VBoxSDL is a simple graphical user interface (GUI) that lacks the nice point-and-click support which VirtualBox, our main GUI, provides. VBoxSDL is currently primarily used internally for debugging VirtualBox and therefore not officially supported. Still, you may find it useful for environments where the virtual machines are not necessarily controlled by the same person that uses the virtual machine. VBoxSDL is not available on the Mac OS X host platform. As you can see in the following screenshot, VBoxSDL does indeed only provide a simple window that contains only the "pure" virtual machine, without menus or other controls to click upon and no additional indicators of virtual machine activity: To start a virtual machine with VBoxSDL instead of the VirtualBox GUI, enter the following on a command line:VBoxSDL --startvm <vm> where <vm> is, as usual with VirtualBox command line parameters, the name or UUID of an existing virtual machine. When running guest operating systems in full screen mode, the guest operating system usually has control over the whole screen. This could present a security risk as the guest operating system might fool the user into thinking that it is either a different system (which might have a higher security level) or it might present messages on the screen that appear to stem from the host operating system. In order to protect the user against the above mentioned security risks, the secure labeling feature has been developed. Secure labeling is currently available only for VBoxSDL. When enabled, a portion of the display area is reserved for a label in which a user defined message is displayed. The label height in set to 20 pixels in VBoxSDL. The label font color and background color can be optionally set as hexadecimal RGB color values. The following syntax is used to enable secure labeling: VBoxSDL --startvm "VM name" --securelabel --seclabelfnt ~/fonts/arial.ttf --seclabelsiz 14 --seclabelfgcol 00FF00 --seclabelbgcol 00FFFF In addition to enabling secure labeling, a TrueType font has to be supplied. To use another font size than 12 point use the parameter --seclabelsiz. The label text can be set with VBoxManage setextradata "VM name" "VBoxSDL/SecureLabel" "The Label" Changing this label will take effect immediately. Typically, full screen resolutions are limited to certain "standard" geometries such as 1024 x 768. Increasing this by twenty lines is not usually feasible, so in most cases, VBoxSDL will chose the next higher resolution, e.g. 1280 x 1024 and the guest's screen will not cover the whole display surface. If VBoxSDL is unable to choose a higher resolution, the secure label will be painted on top of the guest's screen surface. In order to address the problem of the bottom part of the guest screen being hidden, VBoxSDL can provide custom video modes to the guest that are reduced by the height of the label. For Windows guests and recent Solaris and Linux guests, the VirtualBox Guest Additions automatically provide the reduced video modes. Additionally, the VESA BIOS has been adjusted to duplicate its standard mode table with adjusted resolutions. The adjusted mode IDs can be calculated using the following formula: reduced_modeid = modeid + 0x30 For example, in order to start Linux with 1024 x 748 x 16, the standard mode 0x117 (1024 x 768 x 16) is used as a base. The Linux video mode kernel parameter can then be calculated using: vga = 0x200 | 0x117 + 0x30 vga = 839 The reason for duplicating the standard modes instead of only supplying the adjusted modes is that most guest operating systems require the standard VESA modes to be fixed and refuse to start with different modes. When using the X.org VESA driver, custom modelines have to be calculated and added to the configuration (usually in /etc/X11/xorg.conf. A handy tool to determine modeline entries can be found at http://www.tkk.fi/Misc/Electronics/faq/vga2rgb/calc.html.) When switching from a X virtual terminal (VT) to another VT using Ctrl-Alt-Fx while the VBoxSDL window has the input focus, the guest will receive Ctrl and Alt keypress events without receiving the corresponding key release events. This is an architectural limitation of Linux. In order to reset the modifier keys, it is possible to send SIGUSR1 to the VBoxSDL main thread (first entry in the ps list). For example, when switching away to another VT and saving the virtual machine from this terminal, the following sequence can be used to make sure the VM is not saved with stuck modifiers: kill -usr1 <pid> VBoxManage controlvm "Windows 2000" savestate VirtualBox provides Guest Addition modules for Windows, Linux and Solaris to enable automated logons on the guest. When a guest operating system is running in a virtual machine, it might be desirable to perform coordinated and automated logons using credentials from a master logon system. (With "credentials", we are referring to logon information consisting of user name, password and domain name, where each value might be empty.) Since Windows NT, Windows has provided a modular system logon subsystem ("Winlogon") which can be customized and extended by means of so-called GINA modules (Graphical Identification and Authentication). With Windows Vista and Windows 7, the GINA modules were replaced with a new mechanism called "credential providers". The VirtualBox Guest Additions for Windows come with both, a GINA and a credential provider module, and therefore enable any Windows guest to perform automated logons. To activate the VirtualBox GINA or credential provider module, install the Guest Additions with using the command line switch /with_autologon. All the following manual steps required for installing these modules will be then done by the installer. To manually install the VirtualBox GINA module, extract the Guest Additions (see ) and copy the file VBoxGINA.dll to the Windows SYSTEM32 directory. Then, in the registry, create the following key: HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Winlogon\GinaDLL with a value of VBoxGINA.dll. The VirtualBox GINA module is implemented as a wrapper around the standard Windows GINA module (MSGINA.DLL). As a result, it will most likely not work correctly with 3rd party GINA modules. To manually install the VirtualBox credential provider module, extract the Guest Additions (see ) and copy the file VBoxCredProv.dll to the Windows SYSTEM32 directory. Then, in the registry, create the following keys:HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion\ Authentication\Credential Providers\{275D3BCC-22BB-4948-A7F6-3A3054EBA92B} HKEY_CLASSES_ROOT\CLSID\{275D3BCC-22BB-4948-A7F6-3A3054EBA92B} HKEY_CLASSES_ROOT\CLSID\{275D3BCC-22BB-4948-A7F6-3A3054EBA92B}\InprocServer32 with all default values (the key named (Default) in each key) set to VBoxCredProv. After that a new string named HKEY_CLASSES_ROOT\CLSID\{275D3BCC-22BB-4948-A7F6-3A3054EBA92B}\InprocServer32\ThreadingModel with a value of Apartment has to be created. To set credentials, use the following command on a running VM: VBoxManage controlvm "Windows XP" setcredentials "John Doe" "secretpassword" "DOMTEST" While the VM is running, the credentials can be queried by the VirtualBox logon modules (GINA or credential provider) using the VirtualBox Guest Additions device driver. When Windows is in "logged out" mode, the logon modules will constantly poll for credentials and if they are present, a logon will be attempted. After retrieving the credentials, the logon modules will erase them so that the above command will have to be repeated for subsequent logons. For security reasons, credentials are not stored in any persistent manner and will be lost when the VM is reset. Also, the credentials are "write-only", i.e. there is no way to retrieve the credentials from the host side. Credentials can be reset from the host side by setting empty values. Depending on the particular variant of the Windows guest, the following restrictions apply: For Windows XP guests, the logon subsystem needs to be configured to use the classic logon dialog as the VirtualBox GINA module does not support the XP-style welcome dialog. For Windows Vista, Windows 7 and Windows 8 guests, the logon subsystem does not support the so-called Secure Attention Sequence (CTRL+ALT+DEL). As a result, the guest's group policy settings need to be changed to not use the Secure Attention Sequence. Also, the user name given is only compared to the true user name, not the user friendly name. This means that when you rename a user, you still have to supply the original user name (internally, Windows never renames user accounts). Auto-logon handling of the built-in Windows Remote Desktop Service (formerly known as Terminal Services) is disabled by default. To enable it, create the registry key HKEY_LOCAL_MACHINE\SOFTWARE\Oracle\VirtualBox Guest Additions\AutoLogon with a DWORD value of 1. The following command forces VirtualBox to keep the credentials after they were read by the guest and on VM reset: VBoxManage setextradata "Windows XP" VBoxInternal/Devices/VMMDev/0/Config/KeepCredentials 1Note that this is a potential security risk as a malicious application running on the guest could request this information using the proper interface. Starting with version 3.2, VirtualBox provides a custom PAM module (Pluggable Authentication Module) which can be used to perform automated guest logons on platforms which support this framework. Virtually all modern Linux/Unix distributions rely on PAM. For automated logons on Ubuntu (or Ubuntu-derived) distributions using LightDM as the display manager, please see . The pam_vbox.so module itself does not do an actual verification of the credentials passed to the guest OS; instead it relies on other modules such as pam_unix.so or pam_unix2.so down in the PAM stack to do the actual validation using the credentials retrieved by pam_vbox.so. Therefore pam_vbox.so has to be on top of the authentication PAM service list. The pam_vbox.so only supports the auth primitive. Other primitives such as account, session or password are not supported. The pam_vbox.so module is shipped as part of the Guest Additions but it is not installed and/or activated on the guest OS by default. In order to install it, it has to be copied from /opt/VBoxGuestAdditions-<version>/lib/VBoxGuestAdditions/ to the security modules directory, usually /lib/security/ on 32-bit guest Linuxes or /lib64/security/ on 64-bit ones. Please refer to your guest OS documentation for the correct PAM module directory. For example, to use pam_vbox.so with a Ubuntu Linux guest OS and GDM (the GNOME Desktop Manager) to logon users automatically with the credentials passed by the host, the guest OS has to be configured like the following: The pam_vbox.so module has to be copied to the security modules directory, in this case it is /lib/security. Edit the PAM configuration file for GDM found at /etc/pam.d/gdm, adding the line auth requisite pam_vbox.so at the top. Additionaly, in most Linux distributions there is a file called /etc/pam.d/common-auth. This file is included in many other services (like the GDM file mentioned above). There you also have to add the line auth requisite pam_vbox.so. If authentication against the shadow database using pam_unix.so or pam_unix2.so is desired, the argument try_first_pass for pam_unix.so or use_first_pass for pam_unix2.so is needed in order to pass the credentials from the VirtualBox module to the shadow database authentication module. For Ubuntu, this needs to be added to /etc/pam.d/common-auth, to the end of the line referencing pam_unix.so. This argument tells the PAM module to use credentials already present in the stack, i.e. the ones provided by the VirtualBox PAM module. An incorrectly configured PAM stack can effectively prevent you from logging into your guest system! To make deployment easier, you can pass the argument debug right after the pam_vbox.so statement. Debug log output will then be recorded using syslog. By default, pam_vbox will not wait for credentials to arrive from the host, in other words: When a login prompt is shown (for example by GDM/KDM or the text console) and pam_vbox does not yet have credentials it does not wait until they arrive. Instead the next module in the PAM stack (depending on the PAM configuration) will have the chance for authentication. Starting with VirtualBox 4.1.4 pam_vbox supports various guest property parameters which all reside in /VirtualBox/GuestAdd/PAM/. These parameters allow pam_vbox to wait for credentials to be provided by the host and optionally can show a message while waiting for those. The following guest properties can be set: CredsWait: Set to "1" if pam_vbox should start waiting until credentials arrive from the host. Until then no other authentication methods such as manually logging in will be available. If this property is empty or get deleted no waiting for credentials will be performed and pam_vbox will act like before (see paragraph above). This property must be set read-only for the guest (RDONLYGUEST). CredsWaitAbort: Aborts waiting for credentials when set to any value. Can be set from host and the guest. CredsWaitTimeout: Timeout (in seconds) to let pam_vbox wait for credentials to arrive. When no credentials arrive within this timeout, authentication of pam_vbox will be set to failed and the next PAM module in chain will be asked. If this property is not specified, set to "0" or an invalid value, an infinite timeout will be used. This property must be set read-only for the guest (RDONLYGUEST). To customize pam_vbox further there are the following guest properties: CredsMsgWaiting: Custom message showed while pam_vbox is waiting for credentials from the host. This property must be set read-only for the guest (RDONLYGUEST). CredsMsgWaitTimeout: Custom message showed when waiting for credentials by pam_vbox timed out, e.g. did not