1 | <?xml version="1.0" encoding="UTF-8"?>
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2 | <!DOCTYPE chapter PUBLIC "-//OASIS//DTD DocBook XML V4.4//EN"
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3 | "http://www.oasis-open.org/docbook/xml/4.4/docbookx.dtd">
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4 | <chapter id="AdvancedTopics">
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5 | <title>Advanced topics</title>
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6 |
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7 | <sect1 id="vboxsdl">
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8 | <title>VBoxSDL, the simplified VM displayer</title>
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9 |
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10 | <sect2>
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11 | <title>Introduction</title>
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12 |
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13 | <para>VBoxSDL is a simple graphical user interface (GUI) that lacks the
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14 | nice point-and-click support which VirtualBox, our main GUI, provides.
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15 | VBoxSDL is currently primarily used internally for debugging VirtualBox
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16 | and therefore not officially supported. Still, you may find it useful
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17 | for environments where the virtual machines are not necessarily
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18 | controlled by the same person that uses the virtual machine.<note>
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19 | <para>VBoxSDL is not available on the Mac OS X host platform.</para>
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20 | </note></para>
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21 |
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22 | <para>As you can see in the following screenshot, VBoxSDL does indeed
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23 | only provide a simple window that contains only the "pure" virtual
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24 | machine, without menus or other controls to click upon and no additional
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25 | indicators of virtual machine activity:</para>
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26 |
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27 | <para><mediaobject>
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28 | <imageobject>
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29 | <imagedata align="center" fileref="images/vbox-sdl.png"
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30 | width="10cm" />
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31 | </imageobject>
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32 | </mediaobject></para>
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33 |
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34 | <para>To start a virtual machine with VBoxSDL instead of the VirtualBox
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35 | GUI, enter the following on a command line:<screen>VBoxSDL --startvm <vm></screen></para>
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36 |
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37 | <para>where <computeroutput><vm></computeroutput> is, as usual
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38 | with VirtualBox command line parameters, the name or UUID of an existing
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39 | virtual machine.</para>
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40 | </sect2>
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41 |
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42 | <sect2>
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43 | <title>Secure labeling with VBoxSDL</title>
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44 |
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45 | <para>When running guest operating systems in fullscreen mode, the guest
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46 | operating system usually has control over the whole screen. This could
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47 | present a security risk as the guest operating system might fool the
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48 | user into thinking that it is either a different system (which might
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49 | have a higher security level) or it might present messages on the screen
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50 | that appear to stem from the host operating system.</para>
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51 |
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52 | <para>In order to protect the user against the above mentioned security
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53 | risks, the secure labeling feature has been developed. Secure labeling
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54 | is currently available only for VBoxSDL. When enabled, a portion of the
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55 | display area is reserved for a label in which a user defined message is
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56 | displayed. The label height in set to 20 pixels in VBoxSDL. The label
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57 | font color and background color can be optionally set as hexadecimal RGB
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58 | color values. The following syntax is used to enable secure
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59 | labeling:</para>
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60 |
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61 | <screen>VBoxSDL --startvm "VM name"
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62 | --securelabel --seclabelfnt ~/fonts/arial.ttf
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63 | --seclabelsiz 14 --seclabelfgcol 00FF00 --seclabelbgcol 00FFFF</screen>
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64 |
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65 | <para>In addition to enabling secure labeling, a TrueType font has to be
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66 | supplied. To use another font size than 12 point use the parameter
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67 | <computeroutput>--seclabelsiz</computeroutput>.</para>
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68 |
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69 | <para>The label text can be set with <screen>VBoxManage setextradata "VM name" "VBoxSDL/SecureLabel" "The Label"</screen>
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70 | Changing this label will take effect immediately.</para>
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71 |
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72 | <para>Typically, full screen resolutions are limited to certain
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73 | "standard" geometries such as 1024 x 768. Increasing this by twenty
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74 | lines is not usually feasible, so in most cases, VBoxSDL will chose the
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75 | next higher resolution, e.g. 1280 x 1024 and the guest's screen will not
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76 | cover the whole display surface. If VBoxSDL is unable to choose a higher
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77 | resolution, the secure label will be painted on top of the guest's
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78 | screen surface. In order to address the problem of the bottom part of
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79 | the guest screen being hidden, VBoxSDL can provide custom video modes to
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80 | the guest that are reduced by the height of the label. For Windows
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81 | guests and recent Solaris and Linux guests, the VirtualBox Guest
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82 | Additions automatically provide the reduced video modes. Additionally,
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83 | the VESA BIOS has been adjusted to duplicate its standard mode table
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84 | with adjusted resolutions. The adjusted mode IDs can be calculated using
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85 | the following formula:</para>
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86 |
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87 | <screen>reduced_modeid = modeid + 0x30</screen>
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88 |
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89 | <para>For example, in order to start Linux with 1024 x 748 x 16, the
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90 | standard mode 0x117 (1024 x 768 x 16) is used as a base. The Linux video
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91 | mode kernel parameter can then be calculated using:</para>
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92 |
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93 | <screen>vga = 0x200 | 0x117 + 0x30
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94 | vga = 839</screen>
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95 |
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96 | <para>The reason for duplicating the standard modes instead of only
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97 | supplying the adjusted modes is that most guest operating systems
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98 | require the standard VESA modes to be fixed and refuse to start with
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99 | different modes.</para>
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100 |
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101 | <para>When using the X.org VESA driver, custom modelines have to be
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102 | calculated and added to the configuration (usually in
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103 | <literal>/etc/X11/xorg.conf</literal>. A handy tool to determine
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104 | modeline entries can be found at <literal><ulink
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105 | url="http://www.tkk.fi/Misc/Electronics/faq/vga2rgb/calc.html">http://www.tkk.fi/Misc/Electronics/faq/vga2rgb/calc.html</ulink></literal>.)</para>
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106 | </sect2>
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107 |
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108 | <sect2>
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109 | <title>Releasing modifiers with VBoxSDL on Linux</title>
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110 |
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111 | <para>When switching from a X virtual terminal (VT) to another VT using
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112 | Ctrl-Alt-Fx while the VBoxSDL window has the input focus, the guest will
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113 | receive Ctrl and Alt keypress events without receiving the corresponding
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114 | key release events. This is an architectural limitation of Linux. In
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115 | order to reset the modifier keys, it is possible to send
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116 | <computeroutput>SIGUSR1</computeroutput> to the VBoxSDL main thread
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117 | (first entry in the <computeroutput>ps</computeroutput> list). For
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118 | example, when switching away to another VT and saving the virtual
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119 | machine from this terminal, the following sequence can be used to make
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120 | sure the VM is not saved with stuck modifiers:</para>
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121 |
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122 | <para><screen>kill -usr1 <pid>
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123 | VBoxManage controlvm "Windows 2000" savestate</screen></para>
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124 | </sect2>
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125 | </sect1>
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126 |
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127 | <sect1>
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128 | <title id="autologon">Automated guest logons</title>
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129 |
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130 | <para>VirtualBox provides Guest Addition modules for Windows, Linux and
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131 | Solaris to enable automated logons on the guest.</para>
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132 |
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133 | <para>When a guest operating system is running in a virtual machine, it
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134 | might be desirable to perform coordinated and automated logons using
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135 | credentials from a master logon system. (With "credentials", we are
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136 | referring to logon information consisting of user name, password and
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137 | domain name, where each value might be empty.)</para>
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138 |
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139 | <sect2 id="autologon_win">
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140 | <title>Automated Windows guest logons</title>
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141 |
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142 | <para>Since Windows NT, Windows has provided a modular system logon
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143 | subsystem ("Winlogon") which can be customized and extended by means of
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144 | so-called GINA modules (Graphical Identification and Authentication).
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145 | With Windows Vista and Windows 7, the GINA modules were replaced with a
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146 | new mechanism called "credential providers". The VirtualBox Guest
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147 | Additions for Windows come with both, a GINA and a credential provider
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148 | module, and therefore enable any Windows guest to perform automated
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149 | logons.</para>
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150 |
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151 | <para>To activate the VirtualBox GINA or credential provider module,
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152 | install the Guest Additions with using the command line switch
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153 | <computeroutput>/with_autologon</computeroutput>. All the following
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154 | manual steps required for installing these modules will be then done by
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155 | the installer.</para>
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156 |
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157 | <para>To manually install the VirtualBox GINA module, extract the Guest
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158 | Additions (see <xref linkend="windows-guest-file-extraction" />) and
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159 | copy the file <computeroutput>VBoxGINA.dll</computeroutput> to the
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160 | Windows <computeroutput>SYSTEM32</computeroutput> directory. Then, in
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161 | the registry, create the following key: <screen>HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Winlogon\GinaDLL</screen>
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162 | with a value of <computeroutput>VBoxGINA.dll</computeroutput>.</para>
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163 |
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164 | <note>
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165 | <para>The VirtualBox GINA module is implemented as a wrapper around
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166 | the standard Windows GINA module
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167 | (<computeroutput>MSGINA.DLL</computeroutput>). As a result, it will
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168 | most likely not work correctly with 3rd party GINA modules.</para>
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169 | </note>
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170 |
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171 | <para>To manually install the VirtualBox credential provider module, extract the
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172 | Guest Additions (see <xref linkend="windows-guest-file-extraction" />)
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173 | and copy the file <computeroutput>VBoxCredProv.dll</computeroutput> to
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174 | the Windows <computeroutput>SYSTEM32</computeroutput> directory. Then,
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175 | in the registry, create the following keys:<screen>HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion\
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176 | Authentication\Credential Providers\{275D3BCC-22BB-4948-A7F6-3A3054EBA92B}
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177 |
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178 | HKEY_CLASSES_ROOT\CLSID\{275D3BCC-22BB-4948-A7F6-3A3054EBA92B}
