The libvirt VMware ESX driver can manage VMware ESX/ESXi 3.5/4.0 and VMware GSX 2.0, also called VMware Server 2.0, and possibly later versions.
None. Any out-of-the-box installation of ESX/GSX should work. No preparations are required on the server side, no libvirtd must be installed on the ESX server. The driver uses version 2.5 of the remote, SOAP based VMware Virtual Infrastructure API (VI API) to communicate with the ESX server, like the VMware Virtual Infrastructure Client (VI client) does. Since version 4.0 this API is called VMware vSphere API.
Some example remote connection URIs for the driver are:
esx://example.com (ESX over HTTPS) gsx://example.com (GSX over HTTPS) esx://example.com/?transport=http (ESX over HTTP) esx://example.com/?no_verify=1 (ESX over HTTPS, but doesn't verify the server's SSL certificate)
Note: In contrast to other drivers, the ESX driver is
a client-side-only driver. It connects to the ESX server using HTTP(S).
Therefore, the remote transport mechanism
provided by the remote driver and libvirtd will not work, and you
cannot use URIs like esx+ssh://example.com
.
URIs have this general form ('[...]' marks an optional part).
type://[username@]hostname[:port]/[?extraparameters]
The type://
is either esx://
or
gsx://
and the driver selects the default port depending
on it. For ESX the default HTTPS port is 443, for GSX it is 8333. If
the port parameter is given, it overrides the default port.
Extra parameters can be added to a URI as part of the query string (the part following '?'). The driver understands the extra parameters shown below.
Name | Values | Meaning |
---|---|---|
transport
|
http or https
|
Overrides the default HTTPS transport. For ESX the default HTTP port is 80, for GSX it is 8222. |
vcenter
|
Hostname of a VMware vCenter or *
|
In order to perform a migration the driver needs to know the
VMware vCenter for the ESX server. If set to * ,
the driver connects to the vCenter known to the ESX server.
|
no_verify
|
0 or 1
|
If set to 1, this disables libcurl client checks of the server's SSL certificate. The default value it 0. |
auto_answer
|
0 or 1
|
If set to 1, the driver answers all questions with the default answer. If set to 0, questions are reported as errors. The default value it 0. |
In order to perform any useful operation the driver needs to log into
the ESX server. Therefore, only virConnectOpenAuth
can be
used to connect to an ESX server, virConnectOpen
and
virConnectOpenReadOnly
don't work.
To log into an ESX server or vCenter the driver will request
credentials using the callback passed to the
virConnectOpenAuth
function. The driver passes the
hostname as challenge parameter to the callback. This enables the
callback to distinguish between requests for ESX server and vCenter.
Note: During the ongoing driver development, testing
is done using an unrestricted root
account. Problems may
occur if you use a restricted account. Detailed testing with restricted
accounts has not been done yet.
Some methods of the VI API start tasks, for example
PowerOnVM_Task()
. Such tasks may be blocked by questions
if the ESX server detects an issue with the domain that requires user
interaction. The ESX driver cannot prompt the user to answer a
question, libvirt doesn't have an API for something like this.
The VI API provides the AnswerVM()
method to
programmatically answer a questions. So the driver has two options
how to handle such a situation: either answer the questions with the
default answer or report the question as an error and cancel the
blocked task if possible. The
auto_answer
query parameter
controls the answering behavior.
There are several specialties in the domain XML config for ESX domains.
There are some restrictions for some values of the domain XML config. The driver will complain if this restrictions are violated.
00:0c:29
and
00:50:56
. Since 0.7.6
arbitrary MAC addresses are supported.
Storage is managed in datastores. VMware uses a special path format to reference files in a datastore. Basically, the datastore name is put into squared braces in front of the path.
[datastore] directory/filename
To define a new domain the driver converts the domain XML into a VMware VMX file and uploads it to a datastore known to the ESX server. Because multiple datastores may be known to an ESX server the driver needs to decide to which datastores the VMX file should be uploaded. The driver deduces this information from the path of the source of the first file-based harddisk listed in the domain XML.
VMware has registered two MAC address prefixes for domains:
00:0c:29
and 00:50:56
. These prefixes are
split into ranges for different purposes.
