BEGIN LICENSE BLOCK ***** Version: EPL 2.0/GPL 2.0/LGPL 2.1 The contents of this file are subject to the Eclipse Public 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.eclipse.org/legal/epl-v20.html Software distributed under the License is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the specific language governing rights and limitations under the License. Copyright (C) 2007-2011 JRuby Team Alternatively, the contents of this file may be used under the terms of either of the GNU General Public License Version 2 or later (the "GPL"), or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), in which case the provisions of the GPL or the LGPL are applicable instead of those above. If you wish to allow use of your version of this file only under the terms of either the GPL or the LGPL, and not to allow others to use your version of this file under the terms of the EPL, indicate your decision by deleting the provisions above and replace them with the notice and other provisions required by the GPL or the LGPL. If you do not delete the provisions above, a recipient may use your version of this file under the terms of any one of the EPL, the GPL or the LGPL. END LICENSE BLOCK
/***** BEGIN LICENSE BLOCK ***** * Version: EPL 2.0/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Eclipse Public * 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.eclipse.org/legal/epl-v20.html * * Software distributed under the License is distributed on an "AS * IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or * implied. See the License for the specific language governing * rights and limitations under the License. * * Copyright (C) 2007-2011 JRuby Team <team@jruby.org> * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the EPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the EPL, the GPL or the LGPL. ***** END LICENSE BLOCK *****/
package org.jruby.util; import static com.headius.backport9.buffer.Buffers.clearBuffer; import static com.headius.backport9.buffer.Buffers.flipBuffer; import static java.lang.System.out; import java.io.File; import java.io.FileInputStream; import java.io.FileOutputStream; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.io.PipedInputStream; import java.io.PipedOutputStream; import java.io.PrintStream; import java.lang.reflect.Field; import java.nio.ByteBuffer; import java.nio.channels.FileChannel; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Set; import java.util.regex.Matcher; import java.util.regex.Pattern; import org.jruby.Main; import org.jruby.Ruby; import org.jruby.RubyArray; import org.jruby.RubyHash; import org.jruby.RubyIO; import org.jruby.RubyInstanceConfig; import org.jruby.RubyModule; import org.jruby.RubyString; import jnr.posix.util.Platform; import org.jruby.javasupport.Java; import org.jruby.runtime.Helpers; import org.jruby.ext.rbconfig.RbConfigLibrary; import org.jruby.runtime.ThreadContext; import org.jruby.runtime.builtin.IRubyObject; import org.jruby.util.io.ChannelHelper; import org.jruby.util.io.IOOptions; import org.jruby.util.io.ModeFlags;
This mess of a class is what happens when all Java gives you is Runtime.getRuntime().exec(). Thanks dude, that really helped.
Author:nicksieger
/** * This mess of a class is what happens when all Java gives you is * Runtime.getRuntime().exec(). Thanks dude, that really helped. * @author nicksieger */
@SuppressWarnings("deprecation") public class ShellLauncher { private static final boolean DEBUG = false; private static final String PATH_ENV = "PATH"; // from MRI -- note the unixy file separators private static final String[] DEFAULT_PATH = { "/usr/local/bin", "/usr/ucb", "/usr/bin", "/bin" }; private static final String[] WINDOWS_EXE_SUFFIXES = { ".exe", ".com", ".bat", ".cmd" }; // the order is important private static final String[] WINDOWS_INTERNAL_CMDS = { "assoc", "break", "call", "cd", "chcp", "chdir", "cls", "color", "copy", "ctty", "date", "del", "dir", "echo", "endlocal", "erase", "exit", "for", "ftype", "goto", "if", "lfnfor", "lh", "lock", "md", "mkdir", "move", "path", "pause", "popd", "prompt", "pushd", "rd", "rem", "ren", "rename", "rmdir", "set", "setlocal", "shift", "start", "time", "title", "truename", "type", "unlock", "ver", "verify", "vol", }; // TODO: better check is needed, with quoting/escaping private static final Pattern SHELL_METACHARACTER_PATTERN = Pattern.compile("[*?{}\\[\\]<>()~&|$;'`\\\\\"\\n]"); private static final Pattern WIN_ENVVAR_PATTERN = Pattern.compile("%\\w+%"); private static class ScriptThreadProcess extends Process implements Runnable { private final String[] argArray; private final String[] env; private final File pwd; private final boolean pipedStreams; private final PipedInputStream processOutput; private final PipedInputStream processError; private final PipedOutputStream processInput; private RubyInstanceConfig config; private Thread processThread; private int result; private Ruby parentRuntime; public ScriptThreadProcess(Ruby parentRuntime, final String[] argArray, final String[] env, final File dir) { this(parentRuntime, argArray, env, dir, true); } public ScriptThreadProcess(Ruby parentRuntime, final String[] argArray, final String[] env, final File dir, final boolean pipedStreams) { this.parentRuntime = parentRuntime; this.argArray = argArray; this.env = env; this.pwd = dir; this.pipedStreams = pipedStreams; if (pipedStreams) { processOutput = new PipedInputStream(); processError = new PipedInputStream(); processInput = new PipedOutputStream(); } else { processOutput = processError = null; processInput = null; } } public void run() { try { this.result = (new Main(config).run(argArray)).getStatus(); } catch (Throwable throwable) { throwable.printStackTrace(this.config.getError()); this.result = -1; } finally { this.config.getOutput().close(); this.config.getError().close(); try {this.config.getInput().close();} catch (IOException ioe) {} } } private static Map<String, String> environmentMap(String[] env) { Map<String, String> map = new HashMap<>(env.length + 2, 1); for (int i = 0; i < env.length; i++) { List<String> kv = StringSupport.split(env[i], '=', 2); map.put(kv.get(0), kv.get(1)); } return map; } public void start() throws IOException { config = new RubyInstanceConfig(parentRuntime.getInstanceConfig()); config.setCurrentDirectory(pwd.toString()); config.setEnvironment(environmentMap(env)); if (pipedStreams) { config.setInput(new PipedInputStream(processInput)); config.setOutput(new PrintStream(new PipedOutputStream(processOutput))); config.setError(new PrintStream(new PipedOutputStream(processError))); } String procName = "piped"; if (argArray.length > 0) { procName = argArray[0]; } processThread = new Thread(this, "ScriptThreadProcess: " + procName); processThread.setDaemon(true); processThread.start(); } public OutputStream getOutputStream() { return processInput; } public InputStream getInputStream() { return processOutput; } public InputStream getErrorStream() { return processError; } public int waitFor() throws InterruptedException { processThread.join(); return result; } public int exitValue() { return result; } public void destroy() { if (pipedStreams) { closeStreams(); } processThread.interrupt(); } private void closeStreams() { try { processInput.close(); } catch (IOException io) {} try { processOutput.close(); } catch (IOException io) {} try { processError.close(); } catch (IOException io) {} } } public static String[] getCurrentEnv(Ruby runtime) { return getModifiedEnv(runtime, Collections.EMPTY_LIST, false); } private static String[] getCurrentEnv(Ruby runtime, Map mergeEnv) { // TODO: ensure nobody passes null return getModifiedEnv(runtime, mergeEnv == null ? Collections.EMPTY_LIST : mergeEnv.entrySet(), false); } public static String[] getModifiedEnv(Ruby runtime, Collection mergeEnv, boolean clearEnv) { ThreadContext context = runtime.getCurrentContext(); // disable tracing for the dup call below boolean traceEnabled = context.isEventHooksEnabled(); context.setEventHooksEnabled(false); try { // dup for JRUBY-6603 (avoid concurrent modification while we walk it) RubyHash hash = null; if (clearEnv) { hash = RubyHash.newHash(runtime); } else { hash = (RubyHash) runtime.getObject().getConstant("ENV").dup(); } if (mergeEnv != null) { if (mergeEnv instanceof Set) { for (Map.Entry e : (Set<Map.Entry>)mergeEnv) { // if the key is nil, raise TypeError if (e.getKey() == null) { throw runtime.newTypeError(runtime.getNil(), runtime.getStructClass()); } // ignore if the value is nil if (e.getValue() == null) { hash.remove(e.getKey().toString()); continue; } hash.put(e.getKey().toString(), e.getValue().toString()); } } else if (mergeEnv instanceof RubyArray) { for (int j = 0; j < mergeEnv.size(); j++) { RubyArray e = ((RubyArray)mergeEnv).eltOk(j).convertToArray(); // if there are not two elements, raise ArgumentError if (e.size() != 2) { throw runtime.newArgumentError("env assignments must come in pairs"); } // if the key is nil, raise TypeError if (e.eltOk(0) == null) { throw runtime.newTypeError(runtime.getNil(), runtime.getStructClass()); } // ignore if the value is nil if (e.eltOk(1) == null) { hash.remove(e.eltOk(0).toString()); continue; } hash.put(e.eltOk(0).toString(), e.eltOk(1).toString()); } } } String[] ret = new String[hash.size()]; int i = 0; for (Map.Entry<String, String> e : (Set<Map.Entry<String, String>>)hash.entrySet()) { // if the key is nil, raise TypeError if (e.getKey() == null) { throw runtime.newTypeError(runtime.getNil(), runtime.getStructClass()); } // ignore if the value is nil if (e.getValue() == null) { continue; } ret[i] = e.getKey() + '=' + e.getValue(); i++; } return arrayOfLength(ret, i); } finally { context.setEventHooksEnabled(traceEnabled); } } private static String[] arrayOfLength(final String[] ary, final int len) { return len == ary.length ? ary : Arrays.copyOf(ary, len); } private static boolean filenameIsPathSearchable(String fname, boolean forExec) { if (fname.startsWith("/") || fname.startsWith("./") || fname.startsWith("../") || (forExec && (fname.indexOf('/') != -1))) { return false; } if (Platform.IS_WINDOWS) { if (fname.startsWith("\\") || fname.startsWith(".\\") || fname.startsWith("..\\") || ((fname.length() > 2) && fname.charAt(1) == ':') || (forExec && (fname.indexOf('\\') != -1))) { return false; } } return true; } private static File tryFile(Ruby runtime, String fdir, String fname) { File pathFile; if (fdir == null) { pathFile = new File(fname); } else { pathFile = new File(fdir, fname); } if (!pathFile.isAbsolute()) { pathFile = new File(runtime.getCurrentDirectory(), pathFile.getPath()); } log(runtime, "Trying file " + pathFile); if (pathFile.exists()) return pathFile; return null; } private static boolean withExeSuffix(String fname) { String lowerCaseFname = fname.toLowerCase(); for (String suffix : WINDOWS_EXE_SUFFIXES) { if (lowerCaseFname.endsWith(suffix)) { return true; } } return false; } private static File isValidFile(Ruby runtime, String fdir, String fname, boolean isExec) { File validFile = null; if (isExec && Platform.IS_WINDOWS) { if (withExeSuffix(fname)) { validFile = tryFile(runtime, fdir, fname); } else { for (String suffix: WINDOWS_EXE_SUFFIXES) { validFile = tryFile(runtime, fdir, fname + suffix); if (validFile != null) { // found a valid file, no need to search further break; } } } } else { validFile = tryFile(runtime, fdir, fname); if (validFile != null) { if (validFile.isDirectory()) { return null; } if (isExec && !runtime.getPosix().stat(validFile.getAbsolutePath()).isExecutable()) { throw runtime.newErrnoEACCESError(validFile.getAbsolutePath()); } } } return validFile; } private static File isValidFile(Ruby runtime, String fname, boolean isExec) { String fdir = null; return isValidFile(runtime, fdir, fname, isExec); } private static File findPathFile(Ruby runtime, String fname, String[] path, boolean isExec) { File pathFile = null; if (Platform.IS_WINDOWS && fname.startsWith("\"") && fname.endsWith("\"")) { fname = fname.substring(1, fname.length() - 1); // remove double quotes if present } boolean doPathSearch = filenameIsPathSearchable(fname, isExec); if (doPathSearch) { for (String fdir: path) { // NOTE: Jruby's handling of tildes is more complete than // MRI's, which can't handle user names after the tilde // when searching the executable path try { pathFile = isValidFile(runtime, fdir, fname, isExec); if (pathFile != null) { break; } } catch (SecurityException se) { // Security prevented accessing this PATH entry, proceed to next continue; } } } else { pathFile = isValidFile(runtime, fname, isExec); } return pathFile; } public static File findPathExecutable(Ruby runtime, String fname) { RubyHash env = (RubyHash) runtime.getObject().getConstant("ENV"); IRubyObject pathObject = env.op_aref(runtime.getCurrentContext(), RubyString.newString(runtime, PATH_ENV)); return findPathExecutable(runtime, fname, pathObject); } // MRI: Hopefully close to dln_find_exe_r used by popen logic public static File findPathExecutable(Ruby runtime, String fname, IRubyObject pathObject) { String[] pathNodes; if (pathObject == null || pathObject.isNil()) { RubyHash env = (RubyHash) runtime.getObject().getConstant("ENV"); pathObject = env.op_aref(runtime.getCurrentContext(), RubyString.newString(runtime, PATH_ENV)); } if (pathObject == null) { pathNodes = DEFAULT_PATH; // ASSUME: not modified by callee } else { String pathSeparator = System.getProperty("path.separator"); String path = pathObject.toString(); if (Platform.IS_WINDOWS) { // Windows-specific behavior path = "." + pathSeparator + path; } pathNodes = path.split(pathSeparator); } return findPathFile(runtime, fname, pathNodes, true); } public static int runAndWait(Ruby runtime, IRubyObject[] rawArgs) { return runAndWait(runtime, rawArgs, runtime.getOutputStream()); } public static long[] runAndWaitPid(Ruby runtime, IRubyObject[] rawArgs) { return runAndWaitPid(runtime, rawArgs, runtime.getOutputStream(), true); } public static long runWithoutWait(Ruby runtime, IRubyObject[] rawArgs) { return runWithoutWait(runtime, rawArgs, runtime.getOutputStream()); } public static int runExternalAndWait(Ruby runtime, IRubyObject[] rawArgs, Map mergeEnv) { OutputStream output = runtime.getOutputStream(); OutputStream error = runtime.getErrorStream(); InputStream input = runtime.getInputStream(); File pwd = new File(runtime.getCurrentDirectory()); LaunchConfig cfg = new LaunchConfig(runtime, rawArgs, true); try { Process process; try { if (cfg.shouldRunInShell()) { log(runtime, "Launching with shell"); // execute command with sh -c ... this does shell expansion of wildcards cfg.verifyExecutableForShell(); process = buildProcess(runtime, cfg.getExecArgs(), getCurrentEnv(runtime, mergeEnv), pwd); } else { log(runtime, "Launching directly (no shell)"); cfg.verifyExecutableForDirect(); } final String[] execArgs = cfg.getExecArgs(); if (changeDirInsideJar(runtime, execArgs)) { pwd = new File(System.getProperty("user.dir")); } process = buildProcess(runtime, execArgs, getCurrentEnv(runtime, mergeEnv), pwd); } catch (SecurityException se) { throw runtime.newSecurityError(se.getLocalizedMessage()); } handleStreams(runtime, process, input, output, error); return process.waitFor(); } catch (IOException e) { throw runtime.newIOErrorFromException(e); } catch (InterruptedException e) { throw runtime.newThreadError("unexpected interrupt"); } } public static long runExternalWithoutWait(Ruby runtime, IRubyObject env, IRubyObject prog, IRubyObject options, IRubyObject args) { return runExternal(runtime, env, prog, options, args, false); } public static long runExternal(Ruby runtime, IRubyObject env, IRubyObject prog, IRubyObject options, IRubyObject args, boolean wait) { if (env.isNil() || !(env instanceof Map)) { env = null; } IRubyObject[] rawArgs = args.convertToArray().toJavaArray(); OutputStream output = runtime.getOutputStream(); OutputStream error = runtime.getErrorStream(); InputStream input = runtime.getInputStream(); File pwd = new File(runtime.getCurrentDirectory()); LaunchConfig cfg = new LaunchConfig(runtime, rawArgs, true); try { Process process; try { if (cfg.shouldRunInShell()) { log(runtime, "Launching with shell"); // execute command with sh -c // this does shell expansion of wildcards cfg.verifyExecutableForShell(); } else { log(runtime, "Launching directly (no shell)"); cfg.verifyExecutableForDirect(); } final String[] execArgs = cfg.getExecArgs(); if (changeDirInsideJar(runtime, execArgs)) { pwd = new File("."); } process = buildProcess(runtime, execArgs, getCurrentEnv(runtime, (Map) env), pwd); } catch (SecurityException se) { throw runtime.newSecurityError(se.getLocalizedMessage()); } if (wait) { handleStreams(runtime, process, input, output, error); try { return process.waitFor(); } catch (InterruptedException e) { throw runtime.newThreadError("unexpected interrupt"); } } else { handleStreamsNonblocking(runtime, process, runtime.getOutputStream(), error); return getPidFromProcess(process); } } catch (IOException e) { throw runtime.newIOErrorFromException(e); } } private static boolean changeDirInsideJar(final Ruby runtime, final String[] args) { final String arg; if ((arg = changeDirInsideJar(runtime, args[args.length - 1])) != null) { args[args.length - 1] = arg; return true; } return false; } public static String changeDirInsideJar(final Ruby runtime, final String arg) { // only if inside a jar and spawning org.jruby.Main we change to the current directory inside the jar if (runtime.getCurrentDirectory().startsWith("uri:classloader:") && arg.contains("org.jruby.Main")) { return StringSupport.replaceFirst(arg, "org.jruby.Main", "org.jruby.Main -C " + runtime.getCurrentDirectory()).toString(); } return null; } public static Process buildProcess(Ruby runtime, String[] args, String[] env, File pwd) throws IOException { return runtime.getPosix().newProcessMaker(args) .environment(env) .directory(pwd) .start(); } public static long runExternalWithoutWait(Ruby runtime, IRubyObject[] rawArgs) { return runWithoutWait(runtime, rawArgs, runtime.getOutputStream()); } public static int execAndWait(Ruby runtime, IRubyObject[] rawArgs) { return execAndWait(runtime, rawArgs, Collections.EMPTY_MAP); } public static int execAndWait(Ruby runtime, IRubyObject[] rawArgs, Map mergeEnv) { File pwd = new File(runtime.getCurrentDirectory()); LaunchConfig cfg = new LaunchConfig(runtime, rawArgs, true); if (cfg.shouldRunInProcess()) { log(runtime, "ExecAndWait in-process"); try { // exec needs to behave differently in-process, because it's technically // supposed to replace the calling process. So if we're supposed to run // in-process, we allow it to use the default streams and not use // pumpers at all. See JRUBY-2156 and JRUBY-2154. ScriptThreadProcess ipScript = new ScriptThreadProcess( runtime, cfg.getExecArgs(), getCurrentEnv(runtime, mergeEnv), pwd, false); ipScript.start(); return ipScript.waitFor(); } catch (IOException e) { throw runtime.newIOErrorFromException(e); } catch (InterruptedException e) { throw runtime.newThreadError("unexpected interrupt"); } } else { return runExternalAndWait(runtime, rawArgs, mergeEnv); } } public static int runAndWait(Ruby runtime, IRubyObject[] rawArgs, OutputStream output) { return runAndWait(runtime, rawArgs, output, true); } public static int runAndWait(Ruby runtime, IRubyObject[] rawArgs, OutputStream output, boolean doExecutableSearch) { return (int)runAndWaitPid(runtime, rawArgs, output, doExecutableSearch)[0]; } public static long[] runAndWaitPid(Ruby runtime, IRubyObject[] rawArgs, OutputStream output, boolean doExecutableSearch) { OutputStream error = runtime.getErrorStream(); InputStream input = runtime.getInputStream(); try { Process aProcess = run(runtime, rawArgs, doExecutableSearch); handleStreams(runtime, aProcess, input, output, error); return