Dear Wiki user, You have subscribed to a wiki page or wiki category on "Cassandra Wiki" for change notification.
The "ArchitectureGossip" page has been changed by JaakkoLaine. http://wiki.apache.org/cassandra/ArchitectureGossip -------------------------------------------------- New page: = Gossiper = Gossip timer task runs every second. During each of these runs the node initiates gossip exchange according to following rules: 1. Gossip to random live endpoint (if any) 1. Gossip to random unreachable endpoint with certain probability depending on number of unreachable and live nodes 1. If the node gossiped to at (1) was not seed, or the number of live nodes is less than number of seeds, gossip to random seed with certain probability depending on number of unreachable, seed and live nodes. This way a node initiates gossip exchange with one to three nodes every round (or zero if it is alone in the cluster) == Data structures == ==== HeartBeatState ==== Consists of generation and version number. Generation stays the same when server is running and grows every time the node is started. Used for disginguishing state information before and after a node restart. Version number is shared with application states and guarantees ordering. Each node has one HeartBeatState associated with it. ==== ApplicationState ==== Consists of state and version number and represents a state of single "component" or "element" within Cassandra. For instance application state for "load information" could be (5.2, 45), which means that node load is 5.2 at version 45. Similarly a node that is bootsrapping would have "bootstrapping" application state: (bxLpassF3XD8Kyks, 56) where first one is bootsrap token, and the second is version. Version number is shared by application states and HeartBeatState to guarantee ordering and can only grow. ==== EndPointState ==== Includes all ApplicationStates and HeartBeatState for certain endpoint (node). EndPointState can include only one of each type of ApplicationState, so if EndPointState already includes, say, load information, new load information will overwrite the old one. ApplicationState version number guarantees that old value will not overwrite new one. ==== endPointStateMap ==== Internal structure in Gossiper that has EndPointState for all nodes (including itself) that it has heard about. == Gossip Exchange == === GossipDigestSynMessage === Node starting gossip exchange sends GossipDigestSynMessage, which includes a list of gossip digests. A single gossip digest consists of endpoint address, generation number and maximum version that has been seen for the endpoint. In this context, maximum version number is the biggest version number in EndPointState for this endpoint. An example to illustrate this better: Suppose that node 10.0.0.1 has following information in its endPointStateMap (remember that endPointStateMap includes also node itself): {{{ EndPointState 10.0.0.1 HeartBeatState: generation 1259909635, version 325 ApplicationState "load-information": 5.2, generation 1259909635, version 45 ApplicationState "bootstrapping": bxLpassF3XD8Kyks, generation 1259909635, version 56 ApplicationState "normal": bxLpassF3XD8Kyks, generation 1259909635, version 87 EndPointState 10.0.0.2 HeartBeatState: generation 1259911052, version 61 ApplicationState "load-information": 2.7, generation 1259911052, version 2 ApplicationState "bootstrapping": AujDMftpyUvebtnn, generation 1259911052, version 31 EndPointState 10.0.0.3 HeartBeatState: generation 1259912238, version 5 ApplicationState "load-information": 12.0, generation 1259912238, version 3 EndPointState 10.0.0.4 HeartBeatState: generation 1259912942, version 18 ApplicationState "load-information": 6.7, generation 1259912942, version 3 ApplicationState "normal": bj05IVc0lvRXw2xH, generation 1259912942, version 7 }}} In this case max version number for these endpoints are 325, 61, 5 and 18 respectively. A gossip digest for endpoint 10.0.0.2 would be "10.0.0.2:1259911052:61" and essentially says "AFAIK endpoint 10.0.0.2 is running generation 1259911052 and maximum version is 61". When the node sends GossipDigestSynMessage, there will be exactly one gossip digest per known endpoint. That is, in this case GossipDigestSynMessage contents would be: "10.0.0.1:1259909635:325 10.0.0.2:1259911052:61 10.0.0.3:1259912238:5 10.0.0.4:1259912942:18". HeartBeatState version number is not necessarily always the biggest, but that is the most common situation by far. === Main code pointers: === {{{ Gossiper.GossipTimerTask.run: Main gossiper loop Gossiper.makeRandomGossipDigest: Constructs gossip digest list to be used in GossipDigestSynMessage Gossiper.makeGossipDigestSynMessage: Constructs GossipDigestSynMessage from a list of gossip