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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164 2165 2166 2167 2168 2169 2170 2171 2172 2173 2174 2175 2176 2177 2178 2179 2180 2181 2182 2183 2184 2185 2186 2187 2188 2189 2190 2191 2192 2193 2194 2195 2196 2197 2198 2199 2200 2201 2202 2203 2204 2205 2206 2207 2208 2209 2210 2211 2212 2213 2214 2215 2216 2217 2218 2219 2220 2221 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Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the names of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * Alternatively, this software may be distributed under the terms of the * GNU General Public License ("GPL") version 2 as published by the Free * Software Foundation. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "core.h" #include "subscr.h" #include "link.h" #include "bcast.h" #include "socket.h" #include "name_distr.h" #include "discover.h" #include "netlink.h" #include "monitor.h" #include <linux/pkt_sched.h> struct tipc_stats { u32 sent_pkts; u32 recv_pkts; u32 sent_states; u32 recv_states; u32 sent_probes; u32 recv_probes; u32 sent_nacks; u32 recv_nacks; u32 sent_acks; u32 sent_bundled; u32 sent_bundles; u32 recv_bundled; u32 recv_bundles; u32 retransmitted; u32 sent_fragmented; u32 sent_fragments; u32 recv_fragmented; u32 recv_fragments; u32 link_congs; /* # port sends blocked by congestion */ u32 deferred_recv; u32 duplicates; u32 max_queue_sz; /* send queue size high water mark */ u32 accu_queue_sz; /* used for send queue size profiling */ u32 queue_sz_counts; /* used for send queue size profiling */ u32 msg_length_counts; /* used for message length profiling */ u32 msg_lengths_total; /* used for message length profiling */ u32 msg_length_profile[7]; /* used for msg. length profiling */ }; /** * struct tipc_link - TIPC link data structure * @addr: network address of link's peer node * @name: link name character string * @media_addr: media address to use when sending messages over link * @timer: link timer * @net: pointer to namespace struct * @refcnt: reference counter for permanent references (owner node & timer) * @peer_session: link session # being used by peer end of link * @peer_bearer_id: bearer id used by link's peer endpoint * @bearer_id: local bearer id used by link * @tolerance: minimum link continuity loss needed to reset link [in ms] * @abort_limit: # of unacknowledged continuity probes needed to reset link * @state: current state of link FSM * @peer_caps: bitmap describing capabilities of peer node * @silent_intv_cnt: # of timer intervals without any reception from peer * @proto_msg: template for control messages generated by link * @pmsg: convenience pointer to "proto_msg" field * @priority: current link priority * @net_plane: current link network plane ('A' through 'H') * @mon_state: cookie with information needed by link monitor * @backlog_limit: backlog queue congestion thresholds (indexed by importance) * @exp_msg_count: # of tunnelled messages expected during link changeover * @reset_rcv_checkpt: seq # of last acknowledged message at time of link reset * @mtu: current maximum packet size for this link * @advertised_mtu: advertised own mtu when link is being established * @transmitq: queue for sent, non-acked messages * @backlogq: queue for messages waiting to be sent * @snt_nxt: next sequence number to use for outbound messages * @last_retransmitted: sequence number of most recently retransmitted message * @stale_cnt: counter for number of identical retransmit attempts * @stale_limit: time when repeated identical retransmits must force link reset * @ackers: # of peers that needs to ack each packet before it can be released * @acked: # last packet acked by a certain peer. Used for broadcast. * @rcv_nxt: next sequence number to expect for inbound messages * @deferred_queue: deferred queue saved OOS b'cast message received from node * @unacked_window: # of inbound messages rx'd without ack'ing back to peer * @inputq: buffer queue for messages to be delivered upwards * @namedq: buffer queue for name table messages to be delivered upwards * @next_out: ptr to first unsent outbound message in queue * @wakeupq: linked list of wakeup msgs waiting for link congestion to abate * @long_msg_seq_no: next identifier to use for outbound fragmented messages * @reasm_buf: head of partially reassembled inbound message fragments * @bc_rcvr: marks that this is a broadcast receiver link * @stats: collects statistics regarding link activity */ struct tipc_link { u32 addr; char name[TIPC_MAX_LINK_NAME]; struct net *net; /* Management and link supervision data */ u16 peer_session; u16 session; u16 snd_nxt_state; u16 rcv_nxt_state; u32 peer_bearer_id; u32 bearer_id; u32 tolerance; u32 abort_limit; u32 state; u16 peer_caps; bool in_session; bool active; u32 silent_intv_cnt; char if_name[TIPC_MAX_IF_NAME]; u32 priority; char net_plane; struct tipc_mon_state mon_state; u16 rst_cnt; /* Failover/synch */ u16 drop_point; struct sk_buff *failover_reasm_skb; /* Max packet negotiation */ u16 mtu; u16 advertised_mtu; /* Sending */ struct sk_buff_head transmq; struct sk_buff_head backlogq; struct { u16 len; u16 limit; } backlog[5]; u16 snd_nxt; u16 last_retransm; u16 window; u16 stale_cnt; unsigned long stale_limit; /* Reception */ u16 rcv_nxt; u32 rcv_unacked; struct sk_buff_head deferdq; struct sk_buff_head *inputq; struct sk_buff_head *namedq; /* Congestion handling */ struct sk_buff_head wakeupq; /* Fragmentation/reassembly */ struct sk_buff *reasm_buf; /* Broadcast */ u16 ackers; u16 acked; struct tipc_link *bc_rcvlink; struct tipc_link *bc_sndlink; unsigned long prev_retr; u16 prev_from; u16 prev_to; u8 nack_state; bool bc_peer_is_up; /* Statistics */ struct tipc_stats stats; }; /* * Error message prefixes */ static const char *link_co_err = "Link tunneling error, "; static const char *link_rst_msg = "Resetting link "; /* Send states for broadcast NACKs */ enum { BC_NACK_SND_CONDITIONAL, BC_NACK_SND_UNCONDITIONAL, BC_NACK_SND_SUPPRESS, }; #define TIPC_BC_RETR_LIMIT 10 /* [ms] */ /* * Interval between NACKs when packets arrive out of order */ #define TIPC_NACK_INTV (TIPC_MIN_LINK_WIN * 2) /* Link FSM states: */ enum { LINK_ESTABLISHED = 0xe, LINK_ESTABLISHING = 0xe << 4, LINK_RESET = 0x1 << 8, LINK_RESETTING = 0x2 << 12, LINK_PEER_RESET = 0xd << 16, LINK_FAILINGOVER = 0xf << 20, LINK_SYNCHING = 0xc << 24 }; /* Link FSM state checking routines */ static int link_is_up(struct tipc_link *l) { return l->state & (LINK_ESTABLISHED | LINK_SYNCHING); } static int tipc_link_proto_rcv(struct tipc_link *l, struct sk_buff *skb, struct sk_buff_head *xmitq); static void tipc_link_build_proto_msg(struct tipc_link *l, int mtyp, bool probe, bool probe_reply, u16 rcvgap, int tolerance, int priority, struct sk_buff_head *xmitq); static void link_print(struct tipc_link *l, const char *str); static int tipc_link_build_nack_msg(struct tipc_link *l, struct sk_buff_head *xmitq); static void tipc_link_build_bc_init_msg(struct tipc_link *l, struct sk_buff_head *xmitq); static bool tipc_link_release_pkts(struct tipc_link *l, u16 to); /* * Simple non-static link routines (i.e. referenced