1*7978SPeter.Dunlap@Sun.COM /* 2*7978SPeter.Dunlap@Sun.COM * CDDL HEADER START 3*7978SPeter.Dunlap@Sun.COM * 4*7978SPeter.Dunlap@Sun.COM * The contents of this file are subject to the terms of the 5*7978SPeter.Dunlap@Sun.COM * Common Development and Distribution License (the "License"). 6*7978SPeter.Dunlap@Sun.COM * You may not use this file except in compliance with the License. 7*7978SPeter.Dunlap@Sun.COM * 8*7978SPeter.Dunlap@Sun.COM * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9*7978SPeter.Dunlap@Sun.COM * or http://www.opensolaris.org/os/licensing. 10*7978SPeter.Dunlap@Sun.COM * See the License for the specific language governing permissions 11*7978SPeter.Dunlap@Sun.COM * and limitations under the License. 12*7978SPeter.Dunlap@Sun.COM * 13*7978SPeter.Dunlap@Sun.COM * When distributing Covered Code, include this CDDL HEADER in each 14*7978SPeter.Dunlap@Sun.COM * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15*7978SPeter.Dunlap@Sun.COM * If applicable, add the following below this CDDL HEADER, with the 16*7978SPeter.Dunlap@Sun.COM * fields enclosed by brackets "[]" replaced with your own identifying 17*7978SPeter.Dunlap@Sun.COM * information: Portions Copyright [yyyy] [name of copyright owner] 18*7978SPeter.Dunlap@Sun.COM * 19*7978SPeter.Dunlap@Sun.COM * CDDL HEADER END 20*7978SPeter.Dunlap@Sun.COM */ 21*7978SPeter.Dunlap@Sun.COM 22*7978SPeter.Dunlap@Sun.COM /* 23*7978SPeter.Dunlap@Sun.COM * Copyright 2008 Sun Microsystems, Inc. All rights reserved. 24*7978SPeter.Dunlap@Sun.COM * Use is subject to license terms. 25*7978SPeter.Dunlap@Sun.COM */ 26*7978SPeter.Dunlap@Sun.COM 27*7978SPeter.Dunlap@Sun.COM #include <sys/conf.h> 28*7978SPeter.Dunlap@Sun.COM #include <sys/file.h> 29*7978SPeter.Dunlap@Sun.COM #include <sys/ddi.h> 30*7978SPeter.Dunlap@Sun.COM #include <sys/sunddi.h> 31*7978SPeter.Dunlap@Sun.COM #include <sys/cpuvar.h> 32*7978SPeter.Dunlap@Sun.COM 33*7978SPeter.Dunlap@Sun.COM #include <sys/socket.h> 34*7978SPeter.Dunlap@Sun.COM #include <sys/strsubr.h> 35*7978SPeter.Dunlap@Sun.COM #include <sys/socketvar.h> 36*7978SPeter.Dunlap@Sun.COM #include <sys/sysmacros.h> 37*7978SPeter.Dunlap@Sun.COM 38*7978SPeter.Dunlap@Sun.COM #include <sys/idm/idm.h> 39*7978SPeter.Dunlap@Sun.COM #include <sys/idm/idm_so.h> 40*7978SPeter.Dunlap@Sun.COM 41*7978SPeter.Dunlap@Sun.COM extern idm_transport_t idm_transport_list[]; 42*7978SPeter.Dunlap@Sun.COM 43*7978SPeter.Dunlap@Sun.COM void 44*7978SPeter.Dunlap@Sun.COM idm_pdu_rx(idm_conn_t *ic, idm_pdu_t *pdu) 45*7978SPeter.Dunlap@Sun.COM { 46*7978SPeter.Dunlap@Sun.COM iscsi_async_evt_hdr_t *async_evt; 47*7978SPeter.Dunlap@Sun.COM 48*7978SPeter.Dunlap@Sun.COM /* 49*7978SPeter.Dunlap@Sun.COM * If we are in full-featured mode then route SCSI-related 50*7978SPeter.Dunlap@Sun.COM * commands to the appropriate function vector 51*7978SPeter.Dunlap@Sun.COM */ 52*7978SPeter.Dunlap@Sun.COM ic->ic_timestamp = ddi_get_lbolt(); 53*7978SPeter.Dunlap@Sun.COM mutex_enter(&ic->ic_state_mutex); 54*7978SPeter.Dunlap@Sun.COM if (ic->ic_ffp && ic->ic_pdu_events == 0) { 55*7978SPeter.Dunlap@Sun.COM mutex_exit(&ic->ic_state_mutex); 56*7978SPeter.Dunlap@Sun.COM 57*7978SPeter.Dunlap@Sun.COM if (idm_pdu_rx_forward_ffp(ic, pdu) == B_TRUE) { 58*7978SPeter.Dunlap@Sun.COM /* Forwarded SCSI-related commands */ 59*7978SPeter.Dunlap@Sun.COM return; 60*7978SPeter.Dunlap@Sun.COM } 61*7978SPeter.Dunlap@Sun.COM mutex_enter(&ic->ic_state_mutex); 62*7978SPeter.Dunlap@Sun.COM } 63*7978SPeter.Dunlap@Sun.COM 64*7978SPeter.Dunlap@Sun.COM /* 65*7978SPeter.Dunlap@Sun.COM * If we get here with a SCSI-related PDU then we are not in 66*7978SPeter.Dunlap@Sun.COM * full-feature mode and the PDU is a protocol error (SCSI command 67*7978SPeter.Dunlap@Sun.COM * PDU's may sometimes be an exception, see below). All 68*7978SPeter.Dunlap@Sun.COM * non-SCSI PDU's get treated them the same regardless of whether 69*7978SPeter.Dunlap@Sun.COM * we are in full-feature mode. 70*7978SPeter.Dunlap@Sun.COM * 71*7978SPeter.Dunlap@Sun.COM * Look at the opcode and in some cases the PDU status and 72*7978SPeter.Dunlap@Sun.COM * determine the appropriate event to send to the connection 73*7978SPeter.Dunlap@Sun.COM * state machine. Generate the event, passing the PDU as data. 74*7978SPeter.Dunlap@Sun.COM * If the current connection state allows reception of the event 75*7978SPeter.Dunlap@Sun.COM * the PDU will be submitted to the IDM client for processing, 76*7978SPeter.Dunlap@Sun.COM * otherwise the PDU will be dropped. 77*7978SPeter.Dunlap@Sun.COM */ 78*7978SPeter.Dunlap@Sun.COM switch (IDM_PDU_OPCODE(pdu)) { 79*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_LOGIN_CMD: 80*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, CE_LOGIN_RCV, (uintptr_t)pdu); 81*7978SPeter.Dunlap@Sun.COM break; 82*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_LOGIN_RSP: 83*7978SPeter.Dunlap@Sun.COM idm_parse_login_rsp(ic, pdu, /* RX */ B_TRUE); 84*7978SPeter.Dunlap@Sun.COM break; 85*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_LOGOUT_CMD: 86*7978SPeter.Dunlap@Sun.COM idm_parse_logout_req(ic, pdu, /* RX */ B_TRUE); 87*7978SPeter.Dunlap@Sun.COM break; 88*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_LOGOUT_RSP: 89*7978SPeter.Dunlap@Sun.COM idm_parse_logout_rsp(ic, pdu, /* RX */ B_TRUE); 90*7978SPeter.Dunlap@Sun.COM break; 91*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_ASYNC_EVENT: 92*7978SPeter.Dunlap@Sun.COM async_evt = (iscsi_async_evt_hdr_t *)pdu->isp_hdr; 93*7978SPeter.Dunlap@Sun.COM switch (async_evt->opcode) { 94*7978SPeter.Dunlap@Sun.COM case ISCSI_ASYNC_EVENT_REQUEST_LOGOUT: 95*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, CE_ASYNC_LOGOUT_RCV, 96*7978SPeter.Dunlap@Sun.COM (uintptr_t)pdu); 97*7978SPeter.Dunlap@Sun.COM break; 98*7978SPeter.Dunlap@Sun.COM case ISCSI_ASYNC_EVENT_DROPPING_CONNECTION: 99*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, CE_ASYNC_DROP_CONN_RCV, 100*7978SPeter.Dunlap@Sun.COM (uintptr_t)pdu); 101*7978SPeter.Dunlap@Sun.COM break; 102*7978SPeter.Dunlap@Sun.COM case ISCSI_ASYNC_EVENT_DROPPING_ALL_CONNECTIONS: 103*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, CE_ASYNC_DROP_ALL_CONN_RCV, 104*7978SPeter.Dunlap@Sun.COM (uintptr_t)pdu); 105*7978SPeter.Dunlap@Sun.COM break; 106*7978SPeter.Dunlap@Sun.COM case ISCSI_ASYNC_EVENT_SCSI_EVENT: 107*7978SPeter.Dunlap@Sun.COM case ISCSI_ASYNC_EVENT_PARAM_NEGOTIATION: 108*7978SPeter.Dunlap@Sun.COM default: 109*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, CE_MISC_RX, 110*7978SPeter.Dunlap@Sun.COM (uintptr_t)pdu); 111*7978SPeter.Dunlap@Sun.COM break; 112*7978SPeter.Dunlap@Sun.COM } 113*7978SPeter.Dunlap@Sun.COM break; 114*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_CMD: 115*7978SPeter.Dunlap@Sun.COM /* 116*7978SPeter.Dunlap@Sun.COM * Consider this scenario: We are a target connection 117*7978SPeter.Dunlap@Sun.COM * in "in login" state and a "login success sent" event has 118*7978SPeter.Dunlap@Sun.COM * been generated but not yet handled. Since we've sent 119*7978SPeter.Dunlap@Sun.COM * the login response but we haven't actually transitioned 120*7978SPeter.Dunlap@Sun.COM * to FFP mode we might conceivably receive a SCSI command 121*7978SPeter.Dunlap@Sun.COM * from the initiator before we are ready. We are actually 122*7978SPeter.Dunlap@Sun.COM * in FFP we just don't know it yet -- to address this we 123*7978SPeter.Dunlap@Sun.COM * can generate an event corresponding to the SCSI command. 