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authorDavid S. Miller <davem@davemloft.net>2017-10-13 18:46:01 +0300
committerDavid S. Miller <davem@davemloft.net>2017-10-13 18:46:01 +0300
commita00344bd1bbea2ba40719ae0eb3b6da7fae08cf2 (patch)
tree3224d16251675b877b9a7d7b94420de7bbd36a9e /net/sched/sch_mqprio.c
parent2d0d21c12dfa3851620f1fa9fe2d444538f1fad4 (diff)
parent04d7b574b245c66001a33cb9da2c0311063af73f (diff)
downloadlinux-a00344bd1bbea2ba40719ae0eb3b6da7fae08cf2.tar.xz
Merge branch 'tipc-comm-groups'
Jon Maloy says: ==================== tipc: Introduce Communcation Group feature With this commit series we introduce a 'Group Communication' feature in order to resolve the datagram and multicast flow control problem. This new feature makes it possible for a user to instantiate multiple private virtual brokerless message buses by just creating and joining member sockets. The main features are as follows: --------------------------------- - Sockets can join a group via a new setsockopt() call TIPC_GROUP_JOIN. If it is the first socket of the group this implies creation of the group. This call takes four parameters: 'type' serves as group identifier, 'instance' serves as member identifier, and 'scope' indicates the visibility of the group (node/cluster/zone). Finally, 'flags' indicates different options for the socket joining the group. For the time being, there are only two such flags: 1) 'LOOPBACK' indicates if the creator of the socket wants to receive a copy of broadcast or multicast messages it sends to the group, 2) EVENTS indicates if it wants to receive membership (JOINED/LEFT) events for the other members of the group. - Groups are closed, i.e., sockets which have not joined a group will not be able to send messages to or receive messages from members of the group, and vice versa. A socket can only be member of one group at a time. - There are four transmission modes. 1: Unicast. The sender transmits a message using the port identity (node:port tuple) of the receiving socket. 2: Anycast. The sender transmits a message using a port name (type: instance:scope) of one of the receiving sockets. If more than one member socket matches the given address a destination is selected according to a round-robin algorithm, but also considering the destination load (advertised window size) as an additional criteria. 3: Multicast. The sender transmits a message using a port name (type:instance:scope) of one or more of the receiving sockets. All sockets in the group matching the given address will receive a copy of the message. 4: Broadcast. The sender transmits a message using the primtive send(). All members of the group, irrespective of their member identity (instance) number receive a copy of the message. - TIPC broadcast is used for carrying messages in mode 3 or 4 when this is deemed more efficient, i.e., depending on number of actual destinations. - All transmission modes are flow controlled, so that messages never are dropped or rejected, just like we are used to from connection oriented communication. A special algorithm guarantees that this is true even for multipoint-to-point communication, i.e., at occasions where many source sockets may decide to send simultaneously towards the same destination socket. - Sequence order is always guaranteed, even between the different transmission modes. - Member join/leave events are received in all other member sockets in guaranteed order. I.e., a 'JOINED' (an empty message with the OOB bit set) will always be received before the first data message from a new member, and a 'LEAVE' (like 'JOINED', but with EOR bit set) will always arrive after the last data message from a leaving member. ----- v2: Reordered variable declarations in descending length order, as per feedback from David Miller. This was done as far as permitted by the the initialization order. ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
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