/** * Tests the ability to concat using the header file for those cases when native concat cannot be used because the * source Segment has multiple SegmentChunks. */ @Test public void testConcatHeaderMultiFile() throws Exception { final int initialTargetLength = (int) DEFAULT_ROLLING_POLICY.getMaxLength() / 2; final String sourceSegmentName = "SourceSegment"; @Cleanup val baseStorage = new InMemoryStorage(); @Cleanup val s = new RollingStorage(baseStorage, DEFAULT_ROLLING_POLICY); s.initialize(1); // Create a Target Segment and a Source Segment and write some data to them. s.create(SEGMENT_NAME); val targetHandle = (RollingSegmentHandle) s.openWrite(SEGMENT_NAME); val writeStream = new ByteArrayOutputStream(); populate(s, targetHandle, 1, initialTargetLength, initialTargetLength, writeStream); s.create(sourceSegmentName); val sourceHandle = (RollingSegmentHandle) s.openWrite(sourceSegmentName); populate(s, sourceHandle, APPENDS_PER_SEGMENT, initialTargetLength, initialTargetLength, writeStream); s.seal(sourceHandle); // Concat and verify the handle has been updated accordingly. s.concat(targetHandle, initialTargetLength, sourceSegmentName); checkConcatResult(s, targetHandle, sourceSegmentName, 1 + sourceHandle.chunks().size(), initialTargetLength + (int) sourceHandle.length()); checkWrittenData(writeStream.toByteArray(), s.openRead(SEGMENT_NAME), s); }
/** * Tests the ability to use native concat for those cases when it's appropriate. */ @Test public void testConcatNatively() throws Exception { final int initialTargetLength = (int) DEFAULT_ROLLING_POLICY.getMaxLength() / 2; final int initialSourceLength = (int) DEFAULT_ROLLING_POLICY.getMaxLength() - initialTargetLength; final String sourceSegmentName = "SourceSegment"; @Cleanup val baseStorage = new InMemoryStorage(); @Cleanup val s = new RollingStorage(baseStorage, DEFAULT_ROLLING_POLICY); s.initialize(1); // Create a target Segment and write a little data to it. s.create(SEGMENT_NAME); val targetHandle = (RollingSegmentHandle) s.openWrite(SEGMENT_NAME); val writeStream = new ByteArrayOutputStream(); populate(s, targetHandle, 1, initialTargetLength, initialTargetLength, writeStream); // Create a source Segment and write a little data to it, making sure it is small enough to fit into the target // when we need to concat. s.create(sourceSegmentName); val sourceHandle = (RollingSegmentHandle) s.openWrite(sourceSegmentName); populate(s, sourceHandle, 1, initialSourceLength, initialSourceLength, writeStream); s.seal(sourceHandle); // Concat and verify the handle has been updated accordingly. s.concat(targetHandle, initialTargetLength, sourceSegmentName); checkConcatResult(s, targetHandle, sourceSegmentName, 1, initialTargetLength + initialSourceLength); checkWrittenData(writeStream.toByteArray(), s.openRead(SEGMENT_NAME), s); }
/** * Tests the ability to concat using the header file for those cases when native concat cannot be used because the * source Segment has a single SegmentChunk, but it's too large to fit into the Target's active SegmentChunk. */ @Test public void testConcatHeaderSingleFile() throws Exception { final int initialTargetLength = (int) DEFAULT_ROLLING_POLICY.getMaxLength() / 2; final int bigSourceLength = (int) DEFAULT_ROLLING_POLICY.getMaxLength() - initialTargetLength + 1; final String sourceSegmentName = "SourceSegment"; @Cleanup val baseStorage = new InMemoryStorage(); @Cleanup val s = new RollingStorage(baseStorage, DEFAULT_ROLLING_POLICY); s.initialize(1); // Create a Target Segment and a Source Segment and write some data to them. s.create(SEGMENT_NAME); val targetHandle = (RollingSegmentHandle) s.openWrite(SEGMENT_NAME); val writeStream = new ByteArrayOutputStream(); populate(s, targetHandle, 1, initialTargetLength, initialTargetLength, writeStream); s.create(sourceSegmentName); val sourceHandle = (RollingSegmentHandle) s.openWrite(sourceSegmentName); populate(s, sourceHandle, 1, bigSourceLength, bigSourceLength, writeStream); s.seal(sourceHandle); // Concat and verify the handle has been updated accordingly. s.concat(targetHandle, initialTargetLength, sourceSegmentName); checkConcatResult(s, targetHandle, sourceSegmentName, 2, initialTargetLength + bigSourceLength); checkWrittenData(writeStream.toByteArray(), s.openRead(SEGMENT_NAME), s); }
checkConcatResult(s, targetHandle, sourceSegmentName, 1 + sourceHandle.chunks().size(), initialTargetLength + (int) sourceHandle.length()); checkWrittenData(writeStream.toByteArray(), s.openRead(SEGMENT_NAME), s);
checkConcatResult(s, targetHandle, sourceSegmentName, 1, initialTargetLength + initialSourceLength); checkWrittenData(writeStream.toByteArray(), s.openRead(SEGMENT_NAME), s);