new long[] {aProcess.waitFor(), getPidFromProcess(aProcess)}; } catch (IOException e) { throw runtime.newIOErrorFromException(e); } catch (InterruptedException e) { throw runtime.newThreadError("unexpected interrupt"); } } private static long runWithoutWait(Ruby runtime, IRubyObject[] rawArgs, OutputStream output) { OutputStream error = runtime.getErrorStream(); try { Process aProcess = run(runtime, rawArgs, true); handleStreamsNonblocking(runtime, aProcess, output, error); return getPidFromProcess(aProcess); } catch (IOException e) { throw runtime.newIOErrorFromException(e); } } public static long getPidFromProcess(Process process) { if (process instanceof ScriptThreadProcess) { return process.hashCode(); } else if (process instanceof POpenProcess) { return reflectPidFromProcess(((POpenProcess)process).getChild()); } else { return reflectPidFromProcess(process); } } private static final Class UNIXProcess; private static final Field UNIXProcess_pid; private static final Class ProcessImpl; private static final Field ProcessImpl_handle; private interface PidGetter { long getPid(Process process); } private static final PidGetter PID_GETTER; static { PidGetter pidGetter; Class up = null; Field pid = null; try { up = Class.forName("java.lang.UNIXProcess"); pid = up.getDeclaredField("pid"); Java.trySetAccessible(pid); } catch (Exception e) { // ignore and try windows version } UNIXProcess = up; UNIXProcess_pid = pid; Class pi = null; Field handle = null; try { pi = Class.forName("java.lang.ProcessImpl"); handle = pi.getDeclaredField("handle"); Java.trySetAccessible(handle); } catch (Exception e) { // ignore and use hashcode } ProcessImpl = pi; ProcessImpl_handle = handle; if (UNIXProcess_pid != null) { if (ProcessImpl_handle != null) { // try both pidGetter = new PidGetter() { public long getPid(Process process) { try { if (UNIXProcess.isInstance(process)) { return (Integer)UNIXProcess_pid.get(process); } else if (ProcessImpl.isInstance(process)) { Long hproc = (Long) ProcessImpl_handle.get(process); return WindowsFFI.getKernel32().GetProcessId(hproc); } } catch (Exception e) { // ignore and use hashcode } return process.hashCode(); } }; } else { // just unix pidGetter = new PidGetter() { public long getPid(Process process) { try { if (UNIXProcess.isInstance(process)) { return (Integer)UNIXProcess_pid.get(process); } } catch (Exception e) { // ignore and use hashcode } return process.hashCode(); } }; } } else if (ProcessImpl_handle != null) { // just windows pidGetter = new PidGetter() { public long getPid(Process process) { try { if (ProcessImpl.isInstance(process)) { Long hproc = (Long) ProcessImpl_handle.get(process); return WindowsFFI.getKernel32().GetProcessId(hproc); } } catch (Exception e) { // ignore and use hashcode } return process.hashCode(); } }; } else { // neither - default PidGetter pidGetter = new PidGetter() { public long getPid(Process process) { return process.hashCode(); } }; } PID_GETTER = pidGetter; } public static long reflectPidFromProcess(Process process) { return PID_GETTER.getPid(process); } public static Process run(Ruby runtime, IRubyObject string) throws IOException { return run(runtime, new IRubyObject[] {string}, false); } public static POpenProcess popen(Ruby runtime, IRubyObject string, ModeFlags modes) throws IOException { return new POpenProcess(popenShared(runtime, new IRubyObject[] {string}, null, true), runtime, modes); } public static POpenProcess popen(Ruby runtime, IRubyObject[] strings, Map env, ModeFlags modes) throws IOException { return new POpenProcess(popenShared(runtime, strings, env), runtime, modes); } public static POpenProcess popen(Ruby runtime, IRubyObject string, Map env, ModeFlags modes) throws IOException { return new POpenProcess(popenShared(runtime, new IRubyObject[] {string}, env, true), runtime, modes); } @Deprecated public static POpenProcess popen(Ruby runtime, IRubyObject string, IOOptions modes) throws IOException { return new POpenProcess(popenShared(runtime, new IRubyObject[] {string}, null, true), runtime, modes); } @Deprecated public static POpenProcess popen(Ruby runtime, IRubyObject[] strings, Map env, IOOptions modes) throws IOException { return new POpenProcess(popenShared(runtime, strings, env), runtime, modes); } @Deprecated public static POpenProcess popen3(Ruby runtime, IRubyObject[] strings) throws IOException { return new POpenProcess(popenShared(runtime, strings)); } @Deprecated public static POpenProcess popen3(Ruby runtime, IRubyObject[] strings, boolean addShell) throws IOException { return new POpenProcess(popenShared(runtime, strings, null, addShell)); } private static Process popenShared(Ruby runtime, IRubyObject[] strings) throws IOException { return popenShared(runtime, strings, null); } private static Process popenShared(Ruby runtime, IRubyObject[] strings, Map env) throws IOException { return popenShared(runtime, strings, env, false); } private static Process popenShared(Ruby runtime, IRubyObject[] strings, Map env, boolean addShell) throws IOException { String shell = getShell(runtime); Process childProcess; File pwd = new File(runtime.getCurrentDirectory()); try { // Peel off env hash, if given IRubyObject envHash; if (env == null && strings.length > 0 && !(envHash = TypeConverter.checkHashType(runtime, strings[0])).isNil()) { strings = Arrays.copyOfRange(strings, 1, strings.length); env = (Map) envHash; } // Peel off options hash and warn that we don't support them if (strings.length > 1 && !(envHash = TypeConverter.checkHashType(runtime, strings[strings.length - 1])).isNil()) { if (!((RubyHash)envHash).isEmpty()) { runtime.getWarnings().warn("popen3 does not support spawn options in JRuby 1.7"); } strings = Arrays.copyOfRange(strings, 0, strings.length - 1); } String[] args = parseCommandLine(runtime.getCurrentContext(), runtime, strings); LaunchConfig lc = new LaunchConfig(runtime, strings, false); boolean useShell = Platform.IS_WINDOWS ? lc.shouldRunInShell() : false; if (addShell) for (String arg : args) useShell |= shouldUseShell(arg); if (strings.length == 1) { if (useShell) { // single string command, pass to sh to expand wildcards String[] argArray = new String[3]; argArray[0] = shell; argArray[1] = shell.endsWith("sh") ? "-c" : "/c"; argArray[2] = strings[0].asJavaString(); childProcess = buildProcess(runtime, argArray, getCurrentEnv(runtime, env), pwd); } else { childProcess = buildProcess(runtime, args, getCurrentEnv(runtime, env), pwd); } } else { if (useShell) { String[] argArray = new String[args.length + 2]; argArray[0] = shell; argArray[1] = shell.endsWith("sh") ? "-c" : "/c"; System.arraycopy(args, 