/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * SBP2 module */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* target routines */ static void sbp2_tgt_init_sobj(sbp2_tgt_t *); static void sbp2_tgt_fini_sobj(sbp2_tgt_t *); static int sbp2_tgt_init_params(sbp2_tgt_t *); static int sbp2_tgt_init_luns(sbp2_tgt_t *, int); static void sbp2_tgt_fini_luns(sbp2_tgt_t *); static int sbp2_tgt_init_bus(sbp2_tgt_t *); static void sbp2_tgt_fini_bus(sbp2_tgt_t *); static int sbp2_tgt_mgt_request(sbp2_tgt_t *, int *); static int sbp2_tgt_task_mgt_request(sbp2_tgt_t *, uint16_t, int, uint64_t, int *); /* lun routines */ static void sbp2_lun_logout_orb(sbp2_lun_t *, sbp2_tgt_t *, int *); static boolean_t sbp2_lun_accepting_tasks(sbp2_lun_t *); /* session routines */ static int sbp2_ses_init(sbp2_ses_t **, sbp2_lun_t *, void (*)(void *, sbp2_task_t *), void *); static void sbp2_ses_fini(sbp2_ses_t *); static sbp2_task_t *sbp2_ses_orbp2task(sbp2_ses_t *, uint64_t); static void sbp2_ses_append_task(sbp2_ses_t *, sbp2_task_t *); static void sbp2_ses_reset_pending_tasks(sbp2_ses_t *, uint16_t); static int sbp2_ses_reconnect_orb(sbp2_ses_t *, int *); /* orb alloc routines */ static sbp2_bus_buf_t *sbp2_orb_freelist_get(sbp2_lun_t *, sbp2_task_t *, int); static int sbp2_orb_freelist_put(sbp2_lun_t *, sbp2_bus_buf_t *); static void sbp2_orb_freelist_destroy(sbp2_lun_t *); /* fetch agent routines */ static int sbp2_agent_init(sbp2_agent_t *, uint64_t, sbp2_tgt_t *tp); static void sbp2_agent_fini(sbp2_agent_t *); static void sbp2_agent_acquire_locked(sbp2_agent_t *); static void sbp2_agent_release_locked(sbp2_agent_t *); static void sbp2_agent_acquire(sbp2_agent_t *); static void sbp2_agent_release(sbp2_agent_t *); static int sbp2_agent_keepalive(sbp2_agent_t *, int *); static int sbp2_agent_doorbell(sbp2_agent_t *, int *); static int sbp2_agent_write_orbp(sbp2_agent_t *, uint64_t, int *); static int sbp2_agent_reset(sbp2_agent_t *, int *); /* callbacks and timeouts */ static void sbp2_mgt_status_fifo_wb_cb(sbp2_bus_buf_t *, void *, mblk_t **); static void sbp2_task_timeout(void *); static void sbp2_status_fifo_wb_cb(sbp2_bus_buf_t *, void *, mblk_t **); /* other */ static void sbp2_mgt_agent_acquire(sbp2_tgt_t *); static void sbp2_mgt_agent_release(sbp2_tgt_t *); static void sbp2_fetch_agent_acquire(sbp2_ses_t *); static void sbp2_fetch_agent_release(sbp2_ses_t *); extern struct mod_ops mod_miscops; static struct modlmisc sbp2_modlmisc = { &mod_miscops, /* module type */ "Serial Bus Protocol 2 module" /* module name */ }; static struct modlinkage sbp2_modlinkage = { MODREV_1, (void *)&sbp2_modlmisc, NULL }; /* tunables */ int sbp2_submit_reset_nretries = 3; clock_t sbp2_submit_reset_delay = 10; /* microsec */ int sbp2_write_orbp_nretries = 3; clock_t sbp2_write_orbp_delay = 10; /* microsec */ _NOTE(SCHEME_PROTECTS_DATA("unique per call", datab msgb)) /* * * --- loadable module entry points * */ int _init(void) { return (mod_install(&sbp2_modlinkage)); } int _fini(void) { return (mod_remove(&sbp2_modlinkage)); } int _info(struct modinfo *modinfop) { return (mod_info(&sbp2_modlinkage, modinfop)); } /* * * --- target routines * */ int sbp2_tgt_init(void *bus_hdl, sbp2_bus_t *bus, int maxluns, sbp2_tgt_t **tpp) { sbp2_tgt_t *tp; int ret; tp = kmem_zalloc(sizeof (sbp2_tgt_t), KM_SLEEP); tp->t_bus = bus; tp->t_bus_hdl = bus_hdl; sbp2_tgt_init_sobj(tp); if ((ret = sbp2_cfgrom_parse(tp, &tp->t_cfgrom)) != SBP2_SUCCESS) { sbp2_tgt_fini_sobj(tp); kmem_free(tp, sizeof (sbp2_tgt_t)); return (SBP2_ECFGROM); } if ((ret = sbp2_tgt_init_params(tp)) != SBP2_SUCCESS) { sbp2_cfgrom_free(tp, &tp->t_cfgrom); sbp2_tgt_fini_sobj(tp); kmem_free(tp, sizeof (sbp2_tgt_t)); return (ret); } if ((ret = sbp2_tgt_init_luns(tp, maxluns)) != SBP2_SUCCESS) { sbp2_cfgrom_free(tp, &tp->t_cfgrom); sbp2_tgt_fini_sobj(tp); kmem_free(tp, sizeof (sbp2_tgt_t)); return (ret); } if ((ret = sbp2_tgt_init_bus(tp)) != SBP2_SUCCESS) { sbp2_tgt_fini_luns(tp); sbp2_cfgrom_free(tp, &tp->t_cfgrom); sbp2_tgt_fini_sobj(tp); kmem_free(tp, sizeof (sbp2_tgt_t)); return (ret); } *tpp = tp; return (SBP2_SUCCESS); } void sbp2_tgt_fini(sbp2_tgt_t *tp) { sbp2_tgt_fini_bus(tp); sbp2_tgt_fini_luns(tp); sbp2_cfgrom_free(tp, &tp->t_cfgrom); sbp2_tgt_fini_sobj(tp); kmem_free(tp, sizeof (sbp2_tgt_t)); } static void sbp2_tgt_init_sobj(sbp2_tgt_t *tp) { mutex_init(&tp->t_mutex, NULL, MUTEX_DRIVER, NULL); cv_init(&tp->t_mgt_agent_cv, NULL, CV_DRIVER, NULL); cv_init(&tp->t_mgt_status_cv, NULL, CV_DRIVER, NULL); } static void sbp2_tgt_fini_sobj(sbp2_tgt_t *tp) { cv_destroy(&tp->t_mgt_status_cv); cv_destroy(&tp->t_mgt_agent_cv); mutex_destroy(&tp->t_mutex); } static int sbp2_tgt_init_params(sbp2_tgt_t *tp) { sbp2_cfgrom_ent_t *root = &tp->t_cfgrom.cr_root; sbp2_cfgrom_ent_t *ent; uint32_t q; /* MANAGEMENT_AGENT */ if ((ent = sbp2_cfgrom_ent_by_key(root, SBP2_KT_MGT_AGENT, SBP2_KV_MGT_AGENT, 0)) == NULL) { return (SBP2_ECFGROM); } tp->t_mgt_agent = SBP2_CSR_BASE(tp) + ent->ce_data.offset * 4; /* Unit_Characteristics */ if ((ent = sbp2_cfgrom_ent_by_key(root, SBP2_KT_UNCHAR, SBP2_KV_UNCHAR, 0)) == NULL) { return (SBP2_ECFGROM); } q = ent->ce_data.imm; /* units of 500 ms -> ms */ tp->t_mot = ((q & SBP2_UNCHAR_MOT) >> SBP2_UNCHAR_MOT_SHIFT) * 500; /* quadlets -> bytes */ tp->t_orb_size = (q & SBP2_UNCHAR_ORB_SIZE) * 4; /* some devices return incorrect values */ if (tp->t_mot < SBP2_MOT_MIN) { tp->t_mot = SBP2_MOT_DFLT; } if (tp->t_orb_size < SBP2_ORB_SIZE_MIN) { tp->t_orb_size = SBP2_ORB_SIZE_MIN; } return (SBP2_SUCCESS); } /*ARGSUSED*/ static int sbp2_tgt_init_luns(sbp2_tgt_t *tp, int maxluns) { sbp2_cfgrom_ent_t *root = &tp->t_cfgrom.cr_root; sbp2_cfgrom_ent_t *ent; sbp2_lun_t *lp; uint32_t q; ASSERT(tp->t_nluns == 0); tp->t_lun = kmem_zalloc(maxluns * sizeof (sbp2_lun_t), KM_SLEEP); tp->t_nluns_alloc = maxluns; /* search for Logical_Unit_Number's */ for (tp->t_nluns = 0; tp->t_nluns < maxluns; tp->t_nluns++) { if ((ent = sbp2_cfgrom_ent_by_key(root, SBP2_KT_LUN, SBP2_KV_LUN, tp->t_nluns)) == NULL) { break; } q = ent->ce_data.imm; lp = &tp->t_lun[tp->t_nluns]; lp->l_tgt = tp; lp->l_lun = q & SBP2_LUN_NUM; lp->l_type = (q & SBP2_LUN_TYPE) >> SBP2_LUN_TYPE_SHIFT; mutex_init(&lp->l_orb_freelist.bl_mutex, NULL, MUTEX_DRIVER, NULL); } if (tp->t_nluns > 0) { return (SBP2_SUCCESS); } else { kmem_free(tp->t_lun, tp->t_nluns_alloc * sizeof (sbp2_lun_t)); return (SBP2_ECFGROM); } } static void sbp2_tgt_fini_luns(sbp2_tgt_t *tp) { int i; sbp2_lun_t *lp; /* destroy each lun */ for (i = 0; i < tp->t_nluns; i++) { lp = &tp->t_lun[i]; sbp2_orb_freelist_destroy(lp); mutex_destroy(&lp->l_orb_freelist.bl_mutex); } kmem_free(tp->t_lun, tp->t_nluns_alloc * sizeof (sbp2_lun_t)); } /* * initialize bus buffers and commands */ static int sbp2_tgt_init_bus(sbp2_tgt_t *tp) { int ret; /* * We serialize management requests and reuse the same buffers. * * mgt ORB */ tp->t_mgt_orb_buf.bb_len = SBP2_ORB_SIZE_ROUNDUP(tp, sizeof (sbp2_mgt_orb_t)); tp->t_mgt_orb_buf.bb_flags = SBP2_BUS_BUF_DMA | SBP2_BUS_BUF_RD; if ((ret = SBP2_ALLOC_BUF(tp, &tp->t_mgt_orb_buf)) != SBP2_SUCCESS) { sbp2_tgt_fini_bus(tp); return (ret); } /* * mgt status FIFO */ tp->t_mgt_status_fifo_buf.bb_len = sizeof (sbp2_status_t); tp->t_mgt_status_fifo_buf.bb_flags = SBP2_BUS_BUF_WR_POSTED; tp->t_mgt_status_fifo_buf.bb_wb_cb = sbp2_mgt_status_fifo_wb_cb; tp->t_mgt_status_fifo_buf.bb_sbp2_priv = tp; if ((ret = SBP2_ALLOC_BUF(tp, &tp->t_mgt_status_fifo_buf)) != SBP2_SUCCESS) { return (ret); } /* * login response */ tp->t_mgt_login_resp_buf.bb_len = SBP2_ORB_SIZE_ROUNDUP(tp, sizeof (sbp2_login_resp_t)); /* * read-only should have been sufficient here, but it causes * DVMA errors on Grover, while read/write works just fine */ tp->t_mgt_login_resp_buf.bb_flags = SBP2_BUS_BUF_DMA | SBP2_BUS_BUF_RW; if ((ret = SBP2_ALLOC_BUF(tp, &tp->t_mgt_login_resp_buf)) != SBP2_SUCCESS) { sbp2_tgt_fini_bus(tp); return (ret); } /* * allocate bus commands */ if ((ret = SBP2_ALLOC_CMD(tp, &tp->t_mgt_cmd, 0)) != SBP2_SUCCESS) { sbp2_tgt_fini_bus(tp); return (ret); } if ((tp->t_mgt_cmd_data = allocb(8, BPRI_HI)) == NULL) { sbp2_tgt_fini_bus(tp); return (SBP2_ENOMEM); } return (SBP2_SUCCESS); } static void sbp2_tgt_fini_bus(sbp2_tgt_t *tp) { if (tp->t_mgt_status_fifo_buf.bb_hdl != NULL) { SBP2_FREE_BUF(tp, &tp->t_mgt_status_fifo_buf); } if (tp->t_mgt_orb_buf.bb_hdl != NULL) { SBP2_FREE_BUF(tp, &tp->t_mgt_orb_buf); } if (tp->t_mgt_login_resp_buf.bb_hdl != NULL) { SBP2_FREE_BUF(tp, &tp->t_mgt_login_resp_buf); } if (tp->t_mgt_cmd) { SBP2_FREE_CMD(tp, tp->t_mgt_cmd); tp->t_mgt_cmd = NULL; } if (tp->t_mgt_cmd_data) { freeb(tp->t_mgt_cmd_data); tp->t_mgt_cmd_data = NULL; } } void sbp2_tgt_disconnect(sbp2_tgt_t *tp) { sbp2_tgt_fini_bus(tp); } int sbp2_tgt_reconnect(sbp2_tgt_t *tp) { return (sbp2_tgt_init_bus(tp)); } /* * send mgt ORB and wait for status * * mgt agent should be acquired */ static int sbp2_tgt_mgt_request(sbp2_tgt_t *tp, int *berr) { clock_t until; int ret; /* * When a ctl operation happens from HAL - this could be 0! * This will happen when a device is disconected and then * reconnected. Note there are problems with not being able * to detach/eject a target before unplugging. That can cause * this to happen... This problem needs some work elseware! * This just prevents a needless panic. If we return failure * the target ultimatly will recover and is usable. */ if (tp->t_mgt_cmd_data == 0) { return (SBP2_FAILURE); } tp->t_mgt_status_rcvd = B_FALSE; /* write ORB address into MANAGEMENT_AGENT */ SBP2_ADDR_SET(tp->t_mgt_cmd_data->b_rptr, tp->t_mgt_orb_buf.bb_baddr, 0); tp->t_mgt_cmd_data->b_wptr = tp->t_mgt_cmd_data->b_rptr + 8; if ((ret = SBP2_WB(tp, tp->t_mgt_cmd, tp->t_mgt_agent, tp->t_mgt_cmd_data, 8, berr)) != SBP2_SUCCESS) { return (ret); } /* wait for login response */ mutex_enter(&tp->t_mutex); until = ddi_get_lbolt() + drv_usectohz(tp->t_mot * 1000); ret = 1; while (!tp->t_mgt_status_rcvd && (ret > 0)) { ret = cv_timedwait(&tp->t_mgt_status_cv, &tp->t_mutex, until); } if (!tp->t_mgt_status_rcvd) { ret = SBP2_ETIMEOUT; } else if ((tp->t_mgt_status.st_param & SBP2_ST_RESP) == SBP2_ST_RESP_COMPLETE) { ret = SBP2_SUCCESS; } else { ret = SBP2_FAILURE; } mutex_exit(&tp->t_mutex); return (ret); } /* * Send task management request, one of: * * ABORT TASK, ABORT TASK SET, LOGICAL UNIT RESET, TARGET RESET */ static int sbp2_tgt_task_mgt_request(sbp2_tgt_t *tp, uint16_t id, int func, uint64_t orbp, int *berr) { sbp2_task_mgt_orb_t *torb; int ret; sbp2_mgt_agent_acquire(tp); torb = (sbp2_task_mgt_orb_t *)tp->t_mgt_orb_buf.bb_kaddr; bzero(torb, sizeof (sbp2_task_mgt_orb_t)); SBP2_ORBP_SET(torb->to_orb, orbp); torb->to_params = SBP2_SWAP16(func | SBP2_ORB_NOTIFY | SBP2_ORB_RQ_FMT_SBP2); torb->to_login_id = SBP2_SWAP16(id); SBP2_ADDR_SET(torb->to_status_fifo, tp->t_mgt_status_fifo_buf.bb_baddr, 0); ret = sbp2_tgt_mgt_request(tp, berr); sbp2_mgt_agent_release(tp); return (ret); } int sbp2_tgt_reset(sbp2_tgt_t *tp, int *berr) { sbp2_lun_t *lp = &tp->t_lun[0]; int ret; /* issue TARGET RESET */ if ((ret = sbp2_tgt_task_mgt_request(tp, lp->l_login_resp.lr_login_id, SBP2_ORB_MGT_FUNC_TARGET_RESET, 0, berr)) != SBP2_SUCCESS) { return (ret); } return (SBP2_SUCCESS); } int sbp2_tgt_get_cfgrom(sbp2_tgt_t *tp, sbp2_cfgrom_t **crpp) { *crpp = &tp->t_cfgrom; return (SBP2_SUCCESS); } int sbp2_tgt_get_lun_cnt(sbp2_tgt_t *tp) { return (tp->t_nluns); } sbp2_lun_t * sbp2_tgt_get_lun(sbp2_tgt_t *tp, int num) { if (num < tp->t_nluns) { return (&tp->t_lun[num]); } else { return (NULL); } } /* * * --- lun routines * */ int sbp2_lun_reset(sbp2_lun_t *lp, int *berr) { sbp2_tgt_t *tp = lp->l_tgt; sbp2_ses_t *sp = lp->l_ses; sbp2_task_t *task = NULL; int ret; /* issue LOGICAL UNIT RESET */ if ((ret = sbp2_tgt_task_mgt_request(tp, lp->l_login_resp.lr_login_id, SBP2_ORB_MGT_FUNC_LUN_RESET, 0, berr)) != SBP2_SUCCESS) { return (ret); } /* mark all pending tasks reset and notify the driver */ mutex_enter(&sp->s_task_mutex); for (task = sp->s_task_head; task != NULL; task = task->ts_next) { if (task->ts_state < SBP2_TASK_COMP) { task->ts_error = SBP2_TASK_ERR_LUN_RESET; task->ts_state = SBP2_TASK_COMP; } } mutex_exit(&sp->s_task_mutex); sp->s_status_cb(sp->s_status_cb_arg, NULL); return (SBP2_SUCCESS); } int sbp2_lun_login(sbp2_lun_t *lp, sbp2_ses_t **spp, void (*cb)(void *, sbp2_task_t *), void *cb_arg, int *berr) { sbp2_tgt_t *tp = lp->l_tgt; sbp2_ses_t *sp; sbp2_login_orb_t *lorb; int ret; if (cb == NULL) { return (SBP2_EINVAL); } /* multiple sessions not supported yet */ if (lp->l_ses != NULL) { return (SBP2_EALREADY); } if ((ret = sbp2_ses_init(&sp, lp, cb, cb_arg)) != SBP2_SUCCESS) { return (ret); } lp->l_ses = sp; sbp2_mgt_agent_acquire(tp); /* prepare login ORB */ mutex_enter(&tp->t_mutex); lorb = (sbp2_login_orb_t *)tp->t_mgt_orb_buf.bb_kaddr; bzero(lorb, sizeof (sbp2_login_orb_t)); SBP2_ADDR_SET(lorb->lo_resp, tp->t_mgt_login_resp_buf.bb_baddr, 0); lorb->lo_params = SBP2_SWAP16(SBP2_ORB_MGT_FUNC_LOGIN | SBP2_ORB_LOGIN_EXCL | SBP2_ORB_NOTIFY | SBP2_ORB_RQ_FMT_SBP2); lorb->lo_lun = SBP2_SWAP16(lp->l_lun); lorb->lo_resp_len = SBP2_SWAP16(tp->t_mgt_login_resp_buf.bb_len); SBP2_ADDR_SET(lorb->lo_status_fifo, sp->s_status_fifo_buf.bb_baddr, 0); bzero(tp->t_mgt_login_resp_buf.bb_kaddr, sizeof (sbp2_login_resp_t)); lp->l_logged_in = B_FALSE; mutex_exit(&tp->t_mutex); /* send request */ if ((ret = sbp2_tgt_mgt_request(tp, berr)) != SBP2_SUCCESS) { sbp2_mgt_agent_release(tp); sbp2_ses_fini(lp->l_ses); lp->l_ses = NULL; return (ret); } /* retrieve response data (XXX sanity checks?) */ mutex_enter(&tp->t_mutex); (void) SBP2_SYNC_BUF(tp, &tp->t_mgt_login_resp_buf, 0, 0, DDI_DMA_SYNC_FORKERNEL); bcopy(tp->t_mgt_login_resp_buf.bb_kaddr, &lp->l_login_resp, sizeof (sbp2_login_resp_t)); /* convert from BE to native endianness */ SBP2_SWAP16_1(lp->l_login_resp.lr_len); SBP2_SWAP16_1(lp->l_login_resp.lr_login_id); SBP2_SWAP32_2(lp->l_login_resp.lr_cmd_agent); SBP2_SWAP16_1(lp->l_login_resp.lr_reconnect_hold); lp->l_login_resp.lr_reconnect_hold++; sp->s_agent_offset = SBP2_ADDR2UINT64(lp->l_login_resp.lr_cmd_agent); lp->l_logged_in = B_TRUE; mutex_exit(&tp->t_mutex); sbp2_mgt_agent_release(tp); if ((ret = sbp2_agent_init(&sp->s_agent, sp->s_agent_offset, tp)) != SBP2_SUCCESS) { sbp2_ses_fini(sp); lp->l_ses = NULL; return (ret); } *spp = lp->l_ses; return (SBP2_SUCCESS); } /*ARGSUSED*/ int sbp2_lun_logout(sbp2_lun_t *lp, sbp2_ses_t **sp, int *berr, boolean_t phys) { sbp2_tgt_t *tp = lp->l_tgt; ASSERT(*sp == lp->l_ses); mutex_enter(&tp->t_mutex); if (lp->l_logged_in) { lp->l_logged_in = B_FALSE; /* do physical LOGOUT if requested */ if (phys) { mutex_exit(&tp->t_mutex); sbp2_lun_logout_orb(lp, tp, berr); mutex_enter(&tp->t_mutex); } } sbp2_agent_fini(&lp->l_ses->s_agent); sbp2_ses_fini(lp->l_ses); lp->l_ses = NULL; *sp = NULL; mutex_exit(&tp->t_mutex); return (SBP2_SUCCESS); } /* * Issue LOGOUT mgt orb and wait for response. We are not interested in * the success at the time, since the device may be disconnected or hung, * just trying to make the best effort. */ static void sbp2_lun_logout_orb(sbp2_lun_t *lp, sbp2_tgt_t *tp, int *berr) { sbp2_logout_orb_t *lorb; sbp2_mgt_agent_acquire(tp); /* prepare logout ORB */ lorb = (sbp2_logout_orb_t *)tp->t_mgt_orb_buf.bb_kaddr; bzero(lorb, sizeof (sbp2_logout_orb_t)); lorb->lo_params = SBP2_SWAP16(SBP2_ORB_MGT_FUNC_LOGOUT | SBP2_ORB_NOTIFY | SBP2_ORB_RQ_FMT_SBP2); lorb->lo_login_id = SBP2_SWAP16(lp->l_login_resp.lr_login_id); SBP2_ADDR_SET(lorb->lo_status_fifo, tp->t_mgt_status_fifo_buf.bb_baddr, 0); /* send request */ (void) sbp2_tgt_mgt_request(tp, berr); sbp2_mgt_agent_release(tp); } static boolean_t sbp2_lun_accepting_tasks(sbp2_lun_t *lp) { sbp2_tgt_t *tp = lp->l_tgt; boolean_t ret; mutex_enter(&tp->t_mutex); ret = ((lp->l_ses != NULL) && lp->l_logged_in && !lp->l_reconnecting); mutex_exit(&tp->t_mutex); return (ret); } /* * * --- session routines * */ static int sbp2_ses_init(sbp2_ses_t **spp, sbp2_lun_t *lp, void (*cb)(void *, sbp2_task_t *), void *cb_arg) { sbp2_tgt_t *tp = lp->l_tgt; sbp2_ses_t *sp; int ret; sp = kmem_zalloc(sizeof (sbp2_ses_t), KM_SLEEP); sp->s_tgt = tp; sp->s_lun = lp; sp->s_status_cb = cb; sp->s_status_cb_arg = cb_arg; mutex_init(&sp->s_mutex, NULL, MUTEX_DRIVER, SBP2_GET_IBLOCK_COOKIE(tp)); mutex_init(&sp->s_task_mutex, NULL, MUTEX_DRIVER, SBP2_GET_IBLOCK_COOKIE(tp)); /* * status FIFO for block requests */ sp->s_status_fifo_buf.bb_len = sizeof (sbp2_status_t); sp->s_status_fifo_buf.bb_flags = SBP2_BUS_BUF_WR_POSTED; sp->s_status_fifo_buf.bb_wb_cb = sbp2_status_fifo_wb_cb; sp->s_status_fifo_buf.bb_sbp2_priv = sp; if ((ret = SBP2_ALLOC_BUF(tp, &sp->s_status_fifo_buf)) != SBP2_SUCCESS) { sbp2_ses_fini(sp); return (ret); } *spp = sp; return (SBP2_SUCCESS); } static void sbp2_ses_fini(sbp2_ses_t *sp) { sbp2_tgt_t *tp = sp->s_lun->l_tgt; if (sp->s_status_fifo_buf.bb_hdl != NULL) { SBP2_FREE_BUF(tp, &sp->s_status_fifo_buf); } mutex_destroy(&sp->s_task_mutex); mutex_destroy(&sp->s_mutex); kmem_free(sp, sizeof (sbp2_ses_t)); } int sbp2_ses_reconnect(sbp2_ses_t *sp, int *berr, uint16_t nodeID) { sbp2_tgt_t *tp = sp->s_tgt; sbp2_lun_t *lp = sp->s_lun; int ret; /* prevent new tasks from being submitted */ mutex_enter(&tp->t_mutex); lp->l_reconnecting = B_TRUE; mutex_exit(&tp->t_mutex); /* * From 10.5 Task management event matrix: * Immediately upon detection of a bus reset, all command * block fetch agents transition to the reset state and * their associated task sets are cleared without * the return of completion status. * * Reset pending tasks so we can retry them later. */ sbp2_ses_reset_pending_tasks(sp, nodeID); ret = sbp2_ses_reconnect_orb(sp, berr); mutex_enter(&tp->t_mutex); lp->l_reconnecting = B_FALSE; mutex_exit(&tp->t_mutex); return (ret); } /* * Send reconnect ORB. If operation fails, set lp->l_logged_in = B_FALSE. */ static int sbp2_ses_reconnect_orb(sbp2_ses_t *sp, int *berr) { sbp2_tgt_t *tp = sp->s_tgt; sbp2_lun_t *lp = sp->s_lun; sbp2_agent_t *ap = &sp->s_agent; sbp2_reconnect_orb_t *rorb; int ret; sbp2_mgt_agent_acquire(tp); /* prepare login ORB */ rorb = (sbp2_reconnect_orb_t *)tp->t_mgt_orb_buf.bb_kaddr; bzero(rorb, sizeof (sbp2_reconnect_orb_t)); rorb->ro_params = SBP2_SWAP16(SBP2_ORB_MGT_FUNC_RECONNECT | SBP2_ORB_NOTIFY | SBP2_ORB_RQ_FMT_SBP2); rorb->ro_login_id = SBP2_SWAP16(lp->l_login_resp.lr_login_id); SBP2_ADDR_SET(rorb->ro_status_fifo, tp->t_mgt_status_fifo_buf.bb_baddr, 0); /* send request */ if ((ret = sbp2_tgt_mgt_request(tp, berr)) != SBP2_SUCCESS) { mutex_enter(&tp->t_mutex); lp->l_logged_in = B_FALSE; mutex_exit(&tp->t_mutex); } else { /* after successful reset fetch agent is in RESET state */ mutex_enter(&ap->a_mutex); ap->a_state = SBP2_AGENT_STATE_RESET; mutex_exit(&ap->a_mutex); } sbp2_mgt_agent_release(tp); return (ret); } static sbp2_task_t * sbp2_ses_orbp2task(sbp2_ses_t *sp, uint64_t orbp) { sbp2_task_t *task; mutex_enter(&sp->s_task_mutex); for (task = sp->s_task_head; task != NULL; task = task->ts_next) { if (task->ts_buf->bb_baddr == orbp) { break; } } mutex_exit(&sp->s_task_mutex); return (task); } /* * This is where tasks (command ORB's) are signalled to the target. * 'task' argument is allowed to be NULL, in which case the task will be * taken from the current task list. * * Tasks are signalled one at a time by writing into ORB_POINTER register. * While SBP-2 allows dynamic task list updates and using DOORBELL register, * some devices have bugs that prevent using this strategy: e.g. some LaCie * HDD's can corrupt data. Data integrity is more important than performance. */ int sbp2_ses_submit_task(sbp2_ses_t *sp, sbp2_task_t *new_task) { sbp2_agent_t *ap = &sp->s_agent; sbp2_tgt_t *tp = sp->s_tgt; sbp2_task_t *task; /* task actually being submitted */ boolean_t callback; timeout_id_t timeout_id; int ret; if (!sbp2_lun_accepting_tasks(sp->s_lun)) { return (SBP2_ENODEV); } sbp2_agent_acquire(ap); /* serialize */ mutex_enter(&ap->a_mutex); /* if task provided, append it to the list */ if (new_task != NULL) { ASSERT(new_task->ts_state == SBP2_TASK_INIT); sbp2_ses_append_task(sp, new_task); } /* if there is already a task in flight, exit */ if ((ap->a_active_task != NULL) && (ap->a_active_task->ts_state == SBP2_TASK_PEND)) { mutex_exit(&ap->a_mutex); sbp2_agent_release(ap); return (SBP2_SUCCESS); } /* * cannot submit tasks from interrupt context, * upper layer driver is responsible to call nudge */ if (servicing_interrupt()) { mutex_exit(&ap->a_mutex); sbp2_agent_release(ap); return (SBP2_ECONTEXT); } /* no active task, grab the first one on the list in INIT state */ ap->a_active_task = sbp2_ses_find_task_state(sp, SBP2_TASK_INIT); if (ap->a_active_task == NULL) { mutex_exit(&ap->a_mutex); sbp2_agent_release(ap); return (SBP2_SUCCESS); } task = ap->a_active_task; task->ts_ses = sp; task->ts_state = SBP2_TASK_PEND; /* can't work with a dead agent */ if (sbp2_agent_keepalive(ap, &task->ts_bus_error) != SBP2_SUCCESS) { task->ts_error = SBP2_TASK_ERR_DEAD; goto error; } /* * In theory, we should schedule task timeout after it's been submitted. * However, some fast tasks complete even before timeout is scheduled. * To avoid additional complications in the code, schedule timeout now. */ ASSERT(task->ts_timeout_id == 0); task->ts_time_start = gethrtime(); if (task->ts_timeout > 0) { task->ts_timeout_id = timeout(sbp2_task_timeout, task, task->ts_timeout * drv_usectohz(1000000)); } /* notify fetch agent */ ap->a_state = SBP2_AGENT_STATE_ACTIVE; mutex_exit(&ap->a_mutex); ret = sbp2_agent_write_orbp(ap, task->ts_buf->bb_baddr, &task->ts_bus_error); tp->t_stat.stat_submit_orbp++; mutex_enter(&ap->a_mutex); if (ret != SBP2_SUCCESS) { ap->a_state = SBP2_AGENT_STATE_DEAD; tp->t_stat.stat_status_dead++; if (task->ts_timeout_id != 0) { timeout_id = task->ts_timeout_id; task->ts_timeout_id = 0; (void) untimeout(timeout_id); } task->ts_error = SBP2_TASK_ERR_BUS; goto error; } mutex_exit(&ap->a_mutex); sbp2_agent_release(ap); return (SBP2_SUCCESS); error: /* * Return immediate error if failed task is the one being submitted, * otherwise use callback. */ callback = (ap->a_active_task != new_task); ASSERT(task == ap->a_active_task); ap->a_active_task = NULL; mutex_exit(&ap->a_mutex); sbp2_agent_release(ap); /* * Remove task from the list. It is important not to change task state * to SBP2_TASK_COMP while it's still on the list, to avoid race with * upper layer driver (e.g. scsa1394). */ ret = sbp2_ses_remove_task(sp, task); ASSERT(ret == SBP2_SUCCESS); task->ts_state = SBP2_TASK_COMP; if (callback) { sp->s_status_cb(sp->s_status_cb_arg, task); return (SBP2_SUCCESS); } else { /* upper layer driver is responsible to call nudge */ return (SBP2_FAILURE); } } void sbp2_ses_nudge(sbp2_ses_t *sp) { (void) sbp2_ses_submit_task(sp, NULL); } /* * append task to the task list */ static void sbp2_ses_append_task(sbp2_ses_t *sp, sbp2_task_t *task) { sbp2_tgt_t *tp = sp->s_tgt; mutex_enter(&sp->s_task_mutex); if (sp->s_task_head == NULL) { ASSERT(sp->s_task_tail == NULL); ASSERT(sp->s_task_cnt == 0); task->ts_prev = task->ts_next = NULL; sp->s_task_head = sp->s_task_tail = task; } else { ASSERT(sp->s_task_cnt > 0); task->ts_next = NULL; task->ts_prev = sp->s_task_tail; sp->s_task_tail->ts_next = task; sp->s_task_tail = task; } ASSERT(task != task->ts_prev); ASSERT(task != task->ts_next); sp->s_task_cnt++; if (sp->s_task_cnt > tp->t_stat.stat_task_max) { tp->t_stat.stat_task_max = sp->s_task_cnt; } mutex_exit(&sp->s_task_mutex); } /* * remove task from the task list */ static int sbp2_ses_remove_task_locked(sbp2_ses_t *sp, sbp2_task_t *task) { sp->s_task_cnt--; if (task == sp->s_task_head) { /* first */ ASSERT(task->ts_prev == NULL); if (task->ts_next == NULL) { /* and last */ ASSERT(sp->s_task_cnt == 0); sp->s_task_head = sp->s_task_tail = NULL; } else { /* but not last */ sp->s_task_head = task->ts_next; sp->s_task_head->ts_prev = NULL; } } else if (task == sp->s_task_tail) { /* last but not first */ ASSERT(task->ts_next == NULL); sp->s_task_tail = task->ts_prev; sp->s_task_tail->ts_next = NULL; } else { /* in the middle */ task->ts_prev->ts_next = task->ts_next; task->ts_next->ts_prev = task->ts_prev; } task->ts_prev = task->ts_next = NULL; ASSERT(sp->s_task_cnt >= 0); return (SBP2_SUCCESS); } int sbp2_ses_remove_task(sbp2_ses_t *sp, sbp2_task_t *task) { int ret; mutex_enter(&sp->s_task_mutex); ret = sbp2_ses_remove_task_locked(sp, task); mutex_exit(&sp->s_task_mutex); return (ret); } /* * Return first task on the list in specified state. */ sbp2_task_t * sbp2_ses_find_task_state(sbp2_ses_t *sp, sbp2_task_state_t