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Keeps track of node assignment in a multi-application setup.
// Copyright Vespa.ai. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
package com.yahoo.vespa.hosted.provision.node;
import ai.vespa.net.InetAddressUtil;
import com.google.common.net.InetAddresses;
import com.yahoo.config.provision.Cloud;
import com.yahoo.config.provision.CloudAccount;
import com.yahoo.config.provision.CloudName;
import com.yahoo.config.provision.HostName;
import com.yahoo.config.provision.Zone;
import com.yahoo.vespa.hosted.provision.LockedNodeList;
import com.yahoo.vespa.hosted.provision.Node;
import com.yahoo.vespa.hosted.provision.NodeList;
import com.yahoo.vespa.hosted.provision.persistence.NameResolver;
import com.yahoo.vespa.hosted.provision.persistence.NameResolver.RecordType;
import java.net.InetAddress;
import java.util.ArrayList;
import java.util.Comparator;
import java.util.HashSet;
import java.util.List;
import java.util.Objects;
import java.util.Optional;
import java.util.Set;
import java.util.stream.Collectors;
import java.util.stream.Stream;
import static com.yahoo.config.provision.NodeType.confighost;
import static com.yahoo.config.provision.NodeType.controllerhost;
import static com.yahoo.config.provision.NodeType.proxyhost;
/**
* This handles IP address configuration and allocation.
*
* @author mpolden
*/
public record IP() {
/** IP version. Can be compared with ==, !=, and equals(). */
public static class Version implements Comparable {
public static final Version v4 = new Version(4);
public static final Version v6 = new Version(6);
private final int version;
public static Version fromIpAddress(String ipAddress) {
if (ipAddress.contains(":")) return v6;
if (ipAddress.contains(".")) return v4;
throw new IllegalArgumentException("Failed to deduce the IP version from the textual representation of the IP address: " + ipAddress);
}
public static Version fromIsIpv6(boolean isIpv6) { return isIpv6 ? v6 : v4; }
private Version(int version) { this.version = version; }
public boolean is4() { return version == 4; }
public boolean is6() { return version == 6; }
public RecordType toForwardRecordType() { return is4() ? RecordType.A : RecordType.AAAA; }
@Override
public int compareTo(Version that) { return Integer.compare(this.version, that.version); }
@Override
public String toString() { return "IPv" + version; }
@Override
public boolean equals(Object o) {
if (this == o) return true;
if (o == null || getClass() != o.getClass()) return false;
Version version1 = (Version) o;
return version == version1.version;
}
@Override
public int hashCode() { return Objects.hash(version); }
}
/**
* IP configuration of a node
*
* @param primary The primary addresses of this. These addresses are used when communicating with the node itself
* @param pool The IP address pool available on a node
*/
public record Config(List primary, Pool pool) {
public static final Config EMPTY = Config.ofEmptyPool();
public static Config ofEmptyPool(String... primary) { return ofEmptyPool(List.of(primary)); }
public static Config ofEmptyPool(List primary) { return of(primary, List.of(), List.of()); }
public static Config of(List primary, List ips, List hostnames) { return new Config(primary, Pool.of(ips, hostnames)); }
public static Config of(List primary, List ips) { return of(primary, ips, List.of()); }
public Config(List primary, Pool pool) {
this.primary = List.copyOf(Objects.requireNonNull(primary, "primary must be non-null"));
this.pool = Objects.requireNonNull(pool, "pool must be non-null");
}
/** Returns a copy of this with pool set to given value */
public Config withPool(Pool pool) {
return new Config(primary, pool);
}
/** Returns a copy of this with pool set to given value */
public Config withPrimary(List primary) {
return new Config(primary, pool);
}
/**
* Verify IP config of given nodes
*
* @throws IllegalArgumentException if there are IP conflicts with existing nodes
*/
public static LockedNodeList verify(List nodes, LockedNodeList allNodes, Zone zone) {
NodeList sortedNodes = allNodes.sortedBy(Comparator.comparing(Node::hostname));
for (var node : nodes) {
Space ipSpace = Space.of(zone, node.cloudAccount());
for (var other : sortedNodes) {
if (node.equals(other)) continue;
if (canAssignIpOf(other, node)) continue;
var addresses = new HashSet<>(node.ipConfig().primary());