arrive within time. This property must be set read-only for the guest (RDONLYGUEST). If a pam_vbox guest property does not have set the right flags (RDONLYGUEST) this property will be ignored then and - depending on the property - a default value will be set. This can result in pam_vbox not waiting for credentials. Consult the appropriate syslog file for more information and use the debug option. Starting with version 4.2.12, VirtualBox comes with an own greeter module named vbox-greeter which can be used with LightDM 1.0.1 or later. LightDM is the default display manager since Ubuntu 10.11 and therefore also can be used for automated guest logons. vbox-greeter does not need the pam_vbox module described above in order to function -- it comes with its own authentication mechanism provided by LightDM. However, to provide maximum of flexibility both modules can be used together on the same guest. As for the pam_vbox module, vbox-greeter is shipped as part of the Guest Additions but it is not installed and/or activated on the guest OS by default For installing vbox-greeter automatically upon Guest Additions installation, use the --with-autologon switch when starting the VBoxLinuxAdditions.run file:# ./VBoxLinuxAdditions.run -- --with-autologon For manual or postponed installation, the vbox-greeter.desktop file has to be copied from /opt/VBoxGuestAdditions-<version>/shared/VBoxGuestAdditions/ to the xgreeters directory, usually /usr/share/xgreeters/. Please refer to your guest OS documentation for the correct LightDM greeter directory. The vbox-greeter module itself already was installed by the VirtualBox Guest Additions installer and resides in /usr/sbin/. To enable vbox-greeter as the standard greeter module, the file /etc/lightdm/lightdm.conf needs to be edited: [SeatDefaults] greeter-session=vbox-greeter The LightDM server needs to be fully restarted in order to get vbox-greeter used as the default greeter. As root, do a service lightdm --full-restart on Ubuntu, or simply restart the guest. vbox-greeter is independent of the graphical session chosen by the user (like Gnome, KDE, Unity etc). However, it requires FLTK 1.3 for representing its own user interface. There are numerous guest properties which can be used to further customize the login experience. For automatically logging in users, the same guest properties apply as for pam_vbox, see . In addition to the above mentioned guest properties, vbox-greeter allows further customization of its user interface. These special guest properties all reside in /VirtualBox/GuestAdd/Greeter/: HideRestart: Set to "1" if vbox-greeter should hide the button to restart the guest. This property must be set read-only for the guest (RDONLYGUEST). HideShutdown: Set to "1" if vbox-greeter should hide the button to shutdown the guest. This property must be set read-only for the guest (RDONLYGUEST). BannerPath: Path to a .PNG file for using it as a banner on the top. The image size must be 460 x 90 pixels, any bit depth. This property must be set read-only for the guest (RDONLYGUEST). UseTheming: Set to "1" for turning on the following theming options. This property must be set read-only for the guest (RDONLYGUEST). Theme/BackgroundColor: Hexadecimal RRGGBB color for the background. This property must be set read-only for the guest (RDONLYGUEST). Theme/LogonDialog/HeaderColor: Hexadecimal RRGGBB foreground color for the header text. This property must be set read-only for the guest (RDONLYGUEST). Theme/LogonDialog/BackgroundColor: Hexadecimal RRGGBB color for the logon dialog background. This property must be set read-only for the guest (RDONLYGUEST). Theme/LogonDialog/ButtonColor: Hexadecimal RRGGBB background color for the logon dialog button. This property must be set read-only for the guest (RDONLYGUEST). The same restrictions for the guest properties above apply as for the ones specified in the pam_vbox section. Beginning with Windows NT 4.0, Microsoft offers a "system preparation" tool (in short: Sysprep) to prepare a Windows system for deployment or redistribution. Whereas Windows 2000 and XP ship with Sysprep on the installation medium, the tool also is available for download on the Microsoft web site. In a standard installation of Windows Vista and 7, Sysprep is already included. Sysprep mainly consists of an executable called sysprep.exe which is invoked by the user to put the Windows installation into preparation mode. Starting with VirtualBox 3.2.2, the Guest Additions offer a way to launch a system preparation on the guest operating system in an automated way, controlled from the host system. To achieve that, see for using the feature with the special identifier sysprep as the program to execute, along with the user name sysprep and password sysprep for the credentials. Sysprep then gets launched with the required system rights. Specifying the location of "sysprep.exe" is not possible -- instead the following paths are used (based on the operating system): C:\sysprep\sysprep.exe for Windows NT 4.0, 2000 and XP %WINDIR%\System32\Sysprep\sysprep.exe for Windows Vista, 2008 Server and 7 The Guest Additions will automatically use the appropriate path to execute the system preparation tool. The VirtualBox Guest Additions contain several different drivers. If for any reason you do not wish to set them all up, you can install the Guest Additions using the following command: sh ./VBoxLinuxAdditions.run no_setup After this, you will need to at least compile the kernel modules by running the command /usr/lib/VBoxGuestAdditions/vboxadd setup as root (you will need to replace lib by lib64 on some 64bit guests), and on older guests without the udev service you will need to add the vboxadd service to the default runlevel to ensure that the modules get loaded. To setup the time synchronization service, run the command /usr/lib/VBoxGuestAdditions/vboxadd-service setup and add the service vboxadd-service to the default runlevel. To set up the X11 and OpenGL part of the Guest Additions, run the command /usr/lib/VBoxGuestAdditions/vboxadd-x11 setup (you do not need to enable any services for this). To recompile the guest kernel modules, use this command: /usr/lib/VBoxGuestAdditions/vboxadd setup After compilation you should reboot your guest to ensure that the new modules are actually used. This section assumes that you are familiar with configuring the X.Org server using xorg.conf and optionally the newer mechanisms using hal or udev and xorg.conf.d. If not you can learn about them by studying the documentation which comes with X.Org. The VirtualBox Guest Additions come with drivers for X.Org versions X11R6.8/X11R6.9 and XFree86 version 4.3 (vboxvideo_drv_68.o and vboxmouse_drv_68.o) X11R7.0 (vboxvideo_drv_70.so and vboxmouse_drv_70.so) X11R7.1 (vboxvideo_drv_71.so and vboxmouse_drv_71.so) X.Org Server versions 1.3 and later (vboxvideo_drv_13.so and vboxmouse_drv_13.so and so on). By default these drivers can be found in the directory /opt/VBoxGuestAdditions-<version>/lib/VBoxGuestAdditions and the correct versions for the X server are symbolically linked into the X.Org driver directories. For graphics integration to work correctly, the X server must load the vboxvideo driver (many recent X server versions look for it automatically if they see that they are running in VirtualBox) and for an optimal user experience the guest kernel drivers must be loaded and the Guest Additions tool VBoxClient must be running as a client in the X session. For mouse integration to work correctly, the guest kernel drivers must be loaded and in addition, in X servers from X.Org X11R6.8 to X11R7.1 and in XFree86 version 4.3 the right vboxmouse driver must be loaded and associated with /dev/mouse or /dev/psaux; in X.Org server 1.3 or later a driver for a PS/2 mouse must be loaded and the right vboxmouse driver must be associated with /dev/vboxguest. The VirtualBox guest graphics driver can use any graphics configuration for which the virtual resolution fits into the virtual video memory allocated to the virtual machine (minus a small amount used by the guest driver) as described in . The driver will offer a range of standard modes at least up to the default guest resolution for all active guest monitors. In X.Org Server 1.3 and later the default mode can be changed by setting the output property VBOX_MODE to "<width>x<height>" for any guest monitor. When VBoxClient and the kernel drivers are active this is done automatically when the host requests a mode change. The driver for older versions can only receive new modes by querying the host for requests at regular intervals. With pre-1.3 X Servers you can also add your own modes to the X server configuration file. You simply need to add them to the "Modes" list in the "Display" subsection of the "Screen" section. For example, the section shown here has a custom 2048x800 resolution mode added: Section "Screen" Identifier "Default Screen" Device "VirtualBox graphics card" Monitor "Generic Monitor" DefaultDepth 24 SubSection "Display" Depth 24 Modes "2048x800" "800x600" "640x480" EndSubSection EndSection With virtual machines running modern server operating systems, VirtualBox supports CPU hot-plugging. Support for CPU hot-plugging was introduced with VirtualBox 3.2. Whereas on a physical computer this would mean that a CPU can be added or removed while the machine is running, VirtualBox supports adding and removing virtual CPUs while a virtual machine is running. CPU hot-plugging works only with guest operating systems that support it. So far this applies only to Linux and Windows Server 2008 x64 Data Center Edition. Windows supports only hot-add while Linux supports hot-add and hot-remove but to use this feature with more than 8 CPUs a 64bit Linux guest is required. At this time, CPU hot-plugging requires using the VBoxManage command-line interface. First, hot-plugging needs to be enabled for a virtual machine:VBoxManage modifyvm "VM name" --cpuhotplug on After that, the --cpus option specifies the maximum number of CPUs that the virtual machine can have:VBoxManage modifyvm "VM name" --cpus 8When the VM is off, you can then add and remove virtual CPUs with the modifyvm --plugcpu and --unplugcpu subcommands, which take the number of the virtual CPU as a parameter, like this:VBoxManage modifyvm "VM name" --plugcpu 3 VBoxManage modifyvm "VM name" --unplugcpu 3Note that CPU 0 can never be removed. While the VM is running, CPUs can be added with the controlvm plugcpu/unplugcpu commands instead:VBoxManage controlvm "VM name" plugcpu 3 VBoxManage controlvm "VM name" unplugcpu 3 See and for details. With Linux guests, the following applies: To prevent ejection while the CPU is still used it has to be ejected from within the guest before. The Linux Guest Additions contain a service which receives hot-remove events and ejects the CPU. Also, after a CPU is added to the VM it is not automatically used by Linux. The Linux Guest Additions service will take care of that if installed. If not a CPU can be started with the following command:echo 1 > /sys/devices/system/cpu/cpu<id>/online When running on Linux hosts, with a recent enough kernel (at least version 2.6.31) experimental host PCI devices passthrough is available. Experimental support for PCI passthrough was introduced with VirtualBox 4.1. The PCI passthrough module is shipped as a VirtualBox extension package, which must be installed separately. See for more information. Essentially this feature allows to directly use physical PCI devices on the host by the guest even if host doesn't have drivers for this particular device. Both, regular PCI and some PCI Express cards, are supported. AGP and certain PCI Express cards are not supported at the moment if they rely on GART (Graphics Address Remapping Table) unit programming for texture management as it does rather nontrivial operations with pages remapping interfering with IOMMU. This limitation may be lifted in future releases. To be fully functional, PCI passthrough support in VirtualBox depends upon an IOMMU hardware unit which is not yet too widely available. If the device uses bus mastering (i.e. it performs DMA to the OS memory on its own), then an IOMMU is required, otherwise such DMA transactions may write to the wrong physical memory address as the device DMA engine is programmed using a device-specific protocol to perform memory transactions. The IOMMU functions as translation unit mapping physical memory access requests from the device using knowledge of the guest physical address to host physical addresses translation rules. Intel's solution for IOMMU is marketed as "Intel Virtualization Technology for Directed I/O" (VT-d), and AMD's one is called AMD-Vi. So please check if your motherboard datasheet has appropriate technology. Even if your hardware doesn't have a IOMMU, certain PCI cards may work (such as serial PCI adapters), but the guest will show a warning on boot and the VM execution will terminate if the guest driver will attempt to enable card bus mastering. It is very common that the BIOS or the host OS disables the IOMMU by default. So before any attempt to use it please make sure that Your motherboard has an IOMMU unit. Your CPU supports the IOMMU. The IOMMU is enabled in the BIOS. The VM must run with VT-x/AMD-V and nested paging enabled. Your Linux kernel was compiled with IOMMU support (including DMA remapping, see CONFIG_DMAR kernel compilation option). The PCI stub driver (CONFIG_PCI_STUB) is required as well. Your Linux kernel recognizes and uses the IOMMU unit (intel_iommu=on boot option could be needed). Search for DMAR and PCI-DMA in kernel boot log. Once you made sure that the host kernel supports the IOMMU, the next step is to select the PCI card and attach it to the guest. To figure out the list of available PCI devices, use the lspci command. The output will look like this: 01:00.0 VGA