1a6d42e7dSPeter Dunlap /* 2a6d42e7dSPeter Dunlap * CDDL HEADER START 3a6d42e7dSPeter Dunlap * 4a6d42e7dSPeter Dunlap * The contents of this file are subject to the terms of the 5a6d42e7dSPeter Dunlap * Common Development and Distribution License (the "License"). 6a6d42e7dSPeter Dunlap * You may not use this file except in compliance with the License. 7a6d42e7dSPeter Dunlap * 8a6d42e7dSPeter Dunlap * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9a6d42e7dSPeter Dunlap * or http://www.opensolaris.org/os/licensing. 10a6d42e7dSPeter Dunlap * See the License for the specific language governing permissions 11a6d42e7dSPeter Dunlap * and limitations under the License. 12a6d42e7dSPeter Dunlap * 13a6d42e7dSPeter Dunlap * When distributing Covered Code, include this CDDL HEADER in each 14a6d42e7dSPeter Dunlap * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15a6d42e7dSPeter Dunlap * If applicable, add the following below this CDDL HEADER, with the 16a6d42e7dSPeter Dunlap * fields enclosed by brackets "[]" replaced with your own identifying 17a6d42e7dSPeter Dunlap * information: Portions Copyright [yyyy] [name of copyright owner] 18a6d42e7dSPeter Dunlap * 19a6d42e7dSPeter Dunlap * CDDL HEADER END 20a6d42e7dSPeter Dunlap */ 21a6d42e7dSPeter Dunlap /* 22*d618d68dSPriya Krishnan * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved. 23a6d42e7dSPeter Dunlap */ 24a6d42e7dSPeter Dunlap 25a6d42e7dSPeter Dunlap #include <sys/cpuvar.h> 26a6d42e7dSPeter Dunlap #include <sys/conf.h> 27a6d42e7dSPeter Dunlap #include <sys/file.h> 28a6d42e7dSPeter Dunlap #include <sys/ddi.h> 29a6d42e7dSPeter Dunlap #include <sys/sunddi.h> 30a6d42e7dSPeter Dunlap #include <sys/modctl.h> 31a6d42e7dSPeter Dunlap 32a6d42e7dSPeter Dunlap #include <sys/socket.h> 33a6d42e7dSPeter Dunlap #include <sys/strsubr.h> 34a6d42e7dSPeter Dunlap #include <sys/sysmacros.h> 35a6d42e7dSPeter Dunlap 36a6d42e7dSPeter Dunlap #include <sys/socketvar.h> 37a6d42e7dSPeter Dunlap #include <netinet/in.h> 38a6d42e7dSPeter Dunlap 39a6d42e7dSPeter Dunlap #include <sys/idm/idm.h> 40a6d42e7dSPeter Dunlap #include <sys/idm/idm_so.h> 41a6d42e7dSPeter Dunlap 42a6d42e7dSPeter Dunlap #define IDM_NAME_VERSION "iSCSI Data Mover" 43a6d42e7dSPeter Dunlap 44a6d42e7dSPeter Dunlap extern struct mod_ops mod_miscops; 45a6d42e7dSPeter Dunlap extern struct mod_ops mod_miscops; 46a6d42e7dSPeter Dunlap 47a6d42e7dSPeter Dunlap static struct modlmisc modlmisc = { 48a6d42e7dSPeter Dunlap &mod_miscops, /* Type of module */ 49a6d42e7dSPeter Dunlap IDM_NAME_VERSION 50a6d42e7dSPeter Dunlap }; 51a6d42e7dSPeter Dunlap 52a6d42e7dSPeter Dunlap static struct modlinkage modlinkage = { 53a6d42e7dSPeter Dunlap MODREV_1, (void *)&modlmisc, NULL 54a6d42e7dSPeter Dunlap }; 55a6d42e7dSPeter Dunlap 56a6d42e7dSPeter Dunlap extern void idm_wd_thread(void *arg); 57a6d42e7dSPeter Dunlap 58a6d42e7dSPeter Dunlap static int _idm_init(void); 59a6d42e7dSPeter Dunlap static int _idm_fini(void); 60a6d42e7dSPeter Dunlap static void idm_buf_bind_in_locked(idm_task_t *idt, idm_buf_t *buf); 61a6d42e7dSPeter Dunlap static void idm_buf_bind_out_locked(idm_task_t *idt, idm_buf_t *buf); 62a6d42e7dSPeter Dunlap static void idm_buf_unbind_in_locked(idm_task_t *idt, idm_buf_t *buf); 63a6d42e7dSPeter Dunlap static void idm_buf_unbind_out_locked(idm_task_t *idt, idm_buf_t *buf); 64a6d42e7dSPeter Dunlap static void idm_task_abort_one(idm_conn_t *ic, idm_task_t *idt, 65a6d42e7dSPeter Dunlap idm_abort_type_t abort_type); 66a6d42e7dSPeter Dunlap static void idm_task_aborted(idm_task_t *idt, idm_status_t status); 6730e7468fSPeter Dunlap static idm_pdu_t *idm_pdu_alloc_common(uint_t hdrlen, uint_t datalen, 6830e7468fSPeter Dunlap int sleepflag); 69a6d42e7dSPeter Dunlap 70a6d42e7dSPeter Dunlap boolean_t idm_conn_logging = 0; 71a6d42e7dSPeter Dunlap boolean_t idm_svc_logging = 0; 7230e7468fSPeter Dunlap #ifdef DEBUG 7330e7468fSPeter Dunlap boolean_t idm_pattern_checking = 1; 7430e7468fSPeter Dunlap #else 7530e7468fSPeter Dunlap boolean_t idm_pattern_checking = 0; 7630e7468fSPeter Dunlap #endif 77a6d42e7dSPeter Dunlap 78a6d42e7dSPeter Dunlap /* 79a6d42e7dSPeter Dunlap * Potential tuneable for the maximum number of tasks. Default to 80a6d42e7dSPeter Dunlap * IDM_TASKIDS_MAX 81a6d42e7dSPeter Dunlap */ 82a6d42e7dSPeter Dunlap 83a6d42e7dSPeter Dunlap uint32_t idm_max_taskids = IDM_TASKIDS_MAX; 84a6d42e7dSPeter Dunlap 85a6d42e7dSPeter Dunlap /* 86a6d42e7dSPeter Dunlap * Global list of transport handles 87a6d42e7dSPeter Dunlap * These are listed in preferential order, so we can simply take the 88a6d42e7dSPeter Dunlap * first "it_conn_is_capable" hit. Note also that the order maps to 89a6d42e7dSPeter Dunlap * the order of the idm_transport_type_t list. 90a6d42e7dSPeter Dunlap */ 91a6d42e7dSPeter Dunlap idm_transport_t idm_transport_list[] = { 92a6d42e7dSPeter Dunlap 93a6d42e7dSPeter Dunlap /* iSER on InfiniBand transport handle */ 94a6d42e7dSPeter Dunlap {IDM_TRANSPORT_TYPE_ISER, /* type */ 95a6d42e7dSPeter Dunlap "/devices/ib/iser@0:iser", /* device path */ 96a6d42e7dSPeter Dunlap NULL, /* LDI handle */ 97a6d42e7dSPeter Dunlap NULL, /* transport ops */ 98a6d42e7dSPeter Dunlap NULL}, /* transport caps */ 99a6d42e7dSPeter Dunlap 100a6d42e7dSPeter Dunlap /* IDM native sockets transport handle */ 101a6d42e7dSPeter Dunlap {IDM_TRANSPORT_TYPE_SOCKETS, /* type */ 102a6d42e7dSPeter Dunlap NULL, /* device path */ 103a6d42e7dSPeter Dunlap NULL, /* LDI handle */ 104a6d42e7dSPeter Dunlap NULL, /* transport ops */ 105a6d42e7dSPeter Dunlap NULL} /* transport caps */ 106a6d42e7dSPeter Dunlap 107a6d42e7dSPeter Dunlap }; 108a6d42e7dSPeter Dunlap 109a6d42e7dSPeter Dunlap int 110a6d42e7dSPeter Dunlap _init(void) 111a6d42e7dSPeter Dunlap { 112a6d42e7dSPeter Dunlap int rc; 113a6d42e7dSPeter Dunlap 114a6d42e7dSPeter Dunlap if ((rc = _idm_init()) != 0) { 115a6d42e7dSPeter Dunlap return (rc); 116a6d42e7dSPeter Dunlap } 117a6d42e7dSPeter Dunlap 118a6d42e7dSPeter Dunlap return (mod_install(&modlinkage)); 119a6d42e7dSPeter Dunlap } 120a6d42e7dSPeter Dunlap 121a6d42e7dSPeter Dunlap int 122a6d42e7dSPeter Dunlap _fini(void) 123a6d42e7dSPeter Dunlap { 124a6d42e7dSPeter Dunlap int rc; 125a6d42e7dSPeter Dunlap 126a6d42e7dSPeter Dunlap if ((rc = _idm_fini()) != 0) { 127a6d42e7dSPeter Dunlap return (rc); 128a6d42e7dSPeter Dunlap } 129a6d42e7dSPeter Dunlap 130a6d42e7dSPeter Dunlap if ((rc = mod_remove(&modlinkage)) != 0) { 131a6d42e7dSPeter Dunlap return (rc); 132a6d42e7dSPeter Dunlap } 133a6d42e7dSPeter Dunlap 134a6d42e7dSPeter Dunlap return (rc); 135a6d42e7dSPeter Dunlap } 136a6d42e7dSPeter Dunlap 137a6d42e7dSPeter Dunlap int 138a6d42e7dSPeter Dunlap _info(struct modinfo *modinfop) 139a6d42e7dSPeter Dunlap { 140a6d42e7dSPeter Dunlap return (mod_info(&modlinkage, modinfop)); 141a6d42e7dSPeter Dunlap } 142a6d42e7dSPeter Dunlap 143a6d42e7dSPeter Dunlap /* 144a6d42e7dSPeter Dunlap * idm_transport_register() 145a6d42e7dSPeter Dunlap * 146a6d42e7dSPeter Dunlap * Provides a mechanism for an IDM transport driver to register its 147a6d42e7dSPeter Dunlap * transport ops and caps with the IDM kernel module. Invoked during 148a6d42e7dSPeter Dunlap * a transport driver's attach routine. 149a6d42e7dSPeter Dunlap */ 150a6d42e7dSPeter Dunlap idm_status_t 151a6d42e7dSPeter Dunlap idm_transport_register(idm_transport_attr_t *attr) 152a6d42e7dSPeter Dunlap { 153a6d42e7dSPeter Dunlap ASSERT(attr->it_ops != NULL); 154a6d42e7dSPeter Dunlap ASSERT(attr->it_caps != NULL); 155a6d42e7dSPeter Dunlap 156a6d42e7dSPeter Dunlap switch (attr->type) { 157a6d42e7dSPeter Dunlap /* All known non-native transports here; for now, iSER */ 158a6d42e7dSPeter Dunlap case IDM_TRANSPORT_TYPE_ISER: 159a6d42e7dSPeter Dunlap idm_transport_list[attr->type].it_ops = attr->it_ops; 160a6d42e7dSPeter Dunlap idm_transport_list[attr->type].it_caps = attr->it_caps; 161a6d42e7dSPeter Dunlap return (IDM_STATUS_SUCCESS); 162a6d42e7dSPeter Dunlap 163a6d42e7dSPeter Dunlap default: 164a6d42e7dSPeter Dunlap cmn_err(CE_NOTE, "idm: unknown transport type (0x%x) in " 165a6d42e7dSPeter Dunlap "idm_transport_register", attr->type); 166a6d42e7dSPeter Dunlap return (IDM_STATUS_SUCCESS); 167a6d42e7dSPeter Dunlap } 168a6d42e7dSPeter Dunlap } 169a6d42e7dSPeter Dunlap 170a6d42e7dSPeter Dunlap /* 171a6d42e7dSPeter Dunlap * idm_ini_conn_create 172a6d42e7dSPeter Dunlap * 173a6d42e7dSPeter Dunlap * This function is invoked by the iSCSI layer to create a connection context. 174a6d42e7dSPeter Dunlap * This does not actually establish the socket connection. 175a6d42e7dSPeter Dunlap * 176a6d42e7dSPeter Dunlap * cr - Connection request parameters 177a6d42e7dSPeter Dunlap * new_con - Output parameter that contains the new request if successful 178a6d42e7dSPeter Dunlap * 179a6d42e7dSPeter Dunlap */ 180a6d42e7dSPeter Dunlap idm_status_t 181a6d42e7dSPeter Dunlap idm_ini_conn_create(idm_conn_req_t *cr, idm_conn_t **new_con) 182a6d42e7dSPeter Dunlap { 183a6d42e7dSPeter Dunlap idm_transport_t *it; 184a6d42e7dSPeter Dunlap idm_conn_t *ic; 185a6d42e7dSPeter Dunlap int rc; 186a6d42e7dSPeter Dunlap 187a6d42e7dSPeter Dunlap it = idm_transport_lookup(cr); 188a6d42e7dSPeter Dunlap 189a6d42e7dSPeter Dunlap retry: 190a6d42e7dSPeter Dunlap ic = idm_conn_create_common(CONN_TYPE_INI, it->it_type, 191a6d42e7dSPeter Dunlap &cr->icr_conn_ops); 192a6d42e7dSPeter Dunlap 193a6d42e7dSPeter Dunlap bcopy(&cr->cr_ini_dst_addr, &ic->ic_ini_dst_addr, 194a6d42e7dSPeter Dunlap sizeof (cr->cr_ini_dst_addr)); 195a6d42e7dSPeter Dunlap 196a6d42e7dSPeter Dunlap /* create the transport-specific connection components */ 197a6d42e7dSPeter Dunlap rc = it->it_ops->it_ini_conn_create(cr, ic); 198a6d42e7dSPeter Dunlap if (rc != IDM_STATUS_SUCCESS) { 199a6d42e7dSPeter Dunlap /* cleanup the failed connection */ 200a6d42e7dSPeter Dunlap idm_conn_destroy_common(ic); 201a6d42e7dSPeter Dunlap 202a6d42e7dSPeter Dunlap /* 203a6d42e7dSPeter Dunlap * It is possible for an IB client to connect to 204a6d42e7dSPeter Dunlap * an ethernet-only client via an IB-eth gateway. 205a6d42e7dSPeter Dunlap * Therefore, if we are attempting to use iSER and 206a6d42e7dSPeter Dunlap * fail, retry with sockets before ultimately 207a6d42e7dSPeter Dunlap * failing the connection. 208a6d42e7dSPeter Dunlap */ 209a6d42e7dSPeter Dunlap if (it->it_type == IDM_TRANSPORT_TYPE_ISER) { 210a6d42e7dSPeter Dunlap it = &idm_transport_list[IDM_TRANSPORT_TYPE_SOCKETS]; 211a6d42e7dSPeter Dunlap goto retry; 212a6d42e7dSPeter Dunlap } 213a6d42e7dSPeter Dunlap 214a6d42e7dSPeter Dunlap return (IDM_STATUS_FAIL); 215a6d42e7dSPeter Dunlap } 216a6d42e7dSPeter Dunlap 217a6d42e7dSPeter Dunlap *new_con = ic; 218a6d42e7dSPeter Dunlap 219a6d42e7dSPeter Dunlap mutex_enter(&idm.idm_global_mutex); 220a6d42e7dSPeter Dunlap list_insert_tail(&idm.idm_ini_conn_list, ic); 221a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 222a6d42e7dSPeter Dunlap 223a6d42e7dSPeter Dunlap return (IDM_STATUS_SUCCESS); 224a6d42e7dSPeter Dunlap } 225a6d42e7dSPeter Dunlap 226a6d42e7dSPeter Dunlap /* 227a6d42e7dSPeter Dunlap * idm_ini_conn_destroy 228a6d42e7dSPeter Dunlap * 229a6d42e7dSPeter Dunlap * Releases any resources associated with the connection. This is the 230a6d42e7dSPeter Dunlap * complement to idm_ini_conn_create. 231a6d42e7dSPeter Dunlap * ic - idm_conn_t structure representing the relevant connection 232a6d42e7dSPeter Dunlap * 233a6d42e7dSPeter Dunlap */ 234a6d42e7dSPeter Dunlap void 23530e7468fSPeter Dunlap idm_ini_conn_destroy_task(void *ic_void) 23630e7468fSPeter Dunlap { 23730e7468fSPeter Dunlap idm_conn_t *ic = ic_void; 23830e7468fSPeter Dunlap 23930e7468fSPeter Dunlap ic->ic_transport_ops->it_ini_conn_destroy(ic); 24030e7468fSPeter Dunlap idm_conn_destroy_common(ic); 24130e7468fSPeter Dunlap } 24230e7468fSPeter Dunlap 24330e7468fSPeter Dunlap void 244a6d42e7dSPeter Dunlap idm_ini_conn_destroy(idm_conn_t *ic) 245a6d42e7dSPeter Dunlap { 24630e7468fSPeter Dunlap /* 24730e7468fSPeter Dunlap * It's reasonable for the initiator to call idm_ini_conn_destroy 24830e7468fSPeter Dunlap * from within the context of the CN_CONNECT_DESTROY notification. 24930e7468fSPeter Dunlap * That's a problem since we want to destroy the taskq for the 25030e7468fSPeter Dunlap * state machine associated with the connection. Remove the 25130e7468fSPeter Dunlap * connection from the list right away then handle the remaining 25230e7468fSPeter Dunlap * work via the idm_global_taskq. 25330e7468fSPeter Dunlap */ 254a6d42e7dSPeter Dunlap mutex_enter(&idm.idm_global_mutex); 255a6d42e7dSPeter Dunlap list_remove(&idm.idm_ini_conn_list, ic); 256a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 257a6d42e7dSPeter Dunlap 25830e7468fSPeter Dunlap if (taskq_dispatch(idm.idm_global_taskq, 25930e7468fSPeter Dunlap &idm_ini_conn_destroy_task, ic, TQ_SLEEP) == NULL) { 26030e7468fSPeter Dunlap cmn_err(CE_WARN, 26130e7468fSPeter Dunlap "idm_ini_conn_destroy: Couldn't dispatch task"); 26230e7468fSPeter Dunlap } 263a6d42e7dSPeter Dunlap } 264a6d42e7dSPeter Dunlap 265a6d42e7dSPeter Dunlap /* 266a6d42e7dSPeter Dunlap * idm_ini_conn_connect 267a6d42e7dSPeter Dunlap * 268a6d42e7dSPeter Dunlap * Establish connection to the remote system identified in idm_conn_t. 269a6d42e7dSPeter Dunlap * The connection parameters including the remote IP address were established 27030e7468fSPeter Dunlap * in the call to idm_ini_conn_create. The IDM state machine will 27130e7468fSPeter Dunlap * perform client notifications as necessary to prompt the initiator through 27230e7468fSPeter Dunlap * the login process. IDM also keeps a timer running so that if the login 27330e7468fSPeter Dunlap * process doesn't complete in a timely manner it will fail. 274a6d42e7dSPeter Dunlap * 275a6d42e7dSPeter Dunlap * ic - idm_conn_t structure representing the relevant connection 276a6d42e7dSPeter Dunlap * 277a6d42e7dSPeter Dunlap * Returns success if the connection was established, otherwise some kind 278a6d42e7dSPeter Dunlap * of meaningful error code. 279a6d42e7dSPeter Dunlap * 28030e7468fSPeter Dunlap * Upon return the login has either failed or is loggin in (ffp) 281a6d42e7dSPeter Dunlap */ 282a6d42e7dSPeter Dunlap idm_status_t 283a6d42e7dSPeter Dunlap idm_ini_conn_connect(idm_conn_t *ic) 284a6d42e7dSPeter Dunlap { 2855f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States idm_status_t rc; 286a6d42e7dSPeter Dunlap 287a6d42e7dSPeter Dunlap rc = idm_conn_sm_init(ic); 288a6d42e7dSPeter Dunlap if (rc != IDM_STATUS_SUCCESS) { 289a6d42e7dSPeter Dunlap return (ic->ic_conn_sm_status); 290a6d42e7dSPeter Dunlap } 29130e7468fSPeter Dunlap 29230e7468fSPeter Dunlap /* Hold connection until we return */ 29330e7468fSPeter Dunlap idm_conn_hold(ic); 29430e7468fSPeter Dunlap 295a6d42e7dSPeter Dunlap /* Kick state machine */ 296a6d42e7dSPeter Dunlap idm_conn_event(ic, CE_CONNECT_REQ, NULL); 297a6d42e7dSPeter Dunlap 298a6d42e7dSPeter Dunlap /* Wait for login flag */ 299a6d42e7dSPeter Dunlap mutex_enter(&ic->ic_state_mutex); 300a6d42e7dSPeter Dunlap while (!(ic->ic_state_flags & CF_LOGIN_READY) && 301a6d42e7dSPeter Dunlap !(ic->ic_state_flags & CF_ERROR)) { 302a6d42e7dSPeter Dunlap cv_wait(&ic->ic_state_cv, &ic->ic_state_mutex); 303a6d42e7dSPeter Dunlap } 304a6d42e7dSPeter Dunlap 3055f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States /* 3065f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States * The CN_READY_TO_LOGIN and/or the CN_CONNECT_FAIL call to 3075f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States * idm_notify_client has already been generated by the idm conn 3085f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States * state machine. If connection fails any time after this 3095f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States * check, we will detect it in iscsi_login. 