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01. Refactored SerialInputOutputManager (#615)

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Used separate threads for reading and writing, enhancing concurrency and performance.

Note: before was possible to start `SerialInputOutputManager` with `Executors.newSingleThreadExecutor().submit(ioManager)`. Now you have to use `ioManager.start()`
This commit is contained in:
Dmitry Kaukov 2025-01-29 07:26:09 +11:00 committed by GitHub
parent 2673407f1d
commit 9911e141a7
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5 changed files with 160 additions and 161 deletions
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3
usbSerialForAndroid/build.gradle
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@ -34,9 +34,10 @@ dependencies {
implementation "androidx.annotation:annotation:1.8.0" implementation "androidx.annotation:annotation:1.8.0"
testImplementation 'junit:junit:4.13.2' testImplementation 'junit:junit:4.13.2'
testImplementation 'org.mockito:mockito-core:5.12.0' testImplementation 'org.mockito:mockito-core:5.12.0'
androidTestImplementation 'androidx.appcompat:appcompat:1.6.1'
androidTestImplementation 'androidx.test:core:1.5.0' androidTestImplementation 'androidx.test:core:1.5.0'
androidTestImplementation 'androidx.test:runner:1.5.2' androidTestImplementation 'androidx.test:runner:1.5.2'
androidTestImplementation 'commons-net:commons-net:3.10.0' androidTestImplementation 'commons-net:commons-net:3.9.0' // later version fails on old Android devices with missing java.time.Duration class
androidTestImplementation 'org.apache.commons:commons-lang3:3.14.0' androidTestImplementation 'org.apache.commons:commons-lang3:3.14.0'
} }

79
usbSerialForAndroid/src/androidTest/java/com/hoho/android/usbserial/DeviceTest.java
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@ -1425,19 +1425,16 @@ public class DeviceTest {
usb.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE); usb.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE);
telnet.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE); telnet.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE);
usb.ioManager.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT); usb.ioManager.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
assertEquals(SerialInputOutputManager.State.STOPPED, usb.ioManager.getState());
usb.ioManager.start(); usb.ioManager.start();
usb.waitForIoManagerStarted(); usb.waitForIoManagerStarted();
assertTrue("iomanager thread", usb.hasIoManagerThread()); assertEquals(SerialInputOutputManager.State.RUNNING, usb.ioManager.getState());
assertTrue("iomanager thread", usb.hasIoManagerThreads());
try { try {
usb.ioManager.start(); usb.ioManager.start();
fail("already running error expected"); fail("already running error expected");
} catch (IllegalStateException ignored) { } catch (IllegalStateException ignored) {
} }
try {
usb.ioManager.run();
fail("already running error expected");
} catch (IllegalStateException ignored) {
}
try { try {
usb.ioManager.setThreadPriority(Process.THREAD_PRIORITY_LOWEST); usb.ioManager.setThreadPriority(Process.THREAD_PRIORITY_LOWEST);
fail("setThreadPriority IllegalStateException expected"); fail("setThreadPriority IllegalStateException expected");
@ -1462,23 +1459,12 @@ public class DeviceTest {
telnet.write(new byte[1]); // now uses 8 byte buffer telnet.write(new byte[1]); // now uses 8 byte buffer
usb.read(3); usb.read(3);
// writebuffer resize // small writebuffer
try { try {
usb.ioManager.writeAsync(new byte[8192]); usb.ioManager.writeAsync(new byte[8192]);
fail("expected BufferOverflowException"); fail("expected BufferOverflowException");
} catch (BufferOverflowException ignored) {} } catch (BufferOverflowException ignored) {}
usb.ioManager.setWriteBufferSize(16);
usb.ioManager.writeAsync("1234567890AB".getBytes());
try {
usb.ioManager.setWriteBufferSize(8);
fail("expected BufferOverflowException");
} catch (BufferOverflowException ignored) {}
usb.ioManager.setWriteBufferSize(24); // pending date copied to new buffer
telnet.write("a".getBytes());
assertThat(usb.read(1), equalTo("a".getBytes()));
assertThat(telnet.read(12), equalTo("1234567890AB".getBytes()));
// small readbuffer // small readbuffer
usb.ioManager.setReadBufferSize(8); usb.ioManager.setReadBufferSize(8);