0, argArray, 2, args.length); childProcess = buildProcess(runtime, argArray, getCurrentEnv(runtime, env), pwd); } else { // direct invocation of the command childProcess = buildProcess(runtime, args, getCurrentEnv(runtime, env), pwd); } } } catch (SecurityException se) { throw runtime.newSecurityError(se.getLocalizedMessage()); } return childProcess; } public static class POpenProcess extends Process { private final Process child; private final boolean waitForChild; // real stream references, to keep them from being GCed prematurely private InputStream realInput; private OutputStream realOutput; private InputStream realInerr; private InputStream input; private OutputStream output; private InputStream inerr; private FileChannel inputChannel; private FileChannel outputChannel; private FileChannel inerrChannel; private Pumper inputPumper; private Pumper inerrPumper; @Deprecated public POpenProcess(Process child, Ruby runtime, IOOptions modes) { this(child, runtime, modes.getModeFlags()); } public POpenProcess(Process child, Ruby runtime, ModeFlags modes) { this.child = child; if (modes.isWritable()) { this.waitForChild = true; prepareOutput(child); } else { this.waitForChild = false; // close process output // See JRUBY-3405; hooking up to parent process stdin caused // problems for IRB etc using stdin. try {child.getOutputStream().close();} catch (IOException ioe) {} } if (modes.isReadable()) { prepareInput(child); } else { pumpInput(child, runtime); } pumpInerr(child, runtime); } public POpenProcess(Process child) { this.child = child; this.waitForChild = false; prepareOutput(child); prepareInput(child); prepareInerr(child); } @Override public OutputStream getOutputStream() { return output; } @Override public InputStream getInputStream() { return input; } @Override public InputStream getErrorStream() { return inerr; } public FileChannel getInput() { return inputChannel; } public FileChannel getOutput() { return outputChannel; } public FileChannel getError() { return inerrChannel; } public boolean hasOutput() { return output != null || outputChannel != null; } public Process getChild() { return child; } @Override public int waitFor() throws InterruptedException { return child.waitFor(); } @Override public int exitValue() { return child.exitValue(); } @Override public void destroy() { try { // We try to safely close all streams and channels to the greatest // extent possible. try {if (input != null) input.close();} catch (Exception e) {} try {if (inerr != null) inerr.close();} catch (Exception e) {} try {if (output != null) output.close();} catch (Exception e) {} try {if (inputChannel != null) inputChannel.close();} catch (Exception e) {} try {if (inerrChannel != null) inerrChannel.close();} catch (Exception e) {} try {if (outputChannel != null) outputChannel.close();} catch (Exception e) {} // processes seem to have some peculiar locking sequences, so we // need to ensure nobody is trying to close/destroy while we are synchronized (this) { if (inputPumper != null) synchronized(inputPumper) {inputPumper.quit();} if (inerrPumper != null) synchronized(inerrPumper) {inerrPumper.quit();} if (waitForChild) { waitFor(); } else { RubyIO.obliterateProcess(child); } } } catch (InterruptedException ie) { Thread.currentThread().interrupt(); } } private void prepareInput(Process child) { // popen callers wants to be able to read, provide subprocess in directly realInput = child.getInputStream(); // We no longer unwrap, because Java 7+ empties the underlying stream and new native IO popen[3,4] works // properly. The pure-Java version has always been somewhat crippled and hacky. input = realInput; inputChannel = null; inputPumper = null; } private void prepareInerr(Process child) { // popen callers wants to be able to read, provide subprocess in directly realInerr = child.getErrorStream(); // We no longer unwrap, because Java 7+ empties the underlying stream and new native IO popen[3,4] works // properly. The pure-Java version has always been somewhat crippled and hacky. inerr = realInerr; inerrChannel = null; inerrPumper = null; } private void prepareOutput(Process child) { // popen caller wants to be able to write, provide subprocess out directly realOutput = child.getOutputStream(); output = ChannelHelper.unwrapBufferedStream(realOutput); if (output instanceof FileOutputStream) { outputChannel = ((FileOutputStream) output).getChannel(); } else { outputChannel = null; } } private void pumpInput(Process child, Ruby runtime) { // no read requested, hook up read to parents output InputStream childIn = ChannelHelper.unwrapBufferedStream(child.getInputStream()); FileChannel childInChannel = null; if (childIn instanceof FileInputStream) { childInChannel = ((FileInputStream) childIn).getChannel(); } OutputStream parentOut = ChannelHelper.unwrapBufferedStream(runtime.getOut()); FileChannel parentOutChannel = null; if (parentOut instanceof FileOutputStream) { parentOutChannel = ((FileOutputStream) parentOut).getChannel(); } if (childInChannel != null && parentOutChannel != null) { inputPumper = new ChannelPumper(runtime, childInChannel, parentOutChannel, Pumper.Slave.IN, this); } else { inputPumper = new StreamPumper(runtime, childIn, parentOut, false, Pumper.Slave.IN, this); } inputPumper.start(); input = null; inputChannel = null; } private void pumpInerr(Process child, Ruby runtime) { // no read requested, hook up read to parents output InputStream childIn = ChannelHelper.unwrapBufferedStream(child.getErrorStream()); FileChannel childInChannel = null; if (childIn instanceof FileInputStream) { childInChannel = ((FileInputStream) childIn).getChannel(); } OutputStream parentOut = ChannelHelper.unwrapBufferedStream(runtime.getOut()); FileChannel parentOutChannel = null; if (parentOut instanceof FileOutputStream) { parentOutChannel = ((FileOutputStream) parentOut).getChannel(); } if (childInChannel != null && parentOutChannel != null) { inerrPumper = new ChannelPumper(runtime, childInChannel, parentOutChannel, Pumper.Slave.IN, this); } else { inerrPumper = new StreamPumper(runtime, childIn, parentOut, false, Pumper.Slave.IN, this); } inerrPumper.start(); inerr = null; inerrChannel = null; } } public static class LaunchConfig { public LaunchConfig(Ruby runtime, IRubyObject[] rawArgs, boolean doExecutableSearch) { this.runtime = runtime; this.rawArgs = rawArgs; this.doExecutableSearch = doExecutableSearch; shell = getShell(runtime); args = parseCommandLine(runtime.getCurrentContext(), runtime, rawArgs); }
Only run an in-process script if the script name has "ruby", ".rb", or "irb" in the name.