3105f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States */ 311a6d42e7dSPeter Dunlap if (ic->ic_state_flags & CF_ERROR) { 3125f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States rc = ic->ic_conn_sm_status; 313a6d42e7dSPeter Dunlap } 3145f7d09c6SPeter Cudhea - Sun Microsystems - Burlington, MA United States mutex_exit(&ic->ic_state_mutex); 31530e7468fSPeter Dunlap idm_conn_rele(ic); 316a6d42e7dSPeter Dunlap 31730e7468fSPeter Dunlap return (rc); 318a6d42e7dSPeter Dunlap } 319a6d42e7dSPeter Dunlap 320a6d42e7dSPeter Dunlap /* 321a6d42e7dSPeter Dunlap * idm_ini_conn_disconnect 322a6d42e7dSPeter Dunlap * 323a6d42e7dSPeter Dunlap * Forces a connection (previously established using idm_ini_conn_connect) 324a6d42e7dSPeter Dunlap * to perform a controlled shutdown, cleaning up any outstanding requests. 325a6d42e7dSPeter Dunlap * 326a6d42e7dSPeter Dunlap * ic - idm_conn_t structure representing the relevant connection 327a6d42e7dSPeter Dunlap * 32830e7468fSPeter Dunlap * This is asynchronous and will return before the connection is properly 32930e7468fSPeter Dunlap * shutdown 330a6d42e7dSPeter Dunlap */ 331a6d42e7dSPeter Dunlap /* ARGSUSED */ 332a6d42e7dSPeter Dunlap void 333a6d42e7dSPeter Dunlap idm_ini_conn_disconnect(idm_conn_t *ic) 334a6d42e7dSPeter Dunlap { 33530e7468fSPeter Dunlap idm_conn_event(ic, CE_TRANSPORT_FAIL, NULL); 336a6d42e7dSPeter Dunlap } 33730e7468fSPeter Dunlap 33830e7468fSPeter Dunlap /* 33930e7468fSPeter Dunlap * idm_ini_conn_disconnect_wait 34030e7468fSPeter Dunlap * 34130e7468fSPeter Dunlap * Forces a connection (previously established using idm_ini_conn_connect) 34230e7468fSPeter Dunlap * to perform a controlled shutdown. Blocks until the connection is 34330e7468fSPeter Dunlap * disconnected. 34430e7468fSPeter Dunlap * 34530e7468fSPeter Dunlap * ic - idm_conn_t structure representing the relevant connection 34630e7468fSPeter Dunlap */ 34730e7468fSPeter Dunlap /* ARGSUSED */ 34830e7468fSPeter Dunlap void 34930e7468fSPeter Dunlap idm_ini_conn_disconnect_sync(idm_conn_t *ic) 35030e7468fSPeter Dunlap { 35130e7468fSPeter Dunlap mutex_enter(&ic->ic_state_mutex); 35230e7468fSPeter Dunlap if ((ic->ic_state != CS_S9_INIT_ERROR) && 35330e7468fSPeter Dunlap (ic->ic_state != CS_S11_COMPLETE)) { 35430e7468fSPeter Dunlap idm_conn_event_locked(ic, CE_TRANSPORT_FAIL, NULL, CT_NONE); 35530e7468fSPeter Dunlap while ((ic->ic_state != CS_S9_INIT_ERROR) && 35630e7468fSPeter Dunlap (ic->ic_state != CS_S11_COMPLETE)) 35730e7468fSPeter Dunlap cv_wait(&ic->ic_state_cv, &ic->ic_state_mutex); 35830e7468fSPeter Dunlap } 359a6d42e7dSPeter Dunlap mutex_exit(&ic->ic_state_mutex); 360a6d42e7dSPeter Dunlap } 361a6d42e7dSPeter Dunlap 362a6d42e7dSPeter Dunlap /* 363a6d42e7dSPeter Dunlap * idm_tgt_svc_create 364a6d42e7dSPeter Dunlap * 365a6d42e7dSPeter Dunlap * The target calls this service to obtain a service context for each available 366a6d42e7dSPeter Dunlap * transport, starting a service of each type related to the IP address and port 367a6d42e7dSPeter Dunlap * passed. The idm_svc_req_t contains the service parameters. 368a6d42e7dSPeter Dunlap */ 369a6d42e7dSPeter Dunlap idm_status_t 370a6d42e7dSPeter Dunlap idm_tgt_svc_create(idm_svc_req_t *sr, idm_svc_t **new_svc) 371a6d42e7dSPeter Dunlap { 372a6d42e7dSPeter Dunlap idm_transport_type_t type; 373a6d42e7dSPeter Dunlap idm_transport_t *it; 374a6d42e7dSPeter Dunlap idm_svc_t *is; 375a6d42e7dSPeter Dunlap int rc; 376a6d42e7dSPeter Dunlap 377a6d42e7dSPeter Dunlap *new_svc = NULL; 378a6d42e7dSPeter Dunlap is = kmem_zalloc(sizeof (idm_svc_t), KM_SLEEP); 379a6d42e7dSPeter Dunlap 380a6d42e7dSPeter Dunlap /* Initialize transport-agnostic components of the service handle */ 381a6d42e7dSPeter Dunlap is->is_svc_req = *sr; 382a6d42e7dSPeter Dunlap mutex_init(&is->is_mutex, NULL, MUTEX_DEFAULT, NULL); 383a6d42e7dSPeter Dunlap cv_init(&is->is_cv, NULL, CV_DEFAULT, NULL); 384a6d42e7dSPeter Dunlap mutex_init(&is->is_count_mutex, NULL, MUTEX_DEFAULT, NULL); 385a6d42e7dSPeter Dunlap cv_init(&is->is_count_cv, NULL, CV_DEFAULT, NULL); 386a6d42e7dSPeter Dunlap idm_refcnt_init(&is->is_refcnt, is); 387a6d42e7dSPeter Dunlap 388a6d42e7dSPeter Dunlap /* 389a6d42e7dSPeter Dunlap * Make sure all available transports are setup. We call this now 390a6d42e7dSPeter Dunlap * instead of at initialization time in case IB has become available 391a6d42e7dSPeter Dunlap * since we started (hotplug, etc). 392a6d42e7dSPeter Dunlap */ 393bbe72583SJack Meng idm_transport_setup(sr->sr_li, B_FALSE); 394a6d42e7dSPeter Dunlap 395a6d42e7dSPeter Dunlap /* 396a6d42e7dSPeter Dunlap * Loop through the transports, configuring the transport-specific 397a6d42e7dSPeter Dunlap * components of each one. 398a6d42e7dSPeter Dunlap */ 399a6d42e7dSPeter Dunlap for (type = 0; type < IDM_TRANSPORT_NUM_TYPES; type++) { 400a6d42e7dSPeter Dunlap 401a6d42e7dSPeter Dunlap it = &idm_transport_list[type]; 402a6d42e7dSPeter Dunlap /* 403a6d42e7dSPeter Dunlap * If it_ops is NULL then the transport is unconfigured 404a6d42e7dSPeter Dunlap * and we shouldn't try to start the service. 405a6d42e7dSPeter Dunlap */ 406a6d42e7dSPeter Dunlap if (it->it_ops == NULL) { 407a6d42e7dSPeter Dunlap continue; 408a6d42e7dSPeter Dunlap } 409a6d42e7dSPeter Dunlap 410a6d42e7dSPeter Dunlap rc = it->it_ops->it_tgt_svc_create(sr, is); 411a6d42e7dSPeter Dunlap if (rc != IDM_STATUS_SUCCESS) { 412a6d42e7dSPeter Dunlap /* Teardown any configured services */ 413a6d42e7dSPeter Dunlap while (type--) { 414a6d42e7dSPeter Dunlap it = &idm_transport_list[type]; 415a6d42e7dSPeter Dunlap if (it->it_ops == NULL) { 416a6d42e7dSPeter Dunlap continue; 417a6d42e7dSPeter Dunlap } 418a6d42e7dSPeter Dunlap it->it_ops->it_tgt_svc_destroy(is); 419a6d42e7dSPeter Dunlap } 420a6d42e7dSPeter Dunlap /* Free the svc context and return */ 421a6d42e7dSPeter Dunlap kmem_free(is, sizeof (idm_svc_t)); 422a6d42e7dSPeter Dunlap return (rc); 423a6d42e7dSPeter Dunlap } 424a6d42e7dSPeter Dunlap } 425a6d42e7dSPeter Dunlap 426a6d42e7dSPeter Dunlap *new_svc = is; 427a6d42e7dSPeter Dunlap 428a6d42e7dSPeter Dunlap mutex_enter(&idm.idm_global_mutex); 429a6d42e7dSPeter Dunlap list_insert_tail(&idm.idm_tgt_svc_list, is); 430a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 431a6d42e7dSPeter Dunlap 432a6d42e7dSPeter Dunlap return (IDM_STATUS_SUCCESS); 433a6d42e7dSPeter Dunlap } 434a6d42e7dSPeter Dunlap 435a6d42e7dSPeter Dunlap /* 436a6d42e7dSPeter Dunlap * idm_tgt_svc_destroy 437a6d42e7dSPeter Dunlap * 438a6d42e7dSPeter Dunlap * is - idm_svc_t returned by the call to idm_tgt_svc_create 439a6d42e7dSPeter Dunlap * 440a6d42e7dSPeter Dunlap * Cleanup any resources associated with the idm_svc_t. 441a6d42e7dSPeter Dunlap */ 442a6d42e7dSPeter Dunlap void 443a6d42e7dSPeter Dunlap idm_tgt_svc_destroy(idm_svc_t *is) 444a6d42e7dSPeter Dunlap { 445a6d42e7dSPeter Dunlap idm_transport_type_t type; 446a6d42e7dSPeter Dunlap idm_transport_t *it; 447a6d42e7dSPeter Dunlap 448a6d42e7dSPeter Dunlap mutex_enter(&idm.idm_global_mutex); 449a6d42e7dSPeter Dunlap /* remove this service from the global list */ 450a6d42e7dSPeter Dunlap list_remove(&idm.idm_tgt_svc_list, is); 451a6d42e7dSPeter Dunlap /* wakeup any waiters for service change */ 452a6d42e7dSPeter Dunlap cv_broadcast(&idm.idm_tgt_svc_cv); 453a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 454a6d42e7dSPeter Dunlap 455a6d42e7dSPeter Dunlap /* teardown each transport-specific service */ 456a6d42e7dSPeter Dunlap for (type = 0; type < IDM_TRANSPORT_NUM_TYPES; type++) { 457a6d42e7dSPeter Dunlap it = &idm_transport_list[type]; 458a6d42e7dSPeter Dunlap if (it->it_ops == NULL) { 459a6d42e7dSPeter Dunlap continue; 460a6d42e7dSPeter Dunlap } 461a6d42e7dSPeter Dunlap 462a6d42e7dSPeter Dunlap it->it_ops->it_tgt_svc_destroy(is); 463a6d42e7dSPeter Dunlap } 464a6d42e7dSPeter Dunlap 46530e7468fSPeter Dunlap /* tear down the svc resources */ 46630e7468fSPeter Dunlap idm_refcnt_destroy(&is->is_refcnt); 46730e7468fSPeter Dunlap cv_destroy(&is->is_count_cv); 46830e7468fSPeter Dunlap mutex_destroy(&is->is_count_mutex); 46930e7468fSPeter Dunlap cv_destroy(&is->is_cv); 47030e7468fSPeter Dunlap mutex_destroy(&is->is_mutex); 47130e7468fSPeter Dunlap 472a6d42e7dSPeter Dunlap /* free the svc handle */ 473a6d42e7dSPeter Dunlap kmem_free(is, sizeof (idm_svc_t)); 474a6d42e7dSPeter Dunlap } 475a6d42e7dSPeter Dunlap 476a6d42e7dSPeter Dunlap void 477a6d42e7dSPeter Dunlap idm_tgt_svc_hold(idm_svc_t *is) 478a6d42e7dSPeter Dunlap { 479a6d42e7dSPeter Dunlap idm_refcnt_hold(&is->is_refcnt); 480a6d42e7dSPeter Dunlap } 481a6d42e7dSPeter Dunlap 482a6d42e7dSPeter Dunlap void 483a6d42e7dSPeter Dunlap idm_tgt_svc_rele_and_destroy(idm_svc_t *is) 484a6d42e7dSPeter Dunlap { 485a6d42e7dSPeter Dunlap idm_refcnt_rele_and_destroy(&is->is_refcnt, 486a6d42e7dSPeter Dunlap (idm_refcnt_cb_t *)&idm_tgt_svc_destroy); 487a6d42e7dSPeter Dunlap } 488a6d42e7dSPeter Dunlap 489a6d42e7dSPeter Dunlap /* 490a6d42e7dSPeter Dunlap * idm_tgt_svc_online 491a6d42e7dSPeter Dunlap * 492a6d42e7dSPeter Dunlap * is - idm_svc_t returned by the call to idm_tgt_svc_create 493a6d42e7dSPeter Dunlap * 494a6d42e7dSPeter Dunlap * Online each transport service, as we want this target to be accessible 495a6d42e7dSPeter Dunlap * via any configured transport. 496a6d42e7dSPeter Dunlap * 497a6d42e7dSPeter Dunlap * When the initiator establishes a new connection to the target, IDM will 498a6d42e7dSPeter Dunlap * call the "new connect" callback defined in the idm_svc_req_t structure 499a6d42e7dSPeter Dunlap * and it will pass an idm_conn_t structure representing that new connection. 500a6d42e7dSPeter Dunlap */ 501a6d42e7dSPeter Dunlap idm_status_t 502a6d42e7dSPeter Dunlap idm_tgt_svc_online(idm_svc_t *is) 503a6d42e7dSPeter Dunlap { 504a6d42e7dSPeter Dunlap 50530e7468fSPeter Dunlap idm_transport_type_t type, last_type; 506a6d42e7dSPeter Dunlap idm_transport_t *it; 50730e7468fSPeter Dunlap int rc = IDM_STATUS_SUCCESS; 508a6d42e7dSPeter Dunlap 509a6d42e7dSPeter Dunlap mutex_enter(&is->is_mutex); 510a6d42e7dSPeter Dunlap if (is->is_online == 0) { 51130e7468fSPeter Dunlap /* Walk through each of the transports and online them */ 512a6d42e7dSPeter Dunlap for (type = 0; type < IDM_TRANSPORT_NUM_TYPES; type++) { 513a6d42e7dSPeter Dunlap it = &idm_transport_list[type]; 514a6d42e7dSPeter Dunlap if (it->it_ops == NULL) { 515a6d42e7dSPeter Dunlap /* transport is not registered */ 516a6d42e7dSPeter Dunlap continue; 517a6d42e7dSPeter Dunlap } 518a6d42e7dSPeter Dunlap 519a6d42e7dSPeter Dunlap mutex_exit(&is->is_mutex); 520a6d42e7dSPeter Dunlap rc = it->it_ops->it_tgt_svc_online(is); 521a6d42e7dSPeter Dunlap mutex_enter(&is->is_mutex); 52230e7468fSPeter Dunlap if (rc != IDM_STATUS_SUCCESS) { 52330e7468fSPeter Dunlap last_type = type; 52430e7468fSPeter Dunlap break; 525a6d42e7dSPeter Dunlap } 526a6d42e7dSPeter Dunlap } 52730e7468fSPeter Dunlap if (rc != IDM_STATUS_SUCCESS) { 52830e7468fSPeter Dunlap /* 52930e7468fSPeter Dunlap * The last transport failed to online. 53030e7468fSPeter Dunlap * Offline any transport onlined above and 53130e7468fSPeter Dunlap * do not online the target. 53230e7468fSPeter Dunlap */ 53330e7468fSPeter Dunlap for (type = 0; type < last_type; type++) { 53430e7468fSPeter Dunlap it = &idm_transport_list[type]; 53530e7468fSPeter Dunlap if (it->it_ops == NULL) { 53630e7468fSPeter Dunlap /* transport is not registered */ 53730e7468fSPeter Dunlap continue; 53830e7468fSPeter Dunlap } 53930e7468fSPeter Dunlap 54030e7468fSPeter Dunlap mutex_exit(&is->is_mutex); 54130e7468fSPeter Dunlap it->it_ops->it_tgt_svc_offline(is); 54230e7468fSPeter Dunlap mutex_enter(&is->is_mutex); 54330e7468fSPeter Dunlap } 544a6d42e7dSPeter Dunlap } else { 54530e7468fSPeter Dunlap /* Target service now online */ 54630e7468fSPeter Dunlap is->is_online = 1; 547a6d42e7dSPeter Dunlap } 54830e7468fSPeter Dunlap } else { 54930e7468fSPeter Dunlap /* Target service already online, just bump the count */ 550a6d42e7dSPeter Dunlap is->is_online++; 55130e7468fSPeter Dunlap } 552a6d42e7dSPeter Dunlap mutex_exit(&is->is_mutex); 553a6d42e7dSPeter Dunlap 55430e7468fSPeter Dunlap return (rc); 555a6d42e7dSPeter Dunlap } 556a6d42e7dSPeter Dunlap 557a6d42e7dSPeter Dunlap /* 558a6d42e7dSPeter Dunlap * idm_tgt_svc_offline 559a6d42e7dSPeter Dunlap * 560a6d42e7dSPeter Dunlap * is - idm_svc_t returned by the call to idm_tgt_svc_create 561a6d42e7dSPeter Dunlap * 562a6d42e7dSPeter Dunlap * Shutdown any online target services. 563a6d42e7dSPeter Dunlap */ 564a6d42e7dSPeter Dunlap void 565a6d42e7dSPeter Dunlap idm_tgt_svc_offline(idm_svc_t *is) 566a6d42e7dSPeter Dunlap { 567a6d42e7dSPeter Dunlap idm_transport_type_t type; 568a6d42e7dSPeter Dunlap idm_transport_t *it; 569a6d42e7dSPeter Dunlap 570a6d42e7dSPeter Dunlap mutex_enter(&is->is_mutex); 571a6d42e7dSPeter Dunlap is->is_online--; 572a6d42e7dSPeter Dunlap if (is->is_online == 0) { 573a6d42e7dSPeter Dunlap /* Walk through each of the transports and offline them */ 574a6d42e7dSPeter Dunlap for (type = 0; type < IDM_TRANSPORT_NUM_TYPES; type++) { 575a6d42e7dSPeter Dunlap it = &idm_transport_list[type]; 576a6d42e7dSPeter Dunlap if (it->it_ops == NULL) { 577a6d42e7dSPeter Dunlap /* transport is not registered */ 578a6d42e7dSPeter Dunlap continue; 579a6d42e7dSPeter Dunlap } 580a6d42e7dSPeter Dunlap 581a6d42e7dSPeter Dunlap mutex_exit(&is->is_mutex); 582a6d42e7dSPeter Dunlap it->it_ops->it_tgt_svc_offline(is); 583a6d42e7dSPeter Dunlap mutex_enter(&is->is_mutex); 584a6d42e7dSPeter Dunlap } 585a6d42e7dSPeter Dunlap } 586a6d42e7dSPeter Dunlap mutex_exit(&is->is_mutex); 587a6d42e7dSPeter Dunlap } 588a6d42e7dSPeter Dunlap 589a6d42e7dSPeter Dunlap /* 590a6d42e7dSPeter Dunlap * idm_tgt_svc_lookup 591a6d42e7dSPeter Dunlap * 592a6d42e7dSPeter Dunlap * Lookup a service instance listening on the specified port 593a6d42e7dSPeter Dunlap */ 594a6d42e7dSPeter Dunlap 595a6d42e7dSPeter Dunlap idm_svc_t * 596a6d42e7dSPeter Dunlap idm_tgt_svc_lookup(uint16_t port) 597a6d42e7dSPeter Dunlap { 598a6d42e7dSPeter Dunlap idm_svc_t *result; 599a6d42e7dSPeter Dunlap 600a6d42e7dSPeter Dunlap retry: 601a6d42e7dSPeter Dunlap mutex_enter(&idm.idm_global_mutex); 602a6d42e7dSPeter Dunlap for (result = list_head(&idm.idm_tgt_svc_list); 603a6d42e7dSPeter Dunlap result != NULL; 604a6d42e7dSPeter Dunlap result = list_next(&idm.idm_tgt_svc_list, result)) { 605a6d42e7dSPeter Dunlap if (result->is_svc_req.sr_port == port) { 606a6d42e7dSPeter Dunlap if (result->is_online == 0) { 607a6d42e7dSPeter Dunlap /* 608a6d42e7dSPeter Dunlap * A service exists on this port, but it 609a6d42e7dSPeter Dunlap * is going away, wait for it to cleanup. 