/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * Note that for best performance, the VNIC is a passthrough design. * For each VNIC corresponds a MAC client of the underlying MAC (lower MAC). * This MAC client is opened by the VNIC driver at VNIC creation, * and closed when the VNIC is deleted. * When a MAC client of the VNIC itself opens a VNIC, the MAC layer * (upper MAC) detects that the MAC being opened is a VNIC. Instead * of allocating a new MAC client, it asks the VNIC driver to return * the lower MAC client handle associated with the VNIC, and that handle * is returned to the upper MAC client directly. This allows access * by upper MAC clients of the VNIC to have direct access to the lower * MAC client for the control path and data path. * * Due to this passthrough, some of the entry points exported by the * VNIC driver are never directly invoked. These entry points include * vnic_m_start, vnic_m_stop, vnic_m_promisc, vnic_m_multicst, etc. */ static int vnic_m_start(void *); static void vnic_m_stop(void *); static int vnic_m_promisc(void *, boolean_t); static int vnic_m_multicst(void *, boolean_t, const uint8_t *); static int vnic_m_unicst(void *, const uint8_t *); static int vnic_m_stat(void *, uint_t, uint64_t *); static void vnic_m_ioctl(void *, queue_t *, mblk_t *); static int vnic_m_setprop(void *, const char *, mac_prop_id_t, uint_t, const void *); static int vnic_m_getprop(void *, const char *, mac_prop_id_t, uint_t, uint_t, void *, uint_t *); static mblk_t *vnic_m_tx(void *, mblk_t *); static boolean_t vnic_m_capab_get(void *, mac_capab_t, void *); static void vnic_notify_cb(void *, mac_notify_type_t); static kmem_cache_t *vnic_cache; static krwlock_t vnic_lock; static uint_t vnic_count; /* hash of VNICs (vnic_t's), keyed by VNIC id */ static mod_hash_t *vnic_hash; #define VNIC_HASHSZ 64 #define VNIC_HASH_KEY(vnic_id) ((mod_hash_key_t)(uintptr_t)vnic_id) #define VNIC_M_CALLBACK_FLAGS \ (MC_IOCTL | MC_GETCAPAB | MC_SETPROP | MC_GETPROP) static mac_callbacks_t vnic_m_callbacks = { VNIC_M_CALLBACK_FLAGS, vnic_m_stat, vnic_m_start, vnic_m_stop, vnic_m_promisc, vnic_m_multicst, vnic_m_unicst, vnic_m_tx, vnic_m_ioctl, vnic_m_capab_get, NULL, NULL, vnic_m_setprop, vnic_m_getprop }; void vnic_dev_init(void) { vnic_cache = kmem_cache_create("vnic_cache", sizeof (vnic_t), 0, NULL, NULL, NULL, NULL, NULL, 0); vnic_hash = mod_hash_create_idhash("vnic_hash", VNIC_HASHSZ, mod_hash_null_valdtor); rw_init(&vnic_lock, NULL, RW_DEFAULT, NULL); vnic_count = 0; } void vnic_dev_fini(void) { ASSERT(vnic_count == 0); rw_destroy(&vnic_lock); mod_hash_destroy_idhash(vnic_hash); kmem_cache_destroy(vnic_cache); } uint_t vnic_dev_count(void) { return (vnic_count); } static vnic_ioc_diag_t vnic_mac2vnic_diag(mac_diag_t diag) { switch (diag) { case MAC_DIAG_MACADDR_NIC: return (VNIC_IOC_DIAG_MACADDR_NIC); case MAC_DIAG_MACADDR_INUSE: return (VNIC_IOC_DIAG_MACADDR_INUSE); case MAC_DIAG_MACADDR_INVALID: return (VNIC_IOC_DIAG_MACADDR_INVALID); case MAC_DIAG_MACADDRLEN_INVALID: return (VNIC_IOC_DIAG_MACADDRLEN_INVALID); case MAC_DIAG_MACFACTORYSLOTINVALID: return (VNIC_IOC_DIAG_MACFACTORYSLOTINVALID); case MAC_DIAG_MACFACTORYSLOTUSED: return (VNIC_IOC_DIAG_MACFACTORYSLOTUSED); case MAC_DIAG_MACFACTORYSLOTALLUSED: return (VNIC_IOC_DIAG_MACFACTORYSLOTALLUSED); case MAC_DIAG_MACFACTORYNOTSUP: return (VNIC_IOC_DIAG_MACFACTORYNOTSUP); case MAC_DIAG_MACPREFIX_INVALID: return (VNIC_IOC_DIAG_MACPREFIX_INVALID); case MAC_DIAG_MACPREFIXLEN_INVALID: return (VNIC_IOC_DIAG_MACPREFIXLEN_INVALID); case MAC_DIAG_MACNO_HWRINGS: return (VNIC_IOC_DIAG_NO_HWRINGS); default: return (VNIC_IOC_DIAG_NONE); } } static int vnic_unicast_add(vnic_t *vnic, vnic_mac_addr_type_t vnic_addr_type, int *addr_slot, uint_t prefix_len, int *addr_len_ptr_arg, uint8_t *mac_addr_arg, uint16_t flags, vnic_ioc_diag_t *diag, uint16_t vid) { mac_diag_t mac_diag; uint16_t mac_flags = 0; int err; uint_t addr_len; if (flags & VNIC_IOC_CREATE_NODUPCHECK) mac_flags |= MAC_UNICAST_NODUPCHECK; switch (vnic_addr_type) { case VNIC_MAC_ADDR_TYPE_FIXED: /* * The MAC address value to assign to the VNIC * is already provided in mac_addr_arg. addr_len_ptr_arg * already contains the MAC address length. */ break; case VNIC_MAC_ADDR_TYPE_RANDOM: /* * Random MAC address. There are two sub-cases: * * 1 - If mac_len == 0, a new MAC address is generated. * The length of the MAC address to generated depends * on the type of MAC used. The prefix to use for the MAC * address is stored in the most significant bytes * of the mac_addr argument, and its length is specified * by the mac_prefix_len argument. This prefix can * correspond to a IEEE OUI in the case of Ethernet, * for example. * * 2 - If mac_len > 0, the address was already picked * randomly, and is now passed back during VNIC * re-creation. The mac_addr argument contains the MAC * address that was generated. We distinguish this * case from the fixed MAC address case, since we * want the user consumers to know, when they query * the list of VNICs, that a VNIC was assigned a * random MAC address vs assigned a fixed address * specified by the user. */ /* * If it's a pre-generated address, we're done. mac_addr_arg * and addr_len_ptr_arg already contain the MAC address * value and length. */ if (*addr_len_ptr_arg > 0) break; /* generate a new random MAC address */ if ((err = mac_addr_random(vnic->vn_mch, prefix_len, mac_addr_arg, &mac_diag)) != 0) { *diag = vnic_mac2vnic_diag(mac_diag); return (err); } *addr_len_ptr_arg = mac_addr_len(vnic->vn_lower_mh); break; case VNIC_MAC_ADDR_TYPE_FACTORY: err = mac_addr_factory_reserve(vnic->vn_mch, addr_slot); if (err != 0) { if (err == EINVAL) *diag = VNIC_IOC_DIAG_MACFACTORYSLOTINVALID; if (err == EBUSY) *diag = VNIC_IOC_DIAG_MACFACTORYSLOTUSED; if (err == ENOSPC) *diag = VNIC_IOC_DIAG_MACFACTORYSLOTALLUSED; return (err); } mac_addr_factory_value(vnic->vn_lower_mh, *addr_slot, mac_addr_arg, &addr_len, NULL, NULL); *addr_len_ptr_arg = addr_len; break; case VNIC_MAC_ADDR_TYPE_AUTO: /* first try to allocate a factory MAC address */ err = mac_addr_factory_reserve(vnic->vn_mch, addr_slot); if (err == 0) { mac_addr_factory_value(vnic->vn_lower_mh, *addr_slot, mac_addr_arg, &addr_len, NULL, NULL); vnic_addr_type = VNIC_MAC_ADDR_TYPE_FACTORY; *addr_len_ptr_arg = addr_len; break; } /* * Allocating a factory MAC address failed, generate a * random MAC address instead. */ if ((err = mac_addr_random(vnic->vn_mch, prefix_len, mac_addr_arg, &mac_diag)) != 0) { *diag = vnic_mac2vnic_diag(mac_diag); return (err); } *addr_len_ptr_arg = mac_addr_len(vnic->vn_lower_mh); vnic_addr_type = VNIC_MAC_ADDR_TYPE_RANDOM; break; case VNIC_MAC_ADDR_TYPE_PRIMARY: /* * We get the address here since we copy it in the * vnic's vn_addr. */ mac_unicast_primary_get(vnic->vn_lower_mh, mac_addr_arg); *addr_len_ptr_arg = mac_addr_len(vnic->vn_lower_mh); mac_flags |= MAC_UNICAST_VNIC_PRIMARY; break; } vnic->vn_addr_type = vnic_addr_type; err = mac_unicast_add(vnic->vn_mch, mac_addr_arg, mac_flags, &vnic->vn_muh, vid, &mac_diag); if (err != 0) { if (vnic_addr_type == VNIC_MAC_ADDR_TYPE_FACTORY) { /* release factory MAC address */ mac_addr_factory_release(vnic->vn_mch, *addr_slot); } *diag = vnic_mac2vnic_diag(mac_diag); } return (err); } /* * Create a new VNIC upon request from administrator. * Returns 0 on success, an errno on failure. */ /* ARGSUSED */ int vnic_dev_create(datalink_id_t vnic_id, datalink_id_t linkid, vnic_mac_addr_type_t *vnic_addr_type, int *mac_len, uchar_t *mac_addr, int *mac_slot, uint_t mac_prefix_len, uint16_t vid, mac_resource_props_t *mrp, uint32_t flags, vnic_ioc_diag_t *diag) { vnic_t *vnic; mac_register_t *mac; int err; boolean_t is_anchor = ((flags & VNIC_IOC_CREATE_ANCHOR) != 0); char vnic_name[MAXNAMELEN]; const mac_info_t *minfop; uint32_t req_hwgrp_flag = ((flags & VNIC_IOC_CREATE_REQ_HWRINGS) != 0) ? MAC_OPEN_FLAGS_REQ_HWRINGS : 0; *diag = VNIC_IOC_DIAG_NONE; rw_enter(&vnic_lock, RW_WRITER); /* does a VNIC with the same id already exist? */ err = mod_hash_find(vnic_hash, VNIC_HASH_KEY(vnic_id), (mod_hash_val_t *)&vnic); if (err == 0) { rw_exit(&vnic_lock); return (EEXIST); } vnic = kmem_cache_alloc(vnic_cache, KM_NOSLEEP); if (vnic == NULL) { rw_exit(&vnic_lock); return (ENOMEM); } bzero(vnic, sizeof (*vnic)); vnic->vn_id = vnic_id; vnic->vn_link_id = linkid; vnic->vn_started = B_FALSE; if (!is_anchor) { if (linkid == DATALINK_INVALID_LINKID) { err = EINVAL; goto bail; } /* * Open the lower MAC and assign its initial bandwidth and * MAC address. We do this here during VNIC creation and * do not wait until the upper MAC client open so that we * can validate the VNIC creation parameters (bandwidth, * MAC address, etc) and reserve a factory MAC address if * one was requested. */ err = mac_open_by_linkid(linkid, &vnic->vn_lower_mh); if (err != 0) goto bail; /* * VNIC(vlan) over VNICs(vlans) is not supported. */ if (mac_is_vnic(vnic->vn_lower_mh)) { err = EINVAL; goto bail; } /* only ethernet support for now */ minfop = mac_info(vnic->vn_lower_mh); if (minfop->mi_nativemedia != DL_ETHER) { err = ENOTSUP; goto bail; } (void) dls_mgmt_get_linkinfo(vnic_id, vnic_name, NULL, NULL, NULL); err = mac_client_open(vnic->vn_lower_mh, &vnic->vn_mch, vnic_name, MAC_OPEN_FLAGS_IS_VNIC | req_hwgrp_flag); if (err != 0) goto bail; if (mrp != NULL) { err = mac_client_set_resources(vnic->vn_mch, mrp); if (err != 0) goto bail; } /* assign a MAC address to the VNIC */ err = vnic_unicast_add(vnic, *vnic_addr_type, mac_slot, mac_prefix_len, mac_len, mac_addr, flags, diag, vid); if (err != 0) { vnic->vn_muh = NULL; if (diag != NULL && req_hwgrp_flag != 0) *diag = VNIC_IOC_DIAG_NO_HWRINGS; goto bail; } /* register to receive notification from underlying MAC */ vnic->vn_mnh = mac_notify_add(vnic->vn_lower_mh, vnic_notify_cb, vnic); *vnic_addr_type = vnic->vn_addr_type; vnic->vn_addr_len = *mac_len; vnic->vn_vid = vid; bcopy(mac_addr, vnic->vn_addr, vnic->vn_addr_len); if (vnic->vn_addr_type == VNIC_MAC_ADDR_TYPE_FACTORY) vnic->vn_slot_id = *mac_slot; /* set the initial VNIC capabilities */ if (!mac_capab_get(vnic->vn_lower_mh, MAC_CAPAB_HCKSUM, &vnic->vn_hcksum_txflags)) vnic->vn_hcksum_txflags = 0; } /* register with the MAC module */ if ((mac = mac_alloc(MAC_VERSION)) == NULL) goto bail; mac->m_type_ident = MAC_PLUGIN_IDENT_ETHER; mac->m_driver = vnic; mac->m_dip = vnic_get_dip(); mac->m_instance = (uint_t)-1; mac->m_src_addr = vnic->vn_addr; mac->m_callbacks = &vnic_m_callbacks; if (!is_anchor) { /* * If this is a VNIC based VLAN, then we check for the * margin unless it has been created with the force * flag. If we are configuring a VLAN over an etherstub, * we don't check the margin even if force is not set. */ if (vid == 0 || (flags & VNIC_IOC_CREATE_FORCE) != 0) { if (vid != VLAN_ID_NONE) vnic->vn_force = B_TRUE; /* * As the current margin size of the underlying mac is * used to determine the margin size of the VNIC * itself, request the underlying mac not to change * to a smaller margin size. */ err = mac_margin_add(vnic->vn_lower_mh, &vnic->vn_margin, B_TRUE); ASSERT(err == 0); } else { vnic->vn_margin = VLAN_TAGSZ; err = mac_margin_add(vnic->vn_lower_mh, &vnic->vn_margin, B_FALSE); if (err != 0) { mac_free(mac); if (diag != NULL) *diag = VNIC_IOC_DIAG_MACMARGIN_INVALID; goto bail; } } mac_sdu_get(vnic->vn_lower_mh, &mac->m_min_sdu, &mac->m_max_sdu); } else { vnic->vn_margin = VLAN_TAGSZ; mac->m_min_sdu = 0; mac->m_max_sdu = 9000; } mac->m_margin = vnic->vn_margin; err = mac_register(mac, &vnic->vn_mh); mac_free(mac); if (err != 0) { VERIFY(is_anchor || mac_margin_remove(vnic->vn_lower_mh, vnic->vn_margin) == 0); goto bail; } /* Set the VNIC's MAC in the client */ if (!is_anchor) mac_set_upper_mac(vnic->vn_mch, vnic->vn_mh); if ((err = dls_devnet_create(vnic->vn_mh, vnic->vn_id)) != 0) { VERIFY(is_anchor || mac_margin_remove(vnic->vn_lower_mh, vnic->vn_margin) == 0); (void) mac_unregister(vnic->vn_mh); goto bail; } /* add new VNIC to hash table */ err = mod_hash_insert(vnic_hash, VNIC_HASH_KEY(vnic_id), (mod_hash_val_t)vnic); ASSERT(err == 0); vnic_count++; rw_exit(&vnic_lock); return (0); bail: rw_exit(&vnic_lock); if (!is_anchor) { if (vnic->vn_mnh != NULL) (void) mac_notify_remove(vnic->vn_mnh, B_TRUE); if (vnic->vn_muh != NULL) (void) mac_unicast_remove(vnic->vn_mch, vnic->vn_muh); if (vnic->vn_mch != NULL) mac_client_close(vnic->vn_mch, MAC_CLOSE_FLAGS_IS_VNIC); if (vnic->vn_lower_mh != NULL) mac_close(vnic->vn_lower_mh); } kmem_cache_free(vnic_cache, vnic); return (err); } /* * Modify the properties of an existing VNIC. */ /* ARGSUSED */ int vnic_dev_modify(datalink_id_t vnic_id, uint_t modify_mask, vnic_mac_addr_type_t mac_addr_type, uint_t mac_len, uchar_t *mac_addr, uint_t mac_slot, mac_resource_props_t *mrp) { vnic_t *vnic = NULL; rw_enter(&vnic_lock, RW_WRITER); if (mod_hash_find(vnic_hash, VNIC_HASH_KEY(vnic_id), (mod_hash_val_t *)&vnic) != 0) { rw_exit(&vnic_lock); return (ENOENT); } rw_exit(&vnic_lock); return (0); } /* ARGSUSED */ int vnic_dev_delete(datalink_id_t vnic_id, uint32_t flags) { vnic_t *vnic = NULL; mod_hash_val_t val; datalink_id_t tmpid; int rc; rw_enter(&vnic_lock, RW_WRITER); if (mod_hash_find(vnic_hash, VNIC_HASH_KEY(vnic_id), (mod_hash_val_t *)&vnic) != 0) { rw_exit(&vnic_lock); return (ENOENT); } if ((rc = dls_devnet_destroy(vnic->vn_mh, &tmpid, B_TRUE)) != 