This section provides documents useful to those working on the libvirt internals, adding new public APIs, new hypervisor drivers or extending the libvirtd daemon code.
Before adding new code it will be important to get a basic understanding of the many elements involved with making any call or change to the libvirt code. The architecture goals must be adhered to when submitting new code. Understanding the many places that need to be touched and the interactions between various subsystems within libvirt will directly correlate to the ability to be successful in getting new code accepted.
The following diagram depicts code flow from a client application, in
this case the libvirt provided virsh
command through the
various layers to elicit a response from some chosen hypervisor.
After the virsh code processes the input arguments, it eventually will make a call to open the connection using a default set of authentication credentials (virConnectAuthDefault).
Each of the virConnectOpen APIs will first call virInitialize() and then revector through the local "do_open():" call.
Calls the registration API for each of the drivers with client-side only capabilities and then call the remoteRegister() API last. This ensures the virDriverTab[] tries local drivers first before using the remote driver.
After a couple of URI checks, a call to doRemoteOpen() is made
The transport will be either tls, unix, ssh, libssh2, ext, or tcp with the default of tls. Decode the host/port if provided or default to "localhost".
Register an I/O callback mechanism to get returned data via virNetClientIncomingEvent()
Eventually routes into virNetClientProgramCall() which will call virNetClientSendWithReply() and eventually uses virNetClientIO()to send the message to libvirtd and then waits for a response using virNetClientIOEventLoop()
Receives the returned packet and processes through virNetClientIOUpdateCallback()
The daemon initialization processing will declare itself
as a server via a virNetServerNew() call, then use
virDriverLoadModule() to find/load all known drivers,
set up an RPC server program using the remoteProcs[]
table via a virNetServerProgramNew() call. The table is the
corollary to the remote_procedure
enum list in
the client. It lists all the functions to be called in
the same order. Once RPC is set up, networking server sockets
are opened, the various driver state initialization routines
are run from the virStateDriverTab[]
, the network
links are enabled, and the daemon waits for work.
When a message is received, the remoteProcs[]
table is referenced for the 'REMOTE_PROC_OPEN' call entry.
This results in remoteDispatchOpen() being called via the
virNetServerProgramDispatchCall().
The API will read the argument passed picking out the
name
of the driver to be opened. The code
will then call virConnectOpen() or virConnectOpenReadOnly()
depending on the argument flags
.
Just like the client except that upon entry the URI is what was passed from the client and will be found and opened to process the data.
The returned structure data is returned via the virNetServer interfaces to the remote driver which then returns it to the client application.