Faulty RAID Array Solutions for NAS Huawei OceanStor Dorado 3000 V6 16 Users

Essential tips and techniques for recovering a faulty RAID array from ⭐ NAS devices, ensuring data security.

Faulty RAID Array Solutions for NAS Huawei OceanStor Dorado 3000 V6 16 Users

Huawei OceanStor Dorado 3000 V6 16 NAS Data Recovery in 2024

In this step-by-step tutorial, we’ll show you how to rebuild your RAID and recover data from OceanStor Dorado 3000 V6 16.

Faulty RAID Array Solutions for NAS Huawei OceanStor Dorado 3000 V6 16 Users

RAID Recovery™ 2.6
Recover data from damaged RAID arrays inaccessible from a computer.
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Why can’t ordinary software tools restore files from RAID?

Conventional hard disks keep user’s data by writing it to their surface in a consecutive way, and this is how an entire file is stored on a single hard disk. However, when data is written to a RAID system, a file is divided into several parts. Then these parts are written consecutively to all hard disks within such array. The size of such parts may range from 2 KB to 2 MB, so each file is stored on several hard disks at the same time.

Such approach helps to speed up read and write operations, and it is evident that saving two parts of a file having the size of 1 GB to two hard disks simultaneously is much faster than saving the same 1 GB of data to one hard disk. However, this peculiarity makes file recovery more complicated.

Various RAID levels store information in different ways. Additionally, manufacturers like Huawei also introduce some modifications to this process, and that is why data can be written to hard disk in a wide variety of ways.

Can the use of specific backup and recovery strategies help reduce potential data loss risks on NAS Huawei OceanStor Dorado 3000 V6 16 devices?

Yes, the use of specific backup and recovery strategies can help reduce potential data loss risks on NAS Huawei OceanStor Dorado 3000 V6 16 devices. Here are some strategies that can be employed:

  1. Regular backups: Implementing regular backups of critical data stored on the NAS devices ensures that in the event of data loss or corruption, you can restore the data from a previous backup.
  2. Offsite backups: Storing backups offsite or in a separate location helps protect against physical damage or disasters that may affect the primary storage location.
  3. Incremental backups: Instead of performing full backups every time, using incremental backups can reduce the time and resources required for backup operations. This strategy involves backing up only the changed or new data since the last backup.
  4. Redundancy and replication: Configuring redundant storage systems or implementing data replication across multiple NAS devices can provide additional protection against data loss. This ensures that if one device fails, the data is still available on another device.
  5. Snapshot technology: Utilizing snapshot technology allows you to take point-in-time copies of data, enabling quick recovery in case of accidental deletion, data corruption, or ransomware attacks.
  6. Testing backups and recovery: Regularly testing the backup and recovery process helps ensure that the backups are valid and can be successfully restored when needed.

By implementing these backup and recovery strategies, the potential risks of data loss on NAS Huawei OceanStor Dorado 3000 V6 16 devices can be significantly reduced.

How to take hard disks out of the NAS and connect them to a PC?

Although NAS OceanStor Dorado 3000 V6 16 can be accessed over the network, you still need to take the hard disks out of the storage device and connect them to a Windows computer. Only in this case will the software be able to scan them properly. Here is what you should do:

  1. Turn off the storage and disconnect it from the power supply.

    WARNING! Before you start taking hard disks out of your NAS device, read the manual carefully. Incorrect actions may damage your network-attached storage and/or the hard disks within the RAID system.

  2. Take the hard disks out of the NAS one by one, carefully removing them from their slots. Remember that the disks are extremely vulnerable: hitting or dropping them may result in serious physical damage.

  3. Make sure to mark each hard disk in accordance with how they were installed inside the NAS.

  4. Remove the hard disks and connect them to the computer. In this video, we have explored what ports are used to connect hard disks, and what to do if there are not enough ports or connectors.

    Go to view
    How to Order Remote Data Recovery

    How to Order Remote Data Recovery

Restoring data with Hetman RAID Recovery

Hetman Raid Recovery

This program recovers data from damaged RAID arrays and is fully compatible with Huawei OceanStor Dorado 3000 V6 16. The hard disks that make up the RAID contain technical information about the algorithm used to save files. When launched, Hetman RAID Recovery reads this information and puts the damaged array together. Then you can open the disk and save your files. Also, you can recover the files accidentally deleted from the network drive.

Go to view
How to recover data from a Huawei

How to recover data from a Huawei

OceanStor Dorado 3000 V6 16 has 16 HDD slots, and it supports the following array types:

  • RAID 0;
  • RAID 1;
  • RAID 5;
  • RAID 6;
  • RAID 50;
  • RAID 60;
  • JBOD;

NAS supports:

  • exFAT, VFAT, FAT 12 / 16 / 32;
  • NTFS / ReFS;
  • APFS / HFS+;
  • Ext2 / 3 / 4 / ReiserFS / XFS / UFS / ZFS / Btrfs;
  • VMFS / HikvisionFS;

Safe recovery from disk images

This utility lets you save an entire copy of the disk to file and then work with this image instead of the actual disk. Such feature helps to protect data on the disk from:

  • Overwriting during the recovery process;
  • Loss resulting from bad sectors;
  • User mistakes.

