/* * 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. */ /* * ibtl_impl.c * * This file contains the IBTF module's initialization and * IBTF Clients/Modules registration routines. */ #include #include #include #include /* * Globals. */ static char ibtf[] = "ibtl_impl"; extern ibtl_ibnex_callback_t ibtl_ibnex_callback_routine; /* * ibtl_clnt_list: * * Head of the list of IBT Client Instances. The IBT Client List * is modified by IBTF on an IBT client's ibt_attach/ibt_detach call. * * ibtl_hca_list: * * Head of the list of HCA devices. The HCA List is modified by IBTF on * a CI's ibc_attach/ibc_detach call. * The datap of the list elements points to an ibtl_hca_devinfo_s * structure. * * (ibc_attach) * ibtl_hca_list -> ibtl_hca_devinfo_t--> ... -->ibtl_hca_devinfo_t * [per-hca_dev] | ^ {nth HCA Dev} * | | * | ibtl_hca_t (ibt_open_hca) * | ^ | * | | | * v | V * ibtl_clnt_list -> ibtl_clnt_t--> ...--> {n'th Module} * [per-client_instance] (ibt_attach) * */ /* Global List of IBT Client Instances, and associated mutex. */ struct ibtl_clnt_s *ibtl_clnt_list = NULL; kmutex_t ibtl_clnt_list_mutex; /* Lock for the race between the client and CM to free QPs. */ kmutex_t ibtl_free_qp_mutex; /* Lock for the race between the client closing the HCA and QPN being freed. */ kcondvar_t ibtl_close_hca_cv; /* Global List of HCA Devices, and associated mutex. */ struct ibtl_hca_devinfo_s *ibtl_hca_list = NULL; /* Well-known async handlers and associated client private. */ ibt_async_handler_t ibtl_cm_async_handler; ibt_async_handler_t ibtl_dm_async_handler; ibt_async_handler_t ibtl_ibma_async_handler; void *ibtl_cm_clnt_private; void *ibtl_dm_clnt_private; void *ibtl_ibma_clnt_private; extern int ib_hw_status; _NOTE(SCHEME_PROTECTS_DATA("Scheme protects data", ib_hw_status)) /* * Misc Module Declarations. */ extern struct mod_ops mod_miscops; static struct modlmisc modlmisc = { &mod_miscops, /* Type of module - misc. */ "IB Transport Layer" /* Name of the Module. */ }; static struct modlinkage modlinkage = { MODREV_1, (void *)&modlmisc, NULL }; /* * IBTF Loadable Module Routines. */ int _init(void) { int rval; if ((rval = mod_install(&modlinkage)) != 0) return (rval); /* * initialize IBTL ib2usec table */ ibtl_ib2usec_init(); /* * Initialize Logging */ ibtl_logging_initialization(); /* * Initialize the Alloc QP States. */ ibtl_init_cep_states(); /* * Initialize all Global Link Lists. */ mutex_init(&ibtl_clnt_list_mutex, NULL, MUTEX_DEFAULT, NULL); mutex_init(&ibtl_free_qp_mutex, NULL, MUTEX_DEFAULT, NULL); cv_init(&ibtl_close_hca_cv, NULL, CV_DEFAULT, NULL); mutex_init(&ibtl_qp_mutex, NULL, MUTEX_DEFAULT, NULL); cv_init(&ibtl_qp_cv, NULL, CV_DEFAULT, NULL); ibtl_thread_init(); return (rval); } /* * The IBTF Module is never unloaded. Actually there is no need of this * routine, but provided just in case. */ int _fini(void) { int rval; if ((rval = mod_remove(&modlinkage)) != 0) { return (rval); } ibtl_thread_fini(); mutex_destroy(&ibtl_clnt_list_mutex); mutex_destroy(&ibtl_free_qp_mutex); cv_destroy(&ibtl_close_hca_cv); mutex_destroy(&ibtl_qp_mutex); cv_destroy(&ibtl_qp_cv); /* * Stop Logging */ ibtl_logging_destroy(); return (rval); } int _info(struct modinfo *modinfop) { /* Return