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+The following document explains the usage of volume heal info and split-brain
+resolution commands.
+
+##`gluster volume heal <VOLNAME> info [split-brain]` commands
+###volume heal info
+Usage: `gluster volume heal <VOLNAME> info`
+
+This lists all the files that need healing (either their path or
+GFID is printed).
+###Interpretting the output
+All the files that are listed in the output of this command need healing to be
+done. Apart from this, there are 2 special cases that may be associated with
+an entry -
+a) Is in split-brain
+&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; A file in data/metadata split-brain will
+be listed with " - Is in split-brain" appended after its path/gfid. Eg.,
+"/file4" in the output provided below. But for a gfid split-brain,
+ the parent directory of the file is shown to be in split-brain and the file
+itself is shown to be needing heal. Eg., "/dir" in the output provided below
+which is in split-brain because of gfid split-brain of file "/dir/a".
+b) Is possibly undergoing heal
+&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; A file is said to be possibly undergoing
+ heal because it is possible that the file was undergoing heal when heal status
+was being determined but it cannot be said for sure. It could so have happened
+that self-heal daemon and glfsheal process that is trying to get heal information
+are competing for the same lock leading to such conclusion. Another possible case
+ could be multiple glfsheal processes running simultaneously (e.g., multiple users
+ ran heal info command at the same time), competing for same lock.
+
+The following is an example of heal info command's output.
+###Example
+Consider a replica volume "test" with 2 bricks b1 and b2;
+self-heal daemon off, mounted at /mnt.
+
+`gluster volume heal test info`
+~~~
+Brick \<hostname:brickpath-b1>
+<gfid:aaca219f-0e25-4576-8689-3bfd93ca70c2> - Is in split-brain
+<gfid:39f301ae-4038-48c2-a889-7dac143e82dd> - Is in split-brain
+<gfid:c3c94de2-232d-4083-b534-5da17fc476ac> - Is in split-brain
+<gfid:6dc78b20-7eb6-49a3-8edb-087b90142246>
+
+Number of entries: 4
+
+Brick <hostname:brickpath-b2>
+/dir/file2
+/dir/file1 - Is in split-brain
+/dir - Is in split-brain
+/dir/file3
+/file4 - Is in split-brain
+/dir/a
+
+
+Number of entries: 6
+~~~
+
+###Analysis of the output
+It can be seen that
+A) from brick b1 4 entries need healing:
+&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1) file with gfid:6dc78b20-7eb6-49a3-8edb-087b90142246 needs healing
+&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2) "aaca219f-0e25-4576-8689-3bfd93ca70c2",
+"39f301ae-4038-48c2-a889-7dac143e82dd" and "c3c94de2-232d-4083-b534-5da17fc476ac"
+ are in split-brain
+
+B) from brick b2 6 entries need healing-
+&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;1) "a", "file2" and "file3" need healing
+&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;2) "file1", "file4" & "/dir" are in split-brain
+
+###volume heal info split-brain
+Usage: `gluster volume heal <VOLNAME> info split-brain`
+This command shows all the files that are in split-brain.
+##Example
+`gluster volume heal test info split-brain`
+~~~
+Brick <hostname:brickpath-b1>
+<gfid:aaca219f-0e25-4576-8689-3bfd93ca70c2>
+<gfid:39f301ae-4038-48c2-a889-7dac143e82dd>
+<gfid:c3c94de2-232d-4083-b534-5da17fc476ac>
+Number of entries in split-brain: 3
+
+Brick <hostname:brickpath-b2>
+/dir/file1
+/dir
+/file4
+Number of entries in split-brain: 3
+~~~
+Note that, similar to heal info command, for gfid split-brains (same filename but different gfid)
+their parent directories are listed to be in split-brain.
+
+##Resolution of split-brain using CLI
+Once the files in split-brain are identified, their resolution can be done
+from the command line. Note that entry/gfid split-brain resolution is not supported.
+Split-brain resolution commands let the user resolve split-brain in 3 ways.
+###Select the bigger-file as source
+This command is useful for per file healing where it is known/decided that the
+file with bigger size is to be considered as source.
+1.`gluster volume heal <VOLNAME> split-brain bigger-file <FILE>`
+`<FILE>` can be either the full file name as seen from the root of the volume
+(or) the gfid-string representation of the file, which sometimes gets displayed
+in the heal info command's output.
+Once this command is executed, the replica containing the FILE with bigger
+size is found out and heal is completed with it as source.
