src/main/java/com/google/devtools/build/lib/shell/Command.java - bazel - Git at Google

 // Copyright 2014 The Bazel Authors. All rights reserved.
 //
 // Licensed 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 com.google.devtools.build.lib.shell;

 import com.google.common.base.Preconditions;
 import com.google.common.collect.ImmutableList;
 import com.google.common.io.ByteStreams;
 import com.google.devtools.build.lib.shell.Consumers.OutErrConsumers;
 import java.io.File;
 import java.io.IOException;
 import java.io.InputStream;
 import java.io.OutputStream;
 import java.time.Duration;
 import java.util.List;
 import java.util.Map;
 import java.util.logging.Level;
 import java.util.logging.Logger;
 import javax.annotation.Nullable;

 /**
  * An executable command, including its arguments and runtime environment (environment variables,
  * working directory). It lets a caller execute a command, get its results, and optionally forward
  * interrupts to the subprocess. This class creates threads to ensure timely reading of subprocess
  * outputs.
  *
  * <p>This class is immutable and thread-safe.
  *
  * <p>The use of "shell" in the package name of this class is a misnomer.  In terms of the way its
  * arguments are interpreted, this class is closer to {@code execve(2)} than to {@code system(3)}.
  * No shell is executed.
  *
  * <h4>Examples</h4>
  *
  * <p>The most basic use-case for this class is as follows:
  * <pre>
  *   String[] args = { "/bin/du", "-s", directory };
  *   BlazeCommandResult result = new Command(args).execute();
  *   String output = new String(result.getStdout());
  * </pre>
  * which writes the output of the {@code du(1)} command into {@code output}. More complex cases
  * might inspect the stderr stream, kill the subprocess asynchronously, feed input to its standard
  * input, handle the exceptions thrown if the command fails, or print the termination status (exit
  * code or signal name).
  *
  * <h4>Other Features</h4>
  *
  * <p>A caller can optionally specify bytes to be written to the process's "stdin". The returned
  * {@link CommandResult} object gives the caller access to the exit status, as well as output from
  * "stdout" and "stderr". To use this class with processes that generate very large amounts of
  * input/output, consider {@link #execute(OutputStream, OutputStream)},
  * {@link #executeAsync(OutputStream, OutputStream)}, or
  * {@link #executeAsync(InputStream, OutputStream, OutputStream, boolean)}.
  *
  * <p>This class ensures that stdout and stderr streams are read promptly, avoiding potential
  * deadlock if the output is large. See
  * <a href="http://www.javaworld.com/javaworld/jw-12-2000/jw-1229-traps.html"> when
  * <code>Runtime.exec()</code> won't</a>.
  *
  * <h4>Caution: Invoking Shell Commands</h4>
  *
  * <p>Perhaps the most common command invoked programmatically is the UNIX shell, {@code /bin/sh}.
  * Because the shell is a general-purpose programming language, care must be taken to ensure that
  * variable parts of the shell command (e.g. strings entered by the user) do not contain shell
  * metacharacters, as this poses a correctness and/or security risk.
  *
  * <p>To execute a shell command directly, use the following pattern:
  * <pre>
  *   String[] args = { "/bin/sh", "-c", shellCommand };
  *   BlazeCommandResult result = new Command(args).execute();
  * </pre>
  * {@code shellCommand} is a complete Bourne shell program, possibly containing all kinds of
  * unescaped metacharacters.  For example, here's a shell command that enumerates the working
  * directories of all processes named "foo":
  * <pre>ps auxx | grep foo | awk '{print $1}' |
  *      while read pid; do readlink /proc/$pid/cwd; done</pre>
  * It is the responsibility of the caller to ensure that this string means what they intend.
  *
  * <p>Consider the risk posed by allowing the "foo" part of the previous command to be some
  * arbitrary (untrusted) string called {@code processName}:
  * <pre>
  *  // WARNING: unsafe!
  *  String shellCommand = "ps auxx | grep " + processName + " | awk '{print $1}' | "
  *  + "while read pid; do readlink /proc/$pid/cwd; done";</pre>
  * </pre>
  * Passing this string to {@link Command} is unsafe because if the string {@processName} contains
  * shell metacharacters, the meaning of the command can be arbitrarily changed; consider:
  * <pre>String processName = ". ; rm -fr $HOME & ";</pre>
  *
  * <p>To defend against this possibility, it is essential to properly quote the variable portions of
  * the shell command so that shell metacharacters are escaped.  Use {@link ShellUtils#shellEscape}
  * for this purpose:
  * <pre>
  *  // Safe.
  *  String shellCommand = "ps auxx | grep " + ShellUtils.shellEscape(processName)
  *      + " | awk '{print $1}' | while read pid; do readlink /proc/$pid/cwd; done";
  * </pre>
  *
  * <p>Tip: if you are only invoking a single known command, and no shell features (e.g. $PATH
  * lookup, output redirection, pipelines, etc) are needed, call it directly without using a shell,
  * as in the {@code du(1)} example above.
  */
 public final class Command {