Log.d(TAG, "setReadBufferSize(8)"); Log.d(TAG, "setReadBufferSize(8)");
@ -1490,74 +1476,31 @@ public class DeviceTest {
telnet.write("d".getBytes()); telnet.write("d".getBytes());
assertThat(usb.read(1), equalTo("d".getBytes())); assertThat(usb.read(1), equalTo("d".getBytes()));
SerialInputOutputManager ioManager = usb.ioManager;
assertEquals(SerialInputOutputManager.State.RUNNING, usb.ioManager.getState());
usb.close(); usb.close();
for (int i = 0; i < 100 && usb.hasIoManagerThread(); i++) { for (int i = 0; i < 100 && usb.hasIoManagerThreads(); i++) {
Thread.sleep(1); Thread.sleep(1);
} }
assertFalse("iomanager thread", usb.hasIoManagerThread()); assertFalse("iomanager threads", usb.hasIoManagerThreads());
assertNull(usb.ioManager);
assertEquals(SerialInputOutputManager.State.STOPPED, ioManager.getState());
SerialInputOutputManager.DEBUG = false; SerialInputOutputManager.DEBUG = false;
// legacy start
usb.open(EnumSet.of(UsbWrapper.OpenCloseFlags.NO_IOMANAGER_START)); // creates new IoManager
usb.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE);
telnet.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE);
usb.ioManager.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
Executors.newSingleThreadExecutor().submit(usb.ioManager);
usb.waitForIoManagerStarted();
try {
usb.ioManager.start();
fail("already running error expected");
} catch (IllegalStateException ignored) {
}
} }
@Test @Test
public void writeAsync() throws Exception { public void writeAsync() throws Exception {
byte[] data, buf = new byte[]{1}; byte[] data, buf = new byte[]{1};
// w/o timeout: write delayed until something is read // write immediately, without waiting for read
usb.open(); usb.open();
usb.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE); usb.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE);
telnet.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE); telnet.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE);
usb.ioManager.writeAsync(buf); usb.ioManager.writeAsync(buf);
usb.ioManager.writeAsync(buf); usb.ioManager.writeAsync(buf);
data = telnet.read(1);
assertEquals(0, data.length);
telnet.write(buf);
data = usb.read(1);
assertEquals(1, data.length);
data = telnet.read(2); data = telnet.read(2);
assertEquals(2, data.length); assertEquals(2, data.length);
usb.close(); usb.close();
// with timeout: write after timeout
usb.open(EnumSet.of(UsbWrapper.OpenCloseFlags.NO_IOMANAGER_START));
usb.ioManager.setReadTimeout(100);
usb.ioManager.start();
usb.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE);
telnet.setParameters(19200, 8, 1, UsbSerialPort.PARITY_NONE);
usb.ioManager.writeAsync(buf);
usb.ioManager.writeAsync(buf);
data = telnet.read(2);
assertEquals(2, data.length);
usb.ioManager.setReadTimeout(200);
// with internal SerialTimeoutException
TestBuffer tbuf = new TestBuffer(usb.writeBufferSize + 2*usb.writePacketSize);
byte[] pbuf1 = new byte[tbuf.buf.length - 4];
byte[] pbuf2 = new byte[1];
System.arraycopy(tbuf.buf, 0,pbuf1, 0, pbuf1.length);
usb.ioManager.setWriteTimeout(20); // tbuf len >= 128, needs 133msec @ 9600 baud
usb.setParameters(9600, 8, 1, UsbSerialPort.PARITY_NONE);
telnet.setParameters(9600, 8, 1, UsbSerialPort.PARITY_NONE);
usb.ioManager.writeAsync(pbuf1);
for(int i = pbuf1.length; i < tbuf.buf.length; i++) {
Thread.sleep(20);
pbuf2[0] = tbuf.buf[i];
usb.ioManager.writeAsync(pbuf2);
}
while(!tbuf.testRead(telnet.read(-1)))
;
} }
@Test @Test

15
usbSerialForAndroid/src/androidTest/java/com/hoho/android/usbserial/util/UsbWrapper.java
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@ -33,6 +33,8 @@ import java.util.concurrent.Callable;
import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertTrue; import static org.junit.Assert.assertTrue;
import androidx.core.content.ContextCompat;
public class UsbWrapper implements SerialInputOutputManager.Listener { public class UsbWrapper implements SerialInputOutputManager.Listener {
public final static int USB_READ_WAIT = 500; public final static int USB_READ_WAIT = 500;
@ -92,7 +94,7 @@ public class UsbWrapper implements SerialInputOutputManager.Listener {
intent.setPackage(context.getPackageName()); intent.setPackage(context.getPackageName());
