/* * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define VSW_DDS_NEXT_REQID(vsharep) (++vsharep->vs_req_id) extern boolean_t vsw_hio_enabled; /* HybridIO enabled? */ extern int vsw_hio_max_cleanup_retries; extern int vsw_hio_cleanup_delay; /* Functions imported from other files */ extern int vsw_send_msg(vsw_ldc_t *, void *, int, boolean_t); extern void vsw_hio_port_reset(vsw_port_t *portp, boolean_t immediate); extern void vsw_port_mac_reconfig(vsw_port_t *portp, boolean_t update_vlans, uint16_t new_pvid, vsw_vlanid_t *new_vids, int new_nvids); /* Functions exported to other files */ void vsw_hio_init(vsw_t *vswp); void vsw_hio_cleanup(vsw_t *vswp); void vsw_hio_start(vsw_t *vswp, vsw_ldc_t *ldcp); void vsw_hio_stop(vsw_t *vswp, vsw_ldc_t *ldcp); void vsw_process_dds_msg(vsw_t *vswp, vsw_ldc_t *ldcp, void *msg); void vsw_hio_start_ports(vsw_t *vswp); void vsw_hio_stop_port(vsw_port_t *portp); /* Support functions */ static void vsw_hio_free_all_shares(vsw_t *vswp, boolean_t reboot); static vsw_share_t *vsw_hio_alloc_share(vsw_t *vswp, vsw_ldc_t *ldcp); static void vsw_hio_free_share(vsw_share_t *vsharep); static vsw_share_t *vsw_hio_find_free_share(vsw_t *vswp); static vsw_share_t *vsw_hio_find_vshare_ldcid(vsw_t *vswp, uint64_t ldc_id); static vsw_share_t *vsw_hio_find_vshare_port(vsw_t *vswp, vsw_port_t *portp); static int vsw_send_dds_msg(vsw_ldc_t *ldcp, uint8_t dds_subclass, uint64_t cookie, uint64_t macaddr, uint32_t req_id); static int vsw_send_dds_resp_msg(vsw_ldc_t *ldcp, vio_dds_msg_t *dmsg, int ack); static int vsw_hio_send_delshare_msg(vsw_share_t *vsharep); static boolean_t vsw_hio_reboot_callb(void *arg, int code); static boolean_t vsw_hio_panic_callb(void *arg, int code); /* * Locking strategy for HybridIO is followed as below: * * - As the Shares are associated with a network device, the * the global lock('vswp>mac_lock') is used for all Shares * related operations. * - The 'port->maccl_rwlock' is used to synchronize only the * the operations that operate on that port's mac client. That * is, the share_bind and unbind operations only. * * - The locking hierarchy follows that the global mac_lock is * acquired first and then the ports mac client lock(maccl_rwlock) */ static kstat_t *vsw_hio_setup_kstats(char *ks_mod, char *ks_name, vsw_t *vswp); static void vsw_hio_destroy_kstats(vsw_t *vswp); static int vsw_hio_kstats_update(kstat_t *ksp, int rw); /* * vsw_hio_init -- Initialize the HybridIO related info. * - Query SHARES and RINGS capability. Both capabilities * need to be supported by the physical-device. */ void vsw_hio_init(vsw_t *vswp) { vsw_hio_t *hiop = &vswp->vhio; int num_shares; int i; ASSERT(MUTEX_HELD(&vswp->mac_lock)); D1(vswp, "%s:enter\n", __func__); if (vsw_hio_enabled == B_FALSE) { return; } vswp->hio_capable = B_FALSE; num_shares = mac_share_capable(vswp->mh); if (num_shares == 0) { D2(vswp, "%s: %s is not HybridIO capable\n", __func__, vswp->physname); return; } hiop->vh_num_shares = num_shares; hiop->vh_shares = kmem_zalloc((sizeof (vsw_share_t) * hiop->vh_num_shares), KM_SLEEP); for (i = 0; i < hiop->vh_num_shares; i++) { hiop->vh_shares[i].vs_state = VSW_SHARE_FREE; hiop->vh_shares[i].vs_index = i; hiop->vh_shares[i].vs_vswp = vswp; } vswp->hio_capable = B_TRUE; /* * Register to get reboot and panic events so that * we can cleanup HybridIO resources gracefully. */ vswp->hio_reboot_cb_id = callb_add(vsw_hio_reboot_callb, (void *)vswp, CB_CL_MDBOOT, "vsw_hio"); vswp->hio_panic_cb_id = callb_add(vsw_hio_panic_callb, (void *)vswp, CB_CL_PANIC, "vsw_hio"); /* setup kstats for hybrid resources */ hiop->vh_ksp = vsw_hio_setup_kstats(DRV_NAME, "hio", vswp); if (hiop->vh_ksp == NULL) { DERR(vswp, "%s: kstats setup failed", __func__); } D2(vswp, "%s: %s is HybridIO capable num_shares=%d\n", __func__, vswp->physname, hiop->vh_num_shares); D1(vswp, "%s:exit\n", __func__); } /* * vsw_hio_alloc_share -- Allocate and setup the share for a guest domain. * - Allocate a free share. * - Bind the Guest's MAC address. */ static vsw_share_t * vsw_hio_alloc_share(vsw_t *vswp, vsw_ldc_t *ldcp) { vsw_share_t *vsharep; vsw_port_t *portp = ldcp->ldc_port; uint64_t ldc_id = ldcp->ldc_id; int rv; D1(vswp, "%s:enter\n", __func__); vsharep = vsw_hio_find_free_share(vswp); if (vsharep == NULL) { /* No free shares available */ return (NULL); } WRITE_ENTER(&portp->maccl_rwlock); rv = mac_share_bind(portp->p_mch, ldc_id, &vsharep->vs_cookie); RW_EXIT(&portp->maccl_rwlock); if (rv != 0) { return (NULL); } /* Cache some useful info */ vsharep->vs_ldcid = ldcp->ldc_id; vsharep->vs_macaddr = vnet_macaddr_strtoul( portp->p_macaddr.ether_addr_octet); vsharep->vs_portp = ldcp->ldc_port; vsharep->vs_state |= VSW_SHARE_ASSIGNED; D1(vswp, "%s:exit\n", __func__); return (vsharep); } /* * vsw_hio_find_free_share -- Find a free Share. */ static vsw_share_t * vsw_hio_find_free_share(vsw_t *vswp) { vsw_hio_t *hiop = &vswp->vhio; vsw_share_t *vsharep; int i; D1(vswp, "%s:enter\n", __func__); for (i = 0; i < hiop->vh_num_shares; i++) { vsharep = &hiop->vh_shares[i]; if (vsharep->vs_state == VSW_SHARE_FREE) { D1(vswp, "%s:Returning free share(%d)\n", __func__, vsharep->vs_index); return (vsharep); } } D1(vswp, "%s:no free share\n", __func__); return (NULL); } /* * vsw_hio_find_vshare_ldcid -- Given ldc_id, find the corresponding * share structure. */ static vsw_share_t * vsw_hio_find_vshare_ldcid(vsw_t *vswp, uint64_t ldc_id) { vsw_hio_t *hiop = &vswp->vhio; vsw_share_t *vsharep; int i; D1(vswp, "%s:enter, ldc=0x%lx", __func__, ldc_id); for (i = 0; i < hiop->vh_num_shares; i++) { vsharep = &hiop->vh_shares[i]; if (vsharep->vs_state == VSW_SHARE_FREE) { continue; } if (vsharep->vs_ldcid == ldc_id) { D1(vswp, "%s:returning share(%d)", __func__, vsharep->vs_index); return (vsharep); } } D1(vswp, "%s:returning NULL", __func__); return (NULL); } /* * vsw_hio_find_vshare_port -- Given portp, find the corresponding * share structure. */ static vsw_share_t * vsw_hio_find_vshare_port(vsw_t *vswp, vsw_port_t *portp) { vsw_hio_t *hiop = &vswp->vhio; vsw_share_t *vsharep; int