PoseidonOS (POS) is a lightweight storage OS that offers the best performance and valuable features over a storage network. POS exploits the benefit of NVMe Solid State Drives (SSDs) by optimizing the storage stack and leveraging the state-of-the-art high-speed interface. Please find project details on the documentation page.
git clone https://github.com/poseidonos/poseidonos.git
pkgdep.sh will automatically install the required packages to build POS.
cd script
sudo ./pkgdep.sh
cd lib
sudo ./build_lib.sh
cd script/
sudo ./build_ibofos.sh
cd script/
sudo ./start_poseidonos.sh
Let's explore the features and the capabilities of POS. Using the POS command-line interface, you will learn to manage storage resources (e.g., devices, arrays, and volumes). The prerequisite knowledge is the minimum skill in Linux administration.
Important Note: we also provide PoseidonOS-GUI, a web-based graphical user interface (GUI).
In this example, the following hardware and configurations are used:
Hardware: Poseidon server
- Reference server hardware implementation engineered by Samsung and Inspur
- The number of processors: 2
- The number of memory slots: 32
- Memory speed: 3200 MT/s
- Network speed: up to 600 GbE
- PCIe generation: gen4
- Storage: E1.S SSD * 32 ea
Config | Value |
---|---|
OS | Ubuntu 18.04 (Note: PoseidonOS is not officially supported in the later versions of Ubuntu.) |
Kernel | 5.3.0-24-generic |
Hostname | R2U14-PSD-3 |
$POS_HOME | /poseidonos |
POS location | $POS_HOME/bin/poseidonos $POS_HOME/bin/poseidonos-cli |
POS config | /etc/pos/pos.conf |
POS scripts | $POS_HOME/script/start_poseidonos.sh $POS_HOME/lib/spdk-20.10/script/rpc.py $POS_HOME/test/script/set_irq_affinity_cpulist.sh $POS_HOME/test/script/common_irq_affinity.sh $POS_HOME/script/setup_env.sh $POS_HOME/lib/spdk-20.10/scripts/setup.sh $POS_HOME/lib/spdk-20.10/scripts/common.sh |
POS log | /var/log/pos/pos.log |
POS dump | /etc/pos/core/poseidonos.core |
SPDK RPC Server UDS | /var/tmp/spdk.sock |
Hugepage information | /tmp/uram_hugepage |
Using the following commands (with the root permission), check out the NVMe devices attached to the OS. They are currently using the kernel device driver.
ibof@R2U14-PSD-3:~$ su -
Password:
root@R2U14-PSD-3:~# cd /poseidonos
root@R2U14-PSD-3:/poseidonos# fdisk -l | grep nvme
Disk /dev/nvme0n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme1n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme2n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme5n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme6n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme12n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme15n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme9n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme10n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme17n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme18n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme16n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme22n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme26n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme23n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme25n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme20n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme19n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme8n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme3n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme7n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme4n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme28n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme29n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme11n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme13n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme31n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme14n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme24n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme21n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme27n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Disk /dev/nvme30n1: 3.5 TiB, 3840755982336 bytes, 7501476528 sectors
Start POS using the following command. The NVMe devices will be detached from the Linux kernel and attached to SPDK (a user-level device driver).
