/* * 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. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Data-Link Driver */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include typedef boolean_t proto_reqfunc_t(dld_str_t *, union DL_primitives *, mblk_t *); static proto_reqfunc_t proto_info_req, proto_attach_req, proto_detach_req, proto_bind_req, proto_unbind_req, proto_promiscon_req, proto_promiscoff_req, proto_enabmulti_req, proto_disabmulti_req, proto_physaddr_req, proto_setphysaddr_req, proto_udqos_req, proto_req, proto_capability_req, proto_notify_req, proto_passive_req; static void proto_poll_disable(dld_str_t *); static boolean_t proto_poll_enable(dld_str_t *, dl_capab_dls_t *); static void proto_soft_ring_disable(dld_str_t *); static boolean_t proto_soft_ring_enable(dld_str_t *, dl_capab_dls_t *); static boolean_t proto_capability_advertise(dld_str_t *, mblk_t *); static void proto_change_soft_ring_fanout(dld_str_t *, int); #define DL_ACK_PENDING(state) \ ((state) == DL_ATTACH_PENDING || \ (state) == DL_DETACH_PENDING || \ (state) == DL_BIND_PENDING || \ (state) == DL_UNBIND_PENDING) /* * Process a DLPI protocol message. * The primitives DL_BIND_REQ, DL_ENABMULTI_REQ, DL_PROMISCON_REQ, * DL_SET_PHYS_ADDR_REQ put the data link below our dld_str_t into an * 'active' state. The primitive DL_PASSIVE_REQ marks our dld_str_t * as 'passive' and forbids it from being subsequently made 'active' * by the above primitives. */ void dld_wput_proto_nondata(dld_str_t *dsp, mblk_t *mp) { union DL_primitives *udlp; t_uscalar_t prim; ASSERT(MBLKL(mp) >= sizeof (t_uscalar_t)); udlp = (union DL_primitives *)mp->b_rptr; prim = udlp->dl_primitive; switch (prim) { case DL_INFO_REQ: (void) proto_info_req(dsp, udlp, mp); break; case DL_BIND_REQ: (void) proto_bind_req(dsp, udlp, mp); break; case DL_UNBIND_REQ: (void) proto_unbind_req(dsp, udlp, mp); break; case DL_UDQOS_REQ: (void) proto_udqos_req(dsp, udlp, mp); break; case DL_ATTACH_REQ: (void) proto_attach_req(dsp, udlp, mp); break; case DL_DETACH_REQ: (void) proto_detach_req(dsp, udlp, mp); break; case DL_ENABMULTI_REQ: (void) proto_enabmulti_req(dsp, udlp, mp); break; case DL_DISABMULTI_REQ: (void) proto_disabmulti_req(dsp, udlp, mp); break; case DL_PROMISCON_REQ: (void) proto_promiscon_req(dsp, udlp, mp); break; case DL_PROMISCOFF_REQ: (void) proto_promiscoff_req(dsp, udlp, mp); break; case DL_PHYS_ADDR_REQ: (void) proto_physaddr_req(dsp, udlp, mp); break; case DL_SET_PHYS_ADDR_REQ: (void) proto_setphysaddr_req(dsp, udlp, mp); break; case DL_NOTIFY_REQ: (void) proto_notify_req(dsp, udlp, mp); break; case DL_CAPABILITY_REQ: (void) proto_capability_req(dsp, udlp, mp); break; case DL_PASSIVE_REQ: (void) proto_passive_req(dsp, udlp, mp); break; default: (void) proto_req(dsp, udlp, mp); break; } } #define NEG(x) -(x) typedef struct dl_info_ack_wrapper { dl_info_ack_t dl_info; uint8_t dl_addr[MAXMACADDRLEN + sizeof (uint16_t)]; uint8_t dl_brdcst_addr[MAXMACADDRLEN]; dl_qos_cl_range1_t dl_qos_range1; dl_qos_cl_sel1_t dl_qos_sel1; } dl_info_ack_wrapper_t; /* * DL_INFO_REQ */ /*ARGSUSED*/ static boolean_t proto_info_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_info_ack_wrapper_t *dlwp; dl_info_ack_t *dlp; dl_qos_cl_sel1_t *selp; dl_qos_cl_range1_t *rangep; uint8_t *addr; uint8_t *brdcst_addr; uint_t addr_length; uint_t sap_length; mac_info_t minfo; mac_info_t *minfop; queue_t *q = dsp->ds_wq; /* * Swap the request message for one large enough to contain the * wrapper structure defined above. */ if ((mp = mexchange(q, mp, sizeof (dl_info_ack_wrapper_t), M_PCPROTO, 0)) == NULL) return (B_FALSE); rw_enter(&dsp->ds_lock, RW_READER); bzero(mp->b_rptr, sizeof (dl_info_ack_wrapper_t)); dlwp = (dl_info_ack_wrapper_t *)mp->b_rptr; dlp = &(dlwp->dl_info); ASSERT(dlp == (dl_info_ack_t *)mp->b_rptr); dlp->dl_primitive = DL_INFO_ACK; /* * Set up the sub-structure pointers. */ addr = dlwp->dl_addr; brdcst_addr = dlwp->dl_brdcst_addr; rangep = &(dlwp->dl_qos_range1); selp = &(dlwp->dl_qos_sel1); /* * This driver supports only version 2 connectionless DLPI provider * nodes. */ dlp->dl_service_mode = DL_CLDLS; dlp->dl_version = DL_VERSION_2; /* * Set the style of the provider */ dlp->dl_provider_style = dsp->ds_style; ASSERT(dlp->dl_provider_style == DL_STYLE1 || dlp->dl_provider_style == DL_STYLE2); /* * Set the current DLPI state. */ dlp->dl_current_state = dsp->ds_dlstate; /* * Gratuitously set the media type. This is to deal with modules * that assume the media type is known prior to DL_ATTACH_REQ * being completed. */ dlp->dl_mac_type = DL_ETHER; /* * If the stream is not at least attached we try to retrieve the * mac_info using mac_info_get() */ if (dsp->ds_dlstate == DL_UNATTACHED || dsp->ds_dlstate == DL_ATTACH_PENDING || dsp->ds_dlstate == DL_DETACH_PENDING) { if (!mac_info_get(ddi_major_to_name(dsp->ds_major), &minfo)) { /* * Cannot find mac_info. giving up. */ goto done; } minfop = &minfo; } else { minfop = (mac_info_t *)dsp->ds_mip; /* We can only get the sdu if we're attached. */ mac_sdu_get(dsp->ds_mh, &dlp->dl_min_sdu, &dlp->dl_max_sdu); } /* * Set the media type (properly this time). */ if (dsp->ds_native) dlp->dl_mac_type = minfop->mi_nativemedia; else dlp->dl_mac_type = minfop->mi_media; /* * Set the DLSAP length. We only support 16 bit values and they * appear after the MAC address portion of DLSAP addresses. */ sap_length = sizeof (uint16_t); dlp->dl_sap_length = NEG(sap_length); addr_length = minfop->mi_addr_length; /* * Copy in the media broadcast address. */ if (minfop->mi_brdcst_addr != NULL) { dlp->dl_brdcst_addr_offset = (uintptr_t)brdcst_addr - (uintptr_t)dlp; bcopy(minfop->mi_brdcst_addr, brdcst_addr, addr_length); dlp->dl_brdcst_addr_length = addr_length; } dlp->dl_qos_range_offset = (uintptr_t)rangep - (uintptr_t)dlp; dlp->dl_qos_range_length = sizeof (dl_qos_cl_range1_t); rangep->dl_qos_type = DL_QOS_CL_RANGE1; rangep->dl_trans_delay.dl_target_value = DL_UNKNOWN; rangep->dl_trans_delay.dl_accept_value = DL_UNKNOWN; rangep->dl_protection.dl_min = DL_UNKNOWN; rangep->dl_protection.dl_max = DL_UNKNOWN; rangep->dl_residual_error = DL_UNKNOWN; /* * Specify the supported range of priorities. */ rangep->dl_priority.dl_min = 0; rangep->dl_priority.dl_max = (1 << VLAN_PRI_SIZE) - 1; dlp->dl_qos_offset = (uintptr_t)selp - (uintptr_t)dlp; dlp->dl_qos_length = sizeof (dl_qos_cl_sel1_t); selp->dl_qos_type = DL_QOS_CL_SEL1; selp->dl_trans_delay = DL_UNKNOWN; selp->dl_protection = DL_UNKNOWN; selp->dl_residual_error = DL_UNKNOWN; /* * Specify the current priority (which can be changed by * the DL_UDQOS_REQ primitive). */ selp->dl_priority = dsp->ds_pri; dlp->dl_addr_length = addr_length + sizeof (uint16_t); if (dsp->ds_dlstate == DL_IDLE) { /* * The stream is bound. Therefore we can formulate a valid * DLSAP address. */ dlp->dl_addr_offset = (uintptr_t)addr - (uintptr_t)dlp; if (addr_length > 0) bcopy(dsp->ds_curr_addr, addr, addr_length); *(uint16_t *)(addr + addr_length) = dsp->ds_sap; } done: ASSERT(IMPLY(dlp->dl_qos_offset != 0, dlp->dl_qos_length != 0)); ASSERT(IMPLY(dlp->dl_qos_range_offset != 0, dlp->dl_qos_range_length != 0)); ASSERT(IMPLY(dlp->dl_addr_offset != 0, dlp->dl_addr_length != 0)); ASSERT(IMPLY(dlp->dl_brdcst_addr_offset != 0, dlp->dl_brdcst_addr_length != 0)); rw_exit(&dsp->ds_lock); qreply(q, mp); return (B_TRUE); } /* * DL_ATTACH_REQ */ static boolean_t proto_attach_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_attach_req_t *dlp = (dl_attach_req_t *)udlp; int err = 0; t_uscalar_t dl_err; queue_t *q = dsp->ds_wq; rw_enter(&dsp->ds_lock, RW_WRITER); if (MBLKL(mp) < sizeof (dl_attach_req_t) || dlp->dl_ppa < 0 || dsp->ds_style == DL_STYLE1) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_dlstate != DL_UNATTACHED) { dl_err = DL_OUTSTATE; goto failed; } dsp->ds_dlstate = DL_ATTACH_PENDING; err = dld_str_attach(dsp, dlp->dl_ppa); if (err != 0) { switch (err) { case ENOENT: dl_err = DL_BADPPA; err = 0; break; default: dl_err = DL_SYSERR; break; } dsp->ds_dlstate = DL_UNATTACHED; goto failed; } ASSERT(dsp->ds_dlstate == DL_UNBOUND); rw_exit(&dsp->ds_lock); dlokack(q, mp, DL_ATTACH_REQ); return (B_TRUE); failed: rw_exit(&dsp->ds_lock); dlerrorack(q, mp, DL_ATTACH_REQ, dl_err, (t_uscalar_t)err); return (B_FALSE); } /*ARGSUSED*/ static boolean_t proto_detach_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { queue_t *q = dsp->ds_wq; t_uscalar_t dl_err; rw_enter(&dsp->ds_lock, RW_WRITER); if (MBLKL(mp) < sizeof (dl_detach_req_t)) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_dlstate != DL_UNBOUND) { dl_err = DL_OUTSTATE; goto failed; } if (dsp->ds_style == DL_STYLE1) { dl_err = DL_BADPRIM; goto failed; } dsp->ds_dlstate = DL_DETACH_PENDING; dld_str_detach(dsp); rw_exit(&dsp->ds_lock); dlokack(dsp->ds_wq, mp, DL_DETACH_REQ); return (B_TRUE); failed: rw_exit(&dsp->ds_lock); dlerrorack(q, mp, DL_DETACH_REQ, dl_err, 0); return (B_FALSE); } /* * DL_BIND_REQ */ static boolean_t proto_bind_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_bind_req_t *dlp = (dl_bind_req_t *)udlp; int err = 0; uint8_t dlsap_addr[MAXMACADDRLEN + sizeof (uint16_t)]; uint_t dlsap_addr_length; t_uscalar_t dl_err; t_scalar_t sap; queue_t *q = dsp->ds_wq; /* * Because control message processing is serialized, we don't need * to hold any locks to read any fields of dsp; we only need ds_lock * to update the ds_dlstate, ds_sap and ds_passivestate fields. */ if (MBLKL(mp) < sizeof (dl_bind_req_t)) { dl_err = DL_BADPRIM; goto failed; } if (dlp->dl_xidtest_flg != 0) { dl_err = DL_NOAUTO; goto failed; } if (dlp->dl_service_mode != DL_CLDLS) { dl_err = DL_UNSUPPORTED; goto failed; } if (dsp->ds_dlstate != DL_UNBOUND) { dl_err = DL_OUTSTATE; goto failed; } if (dsp->ds_passivestate == DLD_UNINITIALIZED && !dls_active_set(dsp->ds_dc)) { dl_err = DL_SYSERR; err = EBUSY; goto failed; } /* * Set the receive callback. */ dls_rx_set(dsp->ds_dc, (dsp->ds_mode == DLD_RAW) ? dld_str_rx_raw : dld_str_rx_unitdata, dsp); /* * Bind the channel such that it can receive packets. */ sap = dlp->dl_sap; err = dls_bind(dsp->ds_dc, sap); if (err != 0) { switch (err) { case EINVAL: dl_err = DL_BADADDR; err = 0; break; default: dl_err = DL_SYSERR; break; } if (dsp->ds_passivestate == DLD_UNINITIALIZED) dls_active_clear(dsp->ds_dc); goto failed; } /* * Copy in MAC address. */ dlsap_addr_length = dsp->ds_mip->mi_addr_length; bcopy(dsp->ds_curr_addr, dlsap_addr, dlsap_addr_length); /* * Copy in the SAP. */ *(uint16_t *)(dlsap_addr + dlsap_addr_length) = sap; dlsap_addr_length += sizeof (uint16_t); rw_enter(&dsp->ds_lock, RW_WRITER); dsp->ds_dlstate = DL_IDLE; if (dsp->ds_passivestate == DLD_UNINITIALIZED) dsp->ds_passivestate = DLD_ACTIVE; dsp->ds_sap = sap; if (dsp->ds_mode == DLD_FASTPATH) dsp->ds_tx = str_mdata_fastpath_put; else if (dsp->ds_mode == DLD_RAW) dsp->ds_tx = str_mdata_raw_put; dsp->ds_unitdata_tx = dld_wput_proto_data; rw_exit(&dsp->ds_lock); dlbindack(q, mp, sap, dlsap_addr, dlsap_addr_length, 0, 0); return (B_TRUE); failed: dlerrorack(q, mp, DL_BIND_REQ, dl_err, (t_uscalar_t)err); return (B_FALSE); } /* * DL_UNBIND_REQ */ /*ARGSUSED*/ static boolean_t proto_unbind_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { queue_t *q = dsp->ds_wq; t_uscalar_t dl_err; if (MBLKL(mp) < sizeof (dl_unbind_req_t)) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_dlstate != DL_IDLE) { dl_err = DL_OUTSTATE; goto failed; } /* * Flush any remaining packets scheduled for transmission. */ dld_tx_flush(dsp); /* * Unbind the channel to stop packets being received. */ dls_unbind(dsp->ds_dc); /* * Clear the receive callback. */ dls_rx_set(dsp->ds_dc, NULL, NULL); rw_enter(&dsp->ds_lock, RW_WRITER); /* * Disable polling mode, if it is enabled. */ proto_poll_disable(dsp); /* * If soft rings were enabled, the workers should be quiesced. */ dls_soft_ring_disable(dsp->ds_dc); /* * Clear LSO flags. */ dsp->ds_lso = B_FALSE; dsp->ds_lso_max = 0; /* * Set the mode back to the default (unitdata). */ dsp->ds_mode = DLD_UNITDATA; dsp->ds_dlstate = DL_UNBOUND; DLD_TX_QUIESCE(dsp); rw_exit(&dsp->ds_lock); dlokack(q, mp, DL_UNBIND_REQ); return (B_TRUE); failed: dlerrorack(q, mp, DL_UNBIND_REQ, dl_err, 0); return (B_FALSE); } /* * DL_PROMISCON_REQ */ static boolean_t proto_promiscon_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_promiscon_req_t *dlp = (dl_promiscon_req_t *)udlp; int err = 0; t_uscalar_t dl_err; uint32_t promisc; queue_t *q = dsp->ds_wq; /* * Because control message processing is serialized, we don't need * to hold any locks to read any fields of dsp; we only need ds_lock * to update the ds_promisc and ds_passivestate fields. */ if (MBLKL(mp) < sizeof (dl_promiscon_req_t)) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } switch (dlp->dl_level) { case DL_PROMISC_SAP: promisc = DLS_PROMISC_SAP; break; case DL_PROMISC_MULTI: promisc = DLS_PROMISC_MULTI; break; case DL_PROMISC_PHYS: promisc = DLS_PROMISC_PHYS; break; default: dl_err = DL_NOTSUPPORTED; goto failed; } if (dsp->ds_passivestate == DLD_UNINITIALIZED && !dls_active_set(dsp->ds_dc)) { dl_err = DL_SYSERR; err = EBUSY; goto failed; } /* * Adjust channel promiscuity. */ promisc = (dsp->ds_promisc | promisc); err = dls_promisc(dsp->ds_dc, promisc); if (err != 0) { dl_err = DL_SYSERR; if (dsp->ds_passivestate == DLD_UNINITIALIZED) dls_active_clear(dsp->ds_dc); goto failed; } rw_enter(&dsp->ds_lock, RW_WRITER); if (dsp->ds_passivestate == DLD_UNINITIALIZED) dsp->ds_passivestate = DLD_ACTIVE; dsp->ds_promisc = promisc; rw_exit(&dsp->ds_lock); dlokack(q, mp, DL_PROMISCON_REQ); return (B_TRUE); failed: dlerrorack(q, mp, DL_PROMISCON_REQ, dl_err, (t_uscalar_t)err); return (B_FALSE); } /* * DL_PROMISCOFF_REQ */ static boolean_t proto_promiscoff_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_promiscoff_req_t *dlp = (dl_promiscoff_req_t *)udlp; int err = 0; t_uscalar_t dl_err; uint32_t promisc; queue_t *q = dsp->ds_wq; /* * Because control messages processing is serialized, we don't need * to hold any lock to read any field of dsp; we hold ds_lock to * update the ds_promisc field. */ if (MBLKL(mp) < sizeof (dl_promiscoff_req_t)) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } switch (dlp->dl_level) { case DL_PROMISC_SAP: promisc = DLS_PROMISC_SAP; break; case DL_PROMISC_MULTI: promisc = DLS_PROMISC_MULTI; break; case DL_PROMISC_PHYS: promisc = DLS_PROMISC_PHYS; break; default: dl_err = DL_NOTSUPPORTED; goto failed; } if (!