   private static final Logger logger =
       Logger.getLogger("com.google.devtools.build.lib.shell.Command");

   /** Pass this value to {@link #execute} to indicate that no input should be written to stdin. */
   public static final InputStream NO_INPUT = new NullInputStream();

   public static final boolean KILL_SUBPROCESS_ON_INTERRUPT = true;
   public static final boolean CONTINUE_SUBPROCESS_ON_INTERRUPT = false;

   private final SubprocessBuilder subprocessBuilder;

   /**
    * Creates a new {@link Command} for the given command line. The environment is inherited from the
    * current process, as is the working directory. No timeout is enforced. The command line is
    * executed exactly as given, without a shell. Subsequent calls to {@link #execute()} will use the
    * JVM's working directory and environment.
    *
    * @param commandLineElements elements of raw command line to execute
    * @throws IllegalArgumentException if commandLine is null or empty
    */
   public Command(String[] commandLineElements) {
     this(commandLineElements, null, null, Duration.ZERO);
   }

   /**
    * Just like {@link #Command(String[], Map, File, Duration)}, but without a timeout.
    */
   public Command(
       String[] commandLineElements,
       @Nullable Map<String, String> environmentVariables,
       @Nullable File workingDirectory) {
     this(commandLineElements, environmentVariables, workingDirectory, Duration.ZERO);
   }

   /**
    * Creates a new {@link Command} for the given command line elements. The command line is executed
    * without a shell.
    *
    * <p>The given environment variables and working directory are used in subsequent calls to
    * {@link #execute()}.
    *
    * <p>This command treats the  0-th element of {@code commandLineElement} (the name of an
    * executable to run) specially.
    * <ul>
    *  <li>If it is an absolute path, it is used as it</li>
    *  <li>If it is a single file name, the PATH lookup is performed</li>
    *  <li>If it is a relative path that is not a single file name, the command will attempt to
    *       execute the the binary at that path relative to {@code workingDirectory}.</li>
    * </ul>
    *
    * @param commandLineElements elements of raw command line to execute
    * @param environmentVariables environment variables to replace JVM's environment variables; may
    *    be null
    * @param workingDirectory working directory for execution; if null, the VM's current working
    *    directory is used
    * @param timeout timeout; a value less than or equal to 0 is treated as no timeout
    * @throws IllegalArgumentException if commandLine is null or empty
    */
   // TODO(ulfjack): Throw a special exception if there was a timeout.
   public Command(
       String[] commandLineElements,
       @Nullable Map<String, String> environmentVariables,
       @Nullable File workingDirectory,
       Duration timeout) {
     Preconditions.checkNotNull(commandLineElements);
     Preconditions.checkArgument(
         commandLineElements.length != 0, "cannot run an empty command line");

     File executable = new File(commandLineElements[0]);
     if (!executable.isAbsolute() && executable.getParent() != null) {
       commandLineElements = commandLineElements.clone();
       commandLineElements[0] = new File(workingDirectory, commandLineElements[0]).getAbsolutePath();
     }

     this.subprocessBuilder = new SubprocessBuilder();
     subprocessBuilder.setArgv(ImmutableList.copyOf(commandLineElements));
     subprocessBuilder.setEnv(environmentVariables);
     subprocessBuilder.setWorkingDirectory(workingDirectory);
     subprocessBuilder.setTimeoutMillis(timeout.toMillis());
   }