610a6d42e7dSPeter Dunlap */ 611a6d42e7dSPeter Dunlap cv_wait(&idm.idm_tgt_svc_cv, 612a6d42e7dSPeter Dunlap &idm.idm_global_mutex); 613a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 614a6d42e7dSPeter Dunlap goto retry; 615a6d42e7dSPeter Dunlap } 616a6d42e7dSPeter Dunlap idm_tgt_svc_hold(result); 617a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 618a6d42e7dSPeter Dunlap return (result); 619a6d42e7dSPeter Dunlap } 620a6d42e7dSPeter Dunlap } 621a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 622a6d42e7dSPeter Dunlap 623a6d42e7dSPeter Dunlap return (NULL); 624a6d42e7dSPeter Dunlap } 625a6d42e7dSPeter Dunlap 626a6d42e7dSPeter Dunlap /* 627a6d42e7dSPeter Dunlap * idm_negotiate_key_values() 628a6d42e7dSPeter Dunlap * Give IDM level a chance to negotiate any login parameters it should own. 629a6d42e7dSPeter Dunlap * -- leave unhandled parameters alone on request_nvl 630a6d42e7dSPeter Dunlap * -- move all handled parameters to response_nvl with an appropriate response 631a6d42e7dSPeter Dunlap * -- also add an entry to negotiated_nvl for any accepted parameters 632a6d42e7dSPeter Dunlap */ 633a6d42e7dSPeter Dunlap kv_status_t 634a6d42e7dSPeter Dunlap idm_negotiate_key_values(idm_conn_t *ic, nvlist_t *request_nvl, 635a6d42e7dSPeter Dunlap nvlist_t *response_nvl, nvlist_t *negotiated_nvl) 636a6d42e7dSPeter Dunlap { 637a6d42e7dSPeter Dunlap ASSERT(ic->ic_transport_ops != NULL); 638a6d42e7dSPeter Dunlap return (ic->ic_transport_ops->it_negotiate_key_values(ic, 639a6d42e7dSPeter Dunlap request_nvl, response_nvl, negotiated_nvl)); 640a6d42e7dSPeter Dunlap } 641a6d42e7dSPeter Dunlap 642a6d42e7dSPeter Dunlap /* 643a6d42e7dSPeter Dunlap * idm_notice_key_values() 644a6d42e7dSPeter Dunlap * Activate at the IDM level any parameters that have been negotiated. 645a6d42e7dSPeter Dunlap * Passes the set of key value pairs to the transport for activation. 646a6d42e7dSPeter Dunlap * This will be invoked as the connection is entering full-feature mode. 647a6d42e7dSPeter Dunlap */ 64830e7468fSPeter Dunlap void 649a6d42e7dSPeter Dunlap idm_notice_key_values(idm_conn_t *ic, nvlist_t *negotiated_nvl) 650a6d42e7dSPeter Dunlap { 651a6d42e7dSPeter Dunlap ASSERT(ic->ic_transport_ops != NULL); 65230e7468fSPeter Dunlap ic->ic_transport_ops->it_notice_key_values(ic, negotiated_nvl); 653a6d42e7dSPeter Dunlap } 654a6d42e7dSPeter Dunlap 655a6d42e7dSPeter Dunlap /* 65656261083SCharles Ting * idm_declare_key_values() 65756261083SCharles Ting * Activate an operational set of declarative parameters from the config_nvl, 65856261083SCharles Ting * and return the selected values in the outgoing_nvl. 65956261083SCharles Ting */ 66056261083SCharles Ting kv_status_t 66156261083SCharles Ting idm_declare_key_values(idm_conn_t *ic, nvlist_t *config_nvl, 66256261083SCharles Ting nvlist_t *outgoing_nvl) 66356261083SCharles Ting { 66456261083SCharles Ting ASSERT(ic->ic_transport_ops != NULL); 66556261083SCharles Ting return (ic->ic_transport_ops->it_declare_key_values(ic, config_nvl, 66656261083SCharles Ting outgoing_nvl)); 66756261083SCharles Ting } 66856261083SCharles Ting 66956261083SCharles Ting /* 670a6d42e7dSPeter Dunlap * idm_buf_tx_to_ini 671a6d42e7dSPeter Dunlap * 672a6d42e7dSPeter Dunlap * This is IDM's implementation of the 'Put_Data' operational primitive. 673a6d42e7dSPeter Dunlap * 674a6d42e7dSPeter Dunlap * This function is invoked by a target iSCSI layer to request its local 675a6d42e7dSPeter Dunlap * Datamover layer to transmit the Data-In PDU to the peer iSCSI layer 676a6d42e7dSPeter Dunlap * on the remote iSCSI node. The I/O buffer represented by 'idb' is 677a6d42e7dSPeter Dunlap * transferred to the initiator associated with task 'idt'. The connection 678a6d42e7dSPeter Dunlap * info, contents of the Data-In PDU header, the DataDescriptorIn, BHS, 679a6d42e7dSPeter Dunlap * and the callback (idb->idb_buf_cb) at transfer completion are 680a6d42e7dSPeter Dunlap * provided as input. 681a6d42e7dSPeter Dunlap * 682a6d42e7dSPeter Dunlap * This data transfer takes place transparently to the remote iSCSI layer, 683a6d42e7dSPeter Dunlap * i.e. without its participation. 684a6d42e7dSPeter Dunlap * 685a6d42e7dSPeter Dunlap * Using sockets, IDM implements the data transfer by segmenting the data 686a6d42e7dSPeter Dunlap * buffer into appropriately sized iSCSI PDUs and transmitting them to the 687a6d42e7dSPeter Dunlap * initiator. iSER performs the transfer using RDMA write. 688a6d42e7dSPeter Dunlap * 689a6d42e7dSPeter Dunlap */ 690a6d42e7dSPeter Dunlap idm_status_t 691a6d42e7dSPeter Dunlap idm_buf_tx_to_ini(idm_task_t *idt, idm_buf_t *idb, 692a6d42e7dSPeter Dunlap uint32_t offset, uint32_t xfer_len, 693a6d42e7dSPeter Dunlap idm_buf_cb_t idb_buf_cb, void *cb_arg) 694a6d42e7dSPeter Dunlap { 695a6d42e7dSPeter Dunlap idm_status_t rc; 696a6d42e7dSPeter Dunlap 697a6d42e7dSPeter Dunlap idb->idb_bufoffset = offset; 698a6d42e7dSPeter Dunlap idb->idb_xfer_len = xfer_len; 699a6d42e7dSPeter Dunlap idb->idb_buf_cb = idb_buf_cb; 700a6d42e7dSPeter Dunlap idb->idb_cb_arg = cb_arg; 70130e7468fSPeter Dunlap gethrestime(&idb->idb_xfer_start); 70230e7468fSPeter Dunlap 70330e7468fSPeter Dunlap /* 70430e7468fSPeter Dunlap * Buffer should not contain the pattern. If the pattern is 70530e7468fSPeter Dunlap * present then we've been asked to transmit initialized data 70630e7468fSPeter Dunlap */ 70730e7468fSPeter Dunlap IDM_BUFPAT_CHECK(idb, xfer_len, BP_CHECK_ASSERT); 708a6d42e7dSPeter Dunlap 709a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 710a6d42e7dSPeter Dunlap switch (idt->idt_state) { 711a6d42e7dSPeter Dunlap case TASK_ACTIVE: 712a6d42e7dSPeter Dunlap idt->idt_tx_to_ini_start++; 713a6d42e7dSPeter Dunlap idm_task_hold(idt); 714a6d42e7dSPeter Dunlap idm_buf_bind_in_locked(idt, idb); 715a6d42e7dSPeter Dunlap idb->idb_in_transport = B_TRUE; 716a6d42e7dSPeter Dunlap rc = (*idt->idt_ic->ic_transport_ops->it_buf_tx_to_ini) 717a6d42e7dSPeter Dunlap (idt, idb); 718a6d42e7dSPeter Dunlap return (rc); 719a6d42e7dSPeter Dunlap 720a6d42e7dSPeter Dunlap case TASK_SUSPENDING: 721a6d42e7dSPeter Dunlap case TASK_SUSPENDED: 722a6d42e7dSPeter Dunlap /* 723a6d42e7dSPeter Dunlap * Bind buffer but don't start a transfer since the task 724a6d42e7dSPeter Dunlap * is suspended 725a6d42e7dSPeter Dunlap */ 726a6d42e7dSPeter Dunlap idm_buf_bind_in_locked(idt, idb); 727a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 728a6d42e7dSPeter Dunlap return (IDM_STATUS_SUCCESS); 729a6d42e7dSPeter Dunlap 730a6d42e7dSPeter Dunlap case TASK_ABORTING: 731a6d42e7dSPeter Dunlap case TASK_ABORTED: 732a6d42e7dSPeter Dunlap /* 733a6d42e7dSPeter Dunlap * Once the task is aborted, any buffers added to the 734a6d42e7dSPeter Dunlap * idt_inbufv will never get cleaned up, so just return 735a6d42e7dSPeter Dunlap * SUCCESS. The buffer should get cleaned up by the 736a6d42e7dSPeter Dunlap * client or framework once task_aborted has completed. 737a6d42e7dSPeter Dunlap */ 738a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 739a6d42e7dSPeter Dunlap return (IDM_STATUS_SUCCESS); 740a6d42e7dSPeter Dunlap 741a6d42e7dSPeter Dunlap default: 742a6d42e7dSPeter Dunlap ASSERT(0); 743a6d42e7dSPeter Dunlap break; 744a6d42e7dSPeter Dunlap } 745a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 746a6d42e7dSPeter Dunlap 747a6d42e7dSPeter Dunlap return (IDM_STATUS_FAIL); 748a6d42e7dSPeter Dunlap } 749a6d42e7dSPeter Dunlap 750a6d42e7dSPeter Dunlap /* 751a6d42e7dSPeter Dunlap * idm_buf_rx_from_ini 752a6d42e7dSPeter Dunlap * 753a6d42e7dSPeter Dunlap * This is IDM's implementation of the 'Get_Data' operational primitive. 754a6d42e7dSPeter Dunlap * 755a6d42e7dSPeter Dunlap * This function is invoked by a target iSCSI layer to request its local 756a6d42e7dSPeter Dunlap * Datamover layer to retrieve certain data identified by the R2T PDU from the 757a6d42e7dSPeter Dunlap * peer iSCSI layer on the remote node. The retrieved Data-Out PDU will be 758a6d42e7dSPeter Dunlap * mapped to the respective buffer by the task tags (ITT & TTT). 759a6d42e7dSPeter Dunlap * The connection information, contents of an R2T PDU, DataDescriptor, BHS, and 760a6d42e7dSPeter Dunlap * the callback (idb->idb_buf_cb) notification for data transfer completion are 761a6d42e7dSPeter Dunlap * are provided as input. 762a6d42e7dSPeter Dunlap * 763a6d42e7dSPeter Dunlap * When an iSCSI node sends an R2T PDU to its local Datamover layer, the local 764a6d42e7dSPeter Dunlap * Datamover layer, the local and remote Datamover layers transparently bring 765a6d42e7dSPeter Dunlap * about the data transfer requested by the R2T PDU, without the participation 766a6d42e7dSPeter Dunlap * of the iSCSI layers. 767a6d42e7dSPeter Dunlap * 768a6d42e7dSPeter Dunlap * Using sockets, IDM transmits an R2T PDU for each buffer and the rx_data_out() 769a6d42e7dSPeter Dunlap * assembles the Data-Out PDUs into the buffer. iSER uses RDMA read. 770a6d42e7dSPeter Dunlap * 771a6d42e7dSPeter Dunlap */ 772a6d42e7dSPeter Dunlap idm_status_t 773a6d42e7dSPeter Dunlap idm_buf_rx_from_ini(idm_task_t *idt, idm_buf_t *idb, 774a6d42e7dSPeter Dunlap uint32_t offset, uint32_t xfer_len, 775a6d42e7dSPeter Dunlap idm_buf_cb_t idb_buf_cb, void *cb_arg) 776a6d42e7dSPeter Dunlap { 777a6d42e7dSPeter Dunlap idm_status_t rc; 778a6d42e7dSPeter Dunlap 779a6d42e7dSPeter Dunlap idb->idb_bufoffset = offset; 780a6d42e7dSPeter Dunlap idb->idb_xfer_len = xfer_len; 781a6d42e7dSPeter Dunlap idb->idb_buf_cb = idb_buf_cb; 782a6d42e7dSPeter Dunlap idb->idb_cb_arg = cb_arg; 78330e7468fSPeter Dunlap gethrestime(&idb->idb_xfer_start); 784a6d42e7dSPeter Dunlap 785a6d42e7dSPeter Dunlap /* 786a6d42e7dSPeter Dunlap * "In" buf list is for "Data In" PDU's, "Out" buf list is for 787a6d42e7dSPeter Dunlap * "Data Out" PDU's 788a6d42e7dSPeter Dunlap */ 789a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 790a6d42e7dSPeter Dunlap switch (idt->idt_state) { 791a6d42e7dSPeter Dunlap case TASK_ACTIVE: 792a6d42e7dSPeter Dunlap idt->idt_rx_from_ini_start++; 793a6d42e7dSPeter Dunlap idm_task_hold(idt); 794a6d42e7dSPeter Dunlap idm_buf_bind_out_locked(idt, idb); 795a6d42e7dSPeter Dunlap idb->idb_in_transport = B_TRUE; 796a6d42e7dSPeter Dunlap rc = (*idt->idt_ic->ic_transport_ops->it_buf_rx_from_ini) 797a6d42e7dSPeter Dunlap (idt, idb); 798a6d42e7dSPeter Dunlap return (rc); 799a6d42e7dSPeter Dunlap case TASK_SUSPENDING: 800a6d42e7dSPeter Dunlap case TASK_SUSPENDED: 801a6d42e7dSPeter Dunlap case TASK_ABORTING: 802a6d42e7dSPeter Dunlap case TASK_ABORTED: 803a6d42e7dSPeter Dunlap /* 804a6d42e7dSPeter Dunlap * Bind buffer but don't start a transfer since the task 805a6d42e7dSPeter Dunlap * is suspended 806a6d42e7dSPeter Dunlap */ 807a6d42e7dSPeter Dunlap idm_buf_bind_out_locked(idt, idb); 808a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 809a6d42e7dSPeter Dunlap return (IDM_STATUS_SUCCESS); 810a6d42e7dSPeter Dunlap default: 811a6d42e7dSPeter Dunlap ASSERT(0); 812a6d42e7dSPeter Dunlap break; 813a6d42e7dSPeter Dunlap } 814a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 815a6d42e7dSPeter Dunlap 816a6d42e7dSPeter Dunlap return (IDM_STATUS_FAIL); 817a6d42e7dSPeter Dunlap } 818a6d42e7dSPeter Dunlap 819a6d42e7dSPeter Dunlap /* 820a6d42e7dSPeter Dunlap * idm_buf_tx_to_ini_done 821a6d42e7dSPeter Dunlap * 822a6d42e7dSPeter Dunlap * The transport calls this after it has completed a transfer requested by 823a6d42e7dSPeter Dunlap * a call to transport_buf_tx_to_ini 824a6d42e7dSPeter Dunlap * 825a6d42e7dSPeter Dunlap * Caller holds idt->idt_mutex, idt->idt_mutex is released before returning. 826a6d42e7dSPeter Dunlap * idt may be freed after the call to idb->idb_buf_cb. 827a6d42e7dSPeter Dunlap */ 828a6d42e7dSPeter Dunlap void 829a6d42e7dSPeter Dunlap idm_buf_tx_to_ini_done(idm_task_t *idt, idm_buf_t *idb, idm_status_t status) 830a6d42e7dSPeter Dunlap { 831a6d42e7dSPeter Dunlap ASSERT(mutex_owned(&idt->idt_mutex)); 832a6d42e7dSPeter Dunlap idb->idb_in_transport = B_FALSE; 833a6d42e7dSPeter Dunlap idb->idb_tx_thread = B_FALSE; 834a6d42e7dSPeter Dunlap idt->idt_tx_to_ini_done++; 83530e7468fSPeter Dunlap gethrestime(&idb->idb_xfer_done); 836a6d42e7dSPeter Dunlap 837a6d42e7dSPeter Dunlap /* 838a6d42e7dSPeter Dunlap * idm_refcnt_rele may cause TASK_SUSPENDING --> TASK_SUSPENDED or 839a6d42e7dSPeter Dunlap * TASK_ABORTING --> TASK_ABORTED transistion if the refcount goes 840a6d42e7dSPeter Dunlap * to 0. 841a6d42e7dSPeter Dunlap */ 842a6d42e7dSPeter Dunlap idm_task_rele(idt); 843a6d42e7dSPeter Dunlap idb->idb_status = status; 844a6d42e7dSPeter Dunlap 845a6d42e7dSPeter Dunlap switch (idt->idt_state) { 846a6d42e7dSPeter Dunlap case TASK_ACTIVE: 84772cf3143Speter dunlap idt->idt_ic->ic_timestamp = ddi_get_lbolt(); 848a6d42e7dSPeter Dunlap idm_buf_unbind_in_locked(idt, idb); 849a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 850a6d42e7dSPeter Dunlap (*idb->idb_buf_cb)(idb, status); 851a6d42e7dSPeter Dunlap return; 852a6d42e7dSPeter Dunlap case TASK_SUSPENDING: 853a6d42e7dSPeter Dunlap case TASK_SUSPENDED: 854a6d42e7dSPeter Dunlap case TASK_ABORTING: 855a6d42e7dSPeter Dunlap case TASK_ABORTED: 856a6d42e7dSPeter Dunlap /* 857a6d42e7dSPeter Dunlap * To keep things simple we will ignore the case where the 858a6d42e7dSPeter Dunlap * transfer was successful and leave all buffers bound to the 859a6d42e7dSPeter Dunlap * task. This allows us to also ignore the case where we've 860a6d42e7dSPeter Dunlap * been asked to abort a task but the last transfer of the 861a6d42e7dSPeter Dunlap * task has completed. IDM has no idea whether this was, in 862a6d42e7dSPeter Dunlap * fact, the last transfer of the task so it would be difficult 863a6d42e7dSPeter Dunlap * to handle this case. Everything should get sorted out again 864a6d42e7dSPeter Dunlap * after task reassignment is complete. 865a6d42e7dSPeter Dunlap * 866a6d42e7dSPeter Dunlap * In the case of TASK_ABORTING we could conceivably call the 867a6d42e7dSPeter Dunlap * buffer callback here but the timing of when the client's 868a6d42e7dSPeter Dunlap * client_task_aborted callback is invoked vs. when the client's 869a6d42e7dSPeter Dunlap * buffer callback gets invoked gets sticky. We don't want 870a6d42e7dSPeter Dunlap * the client to here from us again after the call to 871a6d42e7dSPeter Dunlap * client_task_aborted() but we don't want to give it a bunch 872a6d42e7dSPeter Dunlap * of failed buffer transfers until we've called 873a6d42e7dSPeter Dunlap * client_task_aborted(). Instead we'll just leave all the 874a6d42e7dSPeter Dunlap * buffers bound and allow the client to cleanup. 875a6d42e7dSPeter Dunlap */ 876a6d42e7dSPeter Dunlap break; 877a6d42e7dSPeter Dunlap default: 878a6d42e7dSPeter Dunlap ASSERT(0); 879a6d42e7dSPeter Dunlap } 880a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 881a6d42e7dSPeter Dunlap } 882a6d42e7dSPeter Dunlap 883a6d42e7dSPeter Dunlap /* 884a6d42e7dSPeter Dunlap * idm_buf_rx_from_ini_done 885a6d42e7dSPeter Dunlap * 886a6d42e7dSPeter Dunlap * The transport calls this after it has completed a transfer requested by 887a6d42e7dSPeter Dunlap * a call totransport_buf_tx_to_ini 888a6d42e7dSPeter Dunlap * 889a6d42e7dSPeter Dunlap * Caller holds idt->idt_mutex, idt->idt_mutex is released before returning. 890a6d42e7dSPeter Dunlap * idt may be freed after the call to idb->idb_buf_cb. 891a6d42e7dSPeter Dunlap */ 892a6d42e7dSPeter Dunlap void 893a6d42e7dSPeter Dunlap idm_buf_rx_from_ini_done(idm_task_t *idt, idm_buf_t *idb, idm_status_t status) 894a6d42e7dSPeter Dunlap { 895a6d42e7dSPeter Dunlap ASSERT(mutex_owned(&idt->idt_mutex)); 896a6d42e7dSPeter Dunlap idb->idb_in_transport = B_FALSE; 897a6d42e7dSPeter Dunlap idt->idt_rx_from_ini_done++; 89830e7468fSPeter Dunlap gethrestime(&idb->idb_xfer_done); 899a6d42e7dSPeter Dunlap 900a6d42e7dSPeter Dunlap /* 901a6d42e7dSPeter Dunlap * idm_refcnt_rele may cause TASK_SUSPENDING --> TASK_SUSPENDED or 902a6d42e7dSPeter Dunlap * TASK_ABORTING --> TASK_ABORTED transistion if the refcount goes 903a6d42e7dSPeter Dunlap * to 0. 