private static int executeCmd(String[] args, String outFile, String errFile) throws Exception {
LOG.info("Running: " + org.apache.commons.lang.StringUtils.join(args, ' '));
PrintStream out =
outFile == null
? SessionState.getConsole().getChildOutStream()
: new PrintStream(new FileOutputStream(outFile), true);
PrintStream err =
errFile == null
? SessionState.getConsole().getChildErrStream()
: new PrintStream(new FileOutputStream(errFile), true);
Process executor = Runtime.getRuntime().exec(args);
StreamPrinter errPrinter = new StreamPrinter(executor.getErrorStream(), null, err);
StreamPrinter outPrinter = new StreamPrinter(executor.getInputStream(), null, out);
outPrinter.start();
errPrinter.start();
int result = executor.waitFor();
outPrinter.join();
errPrinter.join();
if (outFile != null) {
out.close();
}
if (errFile != null) {
err.close();
}
return result;
}
public int executeInChildVM(DriverContext driverContext) {
// execute in child jvm
try {
// generate the cmd line to run in the child jvm
Context ctx = driverContext.getCtx();
String hiveJar = conf.getJar();
String hadoopExec = conf.getVar(HiveConf.ConfVars.HADOOPBIN);
conf.setVar(
ConfVars.HIVEADDEDJARS, Utilities.getResourceFiles(conf, SessionState.ResourceType.JAR));
// write out the plan to a local file
Path planPath = new Path(ctx.getLocalTmpPath(), "plan.xml");
MapredLocalWork plan = getWork();
LOG.info("Generating plan file " + planPath.toString());
OutputStream out = null;
try {
out = FileSystem.getLocal(conf).create(planPath);
SerializationUtilities.serializePlan(plan, out);
out.close();
out = null;
} finally {
IOUtils.closeQuietly(out);
}
String isSilent = "true".equalsIgnoreCase(System.getProperty("test.silent")) ? "-nolog" : "";
String jarCmd;
jarCmd = hiveJar + " " + ExecDriver.class.getName();
String hiveConfArgs = ExecDriver.generateCmdLine(conf, ctx);
String cmdLine =
hadoopExec
+ " jar "
+ jarCmd
+ " -localtask -plan "
+ planPath.toString()
+ " "
+ isSilent
+ " "
+ hiveConfArgs;
String workDir = (new File(".")).getCanonicalPath();
String files = Utilities.getResourceFiles(conf, SessionState.ResourceType.FILE);
if (!files.isEmpty()) {
cmdLine = cmdLine + " -files " + files;
workDir = ctx.getLocalTmpPath().toUri().getPath();
if (!(new File(workDir)).mkdir()) {
throw new IOException("Cannot create tmp working dir: " + workDir);
}
for (String f : StringUtils.split(files, ',')) {
Path p = new Path(f);
String target = p.toUri().getPath();
String link = workDir + Path.SEPARATOR + p.getName();
if (FileUtil.symLink(target, link) != 0) {
throw new IOException("Cannot link to added file: " + target + " from: " + link);
}
}
}
// Inherit Java system variables
String hadoopOpts;
StringBuilder sb = new StringBuilder();
Properties p = System.getProperties();
for (String element : HIVE_SYS_PROP) {
if (p.containsKey(element)) {
sb.append(" -D" + element + "=" + p.getProperty(element));
}
}
hadoopOpts = sb.toString();
// Inherit the environment variables
String[] env;
Map<String, String> variables = new HashMap<String, String>(System.getenv());
// The user can specify the hadoop memory
// if ("local".equals(conf.getVar(HiveConf.ConfVars.HADOOPJT))) {
// if we are running in local mode - then the amount of memory used
// by the child jvm can no longer default to the memory used by the
// parent jvm
// int hadoopMem = conf.getIntVar(HiveConf.ConfVars.HIVEHADOOPMAXMEM);
int hadoopMem = conf.getIntVar(HiveConf.ConfVars.HIVEHADOOPMAXMEM);
if (hadoopMem == 0) {
// remove env var that would default child jvm to use parent's memory
// as default. child jvm would use default memory for a hadoop client
variables.remove(HADOOP_MEM_KEY);
} else {
// user specified the memory for local mode hadoop run
console.printInfo(" set heap size\t" + hadoopMem + "MB");
variables.put(HADOOP_MEM_KEY, String.valueOf(hadoopMem));
}
// } else {
// nothing to do - we are not running in local mode - only submitting
// the job via a child process. in this case it's appropriate that the
// child jvm use the same memory as the parent jvm
// }
// Set HADOOP_USER_NAME env variable for child process, so that
// it also runs with hadoop permissions for the user the job is running as
// This will be used by hadoop only in unsecure(/non kerberos) mode
String endUserName = Utils.getUGI().getShortUserName();
LOG.debug("setting HADOOP_USER_NAME\t" + endUserName);
variables.put("HADOOP_USER_NAME", endUserName);
if (variables.containsKey(HADOOP_OPTS_KEY)) {
variables.put(HADOOP_OPTS_KEY, variables.get(HADOOP_OPTS_KEY) + hadoopOpts);
} else {
variables.put(HADOOP_OPTS_KEY, hadoopOpts);
}
// For Windows OS, we need to pass HIVE_HADOOP_CLASSPATH Java parameter while starting
// Hiveserver2 using "-hiveconf hive.hadoop.classpath=%HIVE_LIB%". This is to combine path(s).
