apps/segmentrouting/src/main/java/org/onosproject/segmentrouting/config/NetworkConfigManager.java - onos - Gitiles

 package org.onosproject.segmentrouting.config;

 import java.io.File;
 import java.io.IOException;
 import java.util.ArrayList;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.List;
 import java.util.Map;
 import java.util.Set;
 import java.util.concurrent.ConcurrentHashMap;
 import java.util.concurrent.ConcurrentMap;

 import org.onosproject.net.DeviceId;
 import org.onosproject.net.Link;
 import org.onosproject.segmentrouting.config.NetworkConfig.LinkConfig;
 import org.onosproject.segmentrouting.config.NetworkConfig.SwitchConfig;
 import org.slf4j.Logger;
 import org.slf4j.LoggerFactory;

 import com.fasterxml.jackson.core.JsonParseException;
 import com.fasterxml.jackson.databind.JsonMappingException;
 import com.fasterxml.jackson.databind.ObjectMapper;

 /**
  * NetworkConfigManager manages all network configuration for switches, links
  * and any other state that needs to be configured for correct network
  * operation.
  *
  */
 public class NetworkConfigManager implements NetworkConfigService {
     protected static final Logger log = LoggerFactory
             .getLogger(NetworkConfigManager.class);
     private static final String CONFIG_DIR = "../config";
     private static final String DEFAULT_CONFIG_FILE = "segmentrouting.conf";
     private final String configFileName = DEFAULT_CONFIG_FILE;
     /**
      * JSON Config file needs to use one of the following types for defining the
      * kind of switch or link it wishes to configure.
      */
     public static final String SEGMENT_ROUTER = "Router_SR";

     public static final String PKT_LINK = "pktLink";

     NetworkConfig networkConfig;
     private ConcurrentMap<DeviceId, SwitchConfig> configuredSwitches;
     private ConcurrentMap<Link, LinkConfig> configuredLinks;
     private Map<String, DeviceId> nameToDpid;

     @Override
     public SwitchConfigStatus checkSwitchConfig(DeviceId dpid) {
         SwitchConfig swc = configuredSwitches.get(dpid);
         if (networkConfig.getRestrictSwitches()) {
             // default deny behavior
             if (swc == null) {
                 // switch is not configured - we deny this switch
                 return new SwitchConfigStatus(NetworkConfigState.DENY, null,
                         "Switch not configured, in network denying switches by default.");
             }
             if (swc.isAllowed()) {
                 // switch is allowed in config, return configured attributes
                 return new SwitchConfigStatus(NetworkConfigState.ACCEPT_ADD, swc);
             } else {
                 // switch has been configured off (administratively down)
                 return new SwitchConfigStatus(NetworkConfigState.DENY, null,
                         "Switch configured down (allowed=false).");
             }
         } else {
             // default allow behavior
             if (swc == null) {
                 // no config to add
                 return new SwitchConfigStatus(NetworkConfigState.ACCEPT, null);
             }
             if (swc.isAllowed()) {
                 // switch is allowed in config, return configured attributes
                 return new SwitchConfigStatus(NetworkConfigState.ACCEPT_ADD, swc);
             } else {
                 // switch has been configured off (administratively down)
                 return new SwitchConfigStatus(NetworkConfigState.DENY, null,
                         "Switch configured down (allowed=false).");
             }
         }

