Hi, +1 (binding)
The source release: apache headers [ok] signatures and hashes [ok] LICENSE and NOTICE [ok] no jar files [ok] could compile from source: ./mvnw clean install -DskipTests [ok] The binary distribution: version number in CLI [ok] signatures and hashes [ok] 3C3D start in mac, jdk8 [ok] Insert and query statements executed successfully: [ok] Thanks, ————————————————— Jialin Qiao Apache IoTDB PMC Yuan Tian <[email protected]> 于2022年9月8日周四 09:40写道: > > Hi, > > +1 (binding) > > The source release: > apache headers [ok] > signatures and hashes [ok] > LICENSE and NOTICE [ok] > no jar files [ok] > could compile from source: ./mvnw.sh clean install [minor issue with > a target file not ignored by apache-rat] > > > The binary distribution: > version number in CLI [ok] > signatures and hashes [ok] > start in mac M1 pro, jdk11-liberica [ok] > statements executed successfully: [ok] > > SET STORAGE GROUP TO root.sg1; > create aligned timeseries root.sg1.d1(s1 FLOAT encoding=RLE, s2 INT32 > encoding=Gorilla compression=SNAPPY, s3 INT64, s4 BOOLEAN, s5 TEXT); > create timeseries root.sg1.d2.s1 WITH DATATYPE=FLOAT, encoding=RLE; > create timeseries root.sg1.d2.s2 WITH DATATYPE=INT32, encoding=Gorilla; > create timeseries root.sg1.d2.s3 WITH DATATYPE=INT64; > create timeseries root.sg1.d2.s4 WITH DATATYPE=BOOLEAN; > create timeseries root.sg1.d2.s5 WITH DATATYPE=TEXT; > insert into root.sg1.d1(time, s1, s2, s3, s4, s5) aligned values(1, > 1.0, 1, 1, TRUE, 'aligned_test1'); > insert into root.sg1.d1(time, s1, s2, s3, s5) aligned values(2, 2.0, > 2, 2, 'aligned_test2'); > insert into root.sg1.d1(time, s1, s3, s4, s5) aligned values(3, 3.0, > 3, FALSE, 'aligned_test3'); > insert into root.sg1.d1(time, s1, s2, s4, s5) aligned values(4, 4.0, > 4, TRUE, 'aligned_test4'); > insert into root.sg1.d1(time, s1, s2, s4, s5) aligned values(5, 5.0, > 5, TRUE, 'aligned_test5'); > insert into root.sg1.d1(time, s1, s2, s3, s4) aligned values(6, 6.0, > 6, 6, TRUE); > insert into root.sg1.d1(time, s1, s2, s3, s4, s5) aligned values(7, > 7.0, 7, 7, FALSE, 'aligned_test7'); > insert into root.sg1.d1(time, s1, s2, s3, s5) aligned values(8, 8.0, > 8, 8, 'aligned_test8'); > insert into root.sg1.d1(time, s1, s2, s3, s4, s5) aligned values(9, > 9.0, 9, 9, FALSE, 'aligned_test9'); > insert into root.sg1.d1(time, s2, s3, s4, s5) aligned values(10, 10, > 10, TRUE, 'aligned_test10'); > insert into root.sg1.d2(time, s1, s2, s3, s4, s5) values(1, 1.0, 1, 1, > TRUE, 'non_aligned_test1'); > insert into root.sg1.d2(time, s1, s2, s3, s5) values(2, 2.0, 2, 2, > 'non_aligned_test2'); > insert into root.sg1.d2(time, s1, s3, s4, s5) values(3, 3.0, 3, FALSE, > 'non_aligned_test3'); > insert into root.sg1.d2(time, s1, s2, s4, s5) values(4, 4.0, 4, TRUE, > 'non_aligned_test4'); > insert into root.sg1.d2(time, s1, s2, s4, s5) values(5, 5.0, 5, TRUE, > 'non_aligned_test5'); > insert into root.sg1.d2(time, s1, s2, s3, s4) values(6, 6.0, 6, 6, TRUE); > insert into root.sg1.d2(time, s1, s2, s3, s4, s5) values(7, 7.0, 7, 7, > FALSE, 'non_aligned_test7'); > insert into root.sg1.d2(time, s1, s2, s3, s5) values(8, 8.0, 8, 8, > 'non_aligned_test8'); > insert into root.sg1.d2(time, s1, s2, s3, s4, s5) values(9, 9.0, 9, 9, > FALSE, 'non_aligned_test9'); > insert into root.sg1.d2(time, s2, s3, s4, s5) values(10, 10, 10, TRUE, > 