/* * 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) 1983,1984,1985,1986,1987,1988,1989 AT&T. * All rights reserved. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include /* for exit() declaration */ #include #include #include #include #include #include #include /* * This is filled in with an appropriate address for the * function that will traverse the rfs4_client_t table * and mark any matching IP Address as "forced_expire". * * It is the server init() function that plops the * function pointer. */ void (*rfs4_client_clrst)(struct nfs4clrst_args *) = NULL; /* This filled in by nfssrv:_init() */ void (*nfs_srv_quiesce_func)(void) = NULL; /* * These will be reset by klmmod:lm_svc(), when lockd starts NLM service, * based on values read by lockd from /etc/default/nfs. Since nfssrv depends on * klmmod, the declarations need to be here (in nfs, on which both depend) so * that nfssrv can see the klmmod changes. * When the dependency of NFSv4 on NLM/lockd is removed, this will need to * be adjusted. */ #define RFS4_LEASETIME 90 /* seconds */ time_t rfs4_lease_time = RFS4_LEASETIME; time_t rfs4_grace_period = RFS4_LEASETIME; /* DSS: distributed stable storage */ size_t nfs4_dss_buflen = 0; /* This filled in by nfssrv:_init() */ int (*nfs_srv_dss_func)(char *, size_t) = NULL; int nfssys(enum nfssys_op opcode, void *arg) { int error = 0; if (!(opcode == NFS_REVAUTH || opcode == NFS4_SVC) && secpolicy_nfs(CRED()) != 0) return (set_errno(EPERM)); switch (opcode) { case NFS4_CLR_STATE: { /* Clear NFS4 client state */ struct nfs4clrst_args clr; STRUCT_DECL(nfs4clrst_args, u_clr); /* * If the server is not loaded then no point in * clearing nothing :-) */ if (rfs4_client_clrst == NULL) { break; } if (!INGLOBALZONE(curproc)) return (set_errno(EPERM)); STRUCT_INIT(u_clr, get_udatamodel()); if (copyin(arg, STRUCT_BUF(u_clr), STRUCT_SIZE(u_clr))) return (set_errno(EFAULT)); clr.vers = STRUCT_FGET(u_clr, vers); if (clr.vers != NFS4_CLRST_VERSION) return (set_errno(EINVAL)); clr.addr_type = STRUCT_FGET(u_clr, addr_type); clr.ap = STRUCT_FGETP(u_clr, ap); rfs4_client_clrst(&clr); break; } case SVCPOOL_CREATE: { /* setup an RPC server thread pool */ struct svcpool_args p; if (copyin(arg, &p, sizeof (p))) return (set_errno(EFAULT)); error = svc_pool_create(&p); break; } case SVCPOOL_WAIT: { /* wait in kernel for threads to be needed */ int id; if (copyin(arg, &id, sizeof (id))) return (set_errno(EFAULT)); error = svc_wait(id); break; } case SVCPOOL_RUN: { /* give work to a runnable thread */ int id; if (copyin(arg, &id, sizeof (id))) return (set_errno(EFAULT)); error = svc_do_run(id); break; } case RDMA_SVC_INIT: { struct rdma_svc_args rsa; char netstore[20] = "tcp"; if (!INGLOBALZONE(curproc)) return (set_errno(EPERM)); if (get_udatamodel() != DATAMODEL_NATIVE) { STRUCT_DECL(rdma_svc_args, ursa); STRUCT_INIT(ursa, get_udatamodel()); if (copyin(arg, STRUCT_BUF(ursa), STRUCT_SIZE(ursa))) return (set_errno(EFAULT)); rsa.poolid = STRUCT_FGET(ursa, poolid); rsa.nfs_versmin = STRUCT_FGET(ursa, nfs_versmin); rsa.nfs_versmax = STRUCT_FGET(ursa, nfs_versmax); rsa.delegation = STRUCT_FGET(ursa, delegation); } else { if (copyin(arg, &rsa, sizeof (rsa))) return (set_errno(EFAULT)); } rsa.netid = netstore; error = rdma_start(&rsa); break; } case NFS_SVC: { /* NFS server daemon */ STRUCT_DECL(nfs_svc_args, nsa); if (!INGLOBALZONE(curproc)) return (set_errno(EPERM)); STRUCT_INIT(nsa, get_udatamodel()); if (copyin(arg, STRUCT_BUF(nsa), STRUCT_SIZE(nsa))) return (set_errno(EFAULT)); error = nfs_svc(STRUCT_BUF(nsa), get_udatamodel()); break; } case EXPORTFS: { /* export a file system */ STRUCT_DECL(exportfs_args, ea); if (!INGLOBALZONE(curproc)) return (set_errno(EPERM)); STRUCT_INIT(ea, get_udatamodel()); if (copyin(arg, STRUCT_BUF(ea), STRUCT_SIZE(ea))) return (set_errno(EFAULT)); error = exportfs(STRUCT_BUF(ea), get_udatamodel(), CRED()); break; } case