904a6d42e7dSPeter Dunlap */ 905a6d42e7dSPeter Dunlap idm_task_rele(idt); 906a6d42e7dSPeter Dunlap idb->idb_status = status; 907a6d42e7dSPeter Dunlap 90830e7468fSPeter Dunlap if (status == IDM_STATUS_SUCCESS) { 90930e7468fSPeter Dunlap /* 91030e7468fSPeter Dunlap * Buffer should not contain the pattern. If it does then 91130e7468fSPeter Dunlap * we did not get the data from the remote host. 91230e7468fSPeter Dunlap */ 91330e7468fSPeter Dunlap IDM_BUFPAT_CHECK(idb, idb->idb_xfer_len, BP_CHECK_ASSERT); 91430e7468fSPeter Dunlap } 91530e7468fSPeter Dunlap 916a6d42e7dSPeter Dunlap switch (idt->idt_state) { 917a6d42e7dSPeter Dunlap case TASK_ACTIVE: 91872cf3143Speter dunlap idt->idt_ic->ic_timestamp = ddi_get_lbolt(); 919a6d42e7dSPeter Dunlap idm_buf_unbind_out_locked(idt, idb); 920a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 921a6d42e7dSPeter Dunlap (*idb->idb_buf_cb)(idb, status); 922a6d42e7dSPeter Dunlap return; 923a6d42e7dSPeter Dunlap case TASK_SUSPENDING: 924a6d42e7dSPeter Dunlap case TASK_SUSPENDED: 925a6d42e7dSPeter Dunlap case TASK_ABORTING: 926a6d42e7dSPeter Dunlap case TASK_ABORTED: 927a6d42e7dSPeter Dunlap /* 928a6d42e7dSPeter Dunlap * To keep things simple we will ignore the case where the 929a6d42e7dSPeter Dunlap * transfer was successful and leave all buffers bound to the 930a6d42e7dSPeter Dunlap * task. This allows us to also ignore the case where we've 931a6d42e7dSPeter Dunlap * been asked to abort a task but the last transfer of the 932a6d42e7dSPeter Dunlap * task has completed. IDM has no idea whether this was, in 933a6d42e7dSPeter Dunlap * fact, the last transfer of the task so it would be difficult 934a6d42e7dSPeter Dunlap * to handle this case. Everything should get sorted out again 935a6d42e7dSPeter Dunlap * after task reassignment is complete. 936a6d42e7dSPeter Dunlap * 937a6d42e7dSPeter Dunlap * In the case of TASK_ABORTING we could conceivably call the 938a6d42e7dSPeter Dunlap * buffer callback here but the timing of when the client's 939a6d42e7dSPeter Dunlap * client_task_aborted callback is invoked vs. when the client's 940a6d42e7dSPeter Dunlap * buffer callback gets invoked gets sticky. We don't want 941a6d42e7dSPeter Dunlap * the client to here from us again after the call to 942a6d42e7dSPeter Dunlap * client_task_aborted() but we don't want to give it a bunch 943a6d42e7dSPeter Dunlap * of failed buffer transfers until we've called 944a6d42e7dSPeter Dunlap * client_task_aborted(). Instead we'll just leave all the 945a6d42e7dSPeter Dunlap * buffers bound and allow the client to cleanup. 946a6d42e7dSPeter Dunlap */ 947a6d42e7dSPeter Dunlap break; 948a6d42e7dSPeter Dunlap default: 949a6d42e7dSPeter Dunlap ASSERT(0); 950a6d42e7dSPeter Dunlap } 951a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 952a6d42e7dSPeter Dunlap } 953a6d42e7dSPeter Dunlap 954a6d42e7dSPeter Dunlap /* 955a6d42e7dSPeter Dunlap * idm_buf_alloc 956a6d42e7dSPeter Dunlap * 957a6d42e7dSPeter Dunlap * Allocates a buffer handle and registers it for use with the transport 958a6d42e7dSPeter Dunlap * layer. If a buffer is not passed on bufptr, the buffer will be allocated 959a6d42e7dSPeter Dunlap * as well as the handle. 960a6d42e7dSPeter Dunlap * 961a6d42e7dSPeter Dunlap * ic - connection on which the buffer will be transferred 962a6d42e7dSPeter Dunlap * bufptr - allocate memory for buffer if NULL, else assign to buffer 963a6d42e7dSPeter Dunlap * buflen - length of buffer 964a6d42e7dSPeter Dunlap * 965a6d42e7dSPeter Dunlap * Returns idm_buf_t handle if successful, otherwise NULL 966a6d42e7dSPeter Dunlap */ 967a6d42e7dSPeter Dunlap idm_buf_t * 968a6d42e7dSPeter Dunlap idm_buf_alloc(idm_conn_t *ic, void *bufptr, uint64_t buflen) 969a6d42e7dSPeter Dunlap { 970a6d42e7dSPeter Dunlap idm_buf_t *buf = NULL; 971a6d42e7dSPeter Dunlap int rc; 972a6d42e7dSPeter Dunlap 973a6d42e7dSPeter Dunlap ASSERT(ic != NULL); 974a6d42e7dSPeter Dunlap ASSERT(idm.idm_buf_cache != NULL); 975a6d42e7dSPeter Dunlap ASSERT(buflen > 0); 976a6d42e7dSPeter Dunlap 977a6d42e7dSPeter Dunlap /* Don't allocate new buffers if we are not in FFP */ 978a6d42e7dSPeter Dunlap mutex_enter(&ic->ic_state_mutex); 979a6d42e7dSPeter Dunlap if (!ic->ic_ffp) { 980a6d42e7dSPeter Dunlap mutex_exit(&ic->ic_state_mutex); 981a6d42e7dSPeter Dunlap return (NULL); 982a6d42e7dSPeter Dunlap } 983a6d42e7dSPeter Dunlap 984a6d42e7dSPeter Dunlap 985a6d42e7dSPeter Dunlap idm_conn_hold(ic); 986a6d42e7dSPeter Dunlap mutex_exit(&ic->ic_state_mutex); 987a6d42e7dSPeter Dunlap 988a6d42e7dSPeter Dunlap buf = kmem_cache_alloc(idm.idm_buf_cache, KM_NOSLEEP); 989a6d42e7dSPeter Dunlap if (buf == NULL) { 990a6d42e7dSPeter Dunlap idm_conn_rele(ic); 991a6d42e7dSPeter Dunlap return (NULL); 992a6d42e7dSPeter Dunlap } 993a6d42e7dSPeter Dunlap 994a6d42e7dSPeter Dunlap buf->idb_ic = ic; 995a6d42e7dSPeter Dunlap buf->idb_buflen = buflen; 996a6d42e7dSPeter Dunlap buf->idb_exp_offset = 0; 997a6d42e7dSPeter Dunlap buf->idb_bufoffset = 0; 998a6d42e7dSPeter Dunlap buf->idb_xfer_len = 0; 999a6d42e7dSPeter Dunlap buf->idb_magic = IDM_BUF_MAGIC; 100030e7468fSPeter Dunlap buf->idb_in_transport = B_FALSE; 100130e7468fSPeter Dunlap buf->idb_bufbcopy = B_FALSE; 1002a6d42e7dSPeter Dunlap 1003a6d42e7dSPeter Dunlap /* 1004a6d42e7dSPeter Dunlap * If bufptr is NULL, we have an implicit request to allocate 1005a6d42e7dSPeter Dunlap * memory for this IDM buffer handle and register it for use 1006a6d42e7dSPeter Dunlap * with the transport. To simplify this, and to give more freedom 1007a6d42e7dSPeter Dunlap * to the transport layer for it's own buffer management, both of 1008a6d42e7dSPeter Dunlap * these actions will take place in the transport layer. 1009a6d42e7dSPeter Dunlap * If bufptr is set, then the caller has allocated memory (or more 1010a6d42e7dSPeter Dunlap * likely it's been passed from an upper layer), and we need only 1011a6d42e7dSPeter Dunlap * register the buffer for use with the transport layer. 1012a6d42e7dSPeter Dunlap */ 1013a6d42e7dSPeter Dunlap if (bufptr == NULL) { 1014a6d42e7dSPeter Dunlap /* 1015a6d42e7dSPeter Dunlap * Allocate a buffer from the transport layer (which 1016a6d42e7dSPeter Dunlap * will also register the buffer for use). 1017a6d42e7dSPeter Dunlap */ 1018a6d42e7dSPeter Dunlap rc = ic->ic_transport_ops->it_buf_alloc(buf, buflen); 1019a6d42e7dSPeter Dunlap if (rc != 0) { 1020a6d42e7dSPeter Dunlap idm_conn_rele(ic); 1021a6d42e7dSPeter Dunlap kmem_cache_free(idm.idm_buf_cache, buf); 1022a6d42e7dSPeter Dunlap return (NULL); 1023a6d42e7dSPeter Dunlap } 1024a6d42e7dSPeter Dunlap /* Set the bufalloc'd flag */ 1025a6d42e7dSPeter Dunlap buf->idb_bufalloc = B_TRUE; 1026a6d42e7dSPeter Dunlap } else { 1027a6d42e7dSPeter Dunlap /* 102830e7468fSPeter Dunlap * For large transfers, Set the passed bufptr into 102930e7468fSPeter Dunlap * the buf handle, and register the handle with the 103030e7468fSPeter Dunlap * transport layer. As memory registration with the 103130e7468fSPeter Dunlap * transport layer is a time/cpu intensive operation, 103230e7468fSPeter Dunlap * for small transfers (up to a pre-defined bcopy 103330e7468fSPeter Dunlap * threshold), use pre-registered memory buffers 103430e7468fSPeter Dunlap * and bcopy data at the appropriate time. 1035a6d42e7dSPeter Dunlap */ 1036a6d42e7dSPeter Dunlap buf->idb_buf = bufptr; 1037a6d42e7dSPeter Dunlap 1038a6d42e7dSPeter Dunlap rc = ic->ic_transport_ops->it_buf_setup(buf); 1039a6d42e7dSPeter Dunlap if (rc != 0) { 1040a6d42e7dSPeter Dunlap idm_conn_rele(ic); 1041a6d42e7dSPeter Dunlap kmem_cache_free(idm.idm_buf_cache, buf); 1042a6d42e7dSPeter Dunlap return (NULL); 1043a6d42e7dSPeter Dunlap } 104430e7468fSPeter Dunlap /* 104530e7468fSPeter Dunlap * The transport layer is now expected to set the idb_bufalloc 104630e7468fSPeter Dunlap * correctly to indicate if resources have been allocated. 104730e7468fSPeter Dunlap */ 1048a6d42e7dSPeter Dunlap } 1049a6d42e7dSPeter Dunlap 105030e7468fSPeter Dunlap IDM_BUFPAT_SET(buf); 1051a6d42e7dSPeter Dunlap 105230e7468fSPeter Dunlap return (buf); 1053a6d42e7dSPeter Dunlap } 1054a6d42e7dSPeter Dunlap 1055a6d42e7dSPeter Dunlap /* 1056a6d42e7dSPeter Dunlap * idm_buf_free 1057a6d42e7dSPeter Dunlap * 1058a6d42e7dSPeter Dunlap * Release a buffer handle along with the associated buffer that was allocated 1059a6d42e7dSPeter Dunlap * or assigned with idm_buf_alloc 1060a6d42e7dSPeter Dunlap */ 1061a6d42e7dSPeter Dunlap void 1062a6d42e7dSPeter Dunlap idm_buf_free(idm_buf_t *buf) 1063a6d42e7dSPeter Dunlap { 1064a6d42e7dSPeter Dunlap idm_conn_t *ic = buf->idb_ic; 1065a6d42e7dSPeter Dunlap 1066a6d42e7dSPeter Dunlap 1067a6d42e7dSPeter Dunlap buf->idb_task_binding = NULL; 1068a6d42e7dSPeter Dunlap 1069a6d42e7dSPeter Dunlap if (buf->idb_bufalloc) { 1070a6d42e7dSPeter Dunlap ic->ic_transport_ops->it_buf_free(buf); 1071a6d42e7dSPeter Dunlap } else { 1072a6d42e7dSPeter Dunlap ic->ic_transport_ops->it_buf_teardown(buf); 1073a6d42e7dSPeter Dunlap } 1074a6d42e7dSPeter Dunlap kmem_cache_free(idm.idm_buf_cache, buf); 1075a6d42e7dSPeter Dunlap idm_conn_rele(ic); 1076a6d42e7dSPeter Dunlap } 1077a6d42e7dSPeter Dunlap 1078a6d42e7dSPeter Dunlap /* 1079a6d42e7dSPeter Dunlap * idm_buf_bind_in 1080a6d42e7dSPeter Dunlap * 1081a6d42e7dSPeter Dunlap * This function associates a buffer with a task. This is only for use by the 1082a6d42e7dSPeter Dunlap * iSCSI initiator that will have only one buffer per transfer direction 1083a6d42e7dSPeter Dunlap * 1084a6d42e7dSPeter Dunlap */ 1085a6d42e7dSPeter Dunlap void 1086a6d42e7dSPeter Dunlap idm_buf_bind_in(idm_task_t *idt, idm_buf_t *buf) 1087a6d42e7dSPeter Dunlap { 1088a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 1089a6d42e7dSPeter Dunlap idm_buf_bind_in_locked(idt, buf); 1090a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1091a6d42e7dSPeter Dunlap } 1092a6d42e7dSPeter Dunlap 1093a6d42e7dSPeter Dunlap static void 1094a6d42e7dSPeter Dunlap idm_buf_bind_in_locked(idm_task_t *idt, idm_buf_t *buf) 1095a6d42e7dSPeter Dunlap { 1096a6d42e7dSPeter Dunlap buf->idb_task_binding = idt; 1097a6d42e7dSPeter Dunlap buf->idb_ic = idt->idt_ic; 1098a6d42e7dSPeter Dunlap idm_listbuf_insert(&idt->idt_inbufv, buf); 1099a6d42e7dSPeter Dunlap } 1100a6d42e7dSPeter Dunlap 1101a6d42e7dSPeter Dunlap void 1102a6d42e7dSPeter Dunlap idm_buf_bind_out(idm_task_t *idt, idm_buf_t *buf) 1103a6d42e7dSPeter Dunlap { 110430e7468fSPeter Dunlap /* 110530e7468fSPeter Dunlap * For small transfers, the iSER transport delegates the IDM 110630e7468fSPeter Dunlap * layer to bcopy the SCSI Write data for faster IOPS. 110730e7468fSPeter Dunlap */ 110830e7468fSPeter Dunlap if (buf->idb_bufbcopy == B_TRUE) { 110930e7468fSPeter Dunlap 111030e7468fSPeter Dunlap bcopy(buf->idb_bufptr, buf->idb_buf, buf->idb_buflen); 111130e7468fSPeter Dunlap } 1112a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 1113a6d42e7dSPeter Dunlap idm_buf_bind_out_locked(idt, buf); 1114a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1115a6d42e7dSPeter Dunlap } 1116a6d42e7dSPeter Dunlap 1117a6d42e7dSPeter Dunlap static void 1118a6d42e7dSPeter Dunlap idm_buf_bind_out_locked(idm_task_t *idt, idm_buf_t *buf) 1119a6d42e7dSPeter Dunlap { 1120a6d42e7dSPeter Dunlap buf->idb_task_binding = idt; 1121a6d42e7dSPeter Dunlap buf->idb_ic = idt->idt_ic; 1122a6d42e7dSPeter Dunlap idm_listbuf_insert(&idt->idt_outbufv, buf); 1123a6d42e7dSPeter Dunlap } 1124a6d42e7dSPeter Dunlap 1125a6d42e7dSPeter Dunlap void 1126a6d42e7dSPeter Dunlap idm_buf_unbind_in(idm_task_t *idt, idm_buf_t *buf) 1127a6d42e7dSPeter Dunlap { 112830e7468fSPeter Dunlap /* 112930e7468fSPeter Dunlap * For small transfers, the iSER transport delegates the IDM 113030e7468fSPeter Dunlap * layer to bcopy the SCSI Read data into the read buufer 113130e7468fSPeter Dunlap * for faster IOPS. 113230e7468fSPeter Dunlap */ 113330e7468fSPeter Dunlap if (buf->idb_bufbcopy == B_TRUE) { 113430e7468fSPeter Dunlap bcopy(buf->idb_buf, buf->idb_bufptr, buf->idb_buflen); 113530e7468fSPeter Dunlap } 1136a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 1137a6d42e7dSPeter Dunlap idm_buf_unbind_in_locked(idt, buf); 1138a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1139a6d42e7dSPeter Dunlap } 1140a6d42e7dSPeter Dunlap 1141a6d42e7dSPeter Dunlap static void 1142a6d42e7dSPeter Dunlap idm_buf_unbind_in_locked(idm_task_t *idt, idm_buf_t *buf) 1143a6d42e7dSPeter Dunlap { 1144a6d42e7dSPeter Dunlap list_remove(&idt->idt_inbufv, buf); 1145a6d42e7dSPeter Dunlap } 1146a6d42e7dSPeter Dunlap 1147a6d42e7dSPeter Dunlap void 1148a6d42e7dSPeter Dunlap idm_buf_unbind_out(idm_task_t *idt, idm_buf_t *buf) 1149a6d42e7dSPeter Dunlap { 1150a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 1151a6d42e7dSPeter Dunlap idm_buf_unbind_out_locked(idt, buf); 1152a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1153a6d42e7dSPeter Dunlap } 1154a6d42e7dSPeter Dunlap 1155a6d42e7dSPeter Dunlap static void 1156a6d42e7dSPeter Dunlap idm_buf_unbind_out_locked(idm_task_t *idt, idm_buf_t *buf) 1157a6d42e7dSPeter Dunlap { 1158a6d42e7dSPeter Dunlap list_remove(&idt->idt_outbufv, buf); 1159a6d42e7dSPeter Dunlap } 1160a6d42e7dSPeter Dunlap 1161a6d42e7dSPeter Dunlap /* 1162a6d42e7dSPeter Dunlap * idm_buf_find() will lookup the idm_buf_t based on the relative offset in the 1163a6d42e7dSPeter Dunlap * iSCSI PDU 1164a6d42e7dSPeter Dunlap */ 1165a6d42e7dSPeter Dunlap idm_buf_t * 1166a6d42e7dSPeter Dunlap idm_buf_find(void *lbuf, size_t data_offset) 1167a6d42e7dSPeter Dunlap { 1168a6d42e7dSPeter Dunlap idm_buf_t *idb; 1169a6d42e7dSPeter Dunlap list_t *lst = (list_t *)lbuf; 1170a6d42e7dSPeter Dunlap 1171a6d42e7dSPeter Dunlap /* iterate through the list to find the buffer */ 1172a6d42e7dSPeter Dunlap for (idb = list_head(lst); idb != NULL; idb = list_next(lst, idb)) { 1173a6d42e7dSPeter Dunlap 1174a6d42e7dSPeter Dunlap ASSERT((idb->idb_ic->ic_conn_type == CONN_TYPE_TGT) || 1175a6d42e7dSPeter Dunlap (idb->idb_bufoffset == 0)); 1176a6d42e7dSPeter Dunlap 1177a6d42e7dSPeter Dunlap if ((data_offset >= idb->idb_bufoffset) && 1178a6d42e7dSPeter Dunlap (data_offset < (idb->idb_bufoffset + idb->idb_buflen))) { 1179a6d42e7dSPeter Dunlap 1180a6d42e7dSPeter Dunlap return (idb); 1181a6d42e7dSPeter Dunlap } 1182a6d42e7dSPeter Dunlap } 1183a6d42e7dSPeter Dunlap 1184a6d42e7dSPeter Dunlap return (NULL); 1185a6d42e7dSPeter Dunlap } 1186a6d42e7dSPeter Dunlap 118730e7468fSPeter Dunlap void 118830e7468fSPeter Dunlap idm_bufpat_set(idm_buf_t *idb) 118930e7468fSPeter Dunlap { 119030e7468fSPeter Dunlap idm_bufpat_t *bufpat; 119130e7468fSPeter Dunlap int len, i; 119230e7468fSPeter Dunlap 119330e7468fSPeter Dunlap len = idb->idb_buflen; 119430e7468fSPeter Dunlap len = (len / sizeof (idm_bufpat_t)) * sizeof (idm_bufpat_t); 119530e7468fSPeter Dunlap 119630e7468fSPeter Dunlap bufpat = idb->idb_buf; 119730e7468fSPeter Dunlap for (i = 0; i < len; i += sizeof (idm_bufpat_t)) { 119830e7468fSPeter Dunlap bufpat->bufpat_idb = idb; 119930e7468fSPeter Dunlap bufpat->bufpat_bufmagic = IDM_BUF_MAGIC; 120030e7468fSPeter Dunlap bufpat->bufpat_offset = i; 120130e7468fSPeter Dunlap bufpat++; 120230e7468fSPeter Dunlap } 120330e7468fSPeter Dunlap } 120430e7468fSPeter Dunlap 120530e7468fSPeter Dunlap boolean_t 120630e7468fSPeter Dunlap idm_bufpat_check(idm_buf_t *idb, int check_len, idm_bufpat_check_type_t type) 120730e7468fSPeter Dunlap { 120830e7468fSPeter Dunlap idm_bufpat_t *bufpat; 120930e7468fSPeter Dunlap int len, i; 121030e7468fSPeter Dunlap 121130e7468fSPeter Dunlap len = (type == BP_CHECK_QUICK) ? sizeof (idm_bufpat_t) : check_len; 121230e7468fSPeter Dunlap len = (len / sizeof (idm_bufpat_t)) * sizeof (idm_bufpat_t); 121330e7468fSPeter Dunlap ASSERT(len <= idb->idb_buflen); 121430e7468fSPeter Dunlap bufpat = idb->idb_buf; 121530e7468fSPeter Dunlap 121630e7468fSPeter Dunlap /* 121730e7468fSPeter Dunlap * Don't check the pattern in buffers that came from outside IDM 121830e7468fSPeter Dunlap * (these will be buffers from the initiator that we opted not 121930e7468fSPeter Dunlap * to double-buffer) 122030e7468fSPeter Dunlap */ 122130e7468fSPeter Dunlap if (!idb->idb_bufalloc) 122230e7468fSPeter Dunlap return (B_FALSE); 122330e7468fSPeter Dunlap 122430e7468fSPeter Dunlap /* 122530e7468fSPeter Dunlap * Return true if we find the pattern anywhere in the buffer 122630e7468fSPeter Dunlap */ 122730e7468fSPeter Dunlap for (i = 0; i < len; i += sizeof (idm_bufpat_t)) { 122830e7468fSPeter Dunlap if (BUFPAT_MATCH(bufpat, idb)) { 122930e7468fSPeter Dunlap IDM_CONN_LOG(CE_WARN, "idm_bufpat_check found: " 123030e7468fSPeter Dunlap "idb %p bufpat %p " 123130e7468fSPeter Dunlap "bufpat_idb=%p bufmagic=%08x offset=%08x", 123230e7468fSPeter Dunlap (void *)idb, (void *)bufpat, bufpat->bufpat_idb, 123330e7468fSPeter Dunlap bufpat->bufpat_bufmagic, bufpat->bufpat_offset); 123430e7468fSPeter Dunlap DTRACE_PROBE2(bufpat__pattern__found, 123530e7468fSPeter Dunlap idm_buf_t *, idb, idm_bufpat_t *, bufpat); 123630e7468fSPeter Dunlap if (type == BP_CHECK_ASSERT) { 123730e7468fSPeter Dunlap ASSERT(0); 123830e7468fSPeter Dunlap } 123930e7468fSPeter Dunlap return (B_TRUE); 124030e7468fSPeter Dunlap } 124130e7468fSPeter Dunlap bufpat++; 124230e7468fSPeter Dunlap } 124330e7468fSPeter Dunlap 124430e7468fSPeter Dunlap return (B_FALSE); 124530e7468fSPeter Dunlap } 124630e7468fSPeter Dunlap 1247a6d42e7dSPeter Dunlap /* 1248a6d42e7dSPeter Dunlap * idm_task_alloc 1249a6d42e7dSPeter Dunlap * 1250a6d42e7dSPeter Dunlap * This function will allocate a idm_task_t structure. A task tag is also 1251a6d42e7dSPeter Dunlap * generated and saved in idt_tt. The task is not active. 