/* * This file and its contents are supplied under the terms of the * Common Development and Distribution License ("CDDL"), version 1.0. * You may only use this file in accordance with the terms of version * 1.0 of the CDDL. * * A full copy of the text of the CDDL should have accompanied this * source. A copy of the CDDL is also available via the Internet at * http://www.illumos.org/license/CDDL. */ /* * Copyright 2019 Nexenta by DDN, Inc. All rights reserved. */ /* * (SMB1/SMB2) Server-level Oplock support. * * Conceptually, this is a separate layer on top of the * file system (FS) layer oplock code in smb_cmn_oplock.c. * If these layers were more distinct, the FS layer would * need to use call-back functions (installed from here) * to "indicate an oplock break to the server" (see below). * As these layers are all in the same kernel module, the * delivery of these break indications just uses a direct * function call to smb_oplock_ind_break() below. * * This layer is responsible for handling the break indication, * which often requires scheduling a taskq job in the server, * and sending an oplock break mesage to the client using * the appropriate protocol for the open handle affected. * * The details of composing an oplock break message, the * protocol-specific details of requesting an oplock, and * returning that oplock to the client are in the files: * smb_oplock.c, smb2_oplock.c, smb2_lease.c */ #include #include /* * Verify relationship between BREAK_TO_... and CACHE bits, * used when setting the BREAK_TO_... below. */ #if BREAK_TO_READ_CACHING != (READ_CACHING << BREAK_SHIFT) #error "BREAK_TO_READ_CACHING" #endif #if BREAK_TO_HANDLE_CACHING != (HANDLE_CACHING << BREAK_SHIFT) #error "BREAK_TO_HANDLE_CACHING" #endif #if BREAK_TO_WRITE_CACHING != (WRITE_CACHING << BREAK_SHIFT) #error "BREAK_TO_WRITE_CACHING" #endif #define CACHE_RWH (READ_CACHING | WRITE_CACHING | HANDLE_CACHING) /* * This is the timeout used in the thread that sends an * oplock break and waits for the client to respond * before it breaks the oplock locally. */ int smb_oplock_timeout_ack = 30000; /* mSec. */ /* * This is the timeout used in threads that have just * finished some sort of oplock request and now must * wait for (possibly multiple) breaks to complete. * This value must be at least a couple seconds LONGER * than the ack timeout above so that I/O callers won't * give up waiting before the local ack timeout. */ int smb_oplock_timeout_def = 45000; /* mSec. */ static void smb_oplock_async_break(void *); static void smb_oplock_hdl_clear(smb_ofile_t *); /* * 2.1.5.17.3 Indicating an Oplock Break to the Server * * The inputs for indicating an oplock break to the server are: * * BreakingOplockOpen: The Open used to request the oplock * that is now breaking. * NewOplockLevel: The type of oplock the requested oplock * has been broken to. Valid values are as follows: * LEVEL_NONE (that is, no oplock) * LEVEL_TWO * A combination of one or more of the following flags: * READ_CACHING * HANDLE_CACHING * WRITE_CACHING * AcknowledgeRequired: A Boolean value; TRUE if the server * MUST acknowledge the oplock break, FALSE if not, * as specified in section 2.1.5.18. * OplockCompletionStatus: The NTSTATUS code to return to the server. * * This algorithm simply represents the completion of an oplock request, * as specified in section 2.1.5.17.1 or section 2.1.5.17.2. The server * is expected to associate the return status from this algorithm with * BreakingOplockOpen, which is the Open passed in when it requested * the oplock that is now breaking. * * It is important to note that because several oplocks can be outstanding * in parallel, although this algorithm represents the completion of an * oplock request, it might not result in the completion of the algorithm * that called it. In