To create an image, do the following:

  1. Make sure that you have enough free space to save the image. The image file size usually equals the disk size.

  2. Select the disk in the main window, and choose from the menu ToolsSave Disk. You can select multiple disks to be saved.

  3. When the image creation wizard starts, you can choose to save the entire disk or select only a part of it. Specify the parameters and click Next.

    Hetman Raid Recovery: Image Creation Wizard
  4. At this stage, you need to choose a directory where to save the image. Choose any disk connected to this PC, or save the image by FTP.

    Hetman Raid Recovery: hoose any disk connected to this PC, or save the image by FTP

Where are user’s files stored?

The Huawei OceanStor Dorado 3000 V6 16 network-attached storage keeps OS Linux operating system files on a separate RAID 1 (mirrored) array. Usually, all NAS systems create several volumes on every hard disk, and the first of them takes up to 2 Gb of space. This is where operating system files are stored. Other volumes are united into a RAID array where user’s data is written.

Comparison of software for RAID recovery

Product Operating system License type RAID controller support Supported file systems Virtual RAID controller support Data recovery from damaged RAID File preview
Hetman RAID Recovery Windows Paid Yes, over 100 controllers FAT, NTFS, Ext2/3/4, HFS+ Yes Yes Yes
DiskInternals RAID Recovery Windows Paid Yes, over 100 controllers FAT, NTFS, Ext2/3/4, HFS+ No Yes Yes
R-Studio Windows, Mac, Linux Paid Yes, over 200 controllers FAT, NTFS, Ext2/3/4, HFS+ Yes Yes Yes
UFS Explorer RAID Recovery Windows, Mac, Linux Paid Yes, over 1,000 controllers FAT, NTFS, Ext2/3/4, HFS+ Yes Yes Yes
EaseUS Data Recovery Windows Paid Yes, over 20 controllers FAT, NTFS, Ext2/3/4, HFS+ No Yes Yes
ReclaiMe Free RAID Recovery Windows Free Yes, over 100 controllers FAT, NTFS, Ext2/3/4, HFS+ Yes Yes Yes

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Comments (3)

  • Hetman Software: Data Recovery
    Hetman Software: Data Recovery 9.08.2022 12:31 #
    If you want to ask a question about data recovery, from NAS OceanStor Dorado 3000 V6 16, feel free to leave a comment!
  • Vincent Strefling
    Vincent Strefling 26.08.2023 01:46 #
    How to rebuild RAID on NAS Huawei OceanStor Dorado 3000 V6 16?
    • Hetman Software
      Hetman Software 26.08.2023 03:01 #

      To rebuild RAID on a Huawei OceanStor Dorado 3000 V6 16 NAS, follow these steps:

      1. Log in to the management interface of the NAS using the admin credentials.
      2. Navigate to the Storage tab and select RAID Management.
      3. In the RAID Management page, you will see the list of RAID groups configured on the NAS.
      4. Identify the RAID group that needs to be rebuilt and click on the Rebuild icon next to it.
      5. A dialog box will appear, prompting you to select the failed disk(s) that need to be replaced.
      6. Select the failed disk(s) and click on the Rebuild button.
      7. The NAS will start the rebuilding process, which may take some time depending on the size of the RAID group and the disk speed.
      8. Monitor the progress of the rebuild process in the RAID Management page. You can see the percentage of completion and estimated time remaining.
      9. Once the rebuild process is complete, the RAID group will be restored to its normal state.
      10. It is recommended to perform a thorough check of the RAID group to ensure its integrity and data consistency.

      Note: It is crucial to have spare disks available to replace the failed disks before starting the rebuild process. Additionally, it is recommended to have a backup of your data to prevent data loss during the rebuild process.

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Vladimir Artiukh

Author: Vladimir Artiukh, Technical Writer

Vladimir Artiukh is a technical writer for Hetman Software, as well as the voice and face of their English-speaking YouTube channel, Hetman Software: Data Recovery for Windows. He handles tutorials, how-tos, and detailed reviews on how the company’s tools work with all kinds of data storage devices.

Oleg Afonin

Editor: Oleg Afonin, Technical Writer

Oleg Afonin is an expert in mobile forensics, data recovery and computer systems. He often attends large data security conferences, and writes several blogs for such resources as xaker.ru, Elcomsoft and Habr. In addition to his online activities, Oleg’s articles are also published in professional magazines. Also, Oleg Afonin is the co-author of a well-known book, Mobile Forensics - Advanced Investigative Strategies.