124*7978SPeter.Dunlap@Sun.COM * At the point when the event is handled by the state 125*7978SPeter.Dunlap@Sun.COM * machine the login request will have been handled and we 126*7978SPeter.Dunlap@Sun.COM * should be in FFP. If we are not in FFP by that time 127*7978SPeter.Dunlap@Sun.COM * we can reject the SCSI command with a protocol error. 128*7978SPeter.Dunlap@Sun.COM * 129*7978SPeter.Dunlap@Sun.COM * This scenario only applies to the target. 130*7978SPeter.Dunlap@Sun.COM */ 131*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_DATA: 132*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_DATA_RSP: 133*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_RTT_RSP: 134*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SNACK_CMD: 135*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_NOOP_IN: 136*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_NOOP_OUT: 137*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_TEXT_CMD: 138*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_TEXT_RSP: 139*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_REJECT_MSG: 140*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_TASK_MGT_MSG: 141*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_TASK_MGT_RSP: 142*7978SPeter.Dunlap@Sun.COM /* Validate received PDU against current state */ 143*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, CE_MISC_RX, 144*7978SPeter.Dunlap@Sun.COM (uintptr_t)pdu); 145*7978SPeter.Dunlap@Sun.COM break; 146*7978SPeter.Dunlap@Sun.COM } 147*7978SPeter.Dunlap@Sun.COM mutex_exit(&ic->ic_state_mutex); 148*7978SPeter.Dunlap@Sun.COM } 149*7978SPeter.Dunlap@Sun.COM 150*7978SPeter.Dunlap@Sun.COM void 151*7978SPeter.Dunlap@Sun.COM idm_pdu_tx_forward(idm_conn_t *ic, idm_pdu_t *pdu) 152*7978SPeter.Dunlap@Sun.COM { 153*7978SPeter.Dunlap@Sun.COM (*ic->ic_transport_ops->it_tx_pdu)(ic, pdu); 154*7978SPeter.Dunlap@Sun.COM } 155*7978SPeter.Dunlap@Sun.COM 156*7978SPeter.Dunlap@Sun.COM boolean_t 157*7978SPeter.Dunlap@Sun.COM idm_pdu_rx_forward_ffp(idm_conn_t *ic, idm_pdu_t *pdu) 158*7978SPeter.Dunlap@Sun.COM { 159*7978SPeter.Dunlap@Sun.COM /* 160*7978SPeter.Dunlap@Sun.COM * If this is an FFP request, call the appropriate handler 161*7978SPeter.Dunlap@Sun.COM * and return B_TRUE, otherwise return B_FALSE. 162*7978SPeter.Dunlap@Sun.COM */ 163*7978SPeter.Dunlap@Sun.COM switch (IDM_PDU_OPCODE(pdu)) { 164*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_CMD: 165*7978SPeter.Dunlap@Sun.COM (*ic->ic_conn_ops.icb_rx_scsi_cmd)(ic, pdu); 166*7978SPeter.Dunlap@Sun.COM return (B_TRUE); 167*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_RSP: 168*7978SPeter.Dunlap@Sun.COM (*ic->ic_conn_ops.icb_rx_scsi_rsp)(ic, pdu); 169*7978SPeter.Dunlap@Sun.COM return (B_TRUE); 170*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_DATA: 171*7978SPeter.Dunlap@Sun.COM (*ic->ic_transport_ops->it_rx_dataout)(ic, pdu); 172*7978SPeter.Dunlap@Sun.COM return (B_TRUE); 173*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_DATA_RSP: 174*7978SPeter.Dunlap@Sun.COM (*ic->ic_transport_ops->it_rx_datain)(ic, pdu); 175*7978SPeter.Dunlap@Sun.COM return (B_TRUE); 176*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_RTT_RSP: 177*7978SPeter.Dunlap@Sun.COM (*ic->ic_transport_ops->it_rx_rtt)(ic, pdu); 178*7978SPeter.Dunlap@Sun.COM return (B_TRUE); 179*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_TASK_MGT_MSG: 180*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_SCSI_TASK_MGT_RSP: 181*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_TEXT_CMD: 182*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_TEXT_RSP: 183*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_NOOP_OUT: 184*7978SPeter.Dunlap@Sun.COM case ISCSI_OP_NOOP_IN: 185*7978SPeter.Dunlap@Sun.COM (*ic->ic_conn_ops.icb_rx_misc)(ic, pdu); 186*7978SPeter.Dunlap@Sun.COM return (B_TRUE); 187*7978SPeter.Dunlap@Sun.COM default: 188*7978SPeter.Dunlap@Sun.COM return (B_FALSE); 189*7978SPeter.Dunlap@Sun.COM } 190*7978SPeter.Dunlap@Sun.COM /*NOTREACHED*/ 191*7978SPeter.Dunlap@Sun.COM } 192*7978SPeter.Dunlap@Sun.COM 193*7978SPeter.Dunlap@Sun.COM void 194*7978SPeter.Dunlap@Sun.COM idm_pdu_rx_forward(idm_conn_t *ic, idm_pdu_t *pdu) 195*7978SPeter.Dunlap@Sun.COM { 196*7978SPeter.Dunlap@Sun.COM /* 197*7978SPeter.Dunlap@Sun.COM * Some PDU's specific to FFP get special handling. This function 198*7978SPeter.Dunlap@Sun.COM * will normally never be called in FFP with an FFP PDU since this 199*7978SPeter.Dunlap@Sun.COM * is a slow path but in can happen on the target side during 200*7978SPeter.Dunlap@Sun.COM * the transition to FFP. We primarily call 201*7978SPeter.Dunlap@Sun.COM * idm_pdu_rx_forward_ffp here to avoid code duplication. 202*7978SPeter.Dunlap@Sun.COM */ 203*7978SPeter.Dunlap@Sun.COM if (idm_pdu_rx_forward_ffp(ic, pdu) == B_FALSE) { 204*7978SPeter.Dunlap@Sun.COM /* 205*7978SPeter.Dunlap@Sun.COM * Non-FFP PDU, use generic RC handler 206*7978SPeter.Dunlap@Sun.COM */ 207*7978SPeter.Dunlap@Sun.COM (*ic->ic_conn_ops.icb_rx_misc)(ic, pdu); 208*7978SPeter.Dunlap@Sun.COM } 209*7978SPeter.Dunlap@Sun.COM } 210*7978SPeter.Dunlap@Sun.COM 211*7978SPeter.Dunlap@Sun.COM void 212*7978SPeter.Dunlap@Sun.COM idm_parse_login_rsp(idm_conn_t *ic, idm_pdu_t *login_rsp_pdu, boolean_t rx) 213*7978SPeter.Dunlap@Sun.COM { 214*7978SPeter.Dunlap@Sun.COM iscsi_login_rsp_hdr_t *login_rsp = 215*7978SPeter.Dunlap@Sun.COM (iscsi_login_rsp_hdr_t *)login_rsp_pdu->isp_hdr; 216*7978SPeter.Dunlap@Sun.COM idm_conn_event_t new_event; 217*7978SPeter.Dunlap@Sun.COM 218*7978SPeter.Dunlap@Sun.COM if (login_rsp->status_class == ISCSI_STATUS_CLASS_SUCCESS) { 219*7978SPeter.Dunlap@Sun.COM if (!(login_rsp->flags & ISCSI_FLAG_LOGIN_CONTINUE) && 220*7978SPeter.Dunlap@Sun.COM (login_rsp->flags & ISCSI_FLAG_LOGIN_TRANSIT) && 221*7978SPeter.Dunlap@Sun.COM (ISCSI_LOGIN_NEXT_STAGE(login_rsp->flags) == 222*7978SPeter.Dunlap@Sun.COM ISCSI_FULL_FEATURE_PHASE)) { 223*7978SPeter.Dunlap@Sun.COM new_event = (rx ? CE_LOGIN_SUCCESS_RCV : 224*7978SPeter.Dunlap@Sun.COM CE_LOGIN_SUCCESS_SND); 225*7978SPeter.Dunlap@Sun.COM } else { 226*7978SPeter.Dunlap@Sun.COM new_event = (rx ? CE_MISC_RX : CE_MISC_TX); 227*7978SPeter.Dunlap@Sun.COM } 228*7978SPeter.Dunlap@Sun.COM } else { 229*7978SPeter.Dunlap@Sun.COM new_event = (rx ? CE_LOGIN_FAIL_RCV : CE_LOGIN_FAIL_SND); 230*7978SPeter.Dunlap@Sun.COM } 231*7978SPeter.Dunlap@Sun.COM 232*7978SPeter.Dunlap@Sun.COM if (rx) { 233*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, new_event, (uintptr_t)login_rsp_pdu); 234*7978SPeter.Dunlap@Sun.COM } else { 235*7978SPeter.Dunlap@Sun.COM idm_conn_tx_pdu_event(ic, new_event, (uintptr_t)login_rsp_pdu); 236*7978SPeter.Dunlap@Sun.COM } 237*7978SPeter.Dunlap@Sun.COM } 238*7978SPeter.Dunlap@Sun.COM 239*7978SPeter.Dunlap@Sun.COM 240*7978SPeter.Dunlap@Sun.COM void 241*7978SPeter.Dunlap@Sun.COM idm_parse_logout_req(idm_conn_t *ic, idm_pdu_t *logout_req_pdu, boolean_t rx) 242*7978SPeter.Dunlap@Sun.COM { 243*7978SPeter.Dunlap@Sun.COM iscsi_logout_hdr_t *logout_req = 244*7978SPeter.Dunlap@Sun.COM (iscsi_logout_hdr_t *)logout_req_pdu->isp_hdr; 245*7978SPeter.Dunlap@Sun.COM idm_conn_event_t new_event; 246*7978SPeter.Dunlap@Sun.COM uint8_t reason = 247*7978SPeter.Dunlap@Sun.COM (logout_req->flags & ISCSI_FLAG_LOGOUT_REASON_MASK); 248*7978SPeter.Dunlap@Sun.COM 249*7978SPeter.Dunlap@Sun.COM /* 250*7978SPeter.Dunlap@Sun.COM * For a normal logout (close connection or close session) IDM 251*7978SPeter.Dunlap@Sun.COM * will terminate processing of all tasks completing the tasks 252*7978SPeter.Dunlap@Sun.COM * back to the client with a status indicating the connection 253*7978SPeter.Dunlap@Sun.COM * was logged out. These tasks do not get completed. 