1252a6d42e7dSPeter Dunlap */ 1253a6d42e7dSPeter Dunlap idm_task_t * 1254a6d42e7dSPeter Dunlap idm_task_alloc(idm_conn_t *ic) 1255a6d42e7dSPeter Dunlap { 1256a6d42e7dSPeter Dunlap idm_task_t *idt; 1257a6d42e7dSPeter Dunlap 1258a6d42e7dSPeter Dunlap ASSERT(ic != NULL); 1259a6d42e7dSPeter Dunlap 1260a6d42e7dSPeter Dunlap /* Don't allocate new tasks if we are not in FFP */ 1261a6d42e7dSPeter Dunlap if (!ic->ic_ffp) { 1262a6d42e7dSPeter Dunlap return (NULL); 1263a6d42e7dSPeter Dunlap } 1264a6d42e7dSPeter Dunlap idt = kmem_cache_alloc(idm.idm_task_cache, KM_NOSLEEP); 1265a6d42e7dSPeter Dunlap if (idt == NULL) { 1266a6d42e7dSPeter Dunlap return (NULL); 1267a6d42e7dSPeter Dunlap } 1268a6d42e7dSPeter Dunlap 1269a6d42e7dSPeter Dunlap ASSERT(list_is_empty(&idt->idt_inbufv)); 1270a6d42e7dSPeter Dunlap ASSERT(list_is_empty(&idt->idt_outbufv)); 1271a6d42e7dSPeter Dunlap 127292adbba7SPeter Cudhea - Sun Microsystems - Burlington, MA United States mutex_enter(&ic->ic_state_mutex); 127392adbba7SPeter Cudhea - Sun Microsystems - Burlington, MA United States if (!ic->ic_ffp) { 127492adbba7SPeter Cudhea - Sun Microsystems - Burlington, MA United States mutex_exit(&ic->ic_state_mutex); 127592adbba7SPeter Cudhea - Sun Microsystems - Burlington, MA United States kmem_cache_free(idm.idm_task_cache, idt); 127692adbba7SPeter Cudhea - Sun Microsystems - Burlington, MA United States return (NULL); 127792adbba7SPeter Cudhea - Sun Microsystems - Burlington, MA United States } 1278a6d42e7dSPeter Dunlap idm_conn_hold(ic); 1279a6d42e7dSPeter Dunlap mutex_exit(&ic->ic_state_mutex); 1280a6d42e7dSPeter Dunlap 1281a6d42e7dSPeter Dunlap idt->idt_state = TASK_IDLE; 1282a6d42e7dSPeter Dunlap idt->idt_ic = ic; 1283a6d42e7dSPeter Dunlap idt->idt_private = NULL; 1284a6d42e7dSPeter Dunlap idt->idt_exp_datasn = 0; 1285a6d42e7dSPeter Dunlap idt->idt_exp_rttsn = 0; 128660220f10SPriya Krishnan idt->idt_flags = 0; 1287a6d42e7dSPeter Dunlap return (idt); 1288a6d42e7dSPeter Dunlap } 1289a6d42e7dSPeter Dunlap 1290a6d42e7dSPeter Dunlap /* 1291a6d42e7dSPeter Dunlap * idm_task_start 1292a6d42e7dSPeter Dunlap * 129330e7468fSPeter Dunlap * Mark the task active and initialize some stats. The caller 1294a6d42e7dSPeter Dunlap * sets up the idm_task_t structure with a prior call to idm_task_alloc(). 1295a6d42e7dSPeter Dunlap * The task service does not function as a task/work engine, it is the 1296a6d42e7dSPeter Dunlap * responsibility of the initiator to start the data transfer and free the 1297a6d42e7dSPeter Dunlap * resources. 1298a6d42e7dSPeter Dunlap */ 1299a6d42e7dSPeter Dunlap void 1300a6d42e7dSPeter Dunlap idm_task_start(idm_task_t *idt, uintptr_t handle) 1301a6d42e7dSPeter Dunlap { 1302a6d42e7dSPeter Dunlap ASSERT(idt != NULL); 1303a6d42e7dSPeter Dunlap 1304a6d42e7dSPeter Dunlap /* mark the task as ACTIVE */ 1305a6d42e7dSPeter Dunlap idt->idt_state = TASK_ACTIVE; 1306a6d42e7dSPeter Dunlap idt->idt_client_handle = handle; 1307a6d42e7dSPeter Dunlap idt->idt_tx_to_ini_start = idt->idt_tx_to_ini_done = 130830e7468fSPeter Dunlap idt->idt_rx_from_ini_start = idt->idt_rx_from_ini_done = 130930e7468fSPeter Dunlap idt->idt_tx_bytes = idt->idt_rx_bytes = 0; 1310a6d42e7dSPeter Dunlap } 1311a6d42e7dSPeter Dunlap 1312a6d42e7dSPeter Dunlap /* 1313a6d42e7dSPeter Dunlap * idm_task_done 1314a6d42e7dSPeter Dunlap * 131530e7468fSPeter Dunlap * This function sets the state to indicate that the task is no longer active. 1316a6d42e7dSPeter Dunlap */ 1317a6d42e7dSPeter Dunlap void 1318a6d42e7dSPeter Dunlap idm_task_done(idm_task_t *idt) 1319a6d42e7dSPeter Dunlap { 1320a6d42e7dSPeter Dunlap ASSERT(idt != NULL); 1321a6d42e7dSPeter Dunlap 132230e7468fSPeter Dunlap mutex_enter(&idt->idt_mutex); 1323a6d42e7dSPeter Dunlap idt->idt_state = TASK_IDLE; 132430e7468fSPeter Dunlap mutex_exit(&idt->idt_mutex); 132530e7468fSPeter Dunlap 132630e7468fSPeter Dunlap /* 132730e7468fSPeter Dunlap * Although unlikely it is possible for a reference to come in after 132830e7468fSPeter Dunlap * the client has decided the task is over but before we've marked 132930e7468fSPeter Dunlap * the task idle. One specific unavoidable scenario is the case where 133030e7468fSPeter Dunlap * received PDU with the matching ITT/TTT results in a successful 133130e7468fSPeter Dunlap * lookup of this task. We are at the mercy of the remote node in 133230e7468fSPeter Dunlap * that case so we need to handle it. Now that the task state 133330e7468fSPeter Dunlap * has changed no more references will occur so a simple call to 133430e7468fSPeter Dunlap * idm_refcnt_wait_ref should deal with the situation. 133530e7468fSPeter Dunlap */ 133630e7468fSPeter Dunlap idm_refcnt_wait_ref(&idt->idt_refcnt); 1337a6d42e7dSPeter Dunlap idm_refcnt_reset(&idt->idt_refcnt); 1338a6d42e7dSPeter Dunlap } 1339a6d42e7dSPeter Dunlap 1340a6d42e7dSPeter Dunlap /* 1341a6d42e7dSPeter Dunlap * idm_task_free 1342a6d42e7dSPeter Dunlap * 1343a6d42e7dSPeter Dunlap * This function will free the Task Tag and the memory allocated for the task 1344a6d42e7dSPeter Dunlap * idm_task_done should be called prior to this call 1345a6d42e7dSPeter Dunlap */ 1346a6d42e7dSPeter Dunlap void 1347a6d42e7dSPeter Dunlap idm_task_free(idm_task_t *idt) 1348a6d42e7dSPeter Dunlap { 134930e7468fSPeter Dunlap idm_conn_t *ic; 1350a6d42e7dSPeter Dunlap 1351a6d42e7dSPeter Dunlap ASSERT(idt != NULL); 135230e7468fSPeter Dunlap ASSERT(idt->idt_refcnt.ir_refcnt == 0); 1353a6d42e7dSPeter Dunlap ASSERT(idt->idt_state == TASK_IDLE); 1354a6d42e7dSPeter Dunlap 135530e7468fSPeter Dunlap ic = idt->idt_ic; 135630e7468fSPeter Dunlap 1357a6d42e7dSPeter Dunlap /* 1358a6d42e7dSPeter Dunlap * It's possible for items to still be in the idt_inbufv list if 135992adbba7SPeter Cudhea - Sun Microsystems - Burlington, MA United States * they were added after idm_free_task_rsrc was called. We rely on 1360a6d42e7dSPeter Dunlap * STMF to free all buffers associated with the task however STMF 1361a6d42e7dSPeter Dunlap * doesn't know that we have this reference to the buffers. 1362a6d42e7dSPeter Dunlap * Use list_create so that we don't end up with stale references 1363a6d42e7dSPeter Dunlap * to these buffers. 1364a6d42e7dSPeter Dunlap */ 1365a6d42e7dSPeter Dunlap list_create(&idt->idt_inbufv, sizeof (idm_buf_t), 1366a6d42e7dSPeter Dunlap offsetof(idm_buf_t, idb_buflink)); 1367a6d42e7dSPeter Dunlap list_create(&idt->idt_outbufv, sizeof (idm_buf_t), 1368a6d42e7dSPeter Dunlap offsetof(idm_buf_t, idb_buflink)); 1369a6d42e7dSPeter Dunlap 1370a6d42e7dSPeter Dunlap kmem_cache_free(idm.idm_task_cache, idt); 1371a6d42e7dSPeter Dunlap 1372a6d42e7dSPeter Dunlap idm_conn_rele(ic); 1373a6d42e7dSPeter Dunlap } 1374a6d42e7dSPeter Dunlap 1375a6d42e7dSPeter Dunlap /* 137630e7468fSPeter Dunlap * idm_task_find_common 137730e7468fSPeter Dunlap * common code for idm_task_find() and idm_task_find_and_complete() 1378a6d42e7dSPeter Dunlap */ 1379a6d42e7dSPeter Dunlap /*ARGSUSED*/ 138030e7468fSPeter Dunlap static idm_task_t * 138130e7468fSPeter Dunlap idm_task_find_common(idm_conn_t *ic, uint32_t itt, uint32_t ttt, 138230e7468fSPeter Dunlap boolean_t complete) 1383a6d42e7dSPeter Dunlap { 1384a6d42e7dSPeter Dunlap uint32_t tt, client_handle; 1385a6d42e7dSPeter Dunlap idm_task_t *idt; 1386a6d42e7dSPeter Dunlap 1387a6d42e7dSPeter Dunlap /* 1388a6d42e7dSPeter Dunlap * Must match both itt and ttt. The table is indexed by itt 1389a6d42e7dSPeter Dunlap * for initiator connections and ttt for target connections. 1390a6d42e7dSPeter Dunlap */ 1391a6d42e7dSPeter Dunlap if (IDM_CONN_ISTGT(ic)) { 1392a6d42e7dSPeter Dunlap tt = ttt; 1393a6d42e7dSPeter Dunlap client_handle = itt; 1394a6d42e7dSPeter Dunlap } else { 1395a6d42e7dSPeter Dunlap tt = itt; 1396a6d42e7dSPeter Dunlap client_handle = ttt; 1397a6d42e7dSPeter Dunlap } 1398a6d42e7dSPeter Dunlap 1399a6d42e7dSPeter Dunlap rw_enter(&idm.idm_taskid_table_lock, RW_READER); 1400a6d42e7dSPeter Dunlap if (tt >= idm.idm_taskid_max) { 1401a6d42e7dSPeter Dunlap rw_exit(&idm.idm_taskid_table_lock); 1402a6d42e7dSPeter Dunlap return (NULL); 1403a6d42e7dSPeter Dunlap } 1404a6d42e7dSPeter Dunlap 1405a6d42e7dSPeter Dunlap idt = idm.idm_taskid_table[tt]; 1406a6d42e7dSPeter Dunlap 1407a6d42e7dSPeter Dunlap if (idt != NULL) { 1408a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 1409a6d42e7dSPeter Dunlap if ((idt->idt_state != TASK_ACTIVE) || 141030e7468fSPeter Dunlap (idt->idt_ic != ic) || 1411a6d42e7dSPeter Dunlap (IDM_CONN_ISTGT(ic) && 1412a6d42e7dSPeter Dunlap (idt->idt_client_handle != client_handle))) { 1413a6d42e7dSPeter Dunlap /* 141430e7468fSPeter Dunlap * Task doesn't match or task is aborting and 141530e7468fSPeter Dunlap * we don't want any more references. 1416a6d42e7dSPeter Dunlap */ 141730e7468fSPeter Dunlap if ((idt->idt_ic != ic) && 141830e7468fSPeter Dunlap (idt->idt_state == TASK_ACTIVE) && 141930e7468fSPeter Dunlap (IDM_CONN_ISINI(ic) || idt->idt_client_handle == 142030e7468fSPeter Dunlap client_handle)) { 142130e7468fSPeter Dunlap IDM_CONN_LOG(CE_WARN, 142230e7468fSPeter Dunlap "idm_task_find: wrong connection %p != %p", 142330e7468fSPeter Dunlap (void *)ic, (void *)idt->idt_ic); 142430e7468fSPeter Dunlap } 1425a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1426a6d42e7dSPeter Dunlap rw_exit(&idm.idm_taskid_table_lock); 1427a6d42e7dSPeter Dunlap return (NULL); 1428a6d42e7dSPeter Dunlap } 1429a6d42e7dSPeter Dunlap idm_task_hold(idt); 143030e7468fSPeter Dunlap /* 143130e7468fSPeter Dunlap * Set the task state to TASK_COMPLETE so it can no longer 143230e7468fSPeter Dunlap * be found or aborted. 143330e7468fSPeter Dunlap */ 143430e7468fSPeter Dunlap if (B_TRUE == complete) 143530e7468fSPeter Dunlap idt->idt_state = TASK_COMPLETE; 1436a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1437a6d42e7dSPeter Dunlap } 1438a6d42e7dSPeter Dunlap rw_exit(&idm.idm_taskid_table_lock); 1439a6d42e7dSPeter Dunlap 1440a6d42e7dSPeter Dunlap return (idt); 1441a6d42e7dSPeter Dunlap } 1442a6d42e7dSPeter Dunlap 1443a6d42e7dSPeter Dunlap /* 144430e7468fSPeter Dunlap * This function looks up a task by task tag. 144530e7468fSPeter Dunlap */ 144630e7468fSPeter Dunlap idm_task_t * 144730e7468fSPeter Dunlap idm_task_find(idm_conn_t *ic, uint32_t itt, uint32_t ttt) 144830e7468fSPeter Dunlap { 144930e7468fSPeter Dunlap return (idm_task_find_common(ic, itt, ttt, B_FALSE)); 145030e7468fSPeter Dunlap } 145130e7468fSPeter Dunlap 145230e7468fSPeter Dunlap /* 145330e7468fSPeter Dunlap * This function looks up a task by task tag. If found, the task state 145430e7468fSPeter Dunlap * is atomically set to TASK_COMPLETE so it can longer be found or aborted. 145530e7468fSPeter Dunlap */ 145630e7468fSPeter Dunlap idm_task_t * 145730e7468fSPeter Dunlap idm_task_find_and_complete(idm_conn_t *ic, uint32_t itt, uint32_t ttt) 145830e7468fSPeter Dunlap { 145930e7468fSPeter Dunlap return (idm_task_find_common(ic, itt, ttt, B_TRUE)); 146030e7468fSPeter Dunlap } 146130e7468fSPeter Dunlap 146230e7468fSPeter Dunlap /* 1463a6d42e7dSPeter Dunlap * idm_task_find_by_handle 1464a6d42e7dSPeter Dunlap * 1465a6d42e7dSPeter Dunlap * This function looks up a task by the client-private idt_client_handle. 1466a6d42e7dSPeter Dunlap * 1467a6d42e7dSPeter Dunlap * This function should NEVER be called in the performance path. It is 1468a6d42e7dSPeter Dunlap * intended strictly for error recovery/task management. 1469a6d42e7dSPeter Dunlap */ 1470a6d42e7dSPeter Dunlap /*ARGSUSED*/ 1471a6d42e7dSPeter Dunlap void * 1472a6d42e7dSPeter Dunlap idm_task_find_by_handle(idm_conn_t *ic, uintptr_t handle) 1473a6d42e7dSPeter Dunlap { 1474a6d42e7dSPeter Dunlap idm_task_t *idt = NULL; 1475a6d42e7dSPeter Dunlap int idx = 0; 1476a6d42e7dSPeter Dunlap 1477a6d42e7dSPeter Dunlap rw_enter(&idm.idm_taskid_table_lock, RW_READER); 1478a6d42e7dSPeter Dunlap 1479a6d42e7dSPeter Dunlap for (idx = 0; idx < idm.idm_taskid_max; idx++) { 1480a6d42e7dSPeter Dunlap idt = idm.idm_taskid_table[idx]; 1481a6d42e7dSPeter Dunlap 1482a6d42e7dSPeter Dunlap if (idt == NULL) 1483a6d42e7dSPeter Dunlap continue; 1484a6d42e7dSPeter Dunlap 1485a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 1486a6d42e7dSPeter Dunlap 1487a6d42e7dSPeter Dunlap if (idt->idt_state != TASK_ACTIVE) { 1488a6d42e7dSPeter Dunlap /* 1489a6d42e7dSPeter Dunlap * Task is either in suspend, abort, or already 1490a6d42e7dSPeter Dunlap * complete. 1491a6d42e7dSPeter Dunlap */ 1492a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1493a6d42e7dSPeter Dunlap continue; 1494a6d42e7dSPeter Dunlap } 1495a6d42e7dSPeter Dunlap 1496a6d42e7dSPeter Dunlap if (idt->idt_client_handle == handle) { 1497a6d42e7dSPeter Dunlap idm_task_hold(idt); 1498a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1499a6d42e7dSPeter Dunlap break; 1500a6d42e7dSPeter Dunlap } 1501a6d42e7dSPeter Dunlap 1502a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1503a6d42e7dSPeter Dunlap } 1504a6d42e7dSPeter Dunlap 1505a6d42e7dSPeter Dunlap rw_exit(&idm.idm_taskid_table_lock); 1506a6d42e7dSPeter Dunlap 1507a6d42e7dSPeter Dunlap if ((idt == NULL) || (idx == idm.idm_taskid_max)) 1508a6d42e7dSPeter Dunlap return (NULL); 1509a6d42e7dSPeter Dunlap 1510a6d42e7dSPeter Dunlap return (idt->idt_private); 1511a6d42e7dSPeter Dunlap } 1512a6d42e7dSPeter Dunlap 1513a6d42e7dSPeter Dunlap void 1514a6d42e7dSPeter Dunlap idm_task_hold(idm_task_t *idt) 1515a6d42e7dSPeter Dunlap { 1516a6d42e7dSPeter Dunlap idm_refcnt_hold(&idt->idt_refcnt); 1517a6d42e7dSPeter Dunlap } 1518a6d42e7dSPeter Dunlap 1519a6d42e7dSPeter Dunlap void 1520a6d42e7dSPeter Dunlap idm_task_rele(idm_task_t *idt) 1521a6d42e7dSPeter Dunlap { 1522a6d42e7dSPeter Dunlap idm_refcnt_rele(&idt->idt_refcnt); 1523a6d42e7dSPeter Dunlap } 1524a6d42e7dSPeter Dunlap 1525a6d42e7dSPeter Dunlap void 1526a6d42e7dSPeter Dunlap idm_task_abort(idm_conn_t *ic, idm_task_t *idt, idm_abort_type_t abort_type) 1527a6d42e7dSPeter Dunlap { 1528a6d42e7dSPeter Dunlap idm_task_t *task; 1529a6d42e7dSPeter Dunlap int idx; 1530a6d42e7dSPeter Dunlap 1531a6d42e7dSPeter Dunlap /* 1532a6d42e7dSPeter Dunlap * Passing NULL as the task indicates that all tasks 1533a6d42e7dSPeter Dunlap * for this connection should be aborted. 