8199371: [TESTBUG] Open source vm testbase JDWP tests
Reviewed-by: sspitsyn, mseledtsov
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
package nsk.jdwp.Method.LineTable;
import java.io.*;
import nsk.share.*;
import nsk.share.jpda.*;
import nsk.share.jdwp.*;
/**
* Test for JDWP command: Method.LineTable.
*
* See linetable001.README for description of test execution.
*
* This class represents debugger part of the test.
* Test is executed by invoking method runIt().
* JDWP command is tested in the method testCommand().
*
* @see #runIt()
* @see #testCommand()
*/
public class linetable001 {
// exit status constants
static final int JCK_STATUS_BASE = 95;
static final int PASSED = 0;
static final int FAILED = 2;
// communication signals constants
static final String READY = "ready";
static final String QUIT = "quit";
// package and classes names constants
static final String PACKAGE_NAME = "nsk.jdwp.Method.LineTable";
static final String TEST_CLASS_NAME = PACKAGE_NAME + "." + "linetable001";
static final String DEBUGEE_CLASS_NAME = TEST_CLASS_NAME + "a";
// tested JDWP command constants
static final String JDWP_COMMAND_NAME = "Method.LineTable";
static final int JDWP_COMMAND_ID = JDWP.Command.Method.LineTable;
// tested class name and signature constants
static final String TESTED_CLASS_NAME = DEBUGEE_CLASS_NAME + "$" + "TestedClass";
static final String TESTED_CLASS_SIGNATURE = "L" + TESTED_CLASS_NAME.replace('.', '/') + ";";
// tested method name constant
static final String TESTED_METHOD_NAME = "testedMethod";
// expected values for bound line numbers
static final int FIRST_LINE_NUMBER = linetable001a.FIRST_LINE_NUMBER;
static final int LAST_LINE_NUMBER = linetable001a.LAST_LINE_NUMBER;
// usual scaffold objects
ArgumentHandler argumentHandler = null;
Log log = null;
Binder binder = null;
Debugee debugee = null;
Transport transport = null;
IOPipe pipe = null;
// test passed or not
boolean success = true;
// -------------------------------------------------------------------
/**
* Start test from command line.
*/
public static void main (String argv[]) {
System.exit(run(argv,System.out) + JCK_STATUS_BASE);
}
/**
* Start JCK-compilant test.
*/
public static int run(String argv[], PrintStream out) {
return new linetable001().runIt(argv, out);
}
// -------------------------------------------------------------------
/**
* Perform test execution.
*/
public int runIt(String argv[], PrintStream out) {
// make log for debugger messages
argumentHandler = new ArgumentHandler(argv);
log = new Log(out, argumentHandler);
// execute test and display results
try {
log.display("\n>>> Preparing debugee for testing \n");
// launch debuggee
binder = new Binder(argumentHandler, log);
log.display("Launching debugee");
debugee = binder.bindToDebugee(DEBUGEE_CLASS_NAME);
transport = debugee.getTransport();
pipe = debugee.createIOPipe();
// make debuggee ready for testing
prepareDebugee();
// work with prepared debuggee
try {
log.display("\n>>> Obtaining requred data from debugee \n");
// query debuggee for classID of tested class
log.display("Getting classID by signature:\n"
+ " " + TESTED_CLASS_SIGNATURE);
long classID = debugee.getReferenceTypeID(TESTED_CLASS_SIGNATURE);
log.display(" got classID: " + classID);
// query debuggee for methodID of tested method (declared in the class)
log.display("Getting methodID by name: " + TESTED_METHOD_NAME);
long methodID = debugee.getMethodID(classID, TESTED_METHOD_NAME, true);
log.display(" got methodID: " + methodID);
// perform testing JDWP command
log.display("\n>>> Testing JDWP command \n");
testCommand(classID, methodID);
} finally {
// quit debugee
log.display("\n>>> Finishing test \n");
quitDebugee();
}
} catch (Failure e) {
log.complain("TEST FAILED: " + e.getMessage());
success = false;
} catch (Exception e) {
e.printStackTrace(out);
log.complain("Caught unexpected exception while running the test:\n\t" + e);
success = false;
}
if (!success) {
log.complain("TEST FAILED");
return FAILED;
}
out.println("TEST PASSED");
return PASSED;
}
/**
* Prepare debugee for testing and waiting for ready signal.