   /** Returns the raw command line elements to be executed */
   public String[] getCommandLineElements() {
     final List<String> elements = subprocessBuilder.getArgv();
     return elements.toArray(new String[elements.size()]);
   }

   /** Returns an (unmodifiable) {@link Map} view of command's environment variables or null. */
   @Nullable public Map<String, String> getEnvironmentVariables() {
     return subprocessBuilder.getEnv();
   }

   /** Returns the working directory to be used for execution, or null. */
   @Nullable public File getWorkingDirectory() {
     return subprocessBuilder.getWorkingDirectory();
   }

   /**
    * Execute this command with no input to stdin, and with the output captured in memory. If the
    * current process is interrupted, then the subprocess is also interrupted. This call blocks until
    * the subprocess completes or an error occurs.
    *
    * <p>This method is a convenience wrapper for <code>executeAsync().get()</code>.
    *
    * @return {@link CommandResult} representing result of the execution
    * @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
    * @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
    *    from the process, or the process was terminated due to a signal
    * @throws BadExitStatusException if the process exits with a non-zero status
    */
   public CommandResult execute() throws CommandException {
     return executeAsync().get();
   }

   /**
    * Execute this command with no input to stdin, and with the output streamed to the given output
    * streams, which must be thread-safe. If the current process is interrupted, then the subprocess
    * is also interrupted. This call blocks until the subprocess completes or an error occurs.
    *
    * <p>Note that the given output streams are never closed by this class.
    *
    * <p>This method is a convenience wrapper for <code>executeAsync(stdOut, stdErr).get()</code>.
    *
    * @return {@link CommandResult} representing result of the execution
    * @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
    * @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
    *    from the process, or the process was terminated due to a signal
    * @throws BadExitStatusException if the process exits with a non-zero status
    */
   public CommandResult execute(OutputStream stdOut, OutputStream stdErr) throws CommandException {
     return doExecute(
         NO_INPUT, Consumers.createStreamingConsumers(stdOut, stdErr), KILL_SUBPROCESS_ON_INTERRUPT)
             .get();
   }

   /**
    * Execute this command with no input to stdin, and with the output captured in memory. If the
    * current process is interrupted, then the subprocess is also interrupted. This call blocks until
    * the subprocess is started or throws an error if that fails, but does not wait for the
    * subprocess to exit.
    *
    * @return {@link CommandResult} representing result of the execution
    * @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
    * @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
    *    from the process, or the process was terminated due to a signal
    * @throws BadExitStatusException if the process exits with a non-zero status
    */
   public FutureCommandResult executeAsync() throws CommandException {
     return doExecute(
         NO_INPUT, Consumers.createAccumulatingConsumers(), KILL_SUBPROCESS_ON_INTERRUPT);
   }

   /**
    * Execute this command with no input to stdin, and with the output streamed to the given output
    * streams, which must be thread-safe. If the current process is interrupted, then the subprocess
    * is also interrupted. This call blocks until the subprocess is started or throws an error if
    * that fails, but does not wait for the subprocess to exit.
    *
    * <p>Note that the given output streams are never closed by this class.
    *
    * @return {@link CommandResult} representing result of the execution
    * @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
    * @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
    *    from the process, or the process was terminated due to a signal
    * @throws BadExitStatusException if the process exits with a non-zero status
    */
   public FutureCommandResult executeAsync(OutputStream stdOut, OutputStream stdErr)
       throws CommandException {
     return doExecute(
         NO_INPUT, Consumers.createStreamingConsumers(stdOut, stdErr), KILL_SUBPROCESS_ON_INTERRUPT);
   }

   /**
    * Execute this command with no input to stdin, and with the output captured in memory. This call
    * blocks until the subprocess is started or throws an error if that fails, but does not wait for
    * the subprocess to exit.
    *
    * @param killSubprocessOnInterrupt whether the subprocess should be killed if the current process
    *     is interrupted
    * @return {@link CommandResult} representing result of the execution
    * @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
    * @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
    *    from the process, or the process was terminated due to a signal
    * @throws BadExitStatusException if the process exits with a non-zero status
    */
   public FutureCommandResult executeAsync(
       InputStream stdinInput, boolean killSubprocessOnInterrupt) throws CommandException {
     return doExecute(
         stdinInput, Consumers.createAccumulatingConsumers(), killSubprocessOnInterrupt);
   }