the Module Information. */ return (mod_info(&modlinkage, modinfop)); } /* * IBTF Client Registration Routines. */ /* * Function: * ibt_attach * Input: * modinfop - Client Module info structure. * arg - usually client's dip * clnt_private - client's private data pointer. * Output: * ibt_hdl_p - pointer to client's specific IBT handle, * which is opaque to clients. * Returns: * IBT_SUCCESS * IBT_INVALID_PARAM * Called by: * IBTF Client module during its attach() to register its instance * to IBTF. * Description: * Registers the IBTF client module instance and returns an opaque * handler to the client to be used for future calls to IBTF. * Adds this client module instance to ibtl_clnt_list list. * Records well-known async handlers. */ ibt_status_t ibt_attach(ibt_clnt_modinfo_t *mod_infop, dev_info_t *arg, void *clnt_private, ibt_clnt_hdl_t *ibt_hdl_p) { dev_info_t *pdip; ibtl_clnt_t *clntp; IBTF_DPRINTF_L3(ibtf, "ibt_attach(%p, %p, %p)", mod_infop, arg, clnt_private); if (mod_infop->mi_clnt_name == NULL) { IBTF_DPRINTF_L1(ibtf, "ibt_attach: " "IB client needs to specify its name"); return (IBT_INVALID_PARAM); } /* * Validate the Transport API version. */ if (mod_infop->mi_ibt_version != IBTI_V_CURR) { IBTF_DPRINTF_L1(ibtf, "ibt_attach: IB client '%s' has an " "invalid IB TI Version '%d'", mod_infop->mi_clnt_name, mod_infop->mi_ibt_version); return (IBT_NOT_SUPPORTED); } if (mod_infop->mi_async_handler == NULL) { IBTF_DPRINTF_L2(ibtf, "ibt_attach: Client '%s' has not\n" " provided an Asynchronous Event Handler.\n" " This will be required soon.", mod_infop->mi_clnt_name); } /* * Check out Client's Class information. If it is not of mgmt class, * we expect 'arg' to be Not NULL and point to client driver's * device info struct. */ if ((!IBT_CLNT_MGMT_CLASS(mod_infop->mi_clnt_class)) && (arg == NULL)) { IBTF_DPRINTF_L1(ibtf, "ibt_attach: " "arg not set with driver's dip."); return (IBT_INVALID_PARAM); } if (!IBT_CLNT_MGMT_CLASS(mod_infop->mi_clnt_class)) { pdip = ddi_get_parent(arg); if (pdip == NULL || ibtl_ibnex_valid_hca_parent(pdip) != IBT_SUCCESS) { IBTF_DPRINTF_L2(ibtf, "ibt_attach: " "client %s is not a child of IB nexus driver.", ddi_driver_name(arg)); return (IBT_INVALID_PARAM); } } mutex_enter(&ibtl_clnt_list_mutex); if (mod_infop->mi_clnt_class == IBT_CM) { if (ibtl_cm_async_handler != NULL) { IBTF_DPRINTF_L1(ibtf, "ibt_attach: " "CM is already attached."); mutex_exit(&ibtl_clnt_list_mutex); return (IBT_INVALID_PARAM); } ibtl_cm_async_handler = mod_infop->mi_async_handler; ibtl_cm_clnt_private = clnt_private; } else if (mod_infop->mi_clnt_class == IBT_DM) { if (ibtl_dm_async_handler != NULL) { IBTF_DPRINTF_L1(ibtf, "ibt_attach: " "DM is already attached."); mutex_exit(&ibtl_clnt_list_mutex); return (IBT_INVALID_PARAM); } ibtl_dm_async_handler = mod_infop->mi_async_handler; ibtl_dm_clnt_private = clnt_private; } else if (mod_infop->mi_clnt_class == IBT_IBMA) { if (ibtl_ibma_async_handler != NULL) { IBTF_DPRINTF_L1(ibtf, "ibt_attach: " "IBMF is already attached."); mutex_exit(&ibtl_clnt_list_mutex); return (IBT_INVALID_PARAM); } ibtl_ibma_async_handler = mod_infop->mi_async_handler; ibtl_ibma_clnt_private = clnt_private; } /* Allocate the memory for per-client-device