outside this file) */ bool tipc_link_is_up(struct tipc_link *l) { return link_is_up(l); } bool tipc_link_peer_is_down(struct tipc_link *l) { return l->state == LINK_PEER_RESET; } bool tipc_link_is_reset(struct tipc_link *l) { return l->state & (LINK_RESET | LINK_FAILINGOVER | LINK_ESTABLISHING); } bool tipc_link_is_establishing(struct tipc_link *l) { return l->state == LINK_ESTABLISHING; } bool tipc_link_is_synching(struct tipc_link *l) { return l->state == LINK_SYNCHING; } bool tipc_link_is_failingover(struct tipc_link *l) { return l->state == LINK_FAILINGOVER; } bool tipc_link_is_blocked(struct tipc_link *l) { return l->state & (LINK_RESETTING | LINK_PEER_RESET | LINK_FAILINGOVER); } static bool link_is_bc_sndlink(struct tipc_link *l) { return !l->bc_sndlink; } static bool link_is_bc_rcvlink(struct tipc_link *l) { return ((l->bc_rcvlink == l) && !link_is_bc_sndlink(l)); } void tipc_link_set_active(struct tipc_link *l, bool active) { l->active = active; } u32 tipc_link_id(struct tipc_link *l) { return l->peer_bearer_id << 16 | l->bearer_id; } int tipc_link_window(struct tipc_link *l) { return l->window; } int tipc_link_prio(struct tipc_link *l) { return l->priority; } unsigned long tipc_link_tolerance(struct tipc_link *l) { return l->tolerance; } struct sk_buff_head *tipc_link_inputq(struct tipc_link *l) { return l->inputq; } char tipc_link_plane(struct tipc_link *l) { return l->net_plane; } void tipc_link_update_caps(struct tipc_link *l, u16 capabilities) { l->peer_caps = capabilities; } void tipc_link_add_bc_peer(struct tipc_link *snd_l, struct tipc_link *uc_l, struct sk_buff_head *xmitq) { struct tipc_link *rcv_l = uc_l->bc_rcvlink; snd_l->ackers++; rcv_l->acked = snd_l->snd_nxt - 1; snd_l->state = LINK_ESTABLISHED; tipc_link_build_bc_init_msg(uc_l, xmitq); } void tipc_link_remove_bc_peer(struct tipc_link *snd_l, struct tipc_link *rcv_l, struct sk_buff_head *xmitq) { u16 ack = snd_l->snd_nxt - 1; snd_l->ackers--; rcv_l->bc_peer_is_up = true; rcv_l->state = LINK_ESTABLISHED; tipc_link_bc_ack_rcv(rcv_l, ack, xmitq); tipc_link_reset(rcv_l); rcv_l->state = LINK_RESET; if (!snd_l->ackers) { tipc_link_reset(snd_l); snd_l->state = LINK_RESET; __skb_queue_purge(xmitq); } } int tipc_link_bc_peers(struct tipc_link *l) { return l->ackers; } static u16 link_bc_rcv_gap(struct tipc_link *l) { struct sk_buff *skb = skb_peek(&l->deferdq); u16 gap = 0; if (more(l->snd_nxt, l->rcv_nxt)) gap = l->snd_nxt - l->rcv_nxt; if (skb) gap = buf_seqno(skb) - l->rcv_nxt; return gap; } void tipc_link_set_mtu(struct tipc_link *l, int mtu) { l->mtu = mtu; } int tipc_link_mtu(struct tipc_link *l) { return l->mtu; } u16 tipc_link_rcv_nxt(struct tipc_link *l) { return l->rcv_nxt; } u16 tipc_link_acked(struct tipc_link *l) { return l->acked; } char *tipc_link_name(struct tipc_link *l) { return l->name; } u32 tipc_link_state(struct tipc_link *l) { return l->state; } /** * tipc_link_create - create a new link * @n: pointer to associated node * @if_name: associated interface name * @bearer_id: id (index) of associated bearer * @tolerance: link tolerance to be used by link * @net_plane: network plane (A,B,c..) this link belongs to * @mtu: mtu to be advertised by link * @priority: priority to be used by link * @window: send window to be used by link * @session: session to be used by link * @ownnode: identity of own node * @peer: node id of peer node * @peer_caps: bitmap describing peer node capabilities * @bc_sndlink: the namespace global link used for broadcast sending * @bc_rcvlink: the peer specific link used for broadcast reception * @inputq: queue to put messages ready for delivery * @namedq: queue to put binding table update messages ready for delivery * @link: return value, pointer to put the created link * * Returns true if link was created, otherwise false */ bool tipc_link_create(struct net *net, char *if_name, int bearer_id, int tolerance, char net_plane, u32 mtu, int priority, int window, u32 session, u32 self, u32 peer, u8 *peer_id, u16 peer_caps, struct tipc_link *bc_sndlink, struct tipc_link *bc_rcvlink, struct sk_buff_head *inputq, struct sk_buff_head *namedq, struct tipc_link **link) { char peer_str[NODE_ID_STR_LEN] = {0,}; char self_str[NODE_ID_STR_LEN] = {0,}; struct tipc_link *l; l = kzalloc(sizeof(*l), GFP_ATOMIC); if (!l) return false; *link = l; l->session = session; /* Set link name for unicast links only */ if (peer_id) { tipc_nodeid2string(self_str, tipc_own_id(net)); if (strlen(self_str) > 16) sprintf(self_str, "%x", self); tipc_nodeid2string(peer_str, peer_id); if (strlen(peer_str) > 16) sprintf(peer_str, "%x", peer); } /* Peer i/f name will be completed by reset/activate message */ snprintf(l->name, sizeof(l->name), "%s:%s-%s:unknown", self_str, if_name, peer_str); strcpy(l->if_name, if_name); l->addr = peer; l->peer_caps = peer_caps; l->net = net; l->in_session = false; l->bearer_id = bearer_id; l->tolerance = tolerance; if (bc_rcvlink) bc_rcvlink->tolerance = tolerance; l->net_plane = net_plane; l->advertised_mtu = mtu; l->mtu = mtu; l->priority = priority; tipc_link_set_queue_limits(l, window); l->ackers = 1; l->bc_sndlink = bc_sndlink; l->bc_rcvlink = bc_rcvlink; l->inputq = inputq; l->namedq = namedq; l->state = LINK_RESETTING; __skb_queue_head_init(&l->transmq); __skb_queue_head_init(&l->backlogq); __skb_queue_head_init(&l->deferdq); skb_queue_head_init(&l->wakeupq); skb_queue_head_init(l->inputq); return true; } /** * tipc_link_bc_create - create new link to be used for broadcast * @n: pointer to associated node * @mtu: mtu to be used initially if no peers * @window: send window to be used * @inputq: queue to put messages ready for delivery * @namedq: queue to put binding table update messages ready for delivery * @link: return value, pointer to put the created link * * Returns true if link was created, otherwise false */ bool tipc_link_bc_create(struct net *net, u32 ownnode, u32 peer, int mtu, int window, u16 peer_caps, struct sk_buff_head *inputq, struct sk_buff_head *namedq, struct tipc_link *bc_sndlink, struct tipc_link **link) { struct tipc_link *l; if (!tipc_link_create(net, "", MAX_BEARERS, 0, 'Z', mtu, 0, window, 0, ownnode, peer, NULL, peer_caps, bc_sndlink, NULL, inputq, namedq, link)) return false; l = *link; strcpy(l->name, tipc_bclink_name); tipc_link_reset(l); l->state = LINK_RESET; l->ackers = 0; l->bc_rcvlink = l; /* Broadcast send link is always up */ if (link_is_bc_sndlink(l)) l->state = LINK_ESTABLISHED; /* Disable replicast if even a single peer doesn't support it */ if (link_is_bc_rcvlink(l) && !