PendingIntent permissionIntent = PendingIntent.getBroadcast(context, 0, intent, flags); PendingIntent permissionIntent = PendingIntent.getBroadcast(context, 0, intent, flags);
IntentFilter filter = new IntentFilter("com.android.example.USB_PERMISSION"); IntentFilter filter = new IntentFilter("com.android.example.USB_PERMISSION");
context.registerReceiver(usbReceiver, filter, Context.RECEIVER_NOT_EXPORTED); ContextCompat.registerReceiver(context, usbReceiver, filter, Context.RECEIVER_NOT_EXPORTED);
usbManager.requestPermission(serialDriver.getDevice(), permissionIntent); usbManager.requestPermission(serialDriver.getDevice(), permissionIntent);
for(int i=0; i<5000; i++) { for(int i=0; i<5000; i++) {
if(granted[0] != null) break; if(granted[0] != null) break;
@ -256,12 +258,15 @@ public class UsbWrapper implements SerialInputOutputManager.Listener {
throw new IOException("IoManager not started"); throw new IOException("IoManager not started");
} }
public boolean hasIoManagerThread() { public boolean hasIoManagerThreads() {
int c = 0;
for (Thread thread : Thread.getAllStackTraces().keySet()) { for (Thread thread : Thread.getAllStackTraces().keySet()) {
if (thread.getName().equals(SerialInputOutputManager.class.getSimpleName())) if (thread.getName().equals(SerialInputOutputManager.class.getSimpleName() + "_read"))
return true; c += 1;
if (thread.getName().equals(SerialInputOutputManager.class.getSimpleName() + "_write"))
c += 1;
} }
return false; return c == 2;
} }
// wait full time // wait full time

201
usbSerialForAndroid/src/main/java/com/hoho/android/usbserial/util/SerialInputOutputManager.java
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@ -9,21 +9,23 @@ package com.hoho.android.usbserial.util;
import android.os.Process; import android.os.Process;
import android.util.Log; import android.util.Log;
import com.hoho.android.usbserial.driver.SerialTimeoutException;
import com.hoho.android.usbserial.driver.UsbSerialPort; import com.hoho.android.usbserial.driver.UsbSerialPort;
import java.io.IOException; import java.io.IOException;
import java.nio.ByteBuffer; import java.nio.ByteBuffer;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.atomic.AtomicReference;
/** /**
* Utility class which services a {@link UsbSerialPort} in its {@link #run()} method. * Utility class which services a {@link UsbSerialPort} in its {@link #runWrite()} ()} and {@link #runRead()} ()} ()} methods.
* *
* @author mike wakerly (opensource@hoho.com) * @author mike wakerly (opensource@hoho.com)
*/ */
public class SerialInputOutputManager implements Runnable { public class SerialInputOutputManager {
public enum State { public enum State {
STOPPED, STOPPED,
STARTING,
RUNNING, RUNNING,
STOPPING STOPPING
} }
@ -33,9 +35,6 @@ public class SerialInputOutputManager implements Runnable {
private static final String TAG = SerialInputOutputManager.class.getSimpleName(); private static final String TAG = SerialInputOutputManager.class.getSimpleName();
private static final int BUFSIZ = 4096; private static final int BUFSIZ = 4096;
/**
* default read timeout is infinite, to avoid data loss with bulkTransfer API
*/
private int mReadTimeout = 0; private int mReadTimeout = 0;
private int mWriteTimeout = 0; private int mWriteTimeout = 0;
@ -46,7 +45,8 @@ public class SerialInputOutputManager implements Runnable {
private ByteBuffer mWriteBuffer = ByteBuffer.allocate(BUFSIZ); private ByteBuffer mWriteBuffer = ByteBuffer.allocate(BUFSIZ);
private int mThreadPriority = Process.THREAD_PRIORITY_URGENT_AUDIO; private int mThreadPriority = Process.THREAD_PRIORITY_URGENT_AUDIO;
private State mState = State.STOPPED; // Synchronized by 'this' private final AtomicReference<State> mState = new AtomicReference<>(State.STOPPED);
private CountDownLatch mStartuplatch = new CountDownLatch(2);
private Listener mListener; // Synchronized by 'this' private Listener mListener; // Synchronized by 'this'
private final UsbSerialPort mSerialPort; private final UsbSerialPort mSerialPort;
@ -57,7 +57,7 @@ public class SerialInputOutputManager implements Runnable {
void onNewData(byte[] data); void onNewData(byte[] data);
/** /**
* Called when {@link SerialInputOutputManager#run()} aborts due to an error. * Called when {@link SerialInputOutputManager#runRead()} ()} or {@link SerialInputOutputManager#runWrite()} ()} ()} aborts due to an error.
