org.apache.hadoop.util.Shell Maven / Gradle / Ivy
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.util;
import java.io.BufferedReader;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InputStreamReader;
import java.io.InterruptedIOException;
import java.nio.charset.Charset;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import java.util.Timer;
import java.util.TimerTask;
import java.util.WeakHashMap;
import java.util.concurrent.atomic.AtomicBoolean;
import org.apache.hadoop.thirdparty.com.google.common.annotations.VisibleForTesting;
import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.classification.InterfaceStability;
import org.apache.hadoop.security.alias.AbstractJavaKeyStoreProvider;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* A base class for running a Shell command.
*
* Shell can be used to run shell commands like du or
* df. It also offers facilities to gate commands by
* time-intervals.
*/
@InterfaceAudience.Public
@InterfaceStability.Evolving
public abstract class Shell {
private static final Map CHILD_SHELLS =
Collections.synchronizedMap(new WeakHashMap());
public static final Logger LOG = LoggerFactory.getLogger(Shell.class);
/**
* Text to include when there are windows-specific problems.
* {@value}
*/
private static final String WINDOWS_PROBLEMS =
"https://wiki.apache.org/hadoop/WindowsProblems";
/**
* Name of the windows utils binary: {@value}.
*/
static final String WINUTILS_EXE = "winutils.exe";
/**
* System property for the Hadoop home directory: {@value}.
*/
public static final String SYSPROP_HADOOP_HOME_DIR = "hadoop.home.dir";
/**
* Environment variable for Hadoop's home dir: {@value}.
*/
public static final String ENV_HADOOP_HOME = "HADOOP_HOME";
/**
* query to see if system is Java 7 or later.
* Now that Hadoop requires Java 7 or later, this always returns true.
* @deprecated This call isn't needed any more: please remove uses of it.
* @return true, always.
*/
@Deprecated
public static boolean isJava7OrAbove() {
return true;
}
// "1.8"->8, "9"->9, "10"->10
private static final int JAVA_SPEC_VER = Math.max(8, Integer.parseInt(
System.getProperty("java.specification.version").split("\\.")[0]));
/**
* Query to see if major version of Java specification of the system
* is equal or greater than the parameter.
*
* @param version 8, 9, 10 etc.
* @return comparison with system property, always true for 8
*/
public static boolean isJavaVersionAtLeast(int version) {
return JAVA_SPEC_VER >= version;
}
/**
* Maximum command line length in Windows
* KB830473 documents this as 8191
*/
public static final int WINDOWS_MAX_SHELL_LENGTH = 8191;
/**
* mis-spelling of {@link #WINDOWS_MAX_SHELL_LENGTH}.
* @deprecated use the correctly spelled constant.
*/
@Deprecated
public static final int WINDOWS_MAX_SHELL_LENGHT = WINDOWS_MAX_SHELL_LENGTH;
/**
* Checks if a given command (String[]) fits in the Windows maximum command
* line length Note that the input is expected to already include space
* delimiters, no extra count will be added for delimiters.
*
* @param commands command parts, including any space delimiters
*/
public static void checkWindowsCommandLineLength(String...commands)
throws IOException {
int len = 0;
for (String s: commands) {
len += s.length();
}
if (len > WINDOWS_MAX_SHELL_LENGTH) {
throw new IOException(String.format(
"The command line has a length of %d exceeds maximum allowed length" +
" of %d. Command starts with: %s",
len, WINDOWS_MAX_SHELL_LENGTH,
StringUtils.join("", commands).substring(0, 100)));
}
}
/**
* Quote the given arg so that bash will interpret it as a single value.
* Note that this quotes it for one level of bash, if you are passing it
* into a badly written shell script, you need to fix your shell script.
* @param arg the argument to quote
* @return the quoted string
*/
static String bashQuote(String arg) {
StringBuilder buffer = new StringBuilder(arg.length() + 2);
buffer.append('\'')
.append(arg.replace("'", "'\\''"))
.append('\'');
return buffer.toString();
}
/** a Unix command to get the current user's name: {@value}. */
public static final String USER_NAME_COMMAND = "whoami";
/** Windows CreateProcess synchronization object. */
public static final Object WindowsProcessLaunchLock = new Object();
// OSType detection
public enum OSType {
OS_TYPE_LINUX,
OS_TYPE_WIN,
OS_TYPE_SOLARIS,
OS_TYPE_MAC,
OS_TYPE_FREEBSD,
OS_TYPE_OTHER
}
/**
* Get the type of the operating system, as determined from parsing
* the os.name property.
