Example 1 with MultipathEquivalentAsPathMatchMode
use of org.batfish.datamodel.MultipathEquivalentAsPathMatchMode in project batfish by batfish.
the class JuniperConfiguration method createBgpProcess.
private BgpProcess createBgpProcess(RoutingInstance routingInstance) {
initDefaultBgpExportPolicy();
initDefaultBgpImportPolicy();
String vrfName = routingInstance.getName();
Vrf vrf = _c.getVrfs().get(vrfName);
BgpProcess proc = new BgpProcess();
Ip routerId = routingInstance.getRouterId();
if (routerId == null) {
routerId = _defaultRoutingInstance.getRouterId();
if (routerId == null) {
routerId = Ip.ZERO;
}
}
proc.setRouterId(routerId);
BgpGroup mg = routingInstance.getMasterBgpGroup();
boolean multipathEbgp = false;
boolean multipathIbgp = false;
boolean multipathMultipleAs = false;
boolean multipathEbgpSet = false;
boolean multipathIbgpSet = false;
boolean multipathMultipleAsSet = false;
if (mg.getLocalAs() == null) {
Integer routingInstanceAs = routingInstance.getAs();
if (routingInstanceAs == null) {
routingInstanceAs = _defaultRoutingInstance.getAs();
}
if (routingInstanceAs == null) {
_w.redFlag("BGP BROKEN FOR THIS ROUTER: Cannot determine local autonomous system");
} else {
mg.setLocalAs(routingInstanceAs);
}
}
// Set default authentication algorithm if missing
if (mg.getAuthenticationAlgorithm() == null) {
mg.setAuthenticationAlgorithm(DEFAULT_BGP_AUTHENTICATION_ALGORITHM);
}
for (IpBgpGroup ig : routingInstance.getIpBgpGroups().values()) {
ig.cascadeInheritance();
}
_unreferencedBgpGroups = new TreeMap<>();
int fakeIpCounter = 0;
for (Entry<String, NamedBgpGroup> e : routingInstance.getNamedBgpGroups().entrySet()) {
fakeIpCounter++;
String name = e.getKey();
NamedBgpGroup group = e.getValue();
if (!group.getIpv6() && !group.getInherited()) {
_unreferencedBgpGroups.put(name, group.getDefinitionLine());
Ip fakeIp = new Ip(-1 * fakeIpCounter);
IpBgpGroup dummy = new IpBgpGroup(fakeIp);
dummy.setParent(group);
dummy.cascadeInheritance();
routingInstance.getIpBgpGroups().put(fakeIp, dummy);
}
}
for (Entry<Ip, IpBgpGroup> e : routingInstance.getIpBgpGroups().entrySet()) {
Ip ip = e.getKey();
IpBgpGroup ig = e.getValue();
BgpNeighbor neighbor = new BgpNeighbor(ip, _c);
neighbor.setVrf(vrfName);
// route reflection
Ip declaredClusterId = ig.getClusterId();
if (declaredClusterId != null) {
neighbor.setRouteReflectorClient(true);
neighbor.setClusterId(declaredClusterId.asLong());
} else {
neighbor.setClusterId(routerId.asLong());
}
// multipath multiple-as
boolean currentGroupMultipathMultipleAs = ig.getMultipathMultipleAs();
if (multipathMultipleAsSet && currentGroupMultipathMultipleAs != multipathMultipleAs) {
_w.redFlag("Currently do not support mixed multipath-multiple-as/non-multipath-multiple-as bgp" + "groups on Juniper - FORCING NON-MULTIPATH-MULTIPLE-AS");
multipathMultipleAs = false;
} else {
multipathMultipleAs = currentGroupMultipathMultipleAs;
multipathMultipleAsSet = true;
}
String authenticationKeyChainName = ig.getAuthenticationKeyChainName();
if (ig.getAuthenticationKeyChainName() != null) {
if (!_c.getAuthenticationKeyChains().containsKey(authenticationKeyChainName)) {
authenticationKeyChainName = null;
} else if (ig.getAuthenticationKey() != null) {
_w.redFlag("Both authentication-key and authentication-key-chain specified for neighbor " + ig.getRemoteAddress());
}
}
BgpAuthenticationSettings bgpAuthenticationSettings = new BgpAuthenticationSettings();
bgpAuthenticationSettings.setAuthenticationAlgorithm(ig.getAuthenticationAlgorithm());
bgpAuthenticationSettings.setAuthenticationKey(ig.getAuthenticationKey());
bgpAuthenticationSettings.setAuthenticationKeyChainName(authenticationKeyChainName);
neighbor.setAuthenticationSettings(bgpAuthenticationSettings);
Boolean ebgpMultihop = ig.getEbgpMultihop();
if (ebgpMultihop == null) {
ebgpMultihop = false;
}
neighbor.setEbgpMultihop(ebgpMultihop);
Integer loops = ig.getLoops();
boolean allowLocalAsIn = loops != null && loops > 0;
neighbor.setAllowLocalAsIn(allowLocalAsIn);
Boolean advertisePeerAs = ig.getAdvertisePeerAs();
if (advertisePeerAs == null) {
advertisePeerAs = false;
}
neighbor.setAllowRemoteAsOut(advertisePeerAs);
Boolean advertiseExternal = ig.getAdvertiseExternal();
if (advertiseExternal == null) {
advertiseExternal = false;
}
neighbor.setAdvertiseExternal(advertiseExternal);
Boolean advertiseInactive = ig.getAdvertiseInactive();
if (advertiseInactive == null) {
advertiseInactive = false;
}
neighbor.setAdvertiseInactive(advertiseInactive);
neighbor.setGroup(ig.getGroupName());
// import policies
String peerImportPolicyName = "~PEER_IMPORT_POLICY:" + ig.getRemoteAddress() + "~";
neighbor.setImportPolicy(peerImportPolicyName);
RoutingPolicy peerImportPolicy = new RoutingPolicy(peerImportPolicyName, _c);
_c.getRoutingPolicies().put(peerImportPolicyName, peerImportPolicy);
// default import policy is to accept
peerImportPolicy.getStatements().add(new SetDefaultPolicy(DEFAULT_BGP_IMPORT_POLICY_NAME));
peerImportPolicy.getStatements().add(Statements.SetDefaultActionAccept.toStaticStatement());
List<BooleanExpr> importPolicyCalls = new ArrayList<>();
ig.getImportPolicies().forEach((importPolicyName, importPolicyLine) -> {
PolicyStatement importPolicy = _policyStatements.get(importPolicyName);
if (importPolicy == null) {
undefined(JuniperStructureType.POLICY_STATEMENT, importPolicyName, JuniperStructureUsage.BGP_IMPORT_POLICY, importPolicyLine);
} else {
setPolicyStatementReferent(importPolicyName, ig.getImportPolicies(), "BGP import policy for neighbor: " + ig.getRemoteAddress());
CallExpr callPolicy = new CallExpr(importPolicyName);
importPolicyCalls.add(callPolicy);
}
});
If peerImportPolicyConditional = new If();
DisjunctionChain importPolicyChain = new DisjunctionChain(importPolicyCalls);
peerImportPolicyConditional.setGuard(importPolicyChain);
peerImportPolicy.getStatements().add(peerImportPolicyConditional);
peerImportPolicyConditional.getTrueStatements().add(Statements.ExitAccept.toStaticStatement());
peerImportPolicyConditional.getFalseStatements().add(Statements.ExitReject.toStaticStatement());
// export policies
String peerExportPolicyName = "~PEER_EXPORT_POLICY:" + ig.getRemoteAddress() + "~";
neighbor.setExportPolicy(peerExportPolicyName);
RoutingPolicy peerExportPolicy = new RoutingPolicy(peerExportPolicyName, _c);
_c.getRoutingPolicies().put(peerExportPolicyName, peerExportPolicy);
peerExportPolicy.getStatements().add(new SetDefaultPolicy(DEFAULT_BGP_EXPORT_POLICY_NAME));
/*
* For new BGP advertisements, i.e. those that are created from non-BGP
* routes, an origin code must be set. By default, Juniper sets the origin
* code to IGP.
