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Table of Contents

VirtualBox is a powerful x86 and AMD64/Intel64 virtualization product for enterprise as well as home use. Not only is VirtualBox an extremely feature rich, high performance product for enterprise customers, it is also the only professional solution that is freely available as Open Source Software under the terms of the GNU General Public License (GPL) version 2. It is a free and powerful x86 and AMD64/Intel64 virtualization product available for most of the operating systems such as Linux, Microsoft Windows, Mac OS X, Solaris and ported version for FreeBSD. Read wiki about VirtualBox. You can follow our blog for new images we release for VirtualBox.

4.1. Introduction to Guest Additions
4.2. Installing and Maintaining Guest Additions
4.2.1. Guest Additions for Windows
4.2.2. Guest Additions for Linux
4.2.3. Guest Additions for Oracle Solaris
4.2.4. Guest Additions for OS/2
4.3. Shared Folders
4.3.1. Manual Mounting
4.3.2. Automatic Mounting
4.4. Drag and Drop
4.4.1. Supported Formats
4.4.2. Known Limitations
4.5. Hardware-Accelerated Graphics
4.5.1. Hardware 3D Acceleration (OpenGL and Direct3D 8/9)
4.5.2. Hardware 2D Video Acceleration for Windows Guests
4.6. Seamless Windows
4.7. Guest Properties
4.7.1. Using Guest Properties to Wait on VM Events
4.8. Guest Control File Manager
4.8.1. Using the Guest Control File Manager
4.9. Guest Control of Applications
4.10. Memory Overcommitment
4.10.1. Memory Ballooning
4.10.2. Page Fusion
4.11. Controlling Virtual Monitor Topology
4.11.1. X11/Wayland Desktop Environments

The previous chapter covered getting started with Oracle VM VirtualBox and installing operating systems in a virtual machine. For any serious and interactive use, the Oracle VM VirtualBox Guest Additions will make your life much easier by providing closer integration between host and guest and improving the interactive performance of guest systems. This chapter describes the Guest Additions in detail.

As mentioned in Section 1.2, “Some Terminology”, the Guest Additions are designed to be installed inside a virtual machine after the guest operating system has been installed. They consist of device drivers and system applications that optimize the guest operating system for better performance and usability. See Section 3.1, “Supported Guest Operating Systems” for details on what guest operating systems are fully supported with Guest Additions by Oracle VM VirtualBox.

The Oracle VM VirtualBox Guest Additions for all supported guest operating systems are provided as a single CD-ROM image file which is called VBoxGuestAdditions.iso. This image file is located in the installation directory of Oracle VM VirtualBox. To install the Guest Additions for a particular VM, you mount this ISO file in your VM as a virtual CD-ROM and install from there.

The Guest Additions offer the following features:

  • Mouse pointer integration. To overcome the limitations for mouse support described in Section 1.8.2, “Capturing and Releasing Keyboard and Mouse”, this feature provides you with seamless mouse support. You will only have one mouse pointer and pressing the Host key is no longer required to free the mouse from being captured by the guest OS. To make this work, a special mouse driver is installed in the guest that communicates with the physical mouse driver on your host and moves the guest mouse pointer accordingly.

  • Shared folders. These provide an easy way to exchange files between the host and the guest. Much like ordinary Windows network shares, you can tell Oracle VM VirtualBox to treat a certain host directory as a shared folder, and Oracle VM VirtualBox will make it available to the guest operating system as a network share, irrespective of whether the guest actually has a network. See Section 4.3, “Shared Folders”.

  • Better video support. While the virtual graphics card which Oracle VM VirtualBox emulates for any guest operating system provides all the basic features, the custom video drivers that are installed with the Guest Additions provide you with extra high and non-standard video modes, as well as accelerated video performance.

    In addition, with Windows, Linux, and Oracle Solaris guests, you can resize the virtual machine's window if the Guest Additions are installed. The video resolution in the guest will be automatically adjusted, as if you had manually entered an arbitrary resolution in the guest's Display settings. See Section 1.8.5, “Resizing the Machine's Window”.

    If the Guest Additions are installed, 3D graphics and 2D video for guest applications can be accelerated. See Section 4.5, “Hardware-Accelerated Graphics”.

  • Seamless windows. With this feature, the individual windows that are displayed on the desktop of the virtual machine can be mapped on the host's desktop, as if the underlying application was actually running on the host. See Section 4.6, “Seamless Windows”.

  • Generic host/guest communication channels. The Guest Additions enable you to control and monitor guest execution. The guest properties provide a generic string-based mechanism to exchange data bits between a guest and a host, some of which have special meanings for controlling and monitoring the guest. See Section 4.7, “Guest Properties”.

    Additionally, applications can be started in a guest from the host. See Section 4.9, “Guest Control of Applications”.

  • Time synchronization. With the Guest Additions installed, Oracle VM VirtualBox can ensure that the guest's system time is better synchronized with that of the host.

    For various reasons, the time in the guest might run at a slightly different rate than the time on the host. The host could be receiving updates through NTP and its own time might not run linearly. A VM could also be paused, which stops the flow of time in the guest for a shorter or longer period of time. When the wall clock time between the guest and host only differs slightly, the time synchronization service attempts to gradually and smoothly adjust the guest time in small increments to either catch up or lose time. When the difference is too great, for example if a VM paused for hours or restored from saved state, the guest time is changed immediately, without a gradual adjustment.

    The Guest Additions will resynchronize the time regularly. See Section 9.11.3, “Tuning the Guest Additions Time Synchronization Parameters” for how to configure the parameters of the time synchronization mechanism.

  • Shared clipboard. With the Guest Additions installed, the clipboard of the guest operating system can optionally be shared with your host operating system. See Section 3.4, “General Settings”.

  • Automated logins. Also called credentials passing. See Section 9.1, “Automated Guest Logins”.

Each version of Oracle VM VirtualBox, even minor releases, ship with their own version of the Guest Additions. While the interfaces through which the Oracle VM VirtualBox core communicates with the Guest Additions are kept stable so that Guest Additions already installed in a VM should continue to work when Oracle VM VirtualBox is upgraded on the host, for best results, it is recommended to keep the Guest Additions at the same version.

The Windows and Linux Guest Additions therefore check automatically whether they have to be updated. If the host is running a newer Oracle VM VirtualBox version than the Guest Additions, a notification with further instructions is displayed in the guest.