+
+###Example :
+Consider the above output of heal info split-brain command.
+
+Before healing the file, notice file size and md5 checksums :
+~~~
+On brick b1:
+# stat b1/dir/file1
+ File: ‘b1/dir/file1’
+ Size: 17 Blocks: 16 IO Block: 4096 regular file
+Device: fd03h/64771d Inode: 919362 Links: 2
+Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root)
+Access: 2015-03-06 13:55:40.149897333 +0530
+Modify: 2015-03-06 13:55:37.206880347 +0530
+Change: 2015-03-06 13:55:37.206880347 +0530
+ Birth: -
+
+# md5sum b1/dir/file1
+040751929ceabf77c3c0b3b662f341a8 b1/dir/file1
+
+On brick b2:
+# stat b2/dir/file1
+ File: ‘b2/dir/file1’
+ Size: 13 Blocks: 16 IO Block: 4096 regular file
+Device: fd03h/64771d Inode: 919365 Links: 2
+Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root)
+Access: 2015-03-06 13:54:22.974451898 +0530
+Modify: 2015-03-06 13:52:22.910758923 +0530
+Change: 2015-03-06 13:52:22.910758923 +0530
+ Birth: -
+# md5sum b2/dir/file1
+cb11635a45d45668a403145059c2a0d5 b2/dir/file1
+~~~
+Healing file1 using the above command -
+`gluster volume heal test split-brain bigger-file /dir/file1`
+Healed /dir/file1.
+
+After healing is complete, the md5sum and file size on both bricks should be the same.
+~~~
+On brick b1:
+# stat b1/dir/file1
+ File: ‘b1/dir/file1’
+ Size: 17 Blocks: 16 IO Block: 4096 regular file
+Device: fd03h/64771d Inode: 919362 Links: 2
+Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root)
+Access: 2015-03-06 14:17:27.752429505 +0530
+Modify: 2015-03-06 13:55:37.206880347 +0530
+Change: 2015-03-06 14:17:12.880343950 +0530
+ Birth: -
+# md5sum b1/dir/file1
+040751929ceabf77c3c0b3b662f341a8 b1/dir/file1
+
+On brick b2:
+# stat b2/dir/file1
+ File: ‘b2/dir/file1’
+ Size: 17 Blocks: 16 IO Block: 4096 regular file
+Device: fd03h/64771d Inode: 919365 Links: 2
+Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root)
+Access: 2015-03-06 14:17:23.249403600 +0530
+Modify: 2015-03-06 13:55:37.206880000 +0530
+Change: 2015-03-06 14:17:12.881343955 +0530
+ Birth: -
+
+# md5sum b2/dir/file1
+040751929ceabf77c3c0b3b662f341a8 b2/dir/file1
+~~~
+###Select one replica as source for a particular file
+2.`gluster volume heal <VOLNAME> split-brain source-brick <HOSTNAME:BRICKNAME> <FILE>`
+`<HOSTNAME:BRICKNAME>` is selected as source brick,
+FILE present in the source brick is taken as source for healing.
+
+###Example :
+Notice the md5 checksums and file size before and after heal.
+
+Before heal :
+~~~
+On brick b1:
+
+ stat b1/file4
+ File: ‘b1/file4’
+ Size: 4 Blocks: 16 IO Block: 4096 regular file
+Device: fd03h/64771d Inode: 919356 Links: 2
+Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root)
+Access: 2015-03-06 13:53:19.417085062 +0530
+Modify: 2015-03-06 13:53:19.426085114 +0530
+Change: 2015-03-06 13:53:19.426085114 +0530
+ Birth: -
+# md5sum b1/file4
+b6273b589df2dfdbd8fe35b1011e3183 b1/file4
+
+On brick b2:
+
+# stat b2/file4
+ File: ‘b2/file4’
+ Size: 4 Blocks: 16 IO Block: 4096 regular file
+Device: fd03h/64771d Inode: 919358 Links: 2
+Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root)
+Access: 2015-03-06 13:52:35.761833096 +0530
+Modify: 2015-03-06 13:52:35.769833142 +0530
+Change: 2015-03-06 13:52:35.769833142 +0530
+ Birth: -
+# md5sum b2/file4
+0bee89b07a248e27c83fc3d5951213c1 b2/file4
+~~~
+`gluster volume heal test split-brain source-brick test-host:/test/b1 gfid:c3c94de2-232d-4083-b534-5da17fc476ac`
+Healed gfid:c3c94de2-232d-4083-b534-5da17fc476ac.