   /**
    * Execute this command with no input to stdin, and with the output streamed to the given output
    * streams, which must be thread-safe. This call blocks until the subprocess is started or throws
    * an error if that fails, but does not wait for the subprocess to exit.
    *
    * <p>Note that the given output streams are never closed by this class.
    *
    * @param killSubprocessOnInterrupt whether the subprocess should be killed if the current process
    *     is interrupted
    * @return {@link CommandResult} representing result of the execution
    * @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
    * @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
    *    from the process, or the process was terminated due to a signal
    * @throws BadExitStatusException if the process exits with a non-zero status
    */
   public FutureCommandResult executeAsync(
       InputStream stdinInput,
       OutputStream stdOut,
       OutputStream stdErr,
       boolean killSubprocessOnInterrupt)
           throws CommandException {
     return doExecute(
         stdinInput, Consumers.createStreamingConsumers(stdOut, stdErr), killSubprocessOnInterrupt);
   }

   /**
    * A string representation of this command object which includes the arguments, the environment,
    * and the working directory. Avoid relying on the specifics of this format. Note that the size of
    * the result string will reflect the size of the command.
    */
   public String toDebugString() {
     StringBuilder message = new StringBuilder(128);
     message.append("Executing (without brackets):");
     for (String arg : subprocessBuilder.getArgv()) {
       message.append(" [");
       message.append(arg);
       message.append(']');
     }
     message.append("; environment: ");
     message.append(subprocessBuilder.getEnv());
     message.append("; working dir: ");
     File workingDirectory = subprocessBuilder.getWorkingDirectory();
     message.append(workingDirectory == null ?
                    "(current)" :
                    workingDirectory.toString());
     return message.toString();
   }

   private FutureCommandResult doExecute(
       InputStream stdinInput, OutErrConsumers outErrConsumers, boolean killSubprocessOnInterrupt)
           throws ExecFailedException {
     Preconditions.checkNotNull(stdinInput, "stdinInput");
     logCommand();

     Subprocess process = startProcess();

     outErrConsumers.logConsumptionStrategy();
     outErrConsumers.registerInputs(
         process.getInputStream(), process.getErrorStream(), /* closeStreams= */ false);

     // TODO(ulfjack): This call blocks until all input is written. If stdinInput is large (or
     // unbounded), then the async calls can block for a long time, and the timeout is not properly
     // enforced.
     processInput(stdinInput, process);

     return new FutureCommandResultImpl(this, process, outErrConsumers, killSubprocessOnInterrupt);
   }

   private Subprocess startProcess() throws ExecFailedException {
     try {
       return subprocessBuilder.start();
     } catch (IOException ioe) {
       throw new ExecFailedException(this, ioe);
     }
   }

   private static class NullInputStream extends InputStream {
     @Override
     public int read() {
       return -1;
     }

     @Override
     public int available() {
       return 0;
     }
   }

   private static void processInput(InputStream stdinInput, Subprocess process) {
     if (logger.isLoggable(Level.FINER)) {
       logger.finer(stdinInput.toString());
     }
     try (OutputStream out = process.getOutputStream()) {
       ByteStreams.copy(stdinInput, out);
     } catch (IOException ioe) {
       // Note: this is not an error!  Perhaps the command just isn't hungry for our input and exited
       // with success. Process.waitFor (later) will tell us.
       //
       // (Unlike out/err streams, which are read asynchronously, the input stream is written
       // synchronously, in its entirety, before processInput returns.  If the input is infinite, and
       // is passed through e.g. "cat" subprocess and back into the ByteArrayOutputStream, that will
       // eventually run out of memory, causing the output stream to be closed, "cat" to terminate
       // with SIGPIPE, and processInput to receive an IOException.
     }
   }

   private void logCommand() {
     if (!logger.isLoggable(Level.FINE)) {
       return;
     }
     logger.fine(toDebugString());
   }
 }
	// Copyright 2014 The Bazel Authors. All rights reserved.
	//
	// Licensed 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 com.google.devtools.build.lib.shell;