var otherAddresses = new HashSet<>(other.ipConfig().primary());
if (node.type().isHost()) { // Addresses of a host can never overlap with any other nodes
addresses.addAll(node.ipConfig().pool().ips());
otherAddresses.addAll(other.ipConfig().pool().ips());
}
otherAddresses.removeIf(otherIp -> !ipSpace.contains(otherIp, other.cloudAccount()));
otherAddresses.retainAll(addresses);
if (!otherAddresses.isEmpty())
throw new IllegalArgumentException("Cannot assign " + addresses + " to " + node.hostname() +
": " + otherAddresses + " already assigned to " +
other.hostname());
}
}
return allNodes.childList(nodes);
}
/** Returns whether IP address of existing node can be assigned to node */
private static boolean canAssignIpOf(Node existingNode, Node node) {
if (node.parentHostname().isPresent() == existingNode.parentHostname().isPresent()) return false; // Not a parent-child node
if (node.parentHostname().isEmpty()) return canAssignIpOf(node, existingNode);
if (!node.parentHostname().get().equals(existingNode.hostname())) return false; // Wrong host
return switch (node.type()) {
case proxy -> existingNode.type() == proxyhost;
case config -> existingNode.type() == confighost;
case controller -> existingNode.type() == controllerhost;
default -> false;
};
}
public static Node verify(Node node, LockedNodeList allNodes, Zone zone) {
return verify(List.of(node), allNodes, zone).asList().get(0);
}
}
/** A list of IP addresses and their protocol */
record IpAddresses(List addresses, Stack stack) {
public IpAddresses(List addresses, Stack stack) {
this.addresses = List.copyOf(Objects.requireNonNull(addresses, "addresses must be non-null"));
this.stack = Objects.requireNonNull(stack, "type must be non-null");
}
/** Create addresses of the given set */
private static IpAddresses of(List addresses) {
long ipv6AddrCount = addresses.stream().filter(IP::isV6).count();
if (ipv6AddrCount == addresses.size()) { // IPv6-only
return new IpAddresses(addresses, Stack.ipv6);
}
long ipv4AddrCount = addresses.stream().filter(IP::isV4).count();
if (ipv4AddrCount == addresses.size()) { // IPv4-only
return new IpAddresses(addresses, Stack.ipv4);
}
// If we're dual-stacked, we must have an equal number of addresses of each protocol.
if (ipv4AddrCount == ipv6AddrCount) {
return new IpAddresses(addresses, Stack.dual);
}
throw new IllegalArgumentException(String.format("Dual-stacked IP address list must have an " +
"equal number of addresses of each version " +
"[IPv6 address count = %d, IPv4 address count = %d]",
ipv6AddrCount, ipv4AddrCount));
}
public enum Stack {
dual("dual-stack", Version.v4, Version.v6),
ipv4("IPv4-only", Version.v4),
ipv6("IPv6-only", Version.v6);
private final String description;
private final Set versions;
Stack(String description, Version... versions) {
this.description = description;
this.versions = Set.of(versions);
}
public boolean supports(Version version) { return versions.contains(version); }
}
}
/**
* A pool of addresses from which an allocation can be made.
*
* Addresses in this are available for use by Linux containers.
*/
public record Pool(IpAddresses ipAddresses, List hostnames) {
public static final Pool EMPTY = Pool.of(List.of(), List.of());
/** Create a new pool containing given ips */
public static Pool of(List ips, List hostnames) {
return new Pool(IpAddresses.of(ips), hostnames);
}
public Pool(IpAddresses ipAddresses, List hostnames) {
this.ipAddresses = Objects.requireNonNull(ipAddresses, "ipAddresses must be non-null");
this.hostnames = List.copyOf(Objects.requireNonNull(hostnames, "hostnames must be non-null"));
}
/** The number of hosts in this pool: each host has a name and/or one or two IP addresses. */
public long size() {
return hostnames().isEmpty() ?
Math.max(ipAddresses.addresses.stream().filter(IP::isV4).count(),
ipAddresses.addresses.stream().filter(IP::isV6).count()) :
hostnames().size();
}
public List ips() { return ipAddresses.addresses; }
/**
* Find a free allocation in this pool. Note that the allocation is not final until it is assigned to a node
*
* TODO(2023-09-20): Once all dynamically provisioned hosts have been reprovisioned, the order of IP addresses
* is significant and should be 1:1 with the order of hostnames, if both are filled. This needs to be verified.
* This can be used to strengthen validation, and simplify the selection of the Allocation to return.