(dsp->ds_promisc & promisc)) { dl_err = DL_NOTENAB; goto failed; } promisc = (dsp->ds_promisc & ~promisc); err = dls_promisc(dsp->ds_dc, promisc); if (err != 0) { dl_err = DL_SYSERR; goto failed; } rw_enter(&dsp->ds_lock, RW_WRITER); dsp->ds_promisc = promisc; rw_exit(&dsp->ds_lock); dlokack(q, mp, DL_PROMISCOFF_REQ); return (B_TRUE); failed: dlerrorack(q, mp, DL_PROMISCOFF_REQ, dl_err, (t_uscalar_t)err); return (B_FALSE); } /* * DL_ENABMULTI_REQ */ static boolean_t proto_enabmulti_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_enabmulti_req_t *dlp = (dl_enabmulti_req_t *)udlp; int err = 0; t_uscalar_t dl_err; queue_t *q = dsp->ds_wq; /* * Because control messages processing is serialized, we don't need * to hold any lock to read any field of dsp; we hold ds_lock to * update the ds_passivestate field. */ if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } if (MBLKL(mp) < sizeof (dl_enabmulti_req_t) || !MBLKIN(mp, dlp->dl_addr_offset, dlp->dl_addr_length) || dlp->dl_addr_length != dsp->ds_mip->mi_addr_length) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_passivestate == DLD_UNINITIALIZED && !dls_active_set(dsp->ds_dc)) { dl_err = DL_SYSERR; err = EBUSY; goto failed; } err = dls_multicst_add(dsp->ds_dc, mp->b_rptr + dlp->dl_addr_offset); if (err != 0) { switch (err) { case EINVAL: dl_err = DL_BADADDR; err = 0; break; case ENOSPC: dl_err = DL_TOOMANY; err = 0; break; default: dl_err = DL_SYSERR; break; } if (dsp->ds_passivestate == DLD_UNINITIALIZED) dls_active_clear(dsp->ds_dc); goto failed; } rw_enter(&dsp->ds_lock, RW_WRITER); if (dsp->ds_passivestate == DLD_UNINITIALIZED) dsp->ds_passivestate = DLD_ACTIVE; rw_exit(&dsp->ds_lock); dlokack(q, mp, DL_ENABMULTI_REQ); return (B_TRUE); failed: dlerrorack(q, mp, DL_ENABMULTI_REQ, dl_err, (t_uscalar_t)err); return (B_FALSE); } /* * DL_DISABMULTI_REQ */ static boolean_t proto_disabmulti_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_disabmulti_req_t *dlp = (dl_disabmulti_req_t *)udlp; int err = 0; t_uscalar_t dl_err; queue_t *q = dsp->ds_wq; /* * Because control messages processing is serialized, we don't need * to hold any lock to read any field of dsp. */ if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } if (MBLKL(mp) < sizeof (dl_disabmulti_req_t) || !MBLKIN(mp, dlp->dl_addr_offset, dlp->dl_addr_length) || dlp->dl_addr_length != dsp->ds_mip->mi_addr_length) { dl_err = DL_BADPRIM; goto failed; } err = dls_multicst_remove(dsp->ds_dc, mp->b_rptr + dlp->dl_addr_offset); if (err != 0) { switch (err) { case EINVAL: dl_err = DL_BADADDR; err = 0; break; case ENOENT: dl_err = DL_NOTENAB; err = 0; break; default: dl_err = DL_SYSERR; break; } goto failed; } dlokack(q, mp, DL_DISABMULTI_REQ); return (B_TRUE); failed: dlerrorack(q, mp, DL_DISABMULTI_REQ, dl_err, (t_uscalar_t)err); return (B_FALSE); } /* * DL_PHYS_ADDR_REQ */ static boolean_t proto_physaddr_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_phys_addr_req_t *dlp = (dl_phys_addr_req_t *)udlp; queue_t *q = dsp->ds_wq; t_uscalar_t dl_err; char *addr; uint_t addr_length; rw_enter(&dsp->ds_lock, RW_READER); if (MBLKL(mp) < sizeof (dl_phys_addr_req_t)) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } if (dlp->dl_addr_type != DL_CURR_PHYS_ADDR && dlp->dl_addr_type != DL_FACT_PHYS_ADDR) { dl_err = DL_UNSUPPORTED; goto failed; } addr_length = dsp->ds_mip->mi_addr_length; addr = kmem_alloc(addr_length, KM_NOSLEEP); if (addr == NULL) { rw_exit(&dsp->ds_lock); merror(q, mp, ENOSR); return (B_FALSE); } /* * Copy out the address before we drop the lock; we don't * want to call dlphysaddrack() while holding ds_lock. */ bcopy((dlp->dl_addr_type == DL_CURR_PHYS_ADDR) ? dsp->ds_curr_addr : dsp->ds_fact_addr, addr, addr_length); rw_exit(&dsp->ds_lock); dlphysaddrack(q, mp, addr, (t_uscalar_t)addr_length); kmem_free(addr, addr_length); return (B_TRUE); failed: rw_exit(&dsp->ds_lock); dlerrorack(q, mp, DL_PHYS_ADDR_REQ, dl_err, 0); return (B_FALSE); } /* * DL_SET_PHYS_ADDR_REQ */ static boolean_t proto_setphysaddr_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_set_phys_addr_req_t *dlp = (dl_set_phys_addr_req_t *)udlp; int err = 0; t_uscalar_t dl_err; queue_t *q = dsp->ds_wq; /* * Because control message processing is serialized, we don't need * to hold any locks to read any fields of dsp; we only need ds_lock * to update the ds_passivestate field. */ if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } if (MBLKL(mp) < sizeof (dl_set_phys_addr_req_t) || !MBLKIN(mp, dlp->dl_addr_offset, dlp->dl_addr_length) || dlp->dl_addr_length != dsp->ds_mip->mi_addr_length) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_passivestate == DLD_UNINITIALIZED && !dls_active_set(dsp->ds_dc)) { dl_err = DL_SYSERR; err = EBUSY; goto failed; } err = mac_unicst_set(dsp->ds_mh, mp->b_rptr + dlp->dl_addr_offset); if (err != 0) { switch (err) { case EINVAL: dl_err = DL_BADADDR; err = 0; break; default: dl_err = DL_SYSERR; break; } if (dsp->ds_passivestate == DLD_UNINITIALIZED) dls_active_clear(dsp->ds_dc); goto failed; } rw_enter(&dsp->ds_lock, RW_WRITER); if (dsp->ds_passivestate == DLD_UNINITIALIZED) dsp->ds_passivestate = DLD_ACTIVE; rw_exit(&dsp->ds_lock); dlokack(q, mp, DL_SET_PHYS_ADDR_REQ); return (B_TRUE); failed: dlerrorack(q, mp, DL_SET_PHYS_ADDR_REQ, dl_err, (t_uscalar_t)err); return (B_FALSE); } /* * DL_UDQOS_REQ */ static boolean_t proto_udqos_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_udqos_req_t *dlp = (dl_udqos_req_t *)udlp; dl_qos_cl_sel1_t *selp; int off, len; t_uscalar_t dl_err; queue_t *q = dsp->ds_wq; off = dlp->dl_qos_offset; len = dlp->dl_qos_length; if (MBLKL(mp) < sizeof (dl_udqos_req_t) || !MBLKIN(mp, off, len)) { dl_err = DL_BADPRIM; goto failed; } selp = (dl_qos_cl_sel1_t *)(mp->b_rptr + off); if (selp->dl_qos_type != DL_QOS_CL_SEL1) { dl_err = DL_BADQOSTYPE; goto failed; } if (selp->dl_priority > (1 << VLAN_PRI_SIZE) - 1 || selp->dl_priority < 0) { dl_err = DL_BADQOSPARAM; goto failed; } if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } rw_enter(&dsp->ds_lock, RW_WRITER); dsp->ds_pri = selp->dl_priority; rw_exit(&dsp->ds_lock); dlokack(q, mp, DL_UDQOS_REQ); return (B_TRUE); failed: dlerrorack(q, mp, DL_UDQOS_REQ, dl_err, 0); return (B_FALSE); } static boolean_t check_ip_above(queue_t *q) { queue_t *next_q; boolean_t ret = B_TRUE; claimstr(q); next_q = q->q_next; if (strcmp(next_q->q_qinfo->qi_minfo->mi_idname, "ip") != 0) ret = B_FALSE; releasestr(q); return (ret); } /* * DL_CAPABILITY_REQ */ /*ARGSUSED*/ static boolean_t proto_capability_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_capability_req_t *dlp = (dl_capability_req_t *)udlp; dl_capability_sub_t *sp; size_t size, len; offset_t off, end; t_uscalar_t dl_err; queue_t *q = dsp->ds_wq; rw_enter(&dsp->ds_lock, RW_WRITER); if (MBLKL(mp) < sizeof (dl_capability_req_t)) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } /* * This request is overloaded. If there are no requested capabilities * then we just want to acknowledge with all the capabilities we * support. Otherwise we enable the set of capabilities requested. */ if (dlp->dl_sub_length == 0) { /* callee drops lock */ return (proto_capability_advertise(dsp, mp)); } if (!MBLKIN(mp, dlp->dl_sub_offset, dlp->dl_sub_length)) { dl_err = DL_BADPRIM; goto failed; } dlp->dl_primitive = DL_CAPABILITY_ACK; off = dlp->dl_sub_offset; len = dlp->dl_sub_length; /* * Walk the list of capabilities to be enabled. */ for (end = off + len; off < end; ) { sp = (dl_capability_sub_t *)(mp->b_rptr + off); size = sizeof (dl_capability_sub_t) + sp->dl_length; if (off + size > end || !IS_P2ALIGNED(off, sizeof (uint32_t))) { dl_err = DL_BADPRIM; goto failed; } switch (sp->dl_cap) { /* * TCP/IP checksum offload to hardware. */ case DL_CAPAB_HCKSUM: { dl_capab_hcksum_t *hcksump; dl_capab_hcksum_t hcksum; hcksump = (dl_capab_hcksum_t *)&sp[1]; /* * Copy for alignment. */ bcopy(hcksump, &hcksum, sizeof (dl_capab_hcksum_t)); dlcapabsetqid(&(hcksum.hcksum_mid), dsp->ds_rq); bcopy(&hcksum, hcksump, sizeof (dl_capab_hcksum_t)); break; } /* * Large segment offload. (LSO) */ case DL_CAPAB_LSO: { dl_capab_lso_t *lsop; dl_capab_lso_t lso; lsop = (dl_capab_lso_t *)&sp[1]; /* * Copy for alignment. */ bcopy(lsop, &lso, sizeof (dl_capab_lso_t)); dlcapabsetqid(&(lso.lso_mid), dsp->ds_rq); bcopy(&lso, lsop, sizeof (dl_capab_lso_t)); break; } /* * IP polling interface. */ case DL_CAPAB_POLL: { dl_capab_dls_t *pollp; dl_capab_dls_t poll; pollp = (dl_capab_dls_t *)&sp[1]; /* * Copy for alignment. */ bcopy(pollp, &poll, sizeof (dl_capab_dls_t)); switch (poll.dls_flags) { default: /*FALLTHRU*/ case POLL_DISABLE: proto_poll_disable(dsp); break; case POLL_ENABLE: ASSERT(!(dld_opt & DLD_OPT_NO_POLL)); /* * Make sure polling is disabled. */ proto_poll_disable(dsp); /* * Note that only IP should enable POLL. */ if (check_ip_above(dsp->ds_rq) && proto_poll_enable(dsp, &poll)) { bzero(&poll, sizeof (dl_capab_dls_t)); poll.dls_flags = POLL_ENABLE; } else { bzero(&poll, sizeof (dl_capab_dls_t)); poll.dls_flags = POLL_DISABLE; } break; } dlcapabsetqid(&(poll.dls_mid), dsp->ds_rq); bcopy(&poll, pollp, sizeof (dl_capab_dls_t)); break; } case DL_CAPAB_SOFT_RING: { dl_capab_dls_t *soft_ringp; dl_capab_dls_t soft_ring; soft_ringp = (dl_capab_dls_t *)&sp[1]; /* * Copy for alignment. */ bcopy(soft_ringp, &soft_ring, sizeof (dl_capab_dls_t)); switch (soft_ring.dls_flags) { default: /*FALLTHRU*/ case SOFT_RING_DISABLE: proto_soft_ring_disable(dsp); break; case SOFT_RING_ENABLE: ASSERT(!