private ChangesRequiringRestart getChangesRequiringRestart(Port newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("port"); return changes; } }
private ChangesRequiringRestart getChangesRequiringRestart(Filedistributor newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("filedistributor"); changes.compare(this.configid, newConfig.configid, "configid", "All params must be flagged as 'restart' because this config is manually\nretrieved by ConfiguredApplication.start to init the rpc server\n\nfiledistributor rpc configuration"); return changes; } }
private ChangesRequiringRestart getChangesRequiringRestart(Mmap newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("mmap"); changes.compareArray(this.options, newConfig.options, "options", "Multiple optional options for use with mmap", (a,b) -> new ChangesRequiringRestart("options").compare(a,b,"","Multiple optional options for use with mmap")); changes.compare(this.advise, newConfig.advise, "advise", "Advise to give to os when mapping memory."); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Indexing newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("indexing"); changes.mergeChanges("write", this.write.getChangesRequiringRestart(newConfig.write)); changes.mergeChanges("read", this.read.getChangesRequiringRestart(newConfig.read)); changes.compare(this.threads, newConfig.threads, "threads", "Control number of threads used for indexing"); changes.compare(this.tasklimit, newConfig.tasklimit, "tasklimit", "Maximum number of pending operations for each of the internal\nindexing threads. Only used when visibility delay is zero."); changes.compare(this.semiunboundtasklimit, newConfig.semiunboundtasklimit, "semiunboundtasklimit", "Parameter used to calculate maximum number of pending operations\nfor each of the internal indexing threads when visibility delay is\nnonzero. The number is divided by the number of indexing threads,\ni.e. when indexing.threads is 4 and indexing.semiunboundtasklimit\nis 40000 then effective task limit is 10000."); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Attribute newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("attribute"); changes.mergeChanges("write", this.write.getChangesRequiringRestart(newConfig.write)); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(LoadTypeConfig newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("load-type"); changes.compareArray(this.type, newConfig.type, "type", "", (a,b) -> ((Type)a).getChangesRequiringRestart((Type)b)); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Read newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("read"); changes.compare(this.io, newConfig.io, "io", "Control io options during read of stored documents.\nAll summary.read options will take effect immediately on new files written.\nOn old files it will take effect either upon compact or on restart."); changes.mergeChanges("mmap", this.mmap.getChangesRequiringRestart(newConfig.mmap)); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Search newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("search"); changes.mergeChanges("mmap", this.mmap.getChangesRequiringRestart(newConfig.mmap)); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(SlobroksConfig newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("slobroks"); changes.compareArray(this.slobrok, newConfig.slobrok, "slobrok", "", (a,b) -> ((Slobrok)a).getChangesRequiringRestart((Slobrok)b)); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Application newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("application"); return changes; } }
private ChangesRequiringRestart getChangesRequiringRestart(Cache newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("cache"); changes.compare(this.size, newConfig.size, "size", "How much memory is set aside for caching.\nNow only used for caching of dictionary lookups."); return changes; } }
private ChangesRequiringRestart getChangesRequiringRestart(Persistence_provider newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("persistence_provider"); changes.compare(this.type, newConfig.type, "type", "Configure persistence provider. Temporary here to test."); changes.mergeChanges("rpc", this.rpc.getChangesRequiringRestart(newConfig.rpc)); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Grouping newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("grouping"); changes.mergeChanges("sessionmanager", this.sessionmanager.getChangesRequiringRestart(newConfig.sessionmanager)); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Mmap newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("mmap"); changes.compareArray(this.options, newConfig.options, "options", "Multiple optional options for use with mmap", (a,b) -> new ChangesRequiringRestart("options").compare(a,b,"","Multiple optional options for use with mmap")); changes.compare(this.advise, newConfig.advise, "advise", "Advise to give to os when mapping memory."); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Affinity newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("affinity"); return changes; } }
private ChangesRequiringRestart getChangesRequiringRestart(Cpu newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("cpu"); changes.compare(this.cores, newConfig.cores, "cores", "The number of cores on the cpu.\nIf set to 0, this is sampled by using std::thread::hardware_concurrency()."); return changes; } }
private ChangesRequiringRestart getChangesRequiringRestart(QrConfig newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("qr"); changes.mergeChanges("filedistributor", this.filedistributor.getChangesRequiringRestart(newConfig.filedistributor)); changes.mergeChanges("rpc", this.rpc.getChangesRequiringRestart(newConfig.rpc)); changes.compare(this.discriminator, newConfig.discriminator, "discriminator", "A unique identifier string for this QRS. The only guarantee given is\nthis string will be unique for every QRS in a Vespa application."); changes.compare(this.restartOnDeploy, newConfig.restartOnDeploy, "restartOnDeploy", "Force restart of container on deploy, and defer any changes until restart"); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Index newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("index"); changes.mergeChanges("warmup", this.warmup.getChangesRequiringRestart(newConfig.warmup)); changes.mergeChanges("cache", this.cache.getChangesRequiringRestart(newConfig.cache)); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(StorDistributormanagerConfig newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("stor-distributormanager"); changes.compareArray(this.blockedstatecheckers, newConfig.blockedstatecheckers, "blockedstatecheckers", "List of state checkers (ideal state generators) that should be ignored in the cluster.\nOne or more of the following (case insensitive):\n \nSynchronizeAndMove\nDeleteExtraCopies\nJoinBuckets\nSplitBucket\nSplitInconsistentBuckets\nSetBucketState\nGarbageCollection", (a,b) -> new ChangesRequiringRestart("blockedstatecheckers").compare(a,b,"","List of state checkers (ideal state generators) that should be ignored in the cluster.\nOne or more of the following (case insensitive):\n \nSynchronizeAndMove\nDeleteExtraCopies\nJoinBuckets\nSplitBucket\nSplitInconsistentBuckets\nSetBucketState\nGarbageCollection")); changes.compare(this.start_distributor_thread, newConfig.start_distributor_thread, "start_distributor_thread", "For internal in process debugging, it may be useful to not start the\ndistributor thread to be able to call tick() manually and run single threaded"); return changes; }
private ChangesRequiringRestart getChangesRequiringRestart(Element newConfig) { ChangesRequiringRestart changes = new ChangesRequiringRestart("element"); return changes; } }