use of org.onosproject.kubevirtnode.api.KubevirtNode.Type.MASTER in project onos by opennetworkinglab.
the class KubevirtNodeUtil method buildKubevirtNode.
/**
* Returns the kubevirt node from the node.
*
* @param node a raw node object returned from a k8s client
* @return kubevirt node
*/
public static KubevirtNode buildKubevirtNode(Node node) {
String hostname = node.getMetadata().getName();
IpAddress managementIp = null;
IpAddress dataIp = null;
for (NodeAddress nodeAddress : node.getStatus().getAddresses()) {
if (nodeAddress.getType().equals(INTERNAL_IP)) {
managementIp = IpAddress.valueOf(nodeAddress.getAddress());
dataIp = IpAddress.valueOf(nodeAddress.getAddress());
}
}
Set<String> rolesFull = node.getMetadata().getLabels().keySet().stream().filter(l -> l.contains(K8S_ROLE)).collect(Collectors.toSet());
KubevirtNode.Type nodeType = WORKER;
for (String roleStr : rolesFull) {
String role = roleStr.split("/")[1];
if (MASTER.name().equalsIgnoreCase(role)) {
nodeType = MASTER;
break;
}
}
// start to parse kubernetes annotation
Map<String, String> annots = node.getMetadata().getAnnotations();
String physnetConfig = annots.get(PHYSNET_CONFIG_KEY);
String gatewayConfig = annots.get(GATEWAY_CONFIG_KEY);
String dataIpStr = annots.get(DATA_IP_KEY);
Set<KubevirtPhyInterface> phys = new HashSet<>();
String gatewayBridgeName = null;
try {
if (physnetConfig != null) {
JSONArray configJson = new JSONArray(physnetConfig);
for (int i = 0; i < configJson.length(); i++) {
JSONObject object = configJson.getJSONObject(i);
String network = object.getString(NETWORK_KEY);
String intf = object.getString(INTERFACE_KEY);
if (network != null && intf != null) {
String physBridgeId;
if (object.has(PHYS_BRIDGE_ID)) {
physBridgeId = object.getString(PHYS_BRIDGE_ID);
} else {
physBridgeId = genDpidFromName(network + intf + hostname);
log.trace("host {} physnet dpid for network {} intf {} is null so generate dpid {}", hostname, network, intf, physBridgeId);
}
phys.add(DefaultKubevirtPhyInterface.builder().network(network).intf(intf).physBridge(DeviceId.deviceId(physBridgeId)).build());
}
}
}
if (dataIpStr != null) {
dataIp = IpAddress.valueOf(dataIpStr);
}
if (gatewayConfig != null) {
JsonNode jsonNode = new ObjectMapper().readTree(gatewayConfig);
nodeType = GATEWAY;
gatewayBridgeName = jsonNode.get(GATEWAY_BRIDGE_NAME).asText();
}
} catch (JSONException | JsonProcessingException e) {
log.error("Failed to parse physnet config or gateway config object", e);
}
// if the node is taint with kubevirt.io key configured,
// we mark this node as OTHER type, and do not add it into the cluster
NodeSpec spec = node.getSpec();
if (spec.getTaints() != null) {
for (Taint taint : spec.getTaints()) {
String effect = taint.getEffect();
String key = taint.getKey();
String value = taint.getValue();
if (StringUtils.equals(effect, NO_SCHEDULE_EFFECT) && StringUtils.equals(key, KUBEVIRT_IO_KEY) && StringUtils.equals(value, DRAINING_VALUE)) {
nodeType = OTHER;
}
}
}
return DefaultKubevirtNode.builder().hostname(hostname).managementIp(managementIp).dataIp(dataIp).type(nodeType).state(KubevirtNodeState.ON_BOARDED).phyIntfs(phys).gatewayBridgeName(gatewayBridgeName).build();
}
Aggregations