(dld_opt & DLD_OPT_NO_SOFTRING)); /* * Make sure soft_ring is disabled. */ proto_soft_ring_disable(dsp); /* * Note that only IP can enable soft ring. */ if (check_ip_above(dsp->ds_rq) && proto_soft_ring_enable(dsp, &soft_ring)) { bzero(&soft_ring, sizeof (dl_capab_dls_t)); soft_ring.dls_flags = SOFT_RING_ENABLE; } else { bzero(&soft_ring, sizeof (dl_capab_dls_t)); soft_ring.dls_flags = SOFT_RING_DISABLE; } break; } dlcapabsetqid(&(soft_ring.dls_mid), dsp->ds_rq); bcopy(&soft_ring, soft_ringp, sizeof (dl_capab_dls_t)); break; } default: break; } off += size; } rw_exit(&dsp->ds_lock); qreply(q, mp); return (B_TRUE); failed: rw_exit(&dsp->ds_lock); dlerrorack(q, mp, DL_CAPABILITY_REQ, dl_err, 0); return (B_FALSE); } /* * DL_NOTIFY_REQ */ static boolean_t proto_notify_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { dl_notify_req_t *dlp = (dl_notify_req_t *)udlp; t_uscalar_t dl_err; queue_t *q = dsp->ds_wq; uint_t note = DL_NOTE_PROMISC_ON_PHYS | DL_NOTE_PROMISC_OFF_PHYS | DL_NOTE_PHYS_ADDR | DL_NOTE_LINK_UP | DL_NOTE_LINK_DOWN | DL_NOTE_CAPAB_RENEG | DL_NOTE_SPEED; rw_enter(&dsp->ds_lock, RW_WRITER); if (MBLKL(mp) < sizeof (dl_notify_req_t)) { dl_err = DL_BADPRIM; goto failed; } if (dsp->ds_dlstate == DL_UNATTACHED || DL_ACK_PENDING(dsp->ds_dlstate)) { dl_err = DL_OUTSTATE; goto failed; } note &= ~(mac_no_notification(dsp->ds_mh)); /* * Cache the notifications that are being enabled. */ dsp->ds_notifications = dlp->dl_notifications & note; rw_exit(&dsp->ds_lock); /* * The ACK carries all notifications regardless of which set is * being enabled. */ dlnotifyack(q, mp, note); /* * Solicit DL_NOTIFY_IND messages for each enabled notification. */ rw_enter(&dsp->ds_lock, RW_READER); if (dsp->ds_notifications != 0) { rw_exit(&dsp->ds_lock); dld_str_notify_ind(dsp); } else { rw_exit(&dsp->ds_lock); } return (B_TRUE); failed: rw_exit(&dsp->ds_lock); dlerrorack(q, mp, DL_NOTIFY_REQ, dl_err, 0); return (B_FALSE); } /* * DL_UNITDATA_REQ */ void dld_wput_proto_data(dld_str_t *dsp, mblk_t *mp) { queue_t *q = dsp->ds_wq; dl_unitdata_req_t *dlp = (dl_unitdata_req_t *)mp->b_rptr; off_t off; size_t len, size; const uint8_t *addr; uint16_t sap; uint_t addr_length; mblk_t *bp, *payload; uint32_t start, stuff, end, value, flags; t_uscalar_t dl_err; uint_t max_sdu; if (MBLKL(mp) < sizeof (dl_unitdata_req_t) || mp->b_cont == NULL) { dl_err = DL_BADPRIM; goto failed; } addr_length = dsp->ds_mip->mi_addr_length; off = dlp->dl_dest_addr_offset; len = dlp->dl_dest_addr_length; if (!MBLKIN(mp, off, len) || !IS_P2ALIGNED(off, sizeof (uint16_t))) { dl_err = DL_BADPRIM; goto failed; } if (len != addr_length + sizeof (uint16_t)) { dl_err = DL_BADADDR; goto failed; } addr = mp->b_rptr + off; sap = *(uint16_t *)(mp->b_rptr + off + addr_length); /* * Check the length of the packet and the block types. */ size = 0; payload = mp->b_cont; for (bp = payload; bp != NULL; bp = bp->b_cont) { if (DB_TYPE(bp) != M_DATA) goto baddata; size += MBLKL(bp); } mac_sdu_get(dsp->ds_mh, NULL, &max_sdu); if (size > max_sdu) goto baddata; /* * Build a packet header. */ if ((bp = dls_header(dsp->ds_dc, addr, sap, dlp->dl_priority.dl_max, &payload)) == NULL) { dl_err = DL_BADADDR; goto failed; } /* * We no longer need the M_PROTO header, so free it. */ freeb(mp); /* * Transfer the checksum offload information if it is present. */ hcksum_retrieve(payload, NULL, NULL, &start, &stuff, &end, &value, &flags); (void) hcksum_assoc(bp, NULL, NULL, start, stuff, end, value, flags, 0); /* * Link the payload onto the new header. */ ASSERT(bp->b_cont == NULL); bp->b_cont = payload; dld_tx_single(dsp, bp); return; failed: dlerrorack(q, mp, DL_UNITDATA_REQ, dl_err, 0); return; baddata: dluderrorind(q, mp, (void *)addr, len, DL_BADDATA, 0); } /* * DL_PASSIVE_REQ */ /* ARGSUSED */ static boolean_t proto_passive_req(dld_str_t *dsp, union DL_primitives *udlp, mblk_t *mp) { t_uscalar_t dl_err; /* * READER lock is enough because ds_passivestate can only be changed * as the result of non-data message processing. */ rw_enter(&dsp->ds_lock, RW_READER); /* * If we've already become active by issuing an active primitive, * then it's too late to try to become passive. */ if (dsp->ds_passivestate == DLD_ACTIVE) { dl_err = DL_OUTSTATE; goto failed; } if (MBLKL(mp) < sizeof (dl_passive_req_t)) { dl_err = DL_BADPRIM; goto