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Chapter 7. Viewing information about virtual machines

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When you need to adjust or troubleshoot any aspect of your virtualization deployment on RHEL 8, the first step you need to perform usually is to view information about the current state and configuration of your virtual machines (VMs). To do so, you can use the command-line interface or the web console. You can also view the information in the VM’s XML configuration.

7.1. Viewing virtual machine information by using the command-line interface

To retrieve information about virtual machines (VMs) on your host and their configurations, use one or more of the following commands.

Procedure

  • To obtain a list of VMs on your host:

    # virsh list --all
    Id   Name              State
    ----------------------------------
    1    testguest1             running
    -    testguest2             shut off
    -    testguest3             shut off
    -    testguest4             shut off
  • To obtain basic information about a specific VM:

    # virsh dominfo testguest1
    Id:             1
    Name:           testguest1
    UUID:           a973666f-2f6e-415a-8949-75a7a98569e1
    OS Type:        hvm
    State:          running
    CPU(s):         2
    CPU time:       188.3s
    Max memory:     4194304 KiB
    Used memory:    4194304 KiB
    Persistent:     yes
    Autostart:      disable
    Managed save:   no
    Security model: selinux
    Security DOI:   0
    Security label: system_u:system_r:svirt_t:s0:c486,c538 (enforcing)
  • To obtain the complete XML configuration of a specific VM:

    # virsh dumpxml testguest2
    
    <domain type='kvm' id='1'>
      <name>testguest2</name>
      <uuid>a973434f-2f6e-4ěša-8949-76a7a98569e1</uuid>
      <metadata>
    [...]

    For an annotated example of a VM’s XML configuration, see Sample virtual machine XML configuration

  • For information about a VM’s disks and other block devices:

    # virsh domblklist testguest3
     Target   Source
    ---------------------------------------------------------------
     vda      /var/lib/libvirt/images/testguest3.qcow2
     sda      -
     sdb      /home/username/Downloads/virt-p2v-1.36.10-1.el7.iso

    For instructions on managing a VM’s storage, see Managing storage for virtual machines.

  • To obtain information about a VM’s file systems and their mountpoints:

    # virsh domfsinfo testguest3
    Mountpoint   Name   Type   Target
    ------------------------------------
     /            dm-0   xfs
     /boot        vda1   xfs
  • To obtain more details about the vCPUs of a specific VM:

    # virsh vcpuinfo testguest4
    VCPU:           0
    CPU:            3
    State:          running
    CPU time:       103.1s
    CPU Affinity:   yyyy
    
    VCPU:           1
    CPU:            0
    State:          running
    CPU time:       88.6s
    CPU Affinity:   yyyy

    To configure and optimize the vCPUs in your VM, see Optimizing virtual machine CPU performance.

  • To list all virtual network interfaces on your host:

    # virsh net-list --all
     Name       State    Autostart   Persistent
    ---------------------------------------------
     default    active   yes         yes
     labnet     active   yes         yes

    For information about a specific interface:

    # virsh net-info default
    Name:           default
    UUID:           c699f9f6-9202-4ca8-91d0-6b8cb9024116
    Active:         yes
    Persistent:     yes
    Autostart:      yes
    Bridge:         virbr0

    For details about network interfaces, VM networks, and instructions for configuring them, see Configuring virtual machine network connections.

  • For instructions on viewing information about storage pools and storage volumes on your host, see Viewing virtual machine storage information by using the CLI.

7.2. Viewing virtual machine information by using the web console

By using the RHEL 8 web console, you can view information about all VMs and storage pools the web console session can access.

You can view information about a selected VM to which the web console session is connected. This includes information about its disks, virtual network interface and resource usage.

7.2.1. Viewing a virtualization overview in the web console

By using the web console, you can access a virtualization overview that contains summarized information about available virtual machines (VMs), storage pools, and networks.

Prerequisites

Procedure

  • Click Virtual Machines in the web console’s side menu.

    A dialog box appears with information about the available storage pools, available networks, and the VMs to which the web console is connected.

    Image displaying the virtual machine tab of the web console.

The information includes the following:

  • Storage Pools - The number of storage pools, active or inactive, that can be accessed by the web console and their state.
  • Networks - The number of networks, active or inactive, that can be accessed by the web console and their state.
  • Name - The name of the VM.
  • Connection - The type of libvirt connection, system or session.
  • State - The state of the VM.

7.2.2. Viewing storage pool information by using the web console

By using the web console, you can view detailed information about storage pools available on your system. Storage pools can be used to create disk images for your virtual machines.

