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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;
import com.yahoo.component.Version;
import com.yahoo.config.provision.ApplicationId;
import com.yahoo.config.provision.CloudAccount;
import com.yahoo.config.provision.ClusterMembership;
import com.yahoo.config.provision.ClusterSpec;
import com.yahoo.config.provision.Flavor;
import com.yahoo.config.provision.NodeResources;
import com.yahoo.config.provision.NodeType;
import com.yahoo.config.provision.TenantName;
import com.yahoo.config.provision.WireguardKeyWithTimestamp;
import com.yahoo.config.provision.Zone;
import com.yahoo.vespa.hosted.provision.lb.LoadBalancers;
import com.yahoo.vespa.hosted.provision.node.Agent;
import com.yahoo.vespa.hosted.provision.node.Allocation;
import com.yahoo.vespa.hosted.provision.node.Generation;
import com.yahoo.vespa.hosted.provision.node.History;
import com.yahoo.vespa.hosted.provision.node.IP;
import com.yahoo.vespa.hosted.provision.node.NodeAcl;
import com.yahoo.vespa.hosted.provision.node.Reports;
import com.yahoo.vespa.hosted.provision.node.Status;
import com.yahoo.vespa.hosted.provision.node.TrustStoreItem;
import java.time.Duration;
import java.time.Instant;
import java.util.Arrays;
import java.util.EnumSet;
import java.util.List;
import java.util.Objects;
import java.util.Optional;
import java.util.Set;
import java.util.UUID;
/**
* A node in the node repository. The identity of a node is given by its id.
* The classes making up the node model are found in the node package.
* This (and hence all classes referenced from it) is immutable.
*
* @author bratseth
* @author mpolden
*/
public final class Node implements Nodelike {
private final String hostname;
private final IP.Config ipConfig;
private final String id;
private final Optional extraId;
private final Optional parentHostname;
private final Flavor flavor;
private final Status status;
private final State state;
private final NodeType type;
private final Reports reports;
private final Optional modelName;
private final Optional reservedTo;
private final Optional exclusiveToApplicationId;
private final Optional provisionedForApplicationId;
private final Optional hostTTL;
private final Optional hostEmptyAt;
private final Optional exclusiveToClusterType;
private final Optional switchHostname;
private final List trustStoreItems;
private final CloudAccount cloudAccount;
/** Only set for configservers and exclave nodes */
private final Optional wireguardPubKey;
/** Record of the last event of each type happening to this node */
private final History history;
/** The current allocation of this node, if any */
private final Optional allocation;
/** Creates a node builder in the initial state (reserved) */
public static Node.Builder reserve(List ipAddresses, String hostname, String parentHostname, NodeResources resources, NodeType type) {
return new Node.Builder(UUID.randomUUID().toString(), hostname, new Flavor(resources), State.reserved, type)
.ipConfig(IP.Config.ofEmptyPool(ipAddresses))
.parentHostname(parentHostname);
}
/** Creates a node builder in the initial state (provisioned) */
public static Node.Builder create(String id, IP.Config ipConfig, String hostname, Flavor flavor, NodeType type) {
return new Node.Builder(id, hostname, flavor, State.provisioned, type).ipConfig(ipConfig);
}
/** Creates a node builder */
public static Node.Builder create(String id, String hostname, Flavor flavor, Node.State state, NodeType type) {
return new Node.Builder(id, hostname, flavor, state, type);
}
/** DO NOT USE: public for serialization purposes. See {@code create} helper methods. */
public Node(String id, Optional extraId, IP.Config ipConfig, String hostname, Optional parentHostname,
Flavor flavor, Status status, State state, Optional allocation, History history,
NodeType type, Reports reports, Optional modelName, Optional reservedTo,
Optional exclusiveToApplicationId, Optional provisionedForApplicationId,
Optional hostTTL, Optional hostEmptyAt, Optional exclusiveToClusterType,
Optional switchHostname, List trustStoreItems, CloudAccount cloudAccount,