*/
If setOriginForNonBgp = new If();
Disjunction isBgp = new Disjunction();
isBgp.getDisjuncts().add(new MatchProtocol(RoutingProtocol.BGP));
isBgp.getDisjuncts().add(new MatchProtocol(RoutingProtocol.IBGP));
setOriginForNonBgp.setGuard(isBgp);
setOriginForNonBgp.getFalseStatements().add(new SetOrigin(new LiteralOrigin(OriginType.IGP, null)));
peerExportPolicy.getStatements().add(setOriginForNonBgp);
List<BooleanExpr> exportPolicyCalls = new ArrayList<>();
ig.getExportPolicies().forEach((exportPolicyName, exportPolicyLine) -> {
PolicyStatement exportPolicy = _policyStatements.get(exportPolicyName);
if (exportPolicy == null) {
undefined(JuniperStructureType.POLICY_STATEMENT, exportPolicyName, JuniperStructureUsage.BGP_EXPORT_POLICY, exportPolicyLine);
} else {
setPolicyStatementReferent(exportPolicyName, ig.getExportPolicies(), "BGP export policy for neighbor: " + ig.getRemoteAddress());
CallExpr callPolicy = new CallExpr(exportPolicyName);
exportPolicyCalls.add(callPolicy);
}
});
If peerExportPolicyConditional = new If();
DisjunctionChain exportPolicyChain = new DisjunctionChain(exportPolicyCalls);
peerExportPolicyConditional.setGuard(exportPolicyChain);
peerExportPolicyConditional.getTrueStatements().add(Statements.ExitAccept.toStaticStatement());
peerExportPolicyConditional.getFalseStatements().add(Statements.ExitReject.toStaticStatement());
peerExportPolicy.getStatements().add(peerExportPolicyConditional);
// inherit local-as
neighbor.setLocalAs(ig.getLocalAs());
if (neighbor.getLocalAs() == null) {
_w.redFlag("Missing local-as for neighbor: " + ig.getRemoteAddress());
continue;
}
/*
* inherit peer-as, or use local-as if internal
*
* Also set multipath
*/
if (ig.getType() == BgpGroupType.INTERNAL) {
neighbor.setRemoteAs(ig.getLocalAs());
boolean currentGroupMultipathIbgp = ig.getMultipath();
if (multipathIbgpSet && currentGroupMultipathIbgp != multipathIbgp) {
_w.redFlag("Currently do not support mixed iBGP multipath/non-multipath bgp groups on Juniper " + "- FORCING NON-MULTIPATH IBGP");
multipathIbgp = false;
} else {
multipathIbgp = currentGroupMultipathIbgp;
multipathIbgpSet = true;
}
} else {
neighbor.setRemoteAs(ig.getPeerAs());
boolean currentGroupMultipathEbgp = ig.getMultipath();
if (multipathEbgpSet && currentGroupMultipathEbgp != multipathEbgp) {
_w.redFlag("Currently do not support mixed eBGP multipath/non-multipath bgp groups on Juniper " + "- FORCING NON-MULTIPATH EBGP");
multipathEbgp = false;
} else {
multipathEbgp = currentGroupMultipathEbgp;
multipathEbgpSet = true;
}
}
// TODO: implement better behavior than setting default metric to 0
neighbor.setDefaultMetric(0);
// TODO: find out if there is a juniper equivalent of cisco
// send-community
neighbor.setSendCommunity(true);
// inherit update-source
Ip localIp = ig.getLocalAddress();
if (localIp == null) {
// peer
outerloop: for (org.batfish.datamodel.Interface iface : vrf.getInterfaces().values()) {
for (InterfaceAddress address : iface.getAllAddresses()) {
if (address.getPrefix().containsIp(ip)) {
localIp = address.getIp();
break outerloop;
}
}
}
}
if (localIp == null && _defaultAddressSelection) {
initFirstLoopbackInterface();
if (_lo0 != null) {
InterfaceAddress lo0Unit0Address = _lo0.getPrimaryAddress();
if (lo0Unit0Address != null) {
localIp = lo0Unit0Address.getIp();
}
}
}
if (localIp == null && ip.valid()) {
_w.redFlag("Could not determine local ip for bgp peering with neighbor ip: " + ip);
} else {
neighbor.setLocalIp(localIp);
}
if (neighbor.getGroup() == null || !_unreferencedBgpGroups.containsKey(neighbor.getGroup())) {
proc.getNeighbors().put(neighbor.getPrefix(), neighbor);
}
}
proc.setMultipathEbgp(multipathEbgpSet);
proc.setMultipathIbgp(multipathIbgp);
MultipathEquivalentAsPathMatchMode multipathEquivalentAsPathMatchMode = multipathMultipleAs ? MultipathEquivalentAsPathMatchMode.PATH_LENGTH : MultipathEquivalentAsPathMatchMode.FIRST_AS;
proc.setMultipathEquivalentAsPathMatchMode(multipathEquivalentAsPathMatchMode);
return proc;
}
Also used :
BgpProcess(org.batfish.datamodel.BgpProcess)
LiteralOrigin(org.batfish.datamodel.routing_policy.expr.LiteralOrigin)
Ip(org.batfish.datamodel.Ip)
ArrayList(java.util.ArrayList)
Vrf(org.batfish.datamodel.Vrf)
MultipathEquivalentAsPathMatchMode(org.batfish.datamodel.MultipathEquivalentAsPathMatchMode)
BgpNeighbor(org.batfish.datamodel.BgpNeighbor)
CallExpr(org.batfish.datamodel.routing_policy.expr.CallExpr)
DisjunctionChain(org.batfish.datamodel.routing_policy.expr.DisjunctionChain)
BooleanExpr(org.batfish.datamodel.routing_policy.expr.BooleanExpr)
BgpAuthenticationSettings(org.batfish.datamodel.BgpAuthenticationSettings)
InterfaceAddress(org.batfish.datamodel.InterfaceAddress)
SetOrigin(org.batfish.datamodel.routing_policy.statement.SetOrigin)
RoutingPolicy(org.batfish.datamodel.routing_policy.RoutingPolicy)
SetDefaultPolicy(org.batfish.datamodel.routing_policy.statement.SetDefaultPolicy)
MatchProtocol(org.batfish.datamodel.routing_policy.expr.MatchProtocol)
Disjunction(org.batfish.datamodel.routing_policy.expr.Disjunction)
If(org.batfish.datamodel.routing_policy.statement.If)
Example 2 with MultipathEquivalentAsPathMatchMode
use of org.batfish.datamodel.MultipathEquivalentAsPathMatchMode in project batfish by batfish.
the class CiscoGrammarTest method testBgpMultipathRelax.
