/* * 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. */ /* * This file defines interfaces between fcoe and its clients (FCoEI/FCoET) */ #include #include #include #include #include #include #include #include #include #include #include /* * FCoE header files */ #include #include /* * Driver's own header files */ #include #include #include static void fcoe_fill_frame_headers(fcoe_frame_t *frm); static void fcoe_fill_frame_tailers(fcoe_frame_t *frm); static void fcoe_deregister_client(fcoe_port_t *eport); static int fcoe_ctl(fcoe_port_t *eport, int cmd, void *arg); static void fcoe_tx_frame(fcoe_frame_t *frm); static void *fcoe_alloc_netb(fcoe_port_t *eport, uint32_t fc_frame_size, uint8_t **ppfc); static void fcoe_free_netb(void *netb); /* * Only this function will be called explicitly by clients * Register the specified client port (fcoei/fcoet) */ fcoe_port_t * fcoe_register_client(fcoe_client_t *client) { fcoe_mac_t *mac; fcoe_port_t *eport; if (client->ect_fcoe_ver != fcoe_ver_now) { cmn_err(CE_WARN, "FCoE modules version mismatch, " "fail registering client."); return (NULL); } /* * We will not come here, when someone is changing ss_mac_list, * so it's safe to go through ss_mac_list. */ for (mac = list_head(&fcoe_global_ss->ss_mac_list); mac; mac = list_next(&fcoe_global_ss->ss_mac_list, mac)) { if (client->ect_channelid == mac->fm_linkid) { break; } } if (mac == NULL) { FCOE_LOG(0, "can't find the MAC you want to bind"); return (NULL); } if (mac->fm_flags & FCOE_MAC_FLAG_BOUND) { FCOE_LOG(0, "the MAC you want to bind is bound already"); return (NULL); } atomic_or_32(&mac->fm_flags, FCOE_MAC_FLAG_BOUND); bcopy(client, &mac->fm_client, sizeof (fcoe_client_t)); /* * fcoe_port_t initialization */ eport = &mac->fm_eport; eport->eport_flags = client->ect_eport_flags | EPORT_FLAG_MAC_IN_USE; eport->eport_fcoe_private = mac; eport->eport_client_private = client->ect_client_port_struct; eport->eport_max_fc_frame_size = 2136; eport->eport_tx_frame = fcoe_tx_frame; eport->eport_alloc_frame = fcoe_allocate_frame; eport->eport_release_frame = fcoe_release_frame; eport->eport_alloc_netb = fcoe_alloc_netb; eport->eport_free_netb = fcoe_free_netb; eport->eport_deregister_client = fcoe_deregister_client; eport->eport_ctl = fcoe_ctl; eport->eport_set_mac_address = fcoe_mac_set_address; return (eport); } /* * The following routines will be called through vectors in fcoe_port_t */ /* * Deregister fcoet/fcoei modules, client should make sure the port is in * offline status already */ static void fcoe_deregister_client(fcoe_port_t *eport) { fcoe_mac_t *mac = EPORT2MAC(eport); /* * Wait for all the related frame to be freed, this should be fast * because before deregister fcoei/fcoet will make sure its port * is already in offline status so no frame will be received or sent * any more */ while (mac->fm_frm_cnt > 0) { delay(10); } atomic_and_32(&EPORT2MAC(eport)->fm_flags, ~FCOE_MAC_FLAG_BOUND); atomic_and_32(&mac->fm_eport.eport_flags, ~EPORT_FLAG_MAC_IN_USE); if (!