For personal purposes, BarracudaDrive is available for free to use and includes support for almost all common operating systems and platforms. BarracudaDrive is capable of transforming the computer or any other device into a powerful, safe, and secure online cloud storage system. It permits users to access and share all of their files of any size and format from any connected system or device across the globe.
BarracudaDrive provides the various plugins to the users as well to set their online storage server system according to their requirements. Datacore SANsymphony is a software-defined storage solution for SAN and HCI, ideal for businesses that are looking for greater efficacy and scalability in their environment.
It provides an automated storage platform that offers transparent, policy-based management of data with IT operations professionals. With a management solution that prevents overprovisioning and data loss, businesses can eliminate storage constraints and realize a high-performance and scalable infrastructure. Businesses will have complete visibility into storage utilization and be able to extend their data availability without serving too much time and money.
SANsymphony provides a single user interface that allows IT administrators to monitor, configure, and manage their storage environment. The key features are balance capacity, uniform load, thin provision capacity, automated data recovery, RAM caching, automated data tiering, machine learning analytics, and more to add.
It works similarly to other remote replication solutions by providing small, virtual computer interfaces that work across local, remote, and cloud-based storage systems. This simplified platform provides organizations with the ability to simplify storage networking for better utilization of resources while also simplifying the management of the system as a whole.
The UnityVSA system architecture is composed of different components that are accessed through virtual machines. Moreover, it comes with incredible feature sets provided by the different models pertain to their scalability and storage capacity. ReadyNAS is one of the resourceful and dynamic storage solutions designed for diverse use cases. There is an intuitive interface that has been designed to allow you to easily upload, organize and share your files with ease.
It leverages you with a centralized backup: using the ReadyCLOUD, you can backup your data from various devices and computers to the same location. Then automatically sync to your ReadyNAS, so you can access and retrieve lost items from any device. ReadyNAS gives you complete control of your data by allowing you to archive, share or archive each file individually.
It gives you complete control of your data; you can upload your files to the cloud or just use them as a file server. XigmaNAS is an agile, open-source storage NAS, provides a steadfast management web interface in order to have a cutting-edge storage solution for users. It has multiple backup options, including key-value pair, CMOS, and external USB hard drive or network drive to save backups on cloud or storage servers.
It leverages you with multiple users via login, so functionally like a virtual machine in the sense of having multiple active sessions accessing the system at any given time. It provides you the ability to manage and share an extensive amount of your account data in a convenient way across your network.
For this reason, vNAS runs flawlessly, even on virtual machines and embedded systems. SvSAN is a virtual storage solution, seems to be a perfect option for edge computing infrastructures. ReadyNAS software gives administrators the freedom to instantly create VM-centric storage pools with an easy-to-use interface for IT professionals. With instant provisioning, admins can set up SvSAN for anything from small home labs to enterprise service providers. SvSAN is intended to be very simple to install and manage does no matter if it is deployed as a piece of a hyper-converged solution or as a storage-only for any server environment.
It works by creating highly available shared storage access to two notes or more and has the unique ability to work on any x86 server. The rich features are managing thousands of clusters, being lightweight, simplified deployments, complete scalability support, centralized deployment and management, and more to add.
ESOS is a Linux distribution that assists as a block-level storage server in a storage area network. It provides the power and flexibility needed for data centers and enterprise server farms to manage large-scale storage environments.
In addition, a storage object subscribes to various events from the storage system. In response, it can generate events of its own, which can be used by other components in order to trigger specific actions. There are multiple features for you that include two operating modes, a text-based user interface, Create virtual tape libraries, Software-based block layer cache solutions Advanced Fiber Channel, inline data de-duplication, and more to add.
Napp-it is a ZFS storage system designed for home users, takes all of your storage devices, and handles them as one single logical device. This allows you to allocate more space to files that need it or speed up access by putting hot data on fast devices. With this, you can share your files with Windows or Mac OSX clients and can even keep your data on a USB hard drive, which is your plugin when you want to access your data over the network.
Just choose the file system that is most appropriate for your needs, and Napp-it will ensure your data is spread evenly over all available disks. Napp-it supports for dell, HP, ex. DataOn, and other promising data hardware servers. The key features of this utility are strong encryption support, pool checkpoints and trim functionalities, HA cluster, key management, trim options, storage appliance setup, Web-UI, and more to add.
It provides highly-scalable and intelligent software interfaces with the hypervisor to provide improved performance and reduced cost. It comes with a wide range of management capabilities, including SAN replication, multi-site disaster recovery, and full-featured zoning.
This will be the crucial thing to deliver an optimal solution that maximizes scalability, performance, and availability for VMware HCI deployments. Amahi Home Server is a media, home, and app server software that comes with an easy-to-use interface. It comprises the finest media, backup, and web apps for small networks. Amahi is a great home media server with apps that work together to host and share music, movies, pictures, and files with DLNA devices.
It is an ideal solution for most people who want to enjoy true digital freedom in their homes, providing the ability to store your digital media in one central location. There is a full-featured Internet Media Server for sharing your media on the Internet, including browsing, downloading, and uploading files.
You have the ability to access your media from any web browser on the Internet. This means you can stream movies, music, pictures, and more from anywhere. More likely, there is no need to install any special software. The cross-platform allows you to share files with other users or allow them to edit your files,. Access in the world without having to install on any device! Note that Amahi requires a broadband Internet connection for full software functionality.