info structure */ clntp = kmem_zalloc(sizeof (ibtl_clnt_t), KM_SLEEP); _NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(clntp->clnt_modinfop, clntp->clnt_dip, clntp->clnt_name, clntp->clnt_async_cnt, clntp->clnt_private)) /* Update the Client info structure */ clntp->clnt_modinfop = mod_infop; /* IBT Client's Mod Info */ clntp->clnt_private = clnt_private; /* IBT Client's private */ clntp->clnt_dip = arg; /* IBT Client's dip */ clntp->clnt_async_cnt = 0; /* using a count of 7 below guarantees it is NULL terminated */ (void) strncpy(clntp->clnt_name, mod_infop->mi_clnt_name, 7); _NOTE(NOW_VISIBLE_TO_OTHER_THREADS(clntp->clnt_modinfop, clntp->clnt_dip, clntp->clnt_name, clntp->clnt_async_cnt, clntp->clnt_private)) /* * Update Client Device Instance List. */ clntp->clnt_list_link = ibtl_clnt_list; ibtl_clnt_list = clntp; mutex_exit(&ibtl_clnt_list_mutex); /* * The ibt_hdl_p is a opaque handle which is the address of * ibt_clnt_t structure passed back to the clients. * The client will pass on this handle in its future calls to IBTF. */ *ibt_hdl_p = clntp; return (IBT_SUCCESS); } /* * Function: * ibt_detach * Input: * ibt_hdl - IBT Handle as returned during ibt_attach call. * Output: * none * Returns: * IBT_SUCCESS * IBT_INVALID_PARAM. * Called by: * IBTF Client module during its detach() to de-register its instance * from IBTF. * Description: * Deregisters the IBTF client module instance from the IBTF. * All resources and any reference to this ibt_hdl will be removed. */ ibt_status_t ibt_detach(ibt_clnt_hdl_t ibt_hdl) { ibtl_clnt_t **clntpp; IBTF_DPRINTF_L3(ibtf, "ibt_detach(%p)", ibt_hdl); mutex_enter(&ibtl_clnt_list_mutex); clntpp = &ibtl_clnt_list; for (; *clntpp != NULL; clntpp = &(*clntpp)->clnt_list_link) if (*clntpp == ibt_hdl) break; if (*clntpp == NULL) { IBTF_DPRINTF_L1(ibtf, "ibt_detach: Client @ %p Not Found", ibt_hdl); mutex_exit(&ibtl_clnt_list_mutex); return (IBT_INVALID_PARAM); } /* * Check out whether the client has freed all its resources. * If not done, then fail the detach. * * viz. A client has to close all the HCA they have opened, * i.e. the HCA List maintained for clients has to be empty. * If this list is not empty, then the client has not performed * complete clean-up, so fail the detach. */ if (ibt_hdl->clnt_hca_list != NULL) { mutex_exit(&ibtl_clnt_list_mutex); IBTF_DPRINTF_L2(ibtf, "ibt_detach: " "ERROR: Client '%s' has not closed all of its HCAs", ibt_hdl->clnt_modinfop->mi_clnt_name); return (IBT_HCA_RESOURCES_NOT_FREED); } if (ibt_hdl->clnt_srv_cnt != 0) { mutex_exit(&ibtl_clnt_list_mutex); IBTF_DPRINTF_L2(ibtf, "ibt_detach: client '%s' still has " "services or subnet_notices registered", ibt_hdl->clnt_modinfop->mi_clnt_name); return (IBT_HCA_RESOURCES_NOT_FREED); } /* * Delete the entry of this module from the ibtl_clnt_list List. */ *clntpp = ibt_hdl->clnt_list_link; /* remove us */ /* make sure asyncs complete before freeing */ ibtl_free_clnt_async_check(ibt_hdl); if (ibt_hdl->clnt_modinfop->mi_clnt_class == IBT_CM) { ibtl_cm_async_handler = NULL; ibtl_cm_clnt_private = NULL; } else if (ibt_hdl->clnt_modinfop->mi_clnt_class == IBT_DM) { ibtl_dm_async_handler = NULL; ibtl_dm_clnt_private = NULL; } else if (ibt_hdl->clnt_modinfop->mi_clnt_class == IBT_IBMA) { ibtl_ibma_async_handler = NULL; ibtl_ibma_clnt_private = NULL; } mutex_exit(&ibtl_clnt_list_mutex); /* Free up the memory of per-client info struct. */ kmem_free(ibt_hdl, sizeof (ibtl_clnt_t)); return (IBT_SUCCESS); } static void ibtl_set_ibhw_status() { ib_hw_status++; } static void ibtl_clear_ibhw_status() { ib_hw_status--; } /* * Function: * ibc_init * Input: * modlp - Pointer to IBC client module linkage structure * Output: * None * Returns: * 0 always for now * Called by: * CI client calls IBTF during its _init() to register HCA with * Solaris I/O framework. * Description: * Initializes the CI clients module linkage structure with * default bus_ops structure */ int ibc_init(struct modlinkage *modlp) { ibtl_ibnex_cb_args_t cb_args; mutex_enter(&ibtl_clnt_list_mutex); cb_args.cb_flag = IBTL_IBNEX_IBC_INIT; cb_args.cb_modlp = modlp; if (ibtl_ibnex_callback_routine) { (void) ((*ibtl_ibnex_callback_routine)(&cb_args)); } mutex_exit(&ibtl_clnt_list_mutex); return (0); } /* * Function: * ibc_fini * Input: * modlp - Pointer to IBC client module linkage structure * Output: * None * Returns: * None * Called by: * CI client calls IBTF during its _fini() to remove HCA with * Solaris I/O framework. * Description: * Undo what is done during ibc_init */ void ibc_fini(struct modlinkage *modlp) { ibtl_ibnex_cb_args_t cb_args; mutex_enter(&ibtl_clnt_list_mutex); cb_args.cb_flag = IBTL_IBNEX_IBC_FINI; cb_args.cb_modlp = modlp; if (ibtl_ibnex_callback_routine) { (void) ((*ibtl_ibnex_callback_routine)(&cb_args)); } mutex_exit(&ibtl_clnt_list_mutex); } /* * Function: * ibc_attach * Input: * info_p - IBC HCA Info. * Output: * ibc_hdl_p - IBC Client's HCA Handle. * Returns: * IBC_SUCCESS * IBC_FAILURE * Called by: * CI calls IBTF during its attach() to register HCA Device with IBTF. * Description: * Registers the presence of HCA device by providing the HCA device info * structure and provides an opaque HCA handler for future calls to this * HCA device. */ ibc_status_t ibc_attach(ibc_clnt_hdl_t *ibc_hdl_p, ibc_hca_info_t *info_p) { ibtl_hca_devinfo_t *hca_devp; uint_t nports; ibt_status_t status; IBTF_DPRINTF_L2(ibtf, "ibc_attach(%p, %p)", ibc_hdl_p, info_p); /* Validate the Transport API version */ if (info_p->hca_ci_vers != IBCI_V3) { IBTF_DPRINTF_L1(ibtf, "ibc_attach: Invalid IB CI Version '%d'", info_p->hca_ci_vers); return (IBC_FAILURE); } if (info_p->hca_attr == NULL) { IBTF_DPRINTF_L1(ibtf, "ibc_attach: " "HCA Attributes must be specified."); return (IBC_FAILURE); } nports = info_p->hca_attr->hca_nports; if (nports == 0) { IBTF_DPRINTF_L1(ibtf, "ibc_attach: " "Number of ports must be valid"); return (IBC_FAILURE); } if (info_p->hca_attr->hca_max_port_pkey_tbl_sz == 0) { IBTF_DPRINTF_L1(ibtf, "ibc_attach: " "Number of Partitions must be at least 1"); return (IBC_FAILURE); } if ((info_p->hca_attr->hca_flags & IBT_HCA_CURRENT_QP_STATE) == 0) { IBTF_DPRINTF_L1(ibtf, "ibc_attach: " "HCA driver must support QP current state checking"); return (IBC_FAILURE); } if ((info_p->hca_attr->hca_flags & IBT_HCA_PORT_UP) == 0) { IBTF_DPRINTF_L1(ibtf, "ibc_attach: " "HCA driver must support PORT_UP async events"); return (IBC_FAILURE); } /* * Install IB nexus driver (if not installed already) */ ibtl_set_ibhw_status(); if (ndi_devi_config_vhci("ib", 0) == NULL) { IBTF_DPRINTF_L2(ibtf, "ibc_attach: IB nexus attach failed"); ibtl_clear_ibhw_status(); return (IBC_FAILURE); } ibtl_thread_init2(); /* Allocate the memory for per-client info structure */ hca_devp = kmem_zalloc(sizeof (ibtl_hca_devinfo_t) + (nports - 1) * sizeof (ibtl_async_port_status_t), KM_SLEEP); mutex_enter(&ibtl_clnt_list_mutex); /* Update HCA dev info structure */ hca_devp->hd_ibc_hca_hdl = info_p->hca_handle; hca_devp->hd_ibc_ops = info_p->hca_ops; hca_devp->hd_hca_attr = info_p->hca_attr; hca_devp->hd_hca_dip = info_p->hca_dip; status = ibtl_init_hca_portinfo(hca_devp); if (status != IBT_SUCCESS) { mutex_exit(&ibtl_clnt_list_mutex); IBTF_DPRINTF_L1(ibtf, "ibc_attach: call to ibc_query_hca_ports " "failed: status = %d", status); kmem_free(hca_devp, sizeof (ibtl_hca_devinfo_t) + (nports - 1) * sizeof (ibtl_async_port_status_t)); return (IBC_FAILURE); } /* Register the with MPxIO as PHCI */ if (ibtl_ibnex_phci_register(info_p->hca_dip) != IBT_SUCCESS) { mutex_exit(&ibtl_clnt_list_mutex); IBTF_DPRINTF_L1(ibtf, "ibc_attach: MPxIO register failed"); kmem_free(hca_devp, sizeof (ibtl_hca_devinfo_t) + (nports - 1) * sizeof (ibtl_async_port_status_t)); return (IBC_FAILURE); } /* Initialize the Client List for this HCA. */ hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED; /* lock out asyncs until after we announce the new HCA */ hca_devp->hd_async_busy = 1; cv_init(&hca_devp->hd_async_task_cv, NULL, CV_DEFAULT, NULL); cv_init(&hca_devp->hd_async_busy_cv, NULL, CV_DEFAULT, NULL); /* init portinfo locking variables */ hca_devp->hd_portinfo_locked_port = 0; cv_init(&hca_devp->hd_portinfo_cv, NULL, CV_DEFAULT, NULL); mutex_exit(&ibtl_clnt_list_mutex); /* * The ibc_hdl_p points to an opaque handle which is the address * of ibt_hca_devinfo_t structure passed back to the CI. * The CI will pass on this handle in its future upcalls to IBTF. */ *ibc_hdl_p = hca_devp; return (IBC_SUCCESS); } /* * Function: * ibc_post_attach * Input: * ibc_hdl - IBC Client's HCA Handle. * Returns: * none * Called by: * CI calls IBTF during its attach() after a successful ibc_attach(). * Description: * Announces to all known clients the existence of this HCA (by GUID). */ void ibc_post_attach(ibc_clnt_hdl_t ibc_hdl) { IBTF_DPRINTF_L2(ibtf, "ibc_post_attach(%p)", ibc_hdl); /* * Update the HCA Device List. */ mutex_enter(&ibtl_clnt_list_mutex); ibc_hdl->hd_hca_dev_link = ibtl_hca_list; ibtl_hca_list = ibc_hdl; mutex_exit(&ibtl_clnt_list_mutex); /* notify all IBT Client Device Instances of the new HCA Device */ ibtl_announce_new_hca(ibc_hdl); } /* * Function: * ibc_pre_detach * Input: * ibc_clnt_hdl - IBC HCA Handle as returned during ibc_attach call. * cmd - DDI_DETACH/DDI_SUSPEND command. * Output: * none * Returns: * IBC_SUCCESS * IBC_FAILURE. * Called by: * CI to try to get all IBTF clients to close the HCA device. * Description: * Attempts to deregister the HCA device entry from the IBTF. * If all resources are freed by the IBTF clients and this HCA * is closed, then IBC_SUCCESS is returned. */ ibc_status_t ibc_pre_detach(ibc_clnt_hdl_t hca_devp, ddi_detach_cmd_t cmd) { ibtl_hca_devinfo_t **hcapp, *hcap; IBTF_DPRINTF_L2(ibtf, "ibc_pre_detach(%p, 0x%x)", hca_devp, cmd); /* * Return failure, if command is not DDI_DETACH */ switch (cmd) { case DDI_DETACH: break; default: return (IBC_FAILURE); /* TBD: DDI_FAILURE */ } /* Make sure this HCA is on the HCA Device List. */ mutex_enter(&ibtl_clnt_list_mutex); hcap = ibtl_hca_list; while (hcap != NULL) { if (hcap == hca_devp) break; hcap = hcap->hd_hca_dev_link; } if (hcap == NULL) { mutex_exit(&ibtl_clnt_list_mutex); return (IBC_FAILURE); } /* * Initially set the state to "Detaching". */ hca_devp->hd_state = IBTL_HCA_DEV_DETACHING; /* * Try to detach all IBTI clients, and continue only if all * of the detaches succeed. */ if (ibtl_detach_all_clients(hca_devp)) { hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED; /* fix hd_state */ mutex_exit(&ibtl_clnt_list_mutex); return (IBC_FAILURE); } /* * Check to see if all clients closed this HCA, or not. * We only succeed if all clients cooperated. */ if (hca_devp->hd_clnt_list != NULL) { hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED; mutex_exit(&ibtl_clnt_list_mutex); IBTF_DPRINTF_L2(ibtf, "ibc_pre_detach: HCA still has attached " "clients"); return (IBC_FAILURE); } /* * mark this device as detached */ hca_devp->hd_state = IBTL_HCA_DEV_DETACHED; /* Delete the entry for this hca_devp from hca_head_list */ hcapp = &ibtl_hca_list; while (*hcapp != NULL) { if (*hcapp == hca_devp) break; hcapp = &(*hcapp)->hd_hca_dev_link; } if (ibtl_ibnex_phci_unregister(hca_devp->hd_hca_dip) != IBT_SUCCESS) { hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED; /* fix hd_state */ mutex_exit(&ibtl_clnt_list_mutex); IBTF_DPRINTF_L1(ibtf, "ibc_pre_detach: PHCI unregister failed"); return (IBC_FAILURE); } if (*hcapp == NULL) { hca_devp->hd_state = IBTL_HCA_DEV_ATTACHED; /* fix hd_state */ mutex_exit(&ibtl_clnt_list_mutex); IBTF_DPRINTF_L1(ibtf, "ibc_pre_detach: HCA not attached"); return (IBC_FAILURE); } *hcapp = hca_devp->hd_hca_dev_link; ibtl_fast_gid_cache_valid = B_FALSE; /* invalidate fast_gid_cache */ mutex_exit(&ibtl_clnt_list_mutex); return (IBC_SUCCESS); } /* * Function: * ibc_detach * Input: * ibc_clnt_hdl - IBC HCA Handle as returned during ibc_attach call. * Output: * none * Returns: * None * Called by: * CI to detach the HCA device from IBTF. * Description: * Do the second step of detaching the HCA, which is required * after a successful ibc_pre_detach. */ void ibc_detach(ibc_clnt_hdl_t hca_devp) { IBTF_DPRINTF_L2(ibtf, "ibc_detach(%p)", hca_devp); mutex_enter(&ibtl_clnt_list_mutex); if (hca_devp->hd_state != IBTL_HCA_DEV_DETACHED) { mutex_exit(&ibtl_clnt_list_mutex); IBTF_DPRINTF_L0(ibtf, "ibc_detach: HCA has not successfully " "pre-detached"); return; } cv_destroy(&hca_devp->hd_async_task_cv); cv_destroy(&hca_devp->hd_async_busy_cv); cv_destroy(&hca_devp->hd_portinfo_cv); kmem_free(hca_devp->hd_portinfop, hca_devp->hd_portinfo_len); mutex_exit(&ibtl_clnt_list_mutex); /* Free up the memory of per-client info struct */ kmem_free(hca_devp, sizeof (ibtl_hca_devinfo_t) + (hca_devp->hd_hca_attr->hca_nports - 1) * sizeof (ibtl_async_port_status_t)); ibtl_clear_ibhw_status(); } /* * Function: * ibt_ci_data_in() * * Input: * hca_hdl HCA Handle. * flags IBT_COMPLETE_ALLOC - Finish a deferred alloc. * object Identifies the type object pointed to by * ibt_object_handle. * * ibt_object_handle The handle of the object to be associated with * the data in/out * * data_p Pointer data passed in to the CI. The buffer * should be allocated by the caller. * * data_sz The size of the buffer pointed to by * data_p. * Output: * * Returns: * IBT_SUCCESS * IBT_NOT_SUPPORTED Feature not supported. * IBT_INVALID_PARAM Invalid object type specified. * IBT_HCA_HDL_INVALID * IBT_AH_HDL_INVALID/IBT_UD_DEST_HDL_INVALID * IBT_CHAN_HDL_INVALID/IBT_QP_HDL_INVALID * IBT_CQ_HDL_INVALID * IBT_EEC_HDL_INVALID * IBT_RDD_HDL_INVALID * IBT_MW_HDL_INVALID * IBT_PD_HDL_INVALID * IBT_SRQ_HDL_INVALID * * Description: * Exchange CI private data for the specified CI object. */ ibt_status_t ibt_ci_data_in(ibt_hca_hdl_t hca, ibt_ci_data_flags_t flags, ibt_object_type_t object, void *ibt_object_handle, void *data_p, size_t data_sz) { ibt_status_t retval; void *ci_obj_hdl; IBTF_DPRINTF_L3(ibtf, "ibt_ci_data_in(%p, %x, %d, %p, %p, %d)", hca, flags, object, ibt_object_handle, data_p, data_sz); switch (object) { case IBT_HDL_HCA: ci_obj_hdl = (void *) (IBTL_HCA2CIHCA(((ibt_hca_hdl_t)ibt_object_handle))); break; case IBT_HDL_CHANNEL: ci_obj_hdl = (void *) (IBTL_CHAN2CIQP(((ibt_channel_hdl_t)ibt_object_handle))); break; case IBT_HDL_CQ: ci_obj_hdl = (void *) (((ibt_cq_hdl_t)(ibt_object_handle))->cq_ibc_cq_hdl); break; case IBT_HDL_EEC: ci_obj_hdl = (void *) (((ibt_eec_hdl_t)(ibt_object_handle))->eec_ibc_eec_hdl); break; case IBT_HDL_UD_DEST: ci_obj_hdl = (void *) (((ibt_ud_dest_hdl_t)(ibt_object_handle))->ud_ah); break; case IBT_HDL_SRQ: ci_obj_hdl = (void *) (((ibt_srq_hdl_t)(ibt_object_handle))->srq_ibc_srq_hdl); break; default: ci_obj_hdl = ibt_object_handle; break; } retval = (IBTL_HCA2CIHCAOPS_P(hca)->ibc_ci_data_in)(IBTL_HCA2CIHCA(hca), flags, object, ci_obj_hdl, data_p, data_sz); if (retval != IBT_SUCCESS) { IBTF_DPRINTF_L2(ibtf, "ibt_ci_data_in: Failed : %d", retval); } return (retval); } /* * Function: * ibt_ci_data_out() * * Input: * hca_hdl HCA Handle. * flags IBT_COMPLETE_ALLOC - Finish a deferred alloc. * object Identifies the type object pointed to by * ibt_object_handle. * * ibt_object_handle The handle of the object to be associated with * the data in/out * * data_p Pointer to a buffer in which to return the CI * private data. The buffer should be allocated * by the caller. * * data_sz The size of the buffer pointed to by * data_p. * Output: * * Returns: * IBT_SUCCESS * IBT_NOT_SUPPORTED Feature not supported. * IBT_INSUFF_RESOURCE The buffer pointed to by data_p was too * small to hold the data. * IBT_INVALID_PARAM Invalid object type specified. * IBT_HCA_HDL_INVALID * IBT_AH_HDL_INVALID/IBT_UD_DEST_HDL_INVALID * IBT_CHAN_HDL_INVALID/IBT_QP_HDL_INVALID * IBT_CQ_HDL_INVALID * IBT_EEC_HDL_INVALID * IBT_RDD_HDL_INVALID * IBT_MW_HDL_INVALID * IBT_PD_HDL_INVALID * IBT_SRQ_HDL_INVALID * * Description: * Exchange CI private data for the specified CI object. */ ibt_status_t ibt_ci_data_out(ibt_hca_hdl_t hca, ibt_ci_data_flags_t flags, ibt_object_type_t object, void *ibt_object_handle, void *data_p, size_t data_sz) { ibt_status_t retval; void *ci_obj_hdl; IBTF_DPRINTF_L3(ibtf, "ibt_ci_data_out(%p, %x, %d, %p, %p, %d)", hca, flags, object, ibt_object_handle, data_p, data_sz); switch (object) { case IBT_HDL_HCA: ci_obj_hdl = (void *) (IBTL_HCA2CIHCA(((ibt_hca_hdl_t)ibt_object_handle))); break; case IBT_HDL_CHANNEL: ci_obj_hdl = (void *) (IBTL_CHAN2CIQP(((ibt_channel_hdl_t)ibt_object_handle))); break; case IBT_HDL_CQ: ci_obj_hdl = (void *) (((ibt_cq_hdl_t)(ibt_object_handle))->cq_ibc_cq_hdl); break; case IBT_HDL_EEC: ci_obj_hdl = (void *) (((ibt_eec_hdl_t)(ibt_object_handle))->eec_ibc_eec_hdl); break; case IBT_HDL_UD_DEST: ci_obj_hdl = (void *) (((ibt_ud_dest_hdl_t)(ibt_object_handle))->ud_ah); break; case IBT_HDL_SRQ: ci_obj_hdl = (void *) (((ibt_srq_hdl_t)(ibt_object_handle))->srq_ibc_srq_hdl); break; default: ci_obj_hdl = ibt_object_handle; break; } retval = (IBTL_HCA2CIHCAOPS_P(hca)->ibc_ci_data_out) (IBTL_HCA2CIHCA(hca), flags, object, ci_obj_hdl, data_p, data_sz); if (retval != IBT_SUCCESS) { IBTF_DPRINTF_L2(ibtf, "ibt_ci_data_out: Failed : %d", retval); } return (retval); } /* * FMA Support functions. */ #define IBTL_ENA_MASK 0xC0000000 #define IBTL_ENA_POSSIBLE 0x80000000 #define IBTL_TYPE_SHIFT 27 /* * Function: * ibt_get_module_failure() * * Input: * type Identifies the failing IB module. * ena '0' or the data for Fault Management * Architecture (ENA). * * Returns: * status Special IB failure status. * * Description: * XXX Just stubbed out to return failures with no data for Fault * Management Architecture (ENAs) at the moment XXX */ ibt_status_t ibt_get_module_failure(ibt_failure_type_t type, uint64_t ena) { ibt_status_t ret; IBTF_DPRINTF_L3(ibtf, "ibt_get_module_failure(%d, 0x%llX)", type, ena); switch (type) { case IBT_FAILURE_CI: case IBT_FAILURE_IBMF: case IBT_FAILURE_IBCM: case IBT_FAILURE_IBDM: case IBT_FAILURE_IBTL: case IBT_FAILURE_IBSM: ret = IBTL_ENA_POSSIBLE | (type << IBTL_TYPE_SHIFT); break; default: ret = IBT_FAILURE; } IBTF_DPRINTF_L3(ibtf, "ibt_get_module_failure: ret = 0x%lX", ret); return (ret); } /* * Function: * ibc_get_ci_failure() * * Input: * ena '0' or the data for Fault Management * Architecture (ENA). * * Returns: * status Special CI failure status. * * Description: * Just use the function above to do the job. */ ibt_status_t ibc_get_ci_failure(uint64_t ena) { return (ibt_get_module_failure(IBT_FAILURE_CI, ena)); } /* * ibt_check_failure() * Function to test for special case failures. * * status An ibt_status_t returned from an IBTF function call. * * reserved_p NULL, or a pointer to where we store the data for * Fault Management Architecture (ENA). * * Description: * XXX Still need to determine the data for Fault Management Architecture * (ENA), using 0 for now XXX */ ibt_failure_type_t ibt_check_failure(ibt_status_t status, uint64_t *reserved_p) { ibt_failure_type_t type; IBTF_DPRINTF_L3(ibtf, "ibt_check_failure(%X)", status); if ((status & IBTL_ENA_MASK) == IBTL_ENA_POSSIBLE) { type = status & ~IBTL_ENA_POSSIBLE >> IBTL_TYPE_SHIFT; /* XXX Need more work here... */ if (reserved_p != NULL) *reserved_p = 0; } else { type = IBT_FAILURE_STANDARD; if (reserved_p != NULL) *reserved_p = 0; /* No FMA Data Available. */ } IBTF_DPRINTF_L3(ibtf, "ibt_check_failure: type = 0x%X", type); return (type); }