 11578348SEric.Yu@Sun.COM flags)); 11588348SEric.Yu@Sun.COM 11598348SEric.Yu@Sun.COM if (msg != NULL) { 11608348SEric.Yu@Sun.COM /* 11618348SEric.Yu@Sun.COM * There is never any oob data with addresses or control since 11628348SEric.Yu@Sun.COM * the T_EXDATA_IND does not carry any options. 11638348SEric.Yu@Sun.COM */ 11648348SEric.Yu@Sun.COM msg->msg_controllen = 0; 11658348SEric.Yu@Sun.COM msg->msg_namelen = 0; 11668348SEric.Yu@Sun.COM msg->msg_flags = 0; 11678348SEric.Yu@Sun.COM } 11688348SEric.Yu@Sun.COM 11698348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 11708348SEric.Yu@Sun.COM ASSERT(so_verify_oobstate(so)); 11718348SEric.Yu@Sun.COM if (oob_inline || 11728348SEric.Yu@Sun.COM (so->so_state & (SS_OOBPEND|SS_HADOOBDATA)) != SS_OOBPEND) { 11738348SEric.Yu@Sun.COM dprintso(so, 1, ("sorecvoob: inline or data consumed\n")); 11748348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 11758348SEric.Yu@Sun.COM return (EINVAL); 11768348SEric.Yu@Sun.COM } 11778348SEric.Yu@Sun.COM if (!(so->so_state & SS_HAVEOOBDATA)) { 11788348SEric.Yu@Sun.COM dprintso(so, 1, ("sorecvoob: no data yet\n")); 11798348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 11808348SEric.Yu@Sun.COM return (EWOULDBLOCK); 11818348SEric.Yu@Sun.COM } 11828348SEric.Yu@Sun.COM ASSERT(so->so_oobmsg != NULL); 11838348SEric.Yu@Sun.COM mp = so->so_oobmsg; 11848348SEric.Yu@Sun.COM if (flags & MSG_PEEK) { 11858348SEric.Yu@Sun.COM /* 11868348SEric.Yu@Sun.COM * Since recv* can not return ENOBUFS we can not use dupmsg. 11878348SEric.Yu@Sun.COM * Instead we revert to the consolidation private 11888348SEric.Yu@Sun.COM * allocb_wait plus bcopy. 11898348SEric.Yu@Sun.COM */ 11908348SEric.Yu@Sun.COM mblk_t *mp1; 11918348SEric.Yu@Sun.COM 11928348SEric.Yu@Sun.COM mp1 = allocb_wait(msgdsize(mp), BPRI_MED, STR_NOSIG, NULL); 11938348SEric.Yu@Sun.COM ASSERT(mp1); 11948348SEric.Yu@Sun.COM 11958348SEric.Yu@Sun.COM while (mp != NULL) { 11968348SEric.Yu@Sun.COM ssize_t size; 11978348SEric.Yu@Sun.COM 11988348SEric.Yu@Sun.COM size = MBLKL(mp); 11998348SEric.Yu@Sun.COM bcopy(mp->b_rptr, mp1->b_wptr, size); 12008348SEric.Yu@Sun.COM mp1->b_wptr += size; 12018348SEric.Yu@Sun.COM ASSERT(mp1->b_wptr <= mp1->b_datap->db_lim); 12028348SEric.Yu@Sun.COM mp = mp->b_cont; 12038348SEric.Yu@Sun.COM } 12048348SEric.Yu@Sun.COM mp = mp1; 12058348SEric.Yu@Sun.COM } else { 12068348SEric.Yu@Sun.COM /* 12078348SEric.Yu@Sun.COM * Update the state indicating that the data has been consumed. 12088348SEric.Yu@Sun.COM * Keep SS_OOBPEND set until data is consumed past the mark. 12098348SEric.Yu@Sun.COM */ 12108348SEric.Yu@Sun.COM so->so_oobmsg = NULL; 12118348SEric.Yu@Sun.COM so->so_state ^= SS_HAVEOOBDATA|SS_HADOOBDATA; 12128348SEric.Yu@Sun.COM } 12138348SEric.Yu@Sun.COM ASSERT(so_verify_oobstate(so)); 12148348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 12158348SEric.Yu@Sun.COM 12168348SEric.Yu@Sun.COM error = 0; 12178348SEric.Yu@Sun.COM nmp = mp; 12188348SEric.Yu@Sun.COM while (nmp != NULL && uiop->uio_resid > 0) { 12198348SEric.Yu@Sun.COM ssize_t n = MBLKL(nmp); 12208348SEric.Yu@Sun.COM 12218348SEric.Yu@Sun.COM n = MIN(n, uiop->uio_resid); 12228348SEric.Yu@Sun.COM if (n > 0) 12238348SEric.Yu@Sun.COM error = uiomove(nmp->b_rptr, n, 12248348SEric.Yu@Sun.COM UIO_READ, uiop); 12258348SEric.Yu@Sun.COM if (error) 12268348SEric.Yu@Sun.COM break; 12278348SEric.Yu@Sun.COM nmp = nmp->b_cont; 12288348SEric.Yu@Sun.COM } 12298348SEric.Yu@Sun.COM ASSERT(mp->b_next == NULL && mp->b_prev == NULL); 12308348SEric.Yu@Sun.COM freemsg(mp); 12318348SEric.Yu@Sun.COM return (error); 12328348SEric.Yu@Sun.COM } 12338348SEric.Yu@Sun.COM 12348348SEric.Yu@Sun.COM /* 12358348SEric.Yu@Sun.COM * Allocate and initializ sonode 12368348SEric.Yu@Sun.COM */ 12378348SEric.Yu@Sun.COM /* ARGSUSED */ 12388348SEric.Yu@Sun.COM struct sonode * 12398348SEric.Yu@Sun.COM socket_sonode_create(struct sockparams *sp, int family, int type, 12408348SEric.Yu@Sun.COM int protocol, int version, int sflags, int *errorp, struct cred *cr) 12418348SEric.Yu@Sun.COM { 12428348SEric.Yu@Sun.COM sonode_t *so; 12438348SEric.Yu@Sun.COM int kmflags; 12448348SEric.Yu@Sun.COM 12458348SEric.Yu@Sun.COM /* 12468348SEric.Yu@Sun.COM * Choose the right set of sonodeops based on the upcall and 12478348SEric.Yu@Sun.COM * down call version that the protocol has provided 12488348SEric.Yu@Sun.COM */ 12498348SEric.Yu@Sun.COM if (SOCK_UC_VERSION != sp->sp_smod_info->smod_uc_version || 12508348SEric.Yu@Sun.COM SOCK_DC_VERSION != sp->sp_smod_info->smod_dc_version) { 12518348SEric.Yu@Sun.COM /* 12528348SEric.Yu@Sun.COM * mismatch 12538348SEric.Yu@Sun.COM */ 12548348SEric.Yu@Sun.COM #ifdef DEBUG 12558348SEric.Yu@Sun.COM cmn_err(CE_CONT, "protocol and socket module version mismatch"); 12568348SEric.Yu@Sun.COM #endif 12578348SEric.Yu@Sun.COM *errorp = EINVAL; 12588348SEric.Yu@Sun.COM return (NULL); 12598348SEric.Yu@Sun.COM } 12608348SEric.Yu@Sun.COM 12618348SEric.Yu@Sun.COM kmflags = (sflags & SOCKET_NOSLEEP) ? KM_NOSLEEP : KM_SLEEP; 12628348SEric.Yu@Sun.COM 12638348SEric.Yu@Sun.COM so = kmem_cache_alloc(socket_cache, kmflags); 12648348SEric.Yu@Sun.COM if (so == NULL) { 12658348SEric.Yu@Sun.COM *errorp = ENOMEM; 12668348SEric.Yu@Sun.COM return (NULL); 12678348SEric.Yu@Sun.COM } 12688348SEric.Yu@Sun.COM 12698348SEric.Yu@Sun.COM sonode_init(so, sp, family, type, protocol, &so_sonodeops); 12708348SEric.Yu@Sun.COM 12718348SEric.Yu@Sun.COM if (version == SOV_DEFAULT) 12728348SEric.Yu@Sun.COM version = so_default_version; 12738348SEric.Yu@Sun.COM 12748348SEric.Yu@Sun.COM so->so_version = (short)version; 12758348SEric.Yu@Sun.COM 12768348SEric.Yu@Sun.COM /* 12778348SEric.Yu@Sun.COM * set the default values to be INFPSZ 12788348SEric.Yu@Sun.COM * if a protocol desires it can change the value later 12798348SEric.Yu@Sun.COM */ 12808348SEric.Yu@Sun.COM so->so_proto_props.sopp_rxhiwat = SOCKET_RECVHIWATER; 12818348SEric.Yu@Sun.COM so->so_proto_props.sopp_rxlowat = SOCKET_RECVLOWATER; 12828348SEric.Yu@Sun.COM so->so_proto_props.sopp_maxpsz = INFPSZ; 12838348SEric.Yu@Sun.COM so->so_proto_props.sopp_maxblk = INFPSZ; 12848348SEric.Yu@Sun.COM 12858348SEric.Yu@Sun.COM return (so); 12868348SEric.Yu@Sun.COM } 12878348SEric.Yu@Sun.COM 12888348SEric.Yu@Sun.COM int 12898348SEric.Yu@Sun.COM socket_init_common(struct sonode *so, struct sonode *pso, int flags, cred_t *cr) 12908348SEric.Yu@Sun.COM { 12918348SEric.Yu@Sun.COM int error = 0; 12928348SEric.Yu@Sun.COM 12938348SEric.Yu@Sun.COM if (pso != NULL) { 12948348SEric.Yu@Sun.COM /* 12958348SEric.Yu@Sun.COM * We have a passive open, so inherit basic state from 12968348SEric.Yu@Sun.COM * the parent (listener). 