1534a6d42e7dSPeter Dunlap */ 1535a6d42e7dSPeter Dunlap if (idt == NULL) { 1536a6d42e7dSPeter Dunlap /* 1537a6d42e7dSPeter Dunlap * Only the connection state machine should ask for 1538a6d42e7dSPeter Dunlap * all tasks to abort and this should never happen in FFP. 1539a6d42e7dSPeter Dunlap */ 1540a6d42e7dSPeter Dunlap ASSERT(!ic->ic_ffp); 1541a6d42e7dSPeter Dunlap rw_enter(&idm.idm_taskid_table_lock, RW_READER); 1542a6d42e7dSPeter Dunlap for (idx = 0; idx < idm.idm_taskid_max; idx++) { 1543a6d42e7dSPeter Dunlap task = idm.idm_taskid_table[idx]; 154430e7468fSPeter Dunlap if (task == NULL) 154530e7468fSPeter Dunlap continue; 154630e7468fSPeter Dunlap mutex_enter(&task->idt_mutex); 154730e7468fSPeter Dunlap if ((task->idt_state != TASK_IDLE) && 154830e7468fSPeter Dunlap (task->idt_state != TASK_COMPLETE) && 1549a6d42e7dSPeter Dunlap (task->idt_ic == ic)) { 1550a6d42e7dSPeter Dunlap rw_exit(&idm.idm_taskid_table_lock); 1551a6d42e7dSPeter Dunlap idm_task_abort_one(ic, task, abort_type); 1552a6d42e7dSPeter Dunlap rw_enter(&idm.idm_taskid_table_lock, RW_READER); 155330e7468fSPeter Dunlap } else 155430e7468fSPeter Dunlap mutex_exit(&task->idt_mutex); 1555a6d42e7dSPeter Dunlap } 1556a6d42e7dSPeter Dunlap rw_exit(&idm.idm_taskid_table_lock); 1557a6d42e7dSPeter Dunlap } else { 155830e7468fSPeter Dunlap mutex_enter(&idt->idt_mutex); 1559a6d42e7dSPeter Dunlap idm_task_abort_one(ic, idt, abort_type); 1560a6d42e7dSPeter Dunlap } 1561a6d42e7dSPeter Dunlap } 1562a6d42e7dSPeter Dunlap 1563a6d42e7dSPeter Dunlap static void 1564a6d42e7dSPeter Dunlap idm_task_abort_unref_cb(void *ref) 1565a6d42e7dSPeter Dunlap { 1566a6d42e7dSPeter Dunlap idm_task_t *idt = ref; 1567a6d42e7dSPeter Dunlap 1568a6d42e7dSPeter Dunlap mutex_enter(&idt->idt_mutex); 1569a6d42e7dSPeter Dunlap switch (idt->idt_state) { 1570a6d42e7dSPeter Dunlap case TASK_SUSPENDING: 1571a6d42e7dSPeter Dunlap idt->idt_state = TASK_SUSPENDED; 1572a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1573a6d42e7dSPeter Dunlap idm_task_aborted(idt, IDM_STATUS_SUSPENDED); 1574a6d42e7dSPeter Dunlap return; 1575a6d42e7dSPeter Dunlap case TASK_ABORTING: 1576a6d42e7dSPeter Dunlap idt->idt_state = TASK_ABORTED; 1577a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1578a6d42e7dSPeter Dunlap idm_task_aborted(idt, IDM_STATUS_ABORTED); 1579a6d42e7dSPeter Dunlap return; 1580a6d42e7dSPeter Dunlap default: 1581a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1582a6d42e7dSPeter Dunlap ASSERT(0); 1583a6d42e7dSPeter Dunlap break; 1584a6d42e7dSPeter Dunlap } 1585a6d42e7dSPeter Dunlap } 1586a6d42e7dSPeter Dunlap 158730e7468fSPeter Dunlap /* 158830e7468fSPeter Dunlap * Abort the idm task. 158930e7468fSPeter Dunlap * Caller must hold the task mutex, which will be released before return 159030e7468fSPeter Dunlap */ 1591a6d42e7dSPeter Dunlap static void 1592a6d42e7dSPeter Dunlap idm_task_abort_one(idm_conn_t *ic, idm_task_t *idt, idm_abort_type_t abort_type) 1593a6d42e7dSPeter Dunlap { 1594a6d42e7dSPeter Dunlap /* Caller must hold connection mutex */ 159530e7468fSPeter Dunlap ASSERT(mutex_owned(&idt->idt_mutex)); 1596a6d42e7dSPeter Dunlap switch (idt->idt_state) { 1597a6d42e7dSPeter Dunlap case TASK_ACTIVE: 1598a6d42e7dSPeter Dunlap switch (abort_type) { 1599a6d42e7dSPeter Dunlap case AT_INTERNAL_SUSPEND: 1600a6d42e7dSPeter Dunlap /* Call transport to release any resources */ 1601a6d42e7dSPeter Dunlap idt->idt_state = TASK_SUSPENDING; 1602a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1603a6d42e7dSPeter Dunlap ic->ic_transport_ops->it_free_task_rsrc(idt); 1604a6d42e7dSPeter Dunlap 1605a6d42e7dSPeter Dunlap /* 1606a6d42e7dSPeter Dunlap * Wait for outstanding references. When all 1607a6d42e7dSPeter Dunlap * references are released the callback will call 1608a6d42e7dSPeter Dunlap * idm_task_aborted(). 1609a6d42e7dSPeter Dunlap */ 1610a6d42e7dSPeter Dunlap idm_refcnt_async_wait_ref(&idt->idt_refcnt, 1611a6d42e7dSPeter Dunlap &idm_task_abort_unref_cb); 1612a6d42e7dSPeter Dunlap return; 1613a6d42e7dSPeter Dunlap case AT_INTERNAL_ABORT: 1614a6d42e7dSPeter Dunlap case AT_TASK_MGMT_ABORT: 1615a6d42e7dSPeter Dunlap idt->idt_state = TASK_ABORTING; 1616a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1617a6d42e7dSPeter Dunlap ic->ic_transport_ops->it_free_task_rsrc(idt); 1618a6d42e7dSPeter Dunlap 1619a6d42e7dSPeter Dunlap /* 1620a6d42e7dSPeter Dunlap * Wait for outstanding references. When all 1621a6d42e7dSPeter Dunlap * references are released the callback will call 1622a6d42e7dSPeter Dunlap * idm_task_aborted(). 1623a6d42e7dSPeter Dunlap */ 1624a6d42e7dSPeter Dunlap idm_refcnt_async_wait_ref(&idt->idt_refcnt, 1625a6d42e7dSPeter Dunlap &idm_task_abort_unref_cb); 1626a6d42e7dSPeter Dunlap return; 1627a6d42e7dSPeter Dunlap default: 1628a6d42e7dSPeter Dunlap ASSERT(0); 1629a6d42e7dSPeter Dunlap } 1630a6d42e7dSPeter Dunlap break; 1631a6d42e7dSPeter Dunlap case TASK_SUSPENDING: 1632a6d42e7dSPeter Dunlap /* Already called transport_free_task_rsrc(); */ 1633a6d42e7dSPeter Dunlap switch (abort_type) { 1634a6d42e7dSPeter Dunlap case AT_INTERNAL_SUSPEND: 1635a6d42e7dSPeter Dunlap /* Already doing it */ 1636a6d42e7dSPeter Dunlap break; 1637a6d42e7dSPeter Dunlap case AT_INTERNAL_ABORT: 1638a6d42e7dSPeter Dunlap case AT_TASK_MGMT_ABORT: 1639a6d42e7dSPeter Dunlap idt->idt_state = TASK_ABORTING; 1640a6d42e7dSPeter Dunlap break; 1641a6d42e7dSPeter Dunlap default: 1642a6d42e7dSPeter Dunlap ASSERT(0); 1643a6d42e7dSPeter Dunlap } 1644a6d42e7dSPeter Dunlap break; 1645a6d42e7dSPeter Dunlap case TASK_SUSPENDED: 1646a6d42e7dSPeter Dunlap /* Already called transport_free_task_rsrc(); */ 1647a6d42e7dSPeter Dunlap switch (abort_type) { 1648a6d42e7dSPeter Dunlap case AT_INTERNAL_SUSPEND: 1649a6d42e7dSPeter Dunlap /* Already doing it */ 1650a6d42e7dSPeter Dunlap break; 1651a6d42e7dSPeter Dunlap case AT_INTERNAL_ABORT: 1652a6d42e7dSPeter Dunlap case AT_TASK_MGMT_ABORT: 1653a6d42e7dSPeter Dunlap idt->idt_state = TASK_ABORTING; 1654a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1655a6d42e7dSPeter Dunlap 1656a6d42e7dSPeter Dunlap /* 1657a6d42e7dSPeter Dunlap * We could probably call idm_task_aborted directly 1658a6d42e7dSPeter Dunlap * here but we may be holding the conn lock. It's 1659a6d42e7dSPeter Dunlap * easier to just switch contexts. Even though 1660a6d42e7dSPeter Dunlap * we shouldn't really have any references we'll 1661a6d42e7dSPeter Dunlap * set the state to TASK_ABORTING instead of 1662a6d42e7dSPeter Dunlap * TASK_ABORTED so we can use the same code path. 1663a6d42e7dSPeter Dunlap */ 1664a6d42e7dSPeter Dunlap idm_refcnt_async_wait_ref(&idt->idt_refcnt, 1665a6d42e7dSPeter Dunlap &idm_task_abort_unref_cb); 1666a6d42e7dSPeter Dunlap return; 1667a6d42e7dSPeter Dunlap default: 1668a6d42e7dSPeter Dunlap ASSERT(0); 1669a6d42e7dSPeter Dunlap } 1670a6d42e7dSPeter Dunlap break; 1671a6d42e7dSPeter Dunlap case TASK_ABORTING: 1672a6d42e7dSPeter Dunlap case TASK_ABORTED: 1673a6d42e7dSPeter Dunlap switch (abort_type) { 1674a6d42e7dSPeter Dunlap case AT_INTERNAL_SUSPEND: 1675a6d42e7dSPeter Dunlap /* We're already past this point... */ 1676a6d42e7dSPeter Dunlap case AT_INTERNAL_ABORT: 1677a6d42e7dSPeter Dunlap case AT_TASK_MGMT_ABORT: 1678a6d42e7dSPeter Dunlap /* Already doing it */ 1679a6d42e7dSPeter Dunlap break; 1680a6d42e7dSPeter Dunlap default: 1681a6d42e7dSPeter Dunlap ASSERT(0); 1682a6d42e7dSPeter Dunlap } 1683a6d42e7dSPeter Dunlap break; 1684a6d42e7dSPeter Dunlap case TASK_COMPLETE: 1685a6d42e7dSPeter Dunlap /* 1686a6d42e7dSPeter Dunlap * In this case, let it go. The status has already been 1687a6d42e7dSPeter Dunlap * sent (which may or may not get successfully transmitted) 1688a6d42e7dSPeter Dunlap * and we don't want to end up in a race between completing 1689a6d42e7dSPeter Dunlap * the status PDU and marking the task suspended. 1690a6d42e7dSPeter Dunlap */ 1691a6d42e7dSPeter Dunlap break; 1692a6d42e7dSPeter Dunlap default: 1693a6d42e7dSPeter Dunlap ASSERT(0); 1694a6d42e7dSPeter Dunlap } 1695a6d42e7dSPeter Dunlap mutex_exit(&idt->idt_mutex); 1696a6d42e7dSPeter Dunlap } 1697a6d42e7dSPeter Dunlap 1698a6d42e7dSPeter Dunlap static void 1699a6d42e7dSPeter Dunlap idm_task_aborted(idm_task_t *idt, idm_status_t status) 1700a6d42e7dSPeter Dunlap { 1701a6d42e7dSPeter Dunlap (*idt->idt_ic->ic_conn_ops.icb_task_aborted)(idt, status); 1702a6d42e7dSPeter Dunlap } 1703a6d42e7dSPeter Dunlap 1704a6d42e7dSPeter Dunlap /* 1705a6d42e7dSPeter Dunlap * idm_pdu_tx 1706a6d42e7dSPeter Dunlap * 1707a6d42e7dSPeter Dunlap * This is IDM's implementation of the 'Send_Control' operational primitive. 1708a6d42e7dSPeter Dunlap * This function is invoked by an initiator iSCSI layer requesting the transfer 1709a6d42e7dSPeter Dunlap * of a iSCSI command PDU or a target iSCSI layer requesting the transfer of a 1710a6d42e7dSPeter Dunlap * iSCSI response PDU. The PDU will be transmitted as-is by the local Datamover 1711a6d42e7dSPeter Dunlap * layer to the peer iSCSI layer in the remote iSCSI node. The connection info 1712a6d42e7dSPeter Dunlap * and iSCSI PDU-specific qualifiers namely BHS, AHS, DataDescriptor and Size 1713a6d42e7dSPeter Dunlap * are provided as input. 1714a6d42e7dSPeter Dunlap * 1715a6d42e7dSPeter Dunlap */ 1716a6d42e7dSPeter Dunlap void 1717a6d42e7dSPeter Dunlap idm_pdu_tx(idm_pdu_t *pdu) 1718a6d42e7dSPeter Dunlap { 1719a6d42e7dSPeter Dunlap idm_conn_t *ic = pdu->isp_ic; 1720a6d42e7dSPeter Dunlap iscsi_async_evt_hdr_t *async_evt; 1721a6d42e7dSPeter Dunlap 1722a6d42e7dSPeter Dunlap /* 1723a6d42e7dSPeter Dunlap * If we are in full-featured mode then route SCSI-related 1724a6d42e7dSPeter Dunlap * commands to the appropriate function vector without checking 1725a6d42e7dSPeter Dunlap * the connection state. We will only be in full-feature mode 1726a6d42e7dSPeter Dunlap * when we are in an acceptable state for SCSI PDU's. 1727a6d42e7dSPeter Dunlap * 1728a6d42e7dSPeter Dunlap * We also need to ensure that there are no PDU events outstanding 1729a6d42e7dSPeter Dunlap * on the state machine. Any non-SCSI PDU's received in full-feature 1730a6d42e7dSPeter Dunlap * mode will result in PDU events and until these have been handled 1731a6d42e7dSPeter Dunlap * we need to route all PDU's through the state machine as PDU 1732a6d42e7dSPeter Dunlap * events to maintain ordering. 1733a6d42e7dSPeter Dunlap * 1734a6d42e7dSPeter Dunlap * Note that IDM cannot enter FFP mode until it processes in 1735a6d42e7dSPeter Dunlap * its state machine the last xmit of the login process. 1736a6d42e7dSPeter Dunlap * Hence, checking the IDM_PDU_LOGIN_TX flag here would be 1737a6d42e7dSPeter Dunlap * superfluous. 1738a6d42e7dSPeter Dunlap */ 1739a6d42e7dSPeter Dunlap mutex_enter(&ic->ic_state_mutex); 1740a6d42e7dSPeter Dunlap if (ic->ic_ffp && (ic->ic_pdu_events == 0)) { 1741a6d42e7dSPeter Dunlap mutex_exit(&ic->ic_state_mutex); 1742a6d42e7dSPeter Dunlap switch (IDM_PDU_OPCODE(pdu)) { 1743a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_RSP: 1744a6d42e7dSPeter Dunlap /* Target only */ 1745a668b114SPriya Krishnan DTRACE_ISCSI_2(scsi__response, idm_conn_t *, ic, 1746a668b114SPriya Krishnan iscsi_scsi_rsp_hdr_t *, 1747a668b114SPriya Krishnan (iscsi_scsi_rsp_hdr_t *)pdu->isp_hdr); 1748a6d42e7dSPeter Dunlap idm_pdu_tx_forward(ic, pdu); 1749a6d42e7dSPeter Dunlap return; 1750a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_TASK_MGT_RSP: 1751a6d42e7dSPeter Dunlap /* Target only */ 1752a668b114SPriya Krishnan DTRACE_ISCSI_2(task__response, idm_conn_t *, ic, 1753a668b114SPriya Krishnan iscsi_text_rsp_hdr_t *, 1754a668b114SPriya Krishnan (iscsi_text_rsp_hdr_t *)pdu->isp_hdr); 1755a6d42e7dSPeter Dunlap idm_pdu_tx_forward(ic, pdu); 1756a6d42e7dSPeter Dunlap return; 1757a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_DATA_RSP: 1758a6d42e7dSPeter Dunlap /* Target only */ 1759a668b114SPriya Krishnan DTRACE_ISCSI_2(data__send, idm_conn_t *, ic, 1760a668b114SPriya Krishnan iscsi_data_rsp_hdr_t *, 1761a668b114SPriya Krishnan (iscsi_data_rsp_hdr_t *)pdu->isp_hdr); 1762a6d42e7dSPeter Dunlap idm_pdu_tx_forward(ic, pdu); 1763a6d42e7dSPeter Dunlap return; 1764a6d42e7dSPeter Dunlap case ISCSI_OP_RTT_RSP: 1765a6d42e7dSPeter Dunlap /* Target only */ 1766a668b114SPriya Krishnan DTRACE_ISCSI_2(data__request, idm_conn_t *, ic, 1767a668b114SPriya Krishnan iscsi_rtt_hdr_t *, 1768a668b114SPriya Krishnan (iscsi_rtt_hdr_t *)pdu->isp_hdr); 1769a6d42e7dSPeter Dunlap idm_pdu_tx_forward(ic, pdu); 1770a6d42e7dSPeter Dunlap return; 1771a6d42e7dSPeter Dunlap case ISCSI_OP_NOOP_IN: 1772a6d42e7dSPeter Dunlap /* Target only */ 1773a668b114SPriya Krishnan DTRACE_ISCSI_2(nop__send, idm_conn_t *, ic, 1774a668b114SPriya Krishnan iscsi_nop_in_hdr_t *, 1775a668b114SPriya Krishnan (iscsi_nop_in_hdr_t *)pdu->isp_hdr); 1776a6d42e7dSPeter Dunlap idm_pdu_tx_forward(ic, pdu); 1777a6d42e7dSPeter Dunlap return; 1778a6d42e7dSPeter Dunlap case ISCSI_OP_TEXT_RSP: 1779a6d42e7dSPeter Dunlap /* Target only */ 1780a668b114SPriya Krishnan DTRACE_ISCSI_2(text__response, idm_conn_t *, ic, 1781a668b114SPriya Krishnan iscsi_text_rsp_hdr_t *, 1782a668b114SPriya Krishnan (iscsi_text_rsp_hdr_t *)pdu->isp_hdr); 1783a6d42e7dSPeter Dunlap idm_pdu_tx_forward(ic, pdu); 1784a6d42e7dSPeter Dunlap return; 1785a6d42e7dSPeter Dunlap case ISCSI_OP_TEXT_CMD: 1786a6d42e7dSPeter Dunlap case ISCSI_OP_NOOP_OUT: 1787a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_CMD: 1788a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_DATA: 1789a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_TASK_MGT_MSG: 1790a6d42e7dSPeter Dunlap /* Initiator only */ 1791a6d42e7dSPeter Dunlap idm_pdu_tx_forward(ic, pdu); 1792a6d42e7dSPeter Dunlap return; 1793a6d42e7dSPeter Dunlap default: 1794a6d42e7dSPeter Dunlap break; 1795a6d42e7dSPeter Dunlap } 1796a6d42e7dSPeter Dunlap 1797a6d42e7dSPeter Dunlap mutex_enter(&ic->ic_state_mutex); 1798a6d42e7dSPeter Dunlap } 1799a6d42e7dSPeter Dunlap 1800a6d42e7dSPeter Dunlap /* 1801a6d42e7dSPeter Dunlap * Any PDU's processed outside of full-feature mode and non-SCSI 1802a6d42e7dSPeter Dunlap * PDU's in full-feature mode are handled by generating an 1803a6d42e7dSPeter Dunlap * event to the connection state machine. The state machine 1804a6d42e7dSPeter Dunlap * will validate the PDU against the current state and either 1805a6d42e7dSPeter Dunlap * transmit the PDU if the opcode is allowed or handle an 1806a6d42e7dSPeter Dunlap * error if the PDU is not allowed. 1807a6d42e7dSPeter Dunlap * 1808a6d42e7dSPeter Dunlap * This code-path will also generate any events that are implied 1809a6d42e7dSPeter Dunlap * by the PDU opcode. For example a "login response" with success 1810a6d42e7dSPeter Dunlap * status generates a CE_LOGOUT_SUCCESS_SND event. 