/* * Copyright (c) 2005-2009 Brocade Communications Systems, Inc. * All rights reserved * www.brocade.com * * Linux driver for Brocade Fibre Channel Host Bus Adapter. * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License (GPL) Version 2 as * published by the Free Software Foundation * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ /** * port_api.c BFA FCS port */ #include #include #include #include "fcs_rport.h" #include "fcs_fabric.h" #include "fcs_trcmod.h" #include "fcs_vport.h" BFA_TRC_FILE(FCS, PORT_API); /** * fcs_port_api BFA FCS port API */ void bfa_fcs_cfg_base_port(struct bfa_fcs_s *fcs, struct bfa_port_cfg_s *port_cfg) { } struct bfa_fcs_port_s * bfa_fcs_get_base_port(struct bfa_fcs_s *fcs) { return (&fcs->fabric.bport); } wwn_t bfa_fcs_port_get_rport(struct bfa_fcs_port_s *port, wwn_t wwn, int index, int nrports, bfa_boolean_t bwwn) { struct list_head *qh, *qe; struct bfa_fcs_rport_s *rport = NULL; int i; struct bfa_fcs_s *fcs; if (port == NULL || nrports == 0) return (wwn_t) 0; fcs = port->fcs; bfa_trc(fcs, (u32) nrports); i = 0; qh = &port->rport_q; qe = bfa_q_first(qh); while ((qe != qh) && (i < nrports)) { rport = (struct bfa_fcs_rport_s *)qe; if (bfa_os_ntoh3b(rport->pid) > 0xFFF000) { qe = bfa_q_next(qe); bfa_trc(fcs, (u32) rport->pwwn); bfa_trc(fcs, rport->pid); bfa_trc(fcs, i); continue; } if (bwwn) { if (!memcmp(&wwn, &rport->pwwn, 8)) break; } else { if (i == index) break; } i++; qe = bfa_q_next(qe); } bfa_trc(fcs, i); if (rport) { return rport->pwwn; } else { return (wwn_t) 0; } } void bfa_fcs_port_get_rports(struct bfa_fcs_port_s *port, wwn_t rport_wwns[], int *nrports) { struct list_head *qh, *qe; struct bfa_fcs_rport_s *rport = NULL; int i; struct bfa_fcs_s *fcs; if (port == NULL || rport_wwns == NULL || *nrports == 0) return; fcs = port->fcs; bfa_trc(fcs, (u32) *nrports); i = 0; qh = &port->rport_q; qe = bfa_q_first(qh); while ((qe != qh) && (i < *nrports)) { rport = (struct bfa_fcs_rport_s *)qe; if (bfa_os_ntoh3b(rport->pid) > 0xFFF000) { qe = bfa_q_next(qe); bfa_trc(fcs, (u32) rport->pwwn); bfa_trc(fcs, rport->pid); bfa_trc(fcs, i); continue; } rport_wwns[i] = rport->pwwn; i++; qe = bfa_q_next(qe); } bfa_trc(fcs, i); *nrports = i; return; } /* * Iterate's through all the rport's in the given port to * determine the maximum operating speed. */ enum bfa_pport_speed bfa_fcs_port_get_rport_max_speed(struct bfa_fcs_port_s *port) { struct list_head *qh, *qe; struct bfa_fcs_rport_s *rport = NULL; struct bfa_fcs_s *fcs; enum bfa_pport_speed max_speed = 0; struct bfa_pport_attr_s pport_attr; enum bfa_pport_speed pport_speed; if (port == NULL) return 0; fcs = port->fcs; /* * Get Physical port's current speed */ bfa_pport_get_attr(port->fcs->bfa, &pport_attr); pport_speed = pport_attr.speed; bfa_trc(fcs, pport_speed); qh = &port->rport_q; qe = bfa_q_first(qh); while (qe != qh) { rport = (struct bfa_fcs_rport_s *)qe; if ((bfa_os_ntoh3b(rport->pid) > 0xFFF000) || (bfa_fcs_rport_get_state(rport) == BFA_RPORT_OFFLINE)) { qe = bfa_q_next(qe); continue; } if ((rport->rpf.rpsc_speed == BFA_PPORT_SPEED_8GBPS) || (rport->rpf.rpsc_speed > pport_speed)) { max_speed = rport->rpf.rpsc_speed; break; } else if (rport->rpf.rpsc_speed > max_speed) { max_speed = rport->rpf.rpsc_speed; } qe = bfa_q_next(qe); } bfa_trc(fcs, max_speed); return max_speed; } struct bfa_fcs_port_s * bfa_fcs_lookup_port(struct bfa_fcs_s *fcs, u16 vf_id, wwn_t lpwwn) { struct bfa_fcs_vport_s *vport; bfa_fcs_vf_t *vf; bfa_assert(fcs != NULL); vf = bfa_fcs_vf_lookup(fcs, vf_id); if (vf == NULL) { bfa_trc(fcs, vf_id); return (NULL); } if (!lpwwn || (vf->bport.port_cfg.pwwn == lpwwn)) return (&vf->bport); vport = bfa_fcs_fabric_vport_lookup(vf, lpwwn); if (vport) return (&vport->lport); return (NULL); } /* * API corresponding to VmWare's NPIV_VPORT_GETINFO. */ void bfa_fcs_port_get_info(struct bfa_fcs_port_s *port, struct bfa_port_info_s *port_info) { bfa_trc(port->fcs, port->fabric->fabric_name); if (port->vport == NULL) { /* * This is a Physical port */ port_info->port_type = BFA_PORT_TYPE_PHYSICAL; /* * @todo : need to fix the state & reason */ port_info->port_state = 0; port_info->offline_reason = 0; port_info->port_wwn = bfa_fcs_port_get_pwwn(port); port_info->node_wwn = bfa_fcs_port_get_nwwn(port); port_info->max_vports_supp = bfa_fcs_vport_get_max(port->fcs); port_info->num_vports_inuse = bfa_fcs_fabric_vport_count(port->fabric); port_info->max_rports_supp = BFA_FCS_MAX_RPORTS_SUPP; port_info->num_rports_inuse = port->num_rports; } else { /* * This is a virtual port */ port_info->port_type = BFA_PORT_TYPE_VIRTUAL; /* * @todo : need to fix the state & reason */ port_info->port_state = 0; port_info->offline_reason = 0; port_info->port_wwn = bfa_fcs_port_get_pwwn(port); port_info->node_wwn = bfa_fcs_port_get_nwwn(port); } } void bfa_fcs_port_get_stats(struct bfa_fcs_port_s *fcs_port, struct bfa_port_stats_s *port_stats) { bfa_os_memcpy(port_stats, &fcs_port->stats, sizeof(struct bfa_port_stats_s)); return; } void bfa_fcs_port_clear_stats(struct bfa_fcs_port_s *fcs_port) { bfa_os_memset(&fcs_port->stats, 0, sizeof(struct bfa_port_stats_s)); return; } void bfa_fcs_port_enable_ipfc_roles(struct bfa_fcs_port_s *fcs_port) { fcs_port->port_cfg.roles |= BFA_PORT_ROLE_FCP_IPFC; return; } void bfa_fcs_port_disable_ipfc_roles(struct bfa_fcs_port_s *fcs_port) { fcs_port->port_cfg.roles &= ~BFA_PORT_ROLE_FCP_IPFC; return; }