'non_aligned_test10'); > flush; > insert into root.sg1.d1(time, s1, s3, s4, s5) aligned values(3, > 30000.0, 30000, TRUE, 'aligned_unseq_test3'); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(11, 11.0, 11, 11); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(12, 12.0, 12, 12); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(13, 13.0, 13, 13); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(14, 14.0, 14, 14); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(15, 15.0, 15, 15); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(16, 16.0, 16, 16); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(17, 17.0, 17, 17); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(18, 18.0, 18, 18); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(19, 19.0, 19, 19); > insert into root.sg1.d1(time, s1, s2, s3) aligned values(20, 20.0, 20, 20); > insert into root.sg1.d2(time, s1, s2, s3) values(11, 11.0, 11, 11); > insert into root.sg1.d2(time, s1, s2, s3) values(12, 12.0, 12, 12); > insert into root.sg1.d2(time, s1, s2, s3) values(13, 13.0, 13, 13); > insert into root.sg1.d2(time, s1, s2, s3) values(14, 14.0, 14, 14); > insert into root.sg1.d2(time, s1, s2, s3) values(15, 15.0, 15, 15); > insert into root.sg1.d2(time, s1, s2, s3) values(16, 16.0, 16, 16); > insert into root.sg1.d2(time, s1, s2, s3) values(17, 17.0, 17, 17); > insert into root.sg1.d2(time, s1, s2, s3) values(18, 18.0, 18, 18); > insert into root.sg1.d2(time, s1, s2, s3) values(19, 19.0, 19, 19); > insert into root.sg1.d2(time, s1, s2, s3) values(20, 20.0, 20, 20); > flush; > insert into root.sg1.d1(time, s1, s2, s3, s4, s5) aligned values(13, > 130000.0, 130000, 130000, TRUE, 'aligned_unseq_test13'); > insert into root.sg1.d1(time, s3, s4) aligned values(21, 21, TRUE); > insert into root.sg1.d1(time, s3, s4) aligned values(22, 22, TRUE); > insert into root.sg1.d1(time, s3, s4) aligned values(23, 23, TRUE); > insert into root.sg1.d1(time, s3, s4) aligned values(24, 24, TRUE); > insert into root.sg1.d1(time, s3, s4) aligned values(25, 25, TRUE); > insert into root.sg1.d1(time, s3, s4) aligned values(26, 26, FALSE); > insert into root.sg1.d1(time, s3, s4) aligned values(27, 27, FALSE); > insert into root.sg1.d1(time, s3, s4) aligned values(28, 28, FALSE); > insert into root.sg1.d1(time, s3, s4) aligned values(29, 29, FALSE); > insert into root.sg1.d1(time, s3, s4) aligned values(30, 30, FALSE); > insert into root.sg1.d2(time, s3, s4) values(21, 21, TRUE); > insert into root.sg1.d2(time, s3, s4) values(22, 22, TRUE); > insert into root.sg1.d2(time, s3, s4) values(23, 23, TRUE); > insert into root.sg1.d2(time, s3, s4) values(24, 24, TRUE); > insert into root.sg1.d2(time, s3, s4) values(25, 25, TRUE); > insert into root.sg1.d2(time, s3, s4) values(26, 26, FALSE); > insert into root.sg1.d2(time, s3, s4) values(27, 27, FALSE); > insert into root.sg1.d2(time, s3, s4) values(28, 28, FALSE); > insert into root.sg1.d2(time, s3, s4) values(29, 29, FALSE); > insert into root.sg1.d2(time, s3, s4) values(30, 30, FALSE); > flush; > insert into root.sg1.d1(time, s1, s3, s4) aligned values(23, 230000.0, > 230000, FALSE); > insert into root.sg1.d1(time, s2, s5) aligned values(31, 31, > 'aligned_test31'); > insert into root.sg1.d1(time, s2, s5) aligned values(32, 32, > 'aligned_test32'); > insert into root.sg1.d1(time, s2, s5) aligned