12978348SEric.Yu@Sun.COM * 12988348SEric.Yu@Sun.COM * No need to grab the new sonode's lock, since there is no 12998348SEric.Yu@Sun.COM * one that can have a reference to it. 13008348SEric.Yu@Sun.COM */ 13018348SEric.Yu@Sun.COM mutex_enter(&pso->so_lock); 13028348SEric.Yu@Sun.COM 13038348SEric.Yu@Sun.COM so->so_state |= SS_ISCONNECTED | (pso->so_state & SS_ASYNC); 13048348SEric.Yu@Sun.COM so->so_pgrp = pso->so_pgrp; 13058348SEric.Yu@Sun.COM so->so_rcvtimeo = pso->so_rcvtimeo; 13068348SEric.Yu@Sun.COM so->so_sndtimeo = pso->so_sndtimeo; 13078465SEric.Yu@Sun.COM so->so_xpg_rcvbuf = pso->so_xpg_rcvbuf; 13088348SEric.Yu@Sun.COM /* 13098348SEric.Yu@Sun.COM * Make note of the socket level options. TCP and IP level 13108348SEric.Yu@Sun.COM * options are already inherited. We could do all this after 13118348SEric.Yu@Sun.COM * accept is successful but doing it here simplifies code and 13128348SEric.Yu@Sun.COM * no harm done for error case. 13138348SEric.Yu@Sun.COM */ 13148348SEric.Yu@Sun.COM so->so_options = pso->so_options & (SO_DEBUG|SO_REUSEADDR| 13158465SEric.Yu@Sun.COM SO_KEEPALIVE|SO_DONTROUTE|SO_BROADCAST|SO_USELOOPBACK| 13168348SEric.Yu@Sun.COM SO_OOBINLINE|SO_DGRAM_ERRIND|SO_LINGER); 13178348SEric.Yu@Sun.COM so->so_proto_props = pso->so_proto_props; 13188348SEric.Yu@Sun.COM so->so_mode = pso->so_mode; 13198427SAnders.Persson@Sun.COM so->so_pollev = pso->so_pollev & SO_POLLEV_ALWAYS; 13208348SEric.Yu@Sun.COM 13218348SEric.Yu@Sun.COM mutex_exit(&pso->so_lock); 13228348SEric.Yu@Sun.COM } else { 13238348SEric.Yu@Sun.COM struct sockparams *sp = so->so_sockparams; 13248348SEric.Yu@Sun.COM sock_upcalls_t *upcalls_to_use; 13258348SEric.Yu@Sun.COM 13268348SEric.Yu@Sun.COM /* 13278348SEric.Yu@Sun.COM * Based on the version number select the right upcalls to 13288348SEric.Yu@Sun.COM * pass down. Currently we only have one version so choose 13298348SEric.Yu@Sun.COM * default 13308348SEric.Yu@Sun.COM */ 13318348SEric.Yu@Sun.COM upcalls_to_use = &so_upcalls; 13328348SEric.Yu@Sun.COM 13338348SEric.Yu@Sun.COM /* active open, so create a lower handle */ 13348348SEric.Yu@Sun.COM so->so_proto_handle = 13358348SEric.Yu@Sun.COM sp->sp_smod_info->smod_proto_create_func(so->so_family, 13368348SEric.Yu@Sun.COM so->so_type, so->so_protocol, &so->so_downcalls, 13378348SEric.Yu@Sun.COM &so->so_mode, &error, flags, cr); 13388348SEric.Yu@Sun.COM 13398348SEric.Yu@Sun.COM if (so->so_proto_handle == NULL) { 13408348SEric.Yu@Sun.COM ASSERT(error != 0); 13418348SEric.Yu@Sun.COM /* 13428348SEric.Yu@Sun.COM * To be safe; if a lower handle cannot be created, and 13438348SEric.Yu@Sun.COM * the proto does not give a reason why, assume there 13448348SEric.Yu@Sun.COM * was a lack of memory. 13458348SEric.Yu@Sun.COM */ 13468348SEric.Yu@Sun.COM return ((error == 0) ? ENOMEM : error); 13478348SEric.Yu@Sun.COM } 13488348SEric.Yu@Sun.COM ASSERT(so->so_downcalls != NULL); 13498348SEric.Yu@Sun.COM ASSERT(so->so_downcalls->sd_send != NULL || 13508348SEric.Yu@Sun.COM so->so_downcalls->sd_send_uio != NULL); 13518348SEric.Yu@Sun.COM if (so->so_downcalls->sd_recv_uio != NULL) { 13528348SEric.Yu@Sun.COM ASSERT(so->so_downcalls->sd_poll != NULL); 13538348SEric.Yu@Sun.COM so->so_pollev |= SO_POLLEV_ALWAYS; 13548348SEric.Yu@Sun.COM } 13558348SEric.Yu@Sun.COM 13568348SEric.Yu@Sun.COM (*so->so_downcalls->sd_activate)(so->so_proto_handle, 13578348SEric.Yu@Sun.COM (sock_upper_handle_t)so, upcalls_to_use, 0, cr); 13588348SEric.Yu@Sun.COM 13598348SEric.Yu@Sun.COM /* Wildcard */ 13608348SEric.Yu@Sun.COM 13618348SEric.Yu@Sun.COM /* 13628348SEric.Yu@Sun.COM * FIXME No need for this, the protocol can deal with it in 13638348SEric.Yu@Sun.COM * sd_create(). Should update ICMP. 13648348SEric.Yu@Sun.COM */ 13658348SEric.Yu@Sun.COM if (so->so_protocol != so->so_sockparams->sp_protocol) { 13668348SEric.Yu@Sun.COM int protocol = so->so_protocol; 13678348SEric.Yu@Sun.COM int error; 13688348SEric.Yu@Sun.COM /* 13698348SEric.Yu@Sun.COM * Issue SO_PROTOTYPE setsockopt. 13708348SEric.Yu@Sun.COM */ 13718348SEric.Yu@Sun.COM error = socket_setsockopt(so, SOL_SOCKET, SO_PROTOTYPE, 13728348SEric.Yu@Sun.COM &protocol, (t_uscalar_t)sizeof (protocol), cr); 13738348SEric.Yu@Sun.COM if (error) { 13748348SEric.Yu@Sun.COM (void) (*so->so_downcalls->sd_close) 13758348SEric.Yu@Sun.COM (so->so_proto_handle, 0, cr); 13768348SEric.Yu@Sun.COM 13778348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 13788348SEric.Yu@Sun.COM so_rcv_flush(so); 13798348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 13808348SEric.Yu@Sun.COM /* 13818348SEric.Yu@Sun.COM * Setsockopt often fails with ENOPROTOOPT but 13828348SEric.Yu@Sun.COM * socket() should fail with 13838348SEric.Yu@Sun.COM * EPROTONOSUPPORT/EPROTOTYPE. 13848348SEric.Yu@Sun.COM */ 13858348SEric.Yu@Sun.COM return (EPROTONOSUPPORT); 13868348SEric.Yu@Sun.COM } 13878348SEric.Yu@Sun.COM } 13888348SEric.Yu@Sun.COM } 13899491SAnders.Persson@Sun.COM 13909491SAnders.Persson@Sun.COM if (uioasync.enabled) 13919491SAnders.Persson@Sun.COM sod_sock_init(so); 13929491SAnders.Persson@Sun.COM 13939491SAnders.Persson@Sun.COM return (0); 13948348SEric.Yu@Sun.COM } 13958348SEric.Yu@Sun.COM 13968348SEric.Yu@Sun.COM /* 13978348SEric.Yu@Sun.COM * int socket_ioctl_common(struct sonode *so, int cmd, intptr_t arg, int mode, 13988348SEric.Yu@Sun.COM * struct cred *cr, int32_t *rvalp) 13998348SEric.Yu@Sun.COM * 14008348SEric.Yu@Sun.COM * Handle ioctls that manipulate basic socket state; non-blocking, 14018348SEric.Yu@Sun.COM * async, etc. 14028348SEric.Yu@Sun.COM * 14038348SEric.Yu@Sun.COM * Returns: 14048348SEric.Yu@Sun.COM * < 0 - ioctl was not handle 14058348SEric.Yu@Sun.COM * >= 0 - ioctl was handled, if > 0, then it is an errno 14068348SEric.Yu@Sun.COM * 14078348SEric.Yu@Sun.COM * Notes: 14088348SEric.Yu@Sun.COM * Assumes the standard receive buffer is used to obtain info for 14098348SEric.Yu@Sun.COM * NREAD. 14108348SEric.Yu@Sun.COM */ 14118348SEric.Yu@Sun.COM /* ARGSUSED */ 14128348SEric.Yu@Sun.COM int 14138348SEric.Yu@Sun.COM socket_ioctl_common(struct sonode *so, int cmd, intptr_t arg, int mode, 14148348SEric.Yu@Sun.COM struct cred *cr, int32_t *rvalp) 14158348SEric.Yu@Sun.COM { 14168348SEric.Yu@Sun.COM switch (cmd) { 14178477SRao.Shoaib@Sun.COM case SIOCSQPTR: 14188477SRao.Shoaib@Sun.COM /* 14198477SRao.Shoaib@Sun.COM * SIOCSQPTR is valid only when helper stream is created 14208477SRao.Shoaib@Sun.COM * by the protocol. 14218477SRao.Shoaib@Sun.COM */ 14228477SRao.Shoaib@Sun.COM 14238477SRao.Shoaib@Sun.COM return (EOPNOTSUPP); 14248348SEric.Yu@Sun.COM case FIONBIO: { 14258348SEric.Yu@Sun.COM int32_t value; 14268348SEric.Yu@Sun.COM 14278348SEric.Yu@Sun.COM if (so_copyin((void *)arg, &value, sizeof (int32_t), 14288348SEric.Yu@Sun.COM (mode & (int)FKIOCTL))) 14298348SEric.Yu@Sun.COM return (EFAULT); 14308348SEric.Yu@Sun.COM 14318348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 14328348SEric.Yu@Sun.COM if (value) { 14338348SEric.Yu@Sun.COM so->so_state |= SS_NDELAY; 14348348SEric.Yu@Sun.COM } else { 14358348SEric.Yu@Sun.COM so->so_state &= ~SS_NDELAY; 14368348SEric.Yu@Sun.COM } 14378348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 14388348SEric.Yu@Sun.COM return (0); 14398348SEric.Yu@Sun.COM } 14408348SEric.Yu@Sun.COM case FIOASYNC: { 14418348SEric.Yu@Sun.COM int32_t value; 14428348SEric.Yu@Sun.COM 14438348SEric.Yu@Sun.COM if (so_copyin((void *)arg, &value, sizeof (int32_t), 14448348SEric.Yu@Sun.COM (mode & (int)FKIOCTL))) 14458348SEric.Yu@Sun.COM return (EFAULT); 14468348SEric.Yu@Sun.COM 14478348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 14488348SEric.Yu@Sun.COM 14498348SEric.Yu@Sun.COM if (value) { 14508348SEric.Yu@Sun.COM /* Turn on SIGIO */ 14518348SEric.Yu@Sun.COM so->so_state |= SS_ASYNC; 14528348SEric.Yu@Sun.COM } else { 14538348SEric.Yu@Sun.COM /* Turn off SIGIO */ 14548348SEric.Yu@Sun.COM so->so_state &= ~SS_ASYNC; 14558348SEric.Yu@Sun.COM } 14568348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 14578348SEric.Yu@Sun.COM 14588348SEric.Yu@Sun.COM return (0); 14598348SEric.Yu@Sun.COM } 14608348SEric.Yu@Sun.COM 14618348SEric.Yu@Sun.COM case SIOCSPGRP: 14628348SEric.Yu@Sun.COM case FIOSETOWN: { 14638348SEric.Yu@Sun.COM int error; 14648348SEric.Yu@Sun.COM pid_t pid; 14658348SEric.Yu@Sun.COM 14668348SEric.Yu@Sun.COM if (so_copyin((void *)arg, &pid, sizeof (pid_t), 14678348SEric.Yu@Sun.COM (mode & (int)FKIOCTL))) 14688348SEric.Yu@Sun.COM return (EFAULT); 14698348SEric.Yu@Sun.COM 14708348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 14718348SEric.Yu@Sun.COM error = (pid != so->so_pgrp) ? socket_chgpgrp(so, pid) : 0; 14728348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 14738348SEric.Yu@Sun.COM return (error); 14748348SEric.Yu@Sun.COM } 14758348SEric.Yu@Sun.COM case SIOCGPGRP: 14768348SEric.Yu@Sun.COM case FIOGETOWN: 14778348SEric.Yu@Sun.COM if (so_copyout(&so->so_pgrp, (void *)arg, 14788348SEric.Yu@Sun.COM sizeof (pid_t), (mode & (int)FKIOCTL))) 14798348SEric.Yu@Sun.COM return (EFAULT); 14808348SEric.Yu@Sun.COM 14818348SEric.Yu@Sun.COM return (0); 14828348SEric.Yu@Sun.COM case SIOCATMARK: { 14838348SEric.Yu@Sun.COM int retval; 14848348SEric.Yu@Sun.COM 14858348SEric.Yu@Sun.COM /* 14868348SEric.Yu@Sun.COM * Only protocols that support urgent data can handle ATMARK. 