/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * General Structures Layout * ------------------------- * * This is a simplified diagram showing the relationship between most of the * main structures. * * +-------------------+ * | SMB_SERVER | * +-------------------+ * | * | * v * +-------------------+ +-------------------+ +-------------------+ * | SESSION |<----->| SESSION |......| SESSION | * +-------------------+ +-------------------+ +-------------------+ * | * | * v * +-------------------+ +-------------------+ +-------------------+ * | USER |<----->| USER |......| USER | * +-------------------+ +-------------------+ +-------------------+ * | * | * v * +-------------------+ +-------------------+ +-------------------+ * | TREE |<----->| TREE |......| TREE | * +-------------------+ +-------------------+ +-------------------+ * | | * | | * | v * | +-------+ +-------+ +-------+ * | | OFILE |<----->| OFILE |......| OFILE | * | +-------+ +-------+ +-------+ * | * | * v * +-------+ +------+ +------+ * | ODIR |<----->| ODIR |......| ODIR | * +-------+ +------+ +------+ * * * Module Interface Overview * ------------------------- * * * +===================================+ * | smbd daemon | * +===================================+ * | | ^ * | | | * User | | | * -----------|--------------|----------------|-------------------------------- * Kernel | | | * | | | * | | | * +=========|==============|================|=================+ * | v v | | * | +-----------+ +--------------------+ +------------------+ | * | | IO | | Kernel Door Server | | User Door Servers| | * | | Interface | | Interface | | Interface | | * | +-----------+ +--------------------+ +------------------+ | * | | | ^ ^ | * | v v | | | +=========+ * | +-----------------------------------+ | | | | * | + SMB Server Management (this file) |<------------------| ZFS | * | +-----------------------------------+ | | | | * | | | | Module | * | +-----------------------------------+ | | | | * | + SMB Server Internal Layers |------+ | +=========+ * | +-----------------------------------+ | * | | * | | * +===========================================================+ * * * Server State Machine * -------------------- * | * | T0 * | * v * +-----------------------------+ * | SMB_SERVER_STATE_CREATED | * +-----------------------------+ * | * | T1 * | * v * +-----------------------------+ * | SMB_SERVER_STATE_CONFIGURED | * +-----------------------------+ * | * | T2 * | * v * +-----------------------------+ * | SMB_SERVER_STATE_RUNNING | * +-----------------------------+ * | * | T3 * | * v * +-----------------------------+ * | SMB_SERVER_STATE_DELETING | * +-----------------------------+ * | * | * | * v * * States * ------ * * SMB_SERVER_STATE_CREATED * * This is the state of the server just after creation. * * SMB_SERVER_STATE_CONFIGURED * * The server has been configured. * * SMB_SERVER_STATE_RUNNING * * The server has been started. While in this state the threads listening on * the sockets car be started. The smbd daemon does so through an Ioctl: * * smb_drv_ioctl(SMB_IOC_NBT_LISTEN) --> smb_server_nbt_listen() * smb_drv_ioctl(SMB_IOC_TCP_LISTEN) --> smb_server_nbt_listen() * * When a client establishes a connection the thread listening leaves * temporarily the kernel. While in user space it creates a thread for the * new session. It then returns to kernel with the result of the thread * creation. If the creation failed the new session context is destroyed * before returning listening. * * The new created thread enters the kernel though an Ioctl: * * smb_drv_ioctl(SMB_IOC_NBT_RECEIVE) --> smb_server_nbt_receive() * smb_drv_ioctl(SMB_IOC_TCP_RECEIVE) --> smb_server_tcp_receive() * * SMB_SERVER_STATE_STOPPING * * The threads listening on the NBT and TCP sockets are being terminated. * * * Transitions * ----------- * * Transition T0 * * The daemon smbd triggers its creation by opening the smbsrv device. If * the zone where the daemon lives doesn't have an smb server yet it is * created. * * smb_drv_open() --> smb_server_create() * * Transition T1 * * This transition occurs in smb_server_configure(). It is triggered by the * daemon through an Ioctl. * * smb_drv_ioctl(SMB_IOC_CONFIG) --> smb_server_configure() * * Transition T2 * * This transition occurs in smb_server_start(). It is triggered by the * daemon through an Ioctl. * * smb_drv_ioctl(SMB_IOC_START) --> smb_server_start() * * Transition T3 * * This transition occurs in smb_server_delete(). It is triggered by the * daemon when closing the smbsrv device * * smb_drv_close() --> smb_server_delete() * * Comments * -------- * * This files assumes that there will one SMB server per zone. For now the * smb server works only in global zone. There's nothing in this file preventing * an smb server from being created in a non global zone. That limitation is * enforced in user space. */ #include #include #include #include #include #include #include #include #include #include #include #include extern void smb_dispatch_kstat_init(void); extern void smb_dispatch_kstat_fini(void); extern void smb_reply_notify_change_request(smb_request_t *); static int smb_server_kstat_init(smb_server_t *); static void smb_server_kstat_fini(smb_server_t *); static int smb_server_kstat_update_info(kstat_t *, int); static void smb_server_timers(smb_thread_t *, void *); static int smb_server_listen(smb_server_t *, smb_listener_daemon_t *, in_port_t, int); static int smb_server_lookup(smb_server_t **); static void smb_server_release(smb_server_t *); static int smb_server_ulist_geti(smb_session_list_t *, int, smb_dr_user_ctx_t *, int); static void smb_server_store_cfg(smb_server_t *, smb_kmod_cfg_t *); static void smb_server_stop(smb_server_t *); static int smb_server_fsop_start(smb_server_t *); static void smb_server_fsop_stop(smb_server_t *); static smb_llist_t smb_servers; /* * ***************************************************************************** * **************** Functions called from the device interface ***************** * ***************************************************************************** * * These functions determine the relevant smb server to which the call apply. */ /* * smb_server_svc_init * * This function must called from smb_drv_attach(). */ int smb_server_svc_init(void) { int rc = 0; while (rc == 0) { if (rc = smb_vop_init()) continue; if (rc = smb_node_init()) break; if (rc = smb_fem_init()) break; if (rc = smb_notify_init()) break; if (rc = smb_kdoor_srv_start()) break; smb_llist_constructor(&smb_servers, sizeof (smb_server_t), offsetof(smb_server_t, sv_lnd)); return (0); } smb_notify_fini(); smb_fem_fini(); smb_node_fini(); smb_vop_fini(); return (rc); } /* * smb_server_svc_fini * * This function must called from smb_drv_detach(). It will fail if servers * still exist. */ int smb_server_svc_fini(void) { int rc = EBUSY; if (smb_llist_get_count(&smb_servers) == 0) { smb_kdoor_srv_stop(); smb_notify_fini(); smb_fem_fini(); smb_node_fini(); smb_vop_fini(); smb_llist_destructor(&smb_servers); rc = 0; } return (rc); } /* * smb_server_create * * This function will fail if there's already a server associated with the * caller's zone. */ int smb_server_create(void) { zoneid_t zid; smb_server_t *sv; zid = getzoneid(); smb_llist_enter(&smb_servers, RW_WRITER); sv = smb_llist_head(&smb_servers); while (sv) { ASSERT(sv->sv_magic == SMB_SERVER_MAGIC); if (sv->sv_zid == zid) { smb_llist_exit(&smb_servers); return (EEXIST); } sv = smb_llist_next(&smb_servers, sv); } sv = kmem_zalloc(sizeof (smb_server_t), KM_NOSLEEP); if (sv == NULL) { smb_llist_exit(&smb_servers); return (ENOMEM); } smb_llist_constructor(&sv->sv_vfs_list, sizeof (smb_vfs_t), offsetof(smb_vfs_t, sv_lnd)); smb_session_list_constructor(&sv->sv_nbt_daemon.ld_session_list); smb_session_list_constructor(&sv->sv_tcp_daemon.ld_session_list); sv->si_cache_vfs = kmem_cache_create("smb_vfs_cache", sizeof (smb_vfs_t), 8, NULL, NULL, NULL, NULL, NULL, 0); sv->si_cache_request = kmem_cache_create("smb_request_cache", sizeof (smb_request_t), 