i; D1(vswp, "%s:enter, portp=0x%p", __func__, portp); for (i = 0; i < hiop->vh_num_shares; i++) { vsharep = &hiop->vh_shares[i]; if (vsharep->vs_state == VSW_SHARE_FREE) { continue; } if (vsharep->vs_portp == portp) { D1(vswp, "%s:returning share(%d)", __func__, vsharep->vs_index); return (vsharep); } } D1(vswp, "%s:returning NULL", __func__); return (NULL); } /* * vsw_hio_free_share -- Unbind the MAC address and free share. */ static void vsw_hio_free_share(vsw_share_t *vsharep) { vsw_t *vswp = vsharep->vs_vswp; vsw_port_t *portp = vsharep->vs_portp; D1(vswp, "%s:enter\n", __func__); WRITE_ENTER(&portp->maccl_rwlock); mac_share_unbind(portp->p_mch); RW_EXIT(&portp->maccl_rwlock); vsharep->vs_state = VSW_SHARE_FREE; vsharep->vs_macaddr = 0; vsharep->vs_portp = NULL; /* DERR only for printing by default */ DERR(vswp, "Share freed for ldc_id=0x%lx Cookie=0x%lX", vsharep->vs_ldcid, vsharep->vs_cookie); D1(vswp, "%s:exit\n", __func__); } /* * vsw_hio_cleanup -- Cleanup the HybridIO. It unregisters the callbs * and frees all shares. */ void vsw_hio_cleanup(vsw_t *vswp) { D1(vswp, "%s:enter\n", __func__); /* Unregister reboot and panic callbs. */ if (vswp->hio_reboot_cb_id) { (void) callb_delete(vswp->hio_reboot_cb_id); vswp->hio_reboot_cb_id = 0; } if (vswp->hio_panic_cb_id) { (void) callb_delete(vswp->hio_panic_cb_id); vswp->hio_panic_cb_id = 0; } vsw_hio_free_all_shares(vswp, B_FALSE); vsw_hio_destroy_kstats(vswp); D1(vswp, "%s:exit\n", __func__); } /* * vsw_hio_free_all_shares -- A routine to free all shares gracefully. * The following are the steps followed to accomplish this: * * - First clear 'hio_capable' to avoid further share allocations. * - If a share is in accepted(ACKD) state, that means the guest * has HybridIO setup etc. If so, send a DEL_SHARE message and * give some time(delay) for the guest to ACK. * - If the Share is another state, give some time to transition to * ACKD state, then try the above. * - After max retries, reset the ports to brute force the shares * to be freed. Give a little delay for the LDC reset code to * free the Share. */ static void vsw_hio_free_all_shares(vsw_t *vswp, boolean_t reboot) { vsw_hio_t *hiop = &vswp->vhio; vsw_port_list_t *plist = &vswp->plist; vsw_share_t *vsharep; int free_shares = 0; int max_retries = vsw_hio_max_cleanup_retries; int i; D1(vswp, "%s:enter\n", __func__); /* * Acquire plist->lockrw to make the locking a bit easier * and keep the ports in a stable state while we are cleaningup * HybridIO. */ READ_ENTER(&plist->lockrw); mutex_enter(&vswp->mac_lock); /* * first clear the hio_capable flag so that no more * HybridIO operations are initiated. */ vswp->hio_capable = B_FALSE; do { free_shares = 0; for (i = 0; i < hiop->vh_num_shares; i++) { vsharep = &hiop->vh_shares[i]; if (vsharep->vs_state == VSW_SHARE_FREE) { free_shares++; continue; } /* * If the share is in DDS_ACKD state, then * send DEL_SHARE message so that guest can * release its Hybrid resource. */ if (vsharep->vs_state & VSW_SHARE_DDS_ACKD) { int rv; /* send