*/ */
void onRunError(Exception e); void onRunError(Exception e);
} }
@ -87,8 +87,9 @@ public class SerialInputOutputManager implements Runnable {
* @param threadPriority see {@link Process#setThreadPriority(int)} * @param threadPriority see {@link Process#setThreadPriority(int)}
* */ * */
public void setThreadPriority(int threadPriority) { public void setThreadPriority(int threadPriority) {
if (mState != State.STOPPED) if (!mState.compareAndSet(State.STOPPED, State.STOPPED)) {
throw new IllegalStateException("threadPriority only configurable before SerialInputOutputManager is started"); throw new IllegalStateException("threadPriority only configurable before SerialInputOutputManager is started");
}
mThreadPriority = threadPriority; mThreadPriority = threadPriority;
} }
@ -97,7 +98,7 @@ public class SerialInputOutputManager implements Runnable {
*/ */
public void setReadTimeout(int timeout) { public void setReadTimeout(int timeout) {
// when set if already running, read already blocks and the new value will not become effective now // when set if already running, read already blocks and the new value will not become effective now
if(mReadTimeout == 0 && timeout != 0 && mState != State.STOPPED) if(mReadTimeout == 0 && timeout != 0 && mState.get() != State.STOPPED)
throw new IllegalStateException("readTimeout only configurable before SerialInputOutputManager is started"); throw new IllegalStateException("readTimeout only configurable before SerialInputOutputManager is started");
mReadTimeout = timeout; mReadTimeout = timeout;
} }
@ -145,91 +146,150 @@ public class SerialInputOutputManager implements Runnable {
} }
/** /**
* when using writeAsync, it is recommended to use readTimeout != 0, * write data asynchronously
* else the write will be delayed until read data is available
*/ */
public void writeAsync(byte[] data) { public void writeAsync(byte[] data) {
synchronized (mWriteBufferLock) { synchronized (mWriteBufferLock) {
mWriteBuffer.put(data); mWriteBuffer.put(data);
mWriteBufferLock.notifyAll(); // Notify waiting threads
} }
} }
/** /**
* start SerialInputOutputManager in separate thread * start SerialInputOutputManager in separate threads
*/ */
public void start() { public void start() {
if(mState != State.STOPPED) if(mState.compareAndSet(State.STOPPED, State.STARTING)) {
mStartuplatch = new CountDownLatch(2);
new Thread(this::runRead, this.getClass().getSimpleName() + "_read").start();
new Thread(this::runWrite, this.getClass().getSimpleName() + "_write").start();
try {
mStartuplatch.await();
mState.set(State.RUNNING);
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
}
} else {
throw new IllegalStateException("already started"); throw new IllegalStateException("already started");
new Thread(this, this.getClass().getSimpleName()).start(); }
} }
/** /**
* stop SerialInputOutputManager thread * stop SerialInputOutputManager threads
* *
* when using readTimeout == 0 (default), additionally use usbSerialPort.close() to * when using readTimeout == 0 (default), additionally use usbSerialPort.close() to
* interrupt blocking read * interrupt blocking read
*/ */
public synchronized void stop() { public void stop() {
if (getState() == State.RUNNING) { if(mState.compareAndSet(State.RUNNING, State.STOPPING)) {
synchronized (mWriteBufferLock) {
mWriteBufferLock.notifyAll(); // Wake up any waiting thread to check the stop condition
}
Log.i(TAG, "Stop requested"); Log.i(TAG, "Stop requested");
mState = State.STOPPING;
} }
} }
public synchronized State getState() { public State getState() {
return mState; return mState.get();
} }
/** /**
* Continuously services the read and write buffers until {@link #stop()} is * @return true if the thread is still running
* called, or until a driver exception is raised.