compatible controller: ATI Technologies Inc Cedar PRO [Radeon HD 5450] 01:00.1 Audio device: ATI Technologies Inc Manhattan HDMI Audio [Mobility Radeon HD 5000 Series] 02:00.0 Ethernet controller: Realtek Semiconductor Co., Ltd. RTL8111/8168B PCI Express Gigabit Ethernet controller (rev 03) 03:00.0 SATA controller: JMicron Technology Corp. JMB362/JMB363 Serial ATA Controller (rev 03) 03:00.1 IDE interface: JMicron Technology Corp. JMB362/JMB363 Serial ATA Controller (rev 03) 06:00.0 VGA compatible controller: nVidia Corporation G86 [GeForce 8500 GT] (rev a1) The first column is a PCI address (in format bus:device.function). This address could be used to identify the device for further operations. For example, to attach a PCI network controller on the system listed above to the second PCI bus in the guest, as device 5, function 0, use the following command: VBoxManage modifyvm "VM name" --pciattach 02:00.0@01:05.0 To detach same device, use VBoxManage modifyvm "VM name" --pcidetach 02:00.0 Please note that both host and guest could freely assign a different PCI address to the card attached during runtime, so those addresses only apply to the address of the card at the moment of attachment (host), and during BIOS PCI init (guest). If the virtual machine has a PCI device attached, certain limitations apply: Only PCI cards with non-shared interrupts (such as using MSI on host) are supported at the moment. No guest state can be reliably saved/restored (as the internal state of the PCI card could not be retrieved). Teleportation (live migration) doesn't work (for the same reason). No lazy physical memory allocation. The host will preallocate the whole RAM required for the VM on startup (as we cannot catch physical hardware accesses to the physical memory). VirtualBox 4.3 includes an experimental feature which allows a guest to use a host webcam. This complements the general USB passthrough support which was the typical way of using host webcams in earlier versions. The webcam passthrough support can handle non-USB video sources in theory, but this is completely untested. The webcam passthrough module is shipped as part of the Oracle VM VirtualBox extension pack, which must be installed separately. See for more information. The host webcam can be attached to the VM using "Devices" menu in the VM menu bar. The "Webcams" menu contains a list of available video input devices on the host. Clicking on a webcam name attaches or detaches the corresponding host device. The VBoxManage command line tool can be used to enable webcam passthrough. Please see the host-specific sections below for additional details. The following commands are available: Get a list of host webcams (or other video input devices): VBoxManage list webcams The output format: alias "user friendly name" host path or identifier The alias can be used as a shortcut in other commands. Alias '.0' means default video input device on the host, '.1', '.2', etc mean first, second, etc video input device. The device order is host-specific. Attach a webcam to a running VM: VBoxManage controlvm "VM name" webcam attach [host_path|alias [settings]] This will attach a USB webcam device to the guest. The settings parameter is a string Setting1=Value1;Setting2=Value2, which allows to configure the emulated webcam device. The following settings are supported: MaxFramerate The highest rate at which video frames are sent to the guest. A higher frame rate requires more CPU power. Therefore sometimes it is useful to set a lower limit. Default is no limit and allow the guest to use all frame rates supported by the host webcam. MaxPayloadTransferSize How many bytes the emulated webcam can send to the guest at a time. Default value is 3060 bytes, which is used by some webcams. Higher values can slightly reduce CPU load, if the guest is able to use larger buffers. However, a high MaxPayloadTransferSize might be not supported by some guests. Detach a webcam from a running VM: VBoxManage controlvm "VM name" webcam detach [host_path|alias] List webcams attached to a running VM: VBoxManage controlvm "VM name" webcam list The output contains path or alias which was used in 'webcam attach' command for each attached webcam. When the webcam device is detached from the host, the emulated webcam device is automatically detached from the guest. OS X version 10.7 or newer is required. When the webcam device is detached from the host, the emulated webcam device remains attached to the guest and must be manually detached using the VBoxManage controlvm "VM name" webcam detach ... command. When the webcam is detached from the host the emulated webcam device is automatically detached from the guest only if the webcam is streaming video. If the emulated webcam is inactive it should be manually detached using the VBoxManage controlvm "VM name" webcam detach ... command. Aliases .0 and .1 are mapped to /dev/video0, alias .2 is mapped to /dev/video1 and so forth. Apart from the standard VESA resolutions, the VirtualBox VESA BIOS allows you to add up to 16 custom video modes which will be reported to the guest operating system. When using Windows guests with the VirtualBox Guest Additions, a custom graphics driver will be used instead of the fallback VESA solution so this information does not apply. Additional video modes can be configured for each VM using the extra data facility. The extra data key is called CustomVideoMode<x> with x being a number from 1 to 16. Please note that modes will be read from 1 until either the following number is not defined or 16 is reached. The following example adds a video mode that corresponds to the native display resolution of many notebook computers: VBoxManage setextradata "VM name" "CustomVideoMode1" "1400x1050x16" The VESA mode IDs for custom video modes start at 0x160. In order to use the above defined custom video mode, the following command line has be supplied to Linux: vga = 0x200 | 0x160 vga = 864 For guest operating systems with VirtualBox Guest Additions, a custom video mode can be set using the video mode hint feature. When guest systems with the Guest Additions installed are started using the graphical frontend (the normal VirtualBox application), they will not be allowed to use screen resolutions greater than the host's screen size unless the user manually resizes them by dragging the window, switching to full screen or seamless mode or sending a video mode hint using VBoxManage. This behavior is what most users will want, but if you have different needs, it is possible to change it by issuing one of the following commands from the command line: VBoxManage setextradata global GUI/MaxGuestResolution any will remove all limits on guest resolutions. VBoxManage setextradata global GUI/MaxGuestResolution >width,height< manually specifies a maximum resolution. VBoxManage setextradata global GUI/MaxGuestResolution auto restores the default settings. Note that these settings apply globally to all guest systems, not just to a single machine. Starting with version 1.4, as an alternative to using virtual disk images (as described in detail in ), VirtualBox can also present either entire physical hard disks or selected partitions thereof as virtual disks to virtual machines. With VirtualBox, this type of access is called "raw hard disk access"; it allows a guest operating system to access its virtual hard disk without going through the host OS file system. The actual performance difference for image files vs. raw disk varies greatly depending on the overhead of the host file system, whether dynamically growing images are used, and on host OS caching strategies. The caching indirectly also affects other aspects such as failure behavior, i.e. whether the virtual disk contains all data written before a host OS crash. Consult your host OS documentation for details on this. Raw hard disk access is for expert users only. Incorrect use or use of an outdated configuration can lead to total loss of data on the physical disk. Most importantly, do not attempt to boot the partition with the currently running host operating system in a guest. This will lead to severe data corruption. Raw hard disk access -- both for entire disks and individual partitions -- is implemented as part of the VMDK image format support. As a result, you will need to create a special VMDK image file which defines where the data will be stored. After creating such a special VMDK image, you can use it like a regular virtual disk image. For example, you can use the VirtualBox Manager () or VBoxManage to assign the image to a virtual machine. While this variant is the simplest to set up, you must be aware that this will give a guest operating system direct and full access to an entire physical disk. If your host operating system is also booted from this disk, please take special care to not access the partition from the guest at all. On the positive side, the physical disk can be repartitioned in arbitrary ways without having to recreate the image file that gives access to the raw disk. To create an image that represents an entire physical hard disk (which will not contain any actual data, as this will all be stored on the physical disk), on a Linux host, use the commandVBoxManage internalcommands createrawvmdk -filename /path/to/file.vmdk -rawdisk /dev/sdaThis creates the image /path/to/file.vmdk (must be absolute), and all data will be read and written from /dev/sda. On a Windows host, instead of the above device specification, use e.g. \\.\PhysicalDrive0. On a Mac OS X host, instead of the above device specification use e.g. /dev/disk1. Note that on OS X you can only get access to an entire disk if no volume is mounted from it. Creating the image requires read/write access for the given device. Read/write access is also later needed when using the image from a virtual machine. On some host platforms (e.g. Windows Vista and later), raw disk access may be restricted and not permitted by the host OS in some situations. Just like with regular disk images, this does not automatically attach the newly created image to a virtual machine. This can be done with e.g. VBoxManage storageattach WindowsXP --storagectl "IDE Controller" --port 0 --device 0 --type hdd --medium /path/to/file.vmdkWhen this is done the selected virtual machine will boot from the specified physical disk. This "raw partition support" is quite similar to the "full hard disk" access described above. However, in this case, any partitioning information will be stored inside the VMDK image, so you can e.g. install a different boot loader in the virtual hard disk without affecting the host's partitioning information. While the guest will be able to see all partitions that exist on the physical disk, access will be filtered in that reading from partitions for which no access is allowed the partitions will only yield zeroes, and all writes to them are ignored. To create a special image for raw partition support (which will contain a small amount of data, as already mentioned), on a Linux host, use the commandVBoxManage internalcommands createrawvmdk -filename /path/to/file.vmdk -rawdisk /dev/sda -partitions 1,5 As you can see, the command is identical to the one for "full hard disk" access, except for the additional -partitions parameter. This example would create the image /path/to/file.vmdk (which, again, must be absolute), and partitions 1 and 5 of /dev/sda would be made accessible to the guest. VirtualBox uses the same partition numbering as your Linux host. As a result, the numbers given in the above example would refer to the first primary partition and the first logical drive in the extended partition, respectively. On a Windows host, instead of the above device specification, use e.g. \\.\PhysicalDrive0. On a Mac OS X host, instead of the above device specification use e.g. /dev/disk1. Note that on OS X you can only use partitions which are not mounted (eject the respective volume first). Partition numbers are the same on Linux, Windows and Mac OS X hosts. The numbers for the list of partitions can be taken from the output ofVBoxManage internalcommands listpartitions -rawdisk /dev/sdaThe output lists the partition types and sizes to give the user enough information to identify the partitions necessary for the guest. Images which give access to individual partitions are specific to a particular host disk setup. You cannot transfer these images to another host; also, whenever the host partitioning changes, the image must be recreated. Creating the image requires read/write access for the given device. Read/write access is also later needed when using the image from a virtual machine. If this is not feasible, there is a special variant for raw partition access (currently only available on Linux hosts) that avoids having to give the current user access to the entire disk. To set up such an image, useVBoxManage internalcommands createrawvmdk -filename /path/to/file.vmdk -rawdisk /dev/sda -partitions 1,5 -relativeWhen used from a virtual machine, the image will then refer not to the entire disk, but only to the individual partitions (in the example /dev/sda1 and /dev/sda5). As a consequence, read/write access is only required for the affected partitions, not for the entire disk. During creation however, read-only access to the entire disk is required to obtain the partitioning information. In some configurations it may be necessary to change the MBR code of the created image, e.g. to replace the Linux boot loader that is used on the host by another boot loader. This allows e.g. the guest to boot directly to Windows, while the host boots Linux from the "same" disk. For this purpose the -mbr parameter is provided. It specifies a file name from which to take the MBR code. The partition table is not modified at all, so a MBR file from a system with totally different partitioning can be used. An example of