*
* @param context allocation context
* @param nodes a locked list of all nodes in the repository
* @return an allocation from the pool, if any can be made
*/
public Optional findAllocation(Allocation.Context context, LockedNodeList nodes) {
if (ipAddresses.addresses.isEmpty()) {
// IP addresses have not yet been resolved and should be done later.
return findUnusedHostnames(nodes).map(Allocation::ofHostname)
.findFirst();
}
List unusedIps = findUnusedIpAddresses(nodes);
if (context.allocateFromUnusedHostname())
return findUnusedHostnames(nodes).findFirst().map(hostname -> Allocation.fromHostname(context, hostname, ipAddresses.stack, unusedIps));
if (ipAddresses.stack == IpAddresses.Stack.ipv4) {
return unusedIps.stream()
.findFirst()
.map(addr -> Allocation.ofIpv4(addr, context.resolver()));
}
var allocation = unusedIps.stream()
.filter(IP::isV6)
.findFirst()
.map(addr -> Allocation.ofIpv6(addr, context.resolver()));
allocation.flatMap(Allocation::ipv4Address).ifPresent(ipv4Address -> {
if (!unusedIps.contains(ipv4Address)) {
throw new IllegalArgumentException("Allocation resolved " + ipv4Address + " from hostname " +
allocation.get().hostname +
", but that address is not owned by this node");
}
});
return allocation;
}
/**
* Finds all unused IP addresses in this pool
*
* @param nodes a list of all nodes in the repository
*/
public List findUnusedIpAddresses(NodeList nodes) {
List unusedAddresses = new ArrayList<>(ips());
nodes.matching(node -> node.ipConfig().primary().stream().anyMatch(ip -> ips().contains(ip)))
.forEach(node -> unusedAddresses.removeAll(node.ipConfig().primary()));
return unusedAddresses;
}
private Stream findUnusedHostnames(NodeList nodes) {
Set usedHostnames = nodes.stream().map(Node::hostname).collect(Collectors.toSet());
return hostnames.stream().filter(hostname -> !usedHostnames.contains(hostname.value()));
}
public Pool withIpAddresses(List ipAddresses) {
return Pool.of(ipAddresses, hostnames);
}
public Pool withHostnames(List hostnames) {
return Pool.of(ipAddresses.addresses, hostnames);
}
}
/** An address allocation from a pool */
public record Allocation(String hostname, Optional ipv4Address, Optional ipv6Address) {
public Allocation {
Objects.requireNonNull(hostname, "hostname must be non-null");
Objects.requireNonNull(ipv4Address, "ipv4Address must be non-null");
Objects.requireNonNull(ipv6Address, "ipv6Address must be non-null");
}
public record Context(Cloud cloud, boolean exclave, NameResolver resolver) {
public static Context from(Cloud cloud, boolean exclave, NameResolver resolver) {
return new Context(cloud, exclave, resolver);
}
public NameResolver resolver() { return resolver; }
public boolean allocateFromUnusedHostname() { return exclave || cloud.dynamicProvisioning(); }
public boolean hasIpNotInDns(Version version) {
if (exclave && cloud.name() == CloudName.GCP && version.is4()) {
// Exclave nodes in GCP have IPv4, because load balancers backends are required to be IPv4,
// but it's private (10.x). The hostname only resolves to the public IPv6 address.
return true;
}
return false;
}
}
/**
* Allocate an IPv6 address.
*
* A successful allocation is guaranteed to have an IPv6 address, but may also have an IPv4 address if the
* hostname of the IPv6 address has an A record.
*
* @param ipv6Address Unassigned IPv6 address
* @param resolver DNS name resolver to use
* @throws IllegalArgumentException if DNS is misconfigured
* @return An allocation containing 1 IPv6 address and 1 IPv4 address (if hostname is dual-stack)
*/
private static Allocation ofIpv6(String ipv6Address, NameResolver resolver) {
if (!isV6(ipv6Address)) {
throw new IllegalArgumentException("Invalid IPv6 address '" + ipv6Address + "'");
}
String hostname6 = resolver.resolveHostname(ipv6Address).orElseThrow(() -> new IllegalArgumentException("Could not resolve IP address: " + ipv6Address));
List ipv4Addresses = resolver.resolveAll(hostname6).stream()
.filter(IP::isV4)
.toList();
if (ipv4Addresses.size() > 1) {
throw new IllegalArgumentException("Hostname " + hostname6 + " resolved to more than 1 IPv4 address: " + ipv4Addresses);
}
Optional ipv4Address = ipv4Addresses.stream().findFirst();
ipv4Address.ifPresent(addr -> {
String hostname4 = resolver.resolveHostname(addr).orElseThrow(() -> new IllegalArgumentException("Could not resolve IP address: " + addr));
if (!hostname6.equals(hostname4)) {
throw new IllegalArgumentException(String.format("Hostnames resolved from each IP address do not " +
"point to the same hostname [%s -> %s, %s -> %s]",
ipv6Address, hostname6, addr, hostname4));
}
});
return new Allocation(hostname6, ipv4Address, Optional.of(ipv6Address));
}
/**
* Allocate an IPv4 address. A successful allocation is guaranteed to have an IPv4 address.
