【REGZA HDD修復5】REGZA修復ツールを使った成功例
別のHDDでREGZA修復ツールの成功例が見れたのでメモしておく。
マウントできるような状態の機器では下記のように「(3)修復する録画機器」と「(4)修復する記憶領域」が選択できる状態となる。
これが、前記事などであたっている「見えてはいるがマウントできない」ような機器の場合、「(4)修復する記憶領域」が選択できないような状態となる。
ちなみに正常機器で実行した結果のlogは以下のようなもの。
Phase 1 - find and verify superblock...
- reporting progress in intervals of 15 minutes
- block cache size set to 330256 entries
Phase 2 - using internal log
- zero log...
zero_log: head block 785 tail block 785
- scan filesystem freespace and inode maps...
- 09:56:39: scanning filesystem freespace - 32 of 32 allocation groups done
- found root inode chunk
Phase 3 - for each AG...
- scan and clear agi unlinked lists...
- 09:56:39: scanning agi unlinked lists - 32 of 32 allocation groups done
- process known inodes and perform inode discovery...
- agno = 0
- agno = 15
- agno = 16
- agno = 17
- agno = 18
- agno = 19
- agno = 20
- agno = 21
- agno = 22
- agno = 23
- agno = 24
- agno = 25
- agno = 26
- agno = 27
- agno = 28
- agno = 29
- agno = 30
- agno = 31
- agno = 1
- agno = 2
- agno = 3
- agno = 4
- agno = 5
- agno = 6
- agno = 7
- agno = 8
- agno = 9
- agno = 10
- agno = 11
- agno = 12
- agno = 13
- agno = 14
- 09:56:39: process known inodes and inode discovery - 192 of 192 inodes done
- process newly discovered inodes...
- 09:56:39: process newly discovered inodes - 32 of 32 allocation groups done
Phase 4 - check for duplicate blocks...
- setting up duplicate extent list...
- 09:56:39: setting up duplicate extent list - 32 of 32 allocation groups done
- check for inodes claiming duplicate blocks...
- agno = 0
- agno = 1
- agno = 2
- agno = 3
- agno = 4
- agno = 5
- agno = 6
- agno = 7
- agno = 8
- agno = 9
- agno = 10
- agno = 11
- agno = 12
- agno = 13
- agno = 14
- agno = 15
- agno = 16
- agno = 17
- agno = 18
- agno = 19
- agno = 20
- agno = 21
- agno = 22
- agno = 23
- agno = 24
- agno = 25
- agno = 26
- agno = 27
- agno = 28
- agno = 29
- agno = 30
- agno = 31
- 09:56:39: check for inodes claiming duplicate blocks - 192 of 192 inodes done
Phase 5 - rebuild AG headers and trees...
- agno = 0
- agno = 1
- agno = 2
- agno = 3
- agno = 4
- agno = 5
- agno = 6
- agno = 7
- agno = 8
- agno = 9
- agno = 10
- agno = 11
- agno = 12
- agno = 13
- agno = 14
- agno = 15
- agno = 16
- agno = 17
- agno = 18
- agno = 19
- agno = 20
- agno = 21
- agno = 22
- agno = 23
- agno = 24
- agno = 25
- agno = 26
- agno = 27
- agno = 28
- agno = 29
- agno = 30
- agno = 31
- 09:56:39: rebuild AG headers and trees - 32 of 32 allocation groups done
- reset superblock...
Phase 6 - check inode connectivity...
- resetting contents of realtime bitmap and summary inodes
- traversing filesystem ...
- agno = 0
- agno = 1
- agno = 2
- agno = 3
- agno = 4
- agno = 5
- agno = 6
- agno = 7
- agno = 8
- agno = 9
- agno = 10
- agno = 11
- agno = 12
- agno = 13
- agno = 14
- agno = 15
- agno = 16
- agno = 17
- agno = 18
- agno = 19
- agno = 20
- agno = 21
- agno = 22
- agno = 23
- agno = 24
- agno = 25
- agno = 26
- agno = 27
- agno = 28
- agno = 29
- agno = 30
- agno = 31
- traversal finished ...
- moving disconnected inodes to lost+found ...
Phase 7 - verify and correct link counts...
- 09:56:39: verify and correct link counts - 32 of 32 allocation groups doneXFS_REPAIR Summary Sat Feb 5 09:56:40 2022
Phase Start End Duration
Phase 1: 02/05 09:56:35 02/05 09:56:36 1 second
Phase 2: 02/05 09:56:36 02/05 09:56:39 3 seconds
Phase 3: 02/05 09:56:39 02/05 09:56:39
Phase 4: 02/05 09:56:39 02/05 09:56:39
Phase 5: 02/05 09:56:39 02/05 09:56:39
Phase 6: 02/05 09:56:39 02/05 09:56:39
Phase 7: 02/05 09:56:39 02/05 09:56:39Total run time: 4 seconds
done
DO_REPAIR_SUCCESS
久々にいい結果をみて希望がもてた。
