org.apache.tools.ant.taskdefs.Execute 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.tools.ant.taskdefs;
import java.io.BufferedReader;
import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.IOException;
import java.io.OutputStream;
import java.io.StringReader;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Vector;
import org.apache.tools.ant.BuildException;
import org.apache.tools.ant.Project;
import org.apache.tools.ant.Task;
import org.apache.tools.ant.taskdefs.condition.Os;
import org.apache.tools.ant.taskdefs.launcher.CommandLauncher;
import org.apache.tools.ant.types.Commandline;
import org.apache.tools.ant.util.FileUtils;
import org.apache.tools.ant.util.StringUtils;
/**
* Runs an external program.
*
* @since Ant 1.2
*/
public class Execute {
private static final int ONE_SECOND = 1000;
/**
* Invalid exit code. set to {@link Integer#MAX_VALUE}
*/
public static final int INVALID = Integer.MAX_VALUE;
private String[] cmdl = null;
private String[] env = null;
private int exitValue = INVALID;
private ExecuteStreamHandler streamHandler;
private final ExecuteWatchdog watchdog;
private File workingDirectory = null;
private Project project = null;
private boolean newEnvironment = false;
/** Controls whether the VM is used to launch commands, where possible. */
private boolean useVMLauncher = true;
private static String antWorkingDirectory = System.getProperty("user.dir");
private static Map procEnvironment = null;
/** Used to destroy processes when the VM exits. */
private static ProcessDestroyer processDestroyer = new ProcessDestroyer();
/** Used for replacing env variables */
private static boolean environmentCaseInSensitive = false;
static {
if (Os.isFamily("windows")) {
environmentCaseInSensitive = true;
}
}
/**
* Set whether or not you want the process to be spawned.
* Default is not spawned.
*
* @param spawn if true you do not want Ant
* to wait for the end of the process.
* Has no influence in here, the calling task contains
* and acts accordingly
*
* @since Ant 1.6
* @deprecated
*/
@Deprecated
public void setSpawn(boolean spawn) {
// Method did not do anything to begin with
}
/**
* Find the list of environment variables for this process.
*
* @return a map containing the environment variables.
* @since Ant 1.8.2
*/
public static synchronized Map getEnvironmentVariables() {
if (procEnvironment != null) {
return procEnvironment;
}
if (!Os.isFamily("openvms")) {
try {
procEnvironment = System.getenv();
return procEnvironment;
} catch (Exception x) {
x.printStackTrace();
}
}
procEnvironment = new LinkedHashMap();
try {
ByteArrayOutputStream out = new ByteArrayOutputStream();
Execute exe = new Execute(new PumpStreamHandler(out));
exe.setCommandline(getProcEnvCommand());
// Make sure we do not recurse forever
exe.setNewenvironment(true);
int retval = exe.execute();
if (retval != 0) {
// Just try to use what we got
}
BufferedReader in =
new BufferedReader(new StringReader(toString(out)));
if (Os.isFamily("openvms")) {
procEnvironment = getVMSLogicals(in);
return procEnvironment;
}
String var = null;
String line, lineSep = StringUtils.LINE_SEP;
while ((line = in.readLine()) != null) {
if (line.indexOf('=') == -1) {
// Chunk part of previous env var (UNIX env vars can
// contain embedded new lines).
if (var == null) {
var = lineSep + line;
} else {
var += lineSep + line;
}
} else {
// New env var...append the previous one if we have it.
if (var != null) {
int eq = var.indexOf("=");
procEnvironment.put(var.substring(0, eq),
var.substring(eq + 1));
}
var = line;
}
}
// Since we "look ahead" before adding, there's one last env var.
if (var != null) {
int eq = var.indexOf("=");
procEnvironment.put(var.substring(0, eq), var.substring(eq + 1));
}
} catch (java.io.IOException exc) {
exc.printStackTrace();
// Just try to see how much we got
}
return procEnvironment;
}
/**
* Find the list of environment variables for this process.
*
* @return a vector containing the environment variables.
* The vector elements are strings formatted like variable = value.
* @deprecated use #getEnvironmentVariables instead
*/
@Deprecated
public static synchronized Vector getProcEnvironment() {
Vector v = new Vector();
for (Entry entry : getEnvironmentVariables().entrySet()) {
v.add(entry.getKey() + "=" + entry.getValue());
}
return v;
}
/**
* This is the operation to get our environment.
* It is a notorious troublespot pre-Java1.5, and should be approached
* with extreme caution.