this isVBoxManage internalcommands createrawvmdk -filename /path/to/file.vmdk -rawdisk /dev/sda -partitions 1,5 -mbr winxp.mbrThe modified MBR will be stored inside the image, not on the host disk. The created image can be attached to a storage controller in a VM configuration as usual. VirtualBox reports vendor product data for its virtual hard disks which consist of hard disk serial number, firmware revision and model number. These can be changed using the following commands: VBoxManage setextradata "VM name" "VBoxInternal/Devices/ahci/0/Config/Port0/SerialNumber" "serial" VBoxManage setextradata "VM name" "VBoxInternal/Devices/ahci/0/Config/Port0/FirmwareRevision" "firmware" VBoxManage setextradata "VM name" "VBoxInternal/Devices/ahci/0/Config/Port0/ModelNumber" "model" The serial number is a 20 byte alphanumeric string, the firmware revision an 8 byte alphanumeric string and the model number a 40 byte alphanumeric string. Instead of "Port0" (referring to the first port), specify the desired SATA hard disk port. The above commands apply to virtual machines with an AHCI (SATA) controller. The commands for virtual machines with an IDE controller are: VBoxManage setextradata "VM name" "VBoxInternal/Devices/piix3ide/0/Config/PrimaryMaster/SerialNumber" "serial" VBoxManage setextradata "VM name" "VBoxInternal/Devices/piix3ide/0/Config/PrimaryMaster/FirmwareRevision" "firmware" VBoxManage setextradata "VM name" "VBoxInternal/Devices/piix3ide/0/Config/PrimaryMaster/ModelNumber" "model" For hard disks it's also possible to mark the drive as having a non-rotational medium with: VBoxManage setextradata "VM name" "VBoxInternal/Devices/ahci/0/Config/Port0/NonRotational" "1" Additional three parameters are needed for CD/DVD drives to report the vendor product data: VBoxManage setextradata "VM name" "VBoxInternal/Devices/ahci/0/Config/Port0/ATAPIVendorId" "vendor" VBoxManage setextradata "VM name" "VBoxInternal/Devices/ahci/0/Config/Port0/ATAPIProductId" "product" VBoxManage setextradata "VM name" "VBoxInternal/Devices/ahci/0/Config/Port0/ATAPIRevision" "revision" The vendor id is an 8 byte alphanumeric string, the product id an 16 byte alphanumeric string and the revision a 4 byte alphanumeric string. Instead of "Port0" (referring to the first port), specify the desired SATA hard disk port. As an experimental feature, VirtualBox allows for accessing an iSCSI target running in a virtual machine which is configured for using Internal Networking mode. Please see ; ; and for additional information. The IP stack accessing Internal Networking must be configured in the virtual machine which accesses the iSCSI target. A free static IP and a MAC address not used by other virtual machines must be chosen. In the example below, adapt the name of the virtual machine, the MAC address, the IP configuration and the Internal Networking name ("MyIntNet") according to your needs. The following eight commands must first be issued:VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/Trusted 1 VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/Config/MAC 08:00:27:01:02:0f VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/Config/IP 10.0.9.1 VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/Config/Netmask 255.255.255.0 VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/LUN#0/Driver IntNet VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/LUN#0/Config/Network MyIntNet VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/LUN#0/Config/TrunkType 2 VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/LUN#0/Config/IsService 1 Finally the iSCSI disk must be attached with the --intnet option to tell the iSCSI initiator to use internal networking:VBoxManage storageattach ... --medium iscsi --server 10.0.9.30 --target iqn.2008-12.com.sun:sampletarget --intnet Compared to a "regular" iSCSI setup, IP address of the target must be specified as a numeric IP address, as there is no DNS resolver for internal networking. The virtual machine with the iSCSI target should be started before the VM using it is powered on. If a virtual machine using an iSCSI disk is started without having the iSCSI target powered up, it can take up to 200 seconds to detect this situation. The VM will fail to power up. Starting with version 1.4, VirtualBox provided support for virtual serial ports, which, at the time, was rather complicated to set up with a sequence of VBoxManage setextradata statements. Since version 1.5, that way of setting up serial ports is no longer necessary and deprecated. To set up virtual serial ports, use the methods now described in . For backwards compatibility, the old setextradata statements, whose description is retained below from the old version of the manual, take precedence over the new way of configuring serial ports. As a result, if configuring serial ports the new way doesn't work, make sure the VM in question does not have old configuration data such as below still active. The old sequence of configuring a serial port used the following 6 commands: VBoxManage setextradata "VM name" "VBoxInternal/Devices/serial/0/Config/IRQ" 4 VBoxManage setextradata "VM name" "VBoxInternal/Devices/serial/0/Config/IOBase" 0x3f8 VBoxManage setextradata "VM name" "VBoxInternal/Devices/serial/0/LUN#0/Driver" Char VBoxManage setextradata "VM name" "VBoxInternal/Devices/serial/0/LUN#0/AttachedDriver/Driver" NamedPipe VBoxManage setextradata "VM name" "VBoxInternal/Devices/serial/0/LUN#0/AttachedDriver/Config/Location" "\\.\pipe\vboxCOM1" VBoxManage setextradata "VM name" "VBoxInternal/Devices/serial/0/LUN#0/AttachedDriver/Config/IsServer" 1 This sets up a serial port in the guest with the default settings for COM1 (IRQ 4, I/O address 0x3f8) and the Location setting assumes that this configuration is used on a Windows host, because the Windows named pipe syntax is used. Keep in mind that on Windows hosts a named pipe must always start with \\.\pipe\. On Linux the same configuration settings apply, except that the path name for the Location can be chosen more freely. Local domain sockets can be placed anywhere, provided the user running VirtualBox has the permission to create a new file in the directory. The final command above defines that VirtualBox acts as a server, i.e. it creates the named pipe itself instead of connecting to an already existing one. In NAT mode, the guest network interface is assigned to the IPv4 range 10.0.x.0/24 by default where x corresponds to the instance of the NAT interface +2. So x is 2 when there is only one NAT instance active. In that case the guest is assigned to the address 10.0.2.15, the gateway is set to 10.0.2.2 and the name server can be found at 10.0.2.3. If, for any reason, the NAT network needs to be changed, this can be achieved with the following command: VBoxManage modifyvm "VM name" --natnet1 "192.168/16" This command would reserve the network addresses from 192.168.0.0 to 192.168.254.254 for the first NAT network instance of "VM name". The guest IP would be assigned to 192.168.0.15 and the default gateway could be found at 192.168.0.2. For network booting in NAT mode, by default VirtualBox uses a built-in TFTP server at the IP address 10.0.2.4. This default behavior should work fine for typical remote-booting scenarios. However, it is possible to change the boot server IP and the location of the boot image with the following commands: VBoxManage modifyvm "VM name" --nattftpserver1 10.0.2.2 VBoxManage modifyvm "VM name" --nattftpfile1 /srv/tftp/boot/MyPXEBoot.pxe The VirtualBox NAT stack performance is often determined by its interaction with the host's TCP/IP stack and the size of several buffers (SO_RCVBUF and SO_SNDBUF). For certain setups users might want to adjust the buffer size for a better performance. This can by achieved using the following commands (values are in kilobytes and can range from 8 to 1024): VBoxManage modifyvm "VM name" --natsettings1 16000,128,128,0,0 This example illustrates tuning the NAT settings. The first parameter is the MTU, then the size of the socket's send buffer and the size of the socket's receive buffer, the initial size of the TCP send window, and lastly the initial size of the TCP receive window. Note that specifying zero means fallback to the default value. Each of these buffers has a default size of 64KB and default MTU is 1500. By default, VirtualBox's NAT engine will route TCP/IP packets through the default interface assigned by the host's TCP/IP stack. (The technical reason for this is that the NAT engine uses sockets for communication.) If, for some reason, you want to change this behavior, you can tell the NAT engine to bind to a particular IP address instead. Use the following command: VBoxManage modifyvm "VM name" --natbindip1 "10.45.0.2" After this, all outgoing traffic will be sent through the interface with the IP address 10.45.0.2. Please make sure that this interface is up and running prior to this assignment. The NAT engine by default offers the same DNS servers to the guest that are configured on the host. In some scenarios, it can be desirable to hide the DNS server IPs from the guest, for example when this information can change on the host due to expiring DHCP leases. In this case, you can tell the NAT engine to act as DNS proxy using the following command: VBoxManage modifyvm "VM name" --natdnsproxy1 on For resolving network names, the DHCP server of the NAT engine offers a list of registered DNS servers of the host. If for some reason you need to hide this DNS server list and use the host's resolver settings, thereby forcing the VirtualBox NAT engine to intercept DNS requests and forward them to host's resolver, use the following command: VBoxManage modifyvm "VM name" --natdnshostresolver1 on Note that this setting is similar to the DNS proxy mode, however whereas the proxy mode just forwards DNS requests to the appropriate servers, the resolver mode will interpret the DNS requests and use the host's DNS API to query the information and return it to the guest. In some cases it might be useful to intercept the name resolving mechanism, providing a user-defined IP address on a particular DNS request. The intercepting mechanism allows the user to map not only a single host but domains and even more complex namings conventions if required. The following command sets a rule for mapping a name to a specified IP: VBoxManage setextradata "VM name" \ "VBoxInternal/Devices/{pcnet,e1000}/0/LUN#0/Config/HostResolverMappings/ \ <uniq name of interception rule>/HostIP" <IPv4> VBoxManage setextradata "VM name" \ "VBoxInternal/Devices/{pcnet,e1000}/0/LUN#0/Config/HostResolverMappings/ \ <uniq name of interception rule>/HostName" <name of host> The following command sets a rule for mapping a pattern name to a specified IP: VBoxManage setextradata "VM name" \ "VBoxInternal/Devices/{pcnet,e1000}/0/LUN#0/Config/HostResolverMappings/ \ <uniq name of interception rule>/HostIP" <IPv4> VBoxManage setextradata "VM name" \ "VBoxInternal/Devices/{pcnet,e1000}/0/LUN#0/Config/HostResolverMappings/ \ <uniq name of interception rule>/HostNamePattern" <hostpattern> The host pattern may include "|", "?" and "*". This example demonstrates how to instruct the host-resolver mechanism to resolve all domain and probably some mirrors of www.blocked-site.info site with IP 127.0.0.1: VBoxManage setextradata "VM name" \ "VBoxInternal/Devices/e1000/0/LUN#0/Config/HostResolverMappings/ \ all_blocked_site/HostIP" 127.0.0.1 VBoxManage setextradata "VM name" \ "VBoxInternal/Devices/e1000/0/LUN#0/Config/HostResolverMappings/ \ all_blocked_site/HostNamePattern" "*.blocked-site.*|*.fb.org" The host resolver mechanism should be enabled to use user-defined mapping rules (please see for more details). By default, the NAT core uses aliasing and uses random ports when generating an alias for a connection. This works well for the most protocols like SSH, FTP and so on. Though some protocols might need a more transparent behavior or may depend on the real port number the packet was sent from. It is possible to change the NAT mode via the VBoxManage frontend with the following commands: VBoxManage modifyvm "VM name" --nataliasmode1 proxyonly and VBoxManage modifyvm "Linux Guest" --nataliasmode1 sameports The first example disables aliasing and switches NAT into transparent mode, the second example enforces preserving of port values. These modes can be combined if necessary. The DMI data VirtualBox provides to guests can be changed for a specific VM. Use the following commands to configure the DMI BIOS information. In case your VM is configured to use EFI firmware you need to replace pcbios by efi in the keys. DMI BIOS information (type 0) VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSVendor" "BIOS Vendor" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSVersion" "BIOS Version" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSReleaseDate" "BIOS Release Date" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSReleaseMajor" 1 VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSReleaseMinor" 2 VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSFirmwareMajor" 3 VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSFirmwareMinor" 4 DMI system information (type 1) VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiSystemVendor" "System Vendor" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiSystemProduct" "System Product" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiSystemVersion" "System Version" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiSystemSerial" "System Serial" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiSystemSKU" "System SKU" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiSystemFamily" "System Family" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiSystemUuid" "9852bf98-b83c-49db-a8de-182c42c7226b" DMI board information (type 2) VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBoardVendor" "Board