/** * Only run an in-process script if the script name has "ruby", ".rb", * or "irb" in the name. */
public boolean shouldRunInProcess() { if (!runtime.getInstanceConfig().isRunRubyInProcess() || RubyInstanceConfig.hasLoadedNativeExtensions()) { return false; } // Check for special shell characters [<>|] at the beginning // and end of each command word and don't run in process if we find them. for (int i = 0; i < args.length; i++) { String c = args[i]; if (c.trim().length() == 0) continue; char[] firstLast = new char[] {c.charAt(0), c.charAt(c.length()-1)}; for (int j = 0; j < firstLast.length; j++) { switch (firstLast[j]) { case '<': case '>': case '|': case ';': case '(': case ')': case '~': case '&': case '$': case '"': case '`': case '\n': case '\\': case '\'': return false; case '2': if(c.length() > 1 && c.charAt(1) == '>') return false; } } } String command = args[0]; if (Platform.IS_WINDOWS) command = command.toLowerCase(); // handle both slash types, \ and /. String[] slashDelimitedTokens = command.split("[/\\\\]"); String finalToken = slashDelimitedTokens[slashDelimitedTokens.length - 1]; boolean inProc = (finalToken.endsWith("ruby") || (Platform.IS_WINDOWS && finalToken.endsWith("ruby.exe")) || finalToken.endsWith(".rb") || finalToken.endsWith("irb")); if (!inProc) return false; // snip off ruby or jruby command from list of arguments // leave alone if the command is the name of a script int startIndex = command.endsWith(".rb") ? 0 : 1; if (command.trim().endsWith("irb")) { startIndex = 0; args[0] = runtime.getJRubyHome() + File.separator + "bin" + File.separator + "jirb"; } execArgs = new String[args.length - startIndex]; System.arraycopy(args, startIndex, execArgs, 0, execArgs.length); return true; }
This hack is to work around a problem with cmd.exe on windows where it can't interpret a filename with spaces in the first argument position as a command. In that case it's better to try passing the bare arguments to runtime.exec. On all other platforms we'll always run the command in the shell.
/** * This hack is to work around a problem with cmd.exe on windows where it can't * interpret a filename with spaces in the first argument position as a command. * In that case it's better to try passing the bare arguments to runtime.exec. * On all other platforms we'll always run the command in the shell. */
public boolean shouldRunInShell() { if (rawArgs.length != 1) { // this is the case when exact executable and its parameters passed, // in such cases MRI just executes it, without any shell. return false; } // in one-arg form, we always use shell, except for Windows if (!Platform.IS_WINDOWS) return true; // now, deal with Windows if (shell == null) return false; // TODO: Better name for the method // Essentially, we just check for shell meta characters. // TODO: we use args here and rawArgs in upper method. for (String arg : args) { if (!shouldVerifyPathExecutable(arg.trim())) { return true; } } // OK, so no shell meta-chars, now check that the command does exist executable = args[0].trim(); executableFile = findPathExecutable(runtime, executable); // if the executable exists, start it directly with no shell if (executableFile != null) { log(runtime, "Got it: " + executableFile); if (isBatch(executableFile)) { log(runtime, "This is a BAT/CMD file, will start in shell"); return true; } return false; } else { log(runtime, "Didn't find executable: " + executable); } if (isCmdBuiltin(executable)) { cmdBuiltin = true; return true; } // TODO: maybe true here? return false; } private boolean isBatch(File executableFile) { return executableFile.getName().toLowerCase().endsWith(".bat"); } public void verifyExecutableForShell() { String cmdline = rawArgs[0].toString().trim(); if (doExecutableSearch && shouldVerifyPathExecutable(cmdline) && !cmdBuiltin) { verifyExecutable(); } // now, prepare the exec args execArgs = new String[3]; execArgs[0] = shell; execArgs[1] = shell.endsWith("sh") ? "-c" : "/c"; if (Platform.IS_WINDOWS) { // that's how MRI does it too execArgs[2] = "\"" + cmdline + "\""; } else { execArgs[2] = cmdline; } } public void verifyExecutableForDirect() { if (isCmdBuiltin(args[0].trim())) { execArgs = new String[args.length + 2]; execArgs[0] = shell; execArgs[1] = "/c"; execArgs[2] = args[0].trim(); System.arraycopy(args, 1, execArgs, 3, args.length - 1); } else { verifyExecutable(); execArgs = args; execArgs[0] = executableFile.getAbsolutePath(); } } private void verifyExecutable() { if (executableFile == null) { if (executable == null) { executable = args[0].trim(); } executableFile = findPathExecutable(runtime, executable); } if (executableFile == null) { throw runtime.newErrnoENOENTError(executable); } } public String[] getExecArgs() { return execArgs; } private boolean isCmdBuiltin(String cmd) { if (!shell.endsWith("sh")) { // assume cmd.exe int idx = Arrays.binarySearch(WINDOWS_INTERNAL_CMDS, cmd.toLowerCase()); if (idx >= 0) { log(runtime, "Found Windows shell's built-in command: " + cmd); // Windows shell internal command, launch in shell then return true; } } return false; }
Checks a command string to determine if it has I/O redirection characters that require it to be executed by a command interpreter.