*/
public static final OSType osType = getOSType();
private static OSType getOSType() {
String osName = System.getProperty("os.name");
if (osName.startsWith("Windows")) {
return OSType.OS_TYPE_WIN;
} else if (osName.contains("SunOS") || osName.contains("Solaris")) {
return OSType.OS_TYPE_SOLARIS;
} else if (osName.contains("Mac")) {
return OSType.OS_TYPE_MAC;
} else if (osName.contains("FreeBSD")) {
return OSType.OS_TYPE_FREEBSD;
} else if (osName.startsWith("Linux")) {
return OSType.OS_TYPE_LINUX;
} else {
// Some other form of Unix
return OSType.OS_TYPE_OTHER;
}
}
// Helper static vars for each platform
public static final boolean WINDOWS = (osType == OSType.OS_TYPE_WIN);
public static final boolean SOLARIS = (osType == OSType.OS_TYPE_SOLARIS);
public static final boolean MAC = (osType == OSType.OS_TYPE_MAC);
public static final boolean FREEBSD = (osType == OSType.OS_TYPE_FREEBSD);
public static final boolean LINUX = (osType == OSType.OS_TYPE_LINUX);
public static final boolean OTHER = (osType == OSType.OS_TYPE_OTHER);
public static final boolean PPC_64
= System.getProperties().getProperty("os.arch").contains("ppc64");
/** a Unix command to get the current user's groups list. */
public static String[] getGroupsCommand() {
return (WINDOWS)? new String[]{"cmd", "/c", "groups"}
: new String[]{"groups"};
}
/**
* A command to get a given user's groups list.
* If the OS is not WINDOWS, the command will get the user's primary group
* first and finally get the groups list which includes the primary group.
* i.e. the user's primary group will be included twice.
*/
public static String[] getGroupsForUserCommand(final String user) {
//'groups username' command return is inconsistent across different unixes
if (WINDOWS) {
return new String[]
{getWinUtilsPath(), "groups", "-F", "\"" + user + "\""};
} else {
String quotedUser = bashQuote(user);
return new String[] {"bash", "-c", "id -gn " + quotedUser +
"; id -Gn " + quotedUser};
}
}
/**
* A command to get a given user's group id list.
* The command will get the user's primary group
* first and finally get the groups list which includes the primary group.
* i.e. the user's primary group will be included twice.
* This command does not support Windows and will only return group names.
*/
public static String[] getGroupsIDForUserCommand(final String user) {
//'groups username' command return is inconsistent across different unixes
if (WINDOWS) {
return new String[]{getWinUtilsPath(), "groups", "-F", "\"" + user +
"\""};
} else {
String quotedUser = bashQuote(user);
return new String[] {"bash", "-c", "id -g " + quotedUser + "; id -G " +
quotedUser};
}
}
/** A command to get a given netgroup's user list. */
public static String[] getUsersForNetgroupCommand(final String netgroup) {
//'groups username' command return is non-consistent across different unixes
return new String[] {"getent", "netgroup", netgroup};
}
/** Return a command to get permission information. */
public static String[] getGetPermissionCommand() {
return (WINDOWS) ? new String[] { getWinUtilsPath(), "ls", "-F" }
: new String[] { "ls", "-ld" };
}
/** Return a command to set permission. */
public static String[] getSetPermissionCommand(String perm, boolean recursive) {
if (recursive) {
return (WINDOWS) ?
new String[] { getWinUtilsPath(), "chmod", "-R", perm }
: new String[] { "chmod", "-R", perm };
} else {
return (WINDOWS) ?
new String[] { getWinUtilsPath(), "chmod", perm }
: new String[] { "chmod", perm };
}
}
/**
* Return a command to set permission for specific file.
*
* @param perm String permission to set
* @param recursive boolean true to apply to all sub-directories recursively
* @param file String file to set
* @return String[] containing command and arguments
*/
public static String[] getSetPermissionCommand(String perm,
boolean recursive,
String file) {
String[] baseCmd = getSetPermissionCommand(perm, recursive);
String[] cmdWithFile = Arrays.copyOf(baseCmd, baseCmd.length + 1);
cmdWithFile[cmdWithFile.length - 1] = file;
return cmdWithFile;
}
/** Return a command to set owner. */
public static String[] getSetOwnerCommand(String owner) {
return (WINDOWS) ?
new String[] { getWinUtilsPath(), "chown", "\"" + owner + "\"" }
: new String[] { "chown", owner };
}
/** Return a command to create symbolic links. */
public static String[] getSymlinkCommand(String target, String link) {
return WINDOWS ?
new String[] { getWinUtilsPath(), "symlink", link, target }
: new String[] { "ln", "-s", target, link };
}
/** Return a command to read the target of the a symbolic link. */
public static String[] getReadlinkCommand(String link) {
return WINDOWS ?
new String[] { getWinUtilsPath(), "readlink", link }
: new String[] { "readlink", link };
}
/**
* Return a command for determining if process with specified pid is alive.