	import com.google.common.base.Preconditions;
	import com.google.common.collect.ImmutableList;
	import com.google.common.io.ByteStreams;
	import com.google.devtools.build.lib.shell.Consumers.OutErrConsumers;
	import java.io.File;
	import java.io.IOException;
	import java.io.InputStream;
	import java.io.OutputStream;
	import java.time.Duration;
	import java.util.List;
	import java.util.Map;
	import java.util.logging.Level;
	import java.util.logging.Logger;
	import javax.annotation.Nullable;

	/**
	* An executable command, including its arguments and runtime environment (environment variables,
	* working directory). It lets a caller execute a command, get its results, and optionally forward
	* interrupts to the subprocess. This class creates threads to ensure timely reading of subprocess
	* outputs.
	*
	* <p>This class is immutable and thread-safe.
	*
	* <p>The use of "shell" in the package name of this class is a misnomer. In terms of the way its
	* arguments are interpreted, this class is closer to {@code execve(2)} than to {@code system(3)}.
	* No shell is executed.
	*
	* <h4>Examples</h4>
	*
	* <p>The most basic use-case for this class is as follows:
	* <pre>
	* String[] args = { "/bin/du", "-s", directory };
	* BlazeCommandResult result = new Command(args).execute();
	* String output = new String(result.getStdout());
	* </pre>
	* which writes the output of the {@code du(1)} command into {@code output}. More complex cases
	* might inspect the stderr stream, kill the subprocess asynchronously, feed input to its standard
	* input, handle the exceptions thrown if the command fails, or print the termination status (exit
	* code or signal name).
	*
	* <h4>Other Features</h4>
	*
	* <p>A caller can optionally specify bytes to be written to the process's "stdin". The returned
	* {@link CommandResult} object gives the caller access to the exit status, as well as output from
	* "stdout" and "stderr". To use this class with processes that generate very large amounts of
	* input/output, consider {@link #execute(OutputStream, OutputStream)},
	* {@link #executeAsync(OutputStream, OutputStream)}, or
	* {@link #executeAsync(InputStream, OutputStream, OutputStream, boolean)}.
	*
	* <p>This class ensures that stdout and stderr streams are read promptly, avoiding potential
	* deadlock if the output is large. See
	* <a href="http://www.javaworld.com/javaworld/jw-12-2000/jw-1229-traps.html"> when
	* <code>Runtime.exec()</code> won't</a>.
	*
	* <h4>Caution: Invoking Shell Commands</h4>
	*
	* <p>Perhaps the most common command invoked programmatically is the UNIX shell, {@code /bin/sh}.
	* Because the shell is a general-purpose programming language, care must be taken to ensure that
	* variable parts of the shell command (e.g. strings entered by the user) do not contain shell
	* metacharacters, as this poses a correctness and/or security risk.
	*
	* <p>To execute a shell command directly, use the following pattern:
	* <pre>
	* String[] args = { "/bin/sh", "-c", shellCommand };
	* BlazeCommandResult result = new Command(args).execute();
	* </pre>
	* {@code shellCommand} is a complete Bourne shell program, possibly containing all kinds of
	* unescaped metacharacters. For example, here's a shell command that enumerates the working
	* directories of all processes named "foo":
	* <pre>ps auxx \| grep foo \| awk '{print $1}' \|
	* while read pid; do readlink /proc/$pid/cwd; done</pre>
	* It is the responsibility of the caller to ensure that this string means what they intend.
	*
	* <p>Consider the risk posed by allowing the "foo" part of the previous command to be some
	* arbitrary (untrusted) string called {@code processName}:
	* <pre>
	* // WARNING: unsafe!
	* String shellCommand = "ps auxx \| grep " + processName + " \| awk '{print $1}' \| "
	* + "while read pid; do readlink /proc/$pid/cwd; done";</pre>
	* </pre>
	* Passing this string to {@link Command} is unsafe because if the string {@processName} contains
	* shell metacharacters, the meaning of the command can be arbitrarily changed; consider:
	* <pre>String processName = ". ; rm -fr $HOME & ";</pre>
	*
	* <p>To defend against this possibility, it is essential to properly quote the variable portions of
	* the shell command so that shell metacharacters are escaped. Use {@link ShellUtils#shellEscape}
	* for this purpose:
	* <pre>
	* // Safe.
	* String shellCommand = "ps auxx \| grep " + ShellUtils.shellEscape(processName)
	* + " \| awk '{print $1}' \| while read pid; do readlink /proc/$pid/cwd; done";
	* </pre>
	*
	* <p>Tip: if you are only invoking a single known command, and no shell features (e.g. $PATH
	* lookup, output redirection, pipelines, etc) are needed, call it directly without using a shell,
	* as in the {@code du(1)} example above.
	*/
	public final class Command {