(peer_caps & TIPC_BCAST_RCAST)) tipc_bcast_disable_rcast(net); return true; } /** * tipc_link_fsm_evt - link finite state machine * @l: pointer to link * @evt: state machine event to be processed */ int tipc_link_fsm_evt(struct tipc_link *l, int evt) { int rc = 0; switch (l->state) { case LINK_RESETTING: switch (evt) { case LINK_PEER_RESET_EVT: l->state = LINK_PEER_RESET; break; case LINK_RESET_EVT: l->state = LINK_RESET; break; case LINK_FAILURE_EVT: case LINK_FAILOVER_BEGIN_EVT: case LINK_ESTABLISH_EVT: case LINK_FAILOVER_END_EVT: case LINK_SYNCH_BEGIN_EVT: case LINK_SYNCH_END_EVT: default: goto illegal_evt; } break; case LINK_RESET: switch (evt) { case LINK_PEER_RESET_EVT: l->state = LINK_ESTABLISHING; break; case LINK_FAILOVER_BEGIN_EVT: l->state = LINK_FAILINGOVER; case LINK_FAILURE_EVT: case LINK_RESET_EVT: case LINK_ESTABLISH_EVT: case LINK_FAILOVER_END_EVT: break; case LINK_SYNCH_BEGIN_EVT: case LINK_SYNCH_END_EVT: default: goto illegal_evt; } break; case LINK_PEER_RESET: switch (evt) { case LINK_RESET_EVT: l->state = LINK_ESTABLISHING; break; case LINK_PEER_RESET_EVT: case LINK_ESTABLISH_EVT: case LINK_FAILURE_EVT: break; case LINK_SYNCH_BEGIN_EVT: case LINK_SYNCH_END_EVT: case LINK_FAILOVER_BEGIN_EVT: case LINK_FAILOVER_END_EVT: default: goto illegal_evt; } break; case LINK_FAILINGOVER: switch (evt) { case LINK_FAILOVER_END_EVT: l->state = LINK_RESET; break; case LINK_PEER_RESET_EVT: case LINK_RESET_EVT: case LINK_ESTABLISH_EVT: case LINK_FAILURE_EVT: break; case LINK_FAILOVER_BEGIN_EVT: case LINK_SYNCH_BEGIN_EVT: case LINK_SYNCH_END_EVT: default: goto illegal_evt; } break; case LINK_ESTABLISHING: switch (evt) { case LINK_ESTABLISH_EVT: l->state = LINK_ESTABLISHED; break; case LINK_FAILOVER_BEGIN_EVT: l->state = LINK_FAILINGOVER; break; case LINK_RESET_EVT: l->state = LINK_RESET; break; case LINK_FAILURE_EVT: case LINK_PEER_RESET_EVT: case LINK_SYNCH_BEGIN_EVT: case LINK_FAILOVER_END_EVT: break; case LINK_SYNCH_END_EVT: default: goto illegal_evt; } break; case LINK_ESTABLISHED: switch (evt) { case LINK_PEER_RESET_EVT: l->state = LINK_PEER_RESET; rc |= TIPC_LINK_DOWN_EVT; break; case LINK_FAILURE_EVT: l->state = LINK_RESETTING; rc |= TIPC_LINK_DOWN_EVT; break; case LINK_RESET_EVT: l->state = LINK_RESET; break; case LINK_ESTABLISH_EVT: case LINK_SYNCH_END_EVT: break; case LINK_SYNCH_BEGIN_EVT: l->state = LINK_SYNCHING; break; case LINK_FAILOVER_BEGIN_EVT: case LINK_FAILOVER_END_EVT: default: goto illegal_evt; } break; case LINK_SYNCHING: switch (evt) { case LINK_PEER_RESET_EVT: l->state = LINK_PEER_RESET; rc |= TIPC_LINK_DOWN_EVT; break; case LINK_FAILURE_EVT: l->state = LINK_RESETTING; rc |= TIPC_LINK_DOWN_EVT; break; case LINK_RESET_EVT: l->state = LINK_RESET; break; case LINK_ESTABLISH_EVT: case LINK_SYNCH_BEGIN_EVT: break; case LINK_SYNCH_END_EVT: l->state = LINK_ESTABLISHED; break; case LINK_FAILOVER_BEGIN_EVT: case LINK_FAILOVER_END_EVT: default: goto illegal_evt; } break; default: pr_err("Unknown FSM state %x in %s\n", l->state, l->name); } return rc; illegal_evt: pr_err("Illegal FSM event %x in state %x on link %s\n", evt, l->state, l->name); return rc; } /* link_profile_stats - update statistical profiling of traffic */ static void link_profile_stats(struct tipc_link *l) { struct sk_buff *skb; struct tipc_msg *msg; int length; /* Update counters used in statistical profiling of send traffic */ l->stats.accu_queue_sz += skb_queue_len(&l->transmq); l->stats.queue_sz_counts++; skb = skb_peek(&l->transmq); if (!skb) return; msg = buf_msg(skb); length = msg_size(msg); if (msg_user(msg) == MSG_FRAGMENTER) { if (msg_type(msg) != FIRST_FRAGMENT) return; length = msg_size(msg_get_wrapped(msg)); } l->stats.msg_lengths_total += length; l->stats.msg_length_counts++; if (length <= 64) l->stats.msg_length_profile[0]++; else if (length <= 256) l->stats.msg_length_profile[1]++; else if (length <= 1024) l->stats.msg_length_profile[2]++; else if (length <= 4096) l->stats.msg_length_profile[3]++; else if (length <= 16384) l->stats.msg_length_profile[4]++; else if (length <= 32768) l->stats.msg_length_profile[5]++; else l->stats.msg_length_profile[6]++; } /* tipc_link_timeout - perform periodic task as instructed from node timeout */ int tipc_link_timeout(struct tipc_link *l, struct sk_buff_head *xmitq) { int mtyp = 0; int rc = 0; bool state = false; bool probe = false; bool setup = false; u16 bc_snt = l->bc_sndlink->snd_nxt - 1; u16 bc_acked = l->bc_rcvlink->acked; struct tipc_mon_state *mstate = &l->mon_state; switch (l->state) { case LINK_ESTABLISHED: case LINK_SYNCHING: mtyp = STATE_MSG; link_profile_stats(l); tipc_mon_get_state(l->net, l->addr, mstate, l->bearer_id); if (mstate->reset || (l->silent_intv_cnt > l->abort_limit)) return tipc_link_fsm_evt(l, LINK_FAILURE_EVT); state = bc_acked != bc_snt; state |= l->bc_rcvlink->rcv_unacked; state |= l->rcv_unacked; state |= !skb_queue_empty(&l->transmq); state |= !skb_queue_empty(&l->deferdq); probe = mstate->probing; probe |= l->silent_intv_cnt; if (probe || mstate->monitoring) l->silent_intv_cnt++; break; case LINK_RESET: setup = l->rst_cnt++ <= 4; setup |= !(l->rst_cnt % 16); mtyp = RESET_MSG; break; case LINK_ESTABLISHING: setup = true; mtyp = ACTIVATE_MSG; break; case LINK_PEER_RESET: case LINK_RESETTING: case LINK_FAILINGOVER: break; default: break; } if (state || probe || setup) tipc_link_build_proto_msg(l, mtyp, probe, 0, 0, 0, 0, xmitq); return rc; } /** * link_schedule_user - schedule a message sender for wakeup after congestion * @l: congested link * @hdr: header of message that is being sent * Create pseudo msg to send back to user when congestion abates */ static int link_schedule_user(struct tipc_link *l, struct tipc_msg *hdr) { u32 dnode = tipc_own_addr(l->net); u32 dport = msg_origport(hdr); struct sk_buff *skb; /* Create and schedule wakeup pseudo message */ skb = tipc_msg_create(SOCK_WAKEUP, 0, INT_H_SIZE, 0, dnode, l->addr, dport, 0, 0); if (!skb) return -ENOBUFS; msg_set_dest_droppable(buf_msg(skb), true); TIPC_SKB_CB(skb)->chain_imp = msg_importance(hdr); skb_queue_tail(&l->wakeupq, skb); l->stats.link_congs++; return -ELINKCONG; } /** * link_prepare_wakeup - prepare users for wakeup after congestion * @l: congested link * Wake up a number of waiting users, as permitted by available space * in the send queue */ static void link_prepare_wakeup(struct tipc_link *l) { struct sk_buff *skb, *tmp; int imp, i = 0; skb_queue_walk_safe(&l->wakeupq, skb, tmp) { imp = TIPC_SKB_CB(skb)->chain_imp; if (l->backlog[imp].len < l->backlog[imp].limit) { skb_unlink(skb, &l->wakeupq); skb_queue_tail(l->inputq, skb); } else if (i++ > 10) { break; } } } void tipc_link_reset(struct tipc_link *l) { struct sk_buff_head list; __skb_queue_head_init(&list); l->in_session = false; l->session++; l->mtu = l->advertised_mtu; spin_lock_bh(&l->wakeupq.lock); skb_queue_splice_init(&l->wakeupq, &list); spin_unlock_bh(&l->wakeupq.lock); spin_lock_bh(&l->inputq->lock); skb_queue_splice_init(&list, l->inputq); spin_unlock_bh(&l->inputq->lock); __skb_queue_purge(&l->transmq); __skb_queue_purge(&l->deferdq); __skb_queue_purge(&l->backlogq); l->backlog[TIPC_LOW_IMPORTANCE].len = 0; l->backlog[TIPC_MEDIUM_IMPORTANCE].len = 0; l->backlog[TIPC_HIGH_IMPORTANCE].len = 0; l->backlog[TIPC_CRITICAL_IMPORTANCE].len = 0; l->backlog[TIPC_SYSTEM_IMPORTANCE].len = 0; kfree_skb(l->reasm_buf); kfree_skb(l->failover_reasm_skb); l->reasm_buf = NULL; l->failover_reasm_skb = NULL; l->rcv_unacked = 0; l->snd_nxt = 1; l->rcv_nxt = 1; l->snd_nxt_state = 1; l->rcv_nxt_state = 1; l->acked = 0; l->silent_intv_cnt = 0; l->rst_cnt = 0; l->stale_cnt = 0; l->bc_peer_is_up = false; memset(&l->mon_state, 0, sizeof(l->mon_state)); tipc_link_reset_stats(l); } /** * tipc_link_xmit(): enqueue buffer list according to