Prerequisites

Procedure

  1. Log in to the RHEL 8 web console.

    For details, see Logging in to the web console.

  2. Click Storage Pools at the top of the Virtual Machines interface.

    The Storage pools window appears, showing a list of configured storage pools.

    Image displaying the storage pool tab of the web console with information about existing storage pools.

    The information includes the following:

    • Name - The name of the storage pool.
    • Size - The current allocation and the total capacity of the storage pool.
    • Connection - The connection used to access the storage pool.
    • State - The state of the storage pool.
  3. Click the arrow next to the storage pool whose information you want to see.

    The row expands to reveal the Overview pane with detailed information about the selected storage pool.

    Image displaying the detailed information about the selected storage pool.

    The information includes:

    • Target path - The location of the storage pool.
    • Persistent - Indicates whether or not the storage pool has a persistent configuration.
    • Autostart - Indicates whether or not the storage pool starts automatically when the system boots up.
    • Type - The type of the storage pool.
  4. To view a list of storage volumes associated with the storage pool, click Storage Volumes.

    The Storage Volumes pane appears, showing a list of configured storage volumes.

    Image displaying the list of storage volumes associated with the selected storage pool.

    The information includes:

    • Name - The name of the storage volume.
    • Used by - The VM that is currently using the storage volume.
    • Size - The size of the volume.

7.2.3. Viewing basic virtual machine information in the web console

By using the web console, you can view basic information, such as assigned resources or hypervisor details, about a selected virtual machine (VM).

Prerequisites

Procedure

  1. Log in to the RHEL 8 web console.

    For details, see Logging in to the web console.

  2. Click Virtual Machines in the web console side menu.
  3. Click the VM whose information you want to see.

    A new page opens with an Overview section with basic information about the selected VM and a Console section to access the VM’s graphical interface.

    The Overview section includes the following general VM details:

    • State - The VM state, Running or Shut off.
    • Memory - The amount of memory assigned to the VM.
    • CPU - The number and type of virtual CPUs configured for the VM.
    • Boot Order - The boot order configured for the VM.
    • Autostart - Whether or not autostart is enabled for the VM.

    The information also includes the following hypervisor details:

    • Emulated Machine - The machine type emulated by the VM.
    • Firmware - The firmware of the VM.

7.2.4. Viewing virtual machine resource usage in the web console

By using the web console, you can view memory and virtual CPU usage of a selected virtual machine (VM).

Prerequisites

Procedure

  1. Log in to the RHEL 8 web console.

    For details, see Logging in to the web console.

  2. In the Virtual Machines interface, click the VM whose information you want to see.

    A new page opens with an Overview section with basic information about the selected VM and a Console section to access the VM’s graphical interface.

  3. Scroll to Usage.

    The Usage section displays information about the memory and virtual CPU usage of the VM.

    Image displaying the memory and CPU usage of the selected VM.

7.2.5. Viewing virtual machine disk information in the web console

By using the web console, you can view detailed information about disks assigned to a selected virtual machine (VM).

Prerequisites

Procedure

  1. Log in to the RHEL 8 web console.

    For details, see Logging in to the web console.

  2. Click the VM whose information you want to see.

    A new page opens with an Overview section with basic information about the selected VM and a Console section to access the VM’s graphical interface.

  3. Scroll to Disks.

    The Disks section displays information about the disks assigned to the VM, as well as options to Add or Edit disks.

    Image displaying the disk usage of the selected VM.

The information includes the following:

  • Device - The device type of the disk.
  • Used - The amount of disk currently allocated.
  • Capacity - The maximum size of the storage volume.
  • Bus - The type of disk device that is emulated.
  • Access - Whether the disk is Writeable or Read-only. For raw disks, you can also set the access to Writeable and shared.
  • Source - The disk device or file.

7.2.6. Viewing and editing virtual network interface information in the web console

By using the RHEL 8 web console, you can view and modify the virtual network interfaces on a selected virtual machine (VM):

Prerequisites

Procedure

  1. Log in to the RHEL 8 web console.

    For details, see Logging in to the web console.

  2. In the Virtual Machines interface, click the VM whose information you want to see.

    A new page opens with an Overview section with basic information about the selected VM and a Console section to access the VM’s graphical interface.

  3. Scroll to Network Interfaces.

    The Networks Interfaces section displays information about the virtual network interface configured for the VM as well as options to Add, Delete, Edit, or Unplug network interfaces.

    Image displaying the network interface details of the selected virtual machine.

