Ceph : performance, reliability and scalability storage solution
Contents
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Software version | 0.72.2 |
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Operating System | Debian 7 |
Website | |
Last Update | 02/06/2014 |
Others |
1 Introduction
Ceph is an open-source, massively scalable, software-defined storage system which provides object, block and file system storage in a single platform. It runs on commodity hardware-saving you costs, giving you flexibility and because it’s in the Linux kernel, it’s easy to consume.
Ceph is able to manage :
- Object Storage : Ceph provides seamless access to objects using native language bindings or radosgw, a REST interface that’s compatible with applications written for S3 and Swift.
- Block Storage : Ceph’s RADOS Block Device (RBD) provides access to block device images that are striped and replicated across the entire storage cluster.
- File System : Ceph provides a POSIX-compliant network file system that aims for high performance, large data storage, and maximum compatibility with legacy applications (not yet stable)
Whether you want to provide Ceph Object Storage and/or Ceph Block Device services to Cloud Platforms, deploy a Ceph Filesystem or use Ceph for another purpose, all Ceph Storage Cluster deployments begin with setting up each Ceph Node, your network and the Ceph Storage Cluster. A Ceph Storage Cluster requires at least one Ceph Monitor and at least two Ceph OSD Daemons. The Ceph Metadata Server is essential when running Ceph Filesystem clients.
- OSDs: A Ceph OSD Daemon (OSD) stores data, handles data replication, recovery, backfilling, rebalancing, and provides some monitoring information to Ceph Monitors by checking other Ceph OSD Daemons for a heartbeat. A Ceph Storage Cluster requires at least two Ceph OSD Daemons to achieve an active + clean state when the cluster makes two copies of your data (Ceph makes 2 copies by default, but you can adjust it).
- Monitors: A Ceph Monitor maintains maps of the cluster state, including the monitor map, the OSD map, the Placement Group (PG) map, and the CRUSH map. Ceph maintains a history (called an “epoch”) of each state change in the Ceph Monitors, Ceph OSD Daemons, and PGs.
- MDSs: A Ceph Metadata Server (MDS) stores metadata on behalf of the Ceph Filesystem (i.e., Ceph Block Devices and Ceph Object Storage do not use MDS). Ceph Metadata Servers make it feasible for POSIX file system users to execute basic commands like ls, find, etc. without placing an enormous burden on the Ceph Storage Cluster.
Ceph stores a client’s data as objects within storage pools. Using the CRUSH algorithm, Ceph calculates which placement group should contain the object, and further calculates which Ceph OSD Daemon should store the placement group. The CRUSH algorithm enables the Ceph Storage Cluster to scale, rebalance, and recover dynamically.
1.1 Testing case
If you want to test with and VirtualBox, I've made a Vagrantfile for it running on Debian Wheezy :
Vagrantfile |
# -*- mode: ruby -*-# vi: set ft=ruby :ENV['LANG'] = 'C' # Vagrantfile API/syntax version. Don't touch unless you know what you're doing! VAGRANTFILE_API_VERSION = "2" # Insert all your Vms with configs boxes = [ { :name => :mon1, :role => 'mon'}, { :name => :mon2, :role => 'mon'}, { :name => :mon3, :role => 'mon'}, { :name => :osd1, :role => 'osd', :ip => '192.168.33.31'}, { :name => :osd2, :role => 'osd', :ip => '192.168.33.32'}, { :name => :osd3, :role => 'osd', :ip => '192.168.33.33'}, ] $install = < |
This will spawn VMs with correct hardware to run. It will also install Ceph as well. After booting those instances, you will have all the Ceph servers like that :
2 Installation
2.1 First node
To get the latest version, we're going to use the official repositories :
wget -q -O- 'https://ceph.com/git/?p=ceph.git;a=blob_plain;f=keys/release.asc' | sudo apt-key add -echo deb http://ceph.com/debian/ $(lsb_release -sc) main | sudo tee /etc/apt/sources.list.d/ceph.list |
Then we're going to install Ceph and ceph-deploy which help us to install in a faster way all the components :
aptitude |
aptitude updateaptitude install ceph ceph-deploy openntpd |
Openntpd is not mandatory, but you need all your machine to be clock synchronized !