* @param pid process ID
* @return a kill -0 command or equivalent
*/
public static String[] getCheckProcessIsAliveCommand(String pid) {
return getSignalKillCommand(0, pid);
}
/** Return a command to send a signal to a given pid. */
public static String[] getSignalKillCommand(int code, String pid) {
// Code == 0 means check alive
if (Shell.WINDOWS) {
if (0 == code) {
return new String[] {Shell.getWinUtilsPath(), "task", "isAlive", pid };
} else {
return new String[] {Shell.getWinUtilsPath(), "task", "kill", pid };
}
}
// Use the bash-builtin instead of the Unix kill command (usually
// /bin/kill) as the bash-builtin supports "--" in all Hadoop supported
// OSes.
final String quotedPid = bashQuote(pid);
if (isSetsidAvailable) {
return new String[] { "bash", "-c", "kill -" + code + " -- -" +
quotedPid };
} else {
return new String[] { "bash", "-c", "kill -" + code + " " +
quotedPid };
}
}
/** Regular expression for environment variables: {@value}. */
public static final String ENV_NAME_REGEX = "[A-Za-z_][A-Za-z0-9_]*";
/** Return a regular expression string that match environment variables. */
public static String getEnvironmentVariableRegex() {
return (WINDOWS)
? "%(" + ENV_NAME_REGEX + "?)%"
: "\\$(" + ENV_NAME_REGEX + ")";
}
/**
* Returns a File referencing a script with the given basename, inside the
* given parent directory. The file extension is inferred by platform:
* ".cmd" on Windows, or ".sh" otherwise.
*
* @param parent File parent directory
* @param basename String script file basename
* @return File referencing the script in the directory
*/
public static File appendScriptExtension(File parent, String basename) {
return new File(parent, appendScriptExtension(basename));
}
/**
* Returns a script file name with the given basename.
*
* The file extension is inferred by platform:
* ".cmd" on Windows, or ".sh" otherwise.
*
* @param basename String script file basename
* @return String script file name
*/
public static String appendScriptExtension(String basename) {
return basename + (WINDOWS ? ".cmd" : ".sh");
}
/**
* Returns a command to run the given script. The script interpreter is
* inferred by platform: cmd on Windows or bash otherwise.
*
* @param script File script to run
* @return String[] command to run the script
*/
public static String[] getRunScriptCommand(File script) {
String absolutePath = script.getAbsolutePath();
return WINDOWS ?
new String[] {"cmd", "/c", absolutePath }
: new String[] {"bash", bashQuote(absolutePath) };
}
/** a Unix command to set permission: {@value}. */
public static final String SET_PERMISSION_COMMAND = "chmod";
/** a Unix command to set owner: {@value}. */
public static final String SET_OWNER_COMMAND = "chown";
/** a Unix command to set the change user's groups list: {@value}. */
public static final String SET_GROUP_COMMAND = "chgrp";
/** a Unix command to create a link: {@value}. */
public static final String LINK_COMMAND = "ln";
/** a Unix command to get a link target: {@value}. */
public static final String READ_LINK_COMMAND = "readlink";
/**Time after which the executing script would be timedout. */
protected long timeOutInterval = 0L;
/** If or not script timed out*/
private final AtomicBoolean timedOut = new AtomicBoolean(false);
/** Indicates if the parent env vars should be inherited or not*/
protected boolean inheritParentEnv = true;
/**
* Centralized logic to discover and validate the sanity of the Hadoop
* home directory.
*
* This does a lot of work so it should only be called
* privately for initialization once per process.
*
* @return A directory that exists and via was specified on the command line
* via -Dhadoop.home.dir or the HADOOP_HOME
* environment variable.
* @throws FileNotFoundException if the properties are absent or the specified
* path is not a reference to a valid directory.
*/
private static File checkHadoopHome() throws FileNotFoundException {
// first check the Dflag hadoop.home.dir with JVM scope
String home = System.getProperty(SYSPROP_HADOOP_HOME_DIR);
// fall back to the system/user-global env variable
if (home == null) {
home = System.getenv(ENV_HADOOP_HOME);
}
return checkHadoopHomeInner(home);
}
/*
A set of exception strings used to construct error messages;
these are referred to in tests
*/
static final String E_DOES_NOT_EXIST = "does not exist";
static final String E_IS_RELATIVE = "is not an absolute path.";
static final String E_NOT_DIRECTORY = "is not a directory.";
static final String E_NO_EXECUTABLE = "Could not locate Hadoop executable";
static final String E_NOT_EXECUTABLE_FILE = "Not an executable file";
static final String E_HADOOP_PROPS_UNSET = ENV_HADOOP_HOME + " and "
+ SYSPROP_HADOOP_HOME_DIR + " are unset.";
static final String E_HADOOP_PROPS_EMPTY = ENV_HADOOP_HOME + " or "
+ SYSPROP_HADOOP_HOME_DIR + " set to an empty string";
static final String E_NOT_A_WINDOWS_SYSTEM = "Not a Windows system";
/**
* Validate the accessibility of the Hadoop home directory.
*
* @return A directory that is expected to be the hadoop home directory
* @throws FileNotFoundException if the specified
* path is not a reference to a valid directory.