particular, calling this algorithm will result in * completion of the caller only if BreakingOplockOpen is the same as the * Open with which the calling algorithm was itself called. To mitigate * confusion, each algorithm that refers to this section will specify * whether that algorithm's operation terminates at that point or not. * * The object store MUST return OplockCompletionStatus, * AcknowledgeRequired, and NewOplockLevel to the server (the algorithm is * as specified in section 2.1.5.17.1 and section 2.1.5.17.2). * * Implementation: * * We use two versions of this function: * smb_oplock_ind_break_in_ack * smb_oplock_ind_break * * The first is used when we're handling an Oplock Break Ack. * The second is used when other operations cause a break, * generally in one of the smb_oplock_break_... functions. * * Note that these are call-back functions that may be called with the * node ofile list rwlock held and the node oplock mutex entered, so * these should ONLY schedule oplock break work, and MUST NOT attempt * any actions that might require either of those locks. */ /* * smb_oplock_ind_break_in_ack * * Variant of smb_oplock_ind_break() for the oplock Ack handler. * When we need to indicate another oplock break from within the * Ack handler (during the Ack. of some previous oplock break) * we need to make sure this new break indication goes out only * AFTER the reply to the current break ack. is sent out. * * In this case, we always have an SR (the break ack) so we can * append the "ind break" work to the current SR and let the * request hander thread do this work after the reply is sent. * Note: this is always an SMB2 or later request, because this * only happens for "granular" oplocks, which are SMB2-only. * * This is mostly the same as smb_oplock_ind_break() except: * - The only CompletionStatus possible is STATUS_CANT_GRANT. * - Instead of taskq_dispatch this appends the new SR to * the "post work" queue on the current SR. * * Note called with the node ofile list rwlock held and * the oplock mutex entered. */ void smb_oplock_ind_break_in_ack(smb_request_t *ack_sr, smb_ofile_t *ofile, uint32_t NewLevel, boolean_t AckRequired) { smb_request_t *new_sr; /* * This should happen only with SMB2 or later, * but in case that ever changes... */ if (ack_sr->session->dialect < SMB_VERS_2_BASE) { smb_oplock_ind_break(ofile, NewLevel, AckRequired, STATUS_CANT_GRANT); return; } /* * We're going to schedule a request that will have a * reference to this ofile. Get the hold first. */ if (!smb_ofile_hold_olbrk(ofile)) { /* It's closing (or whatever). Nothing to do. */ return; } /* * When called from Ack processing, we want to use a * request on the session doing the ack. If we can't * allocate a request on that session (because it's * now disconnecting) just fall-back to the normal * oplock break code path which deals with that. * Once we have a request on the ack session, that * session won't go away until the request is done. */ new_sr = smb_request_alloc(ack_sr->session, 0); if (new_sr == NULL) { smb_oplock_ind_break(ofile, NewLevel, AckRequired, STATUS_CANT_GRANT); smb_ofile_release(ofile); return; } new_sr->sr_state = SMB_REQ_STATE_SUBMITTED; new_sr->smb2_async = B_TRUE; new_sr->user_cr = zone_kcred(); new_sr->fid_ofile = ofile; if (ofile->f_tree != NULL) { new_sr->tid_tree = ofile->f_tree; smb_tree_hold_internal(ofile->f_tree); } if (ofile->f_user != NULL) { new_sr->uid_user = ofile->f_user; smb_user_hold_internal(ofile->f_user); } new_sr->arg.olbrk.NewLevel = NewLevel; new_sr->arg.olbrk.AckRequired = AckRequired; /* * Using smb2_cmd_code to indicate what to call. * work func. will call smb_oplock_send_brk */ new_sr->smb2_cmd_code = SMB2_OPLOCK_BREAK; smb2sr_append_postwork(ack_sr, new_sr); } /* * smb_oplock_ind_break * * This is the function