WARNING |
You absolutely need well named servers (hostname) and dns names available. A dns server is mandatory. |
2.2 Other nodes
To install ceph from the first (admin) node for any kind of nodes, here is a simple solution that avoid to enter the apt key etc... :
ceph-deploy |
ceph-deploy install |
WARNING |
For production usage, you should choose an LTS version like emperor |
ceph-deploy install --release emperor |
Notes |
You need to to remotely be able to connect to the target machines. |
3 Deploy
First of all, your Ceph configuration will be generated in the current directory, so it's suggested to create a dedicated folder for it :
mkdir ceph-configcd ceph-config |
WARNING |
Be sure of your network configuration for Monitor nodes as it's a nightmare to change later !!! |
3.1 Cluster
The first machine on which you'll want to start, you'll need to create the Ceph cluster. I'll do it here on the monitor server named mon1 :
ceph-deploy |
> ceph-deploy new mon1[ceph_deploy.cli][INFO ] Invoked (1.2.7): /usr/bin/ceph-deploy new mon1[ceph_deploy.new][DEBUG ] Creating new cluster named ceph[ceph_deploy.new][DEBUG ] Resolving host mon1[ceph_deploy.new][DEBUG ] Monitor mon1 at 192.168.33.30[ceph_deploy.new][DEBUG ] Monitor initial members are ['mon1'][ceph_deploy.new][DEBUG ] Monitor addrs are ['192.168.33.30'][ceph_deploy.new][DEBUG ] Creating a random mon key...[ceph_deploy.new][DEBUG ] Writing initial config to ceph.conf...[ceph_deploy.new][DEBUG ] Writing monitor keyring to ceph.mon.keyring... |
3.2 Monitor
A Ceph Monitor maintains maps of the cluster state, including the monitor map, the OSD map, the Placement Group (PG) map, and the CRUSH map. Ceph maintains a history (called an “epoch”) of each state change in the Ceph Monitors, Ceph OSD Daemons, and PGs.
3.2.1 Add the first monitor
To create the first (only the first today because ceph-deploy got problems) monitor node (mon1 here) :
ceph-deploy |
> ceph-deploy --overwrite-conf mon create mon1[ceph_deploy.cli][INFO ] Invoked (1.2.7): /usr/bin/ceph-deploy --overwrite-conf mon create mon1[ceph_deploy.mon][DEBUG ] Deploying mon, cluster ceph hosts mon1[ceph_deploy.mon][DEBUG ] detecting platform for host mon1 ...[ceph_deploy.sudo_pushy][DEBUG ] will use a local connection without sudo[ceph_deploy.mon][INFO ] distro info: Debian 7.2 wheezy[mon1][DEBUG ] determining if provided host has same hostname in remote[mon1][DEBUG ] deploying mon to mon1[mon1][DEBUG ] remote hostname: mon1[mon1][INFO ] write cluster configuration to /etc/ceph/{cluster}.conf[mon1][INFO ] creating path: /var/lib/ceph/mon/ceph-mon1[mon1][DEBUG ] checking for done path: /var/lib/ceph/mon/ceph-mon1/done[mon1][DEBUG ] done path does not exist: /var/lib/ceph/mon/ceph-mon1/done[mon1][INFO ] creating keyring file: /var/lib/ceph/tmp/ceph-mon1.mon.keyring[mon1][INFO ] create the monitor keyring file[mon1][INFO ] Running command: ceph-mon --cluster ceph --mkfs -i mon1 --keyring /var/lib/ceph/tmp/ceph-mon1.mon.keyring[mon1][INFO ] ceph-mon: mon.noname-a 192.168.33.30:6789/0 is local, renaming to mon.mon1[mon1][INFO ] ceph-mon: set fsid to df462719-9477-4f22-afdf-8f237a576cad[mon1][INFO ] ceph-mon: created monfs at /var/lib/ceph/mon/ceph-mon1 for mon.mon1[mon1][INFO ] unlinking keyring file /var/lib/ceph/tmp/ceph-mon1.mon.keyring[mon1][INFO ] create a done file to avoid re-doing the mon deployment[mon1][INFO ] create the init path if it does not exist[mon1][INFO ] locating `service` executable...