Tino Rachui: Using MySQL Cluster in Sun's Virtual Desktop Infrastructure
Sun Virtual Desktop Infrastructure (VDI3) is a desktop virtualization technology that provides virtual desktop access, brokering, and hosting, enabling Windows, OpenSolaris, or Linux virtual desktops. These desktops can be accessed by using existing PCs, Macs or thin clients such as Sun Ray.
My RHEL virtual Machine Does not have Virtual Machine Manager Desktop Tool
Hi,
I don't seem to have the Virtual Machine Manager Desktop tool set up on my RHEL6 Machine. The Linux machine runs off VMWare player and I'm not sure whether it is a VMWare software issue or a problem with the RHEL6... (2 Replies)
Hello experts -
I am planning to install a Sun cluster 4.0 zone cluster fail-over. few basic doubts.
(1) Where should i install the cluster s/w binaries ?. ( global zone or the container zone where i am planning to install the zone fail-over)
(2) Or should i perform the installation on... (0 Replies)
Yesterday my customer told me to expect a vcs upgrade to happen in the future. He also plans to stop using HDS and move to EMC.
Am thinking how to migrate to sun cluster setup instead.
My plan as follows leave the existing vcs intact as a fallback plan.
Then install and build suncluster on... (5 Replies)
SYSTEMD-DETECT-VIRT(1) systemd-detect-virt SYSTEMD-DETECT-VIRT(1)NAME
systemd-detect-virt - Detect execution in a virtualized environment
SYNOPSIS
systemd-detect-virt [OPTIONS...]
DESCRIPTION
systemd-detect-virt detects execution in a virtualized environment. It identifies the virtualization technology and can distinguish full
machine virtualization from container virtualization. systemd-detect-virt exits with a return value of 0 (success) if a virtualization
technology is detected, and non-zero (error) otherwise. By default, any type of virtualization is detected, and the options --container and
--vm can be used to limit what types of virtualization are detected.
When executed without --quiet will print a short identifier for the detected virtualization technology. The following technologies are
currently identified:
Table 1. Known virtualization technologies (both VM, i.e. full hardware virtualization, and container, i.e. shared kernel virtualization)
+----------+----------------+--------------------------------------+
|Type | ID | Product |
+----------+----------------+--------------------------------------+
|VM | qemu | QEMU software virtualization, |
| | | without KVM |
| +----------------+--------------------------------------+
| | kvm | Linux KVM kernel virtual machine, |
| | | with whatever software, except |
| | | Oracle Virtualbox |
| +----------------+--------------------------------------+
| | zvm | s390 z/VM |
| +----------------+--------------------------------------+
| | vmware | VMware Workstation or Server, and |
| | | related products |
| +----------------+--------------------------------------+
| | microsoft | Hyper-V, also known as Viridian or |
| | | Windows Server Virtualization |
| +----------------+--------------------------------------+
| | oracle | Oracle VM VirtualBox (historically |
| | | marketed by innotek and Sun |
| | | Microsystems), |
| | | for legacy and KVM |
| | | hypervisor |
| +----------------+--------------------------------------+
| | xen | Xen hypervisor (only domU, not dom0) |
| +----------------+--------------------------------------+
| | bochs | Bochs Emulator |
| +----------------+--------------------------------------+
| | uml | User-mode Linux |
| +----------------+--------------------------------------+
| | parallels | Parallels Desktop, Parallels Server |
| +----------------+--------------------------------------+
| | bhyve | bhyve, FreeBSD hypervisor |
+----------+----------------+--------------------------------------+
|Container | openvz | OpenVZ/Virtuozzo |
| +----------------+--------------------------------------+
| | lxc | Linux container implementation by |
| | | LXC |
| +----------------+--------------------------------------+
| | lxc-libvirt | Linux container implementation by |
| | | libvirt |
| +----------------+--------------------------------------+
| | systemd-nspawn | systemd's minimal container |
| | | implementation, see systemd- |
| | | nspawn(1) |
| +----------------+--------------------------------------+
| | docker | Docker container manager |
| +----------------+--------------------------------------+
| | rkt | rkt app container runtime |
+----------+----------------+--------------------------------------+
If multiple virtualization solutions are used, only the "innermost" is detected and identified. That means if both machine and container
virtualization are used in conjunction, only the latter will be identified (unless --vm is passed).
OPTIONS
The following options are understood:
-c, --container
Only detects container virtualization (i.e. shared kernel virtualization).
-v, --vm
Only detects hardware virtualization).
-r, --chroot
Detect whether invoked in a chroot(2) environment. In this mode, no output is written, but the return value indicates whether the
process was invoked in a chroot() environment or not.
--private-users
Detect whether invoked in a user namespace. In this mode, no output is written, but the return value indicates whether the process was
invoked inside of a user namespace or not. See user_namespaces(7) for more information.
-q, --quiet
Suppress output of the virtualization technology identifier.
-h, --help
Print a short help text and exit.
--version
Print a short version string and exit.
EXIT STATUS
If a virtualization technology is detected, 0 is returned, a non-zero code otherwise.
SEE ALSO systemd(1), systemd-nspawn(1), chroot(2), namespaces(7)systemd 237 SYSTEMD-DETECT-VIRT(1)