/** * Checks a command string to determine if it has I/O redirection * characters that require it to be executed by a command interpreter. */
private static boolean hasRedirection(String cmdline) { if (Platform.IS_WINDOWS) { // Scan the string, looking for redirection characters (< or >), pipe // character (|) or newline (\n) that are not in a quoted string char quote = '\0'; for (int idx = 0; idx < cmdline.length();) { char ptr = cmdline.charAt(idx); switch (ptr) { case '\'': case '\"': if (quote == '\0') { quote = ptr; } else if (quote == ptr) { quote = '\0'; } idx++; break; case '>': case '<': case '|': case '\n': if (quote == '\0') { return true; } idx++; break; case '%': // detect Windows environment variables: %ABC% Matcher envVarMatcher = WIN_ENVVAR_PATTERN.matcher(cmdline.substring(idx)); if (envVarMatcher.find()) { return true; } else { idx++; } break; case '\\': // slash serves as escape character idx++; default: idx++; break; } } return false; } else { // TODO: better check here needed, with quoting/escaping Matcher metaMatcher = SHELL_METACHARACTER_PATTERN.matcher(cmdline); return metaMatcher.find(); } } // Should we try to verify the path executable, or just punt to the shell? private static boolean shouldVerifyPathExecutable(String cmdline) { boolean verifyPathExecutable = true; if (hasRedirection(cmdline)) { return false; } return verifyPathExecutable; } private Ruby runtime; private boolean doExecutableSearch; private IRubyObject[] rawArgs; private String shell; private String[] args; private String[] execArgs; private boolean cmdBuiltin = false; private String executable; private File executableFile; } public static Process run(Ruby runtime, IRubyObject[] rawArgs, boolean doExecutableSearch) throws IOException { return run(runtime, rawArgs, doExecutableSearch, false); } private static boolean hasGlobCharacter(String word) { return word.contains("*") || word.contains("?") || word.contains("[") || word.contains("{"); } private static String[] expandGlobs(Ruby runtime, String[] originalArgs) { List<String> expandedList = new ArrayList<String>(originalArgs.length); for (int i = 0; i < originalArgs.length; i++) { if (hasGlobCharacter(originalArgs[i])) { // FIXME: Encoding lost here List<ByteList> globs = Dir.push_glob(runtime, runtime.getCurrentDirectory(), new ByteList(originalArgs[i].getBytes()), 0); for (ByteList glob: globs) { expandedList.add(glob.toString()); } } else { expandedList.add(originalArgs[i]); } } String[] args = new String[expandedList.size()]; expandedList.toArray(args); return args; } public static Process run(Ruby runtime, IRubyObject[] rawArgs, boolean doExecutableSearch, boolean forceExternalProcess) throws IOException { Process aProcess; String virtualCWD = runtime.getCurrentDirectory(); File pwd = new File(virtualCWD); LaunchConfig cfg = new LaunchConfig(runtime, rawArgs, doExecutableSearch); try { if (!forceExternalProcess && cfg.shouldRunInProcess()) { log(runtime, "Launching in-process"); ScriptThreadProcess ipScript = new ScriptThreadProcess(runtime, expandGlobs(runtime, cfg.getExecArgs()), getCurrentEnv(runtime), pwd); ipScript.start(); return ipScript; } else { if (cfg.shouldRunInShell()) { log(runtime, "Launching with shell"); // execute command with sh -c // this does shell expansion of wildcards cfg.verifyExecutableForShell(); } else { log(runtime, "Launching directly (no shell)"); cfg.verifyExecutableForDirect(); } String[] args = cfg.getExecArgs(); if (virtualCWD.startsWith("uri:classloader:")) { // system commands can't run with a URI for the current dir, so the best we can use is user.dir pwd = new File(System.getProperty("user.dir")); // only if we inside a jar and spawning org.jruby.Main we // change to the current directory inside the jar if (args[args.length - 1].contains("org.jruby.Main")) { args[args.length - 1] = args[args.length - 1].replace("org.jruby.Main", "org.jruby.Main -C " + virtualCWD); } } aProcess = buildProcess(runtime, args, getCurrentEnv(runtime), pwd); } } catch (SecurityException se) { throw runtime.newSecurityError(se.getLocalizedMessage()); } return aProcess; } private interface Pumper extends Runnable { enum Slave { IN, OUT } void start(); void quit(); } private static class StreamPumper extends Thread implements Pumper { private final InputStream in; private final OutputStream out; private final boolean onlyIfAvailable; private final Object waitLock = new Object(); private final Object sync; private final Slave slave; private volatile boolean quit; private final Ruby runtime; StreamPumper(Ruby runtime, InputStream in, OutputStream out, boolean avail, Slave slave, Object sync) { this.in = ChannelHelper.unwrapBufferedStream(in); this.out = ChannelHelper.unwrapBufferedStream(out); this.onlyIfAvailable = avail; this.slave = slave; this.sync = sync; this.runtime = runtime; setDaemon(true); } @Override public void run() { runtime.getCurrentContext().setEventHooksEnabled(false); byte[] buf = new byte[1024]; int numRead; boolean hasReadSomething = false; try { while (!quit) { // The problem we trying to solve below: STDIN in Java // is blocked and non-interruptible, so if we invoke read // on it, we might never be able to interrupt such thread. // So, we use in.available() to see if there is any input // ready, and only then read it. But this approach can't // tell whether the end of stream reached or not, so we // might end up looping right at the end of the stream. // Well, at least, we can improve the situation by checking // if some input was ever available, and if so, not // checking for available anymore, and just go to read. if (onlyIfAvailable && !hasReadSomething) { if (in.available() == 0) { synchronized (waitLock) { waitLock.wait(10); } continue; } else { hasReadSomething = true; } } if ((numRead = in.read(buf)) == -1) { break; } out.write(buf, 0, numRead); } } catch (Exception e) { } finally { if (onlyIfAvailable) { synchronized (sync) { // We need to close the out, since some // processes would just wait for the stream // to be closed before they process its content, // and produce the output. E.g.: "cat". if (slave == Slave.OUT) { // we only close out if it's the slave stream, to avoid // closing a directly-mapped stream from parent process try { out.close(); } catch (IOException ioe) {} } } } } } public