8, NULL, NULL, NULL, NULL, NULL, 0); sv->si_cache_session = kmem_cache_create("smb_session_cache", sizeof (smb_session_t), 8, NULL, NULL, NULL, NULL, NULL, 0); sv->si_cache_user = kmem_cache_create("smb_user_cache", sizeof (smb_user_t), 8, NULL, NULL, NULL, NULL, NULL, 0); sv->si_cache_tree = kmem_cache_create("smb_tree_cache", sizeof (smb_tree_t), 8, NULL, NULL, NULL, NULL, NULL, 0); sv->si_cache_ofile = kmem_cache_create("smb_ofile_cache", sizeof (smb_ofile_t), 8, NULL, NULL, NULL, NULL, NULL, 0); sv->si_cache_odir = kmem_cache_create("smb_odir_cache", sizeof (smb_odir_t), 8, NULL, NULL, NULL, NULL, NULL, 0); sv->si_cache_node = kmem_cache_create("smb_node_cache", sizeof (smb_node_t), 8, NULL, NULL, NULL, NULL, NULL, 0); smb_thread_init(&sv->si_thread_timers, "smb_timers", smb_server_timers, sv, NULL, NULL); sv->sv_proc = curproc; smb_winpipe_init(); (void) smb_server_kstat_init(sv); mutex_init(&sv->sv_mutex, NULL, MUTEX_DEFAULT, NULL); cv_init(&sv->sv_cv, NULL, CV_DEFAULT, NULL); sv->sv_state = SMB_SERVER_STATE_CREATED; sv->sv_magic = SMB_SERVER_MAGIC; sv->sv_zid = zid; smb_llist_insert_tail(&smb_servers, sv); smb_llist_exit(&smb_servers); return (0); } /* * smb_server_delete * * This function will delete the server passed in. It will make sure that all * activity associated that server has ceased before destroying it. */ int smb_server_delete(void) { smb_server_t *sv; int rc; rc = smb_server_lookup(&sv); if (rc != 0) return (rc); mutex_enter(&sv->sv_mutex); switch (sv->sv_state) { case SMB_SERVER_STATE_RUNNING: { boolean_t nbt = B_FALSE; boolean_t tcp = B_FALSE; if (sv->sv_nbt_daemon.ld_kth) { tsignal(sv->sv_nbt_daemon.ld_kth, SIGINT); nbt = B_TRUE; } if (sv->sv_tcp_daemon.ld_kth) { tsignal(sv->sv_tcp_daemon.ld_kth, SIGINT); tcp = B_TRUE; } sv->sv_state = SMB_SERVER_STATE_DELETING; mutex_exit(&sv->sv_mutex); if (nbt) thread_join(sv->sv_nbt_daemon.ld_ktdid); if (tcp) thread_join(sv->sv_tcp_daemon.ld_ktdid); mutex_enter(&sv->sv_mutex); break; } case SMB_SERVER_STATE_CONFIGURED: case SMB_SERVER_STATE_CREATED: sv->sv_state = SMB_SERVER_STATE_DELETING; break; default: ASSERT(sv->sv_state == SMB_SERVER_STATE_DELETING); mutex_exit(&sv->sv_mutex); smb_server_release(sv); return (ENOTTY); } ASSERT(sv->sv_state == SMB_SERVER_STATE_DELETING); sv->sv_refcnt--; while (sv->sv_refcnt) cv_wait(&sv->sv_cv, &sv->sv_mutex); mutex_exit(&sv->sv_mutex); smb_llist_enter(&smb_servers, RW_WRITER); smb_llist_remove(&smb_servers, sv); smb_llist_exit(&smb_servers); smb_server_stop(sv); rw_destroy(&sv->sv_cfg_lock); smb_winpipe_fini(); smb_server_kstat_fini(sv); smb_llist_destructor(&sv->sv_vfs_list); kmem_cache_destroy(sv->si_cache_vfs); kmem_cache_destroy(sv->si_cache_request); kmem_cache_destroy(sv->si_cache_session); kmem_cache_destroy(sv->si_cache_user); kmem_cache_destroy(sv->si_cache_tree); kmem_cache_destroy(sv->si_cache_ofile); kmem_cache_destroy(sv->si_cache_odir); kmem_cache_destroy(sv->si_cache_node); taskq_destroy(sv->sv_thread_pool); smb_thread_destroy(&sv->si_thread_timers); mutex_destroy(&sv->sv_mutex); cv_destroy(&sv->sv_cv); sv->sv_magic = 0; kmem_free(sv, sizeof (smb_server_t)); return (0); } /* * smb_server_configure */ int smb_server_configure(smb_kmod_cfg_t *cfg) { int rc = 0; smb_server_t *sv; rc = smb_server_lookup(&sv); if (rc) return (rc); mutex_enter(&sv->sv_mutex); switch (sv->sv_state) { case SMB_SERVER_STATE_CREATED: smb_server_store_cfg(sv, cfg); sv->sv_state = SMB_SERVER_STATE_CONFIGURED; break; case SMB_SERVER_STATE_CONFIGURED: smb_server_store_cfg(sv, cfg); break; case SMB_SERVER_STATE_RUNNING: rw_enter(&sv->sv_cfg_lock, RW_WRITER); smb_server_store_cfg(sv, cfg); rw_exit(&sv->sv_cfg_lock); break; default: ASSERT(sv->sv_state == SMB_SERVER_STATE_DELETING); rc = EFAULT; break; } mutex_exit(&sv->sv_mutex); smb_server_release(sv); return (rc); } /* * smb_server_start */ int smb_server_start(struct smb_io_start *io_start) { int rc = 0; smb_server_t *sv; rc = smb_server_lookup(&sv); if (rc) return (rc); mutex_enter(&sv->sv_mutex); switch (sv->sv_state) { case