254*7978SPeter.Dunlap@Sun.COM * 255*7978SPeter.Dunlap@Sun.COM * For a "close connection for recovery logout) IDM suspends 256*7978SPeter.Dunlap@Sun.COM * processing of all tasks and completes them back to the client 257*7978SPeter.Dunlap@Sun.COM * with a status indicating connection was logged out for 258*7978SPeter.Dunlap@Sun.COM * recovery. Both initiator and target hang onto these tasks. 259*7978SPeter.Dunlap@Sun.COM * When we add ERL2 support IDM will need to provide mechanisms 260*7978SPeter.Dunlap@Sun.COM * to change the task and buffer associations to a new connection. 261*7978SPeter.Dunlap@Sun.COM * 262*7978SPeter.Dunlap@Sun.COM * This code doesn't address the possibility of MC/S. We'll 263*7978SPeter.Dunlap@Sun.COM * need to decide how the separate connections get handled 264*7978SPeter.Dunlap@Sun.COM * in that case. One simple option is to make the client 265*7978SPeter.Dunlap@Sun.COM * generate the events for the other connections. 266*7978SPeter.Dunlap@Sun.COM */ 267*7978SPeter.Dunlap@Sun.COM if (reason == ISCSI_LOGOUT_REASON_CLOSE_SESSION) { 268*7978SPeter.Dunlap@Sun.COM new_event = 269*7978SPeter.Dunlap@Sun.COM (rx ? CE_LOGOUT_SESSION_RCV : CE_LOGOUT_SESSION_SND); 270*7978SPeter.Dunlap@Sun.COM } else if ((reason == ISCSI_LOGOUT_REASON_CLOSE_CONNECTION) || 271*7978SPeter.Dunlap@Sun.COM (reason == ISCSI_LOGOUT_REASON_RECOVERY)) { 272*7978SPeter.Dunlap@Sun.COM /* Check logout CID against this connection's CID */ 273*7978SPeter.Dunlap@Sun.COM if (ntohs(logout_req->cid) == ic->ic_login_cid) { 274*7978SPeter.Dunlap@Sun.COM /* Logout is for this connection */ 275*7978SPeter.Dunlap@Sun.COM new_event = (rx ? CE_LOGOUT_THIS_CONN_RCV : 276*7978SPeter.Dunlap@Sun.COM CE_LOGOUT_THIS_CONN_SND); 277*7978SPeter.Dunlap@Sun.COM } else { 278*7978SPeter.Dunlap@Sun.COM /* 279*7978SPeter.Dunlap@Sun.COM * Logout affects another connection. This is not 280*7978SPeter.Dunlap@Sun.COM * a relevant event for this connection so we'll 281*7978SPeter.Dunlap@Sun.COM * just treat it as a normal PDU event. Client 282*7978SPeter.Dunlap@Sun.COM * will need to lookup the other connection and 283*7978SPeter.Dunlap@Sun.COM * generate the event. 284*7978SPeter.Dunlap@Sun.COM */ 285*7978SPeter.Dunlap@Sun.COM new_event = (rx ? CE_MISC_RX : CE_MISC_TX); 286*7978SPeter.Dunlap@Sun.COM } 287*7978SPeter.Dunlap@Sun.COM } else { 288*7978SPeter.Dunlap@Sun.COM /* Invalid reason code */ 289*7978SPeter.Dunlap@Sun.COM new_event = (rx ? CE_RX_PROTOCOL_ERROR : CE_TX_PROTOCOL_ERROR); 290*7978SPeter.Dunlap@Sun.COM } 291*7978SPeter.Dunlap@Sun.COM 292*7978SPeter.Dunlap@Sun.COM if (rx) { 293*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, new_event, (uintptr_t)logout_req_pdu); 294*7978SPeter.Dunlap@Sun.COM } else { 295*7978SPeter.Dunlap@Sun.COM idm_conn_tx_pdu_event(ic, new_event, (uintptr_t)logout_req_pdu); 296*7978SPeter.Dunlap@Sun.COM } 297*7978SPeter.Dunlap@Sun.COM } 298*7978SPeter.Dunlap@Sun.COM 299*7978SPeter.Dunlap@Sun.COM 300*7978SPeter.Dunlap@Sun.COM 301*7978SPeter.Dunlap@Sun.COM void 302*7978SPeter.Dunlap@Sun.COM idm_parse_logout_rsp(idm_conn_t *ic, idm_pdu_t *logout_rsp_pdu, boolean_t rx) 303*7978SPeter.Dunlap@Sun.COM { 304*7978SPeter.Dunlap@Sun.COM idm_conn_event_t new_event; 305*7978SPeter.Dunlap@Sun.COM iscsi_logout_rsp_hdr_t *logout_rsp = 306*7978SPeter.Dunlap@Sun.COM (iscsi_logout_rsp_hdr_t *)logout_rsp_pdu->isp_hdr; 307*7978SPeter.Dunlap@Sun.COM 308*7978SPeter.Dunlap@Sun.COM if (logout_rsp->response == ISCSI_STATUS_CLASS_SUCCESS) { 309*7978SPeter.Dunlap@Sun.COM new_event = rx ? CE_LOGOUT_SUCCESS_RCV : CE_LOGOUT_SUCCESS_SND; 310*7978SPeter.Dunlap@Sun.COM } else { 311*7978SPeter.Dunlap@Sun.COM new_event = rx ? CE_LOGOUT_FAIL_RCV : CE_LOGOUT_FAIL_SND; 312*7978SPeter.Dunlap@Sun.COM } 313*7978SPeter.Dunlap@Sun.COM 314*7978SPeter.Dunlap@Sun.COM if (rx) { 315*7978SPeter.Dunlap@Sun.COM idm_conn_rx_pdu_event(ic, new_event, (uintptr_t)logout_rsp_pdu); 316*7978SPeter.Dunlap@Sun.COM } else { 317*7978SPeter.Dunlap@Sun.COM idm_conn_tx_pdu_event(ic, new_event, (uintptr_t)logout_rsp_pdu); 318*7978SPeter.Dunlap@Sun.COM } 319*7978SPeter.Dunlap@Sun.COM } 320*7978SPeter.Dunlap@Sun.COM 321*7978SPeter.Dunlap@Sun.COM /* 322*7978SPeter.Dunlap@Sun.COM * idm_svc_conn_create() 323*7978SPeter.Dunlap@Sun.COM * Transport-agnostic service connection creation, invoked from the transport 324*7978SPeter.Dunlap@Sun.COM * layer. 325*7978SPeter.Dunlap@Sun.COM */ 326*7978SPeter.Dunlap@Sun.COM idm_status_t 327*7978SPeter.Dunlap@Sun.COM idm_svc_conn_create(idm_svc_t *is, idm_transport_type_t tt, 328*7978SPeter.Dunlap@Sun.COM idm_conn_t **ic_result) 329*7978SPeter.Dunlap@Sun.COM { 330*7978SPeter.Dunlap@Sun.COM idm_conn_t *ic; 331*7978SPeter.Dunlap@Sun.COM idm_status_t rc; 332*7978SPeter.Dunlap@Sun.COM 333*7978SPeter.Dunlap@Sun.COM ic = idm_conn_create_common(CONN_TYPE_TGT, tt, 334*7978SPeter.Dunlap@Sun.COM &is->is_svc_req.sr_conn_ops); 335*7978SPeter.Dunlap@Sun.COM ic->ic_svc_binding = is; 336*7978SPeter.Dunlap@Sun.COM 337*7978SPeter.Dunlap@Sun.COM /* 338*7978SPeter.Dunlap@Sun.COM * Prepare connection state machine 339*7978SPeter.Dunlap@Sun.COM */ 340*7978SPeter.Dunlap@Sun.COM if ((rc = idm_conn_sm_init(ic)) != 0) { 341*7978SPeter.Dunlap@Sun.COM idm_conn_destroy_common(ic); 342*7978SPeter.Dunlap@Sun.COM return (rc); 343*7978SPeter.Dunlap@Sun.COM } 344*7978SPeter.Dunlap@Sun.COM 345*7978SPeter.Dunlap@Sun.COM 346*7978SPeter.Dunlap@Sun.COM *ic_result = ic; 347*7978SPeter.Dunlap@Sun.COM 348*7978SPeter.Dunlap@Sun.COM mutex_enter(&idm.idm_global_mutex); 349*7978SPeter.Dunlap@Sun.COM list_insert_tail(&idm.idm_tgt_conn_list, ic); 350*7978SPeter.Dunlap@Sun.COM idm.idm_tgt_conn_count++; 351*7978SPeter.Dunlap@Sun.COM mutex_exit(&idm.idm_global_mutex); 352*7978SPeter.Dunlap@Sun.COM 353*7978SPeter.Dunlap@Sun.COM return (0); 354*7978SPeter.Dunlap@Sun.COM } 355*7978SPeter.Dunlap@Sun.COM 356*7978SPeter.Dunlap@Sun.COM void 357*7978SPeter.Dunlap@Sun.COM idm_svc_conn_destroy(idm_conn_t *ic) 358*7978SPeter.Dunlap@Sun.COM { 359*7978SPeter.Dunlap@Sun.COM mutex_enter(&idm.idm_global_mutex); 360*7978SPeter.Dunlap@Sun.COM list_remove(&idm.idm_tgt_conn_list, ic); 361*7978SPeter.Dunlap@Sun.COM idm.idm_tgt_conn_count--; 362*7978SPeter.Dunlap@Sun.COM mutex_exit(&idm.idm_global_mutex); 363*7978SPeter.Dunlap@Sun.COM 364*7978SPeter.Dunlap@Sun.COM idm_conn_sm_fini(ic); 365*7978SPeter.Dunlap@Sun.COM 366*7978SPeter.Dunlap@Sun.COM if (ic->ic_transport_private != NULL) { 367*7978SPeter.Dunlap@Sun.COM ic->ic_transport_ops->it_tgt_conn_destroy(ic); 368*7978SPeter.Dunlap@Sun.COM } 369*7978SPeter.Dunlap@Sun.COM idm_conn_destroy_common(ic); 370*7978SPeter.Dunlap@Sun.COM } 371*7978SPeter.Dunlap@Sun.COM 372*7978SPeter.Dunlap@Sun.COM /* 373*7978SPeter.Dunlap@Sun.COM * idm_conn_create_common() 374*7978SPeter.Dunlap@Sun.COM * 375*7978SPeter.Dunlap@Sun.COM * Allocate and initialize IDM connection context 376*7978SPeter.Dunlap@Sun.COM */ 377*7978SPeter.Dunlap@Sun.COM idm_conn_t * 378*7978SPeter.Dunlap@Sun.COM idm_conn_create_common(idm_conn_type_t conn_type, idm_transport_type_t tt, 379*7978SPeter.Dunlap@Sun.COM idm_conn_ops_t *conn_ops) 380*7978SPeter.Dunlap@Sun.COM { 381*7978SPeter.Dunlap@Sun.COM idm_conn_t *ic; 382*7978SPeter.Dunlap@Sun.COM idm_transport_t *it; 383*7978SPeter.Dunlap@Sun.COM idm_transport_type_t type; 384*7978SPeter.Dunlap@Sun.COM 385*7978SPeter.Dunlap@Sun.COM for (type = 0; type < IDM_TRANSPORT_NUM_TYPES; type++) { 386*7978SPeter.Dunlap@Sun.COM it = &idm_transport_list[type]; 387*7978SPeter.Dunlap@Sun.COM 388*7978SPeter.Dunlap@Sun.COM if ((it->it_ops != NULL) && (it->it_type == tt)) 389*7978SPeter.Dunlap@Sun.COM break; 390*7978SPeter.Dunlap@Sun.COM } 391*7978SPeter.Dunlap@Sun.COM ASSERT(it->it_type == tt); 392*7978SPeter.Dunlap@Sun.COM if (it->it_type != tt) 393*7978SPeter.Dunlap@Sun.COM return (NULL); 394*7978SPeter.Dunlap@Sun.COM 395*7978SPeter.Dunlap@Sun.COM ic = kmem_zalloc(sizeof (idm_conn_t), KM_SLEEP); 396*7978SPeter.Dunlap@Sun.COM 397*7978SPeter.Dunlap@Sun.COM /* Initialize data */ 398*7978SPeter.Dunlap@Sun.COM ic->ic_conn_type = conn_type; 399*7978SPeter.Dunlap@Sun.COM ic->ic_conn_ops = *conn_ops; 400*7978SPeter.Dunlap@Sun.COM ic->ic_transport_ops = it->it_ops; 401*7978SPeter.Dunlap@Sun.COM ic->ic_transport_type = tt; 402*7978SPeter.Dunlap@Sun.COM ic->ic_transport_private = NULL; /* Set by transport service */ 403*7978SPeter.Dunlap@Sun.COM ic->ic_internal_cid = idm_cid_alloc(); 404*7978SPeter.Dunlap@Sun.COM if (ic->ic_internal_cid == 0) { 405*7978SPeter.Dunlap@Sun.COM kmem_free(ic, sizeof (idm_conn_t)); 406*7978SPeter.Dunlap@Sun.COM return (NULL); 407*7978SPeter.Dunlap@Sun.COM } 408*7978SPeter.Dunlap@Sun.COM mutex_init(&ic->ic_mutex, NULL, MUTEX_DEFAULT, NULL); 409*7978SPeter.Dunlap@Sun.COM cv_init(&ic->ic_cv, NULL, CV_DEFAULT, NULL); 410*7978SPeter.Dunlap@Sun.COM idm_refcnt_init(&ic->ic_refcnt, ic); 411*7978SPeter.Dunlap@Sun.COM 412*7978SPeter.Dunlap@Sun.COM return (ic); 413*7978SPeter.Dunlap@Sun.COM } 414*7978SPeter.Dunlap@Sun.COM 415*7978SPeter.Dunlap@Sun.COM void 416*7978SPeter.Dunlap@Sun.COM idm_conn_destroy_common(idm_conn_t *ic) 417*7978SPeter.Dunlap@Sun.COM { 418*7978SPeter.Dunlap@Sun.COM idm_refcnt_destroy(&ic->ic_refcnt); 419*7978SPeter.Dunlap@Sun.COM cv_destroy(&ic->ic_cv); 420*7978SPeter.Dunlap@Sun.COM mutex_destroy(&ic->ic_mutex); 421*7978SPeter.Dunlap@Sun.COM idm_cid_free(ic->ic_internal_cid); 422*7978SPeter.Dunlap@Sun.COM 423*7978SPeter.Dunlap@Sun.COM kmem_free(ic, sizeof (idm_conn_t)); 424*7978SPeter.Dunlap@Sun.COM } 425*7978SPeter.Dunlap@Sun.COM 426*7978SPeter.Dunlap@Sun.COM /* 427*7978SPeter.Dunlap@Sun.COM * Invoked from the SM as a result of client's invocation of 428*7978SPeter.Dunlap@Sun.COM * idm_ini_conn_connect() 429*7978SPeter.Dunlap@Sun.COM */ 430*7978SPeter.Dunlap@Sun.COM idm_status_t 431*7978SPeter.Dunlap@Sun.COM idm_ini_conn_finish(idm_conn_t *ic) 432*7978SPeter.Dunlap@Sun.COM { 433*7978SPeter.Dunlap@Sun.COM /* invoke transport-specific connection */ 434*7978SPeter.Dunlap@Sun.COM return (ic->ic_transport_ops->it_ini_conn_connect(ic)); 435*7978SPeter.Dunlap@Sun.COM } 436*7978SPeter.Dunlap@Sun.COM 437*7978SPeter.Dunlap@Sun.COM idm_status_t 438*7978SPeter.Dunlap@Sun.COM idm_tgt_conn_finish(idm_conn_t *ic) 439*7978SPeter.Dunlap@Sun.COM { 440*7978SPeter.Dunlap@Sun.COM idm_status_t rc; 441*7978SPeter.Dunlap@Sun.COM 442*7978SPeter.Dunlap@Sun.COM rc = idm_notify_client(ic, CN_CONNECT_ACCEPT, NULL); 443*7978SPeter.Dunlap@Sun.COM if (rc != IDM_STATUS_SUCCESS) { 444*7978SPeter.Dunlap@Sun.COM return (IDM_STATUS_REJECT); 445*7978SPeter.Dunlap@Sun.COM } 446*7978SPeter.Dunlap@Sun.COM 447*7978SPeter.Dunlap@Sun.COM /* Target client is ready to receive a login, start connection */ 448*7978SPeter.Dunlap@Sun.COM return (ic->ic_transport_ops->it_tgt_conn_connect(ic)); 449*7978SPeter.Dunlap@Sun.COM } 450*7978SPeter.Dunlap@Sun.COM 451*7978SPeter.Dunlap@Sun.COM idm_transport_t * 452*7978SPeter.Dunlap@Sun.COM idm_transport_lookup(idm_conn_req_t *cr) 453*7978SPeter.Dunlap@Sun.COM { 454*7978SPeter.Dunlap@Sun.COM idm_transport_type_t type; 455*7978SPeter.Dunlap@Sun.COM idm_transport_t *it; 456*7978SPeter.Dunlap@Sun.COM idm_transport_caps_t caps; 457*7978SPeter.Dunlap@Sun.COM 458*7978SPeter.Dunlap@Sun.COM /* 459*7978SPeter.Dunlap@Sun.COM * Make sure all available transports are setup. We call this now 460*7978SPeter.Dunlap@Sun.COM * instead of at initialization time in case IB has become available 461*7978SPeter.Dunlap@Sun.COM * since we started (hotplug, etc). 462*7978SPeter.Dunlap@Sun.COM */ 463*7978SPeter.Dunlap@Sun.COM idm_transport_setup(cr->cr_li); 464*7978SPeter.Dunlap@Sun.COM 465*7978SPeter.Dunlap@Sun.COM /* Determine the transport for this connection */ 466*7978SPeter.Dunlap@Sun.COM for (type = 0; type < IDM_TRANSPORT_NUM_TYPES; type++) { 467*7978SPeter.Dunlap@Sun.COM it = &idm_transport_list[type]; 468*7978SPeter.Dunlap@Sun.COM 469*7978SPeter.Dunlap@Sun.COM if (it->it_ops == NULL) { 470*7978SPeter.Dunlap@Sun.COM /* transport is not registered */ 471*7978SPeter.Dunlap@Sun.COM continue; 472*7978SPeter.Dunlap@Sun.COM } 473*7978SPeter.Dunlap@Sun.COM 474*7978SPeter.Dunlap@Sun.COM if (it->it_ops->it_conn_is_capable(cr, &caps)) { 475*7978SPeter.Dunlap@Sun.COM return (it); 476*7978SPeter.Dunlap@Sun.COM } 477*7978SPeter.Dunlap@Sun.COM } 478*7978SPeter.Dunlap@Sun.COM 479*7978SPeter.Dunlap@Sun.COM ASSERT(0); 480*7978SPeter.Dunlap@Sun.COM return (NULL); /* Make gcc happy */ 481*7978SPeter.Dunlap@Sun.COM } 482*7978SPeter.Dunlap@Sun.COM 483*7978SPeter.Dunlap@Sun.COM void 484*7978SPeter.Dunlap@Sun.COM idm_transport_setup(ldi_ident_t li) 485*7978SPeter.Dunlap@Sun.COM { 486*7978SPeter.Dunlap@Sun.COM idm_transport_type_t type; 487*7978SPeter.Dunlap@Sun.COM idm_transport_t *it; 488*7978SPeter.Dunlap@Sun.COM int rc; 489*7978SPeter.Dunlap@Sun.COM 490*7978SPeter.Dunlap@Sun.COM for (type = 0; type < IDM_TRANSPORT_NUM_TYPES; type++) { 491*7978SPeter.Dunlap@Sun.COM it = &idm_transport_list[type]; 492*7978SPeter.Dunlap@Sun.COM /* 493*7978SPeter.Dunlap@Sun.COM * We may want to store the LDI handle in the idm_svc_t 494*7978SPeter.Dunlap@Sun.COM * and then allow multiple calls to ldi_open_by_name. This 495*7978SPeter.Dunlap@Sun.COM * would enable the LDI code to track who has the device open 496*7978SPeter.Dunlap@Sun.COM * which could be useful in the case where we have multiple 497*7978SPeter.Dunlap@Sun.COM * services and perhaps also have initiator and target opening 498*7978SPeter.Dunlap@Sun.COM * the transport simultaneously. For now we stick with the 499*7978SPeter.Dunlap@Sun.COM * plan. 500*7978SPeter.Dunlap@Sun.COM */ 501*7978SPeter.Dunlap@Sun.COM if (it->it_ops == NULL) { 502*7978SPeter.Dunlap@Sun.COM /* transport is not ready, try to initialize it */ 503*7978SPeter.Dunlap@Sun.COM if (it->it_type == IDM_TRANSPORT_TYPE_SOCKETS) { 504*7978SPeter.Dunlap@Sun.COM idm_so_init(it); 505*7978SPeter.Dunlap@Sun.COM } else { 506*7978SPeter.Dunlap@Sun.COM rc = ldi_open_by_name(it->it_device_path, 507*7978SPeter.Dunlap@Sun.COM FREAD | FWRITE, kcred, &it->it_ldi_hdl, li); 508*7978SPeter.Dunlap@Sun.COM /* 509*7978SPeter.Dunlap@Sun.COM * If the open is successful we will have 510*7978SPeter.Dunlap@Sun.COM * filled in the LDI handle in the transport 511*7978SPeter.Dunlap@Sun.COM * table and we expect that the transport 512*7978SPeter.Dunlap@Sun.COM * registered itself. 