/** * This test will tell the launch to set some arguments for the program. We will then check that * the program has the same arguments. */ @Test public void testSettingArguments() throws Throwable { setLaunchAttribute(ICDTLaunchConfigurationConstants.ATTR_PROGRAM_ARGUMENTS, "1 2 3\n4 5 6"); doLaunch(); MIStoppedEvent stoppedEvent = getInitialStoppedEvent(); // Check that argc is correct final IExpressionDMContext argcDmc = SyncUtil.createExpression(stoppedEvent.getDMContext(), "argc"); Query<FormattedValueDMData> query = new Query<FormattedValueDMData>() { @Override protected void execute(DataRequestMonitor<FormattedValueDMData> rm) { fExpService.getFormattedExpressionValue( fExpService.getFormattedValueContext(argcDmc, MIExpressions.DETAILS_FORMAT), rm); } }; try { fExpService.getExecutor().execute(query); FormattedValueDMData value = query.get(500, TimeUnit.MILLISECONDS); // Argc should be 7: the program name and the six arguments assertTrue( "Expected 7 but got " + value.getFormattedValue(), value.getFormattedValue().trim().equals("7")); } catch (InterruptedException e) { fail(e.getMessage()); } catch (ExecutionException e) { fail(e.getCause().getMessage()); } catch (TimeoutException e) { fail(e.getMessage()); } // Check that argv is also correct. For simplicity we only check the last argument final IExpressionDMContext argvDmc = SyncUtil.createExpression(stoppedEvent.getDMContext(), "argv[argc-1]"); Query<FormattedValueDMData> query2 = new Query<FormattedValueDMData>() { @Override protected void execute(DataRequestMonitor<FormattedValueDMData> rm) { fExpService.getFormattedExpressionValue( fExpService.getFormattedValueContext(argvDmc, MIExpressions.DETAILS_FORMAT), rm); } }; try { fExpService.getExecutor().execute(query2); FormattedValueDMData value = query2.get(500, TimeUnit.MILLISECONDS); assertTrue( "Expected \"6\" but got " + value.getFormattedValue(), value.getFormattedValue().trim().endsWith("\"6\"")); } catch (InterruptedException e) { fail(e.getMessage()); } catch (ExecutionException e) { fail(e.getCause().getMessage()); } catch (TimeoutException e) { fail(e.getMessage()); } }
@Test public void getModelDataForRegisterDataValueInDifferentNumberFormats() throws Throwable { MIStoppedEvent stoppedEvent = getInitialStoppedEvent(); IFrameDMContext frameDmc = SyncUtil.getStackFrame(stoppedEvent.getDMContext(), 0); String val = getModelDataForRegisterDataValue(frameDmc, IFormattedValues.NATURAL_FORMAT, 0); REGISTER_VALUE = val; assertTrue( "Register Value is not in NATURAL format ", Integer.parseInt(val) == Integer.parseInt(REGISTER_VALUE)); val = getModelDataForRegisterDataValue(frameDmc, IFormattedValues.HEX_FORMAT, 0); assertTrue("Register Value is not in HEX_FORMAT ", val.startsWith("0x")); val = getModelDataForRegisterDataValue(frameDmc, IFormattedValues.BINARY_FORMAT, 0); Assert.assertEquals( "Register Value is not in BINARY_FORMAT ", Integer.toBinaryString(Integer.parseInt(REGISTER_VALUE)), val); val = getModelDataForRegisterDataValue(frameDmc, IFormattedValues.DECIMAL_FORMAT, 0); Assert.assertEquals( "Register Value is not in DECIMAL_FORMAT", Integer.parseInt(REGISTER_VALUE), Integer.parseInt(val)); val = getModelDataForRegisterDataValue(frameDmc, IFormattedValues.OCTAL_FORMAT, 0); assertTrue("Register Value is not in OCTAL_FORMAT ", val.startsWith("0")); }
@Test public void getRegistersLength() throws Throwable { MIStoppedEvent stoppedEvent = getInitialStoppedEvent(); IFrameDMContext frameDmc = SyncUtil.getStackFrame(stoppedEvent.getDMContext(), 0); final IRegisterDMContext[] regDMCs = getRegisters(frameDmc); assertEquals("Wrong number of registers", get_X86_REGS().size(), regDMCs.length); }