Vendor" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBoardProduct" "Board Product" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBoardVersion" "Board Version" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBoardSerial" "Board Serial" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBoardAssetTag" "Board Tag" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBoardLocInChass" "Board Location" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiBoardBoardType" 10 DMI system enclosure or chassis (type 3) VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiChassisVendor" "Chassis Vendor" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiChassisType" 3 VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiChassisVersion" "Chassis Version" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiChassisSerial" "Chassis Serial" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiChassisAssetTag" "Chassis Tag" DMI processor information (type 4) VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiProcManufacturer" "GenuineIntel" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiProcVersion" "Pentium(R) III" DMI OEM strings (type 11) VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiOEMVBoxVer" "vboxVer_1.2.3" VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiOEMVBoxRev" "vboxRev_12345" If a DMI string is not set, the default value of VirtualBox is used. To set an empty string use "<EMPTY>". Note that in the above list, all quoted parameters (DmiBIOSVendor, DmiBIOSVersion but not DmiBIOSReleaseMajor) are expected to be strings. If such a string is a valid number, the parameter is treated as number and the VM will most probably refuse to start with an VERR_CFGM_NOT_STRING error. In that case, use "string:<value>", for instance VBoxManage setextradata "VM name" "VBoxInternal/Devices/pcbios/0/Config/DmiSystemSerial" "string:1234" Changing this information can be necessary to provide the DMI information of the host to the guest to prevent Windows from asking for a new product key. On Linux hosts the DMI BIOS information can be obtained with dmidecode -t0and the DMI system information can be obtained with dmidecode -t1 VirtualBox can be configured to present an custom ACPI table to the guest. Use the following command to configure this: VBoxManage setextradata "VM name" "VBoxInternal/Devices/acpi/0/Config/CustomTable" "/path/to/table.bin" Configuring a custom ACPI table can prevent Windows Vista and Windows 7 from asking for a new product key. On Linux hosts, one of the host tables can be read from /sys/firmware/acpi/tables/. By default, VirtualBox keeps all sources of time visible to the guest synchronized to a single time source, the monotonic host time. This reflects the assumptions of many guest operating systems, which expect all time sources to reflect "wall clock" time. In special circumstances it may be useful however to make the TSC (time stamp counter) in the guest reflect the time actually spent executing the guest. This special TSC handling mode can be enabled on a per-VM basis, and for best results must be used only in combination with hardware virtualization. To enable this mode use the following command: VBoxManage setextradata "VM name" "VBoxInternal/TM/TSCTiedToExecution" 1 To revert to the default TSC handling mode use: VBoxManage setextradata "VM name" "VBoxInternal/TM/TSCTiedToExecution" Note that if you use the special TSC handling mode with a guest operating system which is very strict about the consistency of time sources you may get a warning or error message about the timing inconsistency. It may also cause clocks to become unreliable with some guest operating systems depending on how they use the TSC. For certain purposes it can be useful to accelerate or to slow down the (virtual) guest clock. This can be achieved as follows: VBoxManage setextradata "VM name" "VBoxInternal/TM/WarpDrivePercentage" 200 The above example will double the speed of the guest clock while VBoxManage setextradata "VM name" "VBoxInternal/TM/WarpDrivePercentage" 50 will halve the speed of the guest clock. Note that changing the rate of the virtual clock can confuse the guest and can even lead to abnormal guest behavior. For instance, a higher clock rate means shorter timeouts for virtual devices with the result that a slightly increased response time of a virtual device due to an increased host load can cause guest failures. Note further that any time synchronization mechanism will frequently try to resynchronize the guest clock with the reference clock (which is the host clock if the VirtualBox Guest Additions are active). Therefore any time synchronization should be disabled if the rate of the guest clock is changed as described above (see ). The VirtualBox Guest Additions ensure that the guest's system time is synchronized with the host time. There are several parameters which can be tuned. The parameters can be set for a specific VM using the following command: VBoxManage guestproperty set "VM name" "/VirtualBox/GuestAdd/VBoxService/PARAMETER" VALUE where PARAMETER is one of the following: --timesync-interval Specifies the interval at which to synchronize the time with the host. The default is 10000 ms (10 seconds). --timesync-min-adjust The minimum absolute drift value measured in milliseconds to make adjustments for. The default is 1000 ms on OS/2 and 100 ms elsewhere. --timesync-latency-factor The factor to multiply the time query latency with to calculate the dynamic minimum adjust time. The default is 8 times, that means in detail: Measure the time it takes to determine the host time (the guest has to contact the VM host service which may take some time), multiply this value by 8 and do an adjustment only if the time difference between host and guest is bigger than this value. Don't do any time adjustment otherwise. --timesync-max-latency The max host timer query latency to accept. The default is 250 ms. --timesync-set-threshold The absolute drift threshold, given as milliseconds where to start setting the time instead of trying to smoothly adjust it. The default is 20 minutes. --timesync-set-start Set the time when starting the time sync service. --timesync-set-on-restore 0|1 Set the time after the VM was restored from a saved state when passing 1 as parameter (default). Disable by passing 0. In the latter case, the time will be adjusted smoothly which can take a long time. All these parameters can be specified as command line parameters to VBoxService as well. Once installed and started, the VirtualBox Guest Additions will try to synchronize the guest time with the host time. This can be prevented by forbidding the guest service from reading the host clock: VBoxManage setextradata "VM name" "VBoxInternal/Devices/VMMDev/0/Config/GetHostTimeDisabled" 1 Starting with VirtualBox 4.1, VirtualBox ships a new network filter driver that utilizes Solaris 11's Crossbow functionality. By default, this new driver is installed for Solaris 11 hosts (builds 159 and above) that has support for it. To force installation of the older STREAMS based network filter driver, execute as root the following command before installing the VirtualBox package: touch /etc/vboxinst_vboxflt To force installation of the Crossbow based network filter driver, execute as root the following command before installing the VirtualBox package: touch /etc/vboxinst_vboxbow To check which driver is currently being used by VirtualBox, execute: modinfo | grep vbox If the output contains "vboxbow", it indicates VirtualBox is using the Crossbow network filter driver, while the name "vboxflt" indicates usage of the older STREAMS network filter. VirtualBox supports VNIC (Virtual Network Interface) templates for configuring VMs over VLANs. Support for Crossbow based bridged networking was introduced with VirtualBox 4.1 and requires Solaris 11 build 159 or above. A VirtualBox VNIC template is a VNIC whose name starts with "vboxvnic_template" (case-sensitive). On Solaris 11 hostsWhen Crossbow based bridged networking is used., a VNIC template may be used to specify the VLAN ID to use while bridging over a network link. Here is an example of how to use a VNIC template to configure a VM over a VLAN. Create a VirtualBox VNIC template, by executing as root: dladm create-vnic -t -l nge0 -v 23 vboxvnic_template0 This will create a temporary VNIC template over interface "nge0" with the VLAN ID 23. To create VNIC templates that are persistent across host reboots, skip the -t parameter in the above command. You may check the current state of links using: $ dladm show-link LINK CLASS MTU STATE BRIDGE OVER nge0 phys 1500 up -- -- nge1 phys 1500 down -- -- vboxvnic_template0 vnic 1500 up -- nge0 $ dladm show-vnic LINK OVER SPEED MACADDRESS MACADDRTYPE VID vboxvnic_template0 nge0 1000 2:8:20:25:12:75 random 23 Once the VNIC template is created, any VMs that need to be on VLAN 23 over the interface "nge0" can be configured to bridge using this VNIC template. VNIC templates makes managing VMs on VLANs simpler and efficient. The VLAN details are not stored as part of every VM's configuration but rather inherited from the VNIC template while starting the VM. The VNIC template itself can be modified anytime using dladm. VNIC templates can be created with additional properties such as bandwidth limits, CPU fanout etc. Refer to your Solaris network documentation on how to accomplish this. These additional properties, if any, are also applied to VMs which bridge using the VNIC template. By default VirtualBox provides you with one host-only network interface. Adding more host-only network interfaces on Solaris hosts requires manual configuration. Here's how to add another host-only network interface. Begin by stopping all running VMs. Then, unplumb the existing "vboxnet0" interface by execute the following command as root: ifconfig vboxnet0 unplumb If you have several vboxnet interfaces, you will need to unplumb all of them. Once all vboxnet interfaces are unplumbed, remove the driver by executing the following command as root: rem_drv vboxnet Edit the file /platform/i86pc/kernel/drv/vboxnet.conf and add a line for the new interface we want to add as shown below: name="vboxnet" parent="pseudo" instance=1; name="vboxnet" parent="pseudo" instance=2; Add as many of these lines as required with each line having a unique instance number. Next, reload the vboxnet driver by executing the following command as root: add_drv vboxnet On Solaris 11.1 and newer hosts you may want to rename the default vanity interface name. To check what name has been assigned, execute: dladm show-phys LINK MEDIA STATE SPEED DUPLEX DEVICE net0 Ethernet up 100 full e1000g0 net2 Ethernet up 1000 full vboxnet1 net1 Ethernet up 1000 full vboxnet0 In the above example, we can rename "net2" to "vboxnet1" before proceeding to plumb the interface. This can be done by executing as root: dladm rename-link net2 vboxnet1 Now plumb all the interfaces using ifconfig vboxnetX plumb (where 'X' would be 1 in this case). Once the interface is plumbed, it may be configured like any other network interface. Refer to the ifconfig documentation for further details. To make the newly added interfaces' settings persistent across reboots, you will need to edit the files /etc/inet/netmasks, and if you are using NWAM /etc/nwam/llp and add the appropriate entries to set the netmask and static IP for each of those interfaces. The VirtualBox installer only updates these configuration files for the one "vboxnet0" interface it creates by default. VirtualBox is capable of producing its own core files for extensive debugging when things go wrong. Currently this is only available on Solaris hosts. The VirtualBox CoreDumper can be enabled using the following command: VBoxManage setextradata "VM name" VBoxInternal2/CoreDumpEnabled 1 You can specify which directory to use for core dumps with this command: VBoxManage setextradata "VM name" VBoxInternal2/CoreDumpDir <path-to-directory>Make sure the directory you specify is on a volume with sufficient free space and that the VirtualBox process has sufficient permissions to write files to this directory. If you skip this command and don't specify any core dump directory, the current directory of the VirtualBox executable will be used (which would most likely fail when writing cores as they are protected with root permissions). It is recommended you explicitly set a core dump directory. You must specify when the VirtualBox CoreDumper should be triggered. This is done using the following commands: VBoxManage setextradata "VM name" VBoxInternal2/CoreDumpReplaceSystemDump 1 VBoxManage setextradata "VM name" VBoxInternal2/CoreDumpLive 1At least one of the above two commands will have to be provided if you have enabled the VirtualBox CoreDumper. Setting CoreDumpReplaceSystemDump sets up the VM to override the host's core dumping mechanism and in the event of any crash only the VirtualBox CoreDumper would produce the core file. Setting CoreDumpLive sets up the VM to produce cores whenever the VM process receives a SIGUSR2 signal. After producing the core file, the VM will not be terminated and will continue to run. You can thus take cores of the VM process using: kill -s SIGUSR2 <VM-process-id> Core files produced by the VirtualBox CoreDumper are of the form core.vb.<ProcessName>.