Java Code Examples for org.apache.flink.shaded.netty4.io.netty.buffer.ByteBuf#retainedSlice()

private void testSliceOutOfBounds(boolean initRetainedSlice, boolean finalRetainedSlice, boolean indexOutOfBounds) {
    ByteBuf buf = newBuffer(8);
    ByteBuf slice = initRetainedSlice ? buf.retainedSlice(buf.readerIndex() + 1, 2)
                                      : buf.slice(buf.readerIndex() + 1, 2);
    try {
        assertEquals(2, slice.capacity());
        assertEquals(2, slice.maxCapacity());
        final int index = indexOutOfBounds ? 3 : 0;
        final int length = indexOutOfBounds ? 0 : 3;
        if (finalRetainedSlice) {
            // This is expected to fail ... so no need to release.
            slice.retainedSlice(index, length);
        } else {
            slice.slice(index, length);
        }
    } finally {
        if (initRetainedSlice) {
            slice.release();
        }
        buf.release();
    }
}
 

private void testSliceOutOfBounds(boolean initRetainedSlice, boolean finalRetainedSlice, boolean indexOutOfBounds) {
    ByteBuf buf = newBuffer(8);
    ByteBuf slice = initRetainedSlice ? buf.retainedSlice(buf.readerIndex() + 1, 2)
                                      : buf.slice(buf.readerIndex() + 1, 2);
    try {
        assertEquals(2, slice.capacity());
        assertEquals(2, slice.maxCapacity());
        final int index = indexOutOfBounds ? 3 : 0;
        final int length = indexOutOfBounds ? 0 : 3;
        if (finalRetainedSlice) {
            // This is expected to fail ... so no need to release.
            slice.retainedSlice(index, length);
        } else {
            slice.slice(index, length);
        }
    } finally {
        if (initRetainedSlice) {
            slice.release();
        }
        buf.release();
    }
}
 

@Test
public void testSliceAfterReleaseRetainedSliceDuplicate() {
    ByteBuf buf = newBuffer(1);
    ByteBuf buf2 = buf.retainedSlice(0, 1);
    ByteBuf buf3 = buf2.duplicate();
    assertSliceFailAfterRelease(buf, buf2, buf3);
}
 

private void testReadRetainedSliceUnreleasable(boolean initRetainedSlice, boolean finalRetainedSlice) {
    ByteBuf buf = newBuffer(8);
    ByteBuf buf1 = initRetainedSlice ? buf.retainedSlice() : buf.slice().retain();
    ByteBuf buf2 = unreleasableBuffer(buf1);
    ByteBuf buf3 = finalRetainedSlice ? buf2.readRetainedSlice(buf2.readableBytes())
                                      : buf2.readSlice(buf2.readableBytes()).retain();
    assertFalse(buf3.release());
    assertFalse(buf2.release());
    buf1.release();
    assertTrue(buf.release());
    assertEquals(0, buf1.refCnt());
    assertEquals(0, buf.refCnt());
}
 

private void testSliceCapacityChange(boolean retainedSlice) {
    ByteBuf buf = newBuffer(8);
    ByteBuf slice = retainedSlice ? buf.retainedSlice(buf.readerIndex() + 1, 3)
                                  : buf.slice(buf.readerIndex() + 1, 3);
    try {
        slice.capacity(10);
    } finally {
        if (retainedSlice) {
            slice.release();
        }
        buf.release();
    }
}
 

private void testSliceCapacityChange(boolean retainedSlice) {
    ByteBuf buf = newBuffer(8);
    ByteBuf slice = retainedSlice ? buf.retainedSlice(buf.readerIndex() + 1, 3)
                                  : buf.slice(buf.readerIndex() + 1, 3);
    try {
        slice.capacity(10);
    } finally {
        if (retainedSlice) {
            slice.release();
        }
        buf.release();
    }
}
 

@Test
public void testDuplicateAfterReleaseRetainedSliceDuplicate() {
    ByteBuf buf = newBuffer(1);
    ByteBuf buf2 = buf.retainedSlice(0, 1);
    ByteBuf buf3 = buf2.duplicate();
    assertDuplicateFailAfterRelease(buf, buf2, buf3);
}
 