[mon1][INFO ] found `service` executable: /usr/sbin/service[mon1][INFO ] Running command: /usr/sbin/service ceph -c /etc/ceph/ceph.conf start mon.mon1[mon1][DEBUG ] === mon.mon1 === [mon1][DEBUG ] Starting Ceph mon.mon1 on mon1...[mon1][DEBUG ] Starting ceph-create-keys on mon1...[mon1][INFO ] Running command: ceph --admin-daemon /var/run/ceph/ceph-mon.mon1.asok mon_status[mon1][DEBUG ] ********************************************************************************[mon1][DEBUG ] status for monitor: mon.mon1[mon1][DEBUG ] {[mon1][DEBUG ] "election_epoch": 2, [mon1][DEBUG ] "extra_probe_peers": [], [mon1][DEBUG ] "monmap": {[mon1][DEBUG ] "created": "0.000000", [mon1][DEBUG ] "epoch": 1, [mon1][DEBUG ] "fsid": "df462719-9477-4f22-afdf-8f237a576cad", [mon1][DEBUG ] "modified": "0.000000", [mon1][DEBUG ] "mons": [[mon1][DEBUG ] {[mon1][DEBUG ] "addr": "192.168.33.30:6789/0", [mon1][DEBUG ] "name": "mon1", [mon1][DEBUG ] "rank": 0[mon1][DEBUG ] }[mon1][DEBUG ] ][mon1][DEBUG ] }, [mon1][DEBUG ] "name": "mon1", [mon1][DEBUG ] "outside_quorum": [], [mon1][DEBUG ] "quorum": [[mon1][DEBUG ] 0[mon1][DEBUG ] ], [mon1][DEBUG ] "rank": 0, [mon1][DEBUG ] "state": "leader", [mon1][DEBUG ] "sync_provider": [][mon1][DEBUG ] }[mon1][DEBUG ] ********************************************************************************[mon1][INFO ] monitor: mon.mon1 is running[mon1][INFO ] Running command: ceph --admin-daemon /var/run/ceph/ceph-mon.mon1.asok mon_status |
3.2.2 Add a monitor
To add 2 others monitors nodes (mon2 and mon3) in the cluster, you'll need to edit the configuration on a monitor and admin node. You'll have to set the mon_host, mon_initial_members and public_network configuration in :
/etc/ceph/ceph.conf |
[global]fsid = 0a91b62e-cd43-4558-9ebd-4719f830cf8bmon_initial_members = mon1,mon2,mon3mon_host = 192.168.33.30,192.168.33.31,192.168.33.32auth_supported = cephxosd_journal_size = 1024filestore_xattr_use_omap = truepublic_network = 192.168.0.0/24 |
Then update the current cluster configuration :
ceph-deploy --overwrite-conf config push mon2ceph-deploy --overwrite-conf config push mon3 or ceph-deploy --overwrite-conf config push mon2 mon3 |
You now need to update the new configuration on all your monitor nodes :
ceph-deploy |
ceph-deploy --overwrite-conf config push mon1 mon2 mon3 |
WARNING |
For production usage, you need at least 3 nodes |
3.2.3 Remove a monitor
If you need to remove a monitor for maintenance :
ceph-deploy |
ceph-deploy mon destroy mon1 |
3.3 Admin node
To get the first admin node, you'll need to gather keys on a monitor node. To make it simple, all ceph-deploy should be done from that machine :
ceph-deploy |
> ceph-deploy gatherkeys mon1[ceph_deploy.cli][INFO ] Invoked (1.2.7): /usr/bin/ceph-deploy gatherkeys osd1[ceph_deploy.gatherkeys][DEBUG ] Checking osd1 for /etc/ceph/ceph.client.admin.keyring[ceph_deploy.sudo_pushy][DEBUG ] will use a local connection without sudo[ceph_deploy.gatherkeys][DEBUG ] Got ceph.client.admin.keyring key from osd1.[ceph_deploy.gatherkeys][DEBUG ] Have ceph.mon.keyring[ceph_deploy.gatherkeys][DEBUG ] Checking osd1 for /var/lib/ceph/bootstrap-osd/ceph.keyring[ceph_deploy.sudo_pushy][DEBUG ] will use a local connection without sudo[ceph_deploy.gatherkeys][DEBUG ] Got ceph.bootstrap-osd.keyring key from osd1.[ceph_deploy.gatherkeys][DEBUG ] Checking osd1 for /var/lib/ceph/bootstrap-mds/ceph.keyring[ceph_deploy.sudo_pushy][DEBUG ] will use a local connection without sudo[ceph_deploy.gatherkeys][DEBUG ] Got ceph.bootstrap-mds.keyring key from osd1. |
Then you need to to remotely be able to connect to the target machines.
