/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Inter-Process Communication Message Facility. * * See os/ipc.c for a description of common IPC functionality. * * Resource controls * ----------------- * * Control: project.max-msg-ids (rc_project_msgmni) * Description: Maximum number of message queue ids allowed a project. * * When msgget() is used to allocate a message queue, one id is * allocated. If the id allocation doesn't succeed, msgget() fails * and errno is set to ENOSPC. Upon successful msgctl(, IPC_RMID) * the id is deallocated. * * Control: process.max-msg-qbytes (rc_process_msgmnb) * Description: Maximum number of bytes of messages on a message queue. * * When msgget() successfully allocates a message queue, the minimum * enforced value of this limit is used to initialize msg_qbytes. * * Control: process.max-msg-messages (rc_process_msgtql) * Description: Maximum number of messages on a message queue. * * When msgget() successfully allocates a message queue, the minimum * enforced value of this limit is used to initialize a per-queue * limit on the number of messages. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * The following tunables are obsolete. Though for compatibility we * still read and interpret msginfo_msgmnb, msginfo_msgmni, and * msginfo_msgtql (see os/project.c and os/rctl_proc.c), the preferred * mechanism for administrating the IPC Message facility is through the * resource controls described at the top of this file. */ size_t msginfo_msgmax = 2048; /* (obsolete) */ size_t msginfo_msgmnb = 4096; /* (obsolete) */ int msginfo_msgmni = 50; /* (obsolete) */ int msginfo_msgtql = 40; /* (obsolete) */ int msginfo_msgssz = 8; /* (obsolete) */ int msginfo_msgmap = 0; /* (obsolete) */ ushort_t msginfo_msgseg = 1024; /* (obsolete) */ extern rctl_hndl_t rc_project_msgmni; extern rctl_hndl_t rc_process_msgmnb; extern rctl_hndl_t rc_process_msgtql; static ipc_service_t *msq_svc; static zone_key_t msg_zone_key; static void msg_dtor(kipc_perm_t *); static void msg_rmid(kipc_perm_t *); static void msg_remove_zone(zoneid_t, void *); /* * Module linkage information for the kernel. */ static ssize_t msgsys(int opcode, uintptr_t a0, uintptr_t a1, uintptr_t a2, uintptr_t a4, uintptr_t a5); static struct sysent ipcmsg_sysent = { 6, #ifdef _LP64 SE_ARGC | SE_NOUNLOAD | SE_64RVAL, #else SE_ARGC | SE_NOUNLOAD | SE_32RVAL1, #endif (int (*)())msgsys }; #ifdef _SYSCALL32_IMPL static ssize32_t msgsys32(int opcode, uint32_t a0, uint32_t a1, uint32_t a2, uint32_t a4, uint32_t a5); static struct sysent ipcmsg_sysent32 = { 6, SE_ARGC | SE_NOUNLOAD | SE_32RVAL1, (int (*)())msgsys32 }; #endif /* _SYSCALL32_IMPL */ static struct modlsys modlsys = { &mod_syscallops, "System V message facility", &ipcmsg_sysent }; #ifdef _SYSCALL32_IMPL static struct modlsys modlsys32 = { &mod_syscallops32, "32-bit