513*7978SPeter.Dunlap@Sun.COM */ 514*7978SPeter.Dunlap@Sun.COM if (rc != 0) { 515*7978SPeter.Dunlap@Sun.COM it->it_ldi_hdl = NULL; 516*7978SPeter.Dunlap@Sun.COM } 517*7978SPeter.Dunlap@Sun.COM } 518*7978SPeter.Dunlap@Sun.COM } 519*7978SPeter.Dunlap@Sun.COM } 520*7978SPeter.Dunlap@Sun.COM } 521*7978SPeter.Dunlap@Sun.COM 522*7978SPeter.Dunlap@Sun.COM /* 523*7978SPeter.Dunlap@Sun.COM * ID pool code. We use this to generate unique structure identifiers without 524*7978SPeter.Dunlap@Sun.COM * searching the existing structures. This avoids the need to lock entire 525*7978SPeter.Dunlap@Sun.COM * sets of structures at inopportune times. Adapted from the CIFS server code. 526*7978SPeter.Dunlap@Sun.COM * 527*7978SPeter.Dunlap@Sun.COM * A pool of IDs is a pool of 16 bit numbers. It is implemented as a bitmap. 528*7978SPeter.Dunlap@Sun.COM * A bit set to '1' indicates that that particular value has been allocated. 529*7978SPeter.Dunlap@Sun.COM * The allocation process is done shifting a bit through the whole bitmap. 530*7978SPeter.Dunlap@Sun.COM * The current position of that index bit is kept in the idm_idpool_t 531*7978SPeter.Dunlap@Sun.COM * structure and represented by a byte index (0 to buffer size minus 1) and 532*7978SPeter.Dunlap@Sun.COM * a bit index (0 to 7). 533*7978SPeter.Dunlap@Sun.COM * 534*7978SPeter.Dunlap@Sun.COM * The pools start with a size of 8 bytes or 64 IDs. Each time the pool runs 535*7978SPeter.Dunlap@Sun.COM * out of IDs its current size is doubled until it reaches its maximum size 536*7978SPeter.Dunlap@Sun.COM * (8192 bytes or 65536 IDs). The IDs 0 and 65535 are never given out which 537*7978SPeter.Dunlap@Sun.COM * means that a pool can have a maximum number of 65534 IDs available. 538*7978SPeter.Dunlap@Sun.COM */ 539*7978SPeter.Dunlap@Sun.COM 540*7978SPeter.Dunlap@Sun.COM static int 541*7978SPeter.Dunlap@Sun.COM idm_idpool_increment( 542*7978SPeter.Dunlap@Sun.COM idm_idpool_t *pool) 543*7978SPeter.Dunlap@Sun.COM { 544*7978SPeter.Dunlap@Sun.COM uint8_t *new_pool; 545*7978SPeter.Dunlap@Sun.COM uint32_t new_size; 546*7978SPeter.Dunlap@Sun.COM 547*7978SPeter.Dunlap@Sun.COM ASSERT(pool->id_magic == IDM_IDPOOL_MAGIC); 548*7978SPeter.Dunlap@Sun.COM 549*7978SPeter.Dunlap@Sun.COM new_size = pool->id_size * 2; 550*7978SPeter.Dunlap@Sun.COM if (new_size <= IDM_IDPOOL_MAX_SIZE) { 551*7978SPeter.Dunlap@Sun.COM new_pool = kmem_alloc(new_size / 8, KM_NOSLEEP); 552*7978SPeter.Dunlap@Sun.COM if (new_pool) { 553*7978SPeter.Dunlap@Sun.COM bzero(new_pool, new_size / 8); 554*7978SPeter.Dunlap@Sun.COM bcopy(pool->id_pool, new_pool, pool->id_size / 8); 555*7978SPeter.Dunlap@Sun.COM kmem_free(pool->id_pool, pool->id_size / 8); 556*7978SPeter.Dunlap@Sun.COM pool->id_pool = new_pool; 557*7978SPeter.Dunlap@Sun.COM pool->id_free_counter += new_size - pool->id_size; 558*7978SPeter.Dunlap@Sun.COM pool->id_max_free_counter += new_size - pool->id_size; 559*7978SPeter.Dunlap@Sun.COM pool->id_size = new_size; 560*7978SPeter.Dunlap@Sun.COM pool->id_idx_msk = (new_size / 8) - 1; 561*7978SPeter.Dunlap@Sun.COM if (new_size >= IDM_IDPOOL_MAX_SIZE) { 562*7978SPeter.Dunlap@Sun.COM /* id -1 made unavailable */ 563*7978SPeter.Dunlap@Sun.COM pool->id_pool[pool->id_idx_msk] = 0x80; 564*7978SPeter.Dunlap@Sun.COM pool->id_free_counter--; 565*7978SPeter.Dunlap@Sun.COM pool->id_max_free_counter--; 566*7978SPeter.Dunlap@Sun.COM } 567*7978SPeter.Dunlap@Sun.COM return (0); 568*7978SPeter.Dunlap@Sun.COM } 569*7978SPeter.Dunlap@Sun.COM } 570*7978SPeter.Dunlap@Sun.COM return (-1); 571*7978SPeter.Dunlap@Sun.COM } 572*7978SPeter.Dunlap@Sun.COM 573*7978SPeter.Dunlap@Sun.COM /* 574*7978SPeter.Dunlap@Sun.COM * idm_idpool_constructor 575*7978SPeter.Dunlap@Sun.COM * 576*7978SPeter.Dunlap@Sun.COM * This function initializes the pool structure provided. 577*7978SPeter.Dunlap@Sun.COM */ 578*7978SPeter.Dunlap@Sun.COM 579*7978SPeter.Dunlap@Sun.COM int 580*7978SPeter.Dunlap@Sun.COM idm_idpool_create(idm_idpool_t *pool) 581*7978SPeter.Dunlap@Sun.COM { 582*7978SPeter.Dunlap@Sun.COM 583*7978SPeter.Dunlap@Sun.COM ASSERT(pool->id_magic != IDM_IDPOOL_MAGIC); 584*7978SPeter.Dunlap@Sun.COM 585*7978SPeter.Dunlap@Sun.COM pool->id_size = IDM_IDPOOL_MIN_SIZE; 586*7978SPeter.Dunlap@Sun.COM pool->id_idx_msk = (IDM_IDPOOL_MIN_SIZE / 8) - 1; 587*7978SPeter.Dunlap@Sun.COM pool->id_free_counter = IDM_IDPOOL_MIN_SIZE - 1; 588*7978SPeter.Dunlap@Sun.COM pool->id_max_free_counter = IDM_IDPOOL_MIN_SIZE - 1; 589*7978SPeter.Dunlap@Sun.COM pool->id_bit = 0x02; 590*7978SPeter.Dunlap@Sun.COM pool->id_bit_idx = 1; 591*7978SPeter.Dunlap@Sun.COM pool->id_idx = 0; 592*7978SPeter.Dunlap@Sun.COM pool->id_pool = (uint8_t *)kmem_alloc((IDM_IDPOOL_MIN_SIZE / 8), 593*7978SPeter.Dunlap@Sun.COM KM_SLEEP); 594*7978SPeter.Dunlap@Sun.COM bzero(pool->id_pool, (IDM_IDPOOL_MIN_SIZE / 8)); 595*7978SPeter.Dunlap@Sun.COM /* -1 id made unavailable */ 596*7978SPeter.Dunlap@Sun.COM pool->id_pool[0] = 0x01; /* id 0 made unavailable */ 597*7978SPeter.Dunlap@Sun.COM mutex_init(&pool->id_mutex, NULL, MUTEX_DEFAULT, NULL); 598*7978SPeter.Dunlap@Sun.COM pool->id_magic = IDM_IDPOOL_MAGIC; 599*7978SPeter.Dunlap@Sun.COM return (0); 600*7978SPeter.Dunlap@Sun.COM } 601*7978SPeter.Dunlap@Sun.COM 602*7978SPeter.Dunlap@Sun.COM /* 603*7978SPeter.Dunlap@Sun.COM * idm_idpool_destructor 604*7978SPeter.Dunlap@Sun.COM * 605*7978SPeter.Dunlap@Sun.COM * This function tears down and frees the resources associated with the 606*7978SPeter.Dunlap@Sun.COM * pool provided. 607*7978SPeter.Dunlap@Sun.COM */ 608*7978SPeter.Dunlap@Sun.COM 609*7978SPeter.Dunlap@Sun.COM void 610*7978SPeter.Dunlap@Sun.COM idm_idpool_destroy(idm_idpool_t *pool) 611*7978SPeter.Dunlap@Sun.COM { 612*7978SPeter.Dunlap@Sun.COM ASSERT(pool->id_magic == IDM_IDPOOL_MAGIC); 613*7978SPeter.Dunlap@Sun.COM ASSERT(pool->id_free_counter == pool->id_max_free_counter); 614*7978SPeter.Dunlap@Sun.COM pool->id_magic = (uint32_t)~IDM_IDPOOL_MAGIC; 615*7978SPeter.Dunlap@Sun.COM mutex_destroy(&pool->id_mutex); 616*7978SPeter.Dunlap@Sun.COM kmem_free(pool->id_pool, (size_t)(pool->id_size / 8)); 617*7978SPeter.Dunlap@Sun.COM } 618*7978SPeter.Dunlap@Sun.COM 619*7978SPeter.Dunlap@Sun.COM /* 620*7978SPeter.Dunlap@Sun.COM * idm_idpool_alloc 621*7978SPeter.Dunlap@Sun.COM * 622*7978SPeter.Dunlap@Sun.COM * This function allocates an ID from the pool provided. 