     }

     @Override
     public LinkConfigStatus checkLinkConfig(Link linkTuple) {
         LinkConfig lkc = getConfiguredLink(linkTuple);
         // links are always disallowed if any one of the nodes that make up the
         // link are disallowed
         DeviceId linkNode1 = linkTuple.src().deviceId();
         SwitchConfigStatus scs1 = checkSwitchConfig(linkNode1);
         if (scs1.getConfigState() == NetworkConfigState.DENY) {
             return new LinkConfigStatus(NetworkConfigState.DENY, null,
                     "Link-node: " + linkNode1 + " denied by config: " + scs1.getMsg());
         }
         DeviceId linkNode2 = linkTuple.dst().deviceId();
         SwitchConfigStatus scs2 = checkSwitchConfig(linkNode2);
         if (scs2.getConfigState() == NetworkConfigState.DENY) {
             return new LinkConfigStatus(NetworkConfigState.DENY, null,
                     "Link-node: " + linkNode2 + " denied by config: " + scs2.getMsg());
         }
         if (networkConfig.getRestrictLinks()) {
             // default deny behavior
             if (lkc == null) {
                 // link is not configured - we deny this link
                 return new LinkConfigStatus(NetworkConfigState.DENY, null,
                         "Link not configured, in network denying links by default.");
             }
             if (lkc.isAllowed()) {
                 // link is allowed in config, return configured attributes
                 return new LinkConfigStatus(NetworkConfigState.ACCEPT_ADD, lkc);
             } else {
                 // link has been configured off (administratively down)
                 return new LinkConfigStatus(NetworkConfigState.DENY, null,
                         "Link configured down (allowed=false).");
             }
         } else {
             // default allow behavior
             if (lkc == null) {
                 // no config to add
                 return new LinkConfigStatus(NetworkConfigState.ACCEPT, null);
             }
             if (lkc.isAllowed()) {
                 // link is allowed in config, return configured attributes
                 return new LinkConfigStatus(NetworkConfigState.ACCEPT_ADD, lkc);
             } else {
                 // link has been configured off (administratively down)
                 return new LinkConfigStatus(NetworkConfigState.DENY, null,
                         "Link configured down (allowed=false).");
             }
         }

     }

     @Override
     public List<SwitchConfig> getConfiguredAllowedSwitches() {
         List<SwitchConfig> allowed = new ArrayList<SwitchConfig>();
         for (SwitchConfig swc : configuredSwitches.values()) {
             if (swc.isAllowed()) {
                 allowed.add(swc);
             }
         }
         return allowed;
     }

     @Override
     public List<LinkConfig> getConfiguredAllowedLinks() {
         List<LinkConfig> allowed = new ArrayList<LinkConfig>();
         for (LinkConfig lkc : configuredLinks.values()) {
             if (lkc.isAllowed()) {
                 allowed.add(lkc);
             }
         }
         return allowed;
     }

     @Override
     public DeviceId getDpidForName(String name) {
         if (nameToDpid.get(name) != null) {
             return nameToDpid.get(name);
         }
         return null;
     }

     // **************
     // Private methods
     // **************

     private void loadNetworkConfig() {
         File configFile = new File(CONFIG_DIR, configFileName);
         ObjectMapper mapper = new ObjectMapper();
         networkConfig = new NetworkConfig();

         try {
             networkConfig = mapper.readValue(configFile,
                                              NetworkConfig.class);
         } catch (JsonParseException e) {
             String err = String.format("JsonParseException while loading network "
                     + "config from file: %s: %s", configFileName,
                     e.getMessage());
             throw new NetworkConfigException.ErrorConfig(err);
         } catch (JsonMappingException e) {
             String err = String.format(
                     "JsonMappingException while loading network config "
                             + "from file: %s: %s",
                             configFileName,
                             e.getMessage());
             throw new NetworkConfigException.ErrorConfig(err);
         } catch (IOException e) {
             String err = String.format("IOException while loading network config "
                     + "from file: %s %s", configFileName, e.getMessage());
             throw new NetworkConfigException.ErrorConfig(err);
         }

         log.info("Network config specifies: {} switches and {} links",
                 (networkConfig.getRestrictSwitches())
                         ? networkConfig.getSwitchConfig().size() : "default allow",
                         (networkConfig.getRestrictLinks())
                         ? networkConfig.getLinkConfig().size() : "default allow");
     }

     private void parseNetworkConfig() {
         List<SwitchConfig> swConfList = networkConfig.getSwitchConfig();
         List<LinkConfig> lkConfList = networkConfig.getLinkConfig();
         validateSwitchConfig(swConfList);
         createTypeSpecificSwitchConfig(swConfList);
         validateLinkConfig(lkConfList);
         createTypeSpecificLinkConfig(lkConfList);
         // TODO validate reachability matrix 'names' for configured dpids
     }