Range | Purpose |
---|---|
00:0c:29:00:00:00 - 00:0c:29:ff:ff:ff
|
An ESX server autogenerates MAC addresses from this range if the VMX file doesn't contain a MAC address when trying to start a domain. |
00:50:56:00:00:00 - 00:50:56:3f:ff:ff
|
MAC addresses from this range can by manually assigned by the user in the VI client. |
00:50:56:80:00:00 - 00:50:56:bf:ff:ff
|
A VI client autogenerates MAC addresses from this range for newly defined domains. |
The VMX files generated by the ESX driver always contain a MAC address,
because libvirt generates a random one if an interface element in the
domain XML file lacks a MAC address.
Since 0.7.6 the ESX driver sets the prefix
for generated MAC addresses to 00:0c:29
. Before 0.7.6
the 00:50:56
prefix was used. Sometimes this resulted in
the generation of out-of-range MAC address that were rejected by the
ESX server.
Also since 0.7.6 every MAC address outside this ranges can be used. For such MAC addresses the ESX server-side check is disabled in the VMX file to stop the ESX server from rejecting out-of-predefined-range MAC addresses.
ethernet0.checkMACAddress = "false"
VMware ESX supports different models of SCSI controllers and network cards.
buslogic
lsilogic
Here a domain XML snippet:
... <disk type='file' device='disk'> <driver name='lsilogic'/> <source file='[local-storage] Fedora11/Fedora11.vmdk'/> <target dev='sda' bus='scsi'/> </disk> ...
vlance
vmxnet
, vmxnet3
e1000
Here a domain XML snippet:
... <interface type='bridge'> <mac address='00:50:56:25:48:c7'/> <source bridge='VM Network'/> <model type='e1000'/> </interface> ...
The ESX driver currently supports a native config format known as
vmware-vmx
to handle VMware VMX configs.
The virsh domxml-from-native
provides a way to convert an
existing VMware VMX config into a domain XML config that can then be
used by libvirt.
$ cat > demo.vmx << EOF #!/usr/bin/vmware config.version = "8" virtualHW.version = "4" floppy0.present = "false" nvram = "Fedora11.nvram" deploymentPlatform = "windows" virtualHW.productCompatibility = "hosted" tools.upgrade.policy = "useGlobal" powerType.powerOff = "default" powerType.powerOn = "default" powerType.suspend = "default" powerType.reset = "default" displayName = "Fedora11" extendedConfigFile = "Fedora11.vmxf" scsi0.present = "true" scsi0.sharedBus = "none" scsi0.virtualDev = "lsilogic" memsize = "1024" scsi0:0.present = "true" scsi0:0.fileName = "/vmfs/volumes/498076b2-02796c1a-ef5b-000ae484a6a3/Fedora11/Fedora11.vmdk" scsi0:0.deviceType = "scsi-hardDisk" ide0:0.present = "true" ide0:0.clientDevice = "true" ide0:0.deviceType = "cdrom-raw" ide0:0.startConnected = "false" ethernet0.present = "true" ethernet0.networkName = "VM Network" ethernet0.addressType = "vpx" ethernet0.address = "00:50:56:91:48:c7" chipset.onlineStandby = "false" guestOSAltName = "Red Hat Enterprise Linux 5 (32-Bit)" guestOS = "rhel5" uuid.bios = "50 11 5e 16 9b dc 49 d7-f1 71 53 c4 d7 f9 17 10" snapshot.action = "keep" sched.cpu.min = "0" sched.cpu.units = "mhz" sched.cpu.shares = "normal" sched.mem.minsize = "0" sched.mem.shares = "normal" toolScripts.afterPowerOn = "true" toolScripts.afterResume = "true" toolScripts.beforeSuspend = "true" toolScripts.beforePowerOff = "true" scsi0:0.redo = "" tools.syncTime = "false" uuid.location = "56 4d b5 06 a2 bd fb eb-ae 86 f7 d8 49 27 d0 c4" sched.cpu.max = "unlimited" sched.swap.derivedName = "/vmfs/volumes/498076b2-02796c1a-ef5b-000ae484a6a3/Fedora11/Fedora11-7de040d8.vswp" tools.remindInstall = "TRUE" EOF $ virsh -c esx://example.com domxml-from-native vmware-vmx demo.vmx Enter username for example.com [root]: Enter root password for example.com: <domain type='vmware'> <name>Fedora11</name> <uuid>50115e16-9bdc-49d7-f171-53c4d7f91710</uuid> <memory>1048576</memory> <currentMemory>1048576</currentMemory> <vcpu>1</vcpu> <os> <type arch='i686'>hvm</type> </os> <clock offset='utc'/> <on_poweroff>destroy</on_poweroff> <on_reboot>restart</on_reboot> <on_crash>destroy</on_crash> <devices> <disk type='file' device='disk'> <driver name='lsilogic'/> <source file='[local-storage] Fedora11/Fedora11.vmdk'/> <target dev='sda' bus='scsi'/> </disk> <interface type='bridge'> <mac address='00:50:56:91:48:c7'/> <source bridge='VM Network'/> </interface> </devices> </domain>
The virsh domxml-to-native
provides a way to convert a
domain XML config into a VMware VMX config.
