/** * Process dangling indices based on the provided meta data, handling cleanup, finding * new dangling indices, and allocating outstanding ones. */ public void processDanglingIndices(final MetaData metaData) { if (nodeEnv.hasNodeFile() == false) { return; } cleanupAllocatedDangledIndices(metaData); findNewAndAddDanglingIndices(metaData); allocateDanglingIndices(); }
/** * Finds (@{link #findNewAndAddDanglingIndices}) and adds the new dangling indices * to the currently tracked dangling indices. */ void findNewAndAddDanglingIndices(final MetaData metaData) { danglingIndices.putAll(findNewDanglingIndices(metaData)); }
@Override public void clusterChanged(ClusterChangedEvent event) { if (event.state().blocks().disableStatePersistence() == false) { processDanglingIndices(event.state().metaData()); } } }
/** * Process dangling indices based on the provided meta data, handling cleanup, finding * new dangling indices, and allocating outstanding ones. */ public void processDanglingIndices(final MetaData metaData) { if (nodeEnv.hasNodeFile() == false) { return; } cleanupAllocatedDangledIndices(metaData); findNewAndAddDanglingIndices(metaData); allocateDanglingIndices(); }
@Override public void clusterChanged(ClusterChangedEvent event) { if (event.state().blocks().disableStatePersistence() == false) { processDanglingIndices(event.state().metaData()); } } }
/** * Finds (@{link #findNewAndAddDanglingIndices}) and adds the new dangling indices * to the currently tracked dangling indices. */ void findNewAndAddDanglingIndices(final MetaData metaData) { danglingIndices.putAll(findNewDanglingIndices(metaData)); }
/** * Process dangling indices based on the provided meta data, handling cleanup, finding * new dangling indices, and allocating outstanding ones. */ public void processDanglingIndices(final MetaData metaData) { if (nodeEnv.hasNodeFile() == false) { return; } cleanupAllocatedDangledIndices(metaData); findNewAndAddDanglingIndices(metaData); allocateDanglingIndices(); }
@Override public void clusterChanged(ClusterChangedEvent event) { if (event.state().blocks().disableStatePersistence() == false) { processDanglingIndices(event.state().metaData()); } } }
/** * Finds (@{link #findNewAndAddDanglingIndices}) and adds the new dangling indices * to the currently tracked dangling indices. */ void findNewAndAddDanglingIndices(final MetaData metaData) { danglingIndices.putAll(findNewDanglingIndices(metaData)); }
/** * Process dangling indices based on the provided meta data, handling cleanup, finding * new dangling indices, and allocating outstanding ones. */ public void processDanglingIndices(final MetaData metaData) { if (nodeEnv.hasNodeFile() == false) { return; } cleanupAllocatedDangledIndices(metaData); findNewAndAddDanglingIndices(metaData); allocateDanglingIndices(); }
@Override public void clusterChanged(ClusterChangedEvent event) { if (event.state().blocks().disableStatePersistence() == false) { processDanglingIndices(event.state().metaData()); } } }
/** * Finds (@{link #findNewAndAddDanglingIndices}) and adds the new dangling indices * to the currently tracked dangling indices. */ void findNewAndAddDanglingIndices(final MetaData metaData) { danglingIndices.putAll(findNewDanglingIndices(metaData)); }
/** * Process dangling indices based on the provided meta data, handling cleanup, finding * new dangling indices, and allocating outstanding ones. */ public void processDanglingIndices(MetaData metaData) { if (nodeEnv.hasNodeFile() == false) { return; } cleanupAllocatedDangledIndices(metaData); findNewAndAddDanglingIndices(metaData); allocateDanglingIndices(); }
danglingIndicesState.processDanglingIndices(newMetaData);
/** * Finds (@{link #findNewAndAddDanglingIndices}) and adds the new dangling indices * to the currently tracked dangling indices. */ void findNewAndAddDanglingIndices(MetaData metaData) { danglingIndices.putAll(findNewDanglingIndices(metaData)); }