Optional wireguardPubKey) {
this.id = Objects.requireNonNull(id, "A node must have an ID");
this.extraId = Objects.requireNonNull(extraId, "Extra ID cannot be null");
this.hostname = requireNonEmptyString(hostname, "A node must have a hostname");
this.ipConfig = Objects.requireNonNull(ipConfig, "A node must a have an IP config");
this.parentHostname = requireNonEmptyString(parentHostname, "A parent host name must be a proper value");
this.flavor = Objects.requireNonNull(flavor, "A node must have a flavor");
this.status = Objects.requireNonNull(status, "A node must have a status");
this.state = Objects.requireNonNull(state, "A null node state is not permitted");
this.allocation = Objects.requireNonNull(allocation, "A null node allocation is not permitted");
this.history = Objects.requireNonNull(history, "A null node history is not permitted");
this.type = Objects.requireNonNull(type, "A null node type is not permitted");
this.reports = Objects.requireNonNull(reports, "A null reports is not permitted");
this.modelName = Objects.requireNonNull(modelName, "A null modelName is not permitted");
this.reservedTo = Objects.requireNonNull(reservedTo, "reservedTo cannot be null");
this.exclusiveToApplicationId = Objects.requireNonNull(exclusiveToApplicationId, "exclusiveToApplicationId cannot be null");
this.provisionedForApplicationId = Objects.requireNonNull(provisionedForApplicationId, "provisionedForApplicationId cannot be null");
this.hostTTL = Objects.requireNonNull(hostTTL, "hostTTL cannot be null");
this.hostEmptyAt = Objects.requireNonNull(hostEmptyAt, "hostEmptyAt cannot be null");
this.exclusiveToClusterType = Objects.requireNonNull(exclusiveToClusterType, "exclusiveToClusterType cannot be null");
this.switchHostname = requireNonEmptyString(switchHostname, "switchHostname cannot be null");
this.trustStoreItems = Objects.requireNonNull(trustStoreItems).stream().distinct().toList();
this.cloudAccount = Objects.requireNonNull(cloudAccount);
this.wireguardPubKey = Objects.requireNonNull(wireguardPubKey);
if (state == State.active)
requireNonEmpty(ipConfig.primary(), "Active node " + hostname + " must have at least one valid IP address");
if (state == State.ready && type.isHost()) {
requireNonEmpty(ipConfig.primary(), "A " + type + " must have at least one primary IP address in state " + state);
requireNonEmpty(ipConfig.pool().ips(), "A " + type + " must have a non-empty IP address pool in state " + state);
}
if (parentHostname.isPresent()) {
if (!ipConfig.pool().ips().isEmpty()) throw new IllegalArgumentException("A child node cannot have an IP address pool");
if (modelName.isPresent()) throw new IllegalArgumentException("A child node cannot have model name set");
if (switchHostname.isPresent()) throw new IllegalArgumentException("A child node cannot have switch hostname set");
if (status.wantToRebuild()) throw new IllegalArgumentException("A child node cannot be rebuilt");
}
if (type != NodeType.host && reservedTo.isPresent())
throw new IllegalArgumentException("Only tenant hosts can be reserved to a tenant");
if (type != NodeType.host && exclusiveToApplicationId.isPresent())
throw new IllegalArgumentException("Only tenant hosts can be exclusive to an application");
if (provisionedForApplicationId.isPresent() && ! exclusiveToApplicationId.equals(provisionedForApplicationId))
throw new IllegalArgumentException("exclusiveToApplicationId must be the same as provisionedForApplicationId when this is set");
if (type != NodeType.host && hostTTL.isPresent())
throw new IllegalArgumentException("Only tenant hosts can have a TTL");
if (type != NodeType.host && exclusiveToClusterType.isPresent())
throw new IllegalArgumentException("Only tenant hosts can be exclusive to a cluster type");
}
/** Returns the IP config of this node */
public IP.Config ipConfig() { return ipConfig; }
/** Returns the host name of this node */
public String hostname() { return hostname; }
/**
* Unique identifier for this node. Code should not depend on this as its main purpose is to aid human operators in
* mapping a node to the corresponding cloud instance. No particular format is enforced.