	private static final Logger logger =
	Logger.getLogger("com.google.devtools.build.lib.shell.Command");

	/** Pass this value to {@link #execute} to indicate that no input should be written to stdin. */
	public static final InputStream NO_INPUT = new NullInputStream();

	public static final boolean KILL_SUBPROCESS_ON_INTERRUPT = true;
	public static final boolean CONTINUE_SUBPROCESS_ON_INTERRUPT = false;

	private final SubprocessBuilder subprocessBuilder;

	/**
	* Creates a new {@link Command} for the given command line. The environment is inherited from the
	* current process, as is the working directory. No timeout is enforced. The command line is
	* executed exactly as given, without a shell. Subsequent calls to {@link #execute()} will use the
	* JVM's working directory and environment.
	*
	* @param commandLineElements elements of raw command line to execute
	* @throws IllegalArgumentException if commandLine is null or empty
	*/
	public Command(String[] commandLineElements) {
	this(commandLineElements, null, null, Duration.ZERO);
	}

	/**
	* Just like {@link #Command(String[], Map, File, Duration)}, but without a timeout.
	*/
	public Command(
	String[] commandLineElements,
	@Nullable Map<String, String> environmentVariables,
	@Nullable File workingDirectory) {
	this(commandLineElements, environmentVariables, workingDirectory, Duration.ZERO);
	}

	/**
	* Creates a new {@link Command} for the given command line elements. The command line is executed
	* without a shell.
	*
	* <p>The given environment variables and working directory are used in subsequent calls to
	* {@link #execute()}.
	*
	* <p>This command treats the 0-th element of {@code commandLineElement} (the name of an
	* executable to run) specially.
	* <ul>
	* <li>If it is an absolute path, it is used as it</li>
	* <li>If it is a single file name, the PATH lookup is performed</li>
	* <li>If it is a relative path that is not a single file name, the command will attempt to
	* execute the the binary at that path relative to {@code workingDirectory}.</li>
	* </ul>
	*
	* @param commandLineElements elements of raw command line to execute
	* @param environmentVariables environment variables to replace JVM's environment variables; may
	* be null
	* @param workingDirectory working directory for execution; if null, the VM's current working
	* directory is used
	* @param timeout timeout; a value less than or equal to 0 is treated as no timeout
	* @throws IllegalArgumentException if commandLine is null or empty
	*/
	// TODO(ulfjack): Throw a special exception if there was a timeout.
	public Command(
	String[] commandLineElements,
	@Nullable Map<String, String> environmentVariables,
	@Nullable File workingDirectory,
	Duration timeout) {
	Preconditions.checkNotNull(commandLineElements);
	Preconditions.checkArgument(
	commandLineElements.length != 0, "cannot run an empty command line");

	File executable = new File(commandLineElements[0]);
	if (!executable.isAbsolute() && executable.getParent() != null) {
	commandLineElements = commandLineElements.clone();
	commandLineElements[0] = new File(workingDirectory, commandLineElements[0]).getAbsolutePath();
	}

	this.subprocessBuilder = new SubprocessBuilder();
	subprocessBuilder.setArgv(ImmutableList.copyOf(commandLineElements));
	subprocessBuilder.setEnv(environmentVariables);
	subprocessBuilder.setWorkingDirectory(workingDirectory);
	subprocessBuilder.setTimeoutMillis(timeout.toMillis());
	}