System V message facility", &ipcmsg_sysent32 }; #endif static struct modlinkage modlinkage = { MODREV_1, &modlsys, #ifdef _SYSCALL32_IMPL &modlsys32, #endif NULL }; int _init(void) { int result; msq_svc = ipcs_create("msqids", rc_project_msgmni, sizeof (kmsqid_t), msg_dtor, msg_rmid, AT_IPC_MSG, offsetof(kproject_data_t, kpd_msgmni)); zone_key_create(&msg_zone_key, NULL, msg_remove_zone, NULL); if ((result = mod_install(&modlinkage)) == 0) return (0); (void) zone_key_delete(msg_zone_key); ipcs_destroy(msq_svc); return (result); } int _fini(void) { return (EBUSY); } int _info(struct modinfo *modinfop) { return (mod_info(&modlinkage, modinfop)); } static void msg_dtor(kipc_perm_t *perm) { kmsqid_t *qp = (kmsqid_t *)perm; int ii; for (ii = 0; ii < MAX_QNUM_CV; ii++) ASSERT(qp->msg_rcv_cnt[ii] == 0); ASSERT(qp->msg_snd_cnt == 0); ASSERT(qp->msg_cbytes == 0); list_destroy(&qp->msg_list); } #define msg_hold(mp) (mp)->msg_copycnt++ /* * msg_rele - decrement the reference count on the message. When count * reaches zero, free message header and contents. */ static void msg_rele(struct msg *mp) { ASSERT(mp->msg_copycnt > 0); if (mp->msg_copycnt-- == 1) { if (mp->msg_addr) kmem_free(mp->msg_addr, mp->msg_size); kmem_free(mp, sizeof (struct msg)); } } /* * msgunlink - Unlink msg from queue, decrement byte count and wake up anyone * waiting for free bytes on queue. * * Called with queue locked. */ static void msgunlink(kmsqid_t *qp, struct msg *mp) { list_remove(&qp->msg_list, mp); qp->msg_qnum--; qp->msg_cbytes -= mp->msg_size; msg_rele(mp); /* Wake up waiting writers */ if (qp->msg_snd_cnt) cv_broadcast(&qp->msg_snd_cv); } static void msg_rmid(kipc_perm_t *perm) { kmsqid_t *qp = (kmsqid_t *)perm; struct msg *mp; int ii; while ((mp = list_head(&qp->msg_list)) != NULL) msgunlink(qp, mp); ASSERT(qp->msg_cbytes == 0); for (ii = 0; ii < MAX_QNUM_CV; ii++) { if (qp->msg_rcv_cnt[ii]) cv_broadcast(&qp->msg_rcv_cv[ii]); } if (qp->msg_snd_cnt) cv_broadcast(&qp->msg_snd_cv); } /* * msgctl system call. * * gets q lock (via ipc_lookup), releases before return. * may call users of msg_lock */ static int msgctl(int msgid, int cmd, void *arg) { STRUCT_DECL(msqid_ds, ds); /* SVR4 queue work area */ kmsqid_t *qp; /* ptr to associated q */ int error, ii; struct cred *cr; model_t mdl = get_udatamodel(); struct msqid_ds64 ds64; kmutex_t *lock; proc_t *pp = curproc; STRUCT_INIT(ds, mdl); cr = CRED(); /* * Perform pre- or non-lookup actions (e.g. copyins, RMID). */ switch (cmd) { case IPC_SET: if (copyin(arg, STRUCT_BUF(ds), STRUCT_SIZE(ds))) return (set_errno(EFAULT)); break; case IPC_SET64: if (copyin(arg, &ds64, sizeof (struct msqid_ds64))) return (set_errno(EFAULT)); break; case IPC_RMID: if (error = ipc_rmid(msq_svc, msgid, cr)) return (set_errno(error)); return (0); } /* * get msqid_ds for this msgid */ if ((lock = ipc_lookup(msq_svc, msgid, (kipc_perm_t **)&qp)) == NULL) return (set_errno(EINVAL)); switch (cmd) { case IPC_SET: if (STRUCT_FGET(ds, msg_qbytes) > qp->msg_qbytes && secpolicy_ipc_config(cr) != 0) { mutex_exit(lock); return (set_errno(EPERM)); } if (error = ipcperm_set(msq_svc, cr, &qp->msg_perm, &STRUCT_BUF(ds)->msg_perm, mdl)) { mutex_exit(lock); return (set_errno(error)); } qp->msg_qbytes = STRUCT_FGET(ds, msg_qbytes); qp->msg_ctime = gethrestime_sec(); break; case IPC_STAT: if (error = ipcperm_access(&qp->msg_perm, MSG_R, cr)) { mutex_exit(lock); return (set_errno(error)); } for (ii = 0; ii < MAX_QNUM_CV; ii++) { if (qp->msg_rcv_cnt[ii]) { qp->msg_perm.ipc_mode |= MSG_RWAIT; break; } } if (qp->msg_snd_cnt) qp->msg_perm.ipc_mode |= MSG_WWAIT; ipcperm_stat(&STRUCT_BUF(ds)->msg_perm, &qp->msg_perm, mdl); qp->msg_perm.ipc_mode &= ~(MSG_RWAIT|MSG_WWAIT); STRUCT_FSETP(ds, msg_first, NULL); /* kernel addr */ STRUCT_FSETP(ds, msg_last, NULL); STRUCT_FSET(ds, msg_cbytes, qp->msg_cbytes); STRUCT_FSET(ds, msg_qnum, qp->msg_qnum); STRUCT_FSET(ds, msg_qbytes, qp->msg_qbytes); STRUCT_FSET(ds, msg_lspid, qp->msg_lspid); STRUCT_FSET(ds, msg_lrpid, qp->msg_lrpid); STRUCT_FSET(ds, msg_stime, qp->msg_stime); STRUCT_FSET(ds, msg_rtime, qp->msg_rtime); STRUCT_FSET(ds, msg_ctime, qp->msg_ctime); break; case IPC_SET64: mutex_enter(&pp->p_lock); if ((ds64.msgx_qbytes > qp->msg_qbytes) && secpolicy_ipc_config(cr) != 0 && rctl_test(rc_process_msgmnb, pp->p_rctls, pp, ds64.msgx_qbytes, RCA_SAFE) & RCT_DENY) { mutex_exit(&pp->p_lock); mutex_exit(lock); return (set_errno(EPERM)); } mutex_exit(&pp->p_lock); if (error = ipcperm_set64(msq_svc, cr, &qp->msg_perm, &ds64.msgx_perm)) { mutex_exit(lock); return (set_errno(error)); } qp->msg_qbytes = ds64.msgx_qbytes; qp->msg_ctime = gethrestime_sec(); break; case IPC_STAT64: for (ii = 0; ii < MAX_QNUM_CV; ii++) { if (qp->msg_rcv_cnt[ii]) { qp->msg_perm.ipc_mode |= MSG_RWAIT; break; } } if (qp->msg_snd_cnt) qp->msg_perm.ipc_mode |= MSG_WWAIT; ipcperm_stat64(&ds64.msgx_perm, &qp->msg_perm); qp->msg_perm.ipc_mode &= ~(MSG_RWAIT|MSG_WWAIT); ds64.msgx_cbytes = qp->msg_cbytes; ds64.msgx_qnum = qp->msg_qnum; ds64.msgx_qbytes = qp->msg_qbytes; ds64.msgx_lspid = qp->msg_lspid; ds64.msgx_lrpid = qp->msg_lrpid; ds64.msgx_stime = qp->msg_stime; ds64.msgx_rtime = qp->msg_rtime; ds64.msgx_ctime = qp->msg_ctime; break; default: mutex_exit(lock); return (set_errno(EINVAL)); } mutex_exit(lock); /* * Do copyout last (after releasing mutex). */ switch (cmd) { case IPC_STAT: if (copyout(STRUCT_BUF(ds), arg, STRUCT_SIZE(ds))) return (set_errno(EFAULT)); break; case IPC_STAT64: if (copyout(&ds64, arg, sizeof (struct msqid_ds64))) return (set_errno(EFAULT)); break; } return (0); } /* * Remove all message queues associated with a given zone. Called by * zone_shutdown when the zone is halted. */ /*ARGSUSED1*/ static void