*
* Formats used vary between the underlying cloud providers:
*
* - OpenStack: UUID
* - AWS: Instance ID
* - Linux containers: UUID
* - GCP: Instance name
*/
public String id() { return id; }
/** Additional unique identifier for this node, if any, as above. GCP instance ID. */
public Optional extraId() { return extraId; }
@Override
public Optional parentHostname() { return parentHostname; }
public boolean hasParent(String hostname) {
return parentHostname.isPresent() && parentHostname.get().equals(hostname);
}
@Override
public NodeResources resources() { return flavor.resources(); }
/** Returns the flavor of this node */
public Flavor flavor() { return flavor; }
/** Returns the known information about the node's ephemeral status */
public Status status() { return status; }
/** Returns the current state of this node (in the node state machine) */
public State state() { return state; }
@Override
public NodeType type() { return type; }
/** Returns the current allocation of this, if any */
public Optional allocation() { return allocation; }
/** Returns the current allocation when it must exist, or throw exception there is not allocation. */
private Allocation requireAllocation(String message) {
final Optional allocation = this.allocation;
if ( ! allocation.isPresent())
throw new IllegalStateException(message + " for " + hostname() + ": The node is unallocated");
return allocation.get();
}
/** Returns a history of the last events happening to this node */
public History history() { return history; }
/** Returns all the reports on this node. */
public Reports reports() { return reports; }
/** Returns the hardware model of this node, if any */
public Optional modelName() { return modelName; }
/**
* Returns the tenant this node is reserved to, if any. Only hosts can be reserved to a tenant.
* If this is set, resources on this host cannot be allocated to any other tenant
*/
public Optional reservedTo() { return reservedTo; }
/**
* Returns the application this host is exclusive to, if any. Only tenant hosts can be exclusive to an application.
* If this is set, resources on this host cannot be allocated to any other application. Additionally, the host will
* not be reused once its allocated containers are deleted, i.e., this property can only be set once per host.
*/
public Optional exclusiveToApplicationId() { return exclusiveToApplicationId; }
/**
* Returns the application this host was provisioned specifically for, if any. Only tenant hosts can be exclusive
* to an application. This property, when set, also implies {@link #exclusiveToApplicationId()}.
* This is set during provisioning and applies for the entire lifetime of the host. Provisioning a host specifically
* for an application allows access to application-specific resources, through integration with cloud providers'
* provisioning-with-secrets mechanisms.
*/
public Optional provisionedForApplicationId() { return provisionedForApplicationId; }
/**
* Returns the additional time to live of tenant host, in a dynamically provisioned zone, after all its child
* nodes are removed, before being deprovisioned, if any.
* This is set during provisioning and applies for the entire lifetime of the host.
*/
public Optional hostTTL() { return hostTTL; }
/**
* Returns the time at which a tenant host became empty, i.e., no longer had any child nodes allocated.
* This is used with {@link #hostTTL} to determine when to deprovision a tenant host in a dynamically provisioned zone.
*/
public Optional hostEmptyAt() { return hostEmptyAt; }
/**
* Returns the cluster type this host is exclusive to, if any. Only tenant hosts can be exclusive to a cluster type.
* If this is set, resources on this host cannot be allocated to any other cluster type. This is set during
* provisioning and applies for the entire lifetime of the host
*/
public Optional exclusiveToClusterType() { return exclusiveToClusterType; }
/** Returns the hostname of the switch this node is connected to, if any */
public Optional switchHostname() {
return switchHostname;
}
/** Returns the trusted certificates for this host if any. */
public List trustedCertificates() {
return trustStoreItems;
}
/** Returns the cloud account of this host */
public CloudAccount cloudAccount() {
return cloudAccount;
}
/** Returns the wireguard public key of this node. Only relevant for enclave nodes. */
public Optional wireguardPubKey() {
return wireguardPubKey;
}
/**
* Returns a copy of this where wantToFail is set to true and history is updated to reflect this.
*/
public Node withWantToFail(boolean wantToFail, Agent agent, Instant at) {
Node node = this.with(status.withWantToFail(wantToFail));
if (wantToFail)
node = node.with(history.with(new History.Event(History.Event.Type.wantToFail, agent, at)));
return node;
}
/**
* Returns a copy of this node with wantToRetire and wantToDeprovision set to the given values and updated history.
*
* If both given wantToRetire and wantToDeprovision are equal to the current values, the method is no-op.