1811a6d42e7dSPeter Dunlap */ 1812a6d42e7dSPeter Dunlap switch (IDM_PDU_OPCODE(pdu)) { 1813a6d42e7dSPeter Dunlap case ISCSI_OP_LOGIN_CMD: 1814a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_LOGIN_SND, (uintptr_t)pdu); 1815a6d42e7dSPeter Dunlap break; 1816a6d42e7dSPeter Dunlap case ISCSI_OP_LOGIN_RSP: 1817a668b114SPriya Krishnan DTRACE_ISCSI_2(login__response, idm_conn_t *, ic, 1818a668b114SPriya Krishnan iscsi_login_rsp_hdr_t *, 1819a668b114SPriya Krishnan (iscsi_login_rsp_hdr_t *)pdu->isp_hdr); 1820a6d42e7dSPeter Dunlap idm_parse_login_rsp(ic, pdu, /* Is RX */ B_FALSE); 1821a6d42e7dSPeter Dunlap break; 1822a6d42e7dSPeter Dunlap case ISCSI_OP_LOGOUT_CMD: 1823a6d42e7dSPeter Dunlap idm_parse_logout_req(ic, pdu, /* Is RX */ B_FALSE); 1824a6d42e7dSPeter Dunlap break; 1825a6d42e7dSPeter Dunlap case ISCSI_OP_LOGOUT_RSP: 1826a668b114SPriya Krishnan DTRACE_ISCSI_2(logout__response, idm_conn_t *, ic, 1827a668b114SPriya Krishnan iscsi_logout_rsp_hdr_t *, 1828a668b114SPriya Krishnan (iscsi_logout_rsp_hdr_t *)pdu->isp_hdr); 1829a6d42e7dSPeter Dunlap idm_parse_logout_rsp(ic, pdu, /* Is RX */ B_FALSE); 1830a6d42e7dSPeter Dunlap break; 1831a6d42e7dSPeter Dunlap case ISCSI_OP_ASYNC_EVENT: 1832a668b114SPriya Krishnan DTRACE_ISCSI_2(async__send, idm_conn_t *, ic, 1833a668b114SPriya Krishnan iscsi_async_evt_hdr_t *, 1834a668b114SPriya Krishnan (iscsi_async_evt_hdr_t *)pdu->isp_hdr); 1835a6d42e7dSPeter Dunlap async_evt = (iscsi_async_evt_hdr_t *)pdu->isp_hdr; 1836a6d42e7dSPeter Dunlap switch (async_evt->async_event) { 1837a6d42e7dSPeter Dunlap case ISCSI_ASYNC_EVENT_REQUEST_LOGOUT: 1838a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_ASYNC_LOGOUT_SND, 1839a6d42e7dSPeter Dunlap (uintptr_t)pdu); 1840a6d42e7dSPeter Dunlap break; 1841a6d42e7dSPeter Dunlap case ISCSI_ASYNC_EVENT_DROPPING_CONNECTION: 1842a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_ASYNC_DROP_CONN_SND, 1843a6d42e7dSPeter Dunlap (uintptr_t)pdu); 1844a6d42e7dSPeter Dunlap break; 1845a6d42e7dSPeter Dunlap case ISCSI_ASYNC_EVENT_DROPPING_ALL_CONNECTIONS: 1846a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_ASYNC_DROP_ALL_CONN_SND, 1847a6d42e7dSPeter Dunlap (uintptr_t)pdu); 1848a6d42e7dSPeter Dunlap break; 1849a6d42e7dSPeter Dunlap case ISCSI_ASYNC_EVENT_SCSI_EVENT: 1850a6d42e7dSPeter Dunlap case ISCSI_ASYNC_EVENT_PARAM_NEGOTIATION: 1851a6d42e7dSPeter Dunlap default: 1852a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_MISC_TX, 1853a6d42e7dSPeter Dunlap (uintptr_t)pdu); 1854a6d42e7dSPeter Dunlap break; 1855a6d42e7dSPeter Dunlap } 1856a6d42e7dSPeter Dunlap break; 1857a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_RSP: 1858a6d42e7dSPeter Dunlap /* Target only */ 1859a668b114SPriya Krishnan DTRACE_ISCSI_2(scsi__response, idm_conn_t *, ic, 1860a668b114SPriya Krishnan iscsi_scsi_rsp_hdr_t *, 1861a668b114SPriya Krishnan (iscsi_scsi_rsp_hdr_t *)pdu->isp_hdr); 1862a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_MISC_TX, (uintptr_t)pdu); 1863a6d42e7dSPeter Dunlap break; 1864a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_TASK_MGT_RSP: 1865a6d42e7dSPeter Dunlap /* Target only */ 1866a668b114SPriya Krishnan DTRACE_ISCSI_2(task__response, idm_conn_t *, ic, 1867a668b114SPriya Krishnan iscsi_scsi_task_mgt_rsp_hdr_t *, 1868a668b114SPriya Krishnan (iscsi_scsi_task_mgt_rsp_hdr_t *)pdu->isp_hdr); 1869a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_MISC_TX, (uintptr_t)pdu); 1870a6d42e7dSPeter Dunlap break; 1871a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_DATA_RSP: 1872a6d42e7dSPeter Dunlap /* Target only */ 1873a668b114SPriya Krishnan DTRACE_ISCSI_2(data__send, idm_conn_t *, ic, 1874a668b114SPriya Krishnan iscsi_data_rsp_hdr_t *, 1875a668b114SPriya Krishnan (iscsi_data_rsp_hdr_t *)pdu->isp_hdr); 1876a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_MISC_TX, (uintptr_t)pdu); 1877a6d42e7dSPeter Dunlap break; 1878a6d42e7dSPeter Dunlap case ISCSI_OP_RTT_RSP: 1879a6d42e7dSPeter Dunlap /* Target only */ 1880a668b114SPriya Krishnan DTRACE_ISCSI_2(data__request, idm_conn_t *, ic, 1881a668b114SPriya Krishnan iscsi_rtt_hdr_t *, 1882a668b114SPriya Krishnan (iscsi_rtt_hdr_t *)pdu->isp_hdr); 1883a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_MISC_TX, (uintptr_t)pdu); 1884a6d42e7dSPeter Dunlap break; 1885a6d42e7dSPeter Dunlap case ISCSI_OP_NOOP_IN: 1886a6d42e7dSPeter Dunlap /* Target only */ 1887a668b114SPriya Krishnan DTRACE_ISCSI_2(nop__send, idm_conn_t *, ic, 1888a668b114SPriya Krishnan iscsi_nop_in_hdr_t *, 1889a668b114SPriya Krishnan (iscsi_nop_in_hdr_t *)pdu->isp_hdr); 1890a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_MISC_TX, (uintptr_t)pdu); 1891a6d42e7dSPeter Dunlap break; 1892a6d42e7dSPeter Dunlap case ISCSI_OP_TEXT_RSP: 1893a6d42e7dSPeter Dunlap /* Target only */ 1894a668b114SPriya Krishnan DTRACE_ISCSI_2(text__response, idm_conn_t *, ic, 1895a668b114SPriya Krishnan iscsi_text_rsp_hdr_t *, 1896a668b114SPriya Krishnan (iscsi_text_rsp_hdr_t *)pdu->isp_hdr); 1897a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_MISC_TX, (uintptr_t)pdu); 1898a6d42e7dSPeter Dunlap break; 1899a6d42e7dSPeter Dunlap /* Initiator only */ 1900a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_CMD: 1901a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_TASK_MGT_MSG: 1902a6d42e7dSPeter Dunlap case ISCSI_OP_SCSI_DATA: 1903a6d42e7dSPeter Dunlap case ISCSI_OP_NOOP_OUT: 1904a6d42e7dSPeter Dunlap case ISCSI_OP_TEXT_CMD: 1905a6d42e7dSPeter Dunlap case ISCSI_OP_SNACK_CMD: 1906a6d42e7dSPeter Dunlap case ISCSI_OP_REJECT_MSG: 1907a6d42e7dSPeter Dunlap default: 1908a6d42e7dSPeter Dunlap /* 1909a6d42e7dSPeter Dunlap * Connection state machine will validate these PDU's against 1910a6d42e7dSPeter Dunlap * the current state. A PDU not allowed in the current 1911a6d42e7dSPeter Dunlap * state will cause a protocol error. 1912a6d42e7dSPeter Dunlap */ 1913a6d42e7dSPeter Dunlap idm_conn_tx_pdu_event(ic, CE_MISC_TX, (uintptr_t)pdu); 1914a6d42e7dSPeter Dunlap break; 1915a6d42e7dSPeter Dunlap } 1916a6d42e7dSPeter Dunlap mutex_exit(&ic->ic_state_mutex); 1917a6d42e7dSPeter Dunlap } 1918a6d42e7dSPeter Dunlap 1919a6d42e7dSPeter Dunlap /* 192030e7468fSPeter Dunlap * Common allocation of a PDU along with memory for header and data. 1921a6d42e7dSPeter Dunlap */ 192230e7468fSPeter Dunlap static idm_pdu_t * 192330e7468fSPeter Dunlap idm_pdu_alloc_common(uint_t hdrlen, uint_t datalen, int sleepflag) 1924a6d42e7dSPeter Dunlap { 1925a6d42e7dSPeter Dunlap idm_pdu_t *result; 1926a6d42e7dSPeter Dunlap 1927a6d42e7dSPeter Dunlap /* 1928a6d42e7dSPeter Dunlap * IDM clients should cache these structures for performance 1929a6d42e7dSPeter Dunlap * critical paths. We can't cache effectively in IDM because we 1930a6d42e7dSPeter Dunlap * don't know the correct header and data size. 1931a6d42e7dSPeter Dunlap * 1932a6d42e7dSPeter Dunlap * Valid header length is assumed to be hdrlen and valid data 1933a6d42e7dSPeter Dunlap * length is assumed to be datalen. isp_hdrlen and isp_datalen 1934a6d42e7dSPeter Dunlap * can be adjusted after the PDU is returned if necessary. 1935a6d42e7dSPeter Dunlap */ 193630e7468fSPeter Dunlap result = kmem_zalloc(sizeof (idm_pdu_t) + hdrlen + datalen, sleepflag); 193730e7468fSPeter Dunlap if (result != NULL) { 193830e7468fSPeter Dunlap /* For idm_pdu_free sanity check */ 193930e7468fSPeter Dunlap result->isp_flags |= IDM_PDU_ALLOC; 194030e7468fSPeter Dunlap /* pointer arithmetic */ 194130e7468fSPeter Dunlap result->isp_hdr = (iscsi_hdr_t *)(result + 1); 1942a6d42e7dSPeter Dunlap result->isp_hdrlen = hdrlen; 1943a6d42e7dSPeter Dunlap result->isp_hdrbuflen = hdrlen; 1944a6d42e7dSPeter Dunlap result->isp_transport_hdrlen = 0; 19454142b486SJames Moore if (datalen != 0) 1946a6d42e7dSPeter Dunlap result->isp_data = (uint8_t *)result->isp_hdr + hdrlen; 1947a6d42e7dSPeter Dunlap result->isp_datalen = datalen; 1948a6d42e7dSPeter Dunlap result->isp_databuflen = datalen; 1949a6d42e7dSPeter Dunlap result->isp_magic = IDM_PDU_MAGIC; 195030e7468fSPeter Dunlap } 1951a6d42e7dSPeter Dunlap 1952a6d42e7dSPeter Dunlap return (result); 1953a6d42e7dSPeter Dunlap } 1954a6d42e7dSPeter Dunlap 1955a6d42e7dSPeter Dunlap /* 195630e7468fSPeter Dunlap * Typical idm_pdu_alloc invocation, will block for resources. 195730e7468fSPeter Dunlap */ 195830e7468fSPeter Dunlap idm_pdu_t * 195930e7468fSPeter Dunlap idm_pdu_alloc(uint_t hdrlen, uint_t datalen) 196030e7468fSPeter Dunlap { 196130e7468fSPeter Dunlap return (idm_pdu_alloc_common(hdrlen, datalen, KM_SLEEP)); 196230e7468fSPeter Dunlap } 196330e7468fSPeter Dunlap 196430e7468fSPeter Dunlap /* 196530e7468fSPeter Dunlap * Non-blocking idm_pdu_alloc implementation, returns NULL if resources 196630e7468fSPeter Dunlap * are not available. Needed for transport-layer allocations which may 196730e7468fSPeter Dunlap * be invoking in interrupt context. 196830e7468fSPeter Dunlap */ 196930e7468fSPeter Dunlap idm_pdu_t * 197030e7468fSPeter Dunlap idm_pdu_alloc_nosleep(uint_t hdrlen, uint_t datalen) 197130e7468fSPeter Dunlap { 197230e7468fSPeter Dunlap return (idm_pdu_alloc_common(hdrlen, datalen, KM_NOSLEEP)); 197330e7468fSPeter Dunlap } 197430e7468fSPeter Dunlap 197530e7468fSPeter Dunlap /* 1976a6d42e7dSPeter Dunlap * Free a PDU previously allocated with idm_pdu_alloc() including any 1977a6d42e7dSPeter Dunlap * header and data space allocated as part of the original request. 1978a6d42e7dSPeter Dunlap * Additional memory regions referenced by subsequent modification of 1979a6d42e7dSPeter Dunlap * the isp_hdr and/or isp_data fields will not be freed. 1980a6d42e7dSPeter Dunlap */ 1981a6d42e7dSPeter Dunlap void 1982a6d42e7dSPeter Dunlap idm_pdu_free(idm_pdu_t *pdu) 1983a6d42e7dSPeter Dunlap { 1984a6d42e7dSPeter Dunlap /* Make sure the structure was allocated using idm_pdu_alloc() */ 1985a6d42e7dSPeter Dunlap ASSERT(pdu->isp_flags & IDM_PDU_ALLOC); 1986a6d42e7dSPeter Dunlap kmem_free(pdu, 1987a6d42e7dSPeter Dunlap sizeof (idm_pdu_t) + pdu->isp_hdrbuflen + pdu->isp_databuflen); 1988a6d42e7dSPeter Dunlap } 1989a6d42e7dSPeter Dunlap 1990a6d42e7dSPeter Dunlap /* 1991a6d42e7dSPeter Dunlap * Initialize the connection, private and callback fields in a PDU. 1992a6d42e7dSPeter Dunlap */ 1993a6d42e7dSPeter Dunlap void 1994a6d42e7dSPeter Dunlap idm_pdu_init(idm_pdu_t *pdu, idm_conn_t *ic, void *private, idm_pdu_cb_t *cb) 1995a6d42e7dSPeter Dunlap { 1996a6d42e7dSPeter Dunlap /* 1997a6d42e7dSPeter Dunlap * idm_pdu_complete() will call idm_pdu_free if the callback is 1998a6d42e7dSPeter Dunlap * NULL. This will only work if the PDU was originally allocated 1999a6d42e7dSPeter Dunlap * with idm_pdu_alloc(). 2000a6d42e7dSPeter Dunlap */ 2001a6d42e7dSPeter Dunlap ASSERT((pdu->isp_flags & IDM_PDU_ALLOC) || 2002a6d42e7dSPeter Dunlap (cb != NULL)); 2003a6d42e7dSPeter Dunlap pdu->isp_magic = IDM_PDU_MAGIC; 2004a6d42e7dSPeter Dunlap pdu->isp_ic = ic; 2005a6d42e7dSPeter Dunlap pdu->isp_private = private; 2006a6d42e7dSPeter Dunlap pdu->isp_callback = cb; 2007a6d42e7dSPeter Dunlap } 2008a6d42e7dSPeter Dunlap 2009a6d42e7dSPeter Dunlap /* 2010a6d42e7dSPeter Dunlap * Initialize the header and header length field. This function should 2011a6d42e7dSPeter Dunlap * not be used to adjust the header length in a buffer allocated via 2012a6d42e7dSPeter Dunlap * pdu_pdu_alloc since it overwrites the existing header pointer. 2013a6d42e7dSPeter Dunlap */ 2014a6d42e7dSPeter Dunlap void 2015a6d42e7dSPeter Dunlap idm_pdu_init_hdr(idm_pdu_t *pdu, uint8_t *hdr, uint_t hdrlen) 2016a6d42e7dSPeter Dunlap { 2017a6d42e7dSPeter Dunlap pdu->isp_hdr = (iscsi_hdr_t *)((void *)hdr); 2018a6d42e7dSPeter Dunlap pdu->isp_hdrlen = hdrlen; 2019a6d42e7dSPeter Dunlap } 2020a6d42e7dSPeter Dunlap 2021a6d42e7dSPeter Dunlap /* 2022a6d42e7dSPeter Dunlap * Initialize the data and data length fields. This function should 2023a6d42e7dSPeter Dunlap * not be used to adjust the data length of a buffer allocated via 2024a6d42e7dSPeter Dunlap * idm_pdu_alloc since it overwrites the existing data pointer. 2025a6d42e7dSPeter Dunlap */ 2026a6d42e7dSPeter Dunlap void 2027a6d42e7dSPeter Dunlap idm_pdu_init_data(idm_pdu_t *pdu, uint8_t *data, uint_t datalen) 2028a6d42e7dSPeter Dunlap { 2029a6d42e7dSPeter Dunlap pdu->isp_data = data; 2030a6d42e7dSPeter Dunlap pdu->isp_datalen = datalen; 2031a6d42e7dSPeter Dunlap } 2032a6d42e7dSPeter Dunlap 2033a6d42e7dSPeter Dunlap void 2034a6d42e7dSPeter Dunlap idm_pdu_complete(idm_pdu_t *pdu, idm_status_t status) 2035a6d42e7dSPeter Dunlap { 2036a6d42e7dSPeter Dunlap if (pdu->isp_callback) { 2037a6d42e7dSPeter Dunlap pdu->isp_status = status; 2038a6d42e7dSPeter Dunlap (*pdu->isp_callback)(pdu, status); 2039a6d42e7dSPeter Dunlap } else { 2040a6d42e7dSPeter Dunlap idm_pdu_free(pdu); 2041a6d42e7dSPeter Dunlap } 2042a6d42e7dSPeter Dunlap } 2043a6d42e7dSPeter Dunlap 2044a6d42e7dSPeter Dunlap /* 2045a6d42e7dSPeter Dunlap * State machine auditing 2046a6d42e7dSPeter Dunlap */ 2047a6d42e7dSPeter Dunlap 2048a6d42e7dSPeter Dunlap void 2049a6d42e7dSPeter Dunlap idm_sm_audit_init(sm_audit_buf_t *audit_buf) 2050a6d42e7dSPeter Dunlap { 2051a6d42e7dSPeter Dunlap bzero(audit_buf, sizeof (sm_audit_buf_t)); 2052a6d42e7dSPeter Dunlap audit_buf->sab_max_index = SM_AUDIT_BUF_MAX_REC - 1; 2053a6d42e7dSPeter Dunlap } 2054a6d42e7dSPeter Dunlap 2055a6d42e7dSPeter Dunlap static 2056a6d42e7dSPeter Dunlap sm_audit_record_t * 2057a6d42e7dSPeter Dunlap idm_sm_audit_common(sm_audit_buf_t *audit_buf, sm_audit_record_type_t r_type, 2058a6d42e7dSPeter Dunlap sm_audit_sm_type_t sm_type, 2059a6d42e7dSPeter Dunlap int current_state) 2060a6d42e7dSPeter Dunlap { 2061a6d42e7dSPeter Dunlap sm_audit_record_t *sar; 2062a6d42e7dSPeter Dunlap 2063a6d42e7dSPeter Dunlap sar = audit_buf->sab_records; 2064a6d42e7dSPeter Dunlap sar += audit_buf->sab_index; 2065a6d42e7dSPeter Dunlap audit_buf->sab_index++; 2066a6d42e7dSPeter Dunlap audit_buf->sab_index &= audit_buf->sab_max_index; 2067a6d42e7dSPeter Dunlap 2068a6d42e7dSPeter Dunlap sar->sar_type = r_type; 2069a6d42e7dSPeter Dunlap gethrestime(&sar->sar_timestamp); 2070a6d42e7dSPeter Dunlap sar->sar_sm_type = sm_type; 2071a6d42e7dSPeter Dunlap sar->sar_state = current_state; 2072a6d42e7dSPeter Dunlap 2073a6d42e7dSPeter Dunlap return (sar); 2074a6d42e7dSPeter Dunlap } 2075a6d42e7dSPeter Dunlap 2076a6d42e7dSPeter Dunlap void 2077a6d42e7dSPeter Dunlap idm_sm_audit_event(sm_audit_buf_t *audit_buf, 2078a6d42e7dSPeter Dunlap sm_audit_sm_type_t sm_type, int current_state, 2079a6d42e7dSPeter Dunlap int event, uintptr_t event_info) 2080a6d42e7dSPeter Dunlap { 2081a6d42e7dSPeter Dunlap sm_audit_record_t *sar; 2082a6d42e7dSPeter Dunlap 2083a6d42e7dSPeter Dunlap sar = idm_sm_audit_common(audit_buf, SAR_STATE_EVENT, 2084a6d42e7dSPeter Dunlap sm_type, current_state); 2085a6d42e7dSPeter Dunlap sar->sar_event = event; 2086a6d42e7dSPeter Dunlap sar->sar_event_info = event_info; 2087a6d42e7dSPeter Dunlap } 2088a6d42e7dSPeter Dunlap 2089a6d42e7dSPeter Dunlap void 2090a6d42e7dSPeter Dunlap idm_sm_audit_state_change(sm_audit_buf_t *audit_buf, 2091a6d42e7dSPeter Dunlap sm_audit_sm_type_t sm_type, int current_state, int new_state) 2092a6d42e7dSPeter Dunlap { 2093a6d42e7dSPeter Dunlap sm_audit_record_t *sar; 2094a6d42e7dSPeter Dunlap 2095a6d42e7dSPeter Dunlap sar = idm_sm_audit_common(audit_buf, SAR_STATE_CHANGE, 2096a6d42e7dSPeter Dunlap sm_type, current_state); 2097a6d42e7dSPeter Dunlap sar->sar_new_state = new_state; 2098a6d42e7dSPeter Dunlap } 2099a6d42e7dSPeter Dunlap 2100a6d42e7dSPeter Dunlap 2101a6d42e7dSPeter Dunlap /* 2102a6d42e7dSPeter Dunlap * Object reference tracking 2103a6d42e7dSPeter Dunlap */ 2104a6d42e7dSPeter Dunlap 2105a6d42e7dSPeter Dunlap void 2106a6d42e7dSPeter Dunlap idm_refcnt_init(idm_refcnt_t *refcnt, void *referenced_obj) 2107a6d42e7dSPeter Dunlap { 2108a6d42e7dSPeter Dunlap bzero(refcnt, sizeof (*refcnt)); 2109a6d42e7dSPeter Dunlap idm_refcnt_reset(refcnt); 2110a6d42e7dSPeter Dunlap refcnt->ir_referenced_obj = referenced_obj; 2111a6d42e7dSPeter Dunlap bzero(&refcnt->ir_audit_buf, sizeof (refcnt_audit_buf_t)); 2112a6d42e7dSPeter Dunlap refcnt->ir_audit_buf.anb_max_index = REFCNT_AUDIT_BUF_MAX_REC - 1; 2113a6d42e7dSPeter Dunlap mutex_init(&refcnt->ir_mutex, NULL, MUTEX_DEFAULT, NULL); 2114a6d42e7dSPeter Dunlap cv_init(&refcnt->ir_cv, NULL, CV_DEFAULT, NULL); 2115a6d42e7dSPeter Dunlap } 2116a6d42e7dSPeter Dunlap 2117a6d42e7dSPeter Dunlap void 2118a6d42e7dSPeter Dunlap idm_refcnt_destroy(idm_refcnt_t *refcnt) 2119a6d42e7dSPeter Dunlap { 212072cf3143Speter dunlap /* 212172cf3143Speter dunlap * Grab the mutex to there are no other lingering threads holding 212272cf3143Speter dunlap * the mutex before