2707d32a87
Signed-off-by: Lon Hohberger <lon@users.sourceforge.net> |
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client | ||
common | ||
config | ||
include | ||
man | ||
server | ||
utils | ||
architecture.txt | ||
autogen.sh | ||
build | ||
configure.in | ||
COPYING | ||
fence_virt.txt | ||
Makefile.in | ||
Makefile.top.in | ||
README | ||
TODO |
TODO: update I. Fence_xvm - the Xen virtual machine fencing agent Fence_xvm is an agent which establishes a communications link between a cluster of virtual machines (VC) and a cluster of domain0/physical nodes which are hosting the virtual cluster. Its operations are fairly simple. (a) Start a listener service. (b) Send a multicast packet requesting that a VM be fenced. (c) Authenticate client. (e) Read response. (f) Exit with success/failure, depending on the response received. If any of the above steps fail, the fencing agent exits with a failure code and fencing is retried by the virtual cluster at a later time. Because of the simplicty of fence_xvm, it is not necessary that fence_xvm be run from within a virtualized guest - all it needs is libnspr and libnss and a shared private key (for authentication; we would hate to receive a false positive response from a node not in the cluster!). II. Fence_xvmd - The Xen virtual machine fencing host Fence_xvmd is a daemon which runs on physical hosts (e.g. in domain0) of the cluster hosting the Xen virtual cluster. It listens on a port for multicast traffic from Xen virtual cluster(s), and takes actions. Multiple disjoint virtual clusters can coexist on a single physical host cluster, but this requires multiple instances of fence_xvmd. NOTE: fence_xvmd *MUST* be run on ALL nodes in a given cluster which will be hosting virtual machines if fence_xvm is to be used for fencing! There are a couple of ways the multicast packet is handled, depending on the state of the host OS. It might be hosting the VM, or it might not. Furthermore, the VM might "reside" on a host which has failed. In order to be able to guarantee safe fencing of a VM even if the last- known host is down, we must store the last-known locations of each virtual machine in some sort of cluster-wide way. For this, we use the AIS Checkpointing API, which is provided by OpenAIS. Every few seconds, fence_xvmd queries the Xen Hypervisor via libvirt and stores any local VM states in a checkpoint. In the event of a physical node failure (which consequently causes the failure of one or more Xen guests), we can then read the checkpoint section corresponding to the guest we need to fence to find out the previous owner. With that information, we can then check with CMAN to see if the last-known host node has been fenced. If so, then the VM is clean as well. The physical cluster must, therefore, have fencing in order for fence_xvmd to work. Operation of a node hosting a VM which needs to be fenced: (a) Receive multicast packet (b) Authenticate multicast packet (c) Open connection to host contained within multicast packet. (d) Authenticate server. (e) Carry out fencing operation (e.g. call libvirt to destroy or reboot the VM; there is no "on" method at this point). (f) If operation succeeds, send success response. Operation of high-node-ID: (a) Receive multicast packet (b) Authenticate multicast packet (c) Read VM state from checkpoint (d) Check liveliness of nodeID hosting VM (if alive, do nothing) (e) Open connection to host contained within multicast packet. (f) Check with CMAN to see if last-known host has been fenced. (g) If last-known host has been fenced, send success response. (h) Authenticate server & send response. NOTE: There is always a possibility that a VM is started again before the fencing operation and checkpoint update for that VM occurs. If the VM has booted and rejoined the cluster, fencing will not be necessary. If it is in the process of booting, but has not yet joined the cluster, fencing will also not be necessary - because it will not be using cluster resources yet. III. Security considerations While fencing is generally expected to run on a more or less trusted network, there are cases where it may not be. * The multicast packet is subject to replay attacks, but because no fencing action is taken based solely on the information contained within the packet, this should not allow an attacker to maliciously fence a VM from outside the cluster, though it may be possible to cause a DoS of fence_xvmd if enough multicast packets are sent. * The only currently supported authentication mechanisms are simple challenge-response based on a shared private key and pseudorandom number generation. * An attacker with access to the shared key(s) can easily fence any known VM, even if they are not on a cluster node. * Different shared keys should be used for different virtual clusters on the same subnet (whether in the same physical cluster or not). Additionally, multiple fence_xvmd instances must be run (each listening on a different multicast IP + port combination). IV. Configuration Generate a random key file. An example of how to generate it is: dd if=/dev/urandom of=/etc/cluster/fence_xvm.key bs=4096 count=1 Distribute the generated key file to all domUs in a cluster as well as all dom0s which will be hosting that particular cluster of domUs. The key should not be placed on shared file systems (because shared file systems require the cluster, which requires fencing...). Start fence_xvmd on all dom0s Configure fence_xvm on the domU cluster... rest...tbd