SMB_SERVER_STATE_CONFIGURED: sv->sv_thread_pool = taskq_create("smb_workers", sv->sv_cfg.skc_maxworkers, SMB_WORKER_PRIORITY, sv->sv_cfg.skc_maxworkers, INT_MAX, TASKQ_DYNAMIC|TASKQ_PREPOPULATE); sv->sv_session = smb_session_create(NULL, 0, sv); if (sv->sv_session == NULL) { rc = ENOMEM; break; } if (rc = smb_server_fsop_start(sv)) break; ASSERT(sv->sv_lmshrd == NULL); sv->sv_lmshrd = lmshrd_kclient_init(io_start->lmshrd); if (sv->sv_lmshrd == NULL) break; if (rc = smb_kdoor_clnt_start(io_start->udoor)) break; if (rc = smb_kdoor_srv_set_dwncall()) break; if (rc = smb_thread_start(&sv->si_thread_timers)) break; /* * XXX We give up the NET_MAC_AWARE privilege because it keeps * us from re-opening the connection when there are leftover TCP * connections in TCPS_TIME_WAIT state. There seem to be some * security ramifications around reestablishing a connection * while possessing the NET_MAC_AWARE privilege. * * This approach may cause problems when we try to support * zones. An alternative would be to retry the connection setup * for a fixed period of time until the stale connections clear * up but that implies we would be offline for a couple minutes * every time the service is restarted with active connections. */ rc = setpflags(NET_MAC_AWARE, 0, CRED()); if (rc) { cmn_err(CE_WARN, "Cannot remove NET_MAC_AWARE privilege"); break; } if (rc = smb_winpipe_open(io_start->winpipe)) { cmn_err(CE_WARN, "Cannot open winpipe door"); break; } sv->sv_state = SMB_SERVER_STATE_RUNNING; mutex_exit(&sv->sv_mutex); smb_server_release(sv); return (0); default: ASSERT((sv->sv_state == SMB_SERVER_STATE_CREATED) || (sv->sv_state == SMB_SERVER_STATE_RUNNING) || (sv->sv_state == SMB_SERVER_STATE_DELETING)); mutex_exit(&sv->sv_mutex); smb_server_release(sv); return (ENOTTY); } smb_server_stop(sv); mutex_exit(&sv->sv_mutex); smb_server_release(sv); return (rc); } /* * smb_server_nbt_listen: SMB-over-NetBIOS service * * Traditional SMB service over NetBIOS (port 139), which requires * that a NetBIOS session be established. */ int smb_server_nbt_listen(int error) { smb_server_t *sv; int rc; rc = smb_server_lookup(&sv); if (rc) return (rc); mutex_enter(&sv->sv_mutex); switch (sv->sv_state) { case SMB_SERVER_STATE_RUNNING: if ((sv->sv_nbt_daemon.ld_kth != NULL) && (sv->sv_nbt_daemon.ld_kth != curthread)) { mutex_exit(&sv->sv_mutex); return (EACCES); } else { sv->sv_nbt_daemon.ld_kth = curthread; sv->sv_nbt_daemon.ld_ktdid = curthread->t_did; } break; default: ASSERT((sv->sv_state == SMB_SERVER_STATE_CREATED) || (sv->sv_state == SMB_SERVER_STATE_CONFIGURED) || (sv->sv_state == SMB_SERVER_STATE_DELETING)); mutex_exit(&sv->sv_mutex); smb_server_release(sv); return (EFAULT); } mutex_exit(&sv->sv_mutex); rc = smb_server_listen(sv, &sv->sv_nbt_daemon, SSN_SRVC_TCP_PORT, error); if (rc) { mutex_enter(&sv->sv_mutex); sv->sv_nbt_daemon.ld_kth = NULL; mutex_exit(&sv->sv_mutex); } smb_server_release(sv); return (rc); } int smb_server_tcp_listen(int error) { smb_server_t *sv; int rc; rc = smb_server_lookup(&sv); if (rc) return (rc); mutex_enter(&sv->sv_mutex); switch (sv->sv_state) { case SMB_SERVER_STATE_RUNNING: if ((sv->sv_tcp_daemon.ld_kth) && (sv->sv_tcp_daemon.ld_kth != curthread)) { mutex_exit(&sv->sv_mutex); return (EACCES); } else { sv->sv_tcp_daemon.ld_kth = curthread; sv->sv_tcp_daemon.ld_ktdid = curthread->t_did; } break; default: ASSERT((sv->sv_state == SMB_SERVER_STATE_CREATED) || (sv->sv_state == SMB_SERVER_STATE_CONFIGURED) || (sv->sv_state == SMB_SERVER_STATE_DELETING)); mutex_exit(&sv->sv_mutex); return (EFAULT); } mutex_exit(&sv->sv_mutex); rc = smb_server_listen(sv, &sv->sv_tcp_daemon, SMB_SRVC_TCP_PORT, error); if (rc) { mutex_enter(&sv->sv_mutex); sv->sv_tcp_daemon.ld_kth = NULL; mutex_exit(&sv->sv_mutex); } smb_server_release(sv); return (rc); } /* * smb_server_nbt_receive */ int smb_server_nbt_receive(void) { int rc; smb_server_t *sv; rc = smb_server_lookup(&sv); if (rc) return (rc); rc = smb_session_daemon(&sv->sv_nbt_daemon.ld_session_list); smb_server_release(sv); return (rc); } /* * smb_server_tcp_receive */ int smb_server_tcp_receive(void) { int rc; smb_server_t *sv; rc = smb_server_lookup(&sv); if (rc) return (rc); rc = smb_session_daemon(&sv->sv_tcp_daemon.ld_session_list); smb_server_release(sv); return (rc); } int smb_server_set_gmtoff(uint32_t goff) { int rc; smb_server_t *sv; rc = smb_server_lookup(&sv); if (rc) return (rc); sv->si_gmtoff = goff; smb_server_release(sv); return (rc); } /* * ***************************************************************************** * ****************** Functions called from the door interface ***************** * ***************************************************************************** * * These functions determine the relevant smb server to which the call apply. */ uint32_t smb_server_get_user_count(void) { smb_server_t *sv; uint32_t counter = 0; if (smb_server_lookup(&sv)) return (0); counter = (uint32_t)sv->sv_open_users; smb_server_release(sv); return (counter); } uint32_t smb_server_get_session_count(void) { smb_server_t *sv; uint32_t counter = 0; if (smb_server_lookup(&sv)) return (0); rw_enter(&sv->sv_nbt_daemon.ld_session_list.se_lock, RW_READER); counter = sv->sv_nbt_daemon.ld_session_list.se_act.count; rw_exit(&sv->sv_nbt_daemon.ld_session_list.se_lock); rw_enter(&sv->sv_tcp_daemon.ld_session_list.se_lock, RW_READER); counter += sv->sv_tcp_daemon.ld_session_list.se_act.count; rw_exit(&sv->sv_tcp_daemon.ld_session_list.se_lock); smb_server_release(sv); return (counter); } /* * smb_session_disconnect_share * * Disconnects the specified share. This function should be called after the * share passed in has been made unavailable by the "share manager". */ void smb_server_disconnect_share(char *sharename) { smb_server_t *sv; if (smb_server_lookup(&sv)) return; smb_session_disconnect_share(&sv->sv_nbt_daemon.ld_session_list, sharename); smb_session_disconnect_share(&sv->sv_tcp_daemon.ld_session_list, sharename); smb_server_release(sv); } void smb_server_disconnect_volume(fs_desc_t *fsd) { smb_server_t *sv; if (smb_server_lookup(&sv)) return; smb_session_disconnect_volume(&sv->sv_nbt_daemon.ld_session_list, fsd); smb_session_disconnect_volume(&sv->sv_tcp_daemon.ld_session_list, fsd); smb_server_release(sv); } int smb_server_dr_ulist_get(int offset, smb_dr_ulist_t *dr_ulist, int max_cnt) { smb_server_t *sv; if (!dr_ulist) return (-1); if (smb_server_lookup(&sv)) return (-1); dr_ulist->dul_cnt = smb_server_ulist_geti(&sv->sv_nbt_daemon.ld_session_list, offset, dr_ulist->dul_users, max_cnt); dr_ulist->dul_cnt += smb_server_ulist_geti(&sv->sv_tcp_daemon.ld_session_list, offset - dr_ulist->dul_cnt, &dr_ulist->dul_users[dr_ulist->dul_cnt], max_cnt); return (dr_ulist->dul_cnt); } /* * smb_server_share_export() * * This function handles kernel processing at share enable time. * * At share-enable time (LMSHRD_ADD), the file system corresponding to * the share is checked for characteristics that are required for SMB * sharing. If this check passes, then a hold is taken on the root vnode * of the file system (or a reference count on the corresponding smb_vfs_t * is bumped), preventing an unmount. (See smb_vfs_hold()). */ int smb_server_share_export(char *path) { smb_server_t *sv; int error; smb_node_t *fnode = NULL; smb_node_t *dnode; smb_attr_t ret_attr; char last_comp[MAXNAMELEN]; smb_request_t *sr; if (smb_server_lookup(&sv)) return (EINVAL); sr = smb_request_alloc(sv->sv_session, 0); if (sr == NULL) { smb_server_release(sv); return (ENOMEM); } sr->user_cr = kcred; error = smb_pathname_reduce(sr, kcred, path, NULL, NULL, &dnode, last_comp); if (error) { smb_request_free(sr); smb_server_release(sv); return (error); } error = smb_fsop_lookup(sr, sr->user_cr, SMB_FOLLOW_LINKS, NULL, dnode, last_comp, &fnode, &ret_attr, NULL, NULL); smb_node_release(dnode); if (error) { smb_request_free(sr); smb_server_release(sv); return (error); } ASSERT(fnode->vp && fnode->vp->v_vfsp); #ifdef SMB_ENFORCE_NODEV if (vfs_optionisset(fnode->vp->v_vfsp, MNTOPT_NODEVICES, NULL) == 