*/ */
@Override private boolean isStillRunning() {
public void run() { State state = mState.get();
synchronized (this) { return ((state == State.RUNNING) || (state == State.STARTING))
if (getState() != State.STOPPED) { && !Thread.currentThread().isInterrupted();
throw new IllegalStateException("Already running");
} }
mState = State.RUNNING;
} /**
Log.i(TAG, "Running ..."); * Notify listener of an error
try { *
if(mThreadPriority != Process.THREAD_PRIORITY_DEFAULT) * @param e the exception
Process.setThreadPriority(mThreadPriority); */
while (true) { private void notifyErrorListener(Throwable e) {
if (getState() != State.RUNNING) { Listener listener = getListener();
Log.i(TAG, "Stopping mState=" + getState());
break;
}
step();
}
} catch (Throwable e) {
if(mSerialPort.isOpen()) {
Log.w(TAG, "Run ending due to exception: " + e.getMessage(), e);
} else {
Log.i(TAG, "Socket closed");
}
final Listener listener = getListener();
if (listener != null) { if (listener != null) {
try { try {
if (e instanceof Exception) { listener.onRunError(e instanceof Exception ? (Exception) e : new Exception(e));
listener.onRunError((Exception) e);
} else {
listener.onRunError(new Exception(e));
}
} catch (Throwable t) { } catch (Throwable t) {
Log.w(TAG, "Exception in onRunError: " + t.getMessage(), t); Log.w(TAG, "Exception in onRunError: " + t.getMessage(), t);
} }
} }
}
/**
* Set the thread priority
*/
private void setThreadPriority() {
if (mThreadPriority != Process.THREAD_PRIORITY_DEFAULT) {
Process.setThreadPriority(mThreadPriority);
}
}
/**
* Continuously services the read buffers until {@link #stop()} is called, or until a driver exception is
* raised.
*/
void runRead() {
Log.i(TAG, "runRead running ...");
try {
setThreadPriority();
mStartuplatch.countDown();
do {
stepRead();
} while (isStillRunning());
Log.i(TAG, "runRead: Stopping mState=" + getState());
} catch (Throwable e) {
if (Thread.currentThread().isInterrupted()) {
Log.w(TAG, "runRead: interrupted");
} else if(mSerialPort.isOpen()) {
Log.w(TAG, "runRead ending due to exception: " + e.getMessage(), e);
} else {
Log.i(TAG, "runRead: Socket closed");
}
notifyErrorListener(e);
} finally { } finally {
synchronized (this) { if (!mState.compareAndSet(State.RUNNING, State.STOPPING)) {
mState = State.STOPPED; if (mState.compareAndSet(State.STOPPING, State.STOPPED)) {
Log.i(TAG, "Stopped"); Log.i(TAG, "runRead: Stopped mState=" + getState());
}
} }
} }
} }
private void step() throws IOException { /**
* Continuously services the write buffers until {@link #stop()} is called, or until a driver exception is
* raised.
*/
void runWrite() {
Log.i(TAG, "runWrite running ...");
try {
setThreadPriority();
mStartuplatch.countDown();
do {
stepWrite();
} while (isStillRunning());
Log.i(TAG, "runWrite: Stopping mState=" + getState());
} catch (Throwable e) {
if (Thread.currentThread().isInterrupted()) {
Log.w(TAG, "runWrite: interrupted");
} else if(mSerialPort.isOpen()) {
Log.w(TAG, "runWrite ending due to exception: " + e.getMessage(), e);
} else {
Log.i(TAG, "runWrite: Socket closed");
}
notifyErrorListener(e);
} finally {
if (!mState.compareAndSet(State.RUNNING, State.STOPPING)) {
if (mState.compareAndSet(State.STOPPING, State.STOPPED)) {
Log.i(TAG, "runWrite: Stopped mState=" + getState());
}
}
}
}
private void stepRead() throws IOException {
// Handle incoming data. // Handle incoming data.