*/
void prepareDebugee() {
// wait for VM_INIT event from debugee
log.display("Waiting for VM_INIT event");
debugee.waitForVMInit();
// query debugee for VM-dependent ID sizes
log.display("Querying for IDSizes");
debugee.queryForIDSizes();
// resume initially suspended debugee
log.display("Resuming debugee VM");
debugee.resume();
// wait for READY signal from debugee
log.display("Waiting for signal from debugee: " + READY);
String signal = pipe.readln();
log.display("Received signal from debugee: " + signal);
if (! signal.equals(READY)) {
throw new TestBug("Unexpected signal received from debugee: " + signal
+ " (expected: " + READY + ")");
}
}
/**
* Sending debugee signal to quit and waiting for it exits.
*/
void quitDebugee() {
// send debugee signal to quit
log.display("Sending signal to debugee: " + QUIT);
pipe.println(QUIT);
// wait for debugee exits
log.display("Waiting for debugee exits");
int code = debugee.waitFor();
// analize debugee exit status code
if (code == JCK_STATUS_BASE + PASSED) {
log.display("Debugee PASSED with exit code: " + code);
} else {
log.complain("Debugee FAILED with exit code: " + code);
success = false;
}
}
/**
* Perform testing JDWP command for specified TypeID.
*/
void testCommand(long classID, long methodID) {
// create command packet and fill requred out data
log.display("Create command packet:");
log.display("Command: " + JDWP_COMMAND_NAME);
CommandPacket command = new CommandPacket(JDWP_COMMAND_ID);
log.display(" referenceTypeID: " + classID);
command.addReferenceTypeID(classID);
log.display(" methodID: " + methodID);
command.addMethodID(methodID);
command.setLength();
// send command packet to debugee
try {
log.display("Sending command packet:\n" + command);
transport.write(command);
} catch (IOException e) {
log.complain("Unable to send command packet:\n\t" + e);
success = false;
return;
}
ReplyPacket reply = new ReplyPacket();
// receive reply packet from debugee
try {
log.display("Waiting for reply packet");
transport.read(reply);
log.display("Reply packet received:\n" + reply);
} catch (IOException e) {
log.complain("Unable to read reply packet:\n\t" + e);
success = false;
return;
}
// check reply packet header
try{
log.display("Checking reply packet header");
reply.checkHeader(command.getPacketID());
} catch (BoundException e) {
log.complain("Bad header of reply packet:\n\t" + e.getMessage());
success = false;
}
// start parsing reply packet data
log.display("Parsing reply packet:");
reply.resetPosition();
// extract and check reply data
// extract start code index
long start = 0;
try {
start = reply.getLong();
log.display(" start: " + start);
} catch (BoundException e) {
log.complain("Unable to extract start line index from reply packet:\n\t"
+ e.getMessage());
success = false;
return;
}
// check that start code index is not negative
if (start < 0) {
log.complain("Negative value of start code index in reply packet: " + start);
success = false;
}
// extract end code index
long end = 0;
try {
end = reply.getLong();
log.display(" end: " + end);
} catch (BoundException e) {
log.complain("Unable to extract end line index from reply packet:\n\t"
+ e.getMessage());
success = false;
return;
}
// check that end code index is not negative
if (start < 0) {
log.complain("Negative value of end code index in reply packet: " + end);
success = false;
}
// check that start code is strongly less than end code index
if (start > end) {
log.complain("Start code index (" + start
+ ") is greater than end code index (" + end + ")");
success = false;
} else if (start == end) {
log.complain("Start code index (" + start
+ ") is equal to end code index (" + end + ")");
success = false;
}
// extract number of lines
int lines = 0;
try {
lines = reply.getInt();
log.display(" lines: " + lines);
} catch (BoundException e) {