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179 |
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180 | HKEY_CLASSES_ROOT\CLSID\{275D3BCC-22BB-4948-A7F6-3A3054EBA92B}\InprocServer32</screen></para>
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181 |
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182 | <para>with all default values (the key named
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183 | <computeroutput>(Default)</computeroutput> in each key) set to
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184 | <computeroutput>VBoxCredProv</computeroutput>. After that a new string
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185 | named <screen>HKEY_CLASSES_ROOT\CLSID\{275D3BCC-22BB-4948-A7F6-3A3054EBA92B}\InprocServer32\ThreadingModel</screen>
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186 | with a value of <computeroutput>Apartment</computeroutput> has to be
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187 | created.</para>
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188 |
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189 | <para>To set credentials, use the following command on a
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190 | <emphasis>running</emphasis> VM:</para>
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191 |
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192 | <screen>VBoxManage controlvm "Windows XP" setcredentials "John Doe" "secretpassword" "DOMTEST"</screen>
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193 |
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194 | <para>While the VM is running, the credentials can be queried by the
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195 | VirtualBox logon modules (GINA or credential provider) using the
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196 | VirtualBox Guest Additions device driver. When Windows is in "logged
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197 | out" mode, the logon modules will constantly poll for credentials and if
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198 | they are present, a logon will be attempted. After retrieving the
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199 | credentials, the logon modules will erase them so that the above command
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200 | will have to be repeated for subsequent logons.</para>
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201 |
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202 | <para>For security reasons, credentials are not stored in any persistent
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203 | manner and will be lost when the VM is reset. Also, the credentials are
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204 | "write-only", i.e. there is no way to retrieve the credentials from the
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205 | host side. Credentials can be reset from the host side by setting empty
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206 | values.</para>
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207 |
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208 | <para>Depending on the particular variant of the Windows guest, the
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209 | following restrictions apply: <orderedlist>
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210 | <listitem>
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211 | <para>For <emphasis role="bold">Windows XP guests,</emphasis> the
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212 | logon subsystem needs to be configured to use the classic logon
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213 | dialog as the VirtualBox GINA module does not support the XP-style
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214 | welcome dialog.</para>
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215 | </listitem>
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216 |
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217 | <listitem>
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218 | <para>For <emphasis role="bold">Windows Vista and Windows 7
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219 | guests,</emphasis> the logon subsystem does not support the
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220 | so-called Secure Attention Sequence
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221 | (<computeroutput>CTRL+ALT+DEL</computeroutput>). As a result, the
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222 | guest's group policy settings need to be changed to not use the
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223 | Secure Attention Sequence. Also, the user name given is only
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224 | compared to the true user name, not the user friendly name. This
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225 | means that when you rename a user, you still have to supply the
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226 | original user name (internally, Windows never renames user
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227 | accounts).</para>
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228 | </listitem>
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229 |
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230 | <listitem>
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231 | <para>Auto-logon handling of the built-in Windows Remote Desktop Service
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232 | (formerly known as Terminal Services) is disabled by default. To enable
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233 | it, create the registry key
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234 | <screen>HKEY_LOCAL_MACHINE\SOFTWARE\Oracle\VirtualBox Guest Additions\AutoLogon</screen>
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235 | with a <computeroutput>DWORD</computeroutput> value of <computeroutput>1</computeroutput>.</para>
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236 | </listitem>
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237 | </orderedlist></para>
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238 |
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239 | <para>The following command forces VirtualBox to keep the credentials
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240 | after they were read by the guest and on VM reset: <screen>VBoxManage setextradata "Windows XP" VBoxInternal/Devices/VMMDev/0/Config/KeepCredentials 1</screen>Note
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241 | that this is a potential security risk as a malicious application
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242 | running on the guest could request this information using the proper
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243 | interface.</para>
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244 | </sect2>
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245 |
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246 | <sect2 id="autologon_unix">
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247 | <title>Automated Linux/Unix guest logons</title>
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248 |
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249 | <para>Starting with version 3.2, VirtualBox provides a custom PAM module
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250 | (Pluggable Authentication Module) which can be used to perform automated
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251 | guest logons on platforms which support this framework. Virtually all
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252 | modern Linux/Unix distributions rely on PAM.</para>
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253 |
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254 | <para>The <computeroutput>pam_vbox.so</computeroutput> module itself
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255 | <emphasis role="bold">does not</emphasis> do an actual verification of
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256 | the credentials passed to the guest OS; instead it relies on other
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257 | modules such as <computeroutput>pam_unix.so</computeroutput> or
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258 | <computeroutput>pam_unix2.so</computeroutput> down in the PAM stack to
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259 | do the actual validation using the credentials retrieved by
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260 | <computeroutput>pam_vbox.so</computeroutput>. Therefore
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261 | <computeroutput>pam_vbox.so</computeroutput> has to be on top of the
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262 | authentication PAM service list.</para>
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263 |
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264 | <note>
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265 | <para>The <computeroutput>pam_vbox.so</computeroutput> only supports
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266 | the <computeroutput>auth</computeroutput> primitive. Other primitives
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267 | such as <computeroutput>account</computeroutput>,
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268 | <computeroutput>session</computeroutput> or
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269 | <computeroutput>password</computeroutput> are not supported.</para>
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270 | </note>
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271 |
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272 | <para>The <computeroutput>pam_vbox.so</computeroutput> module is shipped
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273 | as part of the Guest Additions but it is not installed and/or activated
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274 | on the guest OS by default. In order to install it, it has to be copied
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275 | from
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276 | <computeroutput>/opt/VBoxGuestAdditions-<version>/lib/VBoxGuestAdditions/</computeroutput>
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277 | to the security modules directory, usually
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278 | <computeroutput>/lib/security/</computeroutput> on 32-bit guest Linuxes or
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279 | <computeroutput>/lib64/security/</computeroutput> on 64-bit ones. Please refer to your
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280 | guest OS documentation for the correct PAM module directory.</para>
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281 |
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282 | <para>For example, to use <computeroutput>pam_vbox.so</computeroutput>
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283 | with a Ubuntu Linux guest OS and GDM (the GNOME Desktop Manager) to
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284 | logon users automatically with the credentials passed by the host, the
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285 | guest OS has to be configured like the following:</para>
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286 |
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287 | <orderedlist>
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288 | <listitem>
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289 | <para>The <computeroutput>pam_vbox.so</computeroutput> module has to
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290 | be copied to the security modules directory, in this case it is
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291 | <computeroutput>/lib/security</computeroutput>.</para>
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292 | </listitem>
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293 |
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294 | <listitem>
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295 | <para>Edit the PAM configuration file for GDM found at
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296 | <computeroutput>/etc/pam.d/gdm</computeroutput>, adding the line
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297 | <computeroutput>auth requisite pam_vbox.so</computeroutput> at the
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298 | top. Additionaly, in most Linux distributions there is a file called
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299 | <computeroutput>/etc/pam.d/common-auth</computeroutput>. This file
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300 | is included in many other services (like the GDM file mentioned
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301 | above). There you also have to add the line <computeroutput>auth
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302 | requisite pam_vbox.so</computeroutput>.</para>
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303 | </listitem>
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304 |
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305 | <listitem>
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306 | <para>If authentication against the shadow database using
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307 | <computeroutput>pam_unix.so</computeroutput> or
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308 | <computeroutput>pam_unix2.so</computeroutput> is desired, the
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309 | argument <computeroutput>try_first_pass</computeroutput> for
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310 | <computeroutput>pam_unix.so</computeroutput> or
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311 | <computeroutput>use_first_pass</computeroutput> for
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312 | <computeroutput>pam_unix2.so</computeroutput> is needed
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313 | in order to pass the credentials from the VirtualBox module to the
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314 | shadow database authentication module. For Ubuntu, this needs to be
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315 | added to <computeroutput>/etc/pam.d/common-auth</computeroutput>, to
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316 | the end of the line referencing
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317 | <computeroutput>pam_unix.so</computeroutput>. This argument tells
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318 | the PAM module to use credentials already present in the stack, i.e.
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319 | the ones provided by the VirtualBox PAM module.</para>
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320 | </listitem>
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321 | </orderedlist>
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322 |
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323 | <para><warning>
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324 | <para>An incorrectly configured PAM stack can effectively prevent
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325 | you from logging into your guest system!</para>
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326 | </warning></para>
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327 |
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328 | <para>To make deployment easier, you can pass the argument
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329 | <computeroutput>debug</computeroutput> right after the
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330 | <computeroutput>pam_vbox.so</computeroutput> statement. Debug log output
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331 | will then be recorded using syslog.</para>
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332 |
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333 | <para><warning>
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334 | <para>At present, the GDM display manager only retrieves credentials
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335 | at startup so unless the credentials have been supplied to the guest
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336 | before GDM starts, automatic logon will not work. This limitation
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337 | needs to be addressed by the GDM developers or another display
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338 | manager must be used.</para>
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339 | </warning></para>
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340 | </sect2>
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341 | </sect1>
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342 |
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343 | <sect1>
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344 | <title>Advanced configuration for Windows guests</title>
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345 |
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346 | <sect2 id="sysprep">
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347 | <title>Automated Windows system preparation</title>
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348 |
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349 | <para>Beginning with Windows NT 4.0, Microsoft offers a "system
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350 | preparation" tool (in short: Sysprep) to prepare a Windows system for
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351 | deployment or redistribution. Whereas Windows 2000 and XP ship with
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352 | Sysprep on the installation medium, the tool also is available for
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353 | download on the Microsoft web site. In a standard installation of
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354 | Windows Vista and 7, Sysprep is already included. Sysprep mainly
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355 | consists of an executable called
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356 | <computeroutput>sysprep.exe</computeroutput> which is invoked by the