To disable this update check for the Guest Additions of a given virtual machine, set the value of its /VirtualBox/GuestAdd/CheckHostVersion guest property to 0. See Section 4.7, “Guest Properties”.

Guest Additions are available for virtual machines running Windows, Linux, Oracle Solaris, or OS/2. The following sections describe the specifics of each variant in detail.

The Oracle VM VirtualBox Windows Guest Additions are designed to be installed in a virtual machine running a Windows operating system. The following versions of Windows guests are supported:

  • Microsoft Windows NT 4.0 (any service pack)

  • Microsoft Windows 2000 (any service pack)

  • Microsoft Windows XP (any service pack)

  • Microsoft Windows Server 2003 (any service pack)

  • Microsoft Windows Server 2008

  • Microsoft Windows Vista (all editions)

  • Microsoft Windows 7 (all editions)

  • Microsoft Windows 8 (all editions)

  • Microsoft Windows 10 RTM build 10240

  • Microsoft Windows Server 2012

In the Devices menu in the virtual machine's menu bar, Oracle VM VirtualBox has a menu item Insert Guest Additions CD Image, which mounts the Guest Additions ISO file inside your virtual machine. A Windows guest should then automatically start the Guest Additions installer, which installs the Guest Additions on your Windows guest.

For other guest operating systems, or if automatic start of software on a CD is disabled, you need to do a manual start of the installer.

Note

For the basic Direct3D acceleration to work in a Windows guest, you have to install the WDDM video driver available for Windows Vista or later.

For Windows 8 and later, only the WDDM Direct3D video driver is available. For basic Direct3D acceleration to work in Windows XP guests, you have to install the Guest Additions in Safe Mode. See Chapter 14, Known Limitations for details.

If you prefer to mount the Guest Additions manually, you can perform the following steps:

  1. Start the virtual machine in which you have installed Windows.

  2. Select Optical Drives from the Devices menu in the virtual machine's menu bar and then Choose/Create a Disk Image. This displays the Virtual Media Manager, described in Section 5.3, “The Virtual Media Manager”.

  3. In the Virtual Media Manager, click Add and browse your host file system for the VBoxGuestAdditions.iso file.

    • On a Windows host, this file is in the Oracle VM VirtualBox installation directory, usually in C:Program filesOracleVirtualBox.

    • On Mac OS X hosts, this file is in the application bundle of Oracle VM VirtualBox. Right-click on the Oracle VM VirtualBox icon in Finder and choose Show Package Contents. The file is located in the Contents/MacOS folder.

    • On a Linux host, this file is in the additions folder where you installed Oracle VM VirtualBox, usually /opt/VirtualBox/.

    • On Oracle Solaris hosts, this file is in the additions folder where you installed Oracle VM VirtualBox, usually /opt/VirtualBox.

  4. In the Virtual Media Manager, select the ISO file and click the Add button. This mounts the ISO file and presents it to your Windows guest as a CD-ROM.

Unless you have the Autostart feature disabled in your Windows guest, Windows will now autostart the Oracle VM VirtualBox Guest Additions installation program from the Additions ISO. If the Autostart feature has been turned off, choose VBoxWindowsAdditions.exe from the CD/DVD drive inside the guest to start the installer.

The installer will add several device drivers to the Windows driver database and then invoke the hardware detection wizard.

Depending on your configuration, it might display warnings that the drivers are not digitally signed. You must confirm these in order to continue the installation and properly install the Additions.

After installation, reboot your guest operating system to activate the Additions.

Windows Guest Additions can be updated by running the installation program again. This replaces the previous Additions drivers with updated versions.

Alternatively, you can also open the Windows Device Manager and select Update Driver... for the following devices:

  • Oracle VM VirtualBox Graphics Adapter

  • Oracle VM VirtualBox System Device

For each, choose the option to provide your own driver, click Have Disk and navigate to the CD-ROM drive with the Guest Additions.

To avoid popups when performing an unattended installation of the Oracle VM VirtualBox Guest Additions, the code signing certificates used to sign the drivers needs to be installed in the correct certificate stores on the guest operating system. Failure to do this will cause a typical Windows installation to display multiple dialogs asking whether you want to install a particular driver.

Note

On some Windows versions, such as Windows 2000 and Windows XP, the user intervention popups mentioned above are always displayed, even after importing the Oracle certificates.

Installing the code signing certificates on a Windows guest can be done automatically. Use the VBoxCertUtil.exe utility from the cert folder on the Guest Additions installation CD.

Use the following steps:

  1. Log in as Administrator on the guest.

  2. Mount the Oracle VM VirtualBox Guest Additions .ISO.

  3. Open a command line window on the guest and change to the cert folder on the Oracle VM VirtualBox Guest Additions CD.

  4. Run the following command:

    This command installs the certificates to the certificate store. When installing the same certificate more than once, an appropriate error will be displayed.

To allow for completely unattended guest installations, you can specify a command line parameter to the install launcher:

This automatically installs the right files and drivers for the corresponding platform, either 32-bit or 64-bit.

Note

By default on an unattended installation on a Vista or Windows 7 guest, there will be the XPDM graphics driver installed. This graphics driver does not support Windows Aero / Direct3D on the guest. Instead, the WDDM graphics driver needs to be installed. To select this driver by default, add the command line parameter /with_wddm when invoking the Windows Guest Additions installer. This is only required for Vista and Windows 7.

Note

For Windows Aero to run correctly on a guest, the guest's VRAM size needs to be configured to at least 128 MB.

For more options regarding unattended guest installations, consult the command line help by using the command:

If you would like to install the files and drivers manually, you can extract the files from the Windows Guest Additions setup as follows:

To explicitly extract the Windows Guest Additions for another platform than the current running one, such as 64-bit files on a 32-bit system, you must use the appropriate platform installer. Use VBoxWindowsAdditions-x86.exe or VBoxWindowsAdditions-amd64.exe with the /extract parameter.

Like the Windows Guest Additions, the Oracle VM VirtualBox Guest Additions for Linux are a set of device drivers and system applications which may be installed in the guest operating system.

The following Linux distributions are officially supported:

  • Oracle Linux as of version 5, including UEK kernels

  • Fedora as of Fedora Core 4

  • Red Hat Enterprise Linux as of version 3

  • SUSE and openSUSE Linux as of version 9

  • Ubuntu as of version 5.10

Many other distributions are known to work with the Guest Additions.