*/
public Node withWantToRetire(boolean wantToRetire, boolean wantToDeprovision, Agent agent, Instant at) {
return withWantToRetire(wantToRetire, wantToDeprovision, status.wantToRebuild(), status.wantToUpgradeFlavor(), agent, at);
}
/**
* Returns a copy of this node with wantToRetire, wantToDeprovision and wantToRebuild set to the given values
* and updated history.
*
* If all given values are equal to the current ones, the method is no-op.
*/
public Node withWantToRetire(boolean wantToRetire, boolean wantToDeprovision, boolean wantToRebuild, boolean wantToUpgradeFlavor, Agent agent, Instant at) {
if (wantToRetire == status.wantToRetire() &&
wantToDeprovision == status.wantToDeprovision() &&
wantToRebuild == status.wantToRebuild() &&
wantToUpgradeFlavor == status.wantToUpgradeFlavor()) return this;
Node node = this.with(status.withWantToRetire(wantToRetire, wantToDeprovision, wantToRebuild, wantToUpgradeFlavor));
if (wantToRetire)
node = node.with(history.with(new History.Event(History.Event.Type.wantToRetire, agent, at)));
return node;
}
public Node withWantToRetire(boolean wantToRetire, Agent agent, Instant at) {
return withWantToRetire(wantToRetire, status.wantToDeprovision(), agent, at);
}
/** Returns a copy of this node with preferToRetire set to given value and updated history */
public Node withPreferToRetire(boolean preferToRetire, Agent agent, Instant at) {
if (preferToRetire == status.preferToRetire()) return this;
Node node = this.with(status.withPreferToRetire(preferToRetire));
if (preferToRetire) {
node = node.with(history.with(new History.Event(History.Event.Type.preferToRetire, agent, at)));
}
return node;
}
/**
* Returns a copy of this node which is retired.
* If the node was already retired it is returned as-is.
*/
public Node retire(Agent agent, Instant retiredAt) {
Allocation allocation = requireAllocation("Cannot retire");
if (allocation.membership().retired()) return this;
return with(allocation.retire())
.with(history.with(new History.Event(History.Event.Type.retired, agent, retiredAt)));
}
/** Returns a copy of this node which is retired */
public Node retire(Instant retiredAt) {
if (status.wantToRetire() || status.preferToRetire())
return retire(Agent.system, retiredAt);
else
return retire(Agent.application, retiredAt);
}
/** Returns a copy of this node which is not retired */
public Node unretire() {
return with(requireAllocation("Cannot unretire").unretire());
}
/** Returns a copy of this with removable set to the given value */
public Node removable(boolean removable) {
return with(requireAllocation("Cannot set removable").removable(removable, false));
}
/** Returns a copy of this with the restart generation set to generation */
public Node withRestart(Generation generation) {
Allocation allocation = requireAllocation("Cannot set restart generation");
return with(allocation.withRestart(generation));
}
/** Returns a node with the status assigned to the given value */
public Node with(Status status) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history, type,
reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a node with the type assigned to the given value */
public Node with(NodeType type) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history, type,
reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a node with the flavor assigned to the given value */
public Node with(Flavor flavor, Agent agent, Instant instant) {
if (flavor.equals(this.flavor)) return this;
History updateHistory = history.with(new History.Event(History.Event.Type.resized, agent, instant));
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, updateHistory, type,
reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a copy of this with the reboot generation set to generation */
public Node withReboot(Generation generation) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status.withReboot(generation), state, allocation,
history, type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a copy of this with given id set */
public Node withId(String id) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation,
history, type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a copy of this with model name set to given value */
public Node withModelName(String modelName) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, Optional.of(modelName), reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a copy of this with model name cleared */
public Node withoutModelName() {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, Optional.empty(), reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a copy of this with a history record saying it was detected to be down at this instant */
public Node downAt(Instant instant, Agent agent) {
return with(history.with(new History.Event(History.Event.Type.down, agent, instant)));
}
/** Returns a copy of this with any history record saying it has been detected down removed */
public Node upAt(Instant instant, Agent agent) {
return with(history.with(new History.Event(History.Event.Type.up, agent, instant)));
}
/** Returns a copy of this with a history event saying it has been suspended at instant. */
public Node suspendedAt(Instant instant, Agent agent) {
return with(history.with(new History.Event(History.Event.Type.suspended, agent, instant)));
}
/** Returns a copy of this with a history event saying it has been resumed at instant. */
public Node resumedAt(Instant instant, Agent agent) {
return with(history.with(new History.Event(History.Event.Type.resumed, agent, instant)));
}
/** Returns a copy of this with allocation set as specified. node.state
is *not* changed. */
public Node allocate(ApplicationId owner, ClusterMembership membership, NodeResources requestedResources, Instant at) {
return this.with(new Allocation(owner, membership, requestedResources, new Generation(0, 0), false))
.with(history.with(new History.Event(History.Event.Type.reserved, Agent.application, at)));
}
/**
* Returns a copy of this node with the allocation assigned to the given allocation.