14878348SEric.Yu@Sun.COM */ 14888348SEric.Yu@Sun.COM if ((so->so_mode & SM_EXDATA) == 0) 14898348SEric.Yu@Sun.COM return (EINVAL); 14908348SEric.Yu@Sun.COM 14918348SEric.Yu@Sun.COM /* 14928348SEric.Yu@Sun.COM * If the protocol is maintaining its own buffer, then the 14938348SEric.Yu@Sun.COM * request must be passed down. 14948348SEric.Yu@Sun.COM */ 14958348SEric.Yu@Sun.COM if (so->so_downcalls->sd_recv_uio != NULL) 14968348SEric.Yu@Sun.COM return (-1); 14978348SEric.Yu@Sun.COM 14988348SEric.Yu@Sun.COM retval = (so->so_state & SS_RCVATMARK) != 0; 14998348SEric.Yu@Sun.COM 15008348SEric.Yu@Sun.COM if (so_copyout(&retval, (void *)arg, sizeof (int), 15018348SEric.Yu@Sun.COM (mode & (int)FKIOCTL))) { 15028348SEric.Yu@Sun.COM return (EFAULT); 15038348SEric.Yu@Sun.COM } 15048348SEric.Yu@Sun.COM return (0); 15058348SEric.Yu@Sun.COM } 15068348SEric.Yu@Sun.COM 15078348SEric.Yu@Sun.COM case FIONREAD: { 15088348SEric.Yu@Sun.COM int retval; 15098348SEric.Yu@Sun.COM 15108348SEric.Yu@Sun.COM /* 15118348SEric.Yu@Sun.COM * If the protocol is maintaining its own buffer, then the 15128348SEric.Yu@Sun.COM * request must be passed down. 15138348SEric.Yu@Sun.COM */ 15148348SEric.Yu@Sun.COM if (so->so_downcalls->sd_recv_uio != NULL) 15158348SEric.Yu@Sun.COM return (-1); 15168348SEric.Yu@Sun.COM 15178348SEric.Yu@Sun.COM retval = MIN(so->so_rcv_queued, INT_MAX); 15188348SEric.Yu@Sun.COM 15198348SEric.Yu@Sun.COM if (so_copyout(&retval, (void *)arg, 15208348SEric.Yu@Sun.COM sizeof (retval), (mode & (int)FKIOCTL))) { 15218348SEric.Yu@Sun.COM return (EFAULT); 15228348SEric.Yu@Sun.COM } 15238348SEric.Yu@Sun.COM return (0); 15248348SEric.Yu@Sun.COM } 15258348SEric.Yu@Sun.COM 15268348SEric.Yu@Sun.COM case _I_GETPEERCRED: { 15278348SEric.Yu@Sun.COM int error = 0; 15288348SEric.Yu@Sun.COM 15298348SEric.Yu@Sun.COM if ((mode & FKIOCTL) == 0) 15308348SEric.Yu@Sun.COM return (EINVAL); 15318348SEric.Yu@Sun.COM 15328348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 15338348SEric.Yu@Sun.COM if ((so->so_mode & SM_CONNREQUIRED) == 0) { 15348348SEric.Yu@Sun.COM error = ENOTSUP; 15358348SEric.Yu@Sun.COM } else if ((so->so_state & SS_ISCONNECTED) == 0) { 15368348SEric.Yu@Sun.COM error = ENOTCONN; 15378348SEric.Yu@Sun.COM } else if (so->so_peercred != NULL) { 15388348SEric.Yu@Sun.COM k_peercred_t *kp = (k_peercred_t *)arg; 15398348SEric.Yu@Sun.COM kp->pc_cr = so->so_peercred; 15408348SEric.Yu@Sun.COM kp->pc_cpid = so->so_cpid; 15418348SEric.Yu@Sun.COM crhold(so->so_peercred); 15428348SEric.Yu@Sun.COM } else { 15438348SEric.Yu@Sun.COM error = EINVAL; 15448348SEric.Yu@Sun.COM } 15458348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 15468348SEric.Yu@Sun.COM return (error); 15478348SEric.Yu@Sun.COM } 15488348SEric.Yu@Sun.COM default: 15498348SEric.Yu@Sun.COM return (-1); 15508348SEric.Yu@Sun.COM } 15518348SEric.Yu@Sun.COM } 15528348SEric.Yu@Sun.COM 15538348SEric.Yu@Sun.COM /* 15548963SAnders.Persson@Sun.COM * Handle the I_NREAD STREAM ioctl. 15558963SAnders.Persson@Sun.COM */ 15568963SAnders.Persson@Sun.COM static int 15578963SAnders.Persson@Sun.COM so_strioc_nread(struct sonode *so, intptr_t arg, int mode, int32_t *rvalp) 15588963SAnders.Persson@Sun.COM { 15598963SAnders.Persson@Sun.COM size_t size = 0; 15608963SAnders.Persson@Sun.COM int retval; 15618963SAnders.Persson@Sun.COM int count = 0; 15628963SAnders.Persson@Sun.COM mblk_t *mp; 15638963SAnders.Persson@Sun.COM 15648963SAnders.Persson@Sun.COM if (so->so_downcalls == NULL || 15658963SAnders.Persson@Sun.COM so->so_downcalls->sd_recv_uio != NULL) 15668963SAnders.Persson@Sun.COM return (EINVAL); 15678963SAnders.Persson@Sun.COM 15688963SAnders.Persson@Sun.COM mutex_enter(&so->so_lock); 15698963SAnders.Persson@Sun.COM /* Wait for reader to get out of the way. */ 15708963SAnders.Persson@Sun.COM while (so->so_flag & SOREADLOCKED) { 15718963SAnders.Persson@Sun.COM /* 15728963SAnders.Persson@Sun.COM * If reader is waiting for data, then there should be nothing 15738963SAnders.Persson@Sun.COM * on the rcv queue. 15748963SAnders.Persson@Sun.COM */ 15758963SAnders.Persson@Sun.COM if (so->so_rcv_wakeup) 15768963SAnders.Persson@Sun.COM goto out; 15778963SAnders.Persson@Sun.COM 15788963SAnders.Persson@Sun.COM so->so_flag |= SOWANT; 15798963SAnders.Persson@Sun.COM /* Do a timed sleep, in case the reader goes to sleep. */ 15808963SAnders.Persson@Sun.COM (void) cv_timedwait(&so->so_state_cv, &so->so_lock, 15818963SAnders.Persson@Sun.COM lbolt + drv_usectohz(10)); 15828963SAnders.Persson@Sun.COM } 15838963SAnders.Persson@Sun.COM 15848963SAnders.Persson@Sun.COM /* 15858963SAnders.Persson@Sun.COM * Since we are holding so_lock no new reader will come in, and the 15868963SAnders.Persson@Sun.COM * protocol will not be able to enqueue data. So it's safe to walk 15878963SAnders.Persson@Sun.COM * both rcv queues. 15888963SAnders.Persson@Sun.COM */ 15898963SAnders.Persson@Sun.COM mp = so->so_rcv_q_head; 15908963SAnders.Persson@Sun.COM if (mp != NULL) { 15918963SAnders.Persson@Sun.COM size = msgdsize(so->so_rcv_q_head); 15928963SAnders.Persson@Sun.COM for (; mp != NULL; mp = mp->b_next) 15938963SAnders.Persson@Sun.COM count++; 15948963SAnders.Persson@Sun.COM } else { 15958963SAnders.Persson@Sun.COM /* 15968963SAnders.Persson@Sun.COM * In case the processing list was empty, get the size of the 15978963SAnders.Persson@Sun.COM * next msg in line. 15988963SAnders.Persson@Sun.COM */ 15998963SAnders.Persson@Sun.COM size = msgdsize(so->so_rcv_head); 16008963SAnders.Persson@Sun.COM } 16018963SAnders.Persson@Sun.COM 16028963SAnders.Persson@Sun.COM for (mp = so->so_rcv_head; mp != NULL; mp = mp->b_next) 16038963SAnders.Persson@Sun.COM count++; 16048963SAnders.Persson@Sun.COM out: 16058963SAnders.Persson@Sun.COM mutex_exit(&so->so_lock); 16068963SAnders.Persson@Sun.COM 16078963SAnders.Persson@Sun.COM /* 16088963SAnders.Persson@Sun.COM * Drop down from size_t to the "int" required by the 16098963SAnders.Persson@Sun.COM * interface. Cap at INT_MAX. 16108963SAnders.Persson@Sun.COM */ 16118963SAnders.Persson@Sun.COM retval = MIN(size, INT_MAX); 16128963SAnders.Persson@Sun.COM if (so_copyout(&retval, (void *)arg, sizeof (retval), 16138963SAnders.Persson@Sun.COM (mode & (int)FKIOCTL))) { 16148963SAnders.Persson@Sun.COM return (EFAULT); 16158963SAnders.Persson@Sun.COM } else { 16168963SAnders.Persson@Sun.COM *rvalp = count; 16178963SAnders.Persson@Sun.COM return (0); 16188963SAnders.Persson@Sun.COM } 16198963SAnders.Persson@Sun.COM } 16208963SAnders.Persson@Sun.COM 16218963SAnders.Persson@Sun.COM /* 16228963SAnders.Persson@Sun.COM * Process STREAM ioctls. 16238348SEric.Yu@Sun.COM * 16248348SEric.Yu@Sun.COM * Returns: 16258348SEric.Yu@Sun.COM * < 0 - ioctl was not handle 16268348SEric.Yu@Sun.COM * >= 0 - ioctl was handled, if > 0, then it is an errno 16278348SEric.Yu@Sun.COM */ 16288348SEric.Yu@Sun.COM int 16298348SEric.Yu@Sun.COM socket_strioc_common(struct sonode *so, int cmd, intptr_t arg, int mode, 16308348SEric.Yu@Sun.COM struct cred *cr, int32_t *rvalp) 16318348SEric.Yu@Sun.COM { 16328963SAnders.Persson@Sun.COM int retval; 16338963SAnders.Persson@Sun.COM 16348963SAnders.Persson@Sun.COM /* Only STREAM iotcls are handled here */ 16358963SAnders.Persson@Sun.COM if ((cmd & 0xffffff00U) != STR) 16368963SAnders.Persson@Sun.COM return (-1); 16378348SEric.Yu@Sun.COM 16388963SAnders.Persson@Sun.COM switch (cmd) { 16398963SAnders.Persson@Sun.COM case I_CANPUT: 16408963SAnders.Persson@Sun.COM /* 16418963SAnders.Persson@Sun.COM * We return an error for I_CANPUT so that isastream(3C) will 16428963SAnders.Persson@Sun.COM * not report the socket as being a STREAM. 