[21:33:31.927](0.067s) # testing using transfer mode --copy # Checking port 52739 # Found port 52739 Name: old_node Data directory: C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata Backup directory: C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/backup Archive directory: C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/archives Connection string: port=52739 host=C:/Windows/TEMP/NFel9NSz1i Log file: C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\log/002_pg_upgrade_old_node.log [21:33:31.983](0.056s) # initializing database system by running initdb # Running: initdb -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -A trust -N --wal-segsize 1 --allow-group-access --encoding UTF-8 --locale C The files belonging to this database system will be owned by user "SYSTEM". This user must also own the server process. The database cluster will be initialized with locale "C". The default text search configuration will be set to "english". Data page checksums are disabled. creating directory C:/cirrus/build/testrun/pg_upgrade/002_pg_upgrade/data/t_002_pg_upgrade_old_node_data/pgdata ... ok creating subdirectories ... ok selecting dynamic shared memory implementation ... windows selecting default max_connections ... 100 selecting default shared_buffers ... 128MB selecting default time zone ... Atlantic/Reykjavik creating configuration files ... ok running bootstrap script ... ok performing post-bootstrap initialization ... ok Sync to disk skipped. The data directory might become corrupt if the operating system crashes. Success. You can now start the database server using: pg_ctl -D ^"C^:^\cirrus^\build^/testrun^/pg^_upgrade^/002^_pg^_upgrade^\data^/t^_002^_pg^_upgrade^_old^_node^_data^/pgdata^" -l logfile start # Running: C:\cirrus\build\src/test\regress\pg_regress.exe --config-auth C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata ### Starting node "old_node" # Running: pg_ctl -w -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -l C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\log/002_pg_upgrade_old_node.log -o --cluster-name=old_node start waiting for server to start.... done server started # Postmaster PID for node "old_node" is 3792 [21:33:37.237](5.255s) ok 1 - check locales in original cluster # Running: createdb regression\"\  !"#$%&'()*+,-\\"\\\ [21:33:37.683](0.446s) ok 2 - created database with ASCII characters from 1 to 45 # Running: createdb regression./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ [21:33:38.449](0.766s) ok 3 - created database with ASCII characters from 46 to 90 # Running: createdb regression[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ [21:33:38.883](0.434s) ok 4 - created database with ASCII characters from 91 to 127 [21:33:38.886](0.003s) # running regression tests in old instance # using postmaster on C:/Windows/TEMP/NFel9NSz1i, port 52739 ok 1 - test_setup 589 ms # parallel group (20 tests): float8 char boolean name oid txid int4 float4 pg_lsn uuid enum money text int8 regproc bit varchar int2 rangetypes numeric ok 2 + boolean 702 ms ok 3 + char 643 ms ok 4 + name 700 ms ok 5 + varchar 961 ms ok 6 + text 928 ms ok 7 + int2 982 ms ok 8 + int4 752 ms ok 9 + int8 924 ms ok 10 + oid 691 ms ok 11 + float4 841 ms ok 12 + float8 593 ms ok 13 + bit 936 ms ok 14 + numeric 1480 ms ok 15 + txid 742 ms ok 16 + uuid 868 ms ok 17 + enum 912 ms ok 18 + money 911 ms ok 19 + rangetypes 1355 ms ok 20 + pg_lsn 828 ms ok 21 + regproc 924 ms # parallel group (20 tests): timetz lseg line md5 inet numerology point macaddr circle date path time interval macaddr8 multirangetypes strings timestamp polygon box timestamptz ok 22 + strings 981 ms ok 23 + md5 694 ms ok 24 + numerology 790 ms ok 25 + point 788 ms ok 26 + lseg 623 ms ok 27 + line 621 ms ok 28 + box 1225 ms ok 29 + path 791 ms ok 30 + polygon 1160 ms ok 31 + circle 779 ms ok 32 + date 778 ms ok 33 + time 816 ms ok 34 + timetz 610 ms ok 35 + timestamp 981 ms ok 36 + timestamptz 1214 ms ok 37 + interval 809 ms ok 38 + inet 768 ms ok 39 + macaddr 767 ms ok 40 + macaddr8 850 ms ok 41 + multirangetypes 869 ms # parallel group (12 tests): tstypes unicode mvcc geometry expressions comments regex xid opr_sanity misc_sanity horology type_sanity ok 42 + geometry 756 ms ok 43 + horology 963 ms ok 44 + tstypes 633 ms ok 45 + regex 889 ms ok 46 + type_sanity 959 ms ok 47 + opr_sanity 934 ms ok 48 + misc_sanity 939 ms ok 49 + comments 825 ms ok 50 + expressions 823 ms ok 51 + unicode 693 ms ok 52 + xid 927 ms ok 53 + mvcc 690 ms # parallel group (5 tests): copydml copyselect copy insert_conflict insert ok 54 + copy 497 ms ok 55 + copyselect 496 ms ok 56 + copydml 456 ms ok 57 + insert 984 ms ok 58 + insert_conflict 662 ms # parallel group (7 tests): create_function_c create_procedure create_schema create_operator create_misc create_type create_table ok 59 + create_function_c 606 ms ok 60 + create_misc 888 ms ok 61 + create_operator 712 ms ok 62 + create_procedure 630 ms ok 63 + create_table 1370 ms ok 64 + create_type 904 ms ok 65 + create_schema 626 ms # parallel group (5 tests): index_including create_index_spgist create_view index_including_gist create_index ok 66 + create_index 2133 ms ok 67 + create_index_spgist 1084 ms ok 68 + create_view 1131 ms ok 69 + index_including 906 ms ok 70 + index_including_gist 1290 ms # parallel group (16 tests): create_function_sql drop_if_exists select errors roleattributes create_cast hash_func create_aggregate infinite_recurse create_am typed_table constraints updatable_views vacuum inherit triggers ok 71 + create_aggregate 1282 ms ok 72 + create_function_sql 987 ms ok 73 + create_cast 1194 ms ok 74 + constraints 1636 ms ok 75 + triggers 2626 ms ok 76 + select 996 ms ok 77 + inherit 2622 ms ok 78 + typed_table 1364 ms ok 79 + vacuum 2205 ms ok 80 + drop_if_exists 976 ms ok 81 + updatable_views 2156 ms ok 82 + roleattributes 1181 ms ok 83 + create_am 1265 ms ok 84 + hash_func 1263 ms ok 85 + errors 1042 ms ok 86 + infinite_recurse 1261 ms ok 87 - sanity_check 540 ms # parallel group (20 tests): random select_into portals subselect select_distinct_on select_implicit namespace select_having delete union case arrays select_distinct prepared_xacts transactions join hash_index update aggregates btree_index ok 88 + select_into 1053 ms ok 89 + select_distinct 1578 ms ok 90 + select_distinct_on 1182 ms ok 91 + select_implicit 1187 ms ok 92 + select_having 1186 ms ok 93 + subselect 1178 ms ok 94 + union 1310 ms ok 95 + case 1569 ms ok 96 + join 2182 ms ok 97 + aggregates 2808 ms ok 98 + transactions 1697 ms ok 99 + random 1037 ms ok 100 + portals 1036 ms ok 101 + arrays 1560 ms ok 102 + btree_index 5895 ms ok 103 + hash_index 2347 ms ok 104 + update 2391 ms ok 105 + delete 1166 ms ok 106 + namespace 1165 ms ok 107 + prepared_xacts 1551 ms # parallel group (20 tests): collate drop_operator init_privs object_address tablesample security_label spgist replica_identity password groupingsets lock matview gin identity rowsecurity generated gist brin join_hash privileges ok 108 + brin 9757 ms ok 109 + gin 2974 ms ok 110 + gist 3748 ms ok 111 + spgist 2727 ms ok 112 + privileges 11128 ms ok 113 + init_privs 2539 ms ok 114 + security_label 2723 ms ok 115 + collate 2347 ms ok 116 + matview 2824 ms ok 117 + lock 2813 ms ok 118 + replica_identity 2717 ms ok 119 + rowsecurity 3669 ms ok 120 + object_address 2528 ms ok 121 + tablesample 2526 ms ok 122 + groupingsets 2805 ms ok 123 + drop_operator 2523 ms ok 124 + password 2708 ms ok 125 + identity 3371 ms ok 126 + generated 3658 ms ok 127 + join_hash 9729 ms # parallel group (2 tests): brin_bloom brin_multi ok 128 + brin_bloom 277 ms ok 129 + brin_multi 1993 ms # parallel group (17 