* Do not use this to allocate a node.
*/
public Node with(Allocation allocation) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, Optional.of(allocation), history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a copy of this node with IP config set to the given value. */
public Node with(IP.Config ipConfig) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a copy of this node with the parent hostname assigned to the given value. */
public Node withParentHostname(String parentHostname) {
return new Node(id, extraId, ipConfig, hostname, Optional.of(parentHostname), flavor, status, state, allocation,
history, type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node withReservedTo(TenantName tenant) {
if (type != NodeType.host)
throw new IllegalArgumentException("Only host nodes can be reserved, " + hostname + " has type " + type);
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, Optional.of(tenant), exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
/** Returns a copy of this node which is not reserved to a tenant */
public Node withoutReservedTo() {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, Optional.empty(), exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node withExclusiveToApplicationId(ApplicationId exclusiveTo) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, Optional.ofNullable(exclusiveTo), provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node withProvisionedForApplicationId(ApplicationId provisionedFor) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, Optional.ofNullable(provisionedFor), Optional.ofNullable(provisionedFor), hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node withExtraId(Optional extraId) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node withHostTTL(Duration hostTTL) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, Optional.ofNullable(hostTTL), hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node withHostEmptyAt(Instant hostEmptyAt) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, Optional.ofNullable(hostEmptyAt),
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node withExclusiveToClusterType(ClusterSpec.Type exclusiveTo) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
Optional.ofNullable(exclusiveTo), switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node withWireguardPubkey(WireguardKeyWithTimestamp wireguardPubkey) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount,
Optional.ofNullable(wireguardPubkey));
}
/** Returns a copy of this node with switch hostname set to given value */
public Node withSwitchHostname(String switchHostname) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, Optional.ofNullable(switchHostname), trustStoreItems, cloudAccount,
wireguardPubKey);
}
/** Returns a copy of this node with switch hostname unset */
public Node withoutSwitchHostname() {
return withSwitchHostname(null);
}
/** Returns a copy of this node with the current reboot generation set to the given number at the given instant */
public Node withCurrentRebootGeneration(long generation, Instant instant) {
// Unlike other fields, an unchanged generation cannot be short-circuited because the client can report the same
// generation multiple times, e.g. if a reboot happens locally on the host without a change to wanted
// generation. The client expects the "rebooted" event to be updated on every call to this.
