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/*
 *  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
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 *  KIND, either express or implied.  See the License for the
 *  specific language governing permissions and limitations
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package org.codehaus.groovy.runtime;

import groovy.lang.Closure;
import groovy.lang.GroovyRuntimeException;

import java.io.BufferedInputStream;
import java.io.BufferedOutputStream;
import java.io.BufferedReader;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.OutputStream;
import java.io.Writer;
import java.util.List;

/**
 * This class defines new groovy methods which appear on normal JDK
 * classes related to process management.
 * 

* Static methods are used with the first parameter being the destination class, * i.e. public static String reverse(String self) * provides a reverse() method for String. *

* NOTE: While this class contains many 'public' static methods, it is * primarily regarded as an internal class (its internal package name * suggests this also). We value backwards compatibility of these * methods when used within Groovy but value less backwards compatibility * at the Java method call level. I.e. future versions of Groovy may * remove or move a method call in this file but would normally * aim to keep the method available from within Groovy. */ public class ProcessGroovyMethods extends DefaultGroovyMethodsSupport { /** * An alias method so that a process appears similar to System.out, System.in, System.err; * you can use process.in, process.out, process.err in a similar fashion. * * @param self a Process instance * @return the InputStream for the process * @since 1.0 */ public static InputStream getIn(Process self) { return self.getInputStream(); } /** * Read the text of the output stream of the Process. * Closes all the streams associated with the process after retrieving the text. * * @param self a Process instance * @return the text of the output * @throws java.io.IOException if an IOException occurs. * @since 1.0 */ public static String getText(Process self) throws IOException { String text = IOGroovyMethods.getText(new BufferedReader(new InputStreamReader(self.getInputStream()))); closeStreams(self); return text; } /** * An alias method so that a process appears similar to System.out, System.in, System.err; * you can use process.in, process.out, process.err in a similar fashion. * * @param self a Process instance * @return the error InputStream for the process * @since 1.0 */ public static InputStream getErr(Process self) { return self.getErrorStream(); } /** * An alias method so that a process appears similar to System.out, System.in, System.err; * you can use process.in, process.out, process.err in a similar fashion. * * @param self a Process instance * @return the OutputStream for the process * @since 1.0 */ public static OutputStream getOut(Process self) { return self.getOutputStream(); } /** * Overloads the left shift operator (<<) to provide an append mechanism * to pipe data to a Process. * * @param self a Process instance * @param value a value to append * @return a Writer * @throws java.io.IOException if an IOException occurs. * @since 1.0 */ public static Writer leftShift(Process self, Object value) throws IOException { return IOGroovyMethods.leftShift(self.getOutputStream(), value); } /** * Overloads the left shift operator to provide an append mechanism * to pipe into a Process * * @param self a Process instance * @param value data to append * @return an OutputStream * @throws java.io.IOException if an IOException occurs. * @since 1.0 */ public static OutputStream leftShift(Process self, byte[] value) throws IOException { return IOGroovyMethods.leftShift(self.getOutputStream(), value); } /** * Wait for the process to finish during a certain amount of time, otherwise stops the process. * * @param self a Process * @param numberOfMillis the number of milliseconds to wait before stopping the process * @since 1.0 */ public static void waitForOrKill(Process self, long numberOfMillis) { ProcessRunner runnable = new ProcessRunner(self); Thread thread = new Thread(runnable); thread.start(); runnable.waitForOrKill(numberOfMillis); } /** * Closes all the streams associated with the process (ignoring any IOExceptions). * * @param self a Process * @since 2.1 */ public static void closeStreams(Process self) { try { self.getErrorStream().close(); } catch (IOException ignore) {} try { self.getInputStream().close(); } catch (IOException ignore) {} try { self.getOutputStream().close(); } catch (IOException ignore) {} } /** * Gets the output and error streams from a process and reads them * to keep the process from blocking due to a full output buffer. * The stream data is thrown away but blocking due to a full output buffer is avoided. * Use this method if you don't care about the standard or error output and just * want the