queue situation * @link: link to use * @list: chain of buffers containing message * @xmitq: returned list of packets to be sent by caller * * Consumes the buffer chain. * Returns 0 if success, or errno: -ELINKCONG, -EMSGSIZE or -ENOBUFS * Messages at TIPC_SYSTEM_IMPORTANCE are always accepted */ int tipc_link_xmit(struct tipc_link *l, struct sk_buff_head *list, struct sk_buff_head *xmitq) { struct tipc_msg *hdr = buf_msg(skb_peek(list)); unsigned int maxwin = l->window; int imp = msg_importance(hdr); unsigned int mtu = l->mtu; u16 ack = l->rcv_nxt - 1; u16 seqno = l->snd_nxt; u16 bc_ack = l->bc_rcvlink->rcv_nxt - 1; struct sk_buff_head *transmq = &l->transmq; struct sk_buff_head *backlogq = &l->backlogq; struct sk_buff *skb, *_skb, *bskb; int pkt_cnt = skb_queue_len(list); int rc = 0; if (unlikely(msg_size(hdr) > mtu)) { skb_queue_purge(list); return -EMSGSIZE; } /* Allow oversubscription of one data msg per source at congestion */ if (unlikely(l->backlog[imp].len >= l->backlog[imp].limit)) { if (imp == TIPC_SYSTEM_IMPORTANCE) { pr_warn("%s<%s>, link overflow", link_rst_msg, l->name); return -ENOBUFS; } rc = link_schedule_user(l, hdr); } if (pkt_cnt > 1) { l->stats.sent_fragmented++; l->stats.sent_fragments += pkt_cnt; } /* Prepare each packet for sending, and add to relevant queue: */ while (skb_queue_len(list)) { skb = skb_peek(list); hdr = buf_msg(skb); msg_set_seqno(hdr, seqno); msg_set_ack(hdr, ack); msg_set_bcast_ack(hdr, bc_ack); if (likely(skb_queue_len(transmq) < maxwin)) { _skb = skb_clone(skb, GFP_ATOMIC); if (!_skb) { skb_queue_purge(list); return -ENOBUFS; } __skb_dequeue(list); __skb_queue_tail(transmq, skb); __skb_queue_tail(xmitq, _skb); TIPC_SKB_CB(skb)->ackers = l->ackers; l->rcv_unacked = 0; l->stats.sent_pkts++; seqno++; continue; } if (tipc_msg_bundle(skb_peek_tail(backlogq), hdr, mtu)) { kfree_skb(__skb_dequeue(list)); l->stats.sent_bundled++; continue; } if (tipc_msg_make_bundle(&bskb, hdr, mtu, l->addr)) { kfree_skb(__skb_dequeue(list)); __skb_queue_tail(backlogq, bskb); l->backlog[msg_importance(buf_msg(bskb))].len++; l->stats.sent_bundled++; l->stats.sent_bundles++; continue; } l->backlog[imp].len += skb_queue_len(list); skb_queue_splice_tail_init(list, backlogq); } l->snd_nxt = seqno; return rc; } static void tipc_link_advance_backlog(struct tipc_link *l, struct sk_buff_head *xmitq) { struct sk_buff *skb, *_skb; struct tipc_msg *hdr; u16 seqno = l->snd_nxt; u16 ack = l->rcv_nxt - 1; u16 bc_ack = l->bc_rcvlink->rcv_nxt - 1; while (skb_queue_len(&l->transmq) < l->window) { skb = skb_peek(&l->backlogq); if (!skb) break; _skb = skb_clone(skb, GFP_ATOMIC); if (!_skb) break; __skb_dequeue(&l->backlogq); hdr = buf_msg(skb); l->backlog[msg_importance(hdr)].len--; __skb_queue_tail(&l->transmq, skb); __skb_queue_tail(xmitq, _skb); TIPC_SKB_CB(skb)->ackers = l->ackers; msg_set_seqno(hdr, seqno); msg_set_ack(hdr, ack); msg_set_bcast_ack(hdr, bc_ack); l->rcv_unacked = 0; l->stats.sent_pkts++; seqno++; } l->snd_nxt = seqno; } static void link_retransmit_failure(struct tipc_link *l, struct sk_buff *skb) { struct tipc_msg *hdr = buf_msg(skb); pr_warn("Retransmission failure on link <%s>\n", l->name); link_print(l, "State of link "); pr_info("Failed msg: usr %u, typ %u, len %u, err %u\n", msg_user(hdr), msg_type(hdr), msg_size(hdr), msg_errcode(hdr)); pr_info("sqno %u, prev: %x, src: %x\n", msg_seqno(hdr), msg_prevnode(hdr), msg_orignode(hdr)); } /* tipc_link_retrans() - retransmit one or more packets * @l: the link to transmit on * @r: the receiving link ordering the retransmit. Same as l if unicast * @from: retransmit from (inclusive) this sequence number * @to: retransmit to (inclusive) this sequence number * xmitq: queue for accumulating the retransmitted packets */ static int tipc_link_retrans(struct tipc_link *l, struct tipc_link *r, u16 from, u16 to, struct sk_buff_head *xmitq) { struct sk_buff *_skb, *skb = skb_peek(&l->transmq); u16 bc_ack = l->bc_rcvlink->rcv_nxt - 1; u16 ack = l->rcv_nxt - 1; struct tipc_msg *hdr; if (!skb) return 0; /* Detect repeated retransmit failures on same packet */ if (r->last_retransm != buf_seqno(skb)) { r->last_retransm = buf_seqno(skb); r->stale_limit = jiffies + msecs_to_jiffies(r->tolerance); r->stale_cnt = 0; } else if (++r->stale_cnt > 99 && time_after(jiffies, r->stale_limit)) { link_retransmit_failure(l, skb); if (link_is_bc_sndlink(l)) return TIPC_LINK_DOWN_EVT; return tipc_link_fsm_evt(l, LINK_FAILURE_EVT); } skb_queue_walk(&l->transmq, skb) { hdr = buf_msg(skb); if (less(msg_seqno(hdr), from)) continue; if (more(msg_seqno(hdr), to)) break; _skb = __pskb_copy(skb, MIN_H_SIZE, GFP_ATOMIC); if (!_skb) return 0; hdr = buf_msg(_skb); msg_set_ack(hdr, ack); msg_set_bcast_ack(hdr, bc_ack); _skb->priority = TC_PRIO_CONTROL; __skb_queue_tail(xmitq, _skb); l->stats.retransmitted++; } return 0; } /* tipc_data_input - deliver data and name distr msgs to upper layer * * Consumes buffer if message is of right type * Node lock must be held */ static bool tipc_data_input(struct tipc_link *l, struct sk_buff *skb, struct sk_buff_head *inputq) { struct sk_buff_head *mc_inputq = l->bc_rcvlink->inputq; struct tipc_msg *hdr = buf_msg(skb); switch (msg_user(hdr)) { case TIPC_LOW_IMPORTANCE: case TIPC_MEDIUM_IMPORTANCE: case TIPC_HIGH_IMPORTANCE: case TIPC_CRITICAL_IMPORTANCE: if (unlikely(msg_in_group(hdr) || msg_mcast(hdr))) { skb_queue_tail(mc_inputq, skb); return true; } /* else: fall through */ case CONN_MANAGER: skb_queue_tail(inputq, skb); return true; case GROUP_PROTOCOL: skb_queue_tail(mc_inputq, skb); return true; case NAME_DISTRIBUTOR: l->bc_rcvlink->state = LINK_ESTABLISHED; skb_queue_tail(l->namedq, skb); return true; case MSG_BUNDLER: case TUNNEL_PROTOCOL: case MSG_FRAGMENTER: case BCAST_PROTOCOL: return false; default: pr_warn("Dropping received illegal msg type\n"); kfree_skb(skb); return false; }; } /* tipc_link_input - process packet that has passed link protocol check * * Consumes buffer */ static int tipc_link_input(struct tipc_link *l, struct sk_buff *skb, struct sk_buff_head *inputq) { struct tipc_msg *hdr = buf_msg(skb); struct sk_buff **reasm_skb = &l->reasm_buf; struct sk_buff *iskb; struct sk_buff_head tmpq; int usr = msg_user(hdr); int rc = 0; int pos = 0; int ipos = 0; if (unlikely(usr == TUNNEL_PROTOCOL)) { if (msg_type(hdr) == SYNCH_MSG) { __skb_queue_purge(&l->deferdq); goto drop; } if (!tipc_msg_extract(skb, &iskb, &ipos)) return rc; kfree_skb(skb); skb = iskb; hdr = buf_msg(skb); if (less(msg_seqno(hdr), l->drop_point)) goto drop; if (tipc_data_input(l, skb, inputq)) return rc; usr = msg_user(hdr); reasm_skb = &l->failover_reasm_skb; } if (usr == MSG_BUNDLER) { skb_queue_head_init(&tmpq); l->stats.recv_bundles++; l->stats.recv_bundled += msg_msgcnt(hdr); while (tipc_msg_extract(skb, &iskb, &pos)) tipc_data_input(l, iskb, &tmpq); tipc_skb_queue_splice_tail(&tmpq, inputq); return 0; } else if (usr == MSG_FRAGMENTER) { l->stats.recv_fragments++; if (tipc_buf_append(reasm_skb, &skb)) { l->stats.recv_fragmented++; tipc_data_input(l, skb, inputq); } else if (!