if (generation < status.reboot().current())
throw new IllegalArgumentException("Cannot set reboot generation to " + generation +
": lower than current generation: " + status.reboot().current());
Status newStatus = status().withReboot(status().reboot().withCurrent(generation));
History newHistory = history.with(new History.Event(History.Event.Type.rebooted, Agent.system, instant));
return this.with(newStatus).with(newHistory);
}
/** Returns a copy of this node with the current OS version set to the given version at the given instant */
public Node withCurrentOsVersion(Version version, Instant instant) {
Optional newVersion = Optional.of(version);
if (status.osVersion().current().equals(newVersion)) return this; // No change
History newHistory = history();
// Only update history if version was non-empty and changed to a different version
if (status.osVersion().current().isPresent() && !status.osVersion().current().equals(newVersion)) {
newHistory = history.with(new History.Event(History.Event.Type.osUpgraded, Agent.system, instant));
}
Status newStatus = status.withOsVersion(status.osVersion().withCurrent(newVersion));
return this.with(newStatus).with(newHistory);
}
/** Returns a copy of this node with wanted OS version set to given version */
public Node withWantedOsVersion(Optional version) {
if (status.osVersion().wanted().equals(version)) return this;
return with(status.withOsVersion(status.osVersion().withWanted(version)));
}
/** Returns a copy of this node with firmware verified at the given instant */
public Node withFirmwareVerifiedAt(Instant instant) {
var newStatus = status.withFirmwareVerifiedAt(instant);
var newHistory = history.with(new History.Event(History.Event.Type.firmwareVerified, Agent.system, instant));
return this.with(newStatus).with(newHistory);
}
/** Returns a copy of this node with the given history. */
public Node with(History history) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node with(Reports reports) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
public Node with(List trustStoreItems) {
return new Node(id, extraId, ipConfig, hostname, parentHostname, flavor, status, state, allocation, history,
type, reports, modelName, reservedTo, exclusiveToApplicationId, provisionedForApplicationId, hostTTL, hostEmptyAt,
exclusiveToClusterType, switchHostname, trustStoreItems, cloudAccount, wireguardPubKey);
}
private static Optional requireNonEmptyString(Optional value, String message) {
Objects.requireNonNull(value, message);
value.ifPresent(v -> requireNonEmptyString(v, message));
return value;
}
private static String requireNonEmptyString(String value, String message) {
Objects.requireNonNull(value, message);
if (value.trim().isEmpty())
throw new IllegalArgumentException(message + ", but was '" + value + "'");
return value;
}
private static List requireNonEmpty(List values, String message) {
if (values == null || values.isEmpty())
throw new IllegalArgumentException(message);
return values;
}
/** Computes the allocation skew of a host node */
public static double skew(NodeResources totalHostCapacity, NodeResources freeHostCapacity) {
NodeResources all = totalHostCapacity.justNumbers();
NodeResources allocated = all.subtract(freeHostCapacity.justNumbers());
return new Mean(allocated.vcpu() / all.vcpu(),
allocated.memoryGiB() / all.memoryGiB(),
allocated.diskGb() / all.diskGb())
.deviation();
}
/** Returns the ACL for the node (trusted nodes, networks and ports) */
public NodeAcl acl(NodeList allNodes, LoadBalancers loadBalancers, Zone zone) {
return NodeAcl.from(this, allNodes, loadBalancers, zone);
}
@Override
public boolean equals(Object o) {
if (this == o) return true;
if (o == null || getClass() != o.getClass()) return false;
Node node = (Node) o;
return hostname.equals(node.hostname);
}
@Override
public int hashCode() {
return Objects.hash(hostname);
}
@Override
public String toString() {
return state +
( parentHostname.isPresent() ? " child node " : " host " ) +
hostname +
( allocation.isPresent() ? " " + allocation.get() : "");
}
public enum State {
/** This node has been requested, but is not yet ready for use */
provisioned,
/** This node is free and ready for use */
ready,
/** This node has been reserved by an application but is not yet used by it */
reserved,
/** This node is in active use by an application */
active,
/** This node has been used by an application, is still allocated to it and retains the data needed for its allocated role */
inactive,
/** This node is not allocated to an application but may contain data which must be cleaned before it is ready */
dirty,
/** This node has failed and must be repaired or removed. The node retains any allocation data for diagnosis. */
failed,
/**
* This node should not currently be used.
*
* This state follows the same rules as failed, except that it will never be automatically moved out of
* this state. While a host will never move out of this state, it can still be deprovisioned, as requested by
* its {@link Status} flags.
*
* When an {@link Agent#operator} moves a node to this state, all its status flags will be cleared.