process to run silently - use carefully however, because since the stream * data is thrown away, it might be difficult to track down when something goes wrong. * For this, two Threads are started, so this method will return immediately. * * @param self a Process * @since 1.0 */ public static void consumeProcessOutput(Process self) { consumeProcessOutput(self, (OutputStream)null, (OutputStream)null); } /** * Gets the output and error streams from a process and reads them * to keep the process from blocking due to a full output buffer. * The processed stream data is appended to the supplied Appendable. * For this, two Threads are started, so this method will return immediately. * The threads will not be join()ed, even if waitFor() is called. To wait * for the output to be fully consumed call waitForProcessOutput(). * * @param self a Process * @param output an Appendable to capture the process stdout * @param error an Appendable to capture the process stderr * @since 1.7.5 */ public static void consumeProcessOutput(Process self, Appendable output, Appendable error) { consumeProcessOutputStream(self, output); consumeProcessErrorStream(self, error); } /** * Gets the output and error streams from a process and reads them * to keep the process from blocking due to a full output buffer. * The processed stream data is appended to the supplied OutputStream. * For this, two Threads are started, so this method will return immediately. * The threads will not be join()ed, even if waitFor() is called. To wait * for the output to be fully consumed call waitForProcessOutput(). * * @param self a Process * @param output an OutputStream to capture the process stdout * @param error an OutputStream to capture the process stderr * @since 1.5.2 */ public static void consumeProcessOutput(Process self, OutputStream output, OutputStream error) { consumeProcessOutputStream(self, output); consumeProcessErrorStream(self, error); } /** * Gets the output and error streams from a process and reads them * to keep the process from blocking due to a full output buffer. * The stream data is thrown away but blocking due to a full output buffer is avoided. * Use this method if you don't care about the standard or error output and just * want the process to run silently - use carefully however, because since the stream * data is thrown away, it might be difficult to track down when something goes wrong. * For this, two Threads are started, but join()ed, so we wait. * As implied by the waitFor... name, we also wait until we finish * as well. Finally, the output and error streams are closed. * * @param self a Process * @since 1.6.5 */ public static void waitForProcessOutput(Process self) { waitForProcessOutput(self, (OutputStream)null, (OutputStream)null); } /** * Gets the output and error streams from a process and reads them * to keep the process from blocking due to a full output buffer. * The processed stream data is appended to the supplied Appendable. * For this, two Threads are started, but join()ed, so we wait. * As implied by the waitFor... name, we also wait until we finish * as well. Finally, the input, output and error streams are closed. * * @param self a Process * @param output an Appendable to capture the process stdout * @param error an Appendable to capture the process stderr * @since 1.7.5 */ public static void waitForProcessOutput(Process self, Appendable output, Appendable error) { Thread tout = consumeProcessOutputStream(self, output); Thread terr = consumeProcessErrorStream(self, error); boolean interrupted = false; try { try { tout.join(); } catch (InterruptedException ignore) { interrupted = true; } try { terr.join(); } catch (InterruptedException ignore) { interrupted = true; } try { self.waitFor(); } catch (InterruptedException ignore) { interrupted = true; } closeStreams(self); } finally { if (interrupted) Thread.currentThread().interrupt(); } } /** * Gets the output and error streams from a process and reads them * to keep the process from blocking due to a full output buffer. * The processed stream data is appended to the supplied OutputStream. * For this, two Threads are started, but join()ed, so we wait. * As implied by the waitFor... name, we also wait until we finish * as well. Finally, the input, output and error streams are closed. * * @param self a Process * @param output an OutputStream to capture the process stdout * @param error an OutputStream to capture the process stderr * @since 1.6.5 */ public static void waitForProcessOutput(Process self, OutputStream output, OutputStream error) { Thread tout = consumeProcessOutputStream(self, output); Thread terr = consumeProcessErrorStream(self, error); boolean interrupted = false; try { try { tout.join(); } catch (InterruptedException ignore) { interrupted = true; } try { terr.join(); } catch (InterruptedException ignore) { interrupted = true; } try { self.waitFor(); } catch (InterruptedException ignore) { interrupted = true; } closeStreams(self); } finally { if (interrupted) Thread.currentThread().interrupt(); } } /** * Gets the error stream from a process and reads it * to keep the process from blocking due to a full buffer. * The processed stream data is appended to the supplied OutputStream. * A new Thread is started, so this method will return immediately. * * @param self a Process * @param err an OutputStream to capture the process stderr * @return the Thread * @since 1.5.2 */ public static Thread consumeProcessErrorStream(Process self, OutputStream err) { Thread thread = new Thread(new ByteDumper(self.getErrorStream(), err)); thread.start(); return thread; } /** * Gets the error stream from a process and reads it * to keep the process from blocking due to a full buffer. * The processed stream data is appended to the supplied Appendable. * A new Thread is started, so this method will return immediately. * * @param self a Process * @param error an Appendable to capture the process stderr * @return the Thread * @since 1.7.5 */ public static Thread consumeProcessErrorStream(Process self, Appendable error) { Thread thread = new Thread(new TextDumper(self.getErrorStream(), error)); thread.start(); return thread; } /** * Gets the output stream from a process and reads it * to keep the process from blocking due to a full output buffer. * The processed stream data is appended to the supplied Appendable. * A new Thread is started, so this method will return immediately. * * @param self a Process * @param output an Appendable to capture the process stdout * @return the Thread * @since 1.7.5 */ public static Thread consumeProcessOutputStream(Process self, Appendable output) { Thread thread = new Thread(new TextDumper(self.getInputStream(), output)); thread.start(); return thread; } /** * Gets the output stream from a process and reads it * to keep the process from blocking due to a full output buffer. * The processed stream data is appended to the supplied OutputStream. * A new Thread is started, so this method will return immediately. * * @param self a Process * @param output an OutputStream to capture the process stdout * @return the Thread * @since 1.5.2 */ public static Thread consumeProcessOutputStream(Process self, OutputStream output) { Thread thread = new Thread(new ByteDumper(self.getInputStream(), output)); thread.start(); return thread; } /** * Creates a new BufferedWriter as stdin for this process, * passes it to the closure, and ensures the stream is flushed * and closed after the closure returns. * A new Thread is started, so this method will return immediately. * * @param self a Process * @param closure a closure * @since 1.5.2 */ public static void withWriter(final Process self, final Closure closure) { new Thread(new Runnable() { public void run() { try { IOGroovyMethods.withWriter(new BufferedOutputStream(getOut(self)), closure); } catch (IOException e) { throw new GroovyRuntimeException("exception while reading process stream", e); } } }).start(); } /** * Creates a new buffered OutputStream as stdin for this process, * passes it to the closure, and ensures the stream is flushed * and closed after the closure returns. * A new Thread is started, so this method will return immediately. * * @param self a Process * @param closure a closure * @since 1.5.2 */ public static void withOutputStream(final Process self, final Closure closure) { new Thread(new Runnable() { public void run() { try { IOGroovyMethods.withStream(new BufferedOutputStream(getOut(self)), closure); } catch (IOException e) { throw new GroovyRuntimeException("exception while reading process stream", e); } } }).start(); } /** * Allows one Process to asynchronously pipe data to another Process. * * @param left a Process instance * @param right a Process to pipe output to * @return the second Process to allow chaining * @throws java.io.IOException if an IOException occurs. * @since 1.5.2 */ public static Process pipeTo(final Process left, final Process right) throws IOException { new Thread(new Runnable() { public void run() { InputStream in = new BufferedInputStream(getIn(left)); OutputStream out = new BufferedOutputStream(getOut(right)); byte[] buf = new byte[8192]; int next; try { while ((next = in.read(buf)) != -1) { out.write(buf, 0, next); } } catch (IOException e) { throw new GroovyRuntimeException("exception while reading process stream", e); } finally { closeWithWarning(out); closeWithWarning(in); } } }).start(); return right; } /** * Overrides the or operator to allow one Process to asynchronously * pipe data to another Process. * * @param left a Process instance * @param right a Process to pipe output to * @return the second Process to allow chaining * @throws java.io.IOException if an IOException occurs. * @since 1.5.1 */ public static Process or(final Process left, final Process right) throws IOException { return pipeTo(left, right); } /** * A Runnable which waits for a process to complete together with a notification scheme * allowing another