public int getTime() { return this.ts.getTime(); }
@Nullable @Override public Instant convert(BsonTimestamp source) { return Instant.ofEpochSecond(source.getTime(), 0); } }
@Override public void convert(final BsonTimestamp value, final StrictJsonWriter writer) { writer.writeRaw(format("Timestamp(%d, %d)", value.getTime(), value.getInc())); } }
@Override public String toString() { return "Timestamp{" + "value=" + getValue() + ", seconds=" + getTime() + ", inc=" + getInc() + '}'; }
private static <T> Object doGetTimestamp(Object timestamp, Class<T> targetType) { if (ClassUtils.isAssignableValue(targetType, timestamp)) { return timestamp; } if (timestamp instanceof Instant) { return new BsonTimestamp((int) ((Instant) timestamp).getEpochSecond(), 0); } if (timestamp instanceof BsonTimestamp) { return Instant.ofEpochSecond(((BsonTimestamp) timestamp).getTime()); } throw new IllegalArgumentException( "o_O that should actually not happen. The timestamp should be an Instant or a BsonTimestamp but was " + ObjectUtils.nullSafeClassName(timestamp)); }
@Override public BSONTimestamp decode(final BsonReader reader, final DecoderContext decoderContext) { BsonTimestamp timestamp = reader.readTimestamp(); return new BSONTimestamp(timestamp.getTime(), timestamp.getInc()); }
@Override public void doWriteTimestamp(final BsonTimestamp value) { bsonCallback.gotTimestamp(getName(), value.getTime(), value.getInc()); }
@Override public void convert(final BsonTimestamp value, final StrictJsonWriter writer) { writer.writeStartObject(); writer.writeStartObject("$timestamp"); writer.writeNumber("t", UnsignedLongs.toString(toUnsignedLong(value.getTime()))); writer.writeNumber("i", UnsignedLongs.toString(toUnsignedLong(value.getInc()))); writer.writeEndObject(); writer.writeEndObject(); }
colValue = keyvalueforStruct.getValue().asTimestamp().getTime(); break;
@Nullable @Override public Instant convert(BsonTimestamp source) { return Instant.ofEpochSecond(source.getTime(), 0); } }
assertThat(ts.getTime()).isEqualTo(100); assertThat(ts.getInc()).isEqualTo(2);
case TIMESTAMP: BsonTimestamp timestamp = reader.readTimestamp(); return new BSONTimestamp(timestamp.getTime(), timestamp.getInc()); case INT64: return reader.readInt64();
@Test public void shouldReturnRecordedOffsetForUsedReplicaName() { Document event = new Document().append("ts", new BsonTimestamp(100, 2)) .append("h", Long.valueOf(1987654321)) .append("ns", "dbA.collectA"); assertThat(source.hasOffset(REPLICA_SET_NAME)).isEqualTo(false); source.offsetStructForEvent(REPLICA_SET_NAME, event); assertThat(source.hasOffset(REPLICA_SET_NAME)).isEqualTo(true); Map<String, ?> offset = source.lastOffset(REPLICA_SET_NAME); assertThat(offset.get(SourceInfo.TIMESTAMP)).isEqualTo(100); assertThat(offset.get(SourceInfo.ORDER)).isEqualTo(2); assertThat(offset.get(SourceInfo.OPERATION_ID)).isEqualTo(1987654321L); BsonTimestamp ts = source.lastOffsetTimestamp(REPLICA_SET_NAME); assertThat(ts.getTime()).isEqualTo(100); assertThat(ts.getInc()).isEqualTo(2); Struct struct = source.lastOffsetStruct(REPLICA_SET_NAME,new CollectionId(REPLICA_SET_NAME,"dbA","collectA")); assertThat(struct.getInt32(SourceInfo.TIMESTAMP)).isEqualTo(100); assertThat(struct.getInt32(SourceInfo.ORDER)).isEqualTo(2); assertThat(struct.getInt64(SourceInfo.OPERATION_ID)).isEqualTo(1987654321L); assertThat(struct.getString(SourceInfo.NAMESPACE)).isEqualTo("dbA.collectA"); assertThat(struct.getString(SourceInfo.REPLICA_SET_NAME)).isEqualTo(REPLICA_SET_NAME); assertThat(struct.getString(SourceInfo.SERVER_NAME)).isEqualTo("serverX"); assertThat(struct.getBoolean(SourceInfo.INITIAL_SYNC)).isNull(); }
