Publication( final ClientConductor clientConductor, final String channel, final int streamId, final int sessionId, final ReadablePosition publicationLimit, final LogBuffers logBuffers, final long registrationId) { final UnsafeBuffer[] buffers = logBuffers.atomicBuffers(); final UnsafeBuffer logMetaDataBuffer = buffers[LOG_META_DATA_SECTION_INDEX]; final UnsafeBuffer[] defaultFrameHeaders = defaultFrameHeaders(logMetaDataBuffer); final int mtuLength = mtuLength(logMetaDataBuffer); for (int i = 0; i < PARTITION_COUNT; i++) { termAppenders[i] = new TermAppender( buffers[i], buffers[i + PARTITION_COUNT], defaultFrameHeaders[i], mtuLength); } this.clientConductor = clientConductor; this.channel = channel; this.streamId = streamId; this.sessionId = sessionId; this.logBuffers = logBuffers; this.logMetaDataBuffer = logMetaDataBuffer; this.registrationId = registrationId; this.publicationLimit = publicationLimit; this.positionBitsToShift = Integer.numberOfTrailingZeros(logBuffers.termLength()); }
@Before public void setUp() { when(publicationLimit.getVolatile()).thenReturn(2L * SEND_BUFFER_CAPACITY); when(logBuffers.atomicBuffers()).thenReturn(buffers); when(logBuffers.termLength()).thenReturn(TERM_MIN_LENGTH); initialTermId(logMetaDataBuffer, TERM_ID_1); activeTermId(logMetaDataBuffer, TERM_ID_1); for (int i = 0; i < PARTITION_COUNT; i++) { termBuffers[i] = new UnsafeBuffer(ByteBuffer.allocateDirect(TERM_MIN_LENGTH)); termMetaDataBuffers[i] = new UnsafeBuffer(ByteBuffer.allocateDirect(TERM_META_DATA_LENGTH)); buffers[i] = termBuffers[i]; buffers[i + PARTITION_COUNT] = termMetaDataBuffers[i]; } buffers[LOG_META_DATA_SECTION_INDEX] = logMetaDataBuffer; publication = new Publication( conductor, CHANNEL, STREAM_ID_1, SESSION_ID_1, publicationLimit, logBuffers, CORRELATION_ID); publication.incRef(); }
/** * Get the length in bytes for each term partition in the log buffer. * * @return the length in bytes for each term partition in the log buffer. */ public int termBufferLength() { return logBuffers.termLength(); }