NFS_GETFH: { /* get a file handle */ STRUCT_DECL(nfs_getfh_args, nga); if (!INGLOBALZONE(curproc)) return (set_errno(EPERM)); STRUCT_INIT(nga, get_udatamodel()); if (copyin(arg, STRUCT_BUF(nga), STRUCT_SIZE(nga))) return (set_errno(EFAULT)); error = nfs_getfh(STRUCT_BUF(nga), get_udatamodel(), CRED()); break; } case NFS_REVAUTH: { /* revoke the cached credentials for the uid */ STRUCT_DECL(nfs_revauth_args, nra); STRUCT_INIT(nra, get_udatamodel()); if (copyin(arg, STRUCT_BUF(nra), STRUCT_SIZE(nra))) return (set_errno(EFAULT)); /* This call performs its own privilege checking */ error = sec_clnt_revoke(STRUCT_FGET(nra, authtype), STRUCT_FGET(nra, uid), CRED(), NULL, get_udatamodel()); break; } case LM_SVC: { /* LM server daemon */ struct lm_svc_args lsa; if (get_udatamodel() != DATAMODEL_NATIVE) { STRUCT_DECL(lm_svc_args, ulsa); STRUCT_INIT(ulsa, get_udatamodel()); if (copyin(arg, STRUCT_BUF(ulsa), STRUCT_SIZE(ulsa))) return (set_errno(EFAULT)); lsa.version = STRUCT_FGET(ulsa, version); lsa.fd = STRUCT_FGET(ulsa, fd); lsa.n_fmly = STRUCT_FGET(ulsa, n_fmly); lsa.n_proto = STRUCT_FGET(ulsa, n_proto); lsa.n_rdev = expldev(STRUCT_FGET(ulsa, n_rdev)); lsa.debug = STRUCT_FGET(ulsa, debug); lsa.timout = STRUCT_FGET(ulsa, timout); lsa.grace = STRUCT_FGET(ulsa, grace); lsa.retransmittimeout = STRUCT_FGET(ulsa, retransmittimeout); } else { if (copyin(arg, &lsa, sizeof (lsa))) return (set_errno(EFAULT)); } error = lm_svc(&lsa); break; } case KILL_LOCKMGR: { error = lm_shutdown(); break; } case LOG_FLUSH: { /* Flush log buffer and possibly rename */ STRUCT_DECL(nfsl_flush_args, nfa); STRUCT_INIT(nfa, get_udatamodel()); if (copyin(arg, STRUCT_BUF(nfa), STRUCT_SIZE(nfa))) return (set_errno(EFAULT)); error = nfsl_flush(STRUCT_BUF(nfa), get_udatamodel()); break; } case NFS4_SVC: { /* NFS client callback daemon */ STRUCT_DECL(nfs4_svc_args, nsa); STRUCT_INIT(nsa, get_udatamodel()); if (copyin(arg, STRUCT_BUF(nsa), STRUCT_SIZE(nsa))) return (set_errno(EFAULT)); error = nfs4_svc(STRUCT_BUF(nsa), get_udatamodel()); break; } /* Request that NFSv4 server quiesce on next shutdown */ case NFS4_SVC_REQUEST_QUIESCE: { int id; /* check that nfssrv module is loaded */ if (nfs_srv_quiesce_func == NULL) return (set_errno(ENOTSUP)); if (copyin(arg, &id, sizeof (id))) return (set_errno(EFAULT)); error = svc_pool_control(id, SVCPSET_SHUTDOWN_PROC, (void *)nfs_srv_quiesce_func); break; } case NFS_IDMAP: { struct nfsidmap_args idm; if (copyin(arg, &idm, sizeof (idm))) return (set_errno(EFAULT)); nfs_idmap_args(&idm); error = 0; break; } case NFS4_DSS_SETPATHS_SIZE: { /* crosses ILP32/LP64 boundary */ uint32_t nfs4_dss_bufsize = 0; if (copyin(arg, &nfs4_dss_bufsize, sizeof (nfs4_dss_bufsize))) return (set_errno(EFAULT)); nfs4_dss_buflen = (long)nfs4_dss_bufsize; error = 0; break; } case NFS4_DSS_SETPATHS: { char *nfs4_dss_bufp; /* check that nfssrv module is loaded */ if (nfs_srv_dss_func == NULL) return (set_errno(ENOTSUP)); /* * NFS4_DSS_SETPATHS_SIZE must be called before * NFS4_DSS_SETPATHS, to tell us how big a buffer we need * to allocate. */ if (nfs4_dss_buflen == 0) return (set_errno(EINVAL)); nfs4_dss_bufp = kmem_alloc(nfs4_dss_buflen, KM_SLEEP); if (nfs4_dss_bufp == NULL) return (set_errno(ENOMEM)); if (copyin(arg, nfs4_dss_bufp, nfs4_dss_buflen)) { kmem_free(nfs4_dss_bufp, nfs4_dss_buflen); return (set_errno(EFAULT)); } /* unpack the buffer and extract the pathnames */ error = nfs_srv_dss_func(nfs4_dss_bufp, nfs4_dss_buflen); kmem_free(nfs4_dss_bufp, nfs4_dss_buflen); break; } case MOUNTD_ARGS: { uint_t did; /* * For now, only passing down the door fd; if we * ever need to pass down more info, we can use * a (properly aligned) struct. */ if (copyin(arg, &did, sizeof (did))) return (set_errno(EFAULT)); mountd_args(did); error = 0; break; } default: error = EINVAL; break; } return ((error != 0) ? set_errno(error) : 0); }