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357 | user to put the Windows installation into preparation mode.</para>
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358 |
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359 | <para>Starting with VirtualBox 3.2.2, the Guest Additions offer a way to
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360 | launch a system preparation on the guest operating system in an
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361 | automated way, controlled from the host system. To achieve that, see
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362 | <xref linkend="guestadd-guestcontrol" /> for using the feature with the
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363 | special identifier <computeroutput>sysprep</computeroutput> as the
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364 | program to execute, along with the user name
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365 | <computeroutput>sysprep</computeroutput> and password
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366 | <computeroutput>sysprep</computeroutput> for the credentials. Sysprep
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367 | then gets launched with the required system rights.</para>
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368 |
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369 | <note>
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370 | <para>Specifying the location of "sysprep.exe" is <emphasis
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371 | role="bold">not possible</emphasis> -- instead the following paths are
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372 | used (based on the operating system): <itemizedlist>
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373 | <listitem>
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374 | <para><computeroutput>C:\sysprep\sysprep.exe</computeroutput>
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375 | for Windows NT 4.0, 2000 and XP</para>
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376 | </listitem>
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377 |
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378 | <listitem>
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379 | <para><computeroutput>%WINDIR%\System32\Sysprep\sysprep.exe</computeroutput>
|
---|
380 | for Windows Vista, 2008 Server and 7</para>
|
---|
381 | </listitem>
|
---|
382 | </itemizedlist> The Guest Additions will automatically use the
|
---|
383 | appropriate path to execute the system preparation tool.</para>
|
---|
384 | </note>
|
---|
385 | </sect2>
|
---|
386 | </sect1>
|
---|
387 |
|
---|
388 | <sect1>
|
---|
389 | <title>Advanced configuration for Linux and Solaris guests</title>
|
---|
390 |
|
---|
391 | <sect2>
|
---|
392 | <title>Manual setup of selected guest services on Linux</title>
|
---|
393 |
|
---|
394 | <para>The VirtualBox Guest Additions contain several different
|
---|
395 | drivers. If for any reason you do not wish to set them all up, you can
|
---|
396 | install the Guest Additions using the following command:</para>
|
---|
397 |
|
---|
398 | <screen> sh ./VBoxLinuxAdditions.run no_setup</screen>
|
---|
399 |
|
---|
400 | <para>After this, you will need to at least compile the kernel modules
|
---|
401 | by running the command <screen> /usr/lib/VBoxGuestAdditions/vboxadd setup</screen>
|
---|
402 | as root (you will need to replace <emphasis>lib</emphasis> by
|
---|
403 | <emphasis>lib64</emphasis> on some 64bit guests), and on older guests
|
---|
404 | without the udev service you will need to add the
|
---|
405 | <emphasis>vboxadd</emphasis> service to the default runlevel to ensure
|
---|
406 | that the modules get loaded.</para>
|
---|
407 |
|
---|
408 | <para>To setup the time synchronization service, run the command
|
---|
409 | <screen> /usr/lib/VBoxGuestAdditions/vboxadd-service setup</screen>
|
---|
410 | and add the service vboxadd-service to the default runlevel. To set up
|
---|
411 | the X11 and OpenGL part of the Guest Additions, run the command
|
---|
412 | <screen> /usr/lib/VBoxGuestAdditions/vboxadd-x11 setup</screen> (you
|
---|
413 | do not need to enable any services for this).</para>
|
---|
414 |
|
---|
415 | <para>To recompile the guest kernel modules, use this command:
|
---|
416 | <screen> /usr/lib/VBoxGuestAdditions/vboxadd setup</screen> After
|
---|
417 | compilation you should reboot your guest to ensure that the new
|
---|
418 | modules are actually used.</para>
|
---|
419 | </sect2>
|
---|
420 |
|
---|
421 | <sect2 id="guestxorgsetup">
|
---|
422 | <title>Guest graphics and mouse driver setup in depth</title>
|
---|
423 |
|
---|
424 | <para>This section assumes that you are familiar with configuring
|
---|
425 | the X.Org server using xorg.conf and optionally the newer mechanisms
|
---|
426 | using hal or udev and xorg.conf.d. If not you can learn about
|
---|
427 | them by studying the documentation which comes with X.Org.</para>
|
---|
428 |
|
---|
429 | <para>The VirtualBox Guest Additions come with drivers for X.Org
|
---|
430 | versions
|
---|
431 | <itemizedlist>
|
---|
432 | <listitem>X11R6.8/X11R6.9 and XFree86 version 4.3
|
---|
433 | (vboxvideo_drv_68.o and vboxmouse_drv_68.o)</listitem>
|
---|
434 | <listitem>X11R7.0 (vboxvideo_drv_70.so and vboxmouse_drv_70.so)
|
---|
435 | </listitem>
|
---|
436 | <listitem>X11R7.1 (vboxvideo_drv_71.so and vboxmouse_drv_71.so)
|
---|
437 | </listitem>
|
---|
438 | <listitem>X.Org Server versions 1.3 and later (vboxvideo_drv_13.so
|
---|
439 | and vboxmouse_drv_13.so and so on).</listitem>
|
---|
440 | </itemizedlist>
|
---|
441 | By default these drivers can be found in the directory</para>
|
---|
442 | <para>
|
---|
443 | <computeroutput>/opt/VBoxGuestAdditions-<version>/lib/VBoxGuestAdditions</computeroutput>
|
---|
444 | </para>
|
---|
445 | <para>and the correct versions for the X server are symbolically linked
|
---|
446 | into the X.Org driver directories.</para>
|
---|
447 |
|
---|
448 | <para>For graphics integration to work correctly, the X server must
|
---|
449 | load the vboxvideo driver (many recent X server versions look for it
|
---|
450 | automatically if they see that they are running in VirtualBox) and for
|
---|
451 | an optimal user experience the guest kernel drivers must be loaded and
|
---|
452 | the Guest Additions tool VBoxClient must be running as a client in the
|
---|
453 | X session. For mouse integration to work correctly, the guest kernel
|
---|
454 | drivers must be loaded and in addition, in X servers from X.Org X11R6.8
|
---|
455 | to X11R7.1 and in XFree86 version 4.3 the right vboxmouse driver must
|
---|
456 | be loaded and associated with /dev/mouse or /dev/psaux; in X.Org server
|
---|
457 | 1.3 or later a driver for a PS/2 mouse must be loaded and the right
|
---|
458 | vboxmouse driver must be associated with /dev/vboxguest.</para>
|
---|
459 |
|
---|
460 | <para>The VirtualBox guest graphics driver can use any graphics
|
---|
461 | configuration for which the virtual resolution fits into the virtual
|
---|
462 | video memory allocated to the virtual machine (minus a small amount
|
---|
463 | used by the guest driver) as described in
|
---|
464 | <xref linkend="settings-display" />. The driver will offer a range of
|
---|
465 | standard modes at least up to the default guest resolution for all
|
---|
466 | active guest monitors. In X.Org Server 1.3 and later the default mode
|
---|
467 | can be changed by setting the output property VBOX_MODE to
|
---|
468 | "<width>x<height>" for any guest monitor. When VBoxClient
|
---|
469 | and the kernel drivers are active this is done automatically when the
|
---|
470 | host requests a mode change. The driver for older versions can only
|
---|
471 | receive new modes by querying the host for requests at regular
|
---|
472 | intervals.</para>
|
---|
473 |
|
---|
474 | <para>With pre-1.3 X Servers you can also add your own modes to the X
|
---|
475 | server configuration file. You simply need to add them to the "Modes"
|
---|
476 | list in the "Display" subsection of the "Screen" section. For example,
|
---|
477 | the section shown here has a custom 2048x800 resolution mode added:
|
---|
478 | </para>
|
---|
479 |
|
---|
480 | <screen>Section "Screen"
|
---|
481 | Identifier "Default Screen"
|
---|
482 | Device "VirtualBox graphics card"
|
---|
483 | Monitor "Generic Monitor"
|
---|
484 | DefaultDepth 24
|
---|
485 | SubSection "Display"
|
---|
486 | Depth 24
|
---|
487 | Modes "2048x800" "800x600" "640x480"
|
---|
488 | EndSubSection
|
---|
489 | EndSection</screen>
|
---|
490 | </sect2>
|
---|
491 | </sect1>
|
---|
492 |
|
---|
493 | <sect1 id="cpuhotplug">
|
---|
494 | <title>CPU hot-plugging</title>
|
---|
495 |
|
---|
496 | <para>With virtual machines running modern server operating systems,
|
---|
497 | VirtualBox supports CPU hot-plugging.<footnote>
|
---|
498 | <para>Support for CPU hot-plugging was introduced with VirtualBox
|
---|
499 | 3.2.</para>
|
---|
500 | </footnote> Whereas on a physical computer this would mean that a CPU
|
---|
501 | can be added or removed while the machine is running, VirtualBox supports
|
---|
502 | adding and removing virtual CPUs while a virtual machine is
|
---|
503 | running.</para>
|
---|
504 |
|
---|
505 | <para>CPU hot-plugging works only with guest operating systems that
|
---|
506 | support it. So far this applies only to Linux and Windows Server 2008 x64
|
---|
507 | Data Center Edition. Windows supports only hot-add while Linux supports
|
---|
508 | hot-add and hot-remove but to use this feature with more than 8 CPUs a
|
---|
509 | 64bit Linux guest is required.</para>
|
---|
510 |
|
---|
511 | <para>At this time, CPU hot-plugging requires using the VBoxManage
|
---|
512 | command-line interface. First, hot-plugging needs to be enabled for a
|
---|
513 | virtual machine:<screen>VBoxManage modifyvm "VM name" --cpuhotplug on</screen></para>
|
---|
514 |
|
---|
515 | <para>After that, the --cpus option specifies the maximum number of CPUs
|
---|
516 | that the virtual machine can have:<screen>VBoxManage modifyvm "VM name" --cpus 8</screen>When
|
---|
517 | the VM is off, you can then add and remove virtual CPUs with the modifyvm
|
---|
518 | --plugcpu and --unplugcpu subcommands, which take the number of the
|
---|
519 | virtual CPU as a parameter, like this:<screen>VBoxManage modifyvm "VM name" --plugcpu 3
|
---|
520 | VBoxManage modifyvm "VM name" --unplugcpu 3</screen>Note that CPU 0 can never
|
---|
521 | be removed.</para>
|
---|
522 |
|
---|
523 | <para>While the VM is running, CPUs can be added with the
|
---|
524 | <computeroutput>controlvm plugcpu/unplugcpu</computeroutput> commands
|
---|
525 | instead:<screen>VBoxManage controlvm "VM name" plugcpu 3
|
---|
526 | VBoxManage controlvm "VM name" unplugcpu 3</screen></para>
|
---|
527 |
|
---|
528 | <para>See <xref linkend="vboxmanage-modifyvm" /> and <xref
|
---|
529 | linkend="vboxmanage-controlvm" /> for details.</para>
|
---|
530 |
|
---|
531 | <para>With Linux guests, the following applies: To prevent ejection while
|
---|
532 | the CPU is still used it has to be ejected from within the guest before.
|
---|
533 | The Linux Guest Additions contain a service which receives hot-remove
|
---|
534 | events and ejects the CPU. Also, after a CPU is added to the VM it is not
|
---|
535 | automatically used by Linux. The Linux Guest Additions service will take
|
---|
536 | care of that if installed. If not a CPU can be started with the following
|
---|
537 | command:<screen>echo 1 > /sys/devices/system/cpu/cpu<id>/online</screen></para>
|
---|
538 | </sect1>
|
---|
539 |
|
---|
540 | <sect1 id="pcipassthrough">
|
---|
541 | <title>PCI passthrough</title>
|
---|
542 |
|
---|
543 | <para>When running on Linux hosts, with a recent enough kernel (at least version
|
---|
544 | <computeroutput>2.6.31</computeroutput>) experimental host PCI devices
|
---|
545 | passthrough is available.<footnote>
|
---|
546 | <para>Experimental support for PCI passthrough was introduced with VirtualBox
|
---|
547 | 4.1.</para>
|
---|
548 | </footnote></para>
|
---|
549 |
|
---|
550 | <note><para>The PCI passthrough module is shipped as a VirtualBox extension
|
---|
551 | package, which must be installed separately. See <xref
|
---|
552 | linkend="intro-installing" /> for more information.</para>
|
---|
553 | </note>
|
---|
554 |
|
---|
555 | <para>Essentially this feature allows to directly use physical PCI
|
---|
556 | devices on the host by the guest even if host doesn't have drivers for this
|
---|
557 | particular device. Both, regular PCI and some PCI Express cards, are
|
---|
558 | supported. AGP and certain PCI Express cards are not supported at the
|
---|
559 | moment if they rely on GART (Graphics Address Remapping Table) unit
|
---|
560 | programming for texture management as it does rather nontrivial
|
---|
561 | operations with pages remapping interfering with IOMMU.
|
---|
562 | This limitation may be lifted in future releases.</para>
|
---|
563 |
|
---|
564 | <para>To be fully functional, PCI passthrough support in VirtualBox depends upon
|
---|
565 | an IOMMU hardware unit which is not yet too widely available. If the device uses
|
---|
566 | bus mastering (i.e. it performs DMA to the OS memory on its
|
---|
567 | own), then an IOMMU is required, otherwise such DMA transactions may write to
|
---|
568 | the wrong physical memory address as the device DMA engine is programmed using
|
---|
569 | a device-specific protocol to perform memory transactions. The IOMMU functions
|
---|
570 | as translation unit mapping physical memory access requests from the device
|
---|
571 | using knowledge of the guest physical address to host physical addresses translation
|
---|
572 | rules.</para>
|
---|
573 |
|
---|
574 | <para>Intel's solution for IOMMU is marketed as "Intel Virtualization Technology for
|
---|
575 | Directed I/O" (VT-d), and AMD's one is called AMD-Vi. So please check if your
|
---|
576 | motherboard datasheet has appropriate technology.
|
---|
577 | Even if your hardware doesn't have a IOMMU, certain PCI cards may work
|
---|
578 | (such as serial PCI adapters), but the guest will show a warning on boot and
|
---|
579 | the VM execution will terminate if the guest driver will attempt to enable card
|
---|
580 | bus mastering.</para>
|
---|
581 |
|
---|
582 | <para>
|
---|
583 | It is very common that the BIOS or the host OS disables the IOMMU by default.
|
---|
584 | So before any attempt to use it please make sure that
|
---|
585 | <orderedlist>
|
---|
586 | <listitem>
|
---|
587 | <para>Your motherboard has an IOMMU unit.</para>
|
---|
588 | </listitem>
|
---|
589 | <listitem>
|
---|
590 | <para>Your CPU supports the IOMMU.</para>
|
---|
591 | </listitem>
|
---|
592 | <listitem>
|
---|
593 | <para>The IOMMU is enabled in the BIOS.</para>
|
---|
594 | </listitem>
|
---|
595 | <listitem>
|
---|
596 | <para>The VM must run with VT-x/AMD-V and nested paging enabled.</para>
|
---|
597 | </listitem>
|
---|
598 | <listitem>
|
---|
599 | <para>Your Linux kernel was compiled with IOMMU support (including DMA
|
---|
600 | remapping, see <computeroutput>CONFIG_DMAR</computeroutput> kernel
|
---|
601 | compilation option). The PCI stub driver
|
---|
602 | (<computeroutput>CONFIG_PCI_STUB</computeroutput>) is required
|
---|
603 | as well.</para>
|
---|
604 | </listitem>
|
---|
605 | <listitem>
|
---|
606 | <para>Your Linux kernel recognizes and uses the IOMMU unit
|
---|
607 | (<computeroutput>intel_iommu=on</computeroutput>
|
---|
608 | boot option could be needed). Search for DMAR and PCI-DMA in kernel boot
|
---|
609 | log.</para>
|
---|
610 | </listitem>
|
---|
611 | </orderedlist>
|
---|
612 | </para>
|
---|
613 |
|
---|
614 | <para>Once you made sure that the host kernel supports the IOMMU, the next step is
|
---|
615 | to select the PCI card and attach it to the guest. To figure out the list of
|
---|
616 | available PCI devices, use the <computeroutput>lspci</computeroutput> command.
|
---|
617 | The output will look like this
|
---|
618 | <screen>
|
---|
619 | 01:00.0 VGA compatible controller: ATI Technologies Inc Cedar PRO [Radeon HD 5450]
|
---|
620 | 01:00.1 Audio device: ATI Technologies Inc Manhattan HDMI Audio [Mobility Radeon HD 5000 Series]
|
---|
621 | 02:00.0 Ethernet controller: Realtek Semiconductor Co., Ltd. RTL8111/8168B PCI Express Gigabit Ethernet controller (rev 03)
|
---|
622 | 03:00.0 SATA controller: JMicron Technology Corp. JMB362/JMB363 Serial ATA Controller (rev 03)
|
---|
623 | 03:00.1 IDE interface: JMicron Technology Corp. JMB362/JMB363 Serial ATA Controller (rev 03)
|
---|
624 | 06:00.0 VGA compatible controller: nVidia Corporation G86 [GeForce 8500 GT] (rev a1)
|
---|
625 | </screen>
|
---|
626 | The first column is a PCI address (in format <computeroutput>bus:device.function</computeroutput>).
|
---|
627 | This address could be used to identify the device for further operations.
|
---|
628 | For example, to attach a PCI network controller on the system listed above
|
---|
629 | to the second PCI bus in the guest, as device 5, function 0, use the following command:
|
---|
630 | <screen>VBoxManage modifyvm "VM name" --pciattach 02:00.0@01:05.0</screen>
|
---|
631 | To detach same device, use
|
---|
632 | <screen>VBoxManage modifyvm "VM name" --pcidetach 02:00.0</screen>
|
---|
633 | Please note that both host and guest could freely assign a different PCI address to
|
---|
634 | the card attached during runtime, so those addresses only apply to the address of
|
---|
635 | the card at the moment of attachment (host), and during BIOS PCI init (guest).
|
---|
636 | </para>
|
---|
637 |
|
---|
638 | <para>If the virtual machine has a PCI device attached, certain limitations apply:
|
---|
639 | <orderedlist>
|
---|
640 | <listitem>
|
---|
641 | Only PCI cards with non-shared interrupts (such as using MSI on host) are
|
---|
642 | supported at the moment.
|
---|
643 | </listitem>
|
---|
644 | <listitem>
|
---|
645 | No guest state can be reliably saved/restored (as the internal state of the PCI
|
---|
646 | card could not be retrieved).
|
---|
647 | </listitem>
|
---|
648 | <listitem>
|
---|
649 | Teleportation (live migration) doesn't work (for the same reason).
|
---|
650 | </listitem>
|
---|
651 | <listitem>
|
---|
652 | No lazy physical memory allocation. The host will preallocate the whole RAM
|
---|
653 | required for the VM on startup (as we cannot catch physical hardware accesses
|
---|
654 | to the physical memory).