digests }}} == GossipDigestAckMessage == A node receiving GossipDigestSynMessage will examine it and reply with GossipDigestAckMessage, which includes _two_ parts: gossip digest list and endpoint state list. From the gossip digest list arriving in GossipDigestSynMessage we will know for each endpoint whether the sending node has newer or older information than we do. An example to illustrate this: Suppose that we're now in node 10.0.0.2 and our endPointState is as follows: {{{ EndPointState 10.0.0.1 HeartBeatState: generation 1259909635, version 324 ApplicationState "load-information": 5.2, generation 1259909635, version 45 ApplicationState "bootstrapping": bxLpassF3XD8Kyks, generation 1259909635, version 56 ApplicationState "normal": bxLpassF3XD8Kyks, generation 1259909635, version 87 EndPointState 10.0.0.2 HeartBeatState: generation 1259911052, version 63 ApplicationState "load-information": 2.7, generation 1259911052, version 2 ApplicationState "bootstrapping": AujDMftpyUvebtnn, generation 1259911052, version 31 ApplicationState "normal": AujDMftpyUvebtnn, generation 1259911052, version 62 EndPointState 10.0.0.3 HeartBeatState: generation 1259812143, version 2142 ApplicationState "load-information": 16.0, generation 1259812143, version 1803 ApplicationState "normal": W2U1XYUC3wMppcY7, generation 1259812143, version 6 }}} Remember that the arriving gossip digest list is: "10.0.0.1:1259909635:325 10.0.0.2:1259911052:61 10.0.0.3:1259912238:5 10.0.0.4:1259912942:18". When the receiving end is handling this, following steps are done: ==== Sort gossip digest list ==== Sort gossip digest list according to the difference in max version number between sender's digest and our own information in descending order. That is, handle those digests first that differ mostly in version number. Number of endpoint information that fits in one gossip message is limited. This step is to guarantee that we favor sending information about nodes where information difference is biggest (sending node has very old information compared to us). ==== Examine gossip digest list ==== At this stage we go through the arriving gossip digest list and construct the two parts of GossipDigestAckMessage mentioned above (gossip digest list and endpoint state list). Let us go through the example digest one by one: '''10.0.0.1:1259909635:325''' In our own endPointStateMap the generation is the same, so 10.0.0.1 has not rebooted since we have last heard of it. Version number in the digest is bigger than our max version number (325 > 324), so we have to ask the sender what has happened since version 324. For this purpose we include a gossip digest 10.0.0.1:1259909635:324, which says "I know about 10.0.0.1 only until generation 1259909635, version 324, please tell me anything that is newer than this". '''10.0.0.2:1259911052:61''' When examining this, we notice that we know more than the sender about 10.0.0.2 (generations match, but our version is bigger 63 > 61). Sender's max version is 61, so we look for any states that are newer than this. As we can see from the endPointStateMap, there are two: Application state "normal" (version 62) and HeartBeatState (version 63). We send these ApplicationStates to the sender. Please note that in this case we are not sending digests, as digest only tells the maximum version number. In this case we already know that there is difference, so we will send full ApplicationStates. '''10.0.0.3:1259912238:5''' In this case generations do not match. Our generation is smaller than the arriving, so 10.0.0.3 must have rebooted. We will ask all data from the sender for generation 1259912238 starting from smallest version number 0. That is, we insert gossip digest 10.0.0.3:1259912238:0 to the reply. '''10.0.0.4:1259912942:18''' We do not know anything about this endpoint, so we proceed in the same manner as 10.0.0.3 and ask for all information. Insert digest 10.0.0.4:1259912942:0 to the reply. At this point we have constructed GossipDigestAckMessage, which includes following information: {{{ 10.0.0.1:1259909635:324 10.0.0.3:1259912238:0 10.0.0.4:1259912942:0 10.0.0.2:[ApplicationState "normal": AujDMftpyUvebtnn, generation 1259911052, version 62], [HeartBeatState, generation 1259911052, version 63] }}} We now send this GossipAckMessage to the sender of GossipSynMessage === Main Code Pointers: === {{{ GossipDigestSynVerbHandler.doVerb: Main function for handling GossipDigestSynMessage GossipDigestSynVerbHandler.doSort: Sorts gossip digest list Gossiper.examineGossiper: Examine gossip digest list Gossiper.makeGossipDigestAckMessage: Constructs GossipDigestAckMessage from a list of gossip digests }}} [[GossipDigestSynVerbHandler|]] == GossipDigestAck2Message == Rest of gossip process here....
