Revert "HBASE-25739 TableSkewCostFunction need to use aggregated deviation (#3067)"
This reverts commit 533c84d330
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@ -163,12 +163,7 @@ public abstract class BaseLoadBalancer implements LoadBalancer {
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int[] initialRegionIndexToServerIndex; //regionIndex -> serverIndex (initial cluster state)
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int[] regionIndexToTableIndex; //regionIndex -> tableIndex
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int[][] numRegionsPerServerPerTable; //serverIndex -> tableIndex -> # regions
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int[] numRegionsPerTable; // tableIndex -> region count
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double[] meanRegionsPerTable; // mean region count per table
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double regionSkewByTable; // skew on RS per by table
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double minRegionSkewByTable; // min skew on RS per by table
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double maxRegionSkewByTable; // max skew on RS per by table
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int[] numMaxRegionsPerTable; //tableIndex -> max number of regions in a single RS
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int[] regionIndexToPrimaryIndex; //regionIndex -> regionIndex of the primary
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boolean hasRegionReplicas = false; //whether there is regions with replicas
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@ -376,7 +371,6 @@ public abstract class BaseLoadBalancer implements LoadBalancer {
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numTables = tables.size();
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numRegionsPerServerPerTable = new int[numServers][numTables];
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numRegionsPerTable = new int[numTables];
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for (int i = 0; i < numServers; i++) {
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for (int j = 0; j < numTables; j++) {
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@ -384,29 +378,21 @@ public abstract class BaseLoadBalancer implements LoadBalancer {
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}
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}
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for (int i = 0; i < numTables; i++) {
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numRegionsPerTable[i] = 0;
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}
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for (int i=0; i < regionIndexToServerIndex.length; i++) {
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if (regionIndexToServerIndex[i] >= 0) {
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numRegionsPerServerPerTable[regionIndexToServerIndex[i]][regionIndexToTableIndex[i]]++;
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numRegionsPerTable[regionIndexToTableIndex[i]]++;
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}
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}
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// Avoid repeated computation for planning
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meanRegionsPerTable = new double[numTables];
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maxRegionSkewByTable = 0;
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minRegionSkewByTable = 0;
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for (int i = 0; i < numTables; i++) {
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meanRegionsPerTable[i] = Double.valueOf(numRegionsPerTable[i]) / numServers;
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minRegionSkewByTable += Cluster.getMinSkew(numRegionsPerTable[i], numServers);
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maxRegionSkewByTable += Cluster.getMaxSkew(numRegionsPerTable[i], numServers);
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numMaxRegionsPerTable = new int[numTables];
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for (int[] aNumRegionsPerServerPerTable : numRegionsPerServerPerTable) {
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for (tableIndex = 0; tableIndex < aNumRegionsPerServerPerTable.length; tableIndex++) {
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if (aNumRegionsPerServerPerTable[tableIndex] > numMaxRegionsPerTable[tableIndex]) {
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numMaxRegionsPerTable[tableIndex] = aNumRegionsPerServerPerTable[tableIndex];
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}
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}
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}
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computeRegionSkewPerTable();
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for (int i = 0; i < regions.length; i ++) {
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RegionInfo info = regions[i];
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if (RegionReplicaUtil.isDefaultReplica(info)) {
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@ -531,53 +517,6 @@ public abstract class BaseLoadBalancer implements LoadBalancer {
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return numRegions < minLoad;
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}
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/**
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* Return the min skew of distribution
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*/
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public static double getMinSkew(double total, double numServers) {
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double mean = total / numServers;
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// It's possible that there aren't enough regions to go around
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double min;
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if (numServers > total) {
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min = ((numServers - total) * mean + (1 - mean) * total) ;
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} else {
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// Some will have 1 more than everything else.
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int numHigh = (int) (total - (Math.floor(mean) * numServers));
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int numLow = (int) (numServers - numHigh);
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min = numHigh * (Math.ceil(mean) - mean) + numLow * (mean - Math.floor(mean));
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}
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return min;
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}
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/**
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* Return the max deviation of distribution
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* Compute max as if all region servers had 0 and one had the sum of all costs. This must be
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* a zero sum cost for this to make sense.
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*/
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public static double getMaxSkew(double total, double numServers) {
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double mean = total / numServers;
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return (total - mean) + (numServers - 1) * mean;
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}
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/**
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* Scale the value between 0 and 1.
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*
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* @param min Min value
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* @param max The Max value
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* @param value The value to be scaled.
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* @return The scaled value.
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*/
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public static double scale(double min, double max, double value) {
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if (max <= min || value <= min) {
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return 0;
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}
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if ((max - min) == 0) {
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return 0;
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}
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return Math.max(0d, Math.min(1d, (value - min) / (max - min)));
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}
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/**
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* Retrieves and lazily initializes a field storing the locality of
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* every region/server combination
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@ -635,21 +574,6 @@ public abstract class BaseLoadBalancer implements LoadBalancer {
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return regionLoads[region].getLast().getStorefileSizeMB();
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}
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/**
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* Recompute the region skew during init or plan of moves.