The version of the Linux kernel supplied by default in SUSE and openSUSE 10.2, Ubuntu 6.10 (all versions) and Ubuntu 6.06 (server edition) contains a bug which can cause it to crash during startup when it is run in a virtual machine. The Guest Additions work in those distributions.

Note that some Linux distributions already come with all or part of the Oracle VM VirtualBox Guest Additions. You may choose to keep the distribution's version of the Guest Additions but these are often not up to date and limited in functionality, so we recommend replacing them with the Guest Additions that come with Oracle VM VirtualBox. The Oracle VM VirtualBox Linux Guest Additions installer tries to detect an existing installation and replace them but depending on how the distribution integrates the Guest Additions, this may require some manual interaction. It is highly recommended to take a snapshot of the virtual machine before replacing preinstalled Guest Additions.

The Oracle VM VirtualBox Guest Additions for Linux are provided on the same virtual CD-ROM file as the Guest Additions for Windows. See Section 4.2.1.1, “Installing the Windows Guest Additions”. They also come with an installation program that guides you through the setup process. However, due to the significant differences between Linux distributions, installation may be slightly more complex when compared to Windows.

Installation generally involves the following steps:

  1. Before installing the Guest Additions, you prepare your guest system for building external kernel modules. This works as described in Section 2.3.2, “The Oracle VM VirtualBox Kernel Modules”, except that this step must be performed in your Linux guest instead of on a Linux host system.

    If you suspect that something has gone wrong, check that your guest is set up correctly and run the following command as root:

  2. Insert the VBoxGuestAdditions.iso CD file into your Linux guest's virtual CD-ROM drive, as described for a Windows guest in Section 4.2.1.1, “Installing the Windows Guest Additions”.

  3. Change to the directory where your CD-ROM drive is mounted and run the following command as root:

In Linux and Oracle Solaris guests, Oracle VM VirtualBox graphics and mouse integration goes through the X Window System. Oracle VM VirtualBox can use the X.Org variant of the system, or XFree86 version 4.3 which is identical to the first X.Org release. During the installation process, the X.Org display server will be set up to use the graphics and mouse drivers which come with the Guest Additions.

After installing the Guest Additions into a fresh installation of a supported Linux distribution or Oracle Solaris system, many unsupported systems will work correctly too, the guest's graphics mode will change to fit the size of the Oracle VM VirtualBox window on the host when it is resized. You can also ask the guest system to switch to a particular resolution by sending a video mode hint using the VBoxManage tool.

Multiple guest monitors are supported in guests using the X.Org server version 1.3, which is part of release 7.3 of the X Window System version 11, or a later version. The layout of the guest screens can be adjusted as needed using the tools which come with the guest operating system.

If you want to understand more about the details of how the X.Org drivers are set up, in particular if you wish to use them in a setting which our installer does not handle correctly, see Section 9.3.2, “Guest Graphics and Mouse Driver Setup in Depth”.

The Guest Additions can simply be updated by going through the installation procedure again with an updated CD-ROM image. This will replace the drivers with updated versions. You should reboot after updating the Guest Additions.

If you have a version of the Guest Additions installed on your virtual machine and wish to remove it without installing new ones, you can do so by inserting the Guest Additions CD image into the virtual CD-ROM drive as described above. Then run the installer for the current Guest Additions with the uninstall parameter from the path that the CD image is mounted on in the guest, as follows:

While this will normally work without issues, you may need to do some manual cleanup of the guest in some cases, especially of the XFree86Config or xorg.conf file. In particular, if the Additions version installed or the guest operating system were very old, or if you made your own changes to the Guest Additions setup after you installed them.

You can uninstall the Additions as follows:

Replace /opt/VBoxGuestAdditions-version with the correct Guest Additions installation directory.

Like the Windows Guest Additions, the Oracle VM VirtualBox Guest Additions for Oracle Solaris take the form of a set of device drivers and system applications which may be installed in the guest operating system.

The following Oracle Solaris distributions are officially supported:

  • Oracle Solaris 11, including Oracle Solaris 11 Express

  • Oracle Solaris 10 4/08 and later

Other distributions may work if they are based on comparable software releases.

4.2.3.1. Installing the Oracle Solaris Guest Additions

The Oracle VM VirtualBox Guest Additions for Oracle Solaris are provided on the same ISO CD-ROM as the Additions for Windows and Linux. They come with an installation program that guides you through the setup process.

Installation involves the following steps:

  1. Mount the VBoxGuestAdditions.iso file as your Oracle Solaris guest's virtual CD-ROM drive, exactly the same way as described for a Windows guest in Section 4.2.1.1, “Installing the Windows Guest Additions”.

    If the CD-ROM drive on the guest does not get mounted, as seen with some versions of Oracle Solaris 10, run the following command as root:

  2. Change to the directory where your CD-ROM drive is mounted and run the following command as root:

  3. Choose 1 and confirm installation of the Guest Additions package. After the installation is complete, log out and log in to X server on your guest, to activate the X11 Guest Additions.

4.2.3.2. Uninstalling the Oracle Solaris Guest Additions

The Oracle Solaris Guest Additions can be safely removed by removing the package from the guest. Open a root terminal session and run the following command:

4.2.3.3. Updating the Oracle Solaris Guest Additions

The Guest Additions should be updated by first uninstalling the existing Guest Additions and then installing the new ones. Attempting to install new Guest Additions without removing the existing ones is not possible.

Oracle VM VirtualBox also ships with a set of drivers that improve running OS/2 in a virtual machine. Due to restrictions of OS/2 itself, this variant of the Guest Additions has a limited feature set. See Chapter 14, Known Limitations for details.

The OS/2 Guest Additions are provided on the same ISO CD-ROM as those for the other platforms. Mount the ISO in OS/2 as described previously. The OS/2 Guest Additions are located in the directory OS2.

We do not provide an automatic installer at this time. See the readme.txt file in the CD-ROM directory, which describes how to install the OS/2 Guest Additions manually.

With the shared folders feature of Oracle VM VirtualBox, you can access files of your host system from within the guest system. This is similar to how you would use network shares in Windows networks, except that shared folders do not require networking, only the Guest Additions. Shared folders are supported with Windows 2000 or later, Linux, and Oracle Solaris guests. Oracle VM VirtualBox includes experimental support for Mac OS X and OS/2 guests.

Shared folders physically reside on the host and are then shared with the guest, which uses a special file system driver in the Guest Additions to talk to the host. For Windows guests, shared folders are implemented as a pseudo-network redirector. For Linux and Oracle Solaris guests, the Guest Additions provide a virtual file system.