@Test
public void testBgpMultipathRelax() throws IOException {
String testrigName = "bgp-multipath-relax";
List<String> configurationNames = ImmutableList.of("arista_disabled", "arista_enabled", "nxos_disabled", "nxos_enabled");
Batfish batfish = BatfishTestUtils.getBatfishFromTestrigText(TestrigText.builder().setConfigurationText(TESTRIGS_PREFIX + testrigName, configurationNames).build(), _folder);
Map<String, Configuration> configurations = batfish.loadConfigurations();
Map<Ip, Set<String>> ipOwners = CommonUtil.computeIpOwners(configurations, true);
CommonUtil.initRemoteBgpNeighbors(configurations, ipOwners);
MultipathEquivalentAsPathMatchMode aristaDisabled = configurations.get("arista_disabled").getDefaultVrf().getBgpProcess().getMultipathEquivalentAsPathMatchMode();
MultipathEquivalentAsPathMatchMode aristaEnabled = configurations.get("arista_enabled").getDefaultVrf().getBgpProcess().getMultipathEquivalentAsPathMatchMode();
MultipathEquivalentAsPathMatchMode nxosDisabled = configurations.get("nxos_disabled").getDefaultVrf().getBgpProcess().getMultipathEquivalentAsPathMatchMode();
MultipathEquivalentAsPathMatchMode nxosEnabled = configurations.get("nxos_enabled").getDefaultVrf().getBgpProcess().getMultipathEquivalentAsPathMatchMode();
assertThat(aristaDisabled, equalTo(MultipathEquivalentAsPathMatchMode.EXACT_PATH));
assertThat(aristaEnabled, equalTo(MultipathEquivalentAsPathMatchMode.PATH_LENGTH));
assertThat(nxosDisabled, equalTo(MultipathEquivalentAsPathMatchMode.EXACT_PATH));
assertThat(nxosEnabled, equalTo(MultipathEquivalentAsPathMatchMode.PATH_LENGTH));
}
Also used :
SortedSet(java.util.SortedSet)
Set(java.util.Set)
Configuration(org.batfish.datamodel.Configuration)
Ip(org.batfish.datamodel.Ip)
Batfish(org.batfish.main.Batfish)
MultipathEquivalentAsPathMatchMode(org.batfish.datamodel.MultipathEquivalentAsPathMatchMode)
Test(org.junit.Test)
Example 3 with MultipathEquivalentAsPathMatchMode
use of org.batfish.datamodel.MultipathEquivalentAsPathMatchMode in project batfish by batfish.
the class CiscoConfiguration method toBgpProcess.
private org.batfish.datamodel.BgpProcess toBgpProcess(final Configuration c, BgpProcess proc, String vrfName) {
org.batfish.datamodel.BgpProcess newBgpProcess = new org.batfish.datamodel.BgpProcess();
org.batfish.datamodel.Vrf v = c.getVrfs().get(vrfName);
BgpTieBreaker tieBreaker = proc.getTieBreaker();
if (tieBreaker != null) {
newBgpProcess.setTieBreaker(tieBreaker);
}
MultipathEquivalentAsPathMatchMode multipathEquivalentAsPathMatchMode = proc.getAsPathMultipathRelax() ? MultipathEquivalentAsPathMatchMode.PATH_LENGTH : MultipathEquivalentAsPathMatchMode.EXACT_PATH;
newBgpProcess.setMultipathEquivalentAsPathMatchMode(multipathEquivalentAsPathMatchMode);
Integer maximumPaths = proc.getMaximumPaths();
Integer maximumPathsEbgp = proc.getMaximumPathsEbgp();
Integer maximumPathsIbgp = proc.getMaximumPathsIbgp();
boolean multipathEbgp = false;
boolean multipathIbgp = false;
if (maximumPaths != null && maximumPaths > 1) {
multipathEbgp = true;
multipathIbgp = true;
}
if (maximumPathsEbgp != null && maximumPathsEbgp > 1) {
multipathEbgp = true;
}
if (maximumPathsIbgp != null && maximumPathsIbgp > 1) {
multipathIbgp = true;
}
newBgpProcess.setMultipathEbgp(multipathEbgp);
newBgpProcess.setMultipathIbgp(multipathIbgp);
Map<Prefix, BgpNeighbor> newBgpNeighbors = newBgpProcess.getNeighbors();
int defaultMetric = proc.getDefaultMetric();
Ip bgpRouterId = getBgpRouterId(c, vrfName, proc);
MatchPrefixSet matchDefaultRoute = new MatchPrefixSet(new DestinationNetwork(), new ExplicitPrefixSet(new PrefixSpace(Collections.singleton(new PrefixRange(Prefix.ZERO, new SubRange(0, 0))))));
matchDefaultRoute.setComment("match default route");
MatchPrefix6Set matchDefaultRoute6 = new MatchPrefix6Set(new DestinationNetwork6(), new ExplicitPrefix6Set(new Prefix6Space(Collections.singleton(new Prefix6Range(Prefix6.ZERO, new SubRange(0, 0))))));
matchDefaultRoute.setComment("match default route");
newBgpProcess.setRouterId(bgpRouterId);
Set<BgpAggregateIpv4Network> summaryOnlyNetworks = new HashSet<>();
Set<BgpAggregateIpv6Network> summaryOnlyIpv6Networks = new HashSet<>();
List<BooleanExpr> attributeMapPrefilters = new ArrayList<>();
// add generated routes for aggregate ipv4 addresses
for (Entry<Prefix, BgpAggregateIpv4Network> e : proc.getAggregateNetworks().entrySet()) {
Prefix prefix = e.getKey();
BgpAggregateIpv4Network aggNet = e.getValue();
boolean summaryOnly = aggNet.getSummaryOnly();
int prefixLength = prefix.getPrefixLength();
SubRange prefixRange = new SubRange(prefixLength + 1, Prefix.MAX_PREFIX_LENGTH);
if (summaryOnly) {
summaryOnlyNetworks.add(aggNet);
}
// create generation policy for aggregate network
String generationPolicyName = "~AGGREGATE_ROUTE_GEN:" + vrfName + ":" + prefix + "~";
RoutingPolicy currentGeneratedRoutePolicy = new RoutingPolicy(generationPolicyName, c);
If currentGeneratedRouteConditional = new If();
currentGeneratedRoutePolicy.getStatements().add(currentGeneratedRouteConditional);
currentGeneratedRouteConditional.setGuard(new MatchPrefixSet(new DestinationNetwork(), new ExplicitPrefixSet(new PrefixSpace(Collections.singleton(new PrefixRange(prefix, prefixRange))))));
currentGeneratedRouteConditional.getTrueStatements().add(Statements.ReturnTrue.toStaticStatement());
c.getRoutingPolicies().put(generationPolicyName, currentGeneratedRoutePolicy);
GeneratedRoute.Builder gr = new GeneratedRoute.Builder();
gr.setNetwork(prefix);
gr.setAdmin(CISCO_AGGREGATE_ROUTE_ADMIN_COST);
gr.setGenerationPolicy(generationPolicyName);
gr.setDiscard(true);
// set attribute map for aggregate network
String attributeMapName = aggNet.getAttributeMap();
Conjunction applyCurrentAggregateAttributesConditions = new Conjunction();
applyCurrentAggregateAttributesConditions.getConjuncts().add(new MatchPrefixSet(new DestinationNetwork(), new ExplicitPrefixSet(new PrefixSpace(Collections.singleton(PrefixRange.fromPrefix(prefix))))));
applyCurrentAggregateAttributesConditions.getConjuncts().add(new MatchProtocol(RoutingProtocol.AGGREGATE));
BooleanExpr weInterior = BooleanExprs.True.toStaticBooleanExpr();
if (attributeMapName != null) {
int attributeMapLine = aggNet.getAttributeMapLine();
RouteMap attributeMap = _routeMaps.get(attributeMapName);