16438963SAnders.Persson@Sun.COM */ 16448963SAnders.Persson@Sun.COM return (EOPNOTSUPP); 16458963SAnders.Persson@Sun.COM case I_NREAD: 16468963SAnders.Persson@Sun.COM /* Avoid doing a fallback for I_NREAD. */ 16478963SAnders.Persson@Sun.COM return (so_strioc_nread(so, arg, mode, rvalp)); 16488348SEric.Yu@Sun.COM case I_LOOK: 16498963SAnders.Persson@Sun.COM /* Avoid doing a fallback for I_LOOK. */ 16508348SEric.Yu@Sun.COM if (so_copyout("sockmod", (void *)arg, strlen("sockmod") + 1, 16518348SEric.Yu@Sun.COM (mode & (int)FKIOCTL))) { 16528348SEric.Yu@Sun.COM return (EFAULT); 16538348SEric.Yu@Sun.COM } 16548348SEric.Yu@Sun.COM return (0); 16558348SEric.Yu@Sun.COM default: 16568963SAnders.Persson@Sun.COM break; 16578963SAnders.Persson@Sun.COM } 16588963SAnders.Persson@Sun.COM 16598963SAnders.Persson@Sun.COM /* 16608963SAnders.Persson@Sun.COM * Try to fall back to TPI, and if successful, reissue the ioctl. 16618963SAnders.Persson@Sun.COM */ 16628963SAnders.Persson@Sun.COM if ((retval = so_tpi_fallback(so, cr)) == 0) { 16638963SAnders.Persson@Sun.COM /* Reissue the ioctl */ 16648963SAnders.Persson@Sun.COM ASSERT(so->so_rcv_q_head == NULL); 16658963SAnders.Persson@Sun.COM return (SOP_IOCTL(so, cmd, arg, mode, cr, rvalp)); 16668963SAnders.Persson@Sun.COM } else { 16678963SAnders.Persson@Sun.COM return (retval); 16688348SEric.Yu@Sun.COM } 16698348SEric.Yu@Sun.COM } 16708348SEric.Yu@Sun.COM 1671*10833SAnders.Persson@Sun.COM /* 1672*10833SAnders.Persson@Sun.COM * This is called for all socket types to verify that the buffer size is large 1673*10833SAnders.Persson@Sun.COM * enough for the option, and if we can, handle the request as well. Most 1674*10833SAnders.Persson@Sun.COM * options will be forwarded to the protocol. 1675*10833SAnders.Persson@Sun.COM */ 16768348SEric.Yu@Sun.COM int 16778348SEric.Yu@Sun.COM socket_getopt_common(struct sonode *so, int level, int option_name, 16788465SEric.Yu@Sun.COM void *optval, socklen_t *optlenp, int flags) 16798348SEric.Yu@Sun.COM { 16808348SEric.Yu@Sun.COM if (level != SOL_SOCKET) 16818348SEric.Yu@Sun.COM return (-1); 16828348SEric.Yu@Sun.COM 16838348SEric.Yu@Sun.COM switch (option_name) { 16848348SEric.Yu@Sun.COM case SO_ERROR: 16858348SEric.Yu@Sun.COM case SO_DOMAIN: 16868348SEric.Yu@Sun.COM case SO_TYPE: 16878348SEric.Yu@Sun.COM case SO_ACCEPTCONN: { 16888348SEric.Yu@Sun.COM int32_t value; 16898348SEric.Yu@Sun.COM socklen_t optlen = *optlenp; 16908348SEric.Yu@Sun.COM 16918348SEric.Yu@Sun.COM if (optlen < (t_uscalar_t)sizeof (int32_t)) { 16928348SEric.Yu@Sun.COM return (EINVAL); 16938348SEric.Yu@Sun.COM } 16948348SEric.Yu@Sun.COM 16958348SEric.Yu@Sun.COM switch (option_name) { 16968348SEric.Yu@Sun.COM case SO_ERROR: 16978348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 16988348SEric.Yu@Sun.COM value = sogeterr(so, B_TRUE); 16998348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 17008348SEric.Yu@Sun.COM break; 17018348SEric.Yu@Sun.COM case SO_DOMAIN: 17028348SEric.Yu@Sun.COM value = so->so_family; 17038348SEric.Yu@Sun.COM break; 17048348SEric.Yu@Sun.COM case SO_TYPE: 17058348SEric.Yu@Sun.COM value = so->so_type; 17068348SEric.Yu@Sun.COM break; 17078348SEric.Yu@Sun.COM case SO_ACCEPTCONN: 17088348SEric.Yu@Sun.COM if (so->so_state & SS_ACCEPTCONN) 17098348SEric.Yu@Sun.COM value = SO_ACCEPTCONN; 17108348SEric.Yu@Sun.COM else 17118348SEric.Yu@Sun.COM value = 0; 17128348SEric.Yu@Sun.COM break; 17138348SEric.Yu@Sun.COM } 17148348SEric.Yu@Sun.COM 17158348SEric.Yu@Sun.COM bcopy(&value, optval, sizeof (value)); 17168348SEric.Yu@Sun.COM *optlenp = sizeof (value); 17178348SEric.Yu@Sun.COM 17188348SEric.Yu@Sun.COM return (0); 17198348SEric.Yu@Sun.COM } 17208348SEric.Yu@Sun.COM case SO_SNDTIMEO: 17218348SEric.Yu@Sun.COM case SO_RCVTIMEO: { 17228348SEric.Yu@Sun.COM clock_t value; 17238348SEric.Yu@Sun.COM socklen_t optlen = *optlenp; 17248575Sshenjian 17258575Sshenjian if (get_udatamodel() == DATAMODEL_NONE || 17268575Sshenjian get_udatamodel() == DATAMODEL_NATIVE) { 17278489Sshenjian if (optlen < sizeof (struct timeval)) 17288489Sshenjian return (EINVAL); 17298489Sshenjian } else { 17308489Sshenjian if (optlen < sizeof (struct timeval32)) 17318489Sshenjian return (EINVAL); 17328348SEric.Yu@Sun.COM } 17338348SEric.Yu@Sun.COM if (option_name == SO_RCVTIMEO) 17348348SEric.Yu@Sun.COM value = drv_hztousec(so->so_rcvtimeo); 17358348SEric.Yu@Sun.COM else 17368348SEric.Yu@Sun.COM value = drv_hztousec(so->so_sndtimeo); 17378489Sshenjian 17388575Sshenjian if (get_udatamodel() == DATAMODEL_NONE || 17398575Sshenjian get_udatamodel() == DATAMODEL_NATIVE) { 17408489Sshenjian ((struct timeval *)(optval))->tv_sec = 17418489Sshenjian value / (1000 * 1000); 17428489Sshenjian ((struct timeval *)(optval))->tv_usec = 17438489Sshenjian value % (1000 * 1000); 17448489Sshenjian *optlenp = sizeof (struct timeval); 17458489Sshenjian } else { 17468489Sshenjian ((struct timeval32 *)(optval))->tv_sec = 17478489Sshenjian value / (1000 * 1000); 17488489Sshenjian ((struct timeval32 *)(optval))->tv_usec = 17498489Sshenjian value % (1000 * 1000); 17508489Sshenjian *optlenp = sizeof (struct timeval32); 17518489Sshenjian } 17528348SEric.Yu@Sun.COM return (0); 17538348SEric.Yu@Sun.COM } 17548348SEric.Yu@Sun.COM case SO_DEBUG: 17558348SEric.Yu@Sun.COM case SO_REUSEADDR: 17568348SEric.Yu@Sun.COM case SO_KEEPALIVE: 17578348SEric.Yu@Sun.COM case SO_DONTROUTE: 17588348SEric.Yu@Sun.COM case SO_BROADCAST: 17598348SEric.Yu@Sun.COM case SO_USELOOPBACK: 17608348SEric.Yu@Sun.COM case SO_OOBINLINE: 17618348SEric.Yu@Sun.COM case SO_SNDBUF: 17628348SEric.Yu@Sun.COM #ifdef notyet 17638348SEric.Yu@Sun.COM case SO_SNDLOWAT: 17648348SEric.Yu@Sun.COM case SO_RCVLOWAT: 17658348SEric.Yu@Sun.COM #endif /* notyet */ 17668348SEric.Yu@Sun.COM case SO_DGRAM_ERRIND: { 17678348SEric.Yu@Sun.COM socklen_t optlen = *optlenp; 17688348SEric.Yu@Sun.COM 17698348SEric.Yu@Sun.COM if (optlen < (t_uscalar_t)sizeof (int32_t)) 17708348SEric.Yu@Sun.COM return (EINVAL); 17718348SEric.Yu@Sun.COM break; 17728348SEric.Yu@Sun.COM } 17738465SEric.Yu@Sun.COM case SO_RCVBUF: { 17748465SEric.Yu@Sun.COM socklen_t optlen = *optlenp; 17758465SEric.Yu@Sun.COM 17768465SEric.Yu@Sun.COM if (optlen < (t_uscalar_t)sizeof (int32_t)) 17778465SEric.Yu@Sun.COM return (EINVAL); 17788465SEric.Yu@Sun.COM 17798465SEric.Yu@Sun.COM if ((flags & _SOGETSOCKOPT_XPG4_2) && so->so_xpg_rcvbuf != 0) { 17808465SEric.Yu@Sun.COM /* 17818465SEric.Yu@Sun.COM * XXX If SO_RCVBUF has been set and this is an 17828465SEric.Yu@Sun.COM * XPG 4.2 application then do not ask the transport 17838465SEric.Yu@Sun.COM * since the transport might adjust the value and not 17848465SEric.Yu@Sun.COM * return exactly what was set by the application. 17858465SEric.Yu@Sun.COM * For non-XPG 4.2 application we return the value 17868465SEric.Yu@Sun.COM * that the transport is actually using. 17878465SEric.Yu@Sun.COM */ 17888465SEric.Yu@Sun.COM *(int32_t *)optval = so->so_xpg_rcvbuf; 17898465SEric.Yu@Sun.COM *optlenp = sizeof (so->so_xpg_rcvbuf); 17908465SEric.Yu@Sun.COM return (0); 17918465SEric.Yu@Sun.COM } 17928465SEric.Yu@Sun.COM /* 17938465SEric.Yu@Sun.COM * If the option has not been set then get a default 17948465SEric.Yu@Sun.COM * value from the transport. 