private void verifyGetStatusIrp(short expectedwIndex, byte expectedbmRequestType) { // IRP values expected in get feature Irp byte expectedbRequest = UsbConst.REQUEST_GET_STATUS; short expectedwValue = 0; short expectedLength = 2; byte[] expectedData = new byte[expectedLength]; expectedbmRequestType = (byte) (expectedbmRequestType | // @P3A UsbConst.REQUESTTYPE_TYPE_STANDARD | // @P3A UsbConst.REQUESTTYPE_DIRECTION_IN); // @P3A expectedData[1] = (byte) 0; expectedData[0] = (byte) 0; VerifyIrpMethods.verifyRequestTestData( LastUsbDeviceDataEvent.getUsbControlIrp(), expectedbmRequestType, expectedbRequest, expectedwValue, expectedwIndex, expectedLength); }
protected void RoundTripIOTestShortPacket( byte testType, int syncOrAsync, int numIrps, int endpointmaxPacketSize, boolean[] acceptShortPacket, boolean[] verifyAcceptShortPacket, int[] OUTLength, int[] OUTOffset, int[] OUTExpectedLength, Exception[] OUTexpectedException, int[] INLength, int[] INOffset, int[] INExpectedLength, Exception[] INexpectedException, byte[] transformType) { // Note that this code is based on IOTests.RounTripTest which handles IRP, IRPList, and Byte // array. Since only IRPs // are being sent in this test, some of the complexity has been removed; however, although the // numIrps is always // one for this test, the code has not been changed to get rid of the arrays. // ensure all values set up Assert.assertEquals(numIrps, transformType.length); Assert.assertEquals(numIrps, OUTLength.length); Assert.assertEquals(numIrps, OUTOffset.length); Assert.assertEquals(numIrps, acceptShortPacket.length); Assert.assertEquals(numIrps, verifyAcceptShortPacket.length); Assert.assertEquals(numIrps, OUTExpectedLength.length); Assert.assertEquals(numIrps, OUTexpectedException.length); Assert.assertEquals(numIrps, INLength.length); Assert.assertEquals(numIrps, INOffset.length); Assert.assertEquals(numIrps, INExpectedLength.length); Assert.assertEquals(numIrps, INexpectedException.length); Assert.assertNotNull("usbDevice is null, but should not be null.", usbDevice); Assert.assertEquals("For short packet test, number of IRPs should be 1.", 1, numIrps); /* * set up Pipes and add listeners */ UsbPipe inPipe = null; UsbPipe outPipe = null; // we need two int values back from method call so we'll put them in the array int[] pipeListIndexes = new int[2]; int inPipeArrayIndex = 0; int outPipeArrayIndex = 1; IOMethods.findINandOUTPipesForTest( usbPipeListGlobal, endpointmaxPacketSize, pipeListIndexes, inPipeArrayIndex, outPipeArrayIndex); inPipe = (UsbPipe) usbPipeListGlobal.get(pipeListIndexes[inPipeArrayIndex]); outPipe = (UsbPipe) usbPipeListGlobal.get(pipeListIndexes[outPipeArrayIndex]); IOMethods.verifyThePipes(inPipe, outPipe, endpointmaxPacketSize); inPipe.addUsbPipeListener(inPipeListener); outPipe.addUsbPipeListener(outPipeListener); IOMethods.openPipe(inPipe); IOMethods.openPipe(outPipe); // define buffers to be used in IRPs or sent as byte[] byte[] aggregateOUTbuffer = null; byte[] aggregateINbuffer = null; // for byte array and single IRP, the OUT and IN buffers are the length specified by the tests aggregateOUTbuffer = new byte[OUTLength[0]]; aggregateINbuffer = new byte[INLength[0]]; printDebug( "RoundTripTestShortPacket -- IRP " + transmitListStrings[syncOrAsync] + " " + endpointTypeStrings[endpointType]); /* * Create the OUT and IN IRPs or byte arrrays */ List transmitBuffers = new ArrayList(); List listOfOUTIrps = new ArrayList(); List listOfINIrps = new ArrayList(); for (int k = 0; k < numIrps; k++) { // create transmit buffer for OUT and IN IRPs TransmitBuffer currentTransmitBuffer = new TransmitBuffer(transformType[k], OUTLength[k]); transmitBuffers.add(currentTransmitBuffer); // create OUT IRP UsbIrp currentOUTIrp = outPipe.createUsbIrp(); listOfOUTIrps.add(currentOUTIrp); // set data in OUT IRP currentOUTIrp.setData(aggregateOUTbuffer, OUTOffset[k], OUTLength[k]); currentOUTIrp.setAcceptShortPacket(acceptShortPacket[k]); // OUT