if (attributeMap != null) {
// need to apply attribute changes if this specific route is
// matched
weInterior = new CallExpr(attributeMapName);
attributeMap.getReferers().put(aggNet, "attribute-map of aggregate route: " + prefix);
gr.setAttributePolicy(attributeMapName);
} else {
undefined(CiscoStructureType.ROUTE_MAP, attributeMapName, CiscoStructureUsage.BGP_AGGREGATE_ATTRIBUTE_MAP, attributeMapLine);
}
}
v.getGeneratedRoutes().add(gr.build());
BooleanExpr we = bgpRedistributeWithEnvironmentExpr(weInterior, OriginType.IGP);
applyCurrentAggregateAttributesConditions.getConjuncts().add(we);
attributeMapPrefilters.add(applyCurrentAggregateAttributesConditions);
}
// TODO: merge with above to make cleaner
for (Entry<Prefix6, BgpAggregateIpv6Network> e : proc.getAggregateIpv6Networks().entrySet()) {
Prefix6 prefix6 = e.getKey();
BgpAggregateIpv6Network aggNet = e.getValue();
boolean summaryOnly = aggNet.getSummaryOnly();
int prefixLength = prefix6.getPrefixLength();
SubRange prefixRange = new SubRange(prefixLength + 1, Prefix.MAX_PREFIX_LENGTH);
if (summaryOnly) {
summaryOnlyIpv6Networks.add(aggNet);
}
// create generation policy for aggregate network
String generationPolicyName = "~AGGREGATE_ROUTE6_GEN:" + vrfName + ":" + prefix6 + "~";
RoutingPolicy currentGeneratedRoutePolicy = new RoutingPolicy(generationPolicyName, c);
If currentGeneratedRouteConditional = new If();
currentGeneratedRoutePolicy.getStatements().add(currentGeneratedRouteConditional);
currentGeneratedRouteConditional.setGuard(new MatchPrefix6Set(new DestinationNetwork6(), new ExplicitPrefix6Set(new Prefix6Space(Collections.singleton(new Prefix6Range(prefix6, prefixRange))))));
currentGeneratedRouteConditional.getTrueStatements().add(Statements.ReturnTrue.toStaticStatement());
c.getRoutingPolicies().put(generationPolicyName, currentGeneratedRoutePolicy);
GeneratedRoute6 gr = new GeneratedRoute6(prefix6, CISCO_AGGREGATE_ROUTE_ADMIN_COST);
gr.setGenerationPolicy(generationPolicyName);
gr.setDiscard(true);
v.getGeneratedIpv6Routes().add(gr);
// set attribute map for aggregate network
String attributeMapName = aggNet.getAttributeMap();
if (attributeMapName != null) {
int attributeMapLine = aggNet.getAttributeMapLine();
RouteMap attributeMap = _routeMaps.get(attributeMapName);
if (attributeMap != null) {
attributeMap.getReferers().put(aggNet, "attribute-map of aggregate ipv6 route: " + prefix6);
gr.setAttributePolicy(attributeMapName);
} else {
undefined(CiscoStructureType.ROUTE_MAP, attributeMapName, CiscoStructureUsage.BGP_AGGREGATE_ATTRIBUTE_MAP, attributeMapLine);
}
}
}
/*
* Create common bgp export policy. This policy encompasses network
* statements, aggregate-address with/without summary-only, redistribution
* from other protocols, and default-origination
*/
String bgpCommonExportPolicyName = "~BGP_COMMON_EXPORT_POLICY:" + vrfName + "~";
RoutingPolicy bgpCommonExportPolicy = new RoutingPolicy(bgpCommonExportPolicyName, c);
c.getRoutingPolicies().put(bgpCommonExportPolicyName, bgpCommonExportPolicy);
List<Statement> bgpCommonExportStatements = bgpCommonExportPolicy.getStatements();
// create policy for denying suppressed summary-only networks
if (summaryOnlyNetworks.size() > 0) {
If suppressSummaryOnly = new If();
bgpCommonExportStatements.add(suppressSummaryOnly);
suppressSummaryOnly.setComment("Suppress summarized of summary-only aggregate-address networks");
String matchSuppressedSummaryOnlyRoutesName = "~MATCH_SUPPRESSED_SUMMARY_ONLY:" + vrfName + "~";
RouteFilterList matchSuppressedSummaryOnlyRoutes = new RouteFilterList(matchSuppressedSummaryOnlyRoutesName);
c.getRouteFilterLists().put(matchSuppressedSummaryOnlyRoutesName, matchSuppressedSummaryOnlyRoutes);
for (BgpAggregateIpv4Network summaryOnlyNetwork : summaryOnlyNetworks) {
Prefix prefix = summaryOnlyNetwork.getPrefix();
int prefixLength = prefix.getPrefixLength();
RouteFilterLine line = new RouteFilterLine(LineAction.ACCEPT, prefix, new SubRange(prefixLength + 1, Prefix.MAX_PREFIX_LENGTH));
matchSuppressedSummaryOnlyRoutes.addLine(line);
}
suppressSummaryOnly.setGuard(new MatchPrefixSet(new DestinationNetwork(), new NamedPrefixSet(matchSuppressedSummaryOnlyRoutesName)));
suppressSummaryOnly.getTrueStatements().add(Statements.ReturnFalse.toStaticStatement());
}
If preFilter = new If();
bgpCommonExportStatements.add(preFilter);
bgpCommonExportStatements.add(Statements.ReturnFalse.toStaticStatement());
Disjunction preFilterConditions = new Disjunction();
preFilter.setGuard(preFilterConditions);
preFilter.getTrueStatements().add(Statements.ReturnTrue.toStaticStatement());
preFilterConditions.getDisjuncts().addAll(attributeMapPrefilters);
// create redistribution origination policies
// redistribute rip
BgpRedistributionPolicy redistributeRipPolicy = proc.getRedistributionPolicies().get(RoutingProtocol.RIP);
if (redistributeRipPolicy != null) {
BooleanExpr weInterior = BooleanExprs.True.toStaticBooleanExpr();
Conjunction exportRipConditions = new Conjunction();
exportRipConditions.setComment("Redistribute RIP routes into BGP");
exportRipConditions.getConjuncts().add(new MatchProtocol(RoutingProtocol.RIP));
String mapName = redistributeRipPolicy.getRouteMap();
if (mapName != null) {
int mapLine = redistributeRipPolicy.getRouteMapLine();
RouteMap redistributeRipRouteMap = _routeMaps.get(mapName);
if (redistributeRipRouteMap != null) {
redistributeRipRouteMap.getReferers().put(proc, "RIP redistribution route-map");
weInterior = new CallExpr(mapName);
} else {
undefined(CiscoStructureType.ROUTE_MAP, mapName, CiscoStructureUsage.BGP_REDISTRIBUTE_RIP_MAP, mapLine);
}
}
BooleanExpr we = bgpRedistributeWithEnvironmentExpr(weInterior, OriginType.INCOMPLETE);
exportRipConditions.getConjuncts().add(we);
preFilterConditions.getDisjuncts().add(exportRipConditions);
}
// redistribute static
BgpRedistributionPolicy redistributeStaticPolicy = proc.getRedistributionPolicies().get(RoutingProtocol.STATIC);
if (redistributeStaticPolicy != null) {
BooleanExpr weInterior = BooleanExprs.True.toStaticBooleanExpr();
Conjunction exportStaticConditions = new Conjunction();
exportStaticConditions.setComment("Redistribute static routes into BGP");
exportStaticConditions.getConjuncts().add(new MatchProtocol(RoutingProtocol.STATIC));
String mapName = redistributeStaticPolicy.getRouteMap();