/** * This test will tell the launch to clear the environment variables. We will then check that the * variable $HOME cannot be found by the program. */ @Test public void testClearingEnvironment() throws Throwable { setLaunchAttribute(ILaunchManager.ATTR_APPEND_ENVIRONMENT_VARIABLES, false); doLaunch(); SyncUtil.runToLocation("envTest"); MIStoppedEvent stoppedEvent = SyncUtil.step(2, StepType.STEP_OVER); // The program has stored the content of $HOME into a variable called 'home'. // Let's verify this variable is 0x0 which means $HOME does not exist. final IExpressionDMContext exprDmc = SyncUtil.createExpression(stoppedEvent.getDMContext(), "home"); Query<FormattedValueDMData> query = new Query<FormattedValueDMData>() { @Override protected void execute(DataRequestMonitor<FormattedValueDMData> rm) { fExpService.getFormattedExpressionValue( fExpService.getFormattedValueContext(exprDmc, MIExpressions.DETAILS_FORMAT), rm); } }; try { fExpService.getExecutor().execute(query); FormattedValueDMData value = query.get(500, TimeUnit.MILLISECONDS); assertTrue( "Expected 0x0 but got " + value.getFormattedValue(), value.getFormattedValue().equals("0x0")); } catch (InterruptedException e) { fail(e.getMessage()); } catch (ExecutionException e) { fail(e.getCause().getMessage()); } catch (TimeoutException e) { fail(e.getMessage()); } }
@Test public void writeRegisterHEXFormat() throws Throwable { MIStoppedEvent stoppedEvent = getInitialStoppedEvent(); IFrameDMContext frameDmc = SyncUtil.getStackFrame(stoppedEvent.getDMContext(), 0); String regValue = "0x10"; int regIndex = 3; writeRegister(frameDmc, 3, regValue, IFormattedValues.HEX_FORMAT); String val = getModelDataForRegisterDataValue(frameDmc, IFormattedValues.HEX_FORMAT, regIndex); assertTrue( "Failed writing register. New value should have been " + regValue, regValue.equals(val)); }
@Test @Ignore public void writeRegisterBinaryFormat() throws Throwable { MIStoppedEvent stoppedEvent = getInitialStoppedEvent(); IFrameDMContext frameDmc = SyncUtil.getStackFrame(stoppedEvent.getDMContext(), 0); // String regValue = "0100101001"; String regValue = "10"; int regIndex = 3; writeRegister(frameDmc, 3, regValue, IFormattedValues.BINARY_FORMAT); String val = getModelDataForRegisterDataValue(frameDmc, IFormattedValues.BINARY_FORMAT, regIndex); assertTrue( "Failed writing register. New value should have been " + regValue + " instead of " + val, regValue.equals(val)); }
@Test public void getRegisters() throws Throwable { MIStoppedEvent stoppedEvent = getInitialStoppedEvent(); IFrameDMContext frameDmc = SyncUtil.getStackFrame(stoppedEvent.getDMContext(), 0); final IRegisterDMContext[] regDMCs = getRegisters(frameDmc); List<String> regNames = get_X86_REGS(); Query<IRegisterDMData[]> query = new Query<IRegisterDMData[]>() { @Override protected void execute(DataRequestMonitor<IRegisterDMData[]> rm) { final IRegisterDMData[] datas = new IRegisterDMData[regDMCs.length]; rm.setData(datas); final CountingRequestMonitor countingRm = new ImmediateCountingRequestMonitor(rm); countingRm.setDoneCount(regDMCs.length); for (int i = 0; i < regDMCs.length; i++) { final int index = i; fRegService.getRegisterData( regDMCs[index], new ImmediateDataRequestMonitor<IRegisterDMData>(countingRm) { @Override protected void handleSuccess() { datas[index] = getData(); countingRm.done(); } }); } } }; fSession.getExecutor().execute(query); IRegisterDMData[] datas = query.get(); for (IRegisterDMData data : datas) { String regName = data.getName(); Assert.assertFalse( "GDB does not support register name: " + regName, !regNames.contains(regName)); } }
@Test public void compareRegisterForMultipleExecutionContexts() throws Throwable { // Run past the line that creates a thread and past the sleep that // follows it. This is a bit tricky because the code that creates the // thread is conditional depending on environment. Run to the printf // before it (which is common), then do step operations over the // non-common code (but same number of lines) SyncUtil.runToLine(SRC_NAME, Integer.toString(MIRunControlTest.LINE_MAIN_PRINTF)); SyncUtil.step(StepType.STEP_OVER); // over the printf SyncUtil.step(StepType.STEP_OVER); // over the create-thread call MIStoppedEvent stoppedEvent = SyncUtil.step( StepType.STEP_OVER, TestsPlugin.massageTimeout(2000)); // over the one second sleep // Get the thread IDs final IContainerDMContext