SWIM Protocol

The Scalable Weakly Consistent Infection-style Process Group Membership (SWIM) Protocol is a group membership protocol based on "outsourced heartbeats"^[1] used in distributed systems, first introduced by Abhinandan Das, Indranil Gupta and Ashish Motivala in 2002.^[2][3] It is a hybrid algorithm which combines failure detection with group membership dissemination.

The protocol has two components, the Failure Detector Component and the Dissemination Component.

The Failure Detector Component functions as follows:

1. Every T' time units, each node (${\displaystyle N_1}$) sends a ping to random other node (${\displaystyle N_2}$) in its membership list.
2. If ${\displaystyle N_1}$ receives a response from ${\displaystyle N_2}$, ${\displaystyle N_2}$ is decided to be healthy and N1 updates its "last heard from" timestamp for ${\displaystyle N_2}$ to be the current time.
3. If ${\displaystyle N_1}$ does not receive a response, ${\displaystyle N_1}$ contacts k other nodes on its list (${\displaystyle \{N_3,...,N_{3+k}\}}$), and requests that they ping ${\displaystyle N_2}$.
4. If after T' units of time: if no successful response is received, ${\displaystyle N_1}$ marks ${\displaystyle N_2}$ as failed.

The Dissemination Component functions as follows:

• Upon ${\displaystyle N_1}$ detecting a failed node ${\displaystyle N_2}$, ${\displaystyle N_1}$ sends a multicast message to the rest of the nodes in its membership list, with information about the failed node.
• Voluntary requests for a node to enter/leave the group are also sent via multicast.

The protocol provides the following guarantees:

• Strong Completeness: Full completeness is guaranteed (e.g. the crash-failure of any node in the group is eventually detected by all live nodes).
• Detection Time: The expected value of detection time (from node failure to detection) is ${\displaystyle T^{\prime }\stackrel{}{\dot{}}\frac{1}{1-e^{-q_f}}}$, where ${\displaystyle T^{\prime }}$ is the length of the protocol period, and ${\displaystyle q_f}$ is the fraction of non-faulty nodes in the group.^[3]

The original SWIM paper lists the following extensions to make the protocol more robust:^[2]

• Suspicion: Nodes that are unresponsive to ping messages are not initially marked as failed. Instead, they are marked as "suspicious"; nodes which discover a "suspicious" node still send a multicast to all other nodes including this mechanism. If a "suspicious" node responds to a ping before some time-out threshold, an "alive" message is sent via multicast to remove the "suspicious" label from the node.
• Infection-Style Dissemination: Instead of propagating node failure information via multicast, protocol messages are piggybacked on the ping messages used to determine node liveness. This is equivalent to gossip dissemination.
• Round-Robin Probe Target Selection: Instead of randomly picking a node to probe during each protocol time step, the protocol is modified so that each node performs a round-robin selection of probe target. This bounds the worst-case detection time of the protocol, without degrading the average detection time.

• Failure detector
• Crash (computing)

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