|
---|
655 | </listitem>
|
---|
656 | </orderedlist>
|
---|
657 | </para>
|
---|
658 |
|
---|
659 | </sect1>
|
---|
660 |
|
---|
661 |
|
---|
662 | <sect1>
|
---|
663 | <title>Advanced display configuration</title>
|
---|
664 |
|
---|
665 | <sect2>
|
---|
666 | <title>Custom VESA resolutions</title>
|
---|
667 |
|
---|
668 | <para>Apart from the standard VESA resolutions, the VirtualBox VESA BIOS
|
---|
669 | allows you to add up to 16 custom video modes which will be reported to
|
---|
670 | the guest operating system. When using Windows guests with the
|
---|
671 | VirtualBox Guest Additions, a custom graphics driver will be used
|
---|
672 | instead of the fallback VESA solution so this information does not
|
---|
673 | apply.</para>
|
---|
674 |
|
---|
675 | <para>Additional video modes can be configured for each VM using the
|
---|
676 | extra data facility. The extra data key is called
|
---|
677 | <literal>CustomVideoMode<x></literal> with <literal>x</literal>
|
---|
678 | being a number from 1 to 16. Please note that modes will be read from 1
|
---|
679 | until either the following number is not defined or 16 is reached. The
|
---|
680 | following example adds a video mode that corresponds to the native
|
---|
681 | display resolution of many notebook computers:</para>
|
---|
682 |
|
---|
683 | <screen>VBoxManage setextradata "VM name" "CustomVideoMode1" "1400x1050x16"</screen>
|
---|
684 |
|
---|
685 | <para>The VESA mode IDs for custom video modes start at
|
---|
686 | <literal>0x160</literal>. In order to use the above defined custom video
|
---|
687 | mode, the following command line has be supplied to Linux:</para>
|
---|
688 |
|
---|
689 | <screen>vga = 0x200 | 0x160
|
---|
690 | vga = 864</screen>
|
---|
691 |
|
---|
692 | <para>For guest operating systems with VirtualBox Guest Additions, a
|
---|
693 | custom video mode can be set using the video mode hint feature.</para>
|
---|
694 | </sect2>
|
---|
695 |
|
---|
696 | <sect2>
|
---|
697 | <title>Configuring the maximum resolution of guests when using the
|
---|
698 | graphical frontend</title>
|
---|
699 |
|
---|
700 | <para>When guest systems with the Guest Additions installed are started
|
---|
701 | using the graphical frontend (the normal VirtualBox application), they
|
---|
702 | will not be allowed to use screen resolutions greater than the host's
|
---|
703 | screen size unless the user manually resizes them by dragging the
|
---|
704 | window, switching to fullscreen or seamless mode or sending a video mode
|
---|
705 | hint using VBoxManage. This behavior is what most users will want, but
|
---|
706 | if you have different needs, it is possible to change it by issuing one
|
---|
707 | of the following commands from the command line:</para>
|
---|
708 |
|
---|
709 | <screen>VBoxManage setextradata global GUI/MaxGuestResolution any</screen>
|
---|
710 |
|
---|
711 | <para>will remove all limits on guest resolutions.</para>
|
---|
712 |
|
---|
713 | <screen>VBoxManage setextradata global GUI/MaxGuestResolution >width,height<</screen>
|
---|
714 |
|
---|
715 | <para>manually specifies a maximum resolution.</para>
|
---|
716 |
|
---|
717 | <screen>VBoxManage setextradata global GUI/MaxGuestResolution auto</screen>
|
---|
718 |
|
---|
719 | <para>restores the default settings. Note that these settings apply
|
---|
720 | globally to all guest systems, not just to a single machine.</para>
|
---|
721 | </sect2>
|
---|
722 |
|
---|
723 | </sect1>
|
---|
724 |
|
---|
725 | <sect1>
|
---|
726 | <title>Advanced storage configuration</title>
|
---|
727 |
|
---|
728 | <sect2 id="rawdisk">
|
---|
729 | <title>Using a raw host hard disk from a guest</title>
|
---|
730 |
|
---|
731 | <para>Starting with version 1.4, as an alternative to using virtual disk
|
---|
732 | images (as described in detail in <xref linkend="storage" />),
|
---|
733 | VirtualBox can also present either entire physical hard disks or
|
---|
734 | selected partitions thereof as virtual disks to virtual machines.</para>
|
---|
735 |
|
---|
736 | <para>With VirtualBox, this type of access is called "raw hard disk
|
---|
737 | access"; it allows a guest operating system to access its virtual hard
|
---|
738 | disk without going through the host OS file system. The actual
|
---|
739 | performance difference for image files vs. raw disk varies greatly
|
---|
740 | depending on the overhead of the host file system, whether dynamically
|
---|
741 | growing images are used and on host OS caching strategies. The caching
|
---|
742 | indirectly also affects other aspects such as failure behavior, i.e.
|
---|
743 | whether the virtual disk contains all data written before a host OS
|
---|
744 | crash. Consult your host OS documentation for details on this.</para>
|
---|
745 |
|
---|
746 | <para><warning>
|
---|
747 | <para>Raw hard disk access is for expert users only. Incorrect use
|
---|
748 | or use of an outdated configuration can lead to <emphasis
|
---|
749 | role="bold">total loss of data </emphasis>on the physical disk. Most
|
---|
750 | importantly, <emphasis>do not</emphasis> attempt to boot the
|
---|
751 | partition with the currently running host operating system in a
|
---|
752 | guest. This will lead to severe data corruption.</para>
|
---|
753 | </warning></para>
|
---|
754 |
|
---|
755 | <para>Raw hard disk access -- both for entire disks and individual
|
---|
756 | partitions -- is implemented as part of the VMDK image format support.
|
---|
757 | As a result, you will need to create a special VMDK image file which
|
---|
758 | defines where the data will be stored. After creating such a special
|
---|
759 | VMDK image, you can use it like a regular virtual disk image. For
|
---|
760 | example, you can use the Virtual Media Manager (<xref linkend="vdis" />)
|
---|
761 | or <computeroutput>VBoxManage</computeroutput> to assign the image to a
|
---|
762 | virtual machine.</para>
|
---|
763 |
|
---|
764 | <sect3>
|
---|
765 | <title>Access to entire physical hard disk</title>
|
---|
766 |
|
---|
767 | <para>While this variant is the simplest to set up, you must be aware
|
---|
768 | that this will give a guest operating system direct and full access to
|
---|
769 | an <emphasis>entire physical disk</emphasis>. If your
|
---|
770 | <emphasis>host</emphasis> operating system is also booted from this
|
---|
771 | disk, please take special care to not access the partition from the
|
---|
772 | guest at all. On the positive side, the physical disk can be
|
---|
773 | repartitioned in arbitrary ways without having to recreate the image
|
---|
774 | file that gives access to the raw disk.</para>
|
---|
775 |
|
---|
776 | <para>To create an image that represents an entire physical hard disk
|
---|
777 | (which will not contain any actual data, as this will all be stored on
|
---|
778 | the physical disk), on a Linux host, use the command<screen>VBoxManage internalcommands createrawvmdk -filename /path/to/file.vmdk
|
---|
779 | -rawdisk /dev/sda</screen>This creates the image
|
---|
780 | <code>/path/to/file.vmdk</code> (must be absolute), and all data will
|
---|
781 | be read and written from <code>/dev/sda</code>.</para>
|
---|
782 |
|
---|
783 | <para>On a Windows host, instead of the above device specification,
|
---|
784 | use e.g. <code>\\.\PhysicalDrive0</code>. On a Mac OS X host, instead
|
---|
785 | of the above device specification use e.g. <code>/dev/disk1</code>.
|
---|
786 | Note that on OS X you can only get access to an entire disk if no
|
---|
787 | volume is mounted from it.</para>
|
---|
788 |
|
---|
789 | <para>Creating the image requires read/write access for the given
|
---|
790 | device. Read/write access is also later needed when using the image
|
---|
791 | from a virtual machine.</para>
|
---|
792 |
|
---|
793 | <para>Just like with regular disk images, this does not automatically
|
---|
794 | attach the newly created image to a virtual machine. This can be done
|
---|
795 | with e.g. <screen>VBoxManage storageattach WindowsXP --storagectl "IDE Controller"
|
---|
796 | --port 0 --device 0 --type hdd --medium /path/to/file.vmdk</screen>When
|
---|
797 | this is done the selected virtual machine will boot from the specified
|
---|
798 | physical disk.</para>
|
---|
799 | </sect3>
|
---|
800 |
|
---|
801 | <sect3>
|
---|
802 | <title>Access to individual physical hard disk partitions</title>
|
---|
803 |
|
---|
804 | <para>This "raw partition support" is quite similar to the "full hard
|
---|
805 | disk" access described above. However, in this case, any partitioning
|
---|
806 | information will be stored inside the VMDK image, so you can e.g.
|
---|
807 | install a different boot loader in the virtual hard disk without
|
---|
808 | affecting the host's partitioning information. While the guest will be
|
---|
809 | able to <emphasis>see</emphasis> all partitions that exist on the
|
---|
810 | physical disk, access will be filtered in that reading from partitions
|
---|
811 | for which no access is allowed the partitions will only yield zeroes,
|
---|
812 | and all writes to them are ignored.</para>
|
---|
813 |
|
---|
814 | <para>To create a special image for raw partition support (which will
|
---|
815 | contain a small amount of data, as already mentioned), on a Linux
|
---|
816 | host, use the command<screen>VBoxManage internalcommands createrawvmdk -filename /path/to/file.vmdk
|
---|
817 | -rawdisk /dev/sda -partitions 1,5</screen></para>
|
---|
818 |
|
---|
819 | <para>As you can see, the command is identical to the one for "full
|
---|
820 | hard disk" access, except for the additional
|
---|
821 | <computeroutput>-partitions</computeroutput> parameter. This example
|
---|
822 | would create the image <code>/path/to/file.vmdk</code> (which, again,
|
---|
823 | must be absolute), and partitions 1 and 5 of <code>/dev/sda</code>
|
---|
824 | would be made accessible to the guest.</para>
|
---|
825 |
|
---|
826 | <para>VirtualBox uses the same partition numbering as your Linux host.
|
---|
827 | As a result, the numbers given in the above example would refer to the
|
---|
828 | first primary partition and the first logical drive in the extended
|
---|
829 | partition, respectively.</para>
|
---|
830 |
|
---|
831 | <para>On a Windows host, instead of the above device specification,
|
---|
832 | use e.g. <code>\\.\PhysicalDrive0</code>. On a Mac OS X host, instead
|
---|
833 | of the above device specification use e.g. <code>/dev/disk1</code>.