containerDmc = DMContexts.getAncestorOfType(stoppedEvent.getDMContext(), IContainerDMContext.class); final AsyncCompletionWaitor wait = new AsyncCompletionWaitor(); final DataRequestMonitor<IExecutionDMContext[]> drm = new DataRequestMonitor<IExecutionDMContext[]>(fRegService.getExecutor(), null) { @Override protected void handleCompleted() { if (isSuccess()) { wait.setReturnInfo(getData()); } wait.waitFinished(getStatus()); } }; fRegService .getExecutor() .submit( new Runnable() { public void run() { fRunControl.getExecutionContexts(containerDmc, drm); } }); wait.waitUntilDone(TestsPlugin.massageTimeout(5000)); Assert.assertTrue(wait.getMessage(), wait.isOK()); IExecutionDMContext[] ctxts = (IExecutionDMContext[]) wait.getReturnInfo(); wait.waitReset(); Assert.assertNotNull(ctxts); Assert.assertTrue(ctxts.length > 1); int tid1 = ((IMIExecutionDMContext) ctxts[0]).getThreadId(); int tid2 = ((IMIExecutionDMContext) ctxts[1]).getThreadId(); // Get execution context to thread 2 IExecutionDMContext execDmc = SyncUtil.createExecutionContext(containerDmc, tid2); IFrameDMContext frameDmc2 = SyncUtil.getStackFrame(execDmc, 0); String thread2RegVal0 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 0); String thread2RegVal1 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 1); String thread2RegVal2 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 2); String thread2RegVal3 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 3); String thread2RegVal4 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 4); String thread2RegVal5 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 5); // Get execution context to thread 1 execDmc = SyncUtil.createExecutionContext(containerDmc, tid1); IFrameDMContext frameDmc1 = SyncUtil.getStackFrame(execDmc, 0); getModelDataForRegisterDataValue(frameDmc1, IFormattedValues.NATURAL_FORMAT, 0); // Re-set the execution context to 2 and Fetch from the Cache String dupliThread2RegVal0 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 0); String dupliThread2RegVal1 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 1); String dupliThread2RegVal2 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 2); String dupliThread2RegVal3 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 3); String dupliThread2RegVal4 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 4); String dupliThread2RegVal5 = getModelDataForRegisterDataValue(frameDmc2, IFormattedValues.NATURAL_FORMAT, 5); // If Values not equal , then context haven't been re-set properly assertTrue( "Multiple context not working. Execution Context is not reset to 2", thread2RegVal0.equals(dupliThread2RegVal0)); assertTrue( "Multiple context not working. Execution Context is not reset to 2", thread2RegVal1.equals(dupliThread2RegVal1)); assertTrue( "Multiple context not working. Execution Context is not reset to 2", thread2RegVal2.equals(dupliThread2RegVal2)); assertTrue( "Multiple context not working. Execution Context is not reset to 2", thread2RegVal3.equals(dupliThread2RegVal3)); assertTrue( "Multiple context not working. Execution Context is not reset to 2", thread2RegVal4.equals(dupliThread2RegVal4)); assertTrue( "Multiple context not working. Execution Context is not reset to 2", thread2RegVal5.equals(dupliThread2RegVal5)); }
/** * This test will tell the launch to set some arguments for the program. We will then check that * the program has the same arguments. See bug 381804 */ @Test public void testSettingArgumentsWithSymbols() throws Throwable { // Set a argument with double quotes and spaces, which should be considered a single argument String argumentToPreserveSpaces = "--c=\"c < s: 'a' t: 'b'>\""; String argumentUsedByGDB = "\"--c=c < s: 'a' t: 'b'>\""; setLaunchAttribute( ICDTLaunchConfigurationConstants.ATTR_PROGRAM_ARGUMENTS, argumentToPreserveSpaces); doLaunch(); MIStoppedEvent stoppedEvent = getInitialStoppedEvent(); // Check that argc is correct final IExpressionDMContext argcDmc = SyncUtil.createExpression(stoppedEvent.getDMContext(), "argc"); Query<FormattedValueDMData> query = new Query<FormattedValueDMData>() { @Override protected void execute(DataRequestMonitor<FormattedValueDMData> rm) { fExpService.getFormattedExpressionValue( fExpService.getFormattedValueContext(argcDmc, MIExpressions.DETAILS_FORMAT), rm); } }; try { fExpService.getExecutor().execute(query); FormattedValueDMData value = query.get(500, TimeUnit.MILLISECONDS); // Argc should be 2: the program name and the one arguments assertTrue( "Expected 2 but got " + value.getFormattedValue(), value.getFormattedValue().trim().equals("2")); } catch (InterruptedException e) { fail(e.getMessage()); } catch (ExecutionException e) { fail(e.getCause().getMessage()); } catch (TimeoutException e) { fail(e.getMessage()); } // Check that argv is also correct. final IExpressionDMContext argvDmc = SyncUtil.createExpression(stoppedEvent.getDMContext(), "argv[argc-1]"); Query<FormattedValueDMData> query2 = new Query<FormattedValueDMData>() { @Override protected void execute(DataRequestMonitor<FormattedValueDMData> rm) { fExpService.getFormattedExpressionValue( fExpService.getFormattedValueContext(argvDmc, MIExpressions.DETAILS_FORMAT), rm); } }; try { fExpService.getExecutor().execute(query2); FormattedValueDMData value = query2.get(500, TimeUnit.MILLISECONDS); assertTrue( "Expected \"" + argumentUsedByGDB + "\" but got " + value.getFormattedValue(), value.getFormattedValue().trim().endsWith(argumentUsedByGDB)); } catch (InterruptedException e) { fail(e.getMessage()); } catch (ExecutionException e) { fail(e.getCause().getMessage()); } catch (TimeoutException e) { fail(e.getMessage()); } }
/** * This test will tell the launch to set a new environment variable LAUNCHTEST. We will then check * that this new variable can be read by the program. */ @Test public void testSettingEnvironment() throws Throwable { setLaunchAttribute(ILaunchManager.ATTR_APPEND_ENVIRONMENT_VARIABLES, true); Map<String, String> map = new HashMap<String, String>(1); map.put("LAUNCHTEST", "IS SET"); setLaunchAttribute(ILaunchManager.ATTR_ENVIRONMENT_VARIABLES, map); doLaunch(); SyncUtil.runToLocation("envTest"); MIStoppedEvent stoppedEvent = SyncUtil.step(2, StepType.STEP_OVER); // The program has stored the content of $LAUNCHTEST into a variable called 'launchTest'. // Let's verify this variable is set to "IS SET". final IExpressionDMContext exprDmc = SyncUtil.createExpression(stoppedEvent.getDMContext(), "launchTest"); Query<FormattedValueDMData> query = new Query<FormattedValueDMData>() { @Override protected void execute(DataRequestMonitor<FormattedValueDMData> rm) { fExpService.getFormattedExpressionValue( fExpService.getFormattedValueContext(exprDmc, MIExpressions.DETAILS_FORMAT), rm); } }; try { fExpService.getExecutor().execute(query); FormattedValueDMData value = query.get(500, TimeUnit.MILLISECONDS); assertTrue( "Expected a string ending with \"IS SET\" but got " + value.getFormattedValue(), value.getFormattedValue().trim().endsWith("\"IS SET\"")); } catch (InterruptedException e) { fail(e.getMessage()); } catch (ExecutionException e) { fail(e.getCause().getMessage()); } catch (TimeoutException e) { fail(e.getMessage()); } // Check that the normal environment is there by checking that $HOME (which is stored in 'home" // exists. final IExpressionDMContext exprDmc2 = SyncUtil.createExpression(stoppedEvent.getDMContext(), "home"); Query<FormattedValueDMData> query2 = new Query<FormattedValueDMData>() { @Override protected void execute(DataRequestMonitor<FormattedValueDMData> rm) { fExpService.getFormattedExpressionValue( fExpService.getFormattedValueContext(exprDmc2, MIExpressions.DETAILS_FORMAT), rm); } }; try { fExpService.getExecutor().execute(query2); FormattedValueDMData value = query2.get(500, TimeUnit.MILLISECONDS); assertFalse("Expected something else than 0x0", value.getFormattedValue().equals("0x0")); } catch (InterruptedException e) { fail(e.getMessage()); } catch (ExecutionException e) { fail(e.getCause().getMessage()); } catch (TimeoutException e) { fail(e.getMessage()); } }