*reasm_skb && !link_is_bc_rcvlink(l)) { pr_warn_ratelimited("Unable to build fragment list\n"); return tipc_link_fsm_evt(l, LINK_FAILURE_EVT); } return 0; } else if (usr == BCAST_PROTOCOL) { tipc_bcast_lock(l->net); tipc_link_bc_init_rcv(l->bc_rcvlink, hdr); tipc_bcast_unlock(l->net); } drop: kfree_skb(skb); return 0; } static bool tipc_link_release_pkts(struct tipc_link *l, u16 acked) { bool released = false; struct sk_buff *skb, *tmp; skb_queue_walk_safe(&l->transmq, skb, tmp) { if (more(buf_seqno(skb), acked)) break; __skb_unlink(skb, &l->transmq); kfree_skb(skb); released = true; } return released; } /* tipc_link_build_state_msg: prepare link state message for transmission * * Note that sending of broadcast ack is coordinated among nodes, to reduce * risk of ack storms towards the sender */ int tipc_link_build_state_msg(struct tipc_link *l, struct sk_buff_head *xmitq) { if (!l) return 0; /* Broadcast ACK must be sent via a unicast link => defer to caller */ if (link_is_bc_rcvlink(l)) { if (((l->rcv_nxt ^ tipc_own_addr(l->net)) & 0xf) != 0xf) return 0; l->rcv_unacked = 0; /* Use snd_nxt to store peer's snd_nxt in broadcast rcv link */ l->snd_nxt = l->rcv_nxt; return TIPC_LINK_SND_STATE; } /* Unicast ACK */ l->rcv_unacked = 0; l->stats.sent_acks++; tipc_link_build_proto_msg(l, STATE_MSG, 0, 0, 0, 0, 0, xmitq); return 0; } /* tipc_link_build_reset_msg: prepare link RESET or ACTIVATE message */ void tipc_link_build_reset_msg(struct tipc_link *l, struct sk_buff_head *xmitq) { int mtyp = RESET_MSG; struct sk_buff *skb; if (l->state == LINK_ESTABLISHING) mtyp = ACTIVATE_MSG; tipc_link_build_proto_msg(l, mtyp, 0, 0, 0, 0, 0, xmitq); /* Inform peer that this endpoint is going down if applicable */ skb = skb_peek_tail(xmitq); if (skb && (l->state == LINK_RESET)) msg_set_peer_stopping(buf_msg(skb), 1); } /* tipc_link_build_nack_msg: prepare link nack message for transmission * Note that sending of broadcast NACK is coordinated among nodes, to * reduce the risk of NACK storms towards the sender */ static int tipc_link_build_nack_msg(struct tipc_link *l, struct sk_buff_head *xmitq) { u32 def_cnt = ++l->stats.deferred_recv; int match1, match2; if (link_is_bc_rcvlink(l)) { match1 = def_cnt & 0xf; match2 = tipc_own_addr(l->net) & 0xf; if (match1 == match2) return TIPC_LINK_SND_STATE; return 0; } if ((skb_queue_len(&l->deferdq) == 1) || !(def_cnt % TIPC_NACK_INTV)) tipc_link_build_proto_msg(l, STATE_MSG, 0, 0, 0, 0, 0, xmitq); return 0; } /* tipc_link_rcv - process TIPC packets/messages arriving from off-node * @l: the link that should handle the message * @skb: TIPC packet * @xmitq: queue to place packets to be sent after this call */ int tipc_link_rcv(struct tipc_link *l, struct sk_buff *skb, struct sk_buff_head *xmitq) { struct sk_buff_head *defq = &l->deferdq; struct tipc_msg *hdr; u16 seqno, rcv_nxt, win_lim; int rc = 0; do { hdr = buf_msg(skb); seqno = msg_seqno(hdr); rcv_nxt = l->rcv_nxt; win_lim = rcv_nxt + TIPC_MAX_LINK_WIN; /* Verify and update link state */ if (unlikely(msg_user(hdr) == LINK_PROTOCOL)) return tipc_link_proto_rcv(l, skb, xmitq); if (unlikely(!link_is_up(l))) { if (l->state == LINK_ESTABLISHING) rc = TIPC_LINK_UP_EVT; goto drop; } /* Don't send probe at next timeout expiration */ l->silent_intv_cnt = 0; /* Drop if outside receive window */ if (unlikely(less(seqno, rcv_nxt) || more(seqno, win_lim))) { l->stats.duplicates++; goto drop; } /* Forward queues and wake up waiting users */ if (likely(tipc_link_release_pkts(l, msg_ack(hdr)))) { l->stale_cnt = 0; tipc_link_advance_backlog(l, xmitq); if (unlikely(!skb_queue_empty(&l->wakeupq))) link_prepare_wakeup(l); } /* Defer delivery if sequence gap */ if (unlikely(seqno != rcv_nxt)) { __tipc_skb_queue_sorted(defq, seqno, skb); rc |= tipc_link_build_nack_msg(l, xmitq); break; } /* Deliver packet */ l->rcv_nxt++; l->stats.recv_pkts++; if (!tipc_data_input(l, skb, l->inputq)) rc |= tipc_link_input(l, skb, l->inputq); if (unlikely(++l->rcv_unacked >= TIPC_MIN_LINK_WIN)) rc |= tipc_link_build_state_msg(l, xmitq); if (unlikely(rc & ~TIPC_LINK_SND_STATE)) break; } while ((skb = __skb_dequeue(defq))); return rc; drop: kfree_skb(skb); return rc; } static void tipc_link_build_proto_msg(struct tipc_link *l, int mtyp, bool probe, bool probe_reply, u16 rcvgap, int tolerance, int priority, struct sk_buff_head *xmitq) { struct tipc_link *bcl = l->bc_rcvlink; struct sk_buff *skb; struct tipc_msg *hdr; struct sk_buff_head *dfq = &l->deferdq; bool node_up = link_is_up(bcl); struct tipc_mon_state *mstate = &l->mon_state; int dlen = 0; void *data; /* Don't send protocol message during reset or link failover */ if (tipc_link_is_blocked(l)) return; if (!tipc_link_is_up(l) && (mtyp == STATE_MSG)) return; if (!skb_queue_empty(dfq)) rcvgap = buf_seqno(skb_peek(dfq)) - l->rcv_nxt; skb = tipc_msg_create(LINK_PROTOCOL, mtyp, INT_H_SIZE, tipc_max_domain_size, l->addr, tipc_own_addr(l->net), 0, 0, 0); if (!skb) return; hdr = buf_msg(skb); data = msg_data(hdr); msg_set_session(hdr, l->session); msg_set_bearer_id(hdr, l->bearer_id); msg_set_net_plane(hdr, l->net_plane); msg_set_next_sent(hdr, l->snd_nxt); msg_set_ack(hdr, l->rcv_nxt - 1); msg_set_bcast_ack(hdr, bcl->rcv_nxt - 1); msg_set_bc_ack_invalid(hdr, !node_up); msg_set_last_bcast(hdr, l->bc_sndlink->snd_nxt - 1); msg_set_link_tolerance(hdr, tolerance); msg_set_linkprio(hdr, priority); msg_set_redundant_link(hdr, node_up); msg_set_seq_gap(hdr, 0); msg_set_seqno(hdr, l->snd_nxt + U16_MAX / 2); if (mtyp == STATE_MSG) { if (l->peer_caps & TIPC_LINK_PROTO_SEQNO) msg_set_seqno(hdr, l->snd_nxt_state++); msg_set_seq_gap(hdr, rcvgap); msg_set_bc_gap(hdr, link_bc_rcv_gap(bcl)); msg_set_probe(hdr, probe); msg_set_is_keepalive(hdr, probe || probe_reply); tipc_mon_prep(l->net, data, &dlen, mstate, l->bearer_id); msg_set_size(hdr, INT_H_SIZE + dlen); skb_trim(skb, INT_H_SIZE + dlen); l->stats.sent_states++; l->rcv_unacked = 0; } else { /* RESET_MSG or ACTIVATE_MSG */ msg_set_max_pkt(hdr, l->advertised_mtu); strcpy(data, l->if_name); msg_set_size(hdr, INT_H_SIZE + TIPC_MAX_IF_NAME); skb_trim(skb, INT_H_SIZE + TIPC_MAX_IF_NAME); } if (probe) l->stats.sent_probes++; if (rcvgap) l->stats.sent_nacks++; skb->priority = TC_PRIO_CONTROL; __skb_queue_tail(xmitq, skb); } void tipc_link_create_dummy_tnl_msg(struct tipc_link *l, struct sk_buff_head *xmitq) { u32 onode = tipc_own_addr(l->net); struct tipc_msg *hdr, *ihdr; struct sk_buff_head tnlq; struct sk_buff *skb; u32 dnode = l->addr; skb_queue_head_init(&tnlq); skb = tipc_msg_create(TUNNEL_PROTOCOL, FAILOVER_MSG, INT_H_SIZE, BASIC_H_SIZE, dnode, onode, 0, 0, 0); if (!skb) { pr_warn("%sunable to create tunnel packet\n", link_co_err); return; } hdr = buf_msg(skb); msg_set_msgcnt(hdr, 1); msg_set_bearer_id(hdr, l->peer_bearer_id); ihdr = (struct tipc_msg *)msg_data(hdr); tipc_msg_init(onode, ihdr, TIPC_LOW_IMPORTANCE, TIPC_DIRECT_MSG, BASIC_H_SIZE, dnode); msg_set_errcode(ihdr, TIPC_ERR_NO_PORT); __skb_queue_tail(&tnlq, skb); tipc_link_xmit(l, &tnlq, xmitq); } /* tipc_link_tnl_prepare(): prepare and return a list of tunnel packets * with contents of the link's transmit and backlog queues. */ void tipc_link_tnl_prepare(struct tipc_link *l, struct tipc_link *tnl, int mtyp, struct sk_buff_head *xmitq) { struct