tests): tidscan tidrangescan alter_generic alter_operator async misc dbsize collate.icu.utf8 create_role without_overlaps tid merge tsrf incremental_sort misc_functions sysviews create_table_like ok 130 + create_table_like 1509 ms ok 131 + alter_generic 1152 ms ok 132 + alter_operator 1150 ms ok 133 + misc 1194 ms ok 134 + async 1147 ms ok 135 + dbsize 1270 ms ok 136 + merge 1321 ms ok 137 + misc_functions 1327 ms ok 138 + sysviews 1326 ms ok 139 + tsrf 1322 ms ok 140 + tid 1306 ms ok 141 + tidscan 1084 ms ok 142 + tidrangescan 1135 ms ok 143 + collate.icu.utf8 1259 ms ok 144 + incremental_sort 1315 ms ok 145 + create_role 1298 ms ok 146 + without_overlaps 1296 ms # parallel group (7 tests): amutils psql_crosstab collate.windows.win1252 collate.linux.utf8 rules psql stats_ext ok 147 + rules 1256 ms ok 148 + psql 1343 ms ok 149 + psql_crosstab 443 ms ok 150 + amutils 384 ms ok 151 + stats_ext 2712 ms ok 152 + collate.linux.utf8 645 ms ok 153 + collate.windows.win1252 437 ms not ok 154 - select_parallel 6073 ms ok 155 - write_parallel 2295 ms ok 156 - vacuum_parallel 516 ms # parallel group (2 tests): subscription publication ok 157 + publication 1364 ms ok 158 + subscription 271 ms # parallel group (17 tests): guc functional_deps advisory_lock dependency combocid equivclass select_views xmlmap cluster tsdicts portals_p2 foreign_data window indirect_toast tsearch bitmapops foreign_key ok 159 + select_views 2095 ms ok 160 + portals_p2 2121 ms ok 161 + foreign_key 3315 ms ok 162 + cluster 2098 ms ok 163 + dependency 1642 ms ok 164 + guc 1146 ms ok 165 + bitmapops 2176 ms ok 166 + combocid 2042 ms ok 167 + tsearch 2157 ms ok 168 + tsdicts 2093 ms ok 169 + foreign_data 2107 ms ok 170 + window 2109 ms ok 171 + xmlmap 2084 ms ok 172 + functional_deps 1507 ms ok 173 + advisory_lock 1505 ms ok 174 + indirect_toast 2103 ms ok 175 + equivclass 2071 ms # parallel group (7 tests): sqljson jsonpath_encoding json_encoding jsonpath json jsonb_jsonpath jsonb ok 176 + json 860 ms ok 177 + jsonb 1254 ms ok 178 + json_encoding 418 ms ok 179 + jsonpath 464 ms ok 180 + jsonpath_encoding 394 ms ok 181 + jsonb_jsonpath 852 ms ok 182 + sqljson 376 ms # parallel group (18 tests): plancache limit prepare conversion returning xml rangefuncs rowtypes polymorphism truncate copy2 with largeobject sequence domain temp plpgsql alter_table ok 183 + plancache 812 ms ok 184 + limit 810 ms ok 185 + plpgsql 3149 ms ok 186 + copy2 2239 ms ok 187 + temp 2402 ms ok 188 + domain 2361 ms ok 189 + rangefuncs 1593 ms ok 190 + prepare 800 ms ok 191 + conversion 1235 ms ok 192 + truncate 1716 ms ok 193 + alter_table 5772 ms ok 194 + sequence 2348 ms ok 195 + polymorphism 1711 ms ok 196 + rowtypes 1707 ms ok 197 + returning 1228 ms ok 198 + largeobject 2296 ms ok 199 + with 2215 ms ok 200 + xml 1223 ms # parallel group (13 tests): predicate partition_info reloptions compression hash_part explain memoize partition_join indexing tuplesort stats partition_aggregate partition_prune ok 201 + partition_join 2443 ms ok 202 + partition_prune 5232 ms ok 203 + reloptions 664 ms ok 204 + hash_part 1547 ms ok 205 + indexing 2648 ms ok 206 + partition_aggregate 3620 ms ok 207 + partition_info 658 ms ok 208 + tuplesort 3100 ms ok 209 + explain 1540 ms ok 210 + compression 655 ms ok 211 + memoize 1586 ms ok 212 + stats 3425 ms ok 213 + predicate 649 ms # parallel group (2 tests): oidjoins event_trigger ok 214 + oidjoins 601 ms ok 215 + event_trigger 630 ms ok 216 - event_trigger_login 303 ms ok 217 - fast_default 500 ms ok 218 - tablespace 1194 ms 1..218 # 1 of 218 tests failed. # The differences that caused some tests to fail can be viewed in the file "C:/cirrus/build/testrun/pg_upgrade/002_pg_upgrade/data/regression.diffs". # A copy of the test summary that you see above is saved in the file "C:/cirrus/build/testrun/pg_upgrade/002_pg_upgrade/data/regression.out". === dumping