0) return (EINVAL); #endif /* SMB_ENFORCE_NODEV */ if (!smb_vfs_hold(sv, fnode->vp->v_vfsp)) { smb_node_release(fnode); smb_request_free(sr); smb_server_release(sv); return (ENOMEM); } /* * The refcount on the smb_vfs has been incremented. * If it wasn't already, a hold has also been taken * on the root vnode of the file system. */ smb_node_release(fnode); smb_request_free(sr); smb_server_release(sv); return (0); } /* * smb_server_share_unexport() * * This function handles kernel processing at share disable time. * * At share-disable time (LMSHRD_DELETE), the reference count on the * corresponding smb_vfs_t is decremented. If this is the last share * on the file system, the hold on the root vnode of the file system * will be released. (See smb_vfs_rele().) */ int smb_server_share_unexport(char *path, char *sharename) { smb_server_t *sv; int error; smb_node_t *fnode = NULL; smb_node_t *dnode; smb_attr_t ret_attr; char last_comp[MAXNAMELEN]; smb_request_t *sr; if (smb_server_lookup(&sv)) return (EINVAL); sr = smb_request_alloc(sv->sv_session, 0); if (sr == NULL) { smb_server_release(sv); return (ENOMEM); } sr->user_cr = kcred; error = smb_pathname_reduce(sr, kcred, path, NULL, NULL, &dnode, last_comp); if (error) { smb_request_free(sr); smb_server_release(sv); return (error); } error = smb_fsop_lookup(sr, kcred, SMB_FOLLOW_LINKS, NULL, dnode, last_comp, &fnode, &ret_attr, NULL, NULL); smb_node_release(dnode); if (error) { smb_request_free(sr); smb_server_release(sv); return (error); } ASSERT(fnode->vp && fnode->vp->v_vfsp); smb_session_disconnect_share(&sv->sv_nbt_daemon.ld_session_list, sharename); smb_session_disconnect_share(&sv->sv_tcp_daemon.ld_session_list, sharename); smb_vfs_rele(sv, fnode->vp->v_vfsp); smb_node_release(fnode); smb_request_free(sr); smb_server_release(sv); return (0); } /* * This is a special interface that will be utilized by ZFS to cause a share to * be added/removed. * * arg is either a lmshare_info_t or share_name from userspace. * It will need to be copied into the kernel. It is lmshare_info_t * for add operations and share_name for delete operations. */ int smb_server_share(void *arg, boolean_t add_share) { smb_server_t *sv; int rc; rc = smb_server_lookup(&sv); if (rc == 0) { mutex_enter(&sv->sv_mutex); if (sv->sv_state == SMB_SERVER_STATE_RUNNING) { mutex_exit(&sv->sv_mutex); rc = lmshrd_share_upcall(sv->sv_lmshrd, arg, add_share); } else { mutex_exit(&sv->sv_mutex); rc = EPERM; } smb_server_release(sv); } return (rc); } /* * ***************************************************************************** * **************** Functions called from the internal layers ****************** * ***************************************************************************** * * These functions are provided the relevant smb server by the caller. */ void smb_server_reconnection_check(smb_server_t *sv, smb_session_t *session) { ASSERT(sv == session->s_server); smb_session_reconnection_check(&sv->sv_nbt_daemon.ld_session_list, session); smb_session_reconnection_check(&sv->sv_tcp_daemon.ld_session_list, session); } void smb_server_get_cfg(smb_server_t *sv, smb_kmod_cfg_t *cfg) { rw_enter(&sv->sv_cfg_lock, RW_READER); bcopy(&sv->sv_cfg, cfg, sizeof (*cfg)); rw_exit(&sv->sv_cfg_lock); } /* * ***************************************************************************** * *************************** Static Functions ******************************** * ***************************************************************************** */ static void smb_server_timers(smb_thread_t *thread, void *arg) { smb_server_t *sv = (smb_server_t *)arg; ASSERT(sv != NULL); while (smb_thread_continue_timedwait(thread, 1 /* Seconds */)) { smb_session_timers(&sv->sv_nbt_daemon.ld_session_list); smb_session_timers(&sv->sv_tcp_daemon.ld_session_list); } } /* * smb_server_kstat_init */ static int smb_server_kstat_init(smb_server_t *sv) { (void) snprintf(sv->sv_ksp_name, sizeof (sv->sv_ksp_name), "smb_server%d", sv->sv_zid); sv->sv_ksp = kstat_create("smbsrv", sv->sv_zid, sv->sv_ksp_name, "net", KSTAT_TYPE_NAMED, sizeof (sv->sv_ks_data) / sizeof (kstat_named_t), KSTAT_FLAG_VIRTUAL); if (sv->sv_ksp) { (void) strlcpy(sv->sv_ks_data.state.name, "state", sizeof (sv->sv_ks_data.state.name)); sv->sv_ks_data.state.data_type = KSTAT_DATA_UINT32; (void) strlcpy(sv->sv_ks_data.open_files.name, "open_files", sizeof (sv->sv_ks_data.open_files.name)); sv->sv_ks_data.open_files.data_type = KSTAT_DATA_UINT32; (void) strlcpy(sv->sv_ks_data.open_trees.name, "connections", sizeof (sv->sv_ks_data.open_trees.name)); sv->sv_ks_data.open_trees.data_type = KSTAT_DATA_UINT32; (void) strlcpy(sv->sv_ks_data.open_users.name, "sessions", sizeof (sv->sv_ks_data.open_users.name)); sv->sv_ks_data.open_users.data_type = KSTAT_DATA_UINT32; mutex_init(&sv->sv_ksp_mutex, NULL, MUTEX_DEFAULT, NULL); sv->sv_ksp->ks_lock = &sv->sv_ksp_mutex; sv->sv_ksp->ks_data = (void *)&sv->sv_ks_data; sv->sv_ksp->ks_update = smb_server_kstat_update_info; kstat_install(sv->sv_ksp); } /* create and initialize smb kstats - smb_dispatch stats */ smb_dispatch_kstat_init(); return (0); } /* * smb_server_kstat_fini */ static void smb_server_kstat_fini(smb_server_t *sv) { if (sv->sv_ksp) { kstat_delete(sv->sv_ksp); mutex_destroy(&sv->sv_ksp_mutex); sv->sv_ksp = NULL; } smb_dispatch_kstat_fini(); } /* ARGSUSED */ static int smb_server_kstat_update_info(kstat_t *ksp, int rw) { smb_server_t *sv; if (rw == KSTAT_WRITE) { return (EACCES); } else { ASSERT(MUTEX_HELD(ksp->ks_lock)); _NOTE(LINTED("pointer cast may result in improper alignment")) sv = (smb_server_t *)((uint8_t *)(ksp->ks_data) - offsetof(smb_server_t, sv_ks_data)); ASSERT(sv->sv_magic == SMB_SERVER_MAGIC); sv->sv_ks_data.state.value.ui32 = sv->sv_state; sv->sv_ks_data.open_files.value.ui32 = sv->sv_open_files; sv->sv_ks_data.open_trees.value.ui32 = sv->sv_open_trees; sv->sv_ks_data.open_users.value.ui32 = sv->sv_open_users; } return (0); } /* * smb_server_stop * * The mutex of the server must have been entered before calling this function. */ static void smb_server_stop(smb_server_t *sv) { ASSERT(sv->sv_magic == SMB_SERVER_MAGIC); smb_winpipe_close(); smb_thread_stop(&sv->si_thread_timers); smb_kdoor_clnt_stop(); lmshrd_kclient_fini(sv->sv_lmshrd); smb_server_fsop_stop(sv); if (sv->sv_session) { smb_session_delete(sv->sv_session); sv->sv_session = NULL; } } static int smb_server_listen( smb_server_t *sv, smb_listener_daemon_t *ld, in_port_t port, int pthread_create_error) { int rc; struct sonode *s_so; uint32_t on = 1; smb_session_t *session; if (pthread_create_error) { /* * Delete the last session created. The user space thread * creation failed. */ smb_session_list_delete_tail(&ld->ld_session_list); } if (ld->ld_so == NULL) { /* First time listener */ ld->ld_sin.sin_family = AF_INET; ld->ld_sin.sin_port = htons(port); ld->ld_sin.sin_addr.s_addr = htonl(INADDR_ANY); ld->ld_so = smb_socreate(AF_INET, SOCK_STREAM, 0); if (ld->ld_so) { (void) sosetsockopt(ld->ld_so, SOL_SOCKET, SO_REUSEADDR, (const void *)&on, sizeof (on)); rc = sobind(ld->ld_so, (struct sockaddr *)&ld->ld_sin, sizeof (ld->ld_sin), 0, 0); if (rc == 0) { rc = solisten(ld->ld_so, 20); if (rc < 0) { cmn_err(CE_WARN, "Port %d: listen failed", port); smb_soshutdown(ld->ld_so); smb_sodestroy(ld->ld_so); ld->ld_so = NULL; return (rc); } } else { cmn_err(CE_WARN, "Port %d: bind failed", port); smb_soshutdown(ld->ld_so); smb_sodestroy(ld->ld_so); ld->ld_so = NULL; return (rc); } } else { cmn_err(CE_WARN, "Port %d: socket create failed", port); return (ENOMEM); } } DTRACE_PROBE1(so__wait__accept, struct sonode *, ld->ld_so); for (;;) { rc = soaccept(ld->ld_so, 0, &s_so); if (rc == 0) { uint32_t txbuf_size = 128*1024; uint32_t on = 1; DTRACE_PROBE1(so__accept, struct sonode *, s_so); (void) sosetsockopt(s_so, IPPROTO_TCP, TCP_NODELAY, (const void *)&on, sizeof (on)); (void) sosetsockopt(s_so, SOL_SOCKET, SO_KEEPALIVE, (const void *)&on, sizeof (on)); (void) sosetsockopt(s_so, SOL_SOCKET, SO_SNDBUF, (const void *)&txbuf_size, sizeof (txbuf_size)); /* * Create