we destroy it (e.g. idm_refcnt_rele just after 212372cf3143Speter dunlap * the refcnt goes to zero if ir_waiting == REF_WAIT_ASYNC) 212472cf3143Speter dunlap */ 212572cf3143Speter dunlap mutex_enter(&refcnt->ir_mutex); 2126a6d42e7dSPeter Dunlap ASSERT(refcnt->ir_refcnt == 0); 2127a6d42e7dSPeter Dunlap cv_destroy(&refcnt->ir_cv); 2128a6d42e7dSPeter Dunlap mutex_destroy(&refcnt->ir_mutex); 2129a6d42e7dSPeter Dunlap } 2130a6d42e7dSPeter Dunlap 2131a6d42e7dSPeter Dunlap void 2132a6d42e7dSPeter Dunlap idm_refcnt_reset(idm_refcnt_t *refcnt) 2133a6d42e7dSPeter Dunlap { 2134a6d42e7dSPeter Dunlap refcnt->ir_waiting = REF_NOWAIT; 2135a6d42e7dSPeter Dunlap refcnt->ir_refcnt = 0; 2136a6d42e7dSPeter Dunlap } 2137a6d42e7dSPeter Dunlap 2138a6d42e7dSPeter Dunlap void 2139a6d42e7dSPeter Dunlap idm_refcnt_hold(idm_refcnt_t *refcnt) 2140a6d42e7dSPeter Dunlap { 2141a6d42e7dSPeter Dunlap /* 2142a6d42e7dSPeter Dunlap * Nothing should take a hold on an object after a call to 2143a6d42e7dSPeter Dunlap * idm_refcnt_wait_ref or idm_refcnd_async_wait_ref 2144a6d42e7dSPeter Dunlap */ 2145a6d42e7dSPeter Dunlap ASSERT(refcnt->ir_waiting == REF_NOWAIT); 2146a6d42e7dSPeter Dunlap 2147a6d42e7dSPeter Dunlap mutex_enter(&refcnt->ir_mutex); 2148a6d42e7dSPeter Dunlap refcnt->ir_refcnt++; 2149a6d42e7dSPeter Dunlap REFCNT_AUDIT(refcnt); 2150a6d42e7dSPeter Dunlap mutex_exit(&refcnt->ir_mutex); 2151a6d42e7dSPeter Dunlap } 2152a6d42e7dSPeter Dunlap 2153a6d42e7dSPeter Dunlap static void 2154a6d42e7dSPeter Dunlap idm_refcnt_unref_task(void *refcnt_void) 2155a6d42e7dSPeter Dunlap { 2156a6d42e7dSPeter Dunlap idm_refcnt_t *refcnt = refcnt_void; 2157a6d42e7dSPeter Dunlap 2158a6d42e7dSPeter Dunlap REFCNT_AUDIT(refcnt); 2159a6d42e7dSPeter Dunlap (*refcnt->ir_cb)(refcnt->ir_referenced_obj); 2160a6d42e7dSPeter Dunlap } 2161a6d42e7dSPeter Dunlap 2162a6d42e7dSPeter Dunlap void 2163a6d42e7dSPeter Dunlap idm_refcnt_rele(idm_refcnt_t *refcnt) 2164a6d42e7dSPeter Dunlap { 2165a6d42e7dSPeter Dunlap mutex_enter(&refcnt->ir_mutex); 2166a6d42e7dSPeter Dunlap ASSERT(refcnt->ir_refcnt > 0); 2167a6d42e7dSPeter Dunlap refcnt->ir_refcnt--; 2168a6d42e7dSPeter Dunlap REFCNT_AUDIT(refcnt); 2169a6d42e7dSPeter Dunlap if (refcnt->ir_waiting == REF_NOWAIT) { 2170a6d42e7dSPeter Dunlap /* No one is waiting on this object */ 2171a6d42e7dSPeter Dunlap mutex_exit(&refcnt->ir_mutex); 2172a6d42e7dSPeter Dunlap return; 2173a6d42e7dSPeter Dunlap } 2174a6d42e7dSPeter Dunlap 2175a6d42e7dSPeter Dunlap /* 2176a6d42e7dSPeter Dunlap * Someone is waiting for this object to go idle so check if 2177a6d42e7dSPeter Dunlap * refcnt is 0. Waiting on an object then later grabbing another 2178a6d42e7dSPeter Dunlap * reference is not allowed so we don't need to handle that case. 2179a6d42e7dSPeter Dunlap */ 2180a6d42e7dSPeter Dunlap if (refcnt->ir_refcnt == 0) { 2181a6d42e7dSPeter Dunlap if (refcnt->ir_waiting == REF_WAIT_ASYNC) { 2182a6d42e7dSPeter Dunlap if (taskq_dispatch(idm.idm_global_taskq, 2183a6d42e7dSPeter Dunlap &idm_refcnt_unref_task, refcnt, TQ_SLEEP) == NULL) { 2184a6d42e7dSPeter Dunlap cmn_err(CE_WARN, 2185a6d42e7dSPeter Dunlap "idm_refcnt_rele: Couldn't dispatch task"); 2186a6d42e7dSPeter Dunlap } 2187a6d42e7dSPeter Dunlap } else if (refcnt->ir_waiting == REF_WAIT_SYNC) { 2188a6d42e7dSPeter Dunlap cv_signal(&refcnt->ir_cv); 2189a6d42e7dSPeter Dunlap } 2190a6d42e7dSPeter Dunlap } 2191a6d42e7dSPeter Dunlap mutex_exit(&refcnt->ir_mutex); 2192a6d42e7dSPeter Dunlap } 2193a6d42e7dSPeter Dunlap 2194a6d42e7dSPeter Dunlap void 2195a6d42e7dSPeter Dunlap idm_refcnt_rele_and_destroy(idm_refcnt_t *refcnt, idm_refcnt_cb_t *cb_func) 2196a6d42e7dSPeter Dunlap { 2197a6d42e7dSPeter Dunlap mutex_enter(&refcnt->ir_mutex); 2198a6d42e7dSPeter Dunlap ASSERT(refcnt->ir_refcnt > 0); 2199a6d42e7dSPeter Dunlap refcnt->ir_refcnt--; 2200a6d42e7dSPeter Dunlap REFCNT_AUDIT(refcnt); 2201a6d42e7dSPeter Dunlap 2202a6d42e7dSPeter Dunlap /* 2203a6d42e7dSPeter Dunlap * Someone is waiting for this object to go idle so check if 2204a6d42e7dSPeter Dunlap * refcnt is 0. Waiting on an object then later grabbing another 2205a6d42e7dSPeter Dunlap * reference is not allowed so we don't need to handle that case. 2206a6d42e7dSPeter Dunlap */ 2207a6d42e7dSPeter Dunlap if (refcnt->ir_refcnt == 0) { 2208a6d42e7dSPeter Dunlap refcnt->ir_cb = cb_func; 2209a6d42e7dSPeter Dunlap refcnt->ir_waiting = REF_WAIT_ASYNC; 2210a6d42e7dSPeter Dunlap if (taskq_dispatch(idm.idm_global_taskq, 2211a6d42e7dSPeter Dunlap &idm_refcnt_unref_task, refcnt, TQ_SLEEP) == NULL) { 2212a6d42e7dSPeter Dunlap cmn_err(CE_WARN, 2213a6d42e7dSPeter Dunlap "idm_refcnt_rele: Couldn't dispatch task"); 2214a6d42e7dSPeter Dunlap } 2215a6d42e7dSPeter Dunlap } 2216a6d42e7dSPeter Dunlap mutex_exit(&refcnt->ir_mutex); 2217a6d42e7dSPeter Dunlap } 2218a6d42e7dSPeter Dunlap 2219a6d42e7dSPeter Dunlap void 2220a6d42e7dSPeter Dunlap idm_refcnt_wait_ref(idm_refcnt_t *refcnt) 2221a6d42e7dSPeter Dunlap { 2222a6d42e7dSPeter Dunlap mutex_enter(&refcnt->ir_mutex); 2223a6d42e7dSPeter Dunlap refcnt->ir_waiting = REF_WAIT_SYNC; 2224a6d42e7dSPeter Dunlap REFCNT_AUDIT(refcnt); 2225a6d42e7dSPeter Dunlap while (refcnt->ir_refcnt != 0) 2226a6d42e7dSPeter Dunlap cv_wait(&refcnt->ir_cv, &refcnt->ir_mutex); 2227a6d42e7dSPeter Dunlap mutex_exit(&refcnt->ir_mutex); 2228a6d42e7dSPeter Dunlap } 2229a6d42e7dSPeter Dunlap 2230a6d42e7dSPeter Dunlap void 2231a6d42e7dSPeter Dunlap idm_refcnt_async_wait_ref(idm_refcnt_t *refcnt, idm_refcnt_cb_t *cb_func) 2232a6d42e7dSPeter Dunlap { 2233a6d42e7dSPeter Dunlap mutex_enter(&refcnt->ir_mutex); 2234a6d42e7dSPeter Dunlap refcnt->ir_waiting = REF_WAIT_ASYNC; 2235a6d42e7dSPeter Dunlap refcnt->ir_cb = cb_func; 2236a6d42e7dSPeter Dunlap REFCNT_AUDIT(refcnt); 2237a6d42e7dSPeter Dunlap /* 2238a6d42e7dSPeter Dunlap * It's possible we don't have any references. To make things easier 2239a6d42e7dSPeter Dunlap * on the caller use a taskq to call the callback instead of 2240a6d42e7dSPeter Dunlap * calling it synchronously 2241a6d42e7dSPeter Dunlap */ 2242a6d42e7dSPeter Dunlap if (refcnt->ir_refcnt == 0) { 2243a6d42e7dSPeter Dunlap if (taskq_dispatch(idm.idm_global_taskq, 2244a6d42e7dSPeter Dunlap &idm_refcnt_unref_task, refcnt, TQ_SLEEP) == NULL) { 2245a6d42e7dSPeter Dunlap cmn_err(CE_WARN, 2246a6d42e7dSPeter Dunlap "idm_refcnt_async_wait_ref: " 2247a6d42e7dSPeter Dunlap "Couldn't dispatch task"); 2248a6d42e7dSPeter Dunlap } 2249a6d42e7dSPeter Dunlap } 2250a6d42e7dSPeter Dunlap mutex_exit(&refcnt->ir_mutex); 2251a6d42e7dSPeter Dunlap } 2252a6d42e7dSPeter Dunlap 2253a6d42e7dSPeter Dunlap void 2254a6d42e7dSPeter Dunlap idm_refcnt_destroy_unref_obj(idm_refcnt_t *refcnt, 2255a6d42e7dSPeter Dunlap idm_refcnt_cb_t *cb_func) 2256a6d42e7dSPeter Dunlap { 2257a6d42e7dSPeter Dunlap mutex_enter(&refcnt->ir_mutex); 2258a6d42e7dSPeter Dunlap if (refcnt->ir_refcnt == 0) { 2259a6d42e7dSPeter Dunlap mutex_exit(&refcnt->ir_mutex); 2260a6d42e7dSPeter Dunlap (*cb_func)(refcnt->ir_referenced_obj); 2261a6d42e7dSPeter Dunlap return; 2262a6d42e7dSPeter Dunlap } 2263a6d42e7dSPeter Dunlap mutex_exit(&refcnt->ir_mutex); 2264a6d42e7dSPeter Dunlap } 2265a6d42e7dSPeter Dunlap 2266a6d42e7dSPeter Dunlap void 2267a6d42e7dSPeter Dunlap idm_conn_hold(idm_conn_t *ic) 2268a6d42e7dSPeter Dunlap { 2269a6d42e7dSPeter Dunlap idm_refcnt_hold(&ic->ic_refcnt); 2270a6d42e7dSPeter Dunlap } 2271a6d42e7dSPeter Dunlap 2272a6d42e7dSPeter Dunlap void 2273a6d42e7dSPeter Dunlap idm_conn_rele(idm_conn_t *ic) 2274a6d42e7dSPeter Dunlap { 2275a6d42e7dSPeter Dunlap idm_refcnt_rele(&ic->ic_refcnt); 2276a6d42e7dSPeter Dunlap } 2277a6d42e7dSPeter Dunlap 2278a668b114SPriya Krishnan void 2279a668b114SPriya Krishnan idm_conn_set_target_name(idm_conn_t *ic, char *target_name) 2280a668b114SPriya Krishnan { 2281a668b114SPriya Krishnan (void) strlcpy(ic->ic_target_name, target_name, ISCSI_MAX_NAME_LEN + 1); 2282a668b114SPriya Krishnan } 2283a668b114SPriya Krishnan 2284a668b114SPriya Krishnan void 2285a668b114SPriya Krishnan idm_conn_set_initiator_name(idm_conn_t *ic, char *initiator_name) 2286a668b114SPriya Krishnan { 2287a668b114SPriya Krishnan (void) strlcpy(ic->ic_initiator_name, initiator_name, 2288a668b114SPriya Krishnan ISCSI_MAX_NAME_LEN + 1); 2289a668b114SPriya Krishnan } 2290a668b114SPriya Krishnan 2291a668b114SPriya Krishnan void 2292a668b114SPriya Krishnan idm_conn_set_isid(idm_conn_t *ic, uint8_t isid[ISCSI_ISID_LEN]) 2293a668b114SPriya Krishnan { 2294a668b114SPriya Krishnan (void) snprintf(ic->ic_isid, ISCSI_MAX_ISID_LEN + 1, 2295a668b114SPriya Krishnan "%02x%02x%02x%02x%02x%02x", 2296a668b114SPriya Krishnan isid[0], isid[1], isid[2], isid[3], isid[4], isid[5]); 2297a668b114SPriya Krishnan } 2298a6d42e7dSPeter Dunlap 2299a6d42e7dSPeter Dunlap static int 2300a6d42e7dSPeter Dunlap _idm_init(void) 2301a6d42e7dSPeter Dunlap { 2302a6d42e7dSPeter Dunlap /* Initialize the rwlock for the taskid table */ 2303a6d42e7dSPeter Dunlap rw_init(&idm.idm_taskid_table_lock, NULL, RW_DRIVER, NULL); 2304a6d42e7dSPeter Dunlap 2305a6d42e7dSPeter Dunlap /* Initialize the global mutex and taskq */ 2306a6d42e7dSPeter Dunlap mutex_init(&idm.idm_global_mutex, NULL, MUTEX_DEFAULT, NULL); 2307a6d42e7dSPeter Dunlap 2308a6d42e7dSPeter Dunlap cv_init(&idm.idm_tgt_svc_cv, NULL, CV_DEFAULT, NULL); 2309a6d42e7dSPeter Dunlap cv_init(&idm.idm_wd_cv, NULL, CV_DEFAULT, NULL); 2310a6d42e7dSPeter Dunlap 231130e7468fSPeter Dunlap /* 231230e7468fSPeter Dunlap * The maximum allocation needs to be high here since there can be 231330e7468fSPeter Dunlap * many concurrent tasks using the global taskq. 231430e7468fSPeter Dunlap */ 2315a6d42e7dSPeter Dunlap idm.idm_global_taskq = taskq_create("idm_global_taskq", 1, minclsyspri, 231630e7468fSPeter Dunlap 128, 16384, TASKQ_PREPOPULATE); 2317a6d42e7dSPeter Dunlap if (idm.idm_global_taskq == NULL) { 2318a6d42e7dSPeter Dunlap cv_destroy(&idm.idm_wd_cv); 2319a6d42e7dSPeter Dunlap cv_destroy(&idm.idm_tgt_svc_cv); 2320a6d42e7dSPeter Dunlap mutex_destroy(&idm.idm_global_mutex); 2321a6d42e7dSPeter Dunlap rw_destroy(&idm.idm_taskid_table_lock); 2322a6d42e7dSPeter Dunlap return (ENOMEM); 2323a6d42e7dSPeter Dunlap } 2324a6d42e7dSPeter Dunlap 2325a41f9819SJames Moore /* Start watchdog thread */ 2326a6d42e7dSPeter Dunlap idm.idm_wd_thread = thread_create(NULL, 0, 2327a6d42e7dSPeter Dunlap idm_wd_thread, NULL, 0, &p0, TS_RUN, minclsyspri); 2328a6d42e7dSPeter Dunlap if (idm.idm_wd_thread == NULL) { 2329a6d42e7dSPeter Dunlap /* Couldn't create the watchdog thread */ 2330a6d42e7dSPeter Dunlap taskq_destroy(idm.idm_global_taskq); 2331a6d42e7dSPeter Dunlap cv_destroy(&idm.idm_wd_cv); 2332a6d42e7dSPeter Dunlap cv_destroy(&idm.idm_tgt_svc_cv); 2333a6d42e7dSPeter Dunlap mutex_destroy(&idm.idm_global_mutex); 2334a6d42e7dSPeter Dunlap rw_destroy(&idm.idm_taskid_table_lock); 2335a6d42e7dSPeter Dunlap return (ENOMEM); 2336a6d42e7dSPeter Dunlap } 2337a6d42e7dSPeter Dunlap 2338a41f9819SJames Moore /* Pause until the watchdog thread is running */ 2339a6d42e7dSPeter Dunlap mutex_enter(&idm.idm_global_mutex); 2340a6d42e7dSPeter Dunlap while (!idm.idm_wd_thread_running) 2341a6d42e7dSPeter Dunlap cv_wait(&idm.idm_wd_cv, &idm.idm_global_mutex); 2342a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 2343a6d42e7dSPeter Dunlap 2344a6d42e7dSPeter Dunlap /* 2345a6d42e7dSPeter Dunlap * Allocate the task ID table and set "next" to 0. 2346a6d42e7dSPeter Dunlap */ 2347a6d42e7dSPeter Dunlap 2348a6d42e7dSPeter Dunlap idm.idm_taskid_max = idm_max_taskids; 2349a6d42e7dSPeter Dunlap idm.idm_taskid_table = (idm_task_t **) 2350a6d42e7dSPeter Dunlap kmem_zalloc(idm.idm_taskid_max * sizeof (idm_task_t *), KM_SLEEP); 2351a6d42e7dSPeter Dunlap idm.idm_taskid_next = 0; 2352a6d42e7dSPeter Dunlap 2353a6d42e7dSPeter Dunlap /* Create the global buffer and task kmem caches */ 2354a6d42e7dSPeter Dunlap idm.idm_buf_cache = kmem_cache_create("idm_buf_cache", 2355a6d42e7dSPeter Dunlap sizeof (idm_buf_t), 8, NULL, NULL, NULL, NULL, NULL, KM_SLEEP); 2356a6d42e7dSPeter Dunlap 2357a6d42e7dSPeter Dunlap /* 2358a6d42e7dSPeter Dunlap * Note, we're explicitly allocating an additional iSER header- 2359a6d42e7dSPeter Dunlap * sized chunk for each of these elements. See idm_task_constructor(). 2360a6d42e7dSPeter Dunlap */ 2361a6d42e7dSPeter Dunlap idm.idm_task_cache = kmem_cache_create("idm_task_cache", 2362a6d42e7dSPeter Dunlap sizeof (idm_task_t) + IDM_TRANSPORT_HEADER_LENGTH, 8, 2363a6d42e7dSPeter Dunlap &idm_task_constructor, &idm_task_destructor, 2364a6d42e7dSPeter Dunlap NULL, NULL, NULL, KM_SLEEP); 2365a6d42e7dSPeter Dunlap 2366a6d42e7dSPeter Dunlap /* Create the service and connection context lists */ 2367a6d42e7dSPeter Dunlap list_create(&idm.idm_tgt_svc_list, sizeof (idm_svc_t), 2368a6d42e7dSPeter Dunlap offsetof(idm_svc_t, is_list_node)); 2369a6d42e7dSPeter Dunlap list_create(&idm.idm_tgt_conn_list, sizeof (idm_conn_t), 2370a6d42e7dSPeter Dunlap offsetof(idm_conn_t, ic_list_node)); 2371a6d42e7dSPeter Dunlap list_create(&idm.idm_ini_conn_list, sizeof (idm_conn_t), 2372a6d42e7dSPeter Dunlap offsetof(idm_conn_t, ic_list_node)); 2373a6d42e7dSPeter Dunlap 2374a6d42e7dSPeter Dunlap /* Initialize the native sockets transport */ 2375a6d42e7dSPeter Dunlap idm_so_init(&idm_transport_list[IDM_TRANSPORT_TYPE_SOCKETS]); 2376a6d42e7dSPeter Dunlap 2377a6d42e7dSPeter Dunlap /* Create connection ID pool */ 2378a6d42e7dSPeter Dunlap (void) idm_idpool_create(&idm.idm_conn_id_pool); 2379a6d42e7dSPeter Dunlap 2380a6d42e7dSPeter Dunlap return (DDI_SUCCESS); 2381a6d42e7dSPeter Dunlap } 2382a6d42e7dSPeter Dunlap 2383a6d42e7dSPeter Dunlap static int 2384a6d42e7dSPeter Dunlap _idm_fini(void) 2385a6d42e7dSPeter Dunlap { 2386a6d42e7dSPeter Dunlap if (!list_is_empty(&idm.idm_ini_conn_list) || 2387a6d42e7dSPeter Dunlap !list_is_empty(&idm.idm_tgt_conn_list) || 2388a6d42e7dSPeter Dunlap !list_is_empty(&idm.idm_tgt_svc_list)) { 2389a6d42e7dSPeter Dunlap return (EBUSY); 2390a6d42e7dSPeter Dunlap } 2391a6d42e7dSPeter Dunlap 2392a6d42e7dSPeter Dunlap mutex_enter(&idm.idm_global_mutex); 2393a6d42e7dSPeter Dunlap idm.idm_wd_thread_running = B_FALSE; 2394a6d42e7dSPeter Dunlap cv_signal(&idm.idm_wd_cv); 2395a6d42e7dSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 2396a6d42e7dSPeter Dunlap 2397a6d42e7dSPeter Dunlap thread_join(idm.idm_wd_thread_did); 2398a6d42e7dSPeter Dunlap 2399a6d42e7dSPeter Dunlap idm_idpool_destroy(&idm.idm_conn_id_pool); 240030e7468fSPeter Dunlap 240130e7468fSPeter Dunlap /* Close any LDI handles we have open on transport drivers */ 240230e7468fSPeter Dunlap mutex_enter(&idm.idm_global_mutex); 240330e7468fSPeter Dunlap idm_transport_teardown(); 240430e7468fSPeter Dunlap mutex_exit(&idm.idm_global_mutex); 240530e7468fSPeter Dunlap 240630e7468fSPeter Dunlap /* Teardown the native sockets transport */ 2407a6d42e7dSPeter Dunlap idm_so_fini(); 240830e7468fSPeter Dunlap 2409a6d42e7dSPeter Dunlap list_destroy(&idm.idm_ini_conn_list); 2410a6d42e7dSPeter Dunlap list_destroy(&idm.idm_tgt_conn_list); 2411a6d42e7dSPeter Dunlap list_destroy(&idm.idm_tgt_svc_list); 2412a6d42e7dSPeter Dunlap kmem_cache_destroy(idm.idm_task_cache); 2413a6d42e7dSPeter Dunlap kmem_cache_destroy(idm.idm_buf_cache); 2414a6d42e7dSPeter Dunlap kmem_free(idm.idm_taskid_table, 2415a6d42e7dSPeter Dunlap idm.idm_taskid_max * sizeof (idm_task_t *)); 2416a6d42e7dSPeter Dunlap mutex_destroy(&idm.idm_global_mutex); 2417a6d42e7dSPeter Dunlap cv_destroy(&idm.idm_wd_cv); 2418a6d42e7dSPeter Dunlap cv_destroy(&idm.idm_tgt_svc_cv); 2419a6d42e7dSPeter Dunlap rw_destroy(&idm.idm_taskid_table_lock); 2420a6d42e7dSPeter Dunlap 2421a6d42e7dSPeter Dunlap return (0); 2422a6d42e7dSPeter Dunlap } 2423