<ProcessID>, for example core.vb.VBoxHeadless.11321. Solaris kernel zones on x86-based systems make use of hardware-assisted virtualization features like VirtualBox does. However, for kernel zones and VirtualBox to share this hardware resource, they need to co-operate. By default, due to performance reasons, VirtualBox acquires the hardware-assisted virtualization resource (VT-x/AMD-V) globally on the host machine and uses it until the last VirtualBox VM that requires it is powered off. This prevents other software from using VT-x/AMD-V during the time VirtualBox has taken control of it. VirtualBox can be instructed to relinquish use of hardware-assisted virtualization features when not executing guest code, thereby allowing kernel zones to make use of them. To do this, shutdown all VirtualBox VMs and execute the following command: VBoxManage setproperty hwvirtexclusive off This command needs to be executed only once as the setting is stored as part of the global VirtualBox settings which will continue to persist across host-reboots and VirtualBox upgrades. There are several advanced customization settings for locking down the VirtualBox manager, that is, removing some features that the user should not see. VBoxManage setextradata global GUI/Customizations OPTION[,OPTION...] where OPTION is one of the following keywords: noSelector Don't allow to start the VirtualBox manager. Trying to do so will show a window containing a proper error message. noMenuBar VM windows will not contain a menu bar. noStatusBar VM windows will not contain a status bar. To disable any of these VM manager customizations do VBoxManage setextradata global GUI/Customizations The following per-machine VM extradata settings can be used to change the behavior of the VM selector window in respect of certain VMs: VBoxManage setextradata "VM name" true where SETTING can be: GUI/HideDetails Don't show the VM configuration of a certain VM. The details window will remain just empty if this VM is selected. GUI/PreventReconfiguration Don't allow the user to open the settings dialog for a certain VM. GUI/PreventSnapshotOperations Prevent snapshot operations for a VM from the GUI, either at runtime or when the VM is powered off. GUI/HideFromManager Hide a certain VM in the VM selector window. GUI/PreventApplicationUpdate Disable the automatic update check and hide the corresponding menu item. Please note that these settings wouldn't prevent the user from reconfiguring the VM by VBoxManage modifyvm. You can disable (i.e. black-list) certain entries in the global settings page of the VM selector: VBoxManage setextradata global GUI/RestrictedGlobalSettingsPages OPTION[,OPTION...] where OPTION is one of the following keywords: General Don't show the General settings pane. Input Don't show the Input settings pane. Update Don't show the Update settings pane. Language Don't show the Language settings pane. Display Don't show the Display settings pane. Network Don't show the Network settings pane. Extensions Don't show the Extensions settings pane. Proxy Don't show the Proxy settings pane. This is a global setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata global GUI/RestrictedGlobalSettingsPages You can disable (i.e. black-list) certain menu actions in the VM window: VBoxManage setextradata "VM name" GUI/RestrictedRuntimeMenus OPTION[,OPTION...] where OPTION is one of the following keywords: All Don't show any menu in the VM window. Machine Don't show the Machine menu in the VM window. View Don't show the View menu in the VM window. Devices Don't show the Devices menu in the VM window. Help Don't show the Help menu in the VM window. Debug Don't show the Debug menu in the VM window. The debug menu is only visible if the GUI was started with special command line parameters or environment variable settings. This is a per-VM setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedRuntimeMenus You can also disable (i.e. blacklist) certain menu actions of certain menus. Use the following command to disable certain actions of the Application menu (only available on Mac OS X hosts): VBoxManage setextradata "VM name" GUI/RestrictedRuntimeApplicationMenuActions OPTION[,OPTION...] where OPTION is one of the following keywords: All Don't show any menu item in this menu. About Don't show the About menu item in this menu. This is a per-VM setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedRuntimeMenus Use the following command to disable certain actions of the Machine menu: VBoxManage setextradata "VM name" GUI/RestrictedRuntimeApplicationMenuActions OPTION[,OPTION...] where OPTION is one of the following keywords: All Don't show any menu item in this menu. SettingsDialog Don't show the Settings menu item in this menu. TakeSnapshot Don't show the Take Snapshot menu item in this menu. TakeScreenshot Don't show the Take Screenshot menu item in this menu. InformationDialog Don't show the Session Information menu item in this menu. MouseIntegration Don't show the Disable Mouse Integration menu item in this menu. TypeCAD Don't show the Insert Ctrl+Alt+Del menu item in this menu. TypeCABS Don't show the Insert Ctrl+Alt+Backspace menu item in this menu (available on X11 hosts only). Pause Don't show the Pause menu item in this menu. Reset Don't show the Reset menu item in this menu. SaveState Don't show the Save the machine state menu item in this menu. Shutdown Don't show the ACPI Shutdown menu item in this menu. PowerOff Don't show the Power Off the machine menu item in this menu. This is a per-VM setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedRuntimeApplicationMenuActions Use the following command to disable certain actions of the View menu: VBoxManage setextradata "VM name" GUI/RestrictedRuntimeViewMenuActions OPTION[,OPTION...] where OPTION is one of the following keywords: All Don't show any menu item in this menu. Fullscreen Don't show the Switch to Fullscreen menu item in this menu. Seamless Don't show the Switch to Seamless Mode menu item in this menu. Scale Don't show the Switch to Scaled Mode menu item in this menu. GuestAutoresize Don't show the Auto-resize Guest Display menu item in this menu. AdjustWindow Don't show the Adjust Window Size menu item in this menu. Multiscreen Don't show the Multiscreen menu item in this menu (only visible in full screen / seamless mode). This is a per-VM setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedRuntimeViewMenuActions Use the following command to disable certain actions of the View menu: VBoxManage setextradata "VM name" GUI/RestrictedRuntimeDevicesMenuActions OPTION[,OPTION...] where OPTION is one of the following keywords to disable actions in the Devices menu: All Don't show any menu item in this menu. OpticalDevices Don't show the CD/DVD Devices menu item in this menu. FloppyDevices Don't show the FLoppy Devices menu item in this menu. USBDevices Don't show the USB Devices menu item in this menu. SharedClipboard Don't show the Shared Clipboard menu item in this menu. DragAndDrop Don't show the Drag'n'Drop menu item in this menu. NetworkSettings Don't show the Network Settings... menu item in this menu. SharedFoldersSettings Don't show the Shared Folders Settings... menu item in this menu. VRDEServer Don't show the Remove Display menu item in this menu. InstallGuestTools Don't show the Insert Guest Additions CD imnage... menu item in this menu. This is a per-VM setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedRuntimeDevicesMenuActions Use the following command to disable certain actions of the View menu: VBoxManage setextradata "VM name" GUI/RestrictedRuntimeDebuggerMenuActions OPTION[,OPTION...] where OPTION is one of the following keywords to disable actions in the Debug menu (normally completely disabled): All Don't show any menu item in this menu. Statistics Don't show the Statistics... menu item in this menu. CommandLine Don't show the Command Line... menu item in this menu. Logging Don't show the Logging... menu item in this menu. LogDialog Don't show the Show Log... menu item in this menu. This is a per-VM setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedRuntimeDebuggerMenuActions Use the following command to disable certain actions of the View menu: VBoxManage setextradata "VM name" GUI/RestrictedRuntimeHelpMenuActions OPTION[,OPTION...] where OPTION is one of the following keywords to disable actions in the Help menu (normally completely disabled): All Don't show any menu item in this menu. Contents Don't show the Contents... menu item in this menu. WebSite Don't show the VirtualBox Web Site... menu item in this menu. ResetWarnings Don't show the Reset All Warnings menu item in this menu. NetworkAccessManager Don't show the Network Operations Manager menu item in this menu. About Don't show the About menu item in this menu (only on non Mac OS X hosts). Contents Don't show the Contents... menu item in this menu. Contents Don't show the Contents... menu item in this menu. This is a per-VM setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedRuntimeHelpMenuActions You can disable (i.e. black-list) certain status bar items: VBoxManage setextradata "VM name" GUI/RestrictedStatusBarIndicators OPTION[,OPTION...] where OPTION is one of the following keywords: HardDisks Don't show the hard disk icon in the VM window status bar. By default the hard disk icon is only shown if the VM configuration contains one or more hard disks. OpticalDisks Don't show the CD icon in the VM window status bar. By default the CD icon is only shown if the VM configuration contains one or more CD drives. FloppyDisks Don't show the floppy icon in the VM window status bar. By default the floppy icon is only shown if the VM configuration contains one more more floppy drives. Network Don't show the network icon in the VM window status bar. By default the network icon is only shown if the VM configuration contains one or more active network adapters. USB Don't show the USB icon in the status bar. SharedFolders Don't show the shared folders icon in the status bar. VideoCapture Don't show the video capture icon in the status bar. Features Don't show the CPU features icon in the status bar. Mouse Don't show the mouse icon in the status bar. Keyboard Don't show the keyboard icon in the status bar. This is a per-VM setting. Any combination of the above is allowed. If all options are specified, no icons are displayed in the status bar of the VM window. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedStatusBarIndicators You can disable (i.e. black-list) certain VM visual modes: VBoxManage setextradata "VM name" GUI/RestrictedVisualStates OPTION[,OPTION...] where OPTION is one of the following keywords: Fullscreen Don't allow to switch the VM into full screen mode. Seamless Don't allow to switch the VM into seamless mode. Scale Don't allow to switch the VM into scale mode. This is a per-VM setting. Any combination of the above is allowed. To restore the default behavior, use VBoxManage setextradata "VM name" GUI/RestrictedVisualStates To disable all host key combinations, open the preferences and change the host key to None. This might be useful when using VirtualBox in a kiosk mode. To redefine or disable certain host key actions, use the following command: VBoxManage setextradata global GUI/Input/MachineShortcuts "FullscreenMode=F,...." The following list shows the possible host key actions together with their default host key shortcut. Setting an action to None will disable that host key action. Action Default Key Action TakeSnapshot T take a snapshot TakeScreenshot E take a screenshot MouseIntegration I toggle mouse integration TypeCAD Del inject Ctrl+Alt+Del TypeCABS Backspace inject Ctrl+Alt+Backspace Pause P Pause the VM Reset R (hard) reset the guest SaveState save the VM state and terminate the VM Shutdown H press the (virtual) ACPI power button PowerOff power the VM off (without saving the state!) Close Q show the VM close dialog FullscreenMode F switch the VM into full screen SeamlessMode L switch the VM into seamless mode ScaleMode C switch the VM into scale mode GuestAutoResize G automatically resize the guest window WindowAdjust A immediately resize the guest window PopupMenu Home show popup menu in full screen / seaml. mode SettingsDialog S open the VM settings dialog InformationDialog N show the VM information window NetworkAdaptersDialog show the VM network adapters dialog SharedFoldersDialog show the VM shared folders dialog InstallGuestAdditions D mount the ISO containing the Guest Additions To disable the full screen mode as well as the seamless mode, use the following command: VBoxManage setextradata global GUI/Input/MachineShortcuts "FullscreenMode=None,SeamlessMode=None" You can disallow (i.e. black-list) certain actions when terminating a VM. To disallow specific actions, type: VBoxManage setextradata "VM name" GUI/RestrictedCloseActions OPTION[,OPTION...] where OPTION is one of the following keywords: SaveState Don't allow the user to save the VM state when terminating the VM. Shutdown Don't allow the user to shutdown the VM by sending the ACPI power-off event to the guest. PowerOff Don't allow the user to power off the VM. PowerOffRestoringSnapshot Don't allow the user to return to the last snapshot when powering off the VM. This is a per-VM setting. Any combination of the above is allowed. If all options are specified, the VM cannot be shut down at all. A VM runs into a Guru Meditation if there is a problem which cannot be fixed by other means than terminating the process. The default is to show a message window which instructs the user to open a bug report. This behavior can be configured: VBoxManage setextradata "VM name" GUI/GuruMeditationHandler MODE where MODE is one of the following keywords: Default A message window is shown. After the user confirmed, the VM is terminated. PowerOff The VM is immediately powered-off without showing any message window. The VM logfile will show information about what happend. Ignore The VM is left in stuck mode. Execution is stopped but no message window is shown. The VM has to be powered off manually. This is a per-VM setting. By default, the mouse is captured if the user clicks on the guest window and the guest expects relative mouse coordiantes at this time. This happens if the pointing device is configured as PS/2 mouse and the guest did not (yet) start the VirtualBox Guest Additions (for