*
* @param ipAddress Unassigned IPv4 address
* @param resolver DNS name resolver to use
* @return An allocation containing 1 IPv4 address.
*/
private static Allocation ofIpv4(String ipAddress, NameResolver resolver) {
String hostname4 = resolver.resolveHostname(ipAddress).orElseThrow(() -> new IllegalArgumentException("Could not resolve IP address: " + ipAddress));
List addresses = resolver.resolveAll(hostname4).stream()
.filter(IP::isV4)
.toList();
if (addresses.size() != 1) {
throw new IllegalArgumentException("Hostname " + hostname4 + " did not resolve to exactly 1 address. " +
"Resolved: " + addresses);
}
return new Allocation(hostname4, Optional.of(addresses.get(0)), Optional.empty());
}
private static Allocation fromHostname(Context context, HostName hostname, IpAddresses.Stack stack, List unusedIps) {
Optional ipv4Address = resolveAndVerify(context, hostname, stack, IP.Version.v4, unusedIps);
Optional ipv6Address = resolveAndVerify(context, hostname, stack, IP.Version.v6, unusedIps);
return new Allocation(hostname.value(), ipv4Address, ipv6Address);
}
private static Optional resolveAndVerify(Context context, HostName hostname, IpAddresses.Stack stack, Version version, List unusedIps) {
if (context.hasIpNotInDns(version)) {
List candidates = unusedIps.stream()
.filter(a -> IP.Version.fromIpAddress(a).equals(version))
.toList();
if (candidates.size() != 1) {
throw new IllegalStateException("Unable to find a unique child IP address of " + hostname + ": Found " + candidates);
}
return candidates.stream().findFirst();
}
Optional address = resolveOptional(hostname.value(), context.resolver(), version.toForwardRecordType());
if (stack.supports(version) && address.isEmpty())
throw new IllegalArgumentException(stack.description + " hostname " + hostname.value() + " did not resolve to an " + version + " address");
if (!stack.supports(version) && address.isPresent())
throw new IllegalArgumentException(stack.description + " hostname " + hostname.value() + " has an " + version + " address: " + address.get());
return address;
}
private static Optional resolveOptional(String hostname, NameResolver resolver, RecordType recordType) {
Set values = resolver.resolve(hostname, recordType);
return switch (values.size()) {
case 0 -> Optional.empty();
case 1 -> Optional.of(values.iterator().next());
default -> throw new IllegalArgumentException("Hostname " + hostname + " resolved to more than one " + recordType.description() + ": " + values);
};
}
private static Allocation ofHostname(HostName hostName) {
return new Allocation(hostName.value(), Optional.empty(), Optional.empty());
}
/** All IP addresses in this */
public List addresses() {
return Stream.concat(ipv4Address.stream(), ipv6Address.stream()).toList();
}
}
/** Parse given IP address string */
public static InetAddress parse(String ipAddress) {
try {
return InetAddresses.forString(ipAddress);
} catch (IllegalArgumentException e) {
throw new IllegalArgumentException("Invalid IP address '" + ipAddress + "'", e);
}
}
/** Convert IP address to string. This uses :: for zero compression in IPv6 addresses. */
public static String asString(InetAddress inetAddress) {
return InetAddressUtil.toString(inetAddress);
}
/** Returns whether given string is an IPv4 address */
public static boolean isV4(String ipAddress) {
return !isV6(ipAddress) && ipAddress.contains(".");
}
/** Returns whether given string is an IPv6 address */
public static boolean isV6(String ipAddress) {
return ipAddress.contains(":");
}
/** Returns whether given string is a public IP address */
private static boolean isPublic(String ip) {
InetAddress address = parse(ip);
return ! address.isLoopbackAddress() && ! address.isLinkLocalAddress() && ! address.isSiteLocalAddress();
}
@FunctionalInterface
public interface Space {
static Space of(Zone zone) { return of(zone, zone.cloud().account()); }
/** Returns the IP space of a cloud account in a zone. */
static Space of(Zone zone, CloudAccount cloudAccount) { return (ip, account) -> sharedIp(ip, account, cloudAccount, zone); }
private static boolean sharedIp(String ip, CloudAccount sourceCloudAccount, CloudAccount targetCloudAccount, Zone zone) {
// IPs within the same account and zone are always shared.
if (sourceCloudAccount.equals(targetCloudAccount))
return true;
// Only public IPs inside (outside) an exclave account are shared outside (inside).
if (sourceCloudAccount.isExclave(zone) || targetCloudAccount.isExclave(zone))
return isPublic(ip);
// IPs in noclave and inclave are always shared.
return true;
}
/** Returns true if the IP in the given account is in this IP space. */
boolean contains(String ip, CloudAccount cloudAccount);
}
}
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