-
由 Peter Krempa 提交于
The last Viktor's effort to fix the race and memory corruption unfortunately wasn't complete in the case the close callback was not registered in an connection. At that time, the trail of event's that I'll describe later could still happen and corrupt the memory or cause a crash of the client (including the daemon in case of a p2p migration). Consider the following prerequisities and trail of events: Let's have a remote connection to a hypervisor that doesn't have a close callback registered and the client is using the event loop. The crash happens in cooperation of 2 threads. Thread E is the event loop and thread W is the worker that does some stuff. R denotes the remote client. 1.) W - The client finishes everything and sheds the last reference on the client 2.) W - The virObject stuff invokes virConnectDispose that invokes doRemoteClose 3.) W - the remote close method invokes the REMOTE_PROC_CLOSE RPC method. 4.) W - The thread is preempted at this point. 5.) R - The remote side receives the close and closes the socket. 6.) E - poll() wakes up due to the closed socket and invokes the close callback 7.) E - The event loop is preempted right before remoteClientCloseFunc is called 8.) W - The worker now finishes, and frees the conn object. 9.) E - The remoteClientCloseFunc accesses the now-freed conn object in the attempt to retrieve pointer for the real close callback. 10.) Kaboom, corrupted memory/segfault. This patch tries to fix this by introducing a new object that survives the freeing of the connection object. We can't increase the reference count on the connection object itself or the connection would never be closed, as the connection is closed only when the reference count reaches zero. The new object - virConnectCloseCallbackData - is a lockable object that keeps the pointers to the real user registered callback and ensures that the connection callback is either not called if the connection was already freed or that the connection isn't freed while this is being called.
8ad126e6