msg_remove_zone(zoneid_t zoneid, void *arg) { ipc_remove_zone(msq_svc, zoneid); } /* * msgget system call. */ static int msgget(key_t key, int msgflg) { kmsqid_t *qp; kmutex_t *lock; int id, error; int ii; proc_t *pp = curproc; top: if (error = ipc_get(msq_svc, key, msgflg, (kipc_perm_t **)&qp, &lock)) return (set_errno(error)); if (IPC_FREE(&qp->msg_perm)) { mutex_exit(lock); mutex_exit(&pp->p_lock); list_create(&qp->msg_list, sizeof (struct msg), offsetof(struct msg, msg_node)); qp->msg_qnum = 0; qp->msg_lspid = qp->msg_lrpid = 0; qp->msg_stime = qp->msg_rtime = 0; qp->msg_ctime = gethrestime_sec(); for (ii = 0; ii < MAX_QNUM_CV; ii++) qp->msg_rcv_cnt[ii] = 0; qp->msg_snd_cnt = 0; if (error = ipc_commit_begin(msq_svc, key, msgflg, (kipc_perm_t *)qp)) { if (error == EAGAIN) goto top; return (set_errno(error)); } qp->msg_qbytes = rctl_enforced_value(rc_process_msgmnb, pp->p_rctls, pp); qp->msg_qmax = rctl_enforced_value(rc_process_msgtql, pp->p_rctls, pp); lock = ipc_commit_end(msq_svc, &qp->msg_perm); } #ifdef C2_AUDIT if (audit_active) audit_ipcget(AT_IPC_MSG, (void *)qp); #endif id = qp->msg_perm.ipc_id; mutex_exit(lock); return (id); } /* * msgrcv system call. */ static ssize_t msgrcv(int msqid, struct ipcmsgbuf *msgp, size_t msgsz, long msgtyp, int msgflg) { struct msg *mp; /* ptr to msg on q */ struct msg *smp; /* ptr to best msg on q */ kmsqid_t *qp; /* ptr to associated q */ kmutex_t *lock; size_t xtsz; /* transfer byte count */ int error = 0, copyerror = 0; int cvres; STRUCT_HANDLE(ipcmsgbuf, umsgp); model_t mdl = get_udatamodel(); CPU_STATS_ADDQ(CPU, sys, msg, 1); /* bump msg send/rcv count */ STRUCT_SET_HANDLE(umsgp, mdl, msgp); if ((lock = ipc_lookup(msq_svc, msqid, (kipc_perm_t **)&qp)) == NULL) return ((ssize_t)set_errno(EINVAL)); ipc_hold(msq_svc, (kipc_perm_t *)qp); if (error = ipcperm_access(&qp->msg_perm, MSG_R, CRED())) goto msgrcv_out; findmsg: smp = NULL; mp = list_head(&qp->msg_list); if (msgtyp == 0) { smp = mp; } else { for (; mp; mp = list_next(&qp->msg_list, mp)) { if (msgtyp > 0) { if (msgtyp != mp->msg_type) continue; smp = mp; break; } if (mp->msg_type <= -msgtyp) { if (smp && smp->msg_type <= mp->msg_type) continue; smp = mp; } } } if (smp) { /* * Message found. */ if ((smp->msg_flags & MSG_RCVCOPY) == 0) { /* * No one else is copying this message. Copy it. */ if (msgsz < smp->msg_size) { if ((msgflg & MSG_NOERROR) == 0) { error = E2BIG; goto msgrcv_out; } else { xtsz = msgsz; } } else { xtsz = smp->msg_size; } /* * Mark message as being copied out. Release mutex * while copying out. */ ASSERT((smp->msg_flags & MSG_RCVCOPY) == 0); smp->msg_flags |= MSG_RCVCOPY; msg_hold(smp); mutex_exit(lock); if (mdl == DATAMODEL_NATIVE) { copyerror = copyout(&smp->msg_type, msgp, sizeof (smp->msg_type)); } else { /* * 32-bit callers need an imploded msg type. */ int32_t msg_type32 = smp->msg_type; copyerror = copyout(&msg_type32, msgp, sizeof (msg_type32)); } if (copyerror == 0 && xtsz) copyerror = copyout(smp->msg_addr, STRUCT_FADDR(umsgp, mtext), xtsz); /* * Reclaim mutex, make sure queue still exists, * and remove message. */ lock = ipc_lock(msq_svc, qp->msg_perm.ipc_id); ASSERT(smp->msg_flags & MSG_RCVCOPY); smp->msg_flags &= ~MSG_RCVCOPY; msg_rele(smp); if (IPC_FREE(&qp->msg_perm)) { error = EIDRM; goto msgrcv_out; } /* * MSG_RCVCOPY was set while we dropped and reaquired * the lock. A thread looking for same message type * might have entered during that interval and seeing * MSG_RCVCOPY set, would have landed up in the sleepq. */ cv_broadcast(&qp->msg_rcv_cv[MSG_QNUM(smp->msg_type)]); cv_broadcast(&qp->msg_rcv_cv[0]); if (copyerror) { error = EFAULT; goto msgrcv_out; } qp->msg_lrpid = ttoproc(curthread)->p_pid; qp->msg_rtime = gethrestime_sec(); msgunlink(qp, smp); goto msgrcv_out; } } else { /* * No message found. */ if (msgflg & IPC_NOWAIT) { error = ENOMSG; goto msgrcv_out; } } /* Wait for new message */ qp->msg_rcv_cnt[MSG_QNUM(msgtyp)]++; cvres = cv_wait_sig(&qp->msg_rcv_cv[MSG_QNUM(msgtyp)], lock); lock = ipc_relock(msq_svc, qp->msg_perm.ipc_id, lock); qp->msg_rcv_cnt[MSG_QNUM(msgtyp)]--; if (IPC_FREE(&qp->msg_perm)) { error = EIDRM; goto msgrcv_out; } if (cvres == 0) { error = EINTR; goto msgrcv_out; } goto findmsg; msgrcv_out: ipc_rele(msq_svc, (kipc_perm_t *)qp); if (error) return ((ssize_t)set_errno(error)); return ((ssize_t)xtsz); } /* * msgids system call. */ static int msgids(int *buf, uint_t nids, uint_t *pnids) { int error; if (error = ipc_ids(msq_svc, buf, nids, pnids)) return (set_errno(error)); return (0); } #define RND(x) roundup((x), sizeof (size_t)) #define RND32(x) roundup((x), sizeof (size32_t)) /* * msgsnap system call. */ static int msgsnap(int msqid, caddr_t buf, size_t bufsz, long msgtyp) { struct msg *mp; /* ptr to msg on q */ kmsqid_t *qp; /* ptr to associated q */ kmutex_t *lock; size_t size; size_t nmsg; struct msg **snaplist; int error, i; model_t mdl = get_udatamodel(); STRUCT_DECL(msgsnap_head, head); STRUCT_DECL(msgsnap_mhead, mhead); STRUCT_INIT(head, mdl); STRUCT_INIT(mhead, mdl); if (bufsz < STRUCT_SIZE(head)) return (set_errno(EINVAL)); if ((lock = ipc_lookup(msq_svc, msqid, (kipc_perm_t **)&qp)) == NULL) return (set_errno(EINVAL)); if (error = ipcperm_access(&qp->msg_perm, MSG_R, CRED())) { mutex_exit(lock); return (set_errno(error)); } ipc_hold(msq_svc, (kipc_perm_t *)qp); /* * First compute the required buffer size and * the number of messages on the queue. */ size = nmsg = 0; for (mp = list_head(&qp->msg_list); mp; mp = list_next(&qp->msg_list, mp)) { if (msgtyp == 0 || (msgtyp > 0 && msgtyp == mp->msg_type) || (msgtyp < 0 && mp->msg_type <= -msgtyp)) { nmsg++; if (mdl == DATAMODEL_NATIVE) size += RND(mp->msg_size); else size += RND32(mp->msg_size); } } size += STRUCT_SIZE(head) + nmsg * STRUCT_SIZE(mhead); if (size > bufsz) nmsg = 0; if (nmsg > 0) { /* * Mark the messages as being copied. */ snaplist = (struct msg **)kmem_alloc(nmsg * sizeof (struct msg *), KM_SLEEP); i = 0; for (mp = list_head(&qp->msg_list); mp; mp = list_next(&qp->msg_list, mp)) { if (msgtyp == 0 || (msgtyp > 0 && msgtyp == mp->msg_type) || (msgtyp < 0 && mp->msg_type <= -msgtyp)) { msg_hold(mp); snaplist[i] = mp; i++; } } } mutex_exit(lock); /* * Copy out the buffer header. */ STRUCT_FSET(head, msgsnap_size, size); STRUCT_FSET(head, msgsnap_nmsg, nmsg); if (copyout(STRUCT_BUF(head), buf, STRUCT_SIZE(head))) error = EFAULT; buf += STRUCT_SIZE(head); /* * Now copy out the messages one by one. */ for (i = 0; i < nmsg; i++) { mp = snaplist[i]; if (error == 0) { STRUCT_FSET(mhead, msgsnap_mlen, mp->msg_size); STRUCT_FSET(mhead, msgsnap_mtype, mp->msg_type); if (copyout(STRUCT_BUF(mhead), buf, STRUCT_SIZE(mhead))) error = EFAULT; buf += STRUCT_SIZE(mhead); if (error == 0 && mp->msg_size != 0 && copyout(mp->msg_addr, buf, mp->msg_size)) error = EFAULT; if (mdl == DATAMODEL_NATIVE) buf += RND(mp->msg_size); else buf += RND32(mp->msg_size); } lock = ipc_lock(msq_svc, qp->msg_perm.ipc_id); msg_rele(mp); /* Check for msg q deleted or reallocated */ if (IPC_FREE(&qp->msg_perm)) error = EIDRM; mutex_exit(lock); } (void) ipc_lock(msq_svc, qp->msg_perm.ipc_id); ipc_rele(msq_svc, (kipc_perm_t *)qp); if (nmsg > 0) kmem_free(snaplist, nmsg * sizeof (struct msg *)); if (error) return (set_errno(error)); return (0); } /* * msgsnd system call. */ static int msgsnd(int msqid, struct ipcmsgbuf *msgp, size_t msgsz, int msgflg) { kmsqid_t *qp; kmutex_t *lock; struct msg *mp = NULL; long type; int error = 0; model_t mdl = get_udatamodel(); STRUCT_HANDLE(ipcmsgbuf, umsgp); CPU_STATS_ADDQ(CPU, sys, msg, 1); /* bump msg send/rcv count */ STRUCT_SET_HANDLE(umsgp, mdl, msgp); if (mdl == DATAMODEL_NATIVE) { if (copyin(msgp, &type, sizeof (type))) return (set_errno(EFAULT)); } else { int32_t type32; if (copyin(msgp, &type32, sizeof (type32))) return (set_errno(EFAULT)); type = type32; } if (type < 1) return (set_errno(EINVAL)); if ((lock = ipc_lookup(msq_svc, msqid, (kipc_perm_t **)&qp)) == NULL) return (set_errno(EINVAL)); ipc_hold(msq_svc, (kipc_perm_t *)qp); if (msgsz > qp->msg_qbytes) { error = EINVAL; goto msgsnd_out; } if (error = ipcperm_access(&qp->msg_perm, MSG_W, CRED())) goto msgsnd_out; top: /* * Allocate space on q, message header, & buffer space. */ ASSERT(qp->msg_qnum <= qp->msg_qmax); while ((msgsz > qp->msg_qbytes - qp->msg_cbytes) || (qp->msg_qnum == qp->msg_qmax)) { int cvres; if (msgflg & IPC_NOWAIT) { error = EAGAIN; goto msgsnd_out; } qp->msg_snd_cnt++; cvres = cv_wait_sig(&qp->msg_snd_cv, lock); lock = ipc_relock(msq_svc, qp->msg_perm.ipc_id, lock); qp->msg_snd_cnt--; if (IPC_FREE(&qp->msg_perm)) { error = EIDRM; goto msgsnd_out; } if (cvres == 0) { error = EINTR; goto msgsnd_out; } } if (mp == NULL) { int failure; mutex_exit(lock); mp = kmem_zalloc(sizeof (struct msg), KM_SLEEP); mp->msg_addr = kmem_zalloc(msgsz, KM_SLEEP); mp->msg_size = msgsz; mp->msg_copycnt = 1; failure = msgsz && (copyin(STRUCT_FADDR(umsgp, mtext), mp->msg_addr, msgsz) == -1); lock = ipc_lock(msq_svc, qp->msg_perm.ipc_id); if (IPC_FREE(&qp->msg_perm)) { error = EIDRM; goto msgsnd_out; } if (failure) { error = EFAULT; goto msgsnd_out; } goto top; } /* * Everything is available, put msg on q. */ qp->msg_qnum++; qp->msg_cbytes += msgsz; qp->msg_lspid = curproc->p_pid; qp->msg_stime = gethrestime_sec(); mp->msg_type = type; mp->msg_flags = 0; list_insert_tail(&qp->msg_list, mp); /* * For all message type >= 1. */ if (qp->msg_rcv_cnt[MSG_QNUM(type)]) cv_broadcast(&qp->msg_rcv_cv[MSG_QNUM(type)]); /* * For all message type < 1. */ if (qp->msg_rcv_cnt[0]) cv_broadcast(&qp->msg_rcv_cv[0]); msgsnd_out: ipc_rele(msq_svc, (kipc_perm_t *)qp); /* drops lock */ if (error) { if (mp) msg_rele(mp); return (set_errno(error)); } return (0); } /* * msgsys - System entry point for msgctl, msgget, msgrcv, and msgsnd * system calls. */ static ssize_t msgsys(int opcode, uintptr_t a1, uintptr_t a2, uintptr_t a3, uintptr_t a4, uintptr_t a5) { ssize_t error; switch (opcode) { case MSGGET: error = msgget((key_t)a1, (int)a2); break; case MSGCTL: error = msgctl((int)a1, (int)a2, (void *)a3); break; case MSGRCV: error = msgrcv((int)a1, (struct ipcmsgbuf *)a2, (size_t)a3, (long)a4, (int)a5); break; case MSGSND: error = msgsnd((int)a1, (struct ipcmsgbuf *)a2, (size_t)a3, (int)a4); break; case MSGIDS: error = msgids((int *)a1, (uint_t)a2, (uint_t *)a3); break; case MSGSNAP: error = msgsnap((int)a1, (caddr_t)a2, (size_t)a3, (long)a4); break; default: error = set_errno(EINVAL); break; } return (error); } #ifdef _SYSCALL32_IMPL /* * msgsys32 - System entry point for msgctl, msgget, msgrcv, and msgsnd * system calls for 32-bit callers on LP64 kernel. */ static ssize32_t msgsys32(int opcode, uint32_t a1, uint32_t a2, uint32_t a3, uint32_t a4, uint32_t a5) { ssize_t error; switch (opcode) { case MSGGET: error = msgget((key_t)a1, (int)a2); break; case MSGCTL: error = msgctl((int)a1, (int)a2, (void *)(uintptr_t)a3); break; case MSGRCV: error = msgrcv((int)a1, (struct ipcmsgbuf *)(uintptr_t)a2, (size_t)a3, (long)(int32_t)a4, (int)a5); break; case MSGSND: error = msgsnd((int)a1, (struct ipcmsgbuf *)(uintptr_t)a2, (size_t)(int32_t)a3, (int)a4); break; case MSGIDS: error = msgids((int *)(uintptr_t)a1, (uint_t)a2, (uint_t *)(uintptr_t)a3); break; case MSGSNAP: error = msgsnap((int)a1, (caddr_t)(uintptr_t)a2, (size_t)a3, (long)(int32_t)a4); break; default: error = set_errno(EINVAL); break; } return (error); } #endif /* SYSCALL32_IMPL */