|
---|
834 | Note that on OS X you can only use partitions which are not mounted
|
---|
835 | (eject the respective volume first). Partition numbers are the same on
|
---|
836 | Linux, Windows and Mac OS X hosts.</para>
|
---|
837 |
|
---|
838 | <para>The numbers for the list of partitions can be taken from the
|
---|
839 | output of<screen>VBoxManage internalcommands listpartitions -rawdisk /dev/sda</screen>The
|
---|
840 | output lists the partition types and sizes to give the user enough
|
---|
841 | information to identify the partitions necessary for the guest.</para>
|
---|
842 |
|
---|
843 | <para>Images which give access to individual partitions are specific
|
---|
844 | to a particular host disk setup. You cannot transfer these images to
|
---|
845 | another host; also, whenever the host partitioning changes, the image
|
---|
846 | <emphasis>must be recreated</emphasis>.</para>
|
---|
847 |
|
---|
848 | <para>Creating the image requires read/write access for the given
|
---|
849 | device. Read/write access is also later needed when using the image
|
---|
850 | from a virtual machine. If this is not feasible, there is a special
|
---|
851 | variant for raw partition access (currently only available on Linux
|
---|
852 | hosts) that avoids having to give the current user access to the
|
---|
853 | entire disk. To set up such an image, use<screen>VBoxManage internalcommands createrawvmdk -filename /path/to/file.vmdk
|
---|
854 | -rawdisk /dev/sda -partitions 1,5 -relative</screen>When used from a
|
---|
855 | virtual machine, the image will then refer not to the entire disk, but
|
---|
856 | only to the individual partitions (in the example
|
---|
857 | <code>/dev/sda1</code> and <code>/dev/sda5</code>). As a consequence,
|
---|
858 | read/write access is only required for the affected partitions, not
|
---|
859 | for the entire disk. During creation however, read-only access to the
|
---|
860 | entire disk is required to obtain the partitioning information.</para>
|
---|
861 |
|
---|
862 | <para>In some configurations it may be necessary to change the MBR
|
---|
863 | code of the created image, e.g. to replace the Linux boot loader that
|
---|
864 | is used on the host by another boot loader. This allows e.g. the guest
|
---|
865 | to boot directly to Windows, while the host boots Linux from the
|
---|
866 | "same" disk. For this purpose the
|
---|
867 | <computeroutput>-mbr</computeroutput> parameter is provided. It
|
---|
868 | specifies a file name from which to take the MBR code. The partition
|
---|
869 | table is not modified at all, so a MBR file from a system with totally
|
---|
870 | different partitioning can be used. An example of this is<screen>VBoxManage internalcommands createrawvmdk -filename /path/to/file.vmdk
|
---|
871 | -rawdisk /dev/sda -partitions 1,5 -mbr winxp.mbr</screen>The modified
|
---|
872 | MBR will be stored inside the image, not on the host disk.</para>
|
---|
873 |
|
---|
874 | <para>The created image can be attached to a storage controller in
|
---|
875 | a VM configuration as usual.</para>
|
---|
876 | </sect3>
|
---|
877 | </sect2>
|
---|
878 |
|
---|
879 | <sect2 id="changevpd">
|
---|
880 | <title>Configuring the hard disk vendor product data (VPD)</title>
|
---|
881 |
|
---|
882 | <para>VirtualBox reports vendor product data for its virtual hard disks
|
---|
883 | which consist of hard disk serial number, firmware revision and model
|
---|
884 | number. These can be changed using the following commands:</para>
|
---|
885 |
|
---|
886 | <screen>VBoxManage setextradata "VM name"
|
---|
887 | "VBoxInternal/Devices/ahci/0/Config/Port0/SerialNumber" "serial"
|
---|
888 | VBoxManage setextradata "VM name"
|
---|
889 | "VBoxInternal/Devices/ahci/0/Config/Port0/FirmwareRevision" "firmware"
|
---|
890 | VBoxManage setextradata "VM name"
|
---|
891 | "VBoxInternal/Devices/ahci/0/Config/Port0/ModelNumber" "model"</screen>
|
---|
892 |
|
---|
893 | <para>The serial number is a 20 byte alphanumeric string, the firmware
|
---|
894 | revision an 8 byte alphanumeric string and the model number a 40 byte
|
---|
895 | alphanumeric string. Instead of "Port0" (referring to the first port),
|
---|
896 | specify the desired SATA hard disk port.</para>
|
---|
897 |
|
---|
898 | <para>The above commands apply to virtual machines with an AHCI (SATA)
|
---|
899 | controller. The commands for virtual machines with an IDE controller
|
---|
900 | are:</para>
|
---|
901 |
|
---|
902 | <screen>VBoxManage setextradata "VM name"
|
---|
903 | "VBoxInternal/Devices/piix3ide/0/Config/PrimaryMaster/SerialNumber" "serial"
|
---|
904 | VBoxManage setextradata "VM name"
|
---|
905 | "VBoxInternal/Devices/piix3ide/0/Config/PrimaryMaster/FirmwareRevision" "firmware"
|
---|
906 | VBoxManage setextradata "VM name"
|
---|
907 | "VBoxInternal/Devices/piix3ide/0/Config/PrimaryMaster/ModelNumber" "model"</screen>
|
---|
908 |
|
---|
909 | <para>For hard disks it's also possible (experimental!) to mark the drive
|
---|
910 | as having a non-rotational medium with:</para>
|
---|
911 |
|
---|
912 | <screen>VBoxManage setextradata "VM name"
|
---|
913 | "VBoxInternal/Devices/ahci/0/Config/Port0/NonRotational" "1"</screen>
|
---|
914 |
|
---|
915 | <para>Additional three parameters are needed for CD/DVD drives to report
|
---|
916 | the vendor product data:</para>
|
---|
917 |
|
---|
918 | <screen>VBoxManage setextradata "VM name"
|
---|
919 | "VBoxInternal/Devices/ahci/0/Config/Port0/ATAPIVendorId" "vendor"
|
---|
920 | VBoxManage setextradata "VM name"
|
---|
921 | "VBoxInternal/Devices/ahci/0/Config/Port0/ATAPIProductId" "product"
|
---|
922 | VBoxManage setextradata "VM name"
|
---|
923 | "VBoxInternal/Devices/ahci/0/Config/Port0/ATAPIRevision" "revision"</screen>
|
---|
924 |
|
---|
925 | <para>The vendor id is an 8 byte alphanumeric string, the product id an
|
---|
926 | 16 byte alphanumeric string and the revision a 4 byte alphanumeric
|
---|
927 | string. Instead of "Port0" (referring to the first port), specify the
|
---|
928 | desired SATA hard disk port.</para>
|
---|
929 | </sect2>
|
---|
930 |
|
---|
931 | <sect2>
|
---|
932 | <title id="iscsi-intnet">Access iSCSI targets via Internal
|
---|
933 | Networking</title>
|
---|
934 |
|
---|
935 | <para>As an experimental feature, VirtualBox allows for accessing an
|
---|
936 | iSCSI target running in a virtual machine which is configured for using
|
---|
937 | Internal Networking mode. Please see <xref linkend="storage-iscsi" />;
|
---|
938 | <xref linkend="network_internal" />; and <xref
|
---|
939 | linkend="vboxmanage-storageattach" /> for additional information.</para>
|
---|
940 |
|
---|
941 | <para>The IP stack accessing Internal Networking must be configured in
|
---|
942 | the virtual machine which accesses the iSCSI target. A free static IP
|
---|
943 | and a MAC address not used by other virtual machines must be chosen. In
|
---|
944 | the example below, adapt the name of the virtual machine, the MAC
|
---|
945 | address, the IP configuration and the Internal Networking name
|
---|
946 | ("MyIntNet") according to your needs. The following seven commands must
|
---|
947 | first be issued:<screen>VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/Trusted 1
|
---|
948 | VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/Config/MAC 08:00:27:01:02:0f
|
---|
949 | VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/Config/IP 10.0.9.1
|
---|
950 | VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/Config/Netmask 255.255.255.0
|
---|
951 | VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/LUN#0/Driver IntNet
|
---|
952 | VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/LUN#0/Config/Network MyIntNet
|
---|
953 | VBoxManage setextradata "VM name" VBoxInternal/Devices/IntNetIP/0/LUN#0/Config/IsService 1</screen></para>
|
---|
954 |
|
---|
955 | <para>Finally the iSCSI disk must be attached with the
|
---|
956 | <computeroutput>--intnet</computeroutput> option to tell the iSCSI
|
---|
957 | initiator to use internal networking:<screen>VBoxManage storageattach ... --medium iscsi
|
---|
958 | --server 10.0.9.30 --target iqn.2008-12.com.sun:sampletarget --intnet</screen></para>
|
---|
959 |
|
---|
960 | <para>Compared to a "regular" iSCSI setup, IP address of the target
|
---|
961 | <emphasis>must</emphasis> be specified as a numeric IP address, as there
|
---|
962 | is no DNS resolver for internal networking.</para>
|
---|
963 |
|
---|
964 | <para>The virtual machine with the iSCSI target should be started before
|
---|
965 | the VM using it is powered on. If a virtual machine using an iSCSI disk
|
---|
966 | is started without having the iSCSI target powered up, it can take up to
|
---|
967 | 200 seconds to detect this situation. The VM will fail to power
|
---|
968 | up.</para>
|
---|
969 | </sect2>
|
---|
970 | </sect1>
|
---|
971 |
|
---|
972 | <sect1>
|
---|
973 | <title>Launching more than 120 VMs on Solaris hosts</title>
|
---|
974 |
|
---|
975 | <para>Solaris hosts have a fixed number of IPC semaphores IDs per process
|
---|
976 | preventing users from starting more than 120 VMs. While trying to launch
|
---|
977 | more VMs you would be shown a "Cannot create IPC semaphore" error.</para>
|
---|
978 |
|
---|
979 | <para>In order to run more VMs, you will need to bump the semaphore ID
|
---|
980 | limit of the VBoxSVC process. Execute as root the
|
---|
981 | <computeroutput>prctl</computeroutput> command as shown below. The process
|
---|
982 | ID of VBoxSVC can be obtained using the
|
---|
983 | <computeroutput>ps</computeroutput> list command.</para>
|
---|
984 |
|
---|
985 | <para><screen>prctl -r -n project.max-sem-ids -v 2048 <pid-of-VBoxSVC></screen></para>
|
---|
986 | </sect1>
|
---|
987 |
|
---|
988 | <sect1>
|
---|
989 | <title>Legacy commands for using serial ports</title>
|
---|
990 |
|
---|
991 | <para>Starting with version 1.4, VirtualBox provided support for virtual
|
---|
992 | serial ports, which, at the time, was rather complicated to set up with a
|
---|
993 | sequence of <computeroutput>VBoxManage setextradata</computeroutput>
|
---|
994 | statements. Since version 1.5, that way of setting up serial ports is no
|
---|
995 | longer necessary and <emphasis>deprecated.</emphasis> To set up virtual
|
---|
996 | serial ports, use the methods now described in <xref
|
---|
997 | linkend="serialports" />.<note>
|
---|
998 | <para>For backwards compatibility, the old
|
---|
999 | <computeroutput>setextradata</computeroutput> statements, whose
|
---|
1000 | description is retained below from the old version of the manual, take
|
---|
1001 | <emphasis>precedence</emphasis> over the new way of configuring serial
|
---|
1002 | ports. As a result, if configuring serial ports the new way doesn't
|
---|
1003 | work, make sure the VM in question does not have old configuration
|
---|
1004 | data such as below still active.</para>
|
---|
1005 | </note></para>
|
---|
1006 |
|
---|
1007 | <para>The old sequence of configuring a serial port used the following 6
|
---|
1008 | commands:</para>
|
---|
1009 |
|
---|
1010 | <screen>VBoxManage setextradata "VM name"
|
---|
1011 | "VBoxInternal/Devices/serial/0/Config/IRQ" 4
|
---|
1012 | VBoxManage setextradata "VM name"
|
---|
1013 | "VBoxInternal/Devices/serial/0/Config/IOBase" 0x3f8
|
---|
1014 | VBoxManage setextradata "VM name"
|
---|
1015 | "VBoxInternal/Devices/serial/0/LUN#0/Driver" Char
|
---|
1016 | VBoxManage setextradata "VM name"
|
---|
1017 | "VBoxInternal/Devices/serial/0/LUN#0/AttachedDriver/Driver" NamedPipe
|
---|
1018 | VBoxManage setextradata "VM name"
|
---|
1019 | "VBoxInternal/Devices/serial/0/LUN#0/AttachedDriver/Config/Location" "\\.\pipe\vboxCOM1"
|
---|
1020 | VBoxManage setextradata "VM name"
|
---|
1021 | "VBoxInternal/Devices/serial/0/LUN#0/AttachedDriver/Config/IsServer" 1</screen>
|
---|
1022 |
|
---|
1023 | <para>This sets up a serial port in the guest with the default settings
|
---|
1024 | for COM1 (IRQ 4, I/O address 0x3f8) and the
|
---|
1025 | <computeroutput>Location</computeroutput> setting assumes that this
|
---|
1026 | configuration is used on a Windows host, because the Windows named pipe
|
---|
1027 | syntax is used. Keep in mind that on Windows hosts a named pipe must
|
---|
1028 | always start with <computeroutput>\\.\pipe\</computeroutput>. On Linux the
|
---|
1029 | same config settings apply, except that the path name for the
|
---|
1030 | <computeroutput>Location</computeroutput> can be chosen more freely. Local
|
---|
1031 | domain sockets can be placed anywhere, provided the user running
|
---|
1032 | VirtualBox has the permission to create a new file in the directory. The
|
---|
1033 | final command above defines that VirtualBox acts as a server, i.e. it
|
---|
1034 | creates the named pipe itself instead of connecting to an already existing
|
---|
1035 | one.</para>
|
---|
1036 | </sect1>
|
---|
1037 |
|
---|
1038 | <sect1 id="changenat">
|
---|
1039 | <title>Fine-tuning the VirtualBox NAT engine</title>
|
---|
1040 |
|
---|
1041 | <sect2>
|
---|
1042 | <title>Configuring the address of a NAT network interface</title>
|
---|
1043 |
|
---|
1044 | <para>In NAT mode, the guest network interface is assigned to the IPv4
|
---|
1045 | range <computeroutput>10.0.x.0/24</computeroutput> by default where
|
---|
1046 | <computeroutput>x</computeroutput> corresponds to the instance of the
|
---|
1047 | NAT interface +2. So <computeroutput>x</computeroutput> is 2 when there
|
---|
1048 | is only one NAT instance active. In that case the guest is assigned to
|
---|
1049 | the address <computeroutput>10.0.2.15</computeroutput>, the gateway is
|
---|
1050 | set to <computeroutput>10.0.2.2</computeroutput> and the name server can
|
---|
1051 | be found at <computeroutput>10.0.2.3</computeroutput>.</para>
|
---|
1052 |
|
---|
1053 | <para>If, for any reason, the NAT network needs to be changed, this can
|
---|
1054 | be achieved with the following command:</para>
|
---|
1055 |
|
---|
1056 | <screen>VBoxManage modifyvm "VM name" --natnet1 "192.168/16"</screen>
|
---|
1057 |
|
---|
1058 | <para>This command would reserve the network addresses from
|
---|
1059 | <computeroutput>192.168.0.0</computeroutput> to
|
---|
1060 | <computeroutput>192.168.254.254</computeroutput> for the first NAT
|
---|
1061 | network instance of "VM name". The guest IP would be assigned to
|
---|
1062 | <computeroutput>192.168.0.15</computeroutput> and the default gateway
|
---|
1063 | could be found at <computeroutput>192.168.0.2</computeroutput>.</para>
|
---|
1064 | </sect2>
|
---|
1065 |
|
---|
1066 | <sect2 id="nat-adv-tftp">
|
---|
1067 | <title>Configuring the boot server (next server) of a NAT network
|
---|
1068 | interface</title>
|
---|
1069 |
|
---|
1070 | <para>For network booting in NAT mode, by default VirtualBox uses a
|
---|
1071 | built-in TFTP server at the IP address 10.0.2.3. This default behavior
|
---|
1072 | should work fine for typical remote-booting scenarios. However, it is
|
---|
1073 | possible to change the boot server IP and the location of the boot image
|
---|
1074 | with the following commands: <screen>VBoxManage modifyvm "VM name" --nattftpserver1 10.0.2.2
|
---|
1075 | VBoxManage modifyvm "VM name" --nattftpfile1 /srv/tftp/boot/MyPXEBoot.pxe</screen></para>
|
---|
1076 | </sect2>
|
---|
1077 |
|
---|
1078 | <sect2 id="nat-adv-settings">
|
---|
1079 | <title>Tuning TCP/IP buffers for NAT</title>
|
---|
1080 |
|
---|
1081 | <para>The VirtualBox NAT stack performance is often determined by its
|
---|
1082 | interaction with the host's TCP/IP stack and the size of several buffers
|
---|
1083 | (<computeroutput>SO_RCVBUF</computeroutput> and
|
---|
1084 | <computeroutput>SO_SNDBUF</computeroutput>). For certain setups users
|
---|
1085 | might want to adjust the buffer size for a better performance. This can
|
---|
1086 | by achieved using the following commands (values are in kilobytes and
|
---|
1087 | can range from 8 to 1024): <screen>VBoxManage modifyvm "VM name" --natsettings1 16000,128,128,0,0</screen>
|
---|
1088 | This example illustrates tuning the NAT settings. The first parameter is
|
---|
1089 | the MTU, then the size of the socket's send buffer and the size of the
|
---|
1090 | socket's receive buffer, the initial size of the TCP send window, and
|
---|
1091 | lastly the initial size of the TCP receive window. Note that specifying
|
---|
1092 | zero means fallback to the default value.</para>
|
---|
1093 |
|
---|
1094 | <para>Each of these buffers has a default size of 64KB and default MTU
|
---|
1095 | is 1500.</para>
|
---|
1096 | </sect2>
|
---|
1097 |
|
---|
1098 | <sect2>
|
---|
1099 | <title>Binding NAT sockets to a specific interface</title>
|
---|
1100 |
|
---|
1101 | <para>By default, VirtualBox's NAT engine will route TCP/IP packets
|
---|
1102 | through the default interface assigned by the host's TCP/IP stack. (The
|
---|
1103 | technical reason for this is that the NAT engine uses sockets for
|
---|
1104 | communication.) If, for some reason, you want to change this behavior,
|
---|
1105 | you can tell the NAT engine to bind to a particular IP address instead.