sk_buff *skb, *tnlskb; struct tipc_msg *hdr, tnlhdr; struct sk_buff_head *queue = &l->transmq; struct sk_buff_head tmpxq, tnlq; u16 pktlen, pktcnt, seqno = l->snd_nxt; if (!tnl) return; skb_queue_head_init(&tnlq); skb_queue_head_init(&tmpxq); /* At least one packet required for safe algorithm => add dummy */ skb = tipc_msg_create(TIPC_LOW_IMPORTANCE, TIPC_DIRECT_MSG, BASIC_H_SIZE, 0, l->addr, tipc_own_addr(l->net), 0, 0, TIPC_ERR_NO_PORT); if (!skb) { pr_warn("%sunable to create tunnel packet\n", link_co_err); return; } skb_queue_tail(&tnlq, skb); tipc_link_xmit(l, &tnlq, &tmpxq); __skb_queue_purge(&tmpxq); /* Initialize reusable tunnel packet header */ tipc_msg_init(tipc_own_addr(l->net), &tnlhdr, TUNNEL_PROTOCOL, mtyp, INT_H_SIZE, l->addr); pktcnt = skb_queue_len(&l->transmq) + skb_queue_len(&l->backlogq); msg_set_msgcnt(&tnlhdr, pktcnt); msg_set_bearer_id(&tnlhdr, l->peer_bearer_id); tnl: /* Wrap each packet into a tunnel packet */ skb_queue_walk(queue, skb) { hdr = buf_msg(skb); if (queue == &l->backlogq) msg_set_seqno(hdr, seqno++); pktlen = msg_size(hdr); msg_set_size(&tnlhdr, pktlen + INT_H_SIZE); tnlskb = tipc_buf_acquire(pktlen + INT_H_SIZE, GFP_ATOMIC); if (!tnlskb) { pr_warn("%sunable to send packet\n", link_co_err); return; } skb_copy_to_linear_data(tnlskb, &tnlhdr, INT_H_SIZE); skb_copy_to_linear_data_offset(tnlskb, INT_H_SIZE, hdr, pktlen); __skb_queue_tail(&tnlq, tnlskb); } if (queue != &l->backlogq) { queue = &l->backlogq; goto tnl; } tipc_link_xmit(tnl, &tnlq, xmitq); if (mtyp == FAILOVER_MSG) { tnl->drop_point = l->rcv_nxt; tnl->failover_reasm_skb = l->reasm_buf; l->reasm_buf = NULL; } } /* tipc_link_validate_msg(): validate message against current link state * Returns true if message should be accepted, otherwise false */ bool tipc_link_validate_msg(struct tipc_link *l, struct tipc_msg *hdr) { u16 curr_session = l->peer_session; u16 session = msg_session(hdr); int mtyp = msg_type(hdr); if (msg_user(hdr) != LINK_PROTOCOL) return true; switch (mtyp) { case RESET_MSG: if (!l->in_session) return true; /* Accept only RESET with new session number */ return more(session, curr_session); case ACTIVATE_MSG: if (!l->in_session) return true; /* Accept only ACTIVATE with new or current session number */ return !less(session, curr_session); case STATE_MSG: /* Accept only STATE with current session number */ if (!l->in_session) return false; if (session != curr_session) return false; /* Extra sanity check */ if (!link_is_up(l) && msg_ack(hdr)) return false; if (!(l->peer_caps & TIPC_LINK_PROTO_SEQNO)) return true; /* Accept only STATE with new sequence number */ return !less(msg_seqno(hdr), l->rcv_nxt_state); default: return false; } } /* tipc_link_proto_rcv(): receive link level protocol message : * Note that network plane id propagates through the network, and may * change at any time. The node with lowest numerical id determines * network plane */ static int tipc_link_proto_rcv(struct tipc_link *l, struct sk_buff *skb, struct sk_buff_head *xmitq) { struct tipc_msg *hdr = buf_msg(skb); u16 rcvgap = 0; u16 ack = msg_ack(hdr); u16 gap = msg_seq_gap(hdr); u16 peers_snd_nxt = msg_next_sent(hdr); u16 peers_tol = msg_link_tolerance(hdr); u16 peers_prio = msg_linkprio(hdr); u16 rcv_nxt = l->rcv_nxt; u16 dlen = msg_data_sz(hdr); int mtyp = msg_type(hdr); bool reply = msg_probe(hdr); void *data; char *if_name; int rc = 0; if (tipc_link_is_blocked(l) || !xmitq) goto exit; if (tipc_own_addr(l->net) > msg_prevnode(hdr)) l->net_plane = msg_net_plane(hdr); skb_linearize(skb); hdr = buf_msg(skb); data = msg_data(hdr); if (!tipc_link_validate_msg(l, hdr)) goto exit; switch (mtyp) { case RESET_MSG: case ACTIVATE_MSG: /* Complete own link name with peer's interface name */ if_name = strrchr(l->name, ':') + 1; if (sizeof(l->name) - (if_name - l->name) <= TIPC_MAX_IF_NAME) break; if (msg_data_sz(hdr) < TIPC_MAX_IF_NAME) break; strncpy(if_name, data, TIPC_MAX_IF_NAME); /* Update own tolerance if peer indicates a non-zero value */ if (in_range(peers_tol, TIPC_MIN_LINK_TOL, TIPC_MAX_LINK_TOL)) { l->tolerance = peers_tol; l->bc_rcvlink->tolerance = peers_tol; } /* Update own priority if peer's priority is higher */ if (in_range(peers_prio, l->priority + 1, TIPC_MAX_LINK_PRI)) l->priority = peers_prio; /* If peer is going down we want full re-establish cycle */ if (msg_peer_stopping(hdr)) { rc = tipc_link_fsm_evt(l, LINK_FAILURE_EVT); break; } /* ACTIVATE_MSG serves as PEER_RESET if link is already down */ if (mtyp == RESET_MSG || !link_is_up(l)) rc = tipc_link_fsm_evt(l, LINK_PEER_RESET_EVT); /* ACTIVATE_MSG takes up link if it was already locally reset */ if (mtyp == ACTIVATE_MSG && l->state == LINK_ESTABLISHING) rc = TIPC_LINK_UP_EVT; l->peer_session = msg_session(hdr); l->in_session = true; l->peer_bearer_id = msg_bearer_id(hdr); if (l->mtu > msg_max_pkt(hdr)) l->mtu = msg_max_pkt(hdr); break; case STATE_MSG: l->rcv_nxt_state = msg_seqno(hdr) + 1; /* Update own tolerance if peer indicates a non-zero value */ if (in_range(peers_tol, TIPC_MIN_LINK_TOL, TIPC_MAX_LINK_TOL)) { l->tolerance = peers_tol; l->bc_rcvlink->tolerance = peers_tol; } /* Update own prio if peer indicates a different value */ if ((peers_prio != l->priority) && in_range(peers_prio, 1, TIPC_MAX_LINK_PRI)) { l->priority = peers_prio; rc = tipc_link_fsm_evt(l, LINK_FAILURE_EVT); } l->silent_intv_cnt = 0; l->stats.recv_states++; if (msg_probe(hdr)) l->stats.recv_probes++; if (!link_is_up(l)) { if (l->state == LINK_ESTABLISHING) rc = TIPC_LINK_UP_EVT; break; } tipc_mon_rcv(l->net, data, dlen, l->addr, &l->mon_state, l->bearer_id); /* Send NACK if peer has sent pkts we haven't received yet */ if (more(peers_snd_nxt, rcv_nxt) && !tipc_link_is_synching(l)) rcvgap = peers_snd_nxt - l->rcv_nxt; if (rcvgap || reply) tipc_link_build_proto_msg(l, STATE_MSG, 0, reply, rcvgap, 0, 0, xmitq); tipc_link_release_pkts(l, ack); /* If NACK, retransmit will now start at right position */ if (gap) { rc = tipc_link_retrans(l, l, ack + 1, ack + gap, xmitq); l->stats.recv_nacks++; } tipc_link_advance_backlog(l, xmitq); if (unlikely(!skb_queue_empty(&l->wakeupq))) link_prepare_wakeup(l); } exit: kfree_skb(skb); return rc; } /* tipc_link_build_bc_proto_msg() - create broadcast protocol message */ static bool tipc_link_build_bc_proto_msg(struct tipc_link *l, bool bcast, u16 peers_snd_nxt, struct sk_buff_head *xmitq) { struct sk_buff *skb; struct tipc_msg *hdr; struct sk_buff *dfrd_skb = skb_peek(&l->deferdq); u16 ack = l->rcv_nxt - 1; u16 gap_to = peers_snd_nxt - 1; skb = tipc_msg_create(BCAST_PROTOCOL, STATE_MSG, INT_H_SIZE, 0, l->addr, tipc_own_addr(l->net), 0, 0, 0); if (!skb) return false; hdr = buf_msg(skb); msg_set_last_bcast(hdr, l->bc_sndlink->snd_nxt - 1); msg_set_bcast_ack(hdr, ack); msg_set_bcgap_after(hdr, ack); if (dfrd_skb) gap_to = buf_seqno(dfrd_skb) - 1; msg_set_bcgap_to(hdr, gap_to); msg_set_non_seq(hdr, bcast); __skb_queue_tail(xmitq, skb); return true; } /* tipc_link_build_bc_init_msg() - synchronize broadcast link endpoints. * * Give a newly added peer node the sequence number where it should * start receiving and acking broadcast packets. */ static void