/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Data-Link Services Module */ #include #include #include #include #include #include #include #include #include #include #include #include #include static kmem_cache_t *i_dls_impl_cachep; static uint32_t i_dls_impl_count; static kstat_t *dls_ksp = (kstat_t *)NULL; struct dls_kstats dls_kstat = { { "soft_ring_pkt_drop", KSTAT_DATA_UINT32 }, }; /* * Private functions. */ /*ARGSUSED*/ static int i_dls_constructor(void *buf, void *arg, int kmflag) { dls_impl_t *dip = buf; bzero(buf, sizeof (dls_impl_t)); rw_init(&(dip->di_lock), NULL, RW_DRIVER, NULL); return (0); } /*ARGSUSED*/ static void i_dls_destructor(void *buf, void *arg) { dls_impl_t *dip = buf; ASSERT(dip->di_dvp == NULL); ASSERT(dip->di_mnh == NULL); ASSERT(dip->di_dmap == NULL); ASSERT(!dip->di_bound); ASSERT(dip->di_rx == NULL); ASSERT(dip->di_txinfo == NULL); rw_destroy(&(dip->di_lock)); } static void i_dls_notify(void *arg, mac_notify_type_t type) { dls_impl_t *dip = arg; switch (type) { case MAC_NOTE_UNICST: mac_unicst_get(dip->di_mh, dip->di_unicst_addr); break; case MAC_NOTE_PROMISC: /* * Every time the MAC interface changes promiscuity we * need to reset our transmit information. */ dip->di_txinfo = mac_tx_get(dip->di_mh); break; } } static void dls_stat_init() { if ((dls_ksp = kstat_create("dls", 0, "dls_stat", "net", KSTAT_TYPE_NAMED, sizeof (dls_kstat) / sizeof (kstat_named_t), KSTAT_FLAG_VIRTUAL)) == NULL) { cmn_err(CE_WARN, "DLS: failed to create kstat structure for dls stats"); return; } dls_ksp->ks_data = (void *)&dls_kstat; kstat_install(dls_ksp); } static void dls_stat_destroy() { kstat_delete(dls_ksp); } /* * Module initialization functions. */ void dls_init(void) { /* * Create a kmem_cache of dls_impl_t. */ i_dls_impl_cachep = kmem_cache_create("dls_cache", sizeof (dls_impl_t), 0, i_dls_constructor, i_dls_destructor, NULL, NULL, NULL, 0); ASSERT(i_dls_impl_cachep != NULL); soft_ring_init(); dls_stat_init(); } int dls_fini(void) { /* * If there are any dls_impl_t in use then return EBUSY. */ if (i_dls_impl_count != 0) return (EBUSY); /* * Destroy the kmem_cache. */ kmem_cache_destroy(i_dls_impl_cachep); dls_stat_destroy(); return (0); } /* * Client function. */ int dls_create(const char *linkname, const char *macname, uint_t ddi_instance) { return (dls_vlan_create(linkname, macname, ddi_instance, 0)); } int dls_destroy(const char *name) { return (dls_vlan_destroy(name)); } int dls_open(const char *name, dls_channel_t *dcp) { dls_impl_t *dip; dls_vlan_t *dvp; dls_link_t *dlp; int err; /* * Get a reference to the named dls_vlan_t. * Tagged vlans get created automatically. */ if ((err = dls_vlan_hold(name, &dvp, B_TRUE)) != 0) return (err); /* * Allocate a new dls_impl_t. */ dip = kmem_cache_alloc(i_dls_impl_cachep, KM_SLEEP); dip->di_dvp = dvp; /* * Cache a copy of the MAC interface handle, a pointer to the * immutable MAC info and a copy of the current MAC address. */ dlp = dvp->dv_dlp; dip->di_mh = dlp->dl_mh; dip->di_mip = dlp->dl_mip; mac_unicst_get(dip->di_mh, dip->di_unicst_addr); /* * Set the MAC transmit information. */ dip->di_txinfo = mac_tx_get(dip->di_mh); /* * Add a notification function so that we get updates from the MAC. */ dip->di_mnh = mac_notify_add(dip->di_mh, i_dls_notify, (void *)dip); /* * Bump the kmem_cache count to make sure it is not prematurely * destroyed. */ atomic_add_32(&i_dls_impl_count, 1); /* * Set the di_zid to the zone id of current zone */ dip->di_zid = getzoneid(); /* * Add this dls_impl_t to the