C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/regression.diffs === diff -w -U3 C:/cirrus/src/test/regress/expected/select_parallel.out C:/cirrus/build/testrun/pg_upgrade/002_pg_upgrade/data/results/select_parallel.out --- C:/cirrus/src/test/regress/expected/select_parallel.out 2024-03-06 21:31:34.199011000 +0000 +++ C:/cirrus/build/testrun/pg_upgrade/002_pg_upgrade/data/results/select_parallel.out 2024-03-06 21:34:45.184504400 +0000 @@ -452,25 +452,35 @@ where tenk1.four = t.four ); QUERY PLAN ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- - Seq Scan on public.tenk1 t +------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- + Hash Join Output: t.unique1, t.unique2, t.two, t.four, t.ten, t.twenty, t.hundred, t.thousand, t.twothousand, t.fivethous, t.tenthous, t.odd, t.even, t.stringu1, t.stringu2, t.string4 - Filter: (SubPlan 1) - SubPlan 1 - -> Hash Join - Output: t.two - Hash Cond: (tenk1.stringu1 = t3.stringu1) - -> Seq Scan on public.tenk1 - Output: tenk1.unique1, tenk1.unique2, tenk1.two, tenk1.four, tenk1.ten, tenk1.twenty, tenk1.hundred, tenk1.thousand, tenk1.twothousand, tenk1.fivethous, tenk1.tenthous, tenk1.odd, tenk1.even, tenk1.stringu1, tenk1.stringu2, tenk1.string4 - Filter: (tenk1.four = t.four) + Inner Unique: true + Hash Cond: (t.four = tenk1.four) + -> Gather + Output: t.unique1, t.unique2, t.two, t.four, t.ten, t.twenty, t.hundred, t.thousand, t.twothousand, t.fivethous, t.tenthous, t.odd, t.even, t.stringu1, t.stringu2, t.string4 + Workers Planned: 4 + -> Parallel Seq Scan on public.tenk1 t + Output: t.unique1, t.unique2, t.two, t.four, t.ten, t.twenty, t.hundred, t.thousand, t.twothousand, t.fivethous, t.tenthous, t.odd, t.even, t.stringu1, t.stringu2, t.string4 + Filter: (t.two IS NOT NULL) -> Hash - Output: t3.stringu1 + Output: tenk1.four + -> HashAggregate + Output: tenk1.four + Group Key: tenk1.four -> Gather - Output: t3.stringu1 + Output: tenk1.four Workers Planned: 4 + -> Parallel Hash Join + Output: tenk1.four + Hash Cond: (tenk1.stringu1 = t3.stringu1) + -> Parallel Seq Scan on public.tenk1 + Output: tenk1.unique1, tenk1.unique2, tenk1.two, tenk1.four, tenk1.ten, tenk1.twenty, tenk1.hundred, tenk1.thousand, tenk1.twothousand, tenk1.fivethous, tenk1.tenthous, tenk1.odd, tenk1.even, tenk1.stringu1, tenk1.stringu2, tenk1.string4 + -> Parallel Hash + Output: t3.stringu1 -> Parallel Seq Scan on public.tenk1 t3 Output: t3.stringu1 -(17 rows) +(27 rows) -- this is not parallel-safe due to use of random() within SubLink's testexpr: explain (costs off) === EOF === [21:35:18.859](99.973s) not ok 5 - regression tests pass [21:35:18.859](0.000s) # Failed test 'regression tests pass' # at C:/cirrus/src/bin/pg_upgrade/t/002_pg_upgrade.pl line 212. [21:35:18.860](0.001s) # got: '256' # expected: '0' # Checking port 52740 # Found port 52740 Name: new_node Data directory: C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata Backup directory: C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/backup Archive directory: C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/archives Connection string: port=52740 host=C:/Windows/TEMP/NFel9NSz1i Log file: C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\log/002_pg_upgrade_new_node.log [21:35:18.876](0.016s) # initializing database system by running initdb # Running: initdb -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata -A trust -N --wal-segsize 1 --allow-group-access --encoding SQL_ASCII --locale-provider libc The files belonging to this database system will be owned by user "SYSTEM". This user must also own the server process. The database cluster will be initialized with locale "English_United States.1252". The default text search configuration will be set to "english". Data page checksums are disabled. creating directory C:/cirrus/build/testrun/pg_upgrade/002_pg_upgrade/data/t_002_pg_upgrade_new_node_data/pgdata ... ok creating subdirectories ... ok selecting dynamic shared memory implementation ... windows selecting default max_connections ... 