/** {@inheritDoc} */
@Override
public void onClose() throws IgniteCheckedException {
if (data == null)
// Nothing to close.
return;
try {
U.closeQuiet(data.getStatement());
} catch (SQLException e) {
throw new IgniteCheckedException(e);
}
U.closeQuiet(data);
}
/** @throws IOException If failed. */
private void initFavicon() throws IOException {
assert favicon == null;
InputStream in = getClass().getResourceAsStream("favicon.ico");
if (in != null) {
BufferedInputStream bis = new BufferedInputStream(in);
ByteArrayOutputStream bos = new ByteArrayOutputStream();
try {
byte[] buf = new byte[2048];
while (true) {
int n = bis.read(buf);
if (n == -1) break;
bos.write(buf, 0, n);
}
favicon = bos.toByteArray();
} finally {
U.closeQuiet(bis);
}
}
}
/**
* Loads test configuration.
*
* @throws Exception if configuration is unawailable or broken.
*/
private void loadTestConfiguration() throws Exception {
assert TEST_CONFIGURATION_FILE.isFile();
InputStream in = null;
Properties p = new Properties();
try {
in = new FileInputStream(TEST_CONFIGURATION_FILE);
p.load(in);
} finally {
U.closeQuiet(in);
}
clientNodes = Integer.parseInt(p.getProperty("client.nodes.count"));
srvNodes = Integer.parseInt(p.getProperty("server.nodes.count"));
threadsPerClient = Integer.parseInt(p.getProperty("threads.per.client"));
cancelRate = Integer.parseInt(p.getProperty("cancel.rate"));
submitDelay = Long.parseLong(p.getProperty("submit.delay"));
taskParams =
new GridJobLoadTestParams(
Integer.parseInt(p.getProperty("jobs.count")),
Integer.parseInt(p.getProperty("jobs.test.duration")),
Integer.parseInt(p.getProperty("jobs.test.completion.delay")),
Double.parseDouble(p.getProperty("jobs.failure.probability")));
}
/** @param workTokDir Token directory (common for multiple nodes). */
private void cleanupResources(File workTokDir) {
RandomAccessFile lockFile = null;
FileLock lock = null;
try {
lockFile = new RandomAccessFile(new File(workTokDir, LOCK_FILE_NAME), "rw");
lock = lockFile.getChannel().lock();
if (lock != null) processTokenDirectory(workTokDir);
else if (log.isDebugEnabled())
log.debug(
"Token directory is being processed concurrently: " + workTokDir.getAbsolutePath());
} catch (OverlappingFileLockException ignored) {
if (log.isDebugEnabled())
log.debug(
"Token directory is being processed concurrently: " + workTokDir.getAbsolutePath());
} catch (FileLockInterruptionException ignored) {
Thread.currentThread().interrupt();
} catch (IOException e) {
U.error(log, "Failed to process directory: " + workTokDir.getAbsolutePath(), e);
} finally {
U.releaseQuiet(lock);
U.closeQuiet(lockFile);
}
}
/** {@inheritDoc} */
@Override
public void start() throws IgniteCheckedException {
IpcSharedMemoryNativeLoader.load(log);
pid = IpcSharedMemoryUtils.pid();
if (pid == -1) throw new IpcEndpointBindException("Failed to get PID of the current process.");
if (size <= 0) throw new IpcEndpointBindException("Space size should be positive: " + size);
String tokDirPath = this.tokDirPath;
if (F.isEmpty(tokDirPath)) throw new IpcEndpointBindException("Token directory path is empty.");
tokDirPath = tokDirPath + '/' + locNodeId.toString() + '-' + IpcSharedMemoryUtils.pid();
tokDir = U.resolveWorkDirectory(tokDirPath, false);
if (port <= 0 || port >= 0xffff)
throw new IpcEndpointBindException("Port value is illegal: " + port);
try {
srvSock = new ServerSocket();
// Always bind to loopback.
srvSock.bind(new InetSocketAddress("127.0.0.1", port));
} catch (IOException e) {
// Although empty socket constructor never throws exception, close it just in case.