list of the "opened stream" * list of the corresponding dls_vlan_t */ dls_vlan_add_impl(dvp, dip); /* * Hand back a reference to the dls_impl_t. */ *dcp = (dls_channel_t)dip; return (0); } void dls_close(dls_channel_t dc) { dls_impl_t *dip = (dls_impl_t *)dc; dls_vlan_t *dvp; dls_link_t *dlp; dls_multicst_addr_t *p; dls_multicst_addr_t *nextp; dls_active_clear(dc); rw_enter(&(dip->di_lock), RW_WRITER); /* * Remove the notify function. */ mac_notify_remove(dip->di_mh, dip->di_mnh); dip->di_mnh = NULL; /* * If the dls_impl_t is bound then unbind it. */ dvp = dip->di_dvp; dlp = dvp->dv_dlp; if (dip->di_bound) { rw_exit(&(dip->di_lock)); dls_link_remove(dlp, dip); rw_enter(&(dip->di_lock), RW_WRITER); dip->di_bound = B_FALSE; } dip->di_rx = NULL; dip->di_rx_arg = NULL; /* * Walk the list of multicast addresses, disabling each at the MAC. */ for (p = dip->di_dmap; p != NULL; p = nextp) { (void) mac_multicst_remove(dip->di_mh, p->dma_addr); nextp = p->dma_nextp; kmem_free(p, sizeof (dls_multicst_addr_t)); } dip->di_dmap = NULL; /* * Remove this dls_impl_t from the list of the "open streams" * list of the corresponding dls_vlan_t */ dls_vlan_remove_impl(dvp, dip); rw_exit(&(dip->di_lock)); /* * If the MAC has been set in promiscuous mode then disable it. */ (void) dls_promisc(dc, 0); /* * Free the dls_impl_t back to the cache. */ dip->di_dvp = NULL; dip->di_txinfo = NULL; if (dip->di_soft_ring_list != NULL) { soft_ring_set_destroy(dip->di_soft_ring_list, dip->di_soft_ring_size); dip->di_soft_ring_list = NULL; } dip->di_soft_ring_size = 0; kmem_cache_free(i_dls_impl_cachep, dip); /* * Decrement the reference count to allow the cache to be destroyed * if there are no more dls_impl_t. */ atomic_add_32(&i_dls_impl_count, -1); /* * Release our reference to the dls_vlan_t allowing that to be * destroyed if there are no more dls_impl_t. An unreferenced tagged * vlan gets destroyed automatically. */ dls_vlan_rele(dvp); } mac_handle_t dls_mac(dls_channel_t dc) { return (((dls_impl_t *)dc)->di_mh); } uint16_t dls_vid(dls_channel_t dc) { return (((dls_impl_t *)dc)->di_dvp->dv_id); } int dls_bind(dls_channel_t dc, uint32_t sap) { dls_impl_t *dip = (dls_impl_t *)dc; dls_link_t *dlp; uint32_t dls_sap; /* * Check to see the value is legal for the media type. */ if (!mac_sap_verify(dip->di_mh, sap, &dls_sap)) return (EINVAL); if (dip->di_promisc & DLS_PROMISC_SAP) dls_sap = DLS_SAP_PROMISC; /* * Set up the dls_impl_t to mark it as able to receive packets. */ rw_enter(&(dip->di_lock), RW_WRITER); ASSERT(!dip->di_bound); dip->di_sap = sap; dip->di_bound = B_TRUE; rw_exit(&(dip->di_lock)); /* * Now bind the dls_impl_t by adding it into the hash table in the * dls_link_t. * * NOTE: This must be done without the dls_impl_t lock being held * otherwise deadlock may ensue. */ dlp = dip->di_dvp->dv_dlp; dls_link_add(dlp, dls_sap, dip); return (0); } void dls_unbind(dls_channel_t dc) { dls_impl_t *dip = (dls_impl_t *)dc; dls_link_t *dlp; /* * Unbind the dls_impl_t by removing it from the hash table in the * dls_link_t. * * NOTE: This must be done without the dls_impl_t lock being held * otherise deadlock may enuse. */ dlp = dip->di_dvp->dv_dlp; dls_link_remove(dlp, dip); /* * Mark the dls_impl_t as unable to receive packets This will make * sure that 'receives in flight' will not come our way. */ dip->di_bound = B_FALSE; } int dls_promisc(dls_channel_t dc, uint32_t flags) { dls_impl_t *dip = (dls_impl_t *)dc; dls_link_t *dlp; int err = 0; ASSERT(!