To share a host folder with a virtual machine in Oracle VM VirtualBox, you must specify the path of the folder and choose a share name that the guest can use to access the shared folder. This happens on the host. In the guest you can then use the share name to connect to it and access files.

There are several ways in which shared folders can be set up for a virtual machine:

  • In the window of a running VM, you select Shared Folders from the Devices menu, or click on the folder icon on the status bar in the bottom right corner.

  • If a VM is not currently running, you can configure shared folders in the virtual machine's Settings dialog.

  • From the command line, you can create shared folders using VBoxManage, as follows:

    See Section 8.40, “VBoxManage sharedfolder”.

There are two types of shares:

  • Permanent shares, that are saved with the VM settings.

  • Transient shares, that are added at runtime and disappear when the VM is powered off. These can be created using a check box in the VirtualBox Manager, or by using the --transient option of the VBoxManage sharedfolder add command.

Shared folders can either be read-write or read-only. This means that the guest is either allowed to both read and write, or just read files on the host. By default, shared folders are read-write. Read-only folders can be created using a check box in the VirtualBox Manager, or with the --readonly option of the VBoxManage sharedfolder add command.

Oracle VM VirtualBox shared folders also support symbolic links, also called symlinks, under the following conditions:

  • The host operating system must support symlinks. For example, a Mac OS X, Linux, or Oracle Solaris host is required.

  • Currently only Linux and Oracle Solaris Guest Additions support symlinks.

  • For security reasons the guest OS is not allowed to create symlinks by default. If you trust the guest OS to not abuse the functionality, you can enable creation of symlinks for a shared folder as follows:

You can mount the shared folder from inside a VM, in the same way as you would mount an ordinary network share:

  • In a Windows guest, shared folders are browseable and therefore visible in Windows Explorer. To attach the host's shared folder to your Windows guest, open Windows Explorer and look for the folder in My Networking Places, Entire Network, Oracle VM VirtualBox Shared Folders. By right-clicking on a shared folder and selecting Map Network Drive from the menu that pops up, you can assign a drive letter to that shared folder.

    Alternatively, on the Windows command line, use the following command:

    While vboxsvr is a fixed name, note that vboxsrv would also work, replace x: with the drive letter that you want to use for the share, and sharename with the share name specified with VBoxManage.

  • In a Linux guest, use the following command:

    To mount a shared folder during boot, add the following entry to /etc/fstab:

  • In a Oracle Solaris guest, use the following command:

    Replace sharename, use a lowercase string, with the share name specified with VBoxManage or the VirtualBox Manager. Replace mountpoint with the path where you want the share to be mounted on the guest, such as /mnt/share. The usual mount rules apply. For example, create this directory first if it does not exist yet.

    Here is an example of mounting the shared folder for the user jack on Oracle Solaris:

    Beyond the standard options supplied by the mount command, the following are available:

    This option sets the character set used for I/O operations. Note that on Linux guests, if the iocharset option is not specified, then the Guest Additions driver will attempt to use the character set specified by the CONFIG_NLS_DEFAULT kernel option. If this option is not set either, then UTF-8 is used.

    This option specifies the character set used for the shared folder name. This is UTF-8 by default.

    The generic mount options, documented in the mount manual page, apply also. Especially useful are the options uid, gid and mode, as they can allow access by normal users in read/write mode, depending on the settings, even if root has mounted the filesystem.

  • In an OS/2 guest, use the VBoxControl command to manage shared folders. For example:

    As with Windows guests, shared folders can also be accessed via UNC using VBoxSF, VBoxSvr or VBoxSrv as the server name and the shared folder name as sharename.

Oracle VM VirtualBox provides the option to mount shared folders automatically. When automatic mounting is enabled for a shared folder, the Guest Additions service will mount it for you automatically. For Windows or OS/2, a preferred drive letter can also be specified. For Linux or Oracle Solaris, a mount point directory can also be specified.

If a drive letter or mount point is not specified, or is in use already, an alternative location is found by the Guest Additions service. The service searches for an alternative location depending on the guest OS, as follows:

  • Windows and OS/2 guests. Search for a free drive letter, starting at Z:. If all drive letters are assigned, the folder is not mounted.

  • Linux and Oracle Solaris guests. Folders are mounted under the /media directory. The folder name is normalized (no spaces, slashes or colons) and is prefixed with sf_.

    For example, if you have a shared folder called myfiles, it will appear as /media/sf_myfiles in the guest.

    The guest properties /VirtualBox/GuestAdd/SharedFolders/MountDir and the more generic /VirtualBox/GuestAdd/SharedFolders/MountPrefix can be used to override the automatic mount directory and prefix. See Section 4.7, “Guest Properties”.

Access to an automatically mounted shared folder is granted to everyone in a Windows guest, including the guest user. For Linux and Oracle Solaris guests, access is restricted to members of the group vboxsf and the root user.

Oracle VM VirtualBox enables you to drag and drop content from the host to the guest, and vice versa. For this to work the latest version of the Guest Additions must be installed on the guest.

Drag and drop transparently allows copying or opening files, directories, and even certain clipboard formats from one end to the other. For example, from the host to the guest or from the guest to the host. You then can perform drag and drop operations between the host and a VM, as it would be a native drag and drop operation on the host OS.

At the moment drag and drop is implemented for Windows-based and X-Windows-based systems, both on the host and guest side. As X-Windows supports many different drag and drop protocols only the most common one, XDND, is supported for now. Applications using other protocols, such as Motif or OffiX, will not be recognized by Oracle VM VirtualBox.

In the context of using drag and drop, the origin of the data is called the source. That is, where the actual data comes from and is specified. The destination specifies where the data from the source should go to. Transferring data from the source to the destination can be done in various ways, such as copying, moving, or linking.

Note

At the moment only copying of data is supported. Moving or linking is not yet implemented.

When transferring data from the host to the guest OS, the host in this case is the source, whereas the guest OS is the destination. However, when transferring data from the guest OS to the host, the guest OS this time became the source and the host is the destination.

For security reasons drag and drop can be configured at runtime on a per-VM basis either using the Drag and Drop menu item in the Devices menu of the virtual machine, as shown below, or the VBoxManage command.

Figure 4.1. Drag and Drop Menu Options

The following drag and drop modes are available:

  • Disabled. Disables the drag and drop feature entirely. This is the default when creating a new VM.