Full-featured network file sharing with advanced permission controls to enable the most secure experience at home. It is a scalable, high-performance storage cluster that can easily scale from small data centers up to the largest ones around the globe. PetaSAN software provides a flexible and easy-to-use platform that helps in managing and maintaining PetaSAN installations in operational efficiency and reliability.
The storage engine is responsible for implementing basic functions like data replication, protection, etc. It has been designed to provide rich functionalities like data protection, replication, high availability, data locality, and more to add. There are multiple features to include: VMware vSphere deployments, large capacity backups, Database Servers, multiple protocols, scale-up storage, support for adding more clusters, integrated end-to-end solution support, and more to add.
ZFSguru is a perfect solution if you have to manage a large number of data. This Network will get access to the openfiler based storage. To configure the Network Access go to System menu. Choose the Network Setup from System section on the right. In the Network Access Configuration you will be configuring the Network for the access of the Openfiler storage by third party devices.
Click Update to save the Network configuration. Volumes Volumes menu provides the different volume configurations options. For configuring the Volumes go to the Volumes section on the right. Cluster Quota Shares We will look at the services which Openfiler has.
Go to the Services menu. Go to Volumes, Add volume. Openfiler will respond with a list of available targets. In a simple case, all you need is one target. You only need one target. On a new Openfiler, there will be no targets, and Openfiler will offer to make a new one. Openfiler will generate a valid IQN for you. You could use this IQN as is, if desired. Once you have at least one target, you will see a long list of target settings you could optionally modify. The default options work fine for general use.
So in the simplest case, you have one disk LUN you want to offer to a client. You have one target to use. So now you have to map the LUN to the target. Go to LUN Mapping. You will see your disk LUN and Openfiler will suggest mapping it to the one and only target.
Click Map. Note that it is valid to have a number of LUNs mapped to one target. You could have also have a number of targets with one LUN each. You can mix and match like this, whatever makes sense to you. Whatever floats your boat. The next required task is to set up network access control. Basically you need to tell Openfiler the IP address or name of the client machine that will use the target. Openfiler will only let that client access the target.
If some other client issues a SendTargets command to Openfiler, Openfiler will return a null list that client is not allowed to access a target. By default, Openfiler will deny access to the target by anyone. Probably just one or two hosts. The easiest thing to do is add these hosts, host IP address by host IP address. Examples in the Openfiler admin manual for a host entry use a mask of Add the hosts you need to grant access to.
Just fill in the IP address information for the host and hit Update. You have told the Openfiler about your client hosts, but Openfiler is set to default deny. It will still not trust them. Change the clients from deny to allow and hit Update. You should be able to select the LUN, and read and write to it. This will exercise the whole iSCSI connection, the client initiator, the network between initiator and target, and Openfiler.
A quick way to is to get a disk benchmark utility, and set it to do a bunch of writes against the iSCSI mounted disk. If this turns out to be a hassle either on a client or on the Openfiler host, then think about getting hardware initiators that do iSCSI packet processing on the NIC itself.
Make sure that nothing is using any iSCSI target, all is quiet. Turn off all virtual machines, for example. Then use the Openfiler GUI to turn off the filer. Then use the Openfiler GUI to reboot the filer. Then use the Openfiler GUI to update the filer. Reboot it after the update. Patch, reboot, patch, reboot, until no patches are needed. You can easily make a volume larger. You must have free space in the volume group it is housed in in order to do this.
Snapshots can come in very handy to instantly recover to a point in time. You can make the volume bigger at any time, even when the volume is in use. However iSCSI clients will not see the new larger size until you restart the iscsi-target service on the Openfiler server. So in order for clients to see the new larger size, all iSCSI disk clients must be off or quiet. Also note that this is a one way operation. If you make a mistake, your only option to make the volume is to copy the contents somewhere else, destroy the volume, make a new replacement with the correct smaller size, and copy the contents back.
Then if you need still more room, make it a bit bigger again. Use the GUI to make a volume larger. Log into the Openfiler GUI. Click on the Volumes tab. Select the volume group that the logical volume you want to expand is housed in and click Change. Look at your volume group. Make sure that you have some free room to expand the logical volume into.
Find your volume and click the Edit link in the Properties column. The GUI opens an Edit properties dialog. The volume is quickly, almost instantly made larger. However, the iscsi-target service is still reporting to iSCSI disk clients the former smaller size.
In order to have clients see the new size, you must restart the iscsi-target service. First, make sure that no iSCSI target is in use by clients. Once all iSCSI disks are not in use, then restart the iscsi-target service. You can use the GUI or the command line. From the GUI, go to the Services tab. Disable, the re-enable the iSCSI target server. Even though the iscsi-target server is now reporting the new larger size, clients may still not see it.
The GUI has backup and recovery tools in it. I can load a filer from media and configure it in maybe an hour. Openfiler has built in snapshots, and some fancy command line tools like drbd and zumastor. A good first step is to run Openfiler the system on one small hard drive, and client storage on other disks. The usual culprit is that you missed a step along the way. Recheck your work, go through each step and verify that you did it correctly.
Make sure a host mask entry is If you are sure that every is done correctly , every now and then it still might not work. Try restarting the iSCSI target service. Sometimes just disabling, and then immediately re-enabling the service seems to do the trick. Try another.
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