+
+After healing :
+~~~
+On brick b1:
+# stat b1/file4
+ File: ‘b1/file4’
+ Size: 4 Blocks: 16 IO Block: 4096 regular file
+Device: fd03h/64771d Inode: 919356 Links: 2
+Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root)
+Access: 2015-03-06 14:23:38.944609863 +0530
+Modify: 2015-03-06 13:53:19.426085114 +0530
+Change: 2015-03-06 14:27:15.058927962 +0530
+ Birth: -
+# md5sum b1/file4
+b6273b589df2dfdbd8fe35b1011e3183 b1/file4
+
+On brick b2:
+# stat b2/file4
+ File: ‘b2/file4’
+ Size: 4 Blocks: 16 IO Block: 4096 regular file
+Device: fd03h/64771d Inode: 919358 Links: 2
+Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root)
+Access: 2015-03-06 14:23:38.944609000 +0530
+Modify: 2015-03-06 13:53:19.426085000 +0530
+Change: 2015-03-06 14:27:15.059927968 +0530
+ Birth: -
+# md5sum b2/file4
+b6273b589df2dfdbd8fe35b1011e3183 b2/file4
+~~~
+Note that, as mentioned earlier, entry split-brain and gfid split-brain healing
+ are not supported using CLI. However, they can be fixed using the method described
+ [here](https://github.com/gluster/glusterfs/blob/master/doc/debugging/split-brain.md).
+###Example:
+Trying to heal /dir would fail as it is in entry split-brain.
+`gluster volume heal test split-brain source-brick test-host:/test/b1 /dir`
+Healing /dir failed:Operation not permitted.
+Volume heal failed.
+
+3.`gluster volume heal <VOLNAME> split-brain source-brick <HOSTNAME:BRICKNAME>`
+Consider a scenario where many files are in split-brain such that one brick of
+replica pair is source. As the result of the above command all split-brained
+files in `<HOSTNAME:BRICKNAME>` are selected as source and healed to the sink.
+
+###Example:
+Consider a volume having three entries "a, b and c" in split-brain.
+~~~
+`gluster volume heal test split-brain source-brick test-host:/test/b1`
+Healed gfid:944b4764-c253-4f02-b35f-0d0ae2f86c0f.
+Healed gfid:3256d814-961c-4e6e-8df2-3a3143269ced.
+Healed gfid:b23dd8de-af03-4006-a803-96d8bc0df004.
+Number of healed entries: 3
+~~~
+
+## An overview of working of heal info commands
+When these commands are invoked, a "glfsheal" process is spawned which reads
+the entries from `/<brick-path>/.glusterfs/indices/xattrop/` directory of all
+the bricks that are up (that it can connect to) one after another. These
+entries are GFIDs of files that might need healing. Once GFID entries from a
+brick are obtained, based on the lookup response of this file on each
+participating brick of replica-pair & trusted.afr.* extended attributes it is
+found out if the file needs healing, is in split-brain etc based on the
+requirement of each command and displayed to the user.
+
+
+##Resolution of split-brain from the mount point
+A set of getfattr and setfattr commands have been provided to detect the data and metadata split-brain status of a file and resolve split-brain, if any, from mount point.
+
+Consider a volume "test", having bricks b0, b1, b2 and b3.
+
+~~~
+# gluster volume info test
+
+Volume Name: test
+Type: Distributed-Replicate
+Volume ID: 00161935-de9e-4b80-a643-b36693183b61
+Status: Started
+Number of Bricks: 2 x 2 = 4
+Transport-type: tcp
+Bricks:
+Brick1: test-host:/test/b0
+Brick2: test-host:/test/b1
+Brick3: test-host:/test/b2
+Brick4: test-host:/test/b3
+~~~
+
+Directory structure of the bricks is as follows:
+
+~~~
+# tree -R /test/b?
+/test/b0
+├── dir
+│   └── a
+└── file100
+
+/test/b1
+├── dir
+│   └── a
+└── file100
+
+/test/b2
+├── dir
+├── file1
+├── file2
+└── file99
+
+/test/b3
+├── dir
+├── file1
+├── file2
+└── file99
+~~~
+
+Some files in the volume are in split-brain.