U.closeQuiet(srvSock);
throw new IpcEndpointBindException(
"Failed to bind shared memory IPC endpoint (is port already " + "in use?): " + port, e);
}
gcWorker = new GcWorker(gridName, "ipc-shmem-gc", log);
new IgniteThread(gcWorker).start();
if (log.isInfoEnabled())
log.info(
"IPC shared memory server endpoint started [port="
+ port
+ ", tokDir="
+ tokDir.getAbsolutePath()
+ ']');
}
/** {@inheritDoc} */
@Override
public void close() {
closed = true;
U.closeQuiet(srvSock);
if (gcWorker != null) {
U.cancel(gcWorker);
// This method may be called from already interrupted thread.
// Need to ensure cleaning on close.
boolean interrupted = Thread.interrupted();
try {
U.join(gcWorker);
} catch (IgniteInterruptedCheckedException e) {
U.warn(log, "Interrupted when stopping GC worker.", e);
} finally {
if (interrupted) Thread.currentThread().interrupt();
}
}
}
/** @throws IOException If failed. */
private void initDefaultPage() throws IOException {
assert dfltPage == null;
InputStream in = getClass().getResourceAsStream("rest.html");
if (in != null) {
LineNumberReader rdr = new LineNumberReader(new InputStreamReader(in));
try {
StringBuilder buf = new StringBuilder(2048);
for (String line = rdr.readLine(); line != null; line = rdr.readLine()) {
buf.append(line);
if (!line.endsWith(" ")) buf.append(" ");
}
dfltPage = buf.toString();
} finally {
U.closeQuiet(rdr);
}
}
}
/** {@inheritDoc} */
@Override
public GridDeployment getDeployment(GridDeploymentMetadata meta) {
assert meta != null;
assert ctx.config().isPeerClassLoadingEnabled();
// Validate metadata.
assert meta.classLoaderId() != null;
assert meta.senderNodeId() != null;
assert meta.sequenceNumber() >= -1;
assert meta.parentLoader() == null;
if (log.isDebugEnabled())
log.debug("Starting to peer-load class based on deployment metadata: " + meta);
while (true) {
List<SharedDeployment> depsToCheck = null;
SharedDeployment dep = null;
synchronized (mux) {
// Check obsolete request.
if (isDeadClassLoader(meta)) return null;
List<SharedDeployment> deps = cache.get(meta.userVersion());
if (deps != null) {
assert !deps.isEmpty();
for (SharedDeployment d : deps) {
if (d.hasParticipant(meta.senderNodeId(), meta.classLoaderId())
|| meta.senderNodeId().equals(ctx.localNodeId())) {
// Done.
dep = d;
break;
}
}
if (dep == null) {
GridTuple2<Boolean, SharedDeployment> redeployCheck = checkRedeploy(meta);
if (!redeployCheck.get1()) {
// Checking for redeployment encountered invalid state.
if (log.isDebugEnabled())
log.debug("Checking for redeployment encountered invalid state: " + meta);
return null;
}
dep = redeployCheck.get2();
if (dep == null) {
// Find existing deployments that need to be checked
// whether they should be reused for this request.
for (SharedDeployment d : deps) {
if (!d.isPendingUndeploy() && !d.isUndeployed()) {
if (depsToCheck == null) depsToCheck = new LinkedList<SharedDeployment>();
if (log.isDebugEnabled()) log.debug("Adding deployment to check: " + d);
depsToCheck.add(d);
}
}
// If no deployment can be reused, create a new one.
if (depsToCheck == null) {
dep = createNewDeployment(meta, false);
deps.add(dep);
}
}
}
} else {
GridTuple2<Boolean, SharedDeployment> redeployCheck = checkRedeploy(meta);
if (!redeployCheck.get1()) {
// Checking for redeployment encountered invalid state.
if (log.isDebugEnabled())
log.debug("Checking for redeployment encountered invalid state: " + meta);
return null;
}
dep = redeployCheck.get2();
if (dep == null)
// Create peer class loader.
dep = createNewDeployment(meta, true);
}
}
if (dep != null) {
if (log.isDebugEnabled())
log.debug("Found SHARED or CONTINUOUS deployment after first check: " + dep);
// Cache the deployed class.