if (HiveConf.getVar(conf, HiveConf.ConfVars.HIVE_HADOOP_CLASSPATH) != null) {
if (variables.containsKey("HADOOP_CLASSPATH")) {
variables.put(
"HADOOP_CLASSPATH",
variables.get("HADOOP_CLASSPATH")
+ ";"
+ HiveConf.getVar(conf, HiveConf.ConfVars.HIVE_HADOOP_CLASSPATH));
} else {
variables.put(
"HADOOP_CLASSPATH", HiveConf.getVar(conf, HiveConf.ConfVars.HIVE_HADOOP_CLASSPATH));
}
}
if (variables.containsKey(MapRedTask.HIVE_DEBUG_RECURSIVE)) {
MapRedTask.configureDebugVariablesForChildJVM(variables);
}
if (UserGroupInformation.isSecurityEnabled() && UserGroupInformation.isLoginKeytabBased()) {
// If kerberos security is enabled, and HS2 doAs is enabled,
// then additional params need to be set so that the command is run as
// intended user
secureDoAs = new SecureCmdDoAs(conf);
secureDoAs.addEnv(variables);
}
// If HIVE_LOCAL_TASK_CHILD_OPTS is set, child VM environment setting
// HADOOP_CLIENT_OPTS will be replaced with HIVE_LOCAL_TASK_CHILD_OPTS.
// HADOOP_OPTS is updated too since HADOOP_CLIENT_OPTS is appended
// to HADOOP_OPTS in most cases. This way, the local task JVM can
// have different settings from those of HiveServer2.
if (variables.containsKey(HIVE_LOCAL_TASK_CHILD_OPTS_KEY)) {
String childOpts = variables.get(HIVE_LOCAL_TASK_CHILD_OPTS_KEY);
if (childOpts == null) {
childOpts = "";
}
String clientOpts = variables.put(HADOOP_CLIENT_OPTS, childOpts);
String tmp = variables.get(HADOOP_OPTS_KEY);
if (tmp != null && !StringUtils.isBlank(clientOpts)) {
tmp = tmp.replace(clientOpts, childOpts);
variables.put(HADOOP_OPTS_KEY, tmp);
}
}
env = new String[variables.size()];
int pos = 0;
for (Map.Entry<String, String> entry : variables.entrySet()) {
String name = entry.getKey();
String value = entry.getValue();
env[pos++] = name + "=" + value;
LOG.debug("Setting env: " + env[pos - 1]);
}
LOG.info("Executing: " + cmdLine);
// Run ExecDriver in another JVM
executor = Runtime.getRuntime().exec(cmdLine, env, new File(workDir));
CachingPrintStream errPrintStream = new CachingPrintStream(System.err);
StreamPrinter outPrinter = new StreamPrinter(executor.getInputStream(), null, System.out);
StreamPrinter errPrinter = new StreamPrinter(executor.getErrorStream(), null, errPrintStream);
outPrinter.start();
errPrinter.start();
int exitVal = jobExecHelper.progressLocal(executor, getId());
// wait for stream threads to finish
outPrinter.join();
errPrinter.join();
if (exitVal != 0) {
LOG.error("Execution failed with exit status: " + exitVal);
if (SessionState.get() != null) {
SessionState.get().addLocalMapRedErrors(getId(), errPrintStream.getOutput());
}
} else {
LOG.info("Execution completed successfully");
}
return exitVal;
} catch (Exception e) {
LOG.error("Exception: " + e, e);
return (1);
} finally {
if (secureDoAs != null) {
secureDoAs.close();
}
}
}