@Test
public void testRetainedSliceAfterReleaseRetainedSliceRetainedDuplicate() {
    ByteBuf buf = newBuffer(1);
    ByteBuf buf2 = buf.retainedSlice(0, 1);
    ByteBuf buf3 = buf2.retainedDuplicate();
    assertRetainedSliceFailAfterRelease(buf, buf2, buf3);
}
 

@Test
public void testDuplicateAfterReleaseRetainedSliceDuplicate() {
    ByteBuf buf = newBuffer(1);
    ByteBuf buf2 = buf.retainedSlice(0, 1);
    ByteBuf buf3 = buf2.duplicate();
    assertDuplicateFailAfterRelease(buf, buf2, buf3);
}
 

private void testSliceReleaseOriginal(boolean retainedSlice1, boolean retainedSlice2) {
    ByteBuf buf = newBuffer(8).resetWriterIndex();
    ByteBuf expected1 = newBuffer(3).resetWriterIndex();
    ByteBuf expected2 = newBuffer(2).resetWriterIndex();
    buf.writeBytes(new byte[] {1, 2, 3, 4, 5, 6, 7, 8});
    expected1.writeBytes(new byte[] {6, 7, 8});
    expected2.writeBytes(new byte[] {7, 8});
    ByteBuf slice1 = retainedSlice1 ? buf.retainedSlice(buf.readerIndex() + 5, 3)
                                    : buf.slice(buf.readerIndex() + 5, 3).retain();
    assertEquals(0, slice1.compareTo(expected1));
    // Simulate a handler that releases the original buffer, and propagates a slice.
    buf.release();

    ByteBuf slice2 = retainedSlice2 ? slice1.retainedSlice(slice1.readerIndex() + 1, 2)
                                    : slice1.slice(slice1.readerIndex() + 1, 2).retain();
    assertEquals(0, slice2.compareTo(expected2));

    // Cleanup the expected buffers used for testing.
    assertTrue(expected1.release());
    assertTrue(expected2.release());

    // The handler created a slice of the slice and is now done with it.
    slice2.release();

    // The handler is now done with the original slice
    assertTrue(slice1.release());

    // Reference counting may be shared, or may be independently tracked, but at this point all buffers should
    // be deallocated and have a reference count of 0.
    assertEquals(0, buf.refCnt());
    assertEquals(0, slice1.refCnt());
    assertEquals(0, slice2.refCnt());
}
 

@Test
public void testRetainedSliceAfterReleaseRetainedSliceDuplicate() {
    ByteBuf buf = newBuffer(1);
    ByteBuf buf2 = buf.retainedSlice(0, 1);
    ByteBuf buf3 = buf2.duplicate();
    assertRetainedSliceFailAfterRelease(buf, buf2, buf3);
}
 

@Test
public void testDuplicateAfterReleaseRetainedSliceDuplicate() {
    ByteBuf buf = newBuffer(1);
    ByteBuf buf2 = buf.retainedSlice(0, 1);
    ByteBuf buf3 = buf2.duplicate();
    assertDuplicateFailAfterRelease(buf, buf2, buf3);
}
 

@Test
public void testRetainedSliceAndRetainedDuplicateContentIsExpected() {
    ByteBuf buf = newBuffer(8).resetWriterIndex();
    ByteBuf expected1 = newBuffer(6).resetWriterIndex();
    ByteBuf expected2 = newBuffer(5).resetWriterIndex();
    ByteBuf expected3 = newBuffer(4).resetWriterIndex();
    ByteBuf expected4 = newBuffer(3).resetWriterIndex();
    buf.writeBytes(new byte[] {1, 2, 3, 4, 5, 6, 7, 8});
    expected1.writeBytes(new byte[] {2, 3, 4, 5, 6, 7});
    expected2.writeBytes(new byte[] {3, 4, 5, 6, 7});
    expected3.writeBytes(new byte[] {4, 5, 6, 7});
    expected4.writeBytes(new byte[] {5, 6, 7});

