use of org.apache.tez.dag.api.TaskSpecBuilder in project hive by apache.
the class GenericUDTFGetSplits method getSplits.
public InputSplit[] getSplits(JobConf job, int numSplits, TezWork work, Schema schema) throws IOException {
DAG dag = DAG.create(work.getName());
dag.setCredentials(job.getCredentials());
DagUtils utils = DagUtils.getInstance();
Context ctx = new Context(job);
MapWork mapWork = (MapWork) work.getAllWork().get(0);
// bunch of things get setup in the context based on conf but we need only the MR tmp directory
// for the following method.
JobConf wxConf = utils.initializeVertexConf(job, ctx, mapWork);
// TODO: should we also whitelist input formats here? from mapred.input.format.class
Path scratchDir = utils.createTezDir(ctx.getMRScratchDir(), job);
FileSystem fs = scratchDir.getFileSystem(job);
try {
LocalResource appJarLr = createJarLocalResource(utils.getExecJarPathLocal(), utils, job);
Vertex wx = utils.createVertex(wxConf, mapWork, scratchDir, appJarLr, new ArrayList<LocalResource>(), fs, ctx, false, work, work.getVertexType(mapWork));
String vertexName = wx.getName();
dag.addVertex(wx);
utils.addCredentials(mapWork, dag);
// we have the dag now proceed to get the splits:
Preconditions.checkState(HiveConf.getBoolVar(wxConf, ConfVars.HIVE_TEZ_GENERATE_CONSISTENT_SPLITS));
Preconditions.checkState(HiveConf.getBoolVar(wxConf, ConfVars.LLAP_CLIENT_CONSISTENT_SPLITS));
HiveSplitGenerator splitGenerator = new HiveSplitGenerator(wxConf, mapWork);
List<Event> eventList = splitGenerator.initialize();
InputSplit[] result = new InputSplit[eventList.size() - 1];
InputConfigureVertexTasksEvent configureEvent = (InputConfigureVertexTasksEvent) eventList.get(0);
List<TaskLocationHint> hints = configureEvent.getLocationHint().getTaskLocationHints();
Preconditions.checkState(hints.size() == eventList.size() - 1);
if (LOG.isDebugEnabled()) {
LOG.debug("NumEvents=" + eventList.size() + ", NumSplits=" + result.length);
}
LlapCoordinator coordinator = LlapCoordinator.getInstance();
if (coordinator == null) {
throw new IOException("LLAP coordinator is not initialized; must be running in HS2 with " + ConfVars.LLAP_HS2_ENABLE_COORDINATOR.varname + " enabled");
}
// See the discussion in the implementation as to why we generate app ID.
ApplicationId applicationId = coordinator.createExtClientAppId();
// This assumes LLAP cluster owner is always the HS2 user.
String llapUser = UserGroupInformation.getLoginUser().getShortUserName();
String queryUser = null;
byte[] tokenBytes = null;
LlapSigner signer = null;
if (UserGroupInformation.isSecurityEnabled()) {
signer = coordinator.getLlapSigner(job);
// 1. Generate the token for query user (applies to all splits).
queryUser = SessionState.getUserFromAuthenticator();
if (queryUser == null) {
queryUser = UserGroupInformation.getCurrentUser().getUserName();
LOG.warn("Cannot determine the session user; using " + queryUser + " instead");
}
LlapTokenLocalClient tokenClient = coordinator.getLocalTokenClient(job, llapUser);
// We put the query user, not LLAP user, into the message and token.
Token<LlapTokenIdentifier> token = tokenClient.createToken(applicationId.toString(), queryUser, true);
LOG.info("Created the token for remote user: {}", token);
bos.reset();
token.write(dos);
tokenBytes = bos.toByteArray();
} else {
queryUser = UserGroupInformation.getCurrentUser().getUserName();
}
LOG.info("Number of splits: " + (eventList.size() - 1));
SignedMessage signedSvs = null;
for (int i = 0; i < eventList.size() - 1; i++) {
TaskSpec taskSpec = new TaskSpecBuilder().constructTaskSpec(dag, vertexName, eventList.size() - 1, applicationId, i);
// 2. Generate the vertex/submit information for all events.
if (i == 0) {
// The queryId could either be picked up from the current request being processed, or
// generated. The current request isn't exactly correct since the query is 'done' once we
// return the results. Generating a new one has the added benefit of working once this
// is moved out of a UDTF into a proper API.
// Setting this to the generated AppId which is unique.
// Despite the differences in TaskSpec, the vertex spec should be the same.
signedSvs = createSignedVertexSpec(signer, taskSpec, applicationId, queryUser, applicationId.toString());
}
SubmitWorkInfo submitWorkInfo = new SubmitWorkInfo(applicationId, System.currentTimeMillis(), taskSpec.getVertexParallelism(), signedSvs.message, signedSvs.signature);
byte[] submitWorkBytes = SubmitWorkInfo.toBytes(submitWorkInfo);
// 3. Generate input event.
SignedMessage eventBytes = makeEventBytes(wx, vertexName, eventList.get(i + 1), signer);
// 4. Make location hints.