*/
@VisibleForTesting
static File checkHadoopHomeInner(String home) throws FileNotFoundException {
// couldn't find either setting for hadoop's home directory
if (home == null) {
throw new FileNotFoundException(E_HADOOP_PROPS_UNSET);
}
// strip off leading and trailing double quotes
while (home.startsWith("\"")) {
home = home.substring(1);
}
while (home.endsWith("\"")) {
home = home.substring(0, home.length() - 1);
}
// after stripping any quotes, check for home dir being non-empty
if (home.isEmpty()) {
throw new FileNotFoundException(E_HADOOP_PROPS_EMPTY);
}
// check that the hadoop home dir value
// is an absolute reference to a directory
File homedir = new File(home);
if (!homedir.isAbsolute()) {
throw new FileNotFoundException("Hadoop home directory " + homedir
+ " " + E_IS_RELATIVE);
}
if (!homedir.exists()) {
throw new FileNotFoundException("Hadoop home directory " + homedir
+ " " + E_DOES_NOT_EXIST);
}
if (!homedir.isDirectory()) {
throw new FileNotFoundException("Hadoop home directory " + homedir
+ " "+ E_NOT_DIRECTORY);
}
return homedir;
}
/**
* The Hadoop home directory.
*/
private static final File HADOOP_HOME_FILE;
/**
* Rethrowable cause for the failure to determine the hadoop
* home directory
*/
private static final IOException HADOOP_HOME_DIR_FAILURE_CAUSE;
static {
File home;
IOException ex;
try {
home = checkHadoopHome();
ex = null;
} catch (IOException ioe) {
if (LOG.isDebugEnabled()) {
LOG.debug("Failed to detect a valid hadoop home directory", ioe);
}
ex = ioe;
home = null;
}
HADOOP_HOME_FILE = home;
HADOOP_HOME_DIR_FAILURE_CAUSE = ex;
}
/**
* Optionally extend an error message with some OS-specific text.
* @param message core error message
* @return error message, possibly with some extra text
*/
private static String addOsText(String message) {
return WINDOWS ? (message + " -see " + WINDOWS_PROBLEMS) : message;
}
/**
* Create a {@code FileNotFoundException} with the inner nested cause set
* to the given exception. Compensates for the fact that FNFE doesn't
* have an initializer that takes an exception.
* @param text error text
* @param ex inner exception
* @return a new exception to throw.
*/
private static FileNotFoundException fileNotFoundException(String text,
Exception ex) {
return (FileNotFoundException) new FileNotFoundException(text)
.initCause(ex);
}
/**
* Get the Hadoop home directory. Raises an exception if not found
* @return the home dir
* @throws IOException if the home directory cannot be located.
*/
public static String getHadoopHome() throws IOException {
return getHadoopHomeDir().getCanonicalPath();
}
/**
* Get the Hadoop home directory. If it is invalid,
* throw an exception.
* @return a path referring to hadoop home.
* @throws FileNotFoundException if the directory doesn't exist.
*/
private static File getHadoopHomeDir() throws FileNotFoundException {
if (HADOOP_HOME_DIR_FAILURE_CAUSE != null) {
throw fileNotFoundException(
addOsText(HADOOP_HOME_DIR_FAILURE_CAUSE.toString()),
HADOOP_HOME_DIR_FAILURE_CAUSE);
}
return HADOOP_HOME_FILE;
}
/**
* Fully qualify the path to a binary that should be in a known hadoop
* bin location. This is primarily useful for disambiguating call-outs
* to executable sub-components of Hadoop to avoid clashes with other
* executables that may be in the path. Caveat: this call doesn't
* just format the path to the bin directory. It also checks for file
* existence of the composed path. The output of this call should be
* cached by callers.
*
* @param executable executable
* @return executable file reference
* @throws FileNotFoundException if the path does not exist
*/
public static File getQualifiedBin(String executable)
throws FileNotFoundException {
// construct hadoop bin path to the specified executable
return getQualifiedBinInner(getHadoopHomeDir(), executable);
}
/**
* Inner logic of {@link #getQualifiedBin(String)}, accessible
* for tests.
* @param hadoopHomeDir home directory (assumed to be valid)
* @param executable executable
* @return path to the binary
* @throws FileNotFoundException if the executable was not found/valid
*/
static File getQualifiedBinInner(File hadoopHomeDir, String executable)
throws FileNotFoundException {
String binDirText = "Hadoop bin directory ";
File bin = new File(hadoopHomeDir, "bin");
if (!bin.exists()) {
throw new FileNotFoundException(addOsText(binDirText + E_DOES_NOT_EXIST
+ ": " + bin));
}
if (!bin.isDirectory()) {
throw new FileNotFoundException(addOsText(binDirText + E_NOT_DIRECTORY
+ ": " + bin));
}
File exeFile = new File(bin, executable);
if (!exeFile.exists()) {
throw new FileNotFoundException(
addOsText(E_NO_EXECUTABLE + ": " + exeFile));
}
if (!exeFile.isFile()) {
throw new FileNotFoundException(
addOsText(E_NOT_EXECUTABLE_FILE + ": " + exeFile));
}
try {
return exeFile.getCanonicalFile();
} catch (IOException e) {
// this isn't going to happen, because of all the upfront checks.