instance, the guest is booting or no Guest Additions installed at all) or if the pointing device is configured as USB tablet but the guest has no USB driver loaded yet. Once the Guest Additions become active or the USB guest driver is started, the mouse capture is automatically released. The default behavior is sometimes not desired. Therefore it can be configured: VBoxManage setextradata "VM name" GUI/MouseCapturePolicy MODE where MODE is one of the following keywords: Default The default behavior as described above. HostComboOnly The mouse is only captured if the Host Key is toggled. Disabled The mouse is never captured, also not by toggling the Host Key This is a per-VM setting. By default, the mouse is captured if the user clicks on the guest window and the guest expects relative mouse coordiantes at this time. This happens if the pointing device is configured as PS/2 mouse and the guest did not (yet) start the VirtualBox Guest Additions (for instance, the guest is booting or no Guest Additions installed at all) or if the pointing device is configured as USB tablet but the guest has no USB driver loaded yet. Once the Guest Additions become active or the USB guest driver is started, the mouse capture is automatically released. The default behavior is sometimes not desired. Therefore it can be configured: VBoxManage setextradata "VM name" GUI/MouseCapturePolicy MODE where MODE is one of the following keywords: Default The default behavior as described above. HostComboOnly The mouse is only captured if the Host Key is toggled. Disabled The mouse is never captured, also not by toggling the Host Key This is a per-VM setting. As of version 4.3.16, VirtualBox uses special window manager facilities to switch a multi-screen machine to full-screen on a multi-monitor host system. However, not all window managers provide these facilities correctly, so VirtualBox can be told to use the old method of switching to full-screen mode instead using the command: VBoxManage setextradata global GUI/Fullscreen/LegacyMode true You can go back to the new method using the command: VBoxManage setextradata global GUI/Fullscreen/LegacyMode This is a global setting. The VirtualBox web service (vboxwebsrv) is used for controlling VirtualBox remotely. It is documented in detail in the VirtualBox Software Development Kit (SDK); please see . As the client base using this interface is growing, we added start scripts for the various operation systems we support. The following sections describe how to use them. The VirtualBox web service is never started automatically as a result of a standard installation. On Linux, the web service can be automatically started during host boot by adding appropriate parameters to the file /etc/default/virtualbox. There is one mandatory parameter, VBOXWEB_USER, which must be set to the user which will later start the VMs. The parameters in the table below all start with VBOXWEB_ (VBOXWEB_HOST, VBOXWEB_PORT etc.): Parameter Description Default USER The user as which the web service runs HOST The host to bind the web service to localhost PORT The port to bind the web service to 18083 SSL_KEYFILE Server key and certificate file, PEM format SSL_PASSWORDFILE File name for password to server key SSL_CACERT CA certificate file, PEM format SSL_CAPATH CA certificate path SSL_DHFILE DH file name or DH key length in bits SSL_RANDFILE File containing seed for random number generator TIMEOUT Session timeout in seconds; 0 disables timeouts 300 CHECK_INTERVAL Frequency of timeout checks in seconds 5 THREADS Maximum number of worker threads to run in parallel 100 KEEPALIVE Maximum number of requests before a socket will be closed 100 ROTATE Number of log files; 0 disables log rotation 10 LOGSIZE Maximum size of a log file in bytes to trigger rotation 1MB LOGINTERVAL Maximum time interval in seconds to trigger log rotation 1 day Setting the parameter SSL_KEYFILE enables the SSL/TLS support. Using encryption is strongly encouraged, as otherwise everything (including passwords) is transferred in clear text. On Solaris hosts, the VirtualBox web service daemon is integrated into the SMF framework. You can change the parameters, but don't have to if the defaults below already match your needs:svccfg -s svc:/application/virtualbox/webservice:default setprop config/host=localhost svccfg -s svc:/application/virtualbox/webservice:default setprop config/port=18083 svccfg -s svc:/application/virtualbox/webservice:default setprop config/user=root The table in the previous section showing the parameter names and defaults also applies to Solaris. The parameter names must be changed to lowercase and a prefix of config/ has to be added, e.g. config/user or config/ssl_keyfile. If you made any change, don't forget to run the following command to put the changes into effect immediately:svcadm refresh svc:/application/virtualbox/webservice:default If you forget the above command then the previous settings will be used when enabling the service. Check the current property settings with:svcprop -p config svc:/application/virtualbox/webservice:default When everything is configured correctly you can start the VirtualBox web service with the following command:svcadm enable svc:/application/virtualbox/webservice:default For more information about SMF, please refer to the Solaris documentation. On Mac OS X, launchd is used to start the VirtualBox webservice. An example configuration file can be found in $HOME/Library/LaunchAgents/org.virtualbox.vboxwebsrv.plist. It can be enabled by changing the Disabled key from true to false. To manually start the service use the following command: launchctl load ~/Library/LaunchAgents/org.virtualbox.vboxwebsrv.plist For additional information on how launchd services could be configured see http://developer.apple.com/mac/library/documentation/MacOSX/Conceptual/BPSystemStartup/BPSystemStartup.html. Starting with VirtualBox 4.2 the memory ballooning service formerly known as VBoxBalloonCtrl was renamed to VBoxWatchdog, which now incorporates several host services that are meant to be run in a server environment. These services are: Memory ballooning control, which automatically takes care of a VM's configured memory balloon (see for an introduction to memory ballooning). This especially is useful for server environments where VMs may dynamically require more or less memory during runtime. The service periodically checks a VM's current memory balloon and its free guest RAM and automatically adjusts the current memory balloon by inflating or deflating it accordingly. This handling only applies to running VMs having recent Guest Additions installed. Host isolation detection, which provides a way to detect whether the host cannot reach the specific VirtualBox server instance anymore and take appropriate actions, such as shutting down, saving the current state or even powering down certain VMs. All configuration values can be either specified via command line or global extradata, whereas command line values always have a higher priority when set. Some of the configuration values also be be specified on a per-VM basis. So the overall lookup order is: command line, per-VM basis extradata (if available), global extradata. The memory ballooning control inflates and deflates the memory balloon of VMs based on the VMs free memory and the desired maximum balloon size. To set up the memory ballooning control the maximum ballooning size a VM can reach needs to be set. This can be specified via command line with --balloon-max <Size in MB>, on a per-VM basis extradata value with VBoxManage setextradata <VM-Name> VBoxInternal2/Watchdog/BalloonCtrl/BalloonSizeMax <Size in MB> or using a global extradata value with VBoxManage setextradata global VBoxInternal2/Watchdog/BalloonCtrl/BalloonSizeMax <Size in MB> If no maximum ballooning size is specified by at least one of the parameters above, no ballooning will be performed at all. Setting the ballooning increment in MB can be either done via command line with --balloon-inc <Size in MB> or using a global extradata value with VBoxManage setextradata global VBoxInternal2/Watchdog/BalloonCtrl/BalloonIncrementMB <Size in MB> Default ballooning increment is 256 MB if not specified. Same goes with the ballooning decrement: Via command line with --balloon-dec <Size in MB> or using a global extradata value with VBoxManage setextradata global VBoxInternal2/Watchdog/BalloonCtrl/BalloonDecrementMB <Size in MB> Default ballooning decrement is 128 MB if not specified. To define the lower limit in MB a balloon can be the command line with --balloon-lower-limit <Size in MB> can be used or using a global extradata value with VBoxManage setextradata global VBoxInternal2/Watchdog/BalloonCtrl/BalloonLowerLimitMB <Size in MB> is available. Default lower limit is 128 if not specified. To detect whether a host is being isolated, that is, the host cannot reach the VirtualBox server instance anymore, the host needs to set an alternating value to a global extradata value within a time period. If this value is not set within that time period a timeout occurred and the so-called host isolation response will be performed to the VMs handled. Which VMs are handled can be controlled by defining VM groups and assigning VMs to those groups. By default no groups are set, meaning that all VMs on the server will be handled when no host response is received within 30 seconds. To set the groups handled by the host isolation detection via command line: --apimon-groups=<string[,stringN]> or using a global extradata value with VBoxManage setextradata global VBoxInternal2/Watchdog/APIMonitor/Groups <string[,stringN]> To set the host isolation timeout via command line: --apimon-isln-timeout=<ms> or using a global extradata value with VBoxManage setextradata global VBoxInternal2/Watchdog/APIMonitor/IsolationTimeoutMS <ms> To set the actual host isolation response via command line: --apimon-isln-response=<cmd> or using a global extradata value with VBoxManage setextradata global VBoxInternal2/Watchdog/APIMonitor/IsolationResponse <cmd> The following response commands are available: none, which does nothing. pause, which pauses the execution of a VM. poweroff, which shuts down the VM by pressing the virtual power button. The VM will not have the chance of saving any data or veto the shutdown process. save, which saves the current machine state and powers off the VM afterwards. If saving the machine state fails the VM will be paused. shutdown, which shuts down the VM in a gentle way by sending an ACPI shutdown event to the VM's operating system. The OS then has the chance of doing a clean shutdown. For more advanced options and parameters like verbose logging check the built-in command line help accessible with --help. On Linux, the watchdog service can be automatically started during host boot by adding appropriate parameters to the file /etc/default/virtualbox. There is one mandatory parameter, VBOXWATCHDOG_USER, which must be set to the user which will later start the VMs. For backward compatibility you can also specify VBOXBALLOONCTRL_USERThe parameters in the table below all start with VBOXWATCHDOG_ (VBOXWATCHDOG_BALLOON_INTERVAL, VBOXWATCHDOG_LOGSIZE etc., and for previously existing parameters the VBOXBALLOONCTRL_INTERVAL etc. parameters can still be used): Parameter Description Default USER The user as which the watchdog service runs ROTATE Number of log files; 0 disables log rotation 10 LOGSIZE Maximum size of a log file in bytes to trigger rotation 1MB LOGINTERVAL Maximum time interval in seconds to trigger log rotation 1 day BALLOON_INTERVAL Interval for checking the balloon size (msec) 30000 BALLOON_INCREMENT Balloon size increment (MByte) 256 BALLOON_DECREMENT Balloon size decrement (MByte) 128 BALLOON_LOWERLIMIT Balloon size lower limit (MByte) 64 BALLOON_SAFETYMARGIN Free memory required for decreasing the balloon size (MByte) 1024 On Solaris hosts, the VirtualBox watchdog service daemon is integrated into the SMF framework. You can change the parameters, but don't have to if the defaults already match your needs:svccfg -s svc:/application/virtualbox/balloonctrl:default setprop config/balloon_interval=10000 svccfg -s svc:/application/virtualbox/balloonctrl:default setprop config/balloon_safetymargin=134217728 The table in the previous section showing the parameter names and defaults also applies to Solaris. The parameter names must be changed to lowercase and a prefix of config/ has to be added, e.g. config/user or config/balloon_safetymargin. If you made any change, don't forget to run the following command to put the changes into effect immediately:svcadm refresh svc:/application/virtualbox/balloonctrl:default If you forget the above command then the previous settings will be used when enabling the service. Check the current property settings with:svcprop -p config svc:/application/virtualbox/balloonctrl:default When everything is configured correctly you can start the VirtualBox watchdog service with the following command:svcadm enable svc:/application/virtualbox/balloonctrl:default For more information about SMF, please refer to the Solaris documentation. Starting with VirtualBox 4.2.0 there is another extension pack, VNC, which is open source and replaces the previous integration of the VNC remote access protocol. This is experimental code, and will be initially available in the VirtualBox source code package only. It is to a large portion code contributed by users, and is not supported in any way by Oracle. The keyboard handling is severely limited, and only the US keyboard layout works. Other keyboard layouts will have at least some keys which produce the wrong results (often quite surprising effects), and for layouts which have significant differences to the US keyboard layout it is most likely unusable. It is possible to install both the Oracle VM VirtualBox Extension Pack