root@R2U14-PSD-3:/poseidonos# cd script/
root@R2U14-PSD-3:/poseidonos/script# ls -al
root@R2U14-PSD-3:/poseidonos/script# ./start_poseidonos.sh
0000:4e:00.0 (144d a80a): uio_pci_generic -> nvme
0000:ce:00.0 (144d a80a): uio_pci_generic -> nvme
0000:ea:00.0 (144d a80a): uio_pci_generic -> nvme
0000:68:00.0 (144d a80a): uio_pci_generic -> nvme
0000:4d:00.0 (144d a80a): uio_pci_generic -> nvme
0000:50:00.0 (144d a80a): uio_pci_generic -> nvme
0000:4f:00.0 (144d a80a): uio_pci_generic -> nvme
0000:6d:00.0 (144d a80a): uio_pci_generic -> nvme
0000:cd:00.0 (144d a80a): uio_pci_generic -> nvme
0000:6e:00.0 (144d a80a): uio_pci_generic -> nvme
0000:6c:00.0 (144d a80a): uio_pci_generic -> nvme
0000:80:01.3 (8086 0b00): uio_pci_generic -> ioatdma
0000:80:01.2 (8086 0b00): uio_pci_generic -> ioatdma
0000:d1:00.0 (144d a80a): uio_pci_generic -> nvme
0000:80:01.1 (8086 0b00): uio_pci_generic -> ioatdma
0000:d0:00.0 (144d a80a): uio_pci_generic -> nvme
0000:80:01.0 (8086 0b00): uio_pci_generic -> ioatdma
0000:80:01.7 (8086 0b00): uio_pci_generic -> ioatdma
0000:80:01.6 (8086 0b00): uio_pci_generic -> ioatdma
0000:80:01.5 (8086 0b00): uio_pci_generic -> ioatdma
0000:ec:00.0 (144d a80a): uio_pci_generic -> nvme
0000:80:01.4 (8086 0b00): uio_pci_generic -> ioatdma
0000:cc:00.0 (144d a80a): uio_pci_generic -> nvme
0000:6b:00.0 (144d a80a): uio_pci_generic -> nvme
0000:cf:00.0 (144d a80a): uio_pci_generic -> nvme
0000:e9:00.0 (144d a80a): uio_pci_generic -> nvme
0000:67:00.0 (144d a80a): uio_pci_generic -> nvme
0000:d2:00.0 (144d a80a): uio_pci_generic -> nvme
0000:eb:00.0 (144d a80a): uio_pci_generic -> nvme
0000:d3:00.0 (144d a80a): uio_pci_generic -> nvme
0000:51:00.0 (144d a80a): uio_pci_generic -> nvme
0000:69:00.0 (144d a80a): uio_pci_generic -> nvme
0000:e5:00.0 (144d a80a): uio_pci_generic -> nvme
0000:53:00.0 (144d a80a): uio_pci_generic -> nvme
0000:00:01.3 (8086 0b00): uio_pci_generic -> ioatdma
0000:00:01.2 (8086 0b00): uio_pci_generic -> ioatdma
0000:e6:00.0 (144d a80a): uio_pci_generic -> nvme
0000:00:01.1 (8086 0b00): uio_pci_generic -> ioatdma
0000:e7:00.0 (144d a80a): uio_pci_generic -> nvme
0000:00:01.0 (8086 0b00): uio_pci_generic -> ioatdma
0000:00:01.7 (8086 0b00): uio_pci_generic -> ioatdma
0000:00:01.6 (8086 0b00): uio_pci_generic -> ioatdma
0000:00:01.5 (8086 0b00): uio_pci_generic -> ioatdma
0000:00:01.4 (8086 0b00): uio_pci_generic -> ioatdma
0000:54:00.0 (144d a80a): uio_pci_generic -> nvme
0000:52:00.0 (144d a80a): uio_pci_generic -> nvme
0000:e8:00.0 (144d a80a): uio_pci_generic -> nvme
0000:6a:00.0 (144d a80a): uio_pci_generic -> nvme
Setting maximum # of Huge Page Size is 128GB
0000:4e:00.0 (144d a80a): no driver -> uio_pci_generic
0000:ce:00.0 (144d a80a): no driver -> uio_pci_generic
0000:ea:00.0 (144d a80a): no driver -> uio_pci_generic
0000:68:00.0 (144d a80a): no driver -> uio_pci_generic
0000:4d:00.0 (144d a80a): no driver -> uio_pci_generic
0000:50:00.0 (144d a80a): no driver -> uio_pci_generic
0000:4f:00.0 (144d a80a): no driver -> uio_pci_generic
0000:6d:00.0 (144d a80a): no driver -> uio_pci_generic