state) { sbp2_task_t *task = NULL; mutex_enter(&sp->s_task_mutex); for (task = sp->s_task_head; task != NULL; task = task->ts_next) { if (task->ts_state == state) { break; } } mutex_exit(&sp->s_task_mutex); return (task); } /* * Remove first task on the list. Returns pointer to the removed task or NULL. */ sbp2_task_t * sbp2_ses_remove_first_task(sbp2_ses_t *sp) { sbp2_task_t *task = NULL; mutex_enter(&sp->s_task_mutex); task = sp->s_task_head; if (task != NULL) { (void) sbp2_ses_remove_task_locked(sp, task); } mutex_exit(&sp->s_task_mutex); return (task); } /* * Remove first task on the list only if it's in specified state. * Returns pointer to the removed task or NULL. */ sbp2_task_t * sbp2_ses_remove_first_task_state(sbp2_ses_t *sp, sbp2_task_state_t state) { sbp2_task_t *task = NULL; mutex_enter(&sp->s_task_mutex); if ((sp->s_task_head != NULL) && (sp->s_task_head->ts_state == state)) { task = sp->s_task_head; (void) sbp2_ses_remove_task_locked(sp, task); } mutex_exit(&sp->s_task_mutex); return (task); } /* * Remove first task on the list. If there's timeout, untimeout it. * Returns pointer to the removed task or NULL. */ sbp2_task_t * sbp2_ses_cancel_first_task(sbp2_ses_t *sp) { sbp2_task_t *task = NULL; timeout_id_t timeout_id; mutex_enter(&sp->s_task_mutex); task = sp->s_task_head; if (task != NULL) { (void) sbp2_ses_remove_task_locked(sp, task); } mutex_exit(&sp->s_task_mutex); if ((task != NULL) && ((timeout_id = task->ts_timeout_id) != 0)) { task->ts_timeout_id = 0; (void) untimeout(timeout_id); } return (task); } /* * Reset pending tasks on the list to their initial state. */ static void sbp2_ses_reset_pending_tasks(sbp2_ses_t *sp, uint16_t nodeID) { sbp2_agent_t *ap = &sp->s_agent; sbp2_task_t *task = NULL; timeout_id_t timeout_id; sbp2_cmd_orb_t *orb; mutex_enter(&sp->s_task_mutex); for (task = sp->s_task_head; task != NULL; task = task->ts_next) { task->ts_state = SBP2_TASK_INIT; /* cancel timeout */ if ((timeout_id = task->ts_timeout_id) != 0) { task->ts_timeout_id = 0; (void) untimeout(timeout_id); } /* update ORB nodeID */ orb = (sbp2_cmd_orb_t *)sbp2_task_orb_kaddr(task); *(uint16_t *)orb->co_data_descr = SBP2_SWAP16(nodeID); sbp2_task_orb_sync(sp->s_lun, task, DDI_DMA_SYNC_FORDEV); } mutex_exit(&sp->s_task_mutex); mutex_enter(&ap->a_mutex); ap->a_active_task = NULL; mutex_exit(&ap->a_mutex); } int sbp2_ses_agent_reset(sbp2_ses_t *sp, int *berr) { return (sbp2_agent_reset(&sp->s_agent, berr)); } int sbp2_ses_abort_task(sbp2_ses_t *sp, sbp2_task_t *task, int *berr) { sbp2_tgt_t *tp = sp->s_tgt; sbp2_lun_t *lp = sp->s_lun; uint16_t params; sbp2_cmd_orb_t *orb = (sbp2_cmd_orb_t *)task->ts_buf->bb_kaddr; int ret = SBP2_SUCCESS; /* mark ORB as dummy ORB */ params = (orb->co_params & ~SBP2_ORB_RQ_FMT) | SBP2_ORB_RQ_FMT_DUMMY; orb->co_params = params; (void) SBP2_SYNC_BUF(tp, task->ts_buf, 0, 0, DDI_DMA_SYNC_FORDEV); ret = sbp2_tgt_task_mgt_request(tp, lp->l_login_resp.lr_login_id, SBP2_ORB_MGT_FUNC_ABORT_TASK, task->ts_buf->bb_baddr, berr); return (ret); } int sbp2_ses_abort_task_set(sbp2_ses_t *sp, int *berr) { sbp2_tgt_t *tp = sp->s_tgt; sbp2_lun_t *lp = sp->s_lun; int ret; ret = sbp2_tgt_task_mgt_request(tp, lp->l_login_resp.lr_login_id, SBP2_ORB_MGT_FUNC_ABORT_TASK_SET, 0, berr); return (ret); } /* * * ORB functions * * allocate ORB resources * * we maintain a freelist of ORB's for faster allocation */ /*ARGSUSED*/ static sbp2_bus_buf_t * sbp2_orb_freelist_get(sbp2_lun_t *lp, sbp2_task_t *task, int len) { sbp2_buf_list_t *bl = &lp->l_orb_freelist; sbp2_bus_buf_t *buf = NULL; mutex_enter(&bl->bl_mutex); if ((bl->bl_head != NULL) && (bl->bl_head->bb_len == len)) { buf = bl->bl_head; bl->bl_head = buf->bb_next; if (bl->bl_tail == buf) { /* last one? */ ASSERT(bl->bl_head == NULL); bl->bl_tail = NULL; } bl->bl_len--; buf->bb_next = NULL; } mutex_exit(&bl->bl_mutex); return (buf); } static int sbp2_orb_freelist_put(sbp2_lun_t *lp, sbp2_bus_buf_t *buf) { sbp2_buf_list_t *bl = &lp->l_orb_freelist; int ret; mutex_enter(&bl->bl_mutex); if (bl->bl_len < SBP2_ORB_FREELIST_MAX) { if (bl->bl_head == NULL) { ASSERT(bl->bl_tail == NULL); bl->bl_head = bl->bl_tail = buf; } else { bl->bl_tail->bb_next = buf; bl->bl_tail = buf; } buf->bb_next = NULL; bl->bl_len++; ret = SBP2_SUCCESS; } else { ret = SBP2_FAILURE; } mutex_exit(&bl->bl_mutex); return (ret); } static void sbp2_orb_freelist_destroy(sbp2_lun_t *lp) { sbp2_tgt_t *tp = lp->l_tgt; sbp2_buf_list_t *bl = &lp->l_orb_freelist; sbp2_bus_buf_t *buf, *buf_next; mutex_enter(&bl->bl_mutex); for (buf = bl->bl_head; buf != NULL; ) { SBP2_FREE_BUF(tp, buf); buf_next = buf->bb_next; kmem_free(buf, sizeof (sbp2_bus_buf_t)); buf = buf_next; } bl->bl_head = bl->bl_tail = NULL; mutex_exit(&bl->bl_mutex); } int sbp2_task_orb_alloc(sbp2_lun_t *lp, sbp2_task_t *task, int len) { sbp2_tgt_t *tp = lp->l_tgt; int buf_len; int ret; buf_len = SBP2_ORB_SIZE_ROUNDUP(tp, len); /* try freelist first */ if ((task->ts_buf = sbp2_orb_freelist_get(lp, task, buf_len)) != NULL) { return (SBP2_SUCCESS); } /* if no free buffers, allocate new */ task->ts_buf = kmem_zalloc(sizeof (sbp2_bus_buf_t), KM_SLEEP); task->ts_buf->bb_len = buf_len; task->ts_buf->bb_flags = SBP2_BUS_BUF_DMA | SBP2_BUS_BUF_RD; if ((ret = SBP2_ALLOC_BUF(tp, task->ts_buf)) != SBP2_SUCCESS) { kmem_free(task->ts_buf, sizeof (sbp2_bus_buf_t)); task->ts_buf = NULL; } return (ret); } void sbp2_task_orb_free(sbp2_lun_t *lp, sbp2_task_t *task) { sbp2_tgt_t *tp = lp->l_tgt; if (task->ts_buf != NULL) { if (sbp2_orb_freelist_put(lp, task->ts_buf) != SBP2_SUCCESS) { SBP2_FREE_BUF(tp, task->ts_buf); kmem_free(task->ts_buf, sizeof (sbp2_bus_buf_t)); } task->ts_buf = NULL; } } void * sbp2_task_orb_kaddr(sbp2_task_t *task) { return (task->ts_buf->bb_kaddr); } void sbp2_task_orb_sync(sbp2_lun_t *lp, sbp2_task_t *task, int flags) { (void) SBP2_SYNC_BUF(lp->l_tgt, task->ts_buf, 0, 0, flags); } /* * * --- fetch agent routines * */ static int sbp2_agent_init(sbp2_agent_t *ap, uint64_t offset, sbp2_tgt_t *tp) { int ret; /* paranoia */ if (offset == 0) { return (SBP2_FAILURE); } ap->a_tgt = tp; ap->a_reg_agent_state = offset + SBP2_AGENT_STATE_OFFSET; ap->a_reg_agent_reset = offset + SBP2_AGENT_RESET_OFFSET; ap->a_reg_orbp = offset + SBP2_ORB_POINTER_OFFSET; ap->a_reg_doorbell = offset + SBP2_DOORBELL_OFFSET; ap->a_reg_unsol_status_enable = offset + SBP2_UNSOLICITED_STATUS_ENABLE_OFFSET; /* * allocate bus commands */ if ((ret = SBP2_ALLOC_CMD(tp, &ap->a_cmd, 0)) != SBP2_SUCCESS) { return (ret); } ap->a_cmd_data = allocb(sizeof (sbp2_orbp_t), BPRI_HI); if (ap->a_cmd_data == NULL) { sbp2_agent_fini(ap); return (SBP2_ENOMEM); } mutex_init(&ap->a_mutex, NULL, MUTEX_DRIVER, SBP2_GET_IBLOCK_COOKIE(tp)); cv_init(&ap->a_cv, NULL, CV_DRIVER, NULL); #ifndef __lock_lint ap->a_state = SBP2_AGENT_STATE_RESET; #endif return (SBP2_SUCCESS); } static void sbp2_agent_fini(sbp2_agent_t *ap) { sbp2_tgt_t *tp = ap->a_tgt; /* free bus commands */ if (ap->a_cmd != NULL) { SBP2_FREE_CMD(tp, ap->a_cmd); } if (ap->a_cmd_data != NULL) { freeb(ap->a_cmd_data); } cv_destroy(&ap->a_cv); mutex_destroy(&ap->a_mutex); } static void sbp2_agent_acquire_locked(sbp2_agent_t *ap) { while (ap->a_acquired) { cv_wait(&ap->a_cv, &ap->a_mutex); } ap->a_acquired = B_TRUE; } static void sbp2_agent_release_locked(sbp2_agent_t *ap) { ap->a_acquired = B_FALSE; cv_signal(&ap->a_cv); /* wake next waiter */ } static void sbp2_agent_acquire(sbp2_agent_t *ap) { mutex_enter(&ap->a_mutex); sbp2_agent_acquire_locked(ap); mutex_exit(&ap->a_mutex); } static void sbp2_agent_release(sbp2_agent_t *ap) { mutex_enter(&ap->a_mutex); sbp2_agent_release_locked(ap); mutex_exit(&ap->a_mutex); } static int sbp2_agent_keepalive(sbp2_agent_t *ap, int *berr) { boolean_t acquired; int ret = SBP2_SUCCESS; ASSERT(mutex_owned(&ap->a_mutex)); if (ap->a_state == SBP2_AGENT_STATE_DEAD) { acquired = ap->a_acquired; if (!acquired) { sbp2_agent_acquire_locked(ap); } mutex_exit(&ap->a_mutex); ret = sbp2_agent_reset(ap, berr); mutex_enter(&ap->a_mutex); if (!acquired) { sbp2_agent_release_locked(ap); } } return (ret); } #ifndef __lock_lint static int sbp2_agent_doorbell(sbp2_agent_t *ap, int *berr) { return (SBP2_WQ(ap->a_tgt, ap->a_cmd, ap->a_reg_doorbell, 0, berr)); } #endif /* * write into ORB_POINTER register and make sure it reached target * * From E.2: "If no acknowledgement is received by the initiator after a write * to the ORB_POINTER register, the initiator should not retry the write. * The recommended method for error recovery is a write to the AGENT_RESET * register." So we can retry, but not in case of timeout. */ static int sbp2_agent_write_orbp(sbp2_agent_t *ap, uint64_t baddr, int *berr) { int i = 0; int ret; SBP2_ORBP_SET(ap->a_cmd_data->b_rptr, baddr); ap->a_cmd_data->b_wptr = ap->a_cmd_data->b_rptr + 8; for (;;) { ap->a_tgt->t_stat.stat_agent_worbp++; if ((ret = SBP2_WB(ap->a_tgt, ap->a_cmd, ap->a_reg_orbp, ap->a_cmd_data, 8, berr)) == SBP2_SUCCESS) { return (ret); } ap->a_tgt->t_stat.stat_agent_worbp_fail++; if ((ret == SBP2_ETIMEOUT) || (++i > sbp2_write_orbp_nretries)) { break; } if (sbp2_write_orbp_delay > 0) { drv_usecwait(sbp2_write_orbp_delay); } } return (ret); } /* * reset fetch agent by writing into AGENT_RESET register */ static int sbp2_agent_reset(sbp2_agent_t *ap, int *berr) { int i = 0; int ret; for (;;) { ap->a_tgt->t_stat.stat_agent_wreset++; if ((ret = SBP2_WQ(ap->a_tgt, ap->a_cmd, ap->a_reg_agent_reset, 0, berr)) == SBP2_SUCCESS) { mutex_enter(&ap->a_mutex); ap->a_state = SBP2_AGENT_STATE_RESET; mutex_exit(&ap->a_mutex); break; } ap->a_tgt->t_stat.stat_agent_wreset_fail++; if (++i > sbp2_submit_reset_nretries) { break; } if (sbp2_submit_reset_delay > 0) { drv_usecwait(sbp2_submit_reset_delay); } } return (ret); } /* * * --- callbacks and timeouts * */ /* * Status FIFO callback for mgt ORB's. */ /*ARGSUSED*/ static void