Ceph Client For Mac

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To install a Ceph Client:

Ssh [email protected] sudo su cat /etc/ceph/ceph.client.rbd.keyring >> /etc/ceph/keyring ceph -s --name client.rbd 创建Ceph块设备.

  1. Perform the following steps on the system that will act as a Ceph Client:

    1. If SELinux is enabled, disable it and then reboot the system.

    2. Stop and disable the firewall service.

      For Oracle Linux 6 or Oracle Linux 7 (where iptables is used instead of firewalld), enter:

      For Oracle Linux 7, enter:

  2. On the administration node of the Storage Cluster, copy the SSH key to the Ceph Client system, for example:

    This example assumes that you have configured entries for the Ceph Client system in DNS and/or in /etc/hosts.

  3. On the deployment node (which is usually the same as the administration node), use ceph-deploy to install Ceph on the Ceph Client system, for example:

  4. On the administration node, copy the Ceph configuration file and the Ceph keyring to the Ceph Client system, for example:

    You can now configure a Block Device on the Ceph Client. See Section 1.12, “Configuring a Block Device on a Ceph Client”.

  5. When you have established that the Ceph Client works with a Storage Cluster, re-enable SELinux in enforcing mode if you previously disabled it and then reboot the system.

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How to install a Ceph Storage Cluster on Ubuntu 16.04

Ceph is an open source storage platform, it provides high performance, reliability, and scalability. It’s a free distributed storage system that provides an interface for object, block, and file-level storage and can operate without a single point of failure.

In this tutorial, I will guide you to install and build a Ceph cluster on Ubuntu 16.04 server. A Ceph cluster consists of these components:

  • Ceph OSDs (ceph-osd) – Handles the data storage, data replication, and recovery. A Ceph cluster needs at least two Ceph OSD servers. We will use three Ubuntu 16.04 servers in this setup.
  • Ceph Monitor (ceph-mon) – Monitors the cluster state and runs the OSD map and CRUSH map. We will use one server here.
  • Ceph Meta Data Server (ceph-mds) – this is needed if you want to use Ceph as a File System.

Prerequisites

  • 6 server nodes with Ubuntu 16.04 server installed
  • Root privileges on all nodes

I will use the following hostname / IP setup:

hostnameIP address
ceph-admin 10.0.15.10
mon1 10.0.15.11
osd1 10.0.15.21
osd2 10.0.15.22
osd3 10.0.15.23
client 10.0.15.15

Step 1 – Configure All Nodes

In this step, we will configure all 6 nodes to prepare them for the installation of the Ceph Cluster software. So you have to follow and run the commands below on all nodes. And make sure that ssh-server is installed on all nodes.

Create the Ceph User

Create a new user named ‘cephuser‘ on all nodes.

useradd -m -s /bin/bash cephuser
passwd cephuser

After creating the new user, we need to configure cephuser for passwordless sudo privileges. This means that ‘cephuser’ can run and get sudo privileges without having to enter a password first.

Run the commands below to achieve that.

echo “cephuser ALL = (root) NOPASSWD:ALL” sudo tee /etc/sudoers.d/cephuser
chmod 0440 /etc/sudoers.d/cephuser
sed -i s’/Defaults requiretty/#Defaults requiretty’/g /etc/sudoers

Install and Configure NTP

Install NTP to synchronize date and time on all nodes. Run the ntpdate command to set the date and time via NTP. We will use the US pool NTP servers. Then start and enable NTP server to run at boot time.

sudo apt-get install -y ntp ntpdate ntp-doc
ntpdate 0.us.pool.ntp.org
hwclock –systohc
systemctl enable ntp
systemctl start ntp

Install Open-vm-tools

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If you are running all nodes inside VMware, you need to install this virtualization utility.

sudo apt-get install -y open-vm-tools

Install Python and parted

In this tutorial, we need python packages for building the ceph-cluster. Install python and python-pip.

sudo apt-get install -y python python-pip parted

Configure the Hosts File

Edit the hosts file on all nodes with vim editor.

vim /etc/hosts

Paste the configuration below:

Save the hosts file and exit the vim editor.