17958465SEric.Yu@Sun.COM */ 17968465SEric.Yu@Sun.COM break; 17978465SEric.Yu@Sun.COM } 17988348SEric.Yu@Sun.COM case SO_LINGER: { 17998348SEric.Yu@Sun.COM socklen_t optlen = *optlenp; 18008348SEric.Yu@Sun.COM 18018348SEric.Yu@Sun.COM if (optlen < (t_uscalar_t)sizeof (struct linger)) 18028348SEric.Yu@Sun.COM return (EINVAL); 18038348SEric.Yu@Sun.COM break; 18048348SEric.Yu@Sun.COM } 18058348SEric.Yu@Sun.COM case SO_SND_BUFINFO: { 18068348SEric.Yu@Sun.COM socklen_t optlen = *optlenp; 18078348SEric.Yu@Sun.COM 18088348SEric.Yu@Sun.COM if (optlen < (t_uscalar_t)sizeof (struct so_snd_bufinfo)) 18098348SEric.Yu@Sun.COM return (EINVAL); 18108348SEric.Yu@Sun.COM ((struct so_snd_bufinfo *)(optval))->sbi_wroff = 18118348SEric.Yu@Sun.COM (so->so_proto_props).sopp_wroff; 18128348SEric.Yu@Sun.COM ((struct so_snd_bufinfo *)(optval))->sbi_maxblk = 18138348SEric.Yu@Sun.COM (so->so_proto_props).sopp_maxblk; 18148348SEric.Yu@Sun.COM ((struct so_snd_bufinfo *)(optval))->sbi_maxpsz = 18158348SEric.Yu@Sun.COM (so->so_proto_props).sopp_maxpsz; 18168348SEric.Yu@Sun.COM ((struct so_snd_bufinfo *)(optval))->sbi_tail = 18178348SEric.Yu@Sun.COM (so->so_proto_props).sopp_tail; 18188348SEric.Yu@Sun.COM *optlenp = sizeof (struct so_snd_bufinfo); 18198348SEric.Yu@Sun.COM return (0); 18208348SEric.Yu@Sun.COM } 18218348SEric.Yu@Sun.COM default: 18228348SEric.Yu@Sun.COM break; 18238348SEric.Yu@Sun.COM } 18248348SEric.Yu@Sun.COM 18258348SEric.Yu@Sun.COM /* Unknown Option */ 18268348SEric.Yu@Sun.COM return (-1); 18278348SEric.Yu@Sun.COM } 18288348SEric.Yu@Sun.COM 18298348SEric.Yu@Sun.COM void 18308348SEric.Yu@Sun.COM socket_sonode_destroy(struct sonode *so) 18318348SEric.Yu@Sun.COM { 18328348SEric.Yu@Sun.COM sonode_fini(so); 18338348SEric.Yu@Sun.COM kmem_cache_free(socket_cache, so); 18348348SEric.Yu@Sun.COM } 18358348SEric.Yu@Sun.COM 18368348SEric.Yu@Sun.COM int 18378348SEric.Yu@Sun.COM so_zcopy_wait(struct sonode *so) 18388348SEric.Yu@Sun.COM { 18398348SEric.Yu@Sun.COM int error = 0; 18408348SEric.Yu@Sun.COM 18418348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 18428348SEric.Yu@Sun.COM while (!(so->so_copyflag & STZCNOTIFY)) { 18438348SEric.Yu@Sun.COM if (so->so_state & SS_CLOSING) { 18448348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 18458348SEric.Yu@Sun.COM return (EINTR); 18468348SEric.Yu@Sun.COM } 18478348SEric.Yu@Sun.COM if (cv_wait_sig(&so->so_copy_cv, &so->so_lock) == 0) { 18488348SEric.Yu@Sun.COM error = EINTR; 18498348SEric.Yu@Sun.COM break; 18508348SEric.Yu@Sun.COM } 18518348SEric.Yu@Sun.COM } 18528348SEric.Yu@Sun.COM so->so_copyflag &= ~STZCNOTIFY; 18538348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 18548348SEric.Yu@Sun.COM return (error); 18558348SEric.Yu@Sun.COM } 18568348SEric.Yu@Sun.COM 18578348SEric.Yu@Sun.COM void 18588348SEric.Yu@Sun.COM so_timer_callback(void *arg) 18598348SEric.Yu@Sun.COM { 18608348SEric.Yu@Sun.COM struct sonode *so = (struct sonode *)arg; 18618348SEric.Yu@Sun.COM 18628348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 18638348SEric.Yu@Sun.COM 18648348SEric.Yu@Sun.COM so->so_rcv_timer_tid = 0; 18658348SEric.Yu@Sun.COM if (so->so_rcv_queued > 0) { 18668348SEric.Yu@Sun.COM so_notify_data(so, so->so_rcv_queued); 18678348SEric.Yu@Sun.COM } else { 18688348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 18698348SEric.Yu@Sun.COM } 18708348SEric.Yu@Sun.COM } 18718348SEric.Yu@Sun.COM 18728348SEric.Yu@Sun.COM #ifdef DEBUG 18738348SEric.Yu@Sun.COM /* 18748348SEric.Yu@Sun.COM * Verify that the length stored in so_rcv_queued and the length of data blocks 18758348SEric.Yu@Sun.COM * queued is same. 18768348SEric.Yu@Sun.COM */ 18778348SEric.Yu@Sun.COM static boolean_t 18788348SEric.Yu@Sun.COM so_check_length(sonode_t *so) 18798348SEric.Yu@Sun.COM { 18808348SEric.Yu@Sun.COM mblk_t *mp = so->so_rcv_q_head; 18818348SEric.Yu@Sun.COM int len = 0; 18828348SEric.Yu@Sun.COM 18838348SEric.Yu@Sun.COM ASSERT(MUTEX_HELD(&so->so_lock)); 18848348SEric.Yu@Sun.COM 18858348SEric.Yu@Sun.COM if (mp != NULL) { 18868348SEric.Yu@Sun.COM len = msgdsize(mp); 18878348SEric.Yu@Sun.COM while ((mp = mp->b_next) != NULL) 18888348SEric.Yu@Sun.COM len += msgdsize(mp); 18898348SEric.Yu@Sun.COM } 18908348SEric.Yu@Sun.COM mp = so->so_rcv_head; 18918348SEric.Yu@Sun.COM if (mp != NULL) { 18928348SEric.Yu@Sun.COM len += msgdsize(mp); 18938348SEric.Yu@Sun.COM while ((mp = mp->b_next) != NULL) 18948348SEric.Yu@Sun.COM len += msgdsize(mp); 18958348SEric.Yu@Sun.COM } 18968348SEric.Yu@Sun.COM return ((len == so->so_rcv_queued) ? B_TRUE : B_FALSE); 18978348SEric.Yu@Sun.COM } 18988348SEric.Yu@Sun.COM #endif 18998348SEric.Yu@Sun.COM 19008348SEric.Yu@Sun.COM int 19018348SEric.Yu@Sun.COM so_get_mod_version(struct sockparams *sp) 19028348SEric.Yu@Sun.COM { 19038348SEric.Yu@Sun.COM ASSERT(sp != NULL && sp->sp_smod_info != NULL); 19048348SEric.Yu@Sun.COM return (sp->sp_smod_info->smod_version); 19058348SEric.Yu@Sun.COM } 19068348SEric.Yu@Sun.COM 19078348SEric.Yu@Sun.COM /* 19088348SEric.Yu@Sun.COM * so_start_fallback() 19098348SEric.Yu@Sun.COM * 19108348SEric.Yu@Sun.COM * Block new socket operations from coming in, and wait for active operations 19118348SEric.Yu@Sun.COM * to complete. Threads that are sleeping will be woken up so they can get 19128348SEric.Yu@Sun.COM * out of the way. 19138348SEric.Yu@Sun.COM * 19148348SEric.Yu@Sun.COM * The caller must be a reader on so_fallback_rwlock. 19158348SEric.Yu@Sun.COM */ 19168348SEric.Yu@Sun.COM static boolean_t 19178348SEric.Yu@Sun.COM so_start_fallback(struct sonode *so) 19188348SEric.Yu@Sun.COM { 19198348SEric.Yu@Sun.COM ASSERT(RW_READ_HELD(&so->so_fallback_rwlock)); 19208348SEric.Yu@Sun.COM 19218348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 19228348SEric.Yu@Sun.COM if (so->so_state & SS_FALLBACK_PENDING) { 19238348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 19248348SEric.Yu@Sun.COM return (B_FALSE); 19258348SEric.Yu@Sun.COM } 19268348SEric.Yu@Sun.COM so->so_state |= SS_FALLBACK_PENDING; 19278348SEric.Yu@Sun.COM /* 19288348SEric.Yu@Sun.COM * Poke all threads that might be sleeping. Any operation that comes 19298348SEric.Yu@Sun.COM * in after the cv_broadcast will observe the fallback pending flag 19308348SEric.Yu@Sun.COM * which cause the call to return where it would normally sleep. 19318348SEric.Yu@Sun.COM */ 19328348SEric.Yu@Sun.COM cv_broadcast(&so->so_state_cv); /* threads in connect() */ 19338348SEric.Yu@Sun.COM cv_broadcast(&so->so_rcv_cv); /* threads in recvmsg() */ 19348348SEric.Yu@Sun.COM cv_broadcast(&so->so_snd_cv); /* threads in sendmsg() */ 19358348SEric.Yu@Sun.COM mutex_enter(&so->so_acceptq_lock); 19368348SEric.Yu@Sun.COM cv_broadcast(&so->so_acceptq_cv); /* threads in accept() */ 19378348SEric.Yu@Sun.COM mutex_exit(&so->so_acceptq_lock); 19388348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 19398348SEric.Yu@Sun.COM 19408348SEric.Yu@Sun.COM /* 19418348SEric.Yu@Sun.COM * The main reason for the rw_tryupgrade call is to provide 19428348SEric.Yu@Sun.COM * observability during the fallback process. We want to 19438348SEric.Yu@Sun.COM * be able to see if there are pending operations. 19448348SEric.Yu@Sun.COM */ 19458348SEric.Yu@Sun.COM if (rw_tryupgrade(&so->so_fallback_rwlock) == 0) { 19468348SEric.Yu@Sun.COM /* 19478348SEric.Yu@Sun.COM * It is safe to drop and reaquire the fallback lock, because 19488348SEric.Yu@Sun.COM * we are guaranteed that another fallback cannot take place. 19498348SEric.Yu@Sun.COM */ 19508348SEric.Yu@Sun.COM rw_exit(&so->so_fallback_rwlock); 19518348SEric.Yu@Sun.COM DTRACE_PROBE1(pending__ops__wait, (struct sonode *), so); 19528348SEric.Yu@Sun.COM rw_enter(&so->so_fallback_rwlock, RW_WRITER); 19538348SEric.Yu@Sun.COM DTRACE_PROBE1(pending__ops__complete, (struct sonode *), so); 19548348SEric.Yu@Sun.COM } 19558348SEric.Yu@Sun.COM 19568348SEric.Yu@Sun.COM return (B_TRUE); 19578348SEric.Yu@Sun.COM } 19588348SEric.Yu@Sun.COM 19598348SEric.Yu@Sun.COM /* 19608348SEric.Yu@Sun.COM * so_end_fallback() 19618348SEric.Yu@Sun.COM * 19628348SEric.Yu@Sun.COM * Allow socket opertions back in. 19638348SEric.Yu@Sun.COM * 19648348SEric.Yu@Sun.COM * The caller must be a writer on so_fallback_rwlock. 