  • Host To Guest. Enables drag and drop operations from the host to the guest only.

  • Guest To Host. Enables drag and drop operations from the guest to the host only.

  • Bidirectional. Enables drag and drop operations in both directions: from the host to the guest, and from the guest to the host.

Note

Drag and drop support depends on the frontend being used. At the moment, only the VirtualBox Manager frontend provides this functionality.

Mac

To use the VBoxManage command to control the current drag and drop mode, see Chapter 8, VBoxManage. The modifyvm and controlvm commands enable setting of a VM's current drag and drop mode from the command line.

As Oracle VM VirtualBox can run on a variety of host operating systems and also supports a wide range of guests, certain data formats must be translated after transfer. This is so that the destination operating system, which receives the data, is able to handle them in an appropriate manner.

Note

When dragging files no data conversion is done in any way. For example, when transferring a file from a Linux guest to a Windows host the Linux-specific line endings are not converted to Windows line endings.

The following formats are handled by the Oracle VM VirtualBox drag and drop service:

  • Plain text: From applications such as text editors, internet browsers and terminal windows.

  • Files: From file managers such as Windows Explorer, Nautilus, and Finder.

  • Directories: For directories, the same formats apply as for files.

The following limitations are known for drag and drop:

On Windows hosts, dragging and dropping content between UAC-elevated (User Account Control) programs and non-UAC-elevated programs is not allowed. If you start Oracle VM VirtualBox with Administrator privileges then drag and drop will not work with Windows Explorer, which runs with regular user privileges by default.

On Linux hosts and guests, programs can query for drag and drop data while the drag operation is still in progress. For example, on LXDE using the PCManFM file manager. This currently is not supported. As a workaround, a different file manager, such as Nautilus, can be used instead.

4.5.1. Hardware 3D Acceleration (OpenGL and Direct3D 8/9)

The Oracle VM VirtualBox Guest Additions contain experimental hardware 3D support for Windows, Linux, and Oracle Solaris guests.

With this feature, if an application inside your virtual machine uses 3D features through the OpenGL or Direct3D 8/9 programming interfaces, instead of emulating them in software, which would be slow, Oracle VM VirtualBox will attempt to use your host's 3D hardware. This works for all supported host platforms, provided that your host operating system can make use of your accelerated 3D hardware in the first place.

The 3D acceleration feature currently has the following preconditions:

  • It is only available for certain Windows, Linux, and Oracle Solaris guests. In particular:

    • 3D acceleration with Windows guests requires Windows 2000 or later. Apart from on Windows 2000 guests, both OpenGL and Direct3D 8/9 are supported on an experimental basis.

    • OpenGL on Linux requires kernel 2.6.27 or later, as well as X.org server version 1.5 or later. Ubuntu 10.10 and Fedora 14 have been tested and confirmed as working.

    • OpenGL on Oracle Solaris guests requires X.org server version 1.5 or later.

  • The Guest Additions must be installed.

    Note

    For the basic Direct3D acceleration to work in a Windows Guest, Oracle VM VirtualBox needs to replace Windows system files in the virtual machine. As a result, the Guest Additions installation program offers Direct3D acceleration as an option that must be explicitly enabled. Also, you must install the Guest Additions in Safe Mode. This does not apply to the WDDM Direct3D video driver available for Windows Vista and later. See Chapter 14, Known Limitations for details.

  • Because 3D support is still experimental at this time, it is disabled by default and must be manually enabled in the VM settings. See Section 3.6, “Display Settings”.

    Note

    Untrusted guest systems should not be allowed to use the 3D acceleration features of Oracle VM VirtualBox, just as untrusted host software should not be allowed to use 3D acceleration. Drivers for 3D hardware are generally too complex to be made properly secure and any software which is allowed to access them may be able to compromise the operating system running them. In addition, enabling 3D acceleration gives the guest direct access to a large body of additional program code in the Oracle VM VirtualBox host process which it might conceivably be able to use to crash the virtual machine.

To enable Aero theme support, the Oracle VM VirtualBox WDDM video driver must be installed, which is available with the Guest Additions installation. The WDDM driver is not installed by default for Vista and Windows 7 guests and must be manually selected in the Guest Additions installer by clicking No in the Would You Like to Install Basic Direct3D Support dialog displayed when the Direct3D feature is selected.

The Aero theme is not enabled by default on Windows. See your Windows platform documentation for details of how to enable the Aero theme.

Technically, Oracle VM VirtualBox implements 3D acceleration by installing an additional hardware 3D driver inside the guest when the Guest Additions are installed. This driver acts as a hardware 3D driver and reports to the guest operating system that the virtual hardware is capable of 3D hardware acceleration. When an application in the guest then requests hardware acceleration through the OpenGL or Direct3D programming interfaces, these are sent to the host through a special communication tunnel implemented by Oracle VM VirtualBox. The host then performs the requested 3D operation using the host's programming interfaces.

4.5.2. Hardware 2D Video Acceleration for Windows Guests

The Oracle VM VirtualBox Guest Additions contain experimental hardware 2D video acceleration support for Windows guests.

With this feature, if an application such as a video player inside your Windows VM uses 2D video overlays to play a movie clip, then Oracle VM VirtualBox will attempt to use your host's video acceleration hardware instead of performing overlay stretching and color conversion in software, which would be slow. This currently works for Windows, Linux and Mac OS X host platforms, provided that your host operating system can make use of 2D video acceleration in the first place.

Hardware 2D video acceleration currently has the following preconditions:

  • Only available for Windows guests, running Windows XP or later.

  • Guest Additions must be installed.

  • Because 2D support is still experimental at this time, it is disabled by default and must be manually enabled in the VM settings. See Section 3.6, “Display Settings”.

Technically, Oracle VM VirtualBox implements this by exposing video overlay DirectDraw capabilities in the Guest Additions video driver. The driver sends all overlay commands to the host through a special communication tunnel implemented by Oracle VM VirtualBox. On the host side, OpenGL is then used to implement color space transformation and scaling.

With the seamless windows feature of Oracle VM VirtualBox, you can have the windows that are displayed within a virtual machine appear side by side next to the windows of your host. This feature is supported for the following guest operating systems, provided that the Guest Additions are installed:

  • Windows guests.

  • Supported Linux or Oracle Solaris guests running the X Window System.

After seamless windows are enabled, Oracle VM VirtualBox suppresses the display of the desktop background of your guest, allowing you to run the windows of your guest operating system seamlessly next to the windows of your host.