described in [MS-FSA] 2.1.5.17.3 * which is called many places in the oplock break code. * * Schedule a request & taskq job to do oplock break work * as requested by the FS-level code (smb_cmn_oplock.c). * * Note called with the node ofile list rwlock held and * the oplock mutex entered. */ void smb_oplock_ind_break(smb_ofile_t *ofile, uint32_t NewLevel, boolean_t AckRequired, uint32_t CompletionStatus) { smb_server_t *sv = ofile->f_server; smb_request_t *sr = NULL; /* * See notes at smb_oplock_async_break re. CompletionStatus * Check for any invalid codes here, so assert happens in * the thread passing an unexpected value. * The real work happens in a taskq job. */ switch (CompletionStatus) { case NT_STATUS_SUCCESS: case STATUS_CANT_GRANT: /* Send break via taskq job. */ break; case STATUS_NEW_HANDLE: case NT_STATUS_OPLOCK_HANDLE_CLOSED: smb_oplock_hdl_clear(ofile); return; default: ASSERT(0); return; } /* * We're going to schedule a request that will have a * reference to this ofile. Get the hold first. */ if (!smb_ofile_hold_olbrk(ofile)) { /* It's closing (or whatever). Nothing to do. */ return; } /* * We need a request allocated on the session that owns * this ofile in order to safely send on that session. * * Note that while we hold a ref. on the ofile, it's * f_session will not change. An ofile in state * _ORPHANED will have f_session == NULL, but the * f_session won't _change_ while we have a ref, * and won't be torn down under our feet. * Same for f_tree and f_user * * If f_session is NULL, or it's in a state that doesn't * allow new requests, use the special "server" session. */ if (ofile->f_session != NULL) sr = smb_request_alloc(ofile->f_session, 0); if (sr == NULL) sr = smb_request_alloc(sv->sv_session, 0); sr->sr_state = SMB_REQ_STATE_SUBMITTED; sr->smb2_async = B_TRUE; sr->user_cr = zone_kcred(); sr->fid_ofile = ofile; if (ofile->f_tree != NULL) { sr->tid_tree = ofile->f_tree; smb_tree_hold_internal(sr->tid_tree); } if (ofile->f_user != NULL) { sr->uid_user = ofile->f_user; smb_user_hold_internal(sr->uid_user); } sr->arg.olbrk.NewLevel = NewLevel; sr->arg.olbrk.AckRequired = AckRequired; sr->smb2_status = CompletionStatus; (void) taskq_dispatch( sv->sv_worker_pool, smb_oplock_async_break, sr, TQ_SLEEP); } /* * smb_oplock_async_break * * Called via the taskq to handle an asynchronous oplock break. * We have a hold on the ofile, which will be released in * smb_request_free (via sr->fid_ofile) * * Note we have: sr->uid_user == NULL, sr->tid_tree == NULL. * Nothing called here needs those. * * Note that NewLevel as provided by the FS up-call does NOT * include the GRANULAR flag. The SMB level is expected to * keep track of how each oplock was acquired (by lease or * traditional oplock request) and put the GRANULAR flag * back into the oplock state when calling down to the * FS-level code. Also note that the lease break message * carries only the cache flags, not the GRANULAR flag. */ static void smb_oplock_async_break(void *arg) { smb_request_t *sr = arg; uint32_t CompletionStatus; SMB_REQ_VALID(sr); CompletionStatus = sr->smb2_status; sr->smb2_status = NT_STATUS_SUCCESS; mutex_enter(&sr->sr_mutex); sr->sr_worker = curthread; sr->sr_state = SMB_REQ_STATE_ACTIVE; mutex_exit(&sr->sr_mutex); /* * Note that the CompletionStatus from the FS level * (smb_cmn_oplock.c) encodes what kind of action we * need to take at the SMB level. */ switch (CompletionStatus) { case STATUS_CANT_GRANT: case NT_STATUS_SUCCESS: smb_oplock_send_brk(sr); break; default: /* Checked by caller. */ ASSERT(0); break; } if (sr->dh_nvl_dirty) { sr->dh_nvl_dirty = B_FALSE; smb2_dh_update_nvfile(sr); } sr->sr_state = SMB_REQ_STATE_COMPLETED; smb_request_free(sr); } #ifdef DEBUG int smb_oplock_debug_wait = 0; #endif /* * Send an oplock break over the wire, or if