100 selecting default shared_buffers ... 128MB selecting default time zone ... Atlantic/Reykjavik creating configuration files ... ok running bootstrap script ... ok performing post-bootstrap initialization ... ok Sync to disk skipped. The data directory might become corrupt if the operating system crashes. Success. You can now start the database server using: pg_ctl -D ^"C^:^\cirrus^\build^/testrun^/pg^_upgrade^/002^_pg^_upgrade^\data^/t^_002^_pg^_upgrade^_new^_node^_data^/pgdata^" -l logfile start # Running: C:\cirrus\build\src/test\regress\pg_regress.exe --config-auth C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata # Running: pg_dumpall --no-sync -d port=52739 host=C:/Windows/TEMP/NFel9NSz1i dbname='postgres' -f C:\cirrus\build\testrun\pg_upgrade\002_pg_upgrade\data\tmp_test_fU_z/dump1.sql [21:35:28.042](9.166s) ok 6 - dump before running pg_upgrade ### Stopping node "old_node" using mode fast # Running: pg_ctl -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -m fast stop waiting for server to shut down.... done server stopped # No postmaster PID for node "old_node" # Running: pg_upgrade --no-sync -d C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata -b C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin/does/not/exist/ -B C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin -s C:/Windows/TEMP/NFel9NSz1i -p 52739 -P 52740 --copy --check check for "C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin/does/not/exist" failed: No such file or directory Failure, exiting [21:35:29.029](0.987s) ok 7 - run of pg_upgrade --check for new instance with incorrect binary path [21:35:29.029](0.000s) ok 8 - pg_upgrade_output.d/ not removed after pg_upgrade failure # Running: pg_upgrade --no-sync -d C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata -b C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin -B C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin -s C:/Windows/TEMP/NFel9NSz1i -p 52739 -P 52740 --copy --check [21:35:31.873](2.844s) ok 9 - invalid database causes failure status (got 1 vs expected 1) [21:35:31.874](0.000s) ok 10 - invalid database causes failure stdout /(?^:invalid)/ [21:35:31.874](0.000s) ok 11 - invalid database causes failure stderr /(?^:)/ ### Starting node "old_node" # Running: pg_ctl -w -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -l C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\log/002_pg_upgrade_old_node.log -o --cluster-name=old_node start waiting for server to start.... done server started # Postmaster PID for node "old_node" is 4056 ### Stopping node "old_node" using mode fast # Running: pg_ctl -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -m fast stop waiting for server to shut down.... done server stopped # No postmaster PID for node "old_node" # Running: pg_upgrade --no-sync -d C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata -b C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin -B C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin -s C:/Windows/TEMP/NFel9NSz1i -p 52739 -P 52740 --copy --check Performing Consistency Checks ----------------------------- Checking cluster versions ok Checking database user is the install user ok Checking database connection settings ok Checking for prepared transactions ok Checking for system-defined composite types in user tables ok Checking for reg* data types in user tables ok Checking for contrib/isn with bigint-passing mismatch ok Checking for valid logical replication slots ok Checking for subscription state ok Checking for presence of required libraries ok Checking database user is the install user ok Checking for prepared transactions