Figure 4.2. Seamless Windows on a Host Desktop

To enable seamless mode, after starting the virtual machine, press the Host key + L. The Host key is normally the right control key. This will enlarge the size of the VM's display to the size of your host screen and mask out the guest operating system's background. To disable seamless windows and go back to the normal VM display, press the Host key + L again.

Oracle VM VirtualBox enables requests of some properties from a running guest, provided that the Oracle VM VirtualBox Guest Additions are installed and the VM is running. This provides the following advantages:

  • A number of predefined VM characteristics are automatically maintained by Oracle VM VirtualBox and can be retrieved on the host. For example, to monitor VM performance and statistics.

  • Arbitrary string data can be exchanged between guest and host. This works in both directions.

To accomplish this, Oracle VM VirtualBox establishes a private communication channel between the Oracle VM VirtualBox Guest Additions and the host, and software on both sides can use this channel to exchange string data for arbitrary purposes. Guest properties are simply string keys to which a value is attached. They can be set, or written to, by either the host and the guest. They can also be read from both sides.

In addition to establishing the general mechanism of reading and writing values, a set of predefined guest properties is automatically maintained by the Oracle VM VirtualBox Guest Additions to allow for retrieving interesting guest data such as the guest's exact operating system and service pack level, the installed version of the Guest Additions, users that are currently logged into the guest OS, network statistics and more. These predefined properties are all prefixed with /VirtualBox/ and organized into a hierarchical tree of keys.

Some of this runtime information is shown when you select Session Information Dialog from a virtual machine's Machine menu.

A more flexible way to use this channel is with the VBoxManage guestproperty command. See Section 8.31, “VBoxManage guestproperty”. For example, to have all the available guest properties for a given running VM listed with their respective values, use this command:

To query the value of a single property, use the get subcommand as follows:

To add or change guest properties from the guest, use the tool VBoxControl. This tool is included in the Guest Additions. When started from a Linux guest, this tool requires root privileges for security reasons.

For more complex needs, you can use the Oracle VM VirtualBox programming interfaces. See Chapter 11, Oracle VM VirtualBox Programming Interfaces.

4.7.1. Using Guest Properties to Wait on VM Events

The properties /VirtualBox/HostInfo/VBoxVer, /VirtualBox/HostInfo/VBoxVerExt or /VirtualBox/HostInfo/VBoxRev can be waited on to detect that the VM state was restored from saved state or snapshot:

Similarly the /VirtualBox/HostInfo/ResumeCounter can be used to detect that a VM was resumed from the paused state or saved state.

The Guest Control File Manager is a feature of the Guest Additions that enables easy copying and moving of files between a guest and the host system. Other file management operations provide support to create new folders and to rename or delete files.

Figure 4.3. Guest Control File Manager

The Guest Control File Manager works by mounting the host file system. Guest users must authenticate and create a guest session before they can transfer files.

The following steps describe how to use the Guest Control File Manager.

  1. Open the Guest Control File Manager.

    In the guest VM, select Machine, File Manager.

    The left pane shows the files on the host system.

  2. Create a guest session.

    At the bottom of the Guest Control File Manager, enter authentication credentials for a user on the guest system.

    Click Create Session.

    The contents of the guest VM file system appears in the right pane of the Guest Control File Manager.

  3. Transfer files between the guest and the host system by using the move and copy file transfer icons.

    You can copy and move files from a guest to the host system or from the host system to the guest.

  4. Close the Guest Control File Manager.

    Click Close to end the guest session.

The Guest Additions enable starting of applications inside a guest VM from the host system. This feature can be used to automate deployment of software within the guest.

For this to work, the application needs to be installed on the guest. No additional software needs to be installed on the host. Additionally, text mode output to stdout and stderr can be shown on the host for further processing. There are options to specify user credentials and a timeout value, in milliseconds, to limit the time the application is able to run.

The Guest Additions for Windows allow for automatic updating. This applies for already installed Guest Additions versions. Also, copying files from host to the guest as well as remotely creating guest directories is available.

To use these features, use the Oracle VM VirtualBox command line. See Section 8.32, “VBoxManage guestcontrol”.

In server environments with many VMs, the Guest Additions can be used to share physical host memory between several VMs. This reduces the total amount of memory in use by the VMs. If memory usage is the limiting factor and CPU resources are still available, this can help with running more VMs on each host.

The Guest Additions can change the amount of host memory that a VM uses, while the machine is running. Because of how this is implemented, this feature is called memory ballooning.

Note

  • Oracle VM VirtualBox supports memory ballooning only on 64-bit hosts. It is not supported on Mac OS X hosts.

  • Memory ballooning does not work with large pages enabled. To turn off large pages support for a VM, run VBoxManage modifyvm vmname --largepages off

Normally, to change the amount of memory allocated to a virtual machine, you have to shut down the virtual machine entirely and modify its settings. With memory ballooning, memory that was allocated for a virtual machine can be given to another virtual machine without having to shut the machine down.

When memory ballooning is requested, the Oracle VM VirtualBox Guest Additions, which run inside the guest, allocate physical memory from the guest operating system on the kernel level and lock this memory down in the guest. This ensures that the guest will not use that memory any longer. No guest applications can allocate it, and the guest kernel will not use it either. Oracle VM VirtualBox can then reuse this memory and give it to another virtual machine.

The memory made available through the ballooning mechanism is only available for reuse by Oracle VM VirtualBox. It is not returned as free memory to the host. Requesting balloon memory from a running guest will therefore not increase the amount of free, unallocated memory on the host. Effectively, memory ballooning is therefore a memory overcommitment mechanism for multiple virtual machines while they are running. This can be useful to temporarily start another machine, or in more complicated environments, for sophisticated memory management of many virtual machines that may be running in parallel depending on how memory is used by the guests.

At this time, memory ballooning is only supported through VBoxManage. Use the following command to increase or decrease the size of the memory balloon within a running virtual machine that has Guest Additions installed:

where VM name is the name or UUID of the virtual machine in question and n is the amount of memory to allocate from the guest in megabytes. See Section 8.13, “VBoxManage controlvm”.

You can also set a default balloon that will automatically be requested from the VM every time after it has started up with the following command:

By default, no balloon memory is allocated. This is a VM setting, like other modifyvm settings, and therefore can only be set while the machine is shut down. See Section 8.8, “VBoxManage modifyvm”.