if (mapName != null) {
int mapLine = redistributeStaticPolicy.getRouteMapLine();
RouteMap redistributeStaticRouteMap = _routeMaps.get(mapName);
if (redistributeStaticRouteMap != null) {
redistributeStaticRouteMap.getReferers().put(proc, "static redistribution route-map");
weInterior = new CallExpr(mapName);
} else {
undefined(CiscoStructureType.ROUTE_MAP, mapName, CiscoStructureUsage.BGP_REDISTRIBUTE_STATIC_MAP, mapLine);
}
}
BooleanExpr we = bgpRedistributeWithEnvironmentExpr(weInterior, OriginType.INCOMPLETE);
exportStaticConditions.getConjuncts().add(we);
preFilterConditions.getDisjuncts().add(exportStaticConditions);
}
// redistribute connected
BgpRedistributionPolicy redistributeConnectedPolicy = proc.getRedistributionPolicies().get(RoutingProtocol.CONNECTED);
if (redistributeConnectedPolicy != null) {
BooleanExpr weInterior = BooleanExprs.True.toStaticBooleanExpr();
Conjunction exportConnectedConditions = new Conjunction();
exportConnectedConditions.setComment("Redistribute connected routes into BGP");
exportConnectedConditions.getConjuncts().add(new MatchProtocol(RoutingProtocol.CONNECTED));
String mapName = redistributeConnectedPolicy.getRouteMap();
if (mapName != null) {
int mapLine = redistributeConnectedPolicy.getRouteMapLine();
RouteMap redistributeConnectedRouteMap = _routeMaps.get(mapName);
if (redistributeConnectedRouteMap != null) {
redistributeConnectedRouteMap.getReferers().put(proc, "connected redistribution route-map");
weInterior = new CallExpr(mapName);
} else {
undefined(CiscoStructureType.ROUTE_MAP, mapName, CiscoStructureUsage.BGP_REDISTRIBUTE_CONNECTED_MAP, mapLine);
}
}
BooleanExpr we = bgpRedistributeWithEnvironmentExpr(weInterior, OriginType.INCOMPLETE);
exportConnectedConditions.getConjuncts().add(we);
preFilterConditions.getDisjuncts().add(exportConnectedConditions);
}
// redistribute ospf
BgpRedistributionPolicy redistributeOspfPolicy = proc.getRedistributionPolicies().get(RoutingProtocol.OSPF);
if (redistributeOspfPolicy != null) {
BooleanExpr weInterior = BooleanExprs.True.toStaticBooleanExpr();
Conjunction exportOspfConditions = new Conjunction();
exportOspfConditions.setComment("Redistribute OSPF routes into BGP");
exportOspfConditions.getConjuncts().add(new MatchProtocol(RoutingProtocol.OSPF));
String mapName = redistributeOspfPolicy.getRouteMap();
if (mapName != null) {
int mapLine = redistributeOspfPolicy.getRouteMapLine();
RouteMap redistributeOspfRouteMap = _routeMaps.get(mapName);
if (redistributeOspfRouteMap != null) {
redistributeOspfRouteMap.getReferers().put(proc, "ospf redistribution route-map");
weInterior = new CallExpr(mapName);
} else {
undefined(CiscoStructureType.ROUTE_MAP, mapName, CiscoStructureUsage.BGP_REDISTRIBUTE_OSPF_MAP, mapLine);
}
}
BooleanExpr we = bgpRedistributeWithEnvironmentExpr(weInterior, OriginType.INCOMPLETE);
exportOspfConditions.getConjuncts().add(we);
preFilterConditions.getDisjuncts().add(exportOspfConditions);
}
// cause ip peer groups to inherit unset fields from owning named peer
// group if it exists, and then always from process master peer group
Set<LeafBgpPeerGroup> leafGroups = new LinkedHashSet<>();
leafGroups.addAll(proc.getIpPeerGroups().values());
leafGroups.addAll(proc.getIpv6PeerGroups().values());
leafGroups.addAll(proc.getDynamicIpPeerGroups().values());
leafGroups.addAll(proc.getDynamicIpv6PeerGroups().values());
for (LeafBgpPeerGroup lpg : leafGroups) {
lpg.inheritUnsetFields(proc, this);
}
_unusedPeerGroups = new TreeMap<>();
int fakePeerCounter = -1;
// peer groups / peer templates
for (Entry<String, NamedBgpPeerGroup> e : proc.getNamedPeerGroups().entrySet()) {
String name = e.getKey();
NamedBgpPeerGroup namedPeerGroup = e.getValue();
if (!namedPeerGroup.getInherited()) {
_unusedPeerGroups.put(name, namedPeerGroup.getDefinitionLine());
Ip fakeIp = new Ip(fakePeerCounter);
IpBgpPeerGroup fakePg = new IpBgpPeerGroup(fakeIp);
fakePg.setGroupName(name);
fakePg.setActive(false);
fakePg.setShutdown(true);
leafGroups.add(fakePg);
fakePg.inheritUnsetFields(proc, this);
fakePeerCounter--;
}
namedPeerGroup.inheritUnsetFields(proc, this);
}
// separate because peer sessions can inherit from other peer sessions
_unusedPeerSessions = new TreeMap<>();
int fakeGroupCounter = 1;
for (NamedBgpPeerGroup namedPeerGroup : proc.getPeerSessions().values()) {
namedPeerGroup.getParentSession(proc, this).inheritUnsetFields(proc, this);
}
for (Entry<String, NamedBgpPeerGroup> e : proc.getPeerSessions().entrySet()) {
String name = e.getKey();
NamedBgpPeerGroup namedPeerGroup = e.getValue();
if (!namedPeerGroup.getInherited()) {
_unusedPeerSessions.put(name, namedPeerGroup.getDefinitionLine());
String fakeNamedPgName = "~FAKE_PG_" + fakeGroupCounter + "~";
NamedBgpPeerGroup fakeNamedPg = new NamedBgpPeerGroup(fakeNamedPgName, -1);
fakeNamedPg.setPeerSession(name);
proc.getNamedPeerGroups().put(fakeNamedPgName, fakeNamedPg);
Ip fakeIp = new Ip(fakePeerCounter);
IpBgpPeerGroup fakePg = new IpBgpPeerGroup(fakeIp);
fakePg.setGroupName(fakeNamedPgName);
fakePg.setActive(false);
fakePg.setShutdown(true);
leafGroups.add(fakePg);
fakePg.inheritUnsetFields(proc, this);
fakeGroupCounter++;
fakePeerCounter--;
}
}
// create origination prefilter from listed advertised networks
proc.getIpNetworks().forEach((prefix, bgpNetwork) -> {
String mapName = bgpNetwork.getRouteMapName();
BooleanExpr weExpr = BooleanExprs.True.toStaticBooleanExpr();
if (mapName != null) {
int mapLine = bgpNetwork.getRouteMapLine();
RouteMap routeMap = _routeMaps.get(mapName);
if (routeMap != null) {
weExpr = new CallExpr(mapName);
routeMap.getReferers().put(proc, "bgp ipv4 advertised network route-map");
} else {
undefined(CiscoStructureType.ROUTE_MAP, mapName, CiscoStructureUsage.BGP_NETWORK_ORIGINATION_ROUTE_MAP, mapLine);
}
}
BooleanExpr we = bgpRedistributeWithEnvironmentExpr(weExpr, OriginType.IGP);
Conjunction exportNetworkConditions = new Conjunction();
PrefixSpace space = new PrefixSpace();
space.addPrefix(prefix);
exportNetworkConditions.getConjuncts().add(new MatchPrefixSet(new DestinationNetwork(), new ExplicitPrefixSet(space)));
exportNetworkConditions.getConjuncts().add(new Not(new MatchProtocol(RoutingProtocol.BGP)));
exportNetworkConditions.getConjuncts().add(new Not(new MatchProtocol(RoutingProtocol.IBGP)));
// TODO: ban aggregates?
