synchronized VirtualMachine open() { if (connector instanceof LaunchingConnector) { vm = launchTarget(); } else if (connector instanceof AttachingConnector) { vm = attachTarget(); } else if (connector instanceof ListeningConnector) { vm = listenTarget(); } else { throw new InternalError(MessageOutput.format("Invalid connect type")); } vm.setDebugTraceMode(traceFlags); if (vm.canBeModified()) { setEventRequests(vm); resolveEventRequests(); } /* * Now that the vm connection is open, fetch the debugee * classpath and set up a default sourcepath. * (Unless user supplied a sourcepath on the command line) * (Bug ID 4186582) */ if (Env.getSourcePath().length() == 0) { if (vm instanceof PathSearchingVirtualMachine) { PathSearchingVirtualMachine psvm = (PathSearchingVirtualMachine) vm; Env.setSourcePath(psvm.classPath()); } else { Env.setSourcePath("."); } } return vm; }
VMConnection(String connectSpec, int traceFlags) { String nameString; String argString; int index = connectSpec.indexOf(':'); if (index == -1) { nameString = connectSpec; argString = ""; } else { nameString = connectSpec.substring(0, index); argString = connectSpec.substring(index + 1); } connector = findConnector(nameString); if (connector == null) { throw new IllegalArgumentException(MessageOutput.format("No connector named:", nameString)); } connectorArgs = parseConnectorArgs(connector, argString); this.traceFlags = traceFlags; }
private Map<String, j86.com.sun.jdi.connect.Connector.Argument> parseConnectorArgs( Connector connector, String argString) { Map<String, j86.com.sun.jdi.connect.Connector.Argument> arguments = connector.defaultArguments(); /* * We are parsing strings of the form: * name1=value1,[name2=value2,...] * However, the value1...valuen substrings may contain * embedded comma(s), so make provision for quoting inside * the value substrings. (Bug ID 4285874) */ String regexPattern = "(quote=[^,]+,)|" + // special case for quote=., "(\\w+=)" + // name= "(((\"[^\"]*\")|" + // ( "l , ue" "('[^']*')|" + // 'l , ue' "([^,'\"]+))+,)"; // v a l u e )+ , Pattern p = Pattern.compile(regexPattern); Matcher m = p.matcher(argString); while (m.find()) { int startPosition = m.start(); int endPosition = m.end(); if (startPosition > 0) { /* * It is an error if parsing skips over any part of argString. */ throw new IllegalArgumentException( MessageOutput.format("Illegal connector argument", argString)); } String token = argString.substring(startPosition, endPosition); int index = token.indexOf('='); String name = token.substring(0, index); String value = token.substring(index + 1, token.length() - 1); // Remove comma delimiter /* * for values enclosed in quotes (single and/or double quotes) * strip off enclosing quote chars * needed for quote enclosed delimited substrings */ if (name.equals("options")) { StringBuilder sb = new StringBuilder(); for (String s : splitStringAtNonEnclosedWhiteSpace(value)) { while (isEnclosed(s, "\"") || isEnclosed(s, "'")) { s = s.substring(1, s.length() - 1); } sb.append(s); sb.append(" "); } value = sb.toString(); } Connector.Argument argument = arguments.get(name); if (argument == null) { throw new IllegalArgumentException( MessageOutput.format( "Argument is not defined for connector:", new Object[] {name, connector.name()})); } argument.setValue(value); argString = argString.substring(endPosition); // Remove what was just parsed... m = p.matcher(argString); // and parse again on what is left. } if ((!argString.equals(",")) && (argString.length() > 0)) { /* * It is an error if any part of argString is left over, * unless it was empty to begin with. */ throw new IllegalArgumentException( MessageOutput.format("Illegal connector argument", argString)); } return arguments; }
private static List<String> splitStringAtNonEnclosedWhiteSpace(String value) throws IllegalArgumentException { List<String> al = new ArrayList<String>(); char[] arr; int startPosition = 0; int endPosition = 0; final char SPACE = ' '; final char DOUBLEQ = '"'; final char SINGLEQ = '\''; /* * An "open" or "active" enclosing state is where * the first valid start quote qualifier is found, * and there is a search in progress for the * relevant end matching quote * * enclosingTargetChar set to SPACE * is used to signal a non open enclosing state */ char enclosingTargetChar = SPACE; if (value == null) { throw new IllegalArgumentException(MessageOutput.format("value string is null")); } // split parameter string into individual chars arr = value.toCharArray(); for (int i = 0; i < arr.length; i++) { switch (arr[i]) { case SPACE: { // do nothing for spaces // unless last in array if (isLastChar(arr, i)) { endPosition = i; // break for substring creation break; } continue; } case DOUBLEQ: case SINGLEQ: { if (enclosingTargetChar == arr[i]) { // potential match to close open enclosing if (isNextCharWhitespace(arr, i)) { // if peek next is whitespace // then enclosing is a valid substring endPosition = i; // reset enclosing target char enclosingTargetChar = SPACE; // break for substring creation break; } } if (enclosingTargetChar == SPACE) { // no open enclosing state // handle as normal char if (isPreviousCharWhitespace(arr, i)) { startPosition = i; // peek forward for end candidates if (value.indexOf(arr[i], i + 1) >= 0) { // set open enclosing state by // setting up the target char enclosingTargetChar = arr[i]; } else { // no more target chars left to match // end enclosing, handle as normal char if (isNextCharWhitespace(arr, i)) { endPosition = i; // break for substring creation break; } } } } continue; } default: { // normal non-space, non-" and non-' chars if (enclosingTargetChar == SPACE) { // no open enclosing state if (isPreviousCharWhitespace(arr, i)) { // start of space delim substring startPosition = i; } if (isNextCharWhitespace(arr, i)) { // end of space delim substring endPosition = i; // break for substring creation break; } } continue; } } // break's end up here if (startPosition > endPosition) { throw new IllegalArgumentException(MessageOutput.format("Illegal option values")); } // extract substring and add to List<String> al.add(value.substring(startPosition, ++endPosition)); // set new start position i = startPosition = endPosition; } // for loop return al; }