+~~~
+# gluster v heal test info split-brain
+Brick test-host:/test/b0/
+/file100
+/dir
+Number of entries in split-brain: 2
+
+Brick test-host:/test/b1/
+/file100
+/dir
+Number of entries in split-brain: 2
+
+Brick test-host:/test/b2/
+/file99
+<gfid:5399a8d1-aee9-4653-bb7f-606df02b3696>
+Number of entries in split-brain: 2
+
+Brick test-host:/test/b3/
+<gfid:05c4b283-af58-48ed-999e-4d706c7b97d5>
+<gfid:5399a8d1-aee9-4653-bb7f-606df02b3696>
+Number of entries in split-brain: 2
+~~~
+###To know data/metadata split-brain status of a file:
+~~~
+getfattr -n replica.split-brain-status <path-to-file>
+~~~
+The above command executed from mount provides information if a file is in data/metadata split-brain. Also provides the list of afr children to analyze to get more information about the file.
+This command is not applicable to gfid/directory split-brain.
+
+###Example:
+1) "file100" is in metadata split-brain. Executing the above mentioned command for file100 gives :
+~~~
+# getfattr -n replica.split-brain-status file100
+# file: file100
+replica.split-brain-status="data-split-brain:no metadata-split-brain:yes Choices:test-client-0,test-client-1"
+~~~
+
+2) "file1" is in data split-brain.
+~~~
+# getfattr -n replica.split-brain-status file1
+# file: file1
+replica.split-brain-status="data-split-brain:yes metadata-split-brain:no Choices:test-client-2,test-client-3"
+~~~
+
+3) "file99" is in both data and metadata split-brain.
+~~~
+# getfattr -n replica.split-brain-status file99
+# file: file99
+replica.split-brain-status="data-split-brain:yes metadata-split-brain:yes Choices:test-client-2,test-client-3"
+~~~
+
+4) "dir" is in directory split-brain but as mentioned earlier, the above command is not applicable to such split-brain. So it says that the file is not under data or metadata split-brain.
+~~~
+# getfattr -n replica.split-brain-status dir
+# file: dir
+replica.split-brain-status="The file is not under data or metadata split-brain"
+~~~
+
+5) "file2" is not in any kind of split-brain.
+~~~
+# getfattr -n replica.split-brain-status file2
+# file: file2
+replica.split-brain-status="The file is not under data or metadata split-brain"
+~~~
+
+### To analyze the files in data and metadata split-brain
+Trying to do operations (say cat, getfattr etc) from the mount on files in split-brain, gives an input/output error. To enable the users analyze such files, a setfattr command is provided.
+
+~~~
+# setfattr -n replica.split-brain-choice -v "choiceX" <path-to-file>
+~~~
+Using this command, a particular brick can be chosen to access the file in split-brain from.
+
+###Example:
+1) "file1" is in data-split-brain. Trying to read from the file gives input/output error.
+~~~
+# cat file1
+cat: file1: Input/output error
+~~~
+Split-brain choices provided for file1 were test-client-2 and test-client-3.
+
+Setting test-client-2 as split-brain choice for file1 serves reads from b2 for the file.
+~~~
+# setfattr -n replica.split-brain-choice -v test-client-2 file1
+~~~
+Now, read operations on the file can be done.
+~~~
+# cat file1
+xyz
+~~~
+Similarly, to inspect the file from other choice, replica.split-brain-choice is to be set to test-client-3.
+
+Trying to inspect the file from a wrong choice errors out.
+
+To undo the split-brain-choice that has been set, the above mentioned setfattr command can be used
+with "none" as the value for extended attribute.
+
+###Example:
+~~~
+1) setfattr -n replica.split-brain-choice -v none file1
+~~~
+Now performing cat operation on the file will again result in input/output error, as before.
+~~~
+# cat file
+cat: file1: Input/output error
+~~~
+
+Once the choice for resolving split-brain is made, source brick is supposed to be set for the healing to be done.
+This is done using the following command:
+
+~~~
+# setfattr -n replica.split-brain-heal-finalize -v <heal-choice> <path-to-file>
+~~~
+
+##Example
+~~~
+# setfattr -n replica.split-brain-heal-finalize -v test-client-2 file1
+~~~
+The above process can be used to resolve data and/or metadata split-brain on all the files.
+
+NOTE:
+1) If "fopen-keep-cache" fuse mount option is disabled then inode needs to be invalidated each time before selecting a new replica.split-brain-choice to inspect a file. This can be done by using:
+~~~
+# sefattr -n inode-invalidate -v 0 <path-to-file>
+~~~
+
+2) The above mentioned process for split-brain resolution from mount will not work on nfs mounts as it doesn't provide xattrs support.