623*7978SPeter.Dunlap@Sun.COM */ 624*7978SPeter.Dunlap@Sun.COM int 625*7978SPeter.Dunlap@Sun.COM idm_idpool_alloc(idm_idpool_t *pool, uint16_t *id) 626*7978SPeter.Dunlap@Sun.COM { 627*7978SPeter.Dunlap@Sun.COM uint32_t i; 628*7978SPeter.Dunlap@Sun.COM uint8_t bit; 629*7978SPeter.Dunlap@Sun.COM uint8_t bit_idx; 630*7978SPeter.Dunlap@Sun.COM uint8_t byte; 631*7978SPeter.Dunlap@Sun.COM 632*7978SPeter.Dunlap@Sun.COM ASSERT(pool->id_magic == IDM_IDPOOL_MAGIC); 633*7978SPeter.Dunlap@Sun.COM 634*7978SPeter.Dunlap@Sun.COM mutex_enter(&pool->id_mutex); 635*7978SPeter.Dunlap@Sun.COM if ((pool->id_free_counter == 0) && idm_idpool_increment(pool)) { 636*7978SPeter.Dunlap@Sun.COM mutex_exit(&pool->id_mutex); 637*7978SPeter.Dunlap@Sun.COM return (-1); 638*7978SPeter.Dunlap@Sun.COM } 639*7978SPeter.Dunlap@Sun.COM 640*7978SPeter.Dunlap@Sun.COM i = pool->id_size; 641*7978SPeter.Dunlap@Sun.COM while (i) { 642*7978SPeter.Dunlap@Sun.COM bit = pool->id_bit; 643*7978SPeter.Dunlap@Sun.COM bit_idx = pool->id_bit_idx; 644*7978SPeter.Dunlap@Sun.COM byte = pool->id_pool[pool->id_idx]; 645*7978SPeter.Dunlap@Sun.COM while (bit) { 646*7978SPeter.Dunlap@Sun.COM if (byte & bit) { 647*7978SPeter.Dunlap@Sun.COM bit = bit << 1; 648*7978SPeter.Dunlap@Sun.COM bit_idx++; 649*7978SPeter.Dunlap@Sun.COM continue; 650*7978SPeter.Dunlap@Sun.COM } 651*7978SPeter.Dunlap@Sun.COM pool->id_pool[pool->id_idx] |= bit; 652*7978SPeter.Dunlap@Sun.COM *id = (uint16_t)(pool->id_idx * 8 + (uint32_t)bit_idx); 653*7978SPeter.Dunlap@Sun.COM pool->id_free_counter--; 654*7978SPeter.Dunlap@Sun.COM pool->id_bit = bit; 655*7978SPeter.Dunlap@Sun.COM pool->id_bit_idx = bit_idx; 656*7978SPeter.Dunlap@Sun.COM mutex_exit(&pool->id_mutex); 657*7978SPeter.Dunlap@Sun.COM return (0); 658*7978SPeter.Dunlap@Sun.COM } 659*7978SPeter.Dunlap@Sun.COM pool->id_bit = 1; 660*7978SPeter.Dunlap@Sun.COM pool->id_bit_idx = 0; 661*7978SPeter.Dunlap@Sun.COM pool->id_idx++; 662*7978SPeter.Dunlap@Sun.COM pool->id_idx &= pool->id_idx_msk; 663*7978SPeter.Dunlap@Sun.COM --i; 664*7978SPeter.Dunlap@Sun.COM } 665*7978SPeter.Dunlap@Sun.COM /* 666*7978SPeter.Dunlap@Sun.COM * This section of code shouldn't be reached. If there are IDs 667*7978SPeter.Dunlap@Sun.COM * available and none could be found there's a problem. 668*7978SPeter.Dunlap@Sun.COM */ 669*7978SPeter.Dunlap@Sun.COM ASSERT(0); 670*7978SPeter.Dunlap@Sun.COM mutex_exit(&pool->id_mutex); 671*7978SPeter.Dunlap@Sun.COM return (-1); 672*7978SPeter.Dunlap@Sun.COM } 673*7978SPeter.Dunlap@Sun.COM 674*7978SPeter.Dunlap@Sun.COM /* 675*7978SPeter.Dunlap@Sun.COM * idm_idpool_free 676*7978SPeter.Dunlap@Sun.COM * 677*7978SPeter.Dunlap@Sun.COM * This function frees the ID provided. 678*7978SPeter.Dunlap@Sun.COM */ 679*7978SPeter.Dunlap@Sun.COM void 680*7978SPeter.Dunlap@Sun.COM idm_idpool_free(idm_idpool_t *pool, uint16_t id) 681*7978SPeter.Dunlap@Sun.COM { 682*7978SPeter.Dunlap@Sun.COM ASSERT(pool->id_magic == IDM_IDPOOL_MAGIC); 683*7978SPeter.Dunlap@Sun.COM ASSERT(id != 0); 684*7978SPeter.Dunlap@Sun.COM ASSERT(id != 0xFFFF); 685*7978SPeter.Dunlap@Sun.COM 686*7978SPeter.Dunlap@Sun.COM mutex_enter(&pool->id_mutex); 687*7978SPeter.Dunlap@Sun.COM if (pool->id_pool[id >> 3] & (1 << (id & 7))) { 688*7978SPeter.Dunlap@Sun.COM pool->id_pool[id >> 3] &= ~(1 << (id & 7)); 689*7978SPeter.Dunlap@Sun.COM pool->id_free_counter++; 690*7978SPeter.Dunlap@Sun.COM ASSERT(pool->id_free_counter <= pool->id_max_free_counter); 691*7978SPeter.Dunlap@Sun.COM mutex_exit(&pool->id_mutex); 692*7978SPeter.Dunlap@Sun.COM return; 693*7978SPeter.Dunlap@Sun.COM } 694*7978SPeter.Dunlap@Sun.COM /* Freeing a free ID. */ 695*7978SPeter.Dunlap@Sun.COM ASSERT(0); 696*7978SPeter.Dunlap@Sun.COM mutex_exit(&pool->id_mutex); 697*7978SPeter.Dunlap@Sun.COM } 698*7978SPeter.Dunlap@Sun.COM 699*7978SPeter.Dunlap@Sun.COM uint32_t 700*7978SPeter.Dunlap@Sun.COM idm_cid_alloc(void) 701*7978SPeter.Dunlap@Sun.COM { 702*7978SPeter.Dunlap@Sun.COM /* 703*7978SPeter.Dunlap@Sun.COM * ID pool works with 16-bit identifiers right now. That should 704*7978SPeter.Dunlap@Sun.COM * be plenty since we will probably never have more than 2^16 705*7978SPeter.Dunlap@Sun.COM * connections simultaneously. 706*7978SPeter.Dunlap@Sun.COM */ 707*7978SPeter.Dunlap@Sun.COM uint16_t cid16; 708*7978SPeter.Dunlap@Sun.COM 709*7978SPeter.Dunlap@Sun.COM if (idm_idpool_alloc(&idm.idm_conn_id_pool, &cid16) == -1) { 710*7978SPeter.Dunlap@Sun.COM return (0); /* Fail */ 711*7978SPeter.Dunlap@Sun.COM } 712*7978SPeter.Dunlap@Sun.COM 713*7978SPeter.Dunlap@Sun.COM return ((uint32_t)cid16); 714*7978SPeter.Dunlap@Sun.COM } 715*7978SPeter.Dunlap@Sun.COM 716*7978SPeter.Dunlap@Sun.COM void 717*7978SPeter.Dunlap@Sun.COM idm_cid_free(uint32_t cid) 718*7978SPeter.Dunlap@Sun.COM { 719*7978SPeter.Dunlap@Sun.COM idm_idpool_free(&idm.idm_conn_id_pool, (uint16_t)cid); 720*7978SPeter.Dunlap@Sun.COM } 721*7978SPeter.Dunlap@Sun.COM 722*7978SPeter.Dunlap@Sun.COM 723*7978SPeter.Dunlap@Sun.COM /* 724*7978SPeter.Dunlap@Sun.COM * Code for generating the header and data digests 725*7978SPeter.Dunlap@Sun.COM * 726*7978SPeter.Dunlap@Sun.COM * This is the CRC-32C table 727*7978SPeter.Dunlap@Sun.COM * Generated with: 728*7978SPeter.Dunlap@Sun.COM * width = 32 bits 729*7978SPeter.Dunlap@Sun.COM * poly = 0x1EDC6F41 730*7978SPeter.Dunlap@Sun.COM * reflect input bytes = true 731*7978SPeter.Dunlap@Sun.COM * reflect output bytes = true 732*7978SPeter.Dunlap@Sun.COM */ 733*7978SPeter.Dunlap@Sun.COM 734*7978SPeter.Dunlap@Sun.COM uint32_t idm_crc32c_table[256] = 735*7978SPeter.Dunlap@Sun.COM { 736*7978SPeter.Dunlap@Sun.COM 0x00000000, 0xF26B8303, 0xE13B70F7, 0x1350F3F4, 737*7978SPeter.Dunlap@Sun.COM 0xC79A971F, 0x35F1141C, 0x26A1E7E8, 0xD4CA64EB, 738*7978SPeter.Dunlap@Sun.COM 0x8AD958CF, 0x78B2DBCC, 0x6BE22838, 0x9989AB3B, 739*7978SPeter.Dunlap@Sun.COM 0x4D43CFD0, 0xBF284CD3, 0xAC78BF27, 0x5E133C24, 740*7978SPeter.Dunlap@Sun.COM 0x105EC76F, 0xE235446C, 0xF165B798, 0x030E349B, 741*7978SPeter.Dunlap@Sun.COM 0xD7C45070, 0x25AFD373, 0x36FF2087, 0xC494A384, 742*7978SPeter.Dunlap@Sun.COM 0x9A879FA0, 0x68EC1CA3, 0x7BBCEF57, 0x89D76C54, 743*7978SPeter.Dunlap@Sun.COM 0x5D1D08BF, 0xAF768BBC, 0xBC267848, 0x4E4DFB4B, 744*7978SPeter.Dunlap@Sun.COM 0x20BD8EDE, 0xD2D60DDD, 0xC186FE29, 0x33ED7D2A, 745*7978SPeter.Dunlap@Sun.COM 0xE72719C1, 0x154C9AC2, 0x061C6936, 0xF477EA35, 746*7978SPeter.Dunlap@Sun.COM 0xAA64D611, 0x580F5512, 0x4B5FA6E6, 0xB93425E5, 747*7978SPeter.Dunlap@Sun.COM 0x6DFE410E, 0x9F95C20D, 0x8CC531F9, 0x7EAEB2FA, 748*7978SPeter.Dunlap@Sun.COM 0x30E349B1, 0xC288CAB2, 0xD1D83946, 0x23B3BA45, 749*7978SPeter.Dunlap@Sun.COM 0xF779DEAE, 0x05125DAD, 0x1642AE59, 0xE4292D5A, 750*7978SPeter.Dunlap@Sun.COM 0xBA3A117E, 0x4851927D, 0x5B016189, 0xA96AE28A, 751*7978SPeter.Dunlap@Sun.COM 0x7DA08661, 0x8FCB0562, 0x9C9BF696, 0x6EF07595, 752*7978SPeter.Dunlap@Sun.COM 0x417B1DBC, 0xB3109EBF, 0xA0406D4B, 0x522BEE48, 753*7978SPeter.Dunlap@Sun.COM 0x86E18AA3, 0x748A09A0, 0x67DAFA54, 0x95B17957, 754*7978SPeter.Dunlap@Sun.COM 0xCBA24573, 0x39C9C670, 0x2A993584, 0xD8F2B687, 755*7978SPeter.Dunlap@Sun.COM 0x0C38D26C, 0xFE53516F, 0xED03A29B, 0x1F682198, 756*7978SPeter.Dunlap@Sun.COM 0x5125DAD3, 0xA34E59D0, 0xB01EAA24, 0x42752927, 757*7978SPeter.Dunlap@Sun.COM 0x96BF4DCC, 0x64D4CECF, 0x77843D3B, 0x85EFBE38, 758*7978SPeter.Dunlap@Sun.COM 0xDBFC821C, 0x2997011F, 0x3AC7F2EB, 0xC8AC71E8, 759*7978SPeter.Dunlap@Sun.COM 0x1C661503, 0xEE0D9600, 0xFD5D65F4, 0x0F36E6F7, 760*7978SPeter.Dunlap@Sun.COM 0x61C69362, 0x93AD1061, 0x80FDE395, 0x72966096, 761*7978SPeter.Dunlap@Sun.COM 0xA65C047D, 0x5437877E, 0x4767748A, 0xB50CF789, 762*7978SPeter.Dunlap@Sun.COM 0xEB1FCBAD, 0x197448AE, 0x0A24BB5A, 0xF84F3859, 763*7978SPeter.Dunlap@Sun.COM 0x2C855CB2, 0xDEEEDFB1, 0xCDBE2C45, 0x3FD5AF46, 764*7978SPeter.Dunlap@Sun.COM 0x7198540D, 0x83F3D70E, 0x90A324FA, 0x62C8A7F9, 765*7978SPeter.Dunlap@Sun.COM 0xB602C312, 0x44694011, 0x5739B3E5, 0xA55230E6, 766*7978SPeter.Dunlap@Sun.COM 0xFB410CC2, 0x092A8FC1, 0x1A7A7C35, 0xE811FF36, 767*7978SPeter.Dunlap@Sun.COM 0x3CDB9BDD, 0xCEB018DE, 0xDDE0EB2A, 0x2F8B6829, 