sbp2_mgt_status_fifo_wb_cb(sbp2_bus_buf_t *buf, void *reqh, mblk_t **bpp) { sbp2_tgt_t *tp = buf->bb_sbp2_priv; int len; sbp2_status_t *st; uint64_t orbp; len = MBLKL(*bpp); /* 8 bytes minimum */ if (len < 8) { SBP2_BUF_WR_DONE(tp, buf, reqh, SBP2_BUS_BUF_ELENGTH); tp->t_stat.stat_status_short++; return; } /* convert 2-quadlet header from BE to native endianness */ st = (sbp2_status_t *)(*bpp)->b_rptr; SBP2_SWAP16_1(st->st_orb_offset_hi); SBP2_SWAP32_1(st->st_orb_offset_lo); orbp = ((uint64_t)st->st_orb_offset_hi << 32) | st->st_orb_offset_lo; if (orbp != tp->t_mgt_orb_buf.bb_baddr) { SBP2_BUF_WR_DONE(tp, buf, reqh, SBP2_BUS_BUF_FAILURE); tp->t_stat.stat_status_mgt_notask++; return; } /* make a local copy of status block */ bzero(&tp->t_mgt_status, sizeof (sbp2_status_t)); bcopy((*bpp)->b_rptr, &tp->t_mgt_status, len); SBP2_BUF_WR_DONE(tp, buf, reqh, SBP2_BUS_BUF_SUCCESS); /* wake up waiter */ mutex_enter(&tp->t_mutex); tp->t_mgt_status_rcvd = B_TRUE; cv_signal(&tp->t_mgt_status_cv); mutex_exit(&tp->t_mutex); } static void sbp2_task_timeout(void *arg) { sbp2_task_t *task = arg; sbp2_ses_t *sp = task->ts_ses; sbp2_agent_t *ap = &sp->s_agent; mutex_enter(&ap->a_mutex); /* cancelled? */ if (task->ts_timeout_id == 0) { mutex_exit(&ap->a_mutex); return; } task->ts_timeout_id = 0; task->ts_time_comp = gethrtime(); /* avoid race with other callbacks */ if (task->ts_state != SBP2_TASK_PEND) { mutex_exit(&ap->a_mutex); return; } if (task == ap->a_active_task) { ap->a_active_task = NULL; } task->ts_error = SBP2_TASK_ERR_TIMEOUT; task->ts_state = SBP2_TASK_COMP; /* we mark agent DEAD so it's reset before next task is submitted */ ap->a_state = SBP2_AGENT_STATE_DEAD; sp->s_tgt->t_stat.stat_status_dead++; mutex_exit(&ap->a_mutex); sp->s_status_cb(sp->s_status_cb_arg, task); } /* * Status FIFO callback for command ORB's. Also used for login ORB. */ /*ARGSUSED*/ static void sbp2_status_fifo_wb_cb(sbp2_bus_buf_t *buf, void *reqh, mblk_t **bpp) { sbp2_ses_t *sp = buf->bb_sbp2_priv; sbp2_tgt_t *tp = sp->s_tgt; sbp2_agent_t *ap = &sp->s_agent; int len; sbp2_status_t *st; uint8_t src; uint64_t orbp; sbp2_task_t *task; timeout_id_t timeout_id; len = MBLKL(*bpp); /* 8 bytes minimum */ if (len < 8) { SBP2_BUF_WR_DONE(tp, buf, reqh, SBP2_BUS_BUF_ELENGTH); tp->t_stat.stat_status_short++; return; } /* convert 2-quadlet header from BE32 to native endianness */ st = (sbp2_status_t *)(*bpp)->b_rptr; SBP2_SWAP16_1(st->st_orb_offset_hi); SBP2_SWAP32_1(st->st_orb_offset_lo); orbp = ((uint64_t)st->st_orb_offset_hi << 32) | st->st_orb_offset_lo; /* login ORB status? */ if (orbp == tp->t_mgt_orb_buf.bb_baddr) { bzero(&tp->t_mgt_status, sizeof (sbp2_status_t)); bcopy((*bpp)->b_rptr, &tp->t_mgt_status, len); SBP2_BUF_WR_DONE(tp, buf, reqh, SBP2_BUS_BUF_SUCCESS); /* wake up waiter */ mutex_enter(&tp->t_mutex); tp->t_mgt_status_rcvd = B_TRUE; cv_signal(&tp->t_mgt_status_cv); mutex_exit(&tp->t_mutex); return; } /* dismiss unsolicited status */ src = st->st_param & SBP2_ST_SRC; if (src == SBP2_ST_SRC_UNSOLICITED) { SBP2_BUF_WR_DONE(tp, buf, reqh, SBP2_BUS_BUF_FAILURE); tp->t_stat.stat_status_unsolicited++; return; } /* find task corresponding to this ORB pointer */ if ((task = sbp2_ses_orbp2task(sp, orbp)) == NULL) { SBP2_BUF_WR_DONE(tp, buf, reqh, SBP2_BUS_BUF_FAILURE); tp->t_stat.stat_status_notask++; return; } /* * Copy status block into a local buffer. * * Note: (ref: B.2) "SBP-2 permits the return of a status block between * two and eight quadlets in length. When a truncated status block * is stored, the omited quadlets shall be interpreted as if zero * values were stored." */ bzero(&task->ts_status, sizeof (sbp2_status_t)); bcopy((*bpp)->b_rptr, &task->ts_status, len); SBP2_BUF_WR_DONE(tp, buf, reqh, SBP2_BUS_BUF_SUCCESS); mutex_enter(&ap->a_mutex); if ((timeout_id = task->ts_timeout_id) != 0) { task->ts_timeout_id = 0; (void) untimeout(timeout_id); } /* determine agent state */ if (st->st_param & SBP2_ST_DEAD) { ap->a_state = SBP2_AGENT_STATE_DEAD; tp->t_stat.stat_status_dead++; } /* avoid race with other callbacks */ if (task->ts_state != SBP2_TASK_PEND) { mutex_exit(&ap->a_mutex); return; } if (task == ap->a_active_task) { ap->a_active_task = NULL; } task->ts_error = SBP2_TASK_ERR_NONE; task->ts_state = SBP2_TASK_COMP; mutex_exit(&ap->a_mutex); sp->s_status_cb(sp->s_status_cb_arg, task); /* notify the driver */ } /* * * --- other * * since mgt agent is shared between LUNs and login sessions, * it is safer to serialize mgt requests */ static void sbp2_mgt_agent_acquire(sbp2_tgt_t *tp) { mutex_enter(&tp->t_mutex); while (tp->t_mgt_agent_acquired) { cv_wait(&tp->t_mgt_agent_cv, &tp->t_mutex); } tp->t_mgt_agent_acquired = B_TRUE; mutex_exit(&tp->t_mutex); } static void sbp2_mgt_agent_release(sbp2_tgt_t *tp) { mutex_enter(&tp->t_mutex); tp->t_mgt_agent_acquired = B_FALSE; cv_signal(&tp->t_mgt_agent_cv); /* wake next waiter */ mutex_exit(&tp->t_mutex); }