we can't, * then process the oplock break locally. * * Note that we have sr->fid_ofile here but all the other * normal sr members may be NULL: uid_user, tid_tree. * Also sr->session may or may not be the same session as * the ofile came from (ofile->f_session) depending on * whether this is a "live" open or an orphaned DH, * where ofile->f_session will be NULL. * * Given that we don't always have a session, we determine * the oplock type (lease etc) from f_oplock.og_dialect. */ void smb_oplock_send_brk(smb_request_t *sr) { smb_ofile_t *ofile; smb_lease_t *lease; uint32_t NewLevel; boolean_t AckReq; uint32_t status; int rc; ofile = sr->fid_ofile; NewLevel = sr->arg.olbrk.NewLevel; AckReq = sr->arg.olbrk.AckRequired; lease = ofile->f_lease; /* * Build the break message in sr->reply. * It's free'd in smb_request_free(). * Also updates the lease and NewLevel. */ sr->reply.max_bytes = MLEN; if (ofile->f_oplock.og_dialect >= SMB_VERS_2_BASE) { if (lease != NULL) { /* * Oplock state has changed, so * update the epoch. */ mutex_enter(&lease->ls_mutex); lease->ls_epoch++; mutex_exit(&lease->ls_mutex); /* Note, needs "old" state in og_state */ smb2_lease_break_notification(sr, (NewLevel & CACHE_RWH), AckReq); NewLevel |= OPLOCK_LEVEL_GRANULAR; } else { smb2_oplock_break_notification(sr, NewLevel); } } else { /* * SMB1 clients should only get Level II oplocks if they * set the capability indicating they know about them. */ if (NewLevel == OPLOCK_LEVEL_TWO && ofile->f_oplock.og_dialect < NT_LM_0_12) NewLevel = OPLOCK_LEVEL_NONE; smb1_oplock_break_notification(sr, NewLevel); } /* * Keep track of what we last sent to the client, * preserving the GRANULAR flag (if a lease). * If we're expecting an ACK, set og_breaking * (and maybe lease->ls_breaking) so we can * later find the ofile with breaks pending. */ if (AckReq) { uint32_t BreakTo; if (lease != NULL) { BreakTo = (NewLevel & CACHE_RWH) << BREAK_SHIFT; if (BreakTo == 0) BreakTo = BREAK_TO_NO_CACHING; lease->ls_breaking = BreakTo; } else { if ((NewLevel & LEVEL_TWO_OPLOCK) != 0) BreakTo = BREAK_TO_TWO; else BreakTo = BREAK_TO_NONE; } /* Will update og_state in ack. */ ofile->f_oplock.og_breaking = BreakTo; } else { if (lease != NULL) lease->ls_state = NewLevel & CACHE_RWH; ofile->f_oplock.og_state = NewLevel; if (ofile->dh_persist) { smb2_dh_update_oplock(sr, ofile); } } /* * Try to send the break message to the client. * When we get to multi-channel, this is supposed to * try to send on every channel before giving up. */ if (sr->session == ofile->f_session) rc = smb_session_send(sr->session, 0, &sr->reply); else rc = ENOTCONN; if (rc == 0) { /* * OK, we were able to send the break message. * If no ack. required, we're done. */ if (!AckReq) return; /* * We're expecting an ACK. Wait in this thread * so we can log clients that don't respond. * * If debugging, may want to break after a * short wait to look into why we might be * holding up progress. (i.e. locks?) */ #ifdef DEBUG if (smb_oplock_debug_wait > 0) { status = smb_oplock_wait_break(ofile->f_node, smb_oplock_debug_wait); if (status == 0) return; cmn_err(CE_NOTE, "clnt %s oplock break wait debug", sr->session->ip_addr_str); debug_enter("oplock_wait"); } #endif status = smb_oplock_wait_break(ofile->f_node, smb_oplock_timeout_ack); if (status == 0) return; cmn_err(CE_NOTE, "clnt %s oplock break timeout", sr->session->ip_addr_str); DTRACE_PROBE1(break_timeout, smb_ofile_t, ofile); /* * Will do local ack below. Note, after timeout, * do a break to none or "no caching" regardless * of what the passed in cache level was. * That means: clear all except GRANULAR. */ NewLevel &= OPLOCK_LEVEL_GRANULAR; } else { /* * We were unable to send the oplock break request. * Generally, that means we have no connection to this * client right now, and this ofile