0) { rw_exit(&vnic_lock); return (rc); } ASSERT(vnic_id == tmpid); /* * We cannot unregister the MAC yet. Unregistering would * free up mac_impl_t which should not happen at this time. * So disable mac_impl_t by calling mac_disable(). This will prevent * any new claims on mac_impl_t. */ if ((rc = mac_disable(vnic->vn_mh)) != 0) { (void) dls_devnet_create(vnic->vn_mh, vnic_id); rw_exit(&vnic_lock); return (rc); } (void) mod_hash_remove(vnic_hash, VNIC_HASH_KEY(vnic_id), &val); ASSERT(vnic == (vnic_t *)val); vnic_count--; rw_exit(&vnic_lock); /* * XXX-nicolas shouldn't have a void cast here, if it's * expected that the function will never fail, then we should * have an ASSERT(). */ (void) mac_unregister(vnic->vn_mh); if (vnic->vn_lower_mh != NULL) { /* * Check if MAC address for the vnic was obtained from the * factory MAC addresses. If yes, release it. */ if (vnic->vn_addr_type == VNIC_MAC_ADDR_TYPE_FACTORY) { (void) mac_addr_factory_release(vnic->vn_mch, vnic->vn_slot_id); } (void) mac_margin_remove(vnic->vn_lower_mh, vnic->vn_margin); (void) mac_notify_remove(vnic->vn_mnh, B_TRUE); (void) mac_unicast_remove(vnic->vn_mch, vnic->vn_muh); mac_client_close(vnic->vn_mch, MAC_CLOSE_FLAGS_IS_VNIC); mac_close(vnic->vn_lower_mh); } kmem_cache_free(vnic_cache, vnic); return (0); } /* ARGSUSED */ mblk_t * vnic_m_tx(void *arg, mblk_t *mp_chain) { /* * This function could be invoked for an anchor VNIC when sending * broadcast and multicast packets, and unicast packets which did * not match any local known destination. */ freemsgchain(mp_chain); return (NULL); } /*ARGSUSED*/ static void vnic_m_ioctl(void *arg, queue_t *q, mblk_t *mp) { miocnak(q, mp, 0, ENOTSUP); } /* * This entry point cannot be passed-through, since it is invoked * for the per-VNIC kstats which must be exported independently * of the existence of VNIC MAC clients. */ static int vnic_m_stat(void *arg, uint_t stat, uint64_t *val) { vnic_t *vnic = arg; int rval = 0; if (vnic->vn_lower_mh == NULL) { /* * It's an anchor VNIC, which does not have any * statistics in itself. */ return (ENOTSUP); } /* * ENOTSUP must be reported for unsupported stats, the VNIC * driver reports a subset of the stats that would * be returned by a real piece of hardware. */ switch (stat) { case MAC_STAT_LINK_STATE: case MAC_STAT_LINK_UP: case MAC_STAT_PROMISC: case MAC_STAT_IFSPEED: case MAC_STAT_MULTIRCV: case MAC_STAT_MULTIXMT: case MAC_STAT_BRDCSTRCV: case MAC_STAT_BRDCSTXMT: case MAC_STAT_OPACKETS: case MAC_STAT_OBYTES: case MAC_STAT_IERRORS: case MAC_STAT_OERRORS: case MAC_STAT_RBYTES: case MAC_STAT_IPACKETS: *val = mac_client_stat_get(vnic->vn_mch, stat); break; default: rval = ENOTSUP; } return (rval); } /* * Invoked by the upper MAC to retrieve the lower MAC client handle * corresponding to a VNIC. A pointer to this function is obtained * by the upper MAC via capability query. * * XXX-nicolas Note: this currently causes all VNIC MAC clients to * receive the same MAC client handle for the same VNIC. This is ok * as long as we have only one VNIC MAC client which sends and * receives data, but we don't currently enforce this at the MAC layer. */ static void * vnic_mac_client_handle(void *vnic_arg) { vnic_t *vnic = vnic_arg; return (vnic->vn_mch); } /* * Return information about the specified capability. */ /* ARGSUSED */ static boolean_t vnic_m_capab_get(void *arg, mac_capab_t cap, void *cap_data) { vnic_t *vnic = arg; switch (cap) { case MAC_CAPAB_HCKSUM: { uint32_t *hcksum_txflags = cap_data; *hcksum_txflags = vnic->vn_hcksum_txflags & (HCKSUM_INET_FULL_V4 | HCKSUM_IPHDRCKSUM | HCKSUM_INET_PARTIAL); break; } case MAC_CAPAB_VNIC: { mac_capab_vnic_t *vnic_capab = cap_data; if (vnic->vn_lower_mh == NULL) { /* * It's an anchor VNIC, we don't have an underlying * NIC and MAC client handle. */ return (B_FALSE); } if (vnic_capab != NULL) { vnic_capab->mcv_arg = vnic; vnic_capab->mcv_mac_client_handle = vnic_mac_client_handle; } break; } case MAC_CAPAB_ANCHOR_VNIC: { /* since it's an anchor VNIC we don't have lower mac handle */ if (vnic->vn_lower_mh == NULL) { ASSERT(vnic->vn_link_id == 0); return (B_TRUE); } return (B_FALSE); } case MAC_CAPAB_NO_NATIVEVLAN: case MAC_CAPAB_NO_ZCOPY: return (B_TRUE); default: return (B_FALSE); } return (B_TRUE); } /* ARGSUSED */ static int vnic_m_start(void *arg) { return (0); } /* ARGSUSED */ static void vnic_m_stop(void *arg) { } /* ARGSUSED */ static int vnic_m_promisc(void *arg, boolean_t on) { return (0); } /* ARGSUSED */ static int vnic_m_multicst(void *arg, boolean_t add, const uint8_t *addrp) { return (0); } static int vnic_m_unicst(void *arg, const uint8_t *macaddr) { vnic_t *vnic = arg; return (mac_vnic_unicast_set(vnic->vn_mch, macaddr)); } /* * Callback functions for set/get of properties */ /*ARGSUSED*/ static int vnic_m_setprop(void *m_driver, const char *pr_name, mac_prop_id_t pr_num, uint_t pr_valsize, const void *pr_val) { int err = ENOTSUP; vnic_t *vn = m_driver; /* allow setting MTU only on an etherstub */ if (vn->vn_link_id != DATALINK_INVALID_LINKID) return (err); switch (pr_num) { case MAC_PROP_MTU: { uint32_t mtu; if (pr_valsize < sizeof (mtu)) { err = EINVAL; break; } bcopy(pr_val, &mtu, sizeof (mtu)); err = mac_maxsdu_update(vn->vn_mh, mtu); break; } default: break; } return (err); } /*ARGSUSED*/ static int vnic_m_getprop(void *m_driver, const char *pr_name, mac_prop_id_t pr_num, uint_t pr_flags, uint_t pr_valsize, void *pr_val, uint_t *perm) { return (ENOTSUP); } int vnic_info(vnic_info_t *info) { vnic_t *vnic; int err; rw_enter(&vnic_lock, RW_WRITER); err = mod_hash_find(vnic_hash, VNIC_HASH_KEY(info->vn_vnic_id), (mod_hash_val_t *)&vnic); if (err != 0) { rw_exit(&vnic_lock); return (ENOENT); } info->vn_link_id = vnic->vn_link_id; info->vn_mac_addr_type = vnic->vn_addr_type; info->vn_mac_len = vnic->vn_addr_len; bcopy(vnic->vn_addr, info->vn_mac_addr, MAXMACADDRLEN); info->vn_mac_slot = vnic->vn_slot_id; info->vn_mac_prefix_len = 0; info->vn_vid = vnic->vn_vid; info->vn_force = vnic->vn_force; bzero(&info->vn_resource_props, sizeof (mac_resource_props_t)); if (vnic->vn_mch != NULL) mac_resource_ctl_get(vnic->vn_mch, &info->vn_resource_props); rw_exit(&vnic_lock); return (0); } static void vnic_notify_cb(void *arg, mac_notify_type_t type) { vnic_t *vnic = arg; /* * Only the VLAN VNIC needs to be notified with primary MAC * address change. */ if (vnic->vn_addr_type != VNIC_MAC_ADDR_TYPE_PRIMARY) return; switch (type) { case MAC_NOTE_UNICST: /* the unicast MAC address value */ mac_unicast_primary_get(vnic->vn_lower_mh, vnic->vn_addr); /* notify its upper layer MAC about MAC address change */ mac_unicst_update(vnic->vn_mh, (const uint8_t *)vnic->vn_addr); break; default: break; } }