0000:cd:00.0 (144d a80a): no driver -> uio_pci_generic
0000:80:01.3 (8086 0b00): ioatdma -> uio_pci_generic
0000:6e:00.0 (144d a80a): no driver -> uio_pci_generic
0000:6c:00.0 (144d a80a): no driver -> uio_pci_generic
0000:80:01.2 (8086 0b00): ioatdma -> uio_pci_generic
0000:80:01.1 (8086 0b00): ioatdma -> uio_pci_generic
0000:d1:00.0 (144d a80a): no driver -> uio_pci_generic
0000:80:01.0 (8086 0b00): ioatdma -> uio_pci_generic
0000:d0:00.0 (144d a80a): no driver -> uio_pci_generic
0000:80:01.7 (8086 0b00): ioatdma -> uio_pci_generic
0000:80:01.6 (8086 0b00): ioatdma -> uio_pci_generic
0000:80:01.5 (8086 0b00): ioatdma -> uio_pci_generic
0000:80:01.4 (8086 0b00): ioatdma -> uio_pci_generic
0000:ec:00.0 (144d a80a): no driver -> uio_pci_generic
0000:cc:00.0 (144d a80a): no driver -> uio_pci_generic
0000:6b:00.0 (144d a80a): no driver -> uio_pci_generic
0000:cf:00.0 (144d a80a): no driver -> uio_pci_generic
0000:e9:00.0 (144d a80a): no driver -> uio_pci_generic
0000:67:00.0 (144d a80a): no driver -> uio_pci_generic
0000:d2:00.0 (144d a80a): no driver -> uio_pci_generic
0000:eb:00.0 (144d a80a): no driver -> uio_pci_generic
0000:d3:00.0 (144d a80a): no driver -> uio_pci_generic
0000:51:00.0 (144d a80a): no driver -> uio_pci_generic
0000:69:00.0 (144d a80a): no driver -> uio_pci_generic
0000:00:01.3 (8086 0b00): ioatdma -> uio_pci_generic
0000:e5:00.0 (144d a80a): no driver -> uio_pci_generic
0000:53:00.0 (144d a80a): no driver -> uio_pci_generic
0000:00:01.2 (8086 0b00): ioatdma -> uio_pci_generic
0000:00:01.1 (8086 0b00): ioatdma -> uio_pci_generic
0000:e6:00.0 (144d a80a): no driver -> uio_pci_generic
0000:00:01.0 (8086 0b00): ioatdma -> uio_pci_generic
0000:e7:00.0 (144d a80a): no driver -> uio_pci_generic
0000:00:01.7 (8086 0b00): ioatdma -> uio_pci_generic
0000:00:01.6 (8086 0b00): ioatdma -> uio_pci_generic
0000:00:01.5 (8086 0b00): ioatdma -> uio_pci_generic
0000:00:01.4 (8086 0b00): ioatdma -> uio_pci_generic
0000:54:00.0 (144d a80a): no driver -> uio_pci_generic
0000:52:00.0 (144d a80a): no driver -> uio_pci_generic
0000:e8:00.0 (144d a80a): no driver -> uio_pci_generic
0000:6a:00.0 (144d a80a): no driver -> uio_pci_generic
/root/doc_center/ibofos/script
apport.service is not a native service, redirecting to systemd-sysv-install.
Executing: /lib/systemd/systemd-sysv-install disable apport
Current maximum # of memory map areas per process is 65535.
Setup env. done!
Execute poseidonos
Wait poseidonos
Wait poseidonos
Wait poseidonos
poseidonos is running in background...
root@R2U14-PSD-3:/poseidonos/script#
# Verify if the application is up and running
root@R2U14-PSD-3:/poseidonos/script# ps -ef | grep poseidonos | grep -v grep
root 90998 1 99 20:09 pts/7 01:15:34 /root/doc_center/ibofos/script/..//bin/poseidonos
# Unlike in the the previous execution, you shouldn't see the NVMe devices from the fdisk output since all of them must have been reattached from OS to SPDK.
root@R2U14-PSD-3:/poseidonos/script# fdisk -l | grep nvme
Using the device create command, create a write buffer in DRAM. A POS array will use it.