ok Checking for new cluster tablespace directories ok *Clusters are compatible* [21:35:40.314](8.440s) ok 12 - run of pg_upgrade --check for new instance [21:35:40.318](0.003s) ok 13 - pg_upgrade_output.d/ removed after pg_upgrade --check success # Running: pg_upgrade --no-sync -d C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_old_node_data/pgdata -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata -b C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin -B C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin -s C:/Windows/TEMP/NFel9NSz1i -p 52739 -P 52740 --copy Performing Consistency Checks ----------------------------- Checking cluster versions ok Checking database user is the install user ok Checking database connection settings ok Checking for prepared transactions ok Checking for system-defined composite types in user tables ok Checking for reg* data types in user tables ok Checking for contrib/isn with bigint-passing mismatch ok Checking for valid logical replication slots ok Checking for subscription state ok Creating dump of global objects ok Creating dump of database schemas ok Checking for presence of required libraries ok Checking database user is the install user ok Checking for prepared transactions ok Checking for new cluster tablespace directories ok If pg_upgrade fails after this point, you must re-initdb the new cluster before continuing. Performing Upgrade ------------------ Setting locale and encoding for new cluster ok Analyzing all rows in the new cluster ok Freezing all rows in the new cluster ok Deleting files from new pg_xact ok Copying old pg_xact to new server ok Setting oldest XID for new cluster ok Setting next transaction ID and epoch for new cluster ok Deleting files from new pg_multixact/offsets ok Copying old pg_multixact/offsets to new server ok Deleting files from new pg_multixact/members ok Copying old pg_multixact/members to new server ok Setting next multixact ID and offset for new cluster ok Resetting WAL archives ok Setting frozenxid and minmxid counters in new cluster ok Restoring global objects in the new cluster ok Restoring database schemas in the new cluster ok Copying user relation files ok Setting next OID for new cluster ok Creating script to delete old cluster ok Checking for extension updates ok Upgrade Complete ---------------- Optimizer statistics are not transferred by pg_upgrade. Once you start the new server, consider running: C:/cirrus/build/TMP_IN~1/usr/local/pgsql/bin/vacuumdb --all --analyze-in-stages Running this script will delete the old cluster's data files: delete_old_cluster.bat [21:36:20.987](40.669s) ok 14 - run of pg_upgrade for new instance [21:36:20.987](0.000s) ok 15 - pg_upgrade_output.d/ removed after pg_upgrade success ### Starting node "new_node" # Running: pg_ctl -w -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata -l C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\log/002_pg_upgrade_new_node.log -o --cluster-name=new_node start waiting for server to start.... done server started # Postmaster PID for node "new_node" is 1584 [21:36:21.753](0.766s) ok 16 - check that locales in new cluster match original cluster # Running: pg_dumpall --no-sync -d port=52740 host=C:/Windows/TEMP/NFel9NSz1i dbname='postgres' -f C:\cirrus\build\testrun\pg_upgrade\002_pg_upgrade\data\tmp_test_fU_z/dump2.sql [21:36:26.806](5.053s) ok 17 - dump after running pg_upgrade [21:36:27.175](0.369s) ok 18 - old and new dumps match after pg_upgrade [21:36:27.176](0.001s) 1..18 ### Stopping node "new_node" using mode immediate # Running: pg_ctl -D C:\cirrus\build/testrun/pg_upgrade/002_pg_upgrade\data/t_002_pg_upgrade_new_node_data/pgdata -m immediate stop waiting for server to shut down.... done server stopped # No postmaster PID for node "new_node" [21:36:27.307](0.131s) # Looks like you failed 1 test of 18.