     private void createTypeSpecificSwitchConfig(List<SwitchConfig> swConfList) {
         for (SwitchConfig swc : swConfList) {
             nameToDpid.put(swc.getName(), swc.getDpid());
             String swtype = swc.getType();
             switch (swtype) {
             case SEGMENT_ROUTER:
                 SwitchConfig sr = new SegmentRouterConfig(swc);
                 configuredSwitches.put(sr.getDpid(), sr);
                 break;
             default:
                 throw new NetworkConfigException.UnknownSwitchType(swtype,
                         swc.getName());
             }
         }
     }

     private void createTypeSpecificLinkConfig(List<LinkConfig> lkConfList) {
         for (LinkConfig lkc : lkConfList) {
             String lktype = lkc.getType();
             switch (lktype) {
             case PKT_LINK:
                 PktLinkConfig pk = new PktLinkConfig(lkc);
                 for (Link lt : pk.getLinkTupleList()) {
                     configuredLinks.put(lt, pk);
                 }
                 break;
             default:
                 throw new NetworkConfigException.UnknownLinkType(lktype,
                         lkc.getNodeDpid1(), lkc.getNodeDpid2());
             }
         }
     }

     private void validateSwitchConfig(List<SwitchConfig> swConfList) {
         Set<DeviceId> swDpids = new HashSet<DeviceId>();
         Set<String> swNames = new HashSet<String>();
         for (SwitchConfig swc : swConfList) {
             if (swc.getNodeDpid() == null || swc.getDpid() == null) {
                 throw new NetworkConfigException.DpidNotSpecified(swc.getName());
             }
             // ensure both String and DeviceId values of dpid are set
             if (!swc.getDpid().equals(DeviceId.deviceId(swc.getNodeDpid()))) {
                 throw new NetworkConfigException.SwitchDpidNotConverted(
                         swc.getName());
             }
             if (swc.getName() == null) {
                 throw new NetworkConfigException.NameNotSpecified(swc.getDpid());
             }
             if (swc.getType() == null) {
                 throw new NetworkConfigException.SwitchTypeNotSpecified(
                         swc.getDpid());
             }
             if (!swDpids.add(swc.getDpid())) {
                 throw new NetworkConfigException.DuplicateDpid(swc.getDpid());
             }
             if (!swNames.add(swc.getName())) {
                 throw new NetworkConfigException.DuplicateName(swc.getName());
             }
             // TODO Add more validations
         }
     }

     private void validateLinkConfig(List<LinkConfig> lkConfList) {
         for (LinkConfig lkc : lkConfList) {
             if (lkc.getNodeDpid1() == null || lkc.getNodeDpid2() == null) {
                 throw new NetworkConfigException.LinkDpidNotSpecified(
                         lkc.getNodeDpid1(), lkc.getNodeDpid2());
             }
             // ensure both String and Long values are set
             if (!lkc.getDpid1().equals(DeviceId.deviceId(lkc.getNodeDpid1())) ||
                     !lkc.getDpid2().equals(DeviceId.deviceId(lkc.getNodeDpid2()))) {
                 throw new NetworkConfigException.LinkDpidNotConverted(
                         lkc.getNodeDpid1(), lkc.getNodeDpid2());
             }
             if (lkc.getType() == null) {
                 throw new NetworkConfigException.LinkTypeNotSpecified(
                         lkc.getNodeDpid1(), lkc.getNodeDpid2());
             }
             if (configuredSwitches.get(lkc.getDpid1()) == null) {
                 throw new NetworkConfigException.LinkForUnknownSwitchConfig(
                         lkc.getNodeDpid1());
             }
             if (configuredSwitches.get(lkc.getDpid2()) == null) {
                 throw new NetworkConfigException.LinkForUnknownSwitchConfig(
                         lkc.getNodeDpid2());
             }
             // TODO add more validations
         }

     }

     private LinkConfig getConfiguredLink(Link linkTuple) {
         LinkConfig lkc = null;
         // first try the unidirectional link with the ports assigned
         lkc = configuredLinks.get(linkTuple);
         return lkc;
     }