3.4 OSD
Ceph OSD Daemon (OSD) stores data, handles data replication, recovery, backfilling, rebalancing, and provides some monitoring information to Ceph Monitors by checking other Ceph OSD Daemons for a heartbeat. A Ceph Storage Cluster requires at least two Ceph OSD Daemons to achieve an active + clean state when the cluster makes two copies of your data (Ceph makes 2 copies by default, but you can adjust it).
3.4.1 Add an OSD
To deploy Ceph OSD, we'll first start to erase the remote disk and create a gpt table on the dedicated disk 'sdb' :
ceph-deploy |
> ceph-deploy disk zap osd1:sdb[ceph_deploy.cli][INFO ] Invoked (1.3.2): /usr/bin/ceph-deploy disk zap osd1:sdb[ceph_deploy.osd][DEBUG ] zapping /dev/sdb on osd1[osd1][DEBUG ] connected to host: osd1 [osd1][DEBUG ] detect platform information from remote host[osd1][DEBUG ] detect machine type[ceph_deploy.osd][INFO ] Distro info: debian 7.2 wheezy[osd1][DEBUG ] zeroing last few blocks of device[osd1][INFO ] Running command: sgdisk --zap-all --clear --mbrtogpt -- /dev/sdb[osd1][DEBUG ] Warning: The kernel is still using the old partition table.[osd1][DEBUG ] The new table will be used at the next reboot.[osd1][DEBUG ] GPT data structures destroyed! You may now partition the disk using fdisk or[osd1][DEBUG ] other utilities.[osd1][DEBUG ] Warning: The kernel is still using the old partition table.[osd1][DEBUG ] The new table will be used at the next reboot.[osd1][DEBUG ] The operation has completed successfully. |
It will create a journalized partition and a data one. Then we could create partitions on the on 'osd1' server and prepare + activate this OSD :
ceph-deploy |
> ceph-deploy --overwrite-conf osd create osd1:sdb[ceph_deploy.cli][INFO ] Invoked (1.3.2): /usr/bin/ceph-deploy --overwrite-conf mon create osd1:sdb[ceph_deploy.mon][DEBUG ] Deploying mon, cluster ceph hosts osd1:sdb[ceph_deploy.mon][DEBUG ] detecting platform for host osd1 ...ssh: Could not resolve hostname sdb: Name or service not known[ceph_deploy.mon][ERROR ] connecting to host: sdb resulted in errors: HostNotFound sdb[ceph_deploy][ERROR ] GenericError: Failed to create 1 monitors |
You can see there's an error but it works :
ceph |
> ceph -s cluster 0a91b62e-cd43-4558-9ebd-4719f830cf8b health HEALTH_WARN 192 pgs degraded; 192 pgs stuck unclean monmap e1: 1 mons at {mon1=192.168.33.30:6789/0}, election epoch 2, quorum 0 mon1 osdmap e5: 1 osds: 1 up, 1 in pgmap v8: 192 pgs, 3 pools, 0 bytes data, 0 objects 34912 kB used, 7122 MB / 7156 MB avail 192 active+degraded |
3.4.2 Get OSD status
To know the OSD status :
ceph |
> ceph osd tree# id weight type name up/down reweight-1 0.02998 root default-2 0.009995 host osd13 0.009995 osd.3 up 1 -3 0.009995 host osd31 0.009995 osd.1 up 1 -4 0.009995 host osd22 0.009995 osd.2 up 1 |
3.4.3 Remove an OSD
To remove an OSD, it's unfortunately not yet integrated in ceph-deploy. So first, look at the current status :
ceph |
> ceph osd tree# id weight type name up/down reweight-1 0.03998 root default-2 0.01999 host osd10 0.009995 osd.0 down 0 3 0.009995 osd.3 up 1 -3 0.009995 host osd31 0.009995 osd.1 up 1 -4 0.009995 host osd22 0.009995 osd.2 up 1 |
Here I want to remove the osd.0 :
osd='osd.0' |
If the OSD wasn't down, I should put it down with this command :
ceph |