log.complain("Unable to extract number of lines from reply packet:\n\t"
+ e.getMessage());
success = false;
return;
}
if (lines < 0) {
log.complain("Negative number of lines in reply packet: " + lines);
success = false;
return;
}
if (lines == 0) {
log.complain("Zero number of lines in reply packet: " + lines);
success = false;
return;
}
// extract and check each line attributes
long lineCodeIndex = 0, prevLineCodeIndex = 0;
int lineNumber = 0, prevLineNumber = 0;
for (int i = 0; i < lines; i++) {
log.display(" line #" + i + ":");
// extract code index of a line
try {
lineCodeIndex = reply.getLong();
log.display(" lineCodeIndex: " + lineCodeIndex);
} catch (BoundException e) {
log.complain("Unable to extract code index of line #" + i
+ " from reply packet:\n\t"
+ e.getMessage());
success = false;
return;
}
// check that code index is between start and end values
if (lineCodeIndex < start) {
log.complain("Code index of line #" + i + " (" + lineCodeIndex
+ ") is less than start code index (" + start + ")");
success = false;
}
if (lineCodeIndex > end) {
log.complain("Code index of line #" + i + " (" + lineCodeIndex
+ ") is greater than end code index (" + end + ")");
success = false;
}
// check that code index ot the first line is equal to start value
if (i == 0) {
if (lineCodeIndex != start) {
log.complain("Code index of first line (" + lineCodeIndex
+ ") is not equal to start code index (" + start + ")");
success = false;
}
}
// check that code index of a line is strongly greater than for previous line
if (i > 0) {
if (lineCodeIndex < prevLineCodeIndex) {
log.complain("Code index of line #" + i + " (" + lineCodeIndex
+ ") is less than code index of previous line ("
+ prevLineCodeIndex + ")");
success = false;
} else if (lineCodeIndex == prevLineCodeIndex) {
log.complain("Code index of line #" + i + " (" + lineCodeIndex
+ ") is equal to code index of previous line ("
+ prevLineCodeIndex + ")");
success = false;
}
}
// extract number of a line
try {
lineNumber = reply.getInt();
log.display(" lineNumber: " + lineNumber);
} catch (BoundException e) {
log.complain("Unable to extract number of line #" + i
+ " from reply packet:\n\t"
+ e.getMessage());
success = false;
return;
}
// check that code index ot the line is not negative
if (lineNumber < 0) {
log.complain("Number of line #" + i + " (" + lineNumber
+ ") is negative");
success = false;
}
// check that code index ot the line is not less than expected
if (lineNumber < FIRST_LINE_NUMBER) {
log.complain("Number of line #" + i + " (" + lineNumber
+ ") is less than expected (" + FIRST_LINE_NUMBER + ")");
success = false;
}
// check that code index ot the line is not greater than expected
if (lineNumber > LAST_LINE_NUMBER) {
log.complain("Number of line #" + i + " (" + lineNumber
+ ") is greater than expected (" + LAST_LINE_NUMBER + ")");
success = false;
}
// check that line number follows directly to the number of previous line
if (i > 0) {
if (lineNumber < prevLineNumber) {
log.complain("Number of line #" + i + " (" + lineCodeIndex
+ ") is less than number of previous line ("
+ prevLineNumber + ")");
success = false;
} else if (lineNumber == prevLineNumber) {
log.complain("Number of line #" + i + " (" + lineCodeIndex
+ ") is equal to number of previous line ("
+ prevLineNumber + ")");
success = false;
} else if (lineNumber != prevLineNumber + 1) {
log.complain("Number of line #" + i + " (" + lineCodeIndex
+ ") does not follows to number of previous line ("
+ prevLineNumber + ")");
success = false;
}
}
// save values to use them as previous line attributes
prevLineCodeIndex = lineCodeIndex;
prevLineNumber = lineNumber;
}
// check for extra data in reply packet
if (!reply.isParsed()) {
log.complain("Extra trailing bytes found in reply packet at: "
+ reply.offsetString());
success = false;
}
}
}