Class<?> cls = dep.deployedClass(meta.className(), meta.alias());
if (cls == null) {
U.warn(
log,
"Failed to load peer class (ignore if class got undeployed during preloading) [alias="
+ meta.alias()
+ ", dep="
+ dep
+ ']');
return null;
}
return dep;
}
assert meta.parentLoader() == null;
assert depsToCheck != null;
assert !depsToCheck.isEmpty();
/*
* Logic below must be performed outside of synchronization
* because it involves network calls.
*/
// Check if class can be loaded from existing nodes.
// In most cases this loop will find something.
for (SharedDeployment d : depsToCheck) {
// Load class. Note, that remote node will not load this class.
// The class will only be loaded on this node.
Class<?> cls = d.deployedClass(meta.className(), meta.alias());
if (cls != null) {
synchronized (mux) {
if (!d.isUndeployed() && !d.isPendingUndeploy()) {
if (!addParticipant(d, meta)) return null;
if (log.isDebugEnabled())
log.debug(
"Acquired deployment after verifying it's availability on "
+ "existing nodes [depCls="
+ cls
+ ", dep="
+ d
+ ", meta="
+ meta
+ ']');
return d;
}
}
} else if (log.isDebugEnabled()) {
log.debug(
"Deployment cannot be reused (class does not exist on participating nodes) [dep="
+ d
+ ", meta="
+ meta
+ ']');
}
}
// We are here either because all participant nodes failed
// or the class indeed should have a separate deployment.
for (SharedDeployment d : depsToCheck) {
// Temporary class loader.
ClassLoader temp =
new GridDeploymentClassLoader(
GridUuid.randomUuid(),
meta.userVersion(),
meta.deploymentMode(),
true,
ctx,
ctxLdr,
meta.classLoaderId(),
meta.senderNodeId(),
meta.sequenceNumber(),
comm,
ctx.config().getNetworkTimeout(),
log,
ctx.config().getPeerClassLoadingClassPathExclude(),
0,
false);
String path = U.classNameToResourceName(d.sampleClassName());
// We check if any random class from existing deployment can be
// loaded from sender node. If it can, then we reuse existing
// deployment.
InputStream rsrcIn = temp.getResourceAsStream(path);
if (rsrcIn != null) {
// We don't need the actual stream.
U.closeQuiet(rsrcIn);
synchronized (mux) {
if (d.isUndeployed() || d.isPendingUndeploy()) continue;
// Add new node prior to loading the class, so we attempt
// to load the class from the latest node.
if (!addParticipant(d, meta)) {
if (log.isDebugEnabled())
log.debug(
"Failed to add participant to deployment "
+ "[meta="
+ meta
+ ", dep="
+ dep
+ ']');
return null;
}
}
Class<?> depCls = d.deployedClass(meta.className(), meta.alias());
if (depCls == null) {
U.error(
log,
"Failed to peer load class after loading it as a resource [alias="
+ meta.alias()
+ ", dep="
+ dep
+ ']');
return null;
}
if (log.isDebugEnabled())
log.debug(
"Acquired deployment class after verifying other class "
+ "availability on sender node [depCls="
+ depCls
+ ", rndCls="
+ d.sampleClass()
+ ", sampleClsName="
+ d.sampleClassName()
+ ", meta="
+ meta
+ ']');
return d;
} else if (log.isDebugEnabled())
log.debug(
"Deployment cannot be reused (random class could not be loaded from sender node) [dep="
+ d
+ ", meta="
+ meta
+ ']');
}
synchronized (mux) {
if (log.isDebugEnabled())
log.debug(
"None of the existing class-loaders fit (will try to create a new one): " + meta);
// Check obsolete request.
if (isDeadClassLoader(meta)) return null;
// Check that deployment picture has not changed.
List<SharedDeployment> deps = cache.get(meta.userVersion());
if (deps != null) {
assert !deps.isEmpty();
boolean retry = false;
for (SharedDeployment d : deps) {
// Double check if sender was already added.
if (d.hasParticipant(meta.senderNodeId(), meta.classLoaderId())) {
dep = d;
retry = false;
break;
}
// New deployment was added while outside of synchronization.