> ceph osd out $osdosd.0 is already out. |
Then I remove it from the crushmap :
> ceph osd crush remove $osdremoved item id 0 name 'osd.0' from crush map |
Delete the authentication part (Paxos) :
ceph auth del $osd |
Then remove the OSD :
ceph |
ceph osd rm $osd |
And now, it's definitively out :
ceph |
> ceph osd tree# id weight type name up/down reweight-1 0.02998 root default-2 0.009995 host osd13 0.009995 osd.3 up 1 -3 0.009995 host osd31 0.009995 osd.1 up 1 -4 0.009995 host osd22 0.009995 osd.2 up 1 |
3.5 RBD
To make Block devices, you need to have a correct OSD configuration done with a created pool. You don't have anything else to have :-)
4 Configuration
4.1 OSD
4.1.1 OSD Configuration
4.1.1.1 Global OSD configuration
The Ceph Client retrieves the latest cluster map and the CRUSH algorithm calculates how to map the object to a placement group, and then calculates how to assign the placement group to a Ceph OSD Daemon dynamically. By default Ceph have 2 replicas and you can change it by 3 in adding those line to the Ceph configuration :
[global] osd pool default size = 3 osd pool default min size = 1 |
- osd pool default size : the number of replicas
- osd pool default min size : set the minimum available replicas before putting OSD down
Configure the placement group (Total PGs = (number of OSD * 100) / replicas numbers) :
[global] osd pool default pg num = 100 osd pool default pgp num = 100 |
Then you can push your new configuration :
ceph-deploy |
ceph-deploy --overwrite-conf config push mon1 mon2 mon3 |
4.1.1.2 Network configuration
For the OSD, you've got 2 network interfaces (private and public). So to configure it properly on your admin machine by updating your configuration file as follow :
ceph.conf |
[osd]cluster network = 192.168.33.0/24public network = 192.168.0.0/24 |
But if you want to add specific configuration :
ceph.conf |
[osd.0]public addr = 192.168.0.1:6801cluster addr = 192.168.33.31 [osd.1]public addr = 192.168.0.2:6802cluster addr = 192.168.33.32 [osd.2]public addr = 192.168.0.3:6803cluster addr = 192.168.33.33 |
ceph-deploy |
ceph-deploy --overwrite-conf config push mon1 mon2 mon3 |
4.1.2 Create an OSD pool
To create an OSD pool :
ceph |
ceph osd pool create |
4.1.3 List OSD pools
You can list OSD :
ceph |
> ceph osd lspools0 data,1 metadata,2 rbd,3 mypool, |
ceph |
> ceph osd dumpepoch 62fsid 0314c737-68d2-4d14-a247-53dfe7ec2a01created 2014-01-02 16:33:14.572233modified 2014-01-03 15:40:14.370846flags pool 0 'data' rep size 2 min_size 1 crush_ruleset 0 object_hash rjenkins pg_num 64 pgp_num 64 last_change 1 owner 0 crash_replay_interval 45pool 1 'metadata' rep size 2 min_size 1 crush_ruleset 1 object_hash rjenkins pg_num 64 pgp_num 64 last_change 1 owner 0pool 2 'rbd' rep size 2 min_size 1 crush_ruleset 2 object_hash rjenkins pg_num 64 pgp_num 64 last_change 1 owner 0pool 3 'mypool' rep size 2 min_size 1 crush_ruleset 0 object_hash rjenkins pg_num 100 pgp_num 100 last_change 14 owner 0 max_osd 3osd.0 up in weight 1 up_from 61 up_thru 61 down_at 59 last_clean_interval [49,60) 192.168.32.15:6800/5577 192.168.33.31:6801/5577 192.168.33.31:6802/5577 192.168.32.15:6801/5577 exists,up d1b21569-bcf2-45a6-87c3-597cd267bdbaosd.1 up in weight 1 up_from 53 up_thru 61 down_at 51 last_clean_interval [33,50) 192.168.32.72:6800/4439 192.168.33.32:6800/4439 192.168.33.32:6801/4439 192.168.32.72:6802/4439 exists,up 935e8e8f-3a0b-445b-b730-5de61ea34556osd.2 up in weight 1 up_from 57 up_thru 61 down_at 55 last_clean_interval [40,54) 192.168.32.90:6800/4444 192.168.33.33:6800/4444 192.168.33.33:6801/4444 192.168.32.90:6802/4444 exists,up 4e661a3c-2f15-4037-9fcb-d48a49d0b228 |