	/** Returns the raw command line elements to be executed */
	public String[] getCommandLineElements() {
	final List<String> elements = subprocessBuilder.getArgv();
	return elements.toArray(new String[elements.size()]);
	}

	/** Returns an (unmodifiable) {@link Map} view of command's environment variables or null. */
	@Nullable public Map<String, String> getEnvironmentVariables() {
	return subprocessBuilder.getEnv();
	}

	/** Returns the working directory to be used for execution, or null. */
	@Nullable public File getWorkingDirectory() {
	return subprocessBuilder.getWorkingDirectory();
	}

	/**
	* Execute this command with no input to stdin, and with the output captured in memory. If the
	* current process is interrupted, then the subprocess is also interrupted. This call blocks until
	* the subprocess completes or an error occurs.
	*
	* <p>This method is a convenience wrapper for <code>executeAsync().get()</code>.
	*
	* @return {@link CommandResult} representing result of the execution
	* @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
	* @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
	* from the process, or the process was terminated due to a signal
	* @throws BadExitStatusException if the process exits with a non-zero status
	*/
	public CommandResult execute() throws CommandException {
	return executeAsync().get();
	}

	/**
	* Execute this command with no input to stdin, and with the output streamed to the given output
	* streams, which must be thread-safe. If the current process is interrupted, then the subprocess
	* is also interrupted. This call blocks until the subprocess completes or an error occurs.
	*
	* <p>Note that the given output streams are never closed by this class.
	*
	* <p>This method is a convenience wrapper for <code>executeAsync(stdOut, stdErr).get()</code>.
	*
	* @return {@link CommandResult} representing result of the execution
	* @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
	* @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
	* from the process, or the process was terminated due to a signal
	* @throws BadExitStatusException if the process exits with a non-zero status
	*/
	public CommandResult execute(OutputStream stdOut, OutputStream stdErr) throws CommandException {
	return doExecute(
	NO_INPUT, Consumers.createStreamingConsumers(stdOut, stdErr), KILL_SUBPROCESS_ON_INTERRUPT)
	.get();
	}

	/**
	* Execute this command with no input to stdin, and with the output captured in memory. If the
	* current process is interrupted, then the subprocess is also interrupted. This call blocks until
	* the subprocess is started or throws an error if that fails, but does not wait for the
	* subprocess to exit.
	*
	* @return {@link CommandResult} representing result of the execution
	* @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
	* @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
	* from the process, or the process was terminated due to a signal
	* @throws BadExitStatusException if the process exits with a non-zero status
	*/
	public FutureCommandResult executeAsync() throws CommandException {
	return doExecute(
	NO_INPUT, Consumers.createAccumulatingConsumers(), KILL_SUBPROCESS_ON_INTERRUPT);
	}

	/**
	* Execute this command with no input to stdin, and with the output streamed to the given output
	* streams, which must be thread-safe. If the current process is interrupted, then the subprocess
	* is also interrupted. This call blocks until the subprocess is started or throws an error if
	* that fails, but does not wait for the subprocess to exit.
	*
	* <p>Note that the given output streams are never closed by this class.
	*
	* @return {@link CommandResult} representing result of the execution
	* @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
	* @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
	* from the process, or the process was terminated due to a signal
	* @throws BadExitStatusException if the process exits with a non-zero status
	*/
	public FutureCommandResult executeAsync(OutputStream stdOut, OutputStream stdErr)
	throws CommandException {
	return doExecute(
	NO_INPUT, Consumers.createStreamingConsumers(stdOut, stdErr), KILL_SUBPROCESS_ON_INTERRUPT);
	}

	/**
	* Execute this command with no input to stdin, and with the output captured in memory. This call
	* blocks until the subprocess is started or throws an error if that fails, but does not wait for
	* the subprocess to exit.
	*
	* @param killSubprocessOnInterrupt whether the subprocess should be killed if the current process
	* is interrupted
	* @return {@link CommandResult} representing result of the execution
	* @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
	* @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
	* from the process, or the process was terminated due to a signal
	* @throws BadExitStatusException if the process exits with a non-zero status
	*/
	public FutureCommandResult executeAsync(
	InputStream stdinInput, boolean killSubprocessOnInterrupt) throws CommandException {
	return doExecute(
	stdinInput, Consumers.createAccumulatingConsumers(), killSubprocessOnInterrupt);
	}