    ByteBuf slice1 = buf.retainedSlice(buf.readerIndex() + 1, 6);
    assertEquals(0, slice1.compareTo(expected1));
    assertEquals(0, slice1.compareTo(buf.slice(buf.readerIndex() + 1, 6)));
    // Simulate a handler that releases the original buffer, and propagates a slice.
    buf.release();

    // Advance the reader index on the slice.
    slice1.readByte();

    ByteBuf dup1 = slice1.retainedDuplicate();
    assertEquals(0, dup1.compareTo(expected2));
    assertEquals(0, dup1.compareTo(slice1.duplicate()));

    // Advance the reader index on dup1.
    dup1.readByte();

    ByteBuf dup2 = dup1.duplicate();
    assertEquals(0, dup2.compareTo(expected3));

    // Advance the reader index on dup2.
    dup2.readByte();

    ByteBuf slice2 = dup2.retainedSlice(dup2.readerIndex(), 3);
    assertEquals(0, slice2.compareTo(expected4));
    assertEquals(0, slice2.compareTo(dup2.slice(dup2.readerIndex(), 3)));

    // Cleanup the expected buffers used for testing.
    assertTrue(expected1.release());
    assertTrue(expected2.release());
    assertTrue(expected3.release());
    assertTrue(expected4.release());

    slice2.release();
    dup2.release();

    assertEquals(slice2.refCnt(), dup2.refCnt());
    assertEquals(dup2.refCnt(), dup1.refCnt());

    // The handler is now done with the original slice
    assertTrue(slice1.release());

    // Reference counting may be shared, or may be independently tracked, but at this point all buffers should
    // be deallocated and have a reference count of 0.
    assertEquals(0, buf.refCnt());
    assertEquals(0, slice1.refCnt());
    assertEquals(0, slice2.refCnt());
    assertEquals(0, dup1.refCnt());
    assertEquals(0, dup2.refCnt());
}
 

private void testMultipleRetainedDuplicateReleaseOriginal(boolean retainedDuplicate1, boolean retainedDuplicate2) {
    ByteBuf buf = newBuffer(8).resetWriterIndex();
    ByteBuf expected = newBuffer(8).resetWriterIndex();
    buf.writeBytes(new byte[] {1, 2, 3, 4, 5, 6, 7, 8});
    expected.writeBytes(buf, buf.readerIndex(), buf.readableBytes());
    ByteBuf dup1 = retainedDuplicate1 ? buf.retainedDuplicate()
                                      : buf.duplicate().retain();
    assertEquals(0, dup1.compareTo(expected));
    // Simulate a handler that releases the original buffer, and propagates a slice.
    buf.release();

    ByteBuf dup2 = retainedDuplicate2 ? dup1.retainedDuplicate()
                                      : dup1.duplicate().retain();
    assertEquals(0, dup2.compareTo(expected));
    assertEquals(0, dup2.compareTo(dup2.duplicate()));
    assertEquals(0, dup2.compareTo(dup2.slice()));

    ByteBuf tmpBuf = dup2.retainedDuplicate();
    assertEquals(0, dup2.compareTo(tmpBuf));
    tmpBuf.release();
    tmpBuf = dup2.retainedSlice();
    assertEquals(0, dup2.compareTo(tmpBuf));
    tmpBuf.release();

    // The handler created a slice of the slice and is now done with it.
    dup2.release();

    ByteBuf dup3 = dup1.retainedDuplicate();
    assertEquals(0, dup3.compareTo(expected));

    // The handler created another slice of the slice and is now done with it.
    dup3.release();

    // The handler is now done with the original slice
    assertTrue(dup1.release());

    // Cleanup the expected buffers used for testing.
    assertTrue(expected.release());