$ cat > demo.xml << EOF <domain type='vmware'> <name>Fedora11</name> <uuid>50115e16-9bdc-49d7-f171-53c4d7f91710</uuid> <memory>1048576</memory> <currentMemory>1048576</currentMemory> <vcpu>1</vcpu> <os> <type arch='x86_64'>hvm</type> </os> <devices> <disk type='file' device='disk'> <driver name='lsilogic'/> <source file='[local-storage] Fedora11/Fedora11.vmdk'/> <target dev='sda' bus='scsi'/> </disk> <interface type='bridge'> <mac address='00:50:56:25:48:c7'/> <source bridge='VM Network'/> </interface> </devices> </domain> EOF $ virsh -c esx://example.com domxml-to-native vmware-vmx demo.xml Enter username for example.com [root]: Enter root password for example.com: config.version = "8" virtualHW.version = "4" guestOS = "other-64" uuid.bios = "50 11 5e 16 9b dc 49 d7-f1 71 53 c4 d7 f9 17 10" displayName = "Fedora11" memsize = "1024" numvcpus = "1" scsi0.present = "true" scsi0.virtualDev = "lsilogic" scsi0:0.present = "true" scsi0:0.deviceType = "scsi-hardDisk" scsi0:0.fileName = "/vmfs/volumes/local-storage/Fedora11/Fedora11.vmdk" ethernet0.present = "true" ethernet0.networkName = "VM Network" ethernet0.connectionType = "bridged" ethernet0.addressType = "static" ethernet0.address = "00:50:56:25:48:C7"
<domain type='vmware'> <name>Fedora11</name> <uuid>50115e16-9bdc-49d7-f171-53c4d7f91710</uuid> <memory>1048576</memory> <currentMemory>1048576</currentMemory> <vcpu>1</vcpu> <os> <type arch='x86_64'>hvm</type> </os> <devices> <disk type='file' device='disk'> <source file='[local-storage] Fedora11/Fedora11.vmdk'/> <target dev='sda' bus='scsi'/> </disk> <interface type='bridge'> <mac address='00:50:56:25:48:c7'/> <source bridge='VM Network'/> </interface> </devices> </domain>
A migration cannot be initiated on an ESX server directly, a VMware
vCenter is necessary for this. The vcenter
query
parameter must be set either to the hostname or IP address of the
vCenter managing the ESX server or to *
. Setting it
to *
causes the driver to connect to the vCenter known to
the ESX server. If the ESX server is not managed by a vCenter an error
is reported.
esx://example.com/?vcenter=example-vcenter.com
Here an example how to migrate the domain Fedora11
from
ESX server example-src.com
to ESX server
example-dst.com
implicitly involving vCenter
example-vcenter.com
using virsh
.
$ virsh -c esx://example-src.com/?vcenter=* migrate Fedora11 esx://example-dst.com/?vcenter=* Enter username for example-src.com [root]: Enter root password for example-src.com: Enter username for example-vcenter.com [administrator]: Enter administrator password for example-vcenter.com: Enter username for example-dst.com [root]: Enter root password for example-dst.com: Enter username for example-vcenter.com [administrator]: Enter administrator password for example-vcenter.com:
The driver exposes the ESX CPU scheduler. The parameters listed below are available to control the scheduler.
reservation
limit
shares
low
, normal
and
high
.
Some actions require installed VMware tools. If the VMware tools are not installed in the guest and one of the actions below is to be performed the ESX server raises an error and the driver reports it.
virDomainReboot
virDomainShutdown