     /**
      * Initializes the network configuration manager module by
      * loading and parsing the network configuration file.
      */
     public void init() {
         loadNetworkConfig();
         configuredSwitches = new ConcurrentHashMap<DeviceId, SwitchConfig>();
         configuredLinks = new ConcurrentHashMap<Link, LinkConfig>();
         nameToDpid = new HashMap<String, DeviceId>();
         parseNetworkConfig();
     }
 }
	package org.onosproject.segmentrouting.config;

	import java.io.File;
	import java.io.IOException;
	import java.util.ArrayList;
	import java.util.HashMap;
	import java.util.HashSet;
	import java.util.List;
	import java.util.Map;
	import java.util.Set;
	import java.util.concurrent.ConcurrentHashMap;
	import java.util.concurrent.ConcurrentMap;

	import org.onosproject.net.DeviceId;
	import org.onosproject.net.Link;
	import org.onosproject.segmentrouting.config.NetworkConfig.LinkConfig;
	import org.onosproject.segmentrouting.config.NetworkConfig.SwitchConfig;
	import org.slf4j.Logger;
	import org.slf4j.LoggerFactory;

	import com.fasterxml.jackson.core.JsonParseException;
	import com.fasterxml.jackson.databind.JsonMappingException;
	import com.fasterxml.jackson.databind.ObjectMapper;

	/**
	* NetworkConfigManager manages all network configuration for switches, links
	* and any other state that needs to be configured for correct network
	* operation.
	*
	*/
	public class NetworkConfigManager implements NetworkConfigService {
	protected static final Logger log = LoggerFactory
	.getLogger(NetworkConfigManager.class);
	private static final String CONFIG_DIR = "../config";
	private static final String DEFAULT_CONFIG_FILE = "segmentrouting.conf";
	private final String configFileName = DEFAULT_CONFIG_FILE;
	/**
	* JSON Config file needs to use one of the following types for defining the
	* kind of switch or link it wishes to configure.
	*/
	public static final String SEGMENT_ROUTER = "Router_SR";

	public static final String PKT_LINK = "pktLink";

	NetworkConfig networkConfig;
	private ConcurrentMap<DeviceId, SwitchConfig> configuredSwitches;
	private ConcurrentMap<Link, LinkConfig> configuredLinks;
	private Map<String, DeviceId> nameToDpid;

	@Override
	public SwitchConfigStatus checkSwitchConfig(DeviceId dpid) {
	SwitchConfig swc = configuredSwitches.get(dpid);
	if (networkConfig.getRestrictSwitches()) {
	// default deny behavior
	if (swc == null) {
	// switch is not configured - we deny this switch
	return new SwitchConfigStatus(NetworkConfigState.DENY, null,
	"Switch not configured, in network denying switches by default.");
	}
	if (swc.isAllowed()) {
	// switch is allowed in config, return configured attributes
	return new SwitchConfigStatus(NetworkConfigState.ACCEPT_ADD, swc);
	} else {
	// switch has been configured off (administratively down)
	return new SwitchConfigStatus(NetworkConfigState.DENY, null,
	"Switch configured down (allowed=false).");
	}
	} else {
	// default allow behavior
	if (swc == null) {
	// no config to add
	return new SwitchConfigStatus(NetworkConfigState.ACCEPT, null);
	}
	if (swc.isAllowed()) {
	// switch is allowed in config, return configured attributes
	return new SwitchConfigStatus(NetworkConfigState.ACCEPT_ADD, swc);
	} else {
	// switch has been configured off (administratively down)
	return new SwitchConfigStatus(NetworkConfigState.DENY, null,
	"Switch configured down (allowed=false).");
	}
	}