Now you can try to ping between the server hostnames to test the network connectivity.

ping -c 5 mon1

Step 2 – Configure the SSH Server

In this step, we will configure the ceph-admin node. The admin node is used for configuring the monitor node and osd nodes. Login to the ceph-admin node and access the ‘cephuser‘.

ssh [email protected]
su – cephuser

The admin node is used for installing and configuring all cluster node, so the user on the ceph-admin node must have privileges to connect to all nodes without a password. We need to configure password-less SSH access for ‘cephuser’ on the ‘ceph-admin’ node.

Generate the ssh keys for ‘cephuser‘.

ssh-keygen

Leave passphrase is blank/empty.

Next, create a configuration file for the ssh config.

vim ~/.ssh/config

Paste the configuration below:

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Save the file and exit vim.

Change the permission of the config file to 644.

chmod 644 ~/.ssh/config

Now add the key to all nodes with the ssh-copy-id command.

ssh-keyscan ceph-osd1 ceph-osd2 ceph-osd3 ceph-client mon1 >> ~/.ssh/known_hosts
ssh-copy-id ceph-osd1
ssh-copy-id ceph-osd2
ssh-copy-id ceph-osd3
ssh-copy-id mon1

Type in your cephuser password when requested.

Now try to access the osd1 server from the ceph-admin node to test if the password-less login works.

ssh ceph-osd1

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Step 3 – Configure the Ubuntu Firewall

For security reasons, we need to turn on the firewall on the servers. Preferably we use Ufw (Uncomplicated Firewall), the default Ubuntu firewall, to protect the system. In this step, we will enable ufw on all nodes, then open the ports needed by ceph-admin, ceph-mon and ceph-osd.

Login to the ceph-admin node and install the ufw packages.

ssh [email protected]
sudo apt-get install -y ufw

Open port 80, 2003 and 4505-4506, then reload firewalld.

sudo ufw allow 22/tcp
sudo ufw allow 80/tcp
sudo ufw allow 2003/tcp
sudo ufw allow 4505:4506/tcp

Start and enable ufw to start at boot time.

sudo ufw enable

From the ceph-admin node, login to the monitor node ‘mon1’ and install ufw.

ssh mon1
sudo apt-get install -y ufw

Open the ports for the ceph monitor node and start ufw.

sudo ufw allow 22/tcp
sudo ufw allow 6789/tcp
sudo ufw enable

Finally, open these ports on each osd node: ceph-osd1, ceph-osd2 and ceph-osd3 – port 6800-7300.

Login to each of the ceph-osd nodes from the ceph-admin, and install ufw.

ssh ceph-osd1
sudo apt-get install -y ufw

Open the ports on the osd nodes and reload firewalld.

sudo ufw allow 22/tcp
sudo ufw allow 6800:7300/tcp
sudo ufw enable

The ufw firewall configuration is finished.

Step 4 – Configure the Ceph OSD Nodes

In this tutorial, we have 3 OSD nodes, each of these nodes has two hard disk partitions.

  1. /dev/sda for root partition
  2. /dev/sdb is empty partition – 20GB

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We will use /dev/sdb for the ceph disk. From the ceph-admin node, login to all OSD nodes and format the /dev/sdb partition with XFS file system.

ssh ceph-osd1
ssh ceph-osd2
ssh ceph-osd3

Check the partition scheme with the fdisk command.

sudo fdisk -l /dev/sdb

Format the /dev/sdb partition with an XFS filesystem and with a GPT partition table by using the parted command.

sudo parted -s /dev/sdb mklabel gpt mkpart primary xfs 0% 100%

Next, format the partition in XFS format with the mkfs command.

sudo mkfs.xfs -f /dev/sdb

Now check the partition, and you will see a XFS /dev/sdb partition.

sudo fdisk -s /dev/sdb
sudo blkid -o value -s TYPE /dev/sdb

Step 5 – Build the Ceph Cluster

In this step, we will install Ceph on all nodes from the ceph-admin. To get started, login to the ceph-admin node.

ssh [email protected]
su – cephuser

Install ceph-deploy on ceph-admin node

In the first step we’ve already installed python and python-pip on to the system. Now we need to install the Ceph deployment tool ‘ceph-deploy‘ from the pypi python repository.