19658348SEric.Yu@Sun.COM */ 19668348SEric.Yu@Sun.COM static void 19678348SEric.Yu@Sun.COM so_end_fallback(struct sonode *so) 19688348SEric.Yu@Sun.COM { 19698348SEric.Yu@Sun.COM ASSERT(RW_ISWRITER(&so->so_fallback_rwlock)); 19708348SEric.Yu@Sun.COM 19718348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 19728963SAnders.Persson@Sun.COM so->so_state &= ~(SS_FALLBACK_PENDING|SS_FALLBACK_DRAIN); 19738348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 19748348SEric.Yu@Sun.COM 19758348SEric.Yu@Sun.COM rw_downgrade(&so->so_fallback_rwlock); 19768348SEric.Yu@Sun.COM } 19778348SEric.Yu@Sun.COM 19788348SEric.Yu@Sun.COM /* 19798348SEric.Yu@Sun.COM * so_quiesced_cb() 19808348SEric.Yu@Sun.COM * 19818348SEric.Yu@Sun.COM * Callback passed to the protocol during fallback. It is called once 19828348SEric.Yu@Sun.COM * the endpoint is quiescent. 19838348SEric.Yu@Sun.COM * 19848348SEric.Yu@Sun.COM * No requests from the user, no notifications from the protocol, so it 19858348SEric.Yu@Sun.COM * is safe to synchronize the state. Data can also be moved without 19868348SEric.Yu@Sun.COM * risk for reordering. 19878348SEric.Yu@Sun.COM * 19888348SEric.Yu@Sun.COM * We do not need to hold so_lock, since there can be only one thread 19898348SEric.Yu@Sun.COM * operating on the sonode. 19908348SEric.Yu@Sun.COM */ 19918348SEric.Yu@Sun.COM static void 19928348SEric.Yu@Sun.COM so_quiesced_cb(sock_upper_handle_t sock_handle, queue_t *q, 19938348SEric.Yu@Sun.COM struct T_capability_ack *tcap, struct sockaddr *laddr, socklen_t laddrlen, 19948348SEric.Yu@Sun.COM struct sockaddr *faddr, socklen_t faddrlen, short opts) 19958348SEric.Yu@Sun.COM { 19968348SEric.Yu@Sun.COM struct sonode *so = (struct sonode *)sock_handle; 19978963SAnders.Persson@Sun.COM boolean_t atmark; 19988348SEric.Yu@Sun.COM 19998348SEric.Yu@Sun.COM sotpi_update_state(so, tcap, laddr, laddrlen, faddr, faddrlen, opts); 20008348SEric.Yu@Sun.COM 20018963SAnders.Persson@Sun.COM /* 20028963SAnders.Persson@Sun.COM * Some protocols do not quiece the data path during fallback. Once 20038963SAnders.Persson@Sun.COM * we set the SS_FALLBACK_DRAIN flag any attempt to queue data will 20048963SAnders.Persson@Sun.COM * fail and the protocol is responsible for saving the data for later 20058963SAnders.Persson@Sun.COM * delivery (i.e., once the fallback has completed). 20068963SAnders.Persson@Sun.COM */ 20078348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 20088963SAnders.Persson@Sun.COM so->so_state |= SS_FALLBACK_DRAIN; 20098348SEric.Yu@Sun.COM SOCKET_TIMER_CANCEL(so); 20108348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 20118963SAnders.Persson@Sun.COM 20128348SEric.Yu@Sun.COM if (so->so_rcv_head != NULL) { 20138348SEric.Yu@Sun.COM if (so->so_rcv_q_last_head == NULL) 20148348SEric.Yu@Sun.COM so->so_rcv_q_head = so->so_rcv_head; 20158348SEric.Yu@Sun.COM else 20168348SEric.Yu@Sun.COM so->so_rcv_q_last_head->b_next = so->so_rcv_head; 20178348SEric.Yu@Sun.COM so->so_rcv_q_last_head = so->so_rcv_last_head; 20188348SEric.Yu@Sun.COM } 20198348SEric.Yu@Sun.COM 20208963SAnders.Persson@Sun.COM atmark = (so->so_state & SS_RCVATMARK) != 0; 20218963SAnders.Persson@Sun.COM /* 20228963SAnders.Persson@Sun.COM * Clear any OOB state having to do with pending data. The TPI 20238963SAnders.Persson@Sun.COM * code path will set the appropriate oob state when we move the 20248963SAnders.Persson@Sun.COM * oob data to the STREAM head. We leave SS_HADOOBDATA since the oob 20258963SAnders.Persson@Sun.COM * data has already been consumed. 20268963SAnders.Persson@Sun.COM */ 20278963SAnders.Persson@Sun.COM so->so_state &= ~(SS_RCVATMARK|SS_OOBPEND|SS_HAVEOOBDATA); 20288963SAnders.Persson@Sun.COM 20298963SAnders.Persson@Sun.COM ASSERT(so->so_oobmsg != NULL || so->so_oobmark <= so->so_rcv_queued); 20308963SAnders.Persson@Sun.COM 20318963SAnders.Persson@Sun.COM /* 20328963SAnders.Persson@Sun.COM * Move data to the STREAM head. 20338963SAnders.Persson@Sun.COM */ 20348348SEric.Yu@Sun.COM while (so->so_rcv_q_head != NULL) { 20358348SEric.Yu@Sun.COM mblk_t *mp = so->so_rcv_q_head; 20368348SEric.Yu@Sun.COM size_t mlen = msgdsize(mp); 20378348SEric.Yu@Sun.COM 20388348SEric.Yu@Sun.COM so->so_rcv_q_head = mp->b_next; 20398348SEric.Yu@Sun.COM mp->b_next = NULL; 20408348SEric.Yu@Sun.COM mp->b_prev = NULL; 20418963SAnders.Persson@Sun.COM 20428963SAnders.Persson@Sun.COM /* 20438963SAnders.Persson@Sun.COM * Send T_EXDATA_IND if we are at the oob mark. 20448963SAnders.Persson@Sun.COM */ 20458963SAnders.Persson@Sun.COM if (atmark) { 20468963SAnders.Persson@Sun.COM struct T_exdata_ind *tei; 20478963SAnders.Persson@Sun.COM mblk_t *mp1 = SOTOTPI(so)->sti_exdata_mp; 20488963SAnders.Persson@Sun.COM 20498963SAnders.Persson@Sun.COM SOTOTPI(so)->sti_exdata_mp = NULL; 20508963SAnders.Persson@Sun.COM ASSERT(mp1 != NULL); 20518963SAnders.Persson@Sun.COM mp1->b_datap->db_type = M_PROTO; 20528963SAnders.Persson@Sun.COM tei = (struct T_exdata_ind *)mp1->b_rptr; 20538963SAnders.Persson@Sun.COM tei->PRIM_type = T_EXDATA_IND; 20548963SAnders.Persson@Sun.COM tei->MORE_flag = 0; 20558963SAnders.Persson@Sun.COM mp1->b_wptr = (uchar_t *)&tei[1]; 20568963SAnders.Persson@Sun.COM 20578963SAnders.Persson@Sun.COM if (IS_SO_OOB_INLINE(so)) { 20588963SAnders.Persson@Sun.COM mp1->b_cont = mp; 20598963SAnders.Persson@Sun.COM } else { 20608963SAnders.Persson@Sun.COM ASSERT(so->so_oobmsg != NULL); 20618963SAnders.Persson@Sun.COM mp1->b_cont = so->so_oobmsg; 20628963SAnders.Persson@Sun.COM so->so_oobmsg = NULL; 20638963SAnders.Persson@Sun.COM 20648963SAnders.Persson@Sun.COM /* process current mp next time around */ 20658963SAnders.Persson@Sun.COM mp->b_next = so->so_rcv_q_head; 20668963SAnders.Persson@Sun.COM so->so_rcv_q_head = mp; 20678963SAnders.Persson@Sun.COM mlen = 0; 20688963SAnders.Persson@Sun.COM } 20698963SAnders.Persson@Sun.COM mp = mp1; 20708963SAnders.Persson@Sun.COM 20718963SAnders.Persson@Sun.COM /* we have consumed the oob mark */ 20728963SAnders.Persson@Sun.COM atmark = B_FALSE; 20738963SAnders.Persson@Sun.COM } else if (so->so_oobmark > 0) { 20748963SAnders.Persson@Sun.COM /* 20758963SAnders.Persson@Sun.COM * Check if the OOB mark is within the current 20768963SAnders.Persson@Sun.COM * mblk chain. In that case we have to split it up. 20778963SAnders.Persson@Sun.COM */ 20788963SAnders.Persson@Sun.COM if (so->so_oobmark < mlen) { 20798963SAnders.Persson@Sun.COM mblk_t *urg_mp = mp; 20808963SAnders.Persson@Sun.COM 20818963SAnders.Persson@Sun.COM atmark = B_TRUE; 20828963SAnders.Persson@Sun.COM mp = NULL; 20838963SAnders.Persson@Sun.COM mlen = so->so_oobmark; 20848963SAnders.Persson@Sun.COM 20858963SAnders.Persson@Sun.COM /* 20868963SAnders.Persson@Sun.COM * It is assumed that the OOB mark does 20878963SAnders.Persson@Sun.COM * not land within a mblk. 20888963SAnders.Persson@Sun.COM */ 20898963SAnders.Persson@Sun.COM do { 20908963SAnders.Persson@Sun.COM so->so_oobmark -= MBLKL(urg_mp); 20918963SAnders.Persson@Sun.COM mp = urg_mp; 20928963SAnders.Persson@Sun.COM urg_mp = urg_mp->b_cont; 20938963SAnders.Persson@Sun.COM } while (so->so_oobmark > 0); 20948963SAnders.Persson@Sun.COM mp->b_cont = NULL; 20958963SAnders.Persson@Sun.COM if (urg_mp != NULL) { 20968963SAnders.Persson@Sun.COM urg_mp->b_next = so->so_rcv_q_head; 20978963SAnders.Persson@Sun.COM so->so_rcv_q_head = urg_mp; 20988963SAnders.Persson@Sun.COM } 20998963SAnders.Persson@Sun.COM } else { 21008963SAnders.Persson@Sun.COM so->so_oobmark -= mlen; 21018963SAnders.Persson@Sun.COM if (so->so_oobmark == 0) 21028963SAnders.Persson@Sun.COM atmark = B_TRUE; 21038963SAnders.Persson@Sun.COM } 21048963SAnders.Persson@Sun.COM } 21058963SAnders.Persson@Sun.COM 21068963SAnders.Persson@Sun.COM /* 21078963SAnders.Persson@Sun.COM * Queue data on the STREAM head. 21088963SAnders.Persson@Sun.COM */ 21098348SEric.Yu@Sun.COM so->so_rcv_queued -= mlen; 21108348SEric.Yu@Sun.COM putnext(q, mp); 21118348SEric.Yu@Sun.COM } 21128348SEric.Yu@Sun.COM so->so_rcv_head = NULL; 21138348SEric.Yu@Sun.COM so->so_rcv_last_head = NULL; 21148348SEric.Yu@Sun.COM so->so_rcv_q_head = NULL; 21158348SEric.Yu@Sun.COM so->so_rcv_q_last_head = NULL; 21168348SEric.Yu@Sun.COM 21178963SAnders.Persson@Sun.COM /* 21188963SAnders.Persson@Sun.COM * Check if the oob byte is at the end of the data stream, or if the 21198963SAnders.Persson@Sun.COM * oob byte has not yet arrived. In the latter case we have to send a 21208963SAnders.Persson@Sun.COM * SIGURG and a mark indicator to the STREAM head. The mark indicator 21218963SAnders.Persson@Sun.COM * is needed to guarantee correct behavior for SIOCATMARK. See block 21228963SAnders.Persson@Sun.COM * comment in socktpi.h for more details. 