Whereas memory ballooning simply reduces the amount of RAM that is available to a VM, Page Fusion works differently. It avoids memory duplication between several similar running VMs.

In a server environment running several similar VMs on the same host, lots of memory pages are identical. For example, if the VMs are using identical operating systems. Oracle VM VirtualBox's Page Fusion technology can efficiently identify these identical memory pages and share them between multiple VMs.

Note

Oracle VM VirtualBox supports Page Fusion only on 64-bit hosts, and it is not supported on Mac OS X hosts. Page Fusion currently works only with Windows 2000 and later guests.

The more similar the VMs on a given host are, the more efficiently Page Fusion can reduce the amount of host memory that is in use. It therefore works best if all VMs on a host run identical operating systems. Instead of having a complete copy of each operating system in each VM, Page Fusion identifies the identical memory pages in use by these operating systems and eliminates the duplicates, sharing host memory between several machines. This is called deduplication. If a VM tries to modify a page that has been shared with other VMs, a new page is allocated again for that VM with a copy of the shared page. This is called copy on write. All this is fully transparent to the virtual machine.

You may be familiar with this kind of memory overcommitment from other hypervisor products, which call this feature page sharing or same page merging. However, Page Fusion differs significantly from those other solutions, whose approaches have several drawbacks:

  • Traditional hypervisors scan all guest memory and compute checksums, also called hashes, for every single memory page. Then, they look for pages with identical hashes and compare the entire content of those pages. If two pages produce the same hash, it is very likely that the pages are identical in content. This process can take rather long, especially if the system is not idling. As a result, the additional memory only becomes available after a significant amount of time, such as hours or sometimes days. Even worse, this kind of page sharing algorithm generally consumes significant CPU resources and increases the virtualization overhead by 10 to 20%.

    Page Fusion in Oracle VM VirtualBox uses logic in the Oracle VM VirtualBox Guest Additions to quickly identify memory cells that are most likely identical across VMs. It can therefore achieve most of the possible savings of page sharing almost immediately and with almost no overhead.

  • Page Fusion is also much less likely to be confused by identical memory that it will eliminate, just to learn seconds later that the memory will now change and having to perform a highly expensive and often service-disrupting reallocation.

At this time, Page Fusion can only be controlled with VBoxManage, and only while a VM is shut down. To enable Page Fusion for a VM, use the following command:

You can observe Page Fusion operation using some metrics. RAM/VMM/Shared shows the total amount of fused pages, whereas the per-VM metric Guest/RAM/Usage/Shared will return the amount of fused memory for a given VM. See Section 8.33, “VBoxManage metrics” for information on how to query metrics.

Note

Enabling Page Fusion might indirectly increase the chances for malicious guests to successfully attack other VMs running on the same host. See Section 13.3.4, “Potentially Insecure Operations”.

The Guest Additions provide services for controlling the guest system's monitor topology. Monitor topology means the resolution of each virtual monitor and its state (disabled/enabled). The resolution of a virtual monitor can be modified from the host side either by resizing the window that hosts the virtual monitor, through the view menu or through VBoxManage controlvm 'vmname' setscreenlayout. On guest operating systems with X11/Wayland desktops this is put into effect by either of two following services:

Here are some details about guest screen resolution control functionality:

  • On X11/Wayland desktops the resizing service is started during desktop session initialization, that is desktop login. On X11 desktops VBoxClient --vmsvga handles screen topology through the RandR extension. On Wayland clients VBoxDRMClient is used. The decision is made automatically at each desktop session start.

  • On 32 bit guest operating systems VBoxDRMClient is always used, in order to work around bugs.

  • Since the mentioned monitor topology control services are initialized during the desktop session start, it is impossible to control the monitor resolution of display managers such as gdm, lightdm. This default behavior can be changed by setting the guest property /VirtualBox/GuestAdd/DRMResize of the virtual machine to any value. Please refer to Section 4.7, “Guest Properties” for updating guest properties. When this guest property is set then VBoxDRMClient is started during the guest OS boot and stays active all the time, for both ithe display manager login screen and the desktop session.

VBoxDRMClient is not able to handle arbitrary guest monitor topologies. Specifically, disabling a guest monitor (except the last one) invalidates the monitor topology due to limitations in the Linux kernel module vmwgfx.ko. iFor example, when the guest is configured to have 4 monitors it is not recommended to disable the 2nd or 3rd monitor.

Virtualbox Android Virtual Machine

Run Android on your PC


VirtualBox How To

The following are instructions on how to run Android-x86 inside VirtualBox.
Note: For optimal performance, make sure you have enabled either VT-x or AMD-V in your host operating system's BIOS.
Android-x86 versions tested against Virtualbox versions.

Date TestedVirtualboxHost OSAndroid-x86Result
??2.2.4Windows XP??Good
??3.0.2Fedora 11??Good
Nov. 2 20175.2.0Windows 106.0-r3 32/64 bitGood

Downloading

Download an ISO of Android-x86 from here.

Caution
If you are using Android-x86 for debugging purposes, some binaries (gdb for example) are built for 32-bit architectures and will not support debugging 64-bit binaries such as the Android app host. Download a 32-bit distribution instead.

Create a new VM

If you have not already created a VirtualBox virtual machine for Android-x86 yet, do so as follows:

  1. Click the 'New' button, and name your new virtual machine however you like. Set Type to Linux, and Version to Linux 2.6 / 3.x / 4.x. Note that you should choose the appropriate bit type for the version of Android-x86 that you downloaded.
  2. Specify how much RAM will be allocated to your virtual machine when you run it. Android doesn't specify a bare-minimum requirement for memory, just keep in mind what apps you plan on running. 2GB (2048MB) is a good place to start, and you can change this later if you need to.
  3. Create a new Hard disk image which will act as your machine's storage. The recommended starting size of 8GB is enough. Click through the rest of the options for creating your Hard disk.

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Your virtual machine has now been created. It still needs to be initially installed at this point.

Settings

Tested on VirtualBox 64-bit for Windows, version 5.2.0. Android-x86 version 6.0-r3, both 32-bit and 64-bit.
Select your machine, then click the Settings button and refer to the below recommended configuration to make sure your settings match.

