Control domain. The Logical Domains Manager runs in this domain, which enables you to create and manage other logical domains, and to allocate virtual resources to other domains. You can have only one control domain per server. The control domain is the first domain created when you install the Logical Domains software. The control domain is named primary.
Service domain. A service domain provides virtual device services to other domains, such as a virtual switch, a virtual console concentrator, and a virtual disk server. Any domain can be configured as a service domain.
I/O domain. An I/O domain has direct ownership of and direct access to physical I/O devices, such as a network card in a PCI EXPRESS® controller. An I/O domain is often used as a service domain to share physical devices with other domains in the form of virtual devices. The control domain is an I/O domain, and it can also be used as a service domain. The number of I/O domains that you can have depends on your platform. For example, if you are using a Sun SPARC Enterprise® Server T5440, you can have up to four I/O domains.
Guest domain. A guest domain is a non-I/O domain that consumes virtual device services that are provided by one or more service domains. A guest domain does not have any physical I/O devices, but only has virtual I/O devices, such as virtual disks and virtual network interfaces.
You can install the Logical Domains Manager on an existing system that is not already configured with Logical Domains. In this case, the current instance of the OS becomes the control domain. Also, the system is configured as a Logical Domains system that has only one domain, the control domain. After configuring the control domain, you can balance the load of applications across other domains to make the most efficient use of the entire system. You do this by adding domains and moving those applications from the control domain to the new domains.
The Logical Domains Manager uses a command-line interface (CLI) to create and configure logical domains. The CLI is a single command, ldm, that has multiple subcommands. See the ldm(1M) man page.
In a Logical Domains environment, you can provision up to 128 domains on an UltraSPARC® T2 Plus processor system. These systems have a limited number of I/O buses and physical I/O slots. As a result, you cannot provide exclusive access to a physical disk and network devices to all domains on these systems. You can assign a PCI bus to a domain to provide it with access to a physical device. Note that this solution is insufficient to provide all domains with exclusive device access. See I/O Domains and PCI EXPRESS Buses. This lack of direct physical I/O device access is addressed by implementing a virtualized I/O model.
Any logical domains that have no physical I/O access are configured with virtual I/O devices that communicate with a service domain. The service domain runs a virtual device service to provide access to a physical device or to its functions. In this client-server model, virtual I/O devices either communicate with each other or with a service counterpart through interdomain communication channels called logical domain channels (LDCs). The virtualized I/O functionality includes support for virtual networking, storage, and consoles.
Logical Domains uses the virtual network device and virtual network switch device to implement virtual networking. The virtual network (vnet) device emulates an Ethernet device and communicates with other vnet devices in the system by using a point-to-point channel. The virtual switch (vsw) device primarily functions as a multiplexor of all the virtual network's incoming and outgoing packets. The vsw device interfaces directly with a physical network adapter on a service domain, and sends and receives packets on behalf of a virtual network. The vsw device also functions as a simple layer-2 switch and switches packets between the vnet devices connected to it within the system.
The virtual storage infrastructure uses a client-server model to enable logical domains to access block-level storage that is not directly assigned to them. The model uses the following components:
Although the virtual disks appear as regular disks on the client domain, most disk operations are forwarded to the virtual disk service and processed on the service domain.
In a Logical Domains environment, console I/O from the primary domain is directed to the service processor. The console I/O from all other domains is redirected to the service domain that is running the virtual control concentrator (vcc). The domain that runs the vcc is typically the primary domain. The virtual console concentrator service functions as a concentrator for all domains' console traffic, and interfaces with the virtual network terminal server daemon (vntsd) to provide access to each console through a UNIX socket.
Dynamic reconfiguration (DR) is the ability to add or remove resources while the operating system is running. The ability to perform dynamic reconfiguration of a particular resource type is dependent on having support in the OS running in the logical domain.
Dynamic reconfiguration is supported for the following resources:
Virtual CPUs – Supported in all versions of the Solaris 10 OS
Virtual I/O devices – Supported in at least the Solaris 10 10/08 OS
Memory – Not supported
Physical I/O devices – Not supported
To use the dynamic reconfiguration capability, the Logical Domains dynamic reconfiguration daemon, drd, must be running in the domain that you want to change. See the drd(1M) man page.
After the next reboot of the OS
After a stop and start of the logical domain
The Logical Domains Manager 1.2 software restricts delayed reconfiguration operations to the control domain. For all other domains, you must stop the domain to modify the configuration unless the resource can be dynamically reconfigured.
If you are using a Sun UltraSPARC T1 processor, when the Logical Domains Manager is first installed and enabled (or when the configuration is restored to factory-default), ldmd runs in configuration mode. In this mode, reconfiguration requests are accepted and queued up, but are not acted upon. This allows a new configuration to be generated and stored on the SP without affecting the state of the running machine. Thus, configuration mode is not encumbered by any restrictions such as delayed reconfiguration and reboot of I/O domains.
When a delayed reconfiguration is in progress on the control domain, other reconfiguration requests for the control domain are deferred until it is rebooted, or stopped and started. Also, when a delayed reconfiguration is outstanding for the control domain, reconfiguration requests for other logical domains are severely restricted and will fail with an appropriate error message.
The Logical Domains Manager ldm cancel-operation reconf command cancels delayed reconfiguration operations on the control domain. You can list delayed reconfiguration operations by using the ldm list-domain command. For more information about how to use the delayed reconfiguration feature, see the ldm(1M) man page.
You cannot use the ldm cancel-operation reconf command if any other ldm remove-* commands have already performed a delayed reconfiguration operation on virtual I/O devices. The ldm cancel-operation reconf command fails in these circumstances.
You can use the ldm command to store the current configuration of a logical domain on the service processor. You can add a configuration, specify a configuration to be used, remove a configuration, and list the configurations. See the ldm(1M) man page.
You can also use an ALOM CMT Version 1.3 command to select a configuration to boot, see Using LDoms With ALOM CMT.
For information about managing configurations, see Managing Logical Domains Configurations.