*
* @return command and arguments to get our environment
*/
private static String[] getProcEnvCommand() {
if (Os.isFamily("os/2")) {
// OS/2 - use same mechanism as Windows 2000
return new String[] {"cmd", "/c", "set"};
} else if (Os.isFamily("windows")) {
// Determine if we're running under XP/2000/NT or 98/95
if (Os.isFamily("win9x")) {
// Windows 98/95
return new String[] {"command.com", "/c", "set"};
} else {
// Windows XP/2000/NT/2003
return new String[] {"cmd", "/c", "set"};
}
} else if (Os.isFamily("z/os") || Os.isFamily("unix")) {
// On most systems one could use: /bin/sh -c env
// Some systems have /bin/env, others /usr/bin/env, just try
String[] cmd = new String[1];
if (new File("/bin/env").canRead()) {
cmd[0] = "/bin/env";
} else if (new File("/usr/bin/env").canRead()) {
cmd[0] = "/usr/bin/env";
} else {
// rely on PATH
cmd[0] = "env";
}
return cmd;
} else if (Os.isFamily("netware") || Os.isFamily("os/400")) {
// rely on PATH
return new String[] {"env"};
} else if (Os.isFamily("openvms")) {
return new String[] {"show", "logical"};
} else {
// MAC OS 9 and previous
// TODO: I have no idea how to get it, someone must fix it
return null;
}
}
/**
* ByteArrayOutputStream#toString doesn't seem to work reliably on
* OS/390, at least not the way we use it in the execution
* context.
*
* @param bos the output stream that one wants to read.
* @return the output stream as a string, read with
* special encodings in the case of z/os and os/400.
* @since Ant 1.5
*/
public static String toString(ByteArrayOutputStream bos) {
if (Os.isFamily("z/os")) {
try {
return bos.toString("Cp1047");
} catch (java.io.UnsupportedEncodingException e) {
// noop default encoding used
}
} else if (Os.isFamily("os/400")) {
try {
return bos.toString("Cp500");
} catch (java.io.UnsupportedEncodingException e) {
// noop default encoding used
}
}
return bos.toString();
}
/**
* Creates a new execute object using PumpStreamHandler for
* stream handling.
*/
public Execute() {
this(new PumpStreamHandler(), null);
}
/**
* Creates a new execute object.
*
* @param streamHandler the stream handler used to handle the input and
* output streams of the subprocess.
*/
public Execute(ExecuteStreamHandler streamHandler) {
this(streamHandler, null);
}
/**
* Creates a new execute object.
*
* @param streamHandler the stream handler used to handle the input and
* output streams of the subprocess.
* @param watchdog a watchdog for the subprocess or null
* to disable a timeout for the subprocess.
*/
public Execute(ExecuteStreamHandler streamHandler,
ExecuteWatchdog watchdog) {
setStreamHandler(streamHandler);
this.watchdog = watchdog;
// By default, use the shell launcher for VMS
//
if (Os.isFamily("openvms")) {
useVMLauncher = false;
}
}
/**
* Set the stream handler to use.
*
* @param streamHandler ExecuteStreamHandler.
* @since Ant 1.6
*/
public void setStreamHandler(ExecuteStreamHandler streamHandler) {
this.streamHandler = streamHandler;
}
/**
* Returns the commandline used to create a subprocess.
*
* @return the commandline used to create a subprocess.
*/
public String[] getCommandline() {
return cmdl;
}
/**
* Sets the commandline of the subprocess to launch.
*
* @param commandline the commandline of the subprocess to launch.
*/
public void setCommandline(String[] commandline) {
cmdl = commandline;
}
/**
* Set whether to propagate the default environment or not.
*
* @param newenv whether to propagate the process environment.
*/
public void setNewenvironment(boolean newenv) {
newEnvironment = newenv;
}
/**
* Returns the environment used to create a subprocess.
*
* @return the environment used to create a subprocess.
*/
public String[] getEnvironment() {
return (env == null || newEnvironment)
? env : patchEnvironment();
}
/**
* Sets the environment variables for the subprocess to launch.
*
* @param env array of Strings, each element of which has
* an environment variable settings in format key=value.
*/
public void setEnvironment(String[] env) {
this.env = env;
}
/**
* Sets the working directory of the process to execute.
*
* This is emulated using the antRun scripts unless the OS is
* Windows NT in which case a cmd.exe is spawned,
* or MRJ and setting user.dir works, or JDK 1.3 and there is
* official support in java.lang.Runtime.
*
* @param wd the working directory of the process.
*/
public void setWorkingDirectory(File wd) {
workingDirectory = wd;
}
/**
* Return the working directory.
*
* @return the directory as a File.
* @since Ant 1.7
*/
public File getWorkingDirectory() {
return workingDirectory == null ? new File(antWorkingDirectory)
: workingDirectory;
}
/**
* Set the name of the antRun script using the project's value.
*
* @param project the current project.
* @throws BuildException not clear when it is going to throw an exception, but
* it is the method's signature.