void quit() { this.quit = true; synchronized (waitLock) { waitLock.notify(); } interrupt(); } } private static class ChannelPumper extends Thread implements Pumper { private final FileChannel inChannel; private final FileChannel outChannel; private final Slave slave; private final Object sync; private volatile boolean quit; private final Ruby runtime; ChannelPumper(Ruby runtime, FileChannel inChannel, FileChannel outChannel, Slave slave, Object sync) { if (DEBUG) out.println("using channel pumper"); this.inChannel = inChannel; this.outChannel = outChannel; this.slave = slave; this.sync = sync; this.runtime = runtime; setDaemon(true); } @Override public void run() { runtime.getCurrentContext().setEventHooksEnabled(false); ByteBuffer buf = ByteBuffer.allocateDirect(1024); clearBuffer(buf); try { while (!quit && inChannel.isOpen() && outChannel.isOpen()) { int read = inChannel.read(buf); if (read == -1) break; flipBuffer(buf); outChannel.write(buf); clearBuffer(buf); } } catch (Exception e) { } finally { // processes seem to have some peculiar locking sequences, so we // need to ensure nobody is trying to close/destroy while we are synchronized (sync) { switch (slave) { case OUT: try { outChannel.close(); } catch (IOException ioe) {} break; case IN: try { inChannel.close(); } catch (IOException ioe) {} } } } } public void quit() { this.quit = true; interrupt(); } } private static void handleStreams(Ruby runtime, Process p, InputStream in, OutputStream out, OutputStream err) throws IOException { InputStream pOut = p.getInputStream(); InputStream pErr = p.getErrorStream(); OutputStream pIn = p.getOutputStream(); StreamPumper t1 = new StreamPumper(runtime, pOut, out, false, Pumper.Slave.IN, p); StreamPumper t2 = new StreamPumper(runtime, pErr, err, false, Pumper.Slave.IN, p); // The assumption here is that the 'in' stream provides // proper available() support. If available() always // returns 0, we'll hang! StreamPumper t3 = new StreamPumper(runtime, in, pIn, true, Pumper.Slave.OUT, p); t1.start(); t2.start(); t3.start(); try { t1.join(); } catch (InterruptedException ie) {} try { t2.join(); } catch (InterruptedException ie) {} t3.quit(); try { err.flush(); } catch (IOException io) {} try { out.flush(); } catch (IOException io) {} try { pIn.close(); } catch (IOException io) {} try { pOut.close(); } catch (IOException io) {} try { pErr.close(); } catch (IOException io) {} // Interrupt all three, just in case they're stuck. // Note: On some platforms, even interrupt might not // have an effect if the thread is IO blocked. But we // need to move away from Thread.stop so this is the // best we can do. try { t1.quit(); t2.quit(); t3.quit(); t1.interrupt(); t2.interrupt(); t3.interrupt(); } catch (SecurityException se) {} try { t1.join(); } catch (InterruptedException ie) {} try { t2.join(); } catch (InterruptedException ie) {} try { t3.join(); } catch (InterruptedException ie) {} } private static void handleStreamsNonblocking(Ruby runtime, Process p, OutputStream out, OutputStream err) throws IOException { InputStream pOut = p.getInputStream(); InputStream pErr = p.getErrorStream(); StreamPumper t1 = new StreamPumper(runtime, pOut, out, false, Pumper.Slave.IN, p); StreamPumper t2 = new StreamPumper(runtime, pErr, err, false, Pumper.Slave.IN, p); t1.start(); t2.start(); } // TODO: move inside the LaunchConfig private static String[] parseCommandLine(ThreadContext context, Ruby runtime, IRubyObject[] rawArgs) { String[] args; if (rawArgs.length == 1) { if (hasLeadingArgvArray(rawArgs)) { // can't make use of it, discard the argv[0] entry args = new String[] { getPathEntry((RubyArray) rawArgs[0]) }; } else { synchronized (runtime.getLoadService()) { runtime.getLoadService().require("jruby/path_helper"); } RubyModule pathHelper = runtime.getClassFromPath("JRuby::PathHelper"); RubyArray parts = (RubyArray) Helpers.invoke( context, pathHelper, "smart_split_command", rawArgs); args = new String[parts.getLength()]; for (int i = 0; i < parts.getLength(); i++) { args[i] = parts.entry(i).toString(); } } } else { args = new String[rawArgs.length]; int start = 0; if (hasLeadingArgvArray(rawArgs)) { start = 1; args[0] = getPathEntry((RubyArray) rawArgs[0]); } for (int i = start; i < rawArgs.length; i++) { args[i] = rawArgs[i].toString(); } } return args; }
Takes an argument array suitable for Kernel#exec or similar, and indicates whether it has a leading two-element array giving the path and argv[0] entries separately. We can't use the argv[0] entry through ProcessBuilder, so we discard it.
/** Takes an argument array suitable for Kernel#exec or similar, * and indicates whether it has a leading two-element array giving * the path and argv[0] entries separately. * * We can't use the argv[0] entry through ProcessBuilder, so * we discard it. */
private static boolean hasLeadingArgvArray(IRubyObject[] rawArgs) { return (rawArgs.length >= 1 && (rawArgs[0] instanceof RubyArray) && (((RubyArray) rawArgs[0]).getLength() == 2)); } private static String getPathEntry(RubyArray initArray) { return initArray.entry(0).toString(); } private static String getShell(Ruby runtime) { return RbConfigLibrary.jrubyShell(); } public static boolean shouldUseShell(String command) { boolean useShell = false; for (char c : command.toCharArray()) { if (c != ' ' && !Character.isLetter(c) && "*?{}[]<>()~&|\\$;'`\"\n".indexOf(c) != -1) { useShell = true; } } if (Platform.IS_WINDOWS && command.length() >= 1 && command.charAt(0) == '@') { // JRUBY-5522 useShell = true; } return useShell; } static void log(Ruby runtime, String msg) { if (RubyInstanceConfig.DEBUG_LAUNCHING) { runtime.getErr().println("ShellLauncher: " + msg); } } @Deprecated public static OutputStream unwrapBufferedStream(OutputStream filteredStream) { return ChannelHelper.unwrapBufferedStream(filteredStream); } @Deprecated public static InputStream unwrapBufferedStream(InputStream filteredStream) { return ChannelHelper.unwrapBufferedStream(filteredStream); } @Deprecated public static OutputStream unwrapFilterOutputStream(OutputStream filteredStream) { return ChannelHelper.unwrapFilterOutputStream(filteredStream); } @Deprecated public static InputStream unwrapFilterInputStream(InputStream filteredStream) { return ChannelHelper.unwrapFilterInputStream(filteredStream); } }