/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * The InfiniBand Nexus driver (IB nexus) is a bus nexus driver for IB bus. * It supports Port nodes, Virtual Physical Point of Attachment nodes (VPPA) * for HCAs registered with IBTL and IOC nodes for all the IOCs present in * the IB fabric (that are accessible to the host). It also supports Pseudo * device children to be enumerated using their .conf file(s). All Port nodes * and VPPA nodes are children of HCA drivers. All the IOC nodes and the Pseudo * device nodes are children of the IB nexus driver. * * IB nexus driver provides bus nexus entry points to all the HCA drivers. * * IB nexus driver registers with InfiniBand Device Manager (IBDM) to get * information about all the HCA ports and I/O Controllers (IOCs) connected * to the IB fabric. Based on that information, IB nexus will create all the * device tree nodes. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Function prototypes */ static int ibnex_attach(dev_info_t *, ddi_attach_cmd_t); static int ibnex_getinfo(dev_info_t *, ddi_info_cmd_t, void *, void **); static int ibnex_detach(dev_info_t *, ddi_detach_cmd_t); static int ibnex_busctl(dev_info_t *, dev_info_t *, ddi_ctl_enum_t, void *, void *); static int ibnex_map_fault(dev_info_t *, dev_info_t *, struct hat *, struct seg *, caddr_t, struct devpage *, pfn_t, uint_t, uint_t); static int ibnex_init_child(dev_info_t *); static ibnex_rval_t ibnex_comm_svc_init(char *, ibnex_node_type_t); static void ibnex_comm_svc_fini(); dev_info_t *ibnex_commsvc_initnode(dev_info_t *, ibdm_port_attr_t *, int, int, ib_pkey_t, int *, int); static void ibnex_delete_port_node_data(ibnex_node_data_t *); int ibnex_get_dip_from_guid(ib_guid_t, int, ib_pkey_t, dev_info_t **); static ibnex_node_data_t *ibnex_is_node_data_present(ibnex_node_type_t, void *, int, ib_pkey_t); static ibnex_node_data_t *ibnex_init_child_nodedata(ibnex_node_type_t, void *, int, ib_pkey_t); static int ibnex_create_port_node_prop(ibdm_port_attr_t *, dev_info_t *, char *, ib_pkey_t); void ibnex_dm_callback(void *, ibdm_events_t); static int ibnex_create_port_compatible_prop(dev_info_t *, char *, ibdm_port_attr_t *); static int ibnex_create_ioc_srv_props( dev_info_t *, ibdm_ioc_info_t *); static int ibnex_get_eventcookie(dev_info_t *, dev_info_t *, char *, ddi_eventcookie_t *); static int ibnex_add_eventcall(dev_info_t *, dev_info_t *, ddi_eventcookie_t, void (*)(dev_info_t *, ddi_eventcookie_t, void *, void *), void *arg, ddi_callback_id_t *cb_id); static int ibnex_remove_eventcall(dev_info_t *, ddi_callback_id_t); static int ibnex_post_event(dev_info_t *, dev_info_t *, ddi_eventcookie_t, void *); static int ibnex_bus_config(dev_info_t *, uint_t, ddi_bus_config_op_t, void *, dev_info_t **); static int ibnex_bus_unconfig(dev_info_t *, uint_t, ddi_bus_config_op_t, void *); static dev_info_t *ibnex_config_port_node(dev_info_t *, char *); static dev_info_t *ibnex_config_obp_args(dev_info_t *, char *); static int ibnex_get_pkey_commsvc_index_portnum( char *, int *, ib_pkey_t *, uint8_t *); static void ibnex_config_all_children(dev_info_t *); static int ibnex_devname_to_portnum(char *, uint8_t *); static void ibnex_create_vppa_nodes( dev_info_t *, ibdm_port_attr_t *); static void ibnex_create_port_nodes( dev_info_t *, ibdm_port_attr_t *); static void ibnex_create_hcasvc_nodes( dev_info_t *, ibdm_port_attr_t *); static int ibnex_config_root_iocnode(dev_info_t *, char *); static int ibnex_devname2port(char *, int *); static int ibnex_config_ioc_node(char *, dev_info_t *); static int ibnex_devname_to_node_n_ioc_guids( char *, ib_guid_t *, ib_guid_t *, char **); static void ibnex_ioc_node_cleanup(); static void ibnex_delete_ioc_node_data(ibnex_node_data_t *); int ibnex_ioc_initnode_all_pi(ibdm_ioc_info_t *); static int ibnex_ioc_initnode_pdip(ibnex_node_data_t *, ibdm_ioc_info_t *, dev_info_t *); static int ibnex_create_ioc_node_prop( ibdm_ioc_info_t *, dev_info_t *); static int ibnex_create_ioc_compatible_prop( dev_info_t *, ib_dm_ioc_ctrl_profile_t *); uint64_t ibnex_str2hex(char *, int, int *); static int ibnex_str2int(char *, int, int *); static int ibnex_create_ioc_portgid_prop( dev_info_t *, ibdm_ioc_info_t *); static void ibnex_wakeup_reprobe_ioc(ibnex_node_data_t *, int); static void ibnex_wakeup_reprobe_all(); ibt_status_t ibnex_ibtl_callback(ibtl_ibnex_cb_args_t *); static int ibnex_prom_devname_to_pkey_n_portnum( char *, ib_pkey_t *, uint8_t *); void ibnex_pseudo_initnodes(void); static char *ibnex_lookup_named_prop(ddi_prop_t *, char *); static void ibnex_pseudo_node_cleanup(void); static int ibnex_name_child(dev_info_t *, char *, int); static int ibnex_name_pseudo_child(dev_info_t *, char *); void ibnex_reprobe_ioc_dev(void *); void ibnex_reprobe_ioc_all(); static void ibnex_update_prop(ibnex_node_data_t *, ibdm_ioc_info_t *); static ibnex_rval_t ibnex_unique_svcname(char *); static void ibnex_handle_reprobe_dev(void *arg); extern int ibnex_open(dev_t *, int, int, cred_t *); extern int ibnex_close(dev_t, int, int, cred_t *); extern int ibnex_ioctl(dev_t, int, intptr_t, int, cred_t *, int *); extern int ibnex_offline_childdip(dev_info_t *); static int ibnex_ioc_create_pi( ibdm_ioc_info_t *, ibnex_node_data_t *, dev_info_t *, int *); static int ibnex_bus_power(dev_info_t *, void *, pm_bus_power_op_t, void *, void *); int ibnex_pseudo_create_all_pi(ibnex_node_data_t *); static int ibnex_pseudo_create_pi_pdip(ibnex_node_data_t *, dev_info_t *); static int ibnex_pseudo_config_one( ibnex_node_data_t *, char *, dev_info_t *); static int ibnex_pseudo_mdi_config_one(int, void *, dev_info_t **, char *, char *); static void ibnex_config_pseudo_all(dev_info_t *); static int ibnex_ioc_bus_config_one(dev_info_t **, uint_t, ddi_bus_config_op_t, void *, dev_info_t **, int *); static int ibnex_is_merge_node(dev_info_t *); static void ibnex_hw_in_dev_tree(char *); static int ibnex_ioc_config_from_pdip(ibdm_ioc_info_t *, dev_info_t *, int); static int ibnex_ioc_pi_exists(ibnex_node_data_t *, dev_info_t *); static int ibnex_ioc_pi_reachable(ibdm_ioc_info_t *, dev_info_t *); /* * The bus_ops structure defines the capabilities of HCA nexus driver. */ struct bus_ops ibnex_ci_busops = { BUSO_REV, nullbusmap, /* bus_map */ NULL, /* bus_get_intrspec */ NULL, /* bus_add_intrspec */ NULL, /* bus_remove_intrspec */ ibnex_map_fault, /* Map Fault */ ddi_no_dma_map, /* DMA related entry points */ NULL, NULL, NULL, NULL, NULL, NULL, NULL, ibnex_busctl, /* bus_ctl */ ddi_bus_prop_op, /* bus_prop_op */ NULL, /* bus_get_eventcookie */ NULL, /* bus_add_eventcall */ NULL, /* bus_remove_eventcall */ NULL, /* bus_post_event */ NULL, ibnex_bus_config, /* bus config */ ibnex_bus_unconfig /* bus unconfig */ }; /* * Prototype declarations for the VHCI options */ /* * Functions registered with the mpxio framework */ static int ib_vhci_pi_init(dev_info_t *, mdi_pathinfo_t *, int); static int ib_vhci_pi_uninit(dev_info_t *, mdi_pathinfo_t *, int); static int ib_vhci_pi_state_change(dev_info_t *, mdi_pathinfo_t *, mdi_pathinfo_state_t, uint32_t, int); static int ib_vhci_failover(dev_info_t *, dev_info_t *, int); static mdi_vhci_ops_t ibnex_vhci_ops = { MDI_VHCI_OPS_REV, ib_vhci_pi_init, ib_vhci_pi_uninit, ib_vhci_pi_state_change, ib_vhci_failover }; /* * The bus_ops structure defines the capabilities of IB nexus driver. * IB nexus drivers does not support any DMA operations for its children * as there is no such concept in Infiniband. All the memory operations * and DMA operations required by the child drivers can be performed using * the IBTF API. */ struct bus_ops ibnex_bus_ops = { BUSO_REV, nullbusmap, /* bus_map */ NULL, /* bus_get_intrspec */ NULL, /* bus_add_intrspec */ NULL, /* bus_remove_intrspec */ ibnex_map_fault, /* Map Fault */ ddi_no_dma_map, /* DMA related entry points */ ddi_no_dma_allochdl, NULL, NULL, NULL, NULL, NULL, NULL, ibnex_busctl, /* bus_ctl */ ddi_bus_prop_op, /* bus_prop_op */ ibnex_get_eventcookie, /* bus_get_eventcookie */ ibnex_add_eventcall, /* bus_add_eventcall */ ibnex_remove_eventcall, /* bus_remove_eventcall */ ibnex_post_event, /* bus_post_event */ NULL, ibnex_bus_config, /* bus config */ ibnex_bus_unconfig, /* bus unconfig */ NULL, /* bus fm init */ NULL, /* bus fm fini */ NULL, /* bus fm access enter */ NULL, /* bus fm access exit */ ibnex_bus_power /* bus power */ }; /* ibnex cb_ops */ static struct cb_ops ibnex_cbops = { ibnex_open, /* open */ ibnex_close, /* close */ nodev, /* strategy */ nodev, /* print */ nodev, /* dump */ nodev, /* read */ nodev, /* write */ ibnex_ioctl, /* ioctl */ nodev, /* devmap */ nodev, /* mmap */ nodev, /* segmap */ nochpoll, /* poll */ ddi_prop_op, /* prop_op */ NULL, /* stream */ D_MP, /* cb_flag */ CB_REV, /* rev */ nodev, /* int (*cb_aread)() */ nodev /* int (*cb_awrite)() */ }; /* * Device options * Note: ddi_no_info needs to change during devfs time frame. The drivers * with 1 to 1 mapping between minor node and instance should use * ddi_1to1_info. (See bug id 4424752) */ static struct dev_ops ibnex_ops = { DEVO_REV, /* devo_rev, */ 0, /* refcnt */ ibnex_getinfo, /* info */ nulldev, /* identify */ nulldev, /* probe */ ibnex_attach, /* attach */ ibnex_detach, /* detach */ nodev, /* reset */ &ibnex_cbops, /* driver ops - devctl interfaces */ &ibnex_bus_ops, /* bus operations */ nulldev, /* power */ ddi_quiesce_not_needed, /* quiesce */ }; /* Module linkage information for the kernel. */ static struct modldrv modldrv = { &mod_driverops, /* Driver module */ "IB nexus", /* Driver name and version */ &ibnex_ops, /* driver ops */ }; static struct modlinkage modlinkage = { MODREV_1, (void *)&modldrv, NULL }; /* * Global per-instance IB Nexus data. * There is only one instance of IB Nexus supported. */ ibnex_t ibnex; #ifdef __lock_lint extern ibdm_t ibdm; #endif _NOTE(MUTEX_PROTECTS_DATA(ibnex.ibnex_mutex, ibnex_s)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ibnex.ibnex_num_comm_svcs ibnex.ibnex_comm_svc_names ibnex.ibnex_nvppa_comm_svcs ibnex.ibnex_vppa_comm_svc_names ibnex.ibnex_nhcasvc_comm_svcs ibnex.ibnex_hcasvc_comm_svc_names ibnex.ibnex_ioc_list)) _NOTE(MUTEX_PROTECTS_DATA(ibnex.ibnex_mutex, ibnex_node_data_s)) _NOTE(LOCK_ORDER(ibdm.ibdm_hl_mutex ibnex.ibnex_mutex)) /* The port settling time in seconds */ int ibnex_port_settling_time = 30; /* create an array of properties supported, easier to add new ones here */ static struct ibnex_property { char *name; ibnex_node_type_t type; } ibnex_properties[] = { { "port-svc-list", IBNEX_PORT_COMMSVC_NODE}, { "vppa-svc-list", IBNEX_VPPA_COMMSVC_NODE}, { "hca-svc-list", IBNEX_HCASVC_COMMSVC_NODE} }; #define N_IBNEX_PROPS (sizeof (ibnex_properties))/ \ (sizeof (struct ibnex_property)) /* * Event Definition * Single event, event name defined in ibti_common.h. * Event posted to specific child handler. Event posted * at kernel priority. */ static ndi_event_definition_t ibnex_ndi_event_defs[] = { {IB_EVENT_TAG_PROP_UPDATE, IB_PROP_UPDATE_EVENT, EPL_KERNEL, NDI_EVENT_POST_TO_TGT} }; #define IB_N_NDI_EVENTS \ (sizeof (ibnex_ndi_event_defs) / sizeof (ndi_event_definition_t)) static ndi_event_set_t ib_ndi_events = { NDI_EVENTS_REV1, IB_N_NDI_EVENTS, ibnex_ndi_event_defs}; static int ibnex_hw_status = IBNEX_DEVTREE_NOT_CHECKED; /* * _init * Loadable module init, called before any other module. */ int _init(void) { int error; char **hca_driver_list; int i, ndrivers; if (ibnex_hw_status == IBNEX_DEVTREE_NOT_CHECKED) { ibnex_hw_status = IBNEX_HW_NOT_IN_DEVTREE; hca_driver_list = mdi_get_phci_driver_list("ib", &ndrivers); for (i = 0; i < ndrivers; i++) { ibnex_hw_in_dev_tree(hca_driver_list[i]); if (ibnex_hw_status == IBNEX_HW_IN_DEVTREE) break; } mdi_free_phci_driver_list(hca_driver_list, ndrivers); } /* * IB Nexus _init can be called while force attaching * IB Nexus driver or when a HCA is hotplugged. * * If IB HW is not in device tree or if no HCA driver * has been attached, fail IB Nexus _init(). */ if (ibnex_hw_status == IBNEX_HW_NOT_IN_DEVTREE && ibt_hw_is_present() == 0) { IBTF_DPRINTF_L4("ibnex", "\t_init: NO IB HW"); return (DDI_FAILURE); } IBTF_DPRINTF_L4("ibnex", "\t_init"); mutex_init(&ibnex.ibnex_mutex, NULL, MUTEX_DRIVER, NULL); cv_init(&ibnex.ibnex_reprobe_cv, NULL, CV_DRIVER, NULL); if ((error = mod_install(&modlinkage)) != 0) { IBTF_DPRINTF_L2("ibnex", "\t_init: mod_install failed"); mutex_destroy(&ibnex.ibnex_mutex); cv_destroy(&ibnex.ibnex_reprobe_cv); } else { ibdm_ibnex_register_callback(ibnex_dm_callback); ibtl_ibnex_register_callback(ibnex_ibtl_callback); } return (error); } /* * _fini * Prepares a module for unloading. */ int _fini(void) { int error; IBTF_DPRINTF_L4("ibnex", "\t_fini"); if ((error = mod_remove(&modlinkage)) != 0) { return (error); } ibdm_ibnex_unregister_callback(); ibtl_ibnex_unregister_callback(); mutex_destroy(&ibnex.ibnex_mutex); cv_destroy(&ibnex.ibnex_reprobe_cv); return (0); } /* * _info * Returns information about loadable module. */ int _info(struct modinfo *modinfop) { IBTF_DPRINTF_L4("ibnex", "\t_info"); return (mod_info(&modlinkage, modinfop)); } /* * ibnex_attach * Configure and attach an instance of the IB Nexus driver * Only one instance of IB Nexus is supported * Create a minor node for cfgadm purpose * Initialize communication services * Register callback with IBDM * Register callback with IBTL */ static int ibnex_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) { int i; int instance = ddi_get_instance(dip); IBTF_DPRINTF_L4("ibnex", "\tattach: device = %p cmd = %x)", dip, cmd); switch (cmd) { case DDI_ATTACH: break; case DDI_RESUME: IBTF_DPRINTF_L4("ibnex", "\tattach: RESUME"); return (DDI_SUCCESS); default: return (DDI_FAILURE); } /* Fail attach for more than one instance */ mutex_enter(&ibnex.ibnex_mutex); if (ibnex.ibnex_dip != NULL) { mutex_exit(&ibnex.ibnex_mutex); return (DDI_FAILURE); } mutex_exit(&ibnex.ibnex_mutex); /* Register with MPxIO framework */ if (mdi_vhci_register(MDI_HCI_CLASS_IB, dip, &ibnex_vhci_ops, 0) != MDI_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tattach: mdi_vhci_register() failed"); return (DDI_FAILURE); } /* * Create the "fabric" devctl minor-node for IB DR support. * The minor number for the "devctl" node is in the same format * as the AP minor nodes. */ if (ddi_create_minor_node(dip, IBNEX_FABRIC, S_IFCHR, instance, DDI_NT_IB_ATTACHMENT_POINT, 0) != DDI_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tattach: failed to create fabric minornode"); (void) mdi_vhci_unregister(dip, 0); return (DDI_FAILURE); } /* * Set pm-want-child-notification property for * power management of the phci and client */ if (ddi_prop_create(DDI_DEV_T_NONE, dip, DDI_PROP_CANSLEEP, "pm-want-child-notification?", NULL, NULL) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "_attach: create pm-want-child-notification failed"); (void) ddi_remove_minor_node(dip, NULL); (void) mdi_vhci_unregister(dip, 0); return (DDI_FAILURE); } mutex_enter(&ibnex.ibnex_mutex); ibnex.ibnex_dip = dip; mutex_exit(&ibnex.ibnex_mutex); /* * Event Handling: Definition and Binding. */ if (ndi_event_alloc_hdl(dip, 0, &ibnex.ibnex_ndi_event_hdl, NDI_SLEEP) != NDI_SUCCESS) { (void) ddi_remove_minor_node(dip, NULL); IBTF_DPRINTF_L2("ibnex", "_attach: ndi_event_alloc_hdl failed"); (void) mdi_vhci_unregister(dip, 0); return (DDI_FAILURE); } if (ndi_event_bind_set(ibnex.ibnex_ndi_event_hdl, &ib_ndi_events, NDI_SLEEP) != NDI_SUCCESS) { (void) ddi_remove_minor_node(dip, NULL); (void) ndi_event_free_hdl(ibnex.ibnex_ndi_event_hdl); IBTF_DPRINTF_L2("ibnex", "_attach: ndi_event_bind_set failed"); (void) mdi_vhci_unregister(dip, 0); return (DDI_FAILURE); } for (i = 0; i < N_IBNEX_PROPS; i++) { if (ibnex_comm_svc_init(ibnex_properties[i].name, ibnex_properties[i].type) != IBNEX_SUCCESS) { ibnex_comm_svc_fini(); (void) ndi_event_unbind_set(ibnex.ibnex_ndi_event_hdl, &ib_ndi_events, NDI_SLEEP); (void) ddi_remove_minor_node(dip, NULL); (void) ndi_event_free_hdl( ibnex.ibnex_ndi_event_hdl); ibnex.ibnex_ndi_event_hdl = NULL; IBTF_DPRINTF_L2("ibnex", "_attach: ibnex_comm_svc_init" " failed %s", ibnex_properties[i].name); (void) mdi_vhci_unregister(dip, 0); return (DDI_FAILURE); } } /* * before anything else comes up: * Initialize the internal list of pseudo device nodes by * getting all pseudo children of "ib" and processing them. */ ibnex_pseudo_initnodes(); return (DDI_SUCCESS); } /* * ibnex_getinfo() * Given the device number, return the devinfo pointer or the * instance number. * Note: always succeed DDI_INFO_DEVT2INSTANCE, even before attach. */ /*ARGSUSED*/ static int ibnex_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg, void **result) { int ret = DDI_SUCCESS; IBTF_DPRINTF_L4("ibnex", "\tgetinfo: Begin"); switch (cmd) { case DDI_INFO_DEVT2DEVINFO: if (ibnex.ibnex_dip != NULL) *result = ibnex.ibnex_dip; else { *result = NULL; ret = DDI_FAILURE; } break; case DDI_INFO_DEVT2INSTANCE: *result = 0; break; default: ret = DDI_FAILURE; } return (ret); } /* * ibnex_detach * Unregister callback with the IBDM * Unregister callback with the IBTL * Uninitialize the communication entries * Remove all the minor nodes created by this instance */ static int ibnex_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) { IBTF_DPRINTF_L4("ibnex", "\tdetach: dip = %p cmd = %x)", dip, cmd); switch (cmd) { case DDI_DETACH: break; case DDI_SUSPEND: IBTF_DPRINTF_L4("ibnex", "\t_detach: Suspend"); return (DDI_SUCCESS); default: return (DDI_FAILURE); } mutex_enter(&ibnex.ibnex_mutex); if (ibt_hw_is_present()) { IBTF_DPRINTF_L2("ibnex", "\tdetach: IB HW is present "); mutex_exit(&ibnex.ibnex_mutex); return (DDI_FAILURE); } if (ndi_event_free_hdl(ibnex.ibnex_ndi_event_hdl)) { IBTF_DPRINTF_L2("ibnex", "\tdetach: ndi_event_free_hdl() failed"); mutex_exit(&ibnex.ibnex_mutex); return (DDI_FAILURE); } ibnex.ibnex_ndi_event_hdl = NULL; ibnex.ibnex_prop_update_evt_cookie = NULL; ibnex_pseudo_node_cleanup(); ibnex_comm_svc_fini(); ibnex_ioc_node_cleanup(); (void) ddi_remove_minor_node(dip, NULL); ibnex.ibnex_dip = NULL; mutex_exit(&ibnex.ibnex_mutex); (void) mdi_vhci_unregister(dip, 0); return (DDI_SUCCESS); } /* * ibnex_pseudo_node_cleanup() * This checks if all the "dips" have been deallocated (implying * that all the children have been unconfigured) first. * If not, it just returns. * If yes, then it frees up memory allocated for devi_name, * node_addr, and property list. */ static void ibnex_pseudo_node_cleanup(void) { ibnex_node_data_t *nodep = ibnex.ibnex_pseudo_node_head; ibnex_pseudo_node_t *pseudo; IBTF_DPRINTF_L4("ibnex", "\tpseudo_node_cleanup:"); ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); for (; nodep; nodep = nodep->node_next) if (nodep->node_dip) return; IBTF_DPRINTF_L4("ibnex", "\tpseudo_node_cleanup: freeing up memory"); for (nodep = ibnex.ibnex_pseudo_node_head; nodep; nodep = nodep->node_next) { pseudo = &nodep->node_data.pseudo_node; if (pseudo->pseudo_node_addr) { kmem_free(pseudo->pseudo_node_addr, strlen(pseudo-> pseudo_node_addr) + 1); pseudo->pseudo_node_addr = NULL; } if (pseudo->pseudo_devi_name) { kmem_free(pseudo->pseudo_devi_name, strlen(pseudo-> pseudo_devi_name) + 1); pseudo->pseudo_devi_name = NULL; } if (pseudo->pseudo_unit_addr) { kmem_free(pseudo->pseudo_unit_addr, pseudo->pseudo_unit_addr_len); } } } /* * This functions wakes up any reprobe requests waiting for completion * of reprobe of this IOC. It also send an NDI event, if : * * notify_flag is set. This is set if : * ibt_reprobe_ioc has returned with SUCCESS * IBTF client has not been notified for this node. * node_data->node_dip != NULL * node_state has IBNEX_NODE_REPROBE_NOTIFY_ALWAYS set * An NDI event cookie has been registered. */ static void ibnex_wakeup_reprobe_ioc(ibnex_node_data_t *node_data, int notify_flag) { ddi_eventcookie_t evt_cookie; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); evt_cookie = ibnex.ibnex_prop_update_evt_cookie; if ((ibnex.ibnex_reprobe_state == IBNEX_REPROBE_IOC_WAIT) || (node_data->node_reprobe_state != 0)) { if (notify_flag && (node_data->node_dip != NULL) && (node_data->node_state & IBNEX_NODE_REPROBE_NOTIFY_ALWAYS) && (evt_cookie != NULL)) { ibt_prop_update_payload_t evt_data; mutex_exit(&ibnex.ibnex_mutex); bzero(&evt_data, sizeof (evt_data)); if (ndi_post_event(ibnex.ibnex_dip, node_data->node_dip, evt_cookie, &evt_data) != NDI_SUCCESS) IBTF_DPRINTF_L2("ibnex", "\tndi_post_event failed\n"); mutex_enter(&ibnex.ibnex_mutex); } node_data->node_reprobe_state = 0; cv_broadcast(&ibnex.ibnex_reprobe_cv); } node_data->node_reprobe_state = 0; } /* * This function wakes up any reprobe request waiting for completion * of reprobe of all IOCs. */ static void ibnex_wakeup_reprobe_all() { ibnex_node_data_t *ioc_node; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); /* Notify if another reprobe_all is pending */ if (ibnex.ibnex_reprobe_state == IBNEX_REPROBE_ALL_WAIT) { ibnex.ibnex_reprobe_state = 0; cv_broadcast(&ibnex.ibnex_reprobe_cv); } ibnex.ibnex_reprobe_state = 0; /* * The IOC may be hot-removed after the reprobe request. * Reset the reprobe states for such IOCs. */ for (ioc_node = ibnex.ibnex_ioc_node_head; ioc_node; ioc_node = ioc_node->node_next) { if (ioc_node->node_reprobe_state != 0) { ibnex_wakeup_reprobe_ioc(ioc_node, 1); } } } /* * ibnex_ibnex_callback: * IBTL_IBNEX_IBC_INIT: * Called from ibc_init() which is called from * HCA driver _init entry point * Initializes the HCA dev_ops structure with default * IB nexus structure. * IBTL_IBNEX_IBC_FINI: * Called from ibc_fini() which is called from * HCA driver _fini entry point * Un-Initializes the HCA dev_ops structure with default * IB nexus strucuture. * Returns IBT_SUCCESS */ ibt_status_t ibnex_ibtl_callback(ibtl_ibnex_cb_args_t *cb_args) { int retval = IBT_SUCCESS; struct dev_ops *hca_dev_ops; dev_info_t *clnt_dip; ibnex_node_data_t *node_data; IBTF_DPRINTF_L5("ibnex", "\tibtl_callback"); switch (cb_args->cb_flag) { case IBTL_IBNEX_IBC_INIT: /* * Get the devops structure of the HCA, * and put IB nexus default busops vector in its place. */ hca_dev_ops = ((struct modldrv *) (cb_args->cb_modlp->ml_linkage[0]))->drv_dev_ops; ASSERT((hca_dev_ops) && (hca_dev_ops->devo_bus_ops == NULL)); hca_dev_ops->devo_bus_ops = &ibnex_ci_busops; break; case IBTL_IBNEX_IBC_FINI: hca_dev_ops = ((struct modldrv *) (cb_args->cb_modlp->ml_linkage[0]))->drv_dev_ops; hca_dev_ops->devo_bus_ops = NULL; break; case IBTL_IBNEX_REPROBE_DEV_REQ: /* IBTL pass down request for ibt_reprobe_dev */ clnt_dip = cb_args->cb_dip; ASSERT(clnt_dip); node_data = ddi_get_parent_data(clnt_dip); ASSERT(node_data); /* Reprobe for IOC nodes only */ ASSERT(node_data->node_type == IBNEX_IOC_NODE); /* * Start the reprobe. This could sleep as it is not * from interrupt context. */ if (taskq_dispatch(system_taskq, ibnex_handle_reprobe_dev, clnt_dip, TQ_SLEEP) == 0) { IBTF_DPRINTF_L2("ibnex", "ibnex_ibtl_callback: taskq_dispatch failed"); mutex_enter(&ibnex.ibnex_mutex); ibnex_wakeup_reprobe_ioc(node_data, 0); mutex_exit(&ibnex.ibnex_mutex); return (IBT_INSUFF_KERNEL_RESOURCE); } return (IBT_SUCCESS); } return (retval); } /* * Bus-ops entry points */ /* * ibnex_map_fault * IOC drivers need not map memory. Return failure to fail any * such calls. */ /*ARGSUSED*/ static int ibnex_map_fault(dev_info_t *dip, dev_info_t *rdip, struct hat *hat, struct seg *seg, caddr_t addr, struct devpage *dp, pfn_t pfn, uint_t prot, uint_t lock) { return (DDI_FAILURE); } /* * ibnex_busctl * bus_ctl bus_ops entry point */ /*ARGSUSED*/ static int ibnex_busctl(dev_info_t *dip, dev_info_t *rdip, ddi_ctl_enum_t ctlop, void *arg, void *result) { dev_info_t *child_dip; IBTF_DPRINTF_L4("ibnex", "\tbusctl: dip = %p, rdip = %p, ctlop = %x,", dip, rdip, ctlop); IBTF_DPRINTF_L4("ibnex", "\tbusctl: targ = %p, result %p", arg, result); switch (ctlop) { case DDI_CTLOPS_REPORTDEV: if (rdip == NULL) { return (DDI_FAILURE); } /* Log the relevant details of dip to sysbuf */ cmn_err(CE_CONT, "?IB device: %s@%s, %s%d\n", ddi_node_name(rdip), ddi_get_name_addr(rdip), ddi_driver_name(rdip), ddi_get_instance(rdip)); return (DDI_SUCCESS); case DDI_CTLOPS_INITCHILD: child_dip = (dev_info_t *)arg; return (ibnex_init_child(child_dip)); case DDI_CTLOPS_UNINITCHILD: child_dip = (dev_info_t *)arg; ddi_set_name_addr(child_dip, NULL); return (DDI_SUCCESS); case DDI_CTLOPS_ATTACH: case DDI_CTLOPS_DETACH: case DDI_CTLOPS_POWER : return (DDI_SUCCESS); case DDI_CTLOPS_SIDDEV: /* * Return DDI_SUCCESS for IOC/PORT/VPPA nodes and * DDI_FAILURE for the nodes enumerated by a Pseudo file. */ return (ndi_dev_is_persistent_node(rdip) ? DDI_SUCCESS : DDI_FAILURE); case DDI_CTLOPS_IOMIN: /* * Return DDI_SUCCESS, so that consistent buf alloc * gets the default DMA IO minimum for the platform */ return (DDI_SUCCESS); /* * These ops correspond to functions that "shouldn't" be * called by IB Nexus driver. */ case DDI_CTLOPS_DMAPMAPC: case DDI_CTLOPS_REPORTINT: case DDI_CTLOPS_REGSIZE: case DDI_CTLOPS_NREGS: case DDI_CTLOPS_SLAVEONLY: case DDI_CTLOPS_AFFINITY: case DDI_CTLOPS_POKE: case DDI_CTLOPS_PEEK: IBTF_DPRINTF_L2("ibnex", "%s%d: invalid op (%d) from %s inst%d", ddi_get_name(dip), ddi_get_instance(dip), ctlop, ddi_get_name(rdip), ddi_get_instance(rdip)); return (DDI_FAILURE); /* * Everything else (PTOB/BTOP/BTOPR/DVMAPAGESIZE requests) we * pass up */ default: return (ddi_ctlops(dip, rdip, ctlop, arg, result)); } } /* * ibnex_init_child() * * Initialize a child device node. This is called for the DDI_CTLOPS_INITCHILD * entry. Function returns DDI_SUCCESS, DDI_FAILURE or DDI_NOT_WELL_FORMED. */ static int ibnex_init_child(dev_info_t *child) { int ret; char name[MAXNAMELEN]; IBTF_DPRINTF_L4("ibnex", "\tinit_child: child = %p", child); /* Handle Pseudo nodes of client children */ if (ndi_dev_is_persistent_node(child) == 0) { /* Skip nodes without ib-node-type="merge" */ if (ibnex_is_merge_node(child) != IBNEX_SUCCESS) return (DDI_FAILURE); if (ibnex_name_pseudo_child(child, name) != DDI_SUCCESS) return (DDI_FAILURE); ddi_set_name_addr(child, name); /* * Merge the .conf node */ if (ndi_merge_node(child, ibnex_name_child) == DDI_SUCCESS) { ddi_set_name_addr(child, NULL); return (DDI_FAILURE); } return (DDI_NOT_WELL_FORMED); } if ((ret = ibnex_name_child(child, name, 0)) != DDI_SUCCESS) return (ret); ddi_set_name_addr(child, name); return (DDI_SUCCESS); } int ibnex_name_pseudo_child(dev_info_t *child, char *name) { char **unit_addr; uint_t n; if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, child, DDI_PROP_DONTPASS, "unit-address", &unit_addr, &n) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L4("ibnex", "\tname_pseudo_child: cannot find unit-address in %s.conf", ddi_get_name(child)); return (DDI_FAILURE); } if (n != 1 || *unit_addr == NULL || **unit_addr == 0) { cmn_err(CE_WARN, "unit-address property in %s.conf" " not well-formed", ddi_get_name(child)); ddi_prop_free(unit_addr); return (DDI_FAILURE); } (void) snprintf(name, MAXNAMELEN, "%s", *unit_addr); ddi_prop_free(unit_addr); return (DDI_SUCCESS); } /*ARGSUSED*/ int ibnex_name_child(dev_info_t *child, char *name, int flag) { ibnex_pseudo_node_t *pseudo; ibnex_node_data_t *node_datap; ibnex_port_node_t *port_node; ibnex_ioc_node_t *ioc; node_datap = ddi_get_parent_data(child); if (node_datap == NULL) { IBTF_DPRINTF_L2("ibnex", "\tname_child: Node data is NULL"); return (DDI_NOT_WELL_FORMED); } IBTF_DPRINTF_L4("ibnex", "\tname_sid_child: Node data %p" "Node type %x", node_datap, node_datap->node_type); switch (node_datap->node_type) { case IBNEX_PORT_COMMSVC_NODE: port_node = &node_datap->node_data.port_node; (void) snprintf(name, IBNEX_MAX_NODEADDR_SZ, "%x,0,%s", port_node->port_num, ibnex.ibnex_comm_svc_names[port_node->port_commsvc_idx]); break; case IBNEX_VPPA_COMMSVC_NODE: port_node = &node_datap->node_data.port_node; (void) snprintf(name, IBNEX_MAX_NODEADDR_SZ, "%x,%x,%s", port_node->port_num, port_node->port_pkey, ibnex. ibnex_vppa_comm_svc_names[port_node->port_commsvc_idx]); break; case IBNEX_HCASVC_COMMSVC_NODE: port_node = &node_datap->node_data.port_node; (void) snprintf(name, IBNEX_MAX_NODEADDR_SZ, "%x,0,%s", port_node->port_num, ibnex.ibnex_hcasvc_comm_svc_names[port_node-> port_commsvc_idx]); break; case IBNEX_IOC_NODE: ioc = &node_datap->node_data.ioc_node; (void) snprintf(name, IBNEX_MAX_NODEADDR_SZ, "%llX,%llX", (longlong_t)ioc->ioc_guid, (longlong_t)ioc->iou_guid); break; case IBNEX_PSEUDO_NODE: pseudo = &node_datap->node_data.pseudo_node; (void) snprintf(name, IBNEX_MAX_NODEADDR_SZ, pseudo->pseudo_unit_addr); break; default: IBTF_DPRINTF_L2("ibnex", "\name_child: Not well formed"); return (DDI_NOT_WELL_FORMED); } return (DDI_SUCCESS); } /* * ibnex_bus_config() * * BUS_CONFIG_ONE: * Enumerate the exact instance of the driver. Use the device node name * to locate the exact