    The information includes the following:

    • Type - The type of network interface for the VM. The types include virtual network, bridge to LAN, and direct attachment.

      Note

      Generic Ethernet connection is not supported in RHEL 8 and later.

    • Model type - The model of the virtual network interface.
    • MAC Address - The MAC address of the virtual network interface.
    • IP Address - The IP address of the virtual network interface.
    • Source - The source of the network interface. This is dependent on the network type.
    • State - The state of the virtual network interface.
  4. To edit the virtual network interface settings, Click Edit. The Virtual Network Interface Settings dialog opens.

    Image displaying the various options that can be edited for the selected network interface.
  5. Change the interface type, source, model, or MAC address.
  6. Click Save. The network interface is modified.

    Note

    Changes to the virtual network interface settings take effect only after restarting the VM.

    Additionally, MAC address can only be modified when the VM is shut off.

7.3. Sample virtual machine XML configuration

The XML configuration of a VM, also referred to as a domain XML, determines the VM’s settings and components. The following table shows sections of a sample XML configuration of a virtual machine (VM) and explains the contents.

To obtain the XML configuration of a VM, you can use the virsh dumpxml command followed by the VM’s name.

# virsh dumpxml testguest1
Table 7.1. Sample XML configuration
Domain XML SectionDescription
<domain type='kvm'>
 <name>Testguest1</name>
 <uuid>ec6fbaa1-3eb4-49da-bf61-bb02fbec4967</uuid>
 <memory unit='KiB'>1048576</memory>
 <currentMemory unit='KiB'>1048576</currentMemory>

This is a KVM virtual machine called Testguest1, with 1024 MiB allocated RAM.

 <vcpu placement='static'>1</vcpu>

The VM is allocated with a single virtual CPU (vCPU).

For information about configuring vCPUs, see Optimizing virtual machine CPU performance.

 <os>
  <type arch='x86_64' machine='pc-q35-4.1'>hvm</type>
  <boot dev='hd'/>
 </os>

The machine architecture is set to the AMD64 and Intel 64 architecture, and uses the Intel Q35 machine type to determine feature compatibility. The OS is set to be booted from the hard disk drive.

For information about creating a VM with an installed OS, see Creating virtual machines and installing guest operating systems by using the web console.

 <features>
  <acpi/>
  <apic/>
 </features>

The acpi and apic hypervisor features are disabled.

 <cpu mode='host-model' check='partial'/>

The host CPU definitions from capabilities XML (obtainable with virsh capabilities) are automatically copied into the VM’s XML configuration. Therefore, when the VM is booted, libvirt picks a CPU model that is similar to the host CPU, and then adds extra features to approximate the host model as closely as possible.

 <clock offset='utc'>
  <timer name='rtc' tickpolicy='catchup'/>
  <timer name='pit' tickpolicy='delay'/>
  <timer name='hpet' present='no'/>
 </clock>

The VM’s virtual hardware clock uses the UTC time zone. In addition, three different timers are set up for synchronization with the QEMU hypervisor.

 <on_poweroff>destroy</on_poweroff>
 <on_reboot>restart</on_reboot>
 <on_crash>destroy</on_crash>

When the VM powers off, or its OS terminates unexpectedly, libvirt terminates the VM and releases all its allocated resources. When the VM is rebooted, libvirt restarts it with the same configuration.

 <pm>
  <suspend-to-mem enabled='no'/>
  <suspend-to-disk enabled='no'/>
 </pm>

The S3 and S4 ACPI sleep states are disabled for this VM.

 <devices>
  <emulator>/usr/bin/qemu-kvm</emulator>
  <disk type='file' device='disk'>
   <driver name='qemu' type='qcow2'/>
   <source file='/var/lib/libvirt/images/Testguest.qcow2'/>
   <target dev='hda' bus='ide'/>
  </disk>
  <disk type='file' device='cdrom'>
   <driver name='qemu' type='raw'/>
   <target dev='hdb' bus='ide'/>
   <readonly/>
  </disk>

The VM uses the /usr/bin/qemu-kvm binary file for emulation and it has two disk devices attached.

The first disk is a virtualized hard-drive based on the /var/lib/libvirt/images/Testguest.qcow2 stored on the host, and its logical device name is set to hda.

The second disk is a virtualized CD-ROM and its logical device name is set to hdb.