*/
parked,
/** This host has previously been in use but is now removed. */
deprovisioned,
/** This host is currently undergoing repair. */
breakfixed;
/** Returns whether this is a state where the node is assigned to an application */
public boolean isAllocated() {
return allocatedStates().contains(this);
}
public static Set allocatedStates() {
return EnumSet.of(reserved, active, inactive, dirty, failed, parked);
}
}
/** The mean and mean deviation (squared difference) of a bunch of numbers */
private static class Mean {
private final double mean;
private final double deviation;
private Mean(double ... numbers) {
mean = Arrays.stream(numbers).sum() / numbers.length;
deviation = Arrays.stream(numbers).map(n -> Math.pow(mean - n, 2)).sum() / numbers.length;
}
public double deviation() { return deviation; }
}
public static class Builder {
private final String id;
private final String hostname;
private final Flavor flavor;
private final State state;
private final NodeType type;
private String extraId;
private String parentHostname;
private String modelName;
private TenantName reservedTo;
private ApplicationId exclusiveToApplicationId;
private ApplicationId provisionedForApplicationId;
private Duration hostTTL;
private Instant hostEmptyAt;
private ClusterSpec.Type exclusiveToClusterType;
private String switchHostname;
private Allocation allocation;
private IP.Config ipConfig;
private Status status;
private Reports reports;
private History history;
private List trustStoreItems;
private CloudAccount cloudAccount = CloudAccount.empty;
private WireguardKeyWithTimestamp wireguardPubKey;
private Builder(String id, String hostname, Flavor flavor, State state, NodeType type) {
this.id = id;
this.hostname = hostname;
this.flavor = flavor;
this.state = state;
this.type = type;
}
public Builder extraId(String extraId) {
this.extraId = extraId;
return this;
}
public Builder parentHostname(String parentHostname) {
this.parentHostname = parentHostname;
return this;
}
public Builder modelName(String modelName) {
this.modelName = modelName;
return this;
}
public Builder reservedTo(TenantName reservedTo) {
this.reservedTo = reservedTo;
return this;
}
public Builder exclusiveToApplicationId(ApplicationId exclusiveTo) {
this.exclusiveToApplicationId = exclusiveTo;
return this;
}
public Builder provisionedForApplicationId(ApplicationId provisionedFor) {
this.provisionedForApplicationId = provisionedFor;
return exclusiveToApplicationId(provisionedFor);
}
public Builder hostTTL(Duration hostTTL) {
this.hostTTL = hostTTL;
return this;
}
public Builder hostEmptyAt(Instant hostEmptyAt) {
this.hostEmptyAt = hostEmptyAt;
return this;
}
public Builder exclusiveToClusterType(ClusterSpec.Type exclusiveTo) {
this.exclusiveToClusterType = exclusiveTo;
return this;
}
public Builder switchHostname(String switchHostname) {
this.switchHostname = switchHostname;
return this;
}
public Builder allocation(Allocation allocation) {
this.allocation = allocation;
return this;
}
public Builder ipConfig(IP.Config ipConfig) {
this.ipConfig = ipConfig;
return this;
}
public Builder ipConfigWithEmptyPool(List primary) {
this.ipConfig = IP.Config.ofEmptyPool(primary);
return this;
}
public Builder status(Status status) {
this.status = status;
return this;
}
public Builder reports(Reports reports) {
this.reports = reports;
return this;
}
public Builder history(History history) {
this.history = history;
return this;
}
public Builder trustedCertificates(List trustStoreItems) {
this.trustStoreItems = trustStoreItems;
return this;
}
public Builder cloudAccount(CloudAccount cloudAccount) {
this.cloudAccount = cloudAccount;
return this;
}
public Builder wireguardKey(WireguardKeyWithTimestamp wireguardPubKey) {
this.wireguardPubKey = wireguardPubKey;
return this;
}
public Node build() {
return new Node(id, Optional.ofNullable(extraId), Optional.ofNullable(ipConfig).orElse(IP.Config.EMPTY), hostname, Optional.ofNullable(parentHostname),
flavor, Optional.ofNullable(status).orElseGet(Status::initial), state, Optional.ofNullable(allocation),
Optional.ofNullable(history).orElseGet(History::empty), type, Optional.ofNullable(reports).orElseGet(Reports::new),
Optional.ofNullable(modelName), Optional.ofNullable(reservedTo), Optional.ofNullable(exclusiveToApplicationId),
Optional.ofNullable(provisionedForApplicationId), Optional.ofNullable(hostTTL), Optional.ofNullable(hostEmptyAt),
Optional.ofNullable(exclusiveToClusterType), Optional.ofNullable(switchHostname),
Optional.ofNullable(trustStoreItems).orElseGet(List::of), cloudAccount, Optional.ofNullable(wireguardPubKey));
}
}
}
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