(flags & ~(DLS_PROMISC_SAP | DLS_PROMISC_MULTI | DLS_PROMISC_PHYS))); /* * Check if we need to turn on 'all sap' mode. */ rw_enter(&(dip->di_lock), RW_WRITER); dlp = dip->di_dvp->dv_dlp; if ((flags & DLS_PROMISC_SAP) && !(dip->di_promisc & DLS_PROMISC_SAP)) { dip->di_promisc |= DLS_PROMISC_SAP; if (!dip->di_bound) goto multi; rw_exit(&(dip->di_lock)); dls_link_remove(dlp, dip); dls_link_add(dlp, DLS_SAP_PROMISC, dip); rw_enter(&(dip->di_lock), RW_WRITER); goto multi; } /* * Check if we need to turn off 'all sap' mode. */ if (!(flags & DLS_PROMISC_SAP) && (dip->di_promisc & DLS_PROMISC_SAP)) { uint32_t dls_sap; dip->di_promisc &= ~DLS_PROMISC_SAP; if (!dip->di_bound) goto multi; rw_exit(&(dip->di_lock)); dls_link_remove(dlp, dip); (void) mac_sap_verify(dip->di_mh, dip->di_sap, &dls_sap); dls_link_add(dlp, dls_sap, dip); rw_enter(&(dip->di_lock), RW_WRITER); } multi: /* * It's easiest to add the txloop handler up-front; if promiscuous * mode cannot be enabled, then we'll remove it before returning. * Use dl_promisc_lock to prevent racing with another thread also * manipulating the promiscuous state on another dls_impl_t associated * with the same dls_link_t. */ mutex_enter(&dlp->dl_promisc_lock); if (dlp->dl_npromisc == 0 && (flags & (DLS_PROMISC_MULTI|DLS_PROMISC_PHYS))) { ASSERT(dlp->dl_mth == NULL); dlp->dl_mth = mac_txloop_add(dlp->dl_mh, dlp->dl_txloop, dlp); } /* * Turn on or off 'all multicast' mode, if necessary. */ if (flags & DLS_PROMISC_MULTI) { if (!(dip->di_promisc & DLS_PROMISC_MULTI)) { err = mac_promisc_set(dip->di_mh, B_TRUE, MAC_PROMISC); if (err != 0) goto done; dip->di_promisc |= DLS_PROMISC_MULTI; dlp->dl_npromisc++; } } else { if (dip->di_promisc & DLS_PROMISC_MULTI) { err = mac_promisc_set(dip->di_mh, B_FALSE, MAC_PROMISC); if (err != 0) goto done; dip->di_promisc &= ~DLS_PROMISC_MULTI; dlp->dl_npromisc--; } } /* * Turn on or off 'all physical' mode, if necessary. */ if (flags & DLS_PROMISC_PHYS) { if (!(dip->di_promisc & DLS_PROMISC_PHYS)) { err = mac_promisc_set(dip->di_mh, B_TRUE, MAC_PROMISC); if (err != 0) goto done; dip->di_promisc |= DLS_PROMISC_PHYS; dlp->dl_npromisc++; } } else { if (dip->di_promisc & DLS_PROMISC_PHYS) { err = mac_promisc_set(dip->di_mh, B_FALSE, MAC_PROMISC); if (err != 0) goto done; dip->di_promisc &= ~DLS_PROMISC_PHYS; dlp->dl_npromisc--; } } done: if (dlp->dl_npromisc == 0 && dlp->dl_mth != NULL) { mac_txloop_remove(dlp->dl_mh, dlp->dl_mth); dlp->dl_mth = NULL; } ASSERT(dlp->dl_npromisc == 0 || dlp->dl_mth != NULL); mutex_exit(&dlp->dl_promisc_lock); rw_exit(&(dip->di_lock)); return (err); } int dls_multicst_add(dls_channel_t dc, const uint8_t *addr) { dls_impl_t *dip = (dls_impl_t *)dc; int err; dls_multicst_addr_t **pp; dls_multicst_addr_t *p; uint_t addr_length; /* * Check whether the address is in the list of enabled addresses for * this dls_impl_t. */ rw_enter(&(dip->di_lock), RW_WRITER); addr_length = dip->di_mip->mi_addr_length; for (pp = &(dip->di_dmap); (p = *pp) != NULL; pp = &(p->dma_nextp)) { if (bcmp(addr, p->dma_addr, addr_length) == 0) { /* * It is there so there's nothing to do. */ err = 0; goto done; } } /* * Allocate a new list item. */ if ((p = kmem_zalloc(sizeof (dls_multicst_addr_t), KM_NOSLEEP)) == NULL) { err = ENOMEM; goto done; } /* * Enable the address at the MAC. */ if ((err = mac_multicst_add(dip->di_mh, addr)) != 0) { kmem_free(p, sizeof (dls_multicst_addr_t)); goto done; } /* * The address is now enabled at the MAC so add it to the list. */ bcopy(addr, p->dma_addr, addr_length); *pp = p; done: rw_exit(&(dip->di_lock)); return (err); } int dls_multicst_remove(dls_channel_t dc, const uint8_t *addr) { dls_impl_t *dip = (dls_impl_t *)dc; int err; dls_multicst_addr_t **pp; dls_multicst_addr_t *p; uint_t addr_length; /* * Find the address in the list of enabled addresses for this * dls_impl_t. */ rw_enter(&(dip->di_lock), RW_WRITER); addr_length = dip->di_mip->mi_addr_length; for (pp = &(dip->di_dmap); (p = *pp) != NULL; pp = &(p->dma_nextp)) { if (bcmp(addr, p->dma_addr, addr_length) == 0) break; } /* * If we walked to the end of the list then the given address is * not currently enabled for this dls_impl_t. */ if (p == NULL) { err = ENOENT; goto done; } /* * Disable the address at the MAC. */ if ((err = mac_multicst_remove(dip->di_mh, addr)) != 0) goto done; /* * Remove the address from the list. */ *pp = p->dma_nextp; kmem_free(p, sizeof (dls_multicst_addr_t)); done: rw_exit(&(dip->di_lock)); return (err); } mblk_t * dls_header(dls_channel_t dc, const uint8_t *addr, uint16_t sap, uint_t pri, mblk_t **payloadp) { dls_impl_t *dip = (dls_impl_t *)dc; uint16_t vid; size_t extra_len; uint16_t mac_sap; mblk_t *mp, *payload; boolean_t is_ethernet = (dip->di_mip->mi_media == DL_ETHER); struct ether_vlan_header *evhp; vid = dip->di_dvp->dv_id; payload = (payloadp == NULL) ? NULL : (*payloadp); /* * If the following conditions are satisfied: * - This is not a ETHERTYPE_VLAN listener; and * - This is either a VLAN stream or this is a physical stream * but the priority is not 0. * * then we know ahead of time that we'll need to fill in additional * VLAN information in the link-layer header. We will tell the MAC * layer to pre-allocate some space at the end of the Ethernet * header for us. */ if (is_ethernet && sap != ETHERTYPE_VLAN && (vid != VLAN_ID_NONE || pri != 0)) { extra_len = sizeof (struct ether_vlan_header) - sizeof (struct ether_header); mac_sap = ETHERTYPE_VLAN; } else { extra_len = 0; mac_sap = sap; } mp = mac_header(dip->di_mh, addr, mac_sap, payload, extra_len); if (mp == NULL) return (NULL); if ((vid == VLAN_ID_NONE && pri == 0) || !is_ethernet) return (mp); /* * Fill in the tag information. */ ASSERT(MBLKL(mp) == sizeof (struct ether_header)); if (extra_len != 0) { mp->b_wptr += extra_len; evhp = (struct ether_vlan_header *)mp->b_rptr; evhp->ether_tci = htons(VLAN_TCI(pri, ETHER_CFI, vid)); evhp->ether_type = htons(sap); } else { /* * The stream is ETHERTYPE_VLAN listener, so its VLAN tag is * in the payload. Update the priority. */ struct ether_vlan_extinfo *extinfo; size_t len = sizeof (struct ether_vlan_extinfo); ASSERT(sap == ETHERTYPE_VLAN); ASSERT(payload != NULL); if ((DB_REF(payload) > 1) || (MBLKL(payload) < len)) { mblk_t *newmp; /* * Because some DLS consumers only check the db_ref * count of the first mblk, we pullup 'payload' into * a single mblk. */ newmp = msgpullup(payload, -1); if ((newmp == NULL) || (MBLKL(newmp) < len)) { freemsg(newmp); freemsg(mp); return (NULL); } else { freemsg(payload); *payloadp = payload = newmp; } } extinfo = (struct ether_vlan_extinfo *)payload->b_rptr; extinfo->ether_tci = htons(VLAN_TCI(pri, ETHER_CFI, VLAN_ID(ntohs(extinfo->ether_tci)))); } return (mp); } int dls_header_info(dls_channel_t dc, mblk_t *mp, mac_header_info_t *mhip) { return (dls_link_header_info(((dls_impl_t *)dc)->di_dvp->dv_dlp, mp, mhip)); } void dls_rx_set(dls_channel_t dc, dls_rx_t rx, void *arg) { dls_impl_t *dip = (dls_impl_t *)dc; rw_enter(&(dip->di_lock), RW_WRITER); dip->di_rx = rx; dip->di_rx_arg = arg; rw_exit(&(dip->di_lock)); } mblk_t * dls_tx(dls_channel_t