byte[] buffer; byte[] buffer;
synchronized (mReadBufferLock) { synchronized (mReadBufferLock) {
@ -247,39 +307,28 @@ public class SerialInputOutputManager implements Runnable {
listener.onNewData(data); listener.onNewData(data);
} }
} }
}
private void stepWrite() throws IOException, InterruptedException {
// Handle outgoing data. // Handle outgoing data.
buffer = null; byte[] buffer = null;
synchronized (mWriteBufferLock) { synchronized (mWriteBufferLock) {
len = mWriteBuffer.position(); int len = mWriteBuffer.position();
if (len > 0) { if (len > 0) {
buffer = new byte[len]; buffer = new byte[len];
mWriteBuffer.rewind(); mWriteBuffer.rewind();
mWriteBuffer.get(buffer, 0, len); mWriteBuffer.get(buffer, 0, len);
mWriteBuffer.clear(); mWriteBuffer.clear();
mWriteBufferLock.notifyAll(); // Notify writeAsync that there is space in the buffer
} else {
mWriteBufferLock.wait();
} }
} }
if (buffer != null) { if (buffer != null) {
if (DEBUG) { if (DEBUG) {
Log.d(TAG, "Writing data len=" + len); Log.d(TAG, "Writing data len=" + buffer.length);
} }
try {
mSerialPort.write(buffer, mWriteTimeout); mSerialPort.write(buffer, mWriteTimeout);
} catch (SerialTimeoutException ex) {
synchronized (mWriteBufferLock) {
byte[] buffer2 = null;
int len2 = mWriteBuffer.position();
if (len2 > 0) {
buffer2 = new byte[len2];
mWriteBuffer.rewind();
mWriteBuffer.get(buffer2, 0, len2);
mWriteBuffer.clear();
}
mWriteBuffer.put(buffer, ex.bytesTransferred, buffer.length - ex.bytesTransferred);
if (buffer2 != null)
mWriteBuffer.put(buffer2);
}
}
} }
} }

5
usbSerialForAndroid/src/test/java/com/hoho/android/usbserial/util/SerialInputOutputManagerTest.java
View File

@ -34,18 +34,19 @@ public class SerialInputOutputManagerTest {
CommonUsbSerialPort port = mock(CommonUsbSerialPort.class); CommonUsbSerialPort port = mock(CommonUsbSerialPort.class);
when(port.getReadEndpoint()).thenReturn(readEndpoint); when(port.getReadEndpoint()).thenReturn(readEndpoint);
when(port.read(new byte[16], 0)).thenReturn(1); when(port.read(new byte[16], 0)).thenReturn(1);
when(port.isOpen()).thenReturn(true);
SerialInputOutputManager manager = new SerialInputOutputManager(port); SerialInputOutputManager manager = new SerialInputOutputManager(port);
manager.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT); manager.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
ExceptionListener exceptionListener = new ExceptionListener(); ExceptionListener exceptionListener = new ExceptionListener();
manager.setListener(exceptionListener); manager.setListener(exceptionListener);
manager.run(); manager.runRead();
assertEquals(RuntimeException.class, exceptionListener.e.getClass()); assertEquals(RuntimeException.class, exceptionListener.e.getClass());
assertEquals("exception1", exceptionListener.e.getMessage()); assertEquals("exception1", exceptionListener.e.getMessage());
ErrorListener errorListener = new ErrorListener(); ErrorListener errorListener = new ErrorListener();
manager.setListener(errorListener); manager.setListener(errorListener);
manager.run(); manager.runRead();
assertEquals(Exception.class, errorListener.e.getClass()); assertEquals(Exception.class, errorListener.e.getClass());
assertEquals("java.lang.UnknownError: error1", errorListener.e.getMessage()); assertEquals("java.lang.UnknownError: error1", errorListener.e.getMessage());
assertEquals(UnknownError.class, errorListener.e.getCause().getClass()); assertEquals(UnknownError.class, errorListener.e.getCause().getClass());