    // Reference counting may be shared, or may be independently tracked, but at this point all buffers should
    // be deallocated and have a reference count of 0.
    assertEquals(0, buf.refCnt());
    assertEquals(0, dup1.refCnt());
    assertEquals(0, dup2.refCnt());
    assertEquals(0, dup3.refCnt());
}
 

private void testMultipleRetainedSliceReleaseOriginal(boolean retainedSlice1, boolean retainedSlice2) {
    ByteBuf buf = newBuffer(8).resetWriterIndex();
    ByteBuf expected1 = newBuffer(3).resetWriterIndex();
    ByteBuf expected2 = newBuffer(2).resetWriterIndex();
    ByteBuf expected3 = newBuffer(2).resetWriterIndex();
    buf.writeBytes(new byte[] {1, 2, 3, 4, 5, 6, 7, 8});
    expected1.writeBytes(new byte[] {6, 7, 8});
    expected2.writeBytes(new byte[] {7, 8});
    expected3.writeBytes(new byte[] {6, 7});
    ByteBuf slice1 = retainedSlice1 ? buf.retainedSlice(buf.readerIndex() + 5, 3)
                                    : buf.slice(buf.readerIndex() + 5, 3).retain();
    assertEquals(0, slice1.compareTo(expected1));
    // Simulate a handler that releases the original buffer, and propagates a slice.
    buf.release();

    ByteBuf slice2 = retainedSlice2 ? slice1.retainedSlice(slice1.readerIndex() + 1, 2)
                                    : slice1.slice(slice1.readerIndex() + 1, 2).retain();
    assertEquals(0, slice2.compareTo(expected2));

    // The handler created a slice of the slice and is now done with it.
    slice2.release();

    ByteBuf slice3 = slice1.retainedSlice(slice1.readerIndex(), 2);
    assertEquals(0, slice3.compareTo(expected3));

    // The handler created another slice of the slice and is now done with it.
    slice3.release();

    // The handler is now done with the original slice
    assertTrue(slice1.release());

    // Cleanup the expected buffers used for testing.
    assertTrue(expected1.release());
    assertTrue(expected2.release());
    assertTrue(expected3.release());

    // Reference counting may be shared, or may be independently tracked, but at this point all buffers should
    // be deallocated and have a reference count of 0.
    assertEquals(0, buf.refCnt());
    assertEquals(0, slice1.refCnt());
    assertEquals(0, slice2.refCnt());
    assertEquals(0, slice3.refCnt());
}
 

@Test
public void testSliceAfterReleaseRetainedSlice() {
    ByteBuf buf = newBuffer(1);
    ByteBuf buf2 = buf.retainedSlice(0, 1);
    assertSliceFailAfterRelease(buf, buf2);
}
 

private void testMultipleLevelRetainedSliceWithNonRetained(boolean doSlice1, boolean doSlice2) {
    ByteBuf buf = newBuffer(8).resetWriterIndex();
    ByteBuf expected1 = newBuffer(6).resetWriterIndex();
    ByteBuf expected2 = newBuffer(4).resetWriterIndex();
    ByteBuf expected3 = newBuffer(2).resetWriterIndex();
    ByteBuf expected4SliceSlice = newBuffer(1).resetWriterIndex();
    ByteBuf expected4DupSlice = newBuffer(1).resetWriterIndex();
    buf.writeBytes(new byte[] {1, 2, 3, 4, 5, 6, 7, 8});
    expected1.writeBytes(new byte[] {2, 3, 4, 5, 6, 7});
    expected2.writeBytes(new byte[] {3, 4, 5, 6});
    expected3.writeBytes(new byte[] {4, 5});
    expected4SliceSlice.writeBytes(new byte[] {5});
    expected4DupSlice.writeBytes(new byte[] {4});

    ByteBuf slice1 = buf.retainedSlice(buf.readerIndex() + 1, 6);
    assertEquals(0, slice1.compareTo(expected1));
    // Simulate a handler that releases the original buffer, and propagates a slice.
    buf.release();

    ByteBuf slice2 = slice1.retainedSlice(slice1.readerIndex() + 1, 4);
    assertEquals(0, slice2.compareTo(expected2));
    assertEquals(0, slice2.compareTo(slice2.duplicate()));
    assertEquals(0, slice2.compareTo(slice2.slice()));

    ByteBuf tmpBuf = slice2.retainedDuplicate();
    assertEquals(0, slice2.compareTo(tmpBuf));
    tmpBuf.release();
    tmpBuf = slice2.retainedSlice();
    assertEquals(0, slice2.compareTo(tmpBuf));
    tmpBuf.release();