tipc_link_build_bc_init_msg(struct tipc_link *l, struct sk_buff_head *xmitq) { struct sk_buff_head list; __skb_queue_head_init(&list); if (!tipc_link_build_bc_proto_msg(l->bc_rcvlink, false, 0, &list)) return; msg_set_bc_ack_invalid(buf_msg(skb_peek(&list)), true); tipc_link_xmit(l, &list, xmitq); } /* tipc_link_bc_init_rcv - receive initial broadcast synch data from peer */ void tipc_link_bc_init_rcv(struct tipc_link *l, struct tipc_msg *hdr) { int mtyp = msg_type(hdr); u16 peers_snd_nxt = msg_bc_snd_nxt(hdr); if (link_is_up(l)) return; if (msg_user(hdr) == BCAST_PROTOCOL) { l->rcv_nxt = peers_snd_nxt; l->state = LINK_ESTABLISHED; return; } if (l->peer_caps & TIPC_BCAST_SYNCH) return; if (msg_peer_node_is_up(hdr)) return; /* Compatibility: accept older, less safe initial synch data */ if ((mtyp == RESET_MSG) || (mtyp == ACTIVATE_MSG)) l->rcv_nxt = peers_snd_nxt; } /* link_bc_retr eval()- check if the indicated range can be retransmitted now * - Adjust permitted range if there is overlap with previous retransmission */ static bool link_bc_retr_eval(struct tipc_link *l, u16 *from, u16 *to) { unsigned long elapsed = jiffies_to_msecs(jiffies - l->prev_retr); if (less(*to, *from)) return false; /* New retransmission request */ if ((elapsed > TIPC_BC_RETR_LIMIT) || less(*to, l->prev_from) || more(*from, l->prev_to)) { l->prev_from = *from; l->prev_to = *to; l->prev_retr = jiffies; return true; } /* Inside range of previous retransmit */ if (!less(*from, l->prev_from) && !more(*to, l->prev_to)) return false; /* Fully or partially outside previous range => exclude overlap */ if (less(*from, l->prev_from)) { *to = l->prev_from - 1; l->prev_from = *from; } if (more(*to, l->prev_to)) { *from = l->prev_to + 1; l->prev_to = *to; } l->prev_retr = jiffies; return true; } /* tipc_link_bc_sync_rcv - update rcv link according to peer's send state */ int tipc_link_bc_sync_rcv(struct tipc_link *l, struct tipc_msg *hdr, struct sk_buff_head *xmitq) { struct tipc_link *snd_l = l->bc_sndlink; u16 peers_snd_nxt = msg_bc_snd_nxt(hdr); u16 from = msg_bcast_ack(hdr) + 1; u16 to = from + msg_bc_gap(hdr) - 1; int rc = 0; if (!link_is_up(l)) return rc; if (!msg_peer_node_is_up(hdr)) return rc; /* Open when peer ackowledges our bcast init msg (pkt #1) */ if (msg_ack(hdr)) l->bc_peer_is_up = true; if (!l->bc_peer_is_up) return rc; l->stats.recv_nacks++; /* Ignore if peers_snd_nxt goes beyond receive window */ if (more(peers_snd_nxt, l->rcv_nxt + l->window)) return rc; if (link_bc_retr_eval(snd_l, &from, &to)) rc = tipc_link_retrans(snd_l, l, from, to, xmitq); l->snd_nxt = peers_snd_nxt; if (link_bc_rcv_gap(l)) rc |= TIPC_LINK_SND_STATE; /* Return now if sender supports nack via STATE messages */ if (l->peer_caps & TIPC_BCAST_STATE_NACK) return rc; /* Otherwise, be backwards compatible */ if (!more(peers_snd_nxt, l->rcv_nxt)) { l->nack_state = BC_NACK_SND_CONDITIONAL; return 0; } /* Don't NACK if one was recently sent or peeked */ if (l->nack_state == BC_NACK_SND_SUPPRESS) { l->nack_state = BC_NACK_SND_UNCONDITIONAL; return 0; } /* Conditionally delay NACK sending until next synch rcv */ if (l->nack_state == BC_NACK_SND_CONDITIONAL) { l->nack_state = BC_NACK_SND_UNCONDITIONAL; if ((peers_snd_nxt - l->rcv_nxt) < TIPC_MIN_LINK_WIN) return 0; } /* Send NACK now but suppress next one */ tipc_link_build_bc_proto_msg(l, true, peers_snd_nxt, xmitq); l->nack_state = BC_NACK_SND_SUPPRESS; return 0; } void tipc_link_bc_ack_rcv(struct tipc_link *l, u16 acked, struct sk_buff_head *xmitq) { struct sk_buff *skb, *tmp; struct tipc_link *snd_l = l->bc_sndlink; if (!link_is_up(l) || !l->bc_peer_is_up) return; if (!more(acked, l->acked)) return; /* Skip over packets peer has already acked */ skb_queue_walk(&snd_l->transmq, skb) { if (more(buf_seqno(skb), l->acked)) break; } /* Update/release the packets peer is acking now */ skb_queue_walk_from_safe(&snd_l->transmq, skb, tmp) { if (more(buf_seqno(skb), acked)) break; if (!--TIPC_SKB_CB(skb)->ackers) { __skb_unlink(skb, &snd_l->transmq); kfree_skb(skb); } } l->acked = acked; tipc_link_advance_backlog(snd_l, xmitq); if (unlikely(!skb_queue_empty(&snd_l->wakeupq))) link_prepare_wakeup(snd_l); } /* tipc_link_bc_nack_rcv(): receive broadcast nack message * This function is here for backwards compatibility, since * no BCAST_PROTOCOL/STATE messages occur from TIPC v2.5. */ int tipc_link_bc_nack_rcv(struct tipc_link *l, struct sk_buff *skb, struct sk_buff_head *xmitq) { struct tipc_msg *hdr = buf_msg(skb); u32 dnode = msg_destnode(hdr); int mtyp = msg_type(hdr); u16 acked = msg_bcast_ack(hdr); u16 from = acked + 1; u16 to = msg_bcgap_to(hdr); u16 peers_snd_nxt = to + 1; int rc = 0; kfree_skb(skb); if (!tipc_link_is_up(l) || !l->bc_peer_is_up) return 0; if (mtyp != STATE_MSG) return 0; if (dnode == tipc_own_addr(l->net)) { tipc_link_bc_ack_rcv(l, acked, xmitq); rc = tipc_link_retrans(l->bc_sndlink, l, from, to, xmitq); l->stats.recv_nacks++; return rc; } /* Msg for other node => suppress own NACK at next sync if applicable */ if (more(peers_snd_nxt, l->rcv_nxt) && !less(l->rcv_nxt, from)) l->nack_state = BC_NACK_SND_SUPPRESS; return 0; } void tipc_link_set_queue_limits(struct tipc_link *l, u32 win) { int max_bulk = TIPC_MAX_PUBL / (l->mtu / ITEM_SIZE); l->window = win; l->backlog[TIPC_LOW_IMPORTANCE].limit = max_t(u16, 50, win); l->backlog[TIPC_MEDIUM_IMPORTANCE].limit = max_t(u16, 100, win * 2); l->backlog[TIPC_HIGH_IMPORTANCE].limit = max_t(u16, 150, win * 3); l->backlog[TIPC_CRITICAL_IMPORTANCE].limit = max_t(u16, 200, win * 4); l->backlog[TIPC_SYSTEM_IMPORTANCE].limit = max_bulk; } /** * link_reset_stats - reset link statistics * @l: pointer to link */ void tipc_link_reset_stats(struct tipc_link *l) { memset(&l->stats, 0, sizeof(l->stats)); } static void link_print(struct tipc_link *l, const char *str) { struct sk_buff *hskb = skb_peek(&l->transmq); u16 head = hskb ? msg_seqno(buf_msg(hskb)) : l->snd_nxt - 1; u16 tail = l->snd_nxt - 1; pr_info("%s Link <%s> state %x\n", str, l->name, l->state); pr_info("XMTQ: %u [%u-%u], BKLGQ: %u, SNDNX: %u, RCVNX: %u\n", skb_queue_len(&l->transmq), head, tail, skb_queue_len(&l->backlogq), l->snd_nxt, l->rcv_nxt); } /* Parse and validate nested (link) properties valid for media, bearer and link */ int tipc_nl_parse_link_prop(struct nlattr *prop, struct nlattr *props[]) { int err; err = nla_parse_nested(props, TIPC_NLA_PROP_MAX, prop, tipc_nl_prop_policy, NULL); if (err) return err; if (props[TIPC_NLA_PROP_PRIO]) { u32 prio; prio = nla_get_u32(props[TIPC_NLA_PROP_PRIO]); if (prio > TIPC_MAX_LINK_PRI) return -EINVAL; } if (props[TIPC_NLA_PROP_TOL]) { u32 tol; tol = nla_get_u32(props[TIPC_NLA_PROP_TOL]); if ((tol < TIPC_MIN_LINK_TOL) || (tol > TIPC_MAX_LINK_TOL)) return -EINVAL; } if (props[TIPC_NLA_PROP_WIN]) { u32 win; win = nla_get_u32(props[TIPC_NLA_PROP_WIN]); if ((win < TIPC_MIN_LINK_WIN) || (win > TIPC_MAX_LINK_WIN)) return -EINVAL; } return 0; } static int __tipc_nl_add_stats(struct sk_buff *skb, struct tipc_stats *s) { int i; struct nlattr *stats; struct nla_map { u32 key; u32 val; }; struct nla_map map[] = { {TIPC_NLA_STATS_RX_INFO, 