instance. * Query IBDM to find whether the hardware exits for the instance of the * driver. If exists, create a device node and return NDI_SUCCESS. * * BUS_CONFIG_ALL: * Enumerate all the instances of all the possible children (seen before * and never seen before). * * BUS_CONFIG_DRIVER: * Enumerate all the instances of a particular driver. */ static int ibnex_bus_config(dev_info_t *parent, uint_t flag, ddi_bus_config_op_t op, void *devname, dev_info_t **child) { int ret = IBNEX_SUCCESS, len, circ, need_bus_config; char *device_name, *cname = NULL, *caddr = NULL; char *device_name1; char *srvname, nameaddr[MAXNAMELEN]; dev_info_t *cdip, *pdip = NULL; ibnex_node_data_t *node_data; ibnex_port_node_t *port_node; int use_mdi_devi_locking = 0; if (parent != ibnex.ibnex_dip) { /* * This must be an HCA.In a normal case HCA is setup as a phci. * If an HCA is in maintenance mode, its phci is not set up * but the driver is attached to update the firmware. In this * case, do not configure the MPxIO clients. */ if (mdi_component_is_phci(parent, NULL) == MDI_FAILURE) { if (op == BUS_CONFIG_ALL || op == BUS_CONFIG_DRIVER) return (NDI_SUCCESS); else return (NDI_FAILURE); } /* Set use_mdi_devi_locking appropriately */ if ((op != BUS_CONFIG_ONE) || (op == BUS_CONFIG_ONE && strncmp((char *)devname, IBNEX_IBPORT_CNAME, 6) != 0)) { IBTF_DPRINTF_L4("ibnex", "\tbus_config: using mdi_devi_enter"); use_mdi_devi_locking = 1; } } if (use_mdi_devi_locking) mdi_devi_enter(parent, &circ); else ndi_devi_enter(parent, &circ); switch (op) { case BUS_CONFIG_ONE: IBTF_DPRINTF_L4("ibnex", "\tbus_config: CONFIG_ONE, " "parent %p", parent); len = strlen((char *)devname) + 1; device_name = i_ddi_strdup(devname, KM_SLEEP); i_ddi_parse_name(device_name, &cname, &caddr, NULL); if (caddr == NULL || (strlen(caddr) == 0)) { kmem_free(device_name, len); if (use_mdi_devi_locking) mdi_devi_exit(parent, circ); else ndi_devi_exit(parent, circ); return (NDI_FAILURE); } /* * i_ddi_parse_name() strips of the address portion * of the device name. Recreate device name for * ndi_devi_findchild */ device_name1 = i_ddi_strdup(devname, KM_SLEEP); IBTF_DPRINTF_L4("ibnex", "\tbus_config: cname %s addr %s", cname, caddr); cdip = ndi_devi_findchild(parent, device_name1); if (cdip) node_data = ddi_get_parent_data(cdip); kmem_free(device_name1, len); if (cdip == NULL || (node_data != NULL && node_data->node_dip == NULL)) { /* Node is not present */ if (strncmp(cname, IBNEX_IOC_CNAME, 3) == 0) { if (use_mdi_devi_locking) mdi_devi_exit(parent, circ); else ndi_devi_exit(parent, circ); ret = ibnex_ioc_bus_config_one(&parent, flag, op, devname, child, &need_bus_config); if (!need_bus_config) { kmem_free(device_name, len); return (ret); } if (use_mdi_devi_locking) mdi_devi_enter(parent, &circ); else ndi_devi_enter(parent, &circ); } else if ((strncmp(cname, IBNEX_IBPORT_CNAME, 6) == 0) && (parent != ibnex.ibnex_dip)) { /* parent is HCA */ cdip = ibnex_config_port_node(parent, devname); if (cdip) ret = IBNEX_SUCCESS; else ret = IBNEX_FAILURE; } else { /* * if not IOC or PORT device then always * assume a Pseudo child * * if IB Nexus is the parent, call MDI. * else if HCA is the parent, enumerate * the Pseudo node. */ ret = IBNEX_SUCCESS; ibnex_pseudo_initnodes(); if (parent == ibnex.ibnex_dip) { if (use_mdi_devi_locking) mdi_devi_exit(parent, circ); else ndi_devi_exit(parent, circ); mutex_enter(&ibnex.ibnex_mutex); ret = ibnex_pseudo_mdi_config_one( flag, devname, child, cname, caddr); mutex_exit(&ibnex.ibnex_mutex); kmem_free(device_name, len); return (ret); } mutex_enter(&ibnex.ibnex_mutex); ret = ibnex_pseudo_config_one(NULL, caddr, parent); mutex_exit(&ibnex.ibnex_mutex); } } if (strncmp(cname, IBNEX_IBPORT_CNAME, 6) == 0) { /* Allows enumeration under PHCI */ flag |= NDI_MDI_FALLBACK; } kmem_free(device_name, len); break; case BUS_CONFIG_OBP_ARGS: cdip = ibnex_config_obp_args(parent, devname); if (cdip) { /* * Boot case. * Special handling because the "devname" * format for the enumerated device is * different. */ node_data = ddi_get_parent_data(cdip); port_node = &node_data->node_data.port_node; if (node_data->node_type == IBNEX_VPPA_COMMSVC_NODE) { srvname = ibnex.ibnex_vppa_comm_svc_names[ port_node->port_commsvc_idx]; (void) snprintf(nameaddr, MAXNAMELEN, "ibport@%x,%x,%s", port_node->port_num, port_node->port_pkey, srvname); } devname = (void *)nameaddr; } else { IBTF_DPRINTF_L2("ibnex", "\tbus_config: CONFIG_OBP_ARGS : invalid state!!"); ret = IBNEX_FAILURE; } break; case BUS_CONFIG_ALL: /*FALLTHRU*/ case BUS_CONFIG_DRIVER: if (op == BUS_CONFIG_ALL) IBTF_DPRINTF_L4("ibnex", "\tbus_config: CONFIG_ALL, " "parent %p", parent); else IBTF_DPRINTF_L4("ibnex", "\tbus_config: CONFIG_DRIVER" ", parent %p", parent); /* * No locks to be held while calling mdi_vhci_bus_config() * ibnex_config_all_children() holds appropriate locks. */ if (use_mdi_devi_locking) mdi_devi_exit(parent, circ); else ndi_devi_exit(parent, circ); /* * Drive CONFIG requests for IB Nexus parent through * MDI. This is needed to load the HCA drivers in x86 SRP * boot case. * * CONFIG Requests with HCA parent will probe devices using * ibdm and configure all children. */ if (parent == ibnex.ibnex_dip) { ibdm_ioc_info_t *ioc_list; /* * Optimize the calls for each BUS_CONFIG_ALL request * to the IB Nexus dip. This is currently done for * each PDIP. */ if (ibnex.ibnex_ioc_list) { IBTF_DPRINTF_L4("ibnex", "\tbus_config: freeing ioc_list %p", ibnex.ibnex_ioc_list); ibdm_ibnex_free_ioc_list(ibnex.ibnex_ioc_list); mutex_enter(&ibnex.ibnex_mutex); ibnex.ibnex_ioc_list = NULL; mutex_exit(&ibnex.ibnex_mutex); } /* Enumerate all the IOC's */ ibdm_ibnex_port_settle_wait(0, ibnex_port_settling_time); ioc_list = ibdm_ibnex_get_ioc_list( IBDM_IBNEX_NORMAL_PROBE); IBTF_DPRINTF_L4("ibnex", "\tbus_config: alloc ioc_list %p", ioc_list); mutex_enter(&ibnex.ibnex_mutex); ibnex.ibnex_ioc_list = ioc_list; mutex_exit(&ibnex.ibnex_mutex); ret = mdi_vhci_bus_config(parent, flag, op, devname, child, NULL); return (ret); } else { ibnex_config_all_children(parent); if (use_mdi_devi_locking) mdi_devi_enter(parent, &circ); else ndi_devi_enter(parent, &circ); } break; default: IBTF_DPRINTF_L4("ibnex", "\tbus_config: error"); ret = IBNEX_FAILURE; break; } if (use_mdi_devi_locking) mdi_devi_exit(parent, circ); else ndi_devi_exit(parent, circ); if (ret == IBNEX_SUCCESS) { if (op == BUS_CONFIG_OBP_ARGS) op = BUS_CONFIG_ONE; if (pdip == NULL) pdip = parent; ret = ndi_busop_bus_config( pdip, flag, op, devname, child, 0); IBTF_DPRINTF_L4("ibnex", "\tbus_config:" "ndi_busop_bus_config : retval %d", ret); return (ret); } return (NDI_FAILURE); } /* * ibnex_config_root_iocnode() * Configures one particular instance of the IOC driver. * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_config_root_iocnode(dev_info_t *parent, char *device_name) { int ret, port = 0, iter = 0; boolean_t displayed = B_FALSE; char *portstr; ib_guid_t hca_guid, iou_guid, ioc_guid; ibdm_ioc_info_t *ioc_info; ibdm_port_attr_t *port_attr; IBTF_DPRINTF_L4("ibnex", "\tconfig_root_iocnode: name %s", device_name); portstr = strstr(device_name, ":port="); if (portstr == NULL) { return (IBNEX_FAILURE); } portstr[0] = 0; portstr++; if (ibnex_devname2port(portstr, &port)) { IBTF_DPRINTF_L4("ibnex", "\tconfig_root_iocnode: invalid port"); return (IBNEX_FAILURE); } if (ibnex_devname_to_node_n_ioc_guids( device_name, &iou_guid, &ioc_guid, NULL) != IBNEX_SUCCESS) { return (IBNEX_FAILURE); } (void) snprintf(device_name, (IBNEX_MAX_NODEADDR_SZ + 4), "ioc@%llX,%llX", (longlong_t)ioc_guid, (longlong_t)iou_guid); hca_guid = ibtl_ibnex_hcadip2guid(parent); if ((port_attr = ibdm_ibnex_probe_hcaport(hca_guid, port)) == NULL) { IBTF_DPRINTF_L2("ibnex", "\tconfig_root_iocnode: Port does not exist"); return (IBNEX_FAILURE); } /* Wait until "port is up" */ while (port_attr->pa_state != IBT_PORT_ACTIVE) { ibdm_ibnex_free_port_attr(port_attr); delay(drv_usectohz(10000)); if ((port_attr = ibdm_ibnex_probe_hcaport( hca_guid, port)) == NULL) { return (IBNEX_FAILURE); } if (iter++ == 400) { if (displayed == B_FALSE) { cmn_err(CE_NOTE, "\tWaiting for Port %d " "initialization", port_attr->pa_port_num); displayed = B_TRUE; } } } ibdm_ibnex_free_port_attr(port_attr); IBTF_DPRINTF_L4("ibnex", "\tconfig_rootioc_node:" "Port is initialized"); if ((ioc_info = ibdm_ibnex_probe_ioc(iou_guid, ioc_guid, 0)) == NULL) { ibdm_ibnex_free_ioc_list(ioc_info); return (IBNEX_FAILURE); } mutex_enter(&ibnex.ibnex_mutex); if ((ret = ibnex_ioc_config_from_pdip(ioc_info, parent, 0)) != IBNEX_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tconfig_root_ioc_node failed for pdip %p", parent); } mutex_exit(&ibnex.ibnex_mutex); ibdm_ibnex_free_ioc_list(ioc_info); return (ret); } static int ibnex_devname2port(char *portstr, int *port) { char *temp; int ret = IBNEX_FAILURE; IBTF_DPRINTF_L4("ibnex", "\tdevname2port: Begin"); temp = strchr(portstr, '='); if (temp != NULL) { temp++; *port = ibnex_str2int(temp, strlen(temp), &ret); } return (ret); } /* * ibnex_config_all_children() * Wait for lata SM initialization case before enumerating the nodes * Get list of HCA's and HCA port information * Create device device nodes and its node properties * for port nodes and VPPA nodes * Get list of all the IOC node information * Create device nodes and its properties for all the IOCs * if not created already * Bind drivers for all the newly created device nodes * Support Pseudo nodes enumerated using their .conf file */ static void ibnex_config_all_children(dev_info_t *parent) { int ii; ibdm_ioc_info_t *ioc_list; ibdm_hca_list_t *hca_list; ib_guid_t hca_guid; int circ; IBTF_DPRINTF_L4("ibnex", "\tconfig_all_children: Begin"); /* * Enumerate children of this HCA, port nodes, * VPPA & HCA_SVC nodes. Use ndi_devi_enter() for * locking. IB Nexus is enumerating the children * of HCA, not MPXIO clients. */ ndi_devi_enter(parent, &circ); hca_guid = ibtl_ibnex_hcadip2guid(parent); ibdm_ibnex_port_settle_wait(hca_guid, ibnex_port_settling_time); hca_list = ibdm_ibnex_get_hca_info_by_guid(hca_guid); if (hca_list == NULL) { ndi_devi_exit(parent, circ); return; } ibnex_create_hcasvc_nodes(parent, hca_list->hl_hca_port_attr); for (ii = 0; ii < hca_list->hl_nports; ii++) { ibnex_create_port_nodes( parent, &hca_list->hl_port_attr[ii]); ibnex_create_vppa_nodes( parent, &hca_list->hl_port_attr[ii]); } ibdm_ibnex_free_hca_list(hca_list); ndi_devi_exit(parent, circ); /* * Use mdi_devi_enter() for locking. IB Nexus is * enumerating MPxIO clients. */ mdi_devi_enter(parent, &circ); ibnex_pseudo_initnodes(); ioc_list = ibnex.ibnex_ioc_list; mutex_enter(&ibnex.ibnex_mutex); while (ioc_list) { (void) ibnex_ioc_config_from_pdip(ioc_list, parent, 0); ioc_list = ioc_list->ioc_next; } /* Config IBTF Pseudo clients */ ibnex_config_pseudo_all(parent); mutex_exit(&ibnex.ibnex_mutex); mdi_devi_exit(parent, circ); IBTF_DPRINTF_L4("ibnex", "\tconfig_all_children: End"); } /* * ibnex_create_port_nodes: * Creates a device node per each communication service defined * in the "port-commsvc-list" property per HCA port */ static void ibnex_create_port_nodes(dev_info_t *parent, ibdm_port_attr_t *port_attr) { int idx; dev_info_t *dip; int rval; mutex_enter(&ibnex.ibnex_mutex); for (idx = 0; idx < ibnex.ibnex_num_comm_svcs; idx++) { rval = ibnex_get_dip_from_guid(port_attr->pa_port_guid, idx, 0, &dip); if (rval != IBNEX_SUCCESS) { (void) ibnex_commsvc_initnode(parent, port_attr, idx, IBNEX_PORT_COMMSVC_NODE, 0, &rval, IBNEX_DEVFS_ENUMERATE); } } mutex_exit(&ibnex.ibnex_mutex); } /* * ibnex_create_vppa_nodes: * Creates a device node per each communication service defined * in the "vppa-commsvc-list" property and per each PKEY that * this particular port supports and per HCA port */ static void ibnex_create_vppa_nodes(dev_info_t *parent, ibdm_port_attr_t *port_attr) { int idx, ii; int rval; ib_pkey_t pkey; dev_info_t *dip; IBTF_DPRINTF_L4("ibnex", "\tcreate_vppa_nodes: Begin"); mutex_enter(&ibnex.ibnex_mutex); if (port_attr->pa_state != IBT_PORT_ACTIVE) { IBTF_DPRINTF_L4("ibnex", "\tcreate_vppa_nodes: " "Port %d is down", port_attr->pa_port_num); mutex_exit(&ibnex.ibnex_mutex); return; } for (idx = 0; idx < ibnex.ibnex_nvppa_comm_svcs; idx++) { for (ii = 0; ii < port_attr->pa_npkeys; ii++) { pkey = port_attr->pa_pkey_tbl[ii].pt_pkey; if (IBNEX_INVALID_PKEY(pkey)) { continue; } rval = ibnex_get_dip_from_guid( port_attr->pa_port_guid, idx, pkey, &dip); if ((rval != IBNEX_SUCCESS) || (dip == NULL)) { (void) ibnex_commsvc_initnode(parent, port_attr, idx, IBNEX_VPPA_COMMSVC_NODE, pkey, &rval, IBNEX_CFGADM_ENUMERATE); IBTF_DPRINTF_L5("ibnex", "\tcreate_vppa_nodes: " "commsvc_initnode failed rval %x", rval); } } } mutex_exit(&ibnex.ibnex_mutex); } /* * ibnex_create_hcasvc_nodes: * Creates a device node per each communication service defined * in the "port-commsvc-list" property per HCA port */ static void ibnex_create_hcasvc_nodes(dev_info_t *parent, ibdm_port_attr_t *port_attr) { int idx; dev_info_t *dip; int rval; mutex_enter(&ibnex.ibnex_mutex); for (idx = 0; idx < ibnex.ibnex_nhcasvc_comm_svcs; idx++) { rval = ibnex_get_dip_from_guid(port_attr->pa_port_guid, idx, 0, &dip); if (rval != IBNEX_SUCCESS) { (void) ibnex_commsvc_initnode(parent, port_attr, idx, IBNEX_HCASVC_COMMSVC_NODE, 0, &rval, IBNEX_DEVFS_ENUMERATE); IBTF_DPRINTF_L5("ibnex", "create_hcasvc_nodes: " "commsvc_initnode failed, rval %x", rval); } } mutex_exit(&ibnex.ibnex_mutex); } /* * ibnex_bus_unconfig() * * Unconfigure a particular device node or all instance of a device * driver device or all children of IBnex */ static int ibnex_bus_unconfig(dev_info_t *parent, uint_t flag, ddi_bus_config_op_t op, void *device_name) { ibnex_node_data_t *ndp; major_t major = (major_t)(uintptr_t)device_name; dev_info_t *dip = NULL; if (ndi_busop_bus_unconfig(parent, flag, op, device_name) != DDI_SUCCESS) return (DDI_FAILURE); /* * We can come into this routine with dip as ibnexus dip or hca dip. * When the dip is that of ib nexus we need to clean up the IOC and * pseudo nodes. When the dip is that of an HCA (not IB nexus dip) * cleanup the port nodes. */ if ((op == BUS_UNCONFIG_ALL || op == BUS_UNCONFIG_DRIVER) && (flag & (NDI_UNCONFIG | NDI_DETACH_DRIVER))) { mutex_enter(&ibnex.ibnex_mutex); if (parent != ibnex.ibnex_dip) { if (major == -1) { /* * HCA dip. When major number is -1 HCA is * going away cleanup