// so if it does, it gets converted to a FNFE and rethrown
throw fileNotFoundException(e.toString(), e);
}
}
/**
* Fully qualify the path to a binary that should be in a known hadoop
* bin location. This is primarily useful for disambiguating call-outs
* to executable sub-components of Hadoop to avoid clashes with other
* executables that may be in the path. Caveat: this call doesn't
* just format the path to the bin directory. It also checks for file
* existence of the composed path. The output of this call should be
* cached by callers.
*
* @param executable executable
* @return executable file reference
* @throws FileNotFoundException if the path does not exist
* @throws IOException on path canonicalization failures
*/
public static String getQualifiedBinPath(String executable)
throws IOException {
return getQualifiedBin(executable).getCanonicalPath();
}
/**
* Location of winutils as a string; null if not found.
*
* Important: caller must check for this value being null.
* The lack of such checks has led to many support issues being raised.
*
* @deprecated use one of the exception-raising getter methods,
* specifically {@link #getWinUtilsPath()} or {@link #getWinUtilsFile()}
*/
@Deprecated
public static final String WINUTILS;
/** Canonical path to winutils, private to Shell. */
private static final String WINUTILS_PATH;
/** file reference to winutils. */
private static final File WINUTILS_FILE;
/** the exception raised on a failure to init the WINUTILS fields. */
private static final IOException WINUTILS_FAILURE;
/*
* Static WINUTILS_* field initializer.
* On non-Windows systems sets the paths to null, and
* adds a specific exception to the failure cause, so
* that on any attempt to resolve the paths will raise
* a meaningful exception.
*/
static {
IOException ioe = null;
String path = null;
File file = null;
// invariant: either there's a valid file and path,
// or there is a cached IO exception.
if (WINDOWS) {
try {
file = getQualifiedBin(WINUTILS_EXE);
path = file.getCanonicalPath();
ioe = null;
} catch (IOException e) {
LOG.warn("Did not find {}: {}", WINUTILS_EXE, e);
// stack trace comes at debug level
LOG.debug("Failed to find " + WINUTILS_EXE, e);
file = null;
path = null;
ioe = e;
}
} else {
// on a non-windows system, the invariant is kept
// by adding an explicit exception.
ioe = new FileNotFoundException(E_NOT_A_WINDOWS_SYSTEM);
}
WINUTILS_PATH = path;
WINUTILS_FILE = file;
WINUTILS = path;
WINUTILS_FAILURE = ioe;
}
/**
* Predicate to indicate whether or not the path to winutils is known.
*
* If true, then {@link #WINUTILS} is non-null, and both
* {@link #getWinUtilsPath()} and {@link #getWinUtilsFile()}
* will successfully return this value. Always false on non-windows systems.
* @return true if there is a valid path to the binary
*/
public static boolean hasWinutilsPath() {
return WINUTILS_PATH != null;
}
/**
* Locate the winutils binary, or fail with a meaningful
* exception and stack trace as an RTE.
* This method is for use in methods which don't explicitly throw
* an IOException.
* @return the path to {@link #WINUTILS_EXE}
* @throws RuntimeException if the path is not resolvable
*/
public static String getWinUtilsPath() {
if (WINUTILS_FAILURE == null) {
return WINUTILS_PATH;
} else {
throw new RuntimeException(WINUTILS_FAILURE.toString(),
WINUTILS_FAILURE);
}
}
/**
* Get a file reference to winutils.
* Always raises an exception if there isn't one
* @return the file instance referring to the winutils bin.
* @throws FileNotFoundException on any failure to locate that file.
*/
public static File getWinUtilsFile() throws FileNotFoundException {
if (WINUTILS_FAILURE == null) {
return WINUTILS_FILE;
} else {
// raise a new exception to generate a new stack trace
throw fileNotFoundException(WINUTILS_FAILURE.toString(),
WINUTILS_FAILURE);
}
}
public static boolean checkIsBashSupported() throws InterruptedIOException {
if (Shell.WINDOWS) {
return false;
}
ShellCommandExecutor shexec;
boolean supported = true;
try {
String[] args = {"bash", "-c", "echo 1000"};
shexec = new ShellCommandExecutor(args);
shexec.execute();
} catch (InterruptedIOException iioe) {
LOG.warn("Interrupted, unable to determine if bash is supported", iioe);
throw iioe;
} catch (IOException ioe) {
LOG.warn("Bash is not supported by the OS", ioe);
supported = false;
} catch (SecurityException se) {
LOG.info("Bash execution is not allowed by the JVM " +
"security manager.Considering it not supported.");
supported = false;
}
return supported;
}
/**
* Flag which is true if setsid exists.
*/
public static final boolean isSetsidAvailable = isSetsidSupported();
/**
* Look for setsid.