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Questions and answers

  • What is iSCSI and how does it work in the context of storage networking?

    iSCSI (Internet Small Computer System Interface) is a protocol that allows SCSI commands to be transmitted over an IP network, enabling the use of IP networks to connect storage devices.

    In the context of storage networking, iSCSI works by encapsulating SCSI commands and data into IP packets and transmitting them over TCP/IP networks. It allows storage devices, such as disk arrays or tape libraries, to be connected to servers or hosts over a network, rather than using traditional direct-attached storage (DAS) methods.

    iSCSI uses the client-server model, where the server is the storage device and the client is the server or host that requires access to the storage. The client initiates a connection to the storage device using the iSCSI protocol, and once the connection is established, it can send SCSI commands to the storage device to perform various storage operations, such as reading or writing data.

    To establish a connection, the client and storage device negotiate parameters such as authentication, security, and target identification. The storage device presents itself as a target, which the client can discover and connect to. Once connected, the client can send SCSI commands and data to the target, which processes the commands and performs the requested storage operations.

    iSCSI leverages existing IP networks, making it a cost-effective solution for storage networking as it eliminates the need for dedicated storage area networks (SANs). It allows for the consolidation of storage resources and enables remote access to storage devices over long distances. iSCSI can also be used in conjunction with other storage protocols, such as Fibre Channel, to provide flexible and scalable storage networking solutions.

  • What are the advantages of using iSCSI for storage connectivity compared to other protocols?

    There are several advantages of using iSCSI (Internet Small Computer System Interface) for storage connectivity compared to other protocols:

    1. Compatibility: iSCSI is compatible with existing Ethernet infrastructure, making it easy to integrate into existing networks. It utilizes standard TCP/IP networking, which is widely supported by operating systems and network devices.
    2. Cost-effective: iSCSI eliminates the need for specialized Fibre Channel (FC) hardware, which can be expensive. By leveraging Ethernet infrastructure, organizations can use commodity hardware and achieve significant cost savings.
    3. Scalability: iSCSI allows for easy scalability as it can leverage existing Ethernet switches and routers. It enables organizations to expand their storage infrastructure without the need for additional specialized hardware.
    4. Flexibility: iSCSI supports both block-level and file-level storage, providing flexibility in how data is stored and accessed. It can be used for various applications, including virtualization, database storage, and file sharing.
    5. Performance: With advancements in technology, iSCSI performance has improved significantly, making it suitable for high-performance storage environments. It can support high-speed Ethernet connections, such as 10 Gigabit Ethernet, to provide fast data transfer rates.
    6. Centralized management: iSCSI allows for centralized storage management, making it easier to configure, monitor, and manage storage resources. This simplifies storage administration and improves overall efficiency.
    7. Distance: iSCSI supports long-distance connectivity, allowing organizations to connect storage devices over a wide area network (WAN). This is particularly beneficial for disaster recovery and remote backup scenarios.
    8. Security: iSCSI provides security features such as authentication, data encryption, and access control, ensuring the confidentiality and integrity of data during transmission.

    Overall, iSCSI offers a cost-effective, scalable, and flexible storage connectivity solution that can be easily integrated into existing networks, making it a popular choice for many organizations.

  • Does the NAS Huawei OceanStor Dorado 3000 V6 16 support iSCSI protocol, and if so, what are the key features and capabilities offered by the device for iSCSI storage connectivity?

    Yes, the NAS Huawei OceanStor Dorado 3000 V6 16 does support the iSCSI protocol for storage connectivity. Some of the key features and capabilities offered by the device for iSCSI storage connectivity are:

    1. High Performance: The device provides high-speed data transfer rates and low latency, ensuring efficient storage operations.
    2. Multi-protocol Support: It supports both iSCSI and FC protocols, allowing for flexible storage connectivity options.
    3. Virtualization Support: The device is compatible with virtualization platforms such as VMware, Hyper-V, and OpenStack, enabling efficient storage management in virtualized environments.
    4. Advanced Data Management: It offers features like thin provisioning, deduplication, and compression to optimize storage utilization and reduce storage costs.
    5. Data Protection: The device provides various data protection mechanisms like snapshots, remote replication, and data encryption to ensure the safety and integrity of stored data.
    6. Scalability: It supports scale-out architecture, allowing for seamless expansion of storage capacity as per the growing needs of the organization.
    7. Quality of Service (QoS): The device offers QoS capabilities to prioritize storage resources and ensure consistent performance for critical workloads.
    8. Easy Management: It provides a user-friendly management interface with centralized control and monitoring capabilities, simplifying storage administration tasks.

    Overall, the Huawei OceanStor Dorado 3000 V6 16 offers robust iSCSI storage connectivity with advanced features and capabilities to meet the demands of modern storage environments.

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