Libvirt comes with direct support for the Python language (just make sure
you installed the libvirt-python package if not compiling from sources). The
Python binding should be complete and are mostly automatically generated from
the formal description of the API in xml. The bindings are articulated around
2 classes virConnect
and virDomain mapping to the C types.
Functions in the C API taking either type as argument then becomes methods
for the classes, their name is just stripped from the virConnect or
virDomain(Get) prefix and the first letter gets converted to lower case, for
example the C functions:
int virConnectNumOfDomains
(virConnectPtr conn);
int virDomainSetMaxMemory
(virDomainPtr domain, unsigned long memory);
become
virConn::numOfDomains(self)
virDomain::setMaxMemory(self, memory)
This process is fully automated, you can get a summary of the conversion in the file libvirtclass.txt present in the python dir or in the docs.There is a couple of function who don't map directly to their C counterparts due to specificities in their argument conversions:
virConnectListDomains
is replaced by virDomain::listDomainsID(self)
which returns
a list of the integer ID for the currently running domainsvirDomainGetInfo
is replaced by virDomain::info()
which returns a list of
So let's look at a simple example inspired from the basic.py
test found in python/tests/
in the source tree:
import libvirt import sys conn = libvirt.openReadOnly(None) if conn == None: print 'Failed to open connection to the hypervisor' sys.exit(1) dom0 = conn.lookupByName("Domain-0") if dom0 == None: print 'Failed to find the main domain' sys.exit(1) print "Domain 0: id %d running %s" % (dom0.ID(), dom0.OSType()) print dom0.info()
There is not much to comment about it, it really is a straight mapping from the C API, the only points to notice are:
libvirt