failed; } dsp->ds_passivestate = DLD_PASSIVE; rw_exit(&dsp->ds_lock); dlokack(dsp->ds_wq, mp, DL_PASSIVE_REQ); return (B_TRUE); failed: rw_exit(&dsp->ds_lock); dlerrorack(dsp->ds_wq, mp, DL_PASSIVE_REQ, dl_err, 0); return (B_FALSE); } /* * Catch-all handler. */ static boolean_t proto_req(dld_str_t *dsp, union DL_primitives *dlp, mblk_t *mp) { dlerrorack(dsp->ds_wq, mp, dlp->dl_primitive, DL_UNSUPPORTED, 0); return (B_FALSE); } static void proto_poll_disable(dld_str_t *dsp) { mac_handle_t mh; ASSERT(RW_WRITE_HELD(&dsp->ds_lock)); if (!dsp->ds_polling) return; /* * It should be impossible to enable raw mode if polling is turned on. */ ASSERT(dsp->ds_mode != DLD_RAW); /* * Reset the resource_add callback. */ mh = dls_mac(dsp->ds_dc); mac_resource_set(mh, NULL, NULL); mac_resources(mh); /* * Set receive function back to default. */ dls_rx_set(dsp->ds_dc, (dsp->ds_mode == DLD_FASTPATH) ? dld_str_rx_fastpath : dld_str_rx_unitdata, dsp); /* * Note that polling is disabled. */ dsp->ds_polling = B_FALSE; } static boolean_t proto_poll_enable(dld_str_t *dsp, dl_capab_dls_t *pollp) { mac_handle_t mh; ASSERT(RW_WRITE_HELD(&dsp->ds_lock)); ASSERT(!dsp->ds_polling); /* * We cannot enable polling if raw mode * has been enabled. */ if (dsp->ds_mode == DLD_RAW) return (B_FALSE); mh = dls_mac(dsp->ds_dc); /* * Register resources. */ mac_resource_set(mh, (mac_resource_add_t)pollp->dls_ring_add, (void *)pollp->dls_rx_handle); mac_resources(mh); /* * Set the upstream receive function. */ dls_rx_set(dsp->ds_dc, (dls_rx_t)pollp->dls_rx, (void *)pollp->dls_rx_handle); /* * Note that polling is enabled. This prevents further DLIOCHDRINFO * ioctls from overwriting the receive function pointer. */ dsp->ds_polling = B_TRUE; return (B_TRUE); } static void proto_soft_ring_disable(dld_str_t *dsp) { ASSERT(RW_WRITE_HELD(&dsp->ds_lock)); if (!dsp->ds_soft_ring) return; /* * It should be impossible to enable raw mode if soft_ring is turned on. */ ASSERT(dsp->ds_mode != DLD_RAW); proto_change_soft_ring_fanout(dsp, SOFT_RING_NONE); /* * Note that fanout is disabled. */ dsp->ds_soft_ring = B_FALSE; } static boolean_t proto_soft_ring_enable(dld_str_t *dsp, dl_capab_dls_t *soft_ringp) { ASSERT(RW_WRITE_HELD(&dsp->ds_lock)); ASSERT(!dsp->ds_soft_ring); /* * We cannot enable soft_ring if raw mode * has been enabled. */ if (dsp->ds_mode == DLD_RAW) return (B_FALSE); if (dls_soft_ring_enable(dsp->ds_dc, soft_ringp) == B_FALSE) return (B_FALSE); dsp->ds_soft_ring = B_TRUE; return (B_TRUE); } static void proto_change_soft_ring_fanout(dld_str_t *dsp, int type) { dls_channel_t dc = dsp->ds_dc; if (type == SOFT_RING_NONE) { dls_rx_set(dc, (dsp->ds_mode == DLD_FASTPATH) ? dld_str_rx_fastpath : dld_str_rx_unitdata, dsp); } else if (type != SOFT_RING_NONE) { dls_rx_set(dc, (dls_rx_t)dls_soft_ring_fanout, dc); } } /* * DL_CAPABILITY_ACK/DL_ERROR_ACK */ static boolean_t proto_capability_advertise(dld_str_t *dsp, mblk_t *mp) { dl_capability_ack_t *dlap; dl_capability_sub_t *dlsp; size_t subsize; dl_capab_dls_t poll; dl_capab_dls_t soft_ring; dl_capab_hcksum_t hcksum; dl_capab_lso_t lso; dl_capab_zerocopy_t zcopy; uint8_t *ptr; queue_t *q = dsp->ds_wq; mblk_t *mp1; boolean_t is_vlan = (dsp->ds_vid != VLAN_ID_NONE); boolean_t poll_capable = B_FALSE; boolean_t soft_ring_capable = B_FALSE; boolean_t hcksum_capable = B_FALSE; boolean_t zcopy_capable = B_FALSE; boolean_t lso_capable = B_FALSE; mac_capab_lso_t mac_lso; ASSERT(RW_WRITE_HELD(&dsp->ds_lock)); /* * Initially assume no capabilities. */ subsize = 0; /* * Check if soft ring can be enabled on this interface. Note that we * do not enable softring on any legacy drivers, because doing that * would hurt the performance if the legacy driver has its own taskq * implementation. Further, most high-performance legacy drivers do * have their own taskq implementation. * * If advertising DL_CAPAB_SOFT_RING has not been explicitly disabled, * reserve space for that capability. */ if (!mac_is_legacy(dsp->ds_mh) && !(dld_opt & DLD_OPT_NO_SOFTRING)) { soft_ring_capable = B_TRUE; subsize += sizeof (dl_capability_sub_t) + sizeof (dl_capab_dls_t); } /* * Check if polling can be enabled on this interface. * If advertising DL_CAPAB_POLL has not been explicitly disabled * then reserve space for that capability. */ if (mac_capab_get(dsp->ds_mh, MAC_CAPAB_POLL, NULL) && !