	}

	@Override
	public LinkConfigStatus checkLinkConfig(Link linkTuple) {
	LinkConfig lkc = getConfiguredLink(linkTuple);
	// links are always disallowed if any one of the nodes that make up the
	// link are disallowed
	DeviceId linkNode1 = linkTuple.src().deviceId();
	SwitchConfigStatus scs1 = checkSwitchConfig(linkNode1);
	if (scs1.getConfigState() == NetworkConfigState.DENY) {
	return new LinkConfigStatus(NetworkConfigState.DENY, null,
	"Link-node: " + linkNode1 + " denied by config: " + scs1.getMsg());
	}
	DeviceId linkNode2 = linkTuple.dst().deviceId();
	SwitchConfigStatus scs2 = checkSwitchConfig(linkNode2);
	if (scs2.getConfigState() == NetworkConfigState.DENY) {
	return new LinkConfigStatus(NetworkConfigState.DENY, null,
	"Link-node: " + linkNode2 + " denied by config: " + scs2.getMsg());
	}
	if (networkConfig.getRestrictLinks()) {
	// default deny behavior
	if (lkc == null) {
	// link is not configured - we deny this link
	return new LinkConfigStatus(NetworkConfigState.DENY, null,
	"Link not configured, in network denying links by default.");
	}
	if (lkc.isAllowed()) {
	// link is allowed in config, return configured attributes
	return new LinkConfigStatus(NetworkConfigState.ACCEPT_ADD, lkc);
	} else {
	// link has been configured off (administratively down)
	return new LinkConfigStatus(NetworkConfigState.DENY, null,
	"Link configured down (allowed=false).");
	}
	} else {
	// default allow behavior
	if (lkc == null) {
	// no config to add
	return new LinkConfigStatus(NetworkConfigState.ACCEPT, null);
	}
	if (lkc.isAllowed()) {
	// link is allowed in config, return configured attributes
	return new LinkConfigStatus(NetworkConfigState.ACCEPT_ADD, lkc);
	} else {
	// link has been configured off (administratively down)
	return new LinkConfigStatus(NetworkConfigState.DENY, null,
	"Link configured down (allowed=false).");
	}
	}

	}

	@Override
	public List<SwitchConfig> getConfiguredAllowedSwitches() {
	List<SwitchConfig> allowed = new ArrayList<SwitchConfig>();
	for (SwitchConfig swc : configuredSwitches.values()) {
	if (swc.isAllowed()) {
	allowed.add(swc);
	}
	}
	return allowed;
	}

	@Override
	public List<LinkConfig> getConfiguredAllowedLinks() {
	List<LinkConfig> allowed = new ArrayList<LinkConfig>();
	for (LinkConfig lkc : configuredLinks.values()) {
	if (lkc.isAllowed()) {
	allowed.add(lkc);
	}
	}
	return allowed;
	}

	@Override
	public DeviceId getDpidForName(String name) {
	if (nameToDpid.get(name) != null) {
	return nameToDpid.get(name);
	}
	return null;
	}

	// **************
	// Private methods
	// **************

	private void loadNetworkConfig() {
	File configFile = new File(CONFIG_DIR, configFileName);
	ObjectMapper mapper = new ObjectMapper();
	networkConfig = new NetworkConfig();

	try {
	networkConfig = mapper.readValue(configFile,
	NetworkConfig.class);
	} catch (JsonParseException e) {
	String err = String.format("JsonParseException while loading network "
	+ "config from file: %s: %s", configFileName,
	e.getMessage());
	throw new NetworkConfigException.ErrorConfig(err);
	} catch (JsonMappingException e) {
	String err = String.format(
	"JsonMappingException while loading network config "
	+ "from file: %s: %s",
	configFileName,
	e.getMessage());
	throw new NetworkConfigException.ErrorConfig(err);
	} catch (IOException e) {
	String err = String.format("IOException while loading network config "
	+ "from file: %s %s", configFileName, e.getMessage());
	throw new NetworkConfigException.ErrorConfig(err);
	}

	log.info("Network config specifies: {} switches and {} links",
	(networkConfig.getRestrictSwitches())
	? networkConfig.getSwitchConfig().size() : "default allow",
	(networkConfig.getRestrictLinks())
	? networkConfig.getLinkConfig().size() : "default allow");
	}

	private void parseNetworkConfig() {
	List<SwitchConfig> swConfList = networkConfig.getSwitchConfig();
	List<LinkConfig> lkConfList = networkConfig.getLinkConfig();
	validateSwitchConfig(swConfList);
	createTypeSpecificSwitchConfig(swConfList);
	validateLinkConfig(lkConfList);
	createTypeSpecificLinkConfig(lkConfList);
	// TODO validate reachability matrix 'names' for configured dpids
	}