(EPORT2MAC(eport)->fm_flags & FCOE_MAC_FLAG_USER_DEL)) { (void) fcoe_close_mac(mac); fcoe_destroy_mac(mac); } } /* ARGSUSED */ static int fcoe_ctl(fcoe_port_t *eport, int cmd, void *arg) { fcoe_mac_t *mac = EPORT2MAC(eport); switch (cmd) { case FCOE_CMD_PORT_ONLINE: /* * client ask us to online, so it's safe to post event * and data up */ if (fcoe_enable_callback(mac) == FCOE_FAILURE) { return (FCOE_FAILURE); } mac->fm_state = FCOE_MAC_STATE_ONLINE; if (mac->fm_link_state == FCOE_MAC_LINK_STATE_UP) (void) ddi_taskq_dispatch( fcoe_global_ss->ss_watchdog_taskq, fcoe_mac_notify_link_up, mac, DDI_SLEEP); break; case FCOE_CMD_PORT_OFFLINE: if (fcoe_disable_callback(mac) == FCOE_FAILURE) { return (FCOE_FAILURE); } mac->fm_state = FCOE_MAC_STATE_OFFLINE; // in case there are threads waiting mutex_enter(&mac->fm_mutex); cv_broadcast(&mac->fm_tx_cv); mutex_exit(&mac->fm_mutex); break; default: FCOE_LOG("fcoe", "fcoe_ctl, unsupported cmd %x", cmd); break; } return (FCOE_SUCCESS); } /* * Transmit the specified frame to the link */ static void fcoe_tx_frame(fcoe_frame_t *frm) { mblk_t *ret_mblk = NULL; fcoe_mac_t *mac = FRM2MAC(frm); mac_tx_cookie_t ret_cookie; fcoe_fill_frame_headers(frm); fcoe_fill_frame_tailers(frm); tx_frame: ret_cookie = mac_tx(mac->fm_cli_handle, FRM2MBLK(frm), 0, MAC_TX_NO_ENQUEUE, &ret_mblk); if (ret_cookie != NULL) { mutex_enter(&mac->fm_mutex); (void) cv_reltimedwait(&mac->fm_tx_cv, &mac->fm_mutex, drv_usectohz(100000), TR_CLOCK_TICK); mutex_exit(&mac->fm_mutex); if (mac->fm_state == FCOE_MAC_STATE_OFFLINE) { /* * we are doing offline, so just tell the upper that * this is finished, the cmd will be aborted soon. */ fcoe_free_netb(ret_mblk); } else { goto tx_frame; } } /* * MAC driver will release the mblk of the frame * We need only release the frame itself */ mutex_enter(&FRM2MAC(frm)->fm_ss->ss_watch_mutex); list_insert_tail(&FRM2MAC(frm)->fm_ss->ss_pfrm_list, FRM2FMI(frm)); mac->fm_frm_cnt ++; if (FRM2MAC(frm)->fm_ss->ss_flags & SS_FLAG_DOG_WAITING) { cv_signal(&FRM2MAC(frm)->fm_ss->ss_watch_cv); } mutex_exit(&FRM2MAC(frm)->fm_ss->ss_watch_mutex); } /* * Consider cache allocation in the future */ void fcoe_release_frame(fcoe_frame_t *frame) { kmem_free(frame, frame->frm_alloc_size); } static void * fcoe_alloc_netb(fcoe_port_t *eport, uint32_t fc_frame_size, uint8_t **ppfc) { mblk_t *mp; mp = fcoe_get_mblk(eport->eport_fcoe_private, fc_frame_size + PADDING_SIZE); if (mp != NULL) { *ppfc = mp->b_rptr + PADDING_HEADER_SIZE; } return (mp); } static void fcoe_free_netb(void *netb) { freeb((mblk_t *)netb); } fcoe_frame_t * fcoe_allocate_frame(fcoe_port_t *eport, uint32_t fc_frame_size, void *xmp) { fcoe_frame_t *frm; fcoe_i_frame_t *fmi; mblk_t *mp = xmp; uint32_t alloc_size; uint32_t raw_frame_size; if (fc_frame_size > 2136) { FCOE_LOG("fcoe", "fcoe_allocate_frame %d > 2136", fc_frame_size); return (NULL); } if (mp == NULL) { /* * We are allocating solicited frame now */ raw_frame_size = PADDING_SIZE + fc_frame_size; mp = fcoe_get_mblk(EPORT2MAC(eport), raw_frame_size); if (mp == NULL) { return (NULL); } } alloc_size = sizeof (fcoe_frame_t) + sizeof (fcoe_i_frame_t) + EPORT2MAC(eport)->fm_client.ect_private_frame_struct_size; /* * fcoe_frame_t initialization */ frm = (fcoe_frame_t *)kmem_alloc(alloc_size, KM_SLEEP); frm->frm_alloc_size = alloc_size; frm->frm_fc_frame_size = fc_frame_size; frm->frm_payload_size = fc_frame_size - sizeof (fcoe_fc_frame_header_t); frm->frm_fcoe_private = sizeof (fcoe_frame_t) + (uint8_t *)frm; frm->frm_client_private = sizeof (fcoe_i_frame_t) + (uint8_t *)frm->frm_fcoe_private; frm->frm_flags = 0; frm->frm_eport = eport; frm->frm_netb = mp; /* * fcoe_i_frame_t initialization */ fmi = FRM2FMI(frm); fmi->fmi_frame = frm; fmi->fmi_mac = EPORT2MAC(eport); fmi->fmi_efh = (void *)mp->b_rptr; fmi->fmi_ffh = (fcoe_frame_header_t *) (sizeof (struct ether_header) + (uint8_t *)fmi->fmi_efh); fmi->fmi_fc_frame = sizeof (fcoe_frame_header_t) + (uint8_t *)fmi->fmi_ffh; fmi->fmi_fft = (fcoe_frame_tailer_t *) (fc_frame_size + (uint8_t *)fmi->fmi_fc_frame); /* * Continue to initialize fcoe_frame_t */ frm->frm_hdr = (fcoe_fc_frame_header_t *)fmi->fmi_fc_frame; frm->frm_ofh1 = NULL; frm->frm_ofh2 = NULL; frm->frm_fc_frame = (uint8_t *)frm->frm_hdr; frm->frm_payload = sizeof (fcoe_fc_frame_header_t) + (uint8_t *)frm->frm_fc_frame; return (frm); } /* * Sub routines called by interface functions */ /* * According to spec, fill EthernetII frame header, FCoE frame header * VLAN (not included for now) */ static void fcoe_fill_frame_headers(fcoe_frame_t *frm) { fcoe_i_frame_t *fmi = FRM2FMI(frm); /* * Initialize ethernet frame header */ bcopy(FRM2MAC(frm)->fm_current_addr, &fmi->fmi_efh->ether_shost, ETHERADDRL); bcopy(frm->frm_eport->eport_efh_dst, &fmi->fmi_efh->ether_dhost, ETHERADDRL); fmi->fmi_efh->ether_type = htons(ETHERTYPE_FCOE); /* * Initialize FCoE frame header */ bzero(fmi->fmi_ffh, sizeof (fcoe_frame_header_t)); FCOE_ENCAPS_VER(fmi->fmi_ffh, FCOE_VER); /* set to SOFi3 for the first frame of a sequence */ if (FRM_SEQ_CNT(frm) == 0) { FCOE_V2B_1(0x2E, fmi->fmi_ffh->ffh_sof); } else { FCOE_V2B_1(0x36, fmi->fmi_ffh->ffh_sof); } } /* * According to spec, fill FCOE frame tailer including CRC * VLAN (not included for now) */ static void fcoe_fill_frame_tailers(fcoe_frame_t *frm) { uint32_t crc; /* * Initialize FCoE frame tailer * CRC is not big endian, can't use macro V2B */ CRC32(crc, frm->frm_fc_frame, frm->frm_fc_frame_size, (uint32_t)~0, crc32_table); FRM2FMI(frm)->fmi_fft->fft_crc[0] = 