exportNetworkConditions.getConjuncts().add(new Not(new MatchProtocol(RoutingProtocol.AGGREGATE)));
exportNetworkConditions.getConjuncts().add(we);
preFilterConditions.getDisjuncts().add(exportNetworkConditions);
});
String localFilter6Name = "~BGP_NETWORK6_NETWORKS_FILTER:" + vrfName + "~";
Route6FilterList localFilter6 = new Route6FilterList(localFilter6Name);
proc.getIpv6Networks().forEach((prefix6, bgpNetwork6) -> {
int prefixLen = prefix6.getPrefixLength();
Route6FilterLine line = new Route6FilterLine(LineAction.ACCEPT, prefix6, new SubRange(prefixLen, prefixLen));
localFilter6.addLine(line);
String mapName = bgpNetwork6.getRouteMapName();
if (mapName != null) {
int mapLine = bgpNetwork6.getRouteMapLine();
RouteMap routeMap = _routeMaps.get(mapName);
if (routeMap != null) {
routeMap.getReferers().put(proc, "bgp ipv6 advertised network route-map");
BooleanExpr we = bgpRedistributeWithEnvironmentExpr(new CallExpr(mapName), OriginType.IGP);
Conjunction exportNetwork6Conditions = new Conjunction();
Prefix6Space space6 = new Prefix6Space();
space6.addPrefix6(prefix6);
exportNetwork6Conditions.getConjuncts().add(new MatchPrefix6Set(new DestinationNetwork6(), new ExplicitPrefix6Set(space6)));
exportNetwork6Conditions.getConjuncts().add(new Not(new MatchProtocol(RoutingProtocol.BGP)));
exportNetwork6Conditions.getConjuncts().add(new Not(new MatchProtocol(RoutingProtocol.IBGP)));
// TODO: ban aggregates?
exportNetwork6Conditions.getConjuncts().add(new Not(new MatchProtocol(RoutingProtocol.AGGREGATE)));
exportNetwork6Conditions.getConjuncts().add(we);
preFilterConditions.getDisjuncts().add(exportNetwork6Conditions);
} else {
undefined(CiscoStructureType.ROUTE_MAP, mapName, CiscoStructureUsage.BGP_NETWORK6_ORIGINATION_ROUTE_MAP, mapLine);
}
}
});
c.getRoute6FilterLists().put(localFilter6Name, localFilter6);
MatchProtocol isEbgp = new MatchProtocol(RoutingProtocol.BGP);
MatchProtocol isIbgp = new MatchProtocol(RoutingProtocol.IBGP);
preFilterConditions.getDisjuncts().add(isEbgp);
preFilterConditions.getDisjuncts().add(isIbgp);
for (LeafBgpPeerGroup lpg : leafGroups) {
// update source
String updateSourceInterface = lpg.getUpdateSource();
boolean ipv4 = lpg.getNeighborPrefix() != null;
Ip updateSource = getUpdateSource(c, vrfName, lpg, updateSourceInterface, ipv4);
RoutingPolicy importPolicy = null;
String inboundRouteMapName = lpg.getInboundRouteMap();
if (inboundRouteMapName != null) {
int inboundRouteMapLine = lpg.getInboundRouteMapLine();
importPolicy = c.getRoutingPolicies().get(inboundRouteMapName);
if (importPolicy == null) {
undefined(CiscoStructureType.ROUTE_MAP, inboundRouteMapName, CiscoStructureUsage.BGP_INBOUND_ROUTE_MAP, inboundRouteMapLine);
} else {
RouteMap inboundRouteMap = _routeMaps.get(inboundRouteMapName);
inboundRouteMap.getReferers().put(lpg, "inbound route-map for leaf peer-group: " + lpg.getName());
}
}
String inboundRoute6MapName = lpg.getInboundRoute6Map();
RoutingPolicy importPolicy6 = null;
if (inboundRoute6MapName != null) {
int inboundRoute6MapLine = lpg.getInboundRoute6MapLine();
importPolicy6 = c.getRoutingPolicies().get(inboundRoute6MapName);
if (importPolicy6 == null) {
undefined(CiscoStructureType.ROUTE_MAP, inboundRoute6MapName, CiscoStructureUsage.BGP_INBOUND_ROUTE6_MAP, inboundRoute6MapLine);
} else {
RouteMap inboundRouteMap = _routeMaps.get(inboundRoute6MapName);
inboundRouteMap.getReferers().put(lpg, "inbound route-map for leaf peer-group: " + lpg.getName());
}
}
String peerExportPolicyName = "~BGP_PEER_EXPORT_POLICY:" + vrfName + ":" + lpg.getName() + "~";
RoutingPolicy peerExportPolicy = new RoutingPolicy(peerExportPolicyName, c);
if (lpg.getActive() && !lpg.getShutdown()) {
c.getRoutingPolicies().put(peerExportPolicyName, peerExportPolicy);
}
if (lpg.getNextHopSelf() != null && lpg.getNextHopSelf()) {
peerExportPolicy.getStatements().add(new SetNextHop(new SelfNextHop(), false));
}
if (lpg.getRemovePrivateAs() != null && lpg.getRemovePrivateAs()) {
peerExportPolicy.getStatements().add(Statements.RemovePrivateAs.toStaticStatement());
}
If peerExportConditional = new If();
peerExportConditional.setComment("peer-export policy main conditional: exitAccept if true / exitReject if false");
peerExportPolicy.getStatements().add(peerExportConditional);
Conjunction peerExportConditions = new Conjunction();
peerExportConditional.setGuard(peerExportConditions);
peerExportConditional.getTrueStatements().add(Statements.ExitAccept.toStaticStatement());
peerExportConditional.getFalseStatements().add(Statements.ExitReject.toStaticStatement());
Disjunction localOrCommonOrigination = new Disjunction();
peerExportConditions.getConjuncts().add(localOrCommonOrigination);
localOrCommonOrigination.getDisjuncts().add(new CallExpr(bgpCommonExportPolicyName));
String outboundRouteMapName = lpg.getOutboundRouteMap();
if (outboundRouteMapName != null) {
int outboundRouteMapLine = lpg.getOutboundRouteMapLine();
RouteMap outboundRouteMap = _routeMaps.get(outboundRouteMapName);
if (outboundRouteMap == null) {
undefined(CiscoStructureType.ROUTE_MAP, outboundRouteMapName, CiscoStructureUsage.BGP_OUTBOUND_ROUTE_MAP, outboundRouteMapLine);
} else {
outboundRouteMap.getReferers().put(lpg, "outbound route-map for leaf peer-group: " + lpg.getName());
peerExportConditions.getConjuncts().add(new CallExpr(outboundRouteMapName));
}
}
String outboundRoute6MapName = lpg.getOutboundRoute6Map();
if (outboundRoute6MapName != null) {
int outboundRoute6MapLine = lpg.getOutboundRoute6MapLine();
RouteMap outboundRoute6Map = _routeMaps.get(outboundRoute6MapName);
if (outboundRoute6Map == null) {
undefined(CiscoStructureType.ROUTE_MAP, outboundRoute6MapName, CiscoStructureUsage.BGP_OUTBOUND_ROUTE6_MAP, outboundRoute6MapLine);
} else {
outboundRoute6Map.getReferers().put(lpg, "outbound ipv6 route-map for leaf peer-group: " + lpg.getName());
}
}
// set up default export policy for this peer group
