/**
* Checks the consistency of the node, and continues with its children if it's consistent.
*
* @param node RepositoryNodeImpl the node to check
*/
private void recurseConsistencyCheck(RepositoryNodeImpl node) {
logger.debug2("Checking node '" + node.getNodeUrl() + "'...");
// check consistency at each node
// correct/deactivate as necessary
// 'checkNodeConsistency()' will repair if possible
if (node.checkNodeConsistency()) {
logger.debug3("Node consistent; recursing on children...");
List children = node.getNodeList(null, false);
Iterator iter = children.iterator();
while (iter.hasNext()) {
RepositoryNodeImpl child = (RepositoryNodeImpl) iter.next();
recurseConsistencyCheck(child);
}
} else {
logger.debug3("Node inconsistent; deactivating...");
deactivateInconsistentNode(node);
}
}
public void testRequestMessageCreation() throws Exception {
V3LcapMessage reqMsg =
new V3LcapMessage(
"ArchivalID_2",
"key",
"Plug42",
m_testBytes,
m_testBytes,
V3LcapMessage.MSG_REPAIR_REQ,
987654321,
m_testID,
tempDir,
theDaemon);
reqMsg.setTargetUrl("http://foo.com/");
for (Iterator ix = m_testVoteBlocks.iterator(); ix.hasNext(); ) {
reqMsg.addVoteBlock((VoteBlock) ix.next());
}
assertEquals(3, reqMsg.getProtocolVersion());
assertEquals("Plug42", reqMsg.getPluginVersion());
assertTrue(m_testID == reqMsg.getOriginatorId());
assertEquals(V3LcapMessage.MSG_REPAIR_REQ, reqMsg.getOpcode());
assertEquals("ArchivalID_2", reqMsg.getArchivalId());
assertEquals("http://foo.com/", reqMsg.getTargetUrl());
assertEquals(m_testBytes, reqMsg.getPollerNonce());
assertEquals(m_testBytes, reqMsg.getVoterNonce());
assertEquals(null, reqMsg.getVoterNonce2());
List aBlocks = new ArrayList();
List bBlocks = new ArrayList();
for (VoteBlocksIterator iter = m_testMsg.getVoteBlockIterator(); iter.hasNext(); ) {
aBlocks.add(iter.next());
}
for (VoteBlocksIterator iter = reqMsg.getVoteBlockIterator(); iter.hasNext(); ) {
bBlocks.add(iter.next());
}
assertEquals(aBlocks, bBlocks);
// Actual size of test vote blocks is unpredictable
assertTrue(reqMsg.getEstimatedEncodedLength() > V3LcapMessage.EST_ENCODED_HEADER_LENGTH);
}
public void setConfig(
Configuration config, Configuration oldConfig, Configuration.Differences changedKeys) {
// Build list of repositories from list of disk (fs) paths). Needs to
// be generalized if ever another repository implementation.
if (changedKeys.contains(ConfigManager.PARAM_PLATFORM_DISK_SPACE_LIST)) {
List lst = new ArrayList();
String dspace = config.get(ConfigManager.PARAM_PLATFORM_DISK_SPACE_LIST, "");
List paths = StringUtil.breakAt(dspace, ';');
if (paths != null) {
for (Iterator iter = paths.iterator(); iter.hasNext(); ) {
lst.add("local:" + (String) iter.next());
}
}
repoList = lst;
}
if (changedKeys.contains(PARAM_MAX_PER_AU_CACHE_SIZE)) {
paramNodeCacheSize =
config.getInt(PARAM_MAX_PER_AU_CACHE_SIZE, DEFAULT_MAX_PER_AU_CACHE_SIZE);
for (Iterator iter = getDaemon().getAllLockssRepositories().iterator(); iter.hasNext(); ) {
LockssRepository repo = (LockssRepository) iter.next();
if (repo instanceof LockssRepositoryImpl) {
LockssRepositoryImpl repoImpl = (LockssRepositoryImpl) repo;
repoImpl.setNodeCacheSize(paramNodeCacheSize);
}
}
}
if (changedKeys.contains(PARAM_MAX_SUSPECT_VERSIONS_CACHE_SIZE)) {
paramSuspectVersionsCacheSize =
config.getInt(
PARAM_MAX_SUSPECT_VERSIONS_CACHE_SIZE, DEFAULT_MAX_SUSPECT_VERSIONS_CACHE_SIZE);
suspectVersionsCache.setMaxSize(paramSuspectVersionsCacheSize);
}
if (changedKeys.contains(GLOBAL_CACHE_PREFIX)) {
paramIsGlobalNodeCache =
config.getBoolean(PARAM_GLOBAL_CACHE_ENABLED, DEFAULT_GLOBAL_CACHE_ENABLED);
if (paramIsGlobalNodeCache) {
paramGlobalNodeCacheSize =
config.getInt(PARAM_MAX_GLOBAL_CACHE_SIZE, DEFAULT_MAX_GLOBAL_CACHE_SIZE);
log.debug("global node cache size: " + paramGlobalNodeCacheSize);
globalNodeCache.setMaxSize(paramGlobalNodeCacheSize);
}
}
if (changedKeys.contains(DISK_PREFIX)) {
int minMB = config.getInt(PARAM_DISK_WARN_FRRE_MB, DEFAULT_DISK_WARN_FRRE_MB);
double minPer =
config.getPercentage(PARAM_DISK_WARN_FRRE_PERCENT, DEFAULT_DISK_WARN_FRRE_PERCENT);
paramDFWarn = PlatformUtil.DF.makeThreshold(minMB, minPer);
minMB = config.getInt(PARAM_DISK_FULL_FRRE_MB, DEFAULT_DISK_FULL_FRRE_MB);
minPer = config.getPercentage(PARAM_DISK_FULL_FRRE_PERCENT, DEFAULT_DISK_FULL_FRRE_PERCENT);
paramDFFull = PlatformUtil.DF.makeThreshold(minMB, minPer);
}
if (changedKeys.contains(PARAM_SIZE_CALC_MAX_LOAD)) {
sizeCalcMaxLoad = config.getPercentage(PARAM_SIZE_CALC_MAX_LOAD, DEFAULT_SIZE_CALC_MAX_LOAD);
}
if (changedKeys.contains(PREFIX)) {
maxUnusedDirSearch =
config.getInt(PARAM_MAX_UNUSED_DIR_SEARCH, DEFAULT_MAX_UNUSED_DIR_SEARCH);
isStatefulUnusedDirSearch =
config.getBoolean(
PARAM_IS_STATEFUL_UNUSED_DIR_SEARCH, DEFAULT_IS_STATEFUL_UNUSED_DIR_SEARCH);
enableLongComponents =
config.getBoolean(PARAM_ENABLE_LONG_COMPONENTS, DEFAULT_ENABLE_LONG_COMPONENTS);
enableLongComponentsCompatibility =
config.getBoolean(
PARAM_ENABLE_LONG_COMPONENTS_COMPATIBILITY,
DEFAULT_ENABLE_LONG_COMPONENTS_COMPATIBILITY);
maxComponentLength = config.getInt(PARAM_MAX_COMPONENT_LENGTH, DEFAULT_MAX_COMPONENT_LENGTH);
checkUnnormalized =
(CheckUnnormalizedMode)
config.getEnum(
CheckUnnormalizedMode.class,
PARAM_CHECK_UNNORMALIZED,
DEFAULT_CHECK_UNNORMALIZED);
}
}