0xFF & (~crc); FRM2FMI(frm)->fmi_fft->fft_crc[1] = 0xFF & (~crc >> 8); FRM2FMI(frm)->fmi_fft->fft_crc[2] = 0xFF & (~crc >> 16); FRM2FMI(frm)->fmi_fft->fft_crc[3] = 0xFF & (~crc >> 24); if (FRM_F_CTL(frm) & 0x080000) { FCOE_V2B_1(0x42, FRM2FMI(frm)->fmi_fft->fft_eof); } else { FCOE_V2B_1(0x41, FRM2FMI(frm)->fmi_fft->fft_eof); } FRM2FMI(frm)->fmi_fft->fft_resvd[0] = 0; FRM2FMI(frm)->fmi_fft->fft_resvd[1] = 0; FRM2FMI(frm)->fmi_fft->fft_resvd[2] = 0; } void fcoe_mac_notify_link_up(void *arg) { fcoe_mac_t *mac = (fcoe_mac_t *)arg; ASSERT(mac->fm_flags & FCOE_MAC_FLAG_BOUND); mac->fm_client.ect_port_event(&mac->fm_eport, FCOE_NOTIFY_EPORT_LINK_UP); } void fcoe_mac_notify_link_down(void *arg) { fcoe_mac_t *mac = (fcoe_mac_t *)arg; if (mac->fm_flags & FCOE_MAC_FLAG_BOUND) { mac->fm_client.ect_port_event(&mac->fm_eport, FCOE_NOTIFY_EPORT_LINK_DOWN); } } int fcoe_create_port(dev_info_t *parent, fcoe_mac_t *mac, int is_target) { int rval = 0; dev_info_t *child = NULL; char *devname = is_target ? FCOET_DRIVER_NAME : FCOEI_DRIVER_NAME; ndi_devi_alloc_sleep(parent, devname, DEVI_PSEUDO_NODEID, &child); if (child == NULL) { FCOE_LOG("fcoe", "fail to create new devinfo"); return (NDI_FAILURE); } if (ddi_prop_update_int(DDI_DEV_T_NONE, child, "mac_id", mac->fm_linkid) != DDI_PROP_SUCCESS) { FCOE_LOG("fcoe", "fcoe%d: prop_update port mac id failed for mac %d", ddi_get_instance(parent), mac->fm_linkid); (void) ndi_devi_free(child); return (NDI_FAILURE); } rval = ndi_devi_online(child, NDI_ONLINE_ATTACH); if (rval != NDI_SUCCESS) { FCOE_LOG("fcoe", "fcoe%d: online_driver failed for mac %d", ddi_get_instance(parent), mac->fm_linkid); return (NDI_FAILURE); } mac->fm_client_dev = child; return (rval); } int fcoe_delete_port(dev_info_t *parent, fcoeio_t *fcoeio, datalink_id_t linkid, uint64_t *is_target) { int rval = 0; fcoe_mac_t *mac; mac = fcoe_lookup_mac_by_id(linkid); if (mac == NULL) { fcoeio->fcoeio_status = FCOEIOE_MAC_NOT_FOUND; return (EINVAL); } *is_target = EPORT_CLT_TYPE(&mac->fm_eport); if ((mac->fm_flags & FCOE_MAC_FLAG_ENABLED) != FCOE_MAC_FLAG_ENABLED) { fcoeio->fcoeio_status = FCOEIOE_ALREADY; return (EALREADY); } if (!(mac->fm_flags & FCOE_MAC_FLAG_BOUND)) { /* * It means that deferred detach has finished * of last delete operation */ goto skip_devi_offline; } atomic_and_32(&mac->fm_eport.eport_flags, ~EPORT_FLAG_MAC_IN_USE); mac->fm_flags |= FCOE_MAC_FLAG_USER_DEL; rval = ndi_devi_offline(mac->fm_client_dev, NDI_DEVI_REMOVE); if (rval != NDI_SUCCESS) { FCOE_LOG("fcoe", "fcoe%d: offline_driver %s failed", ddi_get_instance(parent), ddi_get_name(mac->fm_client_dev)); atomic_or_32(&mac->fm_eport.eport_flags, EPORT_FLAG_MAC_IN_USE); fcoeio->fcoeio_status = FCOEIOE_OFFLINE_FAILURE; return (EBUSY); } skip_devi_offline: (void) fcoe_close_mac(mac); fcoe_destroy_mac(mac); return (0); }