* @return true if setsid was present
*/
private static boolean isSetsidSupported() {
if (Shell.WINDOWS) {
return false;
}
ShellCommandExecutor shexec = null;
boolean setsidSupported = true;
try {
String[] args = {"setsid", "bash", "-c", "echo $$"};
shexec = new ShellCommandExecutor(args);
shexec.execute();
} catch (IOException ioe) {
LOG.debug("setsid is not available on this machine. So not using it.");
setsidSupported = false;
} catch (SecurityException se) {
LOG.debug("setsid is not allowed to run by the JVM "+
"security manager. So not using it.");
setsidSupported = false;
} catch (Error err) {
if (err.getMessage() != null
&& err.getMessage().contains("posix_spawn is not " +
"a supported process launch mechanism")
&& (Shell.FREEBSD || Shell.MAC)) {
// HADOOP-11924: This is a workaround to avoid failure of class init
// by JDK issue on TR locale(JDK-8047340).
LOG.info("Avoiding JDK-8047340 on BSD-based systems.", err);
setsidSupported = false;
}
} finally { // handle the exit code
if (LOG.isDebugEnabled()) {
LOG.debug("setsid exited with exit code "
+ (shexec != null ? shexec.getExitCode() : "(null executor)"));
}
}
return setsidSupported;
}
/** Token separator regex used to parse Shell tool outputs. */
public static final String TOKEN_SEPARATOR_REGEX
= WINDOWS ? "[|\n\r]" : "[ \t\n\r\f]";
private long interval; // refresh interval in msec
private long lastTime; // last time the command was performed
private final boolean redirectErrorStream; // merge stdout and stderr
private Map environment; // env for the command execution
private File dir;
private Process process; // sub process used to execute the command
private int exitCode;
private Thread waitingThread;
/** Flag to indicate whether or not the script has finished executing. */
private final AtomicBoolean completed = new AtomicBoolean(false);
/**
* Create an instance with no minimum interval between runs; stderr is
* not merged with stdout.
*/
protected Shell() {
this(0L);
}
/**
* Create an instance with a minimum interval between executions; stderr is
* not merged with stdout.
* @param interval interval in milliseconds between command executions.
*/
protected Shell(long interval) {
this(interval, false);
}
/**
* Create a shell instance which can be re-executed when the {@link #run()}
* method is invoked with a given elapsed time between calls.
*
* @param interval the minimum duration in milliseconds to wait before
* re-executing the command. If set to 0, there is no minimum.
* @param redirectErrorStream should the error stream be merged with
* the normal output stream?
*/
protected Shell(long interval, boolean redirectErrorStream) {
this.interval = interval;
this.lastTime = (interval < 0) ? 0 : -interval;
this.redirectErrorStream = redirectErrorStream;
}
/**
* Set the environment for the command.
* @param env Mapping of environment variables
*/
protected void setEnvironment(Map env) {
this.environment = env;
}
/**
* Set the working directory.
* @param dir The directory where the command will be executed
*/
protected void setWorkingDirectory(File dir) {
this.dir = dir;
}
/** Check to see if a command needs to be executed and execute if needed. */
protected void run() throws IOException {
if (lastTime + interval > Time.monotonicNow()) {
return;
}
exitCode = 0; // reset for next run
if (Shell.MAC) {
System.setProperty("jdk.lang.Process.launchMechanism", "POSIX_SPAWN");
}
runCommand();
}
/** Run the command. */
private void runCommand() throws IOException {
ProcessBuilder builder = new ProcessBuilder(getExecString());
Timer timeOutTimer = null;
ShellTimeoutTimerTask timeoutTimerTask = null;
timedOut.set(false);
completed.set(false);
// Remove all env vars from the Builder to prevent leaking of env vars from
// the parent process.
if (!inheritParentEnv) {
builder.environment().clear();
}
if (environment != null) {
builder.environment().putAll(this.environment);
}
if (dir != null) {
builder.directory(this.dir);
}
builder.redirectErrorStream(redirectErrorStream);
if (Shell.WINDOWS) {
synchronized (WindowsProcessLaunchLock) {
// To workaround the race condition issue with child processes
// inheriting unintended handles during process launch that can
// lead to hangs on reading output and error streams, we
// serialize process creation. More info available at:
// http://support.microsoft.com/kb/315939
process = builder.start();
}
} else {
process = builder.start();
}
waitingThread = Thread.currentThread();
CHILD_SHELLS.put(this, null);
if (timeOutInterval > 0) {
timeOutTimer = new Timer("Shell command timeout");
timeoutTimerTask = new ShellTimeoutTimerTask(
this);
//One time scheduling.