    ByteBuf slice3 = doSlice1 ? slice2.slice(slice2.readerIndex() + 1, 2) : slice2.duplicate();
    if (doSlice1) {
        assertEquals(0, slice3.compareTo(expected3));
    } else {
        assertEquals(0, slice3.compareTo(expected2));
    }

    ByteBuf slice4 = doSlice2 ? slice3.slice(slice3.readerIndex() + 1, 1) : slice3.duplicate();
    if (doSlice1 && doSlice2) {
        assertEquals(0, slice4.compareTo(expected4SliceSlice));
    } else if (doSlice2) {
        assertEquals(0, slice4.compareTo(expected4DupSlice));
    } else {
        assertEquals(0, slice3.compareTo(slice4));
    }

    // Cleanup the expected buffers used for testing.
    assertTrue(expected1.release());
    assertTrue(expected2.release());
    assertTrue(expected3.release());
    assertTrue(expected4SliceSlice.release());
    assertTrue(expected4DupSlice.release());

    // Slice 4, 3, and 2 should effectively "share" a reference count.
    slice4.release();
    assertEquals(slice3.refCnt(), slice2.refCnt());
    assertEquals(slice3.refCnt(), slice4.refCnt());

    // Slice 1 should also release the original underlying buffer without throwing exceptions
    assertTrue(slice1.release());

    // Reference counting may be shared, or may be independently tracked, but at this point all buffers should
    // be deallocated and have a reference count of 0.
    assertEquals(0, buf.refCnt());
    assertEquals(0, slice1.refCnt());
    assertEquals(0, slice2.refCnt());
    assertEquals(0, slice3.refCnt());
}
 

@Test
public void testSliceAfterReleaseRetainedSlice() {
    ByteBuf buf = newBuffer(1);
    ByteBuf buf2 = buf.retainedSlice(0, 1);
    assertSliceFailAfterRelease(buf, buf2);
}
 

private void testMultipleLevelRetainedSliceWithNonRetained(boolean doSlice1, boolean doSlice2) {
    ByteBuf buf = newBuffer(8).resetWriterIndex();
    ByteBuf expected1 = newBuffer(6).resetWriterIndex();
    ByteBuf expected2 = newBuffer(4).resetWriterIndex();
    ByteBuf expected3 = newBuffer(2).resetWriterIndex();
    ByteBuf expected4SliceSlice = newBuffer(1).resetWriterIndex();
    ByteBuf expected4DupSlice = newBuffer(1).resetWriterIndex();
    buf.writeBytes(new byte[] {1, 2, 3, 4, 5, 6, 7, 8});
    expected1.writeBytes(new byte[] {2, 3, 4, 5, 6, 7});
    expected2.writeBytes(new byte[] {3, 4, 5, 6});
    expected3.writeBytes(new byte[] {4, 5});
    expected4SliceSlice.writeBytes(new byte[] {5});
    expected4DupSlice.writeBytes(new byte[] {4});

    ByteBuf slice1 = buf.retainedSlice(buf.readerIndex() + 1, 6);
    assertEquals(0, slice1.compareTo(expected1));
    // Simulate a handler that releases the original buffer, and propagates a slice.
    buf.release();

    ByteBuf slice2 = slice1.retainedSlice(slice1.readerIndex() + 1, 4);
    assertEquals(0, slice2.compareTo(expected2));
    assertEquals(0, slice2.compareTo(slice2.duplicate()));
    assertEquals(0, slice2.compareTo(slice2.slice()));

    ByteBuf tmpBuf = slice2.retainedDuplicate();
    assertEquals(0, slice2.compareTo(tmpBuf));
    tmpBuf.release();
    tmpBuf = slice2.retainedSlice();
    assertEquals(0, slice2.compareTo(tmpBuf));
    tmpBuf.release();

    ByteBuf slice3 = doSlice1 ? slice2.slice(slice2.readerIndex() + 1, 2) : slice2.duplicate();
    if (doSlice1) {
        assertEquals(0, slice3.compareTo(expected3));
    } else {
        assertEquals(0, slice3.compareTo(expected2));
    }