SplitLocationInfo[] locations = makeLocationHints(hints.get(i));
result[i] = new LlapInputSplit(i, submitWorkBytes, eventBytes.message, eventBytes.signature, locations, schema, llapUser, tokenBytes);
}
return result;
} catch (Exception e) {
throw new IOException(e);
}
}
use of org.apache.tez.dag.api.TaskSpecBuilder in project hive by apache.
the class GenericUDTFGetSplits method getSplits.
public InputSplit[] getSplits(JobConf job, int numSplits, TezWork work, Schema schema, ApplicationId applicationId) throws IOException {
DAG dag = DAG.create(work.getName());
dag.setCredentials(job.getCredentials());
DagUtils utils = DagUtils.getInstance();
Context ctx = new Context(job);
MapWork mapWork = (MapWork) work.getAllWork().get(0);
// bunch of things get setup in the context based on conf but we need only the MR tmp directory
// for the following method.
JobConf wxConf = utils.initializeVertexConf(job, ctx, mapWork);
// TODO: should we also whitelist input formats here? from mapred.input.format.class
Path scratchDir = utils.createTezDir(ctx.getMRScratchDir(), job);
FileSystem fs = scratchDir.getFileSystem(job);
try {
LocalResource appJarLr = createJarLocalResource(utils.getExecJarPathLocal(ctx.getConf()), utils, job);
LlapCoordinator coordinator = LlapCoordinator.getInstance();
if (coordinator == null) {
throw new IOException("LLAP coordinator is not initialized; must be running in HS2 with " + ConfVars.LLAP_HS2_ENABLE_COORDINATOR.varname + " enabled");
}
// Update the queryId to use the generated applicationId. See comment below about
// why this is done.
HiveConf.setVar(wxConf, HiveConf.ConfVars.HIVEQUERYID, applicationId.toString());
Vertex wx = utils.createVertex(wxConf, mapWork, scratchDir, fs, ctx, false, work, work.getVertexType(mapWork), DagUtils.createTezLrMap(appJarLr, null));
String vertexName = wx.getName();
dag.addVertex(wx);
utils.addCredentials(mapWork, dag);
// we have the dag now proceed to get the splits:
Preconditions.checkState(HiveConf.getBoolVar(wxConf, ConfVars.HIVE_TEZ_GENERATE_CONSISTENT_SPLITS));
Preconditions.checkState(HiveConf.getBoolVar(wxConf, ConfVars.LLAP_CLIENT_CONSISTENT_SPLITS));
HiveSplitGenerator splitGenerator = new HiveSplitGenerator(wxConf, mapWork);
List<Event> eventList = splitGenerator.initialize();
InputSplit[] result = new InputSplit[eventList.size() - 1];
InputConfigureVertexTasksEvent configureEvent = (InputConfigureVertexTasksEvent) eventList.get(0);
List<TaskLocationHint> hints = configureEvent.getLocationHint().getTaskLocationHints();
Preconditions.checkState(hints.size() == eventList.size() - 1);
if (LOG.isDebugEnabled()) {
LOG.debug("NumEvents=" + eventList.size() + ", NumSplits=" + result.length);
}
// This assumes LLAP cluster owner is always the HS2 user.
String llapUser = UserGroupInformation.getLoginUser().getShortUserName();
String queryUser = null;
byte[] tokenBytes = null;
LlapSigner signer = null;
if (UserGroupInformation.isSecurityEnabled()) {
signer = coordinator.getLlapSigner(job);
// 1. Generate the token for query user (applies to all splits).
queryUser = SessionState.getUserFromAuthenticator();
if (queryUser == null) {
queryUser = UserGroupInformation.getCurrentUser().getUserName();
LOG.warn("Cannot determine the session user; using " + queryUser + " instead");
}
LlapTokenLocalClient tokenClient = coordinator.getLocalTokenClient(job, llapUser);
// We put the query user, not LLAP user, into the message and token.
Token<LlapTokenIdentifier> token = tokenClient.createToken(applicationId.toString(), queryUser, true);
LOG.info("Created the token for remote user: {}", token);
bos.reset();
token.write(dos);
tokenBytes = bos.toByteArray();
} else {
queryUser = UserGroupInformation.getCurrentUser().getUserName();
}
// Generate umbilical token (applies to all splits)
Token<JobTokenIdentifier> umbilicalToken = JobTokenCreator.createJobToken(applicationId);
LOG.info("Number of splits: " + (eventList.size() - 1));
SignedMessage signedSvs = null;
for (int i = 0; i < eventList.size() - 1; i++) {
TaskSpec taskSpec = new TaskSpecBuilder().constructTaskSpec(dag, vertexName, eventList.size() - 1, applicationId, i);
// 2. Generate the vertex/submit information for all events.
if (i == 0) {
// The queryId could either be picked up from the current request being processed, or
// generated. The current request isn't exactly correct since the query is 'done' once we
// return the results. Generating a new one has the added benefit of working once this
// is moved out of a UDTF into a proper API.
// Setting this to the generated AppId which is unique.
// Despite the differences in TaskSpec, the vertex spec should be the same.
signedSvs = createSignedVertexSpec(signer, taskSpec, applicationId, queryUser, applicationId.toString());
}
SubmitWorkInfo submitWorkInfo = new SubmitWorkInfo(applicationId, System.currentTimeMillis(), taskSpec.getVertexParallelism(), signedSvs.message, signedSvs.signature, umbilicalToken);
byte[] submitWorkBytes = SubmitWorkInfo.toBytes(submitWorkInfo);
// 3. Generate input event.
SignedMessage eventBytes = makeEventBytes(wx, vertexName, eventList.get(i + 1), signer);
// 4. Make location hints.
SplitLocationInfo[] locations = makeLocationHints(hints.get(i));
result[i] = new LlapInputSplit(i, submitWorkBytes, eventBytes.message, eventBytes.signature, locations, schema, llapUser, tokenBytes);
}
return result;
} catch (Exception e) {
throw new IOException(e);
}
}
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