IRP is ready to go! if (endpointType == UsbConst.ENDPOINT_TYPE_ISOCHRONOUS) { /* * For isochronous transfers, all IN Irps will have an offset of zero and * the same buffer length. */ // get the longest required buffer length for all of the IRPs. All of the IRPs in the list // have the same length buffer. int standardISOINBufferLength = INLength[0]; for (int l = 1; l < numIrps; l++) { if (INLength[l] > standardISOINBufferLength) { standardISOINBufferLength = INLength[l]; } } // now that the largest has been found, set the length for each in IRP to the new length for (int l = 0; l < numIrps; l++) { INLength[l] = standardISOINBufferLength; } int standardISOINBufferOffset = 0; // int numCopies = 1;//there will be numCopies * numIrps in the list of ISO In Irps int totalNumCopies = 40; // there will be numCopies * numIrps in the list of ISO In Irps for (int indexOfCurrentCopy = 0; indexOfCurrentCopy < totalNumCopies; indexOfCurrentCopy++) { // create IN IRP UsbIrp currentINIrp = inPipe.createUsbIrp(); listOfINIrps.add(currentINIrp); byte[] currentINbuffer = new byte[standardISOINBufferLength]; currentINIrp.setData( currentINbuffer, standardISOINBufferOffset, standardISOINBufferLength); currentINIrp.setAcceptShortPacket(acceptShortPacket[k]); } } else { // create IN IRP UsbIrp currentINIrp = inPipe.createUsbIrp(); listOfINIrps.add(currentINIrp); /* * set data in IN IRP -- note that no data is copied to IN byte[] before setting data in IRP. * byte[] will be filled by IN operation. */ currentINIrp.setData(aggregateINbuffer, INOffset[k], INLength[k]); currentINIrp.setAcceptShortPacket(acceptShortPacket[k]); } } // copy individual transmitbuffers into single OUT buffer for (int k = 0; k < numIrps; k++) { TransmitBuffer currentTransmitBuffer = (TransmitBuffer) transmitBuffers.get(k); System.arraycopy( currentTransmitBuffer.getOutBuffer(), 0, aggregateOUTbuffer, OUTOffset[k], OUTLength[k]); } // ensure all events are clear before sending IRPs inPipeEvents.clear(); outPipeEvents.clear(); // send both the OUT and IN IRPs sendOUTandIN(testType, transmitList[syncOrAsync], inPipe, outPipe, listOfINIrps, listOfOUTIrps); printDebug("return from sendoutandin"); if (endpointType == UsbConst.ENDPOINT_TYPE_ISOCHRONOUS) { clearOutTheINEventAndIrpListForISO(inPipeEvents, listOfINIrps); } // verify IRP data against expected values for (int k = 0; k < numIrps; k++) { UsbIrp submittedOUTIRP = (UsbIrp) listOfOUTIrps.get(k); // verify OUT IRP after successful transmit VerifyIrpMethods.verifyUsbIrpAfterEvent( submittedOUTIRP, (EventObject) outPipeEvents.get(k), ((TransmitBuffer) transmitBuffers.get(k)).getOutBuffer(), OUTExpectedLength[k], OUTexpectedException[k], acceptShortPacket[k], verifyAcceptShortPacket[k], OUTOffset[k], OUTLength[k]); UsbIrp submittedINIRP = (UsbIrp) listOfINIrps.get(k); byte[] expectedINBuffer = ((TransmitBuffer) transmitBuffers.get(k)).getInBuffer(); // if exception is expected, do not verify the In buffer if (INexpectedException[k] != null) { expectedINBuffer = null; // if we got a USB exception as expected, then clear the endpoint if (submittedINIRP.isUsbException()) { try { StandardRequest.clearFeature( usbDevice, UsbConst.REQUESTTYPE_RECIPIENT_ENDPOINT, UsbConst.FEATURE_SELECTOR_ENDPOINT_HALT, inPipe.getUsbEndpoint().getUsbEndpointDescriptor().bEndpointAddress()); printDebug("clear feature"); } catch (Exception e) { Assert.fail("Exception clearing halt on enpoint after short packet exception."); } } else { printDebug("not clear feature"); } } // verify IN IRP after successful submit VerifyIrpMethods.verifyUsbIrpAfterEvent( submittedINIRP, (EventObject) inPipeEvents.get(k), expectedINBuffer, INExpectedLength[k], INexpectedException[k], acceptShortPacket[k], verifyAcceptShortPacket[k], INOffset[k], INLength[k]); } IOMethods.closePipe(inPipe); IOMethods.closePipe(outPipe); inPipe.removeUsbPipeListener(inPipeListener); outPipe.removeUsbPipeListener(outPipeListener); };