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*/
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private void computeRegionSkewPerTable() {
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// reinitialize for recomputation
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regionSkewByTable = 0;
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for (int[] aNumRegionsPerServerPerTable : numRegionsPerServerPerTable) {
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for (int tableIndex = 0; tableIndex < aNumRegionsPerServerPerTable.length; tableIndex++) {
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regionSkewByTable += Math.abs(aNumRegionsPerServerPerTable[tableIndex]
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- meanRegionsPerTable[tableIndex]);
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}
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}
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}
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/**
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* Computes and caches the locality for each region/rack combinations,
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* as well as storing a mapping of region -> server and region -> rack such that server
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@ -905,20 +829,22 @@ public abstract class BaseLoadBalancer implements LoadBalancer {
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int tableIndex = regionIndexToTableIndex[region];
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if (oldServer >= 0) {
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numRegionsPerServerPerTable[oldServer][tableIndex]--;
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// update regionSkewPerTable for the move from old server
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regionSkewByTable +=
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Math.abs(numRegionsPerServerPerTable[oldServer][tableIndex]
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- meanRegionsPerTable[tableIndex])
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- Math.abs(numRegionsPerServerPerTable[oldServer][tableIndex] + 1
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- meanRegionsPerTable[tableIndex]);
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}
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numRegionsPerServerPerTable[newServer][tableIndex]++;
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// update regionSkewPerTable for the move to new server
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regionSkewByTable +=
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Math.abs(numRegionsPerServerPerTable[newServer][tableIndex]
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- meanRegionsPerTable[tableIndex])
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- Math.abs(numRegionsPerServerPerTable[newServer][tableIndex] - 1
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- meanRegionsPerTable[tableIndex]);
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//check whether this caused maxRegionsPerTable in the new Server to be updated
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if (numRegionsPerServerPerTable[newServer][tableIndex] > numMaxRegionsPerTable[tableIndex]) {
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numMaxRegionsPerTable[tableIndex] = numRegionsPerServerPerTable[newServer][tableIndex];
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} else if (oldServer >= 0 && (numRegionsPerServerPerTable[oldServer][tableIndex] + 1)
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== numMaxRegionsPerTable[tableIndex]) {
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//recompute maxRegionsPerTable since the previous value was coming from the old server
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numMaxRegionsPerTable[tableIndex] = 0;
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for (int[] aNumRegionsPerServerPerTable : numRegionsPerServerPerTable) {
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if (aNumRegionsPerServerPerTable[tableIndex] > numMaxRegionsPerTable[tableIndex]) {
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numMaxRegionsPerTable[tableIndex] = aNumRegionsPerServerPerTable[tableIndex];
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}
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}
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}
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// update for servers
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int primary = regionIndexToPrimaryIndex[region];
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@ -1088,7 +1014,7 @@ public abstract class BaseLoadBalancer implements LoadBalancer {
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.append(Arrays.toString(serverIndicesSortedByRegionCount))
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.append(", regionsPerServer=").append(Arrays.deepToString(regionsPerServer));
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desc.append(", regionSkewByTable=").append(regionSkewByTable)
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desc.append(", numMaxRegionsPerTable=").append(Arrays.toString(numMaxRegionsPerTable))
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.append(", numRegions=").append(numRegions).append(", numServers=").append(numServers)
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.append(", numTables=").append(numTables).append(", numMovedRegions=")
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.append(numMovedRegions).append('}');
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@ -762,7 +762,6 @@ public class StochasticLoadBalancer extends BaseLoadBalancer {
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boolean isNeeded() {
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return true;
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}
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float getMultiplier() {
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return multiplier;
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}
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@ -771,39 +770,35 @@ public class StochasticLoadBalancer extends BaseLoadBalancer {
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this.multiplier = m;
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}
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/**
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* Called once per LB invocation to give the cost function
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/** Called once per LB invocation to give the cost function
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* to initialize it's state, and perform any costly calculation.
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*/
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void init(Cluster cluster) {
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this.cluster = cluster;
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}
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/**
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* Called once per cluster Action to give the cost function
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/** Called once per cluster Action to give the cost function
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* an opportunity to update it's state. postAction() is always
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* called at least once before cost() is called with the cluster
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* that this action is performed on.
