Handling of errors

The main goals of libvirt when it comes to error handling are:

• provide as much detail as possible
• provide the informations as soon as possible
• dont force the library user into one style of error handling

As result the library provide both synchronous, callback based and asynchronous error reporting. When an error happens in the library code the error is logged, allowing to retrieve it later and if the user registered an error callback it will be called synchronously. Once the call to libvirt ends the error can be detected by the return value and the full information for the last logged error can be retrieved.

To avoid as much as prossible troubles with a global variable in a multithreaded environment, libvirt will associate when possible the errors to the current connection they are related to, that way the error is stored in a dynamic structure which can be made thread specific. Error callback can be set specifically to a connection with

So error handling in the code is the following:

1. if the error can be associated to a connection for example when failing to look up a domain
   1. if there is a callback associated to the connection set with virConnSetErrorFunc, call it with the error informations
   2. otherwise if there is a global callback set with virSetErrorFunc, call it with the error information
   3. otherwise call virDefaultErrorFunc which is the default error function of the library issuing the error on stderr
   4. save the error in the connection for later retrieval with virConnGetLastError
2. otherwise like when failing to create an hypervisor connection:
   1. if there is a global callback set with virSetErrorFunc, call it with the error information
   2. otherwise call virDefaultErrorFunc which is the default error function of the library issuing the error on stderr
   3. save the error in the connection for later retrieval with virGetLastError

In all cases the error informations are provided as a virErrorPtr pointer to read-only structure virError containing the following fields:

• code: an error number from the virErrorNumber enum
• domain: an enum indicating which part of libvirt raised the error see virErrorDomain
• level: the error level, usually VIR_ERR_ERROR, though there is room for warnings like VIR_ERR_WARNING
• message: the full human-readable formatted string of the error
• conn: if available a pointer to the virConnectPtr connection to the hypervisor where this happened
• dom: if available a pointer to the virDomainPtr domain targetted in the operation

and then extra raw informations about the error which may be initialized to 0 or NULL if unused

• str1, str2, str3: string informations, usually str1 is the error message format
• int1, int2: integer informations

So usually, setting up specific error handling with libvirt consist of registering an handler with with virSetErrorFunc or with virConnSetErrorFunc, chech the value of the code value, take appropriate action, if needed let libvirt print the error on stderr by calling virDefaultErrorFunc. For asynchronous error handing, set such a function doing nothing to avoid the error being reported on stderr, and call virConnGetLastError or virGetLastError when an API call returned an error value. It can be a good idea to use virResetError or virConnResetLastError once an error has been processed fully.

At the python level, there only a global reporting callback function at this point, see the error.py example about it:

def handler(ctxt, err):
    global errno

    #print "handler(%s, %s)" % (ctxt, err)
    errno = err

libvirt.registerErrorHandler(handler, 'context') 

the second argument to the registerErrorHandler function is passed as the fist argument of the callback like in the C version. The error is a tuple containing the same field as a virError in C, but cast to Python.