21238963SAnders.Persson@Sun.COM */ 21248963SAnders.Persson@Sun.COM if (atmark || so->so_oobmark > 0) { 21258963SAnders.Persson@Sun.COM mblk_t *mp; 21268963SAnders.Persson@Sun.COM 21278963SAnders.Persson@Sun.COM if (atmark && so->so_oobmsg != NULL) { 21288963SAnders.Persson@Sun.COM struct T_exdata_ind *tei; 21298963SAnders.Persson@Sun.COM 21308963SAnders.Persson@Sun.COM mp = SOTOTPI(so)->sti_exdata_mp; 21318963SAnders.Persson@Sun.COM SOTOTPI(so)->sti_exdata_mp = NULL; 21328963SAnders.Persson@Sun.COM ASSERT(mp != NULL); 21338963SAnders.Persson@Sun.COM mp->b_datap->db_type = M_PROTO; 21348963SAnders.Persson@Sun.COM tei = (struct T_exdata_ind *)mp->b_rptr; 21358963SAnders.Persson@Sun.COM tei->PRIM_type = T_EXDATA_IND; 21368963SAnders.Persson@Sun.COM tei->MORE_flag = 0; 21378963SAnders.Persson@Sun.COM mp->b_wptr = (uchar_t *)&tei[1]; 21388963SAnders.Persson@Sun.COM 21398963SAnders.Persson@Sun.COM mp->b_cont = so->so_oobmsg; 21408963SAnders.Persson@Sun.COM so->so_oobmsg = NULL; 21418963SAnders.Persson@Sun.COM 21428963SAnders.Persson@Sun.COM putnext(q, mp); 21438963SAnders.Persson@Sun.COM } else { 21448963SAnders.Persson@Sun.COM /* Send up the signal */ 21458963SAnders.Persson@Sun.COM mp = SOTOTPI(so)->sti_exdata_mp; 21468963SAnders.Persson@Sun.COM SOTOTPI(so)->sti_exdata_mp = NULL; 21478963SAnders.Persson@Sun.COM ASSERT(mp != NULL); 21488963SAnders.Persson@Sun.COM DB_TYPE(mp) = M_PCSIG; 21498963SAnders.Persson@Sun.COM *mp->b_wptr++ = (uchar_t)SIGURG; 21508963SAnders.Persson@Sun.COM putnext(q, mp); 21518963SAnders.Persson@Sun.COM 21528963SAnders.Persson@Sun.COM /* Send up the mark indicator */ 21538963SAnders.Persson@Sun.COM mp = SOTOTPI(so)->sti_urgmark_mp; 21548963SAnders.Persson@Sun.COM SOTOTPI(so)->sti_urgmark_mp = NULL; 21558963SAnders.Persson@Sun.COM mp->b_flag = atmark ? MSGMARKNEXT : MSGNOTMARKNEXT; 21568963SAnders.Persson@Sun.COM putnext(q, mp); 21578963SAnders.Persson@Sun.COM 21588963SAnders.Persson@Sun.COM so->so_oobmark = 0; 21598963SAnders.Persson@Sun.COM } 21608348SEric.Yu@Sun.COM } 21618963SAnders.Persson@Sun.COM 21628963SAnders.Persson@Sun.COM if (SOTOTPI(so)->sti_exdata_mp != NULL) { 21638963SAnders.Persson@Sun.COM freeb(SOTOTPI(so)->sti_exdata_mp); 21648963SAnders.Persson@Sun.COM SOTOTPI(so)->sti_exdata_mp = NULL; 21658348SEric.Yu@Sun.COM } 21668348SEric.Yu@Sun.COM 21678963SAnders.Persson@Sun.COM if (SOTOTPI(so)->sti_urgmark_mp != NULL) { 21688963SAnders.Persson@Sun.COM freeb(SOTOTPI(so)->sti_urgmark_mp); 21698963SAnders.Persson@Sun.COM SOTOTPI(so)->sti_urgmark_mp = NULL; 21708963SAnders.Persson@Sun.COM } 21718963SAnders.Persson@Sun.COM 21728963SAnders.Persson@Sun.COM ASSERT(so->so_oobmark == 0); 21738348SEric.Yu@Sun.COM ASSERT(so->so_rcv_queued == 0); 21748348SEric.Yu@Sun.COM } 21758348SEric.Yu@Sun.COM 21768963SAnders.Persson@Sun.COM #ifdef DEBUG 21778963SAnders.Persson@Sun.COM /* 21788963SAnders.Persson@Sun.COM * Do an integrity check of the sonode. This should be done if a 21798963SAnders.Persson@Sun.COM * fallback fails after sonode has initially been converted to use 21808963SAnders.Persson@Sun.COM * TPI and subsequently have to be reverted. 21818963SAnders.Persson@Sun.COM * 21828963SAnders.Persson@Sun.COM * Failure to pass the integrity check will panic the system. 21838963SAnders.Persson@Sun.COM */ 21848963SAnders.Persson@Sun.COM void 21858963SAnders.Persson@Sun.COM so_integrity_check(struct sonode *cur, struct sonode *orig) 21868963SAnders.Persson@Sun.COM { 21878963SAnders.Persson@Sun.COM VERIFY(cur->so_vnode == orig->so_vnode); 21888963SAnders.Persson@Sun.COM VERIFY(cur->so_ops == orig->so_ops); 21898963SAnders.Persson@Sun.COM /* 21908963SAnders.Persson@Sun.COM * For so_state we can only VERIFY the state flags in CHECK_STATE. 21918963SAnders.Persson@Sun.COM * The other state flags might be affected by a notification from the 21928963SAnders.Persson@Sun.COM * protocol. 21938963SAnders.Persson@Sun.COM */ 21948963SAnders.Persson@Sun.COM #define CHECK_STATE (SS_CANTRCVMORE|SS_CANTSENDMORE|SS_NDELAY|SS_NONBLOCK| \ 21958963SAnders.Persson@Sun.COM SS_ASYNC|SS_ACCEPTCONN|SS_SAVEDEOR|SS_RCVATMARK|SS_OOBPEND| \ 21968963SAnders.Persson@Sun.COM SS_HAVEOOBDATA|SS_HADOOBDATA|SS_SENTLASTREADSIG|SS_SENTLASTWRITESIG) 21978963SAnders.Persson@Sun.COM VERIFY((cur->so_state & (orig->so_state & CHECK_STATE)) == 21988963SAnders.Persson@Sun.COM (orig->so_state & CHECK_STATE)); 21998963SAnders.Persson@Sun.COM VERIFY(cur->so_mode == orig->so_mode); 22008963SAnders.Persson@Sun.COM VERIFY(cur->so_flag == orig->so_flag); 22018963SAnders.Persson@Sun.COM VERIFY(cur->so_count == orig->so_count); 22028963SAnders.Persson@Sun.COM /* Cannot VERIFY so_proto_connid; proto can update it */ 22038963SAnders.Persson@Sun.COM VERIFY(cur->so_sockparams == orig->so_sockparams); 22048963SAnders.Persson@Sun.COM /* an error might have been recorded, but it can not be lost */ 22058963SAnders.Persson@Sun.COM VERIFY(cur->so_error != 0 || orig->so_error == 0); 22068963SAnders.Persson@Sun.COM VERIFY(cur->so_family == orig->so_family); 22078963SAnders.Persson@Sun.COM VERIFY(cur->so_type == orig->so_type); 22088963SAnders.Persson@Sun.COM VERIFY(cur->so_protocol == orig->so_protocol); 22098963SAnders.Persson@Sun.COM VERIFY(cur->so_version == orig->so_version); 22108963SAnders.Persson@Sun.COM /* New conns might have arrived, but none should have been lost */ 22118963SAnders.Persson@Sun.COM VERIFY(cur->so_acceptq_len >= orig->so_acceptq_len); 22128963SAnders.Persson@Sun.COM VERIFY(cur->so_acceptq_head == orig->so_acceptq_head); 22138963SAnders.Persson@Sun.COM VERIFY(cur->so_backlog == orig->so_backlog); 22148963SAnders.Persson@Sun.COM /* New OOB migth have arrived, but mark should not have been lost */ 22158963SAnders.Persson@Sun.COM VERIFY(cur->so_oobmark >= orig->so_oobmark); 22168963SAnders.Persson@Sun.COM /* Cannot VERIFY so_oobmsg; the proto might have sent up a new one */ 22178963SAnders.Persson@Sun.COM VERIFY(cur->so_pgrp == orig->so_pgrp); 22188963SAnders.Persson@Sun.COM VERIFY(cur->so_peercred == orig->so_peercred); 22198963SAnders.Persson@Sun.COM VERIFY(cur->so_cpid == orig->so_cpid); 22208963SAnders.Persson@Sun.COM VERIFY(cur->so_zoneid == orig->so_zoneid); 22218963SAnders.Persson@Sun.COM /* New data migth have arrived, but none should have been lost */ 22228963SAnders.Persson@Sun.COM VERIFY(cur->so_rcv_queued >= orig->so_rcv_queued); 22238963SAnders.Persson@Sun.COM VERIFY(cur->so_rcv_q_head == orig->so_rcv_q_head); 22248963SAnders.Persson@Sun.COM VERIFY(cur->so_rcv_head == orig->so_rcv_head); 22258963SAnders.Persson@Sun.COM VERIFY(cur->so_proto_handle == orig->so_proto_handle); 22268963SAnders.Persson@Sun.COM VERIFY(cur->so_downcalls == orig->so_downcalls); 22278963SAnders.Persson@Sun.COM /* Cannot VERIFY so_proto_props; they can be updated by proto */ 