/* * Copyright (C) 2007-2011 B.A.T.M.A.N. contributors: * * Marek Lindner, Simon Wunderlich * * This program is free software; you can redistribute it and/or * modify it under the terms of version 2 of the GNU General Public * License 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA * */ #include "main.h" #include "aggregation.h" #include "send.h" #include "routing.h" /* calculate the size of the tt information for a given packet */ static int tt_len(struct batman_packet *batman_packet) { return batman_packet->num_tt * ETH_ALEN; } /* return true if new_packet can be aggregated with forw_packet */ static bool can_aggregate_with(struct batman_packet *new_batman_packet, int packet_len, unsigned long send_time, bool directlink, struct hard_iface *if_incoming, struct forw_packet *forw_packet) { struct batman_packet *batman_packet = (struct batman_packet *)forw_packet->skb->data; int aggregated_bytes = forw_packet->packet_len + packet_len; /** * we can aggregate the current packet to this aggregated packet * if: * * - the send time is within our MAX_AGGREGATION_MS time * - the resulting packet wont be bigger than * MAX_AGGREGATION_BYTES */ if (time_before(send_time, forw_packet->send_time) && time_after_eq(send_time + msecs_to_jiffies(MAX_AGGREGATION_MS), forw_packet->send_time) && (aggregated_bytes <= MAX_AGGREGATION_BYTES)) { /** * check aggregation compatibility * -> direct link packets are broadcasted on * their interface only * -> aggregate packet if the current packet is * a "global" packet as well as the base * packet */ /* packets without direct link flag and high TTL * are flooded through the net */ if ((!directlink) && (!(batman_packet->flags & DIRECTLINK)) && (batman_packet->ttl != 1) && /* own packets originating non-primary * interfaces leave only that interface */ ((!forw_packet->own) || (forw_packet->if_incoming->if_num == 0))) return true; /* if the incoming packet is sent via this one * interface only - we still can aggregate */ if ((directlink) && (new_batman_packet->ttl == 1) && (forw_packet->if_incoming == if_incoming) && /* packets from direct neighbors or * own secondary interface packets * (= secondary interface packets in general) */ (batman_packet->flags & DIRECTLINK || (forw_packet->own && forw_packet->if_incoming->if_num != 0))) return true; } return false; } /* create a new aggregated packet and add this packet to it */ static void new_aggregated_packet(unsigned char *packet_buff, int packet_len, unsigned long send_time, bool direct_link, struct hard_iface *if_incoming, int own_packet) { struct bat_priv *bat_priv = netdev_priv(if_incoming->soft_iface); struct forw_packet *forw_packet_aggr; unsigned char *skb_buff; /* own packet should always be scheduled */ if (!own_packet) { if (!atomic_dec_not_zero(&bat_priv->batman_queue_left)) { bat_dbg(DBG_BATMAN, bat_priv, "batman packet queue full\n"); return; } } forw_packet_aggr = kmalloc(sizeof(struct forw_packet), GFP_ATOMIC); if (!forw_packet_aggr) { if (!own_packet) atomic_inc(&bat_priv->batman_queue_left); return; } if ((atomic_read(&bat_priv->aggregated_ogms)) && (packet_len < MAX_AGGREGATION_BYTES)) forw_packet_aggr->skb = dev_alloc_skb(MAX_AGGREGATION_BYTES + sizeof(struct ethhdr)); else forw_packet_aggr->skb = dev_alloc_skb(packet_len + sizeof(struct ethhdr)); if (!forw_packet_aggr->skb) { if (!own_packet) atomic_inc(&bat_priv->batman_queue_left); kfree(forw_packet_aggr); return; } skb_reserve(forw_packet_aggr->skb, sizeof(struct ethhdr)); INIT_HLIST_NODE(&forw_packet_aggr->list); skb_buff = skb_put(forw_packet_aggr->skb, packet_len); forw_packet_aggr->packet_len = packet_len; memcpy(skb_buff, packet_buff, packet_len); forw_packet_aggr->own = own_packet; forw_packet_aggr->if_incoming = if_incoming; forw_packet_aggr->num_packets = 0; forw_packet_aggr->direct_link_flags = 0; forw_packet_aggr->send_time = send_time; /* save packet direct link flag status */ if (direct_link) forw_packet_aggr->direct_link_flags |= 1; /* add new packet to packet list */ spin_lock_bh(&bat_priv->forw_bat_list_lock); hlist_add_head(&forw_packet_aggr->list, &bat_priv->forw_bat_list); spin_unlock_bh(&bat_priv->forw_bat_list_lock); /* start timer for this packet */ INIT_DELAYED_WORK(&forw_packet_aggr->delayed_work, send_outstanding_bat_packet); queue_delayed_work(bat_event_workqueue, &forw_packet_aggr->delayed_work, send_time - jiffies); } /* aggregate a new packet into the existing aggregation */ static void aggregate(struct forw_packet *forw_packet_aggr, unsigned char *packet_buff, int packet_len, bool direct_link) { unsigned char *skb_buff; skb_buff = skb_put(forw_packet_aggr->skb, packet_len); memcpy(skb_buff, packet_buff, packet_len); forw_packet_aggr->packet_len += packet_len; forw_packet_aggr->num_packets++; /* save packet direct link flag status */ if (direct_link) forw_packet_aggr->direct_link_flags |= (1 << forw_packet_aggr->num_packets); } void add_bat_packet_to_list(struct bat_priv *bat_priv, unsigned char *packet_buff, int packet_len, struct hard_iface *if_incoming, char own_packet, unsigned long send_time) { /** * _aggr -> pointer to the packet we want to aggregate with * _pos -> pointer to the position in the queue */ struct forw_packet *forw_packet_aggr = NULL, *forw_packet_pos = NULL; struct hlist_node *tmp_node; struct batman_packet *batman_packet = (struct batman_packet *)packet_buff; bool direct_link = batman_packet->flags & DIRECTLINK ? 1 : 0; /* find position for the packet in the forward queue */ spin_lock_bh(&bat_priv->forw_bat_list_lock); /* own packets are not to be aggregated */ if ((atomic_read(&bat_priv->aggregated_ogms)) && (!own_packet)) { hlist_for_each_entry(forw_packet_pos, tmp_node, &bat_priv->forw_bat_list, list) { if (can_aggregate_with(batman_packet, packet_len, send_time, direct_link, if_incoming, forw_packet_pos)) { forw_packet_aggr = forw_packet_pos; break; } } } /* nothing to aggregate with - either aggregation disabled or no * suitable aggregation packet found */ if (!forw_packet_aggr) { /* the following section can run without the lock */ spin_unlock_bh(&bat_priv->forw_bat_list_lock); /** * if we could not aggregate this packet with one of the others * we hold it back for a while, so that it might be aggregated * later on */ if ((!own_packet) && (atomic_read(&bat_priv->aggregated_ogms))) send_time += msecs_to_jiffies(MAX_AGGREGATION_MS); new_aggregated_packet(packet_buff, packet_len, send_time, direct_link, if_incoming, own_packet); } else { aggregate(forw_packet_aggr, packet_buff, packet_len, direct_link); spin_unlock_bh(&bat_priv->forw_bat_list_lock); } } /* unpack the aggregated packets and process them one by one */ void receive_aggr_bat_packet(struct ethhdr *ethhdr, unsigned char *packet_buff, int packet_len, struct hard_iface *if_incoming) { struct batman_packet *batman_packet; int buff_pos = 0; unsigned char *tt_buff; batman_packet = (struct batman_packet *)packet_buff; do { /* network to host order for our 32bit seqno, and the orig_interval. */ batman_packet->seqno = ntohl(batman_packet->seqno); tt_buff = packet_buff + buff_pos + BAT_PACKET_LEN; receive_bat_packet(ethhdr, batman_packet, tt_buff, tt_len(batman_packet), if_incoming); buff_pos += BAT_PACKET_LEN + tt_len(batman_packet); batman_packet = (struct batman_packet *) (packet_buff + buff_pos); } while (aggregated_packet(buff_pos, packet_len, batman_packet->num_tt)); }