The following command will create uram0, a write buffer with a total size of 4096MB and a block size of 512B. The command will request an SPDK server to create an SPDK block device called malloc bdev, a userspace ramdisk.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli device create --device-name uram0 --device-type uram --num-blocks 8388608 --block-size 512
- Note 1: the recommended size of a write buffer is different by environment.
- Note 2: The size of a write buffer should be carefully chosen. For example, if the size of a write buffer is greater than 4096MB, it may not be possible to perform journaling-based sudden power-off recovery (SPOR).
You can check the version of POS using the system info command.
# The actual output may differ by env where the command is executed.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli system info
pos-0.9.10
Let's check the list of the devices in the system. Because you haven't scanned the device in the system yet, you won't be able to see any device in the output.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli device list
Name |SerialNumber(SN) |Address |Class |MN |NUMA |Size
-------------- |------------------- |-------------- |------------- |-------------------------- |------ |------------------
Let's scan devices using the device scan command.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli device scan
Now you can see the list of NVMe and uram devices in the system.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli device list --unit
Name |SerialNumber(SN) |Address |Class |MN |NUMA |Size
-------------- |------------------- |-------------- |------------- |-------------------------- |------ |------------------
unvme-ns-0 |A000032M045220 |0000:4d:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-1 |A000032M045032 |0000:4e:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-2 |A000032M045090 |0000:4f:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-3 |A000032M045096 |0000:50:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-4 |A000032M045107 |0000:51:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-5 |A000032M045078 |0000:52:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-6 |A000032M045077 |0000:53:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-7 |A000032M045099 |0000:54:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-8 |A000032M045084 |0000:67:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-9 |A000032M045105 |0000:68:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-10 |A000032M045100 |0000:69:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-11 |A000032M045104 |0000:6a:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-12 |A000032M045050 |0000:6b:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-13 |A000032M045054 |0000:6c:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-14 |A000032M045087 |0000:6d:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-15 |A000032M045088 |0000:6e:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |0 |3.5T
unvme-ns-16 |A000032M045038 |0000:cc:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-17 |A000032M045086 |0000:cd:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-18 |A000032M045048 |0000:ce:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-19 |A000032M045049 |0000:cf:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-20 |A000032M045039 |0000:d0:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-21 |A000032M045034 |0000:d1:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-22 |A000032M045042 |0000:d2:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-23 |A000032M045085 |0000:d3:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-24 |A000032M045041 |0000:e5:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-25 |A000032M045051 |0000:e6:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-26 |A000032M045040 |0000:e7:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-27 |A000032M045071 |0000:e8:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-28 |A000032M045055 |0000:e9:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-29 |A000032M045083 |0000:ea:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-30 |A000032M045098 |0000:eb:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
unvme-ns-31 |A000032M045053 |0000:ec:00.0 |SYSTEM |SAMSUNG NVMe SSD PM9A3 |1 |3.5T
uram0 |uram0 | |SYSTEM |uram0 |UNKNOWN |8G
We will explore creating a POS array, a storage pool in POS.
Create a POS array using the array create command. The array create command requires the following parameters:
- The name of a device to be used as the write buffer (--buffer).
- The comma-separated list of the data (--data-devs) and spare (--spare) devices. Only SSD devices must be used.
- The name of POS array must follow the naming convention rule. It is described in Device and Array in detail.
