2 * net/tipc/net.c: TIPC network routing code
4 * Copyright (c) 1995-2006, Ericsson AB
5 * Copyright (c) 2005, 2010-2011, Wind River Systems
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39 #include "name_distr.h"
46 * The TIPC locking policy is designed to ensure a very fine locking
47 * granularity, permitting complete parallel access to individual
48 * port and node/link instances. The code consists of three major
49 * locking domains, each protected with their own disjunct set of locks.
51 * 1: The routing hierarchy.
52 * Comprises the structures 'zone', 'cluster', 'node', 'link'
53 * and 'bearer'. The whole hierarchy is protected by a big
54 * read/write lock, tipc_net_lock, to enssure that nothing is added
55 * or removed while code is accessing any of these structures.
56 * This layer must not be called from the two others while they
57 * hold any of their own locks.
58 * Neither must it itself do any upcalls to the other two before
59 * it has released tipc_net_lock and other protective locks.
61 * Within the tipc_net_lock domain there are two sub-domains;'node' and
62 * 'bearer', where local write operations are permitted,
63 * provided that those are protected by individual spin_locks
64 * per instance. Code holding tipc_net_lock(read) and a node spin_lock
65 * is permitted to poke around in both the node itself and its
66 * subordinate links. I.e, it can update link counters and queues,
67 * change link state, send protocol messages, and alter the
68 * "active_links" array in the node; but it can _not_ remove a link
69 * or a node from the overall structure.
70 * Correspondingly, individual bearers may change status within a
71 * tipc_net_lock(read), protected by an individual spin_lock ber bearer
72 * instance, but it needs tipc_net_lock(write) to remove/add any bearers.
75 * 2: The transport level of the protocol.
76 * This consists of the structures port, (and its user level
77 * representations, such as user_port and tipc_sock), reference and
78 * tipc_user (port.c, reg.c, socket.c).
80 * This layer has four different locks:
81 * - The tipc_port spin_lock. This is protecting each port instance
82 * from parallel data access and removal. Since we can not place
83 * this lock in the port itself, it has been placed in the
84 * corresponding reference table entry, which has the same life
85 * cycle as the module. This entry is difficult to access from
86 * outside the TIPC core, however, so a pointer to the lock has
87 * been added in the port instance, -to be used for unlocking
89 * - A read/write lock to protect the reference table itself (teg.c).
90 * (Nobody is using read-only access to this, so it can just as
91 * well be changed to a spin_lock)
92 * - A spin lock to protect the registry of kernel/driver users (reg.c)
93 * - A global spin_lock (tipc_port_lock), which only task is to ensure
94 * consistency where more than one port is involved in an operation,
95 * i.e., whe a port is part of a linked list of ports.
96 * There are two such lists; 'port_list', which is used for management,
97 * and 'wait_list', which is used to queue ports during congestion.
99 * 3: The name table (name_table.c, name_distr.c, subscription.c)
100 * - There is one big read/write-lock (tipc_nametbl_lock) protecting the
101 * overall name table structure. Nothing must be added/removed to
102 * this structure without holding write access to it.
103 * - There is one local spin_lock per sub_sequence, which can be seen
104 * as a sub-domain to the tipc_nametbl_lock domain. It is used only
105 * for translation operations, and is needed because a translation
106 * steps the root of the 'publication' linked list between each lookup.
107 * This is always used within the scope of a tipc_nametbl_lock(read).
108 * - A local spin_lock protecting the queue of subscriber events.
111 DEFINE_RWLOCK(tipc_net_lock
);
113 static void net_route_named_msg(struct sk_buff
*buf
)
115 struct tipc_msg
*msg
= buf_msg(buf
);
119 if (!msg_named(msg
)) {
124 dnode
= addr_domain(msg_lookup_scope(msg
));
125 dport
= tipc_nametbl_translate(msg_nametype(msg
), msg_nameinst(msg
), &dnode
);
127 msg_set_destnode(msg
, dnode
);
128 msg_set_destport(msg
, dport
);
129 tipc_net_route_msg(buf
);
132 tipc_reject_msg(buf
, TIPC_ERR_NO_NAME
);
135 void tipc_net_route_msg(struct sk_buff
*buf
)
137 struct tipc_msg
*msg
;
144 /* Handle message for this node */
145 dnode
= msg_short(msg
) ? tipc_own_addr
: msg_destnode(msg
);
146 if (tipc_in_scope(dnode
, tipc_own_addr
)) {
147 if (msg_isdata(msg
)) {
149 tipc_port_recv_mcast(buf
, NULL
);
150 else if (msg_destport(msg
))
151 tipc_port_recv_msg(buf
);
153 net_route_named_msg(buf
);
156 switch (msg_user(msg
)) {
157 case NAME_DISTRIBUTOR
:
158 tipc_named_recv(buf
);
161 tipc_port_recv_proto_msg(buf
);
169 /* Handle message for another node */
170 skb_trim(buf
, msg_size(msg
));
171 tipc_link_send(buf
, dnode
, msg_link_selector(msg
));
174 int tipc_net_start(u32 addr
)
176 char addr_string
[16];
181 tipc_own_addr
= addr
;
187 tipc_k_signal((Handler
)tipc_subscr_start
, 0);
188 tipc_k_signal((Handler
)tipc_cfg_init
, 0);
190 info("Started in network mode\n");
191 info("Own node address %s, network identity %u\n",
192 tipc_addr_string_fill(addr_string
, tipc_own_addr
), tipc_net_id
);
196 void tipc_net_stop(void)
198 struct tipc_node
*node
, *t_node
;
202 write_lock_bh(&tipc_net_lock
);
205 list_for_each_entry_safe(node
, t_node
, &tipc_node_list
, list
)
206 tipc_node_delete(node
);
207 write_unlock_bh(&tipc_net_lock
);
208 info("Left network mode\n");