will have state * SMB_OFILE_STATE_ORPHANED. We either close the handle * or break the oplock locally, in which case the client * gets the updated oplock state when they reconnect. * Decide whether to keep or close. * * Relevant [MS-SMB2] sections: * * 3.3.4.6 Object Store Indicates an Oplock Break * If Open.Connection is NULL, Open.IsResilient is FALSE, * Open.IsDurable is FALSE and Open.IsPersistent is FALSE, * the server SHOULD close the Open as specified in... * * 3.3.4.7 Object Store Indicates a Lease Break * If Open.Connection is NULL, the server MUST close the * Open as specified in ... for the following cases: * - Open.IsResilient is FALSE, Open.IsDurable is FALSE, * and Open.IsPersistent is FALSE. * - Lease.BreakToLeaseState does not contain * ...HANDLE_CACHING and Open.IsDurable is TRUE. * If Lease.LeaseOpens is empty, (... local ack to "none"). */ /* * See similar logic in smb_dh_should_save */ switch (ofile->dh_vers) { case SMB2_RESILIENT: break; /* keep DH */ case SMB2_DURABLE_V2: if (ofile->dh_persist) break; /* keep DH */ /* FALLTHROUGH */ case SMB2_DURABLE_V1: /* IS durable (v1 or v2) */ if ((NewLevel & (OPLOCK_LEVEL_BATCH | OPLOCK_LEVEL_CACHE_HANDLE)) != 0) break; /* keep DH */ /* FALLTHROUGH */ case SMB2_NOT_DURABLE: default: smb_ofile_close(ofile, 0); return; } /* Keep this ofile (durable handle). */ if (!AckReq) { /* Nothing more to do. */ return; } } /* * We get here after either an oplock break ack timeout, * or a send failure for a durable handle type that we * preserve rather than just close. Do local ack. */ ofile->f_oplock.og_breaking = 0; if (lease != NULL) lease->ls_breaking = 0; status = smb_oplock_ack_break(sr, ofile, &NewLevel); if (status == NT_STATUS_OPLOCK_BREAK_IN_PROGRESS) { /* Not expecting this status return. */ cmn_err(CE_NOTE, "clnt local oplock ack wait?"); (void) smb_oplock_wait_break(ofile->f_node, smb_oplock_timeout_ack); status = 0; } if (status != 0) { cmn_err(CE_NOTE, "clnt local oplock ack, " "status=0x%x", status); } /* Update og_state as if we heard from the client. */ ofile->f_oplock.og_state = NewLevel; if (lease != NULL) { lease->ls_state = NewLevel & CACHE_RWH; } if (ofile->dh_persist) { smb2_dh_update_oplock(sr, ofile); } } /* * See: NT_STATUS_OPLOCK_HANDLE_CLOSED above, * and: STATUS_NEW_HANDLE * * The FS-level oplock layer calls this to update the * SMB-level state when a handle loses its oplock. */ static void smb_oplock_hdl_clear(smb_ofile_t *ofile) { smb_lease_t *lease = ofile->f_lease; if (lease != NULL) { if (lease->ls_oplock_ofile == ofile) { /* Last close on the lease. */ lease->ls_oplock_ofile = NULL; } } ofile->f_oplock.og_state = 0; ofile->f_oplock.og_breaking = 0; } /* * Wait up to "timeout" mSec. for the current oplock "breaking" flags * to be cleared (by smb_oplock_ack_break or smb_oplock_break_CLOSE). * * Callers of the above public oplock functions: * smb_oplock_request() * smb_oplock_ack_break() * smb_oplock_break_OPEN() ... * check for return status == NT_STATUS_OPLOCK_BREAK_IN_PROGRESS * and call this function to wait for the break to complete. * * Most callers should use this default timeout, which they get * by passing zero as the timeout arg. This include places where * we're about to do something that invalidates some cache. */ uint32_t smb_oplock_wait_break(smb_node_t *node, int timeout) /* mSec. */ { smb_oplock_t *ol; clock_t time, rv; uint32_t status = 0; if (timeout == 0) timeout = smb_oplock_timeout_def; SMB_NODE_VALID(node); ol = &node->n_oplock; mutex_enter(&ol->ol_mutex); time = MSEC_TO_TICK(timeout) + ddi_get_lbolt(); while ((ol->ol_state & BREAK_ANY) != 0) { ol->waiters++; rv = cv_timedwait(&ol->WaitingOpenCV, &ol->ol_mutex, time); ol->waiters--; if (rv < 0) { status = NT_STATUS_CANNOT_BREAK_OPLOCK; break; } } mutex_exit(&ol->ol_mutex); return (status); }