|
---|
1106 | Use the following command: <screen>VBoxManage modifyvm "VM name" --natbindip1 "10.45.0.2"</screen></para>
|
---|
1107 |
|
---|
1108 | <para>After this, all outgoing traffic will be sent through the
|
---|
1109 | interface with the IP address 10.45.0.2. Please make sure that this
|
---|
1110 | interface is up and running prior to this assignment.</para>
|
---|
1111 | </sect2>
|
---|
1112 |
|
---|
1113 | <sect2 id="nat-adv-dns">
|
---|
1114 | <title>Enabling DNS proxy in NAT mode</title>
|
---|
1115 |
|
---|
1116 | <para>The NAT engine by default offers the same DNS servers to the guest
|
---|
1117 | that are configured on the host. In some scenarios, it can be desirable
|
---|
1118 | to hide the DNS server IPs from the guest, for example when this
|
---|
1119 | information can change on the host due to expiring DHCP leases. In this
|
---|
1120 | case, you can tell the NAT engine to act as DNS proxy using the
|
---|
1121 | following command: <screen>VBoxManage modifyvm "VM name" --natdnsproxy1 on</screen></para>
|
---|
1122 | </sect2>
|
---|
1123 |
|
---|
1124 | <sect2 id="nat_host_resolver_proxy">
|
---|
1125 | <title>Using the host's resolver as a DNS proxy in NAT mode</title>
|
---|
1126 |
|
---|
1127 | <para>For resolving network names, the DHCP server of the NAT engine
|
---|
1128 | offers a list of registered DNS servers of the host. If for some reason
|
---|
1129 | you need to hide this DNS server list and use the host's resolver
|
---|
1130 | settings, thereby forcing the VirtualBox NAT engine to intercept DNS
|
---|
1131 | requests and forward them to host's resolver, use the following command:
|
---|
1132 | <screen>VBoxManage modifyvm "VM name" --natdnshostresolver1 on</screen>
|
---|
1133 | Note that this setting is similar to the DNS proxy mode, however whereas
|
---|
1134 | the proxy mode just forwards DNS requests to the appropriate servers,
|
---|
1135 | the resolver mode will interpret the DNS requests and use the host's DNS
|
---|
1136 | API to query the information and return it to the guest.</para>
|
---|
1137 | </sect2>
|
---|
1138 |
|
---|
1139 | <sect2 id="nat-adv-alias">
|
---|
1140 | <title>Configuring aliasing of the NAT engine</title>
|
---|
1141 |
|
---|
1142 | <para>By default, the NAT core uses aliasing and uses random ports when
|
---|
1143 | generating an alias for a connection. This works well for the most
|
---|
1144 | protocols like SSH, FTP and so on. Though some protocols might need a
|
---|
1145 | more transparent behavior or may depend on the real port number the
|
---|
1146 | packet was sent from. It is possible to change the NAT mode via the
|
---|
1147 | VBoxManage frontend with the following commands:
|
---|
1148 | <screen>VBoxManage modifyvm "VM name" --nataliasmode1 proxyonly</screen>
|
---|
1149 | and <screen>VBoxManage modifyvm "Linux Guest" --nataliasmode1 sameports</screen>
|
---|
1150 | The first example disables aliasing and switches NAT into transparent
|
---|
1151 | mode, the second example enforces preserving of port values. These modes
|
---|
1152 | can be combined if necessary.</para>
|
---|
1153 | </sect2>
|
---|
1154 | </sect1>
|
---|
1155 |
|
---|
1156 | <sect1 id="changedmi">
|
---|
1157 | <title>Configuring the BIOS DMI information</title>
|
---|
1158 |
|
---|
1159 | <para>The DMI data VirtualBox provides to guests can be changed for a
|
---|
1160 | specific VM. Use the following commands to configure the DMI BIOS
|
---|
1161 | information:</para>
|
---|
1162 |
|
---|
1163 | <screen>VBoxManage setextradata "VM name"
|
---|
1164 | "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSVendor" "BIOS Vendor"
|
---|
1165 | VBoxManage setextradata "VM name"
|
---|
1166 | "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSVersion" "BIOS Version"
|
---|
1167 | VBoxManage setextradata "VM name"
|
---|
1168 | "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSReleaseDate" "BIOS Release Date"
|
---|
1169 | VBoxManage setextradata "VM name"
|
---|
1170 | "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSReleaseMajor" 1
|
---|
1171 | VBoxManage setextradata "VM name"
|
---|
1172 | "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSReleaseMinor" 2
|
---|
1173 | VBoxManage setextradata "VM name"
|
---|
1174 | "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSFirmwareMajor" 3
|
---|
1175 | VBoxManage setextradata "VM name"
|
---|
1176 | "VBoxInternal/Devices/pcbios/0/Config/DmiBIOSFirmwareMinor" 4
|
---|
1177 | VBoxManage setextradata "VM name"
|
---|
1178 | "VBoxInternal/Devices/pcbios/0/Config/DmiSystemVendor" "System Vendor"
|
---|
1179 | VBoxManage setextradata "VM name"
|
---|
1180 | "VBoxInternal/Devices/pcbios/0/Config/DmiSystemProduct" "System Product"
|
---|
1181 | VBoxManage setextradata "VM name"
|
---|
1182 | "VBoxInternal/Devices/pcbios/0/Config/DmiSystemVersion" "System Version"
|
---|
1183 | VBoxManage setextradata "VM name"
|
---|
1184 | "VBoxInternal/Devices/pcbios/0/Config/DmiSystemSerial" "System Serial"
|
---|
1185 | VBoxManage setextradata "VM name"
|
---|
1186 | "VBoxInternal/Devices/pcbios/0/Config/DmiSystemSKU" "System SKU"
|
---|
1187 | VBoxManage setextradata "VM name"
|
---|
1188 | "VBoxInternal/Devices/pcbios/0/Config/DmiSystemFamily" "System Family"
|
---|
1189 | VBoxManage setextradata "VM name"
|
---|
1190 | "VBoxInternal/Devices/pcbios/0/Config/DmiSystemUuid"
|
---|
1191 | "9852bf98-b83c-49db-a8de-182c42c7226b"</screen>
|
---|
1192 |
|
---|
1193 | <para>If a DMI string is not set, the default value of VirtualBox is used.
|
---|
1194 | To set an empty string use
|
---|
1195 | <computeroutput>"<EMPTY>"</computeroutput>.</para>
|
---|
1196 |
|
---|
1197 | <para>Note that in the above list, all quoted parameters (DmiBIOSVendor,
|
---|
1198 | DmiBIOSVersion but not DmiBIOSReleaseMajor) are expected to be strings. If
|
---|
1199 | such a string is a valid number, the parameter is treated as number and
|
---|
1200 | the VM will most probably refuse to start with an
|
---|
1201 | <computeroutput>VERR_CFGM_NOT_STRING</computeroutput> error. In that case,
|
---|
1202 | use <computeroutput>"string:<value>"</computeroutput>, for instance
|
---|
1203 | <screen>VBoxManage setextradata "VM name"
|
---|
1204 | "VBoxInternal/Devices/pcbios/0/Config/DmiSystemSerial" "string:1234"</screen></para>
|
---|
1205 |
|
---|
1206 | <para>Changing this information can be necessary to provide the DMI
|
---|
1207 | information of the host to the guest to prevent Windows from asking for a
|
---|
1208 | new product key. On Linux hosts the DMI BIOS information can be obtained
|
---|
1209 | with <screen>dmidecode -t0</screen>and the DMI system information can be
|
---|
1210 | obtained with <screen>dmidecode -t1</screen></para>
|
---|
1211 | </sect1>
|
---|
1212 |
|
---|
1213 | <sect1>
|
---|
1214 | <title>Fine-tuning timers and time synchronization</title>
|
---|
1215 |
|
---|
1216 | <sect2 id="changetscmode">
|
---|
1217 | <title>Configuring the guest time stamp counter (TSC) to reflect guest
|
---|
1218 | execution</title>
|
---|
1219 |
|
---|
1220 | <para>By default, VirtualBox keeps all sources of time visible to the
|
---|
1221 | guest synchronized to a single time source, the monotonic host time.