timeOutTimer.schedule(timeoutTimerTask, timeOutInterval);
}
final BufferedReader errReader =
new BufferedReader(new InputStreamReader(
process.getErrorStream(), Charset.defaultCharset()));
BufferedReader inReader =
new BufferedReader(new InputStreamReader(
process.getInputStream(), Charset.defaultCharset()));
final StringBuffer errMsg = new StringBuffer();
// read error and input streams as this would free up the buffers
// free the error stream buffer
Thread errThread = new Thread() {
@Override
public void run() {
try {
String line = errReader.readLine();
while((line != null) && !isInterrupted()) {
errMsg.append(line)
.append(System.getProperty("line.separator"));
line = errReader.readLine();
}
} catch(IOException ioe) {
// Its normal to observe a "Stream closed" I/O error on
// command timeouts destroying the underlying process
// so only log a WARN if the command didn't time out
if (!isTimedOut()) {
LOG.warn("Error reading the error stream", ioe);
} else {
LOG.debug("Error reading the error stream due to shell "
+ "command timeout", ioe);
}
}
}
};
try {
errThread.start();
} catch (IllegalStateException ise) {
} catch (OutOfMemoryError oe) {
LOG.error("Caught " + oe + ". One possible reason is that ulimit"
+ " setting of 'max user processes' is too low. If so, do"
+ " 'ulimit -u ' and try again.");
throw oe;
}
try {
parseExecResult(inReader); // parse the output
// clear the input stream buffer
String line = inReader.readLine();
while(line != null) {
line = inReader.readLine();
}
// wait for the process to finish and check the exit code
exitCode = process.waitFor();
// make sure that the error thread exits
joinThread(errThread);
completed.set(true);
//the timeout thread handling
//taken care in finally block
if (exitCode != 0) {
throw new ExitCodeException(exitCode, errMsg.toString());
}
} catch (InterruptedException ie) {
InterruptedIOException iie = new InterruptedIOException(ie.toString());
iie.initCause(ie);
throw iie;
} finally {
if (timeOutTimer != null) {
timeOutTimer.cancel();
}
// close the input stream
try {
inReader.close();
} catch (IOException ioe) {
LOG.warn("Error while closing the input stream", ioe);
}
if (!completed.get()) {
errThread.interrupt();
joinThread(errThread);
}
try {
errReader.close();
} catch (IOException ioe) {
LOG.warn("Error while closing the error stream", ioe);
}
process.destroy();
waitingThread = null;
CHILD_SHELLS.remove(this);
lastTime = Time.monotonicNow();
}
}
private static void joinThread(Thread t) {
while (t.isAlive()) {
try {
t.join();
} catch (InterruptedException ie) {
if (LOG.isWarnEnabled()) {
LOG.warn("Interrupted while joining on: " + t, ie);
}
t.interrupt(); // propagate interrupt
}
}
}
/** return an array containing the command name and its parameters. */
protected abstract String[] getExecString();
/** Parse the execution result */
protected abstract void parseExecResult(BufferedReader lines)
throws IOException;
/**
* Get an environment variable.
* @param env the environment var
* @return the value or null if it was unset.
*/
public String getEnvironment(String env) {
return environment.get(env);
}
/** get the current sub-process executing the given command.
* @return process executing the command
*/
public Process getProcess() {
return process;
}
/** get the exit code.
* @return the exit code of the process
*/
public int getExitCode() {
return exitCode;
}
/** get the thread that is waiting on this instance of Shell.
* @return the thread that ran runCommand() that spawned this shell
* or null if no thread is waiting for this shell to complete
*/
public Thread getWaitingThread() {
return waitingThread;
}
/**
* This is an IOException with exit code added.
*/
public static class ExitCodeException extends IOException {
private final int exitCode;
public ExitCodeException(int exitCode, String message) {
super(message);
this.exitCode = exitCode;
}
public int getExitCode() {
return exitCode;
}
@Override
public String toString() {
final StringBuilder sb =
new StringBuilder("ExitCodeException ");
sb.append("exitCode=").append(exitCode)
.append(": ")
.append(super.getMessage());
return sb.toString();
}
}
public interface CommandExecutor {
void execute() throws IOException;
int getExitCode() throws IOException;
String getOutput() throws IOException;
void close();
}
/**
* A simple shell command executor.
*
* ShellCommandExecutorshould be used in cases where the output
* of the command needs no explicit parsing and where the command, working
* directory and the environment remains unchanged. The output of the command
* is stored as-is and is expected to be small.
*/
public static class ShellCommandExecutor extends Shell
implements CommandExecutor {
private String[] command;
private StringBuffer output;
public ShellCommandExecutor(String[] execString) {
this(execString, null);
}
public ShellCommandExecutor(String[] execString, File dir) {
this(execString, dir, null);
}
public ShellCommandExecutor(String[] execString, File dir,
Map env) {
this(execString, dir, env , 0L);
}
public ShellCommandExecutor(String[] execString, File dir,
Map env, long timeout) {
this(execString, dir, env , timeout, true);
}
/**
* Create a new instance of the ShellCommandExecutor to execute a command.
*
* @param execString The command to execute with arguments
* @param dir If not-null, specifies the directory which should be set
* as the current working directory for the command.
* If null, the current working directory is not modified.
* @param env If not-null, environment of the command will include the
* key-value pairs specified in the map. If null, the current
* environment is not modified.
* @param timeout Specifies the time in milliseconds, after which the
* command will be killed and the status marked as timed-out.
* If 0, the command will not be timed out.
* @param inheritParentEnv Indicates if the process should inherit the env
* vars from the parent process or not.