GeneratedRoute.Builder defaultRoute = null;
GeneratedRoute6.Builder defaultRoute6 = null;
if (lpg.getDefaultOriginate()) {
if (ipv4) {
localOrCommonOrigination.getDisjuncts().add(matchDefaultRoute);
} else {
localOrCommonOrigination.getDisjuncts().add(matchDefaultRoute6);
}
defaultRoute = new GeneratedRoute.Builder();
defaultRoute.setNetwork(Prefix.ZERO);
defaultRoute.setAdmin(MAX_ADMINISTRATIVE_COST);
defaultRoute6 = new GeneratedRoute6.Builder();
defaultRoute6.setNetwork(Prefix6.ZERO);
defaultRoute6.setAdmin(MAX_ADMINISTRATIVE_COST);
String defaultOriginateMapName = lpg.getDefaultOriginateMap();
if (defaultOriginateMapName != null) {
// originate contingent on
// generation policy
int defaultOriginateMapLine = lpg.getDefaultOriginateMapLine();
RoutingPolicy defaultRouteGenerationPolicy = c.getRoutingPolicies().get(defaultOriginateMapName);
if (defaultRouteGenerationPolicy == null) {
undefined(CiscoStructureType.ROUTE_MAP, defaultOriginateMapName, CiscoStructureUsage.BGP_DEFAULT_ORIGINATE_ROUTE_MAP, defaultOriginateMapLine);
} else {
RouteMap defaultRouteGenerationRouteMap = _routeMaps.get(defaultOriginateMapName);
defaultRouteGenerationRouteMap.getReferers().put(lpg, "default route generation policy for leaf peer-group: " + lpg.getName());
defaultRoute.setGenerationPolicy(defaultOriginateMapName);
}
} else {
String defaultRouteGenerationPolicyName = "~BGP_DEFAULT_ROUTE_GENERATION_POLICY:" + vrfName + ":" + lpg.getName() + "~";
RoutingPolicy defaultRouteGenerationPolicy = new RoutingPolicy(defaultRouteGenerationPolicyName, c);
If defaultRouteGenerationConditional = new If();
defaultRouteGenerationPolicy.getStatements().add(defaultRouteGenerationConditional);
if (ipv4) {
defaultRouteGenerationConditional.setGuard(matchDefaultRoute);
} else {
defaultRouteGenerationConditional.setGuard(matchDefaultRoute6);
}
defaultRouteGenerationConditional.getTrueStatements().add(Statements.ReturnTrue.toStaticStatement());
if (lpg.getActive() && !lpg.getShutdown()) {
c.getRoutingPolicies().put(defaultRouteGenerationPolicyName, defaultRouteGenerationPolicy);
}
if (ipv4) {
defaultRoute.setGenerationPolicy(defaultRouteGenerationPolicyName);
} else {
defaultRoute6.setGenerationPolicy(defaultRouteGenerationPolicyName);
}
}
}
Ip clusterId = lpg.getClusterId();
if (clusterId == null) {
clusterId = bgpRouterId;
}
boolean routeReflectorClient = lpg.getRouteReflectorClient();
boolean sendCommunity = lpg.getSendCommunity();
boolean additionalPathsReceive = lpg.getAdditionalPathsReceive();
boolean additionalPathsSelectAll = lpg.getAdditionalPathsSelectAll();
boolean additionalPathsSend = lpg.getAdditionalPathsSend();
boolean advertiseInactive = lpg.getAdvertiseInactive();
boolean ebgpMultihop = lpg.getEbgpMultihop();
boolean allowasIn = lpg.getAllowAsIn();
boolean disablePeerAsCheck = lpg.getDisablePeerAsCheck();
String inboundPrefixListName = lpg.getInboundPrefixList();
if (inboundPrefixListName != null) {
int inboundPrefixListLine = lpg.getInboundPrefixListLine();
ReferenceCountedStructure inboundPrefixList;
if (ipv4) {
inboundPrefixList = _prefixLists.get(inboundPrefixListName);
} else {
inboundPrefixList = _prefix6Lists.get(inboundPrefixListName);
}
if (inboundPrefixList != null) {
inboundPrefixList.getReferers().put(lpg, "inbound prefix-list for neighbor: '" + lpg.getName() + "'");
} else {
if (ipv4) {
undefined(CiscoStructureType.PREFIX_LIST, inboundPrefixListName, CiscoStructureUsage.BGP_INBOUND_PREFIX_LIST, inboundPrefixListLine);
} else {
undefined(CiscoStructureType.PREFIX6_LIST, inboundPrefixListName, CiscoStructureUsage.BGP_INBOUND_PREFIX6_LIST, inboundPrefixListLine);
}
}
}
String outboundPrefixListName = lpg.getOutboundPrefixList();
if (outboundPrefixListName != null) {
int outboundPrefixListLine = lpg.getOutboundPrefixListLine();
ReferenceCountedStructure outboundPrefixList;
if (ipv4) {
outboundPrefixList = _prefixLists.get(outboundPrefixListName);
} else {
outboundPrefixList = _prefix6Lists.get(outboundPrefixListName);
}
if (outboundPrefixList != null) {
outboundPrefixList.getReferers().put(lpg, "outbound prefix-list for neighbor: '" + lpg.getName() + "'");
} else {
if (ipv4) {
undefined(CiscoStructureType.PREFIX_LIST, outboundPrefixListName, CiscoStructureUsage.BGP_OUTBOUND_PREFIX_LIST, outboundPrefixListLine);
} else {
undefined(CiscoStructureType.PREFIX6_LIST, outboundPrefixListName, CiscoStructureUsage.BGP_OUTBOUND_PREFIX6_LIST, outboundPrefixListLine);
}
}
}
String description = lpg.getDescription();
if (lpg.getActive() && !lpg.getShutdown()) {
if (lpg.getRemoteAs() == null) {
_w.redFlag("No remote-as set for peer: " + lpg.getName());
continue;
}
Integer pgLocalAs = lpg.getLocalAs();
int localAs = pgLocalAs != null ? pgLocalAs : proc.getName();
BgpNeighbor newNeighbor;
if (lpg instanceof IpBgpPeerGroup) {
IpBgpPeerGroup ipg = (IpBgpPeerGroup) lpg;
Ip neighborAddress = ipg.getIp();
newNeighbor = new BgpNeighbor(neighborAddress, c);
} else if (lpg instanceof DynamicIpBgpPeerGroup) {
DynamicIpBgpPeerGroup dpg = (DynamicIpBgpPeerGroup) lpg;
Prefix neighborAddressRange = dpg.getPrefix();
newNeighbor = new BgpNeighbor(neighborAddressRange, c);
} else if (lpg instanceof Ipv6BgpPeerGroup || lpg instanceof DynamicIpv6BgpPeerGroup) {
// TODO: implement ipv6 bgp neighbors
continue;
} else {
throw new VendorConversionException("Invalid BGP leaf neighbor type");
}
newBgpNeighbors.put(newNeighbor.getPrefix(), newNeighbor);
newNeighbor.setAdditionalPathsReceive(additionalPathsReceive);
newNeighbor.setAdditionalPathsSelectAll(additionalPathsSelectAll);
newNeighbor.setAdditionalPathsSend(additionalPathsSend);
newNeighbor.setAdvertiseInactive(advertiseInactive);
newNeighbor.setAllowLocalAsIn(allowasIn);
newNeighbor.setAllowRemoteAsOut(disablePeerAsCheck);
newNeighbor.setRouteReflectorClient(routeReflectorClient);
newNeighbor.setClusterId(clusterId.asLong());
newNeighbor.setDefaultMetric(defaultMetric);