    ByteBuf slice4 = doSlice2 ? slice3.slice(slice3.readerIndex() + 1, 1) : slice3.duplicate();
    if (doSlice1 && doSlice2) {
        assertEquals(0, slice4.compareTo(expected4SliceSlice));
    } else if (doSlice2) {
        assertEquals(0, slice4.compareTo(expected4DupSlice));
    } else {
        assertEquals(0, slice3.compareTo(slice4));
    }

    // Cleanup the expected buffers used for testing.
    assertTrue(expected1.release());
    assertTrue(expected2.release());
    assertTrue(expected3.release());
    assertTrue(expected4SliceSlice.release());
    assertTrue(expected4DupSlice.release());

    // Slice 4, 3, and 2 should effectively "share" a reference count.
    slice4.release();
    assertEquals(slice3.refCnt(), slice2.refCnt());
    assertEquals(slice3.refCnt(), slice4.refCnt());

    // Slice 1 should also release the original underlying buffer without throwing exceptions
    assertTrue(slice1.release());

    // Reference counting may be shared, or may be independently tracked, but at this point all buffers should
    // be deallocated and have a reference count of 0.
    assertEquals(0, buf.refCnt());
    assertEquals(0, slice1.refCnt());
    assertEquals(0, slice2.refCnt());
    assertEquals(0, slice3.refCnt());
}
 

@Test
public void testRetainedSliceAndRetainedDuplicateContentIsExpected() {
    ByteBuf buf = newBuffer(8).resetWriterIndex();
    ByteBuf expected1 = newBuffer(6).resetWriterIndex();
    ByteBuf expected2 = newBuffer(5).resetWriterIndex();
    ByteBuf expected3 = newBuffer(4).resetWriterIndex();
    ByteBuf expected4 = newBuffer(3).resetWriterIndex();
    buf.writeBytes(new byte[] {1, 2, 3, 4, 5, 6, 7, 8});
    expected1.writeBytes(new byte[] {2, 3, 4, 5, 6, 7});
    expected2.writeBytes(new byte[] {3, 4, 5, 6, 7});
    expected3.writeBytes(new byte[] {4, 5, 6, 7});
    expected4.writeBytes(new byte[] {5, 6, 7});

    ByteBuf slice1 = buf.retainedSlice(buf.readerIndex() + 1, 6);
    assertEquals(0, slice1.compareTo(expected1));
    assertEquals(0, slice1.compareTo(buf.slice(buf.readerIndex() + 1, 6)));
    // Simulate a handler that releases the original buffer, and propagates a slice.
    buf.release();

    // Advance the reader index on the slice.
    slice1.readByte();

    ByteBuf dup1 = slice1.retainedDuplicate();
    assertEquals(0, dup1.compareTo(expected2));
    assertEquals(0, dup1.compareTo(slice1.duplicate()));

    // Advance the reader index on dup1.
    dup1.readByte();

    ByteBuf dup2 = dup1.duplicate();
    assertEquals(0, dup2.compareTo(expected3));

    // Advance the reader index on dup2.
    dup2.readByte();

    ByteBuf slice2 = dup2.retainedSlice(dup2.readerIndex(), 3);
    assertEquals(0, slice2.compareTo(expected4));
    assertEquals(0, slice2.compareTo(dup2.slice(dup2.readerIndex(), 3)));

    // Cleanup the expected buffers used for testing.
    assertTrue(expected1.release());
    assertTrue(expected2.release());
    assertTrue(expected3.release());
    assertTrue(expected4.release());

    slice2.release();
    dup2.release();

    assertEquals(slice2.refCnt(), dup2.refCnt());
    assertEquals(dup2.refCnt(), dup1.refCnt());

    // The handler is now done with the original slice
    assertTrue(slice1.release());

    // Reference counting may be shared, or may be independently tracked, but at this point all buffers should
    // be deallocated and have a reference count of 0.
    assertEquals(0, buf.refCnt());
    assertEquals(0, slice1.refCnt());
    assertEquals(0, slice2.refCnt());
    assertEquals(0, dup1.refCnt());
    assertEquals(0, dup2.refCnt());
}