all the port nodes. */ for (ndp = ibnex.ibnex_port_node_head; ndp; ndp = ndp->node_next) { ibnex_port_node_t *port_node; port_node = &ndp->node_data.port_node; if (port_node->port_pdip == parent) { port_node->port_pdip = NULL; ndp->node_dip = NULL; ndp->node_state = IBNEX_CFGADM_UNCONFIGURED; } } } else { /* * HCA dip. Cleanup only the port nodes that * match the major number. */ for (ndp = ibnex.ibnex_port_node_head; ndp; ndp = ndp->node_next) { ibnex_port_node_t *port_node; port_node = &ndp->node_data.port_node; dip = ndp->node_dip; if (dip && (ddi_driver_major(dip) == major) && port_node->port_pdip == parent) { port_node->port_pdip = NULL; ndp->node_dip = NULL; ndp->node_state = IBNEX_CFGADM_UNCONFIGURED; } } } } else { /* * IB dip. here we handle IOC and pseudo nodes which * are the children of IB nexus. Cleanup only the nodes * with matching major number. We also need to cleanup * the PathInfo links to the PHCI here. */ for (ndp = ibnex.ibnex_ioc_node_head; ndp; ndp = ndp->node_next) { dip = ndp->node_dip; if (dip && (ddi_driver_major(dip) == major)) { ibnex_offline_childdip(dip); } } for (ndp = ibnex.ibnex_pseudo_node_head; ndp; ndp = ndp->node_next) { dip = ndp->node_dip; if (dip && (ddi_driver_major(dip) == major)) { ibnex_offline_childdip(dip); } } } mutex_exit(&ibnex.ibnex_mutex); } return (DDI_SUCCESS); } /* * ibnex_config_port_node() * * Configures a particular port / HCA node for a particular * communication service. * The format of the device_name is * ibport@,, * where pkey = 0 for port communication service nodes * Port# = 0 for HCA_SVC communication service nodes * Returns "dev_info_t" of the "child" node just created * NULL when failed to enumerate the child node */ static dev_info_t * ibnex_config_port_node(dev_info_t *parent, char *devname) { int ii, index; int rval; uint8_t port_num; ib_guid_t hca_guid, port_guid; ib_pkey_t pkey; dev_info_t *cdip; ibdm_port_attr_t *port_attr; ibdm_hca_list_t *hca_list; IBTF_DPRINTF_L4("ibnex", "\tconfig_port_node: %s", devname); if (ibnex_get_pkey_commsvc_index_portnum(devname, &index, &pkey, &port_num) != IBNEX_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tconfig_port_node: Invalid Service Name"); return (NULL); } hca_guid = ibtl_ibnex_hcadip2guid(parent); if (port_num == 0) { /* * Use the dummy port attribute for HCA node in hca_list * Note : pa_state is always IBT_PORT_ACTIVE. */ hca_list = ibdm_ibnex_get_hca_info_by_guid(hca_guid); ASSERT(hca_list != NULL); port_attr = hca_list->hl_hca_port_attr; } else { if ((port_attr = ibdm_ibnex_probe_hcaport( hca_guid, port_num)) == NULL) { IBTF_DPRINTF_L2("ibnex", "\tconfig_port_node: Port does not exist"); return (NULL); } if (port_attr->pa_state != IBT_PORT_ACTIVE) { ibdm_ibnex_port_settle_wait( hca_guid, ibnex_port_settling_time); ibdm_ibnex_free_port_attr(port_attr); if ((port_attr = ibdm_ibnex_probe_hcaport( hca_guid, port_num)) == NULL) { return (NULL); } } } port_guid = port_attr->pa_port_guid; mutex_enter(&ibnex.ibnex_mutex); if ((rval = ibnex_get_dip_from_guid(port_guid, index, pkey, &cdip)) == IBNEX_SUCCESS) { IBTF_DPRINTF_L4("ibnex", "\tconfig_port_node: Node exists"); mutex_exit(&ibnex.ibnex_mutex); if (port_num != 0) ibdm_ibnex_free_port_attr(port_attr); else ibdm_ibnex_free_hca_list(hca_list); return (cdip); } if (pkey == 0 && port_num != 0) { cdip = ibnex_commsvc_initnode(parent, port_attr, index, IBNEX_PORT_COMMSVC_NODE, pkey, &rval, IBNEX_DEVFS_ENUMERATE); IBTF_DPRINTF_L5("ibnex", "\t ibnex_commsvc_initnode rval %x", rval); } else if (pkey == 0 && port_num == 0) { cdip = ibnex_commsvc_initnode(parent, port_attr, index, IBNEX_HCASVC_COMMSVC_NODE, pkey, &rval, IBNEX_DEVFS_ENUMERATE); IBTF_DPRINTF_L5("ibnex", "\t ibnex_commsvc_initnode rval %x", rval); } else { if (port_attr->pa_state != IBT_PORT_ACTIVE) { IBTF_DPRINTF_L4("ibnex", "\tconfig_port_nodes: " "Port %d is down", port_attr->pa_port_num); ibdm_ibnex_free_port_attr(port_attr); mutex_exit(&ibnex.ibnex_mutex); return (NULL); } for (ii = 0; ii < port_attr->pa_npkeys; ii++) { if (pkey == port_attr->pa_pkey_tbl[ii].pt_pkey) { cdip = ibnex_commsvc_initnode(parent, port_attr, index, IBNEX_VPPA_COMMSVC_NODE, pkey, &rval, IBNEX_CFGADM_ENUMERATE); IBTF_DPRINTF_L5("ibnex", "\t ibnex_commsvc_initnode rval %x", rval); break; } } } mutex_exit(&ibnex.ibnex_mutex); if (port_num != 0) ibdm_ibnex_free_port_attr(port_attr); else ibdm_ibnex_free_hca_list(hca_list); return (cdip); } /* * ibnex_config_obp_args() * Configures a particular port node for a IP over IB communication * service. * The format of the input string "devname" is * port=x,pkey=y,protocol=ip, * Thr format of the node name created here is * ibport@,, * where pkey = 0 for port communication service nodes * Returns "dev_info_t" of the "child" node just created * NULL when failed to enumerate the child node * */ static dev_info_t * ibnex_config_obp_args(dev_info_t *parent, char *devname) { int ii, index; int rval, iter = 0; char *temp; uint8_t port_num; ib_guid_t hca_guid, port_guid; ib_pkey_t pkey; dev_info_t *cdip; boolean_t displayed = B_FALSE; ibdm_port_attr_t *port_attr; IBTF_DPRINTF_L4("ibnex", "\tconfig_obp_args: %s", devname); /* Is this OBP node for IPoIB ? */ temp = devname; do { temp = strstr(temp, ",protocol=ip"); if (temp == NULL) break; if (strlen(devname) > (int)((temp - devname) + 12)) { if (temp[12] == ',') break; } else { break; } temp++; } while (temp); if (temp == NULL) return (NULL); if (ibnex_prom_devname_to_pkey_n_portnum( devname, &pkey, &port_num) != IBNEX_SUCCESS) { return (NULL); } for (index = 0; index < ibnex.ibnex_nvppa_comm_svcs; index++) { if (strcmp(ibnex.ibnex_vppa_comm_svc_names[index], "ipib") == 0) { break; } } hca_guid = ibtl_ibnex_hcadip2guid(parent); if ((port_attr = ibdm_ibnex_probe_hcaport( hca_guid, port_num)) == NULL) { IBTF_DPRINTF_L2("ibnex", "\tconfig_port_node: Port does not exist"); return (NULL); } /* Wait until "port is up" */ while (port_attr->pa_state != IBT_PORT_ACTIVE) { ibdm_ibnex_free_port_attr(port_attr); delay(drv_usectohz(10000)); if ((port_attr = ibdm_ibnex_probe_hcaport( hca_guid, port_num)) == NULL) { return (NULL); } if (iter++ == 400) { if (displayed == B_FALSE) { cmn_err(CE_NOTE, "\tWaiting for Port %d " "initialization", port_attr->pa_port_num); displayed = B_TRUE; } } } IBTF_DPRINTF_L4("ibnex", "\tPort is initialized"); mutex_enter(&ibnex.ibnex_mutex); port_guid = port_attr->pa_port_guid; if ((rval = ibnex_get_dip_from_guid(port_guid, index, pkey, &cdip)) == IBNEX_SUCCESS) { IBTF_DPRINTF_L4("ibnex", "\tconfig_port_node: Node exists"); mutex_exit(&ibnex.ibnex_mutex); ibdm_ibnex_free_port_attr(port_attr); return (cdip); } for (ii = 0; ii < port_attr->pa_npkeys; ii++) { if (pkey == port_attr->pa_pkey_tbl[ii].pt_pkey) { cdip = ibnex_commsvc_initnode(parent, port_attr, index, IBNEX_VPPA_COMMSVC_NODE, pkey, &rval, IBNEX_CFGADM_ENUMERATE); IBTF_DPRINTF_L5("ibnex", "\t ibnex_commsvc_initnode rval %x", rval); break; } } mutex_exit(&ibnex.ibnex_mutex); ibdm_ibnex_free_port_attr(port_attr); return (cdip); } /* * ibnex_prom_devname_to_pkey_n_portnum() * Parses the device node name and extracts "PKEY" and "port#" * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_prom_devname_to_pkey_n_portnum( char *devname, ib_pkey_t *pkey, uint8_t *port) { int ret = IBNEX_SUCCESS; char *tmp, *tmp1; if ((tmp = strstr(devname, "port=")) != NULL) { if ((tmp = strchr(++tmp, '=')) != NULL) if ((tmp1 = strchr(++tmp, ',')) != NULL) *port = ibnex_str2int(tmp, (tmp1 - tmp), &ret); } else ret = IBNEX_FAILURE; if ((ret == IBNEX_SUCCESS) && (tmp = strstr(devname, "pkey=")) != NULL) { if ((tmp = strchr(++tmp, '=')) != NULL) if ((tmp1 = strchr(++tmp, ',')) != NULL) *pkey = ibnex_str2hex(tmp, (tmp1 - tmp), &ret); } else ret = IBNEX_FAILURE; return (ret); } /* * ibnex_get_pkey_commsvc_index_portnum() * Parses the device node name and extracts PKEY, communication * service index & Port #. * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_get_pkey_commsvc_index_portnum(char *device_name, int *index, ib_pkey_t *pkey, uint8_t *port_num) { char *srv, **service_name, *temp; int ii, ncommsvcs, ret; if (ibnex_devname_to_portnum(device_name, port_num) != IBNEX_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tget_pkey_commsvc_index_portnum: Invalid PortGuid"); return (NULL); } srv = strchr(device_name, ','); if (srv == 0) return (IBNEX_FAILURE); srv++; temp = strchr(srv, ','); if (temp == 0) return (IBNEX_FAILURE); temp++; *pkey = ibnex_str2hex(srv, (temp - srv - 1), &ret); if (ret != IBNEX_SUCCESS) return (ret); if (*pkey == 0 && *port_num != 0) { service_name = ibnex.ibnex_comm_svc_names; ncommsvcs = ibnex.ibnex_num_comm_svcs; } else if (*pkey == 0 && *port_num == 0) { service_name = ibnex.ibnex_hcasvc_comm_svc_names; ncommsvcs = ibnex.ibnex_nhcasvc_comm_svcs; } else { service_name = ibnex.ibnex_vppa_comm_svc_names; ncommsvcs = ibnex.ibnex_nvppa_comm_svcs; } for (ii = 0; ii < ncommsvcs; ii++) { if (strcmp(service_name[ii], temp) == 0) { break; } } if (ii == ncommsvcs) return (IBNEX_FAILURE); *index = ii; return (IBNEX_SUCCESS); } /* * ibnex_devname_to_portnum() * Get portguid from device name * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_devname_to_portnum(char *device_name, uint8_t *portnum) { int ret; char *temp1, *temp2; temp1 = strchr(device_name, '@'); if (temp1 == NULL) { return (IBNEX_FAILURE); } temp2 = strchr(temp1, ','); if (temp2 == NULL) return (IBNEX_FAILURE); temp1++; *portnum = ibnex_str2hex(temp1, (temp2 - temp1), &ret); return (ret); } /* * ibnex_config_ioc_node() * Configures one particular instance of the IOC driver. * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_config_ioc_node(char *device_name, dev_info_t *pdip) { int ret; ib_guid_t iou_guid, ioc_guid; ibdm_ioc_info_t *ioc_info; IBTF_DPRINTF_L4("ibnex", "\tconfig_ioc_node: Begin"); if (ibnex_devname_to_node_n_ioc_guids( device_name, &iou_guid, &ioc_guid, NULL) != IBNEX_SUCCESS) { return (IBNEX_FAILURE); } ibdm_ibnex_port_settle_wait(0, ibnex_port_settling_time); if ((ioc_info = ibdm_ibnex_probe_ioc(iou_guid, ioc_guid, 0)) == NULL) { ibdm_ibnex_free_ioc_list(ioc_info); return (IBNEX_FAILURE); } mutex_enter(&ibnex.ibnex_mutex); ret = ibnex_ioc_config_from_pdip(ioc_info, pdip, 0); mutex_exit(&ibnex.ibnex_mutex); ibdm_ibnex_free_ioc_list(ioc_info); IBTF_DPRINTF_L4("ibnex", "\tconfig_ioc_node: ret %x", ret); return (ret); } /* * ibnex_devname_to_node_n_ioc_guids() * Get node guid and ioc guid from the device name * Format of the device node name is: * ioc@, * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_devname_to_node_n_ioc_guids( char *device_name, ib_guid_t *iou_guid, ib_guid_t *ioc_guid, char **ioc_guid_strp) { char *temp1, *temp; int len, ret; char *ioc_guid_str; IBTF_DPRINTF_L4("ibnex", "\tdevname_to_node_n_ioc_guids:" "Device Name %s", device_name); if ((temp = strchr(device_name, '@')) == NULL) { return (IBNEX_FAILURE); } if ((temp1 = strchr(++temp, ',')) == NULL) { return (IBNEX_FAILURE); } *ioc_guid = ibnex_str2hex(temp, (temp1 - temp), &ret); if (ret == IBNEX_SUCCESS) { if (ioc_guid_strp) { ioc_guid_str = *ioc_guid_strp = kmem_zalloc((temp1 - temp) + 1, KM_SLEEP); (void) strncpy(ioc_guid_str, temp, temp1 - temp + 1); ioc_guid_str[temp1 - temp] = '\0'; } len = device_name + strlen(device_name) - ++temp1; *iou_guid = ibnex_str2hex(temp1, len, &ret); } return (ret); } /* * ibnex_ioc_initnode() * Allocate a pathinfo node for the IOC * Initialize the device node * Bind driver to the node * Update IBnex global data * Returns IBNEX_SUCCESS/IBNEX_FAILURE/IBNEX_BUSY */ static int ibnex_ioc_initnode_pdip(ibnex_node_data_t *node_data, ibdm_ioc_info_t *ioc_info, dev_info_t *pdip) { int rval, node_valid; ibnex_node_state_t prev_state; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); ASSERT(node_data); /* * Return EBUSY if another configure/unconfigure * operation is in progress */ if (node_data->node_state == IBNEX_CFGADM_UNCONFIGURING) { IBTF_DPRINTF_L4("ibnex", "\tioc_initnode_pdip : BUSY"); return (IBNEX_BUSY); } prev_state = node_data->node_state; node_data->node_state = IBNEX_CFGADM_CONFIGURING; mutex_exit(&ibnex.ibnex_mutex); rval = ibnex_ioc_create_pi(ioc_info, node_data, pdip, &node_valid); mutex_enter(&ibnex.ibnex_mutex); if (rval == IBNEX_SUCCESS) node_data->node_state = IBNEX_CFGADM_CONFIGURED; else if (node_valid) node_data->node_state = prev_state; return (rval); } /* * ibnex_config_pseudo_all() * Configure all the pseudo nodes */ static void ibnex_config_pseudo_all(dev_info_t *pdip) { ibnex_node_data_t *nodep; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); for (nodep = ibnex.ibnex_pseudo_node_head; nodep; nodep = nodep->node_next) { (void) ibnex_pseudo_config_one(nodep, NULL, pdip); } } /* * ibnex_pseudo_config_one() */ static int ibnex_pseudo_config_one(ibnex_node_data_t *node_data, char *caddr, dev_info_t *pdip) { int rval; ibnex_pseudo_node_t *pseudo; ibnex_node_state_t prev_state; IBTF_DPRINTF_L4("ibnex", "\tpseudo_config_one(%p, %p, %p)", node_data, caddr, pdip); ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); if (node_data == NULL) { IBTF_DPRINTF_L4("ibnex", "\tpseudo_config_one: caddr = %s", caddr); /* * This function is now called with PHCI / HCA driver * as parent. The format of devicename is : * @, * The "caddr" part of the devicename matches the * format of pseudo_node_addr. * * Use "caddr" to find a matching Pseudo node entry. */ node_data = ibnex_is_node_data_present(IBNEX_PSEUDO_NODE, (void *)caddr, 0, 0); } if (node_data == NULL) { IBTF_DPRINTF_L2("ibnex", "\tpseudo_config_one: Invalid node"); return (IBNEX_FAILURE); } if (node_data->node_ap_state == IBNEX_NODE_AP_UNCONFIGURED) { IBTF_DPRINTF_L4("ibnex", "\tpseudo_config_one: Unconfigured node"); return (IBNEX_FAILURE); } pseudo = &node_data->node_data.pseudo_node; /* * Do not enumerate nodes with ib-node-type set as "merge" */ if (pseudo->pseudo_merge_node == 1) { IBTF_DPRINTF_L4("ibnex", "\tpseudo_config_one: merge_node"); return (IBNEX_FAILURE); } /* * Check if a PI has already been created for the PDIP. * If so, return SUCCESS. */ if (node_data->node_dip != NULL && mdi_pi_find(pdip, pseudo->pseudo_node_addr, pseudo->pseudo_node_addr) != NULL) { IBTF_DPRINTF_L4("ibnex", "\tpseudo_config_one: PI created," " pdip %p, addr %s", pdip, pseudo->pseudo_node_addr); return (IBNEX_SUCCESS); } /* * Return EBUSY if another unconfigure * operation is in progress */ if (node_data->node_state == IBNEX_CFGADM_UNCONFIGURING) { IBTF_DPRINTF_L4("ibnex", "\tpseudo_config_one: BUSY"); return (IBNEX_BUSY); } prev_state = node_data->node_state; node_data->node_state = IBNEX_CFGADM_CONFIGURING; mutex_exit(&ibnex.ibnex_mutex); rval = ibnex_pseudo_create_pi_pdip(node_data, pdip); mutex_enter(&ibnex.ibnex_mutex); if (rval == IBNEX_SUCCESS) { node_data->node_state = IBNEX_CFGADM_CONFIGURED; } else { node_data->node_state = prev_state; } IBTF_DPRINTF_L4("ibnex", "\tpseudo_config_one: ret %x", rval); return (rval); } /* * ibnex_pseudo_mdi_config_one() * This is similar to ibnex_pseudo_config_one. Few * differences : * 1. parent device lock not held(no ndi_devi_enter) * 2. Called for IB Nexus as parent, not IB HCA as * parent. * 3. Calls mdi_vhci_bus_config() * This function skips checks for node_state, initializing * node_state, node_dip, etc. These checks and initializations * are done when BUS_CONFIG is called with PHCI as the parent. */ static int ibnex_pseudo_mdi_config_one(int flag, void *devname, dev_info_t **child, char *cname, char *caddr) { int rval, len; char *node_addr; ibnex_node_data_t *node_data; IBTF_DPRINTF_L4("ibnex", "\tpseudo_mdi_config_one:" "cname = %s caddr = %s", cname, caddr); ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); len = strlen(cname) + strlen(caddr) + 2; node_addr = (char *)kmem_alloc(len, KM_SLEEP); (void) snprintf(node_addr, len, "%s,%s", cname, caddr); node_data = ibnex_is_node_data_present(IBNEX_PSEUDO_NODE, (void *)node_addr, 0, 0); kmem_free(node_addr, len); if (node_data == NULL) { IBTF_DPRINTF_L2("ibnex", "\tpseudo_mdi_config_one: Invalid node"); return (IBNEX_FAILURE); } mutex_exit(&ibnex.ibnex_mutex); rval = mdi_vhci_bus_config(ibnex.ibnex_dip, flag, BUS_CONFIG_ONE, devname, child, node_data->node_data.pseudo_node.pseudo_node_addr); mutex_enter(&ibnex.ibnex_mutex); return (rval); } /* * ibnex_pseudo_create_all_pi() * Create all path infos node for a pseudo entry */ int ibnex_pseudo_create_all_pi(ibnex_node_data_t *nodep) { int hcacnt, rc; int hcafailcnt = 0; dev_info_t *hca_dip; ibdm_hca_list_t *hca_list, *head; IBTF_DPRINTF_L4("ibnex", "\tpseudo_create_all_pi(%p)", nodep); ibdm_ibnex_get_hca_list(&hca_list, &hcacnt); head = hca_list; /* * We return failure even if we fail for all HCAs. */ for (; hca_list != NULL; hca_list = hca_list->hl_next) { hca_dip = ibtl_ibnex_hcaguid2dip(hca_list->hl_hca_guid); rc = ibnex_pseudo_create_pi_pdip(nodep, hca_dip); if (rc != IBNEX_SUCCESS) hcafailcnt++; } if (head) ibdm_ibnex_free_hca_list(head); if (hcafailcnt == hcacnt) rc = IBNEX_FAILURE; else rc = IBNEX_SUCCESS; IBTF_DPRINTF_L4("ibnex", "\tpseudo_create_all_pi rc %x", rc); return (rc); } static int ibnex_pseudo_create_pi_pdip(ibnex_node_data_t *nodep, dev_info_t *hca_dip) { mdi_pathinfo_t *pip; int rval; dev_info_t *cdip = NULL; ibnex_pseudo_node_t *pseudo; int first_pi = 0; IBTF_DPRINTF_L4("ibnex", "\tpseudo_create_pi_pdip: %p, %p", nodep, hca_dip); pseudo = &nodep->node_data.pseudo_node; rval = mdi_pi_alloc(hca_dip, pseudo->pseudo_devi_name, pseudo->pseudo_node_addr, pseudo->pseudo_node_addr, 0, &pip); if (rval != MDI_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tpseudo_create_pi_pdip:" " mdi_pi_alloc failed"); return (IBNEX_FAILURE); } cdip = mdi_pi_get_client(pip); if (nodep->node_dip == NULL) { IBTF_DPRINTF_L4("ibnex", "\tpseudo_create_pi: New dip %p", cdip); first_pi = 1; nodep->node_dip = cdip; ddi_set_parent_data(cdip, nodep); } rval = mdi_pi_online(pip, 0); if (rval != MDI_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tpseudo_create_pi: " "mdi_pi_online: failed for pseudo dip %p," " rval %d", cdip, rval); rval = IBNEX_FAILURE; if (first_pi == 1) { ddi_set_parent_data(cdip, NULL); (void) ibnex_offline_childdip(cdip); nodep->node_dip = NULL; } else (void) mdi_pi_free(pip, 0); } else rval = IBNEX_SUCCESS; return (rval); } /* * ibnex_ioc_create_pi() * Create a pathinfo node for the ioc node */ static int ibnex_ioc_create_pi(ibdm_ioc_info_t *ioc_info, ibnex_node_data_t *node_data, dev_info_t *pdip, int *node_valid) { mdi_pathinfo_t *pip; int rval = DDI_FAILURE; dev_info_t *cdip = NULL; int create_prop = 0; ibnex_ioc_node_t *ioc = &node_data->node_data.ioc_node; IBTF_DPRINTF_L4("ibnex", "\tibnex_ioc_create_pi(%p, %p, %p)", ioc_info, node_data, pdip); *node_valid = 1; /* * For CONFIG_ONE requests through HCA dip, alloc * for HCA dip driving BUS_CONFIG request. */ rval = mdi_pi_alloc(pdip, IBNEX_IOC_CNAME, ioc->ioc_guid_str, ioc->ioc_phci_guid, 0, &pip); if (rval != MDI_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tioc_create_pi: mdi_pi_alloc(%p, %s. %s) failed", pdip, ioc->ioc_guid_str, ioc->ioc_phci_guid); return (IBNEX_FAILURE); } cdip = mdi_pi_get_client(pip); IBTF_DPRINTF_L4("ibnex", "\tioc_create_pi: IOC dip %p", cdip); if (node_data->node_dip == NULL) { node_data->node_dip = cdip; ddi_set_parent_data(cdip, node_data); create_prop = 1; IBTF_DPRINTF_L4("ibnex", "\tioc_create_pi: creating prop"); if ((rval = ibnex_create_ioc_node_prop( ioc_info, cdip)) != IBNEX_SUCCESS) { IBTF_DPRINTF_L4("ibnex", "\tioc_create_pi: creating prop failed"); ibnex_delete_ioc_node_data(node_data); *node_valid = 0; ddi_prop_remove_all(cdip); ddi_set_parent_data(cdip, NULL); (void) ibnex_offline_childdip(cdip); return (IBNEX_FAILURE); } } rval = mdi_pi_online(pip, 0); if (rval != MDI_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tioc_create_pi: " "mdi_pi_online() failed ioc dip %p, rval %d", cdip, rval); rval = IBNEX_FAILURE; if (create_prop) { ddi_set_parent_data(cdip, NULL); ddi_prop_remove_all(cdip); ibnex_delete_ioc_node_data(node_data); *node_valid = 0; (void) ibnex_offline_childdip(cdip); } else (void) mdi_pi_free(pip, 0); } else rval = IBNEX_SUCCESS; IBTF_DPRINTF_L4("ibnex", "\tioc_create_pi ret %x", rval); return (rval); } /* * ibnex_create_ioc_node_prop() * Create IOC device node properties * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_create_ioc_node_prop(ibdm_ioc_info_t *ioc_info, dev_info_t *cdip) { uint16_t capabilities; ib_dm_ioc_ctrl_profile_t *ioc_profile = &ioc_info->ioc_profile; IBTF_DPRINTF_L4("ibnex", "\tcreate_ioc_node_prop"); if (ibnex_create_ioc_compatible_prop(cdip, ioc_profile) != IBNEX_SUCCESS) { return (IBNEX_FAILURE); } if ((ioc_info->ioc_iou_dc_valid) && (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "iou-diagcode", ioc_info->ioc_iou_diagcode)) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: iou-diagcode create failed"); return (IBNEX_FAILURE); } if ((ioc_info->ioc_diagdeviceid) && (ioc_info->ioc_dc_valid)) { if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "ioc-diagcode", ioc_info->ioc_diagcode) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: " "ioc-diagcode create failed"); return (IBNEX_FAILURE); } } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "rdma-queue-depth", ioc_profile->ioc_rdma_read_qdepth) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: rdma-queue-depth create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "rdma-transfer-size", ioc_profile->ioc_rdma_xfer_sz) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: " "rdma-transfer-size create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "send-message-size", ioc_profile->ioc_send_msg_sz) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: send-message-size create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "send-queue-depth", ioc_profile->ioc_send_msg_qdepth) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: send-queue-depth create failed"); return (IBNEX_FAILURE); } capabilities = (ioc_profile->ioc_ctrl_opcap_mask << 8); if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "capabilities", capabilities) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: capabilities create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_string(DDI_DEV_T_NONE, cdip, "id-string", (char *)ioc_profile->ioc_id_string) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: id-string failed"); return (IBNEX_FAILURE); } /* * Create properties to represent all the service entries supported * by the IOC. Each service entry consists of 1) Service ID (64 bits) * and 2) Service name (40 bytes). The service entry table is * represented by two properties, service-ids and service-names. The * service-id property is a array of int64's and service names is * array of strings. The first element in the "service-ids" property * corresponds to first string in the "service-names" and so on. */ if ((ioc_profile->ioc_service_entries != 0) && (ibnex_create_ioc_srv_props(cdip, ioc_info) != IBNEX_SUCCESS)) return (IBNEX_FAILURE); /* Create destination port GID properties */ if (ibnex_create_ioc_portgid_prop(cdip, ioc_info) != IBNEX_SUCCESS) return (IBNEX_FAILURE); if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "protocol-version", ioc_profile->ioc_protocol_ver) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: protocol-version create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "protocol", ioc_profile->ioc_protocol) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: protocol create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "io-subclass", ioc_profile->ioc_io_subclass) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: subclass create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "io-class", ioc_profile->ioc_io_class) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: class prop create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "subsystem-id", ioc_profile->ioc_subsys_id) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: subsys_id create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "subsystem-vendor-id", ioc_profile->ioc_subsys_vendorid) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: subsystem vendor create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int64(DDI_DEV_T_NONE, cdip, "ioc-guid", ioc_profile->ioc_guid) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: protocol create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "device-version", ioc_profile->ioc_device_ver) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: product-id create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "device-id", ioc_profile->ioc_deviceid) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: product-id create failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "vendor-id", ioc_profile->ioc_vendorid) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_node_prop: vendor-id create failed"); return (IBNEX_FAILURE); } return (IBNEX_SUCCESS); } /* * ibnex_create_ioc_portgid_prop() * Creates "port-entries", "port-list" properties * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_create_ioc_portgid_prop( dev_info_t *cdip, ibdm_ioc_info_t *ioc_info) { uint64_t *port_gids; int length, ii, jj; int prop_len; ibnex_node_data_t *node_data; IBTF_DPRINTF_L4("ibnex", "\tcreate_ioc_portgid_prop"); node_data = ddi_get_parent_data(cdip); ASSERT(node_data); prop_len = (ioc_info->ioc_nportgids != 0) ? (2 * ioc_info->ioc_nportgids) : 1; length = sizeof (uint64_t) * prop_len; port_gids = kmem_zalloc(length, KM_SLEEP); for (ii = 0, jj = 0; ii < ioc_info->ioc_nportgids; ii++) { port_gids[jj++] = ioc_info->ioc_gid_list[ii].gid_dgid_hi; port_gids[jj++] = ioc_info->ioc_gid_list[ii].gid_dgid_lo; } if (ndi_prop_update_int64_array(DDI_DEV_T_NONE, cdip, "port-list", (int64_t *)port_gids, prop_len) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_portgid_prop: port-list create failed"); kmem_free(port_gids, length); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "port-entries", ioc_info->ioc_nportgids) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_portgid_prop: port-entries create failed"); kmem_free(port_gids, length); return (IBNEX_FAILURE); } kmem_free(port_gids, length); return (IBNEX_SUCCESS); } /* * ibnex_create_ioc_srv_props() * Creates "service-name" and "service-id" properties * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_create_ioc_srv_props( dev_info_t *cdip, ibdm_ioc_info_t *ioc_info) { int length, ii; uint64_t *srv_id; char *temp, *srv_names[IB_DM_MAX_IOCS_IN_IOU]; ib_dm_ioc_ctrl_profile_t *profile = &ioc_info->ioc_profile; ibdm_srvents_info_t *srvents = ioc_info->ioc_serv; IBTF_DPRINTF_L4("ibnex", "\tcreate_ioc_srv_props"); length = profile->ioc_service_entries * sizeof (ib_dm_srv_t); srv_id = kmem_zalloc(length, KM_SLEEP); temp = (char *)((char *)srv_id + (8 * profile->ioc_service_entries)); for (ii = 0; ii < profile->ioc_service_entries; ii++) { srv_names[ii] = (char *)temp + (ii * IB_DM_MAX_SVC_NAME_LEN); } for (ii = 0; ii < profile->ioc_service_entries; ii++) { srv_id[ii] = srvents[ii].se_attr.srv_id; bcopy(srvents[ii].se_attr.srv_name, srv_names[ii], (IB_DM_MAX_SVC_NAME_LEN - 1)); IBTF_DPRINTF_L4("ibnex", "\tcreate_ioc_srv_props " "Service Names : %s", srv_names[ii]); IBTF_DPRINTF_L4("ibnex", "\tcreate_ioc_srv_props " "Service ID : %llX", srv_id[ii]); } if (ndi_prop_update_int64_array(DDI_DEV_T_NONE, cdip, "service-id", (int64_t *)srv_id, profile->ioc_service_entries) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_srv_props: service-id create failed"); kmem_free(srv_id, length); return (IBNEX_FAILURE); } if (ndi_prop_update_string_array(DDI_DEV_T_NONE, cdip, "service-name", (char **)srv_names, profile->ioc_service_entries) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_ioc_srv_props: service-name create failed"); kmem_free(srv_id, length); return (IBNEX_FAILURE); } kmem_free(srv_id, length); return (IBNEX_SUCCESS); } /* * ibnex_create_ioc_compatible_prop() * Creates "compatible" property values * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_create_ioc_compatible_prop( dev_info_t *cdip, ib_dm_ioc_ctrl_profile_t *ioc_profile) { char *temp; int rval, ii; char *compatible[IBNEX_MAX_COMPAT_NAMES]; /* * Initialize the "compatible" property string as below: * Compatible Strings : * 1. ib.VPSsv * 2. ib.VPSs * 3. ib.VPv * 4. ib.VP * 5. ib.Ccpr * 6. ib.Ccp * * Note: * All leading zeros must be present * All numeric values must specified in hex without prefix "0x" */ temp = kmem_alloc(IBNEX_MAX_COMPAT_PROP_SZ, KM_SLEEP); for (ii = 0; ii < IBNEX_MAX_COMPAT_NAMES; ii++) compatible[ii] = temp + (ii * IBNEX_MAX_COMPAT_LEN); (void) snprintf(compatible[0], IBNEX_MAX_COMPAT_LEN, "ib.V%06xP%08xS%06xs%08xv%04x", ioc_profile->ioc_vendorid, ioc_profile->ioc_deviceid, ioc_profile->ioc_subsys_vendorid, ioc_profile->ioc_subsys_id, ioc_profile->ioc_device_ver); (void) snprintf(compatible[1], IBNEX_MAX_COMPAT_LEN, "ib.V%06xP%08xS%06xs%08x", ioc_profile->ioc_vendorid, ioc_profile->ioc_deviceid, ioc_profile->ioc_subsys_vendorid, ioc_profile->ioc_subsys_id); (void) snprintf(compatible[2], IBNEX_MAX_COMPAT_LEN, "ib.V%06xP%08xv%04x", ioc_profile->ioc_vendorid, ioc_profile->ioc_deviceid, ioc_profile->ioc_device_ver); (void) snprintf(compatible[3], IBNEX_MAX_COMPAT_LEN, "ib.V%06xP%08x", ioc_profile->ioc_vendorid, ioc_profile->ioc_deviceid); (void) snprintf(compatible[4], IBNEX_MAX_COMPAT_LEN, "ib.C%04xc%04xp%04xr%04x", ioc_profile->ioc_io_class, ioc_profile->ioc_io_subclass, ioc_profile->ioc_protocol, ioc_profile->ioc_protocol_ver); (void) snprintf(compatible[5], IBNEX_MAX_COMPAT_LEN, "ib.C%04xc%04xp%04x", ioc_profile->ioc_io_class, ioc_profile->ioc_io_subclass, ioc_profile->ioc_protocol); for (ii = 0; ii < IBNEX_MAX_COMPAT_NAMES; ii++) IBTF_DPRINTF_L4("ibnex", "\tcompatible: %s", compatible[ii]); /* Create the compatible property for child cdip */ rval = ndi_prop_update_string_array(DDI_DEV_T_NONE, cdip, "compatible", (char **)compatible, IBNEX_MAX_COMPAT_NAMES); if (rval != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcompatible prop_create failed"); kmem_free(temp, IBNEX_MAX_COMPAT_PROP_SZ); return (IBNEX_FAILURE); } kmem_free(temp, IBNEX_MAX_COMPAT_PROP_SZ); return (IBNEX_SUCCESS); } static void ibnex_ioc_node_cleanup() { ibnex_node_data_t *node, *delete; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); for (node = ibnex.ibnex_ioc_node_head; node; ) { delete = node; node = node->node_next; mutex_exit(&ibnex.ibnex_mutex); ibnex_delete_ioc_node_data(delete); mutex_enter(&ibnex.ibnex_mutex); } } /* * ibnex_delete_ioc_node_data() * Delete IOC node from the list */ static void ibnex_delete_ioc_node_data(ibnex_node_data_t *node) { IBTF_DPRINTF_L4("ibnex", "\tdelete_ioc_node_data:"); mutex_enter(&ibnex.ibnex_mutex); if ((node->node_next == NULL) && (node->node_prev == NULL)) { ASSERT(ibnex.ibnex_ioc_node_head == node); ibnex.ibnex_ioc_node_head = NULL; } else if (node->node_next == NULL) node->node_prev->node_next = NULL; else if (node->node_prev == NULL) { node->node_next->node_prev = NULL; ibnex.ibnex_ioc_node_head = node->node_next; } else { node->node_prev->node_next = node->node_next; node->node_next->node_prev = node->node_prev; } IBTF_DPRINTF_L4("ibnex", "\tdelete_ioc_node_data: head %p", ibnex.ibnex_ioc_node_head); mutex_exit(&ibnex.ibnex_mutex); kmem_free(node, sizeof (ibnex_node_data_t)); } /* * ibnex_dm_callback() * * This routine is registered with the IBDM during IB nexus attach. It * is called by the IBDM module when it discovers * New HCA port * HCA port removal * New HCA added * HCA removed */ void ibnex_dm_callback(void *arg, ibdm_events_t flag) { char hca_guid[IBNEX_HCAGUID_STRSZ]; ibdm_ioc_info_t *ioc_list, *ioc; ibnex_node_data_t *node_data; IBTF_DPRINTF_L4("ibnex", "\tdm_callback: attr %p event %x", arg, flag); switch (flag) { case IBDM_EVENT_HCA_ADDED: (void) snprintf(hca_guid, IBNEX_HCAGUID_STRSZ, "%llX", (*(longlong_t *)arg)); /* Create a devctl minor node for the HCA's port */ if (ddi_create_minor_node(ibnex.ibnex_dip, hca_guid, S_IFCHR, ddi_get_instance(ibnex.ibnex_dip), DDI_NT_IB_ATTACHMENT_POINT, 0) != DDI_SUCCESS) { IBTF_DPRINTF_L4("ibnex", "\tdm_callback: failed to " "create minor node for port w/ guid %s", hca_guid); } break; case IBDM_EVENT_HCA_REMOVED: (void) snprintf(hca_guid, IBNEX_HCAGUID_STRSZ, "%llX", (*(longlong_t *)arg)); ddi_remove_minor_node(ibnex.ibnex_dip, hca_guid); break; case IBDM_EVENT_IOC_PROP_UPDATE: ioc = ioc_list = (ibdm_ioc_info_t *)arg; if (ioc_list == NULL) break; mutex_enter(&ibnex.ibnex_mutex); while (ioc_list) { if ((node_data = ibnex_is_node_data_present( IBNEX_IOC_NODE, ioc_list, 0, 0)) != NULL && node_data->node_dip != NULL) { ibnex_update_prop(node_data, ioc_list); } ioc_list = ioc_list->ioc_next; } mutex_exit(&ibnex.ibnex_mutex); ibdm_ibnex_free_ioc_list(ioc); } } /* * ibnex_get_dip_from_guid() * * Searches the linked list of the port nodes and returns the dip for * the of the Port / Node guid requested. * Returns NULL if not found */ int ibnex_get_dip_from_guid(ib_guid_t guid, int index, ib_pkey_t pkey, dev_info_t **dip) { int node_index; ib_guid_t node_guid; ib_pkey_t node_pkey; ibnex_node_data_t *node_data; IBTF_DPRINTF_L4("ibnex", "\tget_dip_from_guid: guid = %llX", guid); ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); /* Search for a matching entry in internal lists */ node_data = ibnex.ibnex_port_node_head; while (node_data) { node_guid = node_data->node_data.port_node.port_guid; node_index = node_data->node_data.port_node.port_commsvc_idx; node_pkey = node_data->node_data.port_node.port_pkey; if ((node_guid == guid) && (index == node_index) && (node_pkey == pkey)) { break; } node_data = node_data->node_next; } /* matching found with a valid dip */ if (node_data && node_data->node_dip) { *dip = node_data->node_dip; return (IBNEX_SUCCESS); } else if (node_data && !node_data->node_dip) { /* dip is invalid */ *dip = NULL; return (IBNEX_SUCCESS); } /* no match found */ *dip = NULL; return (IBNEX_FAILURE); } /* * ibnex_comm_svc_init() * Read the property and cache the values in the global * structure. * Check for max allowed length (4 bytes) of service name * (each element of the property) * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static ibnex_rval_t ibnex_comm_svc_init(char *property, ibnex_node_type_t type) { int i, len, count; int ncomm_svcs; char **comm_svcp; char **servicep = NULL; uint_t nservices = 0; int *valid = NULL; IBTF_DPRINTF_L4("ibnex", "\tcomm_svc_init : %s property, type = %x", property, type); /* lookup the string array property */ if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, ibnex.ibnex_dip, DDI_PROP_DONTPASS, property, &servicep, &nservices) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\t%s property undefined", property); return (IBNEX_SUCCESS); } if (nservices) valid = kmem_zalloc(nservices * sizeof (int), KM_SLEEP); /* first read the file to get a count of valid service entries */ for (ncomm_svcs = 0, count = 0; count < nservices; count++) { int j; len = strlen(servicep[count]); /* * ib.conf has NULL strings for port-svc-list & * hca-svc-list, by default. Do not have L2 message * for these. */ if (len == 1 || len > 4) { IBTF_DPRINTF_L2("ibnex", "\tcomm_svc_init : " "Service name %s for property %s invalid : " "length %d", servicep[count], property, len); continue; } else if (len == 0) { continue; } if (ibnex_unique_svcname(servicep[count]) != IBNEX_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcomm_svc_init : " "Service name %s invalid : Not unique", servicep[count]); continue; } /* * ibnex_unique_svcname checks for uniqueness in service names * communication services fully initialized. Check uniqueness * in service names currently initialized. */ for (j = 0; j < count; j++) if (valid[j] && strncmp(servicep[count], servicep[j], 4) == 0) { IBTF_DPRINTF_L2("ibnex", "\tcomm_svc_init : " "Service name %s invalid : Not unique", servicep[count]); continue; } valid[count] = 1; ncomm_svcs++; } /* if no valid entries found, bailout */ if (nservices == 0 || ncomm_svcs == 0) { IBTF_DPRINTF_L4("ibnex", "\tNo %s entries found", property); ddi_prop_free(servicep); /* free the property */ if (valid) kmem_free(valid, nservices * sizeof (int)); return (IBNEX_SUCCESS); } comm_svcp = kmem_zalloc((ncomm_svcs * sizeof (char *)), KM_SLEEP); if (type == IBNEX_PORT_COMMSVC_NODE) { ibnex.ibnex_comm_svc_names = comm_svcp; ibnex.ibnex_num_comm_svcs = ncomm_svcs; } else if (type == IBNEX_VPPA_COMMSVC_NODE) { ibnex.ibnex_vppa_comm_svc_names = comm_svcp; ibnex.ibnex_nvppa_comm_svcs = ncomm_svcs; } else if (type == IBNEX_HCASVC_COMMSVC_NODE) { ibnex.ibnex_hcasvc_comm_svc_names = comm_svcp; ibnex.ibnex_nhcasvc_comm_svcs = ncomm_svcs; } /* copy the services into an array of strings */ for (i = 0, count = 0; count < nservices; count++) { if (valid[count] == 0) /* Skip invalid ones */ continue; comm_svcp[i] = kmem_alloc(len + 1, KM_SLEEP); (void) strcpy(comm_svcp[i], servicep[count]); IBTF_DPRINTF_L4("ibnex", "\t\tService [%d]: %s", i, comm_svcp[i]); ++i; } ddi_prop_free(servicep); kmem_free(valid, nservices * sizeof (int)); return (IBNEX_SUCCESS); } /* * ibnex_comm_svc_fini() * Deallocate all the memory allocated for the communication * service arrays. */ static void ibnex_comm_svc_fini() { int index; for (index = 0; index < ibnex.ibnex_num_comm_svcs; index++) { kmem_free(ibnex.ibnex_comm_svc_names[index], (strlen(ibnex.ibnex_comm_svc_names[index]) + 1)); } if (ibnex.ibnex_comm_svc_names) { kmem_free(ibnex.ibnex_comm_svc_names, ibnex.ibnex_num_comm_svcs * sizeof (char *)); } for (index = 0; index < ibnex.ibnex_nvppa_comm_svcs; index++) { kmem_free(ibnex.ibnex_vppa_comm_svc_names[index], strlen(ibnex.ibnex_vppa_comm_svc_names[index]) +1); } if (ibnex.ibnex_vppa_comm_svc_names) { kmem_free(ibnex.ibnex_vppa_comm_svc_names, ibnex.ibnex_nvppa_comm_svcs * sizeof (char *)); } for (index = 0; index < ibnex.ibnex_nhcasvc_comm_svcs; index++) { kmem_free(ibnex.ibnex_hcasvc_comm_svc_names[index], strlen(ibnex.ibnex_hcasvc_comm_svc_names[index]) +1); } if (ibnex.ibnex_hcasvc_comm_svc_names) { kmem_free(ibnex.ibnex_hcasvc_comm_svc_names, ibnex.ibnex_nhcasvc_comm_svcs * sizeof (char *)); } ibnex.ibnex_comm_svc_names = NULL; ibnex.ibnex_num_comm_svcs = 0; ibnex.ibnex_vppa_comm_svc_names = NULL; ibnex.ibnex_nvppa_comm_svcs = 0; ibnex.ibnex_hcasvc_comm_svc_names = NULL; ibnex.ibnex_nhcasvc_comm_svcs = 0; } /* * ibnex_commsvc_initnode() * This routine is specific to port/VPPA node creation * Creates a device node for the comm service specified by commsvc_index * Creates all the device node properties * Allocates and initializes the node specific data * Binds the device driver of the device node * Returns "dev_info_t" of the child node or NULL in case of failure * Sets IBNEX_SUCCESS/IBNEX_FAILURE/IBNEX_BUSY in "rval" to reflect * if the operation was successful, failed or was not performed. */ dev_info_t * ibnex_commsvc_initnode(dev_info_t *parent, ibdm_port_attr_t *port_attr, int index, int node_type, ib_pkey_t pkey, int *rval, int flag) { int ret; char *svcname; dev_info_t *cdip; ibnex_node_data_t *node_data; ibnex_port_node_t *port_node; char devname[MAXNAMELEN]; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); *rval = IBNEX_SUCCESS; /* * prevent any races * we have seen this node_data and it has been initialized * Note that node_dip is already NULL if unconfigure is in * progress. */ node_data = ibnex_is_node_data_present(node_type, (void *)port_attr, index, pkey); /* * If this node has been explicity unconfigured by cfgadm, then it can * be configured back again only by cfgadm configure. */ if (node_data && (node_data->node_ap_state == IBNEX_NODE_AP_UNCONFIGURED)) { *rval = IBNEX_FAILURE; return (NULL); } if (node_data && node_data->node_dip) { /* * Return NULL if another configure * operation is in progress */ if (node_data->node_state == IBNEX_CFGADM_CONFIGURING) { *rval = IBNEX_BUSY; return (NULL); } else { return (node_data->node_dip); } } else if (node_data == NULL) { /* allocate a new ibnex_node_data_t */ node_data = ibnex_init_child_nodedata(node_type, port_attr, index, pkey); node_data->node_data.port_node.port_pdip = parent; } /* * Return NULL if another unconfigure operation is in progress */ if (node_data->node_state == IBNEX_CFGADM_UNCONFIGURING) { *rval = IBNEX_BUSY; return (NULL); } ASSERT(node_data->node_state != IBNEX_CFGADM_CONFIGURED); node_data->node_state = IBNEX_CFGADM_CONFIGURING; switch (node_type) { case IBNEX_VPPA_COMMSVC_NODE : svcname = ibnex.ibnex_vppa_comm_svc_names[index]; port_node = &node_data->node_data.port_node; (void) snprintf(devname, MAXNAMELEN, "%s@%x,%x,%s", IBNEX_IBPORT_CNAME, port_node->port_num, port_node->port_pkey, svcname); break; case IBNEX_HCASVC_COMMSVC_NODE : svcname = ibnex.ibnex_hcasvc_comm_svc_names[index]; port_node = &node_data->node_data.port_node; (void) snprintf(devname, MAXNAMELEN, "%s@%x,0,%s", IBNEX_IBPORT_CNAME, port_node->port_num, svcname); break; case IBNEX_PORT_COMMSVC_NODE : svcname = ibnex.ibnex_comm_svc_names[index]; port_node = &node_data->node_data.port_node; (void) snprintf(devname, MAXNAMELEN, "%s@%x,0,%s", IBNEX_IBPORT_CNAME, port_node->port_num, svcname); break; default : IBTF_DPRINTF_L2("ibnex", "\tcommsvc_initnode:" "\tInvalid Node type"); *rval = IBNEX_FAILURE; mutex_exit(&ibnex.ibnex_mutex); ibnex_delete_port_node_data(node_data); mutex_enter(&ibnex.ibnex_mutex); return (NULL); } if ((cdip = ndi_devi_findchild(parent, devname)) != NULL) { if (i_ddi_devi_attached(cdip)) { node_data->node_dip = cdip; node_data->node_data.port_node.port_pdip = parent; node_data->node_state = IBNEX_CFGADM_CONFIGURED; ddi_set_parent_data(cdip, node_data); return (cdip); } } else { ndi_devi_alloc_sleep(parent, IBNEX_IBPORT_CNAME, (pnode_t)DEVI_SID_NODEID, &cdip); } node_data->node_dip = cdip; ddi_set_parent_data(cdip, node_data); mutex_exit(&ibnex.ibnex_mutex); if (ibnex_create_port_node_prop(port_attr, cdip, svcname, pkey) == IBNEX_SUCCESS) { if (flag == IBNEX_DEVFS_ENUMERATE) ret = ndi_devi_bind_driver(cdip, 0); else ret = ndi_devi_online(cdip, 0); if (ret == NDI_SUCCESS) { mutex_enter(&ibnex.ibnex_mutex); node_data->node_state = IBNEX_CFGADM_CONFIGURED; node_data->node_data.port_node.port_pdip = parent; return (cdip); } } *rval = IBNEX_FAILURE; ibnex_delete_port_node_data(node_data); (void) ndi_devi_free(cdip); mutex_enter(&ibnex.ibnex_mutex); IBTF_DPRINTF_L4("ibnex", "\tcommsvc_initnode: failure exit"); return (NULL); } /* * ibnex_create_port_node_prop() * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_create_port_node_prop(ibdm_port_attr_t *port_attr, dev_info_t *child_dip, char *srvname, ib_pkey_t pkey) { if (ibnex_create_port_compatible_prop(child_dip, srvname, port_attr) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: compatible update failed"); return (IBNEX_FAILURE); } if ((pkey != 0) && (ndi_prop_update_int(DDI_DEV_T_NONE, child_dip, "port-pkey", pkey) != DDI_PROP_SUCCESS)) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: port-num update failed"); return (IBNEX_FAILURE); } /* * For HCA_SVC device nodes, port_num will be 0. * Do not create