- The RAID type for the POS array (--raid).
root@R2U14-PSD-3:/poseidonos/bin#./poseidonos-cli array create --array-name POSArray --buffer uram0 --data-devs unvme-ns-0,unvme-ns-1,unvme-ns-2,unvme-ns-3,unvme-ns-4,unvme-ns-5,unvme-ns-6,unvme-ns-7,unvme-ns-8,unvme-ns-9,unvme-ns-10,unvme-ns-11,unvme-ns-12,unvme-ns-13,unvme-ns-14,unvme-ns-15,unvme-ns-16,unvme-ns-17,unvme-ns-18,unvme-ns-19,unvme-ns-20,unvme-ns-21,unvme-ns-22,unvme-ns-23,unvme-ns-24,unvme-ns-25,unvme-ns-26,unvme-ns-27,unvme-ns-28 --spare unvme-ns-29,unvme-ns-30,unvme-ns-31 --raid RAID5
Once a POS array has been created, you can list the POS array using the array list command as follows.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array list
Index |Name |DatetimeCreated |DatetimeUpdated |Status
----- |---------- |--------------------- |--------------------- |----------
0 |POSArray |2021-09-10 16:25:04 +0900 |2021-09-10 16:25:04 +0900 |Unmounted
If you want to see more detailed information about the array, specify the array to the command as follows:
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array list --array-name POSArray --unit
Array : POSArray
------------------------------------
Index : 0
State : OFFLINE
Situation : DEFAULT
Rebuilding Progress : 0
Total : 86.2T
Used : 0B
GCMode :
Devices
Name Type
---- ------
uram0 BUFFER
unvme-ns-0 DATA
unvme-ns-1 DATA
unvme-ns-2 DATA
unvme-ns-3 DATA
unvme-ns-4 DATA
unvme-ns-5 DATA
unvme-ns-6 DATA
unvme-ns-7 DATA
unvme-ns-8 DATA
unvme-ns-9 DATA
unvme-ns-10 DATA
unvme-ns-11 DATA
unvme-ns-12 DATA
unvme-ns-13 DATA
unvme-ns-14 DATA
unvme-ns-15 DATA
unvme-ns-16 DATA
unvme-ns-17 DATA
unvme-ns-18 DATA
unvme-ns-19 DATA
unvme-ns-20 DATA
unvme-ns-21 DATA
unvme-ns-22 DATA
unvme-ns-23 DATA
unvme-ns-24 DATA
unvme-ns-25 DATA
unvme-ns-26 DATA
unvme-ns-27 DATA
unvme-ns-28 DATA
unvme-ns-29 SPARE
unvme-ns-30 SPARE
unvme-ns-31 SPARE
You can create a POS volume from the POS array created in the previous step. However, you need to mount the array first. Let's check out the status of the POS array.
The array list command will display the status of POS arrays. You can see POSArray is being Unmounted.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array list
Index |Name |DatetimeCreated |DatetimeUpdated |Status
----- |---------- |--------------------- |--------------------- |----------
0 |POSArray |2021-09-10 16:25:04 +0900 |2021-09-10 16:25:04 +0900 |Unmounted
Mount POSArray using the array mount command. It may take some time.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array mount --array-name POSArray
Check out the status of POSArray has changed to Mounted.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array list
Index |Name |DatetimeCreated |DatetimeUpdated |Status
----- |---------- |--------------------- |--------------------- |----------
0 |POSArray |2021-09-10 16:25:04 +0900 |2021-09-10 16:33:34 +0900 |Mounted
Let's execute the array list command with POSArray. Once POSArray is mounted, you can see that its state has changed from OFFLINE to NORMAL, which indicates that the array is ready to create POS volumes.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array list --array-name POSArray --unit
Array : POSArray
------------------------------------
Index : 0
State : NORMAL
Situation : NORMAL
Rebuilding Progress : 0
Total : 86.2T
Used : 0B
GCMode : none
Devices
Name Type
---- ------
uram0 BUFFER
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Now POSArray is ready to create a POS volume. Before creating a POS volume, we will create and configure an NVM subsystem first. The NVM subsystem will allow us to expose the POS volume to initiators over the network.
Create an NVMe-oF subsystem using the subsystem create command.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli subsystem create --subnqn nqn.2019-04.ibof:subsystem1 --serial-number IBOF00000000000001 --model-number IBOF_VOLUME_EXTENSION --max-namespaces 256 -o
Create an NVMf transport using the subsystem create-transport command.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli subsystem create-transport --trtype tcp -c 64 --num-shared-buf 4096
The subsystem add-listener command binds an NVM subsystem to a socket address. This allows the NVM subsystem to listen on a TCP port to serve incoming NVMe-oF requests.