768*7978SPeter.Dunlap@Sun.COM 0x82F63B78, 0x709DB87B, 0x63CD4B8F, 0x91A6C88C, 769*7978SPeter.Dunlap@Sun.COM 0x456CAC67, 0xB7072F64, 0xA457DC90, 0x563C5F93, 770*7978SPeter.Dunlap@Sun.COM 0x082F63B7, 0xFA44E0B4, 0xE9141340, 0x1B7F9043, 771*7978SPeter.Dunlap@Sun.COM 0xCFB5F4A8, 0x3DDE77AB, 0x2E8E845F, 0xDCE5075C, 772*7978SPeter.Dunlap@Sun.COM 0x92A8FC17, 0x60C37F14, 0x73938CE0, 0x81F80FE3, 773*7978SPeter.Dunlap@Sun.COM 0x55326B08, 0xA759E80B, 0xB4091BFF, 0x466298FC, 774*7978SPeter.Dunlap@Sun.COM 0x1871A4D8, 0xEA1A27DB, 0xF94AD42F, 0x0B21572C, 775*7978SPeter.Dunlap@Sun.COM 0xDFEB33C7, 0x2D80B0C4, 0x3ED04330, 0xCCBBC033, 776*7978SPeter.Dunlap@Sun.COM 0xA24BB5A6, 0x502036A5, 0x4370C551, 0xB11B4652, 777*7978SPeter.Dunlap@Sun.COM 0x65D122B9, 0x97BAA1BA, 0x84EA524E, 0x7681D14D, 778*7978SPeter.Dunlap@Sun.COM 0x2892ED69, 0xDAF96E6A, 0xC9A99D9E, 0x3BC21E9D, 779*7978SPeter.Dunlap@Sun.COM 0xEF087A76, 0x1D63F975, 0x0E330A81, 0xFC588982, 780*7978SPeter.Dunlap@Sun.COM 0xB21572C9, 0x407EF1CA, 0x532E023E, 0xA145813D, 781*7978SPeter.Dunlap@Sun.COM 0x758FE5D6, 0x87E466D5, 0x94B49521, 0x66DF1622, 782*7978SPeter.Dunlap@Sun.COM 0x38CC2A06, 0xCAA7A905, 0xD9F75AF1, 0x2B9CD9F2, 783*7978SPeter.Dunlap@Sun.COM 0xFF56BD19, 0x0D3D3E1A, 0x1E6DCDEE, 0xEC064EED, 784*7978SPeter.Dunlap@Sun.COM 0xC38D26C4, 0x31E6A5C7, 0x22B65633, 0xD0DDD530, 785*7978SPeter.Dunlap@Sun.COM 0x0417B1DB, 0xF67C32D8, 0xE52CC12C, 0x1747422F, 786*7978SPeter.Dunlap@Sun.COM 0x49547E0B, 0xBB3FFD08, 0xA86F0EFC, 0x5A048DFF, 787*7978SPeter.Dunlap@Sun.COM 0x8ECEE914, 0x7CA56A17, 0x6FF599E3, 0x9D9E1AE0, 788*7978SPeter.Dunlap@Sun.COM 0xD3D3E1AB, 0x21B862A8, 0x32E8915C, 0xC083125F, 789*7978SPeter.Dunlap@Sun.COM 0x144976B4, 0xE622F5B7, 0xF5720643, 0x07198540, 790*7978SPeter.Dunlap@Sun.COM 0x590AB964, 0xAB613A67, 0xB831C993, 0x4A5A4A90, 791*7978SPeter.Dunlap@Sun.COM 0x9E902E7B, 0x6CFBAD78, 0x7FAB5E8C, 0x8DC0DD8F, 792*7978SPeter.Dunlap@Sun.COM 0xE330A81A, 0x115B2B19, 0x020BD8ED, 0xF0605BEE, 793*7978SPeter.Dunlap@Sun.COM 0x24AA3F05, 0xD6C1BC06, 0xC5914FF2, 0x37FACCF1, 794*7978SPeter.Dunlap@Sun.COM 0x69E9F0D5, 0x9B8273D6, 0x88D28022, 0x7AB90321, 795*7978SPeter.Dunlap@Sun.COM 0xAE7367CA, 0x5C18E4C9, 0x4F48173D, 0xBD23943E, 796*7978SPeter.Dunlap@Sun.COM 0xF36E6F75, 0x0105EC76, 0x12551F82, 0xE03E9C81, 797*7978SPeter.Dunlap@Sun.COM 0x34F4F86A, 0xC69F7B69, 0xD5CF889D, 0x27A40B9E, 798*7978SPeter.Dunlap@Sun.COM 0x79B737BA, 0x8BDCB4B9, 0x988C474D, 0x6AE7C44E, 799*7978SPeter.Dunlap@Sun.COM 0xBE2DA0A5, 0x4C4623A6, 0x5F16D052, 0xAD7D5351 800*7978SPeter.Dunlap@Sun.COM }; 801*7978SPeter.Dunlap@Sun.COM 802*7978SPeter.Dunlap@Sun.COM /* 803*7978SPeter.Dunlap@Sun.COM * iscsi_crc32c - Steps through buffer one byte at at time, calculates 804*7978SPeter.Dunlap@Sun.COM * reflected crc using table. 805*7978SPeter.Dunlap@Sun.COM */ 806*7978SPeter.Dunlap@Sun.COM uint32_t 807*7978SPeter.Dunlap@Sun.COM idm_crc32c(void *address, unsigned long length) 808*7978SPeter.Dunlap@Sun.COM { 809*7978SPeter.Dunlap@Sun.COM uint8_t *buffer = address; 810*7978SPeter.Dunlap@Sun.COM uint32_t crc = 0xffffffff, result; 811*7978SPeter.Dunlap@Sun.COM #ifdef _BIG_ENDIAN 812*7978SPeter.Dunlap@Sun.COM uint8_t byte0, byte1, byte2, byte3; 813*7978SPeter.Dunlap@Sun.COM #endif 814*7978SPeter.Dunlap@Sun.COM 815*7978SPeter.Dunlap@Sun.COM ASSERT(address != NULL); 816*7978SPeter.Dunlap@Sun.COM 817*7978SPeter.Dunlap@Sun.COM while (length--) { 818*7978SPeter.Dunlap@Sun.COM crc = idm_crc32c_table[(crc ^ *buffer++) & 0xFFL] ^ 819*7978SPeter.Dunlap@Sun.COM (crc >> 8); 820*7978SPeter.Dunlap@Sun.COM } 821*7978SPeter.Dunlap@Sun.COM result = crc ^ 0xffffffff; 822*7978SPeter.Dunlap@Sun.COM 823*7978SPeter.Dunlap@Sun.COM #ifdef _BIG_ENDIAN 824*7978SPeter.Dunlap@Sun.COM byte0 = (uint8_t)(result & 0xFF); 825*7978SPeter.Dunlap@Sun.COM byte1 = (uint8_t)((result >> 8) & 0xFF); 826*7978SPeter.Dunlap@Sun.COM byte2 = (uint8_t)((result >> 16) & 0xFF); 827*7978SPeter.Dunlap@Sun.COM byte3 = (uint8_t)((result >> 24) & 0xFF); 828*7978SPeter.Dunlap@Sun.COM result = ((byte0 << 24) | (byte1 << 16) | (byte2 << 8) | byte3); 829*7978SPeter.Dunlap@Sun.COM #endif /* _BIG_ENDIAN */ 830*7978SPeter.Dunlap@Sun.COM 831*7978SPeter.Dunlap@Sun.COM return (result); 832*7978SPeter.Dunlap@Sun.COM } 833*7978SPeter.Dunlap@Sun.COM 834*7978SPeter.Dunlap@Sun.COM 835*7978SPeter.Dunlap@Sun.COM /* 836*7978SPeter.Dunlap@Sun.COM * idm_crc32c_continued - Continues stepping through buffer one 837*7978SPeter.Dunlap@Sun.COM * byte at at time, calculates reflected crc using table. 838*7978SPeter.Dunlap@Sun.COM */ 839*7978SPeter.Dunlap@Sun.COM uint32_t 840*7978SPeter.Dunlap@Sun.COM idm_crc32c_continued(void *address, unsigned long length, uint32_t crc) 841*7978SPeter.Dunlap@Sun.COM { 842*7978SPeter.Dunlap@Sun.COM uint8_t *buffer = address; 843*7978SPeter.Dunlap@Sun.COM uint32_t result; 844*7978SPeter.Dunlap@Sun.COM #ifdef _BIG_ENDIAN 845*7978SPeter.Dunlap@Sun.COM uint8_t byte0, byte1, byte2, byte3; 846*7978SPeter.Dunlap@Sun.COM #endif 847*7978SPeter.Dunlap@Sun.COM 848*7978SPeter.Dunlap@Sun.COM ASSERT(address != NULL); 849*7978SPeter.Dunlap@Sun.COM 850*7978SPeter.Dunlap@Sun.COM #ifdef _BIG_ENDIAN 851*7978SPeter.Dunlap@Sun.COM byte0 = (uint8_t)((crc >> 24) & 0xFF); 852*7978SPeter.Dunlap@Sun.COM byte1 = (uint8_t)((crc >> 16) & 0xFF); 853*7978SPeter.Dunlap@Sun.COM byte2 = (uint8_t)((crc >> 8) & 0xFF); 854*7978SPeter.Dunlap@Sun.COM byte3 = (uint8_t)(crc & 0xFF); 855*7978SPeter.Dunlap@Sun.COM crc = ((byte3 << 24) | (byte2 << 16) | (byte1 << 8) | byte0); 856*7978SPeter.Dunlap@Sun.COM #endif 857*7978SPeter.Dunlap@Sun.COM 858*7978SPeter.Dunlap@Sun.COM crc = crc ^ 0xffffffff; 859*7978SPeter.Dunlap@Sun.COM while (length--) { 860*7978SPeter.Dunlap@Sun.COM crc = idm_crc32c_table[(crc ^ *buffer++) & 0xFFL] ^ 861*7978SPeter.Dunlap@Sun.COM (crc >> 8); 862*7978SPeter.Dunlap@Sun.COM } 863*7978SPeter.Dunlap@Sun.COM result = crc ^ 0xffffffff; 864*7978SPeter.Dunlap@Sun.COM 865*7978SPeter.Dunlap@Sun.COM #ifdef _BIG_ENDIAN 866*7978SPeter.Dunlap@Sun.COM byte0 = (uint8_t)(result & 0xFF); 867*7978SPeter.Dunlap@Sun.COM byte1 = (uint8_t)((result >> 8) & 0xFF); 868*7978SPeter.Dunlap@Sun.COM byte2 = (uint8_t)((result >> 16) & 0xFF); 869*7978SPeter.Dunlap@Sun.COM byte3 = (uint8_t)((result >> 24) & 0xFF); 870*7978SPeter.Dunlap@Sun.COM result = ((byte0 << 24) | (byte1 << 16) | (byte2 << 8) | byte3); 871*7978SPeter.Dunlap@Sun.COM #endif 872*7978SPeter.Dunlap@Sun.COM return (result); 873*7978SPeter.Dunlap@Sun.COM } 874*7978SPeter.Dunlap@Sun.COM 875*7978SPeter.Dunlap@Sun.COM /* ARGSUSED */ 876*7978SPeter.Dunlap@Sun.COM int 877*7978SPeter.Dunlap@Sun.COM idm_task_constructor(void *hdl, void *arg, int flags) 878*7978SPeter.Dunlap@Sun.COM { 879*7978SPeter.Dunlap@Sun.COM idm_task_t *idt = (idm_task_t *)hdl; 880*7978SPeter.Dunlap@Sun.COM uint32_t next_task; 881*7978SPeter.Dunlap@Sun.COM 882*7978SPeter.Dunlap@Sun.COM mutex_init(&idt->idt_mutex, NULL, MUTEX_DEFAULT, NULL); 883*7978SPeter.Dunlap@Sun.COM 884*7978SPeter.Dunlap@Sun.COM /* Find the next free task ID */ 885*7978SPeter.Dunlap@Sun.COM rw_enter(&idm.idm_taskid_table_lock, RW_WRITER); 886*7978SPeter.Dunlap@Sun.COM next_task = idm.idm_taskid_next; 887*7978SPeter.Dunlap@Sun.COM while (idm.idm_taskid_table[next_task]) { 888*7978SPeter.Dunlap@Sun.COM next_task++; 889*7978SPeter.Dunlap@Sun.COM if (next_task == idm.idm_taskid_max) 