thread to wait a maximum number of seconds for the process to complete * before killing it. * * @since 1.0 */ protected static class ProcessRunner implements Runnable { Process process; private boolean finished; public ProcessRunner(Process process) { this.process = process; } private void doProcessWait() { try { process.waitFor(); } catch (InterruptedException ignore) { Thread.currentThread().interrupt(); } } public void run() { doProcessWait(); synchronized (this) { notifyAll(); finished = true; } } public synchronized void waitForOrKill(long millis) { if (!finished) { try { wait(millis); } catch (InterruptedException ignore) { Thread.currentThread().interrupt(); } if (!finished) { process.destroy(); doProcessWait(); } } } } private static class TextDumper implements Runnable { final InputStream in; final Appendable app; public TextDumper(InputStream in, Appendable app) { this.in = in; this.app = app; } public void run() { InputStreamReader isr = new InputStreamReader(in); BufferedReader br = new BufferedReader(isr); String next; try { while ((next = br.readLine()) != null) { if (app != null) { app.append(next); app.append("\n"); } } } catch (IOException e) { throw new GroovyRuntimeException("exception while reading process stream", e); } } } private static class ByteDumper implements Runnable { final InputStream in; final OutputStream out; public ByteDumper(InputStream in, OutputStream out) { this.in = new BufferedInputStream(in); this.out = out; } public void run() { byte[] buf = new byte[8192]; int next; try { while ((next = in.read(buf)) != -1) { if (out != null) out.write(buf, 0, next); } } catch (IOException e) { throw new GroovyRuntimeException("exception while dumping process stream", e); } } } /** * Executes the command specified by self as a command-line process. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param self a command line String * @return the Process which has just started for this command line representation * @throws IOException if an IOException occurs. * @since 1.0 */ public static Process execute(final String self) throws IOException { return Runtime.getRuntime().exec(self); } /** * Executes the command specified by self with environment defined by envp * and under the working directory dir. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param self a command line String to be executed. * @param envp an array of Strings, each element of which * has environment variable settings in the format * name=value, or * null if the subprocess should inherit * the environment of the current process. * @param dir the working directory of the subprocess, or * null if the subprocess should inherit * the working directory of the current process. * @return the Process which has just started for this command line representation. * @throws IOException if an IOException occurs. * @since 1.0 */ public static Process execute(final String self, final String[] envp, final File dir) throws IOException { return Runtime.getRuntime().exec(self, envp, dir); } /** * Executes the command specified by self with environment defined * by envp and under the working directory dir. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param self a command line String to be executed. * @param envp a List of Objects (converted to Strings using toString), each member of which * has environment variable settings in the format * name=value, or * null if the subprocess should inherit * the environment of the current process. * @param dir the working directory of the subprocess, or * null if the subprocess should inherit * the working directory of the current process. * @return the Process which has just started for this command line representation. * @throws IOException if an IOException occurs. * @since 1.0 */ public static Process execute(final String self, final List envp, final File dir) throws IOException { return execute(self, stringify(envp), dir); } /** * Executes the command specified by the given String array. * The first item in the array is the command; the others are the parameters. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param commandArray an array of String containing the command name and * parameters as separate items in the array. * @return the Process which has just started for this command line representation. * @throws IOException if an IOException occurs. * @since 1.0 */ public static Process execute(final String[] commandArray) throws IOException { return Runtime.getRuntime().exec(commandArray); } /** * Executes the command specified by the String array given in the first parameter, * with the environment defined by envp and under the working directory dir. * The first item in the array is the command; the others are the parameters. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param commandArray an array of String containing the command name and * parameters as separate items in the array. * @param envp an array of Strings, each member of which * has environment variable settings in the format * name=value, or * null if the subprocess should inherit * the environment of the current process. * @param dir the working directory of the subprocess, or * null if the subprocess should inherit * the working directory of the current process. * @return the Process which has just started for this command line representation. * @throws IOException if an IOException occurs. * @since 1.7.1 */ public static Process execute(final String[] commandArray, final String[] envp, final File dir) throws IOException { return Runtime.getRuntime().exec(commandArray, envp, dir); } /** * Executes the command specified by the String array given in the first parameter, * with the environment defined by envp and under the working directory dir. * The first item in the array is the command; the others are the parameters. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param commandArray an array of String containing the command name and * parameters as separate items in the array. * @param envp a List of Objects (converted to Strings using toString), each member of which * has environment variable settings in the format * name=value, or * null if the subprocess should inherit * the environment of the current process. * @param dir the working directory of the subprocess, or * null if the subprocess should inherit * the working directory of the current process. * @return the Process which has just started for this command line representation. * @throws IOException if an IOException occurs. * @since 1.7.1 */ public static Process execute(final String[] commandArray, final List envp, final File dir) throws IOException { return Runtime.getRuntime().exec(commandArray, stringify(envp), dir); } /** * Executes the command specified by the given list. The toString() method is called * for each item in the list to convert into a resulting String. * The first item in the list is the command the others are the parameters. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param commands a list containing the command name and * parameters as separate items in the list. * @return the Process which has just started for this command line representation. * @throws IOException if an IOException occurs. * @since 1.0 */ public static Process execute(final List commands) throws IOException { return execute(stringify(commands)); } /** * Executes the command specified by the given list, * with the environment defined by envp and under the working directory dir. * The first item in the list is the command; the others are the parameters. The toString() * method is called on items in the list to convert them to Strings. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param commands a List containing the command name and * parameters as separate items in the list. * @param envp an array of Strings, each member of which * has environment variable settings in the format * name=value, or * null if the subprocess should inherit * the environment of the current process. * @param dir the working directory of the subprocess, or * null if the subprocess should inherit * the working directory of the current process. * @return the Process which has just started for this command line representation. * @throws IOException if an IOException occurs. * @since 1.7.1 */ public static Process execute(final List commands, final String[] envp, final File dir) throws IOException { return Runtime.getRuntime().exec(stringify(commands), envp, dir); } /** * Executes the command specified by the given list, * with the environment defined by envp and under the working directory dir. * The first item in the list is the command; the others are the parameters. The toString() * method is called on items in the list to convert them to Strings. *

For more control over Process construction you can use * java.lang.ProcessBuilder. * * @param commands a List containing the command name and * parameters as separate items in the list. * @param envp a List of Objects (converted to Strings using toString), each member of which * has environment variable settings in the format * name=value, or * null if the subprocess should inherit * the environment of the current process. * @param dir the working directory of the subprocess, or * null if the subprocess should inherit * the working directory of the current process. * @return the Process which has just started for this command line representation. * @throws IOException if an IOException occurs. * @since 1.7.1 */ public static Process execute(final List commands, final List envp, final File dir) throws IOException { return Runtime.getRuntime().exec(stringify(commands), stringify(envp), dir); } private static String[] stringify(final List orig) { if (orig == null) return null; String[] result = new String[orig.size()]; for (int i = 0; i < orig.size(); i++) { result[i] = orig.get(i).toString(); } return result; } }





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