	private void createTypeSpecificSwitchConfig(List<SwitchConfig> swConfList) {
	for (SwitchConfig swc : swConfList) {
	nameToDpid.put(swc.getName(), swc.getDpid());
	String swtype = swc.getType();
	switch (swtype) {
	case SEGMENT_ROUTER:
	SwitchConfig sr = new SegmentRouterConfig(swc);
	configuredSwitches.put(sr.getDpid(), sr);
	break;
	default:
	throw new NetworkConfigException.UnknownSwitchType(swtype,
	swc.getName());
	}
	}
	}

	private void createTypeSpecificLinkConfig(List<LinkConfig> lkConfList) {
	for (LinkConfig lkc : lkConfList) {
	String lktype = lkc.getType();
	switch (lktype) {
	case PKT_LINK:
	PktLinkConfig pk = new PktLinkConfig(lkc);
	for (Link lt : pk.getLinkTupleList()) {
	configuredLinks.put(lt, pk);
	}
	break;
	default:
	throw new NetworkConfigException.UnknownLinkType(lktype,
	lkc.getNodeDpid1(), lkc.getNodeDpid2());
	}
	}
	}

	private void validateSwitchConfig(List<SwitchConfig> swConfList) {
	Set<DeviceId> swDpids = new HashSet<DeviceId>();
	Set<String> swNames = new HashSet<String>();
	for (SwitchConfig swc : swConfList) {
	if (swc.getNodeDpid() == null \|\| swc.getDpid() == null) {
	throw new NetworkConfigException.DpidNotSpecified(swc.getName());
	}
	// ensure both String and DeviceId values of dpid are set
	if (!swc.getDpid().equals(DeviceId.deviceId(swc.getNodeDpid()))) {
	throw new NetworkConfigException.SwitchDpidNotConverted(
	swc.getName());
	}
	if (swc.getName() == null) {
	throw new NetworkConfigException.NameNotSpecified(swc.getDpid());
	}
	if (swc.getType() == null) {
	throw new NetworkConfigException.SwitchTypeNotSpecified(
	swc.getDpid());
	}
	if (!swDpids.add(swc.getDpid())) {
	throw new NetworkConfigException.DuplicateDpid(swc.getDpid());
	}
	if (!swNames.add(swc.getName())) {
	throw new NetworkConfigException.DuplicateName(swc.getName());
	}
	// TODO Add more validations
	}
	}

	private void validateLinkConfig(List<LinkConfig> lkConfList) {
	for (LinkConfig lkc : lkConfList) {
	if (lkc.getNodeDpid1() == null \|\| lkc.getNodeDpid2() == null) {
	throw new NetworkConfigException.LinkDpidNotSpecified(
	lkc.getNodeDpid1(), lkc.getNodeDpid2());
	}
	// ensure both String and Long values are set
	if (!lkc.getDpid1().equals(DeviceId.deviceId(lkc.getNodeDpid1())) \|\|
	!lkc.getDpid2().equals(DeviceId.deviceId(lkc.getNodeDpid2()))) {
	throw new NetworkConfigException.LinkDpidNotConverted(
	lkc.getNodeDpid1(), lkc.getNodeDpid2());
	}
	if (lkc.getType() == null) {
	throw new NetworkConfigException.LinkTypeNotSpecified(
	lkc.getNodeDpid1(), lkc.getNodeDpid2());
	}
	if (configuredSwitches.get(lkc.getDpid1()) == null) {
	throw new NetworkConfigException.LinkForUnknownSwitchConfig(
	lkc.getNodeDpid1());
	}
	if (configuredSwitches.get(lkc.getDpid2()) == null) {
	throw new NetworkConfigException.LinkForUnknownSwitchConfig(
	lkc.getNodeDpid2());
	}
	// TODO add more validations
	}

	}

	private LinkConfig getConfiguredLink(Link linkTuple) {
	LinkConfig lkc = null;
	// first try the unidirectional link with the ports assigned
	lkc = configuredLinks.get(linkTuple);
	return lkc;
	}


	/**
	* Initializes the network configuration manager module by
	* loading and parsing the network configuration file.
	*/
	public void init() {
	loadNetworkConfig();
	configuredSwitches = new ConcurrentHashMap<DeviceId, SwitchConfig>();
	configuredLinks = new ConcurrentHashMap<Link, LinkConfig>();
	nameToDpid = new HashMap<String, DeviceId>();
	parseNetworkConfig();
	}
	}