the "port-number" & "port-guid" properties. */ if (port_attr->pa_port_num != 0) { if (ndi_prop_update_int(DDI_DEV_T_NONE, child_dip, "port-number", port_attr->pa_port_num) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: port-num update failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int64(DDI_DEV_T_NONE, child_dip, "port-guid", port_attr->pa_port_guid) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: port-guid update failed"); return (IBNEX_FAILURE); } } else { ibdm_hca_list_t *hca_list; /* * HCA_SVC nodes require "num-ports" & "port-guids" * properties. * * To create the num-ports & port-guids attribute : * 1. Get HCA list (ibdm_ibnex_get_hca_info_by_guid) * 2. Form the array of port GUIDs. */ if ((hca_list = ibdm_ibnex_get_hca_info_by_guid( port_attr->pa_hca_guid)) == NULL) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: hca_info_by_guid failed"); return (IBNEX_FAILURE); } if (hca_list->hl_nports != 0) { ib_guid_t *port_guids; uint8_t portnum; ASSERT(hca_list->hl_port_attr != NULL); port_guids = kmem_zalloc( hca_list->hl_nports * sizeof (ib_guid_t), KM_SLEEP); for (portnum = 0; portnum < hca_list->hl_nports; portnum++) { port_guids[portnum] = (hca_list-> hl_port_attr[portnum]).pa_port_guid; } if (ndi_prop_update_int64_array(DDI_DEV_T_NONE, child_dip, "port-guids", (int64_t *)port_guids, hca_list->hl_nports) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: port-guids " "create failed"); kmem_free(port_guids, hca_list->hl_nports * sizeof (ib_guid_t)); ibdm_ibnex_free_hca_list(hca_list); return (IBNEX_FAILURE); } kmem_free(port_guids, hca_list->hl_nports * sizeof (ib_guid_t)); } if (ndi_prop_update_int(DDI_DEV_T_NONE, child_dip, "num-ports", hca_list->hl_nports) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: num-ports update failed"); ibdm_ibnex_free_hca_list(hca_list); return (IBNEX_FAILURE); } ibdm_ibnex_free_hca_list(hca_list); } if (ndi_prop_update_int64(DDI_DEV_T_NONE, child_dip, "hca-guid", port_attr->pa_hca_guid) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: hca-guid update failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, child_dip, "product-id", port_attr->pa_productid) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: product-id update failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, child_dip, "vendor-id", port_attr->pa_vendorid) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: vendor-id update failed"); return (IBNEX_FAILURE); } if (ndi_prop_update_int(DDI_DEV_T_NONE, child_dip, "device-version", port_attr->pa_dev_version) != DDI_PROP_SUCCESS) { IBTF_DPRINTF_L2("ibnex", "\tcreate_port_node_prop: device-version update failed"); return (IBNEX_FAILURE); } return (IBNEX_SUCCESS); } /* * ibnex_str2int() * Utility function that converts a string of length "len" to * integer. * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_str2int(char *c, int len, int *ret) { int intval = 0, ii; IBTF_DPRINTF_L4("ibnex", "\tstr2int: Int string %s..", c); *ret = IBNEX_SUCCESS; for (ii = 0; ii < len; ii ++) { if ((c[ii] >= '0') && (c[ii] <= '9')) intval = intval * 10 +c[ii] - '0'; else { IBTF_DPRINTF_L2("ibnex", "\tstr2int: Invalid integer string %s..", c); *ret = IBNEX_FAILURE; break; } } return (intval); } /* * ibnex_str2hex() * Utility functions that converts a string of length "len" to * hex value. Note. This function does not handle strings which * string length more than 8 bytes. * */ uint64_t ibnex_str2hex(char *c, int len, int *ret) { uint64_t hex = 0, ii; *ret = IBNEX_SUCCESS; for (ii = 0; ii < len; ii ++) { hex = (ii == 0) ? hex : (hex << 4); if ((c[ii] >= '0') && (c[ii] <= '9')) hex |= c[ii] - '0'; else if ((c[ii] >= 'a') && (c[ii] <= 'f')) hex |= c[ii] - 'a' + 10; else if ((c[ii] >= 'A') && (c[ii] <= 'F')) hex |= c[ii] - 'A' + 10; else { IBTF_DPRINTF_L2("ibnex", "\tstr2hex: Invalid integer string"); *ret = IBNEX_FAILURE; break; } } return (hex); } /* * ibnex_create_port_compatible_prop() * Creates 'Compatibility' property for port / HCA_SVC device nodes * Returns IBNEX_SUCCESS/IBNEX_FAILURE */ static int ibnex_create_port_compatible_prop(dev_info_t *child_dip, char *comm_svcp, ibdm_port_attr_t *port_attr) { int rval, i; char *temp; char *compatible[IBNEX_MAX_IBPORT_COMPAT_NAMES]; IBTF_DPRINTF_L4("ibnex", "\tcreate_port_compatible_prop: Begin"); /* * Initialize the "compatible" property string as below: * Compatible Strings : * 1. ib.VPv.. * 2. ib.VP.. * 3. ib. * Leading zeros must be present */ temp = kmem_alloc(IBNEX_MAX_IBPORT_COMPAT_PROP_SZ, KM_SLEEP); for (i = 0; i < IBNEX_MAX_IBPORT_COMPAT_NAMES; i++) { compatible[i] = temp + (i * IBNEX_MAX_COMPAT_LEN); } (void) snprintf(compatible[0], IBNEX_MAX_COMPAT_LEN, "ib.V%06xP%08xv%04x.%s", port_attr->pa_vendorid, port_attr->pa_productid, port_attr->pa_dev_version, comm_svcp); (void) snprintf(compatible[1], IBNEX_MAX_COMPAT_LEN, "ib.V%06xP%08x.%s", port_attr->pa_vendorid, port_attr->pa_productid, comm_svcp); (void) snprintf(compatible[2], IBNEX_MAX_COMPAT_LEN, "ib.%s", comm_svcp); for (i = 0; i < IBNEX_MAX_IBPORT_COMPAT_NAMES; i++) IBTF_DPRINTF_L4("ibnex", "\tcompatible: %s", compatible[i]); rval = ndi_prop_update_string_array(DDI_DEV_T_NONE, child_dip, "compatible", (char **)compatible, IBNEX_MAX_IBPORT_COMPAT_NAMES); if (rval != DDI_PROP_SUCCESS) { kmem_free(temp, IBNEX_MAX_IBPORT_COMPAT_PROP_SZ); return (IBNEX_FAILURE); } kmem_free(temp, IBNEX_MAX_IBPORT_COMPAT_PROP_SZ); return (IBNEX_SUCCESS); } /* * ibnex_delete_port_node_data() * Delete the parent private node data from the linked list * Deallocate the memory of the port/ioc attributes * Deallocate the memory of the node data */ static void ibnex_delete_port_node_data(ibnex_node_data_t *node) { mutex_enter(&ibnex.ibnex_mutex); if ((node->node_next == NULL) && (node->node_prev == NULL)) ibnex.ibnex_port_node_head = NULL; else if (node->node_next == NULL) node->node_prev->node_next = NULL; else if (node->node_prev == NULL) { node->node_next->node_prev = NULL; ibnex.ibnex_port_node_head = node->node_next; } else { node->node_prev->node_next = node->node_next; node->node_next->node_prev = node->node_prev; } mutex_exit(&ibnex.ibnex_mutex); kmem_free(node, sizeof (ibnex_node_data_t)); } /* * ibnex_is_node_data_present() * Checks whether ibnex_node_t is created already * Returns ibnex_node_data_t if found, otherwise NULL */ static ibnex_node_data_t * ibnex_is_node_data_present(ibnex_node_type_t node_type, void *attr, int index, ib_pkey_t pkey) { ibnex_node_data_t *nodep; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); if (node_type == IBNEX_IOC_NODE) { ibdm_ioc_info_t *ioc_infop = (ibdm_ioc_info_t *)attr; for (nodep = ibnex.ibnex_ioc_node_head; nodep != NULL; nodep = nodep->node_next) { if (nodep->node_data.ioc_node.ioc_guid == ioc_infop->ioc_profile.ioc_guid) { return (nodep); } } } else if (node_type == IBNEX_PSEUDO_NODE) { for (nodep = ibnex.ibnex_pseudo_node_head; nodep; nodep = nodep->node_next) if (strcmp(nodep->node_data.pseudo_node. pseudo_node_addr, (char *)attr) == 0) return (nodep); } else { ibdm_port_attr_t *pattrp = (ibdm_port_attr_t *)attr; for (nodep = ibnex.ibnex_port_node_head; nodep != NULL; nodep = nodep->node_next) { if ((nodep->node_data.port_node.port_guid == pattrp->pa_port_guid) && (nodep->node_data.port_node.port_commsvc_idx == index) && (nodep->node_data.port_node.port_pkey == pkey)) { return (nodep); } } } return (NULL); } /* * ibnex_lookup_unit_address_prop: * * If property with name is found, return its value * otherwise return NULL. */ static char * ibnex_lookup_named_prop(ddi_prop_t *head, char *name) { ddi_prop_t *propp; /* Search the list of properties for name */ for (propp = head; propp != NULL; propp = propp->prop_next) { if (strcmp(propp->prop_name, name) != 0) continue; /* named property should be valid and have a value */ if (propp->prop_len <= 1) break; return ((char *)propp->prop_val); } return ((char *)0); } /* * ibnex_pseudo_initnodes() * This routine is specific to pseudo node information handling * Creates a ibnex_node_data_t all pseudo nodes children of ibnex */ void ibnex_pseudo_initnodes() { int pnam_len, len; ibnex_node_data_t *nodep; struct hwc_spec *list, *spec; char *node_addr, *temp, *unit_addr; char *node_type; IBTF_DPRINTF_L4("ibnex", "\tpseudo_initnodes"); mutex_enter(&ibnex.ibnex_mutex); /* * get a list of all "pseudo" children of "ib". * for these children initialize/allocate an internal * ibnex_node_data_t. */ list = hwc_get_child_spec(ibnex.ibnex_dip, (major_t)-1); for (spec = list; spec != NULL; spec = spec->hwc_next) { if (spec->hwc_devi_sys_prop_ptr == NULL) continue; /* Check "ib-node-type" property for IOC .conf */ node_type = ibnex_lookup_named_prop( spec->hwc_devi_sys_prop_ptr, "ib-node-type"); /* "unit-address" property should be present */ temp = ibnex_lookup_named_prop( spec->hwc_devi_sys_prop_ptr, "unit-address"); if (temp == NULL) continue; pnam_len = strlen(spec->hwc_devi_name) + strlen(temp) + 2; node_addr = kmem_zalloc(pnam_len, KM_SLEEP); (void) snprintf(node_addr, pnam_len, "%s,%s", spec->hwc_devi_name, temp); nodep = ibnex_is_node_data_present( IBNEX_PSEUDO_NODE, (void *)node_addr, 0, 0); if (nodep) { kmem_free(node_addr, pnam_len); continue; } nodep = ibnex_init_child_nodedata(IBNEX_PSEUDO_NODE, (void *)spec->hwc_devi_name, 0, 0); nodep->node_data.pseudo_node.pseudo_node_addr = node_addr; (void) snprintf(nodep->node_data. pseudo_node.pseudo_node_addr, pnam_len, "%s", node_addr); len = strlen(temp) + 1; unit_addr = (char *)kmem_alloc(len, KM_SLEEP); nodep->node_data.pseudo_node.pseudo_unit_addr = unit_addr; (void) snprintf(unit_addr, len, "%s", temp); nodep->node_data.pseudo_node.pseudo_unit_addr_len = len; if (node_type && strcmp(node_type, "merge") == 0) nodep->node_data.pseudo_node.pseudo_merge_node = 1; IBTF_DPRINTF_L3("ibnex", "\tpseudo_initnodes: unit addr = %s" " : drv name = %s", unit_addr, spec->hwc_devi_name); } hwc_free_spec_list(list); mutex_exit(&ibnex.ibnex_mutex); } /* * ibnex_init_child_nodedata() * * Allocate memory for the parent private data for device node * Initializes the parent private child device node data. * Returns pointer to the parent private data */ static ibnex_node_data_t * ibnex_init_child_nodedata(ibnex_node_type_t node_type, void *attr, int index, ib_pkey_t pkey) { char *devi_name; ibdm_ioc_info_t *ioc_info; ibnex_ioc_node_t *ioc_node; ibnex_node_data_t *node_data; ib_dm_ioc_ctrl_profile_t *ioc_profile; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); node_data = kmem_zalloc(sizeof (ibnex_node_data_t), KM_SLEEP); node_data->node_ap_state = IBNEX_NODE_AP_CONFIGURED; node_data->node_state = IBNEX_CFGADM_CONFIGURING; node_data->node_type = node_type; if (node_type == IBNEX_IOC_NODE) { ioc_info = (ibdm_ioc_info_t *)attr; ioc_profile = &ioc_info->ioc_profile; ioc_node = &node_data->node_data.ioc_node; ioc_node->iou_guid = ioc_info->ioc_iou_guid; ioc_node->ioc_guid = ioc_profile->ioc_guid; (void) strncpy(ioc_node->ioc_id_string, (char *)ioc_profile->ioc_id_string, IB_DM_IOC_ID_STRING_LEN); ioc_node->ioc_ngids = ioc_info->ioc_nportgids; node_data->node_next = ibnex.ibnex_ioc_node_head; node_data->node_prev = NULL; if (ibnex.ibnex_ioc_node_head) ibnex.ibnex_ioc_node_head->node_prev = node_data; ibnex.ibnex_ioc_node_head = node_data; } else if (node_type == IBNEX_PSEUDO_NODE) { devi_name = (char *)attr; node_data->node_data.pseudo_node.pseudo_devi_name = kmem_zalloc(strlen(devi_name) + 1, KM_SLEEP); (void) strncpy(node_data->node_data.pseudo_node. pseudo_devi_name, devi_name, strlen(devi_name)); node_data->node_next = ibnex.ibnex_pseudo_node_head; node_data->node_prev = NULL; if (ibnex.ibnex_pseudo_node_head) ibnex.ibnex_pseudo_node_head->node_prev = node_data; ibnex.ibnex_pseudo_node_head = node_data; } else { node_data->node_data.port_node.port_hcaguid = ((ibdm_port_attr_t *)attr)->pa_hca_guid; node_data->node_data.port_node.port_guid = ((ibdm_port_attr_t *)attr)->pa_port_guid; node_data->node_data.port_node.port_num = ((ibdm_port_attr_t *)attr)->pa_port_num; node_data->node_data.port_node.port_commsvc_idx = index; node_data->node_data.port_node.port_pkey = pkey; node_data->node_next = ibnex.ibnex_port_node_head; node_data->node_prev = NULL; if (ibnex.ibnex_port_node_head) ibnex.ibnex_port_node_head->node_prev = node_data; ibnex.ibnex_port_node_head = node_data; } return (node_data); } static int ibnex_get_eventcookie(dev_info_t *dip, dev_info_t *rdip, char *eventname, ddi_eventcookie_t *cookie) { int rc; IBTF_DPRINTF_L4("ibnex", "ibnex_get_eventcookie(%p, %p, %s, 0x%X)", dip, rdip, eventname, cookie); rc = ndi_event_retrieve_cookie(ibnex.ibnex_ndi_event_hdl, rdip, eventname, cookie, NDI_EVENT_NOPASS); if (rc == NDI_SUCCESS) { mutex_enter(&ibnex.ibnex_mutex); ibnex.ibnex_prop_update_evt_cookie = *cookie; mutex_exit(&ibnex.ibnex_mutex); } return (rc); } static int ibnex_add_eventcall(dev_info_t *dip, dev_info_t *rdip, ddi_eventcookie_t cookie, void (*callback)(dev_info_t *dip, ddi_eventcookie_t cookie, void *arg, void *bus_impldata), void *arg, ddi_callback_id_t *cb_id) { IBTF_DPRINTF_L4("ibnex", "ibnex_add_eventcall(%p, %p, 0x%X, %p, %p, %p)", dip, rdip, cookie, callback, arg, cb_id); return (ndi_event_add_callback(ibnex.ibnex_ndi_event_hdl, rdip, cookie, callback, arg, NDI_SLEEP, cb_id)); } static int ibnex_remove_eventcall(dev_info_t *dip, ddi_callback_id_t cb_id) { IBTF_DPRINTF_L4("ibnex", "ibnex_remove_eventcall(%p, 0x%X)", dip, cb_id); return (ndi_event_remove_callback(ibnex.ibnex_ndi_event_hdl, cb_id)); } static int ibnex_post_event(dev_info_t *dip, dev_info_t *rdip, ddi_eventcookie_t cookie, void *bus_impldata) { IBTF_DPRINTF_L4("ibnex", "ibnex_post_event(%p, %p, 0x%X, %p)", dip, rdip, cookie, bus_impldata); return (ndi_event_run_callbacks(ibnex.ibnex_ndi_event_hdl, rdip, cookie, bus_impldata)); } /* * ibnex_reprobe_ioc_dev() * * This could be called as a result of ibt_reprobe_dev request or * cfgadm command. The function is called from a taskq in case of * ibt_reprobe_dev and from user context for cfgadm command. * * This function reprobes the properties for one IOC dip. * * node_reprobe_state should be set before calling this function. */ void ibnex_reprobe_ioc_dev(void *arg) { dev_info_t *dip = (dev_info_t *)arg; ibnex_node_data_t *node_data; ibnex_ioc_node_t *ioc_data; ibdm_ioc_info_t *ioc_info; /* ASSERT(NO_LOCKS_HELD); */ ASSERT(dip != NULL); node_data = ddi_get_parent_data(dip); ASSERT(node_data); if (node_data->node_dip == NULL) { IBTF_DPRINTF_L4("ibnex", "reprobe for unconfigured dip"); mutex_enter(&ibnex.ibnex_mutex); ibnex_wakeup_reprobe_ioc(node_data, 0); mutex_exit(&ibnex.ibnex_mutex); return; } ioc_data = &(node_data->node_data.ioc_node); /* Reprobe the IOC */ ioc_info = ibdm_ibnex_probe_ioc(ioc_data->iou_guid, ioc_data->ioc_guid, 1); if (ioc_info == NULL) { IBTF_DPRINTF_L2("ibnex", "Null ioc_info from reprobe"); mutex_enter(&ibnex.ibnex_mutex); ibnex_wakeup_reprobe_ioc(node_data, 1); mutex_exit(&ibnex.ibnex_mutex); return; } mutex_enter(&ibnex.ibnex_mutex); if (node_data->node_dip) ibnex_update_prop(node_data, ioc_info); ibnex_wakeup_reprobe_ioc(node_data, 0); mutex_exit(&ibnex.ibnex_mutex); ibdm_ibnex_free_ioc_list(ioc_info); } /* * ibnex_reprobe_all() * * This could be called as a result of cfgadm command. The function * is called from user context. * * This function reprobes the properties for all IOC dips. * * ibnex_reprobe_state should be set before calling this function. */ void ibnex_reprobe_ioc_all() { ibnex_node_data_t *node_data; ibdm_ioc_info_t *ioc_info_list, *ioc; /* ASSERT(NO_LOCKS_HELD); */ /* Sweep the fabric */ ioc = ioc_info_list = ibdm_ibnex_get_ioc_list( IBDM_IBNEX_REPROBE_ALL); if (ioc_info_list == NULL) { mutex_enter(&ibnex.ibnex_mutex); ibnex_wakeup_reprobe_all(); mutex_exit(&ibnex.ibnex_mutex); return; } mutex_enter(&ibnex.ibnex_mutex); while (ioc_info_list) { if ((node_data = ibnex_is_node_data_present(IBNEX_IOC_NODE, ioc_info_list, 0, 0)) != NULL && node_data->node_dip != NULL) { ibnex_update_prop(node_data, ioc_info_list); } ioc_info_list = ioc_info_list->ioc_next; } ibnex_wakeup_reprobe_all(); mutex_exit(&ibnex.ibnex_mutex); ibdm_ibnex_free_ioc_list(ioc); } /* * Update the properties, if it has modified and notify IBTF client. */ static void ibnex_update_prop(ibnex_node_data_t *node_data, ibdm_ioc_info_t *ioc_info) { ibt_prop_update_payload_t evt_data; dev_info_t *dip = node_data->node_dip; ddi_eventcookie_t evt_cookie; ibnex_ioc_node_t *ioc; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); ASSERT(dip != NULL); ioc = &node_data->node_data.ioc_node; evt_data = ioc_info->ioc_info_updated; evt_cookie = ibnex.ibnex_prop_update_evt_cookie; /* * For a disconnected IOC : * Store the ioc_profile for supplying cfgadm info * ibdm maintains no info of disconnected IOC * * For reconnected IOC : * ibdm has info of previous service entries * ioc_profile maintained by ibnexus is used to * update ib_srv_prop_updated. * Free the ibnex maintained ioc_profile */ if (ioc_info->ioc_nportgids == 0) { IBTF_DPRINTF_L4("ibnex", "\tupdate_prop: IOC disconnected"); ioc->ioc_profile = (ib_dm_ioc_ctrl_profile_t *)kmem_zalloc( sizeof (ib_dm_ioc_ctrl_profile_t), KM_SLEEP); bcopy(&ioc_info->ioc_profile, ioc->ioc_profile, sizeof (ib_dm_ioc_ctrl_profile_t)); ibnex.ibnex_num_disconnect_iocs++; } else if (ioc_info->ioc_nportgids != 0 && ioc->ioc_ngids == 0 && ioc->ioc_profile != NULL) { IBTF_DPRINTF_L4("ibnex", "\tupdate_prop: IOC reconnected"); if (ioc->ioc_profile->ioc_service_entries != ioc_info->ioc_profile.ioc_service_entries) evt_data.ib_srv_prop_updated = 1; ibnex.ibnex_num_disconnect_iocs--; kmem_free(ioc->ioc_profile, sizeof (ib_dm_ioc_ctrl_profile_t)); ioc->ioc_profile = NULL; } /* Update the properties that have changed */ mutex_exit(&ibnex.ibnex_mutex); if (evt_data.ib_gid_prop_updated) { if (ibnex_create_ioc_portgid_prop(dip, ioc_info) != IBNEX_SUCCESS) { mutex_enter(&ibnex.ibnex_mutex); return; } } if (evt_data.ib_srv_prop_updated) { if (ioc_info->ioc_profile.ioc_service_entries != 0 && (ibnex_create_ioc_srv_props(dip, ioc_info) != IBNEX_SUCCESS)) { mutex_enter(&ibnex.ibnex_mutex); return; } else if (ioc_info->ioc_profile.ioc_service_entries == 0) { (void) ndi_prop_remove(DDI_DEV_T_NONE, dip, "service-id"); (void) ndi_prop_remove(DDI_DEV_T_NONE, dip, "service-name"); } } mutex_enter(&ibnex.ibnex_mutex); ioc->ioc_ngids = ioc_info->ioc_nportgids; /* * Post an event if : * 1. Properites have changed or NOTIFY_ALWAYS is set. * 2. child dip is configured and a valid cookie for * IB_PROP_UPDATE_EVENT. */ if ((evt_data.ib_prop_updated != 0 || (node_data->node_reprobe_state & IBNEX_NODE_REPROBE_NOTIFY_ALWAYS)) && ((node_data->node_state == IBNEX_CFGADM_CONFIGURED) && (evt_cookie != NULL))) { mutex_exit(&ibnex.ibnex_mutex); if (ndi_post_event(ibnex.ibnex_dip, dip, evt_cookie, &evt_data) != NDI_SUCCESS) IBTF_DPRINTF_L2("ibnex", "\tndi_post_event failed\n"); mutex_enter(&ibnex.ibnex_mutex); } /* * Cleanup node_reprobe_state, for ibt_reprobe_dev * requests, when reprobe all / node reprobe is in * progress. ibnex_reprobe_ioc_dev is not called * in this case. */ if (node_data->node_reprobe_state == IBNEX_NODE_REPROBE_NOTIFY_ALWAYS) ibnex_wakeup_reprobe_ioc(node_data, 0); } static ibnex_rval_t ibnex_unique_svcname(char *svcname) { int i; /* Check Port Services */ for (i = 0; i < ibnex.ibnex_num_comm_svcs; i++) if (ibnex.ibnex_comm_svc_names[i] && strncmp(svcname, ibnex.ibnex_comm_svc_names[i], 4) == 0) return (IBNEX_FAILURE); /* Check VPPA Services */ for (i = 0; i < ibnex.ibnex_nvppa_comm_svcs; i++) if (ibnex.ibnex_vppa_comm_svc_names[i] && strncmp(svcname, ibnex.ibnex_vppa_comm_svc_names[i], 4) == 0) return (IBNEX_FAILURE); /* Check HCA_SVC Services */ for (i = 0; i < ibnex.ibnex_nhcasvc_comm_svcs; i++) if (ibnex.ibnex_hcasvc_comm_svc_names[i] && strncmp(svcname, ibnex.ibnex_hcasvc_comm_svc_names[i], 4) == 0) return (IBNEX_FAILURE); return (IBNEX_SUCCESS); } static void ibnex_handle_reprobe_dev(void *arg) { dev_info_t *dip = (dev_info_t *)arg; ibnex_node_data_t *node_data; ASSERT(dip != NULL); node_data = ddi_get_parent_data(dip); ASSERT(node_data); /* * Return success if: * 1. Reprobe for all nodes are in progress * 2. Reprobe for this node is in progress. * The reprobe in progress will complete eventually and * update the properties, if required. */ mutex_enter(&ibnex.ibnex_mutex); if (ibnex.ibnex_reprobe_state != 0 || node_data->node_reprobe_state != 0) { /* * Setting NOTIFY_ALWAYS to ensure that * DDI event is delivered always for * ibt_reprobe_dev */ node_data->node_reprobe_state |= IBNEX_NODE_REPROBE_NOTIFY_ALWAYS; mutex_exit(&ibnex.ibnex_mutex); return; } node_data->node_reprobe_state = IBNEX_NODE_REPROBE_NOTIFY_ALWAYS; mutex_exit(&ibnex.ibnex_mutex); ibnex_reprobe_ioc_dev(arg); } /* * MPxIO pathmangement routines. Currently IB nexus does not support * any kind of pathmangement. So, just return success to make MPxIO * framework happy. */ /*ARGSUSED*/ static int ib_vhci_pi_init(dev_info_t *vdip, mdi_pathinfo_t *pip, int flag) { IBTF_DPRINTF_L4("ibnex", "\tpi_init: dip %p pip %p", vdip, pip); return (MDI_SUCCESS); } /*ARGSUSED*/ static int ib_vhci_pi_uninit(dev_info_t *vdip, mdi_pathinfo_t *pip, int flag) { dev_info_t *cdip; ibnex_node_data_t *node_data; int clnt_num_pi; IBTF_DPRINTF_L4("ibnex", "\tpi_uninit: dip %p pip %p", vdip, pip); if (pip == NULL) return (MDI_FAILURE); /* * Get the Client dev_info from the pathinfo. */ cdip = mdi_pi_get_client(pip); if (cdip == NULL) return (MDI_FAILURE); /* * How many PIs do we have from this cdip ? */ clnt_num_pi = mdi_client_get_path_count(cdip); /* * If this is the last PI that is being free'd ( called from * mdi_pi_free) we have to clean up the node data for the cdip since * the client would have been detached by mdi_devi_offline. */ if (clnt_num_pi == 1) { for (node_data = ibnex.ibnex_ioc_node_head; node_data; node_data = node_data->node_next) { if (node_data->node_dip == cdip) { node_data->node_dip = NULL; node_data->node_state = IBNEX_CFGADM_UNCONFIGURED; return (MDI_SUCCESS); } } for (node_data = ibnex.ibnex_pseudo_node_head; node_data; node_data = node_data->node_next) { if (node_data->node_dip == cdip) { node_data->node_dip = NULL; node_data->node_state = IBNEX_CFGADM_UNCONFIGURED; return (MDI_SUCCESS); } } } return (MDI_SUCCESS); } /*ARGSUSED*/ static int ib_vhci_pi_state_change(dev_info_t *vdip, mdi_pathinfo_t *pip, mdi_pathinfo_state_t state, uint32_t arg1, int arg2) { IBTF_DPRINTF_L4("ibnex", "\tpi_state_change: dip %p pip %p state %x", vdip, pip, state); return (MDI_SUCCESS); } /*ARGSUSED*/ static int ib_vhci_failover(dev_info_t *dip1, dev_info_t *dip2, int arg) { return (MDI_SUCCESS); } static int ibnex_bus_power(dev_info_t *parent, void *impl_arg, pm_bus_power_op_t op, void *arg, void *result) { int ret = DDI_SUCCESS; IBTF_DPRINTF_L4("ibnex", "\tbus_power: begin: op = %d", op); /* * Generic processing in MPxIO framework */ ret = mdi_bus_power(parent, impl_arg, op, arg, result); switch (ret) { case MDI_SUCCESS: ret = DDI_SUCCESS; break; case MDI_FAILURE: ret = DDI_FAILURE; break; default: break; } return (ret); } /* * If enumerated as a child of IB Nexus / VHCI, call mdi_vhci_bus_config. * ndi_devi_enter is not held during this call. mdi_vhci_bus_config() * will have called ndi_busop_bus_config(), no need for the caller to call * ndi_busop_bus_config() again. * * If enumerated as a child of HCA device, this could be a case for * Sparc boot or device enumeration from PHCI, driven by MDI. * Hold parent lock (ndi_devi_enter). The caller will have to call * ndi_busop_bus_config() if this function returns SUCCESS. * * if the device name contains ":port", then it is the Sparc boot case. * Handle this as before. * * If the device name does *not* contain the ":port", then : * 1. ibdm to probe IOC * 2. Create a pathinfo only if the IOC is reachable from the parent dip. */ static int ibnex_ioc_bus_config_one(dev_info_t **pdipp, uint_t flag, ddi_bus_config_op_t op, void *devname, dev_info_t **child, int *need_bus_config) { int ret = DDI_FAILURE, circ; dev_info_t *pdip = *pdipp; ib_guid_t iou_guid, ioc_guid; char *ioc_guid_str; *need_bus_config = 1; if (pdip == ibnex.ibnex_dip) { if (ibnex_devname_to_node_n_ioc_guids( (char *)devname, &iou_guid, &ioc_guid, &ioc_guid_str) != IBNEX_SUCCESS) { return (ret); } ret = mdi_vhci_bus_config(pdip, flag, op, devname, child, ioc_guid_str); kmem_free(ioc_guid_str, strlen(ioc_guid_str) + 1); if (ret == MDI_SUCCESS) *need_bus_config = 0; } else { mdi_devi_enter(pdip, &circ); if (strstr((char *)devname, ":port=") != NULL) { ret = ibnex_config_root_iocnode(pdip, devname); ASSERT(ibnex.ibnex_dip == NULL); *pdipp = ibnex.ibnex_dip; } else { ret = ibnex_config_ioc_node(devname, pdip); } mdi_devi_exit(pdip, circ); } return (ret); } static int ibnex_is_merge_node(dev_info_t *child) { char *node; int ret = IBNEX_INVALID_NODE; if (ddi_prop_lookup_string(DDI_DEV_T_ANY, child, DDI_PROP_DONTPASS, "ib-node-type", &node) != DDI_PROP_SUCCESS) { return (IBNEX_FAILURE); } if (node != NULL && *node != 0) { if (strcmp(node, "merge") == 0) ret = IBNEX_SUCCESS; else { IBTF_DPRINTF_L4("ibnex", "\tis_merge_node: ib-node-type = %s", node); } } ddi_prop_free(node); return (ret); } /* * Checks if the dn_head for the driver has already * initialized by the prom tree. */ void ibnex_hw_in_dev_tree(char *driver_name) { major_t major; IBTF_DPRINTF_L4("ibnex", "\thw_in_dev_tree(%s)", driver_name); if (devnamesp == NULL) return; major = ddi_name_to_major(driver_name); if (major == -1) return; if (devnamesp[major].dn_head != (dev_info_t *)NULL) ibnex_hw_status = IBNEX_HW_IN_DEVTREE; } int ibnex_ioc_initnode_all_pi(ibdm_ioc_info_t *ioc_info) { ibdm_hca_list_t *hca_list; dev_info_t *hca_dip; int rc = IBNEX_FAILURE; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); /* * We return failure even if we fail for all HCAs */ for (hca_list = ioc_info->ioc_hca_list; hca_list; hca_list = hca_list->hl_next) { hca_dip = ibtl_ibnex_hcaguid2dip(hca_list->hl_hca_guid); if (ibnex_ioc_config_from_pdip(ioc_info, hca_dip, 1) == IBNEX_SUCCESS) rc = IBNEX_SUCCESS; } return (rc); } static int ibnex_ioc_config_from_pdip(ibdm_ioc_info_t *ioc_info, dev_info_t *pdip, int pdip_reachable_checked) { ibnex_node_data_t *node_data; int create_pdip = 0; int rc = IBNEX_SUCCESS; ASSERT(MUTEX_HELD(&ibnex.ibnex_mutex)); IBTF_DPRINTF_L4("ibnex", "/tioc_config_from_pdip(%p, %p, %d)", ioc_info, pdip, pdip_reachable_checked); if (pdip_reachable_checked == 0) { if (ibnex_ioc_pi_reachable(ioc_info, pdip) == IBNEX_FAILURE) { IBTF_DPRINTF_L4("ibnex", "/tioc_config_from_pdip: ioc %p not reachable" "from %p", ioc_info, pdip); return (IBNEX_FAILURE); } } node_data = ibnex_is_node_data_present(IBNEX_IOC_NODE, (void *)ioc_info, 0, 0); if (node_data && node_data->node_ap_state == IBNEX_NODE_AP_UNCONFIGURED) { IBTF_DPRINTF_L4("ibnex", "\tioc_config_from_pdip: Unconfigured node"); return (IBNEX_FAILURE); } if (node_data == NULL) { ibnex_ioc_node_t *ioc; create_pdip = 1; node_data = ibnex_init_child_nodedata(IBNEX_IOC_NODE, ioc_info, 0, 0); ASSERT(node_data); ioc = &node_data->node_data.ioc_node; (void) snprintf(ioc->ioc_guid_str, IBNEX_IOC_GUID_LEN, "%llX", (longlong_t)ioc_info->ioc_profile.ioc_guid); (void) snprintf(ioc->ioc_phci_guid, IBNEX_PHCI_GUID_LEN, "%llX,%llX", (longlong_t)ioc_info->ioc_profile.ioc_guid, (longlong_t)ioc_info->ioc_iou_guid); } else if (ibnex_ioc_pi_exists(node_data, pdip) == IBNEX_FAILURE) { create_pdip = 1; } if (create_pdip) { rc = ibnex_ioc_initnode_pdip(node_data, ioc_info, pdip); } IBTF_DPRINTF_L4("ibnex", "\tioc_config_from_pdip ret %x", rc); return (rc); } /* * This function checks if a pathinfo has already been created * for the HCA parent. The function returns SUCCESS if a pathinfo * has already been created, FAILURE if not. */ static int ibnex_ioc_pi_exists(ibnex_node_data_t *node_data, dev_info_t *parent) { int rc; ibnex_ioc_node_t *ioc; ioc = &node_data->node_data.ioc_node; if (mdi_pi_find(parent, (char *)ioc->ioc_guid_str, (char *)ioc->ioc_phci_guid) != NULL) rc = IBNEX_SUCCESS; else rc = IBNEX_FAILURE; IBTF_DPRINTF_L4("ibnex", "\tioc_pi_created- client_guid %s, " "phci_guid %s, parent %p, rc %x", ioc->ioc_guid_str, ioc->ioc_phci_guid, parent, rc); return (rc); } static int ibnex_ioc_pi_reachable(ibdm_ioc_info_t *ioc_info, dev_info_t *pdip) { ibdm_hca_list_t *hca_list; dev_info_t *hca_dip; IBTF_DPRINTF_L4("ibnex", "\tioc_pi_reachable(%p, %p)", ioc_info, pdip); for (hca_list = ioc_info->ioc_hca_list; hca_list; hca_list = hca_list->hl_next) { hca_dip = ibtl_ibnex_hcaguid2dip(hca_list->hl_hca_guid); if (hca_dip == pdip) { IBTF_DPRINTF_L4("ibnex", "\tioc_pi_reachable FAILURE"); return (IBNEX_SUCCESS); } } IBTF_DPRINTF_L4("ibnex", "\tioc_pi_reachable FAILURE"); return (IBNEX_FAILURE); }