Check the available network interfaces using ifconfig.
root@R2U14-PSD-3:/poseidonos/bin# ifconfig
ens21f0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST> mtu 1500
inet 10.1.2.14 netmask 255.255.0.0 broadcast 10.1.255.255
inet6 fe80::a236:9fff:fe78:dee4 prefixlen 64 scopeid 0x20<link>
ether a0:36:9f:78:de:e4 txqueuelen 1000 (Ethernet)
RX packets 10922807 bytes 4337740510 (4.3 GB)
RX errors 0 dropped 748811 overruns 0 frame 0
TX packets 830274 bytes 71577491 (71.5 MB)
TX errors 0 dropped 0 overruns 0 carrier 0 collisions 0
lo: flags=73<UP,LOOPBACK,RUNNING> mtu 65536
inet 127.0.0.1 netmask 255.0.0.0
inet6 ::1 prefixlen 128 scopeid 0x10<host>
loop txqueuelen 1000 (Local Loopback)
RX packets 235840 bytes 16797914 (16.7 MB)
RX errors 0 dropped 0 overruns 0 frame 0
TX packets 235840 bytes 16797914 (16.7 MB)
TX errors 0 dropped 0 overruns 0 carrier 0 collisions 0
Execute the add-listener command with the IP address and the port number of one of the available NICs (e.g., ens21f0).
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli subsystem add-listener -q nqn.2019-04.ibof:subsystem1 -t tcp -i 10.1.2.14 -p 1158
In the above example, the NVM subsystem "nqn.2019-04.ibof:subsystem1" has been configured to listen on socket address "10.1.2.14:1158" using TCP. If you omit this step, POS wouldn't be able to mount POS volumes.
At this point, you should be able to retrieve the configured NVM subsystem as in the following:
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli subsystem list
Name |Subtype |AddressCount |SerialNumber(SN) |ModelNumber(MN) |NamespaceCount
------------------------------------- |----------- |------------ |--------------------- |--------------------- |--------------
nqn.2014-08.org.nvmexpress.discovery |Discovery |0 | | |0
nqn.2019-04.ibof:subsystem1 |NVMe |1 |IBOF00000000000001 |IBOF_VOLUME_EXTENSION |0
In this step, we will create a POS volume, a logical entry point from the target side IO, which will be shown as a namespace in an NVM subsystem. A POS volume is wrapped as a bdev and can be attached to an NVM subsystem. bdev is a block device abstraction offered by the SPDK library.
Let's create a 50TB volume using the following command:
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli volume create --volume-name vol1 --array-name POSArray --size 50TB --maxiops 0 --maxbw 0
Check the volume information using the volume list command.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli volume list --array-name POSArray --unit
Name |ID |TotalCapacity |RemainingCapacity |Remaining% |Status |MaximumIOPS |MaximumBandwith
--------- |----- |---------------------------- |---------------------------- |--------- |---------- |---------------- |----------------
vol1 |0 |50T |0B |0 |Unmounted |0 |0
- Note 1: the initial status of a POS volume newly created is set to Unmounted.
- Note 2: you can see the remaining capacity is 0B. This is because the volume is unmounted.
We need to mount a POS volume to perform IO operations on it. After mounted, the POS volume will be attached to an NVM subsystem as a block device (bdev). Also, it will be seen as an NVM namespace.
Mount the volume using the volume mount command.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli volume mount --volume-name vol1 --array-name POSArray
Check if the status and the remaning capacity of the volume have changed to "Mounted" and 50 TB, respectively.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli volume list --array-name POSArray --unit
Name |ID |TotalCapacity |RemainingCapacity |Remaining% |Status |MaximumIOPS |MaximumBandwith
--------- |----- |---------------------------- |---------------------------- |--------- |---------- |---------------- |----------------
vol1 |0 |50T |50T |100 |Mounted |0 |0
- Note: the RemainingCapacity of a newly created volume is set to the TotalCapacity when the volume is mounted for the first time. Once every block of the volume is touched/written, the RemainingCapacity would remain at 0 until the volume gets deleted. The RemainingCapacity captures the internal state of block mappings and should not be interpreted as user's file system free space.