|
---|
1222 | This reflects the assumptions of many guest operating systems, which
|
---|
1223 | expect all time sources to reflect "wall clock" time. In special
|
---|
1224 | circumstances it may be useful however to make the TSC (time stamp
|
---|
1225 | counter) in the guest reflect the time actually spent executing the
|
---|
1226 | guest.</para>
|
---|
1227 |
|
---|
1228 | <para>This special TSC handling mode can be enabled on a per-VM basis,
|
---|
1229 | and for best results must be used only in combination with hardware
|
---|
1230 | virtualization. To enable this mode use the following command:</para>
|
---|
1231 |
|
---|
1232 | <screen>VBoxManage setextradata "VM name" "VBoxInternal/TM/TSCTiedToExecution" 1</screen>
|
---|
1233 |
|
---|
1234 | <para>To revert to the default TSC handling mode use:</para>
|
---|
1235 |
|
---|
1236 | <screen>VBoxManage setextradata "VM name" "VBoxInternal/TM/TSCTiedToExecution"</screen>
|
---|
1237 |
|
---|
1238 | <para>Note that if you use the special TSC handling mode with a guest
|
---|
1239 | operating system which is very strict about the consistency of time
|
---|
1240 | sources you may get a warning or error message about the timing
|
---|
1241 | inconsistency. It may also cause clocks to become unreliable with some
|
---|
1242 | guest operating systems depending on they use the TSC.</para>
|
---|
1243 | </sect2>
|
---|
1244 |
|
---|
1245 | <sect2 id="warpguest">
|
---|
1246 | <title>Accelerate or slow down the guest clock</title>
|
---|
1247 |
|
---|
1248 | <para>For certain purposes it can be useful to accelerate or to slow
|
---|
1249 | down the (virtual) guest clock. This can be achieved as follows:</para>
|
---|
1250 |
|
---|
1251 | <screen>VBoxManage setextradata "VM name" "VBoxInternal/TM/WarpDrivePercentage" 200</screen>
|
---|
1252 |
|
---|
1253 | <para>The above example will double the speed of the guest clock
|
---|
1254 | while</para>
|
---|
1255 |
|
---|
1256 | <screen>VBoxManage setextradata "VM name" "VBoxInternal/TM/WarpDrivePercentage" 50</screen>
|
---|
1257 |
|
---|
1258 | <para>will halve the speed of the guest clock. Note that changing the
|
---|
1259 | rate of the virtual clock can confuse the guest and can even lead to
|
---|
1260 | abnormal guest behavior. For instance, a higher clock rate means shorter
|
---|
1261 | timeouts for virtual devices with the result that a slightly increased
|
---|
1262 | response time of a virtual device due to an increased host load can
|
---|
1263 | cause guest failures. Note further that any time synchronization
|
---|
1264 | mechanism will frequently try to resynchronize the guest clock with the
|
---|
1265 | reference clock (which is the host clock if the VirtualBox Guest
|
---|
1266 | Additions are active). Therefore any time synchronization should be
|
---|
1267 | disabled if the rate of the guest clock is changed as described above
|
---|
1268 | (see <xref linkend="changetimesync" />).</para>
|
---|
1269 | </sect2>
|
---|
1270 |
|
---|
1271 | <sect2 id="changetimesync">
|
---|
1272 | <title>Tuning the Guest Additions time synchronization
|
---|
1273 | parameters</title>
|
---|
1274 |
|
---|
1275 | <para>The VirtualBox Guest Additions ensure that the guest's system time
|
---|
1276 | is synchronized with the host time. There are several parameters which
|
---|
1277 | can be tuned. The parameters can be set for a specific VM using the
|
---|
1278 | following command:</para>
|
---|
1279 |
|
---|
1280 | <screen>VBoxManage guestproperty set VM_NAME "/VirtualBox/GuestAdd/VBoxService/PARAMETER" VALUE</screen>
|
---|
1281 |
|
---|
1282 | <para>where <computeroutput>PARAMETER</computeroutput> is one of the
|
---|
1283 | following:</para>
|
---|
1284 |
|
---|
1285 | <para><glosslist>
|
---|
1286 | <glossentry>
|
---|
1287 | <glossterm><computeroutput>--timesync-interval</computeroutput></glossterm>
|
---|
1288 |
|
---|
1289 | <glossdef>
|
---|
1290 | <para>Specifies the interval at which to synchronize the time
|
---|
1291 | with the host. The default is 10000 ms (10 seconds).</para>
|
---|
1292 | </glossdef>
|
---|
1293 | </glossentry>
|
---|
1294 |
|
---|
1295 | <glossentry>
|
---|
1296 | <glossterm><computeroutput>--timesync-min-adjust</computeroutput></glossterm>
|
---|
1297 |
|
---|
1298 | <glossdef>
|
---|
1299 | <para>The minimum absolute drift value measured in milliseconds
|
---|
1300 | to make adjustments for. The default is 1000 ms on OS/2 and 100
|
---|
1301 | ms elsewhere.</para>
|
---|
1302 | </glossdef>
|
---|
1303 | </glossentry>
|
---|
1304 |
|
---|
1305 | <glossentry>
|
---|
1306 | <glossterm><computeroutput>--timesync-latency-factor</computeroutput></glossterm>
|
---|
1307 |
|
---|
1308 | <glossdef>
|
---|
1309 | <para>The factor to multiply the time query latency with to
|
---|
1310 | calculate the dynamic minimum adjust time. The default is 8
|
---|
1311 | times, that means in detail: Measure the time it takes to
|
---|
1312 | determine the host time (the guest has to contact the VM host
|
---|
1313 | service which may take some time), multiply this value by 8 and
|
---|
1314 | do an adjustment only if the time difference between host and
|
---|
1315 | guest is bigger than this value. Don't do any time adjustment
|
---|
1316 | otherwise.</para>
|
---|
1317 | </glossdef>
|
---|
1318 | </glossentry>
|
---|
1319 |
|
---|
1320 | <glossentry>
|
---|
1321 | <glossterm><computeroutput>--timesync-max-latency</computeroutput></glossterm>
|
---|
1322 |
|
---|
1323 | <glossdef>
|
---|
1324 | <para>The max host timer query latency to accept. The default is
|
---|
1325 | 250 ms.</para>
|
---|
1326 | </glossdef>
|
---|
1327 | </glossentry>
|
---|
1328 |
|
---|
1329 | <glossentry>
|
---|
1330 | <glossterm><computeroutput>--timesync-set-threshold</computeroutput></glossterm>
|
---|
1331 |
|
---|
1332 | <glossdef>
|
---|
1333 | <para>The absolute drift threshold, given as milliseconds where
|
---|
1334 | to start setting the time instead of trying to smoothly adjust
|
---|
1335 | it. The default is 20 minutes.</para>
|
---|
1336 | </glossdef>
|
---|
1337 | </glossentry>
|
---|
1338 |
|
---|
1339 | <glossentry>
|
---|
1340 | <glossterm><computeroutput>--timesync-set-start</computeroutput></glossterm>
|
---|
1341 |
|
---|
1342 | <glossdef>
|
---|
1343 | <para>Set the time when starting the time sync service.</para>
|
---|
1344 | </glossdef>
|
---|
1345 | </glossentry>
|
---|
1346 |
|
---|
1347 | <glossentry>
|
---|
1348 | <glossterm><computeroutput>--timesync-set-on-restore
|
---|
1349 | 0|1</computeroutput></glossterm>
|
---|
1350 |
|
---|
1351 | <glossdef>
|
---|
1352 | <para>Set the time after the VM was restored from a saved state
|
---|
1353 | when passing 1 as parameter (default). Disable by passing 0. In
|
---|
1354 | the latter case, the time will be adjusted smoothly which can
|
---|
1355 | take a long time.</para>
|
---|
1356 | </glossdef>
|
---|
1357 | </glossentry>
|
---|
1358 | </glosslist></para>
|
---|
1359 |
|
---|
1360 | <para>All these parameters can be specified as command line parameters
|
---|
1361 | to VBoxService as well.</para>
|
---|
1362 | </sect2>
|
---|
1363 | </sect1>
|
---|
1364 |
|
---|
1365 | <sect1 id="vboxbowsolaris11">
|
---|
1366 | <title>Installing the alternate bridged networking driver on Solaris 11
|
---|
1367 | hosts</title>
|
---|
1368 |
|
---|
1369 | <para>Starting with VirtualBox 4.1, VirtualBox ships a new network filter
|
---|
1370 | driver that utilizes Solaris 11's Crossbow functionality. By default, this
|
---|
1371 | new driver is installed for Solaris 11 hosts (builds 159 and above) that
|
---|
1372 | has support for it.</para>
|
---|
1373 |
|
---|
1374 | <para>To force installation of the older STREAMS based network filter
|
---|
1375 | driver, execute as root execute the below command before installing the
|
---|
1376 | VirtualBox package:</para>
|
---|
1377 |
|
---|
1378 | <screen>touch /etc/vboxinst_vboxflt</screen>
|
---|
1379 |
|
---|
1380 | <para>To force installation of the Crossbow based network filter
|
---|
1381 | driver, execute as root the below command before installing the VirtualBox
|
---|
1382 | package:</para>
|
---|
1383 |
|
---|
1384 | <screen>touch /etc/vboxinst_vboxbow</screen>
|
---|
1385 |
|
---|
1386 | <para>To check which driver is currently being used by VirtualBox,
|
---|
1387 | execute:</para>
|
---|
1388 |
|
---|
1389 | <screen>modinfo | grep vbox</screen>
|
---|
1390 |
|
---|
1391 | <para>If the output contains "vboxbow", it indicates VirtualBox is using
|
---|
1392 | the Crossbow network filter driver, while the name "vboxflt" indicates
|
---|
1393 | usage of the older STREAMS network filter.</para>
|
---|
1394 | </sect1>
|
---|
1395 |
|
---|
1396 | <sect1 id="vboxbowvnictemplates">
|
---|
1397 | <title>VirtualBox VNIC templates for VLANs on Solaris 11 hosts</title>
|
---|
1398 |
|
---|
1399 | <para>VirtualBox supports VNIC (Virtual Network Interface) templates for
|
---|
1400 | configuring VMs over VLANs.<footnote>
|
---|
1401 | <para>Support for Crossbow based bridged networking was introduced
|
---|
1402 | with VirtualBox 4.1 and requires Solaris 11 build 159 or above.</para>
|
---|
1403 | </footnote> A VirtualBox VNIC template is a VNIC whose name starts with
|
---|
1404 | "vboxvnic_template".</para>
|
---|
1405 |
|
---|
1406 | <para>Here is an example of how to use a VNIC template to configure a VLAN
|
---|
1407 | for VMs. Create a VirtualBox VNIC template, by executing as root:</para>
|
---|
1408 |
|
---|
1409 | <screen>dladm create-vnic -t -l nge0 -v 23 vboxvnic_template0
|
---|
1410 | </screen>
|
---|
1411 |
|
---|
1412 | <para>This will create a temporary VNIC over interface "nge0" with the
|
---|
1413 | VLAN ID 23. To create VNIC templates that are persistent across host
|
---|
1414 | reboots, skip the <computeroutput>-t</computeroutput> parameter in the
|
---|
1415 | above command. You may check the current state of links using:</para>
|
---|
1416 |
|
---|
1417 | <para><screen>$ dladm show-link
|
---|
1418 | LINK CLASS MTU STATE BRIDGE OVER
|
---|
1419 | nge0 phys 1500 up -- --
|
---|
1420 | nge1 phys 1500 down -- --
|
---|
1421 | vboxvnic_template0 vnic 1500 up -- nge0
|
---|
1422 |
|
---|
1423 | $ dladm show-vnic
|
---|
1424 | LINK OVER SPEED MACADDRESS MACADDRTYPE VID
|
---|
1425 | vboxvnic_template0 nge0 1000 2:8:20:25:12:75 random 23
|
---|
1426 | </screen></para>
|
---|
1427 |
|
---|
1428 | <para>Once the VNIC template is created, all VMs that need to be part of
|
---|
1429 | VLAN 23 over the physical interface "nge0" can use the same VNIC template.
|
---|
1430 | This makes managing VMs on VLANs simpler and efficient, as the VLAN
|
---|
1431 | details are not stored as part of every VM's configuration but rather
|
---|
1432 | picked up via the VNIC template which can be modified anytime using
|
---|
1433 | <computeroutput>dladm</computeroutput>. Apart from the VLAN ID, VNIC
|
---|
1434 | templates can be created with additional properties such as bandwidth
|
---|
1435 | limits, CPU fanout etc. Refer to your Solaris network documentation on how
|
---|
1436 | to accomplish this. These additional properties, if any, are also applied
|
---|
1437 | to VMs which use the VNIC template.</para>
|
---|
1438 | </sect1>
|
---|
1439 |
|
---|
1440 | <sect1 id="addhostonlysolaris">
|
---|
1441 | <title>Configuring multiple host-only network interfaces on Solaris
|
---|
1442 | hosts</title>
|
---|
1443 |
|
---|
1444 | <para>By default VirtualBox provides you with one host-only network
|
---|
1445 | interface. Adding more host-only network interfaces on Solaris hosts
|
---|
1446 | requires manual configuration. Here's how to add two more host-only
|
---|
1447 | network interfaces.</para>
|
---|
1448 |
|
---|
1449 | <para>You first need to stop all running VMs and unplumb all existing
|
---|
1450 | "vboxnet" interfaces. Execute the following commands as root:</para>
|
---|
1451 |
|
---|
1452 | <screen>ifconfig vboxnet0 unplumb</screen>
|
---|
1453 |
|
---|
1454 | <para>Once you make sure all vboxnet interfaces are unplumbed, remove the
|
---|
1455 | driver using:</para>
|
---|
1456 |
|
---|
1457 | <para><screen>rem_drv vboxnet</screen>then edit the file
|
---|
1458 | <computeroutput>/platform/i86pc/kernel/drv/vboxnet.conf</computeroutput>
|
---|
1459 | and add a line for the new interfaces:</para>
|
---|
1460 |
|
---|
1461 | <para><screen>name="vboxnet" parent="pseudo" instance=1;
|
---|
1462 | name="vboxnet" parent="pseudo" instance=2;</screen>Add as many of these lines
|
---|
1463 | as required and make sure "instance" number is uniquely incremented. Next
|
---|
1464 | reload the vboxnet driver using:</para>
|
---|
1465 |
|
---|
1466 | <para><screen>add_drv vboxnet</screen>Now plumb all the interfaces using
|
---|
1467 | <computeroutput>ifconfig vboxnetX plumb</computeroutput> (where X can be
|
---|
1468 | 0, 1 or 2 in this case) and once plumbed you can then configure the
|
---|
1469 | interface like any other network interface.</para>
|
---|
1470 |
|
---|
1471 | <para>To make your newly added interfaces' settings persistent across
|
---|
1472 | reboots you will need to edit the files
|
---|
1473 | <computeroutput>/etc/netmasks</computeroutput>, and if you are using NWAM
|
---|
1474 | <computeroutput>/etc/nwam/llp</computeroutput> and add the appropriate
|
---|
1475 | entries to set the netmask and static IP for each of those interfaces. The
|
---|
1476 | VirtualBox installer only updates these configuration files for the one
|
---|
1477 | "vboxnet0" interface it creates by default.</para>
|
---|
1478 | </sect1>
|
---|
1479 |
|
---|
1480 | <sect1 id="solariscodedumper">
|
---|
1481 | <title>Configuring the VirtualBox CoreDumper on Solaris hosts</title>
|
---|
1482 |
|
---|
1483 | <para>VirtualBox is capable of producing its own core files when things go
|
---|
1484 | wrong and for more extensive debugging. Currently this is only available
|
---|
1485 | on Solaris hosts.</para>
|
---|
1486 |
|
---|
1487 | <para>The VirtualBox CoreDumper can be enabled using the following
|
---|
1488 | command:</para>
|
---|
1489 |
|
---|
1490 | <para><screen>VBoxManage setextradata "VM name" VBoxInternal2/CoreDumpEnabled 1</screen></para>
|
---|
1491 |
|
---|
1492 | <para>You can specify which directory to use for core dumps with this
|
---|
1493 | command:</para>
|
---|
1494 |
|
---|
1495 | <para><screen>VBoxManage setextradata "VM name" VBoxInternal2/CoreDumpDir <path-to-directory></screen>Make
|
---|
1496 | sure the directory you specify is on a volume with sufficient free space
|
---|
1497 | and that the VirtualBox process has sufficient permissions to write files
|
---|
1498 | to this directory. If you skip this command and don't specify any core
|
---|
1499 | dump directory, the current directory of the VirtualBox executable will be
|
---|
1500 | used (which would most likely fail when writing cores as they are
|
---|
1501 | protected with root permissions). It is recommended you explicity set a
|
---|
1502 | core dump directory.</para>
|
---|
1503 |
|
---|
1504 | <para>You must specify when the VirtualBox CoreDumper should be triggered.
