use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.packet.fields.rev160218.acl.transport.header.fields.SourcePortRangeBuilder in project netvirt by opendaylight.
the class FlowClassifierTranslator method buildAcl.
public static Acl buildAcl(SfcFlowClassifier flowClassifier, String sfpName) {
LOG.info("OpenStack Networking SFC pushed Flow classifier : {}", flowClassifier);
AclBuilder aclBuilder = new AclBuilder();
AceBuilder aceBuilder = new AceBuilder();
ActionsBuilder actionsBuilder = new ActionsBuilder();
RedirectToSfcBuilder redirectToSfcBuilder = new RedirectToSfcBuilder();
NeutronPortsBuilder neutronPortsBuilder = new NeutronPortsBuilder();
AceIpBuilder aceIpBuilder = new AceIpBuilder();
DestinationPortRangeBuilder destinationPortRange = new DestinationPortRangeBuilder();
SourcePortRangeBuilder sourcePortRangeBuilder = new SourcePortRangeBuilder();
if (flowClassifier.getUuid() != null) {
if (flowClassifier.getName() != null) {
aclBuilder.setAclName(flowClassifier.getUuid().getValue() + "_" + flowClassifier.getName());
} else {
aclBuilder.setAclName(flowClassifier.getUuid().getValue());
}
}
if (flowClassifier.getEthertype() != null) {
IpPrefix sourceIp = null;
IpPrefix destinationIp = null;
if (flowClassifier.getSourceIpPrefix() != null) {
sourceIp = flowClassifier.getSourceIpPrefix();
}
if (flowClassifier.getDestinationIpPrefix() != null) {
destinationIp = flowClassifier.getDestinationIpPrefix();
}
if (flowClassifier.getEthertype() == EthertypeV4.class) {
AceIpv4Builder aceIpv4Builder = new AceIpv4Builder();
if (sourceIp != null && sourceIp.getIpv4Prefix() != null) {
aceIpv4Builder.setSourceIpv4Network(sourceIp.getIpv4Prefix());
}
if (destinationIp != null && destinationIp.getIpv4Prefix() != null) {
aceIpv4Builder.setDestinationIpv4Network(destinationIp.getIpv4Prefix());
}
aceIpBuilder.setAceIpVersion(aceIpv4Builder.build());
aclBuilder.setAclType(Ipv4Acl.class);
}
if (flowClassifier.getEthertype() == EthertypeV6.class) {
AceIpv6Builder aceIpv6Builder = new AceIpv6Builder();
if (sourceIp != null && sourceIp.getIpv6Prefix() != null) {
aceIpv6Builder.setSourceIpv6Network(sourceIp.getIpv6Prefix());
}
if (sourceIp != null && destinationIp.getIpv6Prefix() != null) {
aceIpv6Builder.setDestinationIpv6Network(destinationIp.getIpv6Prefix());
}
aceIpBuilder.setAceIpVersion(aceIpv6Builder.build());
aclBuilder.setAclType(Ipv6Acl.class);
}
}
if (flowClassifier.getProtocol() != null) {
if (flowClassifier.getProtocol() == ProtocolTcp.class) {
aceIpBuilder.setProtocol(PROTO_TCP);
}
if (flowClassifier.getProtocol() == ProtocolUdp.class) {
aceIpBuilder.setProtocol(PROTO_UDP);
}
}
if (flowClassifier.getSourcePortRangeMin() != null) {
sourcePortRangeBuilder.setLowerPort(new PortNumber(flowClassifier.getSourcePortRangeMin()));
// set source port range only if lower port is specified as it is a mandatory parameter in acl model
aceIpBuilder.setSourcePortRange(sourcePortRangeBuilder.build());
}
if (flowClassifier.getSourcePortRangeMax() != null) {
sourcePortRangeBuilder.setUpperPort(new PortNumber(flowClassifier.getSourcePortRangeMax()));
}
if (flowClassifier.getDestinationPortRangeMin() != null) {
destinationPortRange.setLowerPort(new PortNumber(flowClassifier.getDestinationPortRangeMin()));
// set destination port range only if lower port is specified as it is a mandatory parameter in acl model
aceIpBuilder.setDestinationPortRange(destinationPortRange.build());
}
if (flowClassifier.getDestinationPortRangeMax() != null) {
destinationPortRange.setUpperPort(new PortNumber(flowClassifier.getDestinationPortRangeMax()));
}
if (flowClassifier.getLogicalSourcePort() != null) {
neutronPortsBuilder.setSourcePortUuid(flowClassifier.getLogicalSourcePort().getValue());
}
if (flowClassifier.getLogicalDestinationPort() != null) {
neutronPortsBuilder.setDestinationPortUuid(flowClassifier.getLogicalDestinationPort().getValue());
}
// currently not supported.
// if (flowClassifier.getL7Parameter() != null) {
// }
MatchesBuilder matchesBuilder = new MatchesBuilder();
matchesBuilder.setAceType(aceIpBuilder.build());
matchesBuilder.addAugmentation(NeutronPorts.class, neutronPortsBuilder.build());
// Set redirect-to-rsp action if rsp name is provided
if (sfpName != null) {
redirectToSfcBuilder.setSfpName(sfpName);
actionsBuilder.addAugmentation(RedirectToSfc.class, redirectToSfcBuilder.build());
aceBuilder.setActions(actionsBuilder.build());
}
aceBuilder.setMatches(matchesBuilder.build());
// OpenStack networking-sfc don't pass action information
// with flow classifier. It need to be determined using the
// Port Chain data and then flow calssifier need to be updated
// with the actions.
aceBuilder.setRuleName(aclBuilder.getAclName() + RULE);
aceBuilder.setKey(new AceKey(aceBuilder.getRuleName()));
ArrayList<Ace> aceList = new ArrayList<>();
aceList.add(aceBuilder.build());
AccessListEntriesBuilder accessListEntriesBuilder = new AccessListEntriesBuilder();
accessListEntriesBuilder.setAce(aceList);
aclBuilder.setAccessListEntries(accessListEntriesBuilder.build());
aclBuilder.setKey(new AclKey(aclBuilder.getAclName(), aclBuilder.getAclType()));
LOG.info("Translated ACL Flow classfier : {}", aclBuilder.toString());
return aclBuilder.build();
}
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