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*/
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* that this action is performed on. */
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void postAction(Action action) {
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switch (action.type) {
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case NULL:
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break;
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case ASSIGN_REGION:
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AssignRegionAction ar = (AssignRegionAction) action;
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regionMoved(ar.region, -1, ar.server);
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break;
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case MOVE_REGION:
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MoveRegionAction mra = (MoveRegionAction) action;
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regionMoved(mra.region, mra.fromServer, mra.toServer);
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break;
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case SWAP_REGIONS:
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SwapRegionsAction a = (SwapRegionsAction) action;
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regionMoved(a.fromRegion, a.fromServer, a.toServer);
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regionMoved(a.toRegion, a.toServer, a.fromServer);
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break;
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default:
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throw new RuntimeException("Uknown action:" + action.type);
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case NULL: break;
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case ASSIGN_REGION:
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AssignRegionAction ar = (AssignRegionAction) action;
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regionMoved(ar.region, -1, ar.server);
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break;
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case MOVE_REGION:
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MoveRegionAction mra = (MoveRegionAction) action;
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regionMoved(mra.region, mra.fromServer, mra.toServer);
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break;
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case SWAP_REGIONS:
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SwapRegionsAction a = (SwapRegionsAction) action;
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regionMoved(a.fromRegion, a.fromServer, a.toServer);
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regionMoved(a.toRegion, a.toServer, a.fromServer);
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break;
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default:
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throw new RuntimeException("Uknown action:" + action.type);
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}
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}
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@ -827,25 +822,59 @@ public class StochasticLoadBalancer extends BaseLoadBalancer {
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double total = getSum(stats);
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double count = stats.length;
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double mean = total / count;
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double mean = total/count;
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for (int i = 0; i < stats.length; i++) {
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// Compute max as if all region servers had 0 and one had the sum of all costs. This must be
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// a zero sum cost for this to make sense.
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double max = ((count - 1) * mean) + (total - mean);
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// It's possible that there aren't enough regions to go around
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double min;
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if (count > total) {
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min = ((count - total) * mean) + ((1 - mean) * total);
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} else {
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// Some will have 1 more than everything else.
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int numHigh = (int) (total - (Math.floor(mean) * count));
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int numLow = (int) (count - numHigh);
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min = (numHigh * (Math.ceil(mean) - mean)) + (numLow * (mean - Math.floor(mean)));
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}
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min = Math.max(0, min);
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for (int i=0; i<stats.length; i++) {
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double n = stats[i];
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double diff = Math.abs(mean - n);
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totalCost += diff;
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}
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return Cluster
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.scale(Cluster.getMinSkew(total, count), Cluster.getMaxSkew(total, count), totalCost);
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double scaled = scale(min, max, totalCost);
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return scaled;
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}
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private double getSum(double[] stats) {
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double total = 0;
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for (double s : stats) {
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for(double s:stats) {
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total += s;
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}
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return total;
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}
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/**
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* Scale the value between 0 and 1.
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*
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* @param min Min value
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* @param max The Max value
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* @param value The value to be scaled.
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* @return The scaled value.
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*/
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protected double scale(double min, double max, double value) {
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if (max <= min || value <= min) {
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return 0;
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}
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if ((max - min) == 0) return 0;
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return Math.max(0d, Math.min(1d, (value - min) / (max - min)));
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}
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}
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/**
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@ -898,7 +927,7 @@ public class StochasticLoadBalancer extends BaseLoadBalancer {
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return 1000000; // return a number much greater than any of the other cost
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}
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return Cluster.scale(0, Math.min(cluster.numRegions, maxMoves), moveCost);
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return scale(0, Math.min(cluster.numRegions, maxMoves), moveCost);
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}
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}
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@ -1006,7 +1035,15 @@ public class StochasticLoadBalancer extends BaseLoadBalancer {
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@Override
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protected double cost() {
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return Cluster.scale(cluster.minRegionSkewByTable, cluster.maxRegionSkewByTable, cluster.regionSkewByTable);
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double max = cluster.numRegions;
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double min = ((double) cluster.numRegions) / cluster.numServers;
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double value = 0;
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for (int i = 0; i < cluster.numMaxRegionsPerTable.length; i++) {
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value += cluster.numMaxRegionsPerTable[i];
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}
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return scale(min, max, value);
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}
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}
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@ -1329,7 +1366,7 @@ public class StochasticLoadBalancer extends BaseLoadBalancer {
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for (int i = 0 ; i < costsPerGroup.length; i++) {
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totalCost += costsPerGroup[i];
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}
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return Cluster.scale(0, maxCost, totalCost);
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return scale(0, maxCost, totalCost);
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}
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/**
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@ -390,8 +390,8 @@ public class TestBaseLoadBalancer extends BalancerTestBase {
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// now move region1 from servers[0] to servers[2]
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cluster.doAction(new MoveRegionAction(0, 0, 2));
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// check that the regionSkewByTable for "table" has increased to 2
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assertEquals(2, cluster.regionSkewByTable, 0.01);
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// check that the numMaxRegionsPerTable for "table" has increased to 2
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assertEquals(2, cluster.numMaxRegionsPerTable[0]);
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// now repeat check whether moving region1 from servers[1] to servers[2]
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// would lower availability
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assertTrue(cluster.wouldLowerAvailability(hri1, servers[2]));
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