values(33, 33, > 'aligned_test33'); > insert into root.sg1.d1(time, s2, s5) aligned values(34, 34, > 'aligned_test34'); > insert into root.sg1.d1(time, s2, s5) aligned values(35, 35, > 'aligned_test35'); > insert into root.sg1.d1(time, s2, s5) aligned values(36, 36, > 'aligned_test36'); > insert into root.sg1.d1(time, s2, s5) aligned values(37, 37, > 'aligned_test37'); > insert into root.sg1.d1(time, s2, s5) aligned values(38, 38, > 'aligned_test38'); > insert into root.sg1.d1(time, s2, s5) aligned values(39, 39, > 'aligned_test39'); > insert into root.sg1.d1(time, s2, s5) aligned values(40, 40, > 'aligned_test40'); > insert into root.sg1.d2(time, s2, s5) values(31, 31, 'non_aligned_test31'); > insert into root.sg1.d2(time, s2, s5) values(32, 32, 'non_aligned_test32'); > insert into root.sg1.d2(time, s2, s5) values(33, 33, 'non_aligned_test33'); > insert into root.sg1.d2(time, s2, s5) values(34, 34, 'non_aligned_test34'); > insert into root.sg1.d2(time, s2, s5) values(35, 35, 'non_aligned_test35'); > insert into root.sg1.d2(time, s2, s5) values(36, 36, 'non_aligned_test36'); > insert into root.sg1.d2(time, s2, s5) values(37, 37, 'non_aligned_test37'); > insert into root.sg1.d2(time, s2, s5) values(38, 38, 'non_aligned_test38'); > insert into root.sg1.d2(time, s2, s5) values(39, 39, 'non_aligned_test39'); > insert into root.sg1.d2(time, s2, s5) values(40, 40, 'non_aligned_test40'); > > select * from root; > select last * from root.sg1.*; > select * from root.sg1.d1 where time >= 9 and time <= 33 and s1 < 19 > align by device; > select max_value(s3), min_value(s1), max_time(s2), min_time(s3) from > root.sg1.d1 where time > 5 GROUP BY ([1, 41), 10ms) order by time > desc; > > > Best, > ——————— > Yuan Tian > > On Wed, Sep 7, 2022 at 11:49 AM Haonan Hou <[email protected]> wrote: > > > > Hi all, > > > > Apache IoTDB 0.14.0-preview2 version only contains the new cluster version. > > > > Apache IoTDB 0.14.0-preview2 has been staged under [2] and it’s time to vote > > on accepting it for release. All Maven artifacts are available under [1]. > > Voting will be open for 72hr. > > A minimum of 3 binding +1 votes and more binding +1 than binding -1 > > are required to pass. > > > > Release tag: v0.14.0-preview2 > > Hash for the release tag: 17c64784a866f583b59d4e583670233b70f0e291 > > > > Before voting +1, PMC members are required to download > > the signed source code package, compile it as provided, and test > > the resulting executable on their own platform, along with also > > verifying that the package meets the requirements of the ASF policy > > on releases. [3] > > > > You can achieve the above by following [4]. > > > > [ ] +1 accept (indicate what you validated - e.g. performed the non-RM > > items in [4]) > > [ ] -1 reject (explanation required) > > > > > > [1] https://repository.apache.org/content/repositories/orgapacheiotdb-1086 > > [2] https://dist.apache.org/repos/dist/dev/iotdb/0.14.0-preview2/rc2 > > [3] https://www.apache.org/dev/release.html#approving-a-release > > [4] > > https://cwiki.apache.org/confluence/display/IOTDB/Validating+a+staged+Release > > > > [5] > > https://dist.apache.org/repos/dist/dev/iotdb/0.14.0-preview2/rc2/RELEASE_NOTES.md > > > > [6] https://dist.apache.org/repos/dist/dev/iotdb/KEYS > > > > Best, > > > > Haonan Hou > > Apache IoTDB PMC