a session for this connection. */ session = smb_session_create(s_so, port, sv); if (session) { smb_session_list_append(&ld->ld_session_list, session); break; } else { smb_soshutdown(s_so); smb_sodestroy(s_so); } continue; } smb_session_list_signal(&ld->ld_session_list); smb_soshutdown(ld->ld_so); smb_sodestroy(ld->ld_so); ld->ld_so = NULL; break; } return (rc); } /* * smb_server_lookup * * This function tries to find the server associated with the zone of the * caller. */ static int smb_server_lookup(smb_server_t **psv) { zoneid_t zid; smb_server_t *sv; zid = getzoneid(); smb_llist_enter(&smb_servers, RW_READER); sv = smb_llist_head(&smb_servers); while (sv) { ASSERT(sv->sv_magic == SMB_SERVER_MAGIC); if (sv->sv_zid == zid) { mutex_enter(&sv->sv_mutex); if (sv->sv_state != SMB_SERVER_STATE_DELETING) { sv->sv_refcnt++; mutex_exit(&sv->sv_mutex); smb_llist_exit(&smb_servers); *psv = sv; return (0); } mutex_exit(&sv->sv_mutex); break; } sv = smb_llist_next(&smb_servers, sv); } smb_llist_exit(&smb_servers); return (EPERM); } /* * smb_server_release * * This function decrements the reference count of the server and signals its * condition variable if the state of the server is SMB_SERVER_STATE_DELETING. */ static void smb_server_release(smb_server_t *sv) { ASSERT(sv->sv_magic == SMB_SERVER_MAGIC); mutex_enter(&sv->sv_mutex); ASSERT(sv->sv_refcnt); sv->sv_refcnt--; if ((sv->sv_refcnt == 0) && (sv->sv_state == SMB_SERVER_STATE_DELETING)) cv_signal(&sv->sv_cv); mutex_exit(&sv->sv_mutex); } static int smb_server_ulist_geti( smb_session_list_t *se, int offset, smb_dr_user_ctx_t *uinfo, int max_cnt) { smb_session_t *sn = NULL; smb_user_t *user; smb_llist_t *ulist; int cnt = 0, skip = 0; rw_enter(&se->se_lock, RW_READER); sn = list_head(&se->se_act.lst); while (sn && (cnt < max_cnt)) { ASSERT(sn->s_magic == SMB_SESSION_MAGIC); ulist = &sn->s_user_list; smb_llist_enter(ulist, RW_READER); user = smb_llist_head(ulist); while (user && (cnt < max_cnt)) { ASSERT(user->u_magic == SMB_USER_MAGIC); mutex_enter(&user->u_mutex); if (user->u_state == SMB_USER_STATE_LOGGED_IN) { if (skip++ < offset) { mutex_exit(&user->u_mutex); user = smb_llist_next(ulist, user); continue; } if (smb_dr_user_create(uinfo, sn->s_kid, user->u_uid, user->u_domain, user->u_name, sn->workstation, sn->ipaddr, sn->native_os, user->u_logon_time, user->u_flags) != 0) { mutex_exit(&user->u_mutex); user = smb_llist_next(ulist, user); continue; } uinfo++; cnt++; } mutex_exit(&user->u_mutex); user = smb_llist_next(ulist, user); } smb_llist_exit(ulist); } rw_exit(&se->se_lock); return (cnt); } static void smb_server_store_cfg(smb_server_t *sv, smb_kmod_cfg_t *cfg) { if (cfg->skc_maxconnections == 0) cfg->skc_maxconnections = 0xFFFFFFFF; /* * XXX should not override configuration. * For now, this disables server side * signing regardless of configuration. */ cfg->skc_signing_enable = 0; cfg->skc_signing_required = 0; cfg->skc_signing_check = 0; smb_session_correct_keep_alive_values( &sv->sv_nbt_daemon.ld_session_list, cfg->skc_keepalive); smb_session_correct_keep_alive_values( &sv->sv_tcp_daemon.ld_session_list, cfg->skc_keepalive); /* * XXX The following code was pulled from smb_oplock_init. * It should be combined with with the config process if * this info will be stored with the configuration or with * the smb_fsop_start function if the data will be stored * in the root of the fs. */ /* * XXX oplock enable flag. * Should be stored in extended attribute in root of fs * or a ZFS user-defined property. */ if (cfg->skc_oplock_enable == 0) { cmn_err(CE_NOTE, "SmbOplocks: disabled"); } bcopy(cfg, &sv->sv_cfg, sizeof (sv->sv_cfg)); } static int smb_server_fsop_start(smb_server_t *sv) { int error; error = smb_node_root_init(rootdir, sv, &sv->si_root_smb_node); if (error != 0) sv->si_root_smb_node = NULL; return (error); } static void smb_server_fsop_stop(smb_server_t *sv) { if (sv->si_root_smb_node != NULL) { smb_vfs_rele_all(sv); smb_node_release(sv->si_root_smb_node); sv->si_root_smb_node = NULL; } }