DDS_DEL_SHARE */ D1(vswp, "%s:sending DEL_SHARE msg for " "share(%d)", __func__, vsharep->vs_index); rv = vsw_hio_send_delshare_msg(vsharep); if (rv != 0) { /* * No alternative, reset the port * to force the release of Hybrid * resources. */ vsw_hio_port_reset(vsharep->vs_portp, B_FALSE); } } if (max_retries == 1) { /* * Last retry, reset the port. * If it is reboot case, issue an immediate * reset. */ DWARN(vswp, "%s:All retries failed, " " cause a reset to trigger cleanup for " "share(%d)", __func__, vsharep->vs_index); vsw_hio_port_reset(vsharep->vs_portp, reboot); } } if (free_shares == hiop->vh_num_shares) { /* Clean up is done */ break; } /* * Release the lock so that reply for DEL_SHARE * messages come and get processed, that is, shares * get freed. * This delay is also needed for the port reset to * release the Hybrid resource. */ mutex_exit(&vswp->mac_lock); drv_usecwait(vsw_hio_cleanup_delay); mutex_enter(&vswp->mac_lock); max_retries--; } while ((free_shares < hiop->vh_num_shares) && (max_retries > 0)); /* By now, all shares should be freed */ if (free_shares != hiop->vh_num_shares) { if (reboot == B_FALSE) { cmn_err(CE_NOTE, "vsw%d: All physical resources " "could not be freed", vswp->instance); } } kmem_free(hiop->vh_shares, sizeof (vsw_share_t) * hiop->vh_num_shares); hiop->vh_shares = NULL; hiop->vh_num_shares = 0; mutex_exit(&vswp->mac_lock); RW_EXIT(&plist->lockrw); D1(vswp, "%s:exit\n", __func__); } /* * vsw_hio_start_ports -- Start HybridIO for ports that have * already established connection before HybridIO is intialized. */ void vsw_hio_start_ports(vsw_t *vswp) { vsw_port_list_t *plist = &vswp->plist; vsw_port_t *portp; vsw_share_t *vsharep; boolean_t reset; if (vswp->hio_capable == B_FALSE) { return; } READ_ENTER(&plist->lockrw); for (portp = plist->head; portp != NULL; portp = portp->p_next) { if ((portp->p_hio_enabled == B_FALSE) || (portp->p_hio_capable == B_FALSE)) { continue; } reset = B_FALSE; mutex_enter(&vswp->mac_lock); vsharep = vsw_hio_find_vshare_port(vswp, portp); if (vsharep == NULL) { reset = B_TRUE; } mutex_exit(&vswp->mac_lock); if (reset == B_TRUE) { /* Cause a rest to trigger HybridIO setup */ vsw_hio_port_reset(portp, B_FALSE); } } RW_EXIT(&plist->lockrw); } /* * vsw_hio_start -- Start HybridIO for a guest(given LDC) */ void vsw_hio_start(vsw_t *vswp, vsw_ldc_t *ldcp) { vsw_share_t *vsharep; uint32_t req_id; int rv; D1(vswp, "%s:enter ldc=0x%lx", __func__, ldcp->ldc_id); mutex_enter(&vswp->mac_lock); if (vswp->hio_capable == B_FALSE) { mutex_exit(&vswp->mac_lock); D2(vswp, "%s:not HIO capable", __func__); return; } /* Verify if a share was already allocated */ vsharep = vsw_hio_find_vshare_ldcid(vswp, ldcp->ldc_id); if (vsharep != NULL) { mutex_exit(&vswp->mac_lock); D2(vswp, "%s:Share already allocated to ldc=0x%lx", __func__, ldcp->ldc_id); return; } vsharep = vsw_hio_alloc_share(vswp, ldcp); if (vsharep == NULL) { mutex_exit(&vswp->mac_lock); D2(vswp, "%s: no Share available for ldc=0x%lx", __func__, ldcp->ldc_id); return; } req_id = VSW_DDS_NEXT_REQID(vsharep); rv = vsw_send_dds_msg(ldcp, DDS_VNET_ADD_SHARE, vsharep->vs_cookie, vsharep->vs_macaddr, req_id); if (rv != 0) { /* * Failed to send a DDS message, so cleanup now. */ vsw_hio_free_share(vsharep); mutex_exit(&vswp->mac_lock); return; } vsharep->vs_state &= ~VSW_SHARE_DDS_ACKD; vsharep->vs_state |= VSW_SHARE_DDS_SENT; mutex_exit(&vswp->mac_lock); /* DERR only to print by default */ DERR(vswp, "Share allocated for ldc_id=0x%lx Cookie=0x%lX", ldcp->ldc_id, vsharep->vs_cookie); D1(vswp, "%s:exit ldc=0x%lx", __func__, ldcp->ldc_id); } /* * vsw_hio_stop -- Stop/clean the HybridIO config for a guest(given ldc). */ void vsw_hio_stop(vsw_t *vswp, vsw_ldc_t *ldcp) { vsw_share_t *vsharep; D1(vswp, "%s:enter ldc=0x%lx", __func__, ldcp->ldc_id); mutex_enter(&vswp->mac_lock); vsharep = vsw_hio_find_vshare_ldcid(vswp, ldcp->ldc_id); if (vsharep == NULL) { D1(vswp, "%s:no share found for ldc=0x%lx", __func__, ldcp->ldc_id); mutex_exit(&vswp->mac_lock); return; } vsw_hio_free_share(vsharep); mutex_exit(&vswp->mac_lock); D1(vswp, "%s:exit ldc=0x%lx", __func__, ldcp->ldc_id); } /* * vsw_hio_send_delshare_msg -- Send a DEL_SHARE message to the guest. */ static int vsw_hio_send_delshare_msg(vsw_share_t *vsharep) { vsw_t *vswp = vsharep->vs_vswp; vsw_port_t *portp; vsw_ldc_list_t *ldcl; vsw_ldc_t *ldcp; uint32_t req_id; uint64_t cookie = vsharep->vs_cookie; uint64_t macaddr = vsharep->vs_macaddr; int rv; ASSERT(MUTEX_HELD(&vswp->mac_lock)); mutex_exit(&vswp->mac_lock); portp = vsharep->vs_portp; if (portp == NULL) { mutex_enter(&vswp->mac_lock); return (0); } ldcl = &portp->p_ldclist; READ_ENTER(&ldcl->lockrw); ldcp = ldcl->head; if ((ldcp == NULL) || (ldcp->ldc_id != vsharep->vs_ldcid)) { RW_EXIT(&ldcl->lockrw); mutex_enter(&vswp->mac_lock); return (0); } req_id = VSW_DDS_NEXT_REQID(vsharep); rv = vsw_send_dds_msg(ldcp, DDS_VNET_DEL_SHARE, cookie, macaddr, req_id); RW_EXIT(&ldcl->lockrw); mutex_enter(&vswp->mac_lock); if (rv == 0) { vsharep->vs_state &= ~VSW_SHARE_DDS_ACKD; vsharep->vs_state |= VSW_SHARE_DDS_SENT; } return (rv); } /* * vsw_send_dds_msg -- Send a DDS message. */ static int vsw_send_dds_msg(vsw_ldc_t *ldcp, uint8_t dds_subclass, uint64_t cookie, uint64_t macaddr, uint32_t req_id) { vsw_t *vswp = ldcp->ldc_port->p_vswp; vio_dds_msg_t vmsg; dds_share_msg_t *smsg = &vmsg.msg.share_msg; int rv; D1(vswp, "%s:enter\n", __func__); vmsg.tag.vio_msgtype = VIO_TYPE_CTRL; vmsg.tag.vio_subtype = VIO_SUBTYPE_INFO; vmsg.tag.vio_subtype_env = VIO_DDS_INFO; vmsg.tag.vio_sid = ldcp->local_session; vmsg.dds_class = DDS_VNET_NIU; vmsg.dds_subclass = dds_subclass; vmsg.dds_req_id = req_id; smsg->macaddr = macaddr; smsg->cookie = cookie; rv = vsw_send_msg(ldcp, &vmsg, sizeof (vmsg), B_FALSE); D1(vswp, "%s:exit rv=%d\n", __func__, rv); return (rv); } /* * vsw_process_dds_msg -- Process a DDS message received from a guest. */ void vsw_process_dds_msg(vsw_t *vswp, vsw_ldc_t *ldcp, void *msg) { vsw_share_t *vsharep; vio_dds_msg_t *dmsg = msg; D1(vswp, "%s:enter ldc=0x%lx\n", __func__, ldcp->ldc_id); if (dmsg->dds_class != DDS_VNET_NIU) { /* discard */ return; } mutex_enter(&vswp->mac_lock); /* * We expect to receive DDS messages only from guests that * have HybridIO started. */ vsharep = vsw_hio_find_vshare_ldcid(vswp, ldcp->ldc_id); if (vsharep == NULL) { mutex_exit(&vswp->mac_lock); return; } switch (dmsg->dds_subclass) { case DDS_VNET_ADD_SHARE: /* A response for ADD_SHARE message. */ D1(vswp, "%s:DDS_VNET_ADD_SHARE\n", __func__); if (!(vsharep->vs_state & VSW_SHARE_DDS_SENT)) { DWARN(vswp, "%s: invalid ADD_SHARE response message " " share state=0x%X", __func__, vsharep->vs_state); break; } if (dmsg->dds_req_id != vsharep->vs_req_id) { DWARN(vswp, "%s: invalid req_id in ADD_SHARE response" " message req_id=0x%X share's req_id=0x%X", __func__, dmsg->dds_req_id, vsharep->vs_req_id); break; } if (dmsg->tag.vio_subtype == VIO_SUBTYPE_NACK) { DWARN(vswp, "%s: NACK received for ADD_SHARE" " message ldcid=0x%lx", __func__, ldcp->ldc_id); /* cleanup for NACK */ vsw_hio_free_share(vsharep); } else { D2(vswp, "%s: ACK received for ADD_SHARE", __func__); vsharep->vs_state &= ~VSW_SHARE_DDS_SENT; vsharep->vs_state |= VSW_SHARE_DDS_ACKD; } break; case DDS_VNET_DEL_SHARE: /* A response for DEL_SHARE message */ D1(vswp, "%s:DDS_VNET_DEL_SHARE\n", __func__); if (!(vsharep->vs_state & VSW_SHARE_DDS_SENT)) { DWARN(vswp, "%s: invalid DEL_SHARE response message " " share state=0x%X", __func__, vsharep->vs_state); break; } if (dmsg->dds_req_id != vsharep->vs_req_id) { DWARN(vswp, "%s: invalid req_id in DEL_SHARE response" " message share req_id=0x%X share's req_id=0x%X", __func__, dmsg->dds_req_id, vsharep->vs_req_id); break; } if (dmsg->tag.vio_subtype == VIO_SUBTYPE_NACK) { DWARN(vswp, "%s: NACK received for DEL_SHARE", __func__); } /* There is nothing we can do, free share now */ vsw_hio_free_share(vsharep); break; case DDS_VNET_REL_SHARE: /* Guest has released Share voluntarily, so free it now */ D1(vswp, "%s:DDS_VNET_REL_SHARE\n", __func__); /* send ACK */ (void) vsw_send_dds_resp_msg(ldcp, dmsg, B_FALSE); vsw_hio_free_share(vsharep); break; default: DERR(vswp, "%s: Invalid DDS message type=0x%X", __func__, dmsg->dds_subclass); break; } mutex_exit(&vswp->mac_lock); D1(vswp, "%s:exit ldc=0x%lx\n", __func__, ldcp->ldc_id); } /* * vsw_send_dds_resp_msg -- Send a DDS response message. */ static int vsw_send_dds_resp_msg(vsw_ldc_t *ldcp, vio_dds_msg_t *dmsg, int ack) { vsw_t *vswp = ldcp->ldc_port->p_vswp; int rv; D1(vswp, "%s:enter\n", __func__); if (ack == B_TRUE) { dmsg->tag.vio_subtype = VIO_SUBTYPE_ACK; dmsg->msg.share_resp_msg.status = DDS_VNET_SUCCESS; } else { dmsg->tag.vio_subtype = VIO_SUBTYPE_NACK; dmsg->msg.share_resp_msg.status = DDS_VNET_FAIL; } rv = vsw_send_msg(ldcp, dmsg, sizeof (vio_dds_msg_t), B_FALSE); D1(vswp, "%s:exit rv=%d\n", __func__, rv); return (rv); } /* * vsw_hio_port_update -- update Hybrid mode change for a port. */ void vsw_hio_port_update(vsw_port_t *portp, boolean_t hio_enabled) { /* Verify if the mode really changed */ if (portp->p_hio_enabled == hio_enabled) { return; } if (hio_enabled == B_FALSE) { /* Hybrid Mode is disabled, so stop HybridIO */ vsw_hio_stop_port(portp); portp->p_hio_enabled = B_FALSE; vsw_port_mac_reconfig(portp, B_FALSE, 0, NULL, 0); } else { portp->p_hio_enabled = B_TRUE; vsw_port_mac_reconfig(portp, B_FALSE, 0, NULL, 0); /* reset the port to initiate HybridIO setup */ vsw_hio_port_reset(portp, B_FALSE); } } /* * vsw_hio_stop_port -- Stop HybridIO for a given port. Sequence * followed is similar to vsw_hio_free_all_shares(). * */ void vsw_hio_stop_port(vsw_port_t *portp) { vsw_t *vswp = portp->p_vswp; vsw_share_t *vsharep; int max_retries = vsw_hio_max_cleanup_retries; D1(vswp, "%s:enter\n", __func__); mutex_enter(&vswp->mac_lock); if (vswp->hio_capable == B_FALSE) { mutex_exit(&vswp->mac_lock); return; } vsharep = vsw_hio_find_vshare_port(vswp, portp); if (vsharep == NULL) { mutex_exit(&vswp->mac_lock); return; } do { if (vsharep->vs_state & VSW_SHARE_DDS_ACKD) { int rv; /* send DDS_DEL_SHARE */ D1(vswp, "%s:sending DEL_SHARE msg for " "share(%d)", __func__, vsharep->vs_index); rv = vsw_hio_send_delshare_msg(vsharep); if (rv != 0) { /* * Cause a port reset to trigger * cleanup. */ vsw_hio_port_reset(vsharep->vs_portp, B_FALSE); } } if (max_retries == 1) { /* last retry */ DWARN(vswp, "%s:All retries failed, " " cause a reset to trigger cleanup for " "share(%d)", __func__, vsharep->vs_index); vsw_hio_port_reset(vsharep->vs_portp, B_FALSE); } /* Check if the share still assigned to this port */ if ((vsharep->vs_portp != portp) || (vsharep->vs_state == VSW_SHARE_FREE)) { break; } /* * Release the lock so that reply for DEL_SHARE * messages come and get processed, that is, shares * get freed. */ mutex_exit(&vswp->mac_lock); drv_usecwait(vsw_hio_cleanup_delay); mutex_enter(&vswp->mac_lock); /* Check if the share still assigned to this port */ if ((vsharep->vs_portp != portp) || (vsharep->vs_state == VSW_SHARE_FREE)) { break; } max_retries--; } while ((vsharep->vs_state != VSW_SHARE_FREE) && (max_retries > 0)); mutex_exit(&vswp->mac_lock); D1(vswp, "%s:exit\n", __func__); } /* * vsw_hio_rest_all -- Resets all ports that have shares allocated. * It is called only in the panic code path, so the LDC channels * are reset immediately. */ static void vsw_hio_reset_all(vsw_t *vswp) { vsw_hio_t *hiop = &vswp->vhio; vsw_share_t *vsharep; int i; D1(vswp, "%s:enter\n", __func__); if (vswp->hio_capable != B_TRUE) return; for (i = 0; i < hiop->vh_num_shares; i++) { vsharep = &hiop->vh_shares[i]; if (vsharep->vs_state == VSW_SHARE_FREE) { continue; } /* * Reset the port with immediate flag enabled, * to cause LDC reset immediately. */ vsw_hio_port_reset(vsharep->vs_portp, B_TRUE); } D1(vswp, "%s:exit\n", __func__); } /* * vsw_hio_reboot_callb -- Called for reboot event. It tries to * free all currently allocated shares. */ /* ARGSUSED */ static boolean_t vsw_hio_reboot_callb(void *arg, int code) { vsw_t *vswp = arg; D1(vswp, "%s:enter\n", __func__); vsw_hio_free_all_shares(vswp, B_TRUE); D1(vswp, "%s:exit\n", __func__); return (B_TRUE); } /* * vsw_hio_panic_callb -- Called from panic event. It resets all * the ports that have shares allocated. This is done to * trigger the cleanup in the guest ahead of HV reset. */ /* ARGSUSED */ static boolean_t vsw_hio_panic_callb(void *arg, int code) { vsw_t *vswp = arg; D1(vswp, "%s:enter\n", __func__); vsw_hio_reset_all(vswp); D1(vswp, "%s:exit\n", __func__); return (B_TRUE); } /* * Setup kstats for hio statistics. */ static kstat_t * vsw_hio_setup_kstats(char *ks_mod, char *ks_name, vsw_t *vswp) { kstat_t *ksp; vsw_hio_kstats_t *hiokp; vsw_hio_t *hiop; char share_assigned_info[MAXNAMELEN]; size_t size; int i; hiop = &vswp->vhio; /* * vsw_hio_stats_t structure is variable size structure * having fields defined only for one share. So, we need * allocate additional space for the rest of the shares. */ size = sizeof (vsw_hio_kstats_t) / sizeof (kstat_named_t); ASSERT(hiop->vh_num_shares >= 1); size += ((hiop->vh_num_shares - 1) * 2); ksp = kstat_create(ks_mod, vswp->instance, ks_name, "misc", KSTAT_TYPE_NAMED, size, KSTAT_FLAG_VIRTUAL); if (ksp == NULL) { return (NULL); } hiokp = (vsw_hio_kstats_t *)kmem_zalloc(sizeof (kstat_named_t) * size, KM_SLEEP); ksp->ks_data = hiokp; hiop->vh_ksp = ksp; hiop->vh_kstatsp = hiokp; hiop->vh_kstat_size = size; kstat_named_init(&hiokp->hio_capable, "hio_capable", KSTAT_DATA_CHAR); kstat_named_init(&hiokp->hio_num_shares, "hio_num_shares", KSTAT_DATA_ULONG); for (i = 0; i < hiop->vh_num_shares; i++) { (void) sprintf(share_assigned_info, "%s%d", "hio_share_", i); kstat_named_init(&(hiokp->share[i].assigned), share_assigned_info, KSTAT_DATA_ULONG); (void) sprintf(share_assigned_info, "%s%d%s", "hio_share_", i, "_state"); kstat_named_init(&(hiokp->share[i].state), share_assigned_info, KSTAT_DATA_ULONG); } ksp->ks_update = vsw_hio_kstats_update; ksp->ks_private = (void *)vswp; kstat_install(ksp); return (ksp); } /* * Destroy hio kstats. */ static void vsw_hio_destroy_kstats(vsw_t *vswp) { kstat_t *ksp; vsw_hio_t *hiop; ASSERT(vswp != NULL); ksp = vswp->vhio.vh_ksp; hiop = &vswp->vhio; if (ksp != NULL) { kmem_free(hiop->vh_kstatsp, sizeof (kstat_named_t) * hiop->vh_kstat_size); kstat_delete(ksp); hiop->vh_kstatsp = NULL; hiop->vh_ksp = NULL; } } /* * Update hio kstats. */ static int vsw_hio_kstats_update(kstat_t *ksp, int rw) { vsw_t *vswp; vsw_hio_t *hiop; vsw_hio_kstats_t *hiokp; int i; vswp = (vsw_t *)ksp->ks_private; ASSERT(vswp != NULL); hiop = &vswp->vhio; hiokp = hiop->vh_kstatsp; if (rw == KSTAT_READ) { if (vswp->hio_capable) { (void) strcpy(hiokp->hio_capable.value.c, "Yes"); } else { /* not hio capable, just return */ (void) strcpy(hiokp->hio_capable.value.c, "No"); return (0); } mutex_enter(&vswp->mac_lock); hiokp->hio_num_shares.value.ul = (uint32_t)hiop->vh_num_shares; for (i = 0; i < hiop->vh_num_shares; i++) { hiokp->share[i].assigned.value.ul = hiop->vh_shares[i].vs_macaddr; hiokp->share[i].state.value.ul = hiop->vh_shares[i].vs_state; } mutex_exit(&vswp->mac_lock); } else { return (EACCES); } return (0); }