// Need to recheck it again.
if (!d.isPendingUndeploy() && !d.isUndeployed() && !depsToCheck.contains(d))
retry = true;
}
if (retry) {
if (log.isDebugEnabled()) log.debug("Retrying due to concurrency issues: " + meta);
// Outer while loop.
continue;
}
if (dep == null) {
// No new deployments were added, so we can safely add ours.
dep = createNewDeployment(meta, false);
deps.add(dep);
if (log.isDebugEnabled())
log.debug(
"Adding new deployment within second check [dep=" + dep + ", meta=" + meta + ']');
}
} else {
dep = createNewDeployment(meta, true);
if (log.isDebugEnabled())
log.debug(
"Created new deployment within second check [dep=" + dep + ", meta=" + meta + ']');
}
}
if (dep != null) {
// Cache the deployed class.
Class<?> cls = dep.deployedClass(meta.className(), meta.alias());
if (cls == null) {
U.warn(
log,
"Failed to load peer class (ignore if class got undeployed during preloading) [alias="
+ meta.alias()
+ ", dep="
+ dep
+ ']');
return null;
}
}
return dep;
}
}
/** {@inheritDoc} */
@SuppressWarnings("ErrorNotRethrown")
@Override
public IpcEndpoint accept() throws IgniteCheckedException {
while (!Thread.currentThread().isInterrupted()) {
Socket sock = null;
boolean accepted = false;
try {
sock = srvSock.accept();
accepted = true;
InputStream inputStream = sock.getInputStream();
ObjectInputStream in = new ObjectInputStream(inputStream);
ObjectOutputStream out = new ObjectOutputStream(sock.getOutputStream());
IpcSharedMemorySpace inSpace = null;
IpcSharedMemorySpace outSpace = null;
boolean err = true;
try {
IpcSharedMemoryInitRequest req = (IpcSharedMemoryInitRequest) in.readObject();
if (log.isDebugEnabled()) log.debug("Processing request: " + req);
IgnitePair<String> p = inOutToken(req.pid(), size);
String file1 = p.get1();
String file2 = p.get2();
assert file1 != null;
assert file2 != null;
// Create tokens.
new File(file1).createNewFile();
new File(file2).createNewFile();
if (log.isDebugEnabled()) log.debug("Created token files: " + p);
inSpace = new IpcSharedMemorySpace(file1, req.pid(), pid, size, true, log);
outSpace = new IpcSharedMemorySpace(file2, pid, req.pid(), size, false, log);
IpcSharedMemoryClientEndpoint ret =
new IpcSharedMemoryClientEndpoint(inSpace, outSpace, log);
out.writeObject(
new IpcSharedMemoryInitResponse(
file2, outSpace.sharedMemoryId(), file1, inSpace.sharedMemoryId(), pid, size));
err = !in.readBoolean();
endpoints.add(ret);
return ret;
} catch (UnsatisfiedLinkError e) {
throw IpcSharedMemoryUtils.linkError(e);
} catch (IOException e) {
if (log.isDebugEnabled())
log.debug(
"Failed to process incoming connection "
+ "(was connection closed by another party):"
+ e.getMessage());
} catch (ClassNotFoundException e) {
U.error(log, "Failed to process incoming connection.", e);
} catch (ClassCastException e) {
String msg =
"Failed to process incoming connection (most probably, shared memory "
+ "rest endpoint has been configured by mistake).";
LT.warn(log, null, msg);
sendErrorResponse(out, e);
} catch (IpcOutOfSystemResourcesException e) {
if (!omitOutOfResourcesWarn) LT.warn(log, null, OUT_OF_RESOURCES_MSG);
sendErrorResponse(out, e);
} catch (IgniteCheckedException e) {
LT.error(log, e, "Failed to process incoming shared memory connection.");
sendErrorResponse(out, e);
} finally {
// Exception has been thrown, need to free system resources.
if (err) {
if (inSpace != null) inSpace.forceClose();
// Safety.
if (outSpace != null) outSpace.forceClose();
}
}
} catch (IOException e) {
if (!Thread.currentThread().isInterrupted() && !accepted)
throw new IgniteCheckedException("Failed to accept incoming connection.", e);
if (!closed)
LT.error(
log, null, "Failed to process incoming shared memory connection: " + e.getMessage());
} finally {
U.closeQuiet(sock);
}
} // while
throw new IgniteInterruptedCheckedException("Socket accept was interrupted.");
}