  <controller type='usb' index='0' model='qemu-xhci' ports='15'/>
  <controller type='sata' index='0'/>
  <controller type='pci' index='0' model='pcie-root'/>
  <controller type='pci' index='1' model='pcie-root-port'>
   <model name='pcie-root-port'/>
   <target chassis='1' port='0x10'/>
  </controller>
  <controller type='pci' index='2' model='pcie-root-port'>
   <model name='pcie-root-port'/>
   <target chassis='2' port='0x11'/>
  </controller>
  <controller type='pci' index='3' model='pcie-root-port'>
   <model name='pcie-root-port'/>
   <target chassis='3' port='0x12'/>
  </controller>
  <controller type='pci' index='4' model='pcie-root-port'>
   <model name='pcie-root-port'/>
   <target chassis='4' port='0x13'/>
  </controller>
  <controller type='pci' index='5' model='pcie-root-port'>
   <model name='pcie-root-port'/>
   <target chassis='5' port='0x14'/>
  </controller>
  <controller type='pci' index='6' model='pcie-root-port'>
   <model name='pcie-root-port'/>
   <target chassis='6' port='0x15'/>
  </controller>
  <controller type='pci' index='7' model='pcie-root-port'>
   <model name='pcie-root-port'/>
   <target chassis='7' port='0x16'/>
  </controller>
  <controller type='virtio-serial' index='0'/>

The VM uses a single controller for attaching USB devices, and a root controller for PCI-Express (PCIe) devices. In addition, a virtio-serial controller is available, which enables the VM to interact with the host in a variety of ways, such as the serial console.

For more information about virtual devices, see Types of virtual devices.

 <interface type='network'>
  <mac address='52:54:00:65:29:21'/>
  <source network='default'/>
  <model type='rtl8139'/>
 </interface>

A network interface is set up in the VM that uses the default virtual network and the rtl8139 network device model.

For information about configuring the network interface, see Optimizing virtual machine network performance.

  <serial type='pty'>
   <target type='isa-serial' port='0'>
    <model name='isa-serial'/>
   </target>
  </serial>
  <console type='pty'>
   <target type='serial' port='0'/>
  </console>
  <channel type='unix'>
   <target type='virtio' name='org.qemu.guest_agent.0'/>
   <address type='virtio-serial' controller='0' bus='0' port='1'/>
  </channel>
  <channel type='spicevmc'>
   <target type='virtio' name='com.redhat.spice.0'/>
    <address type='virtio-serial' controller='0' bus='0' port='2'/>
  </channel>

A pty serial console is set up on the VM, which enables rudimentary VM communication with the host. The console uses the UNIX channel on port 1, and the paravirtualized SPICE on port 2. This is set up automatically and changing these settings is not recommended.

For more information about interacting with VMs, see Interacting with virtual machines by using the web console.

  <input type='tablet' bus='usb'>
   <address type='usb' bus='0' port='1'/>
  </input>
  <input type='mouse' bus='ps2'/>
  <input type='keyboard' bus='ps2'/>

The VM uses a virtual usb port, which is set up to receive tablet input, and a virtual ps2 port set up to receive mouse and keyboard input. This is set up automatically and changing these settings is not recommended.

  <graphics type='spice' autoport='yes' listen='127.0.0.1'>
   <listen type='address' address='127.0.0.1'/>
   <image compression='off'/>
  </graphics>
  <graphics type='vnc' port='-1' autoport='yes' listen='127.0.0.1'>
   <listen type='address' address='127.0.0.1'/>
  </graphics>

The VM uses the VNC and SPICE protocols for rendering its graphical output, and image compression is turned off.

  <sound model='ich6'>
   <address type='pci' domain='0x0000' bus='0x00' slot='0x04' function='0x0'/>
  </sound>
  <video>
   <model type='qxl' ram='65536' vram='65536' vgamem='16384' heads='1' primary='yes'/>
   <address type='pci' domain='0x0000' bus='0x00' slot='0x02' function='0x0'/>
  </video>

An ICH6 HDA sound device is set up for the VM, and the QEMU QXL paravirtualized framebuffer device is set up as the video accelerator. This is set up automatically and changing these settings is not recommended.

  <redirdev bus='usb' type='spicevmc'>
   <address type='usb' bus='0' port='1'/>
  </redirdev>
  <redirdev bus='usb' type='spicevmc'>
   <address type='usb' bus='0' port='2'/>
  </redirdev>
  <memballoon model='virtio'>
   <address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x0'/>
  </memballoon>
 </devices>
</domain>

The VM has two re-directors for attaching USB devices remotely, and memory ballooning is turned on. This is set up automatically and changing these settings is not recommended.

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