newNeighbor.setDescription(description);
newNeighbor.setEbgpMultihop(ebgpMultihop);
if (defaultRoute != null) {
newNeighbor.getGeneratedRoutes().add(defaultRoute.build());
}
newNeighbor.setGroup(lpg.getGroupName());
if (importPolicy != null) {
newNeighbor.setImportPolicy(inboundRouteMapName);
}
newNeighbor.setLocalAs(localAs);
newNeighbor.setLocalIp(updateSource);
newNeighbor.setExportPolicy(peerExportPolicyName);
newNeighbor.setRemoteAs(lpg.getRemoteAs());
newNeighbor.setSendCommunity(sendCommunity);
newNeighbor.setVrf(vrfName);
}
}
return newBgpProcess;
}
Also used :
MatchPrefix6Set(org.batfish.datamodel.routing_policy.expr.MatchPrefix6Set)
LinkedHashSet(java.util.LinkedHashSet)
NamedPrefixSet(org.batfish.datamodel.routing_policy.expr.NamedPrefixSet)
ExplicitPrefix6Set(org.batfish.datamodel.routing_policy.expr.ExplicitPrefix6Set)
ArrayList(java.util.ArrayList)
DestinationNetwork6(org.batfish.datamodel.routing_policy.expr.DestinationNetwork6)
CallExpr(org.batfish.datamodel.routing_policy.expr.CallExpr)
SetNextHop(org.batfish.datamodel.routing_policy.statement.SetNextHop)
BooleanExpr(org.batfish.datamodel.routing_policy.expr.BooleanExpr)
LinkedHashSet(java.util.LinkedHashSet)
HashSet(java.util.HashSet)
PrefixSpace(org.batfish.datamodel.PrefixSpace)
GeneratedRoute6(org.batfish.datamodel.GeneratedRoute6)
MatchProtocol(org.batfish.datamodel.routing_policy.expr.MatchProtocol)
VendorConversionException(org.batfish.common.VendorConversionException)
Route6FilterLine(org.batfish.datamodel.Route6FilterLine)
Disjunction(org.batfish.datamodel.routing_policy.expr.Disjunction)
Not(org.batfish.datamodel.routing_policy.expr.Not)
ExplicitPrefixSet(org.batfish.datamodel.routing_policy.expr.ExplicitPrefixSet)
BgpTieBreaker(org.batfish.datamodel.BgpTieBreaker)
GeneratedRoute(org.batfish.datamodel.GeneratedRoute)
If(org.batfish.datamodel.routing_policy.statement.If)
Ip(org.batfish.datamodel.Ip)
Prefix(org.batfish.datamodel.Prefix)
SelfNextHop(org.batfish.datamodel.routing_policy.expr.SelfNextHop)
MultipathEquivalentAsPathMatchMode(org.batfish.datamodel.MultipathEquivalentAsPathMatchMode)
BgpNeighbor(org.batfish.datamodel.BgpNeighbor)
Conjunction(org.batfish.datamodel.routing_policy.expr.Conjunction)
ReferenceCountedStructure(org.batfish.common.util.ReferenceCountedStructure)
SubRange(org.batfish.datamodel.SubRange)
RouteFilterLine(org.batfish.datamodel.RouteFilterLine)
PrefixRange(org.batfish.datamodel.PrefixRange)
CallStatement(org.batfish.datamodel.routing_policy.statement.CallStatement)
Statement(org.batfish.datamodel.routing_policy.statement.Statement)
MatchPrefixSet(org.batfish.datamodel.routing_policy.expr.MatchPrefixSet)
RoutingPolicy(org.batfish.datamodel.routing_policy.RoutingPolicy)
Route6FilterList(org.batfish.datamodel.Route6FilterList)
Prefix6Space(org.batfish.datamodel.Prefix6Space)
Prefix6Range(org.batfish.datamodel.Prefix6Range)
BigInteger(java.math.BigInteger)
DestinationNetwork(org.batfish.datamodel.routing_policy.expr.DestinationNetwork)
RouteFilterList(org.batfish.datamodel.RouteFilterList)
Prefix6(org.batfish.datamodel.Prefix6)
Example 4 with MultipathEquivalentAsPathMatchMode
use of org.batfish.datamodel.MultipathEquivalentAsPathMatchMode in project batfish by batfish.
the class FlatJuniperGrammarTest method testBgpMultipathMultipleAs.
@Test
public void testBgpMultipathMultipleAs() throws IOException {
String testrigName = "multipath-multiple-as";
List<String> configurationNames = ImmutableList.of("multiple_as_disabled", "multiple_as_enabled", "multiple_as_mixed");
Batfish batfish = BatfishTestUtils.getBatfishFromTestrigText(TestrigText.builder().setConfigurationText(TESTRIGS_PREFIX + testrigName, configurationNames).build(), _folder);
Map<String, Configuration> configurations = batfish.loadConfigurations();
MultipathEquivalentAsPathMatchMode multipleAsDisabled = configurations.get("multiple_as_disabled").getDefaultVrf().getBgpProcess().getMultipathEquivalentAsPathMatchMode();
MultipathEquivalentAsPathMatchMode multipleAsEnabled = configurations.get("multiple_as_enabled").getDefaultVrf().getBgpProcess().getMultipathEquivalentAsPathMatchMode();
MultipathEquivalentAsPathMatchMode multipleAsMixed = configurations.get("multiple_as_mixed").getDefaultVrf().getBgpProcess().getMultipathEquivalentAsPathMatchMode();
assertThat(multipleAsDisabled, equalTo(MultipathEquivalentAsPathMatchMode.FIRST_AS));
assertThat(multipleAsEnabled, equalTo(MultipathEquivalentAsPathMatchMode.PATH_LENGTH));
assertThat(multipleAsMixed, equalTo(MultipathEquivalentAsPathMatchMode.FIRST_AS));
}
Also used :
Configuration(org.batfish.datamodel.Configuration)
Batfish(org.batfish.main.Batfish)
MultipathEquivalentAsPathMatchMode(org.batfish.datamodel.MultipathEquivalentAsPathMatchMode)
Test(org.junit.Test)
Aggregations
MultipathEquivalentAsPathMatchMode (org.batfish.datamodel.MultipathEquivalentAsPathMatchMode)4
Ip (org.batfish.datamodel.Ip)3
ArrayList (java.util.ArrayList)2
BgpNeighbor (org.batfish.datamodel.BgpNeighbor)2
Configuration (org.batfish.datamodel.Configuration)2
RoutingPolicy (org.batfish.datamodel.routing_policy.RoutingPolicy)2
BooleanExpr (org.batfish.datamodel.routing_policy.expr.BooleanExpr)2
CallExpr (org.batfish.datamodel.routing_policy.expr.CallExpr)2
Disjunction (org.batfish.datamodel.routing_policy.expr.Disjunction)2
MatchProtocol (org.batfish.datamodel.routing_policy.expr.MatchProtocol)2
BigInteger (java.math.BigInteger)1
HashSet (java.util.HashSet)1
LinkedHashSet (java.util.LinkedHashSet)1
Set (java.util.Set)1
SortedSet (java.util.SortedSet)1
VendorConversionException (org.batfish.common.VendorConversionException)1
ReferenceCountedStructure (org.batfish.common.util.ReferenceCountedStructure)1
BgpAuthenticationSettings (org.batfish.datamodel.BgpAuthenticationSettings)1
BgpProcess (org.batfish.datamodel.BgpProcess)1
BgpTieBreaker (org.batfish.datamodel.BgpTieBreaker)1