	/**
	* Execute this command with no input to stdin, and with the output streamed to the given output
	* streams, which must be thread-safe. This call blocks until the subprocess is started or throws
	* an error if that fails, but does not wait for the subprocess to exit.
	*
	* <p>Note that the given output streams are never closed by this class.
	*
	* @param killSubprocessOnInterrupt whether the subprocess should be killed if the current process
	* is interrupted
	* @return {@link CommandResult} representing result of the execution
	* @throws ExecFailedException if {@link Runtime#exec(String[])} fails for any reason
	* @throws AbnormalTerminationException if an {@link IOException} is encountered while reading
	* from the process, or the process was terminated due to a signal
	* @throws BadExitStatusException if the process exits with a non-zero status
	*/
	public FutureCommandResult executeAsync(
	InputStream stdinInput,
	OutputStream stdOut,
	OutputStream stdErr,
	boolean killSubprocessOnInterrupt)
	throws CommandException {
	return doExecute(
	stdinInput, Consumers.createStreamingConsumers(stdOut, stdErr), killSubprocessOnInterrupt);
	}

	/**
	* A string representation of this command object which includes the arguments, the environment,
	* and the working directory. Avoid relying on the specifics of this format. Note that the size of
	* the result string will reflect the size of the command.
	*/
	public String toDebugString() {
	StringBuilder message = new StringBuilder(128);
	message.append("Executing (without brackets):");
	for (String arg : subprocessBuilder.getArgv()) {
	message.append(" [");
	message.append(arg);
	message.append(']');
	}
	message.append("; environment: ");
	message.append(subprocessBuilder.getEnv());
	message.append("; working dir: ");
	File workingDirectory = subprocessBuilder.getWorkingDirectory();
	message.append(workingDirectory == null ?
	"(current)" :
	workingDirectory.toString());
	return message.toString();
	}

	private FutureCommandResult doExecute(
	InputStream stdinInput, OutErrConsumers outErrConsumers, boolean killSubprocessOnInterrupt)
	throws ExecFailedException {
	Preconditions.checkNotNull(stdinInput, "stdinInput");
	logCommand();

	Subprocess process = startProcess();

	outErrConsumers.logConsumptionStrategy();
	outErrConsumers.registerInputs(
	process.getInputStream(), process.getErrorStream(), /* closeStreams= */ false);

	// TODO(ulfjack): This call blocks until all input is written. If stdinInput is large (or
	// unbounded), then the async calls can block for a long time, and the timeout is not properly
	// enforced.
	processInput(stdinInput, process);

	return new FutureCommandResultImpl(this, process, outErrConsumers, killSubprocessOnInterrupt);
	}

	private Subprocess startProcess() throws ExecFailedException {
	try {
	return subprocessBuilder.start();
	} catch (IOException ioe) {
	throw new ExecFailedException(this, ioe);
	}
	}

	private static class NullInputStream extends InputStream {
	@Override
	public int read() {
	return -1;
	}

	@Override
	public int available() {
	return 0;
	}
	}

	private static void processInput(InputStream stdinInput, Subprocess process) {
	if (logger.isLoggable(Level.FINER)) {
	logger.finer(stdinInput.toString());
	}
	try (OutputStream out = process.getOutputStream()) {
	ByteStreams.copy(stdinInput, out);
	} catch (IOException ioe) {
	// Note: this is not an error! Perhaps the command just isn't hungry for our input and exited
	// with success. Process.waitFor (later) will tell us.
	//
	// (Unlike out/err streams, which are read asynchronously, the input stream is written
	// synchronously, in its entirety, before processInput returns. If the input is infinite, and
	// is passed through e.g. "cat" subprocess and back into the ByteArrayOutputStream, that will
	// eventually run out of memory, causing the output stream to be closed, "cat" to terminate
	// with SIGPIPE, and processInput to receive an IOException.
	}
	}

	private void logCommand() {
	if (!logger.isLoggable(Level.FINE)) {
	return;
	}
	logger.fine(toDebugString());
	}
	}