4.2 Crush map
The Crushmap contain a list of OSDs, a list of 'buckets' for aggregating the devices into physical locations. You can edit it to manage it manually.
To show the complete map of your Ceph :
ceph osd tree |
To get crushmap and to edit it :
ceph osd getcrushmap -o mymapcrushtool -d mymap -o mymap.txt |
To set a new crushmap after editing :
crushtool -c mymap.txt -o mynewmapceph osd setcrushmap -i mynewmap |
To get quorum status for the monitors :
ceph quorum_status --format json-pretty |
5 Usage
5.1 Check health
You can check cluster health :
ceph |
> ceph -s cluster 0314c737-68d2-4d14-a247-53dfe7ec2a01 health HEALTH_OK monmap e3: 3 mons at {mon1=192.168.33.31:6789/0,mon2=192.168.33.32:6789/0,mon3=192.168.33.33:6789/0}, election epoch 8, quorum 0,1,2 mon1,mon2,mon3 osdmap e13: 3 osds: 3 up, 3 in pgmap v21: 192 pgs: 192 active+clean; 0 bytes data, 71248 KB used, 14244 MB / 14313 MB avail mdsmap e1: 0/0/1 up |
5.2 Change configuration on the fly
To avoid service restart on a simple modification, you can interact directly with Ceph to change some values. First of all, you can get all current values of your Ceph cluster :
> ceph --admin-daemon /var/run/ceph/ceph-mon.mon1-pub.asok config show{ "name": "mon.mon1-pub", "cluster": "ceph", "none": "0\/5", "lockdep": "0\/1", "context": "0\/1",[...] "mon_clock_drift_allowed": "0.05", "mon_clock_drift_warn_backoff": "5",[...] |
Now if I want to change one of those values :
> ceph tell osd.* injectargs '--mon_clock_drift_allowed 1'osd.0: mon_clock_drift_allowed = '1' osd.1: mon_clock_drift_allowed = '1' osd.2: mon_clock_drift_allowed = '1' |
You can change '*' by the name of an OSD if you want to apply this configuration to a specific node.
Then do not forget to add it to your Ceph configuration and push it !
5.3 Use object storage
5.3.1 Add object
When you have an Ceph OSD pool ready, you can add a file :
rados |
rados put |
5.3.2 List objects in a pool
You can list your pool content :
rados |
> rados -p |
You can see where it has been stored :
ceph |
> ceph osd map |
To locate the file on the hard drive, look at this folder (/var/lib/ceph/osd/ceph-1/current). Then look at the previous result (3.47) and the filename af0f2847. So the file will be placed here :
ls |
> ls /var/lib/ceph/osd/ceph-1/current/3.47_headceph\ulog__head_AF0F2847__3 |
5.3.3 Remove objects
To finish, remove it :
rados rm |
5.4 Use blocks device storage
This part becomes very interesting if you start using block devices storage. From an admin node, launch client install :
aptitude |
ceph-deploy install |
On the client, load the module and add it to launch at boot :
modprobe rbdecho "rbd" >> /etc/modules |
5.4.1 Create a block device
Now to create a block device (you can do it on the client node if you want has it gets the admin key last pushed by ceph-deploy) :
rbd |
rbd create |
If you don't specify the pool name option, it will automatically be created in the 'rbd' pool.