890*7978SPeter.Dunlap@Sun.COM next_task = 0; 891*7978SPeter.Dunlap@Sun.COM if (next_task == idm.idm_taskid_next) { 892*7978SPeter.Dunlap@Sun.COM rw_exit(&idm.idm_taskid_table_lock); 893*7978SPeter.Dunlap@Sun.COM return (-1); 894*7978SPeter.Dunlap@Sun.COM } 895*7978SPeter.Dunlap@Sun.COM } 896*7978SPeter.Dunlap@Sun.COM 897*7978SPeter.Dunlap@Sun.COM idm.idm_taskid_table[next_task] = idt; 898*7978SPeter.Dunlap@Sun.COM idm.idm_taskid_next = (next_task + 1) % idm.idm_taskid_max; 899*7978SPeter.Dunlap@Sun.COM rw_exit(&idm.idm_taskid_table_lock); 900*7978SPeter.Dunlap@Sun.COM 901*7978SPeter.Dunlap@Sun.COM idt->idt_tt = next_task; 902*7978SPeter.Dunlap@Sun.COM 903*7978SPeter.Dunlap@Sun.COM list_create(&idt->idt_inbufv, sizeof (idm_buf_t), 904*7978SPeter.Dunlap@Sun.COM offsetof(idm_buf_t, idb_buflink)); 905*7978SPeter.Dunlap@Sun.COM list_create(&idt->idt_outbufv, sizeof (idm_buf_t), 906*7978SPeter.Dunlap@Sun.COM offsetof(idm_buf_t, idb_buflink)); 907*7978SPeter.Dunlap@Sun.COM idm_refcnt_init(&idt->idt_refcnt, idt); 908*7978SPeter.Dunlap@Sun.COM 909*7978SPeter.Dunlap@Sun.COM /* 910*7978SPeter.Dunlap@Sun.COM * Set the transport header pointer explicitly. This removes the 911*7978SPeter.Dunlap@Sun.COM * need for per-transport header allocation, which simplifies cache 912*7978SPeter.Dunlap@Sun.COM * init considerably. If at a later date we have an additional IDM 913*7978SPeter.Dunlap@Sun.COM * transport that requires a different size, we'll revisit this. 914*7978SPeter.Dunlap@Sun.COM */ 915*7978SPeter.Dunlap@Sun.COM idt->idt_transport_hdr = (void *)(idt + 1); /* pointer arithmetic */ 916*7978SPeter.Dunlap@Sun.COM 917*7978SPeter.Dunlap@Sun.COM return (0); 918*7978SPeter.Dunlap@Sun.COM } 919*7978SPeter.Dunlap@Sun.COM 920*7978SPeter.Dunlap@Sun.COM /* ARGSUSED */ 921*7978SPeter.Dunlap@Sun.COM void 922*7978SPeter.Dunlap@Sun.COM idm_task_destructor(void *hdl, void *arg) 923*7978SPeter.Dunlap@Sun.COM { 924*7978SPeter.Dunlap@Sun.COM idm_task_t *idt = (idm_task_t *)hdl; 925*7978SPeter.Dunlap@Sun.COM 926*7978SPeter.Dunlap@Sun.COM /* Remove the task from the ID table */ 927*7978SPeter.Dunlap@Sun.COM rw_enter(&idm.idm_taskid_table_lock, RW_WRITER); 928*7978SPeter.Dunlap@Sun.COM idm.idm_taskid_table[idt->idt_tt] = NULL; 929*7978SPeter.Dunlap@Sun.COM rw_exit(&idm.idm_taskid_table_lock); 930*7978SPeter.Dunlap@Sun.COM 931*7978SPeter.Dunlap@Sun.COM /* free the inbuf and outbuf */ 932*7978SPeter.Dunlap@Sun.COM idm_refcnt_destroy(&idt->idt_refcnt); 933*7978SPeter.Dunlap@Sun.COM list_destroy(&idt->idt_inbufv); 934*7978SPeter.Dunlap@Sun.COM list_destroy(&idt->idt_outbufv); 935*7978SPeter.Dunlap@Sun.COM 936*7978SPeter.Dunlap@Sun.COM mutex_destroy(&idt->idt_mutex); 937*7978SPeter.Dunlap@Sun.COM } 938*7978SPeter.Dunlap@Sun.COM 939*7978SPeter.Dunlap@Sun.COM /* 940*7978SPeter.Dunlap@Sun.COM * idm_listbuf_insert searches from the back of the list looking for the 941*7978SPeter.Dunlap@Sun.COM * insertion point. 942*7978SPeter.Dunlap@Sun.COM */ 943*7978SPeter.Dunlap@Sun.COM void 944*7978SPeter.Dunlap@Sun.COM idm_listbuf_insert(list_t *lst, idm_buf_t *buf) 945*7978SPeter.Dunlap@Sun.COM { 946*7978SPeter.Dunlap@Sun.COM idm_buf_t *idb; 947*7978SPeter.Dunlap@Sun.COM 948*7978SPeter.Dunlap@Sun.COM /* iterate through the list to find the insertion point */ 949*7978SPeter.Dunlap@Sun.COM for (idb = list_tail(lst); idb != NULL; idb = list_prev(lst, idb)) { 950*7978SPeter.Dunlap@Sun.COM 951*7978SPeter.Dunlap@Sun.COM if (idb->idb_bufoffset < buf->idb_bufoffset) { 952*7978SPeter.Dunlap@Sun.COM 953*7978SPeter.Dunlap@Sun.COM list_insert_after(lst, idb, buf); 954*7978SPeter.Dunlap@Sun.COM return; 955*7978SPeter.Dunlap@Sun.COM } 956*7978SPeter.Dunlap@Sun.COM } 957*7978SPeter.Dunlap@Sun.COM 958*7978SPeter.Dunlap@Sun.COM /* add the buf to the head of the list */ 959*7978SPeter.Dunlap@Sun.COM list_insert_head(lst, buf); 960*7978SPeter.Dunlap@Sun.COM 961*7978SPeter.Dunlap@Sun.COM } 962*7978SPeter.Dunlap@Sun.COM 963*7978SPeter.Dunlap@Sun.COM /*ARGSUSED*/ 964*7978SPeter.Dunlap@Sun.COM void 965*7978SPeter.Dunlap@Sun.COM idm_wd_thread(void *arg) 966*7978SPeter.Dunlap@Sun.COM { 967*7978SPeter.Dunlap@Sun.COM idm_conn_t *ic; 968*7978SPeter.Dunlap@Sun.COM clock_t wake_time; 969*7978SPeter.Dunlap@Sun.COM clock_t idle_time; 970*7978SPeter.Dunlap@Sun.COM 971*7978SPeter.Dunlap@Sun.COM mutex_enter(&idm.idm_global_mutex); 972*7978SPeter.Dunlap@Sun.COM idm.idm_wd_thread_running = B_TRUE; 973*7978SPeter.Dunlap@Sun.COM idm.idm_wd_thread_did = idm.idm_wd_thread->t_did; 974*7978SPeter.Dunlap@Sun.COM 975*7978SPeter.Dunlap@Sun.COM cv_signal(&idm.idm_wd_cv); 976*7978SPeter.Dunlap@Sun.COM 977*7978SPeter.Dunlap@Sun.COM while (idm.idm_wd_thread_running) { 978*7978SPeter.Dunlap@Sun.COM for (ic = list_head(&idm.idm_tgt_conn_list); 979*7978SPeter.Dunlap@Sun.COM ic != NULL; 980*7978SPeter.Dunlap@Sun.COM ic = list_next(&idm.idm_tgt_conn_list, ic)) { 981*7978SPeter.Dunlap@Sun.COM idle_time = ddi_get_lbolt() - ic->ic_timestamp; 982*7978SPeter.Dunlap@Sun.COM 983*7978SPeter.Dunlap@Sun.COM /* 984*7978SPeter.Dunlap@Sun.COM * If there hasn't been any activity on this 985*7978SPeter.Dunlap@Sun.COM * connection for the specified period then 986*7978SPeter.Dunlap@Sun.COM * drop the connection. We expect the initiator 987*7978SPeter.Dunlap@Sun.COM * to keep the connection alive if it wants the 988*7978SPeter.Dunlap@Sun.COM * connection to stay open. 989*7978SPeter.Dunlap@Sun.COM * 990*7978SPeter.Dunlap@Sun.COM * If it turns out to be desireable to take a 991*7978SPeter.Dunlap@Sun.COM * more active role in maintaining the connect 992*7978SPeter.Dunlap@Sun.COM * we could add a client callback to send 993*7978SPeter.Dunlap@Sun.COM * a "keepalive" kind of message (no doubt a nop) 994*7978SPeter.Dunlap@Sun.COM * and fire that on a shorter timer. 995*7978SPeter.Dunlap@Sun.COM */ 996*7978SPeter.Dunlap@Sun.COM if (TICK_TO_SEC(idle_time) > 997*7978SPeter.Dunlap@Sun.COM IDM_TRANSPORT_FAIL_IDLE_TIMEOUT) { 998*7978SPeter.Dunlap@Sun.COM /* 999*7978SPeter.Dunlap@Sun.COM * Only send the transport fail if we're in 1000*7978SPeter.Dunlap@Sun.COM * FFP. State machine timers should handle 1001*7978SPeter.Dunlap@Sun.COM * problems in non-ffp states. 1002*7978SPeter.Dunlap@Sun.COM */ 1003*7978SPeter.Dunlap@Sun.COM if (ic->ic_ffp) { 1004*7978SPeter.Dunlap@Sun.COM mutex_exit(&idm.idm_global_mutex); 1005*7978SPeter.Dunlap@Sun.COM IDM_SM_LOG(CE_WARN, "idm_wd_thread: " 1006*7978SPeter.Dunlap@Sun.COM "conn %p idle for %d seconds, " 1007*7978SPeter.Dunlap@Sun.COM "sending CE_TRANSPORT_FAIL", 1008*7978SPeter.Dunlap@Sun.COM (void *)ic, (int)idle_time); 1009*7978SPeter.Dunlap@Sun.COM idm_conn_event(ic, CE_TRANSPORT_FAIL, 1010*7978SPeter.Dunlap@Sun.COM NULL); 1011*7978SPeter.Dunlap@Sun.COM mutex_enter(&idm.idm_global_mutex); 1012*7978SPeter.Dunlap@Sun.COM } 1013*7978SPeter.Dunlap@Sun.COM } 1014*7978SPeter.Dunlap@Sun.COM } 1015*7978SPeter.Dunlap@Sun.COM 1016*7978SPeter.Dunlap@Sun.COM wake_time = lbolt + SEC_TO_TICK(IDM_WD_INTERVAL); 1017*7978SPeter.Dunlap@Sun.COM (void) cv_timedwait(&idm.idm_wd_cv, &idm.idm_global_mutex, 1018*7978SPeter.Dunlap@Sun.COM wake_time); 1019*7978SPeter.Dunlap@Sun.COM } 1020*7978SPeter.Dunlap@Sun.COM mutex_exit(&idm.idm_global_mutex); 1021*7978SPeter.Dunlap@Sun.COM 1022*7978SPeter.Dunlap@Sun.COM thread_exit(); 1023*7978SPeter.Dunlap@Sun.COM } 1024