*/
public void setAntRun(Project project) throws BuildException {
this.project = project;
}
/**
* Launch this execution through the VM, where possible, rather than through
* the OS's shell. In some cases and operating systems using the shell will
* allow the shell to perform additional processing such as associating an
* executable with a script, etc.
*
* @param useVMLauncher true if exec should launch through the VM,
* false if the shell should be used to launch the
* command.
*/
public void setVMLauncher(boolean useVMLauncher) {
this.useVMLauncher = useVMLauncher;
}
/**
* Creates a process that runs a command.
*
* @param project the Project, only used for logging purposes, may be null.
* @param command the command to run.
* @param env the environment for the command.
* @param dir the working directory for the command.
* @param useVM use the built-in exec command for JDK 1.3 if available.
* @return the process started.
* @throws IOException forwarded from the particular launcher used.
* @since Ant 1.5
*/
public static Process launch(Project project, String[] command,
String[] env, File dir, boolean useVM)
throws IOException {
if (dir != null && !dir.exists()) {
throw new BuildException(dir + " doesn't exist.");
}
CommandLauncher vmLauncher = CommandLauncher.getVMLauncher(project);
CommandLauncher launcher = (useVM && vmLauncher != null)
? vmLauncher : CommandLauncher.getShellLauncher(project);
return launcher.exec(project, command, env, dir);
}
/**
* Runs a process defined by the command line and returns its exit status.
*
* @return the exit status of the subprocess or INVALID.
* @exception java.io.IOException The exception is thrown, if launching
* of the subprocess failed.
*/
public int execute() throws IOException {
if (workingDirectory != null && !workingDirectory.exists()) {
throw new BuildException(workingDirectory + " doesn't exist.");
}
final Process process = launch(project, getCommandline(),
getEnvironment(), workingDirectory,
useVMLauncher);
try {
streamHandler.setProcessInputStream(process.getOutputStream());
streamHandler.setProcessOutputStream(process.getInputStream());
streamHandler.setProcessErrorStream(process.getErrorStream());
} catch (IOException e) {
process.destroy();
throw e;
}
streamHandler.start();
try {
// add the process to the list of those to destroy if the VM exits
//
processDestroyer.add(process);
if (watchdog != null) {
watchdog.start(process);
}
waitFor(process);
if (watchdog != null) {
watchdog.stop();
}
streamHandler.stop();
closeStreams(process);
if (watchdog != null) {
watchdog.checkException();
}
return getExitValue();
} catch (ThreadDeath t) {
// #31928: forcibly kill it before continuing.
process.destroy();
throw t;
} finally {
// remove the process to the list of those to destroy if
// the VM exits
//
processDestroyer.remove(process);
}
}
/**
* Starts a process defined by the command line.
* Ant will not wait for this process, nor log its output.
*
* @throws java.io.IOException The exception is thrown, if launching
* of the subprocess failed.
* @since Ant 1.6
*/
public void spawn() throws IOException {
if (workingDirectory != null && !workingDirectory.exists()) {
throw new BuildException(workingDirectory + " doesn't exist.");
}
final Process process = launch(project, getCommandline(),
getEnvironment(), workingDirectory,
useVMLauncher);
if (Os.isFamily("windows")) {
try {
Thread.sleep(ONE_SECOND);
} catch (InterruptedException e) {
project.log("interruption in the sleep after having spawned a"
+ " process", Project.MSG_VERBOSE);
}
}
OutputStream dummyOut = new OutputStream() {
@Override
public void write(int b) throws IOException {
// Method intended to swallow whatever comes at it
}
};
ExecuteStreamHandler handler = new PumpStreamHandler(dummyOut);
handler.setProcessErrorStream(process.getErrorStream());
handler.setProcessOutputStream(process.getInputStream());
handler.start();
process.getOutputStream().close();
project.log("spawned process " + process.toString(),
Project.MSG_VERBOSE);
}
/**
* Wait for a given process.
*
* @param process the process one wants to wait for.
*/
protected void waitFor(Process process) {
try {
process.waitFor();
setExitValue(process.exitValue());
} catch (InterruptedException e) {
process.destroy();
}
}
/**
* Set the exit value.
*
* @param value exit value of the process.
*/
protected void setExitValue(int value) {
exitValue = value;
}
/**
* Query the exit value of the process.
*
* @return the exit value or Execute.INVALID if no exit value has
* been received.
*/
public int getExitValue() {
return exitValue;
}
/**
* Checks whether exitValue signals a failure on the current
* system (OS specific).
*
*
Note that this method relies on the conventions of
* the OS, it will return false results if the application you are
* running doesn't follow these conventions. One notable
* exception is the Java VM provided by HP for OpenVMS - it will
* return 0 if successful (like on any other platform), but this
* signals a failure on OpenVMS. So if you execute a new Java VM
* on OpenVMS, you cannot trust this method.