Install ceph-deploy on the ceph-admin node with the pip command.

sudo pip install ceph-deploy

Note: Make sure all nodes are updated.

After the ceph-deploy tool has been installed, create a new directory for the Ceph cluster configuration.

Create a new Cluster

Create a new cluster directory.

mkdir cluster
cd cluster/

Next, create a new cluster with the ‘ceph-deploy‘ command by defining the monitor node ‘mon1‘.

ceph-deploy new mon1

The command will generate the Ceph cluster configuration file ‘ceph.conf’ in cluster directory.

Edit the ceph.conf file with vim.

vim ceph.conf

Under the [global] block, paste the configuration below.

Save the file and exit the editor.

Install Ceph on All Nodes

Now install Ceph on all nodes from the ceph-admin node with a single command.

ceph-deploy install ceph-admin ceph-osd1 ceph-osd2 ceph-osd3 mon1

The command will automatically install Ceph on all nodes: mon1, osd1-3 and ceph-admin – The installation will take some time.

Now deploy the monitor node on the mon1 node.

ceph-deploy mon create-initial

The command will create a monitor key, check the key with this ceph command.

ceph-deploy gatherkeys mon1

Adding OSDS to the Cluster

After Ceph has been installed on all nodes, now we can add the OSD daemons to the cluster. OSD Daemons will create the data and journal partition on the disk /dev/sdb.

Check the available disk /dev/sdb on all osd nodes.

ceph-deploy disk list ceph-osd1 ceph-osd2 ceph-osd3

You will see /dev/sdb with the XFS format that we created before.

Next, delete the partition tables on all nodes with the zap option.

ceph-deploy disk zap ceph-osd1:/dev/sdb ceph-osd2:/dev/sdb ceph-osd3:/dev/sdb

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The command will delete all data on /dev/sdb on the Ceph OSD nodes.

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Now prepare all OSD nodes and ensure that there are no errors in the results.

ceph-deploy osd prepare ceph-osd1:/dev/sdb ceph-osd2:/dev/sdb ceph-osd3:/dev/sdb

When you see the ceph-osd1-3 is ready for OSD use in the result, then the command was successful.

Activate the OSD’S with the command below:

ceph-deploy osd activate ceph-osd1:/dev/sdb ceph-osd2:/dev/sdb ceph-osd3:/dev/sdb

Now you can check the sdb disk on OSDS nodes again.

ceph-deploy disk list ceph-osd1 ceph-osd2 ceph-osd3

The result is that /dev/sdb has two partitions now:

  1. /dev/sdb1 – Ceph Data
  2. /dev/sdb2 – Ceph Journal

Or you check it directly on the OSD node.

ssh ceph-osd1
sudo fdisk -l /dev/sdb

Next, deploy the management-key to all associated nodes.

ceph-deploy admin ceph-admin mon1 ceph-osd1 ceph-osd2 ceph-osd3

Change the permission of the key file by running the command below on all nodes.

sudo chmod 644 /etc/ceph/ceph.client.admin.keyring

The Ceph Cluster on Ubuntu 16.04 has been created.

Step 6 – Testing Ceph

In step 4, we’ve installed and created a new Ceph cluster, and added OSDS nodes to the cluster. Now we should test the cluster to make sure that it works as intended.

From the ceph-admin node, log in to the Ceph monitor server ‘mon1‘.

ssh mon1

Run the command below to check the cluster health.

sudo ceph health

Now check the cluster status.

sudo ceph -s

You can see results below:

Make sure the Ceph health is OK and there is a monitor node ‘mon1‘ with IP address ‘10.0.15.11‘. There are 3 OSD servers and all are up and running, and there should be an available disk space of 45GB – 3x15GB Ceph Data OSD partition.

We build a new Ceph Cluster on Ubuntu 16.04 successfully.

Reference