dc, mblk_t *mp) { const mac_txinfo_t *mtp = ((dls_impl_t *)dc)->di_txinfo; return (mtp->mt_fn(mtp->mt_arg, mp)); } boolean_t dls_accept(dls_impl_t *dip, mac_header_info_t *mhip, dls_rx_t *di_rx, void **di_rx_arg) { dls_multicst_addr_t *dmap; size_t addr_length = dip->di_mip->mi_addr_length; /* * We must not accept packets if the dls_impl_t is not marked as bound * or is being removed. */ rw_enter(&(dip->di_lock), RW_READER); if (!dip->di_bound || dip->di_removing) goto refuse; /* * If the dls_impl_t is in 'all physical' mode then always accept. */ if (dip->di_promisc & DLS_PROMISC_PHYS) goto accept; switch (mhip->mhi_dsttype) { case MAC_ADDRTYPE_UNICAST: /* * Check to see if the destination address matches the * dls_impl_t unicast address. */ if (memcmp(mhip->mhi_daddr, dip->di_unicst_addr, addr_length) == 0) { goto accept; } break; case MAC_ADDRTYPE_MULTICAST: /* * Check the address against the list of addresses enabled * for this dls_impl_t or accept it unconditionally if the * dls_impl_t is in 'all multicast' mode. */ if (dip->di_promisc & DLS_PROMISC_MULTI) goto accept; for (dmap = dip->di_dmap; dmap != NULL; dmap = dmap->dma_nextp) { if (memcmp(mhip->mhi_daddr, dmap->dma_addr, addr_length) == 0) { goto accept; } } break; case MAC_ADDRTYPE_BROADCAST: /* * If the address is broadcast then the dls_impl_t will * always accept it. */ goto accept; } refuse: rw_exit(&(dip->di_lock)); return (B_FALSE); accept: /* * Since we hold di_lock here, the returned di_rx and di_rx_arg will * always be in sync. */ *di_rx = dip->di_rx; *di_rx_arg = dip->di_rx_arg; rw_exit(&(dip->di_lock)); return (B_TRUE); } /* ARGSUSED */ boolean_t dls_accept_loopback(dls_impl_t *dip, mac_header_info_t *mhip, dls_rx_t *di_rx, void **di_rx_arg) { /* * We must not accept packets if the dls_impl_t is not marked as bound * or is being removed. */ rw_enter(&(dip->di_lock), RW_READER); if (!dip->di_bound || dip->di_removing) goto refuse; /* * A dls_impl_t should only accept loopback packets if it is in * 'all physical' mode. */ if (dip->di_promisc & DLS_PROMISC_PHYS) goto accept; refuse: rw_exit(&(dip->di_lock)); return (B_FALSE); accept: /* * Since we hold di_lock here, the returned di_rx and di_rx_arg will * always be in sync. */ *di_rx = dip->di_rx; *di_rx_arg = dip->di_rx_arg; rw_exit(&(dip->di_lock)); return (B_TRUE); } boolean_t dls_active_set(dls_channel_t dc) { dls_impl_t *dip = (dls_impl_t *)dc; dls_link_t *dlp = dip->di_dvp->dv_dlp; rw_enter(&dip->di_lock, RW_WRITER); /* If we're already active, then there's nothing more to do. */ if (dip->di_active) { rw_exit(&dip->di_lock); return (B_TRUE); } /* * If this is the first active client on this link, notify * the mac that we're becoming an active client. */ if (dlp->dl_nactive == 0 && !mac_active_set(dlp->dl_mh)) { rw_exit(&dip->di_lock); return (B_FALSE); } dip->di_active = B_TRUE; mutex_enter(&dlp->dl_lock); dlp->dl_nactive++; mutex_exit(&dlp->dl_lock); rw_exit(&dip->di_lock); return (B_TRUE); } void dls_active_clear(dls_channel_t dc) { dls_impl_t *dip = (dls_impl_t *)dc; dls_link_t *dlp = dip->di_dvp->dv_dlp; rw_enter(&dip->di_lock, RW_WRITER); if (!dip->di_active) goto out; dip->di_active = B_FALSE; mutex_enter(&dlp->dl_lock); if (--dlp->dl_nactive == 0) mac_active_clear(dip->di_mh); mutex_exit(&dlp->dl_lock); out: rw_exit(&dip->di_lock); } dev_info_t * dls_finddevinfo(dev_t dev) { return (dls_vlan_finddevinfo(dev)); } int dls_ppa_from_minor(minor_t minor, t_uscalar_t *ppa) { return (dls_vlan_ppa_from_minor(minor, ppa)); }