@Test public void shouldReturnRecordedOffsetForUsedReplicaNameDuringInitialSync() { source.startInitialSync(REPLICA_SET_NAME); Document event = new Document().append("ts", new BsonTimestamp(100, 2)) .append("h", Long.valueOf(1987654321)) .append("ns", "dbA.collectA"); assertThat(source.hasOffset(REPLICA_SET_NAME)).isEqualTo(false); source.offsetStructForEvent(REPLICA_SET_NAME, event); assertThat(source.hasOffset(REPLICA_SET_NAME)).isEqualTo(true); Map<String, ?> offset = source.lastOffset(REPLICA_SET_NAME); assertThat(offset.get(SourceInfo.TIMESTAMP)).isEqualTo(100); assertThat(offset.get(SourceInfo.ORDER)).isEqualTo(2); assertThat(offset.get(SourceInfo.OPERATION_ID)).isEqualTo(1987654321L); BsonTimestamp ts = source.lastOffsetTimestamp(REPLICA_SET_NAME); assertThat(ts.getTime()).isEqualTo(100); assertThat(ts.getInc()).isEqualTo(2); Struct struct = source.lastOffsetStruct(REPLICA_SET_NAME,new CollectionId(REPLICA_SET_NAME,"dbA","collectA")); assertThat(struct.getInt32(SourceInfo.TIMESTAMP)).isEqualTo(100); assertThat(struct.getInt32(SourceInfo.ORDER)).isEqualTo(2); assertThat(struct.getInt64(SourceInfo.OPERATION_ID)).isEqualTo(1987654321L); assertThat(struct.getString(SourceInfo.NAMESPACE)).isEqualTo("dbA.collectA"); assertThat(struct.getString(SourceInfo.REPLICA_SET_NAME)).isEqualTo(REPLICA_SET_NAME); assertThat(struct.getString(SourceInfo.SERVER_NAME)).isEqualTo("serverX"); assertThat(struct.getBoolean(SourceInfo.INITIAL_SYNC)).isEqualTo(true); }
@Test public void shouldReturnOffsetForUnusedReplicaName() { assertThat(source.hasOffset(REPLICA_SET_NAME)).isEqualTo(false); Map<String, ?> offset = source.lastOffset(REPLICA_SET_NAME); assertThat(offset.get(SourceInfo.TIMESTAMP)).isEqualTo(0); assertThat(offset.get(SourceInfo.ORDER)).isEqualTo(0); assertThat(offset.get(SourceInfo.OPERATION_ID)).isNull(); BsonTimestamp ts = source.lastOffsetTimestamp(REPLICA_SET_NAME); assertThat(ts.getTime()).isEqualTo(0); assertThat(ts.getInc()).isEqualTo(0); Struct struct = source.lastOffsetStruct(REPLICA_SET_NAME,new CollectionId(REPLICA_SET_NAME,"dbA","collectA")); assertThat(struct.getInt32(SourceInfo.TIMESTAMP)).isEqualTo(0); assertThat(struct.getInt32(SourceInfo.ORDER)).isEqualTo(0); assertThat(struct.getInt64(SourceInfo.OPERATION_ID)).isNull(); assertThat(struct.getString(SourceInfo.NAMESPACE)).isEqualTo("dbA.collectA"); assertThat(struct.getString(SourceInfo.REPLICA_SET_NAME)).isEqualTo(REPLICA_SET_NAME); assertThat(struct.getString(SourceInfo.SERVER_NAME)).isEqualTo("serverX"); assertThat(struct.getBoolean(SourceInfo.INITIAL_SYNC)).isNull(); assertThat(source.hasOffset(REPLICA_SET_NAME)).isEqualTo(false); }
@Test public void shouldReturnOffsetForUnusedReplicaNameDuringInitialSync() { source.startInitialSync(REPLICA_SET_NAME); assertThat(source.hasOffset(REPLICA_SET_NAME)).isEqualTo(false); Map<String, ?> offset = source.lastOffset(REPLICA_SET_NAME); assertThat(offset.get(SourceInfo.TIMESTAMP)).isEqualTo(0); assertThat(offset.get(SourceInfo.ORDER)).isEqualTo(0); assertThat(offset.get(SourceInfo.OPERATION_ID)).isNull(); BsonTimestamp ts = source.lastOffsetTimestamp(REPLICA_SET_NAME); assertThat(ts.getTime()).isEqualTo(0); assertThat(ts.getInc()).isEqualTo(0); Struct struct = source.lastOffsetStruct(REPLICA_SET_NAME,new CollectionId(REPLICA_SET_NAME,"dbA","collectA")); assertThat(struct.getInt32(SourceInfo.TIMESTAMP)).isEqualTo(0); assertThat(struct.getInt32(SourceInfo.ORDER)).isEqualTo(0); assertThat(struct.getInt64(SourceInfo.OPERATION_ID)).isNull(); assertThat(struct.getString(SourceInfo.NAMESPACE)).isEqualTo("dbA.collectA"); assertThat(struct.getString(SourceInfo.REPLICA_SET_NAME)).isEqualTo(REPLICA_SET_NAME); assertThat(struct.getString(SourceInfo.SERVER_NAME)).isEqualTo("serverX"); assertThat(struct.getBoolean(SourceInfo.INITIAL_SYNC)).isEqualTo(true); assertThat(source.hasOffset(REPLICA_SET_NAME)).isEqualTo(false); }
@Override public String convert(final BsonTimestamp source) { return String.valueOf(source.getTime()); } }
@Override public Date convert(final BsonTimestamp source) { return new Date(source.getTime()); } }
@Override public ZonedDateTime decode(final BsonReader reader, final DecoderContext decoderContext) { val stamp = reader.readTimestamp(); val dt = new Date(stamp.getTime()); return DateTimeUtils.zonedDateTimeOf(dt); }
@Override public BSONTimestamp decode(final BsonReader reader, final DecoderContext decoderContext) { BsonTimestamp timestamp = reader.readTimestamp(); return new BSONTimestamp(timestamp.getTime(), timestamp.getInc()); }