*
* @param exitValue the exit value (return code) to be checked.
* @return true if exitValue signals a failure.
*/
public static boolean isFailure(int exitValue) {
// on openvms even exit value signals failure;
// for other platforms nonzero exit value signals failure
return Os.isFamily("openvms")
? (exitValue % 2 == 0) : (exitValue != 0);
}
/**
* Did this execute return in a failure.
*
* @see #isFailure(int)
* @return true if and only if the exit code is interpreted as a failure
* @since Ant1.7
*/
public boolean isFailure() {
return isFailure(getExitValue());
}
/**
* Test for an untimely death of the process.
*
* @return true if a watchdog had to kill the process.
* @since Ant 1.5
*/
public boolean killedProcess() {
return watchdog != null && watchdog.killedProcess();
}
/**
* Patch the current environment with the new values from the user.
*
* @return the patched environment.
*/
private String[] patchEnvironment() {
// On OpenVMS Runtime#exec() doesn't support the environment array,
// so we only return the new values which then will be set in
// the generated DCL script, inheriting the parent process environment
if (Os.isFamily("openvms")) {
return env;
}
Map osEnv =
new LinkedHashMap(getEnvironmentVariables());
for (int i = 0; i < env.length; i++) {
String keyValue = env[i];
String key = keyValue.substring(0, keyValue.indexOf('='));
// Find the key in the current environment copy
// and remove it.
// Try without changing case first
if (osEnv.remove(key) == null && environmentCaseInSensitive) {
// not found, maybe perform a case insensitive search
for (String osEnvItem : osEnv.keySet()) {
// Nb: using default locale as key is a env name
if (osEnvItem.toLowerCase().equals(key.toLowerCase())) {
// Use the original casiness of the key
key = osEnvItem;
break;
}
}
}
// Add the key to the enviromnent copy
osEnv.put(key, keyValue.substring(key.length() + 1));
}
ArrayList l = new ArrayList();
for (Entry entry : osEnv.entrySet()) {
l.add(entry.getKey() + "=" + entry.getValue());
}
return l.toArray(new String[osEnv.size()]);
}
/**
* A utility method that runs an external command. Writes the output and
* error streams of the command to the project log.
*
* @param task The task that the command is part of. Used for logging
* @param cmdline The command to execute.
* @throws BuildException if the command does not exit successfully.
*/
public static void runCommand(Task task, String[] cmdline)
throws BuildException {
try {
task.log(Commandline.describeCommand(cmdline),
Project.MSG_VERBOSE);
Execute exe = new Execute(
new LogStreamHandler(task, Project.MSG_INFO, Project.MSG_ERR));
exe.setAntRun(task.getProject());
exe.setCommandline(cmdline);
int retval = exe.execute();
if (isFailure(retval)) {
throw new BuildException(cmdline[0]
+ " failed with return code " + retval, task.getLocation());
}
} catch (java.io.IOException exc) {
throw new BuildException("Could not launch " + cmdline[0] + ": "
+ exc, task.getLocation());
}
}
/**
* Close the streams belonging to the given Process.
*
* @param process the Process.
*/
public static void closeStreams(Process process) {
FileUtils.close(process.getInputStream());
FileUtils.close(process.getOutputStream());
FileUtils.close(process.getErrorStream());
}
/**
* This method is VMS specific and used by getEnvironmentVariables().
*
* Parses VMS logicals from in and returns them as a Map.
* in is expected to be the
* output of "SHOW LOGICAL". The method takes care of parsing the output
* correctly as well as making sure that a logical defined in multiple
* tables only gets added from the highest order table. Logicals with
* multiple equivalence names are mapped to a variable with multiple
* values separated by a comma (,).
*/
private static Map getVMSLogicals(BufferedReader in)
throws IOException {
HashMap logicals = new HashMap();
String logName = null, logValue = null, newLogName;
String line = null;
// CheckStyle:MagicNumber OFF
while ((line = in.readLine()) != null) {
// parse the VMS logicals into required format ("VAR=VAL[,VAL2]")
if (line.startsWith("\t=")) {
// further equivalence name of previous logical
if (logName != null) {
logValue += "," + line.substring(4, line.length() - 1);
}
} else if (line.startsWith(" \"")) {
// new logical?
if (logName != null) {
logicals.put(logName, logValue);
}
int eqIndex = line.indexOf('=');
newLogName = line.substring(3, eqIndex - 2);
if (logicals.containsKey(newLogName)) {
// already got this logical from a higher order table
logName = null;
} else {
logName = newLogName;
logValue = line.substring(eqIndex + 3, line.length() - 1);
}
}
}
// CheckStyle:MagicNumber ON
// Since we "look ahead" before adding, there's one last env var.
if (logName != null) {
logicals.put(logName, logValue);
}
return logicals;
}
}