Using the subsystem list command, you can see the NVM namespace has been added to the NVM subsystem with its bdev_name.
Check if the NVM namespace information contains "bdev_0_POSArray" using the subsystem list command.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli subsystem list --subnqn nqn.2019-04.ibof:subsystem1
nqn : nqn.2019-04.ibof:subsystem1
subtype : NVMe
listen_addresses :
{
trtype : TCP
adrfam : IPv4
traddr : 10.1.2.14
trsvcid : 1158
}
allow_any_host : true
hosts :
serial_number : IBOF00000000000001
model_number : IBOF_VOLUME_EXTENSION
max_namespaces : 256
namespaces :
{
nsid : 1
bdev_name : bdev_0_POSArray
uuid : ddbacc0d-aec2-47e3-8654-4aa560fd549c
}
Once mounted, the connection is established between an initiator and an NVM subsystem. Then, POS volume becomes accessible over network by an initiator.
Unmount the volume.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli volume unmount --volume-name vol1 --array-name POSArray
WARNING: After unmounting volume vol1 in array POSArray, the progressing I/Os may fail if any.
Are you sure you want to unmount volume vol1? (y/n):y
Check if the volume status is now "Unmounted".
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli volume list --array-name POSArray --unit
Name |ID |TotalCapacity |RemainingCapacity |Remaining% |Status |MaximumIOPS |MaximumBandwith
--------- |----- |---------------------------- |---------------------------- |--------- |---------- |---------------- |----------------
vol1 |0 |50T |0B |0 |Unmounted |0 |0
Delete the volume.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli volume delete --volume-name vol1 --array-name POSArray
WARNING: After deleting volume vol1, you cannot recover the data of volume vol1 in the array POSArray
Are you sure you want to delete volume vol1? (y/n):y
Make sure that the volume list command does not display "vol1".
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli volume list --array-name POSArray --unit
Name |ID |TotalCapacity |RemainingCapacity |Remaining% |Status |MaximumIOPS |MaximumBandwith
--------- |----- |---------------------------- |---------------------------- |--------- |---------- |---------------- |----------------
POS volume can be deleted only when it is in the Unmounted state.
Unmount the array.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array unmount --array-name POSArray
WARNING: After unmounting array POSArray, all the volumes in the array will be unmounted.
In addition, progressing I/Os may fail if any.
Are you sure you want to unmount array POSArray? (y/n):y
Make sure that the status of POSArray is now "Unmounted".
Index |Name |DatetimeCreated |DatetimeUpdated |Status
----- |---------- |--------------------- |--------------------- |----------
0 |POSArray |2021-09-10 16:25:04 +0900 |2021-09-10 16:33:34 +0900 |Unmounted
Delete the array. It make take a few minutes to fininsh. In this demonstration, it took 6 minutes.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array delete --array-name POSArray
WARNING: After deleting array POSArray, you cannot recover the data of the volumes in the array.
Are you sure you want to delete array POSArray? (y/n):y
Make sure that the array list command does not display POSArray.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli array list
Index |Name |DatetimeCreated |DatetimeUpdated |Status
----- |---------- |--------------------- |--------------------- |----------
POS array can be deleted only when it is in the OFFLINE state.
Shutdown pos using the system stop commnad. The shutdown process may take a few minutes.
root@R2U14-PSD-3:/poseidonos/bin# ./poseidonos-cli system stop
WARNING: Stopping POS will affect the progressing I/Os.
Are you sure you want to stop POS? (y/n):y
Check if the process of POS has been terminated using the command below.
root@R2U14-PSD-3:/poseidonos/bin# ps -ef | grep poseidon | grep -v grep
Now you have learned the basic of POS. If you want to get deeper into POS, check out the documents: link