(dld_opt & DLD_OPT_NO_POLL) && !is_vlan) { poll_capable = B_TRUE; subsize += sizeof (dl_capability_sub_t) + sizeof (dl_capab_dls_t); } /* * Check if checksum offload is supported on this MAC. Don't * advertise DL_CAPAB_HCKSUM if the underlying MAC is VLAN incapable, * since it might not be able to do the hardware checksum offload * with the correct offset. */ bzero(&hcksum, sizeof (dl_capab_hcksum_t)); if ((!is_vlan || (!mac_capab_get(dsp->ds_mh, MAC_CAPAB_NO_NATIVEVLAN, NULL))) && mac_capab_get(dsp->ds_mh, MAC_CAPAB_HCKSUM, &hcksum.hcksum_txflags)) { if (hcksum.hcksum_txflags != 0) { hcksum_capable = B_TRUE; subsize += sizeof (dl_capability_sub_t) + sizeof (dl_capab_hcksum_t); } } /* * Check if LSO is supported on this MAC, then reserve space for * the DL_CAPAB_LSO capability. */ if (mac_capab_get(dsp->ds_mh, MAC_CAPAB_LSO, &mac_lso)) { lso_capable = B_TRUE; subsize += sizeof (dl_capability_sub_t) + sizeof (dl_capab_lso_t); } /* * Check if zerocopy is supported on this interface. * If advertising DL_CAPAB_ZEROCOPY has not been explicitly disabled * then reserve space for that capability. */ if (!mac_capab_get(dsp->ds_mh, MAC_CAPAB_NO_ZCOPY, NULL) && !(dld_opt & DLD_OPT_NO_ZEROCOPY)) { zcopy_capable = B_TRUE; subsize += sizeof (dl_capability_sub_t) + sizeof (dl_capab_zerocopy_t); } /* * If there are no capabilities to advertise or if we * can't allocate a response, send a DL_ERROR_ACK. */ if ((mp1 = reallocb(mp, sizeof (dl_capability_ack_t) + subsize, 0)) == NULL) { rw_exit(&dsp->ds_lock); dlerrorack(q, mp, DL_CAPABILITY_REQ, DL_NOTSUPPORTED, 0); return (B_FALSE); } mp = mp1; DB_TYPE(mp) = M_PROTO; mp->b_wptr = mp->b_rptr + sizeof (dl_capability_ack_t) + subsize; bzero(mp->b_rptr, MBLKL(mp)); dlap = (dl_capability_ack_t *)mp->b_rptr; dlap->dl_primitive = DL_CAPABILITY_ACK; dlap->dl_sub_offset = sizeof (dl_capability_ack_t); dlap->dl_sub_length = subsize; ptr = (uint8_t *)&dlap[1]; /* * IP polling interface. */ if (poll_capable) { /* * Attempt to disable just in case this is a re-negotiation; * READER lock is enough because ds_polling can only be * changed as the result of non-data message processing. */ proto_poll_disable(dsp); dlsp = (dl_capability_sub_t *)ptr; dlsp->dl_cap = DL_CAPAB_POLL; dlsp->dl_length = sizeof (dl_capab_dls_t); ptr += sizeof (dl_capability_sub_t); bzero(&poll, sizeof (dl_capab_dls_t)); poll.dls_version = POLL_VERSION_1; poll.dls_flags = POLL_CAPABLE; poll.dls_tx_handle = (uintptr_t)dsp; poll.dls_tx = (uintptr_t)str_mdata_fastpath_put; dlcapabsetqid(&(poll.dls_mid), dsp->ds_rq); bcopy(&poll, ptr, sizeof (dl_capab_dls_t)); ptr += sizeof (dl_capab_dls_t); } if (soft_ring_capable) { dlsp = (dl_capability_sub_t *)ptr; dlsp->dl_cap = DL_CAPAB_SOFT_RING; dlsp->dl_length = sizeof (dl_capab_dls_t); ptr += sizeof (dl_capability_sub_t); bzero(&soft_ring, sizeof (dl_capab_dls_t)); soft_ring.dls_version = SOFT_RING_VERSION_1; soft_ring.dls_flags = SOFT_RING_CAPABLE; soft_ring.dls_tx_handle = (uintptr_t)dsp; soft_ring.dls_tx = (uintptr_t)str_mdata_fastpath_put; soft_ring.dls_ring_change_status = (uintptr_t)proto_change_soft_ring_fanout; soft_ring.dls_ring_bind = (uintptr_t)soft_ring_bind; soft_ring.dls_ring_unbind = (uintptr_t)soft_ring_unbind; dlcapabsetqid(&(soft_ring.dls_mid), dsp->ds_rq); bcopy(&soft_ring, ptr, sizeof (dl_capab_dls_t)); ptr += sizeof (dl_capab_dls_t); } /* * TCP/IP checksum offload. */ if (hcksum_capable) { dlsp = (dl_capability_sub_t *)ptr; dlsp->dl_cap = DL_CAPAB_HCKSUM; dlsp->dl_length = sizeof (dl_capab_hcksum_t); ptr += sizeof (dl_capability_sub_t); hcksum.hcksum_version = HCKSUM_VERSION_1; dlcapabsetqid(&(hcksum.hcksum_mid), dsp->ds_rq); bcopy(&hcksum, ptr, sizeof (dl_capab_hcksum_t)); ptr += sizeof (dl_capab_hcksum_t); } /* * Large segment offload. (LSO) */ if (lso_capable) { dlsp = (dl_capability_sub_t *)ptr; dlsp->dl_cap = DL_CAPAB_LSO; dlsp->dl_length = sizeof (dl_capab_lso_t); ptr += sizeof (dl_capability_sub_t); lso.lso_version = LSO_VERSION_1; lso.lso_flags = mac_lso.lso_flags; lso.lso_max = mac_lso.lso_basic_tcp_ipv4.lso_max; /* Simply enable LSO with DLD */ dsp->ds_lso = B_TRUE; dsp->ds_lso_max = lso.lso_max; dlcapabsetqid(&(lso.lso_mid), dsp->ds_rq); bcopy(&lso, ptr, sizeof (dl_capab_lso_t)); ptr += sizeof (dl_capab_lso_t); } else { dsp->ds_lso = B_FALSE; dsp->ds_lso_max = 0; } /* * Zero copy */ if (zcopy_capable) { dlsp = (dl_capability_sub_t *)ptr; dlsp->dl_cap = DL_CAPAB_ZEROCOPY; dlsp->dl_length = sizeof (dl_capab_zerocopy_t); ptr += sizeof (dl_capability_sub_t); bzero(&zcopy, sizeof (dl_capab_zerocopy_t)); zcopy.zerocopy_version = ZEROCOPY_VERSION_1; zcopy.zerocopy_flags = DL_CAPAB_VMSAFE_MEM; dlcapabsetqid(&(zcopy.zerocopy_mid), dsp->ds_rq); bcopy(&zcopy, ptr, sizeof (dl_capab_zerocopy_t)); ptr += sizeof (dl_capab_zerocopy_t); } ASSERT(ptr == mp->b_rptr + sizeof (dl_capability_ack_t) + subsize); rw_exit(&dsp->ds_lock); qreply(q, mp); return (B_TRUE); } /* * Disable any enabled capabilities. */ void dld_capabilities_disable(dld_str_t *dsp) { if (dsp->ds_polling) proto_poll_disable(dsp); if (dsp->ds_soft_ring) proto_soft_ring_disable(dsp); }