22288963SAnders.Persson@Sun.COM } 22298963SAnders.Persson@Sun.COM #endif 22308963SAnders.Persson@Sun.COM 22318348SEric.Yu@Sun.COM /* 22328348SEric.Yu@Sun.COM * so_tpi_fallback() 22338348SEric.Yu@Sun.COM * 22348963SAnders.Persson@Sun.COM * This is the fallback initation routine; things start here. 22358348SEric.Yu@Sun.COM * 22368348SEric.Yu@Sun.COM * Basic strategy: 22378348SEric.Yu@Sun.COM * o Block new socket operations from coming in 22388348SEric.Yu@Sun.COM * o Allocate/initate info needed by TPI 22398348SEric.Yu@Sun.COM * o Quiesce the connection, at which point we sync 22408348SEric.Yu@Sun.COM * state and move data 22418348SEric.Yu@Sun.COM * o Change operations (sonodeops) associated with the socket 22428348SEric.Yu@Sun.COM * o Unblock threads waiting for the fallback to finish 22438348SEric.Yu@Sun.COM */ 22448348SEric.Yu@Sun.COM int 22458348SEric.Yu@Sun.COM so_tpi_fallback(struct sonode *so, struct cred *cr) 22468348SEric.Yu@Sun.COM { 22478348SEric.Yu@Sun.COM int error; 22488348SEric.Yu@Sun.COM queue_t *q; 22498348SEric.Yu@Sun.COM struct sockparams *sp; 22508963SAnders.Persson@Sun.COM struct sockparams *newsp = NULL; 22518348SEric.Yu@Sun.COM so_proto_fallback_func_t fbfunc; 22528348SEric.Yu@Sun.COM boolean_t direct; 22538963SAnders.Persson@Sun.COM struct sonode *nso; 22548963SAnders.Persson@Sun.COM #ifdef DEBUG 22558963SAnders.Persson@Sun.COM struct sonode origso; 22568963SAnders.Persson@Sun.COM #endif 22578348SEric.Yu@Sun.COM error = 0; 22588348SEric.Yu@Sun.COM sp = so->so_sockparams; 22598348SEric.Yu@Sun.COM fbfunc = sp->sp_smod_info->smod_proto_fallback_func; 22608348SEric.Yu@Sun.COM 22618348SEric.Yu@Sun.COM /* 22628348SEric.Yu@Sun.COM * Fallback can only happen if there is a device associated 22638348SEric.Yu@Sun.COM * with the sonode, and the socket module has a fallback function. 22648348SEric.Yu@Sun.COM */ 22658348SEric.Yu@Sun.COM if (!SOCKPARAMS_HAS_DEVICE(sp) || fbfunc == NULL) 22668348SEric.Yu@Sun.COM return (EINVAL); 22678348SEric.Yu@Sun.COM 22688348SEric.Yu@Sun.COM /* 22698348SEric.Yu@Sun.COM * Initiate fallback; upon success we know that no new requests 22708348SEric.Yu@Sun.COM * will come in from the user. 22718348SEric.Yu@Sun.COM */ 22728348SEric.Yu@Sun.COM if (!so_start_fallback(so)) 22738348SEric.Yu@Sun.COM return (EAGAIN); 22748963SAnders.Persson@Sun.COM #ifdef DEBUG 22758963SAnders.Persson@Sun.COM /* 22768963SAnders.Persson@Sun.COM * Make a copy of the sonode in case we need to make an integrity 22778963SAnders.Persson@Sun.COM * check later on. 22788963SAnders.Persson@Sun.COM */ 22798963SAnders.Persson@Sun.COM bcopy(so, &origso, sizeof (*so)); 22808963SAnders.Persson@Sun.COM #endif 22818348SEric.Yu@Sun.COM 22828964SAnders.Persson@Sun.COM sp->sp_stats.sps_nfallback.value.ui64++; 22838964SAnders.Persson@Sun.COM 22848348SEric.Yu@Sun.COM newsp = sockparams_hold_ephemeral_bydev(so->so_family, so->so_type, 22858348SEric.Yu@Sun.COM so->so_protocol, so->so_sockparams->sp_sdev_info.sd_devpath, 22868348SEric.Yu@Sun.COM KM_SLEEP, &error); 22878348SEric.Yu@Sun.COM if (error != 0) 22888348SEric.Yu@Sun.COM goto out; 22898348SEric.Yu@Sun.COM 22908348SEric.Yu@Sun.COM if (so->so_direct != NULL) { 22918348SEric.Yu@Sun.COM sodirect_t *sodp = so->so_direct; 22929491SAnders.Persson@Sun.COM mutex_enter(&so->so_lock); 22938348SEric.Yu@Sun.COM 22949491SAnders.Persson@Sun.COM so->so_direct->sod_enabled = B_FALSE; 22958348SEric.Yu@Sun.COM so->so_state &= ~SS_SODIRECT; 22968348SEric.Yu@Sun.COM ASSERT(sodp->sod_uioafh == NULL); 22979491SAnders.Persson@Sun.COM mutex_exit(&so->so_lock); 22988348SEric.Yu@Sun.COM } 22998348SEric.Yu@Sun.COM 23008348SEric.Yu@Sun.COM /* Turn sonode into a TPI socket */ 23018963SAnders.Persson@Sun.COM error = sotpi_convert_sonode(so, newsp, &direct, &q, cr); 23028963SAnders.Persson@Sun.COM if (error != 0) 23038348SEric.Yu@Sun.COM goto out; 23048963SAnders.Persson@Sun.COM 23058348SEric.Yu@Sun.COM 23068348SEric.Yu@Sun.COM /* 23078348SEric.Yu@Sun.COM * Now tell the protocol to start using TPI. so_quiesced_cb be 23088348SEric.Yu@Sun.COM * called once it's safe to synchronize state. 23098348SEric.Yu@Sun.COM */ 23108348SEric.Yu@Sun.COM DTRACE_PROBE1(proto__fallback__begin, struct sonode *, so); 23118963SAnders.Persson@Sun.COM error = (*fbfunc)(so->so_proto_handle, q, direct, so_quiesced_cb); 23128348SEric.Yu@Sun.COM DTRACE_PROBE1(proto__fallback__end, struct sonode *, so); 23138348SEric.Yu@Sun.COM 23148963SAnders.Persson@Sun.COM if (error != 0) { 23158963SAnders.Persson@Sun.COM /* protocol was unable to do a fallback, revert the sonode */ 23168963SAnders.Persson@Sun.COM sotpi_revert_sonode(so, cr); 23178963SAnders.Persson@Sun.COM goto out; 23188963SAnders.Persson@Sun.COM } 23198963SAnders.Persson@Sun.COM 23208348SEric.Yu@Sun.COM /* 23218963SAnders.Persson@Sun.COM * Walk the accept queue and notify the proto that they should 23228963SAnders.Persson@Sun.COM * fall back to TPI. The protocol will send up the T_CONN_IND. 23238963SAnders.Persson@Sun.COM */ 23248963SAnders.Persson@Sun.COM nso = so->so_acceptq_head; 23258963SAnders.Persson@Sun.COM while (nso != NULL) { 23268963SAnders.Persson@Sun.COM int rval; 23278963SAnders.Persson@Sun.COM 23288963SAnders.Persson@Sun.COM DTRACE_PROBE1(proto__fallback__begin, struct sonode *, nso); 23298963SAnders.Persson@Sun.COM rval = (*fbfunc)(nso->so_proto_handle, NULL, direct, NULL); 23308963SAnders.Persson@Sun.COM DTRACE_PROBE1(proto__fallback__end, struct sonode *, nso); 23318963SAnders.Persson@Sun.COM if (rval != 0) { 23328963SAnders.Persson@Sun.COM zcmn_err(getzoneid(), CE_WARN, 23338963SAnders.Persson@Sun.COM "Failed to convert socket in accept queue to TPI. " 23348963SAnders.Persson@Sun.COM "Pid = %d\n", curproc->p_pid); 23358963SAnders.Persson@Sun.COM } 23368963SAnders.Persson@Sun.COM nso = nso->so_acceptq_next; 23378963SAnders.Persson@Sun.COM } 23388963SAnders.Persson@Sun.COM 23398963SAnders.Persson@Sun.COM /* 23408963SAnders.Persson@Sun.COM * Now flush the acceptq, this will destroy all sockets. They will 23418963SAnders.Persson@Sun.COM * be recreated in sotpi_accept(). 23428348SEric.Yu@Sun.COM */ 23438348SEric.Yu@Sun.COM so_acceptq_flush(so); 23448348SEric.Yu@Sun.COM 23458348SEric.Yu@Sun.COM mutex_enter(&so->so_lock); 23468348SEric.Yu@Sun.COM so->so_state |= SS_FALLBACK_COMP; 23478348SEric.Yu@Sun.COM mutex_exit(&so->so_lock); 23488348SEric.Yu@Sun.COM 23498348SEric.Yu@Sun.COM /* 23508348SEric.Yu@Sun.COM * Swap the sonode ops. Socket opertations that come in once this 23518348SEric.Yu@Sun.COM * is done will proceed without blocking. 23528348SEric.Yu@Sun.COM */ 23538348SEric.Yu@Sun.COM so->so_ops = &sotpi_sonodeops; 23548348SEric.Yu@Sun.COM 23558348SEric.Yu@Sun.COM /* 23568348SEric.Yu@Sun.COM * Wake up any threads stuck in poll. This is needed since the poll 23578348SEric.Yu@Sun.COM * head changes when the fallback happens (moves from the sonode to 23588348SEric.Yu@Sun.COM * the STREAMS head). 23598348SEric.Yu@Sun.COM */ 23608348SEric.Yu@Sun.COM pollwakeup(&so->so_poll_list, POLLERR); 23618348SEric.Yu@Sun.COM out: 23628348SEric.Yu@Sun.COM so_end_fallback(so); 23638348SEric.Yu@Sun.COM 23648963SAnders.Persson@Sun.COM if (error != 0) { 23658963SAnders.Persson@Sun.COM #ifdef DEBUG 23668963SAnders.Persson@Sun.COM so_integrity_check(so, &origso); 23678963SAnders.Persson@Sun.COM #endif 23688963SAnders.Persson@Sun.COM zcmn_err(getzoneid(), CE_WARN, 23698963SAnders.Persson@Sun.COM "Failed to convert socket to TPI (err=%d). Pid = %d\n", 23708963SAnders.Persson@Sun.COM error, curproc->p_pid); 23718963SAnders.Persson@Sun.COM if (newsp != NULL) 23728963SAnders.Persson@Sun.COM SOCKPARAMS_DEC_REF(newsp); 23738963SAnders.Persson@Sun.COM } 23748963SAnders.Persson@Sun.COM 23758348SEric.Yu@Sun.COM return (error); 23768348SEric.Yu@Sun.COM } 2377