and VNC, but only one VRDE module can be active at any time. The following command switches to the VNC VRDE module in VNC:VBoxManage setproperty vrdeextpack VNC Configuring the remote access works very similarly to VRDP (see ), with some limitations: VNC does not support specifying several port numbers, and the authentication is done differently. VNC can only deal with password authentication, and there is no option to use password hashes. This leaves no other choice than having a clear-text password in the VM configuration, which can be set with the following command:VBoxManage modifyvm "VM name" --vrdeproperty VNCPassword=secret The user is responsible for keeping this password secret, and it should be removed when a VM configuration is passed to another person, for whatever purpose. Some VNC servers claim to have "encrypted" passwords in the configuration. This is not true encryption, it is only concealing the passwords, which is exactly as secure as clear-text passwords. The following command switches back to VRDP (if installed):VBoxManage setproperty vrdeextpack "Oracle VM VirtualBox Extension Pack" Starting with VirtualBox 4.2.0 it is possible to start VMs automatically during system boot on Linux, Solaris and Mac OS X for all users. On Linux, the autostart service is activated by setting two variables in /etc/default/virtualbox. The first one is VBOXAUTOSTART_DB which contains an absolute path to the autostart database directory. The directory should have write access for every user who should be able to start virtual machines automatically. Furthermore the directory should have the sticky bit set. The second variable is VBOXAUTOSTART_CONFIG which points the service to the autostart configuration file which is used during boot to determine whether to allow individual users to start a VM automatically and configure startup delays. The configuration file can be placed in /etc/vbox and contains several options. One is default_policy which controls whether the autostart service allows or denies to start a VM for users which are not in the exception list. The exception list starts with exception_list and contains a comma separated list with usernames. Furthermore a separate startup delay can be configured for every user to avoid overloading the host. A sample configuration is given below: # Default policy is to deny starting a VM, the other option is "allow". default_policy = deny # Bob is allowed to start virtual machines but starting them # will be delayed for 10 seconds bob = { allow = true startup_delay = 10 } # Alice is not allowed to start virtual machines, useful to exclude certain users # if the default policy is set to allow. alice = { allow = false } Every user who wants to enable autostart for individual machines has to set the path to the autostart database directory with VBoxManage setproperty autostartdbpath <Autostart directory> On Solaris hosts, the VirtualBox autostart daemon is integrated into the SMF framework. To enable it you have to point the service to an existing configuration file which has the same format as on Linux (see ): svccfg -s svc:/application/virtualbox/autostart:default setprop config/config=/etc/vbox/autostart.cfg When everything is configured correctly you can start the VirtualBox autostart service with the following command:svcadm enable svc:/application/virtualbox/autostart:default For more information about SMF, please refer to the Solaris documentation. On Mac OS X, launchd is used to start the VirtualBox autostart service. An example configuration file can be found in /Applications/VirtualBox.app/Contents/MacOS/org.virtualbox.vboxautostart.plist. To enable the service copy the file to /Library/LaunchDaemons and change the Disabled key from true to false. Furthermore replace the second parameter to an existing configuration file which has the same format as on Linux (see ). To manually start the service use the following command: launchctl load /Library/LaunchDaemons/org.virtualbox.vboxautostart.plist For additional information on how launchd services could be configured see http://developer.apple.com/mac/library/documentation/MacOSX/Conceptual/BPSystemStartup/BPSystemStartup.html. In case the snapshot model of VirtualBox is not sufficient it is possible to enable a special mode which makes it possible to reconfigure storage attachments while the VM is paused. The user has to make sure that the disk data stays consistent to the guest because unlike with hotplugging the guest is not informed about detached or newly attached media. The expert storage management mode can be enabled per VM executing: VBoxManage setextradata "VM name" "VBoxInternal2/SilentReconfigureWhilePaused" 1 Storage attachments can be reconfigured while the VM is paused afterwards using: VBoxManage storageattach ... Some host power management events are handled by VirtualBox. The actual behavior depends on the platform: Host Suspends This event is generated when the host is about to suspend, that is, the host saves the state to some non-volatile storage and powers off. This event is currently only handled on Windows hosts and Mac OS X hosts. When this event is generated, VirtualBox will pause all running VMs. Host Resumes This event is generated when the host woke up from the suspended state. This event is currently only handled on Windows hosts and Mac OS X hosts. When this event is generated, VirtualBox will resume all VMs which are where paused before. Battery Low The battery level reached a critical level (usually less than 5 percent charged). This event is currently only handled on Windows hosts and Mac OS X hosts. When this event is generated, VirtualBox will save the state and terminate all VMs in preperation of a potential host powerdown. The behavior can be configured. By executing the following command, no VM is saved: VBoxManage setextradata global "VBoxInternal2/SavestateOnBatteryLow" 0 This is a global setting as well as a per-VM setting. The per-VM value has higher precedence than the global value. The following command will save the state of all VMs but will not save the state of VM "foo": VBoxManage setextradata global "VBoxInternal2/SavestateOnBatteryLow" 1 VBoxManage setextradata "foo" "VBoxInternal2/SavestateOnBatteryLow" 0 The first line is actually not required as by default the savestate action is performed. To provide SSE 4.1 / SSE 4.2 support to guests, the host CPU has to implement these instruction sets. Starting with VirtualBox 4.3.8 it is possible to enable these instructions for certain guests using the following commands:VBoxManage setextradata "VM name" VBoxInternal/CPUM/SSE4.1 1 VBoxManage setextradata "VM name" VBoxInternal/CPUM/SSE4.2 1 These are a per-VM settings and they are turned off by default. This feature makes the host keyboard lights match those of the virtual machine's virtual keyboard when the machine window is selected. It is currently implemented for Mac OS X and Windows hosts and available as of releases 4.2.24 and 4.3.8. The feature can be enabled using the following command: VBoxManage setextradata "VM name" GUI/HidLedsSync "1" In order to disable it, use the same command but change "1" to "0", or use the VBoxManage command to remove the extra data. This is a per-VM setting and it is disabled by default. Starting with VirtualBox 5.0 it is possible to capture USB traffic for single USB devices or on the root hub level which captures the traffic of all USB devices attached to the root hub. VirtualBox stores the traffic in a format which is compatible with Wireshark. To capture the traffic of a specific USB device it must be attached to the VM with VBoxManage using the following command: VBoxManage controlvm "VM name" usbattach "device uuid|address" --capturefile "filename" In order to enable capturing on the root hub use the following command while the VM is not running: VBoxManage setextradata "VM name" VBoxInternal/Devices/usb-ehci/LUN#0/Config/CaptureFilename "filename" The command above enables capturing on the root hub attached to the EHCI controller. To enable it for the OHCI or XHCI controller replace usb-ehci with usb-ohci or usb-xhci respectively. VirtualBox ships a simple heartbeat service. Once the Guest Additions are active, the guest sends frequent heartbeat pings to the host. If the guest stops sending the heartbeat pings without properly termination the service, the VM process will log this event in the VBox.log file. In the future it might be possible to configure dedicated actions but for there is only a warning in the log file. There are two parameters to configure. The heartbeat interval defines the time between two heartbeat pings. The default value is 2 seconds, that is, the heartbeat service of the VirtualBox Guest Additions will send a heartbeat ping every two seconds. The value in nanoseconds can be configured like this: VBoxManage controlvm "VM name" VBoxInternal/Devices/VMMDev/0/Config/HeartbeatInterval 2000000000 The heartbeat timeout defines the time the host waits starting from the last heartbeat ping before it defines the guest as unresponsive. The default value is 2 times the heartbeat interval (4 seconds) and can be configured as following (in nanoseconds): VBoxManage controlvm "VM name" VBoxInternal/Devices/VMMDev/0/Config/HeartbeatTimeout 4000000000 If the heartbeat timeout expires, there will be a log message like VMMDev: HeartBeatCheckTimer: Guest seems to be unresponsive. Last heartbeat received 5 seconds ago. If another heartbeat ping arrives after this warning, there will be a log message like VMMDev: GuestHeartBeat: Guest is alive. Starting with VirtualBox 5.0, it is possible to encrypt the data stored in hard disk images transparently for the guest. It does not depend on a specific image format to be used. Images which have the data encrypted are not portable between VirtualBox and other virtualization software though. VirtualBox uses the AES algorithm in XTS mode and supports 128 or 256 bit data encryption keys (DEK). The DEK is stored encrypted in the medium properties and is decrypted during VM startup by entering a password which was chosen when the image was encrypted. There are some limitations the user needs to be aware of when using this feature: This feature is currently closed source and requires the VirtualBox extension pack to be installed to work. Since encryption works only on the stored user data, it is currently not possible to check for metadata integrity of the disk image. Attackers might take advantage of this to remove or insert blocks of data into the image or change certain metadata items such as the disk size. Exporting appliances which contain encrypted disk images is not possible because the OVF specification doesn't support this. All images are therefore decrypted during export. The DEK is kept in memory while the VM is running to be able to decrypt data read and encrypt data written by the guest. While this should be obvious the user needs to be aware of this because an attacker might be able to extract the key on a compromised host and get access to the data later. When encrypting or decrypting the images, the password is passed unencrypted via the Main API from the frontend to VBoxSVC. This needs to be kept in mind, especially when using third party frontends which make use of the webservice where the password might be transmitted unencrypted over the network. Encrypting images with differencing images is only possible if there are no branches. This limitation may be addressed in a future VirtualBox version. Encrypting disk images can be done either using the GUI or VBoxManage. While the GUI is easier to use, it works on a per VM basis and encrypts all disk images attached to the specific VM. With VBoxManage one can encrypt individual images (including all differencing images). To encrypt an unencrypted medium with VBoxManage, use: VBoxManage encryptmedium "uuid|filename" --newpassword "file|-" --cipher "cipher id" --newpasswordid "id" To supply the encryption password point VBoxManage to the file where the password is stored or specify - to let VBoxManage ask you for the password on the command line. The cipher parameter specifies the cipher to use for encryption and can be either AES-XTS128-PLAIN64 or AES-XTS256-PLAIN64. The specified password identifier can be freely chosen by the user and is used for correct identification when supplying multiple passwords during VM startup. If the user uses the same password when encrypting multiple images and also the same password identifier, the user needs to supply the password only once during VM startup. When a VM is started using the GUI, a dialog will open where the user needs to enter all passwords for all encrypted images attached to the VM. If another frontend like VBoxHeadless is used, the VM will be paused as soon as the guest tries to access an encrypted disk. The user needs to provide the passwords through VBoxManage using the following command: VBoxManage controlvm "uuid|vmname" addencpassword "id" "password" [--removeonsuspend "yes|no"] The id parameter must be the same as the password identifier supplied when encrypting the images. password is the password used when encrypting the images. The user can optionally specify --removeonsuspend "yes|no" to specify whether to remove the password from VM memory when the VM is suspended. Before the VM can be resumed, the user needs to supply the passwords again. This is useful when a VM is suspended by a host suspend event and the user doesn't want the password to remain in memory. In some circumstances it might be required to decrypt previously encrypted images. This can be done in the GUI for a complete VM or using VBoxManage with the following command: VBoxManage encryptmedium "uuid|filename" --oldpassword "file|-" The only required parameter is the password the image was encrypted with. The options are the same as for encrypting images.