  • [System]Recommended: Processor(s) should be set above 1 if you have more than one virtual processor in your host system. Failure to do so means every single app (like Google Chrome) might crush if you try to use it.
  • [Display]:
    1. Optional: Video Memory may be increased beyond the minimum selected automatically. The affects of this are unknown.
    2. Mandatory: Unless guest additions are installed[1], change the default VMSVGA to VBoxVGA.
    3. Optional: Enable 3D Acceleration may be checked. The Linux Guest Additions must (VirtualBox v6.1+) / may (VirtualBox v6.0 and below) need to be installed[2][1] to get any benefit from this.
    4. Failure to do so means you won't even be able to launch Android-X86 in the first place.[3]
  • [Storage] Find the first 'Empty' item (this should have an icon of a CD). In the Attributes, click on the CD icon with a small down arrow, and pick 'Choose Optical Virtual Disk File...'. Specify the Android-x86 ISO that you downloaded.
  • [Audio] Intel HD Audio seems to be natively supported in Android-x86.
  • [Network] By default, your installation of Android-x86 will be able to automatically connect to the internet. If not, you can try to enable WiFi in Settings/Network & Internet, and connect to showing VirtWifi. If you do not want to connect to the internet in VirtualBox, uncheck Enable Network Adapter under the Adapter 1 tab.

Install

Click the green Start arrow to power-on your virtual machine. You'll be presented with a list of options. Use the arrow keys to pick which one you want, then press Enter once the one you want is selected.

  1. If you don't want to install Android-x86 yet and just want to test it, pick one of the Live CD options (except for Debug mode).
  2. Pick the Installation option if you want your system to be installed to the virtual hard drive.
If you want to use higher resolution, you can edit the boot option by pressing TAB, change vga=788 (800x600) to vga=791 (1024x768) or vga=794 (1280x1024), and press Enter. You can also use vga=ask to see all available modes. But please note Android will only work under 16-bit mode.

Partition

When you are prompted to Choose a partition:

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  1. If you upgrade Android-x86 from a previous version, just select the existing partition. Agree to overwrite it when prompted.
  2. If this is a new VM, choose to Create/Modify partitions. Use Bootable but not GPT! This will cause the GRUB installation to fail later.
You may partition your disk however you see fit. If you just want a simple installation, create one partition taking up the entire disk and format it as ext4.

Continue through the installation. You should install GRUB when it prompts you to. You may also leave /system as read and write when prompted.
Once the installation is complete, force close/shut down the virtual machine and remove the ISO from the virtual CD drive.
Finaly, start Android-x86. If it's a new machine, once loaded you can perform the Android setup to begin using your machine.

Advanced

Custom partitions, SDCard

When booting Android-x86, you may specify which partitions represent the data and sdcard. On the boot menu, select an entry you would like to boot from, press TAB, then add the following as it suits your needs:
DATA=sda1 SDCARD=sda2 Press Enter to boot. These options specify user data (your setting, your uploaded applications, ...) go into /dev/sda1, and data saved in sdcard go into /dev/sda2.
If you build the ISO from source, you can add these options to bootable/newinstaller/boot/isolinux/isolinux.cfg.
Here is a note from David when using fdisk:
  1. Create a new virtual machine with a hard disk.
  2. Launch the Live ISO in Debug mode (I used android-x86-2.2-generic.iso) to get the commend prompt.
  3. 'fdisk /dev/sda', then type:
    1. 'n' (new partition)
    2. 'p' (primary partition)
    3. '1' (1st partition)
    4. '1' (first cylinder)
    5. 'xx' (choose the last cylinder, leaving room for a 2nd partition)
    6. 'w' (write the partition)
  4. Repeat #3, but call it partition 2, and use the remaining cylinders.
  5. 'mdev -s'
  6. 'mke2fs -j -L DATA /dev/sda1'
  7. 'mke2fs -j -L SDCARD /dev/sda2'
  8. Reboot ('reboot -f')
  9. At the boot menu, choose VESA, then hit TAB and type so that the end of the line reads: 'DATA=sda1 SDCARD=sda2'. (Only need for the generic target images, for VM target images, this is not needed)
  10. After booting (and of course disabling mouse integration via the machine menu), the SD card is read as unformatted, but you can format it by going to Settings > SD card & phone settings > Format SD Card, then Mount SD card.
  11. The SD card should now work!
Note: for the step 7, if you want to format to vfat only, then you can do : Also remember the partition type has to be fat32 (b or c). By using vfat, the step 10 is not needed.
DevTools application has a MediaScanner which (re)indexes your SD card for cases where you manually copied media over. This ensures that you see new images and/or music in the apps without having to reboot.
If you downloaded it from within android, the application asks the relevant service to index new files.

Playing music

This section describes two ways to upload music files into Android running on a vbox so you can play them by the Music app. Of course, you can save the files to the virtual disk mounted at /sdcard, as described above.

Upload files by adb

Adb is Android Debug Bridge, a tool to debug Android system. If you compile from source, it is located in out/host/linux-x86/bin/adb. Otherwise you can get it from Android SDK. Suppose the network of your vbox is OK, you can upload a file from your host by

ADBHOST=<ip of vbox> out/host/linux-x86/bin/adb push <a music file> /sdcard
You need to know the ip of your vbox. You can get it by Alt-F1 and netcfg. You may also need to reboot Android to see the uploaded files. Of course in this way you have to mount /sdcard to a virtual disk partion.
For complex network settings of the VirtualBox VM, you should refer to Debug How To on how to connect adb to the VM.

Upload files by wget

You can also upload files by wget in the debug mode. In the debug mode shell, before entering Android,

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# cd /android/sdcard
# netcfg eth0 dhcp
# wget <url of a music file>
Then type exit to enter Android.

Debug with adb

This section describes the way to debug Android with adb via network.

If we want to debug with adb via network, we should ensure the ip of vbox can be accessed by host machine. So we should change the Network Adapter type of vbox to Bridged Adapter. After starting the android-x86, we should follow the above Settings/[Network] section to ensure the network of android-x86 is enabled, and enable USB debugging in Settings/System/Developer Options. Then we can get the device ip from Settings/System/About tablet/IP address. For example, if we see the ip address is 192.168.0.116, then we can use following command to connect android-x86 in vbox from host machine.

Then you can use adb command to debug android-x86 such as get log, and dump system information.

Virtualbox Android Machine

References

  1. ^ ab VirtualBox currently has no Guest Additions for Android.
  2. ^ VirtualBox v6.1.0 states: 'old style 3D support (with VBoxVGA) has been completely removed'
  3. ^ VirtualBox states: 'Note that you must install the Guest Additions on the guest VM to specify the VBoxSVGA or VMSVGA graphics controller.'




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