0}, {TIPC_NLA_STATS_RX_FRAGMENTS, s->recv_fragments}, {TIPC_NLA_STATS_RX_FRAGMENTED, s->recv_fragmented}, {TIPC_NLA_STATS_RX_BUNDLES, s->recv_bundles}, {TIPC_NLA_STATS_RX_BUNDLED, s->recv_bundled}, {TIPC_NLA_STATS_TX_INFO, 0}, {TIPC_NLA_STATS_TX_FRAGMENTS, s->sent_fragments}, {TIPC_NLA_STATS_TX_FRAGMENTED, s->sent_fragmented}, {TIPC_NLA_STATS_TX_BUNDLES, s->sent_bundles}, {TIPC_NLA_STATS_TX_BUNDLED, s->sent_bundled}, {TIPC_NLA_STATS_MSG_PROF_TOT, (s->msg_length_counts) ? s->msg_length_counts : 1}, {TIPC_NLA_STATS_MSG_LEN_CNT, s->msg_length_counts}, {TIPC_NLA_STATS_MSG_LEN_TOT, s->msg_lengths_total}, {TIPC_NLA_STATS_MSG_LEN_P0, s->msg_length_profile[0]}, {TIPC_NLA_STATS_MSG_LEN_P1, s->msg_length_profile[1]}, {TIPC_NLA_STATS_MSG_LEN_P2, s->msg_length_profile[2]}, {TIPC_NLA_STATS_MSG_LEN_P3, s->msg_length_profile[3]}, {TIPC_NLA_STATS_MSG_LEN_P4, s->msg_length_profile[4]}, {TIPC_NLA_STATS_MSG_LEN_P5, s->msg_length_profile[5]}, {TIPC_NLA_STATS_MSG_LEN_P6, s->msg_length_profile[6]}, {TIPC_NLA_STATS_RX_STATES, s->recv_states}, {TIPC_NLA_STATS_RX_PROBES, s->recv_probes}, {TIPC_NLA_STATS_RX_NACKS, s->recv_nacks}, {TIPC_NLA_STATS_RX_DEFERRED, s->deferred_recv}, {TIPC_NLA_STATS_TX_STATES, s->sent_states}, {TIPC_NLA_STATS_TX_PROBES, s->sent_probes}, {TIPC_NLA_STATS_TX_NACKS, s->sent_nacks}, {TIPC_NLA_STATS_TX_ACKS, s->sent_acks}, {TIPC_NLA_STATS_RETRANSMITTED, s->retransmitted}, {TIPC_NLA_STATS_DUPLICATES, s->duplicates}, {TIPC_NLA_STATS_LINK_CONGS, s->link_congs}, {TIPC_NLA_STATS_MAX_QUEUE, s->max_queue_sz}, {TIPC_NLA_STATS_AVG_QUEUE, s->queue_sz_counts ? (s->accu_queue_sz / s->queue_sz_counts) : 0} }; stats = nla_nest_start(skb, TIPC_NLA_LINK_STATS); if (!stats) return -EMSGSIZE; for (i = 0; i < ARRAY_SIZE(map); i++) if (nla_put_u32(skb, map[i].key, map[i].val)) goto msg_full; nla_nest_end(skb, stats); return 0; msg_full: nla_nest_cancel(skb, stats); return -EMSGSIZE; } /* Caller should hold appropriate locks to protect the link */ int __tipc_nl_add_link(struct net *net, struct tipc_nl_msg *msg, struct tipc_link *link, int nlflags) { u32 self = tipc_own_addr(net); struct nlattr *attrs; struct nlattr *prop; void *hdr; int err; hdr = genlmsg_put(msg->skb, msg->portid, msg->seq, &tipc_genl_family, nlflags, TIPC_NL_LINK_GET); if (!hdr) return -EMSGSIZE; attrs = nla_nest_start(msg->skb, TIPC_NLA_LINK); if (!attrs) goto msg_full; if (nla_put_string(msg->skb, TIPC_NLA_LINK_NAME, link->name)) goto attr_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_LINK_DEST, tipc_cluster_mask(self))) goto attr_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_LINK_MTU, link->mtu)) goto attr_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_LINK_RX, link->stats.recv_pkts)) goto attr_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_LINK_TX, link->stats.sent_pkts)) goto attr_msg_full; if (tipc_link_is_up(link)) if (nla_put_flag(msg->skb, TIPC_NLA_LINK_UP)) goto attr_msg_full; if (link->active) if (nla_put_flag(msg->skb, TIPC_NLA_LINK_ACTIVE)) goto attr_msg_full; prop = nla_nest_start(msg->skb, TIPC_NLA_LINK_PROP); if (!prop) goto attr_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_PROP_PRIO, link->priority)) goto prop_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_PROP_TOL, link->tolerance)) goto prop_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_PROP_WIN, link->window)) goto prop_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_PROP_PRIO, link->priority)) goto prop_msg_full; nla_nest_end(msg->skb, prop); err = __tipc_nl_add_stats(msg->skb, &link->stats); if (err) goto attr_msg_full; nla_nest_end(msg->skb, attrs); genlmsg_end(msg->skb, hdr); return 0; prop_msg_full: nla_nest_cancel(msg->skb, prop); attr_msg_full: nla_nest_cancel(msg->skb, attrs); msg_full: genlmsg_cancel(msg->skb, hdr); return -EMSGSIZE; } static int __tipc_nl_add_bc_link_stat(struct sk_buff *skb, struct tipc_stats *stats) { int i; struct nlattr *nest; struct nla_map { __u32 key; __u32 val; }; struct nla_map map[] = { {TIPC_NLA_STATS_RX_INFO, stats->recv_pkts}, {TIPC_NLA_STATS_RX_FRAGMENTS, stats->recv_fragments}, {TIPC_NLA_STATS_RX_FRAGMENTED, stats->recv_fragmented}, {TIPC_NLA_STATS_RX_BUNDLES, stats->recv_bundles}, {TIPC_NLA_STATS_RX_BUNDLED, stats->recv_bundled}, {TIPC_NLA_STATS_TX_INFO, stats->sent_pkts}, {TIPC_NLA_STATS_TX_FRAGMENTS, stats->sent_fragments}, {TIPC_NLA_STATS_TX_FRAGMENTED, stats->sent_fragmented}, {TIPC_NLA_STATS_TX_BUNDLES, stats->sent_bundles}, {TIPC_NLA_STATS_TX_BUNDLED, stats->sent_bundled}, {TIPC_NLA_STATS_RX_NACKS, stats->recv_nacks}, {TIPC_NLA_STATS_RX_DEFERRED, stats->deferred_recv}, {TIPC_NLA_STATS_TX_NACKS, stats->sent_nacks}, {TIPC_NLA_STATS_TX_ACKS, stats->sent_acks}, {TIPC_NLA_STATS_RETRANSMITTED, stats->retransmitted}, {TIPC_NLA_STATS_DUPLICATES, stats->duplicates}, {TIPC_NLA_STATS_LINK_CONGS, stats->link_congs}, {TIPC_NLA_STATS_MAX_QUEUE, stats->max_queue_sz}, {TIPC_NLA_STATS_AVG_QUEUE, stats->queue_sz_counts ? (stats->accu_queue_sz / stats->queue_sz_counts) : 0} }; nest = nla_nest_start(skb, TIPC_NLA_LINK_STATS); if (!nest) return -EMSGSIZE; for (i = 0; i < ARRAY_SIZE(map); i++) if (nla_put_u32(skb, map[i].key, map[i].val)) goto msg_full; nla_nest_end(skb, nest); return 0; msg_full: nla_nest_cancel(skb, nest); return -EMSGSIZE; } int tipc_nl_add_bc_link(struct net *net, struct tipc_nl_msg *msg) { int err; void *hdr; struct nlattr *attrs; struct nlattr *prop; struct tipc_net *tn = net_generic(net, tipc_net_id); struct tipc_link *bcl = tn->bcl; if (!bcl) return 0; tipc_bcast_lock(net); hdr = genlmsg_put(msg->skb, msg->portid, msg->seq, &tipc_genl_family, NLM_F_MULTI, TIPC_NL_LINK_GET); if (!hdr) { tipc_bcast_unlock(net); return -EMSGSIZE; } attrs = nla_nest_start(msg->skb, TIPC_NLA_LINK); if (!attrs) goto msg_full; /* The broadcast link is always up */ if (nla_put_flag(msg->skb, TIPC_NLA_LINK_UP)) goto attr_msg_full; if (nla_put_flag(msg->skb, TIPC_NLA_LINK_BROADCAST)) goto attr_msg_full; if (nla_put_string(msg->skb, TIPC_NLA_LINK_NAME, bcl->name)) goto attr_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_LINK_RX, 0)) goto attr_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_LINK_TX, 0)) goto attr_msg_full; prop = nla_nest_start(msg->skb, TIPC_NLA_LINK_PROP); if (!prop) goto attr_msg_full; if (nla_put_u32(msg->skb, TIPC_NLA_PROP_WIN, bcl->window)) goto prop_msg_full; nla_nest_end(msg->skb, prop); err = __tipc_nl_add_bc_link_stat(msg->skb, &bcl->stats); if (err) goto attr_msg_full; tipc_bcast_unlock(net); nla_nest_end(msg->skb, attrs); genlmsg_end(msg->skb, hdr); return 0; prop_msg_full: nla_nest_cancel(msg->skb, prop); attr_msg_full: nla_nest_cancel(msg->skb, attrs); msg_full: tipc_bcast_unlock(net); genlmsg_cancel(msg->skb, hdr); return -EMSGSIZE; } void tipc_link_set_tolerance(struct tipc_link *l, u32 tol, struct sk_buff_head *xmitq) { l->tolerance = tol; if (l->bc_rcvlink) l->bc_rcvlink->tolerance = tol; if (link_is_up(l)) tipc_link_build_proto_msg(l, STATE_MSG, 0, 0, 0, tol, 0, xmitq); } void tipc_link_set_prio(struct tipc_link *l, u32 prio, struct sk_buff_head *xmitq) { l->priority = prio; tipc_link_build_proto_msg(l, STATE_MSG, 0, 0, 0, 0, prio, xmitq); } void tipc_link_set_abort_limit(struct tipc_link *l, u32 limit) { l->abort_limit = limit; } |