5.4.2 List available block devices
This is so simple :
rbd |
> rbd lsbd_name |
And you can show mapped :
rbd |
> rbd showmappedid pool image snap device0 rbd bd_name - /dev/rbd0 |
5.4.3 Get block device informations
You may need to grab informations on the device block to know where it is physically or simply the size :
> rbd info |
5.4.4 Map and mount a block device
First your need to map it to make it appears in your device list :
rbd |
rbd map |
You can now format it :
mkfs.ext4 |
mkfs.ext4 /dev/rbd/pool_name/name |
And now mount it :
mount /dev/rbd/pool_name/name /mnt |
That's it :-)
5.4.5 Remove a block device
To remove, once again it's simple :
rbd |
rbd rm |
5.4.6 Umount and unmap a block device
Umount and umap is as easy as you think :
umount /mntrbd unmap /dev/rbd/pool_name/name |
5.4.7 Advanced usage
I won't list all features, but you can look at the man to :
- clone
- export/import
- snapshot
- bench write
...
6 FAQ
6.1 Reset a node
You sometime needs to reset a node. It's generally needed when you're doing tests. From the admin node run this :
ceph-deploy |
ceph-deploy purge |
Then reinstall it with :
ceph-deploy |
ceph-deploy install |
6.2 Can't add a new monitor node
If you can't add a new monitor mon (here mon2) :
ceph-deploy |
> ceph-deploy --overwrite-conf mon create mon2[...][mon2][DEBUG ] === mon.mon2 === [mon2][DEBUG ] Starting Ceph mon.mon2 on mon2...[mon2][DEBUG ] failed: 'ulimit -n 32768; /usr/bin/ceph-mon -i mon2 --pid-file /var/run/ceph/mon.mon2.pid -c /etc/ceph/ceph.conf '[mon2][DEBUG ] Starting ceph-create-keys on mon2...[mon2][WARNIN] No data was received after 7 seconds, disconnecting...[mon2][INFO ] Running command: ceph --cluster=ceph --admin-daemon /var/run/ceph/ceph-mon.mon2.asok mon_status[mon2][ERROR ] admin_socket: exception getting command descriptions: [Errno 2] No such file or directory[mon2][WARNIN] monitor: mon.mon2, might not be running yet[mon2][INFO ] Running command: ceph --cluster=ceph --admin-daemon /var/run/ceph/ceph-mon.mon2.asok mon_status[mon2][ERROR ] admin_socket: exception getting command descriptions: [Errno 2] No such file or directory[mon2][WARNIN] mon2 is not defined in `mon initial members`[mon2][WARNIN] monitor mon2 does not exist in monmap[mon2][WARNIN] neither `public_addr` nor `public_network` keys are defined for monitors[mon2][WARNIN] monitors may not be able to form quorum |
You have to add public network and monitor to the list in configuration file. .
6.3 health HEALTH_WARN clock skew detected
If you get this kind of problem :
ceph |
> ceph -s cluster 0314c737-68d2-4d14-a247-53dfe7ec2a01 health HEALTH_WARN clock skew detected on mon.mon1 monmap e3: 3 mons at {mon1=192.168.33.31:6789/0,mon2=192.168.33.32:6789/0,mon3=192.168.33.33:6789/0}, election epoch 8, quorum 0,1,2 mon1,mon2,mon3 osdmap e13: 3 osds: 3 up, 3 in pgmap v21: 192 pgs: 192 active+clean; 0 bytes data, 71248 KB used, 14244 MB / 14313 MB avail mdsmap e1: 0/0/1 up |
You need to install an NTP server. The millisecond is important. Here is a workaround :
ceph.conf |
[global] mon_clock_drift_allowed = 1 |
This set the possible delta to avoid the warning message.