|
---|
1505 | This is done using the following commands:</para>
|
---|
1506 |
|
---|
1507 | <para><screen>VBoxManage setextradata "VM name" VBoxInternal2/CoreDumpReplaceSystemDump 1
|
---|
1508 | VBoxManage setextradata "VM name" VBoxInternal2/CoreDumpLive 1</screen>At
|
---|
1509 | least one of the above two commands will have to be provided if you have
|
---|
1510 | enabled the VirtualBox CoreDumper.</para>
|
---|
1511 |
|
---|
1512 | <para>Setting <computeroutput>CoreDumpReplaceSystemDump</computeroutput>
|
---|
1513 | sets up the VM to override the host's core dumping mechanism and in the
|
---|
1514 | event of any crash only the VirtualBox CoreDumper would produce the core
|
---|
1515 | file.</para>
|
---|
1516 |
|
---|
1517 | <para>Setting <computeroutput>CoreDumpLive</computeroutput> sets up the VM
|
---|
1518 | to produce cores whenever the VM receives a
|
---|
1519 | <computeroutput>SIGUSR2</computeroutput> signal. After producing the core
|
---|
1520 | file, the VM will not be terminated and will continue to run. You can then
|
---|
1521 | take cores of the VM process using:</para>
|
---|
1522 |
|
---|
1523 | <para><screen>kill -s SIGUSR2 <VM-process-id></screen></para>
|
---|
1524 |
|
---|
1525 | <para>Core files produced by the VirtualBox CoreDumper are of the form
|
---|
1526 | <computeroutput>core.vb.<ProcessName>.<ProcessID></computeroutput>,
|
---|
1527 | e.g.<computeroutput>core.vb.VBoxHeadless.11321</computeroutput>.</para>
|
---|
1528 | </sect1>
|
---|
1529 |
|
---|
1530 | <sect1 id="guitweaks">
|
---|
1531 | <title>Locking down the VirtualBox manager GUI</title>
|
---|
1532 |
|
---|
1533 | <para>There are several advanced customization settings for locking down
|
---|
1534 | the VirtualBox manager, that is, removing some features that the user
|
---|
1535 | should not see.<screen>VBoxManage setextradata global GUI/Customizations OPTION[,OPTION...]</screen></para>
|
---|
1536 |
|
---|
1537 | <para>where <computeroutput>OPTION</computeroutput> is one of the
|
---|
1538 | following keywords:<glosslist>
|
---|
1539 | <glossentry>
|
---|
1540 | <glossterm><computeroutput>noSelector</computeroutput></glossterm>
|
---|
1541 |
|
---|
1542 | <glossdef>
|
---|
1543 | <para>Don't allow to start the VirtualBox manager. Trying to do so
|
---|
1544 | will show a window containing a proper error message.</para>
|
---|
1545 | </glossdef>
|
---|
1546 | </glossentry>
|
---|
1547 |
|
---|
1548 | <glossentry>
|
---|
1549 | <glossterm><computeroutput>noMenuBar</computeroutput></glossterm>
|
---|
1550 |
|
---|
1551 | <glossdef>
|
---|
1552 | <para>VM windows will not contain a menu bar.</para>
|
---|
1553 | </glossdef>
|
---|
1554 | </glossentry>
|
---|
1555 |
|
---|
1556 | <glossentry>
|
---|
1557 | <glossterm><computeroutput>noStatusBar</computeroutput></glossterm>
|
---|
1558 |
|
---|
1559 | <glossdef>
|
---|
1560 | <para>VM windows will not contain a status bar.</para>
|
---|
1561 | </glossdef>
|
---|
1562 | </glossentry>
|
---|
1563 | </glosslist></para>
|
---|
1564 |
|
---|
1565 | <para>To disable any GUI customization do <screen>VBoxManage setextradata global GUI/Customizations</screen></para>
|
---|
1566 |
|
---|
1567 | <para>To disable all host key combinations, open the preferences and
|
---|
1568 | change the host key to <emphasis>None</emphasis>. This might be useful
|
---|
1569 | when using VirtualBox in a kiosk mode.</para>
|
---|
1570 |
|
---|
1571 | <para>Furthermore, you can disallow certain actions when terminating a VM.
|
---|
1572 | To disallow specific actions, type:</para>
|
---|
1573 |
|
---|
1574 | <para><screen>VBoxManage setextradata "VM name" GUI/RestrictedCloseActions OPTION[,OPTION...]</screen></para>
|
---|
1575 |
|
---|
1576 | <para>where <computeroutput>OPTION</computeroutput> is one of the
|
---|
1577 | following keywords:<glosslist>
|
---|
1578 | <glossentry>
|
---|
1579 | <glossterm><computeroutput>SaveState</computeroutput></glossterm>
|
---|
1580 |
|
---|
1581 | <glossdef>
|
---|
1582 | <para>Don't allow the user to save the VM state when terminating
|
---|
1583 | the VM.</para>
|
---|
1584 | </glossdef>
|
---|
1585 | </glossentry>
|
---|
1586 |
|
---|
1587 | <glossentry>
|
---|
1588 | <glossterm><computeroutput>Shutdown</computeroutput></glossterm>
|
---|
1589 |
|
---|
1590 | <glossdef>
|
---|
1591 | <para>Don't allow the user to shutdown the VM by sending the ACPI
|
---|
1592 | power-off event to the guest.</para>
|
---|
1593 | </glossdef>
|
---|
1594 | </glossentry>
|
---|
1595 |
|
---|
1596 | <glossentry>
|
---|
1597 | <glossterm><computeroutput>PowerOff</computeroutput></glossterm>
|
---|
1598 |
|
---|
1599 | <glossdef>
|
---|
1600 | <para>Don't allow the user to power off the VM.</para>
|
---|
1601 | </glossdef>
|
---|
1602 | </glossentry>
|
---|
1603 |
|
---|
1604 | <glossentry>
|
---|
1605 | <glossterm><computeroutput>Restore</computeroutput></glossterm>
|
---|
1606 |
|
---|
1607 | <glossdef>
|
---|
1608 | <para>Don't allow the user to return to the last snapshot when
|
---|
1609 | powering off the VM.</para>
|
---|
1610 | </glossdef>
|
---|
1611 | </glossentry>
|
---|
1612 | </glosslist></para>
|
---|
1613 |
|
---|
1614 | <para>Any combination of the above is allowed. If all options are
|
---|
1615 | specified, the VM cannot be shut down at all.</para>
|
---|
1616 | </sect1>
|
---|
1617 |
|
---|
1618 | <sect1 id="vboxwebsrv-daemon">
|
---|
1619 | <title>Starting the VirtualBox web service automatically</title>
|
---|
1620 |
|
---|
1621 | <para>The VirtualBox web service
|
---|
1622 | (<computeroutput>vboxwebsrv</computeroutput>) is used for controlling
|
---|
1623 | VirtualBox remotely. It is documented in detail in the VirtualBox Software
|
---|
1624 | Development Kit (SDK); please see <xref linkend="VirtualBoxAPI" />. As the
|
---|
1625 | client base using this interface is growing, we added start scripts for
|
---|
1626 | the various operation systems we support. The following describes how to
|
---|
1627 | use them. <itemizedlist>
|
---|
1628 | <listitem>
|
---|
1629 | <para>On Mac OS X, launchd is used. An example configuration file
|
---|
1630 | can be found in
|
---|
1631 | <computeroutput>$HOME/Library/LaunchAgents/org.virtualbox.vboxwebsrv.plist</computeroutput>.
|
---|
1632 | It can be enabled by changing the
|
---|
1633 | <computeroutput>Disabled</computeroutput> key from
|
---|
1634 | <computeroutput>true</computeroutput> to
|
---|
1635 | <computeroutput>false</computeroutput>. To manually start the
|
---|
1636 | service use the following command:
|
---|
1637 | <screen>launchctl load ~/Library/LaunchAgents/org.virtualbox.vboxwebsrv.plist</screen>
|
---|
1638 | For additional information on how launchd services could be
|
---|
1639 | configured see <literal><ulink
|
---|
1640 | url="http://developer.apple.com/mac/library/documentation/MacOSX/Conceptual/BPSystemStartup/BPSystemStartup.html">http://developer.apple.com/mac/library/documentation/MacOSX/Conceptual/BPSystemStartup/BPSystemStartup.html</ulink></literal>.</para>
|
---|
1641 | </listitem>
|
---|
1642 | </itemizedlist></para>
|
---|
1643 | </sect1>
|
---|
1644 |
|
---|
1645 | <sect1 id="vboxballoonctrl">
|
---|
1646 | <title>Memory Ballooning Service</title>
|
---|
1647 |
|
---|
1648 | <para>Starting with VirtualBox 4.0.8 a new host executable called
|
---|
1649 | <computeroutput>VBoxBalloonCtrl</computeroutput> is available to
|
---|
1650 | automatically take care of a VM's configured memory balloon
|
---|
1651 | (see <xref linkend="guestadd-balloon" /> for an introduction to memory
|
---|
1652 | ballooning). This is especially useful for server environments where
|
---|
1653 | VMs may dynamically require more or less memory during runtime.</para>
|
---|
1654 |
|
---|
1655 | <para>VBoxBalloonCtrl periodically checks a VM's current memory balloon
|
---|
1656 | and its free guest RAM and automatically adjusts the current memory
|
---|
1657 | balloon by inflating or deflating it accordingly. This handling only
|
---|
1658 | applies to running VMs having recent Guest Additions installed.</para>
|
---|
1659 |
|
---|
1660 | <para>To set up VBoxBalloonCtrl and adjust the maximum ballooning size a
|
---|
1661 | VM can reach the following parameters will be checked in the following
|
---|
1662 | order:
|
---|
1663 | <itemizedlist>
|
---|
1664 | <listitem>specified via VBoxBalloonCtrl command line parameter
|
---|
1665 | <computeroutput>--balloon-max</computeroutput></listitem>
|
---|
1666 | <listitem>per-VM parameter using
|
---|
1667 | <screen>VBoxManage setextradata "VM-Name" VBoxInternal/Guest/BalloonSizeMax <Size in MB></screen></listitem>
|
---|
1668 | <listitem>global parameter for all VMs using
|
---|
1669 | <screen>VBoxManage setextradata global VBoxInternal/Guest/BalloonSizeMax <Size in MB></screen></listitem>
|
---|
1670 | </itemizedlist>
|
---|
1671 | <note>
|
---|
1672 | <para>If no maximum ballooning size is specified by at least one of the
|
---|
1673 | parameters above, no ballooning will be performed at all.</para>
|
---|
1674 | </note>
|
---|
1675 | </para>
|
---|
1676 |
|
---|
1677 | <para>For more options and parameters check the built-in command line help
|
---|
1678 | accessible with <computeroutput>--help</computeroutput>.</para>
|
---|
1679 | </sect1>
|
---|
1680 | </chapter>
|
---|