*/
public ShellCommandExecutor(String[] execString, File dir,
Map env, long timeout, boolean inheritParentEnv) {
command = execString.clone();
if (dir != null) {
setWorkingDirectory(dir);
}
if (env != null) {
setEnvironment(env);
}
timeOutInterval = timeout;
this.inheritParentEnv = inheritParentEnv;
}
/**
* Returns the timeout value set for the executor's sub-commands.
* @return The timeout value in milliseconds
*/
@VisibleForTesting
public long getTimeoutInterval() {
return timeOutInterval;
}
/**
* Execute the shell command.
* @throws IOException if the command fails, or if the command is
* not well constructed.
*/
public void execute() throws IOException {
for (String s : command) {
if (s == null) {
throw new IOException("(null) entry in command string: "
+ StringUtils.join(" ", command));
}
}
this.run();
}
@Override
public String[] getExecString() {
return command;
}
@Override
protected void parseExecResult(BufferedReader lines) throws IOException {
output = new StringBuffer();
char[] buf = new char[512];
int nRead;
while ( (nRead = lines.read(buf, 0, buf.length)) > 0 ) {
output.append(buf, 0, nRead);
}
}
/** Get the output of the shell command. */
public String getOutput() {
return (output == null) ? "" : output.toString();
}
/**
* Returns the commands of this instance.
* Arguments with spaces in are presented with quotes round; other
* arguments are presented raw
*
* @return a string representation of the object.
*/
@Override
public String toString() {
StringBuilder builder = new StringBuilder();
String[] args = getExecString();
for (String s : args) {
if (s.indexOf(' ') >= 0) {
builder.append('"').append(s).append('"');
} else {
builder.append(s);
}
builder.append(' ');
}
return builder.toString();
}
@Override
public void close() {
}
}
/**
* To check if the passed script to shell command executor timed out or
* not.
*
* @return if the script timed out.
*/
public boolean isTimedOut() {
return timedOut.get();
}
/**
* Declare that the command has timed out.
*
*/
private void setTimedOut() {
this.timedOut.set(true);
}
/**
* Static method to execute a shell command.
* Covers most of the simple cases without requiring the user to implement
* the Shell interface.
* @param cmd shell command to execute.
* @return the output of the executed command.
*/
public static String execCommand(String ... cmd) throws IOException {
return execCommand(null, cmd, 0L);
}
/**
* Static method to execute a shell command.
* Covers most of the simple cases without requiring the user to implement
* the Shell interface.
* @param env the map of environment key=value
* @param cmd shell command to execute.
* @param timeout time in milliseconds after which script should be marked timeout
* @return the output of the executed command.
* @throws IOException on any problem.
*/
public static String execCommand(Map env, String[] cmd,
long timeout) throws IOException {
ShellCommandExecutor exec = new ShellCommandExecutor(cmd, null, env,
timeout);
exec.execute();
return exec.getOutput();
}
/**
* Static method to execute a shell command.
* Covers most of the simple cases without requiring the user to implement
* the Shell interface.
* @param env the map of environment key=value
* @param cmd shell command to execute.
* @return the output of the executed command.
* @throws IOException on any problem.
*/
public static String execCommand(Map env, String ... cmd)
throws IOException {
return execCommand(env, cmd, 0L);
}
/**
* Timer which is used to timeout scripts spawned off by shell.
*/
private static class ShellTimeoutTimerTask extends TimerTask {
private final Shell shell;
public ShellTimeoutTimerTask(Shell shell) {
this.shell = shell;
}
@Override
public void run() {
Process p = shell.getProcess();
try {
p.exitValue();
} catch (Exception e) {
//Process has not terminated.
//So check if it has completed
//if not just destroy it.
if (p != null && !shell.completed.get()) {
shell.setTimedOut();
p.destroy();
}
}
}
}
/**
* Static method to destroy all running Shell processes.
* Iterates through a map of all currently running Shell
* processes and destroys them one by one. This method is thread safe
*/
public static void destroyAllShellProcesses() {
synchronized (CHILD_SHELLS) {
for (Shell shell : CHILD_SHELLS.keySet()) {
if (shell.getProcess() != null) {
shell.getProcess().destroy();
}
}
CHILD_SHELLS.clear();
}
}
/**
* Static method to return a Set of all Shell objects.
*/
public static Set getAllShells() {
synchronized (CHILD_SHELLS) {
return new HashSet<>(CHILD_SHELLS.keySet());
}
}
/**
* Static method to return the memory lock limit for datanode.
* @param ulimit max value at which memory locked should be capped.
* @return long value specifying the memory lock limit.
*/
public static Long getMemlockLimit(Long ulimit) {
if (WINDOWS) {
// HDFS-13560: if ulimit is too large on Windows, Windows will complain
// "1450: Insufficient system resources exist to complete the requested
// service". Thus, cap Windows memory lock limit at Integer.MAX_VALUE.
return Math.min(Integer.MAX_VALUE, ulimit);
}
return ulimit;
}
}